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 AK015_00015 972 xerD_1 Tyrosine recombinase XerD ATGGGACGTAGGAAGAACGTCATAGACGCCGATTTGATAGAACGAGAGGTAAATGTACCTACGCAATTAGAAACGGACTATGACGCGTGTTTAAACGCCTTCATTAAGCGATGTAAGATACGTAACCTATCGGAGGATACGATTAAATACTACGATCAAAAATTAACGTTGTTTCGTGATATTTTGGAAAAACAGCGTATACCTACCGACCCTACGAAAATGTCGCTCGAAATAATACAAAATAACGTTATCCTCTACTTGATGGACGGTAAGTACAAAGCATCATCGGTCAATGCGTTACTACGGGCGGTGCGTGCGTTTTATAATTACTTACATGACAACGGTATGGTCGAGCATAATCCCGTCCGAAAGCTGACACTCGTAAAAGCGCAAAAGACGGTCATAGAGACGTTTTCGCGCGATCAATTGTTGCGATTACTAGACCAGCCGAACGTAGCTACATTTACGGGATTTCGTGATTTAACGATGTTACAGTTATTTATTGAGACGGGTATTAGATTACGGGAAATGTCCGACTTAATGGTACGCGACATTCGGTGGGAGGACGCGCAAATACTCGTCAAAGGTAAGGGCGCAAAGGATAGGTTAGTGCCATTTCAGCCGAAAATGCGTCGGCAACTACGTAAGTATGTAACGATAAGAGGCGACATTGCTTGTGATCATTTATTCGTCAATATTGACAATTTACCATTATCTCGTAGGCAAATACAAGAGCGTGTGCGAAAGTACGGCAGGATGGCGAATATTAAAAACGTAAGATGTAGTCCGCATACTTTGCGGCATACTTTCGCTAAGCTTTCCGTACAAAACGGAGCGGACGTATTTGCGCTGCAGGCGGTGCTAGGACACGAAAGCCTAGATATGGTGCGTAACTATGTAAATTTGTTTAGTAACGAGGTTGCGGACGCTCACCGTAAATTTAGTCCGTTGGAAAGTTTGATTAAACGGTAG MGRRKNVIDADLIEREVNVPTQLETDYDACLNAFIKRCKIRNLSEDTIKYYDQKLTLFRDILEKQRIPTDPTKMSLEIIQNNVILYLMDGKYKASSVNALLRAVRAFYNYLHDNGMVEHNPVRKLTLVKAQKTVIETFSRDQLLRLLDQPNVATFTGFRDLTMLQLFIETGIRLREMSDLMVRDIRWEDAQILVKGKGAKDRLVPFQPKMRRQLRKYVTIRGDIACDHLFVNIDNLPLSRRQIQERVRKYGRMANIKNVRCSPHTLRHTFAKLSVQNGADVFALQAVLGHESLDMVRNYVNLFSNEVADAHRKFSPLESLIKR PGPT0022000_2836 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763 NA NA AK015_00016 549 hypothetical protein GTGAAACGTCTTATAATTTTATTTATATCGGTAATGGTAGCGCTTGTTTTGACGGCTTGTGGCGGTGATGAATCAGACGCAAAGACAGAAACACAGCCGACAGAAAAAGCGGAAAAGGTCGAAAAGAAAAACGACAGCAAAGACGTCAGTAGCGAAGTAGTCGAATCTGAGACAAGTAAAATTAAAATATTAGGATCGGAGATTGTCCCGCATAAGTATGAGGAAGGCGTGGATATGCTCGTAGTAGAGGTTGAATTTACAAATAAGAAGGATGAGCCCTCCGGGATTACAGATGATTTTTCTACGATTGAAGCTGTTCAAGAAACAGAATCTTCGGTGGATAGACTAAATAATAATAGCCTTGCGGGCTTACCTGATGACTACAAACCGGAACTTAAAGAGATGTCTGAAACTGGCGTGAAAAGTGGTGCAACGGTTAAATCATTAATTGCGTTTGACATAAAACATCCGGGAGAGTCTGTAAAGTTAATTAATTATGACGGACTGGAAACAGGTTTGACCTTCGAAAGAGTTATTGAAACGGAATAA MKRLIILFISVMVALVLTACGGDESDAKTETQPTEKAEKVEKKNDSKDVSSEVVESETSKIKILGSEIVPHKYEEGVDMLVVEVEFTNKKDEPSGITDDFSTIEAVQETESSVDRLNNNSLAGLPDDYKPELKEMSETGVKSGATVKSLIAFDIKHPGESVKLINYDGLETGLTFERVIETE NA NA NA NA NA AK015_00017 330 hypothetical protein ATGTCCGACCATCACAAAACCGTACTCGACTTTCGCAAACGCCGTTTCTTCCGAGTCACTCGCGCAGTTATAGCCGATGAATCCCGTTTAACCAAGCCGGTAGACATCACAATATACACCGTCCTTTGCATGTACGCAGACAACAACGACATGTCCTCGCATCCTAGCGTTGGCACTATCGCAGCAAAGGCGAGATGTAGCGAGAGAGTGGCGCATAGGTCGTTAAAGGTACTTGAGGAGGCGGGCTATATCGAAATAATTAATCGGACGGACAGCCGAGGTTTTAAAACGAGTAATCAATACGTGTTACTGGACGTGCCGGACGGGTAA MSDHHKTVLDFRKRRFFRVTRAVIADESRLTKPVDITIYTVLCMYADNNDMSSHPSVGTIAAKARCSERVAHRSLKVLEEAGYIEIINRTDSRGFKTSNQYVLLDVPDG NA NA NA NA NA AK015_00018 396 hypothetical protein ATGGGTAAAAAAGTAAGATTACCTAAAGAGTTAACAGAAGCGATAGAAAGCATTAGAAATAGCAAAATGTGGAGCTTAGATGTTTACAACTTAGATAATATAATGAGAAACGGAATTAATACTCCTGAATCAAGTTACGGAATTATTTACAACTACTTAAAGCAACATAGCGGTTATGGTTATAGACATGGCTTATCCGATGTAAAAATAAAGAAATATTTTGACGCCGTAGTAAATGGTTACGAAGTAGAAACAAAAGAGGATGCTTTAGCCAAACGGTACAGGTTTTTAATGCATGGAGGAGGCGATCAAATACACGAAGCAGACGGAATCAAATACGCACTCGACATGTTAGGGATCACAATCGAAGGTATTAACGACAAGGAGGACGATTAA MGKKVRLPKELTEAIESIRNSKMWSLDVYNLDNIMRNGINTPESSYGIIYNYLKQHSGYGYRHGLSDVKIKKYFDAVVNGYEVETKEDALAKRYRFLMHGGGDQIHEADGIKYALDMLGITIEGINDKEDD NA NA NA NA NA AK015_00019 183 hypothetical protein ATGAAGGTAACTATCCCAATTATGTACGACAACTATAACACGAATATAACGCAAGGACTAGCGATTGAACAGAACGATACAAACGTATTCTTAACGATGTCTGGAGAGTATGGAGACCGAACTATCGAAGTCAACGCCGACCAGCTACGCAAATCACTCGCAGTATTAAAGGAGGACGCATAA MKVTIPIMYDNYNTNITQGLAIEQNDTNVFLTMSGEYGDRTIEVNADQLRKSLAVLKEDA NA NA NA NA NA AK015_00020 315 hypothetical protein ATGCCGTTAAATATCCGTATCAACGAAAACTACCGCATCACATCTGACAGTCACAACGTAATCCTACGCAAGCGAAAGCTAGTCGACCCGACGAAAGCGCCGAATTGGGAAAAACGTAAAGCCAACGGAGCTTCATCGGAAATAACCGTCAAATGGGAGGATGTCGGCTACTACTCGAAAATAGAGCGGGCGATTAACGCGGTAGTCGATAAAACGATACTCGATTCGAACGCAGAAACAATCCCGCAGTTGCTTGACGAAATAAGCCAAATTAGACGGCAAATCAGCGATGTTTTGACGCAACATGACGTATAA MPLNIRINENYRITSDSHNVILRKRKLVDPTKAPNWEKRKANGASSEITVKWEDVGYYSKIERAINAVVDKTILDSNAETIPQLLDEISQIRRQISDVLTQHDV NA NA NA NA NA AK015_00021 411 hypothetical protein ATGCTAACGAAACAACAACTCGAAGAAATAGCGGAAAGGGCGAACAAAGCTACGGAAGGACCGTGGGGGGTCGAATTTGGCGCAGTAACTTCGGAACACGCTAATACGGAAATGTTTTTAGGAGAAAAAATTAACGAAGTATGCTCGCTAAATGACGGCGAATATATTATAAATCATAACGAAGATAACGACGCAACCTTCATCGCCAACGCTCGCGAAGATGTGCCGAAGTTGCTCGAACACATAGCGGAACAAGAGACGGAGATTGAACGGTTAAGGAATCAAGAACGGGTAGCTACGGAACTGTATAAAATTGTGCTGTGGACGACACGCAGGTTACCGCAATCATACAAGCCGATGGTGTACGACTGGATCGATGAAGCTACCAGAAATGAGAGCGAACGAGTATGA MLTKQQLEEIAERANKATEGPWGVEFGAVTSEHANTEMFLGEKINEVCSLNDGEYIINHNEDNDATFIANAREDVPKLLEHIAEQETEIERLRNQERVATELYKIVLWTTRRLPQSYKPMVYDWIDEATRNESERV NA NA NA NA NA AK015_00022 285 hypothetical protein ATGACGGAAGAACAACGTATTAGAGACATTGTCGAAAACGTAGAGGAACTAAGGTACAACGACATGATATTGCCGGAGTTTTTTGAGGATATGGCTTTTTTGATTAAATCGTTTTACTGGAAAAAGAAGTACGAACGGACTTTAAAATCCGTGCGAGAAGAATTATGGTACGCATTGCACTCGAACAAAGACGATGATGACCGGTGGTTTTATGTAACAAATGCTGAAAGATTTATTAAGGAGGTATTACATGACGAAGAAGCCGAAAACAGCGGACTGGAGTAA MTEEQRIRDIVENVEELRYNDMILPEFFEDMAFLIKSFYWKKKYERTLKSVREELWYALHSNKDDDDRWFYVTNAERFIKEVLHDEEAENSGLE NA NA NA NA NA AK015_00023 399 hypothetical protein ATGACGAAGAAGCCGAAAACAGCGGACTGGAGTAACCTGCCGATCGAAAAATGGAACACGACGACATTTACCGAATATTTAAAGGCGAAACACCTCGAAATGTTCGGAATTGACTACGTGCCTTATCGCGGTTGGGGCGCGGAACAAGGACAACTAGGTAACCTAATCGGCACACGTACAAAACCAGCCACGGAGGACAAAGCGCTAGTCAAGCGGTTTATTGATGAATCTTTCGCAGAGTATCGCCCTAATCCGAAATATCCGGGAGTCAGTTTCGGTTGGTGCTGGACGTATAAGAAACCGACGTGGCAACGAGTAAAGGCGGAGTATTTGGCGGAACAGAAAGAGAGGGAGAAAGCTAACAACGTCGACATGCAAAGCGTAATGGATTGGCTATAA MTKKPKTADWSNLPIEKWNTTTFTEYLKAKHLEMFGIDYVPYRGWGAEQGQLGNLIGTRTKPATEDKALVKRFIDESFAEYRPNPKYPGVSFGWCWTYKKPTWQRVKAEYLAEQKEREKANNVDMQSVMDWL NA NA NA NA NA AK015_00024 588 hypothetical protein ATGCTAGATTTACAAAAACCGTATTCGCAAATGACGACGGAAGAACTCGCGGAGTTGCAAATGAAGATTGCGAAATACATTGCGTATAGAGCACGTGAGGAGGTAGATGGAAAAGAGCCGGAGAGCATATTCGACCAGTGGAACGAAACAGGCGGGCAAGTCGACCAGCAGGCGGAAAGAGATCGTATTGTTGCGCAGGCTAAGGCGTTTGTCGTCAACAGGTTAAATCACCCGACTTTCCGAGTAGAGTTCGTTGTTAACAGAGAAAAACGCACAGTAGTCGCGTTGTTAAGACGATATTTTACGTACGAAGTGTATACAAGAGGCATCGCAAAATGCCATCCGGACGATTGTTTTAACGAACATATCGGCAAGTATATAGCGATACTTAGAGCGTATGGAGATACGGTTGCTGACGAGTATTTGTACACGCCACAGCCTACGGAAGTTCGGGTTGATGACGTTGTAGAATATTACGGTAACATCGGCGTAGTAGATGAAAGAAGCGTTAAGGCGTATAACAACGCCGAGGGTGTGAAAATAATCGACGACTCCGACTCGACACCGCCGGAAGGAGACAACGTATAA MLDLQKPYSQMTTEELAELQMKIAKYIAYRAREEVDGKEPESIFDQWNETGGQVDQQAERDRIVAQAKAFVVNRLNHPTFRVEFVVNREKRTVVALLRRYFTYEVYTRGIAKCHPDDCFNEHIGKYIAILRAYGDTVADEYLYTPQPTEVRVDDVVEYYGNIGVVDERSVKAYNNAEGVKIIDDSDSTPPEGDNV NA NA NA NA NA AK015_00025 213 hypothetical protein ATGAGTAAACACGAACAAACTACGACATTAAAAGGCGTAACGTTCGGTTCTGATGAGTACATCCGCATAGCCAAATACGCAGAAAAACGTGGAGAAGTCGCAGAGGCACTCGAGCGATTAGACGAAGCAGTCGGCGATGTTGTTAACTTACTACCGGACATGACACGTGACGAGCGTATTAAAGCCGGTGAGATTATCGAGCAGTTAATATGA MSKHEQTTTLKGVTFGSDEYIRIAKYAEKRGEVAEALERLDEAVGDVVNLLPDMTRDERIKAGEIIEQLI NA NA NA NA NA AK015_00026 195 hypothetical protein ATGACGGAAAAACAACGAAATGGGGGCGATAATATGAGCGCAGAGGATTACGTTAATGCGGTCTTGGTGCTTACGGAACCTTGCGAGTGTGGTAAAGACGGTCATATATGCGATAGGTGCGGAGGAACAGGCGAAGTATTAACGGAAAATGGTAAAGCGTTAATACAGTATATACGTACGTATTTATTCGACTAG MTEKQRNGGDNMSAEDYVNAVLVLTEPCECGKDGHICDRCGGTGEVLTENGKALIQYIRTYLFD NA NA NA NA NA AK015_00027 747 hypothetical protein TTGCGCAAATGCTTATTAGACGAAATCACGACGGAAGCCTGCACGCCACATTCGGCAATCCACGTAGGCTTCCACGGCACAAACGGCACAGGCGGAAGACTTGGCGCGGCTAACATACCGCCTGACTACCGACATGTTACGGTGTCAAACTCGCCTGCCCGCGCTGACCAAGCGAAAGTATACACGGTGGTTGACCGGTATATTGAGACGTTTAGCCGACAGTTTGATGACGATAGCGAGCCGGTAAAGTCCATGTACTTATACAGCGAGGAACCCGGCACGGGGAAAACAACGACAGCAGTCGCAATATTAAACGCTTGGCTTGTCGTACATTACGTGGGGTCGATACAGCGCGGCTTACAGCCGAAGCAACGACCGGGGTACTTCCTCGACGCTCACGCATTACAGGCGGACTACAACGCATTTAATCGTCCACGTGTGCCCGATAGCATCGCCGAACCGGCAAGCGGACGTTATTACAACGCCATTATACGAGCAAAAGAAGCGCCGTTTGCGGTAATTGACGACCTAGCAACGCGTAGCACAAGCGAGGCGTTTGTTGCGGACTTACACGGCGTGATTAATGCGAGGGTAACTAGCGGTAAACCAACGGTGTATACGTCAAACGTGGCTGTCGATAAATTGCCGGCGGTTTTCGGGGAGCGTAGGCTTGCCGACAGAATAGGCGATAGGAAGTTATGCCAGACGTTATATTTCGAAGGGAAATCGAAAAGGAGGGTGCGGTAA MRKCLLDEITTEACTPHSAIHVGFHGTNGTGGRLGAANIPPDYRHVTVSNSPARADQAKVYTVVDRYIETFSRQFDDDSEPVKSMYLYSEEPGTGKTTTAVAILNAWLVVHYVGSIQRGLQPKQRPGYFLDAHALQADYNAFNRPRVPDSIAEPASGRYYNAIIRAKEAPFAVIDDLATRSTSEAFVADLHGVINARVTSGKPTVYTSNVAVDKLPAVFGERRLADRIGDRKLCQTLYFEGKSKRRVR NA NA NA NA NA AK015_00028 573 hypothetical protein TTGCGAACTAACTTACTAACGTTATCAATCGGCGGGTTTGTTGTCGCGCTCTACGGACTGTCAAAAATCGGGGAGCAAGCGAGTAAAGACGTAGAACAACAACGCGACTGGACGAAAAACTACACGCCAACGCCGAGATTTGACGCACCTATGTTCGAGGTTGGCGACGAGGTTTTAATATACAGCCCGTACGAAAACGGATATTACGCAAAGTACGCTAATACATCTCCGGAGTTTTACGAGATATCCGACATAGGCTACGACGAGCAGGACTGCGTGTATAGATACCGACTTGTTAACGACCCTATGCTAGAAACGGACGGAAAGTGGATTTCGGAGGATTGGCTGTCATTGCCGATGTATACGAAATTTGCGAAGGAGCTTGACGACGGTGAACAGACAGAACTACCAACGCCAGAATTTATCGAAGCTGAACGGAAAATCATCGGTAAGGTGATGGACGATATGGCGCGGAAGGCTACGGTGGATGCGCTGTTAGATCGGATGAATAGCGGTGATTTGACGGCGCAAAGAGAGTTGGCGGAATTGATTACGAGGGAGGAAGAGTATTGA MRTNLLTLSIGGFVVALYGLSKIGEQASKDVEQQRDWTKNYTPTPRFDAPMFEVGDEVLIYSPYENGYYAKYANTSPEFYEISDIGYDEQDCVYRYRLVNDPMLETDGKWISEDWLSLPMYTKFAKELDDGEQTELPTPEFIEAERKIIGKVMDDMARKATVDALLDRMNSGDLTAQRELAELITREEEY NA NA NA NA NA AK015_00029 162 hypothetical protein TTGAAACACTGGTATGAGTCGTGTATAGGAGATATATTTCAAACTGATAAAATACTTTCCTTTGAGGAGTCTTATTGTGGTATATGCGGAGATTCCCATTACTATATTGGAGTGTATGAGACAGAGGAAGAAGCAATTAAAGCATTGGAGGGTGAGGAATGA MKHWYESCIGDIFQTDKILSFEESYCGICGDSHYYIGVYETEEEAIKALEGEE NA NA NA NA NA AK015_00030 327 hypothetical protein ATGAGTAAAGAATTATTCCCAGTTGTAGTTGAAACTATACCGCCCCACTTAAGGAAAGGTTCACTTATTCATAAGTGTGAGCCCGGTTATAAATACGAAAGAATTGAGTGGTTAGAGAATAAGGAGTTTTCAGATGAGCTTAAGTATGTAGGATTAAATATAGGAGTACAAACAGTTACTTTTATGGATACTAAAGGAGCTTTATACCATATGTTCCTTAGTGATTTTAATTACCTAATTAAAAGTAAGTTATTAAAGGAAGACAAAGTTAAGGCTGCTTGGGAATTTGTTAAAAAAGGTCACAGATATGGTATTAAGTTAGCTTGA MSKELFPVVVETIPPHLRKGSLIHKCEPGYKYERIEWLENKEFSDELKYVGLNIGVQTVTFMDTKGALYHMFLSDFNYLIKSKLLKEDKVKAAWEFVKKGHRYGIKLA NA NA NA NA NA AK015_00031 357 hypothetical protein ATGACTGATAAGGAACGGTTGGAAGAGGTAAAAGACATGTTAAATTGGGCAGACGAATATCAAGAAGAAGGTAATGGAAGATTGGTAGAACAGACTGCAAAACAAATGTATCAAGAAGGTCATATTGATTGGCTTGTAGAGCAAGCCGAAGAATTACACGGAACAAAAGGCAGATACGGATATAAAGGTATGTGGGCTTTGTGCAATCGAGATTACGGGCGATTAAATGCAGAAAACGAACGGTATAAACAAGCAATAGAAAAGGCATCTGATGAATTAGGTTGGGGAGATGCAGAAAATGCCAATTTAAGAGTTGATAGAATTTTAGTTAGGGCGTTGAAAGGAGAATCAGAATGA MTDKERLEEVKDMLNWADEYQEEGNGRLVEQTAKQMYQEGHIDWLVEQAEELHGTKGRYGYKGMWALCNRDYGRLNAENERYKQAIEKASDELGWGDAENANLRVDRILVRALKGESE NA NA NA NA NA AK015_00032 261 hypothetical protein ATGACGGATAAAGAACGATCAAAAGAAATAGAAGATAGATACGAACCTCAGAAAGAGGTCGCAGAATATGCAGGGATAGGTATGATTTTAGGAGATTACGAGTTTCTCATACAACAAGCTAAACGAGCGCAGGAGTTAGAGGAACAAAACCAACGCTATAAACAAGCTTTAGAAGAAATAAGGGGGATGTCCCGAGATTCGTTAATTGATGGAAAATATTTCGAAGTATCAAATGAAGCATTGGAGGGAGAAAATGAGTGA MTDKERSKEIEDRYEPQKEVAEYAGIGMILGDYEFLIQQAKRAQELEEQNQRYKQALEEIRGMSRDSLIDGKYFEVSNEALEGENE NA NA NA NA NA AK015_00033 201 hypothetical protein ATGAGTGACGGATACATTTACGTACTCTACAAAAACGGCACACTATACGGAACCGCGGCAAGTCCGCAATATATGACCGAATTGTTTTGGGACTACGTCGAACTAATGGACATGTACGGAAGGGAACACGTAAGGTTTGACGTAGTTAAAGTAAGAGACAAAGACGATTTAAAAGCGCACCTAGACGAAAAGGAGGAGTAG MSDGYIYVLYKNGTLYGTAASPQYMTELFWDYVELMDMYGREHVRFDVVKVRDKDDLKAHLDEKEE NA NA NA NA NA AK015_00034 1344 hypothetical protein ATGCCAAACGTAGGCGAGCAGTTATTGTCACGAATACTAGACGATGGCACAACGCAAGCAACTCGCACGTATTCAATTGATGAGCGAGATTTTGCTACGGACACCGAACGTCAAGTATTCCGATTTATCAGCGAGTATGCGTACGAAAACGGAGGCAGCACGCCTGATTATCGGACAGTTGTCGAGCAATATCCCGACTTTTATTACCGAGAGGGGGTGACGGACAGTTATTCGTGGCTGGCTAAGCAAATTAAGCAGCAGTCGGCTAAACGACAATTAGTTGAATATATGCAGAGTAAGGAAACGCAAGATAACTTCGCCGATATGGACGGATTTTCTTTCCTCGGGGACTTGCAAAATCAAATCGAATCTATTACAATTAGAACAAGTGTTCGTGATAAAGTAGGAACGAGCATTAAAAACGACACGGAAAAGATAAAAGAAGAATATTTTCGCAGGAAACGCGGTGAGTCGTTTAAAATATGGCAAAGCAACTACTCCATAATTAACGACGTCGGCGGCTATGTGTCGTCAAATATATACGTACCTTACGGTAAGTCAGGGCGGGGTAAGTCGGCTGTTACGCTGTATGAATCTTTACATCTCGCCGAACAAGGCGCAACTGTGTTGGTATGGTCGATGGAAATGGGCTGGTACGAGGTAATGGTGCGTTTATTCGTCTATATGTCCGCTAAACAGGGCATAACTCAAGCGGAAATTGACGGCGAGGTTTTTGAGGCGGGCTTTGAGTCGAGAGGCATCCGACAGGGTACTTTATCTGACGAGTTTGAGCGTGAGTTTCTCGACTTTCTCGATTACATACATACGGGGCTAGACGGCGACTTAATCGTTCGTGGTGTAGACGACGAGGACTTTATACGTAGGGACTTACGTCAGCTAGAGTCGGAGATAGCGATAAATGATGCTGACGTGGTCGTAATAGATCCGTTTTATTACCTCGACTACGAAAAAAATACATCTCGCAAAACAGGCGGAGACGCCGAAAACACGTCTAAGTCCTTACGTAGACTTGCAGGACGAACTAAGACGGTGATATTCGCGATTACACAGGCGGAAGAAACTAACGAGGACAAAGACGAGGACGGCGTTAGAGAGGTCGCTCTACCTGAGCGAGCGCACGTCAAGAAAACGAAGCAACTACTCGAGGACGCGGCGATGTTGATACCGATTGACACAAATTACGAAGAAGGACGAGGGCTGGTCGGCATTAACAAAGGACGCGATGGTGGCGAGGGAACAGAGTGCGAAATTACGTACCTACCGCAGATTGGCGTGATAAAAGAACTGACCGCGGACGCAAATGCCTTTACGAAAGTATTTTAG MPNVGEQLLSRILDDGTTQATRTYSIDERDFATDTERQVFRFISEYAYENGGSTPDYRTVVEQYPDFYYREGVTDSYSWLAKQIKQQSAKRQLVEYMQSKETQDNFADMDGFSFLGDLQNQIESITIRTSVRDKVGTSIKNDTEKIKEEYFRRKRGESFKIWQSNYSIINDVGGYVSSNIYVPYGKSGRGKSAVTLYESLHLAEQGATVLVWSMEMGWYEVMVRLFVYMSAKQGITQAEIDGEVFEAGFESRGIRQGTLSDEFEREFLDFLDYIHTGLDGDLIVRGVDDEDFIRRDLRQLESEIAINDADVVVIDPFYYLDYEKNTSRKTGGDAENTSKSLRRLAGRTKTVIFAITQAEETNEDKDEDGVREVALPERAHVKKTKQLLEDAAMLIPIDTNYEEGRGLVGINKGRDGGEGTECEITYLPQIGVIKELTADANAFTKVF NA NA NA NA NA AK015_00035 978 dnaG_1 DNA primase TTGGCGATAATAAGGATAAACGGGCAATCGATAGATGTCGACATATATTCGGAGCTTTCCACGTTTAACTGGACTCGCCCTCGTTGGTCTGCGGATAAACTCATCGCCGCCAGCCCGTTTAGATACGACAACACCCCGTCATTTTTCGTCAACTTAGACGGAGAATACGCAGGTACGTGGGGCGATAGCGGTGCGTACGATGCCGATTATGAATCGGGTAATTTCGTTAAGCTGCTAGCGTTTCTCCGCGACGAAACATACGAAGAAACAGCCGAGTATTTAATCGATTTATACGGCGTAAATAAAGCGCACAACGGTGAGTCGCTAAAGTTACCTACTTTAAGCTTGCCGAATCAGAAAAAGCCGGTAGTGCTTTCAGAATCGACGTTAAAGCCATACACGTACAAGCATCCGTATCTACATAATCGAGGAATCACCGAAAAAGTACGTAAGTTTATGGGCGTTGGGTATGCGCCAAGTAAAAACGCGATTACTATACCGTGGCGTTACGCTAACGGCAAGCTGGCTAACGTTAAATACCGTAAGGTGCAAGGTAAGGCGTTTTGGTATCGTAAAGGTGGCGAGCCAGTACGAAAACTAATCTACGGACTCGACAAAGTATATCGGCATGGTTTAACGGAGGTTTATATATGCGAGGCGGAGATTGACGTTATGTCCGTGTATGTTGCAGGCAAGCCTGCGATTGCAGTCGGTGGTGCGAGTATTAGCGATAAACAAATCGAGTTAATACGTAAAAGTCCGATTGAGTGTGCGATAATAGCTACGGATAACGACAAGGCGGGCGTTAAGTTAAAACGGGAGTTAATAGATGCGTTGAGTAGTTCGCTGGAGGTGCGGGAGTTAGTGTGGGGTGACACGCAAGACACGCAAGTTAAGGACGTCAATGAGGCGTTGGTTAGCGGGCGAGTGGATGCGTTGGAAAAGACGCGCCGTGTTGAGCGCGCCTTCGGGGGTTAG MAIIRINGQSIDVDIYSELSTFNWTRPRWSADKLIAASPFRYDNTPSFFVNLDGEYAGTWGDSGAYDADYESGNFVKLLAFLRDETYEETAEYLIDLYGVNKAHNGESLKLPTLSLPNQKKPVVLSESTLKPYTYKHPYLHNRGITEKVRKFMGVGYAPSKNAITIPWRYANGKLANVKYRKVQGKAFWYRKGGEPVRKLIYGLDKVYRHGLTEVYICEAEIDVMSVYVAGKPAIAVGGASISDKQIELIRKSPIECAIIATDNDKAGVKLKRELIDALSSSLEVRELVWGDTQDTQVKDVNEALVSGRVDALEKTRRVERAFGG NA NA NA NA NA AK015_00036 204 hypothetical protein GTGTTATTTACATACAGAAAATTGGACGACCTGTTAAAAAGAAAAGGACTATCTTACAATAAACTAATGAAACTAGAGGTTATTACGGACTACACCGCTAAAACATTACGGAAAGGTGGGTCGGTACAAATCGAACACTTAGCTAAAATATGCCGCTACCTAGACGTACCCATTGAAGATGTCGTAGAAGTCATACGCGACTAA MLFTYRKLDDLLKRKGLSYNKLMKLEVITDYTAKTLRKGGSVQIEHLAKICRYLDVPIEDVVEVIRD NA NA NA NA NA AK015_00037 552 hypothetical protein ATGAATAAAATGGTTTTAGTTTACGAACAAGATTGGTTGATTAGTAGAATTTATGAAGTGTCGGATAGGATAAGGAATAAAATAACTTACCAAACCGATTTCGAGGAACGGTGTATCGAAATAGTTGGCAACTACCTTAGTCTAGATAAGAGTAACTGCAAAAACAAACGCTACATAGACTCACTAATAAACAAGGTAGCGTCTGACTCAATTAACAAAAGATATAAAAAAGAACACTACGATGTATTCAGCACTTTTATTAACGACGATACAAGCGAGGACGAAGAAATCAATCTTGATCCCCCTGACGTTTTGGCGAACGTAGAGGCGGAAATTGAACAAAAAGAAGTGACCGCTGTTTTGGCGAACGGCGATCACAAGAAATCCTTAATCTTAGATTGCTGGACTATCGGAAATACTAACGGAAAATCAATTGCCCGTATGTTGGCGCATACGTTCGGAGGCAATGCCGAAAGTCACCGAAAGTCAATAAATAGATTTCGCACTAAATGCTCTAAAAAATTGGCGTATTTTTATCAACAAGCAATTTAA MNKMVLVYEQDWLISRIYEVSDRIRNKITYQTDFEERCIEIVGNYLSLDKSNCKNKRYIDSLINKVASDSINKRYKKEHYDVFSTFINDDTSEDEEINLDPPDVLANVEAEIEQKEVTAVLANGDHKKSLILDCWTIGNTNGKSIARMLAHTFGGNAESHRKSINRFRTKCSKKLAYFYQQAI NA NA NA NA NA AK015_00038 177 hypothetical protein ATGAACACATATTCAGCGCAACACAACGTAAGCACTACGCAGGTAATCCCGAAAATGTCCGAACTAATCGCACGCTCAACGCCAGATTACGACTACAACGGCGCACTCCAAGCGGACGAAGACATCTTAGACTACGTATTTTTACCGCAAGCCCTAAAGGCGGTGCGTTGCGGATGA MNTYSAQHNVSTTQVIPKMSELIARSTPDYDYNGALQADEDILDYVFLPQALKAVRCG NA NA NA NA NA AK015_00039 522 hypothetical protein ATGACTGACGTAATCGTAATGAAGCACGCAAGGGAGAGGGCAGTAGAAAGGTTCGACGTAGATAAACGAAAAGCAGACGAATGGGTTCGACAAAAACTAGAGGCGGCGAAGTTTATCGACACTATCTTAGACGACAACGGAAAACCAGCTAACCTTTACGCAATAAACGGAGTACAACTCGTACTAACCACCGACAACAAGGCGGTACTAACGATACTTAAGCCACGTAATAACGGCGAGGTGAAAAACAAACTACGCAACTTCGCCCGTCAAGAAATCACGAAAGAACAGACGAAAGAGCGGCGCAGATTAAACGAAGTCACACGTATGCAAGCGGAAATAGAAATGGAAATCGGCGAGTTGAGACTACGATTACTAAAGACGCGTAGCCTGCCGAAGAAGCTTGCGATACAAGGACGTATAAAGGCGCTTAAAATGCGGTTAGATGAGATACCGCAGGAGCAACACGTGATTAAGCGGAAACGAGTAGTTGTGGTACAATCGTTGGCGCGAGTTTGGTAG MTDVIVMKHARERAVERFDVDKRKADEWVRQKLEAAKFIDTILDDNGKPANLYAINGVQLVLTTDNKAVLTILKPRNNGEVKNKLRNFARQEITKEQTKERRRLNEVTRMQAEIEMEIGELRLRLLKTRSLPKKLAIQGRIKALKMRLDEIPQEQHVIKRKRVVVVQSLARVW NA NA NA NA NA AK015_00040 780 hypothetical protein ATGGCGGAGATTTTAACGGGAGCAGATGCGTTAGGGGCGTTAAATGACAGCGGAGGAAATAACGTAAGCAATAATAAGGACTTTACGAAGTTTAACGTTGGTTACAAGTATACGGTAAAGATTCTCGGACTTAACGATTTATTTGCGTTTTATAAATACGGTATTTATAAAAAAGGAGGCGGAGGTGTTAACTCGTTTATCGCAAAAAACCCAAGCAAAAAATCGGCGAAAGGGTATCCAGTCGAAAACCTAACGCCGTGGGATAAAGCATGGAAATATCACGCGGATAAGTCGGAGGAATTTAATGACGAGCATAGTAATGAAGCGTATAAATATAAGCCGGAATTGCGATATGCTTTAGGGTTTTTCGACTTAGATAGCGGAGAGAGAATCGTAATTGACGTGTCTAGGAAGCAAGCCAAAACGATTATGGACGCTATGAAAGAATATAAGGATGATATCGGAGAAACAGCGTTCAAAGTGGCTAAGACGGATGGCGGAGCGGTATCTCTTACACCATTGCTTAACTTAAAGAAACTGACGGAAAAACAACGTGAGAACTTCGATAATGCACCAGACGAGTTTAATATCGAGGAGTTTACCGGGATTCTTTACGAAGCTGATGAAAAGGAAATGATTGAGTCATTAGATAGGGTCGGATTTGACGTTACGAAAATCGGGTATGAACGACCTAATGTCAGCGAAGATAAGCCGGAATCAACAACGCAAGCCGACGATGATGAGCCTGCGGAAATCACAGACGAAGATTTACCGTTCTGA MAEILTGADALGALNDSGGNNVSNNKDFTKFNVGYKYTVKILGLNDLFAFYKYGIYKKGGGGVNSFIAKNPSKKSAKGYPVENLTPWDKAWKYHADKSEEFNDEHSNEAYKYKPELRYALGFFDLDSGERIVIDVSRKQAKTIMDAMKEYKDDIGETAFKVAKTDGGAVSLTPLLNLKKLTEKQRENFDNAPDEFNIEEFTGILYEADEKEMIESLDRVGFDVTKIGYERPNVSEDKPESTTQADDDEPAEITDEDLPF NA NA NA NA NA AK015_00041 375 hypothetical protein ATGACTGAAACTAACAGCACATTTTCGTCGAGCATGGCGATCAGCTTGCGCTTGGCGTTGGCAAAAGGTATGGGAGGGATATTAAACGGGGTACTCGATACGTTGAGAGAAATCGAAATAGATAACGAAGAAAAGCGAGTAATCTTAGAAGGACTTCGTGACAGTATTAGCTACAGAGTAGACGAATCCATAGACGAACTAAGTCGATCAAACAAGAAAATTATGCATGATAGCCCGGTAACAATCACCGCAGAAGAATACGAGAAGCTACGTGACAAAGAGGAATTTCTCGATTGCCTAGAGGCTTGCGGAGTCGATAACTGGGACGGTTACGGAGAAGCTTACGAAATGATGACGGAGGAGGAATGCGACTAG MTETNSTFSSSMAISLRLALAKGMGGILNGVLDTLREIEIDNEEKRVILEGLRDSISYRVDESIDELSRSNKKIMHDSPVTITAEEYEKLRDKEEFLDCLEACGVDNWDGYGEAYEMMTEEECD NA NA NA NA NA AK015_00042 477 hypothetical protein GTGGCTTACATAACCGAAACAGTGGGCGTCTACTCCGAACTTATCGCCGAGGCTGCGTTAATGGCGGCCGGCTATGTCGGAGTCGCCCGTCCAACCACGCGAGAATATTACGACTTAATCGCAACTGATCGAATTACCGGAAAGGACGTCAAGTTTCAAGTTAAAACGCTCAAGCGACGTGACAAGGACGGCGATTGGTTTGTTATTTACGCAAAAAACGGGGCAGGTAAAGCGTATGGCGTCGATCAAGCCTCCGATTACTATATTGGAGTGTTAGTTGATGACGGCGAAACGCCTCGCGTGTTTTTAGCGGAAAATGACAAGCCAACACGTAAAGAATTGTGGTGCAAGACAGACGAAACAGACGAAAAGTGGACGGAAATACCAATCGCATTTGATCGACGATTACTGAAAGAAATGGCTATCGAAAGTGTGGCACAGGAGATCGACGCAGAGTTTCGAAAGGTTGGTGTGTAG MAYITETVGVYSELIAEAALMAAGYVGVARPTTREYYDLIATDRITGKDVKFQVKTLKRRDKDGDWFVIYAKNGAGKAYGVDQASDYYIGVLVDDGETPRVFLAENDKPTRKELWCKTDETDEKWTEIPIAFDRRLLKEMAIESVAQEIDAEFRKVGV NA NA NA NA NA AK015_00043 243 hypothetical protein GTGACAGATATTACAGGCTACGACGAATGGAAATTAGCTGAAGGGCTTAGCGTTGATAGACGTAAAGTAGTCGGCGAGTGTGCGAATTGCCTTGACGATATTTACGAGGGCGAATTAACTTGGCGAGACATTAGCGGAGAATACGACGTTTGCTCGCTAGGCTGTCTCGTACGATTTACGAGTAAGTATGACGTAGATATTGACGAGTTTGACAAAACGATAATGGAAGGGGAATGCGATTAA MTDITGYDEWKLAEGLSVDRRKVVGECANCLDDIYEGELTWRDISGEYDVCSLGCLVRFTSKYDVDIDEFDKTIMEGECD NA NA NA NA NA AK015_00044 1200 hypothetical protein ATGGCGAAGCTAGAGGGCGTAAAGGTAATCGACATGACAGGCGGAGAGGTAACGAAAATTGCGTATGAAGGTGCGGAGTACGTTAAGTTAGCGGACAAAACGAAAAACAAGAAAGGCGACATTGCGCTTGTGATCTACGGATGGGGAAGTCAAAGACCGGGCGAGTATTATCGATTGAACAACGAAGATCACCCGCTATGGGATAATGATCCAGATGAATATGTACACATTAATGGTAAACATGAAGACGCTAGTTGCTTTATTAGGCATGTAGAAATATTCCGCAAAGTCGAAACCCCAACGTTAGACTCACGCGTAACCAAACTCGAGCAGGACGTGGCGGAGTTGCAAGAGGCGGAAACAGTAGAACCTACGGAACAGCCTACGTACGAGAAAGGCGATAAGATACGCGTTGTTGCTGCGGAGGACACTGACGAGGAGTACGAAGACGGCGATATATTAACGGTCAGAAAGTACTCGTATAATGGACGAATGATTATCGTACAGGAACACGATCGATGGCTGTACCCGAACGAAGTCGAGCCAGCAACTCCGAAAGTTGGCGACAAGGTGCGCGTTGTGGCTGCGGAAAGAGCTTGCGGTGATTACGAAAATGGTGACGTACTTACTATAGAATATATAGATAATGACGGAGATATATACGTACGAGAGTTCGATCATCTACTTTTCCGACGAGAGTCCGAACTCATGACGACAGCGGAAGTTGAGGCGTGGGAGAAGGAGGAAGCGGAACAGCAGGCGCAACGACCGACAGTCGGAGATTATGCGAAGGTTGTTGACGATAAATACCACCACGCAAAAATCGACGAGATCGTAAAAATAGTGATTGACGAAAAGGACAGACAGCCTTACAGATGCGAGTTATTGAACGGAGAATATGCCGGTTGGTTTTTCGATAACCAACTCGAAAAGTTGTCCGACGAAGAAGCGGAAGAAGCCGAGAAATGGGCGAAAATTGAACGTAAGCCGAACGAGTATAAGCCGGGCGATATTGCGGAAGTGGTATACAGCCTTAACGCACCGCCGAAAGGTACGCTTGTAGCGGTGTTAAACGTAGATTCAACGGGGATATACGCGGTAGGTTGGTCTGCCGCACTGGGCAGAAATACAGTGTTTCGCTATGGTCGGATGGACTTAAAACTAATCACGCCAGCCGAACACCGATTCGACAAGCAGTAA MAKLEGVKVIDMTGGEVTKIAYEGAEYVKLADKTKNKKGDIALVIYGWGSQRPGEYYRLNNEDHPLWDNDPDEYVHINGKHEDASCFIRHVEIFRKVETPTLDSRVTKLEQDVAELQEAETVEPTEQPTYEKGDKIRVVAAEDTDEEYEDGDILTVRKYSYNGRMIIVQEHDRWLYPNEVEPATPKVGDKVRVVAAERACGDYENGDVLTIEYIDNDGDIYVREFDHLLFRRESELMTTAEVEAWEKEEAEQQAQRPTVGDYAKVVDDKYHHAKIDEIVKIVIDEKDRQPYRCELLNGEYAGWFFDNQLEKLSDEEAEEAEKWAKIERKPNEYKPGDIAEVVYSLNAPPKGTLVAVLNVDSTGIYAVGWSAALGRNTVFRYGRMDLKLITPAEHRFDKQ NA NA NA NA NA AK015_00045 2169 polA_1 COG0258 DNA polymerase I ATGAAACTATCGCTAAACCTGCCGGGCGGTTCTACGCCCGACGGGCAGGCGAAAGCCCAAGCGCAAGCAGCGGAGAAACGTAAAGCCAGCGCAACCGAGACGACGGAAGAAGCGTGGCAACGGATACTGGCGATGAAAAACTCCGATAAAGACGCAGAAAAATTACGTAAAGTTAAGGCGTATATGGACGCGGGCGAGTTAGGACGCGAGCCGGGACGGCAAGGTAAATTCAGCAAGGCGGAGGCTTTGCGGTTGTATAAAACGATTGCAGAGCGAGAAAAGGCGAAGAAGTTACGTGATTTGGTCGAGGGTACTCCGGATAATTACGTATTAGTTACCGACAATAAATCGATTTTACGTATGAGATCGGACATAGAGACATCGGAGTTAGTCGGATTTGACTGCGAAACTTTTAAAGAGGCGTTAGACCCGTGGCGTGGGGAAATGGCGGGATTTTCCGTTAGTACAGATAACGCTCATTACTACGTTCCATTAAATCACGTACAGCACGATGTAGACGATCATAACATCGTCAAGTTTCTAAAGCCGACGTTAGAAAACGCAAAGTTAATAATGCATAACGCACCGTTTGACTGCAAGTGGATGTACGTAAAATACGGCGTTAATCTAATCGACAACCTATACGCAGATACACGTATCATGGCTATGTTACTGGATGAAAACAGATCGCACAGGCTAAAAGATTTAATGACGGATTGGCTAAAAGAACCGTCTGACAACTTTGACGAGTTATTCGGCAAGACACCGTTCAACGAAATTGACTTAGATGTTGCGCTAGTGTATGCGGCAGGAGACACCGAAAAAACGTTAGAATTGTACCGATGGATGGTAAGCCATTTTGATAGACGTGAGGACTTGCGGAAGCTAAAACGATTATTATTCTATATTGAAATGCCGGTTGCTAGGACGTTTATATGGGCGGACATTCGCGGGATAAAGTTTGACGTTGAAAAGGCGCAGGAATTAGACGACAAGTTTTCGAAAGAAGAATCTTATTACAAGACGGAAATTGACCGGATATTTGGCGAAGAAATCAACTTAAACTCTCCGGCACAGTTGAAACGTAAGCTATTCGAGGATTTAAAGTTACCTGACATAGCGAACGGTTCGACAGGTGTAAAGGTGCTTAAAAAACTCGAAAATAAGCACGAAGTAATTTCGCACATTTTGGAGTACCGAGGTGTCGGTAAACTACGCCAAGCCTTTACGGAGAAACTTCCTAACGAAATTAAGTATGACGGTAAAATACATCCGTGGCACAATACACTAGGCGCTGCAACAGGGAGGTTTACGTGTAAGGACCCGAACACGCAGCAAATTCCAGCGAAGCGTCCCGAAGTACGTAAGCTATTTGTCGCAGATAAAGGACGTATCTTAGTGTCGATGGACTTTTCGCAGATTGAGTTACGAGTGTTAGCGCACATGGCTGACGAAAAAGTGTTAATACACGCATTTCATGAGGGACGCGACATCCACTCAACAACAGCGGCGATGATTTCCAACGGTAAATATACCTACGAGGACATCGAAACTAACAAAGACACCGACGGACATCCTTGCCAAAAGTTACGTAAGCAGGCGAAAGTAGTTAACTTCGGCATTGTATACGGAATGAGCGCTAAAGGGTTATCAGATACGTTAGGTATTTCGAAAAAAGAAGCGCAAGAGATAATCGACAACTACTTTAAAGGTTATCCGGGAATATCAACGTACATGAACAAGCAAAAGCGAATGGCGCGTAAGAAGGGGTTTGTAACGGACATATTCGGAAGGAAACGAAGATTACACGATTTTTATAAATCGAAAAACGACTTCGACCACTTTAGGGCGGACAGACAAGGCGGTAACTTCCCGATTCAAGCGTCTGCCGGTTCCATGCTTAAAAAAGCTATCGTTGATTTAGGCGAAGTGTTACCTAAATACGATTCGCACATATTGCTACAGGTGCATGACGAATTAGTGTTCGATTGCCCAGAGTTTATAAGTAGAGAAGCACTTTACGACATTAGGGACACAATGACAAACGCCGTTGAATTAGTTGTTCCGGTTAAGTCGGACATAGAAATATATCCGCATAGGTGGATGAAAAAAGTAGAGGAAAGCGAATGGTTCACACAACAAAACATACGGAGGGGATTAATTGACTAA MKLSLNLPGGSTPDGQAKAQAQAAEKRKASATETTEEAWQRILAMKNSDKDAEKLRKVKAYMDAGELGREPGRQGKFSKAEALRLYKTIAEREKAKKLRDLVEGTPDNYVLVTDNKSILRMRSDIETSELVGFDCETFKEALDPWRGEMAGFSVSTDNAHYYVPLNHVQHDVDDHNIVKFLKPTLENAKLIMHNAPFDCKWMYVKYGVNLIDNLYADTRIMAMLLDENRSHRLKDLMTDWLKEPSDNFDELFGKTPFNEIDLDVALVYAAGDTEKTLELYRWMVSHFDRREDLRKLKRLLFYIEMPVARTFIWADIRGIKFDVEKAQELDDKFSKEESYYKTEIDRIFGEEINLNSPAQLKRKLFEDLKLPDIANGSTGVKVLKKLENKHEVISHILEYRGVGKLRQAFTEKLPNEIKYDGKIHPWHNTLGAATGRFTCKDPNTQQIPAKRPEVRKLFVADKGRILVSMDFSQIELRVLAHMADEKVLIHAFHEGRDIHSTTAAMISNGKYTYEDIETNKDTDGHPCQKLRKQAKVVNFGIVYGMSAKGLSDTLGISKKEAQEIIDNYFKGYPGISTYMNKQKRMARKKGFVTDIFGRKRRLHDFYKSKNDFDHFRADRQGGNFPIQASAGSMLKKAIVDLGEVLPKYDSHILLQVHDELVFDCPEFISREALYDIRDTMTNAVELVVPVKSDIEIYPHRWMKKVEESEWFTQQNIRRGLID NA NA NA NA NA AK015_00046 1032 hypothetical protein TTGACTAACGAAACTTTAACAAAACAGCAATACGCAACTAAAATAGCGCAAGATTTCCACGATTTCATGTCGGAGTTCCACTCGTATAATCAGCCATACGACGATCTTATGGACGCCGATATACACGAAAGATACGCAAAGGTGTTACGTAAACAATCGAAATGGGGATACTTCGATTTTAAACGTAATCCTGATGGCATAGAGCGCCCATTTTTCGGACCATCCAGCGCAGGGTACTCCGACCGAGAACTATACGAAAAGGCTCGCAGGTCAAAGCGTGACAAGCCGATATTCACCGAAAATCAACGCGATTGGATCGGGTTAGGCTCGCAAGTCGGCGACTATATACAGCGCGAGATTTTGTTGGCGGAGCGCCACTACGAAAAGCTAACCGGAAAAAAGCCGCGGTTTAAGTTTGAGCGCCATGCCGACGGAAGCCCCCGTTACGAGCATTTCGACAAGAAAATGCACGAAATCGAACACAGCGGACAACACTTCGCCTACTTCGGATTACCAGACGGCATACTAACGTACACAACAGACGATGGCGAGCAGTTACGAGTAGGGCTCGAGGTAAAGTCGGTACAGCAGAACTGGTCGAAGTTTAAGTCGATGGACTCGCCTAAGCCGGGGCATGTAGTACAGACGGTAGCTTATTCGGACATGTACGACTTTGATTACTTAATTATCCTTTACGTATTGACATACGGACGAGGATGGTACGAAGATTTCAGTCGCCTTAAGCCGTTTGGGTTGTACGTGTTGGAAGTAGAACGTCAACATTTACGCGACAGGTGTGCGGAAGCTACTCGACAAGCTAAAGCGGGCACGCCTCCTAAAGTCGACCTAAGCGAATGGAAATTTAACGACTACAAAACGGTAATCGCTACGGAATTAACCGAGGACGAACTAACGGAGTTACAGGAACAGGCGAAACTAGCGCAACAGTCGCACTTACCAGCGTGGCAGAAACGAAGTTATGACGAAGCGATTAACGAGATTAACGAGATTAGGGCGAAACACAATGCCTAA MTNETLTKQQYATKIAQDFHDFMSEFHSYNQPYDDLMDADIHERYAKVLRKQSKWGYFDFKRNPDGIERPFFGPSSAGYSDRELYEKARRSKRDKPIFTENQRDWIGLGSQVGDYIQREILLAERHYEKLTGKKPRFKFERHADGSPRYEHFDKKMHEIEHSGQHFAYFGLPDGILTYTTDDGEQLRVGLEVKSVQQNWSKFKSMDSPKPGHVVQTVAYSDMYDFDYLIILYVLTYGRGWYEDFSRLKPFGLYVLEVERQHLRDRCAEATRQAKAGTPPKVDLSEWKFNDYKTVIATELTEDELTELQEQAKLAQQSHLPAWQKRSYDEAINEINEIRAKHNA NA NA NA NA NA AK015_00047 621 hypothetical protein ATGCCTAACGAAACTAAACGTATTATCAGTTTTGACATATCGCTTGGCGCACCCGGCGTCGCACTCATCGAAATCAAGGCGCGCAAGCCGAGGGTAATCGACGTCAGCCACGTTAAAACAGACAGCAAGCAACCGTTAGCGTTACGTGCGTCAATCGTCGAGTCATGGGCGACGTTGTTTATTGAAAAACACCGGAAAAAAGGACGTGACAACGCGGGGTTTGACGTCATCGCTCGCGAAGATTTTCAAGGGCGTTCGTCCCAGCAGAATTACCCGGTATTTGCGGCATGGCACGCGACAGAGCGGGCGGTACATAACTTCGGCTTGGCTTTCGACAAGTACGTAAGCTACACAAAGCAAGGCAAACGAAGCCAACGACATGGCATAGCGCAATCCCGTGCGAAGTTGTTAGTCGTTGGCAGGGGCGGTAAAGTAACGAAGGAAGAAACGGCGGAGGCGGTGCGGGAGATAACCGGTTATACCGGCGAGTTTGCAAAGGACGACGAAAGCGATGCGGTGTGTGTCGGGCTGGCATACGCGATACAACTCGAGTGGATTGACGATGTGCACGGCAAGCTAAATGAGTACGATATTAAAGCGCAGGAGGAGACGATAATATGA MPNETKRIISFDISLGAPGVALIEIKARKPRVIDVSHVKTDSKQPLALRASIVESWATLFIEKHRKKGRDNAGFDVIAREDFQGRSSQQNYPVFAAWHATERAVHNFGLAFDKYVSYTKQGKRSQRHGIAQSRAKLLVVGRGGKVTKEETAEAVREITGYTGEFAKDDESDAVCVGLAYAIQLEWIDDVHGKLNEYDIKAQEETII NA NA NA NA NA AK015_00048 642 hypothetical protein ATGAACGTAACATTACCAGTATTTTTGAAGCACGCAGAAAAGGTGACTAAAACAGCTCCGGAAAGTAGGCCGATTCTAAACGGAGTTAATTATCTAAGTGACGGATCAATTGCGGTTACGGACAGTCACCGTATGTATATCGCTAAAGGTGTGCACAGTCAGACAGAGTCGATAACACAAAACCCGAAAACCGGCGAAACAATTGACGGAAACTACCCGGACGTAACGAGATTACTACCGGAGGTAGGTTATGAGAGAGCCACAATTAAACTAGGCAACGTTGACTACCACGTTAAATCTGTCAAAGCCGTTCAGCAAGTAGCTACTATTCCGAAAGTCATCGGCGATAAATTTACACGTAAGGATAAAACGACAGTTAAAATAAAACAAGACGAAAACAATAACGTTATTTTAACGGCAAGTGATTGTGGCGGTGTCGCAAGCTACACGTTAGGTATCGCGGAAAATGTGGCAGAGGCAGTAAGACTGACCGTAAATGCGGAGTATTTGTCGCAGGCTTTGCAAGTGTTTAAAGACGCAGGAATCGATAAGGTATCGTTTAATTACTACGGCAGCGTGCGTCCATTTACGTTAGTAGGCGGGAACATGACGGCTCTAATATTACCGATGAGAGACTTATAA MNVTLPVFLKHAEKVTKTAPESRPILNGVNYLSDGSIAVTDSHRMYIAKGVHSQTESITQNPKTGETIDGNYPDVTRLLPEVGYERATIKLGNVDYHVKSVKAVQQVATIPKVIGDKFTRKDKTTVKIKQDENNNVILTASDCGGVASYTLGIAENVAEAVRLTVNAEYLSQALQVFKDAGIDKVSFNYYGSVRPFTLVGGNMTALILPMRDL NA NA NA NA NA AK015_00049 531 hypothetical protein TTGGGTTTAATAATCCTAGCGACCATACCTGCGTTACTAATATTTATACATTTCGTGGTAGATGGAATTAGATTCGATGATTTATGGGACTTTCTGAAAGGCGGTTCGTTAATCTCCCTAATCGTTATGGTTATTATATGGGCGCCAATACATTTGATTTTCGGTTGGATACCAGAAACGAAATGGGAGGTTAGTGAGGAAACGCCTATCATGGCTTTAAAAGATGGTACGAAAGGTTCCGGAACTTTTTATTTAGGTACAGGAACGAAGGAAGATCGGATGGTTTACTATTATATGACCGAAGAAGATTTCGGAAATCGTATGGATTATGAGTACTCGTCTAGCACACATGTAAAGGAGGTTAAGAACAACGGCAAAAATAAGCCTAGAATAATTAAATACGAGAAGGTTTTTAAAAGCAGTTTTGCGGAATTTTTCTTCCCTACTCCGGTAAGCTTTGAGCGGACAAAAACGCAAATAGTCGTACCAAAAGGAACGATTACGGACGAATTTAAAATCGATATGGAATGA MGLIILATIPALLIFIHFVVDGIRFDDLWDFLKGGSLISLIVMVIIWAPIHLIFGWIPETKWEVSEETPIMALKDGTKGSGTFYLGTGTKEDRMVYYYMTEEDFGNRMDYEYSSSTHVKEVKNNGKNKPRIIKYEKVFKSSFAEFFFPTPVSFERTKTQIVVPKGTITDEFKIDME NA NA NA NA NA AK015_00050 309 hypothetical protein ATGTACTATTTAGGATTTATTCCTACATTATTAATAGTAGGACTTTCGGCGGCTGTTATAGCGCAGGCTTTCGAGATTAAGAGATTACGAAAGAAAATCGAAATAGAAAACGACGAAGGGTCTAAGGTATATGTCGAATTTACTGACGGCGACACGCTGGTAGTCAGAGGGGTTAGCACGGTAAGTGTGGAGGACATGGGAATCACCTTACGAGCACCTAACGGAGATGTAGTAGCTATGATCAAACAAGAATTAGTTCGGGCGGTATACGCCGAATATGCGGTAACAGCAGAGGAGGGTTCGGAATAA MYYLGFIPTLLIVGLSAAVIAQAFEIKRLRKKIEIENDEGSKVYVEFTDGDTLVVRGVSTVSVEDMGITLRAPNGDVVAMIKQELVRAVYAEYAVTAEEGSE NA NA NA NA NA AK015_00051 246 hypothetical protein ATGAACGTACTTAAAGACGTGTTAAAAACGGTAGGCTACGCAATTGTTTTTATCGGTGTTATCGTGCTTGCGTTTTGTATAACAGTAATGTTCGGTTATTTTATCGGTGGAATACTCGCAAGCTTACCGATTGTTAGTGACTGGCTGACGCTAAATACAAGCGTAACTAAGTCGCAGATACCGACTATTACAGCGTGGCTTGCGGTAATTGGCTCATTCGTTGGCTTAGGGAGGGGGCGTAAGTGA MNVLKDVLKTVGYAIVFIGVIVLAFCITVMFGYFIGGILASLPIVSDWLTLNTSVTKSQIPTITAWLAVIGSFVGLGRGRK NA NA NA NA NA AK015_00052 213 hypothetical protein GTGAGCGAAACTAACCGACAACACAACGCCACACTCCTCGCACAACTCCGACAAATGTACGAATGGCAGAAACGTGACCTTGCTGACGTTGAGTACGGCATAGACAAGGCGTCGGAAAGATTGCGGGTGTTGGCGGACAGAAAGGCGGAAGTTGAACGAGGGATGGCGGAAACTAGTCGAGAGATAAAGAGATTAACGAGAGGGGACGATTAA MSETNRQHNATLLAQLRQMYEWQKRDLADVEYGIDKASERLRVLADRKAEVERGMAETSREIKRLTRGDD NA NA NA NA NA AK015_00053 159 hypothetical protein ATGATAGACCTTTGCGATATTTGCGCTAGATGCGGAAGCCATAACGTCGAAGAAACGCCACAAACGATAGAGTACGACGACGGAACTAGCGAAATTTACTACGAAACACAAGACGCAAAGTGCTTAGACTGCGGTAAAGAATGGTTAATTATATATTAG MIDLCDICARCGSHNVEETPQTIEYDDGTSEIYYETQDAKCLDCGKEWLIIY NA NA NA NA NA AK015_00054 2262 nrdE2_1 COG0209 Ribonucleoside-diphosphate reductase subunit alpha 2 TTGACGACGATTATAACGAAAGATAACGGAAACAGACGATTACCTTTTGACGAGTTTAGACTACGTGATTTTATTATGCACTCACTTAACGTAAGTGACGAGCACTACGCTGATAAAGTAGTCCGAACCATCGAAAATAAGCCCGAATGTACTGCCGATTATATTACGGAACAGCTAATCAACACGGCGTCTGAAAACATCGACGAGGCTAACCCGCAATGGACTTACGTAGCAGCTAAGGCGTATTTGTACCGGCTATATAAACAGGCGAGCAGAAACCGTGCTTATGACGCAAAGGACAAATACGGCGACTTGTACGGCTTATTAAAAACGCTAGGAACGAAAGGCATTTACGCGCCGAACATACTCGAAAAATACAGCCGTGATGAAATAAGGGAAGCGTCGGCAATGATTGATCCCAATCGTGATTTACTGTTTGACTTTCCGGGCATATACGCATTAGCCACTCGTTACCTAGCGACAGATTACGAGAAAAACGTATACGAATTACCGCAAGAACGTTTTATGATTATCGCGCTGCATTTAATGCAGGACGAAACGAAAACTAAACGAATGGATTACGTTGCGGAAGCGTATTGGGCGTTGTCAAACCTCTATATGACGGTAGCAACTCCGACACTTGCAAACGCAGGAAAATCACACGGTCAATTGTCGAGTTGTTTTATCGACACCGTAGACGATAGCTTGCTCGAAATATATAACAGCAATACAGACATAGCTAGGTTATCGAAATCTGGTGGAGGTATTGGCGTGTATATGGGCAAGGTACGCGCAAGAGGTTCGTCTATTCGCGGGTATAAAGGTAACTCCAGCGGTGTCGTACCGTGGATTAAGCAGTTAAACAACACGGCTGTTAGCGTAGATCAATTAGGTACGCGTAAAGGCGCAATCGCCGTTTACCTTGACGTATGGCATGCGGATATTATGCCGTTCCTTGATTTGCGATTAAACAACGGAGATGACCGACAAAGGGCACACGATATATTTACTGGCGTATGCTTACCGGACTTATTTATGAAACAAGTCGAAAGGCGCGGCGACTGGTACTTATTCGACCCTCACGAAGTGCGGCAAGTAATGGGCTACTCGCTAGAGGATTTCTACGACGAAGAAAAGGGCGAAGGTAGTTTCCGTGAAAAATACGAGGAATGCGTTCAGTCAAACGATTTGACCAAAACGAAAGTGTCGGCTATCGAAATCATGAAGCGTATCATGAAGTCGCAACTAGAGGCGGGCGTTCCGTTTATGTTTTACCGTGATGAGGTAAACCGAATGAATGCGAACAAACACGCCGGAATGATTTATTGTACTAACCTCTGTGTGGAAATCGCTCAGAACCAATCACCGACCGCACAGGTCAGCGAAATACTAGACGATCAGAAAGGCGAAATAATCACACGCAAGAAAGCCGGGGATTTCGTTGTATGTAACTTATCATCCGTTAATTTAGGACGCGCAGTTCCAGCGGACGTATTAGATCGGTTGATACCAATACAAGTCCGCATGCTTGATAACGTCATAGACTTAAACACTATCGACGTAAAACAGGCGCAGTATACTAACCGCAATTATAGGGCAATCGGATTAGGCACATTCGGATGGCATCATTTACTGGCGTTGAAAAGATTACAGTGGGAATCGGAAGAAGCCGTTCGATATGCCGATGAACTTTACGAAAAAATCGCGTATCTAACGATCAAAGCGAGCGCCGACCTAGCGAAAGAAAAAGGCGCATACCCACTGTTCGAAAACTCGGAATGGAGTACGGGCGAGTATTTCAGTAGACGAAGATATGCAGGCGAAGAATGGGCTGTCTTAAAGTCGCAGGTGATTTCGACTGGTATTCGTAACGGTTATTTACTCGCCGTTGCTCCGAATGCCACAACGTCAATCATTGCGGGCAGCACAGCGACAACTGACCCGATATTCCAGCCGTTTTTCTATGAGGAAAAGAAAGATTACAAAATGCCGATTGTCGCGCCGGACATGAATCACGAAACTTACGATGTGTACAGACGGTCAGCTTACGTATTAGATCAACGATGGAGCGTCAAACAAAACGCAGCGAGGCAGAAACACCTCGACCAAGCCAACTCGTTTAACATTTACGTACCCAACACGATTAAGGCGTCTGTATTACTCTCCTTGCACATGCAAATATGGCAGAGCGGTATTAAAACGACATACTACGTAAGGTCAACGGCAAACGAAGTTGAGGATTGCGAATGGTGTCAGTCATAA MTTIITKDNGNRRLPFDEFRLRDFIMHSLNVSDEHYADKVVRTIENKPECTADYITEQLINTASENIDEANPQWTYVAAKAYLYRLYKQASRNRAYDAKDKYGDLYGLLKTLGTKGIYAPNILEKYSRDEIREASAMIDPNRDLLFDFPGIYALATRYLATDYEKNVYELPQERFMIIALHLMQDETKTKRMDYVAEAYWALSNLYMTVATPTLANAGKSHGQLSSCFIDTVDDSLLEIYNSNTDIARLSKSGGGIGVYMGKVRARGSSIRGYKGNSSGVVPWIKQLNNTAVSVDQLGTRKGAIAVYLDVWHADIMPFLDLRLNNGDDRQRAHDIFTGVCLPDLFMKQVERRGDWYLFDPHEVRQVMGYSLEDFYDEEKGEGSFREKYEECVQSNDLTKTKVSAIEIMKRIMKSQLEAGVPFMFYRDEVNRMNANKHAGMIYCTNLCVEIAQNQSPTAQVSEILDDQKGEIITRKKAGDFVVCNLSSVNLGRAVPADVLDRLIPIQVRMLDNVIDLNTIDVKQAQYTNRNYRAIGLGTFGWHHLLALKRLQWESEEAVRYADELYEKIAYLTIKASADLAKEKGAYPLFENSEWSTGEYFSRRRYAGEEWAVLKSQVISTGIRNGYLLAVAPNATTSIIAGSTATTDPIFQPFFYEEKKDYKMPIVAPDMNHETYDVYRRSAYVLDQRWSVKQNAARQKHLDQANSFNIYVPNTIKASVLLSLHMQIWQSGIKTTYYVRSTANEVEDCEWCQS PGPT0021340_4233 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525 NA NA AK015_00055 1065 nrdB_1 COG0208 Ribonucleoside-diphosphate reductase subunit beta ATGGTGTCAGTCATAACGAAAGGGGCAAATAACTTGCTAAATAAAGCGAAAATACTAGAACCTGCCAACCCGAATAAGTCTACGGGCTTGTTCGGCGGCAAGGCATCAGGCATATTAAATTGGAACGACATTGCTTATCCGCATTGGTATAAAATGTATAAGCGATTAGTCGGCAACTACTGGCAGGCAGACGAAATTAACATGCTACCAGACATTAAGCAGTTTCCGAAATTAACCGCAAAAGAGCAAGACGCATACTTAAAAATAATCGGCTTATTGTCTACGTTAGATGGTCCGCAAACTAAAACGGCGTTGCTACTATCACTATACGCAACTGATCCGTCTGTACAATCGATTATGGCGGTCATTGCACAACAAGAAGCCGTACACAACGAAAGCTACTCATACGTACTGTCGAGTGTAGTTTCGTTGGCACAACAGAATGAATCGTTTGAAACCGGGCGTACAGACGGTATCTTGCTTAAACGTAATGAGCGTATACAGTCTGTGTATAACGAATTTATCGCTAACCCAACGGTAGAAAACGTAGTAAAAGCGATGGTATATACGGGATTGCTCGAAGGGCTGTTCTTCTATTCGGGATTTGCGTTTTTCTACAACTTAGCACGCGATAATAAAATGGTCGGAACATCGACGATGATTAGTTACATCAACCGCGATGAACTCGAGCATAGCCGTTTCATATCCGAATTGTTTCGCGCAACGCTTGGCGAAAACCCTAGCTTAAACACAGACGAATTTATTACGTGGGTTTACGACCAATTTAAACACAGCGTCGAACAGGAGATTCTATGGAGCCACTATGTGCTTGAAGGTATAGACGGTATCGACTTAGCGGAAATGGACGCTTACATAAAATATCGCGCCAATAAAATGCTCCGTATGTTTGGGCTATCGGAAATATACCCGGAACATACCGAAAATCCGATGAAGTGGATTCGTGCATATGTCGATAATTTTGACGGTACGAAAACGGACTTCTTCGAGCAGAAAAGCCGGCAGTACACGAAAACTAGCGACTTGAACGGATTTGACGACCTGTGA MVSVITKGANNLLNKAKILEPANPNKSTGLFGGKASGILNWNDIAYPHWYKMYKRLVGNYWQADEINMLPDIKQFPKLTAKEQDAYLKIIGLLSTLDGPQTKTALLLSLYATDPSVQSIMAVIAQQEAVHNESYSYVLSSVVSLAQQNESFETGRTDGILLKRNERIQSVYNEFIANPTVENVVKAMVYTGLLEGLFFYSGFAFFYNLARDNKMVGTSTMISYINRDELEHSRFISELFRATLGENPSLNTDEFITWVYDQFKHSVEQEILWSHYVLEGIDGIDLAEMDAYIKYRANKMLRMFGLSEIYPEHTENPMKWIRAYVDNFDGTKTDFFEQKSRQYTKTSDLNGFDDL PGPT0021345_1721 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526 NA NA AK015_00056 186 hypothetical protein ATGCGTAGAGTAGACGGCGTCGAACTTGACTTCGGTAGTCGCGGTTTTAATTGGTACGCATTAATTGGCGATAATAAAACCCGCATAACACATGCCGAGTACGAACGTATTAAGAAAGAGTTTAACAGCGGAAATAAAGACGTAGTTTTAGACGAAGGTCACGTTGTCCTCACGGTAGACAAATAA MRRVDGVELDFGSRGFNWYALIGDNKTRITHAEYERIKKEFNSGNKDVVLDEGHVVLTVDK NA NA NA NA NA AK015_00057 264 hypothetical protein TTGGCGATCACCGACAGAGACCTCGAATTGCTTGACGACTTTTTTAACGGTAGAGCGGTCATACATCATCAAACTAGCGAAAGGTTTGCGGAGGACTTAAAAGACGTAATACGCGACGTGGCTATAGCTTATAAAGAGACGAAAGAAAACGCTGGTTACTTACAGGAAGATAACGAAATGGCGGAAAAACACATCGAAAAGTTAGAAAGTATGCTAGATAGACGGAAAGTACGGTACAAAAAATGGGAGGATCGGTATTTATGA MAITDRDLELLDDFFNGRAVIHHQTSERFAEDLKDVIRDVAIAYKETKENAGYLQEDNEMAEKHIEKLESMLDRRKVRYKKWEDRYL NA NA NA NA NA AK015_00058 132 hypothetical protein ATGAGTAATAAGCGCAGAGAACGGTTTATCGAATTTATGGCGTACCTTATCGTAGGCACAGGCGTGGGGATTATCGTCCTCACTGCCGTGGCTTTAGCCGCAAGGTTCGTGCTGATTCCGATTTTTAATTGA MSNKRRERFIEFMAYLIVGTGVGIIVLTAVALAARFVLIPIFN NA NA NA NA NA AK015_00059 318 hypothetical protein ATGAGAATCGATATTATGACAGAACTAATCCGCAAATGGTCGATTGACCGTAACTTACATACGGCAGACCCGAATAAACAAGCGTTAAAGCTTGGCGAGGAATTCGGCGAGTTGTTCGAAGGCTTAACTAAAGGAGACGACGACCTAACGAAAGACGCAATCGGAGATATGTACGTGGTTATGACGATACTATCGCAGCAACTCGGCTTTGAAATCGAGGAATGCATCGAATTAGCGTATAACGAAATAAAAGACCGAAAAGGGCGCATGATTGACGGTGTATTCATTAAAGAAAGCGACTTAAAGGAGGACGAATAG MRIDIMTELIRKWSIDRNLHTADPNKQALKLGEEFGELFEGLTKGDDDLTKDAIGDMYVVMTILSQQLGFEIEECIELAYNEIKDRKGRMIDGVFIKESDLKEDE NA NA NA NA NA AK015_00060 561 hypothetical protein ATGACGAAACAAAAAATACGCGTATATATCGCAGGCGACATGCTGAAACGCGGCTCGCAGTTACTACGCGAACAAGAACGCAACCAACTCGCACAAATCGCAGGCATACACGTACACAACCCGACAGACGACGAAGAAATAAACGACAAGTCACGCGCACCTCGCGCCGAGGACATATTTCGAAAAGACACGCAAGCAATACTCGAAAGCGACGTCGTTATTTTTGACGCGGACGACGACTCCGTAGGCACAACGACGGAAATCGGTCAAGTGTGGGGCGTTAATTACATGCACGAACGGCTGACGAACGCCTTAATCAACTCCGACGGCACTGACGCAGACTTTGGCAAGCGAGTGCGTACTTTGTTGCGTGACATGCCATATAAAGAGGTCTACTGGCAATGTACGGACGTACGCAATGTGCCTAACGCAACCGAACGAGGGCTAAGGCGGAGTTACTCGTTAAATCAGTATTTGTACGGATGCTTGCTCGACTTGGCGGGTGACTCGTCGACATTTGACGAGATCGTGGCGGAGTTAAAAGAGGAGGTGTCGGAATGA MTKQKIRVYIAGDMLKRGSQLLREQERNQLAQIAGIHVHNPTDDEEINDKSRAPRAEDIFRKDTQAILESDVVIFDADDDSVGTTTEIGQVWGVNYMHERLTNALINSDGTDADFGKRVRTLLRDMPYKEVYWQCTDVRNVPNATERGLRRSYSLNQYLYGCLLDLAGDSSTFDEIVAELKEEVSE NA NA NA NA NA AK015_00061 501 hypothetical protein ATGAGGAAATATCTAGGTGTGTTAATTTTACTACTATTATCGCCAATATTAATTATTCTAGCTGCAGCACAGGTTATCTTCCAGTCAATAAGTACTCTTTTGTTATCGGTGTACGAACTTATTTACTTCCCTATCTACGATTTAGCTGGTCGCCCTTTCGATAGTAGTAGGGGCGATTGGTGGTGGAATAATGGTAAGCCATTTAAAGTTGAACGTTGGTCTAAAATTGATCTAAACGAATTGTATAAGGTTTACTTCACAATCGCAGACAAAAAACTTTATACAAAACTGACCATCGAAGTGGTAAATAAATTAGAAGGTGATACGTTTATACGCTACCGACGTAAATGCTTTAGATGGGAGTTAATCATGTCTCGCGAAAAAGCTAGAGATATAGCGCAAAAATGGCTTGATAAGCACGTCACTATCGTAAATAGAATGATCGACGAACACGGAATTGACGCAGAAATAACGTTAAATAGTGAGGAGGCTAACGATTAA MRKYLGVLILLLLSPILIILAAAQVIFQSISTLLLSVYELIYFPIYDLAGRPFDSSRGDWWWNNGKPFKVERWSKIDLNELYKVYFTIADKKLYTKLTIEVVNKLEGDTFIRYRRKCFRWELIMSREKARDIAQKWLDKHVTIVNRMIDEHGIDAEITLNSEEAND NA NA NA NA NA AK015_00062 654 hypothetical protein TTGGCGGGGTCGCTCGTACTAAGCGGGCAACCAACCGCCAGCCTTTCCGATAAGCTGACGGAATTAGACGAGTTGCAGGCGAAAATTGAACGTAAGCAGGCTGAAAAGCAGGCGGAAGATAAAGAGCGCAAGCAAGCGGCGAAGGAGGCTGAACGGAAAAATGAACGAAAACGAGCACAATCTAAGATTGAAAATATACGAACAGGAGCTAAGGATGAACGATCTACAAATGGAGATAGACGAACTGAAAGACCGAAACAATCTAGCGTCAATAACAATAAGGATCGTGTGCTTAACGATAGCGGTAATAATCGGGATATTGCTTCTAGCAGGCTAGGCACGTTCGAAGCCACGTTCTACACCGCCTACTGCTCGACAGGATGTACGGGCGTGACAGCGACAGGGGTTGACGTAAGCAATACGATTCACCACGAGGGGTTGCGTGTTATAGCGGTTGACCCTGCAGTAATTCCGTTAGGCACACGCGTAAAGGTGACGTTGGCTGACGGTTCCTCGTTCGTCGCTTCGGCGGAAGATACGGGCGGAGCGATCAAAGGACGCAGGATTGACGTGTTAGTTGCGAGTAAAGTGGAGGCGATAGAGTTCGGAAGGCAGTTGGTAGAAGTCGAAATTATATCGGAAGGGGATCGGTAA MAGSLVLSGQPTASLSDKLTELDELQAKIERKQAEKQAEDKERKQAAKEAERKNERKRAQSKIENIRTGAKDERSTNGDRRTERPKQSSVNNNKDRVLNDSGNNRDIASSRLGTFEATFYTAYCSTGCTGVTATGVDVSNTIHHEGLRVIAVDPAVIPLGTRVKVTLADGSSFVASAEDTGGAIKGRRIDVLVASKVEAIEFGRQLVEVEIISEGDR NA NA NA NA NA AK015_00063 354 prfB_1 Peptide chain release factor 2 ATGGCGGATCGGGAGCTTTTATTTTCTATCACACGAAAAGACTTTCGTATCGATACTTTCCGCGCAGGCGGTAAAGGCGGTCAAAAGCAGAATAAAACCTCTAGCGGCGTTCGGGTAACGCATACAGAAAGTGGTGCGGTAGGAGAGAGTCGAGAAGAACGTTCACAACACAGTAATAAGAGTAAAGCATTCAAACGGTGTGTAGAAAGCGCGGAATTTAAGAAATGGCACGCCAGAAAAACCTCAGAAATGCTCTTAGGAAGAGCGGAGTTAGAGCGTAAGGTAGACGAGTCTGTCCGTGAAAGTAATATACGCACCGAAGTTTTTGGCGGTGAAAAATGGGAGGAGCGGTGA MADRELLFSITRKDFRIDTFRAGGKGGQKQNKTSSGVRVTHTESGAVGESREERSQHSNKSKAFKRCVESAEFKKWHARKTSEMLLGRAELERKVDESVRESNIRTEVFGGEKWEER NA NA NA NA NA AK015_00064 840 hypothetical protein ATGGCGTCAAAAGGCTTAGACAAGTATAAGTATTTCATAGAAGTAGACGGAGAGTATACGGAATTAGGCTCGCTAGAAAACGTAACGGCAGAGCGAGAGGAGGTAAAACGGCACTACATCGCAGACGAAGCATTAGGCGGAGTTGAGCGGGAATATGTCGAGGTAGACAGAGAGGCTGACGTTGGAGATTACGTTATGTCGAAATGGTCCGAAAAAATCTACACGGTTACAGAAGTGAGCGACGCACATGCGCTAATCACTACGCCGGAACAACTCGGACATCCGAACGGGTTTTATTACGGAAGTTATAAGACGCTATCCCCGACGAACATTATCCGCCTATCTGACGGCAAACGTTACGAGCTAGTCGATCGTATAGCGGAAGTTGGCGAAAGTATTATAAATAAATGTGACGGTGACGTAGCGGAAGTGACGGAGGTTGGTAAGGGATGTGCTTATACGTACACATTTGAAGATAAGGACGGAGATGTGTGCTTCGGAATGGGTCACGGTTATTACTACGTACTACTACCGCTCGAAGAAACCACGCCGCAAGATGACGCACAAACACTAATCGCAAACCTAGCGTCAGAGGTTGCTAGGCTTAAGCGGGAAGTCGCAGGGTTAAACCGCCTTACAGAGACGCACCAATCTACGATAATGCAATTACTAGACCATGTCGACAGCAATCACAAGGACATCGTCAAGCAAGCGGAGGAGTTCGCAGAGTTAACTGAACGCGTTAAAACGTTAGAGGCGCAAGAACTTGTCATTGACGGTGAAGAAATAGCCGAACATTTGCTAACGGAGGTGTTAATGCGTGAGCGAGGTACTAAGTAA MASKGLDKYKYFIEVDGEYTELGSLENVTAEREEVKRHYIADEALGGVEREYVEVDREADVGDYVMSKWSEKIYTVTEVSDAHALITTPEQLGHPNGFYYGSYKTLSPTNIIRLSDGKRYELVDRIAEVGESIINKCDGDVAEVTEVGKGCAYTYTFEDKDGDVCFGMGHGYYYVLLPLEETTPQDDAQTLIANLASEVARLKREVAGLNRLTETHQSTIMQLLDHVDSNHKDIVKQAEEFAELTERVKTLEAQELVIDGEEIAEHLLTEVLMRERGTK NA NA NA NA NA AK015_00065 279 hypothetical protein GTGAGCGAGGTACTAAGTAAAGCGGAATTTTTCCGCAAGAAACTTGGCGAGAGAGGAACGATTGATAAAAACGCATATGCAGACGCTATATTTATCGGCTTAGTATATAACGTAGCTTGTGGCAGTGATTCGTTGGCTGTCGAGCATATGCAGGAGTTACGGGATTTAGTGGACGCTTGGATGACGGAAACTGGACGTGTTGGTGACGGATGGGCGTTGACTAATGACGTAAATGATTATCGAAATAAGATACTACGGGAGGGGTTTGCGGATGAGTAA MSEVLSKAEFFRKKLGERGTIDKNAYADAIFIGLVYNVACGSDSLAVEHMQELRDLVDAWMTETGRVGDGWALTNDVNDYRNKILREGFADE NA NA NA NA NA AK015_00066 327 hypothetical protein ATGAGTAAATTTTCGAAAGAAGAACTGATCGAAAAATTAAACGAAGTTGACGTACACAGGGTGACGGGGTCGCCTGACAACGTCCAGCACCCATCACATTACACGCATGGTAAATACGAAACAATCGACGTCATAGAGGACATAACTAGCGGTTATGAAGATGGCTTTACGGCACATTGCGTAGGCACAGCCGTAAAGTACTTATACCGTGCGCCGCATAAGCACGAGTCGCCGCTAGAGGACTTACGTAAGGCGCGTCAATACGTTGAGTTTGCGGTAAATCGAGAGACTAAACGGGAGGAAGAAAACGAAAAGGGGATGATATGA MSKFSKEELIEKLNEVDVHRVTGSPDNVQHPSHYTHGKYETIDVIEDITSGYEDGFTAHCVGTAVKYLYRAPHKHESPLEDLRKARQYVEFAVNRETKREEENEKGMI NA NA NA NA NA AK015_00067 1545 banIM Modification methylase BanI ATGGCAGTCCGTTTCTTAATTGACGATCAAGGACGTACCAACAAGCGGTTAAAACCTTTGTATATATCACCTACAATACGAAGAGAAATGCACGGGAATGAGCCAAGAGTTGTTGAGCCTATTGGTTGGGAATTAGTGGAGTACTTAAATGATAATAAACCTAAAGGAGTCGGTTTAGTGACGAAAACAACGCCTTTTACATACGTGTCTCTATTTAGCGGCATTGGGGGATTCGAACAGGCGCTTAATAAACTCGGAGGCACTTGCGTACTAGCTTCCGAGATTGATAAGTTCGCGAATCAAGCTTACGAGGTGTTATACGGACATAAAACGGTCGGTGACATAACGAAAATAAAAGCGGAGGATGTCCCGAATCACGACGTGTTGGTCGGGGGATTTCCGTGCCAGTCATTCAGCGTGGCCGGCAAGCGAGGTGGACTCGACGACGCAAGAGGGACGTTATTTTTCGAGGTCGCTCGTATTGCTTCTCAAAAGCAACCTAGCGTATTGCTTTTGGAGAACGTAAAAGGCCTCGTCGGGCATGATAAAGGACGCACATTAGATACGATAGTTAAAACGTTAAACGACATTGGCTATCGCGTTGATTTTAACGTCTTAAACTCGAAATACTTCGGAGTACCACAGAACAGAGAACGGATATTTATCGTAGGTATTCGCGAAGATTTAATCGACAATGAACCGTGGGTTATCGAAGGTAATACGGTAGTGCCGAAAGGGAAGCTGAGGATTAGCGAATATGACGATGTGAAGACGTTTAACTTCGATTGGCCGGAGCAAACGGAAGTCTCAACACGACTGCGCGACGTTTTAGAAACGGAAGTGGACGAAAAGTACTATTTATCGGAAGAAAAGACGGCGGGACTATTAAGTCAGCTAAACGAAAAAGGAGAAACATTTGACGAAAGCAGACGACTTCGCCCGATGGAAGGGTCGAGAATACACGAATGGTACGAACGAGATGACCGAATATTTGGGACGCAGAAAAGGCCTAAACATAACGTTGCTCAGGATTATATTTATTATAAAGATCATGCAGTTGTTGGGGCGATGATGGCTTCGTCAGTGACTAAGAAAATCGACGAACCGCAAATGCTCGGACACATCGACCTAAAAGGTCATGACGCAATCAAGCGTGTTTACAGCGCGGAGGGCGTTTCTCCAACGCTTACGACAATGGAAGGTGGTAATAGGCAGCCAAAAATAGCGCAGGAAGTCAGCCCCGTTCTCACGCCAGACCGCATAAACAAACGACAAAACGGACGGAGGTTTAAGGACGACGGTGAGGAATCATTTACGTTAACGTCGCAGGATATCCACGGCGTGGCGGAAGGGTTAGCGCCGAAGTACCGTATCCGCAAGCTTACGCCATTGGAATGCTGGCGTTTGCAGAGTTTTCCTGACGAAGCGCACGAAGCAGTCAAGCAGGCGGGTATCAGCGACAGTCAACGTTACAAAATGGCGGGCAATGCCGTAACGGTAAACGTAATTGAGGCGTTAGGAGCAAAGATCGCTCGCTATCTTTAG MAVRFLIDDQGRTNKRLKPLYISPTIRREMHGNEPRVVEPIGWELVEYLNDNKPKGVGLVTKTTPFTYVSLFSGIGGFEQALNKLGGTCVLASEIDKFANQAYEVLYGHKTVGDITKIKAEDVPNHDVLVGGFPCQSFSVAGKRGGLDDARGTLFFEVARIASQKQPSVLLLENVKGLVGHDKGRTLDTIVKTLNDIGYRVDFNVLNSKYFGVPQNRERIFIVGIREDLIDNEPWVIEGNTVVPKGKLRISEYDDVKTFNFDWPEQTEVSTRLRDVLETEVDEKYYLSEEKTAGLLSQLNEKGETFDESRRLRPMEGSRIHEWYERDDRIFGTQKRPKHNVAQDYIYYKDHAVVGAMMASSVTKKIDEPQMLGHIDLKGHDAIKRVYSAEGVSPTLTTMEGGNRQPKIAQEVSPVLTPDRINKRQNGRRFKDDGEESFTLTSQDIHGVAEGLAPKYRIRKLTPLECWRLQSFPDEAHEAVKQAGISDSQRYKMAGNAVTVNVIEALGAKIARYL PGPT0020015_3051 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558 NA NA AK015_00068 378 hypothetical protein ATGTCGCAATCAATACTAGACGGGTTTGAGTTCGTGCCTTCTGACGGCGTACCGTTTATCACGCTCGACCGCCAACGCCGCTTTTATCTAAACGCAACTACCCGTAAGTTGTTGTCGTTAAAGCCGTACCAACGCGTGTCTATCGCATATAATCCGACTGACAAATCAATCGCCATCATCAAGCCGGGCGCTAAGTTAATCGACAGCCTACACGCAAACCTAGCGCAGTATGTCGTAGACAAGCGATATTACCTGTCAGCGCGTAGGTTTGCGAAGGATTATTCGTACGAGCCGTCAAATGCACCGTATGAGTTTGCGTATGATCGCGGGAGTTCGGACGGTCAGATTTTTATTTTTCGGTTGGCAAGTACGGAATAA MSQSILDGFEFVPSDGVPFITLDRQRRFYLNATTRKLLSLKPYQRVSIAYNPTDKSIAIIKPGAKLIDSLHANLAQYVVDKRYYLSARRFAKDYSYEPSNAPYEFAYDRGSSDGQIFIFRLASTE NA NA NA NA NA AK015_00069 1548 hypothetical protein TTGTTTAACGAAAATAAGGACTTTTACCCGACGCCACAAGCGTTGTTCCATCAACTAATGAACGGTAAATCACGCCACATAAGCGGCAAGGTTTTAGAACCTTCCGCAGGCAAGGGCGACTTGATACGGTATATAAAAGAATCGAACAGGCACGCACAGATAGACGCAATCGAAAAGGACGGCAACCTATCGAGCATGTTAATGGGCGACGGAATTAACGTTGTGTGGGACGATTTTTTAACGTATGAAACGTACAAAGCGTACAACTACATCATCATGAACCCGCCGTTTAGTAACGGAGTAGATCACGTGCTAAAAGCGTTAGAGCTAGCGGAAGCGCAAGTCAGTTCCTGCGAAATATACGCCATATTAAACAAAGAAACGCTCAATAACGCTTATTCTAACAAACGGCAGGGGCTATTACGCAAGCTAAACGAGCATGACGCCGAAATTAGGTATGTAAAGGACGGTTTTACTTCGGCAGAACGAAAAACAGACGTAGAGGTTGCGCTGATTAACGTTATGATCGCCAATAAAGGCGCTGGAAGGTCGATATATGATGAAATTCCGTTTGTAAAGCGGCAAGCAGACGAAGATAACGGCTTAGAAACGGCGTTATCTACATATGTAAAGGACAACGAGGTACAAGCGAAAATTAACGACATAGAGCGGCTGGTGTTGGAGTACGAAAAGGCTTGCGAGGTTACGCGGAAATCATTTAAGGCTATGCGTGATAAGTCGTCCTTTTTCGGCTATATCGGCAACGTGAATAAAAAAGATGGCGAGGTGATTTCTTCGCTTAATTACGTAGCTAAGAAAGAATTAACGGAAGAAGATTACAATGACGAATTAGCTAGTTTAAGACGTGCATATTGGGAGTTAATCCTCGATACGGGCGAGTTTAGGAAAGTGCTGACGAACGAAGCAAGGCAGAATTTAAACCGTCAACTGGAAGCAGCCAACGAAATGGAAATAAACCTTACTAATATAAAAACGTTACTCATGGCACTAGGTGCAAACCGGGAAAACATGTTAATCGACTCTATCGTTTCTATATTTAAGCGTATCACACGTTATCATATGAATCAGTATTCGACTAATATCCATTATTACGACGGCTGGAAAACGAACAATGCGTACAAGATAAACAAAAAGATTATTATCCCGATAAAACGTGGCGGCTTCGACAGTTGGGATTATCGCGAGGACTTCGGCATATTGTGCATGGACGTAAGGGCGTTTGTCGAGGATATCGTAAAATCGTTTCAGCTTATCGACCCTGCCGTAACTGACGATTTCACCTATGTAGGAAAAGGCGAATTTGAAAACGACTTACTCCGATTCAAAATGTTTAACAACGGCAACATACACGTCTGGTTTAACCGGCTTGATCTGCTAAGTAAGCTTAATTACATATGTGGTAGTCATTTCAATTGGATTCCGTCAGAGGACGAAGTTAAGACGAGCCAAAAAGCACGTGAGTTTGTCGTCAAAGAGTTCGGCGACGGTGTGTTGACGAGTGGGGTGTTGTGTAATGGCGACATATAA MFNENKDFYPTPQALFHQLMNGKSRHISGKVLEPSAGKGDLIRYIKESNRHAQIDAIEKDGNLSSMLMGDGINVVWDDFLTYETYKAYNYIIMNPPFSNGVDHVLKALELAEAQVSSCEIYAILNKETLNNAYSNKRQGLLRKLNEHDAEIRYVKDGFTSAERKTDVEVALINVMIANKGAGRSIYDEIPFVKRQADEDNGLETALSTYVKDNEVQAKINDIERLVLEYEKACEVTRKSFKAMRDKSSFFGYIGNVNKKDGEVISSLNYVAKKELTEEDYNDELASLRRAYWELILDTGEFRKVLTNEARQNLNRQLEAANEMEINLTNIKTLLMALGANRENMLIDSIVSIFKRITRYHMNQYSTNIHYYDGWKTNNAYKINKKIIIPIKRGGFDSWDYREDFGILCMDVRAFVEDIVKSFQLIDPAVTDDFTYVGKGEFENDLLRFKMFNNGNIHVWFNRLDLLSKLNYICGSHFNWIPSEDEVKTSQKAREFVVKEFGDGVLTSGVLCNGDI NA NA NA NA NA AK015_00070 606 hypothetical protein ATGGCGACATATAAAGAACGACTACATGACGACTACGAAACGCTAAGAACGCAAGTCAAGGCGGGCGAGTTGTCACAGCCAGCACGTAATCAAGCGATAGATGAGGCGGTAAGTGCGTACGTGTTGGCGCAGGATGAGGCGATGGGCATTGCGTTTCGTGATACCGCCATGCTCGATAAATACGCCAATCTCGTATTGCACGAGGACTTGACGTGGAGTCATCCCGACAAAATGAGTATCGTGGAGTATCCGGTTATGAGCGACTCGCAAGAAAAAAGGAGAGAGCGCAAATTCAAGCCGTCTGAAAACGTATACTACGACGGCAGGCAAGTTACCGGTAAAGTAGCAGGGTGTGACGTAGATAACGGCAAGAAAACGTCTAGTCCGGTATTTAATACGGTACATAGCGAAGCACACGACGATAGGATTGACGTGTTGGTGATGCTTGAGCACGCAGGGTTGACGAGTAAGCAACGTGAGGCTGTCGAGTTGGCGTATTTCGAGGGGTTGACGCAGGAGCAGGCGGCTGAGCGGATGGGGCTTGCGAGGCGTACGATTAGGACTTACGTTGATATTGCGTTAGGTAAGTTAAAAGAGATTACATAA MATYKERLHDDYETLRTQVKAGELSQPARNQAIDEAVSAYVLAQDEAMGIAFRDTAMLDKYANLVLHEDLTWSHPDKMSIVEYPVMSDSQEKRRERKFKPSENVYYDGRQVTGKVAGCDVDNGKKTSSPVFNTVHSEAHDDRIDVLVMLEHAGLTSKQREAVELAYFEGLTQEQAAERMGLARRTIRTYVDIALGKLKEIT NA NA NA NA NA AK015_00071 486 hypothetical protein ATGTTTGTAGTAGATGAATTTATTGTAGTAGTTGAGGATGCAGAAACAGGAGATACACTATCGCATGGAGATCAATATAGTTTAGACAATGCTCTTGAAAAGATAGAAGAACTCAAGGAAGATTTTGAAGAAAAAGGCCTCACAGAAGATAGAAATATATATTTTAAAAGGAGACACCACTCTATGATTAGCGAGACCGTGGTTAATTGGATTAATCCAAATGAAGAAGGTTGCAAGCCTTATAGAGTTAGTTGGAATGGTAAGCAAAAAGAAATAGATGTCAATAAAGCAAAATTTGATAGAAAACAATTAAGGTTATTAGAAGATTTGTTGAATGATAAAATTTCACAACTTAAGCACGATGTATGGGAATGCAAAGTAGAAGAAAATTGGGGCATTATGAATGACTGTAAGAAAAAACTGGAAGAATACGAAGAATTAGATCGGAAAATAACCAGACAAGTTAAGCAAGGTTTAATCTATTAA MFVVDEFIVVVEDAETGDTLSHGDQYSLDNALEKIEELKEDFEEKGLTEDRNIYFKRRHHSMISETVVNWINPNEEGCKPYRVSWNGKQKEIDVNKAKFDRKQLRLLEDLLNDKISQLKHDVWECKVEENWGIMNDCKKKLEEYEELDRKITRQVKQGLIY NA NA NA NA NA AK015_00072 375 hypothetical protein ATGAAAAACCTTAAAGAAGTTGTTGAAAGAATCATCGAGCAATGGGAAAACGACGAAATCGAGTACGACGTAATCGGCATCCGTTTCGAAGATAAAGAGCGTAAAATCGGCGACATTTGCGAACGAAGCCGTCACAATTCCGATCGGGAAGATGAAAGAGAAATGCCCGAGTACGGTACGGAAGAATACGAAGAAATGACGCTTTTTGACGGCACGAGCGCATGGAATATACACGAGTTTGACGACTTTGATAGCGAGTACGACAGTCACCACTGCTACATAATAGCAGGCGATAGAGACGTTAACAAAGACGATGATTTAGACGTTGGCGAGGTCGTAATTGAGGACGCTGTAGTAATTGAGGTTGTTTATTAA MKNLKEVVERIIEQWENDEIEYDVIGIRFEDKERKIGDICERSRHNSDREDEREMPEYGTEEYEEMTLFDGTSAWNIHEFDDFDSEYDSHHCYIIAGDRDVNKDDDLDVGEVVIEDAVVIEVVY NA NA NA NA NA AK015_00073 777 hypothetical protein GTGCCTAAACTTAACCTAAAACCAGGTCAGCAATTTAATTATTGGACACTGGTTAAAGAGTCGCCAAAGAAAGGAAATGTACGATATTGGCATTGTCGTTGCATTTGCGGAACAGAAAAAACTATACGTCAGTCCTCTCTAACAACAGGAAACTCAAAATCATGCGGTTGCAAAGCCACACCTAAAAAGGGAAATGATTTAACTGGCAAACGGTACGGTAGGTTAACTGTCATTAAAAAGCTAGATCATAAAATAGATAACCGCATTGTTTGGCGATGTAAATGCGCTTGTGGTAATTATACTGATGTTAAAAGCGTTTATTTAACTACAGGCGAAACAAAGTCTTGTGGTTGCTTAAAACATGATCAAGACGAGGTAAACCTTAGAAATATGTACGATGCTAATTATGTTGATGATGTAAACGTCTCTCTTTTAAAGTCTAAATTAAGATCAGACAATAAAAGCGGCATTAAAGGTGTCTATTACAGCAAAAGCAAAAAATCGTGGAACGCTTATATAGGGTATGGAGGTAAACGAAAATATCTAGGTAGTTTTAAATCTAAAAGTGCTGCTATAAAAGCACGTAAGCAAGCTGAGGAAAAATATCATAAACCCTATTTGGAGGAATTTAATATGAAGAAAGTAAATTTCAATATTAGAATTGAAGAAGAATTACGCGAACAATTTAAAAAGGTAGCGGAAGAAAACGTCCAAAACCCTTCCGCGCTAGTACGTAGATGGATTTCCGATTACGTAGAAAAACATAAGAAAGATTAG MPKLNLKPGQQFNYWTLVKESPKKGNVRYWHCRCICGTEKTIRQSSLTTGNSKSCGCKATPKKGNDLTGKRYGRLTVIKKLDHKIDNRIVWRCKCACGNYTDVKSVYLTTGETKSCGCLKHDQDEVNLRNMYDANYVDDVNVSLLKSKLRSDNKSGIKGVYYSKSKKSWNAYIGYGGKRKYLGSFKSKSAAIKARKQAEEKYHKPYLEEFNMKKVNFNIRIEEELREQFKKVAEENVQNPSALVRRWISDYVEKHKKD NA NA NA NA NA AK015_00074 366 hypothetical protein ATGAAAAAAGTAATGATTAGAGCATGGGAAATCGCTAAACAAGGGCAAGCTAAATTTGGAGGTAAAGTTAAGGAGTATTTCGCACAAGCTTTAAAAATGGCTTGGGCAGAAACTCGTAAGGTGATCGTTCACACTACTTCTGGATCAAAAAAGTGGAAATCTTGGGTTGCTCGCATTACTGGCAAAGATGCTCGTTTTGGTTTCGCTCGTGAGTTTGTTAACCCGGTTGTAGCGTCAGGCATGACTGGTAAGGAATTTGAACTTAACAACGGCGTATATGAGGTTTGTAATGCAGGAGAGCGTAAATTTATTAAAGTTGTTGATGGTCAATTACTTAACATCAACAAGGATGAGGTCGTGGCATAG MKKVMIRAWEIAKQGQAKFGGKVKEYFAQALKMAWAETRKVIVHTTSGSKKWKSWVARITGKDARFGFAREFVNPVVASGMTGKEFELNNGVYEVCNAGERKFIKVVDGQLLNINKDEVVA NA NA NA NA NA AK015_00075 594 hypothetical protein TTGGCAGACGTAAACTCGCGGCAATTAAACGATAAAGGGGACGATAATATGACGAACATGGCGGCTGACATGGCGCGCGAAGTAGACGCAATCGAACATAAAATCGGTGAAGGGGTATACAAGGCGCATATATCCGAAACTGGCGAAAAGGTGTGGATCACCAAGGCGGAATATGATCGCTTAGAGCCGTTACTTGGCGCAGGTAAGCCACTTCCGTTATTAGACGAAACGCAGATTATCGAGTGTCACAGAGTAACGGCGGATAACTGGGGTAACCATAAGGTTGACGTAGACGTCTCGCAAGCACTCACCGGACTAAAGTCAGTACAACGCGAAGCACGTAAGGCGACGCAGGCTTTACGTGAGTTGCAGGCGGAGCAGGCGAGGGAGGATCAGGAACACGACGGCTTACACCTCGCTAACTTACCGGTGTATGACGAATACAAAACGACAATTAATTTAAAGTACGTACCTACGTTGGCTTTAGTCAATGAGTTGGCGAAAAGAAATGGCGTAGAGAGTCACCGTGTCGGAATTGGTTACAACACTATTATAGACGGACCTGCTCGCGTATTGGCGGTGGCTGATCGATGA MADVNSRQLNDKGDDNMTNMAADMAREVDAIEHKIGEGVYKAHISETGEKVWITKAEYDRLEPLLGAGKPLPLLDETQIIECHRVTADNWGNHKVDVDVSQALTGLKSVQREARKATQALRELQAEQAREDQEHDGLHLANLPVYDEYKTTINLKYVPTLALVNELAKRNGVESHRVGIGYNTIIDGPARVLAVADR NA NA NA NA NA AK015_00076 324 hypothetical protein ATGAGTATTATATCGAAAATGCTACGTAAGTTTAAACGTCGTAACGAAGAAATTTCACCGATACCGTTTCCGGTAAGAGATAAGCAAGCGTTAAACGATTTAAGCGCAGCTATACGGGCATACGCCGAAGATAATCCGGGCATAACATGTACTTACGAAGAAATGTTCGAGGTAATAAACGATTATAAAGGCGACGGATGCTGGACTCCAGCGGGTTACATAGTAGAATCGACTTCCAAACGTGACGAGAATGGTAATCTAGAGTACGGTGACGATCAATTCGTGATCTTGCGTTTTACTAATCGCAGAGGTGAGGTGGACTGA MSIISKMLRKFKRRNEEISPIPFPVRDKQALNDLSAAIRAYAEDNPGITCTYEEMFEVINDYKGDGCWTPAGYIVESTSKRDENGNLEYGDDQFVILRFTNRRGEVD NA NA NA NA NA AK015_00077 147 hypothetical protein ATGGGCGAATTAATTACGACGGAAAAAGCGTCGGAGATACTGCTCGATAAACTCGACAGTGGTGCGCTAAGTCACGACAAGTGGGAACGTCTACAGTGGAAGATTTACGAATGGGCTTGTAAAGCGGAGAGGCTTAACGACTATTAA MGELITTEKASEILLDKLDSGALSHDKWERLQWKIYEWACKAERLNDY NA NA NA NA NA AK015_00078 198 hypothetical protein ATGACCGATAAATTCTACTGTTATTCAACGACATTAATGTATTTCTTAAAAGCAAGCGGAATTAAATACGAATACAAAACAACTCACAAGCGCACAGGCAAGCGTATGTGGGTCTTTTTACGTACAGACGACCTAAAGCACGTACTGGACGAATACGACGCCAGAAAGGCGCAGGCAAAGGCGCAAGGGCGAATTTAG MTDKFYCYSTTLMYFLKASGIKYEYKTTHKRTGKRMWVFLRTDDLKHVLDEYDARKAQAKAQGRI NA NA NA NA NA AK015_00079 819 hypothetical protein ATGACGGAAAGAATTGCGCCAGTAGACTTAGAAACAGGCGAAATCAGCGAAAATCATTACATAAGAGCCAAAACGCAAGACGACGCTTACCGAAAGAAACTCGAAAGGGAACGATACCGATCGATTACTACTTCGAAGCATTGGGTCGCAAGTTATCACGACCCTATCGAGGATATATCGAAGGGGCTATCATTAACGCAAACAGGCGCGATCATTAAGCTACTGCCGTACATGCGGTTTAAGTCGGAAGGTAAGTTGATTAAAGACGGAAAGCCATTAAAGCAAACGGACATTCAGCGCATACTTAAACGAGGCAAACGTGCAACTATAACGATACTTAACGAGTTGGAAGATAAAGGCGTTATCACCGTTCTGAAAGAAGGACGGAGTAACGTCTATTATATTTCGGCGAGATTTCACGAAAAAGGTAACGTAAGGGACAACGAGAGATTTACGAAGCTATATCAGAAAAGAACGCAAGAGATTACGGACGCACTTCCGTTACATGAAGCGGGCATATTATACAAGATAATGCCGTACTTCCATTTTAGTCGGTATTATTTGGTGCGTAACCCTAACGAGCCAGACGAGGACAATCTTGAGCATATAAATCACGAAGAACTAGCGAAACTAATCGGAATGAAGCGACAAGACCTATCGAGTGCTGTCGCCAAGTTGCGTAACATGGGTGCGTTGATGTCTACGTATAGTGGACGTAAGGTGCGGTACATCGTTCACCCTGACGTAATGTTCCGGCAATCGGTAGAAACGGAGTGGACGGAAGCAGTTCGAAGCCTTTTTGCGGAACATATGAAGTAG MTERIAPVDLETGEISENHYIRAKTQDDAYRKKLERERYRSITTSKHWVASYHDPIEDISKGLSLTQTGAIIKLLPYMRFKSEGKLIKDGKPLKQTDIQRILKRGKRATITILNELEDKGVITVLKEGRSNVYYISARFHEKGNVRDNERFTKLYQKRTQEITDALPLHEAGILYKIMPYFHFSRYYLVRNPNEPDEDNLEHINHEELAKLIGMKRQDLSSAVAKLRNMGALMSTYSGRKVRYIVHPDVMFRQSVETEWTEAVRSLFAEHMK NA NA NA NA NA AK015_00080 387 hypothetical protein ATGGCGAAGAAACTTAGCGAAAAGCAATACGCAGCTATTGCGATATTATCACTACCGAAAAGAGGCGGAATGACTTACGAGCAGGTAGCGGAGGAAGTCGGAGTGTCCTCGGAGACTTTGCGAGTATGGCGACAGGATGACACATTCAACGAGGAATTAAAACGGACAATCATGCGGAGTACTATCGAAAGACTACCCGAAGTAATGGCATCTATACCAGATCATATTATAAACGACGGTAATGCGGCAATGTTCCGTACACTGCTACAAACGCACGGGCTACTGACGGAGAAGCACGAAGTAACTGACGGGAATGATAACGCAAAGGATATCGACGATATGAGAGCGGAATTACAGCGATTTAAAGATCGGAAGAACAATGAATAA MAKKLSEKQYAAIAILSLPKRGGMTYEQVAEEVGVSSETLRVWRQDDTFNEELKRTIMRSTIERLPEVMASIPDHIINDGNAAMFRTLLQTHGLLTEKHEVTDGNDNAKDIDDMRAELQRFKDRKNNE NA NA NA NA NA AK015_00081 1785 hypothetical protein GTGAGGTATATCGCATGGGTAAATAATCGGTGGGTAAAATCCGATGAACGAGCAGAGTTAATCGAAACATACGCGGCGTATCTCAATATGCTAGACGAAAAATACCCGAATCAAGACGACCTGACTACCGATGTTGTTTCCGACTATCTCGATAAAGCATACGAATTAGAGCGACTAGAACGAATACACCGTTGTGAGTCCGATTTGCTACAGTTTGCTATTGAGTATTTCTCCGAAGCAAAAAACCCGGAAAACGACGGTAATTGGAAAGGGTTTGATATTTCCGATAAATCTCAGTCGCCGGAGTTTCATCGAGAAATAACAGACATAATGAACGTTGTATCTACCGAACACATAAACGCAAAGATAGCGGTTGCCGCACCTCGTTCGCACGCAAAGTCGAGTTATTTATCGAAAGCATTTCCGATACATGAAGTAGTGTACCGTAAAAGAAGTTACGTAATTATTATATCTGAGACTCCTAATGTTTCGAGGGGTAATATGGAATGGATACGTAACCAAATGAAGTTTAACCGAAAATTACGTGAGGATTTTGGACCGTTGTTGTCGCCAAAAGATCAGTCGAATATACAAGATAACTCCGAGGCATTTATCGCATGGCATCCGAAACCAGACGGATTCAAGAATCAAATAGCGTTAGTGGAAGCGGCTTCTACAGGTCAAGCGTTGAGAGGGCGAAACTGGAACGGTTCTCGACCAGACTTGATCGTATTGGACGATTTAGAGGACGCTAGACCGGGAGGTAACGCTAGTACCCCCGAACAGAGGGCGAAACTGAAAGACTGGTTCGCTCAGACAGTAATACCATTAGGTGATCCAAAGGATGAACGAACAGCGTTTGTTTACATGGGTACAACGGTACATTTTGAGTCTTTATTGATGGACGTATTACATAATAACCCTGATTTTGATTCTAAAATATTTCGGGCGATTATTGATTTTCCCGAACGAATGGACTTATGGGACGAATGCCAAAGGATATTCACAAACAGAGACAATACAAACCGAAAGAAAGACGCTGAAAAGTTTTATCTAGAGAATGAAAAAGAAATGCTTAAGGGATCAAAGGTTCTGTGGGAAGAAGCGCAACCATTGTTTAAGTTAATGAAATGGAAATGGACGTATACCAGCAAGGCATTTAATACTGAGTACATGAACAATCCAGTTGACGAGGAGTCTATGATATTTAACCCAGAGACATTTACTTACTGGGATGGAAAAATGAAAATAGAAGATTTCTTCGGCAGTGACTTTGCTATAGGAATGGGAATAGACTTTGCGTTAGGTAAAGAAAAAGGAGATTATCCTGCAATATCAGTAGTGGCGAAACATAAAGAAAAAGACCTAATTTACGTAGTGGATTCGTACCTAGAGAGAGTACAGATCGACTACTTTTTTGATGTCATCGTAGAAAAGGTTAAGTACTGGCAGCCGGATGTAATAGCCGCAGACGCTAACGCTATGCAAGAAGTAATTGCAGGCTCTTTAGAGAAACGATTACAACAAGAAGGGTATCCCGCAACTACGCGCCTGAGGAAAATTAAAAACAGAGGCAAAAAAGCGATACGTATCGAGGCGATGAAACTCGACATAGATCAAGGTGGTATTAGATTTACTAGACGTCATCAACGGCTACTTGAACAATTCGAAAGGTACGGGCAAGGAGCGCATGATGACGGTCCAGACTCGTTACAGATGGCAGTCGAATCGACAACGCAAGCACGAAGAAGGAAAGCCGGAAACGCCGGCTCTTATCGATACTAA MRYIAWVNNRWVKSDERAELIETYAAYLNMLDEKYPNQDDLTTDVVSDYLDKAYELERLERIHRCESDLLQFAIEYFSEAKNPENDGNWKGFDISDKSQSPEFHREITDIMNVVSTEHINAKIAVAAPRSHAKSSYLSKAFPIHEVVYRKRSYVIIISETPNVSRGNMEWIRNQMKFNRKLREDFGPLLSPKDQSNIQDNSEAFIAWHPKPDGFKNQIALVEAASTGQALRGRNWNGSRPDLIVLDDLEDARPGGNASTPEQRAKLKDWFAQTVIPLGDPKDERTAFVYMGTTVHFESLLMDVLHNNPDFDSKIFRAIIDFPERMDLWDECQRIFTNRDNTNRKKDAEKFYLENEKEMLKGSKVLWEEAQPLFKLMKWKWTYTSKAFNTEYMNNPVDEESMIFNPETFTYWDGKMKIEDFFGSDFAIGMGIDFALGKEKGDYPAISVVAKHKEKDLIYVVDSYLERVQIDYFFDVIVEKVKYWQPDVIAADANAMQEVIAGSLEKRLQQEGYPATTRLRKIKNRGKKAIRIEAMKLDIDQGGIRFTRRHQRLLEQFERYGQGAHDDGPDSLQMAVESTTQARRRKAGNAGSYRY NA NA NA NA NA AK015_00082 225 hypothetical protein ATGTTTAAAGATACCTTTATTATAGCAGGTAAAGAAGAAGGGTTTAGATACGCAGACGCAAGGATAGTAGTTATTCACAATACATCTATGCATGGTGACGGTAAAGAGGTTGTAGAAAACCGTATTAATAAACTAAGAGTAGAAGGATTCAAGATATTTTATATAACGGAGACGGTAGAACGAATTGATGACATAGCCGACGATGCAAACGGAGTTAACCGGTAA MFKDTFIIAGKEEGFRYADARIVVIHNTSMHGDGKEVVENRINKLRVEGFKIFYITETVERIDDIADDANGVNR NA NA NA NA NA AK015_00083 1521 hypothetical protein TTGATTAACGGAGTCATATTTAAACACCCGATGCAGTACGCACTTGGCGAAAAAGAGTTCCAGCGGATAGCAGACGAACTAAAGCTATACGAACGATACTACGGCATCAGAGACGTATGGTCGGAGTCCGAACCGCCTACTGACATCGACTACATACCGACGTCGCTATCGATTAACTACCTACGTAAAATGATCGACACTATCGCAGCTTGGCAGTTTGAACGCGAGCCGAAAGTAAGCGCACCACCAGCGATTATTGACGACCCGGTTTTGTCGAAAACACTAAACGCAGAACCAAGCGACGGACAGCAAGCGGAAAACCGTCACGCAAAGGCAAAAGAGGAGTTATTGACGAAAGTATGGCGAGACAATCGAATGCACGAAAAGTTACTAGCGGCAGCAAAAGACCGAGCCATCTCGAAAACAGGCGTATTCGCACGACTTCACTACGATAGACGACGCGGCGGTATACGTGTTCTATTTCACCCGTCTACCGAGGTCATTCCCGTTTATAACGAATGGGACATCGATCAACTAGAAGAAGTGCATTTTATCGCCTACTTAGACGAAGAACAAACGAAGCTGTGGAAGCTATCGTACTATCTCGTTTGGCAAGGCGATGGCGTGTCAGACGCTGGATATTACGCTTGTGAGATTGAAGAATCTGTATACGATGAAGAATTAAACATTGTAGAAGAACGAGTGGAAAGGTCGCCAATGGGGCTTGATTTTATACCAGCCGTACATATTCCAACGGACAAACTAACGGGGGTATCCGAAGGGACGTCCGAATTAGAGAAAATGATCGAAGTAGCTGACGAGATTAATAAGAAACTATCGGACTATAGCGACGCATTACGGTTTGAAATGTTTGCTATTACGTTACTAAAAAACGTAGACGAAGACCCGAGAAGTCCCCTACGCGTTAGTCCAAGTGCCGTATGGAATTTAGGAGATGGCGAAAAAGATATCGGAGAACCTCACGCGGAACGGCTGGAGTCCGGCTTTAGGTTTAAAGAAGCGATAGAAACGTATTTAGACCGAATGTATAAGGCACTACACGAACTATCCGAAGTACCCGTTGTTAACACGTCCGAACTAAAAACAGGTGGAATCAACGAAGTTGCAATGCAGTTAATGTTTTCGTCCATTATCTCGAAAACTCAACGATCGTGGGTTATTTGGCAATCGAGATTACAGACGTTAAACGAGTATATTTTACGATACATGCAAGCACGACAAGACCACGTAAACTTTAAATACGACGTGGACTTACTGACGGAAGTAGGAGGCGAATATTCAAACGAAATTACGTTTAACTTACCGTTGCCTAAGGATCAAGTGGCATTAGTCGAGCAACTAAGCACGGAAATCGCAAGCAATCTTGAATCGATCAAGGGCGCAATTAGACGTAGCGGTAAAGAAAACGCAGAAGCTAAGCTGTTGGAGATATTATCCGAGCGAGAGTTAATGCGAGATAGACGAATGCGTAACGAAAGCCCTTACCCGGAAGAAACATAA MINGVIFKHPMQYALGEKEFQRIADELKLYERYYGIRDVWSESEPPTDIDYIPTSLSINYLRKMIDTIAAWQFEREPKVSAPPAIIDDPVLSKTLNAEPSDGQQAENRHAKAKEELLTKVWRDNRMHEKLLAAAKDRAISKTGVFARLHYDRRRGGIRVLFHPSTEVIPVYNEWDIDQLEEVHFIAYLDEEQTKLWKLSYYLVWQGDGVSDAGYYACEIEESVYDEELNIVEERVERSPMGLDFIPAVHIPTDKLTGVSEGTSELEKMIEVADEINKKLSDYSDALRFEMFAITLLKNVDEDPRSPLRVSPSAVWNLGDGEKDIGEPHAERLESGFRFKEAIETYLDRMYKALHELSEVPVVNTSELKTGGINEVAMQLMFSSIISKTQRSWVIWQSRLQTLNEYILRYMQARQDHVNFKYDVDLLTEVGGEYSNEITFNLPLPKDQVALVEQLSTEIASNLESIKGAIRRSGKENAEAKLLEILSERELMRDRRMRNESPYPEET NA NA NA NA NA AK015_00084 723 hypothetical protein ATGAGTGAACCAAATGCAAACCCAAATAACGCACTACAAAACCCGTCTGCGGAGACGAAAAATACCGAACAGGTGCAAAACACGCAGACGACCCAACCAACCCCGCCTAGCGCAATACCGTACGAACGGTTTAAGGAAGTTAACGACGCGTACAAATCGTTTAAGTCGCTAGGTTACGAATCACCAGACGAAATAAAAGCGCAATTAGACGAGCTACAGACGCTAAAGCAAGCGGAAGACAACCGCAAGAAGGCGGAAATGGACGAGTTAGAACGGTTGAAAGCGGAGAAAGAGGAAGCGTTGCAAAAAGCGCAAGAGGACGCAGCGAAGGCGGAACAAGCGCAGAAAGCAGCTAACGAGCGTATTCTGAATACGGAAATTAAATCCGTAGCTAGAGCGTTAAACGCCAATGACCCTAACGATGTACTAGCATTGTTAGACAAGACGCAAGTCGAAGTTGACGATGAAGGAAACGTGACAGGCGTAGAGGAAGCGGTGACAGCTTTTAAACAAAACAAGCCGTGGTTGTTTAAGCAAGTTACGATAGGAGCAGACGCAAAGGGCGGAGGTAATCCATCCAAGAATCCGTCAGTAGACGAGATTGCGGCGAAAGAAAAAGAGTTGACGGAAGCACAGGAATTAGCACTAAAGGATAAACGTCACTCCGGAAAGGTGACGCGGATTTTTAACGAATTAAAAGAATTGAAAAAGAAAAACAAGTAG MSEPNANPNNALQNPSAETKNTEQVQNTQTTQPTPPSAIPYERFKEVNDAYKSFKSLGYESPDEIKAQLDELQTLKQAEDNRKKAEMDELERLKAEKEEALQKAQEDAAKAEQAQKAANERILNTEIKSVARALNANDPNDVLALLDKTQVEVDDEGNVTGVEEAVTAFKQNKPWLFKQVTIGADAKGGGNPSKNPSVDEIAAKEKELTEAQELALKDKRHSGKVTRIFNELKELKKKNK NA NA NA NA NA AK015_00085 1125 hypothetical protein ATGGCAGTAGCACAAACTTATGATTTTAAAGAGCAAATTAGGGATATGCAGGCGAATGTAGACGTAATCCTACAAAAAGCGCCGGTACTTTTCGGTCTAATCGGAACAGGCGACCAATTAACGCAAACAAAGTTCGAATGGCAGAACGATTACCTAAACAGCGACACTGCAATCGCAAAAGCACAAGCGACAGCGGACGCAATTACGGTAGAAGTCGAGCAAAGGGACGCTGATAAGTTTGCGGTAAATGCGCTTGTACAAAACGGGCTTGAGGTTTTGCGCGTAACCGCAATTGACGAAGGCAACAACACGATTACAGTACAACGTGGCTATGACGCAACTGCACCGGAAGCAATCGAATCTGGCGGAGAGTTAAAGATCATTTCCCGTCCTCGTCCAGAAGGCGAAGATACATTCCGAAAGAACGAAATTAACGACCGTATTGTATCGTTTAACTACTCGCAAATCTTCTCACGATATGCGTCTGTGTCTCGTACGCAACAAATGGTAAGTACATACGGCGTGTCTAACGAATTGGATTACCAAGTTAACCTACGACTAGAAGAAATGATCCGCGAAATGAATAACTCGTTAATTTACGGACGTAAATACGCAGGGTCAGGACAGCAACCTCGTACATCTGGCGGTTTGTTTGCGTTTGCTCAAGAACAAGGGGCGTTTAGTAAAGACTTTAGTGGCGGTGAAATCGATGCTAAAGGACTTAACGACGGAATCGAGGAAGCATTTAAACGTGGCGGTATGGTTAACACGATTTTATGTGCGCCTAACGTAGCAAGACAGATCACCAAGTTAGCTAACGATACTATTCGCACAGAACGAACTGATACGCAAAAAGGTCATCAAATCATGTCGTTTATGTCTGATCTGCCGGGTGGGGCAGTTACCAGCGTAGTAGTCGACTTAAATATGCCGAAAGATCGCGCTTTATTACTTAACGTAGATAACATCAAAGCACGTTACTTGACTGGTGTGTACGATCAAGACGCTACTTTATCAGGAGGCGATTACTTCTCCCGTGTTATGCGTGCGGAATTAGGCTGGGAGATCAAAAACGCAAAAGAATCTATGGTCATCTTATCTAACGTATCTAAGACAATTAACTAA MAVAQTYDFKEQIRDMQANVDVILQKAPVLFGLIGTGDQLTQTKFEWQNDYLNSDTAIAKAQATADAITVEVEQRDADKFAVNALVQNGLEVLRVTAIDEGNNTITVQRGYDATAPEAIESGGELKIISRPRPEGEDTFRKNEINDRIVSFNYSQIFSRYASVSRTQQMVSTYGVSNELDYQVNLRLEEMIREMNNSLIYGRKYAGSGQQPRTSGGLFAFAQEQGAFSKDFSGGEIDAKGLNDGIEEAFKRGGMVNTILCAPNVARQITKLANDTIRTERTDTQKGHQIMSFMSDLPGGAVTSVVVDLNMPKDRALLLNVDNIKARYLTGVYDQDATLSGGDYFSRVMRAELGWEIKNAKESMVILSNVSKTIN NA NA NA NA NA AK015_00086 375 hypothetical protein TTGGCACTAACAGAAAACGAAGTTAAACGGATTAACGTCTCTATGCCCGTAGCTAACGACTTAAAAATAGGCGATCTTTTAAAGCAGTTGGAAGAGTCCACAGGCGGAGAGGTTACGGTCACTTGGGCGGATATCCAAAGCAAGCCGACGGAATTCACCCCATCTGCGCACACGCACGAAATATCAGAAGTTAACGGACTACAAACGGATTTGGACAGCAAGTTAGAATCCGTAGAAATAGGCGATATTGCGGGATTACAGGCTGAATTAAACGGCAAACTAGAGTCGGTATCTGTAGCGGACGTATCCGGACTGCAAACGGAATTAGACAGCATTAAATCGCGCCTCGACGCCTTAGAAGGTGGAGGTGCGTAA MALTENEVKRINVSMPVANDLKIGDLLKQLEESTGGEVTVTWADIQSKPTEFTPSAHTHEISEVNGLQTDLDSKLESVEIGDIAGLQAELNGKLESVSVADVSGLQTELDSIKSRLDALEGGGA NA NA NA NA NA AK015_00087 306 hypothetical protein ATGTCGGAGAAAGCAATCTTTGAGTCACTACCAAACTACGAATATATAAGAGATGGTTTTCACGTTGTTTTTAACGGCGAAGGCTTGTACGTAACTAATAACGCAAGCCACATCGCGGTTTTAGAAAAAGCCAAGCCGTTTATTAAACGTATTGATGACGGGCAACAGACGAAGGGAAAAGAAAGCGTAGAAGCCGACGATAAATACCCGGAACACGTAGGTGGAGGAATGTACGTATTGTCTAACGGTGAAAAGGTAAAAGGTAAAAAAGCGGCAGAACAAGCGGAGTCTGCGCTAGAAAAATAA MSEKAIFESLPNYEYIRDGFHVVFNGEGLYVTNNASHIAVLEKAKPFIKRIDDGQQTKGKESVEADDKYPEHVGGGMYVLSNGEKVKGKKAAEQAESALEK NA NA NA NA NA AK015_00088 369 hypothetical protein ATGTCGAGTAGTATGTCCGTAATACAACGACTGGAATCTCGATTGTCAAAAGTACCGGGCGTCACGGCGGATGACATCGGCATGTGGGTCGCTGAATCCGTTGCAGAGTCCGGCTTTACAGAAGAAGATAACGCCAACGCCGTGTTTTACCTTGCGTTATACAACGCTTATAGTGCTATTGCTTCGGACGCAGCACGGTATTTTTCGTACGGAGATCGCGACGAAACGGTAGACAAGACGGGAATTTTCGAGAATTATATGGAACTTGCGAAAGAGGCTCGTCTTAATTATCGTAAGGCACGCAAAGAAACAGGTGGTCGAAGTTTTACCGCGTACCAGACGCATGTCGGAAGGGCTGACCGCCGATGA MSSSMSVIQRLESRLSKVPGVTADDIGMWVAESVAESGFTEEDNANAVFYLALYNAYSAIASDAARYFSYGDRDETVDKTGIFENYMELAKEARLNYRKARKETGGRSFTAYQTHVGRADRR NA NA NA NA NA AK015_00089 828 hypothetical protein ATGAATAATAAACTAAACGATATACTCGCAGAAGCCTACGACAAACACGAACGCGACAACGAGCGCCGAATCAACTACGTACTAAAGGAAATTGACCGTACTAGACTCGAATTAATCGACCTACTAACGGAGTACGCGAAACAGGATAATACGGTTAGCAGAGCGCGGATAAACACGTTACTGGACGAATTAAACGAAATAGAACGTCACATCAAAGAGTACGGCTTGACGGCGTTGAGTGATGTAATCGACAAATCGACAGACAACGCAATCAATACGGCATGGTTAGCGTTAGGGGTTGTCACCGCTCTTAGCGCCTTATCCAGTCGGAAACAACGACAGCTAACGAAAAGCGCGGTTGATTATGTGTTTGGGCGGTTTGCAAACGAAAACACAATCGGCTTAGACGACCGTATGTGGCGATTAGCTGGCGACTACAACGCAGAGTTACGTAAGGTTTTACAGTCCGGCATTATACAAGGTAAGTCCGTTAACCAACTGACCGCAGATGTACGTAAAGTGTACGAAGCAGAGACATGGAAAATACGTCAAATCGTAATAACCGAAGCTAATACGGCACATCGCGCAGGTATCGCAAAAGCTGCGGAAGAATCAGACGTAGTGAAGGCGATACAAATAGTCGATCATCCCGGACATCGCAATCACGAAAAACATCGTTGTTACGTGTTAGCCCGACAAAACCCCTACGGATGGGGCAACGGTATTTACCGACCGCAAGACACGTACATATACTCACCTCACCCGCAATGCCGTGCGTCGTTTAGATACGTACTCAAAGACGAGTATTTGACGGGAGGTAGCACGTAA MNNKLNDILAEAYDKHERDNERRINYVLKEIDRTRLELIDLLTEYAKQDNTVSRARINTLLDELNEIERHIKEYGLTALSDVIDKSTDNAINTAWLALGVVTALSALSSRKQRQLTKSAVDYVFGRFANENTIGLDDRMWRLAGDYNAELRKVLQSGIIQGKSVNQLTADVRKVYEAETWKIRQIVITEANTAHRAGIAKAAEESDVVKAIQIVDHPGHRNHEKHRCYVLARQNPYGWGNGIYRPQDTYIYSPHPQCRASFRYVLKDEYLTGGST NA NA NA NA NA AK015_00090 393 hypothetical protein ATGTTAAACGCTAGTGACATCGATTTTATTAAGGACAATCGGCGGGAACTAACCGCACACCGGACGTCACCTATTACATTTATTGGCGAGCAACAAACCGGGGAGCATCCGATTACGAGCGAGCCTATTACGGAGAAAGTAACGGCTGAAATCACCGCGGTAGTTTACGAAATCACCTCCGCGTTTAAGTTTGACCGTGAACTAGACGAAGGTGTGGACGTACAAAACGGCGACTTATGGATTGACGTAGACTTGCGAGACATGGCGGGGTTTAGCTCGGACGAAATAAAATCGGTTGAATACCGCAAGGTTAATTACACAGTCATGTCGGCTGACTCCGTAGGACTTGGCGACGATAACCGCGTGCAAATAGTCGGGCGGAGGACGAGTTAG MLNASDIDFIKDNRRELTAHRTSPITFIGEQQTGEHPITSEPITEKVTAEITAVVYEITSAFKFDRELDEGVDVQNGDLWIDVDLRDMAGFSSDEIKSVEYRKVNYTVMSADSVGLGDDNRVQIVGRRTS NA NA NA NA NA AK015_00091 348 hypothetical protein ATGGCGAGATTTAACGTAAAGGTGACGGGCATTAAACGGACGATACGTAGTAAGTTGACCGACAGAAACCTAGCGCAAGATGTCGACAAGATAACGGAGGCATACGCGCGTAAAATCGCAAATGAAGCAGCAGAAAAAGCGCCTATCCTTACGGGCTTACTAAAAAACTCGCTACCTAACGGGGTTGAGCGTAGTGCGATTGGAGAATGGCAAATCGTAGCCATGACGGACTATACGCTAGTACAAGAGTATACGCACCAGACGAAAAAAGGGTTCGTACGTAAATCGGTTTGGGACAACGCAGACGGGTACAGACGTGCGATTGAACAGCGGGCGAAACGGAGGTAA MARFNVKVTGIKRTIRSKLTDRNLAQDVDKITEAYARKIANEAAEKAPILTGLLKNSLPNGVERSAIGEWQIVAMTDYTLVQEYTHQTKKGFVRKSVWDNADGYRRAIEQRAKRR NA NA NA NA NA AK015_00092 450 hypothetical protein ATGGCGAAAGCTACGCAATTAGGCGTTGGTTATTCGCTGGAACAGGAAATCGAAAGGGCTATCGGTGTTAAAACGGTGCTTAAATATGACGGTATAAAATTACCGACGGAAAAGCCGTTTATCCTTATCGAGCAAATGCAGAATAACCATACGCAAATATCGAAATTACGAGAAGCGATACAGACGACATACCGTTTCCAAATCGGTATATACGCGGAATCATACGCACAGAGATCAACGTTGCAAGATGCAATGCGGGATCTCTTTTTGTTTGCGAAATTTCCGTTATATGACGATATGGGAGCGACAACTGACATCTTTTTTGACGTTGAGTTGACGAATGAAGTGCCGATAGATGCGAGCGACATATCGGACGAAACGAATATGCACCGGCTCTATTTTGACGTAGAGGTCGAGGCGATTTATCACAAAAACAGGGGGAGTAATTAA MAKATQLGVGYSLEQEIERAIGVKTVLKYDGIKLPTEKPFILIEQMQNNHTQISKLREAIQTTYRFQIGIYAESYAQRSTLQDAMRDLFLFAKFPLYDDMGATTDIFFDVELTNEVPIDASDISDETNMHRLYFDVEVEAIYHKNRGSN NA NA NA NA NA AK015_00093 462 hypothetical protein ATGGCAAAACCGGAATACAAAGGTCAAGAGTTTTTATACTTGGTGGAAGTGCCGGGAACAGACCCGGAAACCGATCCAGCTACGAAATATCGCGTATTTAACCAAACAGGCGGTAGTACGACAAGCGAAGCCGGAGAGGTCGAATTAAACACGAAAGATAAAACGGGATCAGACTACGCAAATATCACGCAGAATATATCGATTGAAGGCGTACTTACGCAGGGAGACGAAGCGATTAAACATATAGGTAAAGCACAGCGTATGAAGCAATTTGTTAGTATTACGGAGGTTAATACACGTACAGGAGACGCTGAAACAGGAAGCTATATGATTACGAGTTTTGAACGCTCATTTGGTAATGCCGAATTTGCTACGTACACAATCGAAGGCGCTCTTAACGGCGATATTACCGAAGAAAACTTAGTAGATATACCTGACGGCGCGCCGGGAGAGGTCGTCTAA MAKPEYKGQEFLYLVEVPGTDPETDPATKYRVFNQTGGSTTSEAGEVELNTKDKTGSDYANITQNISIEGVLTQGDEAIKHIGKAQRMKQFVSITEVNTRTGDAETGSYMITSFERSFGNAEFATYTIEGALNGDITEENLVDIPDGAPGEVV NA NA NA NA NA AK015_00094 375 hypothetical protein ATGGCAACATCAGCGAAATTTGAAATTGACGGTAAAGAATACGAGGTAAAGATTACAGGCGAGAGTATTAGACACCTAAACAAAGTCGAGAAGGGCGGCGCATACGGTCTTTTGGGACGTATCCTGCAAGCTGAGTTTGATACTTATATAAACGTTCTATATGCAGGGCTTTTGCATACGGGAGAGGGATTCTCTAAAGAAAAAATTGAGAATACCGTGTACGAGAAAATCGAAAATAGAAAACTTGATTTTGATACGATTCACAGAACGATGTATGACGTGGTTGCAGAGGATTTTTTCTACAAACCGACGATGAACAAGATGCTGTCGATGGAACCGGGAGCGAAAGAGAAGGTAGAACAGTTGATGAAATAA MATSAKFEIDGKEYEVKITGESIRHLNKVEKGGAYGLLGRILQAEFDTYINVLYAGLLHTGEGFSKEKIENTVYEKIENRKLDFDTIHRTMYDVVAEDFFYKPTMNKMLSMEPGAKEKVEQLMK NA NA NA NA NA AK015_00095 273 hypothetical protein ATGACGCACCGCGAATACACGCTCGCCATGAGAGCGCAAGCAGAACGATTCCATGACGAAAACGAACGCGAAGCTATGTACGCAACGATGTACGCGGCAGCTTACCGTGGTAAGGGTCGTAATGGTAAACCGTTTAAGGCTCACGAGTTGTATAAGCGTCCGAATGGCGACGAAGTGTACGCTGATCCGGAGGAAGAAATGGCGGACATACAAAAACGTAATGCCGAGTTTTTGGCGCAGTTAGACTTAAGTAAACTTAATAAGAAAACGTAA MTHREYTLAMRAQAERFHDENEREAMYATMYAAAYRGKGRNGKPFKAHELYKRPNGDEVYADPEEEMADIQKRNAEFLAQLDLSKLNKKT NA NA NA NA NA AK015_00096 225 hypothetical protein TTGATAGGAGACGTTTTAGTAAAGATAGGCGCAGATATATCGGACTATCAAAGCAAACTGAACAAAGCCGGAAGTACGATGGAGAGTTTCGGCGATAGAATGAATCAGCTTGGTTCGGCTGTTGCCGGAACATTTGGCGCTATTGCTGTAGCGTCTACGGCAGGTATTGGAGTTGCCGTCAAGCAGGCGAGTGACTTCGAAAGTGCGTTCGCTGGGGTAAATTAA MIGDVLVKIGADISDYQSKLNKAGSTMESFGDRMNQLGSAVAGTFGAIAVASTAGIGVAVKQASDFESAFAGVN NA NA NA NA NA AK015_00097 3414 hypothetical protein ATGGCGAAAGAGATTCCGGCTAGTGCCGAAGAGATTGCGTCGGTTGCTGAAATAGCCGGTCAATTAGGTATCGCAAAAGACGACTTGATGACGTTTACGCGGACAATGGTCGATTTAGGCGTCTCAACTAATATGTCGGCAGAAGAAGCAGCGACGTCATTAGCTAGATTAGCTAACATTACAGGCATGTCGATGAAAGATATTGACCGGTTAGGAAGTACCGTGGTCGATTTAGGAAATAACTTAGCGACTACGGAAAGCGAAATTACCGAAATGGCTTTACGACTAGCCGGAGCAGGGTCGCAAATCGGTCTTACAGAAGATCAAATACTCTCGTTTGCGGCGGCACTTAGTTCCGTCGGTATACAAGCGGAGGCTGGTGGTACTGCTTTTTCGAGAGTATTTCTCGAAATGAATACCGCAGTGATGAATGGTGGAGACACGTTAAGTAAATTTGCCAAAATAGCGGGAATGTCGTCAAGTGATTTTGCGAAAGCATTTGAAGAAGATGCGTCAAAAGCGTTAATTACTTTTATTGACGGTCTATCGGATTTATCAGACGAAGGTGCTAATACGGCAGAGATACTTGCCGATCTCGGCTTGGGTGAAATTAGAGTTAGGGACTCTCTCATGAGAGCGGCAGGTGCTTCGGACGTATTTAATAAGTCGCTAAGTATCGGTAATAAGGCGTGGAATGAAAATACGGCACTAACTAAAGAGGCGCAAGAAAGGTACGATACATTTGCGTCAAAAATGAAAGTATTACGCAATAGATTTGAGAATATACTTACGACAATTGGCGGTCCATTTATGGACGCATTGTCCGGTATTATCGACGGACTAGACCCCGTAATATCGGCAATTGAGCGTATGGCGGAATGGTTTGCTAACGCTAGCAAGCCGGTACAGCAATTTATTACGACATCTGTATTATTAATCCCCGTGCTTGCAACGATTGGAGCGGCTATCGGCGCTTTCTTAATGCTTGTCGGGACAGTTACGGCAGCACTAGCAGGGGCAACGGCAATCTTTGGCACACTCGGCGCAGCTATCGCATTTACGGCTAAGGTTGTCGGGATAGTTGCGGGTGCATTTGTCGGATTGGTCGGCACTATCGCATTCGTAATTACAGCTATACGTAACTTTGACAAGATATTATACGGTCTTTCAGTTGCCGCTGATTTTGTGCGTGACTCTTTTACTTCCTTATTTGATTACGTGTCTAAAAACGTGAGTAAATTTGCGGACAGCGTTGTCCAATCTGTCGAAAGAATATCTCCTGCGTTTGCCAAATTTATAAATGACTCTTGGGTTAGGTTAAATAAATTTTTATCTTTTATGGGCGATATATTTAACAAGGCTGGAGAAATCATTACGGATTTTATGCAGGTTGTTAATGACTTTTCTTTAGGCGTCATCGAGATAGCATTACTCGGACTAGATAAAGTAGCTAAAATCGTTAATATGGGATTAGAAAAACTAAAAGAATCAGGAATTACTCTAGGCGATGTTTTTAGAAACTTAGCTGGACCTATAACATCGCTTATCATACTACTTGGTGGATTTGCGGGACCTGTTGGTTGGGTAATTTCAACATTAACGTTTTTGGTTACGAGAACAAACCTAGTAAGTGATACCATTAAAGCCTTTAAAGGCGAAATGGAATTTTCTGAGGTAATACGTAATGTGGGGGACATGACTGCGTCTTTTATAGAAAACATGTCGGAAATGATTACGAAGGCTGTCGAGGTAGGCTCGGAGTTAATTGTAAAATTGATTGAAGGTATATCAAATCAAATACCTAAGATCGCGGAGATAGCTGTCGAGATAGTAACCACGCTAGTAGAAGGACTTGTTAAAGGTATAACAACAGTAGCTAAAACGGTATCTGTAATTGTGCCAACTATAGTGGATACTATACTAAAAGCGATACCGGATATAATTGATCTTGGCGTATTGATTATAAACAATCTAGTTGACGCTATTATAAAAGCATTGCCTGTTTTAATAGATGCGGCGCTTGCTATAGTAATGACATTGGTAGACGGAATCGTAGTTGTATTACCTAAAATTTTAGAGATCGGCTTATTAATTATTAGTACGTTGATAGACGCCGTTTTAACGGCACTGCCTGCTTTGGTCGAGGTGGGGCTAACTATCGTATTAGCGCTTGTGGACGCAATAGTGGAGAGCTTGCCCGTTTTAGTAGAATCCGGGTTTACTATTTTAACTACGATAATACAAGGGTTAATTGAGGCTTTGCCTAAGATAATCGAAGCTGCCATTTTGCTAGTAACTACCTTAGTAGAGGCATTAATAGAGTTAATACCGGCTATTGTCGACGCAGGCATACAGATAGTACTAGCGTTAGTTGACGGTATCATCGAGATTTTACCGGCGCTAGTTGACGCAGCATTACAGATAACCCTTGCATTAGTTGACGCACTTATCGATAACTTGCCCGTAATTATTGACGCAGGTATTGAAATCTTACTCGCTTTAGTTGACGGCATAATCGACATGCTACCGGCGTTAATTGACGCAGCATTGACGTTGATTATTGCGTTAGCGATAGCGATAATCGATAATTTGCCGAAGATAATCGAAGCAGGGGTCGAGATACTCTTTGCGTTAATTGACGGCATCTTAGACGTATTACCGGAGTTAGTTGAGGCGGCTTATACGCTAGTTGTCGAGTTAGTCGGAGGATTGCTCGAAAAACTGCCGGACTTATTTGACGCGGGGGTCGATTTGATTCTCGAGTTTATTGACGGATTGCTTGATAAGATCGAGGACGTAGGTGACGCTGCAAAAGACATCGGAAATAAGATTCTCGATAAACTTCCGGTAGTAGGTAAGTTGCGCGAAGTTGGACGTAATTTAATCGGCGGTCTTAGAGACGGCATGGACTCCATGAAACGCTCAGTAAAAAATAAGGCTCTTGAAATTGGCGGACTTATTGACGGAGTAATAAAAGCTAAACAGAAAATATTTTCCCCATCCCGCGTTATGCGCGATGAAGTCGGAAAAATGATCGGCAAAGGCTTAATCGTAGGAATGGACGCAGAAATCGCCAATATCCAAAAAATGGCGGCGAGGGTCTCGGAAGCAGCAACGCCAGCCCAGCCGAAACTAGCCGGCTTTGACACGTCAAACCTACGCAACTACTCACGCCAAGCTACGTCAAGGCTACAGGCGGAAATGCAGGCGTCCGGTACGTTTGAGCGTGACGGCGAGCAAAACGCGCTGCTGGCGGAGATACGGGACGAACTCCGCAGGCAGAAGCAGATGATCGTCGAAATGGATCGCGAAATAGTCGGACGGTTAGTAGAGCCGGAGGTTTCGAAGCGACAAGCACGTAATATTAACGAATCAAGCATACGTAAGGGATTTAAGCGGATAAGGGCGACATAA MAKEIPASAEEIASVAEIAGQLGIAKDDLMTFTRTMVDLGVSTNMSAEEAATSLARLANITGMSMKDIDRLGSTVVDLGNNLATTESEITEMALRLAGAGSQIGLTEDQILSFAAALSSVGIQAEAGGTAFSRVFLEMNTAVMNGGDTLSKFAKIAGMSSSDFAKAFEEDASKALITFIDGLSDLSDEGANTAEILADLGLGEIRVRDSLMRAAGASDVFNKSLSIGNKAWNENTALTKEAQERYDTFASKMKVLRNRFENILTTIGGPFMDALSGIIDGLDPVISAIERMAEWFANASKPVQQFITTSVLLIPVLATIGAAIGAFLMLVGTVTAALAGATAIFGTLGAAIAFTAKVVGIVAGAFVGLVGTIAFVITAIRNFDKILYGLSVAADFVRDSFTSLFDYVSKNVSKFADSVVQSVERISPAFAKFINDSWVRLNKFLSFMGDIFNKAGEIITDFMQVVNDFSLGVIEIALLGLDKVAKIVNMGLEKLKESGITLGDVFRNLAGPITSLIILLGGFAGPVGWVISTLTFLVTRTNLVSDTIKAFKGEMEFSEVIRNVGDMTASFIENMSEMITKAVEVGSELIVKLIEGISNQIPKIAEIAVEIVTTLVEGLVKGITTVAKTVSVIVPTIVDTILKAIPDIIDLGVLIINNLVDAIIKALPVLIDAALAIVMTLVDGIVVVLPKILEIGLLIISTLIDAVLTALPALVEVGLTIVLALVDAIVESLPVLVESGFTILTTIIQGLIEALPKIIEAAILLVTTLVEALIELIPAIVDAGIQIVLALVDGIIEILPALVDAALQITLALVDALIDNLPVIIDAGIEILLALVDGIIDMLPALIDAALTLIIALAIAIIDNLPKIIEAGVEILFALIDGILDVLPELVEAAYTLVVELVGGLLEKLPDLFDAGVDLILEFIDGLLDKIEDVGDAAKDIGNKILDKLPVVGKLREVGRNLIGGLRDGMDSMKRSVKNKALEIGGLIDGVIKAKQKIFSPSRVMRDEVGKMIGKGLIVGMDAEIANIQKMAARVSEAATPAQPKLAGFDTSNLRNYSRQATSRLQAEMQASGTFERDGEQNALLAEIRDELRRQKQMIVEMDREIVGRLVEPEVSKRQARNINESSIRKGFKRIRAT NA NA NA NA NA AK015_00098 861 hypothetical protein ATGACGACAGTAAATGAGCGGGGTTACGTCTTTCACGGCGACCCTAGTAAAGAGCATTCCGTCGCAATTGACGGAGTTAGACTTGCGGATTTCGGCGTACATCTCCTCGCCGATTCCGCGGAACCTATGATGCCACCGACGCGAGACAAAACGATTACCATACCGGGCAGGCATGGCGATTACTACTTCGGCAGTTATTTTGACGCAAGGCAACTCGATTTAAGCTGCGGATTTAATAACCAGCCGTCGTTACAAGATACGCAAAGGCTTATCCGAGAGTTAAACACGTTGCTGCTCGATGACTATGGGCGACCCAAAACAGTCGAGTTGGTGTACGACTACGAGCCGGACAAACACTACAAAGCACGCGTAGCAGGCGCAATTCCCGTAGATCGTATCGCAAGGGCAGGCGTATTTACAATACCGATGATTGCGCACGATCCGTTTGCCTACTCGAATGTGTGGTCGGATGAAATCGTTTGGGGCAGTGAAGCTATTACGTTCCAGTACGATTATTTGTTAGGAGACGATAACCACAGCGGCAGTCATACGATCACAAGCCCGCAAGTGCTTACGTTGTATAACTACGGGTACGCGGTCAAGCCTACGTTTATTATAACCGGCAGTGCTTCGGAGTTGTCGGTTAGTGCTAACGGTAAGGTTTTCAGCTTGCCTGCATTTGACAACGCAACTTACGAGATTGATGGCGAGTTGTTCACGGTTAAAAAAGACGGTGAAAATGCATTTAACGATTTTAACGGAGACTTTATCGAGGTTAAGTCGGGTAACAACGAAATAAACGTGGCGGGTCGAGGTTTAGACGTAGAGATGTCGATTAAATATCGGTTTAAATACGTGTAA MTTVNERGYVFHGDPSKEHSVAIDGVRLADFGVHLLADSAEPMMPPTRDKTITIPGRHGDYYFGSYFDARQLDLSCGFNNQPSLQDTQRLIRELNTLLLDDYGRPKTVELVYDYEPDKHYKARVAGAIPVDRIARAGVFTIPMIAHDPFAYSNVWSDEIVWGSEAITFQYDYLLGDDNHSGSHTITSPQVLTLYNYGYAVKPTFIITGSASELSVSANGKVFSLPAFDNATYEIDGELFTVKKDGENAFNDFNGDFIEVKSGNNEINVAGRGLDVEMSIKYRFKYV NA NA NA NA NA AK015_00099 2286 hypothetical protein ATGTCGATTGAACATATATACGAAAACGATAGTCTAAATACGGGCAGGAAAAAGATAAATGACGCTATCGACGCGAGTGACCGCGCGGATAGAAATGCAAGCGAAGCTGTTACGGTAGCTAACGATAAAGGCGACAAAGCGGTTGAAACTGCGGAACGTGCTGAACAGAAATCGGACAGTACACAACAACAACTTGATAATATCGTAATTGAGTCCGGGACAAGTGATGCCGAGGTTATACAGGCGAGAGGTGACTTTGGACTGCTATACCAGAGGCTGAACAACTACGACGGTAGACTCTCTCGCATAAGCATAGACATAATCTCGTATAACCCACCCCTTATTAATAATACTTATGATTTAAGCGAAATATTTGAACAAGCTTGTAATGATGCATTAACTTCCGGAGCTTGTTTAAAATTACCAAAAGGTAAATACTTACTAAATTTAAATAAGTCAGTTAGAGTGCCCTGTATAGATGGGGATAATTCAATTTTGACTATTTCGGGTAACTATTCTTTATTATTAGAAAACAATTTTAAATTAGAAAATATATCTATTGTTACTAGTAACACAACGCTCAGTACTAACCCGACACTTAAGCAGCCCTTGTTGAGGTCCATTGGGGAGGTTAAAAAAGTTGAACTCTATAATATTGAAGTTGATATTGGATCTGAAAATGATGGTGTACTTAGAGCATATTGTTTTATTAACCTTGAAAAAGTAGAGGGGTTATCAATAAGTAACGTTAGAGTAAATGGTTTTAGATATGGTTTTTACATTGCAAGGGGATCATCTAATGATATTAAGGGGGACAGATTAGTTTTTACTAATACAGAAACGGCTATTTATATCAGCGGATCTAATCCTTTGTCAGGAGTTAAAGAATACGCGCATGATATTGTTTTTGAAAATGTAAAGCATGTTAATACAAACGATCAAAGTAATTATTACATGCATGTAGAAGGCGCGGATACTTTTATGCTAGAGAAATGTAAAAAAATAAAAATTAGAAATATATATGTAGAGAATGTTGTAGAAAGGGCGATATATGCCCATACTGTACAAGATTCTATTTTTGAAAATATTGAAGTATTGGATAATAAGGCTAACGGAGCCATTAAAATAGTAGGCGATGTGAGGTATGATGAAGGTTATGAAAATTATAGTGAGAATGTAACGGTTAGAGACGCTATTTATACTAATAAAACTGTAGAAGATGGGTACATGTTTGATCTATATTTTATAAAAAATTTGAAAATAGATAGCGCATATATGTATGGCGGGGGATTTTCAAGCCAGATGTTTACAGCTAATTGGTTTATAGATGGTCTTAGCGTAAGTAATAGTTTTGTAACAGGACTTAAGCGCTTTGTGATAGAGTATTCTACAGGGGGGAGAACAGGTAATCCAGAAACAGGTGTAAAACCTAACCCCATAGAAAACTTCCCTTCTTCGTACTGTAATGTGGATTTCAAAAACTTTAAAGCGGAAAATATATGTATGAGTCACTCTTATTATGCATTTGAAGTAAAGGATAGTATTGATTATGATATCGTAACTATTGAAAATATTTCATTAGAAAATGTTTTAATCAAAAACCAAAAAGAACAATTTGGAAGGTTTGTGTATAATGGAGAACATGCTGATTCTTTATGTAGAGGTCTTATTAAGATATTAAAGGTAAATGGGCTATATATAAAAAATACATTTGTACAAGGGCATGCTCCTTTTCCTTTATCAGACCCTTATATTTTCCCTTTTCAAGTAGGTATGAATTCTGAAAATGTATATATTGATTACCTAGAACCAATTACCCTTGACCAGCCCATTCAAAAATTCACGTTTAATAATTTGTACGTCAGCCCCGGGTCTTCTCTTAAATTTAGACTTGAATATAAAGATAAGCTTATGGTTGACGAAGGTGAGGTAAAGGTACACCCGGGTGGTGGAGTAAGGAGGGCAGCTACAAAATACATTGTTGATGGTACTATTAGGTATAGATCAGAGGGCAATGAAGAATTTTATATATGGGGGTCGAGTAGTGAGCCATTCTCTCCGGCAGTAGGTGTTATTAACGTTTCTACGTCAGAAGGTGATCGAGGGGAATTTATATATGATAAAAATTACAACCTTACTTTGAAGTATGGAGATTCTAATGTTTTTAGTACTGTAAGTGAGAGCGGTAAATTAAGTGTTATAAAAAAAGAATCATCCATCAGTTTGAGAGATCGAAGGAATATAACATCAACATTGCTGGTTAACTATAGTATCACGTCTTTTTAA MSIEHIYENDSLNTGRKKINDAIDASDRADRNASEAVTVANDKGDKAVETAERAEQKSDSTQQQLDNIVIESGTSDAEVIQARGDFGLLYQRLNNYDGRLSRISIDIISYNPPLINNTYDLSEIFEQACNDALTSGACLKLPKGKYLLNLNKSVRVPCIDGDNSILTISGNYSLLLENNFKLENISIVTSNTTLSTNPTLKQPLLRSIGEVKKVELYNIEVDIGSENDGVLRAYCFINLEKVEGLSISNVRVNGFRYGFYIARGSSNDIKGDRLVFTNTETAIYISGSNPLSGVKEYAHDIVFENVKHVNTNDQSNYYMHVEGADTFMLEKCKKIKIRNIYVENVVERAIYAHTVQDSIFENIEVLDNKANGAIKIVGDVRYDEGYENYSENVTVRDAIYTNKTVEDGYMFDLYFIKNLKIDSAYMYGGGFSSQMFTANWFIDGLSVSNSFVTGLKRFVIEYSTGGRTGNPETGVKPNPIENFPSSYCNVDFKNFKAENICMSHSYYAFEVKDSIDYDIVTIENISLENVLIKNQKEQFGRFVYNGEHADSLCRGLIKILKVNGLYIKNTFVQGHAPFPLSDPYIFPFQVGMNSENVYIDYLEPITLDQPIQKFTFNNLYVSPGSSLKFRLEYKDKLMVDEGEVKVHPGGGVRRAATKYIVDGTIRYRSEGNEEFYIWGSSSEPFSPAVGVINVSTSEGDRGEFIYDKNYNLTLKYGDSNVFSTVSESGKLSVIKKESSISLRDRRNITSTLLVNYSITSF NA NA NA NA NA AK015_00100 1191 hypothetical protein ATGAAGTTAGTTTTTAATCGAAAAGATGTGTACTATAAATACATATTATCATTAGTGTGTCTATTATTGATAGTGGTAGGTAGGGTTTTATATTTAATAGATAGTGATTTGGGTTTCGTTGTACTGCTCTCGTTTGTTGTTTTTTCATCATTTTTGTTCTTAGGTGTACAAAAAGATTATTTAATAATATTTATATGCTTATCTAGTGTATTTTTGTTTAAGTTATCATTTGGTGTAGAAAACAGCCCAATAGTAGGCACTGACGAGTATTTATACTACCAACAAGTTTTAGATTATATAAATAAACCAAACGAATATTTTACTTACTTAGTAAGTAAAATTAGCCTTAAAGATACAATATACCCCGCCTTTGGGATTATTTTTATGCCTTTTTTCTACCTAGTAGGAAGTATAGATGAAAGTATAATTATATTGTTAAATACTTTATTTTTATTTATGTTAGCTTGGCTTGTCCTTAAGTTAGTTTGGAAACTAAGAGATAACACGTTGCATGATGGGGATGTATCGGTTGTTGCTAAGGCAGCAACTTTAGGTGTGTTACTAAGCCCTTCTTTGTTATACTGGTCGTCAACTTTTGCTAAGGATACAACAAGTATAGTACTTTGCTTTATTGCGTTGCATTTCTTAATAAATAAAAAATATATAAGATTTATTCTATTTCTTTTTATATCAACTTTAATGAGACCTTATTCAATAGCTATAATTGGGGTATACTATTTGATTTACAAAAGGAGTTTAAAACTATCGCTTTTTTCAGTTGTACTTTCTATTTTGATAGTGTTGTTTTTTTCGGGAGGTCTTACTGGTTTAGTTAATACTTTTGTTACATCAGGGTATCTTTTATTAGCCCCTAACCCATTTGATATACTAAACTGGAAAAATTATTGGCTAATGTCGGCAGAGTCTTTAATTATTACCTTTTTGGGTGTAGTGTCGTTTTATGTTTTTATTAAGTATAAAAGATCAAGGAGTTTTATACTTGTATGCGCTCTATCGTTTTATATTTATGCTTGCACTATGACTGCAGTCGGTAATTACGTTATCGGTACAAATGATTTAGACTATATTGTAGGTAGTGTAGGAGATAATATGACCAGAAAAAAGCTACCCATAATTCCTTTATTATACATATTAATAGGGCTCTCTATATCAAAAATTATTAAAAAATAA MKLVFNRKDVYYKYILSLVCLLLIVVGRVLYLIDSDLGFVVLLSFVVFSSFLFLGVQKDYLIIFICLSSVFLFKLSFGVENSPIVGTDEYLYYQQVLDYINKPNEYFTYLVSKISLKDTIYPAFGIIFMPFFYLVGSIDESIIILLNTLFLFMLAWLVLKLVWKLRDNTLHDGDVSVVAKAATLGVLLSPSLLYWSSTFAKDTTSIVLCFIALHFLINKKYIRFILFLFISTLMRPYSIAIIGVYYLIYKRSLKLSLFSVVLSILIVLFFSGGLTGLVNTFVTSGYLLLAPNPFDILNWKNYWLMSAESLIITFLGVVSFYVFIKYKRSRSFILVCALSFYIYACTMTAVGNYVIGTNDLDYIVGSVGDNMTRKKLPIIPLLYILIGLSISKIIKK NA NA NA NA NA AK015_00101 2028 hypothetical protein ATGGCAAAAGTACTATATAATAACTTCGATTACTCAATCCCATTAATGAACAAATACGCAATATCCGTCACAAGGCGCACGAACCAGCTATGGTCGGCGTCTTTTTCGTTACCAAAAAACGACCCGGCAAACGAACATTGCACGCATTTTAATTTCGTAGAAATACGCGGAGAACCAACCATAAATGACCCGCAAGGTCGTTACTACGGTCTATATCGTATAGAGCCGACACAAACGAAAAAGTCCGAAACTGACGACTCAATCACGTACACTTGTCGGCATGTCCTCGCAACGTTAATGGACGACGTCATGGACGACATTACGCAATTTACTAACGTAAGCACACGTGATGTACTCGAGGGATTGCTGTCGAAACAAACGACGCAAAACTGGCAGTTAGGTGACGTAGAGTTTGAGCGGTACTTTCATTACCATTTCGAAAACGAAAACGGATTACTAGCGCCAATTCTGTCGATACCCAAGCCGTTTGATGAGCCATACCAATTCGAATATGACACGCAAACTTATCCATGGACTTTGCACTTACGACGACCAACCGACGAAGTGACATCGGAAATACGTTGGGGCAAGGACATGATTTCGTTTGACGAGGTTAGCGACCCGACAGAAATCGTAAATTACATAATTCCGAAAGGCTACGGCGAGGGCGTTAATCAGCTAACGATAGCGGATGTTAACGGTGGGCGCAAATACCTAAAAGATGACGAATCCATCGCGAAGTGGGGCAAGCGGTCTTACATATGGATTGACCGTCGATTTAAAGACGCAGAGTCGTTAAAGTCGTCTGCCCAAGCGTTATTGGACGATTGGCGTAACCCGAAAATATCGTTTACCGCCAACGCTGCCGACTTATCAATCTTGCCCGAACACGCGCATGAGCGGCGACTATTAAACGGGGTCACACGAATAACGACAGAGGACGACGTATATTATGGACGTATTATAGAGGAACATATACCGGACTTATCTCGAGAGTTTGACGTCGATTATAAAATCGCAAATAGGCTCGACGACATAGCGGACATACAAGCGGACGTTGAACGAAAGCAAGAGGTCAACGAAGCCTACTCGCAAGGCGCTACAAACATCATGGCGTTTAATTATCAAGACAACTGCGACGCAAACACGCCGGCTTTGATTCCGTTTTATATCGATGATGACGTTGTGCACGTTAATACGCTAGAACTTACGTTTAGAACTAAGCGGTTTCGTGCGTACTCCCAAGCGACCAAAGGCGGAGGTGCAATCGTCAAGTCAACAAAAGGCGGAGGGGCTACGGTTAAATCAACGTCAAGTGGTGGCGGAACAACGCGAAGCACAACGAGTGGCGGCGGTACGACAGCTACGTCTAGTTCCGGCGGTGGTACGTCGAAAAGTACGGCTAGTGGTGGCGGAAGTACGCAGTCGTCCAGTGCTGGCGGTGATCACAGACATCGTATGTTTACGGCAGTTACGGGTCCTGAACCTGATCCGGAGCCTAACGTACGAGTGAGGTTAAACGCTTACGGGAGCAATTCGCTTTACGCAAGTTCCGGAACTACCGCGGCTACAACGTACTTAACGGAATCGTCTAGCGGAAACCACTCGCATTCCGTTTCTATACCGTCACATACGCACAGTTTTTCAACACCCAATCACACGCACAATGTTACGATACCGTCACATAGCCATGACGTAACTATACCTTCGCATACACACGAGATTGACTTGCCGAATCATACGCACGAAATCGAGTTACCAAACCACACGCACGAAGTCGAGCACAAAATTATAGAGTTATCGACAACGCCATCATCGGTTGAAATCAGAATCGACGGAAACTTAGTACCGTTTGACAGTACGTCCGGTGACAGAATTAACTTAGTCGATTATATCGAAAAGGATACAAACGGTAAAATACGACGAGGGCGCCACGAATTAACGATAAGCCCTGACGGATTAGCTAGAATCGAAGCTGACCTTATTTTACGTGTATTTATACAGAGTACAATCGGAGTTACGTTGTAA MAKVLYNNFDYSIPLMNKYAISVTRRTNQLWSASFSLPKNDPANEHCTHFNFVEIRGEPTINDPQGRYYGLYRIEPTQTKKSETDDSITYTCRHVLATLMDDVMDDITQFTNVSTRDVLEGLLSKQTTQNWQLGDVEFERYFHYHFENENGLLAPILSIPKPFDEPYQFEYDTQTYPWTLHLRRPTDEVTSEIRWGKDMISFDEVSDPTEIVNYIIPKGYGEGVNQLTIADVNGGRKYLKDDESIAKWGKRSYIWIDRRFKDAESLKSSAQALLDDWRNPKISFTANAADLSILPEHAHERRLLNGVTRITTEDDVYYGRIIEEHIPDLSREFDVDYKIANRLDDIADIQADVERKQEVNEAYSQGATNIMAFNYQDNCDANTPALIPFYIDDDVVHVNTLELTFRTKRFRAYSQATKGGGAIVKSTKGGGATVKSTSSGGGTTRSTTSGGGTTATSSSGGGTSKSTASGGGSTQSSSAGGDHRHRMFTAVTGPEPDPEPNVRVRLNAYGSNSLYASSGTTAATTYLTESSSGNHSHSVSIPSHTHSFSTPNHTHNVTIPSHSHDVTIPSHTHEIDLPNHTHEIELPNHTHEVEHKIIELSTTPSSVEIRIDGNLVPFDSTSGDRINLVDYIEKDTNGKIRRGRHELTISPDGLARIEADLILRVFIQSTIGVTL NA NA NA NA NA AK015_00102 195 hypothetical protein ATGCAACGAATACAAGTAACTACACATGACGGCAAAGGCGATAAAGAGATTGTCGTACAAAAGCACGACGCAGACGAATTAATAAGTAAATTAAATGACGATTCAATTTCTCACGTTTTAATTGGTGACGAGATATACTCAAGGATAGATATTAAAAATATACTAACGATAGAAAATACAGAAGGAACAATTTAA MQRIQVTTHDGKGDKEIVVQKHDADELISKLNDDSISHVLIGDEIYSRIDIKNILTIENTEGTI NA NA NA NA NA AK015_00103 219 hypothetical protein ATGACGAAGAAAATAGTTAAAAATATAATGTTAATTTTGATTGCGGTTACTTTTTTATTTGGTTTTTCAAACGAAGGTACGACGAAACTTTTTGAAGAAAACGGAAATACAACCGAAGAACATGCGGAACTGATGCAAAACGAATGGTGCGAATATAACTCGAGTAAAGACAACATAGGCGAAGAATTACAAAAAAGTATAAACAATAATTGCAACTAA MTKKIVKNIMLILIAVTFLFGFSNEGTTKLFEENGNTTEEHAELMQNEWCEYNSSKDNIGEELQKSINNNCN NA NA NA NA NA AK015_00104 1302 hypothetical protein GTGACTTTAAAAAAGCAAGGTGATTTAAACTTAGCAATTTCCGCCGACAAGAAGTACATAATTAAGGCTAATATCCAATTTTCAACGCAGGACTCCGGCACAGCAGAACTTTATTTCCGGTTTTTCCAAGACGGACAACCAATCGCAAAACAGGCGGGATATACCGGTCAGTTGTTCCTACTTATGCAAGACGGTAGTTCGTTTTTAGTTGACGTAGAAATCGTAGAATCAGTGGAAAATCTCGAAGCAAGGTACGTTTTAACAGACGCTCAAGTTTCGCATTATGGCGACGTACAGGCGGAGGTTTATTTGTACGACGGTAATAACAACAGCATAAGCGTACATAAATTCGAGTTTGTTATCGATCAAGCGCTAGTCGACCAAGACATTACGCCGGTTGCAGAGTATTATGTTTCCTCGTTTAATGAGTTAAAGGCGTTGATACAAACGGACGCGGACGATTTAAACACGAAAATAGAGGACTTGGAAGGTAAGTTTGACGACCTGGACGTAATCGAGACGAAACAAGGTGCGCAAGCAAAAGCAAACACTGCGTTAATGGATGCGCAAGTTTATACAGATGAAGCTATAGAAGATGTGCAAGCAGGCTTAGACGGTCATGTGTCGGACACAAACAATCCGCATAGCGTGACAAAATTGCAGATCGGTCTAAACAACGTAGACAACGTACAACAAGCGCCTTTGTCCGATTTTAACACGCACATAAACGACACTAATAATCCTCACAACGTTACAAAAACACAAGTAGGATTAGGCAACGTATTGGACGTAGAGCAGGCTTCGGCGTCAGACTTTACGAATCACATTAACGATAATACTAATCCACATGACGTTACTAAAGCGCAAATAGGGTTGAGCGACGTTTTAAACGTAGCACAAGCAAGTAAAACGGATTTTGATAACCATGTTAACGATAGTGCAATACACGTTAGTCCGGATGAACAAGACTTAATTAATAACGCAGCGCAGTTATACTCTCCGTTAACGTTAAGTAATAAGAACGCTGGTATCGACGACACTAACTCTCATTTTATTACTACGGTCATAGAGGACTTAGTATTTTATCAATTTAAAATCGTAACTAGCGCAGAAATACCTGCCGACTCCGTGCTGTTTAACATTACGCCACAAGCGGTAGTATTTCCGACAATGCATGAATTTACCGACATAAACGATTACACAGAATATCGCGTAGACTTTCAAACGTCAGACGTAATCACTGCCGACTTAATACCGACAGGCACAACGATTACTAACTCCGGCGTTTTATTTTTAAGTTAA MTLKKQGDLNLAISADKKYIIKANIQFSTQDSGTAELYFRFFQDGQPIAKQAGYTGQLFLLMQDGSSFLVDVEIVESVENLEARYVLTDAQVSHYGDVQAEVYLYDGNNNSISVHKFEFVIDQALVDQDITPVAEYYVSSFNELKALIQTDADDLNTKIEDLEGKFDDLDVIETKQGAQAKANTALMDAQVYTDEAIEDVQAGLDGHVSDTNNPHSVTKLQIGLNNVDNVQQAPLSDFNTHINDTNNPHNVTKTQVGLGNVLDVEQASASDFTNHINDNTNPHDVTKAQIGLSDVLNVAQASKTDFDNHVNDSAIHVSPDEQDLINNAAQLYSPLTLSNKNAGIDDTNSHFITTVIEDLVFYQFKIVTSAEIPADSVLFNITPQAVVFPTMHEFTDINDYTEYRVDFQTSDVITADLIPTGTTITNSGVLFLS NA NA NA NA NA AK015_00105 363 hypothetical protein ATGCCGGCAAAAAACTCGGAAGGGGGCGGCAGTGGCAACGTGGACGAAAAGGACTACGTACAAACAGTCGCAGACATACGCGAGTGGCTCGTTAGAATCGACACCAACCAGACGCACCAAACGGAGCTTTTAAAGGCGCTAAGCGAGCAAGTATCTACCGCAATCAAACGTGCTGGCGACGCTGAGGACAGAGCGGACGATGCGTATTTATTGGCGGACAAAGCCAACGAAAAGGCGGATAAACTCGAGCAACGGATGGATGACACGGACAAAGAGGCGGTAATACAAAAACGGTGGCTTATCGGTACTATCATATCGGTAGCCATTTTATTATTGCCGATAATTGATAAGCTTTACGGCTAA MPAKNSEGGGSGNVDEKDYVQTVADIREWLVRIDTNQTHQTELLKALSEQVSTAIKRAGDAEDRADDAYLLADKANEKADKLEQRMDDTDKEAVIQKRWLIGTIISVAILLLPIIDKLYG NA NA NA NA NA AK015_00106 252 hypothetical protein ATGAATTGGCAACGTTTTAAAAACTACGGACTATGGGTGGCATTATTTGCGTTAATCGGTCTTGTCGTAAATGACTTCGGCTGGTTAGCGCCGGCACAGTATGAAGAATACGTGAATGCTATTCTAGCGGTACTTGTCGCAGCGGGTGTCGTGAGTAATCCGGAGAAAGGCAAGGGGTTTGACGTAGGCAAGCAGGCTAAAAGCGGACGTAAAAAGGCACGTAATAGCAACCACACGAAAGGAGCACGATAA MNWQRFKNYGLWVALFALIGLVVNDFGWLAPAQYEEYVNAILAVLVAAGVVSNPEKGKGFDVGKQAKSGRKKARNSNHTKGAR NA NA NA NA NA AK015_00107 1017 hypothetical protein ATGACGATAAAAATTAAACGTCAGTTAGCGCCACAAAAAGCGATTAACACACGTACGTCAGGCGGCGGCAATCCGGTAAATTACATAACGATACATCAGACGGGCAACACATCGCCGGGCGCAGACGCACAAGCCCACGCAAATATCCAGTCACGCGTTAATCCTCGTCAAGCAAGCTGGCATTATCAAGTAGACGACAAAGAGGCGATACAATCGTTTGAGGACGACATTAAGTGCTGGGCGGCAGGTGACGGCAATGGACCTGGCAACACGCAATCCGTCCACATCGAAATCTGCATTAACTCCGACGGTAACTACCGAAAAGCGGTCGAAAATGGCGCAAAACTAGCACGTGTGTTGCTCGATAGGCACGGCTTAAGCGTAGATCATTTACGTCAACACCACGACTGGAGCCGTAAAAACTGTCCAGCACAGATACGCGCAAACAAAGACGGCATAAGCTGGTCGGACTTTAAACGGATGGTTGCGGGCGAGGATGTCAAGCCGAGCAAGCCAACCGCAAGTAAGTCAGTATCGCAAATGGCGGACGAGGTTATCGCGGGCAAACACGGAAATGGACATGAAAACCGCCGTAAATCGCTTGGCATTTCGAATTCCATGTACGAAAAGGTGCGCGACGAAGTAAATCGTCGGGCGGGAGTGTCCAGCAAACCGAAGCCTAAGCGTAAGTCAATCGCAAAAATGGCGCAAGAAGTAATCGACGGCAAGCACGGCAATGGACATACTAACCGCAGGAAGTCGTTAGGCATCGGTAAAGCGAGATATGCGAAGGTAAAAAACGAAGTCAATCGTAGGGTAAACGGTGGAGACGGCAAGCCGAAAAGCTTTAAAGTCGGTCAAAAAGTAACCGTCAAGAAATCGGCGAGTACGTTTGCTACCGGTGAATCAATCGCAAATTTCGTCAAAGGTAATACATATAAGGTGGTGCAAGATAAGTCTGACCGGCTGTTGCTTGACGGCATCATGTCGTGGGTACGTAAGTCGGACGTATATTAA MTIKIKRQLAPQKAINTRTSGGGNPVNYITIHQTGNTSPGADAQAHANIQSRVNPRQASWHYQVDDKEAIQSFEDDIKCWAAGDGNGPGNTQSVHIEICINSDGNYRKAVENGAKLARVLLDRHGLSVDHLRQHHDWSRKNCPAQIRANKDGISWSDFKRMVAGEDVKPSKPTASKSVSQMADEVIAGKHGNGHENRRKSLGISNSMYEKVRDEVNRRAGVSSKPKPKRKSIAKMAQEVIDGKHGNGHTNRRKSLGIGKARYAKVKNEVNRRVNGGDGKPKSFKVGQKVTVKKSASTFATGESIANFVKGNTYKVVQDKSDRLLLDGIMSWVRKSDVY NA NA NA NA NA AK015_00109 165 hypothetical protein TTGAATATAGATGTAGATATTATATCTCCATTGGTTACCGGAATTACCATTATTATAGGAAATTATATGTCACGATTTAAAGAAAAAGATTACATGAATACTTCTCAACCAGAAATGCTCCAAAAAGAAAATCAGCAACGAGGGAACCCGCAAAATATATATTGA MNIDVDIISPLVTGITIIIGNYMSRFKEKDYMNTSQPEMLQKENQQRGNPQNIY NA NA NA NA NA AK015_00110 627 plsY_1 COG0344 Glycerol-3-phosphate acyltransferase ATGACTAATATCATACTGCTATTTTCTTCTTTAGCCTCTGGTTATTTTTTAGGTAGCCTTAACTCTGCTGTCATTGTTGGAAAATTATATGGGAAAGATATAAGGAGTTGTGGAAGTAGAAGCGCGGGGCTTACCAATACGTTGAGGGTATTAGGTAAAACCGCTGCGGTATTTGTTCTTGTCGGAGATGTATTAAAGGGGATAATTGCTTGTTTTATAGGTCTAATTTTCTTTGAAGTTTACTTCTATACGGGAGAAGCTCAAGATAGTTTAAGTCTTTTAGTCGCAGGTTTAGGAGCAGTTATTGGGCATAACTGGCCTTTATTTTTTAAATTTAGAGGGGGTAAGGGAGCATTAACAGCAGTGTCTGTGCTGTTTATGGTTGATTGGATTCTGGCTCTTTTATGTATTGCTTTTTTTATATTAATTGTAGCTATGACACGGTATGTATCTTTAGGAACAATTAGTGCTACTGGACTTATTCCAGTTGTCTCATTTATTTCTGTTTTTGGACATACCTTTTATTTTAATATATTTGCTTGTTTAATGGCTGCCATTATTATTATTAAACACAGAGAAAATATACAAAGTTTACTTTCAGGCACAGAAAATAAACTTGTATTTTGA MTNIILLFSSLASGYFLGSLNSAVIVGKLYGKDIRSCGSRSAGLTNTLRVLGKTAAVFVLVGDVLKGIIACFIGLIFFEVYFYTGEAQDSLSLLVAGLGAVIGHNWPLFFKFRGGKGALTAVSVLFMVDWILALLCIAFFILIVAMTRYVSLGTISATGLIPVVSFISVFGHTFYFNIFACLMAAIIIIKHRENIQSLLSGTENKLVF PGPT0024375_1421 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591 NA NA AK015_00111 1617 nfdA N-substituted formamide deformylase ATGAGATATTATTTGGAAGCGGATACAATTATTATGAATGCGAGAGTTTTTACCATGGATGACCTGCAACCGAGAGCTGAGGCAATAGCAATTAAAGATGGAAACATTGTCTACGTTGGATCTGAGGAAGAGGCTTTTTCTTGGAAAGGTGAGAATACTCAAATTGTAGATGTGAATGGAAAAACGGTATTACCAGGATTTATTGAAAGTCATACACATCCGGTCGAATACGGATTAAATTTACTTAAATTAGACTGTCGCCCTAACGAAACTCCATCCATAGGAGCTATCCTAAAAAAAGTTAAAGAAAAAGCGGATCGATTGCCAGAAGGTGAATGGATTAGAGGGTGGGGGTGGGATGACAGTAGAATGAAAGAAAAGCGAAATCCAACACGATGGGATTTAGATAAAGTTGCTCCAAACCATCCGGTTATTTTAGAGAGAACCTGTAAACATATGGCTGTATGTAATTCAAAAGCGCTAGAAATTAGTGGTGTTTCTGAAAATACTTCAAGTCCTGATGGTGGGCATATAGAACGGAAAAAAGATACTGGGAAATTAACAGGCTTGGTTCAAGAAAAGGCTCAAGGAATGATAGCTGTCCCTCAATACAAAGTGAAAGATATCATAAAAGGAATGAAATTAGCGCAAAAAGATTTTGCTAAATGGGGAATAACAACCGTCCATGAAATGGGTACACAGGCTAACTACTTTAGGGCTTATCAGGAAATGGATATGAATAAAGACTTACAAGTAAGAATTAGGCCATGGTTTTGGGCGATCGATCAAAATGGATTTCAAGGTTATTTTGATGAAGTTTTAGCCTTAGGTATTCAAAGTGGTTTGGGTGACGATATGATAAAAGTTCAAGGCATGAAGTTCATGCTTGATGGTAGTGTAGGGGGGAAAACGGCAGCAGTAGAAATGCCCTATGAAAATGAAGAGAACCGCGGCATCCTGTATGATAATGCAGATCACTTTTCCCCTTTTGTGAAACAAGCCTTAGAAGCTGGATTAAGAGTGGCGATACATGGAATTGGAGAAAGAGCAATAGAAGTAGCTATTACTGCGTTTGAACGAGCAAGTACATCTGTTGATATCAAGAAAATGAGAAATCGTATTGAACATTGTGGTCTTCCAACTTATGATCATTTAAGGAGGATGAAGAATCTTGAATTAATAGCTGCTTCCTCCATAGGTTTTGTTTATTATTTGGGTGATAGTTATTTGAAAAACCTTGGAGAAGAAAGAGTAAAACGGGTTTATCCTCATCGCTACTTTAAGGAGTATGATATTGTTGCACCAGGAAATTCAGACTTGCCTGTTACTGGTGGCAATCCATGGACTGGGATTTATGCAGCGGTAAACAGAAAAACAATATCTGGTCAAGTACTTGATGAAACGCAAAACATTACTATACACGATGCGATTAAAGCATACACAGCCGATGCAGCATATAGTTCAGGGGAAGAACATTTAATTGGTGTAATTAGACCTTCCGCAAAAGCAGATATTATTGTTGTTTCTGAGAATCCGTACGAAATAGATGTAGAGAACCTAATAGATATCAATGTGGAATATACGTTTTTAAATGGAAAATTAATCTACAATCAATAA MRYYLEADTIIMNARVFTMDDLQPRAEAIAIKDGNIVYVGSEEEAFSWKGENTQIVDVNGKTVLPGFIESHTHPVEYGLNLLKLDCRPNETPSIGAILKKVKEKADRLPEGEWIRGWGWDDSRMKEKRNPTRWDLDKVAPNHPVILERTCKHMAVCNSKALEISGVSENTSSPDGGHIERKKDTGKLTGLVQEKAQGMIAVPQYKVKDIIKGMKLAQKDFAKWGITTVHEMGTQANYFRAYQEMDMNKDLQVRIRPWFWAIDQNGFQGYFDEVLALGIQSGLGDDMIKVQGMKFMLDGSVGGKTAAVEMPYENEENRGILYDNADHFSPFVKQALEAGLRVAIHGIGERAIEVAITAFERASTSVDIKKMRNRIEHCGLPTYDHLRRMKNLELIAASSIGFVYYLGDSYLKNLGEERVKRVYPHRYFKEYDIVAPGNSDLPVTGGNPWTGIYAAVNRKTISGQVLDETQNITIHDAIKAYTADAAYSSGEEHLIGVIRPSAKADIIVVSENPYEIDVENLIDINVEYTFLNGKLIYNQ NA NA NA NA NA AK015_00112 1284 panF_1 COG4145 Sodium/pantothenate symporter ATGTTCCCGGAAGAACAAAAAATGGTATTAGGTTCCATAGTGATTCTTTATTTCTTCTTTTTATTCGCCCTTTCTGTTTACTTTAATAAAAGTTCGATTAAAACATATGATGATTACAATTTGGCAAGTAGAAATGTATCATTATTTCCTATTATCCTAACCTTTGTTGGGACGGCTGTTGGGGGATCGACATTACTCGGTTTTATGGAAAATGGATATGTTTTAGGGATGGGACAGCAATGGTTGAACATTAGCTTATTAGTAGTGGGAATACTTATGGCCTTCTTTCTAGTAAAAAAGATTAGAAAGATAGGAAGTAAACATAGAATGGTTACCATTGGTGACTTTACAGCACTTCGATATGGTGAATCCGCACGTATTCCTACTGTTATAAGTATATTAATTGCCTATTGCGCAATTACAGGTATGCAATTTACTGCTATTGCCACTATATTAAATTTGACGATTGACCTTAGCATGACCACAGGGGTTGTAATTAGTTGGGTTCTATTAACCATCAAGACATATTACGGAGGATTAAAATCTGTTATATGGCAGGATGCTGTTCATGGGACTATACAGACAGTTGGTGTATTCTTACTATTCTTTGCCATTTTAATTGTTGCAGGAGATTTTAGTACTATTTCACAAAATGCTCAGGCAATAAACGAAGGAAACCACTTAAATGTTTTTGGAATACCGACAACAGAAGTTTTAATATATACTGTTACAATTGGAGGTTATCGGTTTGTTCGTCAAGATTTATGGCAAAGGTATTGGGCAGCCAGTAGTGACAGAGTAGCTCTTCGTGGATACTGGGCTTCCATCATCCTTGGTTGTTTAATTGGAGCATTTGTAATTGCTATTGGAGTCTTAGGAAAATATGGTTTACAACTTAATATGGAAAATTCAGCGTTAATTTATTATGAAGTTATTACAAACGTTTTTCATTTCCCAATAATTATAATCATGATTACCGCGTTAATGGCAACCGTTATTTCAACTGCTGATTCCTTTTTTATGGCAAGTTCTTCTTCCGTTATCAATGATTTAATTAAACCTAGAATGAAGAATAGGGATGATACAAAGTTATTGAAATACAGTCGCTTATCCGTAATTTTAGTTTCAGTCTTTGCATTATTGCTTTCCCTGTATATTCCACAAATAGTAAATCTATGGGTAACTGGTACAGCCATGTTGGTATCGGGCTTATTGGCACCTGTTGTTTTTGGGCTATTTGGAAAGGTGCAACCAAACAAGCAGGTATTTCATCCATGTGGTTAG MFPEEQKMVLGSIVILYFFFLFALSVYFNKSSIKTYDDYNLASRNVSLFPIILTFVGTAVGGSTLLGFMENGYVLGMGQQWLNISLLVVGILMAFFLVKKIRKIGSKHRMVTIGDFTALRYGESARIPTVISILIAYCAITGMQFTAIATILNLTIDLSMTTGVVISWVLLTIKTYYGGLKSVIWQDAVHGTIQTVGVFLLFFAILIVAGDFSTISQNAQAINEGNHLNVFGIPTTEVLIYTVTIGGYRFVRQDLWQRYWAASSDRVALRGYWASIILGCLIGAFVIAIGVLGKYGLQLNMENSALIYYEVITNVFHFPIIIIMITALMATVISTADSFFMASSSSVINDLIKPRMKNRDDTKLLKYSRLSVILVSVFALLLSLYIPQIVNLWVTGTAMLVSGLLAPVVFGLFGKVQPNKQVFHPCG PGPT0013955_3818 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 AK015_00113 165 hypothetical protein ATGTGGTTAGGACTCGTTGTTGCGGTTACATGGCAAATTGCAGGTCATCCTTTTGGAATACATCCGGTATTTCTCGGATTACCGATTTCTATTCTAACGTTACTTATTGTTTCATTCCTGACAAAGGACAAGGAACAAGATAACTCTATAGATATAGCAAATTAA MWLGLVVAVTWQIAGHPFGIHPVFLGLPISILTLLIVSFLTKDKEQDNSIDIAN PGPT0013955_3818 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 AK015_00114 1242 mdrP_1 Na(+), Li(+), K(+)/H(+) antiporter ATGAATTTATCTGATTTTAAACAATTTCATTTGAATATTAAAATTCGCATGGTTGTTTCATTTGTTTCGGATATAGCGGAAATGAGTATATTTCCCTTTATGGCCATTTATTTTTCCAGTAATCTAGGAATGGCTTGGGCTGGAGCAATTTTAACATTGACAACCGTTGTATCGATCATCTTTGGTATGTATGGAGGTTCTTTTGCAGATCGGTTTGGAAGAAAAAAAGTCATGGTAGCAGGAAGTATAATTCAAACAATTTCATTTGTCATTATTGCTCTTGCTAATTCTCCATGGTTTGAATCTGTCTGGCTTACTTTTTTTATGTTTTTTCTATTAAGTATTACCAGCAGATTTATCGATCCTGCCTCAGAAGCACTCCTAATAGACGTTAGTTCAGAGGAAGAACAGCCCTTGATGTATCGATTTGTCTATTGGTCTAGCAATCTTGCATTCTCAATGGGGATCATCCTCGGTGGATTATTCTTCCAAACTCATAAATTTGAGCTATTTTTAGGATTTGCGATCCTCTCAATCTTTACATTCTTGTTAACAGTGGGATGGATTCAAGATGATTATGTGCCAAAAAATGATAAGAAGAATGGTGTTATTTTAGGCTTTATTTCCGATTATATAAAAGTATTAAAAGACGCTCGTTTCATGGTCCTTTGCGTATCAACACTACTCATTCTATCGTTAGAATTTCAGCTATATGGCTTTATCGCTGTTCGTCTAAATGAAGATATTCATACTTCGATTTTCGGAATCATCATTGATGGTCCCAAAATGTTAAGCATTCTAATTGTTACTAATACGATGATTGTAATTTTAGCATCGGGTATAGTTGGAAACATAGCTCAGAAAATAAATATGAATACTACTTTGTTCGTAGGCTTGTTTATGTACGTATTGGGTTATAGCTTCTTAGCATGGAATAACGTGATAGTACTGTTAACAGTTGCAATCGCAGTAGCTACTGTAGGAGAAATTCTTTTCCAGCCTATTCGTTCAACCTATGTAGCTCAATTGGCAAATAAAGATGCAAGAGGCTCTTATATAGCAGTGAGCGGATTATCCATGGATGCAGGACAAATATTAGGTAGTTTAGGCCTAATGATTAGTGCTTTATTATCGAATGCTATGATGACAGCTCTGTTTTTGTTGGTAGGCGGCCTTGGGATACTGGGTTTCTTATGGACCGTTCAGGATTATAGATTAAAAACAAAAAAAGATATTGCGTAG MNLSDFKQFHLNIKIRMVVSFVSDIAEMSIFPFMAIYFSSNLGMAWAGAILTLTTVVSIIFGMYGGSFADRFGRKKVMVAGSIIQTISFVIIALANSPWFESVWLTFFMFFLLSITSRFIDPASEALLIDVSSEEEQPLMYRFVYWSSNLAFSMGIILGGLFFQTHKFELFLGFAILSIFTFLLTVGWIQDDYVPKNDKKNGVILGFISDYIKVLKDARFMVLCVSTLLILSLEFQLYGFIAVRLNEDIHTSIFGIIIDGPKMLSILIVTNTMIVILASGIVGNIAQKINMNTTLFVGLFMYVLGYSFLAWNNVIVLLTVAIAVATVGEILFQPIRSTYVAQLANKDARGSYIAVSGLSMDAGQILGSLGLMISALLSNAMMTALFLLVGGLGILGFLWTVQDYRLKTKKDIA PGPT0028575_198 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028575-lmrP-K08152 NA NA AK015_00115 1755 sgrR HTH-type transcriptional regulator SgrR ATGGAGGTTTTAGAGTATTATATTGATTTAAAATTTAAATATCAACAGGCGGACAAAATACTTATATCCAAACAAGAAATAGCAGATATTCTTTTCTGTTCTTCTAGAAATGCTCACTATATATTGCAAAAATGGATTGAAAAAGGGTATGTTGCTTGGAAAGGTCAACGTGGTCGTGGCAAAAAATCAACCTTAACATTTTTAAAGTCTTTCGACGAAGCAGCACTTCTTCATGTTGAAAATTTGGTTAAAAAGGAGAAAGTGAAAGAAGCAGTAAACTTTGCAATACAAAGTAATTTTTCCTCTAGCCTAAAAGAGAATCTTTTATCTACCATAAAAAATGCATTTGGTATTCAACATATAGAAAAACAAGAGGAAATGAATGATATTTTACATATGCCATTCCAACACAGTATGTATAATATGAACCCTTTTTTTGTAACAATTGCTACAGAGGCTCATATCCTTAATGAGGTCTTTGACACACTGGTTCGTTATAATGCTGTTAGCAAAACGATCGAACCCCATCTTGCACATGGATGGGAAGTTAACGAGGACTACTCCATTTGGACCTTTTATATTCGCAAAGGGGTTCGATTTCATGATGGAAAAACTTTAACTAGTAAAGACGTTCAATGGACATTTCAATCACTTATAAATAGTGGCATAGATATTCCAAATAAATGGTTGTTGGAGGGGATACAAGATATTACGATTCAAAACAAATACATCATCTCATTTCACTTAAAAGATGGGAATCGTGTATTTTCCAATTTTTTAAGTGCTATTTTCACATCCATTATCCCTATAGGATATGATATTAATAACTCCATTCTTATAGGAACCGGACCTTTCAAAATTGACTTTGTTAATGATAAAAAAATTGTTTTAAAGGCTTTTGAATATCATTTTCAAGGAAGACCTTTTTTAGACCAAATTCAAATGTGGAAACTACCTGAAACTAACCTTAATCCATTGAATTTTTTTACCCATGATAATCTAGGAAAAGATAAAACGAAAGGCTTAACTTATACCATTTATGATAATGGAAGTAATTACTTAATATTTAACATGAAAAAGTCAGGTGCCCACCAAAGTTGTTTCTTTAAACAAGCAGTGAGTGAAATGATTGATTCTCGAAAAATGGTACAGGACTTGGGGGGAGCAAGAGAAGCACCTTCCACAAGTTTTATTCCAAGTAAGAGCAATTACAAGAACATGAAGCATTCGACTATGAAGGCAAAACAACTTCTTAATAAATCGAAATACAAAGGTGAAATTATCCATTTAGCTGCATTACGTTTTGAAGATTTTTTAGAGGATGCCAATTGGATGGCACACAAACTAAAGGAGATCGGCATTAAGGTTAAGGTTCACCCAATTGAGTTGGCGGATATCTACAATGAAGACTTCATGTTATCTTTTGATGCCGTTTACACAGGAGAAGGTTTTGAAGATAATATAGAGTTAGCGATTCTAATACTCCTTCGCAATGAATATGGAATTCGTAGATTTCTTAGTCCTTCTCAACTTGACGAATTAGACAAAGGTTTCAATGCCATAATAAAACAGCCCCATTATGAGGGGTTTCTTCTAGCATTTCAAGCAGTTGAAGAAAAATTAAAAGAAGATGGCACCATTATTTTTACCGTTCATGCATCTGAACAGGATACCTTCCAATCAAATTTACAAGGAATTCATATAAGTGGATATGGCTGGCCAATATTTCGGAAGTTATGGTTAAAAAAAGAATAA MEVLEYYIDLKFKYQQADKILISKQEIADILFCSSRNAHYILQKWIEKGYVAWKGQRGRGKKSTLTFLKSFDEAALLHVENLVKKEKVKEAVNFAIQSNFSSSLKENLLSTIKNAFGIQHIEKQEEMNDILHMPFQHSMYNMNPFFVTIATEAHILNEVFDTLVRYNAVSKTIEPHLAHGWEVNEDYSIWTFYIRKGVRFHDGKTLTSKDVQWTFQSLINSGIDIPNKWLLEGIQDITIQNKYIISFHLKDGNRVFSNFLSAIFTSIIPIGYDINNSILIGTGPFKIDFVNDKKIVLKAFEYHFQGRPFLDQIQMWKLPETNLNPLNFFTHDNLGKDKTKGLTYTIYDNGSNYLIFNMKKSGAHQSCFFKQAVSEMIDSRKMVQDLGGAREAPSTSFIPSKSNYKNMKHSTMKAKQLLNKSKYKGEIIHLAALRFEDFLEDANWMAHKLKEIGIKVKVHPIELADIYNEDFMLSFDAVYTGEGFEDNIELAILILLRNEYGIRRFLSPSQLDELDKGFNAIIKQPHYEGFLLAFQAVEEKLKEDGTIIFTVHASEQDTFQSNLQGIHISGYGWPIFRKLWLKKE NA NA NA NA NA AK015_00116 687 sfp COG2091 4'-phosphopantetheinyl transferase Sfp ATGTTAGATATTTATCTAATAAAGTTGCCGAAAAAAATACATAATTTTTCTCGTTTATTAAATATTATTGATTTAGATAAAAAAGAAAAAATTAGATCTTTTGCTAGAATATCCGATTCTTATAGAACATTGATTTCTGATTTGTTAGTTAGATATATATTGTCAAAAAGGTTACATGTCAGCTACAATGATTTAACTTTTGGGTTAGGGGAATTTGGTAAACCTTTTTGTTCTTCTCACCATGTTCATTATAATGTTTCACACTCCGGTGATTGGGTAGTTATGGCAGTTGGAGAATACGGGATAGGAATTGATATAGAAAAAGTGAATAGATGTGATTTTGACGATATAGTACTAACATTTTTTTCAAGCATGGAGATACAATATTATCTTCGAACGCCTGCTGCAGAGAGGAAAGAAACTTTTTTTGAAATATGGACATTGAAGGAATCTTTTGTTAAAAATATGGGACTAGGGTTAAATTTGCCTTTAGATCGGTTTTCAATATGGAAATACAAGGAAGATATATATATTAAACAAGATTTTGATGATAATCAGTACTATTTTAAACAATATGATGCTGTAGCTAACTATAAATTATCAGTTTGTTATAGAGATGATTCTTTTCCAAAAGAGTGCCAACTAAACGAAGTTAATATAGGCTTGCTAGAAAATTTTTTTGTTTAA MLDIYLIKLPKKIHNFSRLLNIIDLDKKEKIRSFARISDSYRTLISDLLVRYILSKRLHVSYNDLTFGLGEFGKPFCSSHHVHYNVSHSGDWVVMAVGEYGIGIDIEKVNRCDFDDIVLTFFSSMEIQYYLRTPAAERKETFFEIWTLKESFVKNMGLGLNLPLDRFSIWKYKEDIYIKQDFDDNQYYFKQYDAVANYKLSVCYRDDSFPKECQLNEVNIGLLENFFV PGPT0008845_2077 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 AK015_00117 7401 dltA D-alanine--D-alanyl carrier protein ligase ATGAGCAAATTAAAACCGTTAATCTTAAATCTTCTGAAAGAGAAAGAAATTTCAAAGAATGCTGCTAAAGAAATTATTCAATCTGTAAATGAAATATCGGAAACAACCGTTCAAAATGTAGACAGGAAGGTTGCAATTATTGGAATCTCATCTGAATTACCAGGAGCGAAAACATTTGATGATTTTTGGGAAGTTTTAATGAATCAGGACGATAAAATAACGGAATTAAACGATTCAAGAAAGTCCCTATGTAATAATTTCATTAAGAATAATCAGGAAAGATTAGAAATCTCTTCCGCAAAACCTTTTTGGGATGCAGCTTGGTTAGATGATATAGAAAAATTTGAACCTGAATTTTTTGGTATCTCAGAAGCTGAGGCAAAAGTTATGGATCCTCAACAAAGAAGGTTTCTTCAAATTGCTTACAACTGTTTTGAAGATGCAGGGTATGCTGGTGATAGAATGAAGGGATCTAATACTGGAGTGTATTTGTCTGCGGCAATGACGAATTACGCTGAATCCTTCCTAGAATATACGCCACTTAGTGTTCCTGGAAATGTCCCTGCATTTATTGCATCTCGATTATCCTATATTTTTGATTTAAAAGGACCTTCTTATGTTATAAATTCTACATGTGCTTCTTCTATGTTGGCAATTCACGAAGCGTGCGTTGGATTGATGAATAATGATTGTGACACAGCTTTAGTTGGAGGAGTAAATATATTTCCTTTTCCAATTAATAGCAACAAACTATTTATGAATGCAGCGGGTATTATGTCCGAACAACAAAAGAGCAAGCCTTTTGATAATTCAGCTAATGGAATCGGGAGAGGGGAAGGAGTTATATCACTTCTGTTAAAGCCTTTAGATAAAGCGTTAGATGATCGGGATCATATTCATGCTGTTATCTCTGCATCGAAAGTAAACAATGATGGGACTTCAGCTGGGATTACAGCACCTAACCCAAAAGCACATGCTGATTTATTGCAAGAAGCTTGGAAGTTAGCAGGGATAACTCCAGAACAACTTGACTATATTGAAACACATGGTACCGGTACATATCTTGGAGACCCAATTGAAATAAAAGGTATCGAAGAAGTAATTGAGCGGTATACAGATCGTAAACAATTTATTCCTATTGGATCAGTTAAAGGTAATATTGGACACTTATTAGATGGTGCGGCTGGCCTATCCGGCATTATAAAAGCTATTCACGTTATGAAAAGAGGTGTGGTTCCTCCAACAGTTAATATGCTGGAACCAAATGAACATATTGATTTTGTTGATTCCCCAGTTTTTATTCCTACGACACCCTACTATCTGAGAGAAAATAAATATGATGAAGCTCCAATTAGAACTGGAATAAGTTGTTTTGGTTTTAATGGTACAAATGTTCATATTGTTTTAGAGGAGCCACCTAACATAGATTATAACATCCAACAAATAACAGAAGGGCATAAAAAATATGTATTACCAATTTCCGCAAAAACGACCGAGTCATTAGAAAAGATTATTAATCGTTACGCGTTTATAGATGAATCTGAGTATTATTTACAGAACATTGCTTTTACATTATGTACAGGTAGAGAACACCATGTTCATCGATTAGCTATTATTGCAAGCAATACAAAAGAATTTGTGAAAATTTGTAAAGATTTATCAACTACCAACTTTGAAAATTGGACAAAAATTATATGTGAGGTAAACGTAGAAGATGATTTACTTCAACTAGCAAAGTCCTATGTAGACGGAGGTAAATGTAGTTGGCATAAACAATTTGGTAACATTACAATAAATAAGGTTTCATTACCGACCTATTCTTTTTATGAAAAATCTTATTGGACAAATAATTTAATAAATCATAAACACGATCATGATACTCACCAAAGGTCTAATCTGGAAGAAATTATTCATGTAGCTGAAAATATTTTGGAAATTACACATATCAAAAAAGAAGATAGTTTCATATCTGTAGGAGGGAACTCCCTATCAGGATTACAATTTATTTCCCGATTAAAATCTAAGTTTAATAGTGAAGTAGAAATGGAAGATTTATTTACTTCTTTTGCAGAAATAGAGAAGAAAATCTTTAAAACAGATGTTATATCCATGAAAGATATTCCCAAAGTGATGGTGAAAGAGGATAAATTATTCCCTGTGTCTTATGGTCAAAAAAGGTTAAGTATTATTGATCAAATAACAGAACAGAAAATGGTGTATAATACGCCATTTGTCTTTAAAGTAGCTGGTCCTATTAACAATAATAAGTTAAAGAAAACTTTCGATTTATTATCAATAAGGCACGAAATGCTAAGAACTATTTTTGTAAGAAGTGAATCGGAAACAAAACAGAAGGTATTGGACAAACCAAATTATTTATATGAGTTTAAAGACTTTGCATTATATAACGATGCGGAAGCAAATGCTTTTGCTCAAATTGATAAGTGGAAAGAAACTCCTTATGACTTGGAAAAGGGTCCACTAATTAGAGTATTAGTCTATAAAATTTCAGATACTGAAACCATTTTCTCACTTATGATGCACCATATCATTATGGATGGGTGGTCGCTTGCTATATTATCAGATGAATTATTCACTTTATATAATAGTGATAATAAAATAATGGATGAACTACAGAAAATAGAATACACATATATTGATTACACGATATGGCAACATCAACTTTTAGCAAGTGAGACCTTTGAAGAGCATGAAAAATATTGGTTAAATAAATTTACTGATGATCTTCCCGTTACAGAAATTGTAGGGGATAAAATCAGACCGAATATTTTTGAATTTACTGGAAAAATAAAAAAGTTCTCTTTTAGTTCTAGTCAGGCAAGAAGATTACGAGAGTATGCTAGTAAAGAAGAAAGCACACTCTATATGCTATTGGTTTCTAGTATATTTAAGTTAATTAATAGTATGACAGGACAAGAGGATATGGTGATTGGTTCTCCAATTTCTGGTAGATTTAACGAAGCTTTGGAGAAAATAGTTGGTCTATTTACAAATACAATTCCGGTAAGGGTTAACTATAATTCTAAAGATGATTTTTGTACGCTTTTATCAAGCGTAAAAGAAGTTTTACTAGAGGATTTTCAGCACCAGGATTATCCATTTAATTTATTAGTTGAAAAACTACAGTTACCAAGAGATGCAAGTCGATCGCCAATTTTTAATATAAATGTCGCACTACAGAACTTTAAATTCAAGAATACGGAAACCCATCTTGATAGTTATGAATTAACACCAATACTGACAGCACACAAAACAACGAAATGGGATTTAGAATTTGAATTTGTAGAAATGCCAGATGGTGAATTGATTTGTAATATAGAATATTACGATAAAATATATTCTGATGAATTTATCGATACATTAATTAACAATTATCATACTATATTGGATGATATTCTAAATGGAGAGCAAATAATAGACCATAACATTGTGGATAATGGAAACAGTATAATTGGAGAAACGGTTCATACAAAATATTCCTTTATTGAAATGATTCAAGAGAGTGCTAACAAATATCCAAATCATGTTGCAATTGAAGATGAGAATGGTACCGTATCTTATCAAGAACTTTTACATATAAGTATGGGAATAGCTAGCGAACTTCAAAACATGGATTATCCTATTACTAGTACTTTGATCATAACTGATAATAATCGTTACACAATAATGAGCATTTTAGCAAGTTTGTTAGCTAATGTTACCTTTGTACCTATTTCTCCTAATACCCCTAAATCTAAAATTGAATCGATTGTTGAGCAAACAAATGCAGAATGTATTTTAACAGTGGAAAATTTCTACTCTCTAACTAACAAAATTTTATATGAAAGTAAAGATATAAGAGTAGTGAAGGTCCTTGACTCAGATAAGCTAGAAGAATCCGCTATAGGTGAAAAAAGTGAATTGATGGACGAGTCACTATGGAACTTTTTTGCCGAGGAACAAAAGACCGATATAGGGGCAAGTGGCTGGAATAGTAGTTATACAGGGGAACCATTTAGTGATTTAGAAATGGATGAATACGTGACTAACGCAGTGAGTAAAATACTTGATCTCTTACCAAATCATTCAAAGGTACTTGAAATTGGCTGTGGTTCAGGGTTGACAACATTTTCGTTAGCTGCACATGTAGATTCATATATAGCAACAGATTTATCCCCTTCTATTATTAATAGAAATAAGAATAAAGCAAAAGAAGAGGATATTAATCATATAGATTTTCGAGTAGCTAAAGCACACGAAATTAATTATAAAGGCAAGGATTTAGACGCTGTTATTATCAATAGTGTTGTACATTGTTTTCCAAATTATGATTACTTGAAAATAGTATTAAAAAATGCAGTAGAGTCCTTAAAAGAAGGTGGGTTTGTTTTTTTAGGAGATCTACTACATTTAGATAAAAATAAGGATTTCCTAAGTTCATTAAGAACATATAAAGAAAATCATCCAAATAGGAACACAAAGCTAGATTGGGAAACAGATTTATTTGTAAATGATTTTATATTAGAAAATATCGTAAAAGATATTGAAGCAGATGTGGAATTAATAAGTTCAAATAAAACTTACACAATTCCAAATGAACTTAATCAGTATAGATTTGATGTGATCATAAAGATTAGAAAGAAAAATACTGGCGTAAAGGGAAATTCCTTAAATAGAATGTTAGGAAAAACCTCTGTACTAGAAAGTAATGCTAGTAGTTTGGATAAGACAGTAAGTGGCAAACCAGCGTATGTATTATTTACATCCGGAAGCACTGGGATACCTAAAGGGGTAGTAATCTCAAGGAAAAATCTCAATAACTACCTTACTTGGGCAAAACGTTATTATTCTAATGAAAGACTATTAAATATGCCACTCTTTACATCTATTTCGGTTGATTTAACGATAACATCGATGTTTTTACCATTACTTACTGGCGGAAAAATAATATCTTGTGAAGGTGAGATTGACCAAAAGTTTGAAAAGCTCACGAATATTAGGGAAAAGATATCGATTAAAGGAACGCCTAAGCAAATAAAACTTCTAATAGAGAATAAAAAGGAATTACCAGATATACAGAACTTTATTCTTGGAGGAGAAGCATTAGATGTATCCTTATGCAGAGAAATATATTCTAGATTTCCCAATTCCAGAATATTTAATGAATATGGCCCCACTGAAGCCACGGTGGGTACGATTATTCATGAAGTAACTAAAGAGGATTTCGTCTCTAGTTACATTCCAATCGGGATTCCAATCCAGAATACATCTATTTATATCGTTGATAATCAGGGTAATCTAGCTCCACCTCATGCAATTGGAGAGATCGTGTTATCTGGGGAAAGTGTAGCGTTAGGTTACTTAGGTAACAGAAATTTAACTAGAGAAAAATTTGTTCCAAATACAATAGAGTACTTGCAACCTGGTTATATCTATAAAACAGGCGATATAGGCCAAATCTTGCCAAATGGTGAAGTGGTTTGTTTTGGGCGAAAAGATAATATGGTCAAGCTACGCGGACATCGAGTGGAATTAGAGGAAATAGAGAGGTACTTACGTGATTTACCAACGGTTCAAGATGCTGCTGTTCGTCTTCATACGAATAGCAATCAAGACGAAAGGTTATGTGCTTATCTTGTAACGAATAGAGAGATCAATCAAACAGAGATTGATAAACTACTTCTACAAAATATACCAGAAACCTTGTTGCCATCTCATTATGAAAGATTGGATTCGATTCCAGTTACTACAAGCGGAAAAGTTGACAGAGCTTCGTTACCTAAACCTAGAATAAAGAAGTTTTCCGATGATACTGAATATGATTTAGAGTTAACGAATTTGGAAAAAGAATTGTTAGAAATTATGAAAAGTATTTTGGGAGATGAAGAGGTTGGTGTTAATTCCGATTTCTTTAGAGTTGGTGGGGACTCCATAAAAGCACTAAGACTAATATCAAGGGCTAAAGAAAGAAATATCCCTATTCGAATTAACCAAATCTTCAACTTAAGGACTGTTCGAAAAATTGCGAAGGAGTCTAGCAAGCAGTATCTTCAATCCGAGAACAGACATATAGAAGCTAAAGAGATTCATCTAGCGCCAATGCAGAAATGGTTCTTTGAACAATCCTTTATACACCCACACTATTGGAACTTACTAATGACAGTAGAATTACCAAAGGATGTTAATCTAGAAACTTTACAAAACGCTTTTAGATGGATCATTTCTAAAAATGAAAGTTTAGTTACGTGGTTCGACCTGACTGATCATGAACCTAGAGCATTTGTAGAACCTGATCTTGCTAACAATTTTCAATTAGTTTTGAAGGATTTTAGAACAATATCCAAGGAGAAGTTGAATAAAGAGATGGAGAAGGTGCAATTCACTTTACAACATGAATTCAAATTTGGAAAGGAATTACCTATAAAAGGACTCGTTTCATTAACAAATTCTCAGCCATTATTAACTTTATTCGTACATCACTTAGTTGTAGATGGTATTTCTTGGAGGGTATTAATGGACGAATTAGAGAGAACATACTCCGATATGCTTGCTGGAAAAGAAATCAATCGTGTATTCGTAGAGCCTTTTTCTGGTTGGGTTAATCGCCTAAGGAATATAAACTTAAGCAAAGAAGATACGGCCTATTGGGATAACCTGAACATTGATCATGTGCACCCTCTATGCGTTACTCCAGTGAGAGAGGATTATATTTTTAGTGAGAGATATCATACTATTAGTAAAATAGATCGTGATAAAACGACATTAATTCTGGGAGCAAAAAATATAAATGAGGATTTCCGTACAGATGCCATGATAGTAACTGCGTTCTCAAAAGCATTTATGAAAGTCTTCGGGGAAAGAGACATATTATTTAATTTTGAAGGACATGGTCGTAATGATACAAAAATAGATTTAGATTTAAGTAACACGATTGGATGGTTTACAACGATGTATCCACTTCTTGTATCATCTAATTCTGAGTCTATATCGTTACTAAAATCTGTTAATGAGTCAATAGCGAATACTGGAAGCGGTATAAGTTATATGGTTGCTAGATGGTTTCAAGAAAAGGAAAGTTTGAAAAAAATAAATTCTAATATTTTGGTGAATTACTTGGGTGAGTTTGATAATGATATTGGCACACATACCAATATATCAAACGAAAAAGAAAGACTGTTTAAATATGCGGAAGATCTTCCACAAGCACCTGCAATTCATCCAGATAATAAATTGAATTACTTATTGGAGATAAACATTTATGTGCTAAATGGACAATTCACTATAAGTCTAGAGGCTGACCAAAAGAAAATTAGTAAAAGTGAAGTTGATTTGCTAATTGCAAATTTCAGGGAATATATGGATGAACTTGTAGATGGAGTAAAGAATGTTCAGAGAGTATGA MSKLKPLILNLLKEKEISKNAAKEIIQSVNEISETTVQNVDRKVAIIGISSELPGAKTFDDFWEVLMNQDDKITELNDSRKSLCNNFIKNNQERLEISSAKPFWDAAWLDDIEKFEPEFFGISEAEAKVMDPQQRRFLQIAYNCFEDAGYAGDRMKGSNTGVYLSAAMTNYAESFLEYTPLSVPGNVPAFIASRLSYIFDLKGPSYVINSTCASSMLAIHEACVGLMNNDCDTALVGGVNIFPFPINSNKLFMNAAGIMSEQQKSKPFDNSANGIGRGEGVISLLLKPLDKALDDRDHIHAVISASKVNNDGTSAGITAPNPKAHADLLQEAWKLAGITPEQLDYIETHGTGTYLGDPIEIKGIEEVIERYTDRKQFIPIGSVKGNIGHLLDGAAGLSGIIKAIHVMKRGVVPPTVNMLEPNEHIDFVDSPVFIPTTPYYLRENKYDEAPIRTGISCFGFNGTNVHIVLEEPPNIDYNIQQITEGHKKYVLPISAKTTESLEKIINRYAFIDESEYYLQNIAFTLCTGREHHVHRLAIIASNTKEFVKICKDLSTTNFENWTKIICEVNVEDDLLQLAKSYVDGGKCSWHKQFGNITINKVSLPTYSFYEKSYWTNNLINHKHDHDTHQRSNLEEIIHVAENILEITHIKKEDSFISVGGNSLSGLQFISRLKSKFNSEVEMEDLFTSFAEIEKKIFKTDVISMKDIPKVMVKEDKLFPVSYGQKRLSIIDQITEQKMVYNTPFVFKVAGPINNNKLKKTFDLLSIRHEMLRTIFVRSESETKQKVLDKPNYLYEFKDFALYNDAEANAFAQIDKWKETPYDLEKGPLIRVLVYKISDTETIFSLMMHHIIMDGWSLAILSDELFTLYNSDNKIMDELQKIEYTYIDYTIWQHQLLASETFEEHEKYWLNKFTDDLPVTEIVGDKIRPNIFEFTGKIKKFSFSSSQARRLREYASKEESTLYMLLVSSIFKLINSMTGQEDMVIGSPISGRFNEALEKIVGLFTNTIPVRVNYNSKDDFCTLLSSVKEVLLEDFQHQDYPFNLLVEKLQLPRDASRSPIFNINVALQNFKFKNTETHLDSYELTPILTAHKTTKWDLEFEFVEMPDGELICNIEYYDKIYSDEFIDTLINNYHTILDDILNGEQIIDHNIVDNGNSIIGETVHTKYSFIEMIQESANKYPNHVAIEDENGTVSYQELLHISMGIASELQNMDYPITSTLIITDNNRYTIMSILASLLANVTFVPISPNTPKSKIESIVEQTNAECILTVENFYSLTNKILYESKDIRVVKVLDSDKLEESAIGEKSELMDESLWNFFAEEQKTDIGASGWNSSYTGEPFSDLEMDEYVTNAVSKILDLLPNHSKVLEIGCGSGLTTFSLAAHVDSYIATDLSPSIINRNKNKAKEEDINHIDFRVAKAHEINYKGKDLDAVIINSVVHCFPNYDYLKIVLKNAVESLKEGGFVFLGDLLHLDKNKDFLSSLRTYKENHPNRNTKLDWETDLFVNDFILENIVKDIEADVELISSNKTYTIPNELNQYRFDVIIKIRKKNTGVKGNSLNRMLGKTSVLESNASSLDKTVSGKPAYVLFTSGSTGIPKGVVISRKNLNNYLTWAKRYYSNERLLNMPLFTSISVDLTITSMFLPLLTGGKIISCEGEIDQKFEKLTNIREKISIKGTPKQIKLLIENKKELPDIQNFILGGEALDVSLCREIYSRFPNSRIFNEYGPTEATVGTIIHEVTKEDFVSSYIPIGIPIQNTSIYIVDNQGNLAPPHAIGEIVLSGESVALGYLGNRNLTREKFVPNTIEYLQPGYIYKTGDIGQILPNGEVVCFGRKDNMVKLRGHRVELEEIERYLRDLPTVQDAAVRLHTNSNQDERLCAYLVTNREINQTEIDKLLLQNIPETLLPSHYERLDSIPVTTSGKVDRASLPKPRIKKFSDDTEYDLELTNLEKELLEIMKSILGDEEVGVNSDFFRVGGDSIKALRLISRAKERNIPIRINQIFNLRTVRKIAKESSKQYLQSENRHIEAKEIHLAPMQKWFFEQSFIHPHYWNLLMTVELPKDVNLETLQNAFRWIISKNESLVTWFDLTDHEPRAFVEPDLANNFQLVLKDFRTISKEKLNKEMEKVQFTLQHEFKFGKELPIKGLVSLTNSQPLLTLFVHHLVVDGISWRVLMDELERTYSDMLAGKEINRVFVEPFSGWVNRLRNINLSKEDTAYWDNLNIDHVHPLCVTPVREDYIFSERYHTISKIDRDKTTLILGAKNINEDFRTDAMIVTAFSKAFMKVFGERDILFNFEGHGRNDTKIDLDLSNTIGWFTTMYPLLVSSNSESISLLKSVNESIANTGSGISYMVARWFQEKESLKKINSNILVNYLGEFDNDIGTHTNISNEKERLFKYAEDLPQAPAIHPDNKLNYLLEINIYVLNGQFTISLEADQKKISKSEVDLLIANFREYMDELVDGVKNVQRV NA NA NA NA NA AK015_00118 3852 pksM Polyketide synthase PksM TTGAAACAAAGTAATATATCACGGAAAATACTGAGTCTGGTGGGTGACGAAAAACTGGATACCCAAATAGCACATGACTTATTAAATGAAGTAGAACAATTCCAATCTGAACCAATTGCAATAGTCGGAATGTCGTTAAAATTCCCGAATACTAACAATGTTGATGAACTATGGGATGGTCTTACTGAAAAGCAAGATTATATAACAAAATTTCCTCGAGAACGCTTTGATCTTGTTATGAACTCAAACAAAAAGCTTAGAAATAAGTATAGTCATATAGCTGATGATATCGAGGGAGACAGCAGGTCATATGGATCCTGGTTAACTGATATAGAGCAGTTTGACCCTGACTATTTTGATTTGAGTGAGCACGAGGCTAAATTTATGGGACCATCCGAGCGGTTATTTTTACAAACTGCAATAGAGTCCCTTAAAAGAGCAGGGTATGGAGAAGAGGATTTAAAAGGTTCCAATACAGGAGTATACGTTGCACATACCCCGCACCCTGCTTTTGACTATTTACGACTGTTCAACGATGTTGATGAACGTGCATTTTTATCCAATATCCCAGCAAATCTTGGTTATCATCTGTCATATGCCCTAGATTTAAGGGGACCAGTTATGGCAGTCAATACAACATGCTCCTCTTCTTTAACGGCAATTCACACGGCCAAAAATGCCTTGCGACAAGGAGATTGTGATTTAGCAGTAGTAAGTGGTGTTAATTTAGACTTATTTCCTTATTGGGAAAAGGAAGCCCCTGATTATGTGGTCAGAAGTAATAACTATCGCTGTAAACCTTTCGATAAGGACGCGGATGGAATTATTGGGGGCGAGGGTATTGCTGTTGTTGTAGTAAAGAGGTTATCTGATGCGATTCGTGAAGGAAACCATATTCATAGTGTAATAAAAGGCTCTAGTGTTAGTAGTGATGGCATGTCAAACGGTATGCAAGTACCTAATCCAGATGCGCAGTCAAAAGCCATAGTTGCTGCTTTGGATGAAGCAGGATTAACATTTGACCAAATTAACTTTGTGGAAGCACATGGAGCTGGTACACAAGTGGGTGATTTAATAGAAGTTGAGGGGTTAAATAAAGCATATACAAAGAGGGCGAAAAAGAAGAAAGATTGCTACTTAGGTTCTATAAAATCTAATTTCGGTCATATGGGCGATGCAGCCGGAATTTCTGGACTAATTAAAGCTGCACTTTCTATTGAAAAACGGATGATACCAGGGGTGAATCATTTTAAAGAAGTGAATCCAAAGATTGACTTAAATAAAACAGCTTTTAAAGTGAGTGCTGATAATCAAGTTATTTCAGAGGCAGGTATATTAAGAGCGGGTGTTAATTCGATTGGAATAAGTGGAACGAATGTTCATGTTGTAATAGAAGAGTATAGGGATGACGACCTTCGTCAGGATATTCAAGTTGAACAAGAATTACCTTTATTAATCTCTAGTAAAACAAGACGTGCACTTTGGGAGCAATTAGGAGTTCTTTCAAAACACCTTCAAAATAATAAGCACTACGCCATAGGAAGTTTAGCATATACGCTCAATAATTGTAGAAATCATGAGAAATCAAGGGTATGTATTTTTGCAAAAGGGATTGAAGATCTAATAGAGAAAATTGGAAGGGTACTACATGTTAGAACCTTTGAGAAAGTCCCTCTTAACTTTTATCAACAGGGAATCTTCTTAGCTGACGAAGAAGAGACCCAGTTAGAAAGCATCAGGAACCTGGATCACTTTCTTCAGCAAGAAGATTCGTATACAGGATTAGTGAAGAAATACCTTGATGGAGATTGTGTGGATGATATATGTAAAGAACTTTTTACGCACCAAAAAATAGCTCCATTGCCAGTAAGTATTTTCAATACAAAACGGATTTGGCCAGCAGATAAAGAGGTTTTGCAGGAACAGACGAAAGAATTATTTTATGAGAAGAAGTGGATTTACCATTACCTTGATTCAGGAAAAGATAATGTAAACATAAATGGAAAATGGTTAATTTTAATGAATGAAAATGATCCAATTCTTCTTGAATTAAAGAATATCCTTATAGAAAATGGGGCAGAAGTTATCGAAATTAATAAAGATAATAATTTCAGGAAAAAATCATCTGCTCAATATGGTATTAATATTCAATCAGAAGATGACTTTCAGCATCTATTTGAGGATATAGGTGCAGACGTACTCAAAGAATTAAAGGGAATAGTTCATGGTTTTACTTTAAAACCATTTGATAAAACAATGAATGATAAAGAAGATATAGAGTTAACGCAAGAGGAGGGAGTATTTTCTCTTTTCAATCTAACAAAGATTTTATTTAGGTTTGATGTTACGCATCCAATCCAAATTAATACACTTTCTTCCTTCACTGAACAAGTGAATGAAAATGAAGAAGTTATTCCAGCAAGGGTTACATTATTTGGTTTAGCGAAAGTAATTTCACAGGAACAGCCAACGATTAGTTCCTTCCTAATTGATCATGATTTAAAAGGAGATCCTATAGAAATCGCTAAACAGTTAGTAGAGGAATTACGTACACCAAAAGAAGTAAGACCAGAGTTAATAGCTTATCGAACAAATCAAAGATATACGAAAGTAATTGAAAGACAACGTGAGAATATAAAGGCTAATCCAATTACATTGAGAGAAAACGGGAACTATGTCATTGCAGGAGGTACTGGTTATTTAGGAGTACAGCTAGGAAGCTTTTTGAGTGAAAAAAATAAAGTGAATATTATTTTGTTAGCTAGAAATTTACTGCCTAACCGTTCTGAATGGGATGAAATTATTAATAGAAATAATGCGGATGATGAAATGCTCATTTATAAAATAAAGATGATCCGATCGATTGAGCAAAATGGTTCCAAAGTAAATATAATGAAATGTGATGTTACAGACGAACTTGCCGTTAAGAATACATTTACAATAATTAAAAATAAATACGGAGATATTAACGGAGCTTTTATGTTAGCGAAGCAGCTGTACCATTTATGGATAAAGGAGCTAAATATTAATCAGTTCAAAAAAGGGATTTACAATAGAGTTTTGAGCACTCATTTTATTGAAAGAGAGTTAGATACGAATACATTGGATTTCTTTATTTTATTCTCATCCATTTCTTCTTTAATGGGTACTAAATCGGCGAGTGAATGTTGTGCTGTAAATCAATATTTGGACTCTATGGCAGGTTATTTAAACCATAAAGGGATTAACGGTAATACAATTAATCTTACATTGATTTTAGATGATAAGAAAGATTTTGGAAATGATACAGCAATTCCTCCAATAGATTTTGTTGAATTCCAGAATGCACTAAAGTGTTTTTTTCAGAATGGTTACCAATGGAGCTTGGTTTCTAAATTTGATTTAGAGCAAGTTCATTATTTGAAACCAGTGTTAAAGATTCCGTTTGGAGAAACGTTTTGGAAAGAAGTCGATGATTATCATTACGACAAGCAAAAGGTGAATATGGATGTTCAAATAGAGGACGAAAGTATACAGAAAGAATTAAATAAGGAAGAGATCGAATTAATATTATATGATATTTGGGATAAAGTCTTGGGAGTAGTTGATGTTGGAGAAAGTGATAATTTCTTTAGTAGCGGAGGGAGTTCACTCAGTGCCTTGAGATTTGTGCAACTTATGAATCAGAATTTCAAAGGAATAAATTTTGAGGTGCCTGATTTGTATAGTAACCCTACTTTTGAAAATCAGCTATCCTATTGTGACCGTTTCTTCAACGGTACTGATAAAGATGAATTAGACGATATACTTGAAGCTCTAACAAATGATGACATTTCCTCAGAGGAAGCACTTCATTTATTAAATAGGAAATGA MKQSNISRKILSLVGDEKLDTQIAHDLLNEVEQFQSEPIAIVGMSLKFPNTNNVDELWDGLTEKQDYITKFPRERFDLVMNSNKKLRNKYSHIADDIEGDSRSYGSWLTDIEQFDPDYFDLSEHEAKFMGPSERLFLQTAIESLKRAGYGEEDLKGSNTGVYVAHTPHPAFDYLRLFNDVDERAFLSNIPANLGYHLSYALDLRGPVMAVNTTCSSSLTAIHTAKNALRQGDCDLAVVSGVNLDLFPYWEKEAPDYVVRSNNYRCKPFDKDADGIIGGEGIAVVVVKRLSDAIREGNHIHSVIKGSSVSSDGMSNGMQVPNPDAQSKAIVAALDEAGLTFDQINFVEAHGAGTQVGDLIEVEGLNKAYTKRAKKKKDCYLGSIKSNFGHMGDAAGISGLIKAALSIEKRMIPGVNHFKEVNPKIDLNKTAFKVSADNQVISEAGILRAGVNSIGISGTNVHVVIEEYRDDDLRQDIQVEQELPLLISSKTRRALWEQLGVLSKHLQNNKHYAIGSLAYTLNNCRNHEKSRVCIFAKGIEDLIEKIGRVLHVRTFEKVPLNFYQQGIFLADEEETQLESIRNLDHFLQQEDSYTGLVKKYLDGDCVDDICKELFTHQKIAPLPVSIFNTKRIWPADKEVLQEQTKELFYEKKWIYHYLDSGKDNVNINGKWLILMNENDPILLELKNILIENGAEVIEINKDNNFRKKSSAQYGINIQSEDDFQHLFEDIGADVLKELKGIVHGFTLKPFDKTMNDKEDIELTQEEGVFSLFNLTKILFRFDVTHPIQINTLSSFTEQVNENEEVIPARVTLFGLAKVISQEQPTISSFLIDHDLKGDPIEIAKQLVEELRTPKEVRPELIAYRTNQRYTKVIERQRENIKANPITLRENGNYVIAGGTGYLGVQLGSFLSEKNKVNIILLARNLLPNRSEWDEIINRNNADDEMLIYKIKMIRSIEQNGSKVNIMKCDVTDELAVKNTFTIIKNKYGDINGAFMLAKQLYHLWIKELNINQFKKGIYNRVLSTHFIERELDTNTLDFFILFSSISSLMGTKSASECCAVNQYLDSMAGYLNHKGINGNTINLTLILDDKKDFGNDTAIPPIDFVEFQNALKCFFQNGYQWSLVSKFDLEQVHYLKPVLKIPFGETFWKEVDDYHYDKQKVNMDVQIEDESIQKELNKEEIELILYDIWDKVLGVVDVGESDNFFSSGGSSLSALRFVQLMNQNFKGINFEVPDLYSNPTFENQLSYCDRFFNGTDKDELDDILEALTNDDISSEEALHLLNRK NA NA NA NA NA AK015_00119 1245 hypothetical protein TTGAAAACAGCAATCGTATTTCCTGGACAAGGATCTCAATACACTAACATGGGAAGGTTTTTATATGAAAATCATAAGATTGCTAGAAGATTATATGACGAAGCTAGTGAGATACTTGGTTATAATCTTTTAGTAGCATGTGAAAATAAATCTGGGGAGTTAAATGATACTAATATTACTCAACCTGCAATACTAGTTTATAGTATTGCAAGTTGGGAGATATTTAAAGAGTTAAATCAAGTTGAGGAAATTTATTTTTCTGGCCATAGTTTGGGAGAATTAACTGCTGCTGTTTGCGGTGAGGCTATTTCATTCTCAGAAGCAGTTAAATTAGTACAATTAAGAGCAAAATTAATGAGCCAATGTGGAGCAGATGGAGGAATGATGGTTTGTTTTGGTCTTAATTACACGGAAGTGGAGTCTATTTGTAAAGAAGTAAGTACAAATAACAACCATGTAACTATCGCAAATTATAATATGAAAGACCAGCTGGTGTTAAGTGGTCATCAAGATGCATTGTATAGAGTGGCTGAAATACTTAATGGGCAAGGTGCTGTTACCAAGAAATTGGATGTTAGTGTACCTGCGCATAGTCAATTAATGCTGCCTGCAAAGGACGGTTTTCGTGAAGCATTAAGAAAAATTCAGAAGAAAGATAGTAAGTACCCCATATACTCATGTATTACCGGCGAACCTTACATACATTCAAACGACATTGTTAATCAATTAAGCGAGCAATTAACAGAAGGTGTGCAATGGCCTGTAGTTATGGATGAATTGATTCGTGAAGGTGTTCGTCATTTTATAGAAATTGGCCCTAAAACTGTATTAACCAAGATCATTGAAGCTGAATATCCAAATGTGTTTGTTTCCCCTTACAACGAAATAAATGGGTATTATACCTTATTTCATTCAGAAACGCAATCCTACTCTATGAACGATATTATTTCGTTCTTACAAGCTAGTTTAAGAATCATAGTTGGGACCCCTATTAAAATAAAGATAGAGCAGTCGAAATTTGAAAAAAAAATACATGCCCCATTCATAGAATTGAGGCAGGAGTTAGGGAAATTAAAGAAAAATAATCGACCTCAAATTGATTCTATTTATTCGAAAAAATTATCTAACCAGTTCTTTTCTATTCTATTTAATAAGGGCTTTAATAGGGAAGAAACAGTGGACCTATTAAAATCATCTATTAGGGATAAAAATATCCTTGCAAGAATTCATAAACTATATATTTAA MKTAIVFPGQGSQYTNMGRFLYENHKIARRLYDEASEILGYNLLVACENKSGELNDTNITQPAILVYSIASWEIFKELNQVEEIYFSGHSLGELTAAVCGEAISFSEAVKLVQLRAKLMSQCGADGGMMVCFGLNYTEVESICKEVSTNNNHVTIANYNMKDQLVLSGHQDALYRVAEILNGQGAVTKKLDVSVPAHSQLMLPAKDGFREALRKIQKKDSKYPIYSCITGEPYIHSNDIVNQLSEQLTEGVQWPVVMDELIREGVRHFIEIGPKTVLTKIIEAEYPNVFVSPYNEINGYYTLFHSETQSYSMNDIISFLQASLRIIVGTPIKIKIEQSKFEKKIHAPFIELRQELGKLKKNNRPQIDSIYSKKLSNQFFSILFNKGFNREETVDLLKSSIRDKNILARIHKLYI PGPT0008350_195 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 AK015_00120 4836 lgrD_1 Linear gramicidin synthase subunit D ATGTTTTGTGAAGAAATGGTAAAAGTGGAGCAAAATTATTATGAGAAACAATGCTTATGGTTTAATAAAACGAAATATTTATTAAAAGATTTAGAGAAAAAAGCATTTCAGCTTGCAATACTTTTTAGAGAGCAAGGGATAGAACATAAAAAAGAGCAAAAGGTGCTAATCATGTTGAGGAGATCACCTGCACTCTTTGTTGCACACTATGCGACATTTTTAGCAGGAGGAGTAATTGTATCCATCGATCCAGATACACCTGAGGAACGGCTAAATACAATTATTGAAGAAACGAATCCTAATGTGATCTTGGTCCATACCAATCAGTCCTTGAATGATAAGAGCAAAATTATTTATTTGGACGATGAATTAGAAATGTTAGATGGATCGGATGCATTTCAATTAAGTGGGAATGAGAATTTTTCATTAAATGCAGCTGCATATATTGTCTTTACTTCAGGGACAACGGGTAAACCTAAGGGTGTAATTGTAGAATGGAAGTCCTTAATGAAACTAATTGAATGGCATACTAAAACCTTTCAAGTAGGCTCCGATTCAATTGTGTCATTAACAGCTTCCCCGGGATTTGATGCGTCTATATGGGAAATCTGGAGCGCTATTGGTGCAAAAGCTTCCATTCATATTACATCAGATGCACAAAGATTACTTCCAAATGAATTACAAAAAGAATGGGCAATACATAAGGTAACACATTCTTTTGTTTCTACTCCTATTGCTGAAAGATTGCTAGATTTGCCTTGGAAAAATCATGAAACTACATTGAAACACATGCTAGTAGGGGGAGATAAATTAACAAAATTCCCATTAGATAGTGTTCCGTTTAATTTAGTTAATAATTACGGGCCAAGTGAAGCAACTGTTGTCAGTACATCTGGTACCATTCAACCAAAGAGAGACGGAGGTAATGAATTTCCTCATATTGGAAAGCCACTACCTTATATGGATTGTTTTATCCTAGATGAACACGGGAATGAAATTTCAGAAGTTGGAGAACAAGGAACACTTTGGCTTTCTGGCGTTGCATTAGCAAGGGGATACTTAAACACTAAAATAGAAACTGATAAAAAGTTCAGAAAAATAAAGGTTAGAGGGGAATTAATCAGAGCCTATAATACAGGTGACATTGTCAGTAAAGGTAAAGATGGAAATTTTTATTTTCATGGTAGGAAAGATTTTCAGGTGAGTATTAACGGGGTCAGAATTGAGTTAGGTGAGATTGAAAAAGTATTACAAACACATGCAAAAGTTTTACATGCTATTGTGTTACCAATTAAATTTCATTCAAAGAAATTGATTGTAGCTTCTGTTGTATTAGAGAAGAATTCGATGTTTATAGAAGAAGAAATAAAAGCATACATAAGTAAAAAACTTACAAAAAGTTTAGTCCCAATTCAAATACTTTATCATGATCAAATCCCGTTAACGGATAACGGGAAAATAGACAGAAAAAGGTTAACTGTTTTACATGAGGAACATTTACAAAATAAACAAAATTTGAAAAATAACACTTATTTGGAAGATGTTAATGATAGCATGATGACTCAAATTACAAAGGTTTACTCTGATGTCCTACAAATTCAATGTTATCCTAATACAGATATATTTGAAATGGGCGGAAATTCGATGGACGCTGCTCGAATAGCTGCAACCTTGTCAAATTTGTTTAGGGTGAAATGTTCCCCTCATTTTATTCAAAAGGTTAGAACACCAATAAATGTATATCATCAAATTATGAAACCTTTGCAAAATACAATAGGTGGACAACGTAAGGAATCTCCAGTCATAAATAGAGATGAATGGATTCGAGTAACAAGCATGAAAAAAGGATTATGGTATTTATGGAAAACAAATGAGAATAACACTTTTTATAATATTGGAGCCACTTTTCATCTAAAAGATACGATAGATATTCCTTTATTGTCGGAAATAATTGTTACTATTATTGAACGTGAACCAACGTTTTCTACTATATTTCGGGAAAATGCAAGAGGCGAAATTGAGAGAAAATATCAAAGAAAATTTGATACTACGGAATGGTTCTATCAAATGAAGGTTGATTCCAAAGAAGAGGCACTAATTCATGCTAATTCCATTTACAATACGAACTTTGATTTGGAGAAAGATTTGCTCATTAGAGGTGCATTAATTCAAACGAATAATGATGGGACTGTTTTTGTACTAGCTACGCATCATATTGTATGCGATGGATTGTCTTTACAAAAAATATTACGTGACATTTCTACTGCATACAACAATAGAAGCTTGAATACTAGTACAAAAGAGAACATATATAGTACCGAGTATATAGCTTCTAGTGAAGAACAACTGTCAACATATTGGAAGGAAAAGGCAGGCCAATTTCATTTAGCGCAGGTATCAATGAAGGAAAATGCCGAATCTTTATTAGCTAAAGGGGAAATATACGAATGTAAAAGTAGATTAAGTGTCGGCAAATCAATAGATCAATTGGCGAAAAAGCATAAAATAAGTAAGTTTATTATTTTATTAACGGGTTGGGCTATTAATCTAACAAAATACTTTAGACAAGAAACTATCACAATTGGAATTCCTTATCATGGTAGGGGGGATATTGATTTTTCCAAGGTAGGGATGTTTGTTAATTTAATACCGGTTACAATTACTATCTCAAAAGAAAAAACATTCATCGATTTATTAACTGAGGTAAATGAATTGATGCAGGAACATATGGAACATGGGGATTTTTCCATTGTTGATATTGCTTCACTAACAGAAAATAGGAAGCAATTTGATATCGTTAATAATACATTTAGTGAAAAAATCCATTTAGATGTAGAGTTAGGAAATAAACGAGCAGAGTTCATTGAGCAAGATACAGGTGGAGCTAGATTCCCAATTAGCGGTTTTTTTCATGTGCAAGATGAAGAAATAGAGGGGCATGTTGAGTTCTCATATGCCAACTTTGACACATCAGAAATTAAATTACTAACGGATAGCTATTTTAATCTAATGGATTCTCTTGTGCGTTACCCTGATCAACAGTGGCAGAGTGCTTTTAAGAAGACATCTGTCATAGAGGCACAGGAATATTACAATTTGATGAAAGAAAGTAAACCACTACACCAATTATTCGAGGATTCTGTCGCAAAGCATAAAGACTTTATTGCTGTTGAAGATCATACAAGTGCATTTACGTATGGAGAATTAAATCAACATGCAAACCGATTTGCTTCATTACTGCATTCCAAAGGTATCAGAAAGGGGGATTATGTTCCTGTTTTCATGGTGCGAAATAAGGAACTGCTTGTTGTTATTTTAGGGATTTTAAAAATAGGTGCAATCTATGTTCCTTTAGATGTGGAGCATCCAAAAGAAAGAATAAAAAATATATTAAACAGAATAGAACCTCGAGTTTTAATATCTAACAAAAAAGTTAATTATATAAGCACGGGAAGATGGGAACTAATCTATACAAATGATATGGAAACATGTCAGCAACTACCTATATTCAAAATGGAACACATTAAAACAGAAGATCCAGCTTATTTGATGTTCACATCAGGCTCGACTGGAAACCCAAAAGGGGTGTTATGTCCTCACCTAGGGGCAAGTCTTCGAGTGTTATGGCAAAAAAATCAACAACACTTGAAGCCGAATAATCGAATTTTATTTAAAACGCCTTATACATTTGACGTATCAATATGGGAAATATTTTATACACTCTCTGTTGGTGCTACTTTAGTTATCGGAGCAAATGATTTGCATAAGGATCCTGAGAAAATATATGAGTTTATTAAAAATAAATCCATAAATTATTGTCATTTTGTCCCATCTGTTTTTCAACGAGTGTTAGATTATTTTGAAGAACTAAGTACGGATACACTCTCATTAAAATACTTGCATTTAAGCGGTGAAGCATTGTCAAAACAACTAGCCAAAAAGATACAAGAAATCTTGCCCAATACAAACATTTTAAATTTATACGGACCTACTGAAACAGGTATTGAAGTAACTGTACAGGAAGTCAGTAATGGAAACTACAATATTGGGAAACCTCTTCCATATGTTTCTTTACAAGTTATCGATGAGGATGAAAATCCAGTACCAATAGGTTATCCTGGAGAATTATTAATTGGTGGGCCATCTTTGGCGTTAGGGTATTTTAAAGATGAGAATGAAACACAGAAGTCTTTCATTATAAAAGATTCACAACGCTTTTATAAAACAGGTGATTTAGTAAGGATTACGAGTAATGGAAGTATCGACTTTCTTGGAAGAAAAGATGATCAAGTGAAGGTGAATGGAATTCGCATCGAAACGGAAGAAATTGAAAGATGTGTAATGAATTTGGCAAACGTGAAAGATGCCACAGTCGTTTTAGCTGAAGGGATGAGGGAAAAACAATTAGTTTGCTTCTACACCTCTGTAAATGAACATGAAGCTAACGATATTGAAGTGAAAAAGCAGGTATCGAATAATCTCCCTGTATCGTACATTCCATCAGTATTTATTGAATTATCTGATCTACCTATTACACAAAACGGGAAAAGAGATAGAAAACGATTAGGTGAAATGGCGTATGAATATCTAAATAAGAAAGTGGAATCTAATTTTATTGAAGCCAAGACAGAACTTCAGAAATCCATTGTAAAGGTATGGAGTGATGTTTTAAAAATAAATAGAGTTGGTTTGGGTGATAACTTCTTTGAGCTAGGAGGAGATTCTATTAAATCTTTACAAATTGTTTCGAAATTACGTGCAGAAGGAGTTAACCTTACTCCAAGGGATTTTCTTAAATATCCGACTATATTAGAGTTAACTGCTATTTTAAAATAA MFCEEMVKVEQNYYEKQCLWFNKTKYLLKDLEKKAFQLAILFREQGIEHKKEQKVLIMLRRSPALFVAHYATFLAGGVIVSIDPDTPEERLNTIIEETNPNVILVHTNQSLNDKSKIIYLDDELEMLDGSDAFQLSGNENFSLNAAAYIVFTSGTTGKPKGVIVEWKSLMKLIEWHTKTFQVGSDSIVSLTASPGFDASIWEIWSAIGAKASIHITSDAQRLLPNELQKEWAIHKVTHSFVSTPIAERLLDLPWKNHETTLKHMLVGGDKLTKFPLDSVPFNLVNNYGPSEATVVSTSGTIQPKRDGGNEFPHIGKPLPYMDCFILDEHGNEISEVGEQGTLWLSGVALARGYLNTKIETDKKFRKIKVRGELIRAYNTGDIVSKGKDGNFYFHGRKDFQVSINGVRIELGEIEKVLQTHAKVLHAIVLPIKFHSKKLIVASVVLEKNSMFIEEEIKAYISKKLTKSLVPIQILYHDQIPLTDNGKIDRKRLTVLHEEHLQNKQNLKNNTYLEDVNDSMMTQITKVYSDVLQIQCYPNTDIFEMGGNSMDAARIAATLSNLFRVKCSPHFIQKVRTPINVYHQIMKPLQNTIGGQRKESPVINRDEWIRVTSMKKGLWYLWKTNENNTFYNIGATFHLKDTIDIPLLSEIIVTIIEREPTFSTIFRENARGEIERKYQRKFDTTEWFYQMKVDSKEEALIHANSIYNTNFDLEKDLLIRGALIQTNNDGTVFVLATHHIVCDGLSLQKILRDISTAYNNRSLNTSTKENIYSTEYIASSEEQLSTYWKEKAGQFHLAQVSMKENAESLLAKGEIYECKSRLSVGKSIDQLAKKHKISKFIILLTGWAINLTKYFRQETITIGIPYHGRGDIDFSKVGMFVNLIPVTITISKEKTFIDLLTEVNELMQEHMEHGDFSIVDIASLTENRKQFDIVNNTFSEKIHLDVELGNKRAEFIEQDTGGARFPISGFFHVQDEEIEGHVEFSYANFDTSEIKLLTDSYFNLMDSLVRYPDQQWQSAFKKTSVIEAQEYYNLMKESKPLHQLFEDSVAKHKDFIAVEDHTSAFTYGELNQHANRFASLLHSKGIRKGDYVPVFMVRNKELLVVILGILKIGAIYVPLDVEHPKERIKNILNRIEPRVLISNKKVNYISTGRWELIYTNDMETCQQLPIFKMEHIKTEDPAYLMFTSGSTGNPKGVLCPHLGASLRVLWQKNQQHLKPNNRILFKTPYTFDVSIWEIFYTLSVGATLVIGANDLHKDPEKIYEFIKNKSINYCHFVPSVFQRVLDYFEELSTDTLSLKYLHLSGEALSKQLAKKIQEILPNTNILNLYGPTETGIEVTVQEVSNGNYNIGKPLPYVSLQVIDEDENPVPIGYPGELLIGGPSLALGYFKDENETQKSFIIKDSQRFYKTGDLVRITSNGSIDFLGRKDDQVKVNGIRIETEEIERCVMNLANVKDATVVLAEGMREKQLVCFYTSVNEHEANDIEVKKQVSNNLPVSYIPSVFIELSDLPITQNGKRDRKRLGEMAYEYLNKKVESNFIEAKTELQKSIVKVWSDVLKINRVGLGDNFFELGGDSIKSLQIVSKLRAEGVNLTPRDFLKYPTILELTAILK NA NA NA NA NA AK015_00121 3186 lgrD_2 Linear gramicidin synthase subunit D ATGAATCAGAACATAAAGAAGCTTCCACTTACTCCTTTACAGACTGTTATGTTAATGGAAAACTTAAAGAATCCTTCTTCTGAGGCCTATTGGCAAGTTGTTTCCTATGAGATTCCAAGTTATCATACGGAAGATGATGTAACTAATTCATGGACAAAAGTAATAAAGGCAAATCCTGCTTTAAGAACGAAGATAGATTGGAATAATGGTTCTGAACCTATGCAAGTTATTGATAGCACTTGTGTGGCATCTATTACTACAATTCATTATGAACAGTTAATTAGAGCATGTGGAAGCTTTGAAAATTGGTTGAATCATGAATTACAAACTTTTCAACAATCATCCTTAGATACATTACAAAAATTGTATATGGTTGAACATTGGAAGGATGGCAAGCACTTATTAGTTTGGCTACATCACCATATTCTTGTTGATGGATGGTCTATGTCGCAAATTTTAGATGACTTTTTTAATGTTCTAAATCACGACTACTACATGTTAAAGGAACGACCTGATGTTGAAGCATATATAGAATTTATGCAGCAATCGGATTATAAAGAACAGAGTGAAGCCTATTGGTTGAATGTATTACGTGAAGCAAAAGCGGCAGAGCGGCTATCTTTTGAATGTTCCTCTTCTGAAAGTAAGGAAGAAAAATTCGAAATATTTGATAGAAAATTAAGTCAAAAGGCTTGCAGAAATATTCATTCGTACAGTGTTCAAAATAAAGTTACTGTATCGAGTATTGTGATGTCTTTTTGGGGCTTATTACTAAATAGATATCAACTAACGAACCAACTTTTTGTTGGTTCTACATTTGCTTTAAGGCCGTATCAATTAAGAGAGTCGCATGAAATGAACGGAATGCTAATTAATACGTTACCAGTAAAGCTAGATTTGAAACCTGATATCTCTATTAAAGAGTATTTCTTAAATACCATGGATACGATTCAAGATGTATCGGAGTATAGCGGGGTTCCGTATTCTAAGCTTTTGCAACTAAGCAATTTACCGGGAGACACCGAACTGTTTAAGTCTTCTGTTATATTCCAAAATTATCAAGGTGGCTTACACTTTGAAGACGCTGAACTAGTTCATCAAAAAGGAACGAGTTCTGATCCTTTGTCTTTAACCATCAGCTTAAACCGTGATAACGGTGAATTGAGATTAGGTTGGGATGCTAGTAAATATCAGAAACAAGATTTACTAGAGCTTATTGAATCATTAGAACATATATTTGAAGAAATAGAAGTTTATGGAGATAAATTGATAAAAGAATTTAATTTAACTACCTTGGAAAATGAAAAATTGAAAATCTTCTTAGAAAATGAATTACCGATAAATCAAATTACCTATTCAATTGATTCTATGGTCGATTGGTCGAGTGATAAATTAGCACTGTCCGATGGAAAAACGGAGTTATCTTATAAGCAAGTAAGAACCTATATAGAACAGGTGTCGAATTATTTATCACAACAAGATGTTAAAAGTGGGGACACAGTTGCCCTGAATGGAGAAAAAGGTATTGAAGTTGCAATTGGTATGTTCGCTTGCTGGAGAATTGGTGCTAGGTGGTGCAACTTAGATAGACGCGTACCAAAAACAAGAAATGATCAAATAATAAAAGTATTAAATCCCAAAATTATTTTAAACCTAGAGGAAATGAAAGGGCTTTTAAAAGACAATGTATGTCAGAATGAATTGGAATTAAATTCCTATGCATTTAAGGAAGAGGACTTAGCATATTTTATCTCCACTTCTGGGAGTACAGGCAAACCAAAACTTGTCTCCTTAGGAATAAAAGGTGTTTTTCAAATTATCGAAAGTTGGAAAAAATTCTATTGTTTTAAAGAGAACCAACATATTCTACAACTCGGAAGCTGGACTTCCGATGTTTATTTGGGTGATTTACTTAAGGCATGGTCCACTGGAGGTTCACTAATCGTATGTGATGAGAATAGAAGAGTGGATATGGATTATTTATATGTTCTTTCTAAAGAATATAAAATATCTTTTGTTGAGTCAACGCCTCACTTAATCAGGGAATTCATAAAGTATTTGTATGATAAAAATCTGATACTAGAACATTTGAAAACGATAGTAGTAGGATCTGATGTTTTTCGTCTTGAAGAGAAAAATGAGATTTGTAACATGCTTTGGAAAGGTGTGGATTTTTATAATGGATATGGATTGAGTGAATGTACAATTGAATCTGTTGTCTACCACTGCAATGATAATATGGACCAATTGTCCGTTTCAGGTATGTGTCCAATTGGTCAGCCTTTGCCAGGGACATTATTACGAATTGTAGATGAAACAGGAAATTCAGTAGCACCAGGGATGATAGGGGAGTTACATATTGGTGGTGATCAAGTTATGAATGGATATGTAACTATGGATAGTATGGATACGTCAAAGATTTATGAACATAACCATATAAAGTATTTTATGACCGGAGATAACGTGCGTTTAAATACAAATGGAATGATCGAATTCTATGGAAGGGAAGATCAACAAGTTAAGATACGTGGATTTAGAGTGGAATTAGGAGAAATAGAAAATGCTTTCCTAAGTTTGGAGACAGGTATGGAATGTTTTGTCACATATTCATCAATGGAGGGGGAGAAGGAATTAGTAGTTTTTCTAAGTGGGACAGAGGATTCTGAAGATGTGATTCGAGAAAAGATTAGTAATAGAATCCCTTATTATGCGATTCCTCGTTTTATTGTGCTACTTAATTGTCTCCCACGCAATTCCAATGGGAAAATTGACCGTCCACTACTCATGGAGGAATCAGAAAAAATAGTTAATCAATCACAAAAGGTTGTTTCGGTTGTATCTAATGAGATAGAAGACATTGTAAGGAATGAGTGGGAAGTGGTATTAGGTAGAAAAGTATTTACGAATAAAACATTTTTTGATCAAGGAGGTCATTCTCTCATTGTATTAAAACTATTTAACCAGCTGCGGCAGAGATTACCTGATTATGAATTTGTAATTGGAGATTTGTTTCGATACCCAACCATAGATAGATTTGTTGAGCAATTATCGCATCGAATTGATAATAATTCTTCAACCAATGGTCAAACAGAGTCTGTCAATAAGATCGAGTTATTGGAAAAAGTTAAACAGGGTGATGTATCAATAGATGAAGCTATGTATATATTAGGTGGTAATAACACGTGA MNQNIKKLPLTPLQTVMLMENLKNPSSEAYWQVVSYEIPSYHTEDDVTNSWTKVIKANPALRTKIDWNNGSEPMQVIDSTCVASITTIHYEQLIRACGSFENWLNHELQTFQQSSLDTLQKLYMVEHWKDGKHLLVWLHHHILVDGWSMSQILDDFFNVLNHDYYMLKERPDVEAYIEFMQQSDYKEQSEAYWLNVLREAKAAERLSFECSSSESKEEKFEIFDRKLSQKACRNIHSYSVQNKVTVSSIVMSFWGLLLNRYQLTNQLFVGSTFALRPYQLRESHEMNGMLINTLPVKLDLKPDISIKEYFLNTMDTIQDVSEYSGVPYSKLLQLSNLPGDTELFKSSVIFQNYQGGLHFEDAELVHQKGTSSDPLSLTISLNRDNGELRLGWDASKYQKQDLLELIESLEHIFEEIEVYGDKLIKEFNLTTLENEKLKIFLENELPINQITYSIDSMVDWSSDKLALSDGKTELSYKQVRTYIEQVSNYLSQQDVKSGDTVALNGEKGIEVAIGMFACWRIGARWCNLDRRVPKTRNDQIIKVLNPKIILNLEEMKGLLKDNVCQNELELNSYAFKEEDLAYFISTSGSTGKPKLVSLGIKGVFQIIESWKKFYCFKENQHILQLGSWTSDVYLGDLLKAWSTGGSLIVCDENRRVDMDYLYVLSKEYKISFVESTPHLIREFIKYLYDKNLILEHLKTIVVGSDVFRLEEKNEICNMLWKGVDFYNGYGLSECTIESVVYHCNDNMDQLSVSGMCPIGQPLPGTLLRIVDETGNSVAPGMIGELHIGGDQVMNGYVTMDSMDTSKIYEHNHIKYFMTGDNVRLNTNGMIEFYGREDQQVKIRGFRVELGEIENAFLSLETGMECFVTYSSMEGEKELVVFLSGTEDSEDVIREKISNRIPYYAIPRFIVLLNCLPRNSNGKIDRPLLMEESEKIVNQSQKVVSVVSNEIEDIVRNEWEVVLGRKVFTNKTFFDQGGHSLIVLKLFNQLRQRLPDYEFVIGDLFRYPTIDRFVEQLSHRIDNNSSTNGQTESVNKIELLEKVKQGDVSIDEAMYILGGNNT NA NA NA NA NA AK015_00122 780 pikAV Thioesterase PikA5 GTGAAGATGGAACAACGTGAAGGCTATATCATATTTAATCCAAACAAAAAAGCAAAAGTAAAATTAATGTGTTTTCATCACGCTGGGGGTTCCGCTTTATCATTTATACCTTTAGTGAGAACTTTACCTAAAGATGTTGAGGCCTACCTATTTGAGTTACCTGGGAGAGGAATATCGGCGAATCAAAAATTTGTTGCTAATTTTTCAGAGGCTATGGCATATTTTCTTCCTAAAGTAATAGATTGTATGGACAGGCCAACCGTATTTCTTGGGCATAGTTTAGGAGGACTTTTTTCATATGCTATATCTGGTAGTTTAAGTAAGAAACAGAATTATATTGAAAAAGTTATCATCTCAGCAGCTAAATCTCCTCAAACAGTTCTTGAATATGCGATACATCCTGAAAAACCATTTATTGTAAGATCAAGAGATAGTGTGAAAATGGATATAGAAGCTTTAGGAGGAATACCAGTAGATGTGGATGATTCTTTATTGCATTCCATTATTAATATTACTGGAAATGACTTTCACTTATTGGATACATTTACTTTAGATGGCGTAGTAAAATCATCTTTTCCATTCGAATTATGGTTAGGAAAATATGATACGGCTGTTCATGAACGAGAGATCTATAAGTGGCGCGAGGAGATTCAAGGAGAATTTTGTTATCGATATTTTAATGGAGGCCATTTTTTTATAAGTGAAAGTACTGAGCCGGCTGATCTATTAAAGGAAACTTTGTTAAATATTATGATAAATATTGAAAATAAAATAGTTTAG MKMEQREGYIIFNPNKKAKVKLMCFHHAGGSALSFIPLVRTLPKDVEAYLFELPGRGISANQKFVANFSEAMAYFLPKVIDCMDRPTVFLGHSLGGLFSYAISGSLSKKQNYIEKVIISAAKSPQTVLEYAIHPEKPFIVRSRDSVKMDIEALGGIPVDVDDSLLHSIINITGNDFHLLDTFTLDGVVKSSFPFELWLGKYDTAVHEREIYKWREEIQGEFCYRYFNGGHFFISESTEPADLLKETLLNIMINIENKIV NA NA NA NA NA AK015_00123 1401 kamA COG1509 L-lysine 2,3-aminomutase ATGTTTAATAACGCAGATTTATACAAGCCGGCTAGAAATTGGAAAGATATTGAACTATGGAAAGATGTCACAGAGGAACAATGGAATGATTGGCTGTGGCAGTTAAGAAATACAATTAAAACCTTGGAGGATCTCAAAAAAGTAATTAATTTAACCCCAGAAGAAGAAGCGGGGGTTAAGATTTCAATTAAGACTATACCACTTAATATTACACCATATTTTGCATCTTTAATGAATCCAGATAATCCACGATGTCCGATTCGTATGCAATCTGTTCCAATTTCTGAAGAGATTTATAAAACAAAATACGATTTAGAAGACCCTTTAGATGAAGACGAAGATTCTCCAGTTCCCGGTATAACACACCGATATCCTGACCGAGTATTATTCTTAGTAACTAATCAATGCTCTATGTATTGTAGGTATTGTACAAGACGGCGTTTTTCAGGTCAAATTGGAATGGGGATTGCCAAAAACTTGCTTGATAATGCAATAGAATATATTAGACAAACACCTGAAGTTCGCGATGTGCTCATATCTGGAGGGGACGGGTTACTAATTAATGATACTGTATTGGAATATATAATAAAAAATCTCAGAGCTATCAAACATGTAGAAATTATACGTATTGGTACCAGAGCACCAGTAGTATTCCCGCAACGAATTACGAATGAATTATGTGAGATTTTAAAGAAGTACCATCCAATCTGGCTCAATACTCATTTTAATAGTTCAATAGAAATAACGGAGGAATCTAAGCGCGCATGTGAAATGCTTGTTAACGCGGGTGTTCCAGTAGGAAACCAAGCGGTAATTTTGGCGGGTATTAATGACAGTGTTCCGATTATGAAAAAGTTGAATCACGATCTGGTTAAAATGCGAGTACGTCCATACTATATTTATCAATGTGATCTATCCGAAGGAATTGGGCATTTTAGAGCGCCTATCTCAAAAGGATTAGAGATAATAGAAGGGTTGCAAGGACATACGTCAGGTTATGCAGTACCTAAATTTGTCGTTGATGCTCCAGGTGGTGGTGGTAAAATTGTTGTCCAACCTAATTATATTATTTCCCAAAGCGCTGATAAGGTAGTACTTCGAAATTTTGAAGGTGTTATTACCACATATCCAGAGCCGAATAATTATGTATCCGGGCAAGCAGATGATTATTTTAAAACAATTTATCCTGATATGGAAGAATATCAATCGAAAATAGGAATATCATCATTGATTAATGAATCAGAATTTAATCTCGTTCCAAAAGATTTAAAACGTACCAATCGTCGTCTAGAATATAATCAAGATCAAAAACATTCTACTATAAAGGATAGAAGAGAAAAAAGAGATCAATTAAAAGAAAAGAAATATCAAAAACAACAAGCTATATCGTCTAAAAATTAA MFNNADLYKPARNWKDIELWKDVTEEQWNDWLWQLRNTIKTLEDLKKVINLTPEEEAGVKISIKTIPLNITPYFASLMNPDNPRCPIRMQSVPISEEIYKTKYDLEDPLDEDEDSPVPGITHRYPDRVLFLVTNQCSMYCRYCTRRRFSGQIGMGIAKNLLDNAIEYIRQTPEVRDVLISGGDGLLINDTVLEYIIKNLRAIKHVEIIRIGTRAPVVFPQRITNELCEILKKYHPIWLNTHFNSSIEITEESKRACEMLVNAGVPVGNQAVILAGINDSVPIMKKLNHDLVKMRVRPYYIYQCDLSEGIGHFRAPISKGLEIIEGLQGHTSGYAVPKFVVDAPGGGGKIVVQPNYIISQSADKVVLRNFEGVITTYPEPNNYVSGQADDYFKTIYPDMEEYQSKIGISSLINESEFNLVPKDLKRTNRRLEYNQDQKHSTIKDRREKRDQLKEKKYQKQQAISSKN PGPT0014370_267 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0014370-ablA-K01843 NA NA AK015_00124 756 hypothetical protein ATGAATAGTATATATGGAAAATTATCTTCGGAGGTTTATGAAATTGATAAGTACATTGGTAAATCTTTCGGTGATTTGGAGTACTACCAAGATCGATTAAAAGGAATAGAAGGGAAAGTATTAGAGCCTGCGGTTGGAAATGGGCGTATATTAATTCCTTTACTAGAAAACGGTTTAGATATAGAGGGGATAGATTCTTCAAATAATATGTTGGAATTATTCAACAAAAATTGCAATGAAAGAGGTATTCATACTAGCTGTTATAAACAAGATATGTCCAATTTCACTATTAATCAAAAGTATGAGGCTATTATTGTACCAACGGGTTCATTTTTACTTTTGCATCAATTAGAAGAGGCAATTAGCTCTTTGAAATGTTTTTATGAACACTTAGAGAAAAATGGAAGATTAATTTTAGATATTTTTCTACCTGAAAACACCAAAGAAGGTTTTGTATCAAAACGAGGATTTACCAATCCACAAGGAGATACAATTATGTTAGAGGAAACATTGGTTAAAATTGACCAAATCAATCAATTTGCTGTCTATCATAATCGCTATGAAAAATGGAGACAAGGAAAGTTAATAGATTCTGAACTTGAAATATTTCCATTAAAGTGGTATGGAGTGGAAGAATTTCGATTGATATTAGAAAAAATAGGATTTACATCGATAGTGATTTCTTCAGACTATAAATATAATCAATATCCAACGAAAGCCTCTCAAATTATTACGTTTGAAGCTACAAAATACTAA MNSIYGKLSSEVYEIDKYIGKSFGDLEYYQDRLKGIEGKVLEPAVGNGRILIPLLENGLDIEGIDSSNNMLELFNKNCNERGIHTSCYKQDMSNFTINQKYEAIIVPTGSFLLLHQLEEAISSLKCFYEHLEKNGRLILDIFLPENTKEGFVSKRGFTNPQGDTIMLEETLVKIDQINQFAVYHNRYEKWRQGKLIDSELEIFPLKWYGVEEFRLILEKIGFTSIVISSDYKYNQYPTKASQIITFEATKY NA NA NA NA NA AK015_00125 1545 COG4799 Methylmalonyl-CoA carboxyltransferase 12S subunit ATGAGTATTATCGATAAAATTAATGAATTATACGATAAACGTCACCAAGTGGAGCTTGGTGGTGGTGAAGAACGAATAGACAAACAACATATTAAAGGAAAGATGACGGCTCGTGAGAGAATTGATTATTTACTAGATAAAGAGACGTTTGTAGAATTGAATCCTTTTATGAAAAGCAGATCTTTTTCTTACGATGAGGATATGTACAATGGTGAAGGGGTAGTGACTGGATTTGGAAAAATAAATGGGGAAAAAGTATATTTATTTGCGCAGGATTTCACTGTTTATGGTGGAACGTTGGGCGAAGTGCATGGTCTGAAAATTGCTAAAGTAATGGACTTGGCAGCTAAGAATAAAGTTCCTTTTATTGGTTTAAATGATTCTGGTGGTGCACGTATCCAAGAAGGTGTTTCTTCATTGGATGGATACGGACAAGTATTTTACCGAAACGTTATATATTCTGGTGTCATTCCGCAAATTTCTGTCATTATGGGCCCTAGTGCTGGTGGAGCTGTCTATTCACCAGCACTCACAGATTTTGTCGTCATGGTGGAGAAAAGCTCTCAAATGTTTATTACCGGACCAAAGGTGATAGAAGCTGTAACTGGAGAGAATATATCGGTAGAAGAATTAGGAGGAGCACATGTCCACAATTCGAAAAGTGGTAGTGCTCATATGCAGGCTAAGACAGAAGAAGAAGCACTAGATATGGTCAAAGAATTATTAAATTATTTACCCTCAAATTATACTGAATTTCCAACGACATATGCTTATGAAATGATGATCAATGAAGAGAGACCTGCTTTAGCAGATATTGTACCATTTGATTCTATAAGACCCTATGATGTCAAAAAAGTGATTAAAGAGGTAGTCGATGAAAGTAGTTTTTTTGAAATTCATGCTGGATTTGCTAAAAATATAGTAGTTGGGTTTGCTCGTATAGGAGGTAGAAGTATTGGTCTTGTATGTAATCAGCCCAAATATATGGCAGGTGGATTAGATATTGATTCTTCAGACAAAGCTAGTCGCTTTATTCGCTTTTGTGATTGTTTTAATATTCCGGTTATTACTTTAGAAGATGTTACAGGTTTCCTTCCTGGAATCAAGCAAGAATATGGCGGTATCATTAGACATGGGGCTAAAATTCTATACGCGTATTCAGAAGCTACGGTTCCAAAAATTACTGTCATTATGAGAAAAGCATATGGAGGTGCATATGTAGCTTTAAACAGCAAATCAATTGGTGCAGATTTAGTATATGCATGGCCTAATGCTGAAATTGCTGTCATGGGACCTGAAGGAGCAGCGAATATCATTTATCAAAAGGAAATTAGCATGAGCGAGCACCCGTCTCAAACGAGAAGAGAGAAAATTGATATGTTTCGTAAAAAGTTTACAAATCCTTATATTGCTGCTGGTCTTGGAATGGTTGATACAGTTATCGACCCGAGAGAAACACGTATAAAGTTATTACAGTCTTTAGAGATGCTAGAAAATAAGCAGGAAGAAAGACCTAAAAAGAAACATGGGAATATTTCTTTATGA MSIIDKINELYDKRHQVELGGGEERIDKQHIKGKMTARERIDYLLDKETFVELNPFMKSRSFSYDEDMYNGEGVVTGFGKINGEKVYLFAQDFTVYGGTLGEVHGLKIAKVMDLAAKNKVPFIGLNDSGGARIQEGVSSLDGYGQVFYRNVIYSGVIPQISVIMGPSAGGAVYSPALTDFVVMVEKSSQMFITGPKVIEAVTGENISVEELGGAHVHNSKSGSAHMQAKTEEEALDMVKELLNYLPSNYTEFPTTYAYEMMINEERPALADIVPFDSIRPYDVKKVIKEVVDESSFFEIHAGFAKNIVVGFARIGGRSIGLVCNQPKYMAGGLDIDSSDKASRFIRFCDCFNIPVITLEDVTGFLPGIKQEYGGIIRHGAKILYAYSEATVPKITVIMRKAYGGAYVALNSKSIGADLVYAWPNAEIAVMGPEGAANIIYQKEISMSEHPSQTRREKIDMFRKKFTNPYIAAGLGMVDTVIDPRETRIKLLQSLEMLENKQEERPKKKHGNISL PGPT0001712_1193 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 AK015_00126 1224 hypothetical protein ATGAACAAAGATGATAAACATATCGATCAGATAATAGAAGAAGTAACGAAAGAAGAAATAGCGAGAATGCAAAAACAAGCACAGAAACAATGGCGAGAAATCCCATTTCCTTTGTCATTGCATGACGCTTTAAACAGATATACAAAGGCTGATTTAGACGCTATTAGAAAATATTTAGAGATCAAAAATGCAAGCAATTTAAGGAAAGCTGAACTCACTTGTTTGTTAGAACAAAATATTCCAGATCATTTATATCCGTCCGTTCTTTTATGGGATATGGAACGTTTTATTATGCTATTAAAAATCGCCGAAAATAACGGGAAAATAATGGCTCCAGATCTAGAAATGGATGAAATAGAGTATCTACGTCATACCGGGTTCATTTATACTGGAATTTGGGAAGAAAATAAGATTTTTGTCTTGCCAAATGAACTGTACGACCCTGTTCTAGCTTTGAAACATGATCTACATGTACGAGCTACGATAAAACGAAATACAAAGTGGGTAAAGCTAACGCGTGGCTTATTATATTATTACGGCGTATTAGACCCTATGCGGTTAATCCAGATGGTAGAAAAATATATGAAAGAACCTATTGACGTTACAATGTATTTCAAAGTTATTGCAGATTCGATACGTTTTTGTCCGGAAATAACTGTTGACATGGATTCATTTTCATATATAGATGTGTTGGAACCGAAAGAAGTGAAGCGAGAACATTCACTGAGAAAAAGCATTCCTTACTATGATTTTACAGAAAAACAACTTCTTGAAGCTGGAGAACCAGGCTTTGTGGAAAGAAATGCTAGTTATCAGCAATTCGTTCATTTTTTAACGCAAAACTTTGACATGGATAAAGAAGCAGCAGATATGATCGTAGAAGAGTGTAAGTATGCGATAAAATCTGGCGACAGTCCAAATCAAGTCATTTCCCATTTATCTCAGATGTTAGAGTTCGATAGCGAAGAATTAGTGCAAGCTGTAATGGATAAAGTAATTCATTTGATGAATAACACAAGGGAATGGGTATTAAAAGGGTATACTCCCGATGAAATATTTGCATTGGAGAGAAAACATCTTCAACCGATACCAAGAACGAAATCTGATTCCAAGGTAAGTGGAAAGACTCATTCTAACCGTAGCCAAAAGGTTGTCAAAATTGGTAGAAATCAGCCTTGTCCATGTGGTAGCGGAAAAAAACATAAAAAATGCTGTGGCAAATAA MNKDDKHIDQIIEEVTKEEIARMQKQAQKQWREIPFPLSLHDALNRYTKADLDAIRKYLEIKNASNLRKAELTCLLEQNIPDHLYPSVLLWDMERFIMLLKIAENNGKIMAPDLEMDEIEYLRHTGFIYTGIWEENKIFVLPNELYDPVLALKHDLHVRATIKRNTKWVKLTRGLLYYYGVLDPMRLIQMVEKYMKEPIDVTMYFKVIADSIRFCPEITVDMDSFSYIDVLEPKEVKREHSLRKSIPYYDFTEKQLLEAGEPGFVERNASYQQFVHFLTQNFDMDKEAADMIVEECKYAIKSGDSPNQVISHLSQMLEFDSEELVQAVMDKVIHLMNNTREWVLKGYTPDEIFALERKHLQPIPRTKSDSKVSGKTHSNRSQKVVKIGRNQPCPCGSGKKHKKCCGK NA NA NA NA NA AK015_00127 1194 hypothetical protein TTGAACAAGAAAGACATCGCAAATATTCGTAAGCAATTCAAACTAAACAATGATCTTTTAAAAATCCATGAGATTTTCAATGTATACATCATGAAAGAGTCAAGTGAAGTATATCATCATCAGAGTACACCATTTGAGTTATTAGAGGACGAACAGAAAGAGCTATTTATGGCCAATTTTAAAAAAGTATTAACTGGCCAGCTTGATCAGAAATTATTTGAGTTAAAATTTCAACGCGAAGCAGAAGATAATAGTCAGCTTATCCTGCATCAAGGATTACTGAGTAGTGACACCGAAGAATGGAAAGCGCATATGCTTCGACTCGTAGAAAAAATGCTAAAAGATAAGCAATATGAAATGGACATTGTTGTTAGTTTTATTCGTGGGGAATACTTGAAACCAATGAAACCCCAGCGTGAAGAAGCCGAAGAAAGTGAACGGGACACGGTACATTCTCACTCATTTATCTTATGCAGTATGAATAAAACGCAAGATCCTAAAAAAGAGCTATTATTTGATTATGTGGAAAAGGAATTTAAATATAATATTGTCGTCGATCCAATTATTAACTTGAAAGCACCGATATCTGGATTTCTGTTTCCTTGCTTTACCGACAATGCTGCAGATGTGAATCATGTTCTTTACTCAGCAGGAAAAGCAAATGAATTAAATTACCATTTTATCGAGGAAGTATTGAATGCAGAAGAAATTATGACGGCTGAAGAAGATAAAATAGTCTTTGAAGAAATTGTAAAGAAAGTAGCGGGCGAGCGTATAAATACGTCGACTCTTTCCAATGTGTATGATGAAATCTATCATGTTATCGAAGAAGGTAAGGAAGAGGAAGAAGTACCGAAACTAGACTATAAAGACGTAGAAAGAGTTCTAAAGAGCAGTGGTGTAAAAAATGTGGATACGGAAAAGGTAGAAGAGGCATTCAAGACAGTTATTGATGATGAAAAGTTCGAATTAAAAGCGAATAATATTGTGCCGAAACCAACGTCAAAGTCGATCAAAATAAAGACAAAAGTAGCGGATATTTCCATTAGCCCACAAGACCTAAGATATGTGCGTCAAATTCATTTCGGAGGGAAATTAAGCCTTATGATTGAAGTAGAAGAAAATACGATGATTGAAGGTTTTGAATTGATCCCAGAAGTGTTGTTTGAAAAAGTGGAAGGAGAAGAGGAATAA MNKKDIANIRKQFKLNNDLLKIHEIFNVYIMKESSEVYHHQSTPFELLEDEQKELFMANFKKVLTGQLDQKLFELKFQREAEDNSQLILHQGLLSSDTEEWKAHMLRLVEKMLKDKQYEMDIVVSFIRGEYLKPMKPQREEAEESERDTVHSHSFILCSMNKTQDPKKELLFDYVEKEFKYNIVVDPIINLKAPISGFLFPCFTDNAADVNHVLYSAGKANELNYHFIEEVLNAEEIMTAEEDKIVFEEIVKKVAGERINTSTLSNVYDEIYHVIEEGKEEEEVPKLDYKDVERVLKSSGVKNVDTEKVEEAFKTVIDDEKFELKANNIVPKPTSKSIKIKTKVADISISPQDLRYVRQIHFGGKLSLMIEVEENTMIEGFELIPEVLFEKVEGEEE NA NA NA NA NA AK015_00128 633 hypothetical protein TTGCCATGTTTGTATTATCATGTTAACTGGGACAATGGAAGAAAAGGATTGGTATTACTCCATCAATATACAATGGGAGGGGTTTTTTTGTATTATGATGAACAGACAAAAACGATTACTACGAATAGGTTATTATTAAGACTATTTCAAAAAGAAGATGCAGCCGAAGTTGCTAAACTTTGTAATAACTACAATATTTATAAGCATACATTGAATTTACCGTATCCTTATCAAATAGACGATGCTGTATCATGGATAACGAACCATCATGATAATTTTTGTGAGGATAAATTATATGAATTTGCAATAACGGATAAGACGAACGGTAGATTGTACGGTTCCATAGCATTATCGAACAATCAAAGATTTCTTCATGGTGAAATAGCTTATTTCATTGGGGAAGTATTTTGGGGAAAAGGTTTTGCGACAGAAGCAGCAAAAGCTATCTTACAATTTGCGTTTACTGAAAAACATTATCATAAAGTGTTTGCTCGCTGTTTTTTGTCAAATGCAGCATCCAGTAAAGTTTTGCAAAAAATCGGCATGGAAAAAGAAGGAGTATTGAAGGAGCATGTAAAGAAAGAAGATCGATTTGAAGATCTTGTATACTATGGCGTAATTAACAAGCAATAG MPCLYYHVNWDNGRKGLVLLHQYTMGGVFLYYDEQTKTITTNRLLLRLFQKEDAAEVAKLCNNYNIYKHTLNLPYPYQIDDAVSWITNHHDNFCEDKLYEFAITDKTNGRLYGSIALSNNQRFLHGEIAYFIGEVFWGKGFATEAAKAILQFAFTEKHYHKVFARCFLSNAASSKVLQKIGMEKEGVLKEHVKKEDRFEDLVYYGVINKQ NA NA NA NA NA AK015_00130 1218 hypothetical protein TTGAATTTTAAAAAAGAAATAACACGCTGGAAATATGCATGCATATTATTATTTGGCATTGGTATTTCTAATATAGGCGAATGGGTTTATTTTATTGCGTTAAATTTAATTGTTTTGGATATGACAGATTCTCCTTTAGCTGTATCTGTATTGTATATTATCAAGCCTTTAGCAACTTTATTTACCAGTTTTTGGGCAGGGAGTTTCATTGATCGCTTAAACAAACGAAGCTTAATGATTTTTCTTGATATAATAAGGACACTTTTTATTGTTTTATTACCACTGTTATCGTCTGTTTCTTCTATTTATTTGTTTGTGTTTATCATAAACATGGCAAGTGCGATGTTCAGTCCAGTTTCCCTCATCTATATAACGAAATTAATACTACAGGGAGATAGAAAAAGATTCAATGCACTATATAGCTTAGTAACGTCAGGAGCTTTTTTCATTGGTCCAGCAGTTGCAGGATTATTGTTCTATATTGGTACGCCAACATTAGCAATCTATATAAATGCAGCTGCTCTCTTTTCCTCTGGGTTAATTACTTATTTTATGCCTAATTTAGAGAATAATTATGGAACAATGCAAGAAAAAATATCTTTTAAAATATTACGGAAAGATTGGAACGTAGTAATGGATTTTAGCCGTGAACATAAGTATACGATGTGGATCTATGTATTATTTAGTTGTGTGATGGTTGTCATGGCTAGTGCGGTTGATTCATTGGAAGCAGCTTTTGCGAAGGAAGTCTTACTTTTGTCCAATAGCGAATATGGCATTTTAGTATCGATTGCAGGTGCTGGAATTGTAGTAGGAGCTTGCATCAACACTTTACTTATAAAGAAGATAGCTGTTTCGTTGCTCATTGGTTTGGGTTCTGTGTTTGTTTCATTTGGCTATGTTATTTATGCTATTTCTACCACATTTTTATTTGCTGGAATTGGTTTTTTTATACTTGCCTTCTTTATTTCTTATGCCAATGCTGGGTTCATTACCTTTTACCAAAACAATATACCTACAGATGTTATGGGAAGAGTTGGTAGTATCTATCGTTTATTTGAGGCGATGTTAATTATTTTCACAACAACGATAATAGGTACGCTTGCGCAAATGATTTCTATTCGCATAGCAGTCATAGCTGGGGTTTTTGTCATGCTATTACTCGCTTTCACTTTGCTGATAGCTAGTCGCTTACCTTTTAAAAAAGCGTTGTTTTAA MNFKKEITRWKYACILLFGIGISNIGEWVYFIALNLIVLDMTDSPLAVSVLYIIKPLATLFTSFWAGSFIDRLNKRSLMIFLDIIRTLFIVLLPLLSSVSSIYLFVFIINMASAMFSPVSLIYITKLILQGDRKRFNALYSLVTSGAFFIGPAVAGLLFYIGTPTLAIYINAAALFSSGLITYFMPNLENNYGTMQEKISFKILRKDWNVVMDFSREHKYTMWIYVLFSCVMVVMASAVDSLEAAFAKEVLLLSNSEYGILVSIAGAGIVVGACINTLLIKKIAVSLLIGLGSVFVSFGYVIYAISTTFLFAGIGFFILAFFISYANAGFITFYQNNIPTDVMGRVGSIYRLFEAMLIIFTTTIIGTLAQMISIRIAVIAGVFVMLLLAFTLLIASRLPFKKALF 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 AK015_00131 873 ypbG COG1408 putative protein YpbG TTGTTGCAGCAACAAGCCGAAATGAATAAGCGTCCTAGGAAAAAAATTGTAACGAAGAGGAAAATATTGCTGTTTACCATGGTAACGGCTGTTCTCCTTATTATTGTAAAAGTATACCTTGATACAAACACGTTTAAAGTGAATAAGCTCCAATTTTATAGCAATAAAATCCCCGTTGATAAAGCCGTTCATATTTTGCAAATTACGGATGTGCATAACAAAGTGTTTGGGGAAAACAACGAAGCCCTCATTCAAGCGGTAAAAGATTTAAACCCCGATATGATTGTTCTTACGGGGGACTTAATAGATAGAAAGACTACGGAGTTTCATCCTATGTTAGCATTAGTTGAAGAGCTAATATCTTTGCAGGAGCATGTCTTTTTTGTAACTGGTAACCATGAATGGGAAAATCCAAATAAGGAGGGGTTTTTAAAAGGGCTTGAAGAACGTGGCGTGAAAATGTTAAACAATGAAAATAGCGAACTGACTATCAATCAAGTTAAGTTAAATCTTGTTGGGATTGATGATAGTTCTACGAATCGTGAGAACGTCACGCAAGCTTTTGCTGGTTTAAATAGTGATCGTTATACGATATTGCTTTCTCACTCACCTACTATTGTAGAAAAAGAGAGCAGTCTCGAGGCTGACTTAATTTTAAGTGGTCATACACATGGTGGGCAAGTAAGACTTCCATTATTTGGAGCACTCGTATCTCCTGATGAAGGATGGTTTCCCAAGTATGATAAAGGAACTTATTCCATTCATCCAAAACAGTTTCTATATATTGATAGTGGTTTGGGCACAAGCGTTGCCCCAATACGATTTTTAAATCAGAGCCAAATGAGTATGATCAGGGTTTCTTATGGTAAGTAA MLQQQAEMNKRPRKKIVTKRKILLFTMVTAVLLIIVKVYLDTNTFKVNKLQFYSNKIPVDKAVHILQITDVHNKVFGENNEALIQAVKDLNPDMIVLTGDLIDRKTTEFHPMLALVEELISLQEHVFFVTGNHEWENPNKEGFLKGLEERGVKMLNNENSELTINQVKLNLVGIDDSSTNRENVTQAFAGLNSDRYTILLSHSPTIVEKESSLEADLILSGHTHGGQVRLPLFGALVSPDEGWFPKYDKGTYSIHPKQFLYIDSGLGTSVAPIRFLNQSQMSMIRVSYGK PGPT0022365_3101 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098 NA NA AK015_00132 234 hypothetical protein ATGGTAAGTAAATTTGCGCGTGAAAGTAAAGGAGTTGGAATAACGATGCATAAGAAAATGAATGTTACGCAAGCCTTGTTCACAGGTGGTTTTGTCGGTTTTATTCTATGTATGTATTATTTTTTTGTGCCGGATTTTTCTTATAAAGGGATTGTTGGCATTATAATAAGCGCATTGGCAGCTTTTGTTGGAGCACTTATTGCTTTTCAATGGATCTCTGGTAATGAGAATTAA MVSKFARESKGVGITMHKKMNVTQALFTGGFVGFILCMYYFFVPDFSYKGIVGIIISALAAFVGALIAFQWISGNEN NA NA NA NA NA AK015_00133 1296 hypothetical protein ATGGAAAGTATAAAGAATCAAACTATGATTACAACAGCTGATTATCCTATAAAATTAAGTAAAGATTTTATAACATTTTTAAACTATATAGCTAGTAAAGATGTAAAATTAACGAAAACGCGTGGATATATTACTAGAAAAGACTTACAAGCTATTTATGTACAACTCTCGCCACATAAACCAGCTATCTTGGAAAAAGCAAACCAAGATGATGTTCCATATGTTCATCTGTTATATTATATTGCTATGGAATTGCGCCTAATAAGGAAAGTGGCAAGTAAAAGTATAAGTCGGTTAATGATCGATGAAGAAAGAGTTACTGCTTTTAAAGAACTAAAAGAAGCGGAAAAATATGTGACATTATTGGAAGCTTTTTGGACGAAAGTAGATTGGAACGAGTTGACTAAGGGCTACAGCAGAAGATATGTAAGCATGGTGGATTTTTGGCTGGAAGAACTTATAGAAAAAGATATTCCTTATGGAACATGGTTATATACTGGGGAAAATCATTCGTGTTCATTAATTACATACGGTGAAACTTTTGAACAGTTGCTGGACTATGGTTATTTCTTATATTATTTCGAGTATTTCGGTCTTTGGGAAGTGAAAGTAACAGTTCAAGAAAGTACAACTATACATGAATTGCAACGAGTGAAATTTAACCCACTGTTAAAAAAGCTACGATTACCTTTATTGTATACATGGTGCCCTGGTGAAGATGAGGGTTTAACAAGGTTAGATTCTTTCTTTATGGAAATGTTGAATCCTGAATACCATAACGAAATAAACGTGAAAAAGGAAGCAATAGAACAAGAGGAAAGGACACCGTCATTTATCGAGGCGGTAAAGCCATTATTTCCGAAAGATGAATTAGAAAATACGCTTCCGTCCTATGAAGATAAGCTGGGGATCACTGGAAATTGTATTTTTAAAGTCATGTTACATAATAATTGCTGGAGAAAGTTATGTTTGCCATTATCCGCTTCGTTAGAAAACTTGCATGACTTTATTCAGTATGCTTTTGATTTTGATGACGATCATCTTTATAGTTTTTTTATGGATGGCAAAAAATTTAGTAAACATGCTTATAATTCCCGAATGGATTTTACCGGACCTTATGCGCATCAGACTAGTTTGAATCAGTTAGATTTATTTGAAGGTCAGAAGTTTTTATACCTATTTGATTTTGGAGAGGAGTGGGAGTTTTATATTACAGTAGAAGCTATACAAGAGGGAAATGAAGAAAAGGAATCTATTATAGAAATGAAAGGCGAATCTCCTGATCAATATGATTAA MESIKNQTMITTADYPIKLSKDFITFLNYIASKDVKLTKTRGYITRKDLQAIYVQLSPHKPAILEKANQDDVPYVHLLYYIAMELRLIRKVASKSISRLMIDEERVTAFKELKEAEKYVTLLEAFWTKVDWNELTKGYSRRYVSMVDFWLEELIEKDIPYGTWLYTGENHSCSLITYGETFEQLLDYGYFLYYFEYFGLWEVKVTVQESTTIHELQRVKFNPLLKKLRLPLLYTWCPGEDEGLTRLDSFFMEMLNPEYHNEINVKKEAIEQEERTPSFIEAVKPLFPKDELENTLPSYEDKLGITGNCIFKVMLHNNCWRKLCLPLSASLENLHDFIQYAFDFDDDHLYSFFMDGKKFSKHAYNSRMDFTGPYAHQTSLNQLDLFEGQKFLYLFDFGEEWEFYITVEAIQEGNEEKESIIEMKGESPDQYD NA NA NA NA NA AK015_00134 345 hypothetical protein ATGGTAAAAGCGCAAATTAACCCAAAATTAGTTGAGTTGCTAACGCACAAAGAAAGAACAGCTATTCCTGATTCACCAACGACATCATGGTTGCCAGGAAAATACGTAATGATGATATACAAGTCGAAAGACCAAGTAAATCGAAATTTTCCAGAGAACCACTTTATGCTTACTTGTAAAAGCTGTGGACGTAAAGGAAAATATAATGTAGGAATAATGCTTATAGATCCAAACGCAGAGAAAATATACAAACCACTGGATATTTTCGTTGTAAACATTGTAATAATGCTGGAAATTGGGAGTTGCCTCAAGAGTTTTTCATGCGCGCAATCGCTGGTTTGTTAG MVKAQINPKLVELLTHKERTAIPDSPTTSWLPGKYVMMIYKSKDQVNRNFPENHFMLTCKSCGRKGKYNVGIMLIDPNAEKIYKPLDIFVVNIVIMLEIGSCLKSFSCAQSLVC NA NA NA NA NA AK015_00135 708 hypothetical protein ATGCGCGCAATCGCTGGTTTGTTAGCTAAAAGTATTGATATGGGATCGTCGTCAGATAATATTTGTGAATTTGGCAAAAACCAATTGTATGATGGTAGCTCATATGCCTTTATTACCGATGGTGAGGAGCATTTACTAAGCCAACTTAAACAGGATCCATTAAATTCCTTCATTTGGAATCGCCTTGGTAATTTGTATGATAAGGGAGGTCGTCCAGAATTAGCTGCAAGTGCATTTGAGCATTCTCTTGCCCTGGATTTTTTTCAAGTAGAATCTTATTATTCCCTAGGAGTTCTACTCTTTCATATAGGCGAACTTGAGGAAGCTGCCCTTCATTTTCGTAAAGCGCTTGTCGCAGCAGCTAAATATGACAAATTAAGCGCTGTTGATTTAAGGGATTTTTTAAGTGACAGTTTAGATAAATTATTTTATATTCATTTTCATTCAGATAAGGAAATACCCTTTGTTCCTACTAATAAGGAAATAGAATCTATAAGAGATCAAGAAATTTTAAATTATATTGATCAGCACCTAGACTTGGATGTTGAAATAATTCCCAGAAATCTACAATTTTTTTATCCAATTGCAGAAATTTTTATGGGGAAAATGGCACATCGGATTCCCAAAAAAGAACGAACTTGGGAAAAGCCCAATGTATCTAAGAGTAGAAAAGTTAAAAAACGCCATAAGCGAACGAGGAAAAAGTAA MRAIAGLLAKSIDMGSSSDNICEFGKNQLYDGSSYAFITDGEEHLLSQLKQDPLNSFIWNRLGNLYDKGGRPELAASAFEHSLALDFFQVESYYSLGVLLFHIGELEEAALHFRKALVAAAKYDKLSAVDLRDFLSDSLDKLFYIHFHSDKEIPFVPTNKEIESIRDQEILNYIDQHLDLDVEIIPRNLQFFYPIAEIFMGKMAHRIPKKERTWEKPNVSKSRKVKKRHKRTRKK NA NA NA NA NA AK015_00136 906 yddE_1 COG0384 putative isomerase YddE ATGCAAAGAGAATATAAACTGTATCAAATTGACTCGTTTACACAGCAAAAGTTTACAGGAAACCCAGCCGGTGTTATAACAAATGCGAATGGATTGACAACAGATCAAATGCAAAAGATAGCTAAAGAGCTTAACAATTCAGAAACTGCGTTTATCTTTCCTGCAAATAATTCTAATTATGATGTACATGTCCGTTTTTTCACACCAACACATGAGGTCCCCATCTGTGGCCATGCTACAATTGCAGCTCATTATGCGAGAGCTAATGAAAAACATTTAGGGAGTTCAACAGTGTATCATAAAACAGGTGCTGGAATACTTCCTGTCGATATAATAAAAGAAAAAGAAGACTATAAAATTGTTATGACCCAAGGTGAAATTGAATTTGGGGATATAATAGAAGGGGAAAATAAAAATGATTTATTAACAGCACTAAACTTACATTCGGATGATTTATTAGAGGGGTGTGATATACAGATCGTATCAACAGGACACTCCAAAGTTATGATTGGCATAAAAGATATTATCACTTTAAATCGTATAAAACCAGACTATACTGTCCTTTCCAAACTAAGTAAAATTATTCATTGTAATGGATATTATGTTTTTACAACAGCTACAGATGACAGTGATGCTTTAATACATGGGCGCATGTTTGCTCCTGCAATAGGCATAAAAGAAGACCCTGTAACTGGTAATGCTAACGGGCCTTTAGGGGCATACCTTGTTCATCATAATTTAGTGCAGCATAATAATTCATTATTTACGTTTAAAGCTAAACAAGGAGAAGCTATGGGGAGACCCGGTATTATTGAAGTACAAGTTTATATTGAAGATAATAACCCCATTAAGGTAAAAATTGCTGGAAATGCCGTAGAAGTATTTAAAACCGAACTCTTGTTATAA MQREYKLYQIDSFTQQKFTGNPAGVITNANGLTTDQMQKIAKELNNSETAFIFPANNSNYDVHVRFFTPTHEVPICGHATIAAHYARANEKHLGSSTVYHKTGAGILPVDIIKEKEDYKIVMTQGEIEFGDIIEGENKNDLLTALNLHSDDLLEGCDIQIVSTGHSKVMIGIKDIITLNRIKPDYTVLSKLSKIIHCNGYYVFTTATDDSDALIHGRMFAPAIGIKEDPVTGNANGPLGAYLVHHNLVQHNNSLFTFKAKQGEAMGRPGIIEVQVYIEDNNPIKVKIAGNAVEVFKTELLL NA NA NA NA NA AK015_00137 801 hypothetical protein ATGCTCGATAACGTCATTATTAAACAACTAACATCTCTAGAAGAATTATATGAAATGCAAACATTGGAAAAATCTGTATGGAGTATTACGCCAACTCCAATCCCTCAAACGTATACAACATTAAATCATGGTGGTATTTTACTTGGTGCATATATGGGAAAACAAATGGTTGGTTTTATTTACAGTTTCCCAGGTTTTGATGGGAAGGACAATTATCTTTGCTCGCATATGCTCGGAATTTTACCTGCATATCGCAAATCAGGATTGGGAGTAAAAATGAAGCTTCGCCAAGCTGAAATTGCTAAGGAATATGGCTATACAATGATGACGTGGACGTTTGACCCTTTAGAAAGTGTCAATGCTTATTTGAACCTTCATAAACTTGGTGCTAGAGGTATGAAATATAAAGAAAATCATTATGGAGATATTGGTGGCAAGTTAAACAACGGATTACCAACAGATCGTATTCAAGTAGAATGGCATTTTAACGAACAACGGGCTACTTGTCCCCCATCTCTCAAAGAAGAATACGTGCTTCTGCAATCTTCACAAGATGCTGAGCCGGTTGTGACGAAGCCTTTGTCTCAAATTGAAAAAAATAGAAAGCGTGGTTACTTTGTTGCCGTACCAGTAAATTTTCAAACTCTGAAACAAAAAAACTACCTACTTGCTTTAAAGTGGCGCTTACAATCGAGAAAGGTTTTTCAATTCTTGTTTGCAAATGGCTTTGTAGCAAAAGATTTGCTTCGTTATAATGACAATATAAACTATTATTACTTTGCAAAAGATGGAGCGCTATAA MLDNVIIKQLTSLEELYEMQTLEKSVWSITPTPIPQTYTTLNHGGILLGAYMGKQMVGFIYSFPGFDGKDNYLCSHMLGILPAYRKSGLGVKMKLRQAEIAKEYGYTMMTWTFDPLESVNAYLNLHKLGARGMKYKENHYGDIGGKLNNGLPTDRIQVEWHFNEQRATCPPSLKEEYVLLQSSQDAEPVVTKPLSQIEKNRKRGYFVAVPVNFQTLKQKNYLLALKWRLQSRKVFQFLFANGFVAKDLLRYNDNINYYYFAKDGAL NA NA NA NA NA AK015_00139 1269 codB COG1457 Cytosine permease ATGAAAAACATCGACACAGAATTTTCACTAACAGCAGTACCTTCATCTTATCGCAATGGTTTTTGGAAAACACTTGTTGTTATGTTAGGACTCACTTTTTTCTCGGCAAGCATGTGGTCTGGTGGAGAATTAGGTCAAGGTCTTTCTTTCATACAGTTTATGGCAATTGTTCTTGCTGGGAATCTTATCCTTGGAGTATATACTGGGTTACTAGCTTATATGGCAGCAAAAACAGGCTTATCTACACATTTGCTTGCTCGCTATGCCTTTGGGGAGAAAGGATCTTATCTTGCTTCTTTTTTATTAGCCTTTACACAAATTGGTTGGTTCGGTGTTGGAACAGCGATGTTTGCTGTACCTGTACAAAAAGTTACGGGAATTGATATCTATATTCTTATTGGTATTGCGGGTATCTTGATGACTTTTACCGCTTTTTTCGGCATGAAGGCTTTGGCTATTATTAGCTTTATTGCGGTACCGCTAATCGCTCTTCTCGGAGGAACTTCCGTATTAAAAGCAACAGAAAGTTTAGGTGGAGTACAAGGTTTATTGCAATACGAACCAGCTGAAACGATGAGTTTGGCCGTCGCACTTACGATCTGCATTGGTTCTTTTATAAGCGCAGGAACATTAACACCTGATTTCACAAGATTTGCTCGAAAAAAACGTTCGGCAGTAGTTGCGACTGTGGTTGCTTTTTTCATCGGGAACACATGCATGTTTTTATTTGGAGCTGTAGGTTCTGTGGCAACGGGGCAAGCAGATATTTCTGAAGTTATGTTTATGCAAAATCTTATTTTACCTGCCATTATTGTTTTAGGGTTAAATATATGGACAACGAATGATAATGCCTTGTATGCATCAGGGCTTGGACTTTCTAACATTACGAAAATAGCCAAGCATAAAATTGTCATTTTTAATGGAATTATTGGTACATTAGGGGCCATGTGGTTATACAACAATTTTGTTGACTTCTTAACGATTCTCGGTTCTGCTTTACCACCAATTGGAGCCATTTTGCTAGCTGATTTTTTCATTCTTCGCCGCGGCCATTATCGAGCTTTCCATGAAATGACATTTACCGCTATCAATTGGATTGCACTTTTTGCTTGGGGAACAGGAATTGCTGCAGCAACTTTATTACCAGGTATCCCACCAATGAATGCGTTAATAGGTGCTGCAGTTACCCATGTTGTTGTTACGAAGCTTGTTGCTAGTGCAAAGGAAAAAGAAGTTATTCTAACCAATACAGAAAAGGTGGGGCAGTAA MKNIDTEFSLTAVPSSYRNGFWKTLVVMLGLTFFSASMWSGGELGQGLSFIQFMAIVLAGNLILGVYTGLLAYMAAKTGLSTHLLARYAFGEKGSYLASFLLAFTQIGWFGVGTAMFAVPVQKVTGIDIYILIGIAGILMTFTAFFGMKALAIISFIAVPLIALLGGTSVLKATESLGGVQGLLQYEPAETMSLAVALTICIGSFISAGTLTPDFTRFARKKRSAVVATVVAFFIGNTCMFLFGAVGSVATGQADISEVMFMQNLILPAIIVLGLNIWTTNDNALYASGLGLSNITKIAKHKIVIFNGIIGTLGAMWLYNNFVDFLTILGSALPPIGAILLADFFILRRGHYRAFHEMTFTAINWIALFAWGTGIAAATLLPGIPPMNALIGAAVTHVVVTKLVASAKEKEVILTNTEKVGQ NA NA NA NA NA AK015_00140 1269 codA COG0402 Cytosine deaminase GTGATTATAAAAAATGCTAGATTACGCAATAAATCTGGATTATGGGATATTGTTGTGACAAAAAAAACAATTACGGCTATTTCCCCTGCTAATAAGCAACAGCAGATAGGGGAAGTTCTTGATGTGGCTGGTGCCTTAGTATTACCTCCATTTATCGAACCTCATATTCATCTTGATACAACACTAACCGCTGGAGAGCCAAAATGGAATGAGAGTGGCACGTTATTTGAAGGCATTCAACGTTGGTCAGAGCGGAAGCAATCGTTAACCTATGAAGATGTGAAAGATAGAGCTACGCAAGCTTTGAAATGGCAAATTGCCCAAGGTATTCAGCATGTTCGTACCCATGTCGATGTAACTGATCCAAAGCTAACAGCACTACGAGCATTGCTAGAATTGAAGGAAGAAATGGCGCATTTTGTAAATTTGCAATTAGTTGCTTTCCCACAAGAAGGTATTTTATCCTATCCGAATGGAAAAGAATTGTTGGAAGAAGCTTTGCAGTTAGGTGCAGATGTAGTTGGAGGAATTCCGCATTTTGAATTTACCAGGGAATATGGTGTGGAGTCGTTAAAAATTGCCTTCGATCTTGCAGAAAAATATGATCGATTGATTGACATTCATTGTGATGAAATCGATGATGAGCAATCTCGATTTGTGGAAGTAGTGGCGAAAGAAGCCTATGAGCGAGGGCTAGGGTCCAGAGTAACTGCCAGTCATACAACAGCAATGGGATCTTATAATGATGCGTATGTTTATAAATTGTTTCGTTTATTAAAGATGTCGGAGATCAACTTTGTATCCAATCCACTTGTTAATATCCATTTGCAAGGGCGATTTGACTCTTATCCAAAACGTCGTGGTTTAACTAGAGTGAAGGAGTTATTAGAAGCAGGTATGAACGTGTGTTTCGGTCACGATGATATCTTTGATCCTTGGTATCCGCTTGGCACAGGAAATATGCTTCAAGTACTTCATATGGGAATTCACGTCGCTCAATTATTAGGGTACGAGCAAATTGTTGATTCAATGAACCTCATTACAACAAATAGTGCTAAAACAATGCATGTTGAACAAGAGTATGGTATAGAAGTCGGAAAACCAGCTAACTTCATCGTTTTGAATGCAGAAAATGCATATGAAGCGATTCGTAAACAAGCTGTTGTTATGTATTCCATTCGCAATGGCAAGGTTGTTGCAAAAACGAAACCAAGTGAAACAAAGATACATGTAGGAACAGAGGAATATGTGGATTTTACTAGAAAATAA MIIKNARLRNKSGLWDIVVTKKTITAISPANKQQQIGEVLDVAGALVLPPFIEPHIHLDTTLTAGEPKWNESGTLFEGIQRWSERKQSLTYEDVKDRATQALKWQIAQGIQHVRTHVDVTDPKLTALRALLELKEEMAHFVNLQLVAFPQEGILSYPNGKELLEEALQLGADVVGGIPHFEFTREYGVESLKIAFDLAEKYDRLIDIHCDEIDDEQSRFVEVVAKEAYERGLGSRVTASHTTAMGSYNDAYVYKLFRLLKMSEINFVSNPLVNIHLQGRFDSYPKRRGLTRVKELLEAGMNVCFGHDDIFDPWYPLGTGNMLQVLHMGIHVAQLLGYEQIVDSMNLITTNSAKTMHVEQEYGIEVGKPANFIVLNAENAYEAIRKQAVVMYSIRNGKVVAKTKPSETKIHVGTEEYVDFTRK PGPT0021315_1082 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485 NA NA AK015_00142 1350 gatC_1 COG3775 PTS system galactitol-specific EIIC component ATGTCTGTTTTACAGTGGTTTGTTGACTTGGGAGCTAGTGTTATGCTTCCATTTGTAATTTTTATTTTTGCATTGGTTTTGCGCACAAAGGTGAGCAAAGCTGTTCGCTCTGGGTTAATCGTTGGCATTGGTTTTATTGGTATTAATCTTGTTATCGGTCTATTAGGTGACAGCTTAGGACCTGCAATTGAAGCTATGGTTGACAAATATGGTTTAGAGCTTACCATTATTGACGTTGGTTGGCCAGCAGCTGCAGCTATATCATATGGAACCGCTCTAGGCAGTTTGACGATTCCAATAGGTATTGTTATCAATTTACTTCTATTATCGATTGGATTTACTCGGACACTGAATATTGATATATGGAATTTTTGGCATACTTCTTTTACAGCCTCGTTAGTTTTGGCGTTGACCAATCATTTCGCTATGGCTGTTGGAGTAATGATTGTTCATCATATGGTATTGCTTTTGCTTGGTGACTGGATTCAGAAGGATATCCAGTCCTTTTATGGATTTAAACAGATTACTTTCCCTCATGGGGCTTCTGCTCCATCTTATATCATAGCCAAACCTTTAAATTACGTATTTGATCGGATTCCTAAATTTAATAAGCTACAGGCAAATCAAGCGTCCATTCAAAAACGTCTGGGTGTGTTTGGTGATACGACAGTAATGGGGGTAGTCATCGGTGTATTTATTGGTGTAATGGCAGGATATGATCTTAAAAATACGTTCACTTTAGCAATGCAGACAGGGGCAGTGCTTGTCTTATTACCACGTATGGTTGCTTTATTAATGGAAGGACTTGCACCTGTTTCAGAAGCCGCTGGAAATTATATGAAGCAACGTTTTCCAGAGAGGAATTTGTATATTGGAATGGATAGTGCTTTAGCGGTGGGGCATCCAGCCGTTTTATCAGCTTCTTTGTTATTAGTGCCCATCACTCTGTTTTTAGCCGTGATATTACCAGGTAATAAAGTGTTACCTTTTACAGACTTAGCGACGATTCCTTTTCTTATCGCTTTAATGGTACCTGTTTTTAAAGGTAATATAATTCGGACAGTTATTGGTGGAGCTTTTTATATTGGCATTGGTCTTTATATTGCAACTTGGGTAGCTCCTTTAGTAACAACGACAGCAATGAGTGCCGGTTTTAATATGGAAAATTATGGGGCGATTTCTTCGCTTGTAGATGGTGCAGTGTGGACAACTTTTCCTTTCATTTGGCTAACAGGAAGGATGCATTGGTTTAGTTTTATAGTTTTTGGGTCATTTATAATGGGTTTATTCTTCTATGTTAACAGACGAAAGAGACGCAAACATAAAAATAATTCCTATTGGAGGAAATAA MSVLQWFVDLGASVMLPFVIFIFALVLRTKVSKAVRSGLIVGIGFIGINLVIGLLGDSLGPAIEAMVDKYGLELTIIDVGWPAAAAISYGTALGSLTIPIGIVINLLLLSIGFTRTLNIDIWNFWHTSFTASLVLALTNHFAMAVGVMIVHHMVLLLLGDWIQKDIQSFYGFKQITFPHGASAPSYIIAKPLNYVFDRIPKFNKLQANQASIQKRLGVFGDTTVMGVVIGVFIGVMAGYDLKNTFTLAMQTGAVLVLLPRMVALLMEGLAPVSEAAGNYMKQRFPERNLYIGMDSALAVGHPAVLSASLLLVPITLFLAVILPGNKVLPFTDLATIPFLIALMVPVFKGNIIRTVIGGAFYIGIGLYIATWVAPLVTTTAMSAGFNMENYGAISSLVDGAVWTTFPFIWLTGRMHWFSFIVFGSFIMGLFFYVNRRKRRKHKNNSYWRK PGPT0016948_389 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016948-gatC|sgcc-K02775 NA NA AK015_00143 285 gatB_1 COG3414 PTS system galactitol-specific EIIB component ATGATTAAAATACTCGTAATTTGTGGTACTGGGGTTGCAACTTCTACAATGGTGAAAGAAAAAATACGTGAATGGCTAGAAAAAGAAAAGCTGATACATCAAGTATCGCTTTTTCAATCTAGTGTAGCAGAAGCAGTAAATCAATATGATATGTATGATTTTGTTATCTCAACGACTATTGTACCTGATGAAATGAAAGATTATGTGATTGACGGTACGCCATTCATATCGGGAATAGGGGTAGAGGAAATGTATCAAATAATTCGTGAAAAAGTATTTAGCTGA MIKILVICGTGVATSTMVKEKIREWLEKEKLIHQVSLFQSSVAEAVNQYDMYDFVISTTIVPDEMKDYVIDGTPFISGIGVEEMYQIIREKVFS PGPT0016947_392 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016947-gatB|sgcB-K02774 NA NA AK015_00144 588 ypmQ COG1999 SCO1 protein ATGATGAAAAAGTTTATAGGGGTTGCTTTACTAGTATTAGCTGCTTTTCTAACAGCTTGTGGTGGAGCAGAAGAAAAGATTGAACCAAATATGTCAGAAGAAGTAATGGACTTTACGTATACTACGCAAGATAACGAAGAACTTTCCTTAGAGGACTTGAAGGGGAACTATTGGATTGCTGATTTTATTTTTACAAATTGTACAACCGTATGCTTACCGATGACATCTAATTTAGCAAAGTTACAACAAAAGACAAATGAAGAAAATATAGATATTCAATTTGTCTCTTTCAGTGTCGATCCAGAATATGATACACCTGACGTATTAAAAGAATACGCTAAAGAATACCAAGCAAATTTAGATAACTGGACCTTTCTAACAGGCTATGATTTTGAGAAGATCAAAGAGTTTTCTATCAAATCATTTAAGAGCATGGTCGCTCCCCCTCCTGAAGGCAACGATCAAGTAACACATGGTACGAGCTTTTTCTTAGTTAACCCTGAAGGAGAAGTCATTAAAAAATACAACGGTGTACAAGCTGATAGTATCGACACCATGGTTAATGATCTAAAAGAATTAGGTTTATAA MMKKFIGVALLVLAAFLTACGGAEEKIEPNMSEEVMDFTYTTQDNEELSLEDLKGNYWIADFIFTNCTTVCLPMTSNLAKLQQKTNEENIDIQFVSFSVDPEYDTPDVLKEYAKEYQANLDNWTFLTGYDFEKIKEFSIKSFKSMVAPPPEGNDQVTHGTSFFLVNPEGEVIKKYNGVQADSIDTMVNDLKELGL NA NA NA NA NA AK015_00145 666 COG0637 Phosphorylated carbohydrates phosphatase ATGAATCAACTAAAATTAATGATTTTTGATATGGACGGTTTACTATTTGATACGGAACGGATTGCCTTCCAAGCCTTAAAAAAGGCGATGAAAAATGCTGGGTATAACCTAACACTAGACATATACCGTAAGATTATTGGCGCTGGAAACCAAGAAGATGAGAAAATATTAAAAAGCGTATACGGGGAAAAATTTTCCTTTAACCTCATAGTGGAAGACTATCTCTATGAATCTGAGAAAGTATTAAAAAACGATGGCTTAAAAATAATGAGAGGTGTTCCAGAACTTCTCAATATGTTAGATGAACGAAAGATTAAAAAATGTGTTGCCTCTTCTAGTTCTTTAGAAACGATTGATCGCTATTTGACGATGACAAATTTGAAAGCTAGATTTGACTTTTATATGAGTGGGGATGAAGTAACGCGCGGAAAACCTCATCCTGATATTTTCCTTGAAGCATGTAAGCGCGCAAATGTAACCCCCGAATTGGCAATGGTGCTAGAAGACTCGCCAAATGGTTTAAGAGCTGCTTATCAAGCAGGCATAAATTGTATAGTAGTACCTGATTTAGTCGAACCTGATGAAGAAATGTACATCAAAACGTATCGAGTAGTAGATAGTTTAGTAGAAGTCTGCGATCTACTCACTGCACAAGAATCGGTGTAA MNQLKLMIFDMDGLLFDTERIAFQALKKAMKNAGYNLTLDIYRKIIGAGNQEDEKILKSVYGEKFSFNLIVEDYLYESEKVLKNDGLKIMRGVPELLNMLDERKIKKCVASSSSLETIDRYLTMTNLKARFDFYMSGDEVTRGKPHPDIFLEACKRANVTPELAMVLEDSPNGLRAAYQAGINCIVVPDLVEPDEEMYIKTYRVVDSLVEVCDLLTAQESV NA NA NA NA NA AK015_00146 900 hypothetical protein GTGAAAAAAATTGCGAAGGAAAACTATATTTTGTCAATGTCACCAAAGATCAAGCCTGTTGAAACAGTTTTATCAGAAGAAACAATTCTATTTGAAACGTACGATTGTTTTAGTAATGAAATGAAAAGCGAAGACGATTTATTCCACACAGTCGGGTGGGATAAAATTAATCCAGCGACAGGACCGTTGTTTGTAGAAGACGCCAGACTAGGAGATACATTAAAAGTGGATATATTGGATATTCAAATCGCTAACCAAGGCGTAATGTCCATCACGCCAGAAATGGGGGCTTTAGCAGGTAGTTTTACTGATGAAAAAACAAAAATTATTCCGATAAATGATGGGAAAGCTATTTTTAATGAAACTTTATATTTACCGATAAAACCTATGATTGGGGTTATTGGAACTGCTCCATTTGATGAAGATGTGCCAACAGGAACGCCAAAAGATCACGGTGGAAATATGGATTGTAAACGAATTGGAATAGGATCTTCCCTTTATTTACCGGTAAATGTAGAAGGGGCTCTTTTGGCAATGGGAGATGTACACGCAGTTATGGGAGATGGTGAGGTAGTTATTTGTGGATTAGAGATTGCTGCTGAAATTACAGTTAAAGTTAGCGTGATTAAAGGACAACCTTATCCACTTCCGTTTTTAGCTGATGACAAACATGTGATGACGATAGCGTCTCGTGAAACGCTAGATGAAGCTTCTAAACAAGCAACGAAACATATGCATACTTTTCTTGTGAATGTACTGAAAATGGAAGCGCATGAAGCAGCAATGTTTCTATCTGTGGGAGCAGATTTAAAAATTTGCCAAATTGTTGATCCGTTCATGACATCGCGAATGGAACTTCCGGTGTGGGTGCTGGATAAATACGGTTACCAACTACTGTAG MKKIAKENYILSMSPKIKPVETVLSEETILFETYDCFSNEMKSEDDLFHTVGWDKINPATGPLFVEDARLGDTLKVDILDIQIANQGVMSITPEMGALAGSFTDEKTKIIPINDGKAIFNETLYLPIKPMIGVIGTAPFDEDVPTGTPKDHGGNMDCKRIGIGSSLYLPVNVEGALLAMGDVHAVMGDGEVVICGLEIAAEITVKVSVIKGQPYPLPFLADDKHVMTIASRETLDEASKQATKHMHTFLVNVLKMEAHEAAMFLSVGADLKICQIVDPFMTSRMELPVWVLDKYGYQLL PGPT0006115_7616 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426 NA NA AK015_00147 462 hypothetical protein ATGAGTAAAGATTTAATTGAACAATTTGCGTTGAATCGTAACATGCTGTTTATGGAGCTAGATAAACTAGATGAATCACTAATTGACGAACAATTAGACGAACTAAATAATACGGTACATTGGCATATCGGACATATTTTAACTGTCGCGGAGCAATTTCTATTTGGTTTCCCAAACCAAACAAAGCATTTACCAGAGGAATTTATTTCTCTATTTGGAAACGGTACAAAACCTGCTGATTGGCCAGAAAATGTCCCATCCCTTGCAGAATTAAGAGAAAAACTGCAAGAACAAATGGAGCGTGCTATGAAACTGGACACGGAATATTTTGCTACCCCATTGGAAAAACCTTTTCTAGGGCAAGATACAATCGGCGGACTAGCAAAAGTTGCTACATTCCATGAAGCACATCATACTGGTCAGTTACATACGATTCATTTAATCGCTGCAAAAAGAAAATAA MSKDLIEQFALNRNMLFMELDKLDESLIDEQLDELNNTVHWHIGHILTVAEQFLFGFPNQTKHLPEEFISLFGNGTKPADWPENVPSLAELREKLQEQMERAMKLDTEYFATPLEKPFLGQDTIGGLAKVATFHEAHHTGQLHTIHLIAAKRK NA NA NA NA NA AK015_00149 612 tenI COG0352 Thiazole tautomerase ATGCAATTATATGCGGTAACGAATGGAGAAACGGAAGAGACAAAATTAATCAATACAATACTAGCAATTGCTCCTTTCGTAGATCACATCATTTTAAGAGAAAAACAGAAATTGAGATTTGAATATTCGCAATTTGTGCAGGAATTAATAAACAGCGGTGCTCCAAAAGAAGTACTTTGTGTTCATACGCATGTTAAAATTCCGTTTTTAACGGGAGTAAATCAATTGCATATGCCTGAATACTGCACAAATATAGGGGAGATAAAGCGCTTATTTCCCTCTTTAAGAGTGGGGCGTTCTGTTCACTCTTTGGAAGCGGCAAAATATGCTGAAAATAATGGGGCTGACTATGTGATGTTTGGACATATTTATCAAACAGATAGTAAACCAGGTATAAAACCAAGAGGATTATACCAATTGGAACAGATCATTCATGCAATTACAATTCCAGTCATTGCAATTGGTGGGATTACAGGAGATAGAGTATCCGACTTTAAAGATATTGGGGTAACAGGTGTTGCTGTCATGTCGGGGATTTTTAGTGCATCTTGTCCAAAGACAGCTGCTATGAGCCTACGTAAGGAGGTAGAGAAAATTGAAGGATCATTATGA MQLYAVTNGETEETKLINTILAIAPFVDHIILREKQKLRFEYSQFVQELINSGAPKEVLCVHTHVKIPFLTGVNQLHMPEYCTNIGEIKRLFPSLRVGRSVHSLEAAKYAENNGADYVMFGHIYQTDSKPGIKPRGLYQLEQIIHAITIPVIAIGGITGDRVSDFKDIGVTGVAVMSGIFSASCPKTAAMSLRKEVEKIEGSL PGPT0008975_160 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 AK015_00150 1110 thiO_1 COG0665 Glycine oxidase TTGAAGGATCATTATGAAGTTGTCGTTGTTGGCGGTGGAATTATTGGTCATGCTATTTCGTATCACTTAAATAAAAATAATGTAACTACCCTTGTTGTTGAAAAACAGCAAAGTGGAAGAAAGGCGACAAATGCAGCCGCCGGAATGTTAGGTGTACATACGGAGAATAGTAATGCAAATGAGTTTTATAAATTTTGTCAATCTAGTAGAGATATGTATCAGGAATTAAATTGGGAATTGTATCAACTAACATCTATCGATATTCAGTTAGCTTCTGGAGGCATGGTGGAGCTTGCTTTTTATGAACAGGAAAAACAAGCAATGGAATTAAAGCGACAAGCTTTCCCGAATTTAGAATGGGTGGACCCAAGGCAACTGAAAGCATGGTTTCCCATGTTAGGTAAAGAAGCGATTGCTGGCATTTACATGGAGACGGATGGGCATGTGGAACCCTCACGAGTTTGTGAAGCTTTTAAACAGGGGGCTATCGCAAAAGGTGGCAAGGTGAGAGAGGATTGCCATGTGTGGAACATAAACCACGTAGCCAAAACTTTTCACTTGGATACAGATGAAGGTTTGATAACAGCTGAGCGCGTAGTAATTGCCACAGGGGCTGAGAGTGGGCGATGGTTTACAGCAATGGGGCTAGTTAATCCAATGATACCAGTAAAGGGGGAATGTTTATCAGTTATTTCTAGCGGTATTCAGTTAAAACAGACACTCTTTTGTAAGGATTTTTACCTTGTACCAAAACGAGATGGTCGCTATGTTATTGGCGCAACTTCCGAACGCTATAATCAATCGTCCTATGTTTCTGTGGGAGGAATTGAATCTTTGCTAATACATTTTAATACTATTTTTCCATCTTTTCGAAATGCTAGGATAGATTCTTTTTTAACAGGTGTGCGACCTGGAACAGAAGATGGGATACCTGTTATTGGAGAGCATCCTTCCTTACCAGGTCTTTATTATGCTACTGGGCATTATCGAAATGGGGTATTGTTGGCGCCTGCTACTGCGCAATTAATTGGTGACCTAATAATGAATCAAAACCAAAAAGTTATAGAAAACCTAGTGTCTCCCCAGCGTTTAGCGATGGTTAATAGCTAA MKDHYEVVVVGGGIIGHAISYHLNKNNVTTLVVEKQQSGRKATNAAAGMLGVHTENSNANEFYKFCQSSRDMYQELNWELYQLTSIDIQLASGGMVELAFYEQEKQAMELKRQAFPNLEWVDPRQLKAWFPMLGKEAIAGIYMETDGHVEPSRVCEAFKQGAIAKGGKVREDCHVWNINHVAKTFHLDTDEGLITAERVVIATGAESGRWFTAMGLVNPMIPVKGECLSVISSGIQLKQTLFCKDFYLVPKRDGRYVIGATSERYNQSSYVSVGGIESLLIHFNTIFPSFRNARIDSFLTGVRPGTEDGIPVIGEHPSLPGLYYATGHYRNGVLLAPATAQLIGDLIMNQNQKVIENLVSPQRLAMVNS PGPT0008955_984 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153 NA NA AK015_00151 204 thiS COG2104 Sulfur carrier protein ThiS ATGGAACTGCATGTGAATGGAGAGACATTGCATTTTGCCAAAGAGACGATGACAATGCTTGATTTGTTGGAAGCTTATGACATACAAGAAAAAGTAGCAGCAGTAGAAAAAAATAAAGAAATTATTGGCAAAAAAGATTATCCACAGACGATTTTGGAAGACGGAGATAGAATTGAAATTGTTCATTTTGTAGGAGGAGGTTAA MELHVNGETLHFAKETMTMLDLLEAYDIQEKVAAVEKNKEIIGKKDYPQTILEDGDRIEIVHFVGGG PGPT0008970_1316 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 AK015_00152 765 thiG COG2022 Thiazole synthase ATGTTACAAATCGGAGAGCGAACATTTGCATCTAGATTATTGTTAGGTACGGGAAAATATCCAAGTTTCCAAGTACAAAAAGAAGCCGTAAATATATCAAAAGCAGAAATTCTAACCTTTGCTGTTAGAAGAATGAATATTTTTGACACAAAAGAACCAAATTTATTGGAAGAATTAGATTTAAAGAAATATACCTTATTGCCGAATACAGCTGGAGCTAAAACGGCAGAAGAAGCAGTGCGGATCGCACGTTTAGCAAAAGCATCTGAACTCTGTGATATGATTAAGGTAGAGATAATTGGATGTGATAAAACATTATTACCAGACCCATTTGAAACAATGAAAGCATCTAAGCTGTTACTTGAGGAAGGTTTTACCGTTTTAACGTACACATCGGATGATGTCGTATTAGCAAGACAGTTAGAAGAAGCTGGTGTACACGCAATCATGCCTGGCGCTTCTCCAATTGGCTCTGGGCAAGGAGTAATAAATCCGCTAAATTTGCAATTTATTATTGAGCAATCGAATGTTCCTGTTATTGTTGATGCGGGGATTGGAGCAGCAAGTGATGCTAGTTATGCCATGGAATTAGGCGCTGACGGAATATTATTAAATACGGCTGTATCTGGAGCGGATGATCCGGTTAAAATGGCAAAGGCGATGAAACTTGCGGTTGAATCAGGGCGATTAAGTTATGAAGCAGGAAGAATACCGAAAAAAACATATGCAACCAAAAGTAGTCCAGATACGGCGATGATAGAATGA MLQIGERTFASRLLLGTGKYPSFQVQKEAVNISKAEILTFAVRRMNIFDTKEPNLLEELDLKKYTLLPNTAGAKTAEEAVRIARLAKASELCDMIKVEIIGCDKTLLPDPFETMKASKLLLEEGFTVLTYTSDDVVLARQLEEAGVHAIMPGASPIGSGQGVINPLNLQFIIEQSNVPVIVDAGIGAASDASYAMELGADGILLNTAVSGADDPVKMAKAMKLAVESGRLSYEAGRIPKKTYATKSSPDTAMIE PGPT0008965_2972 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149 NA NA AK015_00153 1020 hypothetical protein ATGATAAAACAGCGTTATTCACGACAAGAGTTATTTGCTCCAATTGGAACAGAGGGCCAACAAAAACTAGCTAATAAGCATGTCGTTATTGTTGGAGCTGGTGCATTAGGAAGTGCAAATGGGGAAATGTTAGCTCGTGCTGGTGTTGGGAAAATCACCATCATTGACCGCGATTATGTGGAGTGGAGTAATTTAAGTAGACAACAGTTGTTTACAGAAGAAGATGCAGCGCACGCTCATACGAAAGCTAAAGCGGCATCTAGGCGGTTACAAGCAATTAACGGATCCATTAGGATTGAAGGGGTTGTTGAAGAATTTGCAGCCGAAACCGCAGAAGCACTCATGGAGTATGCTGATTTTGTAATTGATGGAACGGATAATTTCAATACGCGGTTTATTATTAATGATGCTTGTGCCAAATGGCGTGTACCTTGGGTATATGGAGGATGTTTAACGAGTTATGGCATTGTTTTAGCCATTATGCCTGGGAAATCGCCTTGTCTACAATGTTTAATTGATCAAATTCCGCAGCAAGGGAGAACCTGTGATACGGTGGGAGTGATTGCTCCGGCTGTTCAAATTACCGCGGCATATCAAACGGCAGAATGCTTGAAATATTTAACCGGACACGAAATGTCGCAAGAACTGCTTAATTTTGATGTTTGGGAACGAAAGCATGTATCAGTGAATGTAAGTTCGTTAATCAATCCGCATTGTCCGTCTTGCTCAACGAAGGCAACGTACCCATTTTTAATGAAACAACAAGGAATACAGACAGCCGTTCTTTGCGGAAGGGACACGGTGCAAGTACGCCCTGCACAAACCAATAAATTGTCTATTCCTTCCTTAGCGAAACAGTTAAAACCGTTTTCAGATTCGATGAAAGATAATGGGGAATTATTAATTTTTACGATTAAAAAAAACCGTTTTGTTGTGTTTAAAGATGGTCGAACATTAATTCACGGAGTAAGTGACGTAGATCAAGCTAAAAAGTTATATCAGCGTTATATTGGAGCTTAA MIKQRYSRQELFAPIGTEGQQKLANKHVVIVGAGALGSANGEMLARAGVGKITIIDRDYVEWSNLSRQQLFTEEDAAHAHTKAKAASRRLQAINGSIRIEGVVEEFAAETAEALMEYADFVIDGTDNFNTRFIINDACAKWRVPWVYGGCLTSYGIVLAIMPGKSPCLQCLIDQIPQQGRTCDTVGVIAPAVQITAAYQTAECLKYLTGHEMSQELLNFDVWERKHVSVNVSSLINPHCPSCSTKATYPFLMKQQGIQTAVLCGRDTVQVRPAQTNKLSIPSLAKQLKPFSDSMKDNGELLIFTIKKNRFVVFKDGRTLIHGVSDVDQAKKLYQRYIGA PGPT0008935_124 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 AK015_00154 1398 feoB_1 COG0370 Fe(2+) transporter FeoB ATGGCGTATGAAACAAACCAACAAATACAGCAACTTGATGCATTGTTTGAAAAGTACAGTGATCAAGAAAATACGTTAAGAGATCATATCGTTTCAAGTATTTATCAATCTACACAAAGCATAACCCAGCATTCCATACAGCGTTCTAATAAAAAAACCACCTGGCTTGATGAAAATTTGGATAACATTTTAACATCACGTATTTATGGTTTTCCCATTATGCTTATGCTACTTGGAGTAGTCATTTATTTAACGATTGTAGGGGCAAACTATCCAGGTATTGCTATAAGCCAGTTATTTGCTACAGTTGAAAATTGGCTTGCTTCATTATTCCAATGGGCTAACTCCCCAGATTGGTTGTATGGAATATTGGTAGAAGGATTTTACCGTGGTACTTCCTGGGTTGTTAGTGTAATGCTGCCACCAATGGCTATTTTCTTTCCAATGTTTGCTTTGCTAGAAAATTTCGGATATTTACCACGAGTAGCGTTTAATTTAGATCGTGTATTTAAAAAATCTGGTGCACATGGTAAACAATCGTTAACGATGGCAATGGGGTTCGGATGTAATGCTGCAGCGGTCATGTCTTCACGCATTATTGAGTCACCACGGGAACGCATGATAGCCATCTTGACAAACAACTTTGTCCCGTGTAATGGGCGCTGGCCAGTATTAATTCTCCTTGCAGGTTTATTTATGGCGGCTGGATTTCCAGGCGGTATGAATACGTTTGTTGCTGCGTCCGTTGTCGTAGGAATTGTATTGTTTGGCATTATCATGACTATCTTTGTTTCATGGGCTCTTTCCAAAACATTATTGCGCGGTGTGCCTTCACACTATACATTGGAACTGCCACCTTACAGAAAACCGAAAATATGGAATACGATTGTTCGAGCTACATTGGATAAGTCATGGTTTGTATTAAAAAGAGCCGTCATTATTGCTGCACCAGCATCCGTTATTACTTGGATTTTAGCGAATATTTTCGTTGGTGATCAAAGTGTTCTTGAACATTTTGCTGGGTTTTTAGACCCTTTTGCACAGGCGATTGGCTTGGATGGTTTTATTTTAACGGCATTTATTTTAGGCTTTCCTGCAAATGAAATCGTCCTTCCGATTCTTTTAATGGGATATCTTGCAACAGGATCGATGATCGAAGTGGATAACTTAAACGATTTAAAACAAATATTTCTTGACCATGGATGGACGTGGTTAACAGCGCTTAATATGATGCTATTTTCTTTATTGCATTATCCTTGTGGTACAACCATGTTCAACATTTGGAAAGAAACAAAAAGTGTAAAATGGACGTCGGCCGCTTTTATATTACCTACTACTATCGCCATTGTCGTCACATTCGTTATTGCACAAGTCGTAAAAGGCTTTGGCTGGGTATAG MAYETNQQIQQLDALFEKYSDQENTLRDHIVSSIYQSTQSITQHSIQRSNKKTTWLDENLDNILTSRIYGFPIMLMLLGVVIYLTIVGANYPGIAISQLFATVENWLASLFQWANSPDWLYGILVEGFYRGTSWVVSVMLPPMAIFFPMFALLENFGYLPRVAFNLDRVFKKSGAHGKQSLTMAMGFGCNAAAVMSSRIIESPRERMIAILTNNFVPCNGRWPVLILLAGLFMAAGFPGGMNTFVAASVVVGIVLFGIIMTIFVSWALSKTLLRGVPSHYTLELPPYRKPKIWNTIVRATLDKSWFVLKRAVIIAAPASVITWILANIFVGDQSVLEHFAGFLDPFAQAIGLDGFILTAFILGFPANEIVLPILLMGYLATGSMIEVDNLNDLKQIFLDHGWTWLTALNMMLFSLLHYPCGTTMFNIWKETKSVKWTSAAFILPTTIAIVVTFVIAQVVKGFGWV PGPT0003700_3672 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759 NA NA AK015_00155 732 feoB_2 COG0370 Fe(2+) transporter FeoB ATGTCTCATACCATTGCTTTAGCAGGAAATCCAAACACAGGAAAAAGCACATTGTTTAACTTGCTTACTGGGTTAAAACAACACACAGGAAATTGGCCTGGAAAAACGGTATTACGGGCTGAAGGTGAACTAAAAACAGAGAAGCATGTATATAAGGTCATTGATTTACCTGGTACATATTCTCTTTACTCCAATTCAGCTGACGAAGAAGTAGCAAGAGATTACATTATTTTTGAAAAACCGGATATTGCACTCGTTGTAGTGGATGCTACTTCGTTAGAGCGAAATTTAAATATAGCATTACAAGTATTAGAAATGACTGATCGTGCCGTTCTATGTGTCAATCTAATTGATGAAGCAAGAAAAAGAGGCATCCATATTGATAAAGAAGCGTTATCTAAACAATTAGGTATTCCAGTTGTGTTAATATCAGCTAGAGAAAAAATTGGTATCATTCAACTACTAAAAACGATAGACCGAATGATTGAAGGTAAATTAATAACGAAAGGTTACAAAATTAAATATAGTCCAGAAATAGAAAAGAAAATAAAAGAACTCGAACCAGAAATCAAGCATATTTTTGGGGATATCTTTCCTGCGAGATGGATCGCTTTACGTATATTAGATGGAGATAAAAAATTATTAGAATCGCTAAAAGCGTATATACAAAACCAACAATTCAGTTCGGAAAAACATCCATCTGCACAAGGAGGCTGTTGTCATGGCGTATGA MSHTIALAGNPNTGKSTLFNLLTGLKQHTGNWPGKTVLRAEGELKTEKHVYKVIDLPGTYSLYSNSADEEVARDYIIFEKPDIALVVVDATSLERNLNIALQVLEMTDRAVLCVNLIDEARKRGIHIDKEALSKQLGIPVVLISAREKIGIIQLLKTIDRMIEGKLITKGYKIKYSPEIEKKIKELEPEIKHIFGDIFPARWIALRILDGDKKLLESLKAYIQNQQFSSEKHPSAQGGCCHGV PGPT0003700_1832 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759 NA NA AK015_00156 255 hypothetical protein ATGCTTGATAAAAAACCTATCTATCAATTTCAAATTGGTGATCGAATAGAAATTACATCTGTTGAACTACGAGATGATGTCATACGGCGTAGATTACTAGATTTAGGTTTTGTCCCAGGAGCCACCATTGAAATAGTACAGAAAAGTCCATTAGGAGACCCAATCGCTTTTAAAGTTTTTAACACGACGATCGCACTGCGGAAAGAAGAAAGTTCTTTTATCTACGCAAAGAAAGTTCATAAAGAGGTGGTATAA MLDKKPIYQFQIGDRIEITSVELRDDVIRRRLLDLGFVPGATIEIVQKSPLGDPIAFKVFNTTIALRKEESSFIYAKKVHKEVV PGPT0003695_937 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758 NA NA AK015_00157 1317 hypothetical protein ATGCGTTGCCCAACGTGTGGAATGAAAAAACAAAGAAGAACGCGTTTCTGTTTAAATTGTGGAAGAACGTTAAAGCGAGGAATAGCATTTAAGTTAACAGCCATCATTTCATTTTTGCTCCTTGTGAGCGGAGGCACTTATTTATTTATCGAAAGTAATGCTGCTAGCAATCGTCTAGAAACGCATACAAAAGCGGCTAACGCTGCAAGTCGCAATGATCCAGAATTAATGAACAAACAAAGCGATGACTTAGATGATGAAAAAACCGTTGAAGAAAAGATTCAAATGGCTGAAAAAAACGTATATACAGTTAGGACGAATGAAAGGGAAGGTGCTGCTTTTTTATATAATGATCAAGGCATCTTATTAACGAGTGCACATCTTGTTGAAGGGCATACGGAAGTACAAGTTAGAAATAATCATGATGCATTTACTGGCTCTGTTATCGGCTATTCCAATGAAACAAATCTGGCAGCGATTCAAGTATCTGAACTGGCAGGGGATCAACCAGCACCAATCGAGAGGGAAAAAGGTTTATCTGCAGGGGATGAAGTTATTGCTATGGGAAGCGAGCGTGTTTTAGACAATAATACAACGCCTACTGTTGTCAACGAAGTGGACTGGCATTTTTCTTATGGAAATTTTACATATGAACATACGTATCAATTGGAAGAGACGCTATTACTGGGATATAGTGGTGGGCCTTTATTGTCTGGCGAGACTGGTAGCATGATTGCTATTAATTCGATTGCCCATGTCAAAGATATTGCTGTACAATTTAGTGTCCCTATACACGAGGTTGCAGATATGATAGACGGTTGGATAGATGAACCGATGAATGCAGCAACAATTACAGAACAATTTTATGATGCAGATGGGGGCTATTTTTTTGGAGATTTTTGGGGGACTCGATATCCAGAAGAAACGGCCACCAATCAAGAAAGTGAATCTACTAGTAAGGGAGAAGGCAGTGTAACAAATGCCGCCGAAAATAATACTTCTAATCATAGGGGACAGCAAACGTGGCAAGCACCTGCTTATACGCCACCAGCTAATAATGGATGGCAAAACCGGGACAATAATACGCAAAATGGCACCAATGATATAAACCAAAATTCGACTCCGGAACAAAAGAAGGATAATGAAACAAATAAAGGCGCTGGTGAGGGTCCTTCAGACGGTGGTGACGATCAAACAAATTATGACGAGAATTCAACTAAACCTACAGATGGACCGAAGAAACCAGAAGAACCAGAGAAACCAAAAGAACCTCAAGAAGACTCGTCAGAAGAAGATAACGAATCTAGTCAGCAATAA MRCPTCGMKKQRRTRFCLNCGRTLKRGIAFKLTAIISFLLLVSGGTYLFIESNAASNRLETHTKAANAASRNDPELMNKQSDDLDDEKTVEEKIQMAEKNVYTVRTNEREGAAFLYNDQGILLTSAHLVEGHTEVQVRNNHDAFTGSVIGYSNETNLAAIQVSELAGDQPAPIEREKGLSAGDEVIAMGSERVLDNNTTPTVVNEVDWHFSYGNFTYEHTYQLEETLLLGYSGGPLLSGETGSMIAINSIAHVKDIAVQFSVPIHEVADMIDGWIDEPMNAATITEQFYDADGGYFFGDFWGTRYPEETATNQESESTSKGEGSVTNAAENNTSNHRGQQTWQAPAYTPPANNGWQNRDNNTQNGTNDINQNSTPEQKKDNETNKGAGEGPSDGGDDQTNYDENSTKPTDGPKKPEEPEKPKEPQEDSSEEDNESSQQ PGPT0015105_4590 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 AK015_00158 402 hypothetical protein GTGAATCGAACAGTTGAAAAGATTTTAGGCATTGTCGGATTTTTAATGGACGGTGCTTTAGCTATTTTTGGGATCGTTGGCATTTTGCTTTTAAACAGTGGTATCGACCTGCTTGAAGGTTCTATTGATCCGGCTGATTTTGGAATGCTTTCAGACCTTGGTTCCTTCTTATCTATCTTTATTTGGATTCCTATTATTGGTGCTCTGATAAGCTTTACTTTAGGATTGATTGGTGTATTACAGTTGAAGCGAAACCCTAAAACTGCCGGCGGATTTTTTATTGCAGCAGCTGTTCTAAGTGGCTGGCTTTTATTATCAGGAATTTTATTTCAATCTTTGTTATATCTCGCCGCCGCAATTATGTGTTTTGTAAGAAAACCAACAAAAACGATAGAAAATTAA MNRTVEKILGIVGFLMDGALAIFGIVGILLLNSGIDLLEGSIDPADFGMLSDLGSFLSIFIWIPIIGALISFTLGLIGVLQLKRNPKTAGGFFIAAAVLSGWLLLSGILFQSLLYLAAAIMCFVRKPTKTIEN NA NA NA NA NA AK015_00159 1371 baeS_1 COG0642 Signal transduction histidine-protein kinase BaeS ATGAAGCTAACACTCCGCACTAAAATTTTTATTTATTTATTAATTGTTTCCTTATGCGGTGTTTTTTTAACGAGTTTTTCCATATTTTTCGGGGTAGAAAATCAATTTTCTAGCTATTTACAAATAAGTAGAGAAGAAAAAACGTCATTTGTAGAGGAAGAGATCATTCGAACGTATCAGCAAACCGGAAGCTTAGTAAGTGAACAAGCAAACAGCATGCTTCATGACCAAGCAATGACAGAGAATTTGTTTTATACTATTTATGATCGGGCTGGTAATGCTGTTGCAGACTCAACAAGAATGCAGCACATGATGAGGGGAATGGGCATGCATCAACAAGCAGAAAAAGTTGATTACGAAACAAGTTCTCACCCTATTGAAGTAGACGGAGAAAAGGTTGGCACGATGGAAGTGGTGTATCCAGTAGAACTCGTTGGTGAGGACTTTACTTTCTTAAAATCGATTCAAAAAAACATACTAATTGCGGTAATCGCTATTATATTGTTATCGATTTTATTTAGTTTTTTGTTTTCTAGAAGGTTAAGTGCTGGTTTTACGCGGTTATCAACAGCTGTACAGCAATTAAAAAAACATAAACGAGTAGACGTGCCTGTAAAAGATTTAAGTATTGAAATGAAACAGCTTGGGGAGTCATTTAATGAATTAGCTAATTCCTTGGCGAAAGAGGAACAACTAAGAAAGCAATTTACCGCTGATTTTGCACATGAACTTAGAACACCATTAGCAACCTTACGTAGTCAATTGGAAGCTTATCAAGACGGTATTTGGGAACCAACTCCTGAACGATTGCAAAAAAGCCACCATGAACTTATGCGCTTAGTGCGACTCGTCAATGAATTGGAAACGTTAATTGCAGTGGAAAACCCACAAAAGAAATTGAACATGTCTACTTTAGATGCAGGGGAACTTCTTCGTTTTATGGATAGTCAATTTCAGCCGGCTTTTCATAAAAAAGGGGTTGTATTAAGGAGCTACTTTCCAAACAAAGAAATCCATTTTCGTGCAGATGAAGACCGAGTTACACAAATTTTAACAAACCTTATGAACAATGCATTGCAGTATACTCCAACAGGAAAGACAGTGAAAATTTTTACAGAAGAGAAGGAAGATTGCATCTGTTTTATGGTTATGGATGAGGGAATAGGTATTAAAAAGGAAGATATTCCATTTTTGTTTGAACGCTTTTATCGTGGAGATAAGTCAAGGGCGACCAAGACTGGCGGTATAGGAATCGGGCTTTCCATTGTGAAAGCACTTGTAGACGCTCATCACGGAACCATAGATTTTAATAGTGAAGTTGGGGAAGGTACAACCGTGACCGTTTGCTTTCCGAAAAAAGGGAAACATTAA MKLTLRTKIFIYLLIVSLCGVFLTSFSIFFGVENQFSSYLQISREEKTSFVEEEIIRTYQQTGSLVSEQANSMLHDQAMTENLFYTIYDRAGNAVADSTRMQHMMRGMGMHQQAEKVDYETSSHPIEVDGEKVGTMEVVYPVELVGEDFTFLKSIQKNILIAVIAIILLSILFSFLFSRRLSAGFTRLSTAVQQLKKHKRVDVPVKDLSIEMKQLGESFNELANSLAKEEQLRKQFTADFAHELRTPLATLRSQLEAYQDGIWEPTPERLQKSHHELMRLVRLVNELETLIAVENPQKKLNMSTLDAGELLRFMDSQFQPAFHKKGVVLRSYFPNKEIHFRADEDRVTQILTNLMNNALQYTPTGKTVKIFTEEKEDCICFMVMDEGIGIKKEDIPFLFERFYRGDKSRATKTGGIGIGLSIVKALVDAHHGTIDFNSEVGEGTTVTVCFPKKGKH PGPT0003985_933 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642 NA NA AK015_00160 717 phoP_1 COG0745 Alkaline phosphatase synthesis transcriptional regulatory protein PhoP ATGACACGCATATTAATTGTCGATGATGAAGAAATGATTCGTGAAGTTTTGCAAGCTTATTTTGAAAAAGAAGGTTGGAGTATTTTATTTGCCGCCAATGGATTAGAAGCGCTAAAACAAATAAAAGAAGGGAACCCAGATATTGTGCTTCTTGATTTAATGCTCCCCGATATTTCTGGAGAGGAAGTGTGCAGATTAACTAGAAAAGATAGTGATATGCCAATTATTATGCTTACTGCTAAGTCAGCAGAGGATGATATTATAAATGGAATTGTCATCGGTGCAGATGATTATGTTACCAAGCCTTTTAGCCCAAGAGAGGTTGTTGTGCGAGCTAAAGCTTTACTGCGCCGAATTTCTAAGACGGAAAAAAATGACCAACTCCGTTTTAACGACGGGCAACTAATTATTGACCATTTAAAAAAGGAAGTAAAAGTCAATAATGAAGTTGTCGCACTTACACCGAATGAATATAAGCTATTAATAACAATGTCTAGTTATCCTGGAAGGGTATATAGCAGAGGGGATTTGCTCGTAAAAATTCAAGAAGAGGATGATCTTTTTTTTGAAGGATATGAGCGAAGTATTGATACACACATAAAAAATTTACGAAAAAAAATCGAACAGGATTCTAGACATCCTGATTATATATTAACGGTTTTTGGAATGGGGTATAAGTTTGGGGGCAAACCAGATGAAGCTAACACTCCGCACTAA MTRILIVDDEEMIREVLQAYFEKEGWSILFAANGLEALKQIKEGNPDIVLLDLMLPDISGEEVCRLTRKDSDMPIIMLTAKSAEDDIINGIVIGADDYVTKPFSPREVVVRAKALLRRISKTEKNDQLRFNDGQLIIDHLKKEVKVNNEVVALTPNEYKLLITMSSYPGRVYSRGDLLVKIQEEDDLFFEGYERSIDTHIKNLRKKIEQDSRHPDYILTVFGMGYKFGGKPDEANTPH PGPT0002665_1056 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK015_00161 246 hypothetical protein ATGAAAAAATTAATGATTGGTGCTATAACAGGAGCGATTATTTTAGGTGGTGCAGCAACGTATACATTCGCTGATGCCAATGAAGAGAATCAAGAATTTTATAATGATAGGAGACCATATATGGAAGAAATGCATCCAAACTTCTCCGATGAGGATTATGAAGCAATGTATAACTTTTGTCACGGAAACGGAGACTTAGAAAGACGGCATCGCGGTGGAAATGGTTTTGATAAAAACAATGAATAG MKKLMIGAITGAIILGGAATYTFADANEENQEFYNDRRPYMEEMHPNFSDEDYEAMYNFCHGNGDLERRHRGGNGFDKNNE NA NA NA NA NA AK015_00162 135 hypothetical protein ATGATGAATGGCTATGGCCTTCATTTTGCAGGATTTGGAATACTAGGATGGATAATAAACCTTCTTGTAATAGGAATTGTCGTATATTATGCAACTAAATTGGCGTTAAAACATTATGATAAAGACAAAAATTAA MMNGYGLHFAGFGILGWIINLLVIGIVVYYATKLALKHYDKDKN NA NA NA NA NA AK015_00163 450 psiE Protein PsiE ATGAAAAATTTAAAGTCGCTGTATACAAAATCATTATATGTATTTCCTTATTTATTACAAGTTATATTAAATGTATCCCTGATTATTCTCGCTATTGTTTTATCTGTCTTACTTGTAAAGGAGCTTATTTTATTCGGAACAATTTTACTTGAAGGTGATACGACAGACTACCAACTGTTTCTTGCCAATGTATTATTATTTTTCCTATATTTTGAGTTTGTCGCTATGATTGTAAAATATTTTAAGGAAAACTATCATTTTCCCTTACGTTATTTTTTATATATTGGTATAACAGCAATGATTCGTTTGATCATTGTTGAACATGATAATGCGCTAGATACGTTATTTTATGCATTCGTTATCTTAATTTTAATTATTGGCTATTTTATTATGAATTTAACCCCTCGTGAACGACCTGAAAGCAAGTGGTTTTTTCAAAATAAGAGGTGA MKNLKSLYTKSLYVFPYLLQVILNVSLIILAIVLSVLLVKELILFGTILLEGDTTDYQLFLANVLLFFLYFEFVAMIVKYFKENYHFPLRYFLYIGITAMIRLIIVEHDNALDTLFYAFVILILIIGYFIMNLTPRERPESKWFFQNKR PGPT0015090_127 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256 NA NA AK015_00164 720 nagR_1 COG2188 HTH-type transcriptional repressor NagR GTGCTCGATTATACGAATTCAGTTCCTTTACATGTACAGTTGAAGGAAATAATTGAAAAGCAAGTAGAAAATGGCGAATTGCAAGGTCAAATACCAAGTGAACGTCAATTCATGCATACATATAATGTAAGTAGGAGTACAGTAAGGGAAGCTATCACGCTATTAGTACGAGAAGGAATTGTAGAAAAAAGGCATGGAAAAGGGACATTTGTTTCTTTAAAACCAATTCACGATTGGCTTGGAAATTTGCGTAGTACAACAGAAACAATTCAACATATGGGGATGGAGCCTGGCGCGCAACTAATTACAAATTATAAAACAACAACTCCAAGTTATATTCAAGAGCAAACTGGATTAAGAGAAGCATATTTTATAAAAAGAATACGTTACGCAGATCAGATCCCTATTGGAGTGGAGCGTCACTATTATCCTATATGGATTGGTGAAAAACTGCTGCAATATGATCTTAATAATGCGACCCTATACGATTTGCTGGAAAATGAATTAGGGATTACATTTGCGGAGGCGGATCAAACAATATCAAGCGGTCATATTTACGAAGAAGATCGACCTTATCTTTGTATAGAAAAAGACAAACATGTACTCATTGCCGAAAGAATTATAAAAAATGGAGCAGGGGAGATCATAGAATTTGAAGAAGCCTTCTATAAAAGTGATTTATATGCGTTTAAAATAAAGCTGTCTCGCAAATTTGGTTAA MLDYTNSVPLHVQLKEIIEKQVENGELQGQIPSERQFMHTYNVSRSTVREAITLLVREGIVEKRHGKGTFVSLKPIHDWLGNLRSTTETIQHMGMEPGAQLITNYKTTTPSYIQEQTGLREAYFIKRIRYADQIPIGVERHYYPIWIGEKLLQYDLNNATLYDLLENELGITFAEADQTISSGHIYEEDRPYLCIEKDKHVLIAERIIKNGAGEIIEFEEAFYKSDLYAFKIKLSRKFG NA NA NA NA NA AK015_00165 102 hypothetical protein ATGATTATTCTTGTGCCAAAAGAGATTAAAAATAATGAACGTGGCGTTGCATTTACATCGTCTGGAGCTATGACATTTATTAGTCATGGTCATCGATGGTAA MIILVPKEIKNNERGVAFTSSGAMTFISHGHRW NA NA NA NA NA AK015_00166 1389 tpa COG0161 Taurine--pyruvate aminotransferase ATGAAGGAGAAAATGGAAATGCGTTCTGTTACAGAAGAGAAGCCATCACACTTATGGCATGCCATGCATCGGCATGATCCGCAAGCGAAGCAGTTGGTTGCGGTTAAAGGAGAGGGCGGTTGGTTTACAGATGAGGCTGGGAATCGCTATTTGGATGGTGTTTCGGGTTTATGGTGTTTAAATCTAGGGCATGGAAGGCAAGAAATTATTGAAGCATGTGCAGAACAAATGGGGAAATTAACCTATTTTCCATTAACGATGAGTCACCAACCTGCATTGCAGTTAGCTACGAAGCTGAGTGATTTATTAGGCGGAAACTACCAATGCTTTTTTTCAAATAGTGGTTCGGAAGCAAATGAAACCGCTTTTAAGATTGCGAGACAGTATCACAAACAGACAGGGAATCCGGAAAAATATAAAATCATCTCCCGTTATCGGAGCTATCATGGGACTACTTTAGGTGCATTAAGTGCTACTGCACAAGCAAATAGACGTGTAAAATATGATCCGGCTGTTCCAGGGTTTTTACACGTCTATCCACCATATGCTTATCGGTCGATTTTTAATGGTACAAAAGAAGAGTCTGATTTAAAAACTGCGCAATTGGTAGAGGAGACCATTCGTTGGGAAGGAGAAGAAACAGTAGCCGCATTTATAATGGAACCGTTTATTTCTGGTGGTGGAGTTATCATTCCCTCTATGGAGTATATTGAACGAGTTCAAGACATTTGCAATCGATACAATGTCTTGCTCATCATGGATGAAGTCGTTTCCGGTTTTGGCAGAACGGGAGAAATGTTTGGGTTTATGCATGCAAATGGGGTACAACCTGATATCGTAACGATGGCAAAAGGATTAACAAGTGGTTATTTACCATTAGGTGCAACTGCTGTAAAAGATAAAATCTATCAATCATTTAAAAACGTCGGCAAAGATAACCATTTTCGACATGTATCCACATATGGCGGACATCCTGCAGCGTGTGCAGTAGCGCTAAAAAATATTGAAATTATTGAACGGGAAAATGTAGTGCAACGTGTACACGATCTTGCTAAAAGTCACTTAAACACGTTGCAGCGACTAACAAAGTATGATTATGTTGGTGAAGTGAGACAGATTGGTTTCTTGGTAGGCTTGGAAATGGTCAAGGATAAAGTAACAAAAGAACCGTTAGAAGATGAAAAAATGGTGGAAATATTGCAAAACTGCAAGCACAGAGGATTAATTATTGGACGAAATGGCGATACGGTACCTGGCCAAAATAATGTCATCATCATTGCTCCACCATTAACAAGTACGGAAGAAGATTTGATGTTTCTAGTGGAGACGGTAACAGATGTTTTTAATCATCTCTTTGGTAGTAATATTTCTGGAAGTATTCCATTATAG MKEKMEMRSVTEEKPSHLWHAMHRHDPQAKQLVAVKGEGGWFTDEAGNRYLDGVSGLWCLNLGHGRQEIIEACAEQMGKLTYFPLTMSHQPALQLATKLSDLLGGNYQCFFSNSGSEANETAFKIARQYHKQTGNPEKYKIISRYRSYHGTTLGALSATAQANRRVKYDPAVPGFLHVYPPYAYRSIFNGTKEESDLKTAQLVEETIRWEGEETVAAFIMEPFISGGGVIIPSMEYIERVQDICNRYNVLLIMDEVVSGFGRTGEMFGFMHANGVQPDIVTMAKGLTSGYLPLGATAVKDKIYQSFKNVGKDNHFRHVSTYGGHPAACAVALKNIEIIERENVVQRVHDLAKSHLNTLQRLTKYDYVGEVRQIGFLVGLEMVKDKVTKEPLEDEKMVEILQNCKHRGLIIGRNGDTVPGQNNVIIIAPPLTSTEEDLMFLVETVTDVFNHLFGSNISGSIPL PGPT0001925_71 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 AK015_00167 936 cysL_1 COG0583 HTH-type transcriptional regulator CysL GTGAACTATGAGCGATTACAAACGTTTATTGCAGTAGCTGAGAAAAACAGTTTTTCAGAAGCTGCGAAGAAGTTATTTGTTACGCAACCGACGATTACCTCACAGATAAAAGCTCTCGAAGAAGAATTACAAACTAAGTTATTTGAAAGAACGACGAAAACAGTTAAGTTAACCCAATCGGGAGAAATTTTGTTAAAGTATGCTAGAAATATTGTTCAGCTAAGCAATTTGGCTCGAAAAGAAATTTTAAAAATAGAAGAAAAAATATATGGAGATTTAAAAATAGGGTGTAGCTTAACAATTGGAGAATACATTTTACCGCATTTTTTAAAGCGTTTTAAAGAGAAGTATCCACTTATTCATATGCAAGCAAAAATTTCTAATTCAACATCAATTGTTCATCATATAAAGGATCAGGTCGTACATGTAGGATTAATCGAGACTCCAATTAATGATAAGCACATCGTGATGCATCCAATATTAGAAGATGAACTCTGTTTAGTAACGAAAGTCGATTATTTTCCTTTTCTTGAAAAGCAAATAACGTTAGATCAATTAAAAAACATTCCTTTAATCATACGTGAAAACGGTTCTGGCACGCGTGAAGTTGTGGAGCAATATTTAAAACGAGCGGGAGTTTCTTTTCATGATTTGAACATTGTAATGGAATTGGGCAGTACTGAAGCAATTAAAGCGGTAGTAGAATCAGGGTTAGGAGCTTCTTTTATTTCTAAAAACGCAATTTTAAAAGAGAAGCAATTAGGCTTACTAACGTCCTATAGCATAAAAAACGTTGCGTTTAACCGACATTTCTATTTGGTGTTTCGAAAAGGTCAGATCTTAACTTCAACTACAGAATTGTTTATGGATGAATTGAGAAAGATGGCTATAGCACTAGAGGGCAATATTTCCACAAATCGATTAGGTGTTGTTTAA MNYERLQTFIAVAEKNSFSEAAKKLFVTQPTITSQIKALEEELQTKLFERTTKTVKLTQSGEILLKYARNIVQLSNLARKEILKIEEKIYGDLKIGCSLTIGEYILPHFLKRFKEKYPLIHMQAKISNSTSIVHHIKDQVVHVGLIETPINDKHIVMHPILEDELCLVTKVDYFPFLEKQITLDQLKNIPLIIRENGSGTREVVEQYLKRAGVSFHDLNIVMELGSTEAIKAVVESGLGASFISKNAILKEKQLGLLTSYSIKNVAFNRHFYLVFRKGQILTSTTELFMDELRKMAIALEGNISTNRLGVV NA NA NA NA NA AK015_00168 1776 xsc Sulfoacetaldehyde acetyltransferase ATGGTAAAACAACAGTATGCGGAAAGTAAACAAGTAGGTAATAAAATGAAAATGACGCCTAGTGAGGCGATTGTTGAAACGTTAGTTGCAGAAAACGTCAAAGAAGTGTATGGTATTGTCGGATCAGCTTTTATGGATATGTTAGATTTATTTCCAACTGCAGGTATTCGATTTTTGCCAGTACGGCATGAACAAAGCGCAGCTCATATGGCGGATGCTTATACACGCGTGTCAGGAGTCGCCGGTGTAGTCATTGGGCAAAATGGTCCTGGAATTACAAATATGGTTACATCAGTTGCAGCAGCAAACCAAGCCCATACACCTATGGTTGTTATTTCCCCGTCAGCTGGGACGCCGACGATAGGCTGGGATGGTTTTCAAGAAGCAGATCAAGTATCCATTTTTCAATCCATTACCAAAGAGACGGTTAGGGTTACTCATAAAAGTAGGGTAGCGGATTGTTTGCGGACAGCGTTTCGAATTGCGTATGCGGAAAGAGGGCCGGTTCTTTATGATATCCCACGTGACTTATTTTACGGTGAACTAGAAGATCAAATTCTTTCTCCCCGTCAATATCGTGTTGATAAACGAGGAAATGGCGACCCTGCTGCAATAAGTGATGCTGTCACATTATTACAGCAAGCTGAAAATCCAGTTATCCTATCTGGACGAGGTGTAGTAGATGCTGATGCCGTTGATGTGGTAAGTAAAATTGCTGAGCATTTAACTATTCCTGTTGCTGTTTCGTATATGCATAATGATGCATTTCCTGCAGATCACCCATTAGCAGTGGGTCCTATTGGTTACATGGGGTCTAAGGCGGCTATGTATACATTACAAGAAGCTGATGTAGTTTTAGCAATTGGTACACGGCTGTCTGTTTTTGGAACTTTGCCTTGCTATGATATCGACTATTTTCCTAAACAGGCTAAAATTATTCAAGTTGATATTAACCCGAGAAATATTGCTAGAACCCATCCTGTTGAAATTGGGATTATTGGTGATGCGAAATCTTCTGCAGAAGCTATTTATGAACAATTAGAGAAGTCTGTTCCTAAAAGAAAAAGTAATGACGAACGATTAACAGCAGTTAGTAAACGAAAACAAGATTGGGAGCAAGAACTTATTGATCTTGCTATGGTAGAAGGGGAGCCAATTAATCCGCGTCGGGCTTTACTTGAACTGACGAAAGCTTTGCCAGAGAATACTATTATCTCAACAGATATAGGTAACGTCTCATCTACGGCTAATGCGTATTTGAAATTCACTCAAACACGGCGACATATTGCTGCTTTAACTTTTGGAAACACTGGATTTGCTTATCCTGCAGCTTTAGGTGCACAATTGGCTGAACCAAGCTCTCCAGTAGTTGCAATTATTGGCGATGGAGCATGGGGGATGAGTTTGCATGAGGTAAGTACAGCTGTAGAACAAAATATTCCAGTTGTTGCTTGCGTATTCAACAATAAGTCTTGGGCAGCCGAGAAGAAAAATCAAGTTGATTACTATGATAACCGCTTTATTGGGTCTGATATTGAAGCACCTGATTTTACAGAAGTAGCGAAATCAATGGGGGCATTGGGATATACCATAGAGCAACCAGAAGCTATTGCTGAAGTTGTAAATCATGTACTTCAACAAAGAAAGCCAGCTGTATTAAACATTATGGTTGATGGTACGCAGCTAGCTCCCCCGTTTAGAAAAGACGCACTGAAGATGCCTACACGTCTATTGGATAAATATAAGCATTTAGATTATGAAACTTGGGGTAAATAA MVKQQYAESKQVGNKMKMTPSEAIVETLVAENVKEVYGIVGSAFMDMLDLFPTAGIRFLPVRHEQSAAHMADAYTRVSGVAGVVIGQNGPGITNMVTSVAAANQAHTPMVVISPSAGTPTIGWDGFQEADQVSIFQSITKETVRVTHKSRVADCLRTAFRIAYAERGPVLYDIPRDLFYGELEDQILSPRQYRVDKRGNGDPAAISDAVTLLQQAENPVILSGRGVVDADAVDVVSKIAEHLTIPVAVSYMHNDAFPADHPLAVGPIGYMGSKAAMYTLQEADVVLAIGTRLSVFGTLPCYDIDYFPKQAKIIQVDINPRNIARTHPVEIGIIGDAKSSAEAIYEQLEKSVPKRKSNDERLTAVSKRKQDWEQELIDLAMVEGEPINPRRALLELTKALPENTIISTDIGNVSSTANAYLKFTQTRRHIAALTFGNTGFAYPAALGAQLAEPSSPVVAIIGDGAWGMSLHEVSTAVEQNIPVVACVFNNKSWAAEKKNQVDYYDNRFIGSDIEAPDFTEVAKSMGALGYTIEQPEAIAEVVNHVLQQRKPAVLNIMVDGTQLAPPFRKDALKMPTRLLDKYKHLDYETWGK NA NA NA NA NA AK015_00169 585 srtD_1 COG3764 Sortase D ATGTTGTTAAGGACTTTTTCAATCATTTTAATTGTGTGCGGAATAGCCATTCTAGGCTATGGTGGGTTTCAGCTTTATCATTCAAAGGCAATGGAAAGTGAGCGGATGGAAGAAGCAGAATCATTTGTTTCCCATAAAATAATTTCGGATGTAGAAGATGTAGAAAAATTTAATTATGATGCGTTCAAACAAGGAGATACAGTCGGCGTTCTTTATATTCCAAAGCTTGATCGAGAATTACCAATCATTGAAGGTGTAGATGAAGACGACCTAGCTCAAGGTGTTGGTCATTATACCGGTACAGGGTTTCCAGGAGAAAACAAACAAATTTTATTATCTGGACATCGTGATACCGTGTTTAGAAATTTTGACCAATTACAAGATGGAGATGAATTCCATGTAAAAATGAAACAAGGAACCTTTGTTTATACAATGCAGGATCATAAAATTGTCGCTGCAGATGATACAACGGTTATAGATCCAGACAGAAAAAACGAAGTATTAACGATATCTACATGCTATCCTTTTTCCTACATCGGGGACGCGCCAGATCGTTATGTTATTTACGCTTACCCAACGAAATAG MLLRTFSIILIVCGIAILGYGGFQLYHSKAMESERMEEAESFVSHKIISDVEDVEKFNYDAFKQGDTVGVLYIPKLDRELPIIEGVDEDDLAQGVGHYTGTGFPGENKQILLSGHRDTVFRNFDQLQDGDEFHVKMKQGTFVYTMQDHKIVAADDTTVIDPDRKNEVLTISTCYPFSYIGDAPDRYVIYAYPTK PGPT0024075_2787 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284 NA NA AK015_00170 1182 dapL_1 COG0436 LL-diaminopimelate aminotransferase ATGAATATTAATCTAGCTGACAAAATGAAACATTTTCAAACATCTATTTTTAATGAACTTTCCAGCTATAAACAGAAAAAAATTAGCGAAGGGGTCAACATGATTGACTTGAGTGTAGGAAGCCCAGACCTTCCACCAGCATCATTCGTGATTGACGAACTTACAAAGCAAGTGCAAGACCCTGCACAATATGGCTATACCCTTACAGGTACGGATGAGTTACATGAAGCAATAGCAACCTATTATGGCAAACAATATCATGTACCGCTTATGCCAACACGAGAGGCTTTCATGGTCATGGGTTCCCAAGATGGTTTGGTTCACTTGCCAATGGTATTAACAAACCCTGGTGACACAATTCTTCTTCCTGATCCAGGTTATACAGCATACCATACGGGTGTAGCTTTAGCTGAAGCTGAACAATACCTCATGCCACTAAAAGCAGAAAATCATTTTCTTCCAGACCTTCATGCTATTCCAGAAGAAATTTTGCAAAAGTCAAAACTGATGATCCTTAATTTTCCGGGGAATCCTGTACCAGCTACGGCTACAAAAGCTTTTTTTGAAAAAGTAGTGGCTATTGCTAAAAAATATAACATTGCTATTTTACATGACTTTGCCTATTCAGAGCTTTACTATGACGAAAAACCAATTAGTTTTCTTTCGGTTGATGGTGCTAAAGAGGTTGGCGTAGAATTTAATTCATTCTCTAAAAGTTTCAATTTAGCTGGGTGCAGAATTGGCTATATAGTAGGGAATGAACAAATAGTAGACGGGCTAAAACGTTTGAAATCTAATTTAGATTTTGGTGTTTTTTTACCAATACAAAAAACAGCAATTTGCGCACTGGAACATGCATCTTTCTTCACACAAAAATTACGCAACGTCTATAAAGCACGTAGAGATCTTTTAGTCACTGGTTTTCATAATGCTGGATGGAAGGTTGCTTCACCGAAAGCATCCATGTTTATTTGGGCTAAAGTTCCCAAAAATTATACATCCACTGCATTCGCTTATAAACTAATGGATGAAGCAGGAATTGTTGTCGTGCCCGGGAATGCTTTTGGTCCTTCAGGAGAAGGGTATGTACGTATTGGCTTAGTACAGCCAGAAGAAGTGCTAAACGAAGCAGTGCAAAGATTACAAAAAAGTGCCTTATTTACTCCTGTCAATATGGGATAG MNINLADKMKHFQTSIFNELSSYKQKKISEGVNMIDLSVGSPDLPPASFVIDELTKQVQDPAQYGYTLTGTDELHEAIATYYGKQYHVPLMPTREAFMVMGSQDGLVHLPMVLTNPGDTILLPDPGYTAYHTGVALAEAEQYLMPLKAENHFLPDLHAIPEEILQKSKLMILNFPGNPVPATATKAFFEKVVAIAKKYNIAILHDFAYSELYYDEKPISFLSVDGAKEVGVEFNSFSKSFNLAGCRIGYIVGNEQIVDGLKRLKSNLDFGVFLPIQKTAICALEHASFFTQKLRNVYKARRDLLVTGFHNAGWKVASPKASMFIWAKVPKNYTSTAFAYKLMDEAGIVVVPGNAFGPSGEGYVRIGLVQPEEVLNEAVQRLQKSALFTPVNMG NA NA NA NA NA AK015_00171 594 hypothetical protein ATGTCCTTGAGAGAGAAAAAAGTAGCAGAAAAAAAAGAGGAAATCATTCGTATGGCCATCCGTGTCCTATCGGAAAAAGGATACAATGGAATTACAATGGAAGAAATTGCTGCTAAGCTGTTAATGACAAAAGGAACTGTTTATTACTATTTTAAAGATAAACAGGAATTACTGTATCAGAGTCAAATTATGCTATTGGAACGGAGTTTGTGGAAAGTACAACAAATTCAACAAAAACAAATTCCTATCGATAAAAAGCTTAATCAATCCATTATTTCTCATATTGAATATATATTGGAGGAACGCTCTGGGTTTGAATTGATGTTAAAACCAGAACAAATATTTAATACAAAACAATTAGATGTTATTTTTAAACTTCGAGATACGTATGCCGAAATTTTTGATCAGATGATTACAGAGGGAATAGATGAAGGTACCTTTGATGTTACAGATGTAAAAGTGGTGCGAAATATAATTTTAGGTTCGATGAACTGGGTAACGCAATGGTATGCTGAGGACGGGGAAAAAAGTAGGACAGAGATTGCTGAAGATATTGCTATCTACTTATTGCGAATGTTGTCACCAAATAAGTGA MSLREKKVAEKKEEIIRMAIRVLSEKGYNGITMEEIAAKLLMTKGTVYYYFKDKQELLYQSQIMLLERSLWKVQQIQQKQIPIDKKLNQSIISHIEYILEERSGFELMLKPEQIFNTKQLDVIFKLRDTYAEIFDQMITEGIDEGTFDVTDVKVVRNIILGSMNWVTQWYAEDGEKSRTEIAEDIAIYLLRMLSPNK NA NA NA NA NA AK015_00172 768 putative oxidoreductase ATGGAAATAGCAAAAGGGGTTGCTGTTGTTACTGGTGGTGCATCAGGCCTTGGTGAAGCTACAGTAAGAAAAATTGTAGAGGGAGGTGGAAAAGCCGTCATTTTTGATCTGGCAAAGAAGAATGGTGCATTACTAGCTGAAGAACTCGGAAGTGCAGTAGATTATTATCACGTTAATGTAACTGATGAGAGAAGTGTACAGGATGCATTAGAGAATACGATAAATCAATTTGGAAAAGTGGATATGCTTATTAACTGTGCAGGAATAGGCGCCGCAGAAAGAACACTAGGCAAAAAGGGGGTACATGATTTAGGAATTTTTAAAAAAGTTATTGAAGTAAATCTGCTTGGAACGTTTAATGTCATTCGGCTTGTTGCGCAAAAAATGTCCGCTAATACTGTTAATGAAAATGGAGAGCGAGGAGTTATTATTAATACAGCTTCAGTAGCAGCGTTTGATGGTCAAATTGGTCAAGCGGCTTATAGTGCTTCCAAAGGGGGAATAACAGGAATGACGTTACCGATCGCTAGAGATCTATCATCTATAGGTATACGTGTTATGACGATTGCACCTGGATTATTTGAAACCCCGTTATTTGCTTCCTTACCTGAAAAAGCAAAAAAAGCGTTAGGAGAAATGACACCGTTTCCATCTAGGCTAGGTTATCCCGAAGAATATGCACAGTTAGCAAAAAGTATTATTGAAAATCCTATGTTGAATGGAGAAATCATTCGATTAGACGGTGCCATACGTATGCAGCCCAAATGA MEIAKGVAVVTGGASGLGEATVRKIVEGGGKAVIFDLAKKNGALLAEELGSAVDYYHVNVTDERSVQDALENTINQFGKVDMLINCAGIGAAERTLGKKGVHDLGIFKKVIEVNLLGTFNVIRLVAQKMSANTVNENGERGVIINTASVAAFDGQIGQAAYSASKGGITGMTLPIARDLSSIGIRVMTIAPGLFETPLFASLPEKAKKALGEMTPFPSRLGYPEEYAQLAKSIIENPMLNGEIIRLDGAIRMQPK PGPT0002265_65 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895 NA NA AK015_00173 375 fadE_1 COG1960 putative acyl-CoA dehydrogenase TTGAAAAGACATTTTTTAGAAGAAGAACATGCGATTTTCCGTAGTTCATTACGAAAATTTTTGGAACAAGAAGCAGCTCCATATTTCGCTGAATGGGAAGTGAATCAGCAAATACCAAGGTCATTTTGGAAAAAAGCAGGGGAACAAGGCTATCTATGTTCTTGGGCTAAAGAAGTCTATGGTGGTTTCGAAGCAGACTTTAGGTATTCGGTTGTTTTAAATGAAGAATTTGAACGGATTGGCACAGCAATGGTAGGATTGGGCTTACATAATGATATTGTAATGCCTTATATAGATACGTATGGTTCAGAAGAACAAAAAAACGGTGGTTACCTAAAGCGATACAAGGAGAGATTATTTCTGCTATTGCGATGA MKRHFLEEEHAIFRSSLRKFLEQEAAPYFAEWEVNQQIPRSFWKKAGEQGYLCSWAKEVYGGFEADFRYSVVLNEEFERIGTAMVGLGLHNDIVMPYIDTYGSEEQKNGGYLKRYKERLFLLLR PGPT0008385_7336 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK015_00174 786 mmgC_1 COG1960 Acyl-CoA dehydrogenase ATGACGGAGCCTGGGGCGGGGTCTGATTTGGCAGCAATTCAAACAACGGCAAAAAAAGATGGGGATGCTTATATTGTAAATGGAGAGAAAACATTTATAACAAATGGTTCTTCCGCAGATTTAGTGGTCGTCGTTTGCAAAACGAACCTACATGCCCAGCCTGCTTATAAAGGAATAAGCCTGCTCGTTGTAGAAGCTAATACTCCAGGATTTCGAAAAGGGAAAAAGCTAAAAAAGATGGGACAGCTCGCAAATGATACATGTGAATTAATTTTTGAAGATGCTCGTGTACCAGCTGGGAATTTACTGGGAGAAGAAGGTAAAGGATTTTATTATTTGATGGAAAAGTTGCAGCAGGAGCGGTTATTAGTAAGTATGCAAAGTGTTGCAGCTATAAAAGAAATGATTACAATCACATCTGAATATGTAAAACAACGAAAAGCATTTGGAAAGCGAATTAGTGAATTTCAACATACACAATTTCAACTTGCTGAGCTTTATACAGAGTGGCAAATTGGCAATGTGTTTGTTGATCGTTTAATTGAACAACATATGGCTGGGGAGCAAATTGTGTCAGAGGTGTCCATGGCAAAGTGGTGGACGACAGACTTAGCTAAGAAAGTAGCAGCAATTTGTATGCAATTACATGGTGGATATGGTTATATGGAAGAGTTTGAAATTGCAAGAAGATATCGTGATGTAGCTGTGTCATCTATTTATGCAGGTTCTAATGAAATTATGAAACTAATTATCGCCAAAAATATGGGATTAGTAGATGCGGAATAG MTEPGAGSDLAAIQTTAKKDGDAYIVNGEKTFITNGSSADLVVVVCKTNLHAQPAYKGISLLVVEANTPGFRKGKKLKKMGQLANDTCELIFEDARVPAGNLLGEEGKGFYYLMEKLQQERLLVSMQSVAAIKEMITITSEYVKQRKAFGKRISEFQHTQFQLAELYTEWQIGNVFVDRLIEQHMAGEQIVSEVSMAKWWTTDLAKKVAAICMQLHGGYGYMEEFEIARRYRDVAVSSIYAGSNEIMKLIIAKNMGLVDAE PGPT0008385_7336 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK015_00175 1152 pcaF_1 COG0183 Beta-ketoadipyl-CoA thiolase TTGCGAGAAGCGGTAATTATAGAGGCTGTAAGAACACCAGTTGGAAGGCGTAAAGGGAGTTTGTCAGCAAAACGTGCAGAAGATTTAGCGGCAAAACCTTTGCAAGCATTGATAGAACGAGTAGGCATTGACCCTGGACTAGTAGAAGATGTCATCTACGGTTGTGTGTCTCAAGTAGGTGAGCAGGCGTTTGATATTGCTAGGCAAGCTGCATTAATTGCTGATTTTCCAGTTGAAGTGCCTGGAACAACGATTGATCGTCAATGTGGATCGAGTCAACAAGCTGTTCATTTTGCTTCTCAAGCGATTATGAGCGGAGACATGGATGTGGTCATTGCCGGCGGCGTGGAAAATATGACGCGTGTTCCAATGGGGTCCAATATGCAAGGGGTTACAATAAATGAAAATTTAACCTCCAAATATGAAATCATTAATCAAGGGCTATCCGCAGAACGAATTGCTGATAAATGGGGATTTAGTCGCCAGCAACTAGATGAGTTTTCACTCATAAGTCATGAAAAAGCCATTGCAGCAATGAAATCGGGCTACTTTAATAAGGAGATCATGCCACTAGAAGTAAACTTACCAGATGGATCATTGGATTTGTTGAGGTATGATGAAGGACCGAGGGAACAAACAAGTTTGGATAAGTTAAGCGAATTAAAGGCTGCATTTCAAGAAGGTGGAAAAATCACTGCTGGCAACTCCAGTCAAATTAGTGATGGTGCAGCAGCGCTATTGCTAATGTCTCGTGACAAAGCAAACGAATTAGGGTTAAAGCCAAAGTTTCGGGTCTTAGCACGTACGGTGATTGGCTCTGACCCAACGCTTATGCTGACGGGACCAATACCTGCTACGGAAAAAGTATTACGTATAGCCCGATTAAGCATTTCCGATATCGACGTTTTTGAAGTAAATGAAGCTTTTGCCTCTGTAGCTTTAGCTTGGTTGCATGAAACTGGAGCAGATCCAAAACGTCTTAATCCAAATGGTGGTGCAATTGCGCTCGGTCATCCGCTTGGAGCCAGTGGGGCAAGATTAATGACAACTATGATACATGAATTGGAACGTACAGGTGGACGGTACGGATTACAAACCATGTGCGAAGGTCATGGTATGGCGAATGCAACAATTATTGAACGTTTAGCTTAA MREAVIIEAVRTPVGRRKGSLSAKRAEDLAAKPLQALIERVGIDPGLVEDVIYGCVSQVGEQAFDIARQAALIADFPVEVPGTTIDRQCGSSQQAVHFASQAIMSGDMDVVIAGGVENMTRVPMGSNMQGVTINENLTSKYEIINQGLSAERIADKWGFSRQQLDEFSLISHEKAIAAMKSGYFNKEIMPLEVNLPDGSLDLLRYDEGPREQTSLDKLSELKAAFQEGGKITAGNSSQISDGAAALLLMSRDKANELGLKPKFRVLARTVIGSDPTLMLTGPIPATEKVLRIARLSISDIDVFEVNEAFASVALAWLHETGADPKRLNPNGGAIALGHPLGASGARLMTTMIHELERTGGRYGLQTMCEGHGMANATIIERLA PGPT0001565_4774 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 AK015_00176 1161 uctC_1 Acetyl-CoA:oxalate CoA-transferase TTGCCGCTTACAGCCATCCGTGTACTTGATTTGACTCGATTATTGCCAGGTCCCTATTGTTCTATGTTACTTGCAGATTTTGGTGCAGAGGTTATTAAGGTAGAAGATCAAGATAAGGGTGACTATGCTAGAAATTATTATCCTCTCCTTGATGAGGACAGTGCCATGTTTCACGCGTTGAACCGAAACAAGAAGAGCGTCTGTTTAAATTTGAAACGGGAAGCAGATCGAACCATTTTTTTAAACATGGTCAAGGATGCAGATGTTGTTCTCGAATCTTTTCGACCGGGTGTAATGAAAAGATTAGGCGTAGATTATGAAACATTAAAAACGATTAACTCGCGAATTATTTATTGTTCGATTACAGGCTATGGACAAACAGGTCCATATGCTTCAAAAGCTGGCCATGATTTGAATTACCTTAGCTACGCGGGATTATTACATCTCATAGGAGAACAGAATGGCAAGCCAATTGTACCAGCTGCGCAAATTGCAGATATTGGTGGCGGTGCTTATCCTGCTGCATTAGGAATTATGCTTGCATTGTGGGAGAGGAAGACATCTGGTGAAGGACAATTCATAGATATATCGATGATGGACGGCGTTCTTGCTTGGTTACAAACGAGCTTACCCAATTACTTTGCTACAGACGAATTACCAGAACGCGGAAAACAGCCTTTAAGTGGAGCATTAGCATGCTATGAAGTTTATGAAACGAAAGATGGTAGATGGCTAGCGGTAGGAGCATTGGAACCGAAATTTTGGCAAGTATTTTGTGATACGATTGGCAAAAGGGAGCTAATCGCTTATCAACACGCGCCTTTACTTGAACAGCATCGCGTCAAGTATGAAATTCAATCCGTTATTCAACAAAAATCATTAAACGAATGGGTACAGCTTTTTGAAGGTGTAGAGGCTTGTATATCCCCTGTTCAAAATTTTTCGGAAGTAGAAAAAGATGCCCAAGTAAAGGCACGAGATATGGTTGTATCCATCCCCCATCCTACAGTTGGGGAGGTGAAGCAGATTGGCATACCTATAAAACTCTCTAAAACACCAGGAAGCATTCGTTCTTTAGCCCCTAACCATGGAGAGCATCAGGAAGTGCTTGATCCATATATAGCTCATAGTTCTACAGCAGCTTTACAAGATGAAAATTAA MPLTAIRVLDLTRLLPGPYCSMLLADFGAEVIKVEDQDKGDYARNYYPLLDEDSAMFHALNRNKKSVCLNLKREADRTIFLNMVKDADVVLESFRPGVMKRLGVDYETLKTINSRIIYCSITGYGQTGPYASKAGHDLNYLSYAGLLHLIGEQNGKPIVPAAQIADIGGGAYPAALGIMLALWERKTSGEGQFIDISMMDGVLAWLQTSLPNYFATDELPERGKQPLSGALACYEVYETKDGRWLAVGALEPKFWQVFCDTIGKRELIAYQHAPLLEQHRVKYEIQSVIQQKSLNEWVQLFEGVEACISPVQNFSEVEKDAQVKARDMVVSIPHPTVGEVKQIGIPIKLSKTPGSIRSLAPNHGEHQEVLDPYIAHSSTAALQDEN NA NA NA NA NA AK015_00177 1533 lcfB_1 COG0318 Long-chain-fatty-acid--CoA ligase TTGAATATAGGATCGACGTTAGCTAGGAATGCGCGGCAGTTTCCAGATAAGCAAGCTGTTTGTTTTGAAAATCACTCCTACACATATAAGCAGCTCAACGACGAAGTTAATAAGATTGCTAGCGGTTTATTAACACATCATGTAGGGAAAGGAGAAAAAATAGGTGTTTTAATGAAAAATTCCGATCAATTCATGATTGTATTTTATGCCATTATGAAAATTGGAGCTATCGCTGTACCGATTAACTTTCGTTTAACCGCACGCGAAATACAATATATTGTGGAGGATGCAGACATTTCTGTTCTATTTTTTGACGAAGCATATGTCCCTTTAGTTCGGCAAATTACGGAAAATAATCCGAATATAAAGTTACGCATTTGTGCCAGTGATCAAGCTTATGAAAACATACAAACGATACATGATATTCGTGTGCAAAATGTATTAGAACCTAATGTAGAAGTTGCAGAATCAGATGATGCCGAAATATTATACACATCTGGTACAACTGGAAACCCAAAAGGGGCTTTATTTGACCACCATCGAATCCTTTATGTCGCATTTACCTCAGCCATTATGATGAAAATAGATCCTGCAGACAAATTACTTCACGTTGCGCCATTATTCCATTCCGCACAATTAAACCTATTTATGATTACAGGTACTTTTCTAGGTTCTACGCAAATTATCCATCAAGACTTTCACCCCGCTCATGTATTACAAGCGATTGAACAATATAAAATCTCTCTCTTCTTTGCCGTGCCGACCATGTATAATTTCTTACTCCAAGCGTCGAATTATGAAACTTATGACCTTTCTTCAGTAAAACGTTGCGGTTATGGTGCTGCACCGATGCCAACCGCTTTATTGAAAAAAGTGATGCACTTATTTAAGCACGATCAATTTTACAATATGTGTGGTTTAACGGAAGCTGGTCCAGGTGGAGTTCTATTGTTGCCTGAGGAACATAAGACAAAAATGGGTGCAGGTGGAAAAGCTATGCTCTGTACGGAAGTCAAAGTCGTCAATGAATGGGGAGAGGATGCTGCACCTTATGAAGTAGGTGAATTTATTATTCAAAGTGAAATGGTGATGAAGGAATATTATAAAAATCCCGAAGAGACAAGACGAACGCTGAGAGACGGATGGCTTTATACTGGAGATTTAGCAATCATAGATGAAGATGGGTATATTACCCTTGTTGATCGAAAGAAAGATATGATTATATCCGGTGGTGAAAATATTTATTCTACAGAAGTAGAGCAAGTTCTTTATCAATCCCCTGATGTATTAGAAGCAGCAGTAATTGGATTACCAGATGAAATATGGGGAGAAAAAGTTGTTGCAATTGTTGTAGCAAAAGAAGGTCAAAGTTTGGAAGTAGAAAAACTAAAAACGTTTTGTCGCCAACATTTAGCTAGCTATAAAGTACCGACAGAATTTATTAAAGAAAATTTCATACCTCGCAATGCGTCCGGAAAAATCTTGAAATATCGTCTTAGAGAAGCACTACAAACAGGAGAGTCATCATCTTAG MNIGSTLARNARQFPDKQAVCFENHSYTYKQLNDEVNKIASGLLTHHVGKGEKIGVLMKNSDQFMIVFYAIMKIGAIAVPINFRLTAREIQYIVEDADISVLFFDEAYVPLVRQITENNPNIKLRICASDQAYENIQTIHDIRVQNVLEPNVEVAESDDAEILYTSGTTGNPKGALFDHHRILYVAFTSAIMMKIDPADKLLHVAPLFHSAQLNLFMITGTFLGSTQIIHQDFHPAHVLQAIEQYKISLFFAVPTMYNFLLQASNYETYDLSSVKRCGYGAAPMPTALLKKVMHLFKHDQFYNMCGLTEAGPGGVLLLPEEHKTKMGAGGKAMLCTEVKVVNEWGEDAAPYEVGEFIIQSEMVMKEYYKNPEETRRTLRDGWLYTGDLAIIDEDGYITLVDRKKDMIISGGENIYSTEVEQVLYQSPDVLEAAVIGLPDEIWGEKVVAIVVAKEGQSLEVEKLKTFCRQHLASYKVPTEFIKENFIPRNASGKILKYRLREALQTGESSS PGPT0008380_14049 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK015_00178 1620 COG0318 Long-chain-fatty-acid--CoA ligase ATGATGGATAGCCCTTTATTAATAACATCGTTAATCGAACGTGCAGAGAATTATTTTCCCAACAAGGAAATTATTTCAAGAACGCAAAAATATATGCATCGTTTAACGTATAAGGAACTTGGTGGCAGAGTAAGAGCGTTAGCTCATGCACTAAAGGAATTAGGGATACAAAAAGGAGATCGTGTTGGGACATTCGCTTGGAATCATCATCGCCATTTAGAAGCTTATTTTGCGGTTCCATCTATTGGTGCGATTTTGCATACCATTAATATTCGCTTATCAGCTGAGCAACTCGGATATATTATAAACCATGCGGAAGATAAAGTGATTCTTGTCGATGAGGAGCTTTTACCTGCGATAGAAAGTATATTCGATCAGCTTGAGACAGTAGAAACAATTATTGTAATGACAGACGAGGAGGTTGTCCCTGCATCTAAATTACCTTCTCTTTTACATTATGAACAGTTTCTAGAAGATGGGGATGCTACATTTGCTTTTAAAAAGGACATGGAGGAAGAGGAAGCAGCAGAATTATGCTATACATCAGGAACAACAGGTAAGCCGAAAGGGGTTGTATACTCGCACAGGGGTCTTGTTCTTCATGCGATGGCTTTAAGTCTAGCTGATACTTCTGCTGTTTCTGAAGAAGATGTTTCTATGCCTGTCGTTCCAATGTTTCATGCAAATGCTTGGGGGATGCCGCATGCAGCGACATGGATGGGAGCTAAACAAGTTCTACCAGGTCCCTATCCAACACCTGAAATTTTAGCAAGATTAATAGAAACAGAGAAAGTAACCATTACAGCAGGTGTTCCTACTATTTGGCTAGGTTTATTAAAAGAATTAGACAAGAAAACGTACCAGCTTGATAGTTTGCGTGGAATATTATGCGGAGGTTCTGCAGCGCCATTTGGAATGATAAAAGCCTTTGAAATGAAACATAAAATACCGTTTTTTCATGCATATGGGATGACTGAAACGACACCGTTAGCCTTATTTTCCAAATTAAAAAGTTCCCAAAAACAACTGTCAGAAATGGATAAATTAGATATAAAATCAAAACAAGGAATGGCGGTGCCAGGAATTGAAATAAAAGCTATAAATGAGAATGGAGATATAAAAAGAGATGGTCGGGAAATGGGAGAGCTGCTGATCAGAGGACCTTGGATTGCCGACTCGTACTATAAAGATGACCGTAGTGACAATTCGTTTCTTGATGGATGGCTGTATACGGGCGATGTCGTAACCATTGATGAGGAAGGGTTCGTGAAAATTGTTGATCGAACGAAAGATTTAATAAAAAGTGGTGGAGAGTGGATTTCATCGGTAGATTTAGAAAATGCACTAATGGCTCACGAAGCAGTGTATGAGGCTGCTGTTGTATCCGTTCCTCATGAAAAATGGCAAGAACGTCCAGTTGCTTGTGTTGTATTAAAAGATGATTATAGAAGCGTTGTAGGTCAACAGGATTTATACGCATTTTTAGAAGCACAATTTGTAAAATGGTGGCTGCCTGATGACATTTTATTTATGGATGCGTTACCAAAAACATCTGTAGGTAAATTTTTAAAAACAGCTTTACGAGAAGAAGTGAAACAGCAATTAACGAAAGAATTTTAA MMDSPLLITSLIERAENYFPNKEIISRTQKYMHRLTYKELGGRVRALAHALKELGIQKGDRVGTFAWNHHRHLEAYFAVPSIGAILHTINIRLSAEQLGYIINHAEDKVILVDEELLPAIESIFDQLETVETIIVMTDEEVVPASKLPSLLHYEQFLEDGDATFAFKKDMEEEEAAELCYTSGTTGKPKGVVYSHRGLVLHAMALSLADTSAVSEEDVSMPVVPMFHANAWGMPHAATWMGAKQVLPGPYPTPEILARLIETEKVTITAGVPTIWLGLLKELDKKTYQLDSLRGILCGGSAAPFGMIKAFEMKHKIPFFHAYGMTETTPLALFSKLKSSQKQLSEMDKLDIKSKQGMAVPGIEIKAINENGDIKRDGREMGELLIRGPWIADSYYKDDRSDNSFLDGWLYTGDVVTIDEEGFVKIVDRTKDLIKSGGEWISSVDLENALMAHEAVYEAAVVSVPHEKWQERPVACVVLKDDYRSVVGQQDLYAFLEAQFVKWWLPDDILFMDALPKTSVGKFLKTALREEVKQQLTKEF PGPT0002895_482 DIRECT EFFECT BIO-FERTILIZATION SULFUR_ASSIMILATION|MINERALIZATION S-ASSSIMILATION-SULFUR_METABOLISM S-METABOLISM-DMS_DEGRADATION,PGPT0002895-dmdB-K20034 NA NA AK015_00179 1479 yhdG_1 COG0531 putative amino acid permease YhdG ATGGAAAATCGAGAACAACTAACCAAATCCCTTAAACCTCATTGGGTATGGGCAATTGCTTTTGGTTCAGCAATTGGATGGGGAGCCTTCGTATTGCCAGTAGATTGGATGTCTATGGCTGGTCCGTTAGGAGTCATCCTCGGCTTTATCATTGGTGCCATTTTAATGATTATTATAGGAGTAAGTTACGGATTTCTTGTAGAAAAATTACCCGTCTCAGGCGGAGAGTTCACCTACGCTTATTATGGACTAGGAAGATACCATGCATTTTTATGCGGTTGGTTTCTTACATTAGGATATTTGTCTATCGTCGCTTTAAATGCGTCTGCTTTAGCATTACTTGGTAAGTTTTTATTTCCAACTTTTGTGGAAACAGGATTATTATACAGCATTGCAGGTTGGGACGTATATGCTATCGAGGTTATGATTGCCTGCATAGGATTAACAATTATTGCTTGGTTAAACATACGTGGAGCAAGAATTACTGGTTTTAGCCAATTTTTATTTTGTATCATTTTACTTAGTGGCGTGTTATTGCTTACCATTACTATGTTATTCCATTCTTCTAGTTCCTTTTCCAATTTACAGCCATTGTTTAAGCCAGAAATTGGCGCTGCTTCTTCCATCTTTGCTATCGTAGCCATAGCTCCTTGGGCATTCATCGGCTTCGACAATATTCCTCAAGCGGCTGAAGAATTTCATTTCTCCCCTAAAAAAACGTTTAAAATTATTGTTCTTGCACTTGTTTGCTCTGCTTTTGTCTATTGTTTAACCATTATTGCAACTGGTGTGAGCGAACCATGGGCTAATGCTTCGCAAGTTGGCTCTGCTTGGGGAACGGGGACAATTGTAGAAAATGCTTACGGTAAGTTTGGTGTATTCTTACTAGCCATAGCACTTATTATGGGGATCTTTACTGGGTTAAATGGCTTTTATATGTCTACTAGTCGCCTACTATTTGCCATGGGCAGGGCAAAAGTTTTACCTGCTATTTTTGGTAAATTACATACCAAACACCGCACCCCACATGTTGGTATAATATTTACTTTATTATTAACAGCTGCAGCGCCATTCTTTGGACGAGAAGCCTTATTATGGGTTGTTGATATGTCAGCACTTGGTGTGACCATTGCCTACTTTTATGCATGTTTTGTTGCTTACCGAATATTTGCTTGGTCTCGTACACATATTAAAAATAACAAACAAATTGTAGCACCAAAGAGAAAATTTTTTTCCTTTTTAGGCATACTTTGTGCAATAACATTTTTTCTATTATTAGTTGTTCCTGGCTCACCTGGATTTTTAAGCACACCTTCATGGATTGCTTTGTTGGTTTGGATCCTACTTGGAATTATTTTTTTCCTTATCCGTTTTCAAGTTTATTCAAGACTATCTCAACACGAACTAGATTATTCTATTTTAGGAACGGAATATATTGAAAAACAAACAGAGCCAGCTATTGAAAAGAAATTACCCTAG MENREQLTKSLKPHWVWAIAFGSAIGWGAFVLPVDWMSMAGPLGVILGFIIGAILMIIIGVSYGFLVEKLPVSGGEFTYAYYGLGRYHAFLCGWFLTLGYLSIVALNASALALLGKFLFPTFVETGLLYSIAGWDVYAIEVMIACIGLTIIAWLNIRGARITGFSQFLFCIILLSGVLLLTITMLFHSSSSFSNLQPLFKPEIGAASSIFAIVAIAPWAFIGFDNIPQAAEEFHFSPKKTFKIIVLALVCSAFVYCLTIIATGVSEPWANASQVGSAWGTGTIVENAYGKFGVFLLAIALIMGIFTGLNGFYMSTSRLLFAMGRAKVLPAIFGKLHTKHRTPHVGIIFTLLLTAAAPFFGREALLWVVDMSALGVTIAYFYACFVAYRIFAWSRTHIKNNKQIVAPKRKFFSFLGILCAITFFLLLVVPGSPGFLSTPSWIALLVWILLGIIFFLIRFQVYSRLSQHELDYSILGTEYIEKQTEPAIEKKLP NA NA NA NA NA AK015_00180 486 hypothetical protein ATGAGTATACCAAAAAATAAATATGTCAAATATGGTCTGATCCTTCTCTTAAGTGTAGCATTAATTTTGTTTACAATGGAAATTAAATTGATAAAAAACCCTGAGTCAACGCCTATAACAACGATGACCTTTGCTGGTCTTGGTGTATTGTGGCTATTTTCAATGATTGGTATTTTCATTTCTACTATTATGCAGAAATCCTCGGTGAAATTTATTCGCAATTTCCCGATCTTAGGCTGGGTTTCGATTACCTCGCTTTTATTATGTTTACTATCCGATTTTTTTGTCCAAGCAATTCAAGCAGTTGACTTTCTTTCAATAACTACACCAATATTAACCTTTGCGGGTATATCTGTTGCAAATCGTCTTGTTGATTTACGAAATACTTCATGGAAAGTTGCAATCGTAGCCGTCTTTGTTTTTACAGGAACATATGCAGGCAGTGCCTTACTTGCACAGATTGGCTTGCATTTATCTGGAAATTAA MSIPKNKYVKYGLILLLSVALILFTMEIKLIKNPESTPITTMTFAGLGVLWLFSMIGIFISTIMQKSSVKFIRNFPILGWVSITSLLLCLLSDFFVQAIQAVDFLSITTPILTFAGISVANRLVDLRNTSWKVAIVAVFVFTGTYAGSALLAQIGLHLSGN NA NA NA NA NA AK015_00181 792 hypothetical protein ATGAACAAAAACTTACTTTTTTTAATCGCTTTTGCATTAGTTATTATTACCATCTCCGAATTAATAGGTTTTCAAGCTATACCATTAGGACCGTTTACAATTGGACTACTTCCTTTAGTTTTTGCCATTATATTAACGATGTTCTTAGGTCTGAAATTATTTCGTAAAGGAATCATGAAAAAAATATACAGTGAAAAGAACATTCATTTTGCTAGCACATACCTGATTTTAATTATGCTCCCTTTAATGGCACGATACGGAGCGGATGTCGCACCACAAATTAGAGACATCTTGCAGGTCGGTTGGGTATTTGTTATTCAAGAACTTGGTAATTTAGGAACGGTGTTCATCGGGTTACCAGTTGCTATTTTGTTAGGTTTACGCCGAGAAGCAATTGGTGCTACGTTAGGAATTGGCCGTGAGGGAGAGCTTGCATATATTTCAGAAAAGTACACATTGGAATCTAAAGAAGGTCGGGGCGTTCTTTCCATCTACATTATTGGAACATTATTTGGGGCTATCTTTTTTAGCGTTTTTGCACCAATTTTACTCGATTTAGGAATCCAAATTGAAGCACTAGCTATGGCATCTGGTGTTGGTTCAGGCAGTATGATGAGTGCAGCATCAGCAACATTAGTCGCGCGCATCCCTGAAATGGAAAGCACCATTCTTGCATATGCTTCTGCCAGCCAACTTCTCACTAGTTTTCTTGGCACCTTTACAATGGTATTTTTAGCTGCGCCTATTCAAGCATTTATGTATAAGAAACTAGTTCGAGGTGATAAAAAATGA MNKNLLFLIAFALVIITISELIGFQAIPLGPFTIGLLPLVFAIILTMFLGLKLFRKGIMKKIYSEKNIHFASTYLILIMLPLMARYGADVAPQIRDILQVGWVFVIQELGNLGTVFIGLPVAILLGLRREAIGATLGIGREGELAYISEKYTLESKEGRGVLSIYIIGTLFGAIFFSVFAPILLDLGIQIEALAMASGVGSGSMMSAASATLVARIPEMESTILAYASASQLLTSFLGTFTMVFLAAPIQAFMYKKLVRGDKK NA NA NA NA NA AK015_00182 1287 N-acetyldiaminopimelate deacetylase ATGCAATTTAAACAACAATATGAAGCCATAAAACAGGTCGCTGAGGATATTTATTACCATCCTGAACTTGGATATAAAGAAAAACGTACAAAAAAACAAGTCATTGATTATTTAAAGGCAGTAAACCCTAATATTGACATTGAAAATTTTAGTTTAACTGGTTTTAAGACAAGCTTAGGAACTAAAGGAACAGATGATTTACACATTGCTTTTATCGCTGAATTAGATGCAGTCTATGCACCTACCCATATGTATGCTGATGAGCAAACAGGAGCAGCCCATAACTGCGGTCATTACTCACAAATAGCGATAGCTCTAGCACTCTATCAATATTTCTTTAAGACAAAAGCATATAAAAATTTAGATTTCAAACTAACATTCGTTTTTGTACCCGCAGAAGAATACTTAGATTTAACCTACCGTCAGCAATTGTTACAAGAAGGTCAAATTAGTCATTATGGTGGGAAACCAGAAGCTATGAAACTAGGTGTTTTTGATGACATCGACCTAAGTATATGTGTGCATGCCATTGGCGGAGAATTTTCTAAACGAACCATTGAAATGAATTGCGATTTAGCTGGTTTTTTATACAAAAAATACGCTTTTGAAGGTAAAGCTACACATGCTGGATTTGATCCATTTTCTTCTAAGAATGCGTATCATATGTCGACGCTGTTTAATACTGCAATCGGACTTAGTCGTCAACAATTAAAAGAGTCAGAGCATGTTCGAATTAATCCAATCATTATGGAATCGGATATGTCTACAAATGTTATCCCTAATCACATCGTAGTAGGAACAGACTTGCGAACCAAATCTGTAGACTATTTAAAAGAGACAGCGGAAAAATTGGACGATGCGGCGAAAGGAAGTGCCATGGCTCTACAAGGAAATGTAACGATTGATACACAAATGGGCTATTTACCATTCGTACAAGATAGGTATCTATCCACATTTGTTGAAGCAGCATTCCATAAAAACACTGAAATTGATGAAATACTAAATGGTAACTTTATTAGCGCTGCAGGGGATATAGGCGACCTTTCCTTTATAATGCCATGTATACAAATTGGCTATAGCGGCTTTACCGGAACCATCCATGGAGATGACTTTATAGATGTCGATCCTACGTTTATTTACGAGATATTTCCGAGATTTTTAGCACAAGTACTGGAACAAATGAGTGGAAGCATTGACAAAGCAAAGCTATATAAACAAAGCTATAAAGCTTATCAAGAACTAATCGCTTCCATTGTTCAAAATAACTCCAACCCAACAAAGAAATGA MQFKQQYEAIKQVAEDIYYHPELGYKEKRTKKQVIDYLKAVNPNIDIENFSLTGFKTSLGTKGTDDLHIAFIAELDAVYAPTHMYADEQTGAAHNCGHYSQIAIALALYQYFFKTKAYKNLDFKLTFVFVPAEEYLDLTYRQQLLQEGQISHYGGKPEAMKLGVFDDIDLSICVHAIGGEFSKRTIEMNCDLAGFLYKKYAFEGKATHAGFDPFSSKNAYHMSTLFNTAIGLSRQQLKESEHVRINPIIMESDMSTNVIPNHIVVGTDLRTKSVDYLKETAEKLDDAAKGSAMALQGNVTIDTQMGYLPFVQDRYLSTFVEAAFHKNTEIDEILNGNFISAAGDIGDLSFIMPCIQIGYSGFTGTIHGDDFIDVDPTFIYEIFPRFLAQVLEQMSGSIDKAKLYKQSYKAYQELIASIVQNNSNPTKK NA NA NA NA NA AK015_00184 1437 Nucleobase transporter PlUacP ATGGGACAATCAACTAGACAAAGGGGACAACAAAGAATGAAATCGTTACTCGAAGAAGACCAATTTCAGCGTAATCAACATCTATCTAAGCAAGAAAGACCACGAGTTTTAAAGTCACTTATGATTGGTTCACAGCATGTTTTAGCAATGGATTTGTTTATTCCACCTATTATTTTAGCTGGGCTTCTGTCGCTTTCTGTCGCAAATACAGCATTACTTATTCAAATGACATTTCTAGCTTGTGGTATTGCTACGGTGATACAAGCAGGGTTTGCAATGAAGCTACCTGTTATGCAGGGCCCTTCTTTTATACCATTGAGCGCTTTAGCAGCAATTGGAACTACCTCTGGACTAGGCGCTATGATTGGTAGCTTGATTCCTGGGGCCATATTGATTGCTTTGTTAGGCTATCCTTTCCGAATATTCAGTAAAATAATTCAATCTTTTATACCGAAACTTGTTGCTGGAACAGTAATTATTGTGGTGGGTGTTGCATTAATGCCAAGCGCCATTCAATCAATTTATACTGCTTCAGGTCATTTTGGCACGAATGTTTTCATTGCTGCTTTGAGTATGGGAGTGTTAGTAGTATGTATTTATATAGGAGAAACATTTATCAGTTTTAAGTTTGTGAAATTGTTTTCAGTTATTCTCGCCTTAACTATAGGCACAGTCGTAGCTTCATTCTTTGGTATGTTGGATTTTTCATCGGTGTATACAGCTAAGTGGTTTGCAATGCCACATCTTTTTGCTTTCGGTGTCCCCACCTTTGAATGGGAAGCGATTATGATTGTGACTTTTCTTTATTTTATTATTATGATTGAAACAACAGGCACCTGGTTTACCGTTAGTAATGTGACTGGACAGCCTCTTGATGATAGACGTTTAAATGGCGGAGCATTAGGAGAAGGTATTGGCTGTTTAATAGGCGCTTGCTTTGGTGGTACATCTGTTACTGGCTATTCTTCTAATGCTGGGGTAGTAGCCATTACTGGTGTGAAAAGCCGTTATCCGGTGATAGCTGGAGGAATTATTTTAATTGCATTAAGCATGATGCCTAAAATAATGAATGCTATTGCCAGTATCCCGGCTCCAGTTGTTAACGGTGTGTTCGCTTTAGTCTGTGTCGTCATTATGATGAACGGATTTCGAGTGGTAAAAGATATCCCGTTTTCTGAACGAAATATGTTAATGATTGGCATCCCAATTATGTTAACGTTGTTTACAATATTTTTACCAGCTGAAATTATTGAAAAAATGCCAGACATAATTCACTATTTATTATCTTCAGGAATGGCGGTTGGGGTTTTAGCAGCAGTTATATTAAATAAACTGCTACCTGAAAAAACAAATCATATAATACGAAATGTAAATAATAAACCATTAACAAATCATGTAGATAAACATTATGAAACGATCACTGGAGGAAAAAGATGA MGQSTRQRGQQRMKSLLEEDQFQRNQHLSKQERPRVLKSLMIGSQHVLAMDLFIPPIILAGLLSLSVANTALLIQMTFLACGIATVIQAGFAMKLPVMQGPSFIPLSALAAIGTTSGLGAMIGSLIPGAILIALLGYPFRIFSKIIQSFIPKLVAGTVIIVVGVALMPSAIQSIYTASGHFGTNVFIAALSMGVLVVCIYIGETFISFKFVKLFSVILALTIGTVVASFFGMLDFSSVYTAKWFAMPHLFAFGVPTFEWEAIMIVTFLYFIIMIETTGTWFTVSNVTGQPLDDRRLNGGALGEGIGCLIGACFGGTSVTGYSSNAGVVAITGVKSRYPVIAGGIILIALSMMPKIMNAIASIPAPVVNGVFALVCVVIMMNGFRVVKDIPFSERNMLMIGIPIMLTLFTIFLPAEIIEKMPDIIHYLLSSGMAVGVLAAVILNKLLPEKTNHIIRNVNNKPLTNHVDKHYETITGGKR NA NA NA NA NA AK015_00185 1362 atzA Atrazine chlorohydrolase ATGAAACAAACACTTTTAAAAAATGGATATATTATTTCAATGAATGCAAATAGAGAAGTATTTGTTCACGGAGATGTTCTCATTGAAGGCAATACAATCAAAGCAGTTGGGCATGTTACAAAAGACAGCATTCACGATGATGCCGATGTAGTAGACGTTACTGGGAAAATGGTTATGCCAGGTCTTATCAATACGCATGTTCATTTGTCACAACAACTAGGTAGGGGCATTGCAGATGATGTGGATTTACTAACATGGTTGCGTAAACGAATTTGGCCATATGAAAGCAGTATGACAGAGGAGGAAGCGTATATTTCAGCCCTTGCTTGTAGTATTGAACTTATTAAATCAGGTGTTACGACTTTGGCTGAAGCTGGCGGTCATCATGTAGATGCATTAGGAAAAGCGGTCAAAGAAGTTGGACTTCGGGCTATTTTATCACGCTCAACCATGGATATGGGGGAAGGATTGCCATTAAATTGGCAGGAAACAACAAATGATGCATTGAAAAAACAAGAAGCACTTATAGAGAAATGGCATCATACTTCTGACGAGCGAATTAAAATGTGGTTTGGTTTACGTACTATATTTAATTGTTCTGATGATTTAATAAGACAAACAAAACAATTAGCTGATCAATATGGAGTTGGTATTCATATGCATGCAGCAGAAATAATGGATGAAATTCGTTATACAAAGGAACAACGTGGTGCTTCAACTATTGAGCATTTACATAAACTTGGTTTATTGGATGAAAACTTGTTAACAGCACATATGGTTTGGCTAACAGATCGAGAAATGGATCTTGTGATGTTACATAACGTTAAAGTTTCCCATAACCCAGGTGCAGCAATGAAGGTGCTCGGTTTTGCCAGAATTCCAGAAATGCTGGAAAAAGGAATCGGTGTGTCCATTGGTACAGATGGCGCGCCCGCAAATAATCGTATGGACATGATGGACGAAATGTATGTAACATCACTCATACATAAAGGAAGAACATTGGATACAACGACTGTTCCCGCTGAGCAAGTCCTAGAAATGGCGACTGTAAAGGCAGCGAAATGTTTATTGTGGGATAGGGAGATTGGTTCATTGGAGCAAGGAAAAAGGGCTGACCTCATTATTATTGACCCTAAACAAATAGGAAGTTTCCCCATGCATGACCCGATTGCCAATATCGTTTATTCCATGCATGCAAGCAATGTAGAGTCTTCCATGTGCAATGGGCAATGGTTAATGAAAGATCGAAACATTTTAACCGTCAATGAAAATGAAATAATAGAGACAGCTCAGCAATTGGCGGAAGGTGTTGTGAAACGTGCAGGCATCCATTTAAAGGAACGCTTCCTGCATGTAAGGTAA MKQTLLKNGYIISMNANREVFVHGDVLIEGNTIKAVGHVTKDSIHDDADVVDVTGKMVMPGLINTHVHLSQQLGRGIADDVDLLTWLRKRIWPYESSMTEEEAYISALACSIELIKSGVTTLAEAGGHHVDALGKAVKEVGLRAILSRSTMDMGEGLPLNWQETTNDALKKQEALIEKWHHTSDERIKMWFGLRTIFNCSDDLIRQTKQLADQYGVGIHMHAAEIMDEIRYTKEQRGASTIEHLHKLGLLDENLLTAHMVWLTDREMDLVMLHNVKVSHNPGAAMKVLGFARIPEMLEKGIGVSIGTDGAPANNRMDMMDEMYVTSLIHKGRTLDTTTVPAEQVLEMATVKAAKCLLWDREIGSLEQGKRADLIIIDPKQIGSFPMHDPIANIVYSMHASNVESSMCNGQWLMKDRNILTVNENEIIETAQQLAEGVVKRAGIHLKERFLHVR PGPT0023665_903 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960 NA NA AK015_00186 1008 ndmA Methylxanthine N1-demethylase NdmA ATGAAAAAAGATCGATTATGGCAGGAGTGGCATCCAGTTTTAAAGGAAACGGAATTACACGAAGATCCAAAGCAAGTTCACATTCTTGGAGAAAGAGTAGTTTTATTTCGAAATCAAAAGGGAGTTCATGCATTTAAGGATTTATGCATTCATCGAGGTGCAGCATTGTCTTTAGGGAAAGTAAAGAATGGGAATATTGTTTGTCCATATCATGCTTGGGAGTACAATGATGAAGGGATATGTGTAAAAATACCTGCCCTACCATGCGAGCGTGCCATTCCACAAAAGGCGAAAGCCACGGTATATCATTGTCAAGTGTATGCGGGATTAATTTGGGTAAACTTAAGTGAACAGCCTTTACCATTATTAAACTATCCAGAATATAGTAGAGAAGGATATCGGACTGCTATTTGTGGCCCTTATAAAGTGAGTGCTAACGCACCTAGAGTCATTGAGAACTTCCTTGATATTTCGCATCTTATGTTTGTTCATGGTGGTTTATTGGGAGATGAGGATCATGCTGAAGTGCAAAATTATGATGTTACGTTTGTTGATGGTCGTTTTATCACAAGTGAAATACCAATCTATCAGCCCAATCCAGATGGTCGTTCAGTAGGTGGCTATACGGACTATGTATATGAAATACTTAATCCTACTACAGCTCGTTTTACCAAATCAGTTGAGGGTTCAAGTGAAGAATTCATCGTCCTCATTACAGTCGTACAAGAAGCGGATGAACAAACAAAGGTGTTTATGCTATTAACTAGAAACTATGATTTAGATAAGCCGGATGAACCATTTGTGGAGTTTCAAGATCTAATATTTAAACAAGATTTAGATGTGGTTGAAAGCCAGAAGCCTGAGTTATTGCCGTTAGATTTGCAAGCCGAAATGCATTTGAAATGTGATGCTTTAACCATTGCTTATCGTCGCTGGTTAGATGAACTTGGCATAGAAACCGGAACTACTCCTAATTATCGAAAAAAGCGTGAAATAGTACCATCTTAA MKKDRLWQEWHPVLKETELHEDPKQVHILGERVVLFRNQKGVHAFKDLCIHRGAALSLGKVKNGNIVCPYHAWEYNDEGICVKIPALPCERAIPQKAKATVYHCQVYAGLIWVNLSEQPLPLLNYPEYSREGYRTAICGPYKVSANAPRVIENFLDISHLMFVHGGLLGDEDHAEVQNYDVTFVDGRFITSEIPIYQPNPDGRSVGGYTDYVYEILNPTTARFTKSVEGSSEEFIVLITVVQEADEQTKVFMLLTRNYDLDKPDEPFVEFQDLIFKQDLDVVESQKPELLPLDLQAEMHLKCDALTIAYRRWLDELGIETGTTPNYRKKREIVPS NA NA NA NA NA AK015_00187 159 hypothetical protein TTGGGGAAGCAACTGTTAGCACATATAGCCTTACTTAGAAATGCTACTACAGACCAAAAGTTTATCATTGATGATCAATACCTTGTGCGTGCCTTTTCAAGTGAACAATCGTCAAATAGGCAAGCGGAATTTCATACACTTGCAAAGCTTTCTCCTTAA MGKQLLAHIALLRNATTDQKFIIDDQYLVRAFSSEQSSNRQAEFHTLAKLSP NA NA NA NA NA AK015_00188 1050 gutB_1 COG1063 Sorbitol dehydrogenase ATGAAAGCAGCAGTATGGTATGGACAAAAAGACATTCGCGTAGAAGAAAGAGAACAAAAACCATTAAAAGACACAGAGGTTAAAGTAAAGGTTGCATGGGCTGGTCTATGCGGTAGTGACTTACATGAGTATGAAGAAGGTCCAGTATTTATTCCAACAGAAAAAGAAGATGAATTAGCTGGTGGTATTGCGCCGCTTACCATGGGGCATGAATTTGCTGGTGTCATTGAAGAAGTTGGGGCAAAGGTAACAAACTTCAAACCAGGCGACCGCGTAGCTGTAAATCCAACTATTACGCATGGCGACAAATCAGAAGATCTTGATCCATATGATGGTTTTTCTTTTGTAGGCTTGCACACAGATGGTGGATTCACATCTTTTGCCAATGTTCCAGAAAACAACGTGTATCTTTTACCAGAACCATTAACTTTACAAGATGGGGCATTAATTGAACCTACAGCAGTAGCAGTTCAAGCTGTGAAAGAAGCTGGCATGCAATTTGGCGACACTGTTGCAGTATTTGGTGCTGGTCCAATTGGTTTGTTAACCATCCTAGCAGCAAGAGCAGCTGGAGCAAGCAAAATTATCGCATTAGACTTATCTGAAACACGTTTAGAAAAAGCAAAAGAAGTTGGTGCGACACACGTCATTAATTCAGGGGAAACAGATCCAGTAAAAGCTGTTTTCGATATCGTACCTGAGGGTGTCAATGCTTCATTTGAAGTTGCTGGTGTAGCGCCTACTTTCAAACAATCTATTGAAGTAACAAAACCACGTGGAACGATGGTCATCGTTTCTATTTTTGCTAGACCAATTGAGTGGAACCCAATGCAACTAACTGGAAAAGGTGTGAAAATCACTTCTACTATTGCGTACACGCCAACATCTTTCCAACAAACAATCGACTTAATGGCAAGTGGACAATTAAAACCACAATCCATTATTACTAACCAAATTCAATTAGATGACATCGTAGAAAAAGGATTTGAATTATTATCTACAGATAAGTCTCAAGCTAAAATTTTAATTGAGCTAAGTGGCGAAAAATAA MKAAVWYGQKDIRVEEREQKPLKDTEVKVKVAWAGLCGSDLHEYEEGPVFIPTEKEDELAGGIAPLTMGHEFAGVIEEVGAKVTNFKPGDRVAVNPTITHGDKSEDLDPYDGFSFVGLHTDGGFTSFANVPENNVYLLPEPLTLQDGALIEPTAVAVQAVKEAGMQFGDTVAVFGAGPIGLLTILAARAAGASKIIALDLSETRLEKAKEVGATHVINSGETDPVKAVFDIVPEGVNASFEVAGVAPTFKQSIEVTKPRGTMVIVSIFARPIEWNPMQLTGKGVKITSTIAYTPTSFQQTIDLMASGQLKPQSIITNQIQLDDIVEKGFELLSTDKSQAKILIELSGEK PGPT0008200_718 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 AK015_00189 882 dapA_1 COG0329 4-hydroxy-tetrahydrodipicolinate synthase ATGAATTTTGGCCAAGTTATCACTGCAATGGTAACACCATTTGACAACAACGAAAATATTGATTTTTATGCCGTTGAAAAACTTGTCAACTACTTAATTGAAAATGGATCGGATAGCTTAGTTATTGCTGGTACTACTGGAGAATCACCAACGTTAACCAATGATGAAAAAATAGCTTTATTTAAACATGTAGTTACAGTTTCTAAAGGACGAGCAAAAATAATAGCCGGAACAGGTTCTAATAATACGAAAGCTTCCATTGAATTAACCAAGCTGGCTGAAAAAACTGGTGTCAACGCAATTATGCTTGTCACCCCTTACTACAACAAGCCTTCTCAAGAAGGTATTTATCAGCATTTTGCTACGATTGCTAACGCAACACATTTACCAATAATGCTTTATAACGTACCTGGCAGAACTTCTGTCCAAGTGGAAGCGGATACGATCAATCGTCTTTCCAACATAGAGAATATTGTATCGGTTAAAGAAGCAAGTGGTAATTTAGATCAAATGACAACCATAATCTCTAACACTCCAGATAGTTTCACTTTATACTGTGGAGATGATAGCTTAACGCTACCTGCCATTGCCATTGGTGCAAATGGCATTGTATCCGTTTCCTCTCATATTATTGGTAACCAAATGCAGGAAATGATCCAGCACTTTAGAAATGGTGACATCACCACAAGCGCAAAATCGCACCAAAAATTACTGCCAATAATGAAAGCAATGTTTGCTCAGTCAAGTCCGGCTCCGGTTAAAAGTGCTCTAAATATGCTAGGCATTACGGTTGGAGATGTCCGTCTACCAATACAGAACTTAACAAAAATGGAATGGGATACACTAGAACAACAACTTACTGCCACTGGTATTTTAAAATAG MNFGQVITAMVTPFDNNENIDFYAVEKLVNYLIENGSDSLVIAGTTGESPTLTNDEKIALFKHVVTVSKGRAKIIAGTGSNNTKASIELTKLAEKTGVNAIMLVTPYYNKPSQEGIYQHFATIANATHLPIMLYNVPGRTSVQVEADTINRLSNIENIVSVKEASGNLDQMTTIISNTPDSFTLYCGDDSLTLPAIAIGANGIVSVSSHIIGNQMQEMIQHFRNGDITTSAKSHQKLLPIMKAMFAQSSPAPVKSALNMLGITVGDVRLPIQNLTKMEWDTLEQQLTATGILK PGPT0002080_7018 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714 NA NA AK015_00191 543 hypothetical protein TTGAAATTAAAATCCTTACTACTCTTCTTGCTACTATCACTATTCGGACTAATACTAGTTGCATGTAATAACGACGATACGACAAGTGAAACTGAAGAGAATAGTGATAAAGTAGACGTTAAACAGTTAGTAAACGATTACAGCACGGACAAAAAAAAAGCAGAATCAGCTTCGATTACAGGTGAAGAGCTAGTTGTAAATACTACAGCTGGAAAAGAAAAAAGCTATGAACTCCCTAAAGATGAATTTTTCGTTTCTATTGCTCCATTCGTAGAACAAACGCATCCTTGTACTTACCATAGTTTAACAGGATGCCAAGGCGAAATGGTAAAGAAAGAATTCGATGTATATATTGAAGATGAAGATGGTAATGTCGTTGTCGATGAAAAAGTAATGTCTTTGGCAAATGGTTTTATTGACTTATGGGTTCCTAGAGACAAAAAATACCATATAACAATAGAGCATGATGGTAAACAAGTTCAATCTGAATTTTCCTCTTATACAGAAGACCCAACCTGCCTCACTAATATGCAATTAACGTAG MKLKSLLLFLLLSLFGLILVACNNDDTTSETEENSDKVDVKQLVNDYSTDKKKAESASITGEELVVNTTAGKEKSYELPKDEFFVSIAPFVEQTHPCTYHSLTGCQGEMVKKEFDVYIEDEDGNVVVDEKVMSLANGFIDLWVPRDKKYHITIEHDGKQVQSEFSSYTEDPTCLTNMQLT NA NA NA NA NA AK015_00192 1038 pgl_1 COG2706 6-phosphogluconolactonase ATGAAAAATAATTTTCTTGGATATGCAGGGACGTACACGCGTAATACAAGTAAGGGTATCTATCGTTTTGAATTAGATCCAAAAGCGAAAAAAATAACAGCAGTTGAAGTAGCCGCTGAAGTTGGGAGCCCAACGTATGTAGCCGTTAGTGAAGATAACCGTTACTTGTTCTCCATTGGACAAGACGGAGATTTAGGCGGTGTACAAGCTTATCAAATAAAACAAGAAACAGGGGAACTAATAAAAATAGATGAACAACTAACAGAAGGGAAATCCCCATGTCACTTATCCATTTATGACAATCAAATAGTTACTGGTAATTACCATAGAGGCGAGGTAGTTTTATACGCTTTTGAAGATAACAAAGCATTAGTAACTGCGTCCGCTATACAACATAACGGTGATGGTCCTCATGAGCGTCAAGAAAAATCACACGTTCATTTTGCTGGATTTACGCCAGATCATAACTATGTAGTCGTTTGTGATCTAGGTACAGATGAGCTAGTAACCTACCGTATAGAAGATAATAAACTTGTTCGTCATCAAACACGAACCGTAAAACCGGGAAGTGGTCCAAGACATATTGTATTTCATCCCAATGGGAAAACAGCGTATTTACTTACGGAGCTTAGTTCAGAAGTAATTGTTCTAGATTATGATGCACAAACAGGAAGTTTTTCAGAAAAGCAAACCGTGCTTGCGAAACCAGCAGATTTCACAGAAACAAACGATGCTAGTGCGATTCATATCTCGTCAGACGGAAAATTTGTTTACACTGGTAATCGCGGTCACAATAGTATCGCGCTATTTGAAGTAGATGCAGAAACAGACGAATTAACCTTTATAGAATTTACTGCAACAGGCGGAGAGTGGCCACGTGATTTTGTATTAGATCCTAGTGAGTCCTTCATTGTTGCTTCCAATCAGCATAGTGGAAACTTAGTTTTATTTGCACGCGATCAAAAGACGGGAAAATTAACACCAATGGATTCTACTGTCGAAGTTCCTGAAGTAGTCTGTGTGAAATTTTTAAACTAG MKNNFLGYAGTYTRNTSKGIYRFELDPKAKKITAVEVAAEVGSPTYVAVSEDNRYLFSIGQDGDLGGVQAYQIKQETGELIKIDEQLTEGKSPCHLSIYDNQIVTGNYHRGEVVLYAFEDNKALVTASAIQHNGDGPHERQEKSHVHFAGFTPDHNYVVVCDLGTDELVTYRIEDNKLVRHQTRTVKPGSGPRHIVFHPNGKTAYLLTELSSEVIVLDYDAQTGSFSEKQTVLAKPADFTETNDASAIHISSDGKFVYTGNRGHNSIALFEVDAETDELTFIEFTATGGEWPRDFVLDPSESFIVASNQHSGNLVLFARDQKTGKLTPMDSTVEVPEVVCVKFLN PGPT0014975_1811 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 AK015_00193 1647 ilvI COG0028 Acetolactate synthase isozyme 3 large subunit ATGTTAACCGTTGCAGCTCAAATCGTAGAAATCTTAAAAGCACAAGGCTGCCAGTATGCCTTTGGAGTTCCAGGTAAGCCTATTGTGCCGCTCATTTTAGAAATGGAACATCACGACATGGATTTTGTATTAGCACGACATGAATGTAGTGCTGGTTATATGGCAACAGGCTATGCCTTGAAAAATGATAGTTTAGCAGTTGCTATTGGTACATCAGGTCCTGGAGGAACGAACCTTCTTACAGCCGCAGCACAAGCAAAAGCATATCATGCACCTGTCTTGTTTATTACTGGTCATCCACCATTAACGGATATGGGGAAGCCAGTTGGTCAAGACTCAAGTATGTTTGGTACGGATTTAACAGAAATGTTTCGTTCTGTAACGTTGTTTAGCGCAAAGGTAGAGGATGCAAACCTGTTAAAAAAATATATTCAGTACGCTTTAGAACGAGCCTTGCTTGGAGAAAAAGGGCCAGTACATTTATCCATTCCCCTAGATGTACTTATTAATAAGATAGCCCCATTCTCATCGCCTATAAAGCTAATAAATGATACTCCTATTTCAGGGAATCTGAAGCAAGCAGCCCACATATTGCAAGATGCGAAACGTCCTGTTTTATTGTTAGGAAAAGGGGTTCACATAGCTAAGGCTTACCGAGAAGTAATGCAGTTTAGTGAAAAATGGAATATTCCGGTCATGACCACACCAGGAGGTAAAGGCACATTTCCCACAAAACATCGACTTTCATTAGGGGCGTATGGACTAGGTGGGACTGAAGCCGCTACTGCTTATATGGCTGAGGGTGTAGATGTGATGGTTGTTATTGGATCTAAGTTGACGGATATGTCAATAGCTGGATTGGCAAGTGAACAATACCCTAAAACAATGATTCATTTTGATCAACAGGCTGATTTTATCGGAAAGTCTATTTTAGTAGATACTGTATTTGTTAAAGGAGATGCAAAGAAGAATCTTCAGCAGTTAAATACGAACTATTCTTCAAATAGGGAAACGCCCAATTTAAAGCCGTATTGGAAAAAAGAAATACTTGATTTAGAAGAAAAGAAAAAAGACCAAGCTCCATACCAAAATTTATCTACAGCAGAAGTTATGAAATGTTTAAGAGCCGTATTACCTGAGGAGACCGTTGTATTTGGAGATGATGGTAGCCATACTTTCTATGCTATTAAATATTTTGATATTGTAAAATCTGGTACTTTCTTTTTTGACGATGTATTTGGTGCAATGGGGCACGGGCTTAATTTTGCAATCGGAGCAAAAATAGCTACAAAAGAAATACCTGTTGTTAGTTTTACGGGTGATGGCTGTGTGATGATGCAAGGAACGGAAATATCGACAGCTGTAAACCAAAAAATACCAATGATTTTCTATGTGTTTAATAATGGCATGCTTGACATGGTAGATAAAGGCATGCGTTATAACATTGGTAAATCAGCAGGAACAAGGTATACGACTGCAATGAATGCGACATTGTTTGCTGAATCTCTAGGCGCAATCGGTTATCGTTGCACAAAAATGGAAGAAATTGTCGAAGCAACTGAAATAGCGTTAAAAGAACGACAAACAGCAGTTATTGAAATCCTAGTGGAAAAAGAGGAAGTCCCTCCAACATTAAAACGTGGGTAA MLTVAAQIVEILKAQGCQYAFGVPGKPIVPLILEMEHHDMDFVLARHECSAGYMATGYALKNDSLAVAIGTSGPGGTNLLTAAAQAKAYHAPVLFITGHPPLTDMGKPVGQDSSMFGTDLTEMFRSVTLFSAKVEDANLLKKYIQYALERALLGEKGPVHLSIPLDVLINKIAPFSSPIKLINDTPISGNLKQAAHILQDAKRPVLLLGKGVHIAKAYREVMQFSEKWNIPVMTTPGGKGTFPTKHRLSLGAYGLGGTEAATAYMAEGVDVMVVIGSKLTDMSIAGLASEQYPKTMIHFDQQADFIGKSILVDTVFVKGDAKKNLQQLNTNYSSNRETPNLKPYWKKEILDLEEKKKDQAPYQNLSTAEVMKCLRAVLPEETVVFGDDGSHTFYAIKYFDIVKSGTFFFDDVFGAMGHGLNFAIGAKIATKEIPVVSFTGDGCVMMQGTEISTAVNQKIPMIFYVFNNGMLDMVDKGMRYNIGKSAGTRYTTAMNATLFAESLGAIGYRCTKMEEIVEATEIALKERQTAVIEILVEKEEVPPTLKRG PGPT0008185_9379 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 AK015_00194 381 hypothetical protein TTGACTAAACAAGAAAGAGGATGGAAGCAAATTGAAGAATTAGCCGGTTCTAAAGGAATAGATGCGATGAAAGAAGTTGAAAAGTTTTCGCCGCGTTTAGCTAAGCTTGCTTTAGAATTTGGCTATGGGGATGTTTATCACAATGATTCGCTTGATTTAAAGCAACGAGCCCTTATTACGCTATCTTCTTTAATCACCCAAGGAGATGCTGGTAGAGGATTAACCTATCATTTCCATGCAGCACTAAACGTTGGTGTTCATCAGTCGGAAATTTTAGAATTAATAAATCATTGTAGTGCCTACGCAGGATTTCCAAAGGCAATTCATGCATTGCATATTTTTAAATCAGTAGTTGAAGAAAGGGAGAAGAACAATGGCTAA MTKQERGWKQIEELAGSKGIDAMKEVEKFSPRLAKLALEFGYGDVYHNDSLDLKQRALITLSSLITQGDAGRGLTYHFHAALNVGVHQSEILELINHCSAYAGFPKAIHALHIFKSVVEEREKNNG PGPT0005005_3453 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607 NA NA AK015_00195 387 hypothetical protein ATGGCTAAGTATGAAATGAAAGTGTATAAAGATGTACTATATTTTAACTACTTTGAAATGGCTGGGACGAAAGAGGAAGCTGAGAAACATGCAAATGCAGTAAAAGAGGTTTTACAAAAACCCGAAATAAAAAAATTCCTTAATGATAATAGCAAGATTATAGGTGTAGCTAAGCCAGAGGTGAATATGGTATGGGGGAAATTTATGGAATGGGTAAGCAGTAATATTGAGAAAAACGCTACTGTAGCACCAAGTGTGGCGCTAAAAATGCAGTTGAATCGCTTATCTAGAACAGCAGGTACATATGACTCCATACGAGCTTTTACGAAATTAGATGAAGCACTGGAGTTCATGGGTATTCCAGAATTCAAAATAAATGAAGGATGA MAKYEMKVYKDVLYFNYFEMAGTKEEAEKHANAVKEVLQKPEIKKFLNDNSKIIGVAKPEVNMVWGKFMEWVSSNIEKNATVAPSVALKMQLNRLSRTAGTYDSIRAFTKLDEALEFMGIPEFKINEG NA NA NA NA NA AK015_00196 1266 hypothetical protein ATGAAAAAAGTAGGAAGAAGCTTAACGGTTTATCAAACATTATTATTGTATTTATTTTTATTTACTTTAATTATTACTTTTATACCTTTGATTACACTTTTCATATTCATTATCTCAGATATTAGTTTGAAGTCTATTTCTGCATTAATCGGGCTATCTATTGCAAGTTTACTCTCCCTGTGTTTTGCCTATATCTATGGACATTTTCTGTTTTCTCCGTTTAAACAAAGTGTAAAAGATATAGATGTTAGCAGAGATGATTCTCTTCACCATCCTGTTTATAAGTGGGTGAAGGAGTGGATAATGAATACAGAGAATAATTATTCAGTAAATGAACAAGATCGACAAGTAATGGAATTAGTTGAACAAACAGCTGCATCTTCTCAGCAGCTGATGTCTACAACGGAAGAGACGACGAAAGCAACAGGCGAAATTTCTGCGTCCATTCAAGAATTAGCTTCTGGAGCAGATATGCAAACACAATCCATTCAAACGATTAATGATTCTTCATCGCAAGTCTTTTTTACTTTAACTGAAATAGATGAAAGTACGAAATTTGTGAAAGAGACGTCGAAAACGGCTAAGAAAAATGCGAAAAACGGAAGTGAAGTTGTTTTTAGTGCTACCGAGCAAATGGATGAGATAGCGAAGCAAGTGGATGATTCTATTCACGTCGTAAATGATTTAAAAGAAAAAATGAATCAGGTCGGAGAAATATTGTCGCTTATAACGGATATATCAAATCAAACGAATCTGCTTTCTTTAAATGCTGCAATTGAGGCTGCGCGTGCGGGTGAGCATGGGAAAGGGTTCTCTGTAGTTGCTGAAGAAGTTCGCAAATTAGCAGAGCAAACAAATGCAGCAACAGCTAAAACTCAACATCTAATTGATGAAATTCAAGGTGGAACAAAAGAAGTTATTCATGTCATTCAGGAAAGTGGAAATACCATTAAACAAGGTGTATCCAGAAATGGTGAAATTTCTCAAGTATTTCAGCTTATTTCTCAAGATGTGGATGTAGTGGATGAATTTATTCAAGATTTATCAGAAGCTGTTCATGAGGTAAAGGAAAATATGAATGGTGTTACTTCATCTATGGAAGATGTATCTAGTGTTGCAAGTCAATCGACAGCTAATCTACAAAATATTGTGGCTGTCGTTGAGGAACTAAATGCGTCTATGCAGGAAGTATCTTCTTCAGCCTCATTACTGGCTGATATATCGACGAAATTAAATGATCAAGTAGACAATGAGTGGAATAAATAG MKKVGRSLTVYQTLLLYLFLFTLIITFIPLITLFIFIISDISLKSISALIGLSIASLLSLCFAYIYGHFLFSPFKQSVKDIDVSRDDSLHHPVYKWVKEWIMNTENNYSVNEQDRQVMELVEQTAASSQQLMSTTEETTKATGEISASIQELASGADMQTQSIQTINDSSSQVFFTLTEIDESTKFVKETSKTAKKNAKNGSEVVFSATEQMDEIAKQVDDSIHVVNDLKEKMNQVGEILSLITDISNQTNLLSLNAAIEAARAGEHGKGFSVVAEEVRKLAEQTNAATAKTQHLIDEIQGGTKEVIHVIQESGNTIKQGVSRNGEISQVFQLISQDVDVVDEFIQDLSEAVHEVKENMNGVTSSMEDVSSVASQSTANLQNIVAVVEELNASMQEVSSSASLLADISTKLNDQVDNEWNK PGPT0015710_27490 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 AK015_00197 2106 licR_1 COG1762 putative licABCH operon regulator ATGAACCAACGTAGTATGGCAGTACTCAATATGTTAGTTGAACAAGAAGGATATCTTTCAAGTGAACAGCTGGCGAAAGCATTTCACGTTTCGAGAAGAACGATTTATAACGATATAGGAAAAATCAATGATTGGCTTAAAAAGCAAAAGTTGGAGATCGTGAAACAAGTGAGAGCAGAGGGCTTTTACCTGGAGGAAAGTACAAAAGAAGCTCTAAGCCAAACGGATTCGCTCGTTCAAGATCATTATTATGAGTATACAAAAGAGGAACGCAAAGCATGGATATATTTGCATATTACATGCAGTTCTAAAACTTATTTTCTTGAAGATTTTCAAAATCTTTTTCAAGTAAGTAGAAATACAGTATTAGAAGATATAAAGGCATTAAAAAACGAAATTCAACTTGAGCAATTACAAATGCATACAAACCGAAGACAAGGGTACCATATTATAGGAGAAGAAATAGACGTTAGAAAAACAATTACTCAATATCTTTCTGTTGTTACTCCAATGGACAATTGGTACAGCCTATTACATTATCCATATGCGCATGAAAAAGACCTGTCACCAACGTATGCTATATTTGATGTGAAAGTCCTGCAGCGTATTCACCGTCATCTCATTAAATATGAGGAACGATTTAATATTGAAATTATTGATGACGTGCTAAACAGTTTAGTACTCTGGTTTCATTGTTTTATGAAGCGAATGGAACAAGATGCTATTGTCCAAATAGATCCTATCGAGAAAGAAATTATTGAGACAACGGATGTTTACGCAGGTGTACAAACGCTATGTCAAGAATTATTAGCAAACGACATAGATGATACAGATAAGAAAAAAGAGAGTTATTATTTTGCTAAATATTTACTCAGTGCAAAAGTGAATTATGATTTGACGCCAAATAAAGAAGATAGCGTTATGAAGTCATTAATAGATGTAGTCGAAAAAATGGTCAATGATTTTCAACTATATGCGGCGGTGGAATTTGATGAACCTAAACAGATTATGGATAATTTGCTCCTTCATCTAAAACCTGCATATTATCGAATTATGTATGGAATTAAATTAGAAAATACATTGCTGGATTCGGTTAAACAGACCTATCCAGAAGTTTTTCAAATTACAAAGCAAGTGATGAAACATTTTGAAGAGCTTATTGAAAAAGCAGTAGATGACAATGAGATCGCTTTTATTGCTACTCATTTTGGGGGATGGCTTCGAAGGGAAGGGGTTGTCCTTGAAGATAAACCAAAGCGTTTATTAATCGTTTGTACGAATGGTTTAGGAACTTCCAAATTACTAGAGAGTCAATTATTATCGCTATTTTCGAATGTGGAATTTCAAGGTGTAACGTCATTAAGAGAATACCAACACATGAATTTAGCTGTTGATTTTATTGTTTCAACCATAGGTCTTCCAGATCGAGGTGTACCTGTGTTTGTTGTTAGCCCTGTATTAAGCAATGATGAGAAAGAACAGTTGTTGAAAAACGTAAATAGTTTATTTTCCATAAATGCTCGACAAGAATATTCCGTGGAAACGCTTTTAGACATCGTTCATCGCTATGCTACTATTCAGAAAGAAGATGAGCTGCGAAAAGAATTAAGGAGATTTTTGTATACTCCTGAACAGAGGAATCATCAAAAGCAAAGTTTACAACAATTATTGCCTATTCATCATGTTCAATTGCAGACTAGTATTTCTACATGGCAGCAGGCAATTACTTGTGCAGCTCAACCTTTAGTAAAAGAAGGGTTTATTAATCAACATTATATAGATGACATGCTGCAGGCGGTTGATAAAAATGGCCCTTACATTGTTATTTCTGACCAATTTGCTTTGCCACATGCTGGTCCATCGAAAAATGTATTTCAAACGGGGTTAAGCATGCTTTGTTTGAACCAGCCGGTAAATTTATTAGGCAAAGAAGTTTCAATTATAGTTGTCTTAGCTTCAAAAGATAACGAACAACATTTAAAAGCGTTAGCGCAGTTAACGAAGTTGTTTTCTGAAAAAAATAATAAACAGCTCGTAATGAAGGCTAAGGATACGTTTACTATATATGAATTAATTAAACAGTATTCGCAAAGCATATTGGAATAG MNQRSMAVLNMLVEQEGYLSSEQLAKAFHVSRRTIYNDIGKINDWLKKQKLEIVKQVRAEGFYLEESTKEALSQTDSLVQDHYYEYTKEERKAWIYLHITCSSKTYFLEDFQNLFQVSRNTVLEDIKALKNEIQLEQLQMHTNRRQGYHIIGEEIDVRKTITQYLSVVTPMDNWYSLLHYPYAHEKDLSPTYAIFDVKVLQRIHRHLIKYEERFNIEIIDDVLNSLVLWFHCFMKRMEQDAIVQIDPIEKEIIETTDVYAGVQTLCQELLANDIDDTDKKKESYYFAKYLLSAKVNYDLTPNKEDSVMKSLIDVVEKMVNDFQLYAAVEFDEPKQIMDNLLLHLKPAYYRIMYGIKLENTLLDSVKQTYPEVFQITKQVMKHFEELIEKAVDDNEIAFIATHFGGWLRREGVVLEDKPKRLLIVCTNGLGTSKLLESQLLSLFSNVEFQGVTSLREYQHMNLAVDFIVSTIGLPDRGVPVFVVSPVLSNDEKEQLLKNVNSLFSINARQEYSVETLLDIVHRYATIQKEDELRKELRRFLYTPEQRNHQKQSLQQLLPIHHVQLQTSISTWQQAITCAAQPLVKEGFINQHYIDDMLQAVDKNGPYIVISDQFALPHAGPSKNVFQTGLSMLCLNQPVNLLGKEVSIIVVLASKDNEQHLKALAQLTKLFSEKNNKQLVMKAKDTFTIYELIKQYSQSILE NA NA NA NA NA AK015_00198 450 ulaC COG1762 Ascorbate-specific PTS system EIIA component ATGAAATTTTTAGAAAAAAATATTATACAGCTAGATGTAGAAGTAAAAAACCCAGAAGATGCAATTATGAAAGCAGGCCAGTTATTAATGAAAGATGGGTTGGTTGAACCGTCTTATGTTGAAGCTATGAAGCAAGCTTATAACAAGAATGGTCCTTATTTTGTCTTAGCGCCTCAAATCGCAATTCCGCATGCACGGCCAGAAGATGGGGTAAATGAAGCAGCTGTTTCATTAGTACAATTAAAAGAAGCTATATCTTTTGGACATGCGATCAATGACCCTGTACGTTTAGTATTTGGGCTAGGTGCTTCATCAAGCGCAGAGCATTTAAAGCTGCTACGAAAACTAACAACATTATTAAATGATCCACAAAATATTGAACAATTGCTTCAAGCAACAACAATAGATCAAGTTCAAAAAACAATTAGAAATGGAGAGATGACAAGATGA MKFLEKNIIQLDVEVKNPEDAIMKAGQLLMKDGLVEPSYVEAMKQAYNKNGPYFVLAPQIAIPHARPEDGVNEAAVSLVQLKEAISFGHAINDPVRLVFGLGASSSAEHLKLLRKLTTLLNDPQNIEQLLQATTIDQVQKTIRNGEMTR PGPT0017115_653 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017115-ulaC|sgaA-K02821 NA NA AK015_00199 273 ulaB_1 Ascorbate-specific PTS system EIIB component ATGAAAGTTTTAACAGTTTGTGGTTTAGGACAGGGAACAAGTTTAATCTTAAAAATGAATGTGGAGCAAGCCTTAACAGATATTGGAATACGTGCAGATGTGGAGCATATGGACGTATCAACAGCTTCTAGTATGGACGCTGATTATATCATTACAAGTAATGAATTAGCTGAAGGTCTGCAAGGGCATAAGGCTAAGATTGTTATTGTTAATAACTATTTTGATATGGATGAAATTAATGAAGCTATAAAAGAAAATATGGAAGCCTCTTAA MKVLTVCGLGQGTSLILKMNVEQALTDIGIRADVEHMDVSTASSMDADYIITSNELAEGLQGHKAKIVIVNNYFDMDEINEAIKENMEAS PGPT0017110_984 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017110-ulaB|sgaB-K02822 NA NA AK015_00200 1296 ulaA_1 COG3037 Ascorbate-specific PTS system EIIC component ATGGATATCATTTTTTGGATTGCCACGAATGTGTTTGGAGAAGCCGCCATATTATTAGGTTTTATCGTTCTTTTAGGATTACTGTTGCAAAAAAAATCAGCGAGTCAAACGGTCAGCGGTACGTTTAAAGCGATTATAGGGTTTTTAATAATTAGTGCAGGTGCTGGCGTTATTGTAAACGCATTAACCGTGTTTGAACCGCTTTGGAAGGAAGTTTTTAATTTATCGGCGGAGCCTCTTGGTGATTTTATGGGCCAGGAAGGGTTTAATGCAAAGTATGGAAGTGCTGTTACGTTAGCAATGACGCTAGGGTTTGTCATTAACGTCATTTTAGCTCGATTTACCAAATTTAAATATATTTATTTAACAGGGCATATGATGTTTTGGACAACCACCATTTTTGCAGGTGTAATCGTTCAAGCTGCTGGCGATGTTTCATTTTCAAAGCTCGTTATATTCTTAAGTATATTTATGGGGTTATATTGGACTATTCAACCAGCCTTAACACAACCATTTATGAGAAAAATTACCGGTAATGATAATATTGCCCTCGGACACACTTCAGCTTCTGTTGCTTTATTAGGAGCTTTAGCTGGTAAAGTGATGGGAAACAAAGAAAATGATTCAGAAAAAATAAAACTTCCCAAAGGGTTGGAATTCTTAAGGGATTCAAACGTTATAACTGCATTGACCATGGGATTATTATTTTTAGTTGGAGCCATCATTATATCGTTTAAAGATACCCCCGGGGCTCAAGAGTTAGTGGCTGCTGCAGGTGATAAAAACTTTATTATTTACTCGATTATTCAATCCTTCACATTTGCAGCGGGTATTGCAGTTGTTTTGCTAGGTGTACGAATGTTTATTGGTGAAATGGTTCCAGCGTTTAAAGGAATAGCGACAAAGATCGTACCTGGTGCAAAGCCAGCTCTAGACAGTCCAGTCGTCTTCCCATATGCACCAAATGCTGTTATTTTAGGGTTTTTAGGATCTTTTGTAGGTGCGCTAATTTGGCTTGTCGTGTTAGGAAATACAGTTGGTTACGTTTTTGTTCCAACGATGATCGTATTATTTTTCCATTCAGCAACAGCAGGTGTATTTGGAAATGCGACTGGAGGAGTACGTGGTGCATTAATGGCAGGATTTATTACTTCAACTGTCGTAGCATGGGGGCAATTTATTATGGTGAAAATGCTTCTATCCGATACCATTCCTGATACAGCAATGTGGGCAGCGGATTCAGACATGTTCATCTTAGGACCAATTGTACGTTTCTTATCCCAATTATTTTTCTAA MDIIFWIATNVFGEAAILLGFIVLLGLLLQKKSASQTVSGTFKAIIGFLIISAGAGVIVNALTVFEPLWKEVFNLSAEPLGDFMGQEGFNAKYGSAVTLAMTLGFVINVILARFTKFKYIYLTGHMMFWTTTIFAGVIVQAAGDVSFSKLVIFLSIFMGLYWTIQPALTQPFMRKITGNDNIALGHTSASVALLGALAGKVMGNKENDSEKIKLPKGLEFLRDSNVITALTMGLLFLVGAIIISFKDTPGAQELVAAAGDKNFIIYSIIQSFTFAAGIAVVLLGVRMFIGEMVPAFKGIATKIVPGAKPALDSPVVFPYAPNAVILGFLGSFVGALIWLVVLGNTVGYVFVPTMIVLFFHSATAGVFGNATGGVRGALMAGFITSTVVAWGQFIMVKMLLSDTIPDTAMWAADSDMFILGPIVRFLSQLFF PGPT0017105_1049 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017105-ulaA|sgaT-K03475 NA NA AK015_00201 993 Phospho-furanose lactonase ATGAGTTTTATTCGTACATTTCATGGTGATGTTGATCCTAAAACACTAGGAGTTACATACTCTCATGAGCATATCGTTTGTCGACCGCCATATTGGGTCGAGCAAGAAGCAGATGATTTATTGCTTGATGATAAAGAGAAGTCCAAACTGGATGTGTTAGATTTCAGTCGCCTTGGTGGTGAAGCGATCGTAGATGCTACAGCAATTGATTATGGCCGAGATGTACAGGCGGTCAAGGAGATTTCAGAAGAGACAGGAATTACCATTGTAGGTACAGCAGGGTTTAATAAAAGTTTTTTATGGGCAGCAAGCATCCCTGAACATTTGAAATCTGTAACCGGCAATTATTCAACATTCCATGAGTGGATTGAAGCAAAAAGTATTAATGAGTTGGCAGATTTCGTTATTCGCGAAGTAGAAGAAGGTTTAGAAGGGACCAACATTTGCGGTGGTCAGGTGAAATTTGGGACGGGCTATAATCGAATTACTCCTTTAGAAGAGAAAACGATTCGTGCAGTAGCTAGAGCACATCATGAAACGAAAGCTCCCGTTCATTCACATACAGAAGCAGGTACGATGGCACTAGAGCAAATTGAAATTTTAAGATCAGAGAATGTTCCATTAGAATATGTGAGTTTTGGGCATATGGATCGAAATCCAGATCCTTTTTATCATGAACAAGTAGCAAAAACAGGTGCATTCTTATCTTTTGACGGTATATCTAAAATAAAATATGCCCCAGAGAGCACACGCATTCAATGTATTTTTGAATTAGTGAGAAAAGGCTATGAAAAGCAAATTTTAGTTAGTGGCGATACAGCTAGAAAAACGTATTACAAGCATTACGATTATGGGCTAGGTTTAGAGAATATTTTAGGGAAATGGGTACCTCGCTTTATAGAAGAAGCAGATCAAGCTGGATTTTCAGGAGAAGATTTAGTCACCAATTTCTTTGTAAATAACCCAGCGAGATGCTTTACATTTAAAAAGTAA MSFIRTFHGDVDPKTLGVTYSHEHIVCRPPYWVEQEADDLLLDDKEKSKLDVLDFSRLGGEAIVDATAIDYGRDVQAVKEISEETGITIVGTAGFNKSFLWAASIPEHLKSVTGNYSTFHEWIEAKSINELADFVIREVEEGLEGTNICGGQVKFGTGYNRITPLEEKTIRAVARAHHETKAPVHSHTEAGTMALEQIEILRSENVPLEYVSFGHMDRNPDPFYHEQVAKTGAFLSFDGISKIKYAPESTRIQCIFELVRKGYEKQILVSGDTARKTYYKHYDYGLGLENILGKWVPRFIEEADQAGFSGEDLVTNFFVNNPARCFTFKK NA NA NA NA NA AK015_00202 726 crnA Creatinine amidohydrolase ATGGAGTTTCAATATGAAAATTCATATGAAATAAAAGATAAGATCACAGCATCAAGTATTGCCATCTTACCAGTAGGAGCTGTTGAAGCACACGGCCCACACTTGCCATTGGGAACAGATAATCTTCTAGCTGAACGTGTCGCTACAAGCGTAGCTGAGCAAGTAGAAGCGTTTGTTTTACCTACTTTACCATATGGACAAGTATGGAGCTTACGAAATTTTCCAGGAAGTATTAACGTTTCGAACGAATCGCTTATTTCCATCGTAGTGGATATTGGTGAAAGTTTATATCGACAAGGATTCCGTACTTTTGTTATGGTGAATGGTCATTTAGGAAATCAGCCTGCATTAAAAGATGCTGCTCGTGTTCTATTTACATCATGCCCTGATATGAAAGTTTTTTACTTCTTTTATCCGGGAATGAAGCAAGCGGCAAAGGAAGTTCGAGAAACAGACTCTGCTCATGCCACATACTTTCATGCCTGTGAAATTGAAACATCTTACATGCTTTACTTAGCACCAGAATATGTGGATATGGAAAAAGCGATAAAAGATATTCCCCATATACCTGAAGATGCGGATGTCACGCCAACTCCTTGGGAAGCATTTACAAAATCAGCTGTATTAGGAGATGCGACATTGGCAACAAAAGAAAAAGGTAAATATATTATCGACATTGCGATTCGCAATATAGTTGACATGTTAAGGAATAACGGTCAGAAATGA MEFQYENSYEIKDKITASSIAILPVGAVEAHGPHLPLGTDNLLAERVATSVAEQVEAFVLPTLPYGQVWSLRNFPGSINVSNESLISIVVDIGESLYRQGFRTFVMVNGHLGNQPALKDAARVLFTSCPDMKVFYFFYPGMKQAAKEVRETDSAHATYFHACEIETSYMLYLAPEYVDMEKAIKDIPHIPEDADVTPTPWEAFTKSAVLGDATLATKEKGKYIIDIAIRNIVDMLRNNGQK NA NA NA NA NA AK015_00203 729 hypothetical protein TTGATTCAAGCATATTTTGAAAAAATTCACGAATTACTGACTACTGTAGAACAGAAGGAAGCAGAAACAATGGAAAAAGCAGCAAAAAAAGTAGCTCAAACGATTCAAGCTGAAGGGGTCATTCATTTGTTTGGTTGTGGCCATTCACATATTTTAACAGAAGAAGTGTATTATCGTGCTGGTGGACTTGTGCCCATCCATCCTATTCTTCATGAACCTTTAATGCTCCATGAGGGAGCTGTGCGTTCTTCCTCTTTAGAAAGAGAGAACGATTATGCGAAAAACTTTATTTCTGATCAAGGAATTACAGCAGGAGATGTCGTATTTGTCATTTCTACTTCAGGAAGAAATCCAGTACCCGTAGATGTGGCTAACTATGCAAAACAGCAAGGTGCTTACGTAATAGGCATTACTTCCATTGCTTATTCATCTAGTCAAGCCTCACGTCACATTAGCGGGAAACATCTTTATGATGTCGTTGATATCATCATCGATAATCACGCACCTGCTGGCGATGCACTACTATCTCATGAAAAAGTAACTGTACCTTTTGCACCAAGTTCAACCGTTATTGGAGCAACGATACTGAATGCTGTATTAGCTAAAGCGATTGAAACGATGGCAGAGCAAGGATTTGAACCGCCTGTATTTTTAAGCGGCAATATAGAGGGTTCTGATGAACATAATCAACGATTAGTTGAAAAATATAGAGAACGAGTAAAATTATAG MIQAYFEKIHELLTTVEQKEAETMEKAAKKVAQTIQAEGVIHLFGCGHSHILTEEVYYRAGGLVPIHPILHEPLMLHEGAVRSSSLERENDYAKNFISDQGITAGDVVFVISTSGRNPVPVDVANYAKQQGAYVIGITSIAYSSSQASRHISGKHLYDVVDIIIDNHAPAGDALLSHEKVTVPFAPSSTVIGATILNAVLAKAIETMAEQGFEPPVFLSGNIEGSDEHNQRLVEKYRERVKL NA NA NA NA NA AK015_00204 834 hypothetical protein ATGGGAAAATGGATAAAAGAAAGCAGTTTAATTATTATCGGATCATTTATATTTGCTTTTGGAGTTAATTATTTTGCGATTCCCAATAACCTGTCTGAAGGAGGAATCATTGGGATATCGATTGTAACTTATTATATATTTGGATGGTCCACAGGAATTGTAAATTTTGCTATTAATGCTGCTTTACTAGCTATCGGTTATCGATATTTTAGTAAACGGGTCATGATATATACTATTATATCTATCGTCTTTTCGTCCTTATTTTTGCATGTAACAGAAAACATCGGTAAAGCTGGAAACGGTGATACATTGTTAGCCGCTTTATTTGCTGGCTTAACTGTTGGAATTGGGTTAGGTCTCATTTTTAAAACTGGAGGTACATCAGGTGGAACGGCTATTATCGTTCGTTTGCTTCATCAATTTATCGGCTGGAGCTTTGGAAAGGGCATGCTCCTTACAGATATTGCTGTAATCGGGGTTTCTGCGTTTGTCATTGGTCAAGAAAAAGCCATGTATACGTTAATCTCCGTTTACGTCGGTGCCAAAGCAATTGATATTATCGTAGAAGGTGCAAATGAACGCACTGCCGTACTCATTATTTCAAAATACCCTGAAGAAGTTCTCGAACAAGTAACGAATAATATGTCTCGTGGAATTACTGTTTTAGAAGGTAAAGGTGGTTATACAAAGCAGAACAAAGAAATTCTTTACATCGTCATAAATAAACAGGAAATTGTTCACTTGAAGCGCATTATTGAAAAAATAGATGGAGATGCTTATATAACCGTACATAGTGTACAGGAAATAAATCGTAGAGGCTACAAAGGAAGGTAA MGKWIKESSLIIIGSFIFAFGVNYFAIPNNLSEGGIIGISIVTYYIFGWSTGIVNFAINAALLAIGYRYFSKRVMIYTIISIVFSSLFLHVTENIGKAGNGDTLLAALFAGLTVGIGLGLIFKTGGTSGGTAIIVRLLHQFIGWSFGKGMLLTDIAVIGVSAFVIGQEKAMYTLISVYVGAKAIDIIVEGANERTAVLIISKYPEEVLEQVTNNMSRGITVLEGKGGYTKQNKEILYIVINKQEIVHLKRIIEKIDGDAYITVHSVQEINRRGYKGR NA NA NA NA NA AK015_00205 834 hypothetical protein TTGAATAAGTTAATAAACGAAAAATATGAACAATTAAGCGAAGCACAACGAAAGGTCGCTCGTTACATAGTAGAAAATATGGAAGAAGTTGTTGTCTTATCAGCACAAAGAATTGCTTCTTTGTCAGACGTAAGTGAAGCTACAGTTCATCGATTTGCTAAGACACTAGGATATTTTAGTTTTGTTGAACTAAAACAGGACATACATGCAACATTGCGTAAGAACCAACGAGCGCTGAATAATTTCATTACTACAACTGCTGAAAAACCAGATTCTTGGTTAGAAAAACATTTCTTGCAAGAAGCAGACAATATTGTTCGTACAAGTAAAGCAATAAAGGAGCGCGACATTCAAGACGTAGCTAACACACTGCTGCATGCTAATCATATATGGATAGCTGGTTGGCGATTGGGATTATCGATAACTACTTATATGCGATTTGTTTTTTCTTATATGCTTGGAAATACGACGTTAATTCCCCAAGGAGAACTCGCTGAATATAGTGCACATTTTAAAAAAACAGACGTCCTTATCGGAAGTGTATTTCCGCGTTATGATCATAAAACAGTACAAATTATAAAAAAGGCAAAAGAGAAACATGTTCAAACAATTATTTTGACGGACTCGCCTTTATGCCCTGCTTGTAAACATGCGGATATAACTTTGCTTGCGAAAACAAAGTCAAAAGGCTTTTTAGATTCGTATACAGCCGCATTATCTATATGTCAGGCAATTGTAAATGAACTTTCCCATATTGGAGGGGAGCGTGTGAAAGAAAATATAAAGCAAATTGAAAAGAGTTATCCAGACTTTCTAGAAAAAAGCGAATCTTGA MNKLINEKYEQLSEAQRKVARYIVENMEEVVVLSAQRIASLSDVSEATVHRFAKTLGYFSFVELKQDIHATLRKNQRALNNFITTTAEKPDSWLEKHFLQEADNIVRTSKAIKERDIQDVANTLLHANHIWIAGWRLGLSITTYMRFVFSYMLGNTTLIPQGELAEYSAHFKKTDVLIGSVFPRYDHKTVQIIKKAKEKHVQTIILTDSPLCPACKHADITLLAKTKSKGFLDSYTAALSICQAIVNELSHIGGERVKENIKQIEKSYPDFLEKSES NA NA NA NA NA AK015_00206 735 COG1234 putative protein ATGAAATTACATACAGTCGGATATTGGGGCGCCTATCCAAACGTGAACGAAGCGACTTCATGTTATTACGTTGAGGATGAACAAACAAAAATTTTACTAGATTGTGGTAGTGGCGCTCTTTCTAAGTTGCAAAATGTAATGGAGTTACAGGATTTAGATGCCGTTTTTATAAGTCATACTCATACCGATCATATGGCGGATATTTACAGTTTGGAATATGCCATGCTTATTTTACAACAACTAGGAAAAAGAAAAGAGCCGTTAGATGTTTATGTATACGCAGAAAATAGGAGTGATCTATCGTTTGAATTTCCTCATGTATTACGTGTTCATCCAATTCACCTAACTGAATCGGTGGTTATAGGTTCACTACAGCTTACTTTTTCAGAAAATGTTCATGAGGTTCCGTGCTGTGCTATGAAGGTAATGAATCAGCAAGGACATGCCTTCGTATATTCTGCAGACACAGGTTATACAGAAAAACTCATTCAGTTTGCTCAAAATGTGGATACATTATTGATTGAATGTAGTTTTTATGCTGAACAACAAGGATTAGTAAAAGGGCATTTAGCGAGCTATGAAGTAGCTGACATTGCTAAAAAAGCAAACGTAGCTACCATTATTCTTACGCATTTCCCGCACTATGGTAATATTCAACAACTAAAAGAGGAAGTGACGTCAAAAACAGATCAAGTTGTTCATCTTGCAAAGGAAGGTTTTACCATCACTATATAA MKLHTVGYWGAYPNVNEATSCYYVEDEQTKILLDCGSGALSKLQNVMELQDLDAVFISHTHTDHMADIYSLEYAMLILQQLGKRKEPLDVYVYAENRSDLSFEFPHVLRVHPIHLTESVVIGSLQLTFSENVHEVPCCAMKVMNQQGHAFVYSADTGYTEKLIQFAQNVDTLLIECSFYAEQQGLVKGHLASYEVADIAKKANVATIILTHFPHYGNIQQLKEEVTSKTDQVVHLAKEGFTITI NA NA NA NA NA AK015_00207 1542 appA_1 Oligopeptide-binding protein AppA ATGAAAAAAAGTAATTTCAAAGCTTTTTTGTTATTATGTGCTGTTTTACTTGCTCTTATAGCTTGTTCCAATGCAAATTCTACTCCAACGAATGAGCAAGAAGTAAACGCCAAGGAAAATAAAGCAGGCGGTACGGTTCGTATAGCAATGAGTACGGAAGTGGATCATTTAGATCCGTATCAATCTGCTGCAACAGATACGATGTCGATGATGGACAATGTATATGATGGTTTATTAGACACAGATGAGTCTGGTGAACTGGTGCCTGCTATCGCAGAATCCTACGATATTTCCGAAAATGGGCGCGTATATACATTTAAATTAAAGGAAAATGTTATGTTTCACGATGGGTCTGAATTAACTGCAGAAGATGTGAAATATTCTTATGAAAAGTTAGCAGGGTTAAGCGGTGACGAGCCAATTTCATCCCAATTTGAAGTAATTGAAAAGGTGGAGACTCCCTCTGATTTTGAAGTCGTCATTACATTAAAAGAAACAAATTCGGCTTTTCTAGCAGCAAATATTCGACCGATTTTACCTGCTGATTATGATAATCATAGCGAAAAACCTATTGGAGCTGGTCCGTTTAAATTTGCAGAATATAAAGTAGGACAAGAGCTGCGCTTAGTGAAATACGAAGACTACTATGATGAAGAAAAAGTACCGAAACTGGATGAAGTGCAGTTTAAAATCATGCCTGATCCAGAATCAGCAATACTAGCGTTGCGATCTGGAGAAATTGATGTCATTCCAGGTATATCTGCTCAAGGCAAAGAGCAATTAGGCGATACCATTGAAACGATAGCTGCCCCACAAAACATGGTACAGTTAATGGCTTTAAACAACCAAGTAGAACCGTTAAATAATCTTCGTGTACGTAAAGCAATTAACTTAGTTATTGATAAAGATATGATTATCGATATGGTAGCTGAAGGAGATGGTGTTAAACTAGGATCAAATTTTAGTCCATCCATGGAATTATATTACCAGGAAGGATTAGAAGATACGTATCAACCTCATCTTAATGAAGCGAAAAAGCTATTGAAGGAAGCAGGATACAAAGATGGGTTTAATTTAGAATTGACGGTGCCATCTGATTATCAATTTCATGTAGATACAGCGCAAGTTATTACAGAACAATTAGGGCAAGTCGGTATTCAAGTAGATATCAAACGCATTGAATTTAGTACTTGGTTGGAAAAAGTCTATAATCAAGCGCAATATGAAAGTACTATTATCGGGTTTACTGGAAAACTAGATCCTTATGAAATTTTACGAAGGTATGTAAGTGACTACAATAATAACTTTGTTCAATTTGAAAATAAGGAATACGATGCACTTATCAAGGAGGCACTTGCGGCTACGGATGAAAAAGCGTTAGCTAATATATATAAACAAGCTCAAACACTCCTGACAGAAAAAGCAGCTTCCGTATTTATTATGGATCCTTATCGTACAGTTGCGATGAAGAAAGGGTTACAAGGATGGAAAATGTATCCGATTCAAAAATTTAATTTAGAAGATTTATATTATACGGAATAA MKKSNFKAFLLLCAVLLALIACSNANSTPTNEQEVNAKENKAGGTVRIAMSTEVDHLDPYQSAATDTMSMMDNVYDGLLDTDESGELVPAIAESYDISENGRVYTFKLKENVMFHDGSELTAEDVKYSYEKLAGLSGDEPISSQFEVIEKVETPSDFEVVITLKETNSAFLAANIRPILPADYDNHSEKPIGAGPFKFAEYKVGQELRLVKYEDYYDEEKVPKLDEVQFKIMPDPESAILALRSGEIDVIPGISAQGKEQLGDTIETIAAPQNMVQLMALNNQVEPLNNLRVRKAINLVIDKDMIIDMVAEGDGVKLGSNFSPSMELYYQEGLEDTYQPHLNEAKKLLKEAGYKDGFNLELTVPSDYQFHVDTAQVITEQLGQVGIQVDIKRIEFSTWLEKVYNQAQYESTIIGFTGKLDPYEILRRYVSDYNNNFVQFENKEYDALIKEALAATDEKALANIYKQAQTLLTEKAASVFIMDPYRTVAMKKGLQGWKMYPIQKFNLEDLYYTE PGPT0004430_15751 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 AK015_00208 945 gsiC_1 COG0601 Glutathione transport system permease protein GsiC GTGAGGTTTTACTTATATAAATTGTCTATGTTCGGTTTAACATTATTTATCGTTTCCCTCATAATTTTCTTTGTTTTTCAGTTATTGCCAGGTAATCCAGCCCAAATTATCCTTGGGTTGGATGCTGATGAACAACAAATTCATTATTTAGAGCAGGAATTAGGACTGAATAAATCAGCAATCGAAAGATACATCGATTGGATGGCCGGTATATTTCAAGGGGACTTAGGGGAATCTTTGCGTTACCAAGTACCTGTCAGTGACGTGCTTGCCGAACGTATTCCCGTGACGACATCCATAGCGATATTTTCCATGGTGTTAACAGTTATTGTTGGAATACCCTTAGGAATTTTAATTGCTAGAATGAATGGGAAGAGAATTGCTGTTTTTTTATCGATGTTTACACAATTAGGCATTTCCATTCCTTCTTTCTGGTTTGGGTTTATGCTCATTTTATTGTTTTCCGTGACGTTAAATTGGGTAACCTCATTTGAGTACGTAGCGTGGTCAGAAGATTTCTTTGGAGCGCTTCAGGCGCATTTGTTGCCATCGCTAGCTATTGCTATTTCGAATATCGCTGTGGTCATTCGTTATTTAAGAAATACCATATTAGATCAAAGCAAAATGGATTATGTGCGAACTGCAACATGTAAAGGATTATCAGAGCGAGCTGTACTATATAGGCATGTATTAAGAAACGCATTTATTCCTATCATTACGATTATTGGTTTAATTACTGCAGATACATTAGGTGGCAGCATTATCATTGAAAATGTCTTTGCCCTTCCTGGACTAGGGAGTTTACTTATACAATCTATTACGTCAAGAGACTTTCCTTTGGTGCAATCCATGGTACTGTACATAGCTATTATTGTATTAGTCATTAATTTTGTCGTCGATCTTTTATATAAATTTATCGATCCAAGAATAAGGCAAAAGAGGTGA MRFYLYKLSMFGLTLFIVSLIIFFVFQLLPGNPAQIILGLDADEQQIHYLEQELGLNKSAIERYIDWMAGIFQGDLGESLRYQVPVSDVLAERIPVTTSIAIFSMVLTVIVGIPLGILIARMNGKRIAVFLSMFTQLGISIPSFWFGFMLILLFSVTLNWVTSFEYVAWSEDFFGALQAHLLPSLAIAISNIAVVIRYLRNTILDQSKMDYVRTATCKGLSERAVLYRHVLRNAFIPIITIIGLITADTLGGSIIIENVFALPGLGSLLIQSITSRDFPLVQSMVLYIAIIVLVINFVVDLLYKFIDPRIRQKR PGPT0004445_11827 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 AK015_00209 804 gsiD_1 COG1173 Glutathione transport system permease protein GsiD TTGAGGAATCGACTCCCCTTTTATATTGGTTTAACTTTTGTAGGATTGCTATTTGTTATGATGTTGATTGGCGTGTTTTATACACCCTATGACCCTAACGCGATTGATGCAACAAATCGACTTGCCTCACCGTCAGCTACCCACTTATTTGGCACAGACAATTTTGGCAGAGATATTTTTAGTCGTGTCATGGAAGGAACCAAGACCGCCTTTTTCATCGGAACTACTGCTGTATCCATCGGTTTATTTTTTGGCTTTCTATTCGGTGCTTTTGCTGGATACTTTGGTGGCTGGATAGACGAGATAACGATGCGTTTTATTGATGCTATGCTAGCCTTTCCTGGGATATTATTAGCAATTATGCTAGTTGCTGTCTTTGAACCAGGCATGAAAAATACGGTAATTGCACTTGGTGTTATGAGTGTTCCTGCATTTGCACGAATTATTCGTAGTACCTTTATTCAGTACAAATCGTATGATTTTGTAAAGGCTAGTATAGCAAAAGGTGGAAGTGCATTGCATATTATGATGAAGCATATTCTTCCAAATGCGTTATCACCAATATTCGTAGCAGCAAGTTTAAGCTTTTCAGGTTCTGTATTAGCGGAATCTGGTTTAAGTTATTTAGGCTTAGGAGTGCAGCCTCCTGATCCAAGCTGGGGAAGAATGTTAAAAGAAGCACAGCCTTATATCGGTAATGCTCCGTGGTATGTCATCATTGTGGGAATAGTTATTACGGTGCTTGTTTTAGGCTTTAATTTATTAAGTGATGGGATGCGTGACATCCATGATAAAAGAGCATAG MRNRLPFYIGLTFVGLLFVMMLIGVFYTPYDPNAIDATNRLASPSATHLFGTDNFGRDIFSRVMEGTKTAFFIGTTAVSIGLFFGFLFGAFAGYFGGWIDEITMRFIDAMLAFPGILLAIMLVAVFEPGMKNTVIALGVMSVPAFARIIRSTFIQYKSYDFVKASIAKGGSALHIMMKHILPNALSPIFVAASLSFSGSVLAESGLSYLGLGVQPPDPSWGRMLKEAQPYIGNAPWYVIIVGIVITVLVLGFNLLSDGMRDIHDKRA PGPT0004450_14701 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 AK015_00210 981 oppD_1 COG0444 Oligopeptide transport ATP-binding protein OppD GTGAATCAAGCTACCTTAGCAGTTCATGAACTCGATATAACTTTCCACCTTCCTGAAGGTGAATTTTACGCTTTACATAATATTTCTTTTGAAATATTTCCAAATGAAGTAGTTGGCATTGTAGGGGAGTCTGGCTGTGGGAAAAGTCTAACTGCAAAAGCCATTATGGGAACATTACCACAAAATGCGAGCATTACACGTGGAAACATGATTTTTCAGGATCGTCTGCTTCATCAGTTGTTAGATAAGGATTGGCAACGTTTAAGAGGGAATGAAATAACGATGATTTTTCAAGAAGCCATGACTTCTCTAAATCCTGTGTTAACCATTGGAAAGCAAGTTTCTGAAGTATTAAAGAAGCACACAGCTCTTTCAAAAAAAGAAAGAAAGCAACAAGTAATGAAAACATGGGAGGAAGTGGGCTTACCTAGAGCAGAAGCATTATGGAAAGCGTATCCGCACCAGCTTTCAGGAGGGATGCGTCAGCGCGTTGTTATAGCTATGGCAGTTATTGGCCAGCCGCAATTAATTATTGCAGATGAACCGACAACGGCTTTAGATGTAACCACGCAAGCTCAAATATTAGATTTATTTCAATCCATTAAACAAAATTACAAAAATGCTTTGTTATTTATTTCCCATGATTGGGGTGTCATAAGTAGCCTTTGTGATCGGGTGATGGTGATGTACGCAGGAAGAATTGTAGAACAAGGCGATGTAGATAAGCTTATGAATGAACCGAAACATCCTTATACGAAAAGCCTCCTCCAAGCTATTCCTAATGCATCCAAGCGGGGACAACGATTATATACAATTCCAGGAAACGTACCAAGTTTACAAGAGAGAAAAACAGGTTGTCCATTTTATGAGCGCTGTCCGTTAAAAATGAAACAATGTGAAGCAGTTTTTCCAGATACATATACATTTGCACGGCAAACGGTCGCTTGTCATTTATTTGCTAAAGAAGGTGAGCACCATTGA MNQATLAVHELDITFHLPEGEFYALHNISFEIFPNEVVGIVGESGCGKSLTAKAIMGTLPQNASITRGNMIFQDRLLHQLLDKDWQRLRGNEITMIFQEAMTSLNPVLTIGKQVSEVLKKHTALSKKERKQQVMKTWEEVGLPRAEALWKAYPHQLSGGMRQRVVIAMAVIGQPQLIIADEPTTALDVTTQAQILDLFQSIKQNYKNALLFISHDWGVISSLCDRVMVMYAGRIVEQGDVDKLMNEPKHPYTKSLLQAIPNASKRGQRLYTIPGNVPSLQERKTGCPFYERCPLKMKQCEAVFPDTYTFARQTVACHLFAKEGEHH PGPT0004435_11152 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 AK015_00211 798 oppF_1 COG4608 Oligopeptide transport ATP-binding protein OppF TTGAAACAGCCGCTTATAGAAGTAGAAAACCTAAAAAAATTTTATGACCAAAAGCGGGGGAAGTTTTGGGAACAAGCTTTGTATATGAAAGCTGTTAATGGTATATCGTTTACTTTATATGAGGGTGAATCATTCGGATTAGTAGGTGAGAGTGGTAGTGGCAAGTCCACGACTGGTCAATTACTTGTGCAGTTAATACAGCAAACAGAAGGGAAGATTTATTTTAAAGGACAGGATGTATCATCATTCTCTGCTAGACAGTTAAAAGCTTGGAGAAAAGAAGTGCAAATTGTTTTTCAAGATCCATTTTCTTCATTGAATCCGAAGAAAACTGTCCAATGGACGTTAGATGAGCCGCTAGCACTTCATAAAATGGGAAATAAAGCGACCCGCTATAAAAAGATCGTTCAAACATTAGATGACGTCGGTTTAGACAAATCTTATTTATCACGCTATCCTCATGAGCTTAGTGGTGGACAAAGGCAAAGGGTAGCAATTGCGGCTGCCATTATTCTCGAACCTCAATTTATTGTCATTGATGAAGGTGTTTCTGCATTAGATGTTTCTGTGCAAGCACAAATTTTAAATCTACTGAAAGATTTACAACATCAATATCAACTAACCTATTTTTTTATTTCCCATGATTTACATGTTGTGCAATATTTTTGCGATCGCATTGCTGTGATGTATTCAGGAGAAATTGTCGAAATAGGAGAAACAGAAGCAATTATTCAATCGCAGCAGCATCCGTATTCTAAATCTTTATTCACGATAGTAGATCATCATGGCAGTGCATAA MKQPLIEVENLKKFYDQKRGKFWEQALYMKAVNGISFTLYEGESFGLVGESGSGKSTTGQLLVQLIQQTEGKIYFKGQDVSSFSARQLKAWRKEVQIVFQDPFSSLNPKKTVQWTLDEPLALHKMGNKATRYKKIVQTLDDVGLDKSYLSRYPHELSGGQRQRVAIAAAIILEPQFIVIDEGVSALDVSVQAQILNLLKDLQHQYQLTYFFISHDLHVVQYFCDRIAVMYSGEIVEIGETEAIIQSQQHPYSKSLFTIVDHHGSA PGPT0021035_1470 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 AK015_00212 1203 yhhS_1 putative MFS-type transporter YhhS TTGAGTCATCAACCAAAGATTTGGACAAAAGATTTTATTAGTATTTCATTAACACAATTCTTAATTTTCATTTCTTTTTATACACTTTTAACTACATTACCTATTTTTGTTGTGCAAAATTTACATGGAAATGAAGCTGAGGCTGGTCTCGTAGTTACTTCCATGTTAATTGCCGCCATTATTATAAGACCTTTTTCTGCATTACTATTGCAAAAAACAGGAAAAAAGCGAGGACTTATTTTAAGTGTTGTTATGTTTGTCGCTATTACTTTTCTTTACATGTTTATTGAATCTTTTATTCCTCTATTAATCGTTCGTTTCTTACATGGACTAGCATTTGGGGTTGTCACTACAGCAACAGGTGCCATTGCTGCTGATATTATTCCTGCTTCACGCCGTGGGGCTGGATTAGGGTATTTTGCTATGGCAATGAATTTGGCTGTTGTTGTTGGGCCTTTTATTGGCTTAACTGTACTACAATATACAAGTTTTCAACAGCTATTTCTCCTATTAGGCATTATCATGCTCGTCACAATCATTCATGCCACCATGATACAAATCGATGAAACAGGTGTTAAATCGAATGTTCAGGAAAAACAGAAATGGACGGTACATGATTTTATAGAAACACGTGCGCTTCCTATAGCATTCATTTGTAGTCTAATAGCTTTAGCTTATTCTAGTGTTATGTCCTTTATATCTGTCTATAGTAATGTATTAGGACTTACATCTACAGCCGGGTACTTCTTTGTTGTTTTTGCAGCTGTCATGATCACCTCTAGACCCTATTTAGGAAGAATCTTTGATGTGAAAGGGCCTAAATATGTGATCATACCATGTTTATTCATTTTTTCACTTGGGCTTATCGCTCTAAGCATAACGCATTCAAGTTGGATGCTATTAACATCCGCAGCGCTTATTGGCTTAGGATTCGGAACATTATTACCTAGCTTTCAAACAATGGCTGTTCAGGCAGCACCTAAACATAGAAGCGCGCATGCAACGAGTACATTTTTTATTTTATACGATGGTGGAATGGCTCTCGGATCATTTGTTTGGGGCATCATTATTTCTTATTTCGGATTTTCTAACCTTTACTTACTAAATGCGGTAATCGTTTTGGCAGTCATTTTGCTATTTCGTTATTACTTAGGTAAAAGAACCCCATTTATACACCGTAAACGTGAAAGAATTAGCTCATAA MSHQPKIWTKDFISISLTQFLIFISFYTLLTTLPIFVVQNLHGNEAEAGLVVTSMLIAAIIIRPFSALLLQKTGKKRGLILSVVMFVAITFLYMFIESFIPLLIVRFLHGLAFGVVTTATGAIAADIIPASRRGAGLGYFAMAMNLAVVVGPFIGLTVLQYTSFQQLFLLLGIIMLVTIIHATMIQIDETGVKSNVQEKQKWTVHDFIETRALPIAFICSLIALAYSSVMSFISVYSNVLGLTSTAGYFFVVFAAVMITSRPYLGRIFDVKGPKYVIIPCLFIFSLGLIALSITHSSWMLLTSAALIGLGFGTLLPSFQTMAVQAAPKHRSAHATSTFFILYDGGMALGSFVWGIIISYFGFSNLYLLNAVIVLAVILLFRYYLGKRTPFIHRKRERISS NA NA NA NA NA AK015_00213 6057 cpdA_1 3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA ATGCAAAACAAGAAGTTTCGCACGCTTTTAGCAGCATTGACGGCGATCGTAATAATAATCGCCAATTTCTTACAACCAACATCGGTTGCTTATGCCACTGTTTCCACCCCTAAACAAGCAACAAAAACTAAAGAGGAAAAACAGCAAGAATTACCAAATCAAGATAGTGAAACTATGAATAATGATACATTGATTATGCAGCATGTTGCACCTAAAGTGATGCAACGTCTGCAACAGCATTCATTATTAGTAACTGCACCTCACGCAGAGAAAGTAAGCTTGTTTTATCAATCTACAAAGGTTTCTAAACCGATTGAAATTGACATGAAAAAAGAAGACAATGGTGAATACACTGGTGCTATTCCCAAATCAGCAACTTGGTCTGACCATATAACGTATTGGTTTGAGGGAAAGTCAGCAACAGACCAAGGAAAAACAGATCCATATACTGTTCCAATACAATCGCAAACTAGTACGAATGTACAAGCACTGCCTAAAATAATGATTACAGAAGTAGGGTTTGGTGAACAACCCTTTATCGAAATTTTCAACCATTCATCACACCCCATTGATGTAAAAGATTATTCATTACAAGTAGAGAACCAAAAAATTTCTTTTGAACAATCTTTATTGATCGCATCAGGAAAAAGTCATATTATTTGGTTTGCTAACGAAGAAGCAGATATGAATACGTTTCATAGCTTCTATGAAATGCAACCAAATAAACAACAAGTAACCGCTGTAAATAAAACTTTACTTCCTTCCACTATCAATAAACTATCATTCATAGAAAACAGCACCAATGAAGTTGTAACAGAAGGAAATGTTCACTTCACAGAGAATATGGCAGGGCAGCTTTTCTATTACACAGACCAAAAAACAGGGCGGGGTGGCGGACTTACAACAGAAGCGAACCCAGGTGAGATTTTCCCTGGACAAGTTCCAGCTGAAAGAATGGAAGTAAAAGCAGAACAACCCGAAAGCTCTAAAGAAAAAAATACCAATGAAGACGTGGTGACGAAAGAAAAGAAAAAGCAATCAAAAGATACAGAATTAGATAACAAGAAAAATGAAAAGAACGTTACAACAGATTCGTTCATCCAACATGAAGCCATTTATGATGCGACAGCTACAGATGACCTTACAATTACAGCAACTTTAACCGATGAAGTAACCGAGCTTAACCTTCAGTTCCAGACTGCAAATAAAATGGAAATGGAGGAATTGCCATTCACGAAAGATAAAGATGCCACTACCTATTCCGTTACAGTTCCTAAAGAAAAACTGTGGTCACCAAACTTTTACTATCAAATTGTTGCTCAAACGAAAGATGGTACAAGCATACCCTATCCTGAACAGGAGCCTATACATGTTACGATCAAACAAACTGATACGGATGATACACAAACAATACCCCCATTGTTAATTACAGAAATTACTCCCGACACGACAAACGTAAATCAAAAAGATGCCTATGAATTCATTGAAATCTATAACAATACAAATCAAACGATTAACATGAATGATTACCAATTATTCTATCAATATCCAGATGATATGCCTGATCAAATATGGGGTATAAGTGATAATAAAGAAATCAAACCCCAGGAAAGCTTTGTTGTATGGATTAAAAATGAAGGTAACCAACGTTTAACTTTAGCTGACTTTAATGAACAGTATGGCTTACATATGCCAGAAAGTCATGTAACCGAAATTCACAATGCTGGCATGGCTAATAGCGGAGAACGCACTTTAGTCGTTGCTGATAAATTTAACAACGAAATCGTATCCGCTACGTATAATGATACGGAAAAGGATGATACATCTCCAAACCAAGGAATTGTTTACCGTTATCCGAATCAAGGGACAAGCATGATAAAAACTGGTTTAGGACAAGCGATGACGCCATTGTCTATCCTGCCTGGACAAGTTCCAAAAAAACCTGTCATAGTGGATGACACTGCGAAAAAGCCTATTTTTGGCAAGCCAGAACTTTCCATGGATGAGGAAGGAATAACCGCTCAAATAGAGATTAAATCAGACAAACCAATATTAGGAGCTAGTCTTTCTATCTTGCAAAGTGCTGAAGCGACATATCAAACATGGCAAGCGCAAGCTTCTGAGGACGGTTCAAATACCTATTCAATAACTATCCCACTTGAGGAGATTTGGAGTGACAGCATCAAGTACTACTTCACTGCATCCAATGAGGCCGGCGAGACAAAAACAGATGTTCATTCTTATCAGCTACCAACGAAGGAGATAGACTATCAACAAGTTCCACCTCTGTTCATTACAGAAATAACTCCTGATACGACGAATAGCAATAGTGCTGATGCCTATGAATTTATCGAAGTTTATAACAATACAACAGAAGCAATTGACTTTAAAGACTATACGATCCGTTATCGCTATCCGAACACAGACGCAGGTAACGATTTACTTTGGAATCCAAACGAGAAGGACACAGTGATCATTCCACCGGGTGAAATAGTTGTTTTTTGGATCATCAACCACGGCAATAAAGAAAAAACTGCAGCCGATTTCAATGCAAACTATGGGTCCCATTTAACAGAAGGTAAAAATTTGTTTAAAATGTATAACAATGGAATGGCCAACGGGAGTAAACGGTCACTCATCGTTGCTACGAAAACTGGAAAAGAACTTTCTTACTCCACGTATAACGATGTAGTTGATGTTGATGATACAACAGCGGATAAAGGTATTTTCTACCGTTTCCCGACAGATGGCGGCTTGCATACTGCTAAAATAAGTGCAGGCGAATGGGATGCTACACCAGGTGAAGTATTAACAGAACAAGTTCCTAGAAAGAAAGTTGTCTTTCCTAAAGATACGGAAAAACCTGTCATTAAAAATACAACCAAGAAAAAAGAAATTACATCGGAACAGCCTTTTACATTATCTGCCACCATTACCGATAATGCAGACGTCAAAAGCGTATCTGTTCATTATCGTACAGATGGGGGAGAGTTTAGAAAGGCGAATTTGGAGACACAAGCAACTAACCGTTATGAGCATATCATTTATGAGCCAGAGTTAATCGGAAAAGATACATTAGAATATTACTTTACAGCGAGTGATGGAGTAAACAAAACTACTTCTCCTATAAGCACTGTTTCCATTGATAACCCAACAATGCAAGAAGGGCTAAGACTTAATATACAAGATAATGAATTTATTTCTGGGAAAAAAGTCATAAAAGCTACCGCTGACAGTACAGAAGTAGAACCGAGCTTATTTGTTGATCAAAAGCAAGTAACAGATACATTTAAAGCGATGGAAGCGGACGCTTATTTCGCGTTTGATGTACGTGAGACAAATATTTACTTTAAAAATGGGGTGACTATGAGAGATGAAATACTCCACATATTTGATGATACACATACAAAATTTACTACGATTACCGTCCCAGTTTCTGCTGATAAATTAAAACAAGGAGAAAACACGATCTCCATTCGAGCAGGTAATAAAGTCAGCCCTTTTGATGCAACATCTCAAGAGAACCGAGATGATTTCACAATTAAAAATATTCGCCTCGTGCTTTCCGATGGGACGACGATTTACGACCCAGCGTACAGTAAACCGAATCAAGATTACTCCATTGGCGATAGCTCAGGCAAAAAGCCTGTCTATGATTTCACTTTCACATTGGATGAAAGGGCATTTGCATCGACAGCTTATGTTTTCGATACAACCAAAGTGGACGATGGAAAGCATGAAATAAAAACGGTTTTAAAGAATGAAAAAGTAACCAAACAGGTGATTACAGATAATACTGCTCCAACGATCACGCCTTCTATAAAAAATGGTGAAACATATAAAGGAGCTTTTACCATTGACGCTGATGCCAAAGATGCAACAAGCAACGTTGAATCTATAACTGCTCAGTTAGATGGAGATCATATATCCTTACCGTATAATACCTCTTCTTCCCTGTTAGAGCCTGGGAAACATGAGCTCAGTTTTCAAGCTACGGATACAGCAAATAACCAAACAGAAAAGAAAGTAACATTTTACGTAGACGAAGAACATCCGCTGCTACCTAATTGGTTAGGGAATAATTCTGATAGCACAAGTGCCAACTTATCTGTTACCGTACATGACCCAACCAACGATGCCATGGATGTTGATTTTTATCAATCCTACCAGTATACAGCAGATGATCCAAATATAACCATTTCACAAAATGCTGTAGACACAGAACCGCCGCAAAGTTATTTACCAGAGGGCGAAGAAAGATTAACAAAAAAACAGCTGAAGCATTTACAGACAATCGATGGCAATCAAATAGATACGACCTCTGATTACCAATTTCCATATCATCGTTTTGACGTTACGGTTGATGAACAAGTAGATGCAAACGACGAAATAGAAATTGTTTGGGATGGTTCTTCCTTAGAAGGTCGAAAAGTAACGATGTACGCTTGGAACTATGCGACAAGCAAGTGGGATGCGCTTGTATCCACCATCGCTGGCACAGATCCGTTTGAACTCATCGGCTCTGTAAAAGGAACAGAGTATATGCAAGACCAAAAAGTTAGTGTTATTGTTCAAGATCAAATTGCTGACCTTGGAGAAAACTTCAGCTTTGTTTGGATGGCGGACACCCAATACTATTCAGAAAGTTATCCACATATTTATGAAAGACAAACAGAATGGATTGCAGAGAATAAAGAAGCTTTAAATATAGAGTATGTCTTTCATTCAGGTGATCTAGTAGATGTTTACGACGATCTAGAACAATGGGATGTAGCTAACCGGTCAATGAATATACTAGATAAGGCTAATATCCCTTACGGCGTTGTTGCTGGCAACCATGATGTAAACAACAAAAGTCGTGATTACAGTTATTATGGACGTTTCTTTGGTGAAGACCGTTTTAAAGACAAACAATTTTATGGTGGTTCATTTAAAGACAACCGCGGCCACTATGATCTGATGTCTGTGAATGGAATTGATTTTATTATGGTTCATCTTGGCTGGGGGATTGAAGAGGATGGAATTGAATGGTTAAATAAAGTGTTACAAGCACATCCAAATCGCAAAGCTATCCTTAATGTGCATGAATATTTATTAGCTACTGGAAGCAGAAGCCCTACTGGCGATCAATTGTTTGAAGAAGTTGTTATTCCAAATGAGAATGTATTCGCTGTATTATCCGGTCATTACCATAATGCTCAAACATTAATAGATGACATTGATGATAATGGAGATGGGATTACGGATCGGACCGTTTATCAAATGTTAGCAGACTACCAAGGTGGGCCAGAAGGCGGACAAGGATATTTACGGATATTGAACTTTAATATGGATACAAATCAAATTGATGTAGAGACTTATTCACCATATCTAGATGATTACAACTACTATGACCCAGAGGAATACCCTGGAAAAGATACATTTTCGTTTGATTTTGATATGTCGGCACAAACGAAGCGAGTGGCTACAGATTATGTAGAAGTAAATGTGTATACAGATGAAAAAATTGGTTCTGTAAAAGATGTCCCTAGTGGTGAAAAAGCAGCGATCGTTTGGGAAGGATTAGATCCAAATAGCGAATACTTCTGGCATACCGTAGCTTCCGACCAATACGGCGGTAAAACACGATCCGATATTTGGAGGTTTTTAACCATCGATGGGGAAATTATAGTACCTGAAGAACCGGATAATCCTACTTCCCCAACAGATCCGGAACAGCCCTCTGGAGAAGATAAAACCAATGGTGGATACATGGACCAAAACGATCAAAACGCCGATGAGAATGCTTTCAATACAGGAGAAAAAGGCAACGGAAAACCATCCATTCAACAACCAAGCTCGGAGGATAATCAAGAGGGAAGAAATAAACATCAGTTTGACGATAGAATGCCATCGATTGAAAATACGTCAAAGCCTCATCAAGCAGGATCCTCCTTACCAAACACAGCAACAAATATGTTTAACGCTCTATTTATTGGAATAACGCTATTACTATTAGGTTCAAGCATATGGCTCATTCTTCTTTATCGAAAAAAAGGGCAGGCACTAAATGAATAA MQNKKFRTLLAALTAIVIIIANFLQPTSVAYATVSTPKQATKTKEEKQQELPNQDSETMNNDTLIMQHVAPKVMQRLQQHSLLVTAPHAEKVSLFYQSTKVSKPIEIDMKKEDNGEYTGAIPKSATWSDHITYWFEGKSATDQGKTDPYTVPIQSQTSTNVQALPKIMITEVGFGEQPFIEIFNHSSHPIDVKDYSLQVENQKISFEQSLLIASGKSHIIWFANEEADMNTFHSFYEMQPNKQQVTAVNKTLLPSTINKLSFIENSTNEVVTEGNVHFTENMAGQLFYYTDQKTGRGGGLTTEANPGEIFPGQVPAERMEVKAEQPESSKEKNTNEDVVTKEKKKQSKDTELDNKKNEKNVTTDSFIQHEAIYDATATDDLTITATLTDEVTELNLQFQTANKMEMEELPFTKDKDATTYSVTVPKEKLWSPNFYYQIVAQTKDGTSIPYPEQEPIHVTIKQTDTDDTQTIPPLLITEITPDTTNVNQKDAYEFIEIYNNTNQTINMNDYQLFYQYPDDMPDQIWGISDNKEIKPQESFVVWIKNEGNQRLTLADFNEQYGLHMPESHVTEIHNAGMANSGERTLVVADKFNNEIVSATYNDTEKDDTSPNQGIVYRYPNQGTSMIKTGLGQAMTPLSILPGQVPKKPVIVDDTAKKPIFGKPELSMDEEGITAQIEIKSDKPILGASLSILQSAEATYQTWQAQASEDGSNTYSITIPLEEIWSDSIKYYFTASNEAGETKTDVHSYQLPTKEIDYQQVPPLFITEITPDTTNSNSADAYEFIEVYNNTTEAIDFKDYTIRYRYPNTDAGNDLLWNPNEKDTVIIPPGEIVVFWIINHGNKEKTAADFNANYGSHLTEGKNLFKMYNNGMANGSKRSLIVATKTGKELSYSTYNDVVDVDDTTADKGIFYRFPTDGGLHTAKISAGEWDATPGEVLTEQVPRKKVVFPKDTEKPVIKNTTKKKEITSEQPFTLSATITDNADVKSVSVHYRTDGGEFRKANLETQATNRYEHIIYEPELIGKDTLEYYFTASDGVNKTTSPISTVSIDNPTMQEGLRLNIQDNEFISGKKVIKATADSTEVEPSLFVDQKQVTDTFKAMEADAYFAFDVRETNIYFKNGVTMRDEILHIFDDTHTKFTTITVPVSADKLKQGENTISIRAGNKVSPFDATSQENRDDFTIKNIRLVLSDGTTIYDPAYSKPNQDYSIGDSSGKKPVYDFTFTLDERAFASTAYVFDTTKVDDGKHEIKTVLKNEKVTKQVITDNTAPTITPSIKNGETYKGAFTIDADAKDATSNVESITAQLDGDHISLPYNTSSSLLEPGKHELSFQATDTANNQTEKKVTFYVDEEHPLLPNWLGNNSDSTSANLSVTVHDPTNDAMDVDFYQSYQYTADDPNITISQNAVDTEPPQSYLPEGEERLTKKQLKHLQTIDGNQIDTTSDYQFPYHRFDVTVDEQVDANDEIEIVWDGSSLEGRKVTMYAWNYATSKWDALVSTIAGTDPFELIGSVKGTEYMQDQKVSVIVQDQIADLGENFSFVWMADTQYYSESYPHIYERQTEWIAENKEALNIEYVFHSGDLVDVYDDLEQWDVANRSMNILDKANIPYGVVAGNHDVNNKSRDYSYYGRFFGEDRFKDKQFYGGSFKDNRGHYDLMSVNGIDFIMVHLGWGIEEDGIEWLNKVLQAHPNRKAILNVHEYLLATGSRSPTGDQLFEEVVIPNENVFAVLSGHYHNAQTLIDDIDDNGDGITDRTVYQMLADYQGGPEGGQGYLRILNFNMDTNQIDVETYSPYLDDYNYYDPEEYPGKDTFSFDFDMSAQTKRVATDYVEVNVYTDEKIGSVKDVPSGEKAAIVWEGLDPNSEYFWHTVASDQYGGKTRSDIWRFLTIDGEIIVPEEPDNPTSPTDPEQPSGEDKTNGGYMDQNDQNADENAFNTGEKGNGKPSIQQPSSEDNQEGRNKHQFDDRMPSIENTSKPHQAGSSLPNTATNMFNALFIGITLLLLGSSIWLILLYRKKGQALNE NA NA NA NA NA AK015_00214 1599 aspT_1 Aspartate/alanine antiporter ATGGAAACATTACTTCACGATTTACTAGACGAACAACTTATTTTAGTTTTTGCCATTTTACTAATTGGCTCTTTTCTTGGTCAACTTAAATTAAAAGGACTAAGCTTCGGTTCTGCCGGAGTTTTACTTGTTGCTATGATTTTTGGACATTTTGGATATAACGTATCGCCAATTGTACAAAACCTAGGTTTGAGCTTATTTATAGTAGCTATCGGTTTACAGGCTGGCCCACGATTTTTCAGAATGATCCGTTCTAATGGAATTATATTTTGTAGTATCTCTTTATGTATTGTTACCAGTGCAGTCATCACTACCATTATAGTTGCAAAAACATTTGATCTTGAAGCAGCGCTAAGCATTGGATTAATGACCGGAGCATTAACAAGTACTCCTGGTTTAGCTGCAGCATTACAAGCAACAAATGATTCCATCGCTTCTGTCGGTTATGGAATTGGGTACCCTTTCGGTGTGCTAGCAATCATTTTATTTGTTCAGCTTTTGCCTCGTTTTAGTAAAGTCGACTTAATGAAAGATTTAGAGGCATCAAAAAATCCAATTAAAGATGAACATTCACCTGAAGTGATGTCATTTAAAGTAACCAATCCAAAACTTCATAGAAGAACCTTAAAAGAGCTTGCGATTAGTAAAAAGGATGTCGTAATTAGCAGAATTATTCGCAACGGACATACGATGATTGCTCTCAGCGATACTCCTGTACTTATGGGGGACAACCTTGTTACTGTTGGAGAAGAAGATGAACTGAAATCTTTTGGTACTTATGTCGGACAAAAAGTAACCACGCAACTAGAAAACCCAGATAATATACGGTTTAAAAAAATCACTGTAGAAGACGAGTCCGTTATTGGAAAAAGCATGAAGGAATTAAAATTGAGAAAAAAATATGGTGCCACCGTAACTAGAATTGAACGTGAAGGACTAGAATTAAAGCAACATCCTACGATGCGCTTGCTCCGAGGTGATGTTTTAACCATTGTAAGCACGGAAAATCGTTTGAACCAAGTTGAAAAACTATTTTCGCGAAAAAACCCAGCCGTCACCAATGTACACATTTTCTCGATCAGTATAACACTATTATTAGGAATCATTGTTGGTATGCTCCCCATTTTCATTCCAGGGTTAGGAACAATTAAACTAGGAATAGCTGGCGGGCCACTTTTTGTTGCTTTGATTGTTGGGCATTTCGGTAACATTGGACCCATACATGTACGTTATTATGCCCCAGCAAACCATGTCATTCGAGAATTAGGTCTTGTATTATTTCTAGCAGGTGCTGGAACAACAGCGGGACAGGGACTTGTAAATGTGATACAAACAGAAGGAGTGAAGCTTGCGGTTGGAGGAACGATCATCACGCTTGTGCCACTCTTTATCGGTTATTTAGTAGCAAAAAAACTATTTAAGCTTAGCATTGTGCACTCACTTGGTTCACTGTGCGGCGGTAGGACGAGCACTCCTGCTTTAGGTGCATTAAATCAAGTGATAGATTCCGATGATGCCGTTATTGCCTACGCTGCTGCTTACCCATTTTCACTGATTTTTGTTGCTATTTCAACACAATTAATGATGTTTTTTCTGTAA METLLHDLLDEQLILVFAILLIGSFLGQLKLKGLSFGSAGVLLVAMIFGHFGYNVSPIVQNLGLSLFIVAIGLQAGPRFFRMIRSNGIIFCSISLCIVTSAVITTIIVAKTFDLEAALSIGLMTGALTSTPGLAAALQATNDSIASVGYGIGYPFGVLAIILFVQLLPRFSKVDLMKDLEASKNPIKDEHSPEVMSFKVTNPKLHRRTLKELAISKKDVVISRIIRNGHTMIALSDTPVLMGDNLVTVGEEDELKSFGTYVGQKVTTQLENPDNIRFKKITVEDESVIGKSMKELKLRKKYGATVTRIEREGLELKQHPTMRLLRGDVLTIVSTENRLNQVEKLFSRKNPAVTNVHIFSISITLLLGIIVGMLPIFIPGLGTIKLGIAGGPLFVALIVGHFGNIGPIHVRYYAPANHVIRELGLVLFLAGAGTTAGQGLVNVIQTEGVKLAVGGTIITLVPLFIGYLVAKKLFKLSIVHSLGSLCGGRTSTPALGALNQVIDSDDAVIAYAAAYPFSLIFVAISTQLMMFFL PGPT0000709_1324 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_ALANINE_TRANSPORT,PGPT0000709-aspT|ybjL|yidE-K07085 NA NA AK015_00215 1122 scmP_1 COG1473 N-acetylcysteine deacetylase ATGACTAGCTTAGAACAAAAGATAAAAGGCACGTTCCATCATTTACATAACCATGCAGAAATTAGTTGGGAAGAGAAAGAAACGACCAACTATATCAAGTACATTCTTCAAAAAGCAGGGTGTGATGTGCATACATTCACAGATCACACAGGGGTTATTGGGCGATTTGGAAACTTTGAAAAAGATTTACCAGTGGTAGCCATTCGAGCTGATATCGACGCACTTTGGCAAGAGGTAGATGGCACATTTCAAGCCAATCATTCTTGTGGACATGACGCACATATGGCTATGGTATTAGGGGTGTTATGGAAAATAAAACAAAGCCCCAGTCTTCAAGACAAGGTAGCGATAAAGTTTATTTTTCAACCTGCAGAAGAAACAGGAACTGGCGCATTAAAATTAGTAGAAAAAGGTGTTGTAGAAGATGTCGATTATTTATTTGGCGTCCATTTACGACCAAAACAAGAGACACCGATGCACGATGCAGCTCCAGTTATTGTGCATGGAGCATGTAAAACATACAAAGCGAAGATTATTGGTGTAGACGCACATGGGGCAAGACCGCACTTAAATACGAATGCGATTGAAGTTGGTGCACAAATTGTACAATTACTGAGTAAGATTCATTTAGATCCAACCGTCCCCCATTCTGTAAAAATGACGAACTTCCAAGCTGGTAGTAAGAGCACCAACATTATACCTGGAAGTGCTACCTTTGCAATCGACATGCGGGCACAAACGAACGAAGCGATGGATGAGCTAGATAAGCAAGTAGGAGCCATTTTTGATTCAATACAACATCTTTACCCAATTAAGATAGACATTATGGAGAACCATGGCATTGCTGCAGCCAAAACAAATAAGGAAGCAACATCTATAATGACAACTGCAATTACCAATGTGTTAGGGCAAGAAGCCGTTCAGCCCCCTTTAATTACTCCTGGAGGAGATGATTTTCACTTCTATACGATTAAGAAGCCAGAATTAAAAGCGACTATGCTAGGTCTCGGTTGTGATTTAACGCCAGGATTACATCACCCACAAATGACATTTAATTCTGATGCACTCATCAACGGTGTTGAAATTCTAACGGAAGCAGTTCGACAAGTTTATGAATTCTAG MTSLEQKIKGTFHHLHNHAEISWEEKETTNYIKYILQKAGCDVHTFTDHTGVIGRFGNFEKDLPVVAIRADIDALWQEVDGTFQANHSCGHDAHMAMVLGVLWKIKQSPSLQDKVAIKFIFQPAEETGTGALKLVEKGVVEDVDYLFGVHLRPKQETPMHDAAPVIVHGACKTYKAKIIGVDAHGARPHLNTNAIEVGAQIVQLLSKIHLDPTVPHSVKMTNFQAGSKSTNIIPGSATFAIDMRAQTNEAMDELDKQVGAIFDSIQHLYPIKIDIMENHGIAAAKTNKEATSIMTTAITNVLGQEAVQPPLITPGGDDFHFYTIKKPELKATMLGLGCDLTPGLHHPQMTFNSDALINGVEILTEAVRQVYEF PGPT0013588_13 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013588-opuAC-NA NA NA AK015_00216 1419 hypothetical protein ATGAAAAATTCATCAGGATTCACACAAAAAGACAAGAAGAAGCTAGGCTTGCCAGATGCTTATGTTATTTTATTTATGATTTTAGTGCTAGCTGCTATTGCCACGTATATTATCCCAGCGGGGAGTTTTGAGCGGGAAACAGTGGATGACAAAACGATAGTAGTGCCTGATAGTTATCAACAAGCCGAGCAAGAGCCAGCTTCATTTATGGATTTATTTGTATCTATTCAACAGGGAATGATTGATTCAGCAGGACTTATCTTCTTAGTACTTATCATTGGTGGTGCTTTTGGAGTTATTGAGTATACAGGAGCTATCGATGCACTTATTATGAAGACAATTAATAAAACGAAGAATAAGGAATATTTACTGATTATTCTCGTTAGTACGTTATTTTCGATATTTGGAGCATTAGGAATTATAGTAAATGCTGTCATTGCATTTATACCAATTGGGATTATCCTAGCGCGTTCTATGAAATTAGACGCTATTGTTGGCGTGTCCATTATATATTTGGGAGCTTATGCAGGGTTTAACACAGCATTTCTTGATCCGTTAACAACAGGGATGGCTCAGGAAATTGCTCAAGTTCCTCTTTTCTCAGGTATTAGCTATCGAATCCTCATTTATGTAACTGTACTTGGATCTACGATTGGCTATATTTGGTGGTATGCGAATCGAATTAAAAAAGATCCAACCAAAAGTGTATTAGGAGACAACCCATTTCCAAAATCAGAAGAAAAAGCTTTCGAAAGTATTCCTGCACAACTTACCACTGTTCATAAGTTAGTATTAACATGGCTAGCGGTTGGCATAGCTATTTATGTGTTTGGTGTCTTTCAGTATGATTGGTCGCTAAACCAAATGGCCGCTATGTTTATCGTTATTGCAATAGGAACAGCTTTTCTTGCTAGAATGCATCCTAATGAACTCGTTACACAATTTTTTAATGGTTGCCGTGGTTTAGTATATGGAGCATTAATTATTGGAATGGCTCGTTCTATCGTTGTTGTTTTAGAAAACGGTCAAATTTTGGATACGATTGTCCAAGGGATGGCTACAATCATGGACCCATTCTCCAGTGCATTAGGCGCAAATATGATGTTTTTAGCTAATTTTTTGTTTAACATCATCGTTTCCTCTGGAAGTGGACAAGCAGTAATTGTCATGCCTATTATGACCCCTTTAGCAGATATGATGGAAATTCCAAGACAAGTAGCCGTTCAAGCATATAAAATGGGGGATGGATTTTCAAACGTCCTTACACCTATATCAGGAATTTTAATGGCTACCTTAGCAATAGCGGGTGTTTCCTGGGTGAAGTGGGTTAAATTTATTATACCTTTAGTAATTATTTGGTTCATTATCGGTATTGTCTACTTAACTGTTGCAGTATTTATTGGTTGGGGGCCTGTATAG MKNSSGFTQKDKKKLGLPDAYVILFMILVLAAIATYIIPAGSFERETVDDKTIVVPDSYQQAEQEPASFMDLFVSIQQGMIDSAGLIFLVLIIGGAFGVIEYTGAIDALIMKTINKTKNKEYLLIILVSTLFSIFGALGIIVNAVIAFIPIGIILARSMKLDAIVGVSIIYLGAYAGFNTAFLDPLTTGMAQEIAQVPLFSGISYRILIYVTVLGSTIGYIWWYANRIKKDPTKSVLGDNPFPKSEEKAFESIPAQLTTVHKLVLTWLAVGIAIYVFGVFQYDWSLNQMAAMFIVIAIGTAFLARMHPNELVTQFFNGCRGLVYGALIIGMARSIVVVLENGQILDTIVQGMATIMDPFSSALGANMMFLANFLFNIIVSSGSGQAVIVMPIMTPLADMMEIPRQVAVQAYKMGDGFSNVLTPISGILMATLAIAGVSWVKWVKFIIPLVIIWFIIGIVYLTVAVFIGWGPV NA NA NA NA NA AK015_00217 132 hypothetical protein ATGATTTCGATGTTTCGCTGTTGTGGATTTCCTTGCCCTATGGGAAAGCGTAGTGTTTTTCCGCAGCGGTCATTAGCTACATTTCGCTTAGCTGGAAATATTGAGGTTGCAAAAATGTCGAGAAAAACTTGA MISMFRCCGFPCPMGKRSVFPQRSLATFRLAGNIEVAKMSRKT NA NA NA NA NA AK015_00218 1110 menC COG4948 o-succinylbenzoate synthase GTGGATATTTCAGAAATTATTTTATATCAATTGAAAATGAAAATGAAACACCCATTTACAACAAGCTTTGGTACTGAGCAAGATCGTGATTTTTTATTAGTAGAGGTGAAAGATGCTAGTGGTCGATCTGGCTGGGGCGAAGGTGTAGCTTCCGAACGTCCGTTGTATAGTGAAGAATTTACGCAACAAAGCTGGATGATGCTTGAACAGTTTCTCATTCCAGAGGCAATGAAACAAGAGATAAGCCACCCAAACGATTTACAACATACGTTTAAACCGTATAAAGGCAATTATATGGCTAAATCAGCTTTGGAAGGTGCTATGTGGGATTTGTATGCAAAACAGCAAGAAAAGTCTTTATCTTCCATGCTAGGTGGAATCAAAAAGCAAATCGAAGTGGGGATTAGTTTAGGAATCGAGGAAAATATTGAAGAATTATTAGCGAATATTCAGGAAAAAGTGGCTGAAGGTTATAAACGAATTAAAATAAAAATTAAGCCTGGTAAAGATGTGGATGTAGTACGAGAAGTACGTAAGCATTTTCCAGATATTCCTTTAATGGTAGATGCAAACTCTGCTTATACACTGGATGATATTGACACGTTGAAAGCTTTGGATACGTTCCATTTAATGATGATCGAGCAGCCGCTTGCAGCAGATGATATCCTTGACCATGCTACGTTACAAAAAGAAATTGAAACACCAGTGTGTCTAGATGAAAGCATCCATTCTTATGAAGATGCTCGGAAAGCAATTGCTTTAGGAAGTTGCAAAATAATTAATTTAAAAATCGGTCGTGTAGGCGGATTGACCGAATCAAAACGAATTCATGACCTATGTGAACAAGCAGGGATACCCTTATGGTGTGGGGGGATGTTAGAGTCTGGTGTTGGACGCGCACACAATATTGCTATTGCTTCGCTAGCCAACTTTACACTTCCGGGAGACACAGCGTCTTCTTCTAGATATTGGGAAAAAGATATTATTAATCCGGATGTAGTGGCAGAAGACGGTGTCTTAACAGTAAATGATGCGCCAGGAATTGGTTATAAAGTTTTAAAAGATGAGGTTGAAAAGCATACGATAAGAAAGAAACAGTTTAAAAAGTAA MDISEIILYQLKMKMKHPFTTSFGTEQDRDFLLVEVKDASGRSGWGEGVASERPLYSEEFTQQSWMMLEQFLIPEAMKQEISHPNDLQHTFKPYKGNYMAKSALEGAMWDLYAKQQEKSLSSMLGGIKKQIEVGISLGIEENIEELLANIQEKVAEGYKRIKIKIKPGKDVDVVREVRKHFPDIPLMVDANSAYTLDDIDTLKALDTFHLMMIEQPLAADDILDHATLQKEIETPVCLDESIHSYEDARKAIALGSCKIINLKIGRVGGLTESKRIHDLCEQAGIPLWCGGMLESGVGRAHNIAIASLANFTLPGDTASSSRYWEKDIINPDVVAEDGVLTVNDAPGIGYKVLKDEVEKHTIRKKQFKK PGPT0009375_438 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549 NA NA AK015_00219 1599 aspT_2 Aspartate/alanine antiporter ATGGAAGATTTACTACACGATTTACTTAATGAACAGCTTATTTTAGTCTTTGTTATTTTGTTTTTAGGATCATTATTAGGACAAATAAAAATGAAAGGCATCTGTCTAGGATCAGCTGGCGTTTTAGTAATTGCGATGCTTTTTGGACATTTTGGCTATCAAGTATCAACAGCAGTACAAAATTTGGGACTTAGCTTATTCATAGTTGCTGTCGGTCTACAGGCGGGGCCGCGTTTTTTCCGTATGATGCGTTCTAATGGTATCGTTTTTTGTCTCATTTCTCTATTTATCGTCATTAGTGCAGCTGTAACTTCTGTTGTCGTTGCTAAAATTTTCGACCTGCCAACAGCACTAGCTATTGGGTTATTAACAGGAGCATTAACAAATACCTCAGGCTTAGCAGCAGCCCTGCAAGCAACCAATGACCCGATGGCATCTGTTGGTTATGGGATTGCCTATCCATTCGGCGTGCTTGCTATTATACTATTCGTTCAGCTTTTACCGCGTATTGGGAAGATAAACCTTGCCAAAGATTTAGAAAAAACAAACAGCCCGATAAAAACAGAACACTCGCCAGAAGTAATGACATTTAAAGTAACGAACCCAAAATTGCATAAAAAAACATTACGCGAGCTCGGTTTTAGTCGTAATTCGGTCGTAATCAGCCGGATTATCCGAGGAGTTCATACCATGATTGCACTTCACGACACTACTATTTTATTAGGAGATTACCTCGTTTCCGTTGGTGAAGCTGATGAACTGAAAGCTTTTGGAGAACATGTTGGTGAACCAGTCAATGCAACGATGGATAACCCTGATAATATACAATTACGGAAGATTACGGTTGAGGATGAAGATTTAGTTGGTAAGAATATGAAAGAACTTAGACTGAGGAGAGATTATGGGGCAACCGTAACCAGAATTGAACGAGATGGAATCGAGCTAAATCAAAATCCAAATACTCCTTTACTTCGTGGAGACGTTTTAACGATGGTAAGTAGTGAAAATCGATTAGAAGAAATAGAAAAATTCTTTTCTCGTAAAAAACTATCTGTAACAAATATTCACATCCTATCCATCAGTGTCACGCTTTTAGTCGGTATTTTAGTTGGAATGCTTCCAATTCCTATACCAGGATTAGGAACGATGCAACTTGGGCTAGCAGGAGGCCCTTTAATTGTTGCTTTAATCATTGGGCACTTTGGAAAACTCGGTCCCATCCATGTACGATATTACGGTCCAGCTATTCACGTTATAAGCGAATTAGGTCTTGTCTTATTTTTGGCAGGCGCTGGAACAACAGCAGGCCAAGGTTTAATTGATGTGATCCAAAAGCAAGGTGTCGTATTAGTTGTTAGTGGAACTATTATAACGACTGTGTCCATCTTATGCGGATATTTTGCAGCAAGAAAACTGTTCAAGTTCGGCGTTGTCTACTCTCTAGGTACTTTATGTGGTGGTAGAACATGTACGCCTGGACTCGGTGCTTTAAATTTACAAATAGATTCTGAAGAACCAGCCATTGCTTATGCTGCGGCTTATCCTTTTTCACTTATTTTTGGTACGGTTGCCGCTCAATTTGTGTTAGTTTTCTTCTAA MEDLLHDLLNEQLILVFVILFLGSLLGQIKMKGICLGSAGVLVIAMLFGHFGYQVSTAVQNLGLSLFIVAVGLQAGPRFFRMMRSNGIVFCLISLFIVISAAVTSVVVAKIFDLPTALAIGLLTGALTNTSGLAAALQATNDPMASVGYGIAYPFGVLAIILFVQLLPRIGKINLAKDLEKTNSPIKTEHSPEVMTFKVTNPKLHKKTLRELGFSRNSVVISRIIRGVHTMIALHDTTILLGDYLVSVGEADELKAFGEHVGEPVNATMDNPDNIQLRKITVEDEDLVGKNMKELRLRRDYGATVTRIERDGIELNQNPNTPLLRGDVLTMVSSENRLEEIEKFFSRKKLSVTNIHILSISVTLLVGILVGMLPIPIPGLGTMQLGLAGGPLIVALIIGHFGKLGPIHVRYYGPAIHVISELGLVLFLAGAGTTAGQGLIDVIQKQGVVLVVSGTIITTVSILCGYFAARKLFKFGVVYSLGTLCGGRTCTPGLGALNLQIDSEEPAIAYAAAYPFSLIFGTVAAQFVLVFF PGPT0000709_1321 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_ALANINE_TRANSPORT,PGPT0000709-aspT|ybjL|yidE-K07085 NA NA AK015_00220 1092 nos COG4362 Nitric oxide synthase oxygenase ATGCATTATAATCAAAAGCAACTATGGGCAGAAGCTGTACACTTTTTGCAACTGTATCACAATGAATGTGGATTAGAAAAAGAGCTTGAATACCGACTACAAGAGGTACAACGTGAAATGGAACAAACAGGCACTTATGAGCATACGTATGGGGAATTAACCTACGGGGCGAAAGTAGCTTGGAGAAATTCTAACCGTTGTATTGGTAGGTTGTTTTGGGAGCGTATGGAAGTTATTGATGCGCGTTCTGTGAACAAAAGCCAACATGTTTTTGAAAAGTTATTGCATCACATTCGTTACGCTGGAAACAGCGGGAAAATTCGACCGTTAATTACGATATTTTCACCAACAAAAAATGGACATGCTCCAGTAAAAATATGGAACCATCAGTTGCTTCGCTACGCTGGTTACCAATCAGAGAATGGAGTGATAGGTGATCCTAATTCGATTACTTTTACACAGCAATGTCAAAAACTTGGCTGGAAAGGGGAGGGAACTCCTTTTGATTTGCTCCCATTAGTCATCCAAGTTGATGATGGGGAACTAGAGTGGATGGAGATTCCTAGCGATATTGTTTTAGAAATTCCCATCCAACATCCAACGGAAGATATTTTTGCTCAGCAAGAAGTAAAATGGTATGGTGTACCAATTATTTCTGATATGTGCTTGGAAATAGGTGGTATAAGTTATCATGCTGCCCCGTTTAACGGATGGTACATGGGAACTGAAATTGGGGCGAGAAACCTTGCTGATGAGAACCGTTATAATTTATTACCTTTAGTGGCGAAACAGTTGGGGTTAAACACAAAGCATTTAAATACATTATGGAAAGATCGCGCTTTAGTTGAATTAAACATTGCGGTTTTAGAGTCATTTAAACAAGCAGGGGTTTCCATTGTTGATCATCATACAGCAGCTAAACAATTTGCCGTATTTGAAAAGAATGAACAAAAACAAGGTAGAACAGTTACTGGTAAATGGTCATGGCTTATTCCTCCATTGTCACCAGCAACTACACATATTTTTCATAAGCCATTTGATAATACAGTGCATAAACCAAATTTTTTCTATTCAAAACATAATCAGGGTTGA MHYNQKQLWAEAVHFLQLYHNECGLEKELEYRLQEVQREMEQTGTYEHTYGELTYGAKVAWRNSNRCIGRLFWERMEVIDARSVNKSQHVFEKLLHHIRYAGNSGKIRPLITIFSPTKNGHAPVKIWNHQLLRYAGYQSENGVIGDPNSITFTQQCQKLGWKGEGTPFDLLPLVIQVDDGELEWMEIPSDIVLEIPIQHPTEDIFAQQEVKWYGVPIISDMCLEIGGISYHAAPFNGWYMGTEIGARNLADENRYNLLPLVAKQLGLNTKHLNTLWKDRALVELNIAVLESFKQAGVSIVDHHTAAKQFAVFEKNEQKQGRTVTGKWSWLIPPLSPATTHIFHKPFDNTVHKPNFFYSKHNQG PGPT0020095_201 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 AK015_00221 846 glcT COG3711 PtsGHI operon antiterminator TTGAACACGTTTACGGTTAAGAAATCACTAAATAATAACGTCCTCATTGCTTTGGATAATCAACAAAATGAAGTCGTCTTGATTGGTAATGGAATTGGTTTTCATTATAAGAAAAAAGACATTATCCATAAAGAGCAAATAGAAAAGCTGTTTGTATTACGTGATGAACAGGCGCAGGCGCAATATAAGCAATTGCTTCCAAACATAGATCATACATTGTTGGATTCCATTGTTAAAGCGGTAGAATTAATTCAGAAACGATCACATGTTATGTTGAATGAATCCGTTCATGTGGCTCTAACTGATCATGTGTTGTTTGCTTACCATCGTATGCTAAAAGGTTTGGAAATAAAAAATCCTTTTCTTGCCGAAACAAAAGCATTATATCCTTTTGAGTATGAGATCGCCTCAGAAATTGTTGAAGACATGAATCATAGGTTAAATATTCATCTTCCTGAAGGGGAAATTGGCTTTATTGCTTTACATGTACACAGTGCCATATCGAATAAAGCTCTCTCCGATATTAATAAATACTCCCAATTGGTTACACAATTTGTCGATATTATTGAAGAACAATTGAAAATTAAAGTGGACAGAGGCGGGATAGAATACGTACGCCTTGTTCGGCATGTACGCTATACGATCGAACGCGTGTTAAAAGGGGAAACAGTAGATGAACCAGTTAAGATAGCTTCCCTCTTGAAAAAGGAATACCCAACATGTTATAATCTAGCGTGGAAATTGATTAAAATGATGCAACAAACATTAAAGCAACCTGTATATGAAGCGGAAGCGGTGTATTTAACGATGCACTTGCAACGCCTCTATCAAAAACATGACTCATAA MNTFTVKKSLNNNVLIALDNQQNEVVLIGNGIGFHYKKKDIIHKEQIEKLFVLRDEQAQAQYKQLLPNIDHTLLDSIVKAVELIQKRSHVMLNESVHVALTDHVLFAYHRMLKGLEIKNPFLAETKALYPFEYEIASEIVEDMNHRLNIHLPEGEIGFIALHVHSAISNKALSDINKYSQLVTQFVDIIEEQLKIKVDRGGIEYVRLVRHVRYTIERVLKGETVDEPVKIASLLKKEYPTCYNLAWKLIKMMQQTLKQPVYEAEAVYLTMHLQRLYQKHDS 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 AK015_00222 2049 ptsG_1 COG1263 PTS system glucose-specific EIICBA component ATGTTTAAGAAAGCTTTTGGTGTTTTACAAAAAGTTGGTAAAGCACTTATGCTTCCAGTCGCGTTATTACCGGCTGCTGGTTTATTGCTTGGATTTGGTAATGCTGCCCAGCAAGAGACGATGTTAGGATACTTACCGTTTCTAAAAGCGGATTGGATTCAATTAGTTGCTACTGTTATGGAAGATGCCGGTGGAATTATTTTTAGTAACTTGGCGCTTATCTTTGCGATTGGTGTAGCAATCGGTTTAGCGAGTGATGGAGCAGCTGGTTTAGCAGCTCTTGTAGGTTATTTAGTCTTAAACCAAGTGATGGGTTCTTGGATCGATGTTACCCCAGAAATGATCGAATCAGACCCTGGATTTGCTTCTGTATTAGGGATTCCTACGTTACAAACAGGCGTGTTTGGAGGTATCATTGTAGGTTTGATTGCCGCGTTTTGTTATAATCGCTATCACAATATTGAAATGCCCGCTTTTCTTGGTTTCTTTGCTGGAAAGCGATTTGTACCAATTGTTACGGCCGCGTTCTCATTTCTTGCAGGTATTGCGCTATTATTTGTTTGGCCACCTGTGCAAGATGCGATGAATAGTGCATCCTATTGGTTAATTGAGGAAGGAACATATTTAGCTGTTTTCTTCTTTGGATTTGTAAAAAGATTACTTATTCCATTTGGATTGCACCATATTTTCCATGCACCGTTTTGGTATGAATTTGGTTCGTATACTACCGTAGCAGGTGATTTAGTTCGTGGAGATATGACTATTTTCTTTGCCCAGTTAAAAGATGGGGTAGAAATTACAGCTGGTAACTTTATGGCAGGGGAATTTCCAGTTATGATGTTCGGTTTACCAGCAGCAGCATTAGCTATGTATCACACAGCACGACCAGAAAAGAAAAAGATAGTTGCTGGTTTGTTAGGTTCTGCAGCATTAACATCCTTTTTAACAGGGATTACAGAGCCGCTCGAATTTTCATTTATGTTTGTTTCGCCGCTATTATTTCTCTTACATGCGGTTTTAGATGGACTTTCATTCGTACTAATGACGTTCTTTAGTGTTAATGTCGGCTATACATTCTCCGGTGGTGCGATTGACTTTGTATTATTTGGAATTTTACCGAATAAGGAACCGTGGTGGATCACCATCCTATTAGGATTAGCATTTGCTGTTATTTACTACGTCATTTTCCGCTTTTTCATTCAGAAGTTTAACTTAATGACTCCAGGTAGGGAGAAAGTAGAAGAGGAAGAGGAAAGTAATAGTGGACAAACTGGTGAGCTTGCTTATGATGTATTAGAAGCAATGGGTGGTCAAGAAAATATTGCGCATTTAGATGCATGCATTACACGTTTACGCGTATCCGTTAATTCAATTAAAAATGTCGATAAAGAAAGATTGAAGAAGCTAGGGGCTTCAGGTGTATTGGAAGTTGGCGACAACATCCAAGCCATTTTTGGTCCACGTTCCGAAACGATTAAAGGACAAATGCAAGATATTATGTCTGGTAAAACACCACGTCCTGTGGAAACAGATCAAGAAGAAGAAGTTCAGCAACAGATTGAAGAAGTCACCCCAGAGGCAATACAAAATGAAGCTGAAACAGAAGCAATTGTTTCACCAATGAAAGGGGATCTATTGCCAATTACAGAAGTTCCTGATCAAGTATTTTCTGGAAAAATGATGGGTGATGGTTTTGCAATTGTACCAGAAGACGGACTAGTTGTTTCGCCTGTAGATGGGAAAGTGGTAAATGTTTTCCCAACTAAACACGCCATTGGTTTACAGTCAGATGGTGGAAAAGAAATTCTTATTCATGTTGGTATTGATACGGTTAATTTAAAAGGAGACGGCTTTGAAATGCTCATTGAAGAAGGAGATAAAGTCGAAGCAGGACAACCACTGCTTAAAGCAGATCTGTCCTTTATTCAAAGTAAAGGAATGCCGGTTATCACACCGATTGTATTTACCAACCTCAAAGAGGGACAACAAGTATCACTTGAGAAGAGTGGAAAAGTAGAAAGTAAAGAAGAAAACATTATTACATTGTAA MFKKAFGVLQKVGKALMLPVALLPAAGLLLGFGNAAQQETMLGYLPFLKADWIQLVATVMEDAGGIIFSNLALIFAIGVAIGLASDGAAGLAALVGYLVLNQVMGSWIDVTPEMIESDPGFASVLGIPTLQTGVFGGIIVGLIAAFCYNRYHNIEMPAFLGFFAGKRFVPIVTAAFSFLAGIALLFVWPPVQDAMNSASYWLIEEGTYLAVFFFGFVKRLLIPFGLHHIFHAPFWYEFGSYTTVAGDLVRGDMTIFFAQLKDGVEITAGNFMAGEFPVMMFGLPAAALAMYHTARPEKKKIVAGLLGSAALTSFLTGITEPLEFSFMFVSPLLFLLHAVLDGLSFVLMTFFSVNVGYTFSGGAIDFVLFGILPNKEPWWITILLGLAFAVIYYVIFRFFIQKFNLMTPGREKVEEEEESNSGQTGELAYDVLEAMGGQENIAHLDACITRLRVSVNSIKNVDKERLKKLGASGVLEVGDNIQAIFGPRSETIKGQMQDIMSGKTPRPVETDQEEEVQQQIEEVTPEAIQNEAETEAIVSPMKGDLLPITEVPDQVFSGKMMGDGFAIVPEDGLVVSPVDGKVVNVFPTKHAIGLQSDGGKEILIHVGIDTVNLKGDGFEMLIEEGDKVEAGQPLLKADLSFIQSKGMPVITPIVFTNLKEGQQVSLEKSGKVESKEENIITL PGPT0016870_294 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 AK015_00223 1299 licH_1 COG1486 putative 6-phospho-beta-glucosidase ATGACCACCTTGAATATTGCTATTCTTGGAGGAGGTTCAACATCTACGCCACAGTTAATAAGTCAATTTATCCAACACGAGGAAGCATTACCTATAAAAAAGATATACCTTGTTGATATTTTAGCAGGGAGAGAACGTTTATCTATCATTGCATCTTTCGTTAGACGTATGATAGAACAGGAAAATAGTAACATAGAAATAATTGAAACGCTCAATAGGCGAGAGGCATTGAAGCAGGCTGATTTTATTATTAATCAAATCAGAGTAGGTGGCTTGGATATGCGTCAAGCAGATGAAACGTTATGTTTAGAGTATGGTATCATAGCAGAGGAAGCTTCAGGTCCGGTTGGATTTATGAATGCTTTAAGAACGATACCTATTATGCTTGATATTTGTGAAGATATTGAAGAATTAGCACCAGATGCTTGGTTACTTAATTTGACGAATCCTTGCAGTATAATCACAGAAGCGATAGATAAGCATACGAATGTGAAAGTTATTGGTATCAATGATGGGCCAATGGCTTTTCGTAATCAATTTGCAAAGGCGTACGGTGTTGTCAAGAATGATATAAGTATGCAACTAATAGGGACAAGTCAATTGTTATGGGTTACGGATTTATATGTTCGTGGAAAATCAAAAATAACAGATGCCATACTTTATAAAAAGTTGCATAGTAGAAGGCAACGACAAGATATTACTGTTGATGCATATTTTTTACAAACATATGGCGTCATTGGTTGCGAATATCAGCCTTATTATTATCAGGCTGACCAAATTTTAGCAAAGCAATTAGATGTGTTTAAACAAGGTGTGCTTCCATCTGATTTTGAACTGGAAGAACGCAAGCAATTATTATCTCTATATGAACATGCAAAAACAGCTACGTTACCAAATGGAGTGGGAGATAGGCGAGGTGCAGCAGCTTTAGAAGGGGTGCTCGAGGTTATCCAAACAATCCATTATGATTTAAAGCGCATTTTACCAGTAAATATTAGAAATAATGGAGCAGTAGAAGGCTTACGGAACGATGCTTGTGTCCAGGTAAATAGTGTAGTAGAAAGACATGGGATTACACCAATCCAAGTACCTGAAATCTTACCGCATGTTCACGGATTATTACAATATATGAAAGCTTATGAATCACTGACTGTGGAAGCAGGAATATCCAAAAACATCGGGGTAGCCATTCAGGCGATGACCATGCATCCATTTGTGCCATCTGCGGAAATAGCTCATAAGCTGCTTCAAGATATGTTTATTGTAAATGAAGCTTATGTTCAACCGGTCATTTATTAA MTTLNIAILGGGSTSTPQLISQFIQHEEALPIKKIYLVDILAGRERLSIIASFVRRMIEQENSNIEIIETLNRREALKQADFIINQIRVGGLDMRQADETLCLEYGIIAEEASGPVGFMNALRTIPIMLDICEDIEELAPDAWLLNLTNPCSIITEAIDKHTNVKVIGINDGPMAFRNQFAKAYGVVKNDISMQLIGTSQLLWVTDLYVRGKSKITDAILYKKLHSRRQRQDITVDAYFLQTYGVIGCEYQPYYYQADQILAKQLDVFKQGVLPSDFELEERKQLLSLYEHAKTATLPNGVGDRRGAAALEGVLEVIQTIHYDLKRILPVNIRNNGAVEGLRNDACVQVNSVVERHGITPIQVPEILPHVHGLLQYMKAYESLTVEAGISKNIGVAIQAMTMHPFVPSAEIAHKLLQDMFIVNEAYVQPVIY PGPT0019105_1067 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222 NA NA AK015_00224 1395 gabD_1 COG1012 Succinate-semialdehyde dehydrogenase [NADP(+)] TTGGCTAACAAAATCACCGTTACAAACCCGGCTACTGGAGAGATACTGGAAGAATTAAGTGCCTGGCCTAGTGAGGAAGTAAAGAAAGCGCTTTATAAGGGGTACGCATTCTTTCCAACTTGGGCAAGCATACATGCACATAAACGGTCAGAATTACTGCAACATTGGGCAATACAAATCAGAGAGCATAAGGATGAACTTGCTAAACTGATGACGAAGGAAAACGGAAAGCCACTAAAGGAATCTTATGGTGAGATAGAATATGCGGCAAGTTATATTGATTGGTATGCAGAAGAAGCAAAGCGAATTTACGGGCGAACAATTCCAGCAAACACCGAATCAAAACGAATCCTCGTTCGTAAAGAGCCTGTTGGTCTAGTAGCTGCTATTACACCTTGGAATTTCCCCGCAGCCATGATGACAAGAAAAGCAGCACCAGCACTAGCTTCTGGGTGTACTTTTATTGTCAAACCTGCTTCTGAAACACCGCTAACAGGCATTCGAATAATTGAATTAGCTCATAAGGCAGGTATCCCAGAAGACGCTATTCAATATGTCGTCGGTTCTGGGAAAATGATTGGCGCATTATTTACAGAAAGTAACTATGTGCGTAAAATTACCTTTACAGGTTCCACTGCTGTAGGGAAAAACTTAATTAAAGGAAGTGCAAACACGGTCAAGCATGTCACCATGGAGCTTGGTGGGCATGCGCCATTGATTGTTGCTAAAGATGCGGATATTGAATTTGCAGCTGAACAAACGATCATCTCAAAATTTCGTAATGCTGGACAAACATGCGTGTGTGCAAACCGAATTATCGTTCACGAAGACATTGTAGATCAGTTTGCAGCAGCTTTTGTACAACGTGCCAAACATTTAACTGTTGGCAATGGACTTCATGATAATATTGATATTGGACCAATCATTAATGAACAAGGCTATAACAAAATTAAAGAACATATTGATGATGCTAAGCAAAAAGGTGCTAAAGTATTGTTAGGAGATACATTTGAAGCAGACCATGAGAAAGGATATTATTTTGTATACCCAACCATACTTAATGAAGTAACAGCGGATATGACAATTATGCATGAGGAAACATTTGGTCCAGTAGCTCCTATAACTACTTTTACAAATATCGAGGAAGCTGTACGCCTTGCTAACGATACGCCATTTGGTTTAGCTGCCTACTTTTTTACAAATGATTACCGTACTGGTACTTATTTGTATGAGCATTTAGATTATGGCATTGTTGGCTGGAACGACGGCGGACCATCTGCCGCTCACGCCCCATTTGGTGGGATGAAGGAGAGTGGGCTTGGTCGTGAAGGTGGACTGGAAGGTATTGAACCTTACTTAGAAACCAAATACGTATCGATTGGAAATCTATTGTAA MANKITVTNPATGEILEELSAWPSEEVKKALYKGYAFFPTWASIHAHKRSELLQHWAIQIREHKDELAKLMTKENGKPLKESYGEIEYAASYIDWYAEEAKRIYGRTIPANTESKRILVRKEPVGLVAAITPWNFPAAMMTRKAAPALASGCTFIVKPASETPLTGIRIIELAHKAGIPEDAIQYVVGSGKMIGALFTESNYVRKITFTGSTAVGKNLIKGSANTVKHVTMELGGHAPLIVAKDADIEFAAEQTIISKFRNAGQTCVCANRIIVHEDIVDQFAAAFVQRAKHLTVGNGLHDNIDIGPIINEQGYNKIKEHIDDAKQKGAKVLLGDTFEADHEKGYYFVYPTILNEVTADMTIMHEETFGPVAPITTFTNIEEAVRLANDTPFGLAAYFFTNDYRTGTYLYEHLDYGIVGWNDGGPSAAHAPFGGMKESGLGREGGLEGIEPYLETKYVSIGNLL PGPT0001580_5827 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK015_00225 315 gmuB_1 COG1440 PTS system oligo-beta-mannoside-specific EIIB component ATGAAACATATTTTACTTGCGTGTTCAGCAGGAATGTCAACGAGCCTTTTGGTTTCCAAAATGAAAGAAGTAGCAGAAGAAAAGGGGATAGATGTGAAGATTTGGGCAGTTGCTCAAGATAAAGTAACGAAAGATATTGAACAAGCAGACGTGTTATTAATTGGTCCACAAATGCGTTTTTTAAAGAAAAAATTAGCCAAACTCGCGGATGAAGTAAATGTACATCTTGATGTTATTGATCCAACTGCTTATGGAAGAATTGATGGCGAAGCAGTCTTAAATAGAGCACTCGAACTAATGGAAGAAGCTAACTAA MKHILLACSAGMSTSLLVSKMKEVAEEKGIDVKIWAVAQDKVTKDIEQADVLLIGPQMRFLKKKLAKLADEVNVHLDVIDPTAYGRIDGEAVLNRALELMEEAN PGPT0016975_840 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 AK015_00226 1287 gmuC COG1455 PTS system oligo-beta-mannoside-specific EIIC component ATGAATAAATTTATGGAAATGCTTGAAAATGTATTATTACCAATTGCTGATAAATTAAATAACAACCGTTATCTAACCGCTCTTCGTGATGGATTCATGGTTGCTTTACCATTAATCATCTTTGGTTCCATTTTTGTTGTTATTGCGAACCTACCATTCCTCGATCGCGTTATAAGTGAGGATGCGTTTGCTGCTTATCAAAGTGCTTTAGGTCCTGCATCAGCAGCAACGTTAAGTATTATGGGAATGTTTGTCATTATTGGGATTGGATACAAATTGACCGAGCATTACGAAAATGAAGCTATTTATGGCGGGGTAGTTGCATTAACTGCATTTTTAATTCTGACACCGCAAGTACTTGAAGGACTGACGGGAGTTATTCCAACGGCAAGTTTAGGTGCGCAAGGTATGTTTTTAGGAATTTTTACTGCATTTATAGCAGCGGAACTTTACAATTTCTTTGTTAGAAAAGATTGGACGATTAAGATGCCAGCTGGTGTTCCCCAAGCAGTATCAAGGTCATTTAGTGCATTAATTCCAATTACATTAACATTGTCATTTTTCCTAATTATTCGAATTATTTTTAGCTACACGGGCTTTGACACAGTACAGAACTTTATTTATACAATTATTCAACAACCATTAACTCAACTCGGTAGTGGGTTGCCAGCAACTATTGTAGCTGTTTTATTAATTCAGGTATTTTGGTTTTTCGGATTACATGGACAGATTATTGTTAACTCAGTTTTTGATCCGATATGGTACACGTTAAATGAGCAAAACCTATCGGCTTTCCAAGCAGGAACGGAATTACCGAATATCGTTACAAAACAATTTATCGATTCATTTATTGTTGGAATGGGTGGATCGGGAATGACGTTAGCAGTTATAATCCTCATCTTTATTATTGGTAGAAGCAGACAAATGAAAGAGTTGGGTAAACTTGGGGCGCCAGCAGGGATATTTAATGTGAATGAGCCAATTATCTTTGGTTTACCAATTATTATGAATCCGCTTATCATTATTCCGTGGTTACTTGCTCCAGTAGTGGTTACCATTATTACGTATTTTGCTATGGCGACCGGGCTTGTTCCACCACCAGCTGGAGTTATTGTTCCGTGGACAACTCCTGGTGTATTAAATGGTTTTTTAGCTACAGGAAACGCTTGGCAAGGCGGGTTGTTGCAAGCAGTCAACTTAGTTGTTGTTATGATGATTTGGTGGCCATTCTTGAAGATTATGGACAAGAGTTATTACGAGAAAGAAAAAGCAGCAAAGAAAAGTTAA MNKFMEMLENVLLPIADKLNNNRYLTALRDGFMVALPLIIFGSIFVVIANLPFLDRVISEDAFAAYQSALGPASAATLSIMGMFVIIGIGYKLTEHYENEAIYGGVVALTAFLILTPQVLEGLTGVIPTASLGAQGMFLGIFTAFIAAELYNFFVRKDWTIKMPAGVPQAVSRSFSALIPITLTLSFFLIIRIIFSYTGFDTVQNFIYTIIQQPLTQLGSGLPATIVAVLLIQVFWFFGLHGQIIVNSVFDPIWYTLNEQNLSAFQAGTELPNIVTKQFIDSFIVGMGGSGMTLAVIILIFIIGRSRQMKELGKLGAPAGIFNVNEPIIFGLPIIMNPLIIIPWLLAPVVVTIITYFAMATGLVPPPAGVIVPWTTPGVLNGFLATGNAWQGGLLQAVNLVVVMMIWWPFLKIMDKSYYEKEKAAKKS PGPT0016970_2545 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 AK015_00227 306 licA_1 COG1447 Lichenan-specific phosphotransferase enzyme IIA component ATGGATCAAACAACTGAAATTGCTTTTCAAATTATTTTACATGCTGGTAATGGAAAATCTAGTGTGATGGAAGCAATCCAAGAAGCGAAAATAGGGAATTTTAATAAAGCAGATCAATTAGTTGAAGAAGCAGCAGAAGAACTTGGAAAAGCACATGAATATCAAACGAAATTATTACACAATGAAGCTCGAGGAGAAGGAAACATTATTAACGTTATGCTCATCCACTCACAAGACCATTTAATGACTTCTATGACGATGAGGGATTTAGCAATCGAAATTATTGAGATTTATCGTAATAAATAG MDQTTEIAFQIILHAGNGKSSVMEAIQEAKIGNFNKADQLVEEAAEELGKAHEYQTKLLHNEARGEGNIINVMLIHSQDHLMTSMTMRDLAIEIIEIYRNK PGPT0016980_1560 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 AK015_00228 1383 gmuD_1 COG2723 6-phospho-beta-glucosidase GmuD TTGACAGTAGAATATAAATTTCCAGCAAATTTTTGGTGGGGAAGTGCAACGTCTGCTACGCAAATAGAAGGTGCAGCAGAAAAAGATGGGAAAGCGAAAAACATCTGGGATTATTGGTATGAAACCGAACCGAATCGTTTTTTTGACCAAGTAGGTCCAGCGAGAGCATCTAATTTTTATCAACGATATAAGGAAGATATTCAATTAATGAAACAGATTGGACATAATAGTTTTCGTCTATCTATTTCATGGTCCCGTTTAATGCCGAACGGACAAATGAATGAACAAGCGGTAGAATTTTATAATGGTGTGATTAATGAATTAATAGACAATGATATCGAGCCATTCGTTAATCTATTTCACTTTGATATGCCACTTGCTTACCAACAATTTGGTGGATGGGAAAATCGCGAAGTTGTAGATAGCTATCAATCTTATGCGGAGATGTGTTTCAAACTTTTTGGTGATCGAGTGAAAAAATGGTTTACATTCAATGAGCCGATTGTCCCTGTTGAAGGTGGGTATCTGTACGATTTTCATTATCCTAATATTGTGGATGCTCAAAAAGCGGTGCAAGTAGCATACCATACGATGATTGCTAACGCAAAAGTAATTAAGGCTTTTCGTAAGCTAAATGATCCACATAGTCAAATTGGAATTATATTAAATTTAACACCATCTTATCCAAGAAGCAGTAACCCAGCTGATCTACGTGCTTCAAAAATAGCAGATCTATTTTTTAACCGTAGTTTCTTGGATCCAGCTGTATTAGGTGAATATCCTGATGAGCTAATTGCCATCCTAAAAGAACATGGTCAGTTACCGCAAACAAAACAGGGTGATAAAGAACTACTAAAAAACAATACGGTAGATATTTTAGGAATTAATTATTACCAGCCACGTCGTGTGAAAGCAAAAGAATATTTACCTAATCCATACGCTCCATTTATGCCTGATATGTTTTTTGATCTTTATGAAATGCCAGGTAGAAAAATGAACCCGCATCGTGGATGGGAAATATACGAAAAAGGTATTTACGATATCTTAATGAATTTAAAGGAAAACTATGGTAATATATCGTCGTTTATTTCTGAAAATGGCATGGGCGTTCAGAATGAAGAGCGATTTATAAAAGAGGGTCAAATTCAAGATGAATACCGCATTGAATTTATTCGGGAACATTTAAAATGGGTACATCGAGCTGTGCAAGAAAAATGCAATGTGAAAGGGTATCATTTATGGACATTTATGGATAACTGGTCTTGGATGAATGCCTACAAAAATCGCTATGGATTTTATTCTGTGGACTTAAATACGATGGGGCGGAAACCGAAAAAGAGTGCAGAATGGTTTAAAGAAGTGTCTCTAAACAATGGTTTTTAG MTVEYKFPANFWWGSATSATQIEGAAEKDGKAKNIWDYWYETEPNRFFDQVGPARASNFYQRYKEDIQLMKQIGHNSFRLSISWSRLMPNGQMNEQAVEFYNGVINELIDNDIEPFVNLFHFDMPLAYQQFGGWENREVVDSYQSYAEMCFKLFGDRVKKWFTFNEPIVPVEGGYLYDFHYPNIVDAQKAVQVAYHTMIANAKVIKAFRKLNDPHSQIGIILNLTPSYPRSSNPADLRASKIADLFFNRSFLDPAVLGEYPDELIAILKEHGQLPQTKQGDKELLKNNTVDILGINYYQPRRVKAKEYLPNPYAPFMPDMFFDLYEMPGRKMNPHRGWEIYEKGIYDILMNLKENYGNISSFISENGMGVQNEERFIKEGQIQDEYRIEFIREHLKWVHRAVQEKCNVKGYHLWTFMDNWSWMNAYKNRYGFYSVDLNTMGRKPKKSAEWFKEVSLNNGF PGPT0019255_4009 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223 NA NA AK015_00229 1941 licR_2 COG1762 putative licABCH operon regulator ATGCTTACAACTAGGATGCGAATGATATTAAAAAAATTAATGCTTGTTGATTCTCCGTTGACAGGGAAATTTTTGGCTCAGTTAAATAAGGTTACAGCAAGAACGACGAGAGAAGATATAAAAAAACTGGATTCATTAATACGTCAATATGGAGCCAAGGTAGAAGCTGTTGTGTCAAAAGGTTATCAGCTGACTATTTTTGATGAAGAAAAGTTTCGCGATTTTTTGCATACAATCGTTCATCTGGAAGATCAAAAAAATAGGTCTATCTCACAATTACCTGAAGACAGAGAGATACAAATTATTCGTCGGTTATTAGTAACGAAAGGTTATGTGAAGCTAGAGCAATTAGCTGATGAACTGTATGTTAGTAAATCTACTGTGCAAAATGATTTAAAACAAGTAAAGGAGCGGCTAAAGCTTTATTCGATTCAGATTCATGCAAGACCAAACTATGGTCTTAAATTACAAGGTGACGAATTGAAATTACGCTTTTGTATGGCTGAATACATTGTTGATCGAACACATAGACATGGTGAGCACCCTCATCACCCTGCAATCCCATCCATACGTAAGGAAGACTTTGTTGCCATTGACAACATTATTATGGAACAAATAAAACAGAATCATATTAGTATGTCGGATGTAGCGATTCAGAATTTGCTCATTCATATATTAATTGCTTATGAACGAATAAAAGACGGCAAATATATAACATTGCAGTCTAGTGAATTGGAACAAATTGTTAATCAATCGGAATATGAAGTAGCTAAACGCATTGTTCAGAACGTAGAAAGGCATTTACACATACAGTTTCCTCATTCAGAAACAGCCTATATCGCCATTCACTTATTGGGAACAAAAATGATCGCTCCACTTGAACAGGCAGGCGGATTGGAAGAAAACTTAGTTGCACCTGATATTTTGCCAATTATTATGCAGATGCTAAAAAAAATAGATGAAGAGTATCATTTAGGGATTCAACATGATAAAGAACTGATAGTCGCTTTGGGGTTACATCTCAAGCCTGCTATTAATCGGTATAAATATGGTATGAACATTCGAAATCCATTATTAGCAGATATTAAAAAAAGCTATCCATTAGCTTTTGAATCAGCCGTTCTAGGCGGTATAATTATTGAAAAAATGACAGGCAGTGAATTTGATGAAAACGAGATCGGGTATATTTCTTTGCATATCGGTGCGGCAATGGAGCGGAAAAATTTCCACACGGGACCAAAGCGTTGCTTAATTGTATGCGCATCAGGGTTTGGTACAGCACAATTAATATATTATAAAGTAAAAACGGAATTTAGAGATGCTGTTGAAGTGATTGGTGTTATTGAATTGTATAAGTTAAAGGACTATCAACTAAGTAATATAGACTTTATTATTAGTTCTGTAGCAATTGATCAAGACATAGGCATACCTGTAATTCGAGTTAATGCTATATTAGAAAAATCAGACATGGAAAACATTACATCATTTATTCATGATCAAGAATCGATTAGAACCTATTTTCAGCCACAGCTCGTATTTTTGCAACAAGATTTGAAGAATAGGGATGAGATACTTCACTATTTATATCAGCAAATAAACCAGATGGGATTAGTACCAAATAGTTATTTAGAACACATTTATGAACGAGAGGAAATTGCTGCCACGTCATATGGTAACTTAGTTGCTATTCCTCACCCTGTCATGCCTCAATCCAAGAAAACTTTTTTAACGGTTTGCACATTAAAAAGGGCAGTGGATTGGGGAGGTAAACCTGTTCAATTTATTTGTTTATTAAATGTACAAAAAGATAGTAAAGAAGATCTGCAAGGAATGTACGATTTATTAGGAACGATCGTTAACTCAGAAAAAATCGTCCAACGTTTAATTCAAGCAACAGATTACTATGACTTTATCCGTGTTTTAGATGAATATCGTAATTGA MLTTRMRMILKKLMLVDSPLTGKFLAQLNKVTARTTREDIKKLDSLIRQYGAKVEAVVSKGYQLTIFDEEKFRDFLHTIVHLEDQKNRSISQLPEDREIQIIRRLLVTKGYVKLEQLADELYVSKSTVQNDLKQVKERLKLYSIQIHARPNYGLKLQGDELKLRFCMAEYIVDRTHRHGEHPHHPAIPSIRKEDFVAIDNIIMEQIKQNHISMSDVAIQNLLIHILIAYERIKDGKYITLQSSELEQIVNQSEYEVAKRIVQNVERHLHIQFPHSETAYIAIHLLGTKMIAPLEQAGGLEENLVAPDILPIIMQMLKKIDEEYHLGIQHDKELIVALGLHLKPAINRYKYGMNIRNPLLADIKKSYPLAFESAVLGGIIIEKMTGSEFDENEIGYISLHIGAAMERKNFHTGPKRCLIVCASGFGTAQLIYYKVKTEFRDAVEVIGVIELYKLKDYQLSNIDFIISSVAIDQDIGIPVIRVNAILEKSDMENITSFIHDQESIRTYFQPQLVFLQQDLKNRDEILHYLYQQINQMGLVPNSYLEHIYEREEIAATSYGNLVAIPHPVMPQSKKTFLTVCTLKRAVDWGGKPVQFICLLNVQKDSKEDLQGMYDLLGTIVNSEKIVQRLIQATDYYDFIRVLDEYRN PGPT0019430_224 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019430-licR-K03491 NA NA AK015_00230 1911 manR_1 COG1762 Transcriptional regulator ManR ATGAATGCTAGACAGAGAAAGATTATAGAAGTTCTATTATCTTATGGCAACCGTCCAATTTTAGTCAATGATCTTGCTAAACAACTTGATTGTTCAGAAAAAACAGTTCGTAATGATTTACGAACAATTGATGTTTATCTGCAAAACTACTCTTCTGCATGTTTAATTCGAAAACCTGGAACTGGTATTTATTTAGAAATAAATAAACGAGATAAGCAAAACTTGTTTCATGCACTTTTTCGTGAAAATAAATCATCGTATCAACGGCTTATGGAAATAGCTTATCGTTTATTAACTGATAAAAACCCACTCACGTTGCAACAGCTTAGTATGGATCACTATGTCCATCATACTGCTATAAAGAGTGATCTTGAAACGATTCAGCAGTGGTTTGAAAGTTTTGGATTGGTTATTGAATCAAGGCAAAAGCTAGGTCATTATTTAAAAGGGGAAGAATTAAACAAACGAATGGCTTTGGCACATATAGAGGAAATTGCGAATCAACAAGCAACGTTTTTAAAAAATGTATTTGCGCCCTTTGAAATTGCTACAGTAAGACAAATACTAGACCAAATGATAGAAAAATGGAAAATTCCCATGACAAGTCATGCGCTAGATAATTTAGTTGTCCATATACTTGTTATGGTACAACGTACAAAGCAGGCTAACCCAATCATAATTGATAAGCATCGTTTATCCATAAATGATACGAACGAGTATCGAGCGGCTGCTTGGTGTTTAGATCAGCTTGAACACAAATTTGGGATTACGTTAGCTCATGACGAGACGATATATTTAACTTGGCATTTACGTGGGAGTAAAAAATATTCGCTACATACATCCACGGAAGAAGAAATTACACACCAAGTATTATCGACAATGATCGAGACGATGCAACAGTTGACGCATGTATCCTTTCATGAAGATGAACAACTAATCAATGGACTTATGATTCATTTAGAAGCTGTTACCAATCGTTTGCTGTATGGATTTCCAATTAGTAATCCATTGTTACAGGACATAAAAAAGATGTACCCGTATATGCTGAGTATGGTGACGCTGTCTTTAGAGAAGGTGAGTGAGAAATTTCCATTTGATATACCTGAGGAAGAAGCAGCTTATATAGTTCTGCATTTTCAAGCTTCCATAGAAAGGTTAGATGCTGAAAATTATGCAGTACCTCGAGTGTTAATTGTTTGTGATATGGGAATAGGGATGTCTAGATTACTGCAAGCAAAAGTGGAAAAACAGTATCAAGAAATGAAAATTGTAGGAACTGTTGGGAAGGGAGAAGTGCAACGTTTTATAAAGCGAGAACAAGTGCATTTAATTATATCGACTACGCCTATAGAAAAAATTAATATCCCAACGATTATTATTTCTCCGCTTTTAGAAGCAACTGATAAAGAAAAATTGCAACGATTTCTGAAGAAAAAAGCGGGTCGTTCTTCTGTTTTGGCTACCAGTCCTCAAGTTTTACATGATTTTATGGAAGAAGAATTACTGTTTCTAAATATTAATCCTCAACATCGTTTTCAAGTAGTTGAGATGCTAGGAAATGCGTTATACAAACAAGGTAAAGTAGAGAAATCATATGTCCACCAAGCGCTTTTGCGTGAAAGGAAGTCAGCTACAGCAATTGGTGGTGGCATAGCTATTCCACATGGAGATCCGACACTTGTTATTGCTTCCACGATTGCCATTGCTGTTTTAACCGAGCCGTTGGAGTGGGGAAAAGAAGAGGTGTCAATTGTGTTTATGTTGGCTTTAGCGAATGAAAAAGCGAATCCAATTAAAGCAATTATTCATAAGCTATCATCACTATCAAACGACCCAATGACAGTAAGAGATTTATTAAATGCTACTGATAAGCAAACATTCTTACGTGTGTTGACAGAAAAAGAGTGGTAA MNARQRKIIEVLLSYGNRPILVNDLAKQLDCSEKTVRNDLRTIDVYLQNYSSACLIRKPGTGIYLEINKRDKQNLFHALFRENKSSYQRLMEIAYRLLTDKNPLTLQQLSMDHYVHHTAIKSDLETIQQWFESFGLVIESRQKLGHYLKGEELNKRMALAHIEEIANQQATFLKNVFAPFEIATVRQILDQMIEKWKIPMTSHALDNLVVHILVMVQRTKQANPIIIDKHRLSINDTNEYRAAAWCLDQLEHKFGITLAHDETIYLTWHLRGSKKYSLHTSTEEEITHQVLSTMIETMQQLTHVSFHEDEQLINGLMIHLEAVTNRLLYGFPISNPLLQDIKKMYPYMLSMVTLSLEKVSEKFPFDIPEEEAAYIVLHFQASIERLDAENYAVPRVLIVCDMGIGMSRLLQAKVEKQYQEMKIVGTVGKGEVQRFIKREQVHLIISTTPIEKINIPTIIISPLLEATDKEKLQRFLKKKAGRSSVLATSPQVLHDFMEEELLFLNINPQHRFQVVEMLGNALYKQGKVEKSYVHQALLRERKSATAIGGGIAIPHGDPTLVIASTIAIAVLTEPLEWGKEEVSIVFMLALANEKANPIKAIIHKLSSLSNDPMTVRDLLNATDKQTFLRVLTEKEW NA NA NA NA NA AK015_00231 1920 manP_1 COG1299 PTS system mannose-specific EIIBCA component ATGAAAATAGTTGCTGTTACAGCGTGTCCGGTAGGAATTGCTCATACGTATATGGCGGCTGAAAACTTACAAAAAGCTGGTGAGAAACTAGGTGTTGACATAAAAGTCGAAACACAAGGTTCTATTGGTGTAGAGAATGCATTGACGGATGAGGATATTGAAGAAGCAGATGGTGTAATTATAGCGAGTGATAAAGAAGTCACGAAGGAACGTTTTATTGGAAAAAGGTTAATTGCTACTGGAGTACAGGAAGGGATAAAACGTCCAGAAGAATTAATAAACCGATTTGCCACCGAAGATGTACCTGTTTATCAAGCTGATTTAATGTCCGCAAACGACGTGAAAAAAAAGAAAAAAGAGAAAGAAAACCCCATATATCGACATTTGATGAGTGGAGTTTCCTATATGATTCCTTTTATTGTAGTTGGTGGATTGCTGATAGCTCTTGCACTAACTTTAGGTGGTGAACAAACACCAGGAGGAATTGTTATTCCTGAAGATTCGTTTTGGAAAAAGGTAGAAGAAATTGGCGCGGCATCCTTTAGCTTTATGGTGCCTATATTGGCAGGTTTTATCGCTGTTAGTATTGCTGACCGTCCAGGCTTAGCTCCCGGAATTATTGGTGGGTTTATCGCTGCAAATGGTAGCTTTTATGGAAGTGAAGCAGGTGCAGGTTTTATTGGCGGTATTATTGCAGGTTTTCTTGCGGGTTATATTACATTAGCTATTAAGAAGATTAAAGTGCCACAAGCCATTCAACCTGTAATGCCAATTATTTTTATACCAATCTTAGCAACTTTAGCAGTTGGGTTATTATTTGTTTATGTTGTTGGTGCGCCAGTAGCACAAGTGTTTGAATCGTTAACGGCATGGCTAGAAGGGATGCAAGGAGCAAGTTCTATACTGCTCGCTCTAATTTTAGGGGCTATGATTTCCATAGATATGGGTGGTCCTTTTAATAAAGTAGCCTTCTTATTTGGTTCAGCCATGATTGCAGAAGGAAATTATGAAATTATGGGACCAATTGCTGTTGCTATCTGTATTCCACCTTTAGGAATGGGACTAGCAACGTTTATGAATAAACGTAAATATCAGCCCGCAGAGCAACAAGCAGGAAAAGCAAGTTTCACTATGGGACTATTTGGCATAACGGAAGGAGCGATTCCTTTTGCTGCGCAAGATCCATTGCGAGTTATTCCAAGCATTATGATTGGTTCCATGACCGGTTCTGTCATTGCGATGATTGGGAATGTGGGTGATCGAGTAGCTCACGGTGGTCCTATTGTCGCTGTACTAGGAGCAGTAGATAATGTGCTTATGTTCTTTGTAGCTGCCATCATCGGTACGATTGTTACGGCTTTCATGGTTAACTTTCTTAAAAAAGATGTATCAGGAACGCACAAGGGAAATAATGCATCACCTAAACGAGCGGAAGAAGATGCTTCATCTAAAACGACTGAGATCACGAAATTAACGGATATTGTAACGAACGATTTAATTCATTTAGATCTTCAAGGAAATACAAAAGAAGAAGTATTAGATGAGTTAATAGCTAGTATGAAACAAGCAGGAGTAGTACTTGACGCAGAAGCATATAAGCAAGTTGTCATCGCTCGAGAGCATGAAGGGACGACAGGAATGGGGATGAGCATTGCTATCCCACATGGAAAATCCGAAGCAGTAAAAGAACCGGCTGTAGCTTTTGGTATGCATCGCGCCGGAGTTGATTGGGAAAGTTTAGACGGAAACCCTGCTAAATTAATATTCATGATTGCCGTGCCTACAGAGAGGGCTGGAGACGATCATTTAAAAATATTACAAATGCTTTCAAGGAAATTAATGGATGACAATTACAGAGAAAAATTACTTCATGTAACAACAAAAGATGAAGCGCATCGATTATTAATGGAAATTCAATAA MKIVAVTACPVGIAHTYMAAENLQKAGEKLGVDIKVETQGSIGVENALTDEDIEEADGVIIASDKEVTKERFIGKRLIATGVQEGIKRPEELINRFATEDVPVYQADLMSANDVKKKKKEKENPIYRHLMSGVSYMIPFIVVGGLLIALALTLGGEQTPGGIVIPEDSFWKKVEEIGAASFSFMVPILAGFIAVSIADRPGLAPGIIGGFIAANGSFYGSEAGAGFIGGIIAGFLAGYITLAIKKIKVPQAIQPVMPIIFIPILATLAVGLLFVYVVGAPVAQVFESLTAWLEGMQGASSILLALILGAMISIDMGGPFNKVAFLFGSAMIAEGNYEIMGPIAVAICIPPLGMGLATFMNKRKYQPAEQQAGKASFTMGLFGITEGAIPFAAQDPLRVIPSIMIGSMTGSVIAMIGNVGDRVAHGGPIVAVLGAVDNVLMFFVAAIIGTIVTAFMVNFLKKDVSGTHKGNNASPKRAEEDASSKTTEITKLTDIVTNDLIHLDLQGNTKEEVLDELIASMKQAGVVLDAEAYKQVVIAREHEGTTGMGMSIAIPHGKSEAVKEPAVAFGMHRAGVDWESLDGNPAKLIFMIAVPTERAGDDHLKILQMLSRKLMDDNYREKLLHVTTKDEAHRLLMEIQ PGPT0017120_1033 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 AK015_00232 957 yvyI COG1482 Putative mannose-6-phosphate isomerase YvyI GTGTATCAAGAACCGATCTTTTTAAAACCTGTATTACAAGAGAGAATATGGGGTGGAGGAAAGTTAAAGTCAATGTTTCAGTATGCTATTCCATCAAATCAAACTGGGGAAGCGTGGGTTATTTCTGCTCATCCTCATGGACCAAGTGAAATAATAAACGGCCCCCTTGCTGGTCAAACATTAGCAGATGCGTGGAATAACCATCGTGAATTATTTAACAAAGAATCTAATCGTAGTGAAGCATACCCGTTATTGGTGAAAATACTAGATGCAGATGATAATTTATCTGTACAAGTACATCCTGATGATACGTACGCAAGAAAGGTAGAAAAACAGCCGTATGGTAAAACAGAATGCTGGTACGTTTTACAAGCAGACTCGGGTTCGGAACTTATTTTAGGACACCATGCCAAAACAAAAGAAGAGCTAGCCAAGATGATGGATGAAGGAAAGTGGGACAAACTATTACAACGAATTCCTGTAAAAGCAGGTGATTTTGTTTACGTACCTAGTGGCACTATTCATGCGATAGGTAAAGGTATTGTTATACTAGAAACGCAGCAAAGTTCAGATATTACGTATCGAGTCTATGATTATGATCGCACAGATAGTCATGGAAATACACGAGAATTACATTTGGAGAAAGCAAAAGAAGTTACAAATATTCCCCACCAAGCTTCTGTATTTGATCAGAAACAGAGTCAAATAGATGATTTGCAAATAAAGCAATTGGTTAAAGAACATTATTTCACCGTCTACCACTGGAGAATAAATGGACAAGTAACAAAACAGTTAGACGCTGATTTTCTTCAATGTAGCGTAATCTCTGGGAAAGCAGAAATTGAAATAAATGAGCAGTCATTCGCCATACAAAAAGGTGATCATTTTATTTTGCCACATGGAATTACCACTTATCGCTTGGCAGGGGATGCTGAATTAATCGTTTCGCATACGTGA MYQEPIFLKPVLQERIWGGGKLKSMFQYAIPSNQTGEAWVISAHPHGPSEIINGPLAGQTLADAWNNHRELFNKESNRSEAYPLLVKILDADDNLSVQVHPDDTYARKVEKQPYGKTECWYVLQADSGSELILGHHAKTKEELAKMMDEGKWDKLLQRIPVKAGDFVYVPSGTIHAIGKGIVILETQQSSDITYRVYDYDRTDSHGNTRELHLEKAKEVTNIPHQASVFDQKQSQIDDLQIKQLVKEHYFTVYHWRINGQVTKQLDADFLQCSVISGKAEIEINEQSFAIQKGDHFILPHGITTYRLAGDAELIVSHT PGPT0017860_2810 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 AK015_00233 315 hypothetical protein TTGAAAATGGTATACAGGCGATTTTTTTACATTTGTAGTATCACTTTATTTTGTACTATTTCTTTTGGCTGGTTGGACAGACCGAACCATTCTTATGCAGCTATTTTGCATGAATGGAAGCAAGAAAGCTCAGATATTAATTACATACATACGGGTAGTCATGAATTTACGTACTGGAAGAATTTTATGAGACATAAACGTACGTGTCATATATCACAAAAAATAAAAACAACCGTATATTATTGTGATTTACACAATCACACAAAATCAAAAACCGTTCATGTAGAAACTGTACATAGTGAACAACATTCATAA MKMVYRRFFYICSITLFCTISFGWLDRPNHSYAAILHEWKQESSDINYIHTGSHEFTYWKNFMRHKRTCHISQKIKTTVYYCDLHNHTKSKTVHVETVHSEQHS NA NA NA NA NA AK015_00234 828 yvgN COG0656 Glyoxal reductase GTGATTACACATTTACAAGATACTGTCTTATTAAATAATGGAGTAGAAATGCCTGGTTTGGGCTTAGGCGTCTACAAAGTTGAAGATGGAAAAACGGTTCAAACTGCAGTCCAAGCAGCATTGGAGACAGGCTACCGTATGATAGACACTGCCTCTTTTTATGACAATGAAGTAGGTGTTGGGGAAGCTATTAAGCAGTCAAATCTTCCCCGTGAAGAGTTATTTGTTACAACAAAGGTATGGAATGACGAACAAGGATACGCAAAGACGAAGGAAGCTTTTGAAAAGAGCTTGCAAAGGCTTGGCTTGGACTATATAGATCTCTATTTAATTCACTGGCCAGTAAAAGGGATGTATGTAGAGACTTGGAAAGCTATGGAAGAACTGTATGAAAGTGGTCAAGTCCGTGCGATTGGAGTTAGCAATTTTCACCAACAGCATGTAGAAAATTTGTTAGCTAATAGTAAAATAGTTCCTGCTATCAACCAAGTTGAATATCACCCCCATTTAACACAGGAGCCGTTGTATGCGTTTTGCAAACAACAAGGTATCCAGTTAGAGGCATGGTCCCCTTTAAAACGAGGGCGACTAATGGACGAGCCGTATTTACTAAGCTTAGCTCAAAAATATGAAAAGACTGTAGCCCAAGTTATTTTGCGTTGGGATATTCAAAACGAAGTAATAACGATTCCGAAATCAACGAATCCCAGACGAATTAAAGAAAATGCTGCTATTTTTGATTTTTCATTAACTGAAAAAGAAATGCAAGAAATTAGCTGTTTAAATCAAAATGAACGAAGTGGAACAAACCCAGATAGTTACGATTAA MITHLQDTVLLNNGVEMPGLGLGVYKVEDGKTVQTAVQAALETGYRMIDTASFYDNEVGVGEAIKQSNLPREELFVTTKVWNDEQGYAKTKEAFEKSLQRLGLDYIDLYLIHWPVKGMYVETWKAMEELYESGQVRAIGVSNFHQQHVENLLANSKIVPAINQVEYHPHLTQEPLYAFCKQQGIQLEAWSPLKRGRLMDEPYLLSLAQKYEKTVAQVILRWDIQNEVITIPKSTNPRRIKENAAIFDFSLTEKEMQEISCLNQNERSGTNPDSYD PGPT0014985_419 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 AK015_00235 270 hypothetical protein ATGGAAAAGCAAATGCTTCACCAACAATTAGAGTTGGCTACACAGCAATTTACAGACGCTTACGAGCTTATCCAACAGGCTAAAACAAGTGGAAATGAGGAAGAGTTGATGCAAGCACAAAACCAGCTGTTACAGGTGGACCACTTATTGAAACAAACACAGTATCAAGCAGGACAAGATGCTTTAGACAACCCGCAATTTCAACAAACCTTTGAAAAGTTGCATAATGCAAGACAAGAAATTGAAACGTATCGACAAAATCACCAATAA MEKQMLHQQLELATQQFTDAYELIQQAKTSGNEEELMQAQNQLLQVDHLLKQTQYQAGQDALDNPQFQQTFEKLHNARQEIETYRQNHQ NA NA NA NA NA AK015_00236 939 rihB_1 Pyrimidine-specific ribonucleoside hydrolase RihB ATGAAGAAAAAAGTATACATGAACCACGATGGTGGAGTCGATGATTTAGTATCGTTATTTTTATTATTGCAAATGGAAGATGTTGATCTAGTAGGTGTTAGCGTCATCCCAGCAGACTGTTATTTGGAACCCGCAATATATGCAAGTCGCAAAATAATTGATCGGTTTGGGCAAGGAAAAGAGATAGAAGTAGCAGCTTCTACTTCACGTGGAAAAAACCCATTTCCCAAAGATTGGCGCATGCATGCTTTTTATGTAGATGCACTACCAATACTCAATGAGCATTTACCAATCCAAACGAAGGAAGCAGAATTACCAGCACATCAACACCTTATTCAAACTTTAAGAAATAGTAATGAACGAGTGACATTATTATTCGTCGGTCCATTAACGGATTTGGCAAGAGCATTGGACGAAGCGCCAGATATTGAGGAAAAGATTGAAAAACTCGTTTGGATGGGTGGCACGTTTTTATCGAATGGAAATGTAGAAGAGCCTGAACACGATGGAACAGCTGAGTGGAACGCATTTTGGGACCCAGAAGCTGCAAGAATAGTCTGGGATAGTGAGATTACTATTGATTTAGTAGCATTAGAAAGCACGAATAATGTGCCACTAACGGTAGATGTTCGTAATAAATGGGCGAAAGAAAGAGAAGATATAGGAATAGACTTTTTAGGACAATGTTATGCAATGGTGCCCCCACTTGTCCACTTTCAAACGAATTCAACATATTTTCTATGGGATGTACTTACAACAGCAACGATAGGAAATTCAAATGTAATTAAAAGGAAAATCGTTCGATGTTTCGTTCATCCTGATGGAAAAAGTCAGGGACGAACAGAACTGAATAAACAAGGGCGTGAAGTAAACCTTGTCTATGAAGTGAATCGGGAACAATTTTTTTCCTACATAACAGATCTCGCTAGACAAAAGTAG MKKKVYMNHDGGVDDLVSLFLLLQMEDVDLVGVSVIPADCYLEPAIYASRKIIDRFGQGKEIEVAASTSRGKNPFPKDWRMHAFYVDALPILNEHLPIQTKEAELPAHQHLIQTLRNSNERVTLLFVGPLTDLARALDEAPDIEEKIEKLVWMGGTFLSNGNVEEPEHDGTAEWNAFWDPEAARIVWDSEITIDLVALESTNNVPLTVDVRNKWAKEREDIGIDFLGQCYAMVPPLVHFQTNSTYFLWDVLTTATIGNSNVIKRKIVRCFVHPDGKSQGRTELNKQGREVNLVYEVNREQFFSYITDLARQK PGPT0013465_2122 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239 NA NA AK015_00237 1878 htpG COG0326 Chaperone protein HtpG ATGGCAAAACAGCAATTTAAAGCGGAATCCAAACGTTTGTTAGAATTAATGATTAATTCCATTTATTCGCAGCGTGAAGTGTTTTTACGAGAATTAATTTCCAATGCAAGTGATGCGATGGATAAAATGTATTACCGTAGCTTAACAGATGAAAATTTAACTTTTAATCAAGAAGATTATTATATTAAACTTATCCCAAACAAAGAAGATCGTACTTTGCAAGTTATTGATACGGGAATTGGCATGACGAAAGACGAACTAGAAACAAACTTAGGAACAATAGCAAAAAGTGGTTCATTTGCTTTTAAAAATGACACGGAACTAAAAGATGGCCGTGATATTATTGGGCAATTTGGTGTTGGTTTTTACGCGGCATTTATGGTGGCAGATAAAGTAACGGTGATTACGAAATCAGTGGATAGCGACCAAGCATACCAGTGGGAATCAACAGGGACAGATGGTTATACTATTACACCGGCCGATAAAGAAAGCGTAGGCACAGAAATTATTGTAAAGATGAAGGAAAACGAAGAGGAAGACTCGTTTGATACATTTTTAGACGAGCATCAATTACAACAAATTATTAAAAAGTATTCGGATTTCATTCGTTATCCAATTAAAATGGATGTTACAAAGAGCAAGCCGAAAGAGGAAGAAAGTGAAGAATACGTAGATTATGTAGAAGAAGAAACGATTAATAGTATGATCCCAATCTGGAAAAAGAATAAAAGTGAATTAACAGAAGACGATTACACGAATTTTTACCAAGAAAAAAGATATGGTTTCGATAAACCGTTAAAATCAATGCATATTAATGTGGATGGTACAGTTCGCTATAATGCTATTTTATTCATTCCAGAAAATGCACCATTTGATTATTATTCGCCAGAATTTGAAAAAGGACTCGAACTTTATTCCAACGGTGTATTAATTATGGATAAGTGTGCAGATCTTCTACCAGATTATTTTAGCTTTGTTAAAGGTATGGTAGATTCAGAAGATTTGTCTTTAAATATTTCACGAGAAATGTTACAGCATGACAGACAGTTGAAAGTGATTGCAAAAAACATGACGAAAAAAATTAAAACACAACTACAGCACCTATTACGTGATGATCGTGAAAAGTATGAAACATTTTATCAAGCCTTTGGCAGACAGCTGAAATTTGGTGTATATAATGACTTTGGTGCGAATAAAGAAACACTGCAGGATTTGCTTATGTTCTATTCATCAAAGGAAAAGAAATTAGTCACGCTGGATGAATATGTACAACGTATGCCAGAAGACCAGTCGTATATTTATTATGCTGCTGGTGAATCTATTGATCGCATTGAAAAATTACCACAAACGGAGATGGTAGCAGATAAAGGGTATGAAATTTTATATTTCACCGAAGAAGTAGATGAATTTGCAATTAAAATGATGCGAGAATATAAAGAGAAAGAATTTAAATCTGTATCTAGTGGCGATCTTGGTTTAGAGGATGACACAAAAGATGAAGCAGATGAAGAGATACAAGAAGAAAATAAAGCATTGTTTACGGCCATGAAGGAACATCTAGGAGATAAAGTAAAAGATGTCCGAGCTTCTAAACGTTTGAAATCACACCCTGTATGCTTAACAGCTGAGGGCGAAATTTCTTTGGAAATGGAAAAAGTAATTAATGCAATGCCGAATAATCAACAAATAAAGGCTGAAAAGATATTAGAAATTAACGTAAATCATGACGTATTCCAAACATTAAAGTCTCATAAAGATGATAAGGAAAAAATAGGTTTATATACAAACCTATTGTATAATCAGGCGTTATTAATTGAAGGTATACCTGTAAACGACCCTGTTGAATTTACGAATGATATTTGTAAAGTCATGGTTTAA MAKQQFKAESKRLLELMINSIYSQREVFLRELISNASDAMDKMYYRSLTDENLTFNQEDYYIKLIPNKEDRTLQVIDTGIGMTKDELETNLGTIAKSGSFAFKNDTELKDGRDIIGQFGVGFYAAFMVADKVTVITKSVDSDQAYQWESTGTDGYTITPADKESVGTEIIVKMKENEEEDSFDTFLDEHQLQQIIKKYSDFIRYPIKMDVTKSKPKEEESEEYVDYVEEETINSMIPIWKKNKSELTEDDYTNFYQEKRYGFDKPLKSMHINVDGTVRYNAILFIPENAPFDYYSPEFEKGLELYSNGVLIMDKCADLLPDYFSFVKGMVDSEDLSLNISREMLQHDRQLKVIAKNMTKKIKTQLQHLLRDDREKYETFYQAFGRQLKFGVYNDFGANKETLQDLLMFYSSKEKKLVTLDEYVQRMPEDQSYIYYAAGESIDRIEKLPQTEMVADKGYEILYFTEEVDEFAIKMMREYKEKEFKSVSSGDLGLEDDTKDEADEEIQEENKALFTAMKEHLGDKVKDVRASKRLKSHPVCLTAEGEISLEMEKVINAMPNNQQIKAEKILEINVNHDVFQTLKSHKDDKEKIGLYTNLLYNQALLIEGIPVNDPVEFTNDICKVMV PGPT0014640_3468 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION TRIGGERED_IMMUNITY PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079 NA NA AK015_00238 996 hypothetical protein ATGAGAAAGAGAAAACTGTTTTTATATTTATTTATTGTTTTCATTGCGGTGTTAGCAGGTTGTGCTAAAGGAAATAAGGATGCTGACAATAAAGAAAAAATAACCATTGGTTACTTTCCCAATATTAATCATGTTGCAGGAATGGTCGCAGAAGAAGAAAAAATGTATGAATCCGAGATGCCAAACGGTATAAAAGTTGAATATCAATATTTTCCTGATGGTTCTGCATTTATGACTGCATTAGAAACTGGTGAAATTGAAGGAGGTCTTGTTGGTCCTGGCCCCGCAATGAACCACTTTGCTAGCGGGGCAAAGATTAACATTGTAGCAGGAGGATCGACTGGTGGCACTGTCATTATGGCTCGCAATAAAGCAGGGATTGAAAGCCCGAAAGATTTAGCAAATAAGACGTTTATTTCTCCACGAGTTGGTTGTACGCATAATGTACAATTTGAAGCTCAGATGAAGAAAGAATATAATCTAACATCTGATCGAGTCCAAGGAAAAATGAAACATGTGACTGGAAAGCCTGCAACTTATCACAGTATGTTTATCTCTGAGAAGATTGATGTTGCTACAGTGCCAGAACCTTGGGCATCTGTAATTGAAGCAGAAGGAAGCGGAAAAGTGTTGATCGACACACCTGAAGTCGCTTGGGGAGAAATATTGCCTGCTGCAGTATTTGTAACTTCTCAAGATTTAGCCAAAAACAATCAAGAGCTCGTGCAACATATGGTGAACGCACATCAGCAAGCAACAGCGTTTATTCAAGATAATCCTGAGAAAGCCAAAACGATTGCTATTAAAAAGATTGCAGACATTACGGAACAAAAGCTGTCCAAACAAGTCATTGATAAGGCGTGGAAGCGTATTGATTTCACATCCGAAGTGGATAGCGATGTACTACAGGATTTTTCTAATGCTTCCTATGATTTAGAGTTTCTCAAAGACAAACCAAATCTGAAAGGGTTAGTAGATACACAATTTTTACAGTAA MRKRKLFLYLFIVFIAVLAGCAKGNKDADNKEKITIGYFPNINHVAGMVAEEEKMYESEMPNGIKVEYQYFPDGSAFMTALETGEIEGGLVGPGPAMNHFASGAKINIVAGGSTGGTVIMARNKAGIESPKDLANKTFISPRVGCTHNVQFEAQMKKEYNLTSDRVQGKMKHVTGKPATYHSMFISEKIDVATVPEPWASVIEAEGSGKVLIDTPEVAWGEILPAAVFVTSQDLAKNNQELVQHMVNAHQQATAFIQDNPEKAKTIAIKKIADITEQKLSKQVIDKAWKRIDFTSEVDSDVLQDFSNASYDLEFLKDKPNLKGLVDTQFLQ PGPT0001135_6181 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK015_00239 765 ssuC_1 COG0600 Putative aliphatic sulfonates transport permease protein SsuC ATGAAATTCAAAATGCTTAGCAAGCAACTACTATTTTTGGTTTTCCTTATAACTATTTGGCAATTAGTTCACACGGTAGGTATTTTTGAAGCAATCGTATTTCCTTCCCCTAAAGCTGTAGCTCATGCCCTATATAACGGATTTATGAACGGCGATTTTTTATTTGCTTTGGGAGCAAGCTTTAAGCACCTTCTACTTGGAATGACCACAGCATTATTCTTAGGAACTGTTATTGGGCTTATTCTTGGCAAGTCAAAAGTTGCCAATGAAACAGTAGGAATGTATTTGATAGGAATGCAAAGTATACCAAGTATTGTTTGGGTGCCACTTGCGATTATGTTGTTTGGTTTTACCGAGTTTTCTGTTGTATTCGTAGTTGTGCTAGGAGGAACTTTTGTCATGGCGCTTCAAGTAAGATCAGCCATTCAAAACATTTCCCCTCCATTAATACGTGCAGCAAAAACGATGGGGATTAGTGGGTTGCAACTTTTTTACAGAGTTGAAATGCCTGCTGGCACGCCATATTATATGACGGGTATTAGGCTTGCATGGGCCTTTAGCTGGCGTGCATTAATGGCAGGAGAATTATTAAGTAATGGCCCTGGGTTAGGCTATTCACTAAGATATGCGCAAGATTATGCTCGGATGGATCAAGTCATTGCAATCATTATAGTTATTGGTGTTATAGGAGCAACTGTAGATCATGGCATCTTTTCTAAAATTGAACGTAATGTCATGAAACGCTGGGGCTTATTAAAACAATAG MKFKMLSKQLLFLVFLITIWQLVHTVGIFEAIVFPSPKAVAHALYNGFMNGDFLFALGASFKHLLLGMTTALFLGTVIGLILGKSKVANETVGMYLIGMQSIPSIVWVPLAIMLFGFTEFSVVFVVVLGGTFVMALQVRSAIQNISPPLIRAAKTMGISGLQLFYRVEMPAGTPYYMTGIRLAWAFSWRALMAGELLSNGPGLGYSLRYAQDYARMDQVIAIIIVIGVIGATVDHGIFSKIERNVMKRWGLLKQ PGPT0001145_7668 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK015_00240 795 nrtD_1 COG1116 Nitrate import ATP-binding protein NrtD TTGCTTTTAGAAATCGAACATGTAAATAAATCCTTTTGGGATGACAAACAACAAGTACATTTCCCCGTTTTTTCAGATGTGATGATAAGTATAAATGAAAATCAATTCGTCTCTATACTTGGCCCATCTGGTTGTGGGAAGTCGACTTTACTTTCTATGATTGCTGGTCTGGAGGAGACAACAGAAGGAACGATAAAGCTAAACCGCGAACCTATCAGCGGCCCTGGGCCAGATCGAGGAATGGTGTTCCAGCAACCTTCCTTACTTCCATGGCTCAACGTGAAAGAAAACATCTTATTTCCAATTAAAAAACGGTTCAAAAAGAAGGAAGCAGAAGAGCAAGTTGCTTATTTTCTACAGTTAGTTCAGCTAGATAAATTTCAACATCATTATATTCATGAACTTTCAGGTGGGATGCAACAGCGAGTAGCCATTGCTCGTGCCTTAGCAATGAATCCAAAAATATTATTAATGGATGAACCGTTTGCCGCTTTAGATGAGCAAACAAGAGAGAACCTTCAAGACAGATTGCTTGATATTTGGCAGAAAAAGAAGCAAACGATATTGTTTGTAACGCATAGCATTAAGGAAGCACTCATCCTTTCTGACAGAGTCATAGTCATGGGAACCAATCCCGGACGAATAATAAGTGATGTAAATATCAATCTAAACAGGCCACGTAAACGAGAAGATGAACAAATCATTATTTTGGAGAAAAAGATTAGAAAGCTTTTAAAAGATGAATGGAATAAAGCATTAAAGGATGAATGGTCAAATGAAATTCAAAATGCTTAG MLLEIEHVNKSFWDDKQQVHFPVFSDVMISINENQFVSILGPSGCGKSTLLSMIAGLEETTEGTIKLNREPISGPGPDRGMVFQQPSLLPWLNVKENILFPIKKRFKKKEAEEQVAYFLQLVQLDKFQHHYIHELSGGMQQRVAIARALAMNPKILLMDEPFAALDEQTRENLQDRLLDIWQKKKQTILFVTHSIKEALILSDRVIVMGTNPGRIISDVNINLNRPRKREDEQIIILEKKIRKLLKDEWNKALKDEWSNEIQNA PGPT0001140_4699 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK015_00241 1095 ilvK COG0115 Branched-chain-amino-acid aminotransferase 2 ATGGAAGAATGGACAGTTAAAGTTAACCATTGTGCAGTCAAGAAGGAAAAACCTCAAACAGACCAACTAGAATTCGGGAGAATATTTACCGATCACATGTTTGTCATGGATTATTCTGAGCCTTTGGGTTGGCACGATGCTCGCATTGTCCCTTATCAACCTTTAACGATTGACCCATCAGCAATGATTTTTCATTATGGCCAATCCGTTTTTGAAGGATTAAAGGCATATCAAACGCCTGAAGGAGAAATTCAATTATTTCGTCCGGAAAAGAATTTGCAGCGATTAAACAAATCCAATGATCGCTTATGTATTCCTGCGATTGATGAAGCGTTTATACTGGAAGCTCTAAAACAATTAATCTATTTAGATAAAGAGTGGATACCAACTGCAGAAGGAACATCGCTTTATATTCGCCCATTCATTATTTCAACAGAACCTTATATTGGCGTGGCACCTTCCCATCAATACAAGTTCGTAATCATTTTATCACCAGTGGGAGCTTATTATAAAGAAGGCATTAACCCCGTGAAAATTGCTGTGGAAAACCAGTACGTGCGAGCAGTGAAAGGTGGTACTGGGGAAGCAAAAACAGGCGGAAACTACGCTTCGAGCCTAAAGGCACAAGAAATATGCTCCCAAAAAGGATTTGCTCAAGTACTTTGGCTTGATGGAGTGGAAAAGAAATATATTGAAGAAGTTGGAAGTATGAATGTATTCTTTAGAATAAATGGAAATGTCTATACTCCTATACTAAATGGAAGTATTCTAGAAGGAGTTACGCGTAATTCTGTTATTCAGTTATTGAAACACTGGAATATTCCTGTTATGGAAGAAAAGCTGTCAATGGAAGAGTTATATCAAGCATATCTTGATGGAGAATTGGAAGAAGCTTTCGGCACAGGAACAGCAGCAGTTATCTCACCAATTGGTCAACTAAGTTGGGAAGGTAAAGATTTAATCATTAACAATGGGAAAACAGGTGAATTAGCTAAATCATTATATACAACACTGACGAACATTCAATACGGTAAAGAGGTAGATCCATTTGATTGGGTGGAAAAAGTTAGCGAAGCATATGCTATAAAACAGTAA MEEWTVKVNHCAVKKEKPQTDQLEFGRIFTDHMFVMDYSEPLGWHDARIVPYQPLTIDPSAMIFHYGQSVFEGLKAYQTPEGEIQLFRPEKNLQRLNKSNDRLCIPAIDEAFILEALKQLIYLDKEWIPTAEGTSLYIRPFIISTEPYIGVAPSHQYKFVIILSPVGAYYKEGINPVKIAVENQYVRAVKGGTGEAKTGGNYASSLKAQEICSQKGFAQVLWLDGVEKKYIEEVGSMNVFFRINGNVYTPILNGSILEGVTRNSVIQLLKHWNIPVMEEKLSMEELYQAYLDGELEEAFGTGTAAVISPIGQLSWEGKDLIINNGKTGELAKSLYTTLTNIQYGKEVDPFDWVEKVSEAYAIKQ PGPT0008860_1879 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826 NA NA AK015_00242 813 gph_1 Phosphoglycolate phosphatase ATGGTTAAAGCAATTATTTTTGATTTGGACGATACACTCTTATGGGATAAGAAAAGTGTTGCTGAATCTTTTCGGGCAACCTGTAATATGGCGAGAGATGTGTATCCGCAAATTGATCTCGAGCGTTTAGAGCAGAATGTGAGAACAGAAGCACGTGCCTTGTATGCGTCTTTTCCGACGTATGCATTTACACAAATGATTGGGATTAATCCTTTTGAGGGGCTTTGGGGAGACTTTGATGATGGCGGAAGAGAGTTTGACAAATTAAAGCAAATTGCCCCTGAATACCGAAAATCAGCCTGGAAACGGGGGTTAGAAAAGACTGGGGTCTTAGATGAACAATTAGGGGAAACGTTGGCGGAAGCATTTCCTAAGGTGAGAAAACAGAAACCGATTGTATTTTCTAGTACATTTAAAGTGTTAGACGCATTACGTGCAGATTATAAATTAGGTTTATTAACAAATGGTTCACCGAGTTTACAACAAACGAAACTTGATATGACCCCTCAGCTGACGCCTTACTTTGATGAAATCGTTGTTTCAGGCGCATTTGGGAGTGGGAAGCCTGATCCAGCCATTTTTCAACATATGCTTGAAAAATTAGAGGTAGATCCATTCGAAGCTTTAATGGTTGGTGATAATTTAACTACAGATATAGTAGGGGCCTTCAAAAGTGAGATGGCTTCTATATGGATAAATTGGAATAATATAGACAGTAACGGTTGCCCCACTTTTGAAGTAGATGACTTATTACAAGTATTAGATGTTGTTTATAACAGGCTTGGGAAAGCAAAAGGCACTTTCAAAATTTGA MVKAIIFDLDDTLLWDKKSVAESFRATCNMARDVYPQIDLERLEQNVRTEARALYASFPTYAFTQMIGINPFEGLWGDFDDGGREFDKLKQIAPEYRKSAWKRGLEKTGVLDEQLGETLAEAFPKVRKQKPIVFSSTFKVLDALRADYKLGLLTNGSPSLQQTKLDMTPQLTPYFDEIVVSGAFGSGKPDPAIFQHMLEKLEVDPFEALMVGDNLTTDIVGAFKSEMASIWINWNNIDSNGCPTFEVDDLLQVLDVVYNRLGKAKGTFKI NA NA NA NA NA AK015_00243 702 hypothetical protein ATGCATACATCGATTATTACTACAGGGAAATTACCTTTGCATGGTCAAGCATTTTTCGTTCGTTTTTTACATAAAGAAGATATACATGAGATCTTACATTTGCAGACAATGGTTAAAAATGCCTTGGAAGTGCCAGATTTTCTTCAACCCTTAACAGCAGAGGAATATAAATCTATTTTAGGAGGCTATGGTTCTATCATTGGGGTCTTTGTTAATAACAAGTTAATTGCATTTCGTGCTATGCTCATTCCCAAAATGAATGATCCCGAACATTTAGGAATAGACCTCCGGCTAAACGAATATCAACGTAAAAAAATGCTTTATTCGGAAATATCAAATGTTCATCCTGCGTTTCGAGGCAATCGGCTGCAAACCTACATGGGGAGATTATTATTTGATCAAATTGATCAGCAATCCTTCCGCTATGTAGCTACGACTGTTGCTCCATTAAATATTGCTAGCTTAAAAGACAAACTTGCTTTAAGGATGGCTATTTGTTCGCTTAAAGAAAAATACAATGGTAAATTACGCTACATCCTATTTCGTGATTTGCATACAACCGATGATACTCCATTTTATAGTGACAAACAGGCAGTAAACATACAAGATATTACAAAACAACAGCAATTGATTAAGAAAGGATACAGGGGAATTTCGCTACAAGAAAAAGAACAGATGTATTGGGTATGCTTCATTAAATAA MHTSIITTGKLPLHGQAFFVRFLHKEDIHEILHLQTMVKNALEVPDFLQPLTAEEYKSILGGYGSIIGVFVNNKLIAFRAMLIPKMNDPEHLGIDLRLNEYQRKKMLYSEISNVHPAFRGNRLQTYMGRLLFDQIDQQSFRYVATTVAPLNIASLKDKLALRMAICSLKEKYNGKLRYILFRDLHTTDDTPFYSDKQAVNIQDITKQQQLIKKGYRGISLQEKEQMYWVCFIK NA NA NA NA NA AK015_00244 1431 mleN_1 COG1757 Malate-2H(+)/Na(+)-lactate antiporter ATGACCGAAATATCTAAAAAAGATATTAGCGTTTGGTGGGCGCTTACACCTCTTTGTGTGATGATTACTTCCATGATACTAACCATTGTGGCTTTTCAAGGAGAACCCCACTTGCCACTCATTATTGGCACAGGAACAGCCGCGCTTGTAGCTTGGAAACAAGGCTATTCATGGAAAGAAATAGAAGAGATGATGTTTCGCGGCATACGATTAGCACTACCGGCCATTATCATTATTATGCTTGTTGGATTAACTATTGGTGCTTGGATTGGTGGTGGTATTGTTGCCACCATGATTTATTACGGTTTAAAGATCATTTCACCGTCTATTTTTTTGGTAACGATTACAATTATATGCGCTATTGTAGCTTTAACCGTTGGCAGCTCTTGGGCAACAATGGGAACGATTGGGGTTGCTGGCATGGGAATAGGAATGAGTATGGGAATCCCAGCTCCTATAGTTGCAGGTGCAGTTATTTCAGGCTCTTATTTTGGAGATAAAATGTCTCCTTTATCAGACACTACGAATCTAGCTTCAGGTTTGACAAATACAGATTTATTCGTTCATATTAAACATATGCTATATACAACAGTACCAAGTTTAATCATTGCTTTACTCGTTTTTACTTACATAGGAAGAGACTTCGGAAAAGATGCCATTGAGAATGAAAGAATTACGCAAACCATCTTAGACATGCAGGCGAATTTTGTCATGTCTCCATATCTTTTGCTTATACCACTACTTGTCATCGTACTGGTTATGTTCAAAGTACCCGCTGTGCCTGCTATCGCAACCGGAATCGTTATGGGCTTTTTCTCGCAAATATTCGTGCAAGGAGACGACCCATCCTATGCGCTACAAGTGTTGCAAAATGGCTACACGATAGATACAAGCAACGAAATGGTTGCTGAATTATTTAATCGCGGTGGACTGATGTCTATGATGTATACCGTGTCGATGACCATTGTCGCTATGACTTTTGGAGGGATCATGGAATATTCGGGGATGCTAAAAGCGATGATGGATCAACTATTAAAATTCATAAAATCAACTGGGAATTTAATTGCATCTACATTAGGAGCAGCTTTTTTAACGAATGCAACATGTTCTGAGCAGTATATTTCCATTGTCGTTCCATCTAGAATGTTTGCTACCGTATATAAAAAGAAAGGCTTACATTCGAAGAACTTATCAAGATCTCTAGAGGATGGTGGAACACTAACTTCTGTCTTTATTCCTTGGAATACTTGTGGGGTCTTCATCTACACAACTCTAGAGGTGCATGCCTTTAGTTATGCACCTTATGCTATTTTAAATTTCACCGTACCAATTATTGCCTTGATTTATGCCTATACTGGGTTCACCATTACAAAAATTGAAAAAACAGATCGCTCTCAGCAGACGACATTGATTAGAAAAAAATCAATGTAA MTEISKKDISVWWALTPLCVMITSMILTIVAFQGEPHLPLIIGTGTAALVAWKQGYSWKEIEEMMFRGIRLALPAIIIIMLVGLTIGAWIGGGIVATMIYYGLKIISPSIFLVTITIICAIVALTVGSSWATMGTIGVAGMGIGMSMGIPAPIVAGAVISGSYFGDKMSPLSDTTNLASGLTNTDLFVHIKHMLYTTVPSLIIALLVFTYIGRDFGKDAIENERITQTILDMQANFVMSPYLLLIPLLVIVLVMFKVPAVPAIATGIVMGFFSQIFVQGDDPSYALQVLQNGYTIDTSNEMVAELFNRGGLMSMMYTVSMTIVAMTFGGIMEYSGMLKAMMDQLLKFIKSTGNLIASTLGAAFLTNATCSEQYISIVVPSRMFATVYKKKGLHSKNLSRSLEDGGTLTSVFIPWNTCGVFIYTTLEVHAFSYAPYAILNFTVPIIALIYAYTGFTITKIEKTDRSQQTTLIRKKSM PGPT0013945_717 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315 NA NA AK015_00245 1587 serA COG0111 D-3-phosphoglycerate dehydrogenase ATGGGATTTAGAGTATTAATTGCTGATCCTTTAAGCCAAGAAGGAATTACCCCTTTATTAGAAACAGAAGAGATTCAATTAGATATTGGAACAGAATGGACAAATACGGAACTGTTTGAACGAATTTCAGAATATGACGCCTTAATAGTTAGAAGTCAAACACAAGTAACGCGTGCACTCATTGCGAAAGCAACCCATTTAAAAATCATTGGCAGAGCTGGTGTGGGGGTTGATAATATTGATCTAGATGCTGCAACAGAGCAAGGAATCATTGTTGTAAACGCACCGAATGGTAATACAAATTCAGCAGCTGAACATACAATGGCAATGATGATGGCTTTATCTAGAAAAATTCCACAAGCATATTTATCTTTAAAAAACAAACAATGGGATCGGAAAAAATATATTGGCAAAGAGCTAAAAAATAAGACATTAGGCATCATTGGATTTGGTCGTATCGGAGCAGAAGTCGCCTACCGAGCGAAAGGACAACGGATGCGTATAATCGCATACGACCCGTTTTTAACAGAAGAACAAGCAAGTAAATTAGGTATTAAAAAAGGTTCCCTTGAAAATGTTTATGCGCAAGCGGATTTCATTACCATTCACACGCCATTATTAAAGGAAACGCGATATCTTTTAAATCAACAAGCCTTCGAAGCAATGAAGGACGGTGTTTACATTATTAATTGTGCTCGAGGTGGAATCATTGATGAAGCGGCACTGTATGATGCCATCCAAAATAAAAAAGTTGCTGGAGCTGCTCTCGATGTATTTGAAGAAGAGCCATTTTATGAACACCGTTTATTAGAATTACCTGAAATAATTGCTACTCCTCATTTAGGCGCAAGTACGGTAGAAGCACAAGAAAGTGTTGCGATAGATGTTAGTGAAGATATCATTCGCTTCATGCGTGGAGAGGCTGTTCATAATCCTGTAAATCTCCCTTCTATTCCGCGAGAAGCCTTAACAGAAATTAAGCCATATTTCCTCTTAGCTGAAAAGCTTGGCCAATTTCTTATTCATTTAGCAAATGAACCAATTCAAGAAATTAACCTTTATTATTCTGGGGATGTGGCTAAAACAAAGATTGGTCCAATCACGAGGAATGCAGTGAAAGGACTGCTAGCTCGCCATTTAGGTGATCACGTAAATGATGTAAATGCCCTTTACCTCGCAGAAAAAAGAGGCTTAACTATTCATGAAAACATGACTTCTTCCACGCAAGGCTTTACAAACTTAATGCGTGTAGAAATAGTAACTAAATCTGAAAAGAAAAGCGTTGCCGGTACACTGCTTAATGGATTAGGCCCTAGAATTGTTAAAGTAGATCCTTATAGTGTTGATGTAACTCCAAAAGGACATCTTTTAGTTATCCACCATCAAGACCAACCAGGCGTTATTGGTAAAATGGGCAGCCTGCTAGCTACAAAAGAGATAAACATTGCAACCATGCAAGTAGATCGTGCCGATGTTGGTGGAAATGCCATTATGGTTATGACAGTAGACAGACATATAGAAAAGATAGAATTAGAAGCTTTAGAACAGCTTGAAGAAATTCATAAAGCTATTTCTATCGATTTATAA MGFRVLIADPLSQEGITPLLETEEIQLDIGTEWTNTELFERISEYDALIVRSQTQVTRALIAKATHLKIIGRAGVGVDNIDLDAATEQGIIVVNAPNGNTNSAAEHTMAMMMALSRKIPQAYLSLKNKQWDRKKYIGKELKNKTLGIIGFGRIGAEVAYRAKGQRMRIIAYDPFLTEEQASKLGIKKGSLENVYAQADFITIHTPLLKETRYLLNQQAFEAMKDGVYIINCARGGIIDEAALYDAIQNKKVAGAALDVFEEEPFYEHRLLELPEIIATPHLGASTVEAQESVAIDVSEDIIRFMRGEAVHNPVNLPSIPREALTEIKPYFLLAEKLGQFLIHLANEPIQEINLYYSGDVAKTKIGPITRNAVKGLLARHLGDHVNDVNALYLAEKRGLTIHENMTSSTQGFTNLMRVEIVTKSEKKSVAGTLLNGLGPRIVKVDPYSVDVTPKGHLLVIHHQDQPGVIGKMGSLLATKEINIATMQVDRADVGGNAIMVMTVDRHIEKIELEALEQLEEIHKAISIDL PGPT0009155_1777 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058 NA NA AK015_00246 1155 COG0075 Serine-pyruvate aminotransferase ATGCAACCCGATCAACATCTACTTAGAATTCCTGGCCCAACACCAATTCCACCTAGTGTAGAACGTGCAATGGCACAGCCTATGTTTGGACACCGAGGACAAGAAATGAAAGAACTGTTAAAGATTGTGAAGGAAAAATTAAAACCTATCTTTGGTACAAAAGAGGATGTACTTATTTATACTGCAAGTGGTACCGCAGCATTAGAAACAGCAGTCGTAAATACCGTACAACCGGAAGAAGAAGTGCTTGTAATTGTCACAGGCGCATTTGGTGAACGTTTTACAAAAATTTGTGATGAGTATCACATTGAAGCCCATAAATATTTGGTCCCTTGGGGGGAAGCAGCTGACCCGAAACAATTAGCATCTTTACTGCAACAACATCCCAATGTTAAAGCAGTGTTTGCGACTTTCTGTGAAACTTCTACAGCCGTATTAAATCCAATTAAGCAACTTGCAGAAGTCGTGCACAATGAATCGGAAGCGCTATTTATCGTTGACGGCGTCTCTTGTATTGGGGGAACAGAAACAAAAATGGATGAATGGGGATTAGATGTCGTTGTAACCGGATCGCAAAAAGCAATGATGCTCCCTGCAGGACTAGCTTTTATAGCTGCAAGCAAACGTGCCTGGGACGTTATTGAAAAAAATCCACATGCTAGATTTTATTTAGATATGCGCAGGTATCGTCTTAAACTTCAAGAAGATTCGACCCCCTTCACACCAGCAGTATCCTTACTACAAGGCTTAAAACAAGCCCTTACCCTCGTGGAGGAAGAAGGATTAGAAAATATTTTCCATCGCCATGAGATGATGAAGAATATGACTCGGGAAGCATTTAAAGCTTTATCCATTCCATTGCTTACATCGGATAAAAATGCTTCCCCAACAGTTACTGCTGTAAAACCAGGAGATTTTGCATCTGAAGACTTACGAAAGATCGTTAAAAACGATTTTGGTTTAACTTTAGCGGGAGGACAGCAACATTTAAAAGGACAAATTTTTCGAATTGGACATATGGGCTACTGTTCCCCTGCTGATGTGTTACAAGTAATAAGCATTATCGAAATTGGTTTACAACAAATTGGTAAACACGTAGAGCTTGGAACAGGCGTACAAGCTGCCCAAGCTGCCTATTTGAAAATGAAGGGTTGA MQPDQHLLRIPGPTPIPPSVERAMAQPMFGHRGQEMKELLKIVKEKLKPIFGTKEDVLIYTASGTAALETAVVNTVQPEEEVLVIVTGAFGERFTKICDEYHIEAHKYLVPWGEAADPKQLASLLQQHPNVKAVFATFCETSTAVLNPIKQLAEVVHNESEALFIVDGVSCIGGTETKMDEWGLDVVVTGSQKAMMLPAGLAFIAASKRAWDVIEKNPHARFYLDMRRYRLKLQEDSTPFTPAVSLLQGLKQALTLVEEEGLENIFHRHEMMKNMTREAFKALSIPLLTSDKNASPTVTAVKPGDFASEDLRKIVKNDFGLTLAGGQQHLKGQIFRIGHMGYCSPADVLQVISIIEIGLQQIGKHVELGTGVQAAQAAYLKMKG PGPT0001955_3 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001955-serine_pyruvate_transaminase_EC_2_6_1_51-K13290 NA NA AK015_00247 762 cof HMP-PP phosphatase ATGAAGTTTGTGTTTGATTTAGACGGAACGATATGTTTCAACGGTAAACCACTTTCAAATACGATTGTCCAATGTTTAAAACAGTTAAATAAAAATGACGTTATCTTTGCATCGGCTAGACCAATCAGGGATATGCTTCCAGTGCTTCCTAAAGATTTTCATTCTTATACGCTCATTGGTGGAAATGGTTCACTGATTTATCAAGATAATAAGCTATTACACGCCCAAACATTTACCAATCAACAGCTGCGTGTCATTTTAAAGCTAGTTGAGGAGCAGGAAGCGACTTTCTTAATGGATAGTGATTGGGACTATGTGTATACAGGCCCAAAGGATCATCCGATTGTACACAATCTGGACCAAGGAAAATTAGCTCAACATGTAGCCGTTGATCAACTTTCCTCTGTAGTAAAAATATTATTCATTACGATGAAGGATTACGAAATTTTATTCACTCAATTACAGCACTTGGACATAACTGTTCACGAACATCGTAATGAACAACTTATTGACGTAAGCCCAAGAAATATTGATAAGTGGAGTGCGTTACAAGTATTAGGTATAAAGCCGAAAAGTTATATAGCTTTTGGCAATGATGCGAATGATATCTCCATGTTCCAACATGCTGCACAGGCAATTATGATTGACTATCACGATCAATTGTCACGATTTGCTGATGAGCACGTTTCTTACCAAGAAGATGGAGAAAAAGCAATTGTGGAAAAAATCCAATCCATCTATTCTGAAACCGTGTATATTTAG MKFVFDLDGTICFNGKPLSNTIVQCLKQLNKNDVIFASARPIRDMLPVLPKDFHSYTLIGGNGSLIYQDNKLLHAQTFTNQQLRVILKLVEEQEATFLMDSDWDYVYTGPKDHPIVHNLDQGKLAQHVAVDQLSSVVKILFITMKDYEILFTQLQHLDITVHEHRNEQLIDVSPRNIDKWSALQVLGIKPKSYIAFGNDANDISMFQHAAQAIMIDYHDQLSRFADEHVSYQEDGEKAIVEKIQSIYSETVYI NA NA NA NA NA AK015_00248 699 hypothetical protein ATGTACAAAAACTCAGATCGATTCTTAACTTCTTTTAATCGAATTGAAAAAATGCTCCGTTCTTTCATGATACATAAAAAGGATGTAAGCTTTTCTAAAACAGTAAAAATTCTGCGGAATTCAAATGCATTAGTGAGCCAATACAGTGATGATTTGCTTGAGTTTGCGGAGCTTAGAAATGCAATCGTGCATAATAAAGTGGATATGACTTATGCCATAGCTGAACCACATGATGAAATTGTTGAAAGAATTGAATGGATTGAAGAGGAGCTAAGAAAGCCTAAACTCGTTATTCCTACGTTTCAAAAGTATGTATATTGTTTTCAAAGTAATGATGAATTAAATAAATTGTTAAAGGTTATTCATGAAAAAAGATTGTCCAAATTTCCCATTTATGAAGGTAAAGTGTACCGAGGTTTGCTTACCCAAAAAGGAATTACAAATTGGTTGGCGAGCATAGATCAACGAGGTGAAATGTTAAAAAGTAGCTATCACTTAAAAGATATTTTTCCTTTTGAAAACAATGAGAATTCGAGGTTTATTGCTCAGGATACCACTTTGTATGAGGCAATTGAAATGTTTAAAGAACATACAAGTAGGGGCAAGCGATTAGAAGCCTTGCTCATCACTTCGAATGGTGAACCTTCAGCCGAATTATTAGGTATTATTACAGCGTGGGATATTTTGGAGATTTCATAG MYKNSDRFLTSFNRIEKMLRSFMIHKKDVSFSKTVKILRNSNALVSQYSDDLLEFAELRNAIVHNKVDMTYAIAEPHDEIVERIEWIEEELRKPKLVIPTFQKYVYCFQSNDELNKLLKVIHEKRLSKFPIYEGKVYRGLLTQKGITNWLASIDQRGEMLKSSYHLKDIFPFENNENSRFIAQDTTLYEAIEMFKEHTSRGKRLEALLITSNGEPSAELLGIITAWDILEIS NA NA NA NA NA AK015_00249 615 polC_1 COG2176 DNA polymerase III PolC-type ATGACTCTAGTATCAATTGATTTTGAAACTGCTAACGAAAAACGGACAAGCCCTTGTGCAGTTGGCATCGTTGTATCAGATGGGACACAAATAGTGGATGAGTACTATAGTTTGATAAATCCGCTTACAGATTTTCGAGCAATGAACATACGAATACATGGTATTACGCCAGAACATGTTCGTTATGCTCCAACTTTTACAGATGTTTGGCCAGTCCTTTCTACATACTTACAGCAAGGTATGGTTATTGCTCATAATGCGAGCTTTGATATGAGTGTTCTAAGAAATACATTAGATCGTTTTGGGTTAACATACCCTGACTTGAATTATCTATGTACAGTTATGCTTGCAAAACAAATATGGCCACAGCTACATAATCATAAATTGGATACATTGGCTACCTTCCATCAAATCCCTTTTGAACATCATCATGCTTTAGAAGATGCCCGTGTTGCAGCAAAACTTTTTTCTAAATCTTTAAATGAAAGTAAGCAGCATACAATAGAAGGCTTATTAGCTATGTATCATATACAAAGTGGTAAGATTTTTCATCATGGGTATCATGCACCAAAGAAAAAGAAAATGCGTCAATATAAACAGATTTTTCTTACTTAA MTLVSIDFETANEKRTSPCAVGIVVSDGTQIVDEYYSLINPLTDFRAMNIRIHGITPEHVRYAPTFTDVWPVLSTYLQQGMVIAHNASFDMSVLRNTLDRFGLTYPDLNYLCTVMLAKQIWPQLHNHKLDTLATFHQIPFEHHHALEDARVAAKLFSKSLNESKQHTIEGLLAMYHIQSGKIFHHGYHAPKKKKMRQYKQIFLT NA NA NA NA NA AK015_00250 141 hypothetical protein GTGAAAGAAGAGCAACATGCATATCGTTCTAAACGTGCTCAAAGTAGTGTCAATCCCCAAGGTCTGTCTGAAGATAAAAAAGATCATCGTCCAAAAACGCAACTAGAAGATAGGGCGAAAAAGAAAAATACGAAGATCTAA MKEEQHAYRSKRAQSSVNPQGLSEDKKDHRPKTQLEDRAKKKNTKI PGPT0024915_17 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024915-sspL-K06429 NA NA AK015_00252 720 ISL3 family transposase IS652 TTGATTATTGCTGATGGAGAGACCAAGGAACCGATTGATATTTTGCCAAATCGAAAAAAGAAGACCCTCAAGGATTATCTCCAAAAACATGGAACCAATGTGGATGTAGTCATTATGGACATGAGTCCTTCTTTTAAGGCAGCTGTCCAAAAGGCATTGGGGAAACCGGTTATTGTAGCCGATCGTTTTCATTTTTGTCGTTATATCTATTGGGCTCTTGACGGAGTCAGAAGAAGAATCCAATCTGAATGGAATGATTATGACCGTAAAAAATGTAAAAGGATGCGCTATGTGTTTTATAAAGACAGTGCAAAGCTAACCGAAAAGGAACGCTGGTATTTGGACAGGTATCTTGGGATGGATGAAGAACTTCGCAGGGCTTACGAATTGAAAGAGTCCTACTGCTTTTGGTTCAAGCAAGCCAAGGAAAATGGACAGGTTAAGATCAAAGAAACGAAACAAGGATTATTGGATTTTTACAGGAAGGTAGAACAAGAGGGTCTCCCTGAATTTGAGAAGGCTATCCGTACATTCAAGAACTGGCAGACAGAGGTATTAAACAGCTTTTTATTTGATTACTCAAATGGTTTTTTGGAGGGAATTAATAACCTAACGAAAGTCATGAAGAGGAACGCCTTTGGATTCAGGAACTTCCTAAGGGCAAGAGCAAGAATACTTCTTTTACATAAGTATAAAAAAATTGGAAGTCATGTTGGGTAG MIIADGETKEPIDILPNRKKKTLKDYLQKHGTNVDVVIMDMSPSFKAAVQKALGKPVIVADRFHFCRYIYWALDGVRRRIQSEWNDYDRKKCKRMRYVFYKDSAKLTEKERWYLDRYLGMDEELRRAYELKESYCFWFKQAKENGQVKIKETKQGLLDFYRKVEQEGLPEFEKAIRTFKNWQTEVLNSFLFDYSNGFLEGINNLTKVMKRNAFGFRNFLRARARILLLHKYKKIGSHVG PGPT0030630_1548 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485 NA NA AK015_00253 852 catE COG2514 Catechol-2,3-dioxygenase ATGGAGACGAAGTTTTTTGATCATTCGGTGGCTCATGTAAACGAAGTTTCGATTTACGTGACAAATTTAAAGCATTCACTTGCATATTATCAATATTTGTTCGGTTTTTCTTTATTAGAGAAATCTCAACACCAAGCTGTACTGTCAGCAAATGGTGCTACTCCGATATTAACTTTGGAACAGCCAGAATCTGTTTTATCGAAACAACAGGGGAGAACAGGGCTGTATCATTTTGCTATATTGCTTCCAAATAGAAGTGATTTGGCATCATTCTTACAGTTTTGTTTAGAGGAACAAATTCCTTTTGGGGCCTCAGACCATCACGTTAGTGAAGCGATTTATTTAACGGACCCAGATGGAAATGGAATAGAAGTGTATCGTGATCGCCCATCAAGTAGGTGGAAGTGGGATGATGATCAAGTAATGATGACAACGCATCAGTTAGATACAGCTGGATTGTTGGCGGAACCATCTGGTAAATGGAGAGGTGCACCGAAGGAAAGTCTGATAGGACATATACACTTACATGTAAACAATTTGGAACAAGCGAAAGCGTTTTATGTAAAAATATTAGGTTTTACGGAAGTAGCCCATTATCCAGGAGCATTATTTTTATCGACTGGTGACTATCATCACCATATTGCTATTAATGTTTGGAATGGAGAAAAAGCCCTTCCACCAGAAAAATATAGTGCTGGTCTAAAGTATTTTTCTATTGCATTTCCGAAAACGCAAGCAATAGATATAATTCATGATCAGTTAAAGAAAAGGGGATGGCATGCTATTCGAGCAAAGGATGGGGATGGTGTATACGTAGACGACCCGTCTGGAAATGAAATTTATCTATCCTGA METKFFDHSVAHVNEVSIYVTNLKHSLAYYQYLFGFSLLEKSQHQAVLSANGATPILTLEQPESVLSKQQGRTGLYHFAILLPNRSDLASFLQFCLEEQIPFGASDHHVSEAIYLTDPDGNGIEVYRDRPSSRWKWDDDQVMMTTHQLDTAGLLAEPSGKWRGAPKESLIGHIHLHVNNLEQAKAFYVKILGFTEVAHYPGALFLSTGDYHHHIAINVWNGEKALPPEKYSAGLKYFSIAFPKTQAIDIIHDQLKKRGWHAIRAKDGDGVYVDDPSGNEIYLS PGPT0005050_636 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 AK015_00254 954 yrbG COG0530 Inner membrane protein YrbG ATGGCGTATGTTCTATTGATTGTTGGATTTGTTTTATTAATAAAAGGTGCTGATTTTTTTGTAGATGGTTCGTCAAATATTGCCAGACTACTAAGAGTTCCACCAATATTAATTGGTTTAACTATTGTTGCATTTGGTACAAGCTCTCCAGAGGCAACGGTAAGTATTATTGCTTCATTACAAGGGACAGCAGACGTATCGATGGGGAATGTTATTGGGAGCAACATTTTTAATATAACACTTGTGGTTGGAATCGCAGCGGTATTGTTTCCAATTAAAGTAGAGAATGAAACAATTCGAAAAGAAATTCCTTTTACTTTGCTTGCAAGTGTTGCTTTATTAATATTAATTAATGATAAAGTATTGCAAGGCCTGAATCTAAATACAATATCTCGAAGTGACGGGCTTATATTTCTATTGTTTTTATCTGTATTCATGTTCTATGTCATTGAAGTAGCGTTAAAGAGTCGTGAAAATGGAAGTGAAGTTAATGCTGTTCAAGACGTTAAATGGGGAAAAAACATTACAATTACCATTCTTGGGCTTTTAGGCATTGTCCTCGGTGGTCAGATGGTTGTGGAAAATGGAAAGGACATTGCTTACTCATGGGGAATGAGTGAAGCTCTTGTCGGTTTAACCATCATAGCGATTGGAACCTCCCTACCAGAACTAGTAACCTCCATTACAGCGGCTTTAAAAAAGGAAAGTGAAATAGCTTTAGGAAATATTGTTGGAAGCAATATTTTTAACATTTTATTCGTTCTTGGAACTTCTGCAGTTATTTCTCCTTTAGAAGTCAGCGGGAAAATTACTATCGACATTTTGATAATGATTGCTATCACCGTGCTACTACTTATTTTTTCTCGCACAAACTTTCGCATCGATAAACGTGAAGGCCTTGTATTAGTTATAGGCTATATCGTTTATACGGTGTATATCATAGTAAGAAATTAA MAYVLLIVGFVLLIKGADFFVDGSSNIARLLRVPPILIGLTIVAFGTSSPEATVSIIASLQGTADVSMGNVIGSNIFNITLVVGIAAVLFPIKVENETIRKEIPFTLLASVALLILINDKVLQGLNLNTISRSDGLIFLLFLSVFMFYVIEVALKSRENGSEVNAVQDVKWGKNITITILGLLGIVLGGQMVVENGKDIAYSWGMSEALVGLTIIAIGTSLPELVTSITAALKKESEIALGNIVGSNIFNILFVLGTSAVISPLEVSGKITIDILIMIAITVLLLIFSRTNFRIDKREGLVLVIGYIVYTVYIIVRN PGPT0014400_2582 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301 NA NA AK015_00255 603 mhqD COG0400 Putative hydrolase MhqD ATGAAACATATTTTTCAAGAAGGAAACGATCCTACAAAACCTACATTATTATTGTTGCACGGTACTGGTGGTACAGAACAGGATCTGCTTCCATTAGCTGAAAGAATAGATGAAGGGGCAAATGTCTTAAGTGTAAGGGGAAATATTCTTGAAAATGGCATGCCTCGCTTTTTCAAGCGTTTAGCCGAAGGAATTTTCGATGAAGAAGACCTTATTTTTCGAACCAAGGAATTAAATACCTTTTTAGATGAAGCGGCGGAAACATATACCTTTCATAGAGATAACATCATTGCTATCGGATACTCCAACGGCGCAAATATCGCAGCAAACTTACTTTTTCATTATCAACATGCACTTCGTGGTGCAATACTCCATCATCCTATGGTACCACGTCGGGGTATAGCTTTACCAAATTTAGCTCATAAACATGTGTTTATCGCTGCAGGAATAAATGACCCTATTTGTCCACCACAAGAATCAAAAGACTTAACAAAAATATTAAAGGATGCTGGCGCAAATGTCCATTTGCATTGGGAAAATCAAGGTCACCAATTAACATTACAAGAAGTAGAATCCGCAGCACAGTGGTACCAACATTTATAA MKHIFQEGNDPTKPTLLLLHGTGGTEQDLLPLAERIDEGANVLSVRGNILENGMPRFFKRLAEGIFDEEDLIFRTKELNTFLDEAAETYTFHRDNIIAIGYSNGANIAANLLFHYQHALRGAILHHPMVPRRGIALPNLAHKHVFIAAGINDPICPPQESKDLTKILKDAGANVHLHWENQGHQLTLQEVESAAQWYQHL PGPT0028515_3655 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 AK015_00256 423 mhqR_1 COG1846 HTH-type transcriptional regulator MhqR ATGAAAGAAAATCTATCGTTAAAAGCTTTTGTCGTATTAATTAAAGCGTCAAAAGCGTTACAAGACTATGTTATGGAAGATATGAAGAATTATGGCATGAAGACTTCTGAATTCACTATTCTTGAAACGCTTTATCATAAAGGAAAACAAACCGTTCGGGAAATATCTGAAAGTGTACTGATTAAAACTGGCTCCATTACGTATGTTATTGATAAATTGGAAGAAAAAGGATTACTCCAAAGAAAACATTCCCAAGAAGATAGACGTGTCGTTTATATTGATATTACAGATAAAGGAAAGCAACTGATGGATGAAATTTTTCCAAAGCATCAGCAAGTCATTGAAGAACTCTTTATGGATGTAAGTGATGAACAAAAAAAAGTTGTTATCGACGTATTAAAAAAAGCTGGAAAGCGTTTATAA MKENLSLKAFVVLIKASKALQDYVMEDMKNYGMKTSEFTILETLYHKGKQTVREISESVLIKTGSITYVIDKLEEKGLLQRKHSQEDRRVVYIDITDKGKQLMDEIFPKHQQVIEELFMDVSDEQKKVVIDVLKKAGKRL NA NA NA NA NA AK015_00257 1584 expZ_1 COG0488 Nucleotide-binding protein ExpZ ATGCATTTACTATTGGATGCAAAAAAGATTTCATACTATATTAAAGATCGTAAATTACTATCCATAGAAGCATTACGTGTGCATCGAGGAGATCGAATTGGTTTAGTTGGTAAAAACGGTTGTGGAAAGACAACGCTATTAAAAATACTTGCAGAAACAATGACGGCTGAAACGAGCAATCTTTCTCTGTACGGTTCGATTGATTTAGTACCACAATTAAAAGAAACGAAAGAAACAAAAAGTGGCGGTGAAATAACGCAAGCATATATAAGCAAAGCACTAGCAAGAAAAGCAGACATTTTACTTGCTGATGAGCCAACAGCAAATTTAGACACCTCCCATATGGAAGCGTTAGAAGCCAACTTACAAAACTGGCCCGGTGCCTTCATTATCGTTTCTCATGATCGGGAATTTTTAGATGCCATATGTACGAACATTTGGGAGCTAGAAGATGGCATTCTTACAACATACAAAGGCAACTATTCTGATTATCAACAACAAAAAGAATTACAAATACAACAGCAAGAACAAGCGTATGATACCTATATAAAAAAGAAATCACAACTAGAAGAAGCACTCGCTTTAAAAGAAAAAAAGGCACAGCGGGCAACAAAAAAACCAAAGCAAACGAGCAACTCAGAAGCGAAAATTACAGGAGCAAAGCCTTATTTCGCCAATAAACAAAAAAAATTACGCAAAAACGCTAAAGCAATAGAAACACGCATTGAAAAACTAGAAAAAGTAGAAAAAGCTCGGGAAGTTCCCCCTCTTAAAATGGAGTTGCCAAATGAAAAAACAATCTTAGGGAGAAATCTTTTACGAGTTGAAGATGTAACAGGAGAAGTACATCAACGTTTATTATGGAATAAAGTTAGCTTCCAAATAAAAGGTGGCGATAAGGTAGCGATCATTGGAGCTAACGGAAGTGGGAAAACAACACTGATAAAAAAGTTACTCCTACCAACAGAGCAAGTCCACCATTCTCCAGCTATGAAAATCGGTTACTTTAGTCAAAATTTAGATGTACTTGATACGAACAAATCTATTTTACAAAATGTACGTGAGACCTCCCATCAAAACGAGACTTTAATCCGTACAGTATTAGGAAGGCTTCATTTTTATCGCGATGATGTCCATAAACAAGTAGCTGTCCTTAGTGGAGGTGAACGAGTCAAGGTTGCTTTTGCTAAATTATTTGTAAGCAATATTAACACCATTATTCTTGACGAACCGACTAATTTTCTTGATATTGAAGCTGTGGAAGCTTTAGAATCGCTGTTAGCAGAATATCAAGGCACTGTCATATTCGTCTCCCATGACCGAAGATTCATTCAGACCGTCGCAACTACAATCTTCGCTTTCGAAGATCAGACCATAAAGATTTTCGCAGGCACTTATGAAGCGTATAAGCAAGCATCCTCACAACAAAAAGAAGACGCAAGCGAGCAGGAACGAATGGTTATTGAAACAAAAATGACCGAGATACTAGGAAAATTAAGCATAGAGCCTTCAGACGAATTGGAGCAAGAATTTCAAGAACTTGTCGCGAGAAAAAATGAATTAGAAGCAAAGAAAAAACGTTAA MHLLLDAKKISYYIKDRKLLSIEALRVHRGDRIGLVGKNGCGKTTLLKILAETMTAETSNLSLYGSIDLVPQLKETKETKSGGEITQAYISKALARKADILLADEPTANLDTSHMEALEANLQNWPGAFIIVSHDREFLDAICTNIWELEDGILTTYKGNYSDYQQQKELQIQQQEQAYDTYIKKKSQLEEALALKEKKAQRATKKPKQTSNSEAKITGAKPYFANKQKKLRKNAKAIETRIEKLEKVEKAREVPPLKMELPNEKTILGRNLLRVEDVTGEVHQRLLWNKVSFQIKGGDKVAIIGANGSGKTTLIKKLLLPTEQVHHSPAMKIGYFSQNLDVLDTNKSILQNVRETSHQNETLIRTVLGRLHFYRDDVHKQVAVLSGGERVKVAFAKLFVSNINTIILDEPTNFLDIEAVEALESLLAEYQGTVIFVSHDRRFIQTVATTIFAFEDQTIKIFAGTYEAYKQASSQQKEDASEQERMVIETKMTEILGKLSIEPSDELEQEFQELVARKNELEAKKKR PGPT0027945_17 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027945-vga-K19349 NA NA AK015_00258 291 hypothetical protein ATGAACGCAAACGATGATGATGAATCAAAAGAGAAATACGTAAATAATATTCATCGATACGGTGAAAAAACGCTTAACTTTTTAATTCTGATCATCATTACAATAACCATCATCGATTATCACGAATTTAGAGTATTTATCTTTATAAGTATGGCTATCCTTTTCGCTTTTCGCACCTATATAGAATGGAAGCATATAAAGGGAAGCCTGCAATACCTGCTTAGCGCTACATCTATTGGATTATGCATTATTGGTGCCGTCGTTTACAGCATACTGGATCATATAATTTAA MNANDDDESKEKYVNNIHRYGEKTLNFLILIIITITIIDYHEFRVFIFISMAILFAFRTYIEWKHIKGSLQYLLSATSIGLCIIGAVVYSILDHII NA NA NA NA NA AK015_00259 750 glcR COG1349 HTH-type transcriptional repressor GlcR TTGTTAATGACAGATCGATACGCTAAAATAATGCAATTATTATGGGAAAAGCAATCCATTAAAATACAAGATGCTATGGAAGTAACGAAAGCTTCTGAATCAACTATTCGTAGGGATTTAACAGATTTGGAATCACAAGGCAAATTAGTGCGAATTCATGGAGGGGCTACCTTACCTGAGCGTAAATTACAAGAATGTAGCGTAAAAGAAAAATCCACCAAAAACCTTCAAGAAAAAAACAAAATCGCGCAAGTTGCAGCATATCTTGTTCATGAAGGTGATTGCTTATTTCTTGACGCTGGAACAACAACATTGCAAATGATTCCATTTCTTAGAGAAAAAGATGTTGTCGTTGTAACAAATGGTCTTTCCCATGTCGAAGCTTTAATACAAAACGGTATCGTTACCTACCTTACGGGTGGATATATGAAAGAAAAAACAGGAGCGTTAGTAGGTGTACAAGCCGTTCAATCCATTCATCATTATCGTTTTGACAAATGCTTTTTAGGTGCTAACGGTTTTCACGTGAAGTTGGGCTATACGACACCTGACCCAGAAGAAGCAATGGTGAAAAAAACGGCCGCGAACCATGCCTTACAAACTTATGTACTAGCAGACCATTCCAAAAAAAGTAAAGTAAGTTTTGCAAAAGTACTTGATTTGCAGGAGGCTACTTTAATAACGGAAGAACTGCCTCAAGATGAAATGGAACATTTTACAAATGAAACAACAGTAAAGGTGGCAGAGTAA MLMTDRYAKIMQLLWEKQSIKIQDAMEVTKASESTIRRDLTDLESQGKLVRIHGGATLPERKLQECSVKEKSTKNLQEKNKIAQVAAYLVHEGDCLFLDAGTTTLQMIPFLREKDVVVVTNGLSHVEALIQNGIVTYLTGGYMKEKTGALVGVQAVQSIHHYRFDKCFLGANGFHVKLGYTTPDPEEAMVKKTAANHALQTYVLADHSKKSKVSFAKVLDLQEATLITEELPQDEMEHFTNETTVKVAE PGPT0017590_1704 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 AK015_00260 924 pfkB COG1105 ATP-dependent 6-phosphofructokinase isozyme 2 ATGATATACACATGCACCATGGCTCCGTCCGTGGATTACACAACATATCTTGCATCATTTCAAGTAGGAGGGTTAAATCGAGCAAATGCAGTGAATTACTATCCTGGAGGAAAAGGGATTAATGTATCAAGAGTGTTACAGCAGTTTAATATCCCGTCCACAGCGCTTGGGTTTGTTGGTGGATTTACAGGAAAGTTTATTACACAAAAGTTGCAAGAAGAAGGCATTAAGACAGACTTTATTCAAACGAAGGAAACGACTAGAATAAATGTCAAAGTAAAGGCGGAGGAAGCGACAGAATTAAATGGACCAACGCCATTCATTTCTGAAAAACAGCAGCGTGAACTATTAAAAAAGATAAGTCAGTTTAATAAACATGATTGGCTTATCTTAGCGGGAAGCATACCAAGTACGATATCATCTGCATTTTTAGAAGAAATTGCTAAAACATGCAAACAATTAGGAGTTCGTCTTGTAGTAGATACGTCTGGACAACCTTTGCGACAATTAATGACAACGACACCATATTTCGTAAAGCCAAATGAGCACGAATTAGGTGATTTATTTAACAAAAAGATAACCAGCGTAGATGAAGCTATCTATTTTGGCAAACAACTGGTGGAAAATGGGATACAGCACGTCATCGTATCTTTAGGTGCAAAAGGTGCAATTTATTTGACCGATGACTGTATCGCTGTAGCAGATCCTGTGCAAGGTGAAGTAATTAATACAGTTGGTGCAGGTGACTCTATGGTAGCGGCTTTTATCGAGCAAATGACAGCAGAAGCAAGTAAGGTCGATGCTTTCCGTTATGCAGTAGCAGCTGGGAGTGCGACAGCTTTTAGTAATGATTTATGTGACCGACAGCTAGTAGAGAAGTTAGCTCAAGATGTTTCCGTTCATATATATACAGACAGGAAGTGA MIYTCTMAPSVDYTTYLASFQVGGLNRANAVNYYPGGKGINVSRVLQQFNIPSTALGFVGGFTGKFITQKLQEEGIKTDFIQTKETTRINVKVKAEEATELNGPTPFISEKQQRELLKKISQFNKHDWLILAGSIPSTISSAFLEEIAKTCKQLGVRLVVDTSGQPLRQLMTTTPYFVKPNEHELGDLFNKKITSVDEAIYFGKQLVENGIQHVIVSLGAKGAIYLTDDCIAVADPVQGEVINTVGAGDSMVAAFIEQMTAEASKVDAFRYAVAAGSATAFSNDLCDRQLVEKLAQDVSVHIYTDRK PGPT0017580_1536 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 AK015_00261 561 hypothetical protein GTGCAACAAAAAGAAATCTACTTATTACTTACAGATACAAATTCATGGCTTACGAGACTTATTAAATTGTATACAAAAAAACCCTACAATCATGCTTCTATAGCTTTTGATGAAAAACTTGAGCACGTCTACAGCTTTGGGAGAAAAGCTCCTAAAAATCCATTCATAGGTGGTTTTGTAAAAGAAAATATACATGAAGGTTTATTTAAACATGCAAACGGCGTTATTTATTCCATATCTATCACAGAAGAACAGTGGCAGCTAATAAACCAATATATTCAGAACATATATGCAGAAAAAGATGCTTATCGATACAATTTCATCGGTTTATTTGGTTTTCTTCTTAAACGCCCGATTAATAGAAAAAATGCTTTTTTCTGCTCACAATTCGTAGCTACAGTCCTACAAGAGAGCAACGTAGTCAAGTTTAATAAACCAGCTCCCCTAGTTACTCCTCATGACTTGGAGGATGCAGGTATTTTCCATCTTGTTTATCAAGGGAAAATAAATGCTTACTATAATCAACCTCAATTGAGAAGCATGGAATCAACCAGTTGCTGA MQQKEIYLLLTDTNSWLTRLIKLYTKKPYNHASIAFDEKLEHVYSFGRKAPKNPFIGGFVKENIHEGLFKHANGVIYSISITEEQWQLINQYIQNIYAEKDAYRYNFIGLFGFLLKRPINRKNAFFCSQFVATVLQESNVVKFNKPAPLVTPHDLEDAGIFHLVYQGKINAYYNQPQLRSMESTSC NA NA NA NA NA AK015_00262 1143 hypothetical protein ATGCAAATCACATCGATCGAACCGACCCCTAGTCCATATTCCATGAAAATTAATGTGAATGAACAATTACAAGATGGAGAAACGTTCAATTACACGCTTCAGGATGACTTACAGGATGCACCTGCCTATATACAGCAATTATTTCAAATTAACGGAGTAAAAGGTATTTATAGGGTGGTCGACTTTATCGCTTTAGAACGAAATCCGCGTGTAGCTTGGGAAGACATCTTACCCAAAGTAAGCGAAGTTCTAGGCTCTGCAGAAGATAATGATGATATTACACCTACAAGTTTCCTAGATACAGATGAAGCTTTTGGGGAAGTTCAAGTATATTTGCAATTATTCCGCTACATCCCCATGCAAGTAAAAGTAACAGATGGAAACACAGAAAAGCGTTTTGGGTTACCAGAGCGATTTATGAACGCCGTAATGGAGGCCTCAACGGCATCTAATAATATGTTGGAAGAGCGCAAATGGATTGAGCAAAATCCCCGCTATGGCGAGATAGAGGCTGTGGGAGAAGAAGTCGTTGAAGAAATTTCTGCAAGCTATGATGACAAACGGCTACATGATCTCATTCAATATGCAAAAACAAATGATGCGTCATTTATTTCTTCCTACCATAAAAAAGTAACAATGGAGATGTTAGATTACCCCAATTGGAAAAAACGTTATGCTGCACTAGACCGCATGGACCCCTCCAAAGCAGACTTACCTGTTTTAAATAAAGCGATCGAGGATGAAAAAGCGTCCGTTCGCAGGTTAGCTACTGCCTATTTAGGTATGATTGAAGATAAAGAAGTGCTTCCATATTTATATAAAGCACTAAAAGATAAGGCTGTTAACGTAAGGCGAACGGCAGGTGATTGCCTATCTGATCTTGGTTTTTCCGAAGCCATACCAGCAATGATCGAGGCACTAAAAGATAAAAGCAGATTAGTTCGCTGGCGTGCTGCAATGTTTTTATATGAACGAGGCGATGAAGCTGCTATAGAAGCTTTGGAAGACGCAGTGAACGACCCTGAATTTGAAGTACGCATGCAAGCAAAAATGGCTTTAGCACGAATTAAAGATGGAGGAGAAGCAAAAGGATCCATTTGGAGTCAGATGACAAAAGCAGTGAAAGAAAAAAATTCTAGGTAG MQITSIEPTPSPYSMKINVNEQLQDGETFNYTLQDDLQDAPAYIQQLFQINGVKGIYRVVDFIALERNPRVAWEDILPKVSEVLGSAEDNDDITPTSFLDTDEAFGEVQVYLQLFRYIPMQVKVTDGNTEKRFGLPERFMNAVMEASTASNNMLEERKWIEQNPRYGEIEAVGEEVVEEISASYDDKRLHDLIQYAKTNDASFISSYHKKVTMEMLDYPNWKKRYAALDRMDPSKADLPVLNKAIEDEKASVRRLATAYLGMIEDKEVLPYLYKALKDKAVNVRRTAGDCLSDLGFSEAIPAMIEALKDKSRLVRWRAAMFLYERGDEAAIEALEDAVNDPEFEVRMQAKMALARIKDGGEAKGSIWSQMTKAVKEKNSR NA NA NA NA NA AK015_00263 477 hypothetical protein ATGGAAAAACTACCAATGAGTGCCTCGAGAACGGTTCAAACAAGACTGGTTTTACCGCCAGATACGAATCATTTAAATACGATATTCGGTGGTAGAATCCTAGCTTATATTGATGAAATTGGTGCGTTATGTGCCATGCAGCATGCTAAAAGTACAGTAGTAACCGCATCGATTGATTCGGTAGACTTTTTATCACCAGCTAAAGCTGGAGATGCTTTAACGATTGAAGCTTTTGTTAGTTATACAGGAAGAAGTTCGATGGAAATTTACGTTAAAGTAACAGCGCGTGATTTAATTAATCAAAACGAACGGCTAACGACAGAGTCATTTCTCACGATGGTTGCAGTAAATGAGGAAGGTAAGCCAGTACCAGTGCCCCAAGTATATCCAGAAACGGAAGAAGAAAAGATTTTGTATGAGTCGGCACCATTTCGTAGAGAGAACCGAAAGCTAAGATATACGAGTCGAAATAAATAA MEKLPMSASRTVQTRLVLPPDTNHLNTIFGGRILAYIDEIGALCAMQHAKSTVVTASIDSVDFLSPAKAGDALTIEAFVSYTGRSSMEIYVKVTARDLINQNERLTTESFLTMVAVNEEGKPVPVPQVYPETEEEKILYESAPFRRENRKLRYTSRNK NA NA NA NA NA AK015_00264 450 hypothetical protein ATGAAAATATTTGTTGATGCCGACGCTTGCCCAGTAAAAGAGTCTATTATGAAGTTAGCTCAAGCATATCGCATCCCAGTTACACTCGTGCAAAGTTTTTCCCATTATTCTAGTAAAATAAACCCTGAAGGGGTCGAAACCATTTATGTAGACTCAGGGGCTGATGCCGCGGATTATCGTATTATCAAACTAGTCAGTCGTGGAGATATTATTGTTACACAAGATTATGGACTCGCTTCATTAGGACTTGCTAAAGGATGCCATGTGATGCACCATAAAGGATTTCTATACACAAACGAAAATATAGATTCGCTTTTACAGACACGTTATTTAAATGCGATGGCAAGGAAAAGCGGAAAGCGAACGAAAGGGCCAAAAGCTTTTTCTGAGGAAAATCGGCAATTGTTTGAAACTCGTTTTCGTTCCTTACTTATAGAAAAACTCGGGTAA MKIFVDADACPVKESIMKLAQAYRIPVTLVQSFSHYSSKINPEGVETIYVDSGADAADYRIIKLVSRGDIIVTQDYGLASLGLAKGCHVMHHKGFLYTNENIDSLLQTRYLNAMARKSGKRTKGPKAFSEENRQLFETRFRSLLIEKLG NA NA NA NA NA AK015_00265 504 hypothetical protein ATGCAATTAGTTACACCGAGTTTAAAATGGGAGTCTGAACATCAGGCTTATTGCAAAGAGTGGGGGCCATCAAAAATGATCCCAAACAGCTTCAGTTTAGATGGGTATACAGATTACAGTGTTTATTTGAAAGCATTAAGGTTAAAGCAAAAAGGAAGTGAGCATTGGGTTCCTAACTCTAATTACTTCTTAGTTAACGGGGAACAAAAAATTGTAGCAATGGTTAGTATCCGACATGAGCTGAATGACTTCCTCTGGAGGGTAGGCGGACATATCGGTTACAGCGTGCGACCATCACAACGTAGAAAAGGGTATGGCGCGAGAATACTAGATGAAGCTTTAGCTAAATGTAAGCAATTGGAATTAGGAGATATTTTAGTTACATGTGCGGCAACGAATGTTGGCTCTGCAAAGGTGATTATGCATAATGGTGGCGTGGAAACTGAATCACATCGAGATGAAAACGGTTTGGAAACAAGACGATTTTGGATAAAGAATCGTTGA MQLVTPSLKWESEHQAYCKEWGPSKMIPNSFSLDGYTDYSVYLKALRLKQKGSEHWVPNSNYFLVNGEQKIVAMVSIRHELNDFLWRVGGHIGYSVRPSQRRKGYGARILDEALAKCKQLELGDILVTCAATNVGSAKVIMHNGGVETESHRDENGLETRRFWIKNR NA NA NA NA NA AK015_00266 3033 ebgA COG3250 Evolved beta-galactosidase subunit alpha ATGAAATCGTTCGATAAAAAAAGATGGGAAGATTATAAAAATGATGGGATTCATAGATTAGAGGCAAGAGCGCATTTTACAAGTGTAACAGAAAATGGTCACCCTTATTTTAAGCAAAATTTAAACGGCGATTGGGCGTTTCTATTCCTAGATGCACCAGAATACAGTCCAGAAGGCTTCTATAAAACCGATTTCGACATATCATCATGGGATACGATTGAAGTTCCGGGAAATTGGCAAATGCAAGGCTATGGCAAGATGCATTATTCTGATTTATGGTATAATTTCCCAATTATACCACCGTTTGTACCAACAGAAAATCCTACTGGTATATATAGAAAAACGGTAGAAGTTGATCACATCCATTCAGGCTATCAATATATTCTACGCTTTCAAGGCGTTGATTCGGCATTTGAAGTGTACGTCAATGATGCATTTATCGGCTATAGTAAAGGAGCGAGAATTCAAAGTGAGTTCGATGTCAGTGAAGTTTTAAATAAGGGAACAAATACGTTAACCGTTCGCGTGTTTCAATGGTCTGATGGAACGTATTTAGAAGATCAGGATATGTGGTGGTTAAGTGGTATTTTCCGTGATGTAGAAATGTTTGCTAGACCGACATTAGGTCTCTACGACTATACCATAAAAACACGATTCGACGATCATTATAAAGACGCAACATTCATTGTACATCCTCTGTTTGATAAGATGCAAAAGCAGAGCATACGCTACGAATTAAAAAATGCGGAAGGAAAAGTTATTTTTACGAGCGAGCAAGCTGGTAATAAGAGCTTTATGCAAACGGTGCAACAACCTGTAAAGTGGTCAGCCGAAAACCCCTATTTATACAAGCTTACCATGACTATCTATCACGAAGGTCAAATAGTCGAAATCGTGGAGCAAGATGTTGGTTTTAGGCAAATTGAATTACAAGGGAAACAATTTCTTGTAAATGGTGTGGCAATTAAATTAAAAGGTGTTAACAGACATGATTATAGTCCAGATAAAGGGCGTGTAACGACGTATGAGAGCATGGAGCAAGATATTATGCTTATGAAACAACATAACATAAATGCTGTGCGCACAGCGCATTACCCAAATTCACCTTGTTTTTACGACTTATGCAATCAATACGGGATGTATGTTATCGCAGAAGCGGATGTAGAATGTCACGGCTTTGAGTTGACTGGTGACTATAAATGGATTTCTGATAATCCGGAGTGGGAAGAAGCGTATGTGAATCGGATGAAACGGACGTTATTACGAGATAAAAACCATCCATCTATCATCATGTGGTCCTTAGGTAATGAATCGGCATTCGGCTATAACTTCCGAAAAATGGCGGAGTATGTGAAAAAGGCAGATACTACTCGTTTAGTACATTACGAGGGTGATTTTGCAGCTGAAGTAAGTGATGTATACACGACGATGTACACGTGGCTAGAGCATGACCGTAAATTAACGATGGATGAAGTTATTCAAAAAACCCAAAAACCACATATATTATGTGAATATGCCCATGCAATGGGAAATGGTCCTGGAAACTTAAAAGAATATCAAGATCTCTTTTACCATCACGATCATCTGCAAGGGGGGTTTATTTGGGAATGGTTTGATCATGGAATCCAAACCGTTACAGAAGATGGAAAAGTATATTATCGCTACGGTGGTGATTTTGGCGATGAACCGACAAATGGAAATTTCTGTATTGATGGTCTACTTATGCCAGACCGTACGCCGTCCACAAGTTTAATAGAATATAAAAAAGTGATCGAGCCTGTTCAAACAGATCCTATCGATATTGCTGCTGGATTATATCAATTAACGAATCGTCTGGATTTTACTAGCTTGCACGCGTACAGATTGGTTTGTCAATTTTATGAGGATGACAAGCTCATTGAAGAAAAAATAGTTCCATTGCCAGAACTAGCAGCACGAAGCTCTGCACTAATTATGATTTCTTATCCAAATGCAAACAATAAGCCTGGCGCCCAGTATACCGTCCACTTTATTTATCAATTAAACCAAGAGGCAGATTGGGCTCCACAACATTTCGAAATTACAAGATCTGTTTTTATCTATCATAAAGAGCCGAATCAAGTTATACCTGTTCCAGTAAACGCTGATCTATCATTACACAAAGAAGGAACTACCGTAATAGTATCTGGTGATCATTTCACATACACCTTTGATCGCGTACGGGGAAACTTGCTTCATGCATCTATCCATGGAGAAAAAGTCCTTGAGAAAGGTCCCATTTTTACATGGTGGCGTGCTCCGATTGATAATGATATGTATCTTTTAGAGGATTATCGACACAAATACTTTATGCACTTAGACCATCACATCGTTCGAAACGTAGAATATGAAATCAAAGATAACCACTTCATTTGGATGGTCCAAGCTTTTTACGGGACAACGAACAGCTCCTGGTACTATGACTTAACCTATCGCTATACCATCACGCCAGATGGGAAATTACAAGTCGCTATTGCTGGCATTGCTTCTGGACGCAAAGAAAACGCACCACCAATGTTGCCAAGAATTGGAGTAAAGTTGCATATTCATCAACAATACAACACCGTATCTTGGCGCGGATTAGGCCCACACGAGAACTACGTTGATTCCTGCCAATCCGCTTACCATGGCGTATTCCATGCACATGTAGATGATTTATTTGTCAATTATATAAAACCTCAAGAAAATGGAAACCATATGGATTGTGATTGGATTGGCTTGGCAAAGCAGAATAAAGGCATACTCATCCAAACAGAAAATCCGCTAAACTTTAGCGTTTCCAAGTATGAAGACCAGGACTTGGAGATGGCAAAGCATACGATTGATTTAGTGGAACGCGATTATCTCATCCTTCACTTGGATAAACAACAGAACGGATTAGGAAGTAATTCCTGTGGGCAAGATCAACTGGATAAATATCGTTGTAAATTTGATGATTTTTCATTTAATTTTTCACTTACTCTGAAAGATTTAACTACGCGAAGTCTTGTAGATTGGGGAAGATGCCAAAGCTAA MKSFDKKRWEDYKNDGIHRLEARAHFTSVTENGHPYFKQNLNGDWAFLFLDAPEYSPEGFYKTDFDISSWDTIEVPGNWQMQGYGKMHYSDLWYNFPIIPPFVPTENPTGIYRKTVEVDHIHSGYQYILRFQGVDSAFEVYVNDAFIGYSKGARIQSEFDVSEVLNKGTNTLTVRVFQWSDGTYLEDQDMWWLSGIFRDVEMFARPTLGLYDYTIKTRFDDHYKDATFIVHPLFDKMQKQSIRYELKNAEGKVIFTSEQAGNKSFMQTVQQPVKWSAENPYLYKLTMTIYHEGQIVEIVEQDVGFRQIELQGKQFLVNGVAIKLKGVNRHDYSPDKGRVTTYESMEQDIMLMKQHNINAVRTAHYPNSPCFYDLCNQYGMYVIAEADVECHGFELTGDYKWISDNPEWEEAYVNRMKRTLLRDKNHPSIIMWSLGNESAFGYNFRKMAEYVKKADTTRLVHYEGDFAAEVSDVYTTMYTWLEHDRKLTMDEVIQKTQKPHILCEYAHAMGNGPGNLKEYQDLFYHHDHLQGGFIWEWFDHGIQTVTEDGKVYYRYGGDFGDEPTNGNFCIDGLLMPDRTPSTSLIEYKKVIEPVQTDPIDIAAGLYQLTNRLDFTSLHAYRLVCQFYEDDKLIEEKIVPLPELAARSSALIMISYPNANNKPGAQYTVHFIYQLNQEADWAPQHFEITRSVFIYHKEPNQVIPVPVNADLSLHKEGTTVIVSGDHFTYTFDRVRGNLLHASIHGEKVLEKGPIFTWWRAPIDNDMYLLEDYRHKYFMHLDHHIVRNVEYEIKDNHFIWMVQAFYGTTNSSWYYDLTYRYTITPDGKLQVAIAGIASGRKENAPPMLPRIGVKLHIHQQYNTVSWRGLGPHENYVDSCQSAYHGVFHAHVDDLFVNYIKPQENGNHMDCDWIGLAKQNKGILIQTENPLNFSVSKYEDQDLEMAKHTIDLVERDYLILHLDKQQNGLGSNSCGQDQLDKYRCKFDDFSFNFSLTLKDLTTRSLVDWGRCQS PGPT0018785_159 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0018785-ebgA-K12111 NA NA AK015_00267 1458 ygjI COG0531 Inner membrane transporter YgjI GTGACAGAAAATAGAAAAAAGATAACTGCTACCTCGTTTTTATTAATGGCGTTCACAGCAGTGTTTGCATTTAATAACATCATTAATGCAACTGCAAGTATTGGTTTATCTGCTGTATTCACATTTCTTTTTGCTACTGTTTTTTACTTTATCCCTTTCGCTCTCATGATTGGTGAGTTTTCATCGGCAAATGCGGAATCCGAATCTGGTGTATATAGCTGGATTCGAACATCATTAGGGGAAAAATGGGCATTCTTAGGATCATGGTCTTACTTTTTTGTCAACTTGTTTTACTTTACCGCATTACTGCCACAAATTCTAATTTATGCATCCTATACCTTTACTGGAAAAAACGTATTCGGAACTGGAGCTACTGTTGCCATTTCTTTACTGTCTATTTTCTTGTTTTGGTTAGCTACATTTGTGTCTATTAAAGGTGTTTCTTGGATTTCAAAAGTTACAGATGTATCAGGAGTAGCCCGTATTTTAATGGGTATTGGCTTTATCGTTTTTGCTTTAGCGGTTGTATTTATTTTAGGAGAGCCATCTGCACAGGAATTTAATCGTGAATCAGTTGCTCCCTCAATGAATTGGAATTATTTTGCCACCCTTGCCTGGATATTACAAGCTGTAGGGGGAGCAGAAGCAATTGGTGTCTATGTAAAAGATATTAAAGGCGGTAACAAAACCTTTATCCGAACAATTATTATTGCTGCTTTTTCCATTGGGATCATGTATGCTCTAGGATCTGTAGCAGTTGGTTTAATCATGCCTGCTGATGCCCTTCAAGATAACTACTCGGATGCATTGTTTGAAGGCTTTGCTATTTTAGGTAGCCATTTTGGAATTGGAGATGGTATTACGAGATTCGTCGGTTTAATTATGCTATTAAGCGCTGTCGGTTCACTCGTCATTTGGACTGCTGCACCGGTTAAAATTCTATTTTCCGAAATTCCAGAAGGCATCTTTGGAAAATGGGTTGCCAAAACAAATCATGAAGGAAACCCTACCAATGCACTAACACTACAAGCGATTGTTGTAACCATATTATTAGTCATACCTGCTTTAGGCATCGGCTCTGTCAACTCTTTGTTAAAAACATTAATTAATATGACAGCTGCAACGTCGTTAATTCCAGTCCTGTTCTTGCTCATTGCCTATATCATGTTTCGCGTTAAAAAAGATAATCATCCTCGAACCTTTAAAGTTGGAACGCGAACTACTGGTATAGTGATGGGGGTTATGCTATTAGTTTTCTTTTTATTCGCTTTCTTTGTTTCCACGTTCCCATCCCCTTTTGCATTAATGGAGTACTTTAAAACCGGGGTGGTTGCTGAAGGTTCTATGAATCCACTATTCAGCCTTGTCTATAACTTGTTAGGAATTGTCATCTTCATTGGCTTTGCATTGATCTGCTATAAGCGGTATGAAAAAAAAGAGAGGATGGGTAAGCAATGA MTENRKKITATSFLLMAFTAVFAFNNIINATASIGLSAVFTFLFATVFYFIPFALMIGEFSSANAESESGVYSWIRTSLGEKWAFLGSWSYFFVNLFYFTALLPQILIYASYTFTGKNVFGTGATVAISLLSIFLFWLATFVSIKGVSWISKVTDVSGVARILMGIGFIVFALAVVFILGEPSAQEFNRESVAPSMNWNYFATLAWILQAVGGAEAIGVYVKDIKGGNKTFIRTIIIAAFSIGIMYALGSVAVGLIMPADALQDNYSDALFEGFAILGSHFGIGDGITRFVGLIMLLSAVGSLVIWTAAPVKILFSEIPEGIFGKWVAKTNHEGNPTNALTLQAIVVTILLVIPALGIGSVNSLLKTLINMTAATSLIPVLFLLIAYIMFRVKKDNHPRTFKVGTRTTGIVMGVMLLVFFLFAFFVSTFPSPFALMEYFKTGVVAEGSMNPLFSLVYNLLGIVIFIGFALICYKRYEKKERMGKQ NA NA NA NA NA AK015_00268 846 btr COG0614 HTH-type transcriptional activator Btr TTGTTTCATTCTATTGGTACTTTTGAAACGGATCAGCAGCCAAATAGTCATTTTTATGTATATGAATGTGGTTTTGAAGACGTACAGCCGCGGGAGCCTTATCAGTATCAGCCTATTGATTATTATTTAATCCATTATATTTTAGAAGGGGAAGGGCTATTTTTCATCAATGATGAAGTGTATCACTTGGGTGAAAAAGAAGGATTTGTCATTCCACCTAATACGAAGAATAATTATTATCCACTCGCAGGTAATCCCTGGAGTTATCGGTGGATTGGCTTTAAAGGGGAAGCGTGTGATGATTTATTTTATCAATGTGGCTTCTTAAAGAAAACGAAAAATGGGATGGAGAATTTCACATATCGATATGTGAATAAGCAGAAAATGGATCAACTATTCGCAAGTGTGTTTAGTTATTCACAAAAGAGGAAGCCGTATGCTGCGATTGGAGAATCCTATCATATTATGAATCTTTTAATGGAGCAGCATGAAGAAGATTTACGGTGCAGTATCACACAAGGAGAGAAGTATGTAAAATGTGCCATTGAAGTGATAGAAAAAAAATATAATCAGCCAACGTTTTCTGTTCAAGAGCTTGCACAATTGCTACAAATTGAGCGATCCTATTTGTATCGGTTGTTCAAAAAGTATCTAAATGTCAATCCCACACACTATATTGGACAATATCGCATAAATAAGTCAACAGAATTACTGAAAAAAAGTAGTTACAACATGGAGGAAATAGCTTTTTTAGTTGGTTTTAATACGCCTTCGCATTTTTCTAGACAATTTTCTAAATGTAAGGGTGTGTCTCCATCAAAATACCGTTCTCAATTTATACTATAG MFHSIGTFETDQQPNSHFYVYECGFEDVQPREPYQYQPIDYYLIHYILEGEGLFFINDEVYHLGEKEGFVIPPNTKNNYYPLAGNPWSYRWIGFKGEACDDLFYQCGFLKKTKNGMENFTYRYVNKQKMDQLFASVFSYSQKRKPYAAIGESYHIMNLLMEQHEEDLRCSITQGEKYVKCAIEVIEKKYNQPTFSVQELAQLLQIERSYLYRLFKKYLNVNPTHYIGQYRINKSTELLKKSSYNMEEIAFLVGFNTPSHFSRQFSKCKGVSPSKYRSQFIL NA NA NA NA NA AK015_00269 156 hypothetical protein GTGAATTGCACAATGAATTTGAAAAGAATCAATACAAAAGAGAGGAAAACCATTGATGAAAAAGGTTTTTCATTAATTTTTTTAATGTCTGCTTTTATATTTTTATTCACTCCACAAACACAAGCTGCTACTCAAGTCTATCAAAAAGTCGCCTAA MNCTMNLKRINTKERKTIDEKGFSLIFLMSAFIFLFTPQTQAATQVYQKVA NA NA NA NA NA AK015_00270 627 hypothetical protein ATGAACAACAAATTGTATATTTTTTTACTTATCATTTTTTATTTATTTCTTACTGGTTGTACAGATCAAAAAGATTTACAAGATACTAAATCGAATTTTAAATTAACTCTTAAACAGGCAATAGAATTAGCTTATTCAGATGCAGTACTTTGGAACAAACAAGCTAAGTTAATCGATGCAATTAGTATCGATAACGATGAGAAACAAACTGGAGGGGATGGAAAACGTAGATATTGGAATATAACGTTTGGGCTACCTAACACAAATGATTTTTATCTAGTAAACATACACGATGGGAAAATCAATGAACATGTAGCTTTTCCAAATGAAGGAGAAGAACTTAGACCAAAAGAATATTTCATTACTAACTTGTCAGAAATCAAATATGACACACCTGAATTACTTAAAAAAGCGAAATCACTAACAAATTTATATCCGGGAGACGTATTTGCAAAAGGTTATAATTTTGGAATTACAAAAGATCCTAGAAAAAACATCATTCTTATAAAAATTATTGGATGGGATAAAGCAAGGAAAAAAATGAAATATTTACTTTTCAACGGAGAAACAGGTGAATTGCACAATGAATTTGAAAAGAATCAATACAAAAGAGAGGAAAACCATTGA MNNKLYIFLLIIFYLFLTGCTDQKDLQDTKSNFKLTLKQAIELAYSDAVLWNKQAKLIDAISIDNDEKQTGGDGKRRYWNITFGLPNTNDFYLVNIHDGKINEHVAFPNEGEELRPKEYFITNLSEIKYDTPELLKKAKSLTNLYPGDVFAKGYNFGITKDPRKNIILIKIIGWDKARKKMKYLLFNGETGELHNEFEKNQYKREENH NA NA NA NA NA AK015_00271 384 ytrA_1 COG1725 HTH-type transcriptional repressor YtrA TTGCTGTTAGATACGAGTGGAATGAAACCGATTTATATTCAAATTGCCGAGTGGATAGAAGCGGAAATATTAAATGGAAACTTTCTGCCACATGATAAAGTGTATTCGCAATATACGCTTGCTGATATGTTTACCATTAATCCTGCAACGGCGGCAAAAGGATTAACGCTCTTGGCAGAAGAGGATATTTTATACAGTAAACGAGGCCTAGGGAAATTTGTAACCCCAGAAGCAAAAGAAATTATTATGGATAGACGGAAAAACCAAACATTAAAACAATTATTGGAAGATGTAGTGATCGAAGCAGAACAGTTAAAGGTGGATGAACAGGAGCTTATGCAGCTACTTCAAGAAACCATAGCGAAGCGGAAGGGGAGAAAATAA MLLDTSGMKPIYIQIAEWIEAEILNGNFLPHDKVYSQYTLADMFTINPATAAKGLTLLAEEDILYSKRGLGKFVTPEAKEIIMDRRKNQTLKQLLEDVVIEAEQLKVDEQELMQLLQETIAKRKGRK NA NA NA NA NA AK015_00272 891 btuD_1 Vitamin B12 import ATP-binding protein BtuD ATGGAAGCGATTGTCTGTGAAGGGTTGACAAAAAAGCAGAAACAATTGACTACGTTAAAAGAAGTGTCTTTTTCAATTGCTGAAAATACGATCGTAGGCGTTGTCGGTCGAAATGGGGCAGGAAAAACGACCTTGCTTAAAATTTTAGCTGGATTATGGAGGGCATCATCTGGAAATGTCCATGTGTTAGGAGAAAATCCATTTAATAGTTTATATGTATCAGCAAATACGATTTACATTAGCAATGAAATGGTATTGCCGAACTCCCTATCTTTATCCGCGTTACTAACAGAAGCAGGTCGTTTTTATCCGCGATGGGATGATGATTTGGCTAGACGGTTAGTTGAATACTTCGGGTTTCGGGACAATGACTTATATACACAGCTTTCAACAGGTAAAAGAAATACATTTAATGCAATTATTGGACTGTCTTCCCGCTGCCCGATCACAATATTTGATGAGCCAACTACAGGGATGGATCAGGCAGTGCGAAATGATTTTTACCGAGCTTTACTAAAAGATTATTTGCAAGTACCGCGTAAGATTTTACTATCTAGTCATCATTTAGAAGAAGTAGAAGAGTTATTAGAATCTGTATTGCTACTGGATAGAGGGAAAAAGCAACTCTATCTCCCTATGGATGATGTAAAACATGAAGCTGTAGGTCTAACGGGGAGAACGGAGATGGTTTATACATATACACAAGCCAAAACGGTCTTTTATCGAGAAAGTATTGGTATGGATACAACGTATACGGTTATAAAAGCGAATCAAGTGGATATGGAAAAAGCAAAACAGCTCGGTATTCAAGTAACTCCTGTATCCGCAAGTGATTTTTGTGTTTACCTAACGCGTGCAGGAAAAGGAGCGATTGATGATGTCTTTCAATAA MEAIVCEGLTKKQKQLTTLKEVSFSIAENTIVGVVGRNGAGKTTLLKILAGLWRASSGNVHVLGENPFNSLYVSANTIYISNEMVLPNSLSLSALLTEAGRFYPRWDDDLARRLVEYFGFRDNDLYTQLSTGKRNTFNAIIGLSSRCPITIFDEPTTGMDQAVRNDFYRALLKDYLQVPRKILLSSHHLEEVEELLESVLLLDRGKKQLYLPMDDVKHEAVGLTGRTEMVYTYTQAKTVFYRESIGMDTTYTVIKANQVDMEKAKQLGIQVTPVSASDFCVYLTRAGKGAIDDVFQ PGPT0006725_16544 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_00273 735 hypothetical protein ATGTCTTTCAATAATATTTCGCTGTCATCTATTGTTTGGAAGCAGTACCAATATAAACAAAAAAGCTATGTTGGTATGTATATGTCTTTAATGGTATTGCAGCTTATTGCAATACTAATTTCTATAGAAGGTACACTTTATACGGGGGAAACTACGGATGTTTTTACTTTAAACATGCATCAATATTCTGCAGATGTCGCCTTCTTTTTCACCGTTATATGGGGAGGGATCAGCGCTATATTGCTTACGACAAAGGGATATTGGATAGAAAATTTTATGTTTGTAACGAATCGTCTTAGCAATCATTTGGCAAATATTGCTTTGTTGACTACGGTAAGTATTGTGGGTGGGATAACGGCATTATTAACCAAATATGTCAATGTCGTTATTCATTATATATTGCGTGATGAACCGATTATACAATTAAGTACGTTAGAAAGTTCTGAGCTGATTGTTGGCGTTCTAACGATGATTTTTTACATATTATTAGCTAGTGCTATCGGATATGTATATGGAATTATTCTACAATGGAATCGTTTTATAGCAATTGTCATTCCAATTTTGCTCGTTGGTTTGAGCTTTGGAATCGGCTATATAGACTTATATGCAACAATGTATGATTTTTATCTTCAAGAAACCTCTTTCCTGTTATTTATAATAAAAATGCTAGTTACAATTTCTGTCTTATTTGGTTTAGCCATTGTTCTATCTAATAGGAAGGAGGAATTGAAGTAA MSFNNISLSSIVWKQYQYKQKSYVGMYMSLMVLQLIAILISIEGTLYTGETTDVFTLNMHQYSADVAFFFTVIWGGISAILLTTKGYWIENFMFVTNRLSNHLANIALLTTVSIVGGITALLTKYVNVVIHYILRDEPIIQLSTLESSELIVGVLTMIFYILLASAIGYVYGIILQWNRFIAIVIPILLVGLSFGIGYIDLYATMYDFYLQETSFLLFIIKMLVTISVLFGLAIVLSNRKEELK NA NA NA NA NA AK015_00274 687 hypothetical protein ATGAGCGTTTTAGCGTATTTGCCTCTGTTCATTTTGCTTCTGTTTGTTGCAATTGTTTTTGGTGTTCTCAAACTCTCTAAACATCGTTTTCGTCATTACCATCAATATGTAAAGTTTATTTTTCTTGGATATGTCATCCTACTATTGATTGCTGCCGGGATCTCATTTTTTGTTCCATATAATGAAGTTGTAAAAAGGCAAGCGAAGAATTCGGATATCGTTTTGTACAATTATTTTGCAGGTGACCGTCATTGGCAAGATGTAGATTCCTCCTATCAACAAAAACAATGGGAGTTTTCTGTATCCTCTAATCAACCATTACATATAGTATCGCCTGATGGTTCCATGGATGTGTATGTGGAAAGAACAGGGGATTTGCAAAATAAAATTGACATCCGTTATTTTCAGTCTCCACACTTTATTAATGGTATCAATGTGATGCAATTTATAGAAGAAGATGTATTTCCAATCGTTACATTTAAAGACTCGCAACTGACGATATGGGAGCCTCAAAGCATAGAAAAAAACGTTTATACCATACAATCTGAGCTGCCATTTAAACAGTTTAGCGAAGAAAGAAACTTGTCAGATGGGGCGTTTCGTAATGGTGAAAGAATCTTGTTGATTCGTGCTAGTGAGGATATAGAAATAAAGGCGGATGGGAACATCACATATATGAATCAATGA MSVLAYLPLFILLLFVAIVFGVLKLSKHRFRHYHQYVKFIFLGYVILLLIAAGISFFVPYNEVVKRQAKNSDIVLYNYFAGDRHWQDVDSSYQQKQWEFSVSSNQPLHIVSPDGSMDVYVERTGDLQNKIDIRYFQSPHFINGINVMQFIEEDVFPIVTFKDSQLTIWEPQSIEKNVYTIQSELPFKQFSEERNLSDGAFRNGERILLIRASEDIEIKADGNITYMNQ NA NA NA NA NA AK015_00275 420 hypothetical protein ATGGAATCATTGCATTGGATTAATGGACAAATTACCCGAACACAAAATTCACTATATATGCTTCATCTTCAATTAGATGAAAAAAGAAGGGACTTAGAACGACTTGTATTAGCACAAGCAAATTTACAGGAGAACCAGGAAGAACTCAAACAGTATAAGACATGGTGTACAAAGCCTGAGTTAACTGGAAATACATGGGCAGGTCATTTAGCAGATCAGTATGAGCAGTGGAAAGAACATACGCTGTTTAGAAGTTATATTAATTTATATGATTATCAATTAACCCAAACGTTGGAGCAATTAAATGATAAAATTAAAGAAACGAAACAATCCATCATTGATATCCGTATGGATTTGTCAACCCAAAGTGATATTTTAGATGATTTATATGGGAAACAACGAAGGGAGTTATTGAATTAA MESLHWINGQITRTQNSLYMLHLQLDEKRRDLERLVLAQANLQENQEELKQYKTWCTKPELTGNTWAGHLADQYEQWKEHTLFRSYINLYDYQLTQTLEQLNDKIKETKQSIIDIRMDLSTQSDILDDLYGKQRRELLN NA NA NA NA NA AK015_00276 282 hypothetical protein ATGAGTGACGAAATTAAGGTAGCCCATGCTCCAATTCAAAAAGCGATTTCAAATGTAGAAACAACGAGCAATCAATTGCATGCGAATATGATAAGTACGCAATTAGTCAACAATACACTGGGGATGGCAAGAAAATTAGAAGCAATGAATGACTTGCTAGAGGGGCTTATTTCGAAATACCAATCATTGTTATTAGAACACGGAGAAACAACAATGAAAGCGGTTAATTTATTTATGGAGTCGGAACAGGCTACTGCTTCATCCATGAATTTGATGAAATAA MSDEIKVAHAPIQKAISNVETTSNQLHANMISTQLVNNTLGMARKLEAMNDLLEGLISKYQSLLLEHGETTMKAVNLFMESEQATASSMNLMK NA NA NA NA NA AK015_00277 1197 rlmI COG1092 Ribosomal RNA large subunit methyltransferase I ATGGCTAAAGAAGTAACATTACACATAAACGATGATTATAGCAAACAAATGCGAGAAGGGTATCCGCTTATCCATAAAGAAGCTGTAAAGGAGCAGGAATTGCCAGAAGAGGGCTCCATGGTTCGGTTATTAGATATGAAAAATCGTTTTATCGCTAATGGATATATCGGTGTCCAAAATAAAGGGGTAGGCTGGGTATTGACGCACCGTCAGGATCCATTGGATCTTGCAGCGTTATTTCAGTCTAAGATGTTAGCGGCGATGAACAAACGCCAAGGCTTTTTTCAATCTCCGGATACAAATGCGTTTCGCATATTTAATGGCGAAGGAGACGGTATAGGTGGTTTAACAATTGATTATTATGCGGGTTATTACTTAATCAACTGGTATAGTGAAGGGATCTATGCATATAAACAGCTTGTAATCGACGTTTTAGATACATTAGGCAATTATGATGCTATTTATGAGAAAAAGCGATTTCGCAAACATGGTGAGTACGTGGAAGACGATGATTTTGTAAAAGGAGAGCGCGGAGAATTTCCGATTATTGTGAAAGAAAATGGCATGCATTATGCCGTTTATTTAAATGATGGTGCTATGACAGGTATTTTCCTAGATCAACGCGATGTTCGTAAGGCAATACGTGATACATATGCTGAAGGGAAGCGTGTTTTAAATACGTTTTCTTATACGGGTGCGTTTTCCATCGCTGCTGCTTTAGGTGGAGCTGAGAAAACGACAAGCGTGGACCTCGCAAAACGGAGTAAGTCAAAGACTGTAGAACAGTTTAGTGTAAATGGGGTTGATTTTGAGCAACATGAAATTGTGGTCATGGACGTATTTGATTATTTTAAGTATGCGCGCAGAAAGCAATTACAATATGATTTAGTCATCCTTGATCCTCCTAGTTTTGCACGATCTAAAAAACGAACATTCCGTACAGCAAAGGATTACCCTACCTTGCTTCAAGATGCCATTTCGATTACAAGTAATCATGGTGTCATTGTTGCATCCACCAATAATGCTAGTTTTGGTATGAAGAAGTTTAAAGGATTCATTAAGCAAGCGTGTAATAAAATGCACGTGAATTTTAACATTCTGGAACAGTATCAACTGCCAGCTGACTTTCAAACGAATAAACAGTTTATCCAAAGTAATTACTTGAAAGTGTGTATCGTAGAAATACAGAAAAAATAA MAKEVTLHINDDYSKQMREGYPLIHKEAVKEQELPEEGSMVRLLDMKNRFIANGYIGVQNKGVGWVLTHRQDPLDLAALFQSKMLAAMNKRQGFFQSPDTNAFRIFNGEGDGIGGLTIDYYAGYYLINWYSEGIYAYKQLVIDVLDTLGNYDAIYEKKRFRKHGEYVEDDDFVKGERGEFPIIVKENGMHYAVYLNDGAMTGIFLDQRDVRKAIRDTYAEGKRVLNTFSYTGAFSIAAALGGAEKTTSVDLAKRSKSKTVEQFSVNGVDFEQHEIVVMDVFDYFKYARRKQLQYDLVILDPPSFARSKKRTFRTAKDYPTLLQDAISITSNHGVIVASTNNASFGMKKFKGFIKQACNKMHVNFNILEQYQLPADFQTNKQFIQSNYLKVCIVEIQKK NA NA NA NA NA AK015_00278 960 argF COG0078 Ornithine carbamoyltransferase ATGGTAATTGGAGTGAAAGAAACGTTAAAAGGTTTAAAAGGGAGAGACTTTTTAACCTTGGCTGATTATACCCGTGAAGAAATAGAAGAATTAATTGATTTTGCGCAAAGATTGAAAACAAACTATAAAAATGGTAAGCAAGCCCCTTTGCTACAAGGTAAGACGTTAGGGATGATTTTTGAAAAATCTTCAACGAGAACGAGAGTGTCTTTCGAAGTTGGAATGTATCAATTAGGTGGGAACGGTATTTTTTTAAGTTCCAATGATTTACAAATTGGGCGTGGAGAAACGATTGCAGACACAGCGCAAGTATTGTCAGGATATTTAGACGGAATTATGATTCGCACTTTTTCGCAAACAGATGTAGAAGAATTAGCAAACAAAGCTAATATCCCCGTAATTAATGGGCTAACAGATGTATATCATCCTTGTCAGGTCTTAGCTGATTTGTTAACGATAAAAGAAATAAAAGGTCGGCTTCAAGGCGTAAAAATAGCCTATATAGGCGACGGCAATAATATGGCACATTCGTTAATGCTTGGCGGGAGCATGTTAGGAATGGATGTTGCGATAGCATCTCCGAAAGACTATCAACCAGTTGAGGAGATTGTAACCGAAGCTAGCAAACGAGCTTATCAGTCTGATGCGAGCCTCCTTATTACGGATGACGCTCGAGAAGCTGTACAGCAAGCGGATATTATCTATACAGATGTTTGGGCGAGTATGGGGCAAGAAGCAGAGCAAGCTAAGAGAGAAGTAGCGTTTGCTGATTTCCAGGTAAATAGAGAATTAATGCAACTAGCAAAAAATGAGGTCAACTTTATGCATTGTTTACCAGCCCATCGCGGGGAAGAAGTGACTGCTGAAGTGATGGATGGTTTACAATCCGTTGTTTTTCAGCAAGCAGAAAATCGATTACATGCTCAAAAAGCTTTATTAGCTGCTTTAATGAGCGATTAA MVIGVKETLKGLKGRDFLTLADYTREEIEELIDFAQRLKTNYKNGKQAPLLQGKTLGMIFEKSSTRTRVSFEVGMYQLGGNGIFLSSNDLQIGRGETIADTAQVLSGYLDGIMIRTFSQTDVEELANKANIPVINGLTDVYHPCQVLADLLTIKEIKGRLQGVKIAYIGDGNNMAHSLMLGGSMLGMDVAIASPKDYQPVEEIVTEASKRAYQSDASLLITDDAREAVQQADIIYTDVWASMGQEAEQAKREVAFADFQVNRELMQLAKNEVNFMHCLPAHRGEEVTAEVMDGLQSVVFQQAENRLHAQKALLAALMSD PGPT0020080_2520 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 AK015_00279 897 thrB COG0083 Homoserine kinase ATGAACACCTTTACCATTTCTGTACCAGCCAGTTCCGCAAATATTGGACCTGGCTTTGACTCATTAGGACTAGCAATGGATCTATACCTTACATTGACTGTTTCTGAAAATGATGCATGGAAAATCAAGCAACAGTCTCTGTTACTTCCAACTTGCAACAATTATACAGATCATTTTATTTATCAAATAGCGCAACATACGGCTGCTCGCTACGGAAAAGAACTACCTACTTGTTGTTTAACCATCGACAGTTCCATTCCATTAGCTCGTGGCTTGGGAAGTAGCGCATCAGCAATTATTGCTGGCATTGAATTAGCCAACCAATGTTGTCAGCTTCACCTTTCGAAAGAGGAAAAACTACAGTTAGCTACAAAGCAAGAAGGTCATCCCGATAACGTGGGTGCTGCTCTTTTTGGTGGACTTGTCATAACGAATTATAACGATAATACTTCTATCGATATTTGTAGAATAGATCAATTAAACATAGATATGATCGTTTTTATTCCACAAGATGAATTAAAAACCGAAGCTGCAAGAAATGTGTTACCGGATACGTACTCACGTTCTCACGCTACACAAGCAGGCAGTGTTGGGAATGTCTTTATTGCAGCATTAATGAACGAAGACTATCCAATGGCAGGTAAGATGATGGAAAAGGATATCTTTCATGAACCTTATCGCGCTAAATTAATTCCCAACTATACGCCTATCAAACAGAAAGCTAAAGAGCTTGGTGCATATGGTACGGCAATTAGTGGTGCAGGGCCAACGATGATATCCTTTTTCCCAAAAAGAACTGGCACCCAGAGCAAGCAAAAGTTACAAGAAGCATTTCCTAGCTACAACATCCAGCAAAGAAAAATGGACCCTACAGGTTTACGAGTGGAAAGGAAGTAG MNTFTISVPASSANIGPGFDSLGLAMDLYLTLTVSENDAWKIKQQSLLLPTCNNYTDHFIYQIAQHTAARYGKELPTCCLTIDSSIPLARGLGSSASAIIAGIELANQCCQLHLSKEEKLQLATKQEGHPDNVGAALFGGLVITNYNDNTSIDICRIDQLNIDMIVFIPQDELKTEAARNVLPDTYSRSHATQAGSVGNVFIAALMNEDYPMAGKMMEKDIFHEPYRAKLIPNYTPIKQKAKELGAYGTAISGAGPTMISFFPKRTGTQSKQKLQEAFPSYNIQQRKMDPTGLRVERK PGPT0020275_2547 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872 NA NA AK015_00280 1062 thrC_1 COG0498 Threonine synthase ATGAAGTGGCCGGGACTACTAAAGCATTATCATGAGTATTTACCAACAACACATAATACACCTGCACTAACATTACATGAAGGGAACACCCCTCTTATTCCATTGACAAACTTGTCACAAAAATTAGGTATTGAATTGTATGGAAAAATAGAAGGTGCTAACCCAACTGGATCTTTCAAAGATCGAGGAATGGTAATGGCTGTCGCAAAAGCAATCGAAGAAGGTAGTAAATCTATTATTTGCGCCTCAACTGGAAACACTTCGGCCTCTGCTGCAGCCTATGCTGCAAAAGCTGGCATCAAAGCAATTATTGTCATTCCTAAAGGTAAAGTCGCGCTCGGTAAACTAGCACAAGCGATCATGTACGGAGCAGAGATTGTCGAAATAGATGGTAATTTTGATGAGGCATTAACGATGGTACGTCATTTAAGTGAAACCCAGCCCATTACCTTAGTTAATTCGGTGAATACTTATCGCATAGAAGGGCAGAAAACAGCTGCTTTTGAAGTTTGTGATTCCTTAGGAAGTGCTCCTGATGTACTTGCTATTCCTGTAGGTAATGCAGGAAATATCAGTGCTTATTGGAAAGGTTTTAAAGAATACGACGCCTTTAAGCAAACAGGCCTTCCAAAAATGTTCGGATTCGAAGCAGAAGGAGCTGCAGCCATCGTTCAAAATCAAGTCATTGAACAACCAGAGACGATCGCAACAGCGATTCGGATTGGAAACCCTGCTAGTTGGAAATTAGCTGAATCTGCTAGAGATGAGTCGGGAGGAATGATAAAAGCTGTTAGTGACGATGAAATTATCCATGCATTTAAAACATTAGCGCAAACGGAAGGAATCTTTGCTGAGCCAGGATCTAATGCGTCCATTGCCGGTGTTATTCGCGAAACAAACAACGGAACGATTAAACAAGGAAGTAAAGTGGTAGCGGTGTTAACAGGAAACGGGTTAAAAGATCCACAAACAGCGATCGATCAATTAAACATCGATCCTGTATCATTGCCAAATGATGAACAGGCAGTAATGGAATATGTAACGAAACAGGTTAACGTATGA MKWPGLLKHYHEYLPTTHNTPALTLHEGNTPLIPLTNLSQKLGIELYGKIEGANPTGSFKDRGMVMAVAKAIEEGSKSIICASTGNTSASAAAYAAKAGIKAIIVIPKGKVALGKLAQAIMYGAEIVEIDGNFDEALTMVRHLSETQPITLVNSVNTYRIEGQKTAAFEVCDSLGSAPDVLAIPVGNAGNISAYWKGFKEYDAFKQTGLPKMFGFEAEGAAAIVQNQVIEQPETIATAIRIGNPASWKLAESARDESGGMIKAVSDDEIIHAFKTLAQTEGIFAEPGSNASIAGVIRETNNGTIKQGSKVVAVLTGNGLKDPQTAIDQLNIDPVSLPNDEQAVMEYVTKQVNV PGPT0009175_6120 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733 NA NA AK015_00281 1332 hom COG0460 Homoserine dehydrogenase GTGGGAAACAAGGTTTCTATCGGACTATTAGGGTTAGGTGTCGTTGGTTCAGGAATTATGGAGCTTATTGAAAGTCATCAAGAAGAGCTCGTTCACCAATTAGGCTGTTCCGTTGAAATTAAAAGTGTATTAGTGCGCAATCTCGATAAAGTTCGTAACGTTAGTGTGCAGCAAGCATTTCTCACTACCGAACCAGCAGACGTTCTCGAAGATCCAGAAATAGATGTGATCGTCGAAGTTATGGGAGGTATTGAAGAAGCTTATCAATATACACTAGAGGCGTTTAAAGCTAAAAAACATGTCGTTACTGCCAATAAAGATTTAATTGCTTTACATGGCACAGAATTGGAAGAAACAGCTCGCGAGCATAAATGTGATTATTATTATGAAGCTAGCGTAGCTGGAGGTATCCCTATTTTACGAGGGATAACGGACGGTTTAGCTGCAGATAAAATTGAAAAAGTGATGGGGATTGTGAATGGAACTACAAATTACATTTTAACAAAAATGACAAACGAAGGGATGACGTACGAAGCAGCCTTAAAAGAAGCGCAAGATCTAGGCTTTGCGGAGTCTAATCCGACAGCAGATGTCGAGGGATTAGATGCCGCTAGAAAAATGGCGATTTTAGGAAGACTCGCTTTTTCTACAGATGTTGCTTTATCCGAAGTAGAAGTAAACGGTATTAAAGATTTAGAATTAGCAGATTTAGAGTATGGAGAAAAATTCGGCTATACCATGAAATTGATTGGTTCTGCCGAATGTGAAGACGGACAAATGGAAGTGAGTGTACAACCTACCTTACTATCCAATGACCATCCCTTAGCAGCTGTAAAAAATGAATACAACGCCGTTTATGTATATGGTAAAGCGGTTGGTGAAACAATGTTTTACGGCCCTGGTGCGGGAAGCTTGCCGACAGCGACCGCTATTGTCTCGGATCTTATTACCGTAATGAAGAACATGCGACTGGGCATAAATGGTAATTTTTCATTAAAACCAAGAATTTCTGCGACATTGCGCAGCAGTGAACAACGTTCTGGACAATATTATTTACGTATTCATGTCAAAGATCAAATTGGAGCATTCTCGGAAATATCCACATTATTTAATGACTTACATGTAAGCTTCAAACGTATACTACAAACACCAATGAAGCAAAAAAATTTAGCTGAAATTATTCTGATTACACATCAAACATCTTTAGCAACTTTTGAAAAGGCATTAAAACAACTTTATGAGCTAGATGTCGTCCAACAAATTAAAAGCTACTATAAAGTGGAAGGAGATGCGCCAGATGAAGTGGCCGGGACTACTAAAGCATTATCATGA MGNKVSIGLLGLGVVGSGIMELIESHQEELVHQLGCSVEIKSVLVRNLDKVRNVSVQQAFLTTEPADVLEDPEIDVIVEVMGGIEEAYQYTLEAFKAKKHVVTANKDLIALHGTELEETAREHKCDYYYEASVAGGIPILRGITDGLAADKIEKVMGIVNGTTNYILTKMTNEGMTYEAALKEAQDLGFAESNPTADVEGLDAARKMAILGRLAFSTDVALSEVEVNGIKDLELADLEYGEKFGYTMKLIGSAECEDGQMEVSVQPTLLSNDHPLAAVKNEYNAVYVYGKAVGETMFYGPGAGSLPTATAIVSDLITVMKNMRLGINGNFSLKPRISATLRSSEQRSGQYYLRIHVKDQIGAFSEISTLFNDLHVSFKRILQTPMKQKNLAEIILITHQTSLATFEKALKQLYELDVVQQIKSYYKVEGDAPDEVAGTTKALS PGPT0020155_401 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003 NA NA AK015_00282 1551 cotA COG2132 Spore coat protein A ATGAAACTAAATCCAGAAGAATTAGAGAAGTTTGTAACTGCTCTACCCAAAATGCCTATTTTAAAACCAAAAGGGAAGAAAGGCTATATGAATTACTATGAAGTGCGAATGGTTCAATTTACAACCTCCTTACATAGAGATTTACCTCATACATTCATTTGGGGATATGAATACAGTTTTCCAGGTCCTACAATTGAAGTGTGTTCTGGAGAGAGCATAAAGGTTAAATGGATAAATGCATTGCCGCAACGACATCTTTTGCCCATTGACCATACGGTACATGGTGCTGGGAAAGATGTACCAGATGTCCGAACCGTTGTGCATGTCCATGGTGGAGTAACGGAGCCGGAAAGTGATGGCTATCCTGAAGCTTGGTTTACCAACCACTTTCAAGAGAGAGGTCCTTTTTTTACAAAACAAATTTATGATTACAGCAATAATATGAAAAGTGCAGCGCTTTGGTATCATGATCATGCATTAGGTATTACGAGGTTGAATGTGTATGCAGGTTTAGCGGGCTTTTATATTATTCGAAGTCACCAAGAAAAAGAATTGAATTTACCTGCTGGGGAATATGAAGTTCCATTGTTCGTGGAAGATAAGACAGTAAATGCAAATGGATCACTATATTATCCATCACAGCCACAACCATCTATTCCCTCTTTACCTGTATCTATTGTTCCTTCGTTTGCAGGAGATTTAAATATGGTTAATGGTAAAATTTGGCCTTATTTAGCTGTGGAGCCGCGAAAATATCGATTTCGCCTGTTAAATGCATCTAATACACGTTTTTATCAATTTTTTTTAGATTCTGGCCAGTTTTTTTATCAAATTGGCACAGATGGCGGATTTATAAATCAAACGATTGTTGTGAGACAAATTCTACTTGCTCCTGCTGAACGTGTAGATGTTATTATTGATTTTACAAATATGCAAGGGAGTACAGTTGTGATGCGTAACAACGCTCCTACTCCTTTTCCTAACGGTGAATTACCTAATCCAGAGACGGTCGGTGTTATCATGCAATTTAAAGTTACAGCTAAGGTAACGACTATTGATACAAGTAGCATTCCAAAGTACCCTGGGCGTGTTGAAAAAATAGCGCCTGAATTAGCAATGAAAAAACGGATGTTAACGTTAGACGAAACCCGAGATGCTTACAACCGTCCAGTTTTGCTATTGGACAATAAATCATGGTCTGATCCAACTACCATTTATCCCAAATGGGGGACAACGGAAGAATGGTATTTCATTAATACAACAGGGGATACCCATCCGATTCATATTCATTTGGGTTTTTTTTTAATTATAGGCAGGCAAGGTTTTGATGTGGAGCATTTTAAACAAACAAAGGAAATTGTTTATACAGGTGAGTCCATCCCGCCAGAACCGATTGAAAACGGCTGGAAAGATACTGTGCGTGCCAATCCAGGGCAAGTAACAAAAATAATAAAACAATTTTTTACGTATACTGGAAGATATGTATGGCATTGTCATATATTAGAACATGAAGATTATGAAATGATGCGCCCATTTATTATTATAAAGTAG MKLNPEELEKFVTALPKMPILKPKGKKGYMNYYEVRMVQFTTSLHRDLPHTFIWGYEYSFPGPTIEVCSGESIKVKWINALPQRHLLPIDHTVHGAGKDVPDVRTVVHVHGGVTEPESDGYPEAWFTNHFQERGPFFTKQIYDYSNNMKSAALWYHDHALGITRLNVYAGLAGFYIIRSHQEKELNLPAGEYEVPLFVEDKTVNANGSLYYPSQPQPSIPSLPVSIVPSFAGDLNMVNGKIWPYLAVEPRKYRFRLLNASNTRFYQFFLDSGQFFYQIGTDGGFINQTIVVRQILLAPAERVDVIIDFTNMQGSTVVMRNNAPTPFPNGELPNPETVGVIMQFKVTAKVTTIDTSSIPKYPGRVEKIAPELAMKKRMLTLDETRDAYNRPVLLLDNKSWSDPTTIYPKWGTTEEWYFINTTGDTHPIHIHLGFFLIIGRQGFDVEHFKQTKEIVYTGESIPPEPIENGWKDTVRANPGQVTKIIKQFFTYTGRYVWHCHILEHEDYEMMRPFIIIK PGPT0025135_87 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025135-cotA-K06324 NA NA AK015_00283 822 hypothetical protein TTGGTTAAAGATGTGAAGTTACAAAAGGATGCAATGCGTGTTTTAAAAGAAACGAGCAGAACCTTTTATATTCCGATTAAGTTGTTAAAGTCAGTATTAAAAGATACGGTCGGCTCTGCATACTTATGCATGCGTGCCATTGATGAAATAGAAGATCATGAACAGCTTTCTTCCGATACAAAGCAGCATTTACTGCGAGCTACTTCTAAGCTATTGCAAACGTCTGTATTTGATAGAGAAGCGTATCTACAATTAATGAAGCCACATCAAGAAATACTGCCTGAAGTTACCATGCGGCTTGCTGATTGGTTGCACGTATGTCCAGAAGATATTGTAGCGAAAATTAAACAGTCTACAAGCATTATGGCCGATGGTATGGCGAAATGGACCGAAAAGAATTGGAATTTACGTACAAAAGAAGATTTAGATGAATATACATATTATGTTGCTGGCCTTGTCGGAGTGATGCTTTCAGATATTTGGAATTGGTATGATGGGACAAAGACGGACTATGATTTAGCCATTGGATATGGTAGAGGCCTCCAAGCAGTAAATATGTTAAGAAATCAAGAAGAAGATGCAGAACGAGGCGTTCATTTTATTCCTGATGATTGGACAAGAGCGGATTTATTTGTGTATGCAAAAGAAAACTTACAACAAGCGGATCGCTACTTAAAAGATATTCAAACAAGAAACATTCTACTGTTTTGTAAAATCCCGTTAGCTTTAGCTAAAAAGACATTATCGGCTTTAGAAAACGGCGAAGAAAAAATGTCGCGAGCCGAAGTTGAAGCTACAGTCAATGATATTTTAAATAAATAG MVKDVKLQKDAMRVLKETSRTFYIPIKLLKSVLKDTVGSAYLCMRAIDEIEDHEQLSSDTKQHLLRATSKLLQTSVFDREAYLQLMKPHQEILPEVTMRLADWLHVCPEDIVAKIKQSTSIMADGMAKWTEKNWNLRTKEDLDEYTYYVAGLVGVMLSDIWNWYDGTKTDYDLAIGYGRGLQAVNMLRNQEEDAERGVHFIPDDWTRADLFVYAKENLQQADRYLKDIQTRNILLFCKIPLALAKKTLSALENGEEKMSRAEVEATVNDILNK NA NA NA NA NA AK015_00284 1548 COG1292 Glycine betaine transporter 2 GTGGACTTAAAAAAAGACACGAAGTTAGATTGGCCAGTATTCATGATTAGTGGAGGAATACTGATACTGTTTATTCTGTTGTCACTTTGGAGTAGCGATGCAGTCGGGAATGCAGTGGATACGTTGTTTGCATATGCTTCAGATATTTTTGGTGCTTATTGGCAATTATTATTGTTAGGAAACTTCTTTATTGGTTTATTTCTAGCTTTTTCAAAATATGGAAGAGTTAAGCTAGGAAATCAAGATCAGCCAAAATATAGTTACTTCAAATGGGTTTCCATGATATTAGTAACACTCCTAGCAAGCGGTGGTGTGTTTTGGGCTGCTTCTGAACCAATGTACCATTATATGACAAACCCACCATTATTTGGAGGTGGTGAATTTCAGAATATCAACGCTGCCTTTGCACAATCGTTTATGCATTGGGGATTTTTAGCGTGGGCCATTCTAGGAACACTTGCTGTTATAGTGATGATGTATGTGCACTATAGCAAAGGTTTTCCGCTTAAACCAAGAGGGTTGCTATACCCTTTATTTGGTGAAAAAGTATATCATAAAAGTGCAATCGGTACTGCCGCGGACGTATTTGCTATCTTTGCAACAGTAGCAGGAACACTTGGACCTTTAGGGTTTTTAGGTTTGCAAATATCTTATGGAATGAGTCATTTGTTAGGCACTCCTAATACTTTAACGGTAAGTATCATTGTAATTATTGGTTTGGTGCTTGTTGCAGCTATTTCAGCTGCTACTGGTGTAGATCGAGGAATTGTAACATTAAGCCGCTATAATGTAGGCTTTACCATATTTTTAGCTGTACTTGTACTCATTGTCGGACCAACTGCGTTTATTATTGATGCTTTTGTTGGCGGCACAGGGGTACACTTGCAAAATTTCTTTACCATGACATTATTCCGTGGTGATGAAGGCTGGCTGTCGTCTTGGACAATCTTTTTCTGGGGTTGGTTCCTTGGCTATGCACCGATGCTAATTGTATTTATTAGCAGAATCTCGAGGGGAAGGACGATTCGGGAATTAATTATTGCTGTTTCTATCGTAGCCCCGATCGTTAATAATTTTTGGTTTTCCATTGTTGGTGGAACAGGAGTGTTTTTTGAGAATAAACATCCCGGATCCATTTCTGAGTCGTTAAATGAGGGAGGCATGCCTGCAGCAGTAATGGCAATTACGGATCAATTGCCATTAGGTATGTTGTTCGGTATCGGTTTTCTCATTGTTTCTATCATCTTTGTTGCTACGACAGCTGATACGATGTCGTATACTATAGCAGCGACCATTACTGGAAACGATCATCCAAAACGTTGGTTACGTGTATTTTGGGCTTTAATTTTCGGTGGAACAGCGGCAGCAATTTTAACTATTGGTGAAGACAGTGTTGCTTCCATTCAAAATTCTATTGTTATAACAGCTGTACCTGTTTCGGTTTTACTGCTCCCAGCTCTTTGGAATGCTCCAAAAATTGCCCGGACAATGGCATTGGAACAAGGTTTAATTTGGCAAAGAGAATTACTGAAAAAAGTAGATAAATAA MDLKKDTKLDWPVFMISGGILILFILLSLWSSDAVGNAVDTLFAYASDIFGAYWQLLLLGNFFIGLFLAFSKYGRVKLGNQDQPKYSYFKWVSMILVTLLASGGVFWAASEPMYHYMTNPPLFGGGEFQNINAAFAQSFMHWGFLAWAILGTLAVIVMMYVHYSKGFPLKPRGLLYPLFGEKVYHKSAIGTAADVFAIFATVAGTLGPLGFLGLQISYGMSHLLGTPNTLTVSIIVIIGLVLVAAISAATGVDRGIVTLSRYNVGFTIFLAVLVLIVGPTAFIIDAFVGGTGVHLQNFFTMTLFRGDEGWLSSWTIFFWGWFLGYAPMLIVFISRISRGRTIRELIIAVSIVAPIVNNFWFSIVGGTGVFFENKHPGSISESLNEGGMPAAVMAITDQLPLGMLFGIGFLIVSIIFVATTADTMSYTIAATITGNDHPKRWLRVFWALIFGGTAAAILTIGEDSVASIQNSIVITAVPVSVLLLPALWNAPKIARTMALEQGLIWQRELLKKVDK PGPT0013600_816 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK015_00285 1584 lutP COG1620 L-lactate permease ATGTATCTATTGGTGGCACTCAGTGCAATCATTGCACCGTTTGTTTTTTTAGTAGTTTTTCGTTTGCCTGCTACGAAGGGGATGACATGGAGCGCTTTCATTGTAATTGCGCTTGCTATGACAATCTGGGGAGTAGAAGGAAAGTTAATTGCTTCCTCCGTTTTACAGGGAATACACAAAACGCTAACGATACTTTGGATTTTATTTGGGGCACTTGTACTTTTAAATACACTTCGGAAAACAGGAGCAGTTGATCGAATAAATCAAGGTTTTCAAAACATTTCTACAGATATGCGTGTACAAGTAATTATTGTTGCATTTTTATTCGGATCGTTAATAGAGGGGGCTGCTGGTTTTGGGACACCAGCAATGGTAACTGGTCCATTAATGATCGCACTTGGTTTTCGTCCTTTAGCGGCTGCAACACTTGCTTTAGTTGCCGATAGTACAGCAGTTGCTTTTGGTGCAGTCGGAACTCCAGTTGCTGTTGGTTTAAGCACACTTCCAGAAGCCAGTCCTACGTTTTTTCAAGAAATAGGTATTGCTATTACGACACTGGATTTATTTGCAGGAACATTTATTCCATTTACGTTAATTGTGATTATGACAGTGTTTTTTGGAAAAGGAAAAGGGCTGAGAGATGCATTACCAATGTTACCGTGGACGTTACTAATTGGTATCGTTTACACGTTATCTGCTTTGCTATCTGCCGTTGTATTTGGGCAAGAATTTATTGCGATTTTAGCTTCCTTAACGGCTTTAATTGTTGCAACTTTTACTGCAAAACAGGGGTGGTTACTACCAAAAAAATCTTGGCAAGACGCATTACAGGAAGATTTTCAGTTAGAAACGAAGCCATCAAGTATGGGATTGTTTGCTGCGTGGTCACCGTATGTCATTGTCGTTGTTCTATTGTTAATGACGCGAATTATTACACCACTTGCCGAGTTTACGAAAAGTGCCATCGATTTTTCTTGGACGAATATTATTGGGGTGGAAGGCATCACTTCCAACTGGGAGTTTTTGTATTCCCCTGGAACTGTTCTAGCAATAGCAGCATTGGTATCGGTTTTTCTACATAGAAAACGTTTTTCCGTTTTTACTACTGCGACAACTCAGTCTTTTTCTACTATGAAAACGACAGCGATATCTTTAATAGCTACATTGGCTATGGTGCATGTGTTTACCAATTCAGGTATGAATGCTCATGATTTAGTAAGCATGCCGCAGTATATAGCAGCGTCCTTAGCGAGTTCTTTAGGATCTATTTGGTTTTTAGTAGCTCCCTTTGTTGGTGAACTCGGATCGTTTATTACGGGAAGTGCTACCGTGTCAACGTTAACTTTTGCACCAATTCAACATAGTGTTGCAAATCAGATAGGTGTGGACGTAAATGCTGTGTTAGCAGCGCAAATCGTGGGTGCAGGAGCTGGTAATATGATTTGTGTGCATAATGTCGTAGCAGCCAGTGCAGTCGTAGGCTTATCCGGGAAAGAAGGCGATATTATAAGGAAAACATTGTTACCAGCCATTTTATATGGCTTGGTTATTGGACTAGCTAGTTATGTTATCTTCTATGTGTGA MYLLVALSAIIAPFVFLVVFRLPATKGMTWSAFIVIALAMTIWGVEGKLIASSVLQGIHKTLTILWILFGALVLLNTLRKTGAVDRINQGFQNISTDMRVQVIIVAFLFGSLIEGAAGFGTPAMVTGPLMIALGFRPLAAATLALVADSTAVAFGAVGTPVAVGLSTLPEASPTFFQEIGIAITTLDLFAGTFIPFTLIVIMTVFFGKGKGLRDALPMLPWTLLIGIVYTLSALLSAVVFGQEFIAILASLTALIVATFTAKQGWLLPKKSWQDALQEDFQLETKPSSMGLFAAWSPYVIVVVLLLMTRIITPLAEFTKSAIDFSWTNIIGVEGITSNWEFLYSPGTVLAIAALVSVFLHRKRFSVFTTATTQSFSTMKTTAISLIATLAMVHVFTNSGMNAHDLVSMPQYIAASLASSLGSIWFLVAPFVGELGSFITGSATVSTLTFAPIQHSVANQIGVDVNAVLAAQIVGAGAGNMICVHNVVAASAVVGLSGKEGDIIRKTLLPAILYGLVIGLASYVIFYV PGPT0001800_1831 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303 NA NA AK015_00286 705 lutR COG2186 HTH-type transcriptional regulator LutR ATGAAATACAAGCGTATCCAACCAAAAAAAATTTATGAACAAGTAGCTGATTCAATTATAGATATGATTAAATCTGGAGAGTTACAACCTGGGGACAAGTTGGATTCTGTGGAGAAATTAGCAGTGAATTTTGAAGTAGGACGATCTGCCATTCGTGAAGCACTTAGTGGACTCCGTTCAATGGGGTTAATAGAAATGCGCCAAGGGGAAGGTACATATGTGAAGACATTTGATGCTAAAAGATTCACGCTTCCGGTTAGTACGGCGTTTTTAATGAAACGTCAGGATGTACAAGAACTTTACAAAGTCCGAAAAATATTGGAAGCAGGCGCTGCTAGATTAGCTGCTGAAAATTATGAGGAAGCAGATTTACTAGAAATGGAACGAGCATTAGTCGTTATGGAGCATGCGAAAGGAAATGAAGCTTTAGCTGAGCAGGCGGATACCGAATTTCATCTCGCCATTGCCAAAGCGACGCATATTAATCTATTAAATCATTTAATGGGTAGTGTTGCCGAACTCATGTCAGAAACAATACGAGAAACAAGACAAATATTATTATATACCGAAGATCGTGCAGATATTTTGTTCCAAGAGCATCAACGAATTTTTGCGGCAATAAAAGATAGACGGGCAGATCAAGCGGAAGAAGCAATGTACGATCATTTAGAAAAGGTAGAAGCAATCGTGTTTAAACACCTGTAA MKYKRIQPKKIYEQVADSIIDMIKSGELQPGDKLDSVEKLAVNFEVGRSAIREALSGLRSMGLIEMRQGEGTYVKTFDAKRFTLPVSTAFLMKRQDVQELYKVRKILEAGAARLAAENYEEADLLEMERALVVMEHAKGNEALAEQADTEFHLAIAKATHINLLNHLMGSVAELMSETIRETRQILLYTEDRADILFQEHQRIFAAIKDRRADQAEEAMYDHLEKVEAIVFKHL NA NA NA NA NA AK015_00287 738 lutA_1 COG0247 Lactate utilization protein A ATGAAGGTTTCATTATTTATTACATGTGTCAGTGACATCATTTTTTCCGATGTCGGTAAAAATACAGTGGAAATTCTTGAGCGTGTCGGCTGTGAGGTGGATTTTCCCGCAGCGCAAACTTGCTGTGGTCAGCCAGCATATAATAGCGGGTATGTAAAAGAAGCGAAGCAATCGATGAAACAAATGATGCGAGCTTTTCAAGATTCTGAGTATGTCGTCGGTCCGTCAGGCTCATGTGTCGGTATGTTAAAAGAGTATCCTGCTATTTTCAAAGATGATCCAGAGTGGGAAGAAGCTGCTATCGACTTGGCCAATAAAAGCTATGAAATCACACAGTTTTTAGTGGATGTTTTAGGCGTGACAGATCTTGGAGCGACATTTAAAGGTCGGGTTACTTACCATCCATCGTGTCATATGACACGTATTCTTGGTGTGAAGGATGCACCACAGACTCTTTTACGGCATGTGAAGGGAATGGAGTTTATCGAATTACCTGTAAAGGAAGATTGCTGCGGGTTTGGCGGAACATTTGCGGTGAAAAATCCAGAAATATCACAGGAAATGGTAAAAGAAAAATCACAGCATGTTTCCGAGACGAAAGCAGAATATCTAGTTGGCGCTGATATGGGCTGTTTAATGAACATTGGTGGTAGGATGAGACGAGAAGGAAAGAATGTAAAAGTTGTTCACATTACGGAAATTTTGAATTCACACGAACAAGGCGGGGGGATTGCATGA MKVSLFITCVSDIIFSDVGKNTVEILERVGCEVDFPAAQTCCGQPAYNSGYVKEAKQSMKQMMRAFQDSEYVVGPSGSCVGMLKEYPAIFKDDPEWEEAAIDLANKSYEITQFLVDVLGVTDLGATFKGRVTYHPSCHMTRILGVKDAPQTLLRHVKGMEFIELPVKEDCCGFGGTFAVKNPEISQEMVKEKSQHVSETKAEYLVGADMGCLMNIGGRMRREGKNVKVVHITEILNSHEQGGGIA PGPT0018090_1104 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 AK015_00288 1437 lutB COG1139 Lactate utilization protein B ATGAGTATTAAACTCGGAGATAGGTCATATCAAGAGCGTATTGAAACAGGAATAGAGAATGATTTCATGAGAGATGCTGTATCTTCTGCTCAAGGTCGATTTAGAAACGGACGTATCACGCAAGCGGAAGAACTTGGTGATTGGGAAGATTGGCGACAGCTAGGATCGGAAATTCGTACACATACATTAGAAAATCTCGATTACTATTTACAGCAGTTAAGTGAGCAAGTAGCTAAACGTGGTGGAAGTGTCTACTTTGCTTCTACAGCAGAGGAAGCAAATGCCTATATTGAAAAAGTGATTACCGAAAAAAACGCTAAAAAGATTGTTAAATCCAAATCGATGGTAACAGAAGAAATCGGTTTAAATCAGCAATTAGAAAAAATGGGAGCAGAAGTTGTGGAATCCGATTTAGGGGAATGGATTTTACAACTTGACGAAGATCCTCCTTCCCATATTGTTACGCCAGCTTTGCACAAGAATAAAGCGCAAATCCAGAAGACGTTTGCGGAAAAAAGAGGGTATAAGGGATCTGATTCTCCCGAAGAACTAGCAGCTTTTGCACGGGGACAACTACGAAAAGATTTCCTTTCTGCCGATGTGGGTATTACCGGGTGTAATTTTGCCGTAGCCGAATCTGGTGCGATTACGCTAGTTACGAATGAAGGAAATGCACGTATGGTTACTGCTTTGCCTGATACGCAAATAACCGTCATGGGAATGGAACGCATTGTCCCTACATGGGAAGATATGGAAGTGTTAGTAAGTTTATTGACGAGAGCAGCAGTTGGACAAAAATTAACCAGCTATGTGACTTCTTATACTGGCGCTAGGCTAGAAGGGGAAATTGATGGCCCCGATGATTATCATTTAGTCATTGTCGATAATGGTCGTTCAAAAATATTAGGCACAGAATTTCAATCTGCTTTACATTGTATTCGCTGTGCAGCATGTATTAATGTATGTCCTGTCTATCGACATGTCGGAGGTCATGCTTATAACTCTATATATCCTGGACCGATTGGTGCTGTGTTAACCCCATTATTGGATGGGTATGAGGATCATAAAGAATTACCCTATGCGTCATCCCTGTGCGCTGCTTGTACAGAGGCTTGCCCGGTGAAAATTCCATTACATGAACAGTTGATTCGCCATCGACAAATTATCGTAGAAAAGGAGAAAAAATCACCCGTAACAGAAAAGATGATGATGAAGGGATTTGCTCAATGGGCTTCGACTCCTGCTGCTTATAAATTAAGTACGAAATTGGCAAGAACAGCTTTAAAGCCGTGGACAAAAGAAGAGACGATTAAAAATGGCCCAGGTCCATTAAAAGGATGGACAGATGTAAGAGATTTTCCGGCACCAGCGAAACAATCCTTCCGTGCTTGGTGGAAAGAACGGCAGAAGGAGGAAATTCGTCATGACCATTCATAA MSIKLGDRSYQERIETGIENDFMRDAVSSAQGRFRNGRITQAEELGDWEDWRQLGSEIRTHTLENLDYYLQQLSEQVAKRGGSVYFASTAEEANAYIEKVITEKNAKKIVKSKSMVTEEIGLNQQLEKMGAEVVESDLGEWILQLDEDPPSHIVTPALHKNKAQIQKTFAEKRGYKGSDSPEELAAFARGQLRKDFLSADVGITGCNFAVAESGAITLVTNEGNARMVTALPDTQITVMGMERIVPTWEDMEVLVSLLTRAAVGQKLTSYVTSYTGARLEGEIDGPDDYHLVIVDNGRSKILGTEFQSALHCIRCAACINVCPVYRHVGGHAYNSIYPGPIGAVLTPLLDGYEDHKELPYASSLCAACTEACPVKIPLHEQLIRHRQIIVEKEKKSPVTEKMMMKGFAQWASTPAAYKLSTKLARTALKPWTKEETIKNGPGPLKGWTDVRDFPAPAKQSFRAWWKERQKEEIRHDHS PGPT0018095_918 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 AK015_00289 705 lutC COG1556 Lactate utilization protein C ATGACCATTCATAACCAAGATGCATTTTTAAGTAATGTAGCTGCCCATTTAGGTCGGCCGCGTCGTATGTCAGGAGTAGAGCGACCAACATGGAGTGTCCGCCCGCAAGATCGTGTGTTTGCAGGCTACTCCAAAGAAGAACTTGTTGCTGTATTAAAAAAGCAATGTAAAGCAATCCATACAGATGTTGTGGAAGTAAGTGCCGCTCAGTTGCCGAAAGCTTTATTACAGGCGATCGAGCGGTATGAAGGTAAAACGATTATTACAGCTCATGATGAGCGAAATACCGCTTATGGATTAGAGCCATTGTATGAACAACTTGGTGAAGAAATGGAAGTGCATATTTGGGATGCGCAGCTCGGTGAAGAAAATCAGCAGATTGCTGAACGAGCTGATATTGGTATCTCATTTAGTGATATCACTTTAGCTGAATCAGCGACAGTGACCTTATTTAATCATAAAGATAACGGTCGTTCGATTAGTTTATTACCAAAAAGCTTTATTGCAATCATTCCTAAAAGGACGATTGTACCTAGAATGACCCAAGCTGCTCAACAACTACACACATCTGTGGAAAAAGGGGAGGTTACGCCATCTTGTGTTAGCTTCGTATCTGGACCAAGTAATAGTGCAGATATTGAAATGAATTTAATTGTTGGTGTACACGGTCCCGTTCAAGCCACTTATATTGTCGTTGATGATTAA MTIHNQDAFLSNVAAHLGRPRRMSGVERPTWSVRPQDRVFAGYSKEELVAVLKKQCKAIHTDVVEVSAAQLPKALLQAIERYEGKTIITAHDERNTAYGLEPLYEQLGEEMEVHIWDAQLGEENQQIAERADIGISFSDITLAESATVTLFNHKDNGRSISLLPKSFIAIIPKRTIVPRMTQAAQQLHTSVEKGEVTPSCVSFVSGPSNSADIEMNLIVGVHGPVQATYIVVDD PGPT0018100_474 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 AK015_00290 468 hypothetical protein ATGAAAATTCATTTTTACGATAACAAATTCAAAAATGCGATTGATAATTATGAATTAACCGAAGAACAACTTCGCTATACTAAACACCCAAAAGATTGTATACAATTATTAAACGAGGATCTCAATCGTTATTCAATAGTAGCAATGGAAGGAAATAAACTTGTAACTTTTTTTGTCTTACATAAAAATGACGGGGTAAAACCATATTCAAATAATAATAAATCCATCTTATTAAGATCATTTTCAACTGATTTCCGTTTCCAAGGCAGAGGCTATGCTAAAAATGCATTAATTATTTTACCTAAGTTTGTTAAAGAGAATTTCACACAAACGAATGCGATTGTCTTAGCTGTTAATAGTACCAATAAGGTAGCACTGAGATTATACAAAAACTGCGGATTTGTTGATGAAGGAGTTCGAGAAATGGGTCCAAAAGGGGAGCTCATGATAATGCATTACTATCTATAA MKIHFYDNKFKNAIDNYELTEEQLRYTKHPKDCIQLLNEDLNRYSIVAMEGNKLVTFFVLHKNDGVKPYSNNNKSILLRSFSTDFRFQGRGYAKNALIILPKFVKENFTQTNAIVLAVNSTNKVALRLYKNCGFVDEGVREMGPKGELMIMHYYL NA NA NA NA NA AK015_00291 510 hypothetical protein ATGTACCCATATGACTATCATTATGATCCGAGCTTGGATCAGGAACGCGTTTTTCCTTTTTCCACGTTAGGAAATATGTTTTTTGGGCCAGGGCAGTCAAGCGGCACTTTTGGCCCTCCAGGGTTTCCGCCCGGTCCTCCACCTGGATTTCCTACAGGGCCAAGCGGTGGAGGTGGAATGCCAGGTTTTCCAGGTGCACCGACCAGCGGATTTCCACCTTTTCCGGGAAACCAAGGTGGTGGACCTTCAGGGCCCGGAAATCAACCACCAAGCTCTCCACCCCCAGCCTTCACACCGCAAAAATCACAAGTACAAACTTTCGCGGTTGACCCAGGAGGCATTCGTAATTGTTTATTTCGCTACACGTATATTTGGTTAAGAAGAGACGCTTTCTGGTTCTACCCTACATTCGTCGGACGAAATTCTATTGCCGGATACCGCTGGACCGGTTTCAATTGGGTTTACTTTGGCATCGACCTTAATCGAATCCAATCATTCCAATGCTTTTAG MYPYDYHYDPSLDQERVFPFSTLGNMFFGPGQSSGTFGPPGFPPGPPPGFPTGPSGGGGMPGFPGAPTSGFPPFPGNQGGGPSGPGNQPPSSPPPAFTPQKSQVQTFAVDPGGIRNCLFRYTYIWLRRDAFWFYPTFVGRNSIAGYRWTGFNWVYFGIDLNRIQSFQCF NA NA NA NA NA AK015_00292 1500 ribZ Riboflavin transporter RibZ ATGCGTTCAACAAACACAGAGTACGAATATTTAGCGGATGATCCGAATTTTAAAGTAATGCCAATTATGCTGTCATTAATTATTGGTGCATTCTTTGCTATTCTTAATGAAACATTACTTAATATTGCCCTTACGACATTAATGAAAGAGTTCCAAGTGTCTTTGACAACGGTGCAATGGATGGCGACAGGATTTCTTCTTGTGATGGGCATTGTTATACCTGCTTCTGCTGTTTTACTACAATGGTTTACAACAAGGCAATTATTTTTAGGGACAATGATTGTATTTACAGCGGGTACAACTATTGCCGCTTTCGCACCGTCATTTCCCATATTACTTACAGGTAGATTAATTCAAGCTGTGGGTACTGGTTTATTGATGCCAATTATTTTTAATGTGTTTCTGCTCATTTTTCCCCCACATCGAAGAGGGAAAGTGATGGGGACGGTAGGTCTTGTCATTATGTTCGCACCTGCAATTGGCCCTACCTTATCCGGCGTGATTGTGGAATATTTAGGATGGCGTTTTCTATTTATTACGGTTATACCGTTTACCTTGTTTTCTATAGCATTTGCTTATAAATATTTGGTAAATGTTTCAGAAACTACAAAACCAAAAGTGGATATTCTTTCGCTCGTTTTTTCTACGATAGGCTTTGGAACACTTATATATGGATTTAGTGCAGGTGGAGAAAAAGGATTCCTTAACCCAAGTGTGTACAGTTTCATCGTTATAGGTGTGTTGGGAATTACCATCTTTTCTTTTAGACAATTTAAGTTAAAGGAACCTGTTTTGGATCTTCGAGTATTTAAATATCCGATGTTTACGCACGGGATGCTGATGTTTTTAATTATTATTATGATGATGTTTTCTTCAGAAATAATCTTACCTATTTTTATGCAGGGAGCTTTAGCGTTTACTGCAGCTAAGGCAGGAATGCTATTATTGCCTGGTAGTCTCATTAATGGCGTCATGTCTCCTGTGATGGGGCATTTATTTGATAAATTTGGCCCACGTGTCATGATGATTCCTGCGACGATTATTTTAAGTAGTACGATGTTCTTGTTAAGTAGATTAAACGAAAATACAGAAGCATGGATGATTATTGTTGCTTATATTATTTTAATGCTCACTGTTTCTGCCATTATGATGCCAGCAGAAACAAATGGATTAAACCAGTTACCGAAACGGTTGTATCCACATGGGACGTCTGTGATGGCAACACTTCAGCCCGTAGCGGGGGCTGTCGGTGTTTCTGTTTTTATTAGTATGTTAAATGCTAGGCAAAGCCTTTATCTAAGTCAATCGGCAGCTCCAAATGATCCCGAAACAATAAATGAGGCAATGATTATAGGAGTAGAGTTTGTTTATTTTATTGCATTTGCTATTTCGATCATTGCGGTTATCTTAGCATTTTTGGTTTATCGAGCAGTTCCAAGTGAACAGTTTAGTGACGTAAAGCAACAAGGAAATCCTGAGAAACAGAGTAATGAGAATTAA MRSTNTEYEYLADDPNFKVMPIMLSLIIGAFFAILNETLLNIALTTLMKEFQVSLTTVQWMATGFLLVMGIVIPASAVLLQWFTTRQLFLGTMIVFTAGTTIAAFAPSFPILLTGRLIQAVGTGLLMPIIFNVFLLIFPPHRRGKVMGTVGLVIMFAPAIGPTLSGVIVEYLGWRFLFITVIPFTLFSIAFAYKYLVNVSETTKPKVDILSLVFSTIGFGTLIYGFSAGGEKGFLNPSVYSFIVIGVLGITIFSFRQFKLKEPVLDLRVFKYPMFTHGMLMFLIIIMMMFSSEIILPIFMQGALAFTAAKAGMLLLPGSLINGVMSPVMGHLFDKFGPRVMMIPATIILSSTMFLLSRLNENTEAWMIIVAYIILMLTVSAIMMPAETNGLNQLPKRLYPHGTSVMATLQPVAGAVGVSVFISMLNARQSLYLSQSAAPNDPETINEAMIIGVEFVYFIAFAISIIAVILAFLVYRAVPSEQFSDVKQQGNPEKQSNEN PGPT0028570_139 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 AK015_00293 729 mta_1 COG0789 HTH-type transcriptional activator mta TTGCAAGTAAAGGAAGTTGCTGGTTTAGTTGGTGTTAGCATCCGTACGCTTCATCATTATGATGCCATTGGTTTGCTAAAGCCGGAACATACAACCGAAGCAGGTTATCGCATTTATACAGATGATGAATTGGAACGGCTACAGCAAATTTTATTTTATAAAGAAGTTGGCTTTCCTTTGAAAAAAATAAAAGCCATTTTAGATAATCCTACCTTTGATCAAGTTGAAGCGTTAGAAAAGCATCGCGAACGATTGCTTGCTAAACGAAGCCAAATTGATACGATGCTAGAAACGATTCAAAAAACGATTCAACATACGAAAGGGGAAATGAACATGAGCAACAAGGAACGCTTTGCAGGCTTTGATTTTAGTAACAACCCTTACGAGCAAGAAGCGCGTGAGCGTTGGGGGAATGAAGCTGTTGACAAAGCAAATGCCAAGATTAAACAATTAAAGGACGAAGAAAACTTGCAACAAATCATGAACGATTTGTATCGCAGGCTGGCAGAGATTCGTAATGAAGATCCTGCTTCAGACATTGCACAACAGCGAATTGGAGAATGGTATCAACTGTTAAATCATATAGGAACCTATTCTTACGACGCTTTTAAAGGCTTAGGAAAAATGTATGTAGAAGACGAACGTTTTCAGAGAAATATTGATCAATTTGGGGAAGGATTAGCCATTTTTATGCGTGATGCCATGGCAATTTACGCAGATCATCGTTAA MQVKEVAGLVGVSIRTLHHYDAIGLLKPEHTTEAGYRIYTDDELERLQQILFYKEVGFPLKKIKAILDNPTFDQVEALEKHRERLLAKRSQIDTMLETIQKTIQHTKGEMNMSNKERFAGFDFSNNPYEQEARERWGNEAVDKANAKIKQLKDEENLQQIMNDLYRRLAEIRNEDPASDIAQQRIGEWYQLLNHIGTYSYDAFKGLGKMYVEDERFQRNIDQFGEGLAIFMRDAMAIYADHR PGPT0003175_5 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003175-mta|ywnD-K21743 NA NA AK015_00294 618 thiE Thiamine-phosphate synthase TTGCATTTACAAAAAGCTTTACGTAAATATTTCATCATGGGAAGCCAAAATTGTGATCGAGACCCGAAGCAAGTTTTAAAAGAAGCGATTCAGGCAGGTATTACAGCTTTTCAATATCGGGAAAAAGGATCTGGTGCTTTATCTGGCATACAAAAAACGTTATTAGGAAAAGAATTGCGCAATATCTGTCGCCAACATAACATTCCGTTTTTTATTAATGATGATGTAGAGTTAACAGCAGTTTTAGATACAGATGGCATACATGTCGGTCAAGATGATAAGCACGCAAAAGAATTGCGCCAACAGTTTCCAAATAAATGGATTGGTCTTTCTGTTTCCAACCTGGAAGAACTGCATGCCAGCCCGCTGGATTACGTCGACTATCTTGGCGTGGGCCCCATTTTCGCAACTTCTACAAAAGAAGATGCAAAGATGGCAGTAGGTACAGGCTTTATAACAGAAGTAAAACGGCTATACCCCAACATGCCAATTGTTGGTATAGGCGGAATTAACACTGAAAATGCAGCAGCTGTTATGGAAGCAGGCGCTGATGGCGTTTCTGTTATATCGGCAGTTACTAAAGCTCCCGATATACAAACAGCAGTCGCAAATCTATAA MHLQKALRKYFIMGSQNCDRDPKQVLKEAIQAGITAFQYREKGSGALSGIQKTLLGKELRNICRQHNIPFFINDDVELTAVLDTDGIHVGQDDKHAKELRQQFPNKWIGLSVSNLEELHASPLDYVDYLGVGPIFATSTKEDAKMAVGTGFITEVKRLYPNMPIVGIGGINTENAAAVMEAGADGVSVISAVTKAPDIQTAVANL PGPT0008995_4303 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 AK015_00295 774 thiM COG2145 Hydroxyethylthiazole kinase ATGAATACATCAATTATAGAGCAAGTTAGGGAGGCCAATCCGTTAATTCATAATTTGACAAATGAAGTCGTGATGAATTTTACTGCTAATGGTTTATTAGCTTTTGGGGCTTCACCGATTATGGCAAAAGCGACAGAAGAAGCAGAAGAAATGGCGTCCATTTCTAATGGTGTGCTTATAAATATTGGTACATCAACATTGACAGAGCTACCAGCAATGAAGCTTGCCGGTAAAGCCGCCAACAAAAAAGGCATCCCAGTAGTACTAGACCCCGTTGGCATTGGCGCTACATCGTTTCGTAAAGATGTCGTTAAACAATTATTACAAGAAGTACAATTTACTGTTATTAAAGGAAATGCTGGCGAAATGGCTAAGCTAGTTGATATGCCATGGGAAGTAAAGGGGGTAGAATCTGTCGGAGATGGTGATGGAAAAGATATTGCTAAAAAAGTAGCCAACATGTATCATACGACTGCTGTAGTAACAGGGGAGACGGACTATATTTGTAGTAACAATGAAACGGTAATAGAAAACAGAAGCGGGCATGTCTATTTGGAAAAAATCACAGGTGCTGGTTGTTTGCTAGGCTCTATTATAGCAGCTTGTCTAGCTACAAATGCGAAAGTAGAAGAACAGGCATTTGCAGCCGTACATTTTTATGGATTAGCAGCCGAGTATGCTGCTAATCAAGAGCATGTTCAAGGTTCTGGCAGCTTTCTTCCAGCCTTTATTGACGCATTGTCCAATGGAATAGATCAGCTTAACATCAAGTAA MNTSIIEQVREANPLIHNLTNEVVMNFTANGLLAFGASPIMAKATEEAEEMASISNGVLINIGTSTLTELPAMKLAGKAANKKGIPVVLDPVGIGATSFRKDVVKQLLQEVQFTVIKGNAGEMAKLVDMPWEVKGVESVGDGDGKDIAKKVANMYHTTAVVTGETDYICSNNETVIENRSGHVYLEKITGAGCLLGSIIAACLATNAKVEEQAFAAVHFYGLAAEYAANQEHVQGSGSFLPAFIDALSNGIDQLNIK PGPT0008990_1941 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 AK015_00296 807 thiD Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase TTGAAACCAATTCCATGTGCATTAACGATTGCAGGAACTGATCCAAGTGGAGGTGCAGGTATTCAGGCAGATCTGAAAACATTTCAAGAGTTAACTGTTTATGGTATGTCCGTCATCACATCGATTGTTGCACAAAATACAACTGGTGTACAAAATGTCCACCATATCCCTATTGATATGATAGATGAGCAATTGCAATCTGTTTTTTCTGACATGCCTGTACACAGTCTAAAAACAGGCATGATTGCCAATGAATCGATGATGCGCGTCATCCAAAAACAACTTACTAGTACAGACGCATACTACGTCATGGACCCTGTTATGGTTGCTACTAGCGGCGATCCTTTAATTGCCGAAGAAGCAAGAGATTATTTAAAAGAACAGCTTCTACCTTTAGCAACTGTTGTTACGCCAAATATTCCAGAAGCAGAATTTATTACTGGCAACAAAATCCTTGATGTTAACGATTTACAAGAAGCAGCCAAAGAAATAGTGGATAAACATGGTGCTCGGGCTGCCCTAGTAAAAGGTGGACATATGCATGGAGATGCCATTGACTATTTATATGATGGACATAAGATGCATACCTTTCACTCCAAACGCTTTGACACAACAAGTACGCATGGCACTGGTTGTACGTACTCGGCAGCCATTACCGCTCATTTAGCTAAAGGCCTGCCGTTATATGAAGCGGTAAAAGAGGCTAAACAATTTGTTACAGCAGCTATTAAGCATTCTTTCCCATTAGGCGCTGGGAACGGCCCTACCAACCATTGGGGAATTCGTGAAGAAAGGGTGAAACAATGA MKPIPCALTIAGTDPSGGAGIQADLKTFQELTVYGMSVITSIVAQNTTGVQNVHHIPIDMIDEQLQSVFSDMPVHSLKTGMIANESMMRVIQKQLTSTDAYYVMDPVMVATSGDPLIAEEARDYLKEQLLPLATVVTPNIPEAEFITGNKILDVNDLQEAAKEIVDKHGARAALVKGGHMHGDAIDYLYDGHKMHTFHSKRFDTTSTHGTGCTYSAAITAHLAKGLPLYEAVKEAKQFVTAAIKHSFPLGAGNGPTNHWGIREERVKQ PGPT0008915_2646 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 AK015_00297 495 hypothetical protein ATGAAAAAAACATACACATTAACATTAATGGCTGTCTTTGTTGCTATTGGCACACTAGCAGCACAATTTCTTTGGTTTCCTGCTGGATTTGCCAAGGCGTACCCCGTGCAACATGCTGTTAATGTGATGGCAGCTATTACGTTAGGACCTGGACCTGCTGTAATAATAGCTTTTATGATTGGTCTGTTACGAAATATGCTAGGACTTGGAACTTTATTAGCGTTTCCAGGAGCCATGGTAGGAGCATGGTTTGCAGGTTTACTGTATCGTAGATTTGAGAAGAAACGATGGGCTGTCATTGGAGAAAGTATAGGGACTGGAATTGTAGGATCCTTGCTTGCTGTACCCATTGCTCGCTTATTCATGGACAGTAGTGCCGGAGCTCTATTTTTTATCCCGTCATTTTTAGCAAGTAGCATTTCTGGAGCTTTTTTAGGTTGGTTTATTGTTTCACGCGTGAATACAGATAAGCTAATTCGTATACAACGGCTGTAA MKKTYTLTLMAVFVAIGTLAAQFLWFPAGFAKAYPVQHAVNVMAAITLGPGPAVIIAFMIGLLRNMLGLGTLLAFPGAMVGAWFAGLLYRRFEKKRWAVIGESIGTGIVGSLLAVPIARLFMDSSAGALFFIPSFLASSISGAFLGWFIVSRVNTDKLIRIQRL NA NA NA NA NA AK015_00299 114 hypothetical protein ATGGAAAGTGGATTTGCAGGCCATTATTCAAAACAGGCAATTATTTTCCCTTTACATCTATCTCTAAACCACGCAAGTACAATTCAAGGTAATAAAGATGCGGAAAGGTACTAG MESGFAGHYSKQAIIFPLHLSLNHASTIQGNKDAERY NA NA NA NA NA AK015_00300 981 oppD_2 COG0444 Oligopeptide transport ATP-binding protein OppD ATGTCCAAAGAAGTCTTACTGGAACTAAAAGATGTCCATACGCATTTTTTTACGGAAAAAGGGGAGGTTCCCACTGTGAATGGGGTTCGTTTATCTGTATGTAAAGGAGAGGTCGTTGGTATTGTTGGAGAATCGGGCTGTGGAAAAAGCGTAACATCCTTATCCATCATGCAATTGATACCTAGCCCGCCTGGCAAAATTGTAAGTGGTGACATTTATTTTAAAGGGGAAAATATCGTATCAGCTTCTCCTAAAAGAATGAAACAGATACGGGGAAATGAAATTGCTATGATTTTTCAGGAACCAATGACATCTTTAGATCCTTTATTTACCATTGGTAATCAAATGATAGAAGCGATTCGACTACACGAAAAAACAAGCAAAAAAGAAGCGCGTAACAAAGCGATTACATTATTAGAACTTGTTGGAATTCCTAGGGCAAATGCTATTGTCGCTAGTTATCCGCATCAATTATCAGGTGGAATGCGACAGCGGGTCATGATTGCAATGGCGATGGCTTGCGAACCAGATTTGTTAATAGCGGATGAACCAACAACAGCACTTGATGTAACGATACAGGCACAAATACTCGATTTAATGCGACAGTTAAATCAAGAAAAACAGACAGCTATTCTGTTCATCACACATGATTTAGGTGTCGTCGCAGAGATTTGTGATCGTGTCGCAGTGATGTATGCTGGGCAAATCATCGAAGAAGGGACGACGAGAGAAATATTAAAATATCCTAACCACCCCTATACAAAAGGATTAATTCGTTCATTACCAAATGTGAAGAAAACAGAACAACAATTATATTCTATTCCAGGTACGGTTCCTAAGCCACAGAAGGAAAAAATAGGTTGTCGTTTTGCACCTCGTTGTGAATGGGCATTTGAAGCCTGTTTTCAAGCAAACCCTCCATTATATGAACTAGAAAATAACCGCACAAGTAGATGCTTTTTACATGAAAAGGAAGCATGA MSKEVLLELKDVHTHFFTEKGEVPTVNGVRLSVCKGEVVGIVGESGCGKSVTSLSIMQLIPSPPGKIVSGDIYFKGENIVSASPKRMKQIRGNEIAMIFQEPMTSLDPLFTIGNQMIEAIRLHEKTSKKEARNKAITLLELVGIPRANAIVASYPHQLSGGMRQRVMIAMAMACEPDLLIADEPTTALDVTIQAQILDLMRQLNQEKQTAILFITHDLGVVAEICDRVAVMYAGQIIEEGTTREILKYPNHPYTKGLIRSLPNVKKTEQQLYSIPGTVPKPQKEKIGCRFAPRCEWAFEACFQANPPLYELENNRTSRCFLHEKEA PGPT0004435_11148 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 AK015_00301 1014 oppF_2 COG4608 Oligopeptide transport ATP-binding protein OppF ATGATTGTTCCCATTAAAGCAAGCAGGAAGGAGGTAGAGGAGAAAGTGGTCCAACCATTGTTAGAAGTGAAAGGATTACAGAAACATTTTGCAGTTAAAGGCGGGGTATTTGGAAGGAAAAAGCGTGTTATCAAAGCTGTCGATGATGTCTCATTCAGTGTAAGAGAAGGAGAGATACTTGGTATTGTCGGAGAGTCAGGATGCGGAAAATCAACAACTGGAAAAGCCATTTTACGATTATTGGAGCCTTCGAGCGGGGAAGTGATGTTTGCTGGAAAAAGGATAAAGGATCTTGAAGCCAAAGAGTTGCGAAAGCTCCGCAAAGATATGCAAATTATTTTTCAAGATCCTTACGCTTCGTTAAATCCAAGACATACGGTTGAAAAAATCATTGCAGAACCGCTACTTGTTCATGGGATGGCAGCTAAAGCAGCACGTAAACAGCGTGTGAAAGAACTGTTAGAAATAGTTGGTTTAAATAGCTACCATGCTTCCAGATACCCGCATCAATTTAGTGGTGGACAACGGCAACGAATTGGTATTGCTAGAGCGTTAGCAAATCATCCTAAATTAATTATTTGCGATGAGGCTGTTTCTGCATTGGATGTATCTGTTCAGGCGCAAATCTTGAATTTAATGCAAAAATTGCGTGAAGAATTTCAATTGACTTATTTGTTTATTGCGCATGACTTAAGTGTTGTAAAGTATATTAGTGATCGTGTAGGGGTCATGTACTTGGGACGAATGATGGAATTAGCGGACAAGGATACATTGTATGAAAATCCAAAGCACCCATACACCCAAGCATTATTATCAGCTGTACCGACCCCAGATCCAGATGGTATACGAGAACGAATTATTTTAAAAGGGGATGTACCTAGCCCTGCAAATCCCCCACCAGGTTGTGTCTTTCATACACGATGCCCGCAAGCAATGGATATTTGTAAAACAGCTAAACCTGCTTTCCAAGAGATGGAAGCGAATCATTTTATTGCTTGTCATTTATACACGTGA MIVPIKASRKEVEEKVVQPLLEVKGLQKHFAVKGGVFGRKKRVIKAVDDVSFSVREGEILGIVGESGCGKSTTGKAILRLLEPSSGEVMFAGKRIKDLEAKELRKLRKDMQIIFQDPYASLNPRHTVEKIIAEPLLVHGMAAKAARKQRVKELLEIVGLNSYHASRYPHQFSGGQRQRIGIARALANHPKLIICDEAVSALDVSVQAQILNLMQKLREEFQLTYLFIAHDLSVVKYISDRVGVMYLGRMMELADKDTLYENPKHPYTQALLSAVPTPDPDGIRERIILKGDVPSPANPPPGCVFHTRCPQAMDICKTAKPAFQEMEANHFIACHLYT PGPT0021035_1034 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 AK015_00302 1683 hbpA COG0747 Heme-binding protein A ATGAAGGGAAAATGCGCGATTTGGTTTATTTTCATGCTGCTATGTATGTTATTTCTAGCAGCGTGTAGTGGTGATGGTGGAGCAAAAACGGACAAAGTAGAGGAGGAAAGTGGTGGTGCAAGTGAAGAGGGTACTAAGGGCGAAAAAGAGGCAACGGCTAACGAAGAGCAGGTATTAGTATTTGGCCGTGGTGGTGATTCAGTTAGTTTAGATTTTGCGAGTGTTTCTGATGGGGAATCCTTGCGTGTTACAGAGAATATTTATGAAAGTTTACTCGATTATGATAAAGAATCGTTTGAGGTAGTTCCAGGCTTAGCGCATGACTGGGAAGTATCTGATGATGGTTTACGGTACACATTTTTTCTAGAAGAAGGCGTTACTTTCCATGACGGCACACCATTTAATGCGGAAGCTGTAAAGGTGAATTTCGAACGTTGGGCCGACCCTGAACATACGTATGCATTTGCGGATGAGGGATACGCTTATCCATTGTATGGCAGTATGTTTGGCGGGTATAAAGGGGATGACGCACATAATATTAAAGAAATAAATATAATGAATGATTATGAAGTGGAATTTGTTTTAAACGCACCTCAAGGACCTTTTTTACAAAATATGGCTATGTCCTATTTTGCAATGACTTCACCAACTGCTTTAGAAAAATATGGTTCTACTATTAATGAAAATCCTGTAGGGACAGGCCCGTTCAAATTTGTTAGCTGGAGTAAGAATGATCAGATCGTGCTAGAGAAAAATGCTAATTACCATAAAGAAGGATTACCCAAATTAGATCAAATTATTTTTGAAGTTATTCCAGAAAACTCAGCTAGGTTAATCGCGTTGCGTTCTGGAGAAGTGGATATTATTGATGGAATTAATCCAGATGATGCAGCTAGTATCGAGTCGGAAGAAGGGCTTGATTTATATGTGCGGGGTGAAAATAACATTGGCTTTTTAGGGATGAATGTAGAAAAAGAGCCGTTAAATGACAAATTAGTTCGCCAAGCGATCAATTATGCGGTAGATACAGATGCGATTGTCGAGGCGCTTTATGCAGGTTATGCAACGACAGCAGCGAATCTAATTCCACCAAATTATTTGGGGTATAATGATGAATTAGAGCCTTACGCGCATGATGTAGAGCAAGCGAAGGAATTATTAGCTGAAGCAGGCTATGCGGATGGATTTGAAATGGACTTATGGGTGATGCCTGTATCGCGACCATACATGCCAGATCCTGAAACAGTTGCTGAAATAGTCCAAAGCAATTTACAAGAGATTGGTATTACAACAAATATTGTCCGTGAAGAATGGGCTCCATATTTAGAAAAAACAGGTAAAGGGGAGCAGGATTTATATTTGCTTGGTTGGTCAGGCTCAAATGGTGATCCAGATTATTTCTTTGACAGTTTGCTACATGGAGATAGCATCGGCGGAGAAAATCGTTCTTTCTTTCAAAATGATGAAGTGGATAAATTAATCGATCAAGCTGGTGCAGAAATCGATCAAGATAAGCGGGCAGCATTGTATAAACAAGTGCAAACCATTCTTCATGAAGAAGTTCCAGGGGTAAATATTGTTCACTCAACACCGCTAGTTGCCGCTAAAAATAAAGTGAAAAACTTTATACCACATCCATCTACAAGTGACCCGCTAGAAGAAGTGGAAATAGCAACGGAATAA MKGKCAIWFIFMLLCMLFLAACSGDGGAKTDKVEEESGGASEEGTKGEKEATANEEQVLVFGRGGDSVSLDFASVSDGESLRVTENIYESLLDYDKESFEVVPGLAHDWEVSDDGLRYTFFLEEGVTFHDGTPFNAEAVKVNFERWADPEHTYAFADEGYAYPLYGSMFGGYKGDDAHNIKEINIMNDYEVEFVLNAPQGPFLQNMAMSYFAMTSPTALEKYGSTINENPVGTGPFKFVSWSKNDQIVLEKNANYHKEGLPKLDQIIFEVIPENSARLIALRSGEVDIIDGINPDDAASIESEEGLDLYVRGENNIGFLGMNVEKEPLNDKLVRQAINYAVDTDAIVEALYAGYATTAANLIPPNYLGYNDELEPYAHDVEQAKELLAEAGYADGFEMDLWVMPVSRPYMPDPETVAEIVQSNLQEIGITTNIVREEWAPYLEKTGKGEQDLYLLGWSGSNGDPDYFFDSLLHGDSIGGENRSFFQNDEVDKLIDQAGAEIDQDKRAALYKQVQTILHEEVPGVNIVHSTPLVAAKNKVKNFIPHPSTSDPLEEVEIATE PGPT0004430_4807 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 AK015_00303 1002 dppB_1 COG0601 Dipeptide transport system permease protein DppB GTGACTGCATATATCATGCGCCGTTTACTGCATGTCATTCCAGTATTACTTGGAATGACAGTTATAACGTTTTCCATTGTACATTTAATACCTGGTAATCCGGCACAAACAATTTTAGGGGAAGCAGCTACACAAGAAGCTGTAGAAAATTTAGAAGAAAATATGGGTTTAAATGAACCATATCTAACTCAGTATGGAATTTATGTTACCGATTTATTGAAAGGTGATTTAGGAACGTCCTTACGATCTAAAGCTGCAATTACGGAAGAAATTTGGCCGCATATTGCAGCGACATTTGAACTAACTTTCTTTGCCATGTTATTTGCTGTATGTATCGGTGTGAACGCAGGAATTATTAGTGCGTGGAAGCAAAATTCGTGGTTTGACTTATTAGCGATGCTTTTTGCGCTTGTCGGTGTCTCCATCCCTGTATTCTGGTTAGCGCTGATGGAGCAATGGGTGTTTGCCCAAGAACTTGGGTGGTTCCCTGCCTATGGGCGAGAAGATAGCAGAGATCCAATTGCAGCCATTACGCATTTTTACGTACTTGATGCCCTGATTCATTTAGACTTTTCAAGGGCATTAACGAACCTAAAGCATCTCGTACTACCGAGCATTGCATTAGGAACGATCCCAATGGCAATTATTGCGAGGATGACCCGTTCTAGTATGTTGGAAGTGATGCAATCTGATTATATTCGTACAGTCCGTGCTAAAGGATCAGGGCAGTTCCTAATTATTTATAAACACGCTTTAAAAAATGCTACAATCCCCGTCCTGACAGTTATTGGTTTACAAACAGGCGTCCTTTTGGGGGGAGCTATTTTAACGGAGACAATCTTCAGTTGGCCAGGAATTGGCAGGTATGTATACGAAGCAATCAATTATCGTGATTATCCCGTCATTCAATCGGGCATTTTAGTCATTGCCTTCCTCTTTGTCATTATTAATTTAATTGTCGACATTTTATACACGTTCATTGACCCGAGAGTCAAATATTAG MTAYIMRRLLHVIPVLLGMTVITFSIVHLIPGNPAQTILGEAATQEAVENLEENMGLNEPYLTQYGIYVTDLLKGDLGTSLRSKAAITEEIWPHIAATFELTFFAMLFAVCIGVNAGIISAWKQNSWFDLLAMLFALVGVSIPVFWLALMEQWVFAQELGWFPAYGREDSRDPIAAITHFYVLDALIHLDFSRALTNLKHLVLPSIALGTIPMAIIARMTRSSMLEVMQSDYIRTVRAKGSGQFLIIYKHALKNATIPVLTVIGLQTGVLLGGAILTETIFSWPGIGRYVYEAINYRDYPVIQSGILVIAFLFVIINLIVDILYTFIDPRVKY PGPT0004445_4100 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 AK015_00304 936 gsiD_2 COG1173 Glutathione transport system permease protein GsiD ATGGGTCCAGAAAGTGATAAAAAGCAAGATCAGCTACCGTTAACCAACCCTGTTACACTTTCTCCGCAATTCGAAGCTGATGATATGGAAGAAACGTCCCCGTGGAAAGATACAATGAAGCAATTGAGAAAGAATCGTTTTGCGATGGTTGGTTTTTCCATTATACTATTTTTTATTTTATTTGGGCTAGTAGCGCCGTTATTGACATCGTATTCATATGAAGAACAAGCATTGGGCAACCGTCTGCAACCTCCGTCAAAAGAGCATTGGTTTGGTACGGATGATGTTGGAAGAGATATATTCACCCGGATTGCTTATGGTGCTCGCGTTTCGTTACAGGTGGGCTTTTTTGCTGTTACAGGAGCGCTTGTGTTTGGAACGTTATTAGGTATGGTTGCCGGCTATTTTGGACGGTGGGTCGATACAATTATTTCGCGCGTATTTGATATATTATTAGCCTTCCCTAGTATTTTATTAGCAATTGCCATCGTGGCTATTTTAGGAGCTTCTTTGCAAAATGCCTTAATTGCTATTGCCATTATTAACATTCCCATTTTTGGTAGAATTGTTCGATCAAAAGTAATTAGTTTGCGAGAAGAGGAATTTATTATGGCTGCAAGAGCGCAAGGAATGAAGAGTAGGCGCATTATTTTCCATCATATTTTACCAAATAGTGCTGCACCAATTATTGTACAAGCTACATTAGGGTTTGGAACAGCTATATTAGACGCAGCGGCATTAGGATTCTTAGGATTAGGGGCGCAACCACCAACTCCGGAATGGGGAGCAATGTTGGCAGGGTCGCGGGATTTCATTCAACTTGCACCTTGGACGTTAATTTTTCCCGGTGTTTCCATTATGTTGGTAGTGTTAGGCTTTAACCTTATCGGTGATGGGTTACGCGATGCGTTAGACCCTAAAATGAAAAGTATGTAA MGPESDKKQDQLPLTNPVTLSPQFEADDMEETSPWKDTMKQLRKNRFAMVGFSIILFFILFGLVAPLLTSYSYEEQALGNRLQPPSKEHWFGTDDVGRDIFTRIAYGARVSLQVGFFAVTGALVFGTLLGMVAGYFGRWVDTIISRVFDILLAFPSILLAIAIVAILGASLQNALIAIAIINIPIFGRIVRSKVISLREEEFIMAARAQGMKSRRIIFHHILPNSAAPIIVQATLGFGTAILDAAALGFLGLGAQPPTPEWGAMLAGSRDFIQLAPWTLIFPGVSIMLVVLGFNLIGDGLRDALDPKMKSM PGPT0004450_4974 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 AK015_00305 366 hypothetical protein ATGTCTAACTCATGTTTAGGTTCCGCCAATTCACTTGCAACCAACACAGAACTAATGAAAACAAATGTATGTCACTCCATTCGTCACATTTGTGACGGTACAACACCTAGCACGATATTCTTATCTGATGCAATACTTGGAATAAGTGGTATTTTTACAGTAACCAATTCTAGCTCAAGTTGCACAATGAATCTTTCAGTTATAGATGCAAACGGTACTATAGCTTACTCGATTCCACCGCAATCTTCTGTTGCTATAACTGCCGATACACTTACTAGCATCACCTATACGTGTACGGGGGCAGATCCGACCGCTTTCTGTACGGGATCTTTCGAAGCGAGCCTGTATTATTGTGTAGATTGTTAG MSNSCLGSANSLATNTELMKTNVCHSIRHICDGTTPSTIFLSDAILGISGIFTVTNSSSSCTMNLSVIDANGTIAYSIPPQSSVAITADTLTSITYTCTGADPTAFCTGSFEASLYYCVDC NA NA NA NA NA AK015_00306 225 hypothetical protein TTGAAAAATATATTTTACTCTTCTTTTAGTGAGTCATATAATTATGAGTGGATTAGTAAAGTTGATGAAACTATTAAGAATATCGAAGATTATAATGAACCTCATCTAGAAAAGTCATTAGATAATCTCACAATGGAGTTAAGGGTACTGTTGCTTCAACGTGGGCAAATAATTGTCAATAATCACCTGAAATCCCCGCCTGAAGACGATGAAACATATGGATAG MKNIFYSSFSESYNYEWISKVDETIKNIEDYNEPHLEKSLDNLTMELRVLLLQRGQIIVNNHLKSPPEDDETYG NA NA NA NA NA AK015_00307 492 queC 7-cyano-7-deazaguanine synthase GTGGACTTTGTAGATAGTTTTAAAGATTTATATATGAACGATGATGATCCTATTCATATTTTTAGAAAAGGTGAAAGTGTAATAACATTCATTAAATCATTCGGGGCAGGTATTGGATTATCATTGGCCGCTTCTTATGCAGCAGAAATAGATGCTAAACACTTATTTTATGGAGTACACAAAGATGATAAAGTATTTAACGAAAATAATCGTGAATTTTTCACTTTAATGTCAAAAGCTATTTCTATTGAAATTGGCACAGAATTCAATGTTCACACACCATTCCTTGAGAAGTCAAAAGCCGAAGTTCTTAAATTAGGTTACGATCTTGGAATGCCAGCCGAAGAAACATGGAGTTGTGCTTCAAATAGTAGTATTCACTGTGGATGGTGTGACCCTTGTCAAGATAGGATAAATGCTTTTAGGAAAACCAATTTAAATGACACTACTCTTTATGAAAATAGTTTAGTAAAATCTAGTTCAAATGCCTAA MDFVDSFKDLYMNDDDPIHIFRKGESVITFIKSFGAGIGLSLAASYAAEIDAKHLFYGVHKDDKVFNENNREFFTLMSKAISIEIGTEFNVHTPFLEKSKAEVLKLGYDLGMPAEETWSCASNSSIHCGWCDPCQDRINAFRKTNLNDTTLYENSLVKSSSNA NA NA NA NA NA AK015_00308 903 btuD_2 Vitamin B12 import ATP-binding protein BtuD ATGTTAAAACTAGATGAAGTTTACAAAAGATATGATGACATTAATGTATTAGAGGGTATTTCTTTTCAAGCAGACAAAGGCGAAGTTCTAAGTATTGTAGGACATAATGGGGCTGGGAAGACTACCCTATTAAAAATAATAACCGGGATTATTTTACAAAACACTGGAAAAATAGAACTTAATGGCAAACTGAGAAAGAAGTCACATTTAAAAAATATTTCAATGATGCTTGAAGGTAATAAGAACTTTTACTTAGAATTAACCCTATATGAGAATATCGAGTATTTTTATAGGATTAAAGGTTACAAATATACTAATCTAATAAAAAACAAAATAGATAGGTATCTTATAATTTTCAACCTAGTCGACCATGCAAAAAAACCAATCTACAAACTTTCAAGGGGAATGCAACAGAAAGTAGCTGTTATTTTAAATTTTGTTTTACCGTCCGAATTAATCCTACTTGATGAACCCACTTTAGGATTGGATATTTTTTCAGTAGATGAATTCCAAGCATTAATTGCAAATGCAAAAAATGATGGTAAAACTATTCTAATTACATCCCACCAACTAGACTTACTCCAAAGACTATCTGATAGGTTAATAATATTACATAAGGGGAAAATTGTATTTAATAACAACTCTGAAGTCTTCTTAAATAAATACGCTCCAAGTCAATATAGAATTTTATATAATGAAGACATACCAACAAAGGAGATTGAAAAGCTGGATTATATTCAATACAGCTATAATTTTGGTTCGAGCAATAAAGAGTTAATAGTTGATGAAAATATAAGTTTAATAGATTATCTTAATGTACTAGATTTAACCTTAATCAAAAGTATTGAAAAAAATATTCCAAGTTTAGAAACCGCATATAAAAAATTCTGGAATGAGGTATAA MLKLDEVYKRYDDINVLEGISFQADKGEVLSIVGHNGAGKTTLLKIITGIILQNTGKIELNGKLRKKSHLKNISMMLEGNKNFYLELTLYENIEYFYRIKGYKYTNLIKNKIDRYLIIFNLVDHAKKPIYKLSRGMQQKVAVILNFVLPSELILLDEPTLGLDIFSVDEFQALIANAKNDGKTILITSHQLDLLQRLSDRLIILHKGKIVFNNNSEVFLNKYAPSQYRILYNEDIPTKEIEKLDYIQYSYNFGSSNKELIVDENISLIDYLNVLDLTLIKSIEKNIPSLETAYKKFWNEV PGPT0006725_15123 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_00309 747 hypothetical protein GTGTTTCAAGTTATAAAAGGTAACTTAATAAAGGAAATACAATTAATATCACACCGAAAGGTAAGTACTTTATTCACAGTTCTAAACTCATTTCTATTATTCATTGCTCTTTACACACTATTTAACAATGTAATACATGTAGATGATACATCAAAGGCAATTTTTATTGTTAGTTATGTTCTATGGTATTTTTCACTTTCATTAATCACTGAGCCAGGATGGATAATTATTGGGGAATCCTCAAGGGGGACGATTGAACAATGGTATTTGTCTCCTTATCCTTTGTGGTATATCCTTTTTTCGAAAATTATTTCAGCAAATTTCGTTAATTCATTGAGGACATTACTTTTGCTATTTCTTATTGTAATTACAACTAATTCGATAATTATATTCAAACCCTTGACCGTAGCAATTATTGTTATCTCACTCTTCGGAATGTATGGTATAGGCTTTATTTTTGGTGCTCTTTCATTAATTTATAAACGTATTCAAGATATTATACCAATTTTACAGTATCTTTTATTGGCAATTATTTCGTTACCAGCTAGTTCTAATATATTTGCAAATATCATACCAATATATTCTACTTCCTCTTTATTAAAAAGGCTTTTAGATAATAACGATATTCTTTTTAGTGAATACATTCTCTTTTCGTTTAGCTCTATTTTCTACTTAATAATTGGGGTACTATTATTTAATTCATGTGATAAATTTGTTAGAAAAAAAGGGATCGTTGGGAGGTTATAA MFQVIKGNLIKEIQLISHRKVSTLFTVLNSFLLFIALYTLFNNVIHVDDTSKAIFIVSYVLWYFSLSLITEPGWIIIGESSRGTIEQWYLSPYPLWYILFSKIISANFVNSLRTLLLLFLIVITTNSIIIFKPLTVAIIVISLFGMYGIGFIFGALSLIYKRIQDIIPILQYLLLAIISLPASSNIFANIIPIYSTSSLLKRLLDNNDILFSEYILFSFSSIFYLIIGVLLFNSCDKFVRKKGIVGRL NA NA NA NA NA AK015_00310 426 hit_1 COG0537 Protein hit ATGGAGACTTGTATTTTTTGTCAAATTACTCGTGAAGAAGCTTTTTCATATACAATCTATAAAAATGAATACGTAACCGCATTTCTTGATAAGTATCCAGTCAATAGTGGACATATACTTTTAGTGACTAATCAGCACTATAAAACACTCGATCTTATTAATAATAAAACGATTTCAATTGAAATAATAAATACTTTAATTTACATAGCAAAAAAACTAGTAAATTCAGGATTTTGCAATGACTATTCAATATTACAAGATAATGGAATAAATGCAAACCAAGAAATTATGCATGTACACTTTCACATTATACCTAGGTTTAAAAGCGATAATGTAAAGTTCTTATTAGAGACTGATTATGAAGCAGCAGCCGAAAAGAACATGGAGAAGACTTTTAAAAAGATACTTGAGGTAATGAAGACCTGA METCIFCQITREEAFSYTIYKNEYVTAFLDKYPVNSGHILLVTNQHYKTLDLINNKTISIEIINTLIYIAKKLVNSGFCNDYSILQDNGINANQEIMHVHFHIIPRFKSDNVKFLLETDYEAAAEKNMEKTFKKILEVMKT NA NA NA NA NA AK015_00311 156 hypothetical protein ATGCAGAACGCACTTAAAGATATATTTGGCCCCATGTTTGAATCAATGTTAAAGGGAGAAATGAATAAGAAACGAATGATAAAGAAGAAAAAGACACAGAGAACAGGCGAAATGGATATGGGAAGAAAACCATTAAGACAAGCTCCGGTGAAATAG MQNALKDIFGPMFESMLKGEMNKKRMIKKKKTQRTGEMDMGRKPLRQAPVK NA NA NA NA NA AK015_00312 282 IS3 family transposase ISEfa8 ATGACACGTCAACGTCGAACTTTTACACCCGAATTTAAACTTCAATTAGTGAAGCTATATGAAAATGGTAAATCGCGTGCTGATATTGCTAGAGAATATGATATTACTCCATCTGCGTTAGATCGGTGGATTAAGAATCATAAAGAAACAGGATCGTTCGCAGCGAAGGATAATCGCTCAGAAGAGGAAAATGAATTGATGCACCTCCGCAAAGAAAATCAACGTTTACTTATGGAGAACGATATTTTAAAGCAAGCCGCACTGATCATGGGACGAAAATAA MTRQRRTFTPEFKLQLVKLYENGKSRADIAREYDITPSALDRWIKNHKETGSFAAKDNRSEEENELMHLRKENQRLLMENDILKQAALIMGRK NA NA NA NA NA AK015_00313 273 hypothetical protein GTGATTCGAAATAATGCTCACAAATATTCGGTATCAGCAATGTGCGACGTCCTCAATATCCCAAAAAGTACGTATTACTATCATGCAGATTTAACAGGGAAACGTGCCAAGAAAGCTGAAGATAAAGAGCTTTCCAAGGAAATTGCCCGTATCTTTAAAGAAGACAGTTCCTTTGGATTTCGCCCCGGAAGAAACTGCCATGATGCGCTGAAGATATTAAACGTGTATCTTGAAAAAACGCTACACGAACTATATCGTGGACGCAGATATTAA MIRNNAHKYSVSAMCDVLNIPKSTYYYHADLTGKRAKKAEDKELSKEIARIFKEDSSFGFRPGRNCHDALKILNVYLEKTLHELYRGRRY NA NA NA NA NA AK015_00314 249 hypothetical protein ATGGATAGACTAAAACGCTCTCTCGTTGGTTACTACAATTATTATTGTATCACAGACAACACAGCTACAGTAGATGTATATCGACATCAAGTTATAAAACTACTGTTTAAGTGGTTAAATCGTAGAAGCCAAAAGAGATCATTTAATTGGGGGAAGTTTGAACTATTCCTAAGGAGATATCCGTTACCTAGAGCGAAAGTGAAAGAGAGTATCTATGACTTAAGAAATGAATTGACCTATATTCTGTAA MDRLKRSLVGYYNYYCITDNTATVDVYRHQVIKLLFKWLNRRSQKRSFNWGKFELFLRRYPLPRAKVKESIYDLRNELTYIL NA NA NA NA NA AK015_00316 696 walR_1 COG0745 Transcriptional regulatory protein WalR ATGTCACAAACAACGATACTAGTTGCAGATGATGAAAAGGAAATAGCTGATTTAATTTCTATTCATTTGAAAAAAGAAGGATATAATGTGATTACTGTCGCAGATGGTGTTGAAGCCATACATATGATACAAAAACAGGTTATTCACTTAGTGATTTTAGATATTATGATGCCGAATATGAATGGATATGAAGTAACGCAAAAGATACGAGAGAGTTACCAAATGCCGATTATTTTTGTCAGCGCAAAAACGTCTGATTTTGATAAAGTGAAGGGGCTTGTTATTGGTGCAGATGATTATATGACAAAACCATTTACACCAATGGAATTAGTTGCTCGAGTAAAGGCGCAATTAAGGCGATATACCGTGTTGAATGGCGCAAAAGAAGAAAGAAACAACGTCTTAGAATACGGTGAGCTATGTATCGATAAAGATAAGCGAATGGTAACTTTGTACGACAAAGAAGTTGACTTAACTCGGAAAGAATTCGATATTTTATTTCTACTGGCTAGCCATCCAAAAAAAGTATTTGATGTGGAAACGATCTTTCAACAAGTGTGGGATGATTTGTACTTTGAAGGCGCAAATACGGTCATGGTACACATACGAACGTTAAGAAAAAAGCTGAAGGAAGACGAGCGTAAGGATAAGCGGATTAAAACCGTCTGGGGAGTGGGGTACAGCTTTCATGGATAA MSQTTILVADDEKEIADLISIHLKKEGYNVITVADGVEAIHMIQKQVIHLVILDIMMPNMNGYEVTQKIRESYQMPIIFVSAKTSDFDKVKGLVIGADDYMTKPFTPMELVARVKAQLRRYTVLNGAKEERNNVLEYGELCIDKDKRMVTLYDKEVDLTRKEFDILFLLASHPKKVFDVETIFQQVWDDLYFEGANTVMVHIRTLRKKLKEDERKDKRIKTVWGVGYSFHG PGPT0028485_190 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 AK015_00317 1035 sasA_1 Adaptive-response sensory-kinase SasA ATGTTGTTTGCAGGTCTAACAACATTGCTTCTCTTTCTAGGAGCGCGTTTTTACTATCACAACTACGTATTTGTAGGCGATCCATTAGCAAGTATTCGTAGTGTAATAAGGACAATAGGTGACTTTAATTTTTTTCTTTTGTTATTTATCCCGCTTTCGATTATGTTTTTCTTTTTGCTAACGAAGCGGTATTCGCTCTATTTTAAAGAAATATCCCATGGGATTCATGAACTTGCGAACGGTAATTTTACTCACCATGTACAAATTAACACGAATGATGAATTTCATCAAATTGCTACAGACATTAATGCTGCAACCAAAAAGTTGCAGGAAGCTGTTGAACGTGGTGATTTTGCTGAAAGTAGTAAGGATCAGTTAATTGTCAATTTAGCCCATGATTTACGCACGCCGTTAACATCTGTACTTGGGTATTTGGATTTGGTGCTCAAGGATGAGCATGTAACAGATGTGCAAAAAAGGCATTATTTGTCCATTGCTTTTAAGAAATCACAGCGTTTGGAAGGGCTAATTAATGAGTTATTCGATATAACGAAGATGAATTATGGCATGCTCCAATTAAATAAAACAAAAATTAATCTTGGTGGACTAATTCAACAGTTGAACGAAGAATTTTATCCAATGTTTGAAAAGAATAACATGCAGACACGATTGGATATGCAACCAGATTTAATGATGACAGCAGATGGTGAGAAACTCGCCAGGGTGTTTGAAAATCTGTTTACAAATGCTATTCGTTATGGCACAGATGGCGAATTTATAGATGTTGTAGCTTTTGAAGAGGAGAGAAACATCGTGGTTCAAGTTACCAATTACGGGGATCGTATTCCAGAAGATGTATTGCCACATCTTTTTGAAATGTTTTTCAAGCAAGATCAATCAAGGTCTTACAAGGCTGGGAGTACAGGGCTAGGATTATTTATTGCGAAAAACATTGTTGAACAACATGGTGGAAGTATTGATGTTGATAGTACCGTCATTCGAACAGTATTTAAAGTTTGCCTTCCGAAACAGTGA MLFAGLTTLLLFLGARFYYHNYVFVGDPLASIRSVIRTIGDFNFFLLLFIPLSIMFFFLLTKRYSLYFKEISHGIHELANGNFTHHVQINTNDEFHQIATDINAATKKLQEAVERGDFAESSKDQLIVNLAHDLRTPLTSVLGYLDLVLKDEHVTDVQKRHYLSIAFKKSQRLEGLINELFDITKMNYGMLQLNKTKINLGGLIQQLNEEFYPMFEKNNMQTRLDMQPDLMMTADGEKLARVFENLFTNAIRYGTDGEFIDVVAFEEERNIVVQVTNYGDRIPEDVLPHLFEMFFKQDQSRSYKAGSTGLGLFIAKNIVEQHGGSIDVDSTVIRTVFKVCLPKQ PGPT0028480_214 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028480-vanSC|vanSE|vanSG-K18350 NA NA AK015_00318 843 vanY D-alanyl-D-alanine carboxypeptidase ATGAAAAAAAGCATAAAGTTGTTATTTGTTATTTCAATAGCTATTATTCTTGCTGTTTTATGGTTTGATAGAAATAATAGTTCAGTTATCTACCATGATCCAGTAGAAGTAGCAGATGAAAACCCGTTAAAAATAGATGTAGCAGATGTTCACCAAGGAGAATTATTATTGGTGAACGAGGAGTATGGGATAAAAGAGAGTGCCAAAACCGATATTAAAAACCTATATAAAAATCAAGAATTAACAGGTGATTATGGTTTACTTACGACAGATATAGCGTTGTCCAAAGAAATTACTGCATATTTTAATGAAATGATAGAAGGCGCAAAAAAAGATGGCGTAAATAATTTTTTAATTAGCAGTGGCTATCGTTCATTTGAAGAACAAACAAAATTGTATCAAGAAAAGGGAAGAGATTATGCGTTGCCAGGGGGTTACAGCGAACATCAACTAGGCTTAGCACTGGATGTAGGTTCATCAGAAGGAACGATGGCAGAAGCGGCAGAAGGAAAATGGATTGCGGAAAATGCATGGCAGTATGGTTTTGTGTTACGCTATCCGCAAGCGAAAACGGACGTTACTGGCATCCAATATGAGCCATGGCATATACGTTATGTCGGAAAACCGCATAGTGTCATTATGCAAGATAAAAACTTTGTTTTAGAGGAATATTTAGCTTACTTAAGAGAAAAGGAACAAATTTCTGCGACAGTGGATGGAAAAGAGTATAATATTCGTTATTATGCAGTTTCCAAAGCGAAAAAGGTAAAGATACCAAAAGGTTATAACTATACGATTTCTGGTGATAACGTAGGCGGTGTTATTATTACGTTGTATAAATAA MKKSIKLLFVISIAIILAVLWFDRNNSSVIYHDPVEVADENPLKIDVADVHQGELLLVNEEYGIKESAKTDIKNLYKNQELTGDYGLLTTDIALSKEITAYFNEMIEGAKKDGVNNFLISSGYRSFEEQTKLYQEKGRDYALPGGYSEHQLGLALDVGSSEGTMAEAAEGKWIAENAWQYGFVLRYPQAKTDVTGIQYEPWHIRYVGKPHSVIMQDKNFVLEEYLAYLREKEQISATVDGKEYNIRYYAVSKAKKVKIPKGYNYTISGDNVGGVIITLYK PGPT0024055_576 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 AK015_00319 3795 yhcR COG0737 Endonuclease YhcR ATGGGGAACCAATTACGAAAGAAATTATGTTACATGGTATTCATTATTGCTTTGATAGTTTCAAATCTAGTTCCAACATCGACTGCGATTGCAGCAGATAAAGGCGATGTGGAAGCAGAAGATTTGTTTATATCCGAGTATGTGGAAGGGCGTTCTTTTAATAAAGCCATTGAAATTTATAATGGTACAGGTACTGATATGAATCTAGCAAACTATCAGTTGCATTTGTACAGTAATGGCAAAACAGAACCTACAAATACGGAAACCTTAAAAGGGACACTTAAAAATGGCGATGTTTTCGTACTCTCCCATAGAGATGCAGATGCTGCCATTCAACAGGTAACGGATCTTACATCAGCAGTGGTTAATTTTAATGGAAACGACGCGATTGCGTTAGAAAAGAATGGCGAAATAATGGATGTTTTTGGTGAAATAGGGAATGAGTCTGATTTTGCTAAAGATAAGACGTTCGTCAGAAATGCTAATGTGTCATCACCAACTGCTTCTTTTGGTATAGACCAATGGACGAATTATGGGAAAGATATATTTACTTATTTAGGAAGCCATACGATGGACGGGGATGGAGGACAAGATCCGAGTGAACCAACTGACCCAGATCCTGATCCGGAGCCAGAAACGAGCACGATTGCGGAAGCGAGACAGTTAGCGAATGGTTCCGAAGTTGTTGTGGAAGGGATTGTGACAGCTAATTCCGAAGCATTGAGCAATGGCAACCAGTTTAGTACATACATGCAGGATGAAACCGCTGGGGTTAATTTGTTTAACTTTGAACAAGGAGACTTACCTGAGGTTCAAAAAGGAGATCGTGTGAAGGCAATAGGAACAACAGCATCCTATAAGGGGCTAAAAGAAGTTGTTCCAGCTTCGATTGAAGTACTTGAACAGGGTCAAACTTTGCCAGCCGTTCAACAAATCACATTAGAAGATTTACAAAATAAAGAGGTAGCCGAGTCTTATGAAGGCGAGCTCGTACGTGTCAATGGATATATTCCTTCCATTCCTAGCTCTCCAGCGGGTGGCGGCTATAATGTGTCATTTATTGATCAAGACTATAATGCTATGTTATTACGAATCATGGAAAATGCGGTAGATATTCGTCAAGTTGCTGAGAAACAGTGGTATGATGTTACGGGAATTGTTAGTCAATACAACGATTATCAGATTCTTCCAACGAAGCAAGCTGATGTACAAGTAGCGCAGCAACAGCCCGAGCCACCTTCAGCAGCTGGAGAATATGAAACAACGGTGGAAAAAATTACGGATGGCGATACGATCCGCATTGCTGATCCTGTCTTCGGTAGTGACCGTGTTCGGTTTGTTAATATGGATACGCCAGAGACCTATGCAGCAAAAAATAAAGCTCCAGAACGTCAGGAAATAAACGAAAATCAAAAGTATCATGGTGACGAAGCGACGAAGCATATTCAAACCTATATTCAACCTGGGGATAAAATCACCGTCAAAGTCGGAGAACAACCGACAGATGATTACGGTCGTCTCCTTGCAGAGGTCATTACTGCTGATGGGGAAAATGTAAATTTGGAAATGGTTCGTGATGGCTATGCTGTCTCTTACTTTATTGCACCAATTGATGAAAAAGCATATCCAAAATATCAACAAGCGGTGAAAGAAGCAAAAGATCAAAGATTAGGTATTTGGGATGAAACGAATCCATTATTGGAATTACCGTTTGCTTTCCGCGCAAATGATGATCAAAAAGGCTTTTTACGTTATGTCGGTAATTCAGCTACAAAAGAATATGTAGAGCCAAATGATTGGGCAGACGTGCCGGTAGAAAAGCGCGTATTTTTCTCAAGTGCAGAAGAAGCAGAATCCTATGGGTATCAATCTGTTACAGTAAATCCATCCGAAGATAATCTGCTTGTACAATTTTTAAGCATGAATGATTTACATGGGAAAATTGATCAGCAATACAATTTAGATCCTGATGGGGACGGTGTTTTTGATACGTATGGGCGCATGGATTTTGTGGCATCAGCTTTAAAGGAAAGAGAGCAGGATAATCCGAATACGTTCATGGTACATGCTGGTGACATGATTGGTGGAAGTTCACCTGTTTCAGGACTACTACAAGATGAGCCAACGGTGGAAATTTTAGAAGAAATTGGCTTTGATGTCGGTACAGTTGGAAATCATGAGTTTGACGAAGGTACGAAAGAATTTATGCGCATGGTAAATGGTGGAGAACACCCAGAAGGGAAAGGTACAGAAGGCTATGATGGAATGAATTTCCCGCAGCTTTGTGCAAATTGTGTGGATAAGGAGAGTGGCGAGACGATTTTACCACCATTTCATATGGAAGAAGTGGATGGTGAAAAAATCGGTTTTATCGGTGTGAACACACAAGCATCAGCTAGTATGGTCATGCCTGATGGAATTGCTGATATCCAATTTACGGATGAAGTGGCGGCTGTCAATGAAGCAGTAGCTGCATTACAGCAGCAAGGTGTCGAAGCAATTGCCGTATTAGCACATATTCCAGCTGATCAAGCAGGCGATGGGGCAACTGGAGAAGCTGCTGATCTAGCGAGAGAAATAAATGATGCCGTGGATATTATCTTTGCTGCGCATAATCACCAAGTCGTAGATGGTGTCGTGGATAATAAGCTTATTGTTCAAGCTTCCGAATATGGAAAAGCTTTTGCTGATGTAGATGTGGAAATTGATCGCACGACTGGTGATATTGTGAAAAAAGATGCGGAAGTTGTATTTGTAAAGCAAAGCGATTACGAAGCGGATCCGAATGTCAGTAAAATTTTAACAAAATATGAAAATCAAATTGCGCCGATGATGAATGAAGTGATTGGCTATAATGCAACAGATTTAACGGGTGATTACAGTAATGATGGTGATCACGGGTTGGGGAATCTGCTCGCAGATGGAATGAAGTCGGTTATGAATAGTGATTTTGCAATGATGAATGGTGGCGGCATTCGCGACGATTTATTAGCTGGAAAAGTAACGTGGGGAGACTTGTACAATATTCAGCCATTCGGTAATACACTAATGAAATTTGAAATTAAAGGAAAAGACTTAGTGCCAATTATTAATGCGCAACTGTCGAAAGAATACGGACCGGATTATAGCATTAGCGGTTTTCATTATACGTGGGACCCCGAGGCAAGCAAAGTAGTAAATGTTACGTATCCAGATGGAACGCCAATTGAGGAAGACAAAACGTTTACTTTAACGGTGAATAATTTTATGGGAACTTCAAAAGGGTCGAAATATCGTCCGATTAGTGACCTTGGTAAAAACCCTGTCATGGGTCCGACGGATCTTGATGCAACAGTTGAATTTGTTAAAAGTTTAAACTCCACAGAGGATGACCCGTTTTTATATGCAGCGGAAGGAAGAATTTCCGTTGCAAAAGATGAAGAAGAACCGACAAAAAATCCAGGAACAGACAATGGCGATAACGGTGGTGGAACAAATGTTGATGTTGGAAATGACGGTAACAACGCCAATAAGCAAGAGAAGCATGATGGTGAGAAGACGCTAGGGAAAGATAACCATGATGATAATGGAGATAATGACGGCAACAGCTCGATGAGTGACAACGGTAATGGCACGTTGACAGGAGGTACGAAACATACTGCATTAGGAACAGCAGGAAGTCAACATGATTATGGAAGTAAGTTGCCAAACACAGCAACCAACCTTTATAATCTGTTATTCATCGGACTAGCACTTTTGGGTGGCGGTGTAGCGTTGTATCTAAGAAAACGATATATAGCAAACAAAGCAAGTTGA MGNQLRKKLCYMVFIIALIVSNLVPTSTAIAADKGDVEAEDLFISEYVEGRSFNKAIEIYNGTGTDMNLANYQLHLYSNGKTEPTNTETLKGTLKNGDVFVLSHRDADAAIQQVTDLTSAVVNFNGNDAIALEKNGEIMDVFGEIGNESDFAKDKTFVRNANVSSPTASFGIDQWTNYGKDIFTYLGSHTMDGDGGQDPSEPTDPDPDPEPETSTIAEARQLANGSEVVVEGIVTANSEALSNGNQFSTYMQDETAGVNLFNFEQGDLPEVQKGDRVKAIGTTASYKGLKEVVPASIEVLEQGQTLPAVQQITLEDLQNKEVAESYEGELVRVNGYIPSIPSSPAGGGYNVSFIDQDYNAMLLRIMENAVDIRQVAEKQWYDVTGIVSQYNDYQILPTKQADVQVAQQQPEPPSAAGEYETTVEKITDGDTIRIADPVFGSDRVRFVNMDTPETYAAKNKAPERQEINENQKYHGDEATKHIQTYIQPGDKITVKVGEQPTDDYGRLLAEVITADGENVNLEMVRDGYAVSYFIAPIDEKAYPKYQQAVKEAKDQRLGIWDETNPLLELPFAFRANDDQKGFLRYVGNSATKEYVEPNDWADVPVEKRVFFSSAEEAESYGYQSVTVNPSEDNLLVQFLSMNDLHGKIDQQYNLDPDGDGVFDTYGRMDFVASALKEREQDNPNTFMVHAGDMIGGSSPVSGLLQDEPTVEILEEIGFDVGTVGNHEFDEGTKEFMRMVNGGEHPEGKGTEGYDGMNFPQLCANCVDKESGETILPPFHMEEVDGEKIGFIGVNTQASASMVMPDGIADIQFTDEVAAVNEAVAALQQQGVEAIAVLAHIPADQAGDGATGEAADLAREINDAVDIIFAAHNHQVVDGVVDNKLIVQASEYGKAFADVDVEIDRTTGDIVKKDAEVVFVKQSDYEADPNVSKILTKYENQIAPMMNEVIGYNATDLTGDYSNDGDHGLGNLLADGMKSVMNSDFAMMNGGGIRDDLLAGKVTWGDLYNIQPFGNTLMKFEIKGKDLVPIINAQLSKEYGPDYSISGFHYTWDPEASKVVNVTYPDGTPIEEDKTFTLTVNNFMGTSKGSKYRPISDLGKNPVMGPTDLDATVEFVKSLNSTEDDPFLYAAEGRISVAKDEEEPTKNPGTDNGDNGGGTNVDVGNDGNNANKQEKHDGEKTLGKDNHDDNGDNDGNSSMSDNGNGTLTGGTKHTALGTAGSQHDYGSKLPNTATNLYNLLFIGLALLGGGVALYLRKRYIANKAS PGPT0013420_139 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013420-yfkN-K08693 NA NA AK015_00320 399 hypothetical protein ATGAGTATAAATTATTTAACCGTAAAAGAAGTTACAATCATACACTTCCTTATCATGAGAAAGTACGGAGATGGGGAACAAGCAGGAATTAAAGAGCAAGGATATTTAGAATCGGCAGTATATCGCCCACAGCAAACCTTATTTAAAGAAGATGCCTATCCAACTTTATTTGAAAAAGCTGCGGCATTTTTTGAATCATTAGCGCGTAATCATACATTTTTTAACGGAAATAAGCGTACAGCATTTGCTTCGTTAGATGTGTTTTTGAAAAAGAATCATAAAAAAATTATTTCAGATACAAATGAGAATGAGGTTTTCACTGTGCTTGTAGCAGAAGGAAAATTTAAATTTGAAGACATCGTTCATTGGTTAGAAACTCATACCATCCCTTTAAAATAA MSINYLTVKEVTIIHFLIMRKYGDGEQAGIKEQGYLESAVYRPQQTLFKEDAYPTLFEKAAAFFESLARNHTFFNGNKRTAFASLDVFLKKNHKKIISDTNENEVFTVLVAEGKFKFEDIVHWLETHTIPLK PGPT0027560_469 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-Doc-Phd_TOXIN-ANTITOXIN_SYSTEM,PGPT0027560-toxin_doc-K07341 NA NA AK015_00321 240 hypothetical protein ATGGAAAAAGAAACTCGGAAAGTGAGCAAGTTGGGAAATAGTTTAGGAGTTGGAATTCCAAAATCAATGGTTGATGCGTTAAATATTCGTCGTGGTGATGAACTAGAATTTGAAGTGAAAGAAAACGCTCTTGTGATTAAACGAAAAGAGAAGTTAGAAGATCAATTAGAACCAGAATTCCTTCGTATGATACAAGAAACTATGGAAGAACATGATGAATTGTTTAAGAGGCTAAAATAG MEKETRKVSKLGNSLGVGIPKSMVDALNIRRGDELEFEVKENALVIKRKEKLEDQLEPEFLRMIQETMEEHDELFKRLK PGPT0027395_613 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027395-antitoxin_mazE|chpAI-K07172 NA NA AK015_00322 1107 nadA COG0379 Quinolinate synthase A ATGGATCTACTTCAAGAACTGATTTCATCGACCAACTCTATTCCAGAAGAATATTTGCATGTATCACAACAAGAAATGGAGGAACGGGTGAAGCAAATAAAGAATGATTTAGGAGAAGCCTTATTCATCCCCGGTCATCATTATCAAAAAGACGAGGTTATCCAATTCGCCGATGCTGTTGGAGATTCCCTTCAACTTGCCCAAGTCGCGGCACAAAATAAATCTGCCTCTTATATTGTATTTTGTGGGGTGCATTTTATGGCAGAGACGGCTGATATGTTAACCACTGATGAACAGATCGTGCTCTTACCAGATAGAAGAGCAGGCTGTTCTTTAGCAGATATGGCTGATATTTACCAAACGGAACGTGCTTGGGAGAAACTAATGCAACAATTTGGCGAATCCATCCTCCCGTTAACCTATGTCAATTCAACAGCAGCAATTAAAGCATTTGTCGGTCAACATGGAGGAGCTACGGTTACATCTTCCAATGCCCATCAAATGGTGAACTGGGCATTTACGAAAAAAGAACGGATTTTATTTTTGCCTGACCAACATTTAGGTAGAAATACGGCTTCTGATCTCGGGATTGCTGAAACAGAAATGGCAGTTTGGGATCCAATCCAAGAGGAACTTCTTTTTTCTGGCAATGTAAAAGATGTTAAAGTAATTTTATGGAAGGGACATTGCTCTGTACACGAAAATTTCACCTTAACCAATGTAGAATATATAAGAAAAGAGCATCCCGGCATGCATATCATCGTTCACCCCGAATGCAAAAAGGAAGTGGTTGATGCCGCCAATTATAATGGTAGCACGAAATATATTATTGAAACGATTAAACAGGCAAAAGCAGGATCTGCCTGGGCAATTGGAACAGAGATGAATCTTGTCCAACGAATCATTCACAACCATCCAGATAAACATATCATTTCACTAAATCCGTATATGTGTCCATGCTTGACTATGAATCGAATTGATTTACCACACCTCCTTTGGTCTTTAGAAAGTATAAAGAAAGGAAAGCCTGTCAATCAAATTACAGTCGATAAACAGACAGCTTGCCAAGCTCGTTTAGCACTTGACCGTATGTTGGAAAGGGGATAA MDLLQELISSTNSIPEEYLHVSQQEMEERVKQIKNDLGEALFIPGHHYQKDEVIQFADAVGDSLQLAQVAAQNKSASYIVFCGVHFMAETADMLTTDEQIVLLPDRRAGCSLADMADIYQTERAWEKLMQQFGESILPLTYVNSTAAIKAFVGQHGGATVTSSNAHQMVNWAFTKKERILFLPDQHLGRNTASDLGIAETEMAVWDPIQEELLFSGNVKDVKVILWKGHCSVHENFTLTNVEYIRKEHPGMHIIVHPECKKEVVDAANYNGSTKYIIETIKQAKAGSAWAIGTEMNLVQRIIHNHPDKHIISLNPYMCPCLTMNRIDLPHLLWSLESIKKGKPVNQITVDKQTACQARLALDRMLERG PGPT0013365_965 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517 NA NA AK015_00323 837 nadC COG0157 putative nicotinate-nucleotide pyrophosphorylase [carboxylating] ATGATACCCCTTATACAATTAAAAACCATACTTAAGCCATTTTTTTTAGAAGATATTGGACATGGTGATATAACAAGTCAACATTTGTTCGATTATCATACGCAGGGGACACTTACATTGCTTGCTAAAGATGATGGCATTTTTTGTGGGGCAGAAATAATCGAAGTCGGCTTTCCAATGGTGCATCCGCTTATGCAAATAAATCGCAAGAAAAATAACGGTGACCAACTAGTGGCTGGTGATGTGATTGCAACTGCAACAGGACCCATGATCCATCTATTACAAGCAGAAAGGGTTATACTGAACCTCATTCAGCGAATGAGCGGTATTGCTACACGCACATACAAAGCAGTAGAAATGGTCAAAAACACAGATGTGAAAATTTGCGATACAAGAAAAACCACACCTGGATTACGTATGTTAGAAAAACAAGCGGTGCGCTCTGGTGGTGGATATAATCATCGGTACGGTTTATATGACGCCGTGATGATTAAAGATAATCATATTGCCTTTTCGGGCTCTATAACCAATGCCGTACAACAAATAAAGTCCAAGCTCGGTCACACCGTCAAAATTGAAGTTGAAATTGAAACAAAGGATCAATTGCTAGAGGCAATCTCTAATAAAGTGGATATCATTATGTTTGATAATTGCTCTCCAGAAACTATTAAACGTTGGATACACCATGTTCCAAAAACAATCATTACAGAGGCATCTGGTAGGATTTCGTTTGACCAATTACCTACATACGCGAATAGCGGTGTAAATTATATTTCATTAGGTAGCTTAACCCATTCAGCACCTTCACTGGATATTAGTGCGTCTGTATATCGTTAA MIPLIQLKTILKPFFLEDIGHGDITSQHLFDYHTQGTLTLLAKDDGIFCGAEIIEVGFPMVHPLMQINRKKNNGDQLVAGDVIATATGPMIHLLQAERVILNLIQRMSGIATRTYKAVEMVKNTDVKICDTRKTTPGLRMLEKQAVRSGGGYNHRYGLYDAVMIKDNHIAFSGSITNAVQQIKSKLGHTVKIEVEIETKDQLLEAISNKVDIIMFDNCSPETIKRWIHHVPKTIITEASGRISFDQLPTYANSGVNYISLGSLTHSAPSLDISASVYR PGPT0013370_4447 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767 NA NA AK015_00324 1584 nadB COG0029 L-aspartate oxidase GTGAAAAAGACAGACATCATTATTATTGGTAGCGGGATTGCAGCATTACAACTTGCCAACCAACTTCAAGAGCAATTAAATGTGACAATAATCACAAAGAAAGCTATAACAAATAGTAATTCCTATCGTGCACAAGGAGGTATTGCTGCTGCTATTTCCACAGACGATGACGCCTACGACCATTATCAAGACACGATCATTGCCGGTGATCAGCATGGGAATGCCACAGCGATTTATGATCTAGTTACAGAGGGCAAGCAATTCATGCATGACTGGGTTAAACTTGTCCCATTTGATACACATGCAAATGGAAAAATTTCTTTAGGCTTAGAAGGTGCCCATAGTAAAGCTAGAATTGCTCATTGTGGCGGGGACCAAACGGGTAAATATGTCATCCATTTTTTGCTTGACTCATTGCGTTCCTCTACACGTGTTCACTGGATAGAAAACGAGATAGTCATCGATCTATTACAAAATAAATCAGGTCGATGTATTGGCGTTACAACAAAAGACAAAAATGAAGTCTCTCATATGTATATGGCTAACCATGTCGTGTTAGCAACAGGCGGTGCTGGTGAACTGTATACAAATACATCTAATGCTTCCTCTGTTACAGGCGATGGAATAGCGCTTGCTTACCGAGCAGGGGCAAAAATTTGTGATATGGAATTTTTTCAATTTCACCCAACACTGCTCTATATAAATGGGAAAAGTGTTGGACTTATTTCTGAAGCTGTTCGTGGCGCAGGTGCTAGATTAATCAATGATTTAGGCGAGAAAATTATGAAAGAGGTTCATCCACAAAGAGACTTAGCACCAAGGCATATCGTTGCCCATCAATTATTTCAACAAGTAAATAGGGGCAGAAAAATATATATAGATATACGACAGGTAAGAGATTTCTCTACAAAATTCCCTGCCATAACAAAGATGTTGCAACAGCACGGAATATCTATGAAAACAGGTAAGATTCCTGTTGCCCCAGGCGCACATTTTATGATTGGAGGTGTCCTGATTAACGCATGGGGAGCTACCTCCGTAAAAGGTTTGTACGCCATTGGGGAAGTAGCTGCTAGTGGCGTCCATGGTGCCAATCGGCTTGCTAGCAATTCTTTATTAGAAGGACTTGTTTATGGAAAGCGCCTTGCATCCTATATACAACAGTTGGACAGTTCGCAGACGATGGATTTTATACCAAAGAAACAACATCGAGCTCAACTAACTGGCATTCCTTTTTCCAAAAAACAAATTCAACAATCCATGATGCAAGCTGTTGGAATTATTCGTGATCATGATTGTTTATCCAAACAATTAAGCTGGCTAAATAAGCATCCCAATGACCCTTTTAGACAGATAGAACAATGTAGTCTTTCCACCATTCAAAATTATTTTATGTGGATTGTCGCACGTCTTATCACAGAGGCTGCATTACTTCGGACAGAAACAAGAGGCTGTCATATTCGCGCTGATTTCCCGAATAAAGATAACGAACATTGGCTACAAAAACGAATCATTCATTACCAAAGTAATGACAGAATGGAGGTCACTTATGATACCCCTTATACAATTAAAAACCATACTTAA MKKTDIIIIGSGIAALQLANQLQEQLNVTIITKKAITNSNSYRAQGGIAAAISTDDDAYDHYQDTIIAGDQHGNATAIYDLVTEGKQFMHDWVKLVPFDTHANGKISLGLEGAHSKARIAHCGGDQTGKYVIHFLLDSLRSSTRVHWIENEIVIDLLQNKSGRCIGVTTKDKNEVSHMYMANHVVLATGGAGELYTNTSNASSVTGDGIALAYRAGAKICDMEFFQFHPTLLYINGKSVGLISEAVRGAGARLINDLGEKIMKEVHPQRDLAPRHIVAHQLFQQVNRGRKIYIDIRQVRDFSTKFPAITKMLQQHGISMKTGKIPVAPGAHFMIGGVLINAWGATSVKGLYAIGEVAASGVHGANRLASNSLLEGLVYGKRLASYIQQLDSSQTMDFIPKKQHRAQLTGIPFSKKQIQQSMMQAVGIIRDHDCLSKQLSWLNKHPNDPFRQIEQCSLSTIQNYFMWIVARLITEAALLRTETRGCHIRADFPNKDNEHWLQKRIIHYQSNDRMEVTYDTPYTIKNHT PGPT0013355_2317 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278 NA NA AK015_00325 1113 nifS COG1104 Putative cysteine desulfurase NifS ATGCTATACTTTGATTACGCTGCAACAACGCCCATGGATGAGGAAGCGTTAGCTATTTATCAGCAGGTAGCTGCAAACTTTTGGGGAAACACAAGTAGCATACACCATATTGGGGGAGAAGCAAAAGAAATACTAGAAAACAGCCGGGAAAAGTTAGCGAGGTTATTACATGTTCCGGCAAGAGGGCTTTATTTTACATCAGGTGGTACAGAATCCAATCAGTTAGCAATTGTGTCCCTTGCCTTAAGTCAGTCGAACAAAGGAAAGCACATTATCACATCGCAAGCAGAACATGCTTCTGTTTTTTCAGCATTAGCTTATTTGGAAAATAAGGGATTTGAAATAACGAAGATTCCGTATACAAAAGGAGGACAAGTAGATGTACATCAACTAGAAAAAGCAATTCGTTCGGATACAATAATGGTAACCATTAGTTATGTCAATGCAGAGATTGGCGCTATTCAACCACTTCAAAAAATTCAACAGCTACTACCTCCGAATATCATTTTTCATACCGATGCTGTCCAAGCCTTTGGTAAAGTTGATTTTTCCAAGCTGCATCAGGTTGTTGACAGTTTTTCCATTTCTTCGCATAAATTGTATGGTCCAAAAGGTGTAGGGGCAGTTTACATACAACCGAGGTTGGCTATTAAAGGGATTTTTCCTTTACAAACCCATGAGCATGGTGTTCGTGGTGGAACCGTCAACACCCCAGGTATTGCAGCTTTTGTTGCTGCAGCGGTAAAGTATACGAGAGCAGAAGTAGATCATGCAGATGCCTTACGTCGACTGTTTTTAATAAAGTTAAAGCGTGAGTTGAAGGATTGCTATCAAGTGATTGAATCGTCTGTATCGCAACTTCCTCATATTGTTGGTTTGGCAATGCATCATTATGAAGGACAATTCATTATGTTACAATGTAATCGCAAAGGTGTTTGTATATCAACTGGCTCCGCATGTGGTCAAGCGTTATCGACAGCTGGAAAAACAATGCTAGCAATGGGATACACACAGGAAAGGCAGAAGGAATTTATCCGTATTTCTTTTGGGAAAGATACGAAAGAAAAAGACGTTATGCAATTGGTAAAAATATTAAAGGAAATTGTAACTTGA MLYFDYAATTPMDEEALAIYQQVAANFWGNTSSIHHIGGEAKEILENSREKLARLLHVPARGLYFTSGGTESNQLAIVSLALSQSNKGKHIITSQAEHASVFSALAYLENKGFEITKIPYTKGGQVDVHQLEKAIRSDTIMVTISYVNAEIGAIQPLQKIQQLLPPNIIFHTDAVQAFGKVDFSKLHQVVDSFSISSHKLYGPKGVGAVYIQPRLAIKGIFPLQTHEHGVRGGTVNTPGIAAFVAAAVKYTRAEVDHADALRRLFLIKLKRELKDCYQVIESSVSQLPHIVGLAMHHYEGQFIMLQCNRKGVCISTGSACGQALSTAGKTMLAMGYTQERQKEFIRISFGKDTKEKDVMQLVKILKEIVT PGPT0000065_7719 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 AK015_00326 552 nadR COG1827 Transcription repressor NadR TTGCAAAAACAGAAAAAAGTACTTGGTGAAGAACGCAGGCAGTTCATTTTAAGCGTATTAAAGGATGCGAGCAAACCGATTACTGGTAGTGAATTAGCTAAAAGAACAAATGTCAGCCGGCAAGTTATTGTTAACGATGTGACTTTGTTAAAAGCGAGAAGCGAACCAATTATTGCAACAAGTCAAGGGTATATGTATTTACAAGCGTCAGCTACTGAGAGTGTAGAAAAGATCATCGCTTGCCAGCATACGCCTGATGAGGCAGAGGCAGAATTAAATATTATTGTTGACCATGGTGTGACAGTAAAGGATGTAACGATTGAACATCTCGTATATGGCGATCTAACAGCTTCGATTATGGTATCCAATCGCAAGGATGTAGAGCAATTTATTAAAAAAATTACTTCTACTGGTGCAGCTTATCTGTCTGAGCTTACAGAAGGGGTACATCTGCATACATTAGTTGCTGCTAAAGAAGAACAAATTAACGAAGCAGAAATAGCTTTAAAACAAGCAGGATTCTTGTTGGATCATTGCGATATAAGAGGGTGA MQKQKKVLGEERRQFILSVLKDASKPITGSELAKRTNVSRQVIVNDVTLLKARSEPIIATSQGYMYLQASATESVEKIIACQHTPDEAEAELNIIVDHGVTVKDVTIEHLVYGDLTASIMVSNRKDVEQFIKKITSTGAAYLSELTEGVHLHTLVAAKEEQINEAEIALKQAGFLLDHCDIRG NA NA NA NA NA AK015_00327 732 hypothetical protein ATGGAATATGCATTAGAACTATTAAAGATTTTAGGACGAGTTGCGACCATTTTGCCACTAGCACTATTTGCAACACTTTTTATGGGAAAACGCTCCATAGGAGAATTGCCGGTGTTTGATTTCTTAGTTATTTTAACTTTGGGTTCTGTAGTTGGTGCTGATATTGCAGACCCAGAGATAAATCATATTTATACAGCTATTGCAATTGTAGCAATTGCTTTACTTCAAAAAATAGTGGCAACGTGGAAAATCAACAATCGTAAAATAGGCCGCTTGTTAACATTTGAACCTACAATGGTCATTTATCAAGGACAATTTTTAGTGAAGGAAATGAAAAAAATACAGTATCCCATTGATACTATTTTACAAATGTTACGAGCACAACAAATTTTTAATGTAAAGGATGTTGAAATAGCTATCGTTGAAGCAAATGGTTATTTATCTATTAAATTATATCCTGAAAAGGAAGCTGCACGTGTCGAACATATTCTAACGCAACAAAGAAGTTCCGCTAAGGGGATTGATGTACCAGTTGTTATTGATGGAACAATCTACAAACACGTTCTTTCTTCGAGAAATTTAAATACAACTTGGCTTTATCAAGAATTGGAAAGAAAAAATATTTTTGATGTAAATGATGTCTTTTATGCAGCTGTTAACGATCTGAATGAACTCCATGTTAGCATAAAAAACACAAATAATTCAGAAAACCTTCCACCTATTCTACATTAG MEYALELLKILGRVATILPLALFATLFMGKRSIGELPVFDFLVILTLGSVVGADIADPEINHIYTAIAIVAIALLQKIVATWKINNRKIGRLLTFEPTMVIYQGQFLVKEMKKIQYPIDTILQMLRAQQIFNVKDVEIAIVEANGYLSIKLYPEKEAARVEHILTQQRSSAKGIDVPVVIDGTIYKHVLSSRNLNTTWLYQELERKNIFDVNDVFYAAVNDLNELHVSIKNTNNSENLPPILH NA NA NA NA NA AK015_00328 399 Tn3 family transposase ISAau4 TTGTCAAAAGGGCTTATTCACCATATAGAGTTATATGTCTCTAATTTAAAAACATCCACTAAGTTTTGGGGGTGGTATCTGGAGGAATTAGGATACCGTTCTTTTCAAAAGTGGGAAAGTGGACAAAGCTGGAAAAAAGGTGATACATACATCGTTTTTGTACAAGCAGAAGAACGATGTCTGGATGTGACTTATCATAGATGTCGAGTTGGTTTAAATCATCTTGCATTTTATGCTGATTCACGTCAACACGTAGATGATATGACGGAGAAATTAAAAAATAAAGGAATTGCTATACTGTATAAAAAGCAGCATCCATTTGCTGGTGGAGATGACCACTATGCTGTATACTTTGAGGACCCAGATCGAATAAAAGTGGAGCTAGTAGCCCCTGAATAG MSKGLIHHIELYVSNLKTSTKFWGWYLEELGYRSFQKWESGQSWKKGDTYIVFVQAEERCLDVTYHRCRVGLNHLAFYADSRQHVDDMTEKLKNKGIAILYKKQHPFAGGDDHYAVYFEDPDRIKVELVAPE NA NA NA NA NA AK015_00330 1494 dtpT COG3104 Di-/tripeptide transporter ATGTCAGCACATAGTAAAGAAGAAATTGTAAATAGTGTCCCCCAGACGGGGTTTTTTGGTCATCCAAAAGGTTTGTTTACACTTTTCTTCACCGAATTTTGGGAACGTTTTTCCTATTATGGAATGCGCGCGCTGTTACTTTATTACATGTATACCGAGATTGCAAGTGGTGGATTAGGTATCGCTGATGATACTGCTAAATCCATTATGGCAATTTACGGATCACTTGTGTATATGTCAGGAATTATCGGAGGATGGATTGCTGATAGGCTACTAGGAACACAGCAAACGGTGTTTTATGGTGGCGTATTAATTATGGTTGGTCACATTGTATTAGCGTTACCTGCTGGGGTAACAGGATTATTTTTATCTATGTTTTTAATTATTATGGGTACAGGCTTGTTGAAGCCGAACGTCTCTAGTGTAGTTGGTGATCTTTACCGCTTATCGGATGTAAGACGCGACTCAGCATTTAGTATTTTTTATATGGGTATAAATATGGGGGCGTTAATTGCACCTTTAATTGTTGGTACATTAGGCCAAGAATACAATTTTCATTTAGGCTTCGGTGTAGCAGCAATAGGTATGTTATTAGGTCTCATTGTTTTTGTAATTACAAAAAAGAAATACCTCGGTTTAGCTGGAACGTATGTACCTAATCCACTCGCTAAAGATGAAAAGAAAAAAGTGTTTGGACAAATGACTATTGGAATTATATTTATTATTATATTAGGTTTGGTTACTATATCGACAGGCATATTAACAATTAACCGATTTACTTACCTTGTAAGCATACTCGGAATTCTTATTCCTACCATATACTTTATTGTCATGTATCGTAGCCCTAAAACAAATGAAGATGAAAAATCACGTCTGCTTGCTTATATTCCTTTATTCATTGCCGCGATCATGTTTTGGGCAATACAGGAGCAAGGATCTATCATTCTAGCAGAATATGCAGACAAACGGACACAATTGGAATTTCTAGGTATAGAGCTACACTCATCGTGGTTTCAATCGTTAAACCCATTATTTATTGTTGTTTTGGCGCCTGTATTTGCGGGATTATGGATTAAGATGGGCGAACGACAGCCATCCACTTCTAAAAAGTTTTCTCTCGGTCTGTTTTTTGCTGGGCTATCTTTCTTAGTCATGATTATTCCAGCAGCTATTAATGGAACGGAAACGTTAGTGAATCCCATCTGGCTAGTGCTTAGCTTTTTACTCGTTGTTATTGGTGAACTATGTTTATCGCCTGTCGGTTTATCGGCAACTACCAAGCTTGCACCAGTTGCATTTTCAGCCCAAACAATGAGTTTGTGGTTTTTATCAAACGCTTCTGCTCAAGCAATTAATGCGCAAATTGTGAAACTTTATCAGCCAGCTACAGAAATTATTTATTTTGGTGTTATTGGCGGGGCTGCAATTTTGTTAGGAGTAATTTTACTTTTAATGTCACCAAAAATTCAACAGTTTATGAGAGGGATTCGTTAA MSAHSKEEIVNSVPQTGFFGHPKGLFTLFFTEFWERFSYYGMRALLLYYMYTEIASGGLGIADDTAKSIMAIYGSLVYMSGIIGGWIADRLLGTQQTVFYGGVLIMVGHIVLALPAGVTGLFLSMFLIIMGTGLLKPNVSSVVGDLYRLSDVRRDSAFSIFYMGINMGALIAPLIVGTLGQEYNFHLGFGVAAIGMLLGLIVFVITKKKYLGLAGTYVPNPLAKDEKKKVFGQMTIGIIFIIILGLVTISTGILTINRFTYLVSILGILIPTIYFIVMYRSPKTNEDEKSRLLAYIPLFIAAIMFWAIQEQGSIILAEYADKRTQLEFLGIELHSSWFQSLNPLFIVVLAPVFAGLWIKMGERQPSTSKKFSLGLFFAGLSFLVMIIPAAINGTETLVNPIWLVLSFLLVVIGELCLSPVGLSATTKLAPVAFSAQTMSLWFLSNASAQAINAQIVKLYQPATEIIYFGVIGGAAILLGVILLLMSPKIQQFMRGIR PGPT0021010_2439 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 AK015_00331 504 ftnA Bacterial non-heme ferritin ATGGTAAAAGAAGAAGTTCAGCAACTATTGAATCAACTCATTCAGATTGAGCATATATCAACAACTTTGTATTTAGCTATGTCAGCCTATTTAGATCGTAAAAATTACACTGGTATGGCAAGGTGGTTACGGTTGCAATCGGAAGAAGAGAGAACGCATATGCTAACTTTAATTGATTATTTAACTGGAAAAGACGGCATTGTTAAGCTAAGTGATGTTCCTCAACAACCAAGTGATTTCGGAACGCCACTTGAAACTTTTGAAAGCGTTCTTGAACATGAGCAATATGTAACAAACGCTTATCGACAGGCTTATGATTATATAACACAAGTGGATCCACAAACAACTGTTATCGTTCTAGAGTTTTTAAGGGAACAAATTGATGAAGAAGCGCAAGCATTAACGATTGTCGAACGATTGAAATTGGCAAACAATAATCCATCAGCATTATTACTTATGGATCAAGAATTAGGTCAAAGACAAAATGCAGGAGGTACTGCATAA MVKEEVQQLLNQLIQIEHISTTLYLAMSAYLDRKNYTGMARWLRLQSEEERTHMLTLIDYLTGKDGIVKLSDVPQQPSDFGTPLETFESVLEHEQYVTNAYRQAYDYITQVDPQTTVIVLEFLREQIDEEAQALTIVERLKLANNNPSALLLMDQELGQRQNAGGTA PGPT0003970_1019 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003970-ftnA|ftn-K02217 NA NA AK015_00332 306 hypothetical protein ATGAAATCCGAACATATCTTATCTTCACTTTGTTATTTTAGCGTATTTTTTGCTCCGTTTATTTTTCCCATTGTTGTTTATTTCTTATCAGATAAAGGTATTAAAAACCATGCTAAAAGTGCTTTATTTATACATTTAATTCCTGCGATAACGGTTATTGGAGCATTCATTGCTCTTTTGATAAGTAACTTAAATGAAAATGTGACAACCTTAGCGATAGCAACAGTAGTGGTTATAAATGCATATTATTTTATTCTCAATTTAGTTAAAGGGGTTAAAGTTTTGCAAGGAAGTTCTACAGTTTAG MKSEHILSSLCYFSVFFAPFIFPIVVYFLSDKGIKNHAKSALFIHLIPAITVIGAFIALLISNLNENVTTLAIATVVVINAYYFILNLVKGVKVLQGSSTV NA NA NA NA NA AK015_00333 1419 stp_1 Multidrug resistance protein Stp ATGAATGAACAATTGAATCATAATCAAAGCGCGCAAAAACACGGAAAAAATGTTTTGTTAATCCTGACTTTAGCATTCTCTGTGTTATTATCTGGAGTTACTGTCGATATGGTTATGCCTGTATTAGGTTTGATTGGCAATGACTTAGGGGCATCTGAAGCTCAAACGAGTTGGATAGTTGGTGGTGTTGCACTTGTTTTGGCAATAGCCATTCCTTTTTATGGACGTATTGCCGATTTTGTAGAGGCAAGAAAGTTGTTTACTATTGGTGTTTTAATTTTAACATTAGGTAATCTTATTGCTGCTCTTGCGACGGAGCTAAACATGTTAGTAATTGGAAGAATGATTCAAGGTGCTGGAATGGCTTCTGTGTCCGTTGTTTCTATTATCGTTATTTCTAGAGTGTACCCACCAGGTCAACGTGGTATCGTTTTAGGAATTGTTGCTGGCAGCATTGGCATCGGAACTGCCGGTGGTCCGATTTTTGGAGGACTCGTCGGACAATGGCTAGGTTGGAAAGCTTTATTTTGGATAACATTTACTTTAGGGATACTTATTGCAATAAGTGCACAAATTTCCATGCAAAAAATCTATCCTTTAGAGAGTGAAAAAAACAAAACATTTGATGTCATAGGTGGTATTTCTCTAGGTCTAATGATAGGTTTCTTTTTGCTAGGGATTACTTTATCTGAAAATCAAGGTTTAACTTCCTATTTAACGATGATATGTTTAGGTGTATCGTTCGTCGCTTTAGTTATTTTAACCATACGAATAAGGACTGCTAGTAATCCATTTATTCCACCAATCTTGTTAAAAAATCGTGCGTATGTTCGTTCTGTGCTCATCATTTTTTTATCCATGTTTGCTTATTTTCCTATTCTTGTATTTATTCCCCTGTTAGTTGTGGAAGTAAATGGACTTTCACCCGGTGAGGCTGGAATGCTCCTGTTACCAGGAGGAGCAACTGTTGCCATTTTATCACCAATTATAGGAAGATTATCTGACCGTATAAAACATGAAATTCTGTTAATAGCTGGTCTACTATGTATGGGTGGCTCTACGTTTTTTCTCTCCACTTTTTCAGGAGGGTCTCCTATTACGTTATCGATGGGCGTGTTAGGAAGTGGGATTGCTTATGCGCTTATAAATTCTCCTGCGAATAACTTTGCCGTATCTACATTGAACAAGGAACAGGTAGGAGTAGGAATGGGGTTATTCCAAGGCGCTTTATTCTTAGGTACAGGTGTAGGTTCAGCGTTGATGGGTACTTTCTTAGCCTTACGTCGTAAAGGGGAGAATGCCATTAATCCTATTTATGAATCACATGTGCCTCATTATTCTGATGTTTTTTTTGCACTAACTGTTATTACAATGATTGCGCTTGTTAGTACGTTTCGTATATCGAAGAAAATAGGATAA MNEQLNHNQSAQKHGKNVLLILTLAFSVLLSGVTVDMVMPVLGLIGNDLGASEAQTSWIVGGVALVLAIAIPFYGRIADFVEARKLFTIGVLILTLGNLIAALATELNMLVIGRMIQGAGMASVSVVSIIVISRVYPPGQRGIVLGIVAGSIGIGTAGGPIFGGLVGQWLGWKALFWITFTLGILIAISAQISMQKIYPLESEKNKTFDVIGGISLGLMIGFFLLGITLSENQGLTSYLTMICLGVSFVALVILTIRIRTASNPFIPPILLKNRAYVRSVLIIFLSMFAYFPILVFIPLLVVEVNGLSPGEAGMLLLPGGATVAILSPIIGRLSDRIKHEILLIAGLLCMGGSTFFLSTFSGGSPITLSMGVLGSGIAYALINSPANNFAVSTLNKEQVGVGMGLFQGALFLGTGVGSALMGTFLALRRKGENAINPIYESHVPHYSDVFFALTVITMIALVSTFRISKKIG PGPT0027880_259 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 AK015_00334 264 hypothetical protein TTGAAGAAGCAGCATGAAAAAATCGCCAATCGAGAAGCATGGATAGGCGTAGGTTTGGTTATTTTTAATTTTACATGGTGGTTCGCTTTCGCTTATGGCTTGGGTAAGAAAGAACCTGATCAATATACATATATTCTTGGCTTCCCTGCATGGTTCTTCTATAGCTGTATCCTTGGATTTATTGTTATGGCGGTGCTTGTAACAGTCATTGTAAAGAAATATTTCGTAGCCATTCCATTTGATGAGGAGATGGAAGAAGAATGA MKKQHEKIANREAWIGVGLVIFNFTWWFAFAYGLGKKEPDQYTYILGFPAWFFYSCILGFIVMAVLVTVIVKKYFVAIPFDEEMEEE NA NA NA NA NA AK015_00335 1443 panF_2 COG4145 Sodium/pantothenate symporter ATGAATTGGGAATCACTCATACCGCTAATTGCAATACTTATTATTATTTTTGGAGCAGGAATATGGGCAGGCGGCTACTTAAAGTCATCTACTAATTTTGCACAGGATTACTTTTTAGGTGGCAGAAGTCTCGGGGGATTCGTGCTCGCTATGACAATGACCGCAACGTATGGGAGTGCAAGCAGTTTTATTGGTGGACCTGGAACAGCTTATAATGAAGGGCTTGGTTGGGTGTTACTCGCCATGTCGCAAGTAGCAACTGGTTACTTTGTTTTAATGATTTTGGGAAAGAAATTTGCTGTTGTTACTAGAAAGTATAAAGCTTTAACGATGGTGGATTTCTTAAAGGCACGCTATCAATCTAAGTGGGTCGTTATTTTCTCGGCACTTAGTATTATTATTTTCTTATTTTCAGCTATGGCTGCGCAATGGATTGGCGGTGCAAGATTAATTGAATCGCTTATTGGAATTGACTATATGAGTGCATTATTCATTTTTGCTGTAGCTGTATTAATTTATGTTACGGTTGGCGGATTTCGAGCTGTAGCATTAACAGATGCGATCCAAGGAAGTATCATGTTTGGTGGTACACTTATTTTGCTCATTGCAGTTATTATCGCAGGTGGTGGAGTCCCAGCACTTATTGCTGATTTAACTGCTGAAAACCCGAATCTAATTACTCCTTATGGTTCCGAAGGGCAATTAACACCTACTTATGTATCCTCATTTTGGATTCTAGTTGGTGTAGGTGTGGTTGCTTTACCACAAATTGCTGTACGAGCTATGTCTTACAAAAACGCTCGATCGATGCATCGTGCAATTATTATTGGTACCGTTGTAGTAGGGTTTATTATGCTTAATATGCATTTAATCGGTGTTTTTGCTAGGCCTATCTTACCAGGCATTGAAGTTGGTGATAAGGTGATGCCATTAATTGCTTTAGAAGTGATGCCAAATTGGTTGGCAGGAATTGTACTTGCTGCCCCTATGGCAGCGATTATGTCAACGGTAGATTCGTTATTACTTCTAGTAAGCTCAACGATCGTGAAGGATGTGTACTTAAACTATGTGAAGCCAGATGCCTCTCAACAGACGATTAAACGTTTAAGCATAGGGATTACGGCTTTACTTGGTGTAATTATCTTCTTGATGGCTTTAAACCCGCCTGACCTAATTATTTGGTTAAATCTATTTGCTTTTGGTGGCTTGGAGGCAGCATTTATTTGGCCGATTGTGCTTGGATTGTATTGGCAAAAAGGCAATAAATATGGCGCGCTTGCATCCATGGTTACTGGCGTAGGATTGTATATCATCTCTGATCTATTCTTTCCACAGCCGTTCGGTCTCCATTCGGTTGTTATGCCAGTCGTCGTTTCTTTCTTTGTTTATGTCGTGGTTAGCTTACTTACGCAAAAGCAAACAGCGAGGATGCGTGTGTTATAA MNWESLIPLIAILIIIFGAGIWAGGYLKSSTNFAQDYFLGGRSLGGFVLAMTMTATYGSASSFIGGPGTAYNEGLGWVLLAMSQVATGYFVLMILGKKFAVVTRKYKALTMVDFLKARYQSKWVVIFSALSIIIFLFSAMAAQWIGGARLIESLIGIDYMSALFIFAVAVLIYVTVGGFRAVALTDAIQGSIMFGGTLILLIAVIIAGGGVPALIADLTAENPNLITPYGSEGQLTPTYVSSFWILVGVGVVALPQIAVRAMSYKNARSMHRAIIIGTVVVGFIMLNMHLIGVFARPILPGIEVGDKVMPLIALEVMPNWLAGIVLAAPMAAIMSTVDSLLLLVSSTIVKDVYLNYVKPDASQQTIKRLSIGITALLGVIIFLMALNPPDLIIWLNLFAFGGLEAAFIWPIVLGLYWQKGNKYGALASMVTGVGLYIISDLFFPQPFGLHSVVMPVVVSFFVYVVVSLLTQKQTARMRVL NA NA NA NA NA AK015_00336 1986 acs COG0365 Acetyl-coenzyme A synthetase ATGAAGGAAGTAAAAGAAGGGGAATTACTATGGGAACCAAGTTCAGAGAGAAAAGCAGCCGCAAAAATAAACAGCTACATGCAATGGCTACATGAACATAAAAATTTGTATTTTCAGGATTATCACAGTTTATGGAATTGGTCTGTAAAAGAAATAAAGGTATTTTGGGAAAGTATATGGGAGTATTTCGATTTGCAAGCAAAAAAAGACTATCAAACTGTGTTGTCTTCACATCATATGCCAGGAGCAAAATGGTTTCCTGAAGCGACTGTGAACTATACAGAGCATATTTTTCGAAATAGAGGGCATTCGGATCAACCAGCCATCATCCATACCTCTGAACGTAGAAAAGTGTTTGAAGTCTCTTGGCACAAACTGTATCAAGATACAATAGCAATACAACAAACATTTAAACGATTGGGCATTCAAAAAGGAGATCGCATCGTTGCTTATATACCAAATATTTACGAAGCTGTCGTTGCCTTTCTAGCTACTGCCAGTCTCGGAGCAGTATGGTCTAGTGCTTCTCCAGATTTCGGCACGCAAAGTGTTATTGATCGTTTTCAACAAATTGAACCGACGTTATTTTTAACGGTGGACGGTTACCAATATGGCGGGAAAACATTTGACAGAACAGAAGTAGCAGCAGAAATTCAATCCAGTCTGCCAACCTTAAAAGCGACGATTGCTATTTCCTATTTAGATGATCAGGCTACCTTTTCCTCATTACAACATGTTGTGCATTGGGAAAAAGCAATCAATCAGGCAGTCAAAGGTGATATTGAATATACACATGTTGCGTTCAATGATCCTTTATGGGTACTCTTTTCTTCTGGAACGACTGGAAAACCAAAGCCTATCGTTCACAGCCAAGGCGGTATTTTATTAGAACATTTTAAAGCATTGACATTTCATGCTGACCTTGGAGAAAGTGACCGCTTTTTTTGGTTTACCACAACGGGTTGGATGATGTGGAACTTTCTAGTAGGCGGACTACTGACAGGAAGTACGATTATTTTATATGACGGAAATCCTGCTTACCCCTCGAAAGAAAGATTATGGAAATTAGCGGAAGAAACGAAAATGACAGTGTTTGGAACAAGTGCAAGTTATATTACAGCTTGCATGAAGGACGCTATAAAACCGTATCAACAATATGACTTGAGCCATTTAAAGAACATCAGCTCCACCGGATCTCCACTTCCACCTGAAGGTTTTCTATGGTGTTATGAAAATGTAAAAAAAGATTTGTGGATTGCTTCTGCCAGCGGTGGTACGGATGTATGTACGGCGTTTATTCTCGGCGTGCCTACTTTACCAGTCTATGCTGGCGAATTGCAGTGCCGTGGCTTAGGAGCTAAAATTGAAGCTTTTGATGATAATGGTGTGCCTCTTATTGAGGAAGTTGGTGAACTTGTCTTAACAGAACCTTTTCCTTCCATGCCAATCTATTTTTGGAATGATCCAGATGGGGAACGTTTAAGAGAAAGCTATTTTGACATGTTCTCAGGTATATGGCGACATGGCGATTATTTAAAAATAACGGAACGAGACACGTGCGTCATCTATGGAAGATCAGATGCAACTATTAATCGCGGTGGCGTGCGTATTGGAACGAGTGAAATATATCGAGCAGTTGATCGCATTCCAGACATTGAGGATAGTTTAATTGTAGATATTCCTAGTCCAGACAGTGATTCATTTGTTCCTTTATTCGTCGTTATGAAAGATGGATATCCATTAACAGATGACCTAAAACGGAAAATCAACCAACATATTCGCGCCCATTGCTCTCCACGCCACGTTCCTACTGCTATATATGAAGTACCAGATTTACCAAGAACGTTAAACGGTAAAAAACTAGAGATTCCCGTAAAGAAGATTTTACAAGGAAAACCGATGGAACAAATTGTTAACAAAGGGTCTTTGCACAATGCAAGTGCATTGGATGCATTCTTTCAGTTTAAAGAAAAAATGAAGATTTAA MKEVKEGELLWEPSSERKAAAKINSYMQWLHEHKNLYFQDYHSLWNWSVKEIKVFWESIWEYFDLQAKKDYQTVLSSHHMPGAKWFPEATVNYTEHIFRNRGHSDQPAIIHTSERRKVFEVSWHKLYQDTIAIQQTFKRLGIQKGDRIVAYIPNIYEAVVAFLATASLGAVWSSASPDFGTQSVIDRFQQIEPTLFLTVDGYQYGGKTFDRTEVAAEIQSSLPTLKATIAISYLDDQATFSSLQHVVHWEKAINQAVKGDIEYTHVAFNDPLWVLFSSGTTGKPKPIVHSQGGILLEHFKALTFHADLGESDRFFWFTTTGWMMWNFLVGGLLTGSTIILYDGNPAYPSKERLWKLAEETKMTVFGTSASYITACMKDAIKPYQQYDLSHLKNISSTGSPLPPEGFLWCYENVKKDLWIASASGGTDVCTAFILGVPTLPVYAGELQCRGLGAKIEAFDDNGVPLIEEVGELVLTEPFPSMPIYFWNDPDGERLRESYFDMFSGIWRHGDYLKITERDTCVIYGRSDATINRGGVRIGTSEIYRAVDRIPDIEDSLIVDIPSPDSDSFVPLFVVMKDGYPLTDDLKRKINQHIRAHCSPRHVPTAIYEVPDLPRTLNGKKLEIPVKKILQGKPMEQIVNKGSLHNASALDAFFQFKEKMKI PGPT0002265_850 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895 NA NA AK015_00337 531 yraA COG0693 Putative cysteine protease YraA ATGCGATTAAAAAACAAACAAGTCATTGCACTTGTAGATCATGACTTTGAAGACTTGGAACTTTGGTATCCAGTCCTGCGTTTACAAGAAGAGGGAGCTACCGTTCATTTAGTAGGTAAGGAAGCTGAAAAAGTATACCATGGGAAATATGGTGTACCAGCTACTTCCGATTTCGCATTCTCTGACGTCTGCGTTGACGACTATAATGCTATTTTAGTCCCTGGAGGTTGGGCACCAGATAAATTGCGACGCTATTCAGAGGTAATTCAAATGGTACAAGCAATGAATGAAAAACAAAAGCCAATCGGACAAATCTGCCATGCTGGATGGGTATTGATTTCAGCGAACATCTTAACCAATAAAAAAGTAACCAGCACTCCTGGCATTAAAGATGATATGATGAATGCAGGGGCTACTTGGATAAATGAGCCTGTCGTTGTTGACGGCCACCTCATTTCAAGTCGCAGACCACCAGACTTACCAGCTTATATGAAGAAATTTTGTGATGTTTTAGCAGGCAAAAACCAATAA MRLKNKQVIALVDHDFEDLELWYPVLRLQEEGATVHLVGKEAEKVYHGKYGVPATSDFAFSDVCVDDYNAILVPGGWAPDKLRRYSEVIQMVQAMNEKQKPIGQICHAGWVLISANILTNKKVTSTPGIKDDMMNAGATWINEPVVVDGHLISSRRPPDLPAYMKKFCDVLAGKNQ PGPT0015010_2731 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 AK015_00338 858 hypothetical protein GTGAAGAGAATTATTGATATCGATGCCAAACATAAGGACACATGCGTTACGATCCAAGCAAAAGAATGGTCTAACGAGCTAAAAGAAATTGTGGATTATTTACAAGACAAAGATGCTGCCCCATCACGATTATTTGCGGTAGATAATGAACAAACAATTTTGTTACACCCACAGAAAATTGATTATATTTATGCTGACAAGAGAAAAATTTTTGCTGCTGTCGGAGATAAACGTTTTGAAATAAGGATGAAATTATACGAAGCTGAAAAAACTTTAAAACATGCACATTTCATGCGCTTTTCAAAGTCTGTTATTGGAAACGTACTTCGAATAGCGTATTTTGAACTACATTTTAATGGCAATCTATGTGTTTATTTTCAATCAGGTAATAAAGAATACGTGAACCATAAATATGTGAAAGCAATTAAAAGAAAACTAATGATGGGTGGAGAAAAAATGTGGATTGAAGCCATAAAACGTTTAACAGTTGGCGTCGCTATTGCTGGATTAATCACGTTTATCGTGCTTACCGTTATTACCTTTCAAGACATTGAAATATCAATCATGTATTTTTGGAAAAGTGCGCTATCTACGCTATTCATAGCGTCTTACTTTGCATTAGCATCACTTCTATTTGAACGAGAGCATTGGAGTCCATTAAAGCAAACAAGCATTCACTACCTGTTGTCAAATTTATTCTTTTTTCCCATAGCCATTTGGGCAGATTGGCTACATATGTCCATCAAATCATTACTATTCGCTATTGTAATCTTCACTATTATATACACTATCATTTGGATTATTGGCATGTGGATACAAAAAAGAAACGTCTTGCATTTAAATAAGGCAATGAAGTGA MKRIIDIDAKHKDTCVTIQAKEWSNELKEIVDYLQDKDAAPSRLFAVDNEQTILLHPQKIDYIYADKRKIFAAVGDKRFEIRMKLYEAEKTLKHAHFMRFSKSVIGNVLRIAYFELHFNGNLCVYFQSGNKEYVNHKYVKAIKRKLMMGGEKMWIEAIKRLTVGVAIAGLITFIVLTVITFQDIEISIMYFWKSALSTLFIASYFALASLLFEREHWSPLKQTSIHYLLSNLFFFPIAIWADWLHMSIKSLLFAIVIFTIIYTIIWIIGMWIQKRNVLHLNKAMK NA NA NA NA NA AK015_00339 1494 opuD_1 COG1292 Glycine betaine transporter OpuD ATGAAGAATGTCACAAGTGTATTTTGGTATTCTTTAGTTATATGTATTGCGGTTGTTATTTGGGGTTCGGTATCACCTGTAGGTTTGGAAGATTTCACAGCTAATGTAACGGCAGCAGTGTCCAATTATTTTGGCTGGTATTATTTGCTAGCTGTTATGGTTATATTAGCATTTAGTATATATCTTATTTTTTCAAGATATGGAAATATTAAGCTCGGTAAAGAAAAAGATGATCCGGAATTCAGTTTACCATCTTGGTTTGCGATGTTATTTAGTGCAGGGATGGGAATAGGACTCGTGTTTTGGACAACAGCAGAACCAATTTCTCATGCGTTTAAAAGTACGCCTGGACCGACACCTGGTTCAGACGAAGCTATTCGGGAAAGTTTAAAGTATACATTTTTTCATTGGGGAATCCATGCGTGGGCAGTATATGGTATTGTTGCACTCGTGTTGGCTTATTTTAAGTTTCATCGAGATCAACCTGGACTGATTAGTGTGACGTTAATGCCAATATTTGGGGAGAAAAGCATGCGTGGCATGTTTGGTAAAGTTATTGATGTGCTTTCAGTTTTTGCGACAGTCATCGGTGTTGCCGCAACACTTGGATTTGGTTCAGCGCAAATAAACGGAGGGTTAGCGTTTTTATTTAATACTCCTGCAACGTTTTGGATGCAACTACTCATTTTAGGTACGGCAACGGTGTTATTTATTGCTTCTTCCTGGTCGGGAATTGGAAGAGGAATTAAATATTTGAGCAATGCCAATATGGGGTTAGCTGTTGTGTTATTACTCCTGTTGTTTTTTGCAGGACCGACTTTAGATATTTTGAACATGTTTACACATACATTAGGAAGCTACGTATCGGATTTTTTTGATATGAGTTTACGATTAGCTCCTCAAGATGAAAACAAACGAACTTGGATTAATAATTGGACGATTTTTTACTGGGCTTGGTGGATTTCATGGGCTCCGTTTGTCGGTATTTTCATTGCACGTATTTCTAAAGGGAGAACAGTAAAGGAGTTCATGATTGGTGTACTCGCCGTACCATCCATTATTTGTTTTATCTTTTTCTCTGTTTTTGGTGTTTCCGCATTGAATTTGGAACAGAAGGGCATGGCAAAGATTTCTGAGTTTTCGCTTGAAACGTCCACCTTTGGCGTTTTAGAGCAATATCCACTAGGGTTTGTTATGTCAATGATTACGCTCCTCGTTGTGGCTATTTTTTTTATTACTTCTGCCGATTCCGCTACCTTTGTGTTAGGGATGCTAAGCACAAATGGAACGCTAAATCCCCGTAATTCCGTAAAGATTATGTGGGGTGTCATGCAATCAGCTTTGGCTGCCATTATTGTTTATTTTGGCGGCACGCAAGGGTTGCAAAACATGCTTATTATTGCTGCATTGCCTTTTTCGATCGTGATACTATTAATGGCTGCTTCGTTTTATAAGACAGCTCGAGCAGAGCATCGACAGAAAAAAGGAAAATAA MKNVTSVFWYSLVICIAVVIWGSVSPVGLEDFTANVTAAVSNYFGWYYLLAVMVILAFSIYLIFSRYGNIKLGKEKDDPEFSLPSWFAMLFSAGMGIGLVFWTTAEPISHAFKSTPGPTPGSDEAIRESLKYTFFHWGIHAWAVYGIVALVLAYFKFHRDQPGLISVTLMPIFGEKSMRGMFGKVIDVLSVFATVIGVAATLGFGSAQINGGLAFLFNTPATFWMQLLILGTATVLFIASSWSGIGRGIKYLSNANMGLAVVLLLLLFFAGPTLDILNMFTHTLGSYVSDFFDMSLRLAPQDENKRTWINNWTIFYWAWWISWAPFVGIFIARISKGRTVKEFMIGVLAVPSIICFIFFSVFGVSALNLEQKGMAKISEFSLETSTFGVLEQYPLGFVMSMITLLVVAIFFITSADSATFVLGMLSTNGTLNPRNSVKIMWGVMQSALAAIIVYFGGTQGLQNMLIIAALPFSIVILLMAASFYKTARAEHRQKKGK PGPT0013600_1254 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK015_00340 453 yueI COG5506 putative protein YueI ATGAGCAAGAAAAATGTCGAAGATTATCTCACAGAAGGAATGTATGGAACGAGACTGCCCAAAGATCACGAACGAAAGCAATTTTTAGGCACATTACGTGAACGAATTGTGCTCGCCCTTACCAAGGGACAGGTAATGTCCAATAAAGGATTAGAACAACTCGAAAAAGCAATGAAAGAAAATCCAGAAGCAAAATTAATTATTAACGGTCATGTTTCCTATCGCTTTTTAACAGAGGAAAAGAAAATTGCAGATAAATACGGCATCCCCCACTCTACAATTACCAATGAGGAAGCTGAAGATACAAATATTGGGGCAGTTTTAACTTATGACTATGCCATTGATAAAGAAGAAATATTTATTCAAGAAGAAACAGAGCAAACGAATGATGAAGAGGAAAAAAAAGAAGAAGATGGCTCCTTTTTCACTAAAATAAGAAGCTGGTTTGATTAA MSKKNVEDYLTEGMYGTRLPKDHERKQFLGTLRERIVLALTKGQVMSNKGLEQLEKAMKENPEAKLIINGHVSYRFLTEEKKIADKYGIPHSTITNEEAEDTNIGAVLTYDYAIDKEEIFIQEETEQTNDEEEKKEEDGSFFTKIRSWFD NA NA NA NA NA AK015_00341 246 hypothetical protein ATGGCACAACAGAGACAGGAAGAAGAAAACATTGAGGTGTGGGAAGACCTCGTACATATTAAAGATCTCGTTATAGCGATTATTATATCTACGATTACAACACTCGGTGCTTATATAATAGCACCAAATGATCCACCAAAACCTCTTATATTTGGCTTAGTTGGTGCTGTTGTAGGATTCATTATTAGCAGTTTGCTCATTAAACCGAAACGAAATTTCCGTTATATGGATGAGGAGGAGGAATAG MAQQRQEEENIEVWEDLVHIKDLVIAIIISTITTLGAYIIAPNDPPKPLIFGLVGAVVGFIISSLLIKPKRNFRYMDEEEE NA NA NA NA NA AK015_00342 1353 hypothetical protein ATGGATGCTGTATTAATTATTCAATTGATAGCTGCTTCTGTGGCAGGATCTATTTTGTATACCATTATTGGAATAGCACCTGGAACGGATGAAACCGCTGTCTTGGCGCCGGTTACATTAGTACTAGTGCTATCAGGTTTTGAACCCATTGTTATTCTAGCCTTTTTTATATCCGCAATTGTTGCTAAAAAATTAACCGATTCTATCCCAGTTGCCATTGCCGGAATTCCTGGTGGGGTAATGTCGGCACCAATGGTTGAGCATGCGATGGTATTAAAAAAACATGGCATGCCTGAGCTGAGCATTCGAAAAATGGCATCGGGTTCCGTTATTGGTACTGTGATTGCTGTACCTATGAGTTTATTAATGGCGAATTTAATCGCTCCCTTATCCGATGAAATCACGCAATACGCGAGCCAAATTTTTCTTGGCGGTGCCATCTTTTTAGCACTTATGACGAAAAATCGTTGGATTGCACTACTTTCCATTGTACCGTTTGCTGTTTTGATCCAAGGCTTACGTATGTTTTATTGGGAAACAGGCATCGTTCCTGAAGATCAAACTGTATTTACATCCTTCTTTTTAGGAATAACCATAGGCCCGGTCATTTTAAAATTAGCAGAGTTACTTAATGGAAGGATCAGAAGGAAGCTTCCACGCTATGGCAAAAAAGATATTGCAATGCGACGAACGGAAAAAGTAAAAGGATTCCCAAATCCGTTTAAAATCCTTACCAGAAGGGAGATTGGTACAACTTCGATCTCATCTATCTTAGGAGTGCTCACCTTTTTTATGAGTCCTGTTGGCATGACAATTTTCCTTGGCGAAACGTTAACCAGTCGAATAAAAGATCCAGTAAAAAAGGCGGCTCGAGCTATATCCAGTATGGATGGACTGACAAACGCAGCTTATTTATCTGGGACGCTTATCCCGTTAATTGCTATAGGTTTACCTTTGTCTCCTACAGCAATTGGTCCGGGTGGTCCTTTGTTTAATGCGCCACCAGTATTTACAGAAGAAAATAATCTGCACCATATGTTGTCTATGTCTGATTTTATTGTTGCTACATTAATTGGGTCCATTGTCGCTATTAGTATCACGTTTTATATTACGATTAAATATGCACAGCAAATTTGTGCCTTCGTATTCCGGTTTATTCCGCATGAAGCCATGTTAGGTGTATTCTTTGGTCTTGTCATTATGCTTGCCTATATGGATGCGGGAATTGTAAATATAGCTGGCGTTATTGTTGTGGCACTTGTTGCTGGATTTTTGCACCGTAAAGGAGTAAATTATGGGGTGCAATTTATGACATTGTATGCAGCACCTTGGCTCGTGTCATTGTTTTTGTAA MDAVLIIQLIAASVAGSILYTIIGIAPGTDETAVLAPVTLVLVLSGFEPIVILAFFISAIVAKKLTDSIPVAIAGIPGGVMSAPMVEHAMVLKKHGMPELSIRKMASGSVIGTVIAVPMSLLMANLIAPLSDEITQYASQIFLGGAIFLALMTKNRWIALLSIVPFAVLIQGLRMFYWETGIVPEDQTVFTSFFLGITIGPVILKLAELLNGRIRRKLPRYGKKDIAMRRTEKVKGFPNPFKILTRREIGTTSISSILGVLTFFMSPVGMTIFLGETLTSRIKDPVKKAARAISSMDGLTNAAYLSGTLIPLIAIGLPLSPTAIGPGGPLFNAPPVFTEENNLHHMLSMSDFIVATLIGSIVAISITFYITIKYAQQICAFVFRFIPHEAMLGVFFGLVIMLAYMDAGIVNIAGVIVVALVAGFLHRKGVNYGVQFMTLYAAPWLVSLFL PGPT0017350_3611 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793 NA NA AK015_00343 1314 hypothetical protein TTGCAGAAAATATGGTGTGTTATCGTCGTCGTTTTTTTTGGGTTGCTGTTAACAGCGTGTGAGTCCGCAGATAAAGCAGATAGGGAAAAAGAAGCGAAAGCGGATGTTGCTGGATATTATGAAGGCGCAATTGAAATTCCAGATCAGCCCTTAGGCATCGAAGTGACCTTGCAAAAGCAAGCTAGTGAGCTATCTGGGACGATGAGCATTCCCGTTCAAGGGTTGCTTGATTATCCTTTGACAACGGTTAAACAGGATGGGGAGAAAGCGATTACTTTTACAACAAAAGTACAAAATCAGTACATTTCGTTTGAAGGGGAAATGGAATCCAATCAAATTACGGGGACATTTAAACAAAATGGCCAAGCTTTTCCCTTTCAATTAGCGAAAGCGAAACAAACCGCAGAAAAAGACGAAGAATTTTTACAAGTAGAAACAGCTGTTGGAACATTGTCTGCTGAGCTAGTGAAACCGAAAGGGAAAGGACCTTACCCAGTAATGGTCATTATTCCTGGCTCTGGGCAAACAGATCGTGACGGTAATACAATTGGTATAGCTGGAAAGAATAATAGTTTAAAACTGTTAGCAGAAGGATTAGCACATCAAGGTATTGCTACAGTTCGTTATGACAAACGAGGGGTTGGAAAAAATAGTCAAGCAAACATCAATGAAAGAGATATGCAGTTTGACCAATTTGTAGATGACGCTGCCGCTTTTATAGACAAATTAGAAGCAGATAACCGATTTTCTAAAATTGGTGTTATCGGGCATAGTCAAGGCTCTTTAGTAGGTATGCTTGCTATTTTAGAAAAGGATATGGATGTATTTATTTCACTAGCTGGTTTTGGTAGTCCCTCGGATGAAGGGATATACGATCAATTACGTGCACAGTCACAACTTCCAAAAGAATTACTTCGAGAAAGTGAAGCTATTTTGCAAAGTTTAAAAGAAGGAAAAACGGTAAATGAAGTGAGGCCTGAATTACAACCATTACTTCGAACGTCCGTACAGCCTTTTTTAATTTCATGGATGAAACATGATCCTAAAGCAGTCATCGCTAATTTACAAATACCAACTTTCATTGTTCAAGGAGAGCGCGACATACAAGTGCCTGCTGATGAAGCTACCATCTTACATGAAGCAGCACCTAACTCGGAATTATTATTGCTTGAAAAGATGAATCATATATTAAAGGACGCTCCGAAAGATCGCGAGGAAAATATGGCAACATATACAAATTCGGAATTACCACTAGCTGATGGGTTATTAGAAGGGATAATGGACTTTTTAATGAAACATGATTTCTTAAGCTAA MQKIWCVIVVVFFGLLLTACESADKADREKEAKADVAGYYEGAIEIPDQPLGIEVTLQKQASELSGTMSIPVQGLLDYPLTTVKQDGEKAITFTTKVQNQYISFEGEMESNQITGTFKQNGQAFPFQLAKAKQTAEKDEEFLQVETAVGTLSAELVKPKGKGPYPVMVIIPGSGQTDRDGNTIGIAGKNNSLKLLAEGLAHQGIATVRYDKRGVGKNSQANINERDMQFDQFVDDAAAFIDKLEADNRFSKIGVIGHSQGSLVGMLAILEKDMDVFISLAGFGSPSDEGIYDQLRAQSQLPKELLRESEAILQSLKEGKTVNEVRPELQPLLRTSVQPFLISWMKHDPKAVIANLQIPTFIVQGERDIQVPADEATILHEAAPNSELLLLEKMNHILKDAPKDREENMATYTNSELPLADGLLEGIMDFLMKHDFLS NA NA NA NA NA AK015_00344 285 hypothetical protein ATGGCAATTGTTAAACAGTTTATGGGTGCAGAAAGGTTTGTTGCAACCATTGGGGATGGTACAGGTACTGGAGCAACGTTTAATATTCTTGCAACAGATTTCACAGATGATACAGGAGCGGCAGCTACAGCATTTCCAACTGCACCAGCATACTACAATCTGTATCTTAACGGTGTACTTCAAACAGCTGATACGTCATCACTAACTACAACTGAAATAACGATTCCAGATGGTGATACACTTAACCCTGGAGTTCCAGTAGTTGTCGAATGCGTGGTAAACTAA MAIVKQFMGAERFVATIGDGTGTGATFNILATDFTDDTGAAATAFPTAPAYYNLYLNGVLQTADTSSLTTTEITIPDGDTLNPGVPVVVECVVN NA NA NA NA NA AK015_00345 444 hypothetical protein TTGATAATCAAAAAATCAAAACAAAGGTGTACTTCTCATTACCATCAAGGTAACTGTAAATGTTCCAGTAAGAAATCGTCGCCTTGCAGTTGCTGTGATCATGACATTACAATTATTAACAATTTTAACTGCTATCCTCCTATTCCGCCTACACCACCTCCCCCATCTCAAGTTTTAAATGTAGAAACTTCCCAATACACAGCACTATCAGATGGGGTAAAGACAATATATACGAATCAAGATAAAGAGCCACAGTTTAGCACTTCAGATATTTTAAATCCCAACGATGTATCTTATATCAATTTATTTATAAATGGCATATTACAACCTCCCACCATTTATAATGTTCAACCAGGAACGCTCACACTTCTTGTCGGTCCAAGCGAAGTGCCAAGAAATGGAGTCCCAATTATTTTACAATTTATTAAGATCTTTTCTAGTTAG MIIKKSKQRCTSHYHQGNCKCSSKKSSPCSCCDHDITIINNFNCYPPIPPTPPPPSQVLNVETSQYTALSDGVKTIYTNQDKEPQFSTSDILNPNDVSYINLFINGILQPPTIYNVQPGTLTLLVGPSEVPRNGVPIILQFIKIFSS NA NA NA NA NA AK015_00346 966 gloB_1 Hydroxyacylglutathione hydrolase ATGCAAACGAAAGACCCTATTCGCTTAGATGATCGTATTTATCTTATTGACGGTTTCGATTTTAACATACCATACCGCACAGGAGCTTATGTGCTTGATGAGGAGCAGTTAACCATTATTGAAACGGGACCTAGCCCGTCTATTAAGCATATCAAAGCGGGGTTAGAAAAATTAGGATTTTTATTAGATGCAGTGAAATACATCATTGTCACACATGTGCATTTAGACCATGCAGGAGGAGCTGGGTTATTGTTGAAATCTTGTCCAAATGCGACAGTAGTTATCCATCCACGAGGGAAAAGGCATTTAGCCAATCCGAGAAAGCTTGCGGCAGGAGCTCGGGCTGTCTATGGCGATAGTTTTTCGGATTTATATGACCCCATTGTTCCAATTCCAGAAGAACGAATGGTCGTGAAAGAAGATGGGGATACATTAGCAATCGGCAAAAACTGTACATTGCAATTTTTACATACACCAGGACATGCGCGACATCATTTTAGTATTTATGATCCGATTAGTAATGGTTTATTTACTGGTGATACTGCTGGGGTTCGGTATCAGTTATTAGAGGACCAAGGCGTGCCAATTTTCTTACCATCGACTTCTCCCAATCAATTTGATCCAAATGAATTACGTCAATCGTGGGAGCGCTTCGAAAATTTACAATTAGATCGGATTTACTATGGGCATTTTGGTATGACCGAACAACCCAATGAAGCATTACAACAAGTATTTACATGGCTAGACACCTTCATGAAAATTGCCGAAGATGCATATGCAGAAGGCGTAGGTTATGATCAACTTGCTGACCGAATGCTAGAGACAATTCGAGTGGAGCTGCGGGAGAAAGGAATTCCTGATGACCACGAGACATACATTATTCTAAATGTCGATATGCAAATTTGTGCGTTAGGTATCATTGATTATTTGCAAAAGCAAGAAAAAAATGAGCAGCCTGTTCATTAG MQTKDPIRLDDRIYLIDGFDFNIPYRTGAYVLDEEQLTIIETGPSPSIKHIKAGLEKLGFLLDAVKYIIVTHVHLDHAGGAGLLLKSCPNATVVIHPRGKRHLANPRKLAAGARAVYGDSFSDLYDPIVPIPEERMVVKEDGDTLAIGKNCTLQFLHTPGHARHHFSIYDPISNGLFTGDTAGVRYQLLEDQGVPIFLPSTSPNQFDPNELRQSWERFENLQLDRIYYGHFGMTEQPNEALQQVFTWLDTFMKIAEDAYAEGVGYDQLADRMLETIRVELREKGIPDDHETYIILNVDMQICALGIIDYLQKQEKNEQPVH NA NA NA NA NA AK015_00347 393 hypothetical protein TTGAATACGTATAGTAAAACATTACTGCGATTTTCGGCTATTTTTGCTGTAATAGGAGCGTTTATTGGCTCACATATGGCAGGTGCAGGCGGATATGAATTTCGTACTGTTCACGCACATATTCTTGTCGTCGGCTGGCTTACTTTATTTGCTTGGGCGGTTTTTTATAAAATTTTCATGCCTGCTAACAAAAAACTTGCAGCACTTCACGTATGGACAGCGATTATCGGTGCCATCGGTTTAACAGTCGGCATGTGGCTATACTATTTACGTCCGTTTAACTTCAATGAAACAGTAATAACGATATTGTTTATCGTTGGAGGTACGATTCTACTTATTAGCTTTGCGATTTTCCTTATTCTCACTTTCTTAAAAACAGAAGATGAGACGTAA MNTYSKTLLRFSAIFAVIGAFIGSHMAGAGGYEFRTVHAHILVVGWLTLFAWAVFYKIFMPANKKLAALHVWTAIIGAIGLTVGMWLYYLRPFNFNETVITILFIVGGTILLISFAIFLILTFLKTEDET NA NA NA NA NA AK015_00348 759 exoA COG0708 Exodeoxyribonuclease ATGAAACTCGTATCTTGGAATGTAAACGGACTAAGAGCATGTATTCGCAAAGGATTTCTAAACTATTTTCATAGCATAGATGCTGATATTTTCTGTGTGCAAGAAATAAAATTACAAGCAGGACAACTTGATTTACCATTAGAAGGCTACTACCAATATTGGAACTACGCTGTCCGAAAAGGATATTCTGGTACCGCTGTTTTCACCAAACAAAAACCATTGACTGTCTCATATGGCGTTGGTGACGCGAATACCGAAGAAGATGGGCGCATCATTACATTAGAATATGAAGATTTTTATCTCGTCAATGTCTATACTCCAAATGCAAAGCGAGATCTCTCTCGCCTAGACTACCGCTTACAGTGGGAAGATCAACTTTATGCTTATTTAGTAGAGTTAGACGAAAAAAAGCCCGTCATTTATTGTGGTGACTTAAATGTTGCCCATCAGGAAATCGATATTCGTAATTATAAATCAAATAATGGTAATTCTGGTTTTACTTTAGAGGAACGAGCAAAAATGTCGCGACTATTAGACGACCGTTTTATTGATACGTTACGTTACTTTCAGCCGAATACAGAGGGATTATACACGTGGTGGTCCTATATGAAAACCGTTCGCGAGCGTAATATTGGCTGGCGAATTGATTATTTCCTAGTTTCCAATCGTTTAAAAGAGCAATTATTACATGCAGAAATTGATTCAGAAGTATTCGGGAGCGATCATTGTCCCATTCAGCTGGAACTGAAACAAGCATAA MKLVSWNVNGLRACIRKGFLNYFHSIDADIFCVQEIKLQAGQLDLPLEGYYQYWNYAVRKGYSGTAVFTKQKPLTVSYGVGDANTEEDGRIITLEYEDFYLVNVYTPNAKRDLSRLDYRLQWEDQLYAYLVELDEKKPVIYCGDLNVAHQEIDIRNYKSNNGNSGFTLEERAKMSRLLDDRFIDTLRYFQPNTEGLYTWWSYMKTVRERNIGWRIDYFLVSNRLKEQLLHAEIDSEVFGSDHCPIQLELKQA NA NA NA NA NA AK015_00349 396 ytrA_2 COG1725 HTH-type transcriptional repressor YtrA ATGAAAATAAATTTTAATCGTAGGGAGCCTGTTTATGTGCAAGTGGTTCGTCATTTTAAGCAACAGATTGCGATGAATATGCTAGAACCGGGACAGGAAATCCCTTCACGTCGAGAGTTGGCAGGCGAATTAAAAATCAATCCAAATACGGTGCAACGTGCCTATAAGGAGATGGAGGAGCAAGGCTTGATTTATACAGAGCGAAATTTGCCAAGTAAGATAACACGTAATGAACAAGTGCTTCAAGTTGTGCGGGAAGAGTTAATTATGGATGCGGTGGATCAATTTGTTACAACTGTTCAATCTGTACAAGTGCCACTTGATGAAATTGTCACCATTATAAAGGAAAAGTATGAGCAAACAAATGCGGATAAGGGGGAAGAGCATAATGATTGA MKINFNRREPVYVQVVRHFKQQIAMNMLEPGQEIPSRRELAGELKINPNTVQRAYKEMEEQGLIYTERNLPSKITRNEQVLQVVREELIMDAVDQFVTTVQSVQVPLDEIVTIIKEKYEQTNADKGEEHND NA NA NA NA NA AK015_00350 690 ytrB_1 COG1131 ABC transporter ATP-binding protein YtrB ATGATTGAAGTGAACAATATTACGAAAAAATTTGGTCGTAAACAAGTGTTAAAAGGCGTAACCTTTACTGCTGAAAAAGGAGAAATAACGTGCTTAATCGGCATTAATGGTGTTGGAAAAACCACAATCTTAAATGCGATTATGGCTTTAACACCGATAAAAAAAGGAGAAATTTTGATTGATGGCGAAAAACTAAAGCCAAAAACTTTTAATCATATTACCTTTATCCCTGATGCGATTACGGTACTTCCGCAAATGACGATTACGGAATCGATGCAATTTATGAAAGATTACTATACGACATGGAATGAGGAGCGAGCACAGGAATTATTATCCTTTTTTAAATTAAATCCAGAAGACAAGATAGCTTCTTTATCCAAAGGAAATACAGCGAAAGCAAATTTACTGTTAGGGCTTGCACTTGATGTCGATTATATCCTTATGGATGAGCCTTTCTCAGGGATTGATATGTTTAGTAGAGAACAAATTGCGAACGTTTTTACGAGTCATTTAATCGAAGACCGTGGTGTGATTATTACCACTCATGAAATTGGTGATATCGAGCATTTAATTGATAAAGTTGTATTGCTTGATGATGGTGTCGTGAAAAAGCAATTCTATACGGAAGAAGTTCGTGAGGCAGAAGGGAAATCGGTCATTGATGTGATGAGAGAGGAGTATCAAGGATGA MIEVNNITKKFGRKQVLKGVTFTAEKGEITCLIGINGVGKTTILNAIMALTPIKKGEILIDGEKLKPKTFNHITFIPDAITVLPQMTITESMQFMKDYYTTWNEERAQELLSFFKLNPEDKIASLSKGNTAKANLLLGLALDVDYILMDEPFSGIDMFSREQIANVFTSHLIEDRGVIITTHEIGDIEHLIDKVVLLDDGVVKKQFYTEEVREAEGKSVIDVMREEYQG PGPT0006725_27737 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_00351 834 hypothetical protein ATGAAAAGCTATTTTCGCTTAACGGAATTTGAACTGGGCAGATTTTTTAAATTTTATCTCGTGCTTATTGGATTGACGATAGTTTCTCAAATAATTGGCGTGACCGCTGTATCTAAGGAGTATATGAAAGAGGCAAATGAAGCAATTTATCAAGATGGCTTATCGAAACAAGCATTTATGGACCAGCGTGGACTGATAAGCTTGCTAGACTGGACGAATTCCATTTGGTTTTTAGCGCCAATAGCACTTTGTGTTGTTACGTTGCTAATTTACATGTTTTTCATATGGTACAGGGATTGGTTAGGGAAAAATACCTTTATTTATCGCTTGTTGATGCTTCCGACGCAAAGAATACATTTGTTTTTTGCTAAAGCGACAACTATTTTCATCATGGTGCTCGGCTTAGTTGCTTTACAAGTGTTCCTTATCTATATCGCAGGAATTGTTTTAGAATGGATGGTTCCGAATGAGTTTATGCAAACGATGGGAGTATCAGAAGTGAGTGTTGCTTCAAAATATGTAAACACGATATTACCAGCAACATTCACGGAGTTTGTACTATACTACGGTACTGGGTTAATGTTTGTCTGCATCTTTTTTACGGCAATTCTTATCGAGCGGAGTTATCGCTGGAAGGGTTTGCTATTTGCAATTGGATACGTAGCAGTCGCAACGGCAGTATTTATGTCGTTAATCTTTCTAAGTATGGACATGGATGTACTTCCTTTATACCCATTAGAATGGCTCATACTTCAAATCATTTTAGGATTAATAGTAACGGCAAGCTCTGTATTCATTAGCCACTATTTATTAACGAAGAAAATTACGGTGTAA MKSYFRLTEFELGRFFKFYLVLIGLTIVSQIIGVTAVSKEYMKEANEAIYQDGLSKQAFMDQRGLISLLDWTNSIWFLAPIALCVVTLLIYMFFIWYRDWLGKNTFIYRLLMLPTQRIHLFFAKATTIFIMVLGLVALQVFLIYIAGIVLEWMVPNEFMQTMGVSEVSVASKYVNTILPATFTEFVLYYGTGLMFVCIFFTAILIERSYRWKGLLFAIGYVAVATAVFMSLIFLSMDMDVLPLYPLEWLILQIILGLIVTASSVFISHYLLTKKITV NA NA NA NA NA AK015_00352 1224 hypothetical protein GTGGAACGATATTGGAAACTTATGTTTACTTCTTGTCTATTTGTTTTTGGCATTGGATTTTTTTACTTGCATGATACATTTGCTGAAAAAGAACTACCGGAATATACTTGGGAAAAACAGAAGGGAAATGAAGAGGTATTAGAAGATGTATTGGTGCAAGCTTATATACAGGACGGTGGCTATATTGAGGAAACAATCCAGATTGCTGGAGAAAAAAGAAAGTATTCAAGCCAACTTAGCTTTTTAGAACGGCTAACTGGTGCAATGAATAATTTGAAAATCAAACAGTTACAGCAGGAATATCGAGGGTTTATGCGTGGGAAAGAGGAGAGTACGTATAACTTTTATGAAGATGAACGTATGCTGGCATATGCGAATGTGTCTTCAGAGTGGGATAGTAGCCAGTTTAAACAAAGTAACTTTGCCTTAGAAGTGGAAACACTATCTAAGCGTGACGATGAAACAACTTCTTTTTCCATCAAATTTCCCAACCAAGATCAGTATGATTATATGATTGTGGAAGAGGTAACCGTCTTGGGAGATAAGCTCCATGTTCTTATACAAAATGACTTGTTAGTAGATGAAGAAAGTCAGATAGAAATGCAACTATACACGATCGATCTTACAAATGAAAAATTACTTAGTGAACAAAGGTTGTTTTCCGACAAGGAAGAAAGTACGAAAGGAGATAGAGAAGTAGCTTTATTACAGGATGCAGATGAACTTCAGGCAAGTAAATATATAGCTGCTACAGTCAGAAACCTGGAAGACGATGACCAGAAAAAGCAACTTCGGTTATTTGATATAAAGAAACAGGTAGAAATGCCAATTGATGTCCCAGAAAAAATGCTAGAACAAGAAGTGGTCGCTGATATGGGAGATGAAACGTTCTACTTTATTCACGAACAGAAAGGCAAACTAAGCATAACACCTTATCAATTTGCCGAACAACAAATGGGCGATCCAATTGAAATTCCTATCTCAGATACTATCGACGTCAAGGCGATGAAGTATACGAAAATGATTCAAGATAAGTTGTATCTTCTCTATGATACCTACATGGGGGAAGAAGCAAATGTTTTAGAAACAAGCAACAACCCGCAAATGTATGTTATCGATTTGAAAGATAAAGCTTTACTCTATGAAGGAGAATTAACACCGAACAATCAGACTGCGAAAAAGGCATTTATCATGATCGAAAGTATGTATGAAAATGAACAATGA MERYWKLMFTSCLFVFGIGFFYLHDTFAEKELPEYTWEKQKGNEEVLEDVLVQAYIQDGGYIEETIQIAGEKRKYSSQLSFLERLTGAMNNLKIKQLQQEYRGFMRGKEESTYNFYEDERMLAYANVSSEWDSSQFKQSNFALEVETLSKRDDETTSFSIKFPNQDQYDYMIVEEVTVLGDKLHVLIQNDLLVDEESQIEMQLYTIDLTNEKLLSEQRLFSDKEESTKGDREVALLQDADELQASKYIAATVRNLEDDDQKKQLRLFDIKKQVEMPIDVPEKMLEQEVVADMGDETFYFIHEQKGKLSITPYQFAEQQMGDPIEIPISDTIDVKAMKYTKMIQDKLYLLYDTYMGEEANVLETSNNPQMYVIDLKDKALLYEGELTPNNQTAKKAFIMIESMYENEQ NA NA NA NA NA AK015_00353 348 hypothetical protein ATGGCTGAACATTCGTTTACTGTCATAACAAATTTAACAGACATTGATACGTTTATCGAACAAAACAAGCTCGCTTTTCTATATATTTCCCGCGAAGGCTGTAGTGTGTGTCACGGATTATTACCACAAGTTGAGGCGTTAATGGAATATTACCCAGAAATTGCTACGGCGCATATCAAAGCCGAACAAGTGGAAGAAGTCGCTGGAAGATTCTCCGTATTTACCGTTCCTGTACTCTTACTTTTCGTCGAAGGAAAAGAATATTTGCGTGAAGCGAGAATTGTGCATATGGATTTATTTCAGGAAAAACTGGAACAAATTTATAGCCATGTGGTTGGCGCTAATTAA MAEHSFTVITNLTDIDTFIEQNKLAFLYISREGCSVCHGLLPQVEALMEYYPEIATAHIKAEQVEEVAGRFSVFTVPVLLLFVEGKEYLREARIVHMDLFQEKLEQIYSHVVGAN NA NA NA NA NA AK015_00354 531 hypothetical protein ATGGGTTGCTCTAACCAAAATAATATCTACTCCACCAAACATCGAGAACATTGTGTATGCGATATAGTTCAAAGCATTGTTCATGCACAAGACAAAGTAAACAAGGACACTTGTGATACGAGCTGCTATGCATCAATTCAACAATTAAACCACAAGAATTCTTTCAATAGGCATACAACTATTCCATTTTTGCTTTACTGCCGCAGCAGTTGCAAGCCGTTTATTGGAAAAGGATTTATGACTAAGCATCATAATCATTGTTCCGAAAAATTCTTCAAAGAAATTGAATCCCCATTTTTCCGGGCAAAAAAATTCTTAAGAGGGAGCAAATGTTGTGTTCGATTAGAACTTTTATTACCAATCAAGGATAAAAAGTTTTCTCAATCTTTCGATAAACGATCTTATTGTGATGATCATATTGATAAGAAGATAACTGATTTCATAGCTACTGGAGTTTGTTTAACAGTGGATCTTAATCAATTTATTGGTATAACCTGCCTTGATCCAATAACTCCAATCCCTCCTAAGTAA MGCSNQNNIYSTKHREHCVCDIVQSIVHAQDKVNKDTCDTSCYASIQQLNHKNSFNRHTTIPFLLYCRSSCKPFIGKGFMTKHHNHCSEKFFKEIESPFFRAKKFLRGSKCCVRLELLLPIKDKKFSQSFDKRSYCDDHIDKKITDFIATGVCLTVDLNQFIGITCLDPITPIPPK NA NA NA NA NA AK015_00355 372 hypothetical protein ATGAGTTGTAGTTCTAGACATCATGACTTTGACAGGAAAGAAGATTTCCGACGTTTAGAGGTGATTTTGAAGGATATTCTATTCCAACTTCAGAAGCAACAGCAAAAGCAATACCAGAATCAAGACCAAGATCAGTACCAAGATCAGTATCAAGATCAGTATCAAGGTCAGGCACAAAGTGATCGGACAAAATTTGAAAACATTGGAAATCCAAATGTAATCGTGAAAAATGAGGCAAATGCATTATCAATTGCAGCTATTGTGATTTTGTTAAGCTTCCTCAACGATTATAAAGACAATGTTGTCATTGATAAAGATGCTACTAGAGAAATTGTCAACATGCTAAAAGAACTTGACAATTCCTCTGAGTAA MSCSSRHHDFDRKEDFRRLEVILKDILFQLQKQQQKQYQNQDQDQYQDQYQDQYQGQAQSDRTKFENIGNPNVIVKNEANALSIAAIVILLSFLNDYKDNVVIDKDATREIVNMLKELDNSSE NA NA NA NA NA AK015_00356 192 hypothetical protein TTGTTAAATCCTTCCACGGTTAGAGAAGCATTATTAGAGTTATTAAATCAAGAAGTCCAAATTACTACTAATTTTGGAATGATAACTGGTACTGTTTCCCAAGTAAAAGATGATTATACGGTTATTACTGAAGATACTAATGCTCAGGTATTAGTACCAATTAATAAGATTGAGCTTCTTAGTGAAGTATAA MLNPSTVREALLELLNQEVQITTNFGMITGTVSQVKDDYTVITEDTNAQVLVPINKIELLSEV NA NA NA NA NA AK015_00357 198 hypothetical protein ATGTTCAGAAGTAATTTTGCCGCTGAGCTTCGGACACGTGTAGGTTCTAATGCAGAAATAGCTACAGATAGTAGTTTGACAGAAGGTGTTATTTTAAAGGTAACTTCACAATTAGTAATAGTAGAGGAGGATAGTGGTTATGGACCAGAAAAAGTATATATAGCTTTAAATTTTATCAATTTTGTACGCTTTTCTTAA MFRSNFAAELRTRVGSNAEIATDSSLTEGVILKVTSQLVIVEEDSGYGPEKVYIALNFINFVRFS NA NA NA NA NA AK015_00358 915 ligC 4-carboxy-2-hydroxymuconate-6-semialdehyde dehydrogenase ATGAGAGTTGGTGTAATTGGAACTGGTAATATGGGAGAAAATCATATACGGACGTATTTATCCATGTATGATCACTGCCAGCTTATTGGTATATATGATAAAGATACAATTAAAAGAGACAAAATTGCTAAAAAATATAATATAAAGCCGTTTTCATCATTAAATTACCTATTAAAAGAAGTTGATGCTGTAAGCATAGCTGTCCCTACGGAGTTCCACTATGATATTGGCTTAATTTGCATTCAAAACAATGTACACATGTTATTAGAAAAACCTATGACTAGTACAGTAGAACAAGCAGAAGATTTAATTTATAAATCGTCAAAAGCAGGAGTCATCATTCAAGTAGGCCACATTGAACTTTTTAATCCATTGATTCATGAACTCCTAAAATTAATAAAAAATAAAAAAATAATTGGTATTGAATTTCAAAGAATGGGTCCCTATAATAAAAGGCTTGAAAATGTCGATGTTGTGAACGATCTAATGATTCATGATATTTATATTCTACAAGAAATCCTTCAAGATACATTCATAGACATTCAAGCATTGGGAAAAATTATGGATGGTACAATTAAACATGCAGTTGTAATTGCCGCATCTACAAAGGAGATCATCATACAGCTTTCTGCCAGTTTTAAATCGCAAAATAAAGTTAGAACCATTCAAATCCTCACTGAAGATGCTTTTATTGAAGCCAATTTATTAAAGAAAGAAATCAAAATACAAAGCTCTATTTTTACTAAAACCCTTACAGTCGATGATTCTATTCAACCATTACAAGTACAACTAACTGATTTCTTAAATTGTATTAGGTTTAAAAAAGAACCTTCTGTATCAGGGAATAAAGGAATAAAAGCATTATTAATGACTAATAAAATTAGTGAGGAAATTTACAAAAAGGAACATAAGTAA MRVGVIGTGNMGENHIRTYLSMYDHCQLIGIYDKDTIKRDKIAKKYNIKPFSSLNYLLKEVDAVSIAVPTEFHYDIGLICIQNNVHMLLEKPMTSTVEQAEDLIYKSSKAGVIIQVGHIELFNPLIHELLKLIKNKKIIGIEFQRMGPYNKRLENVDVVNDLMIHDIYILQEILQDTFIDIQALGKIMDGTIKHAVVIAASTKEIIIQLSASFKSQNKVRTIQILTEDAFIEANLLKKEIKIQSSIFTKTLTVDDSIQPLQVQLTDFLNCIRFKKEPSVSGNKGIKALLMTNKISEEIYKKEHK NA NA NA NA NA AK015_00359 843 hypothetical protein TTGGTGAACTTGATGTTATGGAGAGAATCTGGACACATTGACTATATTATTAATCGACTAGACGTTAAACCGGATTTTATACTAATTTTAAATGATATGGATAGGAAAATGTCACCAATGATAAAAGGGCTTGCTCATATTCATATACCCACAGGATTATTTGTTAATGATGTTCACCGTTTTGTAAGTCTTAGACGAAATTTTATTGAAAAAAATAATATTACGTATTTATTTTCTGTGATCAGGGATAAATTTCTTCAAATATATCCTGAATATCAGAATAAAATGGAGTGGTTTCCACATTTCGTTAATACAGAAATATATAAGAATTATGAGTTGAAAAAAGATATCAAGTTATTATTAATGGGTGCCGTAACTGATTTATATCCTTTAAGACAAAAGATTATTAAGGCGTATGAAGGAAACGCTAATTTCATTTATCACAAGCATCCAGGTTATCAATATTTTAGAGAAAAAGATAACAATGAGGTAATAGGAGAGAATTATGCGAAAGAATTGAACAGATCAATCTTATTTTTTACTTGCCCATCTAAATTTAATTATCCAGTTATCAAATACTTTGAAGCGTTGGCTTGTAAAACTTTGTTATTAGCACCTACCTTTAAAGAACTAGAAGATATTGGTTTTATTCCTGATGTACATTTTATAGCAATAGATGAAAATAATTTTGCAGCAAAGGCAGATTATTTTTTATCGCATGAAGCGGAACGGAAACAAATAGTTGAACAAGGATATCAATTTGTTCATCAACATCATACTGTTCAACATAGAGCGCAACAGTTAGTCAAGATAATAGAAAGAAAACTAAAATATCCATTATAG MVNLMLWRESGHIDYIINRLDVKPDFILILNDMDRKMSPMIKGLAHIHIPTGLFVNDVHRFVSLRRNFIEKNNITYLFSVIRDKFLQIYPEYQNKMEWFPHFVNTEIYKNYELKKDIKLLLMGAVTDLYPLRQKIIKAYEGNANFIYHKHPGYQYFREKDNNEVIGENYAKELNRSILFFTCPSKFNYPVIKYFEALACKTLLLAPTFKELEDIGFIPDVHFIAIDENNFAAKADYFLSHEAERKQIVEQGYQFVHQHHTVQHRAQQLVKIIERKLKYPL NA NA NA NA NA AK015_00360 681 lpxD_1 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase TTGTCTCATATATCGGACACCGCACAGTTTGGCGATAACGTTATCATCGAGGATGATGTCCATATTGGTGATAATGTGATAATAGGTCATAATTCTGTCATCTTACGAGGAACAAAGATTGGTAATAATGTAAGTACTGGCTGTAATTGCGTTCTTGGTATTAAGCCAACGGTTAATAAAAGAATGAGAAAAACTTCTAATCTTACCGAATTAGTAATTGAGAGTGGCACGCGAATTGGGCATCTAGTCTCTATTTATTCTAGTACACGAGTTGGTGAGAACGTATTTATTGGTGATCATGCAAGTATAAGAGAAAATACTGTAGTTGGAGATGAAACTGTTATTGGTCGAGCAGCAATAATTGAATTGAATACAAAAATTGGAAAATCATGTACTATCCAAACACAATCGTATGTGACAGGAGATACCGTAATAGAAGATAATGTATTTATTGGTCCCTGTGTATCCATGGCTAATGATAAATATATGGGAGCGCAGAGCTACAATTTAAAAGGCCCGTATATTAAACATGGAGCTAAAATTGGCAATAACGCATCACTATTGCCAGGGATAAAAATTGGAAAAGAAACAATAGTAGGCGCAGGTTCTGTTGTTACTAAGGATTTAGAAGATAGGATAGTTGCTGTTGGTGTTCCAGCAAAGAGAATAGATTTATCGTAA MSHISDTAQFGDNVIIEDDVHIGDNVIIGHNSVILRGTKIGNNVSTGCNCVLGIKPTVNKRMRKTSNLTELVIESGTRIGHLVSIYSSTRVGENVFIGDHASIRENTVVGDETVIGRAAIIELNTKIGKSCTIQTQSYVTGDTVIEDNVFIGPCVSMANDKYMGAQSYNLKGPYIKHGAKIGNNASLLPGIKIGKETIVGAGSVVTKDLEDRIVAVGVPAKRIDLS NA NA NA NA NA AK015_00361 249 hypothetical protein ATGATAGAAGAACTTAAGGATATTAAAGTTTTGATGCACAATCAATACGAAGCAATTGGAAAGAAAATTGGTGAAGAATTTTTTATTCCTATAACTTTACTGGAAAAAGGATACGATTTAGAAAAAGAATGGTTAAACACTAAGAATACATTGAAGATTCACGTTACTAAAAAGCGTTTTTTAGCTAAAGATCATTATGACTATCAAGGAAATTACTTACATTATGACAGGAACCGGGTAGAGAATTAG MIEELKDIKVLMHNQYEAIGKKIGEEFFIPITLLEKGYDLEKEWLNTKNTLKIHVTKKRFLAKDHYDYQGNYLHYDRNRVEN NA NA NA NA NA AK015_00362 615 hypothetical protein GTGTCGCATCAAAATGCTTACGGAGGTTGGCCATATCAATTCGATCTTCATTATTATCCTAATCGTTTAAAAGAAAAGATCAAGGCCCCATGGTATTCTGCCATTGGTTTAGGAATGTCAATGTCTGTTTTAGTAAGAGCTACTGTGTTAACAAAGGATAGAAAATATGAGCGTTGCGCATTAAAAGCTACTCCTATTTTTAACATCCCCTCAGAAAAAAATGGAATAATAGCTAAATTTGAAGGTAAATACATGTTTTACGAGGAATGTCCTACAGATCCACCTAGTTTTATTTTAAACGGTTTCATGTTTGCGTTAATTGGATTATATGATCTTTATAAACTAACTGGTGATATAGAAACAAAAAAATTATATCAAGAAGGAATTATTTCACTAAAAAGAATGCTACCTTTATATGATTTGGGGTACTGTACAGCCTATGATTTAACGCAATATACAACGGATGGAGGGTATCCAAATGTAGCTAACTGGGGTTATCATATTACTCATATTCATTTATTAGCTGCATTAAACTCAATAGAAAAGGACACAAAAATGAACAAGATATTACAAAGATGGAAAGGTTATTTAGAGGGGAAAAGATTTACTATATAG MSHQNAYGGWPYQFDLHYYPNRLKEKIKAPWYSAIGLGMSMSVLVRATVLTKDRKYERCALKATPIFNIPSEKNGIIAKFEGKYMFYEECPTDPPSFILNGFMFALIGLYDLYKLTGDIETKKLYQEGIISLKRMLPLYDLGYCTAYDLTQYTTDGGYPNVANWGYHITHIHLLAALNSIEKDTKMNKILQRWKGYLEGKRFTI NA NA NA NA NA AK015_00363 1074 wbpI COG0381 UDP-2,3-diacetamido-2,3-dideoxy-D-glucuronate 2-epimerase ATGAAGATATTAACTGTTGTGGGTGCAAGGCCTCAGTTTATTAAAGCATCCATGCTGTCTAAAGCAATCAAGGCACAGTCAAAGATAGAGGAAATTATGGTACACACAGGTCAACATTATGATCATAATATGTCTACCATCTTTTTTGACCAATTAAAACTTACTAAACCAGATTATTATTTAGGTATAGGCTCTGGCTCTCATGGAGAGCAAACCGCTAAAATGCTATTCGAATTAGAGAAAATTATGCTTAGTGTTCAACCCGATATTGTAATCGTATATGGAGATACGAATTCGACACTAGCAGGGAGCATTGCGGCATCAAAAATTCATATCCCGATAGCACATGTGGAAGCTGGTTTACGTAGCTTTAATAAAAAAATGCCTGAAGAAATTAATAGAATCATTACCGACCATTTATCACATTTATTATTTTGCCCATCGAAAACTGCCATTCATAATCTAAAGCAGGAGGGCATTGACAAAGAGGTTTATTTAACGGGAGATATCATGTACGATGCTGTTATTCACTTTAAAGATCCTGCGATTCAACAATCAACCATTCTAAATGATCTATCACTTACAGCTGGTAACTATTTTATTGCAACTGTTCATCGGGCTGAAAACTCGGATGAACCTGAGCGTTTAAAACAAATACTAACAGCGTTTCAACGATTAGATAAAACAATCATTCTTCCGTTACATCCTAGAACTAAAAATAAAATTCAACACTTTAAACTTGATCATTTCATTACTTCATCTCATATAAAGACAATAGATCCCGTAAATTATTTTGATATGTTGGCATTAGTTTCTCAAGCAAAAGCCATTTTAACGGATTCGGGCGGTTTACAAAAAGAAGCATATATGCTCAGAATTCCATGTATTACGCTAAGAGAAGAAACAGAATGGATGGAGACTGTACAGACCGGTTGGAATCATCTTGCAGGATATAAAACAAATCAAATATTAGATAAAGTTAATCATCTTAAACTCCCTCAATATTCTCCTTCCATTTTTGGTGATGGAAGGACTGCTCACGTGATTCATAATATCCTACTCCATTCGTTTTAA MKILTVVGARPQFIKASMLSKAIKAQSKIEEIMVHTGQHYDHNMSTIFFDQLKLTKPDYYLGIGSGSHGEQTAKMLFELEKIMLSVQPDIVIVYGDTNSTLAGSIAASKIHIPIAHVEAGLRSFNKKMPEEINRIITDHLSHLLFCPSKTAIHNLKQEGIDKEVYLTGDIMYDAVIHFKDPAIQQSTILNDLSLTAGNYFIATVHRAENSDEPERLKQILTAFQRLDKTIILPLHPRTKNKIQHFKLDHFITSSHIKTIDPVNYFDMLALVSQAKAILTDSGGLQKEAYMLRIPCITLREETEWMETVQTGWNHLAGYKTNQILDKVNHLKLPQYSPSIFGDGRTAHVIHNILLHSF PGPT0022710_129 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022710-wbpI|wlbD-K13019 NA NA AK015_00364 1215 hypothetical protein ATGTCTAGAAAAGTATGCATGCTTGTAGCAGAACACCCATTCTTAGATTCGAGAATTTTCAAACGTGAAGCCAAAAGCCTATTAAAATTAGGTTATGATGTAACACTAATTGTTCCTAGAAAAGATGGATACTTATTTGACATTGATGGTACACCTTTGAAAGATAAATTTACTTCTAAAACGTTTACTTATGAGGGAATTAAAATAGTTACTTACGATTTTGAAGAAAGCAGAGCACCATTAAGTAAAGTCGTAGCCCCTGTTTCTCAGTGGGAGAAAGGTTTTAATAACCCATTAACAGAGCTTGGGATACAACAAGATGCAGATATTTATCATGTTCATGAATATTTATCCCTTTTTGCTGGAATAGGTGTGAAAAGATTATTGAAACAAAGAAATAAAAAAGTAAAATTAATCTACGACAGTCATGAATTAACTCCGGATCCCTTTGATTCGAGAAATCACGTAAATCACCGCAATAACTTGAAAGAAAAGCTACTGGTTATGCTGAAGGAAGTAGATCAAATCATTACTATTTCCCATTCCATAAAATCATGGTTCCTTTCTCAAGACCCCACATTTTCTGTAGAGGTCATTTATAATTCACATCCATTAGCTAAAAACTATCAAACCAAAGAATTTACTGGAAAGGGACTCATAGCTTGTTATGAAGGTAATATTGATTATAAAAGAGGTAGTAAAAATAAAATTATACAGATTACTGAACAATGCGCCACTTCCATCGATTTTCAATTCAAGATTATAGGTGGAACAAGGTTTGGTGAAACATTTGAACTCCCTAATCATTTAAGCGATAAAATTAAGTTAACTGGATGGGTGGACTATTATTCTATTTCACAGCATATGAAAGACGTAGAAATAGGTTGGATCGATTATGAAGAGTTAAATACTTCGCTTAATCGTTCTTATGCGATGCCAAATAAGTTTTTCAGCTTTTTAAATAATGGTGTTCCGATTGTAGTAAACCAATGCCATGAGATGGAATCTTTTCTACGGACTCATCGTTGTGGATTAGTGATTAATAAAAAACATGCTACAGCTTCAGACTATGCAGAAGCTATGCTGTATTTAGCCAGCAATAAGAAAATGTTGAAACAAATGAGCTTAAACGCTAGAAAAGTAATGGAAGAAATCTATTGCTGGGAGAAAATGGAGAACAGACTAAAGAATGTGTACCATCGCTTAATCCCGTAA MSRKVCMLVAEHPFLDSRIFKREAKSLLKLGYDVTLIVPRKDGYLFDIDGTPLKDKFTSKTFTYEGIKIVTYDFEESRAPLSKVVAPVSQWEKGFNNPLTELGIQQDADIYHVHEYLSLFAGIGVKRLLKQRNKKVKLIYDSHELTPDPFDSRNHVNHRNNLKEKLLVMLKEVDQIITISHSIKSWFLSQDPTFSVEVIYNSHPLAKNYQTKEFTGKGLIACYEGNIDYKRGSKNKIIQITEQCATSIDFQFKIIGGTRFGETFELPNHLSDKIKLTGWVDYYSISQHMKDVEIGWIDYEELNTSLNRSYAMPNKFFSFLNNGVPIVVNQCHEMESFLRTHRCGLVINKKHATASDYAEAMLYLASNKKMLKQMSLNARKVMEEIYCWEKMENRLKNVYHRLIP NA NA NA NA NA AK015_00365 969 COG1088 UDP-glucose 4-epimerase ATGAAACGTCTATCACTGGAGAACAGTACCATTTTAATTGTTGGCGGAGCCGGTTTTATTGGAAGTCATTTAGTAGATCATTTATTAGAAGAAAAAGCTAAAGAAATCATTATTATTGATAATCTTTTTACTGGTACTCAAAATAACCTAACATCCGCATTAGCGAAGAATGCAATATTTTACATCGATAATGCCGAAAATCAAGAAGCTTTAAACTACATTTTGGAAAAGCATACTATCGACATTGTTTTTAATTGTGCAACCAAAGCATTGAACTATTCATTTATGAACCCAGCTGATGCTTTTTTAACAAACGTTATTGTCTTAAAGAATTTATTAGAATTACAGCGTAAAGAGCTATTTCACACACTTTGTCATTTCTCATCATCAGAAGCATATGGTTCTTCTCAATACCAGCCGATGGATGAAAATCATCCATTAGATCCGACAACGACTTATGCTGCAGGTAAAGCTGCTGCTGATTTAATGTTAACGTCTTATGTGAAAATGTTTAATTTAGATGCTTTTATCGTTCGACCTTTTAATAACTACGGACCTAGACAAAGCTTCACAGGACCTTTAGCTGGTGTTATTCCCACTACAATTAAAAAAATACTAGCTGATGAAACTCCAGAGATACATGGCACTGGTCAACAAACAAGAGACTATATTTATGTAAAAGATACTGTTGATATGGTAGTTAAATTGTATCCGTTGATTCCTTCGGGAGATACTGTAAACATTACGACTGATCAACAGTTATCCATTCAATATATCATTGAAACAATCATTGATGAAATGAATTATAATGGTGAAGTCCTAAAAAAGCCAAATAGAACATCTGATGTTACTAGTCATAGAGGCTCCGTAGAAAAATTGCGGAAATTAATTGGCACTTATAATAAAACCGACTTCAAGGATGGAATTGCCTCGACGATAAATTGGGTGAAACGCCATGCCACAAAGTAA MKRLSLENSTILIVGGAGFIGSHLVDHLLEEKAKEIIIIDNLFTGTQNNLTSALAKNAIFYIDNAENQEALNYILEKHTIDIVFNCATKALNYSFMNPADAFLTNVIVLKNLLELQRKELFHTLCHFSSSEAYGSSQYQPMDENHPLDPTTTYAAGKAAADLMLTSYVKMFNLDAFIVRPFNNYGPRQSFTGPLAGVIPTTIKKILADETPEIHGTGQQTRDYIYVKDTVDMVVKLYPLIPSGDTVNITTDQQLSIQYIIETIIDEMNYNGEVLKKPNRTSDVTSHRGSVEKLRKLIGTYNKTDFKDGIASTINWVKRHATK NA NA NA NA NA AK015_00366 756 baiA 3-alpha-hydroxycholanate dehydrogenase (NADP(+)) ATGGATTTACAATTAAAGGGGAAGAAAGTACTTGTTACTGGCGGTTCAAGAGGAATTGGTAAAGCAATAGCTGCATCCTTCTTAAAAGAAGGTGCTGACGTCGGAATAGTAGCTAGAACAAAATATGAACTCGAAGAAGTAAGCAAAGAACTGGATGTGAGAATTTACACGAATGATCTCACAAATGTTTACCAAAGAGAACAATTAATTACTGATTTTATAACCGATTTCAATGGGATAGATATCCTCATTAATAATGCAGGGGCTAGCTATGGAAAAACTGTCTCAGAAACATCCCCCATTCTTTTTCACAAAACGATGAACCTCAACTTTATCGCTGCCGTTCACTTAAGCCAATTAGTAAGTCAGCACATGATAACACAAGGAGAAGGAGTAATTATAAACATTTCCTCTATTTACGGCAAGGAAGCAGGTGGTGTACCGGCTTATAACGCTTCAAAAGCCGCTTTAAATAGTTTTACAAAATCTTTCAGCTCTGAAGTAATAAAGTATAATATTCGGGTCGTCGGTATTGCCCCTGGTGCTATCTTCCACCCAAATAAGGAGTGGACACGTCGAATAAAAAATGATCCTAATTTTTTAGATAATTACGCTAAATCTAACATACCTGCAGGGAGACTTGGTAAGCCAGAGGAAGTTGGTAATATTGCTGTGTTTCTGGCATCGAATAAAGCTGCTTGGATTGTTGGTTCTACAATCAGCGTAGATGGCGGGCAATCACGAATGAACTATTAG MDLQLKGKKVLVTGGSRGIGKAIAASFLKEGADVGIVARTKYELEEVSKELDVRIYTNDLTNVYQREQLITDFITDFNGIDILINNAGASYGKTVSETSPILFHKTMNLNFIAAVHLSQLVSQHMITQGEGVIINISSIYGKEAGGVPAYNASKAALNSFTKSFSSEVIKYNIRVVGIAPGAIFHPNKEWTRRIKNDPNFLDNYAKSNIPAGRLGKPEEVGNIAVFLASNKAAWIVGSTISVDGGQSRMNY PGPT0003180_10808 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 AK015_00367 1197 hypothetical protein TTGAAACGAAAGGTGTGCATGCTCCTATGTTACCTTCCCTTTCTGGATTCCCGTATATTTGAATGTGAGGCCAAAAGTCTCGTAAAGCATGGTTATGATGTTACCATCCTTGCACCACGGAAAAATGGTTTTTTATTTTATATTGATGGAAAACCTTTTTCCAATCAATTTCGTGATGAAATTTTTCATTATCACGGTATTAAGGTCATTGCCTATGATAGTGAAAAGCGATCTTCTGACTATTTAGTCGATCCGCTTTTTCAACTGGGACTGAAAGAGGAGGCGGATTTTTATCATGCTCATGAACTGAATTCTTTTTCATATGGGAAAGAAATAAAGCGTGTTTTAAAAGAACAGCAAAATAAAGAAGTTAAATTAATCTATGATAGTAGACAAATAACTCCTGATCCAATGTCTTCAAAAATAAATGCTGAAACAAAACAAAATTGGATGAAGATGCTCCAAGAAAATATTAAAGAGGTTGACTATATTATTACAGTATCTGATTCGATTAAAGCCTGGTATCTAGCTATAAATCCATTATTGCCTGTAGAAGTCATCTATAATGCTCCTCCATTAACACCAACTATCAAGGAGAAAAGTACCTCTGATGACTCGTTTGTGATAGCACATGAGGGGAATATATCAAAAGAAACTTTTGAGAAAATAAAAGCGATTACCAGTGATTATAATGGAAAGAAAGGTATTCAATTTAAAATCATTGGCGGTTCAAGATACGGGAATGAGATGCTTTTAATCCCGAATCACTTACAATCTAGAATAAAACTAACAGGGTGGGTGGACTACCAATCTTTGCCATTGGCCATGTCAGATGTGGATATTGGTTTCATCGATCTAGATCCTTCTAGTTCGCTGAATAATGCCTTTAGCATGCCTCATAAGCTGTTCAGTTTTTTAAATAATGGAATCCCTGTTGTAGCCAACAAATGTAGTGATTTAGAGAAGTTTATCAAAACGCATCACTGCGGGGTTGTCATTGATAAGTTAAAACCAAGCTCTTTAGATTATATAGAAGCGATAAATTATGTGGAACAGCACCCGGATGAATGGGAGACAATGAGAAAAAATGCTAGAAAGGTAATGGAGGCTACTTACAGCTGGGAACATATGGAAAATAGATTGTTGTCAGTTTATCAATCCGTAGATGCCAATTCATTGCCATATTTACTGTCTTAG MKRKVCMLLCYLPFLDSRIFECEAKSLVKHGYDVTILAPRKNGFLFYIDGKPFSNQFRDEIFHYHGIKVIAYDSEKRSSDYLVDPLFQLGLKEEADFYHAHELNSFSYGKEIKRVLKEQQNKEVKLIYDSRQITPDPMSSKINAETKQNWMKMLQENIKEVDYIITVSDSIKAWYLAINPLLPVEVIYNAPPLTPTIKEKSTSDDSFVIAHEGNISKETFEKIKAITSDYNGKKGIQFKIIGGSRYGNEMLLIPNHLQSRIKLTGWVDYQSLPLAMSDVDIGFIDLDPSSSLNNAFSMPHKLFSFLNNGIPVVANKCSDLEKFIKTHHCGVVIDKLKPSSLDYIEAINYVEQHPDEWETMRKNARKVMEATYSWEHMENRLLSVYQSVDANSLPYLLS NA NA NA NA NA AK015_00368 1221 hypothetical protein ATGCAGGTAGATGTTTGTTTTTTAGTAACGGAGCATCCTTTTTTAGACGCTCGTATTTTTAAAAAGGAAGCCAAAAGTTTGGTGGCACGAGGATATCGAGTAACGATGATTGTACCTAGAATAAACGGCTATCTTTTTGATATTGACGGTGGTATGTTTACGGAAAGCTTTCTAGAACCTACGTTTTATCATGAAGATGTAAAAATAATCACATATGAGCAGATATTTTTCGAAAGAAATATTAAAACATTGGATCACAATCTTCAGTCGAAAAAGACACACAGGTTTATAGATATGTTAACACAACTTGGAATAGAGCAGAATGCGGACATTTATCATGCCCACGAGTTTTGTTCTCTTTATTCTGGCGTCATTATCAAACGCACCCTATTGTTAGAGGGAAAATCGTGTAAGTTAATCTATGATAGCCATGAATTAGACCCTGACCCTTTGATAGAGCAACCAATACAAGTCTTAAAAATAAAAAATCGCATGCTGAAAATAATGGTAAAAGAGATAGATTACTTGATTACTGTATCTGAATCTATTAAGGAGTGGCATTTGTCTTTGAATGCTAGTCTTCCCGTAGAAATTATTTATAATTCTCCACCGCTTGCTCATGAATATGTGCCAAAAAGAAGGTCGAATTCTGAATTAACGATTGTGTATGAAGGTACCCTGGGTAAGAAAAGAGGTAGCTTTGACAAATTTATTCAAATGTTGGAGTTAGCTAATAAACAAAGGACTATACACGCTAAAATCATTGGAGGCTGGAAGAAAACTAACTATGATGTTGAGCTTCCCGACCTTACCAATATAAGTGAATATATCCAATTTACTGGTTGGTTGGATTTGAATTGTATACCAGAAGCGATGAAAGATGTAGATATAGGATGGATTGATTTGGATGCAAAACACTCCTTGAATAATGATTTTGCCATGCCAAATAAATTCTTTAGTTATTTAAATAATGGCATCCCTGTTTTAGTAAATCAATGTAAAGATATGATGGAATTTATTCAAACCTATAACTGTGGTTATGTCGTTCCCAAAAAAAGGGCTACTGCAGAGGATTATGCAGAAGCCTTAGTCAGCTTAGCTAATAATAAGCTTGATAAAATGAGTTACAAAGCACGTGGAATCATGGAGGCTATGTTTAGCTGGGAGCATATGGAAAATAGGCTCAGGAAGGTTTATGAGCAATTAACGAATGACTTTTGA MQVDVCFLVTEHPFLDARIFKKEAKSLVARGYRVTMIVPRINGYLFDIDGGMFTESFLEPTFYHEDVKIITYEQIFFERNIKTLDHNLQSKKTHRFIDMLTQLGIEQNADIYHAHEFCSLYSGVIIKRTLLLEGKSCKLIYDSHELDPDPLIEQPIQVLKIKNRMLKIMVKEIDYLITVSESIKEWHLSLNASLPVEIIYNSPPLAHEYVPKRRSNSELTIVYEGTLGKKRGSFDKFIQMLELANKQRTIHAKIIGGWKKTNYDVELPDLTNISEYIQFTGWLDLNCIPEAMKDVDIGWIDLDAKHSLNNDFAMPNKFFSYLNNGIPVLVNQCKDMMEFIQTYNCGYVVPKKRATAEDYAEALVSLANNKLDKMSYKARGIMEAMFSWEHMENRLRKVYEQLTNDF NA NA NA NA NA AK015_00369 1056 hypothetical protein TTGAATAATAAAGCGCGGATTAAATGTTACGAAGCTGAAAGGGGAATGTTTATGAGAGTTTTACACTTGCCTTATGGTGCTCCTATGATTGAATTATGTCGGGGATTACGAGACAAAGGGATAGAAGCAACAGCATGTCACTTTAGTGATAACAGATATAAGTTCCAACCGGATATTTGCCTTCATTTAAACTCCTATCCACCTAATGAAAGAGAAGAAAAAGTTACCGAATTCTTCTACGAGGCGATACAAACTTACCACATTTTTCACTTTCATTTTGGAGAAACTTTTTTTCCTGACAAAAGGGATTTAGCTATTTTAAAACAAGCTGGAAAGAAAATGGTTGTTCATCACCATGGTTCGGATGTTCGATTGTTATCCGTTGCAAAGCGTTTCAATCCATATGTCCGTGTTAAACCTGAATGGACGAAAGAAAAAATAAATAACAATTTAGCGACATTATCATCTTATATGGACCATGCCATCGTTCAAGACCCTGAATTGCAAGAATATACCTCACACGTCTATAAACATACCCATGTAATTCCTCATGCCATTAACATCCGTGAATTTAAGCCCATCTATCCAGATGTAAACAACAGATCACCACTCGTGGTGCATGCTCCTACATCGCGTAATCTTAAAGGAACAGAATTTATATTACATGCTGTGGATGAATTAAAGCAATTGGGAATATCTTTTCAGTTTAAATTACTGGAAGGATTGACATATGAAGAGACGAAGGATTTGTTGTCTCAATCAGATATTGTTATAGACCAATTACGAATTGGGGCTAGCGGATATATTAGTTCAGAAGCTATGGCACTTGGAAAGCCCGTTATATGCTATATAAGGGAGGATCTAACGGAAAAGTATCCTGGGGAAATTCCAGTTGTAAACGCAACCCCCTCTACGATTACTAGCGTATTAAAGAAACTCATTCAAAGTCCTGATAGATGGGAGGAAATTGGAAAAAAGGGGAGAGAATATATTGAAACATATCATGATTCGCGAATTGTTGCTAATCGCTATCTTGAAGTTTACAACCAATTATAA MNNKARIKCYEAERGMFMRVLHLPYGAPMIELCRGLRDKGIEATACHFSDNRYKFQPDICLHLNSYPPNEREEKVTEFFYEAIQTYHIFHFHFGETFFPDKRDLAILKQAGKKMVVHHHGSDVRLLSVAKRFNPYVRVKPEWTKEKINNNLATLSSYMDHAIVQDPELQEYTSHVYKHTHVIPHAINIREFKPIYPDVNNRSPLVVHAPTSRNLKGTEFILHAVDELKQLGISFQFKLLEGLTYEETKDLLSQSDIVIDQLRIGASGYISSEAMALGKPVICYIREDLTEKYPGEIPVVNATPSTITSVLKKLIQSPDRWEEIGKKGREYIETYHDSRIVANRYLEVYNQL NA NA NA NA NA AK015_00370 1320 wecC COG0677 UDP-N-acetyl-D-mannosamine dehydrogenase ATGATAAATCAAGAGGAGACATTAGCGAATGTAACTGTAGTGGGGCTTGGTAAAATTGGACTAACGTTGGCTGCAGTATTTGCAAATAATCATTTTAATGTCTATGGCTCCGATATTAATGAAGATGTTGTAGCTACCATTAATCAAGGCAAATCTCATATTACAAATGAACCTGGATTAGATCAATTGGTTGCTGCTGCTTATAACAGTAAAACATTGTCAGCAACTACAGAGACAGCTGAAGCCGTTGCCAAATCGAATATAGTGATTGTGATTGTTCCTGTACTAATCGATAATCAATACAATGTAGATTATCAATTTATAGATGCTGCCGTTAAAGAAATAGCTAGAGGAATGAAAGAAGATACGTTAGTCATTTTTGAAACAACTATTCCTCCTGGTGATACACAATATCGGTTTGGAAAAAAGCTTGAAGAACTATCCGGGTTACGCTTAGGAGAAGAATTCTACCTCGCTTATAGTCCGGAAAGAGTTTATTCTAATCGAATAATAGAAGATTTAAAAAAATATCCAAAGATAGTTGGCGGAATCAATGAGAAGAGTCGGGAATTAGCTGTAGATTTCTATAAAAAAGCATTAAATTGTAAGCTAATTGAAGTGAGTTCATTAGAAACAGCAGAGTTTTCTAAAGTTGCAGAATGTGTGTACAGGGATGTAAATATTGCGCTTGCAAATGAGCTTGCAAAGTTTACGGAAAAAATCGGTGTAAATATGTCTGAAGTAAGGAAAGCCAGTAATAGTCAGCCTTATTCCTATTTACATGAGCCTGGAATTGGCGTTGGAGGACATTGTATTCCAATATACCCGTATTTTTTTATTAATAAAGGTTTGACAAAAGGGATAACTCCAATGGCTCGCAAGATTAATGATAGCATGGCTGATTATGCAATTAATAAGGTGGAAGAGGAAGTTGGAAGTTTAAAAGACAAAAATGTTCTTATCCTTGGTTTAGCATACAGGGAAAATGTAAAGGAACCAACCAAATCTACCACATTACTTTTAATTGATCGATTAATCAAATTAAGAGCAAATGTGTTCGTAAATGATCCTTTATTTACAAATAGTGAAATAAAACAATATGGTGTTTCTCCTTTATCTTTACAGAGTGAATTCACTTCAAAAATGGATGCGGTAATTCTTCAAGCCTTTCATAAAGCGTATGCAAGTTTAGATTTCAAAAAATTTATAAGCTGTAGGATTATTTTAGATGGACGAAATAAATTAAATAAAAATGAGATTCAAAGGCTTGGAATTACTTATAGAAGTATAGGTAACGATGATATAAAGGAGAGGCTGTGA MINQEETLANVTVVGLGKIGLTLAAVFANNHFNVYGSDINEDVVATINQGKSHITNEPGLDQLVAAAYNSKTLSATTETAEAVAKSNIVIVIVPVLIDNQYNVDYQFIDAAVKEIARGMKEDTLVIFETTIPPGDTQYRFGKKLEELSGLRLGEEFYLAYSPERVYSNRIIEDLKKYPKIVGGINEKSRELAVDFYKKALNCKLIEVSSLETAEFSKVAECVYRDVNIALANELAKFTEKIGVNMSEVRKASNSQPYSYLHEPGIGVGGHCIPIYPYFFINKGLTKGITPMARKINDSMADYAINKVEEEVGSLKDKNVLILGLAYRENVKEPTKSTTLLLIDRLIKLRANVFVNDPLFTNSEIKQYGVSPLSLQSEFTSKMDAVILQAFHKAYASLDFKKFISCRIILDGRNKLNKNEIQRLGITYRSIGNDDIKERL NA NA NA NA NA AK015_00371 1125 fdtB dTDP-3-amino-3,6-dideoxy-alpha-D-galactopyranose transaminase ATGTCTAACGATAAATTAACTCCTATTCCAATGGTAGATTTAAAGGAAGAGTTAGATTTAATAAGAAAATTAATTATACAGGAATTAACTGACGTACTTGATAGTGGTATATATATATTAGGAGAAAAAGGAGAAAAATTAGAAAGGGAAGTAGCTCATTATGTGGGAGCAAGCTATGCAGCTGGGGTAGCAAATGGAACGGATGCCTTAGAGTTATCCCTTCAAGCTTTAAATATTGGATATGGGGATGAAGTGATTACTACTCCATTTACTTTTTTTGCTACTGCAGAGGCCATTGCAAGAGTTGGCGCGACCCCTGTTTTTGTAGATATTGAAGAAGAAACGTACAATATAGATCCTATAAAAGTTGAAAAAGCGCTAACTAAAAAAACAAAAGGTATTATCGTAGTTCATTTATATGGTCATGTTGCGAAAATGGAAGAAATTATGGATATTGCTAAAAAAAATGATTTAAAAGTTATTGAAGATGCGTGTCAAGCGCTAGGAGCAGAATATAATGGGGAAAAAGCAGGGGCAATTGGTGATATCGGTTGTTTCTCCTTTTTTCCTTCCAAAAATCTCGGCGCTTTTGGTGATGCTGGGATGGTAACTACGAATCAAAGAAACTTATATGAACAGATTTGCCGACTTAGGAATCATGGAAGTAAAACAAAATATTATCATTCAACAATTGGTATGAATAGTAGGCTTGATGAATTTCAGGCTGCAACCTTATTAGTTAAACTAAAATATTTAGATATTTTTTTGCATCAGCGAAAGGAAGTCGCAAGGAGATATACAGACAGCTTTCATAATCTAATAAAAAGTCCAACTATACCAGAAAATAAAGCGCATACCTTTCACCAATATTGTATTGAATTAGATAAGAGAGACGAACTTGCTCTAGATTTAAAAAATAATGGAATTGCTTCTTCTATTTATTACCCGATTCCTTTACATTTGCAGGCCGCTTTTGATTATCTAAAATATAAAGCAGGAGATTTGCCAGTTGCAGAAAAAGCCGCCAAAAGAACGCTTGCTCTGCCAATTTATCCAATGCTATCTATTCAAAAGCAAATGTATGTGATTTCAACAGTATTAGATTTTTTAAATCGAAAACCTTAA MSNDKLTPIPMVDLKEELDLIRKLIIQELTDVLDSGIYILGEKGEKLEREVAHYVGASYAAGVANGTDALELSLQALNIGYGDEVITTPFTFFATAEAIARVGATPVFVDIEEETYNIDPIKVEKALTKKTKGIIVVHLYGHVAKMEEIMDIAKKNDLKVIEDACQALGAEYNGEKAGAIGDIGCFSFFPSKNLGAFGDAGMVTTNQRNLYEQICRLRNHGSKTKYYHSTIGMNSRLDEFQAATLLVKLKYLDIFLHQRKEVARRYTDSFHNLIKSPTIPENKAHTFHQYCIELDKRDELALDLKNNGIASSIYYPIPLHLQAAFDYLKYKAGDLPVAEKAAKRTLALPIYPMLSIQKQMYVISTVLDFLNRKP PGPT0022700_339 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022700-wbpE|wlbC-K13017 NA NA AK015_00372 1284 hypothetical protein ATGTTGAAAGATATTTCAGTTATCATTATTTTCCCTTTCAGCCAAAAAGTACTTCAACAAATGTTAGTGTCTTTGCGAAAACTCCAAGCAAGAATAAGTTCCGTTATCGTCATACAAGCTACAAATATAACTCTTAACAAAAATCAGGTGAATGATTGGTTAAACGATATATGCTTTATTACTAGTAAAAACAATGAATTAGCACATACATTAGATAATATAATGGATCAGACAAATAACCGTTATGTTTTATTCCTTTCTCATACACATTGTTTATCCGCTTCTGTAAACTCAGAAATGCTTCAGCTAGAACAACCAAAGACTGTATTAACAACTGGGTATCGTTTCAGAAATCATGCTATTTACCTGCCACTTTTAGCTTTAAGTAAATATATAAAAAAAATAGGAGGTTTCACCAACATCCACCCCCCATTTAATGAAGCATTTTTACCTGTTTGGCTCGCAAATTTAGATAAATCAAGTCAATTAACTATAGAAAATCTCATTAATCCATCAGTGGAAACAAGAAACACTACTACAAGCGCAAAATATATGATAGCGCAAAAATATCAATTTAAAAAAGAAAATCTGACCAGCCCCTCTCTATCTGTACTCATATCCAATTATAATATGGAAAAATATGTGGATATCGCAGTTGCTTCCTGTCTATTACAAAACATGCCATTTGATCAAATACTAATTATCGATGATGGATCGACAGATTACTCCTTAAAAAAACTATTACAATGGGATAGAAATAAACAGGTGAAATTAATTACTAAAAAAAATGAAGGGAAGGCGAAAGCTCTTAATACGCTACTCCCCCATGTTACATCAGAATTCATCTTAGAGCTTGATGCAGATGATTGGCTTGATCCGAATGCAGTAGCCATGATAAAGAAGCACCTATTAGAGCTTCCTGAAAATTCGTCTTTACTCTATGGTAATTTTAGAAGATGGAAACAAATAAATGATGAGGTTTTTTTCAAAGGAATTAAAAAAGGGAAACAAATTCACAGGCCTGCTGAATTGCTAACCTATTCTTTTCCTCTTGGACCAAGAATATATCGAACCTCTACTTTAAAAAGTACAGGTGGCTTTCTAATCAATGACTTTGAAAATGGCAGACTGTATGAAGATGTAAGTACGCTATTGCAATTAATAAAGCACTCTAAAATAAATTACAGCAATTTCACTATCTATAATATTAGAGAACATCAAGAAAGTATTACCACAATAAACCGTAGTAAATGGAGTGAGTATTTGAATCATATAGATCTGTAA MLKDISVIIIFPFSQKVLQQMLVSLRKLQARISSVIVIQATNITLNKNQVNDWLNDICFITSKNNELAHTLDNIMDQTNNRYVLFLSHTHCLSASVNSEMLQLEQPKTVLTTGYRFRNHAIYLPLLALSKYIKKIGGFTNIHPPFNEAFLPVWLANLDKSSQLTIENLINPSVETRNTTTSAKYMIAQKYQFKKENLTSPSLSVLISNYNMEKYVDIAVASCLLQNMPFDQILIIDDGSTDYSLKKLLQWDRNKQVKLITKKNEGKAKALNTLLPHVTSEFILELDADDWLDPNAVAMIKKHLLELPENSSLLYGNFRRWKQINDEVFFKGIKKGKQIHRPAELLTYSFPLGPRIYRTSTLKSTGGFLINDFENGRLYEDVSTLLQLIKHSKINYSNFTIYNIREHQESITTINRSKWSEYLNHIDL NA NA NA NA NA AK015_00373 774 trpA_1 COG0159 Tryptophan synthase alpha chain ATGGGGAAAGAAAAATTAACCAATCACCTTCACCAACTACAAAACGAAAGTAAAAATCTTTTTGTTCCCTATATTATGGCTGGCGATGGTGGATTGGATAAATTAGAGGAAAATATCCAACTTTTGCAAAATTGCGGTGTCGCTGCTATAGAAGTAGGTGTTCCATTTTCTGATCCCGTTGCAGATGGGCCAACAATACAAAACGCTGGTAAGCGTTCACTTGAAAATGGCACGACATTGACAGCAGTATTACAAAAGTTAGAATTATTTAAAGCTAAGCGTACAGTACCAATCCTTGTTATGACCTATATAAACCTTATATATAAGTATGGCGTGAGCCGTTTTGCTAAATCCTGTGTGCAAGCTGGAATAGATGGTTTAATTATTCCAGACCTCCCCATCGAAGAGGAAAAAATGGTAACAGACGTATTAAATCAGCAATCCATAGCACTTATAAGACTTGTTGCTTTAACAAGCTCAAAGGATAGAATTAAAATGTTAGCCAATCGCTCTGACGGATTTCTTTACGCTGTCACTGTTACTGGGACAACTGGGGAAAGAACAACTTACGAAAAAAAAGTAAAAACATATCTTTACCAATTAAAACAGCAAAGCCCTGTTCCTGTTCTAGCTGGATTTGGTATATCCACAAGTGAACAGGCTATAGAACTAGCTTCATATTGCGATGGTGTTATCGTTGGAAGTAAAATCGTAGATCTTTTTCATCAAGGAAAAACAGCAGAAATTAAACAACTCATACAAACAAGTATTTAA MGKEKLTNHLHQLQNESKNLFVPYIMAGDGGLDKLEENIQLLQNCGVAAIEVGVPFSDPVADGPTIQNAGKRSLENGTTLTAVLQKLELFKAKRTVPILVMTYINLIYKYGVSRFAKSCVQAGIDGLIIPDLPIEEEKMVTDVLNQQSIALIRLVALTSSKDRIKMLANRSDGFLYAVTVTGTTGERTTYEKKVKTYLYQLKQQSPVPVLAGFGISTSEQAIELASYCDGVIVGSKIVDLFHQGKTAEIKQLIQTSI PGPT0007070_4213 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 AK015_00374 1197 trpB COG0133 Tryptophan synthase beta chain ATGCCAACCTACACAATGCCTGATGTAAATGGAAAGTTCGGTAAATTCGGAGGAAGATACGTTCCAGAAACACTTATGCCCGCTTTACTTGAGTTAGAGCAAGCTTATGAAGAAGCAATGAATGATCCAACATTTACAAAAGAATTAAATGATTATATGACCCAATATATTGGTAGAGAAACTCCATTATATTATGCAAGGAATCTCACGAAGCGGTTTGCAGGACCACACATATATCTAAAGCGTGAGGATTTAAACCATACAGGAGCACATAAAATAAATAATACGATCGGTCAAGCTTTGTTGACGTGCCGAATGGGCAAGAAAAAAGTTGTTGCAGAAACTGGTGCTGGACAACATGGAGTAGCTACTGCAACAGTTTGCTCCCTACTTGGTCTGAAATGTGTTGTATTTATGGGAGAAGCAGATATGCGCAGACAAAAACTTAATGTATTTAGGATGGAACTATTAGGTGCTGAAGTACGCAGTGTTAAAAATGGGAGTGGTACTTTAAAAGATGCAGTCAATGATGCCCTAAGGTATTGGGTGGCAAATGTTGAAGATACGCATTATATTCTTGGTTCTGTTGTGGGACCTCATCCATTCCCAAAAATTGTCCGCGATTTTCAATCTATTATTGGGAAGGAAACGAAGAACCAAATGCTTCAGAAGCACGGTTCATTACCAGATGCTATCGTTGCATGTATTGGCGGGGGAAGCAATGCCATGGGAATTTTTTATCCCTTTATAGAAGATAAGGATGTAAAGTTATATGGTGTAGAGGCAGGAGGAGTCGGGATAGATACCAACCAGCATGCATCTGTATTAGTAAGACCAAACCCTGGGATCCTGCATGGGACAATGACAAATTTACTGCAAGATGATCATGGACAAATTCAAGAAGCTTTTTCGATTTCAGCTGGTCTAGACTACCCTGGTGTTGGACCTGAGCATAGCCATTTAAATGATACAGGACGAGTAATATATGAATCAATTACTGACGATAAAGCTGTGTCTGCATTCCAAACATTATCTCAGACTGAAGGCATTATTCCAGCATTAGAAAGCGCGCATGCGATTGCTTTTGTAGAGAAACTAGCTAAACGAATGACCCCCGCGCAAACGCTTGTAGTTTGTCTTTCGGGCCGCGGTGATAAAGATGTCGAACAAATAAAACAAATATTGGAGGAGAAATAA MPTYTMPDVNGKFGKFGGRYVPETLMPALLELEQAYEEAMNDPTFTKELNDYMTQYIGRETPLYYARNLTKRFAGPHIYLKREDLNHTGAHKINNTIGQALLTCRMGKKKVVAETGAGQHGVATATVCSLLGLKCVVFMGEADMRRQKLNVFRMELLGAEVRSVKNGSGTLKDAVNDALRYWVANVEDTHYILGSVVGPHPFPKIVRDFQSIIGKETKNQMLQKHGSLPDAIVACIGGGSNAMGIFYPFIEDKDVKLYGVEAGGVGIDTNQHASVLVRPNPGILHGTMTNLLQDDHGQIQEAFSISAGLDYPGVGPEHSHLNDTGRVIYESITDDKAVSAFQTLSQTEGIIPALESAHAIAFVEKLAKRMTPAQTLVVCLSGRGDKDVEQIKQILEEK PGPT0007075_3387 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 AK015_00375 633 trpF COG0135 N-(5'-phosphoribosyl)anthranilate isomerase ATGCTCGTTAAAATATGTGGCATTCAATCCGTTGCTGCTGCTCGGGCAGCTGTCGAAGCAGGAGCAGACTTCATTGGCTTTGTGTTTGCCGAAAGCAAGCGATCGATCACTCCTAAAGCTGCTGCTACCATCGCAAACACCCTCCCCCCTTCAATAAAGAAGGTTGGCGTGTTTGTAAACGAAACTGTTGACATTATGAATACAATCGCTGCACATGTCCCACTTGACTATATCCAACTTCACGGTCAAGAAACCGCTGCTGTAGCTGCAAAACTAACATGTAAAATAATTAGAGCGTATCCGGTATATGACGAAAATGTATCTTGTATTAAACCATTTCCTTGTAATTTCTACTTGTTAGATGGCCCAGTAGGAAAAAGACCTGGGGGTAACGGGATGACTTTTAATTGGAGTATACTCAATCATTTATCCATTCCAAAGGACAACATAATGATTGCTGGTGGACTAACACCTGAGAACGTTCATTCCGCTATAGAAGCCCTTCAACCATTCGCTGTTGATGTCTCAAGTGGAGTAGAAACAAACGGTAAGAAAGATTTTGAAAAGATAAATCAATTTATAGTTCATGCTAAACGAAAGGATGAATTTGATGCCAACCTACACAATGCCTGA MLVKICGIQSVAAARAAVEAGADFIGFVFAESKRSITPKAAATIANTLPPSIKKVGVFVNETVDIMNTIAAHVPLDYIQLHGQETAAVAAKLTCKIIRAYPVYDENVSCIKPFPCNFYLLDGPVGKRPGGNGMTFNWSILNHLSIPKDNIMIAGGLTPENVHSAIEALQPFAVDVSSGVETNGKKDFEKINQFIVHAKRKDEFDANLHNA PGPT0007115_3246 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 AK015_00376 792 trpC Indole-3-glycerol phosphate synthase ATGACTATTTTAGAGAAAATTATAGCACACAAGCAAATGGAGGTGGATAAGCTTTTGGAGGAAGCCAGGCTTTTTGATATGAGTAAACAACCGGTTCCTTTCAAAAATAGAGTGACTACTTCCAACGAGGTACAGATTATTTCTGAAATCAAACGTTCCTCTCCTTCAAAAGGAGATATAAAAGCGGAGGTTCATCCAGTTACACTGGCTAAACAGTATGAGGCTTACGGTGCAGTAGCGATATCTGTACTCACCGACAACGTTTTTTTTAAGGGGTCGATGAAGGATTTGCAAGCTGTTGCAGAAGTGGTGCAAATACCTGTCTTATGCAAAGATTTTATCATTCATACCGTACAAATCGATCAAGCTAAAGCAGCTGGCGCCTCCATCATATTATTAATTGCTGCTGCATTATCCAAACAAAAATTACATGAATTATATCATTATGCTACCGAAAAAGGACTTGAGGTTATTTGTGAAGTACATCAAATGGAAGAATTAGAAGCCATATTAGAACTAGACCCTGCAATTATTGGAATTAATAACCGGAATTTAAAAACCTTTGAAGTAGATTTACAAACAACAGTTAAACTAGCATCTCATATTAAAAATAAAAACACTTTAATTATTAGTGAAAGTGGAATTAGTACCCGTTCTGATGCACTTTTAGCACGAGATGCTGGTGCAGAAGCACTACTTATAGGTGAAACATTAATGCGTTCGACTAACTTATTTGAAACTTATCATACATTAAAGGTTTCCAAGGTAAGGGGGATACACGATGCTCGTTAA MTILEKIIAHKQMEVDKLLEEARLFDMSKQPVPFKNRVTTSNEVQIISEIKRSSPSKGDIKAEVHPVTLAKQYEAYGAVAISVLTDNVFFKGSMKDLQAVAEVVQIPVLCKDFIIHTVQIDQAKAAGASIILLIAAALSKQKLHELYHYATEKGLEVICEVHQMEELEAILELDPAIIGINNRNLKTFEVDLQTTVKLASHIKNKNTLIISESGISTRSDALLARDAGAEALLIGETLMRSTNLFETYHTLKVSKVRGIHDAR PGPT0007080_2188 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 AK015_00377 1026 trpD2 COG0547 Anthranilate phosphoribosyltransferase 2 ATGAGAAATTACCTTAAAAAACTAATCCAAGGTCATCATCTAAGTTTTCATGAGATGAAGAATGTTACACTCTCCTGCATCAATAATTATACAACAGAATCCGAAATAGCAGCTTTACTAACTGCATTGCAAATAAAAGGAGAAACATCTGATGAAATAGCTGGCTTAGTAGAAGTAATTCGCTCTCGATCACTATATAATACTACAAATGTAAAAAATGTCATGGACAATTGTGGAACCGGAGGAGATATGTCAGGGAGTTTTAATATTAGTACAACTTCTGCATTTGTAATTGCTGGTGCAGGTGTGCCAATTGCAAAGCATGGAAATCGTAGTATTTCAAGTAAAACTGGAAGTGCTGATGTCTTAGAAACACTTGGAGTTTCTCTATTTTTCACACCGGCACAGGTAGAAGAATCGTTAGATAAAAATAAGATTGTCTTTTTATTTGCTCCCCACGTGCATAACGCATTAAAGTCATTTTCCAAGGTTCGTAAAGACTTAGGACTACCAACCATTTTTAATATCATTGGTCCCTTAATCAATCCAGTTATGCTGCATTCACAGTTTATCGGTGTTTACCGTAAAGAAAAACTTGAAATCGTAGCTCAAACCTTGCATAAATTAGGGAGAAAGCGTGCTATCGTTGTCAATGGTGCTAATGGTATGGATGAAGCTTCCCTTTCAGGAGTAAACCATCTTATCCTGCTTGAAGATGGGAAACTAAAACCTTTCACTTTGCATCCAGAAGAAGTTGGATTACCAATGTATCCCAACGAAGAAATTCAGGGTGGTGACGCTAAGAAAAACGCTGCCATTATGAAAGACGTTTTGCAAGGGAATTCAAGCGCTTATTTAGATACTGTCCTTCTAAATGCAGGTCTGGGCCTTTACGCACATGGAACAGCATCTTCTATACAACAAGGAATGGAATTAGCGAATGAAAGTGTCCGTTCGGGAAAAGCACTAGCTTGCCTATTAAACTTGGTGGATTTTAGCAAGAAATGCACAAGAGAGGTGATTTAA MRNYLKKLIQGHHLSFHEMKNVTLSCINNYTTESEIAALLTALQIKGETSDEIAGLVEVIRSRSLYNTTNVKNVMDNCGTGGDMSGSFNISTTSAFVIAGAGVPIAKHGNRSISSKTGSADVLETLGVSLFFTPAQVEESLDKNKIVFLFAPHVHNALKSFSKVRKDLGLPTIFNIIGPLINPVMLHSQFIGVYRKEKLEIVAQTLHKLGRKRAIVVNGANGMDEASLSGVNHLILLEDGKLKPFTLHPEEVGLPMYPNEEIQGGDAKKNAAIMKDVLQGNSSAYLDTVLLNAGLGLYAHGTASSIQQGMELANESVRSGKALACLLNLVDFSKKCTREVI PGPT0007090_2491 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 AK015_00378 600 pabA_1 COG0512 Aminodeoxychorismate synthase component 2 ATGATTGTGTTAATAGATAATTTTGATTCATTTACTTATAACATCTTCCAATATGTCTCTAAAGAGGGCTTTCATGTTCACGTTGTTAGAAATAACAACATTACACTCAATGAGATAAATATTCTTAATCCTGAAGCAATTATTATATCACCAGGACCTGGCCTTCCAGAACAAACAGGAGCCTGTCCAGAAATAGTTAAAAACTTTTATCAGAAAATTCCTATTTTAGGTGTATGCTTGGGTCACCAAATTATCGGTGAGGCATTGGGAGCTTCCCTTCAACCGTCTAACCAAATAATGCATGGTAAAACATCACTTATTACGCATAATGGATCTGGGATTTTTCAATACTTATCGCAACCACTTGAAGTCATGCGCTATCACTCATACGTTATTGAGGCGAATTCCCTCCCACAACAGCTTGAGCTAGTGGCAACATCGCTTGAAGACAATGAAGTTATGGCTATTCAGCACACTTTTTATCCAGTATACGGCGTGCAATTTCATCCTGAATCTATCGGTACAACTTCAGGAAACAGGATAATGCATAACTTTTTACAAAAAATTAGAAAGGAGACTTCATATGAGAAATTACCTTAA MIVLIDNFDSFTYNIFQYVSKEGFHVHVVRNNNITLNEINILNPEAIIISPGPGLPEQTGACPEIVKNFYQKIPILGVCLGHQIIGEALGASLQPSNQIMHGKTSLITHNGSGIFQYLSQPLEVMRYHSYVIEANSLPQQLELVATSLEDNEVMAIQHTFYPVYGVQFHPESIGTTSGNRIMHNFLQKIRKETSYEKLP PGPT0007105_1325 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007105-trpG|phnB-K01658 NA NA AK015_00379 1425 pabB COG0147 Aminodeoxychorismate synthase component 1 ATGCTTATAGGAAAGGATGAAATTGCAATGGAAAAAGAAGCAGTTTTTAAATTTATCAAACTTAATGCAGATACATTAACTCCTGTAGAATTATTTAAGCGATTAACAGGCAAGAAAAAATTCTTGTTAGAAAGCACCTTGCAGCACGAAAAGAAAGGAAAGTTTTCCTTTCTTGGTTGCCATCCTTATGAAGAGATTATTGGTTTTGGTAATACAACTAAGCATATTGATCTTGTCAATCATACAACTAAAACCATCCAACAAAACGCTTTAACTTATATGGAAAGGCATCTTCCCCATATATCCATTGATCTACCACTCCCCTTTTACGGTGGAGCAATTGGCTATGTTGGCTATGATACTATTCGAGCCAGCGAGCATATTGGAGAAGCGTTAACGAATGATGTAAACATGCCTGATATCCATCTTATGCTTTATAAAAATGTTCTCGTGTTCGATCACACAAGTGAAATCCTATATGTCATAGCAATTCAAGTGGGTGCGGAGCCCGAAAACTTAGATAATCAATTGGCAAATTTACAACAGCAAATTAATGATGCGAAATATACAAGTGCTTCACAAGAAGCACCTATTACCTTTTATCCTGAAATAACCAAAGAAGCCTTTCAGCAAAAAATTACAACAGCAAAAAAACATATCCAACAAGGTGACATATTCCAAGTTGTTTTATCTCAGCGTATGAAAGCAACTGTGAGGGGAGATACCTTTTCATTTTATCGTCAACTCCGAAAGGCGAATCCATCCCCATATATGTTTTATATCGATTTTGAACATTATCTTATTCTCGGGGCATCACCAGAAAGTTTAATTGAAACTCGTGGTAGGAGTATCATGACAAATCCAATTGCAGGAACAAAGCCTCGTGGGAAAACCCCCCTTGAGGATGCACAACAAATGGATGACCTACTGAAGGATGAAAAAGAAATTGCTGAACATCGCATGCTCATTGATTTGAGTAGAAATGATCTAGGACGTATATGTGAAGTTGGAAGCATTAGCATTCCAACCTATATGACAATTGAAAAATACCAACACGTTATGCATATTGTCTCAGAAGTGCATGGAACACTTCGAAATAGATACAACTCATTTACTGCTTTAAAATCCTGCTTGCCTGCTGGGACTGTCACTGGAGCACCAAAGATTAGAGCGATGCAAATCATTAATCAGCTAGAAAAAACAAGAAGAGGCTTCTACGGTGGAGGCATTGGCTTTATCAACTACAACCATGACTTAACAATGGCGCTCGCAATTCGATCCACCATCGTTACCGGTAAACACGCTTATCTACAAACTGGAGCTGGCATTGTACATGATTCTGATCCAGAGAAGGAGTATATGGAAACATTGTTTAAAGCCAAATCCCTTATGGAGGTGTCTATAAATGATTGTGTTAATAGATAA MLIGKDEIAMEKEAVFKFIKLNADTLTPVELFKRLTGKKKFLLESTLQHEKKGKFSFLGCHPYEEIIGFGNTTKHIDLVNHTTKTIQQNALTYMERHLPHISIDLPLPFYGGAIGYVGYDTIRASEHIGEALTNDVNMPDIHLMLYKNVLVFDHTSEILYVIAIQVGAEPENLDNQLANLQQQINDAKYTSASQEAPITFYPEITKEAFQQKITTAKKHIQQGDIFQVVLSQRMKATVRGDTFSFYRQLRKANPSPYMFYIDFEHYLILGASPESLIETRGRSIMTNPIAGTKPRGKTPLEDAQQMDDLLKDEKEIAEHRMLIDLSRNDLGRICEVGSISIPTYMTIEKYQHVMHIVSEVHGTLRNRYNSFTALKSCLPAGTVTGAPKIRAMQIINQLEKTRRGFYGGGIGFINYNHDLTMALAIRSTIVTGKHAYLQTGAGIVHDSDPEKEYMETLFKAKSLMEVSINDCVNR PGPT0007095_4149 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 AK015_00381 348 hypothetical protein ATGAATTATCTTAATATTGTCATCAATAACTTAATCAATGTTAAAACAATGATGAAGAGTAGTAATCTAATTGAGCGCAAAAGAGAGCTGATGGATGGTGAGAATCAGTGTGTTTCATTAGATGAATGGACTTCGGAGTTTCCAAACCGAACCGTAATTGTAGTAGGCTTTGGCGAGTTAATCTCATCGTTATCTGAGAACTACATGAAGCTAAGTAAAGCTTCATGTAATAAAGTGAGTTGTATATATGCAGCTAATAAAGGTGGTACCACGGTCCCTCGTCCTTTGTCGGATGAGGGGTTTTTTGTATTTATAAAGGATACGGTTGAAGAAATTAGCATTAAATAA MNYLNIVINNLINVKTMMKSSNLIERKRELMDGENQCVSLDEWTSEFPNRTVIVVGFGELISSLSENYMKLSKASCNKVSCIYAANKGGTTVPRPLSDEGFFVFIKDTVEEISIK NA NA NA NA NA AK015_00383 711 hypothetical protein ATGTCCTCTAAAAAATATTACAAAAGTGTTGCGATGTCAGGAAACCAGGTGAAAAAATGCAAACCATACCCTAAGCAAAGATGTTTTAAAGATGACTGTTGTAAGCGCGAAACTTGTGAATGTAATTTTAAGAAGCCACAATTCAAGCCCGCAAAATTAACTAGTGATTGTGTTGTGGTTAATTCACTAGTAGGTTCAAAATCTGTTCAAAAGGTGGCTGAAACAACACTTCCCATTACTCTATTCCCAAATTTACTCGATATTGCTGATCTTGTTTCTGTGAATGTGGTGCCCAATTTAGATGAAATTACACAAAATGCCAGAATCATAAAAGATAAAGTAGTTAATATTGGATTAGTGCCAGCAACTATTTCTGTTACAATTGCAGGTGTAGCTTTACCAGACATTATAACAACAACTATCCCATTCCAAGCGCATACTGATTTCTTCGGTGCTTGTCCACAAGATATGCTACAGGAGACGCCACTTGAAGTAGAAGGAATTTTCACACAACCAGGAGTAGAAGTTGTCAACGCAGCTGGAACGGGGCTTGTTGAGGGTATCTTAGTTAAAATTGTATTACGCACACAAATTACAGTTACTAGACAAGTTATCAAAGATCAACAAGGTAATGTCTGCGAAATTAATCCCAACCGCTGTGAAATAACAGATACTCCATCATTTAGTTTCCCAACACCAAACGGTGGCTAA MSSKKYYKSVAMSGNQVKKCKPYPKQRCFKDDCCKRETCECNFKKPQFKPAKLTSDCVVVNSLVGSKSVQKVAETTLPITLFPNLLDIADLVSVNVVPNLDEITQNARIIKDKVVNIGLVPATISVTIAGVALPDIITTTIPFQAHTDFFGACPQDMLQETPLEVEGIFTQPGVEVVNAAGTGLVEGILVKIVLRTQITVTRQVIKDQQGNVCEINPNRCEITDTPSFSFPTPNGG NA NA NA NA NA AK015_00384 1239 hypothetical protein ATGCATCGATACGAGTTGTACAATGTTAACGATATTGACAAGTTAAAAAAAGAGCTCAATGCCTACAAGGAAACGATGAGAACTGTAACAGAGGGAAAATTAGTGGAAGATTATCTTAAAACAAAAGATGATTTTTATGATTTGAAGATGAAAATTTTTAAACTAAAAGGGGAAATGAAAGCGATGGAAAATAAATTTCAAGAAGAATTTCTGAAATATCAAATGGAGGAAGAGCATCTAGCTAACCAGCAAGTGTCTATCCTAAATACTTTAGAGCGATTAGATCAACAAACTGAAATAATTAAGCATCAATTAGAACAGGTATCATTTGCTGAGCTTTTCAAAAAAATTGATCAATTACTAAAAACGCATAATGAAAAATCGGAGGAGCAGATAAAAGAGCTTGAAAGTTTAAAAGAAGAGATTCTACAAATAAAGGAAATAATGAAAACGGAAGAGAGTACTACTTCTAAAAATAAACGTTCCACTCATAAGTCAGAATATAGGCAATTACAGAGCTTACTGCAATATCCCAACCAAGTTGAACAACAATCAATCAGCAAAAAAAAAAATAATCAAGTAAATAGACAACACTATAGCCGGACAAAGTCAAACCATGGAAATTCCTATAATCCCCATCATTATGACACAAAAAATTCTGGAACTATATCTATGAATAAAGCAAAGAAGACTTTTCTCAATTCCCAATATGAATTAAATAAAAATATTGTTACTCGTACAGCTACTCCCAAAAGCAAAACTCAAGTTGAAAACAAAGAAGAAAAGCTAGATACGGACAATACAATACCTACTTATGAGAATGCTAACCCTCACAGTGATGAATTAAAACTAGAAAATAATGTGGAGAAACAGGTACAGGATATAGAACTAGAAAATAGTGTCGAGAAACAGACACCAAATGCATTAATAGGAAAAGTATTAGAGAGTAATACAGATTCTCCAAACAACGAATTAGAAAAAAATGAAAATAACACAGACTCTGGGAAACAAGCAGAAGATGCAGAGAGTAATATAAACTTTACTGAAAATCAGATAGAGGAAACAAACAGTAGTACAACATCAACTGAAAAACAAATAAAGGGTGCGGAGATGAAGCAACAATACTTTACTGAAAAACAAATAGATCAAACAGAAAATACTAACGCAATAAATGCTGATGAATCAGTTAAAAAGTCAGATTCCTTGACATCCTTCCTTTCCTTATTTAAGAGAGGATAA MHRYELYNVNDIDKLKKELNAYKETMRTVTEGKLVEDYLKTKDDFYDLKMKIFKLKGEMKAMENKFQEEFLKYQMEEEHLANQQVSILNTLERLDQQTEIIKHQLEQVSFAELFKKIDQLLKTHNEKSEEQIKELESLKEEILQIKEIMKTEESTTSKNKRSTHKSEYRQLQSLLQYPNQVEQQSISKKKNNQVNRQHYSRTKSNHGNSYNPHHYDTKNSGTISMNKAKKTFLNSQYELNKNIVTRTATPKSKTQVENKEEKLDTDNTIPTYENANPHSDELKLENNVEKQVQDIELENSVEKQTPNALIGKVLESNTDSPNNELEKNENNTDSGKQAEDAESNINFTENQIEETNSSTTSTEKQIKGAEMKQQYFTEKQIDQTENTNAINADESVKKSDSLTSFLSLFKRG NA NA NA NA NA AK015_00385 669 hypothetical protein ATGCAGGCAAATAATTTTTCTGGGGGTCAGGAGCTCCTATGTATTAATACAGAAAAGGTATATGACTGGATTCTGAATGAAGCCACATTTGATCTGAACTTAATGGATATGGAATTGCCAGCAAATCCAAATACGGGTGAACAGTTGACATGTGCTGATATTGATATAGATACAGTTACATGTACAGTTACACCTTGTGATACCGAGCCAATTGTTATTTTGGATCGAGTAGATCAGGATTTTGTCATTGATGGTACAGAGGTGACGTTACAGCTGGTTAATATTCGTAAAAACTTTGTTGTAACAGTTTTTGTTGATTTATTACCAGAAGTTTGTAGTGGAACAGTAGAGGTCTGTGAAGCATATTTTACACGTTGTGAACAAGTAGTGCTTTGCGCACCTGAAGGAACAGAAATTGATGTGGCTTACACAGACTTAGATTGCTTTGTTTGTACTGCGGCTTGTGATGATTCAGTTCATCCAAATGAACTAGATGTAACGCTTACTGTTCGCTTATGCCAAAGCATTCAATCCACATTTGACGTCACTCTTGAAATCGTAGCAGATTTCTGTGAGCCAAGAGATGTTCTTCCGGTAACGCCATGCCCTACGCCAACTATGCCACCACAATGTCCAGTTATTTTCCCGAATAATGGTTGTATTGACTAA MQANNFSGGQELLCINTEKVYDWILNEATFDLNLMDMELPANPNTGEQLTCADIDIDTVTCTVTPCDTEPIVILDRVDQDFVIDGTEVTLQLVNIRKNFVVTVFVDLLPEVCSGTVEVCEAYFTRCEQVVLCAPEGTEIDVAYTDLDCFVCTAACDDSVHPNELDVTLTVRLCQSIQSTFDVTLEIVADFCEPRDVLPVTPCPTPTMPPQCPVIFPNNGCID NA NA NA NA NA AK015_00386 567 hypothetical protein ATGGAAAAAATAAGAACAATTCAAAAGAAACTACGTGATTTGCAGGAAATCAATGACGCCTACTTAAAGGAACTAAAGACAGTAGCGAAGGAGGTTCAGAAAAAACACATACAGATTGTGAGTTTCTTTACTTATTCCATTAATTTGAACCATCAATCAGATGGAGAAAATCTGATTATTGGTTCCTATCACATAACTAATTTGGGTTTTAAACCGTTGCACCATCCATATATATGCATCAAGCTAAACGCTGAAGACCAGTTCGACTTTTCTGGTAAGTATTTTTATGAACAAACACAACAAAAAATGAAACTCGCTAATGCTTGGTTGAGATTCAATGAAGCAAGTGATCAACAAGAATTTTGGTTAAAGCCAAGTAAGCAGCAAATACTTTATCCACAAGAAACTTTAACTTTTCAAAATTTTCAATTAAAATGGGTGCCGAATATGTCATACAGCTGTAGTGTAAAAGGGTTTACATATGGAGATGAAGTAGAAGAAGGGATGAACGCAGTAAATCAAATCAGTGTTAGTGGAAAAGTGGAGGAGGAGAAGGGACATGAATAA MEKIRTIQKKLRDLQEINDAYLKELKTVAKEVQKKHIQIVSFFTYSINLNHQSDGENLIIGSYHITNLGFKPLHHPYICIKLNAEDQFDFSGKYFYEQTQQKMKLANAWLRFNEASDQQEFWLKPSKQQILYPQETLTFQNFQLKWVPNMSYSCSVKGFTYGDEVEEGMNAVNQISVSGKVEEEKGHE NA NA NA NA NA AK015_00387 297 hypothetical protein ATGAATAACGAAGAAATGGAAAAATTGTGGAAGGAATCCATCTATTCATTGATTAAAAATCACTTGGAAGCATTAAGGGAAGACACATCATCTCCTAATAGTAGCTTTGTATACTTAGAAAATAATACGTTACAAATGATCATGGCATATATGTTTATGAATATGAATCGCTCAACGGATTATAGTAATAATTCAATGGATACAGCGGAATTAGTAGATATAGAAAATAATCTGGACGCGTTAATTGATTATAGTAAAAAGGAGTTTGAAACAATACTAGGTATGCTAAAAGGCTAA MNNEEMEKLWKESIYSLIKNHLEALREDTSSPNSSFVYLENNTLQMIMAYMFMNMNRSTDYSNNSMDTAELVDIENNLDALIDYSKKEFETILGMLKG NA NA NA NA NA AK015_00388 1101 ddlA COG1181 D-alanine--D-alanine ligase A ATGAGAAAGAAAAAAGTGGGAATTATTTTTGGCGGGAAATCTGCTGAGCATGAAGTATCACTTCAGTCAGCTAAAAATATTGTTGATGCGATAGACCGTGATAAGTATGAGGTTGTTTTAATTGGGATTGATAAGGATGGGAAATGGCAATTAAATGAGTCATCTTCTTATTTGCTCCACGCGGATAATCCAAAGCTGATTCAATTAAACAAATCGAATGATACAGTTGCGATTGTTCCTGGAGATAAGGAGAGACAATTTATCCATACCTCTAACGCAACAAAGCTAGAAGAAGTAGATGTTGTGTTTCCAATTGTGCATGGAACATTGGGAGAGGATGGAAGTATACAAGGAATGCTTCGTTTAGCAGACCTTCCATTTGTGGGACCAGACGTTTTAGCTTCTTCTGTTTGTATGGATAAAGACGTTGCGAAGCGTTTATTACAAGGAGCTGGAATAAACGTTGCTAAAGGACTTGTATTTAGAAAAAATGAACAAGATGAGATAAGTTTCGAAACAGCTGTGGAAGCATTGGGAAATCCAATGTTTATTAAACCGGCTAATCAAGGTTCATCTGTTGGCATTAGCAAAGTAACGACAGAAGAAGCGTTCTATCAAGGTGTGCAAGAAGCATTTCGCTATGATCATAAAATTGTTATCGAAGAGTGCATTATTGGTAGAGAGATAGAATGTTCAGTATTAGGAAATGAGGAACCAAAAGCATCATTACTAGGAGAAATTTTACCACAAACCGAATTCTATTCGTATGAATCAAAATACATTGACGAAAAAGGGGCAGAATTAGCGATCCCTGCAGATGTGTCTGAGGAGACAACGAAGCGTGTTCAAGATGTTGCTATTCAAGCGTTTAAAGCATTAGAGTGTGAAGGTTTAGCAAGAGTAGACTTCTTTTTAACAGAAGCTGGGGATATTTATTTAAATGAAATTAATACGTTACCTGGATTTACAAAAATAAGTATGTATCCAAAATTATGGGAAGTAAGTGGGCTTTCTTATCAAGAATTAATTACTACGTTAATTGAACTAGCAATGGATCGGCACAACCGAAACCATGGACTAAAAAGTTCTGTATGGGATTAA MRKKKVGIIFGGKSAEHEVSLQSAKNIVDAIDRDKYEVVLIGIDKDGKWQLNESSSYLLHADNPKLIQLNKSNDTVAIVPGDKERQFIHTSNATKLEEVDVVFPIVHGTLGEDGSIQGMLRLADLPFVGPDVLASSVCMDKDVAKRLLQGAGINVAKGLVFRKNEQDEISFETAVEALGNPMFIKPANQGSSVGISKVTTEEAFYQGVQEAFRYDHKIVIEECIIGREIECSVLGNEEPKASLLGEILPQTEFYSYESKYIDEKGAELAIPADVSEETTKRVQDVAIQAFKALECEGLARVDFFLTEAGDIYLNEINTLPGFTKISMYPKLWEVSGLSYQELITTLIELAMDRHNRNHGLKSSVWD PGPT0020050_1239 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921 NA NA AK015_00389 561 ydjA COG0778 Putative NAD(P)H nitroreductase YdjA ATGGGGAATATTACGACAAACTCGCAGCTAGCGAAGCTTATCCGCGAACGCCGTGCTGTTAAAAAAGGGTATAATGATAAAGAAGTAACCAAAGAGAAGGTATTAGAAATACTGGAGGATGCGATTTGGGCGCCTACGCATGGGATGCGTCAACCATGGCGATTTATTTTTGTAGAGAAAGATCAACTTCCAGAGTTTGCAAAGAAAGTTGCTGCTACGTACCCACCGGAAAGACAACAAAACAGAGAAGATTATTTAAACGAGCCGAATGCCATTCTTGTCGTTGTTATGGATGAACCAGAATCACAAAAAGAATGGGAAGAAAATTACGGTGCAGTTGCTTGTATGATTCAAAATTTCTGGCTACTCGCTTGGGAAAGAAAACTTGGCGCGGTATGGAAAACAAACCCACATATTCAAGATCCAAAAGTAAAAGAAATCTTACATGTTAAGCCAAATGAAAAAATTGTTAGCTTCCTTCATTTAGGCTATTTTGATGAAGCACCGGCTCCTAAAGCCCGGATTAGCGTGGAGGATAAATTCTCGACTTACGAAGGATAG MGNITTNSQLAKLIRERRAVKKGYNDKEVTKEKVLEILEDAIWAPTHGMRQPWRFIFVEKDQLPEFAKKVAATYPPERQQNREDYLNEPNAILVVVMDEPESQKEWEENYGAVACMIQNFWLLAWERKLGAVWKTNPHIQDPKVKEILHVKPNEKIVSFLHLGYFDEAPAPKARISVEDKFSTYEG NA NA NA NA NA AK015_00390 1038 hypothetical protein ATGCAGCAATTTTTACAACGTAAAGGTGTCCATATTACAGGGAAAGCTTATTTTATCACCGCTTTAAGTTACATGGCGTTAGGTTTATTCTCATCCTTGATTATTGGACTTATTATTAAGACAGCTGGTGAACAGATCATCATCATGTTTTCTCCTTCATTGGCGGAAGTTTTTGTGGAAATGGGAAGTTTTGCAATGGACACAAAAATTATGGGTGGTGCTATCGGTGTCGCCATTGCTTACGGGTTAAAGGCCCCACCACTTGTACTATTTTCAGCTTTATTTGCTGGTGCATTTGGTGCAGAACTAGGTGGGCCAGCTGGAAGTTACATTAGTGCGGTATTCGCTACAGAACTTGGCAAATTAGTATATCAAGAAACACGTGTGGATATCATTGTTACGCCATTAGTAACGATTGTAGTAGGTTTTACAACGGGTAAATTTATCGGTCCTGGGATAAGTAGTTTGATGGAAGGCTTTGGCGAAATGATTAACTGGTCAACAGAACAGCAACCATTTATCATGGGAATTTTAGTAGCTGTATTGATGGGAATAGCATTAACAGCGCCGATTTCATCTGCGGCTATTGCTATTATGCTATCTTTGGATGGGCTAGCTGCAGGTGCCGCTACGGTAGGCTGCTCCGCACAAATGATTGGTTTTGCGGTGGCTAGTTATCGGGATAATGGATTTGGTGGCTTTATTGCGCAAGGTATTGGAACGTCGATGTTACAAGTCGCTAATATTGTAAAAAAACCAATTATTTTATTACCACCGACAATAGCAGGAGCTGTTGTTGCGCCGCTTGCTACTGTATGGCTAGAGCTAACGAATAATCCTTCTGGAGCTGGTATGGGGACAAGCGGCTTCGTTGGACAAATTATGACAATCGAATCGATGGGCTTTTCCATGCCTCTTTTTTGGAGTATGCTCATGTTACATATCATGATCCCGGCTATAATTAGTTTGCTTATTGTCACTTTACTTCGGAAAAAAGGCTGGATTCAACCAGGCGATATGAAAATATCTTATGAATAA MQQFLQRKGVHITGKAYFITALSYMALGLFSSLIIGLIIKTAGEQIIIMFSPSLAEVFVEMGSFAMDTKIMGGAIGVAIAYGLKAPPLVLFSALFAGAFGAELGGPAGSYISAVFATELGKLVYQETRVDIIVTPLVTIVVGFTTGKFIGPGISSLMEGFGEMINWSTEQQPFIMGILVAVLMGIALTAPISSAAIAIMLSLDGLAAGAATVGCSAQMIGFAVASYRDNGFGGFIAQGIGTSMLQVANIVKKPIILLPPTIAGAVVAPLATVWLELTNNPSGAGMGTSGFVGQIMTIESMGFSMPLFWSMLMLHIMIPAIISLLIVTLLRKKGWIQPGDMKISYE NA NA NA NA NA AK015_00391 867 putative ketoamine kinase ATGAAGCCGCAATTCCAGAAGCTGTTAAAGCAATCAGGTGTTAAAGGGAATGTAACGCGGGTGAAAAAAGTGTCTGGTGGCTCCATCAACGACGCCTATCTAGTAGAAACAGATGCGCAACGTTTTTTTATGAAGTTAAATGAAGCTTCACCTGCTCGTTTTTTTGCATTAGAAGCGAAAGGTCTAGCACTGATAAAGTCTACAAATACGATGGATGTTCCAGATGTTATCGGTTATTCGGATAAAGAAGGTGAGTCATTTTTGCTATTGGAATGGGTAAATGGACATAGAACCGAACATACGGACAAGCTACTTGGTGAGCGATTAGCTGCCATGCACCAAACCAGTGGAGAGCAGCATGGCTATTCGGAAGCAACATTTATTGGTACATTACAACAGCCAAACAGCTGGTATGATAGTTGGCTTTCCTATTATCGTGACTGCCGTCTGAAAACACAATTACAGATTGGGATCAAACGGAATGTTATCCATGCGCAACGACGAGAGAAGCTAGAGAGGTTACTAGTGCGATTAGACCGCTGGATTCCTAATAACATTTCTCCAGCTTATTTACACGGTGATTTATGGGGAGGTAATTGGATAGTTGGAGAACATGGAATCCCTTATTTCATTGATCCATCCTTTTTATTTGGGGATAGACATTTTGATATAGCTTTTACTGAAGTATTCAGTGGCTTTTCTACAAGCTTTTATGAAGCCTATAAAGCCACTTTTCCATTAGCGGATTATTACAAAGATTGTAAGCCGTTATACCAATTATTCTATTTATTAGTTCATCTAAACTTATTTGGAGAAGTGTACGGATCAAATGTTGATAGAATTTTGCGTTATTATGTAGGAGATTAG MKPQFQKLLKQSGVKGNVTRVKKVSGGSINDAYLVETDAQRFFMKLNEASPARFFALEAKGLALIKSTNTMDVPDVIGYSDKEGESFLLLEWVNGHRTEHTDKLLGERLAAMHQTSGEQHGYSEATFIGTLQQPNSWYDSWLSYYRDCRLKTQLQIGIKRNVIHAQRREKLERLLVRLDRWIPNNISPAYLHGDLWGGNWIVGEHGIPYFIDPSFLFGDRHFDIAFTEVFSGFSTSFYEAYKATFPLADYYKDCKPLYQLFYLLVHLNLFGEVYGSNVDRILRYYVGD NA NA NA NA NA AK015_00392 453 hypothetical protein ATGGAGTTTTATGACCTCATGGTGTTCATACACATCATTGCTGCAATTATTGGTATGGGTCCAGGTTTCTTCATGATTTTGCCAGTGAAAACAGCAACTACGATGACAGAATTGCAATATGGTTATAAAATACGAAACAAATTACACGGCTGTGTCATGATTGGTGGTACATTACTATTGATAACGGGGCTAATCATGGGAGTACTTCGCCCCTATTTATTTGCACAAGGTTGGTTTATAGGCAGTTTGCTTTTATTTTTGCTTGCTTTGGCATTTGGCCCACTCGTGCTGTCGCCGCGTTCCAAACCAATCAAAAAACTATTACAGACGCATCCGGATAGTACGATCCCTGATGACTACTTTCGATTATCCAGAAAGCTATTTTTCTATGAAAGAATCGAAAGTCTGTTGTTTATGATCATTATTATTTTGATGATTACGAAACCATTTTAA MEFYDLMVFIHIIAAIIGMGPGFFMILPVKTATTMTELQYGYKIRNKLHGCVMIGGTLLLITGLIMGVLRPYLFAQGWFIGSLLLFLLALAFGPLVLSPRSKPIKKLLQTHPDSTIPDDYFRLSRKLFFYERIESLLFMIIIILMITKPF NA NA NA NA NA AK015_00393 1233 pepT_1 COG2195 Peptidase T ATGAAAAAAGAAATAATGGAAAGGTTTATTACGTATGCAAAGATGGATACGCAATCCGACGCAAGCAATGAAGCTACACCTTCTACACCTGGACAGTTTGATTTAGCGAATCTTTTAGTACAAGAGCTTCAGGAAATAGGAATGACAGACGTTGCCGTTGATGACTTTGGCTATGTGATGGCAACACTTCCAGCAAACACGGATGGTGATATACCGACCATCGGATTTTTAGCACATGTGGATACAGCAACAGACTTCACTGGAAAAAATGTTCAACCACAAATCACGGAGAATTACGACGGGAAAGATATTGTATTGAACAAGGAAGAAAATATTATATTATCGACTACCGATTTTCCAGAGCTTTCGCAATACAAAGGTCATACAGTAATCACTACAGATGGAACAACTTTACTTGGCGCTGATAACAAAGCGGGGATTGCTGAAATTATGACTGCGATGCATTATCTCATCACACATCCAGAAATCAAGCACGGGAAAATCCGCGTTGCTTTTACGCCCGATGAAGAGATCGGCCGTGGACCACATAAATTCGATGTGGAACGTTTCGATGCTACATATGCCTATACCGTCGATGGTGGGCCTTTAGGAGAGTTGCAATACGAAAGCTTTAACGCAGCTCAAGCAAGAGTAACCTTTAAAGGAAATAGTGTACATCCAGGAACAGCCAAAGATAAAATGGTGAACGCTGGGAAAATGGCAGCAACCTTTATAAATGAAATTCCAAACGAAGAAGCGCCGGAATATACAGAAGGGTACGAAGGATTTTATCACTTAAGCAATATTACTGGTGATGTGGAAAATGCAGAACTTATCTACATTATCCGAGATTTTGATAAAGCGAAGTTTCAAGAGAAAAAAGTTTTATTGCAAAAAATCACAGAGAAATTTCAGACCAAATATGGAACGGAAGCTGTTAGCCTTGAATTGCGCGATCAGTATTATAATATGCGCGAAAAAATTGAACCGGTGAAAGAAATTGTCGACATTGCTTATGATGCAATGAAAAGCTTAGATATCGAACCAATCGTAAAACCGATTCGTGGTGGTACAGATGGTTCGCAATTATCCTACATGGGACTGCCAACACCGAACATTTTTACTGGTGGAGAAAATTTTCATGGTAAATTCGAATACGTCTCGGTAGATAATATGATGAAAGCCTCAAAAACAATCATTGAAATCTGCAAGCTATTTGCCCGACGCTATTAA MKKEIMERFITYAKMDTQSDASNEATPSTPGQFDLANLLVQELQEIGMTDVAVDDFGYVMATLPANTDGDIPTIGFLAHVDTATDFTGKNVQPQITENYDGKDIVLNKEENIILSTTDFPELSQYKGHTVITTDGTTLLGADNKAGIAEIMTAMHYLITHPEIKHGKIRVAFTPDEEIGRGPHKFDVERFDATYAYTVDGGPLGELQYESFNAAQARVTFKGNSVHPGTAKDKMVNAGKMAATFINEIPNEEAPEYTEGYEGFYHLSNITGDVENAELIYIIRDFDKAKFQEKKVLLQKITEKFQTKYGTEAVSLELRDQYYNMREKIEPVKEIVDIAYDAMKSLDIEPIVKPIRGGTDGSQLSYMGLPTPNIFTGGENFHGKFEYVSVDNMMKASKTIIEICKLFARRY PGPT0020915_1066 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 AK015_00394 846 sseB COG2897 Putative thiosulfate sulfurtransferase SseB ATGGGCTATCTTATTAGCGTAGACCGTTTAAAGAATCGGCTACATAATCATTTAAACAATACAGTAATTATCGATGTGCGTTTTCAGTTAACGGATCCTGATGCAGGCAGAAAAGCATATTTACAAGATCATATCCCAGGCGCTGTTTTTATGGATATAGAAAAAGATTTGTCTGGAAAAAAAGGAAAACATGGTGGAAACCATCCGCTTCCTGACCTTACAATGCTTGCAGGAAAAGTAGGGAAATTAGGTGTTGATCACGATACAACCGTTGTGATATACGATGCAGATAATGATATGTTTGCTGCTAGAGCATGGTGGTTATTCCATTATATGGGGCATGACAAAGTGTATGTTCTTGACGGGGGCTATAGTGGCTGGAAAAAAACAGGCAATGAAACAACTACCGAAGTACCAACACTAACGCCAAAAGTATTTCACTTGCAATTAAGAGACAATCAAATTGCTAATATGGAAGAAGTAAAAGAAAAAGTAACTCGAAACGAAGCTGTTTTAATTGATTCACGTGCAAGAGAACGTTATTTAGGAGATGATGAACCGATGTATGCTCGAGCGGGCCATATCCCTGGTGCCAAGAACTATTTCTGGAAAAAGGTGCTGGATGAAAATGGCTCATGGAAAAAGAAGGAGGTACTAGAAAAACAATTTGCTTCCTTTCAGAAAAATGAAGAAATCATTGTTTCCTGCGGTTCTGGTATATCGGCTTGTCCCAATATTTTAGCCTTAAAATCACTTGGCTATGAAAATGTGAAATTATACCCTGGTAGCTTTAGTGATTGGATTTCTTATGATGAAAATGAAGTCGCAATTGGTGAAGATGCATGA MGYLISVDRLKNRLHNHLNNTVIIDVRFQLTDPDAGRKAYLQDHIPGAVFMDIEKDLSGKKGKHGGNHPLPDLTMLAGKVGKLGVDHDTTVVIYDADNDMFAARAWWLFHYMGHDKVYVLDGGYSGWKKTGNETTTEVPTLTPKVFHLQLRDNQIANMEEVKEKVTRNEAVLIDSRARERYLGDDEPMYARAGHIPGAKNYFWKKVLDENGSWKKKEVLEKQFASFQKNEEIIVSCGSGISACPNILALKSLGYENVKLYPGSFSDWISYDENEVAIGEDA PGPT0002045_3972 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011 NA NA AK015_00395 564 tag COG2818 DNA-3-methyladenine glycosylase 1 ATGACAAAACAAAGATGTCAATGGGTCACAGATGATCCTGTCTATATTACTTATCATGATCATGAATGGGGCGTCCCGCAGTATGACGCCCGAAAATTATTTGAAATGCTTTGCTTGGAAGGGGCACAAGCAGGATTAAGCTGGATTACAATATTAAAGCGTAGAGAAAATTATTGCCAAGCTTTTGATGATTTCGATCCGTTAAAAATAAGTAAATATAGCAATCAGAAAATAGAAGCGCTCCTCCAAGATAAAGGAATTATTCGTAACCGGAGAAAGATAAATGCTTTCATTAAGAATGCGCAGTCCTTTTTGCAAGTAGAGCAGGAGTTGGGAGACTTCTCCTCCTATATATGGTCCTTTGTCGGCGGGGAACAAATTGTTAATCACTGGGAAACGCATGAACAAGTGCCCGCATATACGACAGAATCCGAACAAATGAGCAAAGATCTAAAACGACGCGGTTTCCAATTCGTTGGGCCAACCATTTGTTACGCTTTTATGCAAGCGACAGGCATGGTCAATGACCATACGAAAGACTGCTTTTTGTCTATAGCTCGCTGA MTKQRCQWVTDDPVYITYHDHEWGVPQYDARKLFEMLCLEGAQAGLSWITILKRRENYCQAFDDFDPLKISKYSNQKIEALLQDKGIIRNRRKINAFIKNAQSFLQVEQELGDFSSYIWSFVGGEQIVNHWETHEQVPAYTTESEQMSKDLKRRGFQFVGPTICYAFMQATGMVNDHTKDCFLSIAR NA NA NA NA NA AK015_00396 1761 hypothetical protein ATGAAAAACAAAAAAGTCCATACAAAGGAAAAAAAGCAAAAGAACTGGAGAAAAAAAGTCGTTTTTGCTTGGGGAAATCTACGCATTCATAAAAAATATTTATCGGTTTTCTTTTTAACAATTGCTTTAATGCTTACTTCTTCTATCATTGTATATGTGCAGTTAAAAGGAGGACAACAAGATATTCATAGAGTGAATGAACTACAGGAACAAACAGACCAAATTTCCCAATTAGCAATCATTATTCAGGCGAAAGATGTACAATCCGCCGACTATTTAATTACTGGGAATGATAAATATTTTACTAATTTCGAAGCCTATCAAAAGGAATTCGAGCAAGTTGCCCAACAATTAAATAAAACGATGGATGATAAAAGTCAGAAAGCTATTCTTAACGATATTGTCGATAAAAACGAGTCCATCGATAAAGCATTTATGGAGCGGATGGTAACCTCTGTCGAAGAAGGAAGAGAACAATTCGCTAACACTATTCGTCACTATTCGGGAGGATTGCGAGAAGACACACTGACACTTGTCAATAATCTTCTCGATCAAACGCAACAACAACAAGCTAGAGCCATTGCTGAAACAGAAAACAGCTCAAACAGGAGTGTATACATACTAGCATTCTCCAATCTATTATCGCTAGCTATCGGTATACCACTAATGATTATGATTAGCCGTGGCATTACTTCCAGATTGCAAAGCATTGTTCACACTACAAAAGATATAGCAAATGGAAATTTGCATATACAACAGGAAGAGACTAAATCGAAGGATGAAATTGGACAACTAGCTCAAGCTGTACATAGGATGCGAGATCGAATACGAACAATTATTCAGAGCGTCCAAAGCGTTTCTTCCTCTGTATCTGCACAAAGTGAGCAATTAACGAAATCAGCTAGTGACGTGAAAGAAAGTAACCATCAAATAGCTACAACGATGGAAGAATTAGCTAGCGGTACAGAAATGCAAGCAACAGGCGCAAGTGAACTATCTGACAATATGAATCACTTCGTTGATAATGTACACATTTCTGAACAAAGAGGAAGCGAAGTAATGACAGATGCTAGCGAAGTGCGAAAATGGACGACAGAAAGTTCTACCTTAATGCAACAATCTGTCCAGCAAATGAACCAGATTGACACCATTGTAGAAGAAGCAGTAACGCAAGTAAAAGGCTTGGATAATCAGTCAAGTCAAATATCCAAACTTGTGAAAGTCATACGAGATATTGCAGAACAGACGAATTTGCTCTCGTTAAATGCCGCCATTGAAGCTGCAAGAGCTGGTGATCATGGTAGAGGATTTGCCGTAGTAGCAGATGAAGTTCGAAAGCTTTCAGAACAAGTTGCGCAATCTGTAGGTGAAATTACTACCATCGTGCAGCGGATTCAATCCGAGACAAGCGACGTCGTTTCTTCTTTAAATCGAGGTTATGATGAAGTAAAAAACGGAAAGCAACAGATTGAAGATACAGGAGCTAACTTCCAACAAATGAATAGTGCGATAACGGGTATGATTGAAAAAATGCAAGCTATTTCCATGAAACTAAAAGAGAATACAGAAACAAGTAAAGATATGGAGCACCTCGTCAAAGAAATGGCTTCTATCTCACAGGAATCAGCAGCTGGAGTAGAAGAAGTTGCTGCTTCTACCGAAGAGACAACTGGTACTATGGAGCAAGTTTCTCATAATATTGAAGAATTAGCAGAATTAGCTAGAGACCTTCATAAACAAGTGAATGTCTTTAAGCTTTGA MKNKKVHTKEKKQKNWRKKVVFAWGNLRIHKKYLSVFFLTIALMLTSSIIVYVQLKGGQQDIHRVNELQEQTDQISQLAIIIQAKDVQSADYLITGNDKYFTNFEAYQKEFEQVAQQLNKTMDDKSQKAILNDIVDKNESIDKAFMERMVTSVEEGREQFANTIRHYSGGLREDTLTLVNNLLDQTQQQQARAIAETENSSNRSVYILAFSNLLSLAIGIPLMIMISRGITSRLQSIVHTTKDIANGNLHIQQEETKSKDEIGQLAQAVHRMRDRIRTIIQSVQSVSSSVSAQSEQLTKSASDVKESNHQIATTMEELASGTEMQATGASELSDNMNHFVDNVHISEQRGSEVMTDASEVRKWTTESSTLMQQSVQQMNQIDTIVEEAVTQVKGLDNQSSQISKLVKVIRDIAEQTNLLSLNAAIEAARAGDHGRGFAVVADEVRKLSEQVAQSVGEITTIVQRIQSETSDVVSSLNRGYDEVKNGKQQIEDTGANFQQMNSAITGMIEKMQAISMKLKENTETSKDMEHLVKEMASISQESAAGVEEVAASTEETTGTMEQVSHNIEELAELARDLHKQVNVFKL PGPT0015710_14204 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 AK015_00397 513 hypothetical protein ATGCAAGTTTCTGCTTTTATAGCAAGCGAAAAAAGTAAGCAAGAATTAGAGGAAGAACTAAATACATTGGAAGTACAAGTCTTTCGTATGCAACAAAATGTAAAAGAAATTGCCAAACAAGCATATATTGTTAGTATTGATCAAACAAAAGAGGCTAACTGGGTCATCATCTATGCAATTCGAAAAGCAAATTCGATTCAAATGATGCTTCATGAATGCACAAAGCCATTTCTCGGGAAATGGGATTCAGCTATTGAAGCTGAATATAAACTAGAAAATACCCTTCACATTACTGATATTAAAGGGGAAGAAAATAAAGGCTACGGTTCTGTATTAATGAACCATTTAAAAGAGCTTGCTTATGATGAAAATAAACATTATATTACTGGTGATATCGTTAAACGCGACTTTGATCATGTGGAGCGGTTGAAACATTTTTACGCCAAGCACTATTTTGACGTAAGTATTAATCATAAAGAAGAAAATGGAAAAATTGTTTGGTCTCCTTGTTAG MQVSAFIASEKSKQELEEELNTLEVQVFRMQQNVKEIAKQAYIVSIDQTKEANWVIIYAIRKANSIQMMLHECTKPFLGKWDSAIEAEYKLENTLHITDIKGEENKGYGSVLMNHLKELAYDENKHYITGDIVKRDFDHVERLKHFYAKHYFDVSINHKEENGKIVWSPC PGPT0007785_1046 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 AK015_00398 1413 sleL_1 Cortical fragment-lytic enzyme ATGGGAGTATATGTGGTAAATCAAGGAGATACACTTTGGAAAATAGCGCAACGCTATGGATTAAATGTACAACAAATACGTACACTTAATCAATTACCAGATGCAGATAAGCTCGTCGTTGGACAAAGCTTGGTCATACCAAATCCAACAAAAGAATACGTTGTACAAACAGGGGATACATTAGCTCAGATTGCAAAGAATTACCATGTTGCATTAGCTGATCTGGCAGCTGTTAACAACCTTACAGAAACTTCTATTATATATGAGGGGCAATTGTTATCCTTGCCTTATTTTCTCTACCTTGTTGAGCCTGGCGACTCTATTTGGCAGCTTGCACACAGATTTGGTGTAACAACAGCAGAAATTTTGCAGGTGAATTTCCTTGTTCAACCATCTATCATCTATCCAGGTACTATTATACGAATTCCTTTTCCAGCAAAGCCTAAAAAACAAGTATGTGCCTATACTATCCAATTAGACCAGCAAGGAAAGCAAGATATGTTAATGAATGGTCGATTGCTGACATATGTAAACCCATTTTCATATCAAGTAAATCCAGATGGAAGTTTAACTTCTTTACCTGATGAACGCATTTTAGAAGCGGCAAAGGAAATGAATGTAGCACCATTACTTGTATTAAGTAATATTAAAGCAGGGGAATTTGATTCAGATACAGCAGCAGCTATTTTACGAGATGTCCAGTTACAGGATAAAGTAATTACAAACGCGTTAACTATTATGAATGATAAGGGATATAGAGGCATAAATATTAATTTTGAATATGTATATCCGGAAGACCGAGATCGGTATACGGAATTTTTAAAACGAATGGTTCGTCGTTTGCATCCTCAAGGATATCTGGTAACAACAGCAGTGGCACCAAAAACGAGTAGTGACCAACAGGGATTACTATATGAAGCACATGATTATGAAGCACAAGGAAAAGTAGTCGATTTTATTAATTTGATGACGTATGAATGGGGATGGGCGGGAGGCAGGCCACTGGCCATTGCGCCTATTAATGAAGTCGAAAAAGTATTGGATTATGCAGTTACTGTCATACCAAAAGAAAAAATAATGATGGGAATCCCTTTATACGGAAGAGATTGGAAGATACCTTGGCAAGAAGGAACCCGTGCTAGAACAATTAACACACAGGAAGCTGTCGATTTAGCTTTCACTTATAAAGAAGCTATTCAATATGATGAAATTTATCAAGCGCCAAATTTTCTTTATACAGATGACAATGGGCAGAGGCATGAGGTTTGGTTTGAAGATGCTCGCAGCATAAAGGCGAAATACGAACGAATAGCTAATTACGATTTAAGAGGCGCTATGTTTTGGGTGTTAGGGATCCCGTTTGCCCAAAATTGGCCAGTCTTACAGAACCAATTCCAAGTAATGAAAATATAG MGVYVVNQGDTLWKIAQRYGLNVQQIRTLNQLPDADKLVVGQSLVIPNPTKEYVVQTGDTLAQIAKNYHVALADLAAVNNLTETSIIYEGQLLSLPYFLYLVEPGDSIWQLAHRFGVTTAEILQVNFLVQPSIIYPGTIIRIPFPAKPKKQVCAYTIQLDQQGKQDMLMNGRLLTYVNPFSYQVNPDGSLTSLPDERILEAAKEMNVAPLLVLSNIKAGEFDSDTAAAILRDVQLQDKVITNALTIMNDKGYRGININFEYVYPEDRDRYTEFLKRMVRRLHPQGYLVTTAVAPKTSSDQQGLLYEAHDYEAQGKVVDFINLMTYEWGWAGGRPLAIAPINEVEKVLDYAVTVIPKEKIMMGIPLYGRDWKIPWQEGTRARTINTQEAVDLAFTYKEAIQYDEIYQAPNFLYTDDNGQRHEVWFEDARSIKAKYERIANYDLRGAMFWVLGIPFAQNWPVLQNQFQVMKI PGPT0025110_93 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306 NA NA AK015_00399 114 hypothetical protein ATGAATCAAACTGGTGGTATAACGAAAATGAAAGCATATCTTGCTATTCGTTATGCAATTTTTTCCAATAATCTAAGCAACGGGATACGTGTGTCCATTGCGAATTCAAAATAA MNQTGGITKMKAYLAIRYAIFSNNLSNGIRVSIANSK NA NA NA NA NA AK015_00400 1635 expZ_2 COG0488 Nucleotide-binding protein ExpZ ATGATAACGGTAAGTATCCAACAAGTGACCCAAATAATAGGGGCCAATCAAATTTTTGAACAGATTACTGCAGAAGTGAAAGAAGGAGACAGAATTGGTTTAATTGGAAGAAATGGAACAGGGAAATCGACTTTATTGCAGTTACTTGCGAAAAAAACCGAACCTGCTAAAGGAAGAATAACTTGGAAGAAAAATAGTTCCGTTGGTTTGCTGTTGCAAAATCCTATCAAGGAACAGGAATCAATGGTTGAAATGCTACTAACGGAAGTGTTTACAGATTTAAACTTGCTAAAAGTTGAAATGGAACGTTTGGAAAGCTTGATGGCAAAAGAAGCAAACGTAGAAAAATTAACGAAGCTGATTGAAAAGTATGGAGATATGCAAGAAAGCTTTCAAGAACGTGGTGGTTATGAAATCGACGCTCGTATTCGGAGGGTCATGAGCGGCTTGCAGATAGAAGAATTGGCAACAAAGTGTTGGAAACATTTGAGTGGTGGGGAACGGACAAAAGTTGGTTTAGCTCAATTACTGTTGCAAGCACCAGACTTACTGTTGTTAGATGAGCCTACCAATCATTTGGATATTCAAGCAATCGAATGGTTAACGGATTTTATTCGCAATTACACAGGAACGGTAATGATTGTTTCCCATGATCGCTATTTTTTAGATGACACTGTCACAAAGGTTTGGGAATTAGATCAAGGAGAATTAATTACCTTTGCCACGAATTATACGAATTATGTAAAAGAACGAGAGGAAAGGCTGTTACAGGAATTTCAGCAATATCAAGATCAGCAAAAGAAAATAAAGAAAATGAAAGAAACCATAAAACGATTGAAAGAATGGGCAAATCAAGCGAATCCACCAAATGATGGATTACATCGCAGGGCAAAGAGTATGCAAAAAGCCTTGGATAAAATGACGCGGTTAAAACGCCCCATATTGGAGCATAAACGTATGCAAATCGATTTTAAAATGCAAGATCGCAGCGGAAAAGATGTTATTCGGCTGGAAGGTGTTTCAAAAAGTGTGCAAGATAAAATGCTTTTTCAGCACGTGAATATGCATGTACGCTTTCAAGAGCGAGTGGCAATTATTGGTGAAAATGGTACGGGTAAATCAATGCTATTGCAAATAATATTAGGGAAGATAGCAGCAGATGCAGGAGAACGGCAATTAGGTAGTCGTTTGTCTATTGGCTATTTGTCGCAGCATATGCTAGAGATGGAAGGGAAACGCACGGTAATTGATGAATTCCGCGACCATGTTCCAATGGAGGAGGGAGAGGCGAGAAATATATTGGCTCAATTTCTTTTTTATGGCGCAAAGGTATTTCAAACGACGGAAAACTTAAGCGGAGGAGAAAAGACACGTTTGCGTCTTGCCCAATTAATGTATCAAAATCATAATATCCTAATTTTAGATGAACCGACAAATCATTTGGATATAGAGTCGAAAGAAATGTTAGAAGAAGCATTAGAACAGTTCGATGGTACGATTATTGCTGTATCCCATGACCGTTACTTTTTGGATCGACTTTTTCCAATCACATATGTATTAGAAAATAAGCAACTGGAAAGAATTGAAGGAAATTACAGCTATGCTCGAAAACGTTGGCTCCATAACGGAATTTAA MITVSIQQVTQIIGANQIFEQITAEVKEGDRIGLIGRNGTGKSTLLQLLAKKTEPAKGRITWKKNSSVGLLLQNPIKEQESMVEMLLTEVFTDLNLLKVEMERLESLMAKEANVEKLTKLIEKYGDMQESFQERGGYEIDARIRRVMSGLQIEELATKCWKHLSGGERTKVGLAQLLLQAPDLLLLDEPTNHLDIQAIEWLTDFIRNYTGTVMIVSHDRYFLDDTVTKVWELDQGELITFATNYTNYVKEREERLLQEFQQYQDQQKKIKKMKETIKRLKEWANQANPPNDGLHRRAKSMQKALDKMTRLKRPILEHKRMQIDFKMQDRSGKDVIRLEGVSKSVQDKMLFQHVNMHVRFQERVAIIGENGTGKSMLLQIILGKIAADAGERQLGSRLSIGYLSQHMLEMEGKRTVIDEFRDHVPMEEGEARNILAQFLFYGAKVFQTTENLSGGEKTRLRLAQLMYQNHNILILDEPTNHLDIESKEMLEEALEQFDGTIIAVSHDRYFLDRLFPITYVLENKQLERIEGNYSYARKRWLHNGI NA NA NA NA NA AK015_00401 825 dkgA COG0656 2,5-diketo-D-gluconic acid reductase A ATGCATTACATTACCTTAAACAATGGTTTACGTATGCCACAACTTGGCTTTGGTGTATGGCAAGTGTCTGATGAAGAAGCAACAAAAGCAGTTGAAAAAGCAATCGAAGTGGGATATCGGTCCATCGACACAGCTAAAATTTATGACAATGAGCGTGGAGTTGGAAGAGCACTTGCTAATACCTCTGTGCCTAGAGAAGAATTGTTTATTACAACAAAGGTTTGGAATAGTGATCAAGGTTATGAAAACACGCTTCGTGCTTTTGAGGAAAGTCTTGATAAGCTTGGATTAGATTACGTAGATTTATACTTAATCCACTGGCCAACACCTGCATTTGATCAATATGTTGAAACTTATAAAGCATTGGAAAAATTGTATCAAGATGGTCGTGTGAAAGCGATCGGTGTTTGCAATTTTAACAAGGAACATTTACAACGGTTGTTGGATGAGTGTGAGGTTGTTCCAACGGTTAATCAAGTTGAATGTCATCCATACTTGCAGCAACAAGAGTTACAGCATTTTTGTGATCAACATCATATTTATGTCGAAGCTTGGAGTCCCCTTATGCAAGGTGGCGAAGTGCTGCAGAATGCAGAAATTACAAGGATTGCCCAAGCGCATCAAAAAACACCTGCTCAAATCGTGTTGCGTTGGCACTTGCAAGCGAACCATATTGTTATACCGAAATCGGTAACACCTTCACGAATAAAGGAAAACTTCGCTGTTTTTGATTTTGAACTGGGATCAGAGGAAATGGATGCCATTTCTAAATTGGACCGAGGCGAACGAAAAGGACCAAAGCCGAGCGAAATGAATAGTCGCTAA MHYITLNNGLRMPQLGFGVWQVSDEEATKAVEKAIEVGYRSIDTAKIYDNERGVGRALANTSVPREELFITTKVWNSDQGYENTLRAFEESLDKLGLDYVDLYLIHWPTPAFDQYVETYKALEKLYQDGRVKAIGVCNFNKEHLQRLLDECEVVPTVNQVECHPYLQQQELQHFCDQHHIYVEAWSPLMQGGEVLQNAEITRIAQAHQKTPAQIVLRWHLQANHIVIPKSVTPSRIKENFAVFDFELGSEEMDAISKLDRGERKGPKPSEMNSR PGPT0001320_1366 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 AK015_00402 1071 rsgA_1 Small ribosomal subunit biogenesis GTPase RsgA TTGAATATTAATTTAACCAAACTTGGTTGGAATGAGACTTTGTTTACAAAAACTGACCCAGCAATTATTGCCCGGGTAATAACGGTGCAGAGAAATAGTTACCGCATTTCTGATGGAGAGATGGAGTATTTGGCTCACGTTAGTGGTAAATTTTTGAATGCGGCAAATGGAGCAATTGATTTTCCTACTGTTGGTGATTGGGTAGCAGTAGAAAAGCTGAAGCTAGAGAAAAAGGCCGTTATTCAACATGTTTTGCCAAGAAAAAGCCAGCTTGTTCGACAAGCGGCTGGGGATAAAACAGAGGCGCAGCTAGTTGCAGCAAATTTAGATACGATATTTATCGTAAGTTCACTCAATGATGATCTCAATATACGCCGCATAGAACGATATATTGTAGCTGTTTACGAAAGTGGCGCTTCTCCAGTCATCGTGTTAACGAAAAAGGATGCGTACGAAGAAGAGCAGTTACCAGCGTTAATTGCTCAGGTAGAGACAGTAGCCATTGGCGTTCCAATTATTGTTGTGAGCAATATTACTGGAGAAGGGATTCAGGATTTAAATACCTACTTGAAATCTGCTGAAACTGTCGCTTTAGTAGGGTCCTCTGGTGTAGGGAAATCGACTTTAGTCAATGTTTTATCCGAGCGAAATGTACAGAAAACGAAAGATGTTCGTTTGGATGATAGCAAAGGGCGACACACCACAACTCATCGAGAATTGTTCGTGTTAGAAAGCGGCGCTTTGTTAATTGATACTCCAGGAATGCGAGAATTACAGCTTTGGGACGGAGAAGCAGCAGTAGATTCTGCCTTTGAAGATGTAGAAGATTTTGCTAGTGCCTGTTTTTTTAGTGATTGTCAGCATGATACAGAGCCGGGATGTCGTGTTCAAGAAGCACTTGCTTCAGGCGAGCTCTCACAGGATCGGTTTGATAGTTATCAAAAATTGTTGCGAGAATTAGCATTTGAAAAAAGAAAGCAGGATCAAAAGGCACAGTTGGAAGAGAAAAACAAATGGAAACAGCGAGCAAAAAATATGAAAGCCACGTACAAACAACGTGGATACAAGTAG MNINLTKLGWNETLFTKTDPAIIARVITVQRNSYRISDGEMEYLAHVSGKFLNAANGAIDFPTVGDWVAVEKLKLEKKAVIQHVLPRKSQLVRQAAGDKTEAQLVAANLDTIFIVSSLNDDLNIRRIERYIVAVYESGASPVIVLTKKDAYEEEQLPALIAQVETVAIGVPIIVVSNITGEGIQDLNTYLKSAETVALVGSSGVGKSTLVNVLSERNVQKTKDVRLDDSKGRHTTTHRELFVLESGALLIDTPGMRELQLWDGEAAVDSAFEDVEDFASACFFSDCQHDTEPGCRVQEALASGELSQDRFDSYQKLLRELAFEKRKQDQKAQLEEKNKWKQRAKNMKATYKQRGYK PGPT0009020_981 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 AK015_00403 540 hypothetical protein ATGATGAAAGATAAAGCAAAAGAATTTGCTACTAAAGCACATGAAGGACAATGGAGAAAAGGTTCCAAGGCACCTTACATCACGCATCCTATTCGTGTTGCGAATATACTTGAAGAAGCTGGTTGCAGTGAGGAAGTTATCTGTGCAGGTTATTTACATGATGTTGTAGAAGACACAGCTACAACCATACAAGAAATCGCCATCCAATTTGGTAAACACATTACTTCTCTTGTCTGTGCAAATACCGAAAATAAAACCCTGCCTTGGGAAAAGCGAAAACAGCAAACGATTTACACATTAAAAACATCAAATATGGAAGTAAAGCAGTTAATTATAGCGGATAAATTAGACAATTTATTAAGTATCGAGGCAGATTTGCAATCCTTTGGAGAGGTTGTATGGGATCACTTCCATGCGCCTTTGGATAAACAGAAATGGTATTATCAGTCGATAAAAGAAGTTATGTATCATGGCATTTCAACGAAAGAAGCACCTGCTTTTTTTAACTGTTATGAAAAGACCGTGTCACGTGTTTTTTAA MMKDKAKEFATKAHEGQWRKGSKAPYITHPIRVANILEEAGCSEEVICAGYLHDVVEDTATTIQEIAIQFGKHITSLVCANTENKTLPWEKRKQQTIYTLKTSNMEVKQLIIADKLDNLLSIEADLQSFGEVVWDHFHAPLDKQKWYYQSIKEVMYHGISTKEAPAFFNCYEKTVSRVF PGPT0021700_212 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021700-spoT|relA-K21138 NA NA AK015_00404 1053 fni COG1304 Isopentenyl-diphosphate delta-isomerase ATGGAAGAGGGAATAAATCGTAGAAAAACCGAACATATTCAGCTATGCTTAACAGAGCATGTAGAAGGTGTGAATAAATCGACGGGGTTAGAAGGTATTTCATTTATACATAATGCGCTTCCTGAGATTAATTTTGATGATATACAAATCAACACAACCTTTTTAAATAAATCGTTACAAGCGCCATTTTTGGTAAGTTCGATGACTGGTGGTTCGGAGCTTGCTACTAAGATCAATCAAAACTTAGCGTTAGCTGCTGAAGAAAAGGGATGGGCTGTTGCCCTTGGTTCAACACGAGCTTTACTAGAAAGTGATGCCCACCAAGCTTCATTCTTAATACGCCAGCAAGCTCCGACAGTACCTTTAATTGCTAATTTAGGTGCTGTGCAATTGAATTATGGTTACGGCGCTGAAGAAGCCCAGCGTATTGTAGATATGACGGAAGCTGATTCACTTGTTCTCCATTTTAATAGTTTGCAAGAAGCTGTACAAGATGGTGGTGACTTAAATTTTGCTGATTTATTGCCTAAAGTAGAAGAAATTTGCAGTAAATTAACCGTGCCAGTTGGTGCGAAGGAAGTTGGCTTTGGCATTGATGGCTTCGTGGCTGAACAGTTGTACAATGCTGGAATAGCGTATATTGATGTAGCAGGAGCTGGTGGGACATCATGGAGCCAAGTTGAAAAGCTCCGTTCGCAAGATCCACTTCGCAAGGCGGCAGCTGAAGCTTTTAATAACTGGGGTCTGCCAACAAAAGATTGTATCGTGTCAGTAAGAAATAAGCTTCCAAAAGCTCCTCTTGTAGCAAGCGGAGGAATGAAAACGGGTGTCGATGCTGCAAAAGCCATAACTATTGGCGCAGATGTGATCGGTTTTGCACGTCAATTATTGCAGGCAGCAACCGAATCAGCCGATGCAGTCATAACAACGATGGAACAAATAGAATTGGAATTAAAAATGGCTATGTTTGGAATTGGTGTAACTTCATTAGAAGCATTGCAACAAACAAGGCGCGTATCGATTATGGGGAATTCTCTGCTAGATGAAAGCTAG MEEGINRRKTEHIQLCLTEHVEGVNKSTGLEGISFIHNALPEINFDDIQINTTFLNKSLQAPFLVSSMTGGSELATKINQNLALAAEEKGWAVALGSTRALLESDAHQASFLIRQQAPTVPLIANLGAVQLNYGYGAEEAQRIVDMTEADSLVLHFNSLQEAVQDGGDLNFADLLPKVEEICSKLTVPVGAKEVGFGIDGFVAEQLYNAGIAYIDVAGAGGTSWSQVEKLRSQDPLRKAAAEAFNNWGLPTKDCIVSVRNKLPKAPLVASGGMKTGVDAAKAITIGADVIGFARQLLQAATESADAVITTMEQIELELKMAMFGIGVTSLEALQQTRRVSIMGNSLLDES PGPT0007530_623 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823 NA NA AK015_00405 867 yflN_1 COG0491 putative metallo-hydrolase YflN ATGGAACAGAATTTTCATCAACGCGAACATGATAAATTTATTCCGATGACTTCCATTACAAGTGGAGGCGGTGTACAGGTGAAAGCCGATATATACTATTATACGGACCAAATGGTAAATATTAGTTTTGTAGGTCATCCTGAAAAAGGGGAATGGGTGCTTATCGATGCTGGATTACCTCATGCAGCTTCAGAAATTAAATCGGTTGTTGTAGACCGATTTGGAAAAGGTAGTAAGCCAGCTGCAATTCTGTTGACGCATGCTCATTTTGATCATGTAGGGGGATTAGCTGCGTTATTGGAAGAGTGGGATGTCCCTATTTATGCACATTCTAAAGAACTCCCTTACTTACGTGGTGAAAAAAGCTACCCAAAACCGGACACTAGCGTAGAAGGTGGTCTACTAGCGAAAATGGCTAACCTATATCCGAATGAGCCGATTGATCTAGGGAATGCTGTGCAAGCCCTTCCTGAAGACAATCAAGTTCCTCATTTAGAAAATTGGAAATGGGTACATACGCCAGGACATACACCTGGTCATGTATCTTTTTATCGGGAGAATGATCGGCTATTGTTTTCAGGGGATGCGTTCATTACTGTAAGACAGGATTCATTTTATCGTGTGCTGATGCAAACAGCGGAAGTGAATGGTCCACCTAGATACTATACAACCGACTGGAAAGCAGCATTTGAATCTGTACAAAAATTAGCAGAACTAAATCCTAAAATAGTGGTACCAGGCCATGGTGTGAGTATGAAAGGTAAAAAGTTAAAAAACGGATTGGACAGGCTTGTTGAACAATTTACAGATTTAGCTATTCCTGATTATGGAAAGTATGTAGATAAAGAAAATAACTTATATCAATAA MEQNFHQREHDKFIPMTSITSGGGVQVKADIYYYTDQMVNISFVGHPEKGEWVLIDAGLPHAASEIKSVVVDRFGKGSKPAAILLTHAHFDHVGGLAALLEEWDVPIYAHSKELPYLRGEKSYPKPDTSVEGGLLAKMANLYPNEPIDLGNAVQALPEDNQVPHLENWKWVHTPGHTPGHVSFYRENDRLLFSGDAFITVRQDSFYRVLMQTAEVNGPPRYYTTDWKAAFESVQKLAELNPKIVVPGHGVSMKGKKLKNGLDRLVEQFTDLAIPDYGKYVDKENNLYQ NA NA NA NA NA AK015_00406 726 hypothetical protein ATGAAGATTGAGATATGGTCTGATTTCGTTTGCCCTTTTTGTTATATTGGAAAGAGAAAATTGGAGCAATCCTTAGAAACATTTGCATATCGTAATGATATTGTTGTTGAGTTTAAAAGTTATCAATTAGACCCTAACGCAGAAGAAAAACCAAATCAAAGCATGTATGAATATCTCTCAAATACAAAAGGGATTCCCATAGAACAAATAAAGCAAATGAGTAAACAGATAGAAAAGCAAGCAGCAGATGTAGGGCTGACATATCATTTTGATACCATGCAGCATACAAACACGTTTACGGCTCACCGCTTAGTGAAGTATGCAGCACGTCTGGGCAAAGGTAATGACATGGCTGAAGCGTTGATGCATGCTTTTTTCACTGATTCTCAATTAATCAGTGATCATGAAACATTACAGACCCTTGCTAGTAAAGTGGGTTTAAATAAAAGAAATGTTGCTGAGGTTATTTGCACGAATAGGTATGCTAGAGATGTAAAAGACGACCAACATCAAGCGAGAGAAATGGGCGTTCAAGGGGTCCCGTTTTTTGTTTTTAATGAAAAATATGCGCTGTCTGGTGCGCAACCAAAAAGGGTTTTTGCACAGGTTTTGGAACAAGTTTGGCAAGAAGTGAAAATGGAAAACAGACTTCAATCACTAAACCCTAAAGGGTCGAAAACAATGTACTGTACAGATGAGGGTTGTTGTGAAATGGAAGAAGAATAA MKIEIWSDFVCPFCYIGKRKLEQSLETFAYRNDIVVEFKSYQLDPNAEEKPNQSMYEYLSNTKGIPIEQIKQMSKQIEKQAADVGLTYHFDTMQHTNTFTAHRLVKYAARLGKGNDMAEALMHAFFTDSQLISDHETLQTLASKVGLNKRNVAEVICTNRYARDVKDDQHQAREMGVQGVPFFVFNEKYALSGAQPKRVFAQVLEQVWQEVKMENRLQSLNPKGSKTMYCTDEGCCEMEEE NA NA NA NA NA AK015_00407 198 hypothetical protein TTGTTGGTTGTCGGAGAAGTATTTATGAAAGAGTTACTTCGTAGTAAGTTAAGCAACTTCCTATATCTAAAAAAGCAGGTTCCTACATTAAATAGAATACCTGCTTCCAATACAATTTTATTTTATTCTTCTTCCATTTCACAACAACCCTCATCTGTACAGTACATTGTTTTCGACCCTTTAGGGTTTAGTGATTGA MLVVGEVFMKELLRSKLSNFLYLKKQVPTLNRIPASNTILFYSSSISQQPSSVQYIVFDPLGFSD NA NA NA NA NA AK015_00408 954 yclN COG4606 Petrobactin import system permease protein YclN ATGAAAATACGATATCTAACAATCATATTAATTATACTTTCCTTTGTATCTATCTTTGTTGGTGTATCAAACGTTTCTCCGCTAGATATATTTCAGCTAACGGAGGAGCAGGCAAAAGTATTAATGGTTTCAAGAGTTCCGAGACTTTTAAGTATTTTAATTGCTGGTATGAGCATGAGTATTTGTGGCTTAATTATGCAACAATTAAGCAGAAATAAATTTGTATCGCCAACAACGGCAGGAACATTGGATTCCGCCAGACTTGGAATATTAGTATCCATGGTGTTATTTACCTCTGCGAATCCATTTGAAAAGATGCTTGTTTCGTTTGCTTTTGCTCTGTTAGGTACGTTTGCATTTATGAAGATACTGGAAAAAGTGAAATTTAAAGATGCGATATTCATCCCATTAGTTGGTTTAATGTTTGGAAATATTGTTAGTTCCATGTCTACCTTTATTGCTTATCGTTATGATTTAATTCAAAACATCTCGTCATGGATGCAAGGAGATTTTTCCATGATCATGACAGGGAATTACGAGCTCATGTTTGTCAGCATTCCGATATTGATGATTGCTTTCTTTTATGCAAATAAATTCACGATTGCTGGTATGGGTGAAGATTTTTCCAAAAACCTTGGATTAAACTATCGGCAAGTCGTTAATTTGGGACTGATTATCGTAGCACTTGTAACCGCATCCGTTGTATTGGCAGTAGGAATGATTCCATTTTTAGGATTAATTATTCCTAATATCGTGACTATCTACCAAGGGGATCATTTGAAAAAAAGTTTGCTACATACCGCATTGTTAGGTGCTATTTTCGTTCTTATTTGTGATATTATCGGCAGAATTATTATATATCCATATGAAATACCGATTAGTTTAACGGTAGGGGTCATCGGTAGCGGATTATTTATTTATCTGCTCTTTAGGAGAAAAAAATATGGGATATAA MKIRYLTIILIILSFVSIFVGVSNVSPLDIFQLTEEQAKVLMVSRVPRLLSILIAGMSMSICGLIMQQLSRNKFVSPTTAGTLDSARLGILVSMVLFTSANPFEKMLVSFAFALLGTFAFMKILEKVKFKDAIFIPLVGLMFGNIVSSMSTFIAYRYDLIQNISSWMQGDFSMIMTGNYELMFVSIPILMIAFFYANKFTIAGMGEDFSKNLGLNYRQVVNLGLIIVALVTASVVLAVGMIPFLGLIIPNIVTIYQGDHLKKSLLHTALLGAIFVLICDIIGRIIIYPYEIPISLTVGVIGSGLFIYLLFRRKKYGI PGPT0003770_10668 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 AK015_00409 951 yclO COG4605 Petrobactin import system permease protein YclO ATGGGATATAAACAGAAGACAATTATTCTAACTCTCATCGCTATATCATTAACATTGCTTTATGTTTTTTATGACCTTACTGGAAATATTGGATACATTCTACCGAGACGTATCATCAAAGTTGTGGCGATTCTTTTAACAGGTGCAGCAATCGGATTTGCGACAACGATTTTTATGACAATAACGAATAATCGTATTTTAACGCCAAGTGTATTAGGACTGGATTCCCTTTACCTCTTGATCCAAACAGCTATTATCTTTGTAGTAGGGGCTAATTCGTTAGTTATGATGAATAGCCATGTGAATTACCTCGTTTCCATTGGAGGAATGGTCGTATTTTCATTACTCCTATATCGATTGTTATTTACAAGCGAGCAAAACAATATTTATTTTCTATTGCTTGTAGGAATGATATTAGGAACTTTTTTCAGCAGTATTACTTCATTTATGCAAGTGTTAATTGATCCGAATGAGTTCATGGTAGCTCAAGATCGAATGTTTGCCAGCATAAACAACGTAAACACAGACCTTGTCTATATATCTGTCGTTTTATTTGTACTCCTTCTTGTTTACATGATGCGCTATTACAAATACTTAGATGTATTGGGACTAGGAAAAGATAATGCGGTTAACTTAGGGGTTCCATACGGAAAAGTCGTCAAGCATTTACTCGTTATTGTTGCTGTATTTATTTCGATGGCTACAGCTTTAGTAGGACCAATGACGTTTTTGGGGTTATTAGTTGTTAATTTAGCTTATGAATTTTTAAAGACATTCCGTCATTTTTATATTTTAATTGGCTCCATGCTCATAAGTATTATTGCATTAATTGGCGGACAGTTTATTGTAGAAGAAGTATTTACCTTTGAAACGACGATTAGTGTCATTATAAACTTTATCGGTGGTATTTACTTTATTTATCTTTTGTTAAAGGAGAATAAATCATGGTAG MGYKQKTIILTLIAISLTLLYVFYDLTGNIGYILPRRIIKVVAILLTGAAIGFATTIFMTITNNRILTPSVLGLDSLYLLIQTAIIFVVGANSLVMMNSHVNYLVSIGGMVVFSLLLYRLLFTSEQNNIYFLLLVGMILGTFFSSITSFMQVLIDPNEFMVAQDRMFASINNVNTDLVYISVVLFVLLLVYMMRYYKYLDVLGLGKDNAVNLGVPYGKVVKHLLVIVAVFISMATALVGPMTFLGLLVVNLAYEFLKTFRHFYILIGSMLISIIALIGGQFIVEEVFTFETTISVIINFIGGIYFIYLLLKENKSW PGPT0003770_10867 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 AK015_00410 756 yclP COG4604 Petrobactin import ATP-binding protein YclP ATGGTAGATATTAAAAATGTATTTAAGTCATTTAACCAGAAGAAAGTGATTGAAGATGTATCTCTGACGATTGAAAAAGGGAAAATTACTTCCTTCATTGGCCCAAATGGTGCAGGGAAGAGTACGTTGGTTTCTATGGTTAGTCGCCTTATTGCAAAAGATAATGGGGATATCTCGATTGACGGAATAGACATTATGAAAACGAAGAGTAATGAGCTCGCTAAAAAAATATCGATCTTAAAACAATCCAACTCCATTAATTTAAAATTAACGGTACGTGAGCTCGTATCTTTTGGACGCTTCCCCTATTCTCAAGGTAAATTAAATGATTACGATTGGGAAAAAGTTGACGAGGCGATTGATTATATGGAACTGCGTGATATGCAAGATAAGTTTCTAGATCAACTTAGCGGTGGGCAAAGACAACGAGCACACATCGCCATGGTCATTGCGCAGGATACAGAATATATTTTGCTAGATGAGCCGTTAAATAATTTAGATATGCGCCATTCTGTGCAAATTATGAAAACGTTGCGGAATTTAGTGGATGAGCTTGGAAAAACCGTTTTGATTGTTATTCATGATATTAATTTTGCTTCTTGTTATTCGGATAATATTGTCGCGTTAAAGGATGGGAAAGTCGTTAAGCAAGGAAGAGCATGCGATGTCATTGATAAATGTGTATTAAAAGATATTTATGACATGGATATTGATATTAAGGATATAGATAATAAACGAATTTGTGTTTACTTTTAA MVDIKNVFKSFNQKKVIEDVSLTIEKGKITSFIGPNGAGKSTLVSMVSRLIAKDNGDISIDGIDIMKTKSNELAKKISILKQSNSINLKLTVRELVSFGRFPYSQGKLNDYDWEKVDEAIDYMELRDMQDKFLDQLSGGQRQRAHIAMVIAQDTEYILLDEPLNNLDMRHSVQIMKTLRNLVDELGKTVLIVIHDINFASCYSDNIVALKDGKVVKQGRACDVIDKCVLKDIYDMDIDIKDIDNKRICVYF PGPT0003760_8216 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 AK015_00411 963 yclQ_1 COG4607 Petrobactin-binding protein YclQ ATGTTGAAAAAAACCGTATGGCTTATATTTGCAAGTTTGCTCGTGTTAACTTTAGCGGCTTGTGGTTCAAATAGTGAAGAAAAAGATAGTAGTAATAGCGAAGGTTCCGATGCGAAAGAGTCGGAAACAATGGAGATTAAACAAGAGCTTGGTGATACAGAAGTTCCAAAAAATCCCGAAAATGTTGTGGTGTTCGACTATGGTGTGCTTGATTCATTGGATACATTAGGGATTGATGTTGCAGGTGTAGCTAAAGGTGGTTTAATCCCATCTTATTTAGACAAATTTGAAAGTGATGACTATGAAAATATTGGCGGCTTGAAAGAGCCGGATTTTGAAAAAATTGCTGAGATTAATCCAGATGTTATTTTCATATCGGGTCGACAGTCCCCTGTTTATGATCAATTAGCTGAAATTGCTCCGACTGTTTATTTAGGTGTAGATCCAGCTAACTATATGGATTCTTTCAAAGCAAATATGAACACGCTAGGTGAGATTTTTGATAAGCAAGCAGAAGTAGAAGAAGAGCTTGCTGCTATTGATGCATCTATTGAAGAAGTGAAAGCGAAAGCGGAAGAAATGGATCAAAAAGCGCTTATAACACTAGCTAATGATGATAAAATCAGTGCATATGGTCCTAGCTCCCGTTTTGGATTAATCCATGATGTTTTTGGTGTTCCTCCAGTAGATGAAAACATTGAAGCGTCTTCACATGGTATGAACGTTTCCTTTGAATACGTCATGGAGCAAAACCCTGATTTACTGTACGTTATCGATCGTAGTGCAGCGATTGGCGAAGAACCAGCTGCTAAAAACTTGGTCGAAAATGAATTAGTAAAAGGAACGAAAGCATATAAAAATGACAACATTGCGTACTTAGATCCAGAATTCTGGTATCTGTCCGGTGGTGGACTCGTCTCTGTCCAAGAAATGATTAAAGAAGTAGAAGCAAGCTTAGAATAA MLKKTVWLIFASLLVLTLAACGSNSEEKDSSNSEGSDAKESETMEIKQELGDTEVPKNPENVVVFDYGVLDSLDTLGIDVAGVAKGGLIPSYLDKFESDDYENIGGLKEPDFEKIAEINPDVIFISGRQSPVYDQLAEIAPTVYLGVDPANYMDSFKANMNTLGEIFDKQAEVEEELAAIDASIEEVKAKAEEMDQKALITLANDDKISAYGPSSRFGLIHDVFGVPPVDENIEASSHGMNVSFEYVMEQNPDLLYVIDRSAAIGEEPAAKNLVENELVKGTKAYKNDNIAYLDPEFWYLSGGGLVSVQEMIKEVEASLE PGPT0003765_7836 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 AK015_00412 726 prsA_1 Foldase protein PrsA ATGAAAAAGTGGATTATATTTGCACTTACGATAACGCTAGCATTCGTACTAGCTGCCTGCGGAGGAGATAATGAAGAAGATAAAACCGCAGAACAAGATGAGCAACAAGAAGAAGGCAATACAGAAGATGGCGGAGAAAAGCCAGAGCCTGTTGAAATAACAGATGAGGAAAAAGTTGATGATGGAGAAACAGTTGTTTCTGTAAATGGCGAAGAAATTAAAGGTGATCGTTATAACCCAGCTTACTTACAGTTAAAAACAATGAATACGCAATTCAATCAAGATGTTAATGAAGATCAATTAAAAAAACAAACGTTAGATATGCTTATAAACCAGCAATTGATTAATCAAGATGCTGCTGATAAAGGCATCGAAGTATCTAAAGATGACGTGCAGAAAGAGTTTGATACGATTAAAAAAGAAGGCAAAGATCGTTTAAATACTGCACTAGAGCAGTTCCAGCTTAATGAAGAACAGTTTAAAAACATGCTAAGAGATAATCTAATTACTTCTCAATATTTAAATGCTGAATTTGACATCGAAGTAACAGATAAAGAAGTGGAAGATTATTATAAACAAATGAAAGAACAAAATGAAGAAATAGGTAAGTTAGAAGATGTAAAAGATCGAATTAAACAAACCTTGAAGGATGAAAAAACGAACGAACAATTGCAAAAGCGAGTGGAAAAATTAAAAGAAGATGCTGATGTGGAGACAATGATATAG MKKWIIFALTITLAFVLAACGGDNEEDKTAEQDEQQEEGNTEDGGEKPEPVEITDEEKVDDGETVVSVNGEEIKGDRYNPAYLQLKTMNTQFNQDVNEDQLKKQTLDMLINQQLINQDAADKGIEVSKDDVQKEFDTIKKEGKDRLNTALEQFQLNEEQFKNMLRDNLITSQYLNAEFDIEVTDKEVEDYYKQMKEQNEEIGKLEDVKDRIKQTLKDEKTNEQLQKRVEKLKEDADVETMI NA NA NA NA NA AK015_00413 1062 hisC_1 COG0079 Histidinol-phosphate aminotransferase ATGAAATATTGGAGTGAAGTAGCTAAACGATCAACTCCATATGTTCCGGGTGAACAATTAAATGATCCAGCTATTATTAAACTAAATACAAATGAAAATCCCTATCCTCCGTCGCCAAATGTGCAGGAAGCAATCAAACAAGAGATGAACCAAGCATTACATCTTTACCCGTCACCGACTGTTGACAGTTTAAGAGAGAGCATTGCTAAACAGGAGGGGACGGAAAAGGAATCTGTTTTTGTTGGAAATGGCTCCGATGAAGTACTAGCGTTCGCATTTATGGGGCTATTTTCACCAACTCGAACGATACGATTTCCAGCAATTACATATAGCTTTTACCCTGTCTACGCCAATCTTTTTCAAATTCCGTATGAAGAAGTGCCATTAACGAATAATTTCACATTAGATGAGAAAGCTTTTTTTCATACAAAAGGCGGAGTTATTCTACCAAATCCAAATGCGCCGACAAGCATATTTACTAGCTTAGAAAAATTGGAAGAAATCATTCAACATAATCCAGATAATGTCGTTATTATTGATGAAGCTTACATTGATTTTGCACCAGAATCTGCCATAGCACTAACGCATAAGTATGAGCAGCTGTTAATTGTAAAAACTTTTTCAAAGTCACGTTCTTTAGCTGGATTACGTGTTGGCTACGCAATTGGACATCCAAATTTAATTGGAGCGTTAACCCGTATAAAAGACTCCTTTAATTCTTATACGATAGACAGGCTTGCTATAGTCGGTGCAAAAGCAGCTATGGAAGATGCTGCTTACTTGAAAGAAACGACTCGTAAGATTATTCAAACTCGGAAGTGGACGCAAGAACAGATGGAAAAGCGCGATTTCCATGTGCTCCCAAGCGCAACTAATTTTCTATTTGTTCAACATCCTGATTATAATGGAGAACAATTATATGAGCGTTTAAAGGCGAAAAAAATTCTCATACGCCATTTTCGTAAATCTGGCATAGAAAATTATATGCGAATTACCATTGGTACAGACGAGATGATGCAACAGTTTTTGTTCGTGTTGGATGAAATTATGCAGAATACGTAA MKYWSEVAKRSTPYVPGEQLNDPAIIKLNTNENPYPPSPNVQEAIKQEMNQALHLYPSPTVDSLRESIAKQEGTEKESVFVGNGSDEVLAFAFMGLFSPTRTIRFPAITYSFYPVYANLFQIPYEEVPLTNNFTLDEKAFFHTKGGVILPNPNAPTSIFTSLEKLEEIIQHNPDNVVIIDEAYIDFAPESAIALTHKYEQLLIVKTFSKSRSLAGLRVGYAIGHPNLIGALTRIKDSFNSYTIDRLAIVGAKAAMEDAAYLKETTRKIIQTRKWTQEQMEKRDFHVLPSATNFLFVQHPDYNGEQLYERLKAKKILIRHFRKSGIENYMRITIGTDEMMQQFLFVLDEIMQNT PGPT0020305_6528 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK015_00414 627 hisI Histidine biosynthesis bifunctional protein HisIE ATGAAGCAAATAACGTTTGATGATAACGGACTCGCTCCTGCCATTGTACAAGATGCAGATACAGGTCAGGTTTTAACGCTAGCGTATATGAATGAAGAAGCGCTTAAGAAAACAATAGCGACAAAAGAAGCATGGTTCTATAGCCGAAAGCGTCAGGAACTATGGCATAAAGGAGCGACATCTGGAAATAAACAGGTGGTACACTCCATGTCTATCGATTGTGATCAAGATGCTATTCTGCTGCAAGTGAAGCCGCAGGGCCCTGCTTGCCATACAGGAGAAGAAACCTGCTTTCATAAGGATGTTTTCCAAGACCAACCTGCCTCATTTATCATGACGAAACAATTAACAGAAAAAATTAAAACTCGTAAAGAAAATCCTTTACCAGGTGCATACACGACATACTTATTTGCAGAAGGCATGGATAAAATTTTAAAGAAAGTGGGCGAAGAAACAAGTGAGGTCATTATCGGCGCGAAAAATAACGATAAATCTGAAGTAACATGGGAGATTGCTGATTTAACCTATCATACGCTTGTGTTAATGGAACTACTGGATGTATCTGTTACAGATATTAAGCGTGAATTGTTAAAAAGGCATTTACAAAAAGGGGATGGAAAGAAATGA MKQITFDDNGLAPAIVQDADTGQVLTLAYMNEEALKKTIATKEAWFYSRKRQELWHKGATSGNKQVVHSMSIDCDQDAILLQVKPQGPACHTGEETCFHKDVFQDQPASFIMTKQLTEKIKTRKENPLPGAYTTYLFAEGMDKILKKVGEETSEVIIGAKNNDKSEVTWEIADLTYHTLVLMELLDVSVTDIKRELLKRHLQKGDGKK NA NA NA NA NA AK015_00415 768 hisF COG0107 Imidazole glycerol phosphate synthase subunit HisF ATGCTCACTAAACGAATTATCCCATGTTTGGATGTCGATAAAGGACGTGTGGTCAAAGGAAAAAAGTTTACAAACATTCAAGATGTTGCCGATCCAGTAGAATTAGCGCAACGGTACAACGAGGCAGGTGCTGATGAGCTTGTCTTTTATGATATTACAGCTTCAAACGAAGATCGAGATATTTTCGTCGATGTAGTAGAGCAAGTCGCTGCTGAAATTGCAATTCCCTTTACCGTGGGTGGTGGTATCCGAACCGTAGAAGATATTCATAGCGTATTACGTGCAGGCGCTGACAAAGTTTCGATAAATAGTGCTGCCGTACAGCAACCAGGTTTGATTGAAGAAGCAGCTAAAAAATTTGGAAAGCAGTGCATTGTCCTATCCATTGACGCCAAACAAACAGAAGACGGAAGATGGGCAGTCTATATCCATGGGGGCAGAAAACAAACGGCTTTAAATGCCGTGGATTGGGCGAAGCAAGGCGAAGCACTCGGTGCAGGTGAGCTTGTCCTCAACGCAATTAATACAGATGGAGAAAAAAACGGCTATGACCTAGATTTGATGCATGCTGTTGCACAAGCAGTAAATATTCCCATCGTCGCCAGTGGAGGGGCTGGTAAAATGGAACATTTTTCGCAAGTTTTACAACCGACGTATGCAGATGCAGCTCTAGCAGCTTCCGTATTCCACTACGGCGAAATACCTATTCCCGCATTGAAAGCTTATTTAGCTACCCAAGGCATCACGGTAAGACCCATCCCCCATTAA MLTKRIIPCLDVDKGRVVKGKKFTNIQDVADPVELAQRYNEAGADELVFYDITASNEDRDIFVDVVEQVAAEIAIPFTVGGGIRTVEDIHSVLRAGADKVSINSAAVQQPGLIEEAAKKFGKQCIVLSIDAKQTEDGRWAVYIHGGRKQTALNAVDWAKQGEALGAGELVLNAINTDGEKNGYDLDLMHAVAQAVNIPIVASGGAGKMEHFSQVLQPTYADAALAASVFHYGEIPIPALKAYLATQGITVRPIPH 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 AK015_00416 723 priA_1 COG0106 Phosphoribosyl isomerase A ATGATTTTATTTCCAGCCATCGATATCAAAGACGGAAAATGTGTTCGTTTAACACAAGGAAATTACGATCAAGTAAATGTCTATAGTGATACACCAGTTACTGTGTCAAAAGATTGGGAAGCGCAAGGAGCATCCTATCTTCACCTCGTGGATTTAGATGGAGCGAAATCAGGTGTTTCCACGAACGAACCTATCATTAGAGAGATCGCTCAAAAGGTCACCCTGCCAATCCAAGTAGGGGGAGGCATTCGTAGTTTACAAGTAGTGGAGAAGTACCTATCTGCGGGAATAGACCGCGTTATCCTAGGAACTGCCGCTATTAAAGACCAGTCTTTCTTACAAGCTGCTCTGTCTAAATTTCCTCATCAAGTTGCTGTATCGATTGATGCACGAAATGGTTATGTCGCAACAGATGGATGGATAAATACAAGTGAGAAGAAAGCGATTGATCTTGTGCAAGAATTAGAAGATCTAGGACTGCAAACAATTGTTTACACCGATATTTTAAAAGACGGCATGCTAAAGGGTCCCAATTTTTATGAATTAGAAAATCTACAAGCAATTACTTCTATCAATATTATCGCTTCTGGTGGGGTAACAACGATTGCCGACATAAAGCAATTAGCACAAATGAATTTATATGGAGCAATTATTGGCAAAGCGCTTTATGACAATTCCCTTACTTTAGAAGCGAGCTTGGAGGCAGTAAAACATGCTCACTAA MILFPAIDIKDGKCVRLTQGNYDQVNVYSDTPVTVSKDWEAQGASYLHLVDLDGAKSGVSTNEPIIREIAQKVTLPIQVGGGIRSLQVVEKYLSAGIDRVILGTAAIKDQSFLQAALSKFPHQVAVSIDARNGYVATDGWINTSEKKAIDLVQELEDLGLQTIVYTDILKDGMLKGPNFYELENLQAITSINIIASGGVTTIADIKQLAQMNLYGAIIGKALYDNSLTLEASLEAVKHAH NA NA NA NA NA AK015_00417 606 hisH COG0118 Imidazole glycerol phosphate synthase subunit HisH ATGATTTCTATTATTGATTACGGAGCTGGTAATACGAAAAGCTTGCAATTTGCGCTAAATAAAATCGGGGTAGATTCCCACATTACAACCGATAAAACGATCATTGAGAAAAGTAATGCGATCATTTTACCAGGTGTAGGCGCCTTTCAAGATGCCATGCATGCATTAGACACTCAAAATTTAACGAGCTTCATTAAACAAGAAGCAGCTACAGGCAAACCTCTTCTAGGTATTTGTCTTGGCATGCAATTATTCTATGAATCTAGTGAAGAAGATGGAGAAACAAAAGGGTTCGGGTTTTTGACTGGAAAAGTGAAAAAAATTCCTAATGACGTTAAGGTTCCTCATATGGGCTGGAACAACCTCCATAAATACCGGAATAGTTCTTTATGTAAACAAATTACGGATGAAGCATTTGTTTACTTTGTCCATTCCTATGCTGCTACAGATGTAGATACGAATACGTTAGTAGCCAGCACGGCTTATGGGATGCGCATTCCTGCAATCGTACAACAGAACAATATTATTGGTATGCAATTTCACCCAGAAAAAAGCGGGGCAACAGGGTTACAACTTTTAGCAAATTTTAAGGAGATGATAGCATGA MISIIDYGAGNTKSLQFALNKIGVDSHITTDKTIIEKSNAIILPGVGAFQDAMHALDTQNLTSFIKQEAATGKPLLGICLGMQLFYESSEEDGETKGFGFLTGKVKKIPNDVKVPHMGWNNLHKYRNSSLCKQITDEAFVYFVHSYAATDVDTNTLVASTAYGMRIPAIVQQNNIIGMQFHPEKSGATGLQLLANFKEMIA NA NA NA NA NA AK015_00418 585 hisB_1 COG0131 Histidine biosynthesis bifunctional protein HisB ATGCGAAACCATAATATAAGCCGGTCGACCACAGAAACATCTATTGATTTAAAACTTGCTATCGATGGTACGGGGAAAAGCTCGATTCAAACAGGGATTGGTTTCTTTGATCATATGTTAACTCTTGCAACGAAACATGGATTAATGGATGTAGAAGTTCATTGCCAAGGAGATTTAGAGGTGGATCAACACCATTCCGTAGAAGATGTTGGTATCGCATTTGGTAAAGCCTTCCGCAATGCATTAGGTGATAAAGCAGGCATTACTCGTTATGCAAGTATTACAACCCCAATGGACGAGGCGTTATCAACCGTATCATTGGACATAAGCGGTAGAGCCTACCTCGTTTATAAAGTAGAAGGTTTAAAAGATAAAGTTGGGAACTTTGATACAGAATTGGTGGAAGAATTCTTTCAAGCATTTGCTAGCAATGCAAAAGTAACCTTGCACATTCATCACGTTTATGGAAAAAACACCCATCATCTTATTGAATCGATTTTCAAAGGATTCGGTCGAGCGCTTGACGTAGCAACAGAAAGAAGCGGAAGAATTACAGGTATTCCTTCCACAAAAGGAACGTTATAA MRNHNISRSTTETSIDLKLAIDGTGKSSIQTGIGFFDHMLTLATKHGLMDVEVHCQGDLEVDQHHSVEDVGIAFGKAFRNALGDKAGITRYASITTPMDEALSTVSLDISGRAYLVYKVEGLKDKVGNFDTELVEEFFQAFASNAKVTLHIHHVYGKNTHHLIESIFKGFGRALDVATERSGRITGIPSTKGTL PGPT0020305_27 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK015_00419 1296 hisD COG0141 Histidinol dehydrogenase ATGGAACGCTTAACGAAACAACAATATTGGGATTATAAAGAAAGAAGCGCACAACTTATGGAGGAAAAAGAGGCAGCACGTAACGAAACGGTGTTGGAAATTATTAAGCGCGTTCGAAACGAAGGAGATCAAGCAGTCCGCTCTTTCACAGAAAAATTTGACCGTGTCCAAATCCTTGATTTCACCGTTTCGGAGGAGGAGTTTGCCGAAGCTAGAAAATCCGTATCTCCTGCTTTTATGAAGGCAATTAAAGCAGCGACAGAAAATATTTCCCAATACCATAAAAAACAGTTGGAGCAATCCTGGTTAGATATGAGTGAGCCTGGAAAAGTGATCGGACAGAAGGTTACGCCTTTGGATCGTGTGGCAATTTACGTACCTGGCGGAAAAGCAGCGTATCCTTCCACCGTATTAATGAACGCTATACCAGCCAAAATTGCGGGTGTAAAGCATATTTATATTACGACGCCACCACAAGCAGACGCTAAAATTAATCCGTATGTATTAGTAGCGGCAAAGGAAGCCGGCGTTGAAAACATCTATAAGATTGGCGGAGCACAATCAATTGCAGCTTTTGCTTACGGTACAGAATCCGTACCCAAAGTACAAAAGATTACTGGACCTGGAAATGCTTATGTAGCAAGCGCAAAAAAATGGGTGTATGGTGATGTAGCCATTGATATGATTGCGGGGCCAAGTGAAATTTTAGTCGTCGCCGATGAAACAGCAAACGCAGACTTTGTCGCAGCCGATTTACTCTCACAAGCAGAACACGATGAAGAAGCACGTGCCGTTTGTATAACGACAAGCGATGCACAAGCAGATGCCATTGAACAAGCGGTACGTTCCCAAACAAAAAATTTGACAAGAAAAGAAATTATTAAAAAATCGCTTGCCCAGCACGGCAAAATCATTGTCGTTGATACAATAGATGATGCTTTTCCCATTGTAAATGACATCGCTCCAGAACATTTACAGCTCATGATTGCGGATCCAATGGAAAAGCTTGGCGCGGTAAAACATGCGGGTGCTATCTTTTTAGGAAATTATTCACCAGAAGCTTTAGGAGATTACGTTGCCGGACCGAACCATACGTTACCGACAAACGGCACGGCTACGTTTGCTTCCCCGCTCGGTGTGTATGATTTTATGAAAAAGTCAAGCGTTATTTATTATGATAAACCTTCACTACTTGCTAGTGCAGATACGATTATAGAGATTGCTAATACAGAGCAGTTAACCGCACATGCGCAATCCGTACAGATACGAAAGGAGGAGACAGATGCGAAACCATAA MERLTKQQYWDYKERSAQLMEEKEAARNETVLEIIKRVRNEGDQAVRSFTEKFDRVQILDFTVSEEEFAEARKSVSPAFMKAIKAATENISQYHKKQLEQSWLDMSEPGKVIGQKVTPLDRVAIYVPGGKAAYPSTVLMNAIPAKIAGVKHIYITTPPQADAKINPYVLVAAKEAGVENIYKIGGAQSIAAFAYGTESVPKVQKITGPGNAYVASAKKWVYGDVAIDMIAGPSEILVVADETANADFVAADLLSQAEHDEEARAVCITTSDAQADAIEQAVRSQTKNLTRKEIIKKSLAQHGKIIVVDTIDDAFPIVNDIAPEHLQLMIADPMEKLGAVKHAGAIFLGNYSPEALGDYVAGPNHTLPTNGTATFASPLGVYDFMKKSSVIYYDKPSLLASADTIIEIANTEQLTAHAQSVQIRKEETDAKP NA NA NA NA NA AK015_00420 627 hisG COG0040 ATP phosphoribosyltransferase ATGGCTGCATTTACAATCGCCGTTGCCAAAGGTCGGACAGCAGATCAATCGATTCATTTACTGGACAGTATGGGGATTACATTCCAACAGTTAACTTCTTCTAGCAGAAAACTAATTTTTTATAACAGTGATGAAACGATTAAATTAATCTTTGTAAAAGGTGTAGATGTACCTACTTATGTAGCAAAAGGAGCAGCGGATATAGGAATTGTAGGAAAAGACAATATTTTGGAATCACAAGCAGATGTCTACGAAGTTCTCGACTTAAAAATTGGCACGTGTAAATTTGCCGTTGCTGGAAAGCCCGGACAACTTTTAGATACGATAAAGCCATTAACAATTGCTACAAAATATCCAACCATTGCACGAAACTATTTTTCTCGTAAAGGGAAATCAATAGATATTGTGAAATTGAACGGATCTGTCGAATTAGCCCCGTTAATTGGCTTAGCAGATGTCATTGTTGATATCGTAGAAACTGGCAACACATTAAGGGAAAACGGCTTGATTATTTTAGAGGAAGTAGAACCAATTAGCACAAGACTGATCGTAAATAAGGCAAGCTTTGCATTAAAATCACAAGCAATCCATTCGTTTATTCAAGAAGTTCAGAAAAACTTAACGTAG MAAFTIAVAKGRTADQSIHLLDSMGITFQQLTSSSRKLIFYNSDETIKLIFVKGVDVPTYVAKGAADIGIVGKDNILESQADVYEVLDLKIGTCKFAVAGKPGQLLDTIKPLTIATKYPTIARNYFSRKGKSIDIVKLNGSVELAPLIGLADVIVDIVETGNTLRENGLIILEEVEPISTRLIVNKASFALKSQAIHSFIQEVQKNLT PGPT0017400_4201 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 AK015_00421 1239 hisZ COG3705 ATP phosphoribosyltransferase regulatory subunit ATGATGCACCCTCTGTTACATACACCTTATTTGGATAATGACCTGCTTCAACAGCGCGATAAAATGGTTGCTACATTAAAGCAACGGTTTAAAACTTACGGTTATCAGCAAATACAAACAGCAACACTAGAGCCTTATGATCTTTATGTAGGAAATCCCAAGATTGGCAATACAGACGAAATGATAAAAGTGATGGATACTTCTGGAAAAGTACTTGTATTACGACCTGATGTTACAATTCCGATCACACAGCAAATTGCTACCGCACATATGAATGTTGGTGAAGATACTCGGCTATTTTACATCATGGATGTCTTCGGCTATCGATTTGAAGACGATCAAAAACAACGTACACAAGCAGGAGTTGAATATTTTAGCAACCGCACCCCTGCTGGTGATGCAGAAGTCATTGCCCTTGCCATTCATATATTAAAAGATTGTGGTTTTCCAGAATTTAAATTGGAGATTGGCCATGCTGGTTTTTTTCGAGCATTGCTAGCCCAAGCAAATTTATCTAATGAACAAATTGCTCCCTTACAAACATATATTCAAACGAAAAATATTGCAGAAATGGTAGATTATTTAGCTACCCTCCCTATTCAAGAAACAATTAAACAAGCAATGCAGCATATTCCATTTCTTTACGGAGAACCAAATGAAGTGATGGAAGGAATCAAGCAGAACGGGTTAAATGGGATAGTACAAGCAGAATTAACTTATTTGGTTGATGTGTATAACAGCATTCAAGCATACGGACTTACAGATCATATTGTGTTTAACCTAGGACTTATCAATGATATGAACTACTACTCCGATGTTATTTTTCAAGGATTTGTCAACCAAGTCGGAAAGCCTGTTGTTATGGGAGGAAGATACGATGGCTTAGGTGATTACTTCGGGGCTCGTATTCCAGCAATCGGTTTTGCCTTTGATGTTGATTTGTTACTTCATGCAGCAAAACAGCACGGTTTGTTCACTACATTAAAGGAGGATGAACCCATAGCAGTATCATATAATATTTCCCAGCAAAAGGAAGCATTAGCTATCGCGCTAGCATTACGCGAACGAGGATACGCCGTCGTCACCTACTCAACAAATGACAACCGACAAGCTGCTTCTAAAGAAACCGTACACATTATTTGTGAAACTGATTCATATAACCTTTATCACGGTGAGCAAGCTATTTCATTTCAGCATATTTCAGAAGTAATCCAATTGTTACAAGAAAGGGGGAGTTAA MMHPLLHTPYLDNDLLQQRDKMVATLKQRFKTYGYQQIQTATLEPYDLYVGNPKIGNTDEMIKVMDTSGKVLVLRPDVTIPITQQIATAHMNVGEDTRLFYIMDVFGYRFEDDQKQRTQAGVEYFSNRTPAGDAEVIALAIHILKDCGFPEFKLEIGHAGFFRALLAQANLSNEQIAPLQTYIQTKNIAEMVDYLATLPIQETIKQAMQHIPFLYGEPNEVMEGIKQNGLNGIVQAELTYLVDVYNSIQAYGLTDHIVFNLGLINDMNYYSDVIFQGFVNQVGKPVVMGGRYDGLGDYFGARIPAIGFAFDVDLLLHAAKQHGLFTTLKEDEPIAVSYNISQQKEALAIALALRERGYAVVTYSTNDNRQAASKETVHIICETDSYNLYHGEQAISFQHISEVIQLLQERGS NA NA NA NA NA AK015_00422 789 hisK COG1387 Histidinol-phosphatase ATGTTTGATTTTCATATTCATAGTGATTTTTCCGCTGATTGCAATACGCCGATGGAAAAAACAATAGAATACGCTATAAAAGAAGGTTTACACGAAATTTGTTTTACGGAGCATATAGATGAAGATTACCCAGACCCTACGATTGATTTTTCGCTAGACCTTGCAAGCTATCATCGAAAAATCCAAGCAATGCAACGAGAATACGGAGAACGAATTAAAATACGTAAAGGATTGGAAATTGGCGTTCAACCCCATTTAGTAAAAAATTGTACCCAAACTGTTCATTCTGCACCGTTTGATTTTATCATTTGTTCCATGCATACAACCGATAAGCAGTCCTTGCATACAAGTAATTTTTTCGAAAAACAGCCTGTGGAAGAAGCATACCGAAAATATTATGAAGAACTGTTTTATTGCGTATCACGTTTTAAAGATTTTCAAGTGATCGGGCATATTGATTTAGTGAAACGTTATACTAAAAATAAACCTGTTCAAGATCATTTTTATGATGTATTGACGAACATTTTTGAAGCAATCATTTATGCTGGAAAAGGAATTGAAATAAACACTTCTGGTTTTCGTTATGGGTTACCATGTGCGATGCCAAGTGAAGATATTTTACAATTGTATCGAGAATGCGGAGGAGAAATCATTACGATTGGTTCTGATTCTCATCGTGCACAAACAGTTGGATACGGCGTGTCTGATGCGCTAAAATTGTTACGACAGCTCGGTTTTCGATATGTTACAACCTTTCAAGATAAACAGCCAACTTTCCACCGTATTTAA MFDFHIHSDFSADCNTPMEKTIEYAIKEGLHEICFTEHIDEDYPDPTIDFSLDLASYHRKIQAMQREYGERIKIRKGLEIGVQPHLVKNCTQTVHSAPFDFIICSMHTTDKQSLHTSNFFEKQPVEEAYRKYYEELFYCVSRFKDFQVIGHIDLVKRYTKNKPVQDHFYDVLTNIFEAIIYAGKGIEINTSGFRYGLPCAMPSEDILQLYRECGGEIITIGSDSHRAQTVGYGVSDALKLLRQLGFRYVTTFQDKQPTFHRI NA NA NA NA NA AK015_00423 813 hypothetical protein TTGAATAAGAAACAGATATTAAGTTTGGCATCTTTTGGTCTAGTCATCATTGGTTTTATCGTGCTTATAGGCATGCCAAATAGAGCAATTTCCGATTTTAACAAAAGTCGCCCAACATTATTCGTGCATGGATATAAGGGGACTGAAAATTCATTTGGATTTATGCTACAGCGCTTTGAGCATGAGTATAAGTGGGGAAATAAAGCACTTATTTATTATGTAACCAAGCAAGGGGAAGTGAAAAAATATCAACCGCGTCTTGGGGAAGAAAAGCCCCTCTATGTCCAAGTGATTTTTGAAAATAATCGAGCTAGCTTTGAAATGACATCCAGTTGGTTAGCAAATGTACTAAAAGATATGCAGCAAACATATGGTGTCGATGATGTAAATATTGTTGGACATTCTATGGGTGGAATTGTGTCGTTAGAATATATGAAGCAATTTCAAGGAAAATCCTATCCGTCTGTCCACAGGTTTGTGGCGGTAGGAAGTCCGTTTGATGGGATATACAGTGAAGAATATTTTCGTATTCATCATGATCCAGCAGCAACCGATTTACGACCTAATTCTAAAGCGCTACAACATTTAAGGGAACGTTCTTTTCCAAACCATACAAAAGTTCTCAGTATTTCTAGTACAGGTGATATAGTTGCAGTACCTGAAAGTGTCCGCGCGATACGCAAAATGGTACCGAATCAACAATTGACAGAAATTGTCATTGACGATGATGTATTAGGTCATAGCGATTTGCATGAAAGCAGAAGAGTGGATCGTTATATTTATGAATTTCTGTGGCAAGATCAAGTTCAATAG MNKKQILSLASFGLVIIGFIVLIGMPNRAISDFNKSRPTLFVHGYKGTENSFGFMLQRFEHEYKWGNKALIYYVTKQGEVKKYQPRLGEEKPLYVQVIFENNRASFEMTSSWLANVLKDMQQTYGVDDVNIVGHSMGGIVSLEYMKQFQGKSYPSVHRFVAVGSPFDGIYSEEYFRIHHDPAATDLRPNSKALQHLRERSFPNHTKVLSISSTGDIVAVPESVRAIRKMVPNQQLTEIVIDDDVLGHSDLHESRRVDRYIYEFLWQDQVQ NA NA NA NA NA AK015_00424 921 murB COG0812 UDP-N-acetylenolpyruvoylglucosamine reductase GTGGAACGGAATCATCATATGTACGGTAAATTGACGGAAGTGACTTCCGAGAAAAATGTGATGGTGGATGAGCACTTAAGAAATCATACGTATACGAAGTTAGGTGGGAAAGCAGATTTCTTAGTTACACCAGAAACGTACGAAGAAGTGCAAGCAATTGTAAAGCTTGCCAATCAAGAAAAAATAGCTTTTACATTACTAGGAAATGGTTCCAATTTAATTGTTAAAGATGGCGGCATTCGTGGAATTGTTATGAATTTAAAAAAACTCTGTTCCATGTGGCGAGAAGAAGAAAAAATTATTGCGCAAAGTGGAGCAAAAATTATTGATGTTTCTCGTCAGGCTTTACAGGAAAGCTTGCACGGGCTGGAATTTGCTTGTGGTATACCTGGTTCGGTTGGTGGAGCTTTATACATGAACGCCGGAGCTTACGGTGGAGAAGTGAAAGATGTGCTTGAAAGTGCAAAAGTGGTCACTCGAGAAGGGAAACTATTGTCATTACCTGCTAGTGCGCTTGATTTACATTATCGCACAAGTAATATTCCTGATAAAGGATACATCGTATTAGAAGCAACATTTTCATTACAAAAAAGAGATGCAGCTGATATAAAAGCGGTGATGGATGATCTCACATATAAACGGGAATCGAAGCAGCCGTTGGAATACCCTTCTTGTGGCAGTGTGTTTAAACGCCCCCCTGGATACTTTGCTGGAAAGTTAATTCAAGATAGCGATTTACAAGGTAAGCAAATTGGTGGTGCGCAAGTATCAACCAAGCATGCAGGCTTTATTGTAAACAAAAATAATGCTACAGCTACAAATTACATTGACTTAATACGTTTTGTTCAATCGACCGTAAAAGATAAATTTGGCGTAAATTTAGAACGCGAAGTACGAATTATTGGGGAAGATCCAAAATAA MERNHHMYGKLTEVTSEKNVMVDEHLRNHTYTKLGGKADFLVTPETYEEVQAIVKLANQEKIAFTLLGNGSNLIVKDGGIRGIVMNLKKLCSMWREEEKIIAQSGAKIIDVSRQALQESLHGLEFACGIPGSVGGALYMNAGAYGGEVKDVLESAKVVTREGKLLSLPASALDLHYRTSNIPDKGYIVLEATFSLQKRDAADIKAVMDDLTYKRESKQPLEYPSCGSVFKRPPGYFAGKLIQDSDLQGKQIGGAQVSTKHAGFIVNKNNATATNYIDLIRFVQSTVKDKFGVNLEREVRIIGEDPK PGPT0024115_3414 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075 NA NA AK015_00425 213 hypothetical protein ATGGGTGAACAATCGCAATTTCGTGCAGGAGATAAGGCGCCAAACAATGGTGTTTACATTGAATGCGGAGAAACGGGTAGCAATGTAAATGACCCACAGCAAATTCAATTAACAGCTGGGGAAAAATTTCCTGAAAATACAAATCATGATCGTGTTTGGATCAATAAACGACATCTATCCAAACCTGGTGTTCAAGGACGTAGTAATAATTAG MGEQSQFRAGDKAPNNGVYIECGETGSNVNDPQQIQLTAGEKFPENTNHDRVWINKRHLSKPGVQGRSNN NA NA NA NA NA AK015_00426 771 artM_1 COG1126 Arginine transport ATP-binding protein ArtM ATGATAGAACCTATCGTCTCATTTCATGACGTACACAAATCCTTTGGGGATGTTAAAGTCTTAAAAGGAATCGATTTAGACATTCGACCAGCAGAAAAAGTAGCAATTATTGGTCCCAGTGGTTCAGGTAAAACGACGATCATTCGGATGCTTATGACGTTGGAGGAGCCTACATCTGGAGATATCATCGTAAATGGTACGAATCTGTGGAAAATGGAGAAAAAAGGGAAGCTTGTGCGGGCTAATGAAAAGCATCTACGGGCAGTACGCGGTGATATTGGAATGGTATTTCAACATTTCAATTTGTTTCCGCATATGACGATCTTGGAAAACTGCATGACAGCTCCACTACATGTAAAAAAAGAAGGGAAAGAAGCAGTGAAGCAACGCTCCCTTGAAATGTTGGAGCGCGTTGGCCTAAGCGATAAAGTCTATCAATATCCGAGCCAACTATCTGGTGGACAAAAACAGCGGGTAGCGATGGCACGAGCACTTGTTATGCGACCAAAAATCATGTTATTTGATGAGGTCACTTCCGCGCTCGATCCAGAATTAGTAGCCGAAGTACTTCAGGTTATCCGTGATATTGCTAAAAACGATGATATGGCGATGATTCTTGTGACACACGAAATGGATTTCGCTTTAGATATTGCCGATAAGGTGCTGTTCTTAGATGAAGGTGTGATCGCAGAACAAGGTACTGCTAGAGAAGTTATAGAACATTCTAATAACGAACGCTTACAGGAATTTTTACATCGCTTTCGAGCGTAG MIEPIVSFHDVHKSFGDVKVLKGIDLDIRPAEKVAIIGPSGSGKTTIIRMLMTLEEPTSGDIIVNGTNLWKMEKKGKLVRANEKHLRAVRGDIGMVFQHFNLFPHMTILENCMTAPLHVKKEGKEAVKQRSLEMLERVGLSDKVYQYPSQLSGGQKQRVAMARALVMRPKIMLFDEVTSALDPELVAEVLQVIRDIAKNDDMAMILVTHEMDFALDIADKVLFLDEGVIAEQGTAREVIEHSNNERLQEFLHRFRA PGPT0020790_2303 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028 NA NA AK015_00427 711 yecS_1 COG0765 L-cystine transport system permease protein YecS ATGAGTAATTGGAGTTGGGAAGTAGTTGCAGAAGCATTCCCCAAAATCATCGACGGCCTTGGAATTACCCTCGGCTTAACGATAGCTTGTTATGCATTTGCACTTGCATTTGGATTTATTTGGCTGTTTATGAGAAAGATTCCGATCATGCCGCTTCGTTGGCTGATTACATGGGTGATGGAATTTATTCGTTCTACCCCGCCTTTAGTCCAGCTATTTTTTATTTATTTCGCATGGCCAATGGTTCCCGTTATAGGTTTTACCTTAAACGGATTTACAAGTGCCGTACTCGGCTTAGGAATCCATTTTAGCACCTATATTGCAGAAGTATACCGCTCTGGAATAGAAGGTGTAGGGAAAGGACAATGGGAAGCTGCAAAAGCTTTAAATTTTTCTAAGCGGCAAAAGTGGACAAAAATTATTTTACCACAAGCAATACCACCAACCATCCCAATGCTTGGAAATTATTTTATTATTATGTTTAAAGAGGTTCCATTAGCATCAACGATTGGTGTTGCAGGTATTTTGCATATTGCGAATAGCTATGGAGCAGAAAACTGGACCTATCTAGAACCCTTAACCATTGTGGCCATTCTTTTCTTAGCTTTGAGCTACCCATCTGCTATAATCATAAACAGACTAGAAAAGAAATTGAACCGACGCTTTGATAAAAAAGAAGCTTTGACGAGAAGTAAAGGAGCGACAGCATAA MSNWSWEVVAEAFPKIIDGLGITLGLTIACYAFALAFGFIWLFMRKIPIMPLRWLITWVMEFIRSTPPLVQLFFIYFAWPMVPVIGFTLNGFTSAVLGLGIHFSTYIAEVYRSGIEGVGKGQWEAAKALNFSKRQKWTKIILPQAIPPTIPMLGNYFIIMFKEVPLASTIGVAGILHIANSYGAENWTYLEPLTIVAILFLALSYPSAIIINRLEKKLNRRFDKKEALTRSKGATA PGPT0020795_5416 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029 NA NA AK015_00428 672 yecS_2 COG0765 L-cystine transport system permease protein YecS GTGGTACACATTAATGCAATCATCGAGATTTTCCCTGATTTAGCAAAAGGACTAACGATTACCATTACCGTTTTAATTGGTGCAGCATTTTTTGGTTATTTATTTGCGTTTATTGCTGGTCTATGCCGAATGTCCTCCAATGTCTTCCTCCGTAAATTCACAGGGTTTTATGTGGAAATCTTTCGAGGGACTTCGCTAATCGTTCAATTATTTTGGCTTTATTACGCGATTCCGATGCTATTTGGTATTGAGCTAGGAAGCAATTGGTGGGCAGGCGTCATTGCAATTGCCTTAAACTACGGGGCATACATGTCTGAAATTGTCCGTGGCTCTATTCTTGCAGTTGCAAACGGGCAGTCCGAAGCAGCAACTGCTTTAAATATGTCACGCTTTCAACGAATGCGATTGGTAATTTTACCACAAGCAATTCGCATGATGCTTCCTGAATTCGGGAACTATTCTATTCAAATGTTGAAAGCCACTTCCCTCGTATCCCTCATTGGTATGGAAGATATTCTTTATCATGGAAATATTATTCGTAGTACAAATTTATCACAAGCACCTACCGTCTATTTGCTTGTCTTACTATTCTACTTTATTTTAGCGCTACCGCTTATCTTTTTAACTCGTAAGATGGAGGCGTTCTCTAAAAAAGGGGTGGCTAGCGGATGA MVHINAIIEIFPDLAKGLTITITVLIGAAFFGYLFAFIAGLCRMSSNVFLRKFTGFYVEIFRGTSLIVQLFWLYYAIPMLFGIELGSNWWAGVIAIALNYGAYMSEIVRGSILAVANGQSEAATALNMSRFQRMRLVILPQAIRMMLPEFGNYSIQMLKATSLVSLIGMEDILYHGNIIRSTNLSQAPTVYLLVLLFYFILALPLIFLTRKMEAFSKKGVASG PGPT0020795_7544 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029 NA NA AK015_00429 882 glnH COG0834 ABC transporter glutamine-binding protein GlnH ATGAGAAAAATCTTACTTACATGTCTTTTCGGATTACTATTTGTGCTCGCTGCTTGCGGTTCAAATGAAGGGGATACAAATGATGAAGCAAGTGGGAGTAAATTAGATGAATTAAAAGATTCCGGAAAAGTTACTATCGGCTTTGCCAATGAAAAACCATATGCTTACGAAGAAGATGGTAAACTCAAAGGCGCCGCAGTTGATATTGCTAAAGCTGTCTTCAAGGAATTAGGAATTGAAGAAATGGACAGTAAGCTAGCGGATTTCGGGCAATTAATTCCTGGCTTAAAAGCAGGGCAGTTTGACGTTATAACAGCAGGAATGGCAATTAATCCTGATCGTTGTAAAAATGCTGCTTTTGGTGAACCAGAAATGATGTATGGTGAAGGGTTAATTGTACAAAAAGGGAATCCGTTAAATTTAAAAAGCTATAAAGATATCGCGGACAATCCAGATGTTACTGTTTCTGTCATGTCTGGTGCTACAGAAAATGCATTTTTAAAATCAGAAGGTGTAAGTGAAGAGCAAATTACGAATGCAGAAGATATTCCCGCGACTTTTTCAGCAGTGGAATCTGGTCGGGCAGATGCGACAACTGGAACAGAAATGACCATTAAAATGGCTCTTGAATCCGCTAACTCTGATCAGCTTGAATTCGTGGAAGGTTTTGAACAACCAGATGTAGAGGGTGTTCCAAGCTATGGCGCTGCTGCTTTTCACCTAGATAATACAGAATTACGCGATGCTTATAATGAAAAGCTAGCTGAATTAAAAGCAGATGGTACTGTAGCGGAATTGCTAGAGGCGAATGGTTTTAGTGAAGAAAATAATATGGTAGCCGACGATATTACAACAGAAAAAATCTGTAGCGGAGAAATGTAA MRKILLTCLFGLLFVLAACGSNEGDTNDEASGSKLDELKDSGKVTIGFANEKPYAYEEDGKLKGAAVDIAKAVFKELGIEEMDSKLADFGQLIPGLKAGQFDVITAGMAINPDRCKNAAFGEPEMMYGEGLIVQKGNPLNLKSYKDIADNPDVTVSVMSGATENAFLKSEGVSEEQITNAEDIPATFSAVESGRADATTGTEMTIKMALESANSDQLEFVEGFEQPDVEGVPSYGAAAFHLDNTELRDAYNEKLAELKADGTVAELLEANGFSEENNMVADDITTEKICSGEM PGPT0020800_3762 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030 NA NA AK015_00430 918 panE_1 COG1893 2-dehydropantoate 2-reductase ATGCATATTGTTGTTTTAGGTGCGGGTGCATTGGGAGCTTATTTTGGGTTGCGCTTTCAAGAGGCAGGTGCAAAGGTGACGTTTTTAGTGCGAGAAAAAAGAGCTAACCAACTTGAACGGTTTGGATTAGCTATGCAAAGTCCGCACGGGAATATATTTGCTAAGGAATTAAATTGGGAAACAGATCCATCCGTTATTCCAAGCGCTGATGTCATTTTAGTAAGTGTAAAAGGATACCATCTCCGTGGCGCATTAGATCAGCTGCGCCCGCTTGTAAATAAAGGGGCTTATGTTTTGCCGGTCTTGAATGGGATTGAACATATCTCTATTTTGCAACGGGAACTTGGCAAAGATAACGTATTCGGCGGATTAGCTTTTATTATTGCTACATTAAATGATAAAGGTCATGTCGTTCATACTGGTGATTTTCACGATCTGATCTTTGGAGCGCTCGGTGCAAAGCAAGAAAAAGTAATCGCAAACTTAGAAGCGTTGTGTGATAAAGCGATTGTAGGAGGAAAACAAACCAATAATATTTTGTATGAATTATGGAAAAAGTATATGTTTATTAATGCTTTCTCTGGTATTACAACAGCGACGAACTTACCAATAGGAGTGGTTCGAAAGCATGAAGAAACTTTCCAAATCGCTATACATCTATTAGAAGAAATGAAACATGTAGCCATGAAGTATGGTGTTGAAATCACAGATCAAGATGTGACAGAAGCAATAAAGATAATGCAGCAGCTTGATGCTGATGCTACTTCGTCTATGCACCAAGATTTACGGAAAGAGTTACCGCTTGAACTCGATCATTTACATGGTGGCGCCATTCGTTTAGCAAAAGCAAAGCAGTTGGAGCTTAAATATATGACAGCTATTTACGGTATCATTAAACCGTTTGAAAATAGGACGTAA MHIVVLGAGALGAYFGLRFQEAGAKVTFLVREKRANQLERFGLAMQSPHGNIFAKELNWETDPSVIPSADVILVSVKGYHLRGALDQLRPLVNKGAYVLPVLNGIEHISILQRELGKDNVFGGLAFIIATLNDKGHVVHTGDFHDLIFGALGAKQEKVIANLEALCDKAIVGGKQTNNILYELWKKYMFINAFSGITTATNLPIGVVRKHEETFQIAIHLLEEMKHVAMKYGVEITDQDVTEAIKIMQQLDADATSSMHQDLRKELPLELDHLHGGAIRLAKAKQLELKYMTAIYGIIKPFENRT PGPT0008745_3743 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 AK015_00431 156 hypothetical protein ATGTCAACGATAATGATTGTAAGTATGATATCTTTCGTAGTAGTTATTCTCGTACTTGTTTTATCTTTAATCACCATAAAAAAAGGGTACGCATATAAACATCAAATCGACCCTTTACCTGAAGAAGGCAATGACAACAATGAAAAAGGCACTTAA MSTIMIVSMISFVVVILVLVLSLITIKKGYAYKHQIDPLPEEGNDNNEKGT NA NA NA NA NA AK015_00432 981 iolU COG0673 scyllo-inositol 2-dehydrogenase (NADP(+)) IolU ATGAAATTTTGTACCATTGGCACAAGTTGGATTACAGAAGCATTTATTGAAGCAGCTCACCGTAGTGGGGAAGCGCAGTTAGTGGCCGTCTACTCAAGGAAATCGGAATCTGCACAAGCGTTTGCTAATAAATATGGAGAAGTTAGTGCATTTACAAATATTCAGGAAATGCTTGCAGATGATAACAGTGATTTTGTTTATATTGCATCTCCGAATATTTTGCACCCGGATCATATTAAACTAGCCATACGTAGCGGAAAGCATGTATTTTGTGAAAAGCCGATGGTGTTTACAGATAAGCAGTGGCAAGAAATTGCTCAACTAGCTAAAGAACATCAAGTATTTGTGTTTGAAGGGTTTCGTCACTTGTTTTCACCGAATTACGAGCGTCTAAAAGAAGCATTAGCAAGCGTAGGCACTGTCCGTAGTGCAATGCTTCAATATATGCAATATTCATCTCGATATGATAAGTATAAAGAAGGAGCAGAACCGAATGTATTCTCGCAACAATTTGCAGGGGGGGCGTTAATGGATTTGGGCGTTTATCCATTAAGCATGGCTGTTGATTTATTTGGTCAACCTATAAATGCAACATATCACCCTGTTTTACTGGAAAACGGCATTGACGGAAGCGGAACGATGGTCCTTACATATGAAGGTTTTGTGGTAACATTATTAACTTCTAAAATAACGAATGCATTTATGCAATCTGAAATACATGGCGAAGAAGGTACACTGATGATGGATGCTATTGCACCGATATCTCAAATACAGCTTTATGATAGAAAAACAGCGCATGTAAGCGAACTGGCAAACGAGCAATATGATGCAGATATGATATTTGAAGTAGAAGCATTTGTGAAAATGGTGACAAATAATGATTGGGATTCGCATAACGCCTTTTTAGAAAGAAGCAGAACTGTCGCACAATTAACAACAAAAATGAGACAGGAAAATGGCATTCATTTTCCTAATGAATAA MKFCTIGTSWITEAFIEAAHRSGEAQLVAVYSRKSESAQAFANKYGEVSAFTNIQEMLADDNSDFVYIASPNILHPDHIKLAIRSGKHVFCEKPMVFTDKQWQEIAQLAKEHQVFVFEGFRHLFSPNYERLKEALASVGTVRSAMLQYMQYSSRYDKYKEGAEPNVFSQQFAGGALMDLGVYPLSMAVDLFGQPINATYHPVLLENGIDGSGTMVLTYEGFVVTLLTSKITNAFMQSEIHGEEGTLMMDAIAPISQIQLYDRKTAHVSELANEQYDADMIFEVEAFVKMVTNNDWDSHNAFLERSRTVAQLTTKMRQENGIHFPNE NA NA NA NA NA AK015_00433 549 cwlK Peptidoglycan L-alanyl-D-glutamate endopeptidase CwlK ATGAAGAGAATTCAACGAACATTATTACCATGGCTTATTATTTTAATCGGACTCATTATTTTGTTTGTCATATACAATCAAAAGCAAACCGTTGATATAGATAAAGAAATGCCTACTCAGCTTCATCCAGTGGTTCAAGAAAAAAAAGAGGTATTCATAAATAAAGCAGCCTCTAGAAATATAGAGGTTGTCATAACAGACGGTTTACGTACCATACAAGAACAAAATGAATTATACGAACAAGGAAGAGAAACAGAAGGAAGAACGATCACCAACGCAAAAGGTGGACAATCCTATCATAATTATGGATTAGCAATCGATTATGCACTAAGAAGTAAGACTGGAAAAGTTATTTGGAATATTGATTATGACGGAAACGGCAACGGCAAATCCGATTGGTTGGAAGCGGCTTCTATCGCCAAAGGCCTCGGCTTTGAATGGGGCGGAGACTGGAAAACGTTTAAAGACTATCCCCATTTGCAAATGACATTTGGATTAAGCATTAACCAATTACAACGTGGAATTCGCCCAGGCAAAGAACGCAGGTGA MKRIQRTLLPWLIILIGLIILFVIYNQKQTVDIDKEMPTQLHPVVQEKKEVFINKAASRNIEVVITDGLRTIQEQNELYEQGRETEGRTITNAKGGQSYHNYGLAIDYALRSKTGKVIWNIDYDGNGNGKSDWLEAASIAKGLGFEWGGDWKTFKDYPHLQMTFGLSINQLQRGIRPGKERR PGPT0024025_469 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733 NA NA AK015_00434 618 plsY_2 COG0344 Glycerol-3-phosphate acyltransferase ATGGTTACGGCACTAGCTGCTATGATTGGTTACTTCATAGGCTGCATACACGGTTCACAACTTATTAGCTTATATAAACGTGTAGATATTAAAAATTCAGGTGTTAAAAATGCTGGGGCCTCAAATACGACGATCTTATTAGGCTGGAAGTATGGAATATTTGTCGCCCTCTTTGATATTTTAAAAGGTACTTTTGCCATTTTTGTTGTATTATACTTATTAGATGTGTATGGTATAAGCGGAGATGAACGAATACTGCTTATATATGTTACGGCATTATTTGTTATTTTAGGACATAATTATCCGATTACGATGAAATTCAGTGGTGGTAAAGGAACTGCTTCGCTAGTTGGCATCTTACTCGCTGTCGATTGGAAAGTCGCTGTAATCGGTATTGGACTATTACTTGTTATTACAATTGCTACCGATTATTTAGTAATGGGTGTTCTTGTTATGTATCTTTCTTTCTTGTTGACGACTTATATATTCTTCGGCTTAGAACCAACTTTAATTGTTATTTTTTTATCTATTTTAAGCATCATGAAACATATGGAGAACTTTCGACGTATAGTAACAAAACAGGAGACGAGGCTATCAAGTATGTTTCGTAAAAACTAG MVTALAAMIGYFIGCIHGSQLISLYKRVDIKNSGVKNAGASNTTILLGWKYGIFVALFDILKGTFAIFVVLYLLDVYGISGDERILLIYVTALFVILGHNYPITMKFSGGKGTASLVGILLAVDWKVAVIGIGLLLVITIATDYLVMGVLVMYLSFLLTTYIFFGLEPTLIVIFLSILSIMKHMENFRRIVTKQETRLSSMFRKN PGPT0024375_1875 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591 NA NA AK015_00435 483 hypothetical protein TTGGAGATCGTTATTTGGATATTAATTATTGCTTTATTTGTTTTAAGCTTTGCAGGTATTATATTCCCAATTATTCCGTCTGTGTTTGTGCTTTGGGGCGGTTTCCTTTTGTATCAGTTTGCTCTCAATCCTAATGAATTAACCCTTTCTTTTTGGATTGGAATGGGTATTATTACAGCTTTATTAGTCGGCGCTGATATTATTGCGAATAGTTATTTTGTTAAAAAGTATGGCGGTAGTAAGTGGGGAGAGCGTGGTGCGGCTGTTGCAGTTATTATTGGCTCCTTTATCGTCCCGCCGTTTGGAATTCTTATTGTGCCGTTTCTAACTGTTTTTATTATCGAGTTATTACAGCAACGGACTGTACAGGAAGCGTTCCGTGCTTCATTCGGTTCCTTAATCGGATTTCTAGGTGGGACAGTTGCTAAAATTGTACTTCAATTCGTTATGATTGTTTGGTTCTTTGTGGTGATTATCTTTTAA MEIVIWILIIALFVLSFAGIIFPIIPSVFVLWGGFLLYQFALNPNELTLSFWIGMGIITALLVGADIIANSYFVKKYGGSKWGERGAAVAVIIGSFIVPPFGILIVPFLTVFIIELLQQRTVQEAFRASFGSLIGFLGGTVAKIVLQFVMIVWFFVVIIF NA NA NA NA NA AK015_00436 549 rutB Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB ATGAAAAAGGCGCTTTTAAATGTAGATTATACGATTGATTTTGTAGCAGAAGATGGAAAATTAACGTGTGGCATACCTGGACAAGCTATTGAAGACAAAGTGGTTTCTTTAACGAAACAATTTATTGAAAATGGCGATTATGTTGTGTTTGCCATTGATGCACATGAAGAAGGAGACGCTTTTCATCCTGAAGCAAACTTATTTCCGCCACATAATATCATCGGTACAGCAGGGAAAGCGTTATATGGAAAGCTTGCTACCCTTTATAATGAGTACCAGAATAAGGATAATGTATATTATTTTGATAAAACAAGATATAGTGCTTTTGCTGGCACAGATTTAGAACTGAAACTGCGTGAACGTGGTATTCAAGAAGTACATATTATCGGCGTCTGTACAGATATTTGCGTATTACATACGGCGATCGATGCCTATAATAAGGGCTTCGACATTGTTGTTCATCAAGATGCCGTTGCCAGTTTTAATCAAGCAGGGCATGAATGGGCGCTTGGACACTTTGAAAACACGTTGGGAGCTAAGGTTGTTTAG MKKALLNVDYTIDFVAEDGKLTCGIPGQAIEDKVVSLTKQFIENGDYVVFAIDAHEEGDAFHPEANLFPPHNIIGTAGKALYGKLATLYNEYQNKDNVYYFDKTRYSAFAGTDLELKLRERGIQEVHIIGVCTDICVLHTAIDAYNKGFDIVVHQDAVASFNQAGHEWALGHFENTLGAKVV PGPT0013470_2371 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281 NA NA AK015_00438 1440 proS COG0442 Proline--tRNA ligase TTGGGTAAGAAAAATAAGCAATTTGTTGAAAAAATAACCGCCATGGAAGAGAATTTTGCGCAATGGTATACCGATGTTGTCAAGCAAGCTGAATTGGTTGATTATGGCCAAGTTCGTGGAACAATGATCATTCGACCATATGGCTTTGCAATTTGGGAAAATATTCGCGATGTATTAGATGAAAAATTTAAAGAAACCGGTCATACGAATGTGGCGTTTCCATTATTCATTCCAGAAAGCCTATTGCAAAAGGAAAAAGATCATGTGGAAGGCTTTGCACCTGAGGTTGCTTGGGTTACGCACGGTGGGGACGAAGAATTAGCTGAGCGTCTTGCTGTACGTCCTACTTCAGAAGTGTTGTTCTGTGATTATTATTCGAAAAACATTCACTCCTATCGTGATTTACCAAAGCTGTACAATCAGTGGGGAAATGTTGTCCGTTGGGAAAAAACAACCCGTCCTTTCTTACGTTCTTCCGAATTTCATTGGCAAGAGGGGCACACAGCACATGCGACAGATGAAGAAGCATCGGAAGAAACAGAGCGGATGCTAGGGATTTATGCGGATGTTGTGGAAAAATATTTAGCGATTCCAGTCCTTAAAGGTAAGAAAACAGATAAGGAAAAATTTGCAGGTGCTAAATACACATTGACGATTGAAAGCTTAATGCATGACGGAAAAGCATTGCAATCAGGAACTTCCCACCATTTTGGCTCAGGCTTTGCTGAAGCATTCGACATTACGTATTTAGATGAAAATGGAGACAGTCAATATGTTCATCAAACTTCTTGGGGATTATCCACTCGAATCATGGGGGCTTTAATTATGGTTCATGGTGATAACCGTGGTTTAGTAATACCACCGCGCATTGCTCCTACACAAGCGATGATCGTACCAATCGCCCAGCATAAGGAAGGCGTATTGGATAAAGCATATGATCTTCGTGACCAATTAAAAGATATTGTGCGCGTAGACATTGATGCTAGTGATAAAATGCCTGGATGGAAATTTAATGAGTATGAAATGAAAGGTATACCAGTTCGGATTGAAATGGGACCAAAGGATATCGAGAAAGAACAGGTAGTCCTTGTGCGACGTGATACAGGTGAAAAAGAATTTGTTCCATTGGCTGCATTACCAACTCGTTTACCTGCGCTACTTGATGAAGTACAAGCGAATTTATATCAACGAGCAGAAGATCATTTGCATGAAAAAACAAATACCGCAACCAACATGGAAGAGTTTGCAACTATTTTAGAAGAACAAGCTGGATTTATTAAAGCAATGTGGTGCGGCGATGTAGCATGTGAAGAAAAAATTAAAGAAGCTACATTAGCAACCTCTCGTTGTATTCCATTTGAACAAGAAAAAGTTGCAGATACATGCGTATCCTGTGGAAAAGAAGCGAAAGAGTTAGTGTATTGGGCAAAAGCATATTAA MGKKNKQFVEKITAMEENFAQWYTDVVKQAELVDYGQVRGTMIIRPYGFAIWENIRDVLDEKFKETGHTNVAFPLFIPESLLQKEKDHVEGFAPEVAWVTHGGDEELAERLAVRPTSEVLFCDYYSKNIHSYRDLPKLYNQWGNVVRWEKTTRPFLRSSEFHWQEGHTAHATDEEASEETERMLGIYADVVEKYLAIPVLKGKKTDKEKFAGAKYTLTIESLMHDGKALQSGTSHHFGSGFAEAFDITYLDENGDSQYVHQTSWGLSTRIMGALIMVHGDNRGLVIPPRIAPTQAMIVPIAQHKEGVLDKAYDLRDQLKDIVRVDIDASDKMPGWKFNEYEMKGIPVRIEMGPKDIEKEQVVLVRRDTGEKEFVPLAALPTRLPALLDEVQANLYQRAEDHLHEKTNTATNMEEFATILEEQAGFIKAMWCGDVACEEKIKEATLATSRCIPFEQEKVADTCVSCGKEAKELVYWAKAY NA NA NA NA NA AK015_00439 1161 abgB_1 COG1473 p-aminobenzoyl-glutamate hydrolase subunit B ATGAAGTCGTTACAAGAAACAATACAAGATATCCATGGTGAGTTATGCCATATTAGTGACTATTTATATCACCATCCAGAGTTAGGCGATCAGGAATATCAATCCATGCAATTATTAACGAAATTACTTGAGGAGCATCAGTTTGAGGTAGAAACAGGTGTAGCTGGAAGAAACACTGCATTTAAAGCTACATTTGATAGTGGAAAACCTGGCCCTACTATTGCGTACTTAGCTGAATACGATGCACTTCCCGGAGTTGGACATGCTTGTGGGCATAATATCATTGGCACGATGAGTGTTGGAGCGGGGATTATTTTAAGTAAACAGGTAGCAGAAGCTGGGGGAAGTGTCGTTGTTTTAGGCACACCAGCCGAAGAAACGAATGGTGCTAAAGTGCCGATGAGTAAACATGGTTTTTTTGATTCGATAGATGTTGCAATGATGGTTCACCCTGGCGATCAAGCATACGAGAGCGGTGAGGCTCTTGCGATGGATGCGATTCAATTTGCCTATTTCGGTAAAACGTCCCATGCAGCTGCTGCACCAGAAAAAGGAATTAATGCACTGGATAGCGTCATTCAGCTGTTTAACGGGATTAACGCATTGCGCGAGCATCTTCCAACAGATGTACGCATTCATGGCATTATAGCAGACGGTGGTGAGGCAGCTAATGTAGTACCCGATAAAGCAGTGGCGCAATTTTATGTGCGAGCAAAAGAACGAAAGGAATTAGATGTGGTAGTAGAAAAAGTACAACACATTGCAGAAGGTGCGGCACTGATGACAGGAGCTAGATTAGAAGTTTCTAATTATGAATTGAGCTACGACAATATGATAACCAATCAGGCTCTATCCAAAGCCTTTACGAAGCATTTGGAGAATATCACCGCTCAGCCTGTTTTGCCTGCTAAAGAAGGCTATGGATCGATTGATATGGGAAATGTAAGCCATGTGGTGCCAGCGATTCATCCATATATTGGCTTTGATATGCCTGGCTTAACGGCACATACACAAGCCTTTGCAGATATGACAATTACAGATAAAGGGCATCAAATGATTGCTGATGGAGCATTGGCTCTAGCACAGACGGGTTTAGAAGTAATTACAGACGCAAAACTTTTAGCAGAAATTCAACAAGAGTTTAGCAAAACCAAGTGTTAA MKSLQETIQDIHGELCHISDYLYHHPELGDQEYQSMQLLTKLLEEHQFEVETGVAGRNTAFKATFDSGKPGPTIAYLAEYDALPGVGHACGHNIIGTMSVGAGIILSKQVAEAGGSVVVLGTPAEETNGAKVPMSKHGFFDSIDVAMMVHPGDQAYESGEALAMDAIQFAYFGKTSHAAAAPEKGINALDSVIQLFNGINALREHLPTDVRIHGIIADGGEAANVVPDKAVAQFYVRAKERKELDVVVEKVQHIAEGAALMTGARLEVSNYELSYDNMITNQALSKAFTKHLENITAQPVLPAKEGYGSIDMGNVSHVVPAIHPYIGFDMPGLTAHTQAFADMTITDKGHQMIADGALALAQTGLEVITDAKLLAEIQQEFSKTKC NA NA NA NA NA AK015_00440 777 artP COG0834 Arginine-binding extracellular protein ArtP ATGAAACATAAAATGATCCTAGTAGTTTTTGTCGTTCTTTTAACTGGAATAATAACAGCTTGTGGAAGTAGTAATGATCAAGCATCTGGAGAAGAAGGAAAAGAGAAAAAGGTTCTAAAAATGGCAACATCAGCGGACTTTCCTCCATTTGAAACGCGTGATCCAGAGGGGAATTTCGAAGGATTTGACATTGAATTAGGACAAATGATAGCGGAAGAATTAGGTTATGAATTAGAAATAGAGGATATGCAATTTGACGGATTAATTGGAGCGTTACAAGCAGATCGAGTGGATATGGTAATGTCTGGAATGAGTGCAACCGAGGACCGGAAAAAGAATGTCAATTTTTCAACAGAATACCATCGTTCAGGCGAAAGCTTTTTAACAACGAAAGACTCTGAAATTGAAACAATAGAAGATTTAAAAGGAAAAACAGTTGGTGTACAGCTTGGAACGATTCAGGAGGAAGGAGCAAAAAAACTAGCAAAAGAATATGGATTTGAAGTGAAAGCAGTAGATAAAGCTGGTCTTCTCCCTCAAGAATTAAACGCCAATCGGATTGATGTCGGTTATATGGATAAAACTGTTGCAGCTGGTTATGTAAAAGAACAGGATTTAAAGTTTTTTGATGATCCAACAGAGAGTTCTCCAGGGATGGGAATTGCTTTTCCAAAGGGGAGTGAATTGGTAGAAAAAGTAAATGATGTACTAGCCAAATTTGAAGAAAATGGGGAAATTCAAGAGCTAGAAGATAAGTGGTTGAAAGAATTGCAATAG MKHKMILVVFVVLLTGIITACGSSNDQASGEEGKEKKVLKMATSADFPPFETRDPEGNFEGFDIELGQMIAEELGYELEIEDMQFDGLIGALQADRVDMVMSGMSATEDRKKNVNFSTEYHRSGESFLTTKDSEIETIEDLKGKTVGVQLGTIQEEGAKKLAKEYGFEVKAVDKAGLLPQELNANRIDVGYMDKTVAAGYVKEQDLKFFDDPTESSPGMGIAFPKGSELVEKVNDVLAKFEENGEIQELEDKWLKELQ PGPT0020560_578 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 AK015_00441 660 artQ COG0765 Arginine transport system permease protein ArtQ ATGAATTTGGATTTTAGCCAAATCGTGCCTTACATTCCTTTTATATTAGAAGGAATTGGGGCAACATTAAAATTCGTTAGTGTATCTATAGTCATTGGATTTATTTTAGGTACATTACTAGCTTTATGTAAAGTAACAAAAGTTCCTGTGCTTAAACCCTTTGCAGATGCGTATACTTCCATCTTTCGTGGAACACCACTCATTTTGCAATTAATGATTATTTATTATGCTGTTCCACAGTTAACAGGCTATGATATATCCGCATTTATCTCTGCCGTATTAGCATTTGGTCTCAATTCAGCTGCTTATATTTCTGAAATCATTCGTGGTGGTATTCAAGCAGTGGAAAAAGGGCAAACTGAAGCAGCAGAGGCGTTGGGAATTCCTTATCGTCCGATGATGGCACATATCATTTTGCCACAAGCATTTAAAAATATATTGCCAGCGATGATGAATGAATTTATTACATTAACAAAAGAATCCGCCCTCGTATCTACAATCGGTTATTTAGATTTAATGCGCCGTGCGCAAGTGGTCGGTTCAGACTTATATCGCAATTTTGAACCATTATTATTTGCAGGCTTAATCTACTGGGTGATGGTCTTTATTCTTACACAATTTGGTAGATTACTAGAACGGAGGCTTCGTCAAAGTGATTAA MNLDFSQIVPYIPFILEGIGATLKFVSVSIVIGFILGTLLALCKVTKVPVLKPFADAYTSIFRGTPLILQLMIIYYAVPQLTGYDISAFISAVLAFGLNSAAYISEIIRGGIQAVEKGQTEAAEALGIPYRPMMAHIILPQAFKNILPAMMNEFITLTKESALVSTIGYLDLMRRAQVVGSDLYRNFEPLLFAGLIYWVMVFILTQFGRLLERRLRQSD PGPT0020550_511 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 AK015_00442 723 artM_2 COG1126 Arginine transport ATP-binding protein ArtM GTGATTAAAGCGGAAAATATAACGAAAAAATTTGGCAAACAAACCGTATTAAAAAATTTATCGACAACGATTCAGCACGGAGAAGTTGTCGCTGTCATTGGCCCGTCTGGATCTGGTAAATCGACATTTTTACGTTGCTTAAACTTATTGGAACTCCCAACGGAAGGAAAGATTTGGCTTAACAAGCAAGAAATTACCGATCCAAAGCAAAATAAATTAGCTGTCCGAAAGCATATCGGTATGGTGTTTCAACATTTTCATTTATTCCCACACATGACAGTATTAGATAATGTGGCTTATGCACCACAAAAAGTAAAAGGAATATCCAAGCAAGAAGCCTATCAAATAGCAAAAAAACTATTAGCAAAAGTAGGCTTAACGGATAAAGAAGAAGCCTACCCGAATCGCTTATCTGGTGGACAAAAGCAGCGTGTAGCCATCGCTAGAGCACTTGCTATGGAACCAGAAATAATGCTCTTTGATGAACCTACGTCAGCGCTTGATCCAGAGATGGTGAAGGAAGTACTCGATGTGATGAAAGATTTAGCAAATACTGGTATGACCATGGTTGTTGTCACACATGAAATGAATTTTGCAAAAGAGGTTGCCGATCGTATTCTGTTTTTAGATCAAGGAAAGCTCATTGAAGAAGCAGATCCTTCTATTTTTTTTCAAGCACCTGCAACAGAACGAGCAAAAGATTTTTTGGATAAAGTTTTATAG MIKAENITKKFGKQTVLKNLSTTIQHGEVVAVIGPSGSGKSTFLRCLNLLELPTEGKIWLNKQEITDPKQNKLAVRKHIGMVFQHFHLFPHMTVLDNVAYAPQKVKGISKQEAYQIAKKLLAKVGLTDKEEAYPNRLSGGQKQRVAIARALAMEPEIMLFDEPTSALDPEMVKEVLDVMKDLANTGMTMVVVTHEMNFAKEVADRILFLDQGKLIEEADPSIFFQAPATERAKDFLDKVL PGPT0020555_346 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 AK015_00443 489 hypothetical protein GTGGATATAGAATTATCTAGAGCAATGAACTTACGAGAGAAAGGCAAACATATAGAATCTAACGAATTGCTCATGAAATTGGTAGAAAAATTTCCTAATAATGCCTTCATTAACTATCAGTGTGCTTGGAGTTTTGACATAATAGGAGAGGAAACAAAAGCAATCCCTTATTATAAAAATGCCATTAAGTTAGGATTGCCTGCAAAAGAATTGCAAGGTGCTTTTCTAGGCTTGGGTAGTACATATAGAACAGTAGGTGAATATAAAAAGTCAAAAAGTGTATTTGCAAAAGGAATGGAACTATTCCCTAAAAATAGAGCATTGCAAACGTTTTATGCAATGACTTTATACAATTTAAGCGAACATGATAAGGCTATGGAACTATTACTAAATTGTATTATCGATACGACAAATGATGCTGAGATTATGAGTTATAGAAGGGCAATAAAATTCTATTCAGATAAATTAGATGAAAAATGGATTGATTAA MDIELSRAMNLREKGKHIESNELLMKLVEKFPNNAFINYQCAWSFDIIGEETKAIPYYKNAIKLGLPAKELQGAFLGLGSTYRTVGEYKKSKSVFAKGMELFPKNRALQTFYAMTLYNLSEHDKAMELLLNCIIDTTNDAEIMSYRRAIKFYSDKLDEKWID NA NA NA NA NA AK015_00444 480 bsaA Glutathione peroxidase BsaA ATGTCTATATACGATTTCGACGTAGAAACGATAGATGGGAAAGAGAAGTCGTTAGCTAATTATAAAGGGAACGTACTGCTTATCGTAAATACAGCAAGCAAATGTGGTTTTACTCCGCAATTGGAAGGTTTACAACAGTTATATGATGCATATAAAAATGAAGGTTTTTATGTACTCGGCTTTCCATGTAATCAATTTAAAAATCAGGACCCAGGCTCAGAGGAAGAAATCGCTACGTTTTGTCAATTGAATTATGGTGTCACTTTTCCAATGTTTGCAAAAATTGATGTTAAAGGGGAGCATGCGCATCCGTTGTTTAAGTATTTGACAGATGAAGCAAAAGGGATGTTTACAAAACAAATTAAATGGAACTTCACAAAGTTCTTGATCAATAAGCAGGGCGAGGTTGTTAATCGCTACGCACCACAAACGAAACCAGAACAAATAAAAAAAGATATTGAGGCAGCTTTACAAGCGTAA MSIYDFDVETIDGKEKSLANYKGNVLLIVNTASKCGFTPQLEGLQQLYDAYKNEGFYVLGFPCNQFKNQDPGSEEEIATFCQLNYGVTFPMFAKIDVKGEHAHPLFKYLTDEAKGMFTKQIKWNFTKFLINKQGEVVNRYAPQTKPEQIKKDIEAALQA PGPT0013115_5175 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432 NA NA AK015_00445 1683 hypothetical protein ATGCGGAATTTAAAAATTGCAAAGAAGTTTTTTTTACTCATTACATTTGCTGTACTCTTATCCATCATTATTAGTGTTGTACAATTTACCTATTTACATGATATGGCAGATGACTCTATCGAAATGTATGAAAAGTATTTAGTTTCCATTGATAAGCTAGGGAAAATCCAAAAAAATAATGTTACTATTGATGCGTATTCCATGGAAGCTATGATGACAAATGATCAAAATACATATAATGACTTAATTCAGCGTATTGATGAGCTTGCTAGTGAAAATGAAAAATTGGAAACGAAAAAATTATATCCAAAACAAATCATGGATACGGATAGTTATTCTATGCTTGTAGATGATTATATTCAAGGGCGAAATAATGCGCTTCAATTAGCAAAAGATGATCAAGAGGCTGGATATAATTACTATGTAGATCATGTTTTGAGCAAACGCATAGAGATTGACGAAATAATGACAAAAATTCAAGAACACTTTTCTGACAAAGCAAATAAAATGAAACAAAAAAATCAAAAAGATTTAAATGAAGTAAGCTTAATTGTTATAGCAATAACGATGATAGGAATTATTGCATTCATGGTGGTTAGCTTATGGATAGTTAAATCGATTATAAAACCAATTAAACATTTACGACATATTATGAAGACTGCTGAACAAGGGAAGTTAGTAATAAGTGATTACAAAGCAAATGATGAACTTGGGCAATTAGTAACAGCCTTTAATGGAATGATTACTACATTTAAGGATTTACTATCGTCGACCCAAGAAGCGTCTGAAAATGTCGTCGCGTCTTCTGAGCAATTAAGTGCTAGTGCTGGGCAAAATACACAAGCTTCAGAACATGTTGCTTCTGCTATTCAAGAGGTCGCTGCCGGATCTGCAAATCAGCTGGAACATATCGAAAAGACAGCTGATACGATGGATATGATGATATCTAGTTTTCAAAAAATCAATGAGGATACGTCTATTGTTTCTAGTGAAGCGAAATCATCTGCGGAATTGTCTAGAAAAGGGGAAAAAGAGATGAATGATGTCATCGGTCAGATGGAAGTCATTCGTCACAACGTTACTAACTTGGGGAAAACAATTCATAGTTTAAGCAGCAGTTTAACGGAAATTAATGCGATGAACCAAACCATTACGGATATAGCATCGCAAACGAATTTATTAGCTCTAAATGCTGCTATTGAGGCTGCCCGAGCGGGGGAACATGGAGAAGGGTTTTCTGTCGTTGCCGAAGAAGTAAGAAAACTTGCTGAGCAGTCCAACGAATCCGCTAAACAGATCACGCACTTAATTGAGAATATCCAGCACGAAACGAATGAAACGATGGAGTCTATGGACGTTACAGATGCAGCTGTAGAAACTGGGACGACCGTCGTCCATGAAGCTGGTAGTACGTTTGAAAAAATAGAAAGTACATTTAATAGCATTATAAGTCAATTTGCGAAAATTAGTGAAAATATTAATCAGCTGTCGTCTGGAGCACAGAATTTGCAAACTTCTATGAATGAGATTAAAGAAATTGTGACAAATACGAGTGAGCAAACACAAACTGTCTCTGCAGCCACAGAGGAACAACTGGCCTCAATAGAAGAGGTGGAATCATCCGCAGAAAACTTAGCGAAAATATCGGAAGAATTGCAAGAACTCGTTAACAAATTTGAATAA MRNLKIAKKFFLLITFAVLLSIIISVVQFTYLHDMADDSIEMYEKYLVSIDKLGKIQKNNVTIDAYSMEAMMTNDQNTYNDLIQRIDELASENEKLETKKLYPKQIMDTDSYSMLVDDYIQGRNNALQLAKDDQEAGYNYYVDHVLSKRIEIDEIMTKIQEHFSDKANKMKQKNQKDLNEVSLIVIAITMIGIIAFMVVSLWIVKSIIKPIKHLRHIMKTAEQGKLVISDYKANDELGQLVTAFNGMITTFKDLLSSTQEASENVVASSEQLSASAGQNTQASEHVASAIQEVAAGSANQLEHIEKTADTMDMMISSFQKINEDTSIVSSEAKSSAELSRKGEKEMNDVIGQMEVIRHNVTNLGKTIHSLSSSLTEINAMNQTITDIASQTNLLALNAAIEAARAGEHGEGFSVVAEEVRKLAEQSNESAKQITHLIENIQHETNETMESMDVTDAAVETGTTVVHEAGSTFEKIESTFNSIISQFAKISENINQLSSGAQNLQTSMNEIKEIVTNTSEQTQTVSAATEEQLASIEEVESSAENLAKISEELQELVNKFE PGPT0015710_17650 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 AK015_00446 972 hypothetical protein ATGGAAAGTAATATGCCATATGAGGTTTTATTGTATTATCATTATGTTCACATCGATGATCCAGATGGATATTCAGCTGAGCATTTGAAGTTTTGTAAGGAATTAGGTTTAAAAGGAAGAATTCTTGTTGCCCATGAAGGCATTAATGGCACATTGTCTGGCACAAAAGAGCAAACGAAAGCATACATGGATATGATGCATGCCGATCCTCGCTTTGCCGATATGGTGTTTAAAATTGATGAACATGATGGGCATGCGTTCAAAAAAATGCACGTACGACCACGAAAAGAATTAGTTACCTTCCGTCTTGAAAAGGATGTTGATCCACATGAGACGACAGGAAACTATTTGTCACCAAAAGAATTTTACGAGGCAATGCAGCATGAAGATACGGTCGTCATTGATGCGCGTAACGATTACGAATATGATTTAGGTCATTTCCGTGGCGCTGTACGTCCAGATATTAAAACATTTCGTGAATTACCAAATTGGATTCGCGAGCACAAGGACGATTTTAAAGATAAGAAAATTTTAACCTATTGTACTGGTGGCATACGTTGCGAAAAATTCTCCGGTTGGTTAAAAGAAGAAGGTTTTGAAGATGTAAACCAACTACATGGTGGGATTGTCACATACGGCAAAGATCCGGAGGTACAAGGTGAATTATGGGACGGTAAATGCTATGTCTTTGACGAGCGCATTTCCGTGCCAGTTAACCGAAAAGAGCATGTCGTCGTCGGTGTCGATTATTTTGACGGCGAACCATGTGAGCGTTACGTCAACTGTGCTAATCCAGAATGTAATAAACAAATTCTTTGCTCGGAAGAAAATGAGCATAAATATTTGCGTGGTTGCACACATGCATGTCGCGTGAGCCCACGTAACTTATATGTGAAAGAGCACGAACTATCGGAAGAAGAAGTGGAAGCGCGCCTTGAAGCTATAGGTGAAAGCTTAACAATGAAAGCATAA MESNMPYEVLLYYHYVHIDDPDGYSAEHLKFCKELGLKGRILVAHEGINGTLSGTKEQTKAYMDMMHADPRFADMVFKIDEHDGHAFKKMHVRPRKELVTFRLEKDVDPHETTGNYLSPKEFYEAMQHEDTVVIDARNDYEYDLGHFRGAVRPDIKTFRELPNWIREHKDDFKDKKILTYCTGGIRCEKFSGWLKEEGFEDVNQLHGGIVTYGKDPEVQGELWDGKCYVFDERISVPVNRKEHVVVGVDYFDGEPCERYVNCANPECNKQILCSEENEHKYLRGCTHACRVSPRNLYVKEHELSEEEVEARLEAIGESLTMKA PGPT0013330_947 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146 NA NA AK015_00447 291 hypothetical protein ATGACAAAAAAGGAAATTAAAAAATTTTCGTATGGAAGTGTAGCGAAGGTAACGGTTTACTTCGCAATCATACCTGCAATAATGTATTGGTTATTATCGTTAATTGGAATTGTAGGGATCTTTTCGATGGGTGATGGTATGGGGGCTCTTGTTGTAATCGGATCTTTATTAGGTATTGTCATATTTGTAGGGATTTATGTATTAGTTGCACTGCTAAGTACTTTAATCTACAATTTATTTGCTGGAAAATTTGGTGGACTTGTGATTACTGTTAAAGAAACAGAAGAATAA MTKKEIKKFSYGSVAKVTVYFAIIPAIMYWLLSLIGIVGIFSMGDGMGALVVIGSLLGIVIFVGIYVLVALLSTLIYNLFAGKFGGLVITVKETEE NA NA NA NA NA AK015_00448 708 COG0726 Peptidoglycan-N-acetylglucosamine deacetylase ATGTTTAAATATGTTATGTTACTAATTTATCTGCTTTTATCATTTTTTCCGACTACTGAAAACCTACATGCATATACAGAAGAAAGAATAAAGTATGAGAAGTCAGGAGATGTTATATGGGAAGGTTATACGGATGAAAAAGTGGTTGCATTAACATTTGATGACGGACCTAACCCTAAATACACACCACTCATTCTTGATATTTTAGACAGATTTAATGCCAAAGCAACCTTCTTTGTCACTGGTTCCAACGCAAAAAAATACCCCTACCTTATATATAGACAGCATTTAGAAAATCATGAAATTGGAAATCATACATTTAACCATGATTATCGAACAAAGAACTTGAAAGAAGAGCTTAAGAAAACAGCAACCATTATTTATGAGACCACTGGTACATCGCCTACTAATTTCCGCCCACCGGAGGGCGTATATAATGATGAAATTGTTGCCATCGCAAGCGAACAAGGATATACCGTTGTCTTATGGTCTTGGGATCAAGACCCAAAAGACTGGGATCGCCCCGGTGTTGATGAAATTGTAAATCATGTCACATCCAATATTTCGCCAGGCGATATTATTCTTTTACACGATTCAGGAGGAAACCGAAGCCAAACTGTAGAAGCACTACCAAAAATATTGGAGTTTTTAGATGAAAATGAATATAAGACGATAACAGTATCTGAAATGATTCAACGAACTTCCTAA MFKYVMLLIYLLLSFFPTTENLHAYTEERIKYEKSGDVIWEGYTDEKVVALTFDDGPNPKYTPLILDILDRFNAKATFFVTGSNAKKYPYLIYRQHLENHEIGNHTFNHDYRTKNLKEELKKTATIIYETTGTSPTNFRPPEGVYNDEIVAIASEQGYTVVLWSWDQDPKDWDRPGVDEIVNHVTSNISPGDIILLHDSGGNRSQTVEALPKILEFLDENEYKTITVSEMIQRTS PGPT0018645_4161 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK015_00449 777 hypothetical protein TTGAGTTTTGATTTTATGTTACTCATTTTTTTCATTGGTTTTATCGGTTCATTTATTTCAGGTATGGTAGGGATTGGCGGTTCGATCATTAAATATCCCATGTTACTGTACATCCCTCCCCTCCTCGGATTCGCAGCTTTTAGCGCACACGAAGTATCAGGTATTAGTGCTGTACAAGTATTTTTTGCTACGATTGGTGGCGTTTGGGCATATCGTAAAGGTGGATATTTAAATAAATCACTCATTCTATACATGGGAATTAGTATTTTGCTTGGGGGATTAATTGGGGGTTATGGTTCCAATATCTTAGCGGAATCTACCATTAACATTGTATATGCTATTTTAGCTACCATTGCCGTTATTATGATGCTACTACCCAAAAATAATGATGATAATCCGGATTTACAAGAGGTAACGTTTAATAAGCCGCTTGCAGCTAGTTTATCTTTTATCGTCGGAATCGCAGCTGGCATTGTTGGGGCAGCAGGCGCTTTTATTCTCGTTCCGATTATGATTACCGTCTTAAAAATACCAACGAGAATGACAATCGCCAGCTCACTTGCCATTACGTTTATTTCTTCCATTGGTTCTACAGTCGGGAAGCTAGCTACCAATCAAGTGTTATTTATCCCCGCGGTCATTATGATTGTTGCCAGTTTAATCGCTTCTCCACTTGGCGCAGAATTGGGAAAGCGTATGAATACAAAGATACTGCAACGGTTATTGGCAGTACTCATTTTTGCTACAGCGGTCAAAATTTGGTGGGATATTTTTTGA MSFDFMLLIFFIGFIGSFISGMVGIGGSIIKYPMLLYIPPLLGFAAFSAHEVSGISAVQVFFATIGGVWAYRKGGYLNKSLILYMGISILLGGLIGGYGSNILAESTINIVYAILATIAVIMMLLPKNNDDNPDLQEVTFNKPLAASLSFIVGIAAGIVGAAGAFILVPIMITVLKIPTRMTIASSLAITFISSIGSTVGKLATNQVLFIPAVIMIVASLIASPLGAELGKRMNTKILQRLLAVLIFATAVKIWWDIF NA NA NA NA NA AK015_00450 636 nreC COG2197 Oxygen regulatory protein NreC ATGATTCGTGTATGCATTGTAGATGATCATCGGTTAATTCGTCGAGGACTTCAATTATTGCTCGAAGCTTATCCGGATATTCATGTTGTTGGCGAAGCAGAAGATGGAGACGAAGCGATACAGCTCATGCATCAATTGGAAGTTGATGTTATGTTAATGGACGTATCCATGCCTAATGGGCTAGATGGATTTACAGCTTCTGAAGTTATTTTACAAAACCACAAACATGTCCATATTGTTCTTTTAACGATGCATGATGAAGAAGTATACATACAAAAGGCCATTCAACTCGATATTGGGGGATACATTTTAAAAAATAGTAAAGGCAACGAATTGCATGAAGCCATACATGCCGTTCATCGTGGTGAAAAATACTATAAAGTAGGCTTACCTGAAGATCAAATCGCTAAATTATTTAAACATAGCAAAAAAGATTATTCGATTTTATCTGTTAGGGAAAAAGAAATTGTTCGACTTACTGTGCTTGGCTATACAAATAAACAAATGTCGCAACGTTTATTTATTAGTCCAAAAACAGTGGAAAACCACAAAGCAAATATTATGCACAAACTCGAGTTAAAATGTAAATCTGAATTAATCCAATACGGTCTAACGAATCATTATCACACAATATAG MIRVCIVDDHRLIRRGLQLLLEAYPDIHVVGEAEDGDEAIQLMHQLEVDVMLMDVSMPNGLDGFTASEVILQNHKHVHIVLLTMHDEEVYIQKAIQLDIGGYILKNSKGNELHEAIHAVHRGEKYYKVGLPEDQIAKLFKHSKKDYSILSVREKEIVRLTVLGYTNKQMSQRLFISPKTVENHKANIMHKLELKCKSELIQYGLTNHYHTI PGPT0000530_285 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000530-nreC-K07696 NA NA AK015_00451 1029 nreB Oxygen sensor histidine kinase NreB GTGTGTTCCATTCAATATGAGAATAAATATTTGCATCAAATCTTCGAAAACATTCAAGATGGGATCATTATTATGGATCAGAGCCGTAAAATTTTAGCTATGAATCCTTCTGCAAAGAAATTAACAGGCTGGTTATTACATGATCGTGTACCGTATTGTTCTTTTTGTGAAACTCGGTTGTTACAAGGAAATGAAAATAAATGTTATTTAATTGCGCATGATGAAGTGCCTTATTTTCTTTCTGATATGCCGACGTATCATGGTAAGAAAATTAATGTGGAAATGAGCACCGCATTAATGTTCCACGATGCTACAACACATCAAAAAGAGTATTTACTTGTCTTACGCGACCAATCTCTCATGCAAAAAGAAAAAGAAGCACAACTTTCAAAAAAAATGATCCAAAAATTAATTGAAGCAAAAGAAAATGAGCATAAGCGGCTTGCCCAAGAGCTTCATGACGGGGTTGGTCAAGCACTCTACAGTATTTCTGTCGCTTTACAAGCCATTGAATCCTTTGTAAATAATACACGAATTCAAAGCTATGTCGATGAAGTGCAAGAAGAACTAAATCATGTGATGAACGATATTAAAGCCTATTCTTATCAACTACGGCCCCAGAGTATTGATCGTTTGGGATTGATTGCAACGATACAAGGGCTTATGCATACGTTAGAAAAAAGTAATCCAAACATTACTATTACTTTCACCACCACCTTAAAAAATCGACTTCCTTCTTTAATGGAGATTAATCTATATCGAGTTATTCAAGAAGCCTTACACAACACGATTAAATATGCGAACGCGACACAAGTTGTCATTGAACTTATAGACATGCCTCATAAACTAGAATTAACAATACGAGATAATGGAAAAGGGTTTGATACAAGCAAACGTTCCGCGGGGTTAGGCCTAAAGCATATGGAAGAACGAGTGAATTTACTTAGAGGTACTTTTCAAATTGCTTCTGAGTTACAACAAGGTACCATTATTCGTGCATCCATCCCAAAGGAGGATCACCTTCTATGA MCSIQYENKYLHQIFENIQDGIIIMDQSRKILAMNPSAKKLTGWLLHDRVPYCSFCETRLLQGNENKCYLIAHDEVPYFLSDMPTYHGKKINVEMSTALMFHDATTHQKEYLLVLRDQSLMQKEKEAQLSKKMIQKLIEAKENEHKRLAQELHDGVGQALYSISVALQAIESFVNNTRIQSYVDEVQEELNHVMNDIKAYSYQLRPQSIDRLGLIATIQGLMHTLEKSNPNITITFTTTLKNRLPSLMEINLYRVIQEALHNTIKYANATQVVIELIDMPHKLELTIRDNGKGFDTSKRSAGLGLKHMEERVNLLRGTFQIASELQQGTIIRASIPKEDHLL PGPT0000525_166 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000525-nreB-K07683 NA NA AK015_00452 1392 gloB_2 Hydroxyacylglutathione hydrolase ATGTTATTACAATATTTTTATGATGATAAGTTAGCGCAAGCATCCTATTTGGTCGGATGCCAAGCAAAAGGAGAAGCGGTTGTTGTTGATCCAGCTCGTAACATTGAAGCGTATTTATCTACTGCTGAAAAAGAAGGGATGAAAATTGTAGGTGCGCTAGAAACACATATTCACGCTGACTATGTATCCGGTGCTAGGGAAATTGCTGATCGCGTAGGCGCTACCTTGTACGTATCCGATGAAGGAGATGCAGATTGGAAATATGAAAACCTTGATAGCTTTTCTTATAAACTACTAAAAGATGGCGATACAATTACACTTGGTAATCTAACATTTAAAGTCATGCATACACCAGGGCATACACCAGAGAGTATCTCCTTCTTACTAACGGATGGCGGTGCTAATGCTGACGAACCGATCGGCATTTTCACAGGTGATTTTGTGTTTGTCGGAGATGTCGGGCGCCCTGACTTACTGGAAAAGGCTGCTGGCGTGCAAGGAACGAGTGAACCTGGCGCAAGAGCCATGTTCCATTCATTAGAACGATTTAAGCAGTTACCAGATTTCTTACAAGTTTGGCCGGCACACGGAGCTGGTAGTGCATGTGGAAAGTCGCTCGGAGCGGTTCCATCTTCTACCGTCGGCTATGAAAAACGATTTAATTGGGCATTACAGCACGAGAATGAAACGGACTTTATAAAAGCATTACTGGAAGGACAACCGGAGCCGCCTGTCTACTTTGCGGTTATGAAGCATGTTAATAAAGTAGGACCAGCAATCCTTCGCGATCTGGAAAAACCAGAAGTTATAACTGATGGAAACCAAATCGAAACGCTCTTAAATGATGGAGCACAGGTTTTGGATACGCGTGAAGCAGAAGCATTTAGCCAGCAACATATACCAGGTACGATCAACATTCCATTTAACCCGTCATTTACAAATTGGGCTGGATGGCTCATCAATTATGACGAACCTTTATATTTGTTATGTGATCCAAATCAAACGTATGACATATTAACTGCCCTTCGCTCCATTGGAATTGATTTAGTTAAAGGATTTATGGATGCGGAGCAAGCTATCAAACAAGCCAAAAACCTAGAATCGTATGCAAATATCTCACCACAAGAAGCGAAACAATTGCTAAAAACAGAAGCTGTCACGTTCATTGATGTTCGCAATCAATCGGAGTGGGATGAAGGGCATATCGAAGGTGCAAACCACATCATGCTTGGGACATTAAAAAATCGCCTTGACGAAGTTTCAAATAACGGCACGATCCTCATTACATGTCAGTCAGGTGGTCGTTCTGCAATTGGAGCGAGCTTATTACAAGCTAAAGGGTATAAACATGTACAAAACATAACAGGCGGATATACTGCTTGGACGCAGTAA MLLQYFYDDKLAQASYLVGCQAKGEAVVVDPARNIEAYLSTAEKEGMKIVGALETHIHADYVSGAREIADRVGATLYVSDEGDADWKYENLDSFSYKLLKDGDTITLGNLTFKVMHTPGHTPESISFLLTDGGANADEPIGIFTGDFVFVGDVGRPDLLEKAAGVQGTSEPGARAMFHSLERFKQLPDFLQVWPAHGAGSACGKSLGAVPSSTVGYEKRFNWALQHENETDFIKALLEGQPEPPVYFAVMKHVNKVGPAILRDLEKPEVITDGNQIETLLNDGAQVLDTREAEAFSQQHIPGTINIPFNPSFTNWAGWLINYDEPLYLLCDPNQTYDILTALRSIGIDLVKGFMDAEQAIKQAKNLESYANISPQEAKQLLKTEAVTFIDVRNQSEWDEGHIEGANHIMLGTLKNRLDEVSNNGTILITCQSGGRSAIGASLLQAKGYKHVQNITGGYTAWTQ PGPT0001770_707 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK015_00453 555 hypothetical protein ATGCCACATACTGCTATCCATTCAGATGAAAATAAAGACCTTCTTCATGAGTTAAAACAACCTGAAATCCATCAAGCTTTAACGGGTATTATTCATCGGTTACCTGAAATCGAACGCACGTTACAATCGCTAGAGCAAATGACACAATTTTCGATGCATGTCACAAAAGACCAAACTACGATGGAAGCTTTAGAGGAACGATTGCAGTTATCCAGAGTCGATGAAGAATCATTGGAAGCGCTTATCACTTTATTAGCCAAACTTCCTACTATACTGGAAATGGTCGAGCAAATAGAAAAGATTGCCTTGTTTATCAAACATGTTGTCCATGATGAACAATCCATGGAACAAATAAAAACATCTATTGCAGAGCTTCCGTTCATACAGCAACAGAAGGAAGCAAAAGATTTCTTCGAAGCAGTTCAAACGAGACACAAATCGATCGAGCAACATATTTCTATTTTTACCATTATCAAATGGATGAAAGAACCTAATGTACAAAAATATTTAAAATATATACAAGCTACTTTAGACGTTTTAAAGGCTAGGAAATAA MPHTAIHSDENKDLLHELKQPEIHQALTGIIHRLPEIERTLQSLEQMTQFSMHVTKDQTTMEALEERLQLSRVDEESLEALITLLAKLPTILEMVEQIEKIALFIKHVVHDEQSMEQIKTSIAELPFIQQQKEAKDFFEAVQTRHKSIEQHISIFTIIKWMKEPNVQKYLKYIQATLDVLKARK NA NA NA NA NA AK015_00454 1194 hypothetical protein ATGTCCAAACATTATCAAGTTCTCATCGTAGGTGGCGGTACTGCTGGCATAACAGTTGCTGCTCAGCTGTTACATTACTCCAAACATTTTAAGCATAAAATAGCAATTATTGAACCAGCAGAAGAGCACTATTATCAACCTTTATGGACACTTGTCGGAGCAGGAGTTTCTAAAATAGAGGCGACAAAACGATCCATGGAAAGTGTCATACCAGAAGGGGCAGACTGGATTCAAGAAAAAGTAATTTCTTTTGACCCAAAAAATAACAACGTTTACACCAAAGAAGGCAATCATATTCCATACGACTACCTTGTTGTTGCAGCAGGGATTGACATCAACTGGCAAGCAATAAAAGGGTTACCAGAAACGTTAGGAAAGAATGGTGTTTGCAGTAATTACGCTTTTGAGCACGCTCCTTATACATGGGAAGTTATTCGTAACTTCACAAGTGGAAATGCCATATTTACGCATCCAAACTCACCAGTAAAATGCGGTGGGGCGCCACAAAAAATCATGTATCTTGCAGAAGAATCTTTTCAAAAAACCGGTGTTCGGGATAAAGCAAATGTACTATTTTATTCAGCGAACCCTGCCATTTTTGATGTTAAAAAGTACCGTAATGCCTTAGAAAAAGTCATTGACCGAAAGCAGATTCAACCACACTTTCGTCATCATTTAATTGAAGTACGTGGCGAAGAAAAAGTAGCCATTTTCGAATCATTAGAAACTGGCGAGCAACAAAACGTATCCTTCTCCATGTTACACGTTACTCCACCAATGCAAGCACCATCTTTTATTAAGGATAGCCCAATTGCAGATGATGGAGGCTGGGTGAATGTGCACCCGTATACTTTACAACATACTCAATATGCTAATATTTTCGGCATTGGTGATTGTAGTAATTTACCGACATCAAAAACAGGAGCCGCCATTCGTAAACAGGCACCTGTTGTTGTGCAAAATATTATTTCTTCGATAAAGGAAAAACCGCTTGCAGCAACTTATGACGGCTACAGCTCTTGCCCACTTGTAACAGGGTATAATAGCTTAATTTTAGCCGAATTTGATTATAATAAAAATCCACAAGAATCGATGCCATTTAACCAAGCAGTAGAAAGAAAAAGTATGTATTTATTCAAAAAAGATTTCTTGCCAATTATGTATTGGGATGGCATGTTAAAAGGAATTATGTAA MSKHYQVLIVGGGTAGITVAAQLLHYSKHFKHKIAIIEPAEEHYYQPLWTLVGAGVSKIEATKRSMESVIPEGADWIQEKVISFDPKNNNVYTKEGNHIPYDYLVVAAGIDINWQAIKGLPETLGKNGVCSNYAFEHAPYTWEVIRNFTSGNAIFTHPNSPVKCGGAPQKIMYLAEESFQKTGVRDKANVLFYSANPAIFDVKKYRNALEKVIDRKQIQPHFRHHLIEVRGEEKVAIFESLETGEQQNVSFSMLHVTPPMQAPSFIKDSPIADDGGWVNVHPYTLQHTQYANIFGIGDCSNLPTSKTGAAIRKQAPVVVQNIISSIKEKPLAATYDGYSSCPLVTGYNSLILAEFDYNKNPQESMPFNQAVERKSMYLFKKDFLPIMYWDGMLKGIM NA NA NA NA NA AK015_00455 282 hypothetical protein ATGTTAAATGGAGATGTCACCATTGAAAAACCCCAACTTAAAGGTATAGAAGAAGGTGGGGAAGAGCAGTGGCTCATCATTTTTGCCAATGGAAATACCCATATAAGAAATAATAGTGTAAATCAAGATAAACCGAGCACGATTCATGTTTTTTCTATTCAACAAGCGATTTTGAAGTGTTTGGAGTTTATATATCGATGGCGGTATTTTTGCTCGTCACGTCGCACTCAATGCGATACGCGGGCGGGCAGAGAAAACCGATTTTTAGAGCACAATATATAG MLNGDVTIEKPQLKGIEEGGEEQWLIIFANGNTHIRNNSVNQDKPSTIHVFSIQQAILKCLEFIYRWRYFCSSRRTQCDTRAGRENRFLEHNI NA NA NA NA NA AK015_00456 471 hypothetical protein ATGAGTTATAGAACTACACCATTAGAAGAAGGTATTAAAAATCTTTACATGAAACTAGGTATTACAGAACCAGAATATCCTATTGAAGAACTTGCGGTAAATTTAAACATTCATTTAAGTTACCAAAAAAAACCTTGCCTGCAACAAAGAGGAACCATATATTTAAACCCTTATTTGTCAAGTAAAAAACAGAAAGAACTGTTTTTTTATGAATTATCACATGTCCTTCCGCATGTAGGGATACAATTATTTATGCCAAAACTATTTAAAAGTTTGCAGGAACATAAAGCAAACTATATTGCTCTACATTTAGCAATACCAACCTTCATGTTACAAAAGGTAAACTTCCCTCTATATCATGAAGATGCAATTGCAAATGTTGCGAACCAATTTAAAGTAACAACCGAATTTTCACAAAAACGGTTACATGTATATAGAAATCAAGTAAATCAAAACTTAAACATTCTCTAA MSYRTTPLEEGIKNLYMKLGITEPEYPIEELAVNLNIHLSYQKKPCLQQRGTIYLNPYLSSKKQKELFFYELSHVLPHVGIQLFMPKLFKSLQEHKANYIALHLAIPTFMLQKVNFPLYHEDAIANVANQFKVTTEFSQKRLHVYRNQVNQNLNIL NA NA NA NA NA AK015_00457 1641 nprE COG3227 Bacillolysin ATGCAAAAGAAATGGCTTCATCGAATTGGTTTGATGACCTTAGCTACTACATTAATCGTGAGTAATGCTCAGGTGACCCATGCTGCTGATTCAGGGGAAGAATGGGAAATTAATTCAGATGTTGAGACGAAATGGGAGCAAGAAAATGAGCAAAAAGGGCCTTCGTTTATTAACGGAGAGTTATCTGAACGAAAAGTGACGAAAGAGGCAGATGTAAGAAAATTTTTGCTGGAGAATAAAGAAGTCTTTAAAATTAACTCTGAAACAAAACTAGATTTTATAGAATCTGATGTAGATGATATAGGTATGATCCACTACATTTATAAACCGAAAATTCAAAATATACCGATAGATAATTCTAAAATTGTCGTACATGTGAATAAAGACAAAAAAATTACAGCAATTAACGGGGAATTTCATCCTAATGCCCCTGAAAAATTAAAAGAAAAACAAAAACTAACCAAAAAGCAGGCAATAAATAATGCTTGGAAGCACATTGATGTAAAACGTAGTGAAGCGAATAAAAAAATGGCGTCGTTAACTGGAGAAACGTTCAATACACTGGAAGAAACTGCTGATTTAGTTGTCTATCACGATGACAATAAACAGTACACGTTAGCATATCGCGTAGAGCTTCAATTCGCCAAACCGAAACCAGCGTACTGGAATATTTGGGTAAATGCAGAGAGTGGAGAGGTTTTAAAAGCAATCAATCAGGCACAAGAATTTGCCTCTACTGGAAGTGGAATAGGTACCCTTGGACATCATAGACAGTTAAATACGTTTTATCATCAAGGGGACTACTATCTCTATGATACGACAAAACGAATGAATGGCGTTATTGAAACGTTCACGAATCAAGGAAGAGGCGATAGAAATCTTCCAGGTGTGTATGTGAAAGATGAAGATAATCGTTTTACGAATGAAGAACAACAGGCAGCTGTTGATGCTCACTATTATGCTGGACAAGTATTTGATTATTATTATAATACATTTGGTCGAGTCAGCTATGACGACAATGGTGCAACAATTCGGTCTATTGTCGATTATGGAAATAATTATAATAATGCGGTATGGGTTGGTGATAAAATCATTTACGGTAATGGAGACGGAAGAAGATTTGCTCCGTTATCTGGTGCAAATGATATTGTAGCTCATGAGCTTACACATGGGGTAATTGATGAAACAGCTGATCTTGTGTATGCCAACCAATCTGGTGCGTTAAATGAATCGTTTGCTGATGTTTTTGCCTATTTTGTAGATGGTGATTGGTTAATTGGTGAAGATGTATTTACACCTGGTATTGAAGGGGATGCACTGCGCAGTTTGGCAAACCCAACAAGGTATAATCAGCCAGATCATATGAACGATTATCAACATTTACCAAATACCCGAGACGGTGATTGGGGTGGAGTTCATATCAATAGTGGAATTCCGAATAAAGCGGCTTATTTCACTGTTCATGGTATAGGTGTAAGTAAGGCGGAACAAGTTTATTATCGTGCATTAACGACCTATTTAACGCCGAATAGTAGTTTCCAAGATGCAAGACAAGCGCTCATTCAATCCGCTCAAGATTTGTATGGGGAAAGCGCTGCTCAGGAAGTTGCTCGTGCGTGGGAGCGCGTTGGCGTAAACTAA MQKKWLHRIGLMTLATTLIVSNAQVTHAADSGEEWEINSDVETKWEQENEQKGPSFINGELSERKVTKEADVRKFLLENKEVFKINSETKLDFIESDVDDIGMIHYIYKPKIQNIPIDNSKIVVHVNKDKKITAINGEFHPNAPEKLKEKQKLTKKQAINNAWKHIDVKRSEANKKMASLTGETFNTLEETADLVVYHDDNKQYTLAYRVELQFAKPKPAYWNIWVNAESGEVLKAINQAQEFASTGSGIGTLGHHRQLNTFYHQGDYYLYDTTKRMNGVIETFTNQGRGDRNLPGVYVKDEDNRFTNEEQQAAVDAHYYAGQVFDYYYNTFGRVSYDDNGATIRSIVDYGNNYNNAVWVGDKIIYGNGDGRRFAPLSGANDIVAHELTHGVIDETADLVYANQSGALNESFADVFAYFVDGDWLIGEDVFTPGIEGDALRSLANPTRYNQPDHMNDYQHLPNTRDGDWGGVHINSGIPNKAAYFTVHGIGVSKAEQVYYRALTTYLTPNSSFQDARQALIQSAQDLYGESAAQEVARAWERVGVN PGPT0020995_352 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 AK015_00459 600 thiT Thiamine transporter ThiT ATGAAAAATATTCGCTTATTAGTAATGATTGAAGCAGCATTTTTTGCAGCATTTGCAATGATTTTGGATTTTCTTCCTTCGATTAAATTATCACCAGCTATATCGATCTCTTTTGCTATGGTGCCCATATTTATTCTTGCATTTCGGAGAGGAATGCTAGCAGGGATATTAGCGGGTTTCTTATGGGGGTTGTTACAGGTGATGCTCGGTGATGCTTACTATTTGACACCATTGCAATTTTTTATTGAATATTTTATTGCTTTTGCTAGCGTTGGTTTTGCCGGATTACTCTCTTCTATAATTCAGAAAAGTTTTGAAAAAGGGTATAAAAAAACCGCTTTGGCATGGGTTGTGGCTGCGACATTCGTGGGTAGTATTGCAAGGTATTTTTGGCATTTTCTTGCAGGTGTAATCTTTTGGGGTGAATCTGCTCCTGAGGGTACGTCGCCACTCGTTTATTCATTTATAGCGAATGGAACGACTTTTGTAGGTGCGTTTGTTTTTTGTGCTATTGTTTTAGCGGTAATTTTAGCTAGCGCTCCTCGGTTAGTGCAAGCAGAAACACTTATGACTAAAAAACAGGTGAAGAAAGCATCCTAA MKNIRLLVMIEAAFFAAFAMILDFLPSIKLSPAISISFAMVPIFILAFRRGMLAGILAGFLWGLLQVMLGDAYYLTPLQFFIEYFIAFASVGFAGLLSSIIQKSFEKGYKKTALAWVVAATFVGSIARYFWHFLAGVIFWGESAPEGTSPLVYSFIANGTTFVGAFVFCAIVLAVILASAPRLVQAETLMTKKQVKKAS PGPT0009100_212 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 AK015_00460 723 fabG_1 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGGGGCAACAAATTAAAGGGAAGATTGCGTATATTACAGGTGCTGGTAGCGGTATTGGAAGAGCAACAGCACTTGCTCTTGCTCAGGAAGGTGTTCATTTAGGCTTAATAGCTCGTACGAAATCCAAACTGGAAGCTGTTGCAAGAGAAGTAGAAACATATGGTGTTAACACCAATTATGCTGTTGCTAATATAGCAAAATTGGAAGAAGTAGAGGGGGCTGTTGCGGAGCTAGAAACGTCGCTTGGGTCTGCAGATATTTTAATAAATAATGCAGGTATTGGAGCATATGGTAATTTTCTAGAGATGGATCCAGAAACGTGGAAACAAACTTTAGAGGTGAATGTGTTCGGTACGTATCACGTGACCCGCGCCGTATTACCACATATGCTTAAGAAAAATCAAGGAGATATTATCATGATTTCCTCCAGTAACGGATTAAAAGGAACAGCAGGTTCGACTTCTTACAGTGCTTCCAAATTTGCCATTCAAGGTATGTCCGAAGCTTTAATGCAAGAAGTACGCAGAAATAACATTCGCGTTTTCACATTAAATCCAAGCCTTGTTGCCACAGAGCTTGCTTTCGGCGAAAAGTTAGCGGAGAAAAATGACGATAAGTACATGCAAGCCGAAGATTTAGCTGAATACATGGTAGCGCAATTAAAATTGCATCCGAGAATGTTTATTAAACAGTCGTTACAATGGGCTACGAATCCGTTCTAA MGQQIKGKIAYITGAGSGIGRATALALAQEGVHLGLIARTKSKLEAVAREVETYGVNTNYAVANIAKLEEVEGAVAELETSLGSADILINNAGIGAYGNFLEMDPETWKQTLEVNVFGTYHVTRAVLPHMLKKNQGDIIMISSSNGLKGTAGSTSYSASKFAIQGMSEALMQEVRRNNIRVFTLNPSLVATELAFGEKLAEKNDDKYMQAEDLAEYMVAQLKLHPRMFIKQSLQWATNPF PGPT0003180_21206 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 AK015_00461 570 bioY2 COG1268 Biotin transporter BioY2 ATGGGACAGCAACGAAAAAGACTTCGCTTTATGCTTAATTGTGCTTTGTTTGCAGCACTCACAGCTATTTTGGCGCAAATCGAAATACCACTACCACTCATACCGATAAGTGGACAAACTTTAGCAGTCGGAATTACCGCCACTATTTTAGGCAGTAAGCAAGGCGCGTTAGCGATGATTTGCTATGCGGTAATTGGAGGAGCAGGGGTACCTGTTTTTGCTGGCTTTAGCGGCGGGGCACATGTGTTAGTAGGTCCTTCAGGAGGATATATTTTTGGTTTTATTGTTACAGCATATGTTACAGGTTTCATTCTCGAAAAAACAAGCTTTCGTTTCCAAAATGCTTTAATTGCAAATATTATAGGCATGTTTATTACGCTAGCGTTTGGGACAACGCAGTTGAAATTTATTTTAGATCTTTCATGGAATGCAGCATTCGTAGCTGGAGTGTATCCATTTATCATCGTTGGGCTTATTAAAGCTGCATTAGCTAGCTGGATAGGAATTGCTGTTCGAAAACGTCTCGTACATGCTAATTTAATTTTGGAAACGAAACAAAAGGTAGTATAA MGQQRKRLRFMLNCALFAALTAILAQIEIPLPLIPISGQTLAVGITATILGSKQGALAMICYAVIGGAGVPVFAGFSGGAHVLVGPSGGYIFGFIVTAYVTGFILEKTSFRFQNALIANIIGMFITLAFGTTQLKFILDLSWNAAFVAGVYPFIIVGLIKAALASWIGIAVRKRLVHANLILETKQKVV PGPT0022050_1483 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523 NA NA AK015_00462 252 hypothetical protein ATGAATTTGGCATTAATTATTTTTTTATTTTGTTTATTTCTTGTTGCTCTTGGGGGCACGTTGTACGTGTTTAAACAGGAAGAGAAAAAAATGAAGCAATATGAAGCGGAAGGTGAAACCGCTCAAAGTGAATTGCAACGTTCGATGGAATATGAAACGAAATCTTTGAAATCAAATGTGCCAATACTCATCTGGATATATGCAGTGACCATTTTGGTAGGATTGATTGCGTTTTTTGTTTATGCATTTTAG MNLALIIFLFCLFLVALGGTLYVFKQEEKKMKQYEAEGETAQSELQRSMEYETKSLKSNVPILIWIYAVTILVGLIAFFVYAF NA NA NA NA NA AK015_00463 303 csoR COG1937 Copper-sensing transcriptional repressor CsoR ATGACAGCCTCAAAACCAGAACATCCTGTAACGCCACGAACAAAGGATGAAATATCCGCGATAACGAACCGGCTGAAAAGAGTAGAAGGCCAAGTTCGGGGAGTTCAGAAAATGGTGGAAGAAGATAGATATTGTATTGATATTTTAGTCCAAATTAGTGCCATTAATGCAGCGCTTAAAAAAGTAGGTTTTTCCATTGCGGAAAGGCATACGAAGCATTGTGTATCGCATGCAGTACACTCAGGGCAAGGAGAAGTAGCGATTGATGAATTAATGGAAGTGCTAAAACAACTGTCCAAATAA MTASKPEHPVTPRTKDEISAITNRLKRVEGQVRGVQKMVEEDRYCIDILVQISAINAALKKVGFSIAERHTKHCVSHAVHSGQGEVAIDELMEVLKQLSK PGPT0004175_1008 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK015_00464 2385 copA_1 COG2217 Copper-exporting P-type ATPase ATGCAAGAGAAAGAACATGTAACAGTTGGAGTAACTGGTATGACTTGTGCGGCCTGTTCCAGTCGCATAGAAAAAGTACTGAATAAGGTAGACGGTGTTGAAGCACAGGTGAATTTAACAACGGAAAAAGCAAACTTAGATTACGACCCGGAAAAAGTTTCTCTAGAAGATATTACGGAAAAAATTGAAAAGCTAGGCTATGGTGTGGAAACGGAAAAGGTTGAATTTGATATTACAGGTATGACTTGCGCAGCATGTTCGAACCGGATTGAGAAAGTATTGTCCAAACAACAAGGTGTGGAGAATGCGACAGTAAATCTTGCTAATGAAACAGCTATTATCGAATATCAGCCGTCATTCATTGACGAAGAAAAATTTATAGGCATAGTTGAAAAATTAGGTTATCAAGCGCAGCCAAAAGCGAATAAAGAAGAAAAGCAAAGCCATAAAGAAAAGCAAATCCAACGCATGAAAAAGAAACTCATCCTATCGGCTATTTTATCTATACCTCTTTTGGTAACAATGCTTGATCATTTGTTTGGACTTAGCCTACCAAGTATTTTTATGAATCCGTGGTTCCAATTTGCTTTGGCGACACCTGTACAATTTATTATTGGCTGGCAATTCTATGACGGCGCATATAAAAATCTTCGTAATAAAGCAGCCAATATGGATGTACTCGTAGCTTTAGGAACGAGTGCTGCTTATTTTTATAGTTTATATGAAGCAATAAAAACGATTGGCAATCCTGACTATATGCCACATCTTTATTTCGAAACAAGTGCGATTTTAATTACGCTTATCCTGTTTGGAAAGTATTTAGAAACAAAAGCGAAAAGTAAAACGACGTTGGCGATTTCTAAATTATTGAATCTACAAGCAAAACAGGCACGTGTCATTCGAAATAATGAAGAGACGATGATACCTGTTGAAGAAGTCGTTCTCGGTGACCGCCTCATTGTGAAGCCAGGAGAGAAAATACCTGTAGACGGCGTTGTTATCAAAGGACGTACGGCTGTTGATGAATCAATGCTTACTGGTGAATCATTACCAGTGGAAAAAGATTTAAAAGATACAGTAATTGGCGCAACGATGAATAAAAATGGAACGATAGAAATGGAAGCGACTAAGGTAGGAAAAGATACGGCTTTAGCTTCGATTGTAAAAGTAGTGGAAGACGCGCAAGGCTCAAAAGCGCCGATCCAACGTTTGGCAGATATTATTTCGGGTTATTTCGTACCAACTGTTGTTGGAATCGCAATTCTCACATTTATTATTTGGATTGCTTTTGTGACACCAGGGGAGTTGGAGTCGGCATTAGTCGCATCCATTGCTGTTCTAGTCATCGCATGCCCTTGTGCACTCGGTTTAGCAACGCCAACATCGATTATGGTCGGAACTGGTAAAGCTGCCGAACAGGGGATTTTGTTTAAAGGTGGTGAGCATTTAGAGCGTACACACCAACTAGATGCTATTATTTTTGATAAAACAGGAACAATTACAAAAGGTAAACCAGAAATAACGGATTTCACGGGTACGGATGAAGTTCTACAGTTAGTAGCTAGTGCGGAAAAAAGTTCTGAACATCCGCTAGCAGAAGCAATTGTTGCTGGGGCAACAGAAAAGGGCTTGGAGTTATTCAATACGGATGAATTTCAAGCAATACCTGGTCACGGTATTTCTGCTCAAGTTAATGGAAAAACGATTCTTGTAGGAACAAGGGCTTTAATGGAAAAATACAACATTGCTTATCAGCAGGAAGAAACGGCCATGCAATATTTTGAAGAAAATGGAAAAACGGCCATGTTGATTGCAGTAGATGGTCAATTTGAAGGAATTGTTGCAGTAGCGGACACGGTGAAAGAAACAGCGAAAGAAGCGATCAGTCAGCTACAAAGCGAAGGACTTGAAGTTATTATGCTAACAGGCGATAATGAACGAACAGCGAAGGCAATCGCCAAGCAGGTTGGTATCGATCATGTTATTGCGCAAGTTTTACCAGAGGAAAAAGCGGATAAAGTAAAAATGATACAGGAAATGGGCAAGCATGTAGCGATGGTTGGTGATGGTATTAATGATGCTCCAGCATTAGCTGTTGCCGATATTGGTATTGCAATTGGAACAGGTACAGAAGTGGCAATAGAAGCTGCTGATGTAACTATTTTAGGTGGCGAATTATTATTGATTCCAAAGGCGATTAAAGCAAGTCATGCAACGATAAAAAATATTCGCCAAAACTTATTTTGGGCTTTTGCTTATAACACAGCAGGAATTCCAATTGCAGCAGTTGGCTTGCTTGCACCTTGGATTGCAGGTGCGGCAATGGCTTTTAGCTCCGTAAGTGTCGTATCAAATTCCTTACGATTAAAGCGGGTAAAGCTATAG MQEKEHVTVGVTGMTCAACSSRIEKVLNKVDGVEAQVNLTTEKANLDYDPEKVSLEDITEKIEKLGYGVETEKVEFDITGMTCAACSNRIEKVLSKQQGVENATVNLANETAIIEYQPSFIDEEKFIGIVEKLGYQAQPKANKEEKQSHKEKQIQRMKKKLILSAILSIPLLVTMLDHLFGLSLPSIFMNPWFQFALATPVQFIIGWQFYDGAYKNLRNKAANMDVLVALGTSAAYFYSLYEAIKTIGNPDYMPHLYFETSAILITLILFGKYLETKAKSKTTLAISKLLNLQAKQARVIRNNEETMIPVEEVVLGDRLIVKPGEKIPVDGVVIKGRTAVDESMLTGESLPVEKDLKDTVIGATMNKNGTIEMEATKVGKDTALASIVKVVEDAQGSKAPIQRLADIISGYFVPTVVGIAILTFIIWIAFVTPGELESALVASIAVLVIACPCALGLATPTSIMVGTGKAAEQGILFKGGEHLERTHQLDAIIFDKTGTITKGKPEITDFTGTDEVLQLVASAEKSSEHPLAEAIVAGATEKGLELFNTDEFQAIPGHGISAQVNGKTILVGTRALMEKYNIAYQQEETAMQYFEENGKTAMLIAVDGQFEGIVAVADTVKETAKEAISQLQSEGLEVIMLTGDNERTAKAIAKQVGIDHVIAQVLPEEKADKVKMIQEMGKHVAMVGDGINDAPALAVADIGIAIGTGTEVAIEAADVTILGGELLLIPKAIKASHATIKNIRQNLFWAFAYNTAGIPIAAVGLLAPWIAGAAMAFSSVSVVSNSLRLKRVKL PGPT0004090_4425 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686 NA NA AK015_00465 207 copZ Copper chaperone CopZ ATGCAAACAACTTTAGATGTAAAAGGAATGACTTGTGGTCATTGCGAAAAAGCAGTAAAAGGAGCACTCGAAGCATTACCAGGTGTGACAGGGGTAGAAGTGCATTTAAATACAGGAAAAGTAGATGTGACTTATGATGATGCACAAACGAACATTCAAGCTATGCGGGAAGCAGTTGAAGAACAAGGTTATGATGTTGTTGTATAA MQTTLDVKGMTCGHCEKAVKGALEALPGVTGVEVHLNTGKVDVTYDDAQTNIQAMREAVEEQGYDVVV PGPT0004125_2345 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213 NA NA AK015_00466 198 cspB_1 COG1278 Cold shock protein CspB ATGACTGGTAAAGTAAAATGGTTTAATGCAGAAAAAGGATTCGGTTTCATCGAGCGTGAAGACGGAGACGACGTATTTGTTCACTTCTCAGCTATTCAAGCTGAAGGTTTCAAAACTCTTGAAGAAGGTCAAGACGTTGAATTTGAAATCGTAGAAGGAAACCGCGGACCACAAGCAGCTAACGTAACTCGTCTATAA MTGKVKWFNAEKGFGFIEREDGDDVFVHFSAIQAEGFKTLEEGQDVEFEIVEGNRGPQAANVTRL PGPT0014675_10021 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK015_00467 201 Small, acid-soluble spore protein 2 ATGGCTCGACGAAACCGTAATCAGTTAGAAGTGCCAGGTGCAGAAAAAGCAGTCGACTCCCTAAAGTATGAGATCGCTAATGAATTTAATGTCGATCTTGGAGCCGATACTACTGCAAGAGAAAATGGTTCCGTGGGTGGCGAGATGGTGAAGCGTATGATAAAAATGGCGGAACAAGATCTCGCAAATAGACAGAAGTAG MARRNRNQLEVPGAEKAVDSLKYEIANEFNVDLGADTTARENGSVGGEMVKRMIKMAEQDLANRQK PGPT0024865_275 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 AK015_00468 678 COG2826 IS30 family transposase IS1252 ATGCGCACGCTTTATCGAAAGTTTTCATCAGGCGAATTTAACCAAAATGATTTACCTATGCAAGGCAAACGCAAACCAAATGGTCACCAGGAAAGAAGAGGAAAACAAAAATTTCGCCGCACCATCCTTGATCGTGATCACGATCACCCAAATTACAAGAAAGAATTTGGTCATCTAGAAGGAGATACCATTGTGGGACGTCATCACAAGAGCGCTGTTATCACGCTTGTTGAGCGTTTAACAAAATGCATCATCGTAATTAAACCAGCTGGTAGACAGGCAACCAATATTGAAACATCGCTCAATCAATGGTTTGAGCGATTACCAAAACACTTATTTAAGTCCATTATCTTTGACTGCGGGAAAGAGTTTTCCAATTGGAAATCCATCAGCAATGAACAAGATGTTGATATTTATTTTGCAGATCCTGGAACGCCATCCCAAAGGGGGCTAAATGAGCATTCCAACGGTCTTCTGAGAAAGAATGGGCTACCAAAAGAAATGGACTTTAATCCTGTGTCACAAGAGTATATTTCTGAGGTTGCACTCCGAAGGAATAACATACCAAGGAAATCATTGAAATACAAAACACCAATGGAGTGTTTCATAGATTATGTCGGTCAGGATTTTGATAAAAGCATGTTTGTCTCGCTTAATTTGACAAATCAAAAAATATAG MRTLYRKFSSGEFNQNDLPMQGKRKPNGHQERRGKQKFRRTILDRDHDHPNYKKEFGHLEGDTIVGRHHKSAVITLVERLTKCIIVIKPAGRQATNIETSLNQWFERLPKHLFKSIIFDCGKEFSNWKSISNEQDVDIYFADPGTPSQRGLNEHSNGLLRKNGLPKEMDFNPVSQEYISEVALRRNNIPRKSLKYKTPMECFIDYVGQDFDKSMFVSLNLTNQKI PGPT0030610_1283 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482 NA NA AK015_00469 264 spoVS COG2359 Stage V sporulation protein S GTGGTGGAAGTATTAAAAGTGTCAGCAAAATCAAATCCAAATTCAGTAGCAGGTGCACTTGCGAATGTGTTAAGAGAACGTGGCTCAGCGGAGATTCAGGCTATTGGAGCTGGTGCATTAAACCAGGCTGTTAAGGCGGTAGCGATTGCTAGAGGATTTGTTGCACCAAGTGGGGTTGATCTTATTTGTATTCCGGCTTTTACAGATATTTTAATTGATGAAGAAGAGCGTACAGCAATTAAATTAATTGTAGAGCCCAGATAA MVEVLKVSAKSNPNSVAGALANVLRERGSAEIQAIGAGALNQAVKAVAIARGFVAPSGVDLICIPAFTDILIDEEERTAIKLIVEPR PGPT0024850_156 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024850-spoVS-K06416 NA NA AK015_00470 795 ymdB_1 COG1692 2',3'-cyclic-nucleotide 2'-phosphodiesterase ATGAAAATATTATTTATTGGCGATGTTGTTGGTTCTCCTGGCAGAGACATGGTCCAATATTATTTGCCAAGATTGAAAGAAAAGTATCGACCTAGCCTTACGATAGTTAATGGTGAAAATGCTGCTGCAGGTAAAGGGATTACAGAAAAAATTTATAAGCAGCTACTAGGATGGGGCGCGCAAGTAGTTACAATGGGAAATCATACATGGGATAAAAAGGAAATCTATGATTTCATTGATAACGCAAACAAAATGATTCGACCAGCAAATTTTCCAACTAATAATCCAGGTAAAGGGATCGTATATGTAAATATTAATGGCATTGAAGTTGCTGTAATTAGTTTGCAAGGAAGAACTTTTTTGCCACCAATACGTGACCCTTTTTCCATAGCAGATGGATTAATAAAAGAAGCAAAACAACGTACAAACATTATATTTGTTGACTTTCATGGAGAAGCAACAAGTGAGAAACAAGCATTTGGATGGTATGTGGATGGACGAGTGAGCGCTGTTGTTGGCACACATACGCATACACAAACGGCCGATGAGCGTATTTTACCAAATGGTACAGCGTATCTGTCAGATGTTGGCATGACAGGGCCTTACGATGGTATTTTGGGAATGGAAAGAGAAGCTGTTATTCAACGCTTTTTAACATCTATGCCAGTTCGTTTTGAAGTACCAAAACAGGGCAGAGCGCAATTAAATGGCTGTGTTGTAACTATTGATACGAAAACAGGAAAAGCCCATAAAATCGAGCGTATTCTAATCAATGAAGATCATCCATTTATGTAA MKILFIGDVVGSPGRDMVQYYLPRLKEKYRPSLTIVNGENAAAGKGITEKIYKQLLGWGAQVVTMGNHTWDKKEIYDFIDNANKMIRPANFPTNNPGKGIVYVNINGIEVAVISLQGRTFLPPIRDPFSIADGLIKEAKQRTNIIFVDFHGEATSEKQAFGWYVDGRVSAVVGTHTHTQTADERILPNGTAYLSDVGMTGPYDGILGMEREAVIQRFLTSMPVRFEVPKQGRAQLNGCVVTIDTKTGKAHKIERILINEDHPFM PGPT0021405_975 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021405-ymdB-K09769 NA NA AK015_00471 1563 rny COG1418 Ribonuclease Y ATGGACAGTCTAATGCTCATCTCCATTTTGCTTGTAATCCTAATCGTCGGTATTGTTGTTGGTTATCTGATTCGTAAGTCTATTGCTGAAGCAAAAATTTCGAGTGCCGAAACGCTAGCTAAACAAATCGTTGATGAAGCACATCGGAATGCAGAAGCTTCAAAGAAAGAAGCCCTTCTTGAAGCGAAGGATGAAAATCATAAACTTCGGCAGCAAACAGAAGATGAACTTCGAGAGAGACGAAACGAAGTACAAAAACAAGAAAATCGTCTGATGCATAAAGAAGAAAATTTGGACAAGAAAAGTGAATCGTTAGATCAGCGAGAACTTAATTTAGAAAAAAGAGAACAGTCGTTAGCAGACAAACAACAACAAATTGAAGAAATGGAAAGCAAAGTGGAAGCTATGATACAAGAGCAGCAAACTGAGCTTGAACGCATTTCAGGGTATACAACAGACCAGGCTAGACAAATTATTTTAGAGCGTGTAGAACAAGAAGTTGCTCATGAATCTGCTCTAATTATTAAAGAGGCAGAAAATCGTGCGAAAGAAGAAGCAGATAAAAAAGCTAAAAGCATCCTATCGTTAGCTCTGCAGCGTTGTGCTGCTGACCACGTTGCTGAAACGACAGTATCCGTTGTCAACCTTCCTAATGACGAGATGAAAGGGCGCATCATTGGACGAGAAGGAAGAAATATAAGAACATTAGAAACGTTAACAGGAATTGACTTGATTATTGATGATACTCCAGAAGCAGTTATACTATCAGGATTTGACCCTATACGAAGAGAAACAGCTCGTTTGGCCTTAGAAAAACTCGTTCAGGACGGACGTATCCACCCAGCTCGCATTGAAGAGATGGTGGATAAAGCAAGGCGTGATGTGGATAATCATATTCGAGAAATTGGTGAAGAGACAACGTTTGAAGTGGGAGTGCACGGCTTACATCCAGACTTAATTAAAATTCTTGGGCGTTTGAAATATCGGACAAGCTATGGACAAAATGTGTTAAAACATTCCACGGAAGTAGCTTATCTAGCTGGTTTGCTTGCTGCTGAACTTGGTGAAGATGAAATGTTGGCAAGAAGAGCTGGACTGCTTCATGATATAGGGAAAGCCATTGATCATGAGGTAGAAGGAAGTCACGTGGAAATTGGTAAAGAACTTGCTTTGAAGTACAAAGAGCATGAAGTTGTTATCAATTCTATTGCTTCACACCATGGCGATGAAGAACCTACTTCCATTATTTCAGTGCTTGTAGCTGCTGCTGACGCATTATCTGCGGCTAGACCTGGAGCAAGAAGCGAGACGTTGGAAAATTATATTAAACGTTTAGAAAAACTGGAAGAAATTTCGGAGTCGTTTGTTGGTGTAGAAAAATCATTTGCCATTCAAGCTGGAAGAGAGATTCGAATTATGGTAAAACCAGATGAAATTGACGACGTAGAATCCGTTCGAATTGCAAGAGATATCCGTAAGAAAATTGAAGGCGAACTGGACTACCCTGGACACATTAAAGTTACAGTAATTAGAGAAACTCGAGCAGTAGAATATGCTAAATAA MDSLMLISILLVILIVGIVVGYLIRKSIAEAKISSAETLAKQIVDEAHRNAEASKKEALLEAKDENHKLRQQTEDELRERRNEVQKQENRLMHKEENLDKKSESLDQRELNLEKREQSLADKQQQIEEMESKVEAMIQEQQTELERISGYTTDQARQIILERVEQEVAHESALIIKEAENRAKEEADKKAKSILSLALQRCAADHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLTGIDLIIDDTPEAVILSGFDPIRRETARLALEKLVQDGRIHPARIEEMVDKARRDVDNHIREIGEETTFEVGVHGLHPDLIKILGRLKYRTSYGQNVLKHSTEVAYLAGLLAAELGEDEMLARRAGLLHDIGKAIDHEVEGSHVEIGKELALKYKEHEVVINSIASHHGDEEPTSIISVLVAAADALSAARPGARSETLENYIKRLEKLEEISESFVGVEKSFAIQAGREIRIMVKPDEIDDVESVRIARDIRKKIEGELDYPGHIKVTVIRETRAVEYAK NA NA NA NA NA AK015_00472 1041 recA COG0468 Protein RecA TTGAGTGATAAGAAACAAGCTTTAGATGCAGCGTTAAAACAAATAGAGAAGCAGTTTGGAAAAGGTTCCATTATGAAATTAGGGGAGCAAGCTGAACAAAGAATTGCAACGATACCTAGTGGTTCCTTAGCTTTAGATGTAGCACTTGGAATTGGTGGGTACCCAAGAGGGCGGGTTGTTGAAATATATGGACCAGAATCTTCTGGTAAAACGACCGTAGCTTTACACGCTATAGCAGAAGCGCAGCAACAGGGGGGGCAAGCAGCATTTATAGATGCAGAGCATGCACTTGATCCAACATATGCTCGTGCTTTAGGCGTGAATATTGAAGAGCTATTACTCTCGCAACCAGATACAGGAGAACAAGCTTTAGAAATTGCAGAAGCACTAGTTCGTAGTGGTGCTGTTGACATTATTGTTGTTGATTCCGTAGCTGCACTCGTTCCGAAAGCTGAAATTGAAGGTGAAATGGGAGATTCGCATGTTGGACTTCAAGCTCGTTTGATGTCCCAAGCATTAAGAAAACTATCTGGTGCTATTAACAAATCGAAGACTACGGCTATTTTTATTAATCAAATTCGCGAAAAAGTGGGCGTTATGTTTGGTAATCCGGAAACGACTCCTGGAGGTCGTGCGCTGAAGTTTTACTCATCTGTACGTCTGGAAGTTCGCCGTGCTGAATCGTTGAAGCAAGGAAATGATATGGTAGGAAACAAGGCAAGAATTAAAGTTGTAAAAAACAAAGTTGCACCACCATTTAAACAAGCAGAAGTAGATATAATGTATGGAGAAGGTATTTCTAAAGAGGGTGAAATACTAGACATTGGTTCTAGCTTAGATATTGTTCAAAAAAGTGGTGCTTGGTACTCTTATAATGAAGAGAGGCTTGGTCAAGGACGTGAAAATGCCAAGCAGTTTTTGAAAGAGAACACAGATATGCAGGCGGAAATTCACGCATTAATTAGGCAGCATTATAATTTGGATGATCAACCAGAGGAAGAAGAAACAAAAGAATTTAATCAAGAAAGTTTAGATGTGTAA MSDKKQALDAALKQIEKQFGKGSIMKLGEQAEQRIATIPSGSLALDVALGIGGYPRGRVVEIYGPESSGKTTVALHAIAEAQQQGGQAAFIDAEHALDPTYARALGVNIEELLLSQPDTGEQALEIAEALVRSGAVDIIVVDSVAALVPKAEIEGEMGDSHVGLQARLMSQALRKLSGAINKSKTTAIFINQIREKVGVMFGNPETTPGGRALKFYSSVRLEVRRAESLKQGNDMVGNKARIKVVKNKVAPPFKQAEVDIMYGEGISKEGEILDIGSSLDIVQKSGAWYSYNEERLGQGRENAKQFLKENTDMQAEIHALIRQHYNLDDQPEEEETKEFNQESLDV PGPT0007235_3856 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553 NA NA AK015_00473 1248 cinA COG1058 Putative competence-damage inducible protein ATGAAAGAGGAATTACAAGCTGAAATAATTGCTGTTGGAACTGAACTTTTACTCGGGCAAATTGCAAACACAAACGCTCAATGGCTCTCTCTGCAGTTAGCTAACCAAGGTGTTAACACGTACCACCATATAGTTGTTGGAGACAACTTACAGCGTGTGCGTGAAACATTTCAAATAGCTCATAAACGTTCAGATATTGTTATTGTTACTGGTGGTCTGGGGCCAACAGAAGACGATTTAACAAGGGAAGCATTTCAGCAATTGAGTACTATACCTCTAGTAGAGCATGGACCATCCATGTGCAAAATACGAGCATATTTTGAAAAGCAGCAGGCAGTGATGACGCCAAATAATTCAAAACAAGCGAGAGTATTTGAAGGGGCAACAGTTTGGATGAATCCTGTAGGAATGGCTCCTGGGATGAAGCTAACATATGATGGTTGCACATGGTTTTTTCTCCCGGGTGTTCCAAAAGAAATGAAAGCTCTAGTAAGAGAATACATGATTCCATCCATACAAAAACTTCTGGGTAAAAAAGAGATCATTAAATCTGTTTTACTGAAATTTACTGGAATTGGTGAATCGAAGCTTGAACATGAACTACAGGATATTATTCACGAACAAACAAATCCTACAATTGCTCCTCTTGCTCAAGAAGAAGGTATTGTCATTCGATTAACAGCAAAAAGTGATTCGCTTCAAAAGGCAGATCAGCTGTTGCAAGAAACGAAAGCGAAAATCTTTTTACGCGTAGGGCAATATGCGTATGGTGAAGATCACGAAACATTAGAAGGGAAAGTTGTAGATTTGTTATTAGCGAAGCAATATACGCTTGCAGCTGCAGAAAGTTTGACTGGTGGAGCGTTTGCAGAAAAAATCACGACTGTCTCTGGTTCATCAAATGTTTTTCAAGGTGGCATGGTTACTTATACAATAATAGCAAAACAGAATACGTTAAATGTACCAGGAGAGATTTTAGAAACAAATGGAGCAGTCAGCGAAGATTGTGCTGAAGCGATGGCAAAGCAAGCAGCTACTAAATTTTCATCTACTATAGGAATATCTTTTACTGGTGTGGCTGGTCCTACTAAGATGGAAGGAAAGCAAGTTGGTACAGTCTATATTTCTATTTATAACGACAATGGTACATTTGTTACTAAGAAGTTCTTATTCCCAGGAGATAGGAATGCTATTCGAAGAAGAACAGTTCTTAAAGGTCTTGAGCTACTATATCAAATACTAAAATAA MKEELQAEIIAVGTELLLGQIANTNAQWLSLQLANQGVNTYHHIVVGDNLQRVRETFQIAHKRSDIVIVTGGLGPTEDDLTREAFQQLSTIPLVEHGPSMCKIRAYFEKQQAVMTPNNSKQARVFEGATVWMNPVGMAPGMKLTYDGCTWFFLPGVPKEMKALVREYMIPSIQKLLGKKEIIKSVLLKFTGIGESKLEHELQDIIHEQTNPTIAPLAQEEGIVIRLTAKSDSLQKADQLLQETKAKIFLRVGQYAYGEDHETLEGKVVDLLLAKQYTLAAAESLTGGAFAEKITTVSGSSNVFQGGMVTYTIIAKQNTLNVPGEILETNGAVSEDCAEAMAKQAATKFSSTIGISFTGVAGPTKMEGKQVGTVYISIYNDNGTFVTKKFLFPGDRNAIRRRTVLKGLELLYQILK PGPT0013455_1057 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742 NA NA AK015_00474 579 pgsA CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase ATGAACTTACCAAATAAGCTAACATTATCACGTATTTTTTTAATTCCTATTTTCATCATTCTTATGAGTGTTCCATTTCCATGGGGAAGCTGGCAAATAGGAGAAACAGCATTGCCAATATCTCATTTCATTTCTGCTTTATTGTTTATAATTGCAGCTGGAACGGATTGGGTGGATGGCTATTACGCAAGAAAATATAACCTTGTTACAAATTTAGGGAAGTTTCTTGATCCACTAGCAGACAAACTACTTGTTTCCGCTGCTTTCATTATTTTAGTAGAAATGGGAGTTGCCCCAGCATGGGTCGTTATTCTTATTATTAGTCGTGAGTTTGCAGTTACAGGACTTCGTCTTGTTGCTTCTGGGGAAGGTATAGTACTAGCAGCTGGTAATATGGGGAAAATAAAAACAGCAACGCAAATGGTCGCTATTGCTGTTTTGTTATTACATAATTTCCCGTTTTCATATATAGGCTTTCCTTTTGGGGAAATCATGCTATATATTAGTTTATTCTTTACAATATTATCTGGCATAGACTACTTTATTAAAAATTGGCATGTGATGAGGGATTCGAAATGA MNLPNKLTLSRIFLIPIFIILMSVPFPWGSWQIGETALPISHFISALLFIIAAGTDWVDGYYARKYNLVTNLGKFLDPLADKLLVSAAFIILVEMGVAPAWVVILIISREFAVTGLRLVASGEGIVLAAGNMGKIKTATQMVAIAVLLLHNFPFSYIGFPFGEIMLYISLFFTILSGIDYFIKNWHVMRDSK PGPT0007705_3339 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995 NA NA AK015_00475 912 hypothetical protein ATGCAAATCGGAGCAAGACTAAAAGAAGCAAGGGAAGCTCAGAATCTTTCTTTGGAAGAGCTACAAGAAATTACAAAAATTCAAAAGCGGTATTTACTAGCAATTGAAGAAGGGAACTTGCAAATTCTTCCGGGTAAATTTTATGCTAGAGCTTTTATGAAAGAATATGCAAATGCTGTTGGGTTGGACCCAAATGAACTGATGGAAGAATATAAAGAAGAAGTGCCGAAAACAGAGGAGCCTACAGAAGAACAATACTCACGTATACAACGCTCGCGTAAAAGTCAAGAAAAAAGTACATCTAATTTTTCTTTATTTCCTACAGTAATTGTTGGCTTACTTATTATTGGTATTATTGCGGTCGCTATTTTCTTTATTGCCCAAAACATGTCGGGAACAGAAAGTAAAGATCCTGTAAATCAGGATGATGGAAAAGGCAATGATATTGTGATTAAAGACGATAGTGATGGCGGTGAAGCTAATCAAAATACTGCAGATGAAGATCAAGATAATAAAGAACAAGATGGTAACGATGAAGATACGGAAGAAACAAATGAAAAAGCAAAAGAGCCTGAATTTACTGTTATAGAAGAAGGAACAGGTAATACACCAGAATCAACAGTTGCATTCTCTTATACAGGTGATGAAGTAAAAGCTACATTAGAAGCTTCAGACGATACTTGGCTTGGTGTGAAGGCTGATGAAGAAGATGTCCTCTTTGAGGAAAATATGTTTAATGCCGAGCAGTCACCACTTGAATTAGACCTTACTGGTAAAGAACGCGTATTCTTTAAAATTGGCAATGCATCTGTGCTAACCATAACAATAAATGGTAAAGAAATGGAGTATCCTGTTGATCCAAGTAACGTAAGACAAAATATTTGGGTGGAACTAAAACAAGAAGCTGAATAA MQIGARLKEAREAQNLSLEELQEITKIQKRYLLAIEEGNLQILPGKFYARAFMKEYANAVGLDPNELMEEYKEEVPKTEEPTEEQYSRIQRSRKSQEKSTSNFSLFPTVIVGLLIIGIIAVAIFFIAQNMSGTESKDPVNQDDGKGNDIVIKDDSDGGEANQNTADEDQDNKEQDGNDEDTEETNEKAKEPEFTVIEEGTGNTPESTVAFSYTGDEVKATLEASDDTWLGVKADEEDVLFEENMFNAEQSPLELDLTGKERVFFKIGNASVLTITINGKEMEYPVDPSNVRQNIWVELKQEAE NA NA NA NA NA AK015_00476 792 hypothetical protein ATGACGAGAACAGAGTGGTATCTTGAATACGAAATTCAAATTAACCGACCAGGCTTGCTTGGTGATATATCGTCTTTACTTGGGATGCTAAGAATTAATATTATTATGATTAATGGGGTCGAGGACGCAAAGCGTGGTATGTTACTTTTATCTAAATATGACGAAAATATAACACGACTCAAGTCAATTTTACAAACGATGGAAACCATTAAAGTAACCAAGTTAAGACAGCCAAAACTTAGAGATAAAATGGCTGTGCGCCATGGTAGATACATATATCGCGATGTAGATGATCATAAAACAATTCGTTTCATTCGCGATGACTTAGGCTTGCTTGTTGATTTTATGGCAGAATTGTATAAAAAAGATGGCCATAAATTAATAGGCATCCGTGGTATGCCAAGAGTAGGGAAAACAGAATCGGTAGTAGCTGCTAGTGTGTGCGCAAACAAACGTTGGTTATTTGTTTCCAGTACTCTATTAAGGCAAACAGTGCGGAGCAAGCTTATTGAAGGTGAGTACAATCCCGATAATGTTTATATTATTGATGGCATTGTATCCACTCGGCGTGCAAACGAGCAGCATTGGCAGTTGATTAGAGAAGTAATGCAGCTACCTGCTGTCAAAGTAGTAGAGCATCCAGATGCGTTTGTACAAATGACAGAATATAAAATAGAGGATTTTGATTACATTATTGAACTAAGAAGTCATGAAGAAGAAGAAATTACATATGAGCCTGTTGAATCAAGACAGTTCAGTCAAGAAAATGAATTTTCAATGTTTGATTTCTAA MTRTEWYLEYEIQINRPGLLGDISSLLGMLRINIIMINGVEDAKRGMLLLSKYDENITRLKSILQTMETIKVTKLRQPKLRDKMAVRHGRYIYRDVDDHKTIRFIRDDLGLLVDFMAELYKKDGHKLIGIRGMPRVGKTESVVAASVCANKRWLFVSSTLLRQTVRSKLIEGEYNPDNVYIIDGIVSTRRANEQHWQLIREVMQLPAVKVVEHPDAFVQMTEYKIEDFDYIIELRSHEEEEITYEPVESRQFSQENEFSMFDF PGPT0003183_20 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003183-ymfK|ymfkn|ymfKc-NA NA NA AK015_00477 255 yflH putative protein YflH ATGTCCGTTCTTGATAATTTTGATTCATGGAAAAGCTTTTTAGCTAATAAGCTTACACAAGCACAACAACAAGGAATGAGTAATGAAACAGTTCAAAATATTGCTCATGAGATTGGTGATTATTTAGCACAGCACGTTGATGCTAAAAACAAAGAAGAGGCTGTACTGCGTGACTTATGGAATTCAGCTTCTGATGAAGAACAGCAAGTACTAGCTAATACGATGATTAAATATGTTCAAAACCAAGGAAATTGA MSVLDNFDSWKSFLANKLTQAQQQGMSNETVQNIAHEIGDYLAQHVDAKNKEEAVLRDLWNSASDEEQQVLANTMIKYVQNQGN PGPT0003182_1139 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA NA NA AK015_00478 714 fabG_2 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGAAAAGAAACATTCTTATAATAGGGGCTAGTGGAGATATCGGTTCAGCAATAGCTGAACAATTATTACAACATGGTTACCAATTAATACTCCACTATTATACAAACAAACGAGTAATTGATGAACTTTGTGACGCATATCCTGAATCTATTTTAGCCACGTATCAAACAGATTTAAGTAAAAACAGATCTTGTGAACAGTTGATGCAAAGTTTACCCTTCGCTATTGATGGAGTGGTCTTTGCAAGCGGGAAAGCACATTACGGTTTGTTTCAAGATACTAGTGAGGAAACGATGGATGCTATGATTCAACTACATGTTAAATCACCTTGGCTTATTACCAAATACCTTCTTCCGGATATGATTGCAAAACAAGCAGGTTCCATCTTATTTATAACATCGATTTGGGGAGAACAAGGTGCCAGTAACGAAGTCGTTTACTCTGCAGTTAAAGGAGCACAAAATAGCTTTGTTAAAGCACTTGCGAAAGAAGTTGCACCTTCTGGGATTTCGGTTAACGCCATTAGCCCAGGTTATATTGAAACAAAGATGAATCATCATTTATGTAAGGAAGAAAGAGAAGCAATTTTAACAGAAATTCCAATGAATAGAGCGGGGAAACCAGAAGAAATTGCATCTTTTGTAACTTTTCTATTAGCTAGTGAAAGGAGCTATATACAAGGGGCAATTTTAGATGTAACAGGCGGTTGGTAA MKRNILIIGASGDIGSAIAEQLLQHGYQLILHYYTNKRVIDELCDAYPESILATYQTDLSKNRSCEQLMQSLPFAIDGVVFASGKAHYGLFQDTSEETMDAMIQLHVKSPWLITKYLLPDMIAKQAGSILFITSIWGEQGASNEVVYSAVKGAQNSFVKALAKEVAPSGISVNAISPGYIETKMNHHLCKEEREAILTEIPMNRAGKPEEIASFVTFLLASERSYIQGAILDVTGGW PGPT0003180_22049 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 AK015_00479 1284 hypothetical protein ATGAATAAGCACATATATAGTGATATTGATGAAACGCTATATACGGAGAAATTAGCTAATGGATTAACCGTATTTTTATTACCGAAACCAGAACTAGCAAAAACACATGCTTTGTTTACGACGAACTATGGTTCAATTGATTTGTATTTTGCGCCTATAGGTAAAGATGGAGTAATTACTGTTCCAGAAGGAGTAGCTCACTTTTTAGAACATAAGCTCTTCGAAAGTGAAGAAGGGGATGTATTTCATGACTTTTCTAAACAAGGTGCTTCAGCGAACGCTTACACTTCATTTACGAAAACAGCGTATCTTTTCACAGCAACTGATCAAATTGAGAAAAATGTAGAAACACTCATTGATTTTGTCCAACATCCTTATTTTACAGATGAATCCGTAAAGAAAGAAAAGGGGATTATTGCTCAAGAAATAAGGATGTATGATGACCAGCCTGATTGGCAAGCTTTTATGGGCACCATTAAAGCAATGTTTCAAAATCACCCAATTAATGTAGACATTGCAGGGACAGTTGAATCGATCTACCAAATCACAAAAGAAGATTTATATACATGCTACCATACCTTTTATCATCCTGAGAATATGGTTTTATTTATTGCTGGAAACTTTGAACCGGAAAAAATGGGGCAGTTAATTAGAGAGAATCAAGACAAAAAACAGTTTGCCAAGATGGAGCAGTTAAAACGGAAGTTCCCTAATGAGCCAAATGCGGTAGCAGAGCGAGAAAAGCGAATAACTATGCCTGTCTCGATTCCTAAATGTACGCTAGGAATAAAACGTGTTAATCAGCAACTGTCTAAAGATGAGCTTTTAATAGAAGATTTACTTCAGGATATGTTATTGGACTATTATTTTTCAAAAGGCGGACCATTTTACGAGGAACTTTATAATGAAAATCTAATTGATGATAGTTTCTTTTTTGAATCAAATATTGATCGAGATTTTGGGTATGTATTGATTGGTAGTAATACGAGACACCCAGAACACTTTTCCGAACGCTTAAAATCCATGTTACTTGGTATCCGGGAAGCGAATTTAAATGAAGAAACTTTCCAGCGTATAAAGAAGAAGAAAATAGGTCAGCTGCTACGTATGATGAACCGCTTAGAGAACATAGCAAACGCTTATACACATTATCATATGCTAGGTATTGACTTCTTTACATTACTTTCAGCTGTTCGAGGGTTAACTTTGGAGGATGCGAAGCAATTTATGTATTCTTGGATAGACGAAGAACGGTTATCAGTTTGTACGATCGCTGCGGAGTAA MNKHIYSDIDETLYTEKLANGLTVFLLPKPELAKTHALFTTNYGSIDLYFAPIGKDGVITVPEGVAHFLEHKLFESEEGDVFHDFSKQGASANAYTSFTKTAYLFTATDQIEKNVETLIDFVQHPYFTDESVKKEKGIIAQEIRMYDDQPDWQAFMGTIKAMFQNHPINVDIAGTVESIYQITKEDLYTCYHTFYHPENMVLFIAGNFEPEKMGQLIRENQDKKQFAKMEQLKRKFPNEPNAVAEREKRITMPVSIPKCTLGIKRVNQQLSKDELLIEDLLQDMLLDYYFSKGGPFYEELYNENLIDDSFFFESNIDRDFGYVLIGSNTRHPEHFSERLKSMLLGIREANLNEETFQRIKKKKIGQLLRMMNRLENIANAYTHYHMLGIDFFTLLSAVRGLTLEDAKQFMYSWIDEERLSVCTIAAE PGPT0003179_50 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003179-ymfH-NA NA NA AK015_00480 1305 hypothetical protein ATGCAAGAAATTCAGGAAAACATAAAAGATATTAACGGTTTTAATGTTCATTATATTCCTAATCAAAAGTATAAAACATTGACTGTTGTTTTAAAGTTGCGTGCACCTTTAGATAGGGACACGATTACAAAAAGAGCATTGTTACCATATGTACTAAAGCAAGGTACGAAACAATACCCATCTAAACAAGAACTGCAAATAAAATTAGATGGCTTATACGGAGCTTCTCTTTCTATAGACGGCGCCAAAAAAGGAGAAAACCATATTATTAGTGTGCGACTAGATATTGCCAATCAGAAGTTTTTAGCAGGAGATTCTTCTGTATTTGAAGAAGGTCTACAGCTGCTTTATGATGTGTTATTTAATCCAAATGTTGATGACCAAGGCTTCAATAAGTCTATATTCTCACGAGAGAAGGAGACCTTAAAACAAAAAAACCTGAGCTTAAAAGATGACAAGATGAGTTATGCTAACCTCCGTTTAATTGATGAAATGTGTAAAGGCGAGCCTTATGCAGTTCATGTGCATGGATATTTGGATGACTTGGAAAAAATAACTCCGGCTTCTCTTTTTTCTTATTACCAACAAGTAGTCGCAAACGATCAAATTGATATTTATGTGCAAGGGGATCTTTCAAAGGAAAATATGGAAGAGGCAATAAAGAAAGTATTTCAACAAGCAAACAAAAATCAACCAAGATTAAAGCATAAAGATTTGAAAGAACGCCATTTTAACAAAACTGATGTTACACCAAAAGAAATTGTGGAAACAGATAAGGTTCAGCAAGCAAAATTACATATCGGTTACCGTACAAACGTTACGTTTGGAGAGCCTGCTTATTATGCTCTTCATGTGCTAAATGGGATTTTCGGTGGTTTTCCAAGCTCAAAATTGTTCATTAATGTTCGAGAAAAGAATAGTCTTGCTTATTATGCTGCTTCTCGTATGGAAAGTCATAAAGGATTATTGTTTGTTTTTAGTGGTATTGCTCCAGAAAATTTTGAAAAGGCAAGAGACATTATAAAAAAACAGGTGGAAGCAATGAAGCAAGGAGACTTTACAACGCAAGATATTGCGGAAGCCAAAGCCGTTATTACTAACCAACTATTAGAGACATTCGACAGCCCGCAAGGAACAATTGAATTTTTATATCAACAAGTATTAGCAAACAAAAAAATTACTCCTCTTCATTTTGTAGAGCAATTGAATAAGGTGACAAAAGAAGAGATTGTTGCTGTTGCTAAACGCTTGCAAGAAGACACAACTTATTTATTAACGGCAGAGAAAGGAGATAGTCATGAATAA MQEIQENIKDINGFNVHYIPNQKYKTLTVVLKLRAPLDRDTITKRALLPYVLKQGTKQYPSKQELQIKLDGLYGASLSIDGAKKGENHIISVRLDIANQKFLAGDSSVFEEGLQLLYDVLFNPNVDDQGFNKSIFSREKETLKQKNLSLKDDKMSYANLRLIDEMCKGEPYAVHVHGYLDDLEKITPASLFSYYQQVVANDQIDIYVQGDLSKENMEEAIKKVFQQANKNQPRLKHKDLKERHFNKTDVTPKEIVETDKVQQAKLHIGYRTNVTFGEPAYYALHVLNGIFGGFPSSKLFINVREKNSLAYYAASRMESHKGLLFVFSGIAPENFEKARDIIKKQVEAMKQGDFTTQDIAEAKAVITNQLLETFDSPQGTIEFLYQQVLANKKITPLHFVEQLNKVTKEEIVAVAKRLQEDTTYLLTAEKGDSHE PGPT0003177_27 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003177-ymfF-NA NA NA AK015_00481 960 hypothetical protein TTGAGTTTTATAGAATTATTACAATCTGTAATCCCAACTGCACTTTTTTATTCAGCTCCACTTATTTTTACTGCTTTAGGCGGGGTATTCAGTGAACGCTCAGGAGTCGTTAATATTGGCTTGGAAGGTTTAATGGTAATGGGAGCATTTGTAGGTATAGTTTTCAATCTCACCTTTGCTGACGTATTTGGTGCTTGGACGCCATGGGTATCTATTCTTGTTGCCATGGGAGTTGGTGCTATCTTTGCCATCATTCATGCCTTGGCTTCCGTCACTTTTTATGCCGATCAAGTAGTTAGTGGTGTAGCAATTAACTTTTTAGCTTTAGGAGTCGGCATTTTCTTAACAAAGCAGTGGTATGATAAAGGTCAAACAGATATGGTGACGCAACCATTTTATACAACAGATATTCCTGTTTTAGCAGATATTCCTTTAATTGGATCTGTTTTCTTTCAAGGAATTTACCCAACTTCCTATGTAGCTATCTTCCTTGCTTTTGTGTCATGGTATATCTTATACAGAACACCGTTTGGATTACGTCTACGTGCAGTAGGTGAACATCCGATGGCTGCTGACACAAATGGTATTAATGTTTATAAGATGCGTTACATCGCTGTGATTATTTCTGGTGCCATGGGTGGCTTAGGTGGATCAGTATTTGCTTTAACGATTGCTTTCAATTTCTCACATGCAACAATTGTAGGACAAGGATTTATGGCTCTAGCAGCCGTTATATTTGGAAAATGGCACCCGCTCGGTGCAATGGGCGCTGCTTTGTTTTTTGGGTTCGCTCAAAGCTTAAGTGTTATTGGTGGAGGTATTCCGCTATTAGAAGATGTGCCGCAAGTATTTTTACTCATAGCTCCTTACGTATTAACTATTTTAGCATTAGCTGGCTTTATTGGTCGTGCAGAAGCGCCAAAAGCAAATGGAGTGCCTTATATTAAGGGGAACCGCTAA MSFIELLQSVIPTALFYSAPLIFTALGGVFSERSGVVNIGLEGLMVMGAFVGIVFNLTFADVFGAWTPWVSILVAMGVGAIFAIIHALASVTFYADQVVSGVAINFLALGVGIFLTKQWYDKGQTDMVTQPFYTTDIPVLADIPLIGSVFFQGIYPTSYVAIFLAFVSWYILYRTPFGLRLRAVGEHPMAADTNGINVYKMRYIAVIISGAMGGLGGSVFALTIAFNFSHATIVGQGFMALAAVIFGKWHPLGAMGAALFFGFAQSLSVIGGGIPLLEDVPQVFLLIAPYVLTILALAGFIGRAEAPKANGVPYIKGNR PGPT0021050_1022 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536 NA NA AK015_00482 1044 hypothetical protein ATGGAAAATAAATGGTTTAACATCCTTGTACCAATTATTTCTGTTCTCATTGGTCTTTTTGCTGGGGCTTTGATTATGTTGTTTTTTGGCTATAATCCTATACAAGGCTACATTGCTTTATTTAAAGGAGCATTCGGTGATTTATACTTTTTTGGTGAAACTATTAGACAGACAACGCCTTACATATTTACAGGCTTAGCCGTTGCATTTGCATTTCGAGCTGGCTTATTTAATATTGGGGCTGAAGGGCAAGTCATTGTTGGTTGGTTGGCAGCTGTTTGGGTAGGCACAGCAATAGACGCTCCGATGTATATTCACCTACCACTAGCTTTACTTGTAGCAGCAATTGCCGGAGGATTATGGGGATTTATTCCCGGCTTGCTAAAAGCAGGATTGGGAGTACACGAAGTAATCATAACGATTATGCTAAACTATGTTGCCCTATATAGTTCTAATGCCATCATCCGCAGCGTTTTAACGGAAAACGCAGATAAAACGGATATGGTTGCTTCGACTGCTTCATTAGCTTCTGAATGGTTAGCAAATGCCACTTATTTTTCCAGAATGCACTATGGCATATTCATAGCAATACTGGCAGCAGTTGCCATGTGGTTTATCATTGAACGGACAAAACTCGGTTTTGAACTAAAGTCAGTAGGGTATAACAAACATGCCTCGAAGTATGCAGGTATGAGTGTAAAACGTAATATTATTTTGGCTATGGTTATTTCTGGCTTGTTTGCTGGTTTAGCAGGTTCTATGGAGGGGTTAGGTACGTACGGTAATATGACTGCGAGTTCTGGTTTCTCCAATATCGGTTTTGATGGAATTGCTGTAGCACTTTTAGGGGCAAACAATGCATTTGGTGTTGTTCTTGCAGCATTCCTATTTGGAGCTTTAAAAGTAGGGGCCTTAAATATGCCAACCCAAGCTGGAGTTCCAAATGAGTTGGTAGATATTATTATTGCTTTAATTATATTCTTCGTCGCCTCAAGCTATCTCATTCGCTGGATAATATTACGGTTTAAAAGGGAGGGAAAATAA MENKWFNILVPIISVLIGLFAGALIMLFFGYNPIQGYIALFKGAFGDLYFFGETIRQTTPYIFTGLAVAFAFRAGLFNIGAEGQVIVGWLAAVWVGTAIDAPMYIHLPLALLVAAIAGGLWGFIPGLLKAGLGVHEVIITIMLNYVALYSSNAIIRSVLTENADKTDMVASTASLASEWLANATYFSRMHYGIFIAILAAVAMWFIIERTKLGFELKSVGYNKHASKYAGMSVKRNIILAMVISGLFAGLAGSMEGLGTYGNMTASSGFSNIGFDGIAVALLGANNAFGVVLAAFLFGALKVGALNMPTQAGVPNELVDIIIALIIFFVASSYLIRWIILRFKREGK PGPT0021045_3201 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535 NA NA AK015_00483 1533 rbsA_1 COG1129 Ribose import ATP-binding protein RbsA TTGGAAGATTATGTGATCGAAATGCTGCATATAAGAAAAGAGTTTCCGGGAGTAGTTGCTAATGATGATGTAACCATCCAATTAAAGCGAGGAGAGGTCCATGCCTTATTGGGTGAAAATGGTGCAGGAAAATCGACCTTGATGAACGTCCTTTTTGGGTTATATCAACCTGAGGAAGGAGAAATTCGAGTGAAGGGTAAGAAAGTATCCATCACCGATCCCAACATTGCTAACAATTTAGGAATCGGTATGGTACATCAACATTTTATGTTAGTCGAACCGTTTACTGTTACCCAAAATATTATTCTCGGTATTGAACCAACAAACAAGGGGAAAATTAATTTAAAGCAAGCAGAGCAAGAAGTGCAAGAATTGTCTGATCGGTATGGTCTTCGAGTAGATGCAATGGCAAAGATAAGTGATATTTCTGTAGGTATGCAGCAACGTGTGGAGATTTTAAAGACGCTTTATCGTGGAGCAGATGTGCTTATATTTGATGAACCAACTGCTGTTTTAACACCACAAGAGATTGCTGAGTTAATGGAAATATTTAGAACTTTACTTGCAGAAGGAAAATCTATCATTTTAATTACGCATAAACTAAAAGAAATTATGGAAATTTGTGATCGCTGTACCGTTATTCGAAAAGGTAAAGGTATTGGCACCGTAAACGTAGCAGAAACAACTGTTACAGAGTTAGCTTCTTTAATGGTTGGTAGAGATATATCTTTTCAAACGAACAAACAACCAGCTGAACCTAAACAAACCGTTCTGAAGATTGATAATCTATTTGTAAGAGATAGCAGAAAAGTAGACATGGTAAAAGGGCTAAATTTAAATGTACGTGCTGGTGAAATTGTAGGTATTGCAGGTATTGATGGGAATGGACAAAGTGAATTAATTGAAGCAATTACTGGTCTTCGCAAAGCGCATAGCGGGAGTGTTGTTATAAATGAAAAACCAATTACAAATCTCTCTCCTCGTAAAGTAACAGAGAGTGGTGTCGGCCATATACCTCAAGATAGACATAAATTTGGGCTTGTGTTGAACTATTCTGTTGCTGAAAATCTCGTTTTACAAACTTATTATAAACGACCTTATTCTAAATTCAAAGTATTAAATTATAAGCAAATTTTGCAAAAGGCAGAACAGCTAATAGAGGAGTATGATGTTCGTACACCTTCTCCATACACAAAAGCGCGTGCGTTGTCTGGGGGGAATCAACAAAAAGCTATAATAGCTAGAGAAATTGATAGATCTCCTGATTTATTAATCGCTGCTCAGCCTACACGAGGATTAGATGTTGGGGCGATTGAATTCATTCACCAAAAGCTCATAGAAGAGCGAGATAAAGGAAAAGCAATTTTATTAGTTTCTTTTGAATTGGATGAAATTCTAGACGTTAGCGACCGAATCGCTGTTATTTATGATGGGAAAATTGTAGCAGATGTAAAGCCAGAAGAGACAAGTGAACAGGAATTAGGCTTATTAATGGCTGGGAGCGGTCGTGTAAAGGATGGTGAAGAATCGTGA MEDYVIEMLHIRKEFPGVVANDDVTIQLKRGEVHALLGENGAGKSTLMNVLFGLYQPEEGEIRVKGKKVSITDPNIANNLGIGMVHQHFMLVEPFTVTQNIILGIEPTNKGKINLKQAEQEVQELSDRYGLRVDAMAKISDISVGMQQRVEILKTLYRGADVLIFDEPTAVLTPQEIAELMEIFRTLLAEGKSIILITHKLKEIMEICDRCTVIRKGKGIGTVNVAETTVTELASLMVGRDISFQTNKQPAEPKQTVLKIDNLFVRDSRKVDMVKGLNLNVRAGEIVGIAGIDGNGQSELIEAITGLRKAHSGSVVINEKPITNLSPRKVTESGVGHIPQDRHKFGLVLNYSVAENLVLQTYYKRPYSKFKVLNYKQILQKAEQLIEEYDVRTPSPYTKARALSGGNQQKAIIAREIDRSPDLLIAAQPTRGLDVGAIEFIHQKLIEERDKGKAILLVSFELDEILDVSDRIAVIYDGKIVADVKPEETSEQELGLLMAGSGRVKDGEES PGPT0021040_2212 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537 NA NA AK015_00484 1206 tmpC COG1744 Membrane lipoprotein TmpC ATGGAAGCGATTTCAAACAAAGGAGGTGGTGCGCTCGAAAATAGTGTGATCAATCGTTGTCGGAAACAAAAAATAAAAGAGGGGGCTATTGTTTTGAAAAGTAGAAAGCTTATTTTATTACTAACTATTTTTATTAGTTTTGGTTTAGTTTTAGCTGCGTGTGGTGGTTCTAATAATGAAGATAAAACAAGTGGTGGAAATGATGGTAAAAAAACAGAAGAAAGCGAAGGGTCTACGGATTATTCCATCGCTATGGTAACAGATGAAGGCGGAGTTGATGACAAATCATTTAACCAATCTTCTTGGGAGGGGCTGCAAGCATGGGGAGAAGAACATGGATTATCAAAAGGAAACGGTTATGATTATGCACAGTCTAATGATGAGTCTGATTATTTGCCAAACCTTACTCGTTTAACAAGAGATGGCTATAACTTGATTTTTGGTGTTGGATATTTACTAGAAGATGCGATCTCAAAAGTAGCAGAACAAAATCCTGATACAAGTTTTTCCATTGTCGATACCGTTGTGGAAGCTCCTAACGTTGCAAGTATTACATTTGCTGAACATGAAGGTTCATTTCTAGCAGGTGTTGCAGCTGCTAAGAAAACCAAAACAAACAAGCTTGGTTTTGTTGGTGGCATGGATTCTGATTTGATTAATAAATTTGAAGTTGGATTTGTTGCGGGAGCAAAATCTGTCGATCCAGATATTGAAGTGGATATTCAATATGTTGGTGATTTTAGTTCAGCTGATGATGCAAAGTTAATTGCTACAAGGATGTATGGTGACGATATAGACATTATTTATCATGCAGCAGGTGCAGCTGGAAATGGCGTATTTAACCAAGCAAAAGATATGAAAAAGAACGATCCTGATAATGAAATTTGGGTGATTGGTGTAGATCGCGATCAGCATGAAGAAGGGAAAATAGGCGAAGATAATGTAACACTTACATCTATGGTAAAGCGAGTGGACTTATCTGTTCAAGAAGTAAGTAATCTTGGTTTAAATGGGGATTTTCCAGGCGGTGAAATATTGGAATTCGCTTTAAAAGACGACGGTGTCTATCTTGCTGATACGAATGAGAATGCTTACACAGAAGAAATTGCTTCAGCAGTTGATGAGTGGAAAGAAAAAATTATTAACGAAGAAGTAGATGTACCGCAAACGCGAAAAGATCTAGAAGAATTTGAAAAGTCGTTGTAA MEAISNKGGGALENSVINRCRKQKIKEGAIVLKSRKLILLLTIFISFGLVLAACGGSNNEDKTSGGNDGKKTEESEGSTDYSIAMVTDEGGVDDKSFNQSSWEGLQAWGEEHGLSKGNGYDYAQSNDESDYLPNLTRLTRDGYNLIFGVGYLLEDAISKVAEQNPDTSFSIVDTVVEAPNVASITFAEHEGSFLAGVAAAKKTKTNKLGFVGGMDSDLINKFEVGFVAGAKSVDPDIEVDIQYVGDFSSADDAKLIATRMYGDDIDIIYHAAGAAGNGVFNQAKDMKKNDPDNEIWVIGVDRDQHEEGKIGEDNVTLTSMVKRVDLSVQEVSNLGLNGDFPGGEILEFALKDDGVYLADTNENAYTEEIASAVDEWKEKIINEEVDVPQTRKDLEEFEKSL PGPT0021055_357 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335 NA NA AK015_00485 726 nagR_2 COG2188 HTH-type transcriptional repressor NagR TTGTCTATTAAACATGATTCAAGGCATTTATATTTACAAGTTATTGATCAAATAAAAAAAGATATTCATAATGGCACGTACAAGGAGAATGAAAAGCTCCCATCGGAATTTCAATTATCCAAGGTGCTAGGTGTTTCTCGGGCAACTTTAAGAGAAGCACTTCGAATATTAGAAGAAGATAATATTGTCACTAGGAAACACGGTGTTGGTACATTTGTAAACCCTAAGCCTGTATTTTCTTCTGGTATTGAACAACTTACAAGTGTTACATACATGATTGAGCAATCAGGAAAAAAAGCCGGAACAGAATATTTATTTACAGATATAAGAGAAGCAACGGACAAGGAAAAGAGCCGATTTGCTCCTCATATTGTAGAGCAATTAGTTGAAATTGAGCGCGTTCGTACAGCCGACGGGGAACCAGTTGTATTTTGTGTTGATAAAATTCCTGAAGAGATCATTCCGGTAGAAAGTGTCCAACAAGCAGATTCCTTTTTTAAATTAATGGAGGATTACGCTAATAAAAGGGTTGCCTATGCCGTGACATATATTGAGCCAATTGGTTACCATGAACGCATTTATAAGACTTTAAACTGCCACAAAGAACAACCATTATTGTTGCTTAGGCAAATGCACTATACTTCCGAAGATGAAGCGGTTTTATACTCAGCAAACTATTTTCGATCCGATATGTTTAGCTTTCATGTTTTACGTAAACGTACGTAA MSIKHDSRHLYLQVIDQIKKDIHNGTYKENEKLPSEFQLSKVLGVSRATLREALRILEEDNIVTRKHGVGTFVNPKPVFSSGIEQLTSVTYMIEQSGKKAGTEYLFTDIREATDKEKSRFAPHIVEQLVEIERVRTADGEPVVFCVDKIPEEIIPVESVQQADSFFKLMEDYANKRVAYAVTYIEPIGYHERIYKTLNCHKEQPLLLLRQMHYTSEDEAVLYSANYFRSDMFSFHVLRKRT NA NA NA NA NA AK015_00486 2271 spoIIIE COG1674 DNA translocase SpoIIIE ATGGCAAGAAAGAAAAAAAGACGCAGCAGCAAATTAAAAAAACAATTAAAACTAGAGCTAATAGGTCTCTTATTCATTTTCTTAGGCATTTTTGGAAGTGGAGCTAGTGCCATAAGTGATGGAGCTATACCAGGGGGCCTTGAGCACTTATTTCGCTTCTTTTTAGGGATTTGGTATTTTGTTGCATCGGTTTTTTTATTAATAACAGGTATTAAATTAGTAGTAAAACGGAAATTACCTAACTTTGCAACAAAAAGAATGGTTGGCTTTTATATTATATTTGGTGGCGTATTACTCATGACACACACACAAATGTTTGATGAAGTAATTGCATCCACTCAAGAAATATCAATACTTGGATCGACTTGGGAAAATTACTCTAGTTATATGGAAAATCAACTATCATCCGAATATTTAGGAGGAGGAATGACTGGAGCTTTATTGCTTACCTTTTCCTATTACTTATTTTCCTTAACAGGTGCTAAAATTGTAGCTGTTTTTTCCATTATTATCGGTATTATTTTTATGACTGATTTATCAGTAGGCGATGTGTTTTCTAAAATGTGGAAGTGGATTGCAAGTAACGTAAAACACTTGCAAGATACATGGAGGCAAAAACGAACTGCGAAACGTTCCATAAAAGAAAACGAACCTAAATTTGAACAAAATGGCGAAGAGATTACTGAGCATGTTATCTCAGAACCTGTGATTCAAGATTTTACAGACCATACTACGGTAAATGAACAATTTCCTGAAGAAACAGAACAAATTTCTATGGTTCAACAAGAGGAAAAAGCAAATGATAGTTTAGATAATATGCCGATGACGGAAGTAGAAAACTATGAATATATTCTTCCTTCTATGCAATTATTGGCAGAGCCAACAAACAATTCGCAGCAACAGGAAAAATCGCAAATTCAAGCGACGGTTAAAAAATTAGAGAGTACATTTACTAGTTTTGGAGTAAAAGCGCGTGTTACGAAAGTGCATGTAGGTCCAGCGGTAACGAAATATGAAATATATCCAGAAGCTGGTGTAAAGGTGAGTAAAATAGTTAATTTACATGATGATTTGGCATTAGCCCTAGCTGCAAAAGATTTAAGGATAGAAGCACCAATTCCAGGGAAATCTGCGGTCGGAATCGAAGTTCCAAATCAAGAAGTAGCCATGGTATCTTTACGAGAAGTGCTAGAGAGTATCGCACAAAAACAATCTTCTAAACTACTATTTGCTCTTGGCAGAGATATATCCGGAGAAGCAATCGTTGGCGAATTAAATAAAATGCCACATTTACTTATCGCAGGTGCTACAGGAAGCGGGAAAAGTGTCTGTGTAAATGGGATAATTACTACTATTTTAATGCGTGCTAAACCACATGAAGTGAAGATGATGATGATTGACCCTAAGAAAGTTGAATTAAATGTGTATAACGGTATTCCACATTTACTTGCTCCCGTTGTAACGGATCCGAAAAAAGCTTCTCGAGCTCTACAAAAAGTAGTTGCAGAGATGGAGCGACGATATGAACTTTTTTCCGATACAGGAACACGTAATATTGAAGGATACAATGAATATATTAGAAAACATAATCAACATGTTGAAGATCCAGAGCCGAATCTTCCATACATCGTCGTGTTAGTAGATGAATTAGCAGACTTAATGATGGTAGCTTCAAGTGATGTGGAAGATGCAATTACTCGATTAGCTCAAATGGCACGTGCTGCGGGAATTCATCTCATTATTGCCACCCAGCGTCCATCTGTAGACGTTATTACAGGGGTAATTAAGGCGAATATTCCTTCTAGGATTGCCTTTAGTGTATCTTCGGCAACAGATTCTAGAACCATCTTGGATAGTGGCGGAGCAGAAAAGTTATTGGGAAGAGGAGATATGTTGTTTATCCCGGTTGGATCTTCTAAGCCAACTCGTGTACAAGGTGCTTTTCTGTCTGATGAAGAAGTTGAACGCGTAGTAGACCACTGTATTGAACAGCAAAAGGCGTCTTATCAAGAAGAAATGATTCCAGAAGAAGTCAATGAGGTTGCAGAAGAAGTAGACGATGAATTGTATGATGATGCTGTTCAATTAATCACCGAAATGCAAAGCGCTAGTGTATCTATGTTACAGCGCCGCTTTAGAATTGGTTATACTAGAGCGGCAAGGCTAATTGATGCCATGGAACAAAGAGGTATTGTTGGTCCGTATGAGGGGAGTAAGCCACGTACAGTTCTTATCAGTCAAACAGCTGAAGAACATACTTCTTCACATTAA MARKKKRRSSKLKKQLKLELIGLLFIFLGIFGSGASAISDGAIPGGLEHLFRFFLGIWYFVASVFLLITGIKLVVKRKLPNFATKRMVGFYIIFGGVLLMTHTQMFDEVIASTQEISILGSTWENYSSYMENQLSSEYLGGGMTGALLLTFSYYLFSLTGAKIVAVFSIIIGIIFMTDLSVGDVFSKMWKWIASNVKHLQDTWRQKRTAKRSIKENEPKFEQNGEEITEHVISEPVIQDFTDHTTVNEQFPEETEQISMVQQEEKANDSLDNMPMTEVENYEYILPSMQLLAEPTNNSQQQEKSQIQATVKKLESTFTSFGVKARVTKVHVGPAVTKYEIYPEAGVKVSKIVNLHDDLALALAAKDLRIEAPIPGKSAVGIEVPNQEVAMVSLREVLESIAQKQSSKLLFALGRDISGEAIVGELNKMPHLLIAGATGSGKSVCVNGIITTILMRAKPHEVKMMMIDPKKVELNVYNGIPHLLAPVVTDPKKASRALQKVVAEMERRYELFSDTGTRNIEGYNEYIRKHNQHVEDPEPNLPYIVVLVDELADLMMVASSDVEDAITRLAQMARAAGIHLIIATQRPSVDVITGVIKANIPSRIAFSVSSATDSRTILDSGGAEKLLGRGDMLFIPVGSSKPTRVQGAFLSDEEVERVVDHCIEQQKASYQEEMIPEEVNEVAEEVDDELYDDAVQLITEMQSASVSMLQRRFRIGYTRAARLIDAMEQRGIVGPYEGSKPRTVLISQTAEEHTSSH PGPT0030468_6907 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 AK015_00487 219 hypothetical protein ATGATTATTTATACACCACTATCAAAAGAAGATATTTTTTATACCTCCCAGGAATACACGGAAAGACAAATGATTTCATACAATGGCAAACCATTATATTGTGAAAAAAGAGCAGATGGATCCTTAGAAATTGTTAAATTATTATCAACCGATCCAAAGGACTTTTTAAATCATCAGTTTTCCCCCGGTACGATTATTTCTCAGATGAATGAAAACTGA MIIYTPLSKEDIFYTSQEYTERQMISYNGKPLYCEKRADGSLEIVKLLSTDPKDFLNHQFSPGTIISQMNEN NA NA NA NA NA AK015_00488 729 tepA COG0740 Translocation-enhancing protein TepA ATGGATAAACAGCCAGAAAAAAAGGACGATCAAACGCAAGATAATAATTCCTCTGCTTTAGTGCAAAAGATTCAACAACTAGGACAATCTAATGTACCACAAGCGCCAGATTCAAATATACATGTGCTTTCCATTATCGGACAAGTAGAAGGGCATGTACAACTCCCACCACAAAACAAAACAACAAAGTATGAGCATTTATTGCCACAATTAGTTGCCATTGAACAGAATCCGAAAATTGAAGGTTTAGTTATCTTATTAAATACGGTTGGTGGTGATGTCGAAGCGGGGTTAGCCTTATCTGAAATGATTACTTCTATATCTAAACCTACAGTCTCGATTGTGCTTGGAGGAGGTCACTCCATTGGGGTGCCTATAGCTGTTGCTACGGACTATTCTTTCATTGCACCGACTGCTACGATGACGATACATCCAATTCGTTTAACAGGTTTAGTTATCGGTGTACCACAGACGTTTGAGTATTTGGATGAAATGCAAAATCGTGTGGTTGACTTTGTCGTAAATCATTCTAATATAACAGAGGAAAAATTTAAAGATTTAATGTTTGCAAAAGGTAATTTAACACGTGATATCGGTACAAATGTTGTTGGGAAAACAGCAGTAGAATATGGCTTAATTGATGATGTTGGCGGTGTTAAAGAAGCAATGAAAAAAGTGAATGAATTGATTAAGCAAAATGGCAATCACGAACAGCAGGTGATGCAATGA MDKQPEKKDDQTQDNNSSALVQKIQQLGQSNVPQAPDSNIHVLSIIGQVEGHVQLPPQNKTTKYEHLLPQLVAIEQNPKIEGLVILLNTVGGDVEAGLALSEMITSISKPTVSIVLGGGHSIGVPIAVATDYSFIAPTATMTIHPIRLTGLVIGVPQTFEYLDEMQNRVVDFVVNHSNITEEKFKDLMFAKGNLTRDIGTNVVGKTAVEYGLIDDVGGVKEAMKKVNELIKQNGNHEQQVMQ PGPT0014595_944 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358 NA NA AK015_00489 876 dapA_2 COG0329 4-hydroxy-tetrahydrodipicolinate synthase ATGAACTTTGGTAAAGTGTTAACTGCAATGGTCACACCCTTTGATTTAAATGGAAATATTGATTATACGCAGACAGATGCACTTATTGAACACTTGTTGCAAAATGGTACAGAGGGTTTAGTCATTGCAGGAACAACAGGTGAATCACCAACTTTAACTTCTGAAGAAAAAGTGAGTCTGTTTAAACATGTCGTTGGTCAAGTAAATAAACGCGTTCCTGTTATTGCAGGGACTGGAGGGAATAACACGCAAGCTTCGATAGATTTAACCAAGGAAGCAGAACGTTGTGGTGTGGATGCGGTGATGCTTGTAGCACCGTATTACAATAAACCAGATCAACGTAGTCTATTTGCACATTTCAAAACTGTAGCTCAAAGCACATCGCTACCTGTGATGCTCTATAATATACCAGGAAGATCGATTGTAAATATAACCACGGAGACAACTGTAGCGTTAAGTAAAATAGATAATATTGTTTCTGTCAAGGAAGCTAGTGGTGATCTTGATCAAGTGTCTCAAATAATTGAGCTAACAGATGATTCGTTCTCTGTATATAGTGGTGACGATAGTATGACATTACCAATATTGTCTGTTGGAGGTACAGGTGTTATTTCGGTAGCTTCTCATGTGATAGGAAATGAAATGCAGCAAATGATTCAATTGTTTGAAGAAGGAAGCACGTGTCAGGCAGCTAAGCTTCATCGTCAATTGTTGCCTGTTATGAAAGGGTTATTTATGGCGCCTTCTCCTTCACCTGTAAAAGCTGCCCTTCGCATAAAAGGAATAGAAGTTGGTGGTTTGCGTTTGCCACTACTTGAACTATCGCAGCAGGATAAAGATAAATTAACAACGATCTTAGAAAATACCGGTATATAA MNFGKVLTAMVTPFDLNGNIDYTQTDALIEHLLQNGTEGLVIAGTTGESPTLTSEEKVSLFKHVVGQVNKRVPVIAGTGGNNTQASIDLTKEAERCGVDAVMLVAPYYNKPDQRSLFAHFKTVAQSTSLPVMLYNIPGRSIVNITTETTVALSKIDNIVSVKEASGDLDQVSQIIELTDDSFSVYSGDDSMTLPILSVGGTGVISVASHVIGNEMQQMIQLFEEGSTCQAAKLHRQLLPVMKGLFMAPSPSPVKAALRIKGIEVGGLRLPLLELSQQDKDKLTTILENTGI PGPT0002080_8422 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714 NA NA AK015_00490 1227 lysC Aspartokinase ATGGAAATACTCATTCAAAAATTTGGTGGTACTTCGGTACAGTCACAAGAAAACCGAGACCATGTAATTAAACATATAAAAGATGCTTTAGTAAAAGAATATAAACTTGTAGTTGTCGTTTCTGCATTAGGCAGAAAACCTGATCCTTATGCTACAGATACGCTACTCAGTCTGGTAGATTTTCCGGCGAATAAAAATGCTTCACGAGAATTGGATATGCTCATGTCGTGTGGTGAGATTATTTCATCCGTTGTACTTTCTAATGAATTACAAAAGCAACATATTACTGCAACGGCTCTAACTGGCTCACAAGCAGGATTCATTACAACAGATGACTTTACAGAAGCAAAAATTAAAGAAGTAAAGCCAGAACGAATCTTGCAAGAATTAGAAACGCATGATGTGGTAGTTGTCGCAGGTTTTCAAGGAACTACTACATCTGGTGACATTACGACAATAGGACGTGGTGGAAGTGATACAACAGCTGCAGCATTAGGTGTTGCTTTATCAGCTGAGCGGATTGAAATATTCACAGATGTAAATGGTATTATGACTGCTGATCCACGGGTTGTTGAAACAGCAAGACCACTTGATGTAGTTACGTATTCTGAAATTTGTAACTTGGCATATCAAGGAGCAAAAGTCATTCATCCCCGAGCAGTAGAAATTGCTATGCAAGGGAAAATTCCTATGCGTGTGCGTTCTACCTACTCCAAAGATGAAGGAACGCTTGTTACGTCTTCACGTGTAGAAGGGATGGACATTATTGATCGATTAATTACTGGAATTGCACATATGGATGCTATAACTCAGATTCAAGTACAAACGAAAGAGGCAGCATTTGGGATGCAGTCAGACGTATTTAAAGCAATGGCTGAAGCAGGGATTTCTGTTGATTTCATTACCATTTCACCTACAGGGGTGATCTATACTGTACCAAATGCTTACACAGAAAAGGCTGTACACATATTAAACACGCTTGGATTTGAACATGAAATTACTGAGAACTGTGCAAAGGTATCAGCTGTAGGAGCTGGCATGACTGATGTTCCTGGTGTTGCTGCAAAAATTGTGCAAGCATTGACTGATGCGAATGTGCAAATTCTGCAGTCAGCAGACAGTCATACAACCATTTGGGTACTCGTACATGAAAAAGATTTAAAAGCGGCAGTAAATGCATTGCATGAAGCTTTTGAATTGAGTCACATAATCAACTCCGCACAATGA MEILIQKFGGTSVQSQENRDHVIKHIKDALVKEYKLVVVVSALGRKPDPYATDTLLSLVDFPANKNASRELDMLMSCGEIISSVVLSNELQKQHITATALTGSQAGFITTDDFTEAKIKEVKPERILQELETHDVVVVAGFQGTTTSGDITTIGRGGSDTTAAALGVALSAERIEIFTDVNGIMTADPRVVETARPLDVVTYSEICNLAYQGAKVIHPRAVEIAMQGKIPMRVRSTYSKDEGTLVTSSRVEGMDIIDRLITGIAHMDAITQIQVQTKEAAFGMQSDVFKAMAEAGISVDFITISPTGVIYTVPNAYTEKAVHILNTLGFEHEITENCAKVSAVGAGMTDVPGVAAKIVQALTDANVQILQSADSHTTIWVLVHEKDLKAAVNALHEAFELSHIINSAQ PGPT0014040_5060 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928 NA NA AK015_00491 1053 asd COG0136 Aspartate-semialdehyde dehydrogenase ATGTCGCAAAAATCAGCCTATAATGTAGCTGTGGTTGGAGCAACAGGCGCAGTTGGTCATAAAATACTGGAATTATTACAAGAGAAAGATTTTCCAATAAATAAATTGAAGCTTTTATCTTCCAAACGATCTGCTGGTTCTAAACAGGTTTTTAACCAAGAGGAAATCATGGTCGAAGAAGCAGTACCTGAAAGTTTTGAAGGCGTTGATATTGCTTTGTTTTCAGCGGGTGGTTCAGTTTCTAAAAAGCTCGCTTCAGAAGCTGTGAAACGTGGTGCAGTAGTAATTGATAACACAAGCGCCTTTCGTATGGATGAGTCTGTGCCACTTGTAGTTCCTGAAGTCAACAAAGAAGACTTAAAAGATCACCAGGGAATTATTGCTAATCCAAATTGCTCTACCATTCAAATGGTGGCAGCGTTAGAGCCACTAAAAGCTAAATTTGGTTTAAGACGTATTATCGTATCCACTTATCAAGCCGTTTCAGGTGCAGGTAATGAAGCATGTGATGAGTTAGCGAATCAGTCACAAGCTTATTTGTCTAATGAAGAAATGAAAGCAACTATCCTCCCTGTTAAAGGAGATGAAAACCATTTTCCAATTGCATTTAATGCACTACCACAAATTGATCTCTTTCAAGAAAATGGTTATACTTTTGAAGAATTAAAAATGATTAATGAAACGAAGAAAATTATGCATGCACCAGACCTATCAGTGGCTGCAACTTGTGTACGTTTGCCATTCTTTACGTCTCATGCAGAAAGTGTATATATTGAAGTAGAGAATGAAGATGTAATGGTAAAGGACATTTGGGAAGTGTTACAGCATGCAGAGGGGATCGTGTTGCAGGATAATCCAAAAGAGCAGATTTATCCAACACCTTTAGCTGCAGAGGGTAAACAAGATGTATTTGTTGGTAGAGTTCGCAAGGATTTAGACAATAAACACGGGTTCCATCTATGGATTGTATCTGATAATTTATTAAAAGGCGCAGCTTGGAATACGGTACAAATCGCCCAAGAGTTAATTCAAAATAATTGGTTGCAACGATAG MSQKSAYNVAVVGATGAVGHKILELLQEKDFPINKLKLLSSKRSAGSKQVFNQEEIMVEEAVPESFEGVDIALFSAGGSVSKKLASEAVKRGAVVIDNTSAFRMDESVPLVVPEVNKEDLKDHQGIIANPNCSTIQMVAALEPLKAKFGLRRIIVSTYQAVSGAGNEACDELANQSQAYLSNEEMKATILPVKGDENHFPIAFNALPQIDLFQENGYTFEELKMINETKKIMHAPDLSVAATCVRLPFFTSHAESVYIEVENEDVMVKDIWEVLQHAEGIVLQDNPKEQIYPTPLAAEGKQDVFVGRVRKDLDNKHGFHLWIVSDNLLKGAAWNTVQIAQELIQNNWLQR PGPT0014045_2456 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133 NA NA AK015_00492 240 dpaB_1 COG0452 Dipicolinate synthase subunit B ATGCGTAATCAACAACCTGTAGTAGTGGGTGTTTCTACAAACGATGCACTTGGTTTAAATGGAGTTAATCTAATGCGTTTAATGGCTAGTAAGTTTATTTACTTTGTTCCATATGGGCAAGATGATCCTTATTTAAAGCCAAACTCACTTGTTGCAAAAATGGAATTAATACCAGAGACTATTGAATCTGCACTTGAATTTAAACAACTACAACCAGTTATTGTTCCTCATCGAAGCTGA MRNQQPVVVGVSTNDALGLNGVNLMRLMASKFIYFVPYGQDDPYLKPNSLVAKMELIPETIESALEFKQLQPVIVPHRS NA NA NA NA NA AK015_00493 153 hypothetical protein ATGGAGGAATATGATGTCATAGAAATAAAAGGAAAGCATGGCATGATTAATCTTCACATCCCGAAGAAAGAACCAACAAAAGATGAGATAAAAGATGTGTATGAAGCTGTCGCAACAATTGCCCTTAATAATAGGAAGAAACCCGCTGAATAA MEEYDVIEIKGKHGMINLHIPKKEPTKDEIKDVYEAVATIALNNRKKPAE NA NA NA NA NA AK015_00494 444 hypothetical protein TTGAGTTTTGAACTTCCCGAATTAGATAGAAAGGCAACACAAAAGGCAGTGGAAGCTGCATTGGAAAAATATCGCATATATAAATACTTAACCTTTGAGCGAGAAGCGTCTACCACATCACACATTGATGATATAGGTGGAGGAAAAAGCAATATACCTGGTGACCAGACAGGCAGTATTGCAGTACACAATGTTTCCGAACAGGAACGAATCAGGAAGTATTGTGAACGAATAGAGCGATCTGTGAAACGATTGCCGAAAATGGAGCGGTTCCTTATAGAAGAAAGGTACATGTCGGAGGAAGCTGAGTACTTAACAGATTATAATGTGTACTGTTTTAAGTTTCAGCCGCCTATTTCAGCAATGACATACTCCAATATTAGATGGAAGGCTTTTTATAAGCTGGCATTAAATCTAAATATAGCAGTAACAATTTCTGAATGA MSFELPELDRKATQKAVEAALEKYRIYKYLTFEREASTTSHIDDIGGGKSNIPGDQTGSIAVHNVSEQERIRKYCERIERSVKRLPKMERFLIEERYMSEEAEYLTDYNVYCFKFQPPISAMTYSNIRWKAFYKLALNLNIAVTISE NA NA NA NA NA AK015_00495 489 hypothetical protein ATGTCAAAAATAGAATTGAGCGTACTGTTTAAGAAAATGCAAAAGGATGACAAAAAAGAGATACTGGAATTTCATGTGCAAGGCGATGAGCTCCGACACTCAGACGAACTTGTTCAACTTGCTGGGAATATAGCATTACTAGAGGTCAAAAACAGCGAAGTGGACAGAATAACAGCTGAGTTTAAAACCTTACAACGTGATAGCAAAAAGACTGTACTCAAGTTTAACGTTAAAGGCGATAGCGAGATCATTAAGCTTTACACGCTTGCTGGCAGTCATGTTGATTTATTATTAGAGCCATCGCAAATGACGATAGATGAGTTTGAACAAATGGATCCACATGAGGGCATTGATTATAGCATAAATAATGATGGAACGGTTGAAGTAGTGGAAGGTCAAGTCAGCATGGATGATCTTCCTACAGGCGAGCCTGATGAAGTTACTTTTGATGATCCTGATTTAAGCGACCCAGACTTATTGCTAGATTAA MSKIELSVLFKKMQKDDKKEILEFHVQGDELRHSDELVQLAGNIALLEVKNSEVDRITAEFKTLQRDSKKTVLKFNVKGDSEIIKLYTLAGSHVDLLLEPSQMTIDEFEQMDPHEGIDYSINNDGTVEVVEGQVSMDDLPTGEPDEVTFDDPDLSDPDLLLD NA NA NA NA NA AK015_00496 531 hypothetical protein ATGAGGTACGTAGGAATAGACCCAGCCAGTAAAACAGGTTTTGTTGCTTTATCAAAAGATGGCCAAGTTTTAAAGGCTAAGGAGCTTACCGGTATTGGTGATAAAGACCCAAAAAGGATGACAACTCTTATAAACGACATTGTTACGCATGTACAAAAAACAGATATTATTTGCATAGAGGGTATGCCTTTTAATACGCAACGAGCCATGTTTGCAGGAGGTTTGCATCACGGCATAAGAAACGAATTGTACAAGCAAGGCATCCGTTACTACGAGGTTGCCCCAAATGCAGTTAAAAAGTTTGTACATGTAACAGGTTGGAAAGGGGAGCCTGGCGATAAAAAGCGCCTAAAAGGTAAAGAAAAGAAACAAGCTGTAATGGACGCCGTTAAAGAGCATTATGGTTTTGTGCATAGTAGCGACAACATTGTCGATGCCTATATTATGGCTCAAATAGCCAAAGCATTAGTGGAAAGAAAAGTTGCCCATAGTTATCAAGCTGAGGTTTTACATAACGTTAAAGCCGGATAA MRYVGIDPASKTGFVALSKDGQVLKAKELTGIGDKDPKRMTTLINDIVTHVQKTDIICIEGMPFNTQRAMFAGGLHHGIRNELYKQGIRYYEVAPNAVKKFVHVTGWKGEPGDKKRLKGKEKKQAVMDAVKEHYGFVHSSDNIVDAYIMAQIAKALVERKVAHSYQAEVLHNVKAG NA NA NA NA NA AK015_00497 165 hypothetical protein ATGAAACTAAACAAGTTTGAAAAGCTACTTAATGTGCTCCCGATGAAAAAGTTTAATTGCGACAGCTGTAAAATCGGCTTTTATATGCAAAGAGGAGAAGCGCGTTACTCTAAGAGGAAATATAAAGGTCCATTTTGTGATAAGTGTGGTGAAAAAGCACGATGA MKLNKFEKLLNVLPMKKFNCDSCKIGFYMQRGEARYSKRKYKGPFCDKCGEKAR NA NA NA NA NA AK015_00498 360 hypothetical protein ATGACTGATAAAGAAAGGTTGGAAGAGGTGAAAGGTGTTGTTAGCACATGGAAAACAATTCTATCAGAGGGTAAGTTCCCGAATATTACATCAGAAGAAGTTGAGTTAGTTGAAACGCTTATCATTGAACGTATGCAGGAGTTGGAAAGTAAAAATAAACTATTAAAAAGTAACCTAAGTGTGGTTCAAGGTTATTACAAAAATATGATTAAAATTAACAAAGATATCGTAGAACAAAACCAACAGTATCGTGAAGCAATAGAAAAAGCGTCTAACGAATTAGCCTGGGGAGACGCAGAGAATGCTAGTTTAAGAGCTTACAGGTTTTTATATAGGGCATTGAGAGGAGAATCACAATGA MTDKERLEEVKGVVSTWKTILSEGKFPNITSEEVELVETLIIERMQELESKNKLLKSNLSVVQGYYKNMIKINKDIVEQNQQYREAIEKASNELAWGDAENASLRAYRFLYRALRGESQ NA NA NA NA NA AK015_00499 177 hypothetical protein ATGAATCCAATAGAAGAACTACACAAAATCGCACATTTGGTTCCAATGCAAGTATTAATGGATATTGATAAAAGAATTACTGACTGGATAGCTGCAGGCGGTAACGAAAATGATCCATATATTAAGCAGCAAGTGAGATTTGCAAAACGGTTTGTGAAGGAGAATCAGAATGACTGA MNPIEELHKIAHLVPMQVLMDIDKRITDWIAAGGNENDPYIKQQVRFAKRFVKENQND NA NA NA NA NA AK015_00500 303 hypothetical protein ATGATTAACAAATCAATTAACCAATTATGCGAAGAAGCATTTAATATAGCCAAGTCCAAAGGATGGCATGATGAACCAAGAGAAACTGGTACTTTACTTGCATTAATCCATAGTGAGGTATCAGAAGCATTAGAAGCTGACCGAAAAGGTAATCAGGAAAATTTTGAGGAAGAACTGGCCGATGTATGCATTCGTATCTTTGACCTTTGTGGTAGCAAGAATATCGACTTAGAGGATGCCATTCACACAAAAATGGAACGGAATAAAGGCAGAACATACAAGCACGGAAATAAGGCTTATTGA MINKSINQLCEEAFNIAKSKGWHDEPRETGTLLALIHSEVSEALEADRKGNQENFEEELADVCIRIFDLCGSKNIDLEDAIHTKMERNKGRTYKHGNKAY NA NA NA NA NA AK015_00501 225 hypothetical protein TTGAAACAAAGAGTAATCAGCTTTCAAGAAGCTATGACTATAAATTTATTTAAAGCAGTCGCGTATTGTCATCAGTATAGAAACGGCGATAGCGATGAGGTTTGGTTTCCTCGTAGATGTCTATGGGATAAGAAAATATCTAAACTGCCAATCCACAATTATTCATTAGGCGATTTATTTAATGGTAAGTGGATTGTAGACGAAAAGGAGAACAAAAATGATTAA MKQRVISFQEAMTINLFKAVAYCHQYRNGDSDEVWFPRRCLWDKKISKLPIHNYSLGDLFNGKWIVDEKENKND NA NA NA NA NA AK015_00502 1293 dnaB_1 COG0305 Replicative DNA helicase ATGAGTTTGACTGGAACAATTGAAGATTTATCTGCTGAACAATCGGTGCTAGGTGCTGTGTTTCTTGATTCTAATGTACTTGATGACATTGCGTTTTTAGAGGATAGGGATTTTTTAAACCAAAGACACCAACAAATCTACAGAGTAATGCGTTGGCTAGATAAACGTAACAAGCCTGTTGATGTTGTGACAGTTACAGAAATGTATGTGCAACATAATCGAGCGGACGAACTAAGTGTTACGTATCTAACTGAACTGGCAGAATCTTGCCCTACTACAGCGAATGTAGTCCACTATGCAAATATAGTAAGGTCTAAGGCAATTCGACGAAGAGGTTCAGAGATAGGTAATAAAATCACCGAATTGTCTAGGGAAGATTTTGAAACGGATGAGGAATATTTTTCGGCTGTTGAGTCCTTGGTTGCAGAAATGCGTCCTGATGATAATGGAAGGATGAAAAGTTTAGCCGAAACCAGGCAGAAGTATTTTGAGCACTTGTTGTCCAAAGAAATTACCTATATTGAGTCAGGCTTTCCTCAATTTGATGGATGGGCTAAGGGATTATACAGAGGGGATTTGTTTATCTCAGCTGGTCGTCCATCTGTAGGTAAAACAGCCATGTTATTACAGCGAGTTATAGGAGTTGCCGAGAGTGGCCCTGTTCTTATTTGGTCGCAAGAAATGGATGAAGATCAGCTGAAAGATCGAATGATCTCTAATATAACTGGCATTCCGTTCAATCGCATCAGAAACAAGGAACTTAGCCCTAAACAGTATGCCGAAGTCGAAGAAGCGTACAACCGATTGGAACAGCTCACGATCTATATACAGGATAGCAGTGGAGTAACCATTGAGGAAGTGCGATCTACAGCTCGTAGATTTAAACGTAAACATGGTGATCTTGCAATGGTAGCTGTGGATTATCTACAAATAATGAAGATTCCTCAGCCGAAAGGGAGGACAAGAGCCGAAGCAATCGGAAAAGTAACTCAAGCTGCCAAACAACTAGCTCGTGAGATGAAATGTGTGTTTATGATGCTATCCCAAATGACTAGGGATAGTGACAAGAATCCAAAAAAGCCAACTCTTTCAGAATTAAAAGAGTCTGGCTCAATTGAACAAGATGCGGACGTAGTAGAGTTTTTATGGCTTGACCCTAACGACACAGAGCAGCAGGGAAAGGTAGTGCAACAGTTTATAGCTAAAGGGAGGAACACAGGATTAAATGAATTCCGTCTCTTGTTTAGAGGATGGAAACAGCAATTTACTGAGTTGGATAAGAAAAAATCTTAG MSLTGTIEDLSAEQSVLGAVFLDSNVLDDIAFLEDRDFLNQRHQQIYRVMRWLDKRNKPVDVVTVTEMYVQHNRADELSVTYLTELAESCPTTANVVHYANIVRSKAIRRRGSEIGNKITELSREDFETDEEYFSAVESLVAEMRPDDNGRMKSLAETRQKYFEHLLSKEITYIESGFPQFDGWAKGLYRGDLFISAGRPSVGKTAMLLQRVIGVAESGPVLIWSQEMDEDQLKDRMISNITGIPFNRIRNKELSPKQYAEVEEAYNRLEQLTIYIQDSSGVTIEEVRSTARRFKRKHGDLAMVAVDYLQIMKIPQPKGRTRAEAIGKVTQAAKQLAREMKCVFMMLSQMTRDSDKNPKKPTLSELKESGSIEQDADVVEFLWLDPNDTEQQGKVVQQFIAKGRNTGLNEFRLLFRGWKQQFTELDKKKS NA NA NA NA NA AK015_00503 771 hypothetical protein ATGGCAAATCCTCAACTGCATAACGGGCATACTCGGATTGCCAATGAAATTTTAAATCAGATTATGAAGACCAATCTCAATGGAACGCAATTTCGTTTAGTCATGGCCATATGGCGTTTCACCTATGGCTTTCAACGAAAAGAATATGAAATGTCGGTCAGTTACTTGGCTAAACAGATAGATACCAGTAGAAGCCACGTTGACAGAGAGTTGAAAGCATTAATTGATAGAAACGTTATATCTGTAACTGGGATTGGTCAAAAGGGGGCTCGAATCTTGTCTTTTAACAAGAATTACAAAGACTGGACAGAAAAAGAACCAGTAAAGGAAACTGTGCCGGAAATTAAACCAAAGAAAAAAGCAACTAGTAAACCAAAATACACCGAAGATAACACCTATTTCAAAATGGCCACTTACTTTTATAAAAAGGTTGAAAAGGTAGCTCAAGATGCAGGCTTACCGCATTTAACTAAAAAGGCCAATATGCAATCCTGGGCTGACGACATGCGTAAGTTAATAGAGATTGACCAGGTAGACAAGCGATTGGCCAAAGATGTGATGGATTGGGTGGTACAAGATCCATTTTGGCGCACAAATGTCTTATCGGCTAATAAATTGCGAAAACAATTCCCGCAACTAGCAATAAAAATGAAAGCCGAAAAAGAGCCTGCTAAGCCTAAGCAACGAAAAGATCCTAGAGATAAAGAGATCGCTCTTCAACAATGGATTGCAGAAGGGAATGACCCAGATGAGTTTGACTGGAACAATTGA MANPQLHNGHTRIANEILNQIMKTNLNGTQFRLVMAIWRFTYGFQRKEYEMSVSYLAKQIDTSRSHVDRELKALIDRNVISVTGIGQKGARILSFNKNYKDWTEKEPVKETVPEIKPKKKATSKPKYTEDNTYFKMATYFYKKVEKVAQDAGLPHLTKKANMQSWADDMRKLIEIDQVDKRLAKDVMDWVVQDPFWRTNVLSANKLRKQFPQLAIKMKAEKEPAKPKQRKDPRDKEIALQQWIAEGNDPDEFDWNN NA NA NA NA NA AK015_00504 330 hypothetical protein ATGGTTGTTAGAGTGCCGAAAGAAGTTGCTGAAGCCTTTGATTACTTTAAGAGAGTTTGCCCAAATGAAGATATTCGTAATTTAACGCTTATGGCCATCCCGTATTCTGCAATAAAAGGTAAGGGACGCGTCTTAAAAGAGTTTGCTCAAAGTTATCCTACGGATTATATAAAAGCCATAAGCAATGGTTATCTGCCTATTGTAGATGTTCAAAAGGAAGTAGAGGACATGATAAACGAATGGCTTGAAAAACCATATGTAGATGGTGAAAAGAAGGATATTGAAAGATTTGCAGCTATGATAACCAATTATTTTCAACAACAAACGTGA MVVRVPKEVAEAFDYFKRVCPNEDIRNLTLMAIPYSAIKGKGRVLKEFAQSYPTDYIKAISNGYLPIVDVQKEVEDMINEWLEKPYVDGEKKDIERFAAMITNYFQQQT NA NA NA NA NA AK015_00505 756 yycJ_1 COG1235 Putative metallo-hydrolase YycJ ATGAAAGTAAACATACTAGCTTCCGGTTCTAGTGGCAACTGCATAGCCTTAACAAGTGGCAAATCTACCATTCTAGTGGATGCAGGCATAGCTAAAACAAAGATTGAAAAACGGCTGCTTGATGTAGGGATTGTGCCAACGAATGTAGTTGCTATCTTTATCACTCATGCCCACAAAGACCATACAAAAGGATTGCCGTTGGCTAATAAGTACAATATTCCTGTGTACGCAGGAGAAGAAGAATGGAAGGACATTCAAAGCGTTGGTAATGACTTAGTAAGTTTTATTGATCAGGAAAGTGTTCTGTTTGATTACGAGGGTTACAATCCTTGGATAGAAATTATTCCATTCGATGTTCACCATGATGCATACGAACCAAAGGGTTACGTTATTCAAAGTGAAAACAGCAAAATTTCTATTTGCTTGGACACAGGAAAAGTAGATAGAGAAATGATTCAAGCTATGCAAGATTCTAGTGTTTATATAATCGAGAGCAACCACGAACCACGTATGGTAGAAGCATCTACTTATCCAGATAGTGTAAAGGCTCGAATCTTATCAGATGTAGGACATTTATCCAATAAACAAACAGCAGATACCTTATCTAAGCTCGTTCAGGGCAAGAATGAGCGAATCTATTTAACACACTTGTCAAGTAATAACAACATGCCAGCTCTAGCCGAAATGACCACAGTTAGAGCGTTAAAACAAAAAGGCTTAGATCGAGATAAACATTATAAATTGGAGGTTATATAG MKVNILASGSSGNCIALTSGKSTILVDAGIAKTKIEKRLLDVGIVPTNVVAIFITHAHKDHTKGLPLANKYNIPVYAGEEEWKDIQSVGNDLVSFIDQESVLFDYEGYNPWIEIIPFDVHHDAYEPKGYVIQSENSKISICLDTGKVDREMIQAMQDSSVYIIESNHEPRMVEASTYPDSVKARILSDVGHLSNKQTADTLSKLVQGKNERIYLTHLSSNNNMPALAEMTTVRALKQKGLDRDKHYKLEVI NA NA NA NA NA AK015_00506 267 hypothetical protein ATGAAATATTGGGAAATCCATGAACCATATTACGCATTGGTAAAAGCTAGTGATAAAAATAGAGCTATGAAAAAGTATGTTGAAGCTGTAGCAGACGATGATGGTACTTTAAAAGAAAATGTTGAAGAAGTCAGTCAAGAATACGCATTAGCAAGGTTTAGTAGAGCTCCGGGGGAAGATAGAACTTTGCAACCAATATCTGATGTCGTCGATGAATTTATAAAACAAGAAGATGAAGTGTTGATAATAGATGGCGCTTTAATTTAA MKYWEIHEPYYALVKASDKNRAMKKYVEAVADDDGTLKENVEEVSQEYALARFSRAPGEDRTLQPISDVVDEFIKQEDEVLIIDGALI NA NA NA NA NA AK015_00507 885 hypothetical protein ATGGCTAATCAAATCGTTGCAACTAATACAGGTGAACTAACTCAAGAGGATGTACAAACGCTAAAACATACAATTGCAAAGGATCTAAACGATTCGCAGTTCAAATTATTCCTATCTATGTGCGAAAAAACAGGAGCTAATCCAATTGTAAATGAGATCCACCCAAGCGTTTTTAAAGGTCAAATGACAGTTCAGTTTGGATATGATTTTTACATTAGAAAAGCCAAAGAAGCTGATGGGTATTTAGGGTACGACATTCAATTAATCCACGAAAACGATGAATTTAAGGTTGGTCGTAAAACAGACGATAGTCGCTCTTACATGGCAGTAGAACAGCATGAAGTTACATTTCCAAGAGGTAAAGTTATCGGTGGCTACGCTATAGCCTACCGTGAAGGAGTTACACCTTTTATGGTGCTTATGGAAGCTGATGAGGTCGATCACTTACGTAAATCAAATATAGGTATGCAAAAAACAATGTGGAATAACTATTTCAGCGACATGTTCAAAAAGCATATTTTAAAACGTGCATTAAAGAGCCAATTCGGCTTGGAATTTGATGACCAGCCAGTTGAAGCAGCGACTAATGAAATTCCTGATTACAAAAAGGAGCGGAAAGACATCACTCCTTATCAGGAAACTGTCGAACAGCCAAAAGAAGAACAGGAAGATAAGATGGCTGGTTTACGTCATCAAATGAAACAGAAATTTACTCAACTCGGCATTTTAGACAATACAGGAATTAACGCTTATCTCGAAAAGCATCAAGTTAAATTCAGCACTCCTCCAACTGAGGCGGAGTTAATTGGAGCAATCGAGTTACTAGATATGCATTTAGAATTGCAACAAGCAAAGGCGTCTTCTGACGATGAGCTTCCTGAATAA MANQIVATNTGELTQEDVQTLKHTIAKDLNDSQFKLFLSMCEKTGANPIVNEIHPSVFKGQMTVQFGYDFYIRKAKEADGYLGYDIQLIHENDEFKVGRKTDDSRSYMAVEQHEVTFPRGKVIGGYAIAYREGVTPFMVLMEADEVDHLRKSNIGMQKTMWNNYFSDMFKKHILKRALKSQFGLEFDDQPVEAATNEIPDYKKERKDITPYQETVEQPKEEQEDKMAGLRHQMKQKFTQLGILDNTGINAYLEKHQVKFSTPPTEAELIGAIELLDMHLELQQAKASSDDELPE NA NA NA NA NA AK015_00508 261 hypothetical protein ATGGCAATTGAAGTAGTTCCATTTAGATCGAGATTACTTACAACTGGTAATGGTTTTCGTGAAGACAATGACTGTATTGTTCTTAAGTTGAACAAGACATTCGATGGTAGTAGTGGTGCTCTTGAGGTCTCTTTTCCTTTTCATGAAGATACACCAAATTTCCATTTAGGCTTAAGAGAAGCAATGGATCTGAGAAATGCTATTGATCGACTATACGAAATTAAATTAATTGGAAACAAGGAGGAAATCAATAATGGCTAA MAIEVVPFRSRLLTTGNGFREDNDCIVLKLNKTFDGSSGALEVSFPFHEDTPNFHLGLREAMDLRNAIDRLYEIKLIGNKEEINNG NA NA NA NA NA AK015_00509 195 hypothetical protein ATGAAAGCTAAAGAAATCACCGTCGGATTCACATACACCAAAAACCTAGGCAACTTTGAAAATGTAAAAGTAGATGCGAACGTAACGATCACAGTAGAACCTGGTGAAAATATAGACGAACTTTACACCAAAGCGTATAAGTCTTGTAAAAAACAGATTAAAAAAGGCTTAACAGAAGCCGGAGGAGGATTTTAA MKAKEITVGFTYTKNLGNFENVKVDANVTITVEPGENIDELYTKAYKSCKKQIKKGLTEAGGGF NA NA NA NA NA AK015_00510 234 hypothetical protein ATGTCTGATAAACAAGTCACCTGTAAGTGGGAAACAGATGGTCAGTTAGCTGTCATTTATCAACTAGAAAACATCTTGTTGTTTTATACCACAAAGAATGATCCAAGGTTTAGAAAAGGCGAAATGATTTCTGTCGAACAAGCAGATAAAACAAGACCATACAAGGCGGTTCCTTTCAGTATGGGAAGTGTGCCAAACGATGCTTATATTTCACTGACATGGAGTTGGAGTTAA MSDKQVTCKWETDGQLAVIYQLENILLFYTTKNDPRFRKGEMISVEQADKTRPYKAVPFSMGSVPNDAYISLTWSWS NA NA NA NA NA AK015_00511 504 hypothetical protein ATGATGAATCTAACTTGTTGTGTATCTTGTGGTGTTGGCAGTAGCAAAAGAGAACATGAAGTTGCTGGGCAGGTTGAAAAGTTTGGTGAATACATTTGTATTCCTTGCGAGGATAATCTGAATGCAATCATTGAAGCAAATACAAAAGACGGGGTGTTTGTAGATAAGGGATATGGATCTCCAACGGAGGGGTTTGTTACAAAGGACAATATTTATTATAGCGATGGCAGTCGTGTTAAAGATCCGAATAGCTCATTTCTAGGATTTGGTGGTAGTTGGTTCCTTGTAATTAAGAAGCGCAAAAATGATTTTGGTATTTATCAACAGGAAATATTTGTGACCAACAATCTTTGGCATAGCAGAAGGATCCCGAAAGGTTTCCAAGAGAGATTCAAAGAAAGTGGTGCTGTTGATTCTATAGTGATAAATGTCAATAAAAAATCAGTTGAAGAGTTAAGAGAAGCTTTAAACAGCACCCCATATTTAAATAGGGAGGATAAATGA MMNLTCCVSCGVGSSKREHEVAGQVEKFGEYICIPCEDNLNAIIEANTKDGVFVDKGYGSPTEGFVTKDNIYYSDGSRVKDPNSSFLGFGGSWFLVIKKRKNDFGIYQQEIFVTNNLWHSRRIPKGFQERFKESGAVDSIVINVNKKSVEELREALNSTPYLNREDK NA NA NA NA NA AK015_00512 1509 smc_1 Chromosome partition protein Smc ATGCAAATCAAATTTAACTCTCTTAAACTACAAAACTTTAAAAGTCACCAGGAACTTACCGTTAACTTTGGCGAGCACACGGTAATCACTGGTGACAATACCCAAGGAAAATCAACAATCCTTGAAGCTATTACATGGCTATTATACGGTACGGACACACTTGGTAGCAAGTTGGATCCGTCACCTGTAACATACGAAGCTGATGAAACAATGGTTTCGCTATTAATGGATATAGATGGTACTGAATTGTTGCTAGGCCGTGAATTAAAAAAAGGAAAAGCTAAATATTACATTAACGAAGTCCCAAGTAAGGCAACGGATTTCAATGAAATGCTTGGCCAATATTTTAATAAAGATATGTTCTTATCGTTATTTAATCCAAATTATTTCTTTACATTAAAGTGGACAGAACAACGAGAAATGATTTTGCGATATGCACCTGCAACAGCTAATAAAGAGGTGTTTAAAGAACTGCCAGAAGCGCAGGGAAACAAGTTAGCAGAACTGGTAAAGAAACATTCTTTGGAAGATCTAAAACAGATACACAGAGAAAACAAAAACAAGTTGAATAAACAATATATTGCAGCACAGAGTCGTACAAAAACACTAAGGGAACAGCTAGAAGATTATAAGCAATTAGTGCCACTTGAATCATTGAATGTTGAATTATCACAGCTTACAAAACAACGTAACGAAATAGAAAAGGTCACGGATGCTGCAGGAGAAACAAACGGAAGAATTAATGTGCTGCAAAACCAGATTAAAAAATTAGTAGATGAACGTGATCAGATGAAAGAGCGCTTCTATCATCTTAAAGAAGAAAAGATTGAGGATCATTGTCGCACCTGTAAACAACCGTTACAAGATGAAGCTGTACAAGCTGTAGAAGCTGATAAGCAAAAACGTATTGATGAATTTAAAAAGCAGTACAACTCAACTGTTGCTAAACGGAAAGAACTAGAAGCAGAGCTTGCCACATTGGAATTTGTTGACGTGTCAGAGCAACTAGAGAAGGCAAGGCAACTACAATACAAAATTAATTCAATTGAAAGGGAAATCCAAAAGCATTCGGAGTTTGAAGTTATGCAGAAACATGTAAAAGAAGCTGCTGAAACTGAAAAGAAAACACTCGAATCGCTTAACGAGTCCATTTTCATATTGGATAGCATAAAAGATTTTGAAGCTAAAGAAGCTGAATTACAGTCACAGAAAGTGAAAGGGTTGTTTGAAAACTTGTCATTCAAGTTGTTCAAGGAATTAAAAACCACTGATGAACCTCAACCAACCTTTGAAATAGAAATGGATGGCAAAGGCTACAGCAAGCTTTCTTTATCCGAATCTATCAGAGCAGGTCTTGAACTGAGAGAAGTATTGTCAAAACAAAGCAATATTAATGTCCCTGTGTTTGTAGATAACGCTGAATCTATAACCAAATTTAAAGAGCCTACAGGGCAGTTGATAATGGCTAAGGTAGTTGCTGGTAAGGAATTGGAGGTTGTTTCTAAATGA MQIKFNSLKLQNFKSHQELTVNFGEHTVITGDNTQGKSTILEAITWLLYGTDTLGSKLDPSPVTYEADETMVSLLMDIDGTELLLGRELKKGKAKYYINEVPSKATDFNEMLGQYFNKDMFLSLFNPNYFFTLKWTEQREMILRYAPATANKEVFKELPEAQGNKLAELVKKHSLEDLKQIHRENKNKLNKQYIAAQSRTKTLREQLEDYKQLVPLESLNVELSQLTKQRNEIEKVTDAAGETNGRINVLQNQIKKLVDERDQMKERFYHLKEEKIEDHCRTCKQPLQDEAVQAVEADKQKRIDEFKKQYNSTVAKRKELEAELATLEFVDVSEQLEKARQLQYKINSIEREIQKHSEFEVMQKHVKEAAETEKKTLESLNESIFILDSIKDFEAKEAELQSQKVKGLFENLSFKLFKELKTTDEPQPTFEIEMDGKGYSKLSLSESIRAGLELREVLSKQSNINVPVFVDNAESITKFKEPTGQLIMAKVVAGKELEVVSK NA NA NA NA NA AK015_00513 186 hypothetical protein TTGGAACTAGGAGTTGCTGGCGGATTAGCAGTAAAGCAAATAACTGGCGAAGACGTTGAAAAAAAGGTTAACGATTGGCTAAAAGATAATCCGGATCTTGAAGTAATTGAAATGAAATTTGCTACAAGTGCCACTGCAGAAGATTGGTCAACAGATGTATTAATTATTTATCGGAAGGAGTATTAA MELGVAGGLAVKQITGEDVEKKVNDWLKDNPDLEVIEMKFATSATAEDWSTDVLIIYRKEY NA NA NA NA NA AK015_00514 228 hypothetical protein ATGCAGAAACCTGAAGGATTAACTTACAGAAAAAATGCCATTTACGCGGTATATAAAGGAGAAACGATGTTGTCCATGGGAACCGCAAAAGAATGTGCAGAAGAATTGGGGGTAACTGCAGATTACATCCATTTCATGGTGACTCCAACAGGTAAAAGGAGACTAGCTTCTCGTAAAAATCCTGATAAAGCAACTACTGCTGAAATAATTGACTTTGAAAGGGGGTGA MQKPEGLTYRKNAIYAVYKGETMLSMGTAKECAEELGVTADYIHFMVTPTGKRRLASRKNPDKATTAEIIDFERG NA NA NA NA NA AK015_00515 237 hypothetical protein ATGCATTGTCCATTTTGCAAAAGGGCGCCGAGAGATATTCCTGAGTATGTTGAGCAAGCAAACGTCAATGAAATGAGTCCAAACGAATATGTACGTATGGATGAAGGAACTTACCATGATGAAACAGACTTATTTTGCTGTACGGACTGTTACATCAAAGTTGGCTTACCTTTGAACGCAGACTTAGTAAAAGTTTTTCAAGACTATAGAAAGCAAGTTATACCACTAAAAAGGTAG MHCPFCKRAPRDIPEYVEQANVNEMSPNEYVRMDEGTYHDETDLFCCTDCYIKVGLPLNADLVKVFQDYRKQVIPLKR NA NA NA NA NA AK015_00516 123 hypothetical protein ATGTGTCCGAGATGTGGAAGTGAAAGAACTGATTATGTAGTCGTTGAAGAAACAAAAGAAGGGTATGTTTGGGAAGCTGAATGTAATGATTGCGGTTGGGATAATACTGGTTACGAATTTTAG MCPRCGSERTDYVVVEETKEGYVWEAECNDCGWDNTGYEF NA NA NA NA NA AK015_00517 240 hypothetical protein ATGAAAGGCTCAGACGAATTTCACCTAGAAATACTGCAGGAACGATTTGACAGTATTATGCAAGGTGATCCAGCGATAAGGCAAAAACGCGCAAAATATCTGCAAGAAGACATGGAAGAAATATTTATCCTTCCTGATGACGATGCTCATCCTGAAATAAACAGTTTGTATGAAGAGATTAAAGGTGTGGCAGATGGGTTGAGTGATAAGCAGGAAGTTACCAGGAGGAATTGGTTTTGA MKGSDEFHLEILQERFDSIMQGDPAIRQKRAKYLQEDMEEIFILPDDDAHPEINSLYEEIKGVADGLSDKQEVTRRNWF NA NA NA NA NA AK015_00518 768 hypothetical protein ATGACTGATTTAGTATTTATGCAAAACAATCAAGTGGTAACAAGTTCTAGGTATGTAGCGAGAGATTTCGCAAGAGAACACAGATCAGTTTTAAGGGATATTGATAACTTAATCCAAGTTGGGGGCGCACAAAATTGTGCAGACCTATTTTATGAAACAACTTACATTCACGAACAAAATAAACAGAAATACAGAGAATATCTTATGAATCGTGATGGATTCACTCTGTTGGTTATGGGTTTTACTGGAAAGAAAGCTATTAAATTTAAGATTAACTATATTCAAGCATTTAACGAAATGGAAAAGCAACTCAAACAACCCAAGACACAACTGGAAGTTTTGCAGCAGTCCATTAATCAATTAGTGGAGCAAGAAAGAGAAATTAAGGTACTAAAGCAGGGGATGAAAACCACTAATGAAAAAGTGGACAACTTTTCTGAAATTCTTGCACTTAATCCAACGCAATGGCGAAAGAAGGTTAATGCAATTATTAACAAAATAGCTCAAAAGCAAGGTGGAGCTTATCAAGATGTTAGGAATGATAGTTATCAGCTGTTAGAAGAAAGAGCTAGATGTCAACTGTCGATTAGAAAAACCAATAAGCAAAGAAAAATGGCACTTGAAGGCGTTCCGAAGTCGAAGATAGATAAAGTCAACAAAATGGATGTTATTGCGGATGATGCTAGATTAACAGAAATTTATTTAGCAGTGGTAAAGGAACTAGCTATTAAAAACAATATAGACATTGAAAGGAGAGAAAACACATGA MTDLVFMQNNQVVTSSRYVARDFAREHRSVLRDIDNLIQVGGAQNCADLFYETTYIHEQNKQKYREYLMNRDGFTLLVMGFTGKKAIKFKINYIQAFNEMEKQLKQPKTQLEVLQQSINQLVEQEREIKVLKQGMKTTNEKVDNFSEILALNPTQWRKKVNAIINKIAQKQGGAYQDVRNDSYQLLEERARCQLSIRKTNKQRKMALEGVPKSKIDKVNKMDVIADDARLTEIYLAVVKELAIKNNIDIERRENT NA NA NA NA NA AK015_00519 219 hypothetical protein ATGCATATGAATTTTTCGGGAGAGGTCAAAAAAACCTTAGAACAACGAGAAATGCGGTATGTAGACCTTGCTCGTATGACTGGTTACAGTGCGCAATATATATCAGATCTTATTGCCGGAAAAAGACGTTGGAATGAGGATGCAATAAATAAAGTGTGTCTGGCATTAGATATAAAAATTCTTTATGAAAATATTGAGGAGTTAAAGGAGGTTGAATAA MHMNFSGEVKKTLEQREMRYVDLARMTGYSAQYISDLIAGKRRWNEDAINKVCLALDIKILYENIEELKEVE NA NA NA NA NA AK015_00520 771 hypothetical protein ATGCAAAGCCGAATAAGGGAGATTAGACAAAGGAAAGGAATAAGTGGCACTAAAATAGCAAAACAAATAGGAATATCAGCTCAATATTTTTACGACATAGAAAAAGGAGAACGAAATTTAAGCGCAGAACTAGCTGTTAAGATTGCTGAAGTCCTAGGTGTTTCAGTAAATTATTTGTTAAATGAACATACAACTGACAATAACCTCAACTCATATGTCAGAGAAGGTTTAGCGACCTTTTACGATTCCAGTATTGATGTTCGTTTAAAAGTTTTGGATTTATTAAAGATGTTGACTGATGATGAAGGGAACTTTTTTGAGGATTTACGAGGAGAGGTGTTCGAATGCATAAATGAATCATTATTCTTTTATTTTCAAAGGGAAGAACTATCAAAGAAAAATTATTCTTATTATGATTTCAAGGAATACTTTACAAGCAAAGATGAATTAAGTGATTGGCAAACAAAAGAAGCAATTGAAGAATTTAATAGTGTTTTTAACTACAACACCTTTAAGCAAGTGCTTAATTATTTAGAAGAAGAAGATATGCTATTCCTTCAACAAATCTTAGGAGAAATAGCGCAAAAACATGGTTTAAATAAAAGAACCCCTTCCACTAATGATGAAAAGGAGTTCGTCAGCCAACTAGAACTATCAGATAAGAAATTATTAGAGCAATTTGATTTAAAATTAGATGGTAAAAAACTAACTAAAGATGAAGCAAAAGGTGTTATAGCTTATTTACGTTCTTTACGCCAATTTGATAAATGA MQSRIREIRQRKGISGTKIAKQIGISAQYFYDIEKGERNLSAELAVKIAEVLGVSVNYLLNEHTTDNNLNSYVREGLATFYDSSIDVRLKVLDLLKMLTDDEGNFFEDLRGEVFECINESLFFYFQREELSKKNYSYYDFKEYFTSKDELSDWQTKEAIEEFNSVFNYNTFKQVLNYLEEEDMLFLQQILGEIAQKHGLNKRTPSTNDEKEFVSQLELSDKKLLEQFDLKLDGKKLTKDEAKGVIAYLRSLRQFDK NA NA NA NA NA AK015_00521 510 yokJ Antitoxin YokJ ATGACAAAAATAGAACAACTACTTACACAAGTTAAGACGTTACCTTACTGTCGCATTTTTGAGCCAAATGGTTTACCAAGTATTGATGAAAAAAAACATATTTTACCTGAAGATATTGAGCATTTTTATAGCCTCTGTGGAGGTCTAGCCTTATACGAAAACGAAGAATATCCTGTTTATTTTGTTTCTCCTGAGGAATTTGTGTTGGCAAATCCAGTAATTGTAGGGGAATTGTGTGAAGAAGATATTTCATCAAGTTGGTATATCGTTTGTAATGATGGTAAAGATGAATACTTAACAATTGATCTAAGTAAAGAAAGATTAGGAAGATGTTATGATAGTTTTTTTGATCGTCATGCTCTTGTTGGGGAATCACAAATTATTGCAACCTCTTTTACAGATTTGCTAGAAAGACTAATAAAAAATAAAGGGCAACATTGGTATTGGTTAAAAGATGATTTTAATTATTTTGGTGATGCATATGATGACTTTAATCAAGAGCTATTATAA MTKIEQLLTQVKTLPYCRIFEPNGLPSIDEKKHILPEDIEHFYSLCGGLALYENEEYPVYFVSPEEFVLANPVIVGELCEEDISSSWYIVCNDGKDEYLTIDLSKERLGRCYDSFFDRHALVGESQIIATSFTDLLERLIKNKGQHWYWLKDDFNYFGDAYDDFNQELL PGPT0027645_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-YokI-YokJ_TOXIN-ANTITOXIN_SYSTEM,PGPT0027645-antitoxin_yokJ-K21490 NA NA AK015_00522 1716 hypothetical protein ATGTCCATTAAGGCGCTTTATGTGAGCGACCTCCATAGCTATATTGACAAAACGATATCACGCCTAGAACAAGTACATATACAAGTGAAAAACATCCAGAAGAGTATAGAAGCTATGATAGCTTTGGAGGATGAATTTAAAGGGAAACTGGCTAATTCTATTCGTGCCTTTTATCAAGAGGTGCACATGCCGTTTTTGTTGTTTCTAGAGGGATTTATTACGAATTACACCGATACGTTACAAGAAATGAAAAAGTCGATTCAGTACATGGAGCCAGATAAAGACGGGGTTATTCGAGAAGATTTTCTTTCTCAAGATGTACGACGAGGATTAGAACGAATGGAACAAGTTACGATGGATTTAACAGATGAAGCGAACGCTATTATCCAATCGGTTAGTGATATTGTGGACTTACCTAAGATAGATGATAGCGAGTTTTTGGATAATGTACAACATGGAAAGAAAAAGACCCATAAGACTCTAGAAAAGTTGTATGAATTGGATCGTCATAATACAGCTAAGCTGGAACCGATTGAACAAGATATTCACATGATGAAAAACTACATTAGCCAAATCCGCGAGTTAGGAAATAATGGCCAAATACATATTGGCAGTTACCAAGCACGGCAATTAGCAGATCAAAGGTTTCATAAAGATCTAATAAGCGGCATTAGGAGTAAGGCTGTTCGAAATGCCGTTGGGCTAGAGACGGTGCTTGGTGAAGTTGGCAAGTATCTATTATCTCAGCATTTGCGACCAGCAAACCTGTTCGTGCATTATCTACAGAAAAAATTCGGGCTACAAACAATGGATTATAGCTACCGAGCAATGCAGGCAGCTGTGGCAGCATCAGGGGATTATTTAACTACAAGGGAATTTACTACCATTGAACATCAAGTAGTTTCCTCAGTAAAGATCTCCGACTATAAAAAAGTACACCAGGGAACTTACTATACGTTGGCAGATGGTAGAATTGTAAGGAAATATCAATCAGAATCCGGAAACATTGAGTATAAATTAGTGGATGCTATTCCTTCTGATCGACACAAGCCAAAAGAGCCGGAAAAGAATTGGATTGAAAAGACAACACAAGGAATAGCTAAAGCAGGTTTACACGTAGGTTTAGCAGGATATAAGACTGGAAAAACGGGCTTAAAACTTTCCAAGAAAGCGTTAGACTTTGTTATTGTAGATGATATAAAAACCGTTCTGGACTCAGAGGCCTCTACAGGTGAAAGATTATGGACTGGCGCTTCTATTATTCCAGTGGGAAAAGTCTTAAAGCTAGCTAAGGCTGGTGGAGTTATTAAATTTGCGGATAAGGGTAAGCAGACTGCGAAGAAAGTTAAGAATAAAGGTAATACTGTAAAACCTAATGATGTCGTTCCTTATAGACCAAGTAACTCACCTTTAGAAAACCATCATGGGGTAATGGATGTTTGGGCAAAACATAATGTTCCAAACTATGTGAGTAGAGGAGCTAATACACCAACATTAGCCTTGACTAAAGAACAACATAACGCTACAAAAGTAGTATATAGACAATGGTTATATGAAAAAACAGGAAAAAAAGTTGGGGGTAAAATCGATTGGCAATCAGTCTCGCCCAAGGAAATGCAAGAACTTACTGAAAAAATGTTTGATGCAGCAAAAGTTCCTAAATCGGCTAAACAGGATTATTATAATGCATTTAATTTATATAACTATAGGGAGTGA MSIKALYVSDLHSYIDKTISRLEQVHIQVKNIQKSIEAMIALEDEFKGKLANSIRAFYQEVHMPFLLFLEGFITNYTDTLQEMKKSIQYMEPDKDGVIREDFLSQDVRRGLERMEQVTMDLTDEANAIIQSVSDIVDLPKIDDSEFLDNVQHGKKKTHKTLEKLYELDRHNTAKLEPIEQDIHMMKNYISQIRELGNNGQIHIGSYQARQLADQRFHKDLISGIRSKAVRNAVGLETVLGEVGKYLLSQHLRPANLFVHYLQKKFGLQTMDYSYRAMQAAVAASGDYLTTREFTTIEHQVVSSVKISDYKKVHQGTYYTLADGRIVRKYQSESGNIEYKLVDAIPSDRHKPKEPEKNWIEKTTQGIAKAGLHVGLAGYKTGKTGLKLSKKALDFVIVDDIKTVLDSEASTGERLWTGASIIPVGKVLKLAKAGGVIKFADKGKQTAKKVKNKGNTVKPNDVVPYRPSNSPLENHHGVMDVWAKHNVPNYVSRGANTPTLALTKEQHNATKVVYRQWLYEKTGKKVGGKIDWQSVSPKEMQELTEKMFDAAKVPKSAKQDYYNAFNLYNYRE PGPT0027660_115 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 AK015_00523 1083 hypothetical protein TTGGCAACTTTAATTGTAGTTACAATATTAATTACAGCATTTGCTATCCTTATTTGGCTTCTGCTAGAGTTCTGGCTTATTGTATTATCAATTGGCATAATGCTTTTAGGTGGTTATCTGCTAAATAAAGATGAAAAAAAGGGTATTAAGAAAGGAAAAATCTCATCCCAAGTTGTTGCAGGGATAGGACTAGCTCTATTTATTGTCTCTACCGTCTCTGCCTGTACGGGAGGAGATGATGAGGCAAAAGAAGCTACTGCTAATGATGTGAAAATAGAACAAGCAGAACTTGACCAAAGCAATGATGACGATAAAGATTCTACAGCTGGAAAGAGTAAGGATAAAGAAAAAGTAACGAATGACAGTACAACAGATAAGAATGAAAAAAAATCTAGCAAAAATGAAAGTAACAATGGGCAAAATGCTGAAAAAGAGAAGGCTACACAAACATCAGGTACAACGGAAAGAATTCCGGTTACTTTGACTAAAACTGTAGACGGTGACACAATCAAAGTTATTTACAATGGACAAGAAGAAACCGTTCGATATCTACTAATTGATACTCCAGAATCAAAACATCCAAACTCCTGTGTTCAACCATATGGACAAAGTGCTTCTGACAGAAATAAGCAACTTGTTAACAGTGGCCAGTTAGAAATTGAATTTGATGTTGGAGAACGCAAAGATAAGTATGGTAGATTACTAGCGTATGTATACGTTGACGGTAAATCTGTACAAGAAACATTATTAAAAGAGGGATTAGCACGCGTAGCTTATGTATATCCTCCTAACACTCGTTACTTAGATCAATTTGAAAAAGCAGAAGATAACGCGGAAAATGAGAATGTTGCAATTTGGAAATCAAACGGTTATGTAACGGATGATGGTTTTAATGGTTGTGCAGAACAAAAGGAAGAGCAACCTAAGCAGAAAGCTCAACAACCTAAACAAGGTAGTCCTTCTGTTTATTATAAAAACTGTGATGCTGTACGTGCAGCTGGAGCCGCTCCTATTAAACGAGGTCAACCAGGTTACGCTAAACACTTGGATAGAGACGGTGACGGTGTAGGTTGCGAAAGCTAG MATLIVVTILITAFAILIWLLLEFWLIVLSIGIMLLGGYLLNKDEKKGIKKGKISSQVVAGIGLALFIVSTVSACTGGDDEAKEATANDVKIEQAELDQSNDDDKDSTAGKSKDKEKVTNDSTTDKNEKKSSKNESNNGQNAEKEKATQTSGTTERIPVTLTKTVDGDTIKVIYNGQEETVRYLLIDTPESKHPNSCVQPYGQSASDRNKQLVNSGQLEIEFDVGERKDKYGRLLAYVYVDGKSVQETLLKEGLARVAYVYPPNTRYLDQFEKAEDNAENENVAIWKSNGYVTDDGFNGCAEQKEEQPKQKAQQPKQGSPSVYYKNCDAVRAAGAAPIKRGQPGYAKHLDRDGDGVGCES NA NA NA NA NA AK015_00524 171 hypothetical protein ATGCACTGTGGAGTGTGCAATAAAAAATTCAATCAAAATGACCACATTTATATGGATGACGCACATACGGTTACGCACTATTACTGTTTTAAAAATAAATCAGTAATTATTGCTGTGGGAAGCTATAAGGAGATTGTTGATAAGTTTGATTTTTTCAAGCAGTTTCGTTAG MHCGVCNKKFNQNDHIYMDDAHTVTHYYCFKNKSVIIAVGSYKEIVDKFDFFKQFR NA NA NA NA NA AK015_00525 183 hypothetical protein ATGAATTCATTACAAAAAGTCTTTATTATAGTTATACTTTGTTTCATAACAGCCATTATCGTAACTTTTACTATGCCTTTCTTGGGGGATGCACTGAGTATGGTAAATGTGCGCCCCGTTTTTGATCTAACCATCTTTTTCATGTTAATCGTCTTGTTAAAAATTACAATTGATAAAAAGTAG MNSLQKVFIIVILCFITAIIVTFTMPFLGDALSMVNVRPVFDLTIFFMLIVLLKITIDKK NA NA NA NA NA AK015_00526 333 hypothetical protein ATGGATGATTTACTAGATTATTTACAAAGAGAAAGACTACTCCAACAAGCAGAAGCTTCAGCTAGTGGTAAATTAACATTAAAGAAGTTGCGCCCTCCTTTCATTTCTTTAGACAACATATTATGTATTACTGGAGTTTTACTAACGATTTACACAAATTACATATCAACACTTCTAGTCATAATTTATATTATAATTAAACCACTACTAACAAAAACGGTAAGGGTCAAGAATGTTGCTACTGGAGAAATATTTAAGGTGACAAAAAAGGATTATAAAGCTTATAAAAAGCAACAAAAAAGAGAGAGAAACAAAGTAAGAAAAATTATGTAA MDDLLDYLQRERLLQQAEASASGKLTLKKLRPPFISLDNILCITGVLLTIYTNYISTLLVIIYIIIKPLLTKTVRVKNVATGEIFKVTKKDYKAYKKQQKRERNKVRKIM NA NA NA NA NA AK015_00527 315 hypothetical protein ATGGTTAATGATCGTGGCTCTATCAAGTGGACATCTATCATGATGCCTGAACACATAGAGATGCTTCAAGAGATGTGGAAAGAACAGGATTATAAAGAGAAGCCGATACTAGACGAACAACAAAAAGAGGAAATAAACAATAAACTGTTAATGGCTGTGGTTAATGATCTTACAGTTGAATTAAAGTATTTTGATAAGCATGATTTTTATAAGGTAAAAGGCAAGATTACCAGTATTAATAAACAAAATAAATACATAAGCATTGCTGGGCAACGTTTGCCTTTTGAATGCATTATGGATGTGTGGATAAAATAA MVNDRGSIKWTSIMMPEHIEMLQEMWKEQDYKEKPILDEQQKEEINNKLLMAVVNDLTVELKYFDKHDFYKVKGKITSINKQNKYISIAGQRLPFECIMDVWIK NA NA NA NA NA AK015_00528 552 hypothetical protein TTGAGTTGTAAGACTTGTGGCTGTAAAGGTTTTTGTTGTCCTGATCGGCCTGTAGTTAATAATTTTTGTACCTGCTGCGCTAGAACATTAGTAGATATTCTTAATGCAATTATTACGCAATTTCCGTTAGAACAACTGTCAAGGATTTTTCTACCAGGGCCTGCTGGTCAGATAATAAATCCTGTACCAATTCAAATAAGAAATGGGTTTCTATTAGAAGTTTTAGAGGGAGCTGACCAAAGAATTGTTAATATATGCGATATTGTTGCAATAACAGGAATACCAATAAATAATGTTGATTTATCTAACATTTCAACTCAAGAAAACTGTAATTGTTGTGAACAAGCTTTAACAGATTTAATGACATTAATTTCTTCTGTGCCTAATAGGTCGTTTGATATGAATACGCAGAGCCAACAAGCAGGAAGTATATCGTCTTCAAATCCTACTGATGTATTTAGCGGAGTAGTCAGAGTTACTACAGGAAATAATAAAACTGTAATTTCTTTGTGCCAGGTATCTAGTGTAGATAGAATTACTCCCCCAGTGTAA MSCKTCGCKGFCCPDRPVVNNFCTCCARTLVDILNAIITQFPLEQLSRIFLPGPAGQIINPVPIQIRNGFLLEVLEGADQRIVNICDIVAITGIPINNVDLSNISTQENCNCCEQALTDLMTLISSVPNRSFDMNTQSQQAGSISSSNPTDVFSGVVRVTTGNNKTVISLCQVSSVDRITPPV NA NA NA NA NA AK015_00529 372 hypothetical protein ATGGGTAATTGTTGTTGCTGTCCAGACAGAGGAGATGGCGAGTTTCTAACTGATGAAGTATGTGGGAATTTTACTATTGCTTGTGGAGAATCTGATGATGTTTATTTTTCCCAACAACCTGTTACTGGGACAGTGAGTGTTTTTTATGATAACGGGTGTGCTGCTAATTTAGTTGTAACCGTTTTTAACGGTGCCACAGAAGTTGCCGATTTTGAAGTTCCGAATTCCCCACAAAGTAATGTAGGTAATACTCGTGCTGTGACATTTTTTGAAGCTTTCGATCGAGTACAAATAACTTGCACGGATAATTCACCGCCAGAAAACGCTTGTAAAGGAAAATTTTGCATTACTGCTCACTACCCTGCTATATAA MGNCCCCPDRGDGEFLTDEVCGNFTIACGESDDVYFSQQPVTGTVSVFYDNGCAANLVVTVFNGATEVADFEVPNSPQSNVGNTRAVTFFEAFDRVQITCTDNSPPENACKGKFCITAHYPAI NA NA NA NA NA AK015_00530 396 hypothetical protein TTGAATAGTTCCTGTAAGGATAGCGCGTGCGGTAATTTTCAAGTACCTTGCGAATTAGGTTGTACAGAAATATTTAATGTCATCGATCATCATAAAAAGAAAGCAAAGGGGTCTTTAACAGTTTTTTATCAGTCGGGATGCGTAGAAAAACTAATGATCACCATAAAAGACAGTAATTATTGCCAAAAAATATTCTTTATAATGAAAGGAAGTAGTAGAACATTTGCTATAGATGACTTTATAGAAATTGAATTGACTTGTGTAAATGGTTCTAGTCAAATGCCATGCAAAGGTAAATATTGTTTAAATTATGAAATTATAACAAAAAGAAAAAAATATGATTGCAAATCCGGTCCTGCATGTAAACGGCCAAAAATGCATATGAATTCTAAATAA MNSSCKDSACGNFQVPCELGCTEIFNVIDHHKKKAKGSLTVFYQSGCVEKLMITIKDSNYCQKIFFIMKGSSRTFAIDDFIEIELTCVNGSSQMPCKGKYCLNYEIITKRKKYDCKSGPACKRPKMHMNSK NA NA NA NA NA AK015_00531 972 hypothetical protein ATGGTTAAAAAAGTAGCATGGGGTGCAGGTCACGGAATTCATACTCCAGGGAAAAGAACACCAGATGGTGAAAGGGAATGGTCATTTAACAACGTTGTGGTAACAGAAGGAATAAAGCATTTAGAAAGCAATTATGCTGATGTTGAGGTTTTACGTCTGGATGACCCAACAGGAGAACGTGACGTGCCATTGCAAGAGCGTACAAATAAAGCAAATGCTTATGATGCTGATGTCTATGTTTCTACGCATCATAATGCCAATACAGGTAAATGGGGTAATTGGACAGGCACAGAAACATATACTTATTTAGGCAACCACCCAAGTACTGAACGCCTTGCTAGTAAGGTGCATAAACGTATCGTTAACGCCTATGGTTTAAGAGATAGAGGTCTAAAAAAGGCTGACTTTCACGTACTTCGTGAAACAAAAATGGATGCTATCTTAACAGAAGGTGGCTACATGGATTCAACTATCGATATTAAAAAGTTACGTGATAATGAAGTATTGAAAAAAGCTGGACGGGCTATAGCTGATGGTGTTGCTGATTTTCTTAATTTAGAGCTTAAAAAAGGTGGCTCTAAACCAAATAAACCTACATCTAAACCTAAACCATCTAAGAAATATAGAAGTGTTGTTGATTACATGAAAGATCATAAAATGGATGCTAGTTTCAGTAACCGTAAGAGATTAGCAGAAAAATATGGTATTAAAAACTACCGTGGCACAGCTAGCCAAAATGTTGCGTTGTTAAATAAATTACAGGGTGGATCTGGTAAGTCCAGCAAACCAAAATCAAAATCGTTTTCCGTTGGACAAAAAGTAACCGTAAAAAAATCAGCAAGCAAATTTGCGACTGGCGAATCGATTGCAAGCTTTGTTAAAGGTAACAGCTATAAGGTTAAACAGGTTAAATCAGATCGGGTGCTACTCGATGGTATTATGTCTTGGGTTCGTAAATCGGACGTGTATTAA MVKKVAWGAGHGIHTPGKRTPDGEREWSFNNVVVTEGIKHLESNYADVEVLRLDDPTGERDVPLQERTNKANAYDADVYVSTHHNANTGKWGNWTGTETYTYLGNHPSTERLASKVHKRIVNAYGLRDRGLKKADFHVLRETKMDAILTEGGYMDSTIDIKKLRDNEVLKKAGRAIADGVADFLNLELKKGGSKPNKPTSKPKPSKKYRSVVDYMKDHKMDASFSNRKRLAEKYGIKNYRGTASQNVALLNKLQGGSGKSSKPKSKSFSVGQKVTVKKSASKFATGESIASFVKGNSYKVKQVKSDRVLLDGIMSWVRKSDVY PGPT0024160_4787 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_00532 264 hypothetical protein ATGAAAATCAACTGGAAAGTAAGAATGCAAAAGAAATCATTTTGGATTGCGTTAGTGTCAGCCCTTATTTTATTGGCTCAAATTGTGGGTGAGTGGTTTGGCTACAATCTTGCTGCGGATTTAATTAACGCAGAAGCAACCAAGTTTATTAACGCTGTATTTGGTGTGTTGGTTATTTTAGGTATTGTTAATGACCCTACTACCAAAGGTTTAAGCGATAGTAAGCAAGCTAGGCACTATAAAAAGCCTAGAGACAATGCTTAA MKINWKVRMQKKSFWIALVSALILLAQIVGEWFGYNLAADLINAEATKFINAVFGVLVILGIVNDPTTKGLSDSKQARHYKKPRDNA NA NA NA NA NA AK015_00533 273 hypothetical protein ATGACAGTAGAACTTGGCATTGTAGTAGCTATTTTAGGGCTTGTGGTAAGTTATTTAGGCTATCAGTTAAACAAGTCCAAATCTATTAAAACAGACAGCAGAGATACAGCAGAAGTTCGTTCAGAACTTGGATATATTCGCAAAGGAGTTGATGATATAAGAATAGATTTAAAAGCCAACGAGAAAAACATTGCTCATTTATCAGAACGAGTTACCAGGGTAGAAGAAAGTAGCAAGCAGGCTCATAAAAGAATTGACAATATGGAGAGTTAA MTVELGIVVAILGLVVSYLGYQLNKSKSIKTDSRDTAEVRSELGYIRKGVDDIRIDLKANEKNIAHLSERVTRVEESSKQAHKRIDNMES NA NA NA NA NA AK015_00534 255 hypothetical protein ATGAGTAAACACCAACAAAAAGATTACTTCATCACTAACCAAGACGATGAGTTTGAACAAGTAAAATCAGTAGTGAAAAAAGCGTTAGATAATGCGAGGGAAGAAGACGGCGTTCCGATGTGGAAAAGTTCTTTAGAGAGGTTGTATGATTCTTTAGCCGAAGGGCAAGAAAAGGGAATGGAACCTTGGCAAATCAACAGTATAATACAGTTACTTTTAAATTACGTACCGGAAGAAGATAAAAATAATTATTAA MSKHQQKDYFITNQDDEFEQVKSVVKKALDNAREEDGVPMWKSSLERLYDSLAEGQEKGMEPWQINSIIQLLLNYVPEEDKNNY NA NA NA NA NA AK015_00535 165 hypothetical protein ATGGAACAAGAAGTTAATTTGCAATATGTAGTGAATGCATTAAGTAATCAAGTAGCACAGTTGTCACAAGAAAAAGCCTATCATGAGGCAATAATTACCGCACAGCAAGAGGAAATAAATGAGTTAAAGGCAAATACACCACAGGATGAGGAAAACGCTGAATAG MEQEVNLQYVVNALSNQVAQLSQEKAYHEAIITAQQEEINELKANTPQDEENAE NA NA NA NA NA AK015_00536 5469 hypothetical protein GTGAAAGAAAAACTATATATCTTTGACAAATACGATAATTTACTAGCAATCACTGACAACTATATAAAAGCAGAGTTTGAGGAGACGGTGGAAATGCCTGTCTCTTTTTTAATCAATTACCCTGCATCTGATAGCGATGCTGAATATCTAGTCGGCGGCAACCAAGTGGCTTTTCGTGATTTAAAAGGCGACTTTCGCTTGTTTACCATTCGCGAGGTGGACGATCGAGACGGAGAAGCAACAGAAAAGATTGTTAACTGTATGCCGGGAATCCAAGAGCTTGCAGACGTCATGGTAGAGGAACGTAGACCACAGGATAAGCCGGCTGAATATGTGTTAGGGCTAATCCTAGAAAATGCACGTTGGCAAGTTGGTAATGTGGCTGACCTTGGTATAAATTCCACTAGCTTTTATTTCAAAAATGCTTATGAATGTTTAGGTGAGCTTACGGACATTTGGGGCGGAGAAATCGTTGATCGTGTCGAGATTAAAGGCAATAAGATTGCTGGCAGATATGTTGATATTGTCCATCGTAAGGGATCAGATACAGGTAAACGATTCGAGATTGATAAGGATATTAAAAACATTACCAGAACCGTACTCTATTACCCAAAAACAGCCTTATACGGAAAAGGTAAATCATTGCAAACAGAAAATGAAGGACACACAAGAAAAATTACATTTAGGGACGTTGTATGGTCTAAGAAAAAAGGCGATCCAGTAGATAAGCCAAAAGGTCAAGAGTGGGTAGGAGATCCCGATGCATTAGAAAGTCATGGCATACCTAACCACCAAACAGGCAAAATGATGCACCGATTTGGATTATTCGAGGATAACGAAGAAGAAGATCCAGAAAAACTACTCGCTAAAACATGGCAGGCTGTGCAGAGCGAAAAAGACCCGAAAGCACAGTATGAAATGGATATTATCACATTTTATGGGATTGCTGGCTACGAGCATGAACAGGTGTTTCTTGGTGATACAGGCATTGCTAGGGATAAAGATATTAAGCCGATGATCCTTATTGAAGCACGTATCATGTCATGGAAGTACGATATTGGCAATCCTGAGGACGGTAGCCTTGTTTTGGGTAACATCTTAGACTTAAACCCGGATGATAGTGATATTGATTGGGTTATTGACAAAGTGAAGGACAAAGAAGGAAATTGGGATGCTGGCGGTGGCCCTATTACGGATGACAAGTTTCCAGATGTAAAACCTGATGATCCTAAAAACGTAAGAGCTGAGGGCTTGTTTAAAAAGATTATGTTGTCATGGACATTTGAATCTACTTATGCCATAGCTGCATATGAGGTGTTTGCTAGTCAAACCAATGGATTTGCTCCCGATCCAACTAACCTTGTTTTTCGTGGGAAAGTAGGTGGCTATAACTTTGATGCTGATACAGACGAAAAATGGTATTTCCGAGTAAGAGCTGTTAATACGCATGGCACAGCAAGTGAGTATTCAGAGCAGGTTAGTGCTTCAACCGTGCAACTAGACTTACCAGATATAGAGGATATTGTTCCTGACTTTATCGAATACAGCATTTACAAAGGCAAGGAAGCACCTAGTCCTAAAGATTATAAGTATTGGTTGGATACCAGCAAAGAACCTAATATCCTACGTCACTGGAATGGTGAGGATTGGAAACCACTTGCTCCTACAAGTGCTGATGAACTTGGTGCGGTAGCTATGGAAGATTACCAGGAAAAAGTAAGTCAAATTGTTTCCGATTTAGCTGATAAGGTTGGCGCCGAATGGGTAAATGGGCAACTGGTCAAGAAAGCTGATAAGGAAATCGTGGACGAGGTTAAGGCAGACCTTGCCGAAAAAGTAAACGCTGAATGGGTGAATGGGCAGTTAGTAAGCAAAGCTAACAAAGATGATGTTTACACGATTGAACAGGTAGATACTCGCTTTAACAATGTTGTCTCTAAAACAACTTACGAGACAGATAAAGACGGCATTGTTAAAGATTTGAAAAGTCACGAAACGATGATAAAGCAAAACGAAAAAGAGATAGAATCCAAGGCATCGAGTACGGAATATAACTCTTTAAAAAATAGAGTTGACACCGCTGAAACATCTATCACTCAAAACGCTAAGGAAATAAAATCTAAGGCAGAGCTTGAGACTGTAAATGTCTTAACGGGCAGGGTTGAAAGTGCTGAATCTAGCATTACGCAAAATGCCAAGGAAATAGCTAGTAAGGTATCTGGCGAACAGTATAAAAAGGATAAAGATGGCATTATAAGAGACTTAGAAAGTCATGAATCTCTTATTAAGCAAAATGCAAAGAGCATTAGCAGTAAAGTTGACGCTACTTATGTAGATAGTGCTATTGATGGAATTGAGGTTGGTGGAAGGAATTTATTAAAAGATAGCAATAACTTTAAAAATTTTAATACTTACAAAGGAGCAAAAGCAGAAGTAATAGAAAACGTTTCTGTAGCTGAATGGGGAGCAACAGATGCGAGTAGGATTAAAATAAGCGGTGGAGATAGTTACGTAAAGCTTGTTGTAGATTCTAAGTATCTAAACGTGGAACAACCCCCAAAAGAAGGAGAAAAATTTATAGTATCCGTATGGGTTAAAAACCAAGGAGATACCACATTAGTTGTTTCTCCTAACGTAAGAGGAAAGAGAGAATCTGTTTTTAAAGGAGAGTCAAAAAGAGTAGTAATACAAGCAGAGGGTACTGGAGGAGCATGGTTACAAATACAGTTTACCACTCCAACTAACAATGCAGATAGACCACTAGATTTTATTGCTTGGAGACCTCAACTCGAAAAAGGCAACAAAGCCACAGATTGGACGCCAGCACCCGAGGACACGCAAGCACAAATAAATGACCAAGCAACAATTATAAAGCGACATACTTCCGAGATTGAGCAAAACGCTAAAGAAATCGCCAGCAGAGTTTCTAGCCAAGAATATAAAGTAGATAAAGAAGGAATTATTAAAGACATTAAGAACAACAAGTCCAGCATTGAACAGAATGCCGAAAGTATTAGAAGTAAAGTCGATGCAACGTATGTGCAAGGTGAGCTGGGTAAGATTGAAGTTGGTGGAAGGAATCTTGCAAGAGAGCTTGGAGGTAATGATTATAGTCTTAATAGAATTTATAGTGAAGATAGAAGTCGAGCATCCATTGTAGATGTAAACGATAAAAAATGGATAAGGTATTCCGATCACACACTTTTTAGATTGGGAAGTATACCTGTTGAGCCGAATACTACTTATACATGGAGTTTCACCATTTATGGTGATGGAAATATAACTGAATCTACTATGAGACATTGGGATGGCACCGGTTATGGAGAAAGGAAGTCTTTCACTGTAGATAGCACTCCGAAAAGAGTATCAGGTACTTTTACAACAAGAGATCAGTCAAGTCATGAAATACTTCATATTTATGGTTTAAACAGTGATAATATTTATTATTTATCAGATTTTCAATTACAAAAAGGCAATAAAGCTACCGATTGGACGCCAGCACCCGAGGACACGCAAGCACAAATAAATGACCAAGCAACAATTATAAAGCGACATACTTCCGAGATTGAGCAAAACGCTAAAGAAATCGCCAGCAGAGTTTCTAGCCAAGAATATAAAGTAGATAAAGAAGGAATTATTAAAGACATTAAGAACAACAAGTCCAGCATTGAACAGAATGCCGAAAGTATTAGAAGTAAAGTCGATGCAACGTATGTGCAAGGTGAGCTGGGTAAGATTGAAGTTGGTGGAAGGAATCTTGCAAGAGAGCTTGGAGGTAATGATTATAGTCTTAATAGAATTTATAGTGAAGATAGAAGTCGAGCATCCATTGTAGATGTAAACGATAAAAAATGGATAAGGTATTCCGATCACACACTTTTTAGATTGGGAAGTATACCTGTTGAGCCGAATACTACTTATACATGGAGTTTCACCATTTATGGTGATGGAAATATAACTGAATCTACTATGAGACATTGGGATGGCACCGGTTATGGAGAAAGGAAGTCTTTCACTGTAGATAGCACTCCGAAAAGAGTATCAGGTACTTTTACAACAAGAGATCAGTCAAGTCATGAAATACTTCATATTTATGGTTTAAACAGTGATAATATTTATTATTTATCAGATTTTCAATTACAAAAAGGCAATAAAGCTACCGATTGGACGCCAGCACCTGAGGACACAGATAAAAAAATCGAATCTGTTGAACACTACGCATCAGAAATTGAGCAAACAGCTAAAGGTGTCGAGCAAAAATTTTCGGCAATAAAAACCGACTACGAAAAGTTTAAAAGTACGGCTAACTCCACGTTTAAACAGCAAGCGGACTTGATCGAGGGAAAGGTAACGGAAACTACTTATAACAAAGACAAGGATAATATGACCATGCGTGTTAGTACGGCTGAATCAACTATTAAACAACACGCTGACCGTATTGAGTCAAAAGTAAGCAAGAATGGTGTAGTGTCCAGTATTAATCAATCACCTGAGCAAATAAAAATTAATGCGCAACGCGTTTCGATCGATGGTGACTTAGTTGTTAGAAACGGGAAAGTTTATATTAAGGATGGCGTAATTACCAATGACCTTATTGCAAGTAATGCCAAAATAGATTTTGCTAAGATAGCCAACGTAAAAGTAACCAATGCAATGATCTCTAGTTTAAGTGCTGACAAAATAGGTTCGGGTATCATAGATGCAAATAAGGTACTAATACGTGTTAAAAATGGTACACAGGCTATCCAAATAGACGATAAGGGGTTTGAGTCAGTCGATAGCAGGGGCAGGGTAAGGATACACATTGGCGTACGTGACATAGCTGGGAAAGGGCAGTCTGACCCTAGTACGATAAGGTTTTTCAGTGGTAATGGCAGCGATGCAGCTAGTGTCGGAATGAATGTTAACAACGACTTTATAATTGGTAGTCAAAATAATGATGTGTCAACATCTCTTTATTCGGGCAAGAGAATGTTATATAAGGCAGACGCACATAGATTTTGGTTTAATCAAGGGCCATCTAGTAACTACTGGGAGTTTAATGATTATAAAGATGGTGATGGAGATTGGCATCCACGCATTTACAGTAATAGAAGTGCAGGGGGCTATGTAGGTATAAAATCTAGGAGACTATGGAGAGTATATACAAATTATCTTCATTGCAAAGATACAATAAAGCTATCCACAAGAGACATGAAAGAAAATATTAATGATTTTGCACCAGAAATGGCGCAAAACATTTTCGATCAAATAAAAATTAAATCATATCACTATAAAAATGATGATAAACAAAGCTCTAGATGTAGAAAAAGCTATGGTCCTATAGCAGAAGAAAGCCCAAAAGAAATATTGGACGAGCAAGGTGATGCTTTAGTACAAGACAACTATATAAACGTTATTGCTGGTGCGCTAAAATATCAACAGCAACGCATTGATGAACTAGAAAAAATTATAAAAGGAGAATCCTAA MKEKLYIFDKYDNLLAITDNYIKAEFEETVEMPVSFLINYPASDSDAEYLVGGNQVAFRDLKGDFRLFTIREVDDRDGEATEKIVNCMPGIQELADVMVEERRPQDKPAEYVLGLILENARWQVGNVADLGINSTSFYFKNAYECLGELTDIWGGEIVDRVEIKGNKIAGRYVDIVHRKGSDTGKRFEIDKDIKNITRTVLYYPKTALYGKGKSLQTENEGHTRKITFRDVVWSKKKGDPVDKPKGQEWVGDPDALESHGIPNHQTGKMMHRFGLFEDNEEEDPEKLLAKTWQAVQSEKDPKAQYEMDIITFYGIAGYEHEQVFLGDTGIARDKDIKPMILIEARIMSWKYDIGNPEDGSLVLGNILDLNPDDSDIDWVIDKVKDKEGNWDAGGGPITDDKFPDVKPDDPKNVRAEGLFKKIMLSWTFESTYAIAAYEVFASQTNGFAPDPTNLVFRGKVGGYNFDADTDEKWYFRVRAVNTHGTASEYSEQVSASTVQLDLPDIEDIVPDFIEYSIYKGKEAPSPKDYKYWLDTSKEPNILRHWNGEDWKPLAPTSADELGAVAMEDYQEKVSQIVSDLADKVGAEWVNGQLVKKADKEIVDEVKADLAEKVNAEWVNGQLVSKANKDDVYTIEQVDTRFNNVVSKTTYETDKDGIVKDLKSHETMIKQNEKEIESKASSTEYNSLKNRVDTAETSITQNAKEIKSKAELETVNVLTGRVESAESSITQNAKEIASKVSGEQYKKDKDGIIRDLESHESLIKQNAKSISSKVDATYVDSAIDGIEVGGRNLLKDSNNFKNFNTYKGAKAEVIENVSVAEWGATDASRIKISGGDSYVKLVVDSKYLNVEQPPKEGEKFIVSVWVKNQGDTTLVVSPNVRGKRESVFKGESKRVVIQAEGTGGAWLQIQFTTPTNNADRPLDFIAWRPQLEKGNKATDWTPAPEDTQAQINDQATIIKRHTSEIEQNAKEIASRVSSQEYKVDKEGIIKDIKNNKSSIEQNAESIRSKVDATYVQGELGKIEVGGRNLARELGGNDYSLNRIYSEDRSRASIVDVNDKKWIRYSDHTLFRLGSIPVEPNTTYTWSFTIYGDGNITESTMRHWDGTGYGERKSFTVDSTPKRVSGTFTTRDQSSHEILHIYGLNSDNIYYLSDFQLQKGNKATDWTPAPEDTQAQINDQATIIKRHTSEIEQNAKEIASRVSSQEYKVDKEGIIKDIKNNKSSIEQNAESIRSKVDATYVQGELGKIEVGGRNLARELGGNDYSLNRIYSEDRSRASIVDVNDKKWIRYSDHTLFRLGSIPVEPNTTYTWSFTIYGDGNITESTMRHWDGTGYGERKSFTVDSTPKRVSGTFTTRDQSSHEILHIYGLNSDNIYYLSDFQLQKGNKATDWTPAPEDTDKKIESVEHYASEIEQTAKGVEQKFSAIKTDYEKFKSTANSTFKQQADLIEGKVTETTYNKDKDNMTMRVSTAESTIKQHADRIESKVSKNGVVSSINQSPEQIKINAQRVSIDGDLVVRNGKVYIKDGVITNDLIASNAKIDFAKIANVKVTNAMISSLSADKIGSGIIDANKVLIRVKNGTQAIQIDDKGFESVDSRGRVRIHIGVRDIAGKGQSDPSTIRFFSGNGSDAASVGMNVNNDFIIGSQNNDVSTSLYSGKRMLYKADAHRFWFNQGPSSNYWEFNDYKDGDGDWHPRIYSNRSAGGYVGIKSRRLWRVYTNYLHCKDTIKLSTRDMKENINDFAPEMAQNIFDQIKIKSYHYKNDDKQSSRCRKSYGPIAEESPKEILDEQGDALVQDNYINVIAGALKYQQQRIDELEKIIKGES NA NA NA NA NA AK015_00537 333 hypothetical protein ATGCGTTGGATTGAAATGGCTCAAACGAATGAGGTTACTGTTAAGGGTACAGCCGATACAGCGCCTTATATTACGGCGGTCATAAAAAATGAAATACCTTATATGCAACTAAGTTGCAGAGATGAGATATTGAGAATACATTATAACTTTAAGAAAAATGATGTGGTAAAGGTGGATTTTGAAAAGCGTAAAGTATTTATTAATAATCGCTTGCAAATGGAAACAATCGATCTGCGTTATGCAGATTTTTTTAAATTGGAGCCGGGATATAACGAGATTAAGACGGTGCCAACTATGCAGCTGGAAGTAGAATATACGGAGAGGTGGTTGTAG MRWIEMAQTNEVTVKGTADTAPYITAVIKNEIPYMQLSCRDEILRIHYNFKKNDVVKVDFEKRKVFINNRLQMETIDLRYADFFKLEPGYNEIKTVPTMQLEVEYTERWL NA NA NA NA NA AK015_00538 525 smc_2 Chromosome partition protein Smc TTGGCACTTAATACACCAAACTTAAAACTAGTTAAACCAGAAATAACGGACAAGATAGACGTTTCTATTGCTAACTTTGCACAAAATGCGGATAAAGTAGATGCAGAAGCAAAGCAACTGCAAGATAAAACTACATCATTGCAATCTAGTTTAGATAAGACCAAGCAGGACGTTTCTAACTTACGGTCAAGCTTAGATAATACTAAAAAAGACGTATCTACATTAGAGAGTGGTTTATCTACAGTAAACAAAAATGTGGCTACTAACAAAAGTGAGATTGCTAGTAATAATAACAGAATCAACGCAATCGAAAGCAACATTAGTGAAATTAATAAGGACATTGTAACTATTAACCAAACTTTAGATGCCATTCAGAGTGGTCTGGACGAGGTAAAAAGCAGAGCACAGGAAAATAAAAATGCTATTGAAGCAATGCAAAACCAATTAAACCAATATGGCAATCGCCTTACAGCTTTAGAAAACTTACTGAAAGAGCCCGAAACCCCACCAGAAGGTGAAGCTTAA MALNTPNLKLVKPEITDKIDVSIANFAQNADKVDAEAKQLQDKTTSLQSSLDKTKQDVSNLRSSLDNTKKDVSTLESGLSTVNKNVATNKSEIASNNNRINAIESNISEINKDIVTINQTLDAIQSGLDEVKSRAQENKNAIEAMQNQLNQYGNRLTALENLLKEPETPPEGEA NA NA NA NA NA AK015_00539 537 hypothetical protein ATGTATCAGTTCGTAGATTTGAATGAAGTAGGAACGCGTAGCTCCTCTTTATCCATCCAAACTATATTTAACGGTATAAATTTAGATGAGCAATTGACAGATGAGACGGGAACCTTTATGACTTTAACTATTACAGGTCGTGGTAATATAAAACAAAACATCAAGACCACTCAAGTACCGGGTATGGATGGTGCTTTAGAAACGGATAAAACAACGTTTGACGTGAGAGAAATAACGGTTAAATACAAAATATCCGATTCCACCAATGAAGGGTTTAGAAGTCGTGTAAATCAATTAAACAACGTATTAAGAGGAAGCAAAAGACAGCTCCGTTTTACGGATGAAGATGCTTTTTACTATGCAACATTATCTGAAAACACTATTCCTGAAGAAAATAAAAACGAGTTAATATGTGAGTTAACCTTTTTATGTTCTAATCCTTACAAATACGGTCAACCCCACAAAACAATCGCTTTAAAAAAATATACTTGGGAAGAATATGCAGGGCAGACTTGGAGGGATTTAATTGGCACTTAA MYQFVDLNEVGTRSSSLSIQTIFNGINLDEQLTDETGTFMTLTITGRGNIKQNIKTTQVPGMDGALETDKTTFDVREITVKYKISDSTNEGFRSRVNQLNNVLRGSKRQLRFTDEDAFYYATLSENTIPEENKNELICELTFLCSNPYKYGQPHKTIALKKYTWEEYAGQTWRDLIGT NA NA NA NA NA AK015_00540 2613 hypothetical protein GTGTCTAACTATTCCATTGAGGCGGAAATAAAAGCGAACATTTCTAAATATAGAAAAGCTATTCAAACAGCTAGAAATGTCACAAAACGATTTAAAAAAGAATCAGAAGCTGCGAAAAATACAGATGTGGATGCGGATATCAAACCACTGAAACGAAACCTTAAAAAAGCAAAGAAGTTAATGCAGATGTTTACTAAGTCTAAAAACGAGGTTAACGTTGACGCTGATACTTCAGAGGCCGTAAGAAAATTGGGTATGCTTCAAGCGATCAAGACAGCACTAAATAAAAGGGTCGTTATTCCTATTGAAGCCAGAGTGAATAAATTTCACCGCATGGTTGGAAGGATTGCCAATAATATTAGAGCTTTAGAGACAGTTTCTATGAGTGTTTTTACTGGAATTGGCATAATAGCATCCACTGTTGCCATCCCTGCCCTTGCTGGATTAGTACCAGTTATTGCGGCTATTGGTAATTCGTTAGTTGTGGTTGGATCAGCGGCTGTTGCTTTAGGTGCTGGTTTCGGAATTGCTGGGGGTGCTGTACTTGCATTTGGTGCTGCGGCGTTACCTACAATAACAAGTATTGTAGATGGTACAGCAAAAGCAACAGAAGAAAATAAAAAGGCAGCAAAGGCATTAGAGACACTTAAAAGTTCTTGGCAAAAAGTCCAAGAAGCAATTGCTCCCCAAGTGGCTGTGGCTTTTGGTAATGCACTGAATGGAATAGAGGCATCCATCACATCCTTACAGCCCATGTTTGAAAACGTAGCAAGCACTGTGGCTTCTTTGGCAACCAGATTTAATGAATTTACTGGAAGTAAAACAGCACAAGCATTTTTTGATTATCTGAACAAAAATGCAGCGCCTATTTTGAATAAAATAGTAAGTGGCATTGGCGGATTTATAAAAGGACTAATGGATTTAACTGTAGCATTTGCTCCGTTAACAGATTTTGTTGTCCAAGGATTTGCTAATATGGGGCAATCCTTTGCTAATTTCACAGCTAGTATACAAGGTTCTGCCGCATTACAAAACTTTATCAATTTCGTAAAAACGAACTTACCATTAATCGGGTCAATATTCGGAGATACATTTATGGGAATCATTAATTTGTTTAGCTCTTTTTCTGGTAGTACTACATCTATATTGGAATCCTTGGCTACCATGGCAGACAGCTTTAGAACTTGGTCAGCCACCATATCAGAATCAGATGGTTTTCAAAAATTCATGTTATATGTGCAAGAAAATGGCCCAAAAGTGATGTCACTAATCGGTCAATTAATTACTTTTGTGATGAACATGGCCATTGCTTTGGCACCACTAGGAGCAACAGTGCTTGATTTGGCTAATAAATTTTTCACTTGGATTAATGGGTTAATGCAAACAAACCCGTGGATTGCAAAGCTGATTGCTATTGGTGGTTTTTTAATTGCATCACTTCTCAAGTTAGCCCCAGTTATAGGACTTGTTATCAATGCATTTTCTGGATTCATGGGCGCTATATCTAGGGTTCTTCCTTGGGTTACTAGAATTGGTGGAGCTTTGTTAAGGTTTGCAAGTGGTCCTATTGGTATAGCAATACAAGTCGTTATTTTGTTAGCAACTATAGTAATTAAAAACTGGGATAAAATTAAGGCTTTTACCTTAAAGGTGTTTACTGCAGTAGGCGCCTTTCTAATGTCACAGTGGAATAAAATAAAAAGCATTTTCAAAAACACTCTAACTGCAATTAAAATTGTTGTAAAAGCTGCATGGAACAGAATTAAGACTGTAACATCTACTGTTTTTAATGCGGTAAAAAGCTTTATTCGATCTGTATGGAATGGTATAAAAATCGTATTTAAAGTTGTTGTTAATGCGATTAAATCTGTTGTTCAGAACACTTGGAACAGAATTAAATCCGTAACATCAACCGTCTTTAATGGCGTGAAAAGCGTTGCGTCTAGTGTGTGGAACGGTATTAAAAGTACAATATCTAATATCGTTACAAGCATTAAATCAAAAGTATCTAATGTTTTTAACTCCCTAAAAGGTGTTGTTAGTAGTGCTTTTGGTAAAGTGAAAAGCGCTGTAAAATCTGGAATGGATAAAGCTTTAAATGTTGTAGTTAACATTAAAGATAAGTTTTTAGATGCAGGTAGGAACATTGTTGGTTCAATAGCTAAAGGTATAAGAGGAGCTGTAGATAAAGTTAAAGATGCTATAGGCAATGTAACACAGAAGATACGTGATTTCTTACCATTTAGTCCTGCGAAAGAAGGGGCACTTCGCGATATTATGAAAATACAAATACCGCAAAGTATTGCGAAGTCTATTGACCGGGGTAGTGGTGTTGCGGTAAAGTCTATGGCTCATTTATCTAAAGATATAGATAAAGAAATGCCTAACGCTGAAATGAAATTCAATACTGCTCAAATTACGTCTAGTTTAAGGGGGTTAAGGAGAAGTGCTACTACCCAAGTCCAAAGTGCTATAAATGCTGATGTAGACGTACAGAAACAGCCTGCACATATAAATATCTCCTTAGGTAGGCAAGAATTTAGTGTATTTGTAGATGATATAACCGACCAACAAACAAGAAGTGCTTTTTACAATAAAAAAATAAAACGATAA MSNYSIEAEIKANISKYRKAIQTARNVTKRFKKESEAAKNTDVDADIKPLKRNLKKAKKLMQMFTKSKNEVNVDADTSEAVRKLGMLQAIKTALNKRVVIPIEARVNKFHRMVGRIANNIRALETVSMSVFTGIGIIASTVAIPALAGLVPVIAAIGNSLVVVGSAAVALGAGFGIAGGAVLAFGAAALPTITSIVDGTAKATEENKKAAKALETLKSSWQKVQEAIAPQVAVAFGNALNGIEASITSLQPMFENVASTVASLATRFNEFTGSKTAQAFFDYLNKNAAPILNKIVSGIGGFIKGLMDLTVAFAPLTDFVVQGFANMGQSFANFTASIQGSAALQNFINFVKTNLPLIGSIFGDTFMGIINLFSSFSGSTTSILESLATMADSFRTWSATISESDGFQKFMLYVQENGPKVMSLIGQLITFVMNMAIALAPLGATVLDLANKFFTWINGLMQTNPWIAKLIAIGGFLIASLLKLAPVIGLVINAFSGFMGAISRVLPWVTRIGGALLRFASGPIGIAIQVVILLATIVIKNWDKIKAFTLKVFTAVGAFLMSQWNKIKSIFKNTLTAIKIVVKAAWNRIKTVTSTVFNAVKSFIRSVWNGIKIVFKVVVNAIKSVVQNTWNRIKSVTSTVFNGVKSVASSVWNGIKSTISNIVTSIKSKVSNVFNSLKGVVSSAFGKVKSAVKSGMDKALNVVVNIKDKFLDAGRNIVGSIAKGIRGAVDKVKDAIGNVTQKIRDFLPFSPAKEGALRDIMKIQIPQSIAKSIDRGSGVAVKSMAHLSKDIDKEMPNAEMKFNTAQITSSLRGLRRSATTQVQSAINADVDVQKQPAHINISLGRQEFSVFVDDITDQQTRSAFYNKKIKR NA NA NA NA NA AK015_00541 294 hypothetical protein ATGACTTTAACTGAATTTCTTTATAAGAAATATGCCCAAGAATATAAAGAAATTGATGAACTTTATAAACTGCATTTAGCGGCCTTTTTGAATAGAAACGCCACATTGACCAAGAATGTAGGAACAGATAAAAAGCCTAAAGAGGAATTTGTGTACAAGAAGTTTGATGATTTTTTCGATTATGACCGAATTATAAAACAAGTAGATGAAGGGTTTACCAAGAAGGAAGAAAAGAAGGGAAACAAGCGTTTATCTCCAGCTGAATTAGCAGCAATACGAAACAGAAAGGGGTGA MTLTEFLYKKYAQEYKEIDELYKLHLAAFLNRNATLTKNVGTDKKPKEEFVYKKFDDFFDYDRIIKQVDEGFTKKEEKKGNKRLSPAELAAIRNRKG NA NA NA NA NA AK015_00542 381 hypothetical protein ATGCATATTAACTTTAATGGTAGAGAAATTGAACTTTCATTCGGACTTCGTACATTAACAGAAATTGATAAAGATTTGGGCTTAGAAATTGAGGGAGCAAATCTTGGGGAAGGATTAGAAATGCTTGTACCTAAGTTACAGTCCGGCAATATCATAGGCTTATCCAAAATTATTAAGGCAGCTACCGCACATGACAAAAAGGCACCTAAAACATATGAGGATCTAGAACAAATACTAGATGATATCGCTGAAAACCAAGGCTTTGAGAAATTTGGCCAACAAGTGATTGAAGAATTGGGAAAGCGACCTATGACCCGAAACCTAGTACCAGAAGGAATGAAGAAAGAGAAAAAAGAAAAGACGGTACCAAGCAAGGGTTAA MHINFNGREIELSFGLRTLTEIDKDLGLEIEGANLGEGLEMLVPKLQSGNIIGLSKIIKAATAHDKKAPKTYEDLEQILDDIAENQGFEKFGQQVIEELGKRPMTRNLVPEGMKKEKKEKTVPSKG NA NA NA NA NA AK015_00543 558 hypothetical protein ATGCCAGAAATTGCAAACGGGGTACACAAAGTATTGTACTTTCGTAAATTAGGGGAAGCCGCCAACGCGGCAAAGCTAGTATTTCAAACGGAACATGCCAAGTCTTATGCACGTGATCGTGAATCAACACCTACAAAAGATGGGAATGTACAAGGTTCTGCACCATTAGAGGATGAGGTAAGCATTACTGCTATTCAATCCACAGACGATCCTACATTTACCATGTTGGAGGATTCCATTGTTGAAGATTTTCCTGTAGAAATGTGGGAAGTTGATTTAGCTAAAAAGAAAGTATTTAACGAAGACGGAAAAGAAATAACAAAGTTTGCTGCTGAATACCGTCAGGGTTATATTACCGAGTGGGAAGCGACGAGTTCCGCCGAGGATAACCCAGAAGTGGAAGGAACATTTTTAACAGTAGGAGTAAGACAAAAAGATTACGCTACTTTACCAGAAGGGGATATTGAGACACTCTCCTATGTGTTTCATGACATATTGGAGACTGATCCAGCTGATGACGGACTAGCCAAAAAGCCTGAAAGTGATGACACTCCCTAA MPEIANGVHKVLYFRKLGEAANAAKLVFQTEHAKSYARDRESTPTKDGNVQGSAPLEDEVSITAIQSTDDPTFTMLEDSIVEDFPVEMWEVDLAKKKVFNEDGKEITKFAAEYRQGYITEWEATSSAEDNPEVEGTFLTVGVRQKDYATLPEGDIETLSYVFHDILETDPADDGLAKKPESDDTP NA NA NA NA NA AK015_00544 390 hypothetical protein ATGCAATCACCACAAATGCAATTGTTTAACCACATATTCAACAGATCATTAGCTTTAGGGTATTCAACCATTGACTATTCTCCAGTGAAGAATAAGGAGTTAACTTATCCGTTTGTATACGTGGGTGAAAGGGTTAGTGAGGACGTCATAAACAATAAACAGGTTATTACAGGCAAGCTCATGCAAACCGTCCACGTTTGGGCTTATGCGAATAACAGAGGTCTGTTTGATGAGATGATGTTTAATCTACAAAATGAATTTAGAATCGTAACTAGATTGCCTAATTACTACTTAAAGTTAGAAGGCTTGAATGTTGATGATATGTACGATAACACGACAAGCGATGACTTGCTTCACGGAATTATTGAAGTAGAGTATCGCTTGCTTTAG MQSPQMQLFNHIFNRSLALGYSTIDYSPVKNKELTYPFVYVGERVSEDVINNKQVITGKLMQTVHVWAYANNRGLFDEMMFNLQNEFRIVTRLPNYYLKLEGLNVDDMYDNTTSDDLLHGIIEVEYRLL NA NA NA NA NA AK015_00545 339 hypothetical protein ATGGACTTAGACGATTTAATCAAACAGTTTGACCGCATGCATGACAACATTGAGGATGATGTTGGGGAAATCGTTAAAAACAATACTATTGAGATGACTTCCCAAACGGTAGATAACGCCCATAAGCGTTTTAATAAGGGCTACGCAACGGGTTATACAGCACGAAATATTGAAACAGATGTAATAGATAAGCTTCACGCCAAAACAATTTCAAAGTCCGAGCATTCGGGCTACCTAAATTATGGTACAAGGTTCATGGATGCCACTTGGTTTTTACGAGATGCGTATTTAAACCAGCGCGAAAAAGTCCATAAAGATTTAAAAAGATTGGTAGAGTAG MDLDDLIKQFDRMHDNIEDDVGEIVKNNTIEMTSQTVDNAHKRFNKGYATGYTARNIETDVIDKLHAKTISKSEHSGYLNYGTRFMDATWFLRDAYLNQREKVHKDLKRLVE NA NA NA NA NA AK015_00546 321 hypothetical protein GTGCTTTTTTTGAGGTACACAGATAGAATCACGTTGCATAAAACACTTGGAAGGCAATATGACCCATCGCAAGGGAAAACAGTGGTAGCTGTTGATGAAGGGGTTGTATTGCCTTGTAATTTGTCTCCTGTGACGTTAGAAAAGTCAGCAAAGGTCTTTGGTTCTGTTGATAAGAAAGTCGCCACAGCACGCCTGCAACGTCCGTATAAAGATTATGCAGACAAAGCTGTCATCAACGGTCAAAAATATAACGTTCTCCGTCATATTCCTTATAAGTCAGAGAGCGTTTTTTATTTGGAGGGGGTTGACGAATGGACTTAG MLFLRYTDRITLHKTLGRQYDPSQGKTVVAVDEGVVLPCNLSPVTLEKSAKVFGSVDKKVATARLQRPYKDYADKAVINGQKYNVLRHIPYKSESVFYLEGVDEWT NA NA NA NA NA AK015_00547 339 hypothetical protein ATGGATACTTTAGGTAACGTAAAGACTGTGTTGGGAATAGAGGATGAGCTACAAGATAAGGTTCTAACGATAATTATTAACAATACTCGTTCCCACTTAACATTGTGGTTGAAAAATCATACTGATTTAAAAGAGATACCGGAAGAACTGAACTTTATTGTTGAAGAACTGGCTATCGCTCGCTTTCAACGTATCGGATCAGAAGCAATGAAATCGGAATCTGTGGAGGGGCATTCCGTCACCTATAATGAGGATGACTTTGCCCCGTATCTATCAATTCTAAGTGCTTATATTCCTGACAAAGAAGAGAAAAAGCAAGGAAAGGTGTGCTTTTTTTGA MDTLGNVKTVLGIEDELQDKVLTIIINNTRSHLTLWLKNHTDLKEIPEELNFIVEELAIARFQRIGSEAMKSESVEGHSVTYNEDDFAPYLSILSAYIPDKEEKKQGKVCFF NA NA NA NA NA AK015_00548 321 hypothetical protein ATGGCCACAAAAGAAGAATTAAAAAATGTATTTGTGACGGGTGCTATTCCAACAGAACAGAACTTTCATGATTTGATCGATGTTGCTGGTTCTCCTGGGGAAAAAGGTGACGCAGGGAAATCAGCTTATCAAATTGCTGTAGACAATGGTTTCAAAGGGACGGAGCAAGAGTGGTTAGCTTCTCTAAAAGGAGCAAAAGGGGATTCTGTAAAAGGCAAGGATGGTGTTAGCGTCACTGATATTGCATCAGACGGAACTAATATCACTTTTACTTTGTCAGATGGCAGCACGAAGGAAATTCCTTGGCCAAAACAAGGGTAA MATKEELKNVFVTGAIPTEQNFHDLIDVAGSPGEKGDAGKSAYQIAVDNGFKGTEQEWLASLKGAKGDSVKGKDGVSVTDIASDGTNITFTLSDGSTKEIPWPKQG NA NA NA NA NA AK015_00549 1056 hypothetical protein ATGCCAAACATTGAAGAGTTTTTGACTGACCAAGCACTACAAGATTATACACAATCACGTGAATATCCATTAACAGTTGGTGATGGATTATTCCCGACTGATCGAACAGAAGAATTTGAAATCAAATATTTGTTAGGTAGTAATGCAGCGCCAGTATCGGCATCTGTACATGCTTACGATACGGAATCGCAAGTTGGTTCTCGTGATGGGTTGGAAGAAATGAGCATGGAACCTGCGTTGATTAAAAGAAAAATCAAAATGGGAGAACGACTAATTAAGTCCATGACGCAAGCTCGTACTAATGCAGAAGTGCAACGTGTTATTGATCGTATTTATAATGATGTCGATAACATGGTAAACGCTGTAAGAACTCGTATTGAACGTATGCGTTTTGAAGCTATTTCAACAGGTAAACTTACAATTAATGAAAATGGATTCAAAGGCACTATTAACTATGGTGTAGCAAAAGATCAAAAGGAAACATTAACAGATACTAAAATTTGGTCAGATGCAAAGGCTAAACCATTAGATGATATTGATCGTTTTGTAAACAAAGTTGTAGAGCTTTCGGGCGTTACACCAACAAGAATTTTAACATCCCGTAAGGTGTTCAACGCTTTAAAACGTCATGATTCGGTACGTAAGGGTATTTTTGGTGTTAATAGCGCACGTCTTGTTACGAACGCTGAACTTAATTCGTTTCTACAAGAACAAGGCTTACCAGCTATTGCAACGGATGATCGTGTATATCGGGAACAATTAAATAATGGTACTTACGTAACAAAAAGGTTTTTCCCGGAAGATGTCTTTGTATTATTGCCTAGTGGTGAACTTGGAAAGACAGTTCACGGCATCACTCCTGAAGAAGCAAATATGCGTTACATGCAGACAGCAACGTTTGAAAACTTTGGTAATATTGTTGCTCAAATTTATTCAACTAACGACCCTGTGGCACGTTGGACAAAAGCTGTAGCACTTGCAATGCCTTCATTTCCAACTGCGAACCAGATCTTTATTGCCAATGTTTTAGGAGGAGACAATAACGACACTCCCTAA MPNIEEFLTDQALQDYTQSREYPLTVGDGLFPTDRTEEFEIKYLLGSNAAPVSASVHAYDTESQVGSRDGLEEMSMEPALIKRKIKMGERLIKSMTQARTNAEVQRVIDRIYNDVDNMVNAVRTRIERMRFEAISTGKLTINENGFKGTINYGVAKDQKETLTDTKIWSDAKAKPLDDIDRFVNKVVELSGVTPTRILTSRKVFNALKRHDSVRKGIFGVNSARLVTNAELNSFLQEQGLPAIATDDRVYREQLNNGTYVTKRFFPEDVFVLLPSGELGKTVHGITPEEANMRYMQTATFENFGNIVAQIYSTNDPVARWTKAVALAMPSFPTANQIFIANVLGGDNNDTP NA NA NA NA NA AK015_00550 336 hypothetical protein ATGTACGTATCAAAGAAAACGACTTATGATAGCAATCCAAGTTTTGTTTCGAGTGAACATATTATTAGTCGCACTCGTACAGCAACGCAATCTATGGGAGTTAATCAAAACGGAAAAATTATTTTAAAAGCTGGGACAGTTTACCCTGCAAATGATGCTACAGCGCAAGGAGTTACTTTACATGATGTTGAATTAACTCATGGCGATCAACCAGTAGGTGTTATGGTAGAGGGCTATATTTATGAGTCTCGTTTACCAGAAAAAGTATCTGATGAAGCAAAAACGGCAATGCAAGAAATTAAATTTGAAGAGTACAATGCAACGGAGGGTGAATAA MYVSKKTTYDSNPSFVSSEHIISRTRTATQSMGVNQNGKIILKAGTVYPANDATAQGVTLHDVELTHGDQPVGVMVEGYIYESRLPEKVSDEAKTAMQEIKFEEYNATEGE NA NA NA NA NA AK015_00551 639 hypothetical protein ATGTTTAAAGATATGAAAAAACAAATAAAACCATTAAAAATGCAGTTACAATTTTTCGCGGTGGAAGATCCAGACCCAAAAGACCCACCTGCAGATCCACCAGAAGATGATCCAAAAGGAGAACCAGAAGGAAAAGAGACTTTCTCAAAGTCGGAAGTGGATTCGGCAATTAGTAAAGCTGTTAATAATGCTTTAAAGAAACGTGAAAAGAAGTTTGAGCAGGAAAAACAACAAGCTATTGAAGATGCTAAAAAAGATGCTGCTGAGTACGCAAAAATGACAGAAAAAGAAAAACAAGAAGTTGATTATCAAAAACGTATGAAGCAGTTGGAACAACGGGAGCGCGAGTTGAATTTAAAACAACTGCATTCAGAAATTGCAACTGATTTGAAAGAAGGTGGCTTGCCCATTGAATTTGCAGAATCTCTAATTCACTTAGAGGACAACGAAAAAATTAAAGAAGCAATTACCGGAATAAAAAAGCAATTTGATGAAGCTGTAAATGCAGCCGTTAAAGAGAAACTGCGTCAAGAAACGCCAGGTAGTGGCGTGGGAACCAGTAAAGGTACAAACACTATTGCTGAGATTCGCAATAAAAAAGACAAAGAACAAAATAAAGCGCCTGATTTGTGGGCATAG MFKDMKKQIKPLKMQLQFFAVEDPDPKDPPADPPEDDPKGEPEGKETFSKSEVDSAISKAVNNALKKREKKFEQEKQQAIEDAKKDAAEYAKMTEKEKQEVDYQKRMKQLEQRERELNLKQLHSEIATDLKEGGLPIEFAESLIHLEDNEKIKEAITGIKKQFDEAVNAAVKEKLRQETPGSGVGTSKGTNTIAEIRNKKDKEQNKAPDLWA NA NA NA NA NA AK015_00552 219 hypothetical protein TTGATTTATATTGTCGTAAAAGATGAAGGTGTATATGCGGAAAGGGAAGTTTATAACGAAGCTGTCTTTGATAGTAAAGAAAAAGCTATTCGATATATTGAAAAACAAGGGTATGTTTACAATAGCGATTATAAAGAATGGGAACACCCGTCAAAAAGTGGATTATCGGATATGTGTAGGATTGAAGAGTGGGAAATAAACACTATTTTGGATAACTAA MIYIVVKDEGVYAEREVYNEAVFDSKEKAIRYIEKQGYVYNSDYKEWEHPSKSGLSDMCRIEEWEINTILDN NA NA NA NA NA AK015_00553 357 hypothetical protein GTGAAAAAAGTAGAACACGATTTATTAACAAACAAATATACAGAGGTATGGCACGAAGAAGAATTTAATTTTAATGCACCGCATCATTTTCAAGTGAGACTATCGGGCGAATCTCTAGAAATTTTATCCGAAGTCGATTTTCAGGAAGGAGCGATTAAGGAACATGGCATTAATGGTGTAAATAATGAAGATTTAATTGCTATGGTTATCTGTCGTTTAGAGCATTTTAATCAATCGGAATTTAGGTGCAGAGAAAACAGCATGGCAATCACTAAACTAGAAGAAGCCTTGCTCTGGCTCAGAAAGAGAACGATGGGAAGGGAAAAACGAGGAGTAGAAGGAACACACAATAAATAA MKKVEHDLLTNKYTEVWHEEEFNFNAPHHFQVRLSGESLEILSEVDFQEGAIKEHGINGVNNEDLIAMVICRLEHFNQSEFRCRENSMAITKLEEALLWLRKRTMGREKRGVEGTHNK NA NA NA NA NA AK015_00554 237 hypothetical protein ATGAAACCCATCGACTTTAAAGAAGCTAAAGCGAAGAAAGAAGGAAACTATACCCCGAAAAGATTGGCAGAAGATTTATTAAATGCCATTGAAGATGGAAAGATTGAAAAACTTTGCTATGTAATAAAAAGCAAAGAAGGAGATTTGGAAGTCGGCTGGAGTGAAATGTTGACAACGGAAGCAATTGGTTATTTAGAAGTAGGTAAGCAATACACTATGGATGATATGAGGAAGTAA MKPIDFKEAKAKKEGNYTPKRLAEDLLNAIEDGKIEKLCYVIKSKEGDLEVGWSEMLTTEAIGYLEVGKQYTMDDMRK NA NA NA NA NA AK015_00555 165 hypothetical protein ATGGAACGGTATCTTAAATCCATTGATAAAAGCTTAAAGACGATTGCTAGCGAGTTAAAGAAGATGAACCAAAGCCAACAGGCAGAACCATTTGAGAAGAAATATAAAGGTGCACCTTGTTGTGATGTGGATATTGAAAATATAAGGCCTGAAGGTAGTATTTAA MERYLKSIDKSLKTIASELKKMNQSQQAEPFEKKYKGAPCCDVDIENIRPEGSI NA NA NA NA NA AK015_00556 279 hypothetical protein GTGATTGATTTGAAAGATCAACTGTTAAACCTTACCCTTCCAAAAAAATACAAAGAAAACTTAATTCAATACACTCCGGGATTGGACAATGTACCTGAATGGATTGACCTTCCAGGTTATACAAAAGAACAGTATCAAAAGCTTACAACTTTAGTTAGTATTGAGTATATGAAATATACGTTAAGTGAAGCTATGAAAGATAATGAGATAACTCAAGATGAAATTGAACTAACCAAACAAATGATTGACGCACGAATAAAAGAATATAACGAATTGTAA MIDLKDQLLNLTLPKKYKENLIQYTPGLDNVPEWIDLPGYTKEQYQKLTTLVSIEYMKYTLSEAMKDNEITQDEIELTKQMIDARIKEYNEL NA NA NA NA NA AK015_00557 1578 hypothetical protein GTGCCTGAACAAGAAAGCTATTGGGAAAAGAGAGAAAAAGACCATATCAAAAGAGAACAGATGAAAGACGAGGAAGTAGCCAACGAAATAGAAAGGATTGTAAAAATTGCTTTACTGGAAGCTGAAAAAGAAATAAGAAACTTTTATTCTAGATATGCAGGAAAAAATAATTTAACTCCTGCAGAAGCAAAAAAAGCAATATCTGAATTTGATGTACAAGCTTTTGAAACTATTGCAGCAAAGTATGTAAAAGAGAAAAATTTTAGTGACAAAGCTAATAAAGAGCTATACACGTATAACACTAAAATGCGCATTAACAGGCAAGAACTACTTATGATGTATTTAAATGCTCATCTTACTGCAATGGCTAACGAACAGGTAAAGACAATGCAATCATACTTTGAAGATGCAGCTAGTTCAGAAGTTGCTAGGCAAGCTGGAATACTAGGTGCTAATATCGTGATTACTCAACCAACCCTTTTGTCCATCGTTGGAGCTTCTTTTCATGGTGCTGTATGGTCTACACGTATTTGGGATGATATGGTGGGATTACGGGAAGAATTAGATAGAATTATAGCTAGTTCTATTACTCGTGGAGCGCATCCTGATAAATTTATTAAAGATATACGGGAACGGTTTAACGTTTCTACGTTTAACGCCAGAAGGTTATTAATAACTGAGGTTGCTAGAGTACAAACGGAAGCGCAAAAGATTTCCTATCAAAAGATCGGTGATGAAGATGCGGAATATGAATTTATAGCTCTCATGGACAACAGGACTACGAAAACATGTAAGCATTTGAATGGTAAGAAGTTTAAAGTTAAGGATATGAAGCCAGGTATTAATGCGCCTCCTATGCATCCTTTTTGTAGATCAAGCACTGCATTAGATTTAGGAGATTGGCGTAGTAAATTCTTTGAAGAAAAGAAAAATACGTACTCTCTACCAATGGATAAAGGGAATCAGATTAAAAATGGCGGATCTGATGATGAAGAACATAAGACATATCCTATAAAAAAATCAAACGTGCGGTGGAATGAACATTTTGATATTAGTGAAAAAGCTAGCAGTATATTGAACGGTATCCATTCTGAGTTGAACGAGTTTATGAATAAAAACCGACGCGAGAAACTTTTCTTACTCAACAAAGAAGCAAATGATATTGTAAATGAATTGGAAGGTAAAGCTATTGATCAAATTGATTTTACTAAGGATTTGATTAAAGTATTAAAGGAATCGAATGCGAACAGCTTAGTTTTGGCTCACGTACATCCATCAAAGACACCATTCTCTAGATATGACATCAAGGCGCTAGTTAAATATAATTCTATCAGTGAGTTAACTTTAGAGAGTGCTGACGGAGGTAAGTATCTGTTAACAAGAGGTTCTTTTAAATCAAGTTATATAAATAAGTTAACATTCGACAGTAAATATGAGAAAATATATTGGAATGTAGCTAAGAAATATCCCGATTTAGAAGACGAAGTTAAACGCGTAGAAATATGGGATGACTTTATGTATGAAGTTAATCAAGAAGTTGCTAAGTATTATGGAATGAAATTCAAGAAAGTTGAGTGA MPEQESYWEKREKDHIKREQMKDEEVANEIERIVKIALLEAEKEIRNFYSRYAGKNNLTPAEAKKAISEFDVQAFETIAAKYVKEKNFSDKANKELYTYNTKMRINRQELLMMYLNAHLTAMANEQVKTMQSYFEDAASSEVARQAGILGANIVITQPTLLSIVGASFHGAVWSTRIWDDMVGLREELDRIIASSITRGAHPDKFIKDIRERFNVSTFNARRLLITEVARVQTEAQKISYQKIGDEDAEYEFIALMDNRTTKTCKHLNGKKFKVKDMKPGINAPPMHPFCRSSTALDLGDWRSKFFEEKKNTYSLPMDKGNQIKNGGSDDEEHKTYPIKKSNVRWNEHFDISEKASSILNGIHSELNEFMNKNRREKLFLLNKEANDIVNELEGKAIDQIDFTKDLIKVLKESNANSLVLAHVHPSKTPFSRYDIKALVKYNSISELTLESADGGKYLLTRGSFKSSYINKLTFDSKYEKIYWNVAKKYPDLEDEVKRVEIWDDFMYEVNQEVAKYYGMKFKKVE NA NA NA NA NA AK015_00558 1380 hypothetical protein TTGGATAGTAGTAAAAAGCGTTTTTCACATGAAGCTAATAAACAGTATGTATACGCTAGTACAGACGAACTGTTAGATAACTTGGGTGATTTAAAAGAGATGGTTACTACTCATGAGAAGCATCAGGCTAGTAGATTAAAAGAGTTGGAAAGTTATTATCTTGGGGATAACACTACTATTTTAAAGAAAAAACGTAGGAAAGAAGAACATTTAGCTGACCATAGAGCAACGCATAATTTCGCTAAATACGTTTCTCAGTTTATCCAGGGGTATATGGTTGGTGTTCCAATTAAAATGCAATATGAAGATGACGATAAAGCAACCAATGAAATACTTACTAGCATAAATCGTATAAATGAGGCGGATGCCCATAACAGCGAATTAATACTAGATTTATCTATATATGGTCGAGCATATGAATTACTTTTCCGTTCTCAAGATGACGAAGTAAAATTTGTTTCTCTTGATCCAAAAGGGACGTTTGTCATTTACGATAAAACGGTTGAAAGAAAGTCTATTGCAGGTATTAGATACTACCGTGAAGATGAGGGGACGTTTATAGAGCTGTACACCAAAACACAAAAAATGAAAATTGTAAATGATGATGAGGGAAAATTAAATATCGTTGATAACGAACAACATTATTTCGATGGAGTGCCAATTATTGAATATGTGAATAACCGTTTTAGGCAAGGGGACTTTGAAAACGTGTTGAACCTAATTGATTTATATGATGCTGCACAGTCTGATACTGCCAACTATATGACGGACATAAACGACGCAATGCTTAAAATTGTTGGAGACTTAGGTATAGATGTTGAAGAAGCAAAAAAAATGAAAGAAAGAAACATATTACATTTGAAGCCAGGTACAGATGCTAATGGAAAACCGTTAAATGCTGATGCAGATTACATTTACAAAAAATATGATGTTGCTGGTGTAGAAAAATATAAAGATAGAGTACAAGCTGACATCCATAAGTTTACTAATACGCCAAACATGAATGATGAAAGTTTTGCAGGTGTTCAATCCGGAGAAAGCATGAAATATAAGCTATTCGGACTGGAACAAGTTAGAGCAACAAAGGAAAGGTATTTCAAACGTTCGTTGCGTACTAGGTACAGGTTAATTAATAACATCTTAGAGTTTGCACAAGAAGGTAGCTTTGACGCTGATAAAATGACAATTACTTTCACACCAAACTTACCGAAATCAGCAAAAGATGAAGTAGATATGTTTAATTCACTTGGTGGTGAGTTATCGGAGGAAACAAAATTAAGTTTACTATCTCTCGTTGAAAACCCTCAAGAGGAATTGAAACGTTTGGAAAAACAACGTAAGAAAACACGCCCTGGTCAATATCTGGACACACCGAATTGA MDSSKKRFSHEANKQYVYASTDELLDNLGDLKEMVTTHEKHQASRLKELESYYLGDNTTILKKKRRKEEHLADHRATHNFAKYVSQFIQGYMVGVPIKMQYEDDDKATNEILTSINRINEADAHNSELILDLSIYGRAYELLFRSQDDEVKFVSLDPKGTFVIYDKTVERKSIAGIRYYREDEGTFIELYTKTQKMKIVNDDEGKLNIVDNEQHYFDGVPIIEYVNNRFRQGDFENVLNLIDLYDAAQSDTANYMTDINDAMLKIVGDLGIDVEEAKKMKERNILHLKPGTDANGKPLNADADYIYKKYDVAGVEKYKDRVQADIHKFTNTPNMNDESFAGVQSGESMKYKLFGLEQVRATKERYFKRSLRTRYRLINNILEFAQEGSFDADKMTITFTPNLPKSAKDEVDMFNSLGGELSEETKLSLLSLVENPQEELKRLEKQRKKTRPGQYLDTPN NA NA NA NA NA AK015_00559 1257 hypothetical protein ATGACAGCTAACCTAGACGTTATTTACACTAAAAAACAACAAAAGATTTATAGGCGTTGCGTTAACGACGATTGGTTCATGCTTATAAACCATGGCGCTAAACGATCAGGAAAAACCGTATTAAATAATGATCTGTTTTTACAAGAGTTAATAAGAGTAAAGGAAATAGCCACCAAACAGAATGTTGAAAAGCCGATGTACATTGTTTCTGGTGCAACACTAGGAACCATACAAAATAACATTTTAACGGAATTAACCAATAAATACGGCATTCAATTCGCATTCGATAAGCATAATAATTTCACTTTATTTGGTGTTTATTGTGTGCAAGCCGGGCATTCCACTATAGCACATCTGGAAAAGATCAGAGGGATGACAGCCTTTGGTGCATACGTAAACGAAGGAACACTTGCTAATGAAGAAGTATTCGACGAAATAAAATCTCGTTGTTCAGGGAAAGGTGCCAGGATATTAGTCGACACCAACCCAGATCACCCTGAACATTGGCTGTTAAAGGATTATATTGAAAGTGCTGCCGAGGGAATCATTAGCTACTCTTTTCAGCTAGATGACAATACCTTTTTATCAGAACGCTATCGTAAGAACATGATTGAAACCACTCCTAGTGGAATGTTCACCGATAGAAATATTTATGGTAAGTGGGTTAGCGGAGATGGTGTTGTATATGCAGATTTTAATAAAGAAAAGCATACGGTAACGAAAGATGACCTAGCCAACATTAAAATGGTTAGGTATTTTTGTGGCGTTGACTGGGGATATGAACACTTTGGCGCCATTGTAGTTGTTGGTGTAGATGCAGATGTAAATTACTATGTTGTTGAAGAATATGCGCATCAACACTATGACGTAGAACATGATTGGGTTCCAATTGCTAAAGAAATTATAGCTAGATATGGCAATATCCCATTCTATTGTGATAGTGCTAGACCAGAGTATGTAAAGAAATTTAAAGATAAAAAAATTAATGCTCATTTTGCTGATAAAAATAAAATGCTGGGCGTTGAAACAGTAGCAACTCTTATCAAAAGTGATCAATTTTATATTAATTATGAGGCATGTCCACGATTTAGGGATGAAATTTATAAATATGTATGGCATAAAACGGAAGATGAGCCGATCAAAGAATTTGATGATGTTCTGGATGCTATTCGATACGCTATTTTAAGTGACAAAACAATTGCTAAGCAACCATCTAGAGAAGAACAATACGAAGCATTACAACATCTTGGCTTGTAA MTANLDVIYTKKQQKIYRRCVNDDWFMLINHGAKRSGKTVLNNDLFLQELIRVKEIATKQNVEKPMYIVSGATLGTIQNNILTELTNKYGIQFAFDKHNNFTLFGVYCVQAGHSTIAHLEKIRGMTAFGAYVNEGTLANEEVFDEIKSRCSGKGARILVDTNPDHPEHWLLKDYIESAAEGIISYSFQLDDNTFLSERYRKNMIETTPSGMFTDRNIYGKWVSGDGVVYADFNKEKHTVTKDDLANIKMVRYFCGVDWGYEHFGAIVVVGVDADVNYYVVEEYAHQHYDVEHDWVPIAKEIIARYGNIPFYCDSARPEYVKKFKDKKINAHFADKNKMLGVETVATLIKSDQFYINYEACPRFRDEIYKYVWHKTEDEPIKEFDDVLDAIRYAILSDKTIAKQPSREEQYEALQHLGL NA NA NA NA NA AK015_00560 891 hypothetical protein ATGCCTAGACCAAGAGACCCAAGACGGGAGAAAGCTTTTTTAATCTGGAAAGAAAGTCAAGGAAATAAAAAGTTAAAAGATATCGCTGAGGAACTTGGTGTATCTCCCAGCACAATACGTAAATGGAAATCCCAAGATAAGTGGGATAAAGATTCTAACGAGAGCGTTCCTAAATCCAATAGGAGCGTTCCTAAACGTTTTGGCGCACCCAAGGGGAACCAAAATGCTAAGGGTAACAAGGGTGGACGTGCTCCATTCGGCAACCAAAACGCTAAAGGCAATAAAGGCGGGAAGCCACCTCGTGGAAACAAGAATGCAGTTACTACTGGCGAATACGAAACAATCATGTGGGATTATTTAGATGATGAGGAAAAAGATTTATTTGAATCCATTGAAACAGATCCTCTCTATCAGATTGATATTACTATTCGCGAATTATCCATTCGTCAACGCCGAATGATGAAACGCATTAAAAAGCTTGAAAATGGACTTACAGAATCCGAAAAAAGAGTGCTGCAGGAATTAAAAAACTCCAAGGATATTCACGTTGTAGAAAAAAACGGGGTACAAGTAAAGGTTCCTGTTAAAAAATCAGCTCTGGTGGTAACGGAGATTGAGGAAACGCAATACAGGAAAATTGATGACATATTAAACATTGAGGAAGCTTTAACGCGAATTACTAACCAGTTAGTTAAAGCTATTAAGCAGAAGCATGATATTCAGAAATCTTATGGAGAACAACCTTTAAAAGAAGAACTGCTACAGGCTAATATTGATAAAACCAAAACAGAGGTCGCTAAGCTTGAGAAAGACTTACAAGCCGATACTTCTACGGAGGATAAATTAAAAGCATACTTTGAAGCTCTAGGTGGTGCTTTTTATGACAGCTAA MPRPRDPRREKAFLIWKESQGNKKLKDIAEELGVSPSTIRKWKSQDKWDKDSNESVPKSNRSVPKRFGAPKGNQNAKGNKGGRAPFGNQNAKGNKGGKPPRGNKNAVTTGEYETIMWDYLDDEEKDLFESIETDPLYQIDITIRELSIRQRRMMKRIKKLENGLTESEKRVLQELKNSKDIHVVEKNGVQVKVPVKKSALVVTEIEETQYRKIDDILNIEEALTRITNQLVKAIKQKHDIQKSYGEQPLKEELLQANIDKTKTEVAKLEKDLQADTSTEDKLKAYFEALGGAFYDS NA NA NA NA NA AK015_00561 222 hypothetical protein ATGGAGAACGGAAGCGAACACTCCAAGGAATTTATTATAGATCATGAAGCAATGTTGATGAGTGAAATAATTGAATCAAAGGAAAAGTACCGAAAAATTATACAAGCTGGTATAGCACAGTGGATCAGAGATTTTCAAAGTGGCAAAATAAAAATTTCCACTGTGGATGATTTGAAAAAGCTCATTGAAATAGATTTAGAATTGCAGAAAGAAGATTATTAA MENGSEHSKEFIIDHEAMLMSEIIESKEKYRKIIQAGIAQWIRDFQSGKIKISTVDDLKKLIEIDLELQKEDY NA NA NA NA NA AK015_00562 1026 hypothetical protein ATGAACTGGGATTGGTCACTTAAGGAATTAAGCAAAATAAAAAAGAATGGCCATAAGGTATTTAGTTGCTTTTCATGTGGTGGCGGTTCAAGTATGGGGTATAAATTATCTGGTTACGACGTTATAGGAAACGTGGAAATTGATCCAGATATGATGAAGATCTATCAAAAGAATATTAATCCTAAGTATCCATATTTAATGCCAGTTCAGCAGTTTAAAAAATTAGACAACAATGCATTACCTAAAGAGTTATTTGACTTGGATATATTGGATGGTTCACCTCCATGCAGCGTTTTTTCTACTGCTGGGAAAAGAGAACAGAAATGGGGAACTGAACATCATTTTCGAGAAGGTCAAGCAAAGCAACGTTTGGATGATTTGTTTTTTGACTTTCTGGATGTTGCTGAAAAACTTAAACCAAAGGTGATTGTAGCAGAGAATGTGAAAGGGTTACTGATTGGTCAAGCAAAAGGTTTTGTGTCATTGATAACAAAGCGATTCAAGGAAATAGGGTACAATGTTCAAATGTTTTTGCTAAATAGCGCAACAATGGGAGTTCCGCAAAGAAGGGAAAGAGTGTTTTTTATTGCATATAGGAATGATATGAAGTTCCCTAAACTAAAGCTTAATTTTTCAGAAAGACCTATCTTGTATAGAGAAATCCGTTCAGGACGAGGTAAAGCAGTAAATACTCAAACAGTCACTTATAAACGTTGGCTACAACGAAGACCAAGAGATAATAATATTGGAGATATAACACAGAGAACAGAAGGAAAAGAGAAATCTTTTAATACAATTTTGGTGAAAAATGATAAAGTTCCTTACACGCTTGCTAGTAATTCAGAATTTATTAGATATGATGAGCCTTATTTTATCAGTAAAACAGATGTGATAAGGATTCAATCTTTTCCTAGAGATTATAATTTTTTAGATACAGATGCACAGTATGTATGTGGTATGAGTGTACCCCCAATAATGATGCATAAAATATCTGAACAAATTTATTTTCAATGGTTTAAAAAATAA MNWDWSLKELSKIKKNGHKVFSCFSCGGGSSMGYKLSGYDVIGNVEIDPDMMKIYQKNINPKYPYLMPVQQFKKLDNNALPKELFDLDILDGSPPCSVFSTAGKREQKWGTEHHFREGQAKQRLDDLFFDFLDVAEKLKPKVIVAENVKGLLIGQAKGFVSLITKRFKEIGYNVQMFLLNSATMGVPQRRERVFFIAYRNDMKFPKLKLNFSERPILYREIRSGRGKAVNTQTVTYKRWLQRRPRDNNIGDITQRTEGKEKSFNTILVKNDKVPYTLASNSEFIRYDEPYFISKTDVIRIQSFPRDYNFLDTDAQYVCGMSVPPIMMHKISEQIYFQWFKK PGPT0020015_5066 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558 NA NA AK015_00563 531 hypothetical protein ATGAAAATAGAAACTGTAAACATCGATAAAATTAACCCGGCTACATATAATCCGAGAGTAGATTTGAAGCCGGGAGATGAGGAATACGAAAAACTCAAACGATCTATTAATGAATTTGGATATGTTGAACCACTTGTTTGGAATAAACGAACAGGAAACCTAGTAGGTGGTCATCAACGATTAAAAATATTAATAGAACAAGGATTTAAAGAAGTGCAAGTTTCTGTAGTAGATTTAGATTCTATGAAAGAAAAAGCACTCAATATAGCATTAAATAAAATTAGTGGTAGTTGGGATGAAGAAAAACTATCACTAATTTTTAAGGAGTTACAGGAAAGTCAAGAGGATTTCGAAATAGGTTTTAGTCAGAAAGAAATTGATGACCTAATAGATCAATTTTCTTTTGATGATGATAGTACTACTGATTTTTTGAACCAAGAATTGTTAATTGATAATTATGGCGAAGACGAATTCCAATGTAAATGTCCACGCTGTGGGTTTCTATTTGATCCAAAGGAAGTGGAAGAATGA MKIETVNIDKINPATYNPRVDLKPGDEEYEKLKRSINEFGYVEPLVWNKRTGNLVGGHQRLKILIEQGFKEVQVSVVDLDSMKEKALNIALNKISGSWDEEKLSLIFKELQESQEDFEIGFSQKEIDDLIDQFSFDDDSTTDFLNQELLIDNYGEDEFQCKCPRCGFLFDPKEVEE NA NA NA NA NA AK015_00564 1617 hypothetical protein GTGAGTAAGAACATTTTGAAAGAGTTAGGAATAAAATCCATCATCAATTACATACGTCGCTCTCGACAAGATCTTGAAAAAGAGAAGAAAACAGGAGTAGATACGTTACATGAGCAAAAAAAGCTAATGGAACGTGTGTTGGCGGAATATGGCATACCTTATGAACAAAAGCTAGAGATAGGTTCAGGTGACAAAATTTCTACACGACCTATCTTTCAACAAGTTGTTACGGACTTAAAAAACAACAAATATGATGCGATTGCTGTAAAAGAAATATCACGTATGGGCAGAGGATCTTACACTGATATGGGTGTTATTTATGATTTAATAACTGATAAGCAAATTTATATAGTGACGCCGTGGAAGATTTATAATCCATCTAATCCTAGTGATCTAAGGCAAATACGCTTTGAACTTTTTATGTCTCGAGAAGAATTCGAGACAACCAGAGAAAGACTTAATAGTGGACGATACAATTCAGCCTTGGAAGGACATTGGGTTTCTGGACCTCCTCCTTTTGGATACGATTATGACCCTAAAACCAAACAACTTATTATAAACGAAAAGGAAGCAAAAATTGTACGAACAATATTTGATTTATATGCTAATGGCATATTCGTGGACAATAAGACTCGTAAGTTAGTCCAATTTAGAGCTTTGGCAACCTATTTAAAACGAGTAGGTATAAAAACTATAACAGGAAAAGAATCTTGGTCTCCTAATTACTTATTATATTTCCTTACTAACGACAGATATATTGGCACATACAGATTTAACGAATATCATAGGAACTCCGAAGGAAAGAGAGTTAAAAACCCTAAAAATGAGCATATAGTTATTGAAAATAATCATCCGGCCATCATAGATAGAGAAACATGGGATAAAGTGCAACATAGGATAAACAACAGAGATACTCCTACTAAAACTAAATTAGACTTTACGCCAAACAGGCTTGCTGGATTATGTGTATGTAAAAAGTGTGGGAAAAAATTTATACGCAGAGCAAGCACGCAACGATATAAAAAGAAAGACGGTACTATTAGCGTTTATGAGAAGCACATGCTGTTTTGCAATACAGTTGGTTGCACCTATGTGCGATACAACGCAATTGAAGAAGACATTGTAGAAACGTTGAGGTACTTAGGTAATCTTGATCAAAACACTTTTAAAAAGACTATGGATGCTCTAGTAGTAGAAGATAAACCAAAAAACTCTATAGAAGACTTTAAAAAATACATTGAGTCAAAAAAAGAGGAATTAGAAAATAGAATGAGGTTCATTTATGAAAAATTTGAAGCTGGCATATATACAGATGAAATGTTTTTAGAAAGAAAGGCAGAAATAGATAAGGAAAAAGATGAATTGCGTAAGGTCAAATTTAACGAACCAAATGCGGAAGAAGAAAATGAGTACAGCGTGGAAGAAACAAAAACTAATCTGTTATCCGTAGTAGAAGCTTATGAAAGCTCAAACTCTGATTCGGAAAAGCATAAATTATTGCACTCTGTTTTTGATCATATTGACATTGAGGTAATAAAAAAAGGCAGTGGAACAAGACCAGCTGTCCATAAAATGGAACCATATTTAAAAAGTTCATTCCTTACAAAAGCCCTTTAA MSKNILKELGIKSIINYIRRSRQDLEKEKKTGVDTLHEQKKLMERVLAEYGIPYEQKLEIGSGDKISTRPIFQQVVTDLKNNKYDAIAVKEISRMGRGSYTDMGVIYDLITDKQIYIVTPWKIYNPSNPSDLRQIRFELFMSREEFETTRERLNSGRYNSALEGHWVSGPPPFGYDYDPKTKQLIINEKEAKIVRTIFDLYANGIFVDNKTRKLVQFRALATYLKRVGIKTITGKESWSPNYLLYFLTNDRYIGTYRFNEYHRNSEGKRVKNPKNEHIVIENNHPAIIDRETWDKVQHRINNRDTPTKTKLDFTPNRLAGLCVCKKCGKKFIRRASTQRYKKKDGTISVYEKHMLFCNTVGCTYVRYNAIEEDIVETLRYLGNLDQNTFKKTMDALVVEDKPKNSIEDFKKYIESKKEELENRMRFIYEKFEAGIYTDEMFLERKAEIDKEKDELRKVKFNEPNAEEENEYSVEETKTNLLSVVEAYESSNSDSEKHKLLHSVFDHIDIEVIKKGSGTRPAVHKMEPYLKSSFLTKAL NA NA NA NA NA AK015_00565 387 dpaB_2 COG0452 Dipicolinate synthase subunit B ATGCGTTTAAAAAGTAAGAGAATTGGTTTTGGCTTAACAGGTTCCCATTGCACATATGACCAAGTTTTTCCACAAATGGAGAAATTAATGGATCTAGGTGCTGAAGTTGTTCCAATTGTAACATACACAGTAAGAACGACTGACACGAAGTTCGGTGATGCTCAGGACCATATGGAAAAGATTCAAGCCATTACTGGGAAAGAAATTATAACTACGATGCCTGAGGCAGAACCGCTAGGGCCTAAAATGCCATTAGATTGTATGGTCATTGCTCCGCTAACCGGAAATTCCTTAAGCAAACTTGCCAACGCTTTAACAGACTCACCAGTTATACACTCATTGCACCAAAGAATAAACCCTTTGTTAAAGGGCTTTTGTAAGGAATGA MRLKSKRIGFGLTGSHCTYDQVFPQMEKLMDLGAEVVPIVTYTVRTTDTKFGDAQDHMEKIQAITGKEIITTMPEAEPLGPKMPLDCMVIAPLTGNSLSKLANALTDSPVIHSLHQRINPLLKGFCKE NA NA NA NA NA AK015_00566 879 dpaA_1 Dipicolinate synthase subunit A ATGAACCGAACAATTGCAATAGTCGGCGGAGACGCCCGTTATTTAGAATTAATTCGCCAACTCCAAGCATTAACAGATACAACACTTTTGCTTATTGGGTTTGATAAATTAGAGCAAGGATTCACAGGCTTAAAACAATTGGCTATTGATGAAGTCACACCGAGCGAATTAGACGCGGTTATCTTACCTATAACTGGTACGGATTCTAATGGGATGGTAGAACCTGTTTTTTCAGAAAAAAAAATCCACCTCTCCACGAACTGGTTTCAACAACTGAAAAAATCAACAATTGTATTTTCTGGAATAGCCAATGCTTATTTGAAAAATGCCATAAGCAAAGCAAATATCAAGTTAGTTCCTCTGTTAGACCGAGATGATGTTGCTATATATAACTCTATTCCAACGGCAGAAGGTACGATTATGATGGCCATTGAACATACAGATTTCACGATCCATTCCTCCTGTGTCGTTGTAGTTGGGTTTGGCAGAGTGGGACATACGGTTGCAAATAAATTTTCTTCTCTAGGTGCAAAAGTATCCGTTAGCGCGACTCACATGAAAGATCTAGCAAGAGTAACTGAAATGGGCTTAACAGCAATCCCACTAGATCAATTAGCGCTTCATATGCAAGCGTGTGATTTACTGATTAACACTATCCCAGCTCCTGTAATTAGAAAAGAGGAGATGAAACATCTTCCATCGCATGCAGTTATCATTGACCTGGCTTCAAAGCCTGGAGGAACTGATTTTACGTATGCAAAACAGCGTGGTATTAAAGCCATGTTGGCGCGCAGTTTACCAAGTATAGTTGCACCTAAAACTGCAGGAAAAATATTAGCTAATGTTATAAAACAAGAAATCATTCAAAATCCGTATTGA MNRTIAIVGGDARYLELIRQLQALTDTTLLLIGFDKLEQGFTGLKQLAIDEVTPSELDAVILPITGTDSNGMVEPVFSEKKIHLSTNWFQQLKKSTIVFSGIANAYLKNAISKANIKLVPLLDRDDVAIYNSIPTAEGTIMMAIEHTDFTIHSSCVVVVGFGRVGHTVANKFSSLGAKVSVSATHMKDLARVTEMGLTAIPLDQLALHMQACDLLINTIPAPVIRKEEMKHLPSHAVIIDLASKPGGTDFTYAKQRGIKAMLARSLPSIVAPKTAGKILANVIKQEIIQNPY NA NA NA NA NA AK015_00567 186 hypothetical protein ATGCGGTCTGACAAGTTTAAGCGAGACATAACAGCAGCTAAATCCCCATCTTTGAAGAGACCTTTAGGTCGTATCCCTATATTAAACCATGATTCAGATGAAAACTTCTCCCACATTGATTTTTTAAACAGTGCTAAATCAAACGTTGCTGTCTTCCAAATTGGAAGGCTTTTTTTATTTGCATAG MRSDKFKRDITAAKSPSLKRPLGRIPILNHDSDENFSHIDFLNSAKSNVAVFQIGRLFLFA NA NA NA NA NA AK015_00568 243 ylmC_1 COG1873 putative sporulation protein YlmC TTGCGGTATAAAGAAATAAGTGGAAAAGAAATTGTAAACGTACAAGAAGGAGCAAGGTTAGGCGTATTGGGACAAACAGATTTAGAAATTAATGAAACTACTGGTCAAATTGAAGCTTTTATTATTCCAAATTACAAATGGTTTGGTTTAAAAAAGGAAGCGGAAGAAACCAAAATTCGCTGGAATGCAATTAAAAAAGTGGGCGAGGATATGATTATTATCGATACAGAGAACAGTATATGA MRYKEISGKEIVNVQEGARLGVLGQTDLEINETTGQIEAFIIPNYKWFGLKKEAEETKIRWNAIKKVGEDMIIIDTENSI NA NA NA NA NA AK015_00569 1221 COG0612 putative zinc protease TTGATAGAAAAACACACTTGTAAAAATGGTTTACGTGTTGTACTAGAGAAAGTTCCTACAGTTCGTTCTGTCACGATAGGGATATGGATCCTAACGGGTTCACGTCATGAACATGCTGAAATAAACGGTATCTCCCATTTCTTAGAGCATATGTTTTTTAAAGGTACGAAAACACGAACTGCACAGGATATTGCAGAAGAATTTGATGCGATTGGTGGCCAAGTAAATGCATTTACATCAAAAGAATATACATGCTTGTATGCCAAAGTTGTTGATACATATAAGTATAAAGCTTTAGATATTTTAGCAGATATGTATTTCCACTCCCAATTTCAAGAAGAGGAAATGGAAAAAGAAAAGAAAGTCGTTTACGAGGAAATTAAAATGTATGAAGATACTCCAGATGATTTAGTGCATGATTTGCTTGCTAAGGCAGCTTATGGTAGCCATCCATTAGGGTTACCGATTCTAGGGACGGAAGAAAAGCTAGCTACGTTCACACCTAAGATGCTAGAAGATTATATGCAATTAAGGTATACACCGGATAATGTGGTTATTTCGGTTGCAGGTAATGTAGATACTTCTTTTATTCAAACAGTTGAAGCGTATTTTGGGAGCTACACATTTACAAAATCATCTGAAGCCCTTGTTAAACCAACCTTTCTTGGTGAAAAGATTGAGCGCTATAAAGATACGGAGCAGGTTCATTTGTGTTTAGGATACAACGGCTTAGCAGTCCATGAAGCCGCTATTTATAGCTTGATCATTATGAATAATGTGTTAGGCGGAAGTATGAGTTCTAGATTATTTCAAGATGTTAGAGAGAAAAAAGGATTAGCCTATTCCGTTTTCTCTTATCATTCTTCTTATATGGATAGCGGACTACTAACCATATACGCCGGCACCGCAAAAGATCAATCGGAGCAATTACTTCACGTCATACAAAAAACAATTGATAAATTTATTACTAAGGGTTTATCTGATAAAGAAATACAAAGTAGTAAGGAGCAATTAAAAGGAAGTCTGCTTTTAGGCCTGGAAAGTACAACTAGTCGCATGAGCAGAAATGGGAAAAATGAGTTGGTTTTAAAAGAACATTATACATTAGATGAAATAGTAGAAATGATTGATGATGTGAACCATACTCATATTCAACAGGTTATGGATATTGTTTTTCAACAATCACCATCTATTGCATTAATATCTCCAAAAGGAAATTAG MIEKHTCKNGLRVVLEKVPTVRSVTIGIWILTGSRHEHAEINGISHFLEHMFFKGTKTRTAQDIAEEFDAIGGQVNAFTSKEYTCLYAKVVDTYKYKALDILADMYFHSQFQEEEMEKEKKVVYEEIKMYEDTPDDLVHDLLAKAAYGSHPLGLPILGTEEKLATFTPKMLEDYMQLRYTPDNVVISVAGNVDTSFIQTVEAYFGSYTFTKSSEALVKPTFLGEKIERYKDTEQVHLCLGYNGLAVHEAAIYSLIIMNNVLGGSMSSRLFQDVREKKGLAYSVFSYHSSYMDSGLLTIYAGTAKDQSEQLLHVIQKTIDKFITKGLSDKEIQSSKEQLKGSLLLGLESTTSRMSRNGKNELVLKEHYTLDEIVEMIDDVNHTHIQQVMDIVFQQSPSIALISPKGN NA NA NA NA NA AK015_00570 948 hypothetical protein ATGCGGCGATATCGAAATTTACTTCATGTTGTTGTGTTTGTTATTATAGTAGGGCTTACCTTTGATATGAATAAAAACCCATTTATCCCAGTCGAATCACCTGTTATTATCCAAACTTCGAAAACTACTGACCCACTATACGAAGAAATTAAACAAAAAGCAAAAAAGTATGAAGAACCTGCGAAAAATGCATATATTGACAAAGTTTGGAAAAAGACTCCCGGGAGAAATGGTTTAACAGTTAATGTAGAAAAATCATATACAAAAATGAAACGTAAGGATGAAGGTTTTCAAGAATCGCTGTTAGTATTCGATCAAATTACTCCCGAAGTTGGTTTAAAAGATTTACCTGCATCTCCGATTTATCGAGGACATCCCGAGAAAAAAATGGTGTCATTCTTAATAAATGTATCGTGGGGAGAAGAATACATTCCTGATATGCTTTCTATTTTAAAAGACAATGGAGTAAAAGCATCTTTCTTTATTGAAGGGAAATGGGCGAAAAACAATGCTGAATTAGTTAAAATGATTGCAGAACAGGGTCATCTCATTGGTAATCATGCGTATAATCATCCAGATATGGATAAGTTATCCAATCAAAGCATCGTTGATCAAATCGTACAGACCAACGATATTTTAAAAGCGATAACTGGTTCAACTCCGAAATGGTTTGCTCCTCCGAGTGGTAGCTATAATAGTCACGTGGTGGAAGTTAGCAATCATCTTAAAATGGAAACAGTACTATGGACGGTGGATACAATTGATTGGAAGAACCCGTCTGTTTCTGTTATGCTTAACCGAGTGAATGAAAAACTTCACCCTGGAGCCACAATTTTAATGCACCCTACAGAAGCAACTAAAAGAGGATTAAAGCAATTAATATCCTCTATTAAAGAAAAAAACTATAAGTTAAATACGATAGAAAAATTGGTAGAAACGAAGCGATAA MRRYRNLLHVVVFVIIVGLTFDMNKNPFIPVESPVIIQTSKTTDPLYEEIKQKAKKYEEPAKNAYIDKVWKKTPGRNGLTVNVEKSYTKMKRKDEGFQESLLVFDQITPEVGLKDLPASPIYRGHPEKKMVSFLINVSWGEEYIPDMLSILKDNGVKASFFIEGKWAKNNAELVKMIAEQGHLIGNHAYNHPDMDKLSNQSIVDQIVQTNDILKAITGSTPKWFAPPSGSYNSHVVEVSNHLKMETVLWTVDTIDWKNPSVSVMLNRVNEKLHPGATILMHPTEATKRGLKQLISSIKEKNYKLNTIEKLVETKR PGPT0018645_1414 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK015_00571 2115 pnp_1 COG1185 Polyribonucleotide nucleotidyltransferase ATGGCAGAAGAAAAACAACAATTCTCTATAGAAGTAGCCGGCAAAACATTCACCGTCGAAACTGGAGAATTAGCAAAACAAGCAAGTGGTGCTTGTATGATTCATTATGGAGATACAGCCGTTTTATCTGTAGCAACAGCATCAAGTGAGCCTAAGGATCTTCCTTTTTTTCCTTTGACAGTTAACTATGAAGAACGGTTATATGCAGTAGGTAAAATACCAGGAGGGTTTATTAAAAGAGAAGGTAGGCCAAGTGAAAAAGCCATTTTATCTTCACGTCTTATCGACCGACCGATTCGACCTTTATTTCCTGATGGGTATCGAAATGAAGTCCAAGTGATTAGCACGGTAATGAGTGTTGATCAAGATTGTCCTTCAGAAATAGCAGCAATGATTGGTTCTTCAATCGCTTTATGCATTTCTGACATTCCATTTGCGGAGCCAATTGCAGGAGTAAACGTAGGTCGTGTAGATGGGGAATTTATTATTAATCCTACGGTGGAGCAAGAGGAAAAAAGCGATATTGAATTAACTGTTGCTGGAACAAAAGATGCCATTAATATGGTAGAAGCAGGTGCCGATGAAGTTCCTGAAGAAGTCATGTTAGAAGCAATTATGTTTGGACATCAGGAAATCATCCGATTAGTGGAGTTCCAAGAGCAAATCATGGAAACAGTAGGAAAGAAAAAACAAGAACCTACTTTATTTGATGTAGATCAAGCATTAAGTTCAGAAGTAGAGGCAAAAGCAAAAGATAAGTTAGTAAAGGCTATTCAAGTTAAAGAGAAGCATGCTCGGGAAGAAGCGATATCTGCGGTTAAAGAAGACGTGCTAGCTGCTTATGAAGAAGATGAAGACACAAGCAAGCAAGTAAAAACAATTCTTGATCAAATAGTAAAAGCTGAGGTACGTCGGTTAATTACGAAAGAAAAAATTCGCCCTGATGGTAGACAAATTGATGAGATACGCCCATTATCATCCCGAATACATGTATTGCCACGTACGCACGGATCTGGTTTATTTACTAGAGGTCAAACGCAAGCATTAAGCGTTTGTACACTTGGAGCTTTAGGGGATGTGCAAATTTTAGATGGTCTTGATTTAGAGGAATCCAAACGTTTTATGCATCATTATAATTTCCCTGCATATAGTGTGGGAGAAACAGGACCAATGAGAGGACCTGGTCGAAGAGAAATTGGTCATGGAGCGTTAGGAGAACGAGCATTAGAGAAAGTAGTACCATCTGAAAAAGATTTCCCATACACCATTCGCTTAGTATCAGAAGTGTTAGAATCAAATGGTTCAACTTCACAAGCAAGTATTTGTGCTAGCACACTTGCGATGATGGATGCTGGCGTCCCAATTAAAGCACCTGTAGCAGGAATTGCGATGGGGCTTGTTAAATCAGGAGATGATTATTCTATTCTTTCCGATATTCAAGGTATGGAAGATGCTCTTGGCGATATGGACTTTAAAGTTGCTGGAACGGCTAAAGGTGTTACTGCATTGCAAATGGACATTAAGATAGACGGCTTATCTAAAGAAATTTTAGAAGAAGCATTACACCAAGCAAAAAAAGGAAGAATGCATATTCTTGAATCCATGCTTGCTACAATTGAAAAGCCAAAAGACAATCTTTCCGAATACGCACCAAAAATTTTAACGATGGAAATTAATCCAGATAAAATTCGTGACGTCATTGGTCCAAGCGGAAAGCAAATTAATCAAATCATTGATGAGACAGGTGTGAAAATCGATATTGAGCAAGATGGAAGTGTGTTTATTTCATCTACGGAAGCAGCAATGAATGAAAAAGCGAAGAAAATCATTGAGGACTTAGTACGTGAAGTTGAAGTTGGTCAATTATATTTAGGAAAAGTAAAACGAATCGAAAAATTCGGCGCATTTGTTGAATTATTTAAAGGTAAAGACGGTTTGGTTCACATTTCTGAATTGGCTGAAGAACGTACAAATAAAGTAGAAGATGTCGTTTCTATTGGTGATGAAATTTTAGTAAAAGTAAAAGAAATTGACAATCAAGGAAGAGTAAACCTGTCTCGAAAAGCAGTTTTAAAAGAAGAACGGGAAAGAAAAGAAGCTGCAAAAAATCAGTAG MAEEKQQFSIEVAGKTFTVETGELAKQASGACMIHYGDTAVLSVATASSEPKDLPFFPLTVNYEERLYAVGKIPGGFIKREGRPSEKAILSSRLIDRPIRPLFPDGYRNEVQVISTVMSVDQDCPSEIAAMIGSSIALCISDIPFAEPIAGVNVGRVDGEFIINPTVEQEEKSDIELTVAGTKDAINMVEAGADEVPEEVMLEAIMFGHQEIIRLVEFQEQIMETVGKKKQEPTLFDVDQALSSEVEAKAKDKLVKAIQVKEKHAREEAISAVKEDVLAAYEEDEDTSKQVKTILDQIVKAEVRRLITKEKIRPDGRQIDEIRPLSSRIHVLPRTHGSGLFTRGQTQALSVCTLGALGDVQILDGLDLEESKRFMHHYNFPAYSVGETGPMRGPGRREIGHGALGERALEKVVPSEKDFPYTIRLVSEVLESNGSTSQASICASTLAMMDAGVPIKAPVAGIAMGLVKSGDDYSILSDIQGMEDALGDMDFKVAGTAKGVTALQMDIKIDGLSKEILEEALHQAKKGRMHILESMLATIEKPKDNLSEYAPKILTMEINPDKIRDVIGPSGKQINQIIDETGVKIDIEQDGSVFISSTEAAMNEKAKKIIEDLVREVEVGQLYLGKVKRIEKFGAFVELFKGKDGLVHISELAEERTNKVEDVVSIGDEILVKVKEIDNQGRVNLSRKAVLKEERERKEAAKNQ NA NA NA NA NA AK015_00572 270 rpsO COG0184 30S ribosomal protein S15 TTGGCTATTTCACAAGAACGTAAAAATGAAATTATTAATGAATACAAGGTTCATGACAGCGATACTGGTTCTCCAGAAGTACAAATTGCTGTACTAACGGAAGAAATCACTACGTTAAACGAACATCTACGTGTTCATAAAAAAGACCATCATTCACGTCGTGGATTATTGAAAATGGTTGGTAAACGCCGTAACTTATTAAATTACCTACGTAATAAAGACGTTACACGTTACCGTGAATTAATTAAAAAGCTCGGTTTACGCCGATAA MAISQERKNEIINEYKVHDSDTGSPEVQIAVLTEEITTLNEHLRVHKKDHHSRRGLLKMVGKRRNLLNYLRNKDVTRYRELIKKLGLRR NA NA NA NA NA AK015_00573 966 ribF Bifunctional riboflavin kinase/FMN adenylyltransferase TTGCGAACAATTGAGTTAACATATCCGCACATACTCATATTAGAAGAACTTCCCGAAACAGTTGCGGCCATTGGTTTTTTTGATGGAATACATAAAGGACATCAACATGTTATTAAAACAGCTATAAACGAAGCGAAGAATAGAAATATGGAAAGTGCGGTTATTACGTTTTATCCTCATCCCTCTGTCGTATTACGAAAAGAGAAACAGCAAGTTAAATACATTACACCACTACGCGAAAAACAAGAAATTTTAAAACGATTAGGTGTAGATAAATTATACATTATTACTTTTAATTCTGAGTTAGCTGCACTTCAACCAGAAGCATTTATTAACCACTTTATAAAAGGGCTCCATATAAAGCATCTTGTTGCTGGATTTGATTTTTCTTATGGTCATAAAGGGAGCGGGAATATAGATACAATACACGACCATGCAAAAGGGGCCTTTACTTTTACGAAGGTAGATAAAGTCGAATATGATAATGAAAAAATTAGTTCAACAAGAATTCGCAAGTTACTTTCTTCAGGTGAAGTTGAAAAAGCAAATGTATTACTCGGTAGACCGTTACTTGTTGATGGACTTGTTGTGAAAGGTGCACAACGTGGGAAGCAGATGGAGTACCCAACTGCTAATGTGATGACAAACCATGAGGCTTTACTACCCAAACCGGGGATTTACGCAGTCAAAATATTTTATAAACAGGAAAAATATGAAGGAATGGCAAGCCTAGGATTTAATCCTACTTTTGAAGATAACTTGAAAGAACCCATCCTTGAAGTTCACATATTTGATTATAATAATGAGCTTTATGGAGAGGAGCTATTAATTGAGTTTCATTCTTTTGTTCGTGATGAAATAAAGTTTGATGGAATGGACCATTTAAAAGTTCAAATTGCTCAGGACGAAAAACAAATTCGGCAATTATTTGCCACCTATCAAAATGATTTGTCCGAATGTGAATAA MRTIELTYPHILILEELPETVAAIGFFDGIHKGHQHVIKTAINEAKNRNMESAVITFYPHPSVVLRKEKQQVKYITPLREKQEILKRLGVDKLYIITFNSELAALQPEAFINHFIKGLHIKHLVAGFDFSYGHKGSGNIDTIHDHAKGAFTFTKVDKVEYDNEKISSTRIRKLLSSGEVEKANVLLGRPLLVDGLVVKGAQRGKQMEYPTANVMTNHEALLPKPGIYAVKIFYKQEKYEGMASLGFNPTFEDNLKEPILEVHIFDYNNELYGEELLIEFHSFVRDEIKFDGMDHLKVQIAQDEKQIRQLFATYQNDLSECE PGPT0008625_1363 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 AK015_00574 894 truB tRNA pseudouridine synthase B TTGCATGGAATTTTGCCATTATGGAAACCAAGAGGTCTTACCTCACATGATTGTGTAATTAAAATTCGCAAAATGTTTCAAACAAAGAAAGTTGGACACACAGGTACGTTAGATCCAGATGTGGAAGGGGTCTTACCTATCTGTATTGGAAAAGCAACAAAGATTGTTCCTTTTTTAACAAATACGAAAAAGGTATATGTGGCTAAGCTTAAGTTAGGAGCTGCTACAGATACAGAAGATGCTTCAGGTGAGATAGTGGAGGAGAAAGTGGTTAATGTGATGCCACTTCAAAAGGAGATTGAAGAAGTATGCCTTCAGTTCATTGGAGAAATTAAACAAACCCCTCCTATGTATTCAGCTGTTAAGGTAAAAGGGAAGAAATTGTATGAATACGCTAGAGAAAATCAATACGTAGAACGTCCAGTGCGAACGGTAAGCATTGAAGAAATAAGTTTACTATCGCCTCCAGACAACAAAGAACATACTATATCTTTTCGCGTTGTCTGTTCAAAAGGAACCTATATTCGTACATTATGTGTAGATATAGGTAAAGCCTTAGGATACCCTGCACATATGGTTTCATTGGTTAGAGAAGCAACAGGAGCATTTTCTAACAAAAATGCGGTTACATTTGCTACAATAGAAGAGGCTATTTTAAATCAACGTACAGCAAACATCCTATACCCACTTCAATTCGGGTTAACACATTTAGATATATGGAATGTAGATCAAGAAGTAGCCCAAAAAGTTTTATATGGACAAAAGCTTCCTTGCAACGTCCAATTTAAAACAGACCCATTTGTTGTTGTGCACAACAACTGTGTACTAGCCATTTATGAAGTGTATGACAAACAAACTGGTTATGTAAAACCTGTCCGTGTATTTAGTAGATAA MHGILPLWKPRGLTSHDCVIKIRKMFQTKKVGHTGTLDPDVEGVLPICIGKATKIVPFLTNTKKVYVAKLKLGAATDTEDASGEIVEEKVVNVMPLQKEIEEVCLQFIGEIKQTPPMYSAVKVKGKKLYEYARENQYVERPVRTVSIEEISLLSPPDNKEHTISFRVVCSKGTYIRTLCVDIGKALGYPAHMVSLVREATGAFSNKNAVTFATIEEAILNQRTANILYPLQFGLTHLDIWNVDQEVAQKVLYGQKLPCNVQFKTDPFVVVHNNCVLAIYEVYDKQTGYVKPVRVFSR NA NA NA NA NA AK015_00575 342 rbfA Ribosome-binding factor A ATGGCTGAACTACGTGCTAATCGAGTGGGCGAGCAAATGAAAAAAGAGCTAGGTGAAATCCTAACTCGCAAAATCAAGGATCCACGAGTTGGCTTTGTAACAGTTACAGATGTTGAAGTTACTGGTGACTTGCAGCAAGCAAAAGTGTTTATTTCTGTTTTAGGTAATGATAAGCAAAAAAAAGATACACTGCTAGGTTTAGCAAAAGCAAAAGGATTTATCCGGTCAGAAATTGGCAAACGTATTCGCTTGCGCAAAACACCTGAGTTGATGTTTGAATTTGATGAAGCATATGAATATGGTAATCGTATTGAGACAATTTTAAGAGATCTAAATAACTGA MAELRANRVGEQMKKELGEILTRKIKDPRVGFVTVTDVEVTGDLQQAKVFISVLGNDKQKKDTLLGLAKAKGFIRSEIGKRIRLRKTPELMFEFDEAYEYGNRIETILRDLNN NA NA NA NA NA AK015_00576 279 hypothetical protein ATGATTATGTATGCGGAAGTGGAATGCTTTTTATACGAGAGCAACTCTTTAAAACAGAAGCGATCGATTATAAAGCCTGTGCTAACCAAATGTAAAAAAGATTTTAATATAGCTATTACAGAATTGGATTATCATGATTTATGGCGTCGTATAAAATTTGGGATCGTTACTATATCAACAGAGCGAGCACACGCAGAGCAAGTATTACAAGGTGTAATGGACGTTATTGATTCCTATACAGAGCTAGAACGAACCATTACCCATATAGAAAGAATTTAG MIMYAEVECFLYESNSLKQKRSIIKPVLTKCKKDFNIAITELDYHDLWRRIKFGIVTISTERAHAEQVLQGVMDVIDSYTELERTITHIERI PGPT0014535_747 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014535-ylxP-K09764 NA NA AK015_00577 2130 infB Translation initiation factor IF-2 ATGAGTAAAATGCGTGTATATGAATATGCAAAACAAAATAATCTATCTAGTAAAGCAGTTGTTGCTTTTCTTAAAGAACAGGATATCGATGTGACAAACCATATGTCGACGATTTCCCCTAATACAATAGCGCTGCTTGATAAAAAATTTAAAGTGCAAAAGCAGGAAAAGGAAGAATCTAAACAACAAAAAATGGAAAAGCAAAGCGATAATCAATCAAATTTGAAACAAAGCCAAACTCATAATAAGAAGCAAAACAAACCAAATAATTCGCAGAAGCCTAAGAAACAACAACAGAAACCACAGGGGAAACAAGTTAAGAAAGGCAAAGCGAATACGAAAGCACAGCCAAAACAAGCAGCTATGGAGAAAGAAACACCAAAAGCAATAAAGTATCATGGAACGCTAACAGTTAGCGAACTTGCTGATAAATTGAATAAAGAAGCATCTGAAATTATTAAAAAATTGATGTTTCTAGGTGTAATGGCTACCAAGAATCAAGATTTAGATGATGACTCCATTGAATTGATTTGTGCTGAATTTGGTGTAGAAGTTGAAAAAGAAATTATTCTTGAAGATACGGATTTAGACAAGTATATCGCAGAAGATAAGCCTGAAGATATGGTAGAACGCCCTGCTGTTGTAACAATTATGGGACATGTTGATCATGGGAAAACAACATTATTAGATTCCATTCGCCATACAAAGGTTACTGCTGGTGAAGCGGGCGGCATTACACAGCATATTGGAGCATATCAAGTTGAAAACGATGGGAAAAAGATCACATTTTTGGATACGCCAGGGCACGCAGCTTTTACAAGCATGCGATCTCGAGGCGCCCAAGTTACAGATGTGGCTATCCTAGTTGTTGCTGCTGATGATGGAGTTATGCCACAAACAGTGGAGGCAATAAACCATGCGAAAGCGGCGGAAGTTCCGATTATTGTAGCGGTTAACAAAATGGATAAAGAAGCCGCAAACCCTGATCGTGTTATGCAAGAGTTGACCGAGTATGGACTTGTACCTGAGGATTGGGGAGGGGACACGATATTTGTCAACCTATCTGCAATCAAAGGGGAAGGAATTGACGAGTTGCTAGAAATGATCGTTCTTGTCTCTGAAATAGAGGAGCTTAAAGCTAATCCAAGTAACACCGCATTTGGTACTGTTATTGATGCGCAATTGGATAAAGGTAGAGGCTCTGTAGCTACTTTACTTGTACAAAATGGAACATTACATGTTGGAGATTCACTAGTTGTTGGAAACACGCACGGTCGTGTCCGTGCTATGGTTAACGACGTTGGTCAAAGAGTAACAGAAGCTGGCCCATCTACACCTGTAGAGATCACAGGATTAAATGGTGTACCCGAAGCCGGAGATCAATTCCTCGTATTCAAAGATGAGAAAAAAGCTCGTCAAATTGGTGAAGCAAGGCAACAGAAGAAGATTCAGGAAAGCCGTAGCGAACAAACAAAAGTTAGCCTAGATGATTTGTTTGAACAAATCAAACAAGGTGAGATGAAAGAAATTAATATTATTATTAAAGCTGATGTGCAAGGATCAGCAGAGGCGCTCGCTTCTTCACTAAGAAAAATCGAAGTCGAAGGTGTCAATATTAAAATCATTCATACAGGTGTCGGCGCCATTACGGAATCTGATGTAATTTTGGCAGCAGCATCTAACGCTATTGTTATTGGCTTTAACGTACGCCCAGACGCGAATGCGAAAAAGGCGATTGACAGGGAAAAAGTAGATGTTCGTTTACACCGTGTGATTTATAAAGCAATTGAAGAAGTAGAAGCAGCAATGAAAGGGTTGCTTGATCCTGAATACGAAGAAAAAGTAATTGGCCAGGCTGAAGTTCGTGAAACATTTAAAGTTTCAAAAATTGGTACAATTGCTGGAAGCTATGTAACAGATGGGAAAATCACGCGAGATTCTGGAGTGCGTTTAATTCGTAATGGCGTTGTCCAATTTGAAGGTGAAATTGCTGCATTAAAACGTTTTAAAGACGATGTGAAGGAAGTCGCGCAGAATTACGAATGTGGTATAACTATTAAAAACTTTAATGATATTAAAGAAGGAGATATCATTGAAGCGTTTATTATGGAAGAAATCAAGCCTGTATGA MSKMRVYEYAKQNNLSSKAVVAFLKEQDIDVTNHMSTISPNTIALLDKKFKVQKQEKEESKQQKMEKQSDNQSNLKQSQTHNKKQNKPNNSQKPKKQQQKPQGKQVKKGKANTKAQPKQAAMEKETPKAIKYHGTLTVSELADKLNKEASEIIKKLMFLGVMATKNQDLDDDSIELICAEFGVEVEKEIILEDTDLDKYIAEDKPEDMVERPAVVTIMGHVDHGKTTLLDSIRHTKVTAGEAGGITQHIGAYQVENDGKKITFLDTPGHAAFTSMRSRGAQVTDVAILVVAADDGVMPQTVEAINHAKAAEVPIIVAVNKMDKEAANPDRVMQELTEYGLVPEDWGGDTIFVNLSAIKGEGIDELLEMIVLVSEIEELKANPSNTAFGTVIDAQLDKGRGSVATLLVQNGTLHVGDSLVVGNTHGRVRAMVNDVGQRVTEAGPSTPVEITGLNGVPEAGDQFLVFKDEKKARQIGEARQQKKIQESRSEQTKVSLDDLFEQIKQGEMKEINIIIKADVQGSAEALASSLRKIEVEGVNIKIIHTGVGAITESDVILAAASNAIVIGFNVRPDANAKKAIDREKVDVRLHRVIYKAIEEVEAAMKGLLDPEYEEKVIGQAEVRETFKVSKIGTIAGSYVTDGKITRDSGVRLIRNGVVQFEGEIAALKRFKDDVKEVAQNYECGITIKNFNDIKEGDIIEAFIMEEIKPV NA NA NA NA NA AK015_00578 303 rplGA COG1358 putative ribosomal protein YlxQ ATGAAAAATAATTATTTAAACTTACTTGGTCTTGCTTTTCGAGCTGGAAAATGTTCGCTTGGTGAAGATGCGATATTGAAAGATATTCGATCTAGACGTGCTGTATTGGTTTTACTTGCGAATGATATTGGTCCACAAACCAAAAAGAAAATAACAGACAAATGCAAAACATATAAAATTCCATATGTTATAGTAGATGACAGAGAAACAATATCGAATGCTATCGGAAAGACCCAAAGAGTAGCAATAGCTATTTTAGACGCAGGATTTGCTGCAAAAATGAACACGTTACTCGGGGAATAA MKNNYLNLLGLAFRAGKCSLGEDAILKDIRSRRAVLVLLANDIGPQTKKKITDKCKTYKIPYVIVDDRETISNAIGKTQRVAIAILDAGFAAKMNTLLGE NA NA NA NA NA AK015_00579 282 hypothetical protein ATGGTGAAAAAACGAAAAATCCCTACTCGCAGATGTGTAGTAACCAATGAAATGATGCCAAAGCAAGATTTAATTCGTGTAGTACGAAATAAAGATGGAGAAGTATTTGTAGATACCACTGGCAAAAAAAATGGCCGGGGAGCCTATTTGTGTAAAGACATTGCTGTTATTGACCAAGCAGAAAAAACAAACGTATTAAATAAACATTTAAATGCAACCATTGATTCAGTTATCTATGAAGAATTAAGGAATCTAATAGCAGGTACAACGAATGAAAAATAA MVKKRKIPTRRCVVTNEMMPKQDLIRVVRNKDGEVFVDTTGKKNGRGAYLCKDIAVIDQAEKTNVLNKHLNATIDSVIYEELRNLIAGTTNEK NA NA NA NA NA AK015_00580 1098 nusA COG0195 Transcription termination/antitermination protein NusA GTGAGCACGCAATTGTTCGATGCAATTGATTATTTAGCAAAAGAAAAAGGGATTGATAAAAAAATCCTCATGGAAGCCCTAGAAGCTGCTTTAATTTCAGCGTATAAAAAGAATTTCAAATCCGCAACAAACGTTCGTGTTGAGCTTAATGAAGATACTGGGAAAATGGCTGTGTATTCTAGAAAAACCATTGTCGATGAAGTTGAAGATCCACAACAAGAAATACCTATTCAAGAAGCAAAGGAAATTAATCCGAACTATGAACTCGATGATGTAGTGGAAGTGGAAGTAACACCAAAAGACTTTGGTCGTATTGCTGCACAAGCTGCTAAACAAGTTGTTACACAGCGTGTAAGAGAAGCCGAGCGTGGTGTTATCTTTTCAGAGTACTCTGACCGAGAGGATGACGTAATGACGGGAATTATTCAAAGAAAAGATCCCCGGTATGTTTACGTCCACCTTGGTAAAGTAGAAGCAAAACTTCCTGAAGCCGAACAAATGCCTACCGAGGAATACCATGTGCATGACCGGATAAAAGTGTATGTAACAAAAGTGGAAAATACAAGTAAAGGTCCACAAATATATATTTCAAGGTCTCATCCGGGACTACTAAAACGGTTATTTGAAATGGAAGTACCAGAAATATATGACGGAATTGTAGAAATAAAATCTGTTGCCCGAGAAGCAGGTGACCGTTCTAAAATATCTGTTCATGCGCCTGATCCTGAAATTGATCCTGTAGGCTCATGTGTCGGTCAAAAGGGACAGAGAGTGCAAGCCATTGTAAATGAACTGAAGGGTGAGAAAATTGACATCGTACAATGGTCTGAAGATCCTGTTGTCTACGTATCAAATGCCTTAAGCCCTTCAAAAGTACTAACAGTATTAGTTAATGAAGAAGAAAAGTCAACTACTGTTGTTGTTCCTGATTACCAACTATCTCTTGCCATAGGGAAGCGCGGCCAAAATGCAAGGCTTGCGGCTAAGTTAACTGGTTGGAAAATTGATATAAAAAGTGAGACAGATGCAAGAGAAGAAGGGTTATTGGATGAAGTAGAAGAAACCTATTCTGACAATGAAGAAAGCTTGTTTGAATAA MSTQLFDAIDYLAKEKGIDKKILMEALEAALISAYKKNFKSATNVRVELNEDTGKMAVYSRKTIVDEVEDPQQEIPIQEAKEINPNYELDDVVEVEVTPKDFGRIAAQAAKQVVTQRVREAERGVIFSEYSDREDDVMTGIIQRKDPRYVYVHLGKVEAKLPEAEQMPTEEYHVHDRIKVYVTKVENTSKGPQIYISRSHPGLLKRLFEMEVPEIYDGIVEIKSVAREAGDRSKISVHAPDPEIDPVGSCVGQKGQRVQAIVNELKGEKIDIVQWSEDPVVYVSNALSPSKVLTVLVNEEEKSTTVVVPDYQLSLAIGKRGQNARLAAKLTGWKIDIKSETDAREEGLLDEVEETYSDNEESLFE NA NA NA NA NA AK015_00581 471 rimP COG0779 Ribosome maturation factor RimP TTGAGTTCAAAAGTAATACAAACAACGGAAGAATTAGTTCTCCCGATCCTAAAACAAAAAAATCTTGAATTAGTCGATGTAGAATATGTGAAAGAAGGAAAAAACTGGTTTTTGCGTGTGTATATTGATAAAGAAGGCGGTGTTGACATTACAGAGTGTGGAGAGGTGTCTGAGGAATTAAGCGAACGATTGGATCAAACAGATCCAATCGCAGAGGCCTATTTTTTAGAAGTCTCTTCACCAGGAGCTGAGCGCCCTTTAAAGAAAAAGAAAGATTTTGAAGAGAATATGAATAAACAAATTTATGTCAAGTTATATGAACCAATAAATGGTGAAAAAGAATATGAAGGAAAACTAGTTGACTTTGCGAATGATGTAGTAACTATTTCATATAAATTGAAAACTCGTAATCAAACTGTAGAGATTCCATTTGAGAAGATAGCCAAAGCTAGATTGGCTGTATCGTTTTAA MSSKVIQTTEELVLPILKQKNLELVDVEYVKEGKNWFLRVYIDKEGGVDITECGEVSEELSERLDQTDPIAEAYFLEVSSPGAERPLKKKKDFEENMNKQIYVKLYEPINGEKEYEGKLVDFANDVVTISYKLKTRNQTVEIPFEKIAKARLAVSF NA NA NA NA NA AK015_00582 4287 polC_2 COG2176 DNA polymerase III PolC-type ATGGATATATCGAAAAAGAAGAAAATGGATGTACTGTTAAAGCAACTGGAAATTTCCGAAGAACAATTGCCTTATTTTGCTGATAGTTATTTAAAAAAGCTAGAAATTTTTAAGCAATCGAAGACGTGGCATTTTCATATTTATACGAATCAAATATTTCCTTGCGAAGTATATCAAGTATTTAAACACCGACTACAAACAAGTTTTGCGCAAATTGCTACGATCGAATTAACCATTGAGACGGCAAATAAAGCTTGCGATGAGCAAATGACGTTAAAATATTGGCGAAATTTTATTCAGTCTCTTTCACAATTGTCACCTGCCTATAAAGATATGGTGCAATCACAAACACCGAAGGTTAACGGTAATAATATTATGTTAACCGCCAGAAATGAAGCAGAAAGCAAAGCTGTGAAAAAAAGACTCGAGGAGCCATTTAAATCTTTCTGTTTGCAATCAGGTTTACCGGTTTTTCAGTTGCAAATAGAAGTGAAAGCTGAATTAGAAGCTATTCAGCAGTTTAAAGAACAAAAAGCTGCAGAAGATCAGCAACTTGTTCAACGTACCGTGCAAGAGAAAACCAAACGTGATCACGCAAAACTGCAGCCTGAAAATAAACCTGTGATGCTCGGTTATAAGATTCAAGATGATCCTGTTCATATGGAAGAAATTTTAGAAGAAGAGCGTCGAATAACGGTTCAAGGTTATATTTTCGCTGTAGATATTCGTAAACTGCGTTCCGGTCGCAGTTTGCTTATCATTAAAGCAACGGATTATACGGATTCATTACAAATTAAAATGTTTTCAAAAGGCGATGAAGACGCTGAAAAATTTCAGTCAGTAAAAGAGGGTATGTGGATTAAAGCTCGGGGAAGTATTCAAACAGATATGTATACAAATGAACTGGCAATGATGGCTAATGATATACACGAAATAAAAGTAGAGCCTAGGAAAGATGCGGCACCGGATGAAGATAAAAGGGTTGAATTACATGCCCATACGACAATGAGTCAAATGGATGCAGTAGTCTCACCAGCAAATTTAGTTGCTCAAGCAGCAAAATGGGGACATAAAGCTATTGCTATTACTGATCATGCAGGCGTACAAGGTTTTCCTGATGCCTATAACGCAGGAAAAAAGCATGGTATAAAAGTGCTTTATGGTGTAGAGGCGAATTTAGTCGATGACGGTGTTCCTATTGCTTATAATGAACAAGATGTAGATTTAGCTACAGCTACATACGTTGTATTTGATGTGGAGACTACAGGCTTATCAGCTGTATACGACACCATTATTGAATTAGCTGCTGTGAAAATTCATCAAGGAGAAATTGTGGATCGGTTTGAATCTTTTGCAAATCCTCACCATCCTTTATCGCAGACAACCATTGATCTTACAGGTATTACGGATGAAATGGTAGAGCATGCACCAGAAGTTGACGAAGTATTAGCAGATTTTCGCAAGTGGATGGCAGATGATATTTTAGTAGCCCATAATGCGAGTTTTGATATGGGATTTTTAAATCAAGGTTTTAAGAAAATTGATTTTCCAAAAGCTACAAATGCTGTTATTGATACGTTGGAATTAGCAAGATTTTTATTCCCACATTTAAAAAATCACCGATTGAATACATTGTGTAAATTTCTGGATATTGAATTAACGCAGCATCACAGGGCGATTTATGACGCGGAAGCAACCGGCTATTTATTATGGAAACTCGTTCAAGCTCTATTAGAGAAAGACATAATCAACCATAACCAGCTGAATAAACATATGGGAGAAGGTAATGCATATCAACGTTCAAGACCTTTTCATTGTACGTTAATTGCGCAGACAGAAGAAGGATTAAAGAACTTATATAAACTTGTTTCTCATGCCCATATTGATTATTTTTATCGTGTTCCAAGATTGCCACGTTCCTTATTACAGAAATACCGTCAAGGCATTTTAATAGGCTCTGCTTGTGATCAAGGAGAAGTTTTTGAGACGATGATGCAAAAATCAGCAGAAGAGGCAGAAAAAGTAGCTCAATTTTATGATTATATAGAAGTGCAACCACCTGCAAATTACATGCATTTAATTGAAAAAGATTTAGTGCAAAATGAAGCACAACTATTGGATATCATAAAAAAAATTGTCCAGTTAGGTGAACGTGTGGACAAAAAGGTTGTTGCGACGGGAAATGTCCATTATTTAGACGAGCAGGATCAGATTTACAGACAGATTCTCATTGCTTCCCAAGCAGGAAATCCATTAAACCGAGTCACATTATCACAAACCCCATTTCGAACGACGAATGAAATGTTAGAATCCTTCTACTTTTTAGGTGAAAAGAAAGCAACGGAAATTGTCGTTACGAATACACAAGCCATTGCAGATGAAATTGAAGAAATCGCACCAGTAAAAGACGGCTTGTTCACACCGACGATAGAAGGGGCGGATCAAGAAATACGTGACCTTTGTTATACAAGGGCAAAGAAAATTTATGGTGAGCCGATTCCAAAGATTGTCACAGAACGTTTAGAGAAAGAATTAAAAAGTATTATTGGTCATGGGTTTAGTGTTATTTATCTCATTTCACAAAAACTAGTTAAAAAATCACTAGACGATGGTTATTTAGTAGGTTCTCGTGGTTCAGTAGGTTCATCCTTTGTTGCAACGATGACAGAAATTACAGAAGTAAATCCTTTACCACCACATTATGTATGTTTGTCTTGCCATTATCATGAGTTTATTACGGATGGTTCAGTTGGAAGTGGATTTGATTTACCAGATAAGCATTGTCCAACATGTGGGACAAGCTTAACAAAAGATGGTCAAGATATCCCATTTGAAACATTTTTAGGCTTTAAAGGTGATAAAGTACCAGATATTGATTTGAACTTCTCAGGTTCTTATCAACCAAGGGCGCATAACTATACGAAAGAATTGTTTGGGATCGACAATGTATATCGTGCTGGAACAATTGGTACTATTGCTGAGAAGACAGCCTATGGCTATGTGAAAGGGTATGCTTCTGATAAACAACTCGTTTATAAAAATGCAGAAGTTGATCGACTAGTAAAAGGATGTACTGGGGTGAAGCGAACTACAGGTCAGCATCCAGGAGGTATTATTGTTGTTCCTGACGACAAAGAAATTTTTGATTTCACTCCTATTCAGTATCCGGCTGATGACAGAAGTAGTGAATGGAGGACGACGCATTTTGATTTCCATTCCATTCATGATAATTTATTGAAATTGGATATACTTGGACATGATGATCCAACGGTTATTCGTATGCTACAAGATTTAAGTGGGATTGACCCTAAAACCATTCCTACCGACGATCCAGATGTAATGACTATTTTTTCTGGCCCCGAAGCGCTTGGAGTAACGCCTGAACAAATTAACTGTAAAACTGGTACATTAGGTGTGCCAGAATTTGGGACGAAGTTTGTTCGTCAAATGTTGGAAGATACAAAACCAAACACGTTTGCAGAACTTGTTATTATCTCAGGATTGTCACACGGTACGGACGTTTGGTTAGGTAATGCACAGGAATTAATTAATGACGGTATATGTGAACTACCGGATGTTATCGGTTGTCGTGACGATATTATGGTTTATCTTATGCATAAAGGGCTAGATGCCTCTTTAGCTTTCCAAATTATGGAGTTTGTTCGTAAAGGGAAAGGGCTAAAGGATGAGTGGATTACAGAAATGAAAAAGCATGATGTCCCAGATTGGTATATTGAATCATGTAAAAAGATTAAATACATGTTCCCCAAAGCCCATGCTGCTGCTTATGTATTAATGGCTGTAAGAATAGCTTATTTTAAAGTACATCATCCTATATTCTTTTATGCAGCATACTTCACTGTTCGAGCAGATGACTTTGAACTCGATACCATGATTAAAGGTTCTAATGCAATTAGAAAACGAATGGAAACCATTACTGTTAAAGGAAATGAAGCTTCTCCAAAAGAGAAAAGTTTACTTACAGTTTTAGAGCTTGCTCTAGAAATGTGTGAACGAGGTTATTCTTTTAAAAAAGTGGATTTATACAAATCTAGTGCAACAGAATTTATTGTCGCTGGGGATTCTCTTATTCCACCGTTTAATGCTGTAGACGGTTTGGGAACGAATGCTGCAATAAACATTGTAAAAGCAAGAGAAGAAGGAGAATTTTTGTCAAAAGAAGACTTACGAGAAAGAAGTAAAATCTCTAAAACTGTATTGGAATACTTGGATAACCATGGCTGCTTAGAAGGAATGGCAGAACAAAATCAGCTATCTTTGTTCTAA MDISKKKKMDVLLKQLEISEEQLPYFADSYLKKLEIFKQSKTWHFHIYTNQIFPCEVYQVFKHRLQTSFAQIATIELTIETANKACDEQMTLKYWRNFIQSLSQLSPAYKDMVQSQTPKVNGNNIMLTARNEAESKAVKKRLEEPFKSFCLQSGLPVFQLQIEVKAELEAIQQFKEQKAAEDQQLVQRTVQEKTKRDHAKLQPENKPVMLGYKIQDDPVHMEEILEEERRITVQGYIFAVDIRKLRSGRSLLIIKATDYTDSLQIKMFSKGDEDAEKFQSVKEGMWIKARGSIQTDMYTNELAMMANDIHEIKVEPRKDAAPDEDKRVELHAHTTMSQMDAVVSPANLVAQAAKWGHKAIAITDHAGVQGFPDAYNAGKKHGIKVLYGVEANLVDDGVPIAYNEQDVDLATATYVVFDVETTGLSAVYDTIIELAAVKIHQGEIVDRFESFANPHHPLSQTTIDLTGITDEMVEHAPEVDEVLADFRKWMADDILVAHNASFDMGFLNQGFKKIDFPKATNAVIDTLELARFLFPHLKNHRLNTLCKFLDIELTQHHRAIYDAEATGYLLWKLVQALLEKDIINHNQLNKHMGEGNAYQRSRPFHCTLIAQTEEGLKNLYKLVSHAHIDYFYRVPRLPRSLLQKYRQGILIGSACDQGEVFETMMQKSAEEAEKVAQFYDYIEVQPPANYMHLIEKDLVQNEAQLLDIIKKIVQLGERVDKKVVATGNVHYLDEQDQIYRQILIASQAGNPLNRVTLSQTPFRTTNEMLESFYFLGEKKATEIVVTNTQAIADEIEEIAPVKDGLFTPTIEGADQEIRDLCYTRAKKIYGEPIPKIVTERLEKELKSIIGHGFSVIYLISQKLVKKSLDDGYLVGSRGSVGSSFVATMTEITEVNPLPPHYVCLSCHYHEFITDGSVGSGFDLPDKHCPTCGTSLTKDGQDIPFETFLGFKGDKVPDIDLNFSGSYQPRAHNYTKELFGIDNVYRAGTIGTIAEKTAYGYVKGYASDKQLVYKNAEVDRLVKGCTGVKRTTGQHPGGIIVVPDDKEIFDFTPIQYPADDRSSEWRTTHFDFHSIHDNLLKLDILGHDDPTVIRMLQDLSGIDPKTIPTDDPDVMTIFSGPEALGVTPEQINCKTGTLGVPEFGTKFVRQMLEDTKPNTFAELVIISGLSHGTDVWLGNAQELINDGICELPDVIGCRDDIMVYLMHKGLDASLAFQIMEFVRKGKGLKDEWITEMKKHDVPDWYIESCKKIKYMFPKAHAAAYVLMAVRIAYFKVHHPIFFYAAYFTVRADDFELDTMIKGSNAIRKRMETITVKGNEASPKEKSLLTVLELALEMCERGYSFKKVDLYKSSATEFIVAGDSLIPPFNAVDGLGTNAAINIVKAREEGEFLSKEDLRERSKISKTVLEYLDNHGCLEGMAEQNQLSLF NA NA NA NA NA AK015_00583 1263 rasP COG0750 Regulator of sigma-W protease RasP TTGAATACAGTCATTGCGTTTATTCTAATGTTTGGTCTCCTTGTATTCATTCATGAATGGGGGCATTTAATTTTTGCTAAACGAGCTGGCATGTTAGCGCGTGAGTTTGCCATTGGTTTTGGCCCAAAAGTGTTTGCATTTACAAGGAACGAAACTGTTTATACCATCCGGCTCCTTCCAATTGGTGGCTACGTACGAGTTGCCGGAGAAGACCCAGAGATCATTGATTTAAAACCTGGTCATCATGTAGGGTTAGAATTTAATGAGTTTGGAAAAGTAAATAAAATTATTGTAAATCACAAAACCAAACATCCAAATGCCCGTATTATTGAAATTGAAGAAGCGGATTTAGATCATGCATTGCAAATAAAAGGATATGAAGTCGGTGAAGAGGAAAAACTTGTTTTTGATGTTGACCCGAAAGCTTTCTTCGTTATGGACGAAAGAGAAACACAAATTGCTCCTTATGATAGGCAGTTCGCTTCCAAAACAGTAACACAGCGAGCCATGCAATTATTTGCAGGGCCAATGATGAACTTTGTGTTGGCTATTTTTATCTTCTTAATCCTTGGGATTATCCAAGGTGTGCCTGTAGAAGAAGCACAAATGGGAGAAGTTATAGCTGATAGCCCGGCAGCTGAAGCAGGTATAAAAGAGGGGGATGAAATAATCCAAATTGAGAAAGACTCTATTTCTACCTGGGAAGAATTTCACACGATCGTAAGAAGTAGCCCGAGTGAAGAGCTCAATGTGACCGTGTTGCGCGATGGAGAAGAAATTGTTTTAACGGTAGTTCCAAATGAAGCAGAAGGTGTTGAAGGGGAAGAATCATTTGGCCAAATTGGTGTATATCAAGCGTTTGAAAAATCAATTTTAGGTACTATTCCATATGGCATTTCACAGACGTATGAAACATCGAAGCTCATTTTAACAAACTTAGGGATGTTAATTACGGGACAATTGTCCATTGATGCTTTATCAGGACCAGTCGGAATATATGATGCCACAGACCAAATTGTACAAACTGGTTTTACAAACTTCCTGTTATGGACGGCCATGTTAAGTATTAACTTGGGGATTGTCAATCTTGTCCCACTTCCAGCATTGGATGGAGGAAGATTGTTGTTTGTTGGGATTGAAGCGATACGTGGAAAACCGGTTTCTCCAGAAAAAGAAGGTTTGTTCCACTTTATAGGTTTCGCACTGCTCATGTTACTCATGATTGTTGTGACATGGAACGATATTCAACGTTTATTTCTTTAA MNTVIAFILMFGLLVFIHEWGHLIFAKRAGMLAREFAIGFGPKVFAFTRNETVYTIRLLPIGGYVRVAGEDPEIIDLKPGHHVGLEFNEFGKVNKIIVNHKTKHPNARIIEIEEADLDHALQIKGYEVGEEEKLVFDVDPKAFFVMDERETQIAPYDRQFASKTVTQRAMQLFAGPMMNFVLAIFIFLILGIIQGVPVEEAQMGEVIADSPAAEAGIKEGDEIIQIEKDSISTWEEFHTIVRSSPSEELNVTVLRDGEEIVLTVVPNEAEGVEGEESFGQIGVYQAFEKSILGTIPYGISQTYETSKLILTNLGMLITGQLSIDALSGPVGIYDATDQIVQTGFTNFLLWTAMLSINLGIVNLVPLPALDGGRLLFVGIEAIRGKPVSPEKEGLFHFIGFALLMLLMIVVTWNDIQRLFL PGPT0011685_2592 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-PILUS|FIMBRIAE_SYSTEM MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749 NA NA AK015_00584 801 hypothetical protein ATGAAGCAACGGATTATTACAGCCATCATTGCATTAATCATATTTGTTCCCTTTGTTATCATTGGTGGCCTTCCATTTGAGATTTTAGTGTATGCAATGGCAACAATTGGTTTTTTAGAATTATTAAGGATGGGGAATATAGCTAAATACTCCATCCCCTCCATTTTAGGTATTGGGCTGTTATGGGTACTTTTGCAGGCAGAACATATGGATGCTATCCCGTTTATGTGGCTGACGAAATCAGAAATTTTAATGCTTATTGTCCTGTTACTATTGTCCTATACTGTATTAGTTAAAAATAAATTTACCTTTGACCATGCGGGCGTTGTTCTTATTTCAGCGATTTATGTCGGGATGGGGTTCTATTATTTGCTTTTAGCTAGGGGGGGAGAAGGTGGAGGCGGATTAGCAACGATCCTCTACATATTTCTTCTTATTTGGTCCACAGATACAGGAGCCTATTTTGTAGGGCGAGCTTTTGGGAAGCATAAACTATGGCCTAAAATCAGCCCAAATAAGACAATAGAAGGTGCTTTAGGCGGTATTTTGTTAGCGATTATTGTAAGTATTATCTTTCAAATTGTTCATCCTATTGGAGATAGCTTAGTTGGCATGATTGGGGTAGCAATTATTGCATCTGTATTTGGACAAATTGGCGATTTGGTTGAATCTGCGTTCAAACGTCACTTTGGGGTGAAAGATTCAGGAAATGTACTTCCAGGTCATGGCGGTATTCTAGATCGCTTTGACAGCTTATTATTTGTTTTACCAATATTACATCTTGTTGGTTTTTTTAATTAA MKQRIITAIIALIIFVPFVIIGGLPFEILVYAMATIGFLELLRMGNIAKYSIPSILGIGLLWVLLQAEHMDAIPFMWLTKSEILMLIVLLLLSYTVLVKNKFTFDHAGVVLISAIYVGMGFYYLLLARGGEGGGGLATILYIFLLIWSTDTGAYFVGRAFGKHKLWPKISPNKTIEGALGGILLAIIVSIIFQIVHPIGDSLVGMIGVAIIASVFGQIGDLVESAFKRHFGVKDSGNVLPGHGGILDRFDSLLFVLPILHLVGFFN PGPT0007685_5107 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981 NA NA AK015_00585 762 uppS Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific) ATGTCAATTAGACTTCCCTTTACAAAAAAGAAAACAAAAGAAATAGAACCATTAAAGAATACAGAGAATATCCCAAACCATGTTGCAATTATTATGGACGGAAATGGAAGATGGGCTAAAAAAAGGTCATTACCACGTATTGCGGGTCATAAAGAAGGGGTGGACTCCGTAGTAAAGACCGTTCGTGCAGCGCATAAGAGTAATGTTAACATTTTAACTTTATATGCATTTTCAACAGAAAATTGGAAACGACCGCAAAAAGAAATTGACTTTTTAATGAAGCTTCCTAAGGAATTTTTACATATTCACTTACCTGAATTAATGGAAAGAAATGTTCGAATTCAAACCATTGGGGAATTTGAAGCTTTACCAGAGCATACAAAAGAAGCGGTTCAGTATGCGATGGATAAAACAAAGAATAATGATGGATTATTATTAAATTTTGCTTTAAACTATGGTAGTAGGTATGAAATTATACAAGCAATGAAACACGTAGTGACAGATGTGCAAAATGAAAAGCTTCATCTGGAAGCTATAAGCGAAGAAGTCTTCGATAAATATTTATATACAAAAGAACTTAGCGATCCAGATTTACTAATACGAACAAGTGGCGAGCAACGGTTAAGTAATTTTTTATTATGGCAACTTGCTTACACTGAATTTTGGTTTACAGAAGTTCTTTGGCCTGATTTTGATGAAGCAGTATTTAAACAAGCAATTGAAGAATATCAGCAACGCCAGCGTCGTTATGGCGGTATTTAA MSIRLPFTKKKTKEIEPLKNTENIPNHVAIIMDGNGRWAKKRSLPRIAGHKEGVDSVVKTVRAAHKSNVNILTLYAFSTENWKRPQKEIDFLMKLPKEFLHIHLPELMERNVRIQTIGEFEALPEHTKEAVQYAMDKTKNNDGLLLNFALNYGSRYEIIQAMKHVVTDVQNEKLHLEAISEEVFDKYLYTKELSDPDLLIRTSGEQRLSNFLLWQLAYTEFWFTEVLWPDFDEAVFKQAIEEYQQRQRRYGGI PGPT0024180_1731 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806 NA NA AK015_00586 549 frr COG0233 Ribosome-recycling factor ATGTCTGATGGTATATTGAAACAAACGAATGAAAAAATGGAACAAGCTGTACAAGCTTTCTCTAAAAATCTGGCTACTGTTAGAGCTGGAAGGGCAAATCCAAGTTTATTAGACAGTGTTTTTGTGGAATACTATGGAATGAGTACGCCATTAAACCAAATTGCTTCGGTCTCCGCACCAGAAGCAAGACTACTTGTTGTTACACCATATGATAAATCAGCTATTTCTGACGTGGAAAAAGGGATTCAAAAAGCAGATCTAGGTCTTTCACCTTCTAGTGATGGTAATGTAATTCGGATTAATATCCCAGCATTAACAGAAGAACGTCGTAAAGATTTAGTTAAAGTAGTAGGTAAATATGCCGAAGAATCACGTGTTCAAGTAAGAAACATACGACGTGAAGCAAATGATCAATTGAAAAAAGAAGACAGTATTTCAGAAGACGATGTACGGGCTTTACAAGACGATGTACAAAAAGTAACAGATAAATATATAGCGAAAATTGACCAACTAGCGAAAGAAAAAGAAAAAGAAATTATGGAAGTTTAA MSDGILKQTNEKMEQAVQAFSKNLATVRAGRANPSLLDSVFVEYYGMSTPLNQIASVSAPEARLLVVTPYDKSAISDVEKGIQKADLGLSPSSDGNVIRINIPALTEERRKDLVKVVGKYAEESRVQVRNIRREANDQLKKEDSISEDDVRALQDDVQKVTDKYIAKIDQLAKEKEKEIMEV NA NA NA NA NA AK015_00587 723 pyrH Uridylate kinase ATGACAACAGCTCGTTACCGTAGAATCGTGCTTAAACTAAGTGGAGAAGCATTAAGTGGCGAACTTGGATATGGCATTGAGCCTAAAATTATTCAGTCTATCGCTGATCAAGTAAAAGAAGTTGCTGAATTAGATGTAGAAATTGCTATTGTCGTTGGCGGAGGAAATATATGGCGCGGCAAAGTAGGCAGTGAAATGGGTATGGATCGTGCCAATGCTGACTATATGGGGATGCTAGCAACCATTATGAATGCTTTAGCACTTCAAGATGGACTGGAAAACATCGGTATACCTACAAGAGTACAAACATCAATAGAAATGAGACAAGTGGCTGAGCCGTACATAAGAAGGAAAGCAATTCGCCATTTGGAGAAAAAGCGTGTTGTCATTTTTGCTGCTGGTACAGGAAATCCTTTCTTCTCAACGGATACAACTGCAGCATTACGCGCAGCTGAAATTGAAGCAGAAGTCATTTTGATGGCAAAAAATAATGTGGATGGCGTTTATACAGCGGATCCTAAATTGAATGAAAATGCAGAGAAGTATGAGAACCTTTCTTATATGGAAATGCTCAATGCAGGACTTGGAGTTATGGACTCAACAGCTTCAACTTTATGTATGGATAACGATATTCCTTTAGTTGTGTTTTCTATAATGGAAGAAGGCAATATTAAACGGGTCGTTCAAGGTGAAGTAATTGGAACTACAATAAGGGGGAAATAA MTTARYRRIVLKLSGEALSGELGYGIEPKIIQSIADQVKEVAELDVEIAIVVGGGNIWRGKVGSEMGMDRANADYMGMLATIMNALALQDGLENIGIPTRVQTSIEMRQVAEPYIRRKAIRHLEKKRVVIFAAGTGNPFFSTDTTAALRAAEIEAEVILMAKNNVDGVYTADPKLNENAEKYENLSYMEMLNAGLGVMDSTASTLCMDNDIPLVVFSIMEEGNIKRVVQGEVIGTTIRGK PGPT0021205_2386 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903 NA NA AK015_00588 885 tsf COG0264 Elongation factor Ts ATGGCAATCACTGCAAAAATGGTTAAAGAATTACGTGAAAAAACTGGTGCAGGAATGATGGATTGTAAAAAAGCACTTCAGGAAACAGATGGCAATTTAGAGGCTGCTGTTGATTTCTTACGTGAGAAAGGTCTGTCTAAAGCTGCAAAGAAAGCTGACCGTATTGCTGCTGAAGGGTCTGCGTACATTCAAGTAGATGGTAATACAGCTGTTTTACTAGAAGTAAACTGTGAAACAGATTTCGTAACAAAAAATGACCAGTTTAAAGACCTATTATCTACATTAGCAACTCATTTGTTAAAACACCAGCCAGAGACAGTAGAGGAAGCACTACAGCAAACGATGGAAGCGACTGGAGAAACAGTTGAAAACCATATTAAAGCTGCTGTTGCAAAAATTGGTGAAAAATTATCCCTTCGTCGTTTTACAATTGTAACGAAAACGGATAACGATGCGTTTGGTGAGTATTTGCACATGGGTGGACGTATCGGTGTGCTTACCTTGTTAGAAGGAACTACAGATAAAGATGTTGCTAAAGATGTAGCGATGCATATTGCAGCTGTAAATCCACGTTATATTTCTCGTGATGATGTTGCAGAAGAAGAAGTAAACCATGAGCGTGAAGTATTAAAAGCCCAAGCTTTAAATGAAGGTAAACCAGAACATATTGTTGAAAAAATGGTAGAAGGTCGTCTTGGCAAGTTTTTTGAAGAAATTTGTTTGTTAGAGCAAAGTTTTGTAAAAGACCCAGACCAAAAAGTGAAAAAGTTCGTTGCGGATAAAGGAGCAACTGTGAAAACTTTTGCACGTTATGAAGTAGGCGAAGGAATGGAAAAACGTGAAGAGAACTTTGCAGACGAAGTGATGAGTCAAATCAAAAAATAA MAITAKMVKELREKTGAGMMDCKKALQETDGNLEAAVDFLREKGLSKAAKKADRIAAEGSAYIQVDGNTAVLLEVNCETDFVTKNDQFKDLLSTLATHLLKHQPETVEEALQQTMEATGETVENHIKAAVAKIGEKLSLRRFTIVTKTDNDAFGEYLHMGGRIGVLTLLEGTTDKDVAKDVAMHIAAVNPRYISRDDVAEEEVNHEREVLKAQALNEGKPEHIVEKMVEGRLGKFFEEICLLEQSFVKDPDQKVKKFVADKGATVKTFARYEVGEGMEKREENFADEVMSQIKK NA NA NA NA NA AK015_00589 750 rpsB COG0052 30S ribosomal protein S2 ATGTCAGCTATTTCAATGAAACAGCTACTCGAAGCTGGTGTACATTTTGGTCACCAAACTCGTCGCTGGAACCCAAAGATGAAAAAATACATCTTTACAGAACGTAACGGTATTTACATCATCGATCTACAAAAAACGGTGAAAAAGGTTGATGAAGCGTATAATTATGTCAAGCAACTTGTTGCCGACGGAGGAACCGTTTTATTCGTTGGTACGAAAAAACAAGCTCAGGAATCTGTACGTGACGAAGCCATTCGTTCAGGTATGTACTATGTTAACCAACGTTGGTTAGGTGGAACACTTACTAATTTTCAAACCATTCGTAAACGCATTAACCGTTTGAAAGACATTGAGCGCATGGAAGAAGATGGAACTTTTGAAGTGCTACCAAAGAAAGAAGTTGTTGATCTTCTAAAAGAAAAAGATCGCTTAGTGAAGTTCCTTGGTGGAATTAAAGAAATGGATAAACTTCCAGATGCGTTGTTTGTAATTGACCCACGTAAAGAGCGAATTGCTATTGCTGAAGCTCATAAATTAAATATTCCGATTATCGGAATTGTGGACACAAACTGTGATCCAGATGAAATTGATTATGTAATCCCTGCTAATGATGATGCGATTCGTGCCGTGAAACTTTTGACTTCCAAAATGGCAGATGCTATTTTAGAAGTGAAACAAGGCGAAGAAATGAATGAAGCTCCAGAATCAGAGCAAGCGTCTGAAGAAGCAAAGGAAACAGAACAAGAGTAA MSAISMKQLLEAGVHFGHQTRRWNPKMKKYIFTERNGIYIIDLQKTVKKVDEAYNYVKQLVADGGTVLFVGTKKQAQESVRDEAIRSGMYYVNQRWLGGTLTNFQTIRKRINRLKDIERMEEDGTFEVLPKKEVVDLLKEKDRLVKFLGGIKEMDKLPDALFVIDPRKERIAIAEAHKLNIPIIGIVDTNCDPDEIDYVIPANDDAIRAVKLLTSKMADAILEVKQGEEMNEAPESEQASEEAKETEQE NA NA NA NA NA AK015_00590 132 hypothetical protein ATGTATGTGCAAACCATGCTACCAAATATGGAAGATTTCATGAGTATTGCGGGATTATTACCAACAGAGGAATGCTTATTCGATGCACTCCTCTACATTAAACCTCAACATGATGCTATATTGGATAAATAA MYVQTMLPNMEDFMSIAGLLPTEECLFDALLYIKPQHDAILDK NA NA NA NA NA AK015_00591 429 hypothetical protein GTGACATCTATATTAATTTTGGTCAGTTTTCTATTACATATGGTTGCCTTCACAGTTATTTTTCAATTGTATAAACGAATGAATACAAATCAACAATTGGAGACTTCTGAAATTGACGCTTTGCTAGCAGCATATATTGATGAAATAAAACAGGAGAACATACGTTTACAACAGCAGTTGATTACATTAAACAAACGAGAAAATGTGGAAACGGATCAAATACAACTAGTGAAAAAAGAGGAAAAAGACGTTCCATACAATAATGAACAGCAAGACGAGATGACAACTTCGCTACAAGCGAAAATATTACAATTACATAGTCAAGGGCACACAGCTTCAGAAATCGCTCAACAATTAAATTGTGGAAAAACAGAAGTAGCATTAACGATTAAGTTTCAGCAGAATTCAAAGATTAATTCATCGAAATAG MTSILILVSFLLHMVAFTVIFQLYKRMNTNQQLETSEIDALLAAYIDEIKQENIRLQQQLITLNKRENVETDQIQLVKKEEKDVPYNNEQQDEMTTSLQAKILQLHSQGHTASEIAQQLNCGKTEVALTIKFQQNSKINSSK NA NA NA NA NA AK015_00592 294 hypothetical protein ATGGGATGGAAATCCATTGAATTGCAAGTAGCTATTCCTCGTTCTCTAGATGCAAGTAAAATGCAACAACAACTTCTTCACCAAAGCCAACTTTATCAAGCTTCTCTTTCGCGGCAGCAATTAATGGAAGAACAGCGAAAAAGGAAACAGGTACGTCGCACGGATCAATCAGACTCAGTAAAGAGCGATCAACAAACGACAACTATGAAGGAACGGAAGGTAAATAAAAAGGAACAACAGGTCAGCATAAATGAACATCCTTTTTTGGGAACAGAAATTGATGTGAACGGATAG MGWKSIELQVAIPRSLDASKMQQQLLHQSQLYQASLSRQQLMEEQRKRKQVRRTDQSDSVKSDQQTTTMKERKVNKKEQQVSINEHPFLGTEIDVNG NA NA NA NA NA AK015_00593 1374 hypothetical protein ATGAAATTATTAGAAAATATATTTAAAGTTAACGTCTCCCAAAATAAAATGTTAGCAGAAATAGACGTAAGCGAACAGGAAGAAGATTTTACAACACTACAAATGACGAAATCAGATGTGATTGCATTTCTACAAAAAAATAACGTTACGAATGGAATTTTGGAAGAAGCGATTTTTTCGATCGTCAACGATACATCAAATGTTACTTATCCAATTACAATTGCTAAAGGAAAAAAACCAGTCCATGGCAAAGATGGTCAAATACAATATATCTCTGACTTTAATCCTGATAATGCTTGGGAAAAAAAGCAGGATTTTCGAGACATTATGCAAATACCATCGGTGAAAAAAGGGGAAAAAATCGCAACCCTTATTGCACCGACCGATGGTGAAGCGGGTTTTGACGTATGCGGAGCGATTATTCCATCATACCCTGGCAAAAAAGTTCTTGTAAAAGCAGGCAAGAACGTTGTTTATCGGGAAGCTGACCAAAGTTTTTATGCTACTACAGATGGGCAGTTGAGCTGGCGCGGAAAGTATATTCAAGTCCAACCGGTATATGAAGTAAATCAAACATTATCTATGAAAACGGGCAATATAGATTTTATCGGCACTATTATTATTCGTGGTGATGTTCCTGCTGGTTATACAGTTACAGCAAAAGGAGATGTCAAAATATTTGGGATGGTGGAAGCTGCTACAGTACTTGCTGGTGGTTCGATCTATGTAGCAGAAGGAGTCGCAGGGCAAGGGGCAGGAACGATTCAAGCAGACGAAAATATACATGTTGGTTATGTGAACCAAGGCAATATTATTGCTGGGAAGGACTTATTTGTAGAAAATTCTATTTTTCATAGCCAGTGTAAAGTACGTGAGCGTGTTATCTGTCATAGAGGAAATATTATTGGTGGTACATTATCAGTTGGAAAGAGGATAGAAGCAAAAGATGTAGGAAATCGTGTAGGTGTGAAAACAGAAGTTATGTTTGGGCTAGATCAAAAAACGGAGAAGGAAAAGAGAGATTTATTAGACGAAAAGAAAAAACTGGAGGCCACGCTTTCTAAGCTAGCTCTACTAGAAAAAAAATTAAATGGACAGCAAATAGAAAATGATTCTAAACTAAAAATTACGCTGCTTCGATATAAGCACTCGTTACAAAAAACAAAAGAACGTTTAGCAGAGGTAAACCGCTTATTAAATCAATTGACAACAAATCTTGGAAACGTGGAAGATGCGACATTGGTAGTCCGCAACTATCTACATGCAAATGTCGTTGTGGCATTTGGAAAATATTACCGCATTAGTAATGGGAATTATCAAGGTGTTAAAGTGCAGCTAGTAGACAATGAAATTGTTACTTCTCCTTTAACCTGA MKLLENIFKVNVSQNKMLAEIDVSEQEEDFTTLQMTKSDVIAFLQKNNVTNGILEEAIFSIVNDTSNVTYPITIAKGKKPVHGKDGQIQYISDFNPDNAWEKKQDFRDIMQIPSVKKGEKIATLIAPTDGEAGFDVCGAIIPSYPGKKVLVKAGKNVVYREADQSFYATTDGQLSWRGKYIQVQPVYEVNQTLSMKTGNIDFIGTIIIRGDVPAGYTVTAKGDVKIFGMVEAATVLAGGSIYVAEGVAGQGAGTIQADENIHVGYVNQGNIIAGKDLFVENSIFHSQCKVRERVICHRGNIIGGTLSVGKRIEAKDVGNRVGVKTEVMFGLDQKTEKEKRDLLDEKKKLEATLSKLALLEKKLNGQQIENDSKLKITLLRYKHSLQKTKERLAEVNRLLNQLTTNLGNVEDATLVVRNYLHANVVVAFGKYYRISNGNYQGVKVQLVDNEIVTSPLT NA NA NA NA NA AK015_00594 780 sigD COG1191 RNA polymerase sigma-D factor ATGAAAGCAACTTCATCTCCGCATGAGCAGAAGCTTTGGGATGATTGGCTTAATAACCATTGCATGGAGGCAGCAAATGAACTAATCGAAAATTATATGTATTTGGTTAACTTTCATGTGGAGAGAATCGCCAGCCATTTGCCAAATAATGTAATGAAAGATGATGTGAAAAGTTTTGGACTAATGGGTCTTTACGATGCATTAAAAAAGTTTGACCGCACTCGTCAACTAAAATTCGATACGTACGCTTCGTTTCGTATTAAAGGAGCGATTATTGATGGGCTTCGAAAAGAAGATTGGCTTCCCCGTTCTTTACGAGAAAAAACAAAAAAGATTGAGCACGTAACAAATCAATTAGAACAACAATATCAAAGAATACCAAGTACGGAAGAAATTGCAAAGCATACTGGTATGACGGTTAAAGAAGTGGAAACTGCGATGTACGATTCTTTATTCGCTAATATTCTTTCCATTGAAGAAAAGCCTACTGATCCGAAACTAAAGCTTAAAGAAGGAATAGGTTATTCCATTCCGGATACTAAATCGGTCTCTCCAGAAAATCAAGTTGTAAAAAACGAACTAAAACAAGAATTAAAAGCTAGTATGAAAAATTTAAATGAGAATGAGCAATTAGTAATCAGTTTATTTTATCAAGAGGAATTAACATTAACTGAAATAGGAGAAGTGTTAGGGTTGACGACGTCTCGAATATCACAAATTCATAAGAAATCGATTACTAAGTTGCACACGATCTTAAAGAAACTGCAAGCTATATCTTAG MKATSSPHEQKLWDDWLNNHCMEAANELIENYMYLVNFHVERIASHLPNNVMKDDVKSFGLMGLYDALKKFDRTRQLKFDTYASFRIKGAIIDGLRKEDWLPRSLREKTKKIEHVTNQLEQQYQRIPSTEEIAKHTGMTVKEVETAMYDSLFANILSIEEKPTDPKLKLKEGIGYSIPDTKSVSPENQVVKNELKQELKASMKNLNENEQLVISLFYQEELTLTEIGEVLGLTTSRISQIHKKSITKLHTILKKLQAIS PGPT0015610_498 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 AK015_00595 507 cheD COG1871 Chemoreceptor glutamine deamidase CheD ATGTCTAAACTAATTTCTTCCTCTCATGTTGTAAAAGTCGGGATAGCAGATTTGAAGGTAACCAAAGCTCCTAATAAGATTCGAACTTCTGGTCTAGGATCCTGTGTAGGTGTTGTTATCTATGATGAAAGAAAAAAAGTAGCTGGGCTAGCACATGTTCTATTACCAGATTCGAAATTAGCTAGACAAAACAAATTTAATCACTATAAATATGCCGATACAGCAATACCACTTTTGGTGGAGCAATTATCTAGTCTTGGAGCAAGAAGTAATCTATTAAAAGCTAAAGTAGCTGGAGGGGCACAAATGTTTCAATTTTCATCGGGCTCGGATATGATGCGAATTGGTCCAAGAAATGTAGAATCTGTTTTGGAGAAACTGAAGCATCTTTCCATCCCTGTTCTTGCATCTGATACAGGTGGTAACGCTGGACGGACAATAGAATTTGATATACAGACAAGTCTCTTGAAAGTGCGAACGGTAAATAAAGGTGAAACATTTATTTAA MSKLISSSHVVKVGIADLKVTKAPNKIRTSGLGSCVGVVIYDERKKVAGLAHVLLPDSKLARQNKFNHYKYADTAIPLLVEQLSSLGARSNLLKAKVAGGAQMFQFSSGSDMMRIGPRNVESVLEKLKHLSIPVLASDTGGNAGRTIEFDIQTSLLKVRTVNKGETFI PGPT0015665_1042 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411 NA NA AK015_00596 627 cheC COG1776 CheY-P phosphatase CheC ATGGATCTAACAAAGTTAACGCAAATGCAAAAAGATGCGCTACGGGAAATAGGAAATATTGGTGCTGGAAATGCTGCAACATCCATGTCTAAATTAGTAAATCGAAAAATAGACATGGATGTGCCTACTGTGAACATTGTTAGTTTTGACGAGATGATGGAACGCATTGGTGGCCCAGAGTCTGTTGTTGTCGCCTTGTTATTTCGCATTCAAGGAGATGCCCCTGGTACTGTATATTTCATCTTTTCTATAGAAGAGGCAGAAGCTTTAATTAAGGAAATTACGAATAACGATGCATTACGTTTAGATGTTAATGATGAGCTAGCCATTTCCGTCATTCAAGAAGCAGGTAATATCGTAACAGGTGCTTATTTATCAGCCTTAGGTGACTTTACCAATATTACTATGCAGCCTTCTGTACCTTATTTAAGTATTGATATGGCTGGTGCAATATTAACCGTGGGACTGCTTGAAGTATCGCAAGTAGCAGACTATGCCTTAATTATTGATGCAAAAATCAGTTCATCTTATCAAGTAAGCCAAATTAAAGGGAATTTTTTATTTATTCCTGACCCTGATTCATTTTCAAAACTGTTTAAAGCATTAGGAGTTACAAACGATGTCTAA MDLTKLTQMQKDALREIGNIGAGNAATSMSKLVNRKIDMDVPTVNIVSFDEMMERIGGPESVVVALLFRIQGDAPGTVYFIFSIEEAEALIKEITNNDALRLDVNDELAISVIQEAGNIVTGAYLSALGDFTNITMQPSVPYLSIDMAGAILTVGLLEVSQVADYALIIDAKISSSYQVSQIKGNFLFIPDPDSFSKLFKALGVTNDV PGPT0015660_423 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015660-cheC-K03410 NA NA AK015_00597 471 cheW COG0835 Chemotaxis protein CheW ATGGAAAACAATATGTCTGGAAATAGAAAGGTCATTGTATTTCAACTTGGTGAGGAAGAATATGCAGTTTCTGTACAGCAGGTAAGCTCAATTGAAAGGCTAATGCCAATTACAAGAGTTCCTCAAACAGCTGATTTTGTAAAAGGGGTCATTAATTTAAGAGGAGTTGTAACTCCGGTTATTGATCTACGATTACGTTTTGGTATGGAAGAAACACCTTACAGCGATTCAAATCGTATTATTATTGTTATTTTGGAAAATATGGAAGTTGGCTTAGTGGTAGACGCTGCTAATGATGTTATTGATATCCCAGAATCTGAAATAGAGCCTACTCCTGAAGTGATAGGAACTGTTGATACGAAATATATTGAAGGGGTAGCAAAGCTCGAAAACCGCTTACTTATTCTATTAAATATGCAAAAAGTATTAACAGAAGAAGAGATAGAAGAATTAAAGTCAGTGGAAGGGTAA MENNMSGNRKVIVFQLGEEEYAVSVQQVSSIERLMPITRVPQTADFVKGVINLRGVVTPVIDLRLRFGMEETPYSDSNRIIIVILENMEVGLVVDAANDVIDIPESEIEPTPEVIGTVDTKYIEGVAKLENRLLILLNMQKVLTEEEIEELKSVEG PGPT0015680_4041 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408 NA NA AK015_00598 2010 cheA COG0643 Chemotaxis protein CheA TTGGATACTTCTGGATATTTAACTGTCTTTATAGATGAGAGCAACGAACATTTGGAAGTTTTGTACAACCAGTTACTAGCGCTAGAGAAAAACCCGCAGGAAAGGGCAATCATTGAAGAAATTTTCCGAGCAGCCCATACGCTAAAAGGAATGTCAGCGACGATGGGGTACCAAGATTTAGCTAATCTCACGCATAAGTTAGAAAATGTTTTTGATGCCATTAAAGAAGGACGGCTAAACGTTCAATCAGAAATGATTGATATTTTGTTTTCTGCAGTTGATTATTTACATGAAATGGTAGAGGATATTGCTTCTGGTGGTAGTGGGAGCAAAGACGTAACGGATATTGTCGAACAATTGAAATGTTTAGAGCAAGGAGACTCATTGGCTCAAGATAGTGCACCACTAAATACCTTAAAGCAAGCCAAATCAAATGGCATGCAAATGAAAAATGTAGACGAATTTGCGCTTACTATTTTACAAGAGTCAAAAGAGCGTGGATATACAAACTATGAAATTACTATTGCTCTAAGCCAAAATTGTTTATTAAAAGGCGCTCGTGTATTTATGGTGTTTGAAGTTTTGGAAAAGCTTGGTGAAATTGTTAAATCTGAGCCGTCTGTAACGGAATTGGAAGAAGAACAATTTGATCAGACGTTTACAGTATTATTTATCTCTGAGTATAAAAAAGAAACGATACAAACGAATATTGAAAAGGTTTCTGAAATTGAAACAGTTCACATTGTTCCTTTTAACGTTGATCAGATTCAGGAAACAGAGAAAAGTGTAGAAAAATCTGAAGAGCAGCCGCAACCTAAGGGGCAACAAAGCAAACAACGACATGCGAATGGGGTAGCAAATAAAACCATTCGCGTAAATATTGATCGTTTAGACGTACTAATGAATTTATTTGAAGAATTAGTTGTTGACCGTGGGAGATTAGAGCAATTAGCTGCAGACTTAGATAATAAAGATTTGCAAGATACAGTTGAACATATGTCGCGTGTTTCTAATGATCTTCAGTCCATCATTTTGACGATGCGCATGGTGCCAATTGAACAAGTGTTTAATCGGTTTCCGCGGATGATACGACAAGTTGCTCGGGAGTTAAATAAACAAGTTGAAGTGGAAGTTATTGGCGCTGATACAGAATTAGATCGAACGGTAATTGATGAAATTGGTGACCCATTAGTTCATCTCATTCGTAATGCAATTGATCACGGTATTGAATCAAAAGAAGAAAGAATAAATAAAGGGAAACCTGAATATGGCACATTAAAGCTTGAAGCTTACCATAGTGGTAACCATGTGTTTATCGAAATTGTGGACGATGGTGCAGGCATTCACAAGGATAAAGTGATAAAGAAAGCAATTTCAAAAGGAGTTTTATCTGAATCACAAGCGGAACTTTTATCCGATCAGCAAGTATTTGAATTAATTATGTCCAGTGGTTTTTCAACTGCTGATCAAGTATCAGATATTTCTGGCCGAGGTGTTGGTTTAGATGTTGTTAAAAATACAATTGAATCTTTAGGTGGAAAAATAGCAATTGATTCTAAAGAGGGGCAAGGAACAGTCTTTTCTATTCAATTGCCGCTTACATTATCCATTATTTCTGTCCTTCTAATTGAGCTACAGAAAGAAAAATATGCTATCCCACTATCATCGATTATAGAAACAGCAATTGTCCATAAAGATGATGTCATGCATGCACATCATACAAAAGTAATTGATTTTCGTGGCAAAGTGGTGCCATTAGCATTTTTAAATGACATATTTAACGTGAAGCAAACGATAGAAGCAAATAAAGATTCATACTTATCCATTGTCATTGTCAAGAAAGGTAATAAAATGGTAGGACTTGTCGTAGATTCATTTATTGGTCAACAGGAAGTCGTTTTAAAATCGCTAGGCAATTATTTAACGAACACTTTCGCTATTTCTGGGGCTACCATCCTCGGTGATGGAGAAGTAGCCTTGATTATTGATAGTAATGCGCTAGTAAAATAA MDTSGYLTVFIDESNEHLEVLYNQLLALEKNPQERAIIEEIFRAAHTLKGMSATMGYQDLANLTHKLENVFDAIKEGRLNVQSEMIDILFSAVDYLHEMVEDIASGGSGSKDVTDIVEQLKCLEQGDSLAQDSAPLNTLKQAKSNGMQMKNVDEFALTILQESKERGYTNYEITIALSQNCLLKGARVFMVFEVLEKLGEIVKSEPSVTELEEEQFDQTFTVLFISEYKKETIQTNIEKVSEIETVHIVPFNVDQIQETEKSVEKSEEQPQPKGQQSKQRHANGVANKTIRVNIDRLDVLMNLFEELVVDRGRLEQLAADLDNKDLQDTVEHMSRVSNDLQSIILTMRMVPIEQVFNRFPRMIRQVARELNKQVEVEVIGADTELDRTVIDEIGDPLVHLIRNAIDHGIESKEERINKGKPEYGTLKLEAYHSGNHVFIEIVDDGAGIHKDKVIKKAISKGVLSESQAELLSDQQVFELIMSSGFSTADQVSDISGRGVGLDVVKNTIESLGGKIAIDSKEGQGTVFSIQLPLTLSIISVLLIELQKEKYAIPLSSIIETAIVHKDDVMHAHHTKVIDFRGKVVPLAFLNDIFNVKQTIEANKDSYLSIVIVKKGNKMVGLVVDSFIGQQEVVLKSLGNYLTNTFAISGATILGDGEVALIIDSNALVK PGPT0015645_3766 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407 NA NA AK015_00599 1047 cheB_1 COG2201 Protein-glutamate methylesterase/protein-glutamine glutaminase ATGAATATAATTCGAGTCCTTGTCATTGATGATTCAGCTTTTATGCGTAAAATTCTTACAGATATGCTATCGAGTGACCCACAGATAGAGGTTGTTGCTACAGCTCGAAATGGTGAAGATGGACTACATAAAATAAACAAATTTTCACCTGATGTTATCACACTAGACGTACAAATGCCAGTAATGGATGGAATAACGACTTTGAAAAACATCATGCAAACAAATCCAATACCTGTTGTTATGTTGTCCAGTGTAACAGAAGATGCAACGATTAAAACCATTCAAGCTATTTCTAGTGGAGCGGTAGATTTTATTGCTAAGCCTTCTGGTGCTATTTCAATTGATATTGAGACTATGAAACAAGAAATCATTCGTAAAGTGATTACTGCTGCCTCGGTTAAATTGCCAAGTCAGCAAGAAGAGGGGGTTAGGCAAAATATAGTAGAGAATCCTGTAAATGAGTTAGGAACGTATAAGCAGACAATCGTAGTCATTGGGGCTTCAACAGGTGGTCCTAGAGCACTTCAGCATATTATTGAACAATTACCAAAGGATTTGGCAGCTGCTGTGTTGATTGTTCAGCATATGCCAGCCGGATTTACAAAATCGCTAGCTGAGCGACTGAACTATAAATCTGACATAGTGGTGAAGGAAGCGGCACATGGTGAGAGATTACGACGGGGTGTTGTATATATTGCGCCAGGTGGATGGCATATGAAAGTAAAACAGATGGGTTCTTCCGTTTTTATCGATCTAACAGATGAAGAACCATTACGTGGCCATAGACCATCTGTAGATATGCTTTTTACATCCCTCGCGCCACTTAAAGAAGTTAACAAGATGGCGGTGATTTTAACAGGGATGGGAAATGACGGGGCAAATGGGATTAAAAGCTTAAAAAAATATGATAAACACACATACATTATTGCAGAATCGGAGGAAACTGCAATTGTATATGGAATGCCAAAAGCGGCAATGGCTACCAATTTGGTTAATAAGCAAGTCCCATTGCATGCAGTAAGTAGGTTAATAACTCAATTAATTTAG MNIIRVLVIDDSAFMRKILTDMLSSDPQIEVVATARNGEDGLHKINKFSPDVITLDVQMPVMDGITTLKNIMQTNPIPVVMLSSVTEDATIKTIQAISSGAVDFIAKPSGAISIDIETMKQEIIRKVITAASVKLPSQQEEGVRQNIVENPVNELGTYKQTIVVIGASTGGPRALQHIIEQLPKDLAAAVLIVQHMPAGFTKSLAERLNYKSDIVVKEAAHGERLRRGVVYIAPGGWHMKVKQMGSSVFIDLTDEEPLRGHRPSVDMLFTSLAPLKEVNKMAVILTGMGNDGANGIKSLKKYDKHTYIIAESEETAIVYGMPKAAMATNLVNKQVPLHAVSRLITQLI PGPT0015650_3030 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412 NA NA AK015_00600 873 ylxH COG0455 Flagellum site-determining protein YlxH ATGAAAACTGATCAAGCAACAGGACTTAGAAACAAATTAGAAACGATGCGAGAGAGCAAACAAGCGAAAACAATTGCGGTTATTAGTGGCAAGGGAGGAGTAGGAAAGTCTAATATCACTTTAAATTTTGCTTTAGGTTTACTGCGGCATGGAAAAAAGATTCTAATCATGGATATGGATATAGGTATGGGAAACATTGATATATTGCTTGGTAGACAGATTGAAAGAACAATTGTTGACATGTTTCAGCGTAGACTTCCTATTCAGTCAATTATTGAACAAGGTCCAGAAAACTTAGATTATATTGCTGCAGGGTCAGGGTTTTCAGATATTTATGCGATAGATACGCAGACGAAGGAGTTTTTCTTTCAGCAATATCAATCTTTGCTTATTCATTATGATTATATATTTTTTGATATGGGGGCAGGAATCACCAATGACAGCTTATCATTTATTTTAGCTGCAGAAGAGTGCATTCTTGTGACTACTCCTGAGCCCACGGCTATAACAGATGGGTATAGCATGATAAAGCATATCGCAAGTCACAATAACATGTTGCCTATTCGAGTCATTATGAATCGTGCGCAATCCAATATGCAAGGCCATAACATGCTTGTGCGTTTTCAAAAGGTTATACAACAATTCTTACAAATAAATATACATGTATTAGGTTCTTTACCTGAAGATCAAACTGTCAGAGCCGCTGTTATTCACCAAACACCGTTTATTATTTTTCAAGAAAAGTCAGCAATTAGTAAAGCAACCAAGAGATTAGTACGAACTTACTTGACAGAAGTAGATGAATATAAAGCGGAAAAAGGAAATAGTTCTAGTTTTCTACAAAAATTAAAACGATTATGGATGGAGAGGTAA MKTDQATGLRNKLETMRESKQAKTIAVISGKGGVGKSNITLNFALGLLRHGKKILIMDMDIGMGNIDILLGRQIERTIVDMFQRRLPIQSIIEQGPENLDYIAAGSGFSDIYAIDTQTKEFFFQQYQSLLIHYDYIFFDMGAGITNDSLSFILAAEECILVTTPEPTAITDGYSMIKHIASHNNMLPIRVIMNRAQSNMQGHNMLVRFQKVIQQFLQINIHVLGSLPEDQTVRAAVIHQTPFIIFQEKSAISKATKRLVRTYLTEVDEYKAEKGNSSSFLQKLKRLWMER PGPT0015555_778 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLUM_CONTROL MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562 NA NA AK015_00601 1119 flhF COG1419 Flagellar biosynthesis protein FlhF TTGAAAGTAAAAAAATATACGGCAGGATCAATGCCTGAGGCCATGAAACAAATACGAAAAGAACTGGGAGCAGAAGCTGTTATCCTTCAATCGAGACAAGTGAATAAGCGCAAATTTTTAGGTTTGTTTAAAAAACCACAGATAGAAGTGGTAGCTGTTAAAGACCCACAGCCAATAGCTCCTAAAAAACAGGTATCACCGAAGCAAGAAATGAGGATAAAAGAAAGAAAGGATAATACAAATACAGATGTTGTTTCTCCTGAACTACAGGAACTAAGGCAAGTTAAAAAGTTATTGCACCAATCCGCTATTCATACATTGACTTATCCTTTTGATTATCAATCTGCTTATCATTATTTATTAGAGCAAGAAGTAAACCAACCACTTGCTAAAAGTTTAATAGAATCAGTGATGGGAAAATATAGCGCTAAGTCACAGCCAACCTATCAAGAAATAGTAAAAAAGGTGGAAGAGGAAATAACGCAACGACTGCAAGCAGTTCCATTTCAAGGCTTAACCTATAATCAAAAGCTTGTCTATTTTGTTGGACCAACAGGAGTGGGAAAAACCACTACAATTGCTAAACTGGCAGCTGAAAGCAAATTAAAAGATGGAAAAAATGTTGCCTTTATAACAGCAGATACGTATCGAATTGCAGCTGTTGAACAATTAAAAACATATGCTGATATCTTATCTGTTCCTATTGAAGTTGTCTATTCCAACGATGATATGGTAAAAGCCATTCACAAATTGTCAACATATGATACTATATTCATCGATACAGCAGGAAGAAATTTTCGAGAAGATGCTTATATTAAACAACTTCAAGAAGATGTATTGATAAATAAAGAAGCTACTATGTTTTTAGTTTTATCGTTAACAGCTAAATCTCAAGACTTATTGAACATTTATGATCAATTTGAGCCCTTACCTATTTCTCGAGTGATTTTTACAAAAATAGATGAGACAAGACAAGTTGGCGGCATGTTAAATATAATCTTTAAAAAATCAATCGGCGTCGGTTACATAACAAATGGGCAAGATGTTCCGGATGACTTAGTACACCCAACACCTGAGTTTTTGTCATCTAGCATAATGGAGCATGCTTATGAAAACTGA MKVKKYTAGSMPEAMKQIRKELGAEAVILQSRQVNKRKFLGLFKKPQIEVVAVKDPQPIAPKKQVSPKQEMRIKERKDNTNTDVVSPELQELRQVKKLLHQSAIHTLTYPFDYQSAYHYLLEQEVNQPLAKSLIESVMGKYSAKSQPTYQEIVKKVEEEITQRLQAVPFQGLTYNQKLVYFVGPTGVGKTTTIAKLAAESKLKDGKNVAFITADTYRIAAVEQLKTYADILSVPIEVVYSNDDMVKAIHKLSTYDTIFIDTAGRNFREDAYIKQLQEDVLINKEATMFLVLSLTAKSQDLLNIYDQFEPLPISRVIFTKIDETRQVGGMLNIIFKKSIGVGYITNGQDVPDDLVHPTPEFLSSSIMEHAYEN PGPT0015550_1460 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLUM_CONTROL MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404 NA NA AK015_00602 2034 flhA COG1298 Flagellar biosynthesis protein FlhA ATGAAAGCAAGAGATCTATCTGTTCTTTTAGGCGTTATTTTAATTATTATTATGCTCATTGTACCACTACCAGGATGGTTGTTAAGTATTTTGATACTTTGCAATATCTCCCTTGCGTTAATTGTTATTTTAGTATCTATGAATACGCAGGAAGCGTTGCAATTTTCCGTATTTCCAACTCTGTTATTACTATTGACGCTGTTTCGTCTTGGATTAAACGTTTCAACAACTAGATCCATATTATCCGAAGCGGATGCAGGTGGTGTTGTAGCCACATTCGGATCATTTGTTATTGGGGGGAATCCGTTAGTTGGATTTGTCGTCTTTGTCATTTTAGTTATCATTCAATTCCTCGTTATTACGAAAGGGTCTGAACGTGTATCGGAAGTAGCTGCGCGCTTTACATTAGATGCGATGCCTGGAAAACAGATGAGTATAGATGCTGATTTAAATGCTGGCTTAATTTCAGAACAACAAGCAAAAGAGCGACGAGAAAAAATTGAAAAAGAAGCCGATTTTCACGGCTCCATGGATGGTGCAAGTAAATTTGTTAAAGGTGATGCCATTGCAGGTATTATTATCGTTTTAATTAATATTATTTTTGGTTTAATTATTGGCATGGTGCAAATGGATTTGTCTTTTCAAGAAGCGATTAATACGTTTATGCGCTTAACAGTAGGAGATGGGTTAGTCAGTCAAATTCCAGCTTTGCTTATTTCTACAGCTACTGGAATCGTTGTAACCAGAACAGCAGGGAATGGAAATTTGGGTACAGATGTATCCGGTCAATTATTGCAATATCCAAAGCTATTATTTATTGCTAGTGGTACTGTGTTTTTACTTGGTTTCACACCGATAAACTTTTTCTTGACGACGATTTTGGCGGCATTATTAGCGTTAAGTGGTTATCTATTACTTAAACAAACCGAAGATATCACAGAACCAAGCGATGAAGAGGTTGATGAAACAGAGAGTGACGTAATGAAAGCTCCTGAAAATGTTGTGCAATTAATTAATATGGATCCAATAGAATTTGAGTTTGGTTATTCGCTTATTCCTATAGCTGATACGAATCAGGGGGGAGATTTACTAGATCGGATTGTTATGATTCGTAGGCAACTGGCAGTTGAACTCGGTATTGTTATTCCAGTTGTTCGCATTCGTGACAACATACAGCTACAGCCTAATGAGTACCGTTTAAAAATAAAAGGTGAAGAGGTTGCCTCTGGAGAGTTATTACTCGACCATTACTTGGCGATGGCACCAGATATGGATGAAGATGATATTGAAGGTGTGGAAACGACAGAACCAGCTTTCGGATTACCAGCAAAATGGGTTAGTGAGGAATGGAAAGATGAAGCTGAGCTCTCTGGATATACAGTAGTGGACCCCCCTTCTGTTGTATCCACTCATTTAACAGAAGTAATTAAACGTCATGCACATATGCTGCTAGGCAGAGAAGAAACAAAACAATTAGTTGATCATCTCAAAGAAAGCTACCCTACATTAGTTGAAGAAGTCACTCCTGAGCCATTAGCTGTGGGAGATATACAAAAAGTGCTAGCTAAATTATTGAGGGAAAAGGTATCTATTCGTAATTTACCAATCATATTTGAAACGTTAGCAGATTTTGGAAAATTAACTAACGATACGGATTTGCTAACGGAGTACGTTCGTCAAGCGCTATCCAACCAAATTACAAAGCAATATACGGATAAAGATCGTTCATTGAAAGTTGTGACACTTTCAGCTAGAGCAGAACATGCAATTGCCGAAAGCATTCAACAAACAGAGCATGGAAGCTTCTTATCAATGGAGCCTGAGCTGCAGCAACAATTACTAGAGCATATGAAAGAAGAAGTGGAAAAGTTAACACTCCAAGAAGAAACAGCGATATTACTATGCTCACCGGCTGTAAGGATGTATGTAAAACAATTATTGGATCGTTTTTTACCACAAGTTGTTGTCTTATCTTATAACGAGTTAGAGCCAGACGTACAAGTACAAAGTGTTGGGGTGGTGAATATTGCTTGA MKARDLSVLLGVILIIIMLIVPLPGWLLSILILCNISLALIVILVSMNTQEALQFSVFPTLLLLLTLFRLGLNVSTTRSILSEADAGGVVATFGSFVIGGNPLVGFVVFVILVIIQFLVITKGSERVSEVAARFTLDAMPGKQMSIDADLNAGLISEQQAKERREKIEKEADFHGSMDGASKFVKGDAIAGIIIVLINIIFGLIIGMVQMDLSFQEAINTFMRLTVGDGLVSQIPALLISTATGIVVTRTAGNGNLGTDVSGQLLQYPKLLFIASGTVFLLGFTPINFFLTTILAALLALSGYLLLKQTEDITEPSDEEVDETESDVMKAPENVVQLINMDPIEFEFGYSLIPIADTNQGGDLLDRIVMIRRQLAVELGIVIPVVRIRDNIQLQPNEYRLKIKGEEVASGELLLDHYLAMAPDMDEDDIEGVETTEPAFGLPAKWVSEEWKDEAELSGYTVVDPPSVVSTHLTEVIKRHAHMLLGREETKQLVDHLKESYPTLVEEVTPEPLAVGDIQKVLAKLLREKVSIRNLPIIFETLADFGKLTNDTDLLTEYVRQALSNQITKQYTDKDRSLKVVTLSARAEHAIAESIQQTEHGSFLSMEPELQQQLLEHMKEEVEKLTLQEETAILLCSPAVRMYVKQLLDRFLPQVVVLSYNELEPDVQVQSVGVVNIA PGPT0015320_2630 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 AK015_00603 1080 flhB_1 COG1377 Flagellar biosynthetic protein FlhB TTGTCATTAAAGCTGGACTTACAATATTTTGCTGGTGAAAAGACGGAAAAAGCTACCCCGAAAAAACGTCAAGATGAAAGAAAAAAAGGAAAAGTTGCTAAGAGTCAAGATGTTAATACAGCCATATTGTTGTTATTTGCGCTCATCGTTCTTTATGTTTTCGGAAGTTCCATGAAGAATCAAATGACATCTTTATATGAACATACATTTACGGAGTTTATTCATTGGCAAGTAACGGAAACTACTGTGGCACAAGTTTTCAATGGAGCTACACTGGAAGTAGCAAAAATGTTAGCGCCAATTATGATCATTGTGATTATCGGCGCACTGGCTGCAAATTTTTTGCAAATTGGCTTTTTATTTACAACGGAGCCACTGAAGTTTGATTTAAAAAAGATTGACCCTATTCAAGGGGCAAAGCGAATTTTTTCTTTGCGAGCGATTGTGGAATTACTTAAATCACTATTAAAAATCGTTAGTATTGGTACAGTAACTTTTACTGTGATTTGGATTTATAAAGATGAAATGATGATGATGGCGTTTAAAAATGCTGATACAGCACTTGGTTTCTTTGGGAAAGTCACGATCGTTATGGGAATTATCGCTGTTATTATTCTAGTGTTTTTAGCTGTATTCGATTATGCATATCAACGCTACGACTATGAAAAAAATATGAAAATGTCAAAACAAGATGTAAAAGATGAATTTAAAAACGTGGAAGGCGACCCACTTATTAAATCAAAGATAAAAGAGCGTCAAAGGCAAATGGCTACAAGAAGAATGATGAGTGAAGTTCCAAACGCAGATGTCATTATTACAAATCCAACGCATGTAGCCATTGCCATTAAATACGATGAAGAAAAAGCTGCTGCCCCGTACATTTTGGCTAAAGGTGTGGATGAGGTAGCGCTAAGAATTAAACAGGTAGCTAAGGAAAATAGCGTGATGACTGTTGAAAATAAGCCGCTTGCTCGTTCATTATATCGTGTTGTAGATATCGGCGACGTTATACCAGAATCGTTTTTTCAGGCGGTTGCAGAAATATTGGCGTACGTATATAAATTAGAGAGAAAAGTTTAA MSLKLDLQYFAGEKTEKATPKKRQDERKKGKVAKSQDVNTAILLLFALIVLYVFGSSMKNQMTSLYEHTFTEFIHWQVTETTVAQVFNGATLEVAKMLAPIMIIVIIGALAANFLQIGFLFTTEPLKFDLKKIDPIQGAKRIFSLRAIVELLKSLLKIVSIGTVTFTVIWIYKDEMMMMAFKNADTALGFFGKVTIVMGIIAVIILVFLAVFDYAYQRYDYEKNMKMSKQDVKDEFKNVEGDPLIKSKIKERQRQMATRRMMSEVPNADVIITNPTHVAIAIKYDEEKAAAPYILAKGVDEVALRIKQVAKENSVMTVENKPLARSLYRVVDIGDVIPESFFQAVAEILAYVYKLERKV PGPT0015325_2012 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401 NA NA AK015_00604 780 fliR COG1684 Flagellar biosynthetic protein FliR ATGTTAGATGTTATTGATATAAATCGTTTACCTGTATTTTTACTAATTTTAGTACGTGTAGTAGCGTTTTTTGCTACGATGCCATTATTTTCTTATCGAACAATTCCAAGGCCGTTTAAATTAGGATTAAGCTTTTTTCTTGCTTTCTTAATGTTTTATGCGGTTGATGCTCCTGCGATAGCGATAGATGGACATTATTTTTTACTTCTCTTAAAGGAAACTGTAGTTGGTTTGCTTATAGGTTTGATCGCATATATCATTTTGTCAGCAGTGCAAATCGCTGGTGGTTTTATTGATTTTCAAATGGGTTTTGCCATTGCCAATGTTATTGATCCACAAACGGGAGCACAAAGCCCGCTAACTGGTCAATATTTTTATATTTTTGCTTTACTATTTCTACTATCGGTAAATGGACACCATATCTTAATAGATGGAATGGTAAATAGCTATCAATTTATCCCATTAGAGCAATATGTCCCATTTCAAAATGAATCGATCGTTCACTATGTTATCGAAAGTTTTAACGCGATGTTTCTTATTGCTTTTCAAATTGCCATTCCAATTGTAGGCTGCCTTTTCCTAGTTGATGTAGCGTTAGGAATTATTGCTCGAACCGTTCCACAATTAAATGTGTTTGTTGTTGGCTTACCATTAAAAATACTAGTTAGTTTTATCGTATTATTGGTTTTTATGAGTTTATATGTAGTGTTAGCAAAAGATCTTTTTGAAATTTTATTTGCTACGATACGCAGTTTGCTATATTTATTCGGGGGTGGATAA MLDVIDINRLPVFLLILVRVVAFFATMPLFSYRTIPRPFKLGLSFFLAFLMFYAVDAPAIAIDGHYFLLLLKETVVGLLIGLIAYIILSAVQIAGGFIDFQMGFAIANVIDPQTGAQSPLTGQYFYIFALLFLLSVNGHHILIDGMVNSYQFIPLEQYVPFQNESIVHYVIESFNAMFLIAFQIAIPIVGCLFLVDVALGIIARTVPQLNVFVVGLPLKILVSFIVLLVFMSLYVVLAKDLFEILFATIRSLLYLFGGG PGPT0015360_1279 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421 NA NA AK015_00605 270 hypothetical protein ATGAGCAGTGAATTCGTTTTAACGCTAGCAGAAAAAGGCGTGTTTACCATCTTACTAGTAACTGGCCCACTGCTTTTACTTGCGCTAGTTGTAGGACTGCTTGTCAGTATTTTTCAAGCAACAACACAAATACAGGAGCAAACGTTAGCATTTATTCCTAAGATTGTTGCTGTATTGGTAGGATTAGTTTTCTTTGGGCCTTGGATGTTAACACAAATGATTGAGTTCACTTCTAATCTATTTCAAAATATGAATCAGTTTGTAGGATAA MSSEFVLTLAEKGVFTILLVTGPLLLLALVVGLLVSIFQATTQIQEQTLAFIPKIVAVLVGLVFFGPWMLTQMIEFTSNLFQNMNQFVG PGPT0015355_404 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420 NA NA AK015_00606 666 fliP COG1338 Flagellar biosynthetic protein FliP ATGAATGAATTTATTGATATGTTCTCGAGTTCTGATCCTGAAAATGTGTCCACTTCCATAAAGTTAGTTTTATTATTAACAGTTCTAACATTGGCGCCAAGTATTTTAATTTTAATGACGAGTTTTACAAGAATTGTTATTGTACTGTCGTTTGTTCGAACATCATTAGCGACACAGCAAATGCCACCAAATCAAGTACTCATTGGTCTTGCACTGTTTCTTACTTTTTTCATTATGGCACCTGTATTTAATGACGTGTATGATAATGCATTGCAGCCATTGTTCGATGAGGAAATGACATTAGATGAAGCATACGATGAAGCAAGTACACCAATTAAGCAATTTATGGCTGAACATACGCGGCAAAAAGATTTAGCCTTATTTATGAATTACGCTGAACTAGAGCGCCCAAATGCTGTCGAGGAAATACCGTTAACAACCTTAGTTCCCGCATTTGCTATAAGCGAATTAAAAACAGCATTTCAAATGGGGTTTATGATTTTTGTTCCCTTTCTTATTATAGATATGGCTGTTGCCAGTGTATTGATGTCTATGGGGATGATGATGCTTCCTCCCGTTATGATTTCATTGCCATTTAAAATATTACTATTTGTGCTGGTAGACGGTTGGTATTTAATTACTCATTCATTACTGGACAGCTTTTAA MNEFIDMFSSSDPENVSTSIKLVLLLTVLTLAPSILILMTSFTRIVIVLSFVRTSLATQQMPPNQVLIGLALFLTFFIMAPVFNDVYDNALQPLFDEEMTLDEAYDEASTPIKQFMAEHTRQKDLALFMNYAELERPNAVEEIPLTTLVPAFAISELKTAFQMGFMIFVPFLIIDMAVASVLMSMGMMMLPPVMISLPFKILLFVLVDGWYLITHSLLDSF PGPT0015350_2588 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419 NA NA AK015_00607 660 hypothetical protein GTGAAGAAATTAACGGTTATATTTAGTTTGTTAAGCTTGTTCCTATTTCTGTTTGTAACGGAATTAGATGTAGCGGCTGCTCCTAAATCTGTTAATGATTGTATCAATGACGAAGCAGACTGCGAATCTACAGAAACAAATGCAGCAGAGAAGGAAAATAATGAAGATAAGACGGCATTATTGAATAAAGAAACAGATGCAGATCCACTATGGCTAAGCTTTGTGAAGTTAATCATTGCTTTATTGCTTATTCTCGGTTTGATCTATCTCTTGCTTTTGTTTTTGAAACGAAAAAATGCGTTATTTAACCAAGCGAAAGCATTAGAGAACATTGCAGGTATATCTGTAGGACAGAATAAATCATTGCAAATTGTTCGCCTAGGGAAAAAGTATTATTTAATCGGTGTAGGAGATAATGTTGAGCTGCTTCAGGAAATAACGGATGAGTCTGTTATTGATGACTTACGAAAGGAGGGTGTAGCTTATGAAACAGCTACTCTTCCAAAGTTTTTGCAAAAATTTAATCATGGATCAAAAAATATGAAAACAAATGATCAAACGAATTTCAAACGGCAATTTACAAGGGAATTGGACAAGTTAAAGCAAAATCGCAACCAATTAATACAGCAGTTTGCACAGAAGGAAGATCGTAATGAATGA MKKLTVIFSLLSLFLFLFVTELDVAAAPKSVNDCINDEADCESTETNAAEKENNEDKTALLNKETDADPLWLSFVKLIIALLLILGLIYLLLLFLKRKNALFNQAKALENIAGISVGQNKSLQIVRLGKKYYLIGVGDNVELLQEITDESVIDDLRKEGVAYETATLPKFLQKFNHGSKNMKTNDQTNFKRQFTRELDKLKQNRNQLIQQFAQKEDRNE PGPT0015345_276 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418 NA NA AK015_00608 363 cheY_1 COG0784 Chemotaxis protein CheY ATGGGCAATCGTATTTTAATAGTAGATGACGCAGCGTTTATGCGAATGATGATTAAGGATATTCTAACGAAAAATGGATATGAAGTTGTTGGTGAAGCACAAGATGGCGTACAAGCTGTTGAAAAATATAATGAATTAAACCCTGATTTAATAACAATGGATATTACAATGCCAGAAAAAGATGGGATTACGGCATTAAACGAAATATTAGCCGTTGATCCACAAGCAAAAATCATTATGTGTTCCGCGATGGGACAGCAAGCAATGGTTATTGACGCCATTCAAGCAGGAGCAAAGGATTTTATTGTAAAACCGTTCCAAGCGGATCGCGTTATTGAAGCAATTCAGAAAGCTTTAAGCTAA MGNRILIVDDAAFMRMMIKDILTKNGYEVVGEAQDGVQAVEKYNELNPDLITMDITMPEKDGITALNEILAVDPQAKIIMCSAMGQQAMVIDAIQAGAKDFIVKPFQADRVIEAIQKALS PGPT0015690_5202 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413 NA NA AK015_00609 1143 hypothetical protein ATGGGGAATGACGGTAAGCTATCTCAAGATGAAATTGATGCACTATTAGATGTAAGTTCTACAGAAGATGATGATAACTCTAGCTCCATTACGAATGATTTCTTATCTACAATGGAAATTGACACATTAGGAGAGATCGGTAACATATCCTTTGGTAGCTCTGCTACAACTTTATCTACATTATTAAAAGAAAAAGTTGAAATTACGACACCTGAAGTTTCTGTTATAGCTCAGGAGGAGTTGAAAAATTTCACCTTTGAACCAGTAAGTGTCCAAGTAAACTATTTAGAAGGTTTTTCTGGGAAGAATGTATTTGTTATAAAAGCCGAAGATGCAGCTATTATATCTGATATTATGCTAGGAGGAGATGGCAGAAACCCATCAGAAGAATTAAATGAAATTCATTTAAGTGCTGTGCAGGAAGCAATGAATCAGATGATGGGCGCTGCTGCTACAAGCATGTCTACGGTATTCAATAAACGTGTAGACATTTCTCCGCCGACGATCCATTTAGAAGATCCGGAAAAAGAATCTGAAAAGACTTTAGGAGACGATCCTTTTGTTAAAGTAACTTTCCAATTAAAAGTTGGTGATCTTATTGATTCTACACTCTTTCAATTAATGCCAATTCATTTCGCAAAAGAATTAGTAGACCAATTAGTTTCTAGCGAACCAAGCGAAGAAGAGGTAGCATCGACAGTTATGGAAGAACCAGCGAGTCATAAAGAATATAATGATAATTACTTGGAACCCGAAAAGAATCACTCTCATGCTAAGGATACAAAACAATTTATAGGGAATCATCACCCAGCAACGGAGCAATCTAATGTGCAACAAGCAGAGTTTTCTTCATTTGAGCCCGTGACTTTAAACCGAACAGAACAACGTAATTTAGATATGCTTTTGGATGTTCCTTTAAAAGTAACGGTGGAGCTTGGTAGAACGAAGCGTACGATTAAAGATATCTTAGATTTATCACAAGGTTCTATTGTAGAGTTAGATAAATTAGCAGGTGAACCGGTAGATATTTTAGTAAATGAAAAACGGATTGCAACTGGAGAAGTAGTTGTCATTGATGAAAATTTTGGTGTTCGTGTAACGGACATTTTGAGTCAATCCGATCGATTAAACAAACTGAAGTAA MGNDGKLSQDEIDALLDVSSTEDDDNSSSITNDFLSTMEIDTLGEIGNISFGSSATTLSTLLKEKVEITTPEVSVIAQEELKNFTFEPVSVQVNYLEGFSGKNVFVIKAEDAAIISDIMLGGDGRNPSEELNEIHLSAVQEAMNQMMGAAATSMSTVFNKRVDISPPTIHLEDPEKESEKTLGDDPFVKVTFQLKVGDLIDSTLFQLMPIHFAKELVDQLVSSEPSEEEVASTVMEEPASHKEYNDNYLEPEKNHSHAKDTKQFIGNHHPATEQSNVQQAEFSSFEPVTLNRTEQRNLDMLLDVPLKVTVELGRTKRTIKDILDLSQGSIVELDKLAGEPVDILVNEKRIATGEVVVIDENFGVRVTDILSQSDRLNKLK PGPT0015410_366 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 AK015_00610 999 fliM COG1868 Flagellar motor switch protein FliM TTGGTAGAAGAAGTTCTTTCACAGAATGAAATTGATGCATTATTATCCGCTATATCTTCAGGTGAAATGGATGCGGACGAATTAAAAAAAGAAGATCAAGAAAAAAAAGTGCGTGTCTATGATTTTAAACGTGCATTGCGATTTTCTAAGGATCAAATTCGTAGTATTTCACGGATACATGAAAATTATGCCCGGTTATTGACCACTTTTTTCTCAGCTAAACTACGAACATATGTAAACATCTCGGTTGCATCTGTGGATCAAATACCTTATGAAGAGTTTATTCGTTCTGTACCTAAGATGACGATTTTAAATACATATAGTCTTAAGCCGCTGGAAGGTAGAATTGTAATGGAAATTAATCCAAACATTGCTTATGCGATGCTTGATAGAACCTTAGGTGGGCAAGGCGTTAGTTTTAATAAAGTCGAAAATTTAACCGAAATTGAAACACTTCTAATGTCACAGTTGTTTGAAAAGGCGAGTACGAAGCTCCAAGAAGCTTGGGCTTCCATTGTAGACATTGATCCTGTTATGGAAGACTTTGAAGTAAATCCACAATTTTTACAAATGGTTTCACCCAATGAAACTGTCGTGGTTGTATCGCTTAATACTGCGATAGGAGAAGCAAGCGGCATGATTAATATTTGTATTCCGCATATTGTATTAGAACCAATTATATCTAAGTTGTCTGTTCATTACTGGATGCAAACGGCTGGAAAAAAACGTAATGATGAAGCATATGAAAAAATAACTAGAAATATCCAGCAAGCAACTGTTGAGGTGAAACCAATCTTAGGTGAATCAACGATCACCATTGAACAGTTTTTGAAATTAGGCAAAAAAGATATTATTAGACTCGATCAATCCATTGAAAGTCCACTAATATTAGAGGTAAACGATGAGCCGAAATTTCTTGTACAACCAGGTACATATAAAAATAGAATGTCCGTCCAAATATTAGATACTTTTAAAGGGGGGAATGAAGATGGGGAATGA MVEEVLSQNEIDALLSAISSGEMDADELKKEDQEKKVRVYDFKRALRFSKDQIRSISRIHENYARLLTTFFSAKLRTYVNISVASVDQIPYEEFIRSVPKMTILNTYSLKPLEGRIVMEINPNIAYAMLDRTLGGQGVSFNKVENLTEIETLLMSQLFEKASTKLQEAWASIVDIDPVMEDFEVNPQFLQMVSPNETVVVVSLNTAIGEASGMINICIPHIVLEPIISKLSVHYWMQTAGKKRNDEAYEKITRNIQQATVEVKPILGESTITIEQFLKLGKKDIIRLDQSIESPLILEVNDEPKFLVQPGTYKNRMSVQILDTFKGGNEDGE PGPT0015405_1419 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416 NA NA AK015_00611 420 hypothetical protein ATGAATAAACTAGTAAAAACGATGCTAACGTCATTAACTGTCATACTGATTATAGGGATTTCCGCTTTCGTCGTTGTCCAATATGTTAACTCAGATGAGCAAAGTGGAAAAACATCATCCATTGATAAAATGGAGGAATATTCATACGAAACACCTGAAATTACAACAGATCTCAAAGATGGTAGTTTTGTAAGAATACAATTTCAAATTATTACCGATGGAAAAGATGCAAAAGAGGAAATCGAGAAACGAGACTTTCAAATAAAAAATATTCTTATCAAAGAATTAGCTACTTTAGAAGAAAAAGATTTCCAATCGGGGCTTAATGATTTAGAAAAACACGTAAAAACAAAACTAAATGAAGTCATGACTACAGGGAAGATAACGGATGTTTATACAATTAGTAAGATTTTACAATAA MNKLVKTMLTSLTVILIIGISAFVVVQYVNSDEQSGKTSSIDKMEEYSYETPEITTDLKDGSFVRIQFQIITDGKDAKEEIEKRDFQIKNILIKELATLEEKDFQSGLNDLEKHVKTKLNEVMTTGKITDVYTISKILQ PGPT0015525_2634 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415 NA NA AK015_00612 792 flgG_1 COG4786 Flagellar basal-body rod protein FlgG ATGTTACGTTCTATGTATGCAGGAATTTCTGGTATGAAAGGATTTCAAACAAAGTTAGATGTTATTGGGAACAATATTGCAAACGTAAGTACAGTAGGTTTTAAAAAAGGAAGAGTCACATTTCAAGATATGATGAGCCAAACAACTTCTGGAGCTCAAGGACCTACGGCTACGCGTGGTGGAATAAACCCTTCTCAAGTAGGTTTAGGTTCGCAGCTTGGATCAATCGATAATATTCACACTCAAGGGTTTAGGCAAACAACTGGAAATCCGTTAGATTTGATGCTAGAAGGCGATGGCATGTTTATTGTGGAAGGAAATGGCACTACCTATTACACACGGGCCGGAAACTTTTATTTAGATGATGATGATCGCATTGTCGATGCAAATGGATTCTATTTGCAAAGTGTTGGCGGAGAGGACTTGACCATTCCTGAAGACGCTGAAAGTTTTAGTATTGGAACCGATGGTACAGTTACGTATATTAATGCTGATGGAGACCCAGTTGATGGTGGGCAAATTGCCCTCGCTAGTTTTTCTAACCCAGCAGGTTTAGAAAAAGCCGGTAACAATTTATTTCTTAATAGTGAAAATGCGGGTTATAACGGAATTGTTGCTCCAGAAACAGAAGGCGCTGCTAAAATTGTACCAAGTGCACTTGAAATGTCTAACGTTGATTTATCGGAAGAATTTACAGAAATGATTACCGCGCAACGCGGGTTCCAAGCAAACACAAGAATTATTACGACTTCCGATGAAATTCTTCAAGAACTTGTAAATTTAAAACGATAA MLRSMYAGISGMKGFQTKLDVIGNNIANVSTVGFKKGRVTFQDMMSQTTSGAQGPTATRGGINPSQVGLGSQLGSIDNIHTQGFRQTTGNPLDLMLEGDGMFIVEGNGTTYYTRAGNFYLDDDDRIVDANGFYLQSVGGEDLTIPEDAESFSIGTDGTVTYINADGDPVDGGQIALASFSNPAGLEKAGNNLFLNSENAGYNGIVAPETEGAAKIVPSALEMSNVDLSEEFTEMITAQRGFQANTRIITTSDEILQELVNLKR PGPT0015485_3076 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390 NA NA AK015_00613 462 hypothetical protein ATGATAATGGCAAAAATTGATCCTTCGCTTTATTTACATAATCAAAAAGAGCGAACACCCAGCCCAAATCTAGGAAAAGATGAATTTTTGAAAATTTTAATGACCCAATTAAAAAATCAAGATCCTACTAATCCGATGGATGATCGTCAATTTGTATCACAGATGGCAGAATTTAGTTCTTTAGAGCAGATGATGAACATGTCAAATTCTATTAATACATTAGTAGAAAGTCAACTTGTTTCTCCTGTGATCAAATATAGTCACATGTTAGGAAAAGAGGTAACTTACCAAAGTTATGATGAAGAAACGGGTAAGGAAACGGAAATAAAAACAAGTAGGGTCGTCGCTGTTAGTCAGAATGAGGGTTGGGCAATTCTAGAATTAGAAAATGGAGAGAAGATTTACGCGGATGCAGCTTTGCAAGTAAATGATCCGGCGTTTGAAGAAACAGAGGACAAGTAA MIMAKIDPSLYLHNQKERTPSPNLGKDEFLKILMTQLKNQDPTNPMDDRQFVSQMAEFSSLEQMMNMSNSINTLVESQLVSPVIKYSHMLGKEVTYQSYDEETGKETEIKTSRVVAVSQNEGWAILELENGEKIYADAALQVNDPAFEETEDK PGPT0015480_2293 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389 NA NA AK015_00614 1305 hypothetical protein ATGATTAACGTTGCGATGTTATTGCAGCAGTTACCATCAACAGTTGATAAAAAAGGTTCTATGCCATTGACAGTAAAAGAGCAACAAACGGAACATGCTTTTCATGAATTGCTAGCCTCTAAGCAAGAACTAGGAAAGATGATGGATCAAATTTGTGAAAAATTACCTGATGATAAAACTAACTGGTTGTCTGAGGAGATGTCTCCTTTCATGCAACAGTGGGTAAGTAAATGGTTTGAAACACAAGGAAATGAAAGAGTACAACCGGAAGAATCCTTAAATAAAGAGATAGCCATACAAATAGAAAAACAACTTCCAAGTGAGCAACTATTGTTAGGTAACGAAAGTATATCAATTACAGATGAGCAGTCAGCAAATTTATTGATACAGAAAGAATTAACTGCGATTTTCTCTAAGGTAAGCACTTTACTATCCCAGCTAAACAATCAACAAAATAATCAACCAAATATACAACAAGCAGCGTCAAAGTTAGTTCATTTATTACAGCAATGGTCTGAGTTAAGTAAACAAGTAAGTACCGCAGGGAATACGGAAAAGGCAATAATCCGTTTAAACGAAGGAGGGAATACAAAAGAAGCAACCATTTGGAAACAGTTAGTGGCAACATTTGAAAAAAGAAGTGCGTTTGTTCAGAAACAGCATTACAATAATGAAGCTAAAATATCAAGTGGTGATGTCGCTAAGTGGCTTACAAAAGTAATGGAGGAAATGTCGAAAACTAAGCAGACAACAACCTATGCTAAAGAGCCAATAACAACTATGAATAATATAAACCCAACTTCGGTACCTATGGCAAAACTTGAACAGCATGTCATATATCTTCAACCAGAGCAGCAAACGCAACGAAATACTGGTCAAGAGCTAGTTCAACAACTACAGCGAATTATGCAATCAAGTAAATTTATGAAAATGCCAAATGGTGTCAACCAGCTTCATTTAACGTTGCGTCCAGAACACTTGGGTGATATGACAGTCCGATTTACGCAAACAGATGGAGTGATGGCAGTTCGTATTCTAGTACAGTCGCAAGCTGCAAAGGAAATGTTAGAGTCTAATATACATAAGCTCCGTAATATGTTTTCTCCGCAGCAAGTAACCATTGAAAAACAAGAAGGCATATTGCAGCAAAGCCAACAAATGCAAAAGGGAACTGGATCTGAATCGCAGCAGTATTCTGATTCACAAGAGCAGAAACAACAAGAATTTCACGATGACTCTGCTGCAGATAATAACGAAGAATTTATGACTACTTTCCATGAACTATTAATGAATGAGCAAGTATAA MINVAMLLQQLPSTVDKKGSMPLTVKEQQTEHAFHELLASKQELGKMMDQICEKLPDDKTNWLSEEMSPFMQQWVSKWFETQGNERVQPEESLNKEIAIQIEKQLPSEQLLLGNESISITDEQSANLLIQKELTAIFSKVSTLLSQLNNQQNNQPNIQQAASKLVHLLQQWSELSKQVSTAGNTEKAIIRLNEGGNTKEATIWKQLVATFEKRSAFVQKQHYNNEAKISSGDVAKWLTKVMEEMSKTKQTTTYAKEPITTMNNINPTSVPMAKLEQHVIYLQPEQQTQRNTGQELVQQLQRIMQSSKFMKMPNGVNQLHLTLRPEHLGDMTVRFTQTDGVMAVRILVQSQAAKEMLESNIHKLRNMFSPQQVTIEKQEGILQQSQQMQKGTGSESQQYSDSQEQKQQEFHDDSAADNNEEFMTTFHELLMNEQV PGPT0015520_1487 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414 NA NA AK015_00615 609 hypothetical protein ATGGTTAAGAAAAAACAAGCAGATACAAAAAAAATGAATCCTTTTCTTTGGTTCTTGTTCGCAATTGTTGTCCCTATAGGCTTCACTATTACGCTTGTCACCATTATTTTGTTAGCTACAGGTGTGGATGTAGGAGGTTGGGTGAAAGGGAAAGCAGCAGAGATTCCTGGTGTTTCATCATTTGTAGATGAAGAAGATGGTAAGAAGGCAAAAGATGCAGCGGATACGCAGTTGAAATCACAAATTGAAAATAAGGATTCAGAGATTAAACAATTACAAGAAGAACTAAAAGAGAAAGAGACAACGATCCAAATGCTCGAACAAGACGTTATTAAACTTCAAGATCGAGAGCAAAATCAGACGGAAGAACAACAGAAGAAGGATAAAAATCAAACAAAAAAGAATTCCTTTAAATCAATGTCTACTTCGTTTAAAGAAATGGATGAAGAAAAAGCAGCTCAAATTTTACAAGATTTAAAGAGAAAAACAGCATTAGCCATTTTAGAAGAGTTGGATGACAAGGAACGCGGCAAGATATTAGAAGTAATGGATGCAACTACTGCTGCGCAATTAACAGAGCAATTTTTAGATAAGGCAGAGGAAGAGTAG MVKKKQADTKKMNPFLWFLFAIVVPIGFTITLVTIILLATGVDVGGWVKGKAAEIPGVSSFVDEEDGKKAKDAADTQLKSQIENKDSEIKQLQEELKEKETTIQMLEQDVIKLQDREQNQTEEQQKKDKNQTKKNSFKSMSTSFKEMDEEKAAQILQDLKRKTALAILEELDDKERGKILEVMDATTAAQLTEQFLDKAEEE PGPT0015450_69 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015450-flbB-K02383 NA NA AK015_00616 447 fliJ COG2882 Flagellar FliJ protein ATGAGTGGAACGGTAGTCTTAACTAAACTACTGCATGTTCGAGAAACGGAAAAAGTACAAGCTCAAAAAGCTTATCAGCAGGCTATCGATTGCTTTGAAAATTCTGCCACCCAATTATACCAATTGTTAAAAAAGAAAGAAGTAGCAGAAGAAACCTATGAAGAATGTATGCAACAAACTACAACGTTAGAAAAATTAAGGGAACAGGTTGACTATTTAGAAAAATTAAATGCTATGATTGTCCATTTACAAGAGGAAGTACAAAGAGCGAGAGCAGATATGGAAGCAAAACAATCTGACTTAACAGAGGCACATGTAGAAACAAAAAAATTTGAGAAAATGATTGCACATCGTAAGCAAAGAGAAATGGAAGCACAGGAAAAATTAGAAAAATCGATGATGGATGAAATATCCATGCAGCAATTTTTAAAATATAAAAATAGGTGA MSGTVVLTKLLHVRETEKVQAQKAYQQAIDCFENSATQLYQLLKKKEVAEETYEECMQQTTTLEKLREQVDYLEKLNAMIVHLQEEVQRARADMEAKQSDLTEAHVETKKFEKMIAHRKQREMEAQEKLEKSMMDEISMQQFLKYKNR PGPT0015615_851 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLUM_CONTROL MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413 NA NA AK015_00617 1326 yscN putative ATP synthase YscN ATGATGAATGCAACTGCTTATTTAAATGCTATTTCTAAATTAGATACGTACAAACGTTACGGGAAAGTATTGCGTGTTGTAGGTATTATGATCGAGTCTAAAGGTCCTGCTGCAAACATCGGCGAAGTGTGCTACATTCATCCAGCTTCTCAAAGAGAAACTCCAATCATTGCAGAAGTAGTAGGATTTCATGAGGAACGAATTATTTTAATGCCTTATGAGGAAGTAATAGAAATTGGTTCTGGTTGTTTAGTAGAAGCTACTGGAAAACCACTTAGTATTAAAATTGGTAGAGGGTTAATTGGTAATGTTATTAATGCTTTAGGAAAGCCTTTGAATGGTAAAGCGTTGCAAAAAGGCCTTATGAGCTATCTTACCGATCAATCTCCGCCAAATCCAATGCAAAGACCGCCAATCACAAATGCTTTACAGGTTGGTATTAAAATTATTGATGGGTTACTAACTGTTGGCGAAGGGCAAAGAATTGGTATTTTTGCTGGCAGTGGTGTAGGAAAAAGTACTTTACTTGGAATGATTGCAAGGAACAGTGAAGCAGATATCAATGTTATTGCATTGATTGGTGAGCGTGGACGCGAAGTTAGAGAGTTTATCGAAAAAGATTTGGGCGAAGAAGGGCTAAAAAAGTCCATTGTCGTCGTAGCAACATCTGATCAACCAGCTTTAATGAGAATTAAGGGTGCGGATACAGCTACCGCTATTAGCGAATATTTTCGTGATCAAGGTTACCGCGTTAATTTATTGATGGATTCCGTAACACGAGTTGCTATGGCAAGAAGAGAAGTTGGATTGGCCACTGGGGAACCACCGACGACTAAAGGTTATACACCGTCTGTATTTGCGACACTACCTAAGCTTTTAGAGAGAACTGGAACCAATTCTAATGGGACCATTACGGCTTTTTATACGGTGCTCGTTGATGGGGATGATATGAATGAGCCAATTGCTGATACTGTTCGAGGTATTTTGGATGGCCATTTCATTATGGATCGTAAATTAGCAGAAAGAGGTCAATATCCTGCGATTAACATATTGCAATCTATCAGTCGGGTAATGCAGCAAGTTACAGGCGAAAATCACCAGCAGGCAGCTAAACAAATTCGGAATTTACTCGCAACGTTTGAAGAGAATAGAGAATTGATTCAAATAGGGGCTTATAAACGTGGGACAGACCAAGAAATTGATCGAGCAATGGATTATTATCCTAAAATTGTATCTTTTCTTAAACAAGGGATTAGTGATTATTACTCGTTAGAAGAATCTATTCATTTAATGAAAAATCTGCTTCACGGAGGTGCTCGGAAATGA MMNATAYLNAISKLDTYKRYGKVLRVVGIMIESKGPAANIGEVCYIHPASQRETPIIAEVVGFHEERIILMPYEEVIEIGSGCLVEATGKPLSIKIGRGLIGNVINALGKPLNGKALQKGLMSYLTDQSPPNPMQRPPITNALQVGIKIIDGLLTVGEGQRIGIFAGSGVGKSTLLGMIARNSEADINVIALIGERGREVREFIEKDLGEEGLKKSIVVVATSDQPALMRIKGADTATAISEYFRDQGYRVNLLMDSVTRVAMARREVGLATGEPPTTKGYTPSVFATLPKLLERTGTNSNGTITAFYTVLVDGDDMNEPIADTVRGILDGHFIMDRKLAERGQYPAINILQSISRVMQQVTGENHQQAAKQIRNLLATFEENRELIQIGAYKRGTDQEIDRAMDYYPKIVSFLKQGISDYYSLEESIHLMKNLLHGGARK PGPT0015340_1802 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412 NA NA AK015_00618 753 hypothetical protein ATGATATCATTGTCTAATCCTTCACGGATAACTGAAAGAAAACAAATTCGTATAAAGCCAGTTAGCGTCTTTCAGCCAAGTAATACGCATGTAAAAGAAGCTCATGATAAATCGGAACTTGATCAGGAACTGTTGCAAGCTGAACAAGCATTAGAGCAACTTCGAGAACAGCGCCAACAATTGATAAAACAAACAAAACGAGAGATTGAAGCTGAAAAGGGTGCTTGGCAAGAAGAAAGACAAAAATACGTCGAAGCTGCAAAGGAAGAAGGGTTCCAAGCTGGTTTTTCGGAAGGGAAATCAGAAGCGCTAACTACGTATAAGGCTTATGTAGATCATGCAAATCATTTGGTTGAAAGTGCCAAGCACGAATATTATTCACTGATTGAAGAACATGAAGAAACAATTATGGAAATCGCTATTCATACAGCAGAAAAAATTATCAAACAAGAAATAGTAGCAGACCATAAATCATTTTTACCTATTATTCAAGCAGCTATTAAAGAATTAAAAGATCAATCTGAAATTGCTTTATATTTACATCCAAACCAATATGCATTTGTCGTGCAACATAAAGAAGAGTTATCTTCTTTAATTGAACCAAATGCAAAGCTTATGTGTTATGTATCAGATGAAATAGAAGAAAACGGCTGTATGATTAAATACCCATACGGACAAGTTGACGTGGGGGTTGATACGCAGCTTGAAGAGATTGGCAAGGCTCTAATTGAATTAGCAGGAGAGGGAAAATGA MISLSNPSRITERKQIRIKPVSVFQPSNTHVKEAHDKSELDQELLQAEQALEQLREQRQQLIKQTKREIEAEKGAWQEERQKYVEAAKEEGFQAGFSEGKSEALTTYKAYVDHANHLVESAKHEYYSLIEEHEETIMEIAIHTAEKIIKQEIVADHKSFLPIIQAAIKELKDQSEIALYLHPNQYAFVVQHKEELSSLIEPNAKLMCYVSDEIEENGCMIKYPYGQVDVGVDTQLEEIGKALIELAGEGK PGPT0015335_1177 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411 NA NA AK015_00619 1011 fliG COG1536 Flagellar motor switch protein FliG TTGGCACGTCATAAAGGATTAACTGGTAAGCAAAAAGCTGCAATTCTATTAATCTCCTTAGGCCCTGATGTATCTGCAGAAGTATATAAACATTTAACGGAAGAAGAAATTGAACGGTTAAGTTTAGAAATTTCTTCAGTTAAAAAAGTAGATAACCAAAAGAAAGAGGAGATTATAGAGCAATTTCATCAAATAGCTCAAGCTCAAGACTTTATTGCTCAAGGTGGAATTGGCTATGCAAAGACAGTGTTAGAAAAAGCTTTCGGCAAACAAGAGGCAACGAACATTATTAACCGCCTAACCTCTTCATTACAGGTGCGACCATTTGATTTTGCTAGAAGAGCGGATCCACAACAGGTTTTTAATTTTATACAAGGAGAGCATCCGCAAACGATCGCTTTAGTCCTGTCCTATTTGGATTCGGAACAGGCTGGGCAAATATTATCAGCATTACCACAAGAAATGCAAGCAGATGTCGCAAAGCGAATCGCGACAATGGACTCTACATCACCGGAAATTATTTCTCAAGTGGAGCAAGTGCTGGAAAAAAACATCTCTGCTTCATTTACAGAGGACTATACGCAAACTGGTGGAATACAAGCAGTAGTAGAAGTATTAAATGGAGTTGATAGAAGTACAGAAAGGACAATTTTAGATGCATTAGAAATTCAAGATCCAGAGCTTGCAGATGAAATCAAAAAACGGATGTTTGTGTTTGAAGATATTGTTATTTTAGATAATCGTGCTATTCAACGTATAATTCGTGAAGTAGATAACGAAGATCTTCGTCTATCATTGAAAGTGAGTAGCGATGAAGTGAAGGACATCATATTTAAAAACATGTCTCAGCGAATGGCAGAGACATTTAAAGAAGAAATGGAATATATGGGGCCCGTACGTCTGCGTGATGTTGAAGAGGCTCAAACACGTATTGTTTCAACCATACGGAGACTTGAGGATGTAGGTGAGATCGTTATTGCTAGAGGTGGGGGAGATGATATCATTGTCTAA MARHKGLTGKQKAAILLISLGPDVSAEVYKHLTEEEIERLSLEISSVKKVDNQKKEEIIEQFHQIAQAQDFIAQGGIGYAKTVLEKAFGKQEATNIINRLTSSLQVRPFDFARRADPQQVFNFIQGEHPQTIALVLSYLDSEQAGQILSALPQEMQADVAKRIATMDSTSPEIISQVEQVLEKNISASFTEDYTQTGGIQAVVEVLNGVDRSTERTILDALEIQDPELADEIKKRMFVFEDIVILDNRAIQRIIREVDNEDLRLSLKVSSDEVKDIIFKNMSQRMAETFKEEMEYMGPVRLRDVEEAQTRIVSTIRRLEDVGEIVIARGGGDDIIV PGPT0015400_1623 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410 NA NA AK015_00620 1599 hypothetical protein ATGAAAGAGAAGATGATAAATTGGAAAGATCGAACAACGAATTTTTGGAGGAATCGTACAAAAGTTCAAAAAATAACATTTTTCGGTTCCATTTTTGTTGGTCTCCTTTTAATAGTAAGCATTGTCCTTTTTACAACGCATTCAAACTATGTTCCATTATATAATAATTTATCTATGGAAGAAGTGGGACAAATTAAAGGAGAGTTGGACGCTAAAGGTGTTCCCTATGAATTAACAGATGGTGGTAAGGTAATTGAAGTACCAGAAGAGCAAGTGGATAGTCTTTTGGTTGACCTTGCTGCTCAAGGATTACCAAACAGCGGCAATATTGATTACTCCTTTTTTAGTGAAAATGCTTCATGGGGAGTTACTGAAAACGAATTTAATGTTATGAAGCTTGACGCGATGCAAACAGAATTGGCAAATTTAATCAAAGGAATTGATGGCATTCAAGACGCTAAAGTGATGATTAATATGCCAGAAGAGCCTGTATTCGTAAATGATGCCAAACAAGAAGCAAGCGCTTCGATTGTTATTCATACAGAAGCAGGCTATAACTTTGAACCAAGTGAGATAAACGGACTGTATCACATTGTTTCCAAGGCTGTGCCGAATTTACCTACAGAGAATATTGCTATTACAAATCAATATTTTGAGAGTTTTGACCTAGAGAGCTCTGGAAACAACACATCAAAAGACTCGTACACGTATCAACAAACTGTTAAACAAGATATTGAAAAAGACGTACAAAAACGATTGCAGCAAATGCTAGGAGCCATGGTAGGACCTGGAAATGTTATCGTGTCCGTAACATCAGATATTGATTTCACACAAGAAAATCGAACAGAAGAGCTTGTCGAACCAGTTGACTTAGAAAGTATGGAAGGATTACCTGTTAGTATAGAAACGATACAGGAAACGTATGAAGGGAATGGCGCGGCTGCAGGTGGAATCAGCGGTACTGGCGAGGAAGACGTGGCCAATTATCAGGCTACAGATGATGATGGTGATGGCGAATATGAAATGACAAAAGAAACCATCAACAATGAATTTAATCGAATAAGAAAAAATATTGTAGAAAGCCCATATAAGATTCGTGATTTAGGCATTCAAATTGCGGTTAACCGTGCGAAAACTACAGCAGAAAATGAAGTAGAATATTTATCACAGCAAGAAGAGACTGCTGTCGAAGAAGGAATTAGTTCTATTGTCAATTCCATTGTTACGACATCCATTGATGCAGCATACGAAGAAGATGTTACGCCAGAAGAAAATGTATCCATTGTTTTTCAAGAGTTTACGGGTGCAGATACTCAACCTGATACAACGGCGTCAACTATACCAACTTGGGTTTATGCAGTTGGGGGCGGGTTGCTTCTAGCTATTATTGTCTTACTAATTATTTTCTTGCGTCGTAGAAAAGCAGAAAGTGAAGAAGAAGAGCTGTTACAAGAATCAACAGCACCAATGGAAGTACCTGACCTTCCAGAACAGGAAGATTCAGAAGCTACGATTCGTAAAAAACAGTTAGAAAAGATTGCTAAAGAAAAACCAGAAGATTTCGCGAAATTACTACGCAGTTGGATTGGAGAGGAATAG MKEKMINWKDRTTNFWRNRTKVQKITFFGSIFVGLLLIVSIVLFTTHSNYVPLYNNLSMEEVGQIKGELDAKGVPYELTDGGKVIEVPEEQVDSLLVDLAAQGLPNSGNIDYSFFSENASWGVTENEFNVMKLDAMQTELANLIKGIDGIQDAKVMINMPEEPVFVNDAKQEASASIVIHTEAGYNFEPSEINGLYHIVSKAVPNLPTENIAITNQYFESFDLESSGNNTSKDSYTYQQTVKQDIEKDVQKRLQQMLGAMVGPGNVIVSVTSDIDFTQENRTEELVEPVDLESMEGLPVSIETIQETYEGNGAAAGGISGTGEEDVANYQATDDDGDGEYEMTKETINNEFNRIRKNIVESPYKIRDLGIQIAVNRAKTTAENEVEYLSQQEETAVEEGISSIVNSIVTTSIDAAYEEDVTPEENVSIVFQEFTGADTQPDTTASTIPTWVYAVGGGLLLAIIVLLIIFLRRRKAESEEEELLQESTAPMEVPDLPEQEDSEATIRKKQLEKIAKEKPEDFAKLLRSWIGEE PGPT0015430_2247 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409 NA NA AK015_00621 309 fliE COG1677 Flagellar hook-basal body complex protein FliE ATGATTCAAAGAATTAGCAATCCAATAACAGAACTATCTCCAAATGCAACTGTTCAAAGTAAACCAAAAATATCTCCTGGTGAAGCACAAGCAAAATTTGCTTCCGCATTAAAAAATGCCATTAATAATGTAAATGAAGTACAAGCCATTTCTGATGAAAAAACGGAAGCAATGGCGAAAGGTGATATTACAAATTTGCATGATGTTATGATTGCCTCTCAAAAATCTAGTATCGCTTTAGAAGCAACTGTACAAGTTCAGAGTAAAGCAGTTGAAGCCTATAAAGAAATGATGAGTATGCAAGTGTAG MIQRISNPITELSPNATVQSKPKISPGEAQAKFASALKNAINNVNEVQAISDEKTEAMAKGDITNLHDVMIASQKSSIALEATVQVQSKAVEAYKEMMSMQV PGPT0015515_1885 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408 NA NA AK015_00622 450 flgC COG1558 Flagellar basal-body rod protein FlgC ATGTCCATGTTTCATTCGTTACACTCTAGTGCTAGTGCTTTGACAGCACAAAGATTAAGAATGGATGTGATATCATCTAATATTGCTAATGCACAATCAACGAGGGCTACCGTCAATCAGAACGGAGAGGTAGAACCATACCGTAGAAAAATGGTTGCATTGCAGCCAGAGGGAGCTTCTTTTCAATCTTTTTTACATAAAGCAGCTAATGCTCCAGCTTCTAGTGGTGTGCGTGTCAGATCGATAGAAGAAGATGAAACTCCGTTCAAGCAAGTATATAATCCTAGTCATCCGGATGCTAATGGAGATGGATATGTTCAATTACCGAACGTTGACCCCTTGAAGGAAATGGTTGATCTAATGAGCGCCACTCGCTCTTATGAGGCGAATATAACGTCTGTAAATGCTACGAAATCTATGTTGATGAAAGCTTTAGAAATTGGTAAATAA MSMFHSLHSSASALTAQRLRMDVISSNIANAQSTRATVNQNGEVEPYRRKMVALQPEGASFQSFLHKAANAPASSGVRVRSIEEDETPFKQVYNPSHPDANGDGYVQLPNVDPLKEMVDLMSATRSYEANITSVNATKSMLMKALEIGK PGPT0015475_458 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388 NA NA AK015_00623 399 flgB COG1815 Flagellar basal body rod protein FlgB ATGAGTTTGTTTAATGGAACAATTCAAGCTTTAGAACATTCATTAGGCTATTCTTCCGCCAAAAATCGAGCAATTTCATCAAATTTAGCAAATCTAGATACACCTAATTATAAAGCGAAAGATGTTACATTTAAGAATTATTTGGCACATGAACTTTCGCGACCTATACAGGCCAAAACAACAAACAGCCGTCATATAGGATTTCAAGGAGATACGCAACCAGCTGGCTATAAAACTATTATAAATCAAGCATCATCATATCAGCATAATGGTAACAATGTAGATGTAGATAAGGAAATGGCAGACTTGGCTGAAAATCAAATTTACTACCAAGCGCTAGTGGATCGCATTAGTGGGAAATTTGGAAGTTTGCAAACAGCTTTAAAAGGAGGCAGGTAA MSLFNGTIQALEHSLGYSSAKNRAISSNLANLDTPNYKAKDVTFKNYLAHELSRPIQAKTTNSRHIGFQGDTQPAGYKTIINQASSYQHNGNNVDVDKEMADLAENQIYYQALVDRISGKFGSLQTALKGGR PGPT0015470_1554 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387 NA NA AK015_00624 780 codY COG4465 GTP-sensing transcriptional pleiotropic repressor CodY ATGGAACTATTAAATCGTGCAAGAAAAATTAATGCAATGCTACAAAAATTCGGCGGGAAATCTGTGGACTTTAATGATATGTCTGCTTCGTTACGTGATGTAATTAAAGGAAATGTATATATTCTAAGCCGTCGTGGGAAATTACTTGGATTTGCTATTAATCAAGAGATTGAAAACGAAAGAATGAAAGCTATGCTGGAAGAACGTCAGTTTCCGCAAGAATATACAGAAGGATTACACAATATTCATGAAACAACAGCGAATATTGGTATAGATAGTCCACATACTGTATTCCCAGTAGAAAACCGCGACTTATTCCAAGCAGCTTTAACCACCATTGTTCCAATCATTGGCGGTGGAGATCGTATAGGAACCCTTATTATTGGTCGTTTATCAGAAGAATTTAATGAAGACGATCTTTTATTAGCTGAGTATGGGGCTACAGTTGTAGGTATGGAAATTCTTCATGAAAAGTCTCAAGAAATTGAGCTAGAAGCAAGAAGTAAAGCTGTTGTTCAAATGGCAATTAGTTCACTTTCTTATAGTGAATTAGAAGCAATTGACCATATTTTTGAAGAACTGGACGGTAGTGAAGGGCTTCTTGTAGCAAGCAAAATCGCTGATCGTGTTGGCATTACCCGTTCTGTCATTGTAAATGCTCTAAGAAAACTAGAAAGTGCTGGGGTAATCGAATCTCGTTCACTGGGTATGAAGGGGACATATATTAAAGTCTTAAATCACAATTTCCTTGTTGAATTAGAAAATTTACGCTCTAGATAA MELLNRARKINAMLQKFGGKSVDFNDMSASLRDVIKGNVYILSRRGKLLGFAINQEIENERMKAMLEERQFPQEYTEGLHNIHETTANIGIDSPHTVFPVENRDLFQAALTTIVPIIGGGDRIGTLIIGRLSEEFNEDDLLLAEYGATVVGMEILHEKSQEIELEARSKAVVQMAISSLSYSELEAIDHIFEELDGSEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGMKGTYIKVLNHNFLVELENLRSR PGPT0016270_238 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0016270-codY-K03706 NA NA AK015_00625 1395 clpY COG1220 ATP-dependent protease ATPase subunit ClpY ATGGGTATGAGCTACACTCCTAAACAGATTGTTGGACAATTAGATAAATATATTATTGGCCAGAAAAGTGCAAAACGATCTGTAGCTGTTGCATTGCGTAACAGATATAGGCGCATGCAACTAGATGAAGGTTTAAAAGAAGAAGTGGTTCCGAAAAATATTTTAATGATTGGACCAACCGGAGTAGGGAAAACAGAAATAGCTAGAAGGCTAGCTAAGCTGGAAGGTGCACCATTTGTAAAAGTGGAGGCGACGAAGTTTACGGAAGTAGGCTATGTAGGTCGTGATGTTGAATCCATGATTCGCGATTTAGTTGAAATGGCATTGCGGACTGTGAAAGAGGAAAAAATGAAACAAGTTAAAGAGAAAGCGGAAGAAGAAGCAAATAAATTACTTGTCAAACTTTTAGTTCCTCAGTCTAAAGCAACCAACGAAACAAAAAACCCTTTTGAAATGTTATTTTCTTCACAGGCTAATAGTGAAGAAGGTGCTGAAGAATCTGCGAAAAATGATGAGATTCGAAATAAACGAAAGCGTGTAGAACAACAGTTAGCATCTGGTGAGTTAGAAGATAAAGTAGTAACTGTTGAAATAGAAGAGCAAACGCCATCTATGTTTGACATGTTACAAGGTTCTGGAATGGAACATATGGGCATGAATATGCAAGATGCGCTTGGACAATTTATGCCAAAGAAAAAGAAAAAGCGAAAATTGTCAGTGTCTGAAGCAAGGAAAGTGTTAACGCAGCAAGAAGCGAGTAAACTTGTAGATATGGAAGAGGCGGCACAAGAAGCCATTTTACGAGCAGAGCAATCGGGGATTGTGTTTATTGATGAAATAGATAAAGTAGCTGGTAAAGATGAACAAAGTGCTAACGTATCTCGCGAAGGTGTTCAACGCGATATATTGCCAATTATTGAAGGGTCTACAGTTGTTACAAAGCATGGACCAGTAAAAACAGACCATATGTTATTTATTGCCGCTGGCGCATTTCATATGTCAAAACCATCTGATCTAATTCCTGAATTACAAGGAAGATTTCCAATTAGGGTAGAATTAGAGAAACTATCAACAGATGATTTTAAACGAATATTAAAAGAGCCATCTAATGCCTTATTAAAGCAATATGAAGCTTTATTAAAAACAGAAGGTATAAATATAGTATTTACAGACGAAGCTGTAAATAGAATTGCTGAAATTGCTTATGAAGTGAATCAGGAAATGGATAACATTGGAGCTAGAAGACTTCATACGATTTTAGAAAAGTTGCTGGAGGATCTGTCCTTTGAAGCACCAGAGATTAATATGGATACTGTTGAAATCACTCCAGCTTATGTAGATGAAAAACTTTCTGCTATCGCTAAAAATAAGGATTTAAGTCAATATATCTTATAA MGMSYTPKQIVGQLDKYIIGQKSAKRSVAVALRNRYRRMQLDEGLKEEVVPKNILMIGPTGVGKTEIARRLAKLEGAPFVKVEATKFTEVGYVGRDVESMIRDLVEMALRTVKEEKMKQVKEKAEEEANKLLVKLLVPQSKATNETKNPFEMLFSSQANSEEGAEESAKNDEIRNKRKRVEQQLASGELEDKVVTVEIEEQTPSMFDMLQGSGMEHMGMNMQDALGQFMPKKKKKRKLSVSEARKVLTQQEASKLVDMEEAAQEAILRAEQSGIVFIDEIDKVAGKDEQSANVSREGVQRDILPIIEGSTVVTKHGPVKTDHMLFIAAGAFHMSKPSDLIPELQGRFPIRVELEKLSTDDFKRILKEPSNALLKQYEALLKTEGINIVFTDEAVNRIAEIAYEVNQEMDNIGARRLHTILEKLLEDLSFEAPEINMDTVEITPAYVDEKLSAIAKNKDLSQYIL NA NA NA NA NA AK015_00626 546 hslV COG5405 ATP-dependent protease subunit HslV ATGACCAATGAAATGCATGCTACCACTATTTTTGCCATCCACCATAACGGACAATGTGCGATGAGTGGGGACGGTCAAGTAACGATGGGAAATGCAGTAGTTATGAAACATAAAGCAAAGAAAGTTCGTACACTATTTAAAGGACAGGTATTAGCTGGATTTGCCGGTTCCGTAGCTGACGCGTTTACGCTCTTTGAAAAGTTTGAAGCGAAATTAGAAACATATAATGGCAACTTGCCTAGAGCGGCAGTTGAGCTTGCAAAGGAATGGCGAAGCGACAGAGTGCTAAGAAAACTGGAAGCTTTGTTAATTGTCATGGATAAGGAGCATATGTTTTTAGTTTCTGGTACTGGAGAAGTCATAGAGCCTGATGACGGAATTTTAGCTATCGGATCTGGTGGAAATTATGCTCTTAGCGCTGGTAGAGCTCTAGCGAGATATTCTAAAGAACTATCTGCCAAAGAGATTGCGAAAGCATCCTTAGAAATTGCTGGAGAATTATGTGTGTATACGAATAACCATATCACACTTGAGGTATTGGAGTAA MTNEMHATTIFAIHHNGQCAMSGDGQVTMGNAVVMKHKAKKVRTLFKGQVLAGFAGSVADAFTLFEKFEAKLETYNGNLPRAAVELAKEWRSDRVLRKLEALLIVMDKEHMFLVSGTGEVIEPDDGILAIGSGGNYALSAGRALARYSKELSAKEIAKASLEIAGELCVYTNNHITLEVLE NA NA NA NA NA AK015_00627 807 xerC_1 COG4974 Tyrosine recombinase XerC GTGTTTTTTTCTTTTTTGCACACGGAAGGGTTAACGAGATTTTGTGATGTGGACGAACGGATTGTTCGTGTGTTTTTAAATACCCTATATGATCAGCGATTAAGCAGGAAATCTGTTTCCCGGAAGATATCAGCGTTGCGAACGTTTTATAAATATTTAGAACGAGAAGATGTGGTAGATGTAAATCCATTTTCAGCTATTCGTTTACCTAAAACGGAAAGCAAGATTCCGGGGTTTTTGTATGAGAAAGAGTTAGAAAAGCTATTTGAAGTAAGTGATTTAACCCAACCTTTAGGTCAGCGAAACCAAGCCTTAATAGAATTGCTTTATGCTACGGGGATAAGGGTAAGTGAGTGTAGACAGTTGATTTTAGATAACATTGATTTCTATATTGGAACAGTGTTTGTGCAAGGAAAAGGCAGAAAAGAACGTTACATTCCGTATGGAAAATTTGCTGAAATTGCTTTGGAAACATACATACAGGATGGAAGAAAAGCGTTGCTTGCAAAATCCAATCAACAAACAAACGCATTATTTCTCAATAATCGTGGAGTACCCTTAACGGATAGAGGGATTCGTGACATATTGAACAAAATGGTGAAAGATGCAGCTTTAACTGTGCATGTGCATCCACACAAACTGCGACACACATTTGCTACTCATCTCTTGAATGAAGGTGCTGATTTACGCAGCGTACAAGAATTATTAGGTCATGAAAATCTGTCAACAACTCAAATTTATACGCATGTGACGAAAGATCATTTGCGACGTGTTTATATGAGAAGTCACCCGAGAGCAAATGATTAA MFFSFLHTEGLTRFCDVDERIVRVFLNTLYDQRLSRKSVSRKISALRTFYKYLEREDVVDVNPFSAIRLPKTESKIPGFLYEKELEKLFEVSDLTQPLGQRNQALIELLYATGIRVSECRQLILDNIDFYIGTVFVQGKGRKERYIPYGKFAEIALETYIQDGRKALLAKSNQQTNALFLNNRGVPLTDRGIRDILNKMVKDAALTVHVHPHKLRHTFATHLLNEGADLRSVQELLGHENLSTTQIYTHVTKDHLRRVYMRSHPRAND PGPT0021995_4564 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733 NA NA AK015_00628 2079 topA DNA topoisomerase 1 ATGTCGGATTATCTAGTGATCGTTGAGTCGCCTGCGAAGGCGAAGACGATTGAACGTTATTTAGGAAAAAAATATAAAGTAAAGGCCTCGATGGGGCATGTAAGAGATTTACCAAAAAGTCAGATGGGTGTAGATGCAGAAAATAATTTTACTCCAAAGTACATTACTATACGAGGAAAGGGCGATGTGGTTAAGGATTTAAAATCTGCAGCTAAAAAGGCCAAAAAAATATACCTCGCAGCGGACCCTGACAGGGAAGGGGAAGCAATAGCGTGGCATTTAGCTCATATTTTAAACATTGATGAGCAATCAGAATGCAGGGTTGTATTTAATGAAATTACCAAAGACGCCATTAAAGAGTCGTTTAAGCATCCTAGATCTATAAATATGAATTTAGTTGACGCGCAACAAGCAAGAAGGATACTTGACCGATTGGTAGGGTACAATATCAGTCCACTGCTATGGAAAAAAGTCAAAAAAGGTTTAAGTGCTGGGCGCGTGCAATCTGTTGCAGTGAAATTAATCATTGATCGAGAAAAAGAAATTGAAAACTTTATCCCTGAAGAATATTGGTCCATTGATGCGCAGTTTTTAAAAGAAAGTGAATTATTTGAAGGGGCCTTTTACGGGATAAATGGAAAAAAAGTAGCATTAAAAACAGAGGTAGATGTAAAAGAAATTAAACAGATGCTTCAAGGTGATCAGTTTACTGTAGATAAAGTAAACAAAAAAGAACGTAGAAGGAATCCAGCTCAACCATTTACTACTTCTTCCTTACAGCAGGAAGCTGCTAGAAAGCTGAACTTTAAAGCAAAGAAAACAATGATGGTTGCTCAGCAACTTTATGAAGGAATTGACCTCGGTCGTCAAGCAGGTGGTATAACTGGACTAATTACGTATATGCGTACAGATTCAACAAGAATCTCTGAAACGGCAAAAAATGAAGCGAACTCGTATATTCATGAACAATATGGAGAAGAGTACTTAGGGACAAATAAACAAAAGAAACAATCAGAGTCTGCGCAAGATGCCCATGAAGCTATTCGCCCGACTTCTGTGTTAAGAGAGCCTAATTCACTTAAAGCTATCCTATCAAGAGATCAACTTCGATTATATAAATTAATTTGGGAACGATTTTTGGCTAGTCAGATGGCTGCTGCGGTTATGGACACGATGACTGTTCATTTATTAAATAATAATGTTGAGTTCCGAGCTACAGGTTCAAAGATAAAATTTAAAGGTTTTATGAAAGTGTATGTGGAAGGAAGAGATGATAAGAAAAAAGATGAAAACAAACTCCTTCCTGCATTATCTGAAGGTATGAAAGTTAAGGCACAGGAAATAAAACCGAATCAACATTTTACACAGCCACCACCAAGGTATACGGAGGCGAGATTAGTAAAAACGATGGAGGAACTAGGAATTGGCCGTCCTTCTACTTATGCACCTACTTTGGATACTATTCAAAGACGAGGTTATGTAAGTATTGATAATAAGCGATTTGTACCTACTGAATTAGGTACGATTGTATTAGAATTGGTTGAAGAATTCTTCCCTAAAATTATTGATGTAGATTTTACTGCAAAAATGGAAAACGATTTAGATGCTATTGAAGAAGGAAGCATAGAATGGGTAAAGATCATTGATCAATTCTACCAAGAATTTGAGAAGCGCTTGAAGAAGGCTGAACAGGAAATGGAAAAAGTAGAAATAAAAGATGAACCAGCGGGAATTGATTGTGAAAAATGTGGTCATGAGATGGTTTATAAAATGGGGAGATATGGGAAATTCTTGGCTTGTTCGAACTTTCCAGAATGCCGAAATACGAAACCGATTTTAAAGAAAATTGGTGTTGATTGTCCAAAATGTAAAACAGGGGAAATAGTTGAAAGAAAATCAAAGAAACGCCGTACTTTTTATGGGTGTGACCAATATCCGGAATGTGACTTCGTTTCGTGGGATAAACCTATTTCTAGACCATGTCCTAAATGCGAGGCATTACTAGTGGAGAAAAAAGCGAAAAAGGGAACGCAAATTCAATGTACGAACTGTGAATATAAAGAAGAGCCTCAAACGTAA MSDYLVIVESPAKAKTIERYLGKKYKVKASMGHVRDLPKSQMGVDAENNFTPKYITIRGKGDVVKDLKSAAKKAKKIYLAADPDREGEAIAWHLAHILNIDEQSECRVVFNEITKDAIKESFKHPRSINMNLVDAQQARRILDRLVGYNISPLLWKKVKKGLSAGRVQSVAVKLIIDREKEIENFIPEEYWSIDAQFLKESELFEGAFYGINGKKVALKTEVDVKEIKQMLQGDQFTVDKVNKKERRRNPAQPFTTSSLQQEAARKLNFKAKKTMMVAQQLYEGIDLGRQAGGITGLITYMRTDSTRISETAKNEANSYIHEQYGEEYLGTNKQKKQSESAQDAHEAIRPTSVLREPNSLKAILSRDQLRLYKLIWERFLASQMAAAVMDTMTVHLLNNNVEFRATGSKIKFKGFMKVYVEGRDDKKKDENKLLPALSEGMKVKAQEIKPNQHFTQPPPRYTEARLVKTMEELGIGRPSTYAPTLDTIQRRGYVSIDNKRFVPTELGTIVLELVEEFFPKIIDVDFTAKMENDLDAIEEGSIEWVKIIDQFYQEFEKRLKKAEQEMEKVEIKDEPAGIDCEKCGHEMVYKMGRYGKFLACSNFPECRNTKPILKKIGVDCPKCKTGEIVERKSKKRRTFYGCDQYPECDFVSWDKPISRPCPKCEALLVEKKAKKGTQIQCTNCEYKEEPQT NA NA NA NA NA AK015_00629 933 hypothetical protein ATGACGAATGAAGTTCGTTTTCGTTTTATTCATTTAAGTCGTTGTAGGGGAGTGACTAGAAGGAGTATTCAAAGAATTATTAAGCTAGATCGTTCTCTTCTACAACTCTACCAAATGACCCCGAGTCAAATCAGCCACACTTTTTCTCTTCCATTAAAAAACGCTACAACCTTATATCAAGATCTTCATAGTCAAGCACGTCTAAAACAGTTGCAATCGGAAATGAAAAATCAGCATATAATTACTATCCTTGACAAACGGTTTCCACCTATGTTAAAAGCTATTCATGACCCACCTCTTGTCTTATATGGGAAAGGTAACGTAGACTTATTAAATGATGCCCCATCTTTAAGTGTAATTGGTTCGAGGGATCCTTCAAGGGAGGCAAAGAGAAAAACAGCTTTTATAATCGAGCCTTTACTCCATAAAAATTGGTTAATTGTAAGTGGACTAGCAAGAGGGGTAGATCAATATGCGCATGAAAAGACACTTATATTAAATGGAAAAACGATAGCTGTATTAGGAAGTGGCTTTGAACATCTCTATCCTAAAGAAAATCAATCATTATATCAAGAAATTGTTCATAAAGGTCTTGTGCTATCTGAATATACGCCAACAACCCCACCTGCTAAACACCATTTTCCTGAACGAAACCGGATTATTAGTGGATTGAGCTTTGGCACATTGGTTATTGAAGCGAAAAAAAGAAGTGGGACTATGATAACGGTAGATCAAGCATTAGAACAAGGGAGAGAAGTGTTTGCGGTTCCTGGTTCTATATTTACAGAGCAAACAGAGGGCTGTCATCAATTGATTCGAGATGGTGCCCAAATGGTTACAAATGCCAAAGACATTCTTGAAGAATGGCAAGTCCACGCGATGGGCGGGAAAGGACTACTAACCAGTATGTATATTTATGAGAAAAATAATTAA MTNEVRFRFIHLSRCRGVTRRSIQRIIKLDRSLLQLYQMTPSQISHTFSLPLKNATTLYQDLHSQARLKQLQSEMKNQHIITILDKRFPPMLKAIHDPPLVLYGKGNVDLLNDAPSLSVIGSRDPSREAKRKTAFIIEPLLHKNWLIVSGLARGVDQYAHEKTLILNGKTIAVLGSGFEHLYPKENQSLYQEIVHKGLVLSEYTPTTPPAKHHFPERNRIISGLSFGTLVIEAKKRSGTMITVDQALEQGREVFAVPGSIFTEQTEGCHQLIRDGAQMVTNAKDILEEWQVHAMGGKGLLTSMYIYEKNN NA NA NA NA NA AK015_00630 903 sucD COG0074 Succinate--CoA ligase [ADP-forming] subunit alpha ATGAGTGTATACGTTAATAAAGATACAAAAGTAATTGTCCAAGGGATAACCGGTGGCACAGCTAAATTTCATACGAAACAAATGCTTGAATACGGCACAAAAATTGTTGGTGGAGTCACTCCGAAAAAAGGTGGTACAGAGGTAGAAGGTGTACCTGTTTTTAATACAGTATTAGAGGCTGTAGAAGCAACAGGTGCTACAGCTTCCGTCATCTATGTACCGGCCCCGTTTGCTGCAGATGCTATTCTAGAAGCTGTTGACGCTGAATTAGATTTGGTTATTTGTATAACGGAGCATATTCCGGTAATGGATATGGTGAAAGTAAAACGTTATATGGAAGGAAAGAATACACGGCTCGTAGGACCAAACTGTCCAGGGGTTATTACTGCTGATGAAAGTAAAATTGGAATTATGCCTGGCTATATTCATAAAAAAGGTCATATTGGCGTTGTCTCTCGTTCAGGAACATTAACATATGAAGCGGTTCATCAATTATCAGAAGCTGGATATGGTCAAACTACCGCTGTTGGTATCGGTGGTGATCCTGTTAATGGAACCAATTTCATTGACGTGCTAGAAGCATTTAATAATGATCCAGAAACGTATGCTGTTATGATGATTGGAGAGATAGGCGGTACAGCAGAAGAAGAAGCAGCTGAATGGGTGAAAGCAAACATGAAGAAGCCCGTAGTTGGTTTTATTGGAGGTGCTACAGCTCCTCCAGGAAAAAGAATGGGGCATGCTGGCGCTATTATTTCAGGTGGAAAAGGAACAGCCGAGGAAAAAATTCGCATTATGAATGAGTGTGGAATTAAAGTTGCTGAAACGCCGGCAGTTATGGGTGAAACAATGATAGGTGTGCTTGAAGAAAAAGGCTTAAAAGAGAAGTGTAAAACACAATAA MSVYVNKDTKVIVQGITGGTAKFHTKQMLEYGTKIVGGVTPKKGGTEVEGVPVFNTVLEAVEATGATASVIYVPAPFAADAILEAVDAELDLVICITEHIPVMDMVKVKRYMEGKNTRLVGPNCPGVITADESKIGIMPGYIHKKGHIGVVSRSGTLTYEAVHQLSEAGYGQTTAVGIGGDPVNGTNFIDVLEAFNNDPETYAVMMIGEIGGTAEEEAAEWVKANMKKPVVGFIGGATAPPGKRMGHAGAIISGGKGTAEEKIRIMNECGIKVAETPAVMGETMIGVLEEKGLKEKCKTQ PGPT0001540_536 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 AK015_00631 1161 sucC COG0045 Succinate--CoA ligase [ADP-forming] subunit beta ATGAACATTCATGAATATCAAGGCAAAGAGATTTTGCGACAATACGGCGTTAAAGTCCCTAATGGAAAAGTTGCCTATGCAGTTGAAGAAGCTGTAGAAGCTGCAAAACAATTAGGAAGCGATGTCACAGTAGTGAAAGCACAAATTCACGCTGGTGGACGTGGTAAAGCCGGCGGGGTAAAAATAGCTAAAAATGTCGATGAAGTGCGTACATATGCCGATGAAATTCTTGGCAAAACGTTAGTAACGCATCAAACAGGGCCACAGGGGCAAGAAGTGAAACGTTTATTGATTGAAGAGGGCTGTGATATTCAAAAAGAATATTACATCGGCTTAGTACTGGATCGCGCTACTTCTCGTGTCGTTATGATGGCATCTGAAGAAGGTGGTACAGAAATTGAGGAAGTAGCTGCTGCTACACCTGAGAAGATATTTAAAGAAGTTATTGATCCTGTTGTTGGTTTAACAGGTTTTCAAGCACGTAGATTAGCTTTCAATATTAATATTCCACATGATTTGTTAGGTAAAGCTGTCAAATTCATGATTGGTTTATATACAGCATTTGTCGAAAAAGACTGTTCCATTGCTGAAATTAATCCGTTAGTAACAACTGGTGATGGGGAAGTCTTAGCCTTAGATGCAAAATTAAATTTTGATGACAACGCTTTATTCCGTCAAAAGGACATTATGGATTTACGTGATTTTGATGAAGAGGATGAGAAAGAAGTTGAAGCGTCCAAGTACGATTTAAGCTATATTTCACTGGACGGGAATATAGGTTGCATGGTAAATGGTGCTGGACTTGCTATGTCTACCATGGATATTATTAAACACTATGGCGGAGAGCCCGCTAATTTCCTTGACGTTGGAGGCGGTGCTACGGCTGAAAAAGTAACGGAAGCTTTCAAAATCATTCTATCTGATAAGAATGTAAAAGGTATTTTCGTTAATATATTTGGTGGCATTATGAAGTGTGATGTAATTGCTGAAGGAGTTGTAGAAGCAACCAAGCAAGTAGGGCTAGAAATTCCGTTGGTTGTTCGCCTAGAAGGAACAAACGTTGCTAGAGGGAAGAAAATTCTGGAAGCTTCAGAATTAAATATTACCTCTGCTAATTCGATGGCTGACGGTGCTCAAAAAATAGTCTCCATGGTAAAGTAA MNIHEYQGKEILRQYGVKVPNGKVAYAVEEAVEAAKQLGSDVTVVKAQIHAGGRGKAGGVKIAKNVDEVRTYADEILGKTLVTHQTGPQGQEVKRLLIEEGCDIQKEYYIGLVLDRATSRVVMMASEEGGTEIEEVAAATPEKIFKEVIDPVVGLTGFQARRLAFNINIPHDLLGKAVKFMIGLYTAFVEKDCSIAEINPLVTTGDGEVLALDAKLNFDDNALFRQKDIMDLRDFDEEDEKEVEASKYDLSYISLDGNIGCMVNGAGLAMSTMDIIKHYGGEPANFLDVGGGATAEKVTEAFKIILSDKNVKGIFVNIFGGIMKCDVIAEGVVEATKQVGLEIPLVVRLEGTNVARGKKILEASELNITSANSMADGAQKIVSMVK PGPT0019515_3017 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 AK015_00632 264 flhB_2 COG1377 Flagellar biosynthetic protein FlhB ATGAACTTAAAACAAAGGAAAGTAGCAGCACTACGCTATCATGAAGCACATCACACTGCTCCTGTCGTTACTGCTTCGGGTAGAGGTAAACTGGCAGATGAAATCATTGAAGCAGCAAAGGAAAATAACATTCCAATTTTAGAAGATGCTTCTTTAGTAGAGTTGTTAGGTCAATTAAACATAAATGAAACGATTCCAGAAGAGCTTTATGAAGCGGTGGCTGAAGTATTTGCATTTATCTATCGTACAGATCAGCAAATGTAA MNLKQRKVAALRYHEAHHTAPVVTASGRGKLADEIIEAAKENNIPILEDASLVELLGQLNINETIPEELYEAVAEVFAFIYRTDQQM PGPT0029865_1203 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-TYPE_III_SECRETION_SYSTEMS CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0029865-flhB2-K04061 NA NA AK015_00633 1635 hypothetical protein GTGCGTATCCATCAGTTGAAAGAAATATTACAACTAAATAAGTTAAAAATTCCCTCACAACAACAACTTAAAAAAGGTCAAATTATTCAAGGACAGGTTATAAAAATATATCCAGAAAATAAGGTGCAAATACAATTAGGTGGCTTGCGACTGATAGCTCAGTTACAAGCTTCTTTAACAACTGGAAAGGATTATTATTTTCAAGTTATGCAAGCTGATGAATTGTTAAAATTAAAGGTATTAGGTAATGGGGCATTGAATGCGAATCAATTGTTACAGCAACTTTCCTTAAAAATGGCAACGAACCAAGCGGAGCTTGTGCAGCAATTAACGAAGGAACAAATATCTTTTCATAGAGAGCAGTTGCAACAAGCTTTTGAATATATGTCACAATATAAAGATAAGCAAGTTCAAGTTTTTATGCCTATAATGAAAGAGTTAATAGCAAATGAATGGCCAATAACTGAACAAACTACGAAAGCTCTTCACATGCAAAAAAAATATCCTTTCGCTACTCAATTGCAAAAACTTTTGCATATGCTACCGAAGGATTCGAATTTTTCAATGCTGCGAGGACATTTAAGCGATCTTTTACAACCAACTGCTGAAAATATTGCAAATAGTCAAGAACAAATGAGTAAGATACTTTCTTTTCGAAATAAACAAGTGTTTTCCCTCATCCAATCGTTATTAGATGGTCAAGATATTTATTCTTCAAACACAATAAATAATTTAAAGCATTATATAGCTAATAATCAATGGTTTATGCAACATGCTGACCAAATATTAAAAAAATGGGAAAGCAAGCTTCTATTAACTGCGGCTAATCAATATATGTTTTCAGATGCTGAAGTCTCACAGTTAAAACAAGATGTAACAAAAGTCTTTCCGACATTATTCGCTAAAAACGTAGGTAACGGAGGTGATTTTGGCGGTTTACTCGTTCAGTTACGTGCATTGCAAAAGTCACATACATATGAACAATTAGAACAAATTATCACGTTTTCACAAAAATATTTATTGGCAGAGCCAAAAGAGCAATTTCTACAATTGACAAAACGGTTTTTGCAACTTTCAGGTATATCACATGAAAATTTGTTGGTTAAAGGAGAATCACCGCCAACTACCATTAAAAGTCAATTGATTTCCATGTTACAGCAAACAAAAGGCGGCTTGGGGGAACAACTACAGCAAGTGCTTCACCATTTACATGCTGTACAATTATCCTCTGTACAAGATTTCAATAATGGTTTTTTGCAAGCATATCTACAAATACCAGCCTTAAAGTTAGGATTAACAAATGATATGGAAATAAAGTTCGAAGGAAAGAAAACAGAAACAAATAAGTTAGATCCAAATCATTGTCGAATTGTGTTCTATTTGGAATTAACAAATATAAAAGAAACTGTGGTAGATATGCATGTACAAAATCGAAATATTAGCATTCATGTTTTCAATGATCATATCCAATCGCGAACACTTCCGATGCAATTTCAGCCTTTATTAAAGAAAGGGTTAAAGGAAATGAATTATCATCTATCATCTATTTCATTCTTTGCTTTACATCAAGGAAAGAAAGCAAAAACAGCTGTGTTTAATGCTCAGAGTTATCAAGGGGTGGATTATCGAATATGA MRIHQLKEILQLNKLKIPSQQQLKKGQIIQGQVIKIYPENKVQIQLGGLRLIAQLQASLTTGKDYYFQVMQADELLKLKVLGNGALNANQLLQQLSLKMATNQAELVQQLTKEQISFHREQLQQAFEYMSQYKDKQVQVFMPIMKELIANEWPITEQTTKALHMQKKYPFATQLQKLLHMLPKDSNFSMLRGHLSDLLQPTAENIANSQEQMSKILSFRNKQVFSLIQSLLDGQDIYSSNTINNLKHYIANNQWFMQHADQILKKWESKLLLTAANQYMFSDAEVSQLKQDVTKVFPTLFAKNVGNGGDFGGLLVQLRALQKSHTYEQLEQIITFSQKYLLAEPKEQFLQLTKRFLQLSGISHENLLVKGESPPTTIKSQLISMLQQTKGGLGEQLQQVLHHLHAVQLSSVQDFNNGFLQAYLQIPALKLGLTNDMEIKFEGKKTETNKLDPNHCRIVFYLELTNIKETVVDMHVQNRNISIHVFNDHIQSRTLPMQFQPLLKKGLKEMNYHLSSISFFALHQGKKAKTAVFNAQSYQGVDYRI NA NA NA NA NA AK015_00634 771 rnhB COG0164 Ribonuclease HII ATGAAGAAAATATCTATTAGGGAACTGAATCGTTTGTTTCATGCAGAGAAATTGGACGAGAAACAAATTGCATATTTACGATTGGATGAAAGAAAAGGTGTGCAACAATTAATTCATAAATATGATAAACAACAGCTTAAATTTCAAGCGCTACAAGAACGTTATGTGGAAATGACAATATTTGAACGCTCTCACTATAAACGAGGAATAAAATATATAGCTGGAGTTGACGAAGCTGGAAGAGGACCCTTAGCTGGTCCTGTTGTAGCAGCTGCAGTAATCTTACCATCTAATTTTCGGTTATTAGGACTAGATGATTCAAAGCGGCTAACGGAGTCAAAACGAAATGAATTTTTTTATTACATAAAAGAACATGCGATTAGTTATGGAATTTCTATAGTTGATAGTAAAATAATAGATCAAATTAATATATTAGAGGCAACAAAACTTGCTATGGCTGAAGCTATTGAAAAGTTAGACCCTATGCCTGAACGTATATTAATTGATGCAGTAGAATTGCCAAAATTAACAATTTCAAGTGAAGCAATTACAAAAGGTGACGCCAAAAGCATCTCAATTGCAGCAGCTAGTGTACTGGCAAAAGTGACAAGGGATAATTATATGAAGGAATTACATCTTCAATTCCCTATGTATGAATTTGCTTTTAATAAGGGATATGGAACAGAGGAGCATGTGAAAAAAATACATCAATATGGTGTTTGTCCACAGCACCGCTGCTCATTTGCACCGGTTAAAAAAATGATCAATTAG MKKISIRELNRLFHAEKLDEKQIAYLRLDERKGVQQLIHKYDKQQLKFQALQERYVEMTIFERSHYKRGIKYIAGVDEAGRGPLAGPVVAAAVILPSNFRLLGLDDSKRLTESKRNEFFYYIKEHAISYGISIVDSKIIDQINILEATKLAMAEAIEKLDPMPERILIDAVELPKLTISSEAITKGDAKSISIAAASVLAKVTRDNYMKELHLQFPMYEFAFNKGYGTEEHVKKIHQYGVCPQHRCSFAPVKKMIN 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 AK015_00635 849 rbgA COG1161 Ribosome biogenesis GTPase A ATGACAATACAATGGTTTCCTGGCCATATGGCCAAAGCAAAGCGTGAAGTAGAGGAAAAACTGAAGCTCGTCGATTTTGTTATCGAACTAGTAGATGCTAGAGCTCCTCTTTCTTCTCAGAACCCCATGTTGCAGCAAGTAATTCAGCAAAAGCCAAAAATGGTTGTAATGATGAAAAAAGACTTAGCTGATCAACAAATTACGGAACAATGGATAAAATACTTTGAACATCATCAGATCTCAGCCATTGCTATTAACGTAAATGAACGACATGATATACAAGCTGTCATACGGTTGGCAAAAGAACATGCTAAGATAAAAATGGAAAAACTACGTTCCAAAGGTATACAGCCTCGAGCTGCTCGTGCTATCATTGTTGGCATACCAAACGTTGGTAAATCGACATTAATTAACCGGTTGGCAAATAAAAAAATAGCTAAAACGGGAAATAAGCCAGGGGTTACAAAACAGCAACAATGGATAAAAGTTAAATCTGATTTTGAACTTTTAGATACACCTGGGATATTATGGCCAAAGTTTGAAGATCAAGAAGTTGGACTTCGGTTAGCTGCAATTGGCACTATTAAAGATCAATTACTTTCATTGCAAGACATCGTTGCATTTGTTATTCAATATATGCAACAACATTACCCAGAAAACATAAAACAACGTTATAATTTGGATAATACGCTAGAAGATATGTGGGATATATTCAACTATATCGGTAAGCAGCGTGGAGCGCTTGAAAGCGGAGGGAAAGTTAATTTTGCAAAAGTGTCTGATATCGTAATACAAGATTTACGTTCAGGTAAACTTGGTAAAATAACTTTGGAGACACCTGAAATATAA MTIQWFPGHMAKAKREVEEKLKLVDFVIELVDARAPLSSQNPMLQQVIQQKPKMVVMMKKDLADQQITEQWIKYFEHHQISAIAINVNERHDIQAVIRLAKEHAKIKMEKLRSKGIQPRAARAIIVGIPNVGKSTLINRLANKKIAKTGNKPGVTKQQQWIKVKSDFELLDTPGILWPKFEDQEVGLRLAAIGTIKDQLLSLQDIVAFVIQYMQQHYPENIKQRYNLDNTLEDMWDIFNYIGKQRGALESGGKVNFAKVSDIVIQDLRSGKLGKITLETPEI NA NA NA NA NA AK015_00636 576 spsB Signal peptidase IB TTGACTGAAAAATCAAATAGAAAAAAGTATCGCGAAGAGTGGTTAGGATGGGGAAAAACAATTTTAATTGCTCTTGGCTTGGCATTTATCATTCGTACATTTTTGTTTGCGCCTATTGTGGTGGAAGGTCCATCTATGCTCCCGACATTACATAATGGCGATCAAATGATGGTAAATAAAATCATTTATGACCTGAAAGACCCAAAACACTTTGATATTGTTGTATTTCATGCTTCTAGTGAAAAAGATTTTATTAAACGTGTTATCGGTTTACCTGGAGACCATGTTGAAGTTAGAAATAATATATTGTACATTAATGAAAAAGAAATAGAACAAAACTTTTTGAAGGGTCAAGCAAATAAGACTCAAGTAAAAGTATATACAAACAATTTTACCTTGGAAGATCTTCCGGGCAGTTATCGTAAAATACCTGAAGATTACGTCCTTGTCTTAGGAGATAATCGAGAGAATTCAATGGATAGCCGCTCACTAGGGCTTATACCAATGGATCAGATTGTTGGCAAGACAAGTTTAATTTATTGGCCGTTCGAACGTATGCAACTAATTGGAAAGTAG MTEKSNRKKYREEWLGWGKTILIALGLAFIIRTFLFAPIVVEGPSMLPTLHNGDQMMVNKIIYDLKDPKHFDIVVFHASSEKDFIKRVIGLPGDHVEVRNNILYINEKEIEQNFLKGQANKTQVKVYTNNFTLEDLPGSYRKIPEDYVLVLGDNRENSMDSRSLGLIPMDQIVGKTSLIYWPFERMQLIGK NA NA NA NA NA AK015_00637 345 rplS COG0335 50S ribosomal protein L19 ATGCAAAAATTAATTGAAGATATTACAAAAGATCAATTACGCACAGATCATCCTGAATTTCGCGCTGGGGATACTGTAAAAGTACACGTTAAAGTTGTCGAAGGTTCCCGAGAACGTATTCAGGTATTTGAAGGTGTTGTAATCAAACGTCAAAACGGCGGGATTAGTGAAACATTTACAGTAAGAAAATTATCTTACGGTATCGGTGTGGAACGTACATTCCCATTACATTCTCCACGGATTGATAAAATCGAAGTAAGTCGTCGTGGTATTGTTCGTCGTGCGAAACTTTACTATTTACGTAATTTACGTGGAAAAGCGGCTCGTATTAAAGAGCGTCGTTAA MQKLIEDITKDQLRTDHPEFRAGDTVKVHVKVVEGSRERIQVFEGVVIKRQNGGISETFTVRKLSYGIGVERTFPLHSPRIDKIEVSRRGIVRRAKLYYLRNLRGKAARIKERR NA NA NA NA NA AK015_00639 720 trmD tRNA (guanine-N(1)-)-methyltransferase ATGCATATAGATATATTGACACTCTTTCCGGAAATGTTTACAGGTGTGATGGAATCATCTATATTAAAAAAAGCGCAGGATAAGCATAAGTTTACGTATCAACTAGTTAATTTTCGTGAATATGCTCAAAATAAGCATCAGAAAGTCGATGATTATCCGTATGGTGGAGGAGCGGGAATGGTGCTAACTCCCCAGCCTATTTTTGATGCGGTAGAAGCAGTAAAAAAAGAACGTTCTTCTAAGCCGCGTGTTATTTTAATGTGCCCACAAGGCGAAACATTTACCCAAAAAAAAGCGGAAGAACTTGTACAAGAAGATCATCTTATTTTTATTTGTGGGCACTATGAAGGATTTGATGAACGTATACGTAAACATTTAGTAAATGATGAAATATCCATAGGGGATTACGTTTTAACAGGTGGAGAGTTAGGTGCTATGGTAGTAATGGATAGTGTTATTCGTCTACTCCCTAATGTACTTGGGAATGAAGCTTCAGCACCTCAAGATTCGTTTTCGTCGGGTTTGTTAGAACATCCTCATTATACGAGACCAGCAGAATTTCGTGGAATGAAAGTTCCAGAAGTTTTGTTGTCTGGTGATCACGGTAAAATTGCGGCATGGAGAAAAGAACAGTCGCTCAAGAGAACGTATGAACGGAGAAAAGATCTGTTAAATAATTCAAAGTTGACAATAGATGAAAAAAGCATTGTAAAAGACTAA MHIDILTLFPEMFTGVMESSILKKAQDKHKFTYQLVNFREYAQNKHQKVDDYPYGGGAGMVLTPQPIFDAVEAVKKERSSKPRVILMCPQGETFTQKKAEELVQEDHLIFICGHYEGFDERIRKHLVNDEISIGDYVLTGGELGAMVVMDSVIRLLPNVLGNEASAPQDSFSSGLLEHPHYTRPAEFRGMKVPEVLLSGDHGKIAAWRKEQSLKRTYERRKDLLNNSKLTIDEKSIVKD PGPT0007595_14 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770 NA NA AK015_00640 450 rimM Ribosome maturation factor RimM GTGTTACGTATAACCGACTTTGATGATCGATTTGAAGTTGGTAAGCGCGTTTACGTGGTAAATGATGGACAAGCCCCTTTACAAGTTACTATATCCAGTCATCGCGTACATAAGGGTTTTGATCTGTTGCAATTTGAAGGTTATGAAAACATGAATGATATCATTCACTTTAAAGGCAGTGAGCTAAAAATCCCTGAATCGGACCAGACGGAATTAAATGAGCATGAATACTATTATCATGAAATAATTGGTTGTACCGTTATAACAGAAACAGGAGAAGAAGTAGGAATGATCAAGGAAATTTTATCACCTGGTGCGAATGACGTATGGGTCACTAGAAGAAAAAGCGGCAAAGATATACTCATCCCGTATATTGAAGATGTTGTTTTGGAAGTTGATGTCAAAGCAAAGAAAGTCATCATTTCTCCAATGGAAGGGTTGTTGGAATAA MLRITDFDDRFEVGKRVYVVNDGQAPLQVTISSHRVHKGFDLLQFEGYENMNDIIHFKGSELKIPESDQTELNEHEYYYHEIIGCTVITETGEEVGMIKEILSPGANDVWVTRRKSGKDILIPYIEDVVLEVDVKAKKVIISPMEGLLE NA NA NA NA NA AK015_00641 390 hypothetical protein ATGCAAATAATAAAAAAGGTGCAGATTAAACAAGTATTAACGGAAAATAGTAAACAGAAAATGCAGGCGAATTTCCATGATCATAAAATGCGACTTGAGCAAGAGTGTCAACAGTTGTTGTTTGAACAGCGTAAACTACTAAATAAATCGACTTATTCCAAGCATGAACTCGAACAACGGTTTCAACAGGAAATTAATAATCGCAAAGAAAAAATAAAACTGGTTGAGTTTAAAATGGAACAACTGGATATGCTTGAAATAGGTAGTGAAATTGTTGAAAAAGAAGTTGAAGCTCTTGTTGAGGTTACAGAAGGATCCCATTGGCATGAAGTAATGAAAGAACAAGCGATCATTATAAAAGATGACGTTGTGATACGGATAGATGAATAG MQIIKKVQIKQVLTENSKQKMQANFHDHKMRLEQECQQLLFEQRKLLNKSTYSKHELEQRFQQEINNRKEKIKLVEFKMEQLDMLEIGSEIVEKEVEALVEVTEGSHWHEVMKEQAIIIKDDVVIRIDE NA NA NA NA NA AK015_00642 228 hypothetical protein ATGAAAGCTCTTATTGAAACGATTGTTACATCACTTGTAGATCATCCTGAAGATATCGTTATTACAGAGACAGAAGAAGAAACGAAGATTGTATATCATCTTTCTGTTCATCCTGAAGATGTTGGTAAGGTAATCGGAAAAAATGGTCGAATTGCAAAGGCCATTCGAACGGTTGTTTATGCAGCGAAGACAAATAGTAATAAACGTGTGTATTTAGATATTATGTAA MKALIETIVTSLVDHPEDIVITETEEETKIVYHLSVHPEDVGKVIGKNGRIAKAIRTVVYAAKTNSNKRVYLDIM NA NA NA NA NA AK015_00643 279 rpsP COG0228 30S ribosomal protein S16 ATGGCAGTAAAGATTCGCTTGAAGCGTATGGGATCAAAAAGAAACCCATTCTACCGTATCGTTGTAGCTGATTCAAGAGCGCCACGCGATGGTCGTTCTATCGAGCAAATTGGAACGTATAACCCTGTAGTTAATCCAGTTGAAGTTAAAATAGATGAAGATAAGGCACTTGACTGGATGTCTAAAGGTGCAAAACCTAGTGATACAGTTCGCAATCTATTCTCTAAAGAAGGCATCATGAAGAAATTTCACGAGCAAAAAAATCAAGTTGCAAAGTAG MAVKIRLKRMGSKRNPFYRIVVADSRAPRDGRSIEQIGTYNPVVNPVEVKIDEDKALDWMSKGAKPSDTVRNLFSKEGIMKKFHEQKNQVAK NA NA NA NA NA AK015_00644 1347 ffh COG0541 Signal recognition particle protein ATGGCATTTGAAGGATTAGCTGACCGCCTGCAAAGTACCATAAAGAAAATAACGGGTAAGGGTAAGGTAACTGAACAAGACGTAAAAGAAATGACAAGAGAAGTTCGTTTAGCTTTGCTAGAAGCAGACGTTAACTATAAAGTCGTTAAAGATTTGATTAAAAATATTAAAGAACGTGCTGTTGGTCAAGAAGTAATGGAAAGTTTGACACCTGGCCAACAGGTTATTAAAGTTGTCAAAGAAGAATTAACGGATTTAATGGGTGGAGAACAGAGTAAAATTGCTGTAGCTGATCGTGCTCCTACTGTCATTATGATGGTAGGGTTACAAGGTGCTGGGAAGACAACCACCTCTGGAAAATTAGCAAACCTCTTACGAAAACAACATAATCGCAAACCATTACTCGTTGCTTGTGATGTTTATCGTCCGGCTGCGATTCAACAATTGGAAACATTAGGACAACAACTTGACATGCCTGTATTTTCAATGGGGACAGATGCAAATCCTGTAGATATTGCAAAACAGGCGATGGTAAAAGCCAAGGAAGAGCATCATGATTATGTCATTATTGATACTGCTGGACGATTGCATGTAGACGAAGAACTTATGGGAGAATTACAACAAATTAAAACCGAAGTCGATCCACATGAAATCTATCTTGTAGTTGATTCCATGACCGGTCAGGATGCTGTGAACGTTGCAGAAAGCTTCAATGAACAGCTTGATATAACAGGTGTTGTGTTAACCAAATTGGATGGTGACACTCGTGGTGGAGCCGCTCTATCTATTAAAGCTGTTACTGACAAACCGATTAAATTTGCTGGTATGGGAGAGAAACTTGATGAATTAGAAGCATTTCACCCTGATCGCATGGCGTCTAGGATTTTAGGTATGGGAGACGTGCTATCTTTAATCGAAAAAGCTCAAACGAATCTAGATGAGAAGCAAGCGAAAGAACTGGAACAGAAAATGCGCACGATGTCTTTTACATTGGATGACTTTTTAGAGCAAATGGGTCAAGTGAAAAATATGGGTCCATTAGAAGACCTAATGAATATGATTCCAGGTGCAAATAAAATGAAGGGTTTAAAAAATGCCCAATTTGATGAAAAACAACTCTCACATGTAGAAGCGATTATTCAATCTATGACCAAGAAGGAACGTCAAGACCCAAGCATTATGAATGCAAGTAGAAAAAAACGGGTAGCTAAAGGTTCAGGTACAAATGTTTCACAAGTAAATCGCTTGCTGAAGCAATTTGAAGAAATGAAAAAAATGATGAAGCAAATGACAAATATGCAAAAAGGCAAAAAAGGCAAAAAAGGAATGAAGCTGCCGTTTATGTAG MAFEGLADRLQSTIKKITGKGKVTEQDVKEMTREVRLALLEADVNYKVVKDLIKNIKERAVGQEVMESLTPGQQVIKVVKEELTDLMGGEQSKIAVADRAPTVIMMVGLQGAGKTTTSGKLANLLRKQHNRKPLLVACDVYRPAAIQQLETLGQQLDMPVFSMGTDANPVDIAKQAMVKAKEEHHDYVIIDTAGRLHVDEELMGELQQIKTEVDPHEIYLVVDSMTGQDAVNVAESFNEQLDITGVVLTKLDGDTRGGAALSIKAVTDKPIKFAGMGEKLDELEAFHPDRMASRILGMGDVLSLIEKAQTNLDEKQAKELEQKMRTMSFTLDDFLEQMGQVKNMGPLEDLMNMIPGANKMKGLKNAQFDEKQLSHVEAIIQSMTKKERQDPSIMNASRKKRVAKGSGTNVSQVNRLLKQFEEMKKMMKQMTNMQKGKKGKKGMKLPFM PGPT0025750_4655 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106 NA NA AK015_00645 321 hypothetical protein ATGCTGGAAAAAACGACTAGAATGAACTATTTATTTGATTTTTATCAAGCATTACTTACACCCAAACAGCGTAACTATATGGAAATGTACTATTTAGAGGATTATTCTCTAGGTGAGATTTCAGAAGTATTTGATGTATCTAGGCAAGCTGTGTATGATAATATAAAGCGAACGGAACAAATGTTGGAATCATATGAGCAAAAGCTTCACTTATATGAAAAATTTCAGCAGCGCTTTGAGCTGTTAAAGCGACTGGGTGAAATAATTTCTGACGATAATGACGCGCAACAACTTGTGAATAAAATAAAAGAATTAGATTAG MLEKTTRMNYLFDFYQALLTPKQRNYMEMYYLEDYSLGEISEVFDVSRQAVYDNIKRTEQMLESYEQKLHLYEKFQQRFELLKRLGEIISDDNDAQQLVNKIKELD NA NA NA NA NA AK015_00646 996 ftsY COG0552 Signal recognition particle receptor FtsY ATGGGATTTATGGATAAGTTAAGAAACAAATTTCAACGAGGTCAAGAGGATGTAGAAGAAGTATCCGATAAGTATAAGGAGGGGATGAAAAAAAGCCGACAAACTTTTTCTGGAAAAATAAATGATTTGCTTGCTAAATACCGAAAAGTAGATGAAGATTTCTTCGAGGAGTTAGAAGAGGTACTAATTTCTGCAGATACGGGTGTATCTACTGTAATGGATCTAATTGATGAATTGAAAATGGAAGTAAAGCGTCAAAAGATTAAAGATACATCAGAAATGAAAGATGTTATCTCAGAAAAACTTGTAGAAATATATTATGGAGATGATGATCAGGAAATAGAAAGCCTTGCTATTCAGGAAGGTGAACTTTCCGTCATCTTAGTTGTCGGCGTGAATGGTGCAGGTAAAACTACTTCGATTGGAAAATTGGCCCACCAGCTTAAACTGGACGGAAAAAAAGTGATGCTTGCTGCTGGTGACACTTTTCGTGCTGGAGCAATTGAACAATTAGAAGTGTGGGGAGAGCGGACCGGTGTGGACGTAGTAAAACAAACTGCTGGTAGCGACCCGGCAGCTGTGATTTTTGACGGGATCAAATCAGCAAAATCAAAACAGGCTGACGTTCTCATTTGTGACACTGCTGGAAGATTGCAAAACAAAGTGAACTTAATGAACGAATTAGCAAAAGTTAAGCGGGTCATCGCAAAAGAAATTCCAAATGCTCCGCATGAAGTATTGCTTGTACTAGATGCAACAACTGGTCAAAATGCTTTAAGCCAAGCAAAAATCTTTGCTGAAGCGACAGATGTAACCGGGATTGTGTTAACGAAATTAGACGGTACAGCTAAAGGTGGAATTGTTTTAGCTATTCGAAATGAACTACAAATTCCAGTTAAATTTGTCGGTTTAGGAGAAGGAGTAAACGATTTACGCCCGTTTGATGCTCATGCATTTGTCTACGGTCTCTTCGCTGATTTATTAGAAAAAGAATAA MGFMDKLRNKFQRGQEDVEEVSDKYKEGMKKSRQTFSGKINDLLAKYRKVDEDFFEELEEVLISADTGVSTVMDLIDELKMEVKRQKIKDTSEMKDVISEKLVEIYYGDDDQEIESLAIQEGELSVILVVGVNGAGKTTSIGKLAHQLKLDGKKVMLAAGDTFRAGAIEQLEVWGERTGVDVVKQTAGSDPAAVIFDGIKSAKSKQADVLICDTAGRLQNKVNLMNELAKVKRVIAKEIPNAPHEVLLVLDATTGQNALSQAKIFAEATDVTGIVLTKLDGTAKGGIVLAIRNELQIPVKFVGLGEGVNDLRPFDAHAFVYGLFADLLEKE PGPT0025740_3669 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110 NA NA AK015_00647 3567 smc_3 COG1196 Chromosome partition protein Smc GTGTATTTGAAAAAATTAGAAAGCGTCGGTTTTAAATCGTTTGCTAAACGAATAAGTGTTGATTTTGTTCCGGGAGTAACAGCTGTAGTTGGACCAAACGGGAGCGGAAAAAGCAATATTACAGATGCTATTCGTTGGGTTCTCGGAGAGCAATCAGCAAAATCGCTGCGCGGTTCGAAAATGGAAGATATTATATTTCAAGGTAGTGATACACGCAAACCACTTAATGTAGCTGAAGTAACATTAGTTCTTGATAATCATGATCAGCTTCTACCATTAGATTATGATGAAGTAAGTGTAACGAGGCGTGTTTATCGCTCTGGTGATAGTGAGTACTATATTAATAATCAATCCTGTCGTTTAAAAGATATTGTTCATCTATTCATGGACTCAGGGCTTGGTAGGGAAGCTTTTTCGATTATTAGTCAAGGAAAAGTGGAAGAAATATTGAGCTCCAAGGCAGAAGAAAGAAGAACTATTTTTGAAGAAGCAGCAGGCGTTTTAAAATATAAACAACGAAAGAAAAAAGCAGAATACAAACTTGCGGAAACACAAGAAAACTTAAATCGTGTGGAAGATATTATTCATGAAATTGAACAGCAAATGGATCCTTTACGAGAGCAAGCAGAAACTGCTCGTCAATATAAGATGTTCAAAGATCAATTAAAGGAGACTGAAATTACATACTTACTTGCTGAAATTGATCGCCTCCATACAGAATGGAAATCAATGCTAGTAGAAATAGAAAAGGTGAAAAATAAACAACATCATATACAACAAACTGTGGAGCTAAAAGAGCAAGAGCAGGAACAAGAGCGTTTAGCCATTGTGCAAATAGATAAAAAATTAGAGCAATTACAAGCGGATTTATTAACAGCAACACAAACATTGGAAAAATATGAAGGGAAAAAGCAATTGTTTTTGGAACGTTCTAAACATTTTTTTGAAAACAAGGCAAAGCTAGATTCCCAGAAGAATCAAACTTCCGTACGAATAGGTTGTTTACACGATGTTTTTGTACAAGAAAAGAAGAACTTAACAACATTACAAAGCGCCAAAAAAACAACTGCTAATACTGTGAAAGAGTTAGAGCAGAAGCTCAGATTAGGAAATGCAAATTTGACTCAAAAGATAGAAGATCGAAAGTCCGATTATATTGAGTGTTTAAATCAACAAGCTGCTAAACGTAACGAAAAACAAACGTTAGATGAGCGGCTGCAGCAGTTAGCTGTAAAGACAGAAAAACAATCAGAGAAGTTTGCCGGGTTAATTCACGAACGAGAGAAATTACAAGAAAAATGGAACACGCTTGTACCTGATGTGGACAAGCAAAAGCAAATATGTATGCAAAAAGAAAAGAATGTTTATTCCACGAAAGAATTATTACAACAGGAACGTTATGCCTTTCAAGAAGCACAAACTAAACTATATCAAGGCTATCAATATATCGAAAAAGTAAAATCTAAAAAAGAAATGCTTGAGGAGATGAAGGAAGAATTTCAAGGTTTCTTTCAAGGTGTAAAGGCTGTACTAAAGGCGCGTAAAGAAAATAAACTTGCTAACATATATGGTGCAATTATAGAACTAATAGAAGTTCCTAAAGTGTATATTACAGCTATAGAAACAGTGCTTGGTGGGCAAGCGCAGTATATTGTTGTAAAAGATGAACAATCAGCTAGGCAGAGTATTTCCTGGTTAAAGCAAACAAATAATGGGAGAGCTACCTTTCTACCTCTCTCCTCCATTCAACAGCGGGTTATTCCTAATGAATTAAAAATTCAACTAGCTGAGCATGAGGGATATGTTGGTGTTGCAGGTGAGCTTGTTCAAACCGAAGCTATGTATCGTAAAGCAATTAATCATTTAATGGGGCATGTAATTATAGCTAAAACTTTGAAGGATGCAAATGAATTAGCGGCGCTAGCTTCCAGACGGTATCGTATTGTAACACTGGATGGAGATGTGGTTCATCCAGGAGGTTCCATGTCCGGTGGTGCCAAGAAGAAGACAAACCAGTCGTTATTTACGCGTGAAAAAGAACTTGAAGAAATGGTTGAGAAGCTAGCTACTTTTAATAAGAAAGTGTTGGACTTTGAAAAAACTGTCCAAAATAAAAAGGCGAACATTCAACAATTGGAACAAAAGTTAAACGAAGAAGAAGCAAGTGTACAAGTTGAGCAAAGCCAACTGCAGCAAATGCAAGAAAGTATGCACGAGTTAGAAATAAGGTTGCATGCTTTAAATGATCAATTGCAAATATATGATCAGGATAAACGACAACATTCCGAAGATCATGAGGGTGTAGCAAAACGAAAAGCGGACTTAGAAAAAGAACTAAAGCAACTTGATGAACAAGCAAAAGAAATTGAACAGGAAATTAACGAGTTAAACAAACAACAGAAAGAGTTAATCGAGAATAAAGAAAAGTTACAAGAAGAATTGCACCAAAATCAAGTTTTACTAGCGGAACAAGAAGAACGTGTTAAGAGCCAACGTGAAAAAACAAAACAAGTGCAAAACCAACTAACAGAGCTTCAACGCGAATATGATCAATATGTAGAAGAGTGGAATAATCTCATTGAATTTCAAGAAACCAAGGAAACAGAGGAAGACATCGACGATACAATTCGCCAACAGTCAGACGCGAAACAAAAAATAACAGCATCTTTACAAAAAATACGAGCTGAACGAGATGCTAAATCAAAACAAATGCAAGAAAAAGAGCAGGAGCTTAAGCAAATTCATACTGAATTGGACGATCTTAGACGAAGGTTAAATGAGAAAGAAGTGAAGTCTAATCGGATGGATGTAGAACTTGAGAATATGTTAAGTCATTTACAAAGTGAATATTTGATGACTTATGAAAAAGCACGGCAAAACTACGAAAAAGCTCAAGATAAACAAGCTGCCCAAACTGCTGTTACCCAATTAAAGCAACAAATCTATCAATTGGGAACAGTGAATATAGGAGCGATTGATGAGTATGAGCGCATATCTGAACGATACGATTTTTTAAAAGAACAACAGACAGATCTTGTAGATGCGAAGAAAACGTTGTATGAAGTGATTGGCGAAATGGACGAAGAAATGAAAGATCGTTTTGGTGAGACTTTTTCGCAAATTAAAGAAGCTTTTGCAAATGTTTTCAAGCAATTGTTTGGTGGTGGGAATGCTGAATTGAAATTAACAGACCCTAAAAATTTACTCGATACAGGTGTAGACATTATTGCTCAGCCACCAGGAAAGAAATTGCAGCATCTCGGGTTATTATCGGGTGGGGAGCGGGCGTTAACTGCAATTGCTTTGTTATTTGCAATTTTACGTGTTCGCCCGGTTCCATTTTGTGTGCTTGATGAAGTAGAGGCAGCGTTAGATGAAGCAAATGTAACTAGATTTGCTAAATACGTGAAAATTTTTAGTGAAAAAACACAGTTTATTGTTATAACACACCGTAAAGGTACAATGGAGGAAGCAGATGTGTTATATGGTGTAACTATGCAAGAATCAGGTGTTTCACGTTTAGTATCTGTTCGCTTAGAAGAGACAGAACAATTAGTTGAACAATAG MYLKKLESVGFKSFAKRISVDFVPGVTAVVGPNGSGKSNITDAIRWVLGEQSAKSLRGSKMEDIIFQGSDTRKPLNVAEVTLVLDNHDQLLPLDYDEVSVTRRVYRSGDSEYYINNQSCRLKDIVHLFMDSGLGREAFSIISQGKVEEILSSKAEERRTIFEEAAGVLKYKQRKKKAEYKLAETQENLNRVEDIIHEIEQQMDPLREQAETARQYKMFKDQLKETEITYLLAEIDRLHTEWKSMLVEIEKVKNKQHHIQQTVELKEQEQEQERLAIVQIDKKLEQLQADLLTATQTLEKYEGKKQLFLERSKHFFENKAKLDSQKNQTSVRIGCLHDVFVQEKKNLTTLQSAKKTTANTVKELEQKLRLGNANLTQKIEDRKSDYIECLNQQAAKRNEKQTLDERLQQLAVKTEKQSEKFAGLIHEREKLQEKWNTLVPDVDKQKQICMQKEKNVYSTKELLQQERYAFQEAQTKLYQGYQYIEKVKSKKEMLEEMKEEFQGFFQGVKAVLKARKENKLANIYGAIIELIEVPKVYITAIETVLGGQAQYIVVKDEQSARQSISWLKQTNNGRATFLPLSSIQQRVIPNELKIQLAEHEGYVGVAGELVQTEAMYRKAINHLMGHVIIAKTLKDANELAALASRRYRIVTLDGDVVHPGGSMSGGAKKKTNQSLFTREKELEEMVEKLATFNKKVLDFEKTVQNKKANIQQLEQKLNEEEASVQVEQSQLQQMQESMHELEIRLHALNDQLQIYDQDKRQHSEDHEGVAKRKADLEKELKQLDEQAKEIEQEINELNKQQKELIENKEKLQEELHQNQVLLAEQEERVKSQREKTKQVQNQLTELQREYDQYVEEWNNLIEFQETKETEEDIDDTIRQQSDAKQKITASLQKIRAERDAKSKQMQEKEQELKQIHTELDDLRRRLNEKEVKSNRMDVELENMLSHLQSEYLMTYEKARQNYEKAQDKQAAQTAVTQLKQQIYQLGTVNIGAIDEYERISERYDFLKEQQTDLVDAKKTLYEVIGEMDEEMKDRFGETFSQIKEAFANVFKQLFGGGNAELKLTDPKNLLDTGVDIIAQPPGKKLQHLGLLSGGERALTAIALLFAILRVRPVPFCVLDEVEAALDEANVTRFAKYVKIFSEKTQFIVITHRKGTMEEADVLYGVTMQESGVSRLVSVRLEETEQLVEQ NA NA NA NA NA AK015_00648 222 hypothetical protein ATGAATTTAGAAACACCATCTCAGGAAAATTTAAAAATACTATTAGATGAGATTGCTGATCAACTTTCCATTGTCAATCGCACAATTATGGATGCAAAAGATTACGATCTAAATAAATATACAGAGCTAAAGTCGCTGTATGATTTAATTAAACAAAAAGGGCACCTTAGTACGCTTGAGACACAGGCATTCATAGAGGAATTAAGGAATATTCGTAAATAA MNLETPSQENLKILLDEIADQLSIVNRTIMDAKDYDLNKYTELKSLYDLIKQKGHLSTLETQAFIEELRNIRK NA NA NA NA NA AK015_00649 684 rnc COG0571 Ribonuclease 3 ATGAATGTTGACCAATTAGAAAAGCAATTAGGCGTTCGTTTTTACAATCCCTCATTAATCGTACAAGCATTTACTCATTCATCTTATGTGAATGAGCATCGTGATAGAGTATTTTCGGATAACGAGAGGCTCGAATTTTTAGGAGACGCTGTATTAGAGCTTGGCGTATCTCAATATTTATTTCGGACGAATGAAAAAATGCCTGAAGGGGAAATGACAAAGTTAAGAGCTGCAATTGTTTGTGAACCTTCTTTAGCCAGTTTTGCACGTGGCTTACGGTTTGGAGCGTATATCTTACTAGGTAAAGGAGAAGAGCAAACTGGTGGTCGTGACCGCGATGCCCTGCTGGCAGATGTTTTTGAAGCATTTTTAGGTGCGCTTTTTTTAGATCAAGGTTTTCATACAACCATACAGTTCCTCGAAGACTATATATTTCCGAAAATAACAAATGGTGCTTTTTCGCATGCGATGGATTATAAGAGCCAATTACAAGAATTAATTCAACAAGTGAAACACCGTTCAGTTGAATATAAAATTGTCGAAGAACGAGGGCCATCTCATGATAAGGAATTTGTAGCTAAAGCTTTTATACAAGGTGAAGTATACGGATCAGGAATAGGGCGTACAAAGAAAGAAGCTGAACAGAGGGCAGCTAAAGCCGCTTTAGATAAATACAAACAATAG MNVDQLEKQLGVRFYNPSLIVQAFTHSSYVNEHRDRVFSDNERLEFLGDAVLELGVSQYLFRTNEKMPEGEMTKLRAAIVCEPSLASFARGLRFGAYILLGKGEEQTGGRDRDALLADVFEAFLGALFLDQGFHTTIQFLEDYIFPKITNGAFSHAMDYKSQLQELIQQVKHRSVEYKIVEERGPSHDKEFVAKAFIQGEVYGSGIGRTKKEAEQRAAKAALDKYKQ NA NA NA NA NA AK015_00650 237 acpA COG0236 Acyl carrier protein ATGGCAGACGTATTTGATCGTGTAAAAGCAATCATTGTCGATCGTCTTGATGTTGACGAGGCAAAAGTAACAATGGAAGCTTCTTTTAAAGATGATTTAGAAGCAGATTCATTAGATGTTGTTGAACTTGTTATGGAACTGGAAGACGAATTTGACATGGAAATTGCTGATGAAGAAGCAGAAAAAATTAATACAGTAGGTGATGCTGTTAACTACATAAATAATTTACAAGGTTAA MADVFDRVKAIIVDRLDVDEAKVTMEASFKDDLEADSLDVVELVMELEDEFDMEIADEEAEKINTVGDAVNYINNLQG PGPT0011375_6048 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078 NA NA AK015_00651 744 fabG_3 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGATTCTAACTGGAAAAAATGCGCTAGTTACAGGAGCTTCAAGAGGAATTGGTCGTGCTATAGCGCTTGAATTAGCGAAGCAAGGAGCAAATGTTGCTGTTAATTACGCAGGTAGTGAGGCAAAAGCAGAGGCCGTCGTAAGTGAAATTCAACAGCTTGGAAGACAGGCTTTCAAAATTAGAGCAAATGTAGCAGACGAATCCGAAGTAAAAGCAATGATAAAGGAAGTAGCTTCTCGTTTTGGCTCATTGGATATTCTAGTTAATAATGCTGGAATAACGCGGGATAACTTGCTGATGAGGATGAAAGAAACGGAATTTGATGAAGTTATTAATACGAATTTGAAAGGTGTTTTCATTTGTACGAAAGCAGTTACGAGACAAATGATGAAGCAGCGTGCAGGAAAAATTATTAACGTTGCATCCATCGTTGGTGTGAGTGGAAACCCTGGTCAGGCAAATTATGTAGCTGCCAAAGCAGGAGTGATAGGATTAACGAAGACAACTGCAAAAGAGTTAGCTACTAGGAATATTCTTGTAAATGCGGTAGCACCAGGTTTTATTTCAACAGATATGACCGATGCTTTATCGGAAGAACAACATAAAGAAATGCTTACATTGATTCCGTTGCAAAAACTAGGAGAGCCAGAAGATGTAGCAAAGGTTGTTCGATTCTTGGCAAGCGAAGATGCAGACTATATTACTGGCCAAACGATCCATATTGATGGTGGCATGGTAATGTAA MILTGKNALVTGASRGIGRAIALELAKQGANVAVNYAGSEAKAEAVVSEIQQLGRQAFKIRANVADESEVKAMIKEVASRFGSLDILVNNAGITRDNLLMRMKETEFDEVINTNLKGVFICTKAVTRQMMKQRAGKIINVASIVGVSGNPGQANYVAAKAGVIGLTKTTAKELATRNILVNAVAPGFISTDMTDALSEEQHKEMLTLIPLQKLGEPEDVAKVVRFLASEDADYITGQTIHIDGGMVM PGPT0003180_14636 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 AK015_00652 942 fabD Malonyl CoA-acyl carrier protein transacylase ATGAAAAAAGTAGCTTTTATGTTTCCGGGACAAGGTTCTCAAGAAATAGGCATGGGGAATGAATTGTATCACACTTATCCAGAAGTGAAGCAGTTATTTCATGAAGCTGATGACTTATTGGAAACAAACTTAAGTCAAATTATAAGTAACGGACCAAAGGAACAATTAACCGCTACTGAATATGCGCAACCAGCATTGCTATTATTAAGTACTGCAATACACGCTCTACTCTTAAAATATGGGGTTCAGCCAGTGAATCTGGTCGGGCATAGTCTTGGGGAATATAGTGCGCTCGTTGCTTCAGGTGCGATCGCTTTTGATGAAGCACTTCCGTTGGTATCTAAACGGGGCCAGTTAATGGAGGAAGCTTTCCCGAAAGGACAAGGAACGATGGCAGCTGTATTAGGTCTAGATGAGCAAACTGTTCATCATTCGTTAGCTGAAGTAAAAGATGAAATAGTGGATATTGCTAATTTGAATTGTCCTGGTCAAATTGTTATTTCAGGCTCTGTGAAAGGCGTGGAACATGCTACTGAAATTTTAAAGGCTCACGGAGCAAAGCGGGTATTACCTCTAAATGTTAGTGGTCCATTTCACTCTCGACTAATGCAAGCAGCCAATGAGTCATTTTCCGCTTATTTGGACAAAGTAACGATAAGAGATGCTACAATACCAGTTTATGCTAACGTCTCTGCTCAACCAGTAAGAGACAAACAAGAAATAAAAAAATTACTCGTAAAACAACTTTATTCCCCTGTCCGCTTTGCAGAGTCCATTCAAAATATGATGAAGCATGAAGTTGATGCGTTTGTGGAAGTAGGAAATGGAAAAGTTTTAAGTGGGCTTGTAAGGAAAATTGATCGGAAGAAGAAAACATTTGCCATTCAAGATGTCGCATCATTAAATGAATTTATTGCATGGTATAAGGGGGAGGAAATATGA MKKVAFMFPGQGSQEIGMGNELYHTYPEVKQLFHEADDLLETNLSQIISNGPKEQLTATEYAQPALLLLSTAIHALLLKYGVQPVNLVGHSLGEYSALVASGAIAFDEALPLVSKRGQLMEEAFPKGQGTMAAVLGLDEQTVHHSLAEVKDEIVDIANLNCPGQIVISGSVKGVEHATEILKAHGAKRVLPLNVSGPFHSRLMQAANESFSAYLDKVTIRDATIPVYANVSAQPVRDKQEIKKLLVKQLYSPVRFAESIQNMMKHEVDAFVEVGNGKVLSGLVRKIDRKKKTFAIQDVASLNEFIAWYKGEEI PGPT0008350_2229 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 AK015_00653 1008 plsX COG0416 Phosphate acyltransferase ATGAGAATTGCAATTGACGCCATGGGAGGCGATCACGCACCAGAATCGACTGTTCTCGGTGCCATGAAAGCTGTCTCTGAAATGAAAGATCTACACATTACGTTAGTCGGTAATGAATCAGAAATAAAAAAATATGCGAGCGAACACGATCGAATTCATATTTTACATACGAATGAAGTGATTACTGCTGAAGATGAGCCTGTACGGGCTGTTAGAAGAAAAAAACAATCTTCATTAGTTTTGGCAGCGAATGAAGTAAAACAAGGTAAGGCAGATGCTTGTATTTCAGCAGGAAACACGGGAGCATTAATGAGTGCAGGATTATTTGTTGTAGGTCGAATCAAAGGGATTGAACGACCAGCTTTAAGTCCCACGCTTCCAACATTAGATGGTCAAGGATTTTTATTTTTGGATGTTGGTGCCAATGTAGATGCAAAACCGAACCATTTACTTCAATACGCCATAATGGGCTCTATTTATTCCGAAAAGGTTCGTGGTTTATCCCAGCCGAAAGTAGGTCTTTTAAACGTTGGCACGGAAGATGGAAAAGGACCAGAGTTAACGAAAAAGACTTTCCAATTACTACAAGAAGCACCTATTAATTTTATTGGAAATGTCGAAGCTCGTGATATGTTAGATCATGTTGCAGATGTTATTGTAACGGATGGATTCACCGGAAATGTTGCGCTTAAAACGATCGAAGGGACAGCTGGTTCGATCTTTGCTATGTTAAAACAAGCATTTACGTCGTCTACTAAAAGTAAGCTAGCAGCAGGCATGTTGAAGAAAGATTTAAAAGCTTTGAAAACAAAGTTAGATTACTCGGAATATGGCGGTGCCGGTTTGTTTGGACTGCAGGCACCAGTCATTAAAGCACATGGATCTTCTGATCAAAGAGCAATAGCCAACGCAATTAAGCAAGCACGCTATATGGCAGAGAACCAAATCGCAGAAACGATTCAGTCAACGATTGAGTCCTTACATGTAGCGAAGGGGGAAGATGAATGA MRIAIDAMGGDHAPESTVLGAMKAVSEMKDLHITLVGNESEIKKYASEHDRIHILHTNEVITAEDEPVRAVRRKKQSSLVLAANEVKQGKADACISAGNTGALMSAGLFVVGRIKGIERPALSPTLPTLDGQGFLFLDVGANVDAKPNHLLQYAIMGSIYSEKVRGLSQPKVGLLNVGTEDGKGPELTKKTFQLLQEAPINFIGNVEARDMLDHVADVIVTDGFTGNVALKTIEGTAGSIFAMLKQAFTSSTKSKLAAGMLKKDLKALKTKLDYSEYGGAGLFGLQAPVIKAHGSSDQRAIANAIKQARYMAENQIAETIQSTIESLHVAKGEDE PGPT0024410_2421 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621 NA NA AK015_00654 573 fapR COG2050 Transcription factor FapR ATGAAAAGATCAAAGGCTGATCGGCAGCGTTTATTAAAAGAAACGATTGAACAAACACCTTTTATAACAGACGAAGAGTTAGCCAAGAAATTTAATGTAAGTATCCAAACTATTCGCTTGGATCGCATGGAATTAGCCATTCCTGAACTGCGACAACGTATTAAATCAGTGGCGACGGAACAATGGAATGAGACGGTTAAAGCACTACCACTTGAAGAGGTGATTGGTGAGGTTATTGATTTAGAATTGGATGAACGAGCAATTTCAATTTTAGATATTCGCCAAGAACATGTTTTTTCACGAAATAATATAGCTCGTGGCCACCACCTCTTTGCACAAGCCAATTCGTTAGCAGTTGCTGTATTAAATGATGAATTGGCACTGACTGCTAAATCAGAGTTGAAATTTACGAGGCAAGTGAAAGAGGGAGAACGCGTAATAGCTAAAGCTGTAGTAAAAGGGAAAGAAAAAGGATTAACACTCGTACATGTAAATAGTTTTGTAGAAAATGAGTTAGTATTTACAGGTGTATTCCATATGTATCAATTGAATCAGCATAAAGGAGCAGACTAA MKRSKADRQRLLKETIEQTPFITDEELAKKFNVSIQTIRLDRMELAIPELRQRIKSVATEQWNETVKALPLEEVIGEVIDLELDERAISILDIRQEHVFSRNNIARGHHLFAQANSLAVAVLNDELALTAKSELKFTRQVKEGERVIAKAVVKGKEKGLTLVHVNSFVENELVFTGVFHMYQLNQHKGAD NA NA NA NA NA AK015_00655 2031 recG ATP-dependent DNA helicase RecG ATGTTAACCGATCCTGTTACCCACGTGAAAGGTGTCGGGGAGAAAATGGGTGAGGATTTTGCTCATATCGGCATTTTTACAGTAGAAGATTTATTCAATTATTTTCCCTATCGGTATGATGTTTTTGAAATAAAGCCATTGAGTGAGCTTGTACACGATGATAAAGTTACGATTGAGGGAAGGGTAGTCCACGATCCTTCTCTCACTTTTTATGGAAAGCAAAAATCAAGATTAACTTTTACATTGGAAGTAGAGCAAATTGCTGTAAAAGCGGTTATGTTTAATCGATCCTTCGCTAAAAAACATATACATAAAGGAGATATAATTACCCTTATCGGAAAATGGGACGCGCATCGCTTACAAATTACAGTAAATACGTATAAGAAAGGACCGGCTTTACAGCAAGATGAAATGCATCCTGTTTACCCTGCTCGCGGCGAACTTTCCCCCGGGAAGTTAAAGAAAGTCATGAAGCAGGCGTTGGCGAGTTATTCTGATACTATTGGGGAAATTCTCCCGGCAACTTTTTTAACTGCATATAAATTACCAACCCGTAAGGAAGCGTATCAGACGTTGCACATGCCTAAGAACCGAAGTGCTTTAAAACATGCACGTAGAAGGCTTATATATGAAGAGTTTTTAGTATTTCAGTTAAAAATGCAGTTGCTACGAAAATGGAAACGTGAGGCCACTGTTGGAAATGCACAAAACTATAACAGTAAGTTTGTTAAAGAATTTATAGATACATTTCCATTTACGCTAACGAGTGCACAGCAAGGCGCACTTGAGCAGATTTTAACGGATATGCAATCGCCTTATCGTATGAACCGTTTGCTTCAAGGTGATGTTGGGTCTGGAAAAACTGCTGTTGCAGCTATTTGCTTGTACGCTTCTGTTACAGCTGGGAAACAAGGCGCTTTAATGGTGCCTACGGAAATATTAGCAGAACAACACTATGAATCGCTCGGTAAATTATTTGGAGGACGAGCAAAGATTGCTTTACTTACTGGTTCCATGAAAGGAAAAAGACGTAAAGAACTAGTTGAACAAATTTACAATCAACAAATAGATATTGTTATCGGAACGCATGCTTTAATTCAAGAAGATGTGCAGTTTTCTGAGCTTGGGTTTGTTATTGTAGACGAACAGCATCGATTTGGTGTAGAGCAAAGACGAACCTTGAGAGAAAAAGGTTTATCCCCCGATGTTTTATTTATGACAGCCACTCCCATACCGCGTACTTTAGCTATAACAGCATTTGGAGATATGGATGTTTCCGTCATCGACCAGATGCCTTTAGGAAGAAAAGAGATTGAAACGTATTGGGTACGAGAAACGATGTTGGATCGCGTATTGCAATTTGTGGGTAGTCGTATTCAAACTGGCGAGCAGGCATACGTTATTTGCCCACTTATTGAAGAATCAGACAAATTGGATATTCAAAATGCGGTCGATGTGTATCACCAATTAAGGGCATATTTTCCTGAAACTGTAGAAATAGGTTTAATGCATGGAAGATTAACGGCTGAAGAAAAAGAAACAATCATGAAAAAATTTGCTAATAATGAAGTTCACCTACTTGTTTCTACAACTGTAGTGGAAGTAGGAGTGAATGTTCCCAATGCAACAATTATGATGATTTATGACGCAGAGCGATTTGGATTATCACAATTGCATCAATTGCGGGGGAGGGTAGGCAGAGGAGAGAAACAAAGCTATTGTATCTTAATTGCTGACCCGAAAGGGGAAACAGGGAAAGAACGCATGCGGATTATGGCAGAGACGACAGATGGATTTGCATTATCGGAACAAGATTTGCAACTGCGTGGGCCAGGTGATTTTTTTGGAAAAAAACAAAGTGGCTTACCTGAATTTAAACTTGCTGACATGATTCACGACTACCGGGCATTAGAGACTGCTAGACAAGATGCTGCAAAGATTATTCAAGACGGTTTATTAGAAACGGAAGAATATGCATTGCTTTCAAAATATGTAGAGAATAAATTTCAAATGGATGAGAAATTGGATTAA MLTDPVTHVKGVGEKMGEDFAHIGIFTVEDLFNYFPYRYDVFEIKPLSELVHDDKVTIEGRVVHDPSLTFYGKQKSRLTFTLEVEQIAVKAVMFNRSFAKKHIHKGDIITLIGKWDAHRLQITVNTYKKGPALQQDEMHPVYPARGELSPGKLKKVMKQALASYSDTIGEILPATFLTAYKLPTRKEAYQTLHMPKNRSALKHARRRLIYEEFLVFQLKMQLLRKWKREATVGNAQNYNSKFVKEFIDTFPFTLTSAQQGALEQILTDMQSPYRMNRLLQGDVGSGKTAVAAICLYASVTAGKQGALMVPTEILAEQHYESLGKLFGGRAKIALLTGSMKGKRRKELVEQIYNQQIDIVIGTHALIQEDVQFSELGFVIVDEQHRFGVEQRRTLREKGLSPDVLFMTATPIPRTLAITAFGDMDVSVIDQMPLGRKEIETYWVRETMLDRVLQFVGSRIQTGEQAYVICPLIEESDKLDIQNAVDVYHQLRAYFPETVEIGLMHGRLTAEEKETIMKKFANNEVHLLVSTTVVEVGVNVPNATIMMIYDAERFGLSQLHQLRGRVGRGEKQSYCILIADPKGETGKERMRIMAETTDGFALSEQDLQLRGPGDFFGKKQSGLPEFKLADMIHDYRALETARQDAAKIIQDGLLETEEYALLSKYVENKFQMDEKLD NA NA NA NA NA AK015_00656 879 sdhA_1 L-serine dehydratase, alpha chain ATGATGTTTCGGACTGTTCAAGAATTAGTGGAGATAGCTGAAATGAAAGCAATATCTATTTCAGAAGTGATGATTCGTCAGGAAATGGAAGTAAAAGAAAAAACACGTGAGCAGTTATATGAAGAGATGGAGAAGAACTTACAAGTCATGGAAAAAGCGATTGAAGATGCTTTGCAAGGAGTGGAATCCGTTACTGGCTTAACTGGTGGAGATGCGGTTCTTATCCAAAAATATATACATGAGAAAAACCCGCTTTCTGGTCCATTGCTACTGGATGCTGTAAGTAAAGCGATGGGAACGAATGAAGTAAACGCTGCAATGGGAACAATTTGTGCTACTCCTACTGCAGGAAGTGCTGGGTGTGTTCCTGGTACGTTGTTTGCTGTAAAGAATCAATTGAATCCAACACGTGAACAAATGATGCGGTATTTATTTACCGCTGGCGCATTTGGCTTTGTAGTAGCGAATAATGCATCTATCTCAGGGGCTGCGGGAGGATGTCAAGCCGAAGTAGGGTCAGCTGGAGCAATGGCATCCGCTGCTATTGTGGAGATGGCTGGGGGAACACCACAGCAATCCGCAGAAGCATTCGCCATGACATTAAAAAACATGCTTGGACTTGTTTGCGATCCCGTTGCTGGCCTTGTTGAAGTTCCGTGTGTGAAAAGAAACGCTGGTGGATCTTCGTTAGCAATTGTTTCGGCTGATATGGCACTAGCTGGTGTAACGAGTAGAATTCCTTGTGATGAAGTAATTGGCGCTATGTATAGAATTGGAAAGCAAATGCCATCCAGTTTACGAGAAACGGGAGAAGGCGGATTAGCCGATACACCAACTGGACGCTGGCTAAAAGATAAATTATTAGGACTAACAAGCTAA MMFRTVQELVEIAEMKAISISEVMIRQEMEVKEKTREQLYEEMEKNLQVMEKAIEDALQGVESVTGLTGGDAVLIQKYIHEKNPLSGPLLLDAVSKAMGTNEVNAAMGTICATPTAGSAGCVPGTLFAVKNQLNPTREQMMRYLFTAGAFGFVVANNASISGAAGGCQAEVGSAGAMASAAIVEMAGGTPQQSAEAFAMTLKNMLGLVCDPVAGLVEVPCVKRNAGGSSLAIVSADMALAGVTSRIPCDEVIGAMYRIGKQMPSSLRETGEGGLADTPTGRWLKDKLLGLTS PGPT0001975_3856 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752 NA NA AK015_00657 624 sdhB_1 L-serine dehydratase, beta chain ATGATTGGTCCGTCAAGTTCACATACAGCTGGTGCAGCTAGAATTGGTAAAGCTGCACATAGTTTATTTGGTAGAGTCCCAACATGGGTTAAGATTCATCTTTATGAATCATTTGCAAAAACATATAAAGGTCATGGAACAGATTTTGCACTAGTGGGTGGTTTGCTCGGTTTTGATACAGATGATACACGTATGAAGGATGCATTAAAAATAGCTAAAGAACGTAACATGCAAATAGAATTTATTGAAGATAGCGCTGCCGTCAATCATCCAAATACGGTACGATTAAAAATAGGCGATGTGGGAGATTCCTTGGAATTGGTAGGTGTATCGATTGGTGGTGGAAAGGTAGAAATTACGGAACTAAATGGTTTTGAATTACGTTTATCCGGAAACCATCCAGCGATTTTAATTATGCATAATGATCGTTTTGGAGCTATCGCTTCTGTAACGTCTGTTCTAGCTAAGCATGAAGTCAATATTGGTCACATGGAAGTAAACCGAAAAGATGTCGGGAAGGAAGCGTTGATGGTTATAGAAGTTGACCAAAACGTCGATGATGATATATTGCGTGAACTAGAAAAAGCAGAGCACATTATCCGAATTGCTAAGATTAATAGTTAA MIGPSSSHTAGAARIGKAAHSLFGRVPTWVKIHLYESFAKTYKGHGTDFALVGGLLGFDTDDTRMKDALKIAKERNMQIEFIEDSAAVNHPNTVRLKIGDVGDSLELVGVSIGGGKVEITELNGFELRLSGNHPAILIMHNDRFGAIASVTSVLAKHEVNIGHMEVNRKDVGKEALMVIEVDQNVDDDILRELEKAEHIIRIAKINS PGPT0001975_5052 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752 NA NA AK015_00658 1284 Nucleobase transporter PlAzg2 ATGCCTGATAAGAAAAGCAACTTGAAACTAGCCAATAATTCTACCCTACGTAACGAATGGGTCGCAGGCTTAATTGGTTACCTTACAACAATGTACATTGTTGTCGTCAATGGTTCCATTCTTAGCGAAGCTGGAATTTCGTTAGAAAGCGGCATGATCGCCACTATTCTTGCTAGCTTCATTGGAACATTATTGATGGGGATATTCGGAAAACTTCCGCTAATAGTTATCCCTGGTATGGGTATAAACGCATTATTTGCATACTCCATTATCGGTGGAACTAGTCTAACTTTTCATGAAGGTTTGGCTGTTGTCTTTATTGCAGCGATTGTTTTTTTAATTACCGCTTTTACAAAGTTAGGTGTATTATTTAAAAAAGCAATTCCTGATTCATTAAAACACGCTATCACCGTCGGGTTAGGTCTATTTTTAATTTTAATTGGACTCGAGAAAAGCGGACTTGTTAGTAAAGGAAGTAATACCATTATTGCTATGGGTGATTTCACATCCTCTACAGTTATTGTTAGTTTAATCACACTATTTCTAGCAATATTTTTATTTGTTAAAAATATCCCAGCTAACTTTTTAATTACGATGGTATTAGGGACCATTATTGCTGCTATCGGCGGAATTATCCAACCGGGTAATCAATCATTGCAAGTAGAGTGGAGTGACGTACTCTTTATTCCTTCTTTTAACGCAGTTGGTGAACTTTCATTCTGGTTATCCGTTTTTCCTTTATCGATGATTTTAATATTCGAAAATATGGGGCTTTTACACGGACAACTCTCTATGCTAAAACGTGAAGATCAGTACCAAAGAGCTTATCAAGTCACTGCATTTTCAACTTTAACTTGCGCGTTCCTAGGTACTTCACCTACTGTTTCTGCTGCTGAAAACGCAGCTGTGATAGCTTCTAAAGGAAGAACAAGAATAACAGCAATTATTGCCAGCTTTCTTTTCTTAGCAACCATTGTATTGATCCCTTGGATTACAATGATACCTAATACGGCAATAAGCCCCATTTTAATCATTGTTGGCTTTTTAATGGTGCAAAATATAAAGCAACTGCCACTTGATAACTTATCAGAATCATTGCCAGCTTTTTTAATTGTTGTCATGATCCCATTTACGTACAGCATTGCAGATGGAATGGCTTTTGGCTTTATCGCTTACCCAATTGTTAAATTGGCAATTGGTGAAAAAAACGAGCTTTCAGCACCGCTCTTAGTTATTTCTAGTTTATTCTTGCTTGATTTTGTTATAAAAATGATAGGGATTTAA MPDKKSNLKLANNSTLRNEWVAGLIGYLTTMYIVVVNGSILSEAGISLESGMIATILASFIGTLLMGIFGKLPLIVIPGMGINALFAYSIIGGTSLTFHEGLAVVFIAAIVFLITAFTKLGVLFKKAIPDSLKHAITVGLGLFLILIGLEKSGLVSKGSNTIIAMGDFTSSTVIVSLITLFLAIFLFVKNIPANFLITMVLGTIIAAIGGIIQPGNQSLQVEWSDVLFIPSFNAVGELSFWLSVFPLSMILIFENMGLLHGQLSMLKREDQYQRAYQVTAFSTLTCAFLGTSPTVSAAENAAVIASKGRTRITAIIASFLFLATIVLIPWITMIPNTAISPILIIVGFLMVQNIKQLPLDNLSESLPAFLIVVMIPFTYSIADGMAFGFIAYPIVKLAIGEKNELSAPLLVISSLFLLDFVIKMIGI PGPT0007325_5634 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 AK015_00659 1656 putative protein GTGAGTTTACAACAAATCGATGGCAAGAGACTGGCACAAATGATTTTGTCTGGTGCTCATCATTTGTCCAATAATGCCAAGAGAATTGATGCATTAAATGTTTTCCCTGTACCAGATGGGGATACAGGAACGAATATGAACCTAACGATTACTTCTGGGGCAAATGAAGTGAAAAATATCCAAAGTACCCAAGTATACGAAGTTGCGCAGGCATTTTCCAAAGGGCTCTTAATGGGTGCAAGAGGGAATTCAGGTGTTATATTATCGCAAATATTTCGTGGTTTTGCAAAAGGGTTGGGAAAAGAAGAAGTTGTTACAACAAAAGGGCTTGCAAAAGCATTTGAAAGTGCTGTATCCACAGCATATAATGCTGTAATGAAGCCAGTTGAAGGAACTATTTTAACTGTGGCAAAAGATTCTGGAAATAAGGCGGTTGCGATCGCCGAAGATGAAACAGATATTATTACCTTAATGGAGGAAGTTGTAGCTGAAGCAAAAGCTTCTTTAAAGCGCACACCTGACCTACTCCCTGTTTTAAAAGAAGTTGGAGTGGTGGATTCAGGTGGACAAGGATTAGTAACGATTTATGAAGGCTTTTTAGCTTCCTTAAAAGGGGAAGAGCTACCTGAAGGCACTTCAAATATTAATATGGACGAAATGGTTAATGCAGAGCACCATAAAATAACACAAGATTTTATGAATACCGAGGATATCAAGTTTGGTTATTGTACGGAATTCATGGTGAAATTTGAAGAAGAAAAGGTAAGCAAGCACCCTTTTGATGAAGAAGCATTCCGTCAAGAATTAAGCAACCATGGTGATTCTTTATTAGTTGTAAGTGATGAAGAACTAATAAAAGTGCACATTCACTCAGAATATCCTGGAGAGTGTCTCACGCTAGGGCAACGCTATGGAAGTCTAATTAATATGAAAATAGAAAACATGCGCGAGCAGCATACAGCGTTAGTTGGGAAGAAAGAAAATAAATCTAAAGAACCAGTAGAATATGCCATTGTTACAGTAGCTATGGGTGAAGGGTTAAAAGAATTGTTAGAAAGTTTAGGTGCCTCTGTCGTTATTCAAGGTGGTCAAACGATGAACCCAAGCACTCAGGATATTACGAACGCTATTAAACAAGCAAATGCTAAAAAAGTGCTGCTGTTACCTAATAACAAAAATATTTTTATGGCAGCTGACCAAGCGGCAGAATTAGCAACGGAAGATGTTCGAGTTGTACCAACCAAGACAATACCTCAAGGTATTAGCGCTATGTTGGCGTTCCATCCAGATCACGATCTAGATACGAACCAAAAGGCAATGGATGAGGCTAGAAAAAATGTAAAAACTGGTCAAATTACATATGCCGTTCGAGATACACAAATGGATGGTATTACTATCAAAAAGGATCATTTCATGGGAATTGCAGACGGGAAAATCGTCACTACCAATGCAGATAAAATGGCAACTGTTAAATTATTATTAGAAAAAATAATTACAGAAGACGATGAAATTTTAACTGTATTACAAGGTGAAGATGGTACGGATGAAGAAACCCAAGCGCTTATGGCATATATTGAAGAAAAATATGAAGATATTGAAGTAGAAGTTCATAATGGGAAACAACCAATCTATGCCTTTATTTTTTCTGTAGAGTAA MSLQQIDGKRLAQMILSGAHHLSNNAKRIDALNVFPVPDGDTGTNMNLTITSGANEVKNIQSTQVYEVAQAFSKGLLMGARGNSGVILSQIFRGFAKGLGKEEVVTTKGLAKAFESAVSTAYNAVMKPVEGTILTVAKDSGNKAVAIAEDETDIITLMEEVVAEAKASLKRTPDLLPVLKEVGVVDSGGQGLVTIYEGFLASLKGEELPEGTSNINMDEMVNAEHHKITQDFMNTEDIKFGYCTEFMVKFEEEKVSKHPFDEEAFRQELSNHGDSLLVVSDEELIKVHIHSEYPGECLTLGQRYGSLINMKIENMREQHTALVGKKENKSKEPVEYAIVTVAMGEGLKELLESLGASVVIQGGQTMNPSTQDITNAIKQANAKKVLLLPNNKNIFMAADQAAELATEDVRVVPTKTIPQGISAMLAFHPDHDLDTNQKAMDEARKNVKTGQITYAVRDTQMDGITIKKDHFMGIADGKIVTTNADKMATVKLLLEKIITEDDEILTVLQGEDGTDEETQALMAYIEEKYEDIEVEVHNGKQPIYAFIFSVE NA NA NA NA NA AK015_00660 363 putative protein ATGTCCATTGAACTGCATACAAATGATGGTCAAGTAACAATAACAAACGAAGTAATTGCAACGATTGCCGGAGGGGCTGCGGTAGAGTGTTACGGTATTGTTGGGATGGCTTCAAAAAGTCAAATACGGGACGGTATTGCGGAAATTTTACGTAAAGAAAATTTCTCTAAAGGTGTTATTGTTCGTCAAGAGCAACATCATCTGCATATCGACATGTATATTATTGTAAGTTATGGTACAAAAATATCTGAGATTGCTCATAATGTTCAATCAAAAGTTAAATACACGCTAAATCAATCTCTCGGTTTGGAGATTGATTCTGTCAATATTTATATTCAAGGAGTTCGTGTTACTCAAGAATAA MSIELHTNDGQVTITNEVIATIAGGAAVECYGIVGMASKSQIRDGIAEILRKENFSKGVIVRQEQHHLHIDMYIIVSYGTKISEIAHNVQSKVKYTLNQSLGLEIDSVNIYIQGVRVTQE NA NA NA NA NA AK015_00661 189 rpmB COG0227 50S ribosomal protein L28 ATGGCCAGAAAATGTGTTGTTACTGGACGCCAGACTCGCACTGGAAACCACCGCTCTCACGCAATGAATTCAAACAAGCGAAAATGGAAAGCTAATGTACAAAAAGTACGCATCATGGTAGATGGTAAACCGAAAAAAGTTTATGTTTCTGCACGCGCCCTAAAATCAGGGAAAGTGGAACGCGTATAA MARKCVVTGRQTRTGNHRSHAMNSNKRKWKANVQKVRIMVDGKPKKVYVSARALKSGKVERV NA NA NA NA NA AK015_00662 642 thiN COG1564 Thiamine pyrophosphokinase GTGACTGTAGTAGGCATTGTAGGTAATGCACCTGGAAACCATCCTGATTTAAAAACATACAAGGAAGAGGTGGATTTTTGGATAGGTGCTGATCGAGGTGCATGGGTTTTAGCTACTTACGATTTGCCAATTACCTATGCTATTGGGGATTTTGATTCTACAACGAAAGAGGAAAAATCGCTAATTGATAAACATGCACACTACGTTCATGTTTATCCTTCTGAAAAGGACGAAACAGACTTAGAATTAGCTTTAAACAAAGCTTATGAACTGGATCCGGACACAATCTATTTATTTGGTGTATCAGGAGGGCGTAAAGATCACGAGTTCATCAATGTACAATTGCTTTATGTTATTTTATCGAAAGGGATTCGTGGAATTATAATTGACATAGCGAATTATTTAGAATTAACGTTTCCAGGTAAGTACACAGTTCTACATGATATCAATTATCCGATCATTTCTTTCGTGCCTTTTTCGAAAGAAGTGAAAGGTATTACGCTAACACATTTTTACTACCCTTTAACGAATGCGAATATTTCATGGGGGTCCACGTTATGTATTTCAAACAAGCTAATTAGAAATAGTGGTACTTTTTCTTACAAAGAAGGCATATTATTATTAGTAAAGAGCCGTGATTAG MTVVGIVGNAPGNHPDLKTYKEEVDFWIGADRGAWVLATYDLPITYAIGDFDSTTKEEKSLIDKHAHYVHVYPSEKDETDLELALNKAYELDPDTIYLFGVSGGRKDHEFINVQLLYVILSKGIRGIIIDIANYLELTFPGKYTVLHDINYPIISFVPFSKEVKGITLTHFYYPLTNANISWGSTLCISNKLIRNSGTFSYKEGILLLVKSRD PGPT0009035_1515 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 AK015_00663 663 rpe Ribulose-phosphate 3-epimerase ATGATAAAATTAGCACCATCCATTTTAGCTGCAGATTTTGCTCGTTTAGGGGAAGAAGTGAAGGAAGTAGACCAATTTGGAGCTGACTATATCCATGTCGACGTGATGGACGGTCATTTTGTACCAAATATTACTTTAGGACCGCCAATCGTTGAAGCAATTCGTCCTGTAACAAATCTTCCGTTGGATGTTCATCTTATGATTGAAAATCCAGATCAATTTATACCTTCATTTGCTAAGGCAGGAGCGGATATCATTACAGTGCACCAAGAAGTTTGCCAACATTTACACAGAACCATTCAGCTTATCAAAGAACATGGAATAAAAACAGGCGTAGTCATTAATCCTGCTACTCCTGCTGAAACGTTACTGCCTATTTTACCTGACATCGATATAATTTTAATTATGACAGTTAATCCTGGATTTGGTGGACAATCGTTTATTGATGGTACGTTAGGAAAAATAAAGTTAGTAAATAAGTGGCGTGAAGATTTTGGTTTTTCTTTTGAGATTGAGGTTGATGGAGGGGTTAACTCCAAAACTGCCAAACGATGTGTAGATGCTGGTGCCGATGTACTCGTAGCGGGAAGTGCTATTTTTTCCCAAGAAGATCGTAACAAGGCGATGCAGGAAATTTTGCAGGCAGTAAAGGGGTCTAATTAA MIKLAPSILAADFARLGEEVKEVDQFGADYIHVDVMDGHFVPNITLGPPIVEAIRPVTNLPLDVHLMIENPDQFIPSFAKAGADIITVHQEVCQHLHRTIQLIKEHGIKTGVVINPATPAETLLPILPDIDIILIMTVNPGFGGQSFIDGTLGKIKLVNKWREDFGFSFEIEVDGGVNSKTAKRCVDAGADVLVAGSAIFSQEDRNKAMQEILQAVKGSN PGPT0017425_4169 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 AK015_00664 879 rsgA_2 COG1162 Small ribosomal subunit biogenesis GTPase RsgA ATGGCAAAAGGGAGAATAATTAAAGCTATAAGCGGTTTTTACTATGTACAAGCTGACGGAGATCTGTACCAATGTAAAGGCAGGGGAGTTTTTCGTAAAAAAAAAATAACGCCTTTAGTTGGTGATGTAGTAACCTTTGACTTTAGTGGTGACAATGAAGGATATATTTTAGAAATACATGAAAGAGATAACGAATTACTTCGCCCGCCGATTGCAAATATTGATCAAGCAATCATAGTTACTTCTGCAATGAAGCCTGCTTTTAATGCAACATTGCTTGATCGTTTCCTGGTTTTAGTAGAATCCAATTTGATTAAGCCAGTTATCTTCTTTACCAAATTGGATGTCGCGGAAAAGGAAAGAGATCGATTTGAAAAATATCAAAAAGATTATCAAAAAATCGGTTATGACGTGGAGTTACTATCCGTTAAGCATTCCGATCATACATCCATTTTGAAACGGTATTTAAAAGATAAAATTACAGTCATTGCTGGGCAATCGGGTGTAGGAAAAACAACATTACTCAATGCGATAGATCCTTCTCTTGCATTAAAAACAGGAGAAATTTCCGATAGTCTTGGTCGAGGAAGACATACAACAAGACATGTGGAATTACTTCCTATGTTTGGCGGACTTGTTGCAGATACACCCGGTTTTAGTTCTTTGGAATTTCAAGATTTAAGCGCATCTGAACTAGCTGATTGTTTTCCAGAGATAAGAGAAAGAAAAGCAAATTGTAAATTCCGTGGCTGCATGCATATAAAAGAGCCTAAATGTGCCGTTAAGCAAGCGGTTGAAGACGGTGAAATAACGGGTTATCGCTATGACCATTATGTACGTTTTTACGAAGAAATCAAATTAAGAAAGCCGAGGTATTAA MAKGRIIKAISGFYYVQADGDLYQCKGRGVFRKKKITPLVGDVVTFDFSGDNEGYILEIHERDNELLRPPIANIDQAIIVTSAMKPAFNATLLDRFLVLVESNLIKPVIFFTKLDVAEKERDRFEKYQKDYQKIGYDVELLSVKHSDHTSILKRYLKDKITVIAGQSGVGKTTLLNAIDPSLALKTGEISDSLGRGRHTTRHVELLPMFGGLVADTPGFSSLEFQDLSASELADCFPEIRERKANCKFRGCMHIKEPKCAVKQAVEDGEITGYRYDHYVRFYEEIKLRKPRY PGPT0009020_4385 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 AK015_00665 2016 prkC COG0515 Serine/threonine-protein kinase PrkC ATGAAAGGGCACTTAATTAATGATCGCTACCTGATTAAGGAAACAATTGGCGGTGGTGGTATGGCAAATGTTTATTTAGTCAGAGATACCATTTTAGAAAGAGATGTAGCGCTTAAAAGTTTGCGTTTGGAGTATGCAAACGACCAAGAATTTATCGCTCGTTTTGATCGCGAAGCACATGCTGCTACAAGTTTAAATCATCCAAATATCGTGAATATATATGATGTAGGCGAAGAAGATCATTTACTTTATATGGTCATGGAATATGTAAAAGGCATGACTTTAAAAGAATACATACAAAATAAAGGTCCCATAGAAGTTAAGGAAGCATTGGATATTATGGGACAAATTACCTCGGCTATTTCTCATGCGCATGAGAATGATATCGTGCATCGTGACATAAAGCCGCAAAATATTCTAGTTGATACAAATGGTCAAGTGAAAGTAACAGACTTTGGAATTGCTGTTGCTTTAAGTGCCACTTCGTTAACACAGACAAATTCGATTCTAGGATCTGTTCATTATTTATCACCAGAGCAAGCAAGAGGAGGAATGGCTACCAAAAAGTCCGATATTTATTCGCTTGGGATTGTTTTATACGAATTATTAACAGCAAAGTTACCTTTTTTGGGACAATCCGCTGTTTCTATTGCTTTAAAGCATTTGCAAAATAATACACCTTCTGTACGTGAGTTTAACGCAAGCATCCCGCAAAGTGTAGAAAATATCGTTTTAAAAGCAACAGCCAAAGACCCATTTCATCGTTATGAAACGGTGGATGATATGCAAGATGCACTAGAAACAGCACTTGATCCAAACAAACGAAATGAACCAATGTTTATTCCACCGATAGAAAAGGGGGAAGAAACGAAGGCAATTCCAATTATTACAGATCAGGTAGAAATGTCACCTAATGATGAAACCATCATTCACACCTCTAACACAACTAAATCTTATACAGAGTCCGAGAAGAAAGTAGATAAAAAGCAACCTGATAAAAAAACAAAGAAACAAAGACCGAAAAAGAAAAAAAACAAGAAGAAATGGATTATCTTAATAGGTAGTATACTTTTACTTGTCGCTGGATTATTAGCATTGTACTTTTTTACCGATTTATTCCAACCAAAAGATGTTACTGTACCTGATGTAACAGATATGACAGATAGAGAAGCAATGACCAAGCTGGAAGATTTAAACTTAATTGTAGATAAGGAAGAAGTTTTTTCCGATGAGGTTGAAGAAGGTAATGTTGTAGGTACCGATCCAAACGCTGGTGCCTCAATAAAGGAAGAGTCGACGATTAAGCTATTGATTAGTAAAGGTAAAGAAACAGCTTCTTTTGCTGATTATGTGGGAAAAGATTTTAAACAGGTAAAACGTTTGCTAGAAGAAGATGGCTATGAGGTGCTAGATCCGTACGAAGTGAATTCAGACAAACCAATTGGAGAAATTATTGAACAGATTCAACCTAGTCCAGACAGTGAAGTTGTACCGAGTGAGACAAAGGTAATCTTCCGCATTAGTAGCGGGCCTAAGACAGTTCGTTTAAATAATTTAAAAGGGATGACAGAAGCAGAGGCTGAAGATTATTTAAAAAACTATGGACTAAAGATGAATAAAGAAACAGACCATTCTGATACAACGCCAGAAGGAGAAGTTATTCGCCAAGATCCAGAAACAGATACTGAATTGGAAGAAGGTGCGACAGTAACCGTAGTCATTTCTTCCGGGCCTGAAGAAATGCCTCCTAAAACGCATGAAGTTGCTTATACAGTTCCTTATAAACCTAAGAAAGAGACAGAGGAACAAGAAGAACTTCCAGAGCAAACGGTGACTATATATATTGAAGATATGGAGAATGAATTATCTGAAGTTTATATGGAGGAAAAAATAACCGAAGATACAGAAGTAACTTTCTCACTTACAATTGCACCTGATAGCGAGGCCGAATACATTATAAAGCGAGATGGAGAAGTTATTTCGAATAAAGTAATTGCTTATAAAGAAGGTGAATAG MKGHLINDRYLIKETIGGGGMANVYLVRDTILERDVALKSLRLEYANDQEFIARFDREAHAATSLNHPNIVNIYDVGEEDHLLYMVMEYVKGMTLKEYIQNKGPIEVKEALDIMGQITSAISHAHENDIVHRDIKPQNILVDTNGQVKVTDFGIAVALSATSLTQTNSILGSVHYLSPEQARGGMATKKSDIYSLGIVLYELLTAKLPFLGQSAVSIALKHLQNNTPSVREFNASIPQSVENIVLKATAKDPFHRYETVDDMQDALETALDPNKRNEPMFIPPIEKGEETKAIPIITDQVEMSPNDETIIHTSNTTKSYTESEKKVDKKQPDKKTKKQRPKKKKNKKKWIILIGSILLLVAGLLALYFFTDLFQPKDVTVPDVTDMTDREAMTKLEDLNLIVDKEEVFSDEVEEGNVVGTDPNAGASIKEESTIKLLISKGKETASFADYVGKDFKQVKRLLEEDGYEVLDPYEVNSDKPIGEIIEQIQPSPDSEVVPSETKVIFRISSGPKTVRLNNLKGMTEAEAEDYLKNYGLKMNKETDHSDTTPEGEVIRQDPETDTELEEGATVTVVISSGPEEMPPKTHEVAYTVPYKPKKETEEQEELPEQTVTIYIEDMENELSEVYMEEKITEDTEVTFSLTIAPDSEAEYIIKRDGEVISNKVIAYKEGE NA NA NA NA NA AK015_00666 762 stp_2 COG0631 Serine/threonine phosphatase stp ATGAAAGCTCATTTTTTAACAGATCGCGGGCAAGTTCGAAGTCATAATGAAGACTCTGGAGGCGTGTTTTATAATGTTGCAGGCCAGGCTCAAGCAATTATAGCTGATGGCATGGGCGGGCACCAAGCTGGTGATGTTGCTAGTCAAATGGCTACCAGATTGCTACAAGATAAATGGGAAAAAACACAACAAGTAGATACCCCGGAGATGGCTGAAGCATGGGTGAAAGATGCTGTTCAAGAAGCGAATACAGCTATTTTTCAGCATGCTCAAGAACATGAAGCTTGTCATGGAATGGGAACGACCATTGTTATCGCGATTATTCTTGATGACGCTTTAACGATTGCACATATTGGTGATAGTAGGGCTTATGTAATCAATAATGAGCAGATGAAACAGATTACAGAAGATCATTCCTTTGTAAATGCTCTTGTTCAATCAGGGCAAATTTCTAAAGAAGAGGCTGTTTACCATCCACGAAAAAATGTCGTTTTAAAGGCTCTAGGGACAGAAGAAACTGTTACATGTGATGTTCGCACATTGAGTCTAGAACAAAATGATTTACTGTTACTATGTACAGACGGATTAACTGATAAATTAACAGATGAAGAAATTTATTCCATGATATATTCTGATGAGGAACTTTGCCATATTGGGAAAAAGATGATTCAAGTAGCAAATGAACGTGGCGGTGAGGATAATATTTCTCTTGTTTTAATACAACACGATAAGCCTGAAGAGAGAGCAGGTGAATCATATTGA MKAHFLTDRGQVRSHNEDSGGVFYNVAGQAQAIIADGMGGHQAGDVASQMATRLLQDKWEKTQQVDTPEMAEAWVKDAVQEANTAIFQHAQEHEACHGMGTTIVIAIILDDALTIAHIGDSRAYVINNEQMKQITEDHSFVNALVQSGQISKEEAVYHPRKNVVLKALGTEETVTCDVRTLSLEQNDLLLLCTDGLTDKLTDEEIYSMIYSDEELCHIGKKMIQVANERGGEDNISLVLIQHDKPEERAGESY NA NA NA NA NA AK015_00667 1362 rsmB COG0144 Ribosomal RNA small subunit methyltransferase B ATGATAATGAAAACAGAATCGCTACGAAGCAAAGTGTTAGATACATTAATACGAATTGAAAAAGATCAAGGATACAGTCATTTACTTGTAAATCAAGAATTAAGAACAGGTGATATTTCTCCAAAAGACGAAGCATTATTTACGGAGATAGTTTACGGTACAGTGCAGCAACAAATTACATTAGATTATTATTTGGCGTCTTTTTTAAATCGAAAGAAAACTCCTGATTTATGGGTAAAGGTCTTATTAAGAATGTCTATGTATCAAATGGTATATTTAGATCGTATACCAGACCATGCGATTATTCATGAAGCTGTTGAGATAGCGAAAGCAAGAGGACACAAAGGTATCGCATCCTATGTAAATGGAATTCTACGTACCGTGCAAAGACGAGGTGTCCCTTCTACAGCATCTATCAAGGACGATGCAACCAGAATTTCAATTACAACAAGCCATCCCAAATGGTTAGTAGAACGATGGATCCAACAGTATGGAAAAGAGACGACAGAAGCAATGTGTATAGCCAATACCAATCACAAGCCATTGTCTGTTCGTATTCAACCTTTGAAAACAAATAGGGAAGAAATAATGCAAGAAATGGCGGAAAGTGGTTTTAAAGTGCGTCCTTCCTTTTTTTCTCAACAAGGAATCATTGTTGAAGAAGGGAAAGTGTTAAAGAGCAAGTGGTTTAAAGAGGGAAGGCTCACAATCCAGGATCAATCCTCGATGCTTGTAGCAGAAATCTTACGTTTACAACCTGGTATGCATGTACTTGATACGTGTAGCGCTCCTGGTGGAAAGGCCACCCATATAGCTGAGAAAATGGAGAATAGAGGAAGAATCGATGCTTACGACCTTCATACTAAAAAGGTGAAGCTTATTCAAGCAAAGGCAAATGAACTTGAATTGTCCATTATACATCCGTCTAAAGAGGATGCGCGTAATTTACAAAGTATGTATCAAAAAGGAAGCTTTGATCGGATTTTAGTTGATGCACCTTGCTCAGGATTGGGTGTTATTAGAGGGAAACCAGAAATAAAATATCATAAACACGAACAAGATATAGAACGGTTATCTCTTATTCAACAGGAAATACTGGAAACAGTTGCTCCTTTAATAAAGCAAGAAGGTCTACTTGTATACAGCACATGTACGGTCGACCAGCAAGAAAATGAACACGTTGTTCGTGCTTTTTGTGACAAACATCCTTCTTTTGAAGTGGACCAGACATTTTTTACTGATTTGCCAGGACCCTTACGTGATTCAACGGGTGTAAGTGAAATGGGTTTACAAATCTTCCCTCACTCATTTGAGACGGATGGCTTCTTTATGACACGATTAAAGAAAAAATGGATGAAATAG MIMKTESLRSKVLDTLIRIEKDQGYSHLLVNQELRTGDISPKDEALFTEIVYGTVQQQITLDYYLASFLNRKKTPDLWVKVLLRMSMYQMVYLDRIPDHAIIHEAVEIAKARGHKGIASYVNGILRTVQRRGVPSTASIKDDATRISITTSHPKWLVERWIQQYGKETTEAMCIANTNHKPLSVRIQPLKTNREEIMQEMAESGFKVRPSFFSQQGIIVEEGKVLKSKWFKEGRLTIQDQSSMLVAEILRLQPGMHVLDTCSAPGGKATHIAEKMENRGRIDAYDLHTKKVKLIQAKANELELSIIHPSKEDARNLQSMYQKGSFDRILVDAPCSGLGVIRGKPEIKYHKHEQDIERLSLIQQEILETVAPLIKQEGLLVYSTCTVDQQENEHVVRAFCDKHPSFEVDQTFFTDLPGPLRDSTGVSEMGLQIFPHSFETDGFFMTRLKKKWMK NA NA NA NA NA AK015_00668 942 fmt COG0223 Methionyl-tRNA formyltransferase ATGAAGCGAATTGTATTTATGGGAACTCCCGATTTTGCAGTACCAATTTTACGGACATTAATAGACTCGCCTTATGAAATTGTTCTTGCTGTTACCCAGCCTGATCGACCTAAAGGAAGAAAACGGGTGCTTGCCCCCCCACCAGTAAAATTGGAAGCAGAGAAACATCATATTCCTGTCTTTCAACCAGAAAAGTTAAAGGATAATTACGAAGAGATATTGACATATAGCCCTGATTTAATCGTAACTGCAGCTTATGGTCAACTATTGCCTAATGCGTTATTAACTGCACCTCCATATGGTTGCATCAATGTACATGCTTCCTTATTGCCAGAATTACGAGGCGGAGCACCCATTCACTATGCCATTATGGAAGGTAAAAAAGAGACAGGAATTACGATTATGTATATGGTAGAAAAATTAGATGCAGGTGATATGCTGACACAACAAAAGGTATCGATTGATGCAGATGATCATGTGGGTAGTTTACACGATAAATTGGCCAAAGCAGGTTCGGAATTATTAACACAAACGCTCCCTCAATTATTTGCAGGCGACATAAAAGCAATGAAACAAAACCACGATCAAGCAACCTTTGCTGCTAATATTAAACGGGAGCAGGAGGAAATTGATTGGAATAAACCTAGTCACGTGATATACAATCATGTTCGTGGCTTACATCCATGGCCAGTGGCCTATACGACTTTGCAAGACAAACCAATGAAAATTTGGTGGGGAGAACCAATTGATAAGGTGTATGACGGACAACCTGGAGAAGTTGTCGATAAACCAGATAACTGTGCTTTCATCGTTGTTTGTGGGGACAAGAAAGGTTTCCGTATCACAGAAATACAACCAGCTGGTAAAAAAAGAATGAAAGTTAAGGATTATTTACAAGGTAATCCGAATCGAATTCAAATTGGTCAAGTAATGGGTGAATAA MKRIVFMGTPDFAVPILRTLIDSPYEIVLAVTQPDRPKGRKRVLAPPPVKLEAEKHHIPVFQPEKLKDNYEEILTYSPDLIVTAAYGQLLPNALLTAPPYGCINVHASLLPELRGGAPIHYAIMEGKKETGITIMYMVEKLDAGDMLTQQKVSIDADDHVGSLHDKLAKAGSELLTQTLPQLFAGDIKAMKQNHDQATFAANIKREQEEIDWNKPSHVIYNHVRGLHPWPVAYTTLQDKPMKIWWGEPIDKVYDGQPGEVVDKPDNCAFIVVCGDKKGFRITEIQPAGKKRMKVKDYLQGNPNRIQIGQVMGE PGPT0008125_3541 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604 NA NA AK015_00669 2415 priA_2 primosomal protein N' ATGATCGTGAATATAGCAAAAGTAATTGTCGATGTCCCTGCTAGTTCCATCGACCAGACGTTTGACTATCTCATTCCAGAAAAATTTCTTGATATTGTCGCTCCCGGGGTTCGGGTTATTGTGCCATTTGGTTCGAGAAAAGTGATGGGATTTGTAGTAGAAAAGGCAAGTAGCTCCGAATTCTCTAATCTAAAGTCTCTTAATGATGTTCTTGATCTTGAGCCTGTATTGACAAAAGAATTATTACGTGTTGGAAAATGGTTAGCTTATGAAACGATAAGTTTGCAAATAACGACCTTTCAGGCGATGTTACCACAAGTATTGAAGGCCACTTATAAAAAGGAAATCGTACGTCTTTCAGAAGCTCGTTTGTCTGAGGAGCTGGAGTTTTTGTTTGCAGGTAGGAATGTTGTTCCATATGAAGAGTTTATTGCTTCCGATATACGATATATTCGTTTGTCAGAAGCGGTAAAAGCTGGCGATATAGCAATTGAGTATTTAGTAAAGTCTCGAATTACAAAAAAATTTCTAACGATGGTCCGTCCTGCCAAGCCTTTGCATGAGTTGGAGGAAGCGGCTTTAGACTTATCTAAACTAGCCAAAAAACAGAAGCAAATTCTTCACTTTTTTTTGCAAAACCGAAAACCAGTTGAGAAACGCTATTTGCTTAAGCAGCTACGTACAACGGATAGCACAGTGAATGCATTACGTAAGAAAGGATTGTTAGAAACTTTTCAACAAGAGATTTATCGCGATCCTTACGCAGCCGGAGATTTTACTAGAACAGAACCGTTATTATTGACAGAGCAACAAGCAGAAGCGATTAATCCTATAAAAGAAACAGTAACAAACAAACAGCATAATGTCTTTTTATTACATGGTATAACGGGAAGTGGAAAGACAGAAATATATTTACAAGTTATTCAGGAAGTCATTGAAAGAGGAGAGGAAGCCATTGTCCTTGTTCCAGAAATATCGTTAACGCCACAAATGGTTAGACGATTTAAAGGAAGGTTTGGCTCGAATGTAGCAGTCATGCACAGCGCTTTATCTGCAGGTGAAAAATACGATGAATGGCGTCGCATACAACGTAAAGAAGTACAAGTCGTTGTCGGTGCAAGGTCAGCTGTTTTTGCCCCATTTGAAAACTTAGGTGTCATTATAATCGATGAGGAACATGAATTAACCTATAAGCAGGAAGATCAGCCGCGTTATCATGCAAGAGATGTTGCCATTCAACGGGGAATGAATCATCAATGCCCTGTCGTTTTGGGAAGTGCAACGCCAATGTTAGAATCCTATGCTAGAGCAAGTAAAGGTGTTTATCAACTAGAAACGCTCAACAAACGAACAAATGACAAGCCGTTGCCCCCAGTAGAAATTGTAGATATGCGTAAAGAATTACATGCAGGTAACCGAACGATGTTTTCCAGATCCTTAAAAAAGGAAATAGAGGCCTGTTTGCAAAAAGGGGAACAAATCGTACTATTATTAAACCGGAGAGGCTACTCTACATTCGTTATGTGCCGAGATTGCGGTCATGTTAAAGAGTGCCCTTATTGTGATATTGCTTTAACTTATCATAAGCATAGTCATCGGTTAAAATGTCATTACTGTGCATATGAGGAACAAATGCCGACGCAATGTCCAGAATGCGGAAGTGAAACCATTCGCTATTTTGGAACTGGCACACAAAGGGTTGAGGAAGCTTTATTAAAACTAATACCAGAAGCGCGTGTTATTCGAATGGACGTTGATACGACAAGGAGAAAAGGGTCGCATGAAAAGCTATTGCACCAATTTGCAACGAAACAGGCTGATATTTTATTGGGTACACAAATGATTGCTAAAGGGCTTGATTTTGAAAATGTCACATTGGTTGGCGTATTAACTGCAGATTCTATGCTGCATTTGCCAGACTTTCGTTCATCTGAAAAAACATTTCAAATTTTGACGCAGGTAAGCGGTCGCGCAGGTAGACATGAATTGAATGGTAAAGTTATTGTGCAAACATATACTCCTGATCATTATAGCATTCAACTAGCAAGTCAGTACGATTATCAAAGCTTTTATAAAAAGGAAATGGTCATGCGAAAAACATTTCATTATCCACCTTATTTCTTTTTAGCACTTATTACTGTTACACATACAAACCAAGTGAAAGCCGTTCACACAACACAACAATTTGTACAAAAATTATCCAGTGTTGTTCATAATCAAACGATAATATTAGGCCCAACTCCATCTCCTATACCGCGAATAAAGAATAGATATCGATATCAATGCATGATAAAATACAGAAATGAACCTCATTTACAAACAAAACTTCGGAAGATTGCTGCGCTTTTTTCGGAGCAAATAAAAAAAGAAGATTTGTTGATTTCAATTGATATGCAACCGTATCATTTAATGTAA MIVNIAKVIVDVPASSIDQTFDYLIPEKFLDIVAPGVRVIVPFGSRKVMGFVVEKASSSEFSNLKSLNDVLDLEPVLTKELLRVGKWLAYETISLQITTFQAMLPQVLKATYKKEIVRLSEARLSEELEFLFAGRNVVPYEEFIASDIRYIRLSEAVKAGDIAIEYLVKSRITKKFLTMVRPAKPLHELEEAALDLSKLAKKQKQILHFFLQNRKPVEKRYLLKQLRTTDSTVNALRKKGLLETFQQEIYRDPYAAGDFTRTEPLLLTEQQAEAINPIKETVTNKQHNVFLLHGITGSGKTEIYLQVIQEVIERGEEAIVLVPEISLTPQMVRRFKGRFGSNVAVMHSALSAGEKYDEWRRIQRKEVQVVVGARSAVFAPFENLGVIIIDEEHELTYKQEDQPRYHARDVAIQRGMNHQCPVVLGSATPMLESYARASKGVYQLETLNKRTNDKPLPPVEIVDMRKELHAGNRTMFSRSLKKEIEACLQKGEQIVLLLNRRGYSTFVMCRDCGHVKECPYCDIALTYHKHSHRLKCHYCAYEEQMPTQCPECGSETIRYFGTGTQRVEEALLKLIPEARVIRMDVDTTRRKGSHEKLLHQFATKQADILLGTQMIAKGLDFENVTLVGVLTADSMLHLPDFRSSEKTFQILTQVSGRAGRHELNGKVIVQTYTPDHYSIQLASQYDYQSFYKKEMVMRKTFHYPPYFFLALITVTHTNQVKAVHTTQQFVQKLSSVVHNQTIILGPTPSPIPRIKNRYRYQCMIKYRNEPHLQTKLRKIAALFSEQIKKEDLLISIDMQPYHLM NA NA NA NA NA AK015_00670 1209 undec1A Cysteine/Cysteine sulfinic acid decarboxylase ATGGTTTATTCCAAAAATATTGTGTTGGGTGTATCAGGAGGGATAGCAGCTTATAAGGCTTGTAGTCTCGCTAGTAAGTTGACGCAACAAGGAGCAAATGTAAAGGTGATCATGACTGATAATGCAATGAAATTCGTTACACCTTTAACATTTCAAGCGCTTACCCGTAACCCTGTATATACGGACACATTTGATGAAAAAGATCCAGAAAGAATTGCTCATATCGATGTGGCTGATTGGGCTGATATTATAATTATTGCCCCAGCAACTGCAAATATAATCGGAAAGCTTGCCAACGGAATTGCTGATGACATGTTATCGACGGTATTACTTGCTACCCAAGCAGATGTATATATTGCTCCTGCAATGAATGTGCACATGTATGCACATCCAGCAGTTATAAAAAACATGCAAACTTTAGTAGACTGGGGGTATCGTTTTATCGAACCTGGATCTGGTTATTTAGCTTGTGGTTATGTAGGAAAAGGCAGATTAGAAGAGCCGGTGCAGATTATAAAAACGATAGAAGTACATCAACAGAAAAAGGCACAATTATTTTTAAAAGGAAAGAAAATGTTGATTTCTGCTGGACCAACACAAGAAAAAATAGATCCAGTTCGTTATTTTACGAATCGTTCTTCCGGAAAAATGGGCTTTGCAATAGCAGAAGCAGCGGCTAATGCAGGTGCTTCCGTTACGTTGGTAGCCGGACCAAGTCAAGTGCAAGTACAACACCATCAAATTGAAAGAGTGGATGTTACAACTGCTGAGGAAATGTATGAAGCTATGCTGGAGCACGCTACTAAAAGTGATATTATCATTAAAGCTGCAGCTGTTGCTGATTATCGTCCGAGCATCACGTATGATCAAAAAATGAAAAAGCAACCTGGTCCGTTATACCTCGAGATGGAACGTACAAGAGATATATTACAGACGTTGGGTAACCAAAAAGAGGATCAGTTTCTTGTAGGATTTGCTGCTGAAACAGAAACACCGATCGAAAATGGTTATAAAAAGTTGCAGAAAAAGAACCTGGATGCAATTATTGTTAACGATATTTCTCTTGAAGGTTCCGGATTTGCTGGAGACACGAATGCCGTTACGTATTTGAATAAACAAGGGAGAAAGGAAAACCTCACTTTGAATACAAAGCAGGTGATAGCTGAACAAATTGTTAAACTGATTCATGAAGATTTGGAGGATCAATGA MVYSKNIVLGVSGGIAAYKACSLASKLTQQGANVKVIMTDNAMKFVTPLTFQALTRNPVYTDTFDEKDPERIAHIDVADWADIIIIAPATANIIGKLANGIADDMLSTVLLATQADVYIAPAMNVHMYAHPAVIKNMQTLVDWGYRFIEPGSGYLACGYVGKGRLEEPVQIIKTIEVHQQKKAQLFLKGKKMLISAGPTQEKIDPVRYFTNRSSGKMGFAIAEAAANAGASVTLVAGPSQVQVQHHQIERVDVTTAEEMYEAMLEHATKSDIIIKAAAVADYRPSITYDQKMKKQPGPLYLEMERTRDILQTLGNQKEDQFLVGFAAETETPIENGYKKLQKKNLDAIIVNDISLEGSGFAGDTNAVTYLNKQGRKENLTLNTKQVIAEQIVKLIHEDLEDQ PGPT0008815_2718 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 AK015_00671 213 rpoZ DNA-directed RNA polymerase subunit omega ATGCTAGACCCATCGATAGACTCTTTACTAAAAAAAGTTAACTCAAAATATAGCCTTGTTACACTCGCTGCCAGAAGAGCTAGACAAATTAGCGAAACGAAGAAAGTGTTAATTGATAACCCAAAATCCTATCAATACGTTGGTATGGCACTGGAAGAAGTTCAGGCAGGAAAGTTATTTATTGACGAAGAGGCGGGAAAAAGTCAATCATAA MLDPSIDSLLKKVNSKYSLVTLAARRARQISETKKVLIDNPKSYQYVGMALEEVQAGKLFIDEEAGKSQS NA NA NA NA NA AK015_00672 618 gmk COG0194 Guanylate kinase TTGATTGAAGAAAAAGGGATTCTTTTTATTCTTTCAGGGCCTTCCGGAGTCGGGAAAGGAACAGTGCGTAAGGCGCTGTTTAATCAAGATACAGATTTAAAGTATTCCATTTCTATGACGACCCGTGAAAAACGTCCAGGAGAAAAAGAAGGCGTAGATTATTTTTATAAATCCAAGAAGGATTTTGAGCAACTAATTAAAGAAAAACAGCTGTTAGAATATGCGAAATATGTCAATAATTATTATGGTACACCCCGTGAGTATGTAGAAAAAACATTGGAATCAGGGCATGATGTATTTTTAGAAATAGAAGTACAGGGTGCTTTACAAGTTAGGGAGAACTTCCCCGAAGGTGTGTTTATCTTTTTATTTCCACCTAGCCTTGAGGAATTAAAAAATAGAATTGTTCATAGAGGAACAGAATCTCAAGACCTTGTCTTAAACAGACTAAAAGAGGCAAGAAAAGAAATTGAGATGATGGACAAATACGATTATGTAGTTGTAAATGATGATGTTGCTCTAGCTGTGAAAAAAATTCAAGCGATTATTCAAAGTGAACACTTAAAGCGGGAGCGCATTGCAAAACAATATAAACAATTATTGGAGGATGAATTATAA MIEEKGILFILSGPSGVGKGTVRKALFNQDTDLKYSISMTTREKRPGEKEGVDYFYKSKKDFEQLIKEKQLLEYAKYVNNYYGTPREYVEKTLESGHDVFLEIEVQGALQVRENFPEGVFIFLFPPSLEELKNRIVHRGTESQDLVLNRLKEARKEIEMMDKYDYVVVNDDVALAVKKIQAIIQSEHLKRERIAKQYKQLLEDEL PGPT0021475_3141 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942 NA NA AK015_00673 264 remA COG2052 Extracellular matrix regulatory protein A TTGAGTTTACGACTAATAAATATTGGTTTTGGTAATGTTGTTTCAGCGAATCGAGTGATTTCTATTGTCTCGCCTGAATCAGCTCCAATTAAACGAATTATTACAGTTGCCAGAGAAAATAATAAGTTAGTAGATGCAACTTACGGAAGACGAACAAGAGCAGTTATCATCACAGATAGTGATCATGTAGTACTGTCTGCAGTTCAACCTGAAACAGTGGGTCAACGTGTATTGAGTCATGAAGAAATTACAGACGATAATTAG MSLRLINIGFGNVVSANRVISIVSPESAPIKRIITVARENNKLVDATYGRRTRAVIITDSDHVVLSAVQPETVGQRVLSHEEITDDN NA NA NA NA NA AK015_00674 885 hypothetical protein ATGGCAAAAAGTATGACGAGCTACGGAAGAGCGAAGGTTGGTACGAATGAGCTAACGATAGCAGTTGAGGTTAAAACGGTGAATCATAGATATTTTGATGTAAGTATGAAAATTCCAAGTCAATGTATATTTTTGGAGGATCAACTTAGAAGGATACTCAATACCTTTTTTCAACGTGGAAGAGTAGAATTATATATTCAAATTTATGGAGAAACGTTGCTACAAAAAACGGTGGAAGCAAATTGGGACCTAGTAGATCAATACATGGAGCAGTTACAAGAGTTGAAGCAGCGATATCAGCTTAATGGAGATTTGCCAATGACGGTTATTACTAGCTTTCCAGAGATATTTTCTGTATCTGAAAAGGAGAACAACATATCGGATGAATACATTTCCTTGTTGATGAATGCAGTCAATCATGCTAGTAAACAAGCATTAGAAATGAGGGAAAAAGAGGGTGTCTCTCTATTAAAAGATTTACGGACACGTATACATAATCTAGTAGAATATGTAGAAAAAATAAAGGGACGTCAACCGTTTGCTTTAACTGCACATCGAGAGCGAATTAAACGTAGAGTATCCGATCATTTTATGGAAGAACCGCTACAAGATACAGCTAGATTATATCAAGAAATTGTTTTATTAGCTGAAAAAGGCGATATTACTGAAGAAATAATACGTATGCATAGCCACTTAGCACAGATGGAGCAAACAATCATATTAACAGAGCCGATTGGAAGGAAGTTAGAATTTATTGCTCAAGAATTACTTCGTGAAGCAAATACAATTGGTTCGAAATCCGTTGATACAGTAATTAGTGAGTATACCATTTTGATCAAGAGTGAAATTGAAAAAATTAAAGAACAAGTGCAAAATATGGAGTAA MAKSMTSYGRAKVGTNELTIAVEVKTVNHRYFDVSMKIPSQCIFLEDQLRRILNTFFQRGRVELYIQIYGETLLQKTVEANWDLVDQYMEQLQELKQRYQLNGDLPMTVITSFPEIFSVSEKENNISDEYISLLMNAVNHASKQALEMREKEGVSLLKDLRTRIHNLVEYVEKIKGRQPFALTAHRERIKRRVSDHFMEEPLQDTARLYQEIVLLAEKGDITEEIIRMHSHLAQMEQTIILTEPIGRKLEFIAQELLREANTIGSKSVDTVISEYTILIKSEIEKIKEQVQNME NA NA NA NA NA AK015_00675 2655 yloB COG0474 Calcium-transporting ATPase ATGAAATGGTATCAGTTAGAAGTAGAAGATGTAGAAAAAAAGTTGCACGTTACTGCTAATCGTGGTTTATCTGTTAAGCAAGTGGAAAAAAGACGTAAGCAATACGGAGAAAATGTTTTAGAAGCGCAGAAAAAAATGTCAAAATGGTTGATTTTTATAAAGCAATTTCAAGATTTTATGGTACTTGTTCTATTAGCAGCTACATTAATTGCGGGTCTGTTAGGTGAATATATCGATGCAATTGCAATTATGGTCATTGTAATCGTCAATGGTTGTATCGGTTTTTTTCAAGAGCAAAAGGCCGAAAAATCGCTTGATAAATTAAAAGAATTATCAGCTCCTATGGCTTATGTTCTACGTGATAAAAAATGGGAAAGAATTCCTTCAAAACATGTAGTTGTTGGCGATATTGTTCGGATTTCAAGTGGTGACCGTATACCAGCAGATATACGGATTATTCGTTCAGATAGTCTAGAAACGGAAGAGTCAGCATTAACCGGAGAATCGCTTCCAGTATCAAAACATGCCCAAGCTATCCACCGTGCTAAATTAGATGCACAAGATCAAGTTAATATGGGATTTATGGGGACATTAGTCACTCGCGGAACAGGAATTGGCATCGTTGTTGGCACTGGCATGCAGACGGTTATGGGGCAAATTGCTTCTCTAATGGCAAATACAAAGAAAGTGATGACACCTCTAGAACGTAAACTTGCAGAATTAGGTAAGTTTTTAATTGTTATTGCCTTACTGCTTACTGCTTTAGTCGTCGTATTAGGTGTTATACAAGGTCAGCCAGCTTATACGATGTTTTTAGCCGGTGTTTCGCTTGCAGTTGCTGCTATTCCAGAAGGCCTGCCAGCTATTGTAACTGTCGCACTCTCCCTCGGTGTTCAACGTATGATCCGAAAAAAAGCAATCGTTCGTAAATTGTCCGCAGTTGAAACATTGGGATGTGCTTCGGTTATTTGTTCAGATAAGACGGGAACAATGACGGAAAATAAAATGACAGTAAAGGAAGTATTGCTTCATGGAAAACAGCTATACGTAACTGGTGATGGATATGATTTACAAGGAGATTTTTTTTGCAACGACGAAAAAATAAAGAACAGTTCTCCTCATTTGTCAACGATGCTTTTATATGGCTTACTTTGCAATCAAGCTTCACTGGCTAAAAAGAAAGGTAAATATACCATTGATGGTAATCCAACTGATGGGGCATTAGTTATTGCAGCTAGAAAAATCGGGCTAAGTGAAGAAGATAAACAAGCCTATAACATTATTAAGGAATTTCCGTTTGATTCCGATCGTAAACGAATGAGTGTCATTGTGGAAGATAAGGAGAAACGCCGCTTTTTAATTACGAAAGGTGCACCAGAAGTTTTATTACCTCGATCAGCATATGTGTTAGAAGAAGGGGGAAAACAACTTTTAAAGGCACCAAGGCAAGTTGCAATTGAACAGGCCATTAATCAGATGGCAGAAAAAGCATTACGTACATTAGCTATTGCTGTAAAGCCGTTGTCCAATGATGAAGATGCTTTATCATCTGTTCTTGAAAAAGATTTAACTTTTATCGGTGTTTACGGGATGATGGATCCACCTCGGAAAGAAGTAAAGAAATCAGTTCAAGAATGCCGTAACGCTGGTATTAAAACTGTCATGATTACAGGAGATCACGCTAAAACGGCTCGGGCGATAGCGTTAAACTTAGAACTAATGCCAGAAGATGGAAACGTACTAGAAGGATATCAAATGAACAATATGTCTCAACAAGAATTGGAAGATACAATTGAAGATGTTTACGTGTTTGCACGTGTTACCCCAGAACATAAATTAAGGATCGTCCATGCTTTTCAACAAAAGGGGCATGTGGTGGCGATGACAGGTGATGGCGTAAATGATGCACCTGCTATAAAAGCGAGTAATATTGGGGTTAGCATGGGGCAAAGCGGAACAGATGTAACAAAAGAAGCATCCTCGCTTATACTAATGGATGATAATTTTGCTACGATAAAAGCTGCAATTGAAGAAGGACGAACGATTTATGAAAATATACGAAAATTTATTCGTTATTTGTTAGCATCCAATGTCGGTGAGATTTTAGTTATGTTGTTTGCTATGTTACTTTCCTTACCATTACCGCTTGTACCTGTACAAATTTTATGGGTGAACTTAGTTACAGATGGACTACCAGCAATGGCTTTAGGGATGGATAAAGCAGAAGGGGATGTGATGAAGAAACATCCAAGGAGTATAGATGAGGGCGTATTTGCCCGTGGACTAGGCTATAAAATCATTAGTAGGGGGATCGTAATTGGTGCTGTCACCCTCATCGGGTTTATCATTGCATATCAAAATGACCCAACTCATCTAACTTATGCCCAAACGATTGCTTTTACCACATTAGTAATGGCGCAATTGATTCACGTATTTGATTGTCGGAGTGAGCGATCTATTTTTGCAAGAAACCCATTTGAAAATATGTATCTTGTATTAGCTGTGTTGTCATCTCTTGTACTGTTATTAGTCGTTATTTATTGGACGCCAATACAACCTATTTTTCATACAGTATCTTTAAGTTTAAGAGACTGGGCGTTAATCTTAGCTCTTAGTTCGTTACCGACCGTTATTTTTGGTTTTACTAAAAAATAA MKWYQLEVEDVEKKLHVTANRGLSVKQVEKRRKQYGENVLEAQKKMSKWLIFIKQFQDFMVLVLLAATLIAGLLGEYIDAIAIMVIVIVNGCIGFFQEQKAEKSLDKLKELSAPMAYVLRDKKWERIPSKHVVVGDIVRISSGDRIPADIRIIRSDSLETEESALTGESLPVSKHAQAIHRAKLDAQDQVNMGFMGTLVTRGTGIGIVVGTGMQTVMGQIASLMANTKKVMTPLERKLAELGKFLIVIALLLTALVVVLGVIQGQPAYTMFLAGVSLAVAAIPEGLPAIVTVALSLGVQRMIRKKAIVRKLSAVETLGCASVICSDKTGTMTENKMTVKEVLLHGKQLYVTGDGYDLQGDFFCNDEKIKNSSPHLSTMLLYGLLCNQASLAKKKGKYTIDGNPTDGALVIAARKIGLSEEDKQAYNIIKEFPFDSDRKRMSVIVEDKEKRRFLITKGAPEVLLPRSAYVLEEGGKQLLKAPRQVAIEQAINQMAEKALRTLAIAVKPLSNDEDALSSVLEKDLTFIGVYGMMDPPRKEVKKSVQECRNAGIKTVMITGDHAKTARAIALNLELMPEDGNVLEGYQMNNMSQQELEDTIEDVYVFARVTPEHKLRIVHAFQQKGHVVAMTGDGVNDAPAIKASNIGVSMGQSGTDVTKEASSLILMDDNFATIKAAIEEGRTIYENIRKFIRYLLASNVGEILVMLFAMLLSLPLPLVPVQILWVNLVTDGLPAMALGMDKAEGDVMKKHPRSIDEGVFARGLGYKIISRGIVIGAVTLIGFIIAYQNDPTHLTYAQTIAFTTLVMAQLIHVFDCRSERSIFARNPFENMYLVLAVLSSLVLLLVVIYWTPIQPIFHTVSLSLRDWALILALSSLPTVIFGFTKK PGPT0013990_4376 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537 NA NA AK015_00676 1707 rqcH Rqc2 RqcH ATGCCATTTGATGGTATAGTAACGTACGCGACAACGAACGAACTGCATACCAAATTAACAGCGGGAAAAATAACAAAAATCTATCAACCAACGGAAACGGAAGTATTATTTACCATTCGAAATCATGGACAGAATGCGGTTCTTTTATGTTCTATCCACCCTACTTACTCCCGAATACACCTAACCGAAGAAATGTTTCAAAATCCAAAAGAACCACCAATGTTTTGTATGGTGTTGAGAAAATATTTATCTGGAGCCATCATCAAAAAAATTGAACAACGGGGTTTAGAGAGAATTATCCAATTCACGATACAATCACGAAATGAAATTGGAGACATAACCAAGAAAAAATTAATAATGGAAATTATGGGGCGCCACAGCAATTTATTGCTTGTAGACGGGGAAGATGGACATATTATCGATAGTTTAAAACATGTTTCCAGCTGGCAAAACCGCCACCGGACCATTTTACCTGGACAAATTTATCAGCTGCCACCAGAACAAAATAAATTAAATCCGCTTTTAATTCGTCCAGAACAGCTTATTAAAAAGCTAGACTTTAATGCTGGAAAATTAGACACCCAAATTGTAAACCTACTTAGTGGATTTTCACCTGTCGTTGCCAAAGAGATTGTTCATCAAGCCCATTTAGGTAATGAGAAAGTATATGAGCAAATATTTACTGACATGCAGCAACAACTGTTAGATAAAGACTTTACTCCTGTGATCTATCGAAATCAAAAAGAAGATTATCATGTTCTCCCACTAACGCATTTAAAAGGAGAAAAACAAACTTTCCTGACAACAAATGGCATGCTTGACCAGTTTTACACTGGAAAAGCAGAAAGAGATCGAGTGAAACAGCAAACGAAGGATTTAGCACGCTTGTTAAAAAATGAATTAGCTAAAAATAAACGGAAACAAAAAAAACATGCACAAACGATGCAAAAAGCACAACGAAAAGAACACTATCAAAAAGCAGGAGAATTGCTGACAGCTCACTTACATCTCGTAACGCAGGGTGACAAGCAAATAACCGTAGTAGACTATTATGACCCAGAGCAAAAACAGTTAACCATTGATTTAGATCCATTGAAAACACCAAGTGAAAATGCACAGGCATACTTTAAGACATATCAAAAACTAAAAACTTCAGAATTAAAAGTGAAGGAGGAGATAGCAAAAACAGAGCAGGAAATGGAGTATTTGGAGAGATTACTACAGCAAATTGAAACAGCAAGCATACAGGATATTGAAGAGATTCGTGAAGAACTTCGAGATGAAGGCTATTTAAAAAAACAGAAAGCAACCAAGAAAAAGAAAGCAAAAACAGCCAAACCAGTACCTGAAAAATATATTGCATCTGACGGAACAACAATATTAGTCGGTAAAAATAATAAACAAAATGAATATGTAACGATGAAATTAGCTGCTCGCGATGATATTTGGTTGCACACGAAAGACATACCTGGCTCACATGTTATTATTCGTTCCGCTTCTCCTTCAGAAGACACCATATTGGAAGCAGCTCAACTTGCAGCTTATTTTAGTAAATCACGTCAATCCTCGTCCGTTCCAGTAGATTATACAAAAATTCGTCACGTAAAAAAACCGAATGGTGCAAAACCAGGCTTTGTAACGTATGATAATCAAAAAACAGTTTTTGTTACGCCTAATGAACAACTCATCCAAAAATTAACACCATAA MPFDGIVTYATTNELHTKLTAGKITKIYQPTETEVLFTIRNHGQNAVLLCSIHPTYSRIHLTEEMFQNPKEPPMFCMVLRKYLSGAIIKKIEQRGLERIIQFTIQSRNEIGDITKKKLIMEIMGRHSNLLLVDGEDGHIIDSLKHVSSWQNRHRTILPGQIYQLPPEQNKLNPLLIRPEQLIKKLDFNAGKLDTQIVNLLSGFSPVVAKEIVHQAHLGNEKVYEQIFTDMQQQLLDKDFTPVIYRNQKEDYHVLPLTHLKGEKQTFLTTNGMLDQFYTGKAERDRVKQQTKDLARLLKNELAKNKRKQKKHAQTMQKAQRKEHYQKAGELLTAHLHLVTQGDKQITVVDYYDPEQKQLTIDLDPLKTPSENAQAYFKTYQKLKTSELKVKEEIAKTEQEMEYLERLLQQIETASIQDIEEIREELRDEGYLKKQKATKKKKAKTAKPVPEKYIASDGTTILVGKNNKQNEYVTMKLAARDDIWLHTKDIPGSHVIIRSASPSEDTILEAAQLAAYFSKSRQSSSVPVDYTKIRHVKKPNGAKPGFVTYDNQKTVFVTPNEQLIQKLTP NA NA NA NA NA AK015_00677 420 ohrB COG1764 Organic hydroperoxide resistance protein OhrB ATGGCAAATGTAATTTTTACATCGAAGGCGACAGCAAAAAATGGACGTGATGGTCATGTACAATCAGATGACGGTTTAATTGATCTTAAACTAGTAAATCCAGCTACGAATAAAGAAGACAAGGGGTCAAACCCAGAACAGCTTTTTGCAGCAACATATGCATCCTGTTTTGATGGTGCCTTAAATTTAGTTGCTTCCAAAGAAAAGAAAGAAATTGATTCCTTGACGACAGCAGCTGTTAGCTTTCTAAAAGATACGGACGATAATGGTTTTAAAATCGGTGTAGAGTTAACAGTGAAAATAAAAGGTGTTGACCAAAACGAAGCAGAGGAGCTTGTGGAAAAAGCGCATCAAGTATGTCCTTATTCCAAGGCGACTAGAGGAAATATCGATGTACACTTAAAACCACAAGCTGTTTAA MANVIFTSKATAKNGRDGHVQSDDGLIDLKLVNPATNKEDKGSNPEQLFAATYASCFDGALNLVASKEKKEIDSLTTAAVSFLKDTDDNGFKIGVELTVKIKGVDQNEAEELVEKAHQVCPYSKATRGNIDVHLKPQAV PGPT0013160_3365 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 AK015_00678 870 cysL_2 COG0583 HTH-type transcriptional regulator CysL ATGAAAATAGACGACTACAAACTATTGTTAAAGTTGCAAGAAATTGGAACCATTCGAGGTACAGCAAAAACAGTACTGATTTCTCAGCCTGCAGTAACCCAACGTTTGAAATATATGGAGGAATATTTTGGACATAATGTATTTATTCGTACCCCGAAGAAGCTTATTCCAACACCAGAAGGGGAAATAATTTTACAACACGCTATGGAGGTAATACAACGAGAAAATGCATTGCAAAATAAACTAGCTATATCTAGTAACGAAGTGCAAGGGACATTATCGATTGCTTGCTCTTCCCTTATCTCGCAACGGTATTTACCAGCTTTGTTAGGAAGATTTACAGCCAAATTCCCTAAAGTTGCCATCGATCTAGTGACAGGTATTAGTGAAGACATTAAACGAAATCATAAAGATTATCATGTTTGTATTATCCGTGGAGAAAAATTGAAAGAGACTACTTGTCTTCCATTATTTGATGATCCATTATATATTTTTGATACAGAAGCGTTTCCTGCAGATTCTATTAAAGAACGTCCACTCATTGCATTTAGTTCTGATGATAGTATGCATGAATTAGTAGATCATTGGCTCTATGTACATCAAGATAAAATAAAACCGATTAAAACAATGACGGTTGATCAAATAGAGACGTGCAAGCAATTAATGAAGCAAGGGTTAGGAATGGCTGTGTTACCTGAAAGTGTCTCTGATTTTATGAAAGAAGACTATCCTTATTTACCGCTTCTGTTAAATGGGGAACCTGTCTCTAGAAAAACATGGGTTTGTTTTCAAGAGGGAATTCGTTCTTTACCACAAGTGAATCATTTTATAGAAGAATTGACATCCTTTTTAACGCCATCTAAATCTTGA MKIDDYKLLLKLQEIGTIRGTAKTVLISQPAVTQRLKYMEEYFGHNVFIRTPKKLIPTPEGEIILQHAMEVIQRENALQNKLAISSNEVQGTLSIACSSLISQRYLPALLGRFTAKFPKVAIDLVTGISEDIKRNHKDYHVCIIRGEKLKETTCLPLFDDPLYIFDTEAFPADSIKERPLIAFSSDDSMHELVDHWLYVHQDKIKPIKTMTVDQIETCKQLMKQGLGMAVLPESVSDFMKEDYPYLPLLLNGEPVSRKTWVCFQEGIRSLPQVNHFIEELTSFLTPSKS NA NA NA NA NA AK015_00679 768 COQ5_1 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGCTGGAAAAGGAATTAGTAAAAAAAACGTTTGCTAAACGCCCACAAGATTATGTAACAAGTACTACGCATGCATTGGGAATTAGTCAAGAAGTAATAAGTACATGGCTAAACCCTGCACCTACGATGGAAATGTTAGATATAGCAACAGGAGGGGGACATGTTGCTAAACAACTATCCCCGTATGTACGTATCGTATACGCAACGGACTTAACCAAAGAAATGCTTGCAAATACGAAACAACATTTACAAGCACTAACTAACCTTATATATATTATTGCAGACGCAGAACAACTGCCCTTTTTAGATGCTTCATTTGACCTCATCACATGTCGAATTGCTGCACATCATTTTCCGAATCCTGACCAATTTATTCGTGAAGTAAAGCGCGTATTAAAAAAAGATGGAAAATTCCTGTTCATTGACAATATCGTTCCAAACAATAAACAGCACGCGATATTCATGAATCAGGTGGAAAAAATGCGGGATGAAAGCCATGTCAAATTCCTTACTAAAGAAGAGTGGAAATGTCTATTTAAACAACATGGACTAAAAATAAGTCAGCAACATACTCATAAAAAGACGTTATCTGTTAATAAGTGGCTAGATCGCACTTTATGTCATGAAGATGAAAAAAACACCGTCAGCAAACGTCTATTACAAGCAGATACAGATATAACAAACTATTATCAAATTAAAAAAAGAAATGAGAAACCACTGCAGTTTTCTATTGATGAATGGTCGGTTTTAATGGAGCATGAAAAATAA MLEKELVKKTFAKRPQDYVTSTTHALGISQEVISTWLNPAPTMEMLDIATGGGHVAKQLSPYVRIVYATDLTKEMLANTKQHLQALTNLIYIIADAEQLPFLDASFDLITCRIAAHHFPNPDQFIREVKRVLKKDGKFLFIDNIVPNNKQHAIFMNQVEKMRDESHVKFLTKEEWKCLFKQHGLKISQQHTHKKTLSVNKWLDRTLCHEDEKNTVSKRLLQADTDITNYYQIKKRNEKPLQFSIDEWSVLMEHEK NA NA NA NA NA AK015_00680 618 pyrE Orotate phosphoribosyltransferase ATGGCAACAGGTGAAGAGGTTATACGTGAGTTATTACAAATAAAAGCCGTACAGATTAAAACAGAAGGATATTTTACATGGACATCAGGAATTAAATCACCAATCTATTGCGATAATCGTTTAACGATGTCGTACCCAATTGTACGCCGAAAAATCACCCAGGCATTTGCAAGGATTATAAAAGAACAACAAATTCAATTGGATTGTATTGCTGGTTGTGCAACAGCAGGTATACCGCATGCCGCATGGTTAGCTGAAGCGCTTGATTTGCCAATGGTGTATGTTCGTTCCAAGCCGAAAGCGCATGGGAAAGGTAATCAAATTGAAGGAGAAGTAGAGCAAGGCCAAAAAGTAATTGTGATTGAAGATTTAATTTCTACAGGTGGCTCAGCTATTGCGTCAGCCAAAGCTTTACATGCAGCTGGAGCTGAGGTGACAGGTGTGTTAGCCATTTTTACATATGGGTTGAGAAAAGCGGAGGTGGCTTTTCGTGAATCTGGTTTCCATTATCATACGATTACAGGATTTGATGCATTCATTCAAGTGCTAGAAGCTGATGGCAAGATTAATCAAATGGATAGCAAACAATTATTGGCTTGGAAAGAAAGTCTCAATTAG MATGEEVIRELLQIKAVQIKTEGYFTWTSGIKSPIYCDNRLTMSYPIVRRKITQAFARIIKEQQIQLDCIAGCATAGIPHAAWLAEALDLPMVYVRSKPKAHGKGNQIEGEVEQGQKVIVIEDLISTGGSAIASAKALHAAGAEVTGVLAIFTYGLRKAEVAFRESGFHYHTITGFDAFIQVLEADGKINQMDSKQLLAWKESLN PGPT0021200_3046 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762 NA NA AK015_00681 711 pyrF COG0284 Orotidine 5'-phosphate decarboxylase ATGACTGCATCTATTTATCTGGCATTAGATTTTCCAAACTGGCATACAACAAATCAATTTTTAACAAAGCATGATTTAATTGGTGTTCCAGTAAAAATAGGGATGGAGTTATTTTATCGTGAAGGCCCAGCGTTAATAGAAAAATTAAAGCAAAATGGGCATTCCATATTTTTAGATTTAAAACTACATGATATACCAACAACAGTAAAAAAAGCGATGCGTAATTTGGCAAAATTAGAAGTAGATATGGTCAATGTTCATGCTTTAGGTGGAAGTGCTATGATTCAAGCAGCAAAGCAAGGATTAGCGGAAGGAAATACGCGTTTTCAGACCAAATTATTAGCAGTTACGATTCTAACATCGATGGATCAGACATATATGGAACAAAATTTGCGACTACCTGGAACGTTAGAAAGTAATGTACTTCATTTTGCAAAGCTTGCTGAAAAAAACGGTGCGGATGGTGTAGTATGTTCCGTTTACGAAGCAAATGCTGTAAAGAATGTATGTGGCAATTCTTTTTTAACGGTCACGCCTGGGATTCGATTGGTGGATGCACAAGATGACGACCAAAAAAGAATTGCTACCCCAAGCTATGCCAAACAACATGGAGCTAGTGTGATCGTTGTAGGGAGAACAGTAACGCAAGCTGACTCACCGAAACAAGCATATGATCAAATTAAAGGAGAGTGGGCAAATGGCAACAGGTGA MTASIYLALDFPNWHTTNQFLTKHDLIGVPVKIGMELFYREGPALIEKLKQNGHSIFLDLKLHDIPTTVKKAMRNLAKLEVDMVNVHALGGSAMIQAAKQGLAEGNTRFQTKLLAVTILTSMDQTYMEQNLRLPGTLESNVLHFAKLAEKNGADGVVCSVYEANAVKNVCGNSFLTVTPGIRLVDAQDDDQKRIATPSYAKQHGASVIVVGRTVTQADSPKQAYDQIKGEWANGNR PGPT0014965_3325 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591 NA NA AK015_00682 909 pyrD COG0167 Dihydroorotate dehydrogenase B (NAD(+)), catalytic subunit ATGAGTCTAGCAGTGGAATTACCAGGTTTATCACTAAAGAACCCAATCATGCCAGCTTCTGGCTGTTTTGGATTCGGTAGAGAATATAGTGATTTTTATGATCTTAGTATACTGGGCGCAGTTATTATGAAAGCAGCAACAATGGAGTCTAGGTTTGGTAACCCCACGCCTCGGGTAGCGGAAACGTCTGCTGGAATGTTAAATGCTATTGGACTACAAAATCCTGGCGTAAAAAAAATCATTGCAACAGAGGTGCCATTTCTCGCTTCATTTTCAATACCAATAATTGCTAATATAGCAGGAAGTACCATTGAAGAGTATCGGCAGGTTGCCAAAGCTTTTCAGCATACGGATCAAGTAGCTGCTTTGGAGTTGAATATTTCTTGCCCCAATGTAAAAGAAGGAGGTATTCAATTTGGTACAGATCCCTTTATGGCGCAGAAAGTCACTGAAGCTGTAAAAGAAGCTACAAATCTCCCGGTCTATGTTAAATTATCACCGAATGTTGCTGATATTGTAGGCATGGCAAAAGCGGTTGAAAAAGCAGGAGCAGACGGTTTGTCTATGATTAATACACTGACAGGTATGCAAATTCATTTAGCCACAAGAAAACCAGTCATTGCGAATAAAACGGGCGGGTTATCTGGACCTGCCATTAAACCAATCGCTATACGAATGATTTATGAGGTGAAACAACATGTTTCTATTCCAATTATTGGCATGGGTGGCATTATGCACGCGGAAGACGTATTAGAATTTCTATTAGCAGGAGCAAGTGCTGTTGCTGTTGGTACAGCTAATTTTCAAAACCCCTACGTATGTAAGGAAATTATTGATCAATTACCACATACGCTAATGCAGTATGGTTTTAGCTCCGTAAAAGAAGCCATTGGAAAGGGGATTGTTTAA MSLAVELPGLSLKNPIMPASGCFGFGREYSDFYDLSILGAVIMKAATMESRFGNPTPRVAETSAGMLNAIGLQNPGVKKIIATEVPFLASFSIPIIANIAGSTIEEYRQVAKAFQHTDQVAALELNISCPNVKEGGIQFGTDPFMAQKVTEAVKEATNLPVYVKLSPNVADIVGMAKAVEKAGADGLSMINTLTGMQIHLATRKPVIANKTGGLSGPAIKPIAIRMIYEVKQHVSIPIIGMGGIMHAEDVLEFLLAGASAVAVGTANFQNPYVCKEIIDQLPHTLMQYGFSSVKEAIGKGIV PGPT0021175_1219 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021175-pyrDI-K17828 NA NA AK015_00683 756 pyrK COG0543 Dihydroorotate dehydrogenase B (NAD(+)), electron transfer subunit ATGCAACAACTTTTAAAGATTAAATCAAAACAAACCGTTGCCCTTGATACAGTTGAGATGGTGCTTGAAAATAAGGCTGTCAGTCAAATAGCAGTTCCTGGGCAATTCCTTCATTTACATGTTGATGGACATATGCTCAGACGTCCCATTTCCATTGCTGATGCTGATCCTTCTGTTCATACAGTTACGATTTTGTTTAAAATACTTGGTGAAGGTACAAGAAAGCTATCCACTTATCAAATTGGTGATGTCATTGACGTGTTAGGTCCGAATGGAAATGGATTTCCACTAGTGAATGCTACCAAGAATTCGGTTTTAATCGTCGGGGGAGGCATAGGTGTGCCACCACTTTACTACTTAGCTAAAAAATTAACAGAAAGCGGAGTGACGATAACCGCTGTACTAGGTTTCCAATCGAAGGAACATGTGTTTTATGAAGGGAAGTTTCAAGAGTTAGGGAAAACGATTGTTGTAACGAATGACGGTTCTTACGGTGAAACAGGATTTGTTACCGATATTTCCAAGGAGGCACTACCTTCTATTGACGAGTATTACTCCTGTGGGCCACTGCCAATGCTGCAGGCAGTAAAAGAATGTTGGAATAATATTCCAGGATATCTATCTCTTGAGGAACGGATGGGATGTGGAGTAGGAGCATGCTTTGCTTGTGTCATTCCAACAGATGATCATGGAGGATATAAAAAAATATGCCAGGATGGCCCTGTTTTCTCAGCAGAGGAGGTGCAACTAAAATGA MQQLLKIKSKQTVALDTVEMVLENKAVSQIAVPGQFLHLHVDGHMLRRPISIADADPSVHTVTILFKILGEGTRKLSTYQIGDVIDVLGPNGNGFPLVNATKNSVLIVGGGIGVPPLYYLAKKLTESGVTITAVLGFQSKEHVFYEGKFQELGKTIVVTNDGSYGETGFVTDISKEALPSIDEYYSCGPLPMLQAVKECWNNIPGYLSLEERMGCGVGACFACVIPTDDHGGYKKICQDGPVFSAEEVQLK PGPT0021180_1181 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021180-pyrDII-K02823 NA NA AK015_00684 3198 carB_1 Carbamoyl-phosphate synthase large chain ATGCCTAAAAATAAGTTGATGTCTAAGATTCTAGTAATTGGATCGGGTCCAATCGTAATTGGTCAAGCAGCTGAATTTGATTATTCAGGAACACAAGCGTGCCAAGCATTAAAAGAAGAAGGTTATACTGTTGTATTAGCTAATTCTAACCCAGCAACAATTATGACAGACCATACAGTAGCAGATAAAGTATATATGGAACCGTTAACCGTTGAATTTTTAACTAAAATTATACGAATGGAGAAACCAGATGCATTATTACCAACACTAGGTGGTCAAACAGGGTTGAATTTAGCCGTTGCACTAGATGAAACAGGGATATTAGAAGAATATAATGTAACTTTATTGGGAACTTCCTTGCAAGCTATCCAAAAAGCGGAAGACCGTGAAAGATTTAGAGATTTAATGTATGAATTAAATGAGCCTGTTCCTGCGAGCCAAATTGTTCATACGGTGGAGGAAGCTTGTGCATTTGCCGATAAAATAGGTTACCCTGTTATAGTCCGTCCTGCCTATACATTAGGAGGCACTGGCGGAGGTATGTGTAATACGAGGGATGAGTTGCTAACAATTGCTCATAACGGCTTAAAACTTTCTCCGGTTCATCAATGTTTAATCGAAAAGAACATTGCTGGATTCAAAGAGATCGAATATGAAGTGATGCGTGACAAGAACGACCAAGCGATCGTTGTGTGTAACATGGAAAATATTGATCCGGTTGGTATTCATACAGGGGACTCTATAGTCGTTGCTCCATCGCAAACATTAAGTGATCGTGAATATCAGCTATTACGTAATGCTTCCTTGAAGATTATCCGTGCTTTAGAAATAGAAGGAGGATGTAATGTTCAGCTTGCTCTAGATCCGAATAGCTTTCAATATTACATTATCGAAGTGAATCCACGAGTGAGTAGATCATCTGCATTAGCATCAAAAGCTACTGGTTACCCAATTGCAAAGATGGCAGCAAAAATTGCTGTTGGTTTAACACTTGATGAAATTATTAATCCGATTACTGGTAAAACATATGCATGCTTTGAGCCAACACTTGATTATGTGGTTACGAAAATTCCACGTTTCCCATTTGACAAATTTACTACAGGAGATCGGAAATTAGGAACACAGATGAAAGCAACTGGGGAAGTAATGGCAATTGGAAGGAATTTTGAAGAATCTCTGTTAAAAGGCGTTCGTTCTTTGGATATAGGAACAGATGAATTGTGGCTAGAAAACTTAACGACATTAGATGAACAAGCTTTGCAGGCACGAATGAAAAAAGCGGATGATGAACGAATCTTTGTATTAGCAGAAGCACTTCGAAGAAACATGACGATTGAAGATATTTTTCAAATTACGAAGATTGACCGATTTTTCTTAGTGAAATTACAAAAATTAATTGCAATGGAAGAGGCTTTGCTGGAGTATGTAGAATCTCCTGACATACTAAGACAAGCAAAAGAGCGTGGGTTTTCTGATCCACATATCGCCCGCTTATGGGGAAAAGCGGAAGATGAAGTCTACGCTTTGCGCAAAAAACATGAGATTCTTCCTGTATATAAAATGGTAGACACCTGTGCGGCTGAATTTGCTTCGGAAACGCCTTATTTTTACAGCACCTATGAAATGGAAAATGAATCTCTTGCATCTAATCGTAAAAAAGTGCTTGTACTTGGTTCAGGTCCAATTCGAATTGGGCAAGGAATTGAGTTTGATTACGCTACAGTGCACTCCGTATTGGCTTTAAAAGAAATGGGATACGAAGCAATCATTATGAATAATAATCCTGAAACAGTATCAACGGATTTTAGCATTTCAGACAAATTGTATTTTGAACCGCTTACTTTAGAAGATGTCATGCATGTCATTGAACTGGAGCAGCCTGAAGGAGTTATTGTTCAGTTTGGCGGTCAAACGGCCATTAATCTTGCAGCTGGGTTAGAGCGTCGGGGAGTGGAGATATTAGGAACGAGCTTACGAGCCATTGATCAAGCAGAAGACAGAGATAAATTTGAATTACTTGTCGATCAGTTACAGTTATTACGCCCTAAAGGGAAAACAGTCATGAAGATGGAGCGGGCTAAAGAAGTAGCTATGTCCATAGGTTATCCTGTACTAGTTCGTCCGTCTTATGTCATTGGTGGAGCAAGAATGGAAATTGTTCACAATGATGCAGAGCTTGCAGCTTATTTAGCAAAAACAGGGCATATAAATGACCAACATCCGATATTAATTGATAAATATATTACTGGGTTAGAAGTAGAAGTAGATGCAATTAGTGATGGGGAAACAGTTATTGTTCCAGGGATTATGGAGCATATTGAACGAGCAGGAGTTCACTCTGGAGATTCTATCGCTGTTTATCCACCACAACGATTAAGTCAAAACGTAAAAAATCAATGCTTACACGCAGCTACAAAAATTTCTCATGCATTACAAGTAAAAGGGTTAATTAATATTCAATTTATTGTTAGCGATGGACAAGTGTACGTATTAGAAGTGAATCCAAGAGCAAGTCGGACGATCCCATTTTTAAGTAAAATTACTGGTGTAACGATGGCAAATTTAGCAACCAAATGTATCCTAGGGGAAAAGCTTACGGATATGGGGTATGAAACGGGCATATTGCCAGAAGATGAACAAGTGTCCGTAAAGGTTCCGGTTTTTTCCTTTGAGAAGTTACGCAGTGTAGATACGATCTTAGGACCAGAAATGAAATCAACGGGTGAGGCAATTGGTTATGATAAAACATTAGAAAAAGCACTATACAAAGGCTTAATCGCTTCTGGGCTTACATTACCGCAGGAAGGAAGTGTATTATTAACGGTAGCAGACAAAGATAAAGAAGAGATGATCGATATTGCTAAGCGATTCCATCAACTAGGCTTTCAATTGTATGCAACAGAAGGTACCGCTGACTATATTCAACGAAACGATATTCCTGTAACAAAAGTAGGTAAAATTGGTTCACAACAACCAAATGTGCTTTCTGTTATTGAGAATGGGGAAGTTCAATATGTTATTAACACATTAACTTCTGGAAAACAACCGCGCTCTGACGGTTTTCGAATTCGGAGGGAATCTGTAGAACATGGCATTGCTTGTTTAACGAATTTAGATACAGCAAATGCAATTTTGTACATTATAGATTCGATGACGTTTCAAGCTAAACCAATGGAACAGAAAAAGGTCGTGATCTAA MPKNKLMSKILVIGSGPIVIGQAAEFDYSGTQACQALKEEGYTVVLANSNPATIMTDHTVADKVYMEPLTVEFLTKIIRMEKPDALLPTLGGQTGLNLAVALDETGILEEYNVTLLGTSLQAIQKAEDRERFRDLMYELNEPVPASQIVHTVEEACAFADKIGYPVIVRPAYTLGGTGGGMCNTRDELLTIAHNGLKLSPVHQCLIEKNIAGFKEIEYEVMRDKNDQAIVVCNMENIDPVGIHTGDSIVVAPSQTLSDREYQLLRNASLKIIRALEIEGGCNVQLALDPNSFQYYIIEVNPRVSRSSALASKATGYPIAKMAAKIAVGLTLDEIINPITGKTYACFEPTLDYVVTKIPRFPFDKFTTGDRKLGTQMKATGEVMAIGRNFEESLLKGVRSLDIGTDELWLENLTTLDEQALQARMKKADDERIFVLAEALRRNMTIEDIFQITKIDRFFLVKLQKLIAMEEALLEYVESPDILRQAKERGFSDPHIARLWGKAEDEVYALRKKHEILPVYKMVDTCAAEFASETPYFYSTYEMENESLASNRKKVLVLGSGPIRIGQGIEFDYATVHSVLALKEMGYEAIIMNNNPETVSTDFSISDKLYFEPLTLEDVMHVIELEQPEGVIVQFGGQTAINLAAGLERRGVEILGTSLRAIDQAEDRDKFELLVDQLQLLRPKGKTVMKMERAKEVAMSIGYPVLVRPSYVIGGARMEIVHNDAELAAYLAKTGHINDQHPILIDKYITGLEVEVDAISDGETVIVPGIMEHIERAGVHSGDSIAVYPPQRLSQNVKNQCLHAATKISHALQVKGLINIQFIVSDGQVYVLEVNPRASRTIPFLSKITGVTMANLATKCILGEKLTDMGYETGILPEDEQVSVKVPVFSFEKLRSVDTILGPEMKSTGEAIGYDKTLEKALYKGLIASGLTLPQEGSVLLTVADKDKEEMIDIAKRFHQLGFQLYATEGTADYIQRNDIPVTKVGKIGSQQPNVLSVIENGEVQYVINTLTSGKQPRSDGFRIRRESVEHGIACLTNLDTANAILYIIDSMTFQAKPMEQKKVVI PGPT0021150_4471 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955 NA NA AK015_00685 1095 carA_1 Carbamoyl-phosphate synthase small chain ATGGGCAAACGTCAGTTAGTATTAGAGGATGGAACTGTTTTTATCGGTGATGGATTTGGTAGTACCCAAGAAGCTATAGGAGAAGTCGTGTTTAATACAGGAATGACAGGATACCAGGAAGTAATAACGGACCCGTCCTATTGCGGACAAATTGTTATGATGACTTACCCGTTAACAGGTAATTATGGAATTAATCGTGATGATATGGAAACTGTAACACCATTTATCCAGGGGTTTATTGTGAAAGAGGTTGCTGAATATCCTTCTAATTTCCGCAGTGAAGAAACGTTGGACGATTATTTAAAAGCAAACCATATTCCTGGAATAGCTGGAATTGATACGAGAAAATTAACCAAAACAATTCGTTTACAGGGGACAATGAAAGGAGCAATTGCTGACATTACTATTCCTTCAGAAGAAATAGTGCGGAAACTACATAAGACAGATTTAGCGAAAAATCAAGTACAAAAAACATCTACTTTAAAGCCTTATGTTGTACCAGGACGAGGTAAACGGATTGTTGTGGTAGATTGTGGAATGAAACACGGAATTTTACGTGAATTAACGAAGAGAAATTGTCATATTACAGTTGTTCCTTACAATTATTCAGCAGAAGACATACTCCGTTTAAAAGCAGACGGATTACTTGTTACAAATGGACCTGGAGACCCTAAAGATGTACCAGAGACGATGAATATGTTGCAACAAGTTGTCGGGAAGCTTCCTGTATTCGGTATTTGTCTAGGCCATCAGCTGCTTGCTTTAGCTTGTGGAGCAGAAACGGAAAAAATGACTTTTGGGCATCGTGGTTCAAATCATCCCGTAAAAGACTTACTTACAAATAAAACGTATATTACTTCACAAAACCATAGTTATGCAGTACAGCGAGCATCGCTTGCAAAAACAAATTTAGAGTTAACACAAATAGCGTTAAACGATGGTACCGTAGAAGGCATAAAACATAAATTATTTCCAGCTTTTTCAGTACAATATCATCCAGAGAGTTCTCCAGGCCCAGAAGATACGAACCATCTATTTGACTCATTCTTAAAGCTAACAGAGCAAGTGATGAAGGAGGAAGAAGTATATGCCTAA MGKRQLVLEDGTVFIGDGFGSTQEAIGEVVFNTGMTGYQEVITDPSYCGQIVMMTYPLTGNYGINRDDMETVTPFIQGFIVKEVAEYPSNFRSEETLDDYLKANHIPGIAGIDTRKLTKTIRLQGTMKGAIADITIPSEEIVRKLHKTDLAKNQVQKTSTLKPYVVPGRGKRIVVVDCGMKHGILRELTKRNCHITVVPYNYSAEDILRLKADGLLVTNGPGDPKDVPETMNMLQQVVGKLPVFGICLGHQLLALACGAETEKMTFGHRGSNHPVKDLLTNKTYITSQNHSYAVQRASLAKTNLELTQIALNDGTVEGIKHKLFPAFSVQYHPESSPGPEDTNHLFDSFLKLTEQVMKEEEVYA PGPT0021155_4184 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956 NA NA AK015_00686 1278 pyrC Dihydroorotase ATGAAAAAATTAGTGAAAAACATCAAACATCTTTTACCTACGGGGGAGTTAGTTAAAAGAGATATTCTGATTGAAAATGATAAGGTAAAGAAAATAGCTTTTGCCATAGAAGAACAGACCGACATGGAAATAGACGGAAATGGACGATTGGCTCTTCCTGGATTCGTTGATGTCCACATCCATTTACGTGAGCCCGGAGGTGAACATAAGGAGACCATTCTTACAGGAACGAAGGCAGCTGCTCGAGGTGGATACACTACTGTTTGTGCGATGCCAAACACGAATCCTGTTCCTGATGAAGTTGAGACAGTTCAAAAATTGCAACAAAGAATCGAGGATGACGCTGTCGTTCGTGTTCTTTCCTATGCGGCAATTACGAAGCAACTGCATGGTAAAGAACTAACAGATATTCCTGCATTAGCGCAGGGTGGTACTTTTGCGTTTACAGACGATGGTGTCGGAGTCCAAACAGCTGATTTAATGCTTCAAGCAATGAAACTTGCAAAGGCGCAAAATAAAGCAATTGTTGCTCATTGTGAAGATAATTCCATTGTTTATGGTGGTGTAGTCCATGATGGGGAAGTGAGTAAACGATTAAATGTTCCTGGTATTCCATCTCTAGCTGAGTCTGTGCAAATTGCTAGAGATGTACTGCTGGCAGAGGCCACGGGTTGCCATTATCACGTATGTCACGTTAGTACAAAAGAGTCTGTACGAATAATTCGAGATGCAAAAAGAGCTGGAATTCGTGTAACAGCGGAGGTAACACCACATCATTTATTGTTAAATGAAACAGATATTCACACTGCTAATACGAATTTTAAAATGAATCCCCCATTACGATCTAAACAGGATCAAGAGGCACTTTTAAATGGATTAATCGACGGTACGATTGATTTTATTGCAACGGATCATGCACCACATGCAAAGGAAGAAAAAGAACAAGAACTCTTAACGGCTCCGTTTGGAATTGTAGGTTTAGAACATGCATTTTCCTTACTCCATACACATCTTGTTTTGACGGAAAAAATCAGCTTGCAACAACTTGTTTCTTGGCTCGCAACAAAACCAGCGGAAATATTTGAATTACCATATGGTACATTGCAAGCAGGCTCTATAGCTGACCTTACACTTATTGATTTACAACAAACAGATAAGATTGATAAAAATAATTTTTATTCTAAGGGAAAAAATACACCGTTTCATGGGTGGGAAGTGCAAGGTGTTCCAACGCTAACGATAGCAGATGGAAACATCGTTTATGAGGGGGTAAAATAA MKKLVKNIKHLLPTGELVKRDILIENDKVKKIAFAIEEQTDMEIDGNGRLALPGFVDVHIHLREPGGEHKETILTGTKAAARGGYTTVCAMPNTNPVPDEVETVQKLQQRIEDDAVVRVLSYAAITKQLHGKELTDIPALAQGGTFAFTDDGVGVQTADLMLQAMKLAKAQNKAIVAHCEDNSIVYGGVVHDGEVSKRLNVPGIPSLAESVQIARDVLLAEATGCHYHVCHVSTKESVRIIRDAKRAGIRVTAEVTPHHLLLNETDIHTANTNFKMNPPLRSKQDQEALLNGLIDGTIDFIATDHAPHAKEEKEQELLTAPFGIVGLEHAFSLLHTHLVLTEKISLQQLVSWLATKPAEIFELPYGTLQAGSIADLTLIDLQQTDKIDKNNFYSKGKNTPFHGWEVQGVPTLTIADGNIVYEGVK PGPT0021145_3826 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465 NA NA AK015_00687 942 pyrB COG0540 Aspartate carbamoyltransferase ATGGTGCGACATTTTATTTCATTAGATGACTGGACAGAAACGGAAATTATGAGTTTTTTACAATTAGCGGAGCATTATCGTGAATCTTCATTTCATATCGATCAGCAACTATTTGCAGCAAATTTATTCTTTGAACCGAGTACTCGGACAAAGATGAGCTTTAACGTTGCACAGCGCAAATTAGGGTTGGATATTCTAGACTTTAATAAGGAGTTTTCTAGTACGCAAAAAGGAGAGTCGCTATACGATACAGCTAAAACGTTTGAGGCTATTGGTGCCAATCTGTTAATTATTCGCCATCAGGATGATTGTTGGATGGATGAACTAAGGGGTAATTTATCCATTCCAATCATTAACGCAGGAGCAGGGAAGAAAGAACATCCAACGCAATGTTTATTAGATTTACTAACGATTTATCAAGAGTTTCATCGATTTAAAGGAATAAAAATAGCCATTGCGGGGGATATTTCACATAGCCGCGTAGCCAAATCGAATGCGTATACGTTACAAAAAATGGGTGCCAATGTGTATTTAACTGCCGCTGAAGGGTGCAAAGACTATGCGCTGCCGTTTCCTTATATATCTATGGACGAAGCCGTAGAGATGACGGATGTACTTATGCTATTACGCATTCAGCATGAAAGACATCAAATAGCGTATGACAAAACAACAAGCTATTTAGACAAATATGGCTTAACGAAGCAACGTGAAAAAAGAATGCAATCACATGCTATTCTTCTTCATCCGGCGCCAATAAATCGAAATGTGGAAATTGATACGGATTTAGTAGAGTGTGAGCGCTCAAGGATTTTTAAGCAAATGAATAATGGTGTTTATGCAAGAATGGCAATTATGAGCAGTGTACTAAAAGAATGGGGGATCATGGATGAAAAAATTAGTGAAAAACATCAAACATCTTTTACCTACGGGGGAGTTAGTTAA MVRHFISLDDWTETEIMSFLQLAEHYRESSFHIDQQLFAANLFFEPSTRTKMSFNVAQRKLGLDILDFNKEFSSTQKGESLYDTAKTFEAIGANLLIIRHQDDCWMDELRGNLSIPIINAGAGKKEHPTQCLLDLLTIYQEFHRFKGIKIAIAGDISHSRVAKSNAYTLQKMGANVYLTAAEGCKDYALPFPYISMDEAVEMTDVLMLLRIQHERHQIAYDKTTSYLDKYGLTKQREKRMQSHAILLHPAPINRNVEIDTDLVECERSRIFKQMNNGVYARMAIMSSVLKEWGIMDEKISEKHQTSFTYGGVS PGPT0021160_2585 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609 NA NA AK015_00688 546 pyrR Bifunctional protein PyrR ATGAAGAAAAAAGCAGATTTACTTGATGCATCAGCAATTAAACGAGCGTTAACGAGAATTGCCCATGAAATATTAGAGAAAAATAAGGGCGGAGAAGATTTGGTCCTTGTTGGTATAAAAACACGAGGTGTACCAATCACGAAACGTTTGCAAAAAAAGATTAACCAAATTGAAAACATGGAAGTGCCAGTCGGTGATCTTGATATTACATTATACCGAGATGACTTGGATAAAGCGATTGAAGGAGAAGATCCAGATCTAAAGGCAACTCACATTTCAACGGATATCAATGGCAAAAAAGTAGTATTAATTGATGATGTTCTATATACAGGAAGAACTGTACGGGCAGCAATGGATGCGGTTATGGATATTGGAAGACCAGCACAAATTCAATTAGGTGTTTTGGTTGACAGAGGCCATCGTGAGCTTCCAATACGCGCTGACTATGTAGGAAAGAATATCCCTACCTCCGAAAAAGAAATCATTATGGTAAAGCTTGAAGAAATTGATGGGACTGCAGACACAGTTTCTATATACGAAAAATAA MKKKADLLDASAIKRALTRIAHEILEKNKGGEDLVLVGIKTRGVPITKRLQKKINQIENMEVPVGDLDITLYRDDLDKAIEGEDPDLKATHISTDINGKKVVLIDDVLYTGRTVRAAMDAVMDIGRPAQIQLGVLVDRGHRELPIRADYVGKNIPTSEKEIIMVKLEEIDGTADTVSIYEK PGPT0021245_1111 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825 NA NA AK015_00689 912 rluD_1 COG0564 Ribosomal large subunit pseudouridine synthase D ATGACAAAGAATAAATATATTGTTGGTGAACATGAGCATAAAACACGCGTTGATAAGTTGTTAGCCGAGCAAAATAATAATGTTTCTCGTTCACGTGTACAATCATGGATTGAAGAAGCTTATGTTACGGTAAATGGTGCATGCATAAAACCAAATTATAAATGTCAGCAGGGTGATCGGATTGAATGGATGGTTCCAGAGACACAACCTTTATCATTAATACCAGAAGCCATTGATTTGGATATTGTTTATGAAGATAAGGATATTTTAGTCGTAAATAAACCTAAGGGGATGGTTGTCCATCCTTCTGCTGGTCATCAGAGTGGGACGTTAGTGCATGCTTTACTTTATCATTGTACCGATTTATCTGGAATAAATGGAGTAGAAAGGCCCGGCATCGTTCATCGGCTTGACAAGGATACGAGTGGATTACTTGTAGTAGCAAAGCATGATGAGGCGCATCAACAGTTGGCTAATCAGTTAGTTCAAAAAACAATGAAGCGAACATATCAAGCCATTGTGCACGGGCAAATTCCTCATGAAAAAGGATTAATAGAAGCTCCCATTGGCAGAGACCCGAAAGATAGGCAAAAAATGGCTGTTGTTGACAATGGTAAGCAAGCTATCACGCATTTCCGCGTCCTTCAATCTTACCAAGATTTTTCTCATGTGGAATGTCAATTAGAGACAGGAAGAACGCATCAAATACGTGTTCATATGAAGTATATCGGTTATCCGATTGTAGGAGATCCTAAATATGGCCCAAGAAAAACATTGCCTACAAATGGGCAAGTATTGCATGCGAAAGAGCTACGCTTTAACCATCCAATCCAGAATGAAGAAATGCATTTTACTACAGATTTACCGATTTATTTTCAGGATTTGCTTGTTTATATTCAAAAAATGTATTGA MTKNKYIVGEHEHKTRVDKLLAEQNNNVSRSRVQSWIEEAYVTVNGACIKPNYKCQQGDRIEWMVPETQPLSLIPEAIDLDIVYEDKDILVVNKPKGMVVHPSAGHQSGTLVHALLYHCTDLSGINGVERPGIVHRLDKDTSGLLVVAKHDEAHQQLANQLVQKTMKRTYQAIVHGQIPHEKGLIEAPIGRDPKDRQKMAVVDNGKQAITHFRVLQSYQDFSHVECQLETGRTHQIRVHMKYIGYPIVGDPKYGPRKTLPTNGQVLHAKELRFNHPIQNEEMHFTTDLPIYFQDLLVYIQKMY NA NA NA NA NA AK015_00690 471 lspA COG0597 Lipoprotein signal peptidase ATGTATTGGTATTATATAATTGCACTATTAATTATTGTACTTGATCAGGCTAGTAAATGGCTAATAGTGACGAGAATGGAATTGGGAGAGCAGATCACCCTGATAGAGAATTTCTTCTACATTACTTCCCATCGTAATATAGGGGCTGCTTGGGGAATACTAGAAGGACAAATGACCTTCTTTTATATTGTTACGGTGATTGTTGTAGCTGTCGTTGTCTATTACATACAAGCATATGCAAAAGAGAGTAAACTATTAGGAATAGCATTAAGTTTTGTATTGGGAGGTGCGATTGGTAACTTTATTGATCGCTTGTTTCGCAAAGAGGTAGTCGATTTTTTTGACTTTATTATCCTTGGTTATGATTTCCCGATTTTTAATATAGCAGATGCCAGTTTAGTCGTAGGCGTTTTTTTCATAATCATTACTATGTTTCTTGAAGAACGAAAGAAAGGGAAAATAGCATCATGA MYWYYIIALLIIVLDQASKWLIVTRMELGEQITLIENFFYITSHRNIGAAWGILEGQMTFFYIVTVIVVAVVVYYIQAYAKESKLLGIALSFVLGGAIGNFIDRLFRKEVVDFFDFIILGYDFPIFNIADASLVVGVFFIIITMFLEERKKGKIAS PGPT0004770_4400 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101 NA NA AK015_00691 2757 ileS Isoleucine--tRNA ligase ATGGAATATAAAGAAACATTATTAATGCCGAAAACCGCGTTTCCAATGCGTGGTAATTTACCAAATAAAGAACCAAATCGACAAGCAGATTGGGACGAAAACAAACTATATGAAAAAAGCTTGGAACGGACAAAAGGACGCCCAACGTTTATTTTGCATGATGGACCACCATATGCGAATGGGGATTTGCATATCGGTCATGCATTGAACAAAATCTTAAAAGATTTTATTATTAGATATAAGTCTATGAGTGGCTATTACGCACCATATGTTCCTGGTTGGGATACACATGGATTGCCTATTGAAACAGCATTGACAAAGAAGAAAAAAATCAATCGTAAAGCGTTAAGCATTGCTGAATTTCGTAAGCTCTGTGAAGAATACGCGTTAAAGCAGTTGGATAATCAGCGTAATCAATTTAAAACATTAGGAATTCGCGGGGATTGGAACAACCCATATATTACGTTAACAAAGGATTATGAAGCAGCACAAATAAAAGTGTTTGGAGAGATGGCTAAAAAAGGCTACATTTATAAAGGACTTAAGCCAGTTTATTGGTCACCTTCTTCAGAGTCTGCTTTAGCCGAAGCTGAGATAGAATACCATGATAAACGATCTCCGTCTATTTACGTTGCCTTTGAAGTAACGGATGGGAAAGGACTGCTAAATGCAGGAGACAAGTTGATTATTTGGACAACTACGCCTTGGACGATTCCTGCTAACTTAGGAATTAGTTTGCATCCAGAATTGGAGTACATTGTTGTAGCAGTAGATAAAGAAAGATATGTTATCGCACATGCATTGTTACAAACCGTAGCTGAAGAATTAGGCTGGGAAGACTATCAAATAGAAGAAACATTTCGTGGTGAACAAGCGGAACATATTTTAACGAAACACCCATTTTACGATCGATCTTCGCTTGTGATGCTTGGTGATCACGTTACTACGGATACTGGAACAGGCTGTGTACACAATGCTCCTGGACATGGGGAAGAAGACTTTTATGTAGCGAAAAAGTACGGTATTGATGCTTTATGTCCTGTTGATGAAAAAGGGGTGTTTACAGACGAAGCACCAGGATTTACTGGGCTTTTCTATGATAAGGCGAATAAACTGATTACGGAAAAGTTAGAAGAAACTGGGGCTCTGTTAAAATTACAATTTATTACCCATTCTTATCCGCATGACTGGCGGACGAAGAAACCAACTATTTTCCGAGCAACGTCACAATGGTTTGCGTCCATTAAAGACTTTCGCCAAACTATTTTAGAAGAAATTAAAAATATTCAATGGTACCCACAGTGGGGAGAGACAAGATTATATAACATGGTAAGAGATCGTGAAGATTGGTGTATATCCAGACAACGTGCTTGGGGTGTTCCAATTCCGGTTTTTTATGGGGAAGATCGTACACCAATTATCACAGACGAAACGATTAGCCATGTATCCGAACTGTTTAAAGAGCATGGGTCAAATATTTGGTTTGAATGGGGAGCAAAAGATTTATTACCAAAAGGGTTCACCTCAGAGCATAGTCCAAACGGCATTTTTACAAAGGAAATGGATATTATGGACGTTTGGTTTGACTCTGGTTCTTCTCATGAAGCTGTATTAGTTGGTAGAGATGATCATCATCGTCCAGCGGATGTATATTTAGAAGGAAGCGATCAATATCGTGGTTGGTTTAACTCGTCCTTATCCACATCTGTAGCTGTGACAGGAAAAGCGCCATATAAATCGGTAATTAGTCATGGCTTTGCACTTGATGGTAATGGTCGTAAAATGAGTAAATCTTTAGGGAATGTCATTCAACCTACTAAAGTGCAGAAGCAGCTTGGTGCTGATATTTTACGTCTGTGGGTATCATCTGTAGATTATCAAGCAGATGTTCGTATTTCAGATGACATTTTAAAACAAATCTCAGAAGCATATCGTAAAATTCGTAATACGATTCGTTTTATGCTTGCAAACCTTAGTGATTTTCAACCATCAACGGATCGTGTTCCATATGCTGATTTGGAAGAAGTTGATCAATACATGCTACATCGGTTGAAGAAATTAGTTGCCGGCGTAAGGGAAAATTATGACAACTATGAGTTTTCACCAATTTTCCATCAAATTCATAATTTCTGTGCTGTTGATTTAAGCTCATTTTATTTGGACTTTGCTAAAGATATACTTTACATTGAACAAGCGGATAATAAGCGTAGACGAAGTATTCAAACAGGTTATTATGAAATATTAACAGCGATTGTTAAGTTATTGACACCTATCATTCCACATACTGCAGAAGAAGTGTGGGAGTATATTCCTGAAACAGAAGCAGATTGGGTTCAGTTAACAGATATGCCGGAACCAGATGAAATGAATGAATGGAATGAAGTAGCTGAAAAATGGGATCATTTTATGCTTGTTCGTGATGATGTCTTGAAAGCTTTAGAAGAAGCAAGAAATGAAAAAGTGATTGGTAAATCATTAGAAGCTAAATTAACGATCATTTCAAAAGATGTAAAAACCAAAGAAGTATTACAAGCGATGGGTCATCTTCACCAGTACTTTATTGTTTCAGAAGTAAACCTAGCGGAAACAAGCGAGCATGCTAAGGTGTATACGCATGTCGATGTGTATGTAGAGAAGCATCCTGGAGAAAAATGTGAGCGTTGCTGGGTTGCCTCCAATACCGTTGGAGAAGACGCAGAACACCCAACACTTTGTACCCGTTGTGCAGATGTAGTGAAAAACCTTACATCGATTTAA MEYKETLLMPKTAFPMRGNLPNKEPNRQADWDENKLYEKSLERTKGRPTFILHDGPPYANGDLHIGHALNKILKDFIIRYKSMSGYYAPYVPGWDTHGLPIETALTKKKKINRKALSIAEFRKLCEEYALKQLDNQRNQFKTLGIRGDWNNPYITLTKDYEAAQIKVFGEMAKKGYIYKGLKPVYWSPSSESALAEAEIEYHDKRSPSIYVAFEVTDGKGLLNAGDKLIIWTTTPWTIPANLGISLHPELEYIVVAVDKERYVIAHALLQTVAEELGWEDYQIEETFRGEQAEHILTKHPFYDRSSLVMLGDHVTTDTGTGCVHNAPGHGEEDFYVAKKYGIDALCPVDEKGVFTDEAPGFTGLFYDKANKLITEKLEETGALLKLQFITHSYPHDWRTKKPTIFRATSQWFASIKDFRQTILEEIKNIQWYPQWGETRLYNMVRDREDWCISRQRAWGVPIPVFYGEDRTPIITDETISHVSELFKEHGSNIWFEWGAKDLLPKGFTSEHSPNGIFTKEMDIMDVWFDSGSSHEAVLVGRDDHHRPADVYLEGSDQYRGWFNSSLSTSVAVTGKAPYKSVISHGFALDGNGRKMSKSLGNVIQPTKVQKQLGADILRLWVSSVDYQADVRISDDILKQISEAYRKIRNTIRFMLANLSDFQPSTDRVPYADLEEVDQYMLHRLKKLVAGVRENYDNYEFSPIFHQIHNFCAVDLSSFYLDFAKDILYIEQADNKRRRSIQTGYYEILTAIVKLLTPIIPHTAEEVWEYIPETEADWVQLTDMPEPDEMNEWNEVAEKWDHFMLVRDDVLKALEEARNEKVIGKSLEAKLTIISKDVKTKEVLQAMGHLHQYFIVSEVNLAETSEHAKVYTHVDVYVEKHPGEKCERCWVASNTVGEDAEHPTLCTRCADVVKNLTSI NA NA NA NA NA AK015_00693 504 divIVA COG3599 Septum site-determining protein DivIVA GTGCCATTAACACCACTCGATATTCATAACAAAGAATTCACTAAAAAGTGGAAAGGTTATGATGAAGATGAAGTAAATGAATTCCTTGATCAAGTGATTAAAGATTATGAAATGGTAATTAGGGAAAAAAATGATCTGCAAGAACAAGTAAATCAATTGAATCAAAAAATAGGACATTTTACCAATATTGAGGAGACGCTTAATAAATCTATTCTAATTGCGCAAGAAACCGCAGAAGAACTAAAAGGAAATGCTTCAAAAGAATCTAAGTTAATTATTAAAGAAGCAGAAAAAAATGCAGATCGAATTATTAATGAGGCGTTAACAAAGTCTCGTCGTATATCTATGGATGTAGAAGAATTAAAGAAGCAGGCGAAAGTTTTTCGAACTCGTCTGAAAATGCTTGTAGAAGCGCAGTTAGATATGATTGAAACAGATGATTGGGATCAATTATTTGATTCAGAGCTAGGAGAGGACCTTGAATTGGAAGAAAGCGAAACGTAA MPLTPLDIHNKEFTKKWKGYDEDEVNEFLDQVIKDYEMVIREKNDLQEQVNQLNQKIGHFTNIEETLNKSILIAQETAEELKGNASKESKLIIKEAEKNADRIINEALTKSRRISMDVEELKKQAKVFRTRLKMLVEAQLDMIETDDWDQLFDSELGEDLELEESET PGPT0014805_725 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014805-divIVA-K04074 NA NA AK015_00694 780 hypothetical protein ATGATGGAATTATATCAACATTTTCGTAAAGAGGAAGAAGCTTTTATTGATCAGATTCTGTCTTGGAAAGAGCAAGTAGAACGAACGTATCAACCTAAGTTGACTAACTTCCTTGACCCTCGAGAGCAACAGCTAGTTACCATACTTATTTCGACGAAGGATAGTGATGTTAACTTGTTGTTTAATGGTGGTCATAAATTTGCCGAACGCAAGCGGGCTGTGATTGCACCATTATATGAAGATATACAAGCGGTGGATACGGGATTAACCTTACTCGAAGGCCATTTTCCTGATAAATTCATACATTTATCCCATCGTGATGTAATGGGAGCTTGCCTGTCGCTCGGTTTAAAACGACAGATACTAGGGGATATTGTGGTAGACAATGGACTCGTTCAATTGGTGGTTGCTTCAGAAATAGCCCTCTATGTAAAGTCTCACTTAACTAAGATAAAGCATGCCTCTGTCAAGTTGGAAGAACGTCCCTTAAATGAATGGAACATAAGAGAACCTATTTGGCTAGAACAAGAAACAACTGTTTCTTCATTAAGACTCGATGTTGTGGTGAAGGAAGCTTATCGTTTATCGAGAAAAGAAGCAACTGAATATATTAAAAAGCTATTGGTTAAAGTGAATTATAAACTTGTAGATGATGTGTCATTTACGCTCCAAGCAGGAGATATCCTTTCATTGCGAGGAAAAGGAAGGAGTAAATTAGTAAATGTGCGAGGCCGATCAAAAAAAGATAAGCAAAAAATTACATTAGCACGATTAAAATGA MMELYQHFRKEEEAFIDQILSWKEQVERTYQPKLTNFLDPREQQLVTILISTKDSDVNLLFNGGHKFAERKRAVIAPLYEDIQAVDTGLTLLEGHFPDKFIHLSHRDVMGACLSLGLKRQILGDIVVDNGLVQLVVASEIALYVKSHLTKIKHASVKLEERPLNEWNIREPIWLEQETTVSSLRLDVVVKEAYRLSRKEATEYIKKLLVKVNYKLVDDVSFTLQAGDILSLRGKGRSKLVNVRGRSKKDKQKITLARLK NA NA NA NA NA AK015_00695 264 hypothetical protein ATGCAAGAAATTTTTCAAATAATAAATATGGCTTTTACGGTTTATACATTTGCATTAATTATTTATATATTCATGTCCTGGTTTCCAGGCGCTCGTGAATCGGCATTCGGTGAAGTTTTGACTAAAATTTGTGAACCATATTTAGAAGTGTTTCGTAAATTTATACCACCACTAGGAATGATAGATTTTTCTCCAATTGTTGCGATCATTGTTTTAAGATTTGCTCAAGGCGGTTTACAGCAATTGTATTGGATGTTAATCTAA MQEIFQIINMAFTVYTFALIIYIFMSWFPGARESAFGEVLTKICEPYLEVFRKFIPPLGMIDFSPIVAIIVLRFAQGGLQQLYWMLI PGPT0013730_3438 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 AK015_00696 390 sepF COG1799 Cell division protein SepF ATGGAAGATGAATATGAATACGAATATGTAGATGCTGACCAGTTTGAGGCTGAGCAAGCACTACCAAAAGACAAACCTAAAAACGTAGTAAACCTTACAAGTGTGAATAATCCAACTTCTAAAGTTGTTTTATGTGAGCCAAGAACGTATAGCGAGGCACAGGAAATTGCTGATAATATTGTGAACCGTCGTGCAGTGGTAATTAATTTACAACGCATGGAGAACCAACAGGCAATGCGCATCGTCGATTTTTTAAGCGGAACGGTGTATGCTGTTAACGGAGACATTCAAAAACTTGGAGCAAAAACATTCCTATGTACACCTGATAATGTGAATGTTACTGGTTCCATTACAGATACACTTGAAGAAGAATACGGTAAAGGATGGTAA MEDEYEYEYVDADQFEAEQALPKDKPKNVVNLTSVNNPTSKVVLCEPRTYSEAQEIADNIVNRRAVVINLQRMENQQAMRIVDFLSGTVYAVNGDIQKLGAKTFLCTPDNVNVTGSITDTLEEEYGKGW NA NA NA NA NA AK015_00697 669 COG0325 Pyridoxal phosphate homeostasis protein ATGGACGTAGCAAGCAATTTACAAACGATTCAGGAAAATATTGCGCATGCTTGTCAGGCATGTCAGCGAAAAAAAGAGGATATTACCATCATAGCAGTGACGAAATATGTTACAATAGAGCGAGCAGAAGAAACGCTACAAGCAGGGATTACTGATCTTGGAGAAAACCGTTTGGAAGGCTTTTTAGAAAAATATAACCATTTTCATGGTCGAGCTAATTGGCATTTCATTGGAACGTTACAGTCAAGAAAAGTGAAAGATGTCATTAACCATATTGATGTATTGCATTCGTTAGATCGGATTTCTTTAGCGAAAGAAATTGAGAAACGAGCCAATAAACAGATTGACTGTTTTATTCAAGTAAATGTTAGTGGAGAAGAATCAAAACATGGTGTGCGTCCTGAACAGTTATTTACCTTTATTGAAAACTTAAAAACGTATTCAAAAATACGGGTAATTGGCTTGATGACTATGGCACCACATATTAAAGATGAGGCAAGATTGAGAAGTATTTTTCGTCATTTAGCTACATTACGTAATGACATTCAAATGCAAAATTTGATACACGCTCCTTGTAACTTTTTGTCTATGGGGATGAGTAATGATTATACAATTGCTGTGGAAGAAGGTGCTACTCATATACGAGTTGGTACAAACTTAGTGGGGTGA MDVASNLQTIQENIAHACQACQRKKEDITIIAVTKYVTIERAEETLQAGITDLGENRLEGFLEKYNHFHGRANWHFIGTLQSRKVKDVINHIDVLHSLDRISLAKEIEKRANKQIDCFIQVNVSGEESKHGVRPEQLFTFIENLKTYSKIRVIGLMTMAPHIKDEARLRSIFRHLATLRNDIQMQNLIHAPCNFLSMGMSNDYTIAVEEGATHIRVGTNLVG NA NA NA NA NA AK015_00698 810 rl5 Polyphenol oxidase TTGAGTGACGTCTTTCATTCATTGCAAACAACGTATTTACATATAGAGAAATGGCAACGATTAAACGAACGAATTGTAGCTGGATTTACAACTAAAAAAGATGGTGTTAGTGATGGGAGCTATACATCCTTAAATGTCGGTTTCCATGTAGACGATTTGTCAAAGAATGTATTATTGAACAGGGAACGTATTGCACGTAATGTTCGATTCCCTTTGGAGAACTGGGTATGTGGCCAGCAAGTACATCAAACAAATATTCATTTTGTTCGTCCATCAGATAAGGGAAAAGGTGCTCAAAATTATCATTCTGCCATAAAGGGAGTTGACGGTCTCATTACTAATCACTCTAATATCATGTTATCGGCTTTTTTTGCAGACTGTGTCCCACTATATTTTTATGATCCTGTAACATCTTTTATTGGAATTGCTCATGCTGGATGGAAAGGAACGGTTCACCAAATGGCCAAGCATATGGTCGAAAAGTTACAACGATATGGAGTTGAGAGAGAAAATTTACTTGTTACCGTAGGACCATGCATTTCGAAAATGTGTTATGAAGTGGATGCACATGTAGTAAATCAAATCCCCACAATTTTTAAAGCAAACGTAGTTGATACAAAGGCAGAAAACCGTTACTTACTAGATTTGAAACAATTAAATGTAGATATCCTTTTACAATCAGGGGTATTACGTAATAATATAGATGTAACAAATTACTGCACATATCGCGATGAAACACTTTTTTTCTCACATCGCAGAGATCATGGGGAAACAGGGCGAATGTTAGGTTTTATTGGCTTTTTACCATGA MSDVFHSLQTTYLHIEKWQRLNERIVAGFTTKKDGVSDGSYTSLNVGFHVDDLSKNVLLNRERIARNVRFPLENWVCGQQVHQTNIHFVRPSDKGKGAQNYHSAIKGVDGLITNHSNIMLSAFFADCVPLYFYDPVTSFIGIAHAGWKGTVHQMAKHMVEKLQRYGVERENLLVTVGPCISKMCYEVDAHVVNQIPTIFKANVVDTKAENRYLLDLKQLNVDILLQSGVLRNNIDVTNYCTYRDETLFFSHRRDHGETGRMLGFIGFLP PGPT0019965_913 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 AK015_00699 267 ylmC_2 COG1873 putative sporulation protein YlmC ATGGTTAGGTTATCAGAACTGCAAGTAAAAGAGGTTATTATTATGGATAGTGGAAGGAAACTTGGTCATATACATGATTTAGAAATAGATACAAAGTTGGGGAAAATAGCTGCTATTATTGTTATTCCAAGGGATAAGAAAGGCGGTCTATTTGGAAAATCCGAGGAATTAGTGATTGACTGGCAACAAATAATACGAATTGGTACCGATGTTATTCTTGTAAAAGAAGCGGAAAAGCCAGCATTATATTATAACTCAAGCACATAA MVRLSELQVKEVIIMDSGRKLGHIHDLEIDTKLGKIAAIIVIPRDKKGGLFGKSEELVIDWQQIIRIGTDVILVKEAEKPALYYNSST NA NA NA NA NA AK015_00700 783 sigG COG1191 RNA polymerase sigma-G factor ATGACGAGACATAAGGTTGAAATATGTGGTGTTGATACATCAAAATTACCCGTATTAAAGAACGAAGAAATGCGGAAACTGTTTAAAAAAATGCAGGAGGAAGATGATTTAGCTGCTCGTGAAGAGTTGGTAAATGGAAATCTAAGACTAGTTCTAAGTGTAATACAACGGTTTAATAATCGAGGAGAATACGTTGATGATTTGTTTCAAGTGGGCTGCATCGGATTAATGAAATCCATTGATAATTTTGATTTATCCCATAATGTTAGATTTTCCACTTATGCTGTTCCGATGATTATTGGGGAAATCAGAAGATACTTACGAGATAATAATCCCATTCGTGTATCAAGATCCTTACGTGATATTGCGTATAAAGCATTGCAGGTGAGAGAAAATTTAATAAGCAAGACTTCAAAAGAACCAACTCCAATGGAAATAGCAGAAGAATTGGGGATTCCCCACGGAGAAGTCGTTTTTGCTTTAGATGCGATTCAAGACCCTGTATCTTTGTTTGAACCAATATATAATGATGGTGGGGATCCTATCTATGTCATGGATCAAATAAGTGATGACAAGGAAAAAGACTCCACTTGGCTGGACAAATTATCTTTAAAGGAAGGGATGCACCAATTAAATGATCGAGAAAAAATGATTTTAAACAAGCGCTTTTTTCAAGGAAAGACGCAAATGGAAGTTGCTGATGAAATAGGAATCTCACAAGCCCAAGTGTCTCGGTTGGAAAAGGCAGCTATTAAACAAATGAACAATGAAATGTTTGAATAG MTRHKVEICGVDTSKLPVLKNEEMRKLFKKMQEEDDLAAREELVNGNLRLVLSVIQRFNNRGEYVDDLFQVGCIGLMKSIDNFDLSHNVRFSTYAVPMIIGEIRRYLRDNNPIRVSRSLRDIAYKALQVRENLISKTSKEPTPMEIAEELGIPHGEVVFALDAIQDPVSLFEPIYNDGGDPIYVMDQISDDKEKDSTWLDKLSLKEGMHQLNDREKMILNKRFFQGKTQMEVADEIGISQAQVSRLEKAAIKQMNNEMFE PGPT0014795_181 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 AK015_00701 723 sigE COG1191 RNA polymerase sigma-E factor ATGTTGAGAATTTCTAAATTGCGTCTTCGTTTATGGTGGCTTAAATTATTAGTAAAGCTACGTATAAAATCAGAAGAGATTTATTACATTGGTGGTAGCGAAGCACTACCTCCACCTTTGTCTAAAGAGGAGGAGCAGGAATTATTAGCTTTATTGCCTAAAGGGGATAAATCGGCTAGAGCCATCTTAATAGAGCGTAATTTACGTTTAGTCGTTTATATAGCTAGAAAATTTGAAAACACGGGAATTAATATTGAAGATTTAATTAGCATAGGTACAATCGGTCTTATTAAAGCTGTTAATACCTTTAATCCAGAAAAAAAGATAAAATTGGCAACGTATGCATCTCGCTGCATTGAAAATGAAATTCTCATGTATTTACGACGAAATAATAAATTAAAATCAGAAGTTTCTTTTGATGAGCCATTGAATATAGATTGGGACGGAAATGAATTATTGCTTTCTGATGTTTTAGGGACGGATGAAGATATTATAACCCGAGATTTAGAAACGAATGTAGATAAGCATTTGTTAAAAAACGCCTTATCACAGCTTAACCCTCGTGAAAAACAAATTATGGAATTGCGTTTTGGACTTATTGGTGAAGAAGAAAAAACACAAAAAGATGTAGCCAATATGTTAGGAATTTCCCAATCCTATATATCCAGATTGGAGAAAAAAATAATTCGACGATTAAAAAAAGAATTTAATAAAATGGTTTAA MLRISKLRLRLWWLKLLVKLRIKSEEIYYIGGSEALPPPLSKEEEQELLALLPKGDKSARAILIERNLRLVVYIARKFENTGINIEDLISIGTIGLIKAVNTFNPEKKIKLATYASRCIENEILMYLRRNNKLKSEVSFDEPLNIDWDGNELLLSDVLGTDEDIITRDLETNVDKHLLKNALSQLNPREKQIMELRFGLIGEEEKTQKDVANMLGISQSYISRLEKKIIRRLKKEFNKMV PGPT0014795_1036 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 AK015_00702 921 spoIIGA Sporulation sigma-E factor-processing peptidase ATGACTATTTACTTGGATGCAGTTTGGGCGTTGAACTTTTTATTGGATTTTATGCTGCTAATGCTTACCCAAGCATTGGCTAGAGATGATACGAAAAAGCTTCGTTTAGCTATTGGAGCGTTCGTTGCATCCTTGACCGTACCTATTTCTATCTATTTTCCTGAATCTATTGCTACTAGTGTGCCAGGGAAAATAGTAGCATCTGGCATTATTATTATTGTTGCCTTTGGCTACAGAAATAAGTATCGATGGGTAAAGCTATTTGCATTATTTTACTTTGTAAGCTTTTCGATAGGAGGTGGTTTAACGGCTATCCACTTTTTACTCCAACGGCCATTTTATGTGCATACAAATGGCTTTTTAACGTATAACAGTGGTTTCGGTGATCCGATAAGTTGGTTGTTTATAGTAATTGGTTTTCCAATAGTGTGGCTGTTTACAAAATTCCGTTTGGACAAGCACGTACAAGAAAAAATTCGTTATGACCAAATTTTACCAGTAACTATTGAAATGAAAGGAAAAAGTTATTCAACAACAGGATTTATTGATAGTGGAAATCAATTAACCGATCCAATTACTAAAAAACCAGTTGTCCTATGTGATGAAGTGTTTTTAAAGCAATGGTTCTCTGAACAGACTTGGGCGGATCTGGAGCGTTGCTATCATACTTTTCAAATTGAAGCATTACCAGCGGAGTGGGAGAAATATTTACAAATAGTACCTTATCAAGGTGTAGAAGGAAATAATATGTTTCTATTTACGCTACGTCCCGAACGAATCATTATTTACTATGGAGAAGAACGAATTACAACAAGAAAAGCGTTAATCGGGATTCAGTTTGGAGAATTAACAAAAGATGCAAGTTATCATTGTTTATTACATCCGAGAATGATTCAAACATCTACCATTCATAGTGCATAA MTIYLDAVWALNFLLDFMLLMLTQALARDDTKKLRLAIGAFVASLTVPISIYFPESIATSVPGKIVASGIIIIVAFGYRNKYRWVKLFALFYFVSFSIGGGLTAIHFLLQRPFYVHTNGFLTYNSGFGDPISWLFIVIGFPIVWLFTKFRLDKHVQEKIRYDQILPVTIEMKGKSYSTTGFIDSGNQLTDPITKKPVVLCDEVFLKQWFSEQTWADLERCYHTFQIEALPAEWEKYLQIVPYQGVEGNNMFLFTLRPERIIIYYGEERITTRKALIGIQFGELTKDASYHCLLHPRMIQTSTIHSA PGPT0024680_182 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024680-spoIIGA-K06383 NA NA AK015_00703 612 COQ5_2 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGGGGATTAACTTTCATAACCAAAGAAATCGTATTACTTATACAACACGGAGAGCTGACAATTCATGGATTAGAACAATAAACAAACTTATATCCATCAGAGAGATTTCAAAGGCTGCAGATATTGGATGCGGTGGAGGAATTTATTCTAAGGCAATGGCGGACATTGGTATAAGCTCTGTCACTGGTGTAGATTTTTCCAAGGCCATGCTTGAAGGGGCTAGAGAAAATTGTAAGGAATACAATAATATTTCATTTCAGTATGGCAATGCTTTAGAAACAGGTTTAGATACTAACAGCTTTGACTTCGTTCTTGAAAGAGCACTCATACATCATATTAAAGACTTGCAAAGTTGTTTTAAAGAAGCTTACAGGGTTCTGAAAGATAACGGTTTTTATATTATTCAAGATCGCACCCCTGAAGATTGTTTGCTTGAAGGTAATGATAACCATATTAGAGGATATTTCTTTGAATGCTTTCCAAAACTAACCAAAAAGGAAATTAATCGTAGGCACAACAGCCAAGTTGTAATTAGTATGTTAAAGGCAACAGGTTTTAAGGATATCAAGCAAGTGAAGTTCTGGGAAATAAGAAAAATGCATGAAAATTAG MGINFHNQRNRITYTTRRADNSWIRTINKLISIREISKAADIGCGGGIYSKAMADIGISSVTGVDFSKAMLEGARENCKEYNNISFQYGNALETGLDTNSFDFVLERALIHHIKDLQSCFKEAYRVLKDNGFYIIQDRTPEDCLLEGNDNHIRGYFFECFPKLTKKEINRRHNSQVVISMLKATGFKDIKQVKFWEIRKMHEN NA NA NA NA NA AK015_00704 1065 aes Acetyl esterase ATGAATGTAACCACAGATCAGCTAATGAAGACTGTGAACACAGATGATACGCGAATGCAAGTAAAGCCTGTGCCGGGAAAAGACGAGTCAGGTCATATCGACCCACGTACGCTTGAAGAGCTAAGTATGACTGGAGAGGAATCGTCTTCAGAAGAAAAAACGAGTGAACCTACAGTCGAGATGATGCGTGCTGGAATCGGATGGTCCAACGCCAAAGATATTACTACAAATGAATTAATGATAGAAGACACGGAATTTGCGGGTATCCCTGTTCGAACATATGTAAAAAAAGATATAGCAAATGACGTATTACCAGCCATCATTTTCTATCATGGGGGAGGTTTTTTTGGTGGTTCTTTAAATAATGTTGATTTACCATGTAGACGGTTAGCAGATTTGGCGGAGGTACGTGTTTTCTCTGTAGAATATGGCTTAGCACCAGAACACCCCTACCCAGAAGCTGTTATAAACGCACATCAATCAGTCGTTTATATTCATCATCACCACGAGGAATTAAAAGTAAATGCAAATCATATCAACGTCATGGGCGATTCAGCTGGGGGAAATTTAACGTATGTCGTTTCCTTATTAGATCGATTATATGGTACGAACTATATTAACTATGCCGTTTCCATATATCCCGTTGTATATCAAGGGAAAAATGAAGCGTTATTAAATCGTTTTTATGACTTATCTGCAATTCATGCACATGAACATAAAGACTTGGTGCATAAGCATATAAAAGGATTTATGCATTTCTTTCATTTTATTGATCAATGGTATATTCAAGGTGCGGATGCAGAAAGCTGGATGATTTCACCGTATAATGTGGAGGGAAATTTACTAAAAAACATGCCACGAACTTTATATATTGCTGGGGAATATGACGCACTACGCCTTCAAGGAGACGCGTTTTATGAAAAAGCAAAACAAGCAGGCGCAGATGTGTATTGCCTACGCTATAACGGAATGATTCACGCATTTATGGATAAGGTCGGTGACTATGTCCAAGCAGACGATTGTCTAAAAGAGTCCGTGAAGTTTATCTTAGAAGAAGCGGAATAA MNVTTDQLMKTVNTDDTRMQVKPVPGKDESGHIDPRTLEELSMTGEESSSEEKTSEPTVEMMRAGIGWSNAKDITTNELMIEDTEFAGIPVRTYVKKDIANDVLPAIIFYHGGGFFGGSLNNVDLPCRRLADLAEVRVFSVEYGLAPEHPYPEAVINAHQSVVYIHHHHEELKVNANHINVMGDSAGGNLTYVVSLLDRLYGTNYINYAVSIYPVVYQGKNEALLNRFYDLSAIHAHEHKDLVHKHIKGFMHFFHFIDQWYIQGADAESWMISPYNVEGNLLKNMPRTLYIAGEYDALRLQGDAFYEKAKQAGADVYCLRYNGMIHAFMDKVGDYVQADDCLKESVKFILEEAE NA NA NA NA NA AK015_00705 354 hypothetical protein ATGATGACGAAACATAAGATTTATACGATGCGTTTCGCCAGTGTTTATCCGCATTATGTAACGAAAGCAGAGAAAAAAGGACGTAGTAAAGCAGAAGTTGATGAGGTCATTCGGTGGTTAACAGGATATAACCAAGAAGAGTTAGAGGCACAACTGGAAAAACAGACTGATTTTGAGACCTTTTTTGCGCAAGCTCCGCAATTAAATCCTTCACGAGTTTTCATTAAAGGAGTTATTTGTGGCGTTCGAGTGGAGGACATTGAAGAACCGACGATGCAGGAAATTCGCTATTTGGATAAACTGATTGATGAATTAGCCAAGGGAAAAGCGATGGAGAAAATATTGCGTAAATAA MMTKHKIYTMRFASVYPHYVTKAEKKGRSKAEVDEVIRWLTGYNQEELEAQLEKQTDFETFFAQAPQLNPSRVFIKGVICGVRVEDIEEPTMQEIRYLDKLIDELAKGKAMEKILRK PGPT0003760_123 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013 NA NA AK015_00706 966 hypothetical protein ATGCGAGCAGATCGATTAATGACGATTATGATTTTGTTGCAAAATAGAGGGAAAATGACGGCGAGGGATTTAGCTAGTGAATTAGAAGTTTCCGTTAGAACGATTCTAAGAGATATGGACGCATTAAGTACTGCGGGGATTCCTGTTGTATCGGAAAAGGGGAAGGAGGGAGGATGGCGTCTGTTAGATAACTTTCGCAGTACCTTAAGTGGCTTACATATAGATGACATGAAATCCCTATTTCTCTTCCCTTCAGGAAAATTACTTGAGGATTTAGGGTTAAATAGCCAAGCATTAGATACGAGGGAAAAATTATTTGCAGCCATACCAAATACGTATCGTAACGAAGCGCAAACCATGTGGGAAAGAATTCACATCGATGCGAGCACTTGGCGACAATCCGAGGGAAAAGTGGGCGCTCTTAAAATTGTTCAACAAGCTGTTTGGGAAAGTAAAAAGTTACGCATGCATTATGAACAAGCTAATGGTGAACGAAAAGAAAGATTAGTTGAGCCATTAGGGTTGGTGGCGAAAGGGAGTAACTGGTATCTAGTCGCATTAAGAAATGGAGAGCTACGTAATTATAGGATTTCACGCATACACCATGCGAAGGTGGAAGAGGAAGCTTTTGATAGACCACAGGATTTTAACTTAGCGGCATATTGGGAACAGTCAAAAACAGATTTTATTCAAAACCTACCTAAGTATGATGTGCAAGTAAAAGTAGACCCAGAAATAATGAAGCGGCTTCAGTTTACAGGTAAGTTTGTTCAAGTTATAGAAACTGAGCATCAACGTGATGGTCAACAGATAGCAGCGACTGTACGTTTTCATGATGAGCAAGAGGCGATTGAATTTCTATTAGGGTTTGGAAATAAACTGAAGGTGATTTCGCCAAAGGACCTTCCAAATAAAATCGTAGCGCTTGCTAAGTCTGTTATTGAATACTATCAAAGTGTCGAATAG MRADRLMTIMILLQNRGKMTARDLASELEVSVRTILRDMDALSTAGIPVVSEKGKEGGWRLLDNFRSTLSGLHIDDMKSLFLFPSGKLLEDLGLNSQALDTREKLFAAIPNTYRNEAQTMWERIHIDASTWRQSEGKVGALKIVQQAVWESKKLRMHYEQANGERKERLVEPLGLVAKGSNWYLVALRNGELRNYRISRIHHAKVEEEAFDRPQDFNLAAYWEQSKTDFIQNLPKYDVQVKVDPEIMKRLQFTGKFVQVIETEHQRDGQQIAATVRFHDEQEAIEFLLGFGNKLKVISPKDLPNKIVALAKSVIEYYQSVE NA NA NA NA NA AK015_00707 534 IS1595 family transposase ISCac2 GTGAAGCAGCATCGAAATGTCGTATTATTTATCGCCGCAAGCTTAGATGGATACATTGCCACGAAAGACGATTCTCTGGAGTGGTTATTTCAAGTAGATGGTGAAGGAGATAACGGATTTGCGGCGTTTTATGAAACCGTTGATACCGTTTTAATGGGGAAAAGAACCTATGATTGGATTATGGAACAAGGCATGCAAGAATTTCCGTATAAGAATAAGCAAAGCTATGTATTTACGAGGTCTTCTGTTACGGATATGGACAACGTGAAGTTTGTGTCTGACGATGTGTCTGATTTTATTCAGCACTTAAAACACGGAGAAGGAAAAGACGTTTGGATTGTGGGTGGAGGAGAATTATTGCATACTTTTCTACAAGAAAAACTGCTAGACGAACTTATCCTAACCGTTGCCCCAACTATTTTAGGTAATGGAATTCCATTATTTAAAAAAGGCGATTACCAATTAGATCTTTTCTTGAAAAAAACGAAGCGATTTAATCAATTTGTTGAATTGCATTATGAAGTGAAAAGGTGA MKQHRNVVLFIAASLDGYIATKDDSLEWLFQVDGEGDNGFAAFYETVDTVLMGKRTYDWIMEQGMQEFPYKNKQSYVFTRSSVTDMDNVKFVSDDVSDFIQHLKHGEGKDVWIVGGGELLHTFLQEKLLDELILTVAPTILGNGIPLFKKGDYQLDLFLKKTKRFNQFVELHYEVKR NA NA NA NA NA AK015_00708 201 hypothetical protein ATGGATCAAAAATTAATTGCTGAAGTTTATAGACTTGGATTACTCATTCACTTTTTTACTGTGGAGGAGGTTATTCATTGGGTGGATCATTACATTGAAAAAAATGGATATATCCTTTTCAGTGGCATTGGTTTTAAAGGCACGCCAAGAAAAAACAGCTCTAATAGAAGAGCTGTTGCCTTACATCATCCCTTTTTCTAA MDQKLIAEVYRLGLLIHFFTVEEVIHWVDHYIEKNGYILFSGIGFKGTPRKNSSNRRAVALHHPFF NA NA NA NA NA AK015_00709 1494 aldA Putative aldehyde dehydrogenase AldA ATGAACAGCAAAGTGAACACAAAACAACTTATTGATCCATCTTATAAATTATATATTGATGGCAAGTGGACAGAAGGCACCGAGGGAAGAAAACTAGCAAGCTATAGTCCTAGTACAGGCGAAAAACTCTCTGAAATTATTGATGCAACACACGCCGATGTCGATGCAGCAGTAGAAGCAGCGACAAAAGCATTTCAATCTTGGAAAACCGTTGGCATTGAAGAAAGAAGCAAATTACTTCTACAAATTGCTGATTTGATAGACAAAAACACAGATCATCTAGCCATGGTGGAAACGTTAGATAATGGTAAACCAATTAGAGAATCACGCGGTGCTGATGTTCCTTTATGCGCTGACCATTTCCGCTATTTCGCTGGCGTTATTCGTTCTGAAGAAGGAACTGCCAAAGAGCTAGATAATGATACATTAACGTTAACGCTAAAAGAACCAATTGGAGTAGTAGGGCAAATTATTCCATGGAACTTCCCATTACTAATGGCGGCGTGGAAAATCGCTCCAGCCATTGCAGCAGGGAATACGGTTATTATTCATCCATCTTCCTCTACGTCCCTTAGTTTATTAGAATTGGCGAAGTTACTAGACCAAGTGTTACCAGCAGGCGTCGTCAATGTAATTACCGGTAGAGGTGCTGATTCGGGTGATTATATGCTTCACCACGAGGGTATTAGCAAATTAGCCTTTACAGGATCAACAGAAGTTGGTTATACCGTAGCCAAAGCAGCCGCTGACCGTTTAGTGCCATCGACATTAGAGCTAGGTGGAAAGTCGGCCAATATTTTCTTTAATGATGCGCCATGGGAACGAGCGATTGAAGGTGCACAATCAGGCATTTTATTTAACCAAGGACAAGTATGTAGCGCTGGATCACGTATTTTCGTTCAAGAAGGCATTTATGATAAATTTGTCAGCGAACTAAAAGAAGCGTTTGAAAATATTACAGTTGGACTACCTTGGGAAGATGGCGTGCAAATGGGGGCACAAATCAACCAAAAACAGCTAGATAAAATTTTACAATATGTTGAAATTGGCCAGCAAGAAGGTGCTAAACTCATTACAGGTGGTTACCAAATAAAAGAGAATGGTATGGAAAATGGCGTTTTCATGGCACCAACTATTCTTGCTGATGCAGATAACCATATGCGTATCTCCCAAGAGGAAATCTTCGGACCTGTAGCTACGGTGATTAAATTTAAAACCGAAGAAGAAGTAATCCGTTTAGCCAATGACTCCGAATACGGTCTTGGTGGTGGCGTATGGACAAGAGATTTAAATACTGCCTTGCGTGTAGCTCGTAAAGTAGAGACAGGTCGCATGTGGGTGAACCAATATACAAACTTCTCCGCTGGCGCTCCATTTGGCGGTTATAAAAAATCAGGTATTGGTCGTGAAACATATAAAAGTATACTCGACGCATATACCCAAACAAAAAATATTTTCATTAGCATGAAAGAAGAAAAAGACGGACTCTATTAA MNSKVNTKQLIDPSYKLYIDGKWTEGTEGRKLASYSPSTGEKLSEIIDATHADVDAAVEAATKAFQSWKTVGIEERSKLLLQIADLIDKNTDHLAMVETLDNGKPIRESRGADVPLCADHFRYFAGVIRSEEGTAKELDNDTLTLTLKEPIGVVGQIIPWNFPLLMAAWKIAPAIAAGNTVIIHPSSSTSLSLLELAKLLDQVLPAGVVNVITGRGADSGDYMLHHEGISKLAFTGSTEVGYTVAKAAADRLVPSTLELGGKSANIFFNDAPWERAIEGAQSGILFNQGQVCSAGSRIFVQEGIYDKFVSELKEAFENITVGLPWEDGVQMGAQINQKQLDKILQYVEIGQQEGAKLITGGYQIKENGMENGVFMAPTILADADNHMRISQEEIFGPVATVIKFKTEEEVIRLANDSEYGLGGGVWTRDLNTALRVARKVETGRMWVNQYTNFSAGAPFGGYKKSGIGRETYKSILDAYTQTKNIFISMKEEKDGLY PGPT0006875_3512 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128 NA NA AK015_00710 1191 hypothetical protein TTGGAAAGAGTAGTCGGAACAGTTGTTAGAGGACTTCGTTGCCCCATTATAAATGAAGGAGACAATATTGAAGAAATTGTTGTCGATAGCGTATTGAACGCCTCCAAGGTGGAAGGTTTTCCAATAAATGATAAGGATATCGTTACAGTTACGGAATCCGTCGTAGCACGTGCGCAAGGGAATTATGCATCAATCGACCATATTGCTACAGATGTTCATGCCAAATTTGGCGACGAGGCAATTGGAGTTATATTTCCTATTTTAAGCAGAAATCGTTTTGCTATTTGTCTACGTGGTATTGCCAAAGGTGCTAAAAAAATTGTCTTAATGCTGAACTACCCTTCTGATGAAGTAGGAAACCATTTAGTAGATCTTGATATGCTGGATGAAAAAGGAGTAAATCCTTGGACAGATGTGTTAACAGAAGAACAATTCAGCGATCTTTTTGGTCATCAAAAGCATACATTTACTGGTATTGACTATATCGATTATTATAAATCCATTGTGGAAGAGTACGGCATTGAATGTGACGTTATTTTCGCCAATGACCCTAAAACCATTTTAAATTACACGAAAAGTGTACTCAGCTGTGATATTCATTCACGATTCAGAACGAAAAGAATTTTAACAGCTCATGGTGCTGACAAAGTTTACAGTCTGGATGACATCTTAAAAGATTCTATCGATGGTAGTGGTTATAATGAAACATATGGACTATTAGGGTCTAATAAATCTACTGAAAATACCGTTAAGCTTTTCCCTAGAAATTGTCAACCCGTAGTCGATAAGATTCAACAAATGCTTAAGGAGAAAACTGGGAAAAATGTAGAAGTGATGGTATACGGAGATGGTGCATTTAAAGATCCTGTAGGGAAAATTTGGGAACTTGCTGATCCTGTTGTCTCACCTGCTTATACATCTGGACTTGAAGGTACACCAAACGAGTTAAAATTAAAATATCTTGCGGATAATAATTTTGCCGACTTAAAAGGAGAAGCACTTCAAGAAGCGATTAACAACTATATTGAAAATAAAGGCGAAGATCTTGTTGGTTCCATGGAAACACAAGGAACAACGCCGAGAAAGCTGACAGACTTAATCGGGTCCTTATCTGACTTAACATCAGGTAGCGGCGACAAAGGAACACCGATTATTTACATCCAAGGCTATTTTGATAATTATACGAAATAA MERVVGTVVRGLRCPIINEGDNIEEIVVDSVLNASKVEGFPINDKDIVTVTESVVARAQGNYASIDHIATDVHAKFGDEAIGVIFPILSRNRFAICLRGIAKGAKKIVLMLNYPSDEVGNHLVDLDMLDEKGVNPWTDVLTEEQFSDLFGHQKHTFTGIDYIDYYKSIVEEYGIECDVIFANDPKTILNYTKSVLSCDIHSRFRTKRILTAHGADKVYSLDDILKDSIDGSGYNETYGLLGSNKSTENTVKLFPRNCQPVVDKIQQMLKEKTGKNVEVMVYGDGAFKDPVGKIWELADPVVSPAYTSGLEGTPNELKLKYLADNNFADLKGEALQEAINNYIENKGEDLVGSMETQGTTPRKLTDLIGSLSDLTSGSGDKGTPIIYIQGYFDNYTK NA NA NA NA NA AK015_00711 144 hypothetical protein ATGGAAGGCATTGTAAATAACAAAGCAGGTTTCCATGTAACTCTCAATGATAGATGGAGGTTTCTCTCAATTGGTACAAATAAAGGGTTTCCTGAGAGAAAAGAGGGGTGCAAAGAAAAACATGCGATGATTAAATTTGTGTGA MEGIVNNKAGFHVTLNDRWRFLSIGTNKGFPERKEGCKEKHAMIKFV NA NA NA NA NA AK015_00712 471 hypothetical protein ATGAAAGTAAAGTCATTTAAGTACCTACTTACTTCTATATCTGTGCTCATTTTGGTTTATCATTTGATAAATATGTTTCAATTTTGGCCAGAAATTCCAGAACGTATAGCAATTCATTTCACAAAAGGGGAACCAGATAATTGGGGTTTGAAATACTTTCTACTAGTCATTCCTTTAATAGGATTATTTTCATGGTGGTTAATCGGTTTACTAACGAAGCGTCCTGAAAAATTAAATTATATTAATTTAACTGAGAAAAACCGAGATAAACAATACACTATGGCGAAGAAAATAATGATTCTAATGCAGAATTTATTGTTTATAATCTCCATATTCGCTAATGAATCTCTTTTGAGATATGCAGCAGGAATGGAAAATAGTGTATTTAATTTCTTCTCTCTATTTTTATTAGCAGTAATTTTGATCTCTCTTTTTTTCAATCTAATTTGGGCGGCAACATTAAAAGAGTAG MKVKSFKYLLTSISVLILVYHLINMFQFWPEIPERIAIHFTKGEPDNWGLKYFLLVIPLIGLFSWWLIGLLTKRPEKLNYINLTEKNRDKQYTMAKKIMILMQNLLFIISIFANESLLRYAAGMENSVFNFFSLFLLAVILISLFFNLIWAATLKE NA NA NA NA NA AK015_00713 459 hypothetical protein ATGATGATTAGACGACTTTTGTTTCTATTCCTCTTAGCTGTTCTTTTATTATCAGGTTGTAGCACAAGTGATGATTTGTCGGGAAAGACTTTCGATGTTAGTGTGAGATCCTCACCTAATAATCCTGATAAATATCACGCTATAATGACATTAGAATTTTTAGATGGAAAAGTAATCAATCATTCTATTGCCGGTGAAGAAGGGACATATGAACTAAAAGATGACAACTTTGTGATTCAGTTTGAAAATGAAAATGAGTCTTTACAAATAGAATTCACACTTAAAGAAAGTGATAAAGAATTTAGCCAGTATTCTGCAGAGATCATTGATTCAGATTTCCAAATGGAAGACGCTGAGCAAGTAAGCAAATATAAACAATTATACTTAGATTTACCTAGCTCTCATGTTGAAATTATAGAAAGACAAAAAGGTTTGATGAAAAAGTGGAACCCCCAATAG MMIRRLLFLFLLAVLLLSGCSTSDDLSGKTFDVSVRSSPNNPDKYHAIMTLEFLDGKVINHSIAGEEGTYELKDDNFVIQFENENESLQIEFTLKESDKEFSQYSAEIIDSDFQMEDAEQVSKYKQLYLDLPSSHVEIIERQKGLMKKWNPQ NA NA NA NA NA AK015_00714 1914 rep ATP-dependent DNA helicase Rep GTGGCCATTACCATACCGGAATCAATTCGAAGCTCAGCGACTGCAGGAGAGCGTATTCTTTTTCATACGTTAAAAGAATACCTCGATGATGATTACATTGTTTATTATGAACCTGAAATTAACGGAAAAAGACCAGATTTCCTTATTATTGGGCCTTATTTGGGCTTGCTTGTTTTAGAAGTGAAAGATTATACCGTTAATACGCTACATCGTCTTACGCAAGAAGAATGGATTATTAATAGCAAAAATGACGGGGTAGTAACTGTCAAGTCGCCCTTAAAACAAGCGAAAGATTACATGTTTGCTGTGCAGAACTTACTAAGAAAAGACAAAAATTTAACACAACAAGAGGGAAAATATCAAGGAAATTTGAAGTTTCCTTGTGGGTTTGGGACTGTTTTTACACGGTTAAGTCAGAAGCAATGTATCAAAACAGACCTTTACGAAGTGATAGATCCGAACTTTCTATTAACTCGTGAAGAAATAGATCCAGACCAAGATGAATTTTCAGAAGATTTATTAATAGAAAAATTGATGAACATGTTTATTATATCTTTTCGTTTAAGGGACCCTTTATCTAGTGAAGAAATGAATGCAATTCGTTATCATCTGTTTCCAGAAGTGCGAATTAGCCGTGAGTTCAAACAAGCAGCTCCGTATCGAGACCAGTTATTGCTTTCTTTACATAATTTAGAAACAATGGATTTACATCAAGAAAAGTTAGCCAAGCAATTAGGGGATAAAAATCGTTTAATTAGAGGCGTAGCTGGTAGTGGTAAAACATTGATTTTAGCAAGCCGGGCAAGACTAATAAAGCAACAACATCCAGACTGGAATATTTTGATTCTTTGTTATAATATTTCTCTTTCACGTTCAATTGAATCGATGGTGCGTGCAAAAATGGAAGAACCGACGGATTTATTTGAAGCAACTTTAGAACCTGAGGATCGGATGCAAGGTATCACGGTAAGGAACTTCCATGAGTGGTTGAAAAAAGATTTACATATATCTGAAGCGCAACTTCCTACCATTATAGAGAAGTTAAAAAATAAGGAGACGATTCTTCCTAAGTATGAGGCGGTACTCATTGATGAGGGGCAAGATTTTGAAGCTGATTGGTTGATACTGGTTAGCCTCTTATTGAATGAAGATACGTATTCCATGTTGTTAGTGGAAGATCGTGCACAAACGATCTATCAGCGGAGGAGAAATTACTTGCAAAATACAGGGCTTGATTTTAGAGGTCGTTCTAAAATTTTGCAAATCAATTACCGTAATACATCGCAAATTATTCAGTTCGCCTGGGATTTTTATCAAACGCATGCAGCTTCAAACAAAGTTGTTACGGGTACCGTGGAAGGACAAGAAATCATTCCTCCACAAAGTACTCGACGTAAAGGTCCTGATCCCATACTTGTACGAGCCAATAGCTGGCAAGAAGAAACACGGATGGTAGCCAAGAAAATGATGGCACTCCATCAAGAAAAGAACGTTCCATATGAAGAAATGCTTGTTTTATATCGGGTAAAACGAACACATAAAATAGATATTGTGAACACGTTGAAAAGCACGTTGAAACAGCATCAAATTCCTTATACATGGGTAACAGAGAGCCAGGAATCTAAACGTACCTACAGGAAAAACGACGGTTCTGTAAAAATATCAACGTTTGATAGTAGCAAAGGACTGGATTTTCAAGCGGTGTTTATTGTAAATGCAGATAATACACCGTTTGCTTTAGAAGAAGATAAAAATAGAGAAGCAGCTTTGATGTATATAGGGATGACGCGTGCAATTGAGCATTTGATGATTTCTTATAGTGGTGAATCCGCATACACGACCTACTTTGATCATATTTTGGAAACAAGGCAAGCAACAGCGGAAAATCAATTCATGAATAAGTATGGTTCGTAA MAITIPESIRSSATAGERILFHTLKEYLDDDYIVYYEPEINGKRPDFLIIGPYLGLLVLEVKDYTVNTLHRLTQEEWIINSKNDGVVTVKSPLKQAKDYMFAVQNLLRKDKNLTQQEGKYQGNLKFPCGFGTVFTRLSQKQCIKTDLYEVIDPNFLLTREEIDPDQDEFSEDLLIEKLMNMFIISFRLRDPLSSEEMNAIRYHLFPEVRISREFKQAAPYRDQLLLSLHNLETMDLHQEKLAKQLGDKNRLIRGVAGSGKTLILASRARLIKQQHPDWNILILCYNISLSRSIESMVRAKMEEPTDLFEATLEPEDRMQGITVRNFHEWLKKDLHISEAQLPTIIEKLKNKETILPKYEAVLIDEGQDFEADWLILVSLLLNEDTYSMLLVEDRAQTIYQRRRNYLQNTGLDFRGRSKILQINYRNTSQIIQFAWDFYQTHAASNKVVTGTVEGQEIIPPQSTRRKGPDPILVRANSWQEETRMVAKKMMALHQEKNVPYEEMLVLYRVKRTHKIDIVNTLKSTLKQHQIPYTWVTESQESKRTYRKNDGSVKISTFDSSKGLDFQAVFIVNADNTPFALEEDKNREAALMYIGMTRAIEHLMISYSGESAYTTYFDHILETRQATAENQFMNKYGS NA NA NA NA NA AK015_00715 171 hypothetical protein ATGATCGTAAATATCTTCCTTGGTTTAATTATATTTGGTTATGCGGGTTGGATGATGGTACGCCATATTAAAAAAAGCAAACAAGGCAAGTGTGCAGCTTGTCCGCTCAATAAGTCATGTAGCGGTTCTTGCTCTGAAACGGAATCAGACTCTATGACGGAGATGAAATAG MIVNIFLGLIIFGYAGWMMVRHIKKSKQGKCAACPLNKSCSGSCSETESDSMTEMK NA NA NA NA NA AK015_00716 2010 feoB_3 COG0370 Fe(2+) transporter FeoB ATGTCACAGTTTGCATTACTAGGAAACCCGAATACAGGTAAAACGTCCCTGTTTAATCATTTAACAGGTTCTTATGCATATGTAGGGAACTGGAGCGGTGTAACGATTGAAAAAAAGGTGGGAAAGCTTCGCCACCAAACAGATTTGCTTGTTGACTTGCCTGGTATATACTCTTTAAATCCGCTTTCTAAAGATGAAGAAGTGGTGACAGAATTTTTATTAACAGATGAATTTGAAAAAATATTAAATATTGTTGATGCCTCGCAACTAAAACGGAATCTACAGCTAACGATACAATTAATCGAATTTGGCAAGCCACTTATCGTAGGACTTAATATGGTAGATGTCGCGCAATCGAGAGGTATTCAAATCAATGAAAAGAAGCTAAGCGATATATTGGGTGTTCGTGTAGTTCCAATAATTGCTCGAACTGGTAAGGGCTGTGATCTTTTAACAAAGGAACTAACGAGCGATACAAGGAAAAAATCGCCGGGTACTCCTACTTTTAAAGTAGACTATGGGTTTTTAGAAGAAATCATTGAGCAAATGAGCGAGCTTTTTCCAGACGATGTGAACTTGAACAAAAGATGGATGGCTGTGCAATATTTAGAGGGTAATAAGCGTGTCATATCCTATGTATCGCAGCATATGCCCAATACAGCTTTGCTGGAACAGATAAAGCAAGAAGTGGAAGAAGAGGTAAACCGCCGATATGCTCACTCTTTAAGACAATTCATCTATCATATGCGAGACCAAAACATTATGCATCTATTGGAACAAACTACAACAGTCACCTCGGCAACGAAAACGACTACGACGGATATGATTGATCGAATTGTAACAAACAAATTTCTTGGTTTGCCTATTTTCTTATTCTTTATGTATGTCGTGTTCATGTTGACGTTTGATTGGCTAGGGACACCGCTTTCGGATGTATTAGATGGCTTTATGTCTGGTCCATTAACCACTTGGACGGAGAATGGCTTGCATGCTATTGGTGCTTCTAACTTTATAAAGGACTTAGTACTAAATGGAATTATTGCTGGTGTCGGCGGAGTGCTCGTGTTTGTTCCGCAAATTTTTATTATGTTTTTCCTGATTTCTTTTTTAGAGGATTCTGGTTACATGGCTCGGGTCGCTATGGTAATGGATCGCATCATGGAATCGATTGGACTGAACGGAAAAGCTTTTATTCCAATGATCATCGGCTTCGGATGTAATGTTCCGGGAATTATGGCAGCACGTACCATCGAACAACCAAAAGAAAGGCTGTTAACCATTTTGCTAACTCCTTTAATGTCTTGCTCAGCGCGGCTCCCTGTATATGCTTTATTCGTTGGTGCCTTTTTTGTGAATCATCGAGCATTAGTGGTCTTTTCTTTATATGTGCTTGGCATTGTCGTAGCTATGGTAATGGCAAGAATATTTTCTTTTTTATTTTTACAAAAGGAAAAGAGTGTGTTCGTTATTGAATTGCCTCCGTATCGTGTACCACAGGCTTTAACGTTATGGAGAAGTACATGGGAAAAAGGGAAAGGATTTATCCGTAAAGCAGGGACGTTTATTTTTGCTGGGTCGGTTTTAATATGGGTACTAACTTACGCAGGACCGCACGGATGGAATGTGGAAATGGATGATAGTTTTCTGGCATTAATTGGTGGTGTGTTAGCACCTATTTTTGAACCATTAGGATTTGGAACATGGCAAGCAGCGGCTTCCTTACTGACAGGATTTCTAGCCAAAGAAGTCGTTGTGTCCACGATGAATATTATGTATCACGCGCCGAATACAGCGTCACTAACAGGCGTATTAAGCACGCAATATTCTGCGCTATCTGCATTAAGTTTCATGTCATTTATATTGCTGTATATCCCGTGCTTAGCGACGGTAGCTACGATTAGAAAAGAAACGGCTTCTAAAAAGTGGACCTATGTTTCCGTGATCTATTCCTTGGTTATTGCATATATCATTTCCCTTGTCATCTATCAAATTGGAGGACTATTCTTTTAA MSQFALLGNPNTGKTSLFNHLTGSYAYVGNWSGVTIEKKVGKLRHQTDLLVDLPGIYSLNPLSKDEEVVTEFLLTDEFEKILNIVDASQLKRNLQLTIQLIEFGKPLIVGLNMVDVAQSRGIQINEKKLSDILGVRVVPIIARTGKGCDLLTKELTSDTRKKSPGTPTFKVDYGFLEEIIEQMSELFPDDVNLNKRWMAVQYLEGNKRVISYVSQHMPNTALLEQIKQEVEEEVNRRYAHSLRQFIYHMRDQNIMHLLEQTTTVTSATKTTTTDMIDRIVTNKFLGLPIFLFFMYVVFMLTFDWLGTPLSDVLDGFMSGPLTTWTENGLHAIGASNFIKDLVLNGIIAGVGGVLVFVPQIFIMFFLISFLEDSGYMARVAMVMDRIMESIGLNGKAFIPMIIGFGCNVPGIMAARTIEQPKERLLTILLTPLMSCSARLPVYALFVGAFFVNHRALVVFSLYVLGIVVAMVMARIFSFLFLQKEKSVFVIELPPYRVPQALTLWRSTWEKGKGFIRKAGTFIFAGSVLIWVLTYAGPHGWNVEMDDSFLALIGGVLAPIFEPLGFGTWQAAASLLTGFLAKEVVVSTMNIMYHAPNTASLTGVLSTQYSALSALSFMSFILLYIPCLATVATIRKETASKKWTYVSVIYSLVIAYIISLVIYQIGGLFF PGPT0003700_2055 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759 NA NA AK015_00717 222 hypothetical protein ATGAATCTCACAGATTTACAGCAAGGTAAAACAGCTGTCGTATCAGATGTTACAAAATTAAATGATATCGTAAAACAACGCTTAATTGATATGGGGCTCGTGGAAGGACAAGAGATTTGTTTGAAATGCACGATGCCGTTCGGAGGACCTGTCATGGTTGAAGTATGTGGACAATGTCTCAGTTTACGCCGCAAAGAGGCATCACGTATAGGGGTGAGCTAA MNLTDLQQGKTAVVSDVTKLNDIVKQRLIDMGLVEGQEICLKCTMPFGGPVMVEVCGQCLSLRRKEASRIGVS PGPT0003695_2678 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758 NA NA AK015_00718 672 hypothetical protein ATGAATAAGCAAGTTAGAAAATCATTGGCTAATGTTATTTCAGGACTCTTCTTAATTATAAGCTTATATCTGTATTGGAATGTTTTTCATGGTACAAATATTTATAGTTTTCTGGGAATATTAATCGCCACCCCTATAATTAATGGAATCATGTATAAAGTACTGCCGGTAAAAGGGAAGGGCAAAAAACGGGTAAGTTGTCCGCGTAATAATAATTCCAAAGGGCATAAAAGCAAAAAAGTCTTTCATCAGTTAAGAAGCGATAAGGAAATAATAGAATCTCCATTAGAAGAACTTTCTTGGCGAGAGTTTGAACGAATTTGTTATTTATATTTTAAGGCACGAGGATATAAGCCAAGGCAAACAGCTAATGGAGCAGATGGTGGCGTTGATTTAATTATTTATAATCGTCACCATCAAGCTAATGAAGCAGTTCAAATCAAACATTATTTATTATCTAATAATCAAATTACTGTAAGAGAAATTAGAGAACTTAACTCAGCAAAGAGGAATTATAATTGTGTATTGGCAAGGTTTATTACTAGCTCTGGTTATACTTGTCAGGCGTTAATGGAAGCAGATAAATATAATATTCGATGCGATCATATTGATTGGGTGAGAAGTCGAATAGAAAAATGGCGGAAATCAGAGTTAGCAAAGAATTCTAGTTAA MNKQVRKSLANVISGLFLIISLYLYWNVFHGTNIYSFLGILIATPIINGIMYKVLPVKGKGKKRVSCPRNNNSKGHKSKKVFHQLRSDKEIIESPLEELSWREFERICYLYFKARGYKPRQTANGADGGVDLIIYNRHHQANEAVQIKHYLLSNNQITVREIRELNSAKRNYNCVLARFITSSGYTCQALMEADKYNIRCDHIDWVRSRIEKWRKSELAKNSS PGPT0027250_1664 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448 NA NA AK015_00719 642 hypothetical protein ATGAATTCAACAGCACAAGTTAATGTAGAAGATGTAATCGAAAATTATCAGCAAGCTGATCTATTCTATCATTATATTCTGGACAGCATTATGAACCATATCCATAAAAAGTTCGATTTGCCTGCTGATGCTCGTGTAATTGCATTTTTAAGTTGTTTTCCTAAGAAGAGTGGAGTGTGTTTTACCCATAAGGGGGCTTACTGGAGACTAATTGGTCGAGGGAAAGGGATCTTTTCATGGGAACAATTAAATAATACGGCATCAGTAAAGTTGAAAGATGGAGTGCTTTACTTATATGATAAAAAATCCTTGGATATAACGGGAACTTCTTATCCGCATGATCTTTTTATAGAAATGTTAGAAGAAATAAAGACAGCCTCGCTTGAAAAAGTTAAAAGCGATAAAGAGGGAAGTGGATCTTTTTCTGTAAATATTGATAATATAAAAGCCGTGTGTAAGGCATTTAGTAACTATGAAGGTTGTTCAATTTGCGAAAAAATGAGCTTTAGTTTATTGCTGGAGGAGAATATTTCAGAAAAACTAAAAGCATCGTTAATGAAAAAGAATAACATAAAGAAACAGGATTCTATTTTGGCTTATCTCAATACATATTTAGGAGTAGGGCAGATGGAGTACTTATAA MNSTAQVNVEDVIENYQQADLFYHYILDSIMNHIHKKFDLPADARVIAFLSCFPKKSGVCFTHKGAYWRLIGRGKGIFSWEQLNNTASVKLKDGVLYLYDKKSLDITGTSYPHDLFIEMLEEIKTASLEKVKSDKEGSGSFSVNIDNIKAVCKAFSNYEGCSICEKMSFSLLLEENISEKLKASLMKKNNIKKQDSILAYLNTYLGVGQMEYL NA NA NA NA NA AK015_00720 2898 dbpA ATP-dependent RNA helicase DbpA ATGGAAAACTTTCTTAGAAACTTAGAAGATTCCTTGTATAAGGGATTCATAGATCGAAATTATGGAAAAATAGATACATATAAACCAAAGTTATTAGTGAATAATACACAGAAAAATGAAGATGTATTGTCCTCCATAATCGAGGAGATGAACAGTTGTCATTCGTTTATTTTCTCCGTTGCTTTTATTACGGAAAGCGGCTTGGCAACGCTAAAATCTCATCTTTTAGATATGAAAAGAAAAGGAATTCACGGTCGAATTCTAACATCTACATTTTTGAATTTTAATCAACCGAAAATTTTTAAGGAATTAATGAAAATAACGAACGTAGAAGTAAGATTAACCGATAAAGAAGGATTTCATTCTAAGGGTTATATATTTGAGCATGATAAGTATTTCTCCTTGATTGTTGGAAGTTCAAATCTTACTGCTCAAGCGTTGAAGGTGAATTATGAGTGGAATGTTAAGCTTACATCTTATTTAGATGGAGAAATAATTAATCACTTTAAAAATCAATTTGAGGATGTTTGGAATAGTGCAACTCCTTTAACCAATGAGTGGATTGAATCTTATGAAGAGGTATATACACCTGTTGCATATCAAGCTGCTGGTAAAGTAGTAGAACTTCCCGTAGATTATGAGGATAATCCTTTAAAAACCGCGACAAATATAAAACCGAATAAAATGCAGACCGCGGCATTGGCAGAAATAAAACGGGTAAGAGATGAAGGACATGATAAAGGGCTTGTCATATCAGCAACAGGGACGGGGAAAACTTATCTGGCTGCGTTCGATGTACGTCGTGTTGCCCCAAAACGAATGTTATTTGTCGTACATAGAGAGCAAATTTTACATAAAGCTAAATCAGATTTTCAACGAGTGATGGGAGGTCTTAGCAAGGACTTTGGAATTCTGTCTGGCTCGCATAAACAAATGGATGCAAAGTATTTATTCACAACGATACAAACGATTTCTAAACTGGAAACCTTGAAGCAATTTAATTGTCAGGAGTTTGATTATATTTTAATTGATGAGGTTCATAAAGCAGGTGCGGATTCTTATTTGAAAGTATTGGATTATTTTCAACCTGCATTCTTATTGGGTATGACAGCAACACCTGAGCGTACGGATGACTTTAACATATATGAGTTGTTTGATTATAATATTGCCTATGAGATTCGGTTGCAAGAAGCATTAGAAGAAGATATGCTTTGCCCGTTTCATTATTTTGGTGTTACAGATTTAGAGTACAATGGAGAGGTAATTGACGATACAGCAATTCTATCAAAACTCGTCACAGATGAAAGGGTAGAACATATTCTTGATAAGCTACACTACTATGGGCACTCAGGTAGTTCAGTAAAAGGGTTGATGTTCTGTAGTCGAAAAGAGGAAGCTGCAAAATTATCAGATGCTCTAAATCAAAGAGGTTTCCGAACTGTTGCTTTAACGGGAGATCACTCGCAGGAAGAACGCATGTATCAAGTGAATCGCCTCGAAAATGGTTCTTTGGATTACATTATAACAGTTGATATTTTTAATGAAGGTATTGATATTCCGAGTGTTAATCAAGTTGTCATGTTAAGGCAAACACAATCAAGTATTATTTTCATACAGCAATTAGGGCGTGGCCTTCGCAAGCATGAATCTAAGGAGTTTGTGACTGTCATTGATTTCATTGGTAACTATAAAAATAATTACCTGATACCAATAGCTCTTTCAGGAGATAGGTCGCAAAATAAGGATAATATACGTAGGAAAGCAACAGAATCAAGTTATATTAAGGGCGTTTCAACGGTTAACTTTGAAGAGATTGCTAAGAAACAGATATTTAAGTCCATTAATGCCAGCAATTTAACAGCAATGAAAGTATTCAAAGAAGCATTCGCGGAACTGAAAAACCGAATTGGTAGAACACCATTTTTATTTGATTTTATTATAAATCATTCCCTCGATCCTGTAGTCATTGCAAGGAAATTTAAAAATCATTATGCGTTTTTGTTAAAAATGAAAGAAAATATTTCTACTATAAGTGCATATGAAAACGCTGTTGTAACTATGTTATCTCTGGAAGTGTTAGATGGGAAGCGAAAGCATGAGCTTATATTGCTTAAGCTGGTAATAGAGCAAGGGACTGTTTCTCTCAAGGATTTTGAGAAGGAATTAAAAGGAGTCGGTTGTATAGTTGATAATCAGACAAGAGAGTCTGTGGAACGCGTTTTTGATTTATCCTTTTTTACGCAAACAGATCAAAAGAAGTATGGAAGCAAACCGATTATTGAGCTTAACAACGGCTGCACTTATTCATTTAATGATGATATATACCAAAGTTTACAGACTAACTCTATATTTAAAGATTTAGTCAAAGATGTGGTTAAGAGTGGTTTAGAACGAAATAAAAAATATAATCCAGGCGAACCTTTTACCAGGTATGAAAAATATACGAGAAGAGATGCATGTAAGTTACTGAATTGGAAGAATGATGAGAGTGCAACGGTTTATGGGTATAAACCAAAGTACGACACATGTCCCATTTTCGTGACATATCACAAAAATCATGCAGTAGAAGCCAGCGTTAATTATGGGGATGAATTTATAAGTCCAAAGGTATTGAAGTGGTATACTCGTAACAAAAGAACCTTGGCATCAAAAGAAGTGAAAAAGATTCTCCATGCAGAAGAAACAAATATGGATATGCACCTGTTTATTAAAAAAGATGATGATGAGGGTAGGGGCTTTTACTACGTAGGTAGAACACTCCCTGACAAAGAGACTGTTAAGCAGGACACCATGATAGATAAAAATGGAAAACAAATTCCGGTTGTCCATATGGATATGATTTTAGATAAAGCTATGGACCATAAGCTGTATCGTTATATCATACATGGGGATACATAG MENFLRNLEDSLYKGFIDRNYGKIDTYKPKLLVNNTQKNEDVLSSIIEEMNSCHSFIFSVAFITESGLATLKSHLLDMKRKGIHGRILTSTFLNFNQPKIFKELMKITNVEVRLTDKEGFHSKGYIFEHDKYFSLIVGSSNLTAQALKVNYEWNVKLTSYLDGEIINHFKNQFEDVWNSATPLTNEWIESYEEVYTPVAYQAAGKVVELPVDYEDNPLKTATNIKPNKMQTAALAEIKRVRDEGHDKGLVISATGTGKTYLAAFDVRRVAPKRMLFVVHREQILHKAKSDFQRVMGGLSKDFGILSGSHKQMDAKYLFTTIQTISKLETLKQFNCQEFDYILIDEVHKAGADSYLKVLDYFQPAFLLGMTATPERTDDFNIYELFDYNIAYEIRLQEALEEDMLCPFHYFGVTDLEYNGEVIDDTAILSKLVTDERVEHILDKLHYYGHSGSSVKGLMFCSRKEEAAKLSDALNQRGFRTVALTGDHSQEERMYQVNRLENGSLDYIITVDIFNEGIDIPSVNQVVMLRQTQSSIIFIQQLGRGLRKHESKEFVTVIDFIGNYKNNYLIPIALSGDRSQNKDNIRRKATESSYIKGVSTVNFEEIAKKQIFKSINASNLTAMKVFKEAFAELKNRIGRTPFLFDFIINHSLDPVVIARKFKNHYAFLLKMKENISTISAYENAVVTMLSLEVLDGKRKHELILLKLVIEQGTVSLKDFEKELKGVGCIVDNQTRESVERVFDLSFFTQTDQKKYGSKPIIELNNGCTYSFNDDIYQSLQTNSIFKDLVKDVVKSGLERNKKYNPGEPFTRYEKYTRRDACKLLNWKNDESATVYGYKPKYDTCPIFVTYHKNHAVEASVNYGDEFISPKVLKWYTRNKRTLASKEVKKILHAEETNMDMHLFIKKDDDEGRGFYYVGRTLPDKETVKQDTMIDKNGKQIPVVHMDMILDKAMDHKLYRYIIHGDT NA NA NA NA NA AK015_00721 399 mutT2 COG0494 Putative 8-oxo-dGTP diphosphatase 2 TTGAAAAAAAACATTTATGTCGTTGGAGCAGTCATCATTAATGATAATAAAGTTCTATGTGCTCAGAGAGGAGCAACAAAAACGTTGGCTTACAAATGGGAGTTTCCTGGAGGTAAGATAGAAAACGATGAGACGCCAAAAGATGCCTTAAAACGAGAAATTGCAGAGGAAATGCAATGCAATATTAAAGTTGGTAGTCAGCTGGATCACACGGTGTACGAATACGAATTTGGGATTGTACACTTGACTACGTTTTATTGTACGCTTATAGGAAGTGAGCCAGTTTTAACTGAACATAAAACAATAAAATGGTTACCAAAACAAGAACTGCATATGTTAGATTGGGCACCAGCAGATATTCCGGCAGTCGAAAAATTGGTGAATGAATCAGTTATCTAA MKKNIYVVGAVIINDNKVLCAQRGATKTLAYKWEFPGGKIENDETPKDALKREIAEEMQCNIKVGSQLDHTVYEYEFGIVHLTTFYCTLIGSEPVLTEHKTIKWLPKQELHMLDWAPADIPAVEKLVNESVI NA NA NA NA NA AK015_00722 510 hypothetical protein ATGACGAAAGTTAGATATGAAGTTGATTTTGCAAAGTATCAATCGGAGGTGGAGCTTATAAACGCAAGAAACAGTGTAGAAGTAGGGCTTTATTTTATAGTGGAGTTGTTGATACGAGGAACTCTTTCTGAGGAATACAATGTAATAAATGTATCCAGTAGAAGAAAATGGAGCGGCGATGATTATCCTCGTTACATTAGTGGAGCTGGATTTCCTGATTTGCTCATCTTACATAAAGATAAGACAGATCCTTGCGCTACTGTAGAAGTTAAATATTTGCCATTTAAAAATGATTTAGGCGAAACGATTGATGAGCAAGAACAATTGAAAGAGCATATTAAAAAATTTAACACCGTTGTATATACCAACTGTTTGGAATGGCGGATATACCATAAGGAAATATCCAACCCCATAACTGTAAAATTAGGTCGGTATCATACCGAAGAAATTGAATGGTTTGATGCATCAAATTGGGAAAGATTGATAACACAATTGGAAGGTCTATTCTAA MTKVRYEVDFAKYQSEVELINARNSVEVGLYFIVELLIRGTLSEEYNVINVSSRRKWSGDDYPRYISGAGFPDLLILHKDKTDPCATVEVKYLPFKNDLGETIDEQEQLKEHIKKFNTVVYTNCLEWRIYHKEISNPITVKLGRYHTEEIEWFDASNWERLITQLEGLF NA NA NA NA NA AK015_00723 300 hypothetical protein TTGAAAGAATGGGAAGAATGGTGGGAAAATTACTTAATTAGACGAAAGCAAAGGGAAGCATTGAGAACACACATAAGAGAGGTTTTGCAAAGAAAAACAAAGGAATATAGAACATCCTTTGATGAATGCTTTTATGATGAGTCACTTTATGAAAAGCATTCCCAAGTGAAAGATGTCTTAGCTCAACAATTTGACGGTAAGGCAAACAGAGCTCTAGTAGAACGCCTTGAAATGAATGCTTTAAGGATATCAAGCATGAACGTTAAACGTAATATTGCTTATGAAAGTATTCAGTTGTAA MKEWEEWWENYLIRRKQREALRTHIREVLQRKTKEYRTSFDECFYDESLYEKHSQVKDVLAQQFDGKANRALVERLEMNALRISSMNVKRNIAYESIQL NA NA NA NA NA AK015_00724 861 hypothetical protein GTGGTAGAAAAATACGTAAAGAAACACGGATCGGACAACATCGTTTTTACAGGCCATTCTCTTGGCGGAGGTCTGGCTCAATATTATGCTGTGAAACATGATGCCAATGCGGTTACTTTTGCCGCAGCAGATGTGTTTCGTTTATTATCCAAAGAAGACCAGGAACGTGCTTTAAATGGCGAGTTTAAAGATAATATTATCTCCTATACGTATCCTAACGACGTCGTCGGCACTTTTTATAAGCATTCCGTTGGTTCTGTATATTATATGAAGGACCCTGTCGAAACAAAGGGCGTTGGACTTGCTACTCATGGGATAAAGAATTATTTGGAAAAAGATTTATACAATAAAGACGGGTATTTTAATTCCGATTATTTATTCGATGAAATCATACAGGGATCGCTTTCTATGGGTGGTATAACCAAATCTCCACTTGAATTAAAAAATAACGGTGTCGGAAATTTTTCGATTGTCATACAATCTGCACTAATGAATGCACTAGCTACGGATCTGAAAAATAGTGAAGAACATCTAGCTATAACAAGAAAAGCACTCATAAAATTTTTAGATTATTATTTTGCAGATATGAGCGAAATAAAAAATACATTTATAGGAACAGCAGGAATAGGGGCTTATGATAAATTGACCATTGCAGATGTAGAGGATGCGTTTCACGAAGTAGTAAAGATGGAAGACGGCATTCCCATGTTGCTTGATTTGGATGAATTTGAAGATTTATTGGCTACTTTAAAAGACCTGCAAAAGGACACAGGGGAAATAGCCCATCATATGGAAAAGATGGCTCGAGATTTTGAACGTATAGATCAAATTCTTGCCCAATGGTTTGGAATTAAAAACTAA MVEKYVKKHGSDNIVFTGHSLGGGLAQYYAVKHDANAVTFAAADVFRLLSKEDQERALNGEFKDNIISYTYPNDVVGTFYKHSVGSVYYMKDPVETKGVGLATHGIKNYLEKDLYNKDGYFNSDYLFDEIIQGSLSMGGITKSPLELKNNGVGNFSIVIQSALMNALATDLKNSEEHLAITRKALIKFLDYYFADMSEIKNTFIGTAGIGAYDKLTIADVEDAFHEVVKMEDGIPMLLDLDEFEDLLATLKDLQKDTGEIAHHMEKMARDFERIDQILAQWFGIKN NA NA NA NA NA AK015_00725 486 hypothetical protein TTGGTAAATTATAACAATATAACAGACCTCACCGCTTCTACAATTTCTAGGCAATCTTATAAACAGATTCCAAGAAAGATTTTCATTGAAACAGATTATCATATACAAGTTTGGGAAAACATCGAAACTATTAAAGACTCCGATACAGGTTTACATGGATATGTGCTCCAAAACGATGATACAGATGAAATCGTTATCAGTTTTAGGGGAACGGAACTTCCTAAAACAACCACAACCAAAGTGAAAGAAAAATACTTAGGGACACCCTCTCAAGATGCTAGGTTGGCTGGTGCCGGGGGTGGAGCAGAATTGAAAAATGGGTATATTGTTTATAACCAAAAAGATGTAGACTATTCTGAAACCCTAAAAGATGTGGAAGAAGACATCCAAGGAATTGTTCTTGGTGATTCCGATTATACCAAAAAAGATTATAGAAAAACACCTTATTTAGGAACACCCTCAAGATGCTGCTTTATTAACTGGTAA MVNYNNITDLTASTISRQSYKQIPRKIFIETDYHIQVWENIETIKDSDTGLHGYVLQNDDTDEIVISFRGTELPKTTTTKVKEKYLGTPSQDARLAGAGGGAELKNGYIVYNQKDVDYSETLKDVEEDIQGIVLGDSDYTKKDYRKTPYLGTPSRCCFINW NA NA NA NA NA AK015_00726 294 hypothetical protein GTGAACTCAAACGAGGAAGATTTTACTAAAAATACAATTCGTAAGGCGGAAAAAACTATAGAAAGTTATTTAAGTAACAATTTTAAAAATATCCATACAATAACTTTTAAAAAGAATGATCATAGTACTCCTATGGGTGGAATGGTGATTAGCGGTACAGTAAATAATAATGAAAAAGCAACTTTCTCCATAGATGTTGATTATGAAAATGATTTTAAAATTATTTCTAGCGCTGTAGGAAAAGAATTCCCTGAGAGAAAAGAGGAGTGCAAAGAAAAAACATGCGATTATTAA MNSNEEDFTKNTIRKAEKTIESYLSNNFKNIHTITFKKNDHSTPMGGMVISGTVNNNEKATFSIDVDYENDFKIISSAVGKEFPERKEECKEKTCDY NA NA NA NA NA AK015_00727 441 cwlJ_1 COG3773 Cell wall hydrolase CwlJ ATGGGAAGGGTAGCGTATACAGATAGTGATGTGGCTTTAGTGGCAAGGATGATGCGGGCAGAGGCGGAAGGTGAAGGCCAGCTAGGGATGCTGATGGTCGGTAACGTCATTGTAAATCGTTTAGTTGCTAATTGTTTAGACTTTAAAGATTTAAGATCCATATACGACGTAATTTTTCAAATACAGGGAGGCAATTACTCTTTTGAAGCTGTGCAAAAAGGTAATGTTTTCTACAACAGAGCGAGAGGTGTAGAAAAGAAATTAGCTAGAAGAGTATTGGAGCATTGGAGAGAGCATCCTTCCAAGTATGCGCTATGGTATTTTAATCCATATGCTCCATGCCCGCCTACATGGTACGGTCAACCATTTGCTGGTCAATACAAGTTACATTGTTATTACGAACCACAGGCAAATACATGCGATAGTGTGTATATCGGCTAG MGRVAYTDSDVALVARMMRAEAEGEGQLGMLMVGNVIVNRLVANCLDFKDLRSIYDVIFQIQGGNYSFEAVQKGNVFYNRARGVEKKLARRVLEHWREHPSKYALWYFNPYAPCPPTWYGQPFAGQYKLHCYYEPQANTCDSVYIG NA NA NA NA NA AK015_00728 294 hypothetical protein TTGATTAGAGGACGAAAATTAGGCTTAGTTTTTGGATTAATAGGAGCCCTTGTATTATCAATTGTATTTACAAATGTATTAGCAAAAGAACAAACGGACGTGAGTGGTGAAGATAAAACCAGAGTTGTAACCGTAGAGGGACAAGATTTACGTGAAAATAAAAGTATGGAAGGGAAAGACCTTGAGACAGTTATCACAGCAAAAGAACAACGTAGTGTAGAGAATTCATTAGCTTTATCAAGGTATGTATCACAAGAAAATGGACTAGGGTTTTATTTTATTAAAGAGCAATAA MIRGRKLGLVFGLIGALVLSIVFTNVLAKEQTDVSGEDKTRVVTVEGQDLRENKSMEGKDLETVITAKEQRSVENSLALSRYVSQENGLGFYFIKEQ NA NA NA NA NA AK015_00729 402 hypothetical protein ATGAACATAGAGCAAAAACTGTATCAATCAGCAATTGCGTTAATAAAGGATAGATATCCTTCTGGATGGGGAGGTGCTGCTGCGATGTTAACGGAGGATGGGAATATACTAACCAGTGTTTCCCCAGATGTTATTAACGCTTCAACGGAATTATGTATAGAAACGGGAGCTATCCTCGAAGCACATAAACGTAATACAAAGGTTACCCATACAATTTGTGTGGTAAGGGAAGATGAAAATGCTGAATTTACAATATTAACTCCTTGTGGCGTATGTCAAGAACGTCTTTTTTATTGGGGTAGAGATGTAAAAGCGGCAGTAACAAATTCACATGGAAGAATTGAATATAAAACGTTGGGAGAAATTCAACCGTATCATTGGTATAAAGCCTATGAAAAATAA MNIEQKLYQSAIALIKDRYPSGWGGAAAMLTEDGNILTSVSPDVINASTELCIETGAILEAHKRNTKVTHTICVVREDENAEFTILTPCGVCQERLFYWGRDVKAAVTNSHGRIEYKTLGEIQPYHWYKAYEK PGPT0021360_3064 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489 NA NA AK015_00730 360 hypothetical protein ATGGGTCTTACTGCATGGAAAGGGAATAAGGTAAGAAAAACAGATGTTACAGTTGCTAAAAATTACTTAACGGAAAAGGAACTTAAATCACTCAATCGTATTGTCGCAATGTACTTAGATTATGCCGAAGATCAAGCGGAAAGACAACAGCCAATGCATATGAACGATTGGATTGATAAACTTAATGCCTTTCTTCAATTTAATGAGCGTGAAATTCTTGAAAATGCAGGAAGGATCTCAAAGGCTGTAGCTGATAAGTTAGCCATTCAAGAGTATGAAACATTTAACCAGCATCGTTTAAATAAAAATACTCACGATGACTTTGAGCAGTTTATTGAGAATGAGGACTTAAAGAGATAA MGLTAWKGNKVRKTDVTVAKNYLTEKELKSLNRIVAMYLDYAEDQAERQQPMHMNDWIDKLNAFLQFNEREILENAGRISKAVADKLAIQEYETFNQHRLNKNTHDDFEQFIENEDLKR NA NA NA NA NA AK015_00731 513 hypothetical protein TTGCAAAAGGAAACTAGTATCCTAATCTATCAAACAGAGGATGGTAACACAAAAATAGATGTTAGATTGGAGAATGAGACAGTTTGGATGACCCAAAAGGGAATAGCGGAATTGTTTCAAACATCACCTCAAAATATTACACTTCACGTAAAAAATATTTACGAAGAAGGGGAGTTACAGCAAGAAGTAACTTGTAAGTATTACTTACAAGTTCAAAATGAAGGGCCAAGGGAGGTGAAAAGAAAAGCAAAACACTATAACCTTGAAATGATTATTGCAATTGGATATCGAGTTCGTTCTCACCGAGGTACACAATTCCGCCAATGGGCAACAGAGCGGTTAAATGAATATCTTGTTAAAGGGTTTACAATGGATGATGACCGTTTGAAAGAAATGCGTAATTTTGGACAAGATTATTTCGATGAGTTACTAGAACGAATTCGTGATATCCGTGCTTCCGAGAAAAGGTTCTATCAAAAAATTACAGACATTTATGCGACGTCTATTGACTAA MQKETSILIYQTEDGNTKIDVRLENETVWMTQKGIAELFQTSPQNITLHVKNIYEEGELQQEVTCKYYLQVQNEGPREVKRKAKHYNLEMIIAIGYRVRSHRGTQFRQWATERLNEYLVKGFTMDDDRLKEMRNFGQDYFDELLERIRDIRASEKRFYQKITDIYATSID NA NA NA NA NA AK015_00732 591 hypothetical protein ATGATAAAAAATAATTTAAATGCATTAAATATATCGTTAATATGCTTACTCCTTATTAGTCTTTTTTTAAATTATCATCTATATAGCGAGAACCAAGAAAAAAATAGTTATTATACCGTATATTATATTGAAGATTTTTTCAACGAACTCCAAGAATCCATATTATCGTTAAAATCAATCATCGCAGACGAAGAGACTGATTATCGTGAGATTTCTTACCTTGTAGAAAGGCTAAACTATCTGGATTACATGGTGAGAAGAGTTCCTTATTATTTCGATGGTATGGGAGGAGGAACAAATTACATTGGTTACGCTGCAGTTGTTATGAATCGTGGAATAAGCTATGAGGGACATGTAATTCCGCCATTTTTTGAGGACCAGGAGATCAATCAATCAGAACTAGCTTTTTTGAAGTTATTTAAAGATCGCTTAACTTCAATTTACGCACAGTTACAGTCGGAAGATACTAATAAACTTGCCAATAATGTCACCAAAAATAGATTTGACAATATTATAATGAAAGATATTTTTATTGTAGGAGCTGAACGTGAGCTAGTAGAAGAATACTTAAAATATACAGCGTTAGATTAA MIKNNLNALNISLICLLLISLFLNYHLYSENQEKNSYYTVYYIEDFFNELQESILSLKSIIADEETDYREISYLVERLNYLDYMVRRVPYYFDGMGGGTNYIGYAAVVMNRGISYEGHVIPPFFEDQEINQSELAFLKLFKDRLTSIYAQLQSEDTNKLANNVTKNRFDNIIMKDIFIVGAERELVEEYLKYTALD NA NA NA NA NA AK015_00733 237 hypothetical protein ATGTCTCCTAAAAACGTAGGCTTAGGTACTGCTGAAGAATTTGTAGGAAAAGATTTTGAAGCTCAAAAAAAGGTCCATCATGGGAAAGTATACCGTGTAGTTTCAGGGAATTTAAAAGATTACGATATCAGAAATGAAGAAGCTTACGTAAATCTAAAAGGAGACATTCATTCAGGTGATGGTAGTATAAGAGTAACCGGGGCCTATAAAACTGATTTAGGATCAAACTTATATTAG MSPKNVGLGTAEEFVGKDFEAQKKVHHGKVYRVVSGNLKDYDIRNEEAYVNLKGDIHSGDGSIRVTGAYKTDLGSNLY NA NA NA NA NA AK015_00734 480 rlmH COG1576 Ribosomal RNA large subunit methyltransferase H ATGAAAATTACCATTGTATCAGTAGGAAAATTAAAAGAAAAATACTTAAAGCAAGGCATACAAGAATATTTAAAACGTTTAAGCACGTACGCAAAAGTAGATATCGTGGAAGTAGCTGATGAAAAAGCCCCGGAAAACTTAAGTGAAGCGCAAATGTTACATGTGAAACAAAAAGAAGGGGAGCGCATTTTAAGCCATATTCATCCAGACACATTTGTTGTCACGTTAGAAATTAACGGCAACATGCTTACTTCAGAGCAATTTGCCAGCAAATTGGATGAACTCGCCACCTATGGGAAAAGCAAAATAGCCTTTGTCATTGGCGGATCACTTGGAATCAGTGCAGAGGTACAACATAGAAGTAATTTTGCTCTATCCTTTTCGAAAATGACTTTTCCACATCAGGTGATGCGGTTTATTCTGTTGGAGCAGGTGTATAGGGCATTTCGGATTAATCGAGGGGAACCGTACCATAAATAG MKITIVSVGKLKEKYLKQGIQEYLKRLSTYAKVDIVEVADEKAPENLSEAQMLHVKQKEGERILSHIHPDTFVVTLEINGNMLTSEQFASKLDELATYGKSKIAFVIGGSLGISAEVQHRSNFALSFSKMTFPHQVMRFILLEQVYRAFRINRGEPYHK NA NA NA NA NA AK015_00735 348 hypothetical protein ATGCGTTTATTTTCTACAGGATTGCTTGAAGCGGTTCGTGCGTTGTTCATCTTTGTAGTACTTTATTTCGTATTTGGAGCGATAAGCAATTACTTTTTAGAAATATTCACGAACAGACCGATCGCTCAGTTGACGGAAGTATATCCATATTTGATGTACTTTTTAGCGCTACAAGCCATAGGCATTGCCATCCTTATTTTTGTCCTGTACCGAAATAAGTTCCAATTCACTGGATGGTTCAAAGGAAAGCGAGTAAAGCCGCTGTCTCAAACAACAACCCGAGTGCTTGTAGTCATTAGCGTAATTGCTATTATAGCTCTGTATATTGCAGTGGGTTTTAGTTTGTAG MRLFSTGLLEAVRALFIFVVLYFVFGAISNYFLEIFTNRPIAQLTEVYPYLMYFLALQAIGIAILIFVLYRNKFQFTGWFKGKRVKPLSQTTTRVLVVISVIAIIALYIAVGFSL NA NA NA NA NA AK015_00736 543 hypothetical protein TTGAAAACGTATAACAATAGTACCTATGCGCTGCTTGGAATTTTGACTTTAGATTGTCGCACAGGTTATGAAATTAAACAACGGATGGATCAGAGCTTAAATCATTTTTGGAAAATTAGTTATGGGCAAATTTACCCGAATTTAAAAACGTTAGTTACCGATGGCTTAGCAACCGTTAAGGTCATGTCACAGGATGGGAAACCAGATCGAAAGGAATATTTCCTCACTACCAAGGGGAAAGAGGTGTTAGAGAACTGGTTAAAAGAGCCATTGCAGCAAATTACTAACGAGCGTAACGAAGTGCTTTTGAAGTTATTTTTTAGTCGGCATCAGCCTGCAGATCAGACGCAATCGTTGATACGTCATTATAAAGAAGAATTACAGAAAAAAATAGACACCTATGAAGCGATTGAAGAAATGATAGTCACTAGTTATTCTCAAAACCCTGATGCTACTTATTGGTTGTATACACTAGACTATGGAAAGCGGACAACCAAGGCTGCTATAGAATGGTGTGAAGCTACCATAGAAAAAATAAAGTAA MKTYNNSTYALLGILTLDCRTGYEIKQRMDQSLNHFWKISYGQIYPNLKTLVTDGLATVKVMSQDGKPDRKEYFLTTKGKEVLENWLKEPLQQITNERNEVLLKLFFSRHQPADQTQSLIRHYKEELQKKIDTYEAIEEMIVTSYSQNPDATYWLYTLDYGKRTTKAAIEWCEATIEKIK PGPT0025575_230 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 AK015_00737 504 hypothetical protein ATGAAAAAACAAGTCTACCCTGGTCGTTATACCACAGAAAATGAAGAAGATATTGTTGTGTTTTTAATAGGGATGCGGGTTAACCGTAGATTAGCTGTACATAAATGGCTTCCCGTCTTTTTAGCAATGCCGCGGATGATTAAAGAACTTTACACATATAAAGATACGTTAGGCTTTTTATCTATGGAAAGTTATTTTGGCCTGCGCACGACGTTGATGGTGCAATATTGGCGGTCTACCGAAGATTTGCTTGCCTATGCAAAGGGTAAACAACATCTAGCTGCATGGAAACGGTTTAACCAAAAAGCAAGCCATACAAATGCGGTTGGTATCTATCATGAGACGTACATCGTACCAAAAGGTAATTATGAAGCGATTTATGCGAATATGCCGTTATACGGTTTAGCAAAGGCAAACGAACATATACCTGTTTCTCCTAAACGTACAACGGCTAAGCTGCGTTTGACACAGGATGCAGTTAACCAAATAAATGATTGGAAGTAA MKKQVYPGRYTTENEEDIVVFLIGMRVNRRLAVHKWLPVFLAMPRMIKELYTYKDTLGFLSMESYFGLRTTLMVQYWRSTEDLLAYAKGKQHLAAWKRFNQKASHTNAVGIYHETYIVPKGNYEAIYANMPLYGLAKANEHIPVSPKRTTAKLRLTQDAVNQINDWK NA NA NA NA NA AK015_00738 273 hypothetical protein ATGGCAACTACCTTACATAATTCACCTGAAATTTTACATGTTAAGTCGTACAACATATTTCCTAAAAGCACTTCCTATGTACGTACCTTCCAATTGGAGGAGAACGATGAAAACTTAACTGACAAAATCGCTATTGTAACTGGAGTTAGTTATTCGAAAGGTATTGGAGCTGCAACATGTTTGTCTCTTGCAAAAGCAGGAGCTGACATCTTTTTCACGTACTGGTCTCCATTTGATGAAGCGGAAGGAAGATTGGAAAGAGATTTTTCCTAG MATTLHNSPEILHVKSYNIFPKSTSYVRTFQLEENDENLTDKIAIVTGVSYSKGIGAATCLSLAKAGADIFFTYWSPFDEAEGRLERDFS NA NA NA NA NA AK015_00739 141 hypothetical protein ATGAAGAAATTTGTAGTATCTTTTATATTTGGGGCACTTCTGATAGGTGGATTTTTGTTTACAAATGGTGCGCAAAATGAGGACAAATTAACCATGAACGCGAATATTCCTAAACCAACAACGACCTATGAAACAAGCTAA MKKFVVSFIFGALLIGGFLFTNGAQNEDKLTMNANIPKPTTTYETS NA NA NA NA NA AK015_00740 1269 nprA_1 Transcriptional activator NprA TTGATAGATATAGGCTATATTATAAAATTACATAGAACCAAGCAAAATATGACACAAGAAGCATTATCAGAAGGTATTGTTTCTTTGTCCTATTTATCAAAAATAGAAAATCAGAAAGCAAAAGCCAATTCTGAGATTATTCAAGCATTATGTAATCGTCTAGGAATTGAGCTTACAAATATACCTGATTCAAATTTTGAAGACAAATGTAAGAAATGGTACGACATGTTATATGACCGTTTTGATAAACAAGAAATTATAACAAGATATGAAGAATTGCAAAACGTAATGGATAAAAGCATTAACAACCAAACAATTATGTTTGAGATTCATAAAATTCGTTACTATATTATCTTACGTGATATACAAAAAGCCTTACATAAAATTAATGAACTCCACGAGATGGCAGGCTCTTTTAATCCTCCACATAAATATTTTTGGAATAAATTTCAAGGGAATTATTACTCCTTGAAAGAAGAACATCAACAATCTTTACAATGCTATAAAAAAGCCGAGAAAGTGCATCGATCAGCTGAAATTGAAGAAGAAGAGATTGCTGATTTGTATTATGCCATTTCCATTCAACATAGTCATTTACTAAATGGATTAGAGACTATAAATTATGCAGAAAAAGCAATGGCTGAGTTTCAGCGAAAGTATAACTTTATACGTTGCGCTCAATGTCATATCTTGCTGGGAATTTCGTATCAACGAATAAGAATGAATGATGTTGCGTTAGAAAATTATAATCAGGCAATGTATCTAGGTAAGTTAAACAACGAAGAACAAGTTATTCAGTTAGCCTATCTTAATTTAGGGCTGTTTTATTTTACAACAGGGAATTCAAAAAAATCCATTGAAAATTATGAGCTTGCCTTAAAAACTACAGACTTAGATTATGAACTTAGATTAGATGCTATTACTCACTTAATACATAGTTTTTACAAAAGCAATAATTGGCAGAAAACTAAAGTATATTTGCGCTTGGGTGAGGAAGCTCTTAACTTCACCCAAGACAAAGGATATCATAAATTTTATAGCTATGTAATTAAAACTTATACACATTTATTAAATGGCGATTTAAAGAATTTTAAAATGGTATTAGCAGATGAATTTATTCCATATCTAAAACAAAAAAAAGCATATAACTATTTAGTTTTTTATTCAAGATTGTTGGCTACCCATCTAGAAAAAATGGGTAAGTATAAGGAGGCGATGAAATATTATAAAGTAGCCAACGAGAGTTATGACAAAATAATCAAACTATAG MIDIGYIIKLHRTKQNMTQEALSEGIVSLSYLSKIENQKAKANSEIIQALCNRLGIELTNIPDSNFEDKCKKWYDMLYDRFDKQEIITRYEELQNVMDKSINNQTIMFEIHKIRYYIILRDIQKALHKINELHEMAGSFNPPHKYFWNKFQGNYYSLKEEHQQSLQCYKKAEKVHRSAEIEEEEIADLYYAISIQHSHLLNGLETINYAEKAMAEFQRKYNFIRCAQCHILLGISYQRIRMNDVALENYNQAMYLGKLNNEEQVIQLAYLNLGLFYFTTGNSKKSIENYELALKTTDLDYELRLDAITHLIHSFYKSNNWQKTKVYLRLGEEALNFTQDKGYHKFYSYVIKTYTHLLNGDLKNFKMVLADEFIPYLKQKKAYNYLVFYSRLLATHLEKMGKYKEAMKYYKVANESYDKIIKL PGPT0011700_168 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QUORUM_SENSING_REGULATORS CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480 NA NA AK015_00741 987 guaC COG0516 GMP reductase ATGGATAATGTGTTTGATTACGAAGATATTCAATTAATTCCCGCAAAATGTATTGTACGCAGCCGTTCAGAATGTGATACGAGCGTCACATTAGGCAAGCATACATTTAAATTACCTGTTGTACCTGCAAATATGCAGACAATTATTGATGAAAAAATTGCGTTGATGTTAGCTGAAAATGGCTATTTTTATATTATGCACCGCTTTGAGCCAGAAAAACGTACCGATTTTATTAAAGATATGCATGAACGTGGACTCATTGCTTCCATTAGCGTTGGTGTGAAGGACGAAGAATATGATTTTGTAGAGCAACTAGCAGCAGATAAACTGATTCCAGATTATATTACAATCGATATTGCACATGGACATTCGGAGTCTGTGATAAAAATGATTCAACATATTAAAAAACATGTACCTGAGAGCTTCTTGATTGCTGGAAACGTTGGTACTCCAGAAGCTGTTCGTGAATTGGAAAATGCGGGCGCGGATGCTACGAAGGTTGGAATTGGACCAGGGAAAGTATGTATTACGAAAATTAAAACGGGCTTTGGAACTGGTGGCTGGCAATTAGCAGCGCTTCGCTGGTGTTCAAGAGCTGCAAGCAAGCCGATTATTGCTGACGGTGGTATTCGTACGCATGGAGATATTGCTAAATCGATCCGCTTTGGTGCAACGATGGTGATGATTGGATCGCTGTTTGCTGGTCATGAAGAGTCTCCAGGGGAAACCATTGAAAAAGAGGGCAAGGTTTTAAAAGAATATTTCGGTTCTGCTTCCGAGTTTCAAAAAGGCGAGAAGAAGAACGTCGAAGGAAAGAAAATGCTTGTAGAGCATAAAGGTTCCTTAAAAGATACACTGCAAGAGATGGAGCAAGACTTACAATCCTCCATTTCCTATGCAGGTGGTAAAAAGCTAGAAGCCATCCGTACCGTCGATTATGTAGTTGTGAAAAACTCCATCTTTAATGGTGATAAGATTATATACTAA MDNVFDYEDIQLIPAKCIVRSRSECDTSVTLGKHTFKLPVVPANMQTIIDEKIALMLAENGYFYIMHRFEPEKRTDFIKDMHERGLIASISVGVKDEEYDFVEQLAADKLIPDYITIDIAHGHSESVIKMIQHIKKHVPESFLIAGNVGTPEAVRELENAGADATKVGIGPGKVCITKIKTGFGTGGWQLAALRWCSRAASKPIIADGGIRTHGDIAKSIRFGATMVMIGSLFAGHEESPGETIEKEGKVLKEYFGSASEFQKGEKKNVEGKKMLVEHKGSLKDTLQEMEQDLQSSISYAGGKKLEAIRTVDYVVVKNSIFNGDKIIY PGPT0021450_870 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021450-guaC-K00364 NA NA AK015_00742 585 dedA COG0586 Protein DedA ATGACAGATTTAGAAAGCTTTATAGTTCATTATGGATACATCGGAATGTTTATTGTTCTTATATTAGGGATTGTAGGGATGCCTTTCCCAGATGAAGTATTACTTACATATGTTGGCTATCATGTATCTTTAGGAAATATGTCTCTCAATCTAGCTATATTCATTGCCATCTTGGGTTCAATAAGCGGGATCTCAATAAGCTATTTATTGGGGCAGTGGTTAGGTGTCCCATTTATAAAACGTTTTGGTCCTAAATTACGCATAAAAGAAAAACAGATAGACTGGGTTCGGAACAATTTTAATAAGTATGGAGCCACATTTCTCATTTTTGGTTATTTCATCCCCGGGATTAGACATGTCACTGCTTATGTAGCAGGATTTAGCAAATATCATTATTTTCGTTTTGCTGTTTTCGCTTATATAGGCGCTATTTTTTGGGCATCCACATTTATTATTTTGGGGAATATTTTAGGTGATCAATGGGAATATATTACAACCTTTTTCTCGCAAGCATCAAAAATAATGTGGTTAATCATTCTTACTGGCGTCCTATTTATCATTCTAAGAAAAATCAAACGAAATTAA MTDLESFIVHYGYIGMFIVLILGIVGMPFPDEVLLTYVGYHVSLGNMSLNLAIFIAILGSISGISISYLLGQWLGVPFIKRFGPKLRIKEKQIDWVRNNFNKYGATFLIFGYFIPGIRHVTAYVAGFSKYHYFRFAVFAYIGAIFWASTFIILGNILGDQWEYITTFFSQASKIMWLIILTGVLFIILRKIKRN NA NA NA NA NA AK015_00743 786 psd COG0688 Phosphatidylserine decarboxylase proenzyme TTGTTAAAAGCTTGGTTGAAATTATTTGTTGAATTAACCGGAAATAATTATGTATCTCAATTGCTCGTTCGTTTTACAAGTTCTACTTGGAGTCGCATGCTTGTCCCAATCTTTGCTAAAATATACCGTATTAACCAAGAAGAAATGGAAAAATCGTTGTCAGAATATCAAAGCTTACACCAACTCTTTACTAGAAAATTAAAATTCGGTTGCAGATCTATAGAATCACAGCCTAATTGTTTGGTTAGCCCAGTAGATGGCGTGATAAGCGATTTTGGATTTGTTCAGGATGTTGAAAAATACTCAATAAAAAACAAACAAATTAGGTTAGAAGAGATGCTAGGTAGTAAAGAAAAGGCGGATGTATATCGAAATGGAAAATATATTATTTTGTACTTATCACCGCGTCATTATCATAGAATACATAGTCCTGTAGATGGGATAATCAAAGAAAGCTGGGTGCTTGGCGAAAAATCTTATCCTGTTAATTCTATTGGTTTAAAATATGGGAATAGCCCTCTATCAACTAATTATCGTAGAATAACAGAAATCCAAAGTGAATTAGGAAATATTGCTGTTGTTAAAGTAGGCGCCTTAAATGTCAATAGTGTCCATCTTACTGCTCGTTCGGATAAATTAGGTCGTGGTGAAGAGCTGGCTTATTTTTCATTTGGTTCTACAGTTGTATTATTTATCGAAAGAGCAACTTTTCAATTTTCACCAGATATAGCAGGAAACAATGATATTTCGTTTGGAAAGAGCGTCGGTGTTTTTTCCAATGCTTGA MLKAWLKLFVELTGNNYVSQLLVRFTSSTWSRMLVPIFAKIYRINQEEMEKSLSEYQSLHQLFTRKLKFGCRSIESQPNCLVSPVDGVISDFGFVQDVEKYSIKNKQIRLEEMLGSKEKADVYRNGKYIILYLSPRHYHRIHSPVDGIIKESWVLGEKSYPVNSIGLKYGNSPLSTNYRRITEIQSELGNIAVVKVGALNVNSVHLTARSDKLGRGEELAYFSFGSTVVLFIERATFQFSPDIAGNNDISFGKSVGVFSNA PGPT0007700_3132 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613 NA NA AK015_00744 687 hypothetical protein ATGAATTTTAAAAAACAAATACCTAACCTTTTTACATTGGGAAACTTATACTGTGGCTACTTATCCATCGGTTATACGGCATCTAATCATTATAAAAACGCAGCTATTTTTATTCTTATCGGAATGTTACTTGATAGTATAGATGGAAGAATAGCCAGATTATTACATGTTGAAAGCCCTTTGGGAAAGGAGTTAGATTCTTTAGCTGACATCATTACTTTTGGTGTCGCACCAAGCTTTTTAATGTACTATACAATGTTGTTTGATCTTGGGTGGATTGGTCTAGCAATATCAGGACTATTTCCTTTGTTTGGGGCTTATCGATTAGCTAGATATAATATTACAGCAAAAGAAGAATCATTATATCATTTTACTGGAATACCCATTACTATAGCGGGGGGAATTCTTGCTACCCTCATTTTATTTAGAGAAGACATTCCGAGTACATTTACTATGGTTATTTTTATTTTGCTTTGTTTTTTAATGGTTAGTACCATACAAATACCGAGCCTAAAAAAAGTACGCTTGCCAAGAAACGAAACCATTGTCACTATTCTTATAGGAATGATGTTATTTATGAATCATGCTAGATCTTGGAGAGTATTTACTTCTCTTCTTTATATAGTTATCCCGCTATACCTTATTTATATGACGTATCGTTTTATCAAAATAAAAGCAAGTAGATAA MNFKKQIPNLFTLGNLYCGYLSIGYTASNHYKNAAIFILIGMLLDSIDGRIARLLHVESPLGKELDSLADIITFGVAPSFLMYYTMLFDLGWIGLAISGLFPLFGAYRLARYNITAKEESLYHFTGIPITIAGGILATLILFREDIPSTFTMVIFILLCFLMVSTIQIPSLKKVRLPRNETIVTILIGMMLFMNHARSWRVFTSLLYIVIPLYLIYMTYRFIKIKASR PGPT0007695_2638 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 AK015_00745 909 metAA Homoserine O-acetyltransferase TTGCCGATTACAATTCCTAAGCAACTGCCAGCACACGCTACTTTGGAAAAAGAAAATATTTTCATTATGGATACGGTACGAGCAACGACCCAAGATATTCGACCATTAAACATTGTGATCGTTAATTTAATGCCGGAAAAAGAGCGCACGGAAACACAGCTTCTCCGGCTATTAGGGAATTCTCCCTTGCAAGTGCTAGTGACATTTCTGCATACAGCAACACACGATTCAAAAACCGTCAGTAAATCACATCTGAACCAGTTTTATCAAACGTTTCATTCCATCAAGCATAAACGGTTTGACGGAATGATTATTACCGGTGCACCTGTGGAAATGCTCGCTTTTGAAGAGGTGAATTATTGGGAAGAGCTGAAAATGATTATGGAATGGTCGAAAACCCATGTAACTTCTGTATTACATATTTGCTGGGCAGCTCAAGCAGCACTATATTACCACTATGGAATAGGAAAATATGCGCTCCCAGCCAAATGCACAGGAGTGTTTCCTCATACGATTTCACATTCTACCGTCGAGCTTATTCGTGGGTTCGATGATGAATTTCTAGCGCCACATTCCCGTTATACGGGAACATCACTAGCAGACGTTCAAGCTGATAGTCGTTTAATGGTGCTCGCTGCAACAACGGACGACGATCCGTTTATTATGATTTCCAAAGACGAGAAGCACATTATGCTTACAGGGCATTTTGAATATGATTTTGATACCTTAGCAGAAGAGTACGATCGAGATAGAACAAAGGGGCTTAACCCAGCAATACCGAAAAATTATTTTCCTGATAATAACCCTAAAAAGACGCCACTCCATCGTTGGCGCTCCCATGCACACCTGCTATTCTCTAACTGGTTAAATTATTATGTCTATCAGGAAACACCATACGAATGGAAATAG MPITIPKQLPAHATLEKENIFIMDTVRATTQDIRPLNIVIVNLMPEKERTETQLLRLLGNSPLQVLVTFLHTATHDSKTVSKSHLNQFYQTFHSIKHKRFDGMIITGAPVEMLAFEEVNYWEELKMIMEWSKTHVTSVLHICWAAQAALYYHYGIGKYALPAKCTGVFPHTISHSTVELIRGFDDEFLAPHSRYTGTSLADVQADSRLMVLAATTDDDPFIMISKDEKHIMLTGHFEYDFDTLAEEYDRDRTKGLNPAIPKNYFPDNNPKKTPLHRWRSHAHLLFSNWLNYYVYQETPYEWK NA NA NA NA NA AK015_00746 360 hypothetical protein ATGAGTTATGAATGGAATGATCCTGCTCAAACAAGTAATCATCAAGAGCTTGAACTGGCATATCCAACAGCTCCTGCATATTACGAAGAACAAGACTGGATGCGTCGCCCAATTGGTTTTGGAAGACCGTTCTTTGGACCTAGACCATTTTTCGGTCCGAGACCATTTTTTGGGCCTAGGCCATTCTTTGGACCAGGCTTCGGATTTGGCGGCCCTGGATTCTTTCCTGGATTTGGTTTTGGAGTAGCTCCCTTTGTTGGAGGATTAGCTGGTGGTTTATTAGCTGGATCGTTAGTAAATGCTTTCGCCCCTCCATATTATCAAGGCTATGGAGCTTATCCTCCTTATTATGGCTATTAG MSYEWNDPAQTSNHQELELAYPTAPAYYEEQDWMRRPIGFGRPFFGPRPFFGPRPFFGPRPFFGPGFGFGGPGFFPGFGFGVAPFVGGLAGGLLAGSLVNAFAPPYYQGYGAYPPYYGY NA NA NA NA NA AK015_00747 303 hypothetical protein ATGCTTAGAAGGAAGAAATGCATTTGCTGGAATTGCAATAAAAGTACACCATACAAAAGATTATGGTATCGTGGACTTGCAACTAGAACAGTAACATGTCCATACTGCCACGCAGAAAACGACTTAAGTCTCAAGCAACTTTCACTCCAATTTGTCGTATTTTTCATTGGAATGATCTTTTTTCTCATTGGTGGATTATTTTTCGATTTTAAGAGCTTATATTTCGCTATTGCAATTTTGTTATATGCGATAACCGTGGCGCTTGAATTATATATTACCTATGAGCATCAAGCGAAAAGCTAA MLRRKKCICWNCNKSTPYKRLWYRGLATRTVTCPYCHAENDLSLKQLSLQFVVFFIGMIFFLIGGLFFDFKSLYFAIAILLYAITVALELYITYEHQAKS NA NA NA NA NA AK015_00748 762 hypothetical protein GTGCCAAAACTAACGTTAGATACAGCATTTTTAAAAACCGTTCACTTAAAAGAAGATCGAATACCTGCAAATGCTGATGAGTTTCCATTTCATTTGCCAGTGATAAAGGATTTTCCTGGGATTTATTTTCATCCGAATGTGACATATATGATTGGTGAAAATGGATTGGGAAAATCTACTTTATTGGAAGCAATTGCAATTACGTTAGGGTTTAACCCTGAAGGCGGGTCGAAGAATTTTAATTTTTCCAGCTATGATTCTCATTCGTCATTGGATCAATATATTCAGATTGCGCGCGGAGCGTATCAGCCGCAAGATTACTTTTTCTTTCGAGCAGAGTCATTTTATAATGTAGCTACCAACATAGAAGAATTAGATGAATTTGCATCAGGAGGACCGAGGATTATTGATTCCTTTGGTGGAACATCTTTGCACGAGCAGTCTCATGGGGAGGCTTTCTTTGCGACGTTTATGCACCGTTTTCAAGGGAATGGGTTATATATTTTAGATGAGCCTGAATCGGCGTTGTCGCCGTTACGGCAACTATCAATGTTAAGACGGATTCATGATCTTGTGGAGGATGGTTCGCAATTTGTTATTTCTACGCATTCACCGATATTGATGGCTTATCCGAGTGCGAGTATTTTGGAGCTAACTGAAGATGGTATGCAGGAAACAGAATTGGAGCAAACGAGTCATTACAAGGTGATGGCACAGTTTTTTGAAAATAAACAGCGCATGCTCCACCACTTGTTTGATTAA MPKLTLDTAFLKTVHLKEDRIPANADEFPFHLPVIKDFPGIYFHPNVTYMIGENGLGKSTLLEAIAITLGFNPEGGSKNFNFSSYDSHSSLDQYIQIARGAYQPQDYFFFRAESFYNVATNIEELDEFASGGPRIIDSFGGTSLHEQSHGEAFFATFMHRFQGNGLYILDEPESALSPLRQLSMLRRIHDLVEDGSQFVISTHSPILMAYPSASILELTEDGMQETELEQTSHYKVMAQFFENKQRMLHHLFD NA NA NA NA NA AK015_00749 1530 dacC_1 COG2027 D-alanyl-D-alanine carboxypeptidase DacC ATGGGATGGAAAATTTGTAAAAAAAGCACGCTACTTATCCTAGCTATTATCGTACTAGCTATTATTCCATTTGCTATTCAAGATGAATTTGTATTTACAAAGGTGTCTAACGCAACAGAGAATGCAGAAGTGCAAGCAAATTCCTTGGAGGAGAAACTCTCCAAAATATTAACAAATAAACGGTTAGATGGTACAACAACATCTGTAAGCATCATGCATGCTAATACACGAGATATTCTATTTTCCGAAAACAGCGACAGACGTTTGCACCCTGCATCAAACATGAAACTATTAACATCGGTTGCCGCATTAGAAATATTGGGAGAAAATTACCAATTCACCACACAAGTGCGAACGAACGGGAAAGTGAAAGGAAAAGTGTTGCACGGTGACTTATTTTTACAAGGAAAAGGTGACCCGACGTTATTAAAAAGTGATTTGAAGCAGATGGCGGTAGATATGAAGGAACAAGGAATACGTAAAGTGAAAGGAAATATTATTGCAGATGATACTTGGTATGATGATGAACGGCTTTCCCAAGATTTAAATTGGTCTGACGAGTCATTTTATACAGGTGCGCAAGTGTCTGCTTTAACGCTTTCTCCGAATAAAGATTATGATGCAGGCACAGTAATTGTCCATGTTTTACCACAGGCCACCGAAAGTGGAAAAGCAATCATCGAAGTAACGCCTAAAACAGATTACATTAAAATTGTAAATCGCACACAGATTGTAGATGCAGATAAGCCGAAAGATATTGCTATAGAGAGAGAACACGAGACGAACAGAATCATTGTAGAAGGAACTATGCCAAAAAAAGCTACACAAGTGAGGTCATGGGTTGCCGTATGGGAGCCGACAATGTATACGCTAGACGTATTCCAGAAAACACTACACGAGGAAGGTATTGACTTTATTGGTAAAACTGAGGAACTCATGAAAGCAGCTCCAGTTAACAGCACTATATTAACAGAGAAAGAGTCAATGCCCCTTAAAGATTTGCTCATCCCTTTTATGAAACTAAGCAATAATGGGCATGGCGAAGTGTTAACCAAAGAAATGGGAAAAGTTGTTCATGGAGAAGGAAGCTGGAAAAAAGGGCTTGCAGTAATGGAACAAGTAATGGAGCAATTTGGTGCAAGCACCGACACGATGCTACTACGCGATGGATCTGGTATGTCACACAAAAATATGATTCCTGCTAGCGAACTTTTGCAAGTATTGTACCATGTACAAGAGCAGGAATGGTTTCCACTGTTTAAAAATTCCTTACCAGTAGCTGGCGTGGAAGATAGACTAGTCGGTGGAACATTACGGCATCGAATGCAGGAAGCACCCGCAAAAGGAAATGTCATCGCAAAAACAGGCTCTCTTAAAGGAATGTCAACACTATCTGGATACGTCACTACAAAGGATCAACAACCACTCATTTTTTCAATCATGATTAATAACTATATTGGATCAAGCGAGGAAATAACGGCAATTGAAGATCAAATCGCCTCCACTTTAGCAGCTCATGAGTTAGAGTAA MGWKICKKSTLLILAIIVLAIIPFAIQDEFVFTKVSNATENAEVQANSLEEKLSKILTNKRLDGTTTSVSIMHANTRDILFSENSDRRLHPASNMKLLTSVAALEILGENYQFTTQVRTNGKVKGKVLHGDLFLQGKGDPTLLKSDLKQMAVDMKEQGIRKVKGNIIADDTWYDDERLSQDLNWSDESFYTGAQVSALTLSPNKDYDAGTVIVHVLPQATESGKAIIEVTPKTDYIKIVNRTQIVDADKPKDIAIEREHETNRIIVEGTMPKKATQVRSWVAVWEPTMYTLDVFQKTLHEEGIDFIGKTEELMKAAPVNSTILTEKESMPLKDLLIPFMKLSNNGHGEVLTKEMGKVVHGEGSWKKGLAVMEQVMEQFGASTDTMLLRDGSGMSHKNMIPASELLQVLYHVQEQEWFPLFKNSLPVAGVEDRLVGGTLRHRMQEAPAKGNVIAKTGSLKGMSTLSGYVTTKDQQPLIFSIMINNYIGSSEEITAIEDQIASTLAAHELE PGPT0024035_534 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259 NA NA AK015_00750 360 hypothetical protein ATGAATCAAATTCTATTTATTCAAACTGGCATGGGGATTGATGTGCATGGGCAAAATATTACAAAAGCTGCTGTAAGAGCCGTAGAAAATGCTATCTGGTTCAATTCTATGCCTGGCATTGAACACAGCCTTCCTGAACAAAAGCTTGAAAATATGAAAGTAAATGTAAGATTAGCTGTTCCATTAGATCGTAACTTGCTTGATACAGAAAAAGTAAAAGCTGTCGTTCCTTATGGATCAGTTACAGTGGATGTAACTGATGGCGGTATGGCCACCTCAAGTGGGGTTATTTTGAAAGATAAAAATGACGAAAATGACTTAATGTATATGGTAAATGCTGCTGTTGAAGTAGGATATTAA MNQILFIQTGMGIDVHGQNITKAAVRAVENAIWFNSMPGIEHSLPEQKLENMKVNVRLAVPLDRNLLDTEKVKAVVPYGSVTVDVTDGGMATSSGVILKDKNDENDLMYMVNAAVEVGY NA NA NA NA NA AK015_00751 5445 hypothetical protein TTGAAGAAACAGTTAAGTGTGCTTTTTATTGTATTTCTTTTATTACAAACAATTTCCAGTAGCCTAGCCTTTCCCATGCAAATTAACGCGCAAGGCATAAGCAATGATGGATTAATTAATAATATGGAATTAATGGATACATCTGGGAAAATTGTTCCATTAGAAGATATACAACAAGCAACACATTTAAAAGTAGATTGGTCCGTTCAAGGTATAGCTGCCGAACCAAATAAGGATTATACCGATCAACTCCCTACTGCTATAAAAATTGATGAAAAGCAGGAAGAGAAGCTATTGGTAGCAGAAACGGAAGTGGGTAGTTATGTTGTAGATAAAGATAATACGTTAACCATTCGTTTTAATAAGGAAATTCATCAACTCCCTGAAGCGAGCGGAACGTTTGCTGTTAAAATAGCGAAGACGGCAGAAGATACAGAAGCTGATGAACAACAGCAGGCAGGCGATTCAGCAGTGAATCAAGATGAAACAGGTTCTGACGAAGAACAAACAGCGGAAAATGCTACAGATGCCAAGGAAAAAGAAAACAGTGATGAAAAGGCAAATTCGGAAGCAGAAGTAGAGGAGCCTGTTGAGGAAGAACAGCAGAAGACAGCAGAACAAGCTTCAGAAAAAGTTGCTCCGTTAAAGGCGATTGAAGAGGATATATTAACTCGCTATGAGGTAACCTATGAAACTGCTGAAACAGGTGAGCCCATAGAAAAACCAGGTCTAGGTTCGATCATTGCTATAAAATATTGGTGGGAATTACCGAATCGACATGGATATAAAGAGGGCGATACGTACAGTTTTCAAGTACCACCAGAGTTAGAAATTTATAGTGAGATTGATCGCGCAGAAATGAAATTCGATGGAAAAACAATTGGCTATCTATCTGTCACAAAAGATGGAACAGCGACGATAGAGTTTACCAAGTTCATTGAAGAATATTCCAAAATTAGTGGAAACTTTGAGATTTGGACAGAGTTAAGCGAAGAAACCGTTATTAACAAAGACAAAGAATTAGTGATTACACCAATTGAAGGTAAAGAATCCATGACCATTCCAATCGATTTTAACCCGGGCGGTTCAGCTGTGGAGAAAAAAGGGATCCCGAATCGTTCCTATAATGCGGAAGAAATTGAATGGACGGTTGATTTCAACAAAACGCTAGAGACGATTCGTAATGCGAAGTTAATCGATCCGATTGAAGAAGGGCAAGCGCTTAAAGAAGGATCGATCAAACTATATCATTTAGAGACAAAGCTTAATGGCGAAGTGACTCAAGGCGAAGAAGTTGATCCTAACTCTTATACCATAGGAAAAACAGCTGGTGGGAAAGACTTTGCGATTGCATTTAAGGATGATATTCGTTCCGCTTATCGTCTCGTATATGTAACAGACATTACAAATGAAGATGATGATACCTTCAAAAACAAAGCCACGTTAACAGGGGAAAGTTTTGATGATGTAAGTGCGGATGCAACTGTAAAGGTTGGCAGAGGTAAAGCTTTAGAAAAAAAAGCTACACATTATGATCGTGATAACCAAGAAATCACTTGGGAAATTCGCTATAACTACAATCAGAAAAACATTGCCCAAAAAGCTGCACTGTTAAAAGACTTTTTTAATGGCAGTCAAGAGTTGGTGGAAGACTCGTTTGAAGTGAGAGAAATCACGCTGAATGAGAATGGAAAAGAAGTAGGTAAAGGGAAATTTGTTACTAACTATACAGTAACCCCGAGGCAACAAGATGGAAAAAATGGTTTCCATTTACAGTTTAACGAAGATATTTCTTCTGCCTATAAAATTGTTTACAAAACGAAAGCTTCTGAGCGCGTGTTTGATGGCGAGGAAATAATTAATACGGTAAATAGTGGAGAGCATACGGATGAAGGTAAGCAACAAATTGGTCAGATGATCTTATTCAAAAACCATAGTAATCCAAATTATAAGGATAAAACGGTGGAGTGGCAAATTTCCTTTAATCATGATAGTCAAAAGATGAGCAACGTTGTTCTAGAAGATGTTTTTACCAATAAAGGTCTAACTTTATTAAAGGATGAAGAATCTGGTAACTTTTTCAGGATTCAAAAAGAAGGCGGGGCATTAGAAGAAGGAACAGATTATATTATTTCTAAAAATGAAGCGGATCAATTTGTAATTCAATTTAAGAATACAATAACGGAACCACATTGGATCAACTATACGACAACATTTGATTATGACCAACTTGCAAATAAGAGTGAGGACTTTATTAACCAAGCTAATCTGTCTTGGGATGATGCGAATGGAGAACCTAAAGATAAAAGTGCTAAGAATAAATTTACACCGGATGAGTACACAAAGCAGAACGGCTTTAAAAATGGTTCCTATAATGCAGTAACAAAGGAAATCACTTGGAACATAGGTGTCAATTATAATTTAAAAACGCTAGATAATGCGGTTGTTAAAGATTTTATTCAAGGTAATCAGCAACTATTGCAAGACTCCATAACCGTACATTTAATGGAGCTTACTGGTGGGAAAAATGGAACAAAGAAAAAAGAAGCCGTACCAGGTGAGGATTACTCCATAGAATTTATGGAAAATGAACAAGGTGAGCCAGGATTTCAGATTAATTTTGTAAAAGAGATCAACCAACCGTATTTGATAGAGTACAAAACAAGTCTAAATGATTTAGATTTAGTTGCAAAAAACTACCATAATACAGCGAACCTTTACAATGGAAATCAACAAGAAACGGAACTAGATGCTTCTGTATCCATTCCGTATGGCGGAAAGTATACAGAAAAATCAGGAAATCAGAACGGAAAAATGATCGATTGGAAGGTTAATATAAACTTTGGCCAGTCTCAAGTAAGCAATGCTACCATTGATGACAAACCAAGTAATAATCAAGCGTTACTGGAAGATTCTTTCCATCTATACGCAACATCTGTAGATGAAGCAGGTAAAGTTACCAAGGGAGAGTTATTAGAGCTTAACAAGGATTACACCTTGGATTTAGAGCAAAATCCTGAAACGTTTACACTAAAGTTTACAGAAGAAATTAATGAGCCGTATATATTAGAATATCAATCCATGATTTTGGAGAAACCAGGAAAGACGGTAAGTAACAATATATCTTTTAATGGAGAAAACATTGATGAGGTTATCAATGAGTCTCAAGATACAGTAAAAGTGGAGCGAACGAATGGTATGGGCGAAGGTACTGGAGAAATCGGCAGACTAACTGTTCATAAAACCAATCGTGATACTGGCGACTCACTCCCTGGAGCGACGTTTACGCTGAAAGATCAAGAAAGTGGCATTACGGTTGGTACGAAAACAACCGATGAAGATGGTAAAGTTGTTTTTGATCGATTGCTTTATGGAACGTACACATTGATTGAAGAAAGCGCCCCAGATGGTTATCTCATTGAGCAGAAGCAACGTGGAATCGTGATTGATGAATCCTATGTAGAGGGTAGTGAAGTAGAAGTAGGAAATCAGCTCACGGTAACGAACGCTAAAATCATTCGCGATGTACAGTTAAATAAAATTGATGAAGAAACAGGAGCGAGTTTATCAGGAGCGACGTTTGCTTTACAGCAAAAAGTAGGTGACGCTTATAAAGTCATTGATCATCTAACAACAAATACAGCGGGAATAATTTACAAAGGTGATTTAGAACCTGGTGAATATCAATTTGTCGAAACGAAAGCACCGAATGGGTATGAGCTAAATACGGAACCAATTCCCTTTACTATTGGTGAAAAACAAACGGAAATTATTACGTTAACAGCGAAGAATAAAAAACTTGCTTCTGTGGAATTAACGAAGCTTGCAAAAGAAGATGGAAATCGTTTAGCAGGTGCTGCGTTTAAATTAGAGCGCGAAGATGGTTCTGTTGTCGAGCCGTTGTTACGAACAGACGAAGACGGGAGAATTTTTGTTACGAATTTACAACCAGGCACGTACCAATTTGTGGAAACCAAAGCGCCAACATATTATCAGCTTAACGAAGAACCAATACCGTTTACTATAAAAGCTGGTGATTCGAGTACAGTAACAGTCACGGCGAATAATGAGCTTATTCGTGGTAAAGCGGAGCTGACAAAGGTTGATAAGGATGACGAAGCAACGAAACTCGATGGTGCTGTATTTGAACTACAAAATGAAGCAGGCAAGACGTTACAAGAAGATCTCACAACGGATAAAACAGGAAAAATCGTTGTAGAGAATTTGAAGCCAGGTAAGTATCAGTTTGTGGAAATAAAAGCTCCAGAGCACTACATGCTAGATACGACACCAATTCCGTTTACCATTGAAAAAAGTAAAACGGAAGCCGATGTCAAAGTAGCTGCGGTAAAAGCAACAAATGAGCTTATCCCAGGATCTGTTGAACTTGTCAAAGTAGATGAAGATGATGAGGATAAAACCTTGGCAGGAGCGGTATTCGAGCTACAAAATGAAGCAGGAGAAACGGTTAAAAAAGACATAACAACGGATGAAAATGGAAAAATCGTTGTAGAAAATTTGCGTCCAGGTAAGTATCAATTTGTAGAAACCAAAGCTCCAGCTTATTACGAGTTAGATGCTGATCCAATTGCATTTGAGATTGAAAAGAGTCAGAAGGAACAACTAGACATTATCGCAAAGAATAAGCTAATTACTGGTAAGGTTGAGCTTACGAAGGCGGATCAAGATAACAATTATGCACCGTTAGCAGGAGCAGTATTTGAACTACAAAATGAAGCTGGCGAAACGTTACAAGAAGATCTTACAACAGATAAAGCTGGAAAGATCGTTGTAGAGAACTTGAAACCAGGTAACTATAAGTTTGTAGAAACAAAGGCGCCAGAGCACTACAAGCTAGATGCGACACCAATTCCGTTTACAATTGAAAAGAGTAAAACGAAAGAGGATGTCGAAGTAGCTGTGGTAAAAGCAGAGAATGAGCTTATCCGAGGATCTGTTGAACTTGTCAAAGTAGATGAAGATGACGAGGATAAAACATTGGCAGGAGCAGTGTTCGAACTACAAAATGAAGCCGGCGAAACGTTACAAGAAGATCTCACAACGGATAAAGCAGGTAAAATCGTTGTAGAGAACTTAAAACCAGGCAAGTATCAGTTTGTGGAAACAAAGGCGCCAGAGCATTACAAGCTAGATGCGACGCCAATTCCGTTTACAATTGCATTTAGCCAGGAAAATTCTGTACAACTGAAAGTAGAAAATACAATCAATCCAGAAGAGCCTGTAATGGATCCAGGAAATAATGATAATGAGCCAACACAGAAAAATCCTGAAAGTAGTAAGGATGATCCGAGTAAAGCAGGAGAGAAAATAGGAGGAAAACTTCCTCAAACTGGAGAAGAATGGCTACGTTACATGATGATTTTAGGGGTTTCGCTATTTATCGTTGGTGGGTTCCTAATCATTTCAAGACGTCGAAAGGCATAA MKKQLSVLFIVFLLLQTISSSLAFPMQINAQGISNDGLINNMELMDTSGKIVPLEDIQQATHLKVDWSVQGIAAEPNKDYTDQLPTAIKIDEKQEEKLLVAETEVGSYVVDKDNTLTIRFNKEIHQLPEASGTFAVKIAKTAEDTEADEQQQAGDSAVNQDETGSDEEQTAENATDAKEKENSDEKANSEAEVEEPVEEEQQKTAEQASEKVAPLKAIEEDILTRYEVTYETAETGEPIEKPGLGSIIAIKYWWELPNRHGYKEGDTYSFQVPPELEIYSEIDRAEMKFDGKTIGYLSVTKDGTATIEFTKFIEEYSKISGNFEIWTELSEETVINKDKELVITPIEGKESMTIPIDFNPGGSAVEKKGIPNRSYNAEEIEWTVDFNKTLETIRNAKLIDPIEEGQALKEGSIKLYHLETKLNGEVTQGEEVDPNSYTIGKTAGGKDFAIAFKDDIRSAYRLVYVTDITNEDDDTFKNKATLTGESFDDVSADATVKVGRGKALEKKATHYDRDNQEITWEIRYNYNQKNIAQKAALLKDFFNGSQELVEDSFEVREITLNENGKEVGKGKFVTNYTVTPRQQDGKNGFHLQFNEDISSAYKIVYKTKASERVFDGEEIINTVNSGEHTDEGKQQIGQMILFKNHSNPNYKDKTVEWQISFNHDSQKMSNVVLEDVFTNKGLTLLKDEESGNFFRIQKEGGALEEGTDYIISKNEADQFVIQFKNTITEPHWINYTTTFDYDQLANKSEDFINQANLSWDDANGEPKDKSAKNKFTPDEYTKQNGFKNGSYNAVTKEITWNIGVNYNLKTLDNAVVKDFIQGNQQLLQDSITVHLMELTGGKNGTKKKEAVPGEDYSIEFMENEQGEPGFQINFVKEINQPYLIEYKTSLNDLDLVAKNYHNTANLYNGNQQETELDASVSIPYGGKYTEKSGNQNGKMIDWKVNINFGQSQVSNATIDDKPSNNQALLEDSFHLYATSVDEAGKVTKGELLELNKDYTLDLEQNPETFTLKFTEEINEPYILEYQSMILEKPGKTVSNNISFNGENIDEVINESQDTVKVERTNGMGEGTGEIGRLTVHKTNRDTGDSLPGATFTLKDQESGITVGTKTTDEDGKVVFDRLLYGTYTLIEESAPDGYLIEQKQRGIVIDESYVEGSEVEVGNQLTVTNAKIIRDVQLNKIDEETGASLSGATFALQQKVGDAYKVIDHLTTNTAGIIYKGDLEPGEYQFVETKAPNGYELNTEPIPFTIGEKQTEIITLTAKNKKLASVELTKLAKEDGNRLAGAAFKLEREDGSVVEPLLRTDEDGRIFVTNLQPGTYQFVETKAPTYYQLNEEPIPFTIKAGDSSTVTVTANNELIRGKAELTKVDKDDEATKLDGAVFELQNEAGKTLQEDLTTDKTGKIVVENLKPGKYQFVEIKAPEHYMLDTTPIPFTIEKSKTEADVKVAAVKATNELIPGSVELVKVDEDDEDKTLAGAVFELQNEAGETVKKDITTDENGKIVVENLRPGKYQFVETKAPAYYELDADPIAFEIEKSQKEQLDIIAKNKLITGKVELTKADQDNNYAPLAGAVFELQNEAGETLQEDLTTDKAGKIVVENLKPGNYKFVETKAPEHYKLDATPIPFTIEKSKTKEDVEVAVVKAENELIRGSVELVKVDEDDEDKTLAGAVFELQNEAGETLQEDLTTDKAGKIVVENLKPGKYQFVETKAPEHYKLDATPIPFTIAFSQENSVQLKVENTINPEEPVMDPGNNDNEPTQKNPESSKDDPSKAGEKIGGKLPQTGEEWLRYMMILGVSLFIVGGFLIISRRRKA NA NA NA NA NA AK015_00752 867 ydaD General stress protein 39 ATGAAACCAGAAAACATGCAAAAAGGTAGCACACCACGCCAACGTCAAAGTCGGCAGCCAGGGTTGGAATCAGAGATGCATCCATTACCGCATCAGCCGCTAGAGTATAAAGGTTCCGAGAAATTAGCAGGCAAAGTCGCGTTAATAACTGGAGGAGATAGTGGCATTGGGCGTGCAGTTGCCATTCTATATGCAAAAGAAGGTGCTCATGTAGCTATCTCTTATTTGGATGAACACGAAGATGCAGAAAAAACAAAAGAACTCGTTGAAGCTGAAGGAGGTAAATGTATGCTACTTCCTGGTGATATTAAGAGTGCTACCCATTGCCAGAATCTTGTGGAAAAGACGGTAGAAGCGTTTGGGAAAATTAATATTTTAGTTAACAATGCTGCGATTCAATTTATACACGAGGACATATTAGATATATCCGATGAACAAATGGAGGATGTATTTCGAGTTAACTTCTTCTCTCAATTTTATTTAACGAAAGCAGCAGTTCGCCATATGCATGTTGGAGACTCCATTATTAATACGTCGTCCATAAATGCCTATAGAGGAAATCCAATTTTAATGGATTATTCGGCAACGAAGGGAGCAATTACTGCATTCACACGTAGTATTGCACAAAGCTTAGCTAAAAAAGGAATTCGTGCTAATTCCGTTGCCACTGGTCCAGTTTGGACACCACTTATACCATCCTCTTTTGATGAAGATGGTGTAGAAAATTTTGGTCAAGATACCCTAATGAATCGACCTGGTCAGCCGTCAGAACATGCATGGCCATATGTGATGTTAGCTTCAGATGAGGCTTCCTATATGACAGGACAAGCTATTCATATTAATGGCGGAACGTGGACGTCCTCTTAA MKPENMQKGSTPRQRQSRQPGLESEMHPLPHQPLEYKGSEKLAGKVALITGGDSGIGRAVAILYAKEGAHVAISYLDEHEDAEKTKELVEAEGGKCMLLPGDIKSATHCQNLVEKTVEAFGKINILVNNAAIQFIHEDILDISDEQMEDVFRVNFFSQFYLTKAAVRHMHVGDSIINTSSINAYRGNPILMDYSATKGAITAFTRSIAQSLAKKGIRANSVATGPVWTPLIPSSFDEDGVENFGQDTLMNRPGQPSEHAWPYVMLASDEASYMTGQAIHINGGTWTSS NA NA NA NA NA AK015_00753 294 hypothetical protein ATGGAAGAAAGAAAACATAGATATCCAAGTGGGCATTTCGCTAACCAGGAAGAACGGGTAGATTTTAATCAACGCGTAATGGCTGGAGTTGAGAAGGTAAACGAACAATATCCGCAGCAGCGTGTGTTATTAGTTGCTCATGGCGCTGTTATCAACGCTATTTTAGCTGAAGTTTCTAATGGGGAAATTGGCTCAGGGAAAACATCGCTGATGAATGGTTGTATGAGCAATATCCATTTGAAAGAACAAACTTGGCATATAAAAGATTATAACCAAGTTGGTCATTTGCAATAG MEERKHRYPSGHFANQEERVDFNQRVMAGVEKVNEQYPQQRVLLVAHGAVINAILAEVSNGEIGSGKTSLMNGCMSNIHLKEQTWHIKDYNQVGHLQ PGPT0002590_327 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATASE_ACTIVITY P-SOLUBILISATION-UNCHARACTERIZED_PHOSPHATASE,PGPT0002590-phoE-K15640 NA NA AK015_00754 348 hypothetical protein ATGCTATTTCAGCGAATCGACACGGTTTTTGTGCTCGTTCCTCATTTAGAAACAGCTAAAGATTGGTATACCAAAGTACTGGAGCTACCAGTTCTATTCGAAGACGTTACATACCATCTTATCGTCCTAAAGCTAGGAGAGACACCGCTTACTTTATGGAAAGCAGATACAACCTATGAAAGCAATCGTCCACCGCATTTTAACTTTTTCTCAGAAGATATAGAAACAGCGCACAGCCATTTGCGAAATAAGGGCGTTACGTTAGAAGCAATCGAAACATATGATAGTATGAGCTCTTTTGTTTTCTACGATCCTTTCGGCAACAAACTGGAAGTCTGTTCGTTTTAG MLFQRIDTVFVLVPHLETAKDWYTKVLELPVLFEDVTYHLIVLKLGETPLTLWKADTTYESNRPPHFNFFSEDIETAHSHLRNKGVTLEAIETYDSMSSFVFYDPFGNKLEVCSF NA NA NA NA NA AK015_00755 606 cysC COG0529 putative adenylyl-sulfate kinase ATGAGTAAATCAAAGCATATTTCTTGGCATGGTTCTCTAGTAACAAAGGAAATGAGACAAAAGCGAAACAAGCATAAAAGTGCTGTACTTTGGTTTACAGGGTTATCTGGATCTGGAAAATCAACGATCACCGTAGAGCTAGAAAGAAAACTTTATCAACTAGGTATTCACACGTATCGGTTAGATGGCGATAATATTCGCCATGGGTTAAATAAGAATCTTGGGTTTACTGCAGAGGAACGATCAGAAAATATAAGAAGAATTGGCGAAGTATCAAAACTGTTTATTGATGCAGGGGTGCTTGCATTAACTGCTTTTATTTCTCCGTATCGAGATGATCGAAATTTGGTAAGAGCGCTGTTACCAAGTAATGAATTTATTGAAATATACGTGAAATGTCGTTTAGAAGTATGTGAAGAACGCGATCCAAAGGGGTTGTATAAAAAAGCACGAGCTGGTGAAATTGCAGGCTTTACTGGTATTGATGCACCTTACGAGGCGCCGATTTCTCCTGAGTTAACCATTGATACAGAGAAATTATCTGTGGAAGAAGCAGCGCAACGGGTTATTCACTACTTGTTGGAAAAGGAATATTTAACAGTATAA MSKSKHISWHGSLVTKEMRQKRNKHKSAVLWFTGLSGSGKSTITVELERKLYQLGIHTYRLDGDNIRHGLNKNLGFTAEERSENIRRIGEVSKLFIDAGVLALTAFISPYRDDRNLVRALLPSNEFIEIYVKCRLEVCEERDPKGLYKKARAGEIAGFTGIDAPYEAPISPELTIDTEKLSVEEAAQRVIHYLLEKEYLTV PGPT0002780_1349 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002780-cysC-K00860 NA NA AK015_00756 1779 hypothetical protein ATGTCGTATGAAATGATCGTTGTTGCTGTTGTAGTATGTGGCATGATTGGTGCGCTTATTATGGATATTGCTCGTCCAGTCATTATTGTGTTTACTGCGTTAACCATCTTGTTAGTAACAGATATTTTGAAACCAGAAGATGCATTGGCTGGTTTTTCAAATGAAGGAATGCTTACCATTGCTCTTTTATTTGTAATAGCGGGTGCGATTCAGAAAAGCGGTATGATTGAGGTTATAATGAAAGGTTGGCTCAATAAAAGTAATCGTTTCATTGGTGCTATGATCCGTGTGCTTATACCAACATCTGCCCTTTCTGCCTTTTTTAATAACACACCGATTGTTGTTACCTTCACACCAATGCTTAAAAATTGGTGTGAGGAGCATCAAATTGCACCATCTAAATTCTTAATCCCCCTTTCCTATGCAACTATTTTAGGTGGAACGATTACATTGATGGGAACATCGACGAATCTCGTTGTGCATGGGATGCTAATAGATTACGGGTATGATGGATTTTCCCTCTTTCAGTTAGCAGTTATTGGTATTCCCATTACCGTTGTAGGGCTTATTTATTTGATTGTCATAGGGAGACATTTCTTGCCTAATCAGAAAGGGTTTCAACAGCAGGTAAGAAAAGGTTCTAAGGAGTATATGGCAGAATTAATCGTAGAGAATTCATTTCCAGGGATAAATCAAACGGTAAAAGAGGCACGATTAAAAGAGTTAAAGGGGATTTATTTATTAGGGATTGTCCGTGATAAAGAACGCGTATTCCCGATTCGCTCGACAACCAGAATTCAAGCAGGAGATCGTCTTATTTTCACCGGTTTGATTACGGCATTAACCGGGGTGCAAGTAACGAAAGGGCTAACATTAAGCATGGGAAAGCCTATGGATGTTGATGAATTAAAAAAGGCTCACTCAACCATTGTAGAAGCTGTAGTGTCGCACCAATCTTCTTTACTTTATCAATCCATTAAGCAAGCGAAGTTTCGATCTTTATATGATGCTGGAGTTATCGCAGTTCACCGAAATAATGAACAGCTCCAATCCAAGATAGGCGATATCTTGTTAAAGCCAGGGGATCATTTATTATTGCTAGCAGGAGCTGATTTCATTGACAAGTATCAGCAGTCGGAAGATTTTTATGTCATTATGCCATTTCATTGCATGCATATGGTTCATCGGCCTTCCTTTAAAGGCTGGCTAACCATCCTTATATTTTTAATAATGATTATACTCATCACCATCGGCGTGCTAAGTATGTTTAAAGCAATGGCCATCGTCGTTGCTGTTATGCTAGCAATGAAGGTAGTTACGATGGAAGAAATAAAAAAATATATTCATTTTGATGTCTTGGTGCTTATTGCCTGTTCCTTTGGTATTGGGATAGCAACGATGAAGTCAGGTCTTGCCCCTTGGATTGCTGATGGAATATTAACTGTAGGAAAGCCGCTGGGTTTATTTACCTTACTGTTACTTATTTATATCGTAACGAATATATTTACAGAAATCATTACGAACAGCGCGGCGGCTATTTTGATGATTCCAATTGCCTTTGAGATGGCGGAAACACTGGGTTTAGATCCAATGGGTTTTGCGGTAACGGTGACGATTGCCGCATCTGCTAGTTTTATTACCCCAATTGGTTATCAAACAAATCTCATTGTATATGGTCCTGGTGGTTACACATTTAAAGACTATGTGAAAATAGGGACACCACTAAGTATCCTCGTTATGTTCATTACGGTAATTATTGTATACTTTTGGTGGTTTTAG MSYEMIVVAVVVCGMIGALIMDIARPVIIVFTALTILLVTDILKPEDALAGFSNEGMLTIALLFVIAGAIQKSGMIEVIMKGWLNKSNRFIGAMIRVLIPTSALSAFFNNTPIVVTFTPMLKNWCEEHQIAPSKFLIPLSYATILGGTITLMGTSTNLVVHGMLIDYGYDGFSLFQLAVIGIPITVVGLIYLIVIGRHFLPNQKGFQQQVRKGSKEYMAELIVENSFPGINQTVKEARLKELKGIYLLGIVRDKERVFPIRSTTRIQAGDRLIFTGLITALTGVQVTKGLTLSMGKPMDVDELKKAHSTIVEAVVSHQSSLLYQSIKQAKFRSLYDAGVIAVHRNNEQLQSKIGDILLKPGDHLLLLAGADFIDKYQQSEDFYVIMPFHCMHMVHRPSFKGWLTILIFLIMIILITIGVLSMFKAMAIVVAVMLAMKVVTMEEIKKYIHFDVLVLIACSFGIGIATMKSGLAPWIADGILTVGKPLGLFTLLLLIYIVTNIFTEIITNSAAAILMIPIAFEMAETLGLDPMGFAVTVTIAASASFITPIGYQTNLIVYGPGGYTFKDYVKIGTPLSILVMFITVIIVYFWWF NA NA NA NA NA AK015_00757 1173 sat COG2046 Sulfate adenylyltransferase TTGCGATCAACAACGGAAGATGTGAGTAACATTCCACATGGGGGAAAATTAATTCAAAGGCAAGTGAATTGTGAAGAACGGGATATGTTTTTACAAATCATAGGGAACTTAAAAACAATCACATTAAATCGTTGGCATGTATCTGATTTGGAATTGATAGCAAATGGAGGATTTAGTCCTCTGATTGGTTTCATGGGCAAGTCTGATTATACGAGGGTGGTAGAAGAAATGCGTCTGGAGGATGGAACGATTTGGAGCATCCCTATCACGCTAGATGTAGAACAAACGCAAGCAGAAACATTAGAGATAGGTGAGCAAATTGCTCTTGTAGGGGAGGACAATGAGGTTTATGGTGTCTTAGATCTTACTGAAAAGTTTCACTACGAAAAGGAAAAGGAAGCAAAATTAGTGTATGGCACCACCGATCCTGAACATCCAGGCGTGAGAAAAGTTTATGAAAAAGGGGAAGTATATGTAGCTGGACCTATTCGGCTCCTACAAAAGAAATCAAATAATCCATTTGCTAATTATCAGCTCGATCCTGTGGAAACAAGGCAATTATTTAAAGATTTAGGCTGGAAAACGATTGTTGGCTTCCAAACGAGAAATCCAGTCCATCGTGCCCATGAATATATTCAAAAATGCGCATTAGAATCGGTTGACGGTCTACTACTTAATCCCTTAGTAGGAGAAACAAAATCGGATGATATTTCACCTGCGATTCGAATGAAAAGCTATGAGGTGATTTTAGATAAATATTTTCCCCCAGATCGAACAAGACTAGTTATCTATCCCGCAGCGATGCGTTATGCTGGTCCAAGGGAAGCAATATTACATGCGATTGTCCGAAAAAATTATGGTTGCACACATTTTATCGTTGGGCGAGACCATGCAGGTGTTGGCGATTTTTATGGCACTTATGAAGCACAGGAGTTGATTCGTCAATACGAAGCAGAGCTGGGAATACAAATATTTGCTTTTGAACATGCCTTTTACTGCACGACATGCGAAAATATGGCAACAAAAAAAACATGTCCGCATGATAAAACCTACCACGTGCATTTAAGTGGAACGAAAGTACGTGAAAAGCTACGTAATGGTGAGCATTTGCCAAAGGAATTCTCGCGACCAGAAGTAGCAAAAGTTTTAATAGAAGGCTTAAGACAACGTTAA MRSTTEDVSNIPHGGKLIQRQVNCEERDMFLQIIGNLKTITLNRWHVSDLELIANGGFSPLIGFMGKSDYTRVVEEMRLEDGTIWSIPITLDVEQTQAETLEIGEQIALVGEDNEVYGVLDLTEKFHYEKEKEAKLVYGTTDPEHPGVRKVYEKGEVYVAGPIRLLQKKSNNPFANYQLDPVETRQLFKDLGWKTIVGFQTRNPVHRAHEYIQKCALESVDGLLLNPLVGETKSDDISPAIRMKSYEVILDKYFPPDRTRLVIYPAAMRYAGPREAILHAIVRKNYGCTHFIVGRDHAGVGDFYGTYEAQELIRQYEAELGIQIFAFEHAFYCTTCENMATKKTCPHDKTYHVHLSGTKVREKLRNGEHLPKEFSRPEVAKVLIEGLRQR PGPT0002410_826 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958 NA NA AK015_00758 819 hypothetical protein ATGCTAGTGAAAGGGTTATGTAATAAAAAAATAGGTATAGCTGCTACACGAAGAGCAGAACAGATAGCTACATTAGTACAAAAAAATAACGCTATCCCTGCGATTTTTTCTATCCAAGGCGAGCAAGTATTGGATGAGGCTATATGCGTGGAAAATATTTCCTGTTTATTATCAGAGCCGTTTGATCTTATTATTTTGACAACTGGGATAGGCGTAGAAAGCTTAGAAAGGGTTGCCCAAAGTCAAAATTGCGATGCCGATTTTATTCAGAAGCTAGGGCGCACAACACTAGCCGTTCGCGGTAGTAAAACACTTCATTGGTTAAAAAAGCATGCGATTTCCCCTACGTTTATATCACAAGATGGTACCATGGAAGACTTAATATCGACACTTGCTCATGCTGACGAGCAGGGGAAACGTGTATATATCCAAGCGTATAATCAAGACGATGCGTGGTTACAAGCCGCATTAGAGCATTTAGGCTACAGCGTTTATTTGGCAAAACCTTATTATTATCGGCAACCAGAAGCAGAGATCTTAACTGCTTTAAAAGCTGCGATTATAGATCAATCACTTGATGCAGTCATTTTTACGAGTAAAAAACAGGTTCAGAATCTGTTCCAATCTCTCTCTAATGAAGAACAAAAGCAGGTGGTAGCTGCATTTCATAAGCTTGTCTTAGCTGCAGCAGTTGGGAAGGTAACCGCACAGGAATTAAAAAATTATCATATTCAAAACGTTTTTTATCCAACAAAACCAAAAATGGGTCGAATGGTCATAGAAATGAACCGTTATTACGAACAGCACGTTGTTTCGTAA MLVKGLCNKKIGIAATRRAEQIATLVQKNNAIPAIFSIQGEQVLDEAICVENISCLLSEPFDLIILTTGIGVESLERVAQSQNCDADFIQKLGRTTLAVRGSKTLHWLKKHAISPTFISQDGTMEDLISTLAHADEQGKRVYIQAYNQDDAWLQAALEHLGYSVYLAKPYYYRQPEAEILTALKAAIIDQSLDAVIFTSKKQVQNLFQSLSNEEQKQVVAAFHKLVLAAAVGKVTAQELKNYHIQNVFYPTKPKMGRMVIEMNRYYEQHVVS PGPT0003665_1124 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719 NA NA AK015_00759 642 sirC COG1648 Precorrin-2 dehydrogenase ATGGCGCGTATTCCTTTAATGATTGATTTAAAAGAGAAGCAAGTCGTCATTGTTGGTGGAGGCACCATAGCGGCAAGACGAATAAATACAATCAAGGAAAGTAATGCTCCAATTACAGTTATTAGTCCTACGATTAATCAAGCAATTCGAGCGGATTGGGAAGCAGACCTTCTTATATGGCGACAAAAGACATTCGAGGCTACGGATATTCCACAGGCTATGCTCGTTATTGCAGCTACAAATGATCCATCTGTGAACCAATTCGTATGTGAGTCGGCACCGACGGGTTGTCTCGTAAATAATGCTTCGGATGCAGTAGGAAGCCCTGTTCATTTCCCTGCTCATTTCAGGCAAGGAAGATTATCTATTAGCATTTCAACGAATGAAGCGAGTCCAATGCTAGCAGCAAAAATGAAGCAAGAGCTTGAATCTATCTATAACAAAGACTATGAAGACTATGTAGAATTTTTATACCAAAGTAGACAGCTACTGAAACAATCCACATTGGAGAAGCAACAACAGAAAAAACAATTACAAGCGCTTGTTTCTGATGAATTTCTTTGTAAAGATAAACAGCTTCAAGCACTCCAGTCGCTGAAGCAGATCGTAGAGGGAGTGGATGCTAGTGAAAGGGTTATGTAA MARIPLMIDLKEKQVVIVGGGTIAARRINTIKESNAPITVISPTINQAIRADWEADLLIWRQKTFEATDIPQAMLVIAATNDPSVNQFVCESAPTGCLVNNASDAVGSPVHFPAHFRQGRLSISISTNEASPMLAAKMKQELESIYNKDYEDYVEFLYQSRQLLKQSTLEKQQQKKQLQALVSDEFLCKDKQLQALQSLKQIVEGVDASERVM NA NA NA NA NA AK015_00760 732 sirB COG2138 Sirohydrochlorin ferrochelatase ATGCAAGGCGTACTTTATGTAAGTCATGGAAGTCGTTATGCTGATGCTAAGGAAGAGGCAGTGGCATTTCTAGAAGTAATAAAAGAACAAATAAATGTCCCTTTACAAGAAGTCTGTTTTCTCGAATTGGCTTCTCCTAATATGAAGCAAGGAATAGCTAATTTGGTAGCTCAAGGGGCGACCAGCATCGCTATTATACCTGTCCTATTATTACAGGCAGGTCATTATTATCAGGATATTCCACAGGCGATTGCACAACAAAGGGGATTATATCCAGCTATTGCATTTTCTTATGGTCAGCCTCTCGGTGTACAGGATCGAATCATTCACCTATTAGCTGAGCGCATGGAGCAAGCAATTGCAGAACAGAGACCAGATATGAAGGTACTGCTAGTAGGCAGAGGTAGTAGCAATCCACAAACGGTCATAGATATAGAAACGATTGTACGAAAGCTGAAAAGAATAACAAAACTAAACCACATCGAAGCCTGTTATTTAGCGGCATGTGAACCGTCTTTTGATAAAAAACTGCAAGCCGTTGTTACAGAGAAAAATTCGAAAATCGTCATTATCCCATATATCTGGTTCACCGGATTTCTAATGCGACATATTCATCAAAAGGTTGCAGATATGGAGCTTAATGACAATGAAATCGTTGTTTGTCAGCAGCTAGGCCAGCATCCTGTGATGCAAGAAGCATTGAAGGATCGTGTTATAGAGGCAATATCGTAA MQGVLYVSHGSRYADAKEEAVAFLEVIKEQINVPLQEVCFLELASPNMKQGIANLVAQGATSIAIIPVLLLQAGHYYQDIPQAIAQQRGLYPAIAFSYGQPLGVQDRIIHLLAERMEQAIAEQRPDMKVLLVGRGSSNPQTVIDIETIVRKLKRITKLNHIEACYLAACEPSFDKKLQAVVTEKNSKIVIIPYIWFTGFLMRHIHQKVADMELNDNEIVVCQQLGQHPVMQEALKDRVIEAIS PGPT0008500_179 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008500-sirB-K03794 NA NA AK015_00761 801 sumT COG0007 Uroporphyrinogen-III C-methyltransferase ATGGTGAAAGAGGTGGAGGGAGTTATCGGAAAGGTATATTTGGTAGGGGCAGGGCCAGGGGATCCTGATTTAATTACGATCAAGGGTGTCAAAATCATCAGTCAATCAGATGTTATTTTATATGATCGTTTGGTAAATGAACAATTATTAGCTTACGCACCAGAACAGACAACACGTATTTATTGTGGGAAGCGTCCAGATCATCATGCATTAAAACAGGAACAAATTAACCAATTACTTTGTCATTATGCAAGTCAAGGAAAGGTAGTTACGAGATTAAAAGGGGGAGATCCTTTTATATTTGGCAGAGGAGGAGAGGAAGTTTTAGCGTTAAGAAAATATCAAATTCCGTTTGAAATTGTACCAGGAATCACGTCTGGATCAGCTGCGCCAGCTTATGCGGGAATCCCTTTAACCCACCGTCAAATTAGTTCCTCTGTGGCTTTTGTATCGGGTGTAACTAGGGCGGAAGAGGATAGTGAAGCATATTGGGAACATCTTGCGAAGGGCACAGATACTTTATGTATCTATATGGGGGTTAAAAACCTCTCCGACATTTGTAAGTATTTAATTCGTTATGGTAGAGATGCGATGACACCAATTGCCGCTATCTACTATGGAACAACACAAGTACAACAAACGGTCACGGGTACGTTAGAAACAATTGCATTGAAAGCAGAACAGATCAAAAACCCTGCGATGCTTATTATTGGCGAGGTTGTTCGGTTGCGTGAGCAGATACAGTGGTTTGAAGAAATGGCAAGTGAAGAAAGCGAGCCGCTCGGTGCTGTAATCAGTTAG MVKEVEGVIGKVYLVGAGPGDPDLITIKGVKIISQSDVILYDRLVNEQLLAYAPEQTTRIYCGKRPDHHALKQEQINQLLCHYASQGKVVTRLKGGDPFIFGRGGEEVLALRKYQIPFEIVPGITSGSAAPAYAGIPLTHRQISSSVAFVSGVTRAEEDSEAYWEHLAKGTDTLCIYMGVKNLSDICKYLIRYGRDAMTPIAAIYYGTTQVQQTVTGTLETIALKAEQIKNPAMLIIGEVVRLREQIQWFEEMASEESEPLGAVIS PGPT0003685_1138 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 AK015_00762 1716 cysI COG0155 Sulfite reductase [NADPH] hemoprotein beta-component ATGTCAAAAGAAAAAGATGATCTGCATGAGAGATCTTTAGATGATATGGAGCGAATAAAGAAGCGCAGTAATTTTCTACGGGGAACGATAATGGAAGGACTTGTAGATCCAATCACGGGGGCAATTTCGGATGATGATAATAAATTATTAAAGTTTCACGGCAGTTACCAGCAAGATGACCGTGATTTACGAGATGAACGAAGACGCCAAAAATTAGAGCCTGCCTATCAATTTATGATTCGGGTACGTGTGCCGGGAGGGATTGCTACACCGGAACAATGGCTGGTGATGGATGAACTTGCTGATAAATATGCAAACGGGTCCATTCGTTTAACGACAAGGCAAGCATTTCAACTGCATGGCATTTTGAAATGGGATTTAAAAAACACAATAAAAGAGATTAATCATACACTTATGGATACATTAGCCGCTTGTGGCGATGTCAATCGAAATGTGATGTGCAGTACCAATTCGTATCCATCAGCAATCCATCAGGAAGTGCAGAAATGGGCGCAAGCAATCAGTGACCATCTCTCACCAAGAACGGGAGCATATCATGAGATTTGGCTAGATAAAGAAAAAGTGGTTGACTCACGAGACGAAATGGAAATAGAACCCATTTATGGATCAACTTATTTACCGAGGAAATTCAAAATTGGGATTGCAACCCCCCCATCAAATGATATTGATGTATTCTCGCAAGATCTTGGTTTTATTGCTATTCAAGAAGCCAATAAGCTAATAGGTTTTAATGTTTCCGTTGGTGGTGGTATGGGAATGACACATGGAAATACCAATACGTATCCCCAATTAGGGCGGGTGATAGGCTTCTGTTCTCCTGATCAAGTGATTGCTGTAGCAGAACAAATTGTTACAATTCAGCGGGACTACGGAAATCGCTCTGACCGAAAGAATGCTAGATTTAAATACACCATTGATGCAAGGGGAATAGATTGGCTACAACAGACACTATACGAACGCTTAGGTTGGGAATTGGAAGAGCCAAAAGATTATCAGTTTAAAAGTAATGGCGATAGCTATGGGTGGAAGGAAGCAAATGATATGTTGCATTTTACATTATTCATTGAAAATGGGCGTGTCAAAGATACAAGGGATTATCAACTCCGAACAGGGCTAAGAGAAATTGCTAAGATTCATACGGGAGACTTGCGTTTGACCCCTAATCAAAATCTAATTATTGCCAATGTTACGAAACAGAAGAAGGATCAGATGGAGCAACTTATTCAAACGTATAAACTAACAAATGGCGGTCAACTTAGTGGTTTGCGGCGTAATTCGATGGCTTGTGTAGCTTTACCGACATGTGCTTTGGCAATGGCAGAGTCAGAAAGATATCTACCTTCCTTCATTGACAAAATAGAAGCAATTCTTCAAGAAGCAGGTCTCCATCAAGAAGAAATTGTGATCCGTATGTCAGGATGCCCAAATGGTTGTTCACGACCAGTTTTAGCTGAGATAGCGTTTATAGGTAAGGGACCTGGCAAGTACAATCTATATCTGGGCGGAAGTTTTACTGGGGAACGATTAAGCAAGCTCTACAGGGAAAATATAGGAGAAAAAGAGATTTTAGACACACTAAAACCAATTATAACGCAGTATGCAAAGGAAAGGTTAGACGGGGAGCATTTTGGAGACTTTGTTATTCGAACAAATTATGTAGAAGCCGTATATTCTGGATTGGATTTTCATAAATAA MSKEKDDLHERSLDDMERIKKRSNFLRGTIMEGLVDPITGAISDDDNKLLKFHGSYQQDDRDLRDERRRQKLEPAYQFMIRVRVPGGIATPEQWLVMDELADKYANGSIRLTTRQAFQLHGILKWDLKNTIKEINHTLMDTLAACGDVNRNVMCSTNSYPSAIHQEVQKWAQAISDHLSPRTGAYHEIWLDKEKVVDSRDEMEIEPIYGSTYLPRKFKIGIATPPSNDIDVFSQDLGFIAIQEANKLIGFNVSVGGGMGMTHGNTNTYPQLGRVIGFCSPDQVIAVAEQIVTIQRDYGNRSDRKNARFKYTIDARGIDWLQQTLYERLGWELEEPKDYQFKSNGDSYGWKEANDMLHFTLFIENGRVKDTRDYQLRTGLREIAKIHTGDLRLTPNQNLIIANVTKQKKDQMEQLIQTYKLTNGGQLSGLRRNSMACVALPTCALAMAESERYLPSFIDKIEAILQEAGLHQEEIVIRMSGCPNGCSRPVLAEIAFIGKGPGKYNLYLGGSFTGERLSKLYRENIGEKEILDTLKPIITQYAKERLDGEHFGDFVIRTNYVEAVYSGLDFHK PGPT0002790_877 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381 NA NA AK015_00763 1839 cysJ COG0369 Sulfite reductase [NADPH] flavoprotein alpha-component ATGTTGTCGTTGAATGTGATAAATAGTCCATTTAATCAAAAACAAGTTGAGCAATTAAGTCGTTTATTACCAACTTTAACGGATAACCAAAAGGTTTGGCTAAGCGGCTACCTTTCAGGAGTGATGTCTAAAGAAGTACAGCATACTAGTAGTTCACCCCCGCAAGTAGATAGTAAGCCAATGCCTGCTAGTACATCCACAAGAAAAGTAACGGTACTATACGGTTCAGAAACAGGAACAGCTCGCTTATTAAGTGAAATGATGGCTGAAAAACTAGATGTAGCTAATTTTATGGTGACCTTGTTAGCTCTTGATGACTTCAAAACAAGTAAATTAAAAAAGATGGAGGATTTATTAATTATAACGGCAACCCATGGGGAAGGTGATCCGCCAAATAATGCGATATCTTTTTATGAATTTCTTCATAGTAGAAAGGCACCTAAATTGGAACAATTGCGTTTTTCTGTGCTGTCACTTGGTGATACGTCGTATGAATTCTTCTGTCAGACTGGAAAGGATTTGGATAAACGTCTAGAGGAATTAGGTGGAGAGAGATTATATGAGCGAGTAGATTGTGATTTAGACTTTGATGAACAAGCAAACTTGTGGATGGATGGTGTTCTAGATGTTTTAAAGCATTCATCGGATGTTGTTGACCATCACGCGCTTTTAGATCAGAAAAAGGACGGAATGGTCGTTTCCGAGCAAGCTGTTTTTTCAAGAACAAATCCATTTATGGCAGAGGTTATAGAGAATATAACGTTAAGTGGACGTGGCTCTCAAAAACAAACGCACCATCTAGAACTATCTCTTGAAGGCTCAGATTTCACCTTCAAACCAGGAGATAGTATAGGAATTTATCCAAAAAATGACCCGAAATTAGTAGAGCAACTCTTAACGGAGCTCACATGGGACGCGGACCAAAGCCTAGCTGTGAATAAGCAAGGAGAAATAAGATCATTACGTGAAGCATTGCTATCTCATTTTGAAATAACCGTTTTAACAATACCAATGTTAGAAAAGGCAGAGAGACTGTTTGCAAACAGCGCATTAAGCGATTTTATAAAAGCAGGCAATAAAGAAACATTAACCGCTTATATAAAGGGAAGAGATGTTCTAGATTTAGTGACTGATTTTCCACCTGAGAAGCTGGAGCCAGAGGAGTTTGTGAGCATATTGCGGAAGCTTCCAGCCCGACTTTATTCTATCGCCAGTAGTTACAAAGCAAATCCAGATGAAGTTCATTTAACGATTGGAAAGGTCCATTATGTTACCCATGGACGTGAGCGGTTTGGAGTTTGTTCGGGGCAAGTTTCCACAAGAGTGGAAATAGGCGATAAGTTGCCCATATATATACAAAAAAATCCTAATTTTCAATTTCCTAATGATCCGCAAACGCCAGTCATTATGATTGGGCCTGGTACGGGAGTGGCGCCCTTTCGTTCTTATTTGGAAGAGCTGGAGGAAACGAAAGAGAAGCAAAGAACATGGCTTTTCTTTGGCGAACAGCATTTTTTATGTGATTTCCTCTATCAAGTAGATTGGCAAAAGTGGCTAAAAGCAGGCGTGCTTTCGAGGATGGATGTCGCATTCTCAAGAGATACCGACCAAAAAGTATATGTCCAACACAAGATGCTTGAAAAAAGCAACGAATTTTATAATTGGTTAAAAGCTGGTGCGGCTGTTTATGTATGTGGCGATGAGAAGCATATGGCGAAGGATGTGCATCAAACGCTGGTGACTATATTAAAGCAAGAGGGTGACATGAGCGAAGAAAAAGCCGAATCCTATTTGCAGCAAATGCGTCTAGAAAAACGTTATCAGCGAGATGTGTATTAA MLSLNVINSPFNQKQVEQLSRLLPTLTDNQKVWLSGYLSGVMSKEVQHTSSSPPQVDSKPMPASTSTRKVTVLYGSETGTARLLSEMMAEKLDVANFMVTLLALDDFKTSKLKKMEDLLIITATHGEGDPPNNAISFYEFLHSRKAPKLEQLRFSVLSLGDTSYEFFCQTGKDLDKRLEELGGERLYERVDCDLDFDEQANLWMDGVLDVLKHSSDVVDHHALLDQKKDGMVVSEQAVFSRTNPFMAEVIENITLSGRGSQKQTHHLELSLEGSDFTFKPGDSIGIYPKNDPKLVEQLLTELTWDADQSLAVNKQGEIRSLREALLSHFEITVLTIPMLEKAERLFANSALSDFIKAGNKETLTAYIKGRDVLDLVTDFPPEKLEPEEFVSILRKLPARLYSIASSYKANPDEVHLTIGKVHYVTHGRERFGVCSGQVSTRVEIGDKLPIYIQKNPNFQFPNDPQTPVIMIGPGTGVAPFRSYLEELEETKEKQRTWLFFGEQHFLCDFLYQVDWQKWLKAGVLSRMDVAFSRDTDQKVYVQHKMLEKSNEFYNWLKAGAAVYVCGDEKHMAKDVHQTLVTILKQEGDMSEEKAESYLQQMRLEKRYQRDVY PGPT0002795_1223 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380 NA NA AK015_00764 741 cysH COG0175 Phosphoadenosine phosphosulfate reductase TTGACACGACAAATACTTTCGTATCAAAATTTTACTGTCGACCCTTTTCAAGATTTCAGCCCTACTGATGATACAAAGGGTGCTTTCACGATTTTACGTTGGGCGTATGATCTGTATGGAGATTCCATTGTATATGCATGTAGCTTTGGTGCAGAAAGTATGGTACTCATCGATTTACTATCTAAGGTGAAGTCAAATGCGAAGATTGTCTTTCTAGATACAGGGTTACATTTTCAAGAAACGTACGATCTTATTGATGAAGTAAAGAACAGATACCCTGATTTGCGAATTGATCTAAAGCAACCTGATTTGACCGTTGACGAACAGGCCGCAAAGTATGGCTCAGCGTTATGGAAGCGGAAGCCAGATCAATGTTGTTTTATTCGTAAGATCAAACCGCTTGAAGAGGTGCTTGACAATGTGCCGGCTTGGATTTCTGGACTTCGCAGAGAGCAGTCATTAAGTCGGAGTAAAACAGACTTTGTGAATAAAGATGAAAGATTTAAAAGTATTAAAGTATGCCCATTGATACATTGGACTTGGGGTGATGTCTGGAATTACATTCTACAACGAGAATTGCCGTATAATGAACTGCATGATAATAATTTTCCGAGTATTGGGTGTATCCCTTGTACATCACAAGTAACAGAATCCGATGATTTGCGTGCAGGAAGATGGACGGGGCAAACGAAAACAGAATGTGGTCTGCATACAAATAATGACGACAGGAATTTGAGATGA MTRQILSYQNFTVDPFQDFSPTDDTKGAFTILRWAYDLYGDSIVYACSFGAESMVLIDLLSKVKSNAKIVFLDTGLHFQETYDLIDEVKNRYPDLRIDLKQPDLTVDEQAAKYGSALWKRKPDQCCFIRKIKPLEEVLDNVPAWISGLRREQSLSRSKTDFVNKDERFKSIKVCPLIHWTWGDVWNYILQRELPYNELHDNNFPSIGCIPCTSQVTESDDLRAGRWTGQTKTECGLHTNNDDRNLR PGPT0002785_1567 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390 NA NA AK015_00765 315 gdnD_1 COG2076 putative guanidinium efflux system subunit GdnD ATGGGTTGGCTTCTAGTAGCATGTGCTTCTGTGTTTGAAATCATCGGCGTTTTAGGCTTGCGGTTATATAGTCAAAATAAGACCGTCGCAAATGGGCTGTTGTATCTTGGAGGATTAGGCGCATCGTTTGCTTTTCTCTATGCCTCTTTCTCTCATTTGCTTGTCAGTGTTGCTTATTCCGTATTTATGGGAGTTGGGACAGCTGGAGCTGTATTGATGAATATGATTTTCTTTGGGGAATCAACAAACAAGCTACGTGTGTTTAGCTTAGGCTTAATCATCATTGGCGTCGTTGGGTTAAAAGCAATATCGTAA MGWLLVACASVFEIIGVLGLRLYSQNKTVANGLLYLGGLGASFAFLYASFSHLLVSVAYSVFMGVGTAGAVLMNMIFFGESTNKLRVFSLGLIIIGVVGLKAIS PGPT0029170_214 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 AK015_00766 348 gdx COG2076 Guanidinium exporter ATGAATAAATCATGGATCTATGTTGTATTGACAAGTGTATTTGAATTAATTTGGATTTATGGCTTTAACACGGCATCTACGTGGTGGCATTGGGTATTAATTATAGGTGCTATTTTACTAGACTTACATTTCTTATCCAAAGCGTGTGAAGGGATTCCAACTGGAACGGTATACGCTATCTTTGCGGCAGCTGGAACAGTAGGAACGGCGTTAATGGATGTTTATATATTTGGAGGAAGCTTAAATATGGGGAAAATTTTCTTTATGTTCTTGTTAGTTTTAGGTGTCATTGGTTTGAAATTATTTGATGCACCAGAGCAAACAACGAAGCAGGAGGTGCGTTCATAA MNKSWIYVVLTSVFELIWIYGFNTASTWWHWVLIIGAILLDLHFLSKACEGIPTGTVYAIFAAAGTVGTALMDVYIFGGSLNMGKIFFMFLLVLGVIGLKLFDAPEQTTKQEVRS PGPT0029165_112 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 AK015_00767 573 yvdT putative HTH-type transcriptional regulator YvdT ATGGATAATAAAAAACAGAAGATTGTTCAGTCTGCCATTCATGTTTTTCAAGAGAAGGGCATTGAAAAAACAAAGGTATCCGATATTGTGAAAGGTGCAGGTGTGGCTCAAGGAACCTTTTATTTATATTTCCCATCCAAATTAGCAGTCATGCCTTCCATCGCTGAAGTGATGGTGCAAAAGATTGTAGAGGCGATGAAGGAAGAGGTAAACGTTGAGCAAGCATTTATTACACAATTGGAACAGGTCGTTCATGTTGCCTTTAAAATAACAAACGATTATCGAGAAATTTATGCGCTTATGTTTGCTGGGTTGGCTTCCAGTCAATATTTAAGTGAGTGGGAGAAAATTTATGAACCTTATTATGCTTGGATGCAGGAGTTTTTAAATCAACCTAAAGCTACCGCTATGTTGCGTGAATCAATCAATGTAGAGGCAACAGCAAAATTATTAATTGGATTAATTGAAGCAGCAGCTGAACAATCTTACTTGTTTGATAAACATGATGAAGAAAAAGCAAATCAGAAAAAGAAAGAAGTATTGGATTTTGCTAAACATGCATTATGTCAATAG MDNKKQKIVQSAIHVFQEKGIEKTKVSDIVKGAGVAQGTFYLYFPSKLAVMPSIAEVMVQKIVEAMKEEVNVEQAFITQLEQVVHVAFKITNDYREIYALMFAGLASSQYLSEWEKIYEPYYAWMQEFLNQPKATAMLRESINVEATAKLLIGLIEAAAEQSYLFDKHDEEKANQKKKEVLDFAKHALCQ NA NA NA NA NA AK015_00768 1428 gloB_3 Hydroxyacylglutathione hydrolase ATGTATCTAAACTATTTTTATGAAACTTCTTTAGCTCAAGCCTCTTATATGGTAGCTTGCCAAGCTACTGGTGAAGCAGCTGTTATTGATCCGGCTAGAAATATAGAGGGGTATTTAAAAACAGCTAGAGAGCAAGGTTTTCAAATTGTTGCAGCAGTGGAAACACATATTCATGCTGATTTTGTATCGGGAGTTACAGAACTTGCACGTAGAACGGGGGCAAAAATTTACCATTCCATAGAAGGTGTAGATAATGGGGGCTATGAATGGAGTAGCGACTTGCCTGTAAAAGGTTTACGTGATCAAGATACCGTCCAATTAGGGAAAGTACAGCTGCGAGCAGTCCACACCCCTGGACATACACCGGAGCATATGGCTTATGAATTAATCGATGGTGCTGTTGCTGATCGGCCAATGGGTATATTTACAGGTGATTTTGTATTTGTAGGCGATGTTGGCCGTCCTGACCTGTTAGAGAAGGCAGTAGGCGTAGTAGGATCTGCCGAAGAGGGAGCAAGACAGATGTTTAGCTCTATTCAGCGGTTTAAAAAGTATGCGGACTATGTACAAATATGGCCTGGCCACGGATCAGGAAGTGCTTGTGGCAAGGCTCTTGGGGCAGTACCGACAAGCACAGTGGGCTATGAACGATTGTTTAATCCAGCTTTTCAACCAACCGAAGAAACAGCTTTTATCAACTTGTTATTGGATGGACAGCCAGAACCACCTGCTTACTTTGCAAAGATGAAGGAAGTAAACAAAACAGGTATGACACCACTTCAGCAAGTACCATCACCGGTAGAAATGCAGCTTACTGGTGACGAAATAGCCGAATTAGCACAAGATAACCAGACGATGGTAATTGATACACGGAGTATCCAAACATTTGCTACTGGAAGTATCCCAGGAACAATTAATCTTCCTTATCCTGATATGTTTACCGAATGGCTCGGTCGTTTAGCAGATTATGAAAAAACGATATACCTTATTGCAGAGCCACATCAATTTGCCCCTTTACGTAAAATAATGCTTGGTATGGGGATGGATAACTTAAAAGGATTTTTTGCTACGTCTGTCATAGATAGTGCATCTGAGAAGCTAACCTATGATACGCAATCCCCATCTGTAGTTGACAAGAAAAGAGAGCGTGATGATGTTCAAGTGTTGGATGTCAGGTATATAGATGAATGGGATGAAGCACATATTCCAAACGCCAACCATATTCCGCTTCCAAAATTAGCAGAACGTGCGGATGAATTAAATCCAAAGAAGCCTGTTGCTGTCCATTGTCGCTCAGGAAAGCGTTCAGCGATTGCGTCAAGCATGTTAATAAATCAAGGATTTGACGTTATTAACGTGGAAGGCGGATTTATAGACTGGGAGCAACAAAATCTGGAGACAACGAAAGATAAAATAAAAGAGGGTTAA MYLNYFYETSLAQASYMVACQATGEAAVIDPARNIEGYLKTAREQGFQIVAAVETHIHADFVSGVTELARRTGAKIYHSIEGVDNGGYEWSSDLPVKGLRDQDTVQLGKVQLRAVHTPGHTPEHMAYELIDGAVADRPMGIFTGDFVFVGDVGRPDLLEKAVGVVGSAEEGARQMFSSIQRFKKYADYVQIWPGHGSGSACGKALGAVPTSTVGYERLFNPAFQPTEETAFINLLLDGQPEPPAYFAKMKEVNKTGMTPLQQVPSPVEMQLTGDEIAELAQDNQTMVIDTRSIQTFATGSIPGTINLPYPDMFTEWLGRLADYEKTIYLIAEPHQFAPLRKIMLGMGMDNLKGFFATSVIDSASEKLTYDTQSPSVVDKKRERDDVQVLDVRYIDEWDEAHIPNANHIPLPKLAERADELNPKKPVAVHCRSGKRSAIASSMLINQGFDVINVEGGFIDWEQQNLETTKDKIKEG PGPT0001770_174 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK015_00769 663 COG0450 Peroxiredoxin ATGGAGCAAATGGACCAAGCGACACAGGCATACAATTTGCCAAGAATTGGTGAAAAAGCACCTGACTTTACTGCAAAAACGACCCATGGTGACATTTCTTTAATAGATTATAAGGGAAAATGGGTTGTATTGTTTTCGCATCCAGCTGATTTCACACCCGTATGTACCTCTGAGTTTGTAGCTTTTCAAGAAGTCTATGACCAACTACGTGAGATGAATACAGAATTAATTGGCTTAAGTATTGATAGTGTGAGTTCGCACATTGCTTGGGCGAGAAATATTGAAGAAAACTTTAATACAACCATTGAATTTCCGATTATTGCTGATTTGAATCAGAAAGTTGCTAGGAAATATGGGATGATTATGCCCGAATCCGATGGCACAGAAACGTCACGAGCGGTATTTGTCATTGATGATAATCAAACGATTCGTGCCTTAATTTATTATCCATTATCAACAGGGCGAAACATGGAAGAAATTGTCCGACTTGTGAAAGCATTGCGGACAACGGATGAGCATGGAGTTTCAACTCCTGCAAATTGGCAACCTGGTGATAAAGGAATTGTTAAACCACCGCAAACAAAAGAAGAAGCCAATGAGCGCATGAATAATCAGGAGTATGATTGCGTAGATTGGTACTATTGTAAGAAAGAAATTAATTAA MEQMDQATQAYNLPRIGEKAPDFTAKTTHGDISLIDYKGKWVVLFSHPADFTPVCTSEFVAFQEVYDQLREMNTELIGLSIDSVSSHIAWARNIEENFNTTIEFPIIADLNQKVARKYGMIMPESDGTETSRAVFVIDDNQTIRALIYYPLSTGRNMEEIVRLVKALRTTDEHGVSTPANWQPGDKGIVKPPQTKEEANERMNNQEYDCVDWYYCKKEIN PGPT0013130_706 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013130-tsaA|PRDX2_4|ahpC-K03386 NA NA AK015_00770 1716 COG1132 Putative multidrug export ATP-binding/permease protein ATGTTACGACGATTTTTCTCCTATTACAAGCCACATAAACGTTTATTTGCAGTAGATTTCACCTCTGCAGTTATTGTAGCGTTATTAGAGTTAGCATTTCCTGTTGCTGTGCAGTATTTCATTGATGACTTACTACCAGGTAATGATTGGGATGTCATTATCGTAGTTAGTGTGCTACTTCTACTCGTCTACTTGCTGAGTACTGTATTGCAATATGTAGTTACTTACTATGGGCATAAGCTAGGAATTAATATAGAAACGGATATGCGTCAGGAATTGTTTCATCATGTTCAACGGCAATCATTTCGCTTTTTTGATAATACGAAAACCGGCCATATTATGAGTCGCATCACAAACGATCTATTTGATATTGGAGAACTGGCACATCACGGTCCGGAAGATTTCTTTATTTCGTTCATGACCTTTATCGGTGCGTTTATCATCATGTTTACCATTAATGTAAAACTTGCTTTCATTATTTTATTTGCAGTACCAATATTGATTTTTCTCATTGCATTTAGCAATATCCAAATGAATAAAGCATGGACAAAGATGTACGAAGATATTGCAGGTGTCAACGCACGCGTAGAGGACGCAGTTTCAGGTGCTCGTGTTGTTCAATCATTTACGAATGAAGCACATGAAATGGAGCGATTTACGAAAGATAATCATAGCTTCCGCAAAGCAAAGGTAAAAGCATATCAAGTTATGGCAATTGTACATTCTAATATATACATGCTCATGCGTCTCATTACACTTTTGGTGTTAGTCGTTGGCGCTTGGCTAACCTTTCAGAATGAATTGTTGATTGGTGAACTCGTTAGCTTTGTTTTATTCGTCAATGTACTCTTTACGCCTATTCAAAAAATTACCGCATTATTGGAATTGTATCCAAAAGGGATGGCAGGCTTTAAACGTTTTATAGAGCTGTTGGATATGGATCCAGATGTGCAAAATAAATACGATGCACAATCTGTAGCTTATTTACATGGGAATATTTCCTTTCATCATGTTACTTTTACATATGAAAAAACGCAAAAACCGGTTTTAAATGATTTGAGTTTTCACATTCAAGCAGGCGAGACAGTGGCTTTCGTTGGTCCGTCTGGAGCAGGGAAAACAACGATCTGTTCTTTAATTCCAAGGTTTTATGATGTGAATGCGGGAAAAATTATGATTGACGGTATGGATATACGTGATATGACGAAGGAGAGTTTGCGTCAGCAGATTGGAATTGTACAGCAGGACGTCTTTTTATTCACAGGGACACTACGAGAAAATATTGCTTATGGAAAGCTTGATGCGTCAAATGAGGAAATTGAATTAGCTGCATGTCGTGCCCATATGGAAGAGTTTATTCAAGAGTTGCCACAAGGGTTTGAAACGCAAGTTGGTGAAAGGGGATTGAAGCTATCAGGCGGGCAAAAACAGCGCATTGCAATCGCAAGGATGTTTTTAAAAAACCCACCTATTTTAATTTTAGATGAAGCTACGTCTGCACTAGACACGGAAACAGAGATGATTATTCAAAAGGCGTTAACAGAGCTGGCCAAAGATCGTACAACACTCGTAATTGCGCACCGATTAGCTACGATAAAAAATGCAGACCGAATTATGGTTGTTACGAAGGAAGGGATAGAAGAAGAGGGGAGTCATGAGCAATTGTTGGAGCGTGATGGTATTTTTGCGCATTTACATCGGGTACAAATGCGTTAA MLRRFFSYYKPHKRLFAVDFTSAVIVALLELAFPVAVQYFIDDLLPGNDWDVIIVVSVLLLLVYLLSTVLQYVVTYYGHKLGINIETDMRQELFHHVQRQSFRFFDNTKTGHIMSRITNDLFDIGELAHHGPEDFFISFMTFIGAFIIMFTINVKLAFIILFAVPILIFLIAFSNIQMNKAWTKMYEDIAGVNARVEDAVSGARVVQSFTNEAHEMERFTKDNHSFRKAKVKAYQVMAIVHSNIYMLMRLITLLVLVVGAWLTFQNELLIGELVSFVLFVNVLFTPIQKITALLELYPKGMAGFKRFIELLDMDPDVQNKYDAQSVAYLHGNISFHHVTFTYEKTQKPVLNDLSFHIQAGETVAFVGPSGAGKTTICSLIPRFYDVNAGKIMIDGMDIRDMTKESLRQQIGIVQQDVFLFTGTLRENIAYGKLDASNEEIELAACRAHMEEFIQELPQGFETQVGERGLKLSGGQKQRIAIARMFLKNPPILILDEATSALDTETEMIIQKALTELAKDRTTLVIAHRLATIKNADRIMVVTKEGIEEEGSHEQLLERDGIFAHLHRVQMR NA NA NA NA NA AK015_00771 375 hypothetical protein ATGGAAAAGCAGTTAAGCCAACCGCTATTTACGTGGATATGCTATTGCCTAGCGTTTGTTTTTTTAACATCGGGGATGATGAAACTCGTAGTTAGCGATTTTAAAGTACGTTTTGCCGAATTAGGGCTTCCTTTTCCGGAGTTAGCCTTGTTTATCGTTGCCATTGTAGAAGTTGCTTGCGGAATGTTGATCGCTAGAAGGTTCTATCTCCACTTAGCCGTACCACCACTAATTTTAATTATGCTTGTCGCTTTATATTTAACCAAACTACCCACTTTACTCCATCAAGGGGTACTCCCCTTTCTATTCGAAGCAAGATTAGATATTGTTATGTTCGTTTTATTACTGGTTATTTGGAATAAGAAAAAATTGTAA MEKQLSQPLFTWICYCLAFVFLTSGMMKLVVSDFKVRFAELGLPFPELALFIVAIVEVACGMLIARRFYLHLAVPPLILIMLVALYLTKLPTLLHQGVLPFLFEARLDIVMFVLLLVIWNKKKL PGPT0028505_7127 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 AK015_00772 1218 htrA COG0265 Serine protease Do-like HtrA ATGGGATATTATGATCAGCACTATCCACCGAAACGACGAAAGAAAAAGAGTGGCTGGCTTGTGCCATTGCTGCTTGGTGCAATCCTTGGTGTTTTGCTTGTAACAGTCGCACTTCCTGCACTTGTAGATACAGGTATTTTAAATAATGTAGAGCAACAACAGAATGAGCAGAGTAGTGCAAATGATTCTAGGAATAAGAGTAGCGGTCCAAAAGAAATGGTGAATGTAGATGTGTCATCACAAATTACGGAAGTCATCAACCAGGTAGCACCAGCAGTTGTTGGGGTGATTAATATTCAAAGTCAAATGGATTTTTGGCAACAACAGGAGGAAAATAGTCAAGCTGGTGAAGGTTCTGGTGTCATTTATAAAAAGACAGATGGAAGTGCATTTGTAGTCACGAATCATCATGTTGTAGAAGGTGCGGATACAGTTGAGGTTGTATTATCTGATGATACACATGTAAAAGCAGATTTAGTGGGAACAGATCTCTTTTCTGATTTAGCCGTTTTAAAAATGGATGGAGACCAAGTAGAACAAGTTATCGAAATTGGCTCTTCGGCAAATGTGAAAACGGGTGAACCTGCTATTGCAATTGGCAATCCACTTGGGCTTATGTTTTCAGGGTCGGTTACCCAAGGAGTCATTAGTGGCACCGAAAGAACCATTCCACAAGATTTTAACCAGGATGGACGAGCGGACTGGCAAGCAGAAGTAATTCAAACCGATGCAGCCATTAACCCAGGTAATAGTGGTGGTGCGCTTATTAATATTCGTGGGCAACTCATCGGAATAAACTCGATGAAAATTAACCAAACAGCAGTAGAAGGGTTAGGCTTTGCCATACCAATTGATTCTGCACTGCCAATTATAGAAGAACTGGAAACAGAAGGAAAGGTTACAAGACCTTATTTAGGCGTAGAAATTTACTCCTTAGAGGAAGTACCACAAACAGAATGGGATAGTACTTTAAGTCTTCCAGATAATATCAAAGGCGGCGTATATGTATGGAGTGTAGAACCGCTATCACCTGCTGATCGAGCTGGGCTAAAACGGTTAGATGTAATTACAGAACTAGATGGCAAGAAAGTAATGAATATGATTGATCTTCGAAAGATTCTTTATCAAGAAAAAGAAGTAGGAGACGAAATAGCTGTCACTTATTATCGTGATGGCAAAAAACGCGAGACAACGATTCAACTAGGAGAGCAAAATTAA MGYYDQHYPPKRRKKKSGWLVPLLLGAILGVLLVTVALPALVDTGILNNVEQQQNEQSSANDSRNKSSGPKEMVNVDVSSQITEVINQVAPAVVGVINIQSQMDFWQQQEENSQAGEGSGVIYKKTDGSAFVVTNHHVVEGADTVEVVLSDDTHVKADLVGTDLFSDLAVLKMDGDQVEQVIEIGSSANVKTGEPAIAIGNPLGLMFSGSVTQGVISGTERTIPQDFNQDGRADWQAEVIQTDAAINPGNSGGALINIRGQLIGINSMKINQTAVEGLGFAIPIDSALPIIEELETEGKVTRPYLGVEIYSLEEVPQTEWDSTLSLPDNIKGGVYVWSVEPLSPADRAGLKRLDVITELDGKKVMNMIDLRKILYQEKEVGDEIAVTYYRDGKKRETTIQLGEQN PGPT0015105_5266 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 AK015_00773 783 yycJ_2 COG1235 Putative metallo-hydrolase YycJ ATGACTTTACGTTTTAGCGTACTAGCTTCAGGCAGTACTGGAAATGCTTTTTACATTGAAACGGAACAAGAGAAATTACTCGTTGATGCTGGGTTAAGTGGAAAGCAGATGGATCGTTTATTTGCAGAAATAGATGCGGATCCCCGAAAGCTATCGGGAATATTAGTAACGCATGAGCATAGCGATCATATAAAAGGATTAGGCATTATTGCTCGTAAGTACCAGTTACCTATCTATGCGAATGAAAAGACTTGGAAAGCGATGGAAAAATCGATTGGTAACATATCGGTGGATCAAAAATTTTATTTTCATCAGGATGAAGTAAAAACGTTTGGTGATATGGATGTTGCTTCTTTTGGTGTATCCCATGATGCAGCAGAACCTATGTTTTATACATTTCATCATGAAGATAAGAAGGTAGCATTAGTAACGGATTTAGGGTATGTTTCCGACCGCATTAAGAAAACAGTGGAGGGTGCAGATGCGTATATATTTGAAGCAAACCATGATGTAGGCATGCTTCGGATGGGGAAGTATCCTTGGAATGTTAAACGGAGAATACTGGGCGATTCTGGCCATATTTCCAATGAAGATTGTGGTCTGGCTCTAGCAGATATTATTGATAATAATACGAAACGCATTTACTTAGCACATCTAAGTTTAGATAATAATATGCGTGATTTAGCTAGAATGTCTGTAGATCAAGTTCTACAAGAGAGAGGGATAGCGATAGATTTGCTAGATACGTACCATGATAAGTCTACACCTCTTTTTGCAGTATAA MTLRFSVLASGSTGNAFYIETEQEKLLVDAGLSGKQMDRLFAEIDADPRKLSGILVTHEHSDHIKGLGIIARKYQLPIYANEKTWKAMEKSIGNISVDQKFYFHQDEVKTFGDMDVASFGVSHDAAEPMFYTFHHEDKKVALVTDLGYVSDRIKKTVEGADAYIFEANHDVGMLRMGKYPWNVKRRILGDSGHISNEDCGLALADIIDNNTKRIYLAHLSLDNNMRDLARMSVDQVLQERGIAIDLLDTYHDKSTPLFAV NA NA NA NA NA AK015_00774 945 hypothetical protein ATGCAGTGGAGTCAAATTAAAACCTTATTTATATTATGCTTTTTAATTCTTAATATTTATTTGTTTGTAGAGTTTATGGATAAACAAAGTAGCATCGATTCTTATGATCGCACAAATCCAAATGAACCAACCTTGGAAGAAGAGTTGAAGCAAGAAAATATTAAGATTCGTGATTATCATATAGATGTGAAGAAAGATACGTATATGAATATTGCACCAAAAAAATATACAGAAACAGATTACAACAAAATAAAAGCATTGAAAAATCAAGAAACGGAATTGATTAATGGGTCTTTACTTGTCTCTAGATTTGATGAGCCGATCCCAATGCCAAAGCAACCAAATAATGCCAGTGTTAGTCAATTGCTAAAGAAGTATATTGCTTCTTCAGATGGGTACAAGTATTATGGTTGGGATAAAGATGCTAATGTATTGTTATTATTTCAGAAAAATAAGGATCGAACCATTTATTATAATCGCTACGGTTTGATACTTGTTTTTCTAAATGAAGATAATGAAATGATTTATTATACGCAAACGATGTTAGGAGATGCGCAAGAGCAAGGAGAGCCAAGTACGCTGTATGAGCCAATGAGTGCGATCGGTACTTTATTTGACCAAAATGAATTATATTCGAAAGACACTATTACAGACGTAGAGTATGGGTATTATACTCGAATTGCTTCTGAGACAGGAGCGTCACAGGTTTTTGCACCAACATATAAAATAACGGTAAATGAAGAACGGAATTACTTTGTAGGTGCGGTAGAACCATATGTAAGCATGGGCGATAATACAAAGTTCCTTTCGGATACGTTGCAGAATTATGAAAGTGTAATGCAACAAATGAGTAATGAAATAGAGTGGAAGAAGAAATTTTTAATTATGGTAAATCAAATTATTGCGGAAGATAGTATAGAGAATAATCGGAGTGACTTTGAATGA MQWSQIKTLFILCFLILNIYLFVEFMDKQSSIDSYDRTNPNEPTLEEELKQENIKIRDYHIDVKKDTYMNIAPKKYTETDYNKIKALKNQETELINGSLLVSRFDEPIPMPKQPNNASVSQLLKKYIASSDGYKYYGWDKDANVLLLFQKNKDRTIYYNRYGLILVFLNEDNEMIYYTQTMLGDAQEQGEPSTLYEPMSAIGTLFDQNELYSKDTITDVEYGYYTRIASETGASQVFAPTYKITVNEERNYFVGAVEPYVSMGDNTKFLSDTLQNYESVMQQMSNEIEWKKKFLIMVNQIIAEDSIENNRSDFE NA NA NA NA NA AK015_00775 1317 yycH COG4863 Two-component system WalR/WalK regulatory protein YycH ATGAAACTAGAGACGTTTAAATCTATTTTATTAGTATTGTTAATTGGACTTAGTTTATTATTAACGTTTGGATTATGGAATTATCAATCTGAATTTGAAGAACTCGATGATAAGGAAAATGTAAGTGACACCAGTGTTGGTGGAACCAAAATGGAAGCCGAGAGTAATGTCATTCTACCTAGTTCCATTATTTTTCATGCAGGGCAGCAGCATTTAGGATATAAAGATCCACAAAAGCAGCAACAGTTATTTGAAGACATGCAAACATGGGTGTATACAAACTTTAGTATTAAAGATGCGAATTGGGACGCAGATGACTTTGATATAGAAATCAGATTCCCAGATGCGTTGCCAATTCAGATTGTTACGAGTCTATTTCAGTTTACAAATACGGATAAAGTGGACGCAGATTGGTCCTTTGATCATATGTATTTACGCCTGAAAGAAGATACATCAACGATTACCGTGCTGTTTCCTTCCGTTGATGGTAGAAGACAAGCGACTGCTTCGGTAAATAATTCCACCAATTATAATCAGTTTAAGAAATTATTTGCTTCTCGAGAAGACTTAACCGAGTTTTTATTATTTAACGAAGGGGAAAGAGACATTTTCATCCCTAGTAAAACAAAAGATTTTAAAAAGCGTTCGCTTATTGTAAATAAGATACCGTCAGACCGATTTGTGAGAGCTTTATTTCCGAACACGACTAGAGTAAATCGATCTGATGAAGGGGAAAGAGGCATTGGAGAGTTCTTTTTTGCTGATAGTGAGCGTGAGATGCGAATACAGCATCATGAGACAAAATTAGAGTACTATTATCCTTATGCTACGGATAATGATTCAGGTCCAAATGATCCAGTAGAATTAATCGATCGGAGTATTTCAACGATAGATTCACACGACGGTTGGTTTGGGAATTATCAATTATATAATGTAGATACCTCATCAAATCAAGTAATTTACAGAATGAGTTACAATGGTTATCCAGTTTATAACGAATACGGCTTGTCCTTAATGGAAATTCAGTACCAAGGGCTTGATATTTATCGTTATAACCGTTCGTTATTAAAGCTTAGCAATGAAGTGCGGACAGAAGATATCGATGTCCCTTCTGGAGCAGATGTAATCCGTTATGTAAACAATGAATTAACCGACGAGGTTGATCAAATAGAAGATATTCAATTAATGTATGATTTCCAATACCAAACGGATAACTCGGTTATTTTAAATCCAGTTTGGTTTATGCAAATAAATGGAATATGGAAAAAACTGTTTCCAGACTTAGAAACTCCTGCTTCACAACAGGGAGGGGTTTAA MKLETFKSILLVLLIGLSLLLTFGLWNYQSEFEELDDKENVSDTSVGGTKMEAESNVILPSSIIFHAGQQHLGYKDPQKQQQLFEDMQTWVYTNFSIKDANWDADDFDIEIRFPDALPIQIVTSLFQFTNTDKVDADWSFDHMYLRLKEDTSTITVLFPSVDGRRQATASVNNSTNYNQFKKLFASREDLTEFLLFNEGERDIFIPSKTKDFKKRSLIVNKIPSDRFVRALFPNTTRVNRSDEGERGIGEFFFADSEREMRIQHHETKLEYYYPYATDNDSGPNDPVELIDRSISTIDSHDGWFGNYQLYNVDTSSNQVIYRMSYNGYPVYNEYGLSLMEIQYQGLDIYRYNRSLLKLSNEVRTEDIDVPSGADVIRYVNNELTDEVDQIEDIQLMYDFQYQTDNSVILNPVWFMQINGIWKKLFPDLETPASQQGGV NA NA NA NA NA AK015_00776 1833 walK Sensor histidine kinase WalK ATGAAAAAAGTGGGTTTTTTTCGTTCTATTCAATTAAAGTTTATCATTATATATATTCTTTTATTGCTGGTAGCTATTCAAGTTATCGGCTCCTTTTTTACTACCGAATTAGAAAATAATTTAGTAACTACCTTTGAAGATTCCATTGCTTCAAGAGTAGAGCTGTTAAGTTACAACTTGGAGCAGGCATTTAACCGAGAACGCGATGAGGAAAACCCAGATCAACCCTCATTAAAAGAAGAAGTTCAAAGTATTGTTTCCGAAGTGGATACGCAAGATATTTCAAGTCTACAAGTTGTTGATAATCAAAGCCGAGTAATGGCAACAAATGATTACAATTCGCGTGATGAAATTAATAAAAAAACGACGAGAGGGATCATTCAGCGTACACTAACGACGAATTCAACTGAACATAGTAATAATGTAAGAGATAATGACCGTTTTTATGTACTAGCTCATCCAATTGTAGATGAAAAAAATAGAGATATTGTCTTAGGTGTTATTTATTTAGAAGCGTCTTTAGAACCCGTTTACGATCAATTAATGAGTATTAATGAAATATTCTTTCAAGGGTCTATCTTAGCTATTACTGTATCTGCTTTTATCGGTATTTTAGTTGCACGAACGATTACGAAACCGATTATTGAAATGCGTCGCCAAGCTCAAAAAATGGCCAGGGGTGATTTCACCCAAAAAGTAAATGTATACGGTTGGGATGAAATTGGTCATTTGGCTGAAACATTTAACGATTTAAATAATCAGCTAAAACATTCCTATGCAACGATTGAAGAAGAACGAAGAAAGCTAAGCTCCGTTTTATCAAATATGTCGGATGGTGTTATCGCTACAGATAGTTCGGGAGCAATAACTTTAATGAATGAGCCTGCTGGAAGATTAATCGGCCATAATCCAGATGATGTGATGGGGTCATTTTTACTCGATATATTACATCTGGAAGATAAAATGGTGGATATTAACGAATTGCACAATAGTGGCTCGATGATTATTGACTTTGGGGAAAATGAAGAGGATTTTATTATTCGGTCTAATTTTTCTACGGTTCTTGATGAAGAAGGAGAAATTACTGGGTTTATTACGGTGATTAGCGATGTAACAGAGCAGGAAAAAGTAGAAGCAGAACGACGAGAGTTTGTATCCAACGTTTCGCATGAACTTAGAACACCGCTTACTACGATGAGAAGCTATGTAGAAGCTTTAAATGATGGCGCATGGGAAGATAAAGAAATTGCCCCTAAGTTTCTTGGTGTCGTGCATAATGAGACGGAGCGGATGATTCGTATGGTCAATGATTTACTGCAACTATCGAAAATGGATGCAAAAGAATATCCTCTTCATAAAGAACGTGTTGAATTTGTAAGTTATTATCATCAAATTATTGATCGTTTTGAGATGCAAACACCAAAGGGCATTCATTTGCAGCGGGAGTTACCTAACGGTAGCTATTATGTTTGGATGGATAAGGATAAGATGACACAGGTGCTTGATAACATTATTACAAATGCTATTAAATACTCCCCTGAAGGTGGCACGATTAAGTTAAAAACGGAGTATAAACGTCATCAATTGATAATCAGTATCCAAGATGAAGGTATGGGTATTGCATATGATAAATTAGAAAAAATCTTTGAACGCTTTTATCGTGCAGATAAAGCAAGAACAAGAAAGCTTGGTGGTACAGGGCTTGGCTTAGCCATTGCTAAGGAACTTGTAGAGGCTCATCATGGTCAAATTTGGGCGACAAGCAAAGAAGGTAAAGGAACAACCGTTTACTTTACGCTTCCGCTTATGAATCAGAAGCGGAGAGGTGCATAA MKKVGFFRSIQLKFIIIYILLLLVAIQVIGSFFTTELENNLVTTFEDSIASRVELLSYNLEQAFNRERDEENPDQPSLKEEVQSIVSEVDTQDISSLQVVDNQSRVMATNDYNSRDEINKKTTRGIIQRTLTTNSTEHSNNVRDNDRFYVLAHPIVDEKNRDIVLGVIYLEASLEPVYDQLMSINEIFFQGSILAITVSAFIGILVARTITKPIIEMRRQAQKMARGDFTQKVNVYGWDEIGHLAETFNDLNNQLKHSYATIEEERRKLSSVLSNMSDGVIATDSSGAITLMNEPAGRLIGHNPDDVMGSFLLDILHLEDKMVDINELHNSGSMIIDFGENEEDFIIRSNFSTVLDEEGEITGFITVISDVTEQEKVEAERREFVSNVSHELRTPLTTMRSYVEALNDGAWEDKEIAPKFLGVVHNETERMIRMVNDLLQLSKMDAKEYPLHKERVEFVSYYHQIIDRFEMQTPKGIHLQRELPNGSYYVWMDKDKMTQVLDNIITNAIKYSPEGGTIKLKTEYKRHQLIISIQDEGMGIAYDKLEKIFERFYRADKARTRKLGGTGLGLAIAKELVEAHHGQIWATSKEGKGTTVYFTLPLMNQKRRGA PGPT0013760_434 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013760-vicK|walK|yycG|micB-K07652 NA NA AK015_00777 705 walR_2 COG0745 Transcriptional regulatory protein WalR ATGAGTCAAAAAATATTAGTTGTCGATGATGAACAGCCAATTGCAGATATATTGAAATTTAATTTAGAAAAAGAAGGCTATGAAGTCGTTGTAGCGTATGATGGCGACGAAGCGATTAAGTTAGCAACAGAAGAAACCCCGGATTTAGTTCTATTGGATATTATGTTACCGAATAAAGATGGGAATGAAGTCTGTCGGGAAATACGAAAAACACAAACAATGCCAATTATTATGTTGACGGCAAAAGATTCGGAAATTGACAAAGTACTCGGATTGGAATTGGGAGCAGATGATTACGTGACGAAGCCGTTCAGCAATCGGGAATTAATTGCTCGTGTAAAGGCAAACTTACGTAGGCAACAAGTTGTACCTGAGGATACAACAAAAGCCTCTAGAGACATTCAAATTGGTTCGCTCGTCATTCACCCTGATGCTTATGTTGTCTCACGGGATGGCGAGCAAATTGAATTAACACATCGTGAATTTGAATTATTGCACTACCTCGCTCGACACATGGGACAAGTAATGACACGAGAACATTTATTAGAAACCGTATGGGGTTATGATTATTTTGGTGATGTTCGTACGGTAGATGTGACAGTGCGTAGGTTGCGAGAAAAAATTGAAGAGACTCCTAGTAACCCTATGTGGATCGTGACACGTAGAGGAGTAGGCTATTATTTACGAAATCCTGATCAGGAGTAG MSQKILVVDDEQPIADILKFNLEKEGYEVVVAYDGDEAIKLATEETPDLVLLDIMLPNKDGNEVCREIRKTQTMPIIMLTAKDSEIDKVLGLELGADDYVTKPFSNRELIARVKANLRRQQVVPEDTTKASRDIQIGSLVIHPDAYVVSRDGEQIELTHREFELLHYLARHMGQVMTREHLLETVWGYDYFGDVRTVDVTVRRLREKIEETPSNPMWIVTRRGVGYYLRNPDQE PGPT0013765_514 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668 NA NA AK015_00778 1287 purA COG0104 Adenylosuccinate synthetase ATGTCCTCAGTAGTCGTAGTTGGAACGCAGTGGGGCGATGAAGGAAAAGGAAAAATTACCGATTTCTTATCGCAAAATGCTGAAGTTGTTGCACGTTATCAAGGTGGTAACAATGCGGGACACACAATAAAATTTGACAACGTTACGTATAAATTACATTTAATTCCATCAGGCATATTTTTCAATGAGAAAACGTGTGTATTAGGAAACGGAATGGTAATTGATCCAAAAGCTTTCGTGGAGGAAATAGCTTATTTACATGAGCGTCATGTTTCGACTGATAATCTGCGTATTAGCAATCGTGCACATGTCATTCTTCCCTATCATTTAAAGCTGGATATTTTACAAGAAGAAGAAAAAGGCGATAACAAGATTGGCACAACCAAAAAGGGAATTGGGCCAGCTTATATGGACAAAGCTGCCCGTTGCGGTATTCGTATTGCCGATTTGATGAATAAAGATATATTTCGTAAAAAGCTAGAACAAAATTTACTAGAAAAAAATCGTTTGTTTGAAAAACTTTATGGAGTAGAGCCGATGAACCTGGAAGACATTGTTGATGTCTATTATGATTATGGTCAGCAATTGGCTCCATATGTGTGCGATACTTCTGTCGTATTGAATGATGCATTGGATCAAGGTCGTCGTGTGTTATTTGAAGGGGCGCAAGGCGTTATGCTCGATATCGACCAAGGTACCTATCCATTTGTGACCTCTTCCAATCCGACTGCTGGCGGTGTAACTATTGGATCAGGAGTTGGGCCAACCAAAATTGACCATGTCGTCGGTGTTTCTAAAGCATATACAACTCGTGTTGGTGATGGACCTTTTCCTACAGAATTACATGGTGAGATAGGTGAGCAAATTCGAGAAGTAGGTCGGGAATATGGCACCACAACAGGTCGTCCTCGCCGTGTCGGCTGGTTTGATAGTGTTGTTGTTCGTCATGCTCGTCGAGTGAGTGGGATTACCGATTTATCTTTGAATTCGATTGACGTATTAACAGGCATCGAAACGTTGAAAATTTGTGTGGCATATCGATACCAAGGGGAAATCATACATGAGTTCCCTGCAACACTGGCAGAACTTGCTGCGTGTGAACCCGTATATGAGGAAATGCCTGGATGGACGGAAGATATTACAGGGGTAACAAGTTTGGGCGATTTGCCTACAAATGCAAGGCATTACTTAGAGCGTGTGTCTCAACTAACAGGTATTCCACTTTCTATATTCTCTGTAGGACCAGATCGCTCGCAAACAAATGTAGTTCGAAGTGTTTACAGCTAA MSSVVVVGTQWGDEGKGKITDFLSQNAEVVARYQGGNNAGHTIKFDNVTYKLHLIPSGIFFNEKTCVLGNGMVIDPKAFVEEIAYLHERHVSTDNLRISNRAHVILPYHLKLDILQEEEKGDNKIGTTKKGIGPAYMDKAARCGIRIADLMNKDIFRKKLEQNLLEKNRLFEKLYGVEPMNLEDIVDVYYDYGQQLAPYVCDTSVVLNDALDQGRRVLFEGAQGVMLDIDQGTYPFVTSSNPTAGGVTIGSGVGPTKIDHVVGVSKAYTTRVGDGPFPTELHGEIGEQIREVGREYGTTTGRPRRVGWFDSVVVRHARRVSGITDLSLNSIDVLTGIETLKICVAYRYQGEIIHEFPATLAELAACEPVYEEMPGWTEDITGVTSLGDLPTNARHYLERVSQLTGIPLSIFSVGPDRSQTNVVRSVYS PGPT0020140_4190 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939 NA NA AK015_00779 1359 dnaC COG0305 Replicative DNA helicase ATGAATACCCAAATAGATCGCACCCCGCCGCATAATATGGAAGCTGAACAGTCGATTATTGGAGCAATATTTATCGATCCAGAAGCATTTATTACGGCTTCTGAGATATTAGTTCCAGAAGATTTTTATAAAGCAGCACATCAACGTATTTTTTCCAGTATGATGGCTTTATCCGATCGCGGGGAACCAATTGATGTCGTAACCGTAACTGCTTATTTACACAATGCGAACCAGTTAAATGAAGTAGGTGGCGTGCAATATTTATCACAAGTAGCAGATAGTGTACCTACATCTGCCAATATAGGATATTATTGTCGGATTGTTGAAGAAAAAGCGTTATTACGAAGATTAATTCGATCAGCTACAGATATAGTAACATCAAGTTTTGAGAGGCAAGATGAAGTAGAGGATGTTTTAAACGAAGCTGAGAAAACCATTCTTGATGTATCTGGGAAAAAGAACTCTGGAGCGTTTAAAAATATTAAAGATGTGTTAATCGACGTCTACGATAATATTGAGCAACTGCATCATCAAAATGGAGATGTAACAGGAATTCCTACTGGTTTCCGTGATTTAGATCGAATCACTTCTGGCTTTCAACGGAATGATTTAATTATTATTGCGGCACGACCTTCCGTAGGTAAAACAGCTTTTGCATTAAACGTAGCGCAAAATGTGGCTGTAAATACGGATGAGAATGTAGCTATTTTTAGTTTAGAAATGGGAGCAGACCAGTTAGTACAGCGTATGCTCTGTGCAGAAGGAAATATAGATGCTCAGCGTTTACGTAATGGACAATTACAAGCTGAGGACTGGAGTAAATTAACGATGGCAATGGGTAGTTTATCCAATGCAGGCATTTATATTGATGATACGCCAGGCATACGGGTTGCAGACATAAGATCCAAATGTCGAAGATTAAAGCAAGAACATGGTTTAGGAATGATTCTAATCGATTATTTGCAACTTATCCAAGGAAGTGCCAATTCCAAAGAGAATAGGCAACAAGAGGTATCGGAAATATCCCGTTCTTTAAAAGGATTAGCAAGAGAATTGAATGTACCATTAATTTCCCTTTCTCAGCTATCTCGTGGCGTAGAGTCGAGACAAGACAAACGCCCTATGATGTCTGATTTGCGAGAATCGGGGAGTATTGAACAAGATGCGGATATTGTAGGGTTTTTATATCGAGATGATTATTATGATTCGGAATCGGAAAAACAAAACATTATTGAAATTATCATTTCGAAGCAACGTAATGGTCCTGTAGGGACGGTCGATTTAGCGTTTGTAAAAGAATATAATAAATTCGTTGACTTGGATCATCGTTATTCCGATAGCGATATTCCTCCAGCATAA MNTQIDRTPPHNMEAEQSIIGAIFIDPEAFITASEILVPEDFYKAAHQRIFSSMMALSDRGEPIDVVTVTAYLHNANQLNEVGGVQYLSQVADSVPTSANIGYYCRIVEEKALLRRLIRSATDIVTSSFERQDEVEDVLNEAEKTILDVSGKKNSGAFKNIKDVLIDVYDNIEQLHHQNGDVTGIPTGFRDLDRITSGFQRNDLIIIAARPSVGKTAFALNVAQNVAVNTDENVAIFSLEMGADQLVQRMLCAEGNIDAQRLRNGQLQAEDWSKLTMAMGSLSNAGIYIDDTPGIRVADIRSKCRRLKQEHGLGMILIDYLQLIQGSANSKENRQQEVSEISRSLKGLARELNVPLISLSQLSRGVESRQDKRPMMSDLRESGSIEQDADIVGFLYRDDYYDSESEKQNIIEIIISKQRNGPVGTVDLAFVKEYNKFVDLDHRYSDSDIPPA NA NA NA NA NA AK015_00780 447 rplI 50S ribosomal protein L9 ATGAAAGTAATATTTCTTAAAGACGTAAAAGGTAAAGGCAAACAAGGTGAAGTAAAAAATGTATCCGATGGTTATGCACGTAACTATCTATTAAAAAATAACTTAGCTCAAGAAGCAACACCAGGTAATTTAAAAGCTTTAGAAGCAAAGAAGAAAAAACAAAAACAATTAGAACAAAAAGAAAAAGAAGAAGCTATTCAATTGAAAGATAAACTTGCAGACATAACTGTAGAATTAACGGCTAAATCAGGGGACAGTGGACGTTTATTTGGCTCCATTACGAGCAAACAAATCTCTGAAGCGTTAGAAAAGAATTATGGCTATAAAATTGATAAGCGAAAAATAGAGTTAGATGCACCGATTAGATCTTTAGGGTATACAAATGTACCAATAAAATTGCATCCTGAAGTAGATGGTTCCATTAAAGTGCGTGTGAGTGAAAAGTAA MKVIFLKDVKGKGKQGEVKNVSDGYARNYLLKNNLAQEATPGNLKALEAKKKKQKQLEQKEKEEAIQLKDKLADITVELTAKSGDSGRLFGSITSKQISEALEKNYGYKIDKRKIELDAPIRSLGYTNVPIKLHPEVDGSIKVRVSEK NA NA NA NA NA AK015_00781 1971 gdpP COG3887 Cyclic-di-AMP phosphodiesterase GdpP ATGCCCGATAAGCAAAAAAAGCCGACACTGAGAAACCATGTATGGTTTATTTACACAATTTCCATCATTTTATTAGGATTTATTTGGTATTTTCAATGGGTGCTGGGAATGATTATGACAGTATTGTTAGTCGTTTCATTCTATTACAGTATGCGTTCGGAGCAAGCTCTGCAAGATGAAGCTGAAAAATATATAACGACATTGTCGTACCGTGTAAAAAAGGTCGGGGAAGAAGCGTTATTAGAAATGCCGTTTGGAATTATCTTATATAATGATGATTTTAAAATAGAATGGGCAAATCCATATATGAATCGTTTTGATGATGGAAGTTTGGTTGGCGATTCGCTTCATAAATTATCAGAGGATTTAATTCCGATGATTAAAGAAAATAAAGAGAAGATCTGGTTTGAGTTGCAAGATTATGTGTTCGAAACGGTTGTAAAGAAAGAAGAACGACTCCTTTATTTATTTGATCGTACAGAACAATCGGAATTACAAATACAGTATCGAAATGAGCAGACGGTCCTTGGTTTTATTTTTCTAGACAACTATGAAGAAATTACGCAGAACATGGACGATACAAATAAAAGTCGATTAAATTCACAAGTGACATCGGTATTAAATAAATGGTCCAAACATCACGGTCTGTATTTAAAACGAACTTCTCAGGAACGTTTTTTAGCCGTTGGAACAAAAGAAATCCTAACAAATCTAGAAAAATCGAAATTTGAAATCTTAGATGAAGTACGTGCATTAAGCGGAGAGCGCAATACCCCGGTTACATTAAGTATTGGTATCGGCATGGGGAATGTTGACTTGCCTACACTTGGGGAATTAGCCCAATCGAGCCTAGACCTTGCATTAGGTCGAGGTGGCGATCAAGTAGCGATTAAGGACGAGACGGGAAAAGTTCGCTTTTACGGTGGGAAAACAAACCCAATGGAAAAGCGAACGCGCGTAAGAGCAAGGGTAATCTCCCATGCGTTAAAAGAGTTAATTCGAGCTAGTGATAATGTGATCATTATGGGGCATAAATCACCAGACATGGATTCGATCGGTGCTGCTATCGGTATCTTAAATATTGCGCTTGCTAATGACGTAGAAGGATATATCGTGTTTGACCCAAATGATATAGATACAGGTGTTTATCGTTTAGTTGATAAAATTAAGGAAGATGAGGTACTTTGGCAATACTTTGTGGATCCTGATGAAGCAAATTCACTTATCAACAACCGTAGCCTAGTCGTCGTCGTAGATACACATCGACCAGCAATGGTTGCAAGTGAAGTACTCTTACAAAAGTCCGATTACAAAGTAGTCATTGATCATCATCGTCGTGGGGAAGATTTTATTGACAACCCAACTTTAGTATACATGGAACCATATGCATCTTCTACGGCAGAATTGGTAACGGAACTGTTAGAGTATCAACCGAAAAAATTAAAATTACGTATGTTGGAGGCAACTGCGTTATTAGCAGGGATTATTGTCGATACGAAAAGTTTCACGTTACGAACAGGGTCAAGAACATTTGATGCTGCTTCTTACTTACGATCCAAAGGTGCCGATACAGTACTTGTTCAGGAACTGTTAAAAGAGGACATTGATGTATATGTGGAGCGAAGTAAATTAATCGAACGAGCACAAATATACCGTAATCAAATTGCTATCGCAAAAGCGAAGGAAGGACAAATTCACGGTCCTGTATTAATTGCTCAAACGGCCGATATTTTATTAACGATGAGTGGGATAGCTGCTTCTTTTGTTATTTCGGAACGCAAGGACGGAAGGGTTGGCATTAGTGCTCGATCGTTGGGGGCTATTAATGTGCAAGTGATTATGGAAAAAATGAATGGTGGTGGACATTTAACAAATGCCGCCACACAGATTGAAGATACGACAATTGATGAAGTCGAACAGTTGTTAAAAGATATTTTAGATGAATACTATGAGGGGAGCGAATCAGAATGA MPDKQKKPTLRNHVWFIYTISIILLGFIWYFQWVLGMIMTVLLVVSFYYSMRSEQALQDEAEKYITTLSYRVKKVGEEALLEMPFGIILYNDDFKIEWANPYMNRFDDGSLVGDSLHKLSEDLIPMIKENKEKIWFELQDYVFETVVKKEERLLYLFDRTEQSELQIQYRNEQTVLGFIFLDNYEEITQNMDDTNKSRLNSQVTSVLNKWSKHHGLYLKRTSQERFLAVGTKEILTNLEKSKFEILDEVRALSGERNTPVTLSIGIGMGNVDLPTLGELAQSSLDLALGRGGDQVAIKDETGKVRFYGGKTNPMEKRTRVRARVISHALKELIRASDNVIIMGHKSPDMDSIGAAIGILNIALANDVEGYIVFDPNDIDTGVYRLVDKIKEDEVLWQYFVDPDEANSLINNRSLVVVVDTHRPAMVASEVLLQKSDYKVVIDHHRRGEDFIDNPTLVYMEPYASSTAELVTELLEYQPKKLKLRMLEATALLAGIIVDTKSFTLRTGSRTFDAASYLRSKGADTVLVQELLKEDIDVYVERSKLIERAQIYRNQIAIAKAKEGQIHGPVLIAQTADILLTMSGIAASFVISERKDGRVGISARSLGAINVQVIMEKMNGGGHLTNAATQIEDTTIDEVEQLLKDILDEYYEGSESE NA NA NA NA NA AK015_00782 942 hypothetical protein ATGAATCAATCTAAAAAACAAGTAGACGGTGCATTGTTTACCGGTCTATTCATTATCATATTGTTAGCTGGTTTATTTATTCCAGTAATAACACCAATTGCTATCTTTGTATTGCCAATTCCTTTTGTAATGTATACAGCAAGACATAGCTGGAAACCGGCTTTAGTAATGGCTGTTGCAGCAATTATTTTATCTATACTGCTAGGAACAGTTCTTGCATTACCGCTTGCTGTACCTACAATTATTGGTGGTATAATGATTGGTGAAGCAATTTATAAAAAAATAACTGCATATGAAACGTTAGCAAGGGGAACATTTGGATATATCGTTGGAATGTTACTTATATTTTTGTTTGTACAGCTTGTTTTGCAAGTGAATATGGTTGCAGAGTTCCAATCCCTAATGGACGAATCGTTAGCAAAATCAACAAGTATTATGGAACAGTTTGGTAGCCAAGAGCAAGCTGGCGTCGTTAAGGAAACAATGGAGCAAGTAACGGAAGGGTTAATGAACCTACTTCCATTCTATTTTCTATTCATAGCAGTTATTCAAGCGCTGATTAGTCAATGGCTCGCTTATAAGTTGATGAATCGGATTGAAAAACGTCAATTACGTTTTCCGCCATTCCGTTCATTACGTTTTCCTTCAAGCGTCCTGTTTATTTATCTTTTTGTTCTGCTCGCAGCTTTTATGGTAGCGGACGCTGGTAGTGGAACAGTGTCAATGGCTATACAAAATTTATTAATAATTGCACAACTTATTTTAATGATTCAAGGATTTTCCTTTTTATTTTTCTTTGCACATGAAAAAAAAATGTCTAAGGCATTTCCGATTATTAGTATCATTTTAGTACTGCTCATGCCGGTGTTTATGTTTATTATTCGATTTTTAGGAATCCTCGATATCGGAATGAACTTAAGAGAGCGAATGGGTAAGAAATAA MNQSKKQVDGALFTGLFIIILLAGLFIPVITPIAIFVLPIPFVMYTARHSWKPALVMAVAAIILSILLGTVLALPLAVPTIIGGIMIGEAIYKKITAYETLARGTFGYIVGMLLIFLFVQLVLQVNMVAEFQSLMDESLAKSTSIMEQFGSQEQAGVVKETMEQVTEGLMNLLPFYFLFIAVIQALISQWLAYKLMNRIEKRQLRFPPFRSLRFPSSVLFIYLFVLLAAFMVADAGSGTVSMAIQNLLIIAQLILMIQGFSFLFFFAHEKKMSKAFPIISIILVLLMPVFMFIIRFLGILDIGMNLRERMGKK NA NA NA NA NA AK015_00783 489 hypothetical protein ATGATATTCTTCCATGCGTTTATACATAGTATCAAACTCCCCAAAAAGAACGCAATATTCCAGCTTAATCGTATTGGGATGGATATTGCAGTTATTTATATGTTAATTCTTATCTTACTTGTATCTATTCCTTCATTTCTGCAATATACATTATCAACAGGGGATGGGGTAGCGGCACAGCTAAATGCTTTCTTCAAAATCATTTACTTTTTTATTTTTCATTATTTACCTTTATCTATCATAATATTTATTCTTTTATCTATTATAGCGGGTATTGGAACACTTATAGCAAAATTTATGGATCGAAAATTAAAGTTTTCTATACTATGGAAAATGACTGTTTTTACCACAAGCGTCCCTTTTTTGTTATACACAATTGTAGGAATCTTTTTTCCTCTGCAAGATAATTTCTTATTCCTATTTTGTGCTTATTCATTACTATTTCTCGTTTTGATTATTTCCGTATATCCAAAACGGAGGAAAAAATAG MIFFHAFIHSIKLPKKNAIFQLNRIGMDIAVIYMLILILLVSIPSFLQYTLSTGDGVAAQLNAFFKIIYFFIFHYLPLSIIIFILLSIIAGIGTLIAKFMDRKLKFSILWKMTVFTTSVPFLLYTIVGIFFPLQDNFLFLFCAYSLLFLVLIISVYPKRRKK NA NA NA NA NA AK015_00784 789 modA_1 COG0725 Molybdate-binding protein ModA ATGAAGCATATTTTTATCCTTTGCATCAGCATCGTTTTTCTAACAGGGTGCGCTCTGTTTGAGGAAGAACAACTTTTCGAGCAACCTGCTGAACAAAATAAAATACTTGTAGCTGCAGATTCCAGTTTGAAAGATGTACTTCCTAAACTAATTACGCAATTTGAAAAAGAACATCCGACGATAGCAGTAGAAGTAAATTTTGCAAGTTCTGGCCAATTAGCTGGTAATATTCAACAAGGTGCTCCCATTGACCTACTCTTATCTGCAAATAAAGAGTGGACGGATACGTTAAAAAAAGAAGGATTAATTCTAAATGGTTCGCAAAAAAAGTTTGCTCATAATCAACTCGTATTAATATCACATACGGATAAAGAGTTATCAATAGAAGATTTAGGTGATGTAAAACAGGCTCCTTTTAAAGAACTCGTTCTAGGTGATCCCGTGAATGTAACAGCTGGTGATTATGCACAAAAAGCTTTTCAATCAAATGAAGTAAATATATGGGACACCATTAAAAATAAAACTGTCTATGTTAAAGATATAGCAGATATTATGGAAAAGGTGAGAGAGAATACGCAAACACTTGGCGTTGTATATGCTTCCAACACGGTTCAAAACGAGGACGTAAACGTGATCTATGAAATTGACGAGCACCTCCATCCATCCATCGTTTATGAAACGGGAATTACTTCCTATAGTACAAATCATCATGATGCGAAGGTGTTAACCGATTTTATAAATTCTAAAAAGGCAACAGAAACTTTTGCAGCATATGGGTTTGGAGAATAG MKHIFILCISIVFLTGCALFEEEQLFEQPAEQNKILVAADSSLKDVLPKLITQFEKEHPTIAVEVNFASSGQLAGNIQQGAPIDLLLSANKEWTDTLKKEGLILNGSQKKFAHNQLVLISHTDKELSIEDLGDVKQAPFKELVLGDPVNVTAGDYAQKAFQSNEVNIWDTIKNKTVYVKDIADIMEKVRENTQTLGVVYASNTVQNEDVNVIYEIDEHLHPSIVYETGITSYSTNHHDAKVLTDFINSKKATETFAAYGFGE PGPT0008435_1725 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020 NA NA AK015_00785 231 rpsR 30S ribosomal protein S18 ATGGCAGCTCGTCGCGGTCGTGCAAAACGTCGTAAAGTGTGTTATTTTACAGCGAACGGAATTACACACATTGACTATAAAGATGTTGACTTGCTAAGACGTTTTATTTCTGAACGTGGAAAAATTCTTCCTCGTCGTGTAACTGGAACTTCTGCAAAATATCAACGTAAACTAACGAAAGCAATCAAACGTGCTCGTACAATGGCTTTATTGCCATATGTTGCTGAGTAA MAARRGRAKRRKVCYFTANGITHIDYKDVDLLRRFISERGKILPRRVTGTSAKYQRKLTKAIKRARTMALLPYVAE NA NA NA NA NA AK015_00786 501 ssbA COG0629 Single-stranded DNA-binding protein A ATGTTAAATCGTGTCGTACTTGTCGGCAGGTTAACGAAGGATCCTGATTTACGTTACACCCCAAGTGGCGTAGCAGTTGCCAATTTCACACTTGCGGTAAACCGTCCATTTTCCAATCAACAGGGGAACCGTGAAGCAGATTTTATTAACTGTGTCGTTTGGCGTAGAGCAGCGGAAAACCTGGCGAATTATATGAATAAAGGTAGCATGGTTGGTGTGGATGGACGAGTGCAAACACGCCGATTTGAAGGCCAAGATGGAAAAACAGTATTTGTTACTGAAATAGTGGCAGAAAGTGTTCAATTTTTGGAAACAAAAGGTTCTTCTCAGGGCGGGGGACAAGGTGCATCAGGATTTCAACCAAACAGAAACCAAGGTCAATTCGAACCGCAATCCAACCCATATGAACAAAGTCAAAGTCAAAATCAAAATAACAAGGAAAATCCATTTCAAAATAATGGAGAACCTATTGAAATATCAGATGATGATTTACCATTTTAA MLNRVVLVGRLTKDPDLRYTPSGVAVANFTLAVNRPFSNQQGNREADFINCVVWRRAAENLANYMNKGSMVGVDGRVQTRRFEGQDGKTVFVTEIVAESVQFLETKGSSQGGGQGASGFQPNRNQGQFEPQSNPYEQSQSQNQNNKENPFQNNGEPIEISDDDLPF NA NA NA NA NA AK015_00787 291 rpsF COG0360 30S ribosomal protein S6 ATGAGAAAATACGAAATCATGTACATCATCCGCCCAGACATGGAAGAAGAAGCGCAGACAGCTTTAATAGAGCGTTTCAATGGTATTCTTACTGATAATGGTGCGGAGATTGAAAAAGTTGATGAAAAAGGCAAAAAACGCCTTGCTTATGAAATCAATGACTATCGTGATGGGTATTATGTAATCATTAACTTCAGCAGTGATGATCAAGCTATTAATGAGTTTGACCGTCTAGCAAAGTTTTCTGATGATATTATTCGTCATATTGTCGTTCGAGAAGATGATCAATAA MRKYEIMYIIRPDMEEEAQTALIERFNGILTDNGAEIEKVDEKGKKRLAYEINDYRDGYYVIINFSSDDQAINEFDRLAKFSDDIIRHIVVREDDQ NA NA NA NA NA AK015_00788 1101 ychF COG0012 Ribosome-binding ATPase YchF ATGTCTTTAACAGCAGGAATTGTCGGTCTTCCAAACGTCGGTAAGTCCACGTTATTTAATGCAATTACCCAAGCTGGAGCAGAAGCAGCAAACTATCCGTTTGCGACTATAGATCCAAACGTAGGAATTGTAGAAGTACCAGACAAACGCTTAAATAAATTAACAGAATTAGTAAAACCAAAAAAGACAGTACCGACAACATTTGAGTTTACAGATATTGCAGGTATTGTAAAAGGCGCAAGTAAAGGGGAGGGATTAGGTAACCAGTTTTTATCTCATATTCGTCAAGTAGATGCTATTTGCCAAGTCGTCCGTTGCTTTGATGATGAGAATATTACGCATGTATCTGGAAAAGTCGATCCAGTTGAAGATATGGATATTATTAATTTGGAATTAATTCTTGCAGATTTGGAAACGGTGAACAAACGATTCCAACGTGTGGAGAAATTAGCTAGGCAAAAGGAAAAATCTGCTGTTGCAGAATTTGAAGTATTAAGTAAATTGAAGACAGGATTAGAAGAAGAACAACCAGTTAGAGCAATGGAGTTTAATGAAGAACAATGGAAAATTGTTAAAGGGCTACATTTGCTTACAAGTAAGCCAACGCTTTATGTAGCTAATGTAAGTGAAGAAGAAGTAGCAGATACAGATGCCAATGAGCATGTTCAAAAAGTAAAAGCATATGCAGAAAAAGAAAATGCAGAAGTGATTGTCGTTTGTGCAAAAATAGAAGAAGAGATTTCCGAATTAGATGAAGAAGAAAAAGCCATGTTCTTGGACGATTTAGGTATTACAGAATCGGGTCTGGACAAGCTGATTAAAGCCTCTTATCATTTATTAGGATTGGCGACATATTTTACAGCGGGAGAACAAGAAGTTCGTGCTTGGACGTTCCGTAAAGGGATGAAAGCACCGCAAGCTGCTGGAATCATTCATACTGATTTTGAACGTGGTTTTATCCGTGCTGAAACGGTGTCCTACGATGATTTAGTAGCAGCTGGATCTATGACAAAAGCGCGGGAAAATGGAAAGGTACGGTTAGAAGGGAAAGATTACATCGTTCAAGATGGCGATGTTATCCACTTCCGATTTAATGTGTAA MSLTAGIVGLPNVGKSTLFNAITQAGAEAANYPFATIDPNVGIVEVPDKRLNKLTELVKPKKTVPTTFEFTDIAGIVKGASKGEGLGNQFLSHIRQVDAICQVVRCFDDENITHVSGKVDPVEDMDIINLELILADLETVNKRFQRVEKLARQKEKSAVAEFEVLSKLKTGLEEEQPVRAMEFNEEQWKIVKGLHLLTSKPTLYVANVSEEEVADTDANEHVQKVKAYAEKENAEVIVVCAKIEEEISELDEEEKAMFLDDLGITESGLDKLIKASYHLLGLATYFTAGEQEVRAWTFRKGMKAPQAAGIIHTDFERGFIRAETVSYDDLVAAGSMTKARENGKVRLEGKDYIVQDGDVIHFRFNV NA NA NA NA NA AK015_00789 198 hypothetical protein ATGGAAGGAAAACAATTTGCACTACATGATGTCGTACAAATGAAAAAGCCACATCCGTGCGGCGAAAACCGTTGGCGAATTATACGGATGGGAATGGATATCCGTATTAAATGTTTGGGCTGTGATCATAGTGTCATGATCCCACGTAAACAATTTGAGAAAAAAATGAAAAAAATACTGGAAAAAGCAGAAGAATAA MEGKQFALHDVVQMKKPHPCGENRWRIIRMGMDIRIKCLGCDHSVMIPRKQFEKKMKKILEKAEE NA NA NA NA NA AK015_00790 153 hypothetical protein GTGAACTGTATGTTAAAAGGAGCTACACGTGAAAAGATTCTAAAGAAAATAATTACGGAGGCTCAACATGAATGCAATACACTATTCAATGTCTATACGGAATATCGTGAAGCCAATGCAGAATATCATCTGCTTGCCGTTATAAAGAAGTAG MNCMLKGATREKILKKIITEAQHECNTLFNVYTEYREANAEYHLLAVIKK PGPT0004925_670 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_TELLURIUM_RESISTANCE TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868 NA NA AK015_00791 1029 hypothetical protein ATGAATTTAGCACAAAGCACAGTAGAAGAAAATGTAGAGAAAGAAGTAGATAATTTTCATAAACTGATGAATGATGCATGGGATTATTTAACAGGTGCCGATTTATGGTTTTCAGTTGGAAAAGGTATGTTGCAAATTATACTTATTCTCGTATTATCTCTGATGGTCATTCGTATTTCTCGGAAAGTAGTGGACCGGTTATTTAAGAAGCGGGATAAAGGCCCCCTTCGAATTACAGAGCGTCGGGAAAACACGTTAAAAAAATTAATTAAAAATGTGATTGCATATGTCGTTTATTTTATCGCACTCCTTATGATTTTAGATGGTGTGTTTGGTCTGGAAATAGGAGCATTAATCGCTGGTGCAGGTGTCGCTGGTTTAGCAATTGGTTTTGGTGCGCAAAATTTAGTCAGAGACATTATCTCAGGATTTTTCATTATTTTTGAAGACCAATTTTCCGTAGGCGATTATGTTGGTGTCGCAGGTATTGAAGGAACGGTGGAAGAAATCGGTTTAAGAACAACGAAAGTATTAAGCTGGACAGGTGAAATGCATATTTTACCAAATGGTAATGTCACCCAAGTCATCAATTATTCCGTTCATAATGGGTTGGCAATCGTGGATATTAATGTACCTTATGAAAGTAGTGTCGACGACGCAGAGCGCTTAATAAATGAAGTTGCCGTTACACTACCAGATAAATATGATTTTGTTGTAGGTACCCCAGAAATTATTGGTGTACAAAATTTAGAAGCATCCCATTTTGTAATTCGTGTCATTGCAGAAACATTACCTGGTTTTCAATGGGCTGCAGAAAGAAATATTCGCCGTGATATGCAACATTACCTTTATCGCTCAGGAATTGAAATACCTTCTCCAAGAATCGTGATGTATTCTCGTGATCAGAAGCAAGAATTATTGGATTATAGCCAAAGGAAACAGTTTCATGATAGCTCAAGTAATCGAACAGGATATCCGGATCTTGAATCGCATGGTGAACAGTCCCCACAAAGAGAAGGCGATGAATAA MNLAQSTVEENVEKEVDNFHKLMNDAWDYLTGADLWFSVGKGMLQIILILVLSLMVIRISRKVVDRLFKKRDKGPLRITERRENTLKKLIKNVIAYVVYFIALLMILDGVFGLEIGALIAGAGVAGLAIGFGAQNLVRDIISGFFIIFEDQFSVGDYVGVAGIEGTVEEIGLRTTKVLSWTGEMHILPNGNVTQVINYSVHNGLAIVDINVPYESSVDDAERLINEVAVTLPDKYDFVVGTPEIIGVQNLEASHFVIRVIAETLPGFQWAAERNIRRDMQHYLYRSGIEIPSPRIVMYSRDQKQELLDYSQRKQFHDSSSNRTGYPDLESHGEQSPQREGDE PGPT0013695_1558 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044 NA NA AK015_00792 1026 hypothetical protein ATGATACGAGCAGGGATGCAATGGATGTTTTTAATTATTGGTACAACGATTGGGGCAGGGTATGCTTCAGGAAGAGAATTATGGCAATTTTTTGGTCATGAAAGTGGACTAGCTATTATTTTATTTGCCTGTTTTTTTACTATTTGTTGTATAGGCATTATGAATGTGAGCTACACACGAAAGTCTACCCACTACTTACCAGTTTTACGAGACATTGTAGGTGTGAAATTAACAAAAGTGTATGACGTGATGATTTTTATTTATTTGTTTACAACTACTGTTATTATGATTGCTGGTAGTGGTGCAACATCGCAAGCGTTTAATTACCCTTACTGGTGGGGAATAAGTATAATAATTGTTGCGCTTATACTACTATTTTTAAAAGGAGTGAATGGCCTCCTATCTATCAACCAATTTATACTACCAATATTATTAACAGGGCTTGTGTTTGTACTATTATGGTTTACGATTGATCAAAAATTGGATCTTTTTTCACATTGGCATGAACAACGAAATTGGATGGCCGCATTTCCTTTTACGGCATTAAATATTCTTCCCCTAATTGCTGTCTTGGGAGCAATCGGACATAAAGTACAATCAAAACAAGAAATATGGATTGCTTCTATTGGCAGTGGGCTTACACTTGGAGTTATTTCGTTTATTTACAATAATAGTTTAATTCAAATTGCTGATGAAGTACTAGTATATGAGATTCCATTATTTGCTATTATGAAGAACTATCCATTACAAATGCTCGTTTTTATGAGTATATTATTATGGTTTGCTATTTTTACCACAGCTGCTTCAGGAATACTTGGCATTGTGAGCCGTATACAAGACTATGTCAAGCAACCATTATGGTTGATTGTTTGCTTGACCTTGGTTACAATGATTCCATTAACAGCTCTCGGTTTTTCAACCTTAATTCAATACTTATACCCCATTTACGGTATATTAAATTTATACGTATTAACGCGATTATTATTTCTTCCTTTTTGGGATAAACTGGAAAAAACAAAAATATAG MIRAGMQWMFLIIGTTIGAGYASGRELWQFFGHESGLAIILFACFFTICCIGIMNVSYTRKSTHYLPVLRDIVGVKLTKVYDVMIFIYLFTTTVIMIAGSGATSQAFNYPYWWGISIIIVALILLFLKGVNGLLSINQFILPILLTGLVFVLLWFTIDQKLDLFSHWHEQRNWMAAFPFTALNILPLIAVLGAIGHKVQSKQEIWIASIGSGLTLGVISFIYNNSLIQIADEVLVYEIPLFAIMKNYPLQMLVFMSILLWFAIFTTAASGILGIVSRIQDYVKQPLWLIVCLTLVTMIPLTALGFSTLIQYLYPIYGILNLYVLTRLLFLPFWDKLEKTKI NA NA NA NA NA AK015_00793 603 hypothetical protein ATGATTTTTAAAAACAAATTATTGGATAATCACGATCAATTCCGTATGCACTATACAGATCCGGAATTCCATTTGAATATGCTAGATCGTTTTTTAGCGCTTCTCCCTCAGTCCCCACGGGAATATGTTGTTGTATCCATTGGGACAGACCGTTCTACAGGAGATGCTTTAGGACCGCTTGTTGGGAGTTTGTTTTCTGAGAAGAAACCGAGGCATATCTCTATCTATGGCACGTTGGATAATCCCGTTCATGCTGTCAATTTAGCAGATTATCTACATCAGATTGAGACATCATACCGACATCCTTTTATTATAGCCATTGATGCTTGTTTAGGAAAGCAACATTCTGTAGGAAAAATCATTGCAGGAAGAGGACCTATTAAACCTGGTGCAGCATTAAATAAACCGCTTCCTGCTATAGGAGATGCTCATCTTACTGGTGTTGTTAATGTGAGTGGATTTATGGAATACGCTGTTTTACAAAATACGAGACTGCAGATTGTTATGGCAATGGCCAAATTAATTGCCGACCTTTTAGATGAAGTAGATCAACGTTTAACATATAGAAAAAGAATGCCAGCTGTGGTTTCAACGACCATATAA MIFKNKLLDNHDQFRMHYTDPEFHLNMLDRFLALLPQSPREYVVVSIGTDRSTGDALGPLVGSLFSEKKPRHISIYGTLDNPVHAVNLADYLHQIETSYRHPFIIAIDACLGKQHSVGKIIAGRGPIKPGAALNKPLPAIGDAHLTGVVNVSGFMEYAVLQNTRLQIVMAMAKLIADLLDEVDQRLTYRKRMPAVVSTTI NA NA NA NA NA AK015_00794 606 ydfK COG1811 putative membrane protein YdfK ATGCAAGGAATCGGTTTAGCTGTCTTATTAATTGGTTTGCAAATGGCTTTTGTTACGGAACAAATTATTGTGGTTTTACTAAGCTTACTAATGGGAGCTGTTATAGGAGAATGGCTTCGCTTAGAAGACCGTTTAAATCAATTAGGAAAATGGGTTGGCAATCAATTAGGTTCTAAAGAAGATGATACACGAGTTTCGCAAGGTTTTGTTACAGCCTCTTTAATATTTGTAATTGGTGCAATGGCCATTATTGGAGCATTAGATAGTGGTTTGCGGGGAGATCATGAAGTTTTAATAACAAAAGGCATACTAGATGGCTTTGTCTCCTTAGTATTGACGACAACGTTAGGATTTGGTGTTATATTATCAGTTATTCCTGTACTATTATATCAAGGTTCTATTGCTCTATTAGCTACACAAATAGAAGGTATCGTGCCTAAAGCATATTTGGATGGTTTCATCACTGAAGTAACAGGGGTAGGCGGCTTATTAATTATAGCAATTGGACTAAATCTATTAAATATTACATCTATAAGAATAGGAAATCTATTACCAGCTGTTATAATGGTAGGCTTCGTTTACTCTGTGTATCTACTATTTTTGTAA MQGIGLAVLLIGLQMAFVTEQIIVVLLSLLMGAVIGEWLRLEDRLNQLGKWVGNQLGSKEDDTRVSQGFVTASLIFVIGAMAIIGALDSGLRGDHEVLITKGILDGFVSLVLTTTLGFGVILSVIPVLLYQGSIALLATQIEGIVPKAYLDGFITEVTGVGGLLIIAIGLNLLNITSIRIGNLLPAVIMVGFVYSVYLLFL PGPT0003195_1071 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-BACILLIBACTIN_TRANSPORT,PGPT0003195-ydfK|yqgA-K07150 NA NA AK015_00795 840 spo0J COG1475 Stage 0 sporulation protein J ATGGCGAAAGGGTTAGGTAAAGGAATTAATGCTTTCTTTCCAGAGGTTGAGGAAAAACAAGATGATGTTATTGAGGAAATTGCTATTTCTGAGTGCCGTCCAAATCCATATCAGCCTCGAAAAACTTTTCACGCAGACGCTATTGATGAGTTAAAAGAATCTATTCTTGAGTACGGTATTATTCAGCCTTTGATTGTTCGAGCGAGCATTAAAGGCTATGAAATTGTCGTAGGAGAAAGAAGATATCGTGCAGCTAAAGAGGCAGGATTAGATAAGATACCAGTCATTATTAAAGAATTAACCGATGATAAAATGATGGAACTGGCATTATTGGAGAACTTGCAGCGAGAGGATTTAACTCCTATCGAAGAGGCTCATGCGTATGCTAACTTAATGAACGAATTAAACATCACACAGGAAGAATTATCTAAACGCTTAGGAAAAAGTAGATCACACATCGCTAATATGGTACGATTGCTTTCTTTGCCAGAGTCCGTTATTGCCTACATAAATAATGGAGAGCTTTCCATGGGACATGGGCGTGCTATACTGGGTCTGAAGGATAAAACAAAAGTTAAAGCCTTAGTACAAAAAATACGAAAAGAAAAATTGAATGTAAGGCAGGTAGAAAAATTGATCGTTCAATTGAACGAAAAGCCTGTAAAACAAAAAGAAAAACCAAAGAAAGATGTATTTATTCAAGAAAGAGAAACTTTTCTTAGAGAAAGGTTTGGAACTGCTGTAACCATTCAACGTGGCAAACGTAAAGGTAAAATTGAGATAGAATTTTATAACGATAACGATTTACAGCGTATTATTGATACGCTTGAAAATGAATGA MAKGLGKGINAFFPEVEEKQDDVIEEIAISECRPNPYQPRKTFHADAIDELKESILEYGIIQPLIVRASIKGYEIVVGERRYRAAKEAGLDKIPVIIKELTDDKMMELALLENLQREDLTPIEEAHAYANLMNELNITQEELSKRLGKSRSHIANMVRLLSLPESVIAYINNGELSMGHGRAILGLKDKTKVKALVQKIRKEKLNVRQVEKLIVQLNEKPVKQKEKPKKDVFIQERETFLRERFGTAVTIQRGKRKGKIEIEFYNDNDLQRIIDTLENE PGPT0014815_8088 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497 NA NA AK015_00796 774 soj COG1192 Sporulation initiation inhibitor protein Soj ATGGGAAAAATAATGTCCATCGCTAACCAGAAAGGTGGCGTAGGAAAAACAACATCATCTGTTAATTTAAGTGCTTGTTTAGCACATTTAGGAAATAAGGTTCTTCTTGTAGATGTAGACCCGCAAGGTAACGCTACAAGTGGAACAGGTGTAAATAAAGCAGATGTAAAACATTGTATTTATAATGTCCTTGTAGAAGAGTTACCTGCGGAAGAAGTATGTATTTCTACAACGATTGAAAATTTAGATATTATACCTGCTACTATCCAATTAGCTGGGGCAGAGATAGAGTTGGTGCCAACAATATCTAGAGAAATACGGCTTAAAAAATCATTAGAGAATCTGAAGCTAGACTATGATTACATTATCATTGATTGCCCTCCATCACTTGGGTTATTGACTTTAAATGCACTAACTGCTTCTGACTCCGTCATTATTCCAGTACAATGTGAGTATTATGCTTTGGAAGGACTAAGTCAGTTGCTAAACACCATTAGACTAGTACAAAAGCATCTTAATAAAACACTTATGATTGAAGGAGTGTTATTAACTATGCTTGATGCTAGAACCAATTTAGGCTTACAAGTTATTGAAGAAGTGAAAAAATATTTTCAAGACAAAGTCTATCAAACGATAATTCCACGTAATGTAAGATTAGGAGAAGCGCCAAGTCATGGTTTGCCAATTATTACTTATGATGCAAAGTCAAAAGGTGCAGAAGTATATCTTGAGTTAGCGAAGGAAGTGATGGCCAATGGCGAAAGGGTTAGGTAA MGKIMSIANQKGGVGKTTSSVNLSACLAHLGNKVLLVDVDPQGNATSGTGVNKADVKHCIYNVLVEELPAEEVCISTTIENLDIIPATIQLAGAEIELVPTISREIRLKKSLENLKLDYDYIIIDCPPSLGLLTLNALTASDSVIIPVQCEYYALEGLSQLLNTIRLVQKHLNKTLMIEGVLLTMLDARTNLGLQVIEEVKKYFQDKVYQTIIPRNVRLGEAPSHGLPIITYDAKSKGAEVYLELAKEVMANGERVR NA NA NA NA NA AK015_00797 885 noc COG1475 Nucleoid occlusion protein ATGGTGAAGCCCTTTAACCGTTTTTTTGGAATCGGTGATAAACCTGAACAGGAAAATGATTCCGATTCAGGTATAGATATTCACTCCAATGAAGTGATACAGATCCCTGTTAAAAATATAAAACCTAATCGTTATCAGCCTAGGTCAATTTTTAGTGAAGAAAAGATAAAAGAACTTGCTCAAACGATACAAACACATGGTATGATCCAACCAATTATCGTTAGGCAATTGGTTGAAAATGACCAGACAGAACAACACTATGAAATTATTGCTGGGGAAAGAAGATGGCGAGCAGTGGAGTCCTTAGGATGGGAACATATTTCTGCTATTGTCAAAGAAATGACGGATACAGAGACTGCTTCCGTTGCGCTTATAGAAAATTTACAACGTGAAGAACTAACGGTTATCGAAGAGGCAACAGCGTATGCGCAATTATTAGAGATTCATGATTTAACCCAAGAAGCACTTGCTCAACGATTAGGAAAAAACCAATCAACCATTGCAAATAAGTTACGATTACTTAAATTGCCTCAAGCAGTTCAGGAAGCATTGCTAGGAAAATATATCACAGAGAGGCATGCTCGAGCCCTCATTAAATTAAGTGATGAAGAGGAACAAATTAAATTATTACAAGAAATCATTGAAAAACATTTAAATGTAAAGCAAACAGAAGAAAAAATAGCAAAAATGAATGAGCGAAAAGAAAAAACGGCAAAAAGGAATACAGTTAAACGAAAAGGTTTTAATAAGGATATTCGTATTGCAATGAATACGATACGTCAATCCCTTAACATGGTTTCTGATACAGGTGTTGAAGTTGAGTCTGATGAACAAGATTTAGAAGATTATTACCAAATCACGATTAAAATTCCAAAGAAGAAATAA MVKPFNRFFGIGDKPEQENDSDSGIDIHSNEVIQIPVKNIKPNRYQPRSIFSEEKIKELAQTIQTHGMIQPIIVRQLVENDQTEQHYEIIAGERRWRAVESLGWEHISAIVKEMTDTETASVALIENLQREELTVIEEATAYAQLLEIHDLTQEALAQRLGKNQSTIANKLRLLKLPQAVQEALLGKYITERHARALIKLSDEEEQIKLLQEIIEKHLNVKQTEEKIAKMNERKEKTAKRNTVKRKGFNKDIRIAMNTIRQSLNMVSDTGVEVESDEQDLEDYYQITIKIPKKK PGPT0014815_6211 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497 NA NA AK015_00798 717 rsmG COG0357 Ribosomal RNA small subunit methyltransferase G ATGAAACGAGAACAAATTTTTCAAGTATTAGAGGAAAAGGGAATAAAGTTAACCGCATATCAAAAGGAACAATTTTCCATTTATTACACAACATTAATGGAGTGGAACGAAAAAATTAACTTAACTGGTTTAACGGAGGAGGCCGATGTTTATTTAAAGCATTTTTATGATTCAATAAGTGCAGCGTTTTACTTTAATTTTAATCATGTGCAATCGATTTGTGATGTTGGTGCAGGAGCGGGTTTCCCTAGTATCCCGTTAAAAATTTGCTTTCCACATCTAGAAGTTACTATTGTTGATTCATTAAAAAAACGAATTGGTTTTTTAAATGAATTATCCACTGCTTTGTCGTTAGAAAAAGTTGCCTTTTATCATGACAGAGCCGAAAACATGGGCAAAAATGCAGCTTTTCGTGAAACTTTTGATGTAGTAACTGCAAGAGCGGTTGCACGTATGTCTGTATTAAGTGAACTTTGTTTGCCACTAACAAAAAAACAAGGGACTTTTTTGGCTATGAAAGGTGCAAAAGCAGGGGAGGAGATAGAATTAGCTAAGCCTGCGATTGAGGTTTTAGGTGGGGAATTAAAACAAATGTACACGTTTACTTTGCCTGAGGAAGAAAGTGAACGCTCCATTATTGAAATATATAAAGCAAGAAAAACACCTAAAAAATATCCACGAAAAGCTGGACTTCCAAATAAAGAGCCAATTGAATAG MKREQIFQVLEEKGIKLTAYQKEQFSIYYTTLMEWNEKINLTGLTEEADVYLKHFYDSISAAFYFNFNHVQSICDVGAGAGFPSIPLKICFPHLEVTIVDSLKKRIGFLNELSTALSLEKVAFYHDRAENMGKNAAFRETFDVVTARAVARMSVLSELCLPLTKKQGTFLAMKGAKAGEEIELAKPAIEVLGGELKQMYTFTLPEEESERSIIEIYKARKTPKKYPRKAGLPNKEPIE NA NA NA NA NA AK015_00799 1887 mnmG tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG ATGACTTATGATGCAGGACATTATGATGTAGTCGTGGTCGGTGCAGGTCATGCAGGTGTAGAGGCTGGGCTTGCGGCTGCTAAAATGGGAGCAAAAACATTAATGCTCACACTTAATTTAGATATGATCGCATTTATGCCATGTAATCCTTCTATTGGAGGACCAGCAAAAGGGATCGTTGTAAGGGAAATTGACGCACTAGGTGGTGTCATGGGTAAAGTGATTGATAAAACGCATATTCAAATGCGTTTGTTGAATACAGGAAAAGGGCCTGCCGTTCAAGCGCTTCGGGCGCAAGCGGATAAACCTATGTATATTAAGGAAATGAAAAATATTGTAGAAAATGAGAAAAATCTTACATTGCGCCAAGGAATGGTAGATCGTTTAGTAGTTGAAGATGGTGTCTGTAAGGGAGTTGTTACAGAAACCAATGCCTTCTATCGTGCAGAAACCGTCATTATTACGACAGGAACGTTTATGCGAGGGAAAGTGCTTATGGGAGATTTGGAATATGAAAGTGGCCCAAATAATCAACGACCAACGATTAAATTGTCCGAAAACCTAGAAGAACTAGGTTTTGAAATTACGCGGTTTAAAACAGGTACACCTCCACGTGTAAATAGCCATACGATTGATTATTCAAAAACAGAAATCCAACCGGGAGATGAGACACCCCGCAGTTTTTCATATGAAACAACAGAATATATTACAGATCAAATTCCATGCTGGTTAACGTATACGAATGAATTTACGCATGAAATTATCAATGAGAACCTCTCTCTTTCTGCTATGTATTCTGGAATGAAACGTGGAACAGGTCCGAGATATTGTCCGTCTATTGAGGATAAAATTGTCCGTTTTAACGACAAGCCTCGCCATCAAATTTTCTTAGAGCCAGAAGGAAGAGATACAGAAGAAGTGTATGTACAAGGGTTATCGACTTCTTTACCTGAATCGGTACAGCATGGCATGGTAAGAAGTGTAGAAGGGTTAGAGAATGCAGAAATTATGCGAGCGGGCTATGCGATTGAATATGATGCAATTGTGCCAACACAGCTATGGCCGACATTGGAAACAAAGAAAATCCCCGGTTTATTTACGGCGGGGCAAATTAATGGTACTTCTGGTTATGAAGAGGCAGCAGCTCAAGGGATTATGGCTGGTATTAATGCCGCTGCAAAAGTATTGGGGAAAGATCCAGTCATTTTAGATCGATCACAAGCTTATATTGGTGTGCTTATAGATGATTTAGTGACAAAAGGGACAAATGAACCGTATCGACTATTAACATCCCGTGCAGAGTATCGCTTACTATTAAGACATGACAATGCTGACTTTCGTATGACAGAGCTAGGCTATGAGTTAGGCTTAATTACGGAAGAGCGTTATGCAGCATTTAAGGAAAAATATCGCCTCGTAGAAGAAGAAAAGAAACGATTGCAAAAATTAATCATTAAGCCTACAGAGGAAGTAAATGCATTTTTAGAAACAGCTGGGGCATCAAAGATGAAGGAAGCTGTAAAAGCATATGATCTTTTAAAGCGACCAGAGCTGTCGTATGACTTATTAGCACCAATTATTCATGCGGATCCGTCACTTCCACATGATGTTACGGAACAAGTCGGTATTCAAATTAAATATGAGGGATATATTAAAAAGGCGAATGATCAAGTAGCACGCATGCTGAAAATGGAAGAAAAGAAAATACCAGAAGATATTGATTATGATGCAATTAGTGGTATAGCTACAGAAGCGAAAGAGAAGCTGAAAAAAGTCCGTCCACTCTCTGTCGGGCAAGCATCGCGTATTTCTGGAGTAAACCCAGCTGATATATCTATTTTAGTTGTTTATATGGAGCAAGGAAATATAGTACGTCTGGCTAATTAA MTYDAGHYDVVVVGAGHAGVEAGLAAAKMGAKTLMLTLNLDMIAFMPCNPSIGGPAKGIVVREIDALGGVMGKVIDKTHIQMRLLNTGKGPAVQALRAQADKPMYIKEMKNIVENEKNLTLRQGMVDRLVVEDGVCKGVVTETNAFYRAETVIITTGTFMRGKVLMGDLEYESGPNNQRPTIKLSENLEELGFEITRFKTGTPPRVNSHTIDYSKTEIQPGDETPRSFSYETTEYITDQIPCWLTYTNEFTHEIINENLSLSAMYSGMKRGTGPRYCPSIEDKIVRFNDKPRHQIFLEPEGRDTEEVYVQGLSTSLPESVQHGMVRSVEGLENAEIMRAGYAIEYDAIVPTQLWPTLETKKIPGLFTAGQINGTSGYEEAAAQGIMAGINAAAKVLGKDPVILDRSQAYIGVLIDDLVTKGTNEPYRLLTSRAEYRLLLRHDNADFRMTELGYELGLITEERYAAFKEKYRLVEEEKKRLQKLIIKPTEEVNAFLETAGASKMKEAVKAYDLLKRPELSYDLLAPIIHADPSLPHDVTEQVGIQIKYEGYIKKANDQVARMLKMEEKKIPEDIDYDAISGIATEAKEKLKKVRPLSVGQASRISGVNPADISILVVYMEQGNIVRLAN NA NA NA NA NA AK015_00800 1377 mnmE COG0486 tRNA modification GTPase MnmE ATGGAAACAGAAACAATTACAGCTATATCAACACCAATAGGTGAAGGGGCAATTGCAATTGTTCGTTTAAGCGGCCCTGAGGCTATTTCCATCACAGCTAATGTTTTTAAAGGAAAAAATTTAGGTGATGTGGCTTCACATACAATACATTACGGGAAAATAATCGATCCTGAGACAAAAGAGGTTGCCGAGGAAGTTATGGTTTCAGTTATGCGAGCACCAAAAACGTTTACCCGTGAAGATGTTGTAGAAATTAATTGTCACGGGGGAATGGTTGCGGTTAACCGTGTATTGGAAATTATTTTAAGCCAAGGAGCTAGACTAGCTGAGCCTGGTGAATTCACGAAACGTGCTTTTTTACATGGGAGAATTGATTTATCGCAAGCAGAAGCAGTGATGGATCTTATTCGAGCGAAAACAGATAAAGCCATGTCCGTTGCATTAAAGCAGATGGATGGCCGCTTATCTGCGCTTATTCGTCGTTTACGCCAAGATTTGTTGGAAACAGTGGCACATGTAGAGGTTAACATTGATTATCCAGAATATGATGACGTCGAAGAAATGTCCCATGATATGATGCGCACGAAATCAAAAGAGGTGTATAAAGAAGTTGTTGAGCTTCTACAAGTGGCGAAACAAGGCAAGATTTTACGAGAAGGTTTAGCAACAGCGATTATAGGACGACCAAATGTTGGCAAGTCGTCACTAATGAATACACTTGTTCAAGAGAATAAAGCAATTGTTACAGAAGTTCCAGGAACCACTCGCGATATTATTGAAGAATATGTTAGTGTAAGAGGGGTTCCTTTACGGTTAGTAGATACCGCTGGGATTCGTGAAACAGAAGACATTGTTGAAAAAATTGGCGTAGAACGATCTCGTCAAGTACTAAAAGAATCAGATTTAATTTTATTTGTACTAAACTATAATGACGTGTTATCAGAAGAAGATGAAAAGTTATTTAAAGCAATAGAAGGCTTAGATTATATCGTTATTATTAATAAAACGGATTTAGAGCAAAAGTTAGATTTAGACCGTGTCTATGAATTGGCTGGCGGAAAACCAATTGTTATTACTTCCTTGGTACAAGAAGAAGGGGTAAATGATTTAGAAGAAGCCATTGCAAAAACTTTTTTCGCTGGTGATATAGATACGGGCGACCTCACATATGTTTCGAACGTCCGTCATATTCAACTGTTGAAACAAGCCAAACAAGCTTTAGAAGATGCGATGGAAGGCCTAGAACTTGGACTACCGTTAGATGTCGTACAAATAGATGTAACAAGAACGTGGGAATTACTAGGTGAAATCATCGGGGATACTGCAAGTGACAGCCTTATTGATCAGCTTTTCTCACAATTTTGTCTCGGAAAATAA METETITAISTPIGEGAIAIVRLSGPEAISITANVFKGKNLGDVASHTIHYGKIIDPETKEVAEEVMVSVMRAPKTFTREDVVEINCHGGMVAVNRVLEIILSQGARLAEPGEFTKRAFLHGRIDLSQAEAVMDLIRAKTDKAMSVALKQMDGRLSALIRRLRQDLLETVAHVEVNIDYPEYDDVEEMSHDMMRTKSKEVYKEVVELLQVAKQGKILREGLATAIIGRPNVGKSSLMNTLVQENKAIVTEVPGTTRDIIEEYVSVRGVPLRLVDTAGIRETEDIVEKIGVERSRQVLKESDLILFVLNYNDVLSEEDEKLFKAIEGLDYIVIINKTDLEQKLDLDRVYELAGGKPIVITSLVQEEGVNDLEEAIAKTFFAGDIDTGDLTYVSNVRHIQLLKQAKQALEDAMEGLELGLPLDVVQIDVTRTWELLGEIIGDTASDSLIDQLFSQFCLGK NA NA NA NA NA AK015_00801 615 hypothetical protein GTGAGAGAAATAACTGCTAGTGGACAAACAGTTGAAGAAGCGGTCCAGGCAGCTTTAGAGCAGTTAAAAACAACCAGGGACCAAGTTGAAGTTGATGTCATTGATGAAGGTAAAAAGGGATTGTTCGGCGTATTTGGTACGAAACGTGCTTACGTTAAAGTCAAAATCGTTGAAAATCCAATTGAAAAAACGGAAAAATATTTGCAGCAAATATTCGAACAAATGAATGTTTCTGCAACGGTGCAGACGACTGTAGTAGACCATCATGTTACGTATGAAGTAACAGGCGATGATATTGCTTTATTGATTGGAAAAAGAGGTCAGACGTTAAATGCGCTACAATATTTGTTGCATTTGGCGATGAATAAAAATGCTTCTGAATTTTACACAGTCACATTGGATGCAGAAGGATACCGTGAACGTCGCAAAGAAACATTAGAAGCGTTGGCGAATAGAATGGCGGATAAAGCAGTTCGCTTAAATAAAAAGGTAGCTTTAGAGCCTATGCCTGCTTTTGAGAGAAAAATTATTCATAACGTACTACAGGAAAATAAGGCTATTACTACTTATTCTGACGGTAATGAACCACATCGACATATTGTTATTCAACCCTAA MREITASGQTVEEAVQAALEQLKTTRDQVEVDVIDEGKKGLFGVFGTKRAYVKVKIVENPIEKTEKYLQQIFEQMNVSATVQTTVVDHHVTYEVTGDDIALLIGKRGQTLNALQYLLHLAMNKNASEFYTVTLDAEGYRERRKETLEALANRMADKAVRLNKKVALEPMPAFERKIIHNVLQENKAITTYSDGNEPHRHIVIQP NA NA NA NA NA AK015_00802 768 misCA COG0706 Membrane protein insertase MisCA TTGCGTAAAAAGTTTTGGTTGCTAGTAGTGCTTATTGGTTTACTGGCAATTTTATCTGGTTGTACAGAAGTAAACGAGCCGATTACGAGTGAAAGTGAAGGAATTTGGAACCAGTACTTCGTATATCCAATTTCATGGCTTATCACTTATTTTGCAGAATTATTTAATGAGAATTATGGACTGGCAATCGTTCTCGTAACAATTATTGTTCGTTTATTACTGTTGCCATTAAATGTGAAACAATTAAAAAGCTCGAAGGCGATGCAAGATATTCAGCCAAAGATGAAAGAGCTGCAACAAAAATATAGTTCAAAAGATGCGAATACCCAGCAAAAGTTGCAACAGGAGACCATGGCTTTATTCCAAAAGCATGGTGTAAATCCACTTGCCGGTTGCTTACCGATTTTCGTTCAAATGCCAATTTTAATTGGGATGTATCATGCGATTATGCGAACAGAAACGATTAAAACACATAGCTTTTTATGGTTCCAATTAGGGGAACCGGATCCATTCTTTATTTTACCATTAATTGCTGGTGGGGCGACATTCCTACAGCAAAAGTTGATGATGGCAGGAAGTCCTGCTGCACAAAATCCGCAAATGATGGTTATGCTTTATGTTATGCCTATCATGATCGGTGTCTTTGCTATTTTCTTCCCGTCTGCTTTAGCGTTATACTGGGTAGTAGGGAATATCTTTATGGTTGCTCAAACGTTATTTATTCGTAAGCCAATGATGGCTGCAAATAATGGAGGAGACAAAAAGTGA MRKKFWLLVVLIGLLAILSGCTEVNEPITSESEGIWNQYFVYPISWLITYFAELFNENYGLAIVLVTIIVRLLLLPLNVKQLKSSKAMQDIQPKMKELQQKYSSKDANTQQKLQQETMALFQKHGVNPLAGCLPIFVQMPILIGMYHAIMRTETIKTHSFLWFQLGEPDPFFILPLIAGGATFLQQKLMMAGSPAAQNPQMMVMLYVMPIMIGVFAIFFPSALALYWVVGNIFMVAQTLFIRKPMMAANNGGDKK PGPT0024530_6265 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 AK015_00803 345 rnpA COG0594 Ribonuclease P protein component TTGAAGAAAGAATATCGAATTAAGAAAAATAGTGATTTTCAATATGCCTTTAAAGCAGGGAAATCCTTTGCAAACCGTCAGCTCGTTATTTATTATGTGAAGAGAGAGGGACAGTTGCATTTCCGAATGGGGCTATCAGTTGGTAAAAAAATTGGGAATGCAGTAACAAGAAATCGTATTAAGCGATATTTGCGACAGGCTTTCTTTGAGCTAAAGGACGAAATTGCTTATCCATATGATATTGTTATCATTGCGAGACAGCCAGCAAAGCAAATGACCTTTTCGGAAATCAAAAAAAGTTTAACCCATTTGTTATATAAAGAACAATTGTTAAAAAATCAATAA MKKEYRIKKNSDFQYAFKAGKSFANRQLVIYYVKREGQLHFRMGLSVGKKIGNAVTRNRIKRYLRQAFFELKDEIAYPYDIVIIARQPAKQMTFSEIKKSLTHLLYKEQLLKNQ NA NA NA NA NA AK015_00804 135 rpmH COG0230 50S ribosomal protein L34 ATGAAAAGAACGTTTCAACCTAATAATCGTAAACGTAAAAAAGTACACGGCTTCCGTACACGGATGAGCACGAAAAATGGTCGTAAAGTAATTGCTCGTCGTCGTCGTAAGGGTAGAAAAGTCTTGTCAGCATAG MKRTFQPNNRKRKKVHGFRTRMSTKNGRKVIARRRRKGRKVLSA NA NA NA NA NA AK015_00805 1341 dnaA COG0593 Chromosomal replication initiator protein DnaA TTGGAAAATATACAAGAAATATGGACTGCAGCGCTTGAAAAGATAGAAGAAAAAATTAGTAAGCCAAGCTTCGATACGTGGTTAAAAAATACCAAAGCAGAAACTTTAGACAAAAATACGCTCATCGTCTCTGCCCCCAATGAATTTGCTAGAGATTGGTTAGAAAATCAATATACGAGGCTTATTTCGGAAATCTTAACAGAAATAACCGGAGCTGAAATAGAAACTAAGTTTATTATTCCTAGTACGACTAAAGATGCAGAAGCTGTTCCTACATCAAATCAAGGGAAAGCAAACGAGCTTAATGATCACTCGAAATCTTTGTTAAACGCAAAATACACATTTGATACGTTTGTCATCGGAGCTGGTAATCGTTTTGCACACGCTGCTTCTTTAGCTGTAGCTGAAGCGCCAGCAAAAGCATATAACCCCCTATTCATCTACGGTGGAGTTGGCTTAGGGAAAACCCATTTGATGCATGCAATCGGTCATTACGTTCAAGATCATAATCCGGAAGCTAAAGTCGTTTATTTGTCTTCAGAAAAATTTACCAATGAATTTATTAACGCCATTATGGATAATAAGACCGTCAATTTTCGCAATAAGTATCGCAATGTAGATATTTTATTAATTGATGATATACAATTTATTGCCGGAAAGGAATCAACACAGGAAGAGTTTTTCCATACATTTAATGCACTGCATGATGACAACAAACAAATTATTATCTCTAGTGACAGACCTCCAAAAGAAATTCCTACACTGGAGGATCGACTTCGATCAAGGTTTGAATGGGGATTGATTACGGATATTACTCCACCTGATTTGGAGACTCGAATTGCTATTCTAACTAAAAAAGCTAAAGCAGAAGGTCTTGATATTCCTAATGAAGTAATGCTCTATATTGCAAACCAAATTGATACAAATATCCGTGAATTAGAAGGGGCACTCATTCGTATCGTTGCCTACTCATCACTGGTTAATCAAGACATCGATGCTTCCCTTGCAGCAGATGCTTTAAAGGATATTATTCCTAGTAATAAACCAAAAGTAGTTACCATTGCTAGTATTCAAGAAATAGTTGGTGAGAGATACAATGTTCGGTTGGAAGATTTTTTAGCTAAAAAACGTACAAAATCCATTGCTTTTCCTCGTCAAATAGCTATGTATTTATCAAGAGAAATGACCGATTCTTCTCTGCCTAAGATTGGAGAGGAATTTGGAGGAAGAGACCATACAACCGTCATTCATGCGCATGAAAAAATATCCAAATTGATCGATAAAGATACACAGCTAGCTAAAGAATTGGAAGAGCTTAAAGAACAAATAAAATCAATGTAA MENIQEIWTAALEKIEEKISKPSFDTWLKNTKAETLDKNTLIVSAPNEFARDWLENQYTRLISEILTEITGAEIETKFIIPSTTKDAEAVPTSNQGKANELNDHSKSLLNAKYTFDTFVIGAGNRFAHAASLAVAEAPAKAYNPLFIYGGVGLGKTHLMHAIGHYVQDHNPEAKVVYLSSEKFTNEFINAIMDNKTVNFRNKYRNVDILLIDDIQFIAGKESTQEEFFHTFNALHDDNKQIIISSDRPPKEIPTLEDRLRSRFEWGLITDITPPDLETRIAILTKKAKAEGLDIPNEVMLYIANQIDTNIRELEGALIRIVAYSSLVNQDIDASLAADALKDIIPSNKPKVVTIASIQEIVGERYNVRLEDFLAKKRTKSIAFPRQIAMYLSREMTDSSLPKIGEEFGGRDHTTVIHAHEKISKLIDKDTQLAKELEELKEQIKSM PGPT0014800_4174 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-PILUS|FIMBRIAE_SYSTEM MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313 NA NA AK015_00806 1137 dnaN COG0592 Beta sliding clamp ATGAAATTTGTTATACAGCGAGATCAACTAATGACGGCCGTACAAAACGTCATGAAGGCTATTTCATCTCGTCCAGTTGTCGCTATTTTAACGGGAATAAAGTTGGAAGCAAGAAAAGATGGAATAACATTGACAGGAAGTGACTCTGATATATCCATCGAATCTTATATTCCAGCTGAAGAAGAGGGAATTATTCATGTAGATCATATCGAAGAAGGTAGTATTGTACTTCAATCCAAATATTTTCCTGATATTGTTCGCAAACTTCCAGAACAAATTGTGGAAATAGAAGTTGATGAAAGTTTAAAAGTAACGATTCGCTCAGGTAAAGCAGAATTTAATCTAAATGGACAAGATGCAGCAGAATATCCACAACTACCTAAATTACAAACAGATGACAGTTTTGAACTCCCAATTGACCTTTTAAAAAGCTTAATTAAACAAACTGTTTTTGCGGTATCAACCATGGAAACAAGACCTATTTTAACTGGAGTGAATATGAGATTAGCTGATCAAACACTCACTTTCTCAGCGACAGATAGTCATCGCTTAGCTTCACGAACCGTTCCCGTAACAGAAACGACGAATGAATTTTCAAATGTGGTTGTGCCAGGAAAAAGCTTGAATGAATTAAATAAAATCATGGATGATAGCGAAGAAAAAATTCAAATCAGTGTAACGAATAACCAGATTTTATTCCGTACGAAGCATTTGCAATTTTTGTCTAGACTACTTGATGGCAATTACCCTGAAACATCACGTTTAATTCCTGATGCGAGTAAAACGATCTTATATGTAAGTACTAAAGATTTATTACATACAATCGATCGTGCATCTTTATTAGCTAAAGAAGAGCGAAATAATGTTGTTCGTTTAACAACGAAAAATAATAATATGGTAGAAATCGCCAGTAATCATCCAGAAATAGGGAATGTCACTGAAGAAGTTTCCATTTCCTCTATGGAAGGTGAAGATTTAAAAATATCGTTTAGTTCAAAATATATGATTGATGCGTTAAAAGTAATTGATTATGAAGAAGTAAAAATTGCTTTTACAGGTGCTATGCGCCCATTTATTATCCAACCAGTTGAAGATGATTCGATTCTGCAATTGATTTTACCCGTACGCACATATTAA MKFVIQRDQLMTAVQNVMKAISSRPVVAILTGIKLEARKDGITLTGSDSDISIESYIPAEEEGIIHVDHIEEGSIVLQSKYFPDIVRKLPEQIVEIEVDESLKVTIRSGKAEFNLNGQDAAEYPQLPKLQTDDSFELPIDLLKSLIKQTVFAVSTMETRPILTGVNMRLADQTLTFSATDSHRLASRTVPVTETTNEFSNVVVPGKSLNELNKIMDDSEEKIQISVTNNQILFRTKHLQFLSRLLDGNYPETSRLIPDASKTILYVSTKDLLHTIDRASLLAKEERNNVVRLTTKNNNMVEIASNHPEIGNVTEEVSISSMEGEDLKISFSSKYMIDALKVIDYEEVKIAFTGAMRPFIIQPVEDDSILQLILPVRTY NA NA NA NA NA AK015_00807 219 hypothetical protein ATGTGTGAAAAAATAATGATTCAAACGGAATATATCCAATTGGGGCAGTTTATAAAATTAATCAATATCTTAGACTCTGGCGGTATGGTGAAAGCATATTTACAAGATGTTGGTGTACTTGTAAATGGCGAGCGTGAACATCGTCGTGGAAGAAAGTTATATGCTGGTGATAAGGTAGAAATAGATGAAGTTGGATGTTTCCAAGTGGACCGAGAATAG MCEKIMIQTEYIQLGQFIKLINILDSGGMVKAYLQDVGVLVNGEREHRRGRKLYAGDKVEIDEVGCFQVDRE NA NA NA NA NA AK015_00808 1113 recF COG1195 DNA replication and repair protein RecF ATGCATATACAACAACTCCAATTAAAAAATTATCGCAATTATGAATGCCTAGATATGACTTTTGATCATGCAATTAATGTGATTATAGGTGAAAATGCACAAGGGAAGACAAATTTAATGGAGGCTATTTACCTATTAGCGTTTACGAAGTCCCACCGCACCCCCAGGGAAAAGGAACTAGTTAAATGGGAAGAAGAGTATGCTAAAATAGAAGGTAGAGTAACCAAACGAAATCAGTCTTTTCCGCTTGAAATTGTCATTTCCGCAAAGGGGAAAAAGGCAAAATTAAATCGCATGGAGCAAAAGAAATTAAGTGACTACATTGGAGCCTTTAATGTCGTAATGTTTGCTCCAGAGGATTTAACACTTGTAAAAGGTGCACCACAAGTTCGCAGACGGTTTATGGACATGGAACTAGGTCAAATCCAACCGCGCTATATTTATCATCTAGGCCAGTTTCAAAAGATTCTTAAACAGCGGAATCACGTATTAAAGCAATTACAACGACAATCTACCCAAGATCGAACGATGTTGTACGTTTTAACCGATCAGCTTATTGAACATGCCGCAACTTTATTAGAAAGGCGGTTTGTTTTTTTGACTTTGCTAAGAAAATGGGCTAGTCCAATTCATTATGGTATAAGCCGTCAGTTAGAAACATTGCATATTGCTTACGCCCCGACAATAGACGTATCAGAAGAAGCTAATAAGGGAAAAATAGCAGATATATATAATCGTAAATTTAGCGAAATTGAAGATAAAGAGATCGATCGGGGAACAACGTTAATTGGTCCCCATCGAGATGATTTATTATTTTATGTAAATGATAAAAATGTACAAATTTACGGTTCACAAGGTCAACAACGTACGACAGCTTTAGCGGTTAAATTGGCGGAAATTGAATTAATTTATAACGAAGTCGGGGAATATCCGATCTTACTGCTAGATGACGTCTTAAGCGAATTAGATGATTACCGACAGTCCCATTTATTAGAAACTATTCAAGGAAAGGTGCAAACCTTTGTCTCCACAACAAGTGTAGATGGTATTCAGCATGAAACATTAAACCAAGCAGCCATTTTTCGGGTGAAGGATGGAAAAGTAGAATCTTAA MHIQQLQLKNYRNYECLDMTFDHAINVIIGENAQGKTNLMEAIYLLAFTKSHRTPREKELVKWEEEYAKIEGRVTKRNQSFPLEIVISAKGKKAKLNRMEQKKLSDYIGAFNVVMFAPEDLTLVKGAPQVRRRFMDMELGQIQPRYIYHLGQFQKILKQRNHVLKQLQRQSTQDRTMLYVLTDQLIEHAATLLERRFVFLTLLRKWASPIHYGISRQLETLHIAYAPTIDVSEEANKGKIADIYNRKFSEIEDKEIDRGTTLIGPHRDDLLFYVNDKNVQIYGSQGQQRTTALAVKLAEIELIYNEVGEYPILLLDDVLSELDDYRQSHLLETIQGKVQTFVSTTSVDGIQHETLNQAAIFRVKDGKVES NA NA NA NA NA AK015_00809 300 hypothetical protein ATGTTTATCCATATTGGAAATGACCATGTGATACGTTCCAATGATGTTATTGCGATCATTGATTACCATCTAATTTCATCATCAACGATAATGGAAGAATATATGGTAGTAGCTGCTACAGAAAAAAAATTAGAAGGTACACAGGAAGAAGCAAAATCCGTCATGATAACAAAAGATTGCATTTATTATAGCTCCTTATCTGTATCTACACTGAAAAAAAGAGCAAGTATGATTTCAACGATTAGTAAGCTTGATGATTTTTCAGATGATATAAAAGAACTGGAATCGGAAGAAGTATAG MFIHIGNDHVIRSNDVIAIIDYHLISSSTIMEEYMVVAATEKKLEGTQEEAKSVMITKDCIYYSSLSVSTLKKRASMISTISKLDDFSDDIKELESEEV NA NA NA NA NA AK015_00810 1926 gyrB COG0187 DNA gyrase subunit B ATGTCAATGGATGATAAAGTCATGAAGGAACAGGCGTATGATGCAGACCAGATTCAAGTTTTGGAAGGTTTAGAAGCTGTACGAAAACGACCTGGAATGTACATTGGATCAACAAGTGAAAAGGGATTACATCATCTCGTATGGGAAATTGTAGACAACAGTATTGATGAAGCTTTAGCCGGTTATTGTGATCACATTGAAGTATTTATTGAAAAAGATAATAGCATTACGGTTAAAGATAATGGGCGTGGAATACCTGTTGATATTCAGAAAAAAACAGGTAGACCAGCGTTAGAAGTCATTATGACTGTACTACACGCCGGCGGTAAATTTGGCGGTGGCGGTTATAAGGTTTCTGGAGGACTTCATGGTGTTGGTGCTTCCGTCGTAAACGCCCTTTCCTCAAGTTTAGAAGTTTATGTTCACCGAGACAATAACATTCATTTCTTACGGTTTGAAAAAGGTGTCCCTCAAGGGGAAATAAAGGTTATTGGCGAAACAGATATTACTGGTACCATTGTTCATTTTACGCCAGATCCCACTATTTTCGATGAAACGACAGAATATAATTTTGATACATTAGTACAGCGTCTTCGTGAATTGGCATTTCTAAATAAAGGTTTGACAATAACCATTGAAGATAAACGTACGGATAAGGAGCCTGTTAGCTACTGTTATGAAGGTGGTATTTGTTCTTATGTAGAGTTTATTAATCAAACAAAAGAAGTCTTGCATGAGCCTTTCTACGCAGAAGGAGAAGACCAAGGAATTGCTGTAGAAATAGCACTTCAGTATAATGATGGGTTCGCAAGTAATTTATATTCCTTTGCGAATAATATTCATACGTACGAAGGTGGTACACATGAAGCTGGTTTTAAGACAGGGCTAACCCGCGTCATTAATGACTATGCCAGAAAGAATAATCTATTTAAAGAAAACGATCCGAATTTATCTGGGGAAGATGTCCGTGAAGGTTTGACAGCAATTGTTTCTGTTAAACATCCAAATCCACAATTTGAGGGACAAACGAAAACGAAATTAGGAAATAGTGAAGTTCGAACAGTGACAGATTCTGTTTTTAGTGAACTATTTTCTAAGTTTTTATTTGAAAACCCTACTGTAGCTAAAATTATTGTAGAAAAAGGATTAATGGCTTCTAGAGCACGTGACGCAGCTAAAAAAGCACGAGAATTAACACGTAGAAAAGGCGCTTTAGAAGTATCTAATTTACCTGGGAAATTAGCAGACTGTGCTTCTAAGGATGCGTCCATTAGTGAATTGTACATTGTGGAGGGAGACTCAGCTGGAGGTTCCGCAAAGCAAGGTCGAGATCGGCATTTTCAAGCTATTTTACCTTTAAGAGGAAAGATTTTAAACGTGGAGAAAGCACGTTTAGATAAAATCTTGTCGAACAATGAAGTACGTTCCATTATTACAGCATTAGGAACAGGCATTGGCGAAGATTTCGATATTTCCAAAGCCCGTTATCATAAAATAGTTCTAATGACAGACGCGGATGTAGATGGAGCCCATATTCGTACGCTATTACTTACTTTCTTTTATCGATATATGCGACCGTTAATCGAGCATGGATATATATATATTGCTCAGCCGCCGCTTTATAAAATTCAGCAAGGAAAAGCTGTTCACTATGCATACAATGATAAAGAAATGGAGCAAATCTTAGCAGAATTGCCAAAAGCGCCTAAGCCTGGATTACAGAGATATAAAGGTCTGGGAGAAATGAATGCAACGCAGCTTTGGGAGACGACGATGAGTCCTGATACGCGTACATTACTACAGGTAGAATTATCTGATGCAATCGATGCGGATCAAATTTTTGATGTACTCATGGGTGATAAAGTAGAACCAAGACGTAACTTTATCCAAGAAAATGCACAATATGTAAAAAATCTTGATATATAA MSMDDKVMKEQAYDADQIQVLEGLEAVRKRPGMYIGSTSEKGLHHLVWEIVDNSIDEALAGYCDHIEVFIEKDNSITVKDNGRGIPVDIQKKTGRPALEVIMTVLHAGGKFGGGGYKVSGGLHGVGASVVNALSSSLEVYVHRDNNIHFLRFEKGVPQGEIKVIGETDITGTIVHFTPDPTIFDETTEYNFDTLVQRLRELAFLNKGLTITIEDKRTDKEPVSYCYEGGICSYVEFINQTKEVLHEPFYAEGEDQGIAVEIALQYNDGFASNLYSFANNIHTYEGGTHEAGFKTGLTRVINDYARKNNLFKENDPNLSGEDVREGLTAIVSVKHPNPQFEGQTKTKLGNSEVRTVTDSVFSELFSKFLFENPTVAKIIVEKGLMASRARDAAKKARELTRRKGALEVSNLPGKLADCASKDASISELYIVEGDSAGGSAKQGRDRHFQAILPLRGKILNVEKARLDKILSNNEVRSIITALGTGIGEDFDISKARYHKIVLMTDADVDGAHIRTLLLTFFYRYMRPLIEHGYIYIAQPPLYKIQQGKAVHYAYNDKEMEQILAELPKAPKPGLQRYKGLGEMNATQLWETTMSPDTRTLLQVELSDAIDADQIFDVLMGDKVEPRRNFIQENAQYVKNLDI PGPT0027710_1249 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 AK015_00811 2490 gyrA COG0188 DNA gyrase subunit A ATGGCGGATCAACAACGTCCAAAAGTACAGGAAATTAATCTCGGAAAAGAGATGCGTACATCATTCCTAGATTATGCTATGAGTGTAATTGTTTCTCGTGCATTGCCTGATGTTCGTGACGGTTTAAAACCTGTACATCGTAGAATATTATATGCAATGAATGATTTAGGTATGCATGCAGATAAAGCGTATAAAAAGTCAGCACGTATTGTAGGAGAAGTAATTGGTAAGTACCACCCACATGGTGACTCAGCTGTTTACGAAGCCATGGTGCGTATGGCACAAGATTTTAGTTATCGAAATATGCTTGTTGATGGGCATGGGAACTTTGGTTCGGTTGATGGCGATTCAGCAGCGGCCATGCGTTACACCGAAGCAAGAATGTCGAAAATTTCTATGGAATTACTAAGAGATATTAATAAAGATACCATTGATTATGCCGATAACTATGATGGATCGGAAAGAGAACCTGTCGTTTTTCCAGCACGTTTTCCGAATTTGTTAGTGAATGGTGCATCTGGTATTGCGGTAGGTATGGCGACAAACATTCCACCACATAATTTAGGAGAAACGATCGATGCGGTACTCGCATTGAGTAAGCATCCAGATATTACGATTGATGAGTTAATGGGAGAGTATATACATGGGCCTGATTTCCCAACTGCTGGGCAAATTCTTGGTCGTAGCGGGATTCGAAAAGCATATGAAACAGGAAAAGGTTCCATTACTGTTCGCGCAAAAGTAACAATTGAAGAGACAGCGAACGGGAAGCCGAGAATTATCGCCACTGAATTACCTTATCAAGTAAATAAAGCAAAATTGATTGAAAAAATTGCGGAGCTTGTTCGAGACAAGCGCATTGATGGTATAACGGATTTGCGTGATGAATCTGATCGTGACGGTTTAAGAGTCGTTATAGAGCTTAGACGTGATGCCAATGCGAATGTTGTTTTAAATAATTTGTACAAGCATACCGCATTGCAAACAACATTTGGCATTAATATGTTAGCACTTGTTGATGGACGTCCAAAAGTGTTAACGATTAAACAATGTTTGGAGCATTATTTAGAGCATCAAAAAGTAATTATAAAACGGCGAACAGCATTTGAATTACGCAAAGCAGAAGCAAGGGCACATATTTTAGAAGGATTGCGCATTGCACTTGACCATTTAGATGAAGTGATTACACTAATTCGTAACTCCAAAACGACAGATATTGCCCGTAACGGTTTAATGGAACGTTTTGATTTATCAGAAAAGCAAGCACAAGCCATTCTAGATATGCGTCTGCAACGCTTAACAGGCTTAGAACGCGAAAAAATTGAAGATGAATATAAAGAATTAAAACAGCTCATTGAAGAATTGAAAGCCATTCTTGCTGATGAAGAAAAGGTTTTAGAAATCATTCGTGAGGAGCTTGCTGAAATCAAAGAACGTTTTAATGATGATCGGCGTACAGAAATTGTAATTGGTGGTAGTGATTTCTTTGAGGATGAAGATTTAATCCCTGAAGAAAATATTGTGATTACGTTAACTCACCAAGGTTATATTAAACGCCTTCCTTCTTCCACTTATCGCACGCAAAATCGCGGTGGCCGTGGTATACAAGGTATGGGAACGAACGAGGATGATTTTGTTGAGCATCTTGTCTCTACTTCGACACATGATACGATTTTATTCTTTACGAATAAAGGAAAAGTATACAGAGCGAAAGGGTATGAGATCCCTGAATTTAGTCGAACTGCAAAAGGGATACCAATTATTAATTTGTTGCAAGTAGAAAAAGGCGAGTGGGTCAATGCAGTAATAACTGTTAATGACTATATGGAAAATCAATTTTTATTCTTTACGACGAAGCATGGTATTTCTAAGCGCACTTCGCTAGCGCAATTTGCTAATATACGAAAAGGTGGTTTAATCGCAGTAGGTCTTAGAGAAGACGATGAACTTATATCTGTACGTCTGACAGATGGAATGAAAGATATCATGATCGCGACTAAAAATGGATATCTCATTCGTTTTCCTGAAGACCAAGTTCGTCCAATGGGAAGAAGTGCAGCAGGTGTAAAAGGTATTTCTTTACGAGAAGATGATGAAGTTGTATCGATGGAGATCTTACAAGAAGATGCGAATATTCTCCACGTGACGAATAAAGGTTTTGGAAAACAAACGCCAGAGTCGGAATACCGCACGACGAACCGTGGTGGGAAAGGTATATTCACTTGTAATCTAACAGAAAAAACTGGTCACGTTGTTGCAGTTAAGGCGGTTTCTGGAGAAGAAGATTTGATGTTGATTACCGTAGCTGGTGTGCTTATTCGTATTCCAGTTGAAAGTATTTCGGTCACAGGAAGAAACACAATGGGGGTTCGTTTAATTCGTTTGCATGAAGATGAAGAAGTAGCAACAGTTGCTCGAATCGAACCAGATGAAGAGGAAAATACAGATCAAGAGCAAGAACAAGACGAAGCGGAATCGAGCCACGAATAA MADQQRPKVQEINLGKEMRTSFLDYAMSVIVSRALPDVRDGLKPVHRRILYAMNDLGMHADKAYKKSARIVGEVIGKYHPHGDSAVYEAMVRMAQDFSYRNMLVDGHGNFGSVDGDSAAAMRYTEARMSKISMELLRDINKDTIDYADNYDGSEREPVVFPARFPNLLVNGASGIAVGMATNIPPHNLGETIDAVLALSKHPDITIDELMGEYIHGPDFPTAGQILGRSGIRKAYETGKGSITVRAKVTIEETANGKPRIIATELPYQVNKAKLIEKIAELVRDKRIDGITDLRDESDRDGLRVVIELRRDANANVVLNNLYKHTALQTTFGINMLALVDGRPKVLTIKQCLEHYLEHQKVIIKRRTAFELRKAEARAHILEGLRIALDHLDEVITLIRNSKTTDIARNGLMERFDLSEKQAQAILDMRLQRLTGLEREKIEDEYKELKQLIEELKAILADEEKVLEIIREELAEIKERFNDDRRTEIVIGGSDFFEDEDLIPEENIVITLTHQGYIKRLPSSTYRTQNRGGRGIQGMGTNEDDFVEHLVSTSTHDTILFFTNKGKVYRAKGYEIPEFSRTAKGIPIINLLQVEKGEWVNAVITVNDYMENQFLFFTTKHGISKRTSLAQFANIRKGGLIAVGLREDDELISVRLTDGMKDIMIATKNGYLIRFPEDQVRPMGRSAAGVKGISLREDDEVVSMEILQEDANILHVTNKGFGKQTPESEYRTTNRGGKGIFTCNLTEKTGHVVAVKAVSGEEDLMLITVAGVLIRIPVESISVTGRNTMGVRLIRLHEDEEVATVARIEPDEEENTDQEQEQDEAESSHE PGPT0027705_998 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621 NA NA AK015_00812 1170 hypothetical protein ATGGTAACGGAGGGAGTCCTCCCTCCAGCCGCTAACCATGGTGTGGCAGTTTTTAATCATCGTTTTGAAATCGATTACATAAAGGCGAAGGGGGGAATTTACTTGTGGGTTGAAACCAATGCACTTTCACCAGGTTGTGTGTTGCTTCGCGATGTGAAAGGCAAATCACATCGTGCTATCATTCCTAAGCATACAGTGCTTACAGAGGAACATATTACTGTTTTACATAAGTTTCTCATTGAAAAAGTCGATGTTTCCGAAAAACAGGCTGAAGGCCACATACAGAAAGAAGTGCAAACCGAAACGGTAAAAGTGGCTACACATCCTACCACATCTTTTTCTAAGCAATATCAACGTACTGTCCAACAATACAAAAAACTATTTGCTAAATGGCAGAACAGTGCGCGCATTGATATTACAGAAGTTCGTGCTTTAATCATACCATTATTAGATAACATGGAAGAGATAAATAAGTATGTATTTAAATTGCATCATTATGCTAAAAAAGAAGATTACATCTACCATCATCATATAGCCGTGGCGATATTAGCAGCGTATATTGGTTATAAATCTGAATTTCCTAAAGGAGAATGGTTGCAATTAGGGTTAGGAGGATTGTTGAGTGATTGTGGAATGGCAAGGATAAATCCTATCATTATTGAAAAAGAGACTATGCTAACGGAAGCCGAAATGAATGAAATTAAAAACCATCCAACATATTCCTATCAATTCATTAAAAACGTGCCTATTCTAAAGTCAGACATAAAACAAGCCATTTCACAGCATCATGAACGACTTGATGGTAGCGGGTACCCTTCTGGTTTAAAAGAAAGGAAAATCAATCGGTATGCTCGAATCATAGCTATTTGTGACACCTACCATGCAATGACGTGCGAACGTTACTATAAACAAAAGCAGTCTCCGTTTAAAGTTATAGAAGTATTGCAGACCGAAAAGTTTACAAAGTTAGATCCAGAAATTATTCAGTTATTTATACAAATGATGACACAGTTTTCGATTGGTACGAAGGTGAAGCTATCCAATCAAAAAACAGCGGAAATTGTATTTACGGATGAAAAGAAACCAACTCGTCCTATGGTACGGTTAGAAGATAATCAAATTATTGCTTTAGAAAATTATCCTGACTTATTTATTGAAGTATTATTGTAA MVTEGVLPPAANHGVAVFNHRFEIDYIKAKGGIYLWVETNALSPGCVLLRDVKGKSHRAIIPKHTVLTEEHITVLHKFLIEKVDVSEKQAEGHIQKEVQTETVKVATHPTTSFSKQYQRTVQQYKKLFAKWQNSARIDITEVRALIIPLLDNMEEINKYVFKLHHYAKKEDYIYHHHIAVAILAAYIGYKSEFPKGEWLQLGLGGLLSDCGMARINPIIIEKETMLTEAEMNEIKNHPTYSYQFIKNVPILKSDIKQAISQHHERLDGSGYPSGLKERKINRYARIIAICDTYHAMTCERYYKQKQSPFKVIEVLQTEKFTKLDPEIIQLFIQMMTQFSIGTKVKLSNQKTAEIVFTDEKKPTRPMVRLEDNQIIALENYPDLFIEVLL NA NA NA NA NA AK015_00813 948 hypothetical protein ATGCTTCGTGAAGATATTTTTTTAACTTATTTACAATCGCAGCAGACGGCTCAATCCTACTTACACCATTGCTATGTAAAAAATAATGTAGTCGATGCAGAAGTGAATAGTTATCATAATTGCAACGCTTTTCTTTATTATATGGATCATGGAAAGCGTTTCTTTGAACAAGGGAGAAAGACAGAACCATTTATGCAGCCGATCCTTTATTTTTACGGCATGGTTCACCTTATTAAAGCTTGTTTGTTAACAAAGCGTCCTCATTATCCAGAATCAACAAATTTATTAGCACATGGTGTAACTGCAAGAAAAAAGAAGAAGAAAAATTATCATTTTCTAAACGATGAAGTAAAGGTACAGCATAATGGACTCTTTCCATACTTTTCAGAGCATTTATTTGCGCTAGAAACCCCGTTTGAAAAACGGAGTATGCAAAAATTACTCGCGCTCATTCCCGAAATGCAACCTGTTTTCCAGTTAGATCAGAATCCGCATTTGGCAGCTGTAGGAAGAATATCATCACCACTGTTAGAATTTCCAGTTCATTTGTTAGATAGCTATCACTTAACTGAAGCGGCTTTTATAAAGCGAATTCAAGCATACGTACCTCCTATTAAATATACAGATACGGATAAGCAAAAGATTCGAATGGAGGTAGAGGAACCTATTTTAGAGCCTTGTGGACCATTTTTTATGCAACAACATTCAAGGGAATTATATTTCCCGATCTATCGGGAAGATTTTTTCCCCATCCATGAGGTAATGGTTCATTACTTAGTACTTTACAATTTAAGTATGCTCGGTCGCTATGAAACGGAATGGTGGGGCGACCTTTTTGTCCATAAAGCTGATGTTGATTTCCCTTATATATCACATTTTTTAGAATTGGCAGCTTGGAAAACACCAGCTTTACTTATGAATGAATTATACAAGCAACGTAAAATTTAG MLREDIFLTYLQSQQTAQSYLHHCYVKNNVVDAEVNSYHNCNAFLYYMDHGKRFFEQGRKTEPFMQPILYFYGMVHLIKACLLTKRPHYPESTNLLAHGVTARKKKKKNYHFLNDEVKVQHNGLFPYFSEHLFALETPFEKRSMQKLLALIPEMQPVFQLDQNPHLAAVGRISSPLLEFPVHLLDSYHLTEAAFIKRIQAYVPPIKYTDTDKQKIRMEVEEPILEPCGPFFMQQHSRELYFPIYREDFFPIHEVMVHYLVLYNLSMLGRYETEWWGDLFVHKADVDFPYISHFLELAAWKTPALLMNELYKQRKI NA NA NA NA NA AK015_00814 1470 guaB COG0516 Inosine-5'-monophosphate dehydrogenase ATGCGTGAAGATAAGTTTGTAAAAGAAGGTTTAACTTTTGATGATGTTTTGCTAGTGCCAGCGAAGTCCGAGGTGTTACCGAAGGATGTAGATGTAAGTACAACGTTAACGGATAAAATTACATTAAATACACCATTGATGAGTGCAGGGATGGACACGGTAACAGAAGCAAGTTTAGCAATTGCGATGGCTCGTCAAGGTGGTATTGGAATTATTCATAAAAATATGTCCATCGAAGAACAGGCAGAGCAGGTAGATCGTGTAAAACGTTCAGAAAGTGGCGTAATTACCAATCCATTCTTTTTGACACCAGAGCATCAAGTATATGATGCAGAACATCTTATGGGGAAATTTCGCATTTCTGGCGTACCTATTGTAAATAATGTTGAGGAACAAAAGCTAGTCGGTATTTTAACAAATCGTGATTTGCGCTTTATTCAAGACTATTCCATAGCTATTTCTGATGTGATGACGAAGGAACAGCTCGTAACTGCACCTGTTGGTACAACACTAGAAGAAGCAGAGAAAATATTGCAGCAATATAAAATTGAAAAGCTTCCACTAGTAGATGATAAACAAACTTTAAAAGGGCTTATTACAATTAAAGATATTGAAAAAGTGATCGAATTTCCTAAAGCAGCCAAAGATACTCAAGGAAGGTTACTTGTAGGAGCAGCTGTGGGTGTTACTGGTGATGCGATGAAACGAATTGAAAAGCTTGTAGAAGCCGGTGTAGATGTTATTGTCATTGATACTGCTCATGGCCATTCGAATGGCGTCATTGACCAAGTAAAAGCAGTACGAAAAATTTATCCTGATTTAGATATTGTAGCTGGAAACGTTGCGACGGCGGAAGCAACAAAAGCATTAATAGAAGCAGGTGCTTCCATTGTTAAGGTTGGAATTGGTCCTGGATCGATTTGTACGACTAGAGTAGTTGCAGGGGTTGGCGTTCCACAAATTACAGCTGTATATGATTGTGCAAAAGCTGCTGCACCATATGGCGTACCTGTTATTGCAGATGGTGGTATTAAATTCTCTGGGGATATTGTCAAAGCACTAGCAGCAGGCGCGCATGCTGTTATGCTCGGAAGTATGTTTGCAGGTGTTACGGAAAGCCCAGGAGAAACAGAAATCTACCAAGGTAGACAGTATAAAGTGTATCGAGGCATGGGTTCAGTTGGGGCGATGAAAGCAGGCTCTAAGGATCGTTACTTCCAGGAGGAATCTGAGACGAAGAAGCTTGTGCCAGAAGGAATTGAAGGCCGTGTAGCATATAAGGGTCCTTTAGCAGATACGATTCATCAATTAGTAGGAGGGCTACGTGCTGGCATGGGATATTGCGGTACCGCATCCATTGAAGCATTGCGCCAGGACGGAAAATTTATTCGAATTACGAATGCTGGCTTAAGGGAAAGCCATCCACATGATGTACAAATTACGAAAGAGGCTCCAAATTATATCGTTTAA MREDKFVKEGLTFDDVLLVPAKSEVLPKDVDVSTTLTDKITLNTPLMSAGMDTVTEASLAIAMARQGGIGIIHKNMSIEEQAEQVDRVKRSESGVITNPFFLTPEHQVYDAEHLMGKFRISGVPIVNNVEEQKLVGILTNRDLRFIQDYSIAISDVMTKEQLVTAPVGTTLEEAEKILQQYKIEKLPLVDDKQTLKGLITIKDIEKVIEFPKAAKDTQGRLLVGAAVGVTGDAMKRIEKLVEAGVDVIVIDTAHGHSNGVIDQVKAVRKIYPDLDIVAGNVATAEATKALIEAGASIVKVGIGPGSICTTRVVAGVGVPQITAVYDCAKAAAPYGVPVIADGGIKFSGDIVKALAAGAHAVMLGSMFAGVTESPGETEIYQGRQYKVYRGMGSVGAMKAGSKDRYFQEESETKKLVPEGIEGRVAYKGPLADTIHQLVGGLRAGMGYCGTASIEALRQDGKFIRITNAGLRESHPHDVQITKEAPNYIV PGPT0021445_2944 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088 NA NA AK015_00815 1332 dacA D-alanyl-D-alanine carboxypeptidase DacA GTGAAACATGTTATGAGAAAAAGTTTCTTTATTTTTCTGGCAGCCGTTATAATGGCATTTTCTATCGCAATACAGCCATTATCTGCGCAAGCTTCAGAAGTAGATCTTGAAGCAGAATCTGCTATCTTGGTAGATGCAAATACAGGGAAAATTTTATTTGCTAAAAATGCGGATAAATTGTTTCCTCCAGCTAGTATGACCAAAATGATGACAGAGTACTTAGTATGGGAAGCTGTTGAAAAAGGTCAAATCAGCTGGGATACAACAACACAGATTAGCGACTACCCATACAGCATTTCCGCAGATTCAACTTTCTCCGGAATCGGATTAAAGCAAGCGAAGGATTATAAGGTAAAAGATCTTTATCATGCAATGGCGATTAATTCGGATAATGCAGCTACCATTGCCCTTGCAGAACTTATTGCCGGTTCAGAAGGAGAATTCGTCAAATTAATGAATAAAAAGGGAGAAGAGATGGGTCTGCCAGATTTTGAATTTGTCAATTCAACTGGAATTGAAAATGAATCATTAGGGGACAACCATCCAAAAGGGACAGATCCCAATGGAGTGAACTATCTCTCTGCGAAGTCTGCAGCTTTATTAGCTTACCATCTTATTCATGATTTTCCAAAGGCTTTAGAAATATCAAGCAAGCCGACCGTGAAATTTGATGGCAAGGAGCTTCGTAATTTAAATTGGATGCTCCAGCATGATAAAACTAATTTTGAAGAATTTTATTATGAAGGTGTTGACGGTTTAAAAACTGGTTTCACCGATTTAGCCGGCTATACCTTTACTGGAACTGCAAAAAAGGGAGATCGCCGTTTAATTTCTGTTGTCATGAAAACGAAAAGCGAAGCAAAGCGTTTTGAGCAAACTGCTAAATTACTAGATTACGGCTTTCAAAAATTTGAGAATACAGAAATTTTCCCTGCCGGGTATCAATTGGAAGATAAATCTAGCATTCCGGTTAATAAAGGAAAGAAAGATGATGTAAGCATATCACTTGCTGAATCTGTATCTTTGCCAATCAAACCAGATGAAAAAGATTTGTATAAAATAACGTATACACTGGATCAAGAAAAGTTAAATAAAGACGGCGAGCTAACAGCACCTATTAAAAAAGGTGAAAAAATAGGGACAGCTCAAATTATGTATAAAGCTGATAATGATTATGGGTATATTACCAAGGATAGTAATAGTACAGTAGATGTTGTAACTGACACTAGTGTGGAGAAATCGAATTGGTTTATGTTAACAATAGGAGCAATAGGTGATTTCTTTGTTGATTTATTTAATACAGTGGTAGACTGGATTAAAGGTTTGTTTTAA MKHVMRKSFFIFLAAVIMAFSIAIQPLSAQASEVDLEAESAILVDANTGKILFAKNADKLFPPASMTKMMTEYLVWEAVEKGQISWDTTTQISDYPYSISADSTFSGIGLKQAKDYKVKDLYHAMAINSDNAATIALAELIAGSEGEFVKLMNKKGEEMGLPDFEFVNSTGIENESLGDNHPKGTDPNGVNYLSAKSAALLAYHLIHDFPKALEISSKPTVKFDGKELRNLNWMLQHDKTNFEEFYYEGVDGLKTGFTDLAGYTFTGTAKKGDRRLISVVMKTKSEAKRFEQTAKLLDYGFQKFENTEIFPAGYQLEDKSSIPVNKGKKDDVSISLAESVSLPIKPDEKDLYKITYTLDQEKLNKDGELTAPIKKGEKIGTAQIMYKADNDYGYITKDSNSTVDVVTDTSVEKSNWFMLTIGAIGDFFVDLFNTVVDWIKGLF PGPT0024040_718 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258 NA NA AK015_00816 885 pdxS COG0214 Pyridoxal 5'-phosphate synthase subunit PdxS TTGTCAAATATAGGTACAGAACGTGTAAAACGAGGTATGGCAGAAATGCAAAAAGGCGGCGTCATTATGGATGTTGTCAATGCAGAACAAGCTAAAATCGCTGAAGAAGCAGGTGCAGTAGCTGTTATGGCACTTGAACGTGTTCCTTCGGATATTCGAGCTGCTGGTGGCGTAGCTCGGATGGCAGATCCGACAATTACAGAAGAAGTACTTGGAGCTGTATCCATTCCAGTGATGGCCAAAGCTCGAATTGGACATATTACAGAAGCACGTGTTTTAGAAGCGATGGGTGTAGACTATATTGATGAAAGTGAAGTCTTAACTCCTGCCGATGATATTTATCATATTAATAAATCTGATTATACGGTACCGTTTGTTTGTGGTTGCCGTAATCTTGGGGAAGCAGCTCGTCGTATAGGCGAAGGCGCTTCGATGCTACGGACAAAAGGAGAGCCTGGTACAGGAAATATCGTTGAAGCTGTGCGTCATATGCGCCAAGTACAATCGGAAATTCGCATGGTGTCTGCTATGTCCCGTGATGAAGTTATGACATATGCAAAAGAAATTGGTGCGCCATTTGAATTATTATTGCAGATTCGTGAAGAGGGTCGCTTGCCTGTAGTTAATTTTGCAGCAGGTGGTATTGCTACGCCAAGCGATGCAGCACTAATGATGGAATTAGGAGCTGATGGTGTATTTGTTGGTTCTGGTATATTTAAATCAGCAAATCCGGCTAAATTCGCCAAAGCTATCGTGGAAGCAACGACACATTATCAAGACTATAAACTAATTGCAGAACTTTCCAAAGATCTTGGCGATGCGATGAAAGGGCTAGATATGGCTACAATTGAAGCTCATGACCGAATGCAAGATCGTAGCGAGTAA MSNIGTERVKRGMAEMQKGGVIMDVVNAEQAKIAEEAGAVAVMALERVPSDIRAAGGVARMADPTITEEVLGAVSIPVMAKARIGHITEARVLEAMGVDYIDESEVLTPADDIYHINKSDYTVPFVCGCRNLGEAARRIGEGASMLRTKGEPGTGNIVEAVRHMRQVQSEIRMVSAMSRDEVMTYAKEIGAPFELLLQIREEGRLPVVNFAAGGIATPSDAALMMELGADGVFVGSGIFKSANPAKFAKAIVEATTHYQDYKLIAELSKDLGDAMKGLDMATIEAHDRMQDRSE PGPT0009180_1555 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 AK015_00817 579 pdxT COG0311 Pyridoxal 5'-phosphate synthase subunit PdxT ATGACAACAATTGGAGTCCTCGCACTACAGGGGGCGGTACGCGAACATATCCGTGCCATTCATGCATGTGGGGCTAATGCTGTAGAAATAAAAAGAAAAGAACAGCTAGAAGAAATCGATGGGTTAATTTTGCCTGGTGGTGAAAGTACAACTATCAGACGGTTAATGGATAGTTATGGAATTTTTACAGCGATTCAAAATTTCGCAGACAAAGGTAAACCTATTTTCGGTACTTGTGCTGGCTTAATTATCATGGCAAAATCGATTGTAGGACAAGCAGAAGGGCATCTAGGTCTGATTGATATGACTGTCGCTAGAAATGCATTTGGACGTCAAGTGGCCAGTTTTGAGGCAGAATTGGATGTAGCTGGTATTGCAGAAGGTTTTCGTGCAGTGTTTATCCGCGCTCCATACGTAGTGGAAGTCGGAAAGAATGTTGAAATTCTAGCTACGTATGACGAGCATATTGTTGCTGTTCGTCAAGGCCCATTTATTGCTACAGCCTTTCATCCTGAATTAACGGATGACCATAGGTTAATTTCTTACTTTATTCATTTGACAGCTACCAATAAATCATAA MTTIGVLALQGAVREHIRAIHACGANAVEIKRKEQLEEIDGLILPGGESTTIRRLMDSYGIFTAIQNFADKGKPIFGTCAGLIIMAKSIVGQAEGHLGLIDMTVARNAFGRQVASFEAELDVAGIAEGFRAVFIRAPYVVEVGKNVEILATYDEHIVAVRQGPFIATAFHPELTDDHRLISYFIHLTATNKS PGPT0009185_1462 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 AK015_00819 1275 serS Serine--tRNA ligase ATGTTAGATTTGAAATTTTTACGTCACCATTTCCAAGAAGTAAAACAAAAATTAGCGCATCGTGGTGAGGACTTATCAGAACTGGATCATTTTGGCGAGTTAGATGAAAAGCGTCGTCAACTAATTTCCGAGACAGAGCAGTTAAAAGCGAAGCGAAATGAAGTATCGAAACAAATCTCTGTACTAAAGCGAGAAAAGCAAGATGCTGAGCCTGCGATTAAAGAAATGAGAGAAGTAGGCGACCAAATTGCTGAGTTGGATAGCGAATTAAAGCAAATTAATGAACATTTAGAGCAAATCATGTTGTCTATTCCTAATATTCCTCATGAAAGTGTACCAATTGGTGAAGATGAAGATGATAATGTCGAGGTGCGGAGTTGGGGAGAGAAGACGCCATTTTCCTATGAACCAAAGCCTCACTGGGATGTAGCAACAGACTTAGACATCGTTGACTTTGAACGAGCTGGCAAAGTGACTGGGAGCAGGTTTGTCTTTTATAAAGGACTTGGTGCAAGATTAGAGCGTGCATTATGGAACCTGATGTTAGATTTCCATGTGGATGAACATGGCTATGAAGAAATGTTGCCACCACAAATTGTGAATCGAACTAGTATGACTGGGACAGGGCAATTACCAAAATTTGCAGAAGACGCCTTTAAACTAGAAGAATGGGATTATTATTTAGCTCCGACTGCAGAAGTGCCAGTAACAAATTATTATCGTGATGATATTTTAAAGATAGATGATTTACCGAAAAAATTTGCTGCATTTAGTAGCTGCTTTCGTTCTGAAGCAGGATCTGCTGGAAGAGACACAAGAGGTCTGATTCGTCAGCATCAATTTAATAAAGTCGAGCTTGTCCATTTTGTTAAACCTGAAGATTCCTATGAAACATTGGAAGTGTTAACAAATCATGCAGAGAAAATATTACAGTTATTAGAGCTTCCTTATCGTGTGATGAGTATGTGTACAGGAGATTTAGGCTTTACAGCAGCTAAGAAGTACGATATCGAAGTATGGATCCCTAGTCAGCATACGTATCGGGAAATTTCTTCTTGCTCTAATTTTGAAGACTTCCAGGCAAGACGTGCCAATATCCGTTTTCGTAGAGAAGCAAAAGCAAAACCAGAATTTGTGCATACATTAAACGGCTCTGGATTGGCTATTGGTCGAACTGTTGCAGCTATTTTGGAAAATTACCAGCAAGAGGATGGAACGGTTGTTATTCCAAAAGCATTGCGTCCATATATGGGAGGAAAAAAGGTCATTCAATAA MLDLKFLRHHFQEVKQKLAHRGEDLSELDHFGELDEKRRQLISETEQLKAKRNEVSKQISVLKREKQDAEPAIKEMREVGDQIAELDSELKQINEHLEQIMLSIPNIPHESVPIGEDEDDNVEVRSWGEKTPFSYEPKPHWDVATDLDIVDFERAGKVTGSRFVFYKGLGARLERALWNLMLDFHVDEHGYEEMLPPQIVNRTSMTGTGQLPKFAEDAFKLEEWDYYLAPTAEVPVTNYYRDDILKIDDLPKKFAAFSSCFRSEAGSAGRDTRGLIRQHQFNKVELVHFVKPEDSYETLEVLTNHAEKILQLLELPYRVMSMCTGDLGFTAAKKYDIEVWIPSQHTYREISSCSNFEDFQARRANIRFRREAKAKPEFVHTLNGSGLAIGRTVAAILENYQQEDGTVVIPKALRPYMGGKKVIQ NA NA NA NA NA AK015_00822 1089 metN_1 COG1135 Methionine import ATP-binding protein MetN ATGGAACAATTGCCATACAAAGCGATTTTAAGTGAAAAAGAATGGGGGATTGGTTCAATGATTATATTTGATCAGGTAACGAAAGTGTATGAAGGAAAAGGTGAATCTGTTAAAGCATTGCACAACGTGGATTTACAGGTAAAAAAAGGAGAAATATATGGTGTGATTGGATTTAGTGGTGCAGGAAAAAGCTCGCTCATACGCTGTGTGAATGCTTTAGAACGTCCGTCATCTGGAAGAGTAATCATAGATGGAAAGGATCTCTTACAATTAACTGCAAAAGAAGTACGTGAAGCAAAACGGAATATCGGTATGATTTTTCAACATTTTAATCTTTTACATTCAAAAACAGTGTTTACGAATGTAGCGATGCCTCTACTAGTGGCAAAACGTCCTAAAGAGGAAGTGAGAAAAAGAGTATTAGAGTTACTCGCTTTTGTTGGTTTAGAAGATAAAGCAAACAGTTACCCCGATCAGCTATCTGGAGGGCAAAAACAACGCGTAGGGATAGCTCGTGCTTTAGTTACGAATCCGAAAGTGCTTTTATGTGATGAGGCAACATCTGCACTTGACCCAGAAACAACAAAATCTATTTTTCAACTGTTAAAACAGGTAAATCAGGCATATGGAGTGACGATTTTAATGATTACGCATGAGATGGGTGCCATCAAAGCGATTTGTGATCGGGTTGGTGTTTTAGATCAAGGAAAAATAGTGGAGTCGGGCAGTGTATTTCAAGTATTTTCAAAACCAAAAACAGCGATTGCTGCTAAGTTTGTAAGTTCTGTGATGAATGACCATATACCGGAGTCGATCTATGCGTTACTTCGTGAACAGCGAGAAGACCGGCATATATATCGCATTGTGTTTGTCGGTAATAGTGCAGGCGAGCCTTTATTATCACAAGTTGCTAAAACGTATACCGTAGATGTCAATATACTGTATGGCAGCATTACAGAAATACAAGGGATTCCTTTTGGCAATTTAATCGTTCAATTTTCAGGTACAGAGAAGGAGATGAAACGAGCTTTGCTACATATTCATCAACAAAAGGTTACTGTAAAGGAAGTGTTAGCAGATGTTAGTTGA MEQLPYKAILSEKEWGIGSMIIFDQVTKVYEGKGESVKALHNVDLQVKKGEIYGVIGFSGAGKSSLIRCVNALERPSSGRVIIDGKDLLQLTAKEVREAKRNIGMIFQHFNLLHSKTVFTNVAMPLLVAKRPKEEVRKRVLELLAFVGLEDKANSYPDQLSGGQKQRVGIARALVTNPKVLLCDEATSALDPETTKSIFQLLKQVNQAYGVTILMITHEMGAIKAICDRVGVLDQGKIVESGSVFQVFSKPKTAIAAKFVSSVMNDHIPESIYALLREQREDRHIYRIVFVGNSAGEPLLSQVAKTYTVDVNILYGSITEIQGIPFGNLIVQFSGTEKEMKRALLHIHQQKVTVKEVLADVS PGPT0020520_488 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK015_00823 651 metP_1 COG2011 Methionine import system permease protein MetP ATGTTAGTTGATCAAGAACAACTCTTACAAGCTTTATGGGAAACGGCCGTCATGGTCGGCGTATCATTAATTTTCTCTTTTCTTATCGGACTTGTATTAGGTGTTTTATTAGTCGTAACGAGAAAGGGGCATCTTTGGGAAAATAAAATTATTTTCACTATATTAAACACAGGAATAAATATATTTCGTTCTATTCCATTTATTATTTTGATGGTAGCCGTTATTCCATTCACAAGGCTGATTGTTGGAACTTCGATTGGAACAGCTGCTGCAATTGTACCAATGATATTATTTGCTGGCCCTTATATTGCTAGATTAATAGAAAACTCTTTACTGGAAGTTGACCCAGGGGTTATAGAAGCAGCACAAGCAATGGGGGCAACGCCATGGCAGATTATGACTCGTTTTCTTTTACCAGAAGCACGAAGTTCGTTATTACTAGGCATAACGATTGCAACAATTGGTTTAGTAGGAGCTTCTGCAATGGCTGGAGCAGTTGGAGGAGGAGGCCTGGGTGATTTAGCTATTACATATGGCTACCAGCGTTTTGACACGGTCGTGATGTTCCTTACTGTAGGGATCCTTATCATCATGGTACAAGGATTACAGTCCCTCGGAAACTACCTAGCCAGACGAGTGCGACGAAGATAA MLVDQEQLLQALWETAVMVGVSLIFSFLIGLVLGVLLVVTRKGHLWENKIIFTILNTGINIFRSIPFIILMVAVIPFTRLIVGTSIGTAAAIVPMILFAGPYIARLIENSLLEVDPGVIEAAQAMGATPWQIMTRFLLPEARSSLLLGITIATIGLVGASAMAGAVGGGGLGDLAITYGYQRFDTVVMFLTVGILIIMVQGLQSLGNYLARRVRRR PGPT0020515_3631 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072 NA NA AK015_00824 819 metQ_1 COG1464 D-methionine-binding lipoprotein MetQ ATGAAAAGATTAGCAGCTTTATTTTTCCTATTCATTCCATTAATTATTATTAGCGCTTGTTCTAGCAGTGAAGCTAGTTCCACGGTGAAAGTTGGTATTAGCGGTTCTGATACGACGATTTGGGATTATGTAGCGGAAAAAGCTAAGGATGAAGGGATAAACGTAGAAATTGTTCGTTTCTCCGATTATGTGCAACCTAATTTGGCTTTAGCAGAAGGAGAGATTGATGCAAATGCATTCCAAACGGTTTCTTATTTTGATGCGTTTATAAAAGAACATGATTTAGATTTAACACCAATTGCCACGACGGTCATTGCTCCAATGGGGTTATATTCGGAAAAACATGGTACCACAGAGGACATACCTAAAGGAGGGACGATTGCTTTAGCAAAAGAAGCTACCAATATGGGAAGAGGTTTATTATTATTACAGGACGCAGGTTTGATTAAATTAGCGGAAGACTTCGATGGCAATGGTGCTTTAGATAAAATCATTGACAACCCAAGAAATCTGCAATTTGAATTACTTGTTGCTGGGCAAACGCCAAGAGTCCTTCCTGATGTGGATGCTTCAATTATAAACAATGGAATAGCCGTAGATGCAGGATTAAGTCCATTGAAAGATGCTATATATCATGAGGATGAAACAGCTACAGCCTATATTAACATTATTGCTGTTCAGGAAAAGAATAAAGATGACCAAGTATTGACGAAGCTGGCAGAGATTTACCAAACTGAAGATGTAGCTAAATTTATTGAAAAAGAACGTGACGGAAATTCTATTCCAACTTTTGTGCCATTAAGTGAAATTGGCTACTAA MKRLAALFFLFIPLIIISACSSSEASSTVKVGISGSDTTIWDYVAEKAKDEGINVEIVRFSDYVQPNLALAEGEIDANAFQTVSYFDAFIKEHDLDLTPIATTVIAPMGLYSEKHGTTEDIPKGGTIALAKEATNMGRGLLLLQDAGLIKLAEDFDGNGALDKIIDNPRNLQFELLVAGQTPRVLPDVDASIINNGIAVDAGLSPLKDAIYHEDETATAYINIIAVQEKNKDDQVLTKLAEIYQTEDVAKFIEKERDGNSIPTFVPLSEIGY PGPT0020510_3233 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073 NA NA AK015_00825 1206 N-acetyldiaminopimelate deacetylase ATGACGTTTACTACAGAAACGACAACGATTTGGAAACAGGAAATAGCAAAAAATATAGCGGCTAATAAGGAAAGATATATTCAGATTAGTCATGATATCCATGCTCATCCTGAAATTGGAAATCAAGAAACATATGCTGCTAAAACATTAACAGATATTTTAGTGGAAAATGGCTTTGATGTTCAATTGGATGTGGCAGGGCATGCTACTGCGTTTATCGCTAGAAAGAAAAGTGCTTTGGACGGAAGGAGAATTGCGTTTTTAGCGGAATATGATGCTTTACCAGAGATCGGTCATGCATGTGGTCATAATATCATTGGTACGTTAAGTGTTGGTGCTGCCATTGGTTTAAGTCAAGTAATCGATGAAGTAGGTGGTGAAGTAGTAGTCTTTGGAACGCCTGCTGAAGAAGGTGGACCGAATGGCAGTGCAAAAGGCAGCTTTGTTAAAGCTAAAATTACAGAAAGCATTGATGCAGCCCTTATGCTTCATCCTGGTGCAGATACACGGCTGACAGGTCCTACATTGGCAGTAGATCCGCTCGACTTTGAATTTTTTGGTAAAACTGCTCATGCTTCTGCGCATCCAGATCAAGGAATTAATGCGTTAGATGGGGTTATTCAATTGTTTAATGGCATCAATGCTTTACGTCAACATGTTTCAAACGATGTACGGATACATGGCATTATTACAGATGGCGGTGACGCTCCTAACGTTGTACCTGACTATGCGAAAGCTCGATTTTTCATTCGTGCAAGAACAAGGGAAGGTTTGAATCAAGTTACGGAGCGAGTAAAAGCAATTGCAGAGGGTGCTGCTTTAACAACAGGAGCCAAAGTAAAAGTATCTCCATTTCAAAATGAAGTGGATAATTTTATTATCAATGAGAGTCTAGATGATATTTTTAAAACGGAAATAGAGCAATTCGGAGAGACAGTACTTGAACGTTATTCGCAAGCTTTAGGTTCGACAGATGCAGGGAATATAAGCCAAGTAGTTCCAACAATTCATCCGCATATTAAAATTGGCTCGAGTAGTTTAATTGGTCATACTGTTTCGTTTCGAGAAGCTGCCAAGTCAAAGCAAGCAGATGAAGCATTAATTGTTGGAGCAAAAGCAGTGGCATTTACAGCGCTAAAATTGTTAACGGATGAGACAGCTCTTGACAGGGTAAGGAAGGAATTTCTTTATAAAACGGAGAAATAA MTFTTETTTIWKQEIAKNIAANKERYIQISHDIHAHPEIGNQETYAAKTLTDILVENGFDVQLDVAGHATAFIARKKSALDGRRIAFLAEYDALPEIGHACGHNIIGTLSVGAAIGLSQVIDEVGGEVVVFGTPAEEGGPNGSAKGSFVKAKITESIDAALMLHPGADTRLTGPTLAVDPLDFEFFGKTAHASAHPDQGINALDGVIQLFNGINALRQHVSNDVRIHGIITDGGDAPNVVPDYAKARFFIRARTREGLNQVTERVKAIAEGAALTTGAKVKVSPFQNEVDNFIINESLDDIFKTEIEQFGETVLERYSQALGSTDAGNISQVVPTIHPHIKIGSSSLIGHTVSFREAAKSKQADEALIVGAKAVAFTALKLLTDETALDRVRKEFLYKTEK NA NA NA NA NA AK015_00826 390 hypothetical protein ATGAAGTCGTTAACCAAACAAAGGATGAAGGCTCTTTTTATTGATGTAGCAATTTCTACCGCTGTAACTGTGGGGGTTGAATACGTTTTACGGAAAAAAGTAAAGAATGAGTTTATTCATACTGTAGTAACCCCAACCGTTGTCATGTGGTCGCTCGAGTACATACAACTAAAGCAATGTAGACAAACGGTGGGTTATAAATTGATGGGGCTAGAATTACGAAGCAAAACAGGTTTTGAGTTGACACCGATACAACTTTTTAAACGAATGGCTTATCGTGACACGTTAAGTAACTTACAATACATTATTAACCGACATTCCTTTGAAGGAGAAGCTGGAGCTGTACTTCCGCATGACAGGTATGCAGGTACGGTTGTAAAAGAGGTATAG MKSLTKQRMKALFIDVAISTAVTVGVEYVLRKKVKNEFIHTVVTPTVVMWSLEYIQLKQCRQTVGYKLMGLELRSKTGFELTPIQLFKRMAYRDTLSNLQYIINRHSFEGEAGAVLPHDRYAGTVVKEV NA NA NA NA NA AK015_00828 810 proC Pyrroline-5-carboxylate reductase ATGGATAAAAACCTTGCATTTATTGGTGCTGGTTCTATGGCCGAAGCAATTATTTCTGGCTTAATTGAATCAACCATTATCGATAAACAGCACATTATGATAACAAATCGAATGAATCACCAACGAATAGCTGATTTAAAGCAAAAGTATCACATAGACAGTATGCGTGATAAACAACAACTAATAGAATGGTCAGATGTCATTGTATTGGCTACAAAGCCGTGTGATATGAAAGAAGCACTTGCTTCCATTCAACCATATATAGAAGAGAGGCATTTGATTGTTTCAGTTACAGCAGGAATATCAACGGAAAAGATAGAGCAGTGGATTGGCATATCTACCCCTGTTGTTAGAGCGATGCCTAATACTTCTGCTTCCATCGGTTTTTCAGCTACTGCTTTATGTACTGGAACGCACGCTTTAGAAGAGCATATGAGCATAGCGAAAGAATTGTTCGATACGATTGGAACAACCGTTCAAGTGGAAGAAAAAGAAATGCATCTGGTGACAGGGATTTCTGGAAGTGGACCGGCGTATATTTATTATCTTGTCGAAGCAATGGAGCAAACAGCTATTGAATCCGGCATGAATCCAGAGACAGCTAAACAGTTAATTCATCAGACAGTGCTAGGTGCTGGAAACATGTTGCATGAAACAAATGAAACGGCAGCAGAATTACGCAAGAAAATAACAAGTCCAGCAGGTACAACAAAAGCAGGGATCCAAACTTTAGCACAACAAGATTTTCAACAAGTAATAAGCAAATGTATTTATGCAGCAAGAGATCGTTCTATTGAATTAGGAGAATGA MDKNLAFIGAGSMAEAIISGLIESTIIDKQHIMITNRMNHQRIADLKQKYHIDSMRDKQQLIEWSDVIVLATKPCDMKEALASIQPYIEERHLIVSVTAGISTEKIEQWIGISTPVVRAMPNTSASIGFSATALCTGTHALEEHMSIAKELFDTIGTTVQVEEKEMHLVTGISGSGPAYIYYLVEAMEQTAIESGMNPETAKQLIHQTVLGAGNMLHETNETAAELRKKITSPAGTTKAGIQTLAQQDFQQVISKCIYAARDRSIELGE PGPT0014225_4127 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286 NA NA AK015_00829 681 dck COG1428 Deoxyadenosine/deoxycytidine kinase ATGAATGCAAGAGAAAAATATCACATCCCTCATGATAGCATTATTACGATCGCAGGTACGGTCGGGGTCGGAAAGTCAACGATGACAAACGCTCTAGCAAAAGCATTAAACTTTAAAACATCGTACGAAAAAGTAGATACAAATCCATATTTAGAAAAGTTTTATGGTGATTTTGAAAGATGGAGTTTTCATCTACAAATTTATTTTTTAGCAGAACGGTTTAAAGAACAGAAAAAAATCTTTGAATATGGGGGTGGCTTTATTCAAGACCGCTCTATCTATGAAGATACAGGCATTTTTGCAAAAATGCATTACGATAATGGAACAATGTCCAAAACTGATTATGAAACTTACACGAACTTATTTGAAGCAATGGTCATGACCCCGTATTTCCCACATCCTGACCTACTTATTTATTTAGAAGGTTCATTCGAAGCGATTATTGAAAGAATTCATGAACGTGGACGGGAAATGGAAAAGAACACGGATATTTCCTATTGGAAAGAATTGTATTATCGTTATCAAGAATGGATTAATAACTTCAACGCTTGCCCTATCCTGCGAATCGATATAGCTGATTATGACTTGATGAAAAAAGAAAACTCAATTGAACCTATTCTAGAGCGTGTCGGCCATTTTATCCAGCAATCTCGTCGTTGGAAATCTCGTGACCGTGTATAA MNAREKYHIPHDSIITIAGTVGVGKSTMTNALAKALNFKTSYEKVDTNPYLEKFYGDFERWSFHLQIYFLAERFKEQKKIFEYGGGFIQDRSIYEDTGIFAKMHYDNGTMSKTDYETYTNLFEAMVMTPYFPHPDLLIYLEGSFEAIIERIHERGREMEKNTDISYWKELYYRYQEWINNFNACPILRIDIADYDLMKKENSIEPILERVGHFIQQSRRWKSRDRV PGPT0021370_61 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021370-dck-K15519 NA NA AK015_00830 639 dgk COG1428 Deoxyguanosine kinase ATGGCACACGTACCATTTATCGCTATTGAAGGACCAATTGGTATAGGGAAAACCTCCCTTGCTGAAAAATTGTCCGCCCATTTTCAATTTCAGTTGCTAAAAGAAATCGTTGAAGAAAATCCATTTCTAGGAAAATTTTACGAAAATATTGAGGAGTGGAGTTTTCAAACAGAAATGTTCTTTTTATGCAATCGATTTAAGCAACTAGAAGACATTGACAAACAATACTTATACAACGGAAAATCTGTCGTTGCTGATTATCATATATCAAAAAACATGATTTTTGCCAAGCGTACTTTACCCGAAGATAAATTCGATAAATACGAGAAAATTTATCATATTTTAACAGCAGATATGCCTGTACCGAATATGATGATTTATTTGCATGCAAGTTTAGATACCATTTTAGAACGCATCCGAAAACGTGGCAGGGAAATGGAACAAAACATACAAGCACCCTACTTGGAACAGCTTGCAGCGGATTATGAAGACTTTATGAATCAATTTGAAAAACTGCACCCAAATATTCCAGTTATTCGTATTGATGGAGACAAGGTAGATTTTATTTGTTATCAACAGCATTTAGATCAGATTATGGAACAAGTGTCCATGAATTTGAAGCAACTGAACTGCAAATAA MAHVPFIAIEGPIGIGKTSLAEKLSAHFQFQLLKEIVEENPFLGKFYENIEEWSFQTEMFFLCNRFKQLEDIDKQYLYNGKSVVADYHISKNMIFAKRTLPEDKFDKYEKIYHILTADMPVPNMMIYLHASLDTILERIRKRGREMEQNIQAPYLEQLAADYEDFMNQFEKLHPNIPVIRIDGDKVDFICYQQHLDQIMEQVSMNLKQLNCK PGPT0021655_478 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021655-dgk-K15518 NA NA AK015_00832 195 hypothetical protein ATGAAAAAAATTACGAAGACCCAAGTAGTTACCATTCTTTTGATTATCGGTTGGATGATATGGGAATATTATGTATGGCAGTGGTCGAAAACAGAAGTTGGAGCTGTTATTAGAGTGGATTTAATCTATATCGTTCCAATTATATTGATTATGGTAATTATATCCATTCTTCAATTGTTAAAAGCAAGAAAGTAG MKKITKTQVVTILLIIGWMIWEYYVWQWSKTEVGAVIRVDLIYIVPIILIMVIISILQLLKARK NA NA NA NA NA AK015_00833 768 glvR COG1737 HTH-type transcriptional regulator GlvR ATGAAACTAGAAACATTAATTAATAAAAATTACGAAAAATTAAACAGAAATGATCTGCAGGTTCTCCAATACATACTGAGCCATCGGGAGTCGTGCTATGATTTAAGTATTGTCGAATTAGCAAATGCTTGTTTTGCCTCTCGTTCTTCCATTCATCGACTAACGAAGAAACTTGGCTTTAGTGGCTATAGCGAATTTAGAGTTTTTTTTAAGTGGGAAGGAGAAACAAAACATCCCACAGATGACCTTATGGAGTCATTCCATTCAGATGTAGCGCACACGCTAAAGAACTTGGAATCCGTTGATTTTGATTCTATTAGCAAGTTATTATACCAAGCAGGGAGAATCTATATACATGGTACAGGAACCGCTCAATTAATGTGTGCCAAAGACTGTCAACGTATGTTTTCTATTATTGAGACATTTATTATCCTTATTCACGACCAAGTGGAATTCGAAGCGATGTATAGGGGGATGCAGGATACGGATGTGGTCCTAATTATTTCTTTATCTGGTGATACACCAACGCTAATTCCAAATATTAAACAGCTAAATGCCAAAGGGATTGATGTCATTACAATCACTAATTTAAAAAATAATAAACTCGCACAAATGTCCCCTAACAACATATATGCCACAACAACACCTGGAGCAACCAAGGAGGGAACAGAAATTACTTCATTTGTCCCGTTCTATATTGCTATTGAAACGATGTACCGTAAATATATCGAGTACAAGGGAAAACAAGAAGAAATAAACGATATATAG MKLETLINKNYEKLNRNDLQVLQYILSHRESCYDLSIVELANACFASRSSIHRLTKKLGFSGYSEFRVFFKWEGETKHPTDDLMESFHSDVAHTLKNLESVDFDSISKLLYQAGRIYIHGTGTAQLMCAKDCQRMFSIIETFIILIHDQVEFEAMYRGMQDTDVVLIISLSGDTPTLIPNIKQLNAKGIDVITITNLKNNKLAQMSPNNIYATTTPGATKEGTEITSFVPFYIAIETMYRKYIEYKGKQEEINDI NA NA NA NA NA AK015_00834 648 hypothetical protein ATGATGTCAAAAGTAAAGATTGAAAAACCAAATATTTATTTCGATTTACCTACCGCCTCTCTTCAAGATATATTTGAAAACGGGGACCCTTCTCTACGTCATTGCACAGTTTCTACTTGCTCTGCTGAAATGAAAAACTATGATCGTACAGATTTTTCGCAAGTCGTTTTTAAACAGGTCAAATTAAATGGATCCTCATTCAAAAACGTAGAATTAACAGACGTTATTTTTGATAACTGTGATCTGTCCAACGTAGATTTTTTAGGGGCGATTATTCATCGTGTAGAATTCAAAGACACAAAGATGGTCGGGGTGAACTTAGCCGACGCCACGTTAAGAAATGTGCGTTTTGAAAATAGTATCATCCATTTAAGCTCTTTTAATTATAGTAGTCCGAAACAGATCATTTTTGATCATTGCTCTTTAAAAGGTGCGGACTTTTATGCATGTAAATTTAATAAAGTTCAATTCCAGCACTGTGATATAAACGAAGTCAATTTTTCGCAAACACCACTAAAGAATGTAGACCTGAGTAATTCTACTTTTGAAAGACTAATTGTCTCTTTAGACGAACTGGAAGGTTGTATTATTTCTTCAGAACAGGCAGTAGCATTTGCCGCAATGTTAGGTTTAAAAGTAAAAGAATAG MMSKVKIEKPNIYFDLPTASLQDIFENGDPSLRHCTVSTCSAEMKNYDRTDFSQVVFKQVKLNGSSFKNVELTDVIFDNCDLSNVDFLGAIIHRVEFKDTKMVGVNLADATLRNVRFENSIIHLSSFNYSSPKQIIFDHCSLKGADFYACKFNKVQFQHCDINEVNFSQTPLKNVDLSNSTFERLIVSLDELEGCIISSEQAVAFAAMLGLKVKE NA NA NA NA NA AK015_00835 1608 malP_1 COG1263 PTS system maltose-specific EIICB component ATGAACGCAATCCGTAGATTTGGAAGTGCCATGATTGTACCAGTGCTATTATTTCCATTTTTTGGTATAGTGGTAGGCTTGGCAACATTGTTCAAGAATGAGGCTGTCATGGGAGAGTTGGCTAACCCAGATGGACTATGGTACCAAATTTGGACATTAATCGAAAATGGTGGTTGGACCGTATTTAATCAAATGGAGCTTGTATTTGTTATTGGGCTTCCAATATCTCTGGCAAAGAAAGCGCCAGGTCGTGCTGTTCTTTCGTCTGTCATGGGTTACTTAATGTTTAACTACTTTATTAACGGCATTTTAACGATTTGGGGGCCAGCATTCGGTGTCGACTTTGCTAGTGAAGTTGGTGGTACAAGCGGATTAAAAGAAATTGTTGGTATCAAAACATTAGATACGAACATTATCGGTGCTATCTTTATTTCTGCGCTCGTTATCTGGTTACACAATCGTTATTATGAAAAGAAATTGCCTGAATCCATTGGGATTTTTCAAGGTGGACCATTCGTAGTAATGATCTCTTTCTTCTTAATGATTCCACTTGCTTTTCTTACAAGCTGGATTTGGCCAATGGTGCAAAATGGTATTGCATCTTTACAAGACTTTTTAGTTTCATCCAGTTATATCGGTGTATGGCTGTTCCACTTCTTGGAGCGAATTTTAATTCCGACGGGGTTACATCATTTTATATATACACCATTTGAATATGGACCAGCAGTGGTTGACGGTGGTATGAAGTCGTATTGGATCTCTCATTTAACAGAGTATTCACAGTTTACTGGTGCATTAAATGATATCTTCCCAGGCGGCGGCTTCTTGTTACAAGGAAACATCAAAATGTTTGGTTCCATCGGTATTGCACTTGCCCTTTATCATACAGCAAAACCAGAAAAACGTAAAAAAGTAGGTGCATTATTATTTGCAGCAGCGTTAACCGCTGTATTTGCAGGTATTACCGAGCCGCTTGAGTTTACATTCTTATTTATTGCTCCATACTTATTTGCACTTCATGCAGTTCTAGGGGCAACTATGGTTACAATAATGCATGGATTTGGTCTAGTTGGTAATATGGGTGGCGGGTTAATTGAAATAGCCGCAACAAACTGGGTACCGCTTATGGGGAACCATTGGGGCGTGTACATGGTTCAATTTATCATTGGAATCATCTTCATTGTCATTTATTACTATACCTTTAAGTTTTTAATTTTGAAGTTTGATATTCCAATGCCAGGTCGAGAAAAGGATGACAATAGTGAAACAAAGCTGTACACCAAACAAGACTATAAAGCAAGTAAATCAGGATCTGAAAACGACGTAGCTCATGCAGAACAAAAATACAACAATGAATATGAACGAAAAGCAGCTATCTATCTCCAAGGTCTTGGTGGTGCAGAAAATATAGAAGATGTTACAAATTGTGCAACGCGTTTACGTGTCACAGTATATGATCCAAATAAAGTCGAGGATGACATGTATTTTAAAGAATATGGGGAAGCCCACGGTGTGGTAAGAAATAACAAGAGTATTCAAGTAATTGTTGGATTATCCGTGCCACAAGTCCGTGATTCCATAGATACATTTTTAAATCAAAAGCAGTAA MNAIRRFGSAMIVPVLLFPFFGIVVGLATLFKNEAVMGELANPDGLWYQIWTLIENGGWTVFNQMELVFVIGLPISLAKKAPGRAVLSSVMGYLMFNYFINGILTIWGPAFGVDFASEVGGTSGLKEIVGIKTLDTNIIGAIFISALVIWLHNRYYEKKLPESIGIFQGGPFVVMISFFLMIPLAFLTSWIWPMVQNGIASLQDFLVSSSYIGVWLFHFLERILIPTGLHHFIYTPFEYGPAVVDGGMKSYWISHLTEYSQFTGALNDIFPGGGFLLQGNIKMFGSIGIALALYHTAKPEKRKKVGALLFAAALTAVFAGITEPLEFTFLFIAPYLFALHAVLGATMVTIMHGFGLVGNMGGGLIEIAATNWVPLMGNHWGVYMVQFIIGIIFIVIYYYTFKFLILKFDIPMPGREKDDNSETKLYTKQDYKASKSGSENDVAHAEQKYNNEYERKAAIYLQGLGGAENIEDVTNCATRLRVTVYDPNKVEDDMYFKEYGEAHGVVRNNKSIQVIVGLSVPQVRDSIDTFLNQKQ PGPT0016930_179 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 AK015_00836 1326 malH_1 COG1486 Maltose-6'-phosphate glucosidase MalH ATGAAACAATTTTCAATTACAATTGCTGGTGGAGGTAGTACATTTACTCCTGGGATTATATTAATGCTCTTAGAAAACTTGGATCGTTTTCCAATTAAAGAAATAAAGCTGTATGATAATGATGAAGAACGTCAAGGAACTGTAGCAGGAGGTTGTAGGATCTTATTAAAAGAAAGAGCTCCACAAATTAAGTTTGTTGAAACAATTGACCCGGAAGAAGCATTTAGTAACATTGATTTTGTCATGGCTCATATCCGTGTTGGTAAATATGCAATGCGTGAAAAAGATGAAAAAATACCACTGAAATATGGTGTTGTCGGTCAAGAAACATGTGGACCAGGTGGAATTGCATATGGTATGCGTTCCATTGGACCAGTTATTGAACTTGTTGATTATATGGAAAAATATTCACCAGATGCATGGTTCTTAAATTATTCAAACCCTGCAGCTATTGTAGCAGAAGCAACGCGTCTTTTACGTCCAAATTCTAAAATATTAAATATATGTGATATGCCAATTGGTATTGAAGAATTAATGGCTGCATCCATTGGACTATCTTCTCGTAAAGAAATGGAAGTGAAATACTTTGGATTAAACCATTTTGGCTGGTGGTTTGATATTCGTGATAAAGAAGGAAACGACCTCATGCCTAAAATTCGCGAGCATGTTTCTAAACATGGTTATGTAACAGTGGATGAGAGTAAACAGCATTCAGATGCTAGTTGGAACAGTACATTTGCTAAAGCAAAAGATGTGCAAGCCCTTGATCCGACAACCGTTCCAAACACGTATTTAAAATATTATTTTTATCCAGATTATGTCGTAGAACAGTCGAATCCAGACTATACACGAGCGAATGAAGTTATGGATGGACGTGAAAAGTTTGTATTCAGTGAATGTCAAAAAATAATTGATAACCAAACAGCAGAAGGAACAGAACTAGAAATTGATGAACATGCTTCTTATATCGTAGATTTAGCTCGTGCAATTGCTTATAATTCAAAAGAACGAATGCTCCTTATTGTTGAAAACAACGGAGCAATAAGTAATTTTGAACCGACAGCGATGGTAGAAGTCCCATGTATCGTTGGTAGCCAAGGTCCTGAGCCACTTGTTATGGGAGAGATTCCTCGTTTTCAAAAAGGGTTAATGGAACAGCAAGTCGCAGTTGAAAAGCTTGTCGTCGAAGCTTGGGCAGAGAAATCATATCAAAAACTATGGCAAGCATTGACTTTATCCAAAATCGTTCCAAGTGCAAAAGTTGCGAAAGATTTACTAGATGATTTATATGAGGCGAATAAAGTATACTGGCCAGAACTATCCTAA MKQFSITIAGGGSTFTPGIILMLLENLDRFPIKEIKLYDNDEERQGTVAGGCRILLKERAPQIKFVETIDPEEAFSNIDFVMAHIRVGKYAMREKDEKIPLKYGVVGQETCGPGGIAYGMRSIGPVIELVDYMEKYSPDAWFLNYSNPAAIVAEATRLLRPNSKILNICDMPIGIEELMAASIGLSSRKEMEVKYFGLNHFGWWFDIRDKEGNDLMPKIREHVSKHGYVTVDESKQHSDASWNSTFAKAKDVQALDPTTVPNTYLKYYFYPDYVVEQSNPDYTRANEVMDGREKFVFSECQKIIDNQTAEGTELEIDEHASYIVDLARAIAYNSKERMLLIVENNGAISNFEPTAMVEVPCIVGSQGPEPLVMGEIPRFQKGLMEQQVAVEKLVVEAWAEKSYQKLWQALTLSKIVPSAKVAKDLLDDLYEANKVYWPELS PGPT0014100_342 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_GLYCOSIDE_UTILIZATION PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014100-glvA-K01232 NA NA AK015_00837 861 gloB_4 Hydroxyacylglutathione hydrolase ATGAATAGGCATAAATTTCCTCAGTTAATGTTTTCTCTTCTTTGCGGTGTAAAACCTTTTGGATTAATTAAAAAAGAAGAAATAAAATTAGATGATCATGTAAAATGGTTTAACGATTATTATACAATCAATTATATAGATGGAAAAACGATTGCCATTGGTGAGCCTAGGTATTATCAAAGCAATGTTAACTATTTAATATTAGGAGACAAGCAAGCGTTACTATTAGATACTGGGCCAGGGATTCGGAATATTAAACCTGTAGTAGAAAGCTTAACATCGCTACCTATAACTGTAATGAATTCGCATTTTCACTATGATCATGTGGGAAACCATGAAAAATTTAGTGACATTAAATTAACAGAGAACCAAATAGAAAAACAAATAGTAAAAGAAGATACTTTAATACCTCGTAAATATTCATTTGTGGGACAATTAGAAGGATTTGCTCCTCCTAAGATAAAATTTAAAGAAATTTTAAAAGAAGGTACTTTCATTGATCTTGGAAATAGACAGCTAGAAATTATTTTTACACCGGGACATAGCAATGATTCTATCTCTTTATATGACAAAGAATTAAATCAATTATTTGTAGGTGATCTTATTTACCATGGCCCAATCTTGGCTGCTACATTAATCCCTGGTGTAGATATAAAGAAATATCTTTCTTCAACCAAAAAATTAATTAGCAAAACAAACGCTGATACCTTATTGTTTGGTGGTCATACATTAGATGTAAATCATCCATCTATTCAACAACATAACTTAATAGATCTCAAAATGTTTTTAGAAAGGAATGAAAGAAGCAGGGTATTACCTAAAAAACAAAAAATTAACGATAAAGTAGATATCCTTTACTAA MNRHKFPQLMFSLLCGVKPFGLIKKEEIKLDDHVKWFNDYYTINYIDGKTIAIGEPRYYQSNVNYLILGDKQALLLDTGPGIRNIKPVVESLTSLPITVMNSHFHYDHVGNHEKFSDIKLTENQIEKQIVKEDTLIPRKYSFVGQLEGFAPPKIKFKEILKEGTFIDLGNRQLEIIFTPGHSNDSISLYDKELNQLFVGDLIYHGPILAATLIPGVDIKKYLSSTKKLISKTNADTLLFGGHTLDVNHPSIQQHNLIDLKMFLERNERSRVLPKKQKINDKVDILY PGPT0001770_1862 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK015_00838 270 hypothetical protein ATGAAAAAGTATAGCCTTTCACCACCTGAAAGCATCAATCCTATAACTCAAAAAAAAATGCAAACACTAACCAACAATATTGAAGTTATATTATGTTCATTTCTTGAGGAAACCCCAGATCGACAATTTATTGAAACAAATAAAATAATAGATACATTCTTTTCTTTGCTTGACGGTAGCTTCTTCTATTTAGAAAATTTTTCCAAACAAGATTTTTATATTAGAATGAATAATATTTGGGAGGTGTTTTGGAAAGGAATTCAAAAATAA MKKYSLSPPESINPITQKKMQTLTNNIEVILCSFLEETPDRQFIETNKIIDTFFSLLDGSFFYLENFSKQDFYIRMNNIWEVFWKGIQK PGPT0026330_59 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026330-icaR-K21453 NA NA AK015_00839 711 hypothetical protein ATGAAGCGAAAGCAAATAATCATGTTAATTATATTATCTCTGTTATTCATTTTATTAGCAGCATGTGGAGATAATGACTCTGCGGAAGGCAAGACGAAGACAGTAGGTGAAACAGAACAAGAAACCTTAAATGCTACAACGGATTCAGGAGAATTGAGCGGGCATACAGTAATGATTGACCCTGGACATGGGGGAAGAGATCCTGGTTCAATTGGAATTAATGACATATATGAAAAAGATTTAGTTACAAATACAACAAAACCGATAGAAAAAGCGTTACGTGAAGCTGGAGCTAATGTTATAATGACTAGGAAAGAAGATGCAAAAATACCGTTAAAAGAAAGAAGAAGCATGAGTAATGAAGCAATGCCGGACGCTTTTATCAGTATTCATTACAATTCATTTGAGGATTCTAGCGTAGGTGGCTTTCATACGTATTATTATTCTCAGGAAAAAGAATATCGATTGGCACAGAGCATCCATCAGTCCCTGGGTAATTCCATCTCATTAAAGGATAGAGGGATACTAGAAGATAGCTATGCTGTATTAAGAAACAATGAAGTACCAGCAATTCTTTTAGAACTAGGTTTTATGAGTAACCCCGAAGAATTAGCAGTTATTCAGTCTGATGAATACAGTCAAACGGTGGCAGAAGCAATTGTACGTGGGTTAAAGAATTACTTTGAAACAAATGAAAATGTTTCAAGCTAG MKRKQIIMLIILSLLFILLAACGDNDSAEGKTKTVGETEQETLNATTDSGELSGHTVMIDPGHGGRDPGSIGINDIYEKDLVTNTTKPIEKALREAGANVIMTRKEDAKIPLKERRSMSNEAMPDAFISIHYNSFEDSSVGGFHTYYYSQEKEYRLAQSIHQSLGNSISLKDRGILEDSYAVLRNNEVPAILLELGFMSNPEELAVIQSDEYSQTVAEAIVRGLKNYFETNENVSS PGPT0024160_6965 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_00840 1017 hypothetical protein ATGAAACGGAAACATATTATCAGCTTTATCGTTTTATTATTCGTATTAGTATTTACATCAGCATGTGGAAATGACGATAAAGAACAACAAGCAGATAAGCAGTCCAAAGCCGAGGATAACACAGAAAATACAATGGAGGAATTACAACTTCCTGAAGCGGCTTTGCAAAAATTAGATAGCGGAGAAGATGTTAAGGCATTACAGCTTGCTTTAAAAGAAATTGGCTATGATATAAAAGATAATGGTGATTTTGATGCAGCTACAGTATGGGCAATTACTGATTTACAAATGCAGAAAGATTTACCTTTGACTGGTATATATGAACAAGAAACAGCAGAGGTAGTTAAGCAATTGGTTGAAGATGGAAGTCATGATTTTGAACCTGGAAAAAAACTACCTGCAAAAGCAGAGCCTGCTACAACAGATAGCGGCACTAATGTAATTGCAAATCCGTATGAACAATTGGTGTTAGTAAATAAGGAAAATGCATTACCAGCAGATTATACACCTGTTGATTTAGTGGTACCCGACATAAATTATCCTTTTACAGAAGATTTACCGAAAAAGAAAGTGCGTAAAATTGCAGCTACAGCAATTGAAGATTTGTTTGCCGCTGCAGATAAGGCGGGGCTAGAGTTGTTTGCTCAATCTGGGTATCGTTCTTATGATCGCCAAGAAACAGTATTTGCATCTAATGTCCAATCGTTAGGAGAAGAACAAGCTAACCAAGTAAGTGCTCGACCAGGTGAAAGTGAGCATCAGACAGGTTTAACGATGGATGTGACGAGTAGAGATATGGGTTTCCAATTAAATGAGGACTTTGCTAATACAGATGAAGGTAAATGGTTAGCGGAAAATGCCGCTGAATATGGTTTTATTATTCGCTTTCCTAAAGGAAAAGAAGAGATTACGCAATATCAATATGAGCCATGGCATATTCGTTATGTAGGTAAGAAGGCTGCTAAAGAAATAACAGAGAATGAATTAACATTAGAAGAATATTTGACAGCAGAATAA MKRKHIISFIVLLFVLVFTSACGNDDKEQQADKQSKAEDNTENTMEELQLPEAALQKLDSGEDVKALQLALKEIGYDIKDNGDFDAATVWAITDLQMQKDLPLTGIYEQETAEVVKQLVEDGSHDFEPGKKLPAKAEPATTDSGTNVIANPYEQLVLVNKENALPADYTPVDLVVPDINYPFTEDLPKKKVRKIAATAIEDLFAAADKAGLELFAQSGYRSYDRQETVFASNVQSLGEEQANQVSARPGESEHQTGLTMDVTSRDMGFQLNEDFANTDEGKWLAENAAEYGFIIRFPKGKEEITQYQYEPWHIRYVGKKAAKEITENELTLEEYLTAE PGPT0024055_192 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 AK015_00841 729 hypothetical protein ATGAAAAAGAATAAAATACACCTTACCAACGTTCTTTTAGCTATTATAGGGGTTAGCATCGCTTTCTTACCATTTATTTTAAAAAATGTTCAAGAGGAGCGTTTGTTGAATCATATTTTTGTATCAAATTTCCAAACAGAAGAAAAACAAGTGAATGATAATCAAACGACATCCATTGAAGAAAAGTTAAAATTAATCGTTAATCATTATGACGGAAATGAAAACATTGCCATCATTGAAAAAAGTAATGATGAGACGAAAAGAGCTGAATACCTTTCTAAGGGAATTAATGAAATCAAAGAACTGCAAAACAAAGGGTTGTTTCCACAAATTGATATGCAACCTGAATTCACGATCATTAATTCCAATATCAAAACATTTTTAAATACACAACATCCCCAGCACACAGTAACGATCTGGGAAGCTTTCTTTTCCACTAATGGTGTAGAAATAAATATATCAATGGACACCCAAACGAATAAAATCTATGAGTATCGAGTGAGCCCAAGTAATAACAAATCCTTATCTATGACTGATCATGATCAAACTACTACAAAATTAGCTAATTATTTTAATGTGAAAGTAAGTGAAAAAAAATTAATCGATAAAAGAACAGAAAAAATATATACGCTAGCGGACGAAGACGTCTATATTTCCTTTTTTTCCGATAGGTATTTTGCGAGTTTCTATTTAATTCCTGCATTTGAAGCAGAAAAGAAGCAATTTTGA MKKNKIHLTNVLLAIIGVSIAFLPFILKNVQEERLLNHIFVSNFQTEEKQVNDNQTTSIEEKLKLIVNHYDGNENIAIIEKSNDETKRAEYLSKGINEIKELQNKGLFPQIDMQPEFTIINSNIKTFLNTQHPQHTVTIWEAFFSTNGVEINISMDTQTNKIYEYRVSPSNNKSLSMTDHDQTTTKLANYFNVKVSEKKLIDKRTEKIYTLADEDVYISFFSDRYFASFYLIPAFEAEKKQF NA NA NA NA NA AK015_00842 1446 rcsC_1 Sensor histidine kinase RcsC ATGAAGTTATTCTGGAAAATATTTTATTCCACGATGATCGTATCTGTCTCCTGCTTCAGCATTGGAAGTTATATATTAATTGACTCCGCTTTTCAAGATTCTATCAAGCGCGAAGCCACTTCTGTATTTGAGGAAAATGATATTTTAAGATACTCGCTACAAAAAGAACTACGAGAGGCTTCCGTATCGGATTTTTACTTCGCTGATGAAAAAAACAAGGAATCAATATCCAATGAAGAGCTACTCATAACCGTTGCCTCCTCCTTAACCATTTATGAATCTGGTGGAGAACTTACTTTTCGTATTAGTAACCAGGACGGACATGTCGTATACGATAATTTTAATGAAGATTTAAGTAACGATGCCGTTACACAAGTATCGAATCAATCTAAAGGCTACCAAGTAAAAAATGTTAATGGGAAATATTTTCTTCACGCTATGACACCACTGCAATTACATGAAGATTTATTCTACATTGAAAACTTTCGAGAAATATCCGATATTTTTGCGAGTAAAAATGACCAATGGACAATGTATATGTATATTACGCTGCTGATGATTGGAATAGGTGCAATCGTCATGCTAGTCACTGCATGGCTACTGACAAAACCGATCTATAAATTATCGAAAGCAACGAAACAGATTACTAAAGGAAATTTTGAAGAACGAACGAGTGTTAGCAGCTATGTTGAGGTTGAGGAATTATCCCGCAATTTTAATTTTATGGCTGAACATATTGAAGAAATGATTTCTCAGTTAAAAGAAGCCAATCAAAGACAAGAAACATTTATTGGGAGTATTAGTCATGAATTAAAAACACCACTTACTACCATGATAGGTTATGCAGATATGCTTCGCTCTAAAAAGTTAGATTCAGAACAAACATTTATGGCAGCGAATTATATTTTTCAAGAAGGAAAGCGAATTGAGGAGTTAACAATGAAATTACTCGATTTGTTGGTATTAAAAAAACGAGATATTGAAACAAAACCCATAAAAGCAACTGCCTTTTTCAGCCCCTTGCAACAGTACATGGAACCTATTTTTGAAAAAGAAAATATGGATTTTCATGTGGAAGCAGAAGAAGCTATGATACCTATTGAGCCCGATTTAATGCGAACCGTTTGTACCAATTTACTCGATAATGCAAGAAAAGCAATCGATCATGATCATGGAGAAATTACGCTCCATGGCTTTATCCACCAAAACGACTATCACATCCGTATTTGTGATAATGGAAAAGGTATTCAAACAGATGAAATGGCTAAAATTACCGACGCTTTTTATATGGTTGATAAATCAAGAGCAAGGGTACAAGGAAGTGTGGGTCTAGGACTTGCTATTTGCAGTGAGATTATCCATTTACACAAAGCTGAACTGACATTTGACAGTGAGTTTGGCAAAGGTACTTGTGTGACAGTAATGATTAAAGGTGTGAAGCGATGA MKLFWKIFYSTMIVSVSCFSIGSYILIDSAFQDSIKREATSVFEENDILRYSLQKELREASVSDFYFADEKNKESISNEELLITVASSLTIYESGGELTFRISNQDGHVVYDNFNEDLSNDAVTQVSNQSKGYQVKNVNGKYFLHAMTPLQLHEDLFYIENFREISDIFASKNDQWTMYMYITLLMIGIGAIVMLVTAWLLTKPIYKLSKATKQITKGNFEERTSVSSYVEVEELSRNFNFMAEHIEEMISQLKEANQRQETFIGSISHELKTPLTTMIGYADMLRSKKLDSEQTFMAANYIFQEGKRIEELTMKLLDLLVLKKRDIETKPIKATAFFSPLQQYMEPIFEKENMDFHVEAEEAMIPIEPDLMRTVCTNLLDNARKAIDHDHGEITLHGFIHQNDYHIRICDNGKGIQTDEMAKITDAFYMVDKSRARVQGSVGLGLAICSEIIHLHKAELTFDSEFGKGTCVTVMIKGVKR NA NA NA NA NA AK015_00843 654 walR_3 COG0745 Transcriptional regulatory protein WalR ATGGTTCGAATACTAATCGTTGAAGATGAAAAACCAATATCTGACTTAATAAAAATGAGTCTCGGAGATGCAGGATATGAATGTTTCTGTGCCTATGATGGAGAACAAGCTGCTGATATGATCGAAGCAAATCATTTTGATTTAGCAATTTTAGATATTATGCTCCCCAAAATTAATGGCTATGATTTACTAGAATATATCCAGCCTTACGATATACCAGTCATATTTTTAACTGCCAAATCAGATGTAACGGATAAAGTAAAAGGGTTAAAGCTTGGAGCGGAAGACTACCTAACGAAACCTTTTGAAATCGTAGAATTACTAGCCCGAGTGGAAACTGTTTTACGCAGATATGATAAAAACAAACGATTTATAGAATTGTTTGATATAAAAATAGATACGCTTTCCAGAGTCGTAACCAAATCAGGAAAAACTGTTAATCTAACAGCGAAAGAGTACGACTTGTTATTATTATTTATCAACAATAAAAATATTGCTCTATTTCGGAGTAACATCTCTATGAAAGTATGGGGAGAAGATTTTGTCGGCGAAAGCAGGACGATTGACCTGCACGTACAACGTATGCGACAAAAGCTTGGTTTAAAGGATAAAATCGTAGCAGTCTATAAGGTGGGCTATAGACTGGAGGTATAG MVRILIVEDEKPISDLIKMSLGDAGYECFCAYDGEQAADMIEANHFDLAILDIMLPKINGYDLLEYIQPYDIPVIFLTAKSDVTDKVKGLKLGAEDYLTKPFEIVELLARVETVLRRYDKNKRFIELFDIKIDTLSRVVTKSGKTVNLTAKEYDLLLLFINNKNIALFRSNISMKVWGEDFVGESRTIDLHVQRMRQKLGLKDKIVAVYKVGYRLEV PGPT0002665_1896 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK015_00844 696 tenA_1 COG0819 Aminopyrimidine aminohydrolase ATGCAACAACTATTTACAGATCGTTTATGGAAAAAGGTAGAGCCAATTTGGAAATCCTATTTGGAGCATCCGTTTGTAAAAGGGTTAGGAGAAGGTTGGCTTGATAAGGAAAAGTTCAAGCACTGGATGAAGCAAGACTATGTTTATTTAATAGAATATTCTCGCTTGTTTGCACTAGGAAGCGCGAAAGCACATGATTTATCAACAATGACAACGTTTGCCAATTTACTTCATGGAACCTTGCATATGGAAATGGATTTACATCGTAACTATGCAAGCAAGTTTCGCATAACTGCTGATGAATTAGAAGAAACAGAAGCGGCGGCAACAACGACTGCATACACAAGTTATATGCTAAATGTGGCACAACAAGGTGGCATAGAAAATACAGTCGCCGCCGTACTCGCTTGTGCTTGGAGTTATAATTACATTGGCAAAGCATTGGCAGCCTGGCCAAACGCCTTGGAACATGAATTTTATGGCAATTGGGTACAAATGTATTCCTCCGAAGATTTTACAGCACTGGCTAACGATTGCATTGATTTAATTAATACAATTGCGGAAGATAAACCAGAACACGAGTTAGCCATCTTGGAAGATATCGTTGTGAAAACGAGCTATTTTGAATATATGTTCTGGGACATGGCAGAACATCAAGCCATGTGGCCTGTCCCTGTTGCTGCCCAAAACTTATAA MQQLFTDRLWKKVEPIWKSYLEHPFVKGLGEGWLDKEKFKHWMKQDYVYLIEYSRLFALGSAKAHDLSTMTTFANLLHGTLHMEMDLHRNYASKFRITADELEETEAAATTTAYTSYMLNVAQQGGIENTVAAVLACAWSYNYIGKALAAWPNALEHEFYGNWVQMYSSEDFTALANDCIDLINTIAEDKPEHELAILEDIVVKTSYFEYMFWDMAEHQAMWPVPVAAQNL PGPT0009055_384 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 AK015_00846 687 cutC_1 COG3142 Copper homeostasis protein CutC ATGCTTTTAGAAGTTATTGCTACGAACTTAACGGATGTGATAGAAGCAGAGCAGTATGGAGCAGATCGGATTGAACTTAGCCCTGCGATGGCAGAAATAGGGCTTACACCAAGTTACGGTTTACTAAAAAAAGCGGTTGAAGCTGTCCATCTGCCTATAAATGTCATGGTTCGTCCGCATAGTCAATCATTTGTATACAACAAATACGATATAGACACGATGAAGGAAGATATAGATCTGATTAAAAAGATGGGTGCAAACGGTATCGTTATAGGGGCATTGACTGCTGAAAAAACAGTTGATGAGGAAGTGTTGAAACAGCTATTAGATGTGGCTGATGATTTAGAAGTAACTTTTCATCGGGCGTTTGATTTTGCTCGTGACCAAGAAGAAGCGTTAGCATGCTTGGCACAATATAAGCAAATAACGACAGTGTTAACTGCAGGAGGTAACTATAAAGCACCTGATGCAATTCCGCAGCTACAACGATTGATTCATTTGGCTGCGGATACACATGTAAATATGATGGTGGGGCATGGTTTAAAGCCAGCAACCTTTGCTGATGTATACGAGCAAGTGAAACCCCATGCATTCCACTTTGGTTCTGGCGCTAGAAGGAACGATTCATTCGCATATAAACTGGATCGCAGCAAGATACAACAAATAAAAAATATACTCCAAAAATAA MLLEVIATNLTDVIEAEQYGADRIELSPAMAEIGLTPSYGLLKKAVEAVHLPINVMVRPHSQSFVYNKYDIDTMKEDIDLIKKMGANGIVIGALTAEKTVDEEVLKQLLDVADDLEVTFHRAFDFARDQEEALACLAQYKQITTVLTAGGNYKAPDAIPQLQRLIHLAADTHVNMMVGHGLKPATFADVYEQVKPHAFHFGSGARRNDSFAYKLDRSKIQQIKNILQK PGPT0004085_1656 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201 NA NA AK015_00847 141 hypothetical protein ATGCATTATTTTTTTGATTGCGAAAATTCCTTTAAATTAAATGATTTTATTGATTTATTCAGAAAAATAGAATATAATACAATAACAACAATTGATGAAAAATTAAGTAAACTATGTATATTTTTTATCTATATTCTATAG MHYFFDCENSFKLNDFIDLFRKIEYNTITTIDEKLSKLCIFFIYIL NA NA NA NA NA AK015_00848 1020 oppD_3 COG0444 Oligopeptide transport ATP-binding protein OppD ATGAACAACAAATTATTAGAAATTAAAAATTTAAAAACATCTTTTAGAATAGATGACAATTATTATGCTGCAGTAGATGATGTTTCTTTATCTGTTAATAAGAATGAGACATTGGCCATTGTAGGAGAATCTGGTTCTGGGAAAAGTGCCCTAGCTTTTTCTGTTATGGGGTTACATACGAAAGCAAAAATAGAAGGAAATATTTATGTTAAAGGACAAGACATTGTAAATATACCAGCAAGTAATTTAAATAAGCTACGAGGAAATCATATGTCTATGATTTTTCAAGACCCGTTAACAGCGTTAAATCCGTTGATGACGGTGGAAGATCAAATTGGGGAAGCTTTATTATTACATAATCGACAGTTATCGAAAACGAAACGAAAAGAACGAGTGATTCACTTGTTAAATCAAGTTGGTATTCCTCGTCCGGAGTACACTTGTGAACAGTATCCACATCAATTATCTGGTGGTATGAGGCAGCGAGTGATGATTGCCATCGCTATTGCCAATAAACCAGAACTACTCATTGCTGATGAGCCTACTACAGCGCTTGATGTAACGATTCAAGCCCAAATACTTGGGTTAATGAATGATTTAAAAGAACAAATGAATACAGGTGTTATTTTAATTACCCATGATTTAGGTGTTGTCGCTGAAATGGCGGATCGTGTAGCCGTTATGTATGCAGGGCAAATTGTAGAGATAGCGGATGTTTATACGTTATTTCAAAAACCGCTTCATCCATACACGAGATCCCTATTAAATTCCATTCCGGGAGAAGATAGTATGCATGACAAACTCCATGTCATTCAAGGGATTGTTCCGTCCTTGCAAAATCTTCCACGAGAAGGGTGCCGATTTAAAGCACGAATTCCTTGGGTTAGTGAGGATGCACATGAAGAAGCTCCTGAGCTACATGAAGTGGATACAGGTCATTTCGTACGCTGTACTTGCTACAAACATTTTTATTTCCCTGAAGAAAAGATAGAGGAGGGATCAATTCATGGCGCTTCTTGA MNNKLLEIKNLKTSFRIDDNYYAAVDDVSLSVNKNETLAIVGESGSGKSALAFSVMGLHTKAKIEGNIYVKGQDIVNIPASNLNKLRGNHMSMIFQDPLTALNPLMTVEDQIGEALLLHNRQLSKTKRKERVIHLLNQVGIPRPEYTCEQYPHQLSGGMRQRVMIAIAIANKPELLIADEPTTALDVTIQAQILGLMNDLKEQMNTGVILITHDLGVVAEMADRVAVMYAGQIVEIADVYTLFQKPLHPYTRSLLNSIPGEDSMHDKLHVIQGIVPSLQNLPREGCRFKARIPWVSEDAHEEAPELHEVDTGHFVRCTCYKHFYFPEEKIEEGSIHGAS PGPT0004435_8397 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 AK015_00849 933 oppF_3 COG4608 Oligopeptide transport ATP-binding protein OppF ATGGCGCTTCTTGAGGTGACCAATTTAAAGGTCCATTTTCCCATTCGAGGGGGAATCTTAAATCGCAAAATAGGCGCGATAAAAGCTGTTGATGGCGTATCTTTTTCCATTGAAAGAGGGAAAACGTATGGTCTTGTAGGAGAGTCTGGTTCTGGAAAAACAACAACCGGAAAAGCGATTATCGGTTTAAATCATATTACTTCAGGAACGGTGAAGTTTGATGGTGTAGATTTAACGGGATTTACATCTAAAAAGTCTGACATTCGTAAAGATATTCAAATGATTTTCCAAGATCCTTATTCTTCGCTAAATGGCAGAAAACGAGTACTCGATATCATCGCAGAGCCGTTGCGAAACTTTGAAAACTTAACGAAAACAGAAGAAAAGAAACGTGTACAAGAATTGCTTGAACAAGTAGGATTAAGCCCTGAAAGTATTTTAAAATACCCGCATCAATTCTCCGGTGGACAACGGCAACGGATTGGCATTGCAAGAGCAATTGCCTTAAAGCCAAAACTGATTATTGCCGATGAGCCTGTTTCTGCATTAGATGTTTCGGTTCAGGCACAAGTCCTTAACTTTATGCAAGATATTCAAAAGGATTTAAATTTGACGTACTTATTTATAAGCCACGATTTAGGCATCGTAAAGCATATGTGTGATGAGATTGGCATTATGTATAAGGGGCGATATGTGGAAGAAGGAGTAAAAGAAAGAATTTTTAATCAACCGCAACATATCTATACGAAACGCCTAGTAGCAGCTATTCCAGATATTAATCCTGTTAACCGTATACAACAAAAAGAATTTCGAGCTGAAGTAGAGAAAGAGTATCAGACAAATTATAACAATTATTTTAATCAAGAAGGTTTGGCGTATCCGTTACGACAGATATCTGACTCCCATTTAGTAGCCTTACCGCAGAAAGGTTGA MALLEVTNLKVHFPIRGGILNRKIGAIKAVDGVSFSIERGKTYGLVGESGSGKTTTGKAIIGLNHITSGTVKFDGVDLTGFTSKKSDIRKDIQMIFQDPYSSLNGRKRVLDIIAEPLRNFENLTKTEEKKRVQELLEQVGLSPESILKYPHQFSGGQRQRIGIARAIALKPKLIIADEPVSALDVSVQAQVLNFMQDIQKDLNLTYLFISHDLGIVKHMCDEIGIMYKGRYVEEGVKERIFNQPQHIYTKRLVAAIPDINPVNRIQQKEFRAEVEKEYQTNYNNYFNQEGLAYPLRQISDSHLVALPQKG PGPT0004440_8522 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 AK015_00850 963 gsiC_2 COG0601 Glutathione transport system permease protein GsiC ATGTGGAAATTTATTGTTAGACGACTGTTAATTACCATGCCACAAGTTGTTTTGCTAAGTATTTTAGTATTTATTATGGCGCAATTTATGCCAGGTGATGCATTGTCGGGATTAATTGATCCAAATATTGATCCAGCAGCGATTGAAGAGCAGCGGCAGAAGCTAGGATTAAATGACCCTTGGTATAAACAATATACAGATTGGGTGACGTCAGCAATACAAGGTGATTTGGGACAATCCTTTCGCTTTAAAATGCCGGTAACGGAATTAATTGGACAAAGGCTTGTAAATACTTTTTGGCTAGGTTTAGCAACCTTAATTTTTACATATATCATTGCAATTCCTTTAGGTATTACTAGTGGGCGCTATAATGATACATTACGTGATCAAATGATTACTGGATATACGTATATCGGATTTGCGACTCCATTATTTATTTTTGCATTAGTGATGCTCTGGGTGTTCGGTTATAGTTTGGGTTGGTTCCCAACCGGTGGAAGTGTAGAACCAGGGTTAGAGCCAGGATCATTTCCATATATTATGAGTAAAATGAATCATATAATCCTACCAGCACTCGCTATGGCGTTAATTACTACCGTAAATACGGTGCAGTATTTACGCAGTGAAATTATTGATACAAAGCAGAAAGATTTTGTCATTACGGCAAGAGCAAAAGGTGCTTCTGAGTCACGAGTTTATCGCCGGCATATTTTCCGCAATTCCTTATTACCGGTTGCTGCTTATTTCGGTTTTGAAATAACAGGTTTAATCGGTGGAACTATATTTATTGAAACCATTTTCAGCTATCCGGGTATGGGGTTATTATTTATGGAATCTGTGCTACAACGGGATTACAGTGTGGTGACGTCCGTTGTCCTGTTATTTGGAATCGCATCTATTTTAGGCGCATTATTATCAGACATTATTTTAAGTCTCGTAGATCCGCGTATTCGAATAAAATAA MWKFIVRRLLITMPQVVLLSILVFIMAQFMPGDALSGLIDPNIDPAAIEEQRQKLGLNDPWYKQYTDWVTSAIQGDLGQSFRFKMPVTELIGQRLVNTFWLGLATLIFTYIIAIPLGITSGRYNDTLRDQMITGYTYIGFATPLFIFALVMLWVFGYSLGWFPTGGSVEPGLEPGSFPYIMSKMNHIILPALAMALITTVNTVQYLRSEIIDTKQKDFVITARAKGASESRVYRRHIFRNSLLPVAAYFGFEITGLIGGTIFIETIFSYPGMGLLFMESVLQRDYSVVTSVVLLFGIASILGALLSDIILSLVDPRIRIK PGPT0004445_8569 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 AK015_00851 903 dppC_1 COG1173 Dipeptide transport system permease protein DppC TTGAACTATACAGAAATAGAGTCCATTGTGACGAACGAAGAAAAAGTGCCATCTTTAGCGAAAATAATCTGGCGAGAAATTGTTCGAGATAAAGTCGCTCTTATTTCTTTAATATTTCTTATTCTCATTACAAGCTTTGTATATGGAGTATCTATATTTTTAAACCAGGAAGAAATTGTAAGGGTAGATTTGTTTGCCATTAATGAACCGCCTTCAGAGGAATTTTGGTTAGGTACCGATTATGGGGGAAGAGACATTTTTGGACAGCTCATTATTGGAACGCGCAATTCCTTATCAATTGGAATTTTAGTGACGCTTATGACAGGAATCATCGGTATTACTTACGGACTTGTATCTGGTTATTTTGGTGGATCAGTCGATAATATTATGATGCGTATTGTTGATTTCTTTTTGATTTTGCCATTTTTAATGATCGTTATTGTGTTTGTTGCGATTGTGCCTAAATATAGCATATGGTCTTTCTCGTTAATTATGACAGCATTCCTCTGGATGGGGAAAGCTAGGTTAATTCGTTCAAAGGCGTTACAAGAGCGAGAACTTGATTATGCACAGGCCTCCAAAACGTTAGGAACTCCGAACTGGAAGATTATGTTTTTCCAAGTTTTGCCGAATTTAAGTTCGTTAATTATTGTGACGATGACGTTAAACTTGGCTGCGAATATCGGTTTAGAGTCTGGATTGTCCTTTTTAGGGTTTGGTTTTCCAGAATCCACTCCAAGTCTTGGAACACTGCTTGGCTATGCAAGAAATCCACAAACTTTGGAAATAAGATGGTGGATTTGGGTACCAGCAGCAATTATGGTTTTCTTACTAATGTTAGCTGTTCGAAACGTTGGCGAAGCCTTAAAGCGTGCTTCAGATGCAAGGCAGCGAAGAGGGTAA MNYTEIESIVTNEEKVPSLAKIIWREIVRDKVALISLIFLILITSFVYGVSIFLNQEEIVRVDLFAINEPPSEEFWLGTDYGGRDIFGQLIIGTRNSLSIGILVTLMTGIIGITYGLVSGYFGGSVDNIMMRIVDFFLILPFLMIVIVFVAIVPKYSIWSFSLIMTAFLWMGKARLIRSKALQERELDYAQASKTLGTPNWKIMFFQVLPNLSSLIIVTMTLNLAANIGLESGLSFLGFGFPESTPSLGTLLGYARNPQTLEIRWWIWVPAAIMVFLLMLAVRNVGEALKRASDARQRRG PGPT0004450_7614 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 AK015_00852 1833 appA_2 Oligopeptide-binding protein AppA ATGAAAAGAAGTAGTTGGCGCATACTATTGTTTGCTATTATGTTAGGTTTTGTCTTTGTGCTAGCAGCATGTAATAGTGGCGAAGAGAGTAAAGGAGATAAAGGTGAAAAATCTGAAGAAAAGGGGGAAAAGTCGGAAGAGAGTGGCGAAAAGATCTATTCCATTGAGGATTTTAGTGTAGAAACTACCAACGAAGGTGAAGCTATCGAAGGTGGACATTTCAAATACGGTGTTGTTACCGATACAGCATTCGAGGGATTGTTAAACTATAACTTTTATTCAGGTGTACCTGACAGTGAAATAATTAAGTGGTTTGATGACTCCTTATTATCGGCTGATGAAACGCATAATTATACACAAGATGGTGCTGCAACGTTCGAAGTAGATGATAGTGGAAAAGTATTTACTTTTACAATTCGAGATAACGTAAATTGGCATGATGGAGAGCCTGTTACTGCAGAAGATTGGTTATTTGCATATGAAATTATAGCTGATCCTGACTATACAGGGGTACGCTATGGTGCAGATTTCACCGTAATTGAAGGTGTAGAGGAATACCGGAATGGTGAGGCCGATTCTATTTCTGGAATTGAAGTAGTCGGTGATAAAACATTGAAAATTACTTATAAGCAGGCTTCTCCTTCTCTACTAAGTGGAGGTATTTGGCCGTATGCTCTACCTAAGCATGTCTTTAAAGATATCCCTGTAGCTGAAATGGCAGAGTCAGATGCAGTCCGAAAGAATCCAATTGGTTTTGGTCCATTTAAAGTAGACAGCATTACACCAGGGGAAGCGGTTGTGCTTACCAAAAATGAAGATTATTGGCAAGGTGAACCGAAGTTAGATAAAGTTACTGTTCAGGTAGTCAATCCGAAAACCGTTGTTCAGGCACTAGAGACGGGAGAAGTAGATGCTGTAGACAGTTTTCCTACTGACCAATACCCAGATAATGCAGATATGGCAAATGTAGAGTTCTTAGGCAATACGGATATGGCTTATACCTATATTGGCTTTAAATTAGGAACATGGGATAAAGAGAAAAAAGAAGTGAAACCTGATCCAAATAAAAAAATGGCAGATGTGAATCTTCGCAAAGCAATGTGGCATGCGGTTGATAACAATGCAGTTGGCGAACAATTTTATAATGGATTACGCTGGAATGCAACAACATTGATACCGCCATCACACCCAAATTTTCATGATACCGAAAACCCTGGTATAGCTTATGATCCAGAAGAAGCGAAAAAAATTCTAGATGAAGCAGGTTATGAGGATACCAATGGAGACGGTATGCGGGAAAATCCAGATGGAGAAGAGTTAGTCATTAACTTTGCTTCTATGTCTGGAGGAGATGTAGCTGAACCAATTGCTAATTATTACATTCAAGCTTGGGAGAAAGTCGGTTTAAACGTCCAGTTAGTTGATGGTCGCTTACTTGAGTTTAACTCGTTTTACGATCGAGTAGGTCAAAGCGGCGATGACGATCCAGCTATAGATATTTTTCAAGGTGCTTGGAGTGTCGGAACAGATGTGAATCCAGCAGGCCTATACGGGCGTGATGCGCTATTTAACTTCTCTCGTTATGCAAGTGAAGAAAATGATGAGCTGCTAGCAGATGGAGTGTCTGAAGAAGCAATGGAATTAGAATACCGTCAAAAAGTATATAAAGATTGGCAACAATTGATGTTGGAAGAGGTTCCAGTCTTCCCTACCGTCTATCGTGCAATCTTATCTCCTGTTAATAACCGAGTAATGAATTATTCAATACAGTATAATTGGGGAGATTTACATGAGATTGCTGTAACTCAAGAAGAAACGGAAAAAGCTGAGTAA MKRSSWRILLFAIMLGFVFVLAACNSGEESKGDKGEKSEEKGEKSEESGEKIYSIEDFSVETTNEGEAIEGGHFKYGVVTDTAFEGLLNYNFYSGVPDSEIIKWFDDSLLSADETHNYTQDGAATFEVDDSGKVFTFTIRDNVNWHDGEPVTAEDWLFAYEIIADPDYTGVRYGADFTVIEGVEEYRNGEADSISGIEVVGDKTLKITYKQASPSLLSGGIWPYALPKHVFKDIPVAEMAESDAVRKNPIGFGPFKVDSITPGEAVVLTKNEDYWQGEPKLDKVTVQVVNPKTVVQALETGEVDAVDSFPTDQYPDNADMANVEFLGNTDMAYTYIGFKLGTWDKEKKEVKPDPNKKMADVNLRKAMWHAVDNNAVGEQFYNGLRWNATTLIPPSHPNFHDTENPGIAYDPEEAKKILDEAGYEDTNGDGMRENPDGEELVINFASMSGGDVAEPIANYYIQAWEKVGLNVQLVDGRLLEFNSFYDRVGQSGDDDPAIDIFQGAWSVGTDVNPAGLYGRDALFNFSRYASEENDELLADGVSEEAMELEYRQKVYKDWQQLMLEEVPVFPTVYRAILSPVNNRVMNYSIQYNWGDLHEIAVTQEETEKAE PGPT0004430_1666 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 AK015_00853 1092 NADH oxidase ATGAATAAATTGTTTGAACAAGGGTATCTCGGAACATATGTGTTAAAGAATCGCTATATTTTAGCCCCAATGACAAGAGTAAGCTCTGAAGCAGATGGAACACCGAATGAGCGCGTTCAGCGTTATTATGAACGATATGCTAAAGGTGGCTTCGCCGTTGTCATTACAGAAGGCGTTTATCCTGACACGAAATATAGTCAAGCATATGAATTTCAAGGAGGCTTAGCCACGGAAAAGCATGCTACGCATTGGAAGCCAATTGTAGAAAGTGTACAATCCCATGGAGCGTTGATGATTGCGCAATTGATGCATGGTGGAGCTCAAACGCAAGGGAATTTTTATACAAATGTTACCGTAGCACCATCGCCGTTTACTCCTCCAAGTGATAAGGCAGAAATCTATGGTGGTAGCGGTCGGTATCCAGAAGCAAAGGAATTAACCCTTCATGAAATTGAAGAAGTGAAACAGGGCTTTGTTCAATCCGCGAAGTATGCAAAGAAGGCTGGGTTTGATGGAGTCGAATTACATGGAGCAAATGGTTACTTACTTGATGAATTTTTATCAGCAAATATTAATCAGAGAAATGATCAGTATGGAGGTAGTGTAGAAAATCGAGTTCTACTGTTAAAGGAACTTATAGCTGATGTGAAAGAAGCAGTTGGCGGGACAATGATTGTAGGAATTCGTATTTCTCAACTAAAAGCTACCGATAAAAGCTATACATGGTCTGGTGGAGAGGAAGAAGCATCAATCATCTTTTCTGAACTAGGAAAAACGGATGTCGACTATATTCATATTTCCGATGATGATGCAATGACACCTGGATTTGGTGAAGGAACAATGACGATGTCAGAGGTAGCGAAAAAATATGCTGGGAAGCCGGTTATTGCTTGCGGACGTTTAGGCGATCCGGAAAAAGCAGAAGCAGTTATCGAGCAAGGAAAGGCTGATTTTATAGCTATTGCTCGTCAAGCGTTAGCGAACCCTGATACTCCAAATCGGGTGAAAAATGGGGAAGAGCTACAAGCATTTGATGGAAAAGCAATATTGACACCAAAAGCATACGTAAAAGATTTTGAATTAGAAATGTAA MNKLFEQGYLGTYVLKNRYILAPMTRVSSEADGTPNERVQRYYERYAKGGFAVVITEGVYPDTKYSQAYEFQGGLATEKHATHWKPIVESVQSHGALMIAQLMHGGAQTQGNFYTNVTVAPSPFTPPSDKAEIYGGSGRYPEAKELTLHEIEEVKQGFVQSAKYAKKAGFDGVELHGANGYLLDEFLSANINQRNDQYGGSVENRVLLLKELIADVKEAVGGTMIVGIRISQLKATDKSYTWSGGEEEASIIFSELGKTDVDYIHISDDDAMTPGFGEGTMTMSEVAKKYAGKPVIACGRLGDPEKAEAVIEQGKADFIAIARQALANPDTPNRVKNGEELQAFDGKAILTPKAYVKDFELEM NA NA NA NA NA AK015_00854 537 hypothetical protein ATGAGAAATGTAACATTAGAAACCGTGTTCCTACATCCTGTTACACAGCGTTATTTAAAACGTTCAGGTATAGCTCATGCAATTGCGGTTGCGGAATATGCATTTGATCTTGCCAAGCAGTATCATGTAAACCGTGATCATGCTACGAAGGCGGCTCTCTTGCATGATGTAGGGCATTATACGTGGTATACAGAAGGAAAATGGGATTATGACAAATATCGAAAAAATGATATTCATGCAATTAAAGGTGCTAGCCGTGCGCATAAATTACTCATTCGCATTGGCGAGGACCCTCAAGTAGCTAAAGAAATAGCTGTAGCTATATTGTTGCATACGGATTCTTACTTGCCGAATGGCGAATTACAATTAAAACCATTACAGCAAGTTGTACACTTGGCAGATGAAGCTGATGAAGAAACTGGTGGGAACCATCATTACAAGCGCATTGATGACGAATCGGCCTTAGAGCGAATTCAGTTGTTAGATCAAAAGATCACGCAATGGTTAAGCATGAACGAGATGAAACATATTATCTAA MRNVTLETVFLHPVTQRYLKRSGIAHAIAVAEYAFDLAKQYHVNRDHATKAALLHDVGHYTWYTEGKWDYDKYRKNDIHAIKGASRAHKLLIRIGEDPQVAKEIAVAILLHTDSYLPNGELQLKPLQQVVHLADEADEETGGNHHYKRIDDESALERIQLLDQKITQWLSMNEMKHII NA NA NA NA NA AK015_00855 1128 bioB Biotin synthase GTGCCGTTTTTATTACGTGCATTCTTGACAATAGTTTATAAAAACTTTATTGTTAACCTATATAAATATATGTTTACAATTTTGTTTTTTAGGATTTCTTCATCAAAATATTTAGGAGAGGATGAAACAGAGAATATGATAGACTTTCAATCTTTAGCAAAGGCTGTTTTGGAAGGATACCAGATAACAGAAGGAGAAAGTTTAGCCATTTTAGATTGCCGTGACGAAGCTATACTTCCATTACTACATAGTGCTTACGTGATTAGAAAGCATTACTACGGTAATAAAGTAAAACTTAATATGATTATTAATACAAAATCAGGAGCTTGCTCAGAAAATTGCGGCTATTGCGCGCAATCTCGTGATTCAACAAATCCAATTGAAAAATACAAAATGATGGACAAAGATTCGATTGTAAAAGGAGCAGAACGAGCTAGTCAATTGTATGCAGGCACATATTGTATTGTTGCGAGCGGACGTGGTCCTACAGATAGAGAATTGAACCATGTTATTGGTGCTGTCAAAGAAATTAAAGCCAAGTATGATTTAAAAATTTGCGCTTGCCTTGGTATTTTAAAACCTGGGCAGGCAGAACAGTTAAAAGAAGCAGGAGTAGACAGATATAACCACAATATTAATACATCAAAAGCTCACCATGCTACGATAACTACTAGCCATACTTACGATGATCGTGTACAAACTGTAAACAAAGTAAAGGAAGCGCGTATCTCTCCTTGCTCAGGCATCATTGTCGGAATGAAAGAAACGAAACAAGATGTTATACAGATGGCATTTGCCTTACAAGAACTAAAGGCTGCTTCTATTCCTGTGAATTTTTTACACGCAATGGAAGGAACCCTTTTAGAAGGTACAGATGAGCTTACGCCTCTCTACTGCTTAAAAGTTCTATGCCTATTTCGTTTTACAAACCCCCAAGCAGAAATTAGAGTTTCCGGAGGACGGGAAGTTAATTTAAGAAGCTTGCAACCGCTTAGCTTATACCCAGCCAATTCTATATTTATAGGAGACTATCTCACAACTACTGGACAAGTGGCAAAAAAAGATTATCAAATGCTTAAAGATCTTGGCTTTGAAATTGATGATGTGAATTCCGAAGTACCCGTCTAA MPFLLRAFLTIVYKNFIVNLYKYMFTILFFRISSSKYLGEDETENMIDFQSLAKAVLEGYQITEGESLAILDCRDEAILPLLHSAYVIRKHYYGNKVKLNMIINTKSGACSENCGYCAQSRDSTNPIEKYKMMDKDSIVKGAERASQLYAGTYCIVASGRGPTDRELNHVIGAVKEIKAKYDLKICACLGILKPGQAEQLKEAGVDRYNHNINTSKAHHATITTSHTYDDRVQTVNKVKEARISPCSGIIVGMKETKQDVIQMAFALQELKAASIPVNFLHAMEGTLLEGTDELTPLYCLKVLCLFRFTNPQAEIRVSGGREVNLRSLQPLSLYPANSIFIGDYLTTTGQVAKKDYQMLKDLGFEIDDVNSEVPV PGPT0022120_432 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012 NA NA AK015_00856 1245 gltP_1 COG1301 Proton/glutamate-aspartate symporter ATGAGTTTAACCAAAAAAATATTACTTGCCTTACTATTAGGAATTTTCGCTGGAATAGGTTTAACTTTTGCTCCTGCAGAAGTTTTTACGCCTATTGATACGTATGTATTAAATCCTGTTGGAGAAATATTTTTAAACTTAATTATGATGATAGTTGTTCCAATTGTTTTTGTTTCGATTGTGCTCGGAACAGTTGGATTAGGTGACCCTTCTAAATTAGGAAGAATTGGGGTACAGACGATTAGTTTTTATTTAGTAACGACAGCAATAGCGCTAGTAATTGGATTAGGAGTTGGATTAGTACTAGAGCCAGGTGAAGGAGGGAATTTCTCCATAGATGATGCTTCCTATGAAGAACAAGCAGCGCCACCGATTATGGATACGCTTGTGCAAATTATTCCTGAAAATCCAGTAGAAGCACTATCAACAGGAAATATGTTGCAAATTATTGCAGTCGCCATTTTTGTTGGAGTTGCACTAGCTATGTTGGGAGAAAAAACGAGTGGAATTAGAAATTTATTTGAGCAGGCCAATGACATATTAATTTTTCTTGTGAATGCGATTATGAAAACAGCTCCTTATGGGGCGTTCGCTTTAATTGCATCAGCAATTGGAGAAGCTGGTTTAGATGCAATAGGTTCCATGTTTATGTATATGTTGGCAGTTATTTTGGCTCTTGTTTTACACGGAGTAATTACGTACAGTATTGCTATTAAAACGTTAGGAAAAGCAAGCCCATTAAAATTTTATAAGGCGTTTTTCCCGGCAATGTCCGTTGCTTTTAGTACATCCAGTTCCAGTGCAACACTACCAGTATCTATGAAAATAGCGCAGGAAAAACTCGGTGTAAAAAAATCGATCAGTAGTTTTGTTCAGCCATTAGGTGCGACAATTAATATGGATGGAACTGCAATTATGCAAGCAGTTGCTACGGTTTTTATTGCGCAAGTTTATGCAGAACCGCTGGGCTTAAGTCAAATGCTAATGGTTGTGTTAACAGCTACACTAGCAAGTATCGGAACAGCAGGAGTCCCTGGGGTAGGGCTGATTATGTTAGCGATGGTGTTAAAACAAGTAGGTTTACCAGTAGATGGAATTGCTTTAATTATCGGGGTAGATCGGTTGCTAGATATGATACGAACATCGTTAAATATTACGGGTGATGCAGCGTGTGCGTATATCATTTCGGAAGATGATAAACGGAAAAATGGTATAGATGAGGAACAAACGGAACAAACAGCATAA MSLTKKILLALLLGIFAGIGLTFAPAEVFTPIDTYVLNPVGEIFLNLIMMIVVPIVFVSIVLGTVGLGDPSKLGRIGVQTISFYLVTTAIALVIGLGVGLVLEPGEGGNFSIDDASYEEQAAPPIMDTLVQIIPENPVEALSTGNMLQIIAVAIFVGVALAMLGEKTSGIRNLFEQANDILIFLVNAIMKTAPYGAFALIASAIGEAGLDAIGSMFMYMLAVILALVLHGVITYSIAIKTLGKASPLKFYKAFFPAMSVAFSTSSSSATLPVSMKIAQEKLGVKKSISSFVQPLGATINMDGTAIMQAVATVFIAQVYAEPLGLSQMLMVVLTATLASIGTAGVPGVGLIMLAMVLKQVGLPVDGIALIIGVDRLLDMIRTSLNITGDAACAYIISEDDKRKNGIDEEQTEQTA PGPT0013965_20 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0013965-TC_DAACS-K03309 NA NA AK015_00857 1200 hypothetical protein TTGGACAATAAAGTAGTGTATACATTTCAATATAAAAATCCTACCTCAGCTAACGTGTATTTATGGTTAGCAACCCCACCAGATACGAAACATCAGCAGGTTATTAACGAAAAGAAAACGCCTCCTTGTCAAAAAAATGAAGATACAATTGGGAATAAAATTAGCTTTTATGAAATCAAACCCAACGAAACCATAAAAGCTTCTTATAAAATACAATTGTTAAACAATACGGAAGATACTTTGCCCGAATTAACACAAGAAGAAAAAAATTATTATTTAAGATCCACACCTATGGTTTGCGTAAACGAAAAAGTAAGGGACATTGCTTCCCACGTTACTAAAGGGGTGGAAAATCCAAAAGAGCAAGCCAAGCTACTATTTTTTTATATTGTCAAAAATTATAAATATAAATTCCCCCCAAAAGCTAGAGGAGTTACCCATTTCCTCAAAAGTAAGAAAGGAGATTGTGGTGAATTTTCTTTTTTATTTGCAGCGCTTTGTCGTGCAATTGGAATTCCTTGTCGTATCATGGTGGGAGCATTTACAGGTGGACAGCATCGAGCGCATGTATGGAATGAAATTTACCTCGAACAAGAGGGTTGGATACCCGTTGATACAAGTATGGCTGCTACAGTAAAAAGACAGCTATGGAGATATTTTTTCTCTCCATTTCAAACTTTGTTTTGGAAAACATATTTCGGAAAAACGGAGCATCAACGAATTGTTTTTTCTATTGACACAGAACACCAGCCTGTACCAGCTTACCCAAATGCTATTGTGCAGAATAAACAACCATATAGCCCATTTGATATAGCAGGCGAGCCATTTATTTGGGGGAAAGATTTAGTTCAGAATAAAATACCCTACTTCCAACCTATGTACCTATATTATGAAGATCAGAAACCCTTGAAAGATAGAACGGAAAATTTTCTTGGCCTATGGAATGTTCAGGAAACTGGAAAACAAAAATTAACACTTCTAGTTAGATCAATATCAGGATATATTGCTCTTCTATTTGCCATATTTTATTTTTCCACTAACTGGGATCTGTTAAGTATTCTGTTTCCATTTCCCGCGTTTTTGTTTTGTCTATCTTTCGTTATAAGAAAAGAAAGGGTGCTTTTCTTCTCGTTCGCAACCGTTTTTTTTGGAATTATTATGCTTTTAGTCAGTATGGGCGCAATATCTACCATTTTATAA MDNKVVYTFQYKNPTSANVYLWLATPPDTKHQQVINEKKTPPCQKNEDTIGNKISFYEIKPNETIKASYKIQLLNNTEDTLPELTQEEKNYYLRSTPMVCVNEKVRDIASHVTKGVENPKEQAKLLFFYIVKNYKYKFPPKARGVTHFLKSKKGDCGEFSFLFAALCRAIGIPCRIMVGAFTGGQHRAHVWNEIYLEQEGWIPVDTSMAATVKRQLWRYFFSPFQTLFWKTYFGKTEHQRIVFSIDTEHQPVPAYPNAIVQNKQPYSPFDIAGEPFIWGKDLVQNKIPYFQPMYLYYEDQKPLKDRTENFLGLWNVQETGKQKLTLLVRSISGYIALLFAIFYFSTNWDLLSILFPFPAFLFCLSFVIRKERVLFFSFATVFFGIIMLLVSMGAISTIL NA NA NA NA NA AK015_00858 411 hypothetical protein ATGTTGAACAGGCCTAATAAAAAAAACAATGTCCTTGTTTTTTATGATACTTGGTGTCCTATTTGTACAAAAAGTATGAAAACACTAGCAAGATTAGATTGTTTTCGTCGTCTTCAATATGAATCTACTAGAAACAAGGCTGTTCTAAATGAGTACAGTTTAAATTATGAAAAATTGGAAAAACGAATGCACACTATTCGATTAAAAGATGGTAAAATAGAAGAAGGTATAGATAGTATATTTCGTATAGTTAAACAAATTCCCCTTTTATGGATAGCTGTTCCCTTTCTTCAACTATCTATATGGATAGGAGTAGGATCCAAAATATATGACTGGTTGGCAAGTAAACGAAAAATACTTCCCGTTGGGGGCTGTGAAGGTGATTTTTGTAGACTTCCCGACAGAAGCTAA MLNRPNKKNNVLVFYDTWCPICTKSMKTLARLDCFRRLQYESTRNKAVLNEYSLNYEKLEKRMHTIRLKDGKIEEGIDSIFRIVKQIPLLWIAVPFLQLSIWIGVGSKIYDWLASKRKILPVGGCEGDFCRLPDRS NA NA NA NA NA AK015_00859 963 hypothetical protein TTGAATACTATTTACAATAAGCTAACTACACAAAAACATATGTTAATCGGCGCTAGTTTAATCAGAATTGCTTTTGGTCTATTAATTTTATATTTTTATTTTATTCATTATGGACAACGACGATTTCTGTGGGGTCCAAATGGCATGCAGGAGCACGAGACTTTTACGCAAAATCTAATCACCACTAGCAATTTTTCTTTGTATCAATTAAATGATTCTATCTTGTACTTTGAAATCATTTTTCATATGGGCATTGTAGTCGCTTTGCTCTTTACCTTAGGTTTCATGGGTCGACTAACAGCCATCTTAAATTTTGTTTTTATTTGGTCTTTACAACATGTAAATGTTTTAATTCTAGACGGTGGAGACAATGTAATGAGAATCATTCTGTTTTATTTGTTATTTGCAAATACGACAGCATTTTTTTCATTGGATCGTTATAGGAGAAAAGAGAAAATACCTAGTAGCATCACGGCAACCCCGATATCCAATAGCTTTCATAATTTAGCTATTCTTGCCTCCATTATACAAGTTTCCTTTATGTACTTAACTTCTGGTATGCATAAAATCATGGGAGAGGTATGGCAAAATGGGACAGCGCTTTACTATATCTTGCAGGTCGATGAGTATACGCATCCATTTTTCAAGGAATTCATTTTATCATCTAACATTCTCTTGCTAATTGGCGCATATGGAGCTATTTTTGCACAAATAACCTACCCATTTTTATTATTTAACCGTTATACCAAATATATTGCCATTTTTAATATTATCGCTATGCACGTCGGAATTGCCATTGTCATGGGTTTGTTTACTTTTTCTGCTACAATGATCTCCATACAACTGCTTTTACTAAAAGATAAAGAGTATGCTTGGGCATATGCTATCATCAAAAATCTATCATCCAAGTGGAAACTAAGAAAGGGGAGAAAGTATGAGGCTGAGCATGTTGAACAGGCCTAA MNTIYNKLTTQKHMLIGASLIRIAFGLLILYFYFIHYGQRRFLWGPNGMQEHETFTQNLITTSNFSLYQLNDSILYFEIIFHMGIVVALLFTLGFMGRLTAILNFVFIWSLQHVNVLILDGGDNVMRIILFYLLFANTTAFFSLDRYRRKEKIPSSITATPISNSFHNLAILASIIQVSFMYLTSGMHKIMGEVWQNGTALYYILQVDEYTHPFFKEFILSSNILLLIGAYGAIFAQITYPFLLFNRYTKYIAIFNIIAMHVGIAIVMGLFTFSATMISIQLLLLKDKEYAWAYAIIKNLSSKWKLRKGRKYEAEHVEQA NA NA NA NA NA AK015_00860 654 hypothetical protein ATGTTAAAAAAAGTAATCATTCTATTTTCGGCTTTTTTGTTTTTTATACATTTTATGTTTACCGCTATTTATTTAGCTCCTTTTAATCCAGTAAAAGCCAAATATGGGTTTATTGTAAATGCCTATATGGAGCCTTTATTTTCACAAAACTGGAAATTATTCGCACCAAATCCAGCAAGTTCAAATAACCAATTTCTAGTTCGTGCACAATTTTCCAATGGCGAAACAACAGAATGGACCAATTTAACATCATTTATGATTGAAAAAAACTATAAAAATCGCTTTACTCCTTATAATCGTTTAGTGCGCATCCAACGAGGCGCATTTATGTCCCTGTATCAAAAAGATGATGTAACACGGAAACTATCCCAAGAAGTAGAAGAAAGAAATTTAAATAAAGAGGAGTATGATTATATTCTAGACAATGAAATGACAAAGGAGCAAGAAGAGAATGGGATAAATATATTAAACCGGTATGCTCAATCTTATGTAAGCAGTTTATATCCTGAAAAAGATATCTCACGCACACAAATTGTCATAAGAGAAACAAAAGCCACACCTTTTTCCGAACAAAACAATCCAAAATTTGAAAACGAAAGAACTATTCATGAATTTGATTGGAAGGAATTTGAAACAGTTTCTTCTGTGTTTTAA MLKKVIILFSAFLFFIHFMFTAIYLAPFNPVKAKYGFIVNAYMEPLFSQNWKLFAPNPASSNNQFLVRAQFSNGETTEWTNLTSFMIEKNYKNRFTPYNRLVRIQRGAFMSLYQKDDVTRKLSQEVEERNLNKEEYDYILDNEMTKEQEENGINILNRYAQSYVSSLYPEKDISRTQIVIRETKATPFSEQNNPKFENERTIHEFDWKEFETVSSVF NA NA NA NA NA AK015_00861 342 hypothetical protein ATGAAAAAGAAGCTAATCACCGGAGCACTGGCATTAAGTTTATTTATTGGAGGAACAACGACAACCTCTGTCTTCGCTGGGACAGATAATATTGAAACCGAAAAAGCAGTCCAAACTGAATTGGCTACCAACAAAGAAGTATCTCCTCAGGCTACTCCCGCAGTTGCCGGAGCTTATGCATTAAAAGGGGCAGCCGTTGCGGGTGCAGCTTTTGTTGGTGGAGTTACCGCCAAAGCTGGTGCAGATGCTTATGATTGGGCTAAACAACAATTAGGCGGCAGTGATGAGAAGATGAGAGGTAATGCAGAATATGAAGATATCAAAATTGTTTTTGACCAATAA MKKKLITGALALSLFIGGTTTTSVFAGTDNIETEKAVQTELATNKEVSPQATPAVAGAYALKGAAVAGAAFVGGVTAKAGADAYDWAKQQLGGSDEKMRGNAEYEDIKIVFDQ NA NA NA NA NA AK015_00862 1716 acsA_1 COG0365 Acetyl-coenzyme A synthetase GTGGAAATGAAAAAAATCTCTCCTAGAGAGGGAAATCATAATTTAAAAGATTATAATCGTATGAAAGAATCGTTTACTTGGGAGAGCATAAAAGCGAATTTTTCCTGGTTTGAAACAGGAAAGGTGAATATGGCTTATGAAGCTGTTGATCGTCATGCTGATAACCCAAATAAAAGCAATCAGACTGCACTTTTATTTTCATCACCGGACCGTGAGGAGAAGCTGACATTTAATGATCTACGTCATGAGAGTAATAAATTTGCAAATGTATTACGGAAATATGGAATAAAAAAAGGAGATCGTGTATTTTTATTTATGCCGAGAACGCCAGAGTTTTATGCTGCTTTCTTTGGTATCTTAAAAGTTGGTGCCATTGCAGGACCATTATTTGAAGCATTTATGGAGCAGGCAGTTAGAGATCGTCTTCAAGATAGTGAGGCGAAAATGCTGATTACAACGCCTGATTTATTGGGGCGCGTACCACAAGCTGATTTACCAGCACTTGAGAAAATTGTTCTAGTTGGCAATTACAAGGAGAAAGTTGAATCATACATTCATTATCACGAGGAAATGAAAGCCGCTAGCGATCAAACAGAAATGGAATGGGTTGATCTAGAGGATGGTATGCTGCTTCATTATACCTCTGGATCTACTGGAAAACCAAAAGGGGTCTATCACGTGCATCACGCAATGATACAGCACTATGCAACGGGCGATTGGGTGTTGGATTTAAAGGAGGACGATATTTACTGGTGTACTGCTGATCCCGGTTGGGTGACAGGCACAAGTTATGGCATTTTTGCTCCTTGGCTTCATGGCGTGACGAATGTCGTTCGTGGTGGTAGGTTTACGCCTGATGATTGGTACCATACACTTGAAAAAAATAGCGTTTCGGTATGGTATACAGCACCAACTGCATTACGTAAGCTCGTTAGTGCGGGTAAGGAGACAGTTGAAAAATATGATCTTTCTGCATTACGTCATATCTTGAGTGTTGGTGAACCTTTAAACCCAGAAGTAATTTCATGGGGATTGAAGGCCTTTCATCTTCGTATTCACGATACATGGTGGATGACAGAAACGGGAGCACATATTATTGTGAACTTCCCATCTATGGAAATACGGCCTGGTTCAATGGGAAAACCGCTACCAGGAATTGAAGCATCCATTGTTGATAATGAAGGAAATGAATTAGCCCCGTATCAAATGGGGAATTTAGCCATTAAAAAAGGCTGGCCATCGATGATGCGCGCCATTTGGAATAACCCTGGAAAGTTTGAAAGCTATTTTATCCAAGATTGGTACGTGTCTGGCGATAGTGCTTATAAAGACGAAGATGGTTATTTTTGGTTTCAGGGTCGTTTAGACGATGTCATTAATACATCAGGAGAACGAGTAGGCCCATTTGAAGTAGAAAGTAAGCTCATTGAGCACCCAGCTGTTGCAGAAGCTGGTGTAATCGGCAAACCGCATCCAGAACGAGGAGAAATTGTTAAAGCCTTTATTACATTAAATGAAGGTTATAAGGATTCAGAAGCTTTGCGACAAGAAATAAGGCAGTTTGTGAAAACAGGTTTAAGCGCACATGCTGCTCCTCGTGAGTTAGAAGTAAAAGATTCTATTCCGAAAACGCGGAGTGGAAAGATCATGCGGCGTTTATTAAAATCCTGGGAACTCGGATTGCCAACAGGCGATACATCTACATTAGAAGAATAA MEMKKISPREGNHNLKDYNRMKESFTWESIKANFSWFETGKVNMAYEAVDRHADNPNKSNQTALLFSSPDREEKLTFNDLRHESNKFANVLRKYGIKKGDRVFLFMPRTPEFYAAFFGILKVGAIAGPLFEAFMEQAVRDRLQDSEAKMLITTPDLLGRVPQADLPALEKIVLVGNYKEKVESYIHYHEEMKAASDQTEMEWVDLEDGMLLHYTSGSTGKPKGVYHVHHAMIQHYATGDWVLDLKEDDIYWCTADPGWVTGTSYGIFAPWLHGVTNVVRGGRFTPDDWYHTLEKNSVSVWYTAPTALRKLVSAGKETVEKYDLSALRHILSVGEPLNPEVISWGLKAFHLRIHDTWWMTETGAHIIVNFPSMEIRPGSMGKPLPGIEASIVDNEGNELAPYQMGNLAIKKGWPSMMRAIWNNPGKFESYFIQDWYVSGDSAYKDEDGYFWFQGRLDDVINTSGERVGPFEVESKLIEHPAVAEAGVIGKPHPERGEIVKAFITLNEGYKDSEALRQEIRQFVKTGLSAHAAPRELEVKDSIPKTRSGKIMRRLLKSWELGLPTGDTSTLEE PGPT0002265_5994 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895 NA NA AK015_00863 864 hypothetical protein ATGTTATATCGTGTCATCCAAAAATTTGGATTAGTTGTATTACAATGGAATGAGGTTGACGACTCACATAGCTCAACCGTCTATCAATGTACTTTGTTACATGGTGAAAATGTTTATTTAAAAATTCCTTTTACAAAGTTGAAGTTCCAACGTGAGTTAGCAGCTTATGAAATTTTACAAGGAAGTGTTCCAATTCCTTATTTGATAAATTATTGGTCGGGTGATGAGGAGTGTCCTGGTGCTTTTTTAATATCTGCATTAAAAGGAAAACCTTTAACAGCGAAGACAACACCAACGGTAGCTTACCAAGTTGGGACGCTTCATGCTAAAATGCACTCAGTTACTCCTCCTACGAACGGTGATTTCATAGGTATAAACAACGAATTTGACAACTGGTCTAACTTTATTGAACGTCAGTTTCAAAGTTTCGCTGCAGATGTAAGAGATATTTTGGATGAACGATTATACGAAAAAGCTATTGAAAAATATAAAAAGATGAAACAACAATTGCCATCTCCAGATGGTCCAAGTTTTGTACATATGGATTTTCGTCCAGCAAATATCATTGTTCATGATGGTAGCGTTTCAGGAGTAATAGATTTTGAAAGTGCAAGGTTTGGCTCAACAGAAATAGATTTTACTAAGCTGTATCGCGATATTTTAAGTTTGGATAGTAGTTTGTATCAAGCATACAAAGATGGCTATAGCAGTATTCGACCACTAATTAACCTAGAGGAAGTATTACCTTTTTATCGATTTACGGATGCTTTTAATAGTATCGGTTGGTGTAAACGTAGAGGAGTGGAAAAAAACGCTTTGTTTTTAGAGGAAAACATAGCTAGATTAAAAAAGTGGGTACTATAA MLYRVIQKFGLVVLQWNEVDDSHSSTVYQCTLLHGENVYLKIPFTKLKFQRELAAYEILQGSVPIPYLINYWSGDEECPGAFLISALKGKPLTAKTTPTVAYQVGTLHAKMHSVTPPTNGDFIGINNEFDNWSNFIERQFQSFAADVRDILDERLYEKAIEKYKKMKQQLPSPDGPSFVHMDFRPANIIVHDGSVSGVIDFESARFGSTEIDFTKLYRDILSLDSSLYQAYKDGYSSIRPLINLEEVLPFYRFTDAFNSIGWCKRRGVEKNALFLEENIARLKKWVL NA NA NA NA NA AK015_00864 564 hypothetical protein TTGTTAGCAACGAAACAAGATATTATGAACGCTATTGGGCAAGACGTTGAAATGATGACGGTATTAAAAGCAGTTATGTCACTTGATTTACCAGATTGCTGGGTATGTGCTGGTTTTGTAAGGACGAAAATTTGGGATACATTGCATGGAATAGAAAAGACACCACTTCCTGATATTGATGTCATTTATTTTAATCATCAACACACGGCAGAATATATAGATAAACAATTAGAAGAGAAACTTCATCATATTTTTCCTGCTCTTCCATGGTCGGTGAAAAACCAAGCAAGAATGCATACTAGAAATCACGTTCCACCATATCTTTCATCCGAAGATGCTATCGCAAAGTTTCCAGAAACTGCAACTGCATTAGGGGTAAGGCTAGATCAGCATGAAAATGTTATTTTAACAGCCCCACATGGCATAGAAGATGTTCTTCAGTTAGAAGTAAAACCGACTCCGTATTTTTTGCAAAACGAGAAAAGAATGCAAATCTATCGACAAAGAGTAAGTAAGAAGAATTGGCAATCTACGTGGAAGAAGCTAAAGATTTATGTAACATAA MLATKQDIMNAIGQDVEMMTVLKAVMSLDLPDCWVCAGFVRTKIWDTLHGIEKTPLPDIDVIYFNHQHTAEYIDKQLEEKLHHIFPALPWSVKNQARMHTRNHVPPYLSSEDAIAKFPETATALGVRLDQHENVILTAPHGIEDVLQLEVKPTPYFLQNEKRMQIYRQRVSKKNWQSTWKKLKIYVT NA NA NA NA NA AK015_00865 609 hypothetical protein ATGTCAAAGGAATTTTGGGATGAAAGTTTCTCAGAAAATGAGTTTGTGTATGGCAAAACAGCAAATGCGTTTATTCGTTCCATGAATGAGATGCTTGCAGCAGGTTTGAAAGTAGCCTGTTTTGCAGAAGGGGAAGGTAGAAATGCGGTATATTTAGCAGAATGTGGGCATCATGTAACAGCATATGATCAATCCACGGTAGGGCTTAAAAAAACAACCCAACTAGCTCAAGAAAAAGATGTAGCTGTTCAAACCGTAGTTAAAGACCTTACCACAGAAGGCGTACCTGTGCAACAATATGACGCTGCTTTTATGGTGTTTGGGCATGTTCCTAGAGAAAAGCAAGTCTTTTTTATTAATAATATGTTGAACTCGCTCAAAACGGGTGGCTATCTCCTATTCGAAGTTTACTCGGAGGATCAATTAGCATATAAAAGTGGAGGGCCAAAGGAGAAATCGATGTTATATCGTCCTGTAGATATGTTGAACTGGTTAGATGGTCATAAATGGATTCATTTTTATTATGGAGAGGCCGAACGACATGAAGGAAAGAGACACTCAGGTCTGTGCCATGTTGTGCAAGTAGCCGTTCAGAAAACAGCTCGGTAG MSKEFWDESFSENEFVYGKTANAFIRSMNEMLAAGLKVACFAEGEGRNAVYLAECGHHVTAYDQSTVGLKKTTQLAQEKDVAVQTVVKDLTTEGVPVQQYDAAFMVFGHVPREKQVFFINNMLNSLKTGGYLLFEVYSEDQLAYKSGGPKEKSMLYRPVDMLNWLDGHKWIHFYYGEAERHEGKRHSGLCHVVQVAVQKTAR NA NA NA NA NA AK015_00866 204 hypothetical protein ATGGATAACACACTGACTGAGCTTGTGTTATCCATGTGTCATTTCCTTTGCTTCAACGATAGAAAAGCTGGAATTTTAGGTTTTATTCCGAATACTGTAGTAAAATTACTCCTTCAAGATAAGTCTAAGAGGACGATAAAAGAAACTAAGTTCCTAGGATATTTAGATCACCGCTATACTATAGCAAAGGGTAAAATTTTTTAG MDNTLTELVLSMCHFLCFNDRKAGILGFIPNTVVKLLLQDKSKRTIKETKFLGYLDHRYTIAKGKIF NA NA NA NA NA AK015_00867 1233 hmp COG1017 Flavohemoprotein ATGGAAACAACGGCAAAAACCAAATTAGATGAACAAAATAAGCAATTGATTAAAGCTACAGTTCCAATTTTACAAAAGCAAGGGACAGCTATTACAAAGCGATTCTATCAACTTATGTTAAGCAATCACCCCGAGTTAAATCACCTTTTCAATCAAACGAATCAACGACGTGGCGATCAACCTATCGCATTAGCCAATACGGTTTACGCAGCTGCAGCAAACATTGACCAGTTAGAAAAAATCGTACCTCACGTCCGGCAAATTGCCCATAAGCATCGAAGTTTAAACGTAAAACCAGAACAATATCCGATTGTTGGGAAATACTTATTATTAGCGATGAAAGATGTCTTAGGAGATGTAGCGAGTGATGAAATAATTGCTGCGTGGGAAAAAGCATACGGTATGATTGCGCAACTATTTATCGACATGGAGCAACAGCTATATGAAGAAGCTGAAGCACAAACTGGTGGATGGACAGGATTCCGTAATTTTAAAGTCATTCAAAAAATAAAAGAAAGCGACGTCATTACATCGTTTTATTTGCAACCTGAAGATAGCCTTGCCATTCCTGATTTTTTTCCTGGGCAGTATATCACGCTGAAAGCAGAGATTCCAGAAGAACCTTACACCCATCTACGCCAATACAGCTTATCTACATCACCTAACAAAGATCACTACCGAATTAGTGTTAAACGTGAAGCTGGTGATGCCAAAACTCCAAACGGAAAGGTATCCAATTTCCTACACGAATCGGTGAACGAAGGAAGTGTTTTACCACTTACAGCGCCAGCTGGTGATTTCTTTCTAAATAGAAACGATAACAGACCTATCGTGCTCCTTAGTGGTGGAGTAGGAATAACACCAATGATGAGCATGTTGGAAACAGTCATTCATACACAACCGAATAGAAAAGTAGTCTTTATTCATGCTGCAAAATCAGGTAATTATCACGCATTTAAGGATCGTGTAAATACAATTAGTAAGCAACATACAAATGTTTCAAGCTATACTTTATATAGTCAACCTGAAAACGAGCATCTATGTGATGTAAATGGCTATATCAGTTACAACTGGCTACACTCTGTTTTGCCAACTACCAATGCATCCTTTTATTTCTGCGGTCCCAAAGGGTTTATGCAAACAACATTGCTTATCCTCAAACAGTTACATGTAGACGATGCAGATATCCATTATGAGGTTTTTGGCCCCGCGGCAGATATGAGCGCTTCGTAA METTAKTKLDEQNKQLIKATVPILQKQGTAITKRFYQLMLSNHPELNHLFNQTNQRRGDQPIALANTVYAAAANIDQLEKIVPHVRQIAHKHRSLNVKPEQYPIVGKYLLLAMKDVLGDVASDEIIAAWEKAYGMIAQLFIDMEQQLYEEAEAQTGGWTGFRNFKVIQKIKESDVITSFYLQPEDSLAIPDFFPGQYITLKAEIPEEPYTHLRQYSLSTSPNKDHYRISVKREAGDAKTPNGKVSNFLHESVNEGSVLPLTAPAGDFFLNRNDNRPIVLLSGGVGITPMMSMLETVIHTQPNRKVVFIHAAKSGNYHAFKDRVNTISKQHTNVSSYTLYSQPENEHLCDVNGYISYNWLHSVLPTTNASFYFCGPKGFMQTTLLILKQLHVDDADIHYEVFGPAADMSAS PGPT0013000_253 NA NA NA NA NA AK015_00868 435 nsrR COG1959 HTH-type transcriptional repressor NsrR ATGAATCTTAAAAAATACACCGACTTCTCCCTTCGAGTATTAATATTGGCTGGAATGAAAACAGAACAGGAATTAACCACGATTAAGGAAATTTCTACTGTTTATCATATATCACAGGAGCACTTACGAAAGGTCGTTCATAACTTGACGAAACTAGGACTTATCCAATCCATTCGTGGCAGGCATGGCGGTCTCCGTTTAGCAAAGCCAGCGGAGGAAATCAACATAGGACAATTAGTTCGAACATTGGAAGATGATTTTGTATTATTGGAGTGTTTTGACAAGGAAACGAATCACTGTGTTATTTCGCCGGCGTGCACTTTAAAACATGCACTAAATCAAGCATTAATGGCTTTTTTTCAAGTGTTAGATGCATATACATTAAAGGATTTAATCCATAATGAACAAGAATTGCGTAAGCTTATGGGTATATGA MNLKKYTDFSLRVLILAGMKTEQELTTIKEISTVYHISQEHLRKVVHNLTKLGLIQSIRGRHGGLRLAKPAEEINIGQLVRTLEDDFVLLECFDKETNHCVISPACTLKHALNQALMAFFQVLDAYTLKDLIHNEQELRKLMGI PGPT0013005_1379 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771 NA NA AK015_00869 516 yfkM COG0693 General stress protein 18 GTGAGTAAAAGAATTGCGACTGTCATCACAGATATGTTTGAGGATGTAGAATATACAGACCCAGCCAAAGCTTTTCAAGATGCTGGACATGAAGTAGTTACAATTGAAAAAGAAAAAGGGAAACAAGTAACAGGGAAAAACAACCAAGTTACCGTTACGATTGATTATGGAATTGACGATGTTAATCCGAGTGACTTTGATGCGCTGTTTATTCCGGGTGGTTTTTCTCCTGATATGCTGCGTGCAGATGAAAGGTTTGTCACATTTGCCAAGCATTTTATGGATGAGAAAAAACCTGCCTTTGCCATTTGTCATGGTCCACAGCTGTTAATTACAGCGAAAACATTGGAAGGAAGAAAAGCAACTGGATTTACATCCATTCAAGTGGATATGGAATATGCAGGCGCCAAGGTTGTAGACGAAGAAGTAGTTGTTTGCCAAAACCAACTCGTTACAAGTCGCCAGCCAGATGACATTCCGGCTTTTAACCGTGAGTCTTTAAATATATTAAGATAG MSKRIATVITDMFEDVEYTDPAKAFQDAGHEVVTIEKEKGKQVTGKNNQVTVTIDYGIDDVNPSDFDALFIPGGFSPDMLRADERFVTFAKHFMDEKKPAFAICHGPQLLITAKTLEGRKATGFTSIQVDMEYAGAKVVDEEVVVCQNQLVTSRQPDDIPAFNRESLNILR PGPT0015010_3239 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 AK015_00870 1293 sleL_2 COG3858 Cortical fragment-lytic enzyme TTGCAAATCCATGTTGTGTCTGCAGGAGATACGTTGTTTCAAATCGCTTCTACATACAGAACTTCTACGCAAGCAATTATTGATGCCAATGAGTTGGATGCACCTAATAATCTAGTTATCGGCCAAGCGCTTGTCATTCCTATTATTGGACAATTTTACTTTGCTCAACCTGGAGATAGTTTATTTTCCATTGCCCAACAATTTAACATACCTCTCGAAACCTTAGCACAAATAAACGGAATCTCGCCAGGAAATATAATACCAGTGGGATTTCAATTATATATTCCGCCAGCACCTAAGACCCCAATCACGACAAATGCATATATTGAGCCTTCCGGCGATACGGTGTCAGAAACCCTAAAGAATTCTGCTCGAAAAGCAGCGCCTTATTTAACTTATTTAGCTATTTTCAGCTACCGTGTAGGCCGCGATGGCAGTCTAACACCACCGCCGTTAAATAGTCTAGCTGAAATTGCTGAACAAAATAATGTAGCAAAAATGCTTGTTGTAACCAACCTAGAAGGAGGAGAGTTCAGTCCGGAACTTGGTCATATTATCGTAACCGTACAAAGCGTACAAAATACGTTGCTTGATAATATTATTAATACAGCAACTACACAAGGGTATAAGGATGTCCATTTTGATTTTGAATTTTTACCAAGCGAAGATCGTGAAGCATATAATGCATTTTTACGGAAAGCAAAGAAAAGGCTGTCTCAAGCAGGCTTATTAATGTCCACTGCATTAGCACCAAAAACACGAGCTGATCAACCAGGACAATGGTATGAAGCACATGATTATGCAGTACATGGGGAGGTTGCTGACTTTGTTGTCTTAATGACCTATGAATGGGGATATACGTATGGTCCACCATTAGCTGTTTCACCTATCAATGAAGTACGAAAGGTAGTAGATTATGCACTCACAGTAATTCCAGCGAACAAAATCTTATTAGGGCAAAACTTATATGGTTATAACTGGACATTGCCTTATGCTGCTGATAACGGAGAACCCGCTCAAGCAGTCAGTCCACAGCGAGCCATTACCATTGCGCGAGAAAATAATGCAGAAATTATGTTTGATCAAGGAGCACAAGCACCGTTTTTCACCTATACGGATGAGGCAGGGACAAGACATGAAGTATGGTTTGAGGATGCAAGGTCGATTCAGGCAAAGTTTAATTTAATTAAAGAATTAGGGTTGTTAGGCATTTCTTATTGGAAACTAGGGCTTGCCTTCCCGCAAAATTGGTTATTATTACAAGATCAATTTACGATAACAAAGTTAGAATAA MQIHVVSAGDTLFQIASTYRTSTQAIIDANELDAPNNLVIGQALVIPIIGQFYFAQPGDSLFSIAQQFNIPLETLAQINGISPGNIIPVGFQLYIPPAPKTPITTNAYIEPSGDTVSETLKNSARKAAPYLTYLAIFSYRVGRDGSLTPPPLNSLAEIAEQNNVAKMLVVTNLEGGEFSPELGHIIVTVQSVQNTLLDNIINTATTQGYKDVHFDFEFLPSEDREAYNAFLRKAKKRLSQAGLLMSTALAPKTRADQPGQWYEAHDYAVHGEVADFVVLMTYEWGYTYGPPLAVSPINEVRKVVDYALTVIPANKILLGQNLYGYNWTLPYAADNGEPAQAVSPQRAITIARENNAEIMFDQGAQAPFFTYTDEAGTRHEVWFEDARSIQAKFNLIKELGLLGISYWKLGLAFPQNWLLLQDQFTITKLE PGPT0025110_265 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306 NA NA AK015_00871 534 entB COG1535 Enterobactin synthase component B GTGCTCAAATCATTGGAAAAAACCGCCGTTTTATTTGTAGATATTATCAACGATTTTCATTTTGATGGTGGAAAAGCATTAGCTTCCAATACGAAAGAAATCCTTCCACACCTTATGTCTTTACGTAAATTTGCCAAAACCAATAAATTACCTATTATTTATGTTAATGATCATTACGGTCTTTGGCAAGCAGACTTTCGTAAAATAATTGACCACTGCTACAATGACGCAAGTAAAGACATTATAGAAGCTTTAAAGCCAGATGACCAAGACTATTTTCTTATTAAACCACAGCATTCCGCCTTTTTTCAAACGCCTCTACAATCTTTGTTATCTGAATTAGATAAAGACAGTCTCATTTTGGCAGGAATCGCCGGAGATATTTGTATTCTGTTTACAGCAAAGGATGCATATATGTATGGATATAAGATGCATATTCCAGAAAATTGCATGGCTTCAGAAGGAAAAGATAATAATGCTTATGCCCTATATTTATTACATGCGGTTATGAAAGCAGACACAACAGCAATATAA MLKSLEKTAVLFVDIINDFHFDGGKALASNTKEILPHLMSLRKFAKTNKLPIIYVNDHYGLWQADFRKIIDHCYNDASKDIIEALKPDDQDYFLIKPQHSAFFQTPLQSLLSELDKDSLILAGIAGDICILFTAKDAYMYGYKMHIPENCMASEGKDNNAYALYLLHAVMKADTTAI NA NA NA NA NA AK015_00872 483 tadA_1 COG0590 tRNA-specific adenosine deaminase ATGAATACGATAGATGAACAAAGGATGTTTACAGCTATACAAGAAGCAAAAAAAGCAGCCGCACAAAATGAAGTTCCGATTGGTGCTGTAATTGTATATCAAAATGAAGTGATAGCTACCGCATATAATGTACGTGAAACAACACAAAGTACGTTGGCACACGCGGAATTGTTAGCGATACAAAAAGCAAATGATAAGATTGGCAGTTGGCGATTAGAGGATTGTACGTTGTATGTTACATTAGAACCTTGTCCAATGTGTGCAGGTGCGATAGTGCAGTCGAGGATAAAAAGGGTTGTCTACGGAGCACCTGATCCTAAAGCGGGTTGTGCTGGTACGTTGCTAAATTTACTACATGAAGACCGCTTTAATCATCAAGTTGATATAACTGCAGGCATTTTGGAAGCAGAATGTGCTACATTACTAAAGGATTTTTTTAAAAAGATTCGTAAGCAAAAAAAGCTAGACCAAAAAGAAAATTAG MNTIDEQRMFTAIQEAKKAAAQNEVPIGAVIVYQNEVIATAYNVRETTQSTLAHAELLAIQKANDKIGSWRLEDCTLYVTLEPCPMCAGAIVQSRIKRVVYGAPDPKAGCAGTLLNLLHEDRFNHQVDITAGILEAECATLLKDFFKKIRKQKKLDQKEN PGPT0006855_40 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563 NA NA AK015_00874 582 csh Carbon disulfide hydrolase ATGAATCTTTTAGGAGAAATCTTAACGCATAATAAAGATTTTGTAGAGAAAAAGGAGTATGAAAGCTATCAAAGCAGTAAGTTTCCTAATAAGCATGTCCTTATTCTCTCTTGCATGGATACAAGGCTTGTAGAACTACTACCAAAAGCAATGAACATCTCTAATGGCGATGCAAAAATACTTAAAACTGCAGGAGCGCTTGTTTCCCACCCGTTCGGAAGTATTATGCGCAGTATTTTAGTCGGTGTCTATGAGCTTGAAGTAGATGAAATTTATGTTGTTGGGCATCATGATTGTGGCATGGCCAGTGTAAAAGCAGAGCAAACGTTAGAAAAAGTAAAGCATCGCGGCATCTCTCAAGAAACATTGGATACATTACAATATTCAGGTGTTGATTTCAACCGTTTCTTTCGAGGGTTTGATAGTGTGGAAGATAGTGTAAGACATAGTGTATCCACAATTGGAAACCACCCGCTAATGCCTGATTCAGTGCCTGTTCACGGCCTAGTAATGGACCCTGAAACAGGAAAGCTTGGTCTTGTTGTAGACGGCTACGGAACAAAGGCGCAAGCGCCCGTTTAG MNLLGEILTHNKDFVEKKEYESYQSSKFPNKHVLILSCMDTRLVELLPKAMNISNGDAKILKTAGALVSHPFGSIMRSILVGVYELEVDEIYVVGHHDCGMASVKAEQTLEKVKHRGISQETLDTLQYSGVDFNRFFRGFDSVEDSVRHSVSTIGNHPLMPDSVPVHGLVMDPETGKLGLVVDGYGTKAQAPV PGPT0002415_6202 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673 NA NA AK015_00875 1689 hypothetical protein ATGAGCTATCAAGCTTTATATCGCGTTTGGCGTCCGACGGTTTTTGCAGATGTCGTTGGGCAAGCCCATATTACCCGCACATTGCAAAATGCGATTGTACAGGAGAAATTCTCTCATGCTTATTTATTCTCTGGTCCAAGAGGGACAGGAAAAACAAGTGCTGCGAAGATTTTTGCCAAAACAATCAACTGTGAGCATTCTCCTGTAAAGGAGCCATGTAACGAATGTGCAGCATGTAAAGGAATTCAAAATGGATCGATTTCCGATGTGATTGAAATTGATGCGGCTTCCAATACAAGTGTTGAGGATATAAGAGAGATTAGAGAAAATGTAAAATATGCTTCTAGCCAAGTGCCGTACAAAGTATATATCATTGATGAGGTACACATGATATCGGTAAGTGCTTTTAACGCCTTACTGAAAACGCTGGAAGAACCACCAAGTCATGTCGTCTTTATCTTAGCAACGACCGAGCCACATAAAATCCCCCTTACGATTTTATCCAGATGTCAGCGGTTTGATTTTAAACCGATCTCCAATCCTTCTATCGTAGAGCGATTGCAAACGATTGTGGAAGCTGAGAGAGTGACAGTTTCTAAAGAAGCTTTGGACACGGTGGCACTAGCTGCTGAAGGTGGAATGCGTGATGCGTTAAGTATTCTTGATCAAGCTATTTCTTACAGTGATGATGCGGTAGAATTAGAAGACGTCTTAGCAGTTACAGGTGGTGTCTCGCAACATACTTTAACAAATATTATTAGCCATATGCATGAAAAAAATGTGCAACAAGCGGTAATGGATTTAAATGAATTAATTCAAAAAGGAAAAGATCCTGCTCGCTTCGTTTATGATATGATTTATTTTTTACGTGACCTGCTGTTATACAAAAGTGCTCCGACATTAGAAAAATTATTAGAACGGGCGCGCGTTGATGAAGCTTTTCAATCATTAGCAGATACGATATCCGACCATTGGATTCAAGAGGCAATGGCACAGTTAAATCAATGTCAGCAAGAAATAAAATGGACGAATAGCCCAAAAGTTTATATCGAAATTGCTATATTGACAATAGCAAATGGTATACAGGAACAAGGCGCGACTGATTCGATAGCAAGCTCTGATACGATAATGAAGCTTACATCAAAACTTGGAAAACTGGAGAAGGAAGTAAAGCAATTAAAGGATAATCCTGTCGTACCAATGCAAACAACACCACAACGTGAAAACAGAAGGACTCCAAATCGAACCGCAAAAAATACGTACAAAGTGCCTTTTGAACGGATTCGACATGTACTAGGTGAAGCTGAAAAAACAGCTTTAAAACAAGTTCACGCTCAATGGGGAACATTTTTAGGACAATTGAAAAAAGCAAGTGCTCCTGCACACGCTACTATCCAGGATAGTAAACCTGCAGCGGCGTCTGACCAAGCACTTGTCGTAGCGTTTAAGTATGAAATTCATTGTTCTTTGTTCTTAGATAATCAGGAAATGGTGGAATCTGTTTTAACTTCTGTGTTAGGAAAAAACTTGACCATCATACCGATTCCAGAGAAAGATTGGGTAGAATTGCGCAATGAATATGTTGCCAAACAAGAAAAAACATCATCCAAAGAGGAAGCTGTTGAGGATCCAGTAGTTACGGAAGCGCAGAAGCTATTTGGTGATGATATAATAGAAATTCATGATTAA MSYQALYRVWRPTVFADVVGQAHITRTLQNAIVQEKFSHAYLFSGPRGTGKTSAAKIFAKTINCEHSPVKEPCNECAACKGIQNGSISDVIEIDAASNTSVEDIREIRENVKYASSQVPYKVYIIDEVHMISVSAFNALLKTLEEPPSHVVFILATTEPHKIPLTILSRCQRFDFKPISNPSIVERLQTIVEAERVTVSKEALDTVALAAEGGMRDALSILDQAISYSDDAVELEDVLAVTGGVSQHTLTNIISHMHEKNVQQAVMDLNELIQKGKDPARFVYDMIYFLRDLLLYKSAPTLEKLLERARVDEAFQSLADTISDHWIQEAMAQLNQCQQEIKWTNSPKVYIEIAILTIANGIQEQGATDSIASSDTIMKLTSKLGKLEKEVKQLKDNPVVPMQTTPQRENRRTPNRTAKNTYKVPFERIRHVLGEAEKTALKQVHAQWGTFLGQLKKASAPAHATIQDSKPAAASDQALVVAFKYEIHCSLFLDNQEMVESVLTSVLGKNLTIIPIPEKDWVELRNEYVAKQEKTSSKEEAVEDPVVTEAQKLFGDDIIEIHD NA NA NA NA NA AK015_00876 315 COG0718 Nucleoid-associated protein ATGAAGGGAAATATGAATAACATGATGAAGCAAATGCAAAAAATGCAAAAGAAAATGATGAAAGCACAGGATGAATTGCATGAAATGACGTTCGAAGCATCTGCTGGCGGTGGCATGGTTACAGTAGTTGCTAATGGAAAAAAAGAAATAACCGATGTACAAATAAAAGAAGAGGTTATTGATCCTGATGACGCTGAAATGCTTCAAGACCTTATTTTAGCAGCAACAAATGATGTATTAAAGCAAATAGATGATAAGACAAATGATACAATGGGACAATTCACGAAAGGTTTAAATATGCCTGGGATGTTCTAA MKGNMNNMMKQMQKMQKKMMKAQDELHEMTFEASAGGGMVTVVANGKKEITDVQIKEEVIDPDDAEMLQDLILAATNDVLKQIDDKTNDTMGQFTKGLNMPGMF NA NA NA NA NA AK015_00877 597 recR COG0353 Recombination protein RecR ATGTATTATCCAGAACCGATTTCTAAACTGATCGATAGTTTTACTAAATTGCCAGGTATCGGCCCGAAAACGGCCGCCCGTCTGGCTTTCTTTGTACTAAATATGCAAGAAGATGACGTCTTGGATTTTGCAAATTCATTGGTAAATGCAAAACGCGAGTTGACACATTGTTCTGTTTGCGGACATATTACCGATCAGGACCCTTGTGCGATCTGTCAAGACACATCGAGAGATCAATCTGTTATTTGTGTCGTTCAAGATCCGAAAGACGTCATCGCTATGGAAAAAATGAAAGAATTTCATGGAAAATACCATGTATTAAATGGTGTTATTTCGCCAATGGACGGTATTGGACCAGAAGATATTAATGTTCCTGGTTTAATTCAACGCTTAAAGGATGAAGAAGTAGAAGAGTTAATTCTTGCTACAAATCCCAATATTGAAGGGGAAGCAACCGCGATGTATATTTCTAGGCTTGTAAAACCGTCAGGCATTCGTACTACACGTATTGCTCATGGCTTACCAGTAGGCGGTGATTTGGAATATGCAGATGAAGTTACACTTTCCAAAGCATTGGAAGGCAGAAGAGATGTGTAG MYYPEPISKLIDSFTKLPGIGPKTAARLAFFVLNMQEDDVLDFANSLVNAKRELTHCSVCGHITDQDPCAICQDTSRDQSVICVVQDPKDVIAMEKMKEFHGKYHVLNGVISPMDGIGPEDINVPGLIQRLKDEEVEELILATNPNIEGEATAMYISRLVKPSGIRTTRIAHGLPVGGDLEYADEVTLSKALEGRRDV NA NA NA NA NA AK015_00878 213 hypothetical protein ATGGCTAAGAAAATAAAGAAAAGAGATGTAGATAGGGAGTTATTAAATACAGTAAAAGAGTTGGAACTAGAATGGAAGCAAATAGAATCCATCGTCTCTAGAAGTGTGGAGTTCACGCTAGAAGGAAATTATTGGGAGAGAGTTGCTCGAGCTAAATATATGTATTTGCTTAAAGAAGCACGACACCGTAAATTACGTGCAGACTTCCATTAG MAKKIKKRDVDRELLNTVKELELEWKQIESIVSRSVEFTLEGNYWERVARAKYMYLLKEARHRKLRADFH NA NA NA NA NA AK015_00879 267 hypothetical protein TTGAGTTCGACAGTAGTCATATCTATTATGGTGGGGCTAATCATCCTGTTGCTACTAGTAGGTACACCTGTAAAATTCATGCGTGTGATTGGACAAACGACTGTGAAATTAGGGATTGGTGTTTTGCTGTTATTCTTTATTAATGTATTCGGTGGCGCAATAGGTTTACACATTCCGATCAATTTATTTACGGCTGTCGTATCCGGTTTTCTCGGTATATTTGGAATAGCATCTTTATCAGCTATTCACTTATTTATTATTTCTTAA MSSTVVISIMVGLIILLLLVGTPVKFMRVIGQTTVKLGIGVLLLFFINVFGGAIGLHIPINLFTAVVSGFLGIFGIASLSAIHLFIIS NA NA NA NA NA AK015_00880 192 csfB Anti-sigma-G factor Gin ATGAAACAGCGAACTATATATGAGCGTTGTGGCATTTGTGAAGAGGAAAAGAAGGATGGCATTCATTTATATACCATGTTTATTTGTTGTGAGTGTGAGCATAATATGATTTACACAGAACCGAGAGAAGAAAAATATAACTATTATGTACGTAAATTAAAAAATATTACGAAACCAAAACTATATTCCTAG MKQRTIYERCGICEEEKKDGIHLYTMFICCECEHNMIYTEPREEKYNYYVRKLKNITKPKLYS NA NA NA NA NA AK015_00881 1431 speA COG1982 Arginine decarboxylase ATGAAACAGCAACATGTACCTTTATATGATGCATTAGAACAATTCAAAGGAAAGCAACCGACATCGTTTCATGTACCTGGGCATAAAAATGGACATATATTTCCTAATGAAGCAAGAGAAGTTTTTCAATCTATTTTACAAATAGATATGACAGAATTAACGGAATTAGATGATTTACATGCGCCAACAGGGGTCATTGCTGATGCAGAAAAATTGGCAGCCGATTTCTTTCAAACGGAAAAGACTTTTTTTCTAGTTGGCGGTAGTACAGTAGGTAATTTAGCGATGATTTTAGCTGTCTGTAAACAAGGCGATACGGTTATCGTACAACGCAACTGCCATAAATCGATTATGAATGGCTTAGAATTAAGCGGAGCAAAGCCTGTGTTCATCGCACCACAATATGATGAAAACGTCCGTCGATATACACAGCCTTCGTTTTCTGTGCTCCAGGAAGCTTTAAATCAATACCCACATGCGAAGGCGGTTATTCTCACTTACCCAGATTATTTTGGTAAAGCGTACGACCTTCGACAATTCATTGAACAAATTCATGCTTTTGATATCCCTGTATTAGTAGATGAAGCGCATGGGGTGCACTTTTCCCTTGGAGAAAACTTCCCCCCTTCTGCTCTACATCAAGGCGCTGATGTCGTCGTCCAATCTGCGCATAAAATGGCACCAGCAATGACGATGAGTTCCTACTTACATTATAATTCAAGAAGGATTTCAAAAGAACGAATAGCCCACTATTTACAAATGCTCCAGTCAAGTAGTCCGTCATACCCGTTATTAGCTTCCTTGGATTTGGCCCGTTATTATTTGGCAACGATGCAACGGAAAACGATGGCAGAGGTGCTTGCAAGTGCACAAGAAGTGAAGTGTATTTTTGCGCAGTCCCCTTACTGGGAGCTTATAGCAAGTGATGACCCGTTAAAAATAACGCTTCATGTAAAAGCAGGGATTGTTGCAAAAGAAGTAGCCAACCTGTTAGAGAAACAGCAAATATACCCAGAGCTTGTAACAGAAAATCAAATTTTATTGATACATGGGTTAGCTCCTTTTAAAGGTGTAGCAAATGTAAGAAAAGCACTGAAAACCGTGAATGACCAATTAAAAAATCAAAGAAAGCATGATACAATAGACGTAGAATATGATATCCCTGCTCTTATTCAAGAATTGCAGTTATCTTATGAAGTGATGAATCGCTCGACTGTCACGTGTATACCCCTGTCAGATGCAGCGGATTATATTGCGGCAGAAGCAATTATTCCGTATCCTCCAGGAATTGCTTTTATTCTAAAAGGAGAAAGAATAACCAAAGCACATATTAAAAAGATACAGCAAATGAAAGAGCTGGGGATACGAATACAACAACGACATACGAATAGCATCTATGTTTTTGCAGAAATAGAAGAAGGGGAAGAATAA MKQQHVPLYDALEQFKGKQPTSFHVPGHKNGHIFPNEAREVFQSILQIDMTELTELDDLHAPTGVIADAEKLAADFFQTEKTFFLVGGSTVGNLAMILAVCKQGDTVIVQRNCHKSIMNGLELSGAKPVFIAPQYDENVRRYTQPSFSVLQEALNQYPHAKAVILTYPDYFGKAYDLRQFIEQIHAFDIPVLVDEAHGVHFSLGENFPPSALHQGADVVVQSAHKMAPAMTMSSYLHYNSRRISKERIAHYLQMLQSSSPSYPLLASLDLARYYLATMQRKTMAEVLASAQEVKCIFAQSPYWELIASDDPLKITLHVKAGIVAKEVANLLEKQQIYPELVTENQILLIHGLAPFKGVANVRKALKTVNDQLKNQRKHDTIDVEYDIPALIQELQLSYEVMNRSTVTCIPLSDAADYIAAEAIIPYPPGIAFILKGERITKAHIKKIQQMKELGIRIQQRHTNSIYVFAEIEEGEE PGPT0007770_2237 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 AK015_00882 630 tmk COG0125 Thymidylate kinase TTGGGCGGATATTTTATCACATTTGAAGGTGGCGAGGGAGCTGGAAAGACTACCGTTTTGCACACCGTTACAGAAAAGTTAAGGCAAAATGGGTATGATGTACTTGCCACTCGTGAGCCAGGCGGAATTAAAATTTCCGAGAAGATAAGACAAATCATATTAGATCCGCTCCACACAGAGATGGAAGAGCATACGGAAGCTTTACTTTATGCGGCTGCAAGAAGCCAGCATTTTGCAGAAAAAATTGTACCGGCTTTAAAAAAAGGCAAAATCGTGCTATGCGATCGGTTTATAGATTCCAGCCTTGTTTATCAAGGCTATGCTCGAGGACTAGGAATGGATGAAGTATTAAAAATTAACCAGTTTGCGGTTGGCGATTGTATGCCAGATCTAACATTATTTTTTGACATGGAGCCAAAAAAAGGATTAGAACGGATAGCGGCGAATAAAGATAGAGAACAAAACCGGCTAGATTTAGAAAACCTAGCATTTCACGAACAGGTGCATCAAGCTTATCATATACTTACAGAAAGATTTTCAGAAAGAATTCAAACCATTGATGCTGCTCAGAAGCTGGAAACTGTGGAACAGGAATCCTTGGATCGTATTCTATCTTTATTAAAGAAATAA MGGYFITFEGGEGAGKTTVLHTVTEKLRQNGYDVLATREPGGIKISEKIRQIILDPLHTEMEEHTEALLYAAARSQHFAEKIVPALKKGKIVLCDRFIDSSLVYQGYARGLGMDEVLKINQFAVGDCMPDLTLFFDMEPKKGLERIAANKDREQNRLDLENLAFHEQVHQAYHILTERFSERIQTIDAAQKLETVEQESLDRILSLLKK PGPT0021395_3926 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943 NA NA AK015_00883 330 darA COG3870 Cyclic di-AMP receptor A GTGAAATTACTTATCGCAGTGGTTCAGGATAAAGACGCTAACCGTCTGGTGGATGCATTGGGAGAAGAAAACTTTAAAACGACCAAACTTGCTACTACTGGCGGATTTTTGAAAGAAGGAAATACGACATTAATGATCGGTTGTGAGGATGATTATGTCGATGATGCATTAAAGATCATTAAAGATAATTGCTCTCATCGCGAACAAATGGTTGCTCCTATTTCTCCAATGGGTGGTAATGCCGATTCGTATATTCCAAAACCTGTAAAAGTAGAAGTTGGCGGAGCAACTGTGTTTATTTTACCAATTGAATCATTTTTTCAATTTTAG MKLLIAVVQDKDANRLVDALGEENFKTTKLATTGGFLKEGNTTLMIGCEDDYVDDALKIIKDNCSHREQMVAPISPMGGNADSYIPKPVKVEVGGATVFILPIESFFQF NA NA NA NA NA AK015_00884 435 hypothetical protein ATGAAAATAAGTCAAGAAGTTAGAACACAACCAGAAATGCATATTCCGCAATCGAATAGTGAGGAAAATCGTGGATTTCAAAAATTGCTTCAGTCCCAATCTACATCTATCAATCAGCAAGAGTTGCAAGTAATTGTCAAAAATATTTCTTTACAAGGAGAAAGGTTGGCTCGCTTCCGTTCGTTTCAGGACCTTGCCAAATTCAAACGGCTTGTAAAGGGATTTTTACGAGAAACGGTAGGTAGTGGTCTCCGTTTACAAAAGTCCCAGAGCTTTAGTATTCATGGCAACAATCGGCAGTTAGCCATTGTAAAGCAAATTGACGATAAGCTCATGCAATTAACGGAAGATATGATGAATCAAGAGAAGAAATCTGTAGACTTACTTGGCTTAATTGGCGAGATAAAAGGTCTATTAGTTAACCTATATACGTAA MKISQEVRTQPEMHIPQSNSEENRGFQKLLQSQSTSINQQELQVIVKNISLQGERLARFRSFQDLAKFKRLVKGFLRETVGSGLRLQKSQSFSIHGNNRQLAIVKQIDDKLMQLTEDMMNQEKKSVDLLGLIGEIKGLLVNLYT NA NA NA NA NA AK015_00885 990 hypothetical protein ATGGAAACATGGTCAGAGGTTGCTCATGTACAACCGTTAGCAAGCAAAATTATTATAAACAGTATGAAAAAAGACCGGATTTCTCATGCGTATTTACTTCAAGGAGAACGAGGGACTGGTAAAAGAGCAATTGCTACACTGATAGCAAAAGGGTTATTTTGTGAGAAAAACGAAATAGCTGACCCGTGTTTAGAATGTAATACATGTAAGCGTATTGCATCTGGCAATCATCCAGATGTGCACTGGATTGAACCAGATGATAAATCAATTAAAATAGAGCAAATTCGAAACTTACAAAAGGAATTCACGTATTCGGGCATGGAGTCTGATCAAAAAGTATATATTATAGATGGCGCGGAAACATTGACAGTGAATGCGGCGAATCGAATTTTGAAATTTTTGGAAGAACCAAATAAAAAAACAACCGCTATTATGCTCACAGAGAATAGCCAAGCTATTCTTCCGACCATTCGCTCTAGATGTCAAGTAATTGATTTACGCCCCCTTCATCCAGGTGAATTTCAACAGCAATTAATCGAAAAGGGGTTAGATCAGCGCAGTGCGATATTGATAAGTGCCATGACGAATAATTTACAAGAAGCGATTGATAAAAGTCATGACGAGTCGTTTGCCACAGCACGGCGGATAGTGATACAATTAGTTGAAATACTTTTAACCAATCCTCAAGATGTTTACTTATTTATTCATCAGCATTGGGTGACTCATTTCAAAGAACGAAATGAACAGGAAGAAGGATTGGATCTCTTGCTTTTTGCCATAAAAGATATTCTTTATTACCAAATAGAACACGAAGCTGGGATGGTATTTTTCGCCCCTTCTGATGAATTGCTGAAAAAAGCAGCTATGTATTTTTCGCAAGAGAAGTTATTAGCAAGTTTACAGGCTGTCTTACAAGCAAAGCGAAAATTGAAGCAAAATGTTCATCCTACCTTAGTGATTGAACAGCTTACACTTCAAATGCAGAGGTGA METWSEVAHVQPLASKIIINSMKKDRISHAYLLQGERGTGKRAIATLIAKGLFCEKNEIADPCLECNTCKRIASGNHPDVHWIEPDDKSIKIEQIRNLQKEFTYSGMESDQKVYIIDGAETLTVNAANRILKFLEEPNKKTTAIMLTENSQAILPTIRSRCQVIDLRPLHPGEFQQQLIEKGLDQRSAILISAMTNNLQEAIDKSHDESFATARRIVIQLVEILLTNPQDVYLFIHQHWVTHFKERNEQEEGLDLLLFAIKDILYYQIEHEAGMVFFAPSDELLKKAAMYFSQEKLLASLQAVLQAKRKLKQNVHPTLVIEQLTLQMQR NA NA NA NA NA AK015_00886 825 hypothetical protein ATGATAGAAGTCATTGGCGTCCGCTTTAAAAAAGCGGGTAAAATATATTATTTTGATCCAGGAGGAGAGTCGATTTCACTAGATAGTTATGTTATTGTAGAGACGATACGTGGCATAGAGTTTGGTAAAGTGGTAATTACAAATAAACGTGTCGATGAAGAGGATATCGTCCTACCTTTAAAGAAGGTTCTTCGTGTAGCGACGGATAAGGATAAATTAACCGTTTTAGAAAATCAAGAGCAATCGCAAAAAGCTTTAGACGCATGCACGGAAAAAATTCAACAACATGACTTAGATATGAATTTAGTGGAAGTGGAATATACATTTGATCGTAACAAAATCATATTTTATTTTACAGCAGATGGCCGAGTAGATTTTAGAAATTTAGTAAAAGATCTTGCGGCCATGTTTAAAACGCGTATTGAATTGCGCCAAATCGGGGTTCGTGACGAGGCGAAAATGCTAGGTGGAATAGGCCCTTGTGGTAGGATGCTCTGTTGCTCTACTTTTTTAGGTGATTTTGAACCAGTATCTATTAAAATGGCGAAAGATCAAAATCTATCATTGAACCCGGCTAAAATTTCTGGATTATGTGGTAGGTTAATGTGCTGTTTGAAATATGAGAATGACGATTATGAGACAGCCAAACGTGAATTACCAGACATAGGAGAAAGAATGGATACACCCTTTGGAAGCGGTAAAGTAGTTGGCTTAAACATCCTAGAACGACTCATCCAAATTGAGATCCCTGAGAAAGAAAGGGTTATCGAATATACGTTAGACGAACTAATTAATGAAGGAATTTTAGCGCAAGCCACAGAATAA MIEVIGVRFKKAGKIYYFDPGGESISLDSYVIVETIRGIEFGKVVITNKRVDEEDIVLPLKKVLRVATDKDKLTVLENQEQSQKALDACTEKIQQHDLDMNLVEVEYTFDRNKIIFYFTADGRVDFRNLVKDLAAMFKTRIELRQIGVRDEAKMLGGIGPCGRMLCCSTFLGDFEPVSIKMAKDQNLSLNPAKISGLCGRLMCCLKYENDDYETAKRELPDIGERMDTPFGSGKVVGLNILERLIQIEIPEKERVIEYTLDELINEGILAQATE NA NA NA NA NA AK015_00887 312 yabA COG4467 Initiation-control protein YabA ATGGAAAAACAAATAGGCGAGTTGTACGAGCAGTTAGGTGATTTGAAAGGAAAGTTAAGTGATTTATTAGAAGAAAATCATCGGCTATCTATGGAAAATCATCATTTACGCAGTCATTTAGATCATACGAATCATGATGCTGAAGCGACAAATAGTGCCAAGCAAAAGGAAAAGAGTTTCCCTGGCGAAGGTTATGATAATTTAGCACGCTTATATGAAGAAGGATTTCATATTTGTAATCTGGAGTTTGGCAGTCCACGACGAAATGAAGATTGCATTTTTTGCTTAGACTTTCTTAATAAGACGAAATAA MEKQIGELYEQLGDLKGKLSDLLEENHRLSMENHHLRSHLDHTNHDAEATNSAKQKEKSFPGEGYDNLARLYEEGFHICNLEFGSPRRNEDCIFCLDFLNKTK NA NA NA NA NA AK015_00888 744 yfiC tRNA1(Val) (adenine(37)-N6)-methyltransferase ATGGTTGAACTATATCATAATGAAAGATTGGATTATTTATTAGCAGAGCAAGGGATGCAAATCATCCAAAGCCCTGAGGTGTTTTCATTTTCTTTAGATGCTGTTTTATTAGCTTATTTTGCATATGTGCCAATCAAACGAGGAAAAATCCTTGACTTATGTACTGGAAATGGCGTTATTCCATTATTATTATCAAGAAAAACGGGAGCAGAAATTACTGGGGTAGAACTTCAAGAAAGAATATTCCAAATGGCTGAAAGAAGTGTGACTTTGAATGGGTTAACGGAACAAATAAACATACTTCATGCGGATTTAAATCATTTGCAGCCATTGCTTCAACAGAGTAGTTTTGATGTAATTACTTGTAATCCACCCTATTTTCCAACACCACTTTCTTCAGAACACAATGAAAATCCGCATTTAACGATCGCAAGGCATGAAGTTTATTGTACGTTGGAAGATGTGGTAAAAGCTTGTAAATTATATGTTCGTCCTGGTGGAAAGGTAGCCATGGTACATCGACCGGGAAGGATAGTGGATATTATACATTTATTTCGTCAATATAAACTAGAGCCAAAGCGTCTACAATTTGTTTATCCTAAACAAGGTCGTGAAGCAAATATGTTATTAGTGGAAGGAACTAGAGATGGTAAGCCAGATCTGAAAATTTTGCCTCCACTTTATATTTATGATGAAAATGGTGATTATACAAAAGAAGCAAAGGATATTATTTATGGAAAATAA MVELYHNERLDYLLAEQGMQIIQSPEVFSFSLDAVLLAYFAYVPIKRGKILDLCTGNGVIPLLLSRKTGAEITGVELQERIFQMAERSVTLNGLTEQINILHADLNHLQPLLQQSSFDVITCNPPYFPTPLSSEHNENPHLTIARHEVYCTLEDVVKACKLYVRPGGKVAMVHRPGRIVDIIHLFRQYKLEPKRLQFVYPKQGREANMLLVEGTRDGKPDLKILPPLYIYDENGDYTKEAKDIIYGK NA NA NA NA NA AK015_00889 297 hypothetical protein ATGGAAAATAAACATACTGTCTATATCTTAAGTTGTAAAGATCGCTCGCTTTATACGGGATATACAAATAATTTAGAACGCAGACTGAAATTGCATTTAGAGGGCAAAGGCGCAAAATATACACGAGGGCGAGGTCCATTTCAAGTCGTCTATGTGGAACATTTTGAGACCAAAGAGGAAGCAATGAAGAAAGAGTATGCCATTAAGCAGTTACCGAGAAAAGAAAAATGGAAATTAATTAGGGACAATGGCAATCTGAAAGAAGTGATAAAATATGAACCTACAGAACAGTTTTGA MENKHTVYILSCKDRSLYTGYTNNLERRLKLHLEGKGAKYTRGRGPFQVVYVEHFETKEEAMKKEYAIKQLPRKEKWKLIRDNGNLKEVIKYEPTEQF PGPT0014225_58 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286 NA NA AK015_00890 867 rsmI COG0313 Ribosomal RNA small subunit methyltransferase I ATGAACCTACAGAACAGTTTTGACAAAGAAGGCGCAGCTGTTTACGTTGTACCTACACCAATTGGTAATTTAGAAGATATTACGTATCGCGCACTAACGACACTTCAGTCTGTATCTGTCATTGCTGCGGAGGATACGAGAAATACAAAAAATTTACTACGTCATTTTGAAATAACGACGCCGTTAATTAGCTATCATGAACATAATAAATTAGCTCGAGAAGAGCAGTTGTTATCGGAGCTAGAGCAAGGGGAATCCATTGCACTAGTAAGTGATGCTGGTATGCCAGCTATTTCTGACCCAGGACAAGAAATCATACAAGCTGCTATTAAGCAAGATATACCTGTTATTGTTTTACCAGGTGCGAATGCAGCACTATGTGCATTAGTTGGCTCTGGATTGCCTACGAGTGAATTTTATTTTTATGGATTTTTACCACGTAAGAAAAAAGAGAAAGTATTGGAGTTAGAGCGACTTGCCCCGCTGCAGGCTACGTTGCTGTTTTATGAATCACCTTATCGCTTGCGGGAATCGTTACAAGCAATGCGAAATGTATTTGGTAATCGACAAGTTGCATTTGCGAGAGAATTGACCAAGCGTTTTGAATCTTACTTACGTGGAACGCTTGATGAAGTAATTGCCCATGTAGATAAAGCTACAGTAAAAGGGGAATGCTGCATTGTATTAGAAGGAGCCACTGAAATAGAACAGCAAGATACTTTATGGTGGAGCAATTTAACGATCATAGAGCATGTGGAACATTATTTACAGGAAGAAGCTTTATCGAGCAAGGATGCCATTAAGCGTGTTGCGAAGGACAGGCAATTACCAAAGCGAGAAGTATATCAAAATTATCATGTAAGATAA MNLQNSFDKEGAAVYVVPTPIGNLEDITYRALTTLQSVSVIAAEDTRNTKNLLRHFEITTPLISYHEHNKLAREEQLLSELEQGESIALVSDAGMPAISDPGQEIIQAAIKQDIPVIVLPGANAALCALVGSGLPTSEFYFYGFLPRKKKEKVLELERLAPLQATLLFYESPYRLRESLQAMRNVFGNRQVAFARELTKRFESYLRGTLDEVIAHVDKATVKGECCIVLEGATEIEQQDTLWWSNLTIIEHVEHYLQEEALSSKDAIKRVAKDRQLPKREVYQNYHVR NA NA NA NA NA AK015_00891 279 abrB COG2002 Transition state regulatory protein AbrB TTGAAATCTACCGGAATTGTACGCAAAGTTGATGAGCTTGGCCGTGTAGTAATCCCGATGGAACTTCGGCGAACGCTGGAAATCCAAGAAAAAGATGCAATGGAAATCTACGTGGAAAACGACAAAATCATACTAAAGAAGTATAAACCAAACATGACATGTCATCTTACTGGCGAGGTATCCGATGATAATCTTTCACTAGCAAATGGCAAAATTGTGCTAAGCCAAGAAGGCGCACAACAACTTTTACAAGAAATAGAATCTAGACTGAATAAATAA MKSTGIVRKVDELGRVVIPMELRRTLEIQEKDAMEIYVENDKIILKKYKPNMTCHLTGEVSDDNLSLANGKIVLSQEGAQQLLQEIESRLNK PGPT0014790_244 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284 NA NA AK015_00892 1956 metG_1 Methionine--tRNA ligase ATGTCAAATAATGAAAACACATTTTATATAACTACACCAATTTATTACCCTAGTGGTAATTTGCATATTGGGCATGCATATTCAACAGTTGCCGGAGATGCAATGGCTCGATATAAACGGTTACGTGGTTTTGATGTGATGTATTTAACAGGAACAGATGAGCACGGACAAAAAATACAGAAGAAAGCTACTGAAAATGGCGTCTCACCACAGGAATATGTCGATCACATTGTGGATGGAATTCAAAAGCTATGGAAAAAACTAAAAATATCTAATGATGATTTTATCCGTACGACAGAAGAGCGTCATAAAAAAATTGTCGCTCAAATCTTTGATCAACTTGTTAAACAAGGTGACATTTATTTAGATGAATATGAAGGCTGGTACTGTACGTCTTGTGAATCCTTTTTTACGGAACGTCAACTAGATGATAGTCGTTGCCCAGATTGCGGTGGTCCAGTTGAGAAAGTGAAGGAAGAATCCTACTTCTTTAAAATGAGCAAGTATGTCGACCGTCTTGTTCAGTTTTATGAGGACAATCCAACTTTTATTCAACCTGAAAGTCGTAAAAATGAAATGCTAAATAATTTCATTAAACCAGGACTAGAGGATTTAGCTGTTTCTCGTACGACCTTTGATTGGGGGATTAAAGTTCCTGGTGATCCAAAACATGTTATTTATGTATGGATTGATGCCTTAACGAACTACATAACGGCATTAGGATATGGAACAGAGGATGACACAAAATATCAAAAATATTGGCCGGCAGATGTGCATTTAATGAGTAAAGAAATTGTACGTTTCCATACTATTTATTGGCCAATTATGTTAATGGCGCTAGATCTTCCGTTACCGAAAAAGGTGTTTGCACATGGTTGGATTTTAATGAAGGATGGAAAAATGTCGAAATCAAAAGGCAATGTGATTGACCCAGTTCAATTAATTGATCGTTATGGTTTAGATGCGCTTCGTTATTATTTGTTACGGGAAGTTCCTTTTGGATCAGATGGTGTATTTACGCCAGAAGGATTCGTAGAGCGGACGAATTATGATCTTGCAAATGATTTAGGTAACTTGTTAAATCGTACCGTTGCCATGATTAATAAGTATTTTGCCGGTAAAATGCCAGCATATCGAGCCTCAGAAACAGAATTCGATAGCGCATTAGAAGCGTTTGGCAAACAAACGATAGAAAAAGTGGAAGCAGCAATGGAGGAGATGCAGTTTTCTGTAGCATTAGGAGCTATATGGCAACTAATTAGTCGTACGAATAAATATATTGATGAGACAGAGCCATGGATGTTGGCAAAAGATGATGCTAACAAAGAACGACTAGGAAATGTCATGGCGCATTTGGCTGAGTACTTACGTAAGGCAGCTGTTATGCTACAGCCATTTCTGACAGAGGCTCCAGCTGAGATTTTCCGTCAGCTTGGTATAACAGAGGACAAGCTAAAAGAATGGAATAGTCTTTATGAAGAAGGGCATATTACATCAGAACGTATGGTTGTAAGTAAAGGCAAGCCAATTTTCCCACGTTTAGATGCAAAAGATGAAATACAAGCTATTAAAGCAATGATGAATCCACCTAAAACAAAGGAAGAAAAGGTGGAAGATAAGGCAGAAAAAGAACAAATTGTGTTTGATGATTTTATGAAAATTGATATGCGTGTCGCAGAAATATTACAAGCTGAGCCCGTAAAGAAAGCAGATAAGTTATTGAAACTACAGTTAGATTTAGGAACAGAGAAGCGCCAAATTATCTCAGGCATTGCTGAACATTACAAATCTGAAGAATTAGTTGGCAAAAAGGTCATCTGTGTAACGAATTTGAAGCCTGTTACATTACGTGGAGAAAAATCTGAAGGAATGATTCTCTCTGGAGAGGATGCGACCGGGAAGCTATCTTTAGCTTCTGTGGAGAACTCTCTTCCGAATGGTTCCGTTGTAAAATAG MSNNENTFYITTPIYYPSGNLHIGHAYSTVAGDAMARYKRLRGFDVMYLTGTDEHGQKIQKKATENGVSPQEYVDHIVDGIQKLWKKLKISNDDFIRTTEERHKKIVAQIFDQLVKQGDIYLDEYEGWYCTSCESFFTERQLDDSRCPDCGGPVEKVKEESYFFKMSKYVDRLVQFYEDNPTFIQPESRKNEMLNNFIKPGLEDLAVSRTTFDWGIKVPGDPKHVIYVWIDALTNYITALGYGTEDDTKYQKYWPADVHLMSKEIVRFHTIYWPIMLMALDLPLPKKVFAHGWILMKDGKMSKSKGNVIDPVQLIDRYGLDALRYYLLREVPFGSDGVFTPEGFVERTNYDLANDLGNLLNRTVAMINKYFAGKMPAYRASETEFDSALEAFGKQTIEKVEAAMEEMQFSVALGAIWQLISRTNKYIDETEPWMLAKDDANKERLGNVMAHLAEYLRKAAVMLQPFLTEAPAEIFRQLGITEDKLKEWNSLYEEGHITSERMVVSKGKPIFPRLDAKDEIQAIKAMMNPPKTKEEKVEDKAEKEQIVFDDFMKIDMRVAEILQAEPVKKADKLLKLQLDLGTEKRQIISGIAEHYKSEELVGKKVICVTNLKPVTLRGEKSEGMILSGEDATGKLSLASVENSLPNGSVVK NA NA NA NA NA AK015_00893 768 dtd3 D-aminoacyl-tRNA deacylase TTGTTATTTGATACCCATGTTCATTTAAATGCAAGAAATTTTTTTGAAGATCGTGACGAAATCATTCAACGAGCTTTTGATGCTGGGGTAACACATATGGTGGTCGTCGGTTTTGATCGCGCTACTATTCCACTAGCAATCGAAATCGCAGAACAGTATGAAACCATATATGCAGCTGTAGGTTGGCACCCTGTAGATGCGGTGGATATGACAGAGCAGGATTTGGAATGGATAGAAGAGTTATCATCTCATCCGAAAGTAGTAGCACTTGGAGAAATGGGATTGGATTATCATTGGGATAAGTCACCGAAAGATGTGCAAAAAGAAGTGTTCCGTAAACAAATTCGGCTAGCAAAGAAACTCCAAATGCCGATTATTATTCATAATCGTGAAGCAACGGAAGATATTATTGCGATTTTACAGGAAGAGCAGGCGGCATCAGTAGGCGGGATCATGCATTGCTATAATGATTCGGTAGATTATATACAGGATTGCCTGGATATGAATTTTTACATTTCTTTAGGAGGAACTGTAACATTTAAAAATGCGACATTACCAAAAGAAGTTGCCGTTAAAGTTCCGTTAGATCGATTATTAATTGAGACCGATGCGCCGTTTTTGGCTCCACATCCATATCGAGGGAAAAGGAATGAACCTGCATATGTAACATTAGTTGCTGAAAAAATTGCAGCGTTACGTGGGATGAGTTTGGAAGAAGTCGGGGAAATAACTACAAAAAATGCACATACGCTCTTCCGTTTATCATAA MLFDTHVHLNARNFFEDRDEIIQRAFDAGVTHMVVVGFDRATIPLAIEIAEQYETIYAAVGWHPVDAVDMTEQDLEWIEELSSHPKVVALGEMGLDYHWDKSPKDVQKEVFRKQIRLAKKLQMPIIIHNREATEDIIAILQEEQAASVGGIMHCYNDSVDYIQDCLDMNFYISLGGTVTFKNATLPKEVAVKVPLDRLLIETDAPFLAPHPYRGKRNEPAYVTLVAEKIAALRGMSLEEVGEITTKNAHTLFRLS NA NA NA NA NA AK015_00894 1257 hypothetical protein ATGCGAAAGGTATCAAAGTTAATGCCTGCATCGACAATGAAACTGGTTTTATCTTTTATTGGGATTTTAGCACTTATTACTTTTTCCGGATTCATTGTATTTGATGCGACAAAGGCAGAAATCGTCATTCATAAAGATGGCGAAGAACAAACGGTAAAGACACATCAAAACACCGTAGAAGAAGCGCTAGCAGAAGCAGGCATTCAGGTTGGCGAGCATGATTACTTGTCCCACAGCATGGACGATTCCATTAAAGACGGAATGGAAATCAGCTATAAGCAAGCGAAGCAAGTGTTCGTGACAGTGAATGGGAAACAGACAGACTATTATACAACAGCAAATACGATAGATAAATTTTTGCAAGAGAATGACCTGTCGTACCATGAGCGTGACAATGTATCTTTTGCTAAAGGTGATAAAATTACAGATGGATTACACTTAGAAATTGACCAAGCATATGAGATTACAATAAACGACGGTACAGATGAAAAGCACGTGTGGACGACTGGTGGAACAGTAGCAGAAGTGCTTAAAGAATCCAATGTAAAAGTGGATAAAGATAGCGATGATAAAGTGAAGCCTAGTTTAAGTAAACAAGTTACAAAAGATACTGTTATTTCAGTTGTTCGTGTTGATAAAGAAAGAGACGAGGTAACGGAAGCGCTCGCATTTGACACAGAGGAAAGAGAAGACAGTGATCTCGCAAAAGGCGAGGAAAAGGTTGTAACTAAAGGTAAAGCTGGTAAAGTAAAGAAGATTTACGAAATAGTAACAGAAAACGGAAAAGAAATAGATAGAAAATTAATTAGTAAAGAGATTATTGAAGAAAGTGAAAATCAAGTTGTTGCAATTGGAACGAAAGAACCGCAACAGAAACAAAATTTAGTTACATTATCCAACAAACAACCAAAATCAAAACATAAAACAAACGGTTCACCTGTTCCTGGTAAAAAGCAAAAAGGTTCAGGAAAAACGTTTACAATGTCAGCAAGCGCGTATACTGCTAGCTGTAACGGATGTTCTGGATTCACTACTACAGGGATTGATTTAAACGCTAATCCCAATCGAAAAGTAATTGCTGTTGATCCAAGCGTTATTCCTTTAGGCTCAAGAGTTTGGGTGCAAGGATACGGAGAAGCAATTGCTGGAGATACGGGTGGTCATATTGTTGGAAATCGAATTGATGTACACGTTCCTTCCAAAAAGGCTGCTTATCGTTGGGGTGTGAAAACCGTAACTGTGAAAGTGCTTAATTAG MRKVSKLMPASTMKLVLSFIGILALITFSGFIVFDATKAEIVIHKDGEEQTVKTHQNTVEEALAEAGIQVGEHDYLSHSMDDSIKDGMEISYKQAKQVFVTVNGKQTDYYTTANTIDKFLQENDLSYHERDNVSFAKGDKITDGLHLEIDQAYEITINDGTDEKHVWTTGGTVAEVLKESNVKVDKDSDDKVKPSLSKQVTKDTVISVVRVDKERDEVTEALAFDTEEREDSDLAKGEEKVVTKGKAGKVKKIYEIVTENGKEIDRKLISKEIIEESENQVVAIGTKEPQQKQNLVTLSNKQPKSKHKTNGSPVPGKKQKGSGKTFTMSASAYTASCNGCSGFTTTGIDLNANPNRKVIAVDPSVIPLGSRVWVQGYGEAIAGDTGGHIVGNRIDVHVPSKKAAYRWGVKTVTVKVLN NA NA NA NA NA AK015_00895 786 hypothetical protein ATGACAGCGATACAACAAAGATGCTCGGCTCTTTCAAACAGCCCAGTATTTATGAATATCATCATTAGCTTAATTATTATAAATGCTATATTAATAGGGCTAGAAACGTATCCGCAGATTGCGAATACATACGGACATTGGCTAATGGTCATTGATGCAACTTTGCTGTGGATATTTACCGTGGAAATCGTCATTCGTTTAATTGGAAGCACATCTATCAAAGCTTTTTTCACAGATCCTTGGAGTGTTTTTGATTTTGTCATTGTACTAAGTGGGCATCTACTAGTAGGCTCCTATGTAACAGTACTAAGGATTTTGCGAGTGCTTCGCGTTTTACGTGCAATTTCCATTATTCCTTCATTGCGAAAAATGGTCAACGCCTTGTTACTAACCATACCATCAATGGGAACGATTTTACTGTTATTAGGATTATTTTTCTATGTGTATGGCGTAATTGGAACGTTACTCTACCATTCTATCGCTCCAGAATATTTTGGCACCCTGCATCAATCACTGTTAACTTTGTTTCAAGTTATTACCTTAGAATCTTGGGCAAGTGGTGTGATGCGACCTATTTTAGCAGAAGATCCATCTTCTTGGTGGTATTTTGTGACGTTCATTTTAATTGGTGCTTTCGTTATTGTAAACTTATTTGTCGGTGTTGTGGTAAACAATGTGGAAGAAGCAAATAGGGAAGAATCACCTTCCCCAACGGATATAAAGCTCGCAGAATTACAAGAAGAGCTGGCAGAAATTAAACAGCTATTACGTAAGCAAAAGGATTAA MTAIQQRCSALSNSPVFMNIIISLIIINAILIGLETYPQIANTYGHWLMVIDATLLWIFTVEIVIRLIGSTSIKAFFTDPWSVFDFVIVLSGHLLVGSYVTVLRILRVLRVLRAISIIPSLRKMVNALLLTIPSMGTILLLLGLFFYVYGVIGTLLYHSIAPEYFGTLHQSLLTLFQVITLESWASGVMRPILAEDPSSWWYFVTFILIGAFVIVNLFVGVVVNNVEEANREESPSPTDIKLAELQEELAEIKQLLRKQKD NA NA NA NA NA AK015_00896 1023 hypothetical protein ATGTCTAAACAAAAAACCTTTCATCGCATTCCACTATCGGTGTTAGATTTAGCTCCGGTAAATGAAGGTAGTAATCCAAGGGAATCTTTTCAACATAGTGTGGAATTAGCAAAGCATGTAGAAGCGCTCGGATTTAACCGTTATTGGTTAGCGGAGCATCATAATATGCCTGGTATCGCGAGTTCAGCAACCTCTGTTCTAATCGGACATATTGCCGAAAAAACGAACCATATTCGGGTGGGTGCAGGCGGGGTTATGTTGCCTAATCATGCGACACTCGTCATTGCTGAACAGTTTGGAACGTTAGAGTCGCTTTACCCAGGTAGAATAGATCTAGGGCTAGGGCGAGCGCCTGGAACAGACCAAGCAACGTCATATGCTTTGCGTAGAACGTTAAACATGCGTGTGGAAGATTTTCCGATGCAAGTAAATGAATTACAGGACTATTTTGCCAAAGAACCAATATCTAAAGTGAAAGCTGTGCCTGGTCAAGGTTTGAATATTCCTATTTGGCTATTAGGCTCCAGTGACTTTAGCGCCAGATTAGCTGCACAAAAGGGATTGCCTTTCTCGTTTGCTAGTCACTTTGCTCCCGCATATACCATACCAGCTTTACGACTATACAGGGAGCAATTCCAAGCATCGGAACAACTTCAGAAGCCTCATGCCATGGTAGGTGTGAACGTTATTGCAGCAGATACAGATGAAAAAGCAAATTATATTGCTACCTCGTTGCAACAACAGTTCTTGCATTTACGTCGTGGACAACCGACGAAGCTTAAAGCACCAATAGAAAATGTGGAAGCACATTTCTCTGAATTCGAATTGCAAGCTATTAAGCAAACACTTGATCCAACAACAACCATTATTGGTAGCAAAGAAACCGTTAAACAAGGGCTAGAGCATTTCTTGGAGAAAACAGAAGCGGATGAAATGATTATTAGTTCACAAATCTACCATTTAGAGAATCGCTTGCGTTCCTTTGAAATAATTAGCGAATTAATGGACGAAACAAATAGCTAG MSKQKTFHRIPLSVLDLAPVNEGSNPRESFQHSVELAKHVEALGFNRYWLAEHHNMPGIASSATSVLIGHIAEKTNHIRVGAGGVMLPNHATLVIAEQFGTLESLYPGRIDLGLGRAPGTDQATSYALRRTLNMRVEDFPMQVNELQDYFAKEPISKVKAVPGQGLNIPIWLLGSSDFSARLAAQKGLPFSFASHFAPAYTIPALRLYREQFQASEQLQKPHAMVGVNVIAADTDEKANYIATSLQQQFLHLRRGQPTKLKAPIENVEAHFSEFELQAIKQTLDPTTTIIGSKETVKQGLEHFLEKTEADEMIISSQIYHLENRLRSFEIISELMDETNS 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 AK015_00897 4674 gltA COG0067 Glutamate synthase [NADPH] large chain TTGCAGGGTGATTTTTCGAAATCATCAAACAAGGAAACCGACATAACAGATGTCAAGAAAGGGGACAGTTGGATGACAAAAAAGGATTACCCGAAAGTGCAAGGATTGTATCATCCTGACTTTGAACATGAAGCCTGTGGCATTGGGATGATTGCCAATATTAACGGAAAGAAAACACATAATATTGTGCAAAATGCCATCAATCTATTGTGTAATATGGAACACAGAGGCGGCCAATCTGCCGATACGAGTACTGGTGATGGAGCAGGAATTTTAACACAAATACCAGATCGCTTCTTTCAAAAGCAATGTGCCAAAGAAGGGATAAAACTCCCTGCTCAAGGGGAGTACGGTGTAGGAATGCTCTTTCTTCCTAAGGATCATGAAGTTCGTTTGCAAACAAAAGCAATGTTTGAACAGATTATACGTGAAGAAGGTCAGCATTTTCTTGGCTGGAGACCTGTACCGACGAATGAATCATTTATAGGCAAATTGGCAATGAAGAAAAAGCCGACAATACGGCAAATCTTCATTCAAAAAGCAACAGATATAAAAGATCAACAAGCTTTTGAACGTAAATTATATGTGATTCGTAAACGAATGGAACAAGCCGCATCACTCCACCCAGAGCTTGAAGATGTGTATATTTGTAGTCTCTCAACAACGACCATTGTTTATAAGGGGATGCTTATCCCCGAACAGTTAGATGCGTTTTATATTGATTTAAACCACCCAGATTTTAAATCAGCACTTGCTTTAGTGCATTCCAGATTTAGTACGAATACTTTTCCAAGCTGGAAAAGATCCCACCCAAATCGATACACGATTCATAATGGCGAATTTAATACATTACGTGGCAATGTCAATTGGATGCGAGCACGAGAAAAATTATGTTCTTCTCCTTATTTTTCCGAAGTAGATATGCAAAAGATGCTTCCCGTTATTGATTATGATGGCAGTGATTCATCTATATTCGATAATACGTTTGAATTTTTGCATTTATCAGGAAGGTCTTTAGCACATACTGCCATGATGATGATACCTGAATCATGGGCAAATGATACGACGATGCGTGCGGAACGGCGCGACTTTTATGATTACCACAGTTCATTAATGGAGCCTTGGGATGGGCCAGCAGCACTTGTTTTTTCCGATGGTAGACAAATAGGAGCTTGTTTAGATCGTAATGGTTTGCGCCCTGCTCGGTATTATGTTACGAAAGACGGCATGATTGTGCTTGGGTCTGAGGTAGGCGCATTAGATATTTTTGCCGATGATATTCTTTATAAACGGCGACTGGAGTCAGGTCGTATGTTATTAGTGGATTTGGAGAAAGGGATTATTGTCCCAGATGATGATATTAAGTTACAAGTTGCTACGGAACAGCCTTATAAAGCATGGTTACAAAATAAAGTGGCACTCGAAGATATCCCAGATATACAAGCGCAATCGGTAAGACAAGAAGAAAATGTGTTGGTTCAGCAACAAGCCTTTGGTTATACAAGAGAGGATCTACAAAAAATAATGAAACCCTTGGTGAAGGATGGGAAAGATCCAATTGGTTCCATGGGATATGATTCGCCACTAGCCGTATTATCGAAAAAACCTCAATTATTATACAACTATTTTAAACAACTTTTTGCCCAAGTGACCAATCCACCAATCGACGCTATTCGAGAGAAATTAATTACTATGAAAGAAACGAGTATTGGAGCAGAAGGGAATCTAGTGCGACCAACAGCAGATAGCTGTCGGCAAATACGATTACAAACCCCTATTCTAACGTGTAAGGAATTAGATAAAATACGTTATCAACAGTTAGAAGGGTTAAAGGCAACCACGTTGTCTATTCATTTTCGTGTGCATGCAACAGAAAATAAATTAGAAACAGCATTGCAGCATCTGTTTGCAGAAGCTGACCAAGCTGTAGAGAACGGAGCGGTACTGATAATTTTGTCAGATCGTGGCATCGATCAGCGGAAGGCAGCCATTCCTGCTCTATTAGCTGTGTCAGGATTGCATCATCATTTTATTCGCAAAGGGATGCGAACAAAGATTAGCTTATTGGTTGAAACAGGGGAAGCGCGTGAAGTTCATCATTTTGCTACATTGCTTGGTTATGGTGCTGAAGCAATTACGCCTTATTTAGCCCACCAAACGATAGAAGCAATGGTTGCATCGGAGGAAATTACTACATTTTCAGCGGTGAAGGCAATTCAAACATATAACCAATCCGTGACAAATGGAATTATTAAAGTGCTGTCGAAAATGGGGATTTCAACGATTCAAAGTTACTGTGGGGCGCAAATTTTTGAAGCAATAGGCATAAATAAAGACGTTATTGACAACTATTTTACACATACAGCTTCTAGATTGGGTGGAATTGGGTTAGATATAATCGAACAAGAAACGCGTATGCGACATGAGCGAGCATTTAATCCGACGCGTGGGGGAAATAGCACTCTGGAATCAGGGGATGAATATCAATACCGCAAAGATGGGGAGGACCATCAATACAATCCTCAAACGATTCATACTTTGCAGCATGCTTGTCGTACTGGAAATTATGAATTGTTTCAGGAGTATTCAAAGCTATTGACCGACGAAAGAAAGAATTTGCAGTCGTTACGTGGGTTGTTAACCTTTAAGAAACGCAAGTCAATCCCAATAGAAGAAGTAGAATCTGTTGCCTCTATATGTGCGAGATTTAAGACAGGCGCTATGTCATTTGGTTCGATTAGTAAAGAAGCGCATGAAACGTTAGCAATTGCTATGAACCGGATAGGAGGGCGGAGTAATAGTGGAGAAGGTGGCGAATCGCCTGATCGCTTTACCCGTGATGCCAACGGTGACTTACGACGCAGTGCAATTAAACAAGTTGCTTCAGGAAGGTTTGGTGTTAACAGTCATTATCTTGTCCATGCAGATGAAATCCAAATTAAGGTTGCACAAGGAGCAAAGCCTGGAGAAGGAGGACAGCTACCAGCCAATAAGGTGTATCCATGGGTGGCAGAAGTTCGCGGATCTACTCCAGGGGTTGAACTTATTTCCCCGCCTCCACATCACGACATTTATTCCATTGAAGATTTGGCGGAGCTTATTTACAATTTAAAAAATGCAAATCCAAAGGCCCGTATTAGCGTGAAACTTGTTGCCGCGGTGGGGGTTGGAACAATTGCTGCTGGCGTCGCTAAAGGGCGTGCTGACCTTGTATTAATTAGTGGTTATGATGGTGGTACAGGTGCTGCTCCAAGAACGAGTATGAAGCACACTGGACTACCATGGGAAATTGGTTTAGCAGAGACGCATCAAACATTATTATTAAACGGACTAAGAGACCGAATTGTTGTCGAAACAGATGGAAAGATGATGACAGGACGAGACGTTGTCATCGCTAGTCTGTTAGGAGCAGAAGAATATGGGTTTTCCACAGCACCTTTAGTGGCGCTTGGTTGTGTAATGATGCGGGTCTGTCACTTAGATACTTGTCCAGTGGGTATAGCAACCCAAAATCCAGAGTTACGGAAGAAATTTACGGGAGACCCTGATCACGTCGTCAATTTTATGACATTTATTGCCCAGGAAGCACGTGAAATGATGGCATCTTTAGGCTTTCGAACCATTAATGAAATGATTGGTAGAACGGATGTTTTAGAAGTCAACGAAAGTATTGCGCATTGGAAGGCAAAAGGGATTGATTTATCAGCGCTTCTTTATCAGCCAGATGTACCGGACTCCGTAGGGCGCTATGCAACGATGGACCAACAGCATGGCATTGAAAAAACATTGGATTTCCAGGAGTTAATTCCAAATTGTCGCGAGGCTTTGGAACACAAGCAGCCCGTCGAATTTACAACAGCCATTCGGAATATAAACAGAGTGACGGGTACATTATTAGGAAGTGAAGTGACGCGGCGTTACGGAGAAGAAGGTTTGCCGGAAGATACCATTAAACTGAATTTTTGCGGATCTGCTGGACAAAGCTTTGGTGCATTTATTCCACCAGGTATGACTTTGCGGTTAATTGGAGATGCCAATGATTTTGTCGGAAAAGGGTTATCTGGCGGTAAACTGATTGTGCATCCTGACCCAATTGTTACCTTTGCTCCCGAAAAGAACACCATTATTGGAAACGTAGCGTTTTACGGGGCATCTCGTGGAGAAGCTTTTATTCGTGGTATTGCTGGCGAACGTTTTGCCGTTAGAAATAGTGGCGCTACTCTAGTTGTTGAAGGTGTCGGTGACCATGGGTGTGAATATATGACTGGTGGAACCGTGGTCGTTCTTGGTAAAATAGGACGAAATTTTGCAGCTGGTATGTCTGGTGGAACGGCTTATGTACTAGATGAAGAAGGAATATTTCGTTCTCATCTAAACGGGGAATTAGTTGCCGTACAATCGTTAACGGACGAGCGAGAGATTGGTCAGCTTGCACAATTAGTAAAACAGCATGCCTCAGCAACGAATAGTAGTCATGCGGAGCGTATTTTAAACTATTGGGACAAATATGTACATCAATTTGTGAAAGTTGTTCCAATTGCTTATGTGCAAATGCAAGAAAAAATCCAAGCTTTAAAAGACCAAGGATATAGCAAATTTGATGCAGAAATGGCTGCGTTTCAAGCAAGTAAGCAAGGAGAGAAAGTGGAAAAACCAGTAGGTGTTCTGCATTAG MQGDFSKSSNKETDITDVKKGDSWMTKKDYPKVQGLYHPDFEHEACGIGMIANINGKKTHNIVQNAINLLCNMEHRGGQSADTSTGDGAGILTQIPDRFFQKQCAKEGIKLPAQGEYGVGMLFLPKDHEVRLQTKAMFEQIIREEGQHFLGWRPVPTNESFIGKLAMKKKPTIRQIFIQKATDIKDQQAFERKLYVIRKRMEQAASLHPELEDVYICSLSTTTIVYKGMLIPEQLDAFYIDLNHPDFKSALALVHSRFSTNTFPSWKRSHPNRYTIHNGEFNTLRGNVNWMRAREKLCSSPYFSEVDMQKMLPVIDYDGSDSSIFDNTFEFLHLSGRSLAHTAMMMIPESWANDTTMRAERRDFYDYHSSLMEPWDGPAALVFSDGRQIGACLDRNGLRPARYYVTKDGMIVLGSEVGALDIFADDILYKRRLESGRMLLVDLEKGIIVPDDDIKLQVATEQPYKAWLQNKVALEDIPDIQAQSVRQEENVLVQQQAFGYTREDLQKIMKPLVKDGKDPIGSMGYDSPLAVLSKKPQLLYNYFKQLFAQVTNPPIDAIREKLITMKETSIGAEGNLVRPTADSCRQIRLQTPILTCKELDKIRYQQLEGLKATTLSIHFRVHATENKLETALQHLFAEADQAVENGAVLIILSDRGIDQRKAAIPALLAVSGLHHHFIRKGMRTKISLLVETGEAREVHHFATLLGYGAEAITPYLAHQTIEAMVASEEITTFSAVKAIQTYNQSVTNGIIKVLSKMGISTIQSYCGAQIFEAIGINKDVIDNYFTHTASRLGGIGLDIIEQETRMRHERAFNPTRGGNSTLESGDEYQYRKDGEDHQYNPQTIHTLQHACRTGNYELFQEYSKLLTDERKNLQSLRGLLTFKKRKSIPIEEVESVASICARFKTGAMSFGSISKEAHETLAIAMNRIGGRSNSGEGGESPDRFTRDANGDLRRSAIKQVASGRFGVNSHYLVHADEIQIKVAQGAKPGEGGQLPANKVYPWVAEVRGSTPGVELISPPPHHDIYSIEDLAELIYNLKNANPKARISVKLVAAVGVGTIAAGVAKGRADLVLISGYDGGTGAAPRTSMKHTGLPWEIGLAETHQTLLLNGLRDRIVVETDGKMMTGRDVVIASLLGAEEYGFSTAPLVALGCVMMRVCHLDTCPVGIATQNPELRKKFTGDPDHVVNFMTFIAQEAREMMASLGFRTINEMIGRTDVLEVNESIAHWKAKGIDLSALLYQPDVPDSVGRYATMDQQHGIEKTLDFQELIPNCREALEHKQPVEFTTAIRNINRVTGTLLGSEVTRRYGEEGLPEDTIKLNFCGSAGQSFGAFIPPGMTLRLIGDANDFVGKGLSGGKLIVHPDPIVTFAPEKNTIIGNVAFYGASRGEAFIRGIAGERFAVRNSGATLVVEGVGDHGCEYMTGGTVVVLGKIGRNFAAGMSGGTAYVLDEEGIFRSHLNGELVAVQSLTDEREIGQLAQLVKQHASATNSSHAERILNYWDKYVHQFVKVVPIAYVQMQEKIQALKDQGYSKFDAEMAAFQASKQGEKVEKPVGVLH PGPT0000635_649 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265 NA NA AK015_00898 1488 gltB COG0493 Glutamate synthase [NADPH] small chain ATGGGGAAACAGACTGGATTCATGGAATATACAAGACAAACGAGAAATGGGCGAGATGCAAAAGAACGGACGAAAGACTGGTTCGATTACACCATTCCTTTAAGTGAAACAGAAGTGCAAAAGCAAGGTGCGCGCTGTATGGACTGTGGTGTGCCAACATGCCATGTAGGTATGGAAATAGAGGGCGTTACTTCCGGTTGCCCTGTATATCATTTTATTCCCGAATGGAACGAATTGGTTTATGAAAGACGATGGCAGGAAGCGTTAGCGCGTGAACATGAGCAAAATAATTTTCCTGAATTCACCGGTATTGCTTGCCCCGCCCCTTGTGAAGGAGCTTGTGTGCTAGGAATTAATGAGCCACCTGTGGCAATTCGAACAGTAGAGCGTTCCATTATTGAAAAAGGATTTGCAGAAGGGTGGGTAGTGCCGAATATACCAACGAAGCGGACGGGGAAAAAAGTTGCTGTTGTAGGTTCAGGACCTACAGGTTTAGCTGCTGCTGCACAGTTAAATAAAGCAGGGCATCTTGTGACGGTGTTTGAACGTGATGATCGAATTGGTGGCCTGCTCACATATGGGATTCCAGAAATGAAGCTCTCGTATGATATCGTCATGCGGCGTGTAAGAATCTTACAACAAGAAGGAATTACATTTATTACGAATACGGAAATAGGAAAAGATCAGACGTATGAAGCGTTAAAAAATGAATTTGATGCCATTCTTCTTTGTGGAGGAGCAACCGTCCACCGTGATGTTCAAGTCGAAGGAAGTCATCTGAAAGGTATTCATCGGGCGATGGACTTTCTTCATGCGAACACGAAAAGTTTATTAGATTCCAATTTACAGGATGAAAATTATATTTCTGCACGTGACAAAGATGTCATCGTTATTGGGGGTGGTGATACAGGAACCGATTGTTTGGCAACCGCAGTGCGTCATCATTGTAAAAGTCTTACACAATTTGATATTTATGATAAAAAAGGACTTACACGTGATAGCGACACAAATCCATGGCCACAATATCCTAAAATACATCGTGTAGAATATGGGCATAAAGAAGCCGCTAGTGTGTTTGGTGATGATCCGAGAGCCTATGCGGTCATGACGAAGAGGTTTGTCGGTGATGGTAAAGGTCATGTGAAAGAGGTTCATACGGTTGCTGTGAAACTTCGCTATGATGCAGAAGGAAATAAAATTCGCGAAGAAATTCCGGGAACAGAAAAAGTTTGGCCTGCGGATTTAGTTCTTATTGCCATTGGTTTTAAAGGTCCAGAGCAAGGCTTGCTTGAGCAAATAGGCGTAAAGACGACAGAAAAATCCACTGTAGCCGCAGAGCATGATGATTATCGGACGAATGTAGAAGGTGTGTTTGCCGCAGGAGATATGCGTCGAGGGCAGAGTCTCATTGTTTGGGCAATTAACGAAGGACGTGGTGTAGCAAGAGAATGTGATCGTTACTTAATGGGAGAAACCGTGTTGCCTTAA MGKQTGFMEYTRQTRNGRDAKERTKDWFDYTIPLSETEVQKQGARCMDCGVPTCHVGMEIEGVTSGCPVYHFIPEWNELVYERRWQEALAREHEQNNFPEFTGIACPAPCEGACVLGINEPPVAIRTVERSIIEKGFAEGWVVPNIPTKRTGKKVAVVGSGPTGLAAAAQLNKAGHLVTVFERDDRIGGLLTYGIPEMKLSYDIVMRRVRILQQEGITFITNTEIGKDQTYEALKNEFDAILLCGGATVHRDVQVEGSHLKGIHRAMDFLHANTKSLLDSNLQDENYISARDKDVIVIGGGDTGTDCLATAVRHHCKSLTQFDIYDKKGLTRDSDTNPWPQYPKIHRVEYGHKEAASVFGDDPRAYAVMTKRFVGDGKGHVKEVHTVAVKLRYDAEGNKIREEIPGTEKVWPADLVLIAIGFKGPEQGLLEQIGVKTTEKSTVAAEHDDYRTNVEGVFAAGDMRRGQSLIVWAINEGRGVARECDRYLMGETVLP PGPT0000640_648 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266 NA NA AK015_00899 1068 rlmN putative dual-specificity RNA methyltransferase RlmN ATGAGTAAATCATCCATTTATGGATTAACATATGAACAGCTGAAGGATTGGCTCATGGAACATGGGCAGCAACGATTTCGTGTCGATCAGGTGTGGAACTGGCTGTATAAGAAACGTATTCATCAATTTTCGGACATGAAAAATGTGAACAAACAGACGATCGCGCTGTTGGAAGAGCATTTTGTACTAGGAACGTTAGAAGAAGAAATAAAGCAGGAATCAAAAGACGGCACGATTAAATTTTTGTTTCGTTTAGCAGATGGTAACTTAATTGAAACGGTGTTAATGCGGTTTAATTATGGTTTATCTGTTTGTGTAACCACACAGGTAGGCTGTAATATTGGCTGTAGCTTCTGTGCAAGTGGGTTATTAAGCAAAAGCCGCGACTTAACAAGTGGGGAAATCGTCGAACAGATTATGATGGTGCAAAAGCATTTAGATACGCGGGAAAAAGATGAAAGAGTAAGCCATATTGTTGTCATGGGTATCGGTGAACCGTTGGATAATTTTACTCATTTGATGGATTTCATATATGTTGTCAATGATGATAAAGGTTTAAACATTGGAGCTAGACATATTACCGTATCGACAAGCGGGCTCGCTCATAAAATTTATCAATTTGCCGATACAGGTGTGCAAGTAAATTTAGCGATTTCCCTTCATGCACCAAACAATGAATTGCGCCGCAGTATTATGAAGATTAATAAGGCGTTTCCTATTGAAAAGCTGATGAAGTCTGTTGATTACTATTTGGAAAAGACGAATCGTCGTATTACGTATGAATATATTATGCTGAAAGATGTTAATGATCATAAGGAAGAAGCGATACAGTTGGCTAAGTTATTGAAGAATCACCGTAAATTAGCCTATGTGAATTTGATTCCTTACAATCCAGTAGACGAGCACAGTCATTATCAACGTAGTGATTCGGAAACCATTCAAGCGTTTTTTGAAACATTAAAGGATCAAGGTATTCATTGTGGCGTACGTTGGGAAAACGGAGCCGATATTGACGCTGCTTGTGGTCAATTAAGAAGTAAACAAATCAAAAAAGAAACAGCAAAATAA MSKSSIYGLTYEQLKDWLMEHGQQRFRVDQVWNWLYKKRIHQFSDMKNVNKQTIALLEEHFVLGTLEEEIKQESKDGTIKFLFRLADGNLIETVLMRFNYGLSVCVTTQVGCNIGCSFCASGLLSKSRDLTSGEIVEQIMMVQKHLDTREKDERVSHIVVMGIGEPLDNFTHLMDFIYVVNDDKGLNIGARHITVSTSGLAHKIYQFADTGVQVNLAISLHAPNNELRRSIMKINKAFPIEKLMKSVDYYLEKTNRRITYEYIMLKDVNDHKEEAIQLAKLLKNHRKLAYVNLIPYNPVDEHSHYQRSDSETIQAFFETLKDQGIHCGVRWENGADIDAACGQLRSKQIKKETAK NA NA NA NA NA AK015_00900 306 hypothetical protein ATGGTTTTATGTTGGCAAGCTTTGACAGACTATCAAATTCTGTCGAAAGTGATGACGCCATTATTTTTAAAACCACGTGAGGTCGTTAGCGCGAAACAAAATATATACTATGGTTACTGTGGCTATATGGAATTAGATGATCAAAAGGAAATAGTTAAGTATATTCAGATGGGATATGACCCAGGAGTTTTTTTCCGTGCTGTCCATTATCCCACCACAAAAGCTTCTGTTGTAGTTTGCTCCAACACATCAGAAGGAGCCTATGAACTTCTGAAAGATAAAGAAATTGAAAACATGTTAACGTAA MVLCWQALTDYQILSKVMTPLFLKPREVVSAKQNIYYGYCGYMELDDQKEIVKYIQMGYDPGVFFRAVHYPTTKASVVVCSNTSEGAYELLKDKEIENMLT NA NA NA NA NA AK015_00901 393 hypothetical protein ATGAGCAAAAAAATCATTCTCTTTGACGGTGTCTGTCATTTCTGTGATCAAAGCGTGCAATTTATTTTACAACGCGATAAACAAGAACAATTTTTATTCGCTTCCTTACAAGGCGATGCCGGTCAGAAATTGGTACAAAAATATAACATTCCTAATGATTTAAGCAGTTTAATATTGATTGATAACACTAAGTACTACAATAAATCAACAGCTGCACTACGTATTTGCAGAGAGTTATCAGGCGGTTGGAAATTCCTATATGCATTTATTGTTCTACCTAAGCCCATTCGCGACTTCTTTTACGATCGCATTGCTAATAACCGCTATCGTTGGTTTGGAAAAAAAGATAGCTGCGAACTTCCACCACCACATGTTAGAAAACGATTTCTGTAG MSKKIILFDGVCHFCDQSVQFILQRDKQEQFLFASLQGDAGQKLVQKYNIPNDLSSLILIDNTKYYNKSTAALRICRELSGGWKFLYAFIVLPKPIRDFFYDRIANNRYRWFGKKDSCELPPPHVRKRFL NA NA NA NA NA AK015_00902 2046 katE COG0753 Catalase HPII ATGTCAGACCATAAACAAGGTCAAACAAAACAAGAACAATTAGATGCTTACCGTGTTGATGATAAAGGGAAAAAGATGACCACGAACCAAGGATTAAACGTATCCGAGGATGAGTTCTCATTAAAAGCCGGAGTACGTGGACCGACCATTATGGAAGACTTTCATTTTCGGGAAAAAATGACCCATTTTGATCATGAGCGTATACCTGAACGGGTGGTACATGCAAGAGGATATGCAGCACATGGCGTTTTTGAAGTGTATGAATCAATGGAACAATATACAAAAGCCGATTTCTTAAAAGAAAAAGGGAAACAAACACCCGTATTTGTAAGATTTTCAACGGTTGCTGGATCAAAAGGGTCTGGAGAACTAGCTCGCGATGTAAGGGGATTTGCTACGAAATTTTATACGGAAGAAGGAAATTATGATTTAGTGGGAAATAATATGCCTGTTTTTTTTATCCAAGATGCCATTAAATTTCCTGATTTAATTCATGCTGTGAAGCCCGAGCCACATACGGGTATACCGCAAGCCGCTTCTGCCCATGATACGTTTTGGGATTTTGTAGCAAATAATCAAGAAACAGCACATATGGTGATGTGGCAAATGTCAGATCGAGCCATTCCACGTAGTTTTCGCATGATGGAAGGGTTTGGCGTGCACACATTTCGGTTTGTAAATGAGATGGGAGAAGCTACGTTTGTGAAATTTCATTGGAAGCCAAAGCTAGGCGTGCATTCAACTGTCTGGGATGAAGCACAAAAAATAAATGGGAAAAATCCAGATTTCCATCGTCAAGATTTGTATGAGGCGATTGAAAACGGAGCTTACCCTGAATTTGAGTTAGGTGTGCAACTAATTTCAGAAGAAGACGCCAATGCATTCGATTACGATATATTAGACCCAACTAAAATTTGGCCAGAAGAGGAAGTTCCAGTTAAAATTATTGGCAAAATGACCTTAAATCGAAATGTAGATAATGTTTTTGCTGAAACGGAGCAAGTAGCGTTTCACCCAGGTCATGTAGTTCCTGGCATTGATTTTACGAATGATCCTTTATTACAAGGACGATTGTTCTCCTATACCGATACACAATTAATTCGACTCGGAGGACCTAATTTTCATGAGCTACCAATTAATCGCCCCGTTTGCCCGTTCCACAATAATCAACGGGATGGCTATGGTAGGCATACGATTAATGTAGGGCAAGTGAGTTATCATAAAAACGCACTAGTGGAAAACACGCCAGAACCTGCTTCTCCAGAAGAAGGCGGATATGAGCACTACCAAGAAAAAGTGGAAGGGAGAAAGATTCGTGCAAGAAGTGAAAGCTTCAAGGATCATTTTTCTCAAGCTGCTCTGTTTTGGAATAGTATGAGTGAGATAGAAAAACAACATATTATAGACGCTTTCAGTTTTGAATTAGGAAAGGTAGAAAGTAAAGAAGTACAACAACAAGTAATAAATATGTTTGCCCATGTTAGTTTAGAGATGGTACAAGAAATTGCTGCAAACATTGGTGTCACCGCTCCAAAAGAAGGTGGTTCGCCGGTAAGTAAAGTTTCACCTGCTCTCAGTCAAGAAAACACAACGAAAACAGCAGTAACACGAAATGTAGCCGTTCTTTTAGATAATGGCTTCCATACCGACAGTGTAATTTCTGTTATACATGGATTGAAAAAACAAGGAATTCGTCCTTTCGTAGTTGCGAATAAGCGTGGGGCGATTGTTGGGGAGGATAGCAACACCGTTGAAGCAAATGCTAGCTTTTTAACCGTAGATTCTGTTCTTTTTGATGCGGTTTATGTAGCTGGAAGTAAACAAATGAGTGACCGCTTCTACCAACAAGCGACGCATTTTATTCAAGAAGCATTCCACCATTGCAAGCCAATAGGAGCAGGTAGTGACGGGGTTTCTTTAATAGAAGATTGTCGTATACATCAGGCAAAAGGTGTGATTACGGCGTCTGATGTGGACAACTTTGTGGATACATTTAGCGATGCAGTGGCACAACATCGGTTCTGGGATAGAGAGGTTCAAGTATAA MSDHKQGQTKQEQLDAYRVDDKGKKMTTNQGLNVSEDEFSLKAGVRGPTIMEDFHFREKMTHFDHERIPERVVHARGYAAHGVFEVYESMEQYTKADFLKEKGKQTPVFVRFSTVAGSKGSGELARDVRGFATKFYTEEGNYDLVGNNMPVFFIQDAIKFPDLIHAVKPEPHTGIPQAASAHDTFWDFVANNQETAHMVMWQMSDRAIPRSFRMMEGFGVHTFRFVNEMGEATFVKFHWKPKLGVHSTVWDEAQKINGKNPDFHRQDLYEAIENGAYPEFELGVQLISEEDANAFDYDILDPTKIWPEEEVPVKIIGKMTLNRNVDNVFAETEQVAFHPGHVVPGIDFTNDPLLQGRLFSYTDTQLIRLGGPNFHELPINRPVCPFHNNQRDGYGRHTINVGQVSYHKNALVENTPEPASPEEGGYEHYQEKVEGRKIRARSESFKDHFSQAALFWNSMSEIEKQHIIDAFSFELGKVESKEVQQQVINMFAHVSLEMVQEIAANIGVTAPKEGGSPVSKVSPALSQENTTKTAVTRNVAVLLDNGFHTDSVISVIHGLKKQGIRPFVVANKRGAIVGEDSNTVEANASFLTVDSVLFDAVYVAGSKQMSDRFYQQATHFIQEAFHHCKPIGAGSDGVSLIEDCRIHQAKGVITASDVDNFVDTFSDAVAQHRFWDREVQV PGPT0014380_1532 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781 NA NA AK015_00903 804 fdhD COG1526 Sulfur carrier protein FdhD ATGTCTGATAATTTAGCAGATTGGGAAATTATTCGTTTTCATGACGGAGCAGCTACAAAAGAGTTAACATCCGTGGCGGAGGAATATCCGATCACGATTATGATTAACGGTGAAGAATTCGCTACCATGGTTTGCTCTCCAGAACACGTCGAAGAACTGATCGTCGGCTTTCTTGCTTCAGAAGGAGTGATTTTGCAATATCATGCCATCCAACGTATGAATGTAGATGTAAAAACAGGATTTGCTTACTTGGAAATCAACAAACTTCCTGATATGTATCAATTCGATCATTCCAAACGTATTATTGGCTCTTGTTGCGGGAAAAGTCGGCAATTTTATTTTAAGAATGATGTAAAAACAGCCAAAACGATGATGTCCAACCTACGCATCTCTTGTAAGCAATGTTTACAACTTATGGAACAATTACAACAAGCTTCCATGCAGTTTCATCAAACAGGTGGCGTGCATAATGCAGCTTTAGCTTCTGTTAATGGTGTCGAACTCGTTCGTACAGACATTGGTCGCCATAATGCGCTTGATAAGTTGTACGGTCATATGTTAATGAACCATTTGAACATAAACGATAAAGTTATAGTATTCAGTGGGCGCATCTCTTCTGAGGTATTGTTAAAAATTTCCAAAATGCGTGTGAGTATTCTTATATCTAAGTCCGCTCCTACTAAACTTGCTTTACAGTTAGCCGAAGACTTAGGGATTACAGTCATTGGCTTTGCTAGAAAAGGGTCTATGAATGTGTATACACACAGTAGCCGCGTAGAAGAAATCGTCTACGCTCAGAAGTAA MSDNLADWEIIRFHDGAATKELTSVAEEYPITIMINGEEFATMVCSPEHVEELIVGFLASEGVILQYHAIQRMNVDVKTGFAYLEINKLPDMYQFDHSKRIIGSCCGKSRQFYFKNDVKTAKTMMSNLRISCKQCLQLMEQLQQASMQFHQTGGVHNAALASVNGVELVRTDIGRHNALDKLYGHMLMNHLNINDKVIVFSGRISSEVLLKISKMRVSILISKSAPTKLALQLAEDLGITVIGFARKGSMNVYTHSSRVEEIVYAQK NA NA NA NA NA AK015_00904 2352 napA Periplasmic nitrate reductase ATGGGGAAAACAAAGCACACTGGCCCAATTAAGTTGTCCAAAAAGCCTGATCCATCGCTTTGGGTAAGCAAGGTTCCATTTGGTTTAGGAAAAGTAAAACCGCATCATATTCGCGACACAATAAAGGTTGCTTGGGAAAATAAAGACAGACTTCCTTATGCCACTCGTATCCTTACACAAGGAGTATGCGACGGTTGCGCACTTGGCGTACAAGGACTCAAAGATCAGACGTTAACTGGACCACATCTTTGCACGACACGTCTAAACGTTCTTCGTTTAAATACGATGCCAGCTATAAACAAAGCTATCTTGCATGCTGATATAGATGAATTGCGAAAAATGAACAGCACAGAACTACGTCAGCTCGGTCGCATCCCTTATCCGCTTATTCGCAAGCCATATGATCAAAAGTTTCAACGTATTTCCTGGAACGAAGCACTAGACTATATTGCTAAAAAAATGCGTGCCCTTCATCCAAAACAGCTTTCCTTTTACTCCACCTCACGTGGCATTACGAATGAAACCTATTATGTACTCGGAAAAGTCGCTCGGTTTCTTGGAACGAATAATATTGATAATGCATCTAGAATATGCCACTCGCCATCTAAAACAGCATTGACTCGTTCTGTAGGGGTTGGCGCCTCAACTTGCAATTATAAAGATTGGATCGGTACAGAAGTTCTACTATTTTGGGGTTCTGTTGCAGCAAATAACCAACCCGTTTCTACTAAATATATGTATGCCGCTAAAAAGCAAGGAACAAAGATCATTGTTATCAACCCTTACCACGAACCATCCATGGACGAATATTGGATCCCTTCTATTGGAGAGTCCGCTTTATTTGGAACGAAAATAGCTGATGATGTTTACCAAGTAAATATTGGTGGTGATATTGCCTTTATGCACGGCATTATGAAGCATTGGTTTGAAATGGAGAATGAAAAGCCAGGATCAGCGTTGGACCATGCATTTATTCAGGCACACGTCAATGGGTTGGACGCTTTACAAAGAAAGGTAGAAGCTCATACGTGGGAACAATTAGAGCAATCGTCCGGCATCTCTAAACAAAGAATGATAGAATTAGCGTCGCTCCTAGCAAATTCAAAATCAGCTGTGTTTGTCTGGTCTATGGGTCTGACCCAACATCGTTTTGGAACCGATAACATCTCACAAGTTGCCAATCTAGCTTTGTTACGCGGGTTTCTTGGACGTGAACATTGCGGCTTAATGCCTATAAGAGGACATTCTGGTGTGCAAGGCTCTGGTGAAATGGGAGCAGACCCCTTCTCTTTACCAGGAGGAAGCATGAATGATGAGCAACGGGAACGTGTAGAAAAAGTATGGAATTTTGATATTCCCACTTGGCAAGGAGACATTGTCGGCGAATCTCTAGAGCACGCTCACTTACCAGAGGAACATGAACGAAAATTAAAGCTCTACTATATGTCGGGAGGGAATTTTCTTGAAACAATGCCAAATCCTGATTATATTCAATCATGCTTAGAACAAGTTGAACTTCGAGTGCATCAAGATATTATCTTCAATACGTCTACACTTGTAGATGCAAAGGAAGCAGTCATCGTTTTGCCAGCGATGACACGCTATGAGCAACCTGGAGGTGGGACGTCTACCTCTACGGAAAGAATGGTCTATTTCTCCCCAGAAATTAAGGGTCCACGTATAGAAGAGGCTCGTTCTGAATGGGAGGTTTATGTGGATGTAGCAAAGCGAGTAAGACCTGAAGCAAAAGACATTATTCATTTTAAAGATGCACGTGCGATCCGTGAAGAAATTGCCAAAGCCGCCCCAAACTATGATGGCATACAGCATTTAAATGAAAAAGGCGATCTTTTCCAATGGGGAGGGGCTTGGCTCTGTGAAGATGGCGTTTGCCCGACTACAGATGGCAAGGGGAATCTTATCGCGATGGATATTCCAGAATTAAGAAAGCCAGAAGGGCATTTTTACGTTACGACTCGTCGAGGAAAACAGTTCAACTCGATGATTTATAGTGAAACGGATCCGTTTAACAATGCACACCGAGATGATATTTTAGTGAGTAAACAAGATGCAGACACACTTGATATTCAAGATGGAGAAAACGTAGTCGTTTATAACCAGCACGGTTTATATGCTGGCCGCGCTAAATTCGCCCCTGTCAAAACGGGCAATCTAGAAGTACATTGGCCAGAAGGGAATGTCCTTATTCCAAAAGGCATTTACGAACAATATGCAGGTATCCCTGAATATAATACAGCAGTCATTTTAGAAAAAGCAGTTACGTATTATGCGCAAAAAGATGTGAAGTACGCAGAGAAGCGCGTAGAAGAACTGGAAATAGATAGTCATTAG MGKTKHTGPIKLSKKPDPSLWVSKVPFGLGKVKPHHIRDTIKVAWENKDRLPYATRILTQGVCDGCALGVQGLKDQTLTGPHLCTTRLNVLRLNTMPAINKAILHADIDELRKMNSTELRQLGRIPYPLIRKPYDQKFQRISWNEALDYIAKKMRALHPKQLSFYSTSRGITNETYYVLGKVARFLGTNNIDNASRICHSPSKTALTRSVGVGASTCNYKDWIGTEVLLFWGSVAANNQPVSTKYMYAAKKQGTKIIVINPYHEPSMDEYWIPSIGESALFGTKIADDVYQVNIGGDIAFMHGIMKHWFEMENEKPGSALDHAFIQAHVNGLDALQRKVEAHTWEQLEQSSGISKQRMIELASLLANSKSAVFVWSMGLTQHRFGTDNISQVANLALLRGFLGREHCGLMPIRGHSGVQGSGEMGADPFSLPGGSMNDEQRERVEKVWNFDIPTWQGDIVGESLEHAHLPEEHERKLKLYYMSGGNFLETMPNPDYIQSCLEQVELRVHQDIIFNTSTLVDAKEAVIVLPAMTRYEQPGGGTSTSTERMVYFSPEIKGPRIEEARSEWEVYVDVAKRVRPEAKDIIHFKDARAIREEIAKAAPNYDGIQHLNEKGDLFQWGGAWLCEDGVCPTTDGKGNLIAMDIPELRKPEGHFYVTTRRGKQFNSMIYSETDPFNNAHRDDILVSKQDADTLDIQDGENVVVYNQHGLYAGRAKFAPVKTGNLEVHWPEGNVLIPKGIYEQYAGIPEYNTAVILEKAVTYYAQKDVKYAEKRVEELEIDSH NA NA NA NA NA AK015_00905 636 hypothetical protein ATGGAATGGTCATGGGTTTGGAAAGCTGTGCTTATTATCATTGGGGGAACCTTACTGCTAAGGCTTGCTGGTAGAAAATCAATATCCCAAATGACATTGGCGCAAACGGTTATTATGATTGGCATAGGTTCTTTATTGATTCAGCCATTAGCTGGCAAAAATATATGGACAACACTTGGTGTAGGTACCGTTCTTGTATTGACATTAATTGTCATGGAGTTCGCACAAATTAAATCTGATTCCTTTGAAGGGATTATAACAGGGAAATCAAAAGTCCTCATTCACAATGGTGTCATTCAATATGACCAACTAAAAAAATTACGTCTAACAACAGATCAGCTAGAAATGAATTTACGACAGAAAAATATATCGCGAATAGAAGATGTGGAATGGGCAACGTTAGAAGCAAACGGACAAATTGGGTATGCGCTAAAGCCGGAAGCACAACCAGCCACAAAAGGAGATATACAACAACTTTATACAGAGATAAAAAACGTCCAACATCATTTGTTAGCGCAAAGCAGAACGCTGGGGAGTGGGGCTGGTGAAAAGTTTCAATCCCCTTCCAATTTATTTCAAGAAGTAGCGGATAAAGGGCATGACAGTAATACAACTCCTCCTCATCAATTTGATTAA MEWSWVWKAVLIIIGGTLLLRLAGRKSISQMTLAQTVIMIGIGSLLIQPLAGKNIWTTLGVGTVLVLTLIVMEFAQIKSDSFEGIITGKSKVLIHNGVIQYDQLKKLRLTTDQLEMNLRQKNISRIEDVEWATLEANGQIGYALKPEAQPATKGDIQQLYTEIKNVQHHLLAQSRTLGSGAGEKFQSPSNLFQEVADKGHDSNTTPPHQFD NA NA NA NA NA AK015_00906 2232 nrdE2_2 COG0209 Ribonucleoside-diphosphate reductase subunit alpha 2 ATGATCATCGACATCGCTACTACAAGAGATAGACTTGTAGAAATCATTGATCTTGCGCAACAGGGGCTAGCTGTTGAAACGAAAGCTTATAAGGAAAAGGCATTTAAAACGATTCAGGAAGATACTCCGATCGACAAAGCTTTAGATATTCTTGTTCAAATCGCATTGGAGAATATTGATGAATCTGCTCCTGATTGGACCTATGTAGCGAGCCGAATTTATTTACAGCAGCTTTACCATCAAGCCCGCCACAATCGCCATTACGATGATGGTAAATATGGTGATTTTTATGAATTAATTACCATGCTGACGGATGAAAATATTTACGAAAATAATCTGTTAGAAAAGTATTCAAAAGCGGAAATTGATTACTTTGCCGAACAAATCGATCCTGCAAGAGACTTGTACTTCACCTACTTAGGGCTTCATACATTAGCGACACGTTATTTAGCAACAGATCACGATAAAAAGGTGTTTGAGCTACCGCAGGAACGTTGGATGGTTATTGCCATGACGCTTATGCAATATGAAGATAAAGCAAAGCGGACAGAGCATGTGTTAGAAGCTTATTGGGCACTAAGTAACTTATATATGACAGTCGCAACACCGACCCTTGCTAATGCTGGAAAAACGCATGGTCAACTATCTAGTTGTTTTATTGATACCGTCGATGATAGCCTTCAATCCATTTACGATAGCAATACCGATATTGCTAAGTTGTCTAAAAATGGTGGTGGAATCGGTGTTTATATGGGGAAAATCCGTAGCCGTGGAAGTTCCATTAAAGGATTTAAAGGGATGTCAAGTGGTGTTGTACCATGGATTAAACAATTGAATAATACAGCGGTAAATGTCGATCAATTAGGAACGAGAAAAGGTGCAATTGCTGTTTATTTAGATGTTTGGCACCGTGATATAGAGGCGTTTCTTGACTTGAAATTAAATAATGGTGATGAGCGTATGCGGGCACACGATATTTTCACAGGTGTCACCTTACCTGATTTATTTATGGAACAAGTAGAAAAACGTGGCAATTGGTACCTATTTGACCCCCATGAAGTGCGACAAGTGATGGGGTATTCATTAGAAGATTTCTATGACGAGGAAAAAGGGAATGGAACTTTTCGACAAAAATATATGGAGTGCGTAAACTCCGAACAATTGTCAAAACGTGAAATTCCAGCGATTGATATTATGAAGCGAGTTATGAAATCACAATTAGAATCGGGTACACCATTTATGTTTTATCGTGATGAAGTGAATCGACAAAATAGTAATAGTCACCAAGGATTGATTTATTGCTCTAACCTTTGTACGGAAATTACGCAAAATCAATCGCCTTCTGAATTTGTAGAAGAATTTTTGGAAAACGAAAATACCATTGTAAAGAAATATAAATCTGGGGATTATGTCGTCTGTAATTTAAGTTCGATCAACCTTGGAAAAGCTGTTCCAGATGAAATTCTAGATCGGTTAATTAAAATTCAAGTACGCATGCTAGATAACGTTATTGATATTAACACATTGCCAATTATGCAAGCTCAACTAACGAATAAAAAGTACCGAGCTATTGGATTAGGAACGTTTGGCTGGCATCATCTGCTAGCTCGTAACAATATGAAGTGGGAAACGGAAGAAGCGGTGGACTATGCAGACGAATTGTATGAACGTATTGCTTTTCTTACCATTCAGGCAAGTATGGAATTAAGTAAAGAAAAAGGCAGTTACCCGGCATTTGCAGGTAGTAAGTGGAGTTCAGGTGAATACTTTGAGCAAAAAGGCTATGTCAAAACAGATTGGCTTACTTTAAAAGAAGACGTTAAACAGCACGGTATTCGAAACGGTTATTTAATGGCAGTGGCACCGAACTCAACAACAGCAATGATCGCTGGGTCTACAGCTAGTATTGATCCGATTTTTAAAACATTTTATTACGAAGAAAAGAAAGACTTTAAAATTCCAGTTACAGCACCAGACTTAACGCACGAGACATATGATGTATATCGTCGCTCTGCATACATTGTAGATCAACGCTGGTCTGTGAAGCAAAACGCTGCTAGACAGAAGCATATTGATCAAAGTCTCTCCTTTAACTTCTATGTACCAAATACGATTCGAGCATCTATTTTGCTCGATTTACATTTGCAAGCATGGCAGGAAGGATTAAAAACAACGTATTATGTACGCTCTACTTCCAATGAAGTAGAAGAATGTGAATGGTGTCAAAGTTGA MIIDIATTRDRLVEIIDLAQQGLAVETKAYKEKAFKTIQEDTPIDKALDILVQIALENIDESAPDWTYVASRIYLQQLYHQARHNRHYDDGKYGDFYELITMLTDENIYENNLLEKYSKAEIDYFAEQIDPARDLYFTYLGLHTLATRYLATDHDKKVFELPQERWMVIAMTLMQYEDKAKRTEHVLEAYWALSNLYMTVATPTLANAGKTHGQLSSCFIDTVDDSLQSIYDSNTDIAKLSKNGGGIGVYMGKIRSRGSSIKGFKGMSSGVVPWIKQLNNTAVNVDQLGTRKGAIAVYLDVWHRDIEAFLDLKLNNGDERMRAHDIFTGVTLPDLFMEQVEKRGNWYLFDPHEVRQVMGYSLEDFYDEEKGNGTFRQKYMECVNSEQLSKREIPAIDIMKRVMKSQLESGTPFMFYRDEVNRQNSNSHQGLIYCSNLCTEITQNQSPSEFVEEFLENENTIVKKYKSGDYVVCNLSSINLGKAVPDEILDRLIKIQVRMLDNVIDINTLPIMQAQLTNKKYRAIGLGTFGWHHLLARNNMKWETEEAVDYADELYERIAFLTIQASMELSKEKGSYPAFAGSKWSSGEYFEQKGYVKTDWLTLKEDVKQHGIRNGYLMAVAPNSTTAMIAGSTASIDPIFKTFYYEEKKDFKIPVTAPDLTHETYDVYRRSAYIVDQRWSVKQNAARQKHIDQSLSFNFYVPNTIRASILLDLHLQAWQEGLKTTYYVRSTSNEVEECEWCQS PGPT0021340_4384 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525 NA NA AK015_00907 483 Flavodoxin ATGGTGTCAAAGTTGAGGACGCTAATCGCTTACTTGACCTACAGCGGTAATACCCAAGAAGTTGCAACACTTATCCAAGAAAACTTACAAATAAAAGGAGTGGAGACGGCGGTTCATCGTATTGGTATTGATCCGCCTGTTGATCCCGCTGTGTACGATATTATCTTCTTAGGTACATTTACTTGGGATCGGGGAAGCACACCCGATGAAGTGAAAGACTTTATTCTAGAAGTTGGGTATAAACCGGATAATGTCGCTATATTTGGTACAGGTGATACACAATTTGGAGGCGATGATTTATTTTGTCGTGCTGTTGATAAGTTGGTCAAATTTTATCATAGCCCTTGGCGCGGACTGAAGATAGAACAGTCTCCAAGAGGCAAGCAAGAACAATTTGTAAAGGACTGGGTGGAAGGAGTATTAGACCATGGCAAAAATCATGCTGGAAAAAGCAAAGACGTTAGAACCATTAAATCCAAATAA MVSKLRTLIAYLTYSGNTQEVATLIQENLQIKGVETAVHRIGIDPPVDPAVYDIIFLGTFTWDRGSTPDEVKDFILEVGYKPDNVAIFGTGDTQFGGDDLFCRAVDKLVKFYHSPWRGLKIEQSPRGKQEQFVKDWVEGVLDHGKNHAGKSKDVRTIKSK PGPT0000020_1131 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839 NA NA AK015_00908 1044 nrdB_2 COG0208 Ribonucleoside-diphosphate reductase subunit beta ATGGCAAAAATCATGCTGGAAAAAGCAAAGACGTTAGAACCATTAAATCCAAATAAGTCCACAGGTGTATTTGGAGGGCAATCCAGTGGTATCTTAAATTGGAATGATATTGCTTATCCACACTGGTATAAAATGTATAAACGGTTAGTAGGAAATTATTGGCAAGCAGATGAAGTGAATATGCAAAGTGATATTAAGCAATTCCCTTCATTGGCAGCAGAAGAACAGGACGCGTATTTAAAAATTATTGGTTTGCTATCTACGTTAGATGCACCGCAAACACGAACGGCTTTACTCATTTCTTTGTACGCAACAGATCCATCTGTGCAATCCATTATGGCAGTCATTGCACAGCAGGAAGCAGTGCATAATGAAAGCTATTCTTACGTGTTGTCTTCCGTTGTCTCGTTAGATGAGCAGAATAAGTCTTTTCAACTCGGTAGAACGGATGCAGTTTTGTTGAAGCGAAACGAGAATTTAACGAAGCAGTATAACGCTTTTGTGGAAGAGCCGACAATCGAAAATATTTTAAAGACATTAGTATATACAGCTCTTTTAGAAGGTATGTTCTTCTATTCTGGGTTTGCGTTTTTCTATAATTTGGCACGCCATAATAAAATGGTCGGCACGTCAACCATGATTAGTTATATTAATCGCGATGAGCTTGAGCACGGTCGCTTCATATCTGAACTATTTCGTGCTACGCTTGCCGAAAATCCAGAATATAATAAGGATACATTTATTCAATGGGTATACGATCATTTTCAAGAATCGGTTGAATTAGAAATCGAATGGTCCAAGTACGTGCTTGGCAATGTAGAAGGAATTGACCTTGACGAAATGGCTGGATACATTAAATATCGTGCGAACAAGATGCTTCGTATGATGGGATTACATGATGTATATCCAGATTATACTGAAAATCCGATGAAGTGGATTCGCGCCTACGTAGATAACTTTGATGGCACGAAAACAGATTTTTTTGAACAGAAATCTAGACAATATACGAAAACGAGTGATTTGAATGGTTTTGATGATTTATAA MAKIMLEKAKTLEPLNPNKSTGVFGGQSSGILNWNDIAYPHWYKMYKRLVGNYWQADEVNMQSDIKQFPSLAAEEQDAYLKIIGLLSTLDAPQTRTALLISLYATDPSVQSIMAVIAQQEAVHNESYSYVLSSVVSLDEQNKSFQLGRTDAVLLKRNENLTKQYNAFVEEPTIENILKTLVYTALLEGMFFYSGFAFFYNLARHNKMVGTSTMISYINRDELEHGRFISELFRATLAENPEYNKDTFIQWVYDHFQESVELEIEWSKYVLGNVEGIDLDEMAGYIKYRANKMLRMMGLHDVYPDYTENPMKWIRAYVDNFDGTKTDFFEQKSRQYTKTSDLNGFDDL PGPT0021345_1721 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526 NA NA AK015_00909 1035 COQ5_3 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGTATATTCAAGAAGTTGCCAAGCGGTTAAATACAACAGCAAGAACCATTCGATTTTATGAGGAAAAGGGTCTCCTATCACCTAGTAAGCAAGCGAATCAATATCGAACGTTTACAGATGAAGAAGTAGTAAGGATTAGCACGATATTAGCATTACGTGAATTTGGCGTTGGTATTAAAGAAATAAAGCAGTTACTTGATGATCAAAAACAATATCGTATCCATGATTATTTGAATCTGCAACGTGCTGTGCTTTTTGAAAAATGGTTAGAAATGAAAGATATGATTCACACGCTAGATCAGTTGTTAGAAGGAAATAACGATCAGTCGATTTCTACTAAAGATTTAATTGCTCTATCAAAGCATTTAAGAAAGCTAAAACATTTGCGCCAATCTTGGCAGGACAAATGGGATTTTGATGCACAAGCTTCGGATTATGATCAAAGTCTGAGAATAAGTGGTTATCGATTTAATGTCCATCAAGACTATGAAACGGCCTTGGAGAAAGTGGTTGATACAATGCCTCTAGAAACAGGACAAACTTGTTTAGATATTGGCATTGGCACAGGAAATTTAGGGGCTAAATTTTTAGCGAAAGGAGTTCATATTATTGGTGTAGACCAATCGGATAACATGTTGCAGGCATGTAAGCAAAAGCACCCAGAAATTGAAGTGCGTAAAGGCCATTTTCTGGCTTTGCCAATTGTAGATCAACAAGTTGATGGAATTGTCTCCAGTTATGCGTTACATCATATTACAGATGAACAAAAACTGCTTGCATTAGCTGAAATGGATCGAGTTCTACGTCCAAACGGTGCTATCTGTATTGTAGACTTAATGTTTCAAGATGACGCGCATCGAGGCGAAGTAATGCAATATTTAAAAGAAAGTGGAAATACAGAGGCTATCTATGCGATTGAGGATGAGTTTTATGCAGATGGTTCTACCCTGTTAAATTGGCTACAGGAACATGATTACCATGTTAAAACGCATATTTTTAATCCGATACTAAGTATGGTTTACGCATTCAAATAG MYIQEVAKRLNTTARTIRFYEEKGLLSPSKQANQYRTFTDEEVVRISTILALREFGVGIKEIKQLLDDQKQYRIHDYLNLQRAVLFEKWLEMKDMIHTLDQLLEGNNDQSISTKDLIALSKHLRKLKHLRQSWQDKWDFDAQASDYDQSLRISGYRFNVHQDYETALEKVVDTMPLETGQTCLDIGIGTGNLGAKFLAKGVHIIGVDQSDNMLQACKQKHPEIEVRKGHFLALPIVDQQVDGIVSSYALHHITDEQKLLALAEMDRVLRPNGAICIVDLMFQDDAHRGEVMQYLKESGNTEAIYAIEDEFYADGSTLLNWLQEHDYHVKTHIFNPILSMVYAFK NA NA NA NA NA AK015_00910 915 hypothetical protein TTGAAAAACTTCTATTATGCACTAACATCTTTAGCAATTGTGCTAACTTCTCTATTTTTGCTGCCTAACAATAGCCATGCAGCTAATGGGGATGTGTATGACGTTGGACAAGCTATATTAAATGTGCGAAGCAGCCCATCTATAGACTCGGAAATTGTTGGGCAATTACAAGCTGGGGACCAATTAGTCGAATTCGGTGAACAACACGGCTGGGTACAGACTTATTTTGGTGGGAAAGAAGCATGGGTTGCTAAACATTATTTGATTCCTGCTAAACAGGATAAACCTGTACAGGTACAAGTACAAGCAACGCCCAATGAAGGAAGCAGTTCCTCTCAAGCACAGCCACAAGTTCAAACCAGCAATACTAGTCATTCCTTAAATGGATACAATATCATGTTAGACCCTGGACACGGTGGTTACGATCCTGGTTCTATTGGAATAAACGGTGTACGAGAGAAATTTTTAACACTTGAAACTTCCAAGCAAATTGCAGAACAATTACGAGCAGCTGGTGCAAATGTATTGTTAACTCGGTCAAGTGATACGTATGTTTCTTTAGCTGATCGTATTCGAATTAGCGATGCTTATACCACCCATGCATTTATTAGTGTTCATTATAATGCATTTCCGAACTCTAGTGCAGACGGCATAAATACATTCTATTATTCTTCCAAAGACCAGAAACTAGCAGAGAATGTTCACCAAGGTCTTGCTTCTGCTGTCACATTGCGTGATAGAGGAATGATGCCAAATAACTATTATGTATTAAGGACTAATCATGCTCCTTCTATATTATTAGAGCTAGGATTTCTTACTAATTATAACGATTTTGCTACCATTCGTTCTAACAGTTTTCAACATCAAGTTGCCAACGGAATTACGATTGGGTTAAAAAATTATTTTGCAAACTAA MKNFYYALTSLAIVLTSLFLLPNNSHAANGDVYDVGQAILNVRSSPSIDSEIVGQLQAGDQLVEFGEQHGWVQTYFGGKEAWVAKHYLIPAKQDKPVQVQVQATPNEGSSSSQAQPQVQTSNTSHSLNGYNIMLDPGHGGYDPGSIGINGVREKFLTLETSKQIAEQLRAAGANVLLTRSSDTYVSLADRIRISDAYTTHAFISVHYNAFPNSSADGINTFYYSSKDQKLAENVHQGLASAVTLRDRGMMPNNYYVLRTNHAPSILLELGFLTNYNDFATIRSNSFQHQVANGITIGLKNYFAN PGPT0024160_5148 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_00911 531 ywqN COG0655 Putative NAD(P)H-dependent FMN-containing oxidoreductase YwqN ATGAGTATAGTAGTCTTTCATGGTTCAACAAGGACAAATGGGAATACAGAATTTTTAACCCATCACGCTATCCCTCAAGACACAGCAACACATATTTATTTGCGCGACTACAACATAGAACCGATTGTAGATAAGCGACACGCAACAGAAGGATTTCCCCACATACAGGATGACCATTTATTTTTAATTGACCAACTATTAAAACACGAGACCGTCGTTTTCGCTACCCCTATTTATTGGTATGGCATGTCCGGACCACTAAAAACATTCATTGATCGTTGGTCGCAAGTTTTACGAGATCCCAATTACCCGCATTTTCGCCAAACGTTAAAAGATAAAAAAGTATACCTTATTCTTGTTGGTGGCGATCAACCACATATAAAAGGATTGCCCCTCGTTCAACAATTTCAGTATATTTGCCAGTTTTTTGGCATGACTCTAGAAAACTATGTAATCGGTCAATCACGTAAACCAGGAGAAATGGCTATTAATAAGCAAACCCTTCAAGCAGCCTCTCAATTATTCGATTAA MSIVVFHGSTRTNGNTEFLTHHAIPQDTATHIYLRDYNIEPIVDKRHATEGFPHIQDDHLFLIDQLLKHETVVFATPIYWYGMSGPLKTFIDRWSQVLRDPNYPHFRQTLKDKKVYLILVGGDQPHIKGLPLVQQFQYICQFFGMTLENYVIGQSRKPGEMAINKQTLQAASQLFD NA NA NA NA NA AK015_00912 306 hypothetical protein ATGAAAAAGACGGTCATTCTTTTTTTAATAGTACTTTTTATATCCGTATATACTTGTTTCCTAACATATTGGTCTGGGTCTTATGTAGTTCTAGATCCAAATTGGCAGGAACAAACTGTTTTAACCCCAGAATCTGTACAAGACCCACGTGATATTTATGTTATTGATAAATGGATATATGCTTTTAAAATGTATCCAGTTAGAAGTATTACATTTTTGTTGTCTGCTTCTGGTGTAATTGGTTTTTGTACGTATTTCGTTCGCAAATTTATACGTAAGCGCAAAAATGGTAATACGTTATTTTAA MKKTVILFLIVLFISVYTCFLTYWSGSYVVLDPNWQEQTVLTPESVQDPRDIYVIDKWIYAFKMYPVRSITFLLSASGVIGFCTYFVRKFIRKRKNGNTLF NA NA NA NA NA AK015_00913 162 hypothetical protein TTGAAGAAAAAACGTCGTACATCAAAACGCCAAGAGAACGATGGTGGGTGGTGGTTCTGGATTATTGACTTCCTCTTAAGTTTTATCGATTTATTAATTATTTTACCAATTAAATGGTTAGGTAGATTAATGGCGGGGTTATTTAAATCTTGGTGGTATTAA MKKKRRTSKRQENDGGWWFWIIDFLLSFIDLLIILPIKWLGRLMAGLFKSWWY NA NA NA NA NA AK015_00914 1251 yhaP_1 COG1668 putative protein YhaP GTGAAGCATATGCGTAATTCATTGAAAGTGGCCAAATGGGAGATCAAACGAAACCTCCGCAACAAGACCTTTATTATTGGAATGTTTTTAACGCCCCTCTTCATTATTGGATTTATGTTCTTAGGCGAACTGATTGGCGGTGAAGATGAAGAAACAGAGATGAAGACCGTATTTATTCATGATGAGCTAGGAGTTTTTTCTGAAATAGAGCAGACAGTTGCAGCAAGTAATATATCCTGGCAAGTCATGCAAACGGATGTAACGGAAGAAGAAGCCAAAAAGGAAGTTGAAAATACGGAACAGACAGCCTACTTATTTATCGACGAGGAAAGTTTAATAAAAGGAACTATCCCTGCTTACACTTCGGAGGAAATGGATGACTCTTTTATTAATCAAGCCCAAATATTATCCTCCCCTATTCAAGCGTGGCAATTAAAGGAACTTGGCTTGTCCAATGAACAGTTAGCGGTTGTCTCCCGTGGTATTCAGATAGCAGACGTTTCAGCTAGTAATGAAACCGATACAAAAGATGCCAATAAAGCAGCTGAAGAATCTGAAATAGCTTCATTAGAGCGCATTGTACCTGGGGCATTTGCTGGTTTTATTATGTTATCCATCGTATTTACTGGTATGGCAATTTTTCAAAGCGCTTCACAAGAGAAAAAAGATAAAATTGCGGAAATTATTTTATCCTCACTCACACCGAATGAACTCATGCAAGGAAAAATTATTGGCTATTTTGTTTTAGGCATTGTACAATCTTTTGTCTCTTTGGTCATCGTCCTTCCTGTTTTATCATGGCGATTGGACATTGCGTTTTTAGATTATTTGTTCGTTCCAGAATTAGCTTTATATCTCATGATTGCCATTTTAGGCTATCTATTGTTTGCTTCTATCTTTGTCGGCGTCGGCGCAACGATGACCGATATGACGACAGCAGGAAATTTTCAAGGTATGGTGATGATGCTTCCGTTTTTACCGTTTATCTTTATCGGACCTGTTCTTAGTGATCCAAGTGGATTCATGGCTCAACTTGGTACGTACATTCCTTTCACGGCGCCAGGTGTTCTCTTACTTCGCCTAAGCAACTTAGAAGAATGGCCCTGGCTCGAAATTATCATTTCACTCGCTATTTTAATCATTAGTATTTGGATTTTCGTAAGACTTGCTGGAAAAATCTTTAAAGTAGGCATATTAATGTACGGTAAAAATGCTACTCCAGGAGAGATTTGGAAATGGATAAGAATGTAA MKHMRNSLKVAKWEIKRNLRNKTFIIGMFLTPLFIIGFMFLGELIGGEDEETEMKTVFIHDELGVFSEIEQTVAASNISWQVMQTDVTEEEAKKEVENTEQTAYLFIDEESLIKGTIPAYTSEEMDDSFINQAQILSSPIQAWQLKELGLSNEQLAVVSRGIQIADVSASNETDTKDANKAAEESEIASLERIVPGAFAGFIMLSIVFTGMAIFQSASQEKKDKIAEIILSSLTPNELMQGKIIGYFVLGIVQSFVSLVIVLPVLSWRLDIAFLDYLFVPELALYLMIAILGYLLFASIFVGVGATMTDMTTAGNFQGMVMMLPFLPFIFIGPVLSDPSGFMAQLGTYIPFTAPGVLLLRLSNLEEWPWLEIIISLAILIISIWIFVRLAGKIFKVGILMYGKNATPGEIWKWIRM PGPT0006730_3374 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_00915 933 btuD_3 Vitamin B12 import ATP-binding protein BtuD TTGAGCGCAATTTTAACAGTTGAAAATTTAAACAAAGCTTTTAAAGACAAACAAGTCATCGACAATATTTCTTTTGACGTACACCAAGGTGAAATCATGGCTATTCTCGGACCGAATGGTGCTGGAAAATCAACTACGATTCGTAACATTATGGGTATTTTATATCCTGATGCAGGAAGGATTACCTTTTCCAATTATACAAACAACTCGATACCACGGCATAAAATCGGTTACTTACCAGAGGAGCGTGGGTTATATAAAAATGTCAAAGTAATGGATATTTTACTCTATTTAGCTGAATTAAAAGACTACCCGCTAGATCAAGCAAAACAACGAGCTTTAGATTATTTAAAGAAGTTTGACTTAGAAGGGAAGGAAAAAGTGAATGTCGATGAGCTTTCTAAAGGGATGGGACAAAAGGTGCAATTTATTGCGTCCATTCTTCACGAGCCCGAATTACTCATTCTTGATGAGCCATTTTCTGGGTTAGATCCTGTAAGCCAAGAATTATTTAAACAGGAAATTCGTCAGCTTGCCAATAACGGCACAGCTATCCTACTGTCCTCTCATCAAATGAATCTTGTCGAAGAAATGGCAGATCGCCTATTTTTGATACATCGGGGGAAAAAAGTAATTTATGGACATATGGATGAAGTAAAAAAAGAGTTTGCCAACTTTAAATGCACGATTCATGGTACAAATAAAAAAGAAGAACTTGAACAGTTGCCACATGTACAACGCGTAGAACAAGAAAATGCGCATAGTATTGTCTACTTATATAAAGATATTGATCCAGTGCAATGGCTCAAGCAGCTTCCTGCTACATTGGATGTGCAAGAGCTACGGTTAGATCGCATTTCACTACATGAAATTTTTATTGATATTGCAACAGGTAAACAGCTCATGCAGGAAGTCGGTGAAGCATATGCGTAA MSAILTVENLNKAFKDKQVIDNISFDVHQGEIMAILGPNGAGKSTTIRNIMGILYPDAGRITFSNYTNNSIPRHKIGYLPEERGLYKNVKVMDILLYLAELKDYPLDQAKQRALDYLKKFDLEGKEKVNVDELSKGMGQKVQFIASILHEPELLILDEPFSGLDPVSQELFKQEIRQLANNGTAILLSSHQMNLVEEMADRLFLIHRGKKVIYGHMDEVKKEFANFKCTIHGTNKKEELEQLPHVQRVEQENAHSIVYLYKDIDPVQWLKQLPATLDVQELRLDRISLHEIFIDIATGKQLMQEVGEAYA PGPT0006725_9293 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_00916 855 ytrB_2 COG1131 ABC transporter ATP-binding protein YtrB ATGACATCGCTTCTCAAGATAATGGATGTAGAAAAAAACATAGACACCTTACACCTAGGACCGATTCACTTAATGATAGAGCCTGGAACGATAACAACAATGGTTGGAGCGAACGGGGCTGGAAAAAGCACACTATTTAAACTCATTATGAATGTAGTGAAACGTAATACAGGTAGCATTCAACTATTGGATATAGAAACAAACGGTTCCGATGAAAGCTGGAAACAACATATTACGTACCAAGCACAAACCATCATTGGTTGGGAACCTTTCACTGGAATCAAATTAAAAGACTTTATTTCCTCTCTATATCCGCATTGGAATGAAGCGCTATTTAAGAAGATGGTAGATTTATTGCAAATTCCATTAGATGAACGATTTGCAAAACTATCCCAAGGAAACCAACAAAAACTCCAGCTAGCACTTGCTTTACCAAGAAATACACCATTGTTGCTTCTCGATGAACCCACTTCTTTCTTGGATATTCCGGCAAAGCAGAAGCTAATGGATTTACTTGTAGAATGGATGGAGCAAGGAGACCGCGCTATCTTCATGGCAAGTCATCAATCCGCTGACATTATGAAACTTTCTGATTATATAGTCGTATTAAAGAATGGAAAGCTGTTGAACAAATTTGAAAAAGAATCACTAATTCATAGACACCGCCGATATTGGATTGGCGAACATCTTCCAGAGGAAGGTATTCCAGGGGAGATCGATCGCTCAACACGCTATCTTGTCTCAAACGCTCCAGAACAGACGGAAGCCTTCTTACAACAAGAACAAATCAATTGGACACAGCAGGAATCTCTAGATTTGGAAGAAATCCTTACACTGCTTATAGAAAGGAGATAA MTSLLKIMDVEKNIDTLHLGPIHLMIEPGTITTMVGANGAGKSTLFKLIMNVVKRNTGSIQLLDIETNGSDESWKQHITYQAQTIIGWEPFTGIKLKDFISSLYPHWNEALFKKMVDLLQIPLDERFAKLSQGNQQKLQLALALPRNTPLLLLDEPTSFLDIPAKQKLMDLLVEWMEQGDRAIFMASHQSADIMKLSDYIVVLKNGKLLNKFEKESLIHRHRRYWIGEHLPEEGIPGEIDRSTRYLVSNAPEQTEAFLQQEQINWTQQESLDLEEILTLLIERR PGPT0006725_19481 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_00917 396 hypothetical protein GTGGAATTACCTATTTATCTTTCCAAAACATCTCGAGAACCAATTTATCATCAAATCGAAAACCAAATGAAAACGCTCATTGCTAGCGGACAACTTACAAAAGGATTACCACTTCCATCCATTCGTTCGCTGGCAAAAGACTTAGAGACGAGCGTCATTACGATTCGTCGTGCATATCAAAATTTAGAATATCAAGGCTTTATTCAAACAACGCAAGGAAAAGGGACATTTGTTGCTGACATAGACCATGATATGAAGCAGCAAATGAAAGTTGATGAAGTATACCAAGCAATGGAAGCAGCTGTTGAAATTGCATTTAAATATGATTATACAGCCGAACAACTAAAAAAAATGTGCTTAGAAATCATTCATAAAAAAGGAGGAAACCAAACATGA MELPIYLSKTSREPIYHQIENQMKTLIASGQLTKGLPLPSIRSLAKDLETSVITIRRAYQNLEYQGFIQTTQGKGTFVADIDHDMKQQMKVDEVYQAMEAAVEIAFKYDYTAEQLKKMCLEIIHKKGGNQT NA NA NA NA NA AK015_00918 705 hypothetical protein ATGCAAAAATGGAAGCAAGCTTGGCAAGTTGCTAAGTTGGAATTAAGCATTTCTACGAGGAAGATTGCATTTGGTTGTTTAATCGTACTTGGTTTCTTCCCTTTTACCATTTCCAATTTTCAGCATTATCTCGATAATAGCGTTATAAGTTATGACTTATTTTTTATTCTTTTTTTTACTTTAGGTATCAATGTTGGAAATCCAAATTATTGGCATTTAAAACAAGCCAATGTCTATCCTCTTTTGATGATGCAATTACCATTACCAATTAAACAGGAGATCTTAATTAAAAGTCGCTTCATCATTCATTTTTGTTTCTCCTTTCCAGTACAATTTGCGTTTCTAATTATCTTTTATGTTGCATCACCTATCGCTCATTTATTATCCATACCAGCTTACATCGCGTTTGCAATCATTTGGTTATCTGTCAATCTTTATATAGGGACGCTTACACCAATAAGTGAAGTATATCCAGCAAATTGGTTGTTCACAGCAGCTATGACTTTCATTTTTCTTTTCATTTTCCTATTTATATTATCTATTTCTCACCTCATCTTTGACCATGGTGTTGTGGAATTATCCATGATTATTGCTAGAAACTGGCCCGTACTCAGTTCCGCAGTTTCACTCATTATTGGCTTTGCAGCTGTCAAAGCGCATCAACTATATATGAAACAAATTATGAATAAGCGGGATTACTTCTAA MQKWKQAWQVAKLELSISTRKIAFGCLIVLGFFPFTISNFQHYLDNSVISYDLFFILFFTLGINVGNPNYWHLKQANVYPLLMMQLPLPIKQEILIKSRFIIHFCFSFPVQFAFLIIFYVASPIAHLLSIPAYIAFAIIWLSVNLYIGTLTPISEVYPANWLFTAAMTFIFLFIFLFILSISHLIFDHGVVELSMIIARNWPVLSSAVSLIIGFAAVKAHQLYMKQIMNKRDYF NA NA NA NA NA AK015_00919 507 hypothetical protein GTGATCATGAATTTTATCCGAAGAAGTAGTATAGCCGCAGGTATTTTAGCACTTATTCGTATTTATATTGGTTATGAATGGGTTGTTGCTGGTTATGGTAAAATTACGGGCGGTCAATTTGACGCTTCTGGATATTTACAAGGGGCGATTGCAAGTGCTGGAGGAGAGCATCCGGCAGTACAAGGCTGGTGGGCAGTATTTTTAGAAAAAGTAGCCTTGCCGAATGCAGACATATTTACTTTCCTCGTTATGTGGGGGGAATTGTTAGTTGGTATCGCACTTATATTAGGCATATTCACCAACTTTTCAGCATTGATGGGTATTACAATGAACTTCGCTTTCTTGTTTAGCGGCACAGTTAGTACAAATGCGCAAATGGTATTACTTACGGTATTCTTGTTAGTTGCTGGTTACAATGCTGGAAAATTTGGTTTAGATAGATGGGTTATTCCATATGTAAAAGGTGTTTTTACTAAAAAAGAAAGAGAAAGTCTAAAGGTTGCTTAA MIMNFIRRSSIAAGILALIRIYIGYEWVVAGYGKITGGQFDASGYLQGAIASAGGEHPAVQGWWAVFLEKVALPNADIFTFLVMWGELLVGIALILGIFTNFSALMGITMNFAFLFSGTVSTNAQMVLLTVFLLVAGYNAGKFGLDRWVIPYVKGVFTKKERESLKVA PGPT0004020_254 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 AK015_00920 402 hypothetical protein ATGCCAAAATTTCATAAACTTGTTCGTGATAAAATTCCAGAAATAATTGCGAGCAAGGGGCAAAAGGCAATTACAACAACACTTCATACAGAAGAATACCTGGTTGAATTAAAGAAAAAAGTGCTAGAAGAATGGGATGAATATTTACAGGCTGAGGATGATGTTTCAGCGCTAGAGGAATTAGCTGATCTTTTAGAAGTCATTCACGCATTAGCAAAAACGCATGGAGCGTCGCTGCAAACAGTCGAAACTTTGCGTAAGAAGAAGAGTGAAGAGAGAGAGGTTTTGATAGGCGTGTGTTTTTACACTGTAGAAAAGATGACATTTAGAATTATTAGTTTAAGAAAAATTATAATAAGACCCAATAGGGCTGAAGGCAGACTATGTTTCTTTTCACAATAA MPKFHKLVRDKIPEIIASKGQKAITTTLHTEEYLVELKKKVLEEWDEYLQAEDDVSALEELADLLEVIHALAKTHGASLQTVETLRKKKSEEREVLIGVCFYTVEKMTFRIISLRKIIIRPNRAEGRLCFFSQ NA NA NA NA NA AK015_00921 378 hypothetical protein ATGGGATTGTTTGATGGTATGATGGGTAATGCATCGGAAATGGACACAAAGAAAGCAGAGGAAGAAATAAGTGATCTATTATCTACAGGAGAGAATGTGGAGCACGCATACAAACTGATCCGCGACATGATGTTATTTACCAATAAACGACTAATTCTTCTTGATAAGCAAGGTGTTACTGGAAAGAAAATGGAATACCATTCTATTCCTTACAAAAACATTACGCACTTCTCCATTGAAACAGCTGGAACATTTGATTTAGATGCAGAACTTAAGCTATGGGTTTCTGGTAGCTCTGAACCGATTCAAAAAACATTCAATAAGCAACTCAATATTTATAACGTACAGTCCGTTTTAGCTAATTATGTATGTAACTAA MGLFDGMMGNASEMDTKKAEEEISDLLSTGENVEHAYKLIRDMMLFTNKRLILLDKQGVTGKKMEYHSIPYKNITHFSIETAGTFDLDAELKLWVSGSSEPIQKTFNKQLNIYNVQSVLANYVCN NA NA NA NA NA AK015_00922 603 hypothetical protein ATGAATAAAAAGACCATTTTGATTTTGTTTACCATGATATGTATTATCATTTTATCAGCTTGTAATACAACCGATGAAGAACAAACAAAAGAAAAACAACAGTCGAACGAATCAGTAGAAACAGTTGGCAATATGGAGGAAGATGCTTCGAAGCAAATTTTTGTTTCATTAAAGGATCGCAAGCAACAGGAAGTAGCTACAGCAACATTAACTCAGGAAGAAGATGGCGTACGTATTCAATTATCAGGACAAAATTTCACACCTGGAAAGCATGGTTTTCATATCCATGAGACAGGTGCATGCGAAGGACCTGATTTTAGTTCTGCTGGTGGACATTTCAATCCCACAAACGTGAGTCATGGAAATGTTGAGGATGGTCCTCATGCAGGTGATTTGCCTAACATTGAAGTGAAGGAAGATGGTACTGTGCAAGCTGACATCTTAGCTGAAATGGTTACGCTTGAAAAAGGAAAGCCAAATTCATTACTAAAAGAGGATGGAACAGCCCTTGTCATTCATTCGGATGAAGATGATTACAAGTCACAGCCTGCAGGGAATGCAGGAGAACGCATTGCTTGTGGTGTGATTCAAGAAGGGGAATGA MNKKTILILFTMICIIILSACNTTDEEQTKEKQQSNESVETVGNMEEDASKQIFVSLKDRKQQEVATATLTQEEDGVRIQLSGQNFTPGKHGFHIHETGACEGPDFSSAGGHFNPTNVSHGNVEDGPHAGDLPNIEVKEDGTVQADILAEMVTLEKGKPNSLLKEDGTALVIHSDEDDYKSQPAGNAGERIACGVIQEGE PGPT0013181_717 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565 NA NA AK015_00923 1554 xylB COG1070 Xylulose kinase ATGACCGCATCAGCTTATTATTTAGGCGTTGATATTGGAACCACGAGTACAAAAGCGGTTTTGTTTACAAAGAACGGAAAAGCAATTAGCAAAAGTGCCGTACATTACCCGTTACATACACCAAATCCTTTAGTAGCCGAACAAGATCCTAACGAAATTTTCCAAGCTGTGGTAACAACAATTAAAGAAACCATGCAAACAAGTAGGATTCACCCAAAAGCTTTAAAATTTGTTGCTTTTAGTTCTGCCATGCATAGTTTAATTGCTGTAGATGAGGTAGGAAATTTATTAACAAATAGCATTACATGGGCGGACACAAGAAGTGCTCCATATGCTAAAGAGATAAACGATAAGAAAAATGGGCATGAAATCTATTTAAGAACAGGAACGCCGATACATCCCATGTCGCCGTTAGCCAAACTATTATGGTTACGAACAGAAGAACCAGCACTGTTCCAACGAGCGCATAAATTCATCTCGATTAAAGAATATATATTTTCTCGTTTATTCCATTCCTATGTGATTGACTACTCCATTGCTTCGGCAACCGGTTTATTGAACCTAGAAGCATTAGATTGGGATGAGGAAGCATTACAAGTAGCAGGGATAACCCCAGAAAACCTGTCCACACTCGTGCCTACTACAAAGACATTTACTGGTGTAGACGAAGTTATTTGTAAAGAAATGGGAATAGACGTAAACACGCCGTTTCTCATCGGAGCAAGTGATGGTGTACTTTCCAATCTTGGTGTCAACGCGATTGAATCTGGCGTTACTGCCGTTACGATTGGAACAAGCGGTGCGATACGTACAGTCACCGACAAACCAAAAACAGATCCACTGGGTAGAACTTTTTGCTATGCATTAACAGAAAAGCATTGGGTTGTTGGCGGACCCGTTAATAATGGAGGAATGATTCTACGTTGGGTACGGGATGAATTTGCAGCTTCTGAAGTAGAAACAGCCAAACGATTAGGTATGGACCCCTATGATGTACTAACGAAAATGGCTGAAGGTGTAGCACCAGGTTCTGACGGGCTTTTATTTCACCCATTTATGACGGGGGAGCGTGCACCACTTTGGGATGCTAATGCACGTGCTTCTTTCTTCGGATTAAGCATTCATCATCAAAAACAACATATGGTACGCGCCGTACTAGAGGGTGTTATGTTTAACTTACGTACCGTTTTACTTGCAGTCACTGCATTGACAGGAGAGCCAAAACAAATCCAAGCGACGGGTGGCTTTGCTCGATCAGCCATGTGGCGTCAACTGATGGCCGATGTCTTCCATAAACCTGTTGTCATACCAGAAAGCTATGAAAGTTCTTGCCTCGGCGCAATCGTATTAGGCATGTACGCTACAAATGAGATTGATGACTTTTCAGTTGTTTCCGAAATGATTGGCGCTACACATACCCATCAACCAAATGAAGCTGCAAGTGCTGTTTACGATGAGCTACTTCCGCTTTTCATACGTCTACCTCAAGTTTTGAAAGCAGAGTATGAAAATATTGCAAATTTCCAACGCAAGCATGTAAACAATGCAGAATAA MTASAYYLGVDIGTTSTKAVLFTKNGKAISKSAVHYPLHTPNPLVAEQDPNEIFQAVVTTIKETMQTSRIHPKALKFVAFSSAMHSLIAVDEVGNLLTNSITWADTRSAPYAKEINDKKNGHEIYLRTGTPIHPMSPLAKLLWLRTEEPALFQRAHKFISIKEYIFSRLFHSYVIDYSIASATGLLNLEALDWDEEALQVAGITPENLSTLVPTTKTFTGVDEVICKEMGIDVNTPFLIGASDGVLSNLGVNAIESGVTAVTIGTSGAIRTVTDKPKTDPLGRTFCYALTEKHWVVGGPVNNGGMILRWVRDEFAASEVETAKRLGMDPYDVLTKMAEGVAPGSDGLLFHPFMTGERAPLWDANARASFFGLSIHHQKQHMVRAVLEGVMFNLRTVLLAVTALTGEPKQIQATGGFARSAMWRQLMADVFHKPVVIPESYESSCLGAIVLGMYATNEIDDFSVVSEMIGATHTHQPNEAASAVYDELLPLFIRLPQVLKAEYENIANFQRKHVNNAE NA NA NA NA NA AK015_00924 900 COG1023 6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating ATGAATATTGGTATGATTGGCTTAGGAAAAATGGGATATAATTTAGCACTTAATTTACTCGACCATCAACATTATGTACTTGGCTTTGACACGAACGAAGCACAAAGGACTTCCATCACACATGCAAATTACGAAGCAACATCCTCCATCGAACATCTTGTAGAACAATTACCTAGTCCGCGCATTATATGGTTAATGGTTCCAGCTGGAGAAGTGACAGAAAATGTCGTACAAAAAATGACAACATTACTTGAAACTGGTGATATTTTAATTGATGGCGGTAACTCCAACTATAAAGATACATGTAAACGAAAAGAAATGTTAGACGATAAAGGCATCTTCTTCTTTGACTGCGGTACAAGTGGAGGAACAGATGGCGCTAGAAACGGCGCTTGTACGATGATAGGTGGAGATGCTGAAGCATTTAAACAAATTGAACCACTATTTAAAAATATTTCCACAGAAAACGGCTACTTATACACTGGGAAAGCAGGCAGTGGCCATTTCTTAAAAATGGTTCACAATGGAATGGAATATGGTATGATGCAAGCCATCGCAGAAGGATTTGATATTCTTCATAAAAGTGAATTTGACTATGACTACGAAAAAGTTGCTAAGGTATTTAACCATGGTTCGGTCATTCGTTCTTGGTTAATGGAACTAACACAACAAGCATTCTCCAAAGATGCTCAATTGGATCAAATACGTGGTATTATGCAATCTTCGGGTGAAGGAAAATGGACGGTAGAAACAGCTCTAGATTACCAAGTAGCAGCACCAGTTATTGCACTTTCCTTAATGATGCGTTATCGCTCCCTTGAAGATGATACGTTTACAGGCAAAGTGGTAGCAGCACTACGGAATGAATTTGGCGGCCACGCTGTGGTTAAAAACGACTAG MNIGMIGLGKMGYNLALNLLDHQHYVLGFDTNEAQRTSITHANYEATSSIEHLVEQLPSPRIIWLMVPAGEVTENVVQKMTTLLETGDILIDGGNSNYKDTCKRKEMLDDKGIFFFDCGTSGGTDGARNGACTMIGGDAEAFKQIEPLFKNISTENGYLYTGKAGSGHFLKMVHNGMEYGMMQAIAEGFDILHKSEFDYDYEKVAKVFNHGSVIRSWLMELTQQAFSKDAQLDQIRGIMQSSGEGKWTVETALDYQVAAPVIALSLMMRYRSLEDDTFTGKVVAALRNEFGGHAVVKND PGPT0017385_4437 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 AK015_00925 855 ybbH_1 COG1737 putative HTH-type transcriptional regulator YbbH ATGGATCAAGTCAACCAACACGGTTTAGCGCGTATTCGTAGCAATTATAGCCGCTTAAGTGAGAAAGAGAAGAAAATAGCTGATTATATTTTGCAACATCCGAAAACAATTATTCATCATACAATTAACCAGATTGCAGATGAATTGGAGGTTGCGGATTCAACGGTGTTTCGTTTTTGTCAGCGCGTGGGTTTTAAAGGATACCAAGCTTTAAAAATTGCACTTGCTGCTGAAATGGCGACACCCGTCACAGATATTCACGAAAAAATCCAAGCTGGCGATGACGTAGGAACGGTTAGTGAAAAAGTTTTTCGTTCGAATATGAATACACTAGAGGATACGTTAAAAGTAATGGATCAAAAAGCCTTACATGAAGCTGTTGCAGCATTAATTGTAGCTGAAAAAGTAGAGTTTTTTGGGATAGGTGGGTCAGCCATTGTATCCATCGACGCTTATCATAAATTTCTTCGTAGTGGAATGCAAGTGCACGCAAATTTGGATGCGCATATGCAGCTAATGGCAGCATCACAATTGCGTGCTAAAGATGTGGCTGTTATTATTTCCCACTCTGGTTCTACAAAAGATATTATGGATATACTACATGTTTTAAGGGATAAAAATGTCACGATTATTGCGATAACAAACTTTGCTAAATCCACGCTGAGCAAGCAAGCAGATATTTTACTTTATACCGTCTCAGATGAGACAGAATTTCGACCTGAAGCATTATCGTCACGAATTGCAGAGCTGACATTAATTGACGCATTATATACAAATGTAATGCTTGCCAAAGGAGAATCCGCTCAACAGGCACTACAAGATATGCGCAAGGCAATTGCTTTAAAACGTTTATAA MDQVNQHGLARIRSNYSRLSEKEKKIADYILQHPKTIIHHTINQIADELEVADSTVFRFCQRVGFKGYQALKIALAAEMATPVTDIHEKIQAGDDVGTVSEKVFRSNMNTLEDTLKVMDQKALHEAVAALIVAEKVEFFGIGGSAIVSIDAYHKFLRSGMQVHANLDAHMQLMAASQLRAKDVAVIISHSGSTKDIMDILHVLRDKNVTIIAITNFAKSTLSKQADILLYTVSDETEFRPEALSSRIAELTLIDALYTNVMLAKGESAQQALQDMRKAIALKRL PGPT0017985_943 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 AK015_00926 756 hypothetical protein TTGATTGATATTAGTAAGTTAATTCAAGGGAAAAATGTAACAGAATTAGATATTCAATTGTTGAGCTATATTGTCGAAAATATGGATCATGTCTTGAAACAAGGAGTTCGTCACATCGCCAAAGTGAATTATACTTCTCCAGCAACCATTATTCGTTTGTCCAAGAAGCTTGGATATACAGGATTTGTAGATATGTATTATCACCTTTTACCGCTGGTGAAAGAGGTAGATGAAAAGAAGGGAAATGTAGAAGATGATTTCCCAGATATTACTACAAAGGAATTTTTCGATTGCAATGGGATGGAAACAATTCATCAATTTATCCATAAAGTCATGCAGATGGAGCAAACCTATATCTTTTTATACGCAACTGGCTTTTCGGCTATAGCTGCTGAATATTTATACAAAAAGTTATTAGTATTAGGGAAGAAAACGATATTAGCTAGTGGTATGGATTCAATAGGTGTATTTGAAAATAATTTGGATCATATTGGTGCACTTGTTGTGATTTCTAAATCGGGTGAAACACAGCAAGTCATTGATAAGCTAGTTGCTGCTAAGGAGCATAACATATTTACTGTTTCCTTCACCAAAGAAATAGAAAATCGAATCGCCAACATATCGGATTTAAACTTTAAAATCATGGATAATAATAAGCTAGATGATCGAAATATGTTGCCTAATATTTTTTTCCCTCGATTATTAATGGCTTTTGAGCTTATTTTAAAGGAATACTTAAAAACAAATGCTAGGTAG MIDISKLIQGKNVTELDIQLLSYIVENMDHVLKQGVRHIAKVNYTSPATIIRLSKKLGYTGFVDMYYHLLPLVKEVDEKKGNVEDDFPDITTKEFFDCNGMETIHQFIHKVMQMEQTYIFLYATGFSAIAAEYLYKKLLVLGKKTILASGMDSIGVFENNLDHIGALVVISKSGETQQVIDKLVAAKEHNIFTVSFTKEIENRIANISDLNFKIMDNNKLDDRNMLPNIFFPRLLMAFELILKEYLKTNAR NA NA NA NA NA AK015_00927 1602 malP_2 COG1263 PTS system maltose-specific EIICB component TTGAAGCAGAAGATGATGGAAGCAATGCAACGTTTTTCCAAAGCAATGTTTATTCCAGTACTTATTTTACCCATTGCAGGTATTCTCATAGCTCTTGGTAATGTATTTACAAACCCACGATTACTTGAAATAATTCCGTTTTTAGATAATCCTGTCACAACTGGGTTTGGTTCCATTTTATCGGGTTCATTAGTTTCGATTTTAAGTAATTTAGGTTTAATTTTTGCTGTTGGTATAACTGTAGGCTTAGCAAAGAAAGAAAAGTCCGTAGCAGGATTTACCGCATTATTAGGATATTTAGTATTTGTGAATGCAATGAATAAATTTATGGAGCTAAGTGGTTTGCTTCTCGAAGCTGATTCCTTGCAAGGAACTGGACAAACATTGGTGTTAGGAGTCCAGATATTAGATATGGGAGTTTTCCTAGGGATTATGCTCGGTCTTGTAACCGCATTTATTCATAATAAATTTATTGATACAGAATTTAATGGTGCCTTTCAAATATATGGTGGTTCCCGGTTTGTGTTTATCGTTTTAATTCCGGTTACCGTATTAATGGCAGTGCTTCTCACTTATATTTGGCCTGTTTTTCAAAATGGAATCAACAATCTTGGCACATTGATTCAACACAGTGGGAATTTTGGTTTGTTTTTATACGGCATGTTAGAAAGGTTACTTATTCCAACTGGTTTACATCACTTAGTATATACGCCATTTCTGTACACCTCACTTGGTGGCGTAGCTGAAGTTGGCGGCCAGGTTTTAGAAGGGGCTCGTAATATTTACTACGCGGAAATTGCTGATCCAGCGGTAGCCCGTTTATCAGAAAGTGTTATCTGGGATGCACGTGGCATTGCGAAAATGTTTGGTTTAATTGGAGCATGTTTAGCGATGTACCATACAGCCAAACCAGAAAATAAAGTAAAAGTAAAAGCAATTTTAATTCCAGCTGCATTTACTTCTTTTATTGCCGGAGTTACAGAGCCAATTGAGTTCTCCTTTATGTTTGTGGCACCAATTCTATTTGTTGTCCATGCTGCTTTAAGTGGTTTAAGCATGGTGGCTTTAAATTTATTAGATGTTCGTGCAATTGGACCAAATGGCATGATTGATTTTCTATTGTTTAATGTCCCACTTGGCTTTGAGAAAACAAGTTGGCCGATGTATATCTTCGTCGGAATCCTATTCTTTGTTATCTATTATGTAGTATTTCGTTTCTTAATTACCAAATTTAATTTCAAAACAGTAGGACGTGAAGATGCAGGCAAAGAAGCAAAATTGTACTCGAAACAAGATTACAAAGAAAAGAAGCGTAAAGGTAAAGCAAAAGACGATACAAATACGGCGAACACCGATATGGCAAGCTTGATTGTAGAGGCTCTTGGCGGGGCAGAAAATATTGATACCATAACAAACTGTTATACGAGATTGCGACTCACATTGCGCCAACCAAACTTAGTTGATGAAGAAACATTAAAAACAAAGACAGGAGCAAGTGGTGTCATTGTTAAAGATAAAAACGTTCAGGTAGTGTACGGTTTACAAGTAACGACTGTGCGTAAATCTGTGGATGATTATTTAGGTAGAGAACAAACAGAATAG MKQKMMEAMQRFSKAMFIPVLILPIAGILIALGNVFTNPRLLEIIPFLDNPVTTGFGSILSGSLVSILSNLGLIFAVGITVGLAKKEKSVAGFTALLGYLVFVNAMNKFMELSGLLLEADSLQGTGQTLVLGVQILDMGVFLGIMLGLVTAFIHNKFIDTEFNGAFQIYGGSRFVFIVLIPVTVLMAVLLTYIWPVFQNGINNLGTLIQHSGNFGLFLYGMLERLLIPTGLHHLVYTPFLYTSLGGVAEVGGQVLEGARNIYYAEIADPAVARLSESVIWDARGIAKMFGLIGACLAMYHTAKPENKVKVKAILIPAAFTSFIAGVTEPIEFSFMFVAPILFVVHAALSGLSMVALNLLDVRAIGPNGMIDFLLFNVPLGFEKTSWPMYIFVGILFFVIYYVVFRFLITKFNFKTVGREDAGKEAKLYSKQDYKEKKRKGKAKDDTNTANTDMASLIVEALGGAENIDTITNCYTRLRLTLRQPNLVDEETLKTKTGASGVIVKDKNVQVVYGLQVTTVRKSVDDYLGREQTE PGPT0016905_177 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0016905-malX-K02791 NA NA AK015_00928 1326 malH_2 COG1486 Maltose-6'-phosphate glucosidase ATGAAAGAATTTTCGATTGTAATAGCAGGTGGCGGAAGTACCTACACGCCAGGAATTGTAATGATGCTTTTGGATAATTTAGATCGTTTTCCTATTCGTACATTAAAATTATATGATAATGATGCAGAGAGACAGGCGGTATTAGGGGAAGCATTGGCAATTACTTTAAAGGAAAAGGCGCCTGATATGGAGTATATTTATACTACTGATCCAGAAGAAGCATTTACAGACGTCGATTTTTGTTTTGCACATATACGAACTGGTAAATATAAAATGCGTGAATTAGATGAGAAAATCCCGTTAAAGCACGGTGTGGTTGGTCAAGAAACGTGTGGACCAGGCGGAATTGCCTATGGGATGAGAAGCATTAAAGATATGATAGAACTTATCGACCTAATGGAGCAATATTCGCCAAACTGCTGGATGTTAAATTACTCTAACCCAGCAGCAATTGTCGCAGAAGCTTGTCGTGTATTACGTCCAAATTCTCGCGTATTAAATATTTGTGATATGCCAGTAGGAACGGTACGAAGAATGTCACAAATTATTGGTAAAACACCACAAGACCTTGACGTTCGTTATTTCGGTTTAAATCATTTTGGTTGGTGGACGAGTATCAAAGATAAAGAGGGAAATGAATACTTACCACAAATTAGAGATTATGTAGAAGAACATGGGTACTTGACTCAAGTCGAGGTTGATACACAGCATATGGACCCAAGCTGGCAGGAGACGCATAAGAAGGCAAAAGATTTACTCGCCGTTGATCCGAGATTTCTACCGAATACGTATTTAAAATATTATTTCTATCCTGACTATGTTGTGAACCATTCCAACCCAACATATACGAGGGCAAATGAAGTTATGGATGGCAGGGAAAAAGAAGTCTTTTCTACGGCAAGAGAAATTATTGCAAAAGGTACATCCTCAGGAAGTGAATTTTCTATAGGTAGTCATGCTTCATTTATTGTCGATCTTGCGCGAGCTATCGCATTTAATACGTATGAAAGAATGGTTATGATTGTAGAAAACAATGGAGCTATAGCCAACTTCGATAACGATGCAATGGTTGAAGTCCCATGTCTCATTGGATCAGATGGGGTGGAACCCTTAAATCAAGGAAAGATTCCAGATTTTGAACGAGCGTTAATGTATCAACAGGTGACAGTAGAAAAATTAGTTGTCCAAGCGTATATAGAAGGTAGTTATCAAAAACTATGGCAAGCACTAACACTTTCTAAAACAGTACCAAGTGCAAAAGTAGCTAAAGAAATTTTAGACGATCTTATCGAAGCTAATCGAGAATTTTGGCCAGAGTTAAAATAA MKEFSIVIAGGGSTYTPGIVMMLLDNLDRFPIRTLKLYDNDAERQAVLGEALAITLKEKAPDMEYIYTTDPEEAFTDVDFCFAHIRTGKYKMRELDEKIPLKHGVVGQETCGPGGIAYGMRSIKDMIELIDLMEQYSPNCWMLNYSNPAAIVAEACRVLRPNSRVLNICDMPVGTVRRMSQIIGKTPQDLDVRYFGLNHFGWWTSIKDKEGNEYLPQIRDYVEEHGYLTQVEVDTQHMDPSWQETHKKAKDLLAVDPRFLPNTYLKYYFYPDYVVNHSNPTYTRANEVMDGREKEVFSTAREIIAKGTSSGSEFSIGSHASFIVDLARAIAFNTYERMVMIVENNGAIANFDNDAMVEVPCLIGSDGVEPLNQGKIPDFERALMYQQVTVEKLVVQAYIEGSYQKLWQALTLSKTVPSAKVAKEILDDLIEANREFWPELK PGPT0014100_343 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_GLYCOSIDE_UTILIZATION PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014100-glvA-K01232 NA NA AK015_00929 1194 yhhS_2 putative MFS-type transporter YhhS ATGCCAGCACAACCTATGGCAGAGACAAAACAGGAAAAAATTTGGACACGTGACTTTATCCTTATTTGTCTCGCTAATTTTTGTATATTTTTAGGCTTTCAGATGACGCTACCTACGTTACCTTTATTTGTAAAAGAACTTGGTGGCAGTGATCAATTGATCGGAATTATTGTTGGAATATTTACATTTTCAGCATTGGTAATGCGTCCTTATGCAGGGCATGCATTGGAGTCAAAAGGTAGACAATTTGTATATATGTTCGGATTACTTATCTTTGTTGTATCTGTGGGCTCATTTGCACTCGTTTCCAGTATTGCCCTACTACTATTACTCCGCATCGTACAAGGAGTAGGATGGGGCTTTTCAACGACAGCTACTGGAACCATTGCGACGGATTTAATACCTCCCTCGCGTCGTGGAGAAGGGATGGGCTATTTCGGACTAGCTGGTAATTTAGCATTAGCTTTTGGCCCGTCTTTAGGTCTAGCGCTTGTTGGTCAAATGAGCTTTTCTAGCTTTTTCCTCATATGTGCTTCCGCTGGACTTGTTGCATTACTTCTATCTAGTAAAATTAAATATAAAAAAGTAGAACAATTGCAGCATAAGACAGTAGCTTTGAAGTTTGATATTTTTGAGAAAACGGCTATTCATCCGTCATTATTACTGTTTTTTGTAACGTTTACGTTTGGAGGAATTGCAACCTTTCTACCTTTACATGCTGCAGAACAGGAAGTTGCTGGAATTGAAGGCTATTTTTTAATGTATGCTGTTTTCCTGATGATTTCCCGTACATTTGCTGGGAAAATTTATGATCAGAAAGGGCATTTATTTGTTTTCCTTCCTGGGACAGTGCTTATTTTTGGCGCTATGCTTTTGTTAGCTTGGCTGCCTAACACAGCTATGTTACTTATTGCAGCTAGTTTATATGGACTTGGATTCGGAATGATTCAACCTGCCTTACAAGCATGGGCGGTTGAAAAAGCTCCCGGAAATCGAAAAGGGATGGCGAATGCCACTTTTTTCTCCTTTTTTGATTTAGGTGTTGGTATGGGAGCCATTATCTTCGGACAAATTGCCTTCTTATTTAATTATGGTGTGATTTATGTTGTAGCTGCAGGATCTGTGTTACTATCCATGTTATTGTATTTGTATCTCGTATTCATTGCTGTACGTCGTAAGCAAGATGTGCGTTAG MPAQPMAETKQEKIWTRDFILICLANFCIFLGFQMTLPTLPLFVKELGGSDQLIGIIVGIFTFSALVMRPYAGHALESKGRQFVYMFGLLIFVVSVGSFALVSSIALLLLLRIVQGVGWGFSTTATGTIATDLIPPSRRGEGMGYFGLAGNLALAFGPSLGLALVGQMSFSSFFLICASAGLVALLLSSKIKYKKVEQLQHKTVALKFDIFEKTAIHPSLLLFFVTFTFGGIATFLPLHAAEQEVAGIEGYFLMYAVFLMISRTFAGKIYDQKGHLFVFLPGTVLIFGAMLLLAWLPNTAMLLIAASLYGLGFGMIQPALQAWAVEKAPGNRKGMANATFFSFFDLGVGMGAIIFGQIAFLFNYGVIYVVAAGSVLLSMLLYLYLVFIAVRRKQDVR NA NA NA NA NA AK015_00930 1869 bceB_1 COG0577 Bacitracin export permease protein BceB GTGTTAGTTAAATTATCTCTATCCAGTATGCGAAAAATGTTTAAAGACTATTTAGTACTATTATTTGGATTAACGATTTCCATTGCGATTTTTTATATGTTTCAAACATTAGCTCAAAATGAAGCTTTTGTGGAAGCAAATGCCATGATTAGTGCAACCATGTTTGTGTTCCATGTTGGGACATTTATTCTCGGATTTATTACGGTTTTCTATATTTTTTATGCCACCTCGTTTATTCAAACATTGCGACAAAAAGAAATGGCTATGTATCTAACTCTGGGGGCAAAGAAAAGTAAAATTACGCAACTCATGTTTATGGAGACGCTGTTTATCGGACTAGTCTCGCTAGTCATCGGTATTGTGATCGGCATGGGGTTAACAGCGATTATTGCCGATGTACTTATGGATATGTTTGATTTCTCAGCGGAAGCCACGGGCTTTAAAGCGATTTATACTTCTTCGATCATTACAACCGTTATCTTTTATATTATTTTGTTTTTATTAACATCGGTTGTAAATGCTTGGCAAATTGGCAAGAAAAAGGTGCTAGATTTATTACAAGCGGACAAACAAGAAGACGTTATTAAAACAAGCGGTTTGAAAACCTTTTTTGGTGTGTTACTTTCTATTATTTTAATGGTGATTGGCTACTACACCATGATTAATATTGCTGAATTGCAATATCTCGGAGTTATCCTAGCTACCATCACGATCGTGCCAGGAACATATTTCATCTTTATTTCTTTTTTGCCATACTTTGTGAAAAAGTTAAAACAAAACCGCATGTTAAATGAAACAGGCATTAACTCATTTACACTAGGGCAATTACGATTTCGAATGCTTAACTTAACCAAAGTATTAGGAACAGTAGCCATGTTAATTGCACTTGGATTAGGTGCAATGACAGCAGGGCTTTCGTTCTATCATAATATAGAGCTTCAAGCCTCTAGCTTTCAAGCAAATGATGCAGCAATCTATGAACCAACCAAGGAAGATTTAAAAACCATCGGAGCAATGGACGTCAGTGAAAAAAATACGTACGAGTATAAATTGACGAATGACGGAGTGTTCTTTCTTAAAGACAGCCTGTTAGAGAAACCACCTCTAGTTCCTCATTTCGATAGTACAATGGAAGCTATATCTGATATTCAAATATTACGTGTGGAAGAAAAACTACCTGCTTCTCTGTATACAATGGATGGCAAAGAAGGGGAAGAACTTCCAGATAAATGGTTGGATGCTATCTCTCTTGAATTAAATGCAAGCTATACTATGTTTGGCGAGACAACGGTTTATGTCGTTGATCAAAGCCATTATGAGAACGTAGATGCGAAAGAAAAACAGGTCATAGTAGTTAAAGCAGACGACTTTTCCAAGCATTTATCGTCATTCAAGCAACTGGAAGAAAGACAACAAGAAGTTGCGGAAAGTTATGTAGGTAAACCTGTCGATAATGCGGGTGGAAAATATAATAATTATGTCAGTTTAAAAAGTTTTTCCAGCGGCACCGTCTTTATGGGAATTTTTCTCGGTATTGCCTTTTTAATGATGATGGCGAGTGTGCTTATGTTTAAACTGCTATCAAGTGCCGGAGCAGATATCGAGCGCTATCACATGTTACGTAAAATCGGTGTTCGTAAGTCATTATTGCAACGATCCATATACCGTGAATTATTTCTACTATTTTTGTTCCCAGCCATTATCGGGCTTGTACACGTCTTAATTGGTATGCAAATGTTCTCTTTTATCTTAGTGGAACCTTATACAAAAGTATGGCTACCAATTATTATTTTCTTAGTCATCTATGGTTTATATTACGTGATTACAGTCCAATTATATAAACGGATTGTATTACCAAAACATCATTAA MLVKLSLSSMRKMFKDYLVLLFGLTISIAIFYMFQTLAQNEAFVEANAMISATMFVFHVGTFILGFITVFYIFYATSFIQTLRQKEMAMYLTLGAKKSKITQLMFMETLFIGLVSLVIGIVIGMGLTAIIADVLMDMFDFSAEATGFKAIYTSSIITTVIFYIILFLLTSVVNAWQIGKKKVLDLLQADKQEDVIKTSGLKTFFGVLLSIILMVIGYYTMINIAELQYLGVILATITIVPGTYFIFISFLPYFVKKLKQNRMLNETGINSFTLGQLRFRMLNLTKVLGTVAMLIALGLGAMTAGLSFYHNIELQASSFQANDAAIYEPTKEDLKTIGAMDVSEKNTYEYKLTNDGVFFLKDSLLEKPPLVPHFDSTMEAISDIQILRVEEKLPASLYTMDGKEGEELPDKWLDAISLELNASYTMFGETTVYVVDQSHYENVDAKEKQVIVVKADDFSKHLSSFKQLEERQQEVAESYVGKPVDNAGGKYNNYVSLKSFSSGTVFMGIFLGIAFLMMMASVLMFKLLSSAGADIERYHMLRKIGVRKSLLQRSIYRELFLLFLFPAIIGLVHVLIGMQMFSFILVEPYTKVWLPIIIFLVIYGLYYVITVQLYKRIVLPKHH PGPT0013350_10833 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK015_00931 765 yxdL_1 COG1136 ABC transporter ATP-binding protein YxdL ATGGCACAATCTGTCTTACAAGTAAACCATTTAAATAAAGTGTACGGAAAAAGGAAAGAAACACAATATCACGCCTTAATAGATATTTCATTTGAAATGAAACAGGGTGAATTTGTCGGTATTATGGGGGCTTCTGGCGCCGGAAAAACGACACTGTTAAACGTAATCTCTACTTTGGATCAAGCATCTAGTGGCTCTGTAAAAATTGCCGGTACGGATGTTACGAACATGAAGCAAAATCATTTAGCAGACTTTCGCTCCAAGCAACTCGGCTTTATTTTTCAAGATTTTAATCTATTAGAAAACCTTACTGTTTATGAAAATATTGCTTTACCTTTATCTTTACAAGGTGTTGCAGTGAAAAACATTAAACCAAGCGTACTAAAAGTGGCCAAAAATCTCGGCATTGAGGAGATTCTTCCGAAATATCCTGTAACCATATCCGGAGGGCAAAAGCAAAGGGTTGCAGCAGCTCGCGCGCTTGTACATGAACCTGCACTCATTCTTGCAGACGAGCCTACTGGCGCATTGGATTCTAAAAACGCAAGAAGCTTAATGGAAACATTCGTTCATATGAATGAAAATCTCGGCACATCCATTATGCTCGTAACTCATGATCCATTAAGCGCAAGTTATTGTCAGCGTATCTTATTCATTCAAGATGGTCAGCTATATAAAGAAATACATCGTACTCATAGACGGAATGAATTCCATCAAGATATTCTTGATGTCCTTTCTGAAATTAACAAACCAAATGAATGGTAA MAQSVLQVNHLNKVYGKRKETQYHALIDISFEMKQGEFVGIMGASGAGKTTLLNVISTLDQASSGSVKIAGTDVTNMKQNHLADFRSKQLGFIFQDFNLLENLTVYENIALPLSLQGVAVKNIKPSVLKVAKNLGIEEILPKYPVTISGGQKQRVAAARALVHEPALILADEPTGALDSKNARSLMETFVHMNENLGTSIMLVTHDPLSASYCQRILFIQDGQLYKEIHRTHRRNEFHQDILDVLSEINKPNEW PGPT0013345_3130 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK015_00932 3165 rapA_1 RNA polymerase-associated protein RapA TTGAAAACAATTCGTGATATTAATGTGGAAAGCTTATTTCCATCCGCCATATATAAACGAGGTTTGAAATATTACAAGCTAGGCCGTGTCAGTGATCCATTATTTGATAGGAATCATCAAGAATGGTCAGCGATCGTAGAAGGCACGGAGAAATATGCCGTTGAAATTCACGCGAAAAATTTTGCCAACGGCTCAATAGGTACGTATTGTAATTGTCCCGCATTTGATACGTATGGTACGTGTAAGCATATCGCTGCGGTATTAATTAAAATTGTTAATCAAAAGAATGATCCTGCAGATCAATTTTCAGCCTATAACTATCGTTTAACGCAAAACTTTATGGCTGCATTAAATAGTCTTCCGCCAACAGAGCAAATGAAAGCACCCGCACCGAGTCAAGTTGAACTCAAAGTGGAGTATATTTGCAAATTAGATAATCAGGATCAATTGCAATTAGAATTGAAAATTGGTGAAAAACGCTGTTATATCATAAAAGATGCTGCTTCCATGCTGGAACATATCATGGAAAAAAGGGAATACTCGTTAACAAAGCGTTTTTCTTATGTTCCGGAACTGCATTGTTTTGCCCAAGCAGATATGGATATTCTTGTTCAGTTACATGCTATTTTGCAGAATGAGCGTATTTACCGTACGGATGATCGTTTTTTCTATAAAGATAGCAAACGTTATATCATTATACCTCCACTGCAGGCGAAAACGTTGCTGGAGAAGCTCGTATCACGATCTTTCTTTGTAGAGACGATGAAGGAAACGTACTCCATTGTAACTGTGGAAAAAGAGGTCATGCCGTTTGACTTTTCTTTGTCAGCGCATAATCGAGATGAATTATTATTGAAAATGGAACCACTACATGATGTATTCTTTCTTCCTTACTATGATCTTTTGTTTGCCGATGGCGTGTTTTATATTCCTAGCGAATATCAAGCCCCCATTATGAATCAGCTTCGGCGCTTTCAAAATCATCATTGGCGGTTACCTGTTGCCAAAAATCAAGCGGACGAATTTGTGTCTACGGTTATTCCATCGTTGCAGAAGGTAGGTAACGTTTCTATAGCGGAGAATGTTGCTAAAGACATTGTGCAATATCCACTTGAAGCAAAGCTCTATTTAGAAGTGAAGGAAGCTTTTATAGTCGGGAAATTGGAATACCATTATGGGTCTGAACAAATAGATCCCTTTGGCAAGCGTGAAGCGAATGAAGTTATTATCATTCGTGATGTGGAAAAAGAACAACAAATTATGCAACTCATTGAATATGCAGATTTTCATTATAACGGAAAAGAACTTTATATTCCTATAGATGATGAAGAAGCGATGTATGATTTCATTTATTATACAATTCCAAAGCTGGATGAGTATGTAGAATTGTTTTTAACATCGGATATTCGTAACTTGATAGTAGAACAGGAGCCTACAGCCTATGCGAATGTAGAAGTAGATCATGCATCCAATTTATTAGATATTGGGTTTGATATTGAAGGTGTAGATGAGTCGGAAATTAAGCAAATTCTATCAGCTGTGGTCGAAAAGAAACGGTATTACCGTCTAGATAGTGGGGCATTGGTATCTTTGGAGAATGATACATTTTTATCTGTGCAACAGTTTTTTGATGATATGAATATCGATAAAGCTGCTATCACAGATGGAAATATGCAAGTACCCGTCTATCGTGGCGTACAAATTGATGAGCTTTTACAAACCGATAAAAATTATGATCGCTCATTCCGCAAGCTCTTGCATCATTTAAAATCACCGGAAGAGCAAGTGTATCCACTTCCCGATAAGCTTCAAGCAGAGCTGAGAAATTATCAAGAGGCTGGTTACCAATGGTTTAAGTCGTTAAGTGAATATCATCTAGGGGGAATCTTAGCAGATGATATGGGACTGGGAAAGACGCTACAAAGTATTGCGTACATTGCATCAGAACCAAGCACACAGCCGCATTTAATTATTGCTCCATCTTCTGTCGTATATAACTGGAAAAATGAATTTGCTAAATTTGCTCCAGGTTTGCAGGTGGCTATTTTAACAGGTACACCACAAGAACGGAAACAGAAGTTTGCTGATTCAAAGCAGATGGACGTTTGGATTACGTCTTATGCTACAGCTCGGCAGGATGTAGAGCTGTACAAAGAAATCCGTTTTCAAACACTTATTCTTGATGAAGCACAATATATTAAAAACTACGCAACGAAAACATCAAAGGCAATTCGCAGCCTGCAAGCGGGCCGTCGTTTTGCGTTAAGTGGTACACCAATTGAAAATTCCATTGATGAATTATGGGCTATATTTCAAGTGATTCTACCGGGATTAATGCCAAATCATAAAACGTTTAAACAACTCCCTTATGAGAAAATCGCGCTAATGACAAGGCCGTTTATTTTACGACGGTTGAAGGGTGATGTTCTACATGAACTCCCGGAAAAAATTGAAACAGTGCATAGCTCGGAATTAACAAAGCAGCAAAAGGATTTATATATTGGCTACCATCGTCAGTTGCAACAAGAAGCGGCGCAATCCATGAGTGAAAATGGCTTTCAAAAAAGTCGGATGAAAATTTTAGCTGGCCTTACGCGCTTACGACAGATATGCTGTCATCCATCGTTGTTTATTGAGAACTATGAAGGAGACTCAGGCAAGCTGGAGCATTTAATGGAAACGGTCCGAAATGCGCAGGAAAGCGGCAAACGGATGTTGATCTTCTCTCAGTTTACATCCATGCATGAGATTATTAAGGATGAGTTAGAGAAAGAGCAAATTGGCTATTTTTATTTACATGGACAAACACCGTCACAGGAAAGAGTAGAAATGAGTGAACGGTTTAATAATGGGGAAAATGATGTGTTTTTAATTTCCTTAAAAGCTGGAGGTACTGGTTTGAATTTAACCGGGGCAGATACGGTTATTTTGTATGATTTATGGTGGAATCCGGCAGTAGAGGATCAGGCTACTGGTCGGGCGCATCGTTTTGGTCAAAAAAATGTCGTGCAAGTTATTCGTTTAATTACGGAAGGAACCATTGAAGAGAAAATATATGAGTTACAGCAGAAAAAACGCGAATTAATTGATCAAGTCATTCAACCAGGTGATGCCATGTTCAATAGCTTAAATGAAGATGACGTTCGTGATCTTTTAAATATATAA MKTIRDINVESLFPSAIYKRGLKYYKLGRVSDPLFDRNHQEWSAIVEGTEKYAVEIHAKNFANGSIGTYCNCPAFDTYGTCKHIAAVLIKIVNQKNDPADQFSAYNYRLTQNFMAALNSLPPTEQMKAPAPSQVELKVEYICKLDNQDQLQLELKIGEKRCYIIKDAASMLEHIMEKREYSLTKRFSYVPELHCFAQADMDILVQLHAILQNERIYRTDDRFFYKDSKRYIIIPPLQAKTLLEKLVSRSFFVETMKETYSIVTVEKEVMPFDFSLSAHNRDELLLKMEPLHDVFFLPYYDLLFADGVFYIPSEYQAPIMNQLRRFQNHHWRLPVAKNQADEFVSTVIPSLQKVGNVSIAENVAKDIVQYPLEAKLYLEVKEAFIVGKLEYHYGSEQIDPFGKREANEVIIIRDVEKEQQIMQLIEYADFHYNGKELYIPIDDEEAMYDFIYYTIPKLDEYVELFLTSDIRNLIVEQEPTAYANVEVDHASNLLDIGFDIEGVDESEIKQILSAVVEKKRYYRLDSGALVSLENDTFLSVQQFFDDMNIDKAAITDGNMQVPVYRGVQIDELLQTDKNYDRSFRKLLHHLKSPEEQVYPLPDKLQAELRNYQEAGYQWFKSLSEYHLGGILADDMGLGKTLQSIAYIASEPSTQPHLIIAPSSVVYNWKNEFAKFAPGLQVAILTGTPQERKQKFADSKQMDVWITSYATARQDVELYKEIRFQTLILDEAQYIKNYATKTSKAIRSLQAGRRFALSGTPIENSIDELWAIFQVILPGLMPNHKTFKQLPYEKIALMTRPFILRRLKGDVLHELPEKIETVHSSELTKQQKDLYIGYHRQLQQEAAQSMSENGFQKSRMKILAGLTRLRQICCHPSLFIENYEGDSGKLEHLMETVRNAQESGKRMLIFSQFTSMHEIIKDELEKEQIGYFYLHGQTPSQERVEMSERFNNGENDVFLISLKAGGTGLNLTGADTVILYDLWWNPAVEDQATGRAHRFGQKNVVQVIRLITEGTIEEKIYELQQKKRELIDQVIQPGDAMFNSLNEDDVRDLLNI NA NA NA NA NA AK015_00933 1281 hypothetical protein ATGAAGATGAAAGTAGCGGTATTTAGCCCAAGAGCAATGCTAGACCGAGTTAAAAAAGTAGTACCTGTCGATAAAGAACTTGATTTTATGTTCTTTCCTTATGTCAGTTTGAAAGAAATGATCCACTTAGTCGAAAAGGCGTATGTTTGTGATATTTTCTTTTTCACGGAACAAGTTTCCTATTTGTATGTAAAAAGTAAAGTTGGAAAGAAGGAGCCTCCATGTATCCATCTTCCTCTAGATGAATACATGCTCTTAACAACATTATGTTTGTTGAAAAAGAATGACGAACAAGTTTGGAAGCGTATTTCTATAGATGTTTGCAATGATAAACCAGTCTATAAAGTGTTTTCAGAATTACATTTGCAAGACAATGATATCTATTTATTACAAACGAAGGAATCCATGTTACATCATTTGCAACCCATTATTGATTATCACGAGAAGCTATGGAAAGAGGAAAAAATAGATTATGTCGTGACATCATTTGAAGAAGTAAAAGATACGTTAAAACAAAAAAATATCCCCGTTCAAAAGATGCACACACCTACATTAAATATGGAAATAGCTATGGAGGAAATAAAACAAGTAGTAAAACTTCGGGATTATCAAGCGAATACGACCCAAGTTGTCATAGGATATATTCAGTTAAAGTCAAAAGAAGCTAAAGTACAATCTTTTGACAGTAACGAACAATTAAAAAAAATCATTCATGAATTTGCCCAAGAAAACCATGCATGTGTGATTACAAATAAACATAATCATATGATGCTATTCGGAACAAATGCTATGCTGGAGTACATAAGACAGCATTACCGTGACTTTCCTTTACTTCATGTCATTGAACGACGGTCACAACTCCCTGTCGCTATTGCGTTTGGTATCGGGCTGACAGCAAACACCGCAAAGGAGAATGCAAAAGCAGCTTTAAAAGCCTGTTTGGATACACAGGAAAGTAAATGTTTTTTAGTAAATGAAAACAAAGTGATGATTGGCCCTATAGGTGAGACGAAAACATTTGATACATCGAAACTATATCAAGCACTGATTCATAAAGCGCGATTAAACAATGAAATTTCTTATAATTTCATTCAATTCATAACATTACGCAATAATGAGCCGTTCTCTTCGCACGATTTCGCTTCGCATTATCAAGTTACGAAACGAAGTGCTGAGCGTACGATTAATAAACTTTTATCAGGCAAAGTTATTAAAGTAGCCGGAGAGGAAAAACCGTATGTAAGAGGGAGACCAAGAAAACTTTTCAATTTGAACATATAA MKMKVAVFSPRAMLDRVKKVVPVDKELDFMFFPYVSLKEMIHLVEKAYVCDIFFFTEQVSYLYVKSKVGKKEPPCIHLPLDEYMLLTTLCLLKKNDEQVWKRISIDVCNDKPVYKVFSELHLQDNDIYLLQTKESMLHHLQPIIDYHEKLWKEEKIDYVVTSFEEVKDTLKQKNIPVQKMHTPTLNMEIAMEEIKQVVKLRDYQANTTQVVIGYIQLKSKEAKVQSFDSNEQLKKIIHEFAQENHACVITNKHNHMMLFGTNAMLEYIRQHYRDFPLLHVIERRSQLPVAIAFGIGLTANTAKENAKAALKACLDTQESKCFLVNENKVMIGPIGETKTFDTSKLYQALIHKARLNNEISYNFIQFITLRNNEPFSSHDFASHYQVTKRSAERTINKLLSGKVIKVAGEEKPYVRGRPRKLFNLNI NA NA NA NA NA AK015_00934 1035 pnoA Nitronate monooxygenase ATGAATCGTTTTTTAGAAAAGACGAAAGTGAAGCTACCGATAATACAAGCAGGGATGGCTGGCGGAATTACCACCCCTGAGCTTGTTGCAACCGTGGCTAACGAAGGGGCACTGGGGACGATAGGGGCAGGCTATATGAATCCAGAAGCATTGAAAAAGTCCATTCAGCAAGTAAAACAATTAACGAAGCAACCGTTTGCTGTCAATTTATTTGCAACGAATTTACAAGCTACATCAAATGACTTAGAGCCAATGCAATCAGCGTTAAATGTGTTTCGAAATCGTTTAGGAATAGAATCTGGAAGCAGTCAAGTTCAAGTAGATGATTACTTAGAGGAAAATATGGAGGTTTTGCTTGAAGAAAAAATTCCCATTATAAGTACTGCTTTTGGTATGCTTTCAGACGAGCATATTATGAAATTGAAAACGAATCCAGTTACGTTATTGGGAATGGCAACGAATGTGGAAGAAGCAAAACAGTTAGAGGAGGCTGGATACGATATTATCGTTGCCCAAGGAAGTGAAGCTGGCGGACATCGAGGCACATTTCAAATTGCCGACTATCCAGAGGGGTGTAATATTGGCTTAGTCGCTTTGCTAAGCTCGATAAAACAACAAATAAAACTCCCGGTTGTTGCTACAGGTGGAATTGCCAGTAAAGAACAAGTACAAGGACTATTCAAAATGGGAGCGGAAGCAGTGCAAATTGGCACACGTTTTCTCCTAGCTAAAGAAGCCGGGACAGCACCTTCTTATAAAGCAGCCCTTCTTTCTGCAAATGGAGAGGACACGATGATTACTACCTTTTTCTCTGGTAGACCAGCAAGAGGAGTTGCCAACACATTTACTAGAGAGTTAGAGAAAAAACAAATGAAAGCATTGCCGTTTCCGATTCAAAATGCGTGTACAAAGGATATACGAAAAGCGGCTAAAGAACAAAATAATGCCGCTTATCAGTCATTATGGGCTGGGCAAGGCGTTGGTCAATTGAACCAAGAAGAAACCGTGAAAGATATTTTGGTTTCTTTGCACTAA MNRFLEKTKVKLPIIQAGMAGGITTPELVATVANEGALGTIGAGYMNPEALKKSIQQVKQLTKQPFAVNLFATNLQATSNDLEPMQSALNVFRNRLGIESGSSQVQVDDYLEENMEVLLEEKIPIISTAFGMLSDEHIMKLKTNPVTLLGMATNVEEAKQLEEAGYDIIVAQGSEAGGHRGTFQIADYPEGCNIGLVALLSSIKQQIKLPVVATGGIASKEQVQGLFKMGAEAVQIGTRFLLAKEAGTAPSYKAALLSANGEDTMITTFFSGRPARGVANTFTRELEKKQMKALPFPIQNACTKDIRKAAKEQNNAAYQSLWAGQGVGQLNQEETVKDILVSLH PGPT0006800_2706 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 AK015_00935 1002 hypothetical protein GTGAAACGTACAAAGTGGATTTTGTTAACGGTTACCTTATTTATCTTTGCATTATTACTAACTGCATGTGGAGGGGAAAGCGACAAAGATAATGCAAATGAAGGGGATAACGAAGATGGGGAAAAGCCAGAATTTTTAAGCTTACTTACAGGAGGAACAAGTGGCACATATTATCCTTTAGGTGGAGAGATGGCAACAATTATAAAGGCCGAGGCGGGAATTCAAACAGATGCTCAATCGTCTAATGCTTCTGCTGATAATGTAGCTGCTTTAAGAGATGGCGATGCCCAACTAGGATTTGTCCAAACAGATGTGATTTCGAATGCTGTTGAAGGAATCAATTCATTTGAAGGAGAGCCTGTTGATAATGTGCAAGCAATCGGTTCTCTTTATCCAGAAACCATTCAAATTGTAACGACGAAGGATTCAGGTATTACTTCTGTCGAGGACTTAGCTGGGAAAGCAGTATCTGTTGGTGCTCCTGGATCTGGAACATTTGTAAATGCCGAGCAGATTTTAGAAGTTCATGGTATGTCAATGGATGATATTGAAGAACAAAATCTTGATTTTGGAGAGTCTACAGGTGGAATTCAAGACGGAAACATTGATGCAGCATTTATAACAGCGGGAACGCCGACTGGGGCTGTTGATGGATTAAAAGCTCAAGTAGATGTGAACATCGTTCCGATAGCTGAAGATAAAATAGATGCCTTAGTAGGAGACTATCCATATTATGCAAGTGATACGATCAAAGCTGGAACATACGGCTTAGAAGAAGATGTCCAGACAGTAGCCGTTTTAGCAATGCTTGCTGTAACAGATAGTCTTTCTGAAGATGTGGTTTACGATATTACAAAAGCAATTTATGAAAACACGGACAAAATTGCTCATGATAAGAGTGAGTTTATAACCAAAGAATCCGCTCTTGATGGTATTGGAATTGATTTACATCCAGGAGCTCAAAAATATTTTGACGAAGAAGGAATATCTGCTTCTGAATAG MKRTKWILLTVTLFIFALLLTACGGESDKDNANEGDNEDGEKPEFLSLLTGGTSGTYYPLGGEMATIIKAEAGIQTDAQSSNASADNVAALRDGDAQLGFVQTDVISNAVEGINSFEGEPVDNVQAIGSLYPETIQIVTTKDSGITSVEDLAGKAVSVGAPGSGTFVNAEQILEVHGMSMDDIEEQNLDFGESTGGIQDGNIDAAFITAGTPTGAVDGLKAQVDVNIVPIAEDKIDALVGDYPYYASDTIKAGTYGLEEDVQTVAVLAMLAVTDSLSEDVVYDITKAIYENTDKIAHDKSEFITKESALDGIGIDLHPGAQKYFDEEGISASE NA NA NA NA NA AK015_00936 537 hypothetical protein ATGAGTGCTTTAAACCGAAAACAATGGTGTTTTATAACCATTATAATTCTTAGTTTGTCCTGCTTAATTGCCTTTTTTGCCCCTTTTAAAACGGCACTTATTTTTTATAAAGAAAATACAGAGCAAATAGCCATGTTTCTTCCTTTGGATGAGGGAGATGCTTTTCAACATATTTTTACGCATTCTATTCATTTAACGGATGTCGTAGAAAAATATGAAGTTACACATAAGAACACCATACAGCAAACGGAAATAATCTATGAAGAATTCGCTATTGGTATGCCAGCTAATGCGCAGGAAGGGGAAGCATTTACGTATGAAGATGGCAAATATCATATAAAAAACATAAATCAAACGTTTGATCAAATTAAACTTCGGAATGGAAAGGTTGTTTCTGAAAATAGACTCGTTTGGGGAAACAACGCACAATATCAAGTTTATTTAAATGATTATGTGCAACCAGGAGCGTGGTTTACGTTACAAATTGACGACGTAACGCTGTGGCAATACTTGAAAGGAGTGAGAGTACATGAGTGA MSALNRKQWCFITIIILSLSCLIAFFAPFKTALIFYKENTEQIAMFLPLDEGDAFQHIFTHSIHLTDVVEKYEVTHKNTIQQTEIIYEEFAIGMPANAQEGEAFTYEDGKYHIKNINQTFDQIKLRNGKVVSENRLVWGNNAQYQVYLNDYVQPGAWFTLQIDDVTLWQYLKGVRVHE NA NA NA NA NA AK015_00937 2001 hypothetical protein ATGAGTGATGAAAAAGATCAGCTAACGAAACAAGAACAAGAAGCATTACTGAAAAAGTACGATACAGAAGCGAATACGCGAAAGCTTGCAGGCATAGCTGCAGGAATTGTTTTTTTTGGCTTACTGGCGTTTTCCGTTTTTCAATTATACACAGGAGCATTTGGGCAAAAAACAGCCTACATTCAACGAACCGTTCACTTAGGGTTTGCACTCTCCTTAATATTTTTATTATTTCCAGCTAGAAGAACAGGAATCAAGTCTCGGGTTGCTTGGTATGATTATATTTTGGTCGTATTATCCATTATTGTTTGTGGGTACTGGCCTGTATATTATGAAACAGTTGTACAGCAAATTGGCGGTATTACAGAAGTGCAAATGGTTATTGGGGGAATTGCTATTTTACTTGTTATGGAAGCAACAAGAAGAGCAGTAGGGCTACCCATTACTATTATAGCTAGTCTGTTTTTAATTTATGCGCTATTTGGTAGGCAAATGCCTGGTATGTTGGCGCATCAGGGGTTAAGTTTGGAACAGCTTATCGACACCATGTTTTTTACAACAGAAGGGATTTTAGGTACACCATTGCAAGTTTCCTCTACTTATATTTTCCTCTTTTTATTGTTTGGTGCTTTTTTAGTACAAACAGGGGTTGGTAATTATTTTAACGATCTAGCTATCTCGCTTGCCGGAAAACGGACTGGAGGACCAGCGAAGGTAGCCATTTTTTCCAGTGCCTTAAATGGAACCATATCGGGAAGTTCTGTAGCAAATACGGTTACGACGGGTTCATATACCATACCGATGATGAAAAGATTAGGCTATAAACCAAATTTTGCTGGTGCTGTGGAAGCGGCTTCGTCCACAGGTGGGCAAATTATGCCCCCCATCATGGGTGCTGCAGCGTTTTTAATGATTGAATTTGCAGGGGTAGGCTATTGGCAAATTGCCCAAGCTGCGTTAATTCCAGCTATTTTATATTTTTCGGGTATTTGGATTATGACCCATTTAGAAGCAAAAAGAATGGGTTTGTACGGGCTACCCAAAGATCAAATCCCACCTAAGAAAGAAGTACTTAAAAAAATTCACTTACTTCTACCGATCATAGCGATTGTTTGGCTACTATTTGAAGGAGTTAGCATTGAGCGAACAGCGCTCTATGGCATTGGGATTACGATAGTTGTTAGTATATTTATGAAGGAAACACGTATAACACCACGTAAATTCATTACCGCTCTAACATCAGGTGCTCGTACCGCTTTAGGTGTAGCTGCAGCTACAGCGTGCGCCGGTATTATTGTAGGTGTTGTGACAAAGACAGGCCTAGGATTAAAGTTAGGAAATAGTTTGGTAGATATTGCTGGTTCTATAGCTACATCGGCGGATATGCAATTATTGTTAACGTTATTTTTCACCATGATTACGTCGATCATTCTAGGGATGGGTTCGCCTACGACAGCGAATTATATTATTACATCCACGATAGCCCTACCAGCTATTTTAGCCTTAAATGATCATTTAGATGTAGCTATTCCACTACTTGCGGGGCATATGTTTGTGTTTTATTTCGGTATTGTAGCTGATATTACCCCACCAGTTGCACTCGCTGCTTTTGCAGCTACAGGTATCTCAGGCGGTGAACCAATTCGCACGGGGATAAATGCTGCTAAGCTGGCTATTGCTGCTTTTATTATTCCGTATATGTTTGTATTACAGCCAGAACTCTTAATGATTGATACATCGATTGGTGAGGTCGGATGGATATTATTTACAGCCATTACGGGTATGATTGCAATTGGCGCCGGTTTGATTGGTTTTTGGTATGTAAAGCTTCACTGGTCTGTACGTATTTTAACAATAGCAATCGGGCTATTATTAATTTATCCAGAAGGAAATACGGATGTATATGGATTGGCCGCCTTTATCCTTATGTTAGCTATCCAGTTGTATATGAATCGTGCAAAGGGATCGGGAGAGAAGATGGAAAAAACGGCAAGTGGGTAA MSDEKDQLTKQEQEALLKKYDTEANTRKLAGIAAGIVFFGLLAFSVFQLYTGAFGQKTAYIQRTVHLGFALSLIFLLFPARRTGIKSRVAWYDYILVVLSIIVCGYWPVYYETVVQQIGGITEVQMVIGGIAILLVMEATRRAVGLPITIIASLFLIYALFGRQMPGMLAHQGLSLEQLIDTMFFTTEGILGTPLQVSSTYIFLFLLFGAFLVQTGVGNYFNDLAISLAGKRTGGPAKVAIFSSALNGTISGSSVANTVTTGSYTIPMMKRLGYKPNFAGAVEAASSTGGQIMPPIMGAAAFLMIEFAGVGYWQIAQAALIPAILYFSGIWIMTHLEAKRMGLYGLPKDQIPPKKEVLKKIHLLLPIIAIVWLLFEGVSIERTALYGIGITIVVSIFMKETRITPRKFITALTSGARTALGVAAATACAGIIVGVVTKTGLGLKLGNSLVDIAGSIATSADMQLLLTLFFTMITSIILGMGSPTTANYIITSTIALPAILALNDHLDVAIPLLAGHMFVFYFGIVADITPPVALAAFAATGISGGEPIRTGINAAKLAIAAFIIPYMFVLQPELLMIDTSIGEVGWILFTAITGMIAIGAGLIGFWYVKLHWSVRILTIAIGLLLIYPEGNTDVYGLAAFILMLAIQLYMNRAKGSGEKMEKTASG NA NA NA NA NA AK015_00938 1176 hypothetical protein TTGCACAAGCAAGGTTCTCATTTAAAATCACAGCCGAGATTAGTTCTTCATTTAGATCAGTTTGACCATAATTGTAACGCTATTGCACGACAGGCAAATGACAAGACGATACGAATTGCCACGAAGTCTATTCGTTCTATCCCTGTGCTAAAGCGAATTTTAGCTTCAAGTAACGTATTTCAAGGTTTAATGTGCTATAACGCTCAAGAGGCTTTATTTTTACACAATAAAGGATTTGATAACATATTAATCGGCTATCCTTCGGTCGATAGAGAAGCGCTGAAACAGATAGCGGAAGTTAATAAAAATGGTGCGCATATTATTTGTATGGTTGATCATTTGCAACAAGTGGATATGGTACAGCAAATAGCTAAACAGGAAAAAGGTTTTATTCCTCTATGCTTGGATATCGATATGAGTACGAGATATGGTGGAAAGCTTCACTTCGGAGTGCGTCGTTCGCCGTTGCATAAACTTAGTGATGTATTAGCTATAGCTGATTATATTAAAAAACAATCTCATTTGCGACTAATAGGAGCAATGGGATATGAAGCACAAATTGCTGGCGTCCAAGATAACTTGCCCCATCATTTAGTAGTAAATAAATGGATGCAAGTTTTAAAGAAACAATCCATTCCTTCTGTGAAGAAGCGGCGAGGTGAGCTTGTTGCAGCTTTAAAAGCGCGTGGCTTCTCACTTCTGTTGGTTAATGGTGGAGGGACAGGGAGTCTCTCTACTACGGTGAAAGAAGATGCAGTTTCAGAAGTTACGGTTGGTTCAGGATTTTATTCCCCTCAGCTGTTTGACTATTATAAACAACCGTTAGGAACAAAGCCAGCGATGTTTTTTACGCTTCCCATTGTCCGCAAGGCAGCAAAAAATATTTATACATGTCATGGAGGGGGATATATCGCCTCTGGCAAATCAGGTGATGATAAAATGCCAGTGCCAGTTTACCCTGCTGGAAGTAGGTTGATATCAGTAGAGGGAGCAGGTGAAGTACAGACTCCTGTCTTCATCCCAAAACAATCTAAAGAGATAGGAGATATAATCGTTTTTCGGGCGGCAAAAGCTGGAGAAATCTGTGAACGTTTTAATGATATTCTCTGTATATCAGAGGGAAAAGTAGTCGGCTACATGCCAACCTATCGTGGGGAAGGGGAGTGCTTTTATTAA MHKQGSHLKSQPRLVLHLDQFDHNCNAIARQANDKTIRIATKSIRSIPVLKRILASSNVFQGLMCYNAQEALFLHNKGFDNILIGYPSVDREALKQIAEVNKNGAHIICMVDHLQQVDMVQQIAKQEKGFIPLCLDIDMSTRYGGKLHFGVRRSPLHKLSDVLAIADYIKKQSHLRLIGAMGYEAQIAGVQDNLPHHLVVNKWMQVLKKQSIPSVKKRRGELVAALKARGFSLLLVNGGGTGSLSTTVKEDAVSEVTVGSGFYSPQLFDYYKQPLGTKPAMFFTLPIVRKAAKNIYTCHGGGYIASGKSGDDKMPVPVYPAGSRLISVEGAGEVQTPVFIPKQSKEIGDIIVFRAAKAGEICERFNDILCISEGKVVGYMPTYRGEGECFY NA NA NA NA NA AK015_00939 1344 COG0277 L-gulono-1,4-lactone dehydrogenase ATGAAAGAGGCATATTGGAAAAATTGGGCAGAGACTGTATACTTTGAACCACATCAAGTAGCCTACCCAACATCTATTAATGAAGTGTGTCAACTTGTTAAAAAAGCTAATGTAAAAAAGCAGCAAGTACGAGTAATTGGTGCAGGTCATTCGTTTACTCCTATTTTTGTGAGTGAAGATTATCTTCTTTCTTTGGACAAATTATCTGGCATAGTCTCTATGGATGGGCAGAAACAAACTGCCGTTGTATTAGCTGGGACACGTTTATATGATTTGGCAAAGCACCTTGCGGCTAAAGGTTTTTCACAGGAGAACTTAGGGGATATTAACATGCAAAGTTTAGCAGGTGCCATATTAACAGGGACCCATGGGACAGGCATTCAATTCGGTAGCCTTGCTACACAAGTAGTGGAATTAAAAATGGTTAACGCTGAGGGTGAACTCTTAACTATAAATGCAGAAAGTGAAGTACCATTACAGGCTGCTGCAGTTTCTTTAGGATTATTAGGTATAGTAGTCGAGGTGACCATTCGGATCATTCCTTCTCCTACGTATCGTTTCGAAAGCAAGAAAATGCATTTCCAAGATGTACTTCAAAACATGGATCATTTCATAGCAGAAAATAGGCATTTTGAATGTTACCTGTTTCCATATTCTGATACTGTCCAAATTAAAATGATGAATCTATCTGATCAAAAACCGCAATCAATTAGAAGGCATCAATTAGAGGCATTAGTAGTTGAAAACTATGTTTATCAGTTTCTTTCGGAAGTAGCAAGAGTAGTACCGCCAACAACATATTGGATTAGTCGTTTATCCGCCAAAGCTATTGGCTCTTCCGTCATTCATGCGAAAAGCTGTGATCTTTTCGCTACAGCTCGTAACGTCCGCTTTCGTGAAATGGAGTATAGTATTCCATTGGAAAATGTACGAGAAGCATTAATCGCTATACGAACGAAAATGGCGAAGGAAGGTTACCAAGTGCATTTTCCAATTGAGGTCAGGATGGTAAAAGGAGACGATTTATGGCTAAGTACGGCATACGAGAGGGATTCCGCTTATATTGCTATCCATATGTATCGTGGAATGCCGTATGAAAAGTATTTTCAAGATATGGATTCTGTTTTACAGGTGTACGAGGCAAGACCACATTGGGGAAAAATGCACAATATGAATATGGATCAATTACAGAGATTATATCCTAAACTGGAGGCGTTTTTACGGCTACGCGAGCAACTAGATCCGACAGGGCTGTTTTTAAATGCCTACTTTGAAAAGTTGTTCGCAATAAGTAATAAAGGTAATGTGGAGAGGCTGCAAAACAGTGTGACTTTCACATCATAG MKEAYWKNWAETVYFEPHQVAYPTSINEVCQLVKKANVKKQQVRVIGAGHSFTPIFVSEDYLLSLDKLSGIVSMDGQKQTAVVLAGTRLYDLAKHLAAKGFSQENLGDINMQSLAGAILTGTHGTGIQFGSLATQVVELKMVNAEGELLTINAESEVPLQAAAVSLGLLGIVVEVTIRIIPSPTYRFESKKMHFQDVLQNMDHFIAENRHFECYLFPYSDTVQIKMMNLSDQKPQSIRRHQLEALVVENYVYQFLSEVARVVPPTTYWISRLSAKAIGSSVIHAKSCDLFATARNVRFREMEYSIPLENVREALIAIRTKMAKEGYQVHFPIEVRMVKGDDLWLSTAYERDSAYIAIHMYRGMPYEKYFQDMDSVLQVYEARPHWGKMHNMNMDQLQRLYPKLEAFLRLREQLDPTGLFLNAYFEKLFAISNKGNVERLQNSVTFTS NA NA NA NA NA AK015_00940 423 hypothetical protein ATGAGACGATTAAAAATAATATGGATTGGGGGTATCTCTGGTGTCGTTCTAGGTGTTTTTTTAAAGCTAACGGAGCAGATAACATCCAACCGAGTGTACACACTATTGCTCAACGTCGATTATATCCCAATACTAAAAGATTTGCCGTTAAATGAATTTGGTGAATTTATGCTGCATATGATTGTTTCGGTAATTCTAGTGCCAGTGATCTATGTAGCCTTAAAACAGATTGGGCACGAACAAAACCCTTTCGCCTATACGTTGCTTAGTAGTTTAATAGGTGCTGTTATTTATATAACGACAAGCTTTTCTGAACGTACACCAGACTTACTTGACGGAACCTCGTTTTTGCTTTGGGTTATCGGGCATGTATTATTTGGATGGGTGACAGGTTTCCTTATAGCAAAGATAGTAAAGGACTAG MRRLKIIWIGGISGVVLGVFLKLTEQITSNRVYTLLLNVDYIPILKDLPLNEFGEFMLHMIVSVILVPVIYVALKQIGHEQNPFAYTLLSSLIGAVIYITTSFSERTPDLLDGTSFLLWVIGHVLFGWVTGFLIAKIVKD NA NA NA NA NA AK015_00941 630 hypothetical protein ATGATGAAGAACAACAGGAGATTGTCAAAAGCAATTAAACGAACGGTGTTTGTAGGAGTCGGCTTATTCCTTTTATTTATCGGTATATCATTGTTCTTTCAACGATTTATGTTAACACAACCTGATTCACAGACAGGTCGAATAATTAGTGAACAAGTTTTAGATTACCGCCCTTTAGTAGTAAAATATGCTAAAAAGTATGAAGTGGAAGAGCATGTTGATACGCTTCTCGCTATGATGATGCAAGAATCTAGCGGGCAAGGGGATGATCCAATGCAATCATCAGAAAGTTATTGCGGAGAACGTGGATGTATTCAAGATCCGGAAGTATCTATTAAACAAGGAGTCTATTATTTTTCACAAACATTGAAAGCAGCAGGTGGCGATGTATTAACGGCTATCCAATCGTACAATTTTGGAAAAGGATTCGTCGATTATATTCGCGAGCAAGGGGACGACTTTTCACAAGAAGCAGCCATTCAATTTTCGCAAAAAATGTATGCAGCAGATCCTGACAAAGAGAAATACCGCTGTTTACGTGACGGGGCGCAAGAACTTGATGCTTGCTATGGCGATATTTATTATGTTAAATCTGTGATGGCATATAAAGATAAATTAAAAGAAGATTAA MMKNNRRLSKAIKRTVFVGVGLFLLFIGISLFFQRFMLTQPDSQTGRIISEQVLDYRPLVVKYAKKYEVEEHVDTLLAMMMQESSGQGDDPMQSSESYCGERGCIQDPEVSIKQGVYYFSQTLKAAGGDVLTAIQSYNFGKGFVDYIREQGDDFSQEAAIQFSQKMYAADPDKEKYRCLRDGAQELDACYGDIYYVKSVMAYKDKLKED PGPT0023995_1618 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471 NA NA AK015_00942 381 yabJ COG0251 2-iminobutanoate/2-iminopropanoate deaminase ATGAATAAGGCAATTCATACAGAAAAGGCACCCGCTGCGTTAGGTCCATACTCACAGGCTATTGTAGCAGGTGATTTCCTTTATGTATCTGGGCAAATTGGGATTAATCCAGAAACAGGGGAGATGGCAGAAGGAATTCATGAGCAGACAAAACAAGTTTTAGAAAATATTCAAGCTATTTTAAAAGAGGCGGGAACAGATTTAGCTAAAGCAGTTAAATTCTCCATTTATTTACAATCAATGCAAAATTTTGCTGCCGTCAATGAAATCTATGGAGGCTATTTACAAGAGCCATATCCGGCAAGATCAACAATGGAAGTGGGCAAATTACCAAAAGACGCGCTCGTTGAAATGGATGTTATTATCCATTTAAAAGCGTAA MNKAIHTEKAPAALGPYSQAIVAGDFLYVSGQIGINPETGEMAEGIHEQTKQVLENIQAILKEAGTDLAKAVKFSIYLQSMQNFAAVNEIYGGYLQEPYPARSTMEVGKLPKDALVEMDVIIHLKA PGPT0020030_3444 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 AK015_00943 246 hypothetical protein ATGGGTATTGTCGTAGTCGAGGTCTGTGACGGAAATGCAATCACTTCTATTCATATAGAGGAAATCTTAGAAAAAGAATTTCCTGAAGTAGCTGTGCTCATGAATGATTGTCTATCTTTTTGCGGATTATGCAGAGTAAAACCATATGCACTCGTTAACAATCGACGCATTTTCGGAAACACGCCAGAAGAATGCTTAGAGAAAATAAGAACTGCCATTAAAGAAGAGCTAGCTGTATACGAATAA MGIVVVEVCDGNAITSIHIEEILEKEFPEVAVLMNDCLSFCGLCRVKPYALVNNRRIFGNTPEECLEKIRTAIKEELAVYE NA NA NA NA NA AK015_00944 1362 yeeO COG0534 putative FMN/FAD exporter YeeO ATGGCTTCAGAAAAAGTGAAAAGGATCACATTATTTGGGTTAACATGGCCGATTTTCATTGAAATTTTCCTACATATGTTAATGGGAAATGCGGATACATTAATGTTAAGTCAATATTCCGATAAGGCCGTTGCAGCTGTTGGTGTCTCTAACCAAGTACTGTCGGTAGTCATTGTCATGTTTGGCTTTGTAGCACAAGGAGCAGCCATTCTAATTGCGCAAAACCTAGGTGCTAGAAACAACCAACAGGCTGGAGAGATTTCTGTTTTATCTATTAATCTAAACCTGTTATTCTCCCTATTTTTAAGCGTCGTGTTATTTTTCGGTGCACAATATATTCTTCAATTAATGGATCTCCCTCAAGAAATCATGAACGAAGCATCTGGATACATGCAAATTGTAGGTGGGCTCATCTTTATACAAGCATTAATTATGACTCTAGGCGCTATTTTACGTAGCTACGGATATACGAAAGATACCATGAATGTCACCATCGGCATGAATATATTGAATGTCATTGGAAATTATTTTGTCATTTTTGGACCATTCGGCTTTCCTGTTTTAGGGGTAGAAGGGGTTGCCTACTCTACTGCGATTAGCCGTTTTATAGGTGTTATTGTCCTATTTTACTTATTTCTAAAACGAAACCAAGGGGAAATTCAAGTAGCATACTTTTTCCGTTTTCCGAAAAGCTATGTAAAACGATTATTGCAAATTGGCATTCCATCTGCAGGTGAACAAATCTCTTATAACGCCAGCCAAATGGTAATTACTTATTTTGTAGCCCAGCTTGGCACAATTGCAATAACGACGAAGGTTTATGCGCAAAATATTATGATGTTTATTTTCTTATTTTCCATCGCTATTGGTCAAGGTACACAAATTTTAGTTGGACATTTAGTTGGCGCAGGAGACATAGAAGCAGCATATAAGCGTGTCATGAAAAGCCTAAAAATATCAATTGTTATTTCCTTATCAATGGCTACGGTTGTATATTTTTACTCCAGTCAGTTACTAGGGATTTTTACAGATGATACGACGATATTGGAAACAGGGGCAGGCTTATTGCTAATGACAGTTGTACTGGAACCCGGAAGAGCATTTAATTTAATCATGATCAGCTCTTTACGAGCAGCTGGCGATGTAAAGTTTCCAGTTTATATTGGCGTTGCTGTGATGTGGGGCATTGGAGTTACTTTTGCATGGTTCTTCGCTATTTATTTAAATTTGGGTCTTATTGGTATTTGGATTTCCTTTATTGCTGATGAATGGATGCGAGGATTATTTATGCTAAGACGTTGGCGAAACCGTAATTGGGTATCCATGAGTTTTGTAAAATCAGAAACGAAATCACATCATTGA MASEKVKRITLFGLTWPIFIEIFLHMLMGNADTLMLSQYSDKAVAAVGVSNQVLSVVIVMFGFVAQGAAILIAQNLGARNNQQAGEISVLSINLNLLFSLFLSVVLFFGAQYILQLMDLPQEIMNEASGYMQIVGGLIFIQALIMTLGAILRSYGYTKDTMNVTIGMNILNVIGNYFVIFGPFGFPVLGVEGVAYSTAISRFIGVIVLFYLFLKRNQGEIQVAYFFRFPKSYVKRLLQIGIPSAGEQISYNASQMVITYFVAQLGTIAITTKVYAQNIMMFIFLFSIAIGQGTQILVGHLVGAGDIEAAYKRVMKSLKISIVISLSMATVVYFYSSQLLGIFTDDTTILETGAGLLLMTVVLEPGRAFNLIMISSLRAAGDVKFPVYIGVAVMWGIGVTFAWFFAIYLNLGLIGIWISFIADEWMRGLFMLRRWRNRNWVSMSFVKSETKSHH NA NA NA NA NA AK015_00945 1212 sbnD Staphyloferrin B transporter ATGTGGTTTGCTAATTTTTTTGTGGCTGGAAGTATGACAATGGTAATCCCATTTATTTCTTTGTACATTGACTCCATGGGAAACTTCTCTGACGCTTATGTCCAGAATTGGTCAGGCTGGACCTTTGCGATCACCTTTGTCACCGCGTTTATCTTTTCGCCAATCTGGGGGAGGATTGGTGATAAATACGGACGGAAAAAGTTGCTTATCTTCTCTGCAACAGGAATGGGGCTATCTATATTTTTAATGGGTTTCGCTACTTCCGTATGGCAACTATTCTTACTTCGCCTATTGATGGGTGTCGCTACAGGTTTTATTCCCATGTCCCAAGCATTTATTTCCACGCAGACGCCAAAGCACATCGCTGGAAAAGTACTTGGAACACTACAAACTGGTAGCATTACAGGAACATTAATGGGCCCCCTTTTAGGTGGAACACTTGCTGATGCATTTGGCTATGCTAATACATTTAAATGGGTATCCATCACCATTTTCTTTTCGGCCGTCATTGTGTTCTTTGGCGTGAAAGAAATAAAAGCAAATCTCGCTGATGGGGAAAGAGACGAAAAATCATATACAAAAAAGCAAGTCCTTCAGCATATCGTTTCTCGCCCAGTCTTACTCATTGTCATGCTAATCTCAGCTTTAGTTCAGATCGCTCACTTTAGCGTACAACCAATCCTTTCCTTGTTTGTTCAAGAAATTCACGGACCAGCAAGTATTGCTTTTTTCTCTGGAGTAGCATTCTCTGCGGCTGGACTTGGTAATCTACTAATGTCAAGAAGGCTTGGCAGACTAGGGGACAAAATTGGTTATATTAAAGTACTCATCGCATTATTATTTATGGCTGGAATTGTTTATCTACCCGGAGCTTGGGTAACCAATATATGGCAACTCGTTATTTTACGCTTTTTACTCGGTATTGCCATAGGCGGAATTATCCCTGTACGTATCGCTTATATTAGACAAACTGCCCCGCTATCCATGCAAGGAGAAGTACTTGGCTACAATACAAGCCTACGCTTTTTAGGCAATATTATCGGTCCAGCATTAGGCGGCGTAATTGCTGGATTTTTCGGGTTTTCTGCAGTATTTCTGTTCACGAGTATACTGCTATTAGTCAGTGGAGCTATCATGCTCTATTTTTGGTATAAACACGAATACGCTTCTAAACATCCACAAACTCACTCCTTATTTGCGAAAAGAGGGTAA MWFANFFVAGSMTMVIPFISLYIDSMGNFSDAYVQNWSGWTFAITFVTAFIFSPIWGRIGDKYGRKKLLIFSATGMGLSIFLMGFATSVWQLFLLRLLMGVATGFIPMSQAFISTQTPKHIAGKVLGTLQTGSITGTLMGPLLGGTLADAFGYANTFKWVSITIFFSAVIVFFGVKEIKANLADGERDEKSYTKKQVLQHIVSRPVLLIVMLISALVQIAHFSVQPILSLFVQEIHGPASIAFFSGVAFSAAGLGNLLMSRRLGRLGDKIGYIKVLIALLFMAGIVYLPGAWVTNIWQLVILRFLLGIAIGGIIPVRIAYIRQTAPLSMQGEVLGYNTSLRFLGNIIGPALGGVIAGFFGFSAVFLFTSILLLVSGAIMLYFWYKHEYASKHPQTHSLFAKRG PGPT0029185_704 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 AK015_00946 930 ypuA COG4086 putative protein YpuA ATGATGACCAAAAAAATAAGTAAACTTCTCATCATTACACTAATCGCAGTGTTCATGCTTGGGACGAACCTATCTGTTTCTGCTGACAGTGGAGCAAGTGATACGAGTAGTATTAATGAAAAATTAGGTCCACCTATCGTCGTATATGGCGCGCAACTCTCTGACAACCAGCGAGCAGAAGTGAAGGATTTATTAAATGTTAAAGACCAAGATCAAGTGGATGAATATGATGTGTCTGGACAAGACGCAGCGAAATATATTAATGGCAACCCAAATTCAAATATGTATTCCAGCGCAAAAATTACTCGTCAGGAAGCTGGAAACGGTCTAACAATTAATATTGTAACCCCTGATAATATTACAGAAGTAACCAAAGAAATGTATGCAAATGCATTGTTAACTGCAGGCGTCGAGAATGCGACAGTGGATGTTGCTTCTCCTGTAAAGGTGAGTGGACACTCTGCTTTGACAGGAATATATAAAGCTTATGACGTCGAAGGAGAACAGCTTGATAAAGAACGTATGGAGTTAGCGAATGAGGAGCTTGACGTAGCCACACAGTTAGCGAATAAGGAAGGCATGAATCAGGAAAAAGTTAGTCAATTACTTACAGATATTAAAAAGACGATTGCTGAGCAAAACCCGGCAACGAAAGAAGAAGTGGAGCAAATTGTTCAAGAGCAATTGGATAAATTGGAAATAACGTTAAGTGATAAAGACCGCCAATTATTAATTGATTTAATTGATAAGATGCGTGACCTAAACATTAATTTTGACCAAGTAAAAAACCAATTAGACGATATTACATCTGCCATTAAAGATAAAGCAGATGAACTTGGTTTAGATGAAGGTTTTTGGGAAAAGGTCGGGAACTTTTTCCGTGAACTTTTCGAAGCAATTAGTAACTTCTTTAAAGGGTTATTTAGTTAG MMTKKISKLLIITLIAVFMLGTNLSVSADSGASDTSSINEKLGPPIVVYGAQLSDNQRAEVKDLLNVKDQDQVDEYDVSGQDAAKYINGNPNSNMYSSAKITRQEAGNGLTINIVTPDNITEVTKEMYANALLTAGVENATVDVASPVKVSGHSALTGIYKAYDVEGEQLDKERMELANEELDVATQLANKEGMNQEKVSQLLTDIKKTIAEQNPATKEEVEQIVQEQLDKLEITLSDKDRQLLIDLIDKMRDLNINFDQVKNQLDDITSAIKDKADELGLDEGFWEKVGNFFRELFEAISNFFKGLFS NA NA NA NA NA AK015_00947 834 yocH COG1388 Cell wall-binding protein YocH ATGAAAAAGATTGTGGCTTCATTCGCTACTGGTATGATTATTGCTGGCACTGCTGCTACTACAGTATCAGCAGAAGAGTACGACGTGAAACAAGGAGATAACCTTTGGAATATTGCAAATGAATACAACACAACTGTAGAACAGTTAGTTGATGTAAATGAATTAAAAACGACTACCATTCAACCAAAACAAACTCTTATTATAAATAAACAAGCAAAAATGAAATATAAAATTCAACAAGGAGATACACTAAGCGGGATCGGTCATAAGTACGGTGTATCTGTAGAAGATATTAAGGAATGGAATAATCTAGATTCCGATTTAATTGTCGCTGGTCAGAATTTAACGTTAGAAGGCGTAACAGTTTCCAATGACAAGCCAGCAAAAGAAGAACCACAAGCACAACCAAAACAAACGCAAAAAGAACAGCAACCAGTTACAAAAACGAAAGCACCTGCAAAAGAGGAGCAAGCAACACCAGCTTCTTCTAAACCAGCAACGAGCCAAAAGGCGCCTGAGCAAACAAAGCAGGAAAAGCCTCAAGGTCAATCATTTTCTGTAACAGCAACAGCTTATACAGCAAGTTGTGATGGATGCTCTGGTGTAACAGCAACAGGTGTTAATTTAAATAATAATCCGAATGCAAAAGTCATTGCGGTTGATCCAAATGTCATTCCATTAGGCTCAAAAGTGTATGTAGAAGGCTATGGCTATGCAACTGCTGCTGATACTGGTGGTGCTATTAAAGGAAATAAAATTGACGTACATGTTCCAAATAAAGGCGATGCTATGAATTGGGGCGTCAGAACAGTTAATGTAACAGTTGTAGAATAA MKKIVASFATGMIIAGTAATTVSAEEYDVKQGDNLWNIANEYNTTVEQLVDVNELKTTTIQPKQTLIINKQAKMKYKIQQGDTLSGIGHKYGVSVEDIKEWNNLDSDLIVAGQNLTLEGVTVSNDKPAKEEPQAQPKQTQKEQQPVTKTKAPAKEEQATPASSKPATSQKAPEQTKQEKPQGQSFSVTATAYTASCDGCSGVTATGVNLNNNPNAKVIAVDPNVIPLGSKVYVEGYGYATAADTGGAIKGNKIDVHVPNKGDAMNWGVRTVNVTVVE NA NA NA NA NA AK015_00948 903 lnrL_1 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGGAAGACACGATTGTTTATGCACACAAGTTAAGTAAAACATTTAAGCAGAAAGAAGCGGTACGCAATGTATCGTTTTCTATCGCTAAAGGGGAAGTCGTTGCTATGCTAGGCCCAAACGGTGCGGGGAAGACGACAACACTTTCGCTTGTTTTAGGTTTATTAAAGCCGACAAAAGGTAAGGTGCAAGTTTTTCAGCAACCCCCACAAAGTATGCACGTTCGGGAGCGAATTGGTGTGATGTTACAAGAAGTAAGAATGATGGATGGCTTAAAAACGAAAGAAATGTTGCAATTATTTCGCTCCTATTATCCAAACCCTTTAGCCCTTTCTGAGATGATTGCGCTAACTGGGTTAGCTAATGCAGATTTGACTACAAAAGTAGAAAAGCTTTCTGGAGGGCAACGAAGAAGAGTGAACTTTGCTGTTTGTTTAGCAGGAGATCCAGACTTCATCGTTTTAGATGAACCGACAGCAGGGATGGATACGACTTCGAGAGTGAAATTTTGGAAAACGATTCATCAATTGGCGGAACGAGGAAAGACAATTTTGTTCTCTACACATTATCTTCAGGAAGCAGATGATACGGCAAAGCGAATTATTTTGCTACATCAAGGACAGAAAATTGCTGATGGAGCTACCGAAGAGATAAAGCATCAATTATCGAGGCAATATGTCTCTTTTCGTCTAAATGGAAAATTAAATCGAGCAAAGCTTAATGTGCCAGATGTGTTAGCAATAGAAGAACGAGAAGAACGAATTTATTTAGAAACGAAAAATACCGATGCGTTAATTTCCTATATTATGCAGCATTTTTCAAATGCCTATGATCTGCGAATAGATAAAGGCAGTATGGATGATGTATTTGAAACTTTAGTACAAGGGAGCAGAGAAAATGAATAA MEDTIVYAHKLSKTFKQKEAVRNVSFSIAKGEVVAMLGPNGAGKTTTLSLVLGLLKPTKGKVQVFQQPPQSMHVRERIGVMLQEVRMMDGLKTKEMLQLFRSYYPNPLALSEMIALTGLANADLTTKVEKLSGGQRRRVNFAVCLAGDPDFIVLDEPTAGMDTTSRVKFWKTIHQLAERGKTILFSTHYLQEADDTAKRIILLHQGQKIADGATEEIKHQLSRQYVSFRLNGKLNRAKLNVPDVLAIEEREERIYLETKNTDALISYIMQHFSNAYDLRIDKGSMDDVFETLVQGSRENE PGPT0006725_15181 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_00949 744 hypothetical protein ATGAATAAAATACTATATTCATGTATTGCGGAAGTAAAACGTGCCATTCGCAACCCATATTATGTACTTTGGTCGCTCCTTATACCAGTTTGTTTTTATGTTATTTTTACGAAGGTGTTTACATTTAATGACAATGCTGCAGATCAAGCATTATGGGAAGCGCATTATTTAATGTCGATGGCTGCTTTTAGTGTGATGGGCTCTAGTGTAATGACCGTAGGCATTCGTCTTGTGCAAGATAAACAGCAAGGGTTTATCACGTTTCTAAAAGTAACCCCATTACCCGAATATGTCTATATCATTAGCCAAATGGTAGGGCAAAGTGTTATTCATATTTTATCCATCGTGGTTATATTTTTTGCAGGTGCCCTCCTTAACGATGTGTCGCTAACGGCTATGCAATGGGTGCTTAGTGGTGTATGGATTTTATTCGGTTCTCTCGTTTTTTTAGCTTTAGGTACACTTGTTGGGACAATGAATAAAGTGGAAACAGCAAGTGGCGTAAGCAATATTTTATTTTTAGGACTGGCATTACTAGGTGGCATGTGGATGCCTCTAAATGCAATGCCTACGCTTTTCCAAGATATTGCTACATGGTTACCTTCCTATCATTATGCGAATGGACCATGGGAAATTATTCGTGGAAATAGTCCAGCGTGGAATAATATATTTATGCTTATCGTGTTTTTATGTTTGTTTATGGTATTATCAGTTTATATAAGACGGAAGCAAGAAGGGCTGTAA MNKILYSCIAEVKRAIRNPYYVLWSLLIPVCFYVIFTKVFTFNDNAADQALWEAHYLMSMAAFSVMGSSVMTVGIRLVQDKQQGFITFLKVTPLPEYVYIISQMVGQSVIHILSIVVIFFAGALLNDVSLTAMQWVLSGVWILFGSLVFLALGTLVGTMNKVETASGVSNILFLGLALLGGMWMPLNAMPTLFQDIATWLPSYHYANGPWEIIRGNSPAWNNIFMLIVFLCLFMVLSVYIRRKQEGL PGPT0006730_22397 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_00950 1149 desK COG4585 Sensor histidine kinase DesK ATGTATATGACGGCACAAACCAAATGGGAACTATTTCCAAAAAAGTATGGATTTTTCCCTTATATATTTCTCATTTATTTATTCATACCTGCAACGTTACTAATGAAAGAAGACGGAATAAAGCAAGTAGTTGGTTACTTGCTTTTACTGCTGTTTTTAATTAGTTACCGTCAACTTTATCATGAAGAAGGGACGGGCAGATTTGCTTTTTGGCTTGGTCTGCAAATGATCATTATTGGTTATCAGAGCATGGTTTACGATTATAATTTCCTATATCTTGGGTTTTTCACGGCTAATTTTATTGGTTGGTATGCGGATAAAAAACAATTTCAAGCAGCTTGGTTTGCTTTAATGGGAACGTTGTCACTTCCTATTTTGTATCACGTGATATTTACAGGTGACTTTTCGAAGGAGCAGTTTTATATGATTCCATTTTTAATTGTTATTTTAGTTTCTCCTTTTGGAATTCGGTCTATGATTAAAAATATGGAATTGGAAAAAGAGTTAGATGAAGCAAATGCAAAAATCAAAGAGTTGGTTAAACGAGAAGAAAGAACACGAATTGCGCAAGACCTTCATGATACGCTTGGCCATACGCTGTCACTAATCACATTAAAAAGCCAATTAGTGGAACGATTAATTACGAAGGATGCTAAACGTGCCATAGAGGAAGTGAGCGAAATTGAAACCACATCTAGATCAGCGCTCGATCAAGTTCGAGAATTGGTAACGGATATGAAAGCGCAAACGTTAGCCGAAGAAGTAGTACAAGCGGAGCAGCTATTAAAAGCAGCAAATATGAACGTACAGATAAATTTTCCATTTGAAATGCATGTTGATTCATCCCTCACAGAGCATATGCTTAGTCTTTGTTTAAAAGAAGCAGTAACAAACGTTGTTAAGCATAGTCGAGCGAGTAAATGTTGGTTGCTCTATCGAGAAGAAGAGCAAGCGATCATTATACAAGTGAAAGATAATGGCATTGGTATAGATAATCAGAGCGTGGAAGGGAATGGGCTTGTAGGGATGAAAGAAAGACTAGCCTTAGTAGATGGCTCGCTATCTGTAAGTAAGAATAGTGGAACAACGGTAGAAATGAAAGTTCCCAAGGTGAAAAAACCAGAGAAAGAAGGGGAAATCCATGCTTAA MYMTAQTKWELFPKKYGFFPYIFLIYLFIPATLLMKEDGIKQVVGYLLLLLFLISYRQLYHEEGTGRFAFWLGLQMIIIGYQSMVYDYNFLYLGFFTANFIGWYADKKQFQAAWFALMGTLSLPILYHVIFTGDFSKEQFYMIPFLIVILVSPFGIRSMIKNMELEKELDEANAKIKELVKREERTRIAQDLHDTLGHTLSLITLKSQLVERLITKDAKRAIEEVSEIETTSRSALDQVRELVTDMKAQTLAEEVVQAEQLLKAANMNVQINFPFEMHVDSSLTEHMLSLCLKEAVTNVVKHSRASKCWLLYREEEQAIIIQVKDNGIGIDNQSVEGNGLVGMKERLALVDGSLSVSKNSGTTVEMKVPKVKKPEKEGEIHA NA NA NA NA NA AK015_00951 603 desR COG2197 Transcriptional regulatory protein DesR ATGCTTAAAATTGTAATAGCAGAAGACCAAAAAATGTTGTTAGGTGCAATCGGTTCTTTATTGAATTTAGAAGTGGATATGGAGGTGATCGGTCAAGCAGTGAATGGCGATGAGGTATGGAGACTCATCCAAGAAAAGCAACCAGATGTTTGTTTGTTGGATATTGACATGCCTGGGAAAAGTGGTTTGGAGGTAGCGGGGCTGTTAAATAAACTAAAGCAACGCCCACGGATCATTGTCTTAACAACGTTTGCAAAACCAGGTTATTTTGAAAAAGCGGTCAAAGCTGGCGTAGATGGTTATTTATTAAAGGATCGTTCTATTGAAGAACTAACAGCAGCTATTCGTAAAGTAGTGCATGGTGAAAAGGTGTATAGTCAAGAACTCATGGTCGACTACATGTGCGATCCTAACCCTTTAAGTGAGCGAGAACAAGAAATTTTGCGACTAGTAGCTGAAGGAAAAACGACCAAAGAGTTAACAAATATTTTATATTTGTCTTATGGTACGATTCGTAACTATTTGTCTGAAATCATGCAAAAATTAGAAGCGAAAAATCGTTTAGAAGCGGTTGATATCGCTCGAAATAAAGGGTGGATTTGA MLKIVIAEDQKMLLGAIGSLLNLEVDMEVIGQAVNGDEVWRLIQEKQPDVCLLDIDMPGKSGLEVAGLLNKLKQRPRIIVLTTFAKPGYFEKAVKAGVDGYLLKDRSIEELTAAIRKVVHGEKVYSQELMVDYMCDPNPLSEREQEILRLVAEGKTTKELTNILYLSYGTIRNYLSEIMQKLEAKNRLEAVDIARNKGWI NA NA NA NA NA AK015_00952 135 hypothetical protein ATGAAGAAATTATTAGTTGTTCTATGTGCTGTACTTATTATTACTTTTGGAATATTTGGATATATAGAAATAAACAGTAATTCAAATGAGATCATTAACGAAAACCCTAACAGCATAAAAGTTCAAGAGAGCTGA MKKLLVVLCAVLIITFGIFGYIEINSNSNEIINENPNSIKVQES NA NA NA NA NA AK015_00953 1191 Putative pyridoxal phosphate-dependent acyltransferase ATGACGAGTAAAGCGTTAAATTCTTTTTTAAATGACAATATTGCTGATTTGAAAGAACGAGGCTTGTATAATGAAATTGATCCTGTTCAAGGTCCAAATGGTCCAGAAATAAAAATTGGTGACAGGACGTTAATTAACCTTTCGTCAAACAACTATTTAGGATTAGCGACAGAGGATAGATTGAAGCAAGTTGCCAAGCAAGCGGTCGATTCACATGGTGTTGGTGCAGGTGCTGTACGTACTATCAACGGAACGCTTGATCTCCATCTTGAATTAGAGAAAAAGCTTGCGGCATTTAAAGGCACGGAAGCGGTTATTTCCTATCAATCTGGGTTTAACTGTAATATGGCAGCTATATCTGCGGTAATGGATAAGCATGATGCCATTTTATCGGATGAATTAAATCATGCTTCCATCATTGATGGATGTCGTTTATCTAGAGCGAAAATTATTCGTTTTAATCATTCCGATATGGATGATTTGCGAAAAAAGGCGAAAGAAGCTGTCGAATCTGGTCAATACAATAAAATCATGGTCATTACCGATGGTGTGTTTTCGATGGATGGGGATATTGCGAAACTTCCAGAAATTGTTGACATTGCCGAGGAATTCGACCTGATTACGTATGTGGATGATGCTCACGGTTCTGGTGTTCTTGGTAAAGGGGCAGGCACAGTAAAACATTTTGGATTGCAGGATAAAGTAGATTTTCAAATGGGTACATTGTCGAAAGCAATCGGCGTGATTGGTGGGTACGTAGCAGGCAAAGCAAATCTTATTGATTGGTTAAAAGTTCGTTCTCGTCCGTTCTTGTTCTCCACAGCTGTTTCACCTGCGGATGCGGCAGCAAGTACGAAAGCTGTTGAAATCCTTATGGAAAGCACAGAGCTAAATGAAAAGTTATGGGAAAATGGAAATTATTTAAAAGCTGGCTTAAAGCAACTAGGCTTTGATATTGGTAATAGCGAAACACCAATTACTCCTTGTATTATTGGTGATGAGAATGCGACACAAACATTTAGCAGGCGCTTAAATGAAGAAGGCGTCTACGCGAAGTCCATTGTTTTCCCAACCGTACCACGCGGAACAGGTCGTGTACGCAATATGCCAACAGCCGCACATACGAAAGAAATGCTAGATAAGGCTATTGCGATATATGAAAAAGTAGGTAAGGAACTTGGCGTTATTTAA MTSKALNSFLNDNIADLKERGLYNEIDPVQGPNGPEIKIGDRTLINLSSNNYLGLATEDRLKQVAKQAVDSHGVGAGAVRTINGTLDLHLELEKKLAAFKGTEAVISYQSGFNCNMAAISAVMDKHDAILSDELNHASIIDGCRLSRAKIIRFNHSDMDDLRKKAKEAVESGQYNKIMVITDGVFSMDGDIAKLPEIVDIAEEFDLITYVDDAHGSGVLGKGAGTVKHFGLQDKVDFQMGTLSKAIGVIGGYVAGKANLIDWLKVRSRPFLFSTAVSPADAAASTKAVEILMESTELNEKLWENGNYLKAGLKQLGFDIGNSETPITPCIIGDENATQTFSRRLNEEGVYAKSIVFPTVPRGTGRVRNMPTAAHTKEMLDKAIAIYEKVGKELGVI PGPT0020495_1866 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639 NA NA AK015_00954 948 putative epimerase/dehydratase ATGAAAAAAATATTAGTAACCGGAGCTTTGGGTCAAATAGGGTCAGAGCTTGTTATAAAGTTAAGAGAAATTTACGGTACGGATCAAGTAATAGCGACAGATATTCGCAAGGCGGAAGGACGTATTGCAGAAGGCCCGTTTGAAGTTGTTGATGTAACAAATGCAAAGCAACTTTCTGACGTTACAAAGAAGTATCAAGTAGATACAATGATGCATTTGGCAGCTTTATTATCAGCTAAAGCGGAAGAAAATCCGAAGCTAGCTTGGGATATTAATATGGGCGGTTTAGTTAATGCGCTTGAAATAGCTCGGGAATTAGATTTGCAATTTTTCACCCCAAGTTCCATTGGAGCTTTTGGTCCAACAACACCGAAAGATAACACACCACAGGATACATTGCAACGCCCGACGACAATGTATGGGGTGAATAAAGTATCTGGCGAGCTGTTAGCTGATTATTACCACACTCGTTTTGGAGTGGATACTCGTGGTGTACGTTTCCCTGGTTTAATTTCTCATGTTACATTACCAGGCGGTGGAACGACGGATTATGCTGTTGAAATGTATTATGAAGCAGTAGAGAAGGGGAACTATACCTCCTATATAGGCAAGGGTACGTACATGGATATGATGTATATGCCAGATGCGATCCATGCCATTATCCAATTGATGGAATGTGATACAAATAAACTACAACATCGTAATGCTTTTAATATTTCAGCTTTCTCCGCAGCACCGGAGGACTTTGCTACATCGATCCAAAAGCATATTCCTTCTTTCTCATTAAAATACGATGTTGACCCGTTTCGACAAGCAATTGCAGACAGTTGGCCAAATAATTTAGATTCCGCCTGTGCTATTGATGAATGGGGCTTTAAAGTGGAATATGATTTAGACAAGCTGACAACGGATATGTTAAGTAAAATTAAACAGAAACAAGCACATTAG MKKILVTGALGQIGSELVIKLREIYGTDQVIATDIRKAEGRIAEGPFEVVDVTNAKQLSDVTKKYQVDTMMHLAALLSAKAEENPKLAWDINMGGLVNALEIARELDLQFFTPSSIGAFGPTTPKDNTPQDTLQRPTTMYGVNKVSGELLADYYHTRFGVDTRGVRFPGLISHVTLPGGGTTDYAVEMYYEAVEKGNYTSYIGKGTYMDMMYMPDAIHAIIQLMECDTNKLQHRNAFNISAFSAAPEDFATSIQKHIPSFSLKYDVDPFRQAIADSWPNNLDSACAIDEWGFKVEYDLDKLTTDMLSKIKQKQAH NA NA NA NA NA AK015_00955 1623 ybiT_1 COG0488 putative ABC transporter ATP-binding protein YbiT ATGATTAATGTATCGAATGTGAGTTTACGATATGGCGATAAAAAATTATTTGAAGATGTGAACTTAAAGTTTACTCCAGGTAATTGTTATGGATTAATTGGTGCAAATGGAGCTGGTAAGTCCACTTTCCTTAAGATATTATCTGGTGAAATAGAGCCACAAACGGGTCATGTCTCCTTATCTCCAGGCGAACGCCTTGCTGTTCTAAAGCAGGATCATTTCGCTTACGAGGACTATAACGTTATCGACACGGTGCTTATGGGGCATGAAAAGCTTTACGCTGTGAAACAGGAAAAAGACGCTATTTATATGAAAGGCGATTTTACGGAAGAAGACGGCATGCGTGCTGCTGAACTAGAAGGCGAATTCGCTGAAATGAATGGCTGGGAAGCTGAATCTGATGCAGCTGTTCTATTAAAAGGACTTGGCATCGATGAGTCACACCATGATAAACAAATGGCTGAGCTACATGCAGACGAAAAAGTGAAAGTGTTACTTGCCCAAGCGCTATTTGGCAATCCGGATATCTTATTATTAGACGAGCCAACAAACGGGTTAGACATTCATGCCATTCAATGGCTAGAAGAATTTCTCATTCATTTTGAAAATACCGTCATTGTGGTTTCCCATGATCGCCACTTCTTAAATAAAGTATGTACACATATTGCGGATGTTGATTATGGAAAAATTGAAATTTATATCGGTAACTATGACTTTTGGTATGAATCTAGTCAGCTAGCAACGAAAATGGCACAGGAAGCAAACAAAAAGAAAGAAGAAAAGATTAAAGAGTTACAATCATTTATTGCACGCTTTAGCGCTAACGCTTCCAAATCTAAACAAGCGACATCAAGAAAGAAATTGTTAGACAGCATTACGCTGGATGATATAAAACCATCTTCAAGAAAATACCCATATATTGCCTTTACCCCAGAACGGGAAATTGGAAATGATCTACTAACTGTTCAAGGATTAACAAAAACCATTAATGGTGAAAAATTATTGAATAATGTTAGTTTTACGATGAATAAAGATGACAAAATCGCCTTTGTTGGTGGCGATGATGTAGCAAAAACGACACTATTTAAAATTTTGATGGGGGAAATGGAACCAGATGCGGGAACGTATAAATGGGGGGTCACAACATCCCAATCTTACTTCCCAAAAGATAATAGTGCTTACTTCGAAAATAGTGACTTACCTTTAGTAGACTGGTTAAGACAATATTCACCAGAAGATGAAACAGAAACTTTCTTACGTGGCTTTTTAGGGAGAATGCTATTTTCCGGGGAACAAGCGTTGAAAAAAGCAAATGTTTTATCTGGAGGAGAAAAAGTACGCTGTATGCTATCCAAAATGATGTTGAGCAACGCCAACGTACTTCTTTTGGATGAGCCGACAAACCATCTTGATTTAGAATCCATTACTGCTTTAAATAATGGACTTATCAAATTTAAAGGTTCCATTTTATTTACATCTCATGACCATCAATTCATTCAAAGTATTGCCAATCGCCTCATTGAAATTACACCGAATGGTTTGATTGATAAAGAGATGAGCTATGATGAGTACGTACAAGATAAAGAATTGCAAGCGAAAATTGCTACTATGTACAACAAGTAG MINVSNVSLRYGDKKLFEDVNLKFTPGNCYGLIGANGAGKSTFLKILSGEIEPQTGHVSLSPGERLAVLKQDHFAYEDYNVIDTVLMGHEKLYAVKQEKDAIYMKGDFTEEDGMRAAELEGEFAEMNGWEAESDAAVLLKGLGIDESHHDKQMAELHADEKVKVLLAQALFGNPDILLLDEPTNGLDIHAIQWLEEFLIHFENTVIVVSHDRHFLNKVCTHIADVDYGKIEIYIGNYDFWYESSQLATKMAQEANKKKEEKIKELQSFIARFSANASKSKQATSRKKLLDSITLDDIKPSSRKYPYIAFTPEREIGNDLLTVQGLTKTINGEKLLNNVSFTMNKDDKIAFVGGDDVAKTTLFKILMGEMEPDAGTYKWGVTTSQSYFPKDNSAYFENSDLPLVDWLRQYSPEDETETFLRGFLGRMLFSGEQALKKANVLSGGEKVRCMLSKMMLSNANVLLLDEPTNHLDLESITALNNGLIKFKGSILFTSHDHQFIQSIANRLIEITPNGLIDKEMSYDEYVQDKELQAKIATMYNK NA NA NA NA NA AK015_00956 609 hypothetical protein TTGGGGGAAAAATTCATTTATCTTCTCTTCACAGATACGGGCACGAATTTAGCGAAAGCTATTCATTTCTTTACAAAACAGTCCTTGAACCACGTTTCCATCGGATTTGATGAGGATTTGCAGAGATTGTATAGCTTTGGTCGGAAGCGGCCCAAAAATCCTTTTATTGGGGGGTTTGTTCAAGAAGACATTCATAGTGATTTTTTAAAGAATGCAGCTTGTGCAGTTTATCGTTTTACCGTATCTGAAGAAGAGCGTGAGCAAATCTTGCAGCATATTGAGCGAATTGAATGTGACAAAGATCGCTACCGTTACAATTTTATCGGTTTAATCGGTATCTTGTTGCAAATAGAAATTAATCGGAAGTGTGCATTCTTCTGCTCGCAATTTGTAGCAACTGTATTAAATGATGTCGAACATTTTCAACTTAAAAAGCCGACTTGCTTTGTGACCCCTGAAGATATAAGAAGTCATGAGGGAATGCAGTTAATATACAAAGGAAGGCTCGGCGACTATCCATACCGTAATAAAACAGCAATGTGTGATTCAAAAGAAGAAGCGCAGGTTATGTCATCATATATTATTTATTCTCATATGAACGAACAATAA MGEKFIYLLFTDTGTNLAKAIHFFTKQSLNHVSIGFDEDLQRLYSFGRKRPKNPFIGGFVQEDIHSDFLKNAACAVYRFTVSEEEREQILQHIERIECDKDRYRYNFIGLIGILLQIEINRKCAFFCSQFVATVLNDVEHFQLKKPTCFVTPEDIRSHEGMQLIYKGRLGDYPYRNKTAMCDSKEEAQVMSSYIIYSHMNEQ NA NA NA NA NA AK015_00957 621 hypothetical protein ATGGGGAATAGAACGGAACATACCAAAAGTAAAAAGTGGAAAAGGCTATTTATCGGGTTACTTTCCTTTAACATGATCCTGCTTTTTGTATTGCTCACACTTATTTTTTGGCCAGTTCCACAAGCTGAATACCCAGAAAAAGCTACTGAAGAAACAGATGCAAATTCAGAATTTATTGTTCGTACGACTAAAAAAAATTTAAACGATTTGGCCAATACGTATATTGACCAATTACTTGCAGGGACAGATCATGAATATCGTATTGAACTAGGAGATGATGTACACTTAATTGGTGAGTTACCTGTTTTTTCCTCAACCGTTCCATTATCTGTTCATTTAGAACCTTTTGTACAAGAAAATGGAGATATTATTTTGAAACAGAAGTCCATTTCTATCGGCTTATTAAAACTACCGAACAAAAAAATTATGGAATACATGGATAAATACCTCCCGATGCCAGAATGGGTTACTGTTAATCCAAAAGAAGAAGAAATATATGTAGCTGTGACGGATATCGAGTTAAAAAGTAATTTTCAGGTCGCCGTCGAACATATTGACTTACAGGCAAATAATTTATCGTTTAAATTTCGTATACCATATCAAACATTAGGTATTAATTAA MGNRTEHTKSKKWKRLFIGLLSFNMILLFVLLTLIFWPVPQAEYPEKATEETDANSEFIVRTTKKNLNDLANTYIDQLLAGTDHEYRIELGDDVHLIGELPVFSSTVPLSVHLEPFVQENGDIILKQKSISIGLLKLPNKKIMEYMDKYLPMPEWVTVNPKEEEIYVAVTDIELKSNFQVAVEHIDLQANNLSFKFRIPYQTLGIN NA NA NA NA NA AK015_00958 870 hypothetical protein ATGCAAAAAAAGAAATTAATAACCGGAGTAACTCTCCTGTTACTCATCGTAGGAGCCACGCTCTATATTTTCATACATGAAGCAGATCAAGCAAATCTTGCTGAAAAGGATATAAAGCAACAGGATGCAGCAACAAAAGAAAAAACGGCCAACATCAAAAAGCATGAGCAAAAACCATCGCCAAAGCTTTTTACTCATAAAGAGCAACAGGTTACGAAGCATTTTTATCAATCAAGACATATCACGGCAATTGGTGATTCGTTGACACAAGGTGTTGGCGATGAAACAAAACAAGGAGGCTATGTCGGAGCCCTTGAACAAATAATGACTCAAGCAAACACAGAAGCTTCTTTTGATAATTTTGGTGTACGAGGCAATCGCTCAGACCAACTACTTAAAAGACTGCAGCAAGACGATATTATTGCTTCCATAAAGCAAGCGGACATTGTATTTATAACAATTGGCGCTAATGATGTGATGCGTGTATTAAAAGAAAATATTACAAATCTCCAAATGGAGGCATTTGAAAAAGCTCGGGTAGACTATGAAAAACGACTTCATAAAATCTTAACCAACATCCGAACGGTAAATGCAGATACGAAAATTTACTTACTCGGTTTTTACAACCCTTTTGGGCAGTATTTTAAGGACATTAAAGAACTGAAGCTAATTGCAGACAATTGGAATAAAACTGGTAAAGAGATAATAACTACGTATGAAAACAGCTCCTTTATACCAATTAGTGATTTATTTTCAAACACAGATGAAAATTTGTTTGCAGAAGATAATTTTCATCCAAATCAGTTAGGTTATGAGCGGATTGCTGAACGTATATTTGAGGTGCTAAAGAATGAACAAGAAAGAGGATGA MQKKKLITGVTLLLLIVGATLYIFIHEADQANLAEKDIKQQDAATKEKTANIKKHEQKPSPKLFTHKEQQVTKHFYQSRHITAIGDSLTQGVGDETKQGGYVGALEQIMTQANTEASFDNFGVRGNRSDQLLKRLQQDDIIASIKQADIVFITIGANDVMRVLKENITNLQMEAFEKARVDYEKRLHKILTNIRTVNADTKIYLLGFYNPFGQYFKDIKELKLIADNWNKTGKEIITTYENSSFIPISDLFSNTDENLFAEDNFHPNQLGYERIAERIFEVLKNEQERG NA NA NA NA NA AK015_00959 1752 metZ O-succinylhomoserine sulfhydrylase ATGAGTCATTTTTTTACGCAAAATCCAGAAACTGCATTACTTCACGGTGGGCAAACCCCCGATTCAGAAACAGGAGCTAGAGCAGTCCCTATCTACCAAACGACCTCTTATGTATTTAACGATACAGAACACGCACAAAACTTATTCGGTTTAAAAGAACCTGGAAATATATACTCCCGAATTGGTAATCCAACTGTAGATACGTTTGAACAACGTGTTGCCCAACTAGAAGATGGTGTCGCTGCAGTAGCTACATCTTCTGGAATGGCCGCAATCACTTTCGCTATTTTAAATGTAGCAAGTGCTGGGGACGAAATTATTACCGATAGCAATCTTTACGGTGGCACATACAATTTATTTGCTAATATACTTCCTCGTTACGGAATTCATGTAAAATTCATAGATGGTTCCAATCCAAATGAAGTAGAGGCTGCAATTACTGAGAAAACAAAAGCTATTTTTGGGGAAACGATCACCAATCCCAGCCTGCATGTTTTTGATATTGAAACGATCGCAGCAATAGCACATGCACACCATATCCCTATAATTATCGATAATACCTTTGCCCCTTACCTCGTTAAACCATTCGCATGGGGAGCAGATATTATTGTCCATTCTGCAACAAAATGGATCGGTGGTCACGGAACAACGATTGGCGGGGTGGTTGTAGACGGAGGAAGGTTTGATTGGAATCACGATAGATTCCCAGGTTTTACCGAACCTGATGCAAGTTACAACGGCTTGCGATTTGCTGATGTTGGACCTGCCGCTTTCGCTACAAAACTACGTGTACAATTAATTCGTGATATTGGAGCTTGTTTAAGCCCACATAGCGCATTTTTGTTGCTTCAAGGGTTAGAAACGTTACATTTACGCATGCAACAACATACGAAGAACGCACAAAAAATTGCTGCTTTTTTAACAGATCATCCAGCAATTGATTGGGTTAATTATCCTGGCTTGTCCAATCATCCTTCCTATCCATTAACAAAAAAATACTTTCGTGAGGGTACTGCCGGGTCAATTATAACGTTCGGTATTCAAGGTGGAAGGGAAGCTGGAAGACAATTAATTGATCAAATTGAATTATGGTCGCATGTAGCAAATGTAGGTGATGCTAAATCGCTCATTATTCACCCTGCATCTACCACACATCAACAGCTAACAACGGAGGAATTAGCCGCAAGTGGGACAACAGAAGAAACCATTCGTTTATCGGTTGGCTTAGAGTCTGTTCATGATCTACTCATTACTTTGGACAACGCAATAGCAAAAGCTACAGGGGAACAAGCAACCATCGCTATTGGTGAACAACAGGCTATCCATTGGCTGCTTCATTCTTCTTTTTTAAGAGACGGTGGAAATGTGCGCAAAAAATGCCTTGCAGTATACGGTTTAGAAACAGCAAATGAAACAGACCGAAAAAAAGTCTTCCAATTACAAGCGTTCGGATTCGATATAGCTGTTGTGGGAAGTACTAACCTAACTATCCCTTTACCACAGTATAAAGAATTAACGGACATCCCAGTAGTGGACGCTACTTGGTCACTGCAGCCTACATTACCAGCTCCACTGTTAGAGCAGCTCGTAAATAAAGACTGTAAGCTTTTATGGGTGGAAAAAACAAATGAAACAGCTGCTACGATAGAACATGCTAAAGCAACTGGCATTACTGTTATTACACAAAAAAACCCTTATGAAGAAGCGTTATTGCTTCGAAACAATGCTACGGAGGCACCTGTATTTGCATAG MSHFFTQNPETALLHGGQTPDSETGARAVPIYQTTSYVFNDTEHAQNLFGLKEPGNIYSRIGNPTVDTFEQRVAQLEDGVAAVATSSGMAAITFAILNVASAGDEIITDSNLYGGTYNLFANILPRYGIHVKFIDGSNPNEVEAAITEKTKAIFGETITNPSLHVFDIETIAAIAHAHHIPIIIDNTFAPYLVKPFAWGADIIVHSATKWIGGHGTTIGGVVVDGGRFDWNHDRFPGFTEPDASYNGLRFADVGPAAFATKLRVQLIRDIGACLSPHSAFLLLQGLETLHLRMQQHTKNAQKIAAFLTDHPAIDWVNYPGLSNHPSYPLTKKYFREGTAGSIITFGIQGGREAGRQLIDQIELWSHVANVGDAKSLIIHPASTTHQQLTTEELAASGTTEETIRLSVGLESVHDLLITLDNAIAKATGEQATIAIGEQQAIHWLLHSSFLRDGGNVRKKCLAVYGLETANETDRKKVFQLQAFGFDIAVVGSTNLTIPLPQYKELTDIPVVDATWSLQPTLPAPLLEQLVNKDCKLLWVEKTNETAATIEHAKATGITVITQKNPYEEALLLRNNATEAPVFA PGPT0001995_267 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760 NA NA AK015_00961 912 rarD COG2962 Protein RarD ATGACCGTTACACAAGATAAAACGGGTATCATACATACCTTAGGAGCTTATGCTTTATGGGGAGTTCTTCCCATTTATTGGAAATTTCTAGAGAGCGTTTCACCTGGCGAAACGCTGGCACATCGAATTATATGGTCGGCTATTTTTATGATTATCATTGTACTTATTGTTGGGAAATGGCATGAATTGCTTCGCGAATGGAAGGCATTAATGCAAAACAGACGAAAATTCATAGGCGTTTTTATGGCAACTACTGTTATTAGTCTCAATTGGCTGACATTTATTTGGGCGGTGCACAATGATCATGTTATTCAAGCAAGTTTAGGATATTATATTAACCCTTTAATCAGTATTTTGCTTGGTATCCTTGTACTGAAGGAATCTTTTACCTTTAGACAGACCATTTCCTTTATCATGGCAGCTATTGGCGTCCTTTATTTGACAATAAGTTATGGCGTATTTCCTTGGATATCTTTATTGCTTGCAACGAGCTTTGGGTTGTACGGTTTGTTAAAGAAAAAGATAGATATTGGTCCTATGATTGGACTGACAATCGAAACGATGTTAATTTCTCCAGTCGCTCTTCTATTCTTATTGTTTCTTCCGCAAAACACTTTTCAATGGAGCACCATTCTATCAACGACAAACATGCTACTAATAGGTGCTGGCGTAGTTACAGCAATACCGTTATTACTATTTGCAAGTGGAGCGAAACGCATTTCTTTATCCTTGGTCGGCTTTTTGCAATACCTTGCACCAACGCTTATGTTGTTAATAGGAGTTTTTTTATATAAAGAGCCATTCACTTCTGCTCACTTCATCGCATTTTTATTCATATGGTTCGCACTGATTAACTATCTGTTAGCTAGTTACCAAAAGCCTACAAAAAAGCAATTTAAAAAAGCAAACTAA MTVTQDKTGIIHTLGAYALWGVLPIYWKFLESVSPGETLAHRIIWSAIFMIIIVLIVGKWHELLREWKALMQNRRKFIGVFMATTVISLNWLTFIWAVHNDHVIQASLGYYINPLISILLGILVLKESFTFRQTISFIMAAIGVLYLTISYGVFPWISLLLATSFGLYGLLKKKIDIGPMIGLTIETMLISPVALLFLLFLPQNTFQWSTILSTTNMLLIGAGVVTAIPLLLFASGAKRISLSLVGFLQYLAPTLMLLIGVFLYKEPFTSAHFIAFLFIWFALINYLLASYQKPTKKQFKKAN PGPT0003906_1212 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786 NA NA AK015_00962 1449 clsA COG1502 Major cardiolipin synthase ClsA ATGCAAATAGATCTATCTTCTTATTTGCTAAGCTTTGTTTTAATTTTAAATATTGCCTTAGGAATTTCTATTATCTTTCTTGAACGAAAAGATCCAACCTCAACTTGGGCTTGGCTAATGGTGCTATTGTTTATCCCAATTGCAGGGTTTATCCTGTATTTGATTTTTGGGAAACCAATTAGCAGAAGGCGTATTTTCACTTGGGATACCAAAAGTAGATTAGGGGTAAAAGCAGCCGTACAATCGCAGTTGCGTGCGCTTGAAGAAGGAACTTTTGAATTTAAAAACAAAGACATCGCTAAATATGAAGACCTCTATTATTTACATTTACGCAACGACGATGCAATTTTCACTCATAATAATGAAGTAAAGATTTTTACAGATGGTAAGGAGAAATTTGAAGCCTTAATCAAAGATTTAGAACGGGCTACAGATCATATTCATTTGTTGTATTATATTGTTCGTAGTGACCAGCTCGGCCAAAGAATTGCAGATGTGTTAATAAAAAAAGCAGAAGAAGGTCTAGAAGTACGTATGTTGTTTGATGATATGGGGTCACGATCTTTAAGTCGAAAGTATATAAAGAAACTTCTTAATGCCGGTGTAGAAGTAGAAGCTTTTTTTCCTCCTAAGATACCTAAGATTAATTTTAAAATAAATTACCGAAACCATCGTAAATTAGCCATTATTGACGGAAAGGTAGGGTATATTGGTGGCTTTAATATTGGTGATGAATATTTAGGGATGAATAAAAAATTTGGGTATTGGCGTGACACGCATTTGTGTATTTACGGAGATGCTGTACGCCAAATGCAAACACGTTTTATATTAGATTGGAACCAAGCTTCTCGTAACGACATCTTATATGAAGACCGTTATTATAGTGCTAACCCAGTAGGTCATGTTGGTGTACAAATTGTCTCCAGTGGACCTGATTCGGATTGGGAGCAAATAAAAAATGGCTACATTAAAATGATCATGACTGCAAAAGACTATGTTTATATTCAAACTCCTTATTTTATTCCTGATGAAAGCTTACGTGATGCACTGCGAATTGCTTCACTGTCTGGGGTCAATGTTCGAATCATGATTCCTAATAAACCAGATCATCCTTTCGTATATTGGGCAACATTATCACATATAGGGGATCTATTAGAAGCAGGAGCAGAAGTATTTATTTATCAAAATGGCTTTCTGCACGCCAAAACCATCGTAGTAGATGGTAAAATCGCTTCTGTTGGAACAGCAAATATTGATGTTCGTAGCTTCCGCTTAAACTTTGAAGTGAATGCTTTTTTATATGATAATGATTTGACGCAACAATTAGTATCGAAATTTGAAGAAGACATGTTACTATCGACACAAATGACAGAAGGTTTATATCGCCAGCGGTCGTTAGGAATTCGATTTAAAGAGTCTGTTTCACGACTTCTTTCGCCAGTATTATAA MQIDLSSYLLSFVLILNIALGISIIFLERKDPTSTWAWLMVLLFIPIAGFILYLIFGKPISRRRIFTWDTKSRLGVKAAVQSQLRALEEGTFEFKNKDIAKYEDLYYLHLRNDDAIFTHNNEVKIFTDGKEKFEALIKDLERATDHIHLLYYIVRSDQLGQRIADVLIKKAEEGLEVRMLFDDMGSRSLSRKYIKKLLNAGVEVEAFFPPKIPKINFKINYRNHRKLAIIDGKVGYIGGFNIGDEYLGMNKKFGYWRDTHLCIYGDAVRQMQTRFILDWNQASRNDILYEDRYYSANPVGHVGVQIVSSGPDSDWEQIKNGYIKMIMTAKDYVYIQTPYFIPDESLRDALRIASLSGVNVRIMIPNKPDHPFVYWATLSHIGDLLEAGAEVFIYQNGFLHAKTIVVDGKIASVGTANIDVRSFRLNFEVNAFLYDNDLTQQLVSKFEEDMLLSTQMTEGLYRQRSLGIRFKESVSRLLSPVL PGPT0007725_2377 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 AK015_00963 525 hypothetical protein GTGGAAAAAAGAACTTGTACACATTCTTTGGCAGTCAAAACATCGTATGTGTTGCCACCAGATACGAATACGTATGGTACGTTATTTGGCGGTAAGCTCATGGCTTATATGGATGATGTTGCTGCTATAGCCGCATCACGACATGCTCGTATGCCCGTTGTTACAGCTTCTACCGATTCGGTTGACTTTTTAGCTCCAGTAAAAGAAGGCCATTCTATCTGTGTGGAAGCTTTCGTTACCTGGACGCACAACACGTCGATGGAAGTATTTGTGAAAGCAGTAACGGAAGATTTACGAACTGGACAGCGGCAGGTTTGTTCAACTGCTTTTTTAACATTTGTAGCGATAGATGAAGAGGGAAAACCTAAACCTGTGCCAAGTGTCGTTCCAGAGTCCGAACATGAACAGAAACTGCATGCATCAGCAGCAGATCGCGCCAAACATAGAAAAGAGCGGAGAAAGCAGGCAAAAGAATTTGCTGAAATTTTTGGCACAGATTACCCATGGAATCGTTCGAGAAATTAA MEKRTCTHSLAVKTSYVLPPDTNTYGTLFGGKLMAYMDDVAAIAASRHARMPVVTASTDSVDFLAPVKEGHSICVEAFVTWTHNTSMEVFVKAVTEDLRTGQRQVCSTAFLTFVAIDEEGKPKPVPSVVPESEHEQKLHASAADRAKHRKERRKQAKEFAEIFGTDYPWNRSRN NA NA NA NA NA AK015_00964 1422 alsT_1 COG1115 Amino-acid carrier protein AlsT GTGTTATTTTTGGAAAATTTGATTGGTGATGTAAATAATGTTTTATGGACATACGTCTTAATTGCTGTATTACTTGGATTAGGCTTATGGTTTACGATTAAAACAGGTTTTGTGCAATTCAGATACTTACCTGAGATGTTTCGAGTTATTGCAGATAAACGAACCATTAGTGCTGCAGGTAAAAAAGGGACTTCTTCATTTCAAGCTTTTGCCATTAGTGCAGCATCGAGAGTGGGGACTGGGAACATGGCTGGCGTAGCTGCAGCTATAGCAGCTGGAGGCCCGGGAGCGGTTTTATGGATGTGGATCATCGCTTTACTTGGTTCAGCCTCTGGTTTTGTAGAAAGTACATTAGCGCAAGTATATAAAGTTCCTCATGAAGATCAATATCGCGGTGGACCTGCATATTATATGGAAAAAGGACTAAAAAGTCGTTGGCTTGCAGTGTTATTTGCGATTACAATTACGTTTACGTACGGATTGGTGTTTAACTCTGTTCAATCAAATACTATTAGTTTGGCGTTTGAAAATCAATTTGCCATTGATAGTGAAGTTATTGCTATTATTTTATTTGTTTTTACTGCAATAGTTATTTTTGGTGGATTAAAGAGCATTGCGAATGTAACACAAATCATCGTACCTGTAATGGCTATTTTATATATTTTATTAGCTATTTATATTTTAATTACAAATATTACTGCAATCCCAGATATGTTAACGTATATCGTCTCCAATGCTTTTGGAATTCGTGAAGTAGCTGGTGGTGGTTTTGGTGCAGCTATTATGATGGGGATTAAACGTGGTTTGTTCTCTAATGAAGCAGGTATGGGTAGTGCCCCAAATGCTGCAGCGACTGCTGAAGTTACCCATCCTGCTAAGCAAGGGCTTATTCAGGCATTAGGGGTATTTTTTGATACGATTTTAATTTGTAGTGCCACTGCGTTTGTGATTATTACAGCAGGTGGTTTTGAAGGAAGTAAGGCTGACGGTATACAGTTGACGCAAAATGCGTTCACTTTCCATATAGGAGATTGGGCTGGCGGTTTTATTGCCATAGCTATACTATTGTTCGCTTATAGTTCCATTTTAGGGAATTATTACTATGGGGAAACAAATATAACGTACATCCGGGATAGTAAAGTAGGTTTATTTTTATATCGAATCGGAGCGCTATTAATGGTGGCGTTTGGTGCAATAGCTTCGTTTGACTTTGTTTGGTCATTAGCTGATTTAACGATGGCAATTATGGCTTTAATTAACTTGTATGCGATAGCCAGATTGTTTAAAATCGCTAATCAAGTGCTTCAAGATTATCGTAGACAACGGAAAGCAGGAAAAGATCCTGTCTTTTACCGCGATGTGTTAGATGATCAGGAAGGTATTGAATATTGGGATCGAGAACAAGCAGAGCATTCTAAATAA MLFLENLIGDVNNVLWTYVLIAVLLGLGLWFTIKTGFVQFRYLPEMFRVIADKRTISAAGKKGTSSFQAFAISAASRVGTGNMAGVAAAIAAGGPGAVLWMWIIALLGSASGFVESTLAQVYKVPHEDQYRGGPAYYMEKGLKSRWLAVLFAITITFTYGLVFNSVQSNTISLAFENQFAIDSEVIAIILFVFTAIVIFGGLKSIANVTQIIVPVMAILYILLAIYILITNITAIPDMLTYIVSNAFGIREVAGGGFGAAIMMGIKRGLFSNEAGMGSAPNAAATAEVTHPAKQGLIQALGVFFDTILICSATAFVIITAGGFEGSKADGIQLTQNAFTFHIGDWAGGFIAIAILLFAYSSILGNYYYGETNITYIRDSKVGLFLYRIGALLMVAFGAIASFDFVWSLADLTMAIMALINLYAIARLFKIANQVLQDYRRQRKAGKDPVFYRDVLDDQEGIEYWDREQAEHSK PGPT0014405_2777 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 AK015_00965 330 yodB COG1733 HTH-type transcriptional regulator YodB ATGGATACGAATCTATGCCCTCGTTTTGAAAAAGCAATGGGCTTATTAAGCACAAGATGGGTAGGACTCATTCTGTTTGATTTACTTAAAGGTACAAAGCGATTTTCGGAAATGGAAGCTGATTTACCAATAAGTGGACGTTTACTTTCAGATCGACTAAAAATGTTGGAAAAAGAAGGTATTGTTACAAGAGATGTCTACTCGGAATTCCCTGTTCGCATTGAATATTCTTTATCCGAGAAAGGAAAAGCACTCGCACCAGTCATTAAAGAAATTCAAAAGTGGGCAGAAGAACATATTTCCGATGATGAGACAAGTGAGGAATGTTAA MDTNLCPRFEKAMGLLSTRWVGLILFDLLKGTKRFSEMEADLPISGRLLSDRLKMLEKEGIVTRDVYSEFPVRIEYSLSEKGKALAPVIKEIQKWAEEHISDDETSEEC PGPT0028512_3 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 AK015_00966 1239 Aminopeptidase 2 ATGGTTACTGAACAAGTACAAAAAAAATATGCTACATTAGCACTTCGTACAGGTGTTAATTTACAAAAAGGGCAAGCTTTAATGATTAATGCACCAATAGAAGGGGCGGACTTCACAAAAATTGTAGTCCGCAAAGCCTATGAAATGGGAGCGAAAAACGTACATATTAATTGGGTAGACGACGAACTAACACGGCTTAAGTTCGAATATGCTCCCGATGAAGTCATTGCCCATTTCCCAGAATGGAGAGTCATGCTTCATGAAAGTTTTGCTGAGGATGGAGCAGCAGTTTTAAACATTCGTTCAACGAATCCAGACTTATTGCAAGGAATTGACTCAGCTAAAGTGGCAAAAGCAAATAAAGCAGGCGCAGAAGCCATGAAAAATTTTCGCAAATATACGATGAATGATAAGATTGCGTGGTCCATTATTTCGATCCCTACAGGGGACTGGGCGCAAAAGATTTTTCCTAATAAATCAAGAGAAGCTGCTATAGAGAGCCTTTGGGAGGCGATTGTGAAAATTGTTCGTGTAGATAAGGAAGATCCTATAGCTGCTTGGGAGGAGCATAATGCTTCTTTACGTGTGGCAAGAGAGGTTTTAAACGATAAAAACTATAAGAAGCTTATTTTTAAAGCACCAGGTACAAATTTGGAAATGGAGCTTCCAGAAGGACATATCTGGAAAGGCGGCTCTGCCCAAACGGAGGGTGGTATAACGTTTAATCCGAATATGCCAACAGAAGAAGTGTTTAGCTTGCCGCATAAATATCGCGTGAACGGTACTGTTTCAAGTACGAAGCCGTTGAATTATGGCGGAAGCTTGATTGATCGATTCAAATTAACATTTAAAGATGGAGAAGTTGTTGATTTTACCGCTGAACAAGGTCAAGATACATTAGAGCATTTACTAAATATTGACGAAGGCTCTAAACGTCTTGGTGAAGTGGCTCTTGTTCCTCATGAATCACCAGTATCACAGTCTGGGCTCATTTTTTACAATACGTTATTTGATGAAAATGCTTCTTGTCATATCGCATTAGGAAAAGCTTATCCAACGAACTTGGAAGGCGGAGCGCAAATGAATGAGGAGGAATTAGATCAACATGGCGTTAATGATAGCTTAAGTCACGTTGACTTTATGATTGGTTCGGATCAACTTGATATCGATGGCGTATTTGCCGATGGCACAACTGAGCCGGTGTTTCGGAACGGAACATGGGCGTGGAAAAAGAAGTAA MVTEQVQKKYATLALRTGVNLQKGQALMINAPIEGADFTKIVVRKAYEMGAKNVHINWVDDELTRLKFEYAPDEVIAHFPEWRVMLHESFAEDGAAVLNIRSTNPDLLQGIDSAKVAKANKAGAEAMKNFRKYTMNDKIAWSIISIPTGDWAQKIFPNKSREAAIESLWEAIVKIVRVDKEDPIAAWEEHNASLRVAREVLNDKNYKKLIFKAPGTNLEMELPEGHIWKGGSAQTEGGITFNPNMPTEEVFSLPHKYRVNGTVSSTKPLNYGGSLIDRFKLTFKDGEVVDFTAEQGQDTLEHLLNIDEGSKRLGEVALVPHESPVSQSGLIFYNTLFDENASCHIALGKAYPTNLEGGAQMNEEELDQHGVNDSLSHVDFMIGSDQLDIDGVFADGTTEPVFRNGTWAWKKK PGPT0020940_423 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 AK015_00967 2136 recQ COG0514 ATP-dependent DNA helicase RecQ TTGGGTTTACGTGAAGAAAAACTATTACAAACCTATTTTGGTTACCAACAATTTCGACCAGGTCAAAAGGAAGCTATTGACTTTATCATAAATGGAAACAACATTCTTGCTGTTATGCCTACAGGAGGCGGAAAGTCGTTATGCTATCAAATACCCGGACTAGCCTTAGAGGGAACAGCAATTATTATCTCCCCACTTATTTCTTTAATGAAGGATCAAGTGGATGCTTTACAAGCTTTAGGGGTTGCCGCTACATATATCAATAGTTCCTTGTCTCCAGAACAGCAGCAAACGCGTCTACGAGACATTTCGCTAGGGAGATACAAGTTTGTCTATGTAGCTCCAGAACGATTTGAATCTAGCTTTTTTATGCGTGTATTGCACCGCATACGCATATCCTTAATTGCTTTTGATGAAGCACACTGTATATCACAATGGGGGCATGATTTTCGACCTAGCTATCGCTCCATTATTCCCCAATTGCAACAGTTACCAAAAAGACCTGTGATGATGGCTCTAACAGCAACAGCCACTACAGAAGTAATTGAAGATATTCAGCAGCAACTACATATTGAAAATGTTGTTAACACAGGTTTTGAAAGAGAAAACCTCGCTTTTCATGTCATTAAAGGAAGAGATAAGCGCGCTTACATTCAATCTTTCTTACAAGAACGAAAAGAAGAATCTGGGATTATTTATGCAGCTACAAGAAAACAAACGGATTCTCTCTATGATCAGCTTGAAACTCAAGGGTATTCTGTGGCAAAATATCATGCAGGATTATCAGAAATGGATAGAAAGAGAGCCCAAGCTGCCTTTATTCATGATGAAAAACAACTTATGGTAGCAACGAATGCGTTCGGTATGGGAATTGATAAATCTAATGTTCGCTTTGTGATTCATTACGCCATGCCAATGAATATTGAATCGTATTACCAAGAAGCAGGTAGAGCTGGCAGAGACGGGGAGAAAAGTGATTGTATCCTGTTATTTTCTCCGCAGGATATTCAACTACAAAAATTTTTAATTGAACAATCCAATATGGAAGAATCTGTGAAGCAAGCAGAATACCGTAAATTACAAGCAATGATTAATTACTGTCATACACATAGTTGCTTAACCGATTATATTTTAGGTTATTTTCACGCTTCATTGAAAAAAAGATGCGGACGCTGTAGCAATTGTGTAAAACGACAAGAGAAAGTGGATATGACAGAAGAGGCACAAAAAATCCTCTCCTGTGTAAAACGAATGGGCGAAAAATTTGGCGTAGGTATGACAGCTAAAGTGTTAAAAGGGTCTAAAGATAGGAAAATCAGGCAATTCCGCCTACATACTTTATCTACATACGGTATTCTGTCCGCCTATACCGAAAGAGAACTGACAGAATGGATCCAGTTTTTAGTTGCTGAACAATTGCTAGCAACCGAAGAAGGGAAGTTTCCAACACTAAAGTTGAACCAACAATCCGTTGATATATTAAAAGGGAAAAGAACCGTTTGGATGTTTACTGCTCCTATGCCAACAAATGACGTAGCAGATTATCATGAAGATTTATTCACTTCACTACGACAATTAAGAAAGCAGCTAGCGGAAGAACAAAACGTGCCACCTTACATTCTGTTTTCCGATGCAACACTAAAGGATTTAAGTAGGTATTTTCCAACTACCAAAGAAGAAATGTTACTGGTTAAAGGAGTTGGCGAAAGGAAGTTTGACCAGTATGGAGAAGCGTTTCTAACCGTTATTCAAAAATGGCGAGAAGAACACCCTGATGTTCAAAAGGTAATTCCCATTCAAGAATCAAGACCTATAAAAAAATCGAACCCTAAACAGGAAGACCAGCCAAGTCACATCATAAGTTATCAGCTATTTCGGTCGGGAAAAGCAATTCAAGACATCGCTACTATGCGCGATCTATCTGTACAAACCATAGAAAACCATTTATTTAAAGCTTTTAAAGACGGATATCCTATCGCTTGGGAAATATTTTTCACCTCACAGGAAGAAGAAGCTGTTTTGGCTGCTCGTGAAGAATTGGACGAACCAAAACTAAAACCATTAAAAGATTCTTTACCAGACACAATTGGGTATACAAAAATCAAAGCTGTTTTAACGAAGCACGGTCATTTATAA MGLREEKLLQTYFGYQQFRPGQKEAIDFIINGNNILAVMPTGGGKSLCYQIPGLALEGTAIIISPLISLMKDQVDALQALGVAATYINSSLSPEQQQTRLRDISLGRYKFVYVAPERFESSFFMRVLHRIRISLIAFDEAHCISQWGHDFRPSYRSIIPQLQQLPKRPVMMALTATATTEVIEDIQQQLHIENVVNTGFERENLAFHVIKGRDKRAYIQSFLQERKEESGIIYAATRKQTDSLYDQLETQGYSVAKYHAGLSEMDRKRAQAAFIHDEKQLMVATNAFGMGIDKSNVRFVIHYAMPMNIESYYQEAGRAGRDGEKSDCILLFSPQDIQLQKFLIEQSNMEESVKQAEYRKLQAMINYCHTHSCLTDYILGYFHASLKKRCGRCSNCVKRQEKVDMTEEAQKILSCVKRMGEKFGVGMTAKVLKGSKDRKIRQFRLHTLSTYGILSAYTERELTEWIQFLVAEQLLATEEGKFPTLKLNQQSVDILKGKRTVWMFTAPMPTNDVADYHEDLFTSLRQLRKQLAEEQNVPPYILFSDATLKDLSRYFPTTKEEMLLVKGVGERKFDQYGEAFLTVIQKWREEHPDVQKVIPIQESRPIKKSNPKQEDQPSHIISYQLFRSGKAIQDIATMRDLSVQTIENHLFKAFKDGYPIAWEIFFTSQEEEAVLAAREELDEPKLKPLKDSLPDTIGYTKIKAVLTKHGHL NA NA NA NA NA AK015_00968 564 hypothetical protein ATGAGGAAAATGGAATTAAATTATATTTTAAATCACGGAGATATTCAAAAGTTAGCTGAAAATTATAACGAGAACAATGCGAGGGCTAAGCGAGCTAAAAAATGGATGGTCATAGGCGCTTTAGTTCTTTCCCTTATTTTAAGTGCTTTTCCTACTCTCGTAATGGGCAGAGGATTTGATTTTTATTTAGTTTTAGTTCTTATTAGCTTTATCATAACTTCTATCCTTTCTTTGCAGCAGCAAAAAAAGGATCTTATAACAAGTACAAATAGACGTTTAACAAAAGAAAATATAGGGCTATTAGGTGAATATCTTACAACTATCTCTGAAGACGGGATTCATGCTACTTTATTTCCCAATGATCCAAAAAAAGAAAGAAATATAACAAATAGTTGGGAAGAAATAGACTATTACAGTAAAGAAAGAAATCTATTTTTTGTTTATGTTGATCGTATTAATTTTGTTTACGTTATCAAGGCTGAAGAAGCTGCAAGAGTAGATCAGTTTTTAAATAAAAAATTACCTGTCAGAAAAAATACAAGTGGTTCTAATCATAAAAGCTAA MRKMELNYILNHGDIQKLAENYNENNARAKRAKKWMVIGALVLSLILSAFPTLVMGRGFDFYLVLVLISFIITSILSLQQQKKDLITSTNRRLTKENIGLLGEYLTTISEDGIHATLFPNDPKKERNITNSWEEIDYYSKERNLFFVYVDRINFVYVIKAEEAARVDQFLNKKLPVRKNTSGSNHKS NA NA NA NA NA AK015_00969 1299 brnQ_1 COG1114 Branched-chain amino acid transport system 2 carrier protein ATGAAACGTGATACATTTATTATTGGTTTTATGCTATTTGCTTTGTTTTTCGGCGCTGGTAACTTAATCTATCCTCCTATTTTAGGAGTTTCTTCAGGCTCGTCTTTTTTTCCAGCTATTATAGGATTTATCATTACTGGCATTGGCATACCAATTTTAGCAGTTACAGCAATTTCTTATGTAAAAAATGATGCTAGAGAACTTGGAAATCATGTTCATCCTTTGTTTGGACTTATTTTCACCTGTCTTGTTTATTTAGCAATCGGACCATTTTTTGGCATACCAAGAGCGGCTACTGTTGGTTATGAAATGAGCGTTGAGCCGCTATTACAAAATACTTCTTCCGCAGCTTTATTGCTATTTACGAGCATATTCTTCTTAGCTGTTCTTTTCGTCAGTTTAAACCCGTCCAAAATGGTGGATCGCATCGGTCAGCTACTAACACCAATCCTATTGCTTTCCATCGCAGCGCTAGTCATTGGAGGACTTATTTTATTTAATCAGCCACTACCAACAGCTTCTGGAGATTATGCCCAAAATCCATTTTTCACAGGTTTTGTTGAAGGATATTTAACAATGGATGCAATCGCTGCATTAGCCTTTGGTATTATTGTTGTGCAAACTTTTAAAGAGCGTGGATTATCCGCAAGAGCGGACATTATAAAAGCAACGTTAAAATCCGGAACAATAGCAGGAGTTGGACTAGCTATCGTCTACGCTTCTCTCGGTTGGATTAGTGCGAGAATGCCGAATGGTAGCTCGTTTGTAAATGGCGGCGAGATATTGTCAGAAGCAGCTACGCAAATATTTAACACGTCAGGTACATTGTTACTAGGAATTATCGTAACATTAGCCTGTTTTACAACATCTGTAGGACTTGTTGTAGCCGCTTCGCAATTTTTCGCAAAAATCAGTCCAGTACCCTATAAGTGGCTTGCGGTCATTATTACATTCGCAAGTTATCTCATTGCCAACCAAGGACTAAATACAATCATTCGTTTTTCTGTACCAGTACTTGTTTTCTTATATCCAATTGCTATTGTGCTTATTCTACTTACCTTTATGCAGCCACTGTTTAAAAATAAGCAAGCTGTTTATCGAGGAGCCATCCTCTTTACTGCTATCGTCAGCTTGTATGACGGAATACTAGAATTAGGAGTGAAAATGTCATTTATCTCGGAATATATGACAATGCTTCCGTTTTCTAATATCGGATTAGGTTGGTTGCTTCCTGCAATCATCGGTGGATTCATTGGTTGGGTTCTATCCAAAATACAAAAGCGTGAAGCGTCTGTTTGA MKRDTFIIGFMLFALFFGAGNLIYPPILGVSSGSSFFPAIIGFIITGIGIPILAVTAISYVKNDARELGNHVHPLFGLIFTCLVYLAIGPFFGIPRAATVGYEMSVEPLLQNTSSAALLLFTSIFFLAVLFVSLNPSKMVDRIGQLLTPILLLSIAALVIGGLILFNQPLPTASGDYAQNPFFTGFVEGYLTMDAIAALAFGIIVVQTFKERGLSARADIIKATLKSGTIAGVGLAIVYASLGWISARMPNGSSFVNGGEILSEAATQIFNTSGTLLLGIIVTLACFTTSVGLVVAASQFFAKISPVPYKWLAVIITFASYLIANQGLNTIIRFSVPVLVFLYPIAIVLILLTFMQPLFKNKQAVYRGAILFTAIVSLYDGILELGVKMSFISEYMTMLPFSNIGLGWLLPAIIGGFIGWVLSKIQKREASV PGPT0014385_2015 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 AK015_00970 1860 nhaP2 K(+)/H(+) antiporter NhaP2 ATGGTACCATCTTTACTATTTGAAATCATGCTAATCGGTCTTTTAGGGATCGGATCACAATGGGTCGCTTGGCGTTATCGAATGCCTGCGATTGTCGTTATGTCCATAACAGGGTTGTTGGCAGGTCCTATTTTTGGTTTTTTGAATCCCGAAGAAGACTTTGGCAGTTTATATAGTCCGATTATTTCTGTAGCTGTAGCCATTATTCTATTTGAAGGAAGCTTAAATTTAAGTTTTAAAGAATTACGAGGGCTAGGTAAACCAGTCTTTCGTATTTCAACGGTTGGTGCATTTATCGCCTGGATTCTGGGCTCGTTAACAGCACACTATATTGCAGGACTCTCATGGGCAGTAGCTTTTGTAATTGGTGGCTTGTTTATCGTTACTGGTCCAACGGTTATTATGCCGCTTTTACGCCAATCGAAGTTAAAAGCACGACCTGCAAAAATTTTAAAATGGGAAGGGATTATTGTCGATCCAATCGGCGCATTGCTTGCCGTATTCGCTTTTGAAATTATTACCTTCCTAACTGCATCAGAGCCTGATGTAGCTCAACTTCTTCTATTCTTTGCCGCCTCTATCTTTGCTGCGATTTTTGGTTGGGCTTGTGGAAGGGGTATTGGCTGGATGTTTGAAACCGGTCATATACCAGAATTTTTAAAGTCACCTGCTGTTGTCATTGTCGTTATTATGTGTTTTACAGTAGCTGATGAAATTGTTCATGAAACAGGGTTATTATCTGTTACAGCGATGGGGATAACACTGGCGAATATGGGGATTAGCTCTATTTCTGATATGCGTCACTTCAAGGAGAATATATCGATTCTGCTTATTTCAACGATCTTCATTATGTTAACAGCTTCTTTGCAATTAGAAACGCTGTTGCACATATTTAGCCCAAATATCATCGGCTATGTTCTGCTTATGATGTTTCTTGTCCGACCATTATCGATTTTTCTTTCCACGATAGGAACGAGCTTAACGTTTAATGAAAAAGCGCTCGTTGGTTGGATTGCTCCAAGAGGGATAGTAGCATTAACAGTGTCTGGTTATTTTGCTGGTGTTTTATCAGAACAAGGATATGAAGATGCGCAAATCTTAACGACGTTAACCTTTGGGCTTGTGTTCTTTACCGTTGTGGCACACGGATTTTCTATTGGCTGGTTGTCCAAGAAGCTACATTTGTCTATGGAAGGAAGACCAGGAGCAATGATTGTTGGGGCAAATCGATTTACAGTGGAACTAGCTAAATCTCTTTCAAAAGCAGATTTTCCAGTTATTATTGTAGACTCTTCATGGGAGAAGCTAAGAACTGTAAGAGAAGCAGGGATTAATTTTTATCATGGTAATATCCTATCTGAACAAACAGAGTATAATTTAGATACGATTCCATATGAATATTTGTTGGCAGCAACGGACGATCATGCCTTTAATTCATTAGTTTGTACGACATTTATGCCAGAGTATGGAAGGACAAATGTGTTTAAAATTAGTCCATTCGACCAATTTAATGGCGATTCTGTTGATGTTGTGTCAAGAGTGGGCGGAAGAATTTTGTTTGATAAGAAATTTACAATGGAAGACTTGCTTGATAAATTAGATCATCATTATGTATTTAGACAGACAACGTTAACCAGTCAATATAATTACAAACAATATTTAGCCGATAAAGATGATGCAACAGTGTTCCTATATTTAATCAAACCTTCTGGACAACTAAAGTTTTATTCTGAAGAAATGAGGACGGTACCTGCTGTAGGAGACCGGATTGTTAGCTTAACCCCACCAAATAAAGAAAAAGCAAAAATACAAGCAAAGCTGGAAACACAGCGCAATGGTCAATCCAAAGAAAACAGGTAA MVPSLLFEIMLIGLLGIGSQWVAWRYRMPAIVVMSITGLLAGPIFGFLNPEEDFGSLYSPIISVAVAIILFEGSLNLSFKELRGLGKPVFRISTVGAFIAWILGSLTAHYIAGLSWAVAFVIGGLFIVTGPTVIMPLLRQSKLKARPAKILKWEGIIVDPIGALLAVFAFEIITFLTASEPDVAQLLLFFAASIFAAIFGWACGRGIGWMFETGHIPEFLKSPAVVIVVIMCFTVADEIVHETGLLSVTAMGITLANMGISSISDMRHFKENISILLISTIFIMLTASLQLETLLHIFSPNIIGYVLLMMFLVRPLSIFLSTIGTSLTFNEKALVGWIAPRGIVALTVSGYFAGVLSEQGYEDAQILTTLTFGLVFFTVVAHGFSIGWLSKKLHLSMEGRPGAMIVGANRFTVELAKSLSKADFPVIIVDSSWEKLRTVREAGINFYHGNILSEQTEYNLDTIPYEYLLAATDDHAFNSLVCTTFMPEYGRTNVFKISPFDQFNGDSVDVVSRVGGRILFDKKFTMEDLLDKLDHHYVFRQTTLTSQYNYKQYLADKDDATVFLYLIKPSGQLKFYSEEMRTVPAVGDRIVSLTPPNKEKAKIQAKLETQRNGQSKENR NA NA NA NA NA AK015_00971 183 hypothetical protein ATGAACGAAAAACAATTACAAGATAAGCTGGATGAATTAAAATCGGACTATGTGCGAATTCAGGGGGATTTAGATAAACTGGAGTATGTGCGTGGCAGAGTATCTTCTGCCGAGGAACAATTAATTCGTTTAGAAGGAGAAATTGCCGAAGTACATCGTCAGTTGGACGCATTAAATAGATAA MNEKQLQDKLDELKSDYVRIQGDLDKLEYVRGRVSSAEEQLIRLEGEIAEVHRQLDALNR NA NA NA NA NA AK015_00972 837 hypothetical protein GTGAAAGTCCAGTTCGCAAAATCAGTAGAGGCTTATGTAGATTTCGTTGAGAAGAAGCTTTTAGAAAAAGAAGCATGCAATAATTTAATCCTTGGTATATTAGAGCGTCTAAAACAGAATAACGAAGGTGCCTATTATTTAGGGTGGGTAGAAAAGGATAAAGAGCTTCTTTTTCCTTTTATGCAAACAGCCCCAAATAATTGGGTGCTCCCAGATTTGGTGCAATTTGTTGGAGAAGAGGTGATCCGTGCTGCTGTAAAGCAGATTTGGGATCAAGGTATGGAAGTGCCAGGGGTGATAGGACCAAAACAGTACGCTACTATCTTTGCAAAAGAATGGCAAGATATTACAGGTAATCAACCTGTAGTTCATATGCAAGAGTGGATTTACCAGTTAGATGCGGTTAATCAAGTGCAGCAGCATGGTGAATTGGTATTCGCTCAAGAGAAAGATTTGTCATTACTAATCCATTGGTTACAACAATTTGGAGAGGAAGCTGGTGTGAAAATTACAGAAAAACAGGCAGAAGCAATTGCGCGGCGTAATATAAATCAACATTCTGCTTTCTTATGGCAAGTCGGAAAACATTACGTATCCATGGCAAACCGATCAAGAACAACAAAGAACGGAGCCACAATTAATGCTGTGTTTACTCCTGATCAACATAAAGAAAAAGGGTATGCTACGAGTTTAGTTGCTACATTGAGTCAACAATTACTTGATAGTGGATATCAGTTTTGTAGCTTATACACCGATACATCCAACCCTATCTCCAATCATGTATATCAAAAAATTGGTTATTATAAAGTTGGCTCAGCAATCGTTTATAGTTTTTGA MKVQFAKSVEAYVDFVEKKLLEKEACNNLILGILERLKQNNEGAYYLGWVEKDKELLFPFMQTAPNNWVLPDLVQFVGEEVIRAAVKQIWDQGMEVPGVIGPKQYATIFAKEWQDITGNQPVVHMQEWIYQLDAVNQVQQHGELVFAQEKDLSLLIHWLQQFGEEAGVKITEKQAEAIARRNINQHSAFLWQVGKHYVSMANRSRTTKNGATINAVFTPDQHKEKGYATSLVATLSQQLLDSGYQFCSLYTDTSNPISNHVYQKIGYYKVGSAIVYSF NA NA NA NA NA AK015_00973 1083 hypothetical protein GTGGTAAACAAACGCTGGTTTCAATTTTTTATGTTTTTTATTTTAGCTTTTACACTCATTCTATTAATCTCAGTAACAAAATTTATCTTCTTTCCCTTTGTGAAAATAGTTGGCGCTGTGGCAGTGCCTATTATCGGTGCGGGTATCCTTTACTATTTAACAAAACCGTTAATGTATTTTTTTGAGCGTTTGAAGATTAATCGGATTATTTCTATCGTTCTTGTCTTTGTTGTAATCATCCTTCTCGGTGTATTTGTATATATGTATATTGCGCCAATCGCCCAGCAGCAATTCCGTAATTTAATTGATAATGTTCCGAAAATGGTAAACTGGGCACAAGATATGATTTCCTTATGGCAAGCCAACCAAACGGCTATTCCAGAGCAAATAGATAAAGCCATTAATGATTTCACCAATAATTTACAATCACATATTGATAGTGTTATCAATTATTTGTTTGGCTTTATTGGGCAAATTATCGGCTTTGTTACGTCAATTGTGCTTGTTCCGTTTTTTCTATTCTTTATGCTTAAGGATGGAGAAAAACTTGTACCATTCATAACGCAAATTTTTTCCAAGAAAAAAGCTGCCAACATTCGCGCACTGCTATCTAAACTTGATGCTACGTTAACTTCTTTCATTCAGGGTCAATTAATTGTTAGTTTCTCTGTAGGAGTATTATTGTTTATTGGTTACTTAATTATTGGATTAAATTACTCATTAACGCTCGCCTTATTTGCCATGGTAATGAACGTCATTCCATTTGCTGGTCCGTTTATTGCTGTTATTCCAGCATTGATTGTCGGCGCCTTTCAAGAGCCATTTATGGTCGTTTGGGTATCACTCGTTATGATCGCCGCTCAGCAAATTGAAAGTAACTTAATTTCACCAAACGTGATGGGTCGGGCATTAGACTTACATCCATTAACCGTTATTACCGTTATCCTAGCTGCTGGGAGTATAGCTGGCTTCTTAGGTATCCTGTTCGCTGTTCCTTTCTATGCGCTCATTAAAACAATTTTTGTCCATTTTTATCAAACGTATGTGGACTCCAAAAAGAATAAAGACGACGCGCTCATTTAA MVNKRWFQFFMFFILAFTLILLISVTKFIFFPFVKIVGAVAVPIIGAGILYYLTKPLMYFFERLKINRIISIVLVFVVIILLGVFVYMYIAPIAQQQFRNLIDNVPKMVNWAQDMISLWQANQTAIPEQIDKAINDFTNNLQSHIDSVINYLFGFIGQIIGFVTSIVLVPFFLFFMLKDGEKLVPFITQIFSKKKAANIRALLSKLDATLTSFIQGQLIVSFSVGVLLFIGYLIIGLNYSLTLALFAMVMNVIPFAGPFIAVIPALIVGAFQEPFMVVWVSLVMIAAQQIESNLISPNVMGRALDLHPLTVITVILAAGSIAGFLGILFAVPFYALIKTIFVHFYQTYVDSKKNKDDALI NA NA NA NA NA AK015_00974 1734 pgcA Phosphoglucomutase ATGATGAGCTGGAAGCATATCTTTGAAAAGTGGGATTCGTTTGAAGACTTAGAACCTAATTTAATACAGGAATTGAAGGAATTAAAATCAGACCCTGTTGCATTGGAGGATGCTTTTTATAAAGAACTGACCTTTGGTACTGGTGGCATGCGTGGAGTTATTGGAGCAGGAATAAATCGAATGAACGTCTATACTATCCGAAAAGCTGTGAATGGCTTAGCGAATTATTTGCTCGACCATACAGTAAATGTGAAAGATCGTGGCGTTGTCATCGCTTATGATTCGAGACATATGTCGAAAGAATTTGCTTTAGAGACCGCTAAAGTATTAGGATCGTTTGGTATAACATCCTATGTGTTTTCGTCTTTAAGACCTACGCCTTTACTTTCATTTGCTGTACGCTATTTAGGTACAGTTTCAGGTGTTATGATTACGGCTAGTCACAATCCGCCTGAATATAATGGTTTTAAAGTTTATAATGAAGATGGTGGGCAGATTACTCCAAACCAAGCTTCAGAAATTGTTACTTGTATTAATAAGGTAGAGGATGAATTATCTGTTCCTTATTTGGAAAAAAAGGAGCTAGAAGAAAAAGAACTCTTAAACTGGATAAAAGATGAAATCGATAATGCTTATTTAGATAAATTGCAAGGAATATCGAAAATGCCTGCAGATAAAATAGAGATAGAAAAGGAAATGCCAATTGTTTTCACTCCTTTGCACGGAACAGCCGCTGAGCTTGTACCTAAAGGGTTGAAACAGTTGAATTTCACGCATGTTCATGTGGTAAAGGAACAGGCTGTTGCTGATCCTGAATTTTCTACGGTTGCATCACCAAACCCAGAGGAACATCAAGCATTTACGATGGCCATAGAACAAGGGAAGCAAATCGATGCTACTCTATTACTTGCTACGGATCCTGATGCAGATCGTTTAGGTGTTGCGGTAAAAAATAGTGCGGGAAGTTATCAGGTTCTGACCGGAAACCAGCTAGGCGCTTTAATGTTAGATTATATTCTAGCCCATAGTGACGAAGCATTATTAAGAAGCGGACGAATGATTAAAACCGTTGTCACATCAGAGTTAGGCAGAGCTGTTGCCGATTATTATGGTATTCAAACATTGAATACATTAACAGGATTTAAGTTTATCGGTGAGAAAATTAGACAGTTTGATCGTACCGGTGAAACGTTTGTGTTTGGTTATGAAGAGAGCTATGGGTATTTAATTAGCAGTTTTGCTAGGGACAAAGACGCAGTGCAAGCTTCAGTAATGGCTTGTGAAATGGCCTATTATTGGCAACAACAAGGTAAAACATTATTAGATGCTTTATACGACCTATTTGCTCGTCATGGATACTATTTTGAACACATGCAATCGATTACTCTAAAAGGAAAAGAAGGCTCAGAAAAAATTGGTGTTATTATGGATGATGTTCGCAGAAAGCCTGCAGAGCAAATTGGTGGGTTGAAAGTAGTGCAAATGGAAGATTATTTAGTTAGTAAAAGAACGCTTAGAGACGGGAATGTTGAAACAATCGAGCTACCGAAAGAGAATATGGTGAAATATAAGTTGGAGCAGGATTGTTGGATTTGTTTACGCCCATCTGGAACGGAACCAAAAATTAAATGTTATTTTGGTGTTCGCGGTACGAGTGAAGAGGATAGTAAAAATAAATTAGCCACTCTACAGGAATCGATGAATCAAATTTTACAAGGAACGATAGAAGTATAG MMSWKHIFEKWDSFEDLEPNLIQELKELKSDPVALEDAFYKELTFGTGGMRGVIGAGINRMNVYTIRKAVNGLANYLLDHTVNVKDRGVVIAYDSRHMSKEFALETAKVLGSFGITSYVFSSLRPTPLLSFAVRYLGTVSGVMITASHNPPEYNGFKVYNEDGGQITPNQASEIVTCINKVEDELSVPYLEKKELEEKELLNWIKDEIDNAYLDKLQGISKMPADKIEIEKEMPIVFTPLHGTAAELVPKGLKQLNFTHVHVVKEQAVADPEFSTVASPNPEEHQAFTMAIEQGKQIDATLLLATDPDADRLGVAVKNSAGSYQVLTGNQLGALMLDYILAHSDEALLRSGRMIKTVVTSELGRAVADYYGIQTLNTLTGFKFIGEKIRQFDRTGETFVFGYEESYGYLISSFARDKDAVQASVMACEMAYYWQQQGKTLLDALYDLFARHGYYFEHMQSITLKGKEGSEKIGVIMDDVRRKPAEQIGGLKVVQMEDYLVSKRTLRDGNVETIELPKENMVKYKLEQDCWICLRPSGTEPKIKCYFGVRGTSEEDSKNKLATLQESMNQILQGTIEV PGPT0017710_987 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835 NA NA AK015_00975 786 hypothetical protein ATGGGCGTTGATTTACTCATCGAATATTTATGGGTTTTAGTGGTGCTTATCGGTTTAGAGGGATTGTTAGCGGCAGATAATGCACTTGTACTAGCAATTATGGTCCGGCATTTGCCAGAAAAACAGCGTAAAAGAGCATTGTTTTATGGATTAGCAGGTGCTTTTGTTCTGCGATTTGGGTCATTATTTGTTATCTCGTTTTTAGTAGATGTTTGGCAGGTACAAGCTCTTGGTGCGCTGTACTTACTATTTATATCTGGAAAACATTTATATGATCGATTTAAACCGAGAAAAGAAGTGGAAGAAGGAGCGAATGTAACAGAAAAAAAGGGAAGCGGCTTTTGGATGACCGTGTTAAAAGTAGAGTTTGCTGACCTTGCATTTGCAGTTGACTCTATTTTAGCTGCTGTAGCATTAGCAGTTGCATTGCCAGCAACTGGGTTAGGCCATATAGGAAGCCTCGATACGGGACAGTTTTTAGTCGTGTTTGCTGGTGGAATGATCGGTCTCATTGTTATGCGATTTGCTGCAAATATATTTGTAGAATTGTTAAATAAACGACCTGGGCTTGAAGTAGCGGCTTTCGTTATTGTTGGTTGGGTTGGCGTGAAGCTAAGTTTAATTGTACTTGCTCATGAGGATATTGCATTCATACCACATGATTTTCCGCATTCTACGTTATGGAAGATCATCTTCTATGTAGTGCTTGTGGGAATTGCTGTCACTGGTTGGTTCTCATCCAGTAAGAATGAAATAGACGTAAAAGTAAACAAAATAGAAGGTTAA MGVDLLIEYLWVLVVLIGLEGLLAADNALVLAIMVRHLPEKQRKRALFYGLAGAFVLRFGSLFVISFLVDVWQVQALGALYLLFISGKHLYDRFKPRKEVEEGANVTEKKGSGFWMTVLKVEFADLAFAVDSILAAVALAVALPATGLGHIGSLDTGQFLVVFAGGMIGLIVMRFAANIFVELLNKRPGLEVAAFVIVGWVGVKLSLIVLAHEDIAFIPHDFPHSTLWKIIFYVVLVGIAVTGWFSSSKNEIDVKVNKIEG PGPT0003866_7 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA NA NA AK015_00976 165 hypothetical protein ATGTATCGAATCGTTGCAATTAGCAATAATGTACGGGCAATTATAGCTATGAATGAGCAGGAGATGATTTTTGAAACTTACCAAGAAGCAGAAAAATATCTTCTAGAAGCAAAAGATGTATTAATTTTGCCTGATAACTATAATTTAAAGATTGAGAAACAATAA MYRIVAISNNVRAIIAMNEQEMIFETYQEAEKYLLEAKDVLILPDNYNLKIEKQ NA NA NA NA NA AK015_00977 699 hypothetical protein GTGAAAGCGAAAGCCAAATCAACCGAAGCTTCCATTGCTAGTGCAACTGGTAAACTATTAAGAAGCTATTTTGGTAAAGGGCCTGGAGCATTATATGTATCTATAGCCCATTCTTATTTAATCATTTATTTGAAAGACTTTATTACACCGATGGAAAATGTCTTACTTAAGCAAAAACAAGCTTTGAAAATAGAAGAAACACGAGATATTGTCATGGAAAAATGTATGCCTGAACTAAAAACGATGTGGAGTAACGAGTTTGCGATCCAGGTTCATCAGATTTATTATGATTGGAACTTAGCAAATACGACAGGTGTTATATTTGCTGAATTAAAGGCAACACAATTAACAAAGAACTTGAGCGCACTTTCTAGCGAACAGGAAACAAAAATTCATCAAGAAATGAAACGATTTACTGAAAAAGCACAAAAAGCTCCTCGTAATATAGCTTCTGTTCGATTAAATGAACGAACTATTATATCAAAGCGAGAGGACATTCTCGTCAGCATTGAAAAAGAACTTATTTCTTCTGGCTTTGAAGAGCAATTAAGGCTTTCTAAAAGAAAATTAGAGAAAAGCATTATCGACAGGTCGTATTTAGAATCCATTTTAAAGCAAAGGATTGAAGATCTGTTTGTAGATTGGGATTTTCAACAAGACATCGGTTATGTCGTACTCATACTACATGCCGAAAAATAA MKAKAKSTEASIASATGKLLRSYFGKGPGALYVSIAHSYLIIYLKDFITPMENVLLKQKQALKIEETRDIVMEKCMPELKTMWSNEFAIQVHQIYYDWNLANTTGVIFAELKATQLTKNLSALSSEQETKIHQEMKRFTEKAQKAPRNIASVRLNERTIISKREDILVSIEKELISSGFEEQLRLSKRKLEKSIIDRSYLESILKQRIEDLFVDWDFQQDIGYVVLILHAEK NA NA NA NA NA AK015_00978 1179 chrA Chromate transport protein ATGACTAAGAATCAATCCTTATTAGACATATTACGAACTTCATTAAAGTTGGGGTTAACATCGTTTGGTGGCCCAGTGGCTCATTTAGGGTATTTTAAAACGGAGTATATTGATAAGCGTAAATGGTTAGATGATAAAACATATGCAGATATTATTGCTTTGTGCCAATTTTTACCGGGGCCTGCTAGCTCACAAGTAGGAATAGCTATTGGTATGTTACGAGGTGGATTTTTAGGTGGTGTTGTCTCCTGGTTTGGTTTCACATTACCTTCTGTGTTTGTGCTCGTGTTGTTTGCTCTATTCTATCAATCTTTCACACTTGGTGATGCAAATTGGATTGCTAGTTTAAAAATTGTCGCTGTTGCCGTAGTAGCTCATGCCGTACTTGGTTTGGGTAAAAAGCTGGCACCAGATAAGCCGCGGATTGCAATTGCGTTGGTAGCAGCACTGATTATGCTTCTTTTCCCATCTGCATTCGTACAAATTGCCATTATTTTAATGGGGGCAGGTATTGGTTACTTTTTGTATAAGAATAAAGCACAACCGAAGCTTTCTTCTTTTGCTGTCTCGATTTCGAAAAAACAAGGAATACTTGCACTATCCATATTAGTGGCAATGTTGATTGGACTTCCCATTTTAGCAAGTGTGTTTCCTTATATGTACATACAGATTGCAGATACGTTCTTTCGTGTCGGTTCGTTAGTGTTTGGCGGTGGACATGTTGTGTTACCGATGCTAGAACAGGAAATTGTTCCGACAGGATTTGTAACGAGCGATGAATTTTTAGCTGGTTATGGGATGGCACAAGCAGTTCCTGGGCCATTATTTACGTTTAGTTCTTATGTAGGAACAATGATGAATGGAATAATTGGTGCTGTCATTGCTACGGTTGCTATTTTTTTACCTTCCTTTTTACTTATTGTAGGTACATTGCCATTTTTAAGTGAACTACGTAAACGTTCTAGCTTTCAAGGTGTTTTAACGGGAGTGAATGCAAGCGTTGTTGGCTTATTAGTTGCTGCTTTCTATGACCCTGTTTTTACAAGTTCTATTTTAAACGGAGCCGATTTTGGCTTGGCGGTTATTTTATTTGCATTATTGCATTTCTGGAAGGTTCCGGCTTGGCTCATTGTTATTATGGGAGTTATTGGTGGAGAGATTGTCCATTTAATCGGGTGA MTKNQSLLDILRTSLKLGLTSFGGPVAHLGYFKTEYIDKRKWLDDKTYADIIALCQFLPGPASSQVGIAIGMLRGGFLGGVVSWFGFTLPSVFVLVLFALFYQSFTLGDANWIASLKIVAVAVVAHAVLGLGKKLAPDKPRIAIALVAALIMLLFPSAFVQIAIILMGAGIGYFLYKNKAQPKLSSFAVSISKKQGILALSILVAMLIGLPILASVFPYMYIQIADTFFRVGSLVFGGGHVVLPMLEQEIVPTGFVTSDEFLAGYGMAQAVPGPLFTFSSYVGTMMNGIIGAVIATVAIFLPSFLLIVGTLPFLSELRKRSSFQGVLTGVNASVVGLLVAAFYDPVFTSSILNGADFGLAVILFALLHFWKVPAWLIVIMGVIGGEIVHLIG NA NA NA NA NA AK015_00979 1392 tcyP COG1823 L-cystine uptake protein TcyP ATGGGCATGTATACGATACTGAATGTGGCAATATTAGCTGTACTTATAGGAATTCTTATTTGGATGCAAAAGAAACACTTTTCGTTTACAAAGCGTGTTTTTACAGGCTTAGGTGCAGGAATTATTTTAGGAGCCATTCTTCAATGGGCTTATGGGGCCGGGTCTGATGTATTAATAGAGACAACGGATTGGTACAGTATTGTTGGAAGTGGGTATATTCGCTTTCTAATGATGATTGTTATTCCACTTGTGTTAGTTTCCATCATTCAATCCATTATTAACTTAGAAAAATCGGCCGAATTAGGAAAAATGGCTAGTTGGATCATTGGAATTTTAATCTCAACAACGATGATTGCAGCTTTAGTTGGCATCGTTACGGCTACGGTGTTTGATTTAAATGCTGAACAAATTGAAGCAGGGCAAGCAGAGAACGAACGAGGAACGATACTAGAATCAACCTTAGAAGAGGTGGAAGAGCAAACAGCTGCACAAAAAATTGTTAGTTTTATTCCATCAAATATCTTCTTGGATATGACAGGAGATCGGTCTACGTCTGTTATCGCTGTCGTTATTTTCTCGGTTATTGTAGGCATTGCTGTTTTGGGAGTAAGAAGAAAAAACCCTGAACAGGCGGAAATGTTTACCAAAATGATTAATGCGTTGTATGCAGTAGTTATGCGGATAGTGACACTTATCCTTCGATTAACACCATATGGAATTTTAGCTTTAATGGCAAACACAGTGGCGAGTACTGATTTTGCAGGTATATTAGAATTAGGAAAGTTTGTAGCTGCTTCTTATGTTGCGATAATAACTATGTTTGTAATTCATTTAATTCTTGTCGGTTTATTTGGTCTAAATCCGTTCATGTATTTACGTAAAGCTATTCCAGTGCTTGGCTTTGCATTTACATCCCGTTCTAGTGCTGGAACAATTCCGTTGAACATCCAAGCTCAACAGCATGCTTTAGGTGTTGATCAAGGAGTAGCGAATATGTCAGCATCCTTTGGTGCAACAATGGGGCAAAATGGGTGTGCGGGTATTTATCCAGCGATGCTTGCGGTAATGATCGCTCCAACAATGGGAATTGATCCACTATCACCAGGCTTTATTTTACAGCTTGTGTTAATTATCGGCGTCAGCTCATTTGGAATAGCAGGAGTAGGCGGTGGAGCAACTTTTGCAGCGTTAATCGTTTTATCTTCTATGAACATGCCGGTTGCTTTAGCTGGGTTATTAATTTCCATCGAAGCATTTATCGATATGGGTAGAACGGCGTTGAATGTCAATGGTTCTATGGTAACTGGAACAATTACAGCAAGAATTTTAAATAAGCTCAACGTAAAAACGTTTCAAGATAAAACGGCAATACAAGAAGCAACGGACATCTAG MGMYTILNVAILAVLIGILIWMQKKHFSFTKRVFTGLGAGIILGAILQWAYGAGSDVLIETTDWYSIVGSGYIRFLMMIVIPLVLVSIIQSIINLEKSAELGKMASWIIGILISTTMIAALVGIVTATVFDLNAEQIEAGQAENERGTILESTLEEVEEQTAAQKIVSFIPSNIFLDMTGDRSTSVIAVVIFSVIVGIAVLGVRRKNPEQAEMFTKMINALYAVVMRIVTLILRLTPYGILALMANTVASTDFAGILELGKFVAASYVAIITMFVIHLILVGLFGLNPFMYLRKAIPVLGFAFTSRSSAGTIPLNIQAQQHALGVDQGVANMSASFGATMGQNGCAGIYPAMLAVMIAPTMGIDPLSPGFILQLVLIIGVSSFGIAGVGGGATFAALIVLSSMNMPVALAGLLISIEAFIDMGRTALNVNGSMVTGTITARILNKLNVKTFQDKTAIQEATDI NA NA NA NA NA AK015_00980 1041 hypothetical protein ATGATATTTTTTAAACAATTATTTGTTAAAGTTATCAAATTAAATAATTGGTTTTTGCTTTTTGCTACACTTACTTTAGTGTTTGCCAGCAGTTATTTTATTTATTACTTAGAACCTGATACATTTGCTAGTCCGTTTGAAGGGCTTTGGTGGACGATGACAACTGTCACAACAGTTGGATATGGGGATATCTCACCAACGACTGTAGGCGGGAAGCTTTTTGCCATGTTCCTATATATTGTAGGGATTGGTTTAATGACTATTTTTATTGGCAAAGCGATTGATTTTTTGAGCATTCGAAAGCGGTTGAAGGAGGAAGGTAAATTGACGATTACTACAGAGGATCATATCATTCTCATTAATTGGACGAAGAAAGCAAGCATTACATTAGATGAGATTTTACATACATTTGATGATGTTCGCATTGTAATCATTGATGAGAAAATCGAAAAAACACCATTGATTCATGAACAGGTAGAGTTTGTTTACGGTAATCCAGCGAATCGAGATGTACTATTAAAGGCAAATTTGCTTAAAAGTAAATCTGTGATGGTTTTTGCTTCTGAAGATGGGGTAGCAACATCTCAAGCTGATGGTCAAACATTACTCATTGCAACAACCTTAGAAAGTATTGGCAAGGAGTTTTCACAGAATATTTATACGATCTGCGAGGTGTTGGAATCTACACATATTCCAGCCTTTAAGCATGCAGCTGTTGAAGAATTTATTACGGCGAATGATACAGCAGCACACTTGGCAGCACGTTCGATTTTATTTAATGGATCAAGCGAGATTATTCGTCAACTAACGAGTCATCGAGGTTATGATCTCTATTCCATAGGTAAAAAAGCAGAATGGGATACATATGAGCATGCTCGGACAGAATTAGCATCGCAAGGGGCTATTTTACTTTCTAATCGTAATGATTTATCAATTATTAACCAATTAAAAGATTCGATCCCCCAAGGCGCAAAATTGTTTATTATTTGTGATGAAGATGCATATGCTAATTTGCTTCATCAAGGTGTTCCAACTAGTTAA MIFFKQLFVKVIKLNNWFLLFATLTLVFASSYFIYYLEPDTFASPFEGLWWTMTTVTTVGYGDISPTTVGGKLFAMFLYIVGIGLMTIFIGKAIDFLSIRKRLKEEGKLTITTEDHIILINWTKKASITLDEILHTFDDVRIVIIDEKIEKTPLIHEQVEFVYGNPANRDVLLKANLLKSKSVMVFASEDGVATSQADGQTLLIATTLESIGKEFSQNIYTICEVLESTHIPAFKHAAVEEFITANDTAAHLAARSILFNGSSEIIRQLTSHRGYDLYSIGKKAEWDTYEHARTELASQGAILLSNRNDLSIINQLKDSIPQGAKLFIICDEDAYANLLHQGVPTS PGPT0002715_1744 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716 NA NA AK015_00981 1800 ligd COG1793 Bifunctional non-homologous end joining protein LigD ATGAAAGTCATGAAACCCATACCTACAAGAGATATTCCCCGAGGTAATGCATGGTTATATGAGGTAAAGTATGATGGTTACCGTTGTACACTACAATGGCGAAAAGATAGTATTCAATTGCGAAGTAAAAATCATAATGATTTAAGCAAGCAATTTCCAGAAATCATTACAGCTTGTTTACAAGTCCAAGGCCAAGTGGAATCTCATTTACCACTGATGTTAGATGGTGAGCTTGTCATCATAAACCAGCCATATCAAGCTAATTTTGATTGGATGCAAAAACGCGCACGGATGCAAGCAGAAGCTAGTATTCAAAGCGCATCCAAAGAACGCTCTGCTTGTTTAATGGCTTTTGATATTTTACAGGAACAGGGAAATGCTTTGTTATCCACTCCATTAGAGGAACGCAAAAATATTTTAAAAACGCTGCTATCCCACCAACTATTTAAAGACAAAATAATGTATGTACCTAGCTATAGTGATCCGGATCAGCTTTGGGAGAAAATTTTCACACACTTAGGAGAAGGAATGATTGCCAAACGCAAACATAGCACATATAAGCAAGGAAAGCAGCACCAGGACTGGTATAAAATTAAAAATTGGCGCTCAATAAGTGGGTTTTTAACTGCGTATGATGGGGATAATGATTATTTCCAAGTTGGCGTGTATAAAAATAATCACATTATTTCGATTGGTAAATGTAAGCATGGTTTATCGCAAAAAGATTTTTCGATTGTAAAACAATTGTTTCAAACAAAAGGAAAACTCGAAAACAAAACGTATACACTCCCACCTGCCATTTGTGCTACGACCCATAGCCTTGATTTATACAAACAAGAACTACGTGAACCAGCATTTCAGAAAATACTTGCCCATGCACGTCCAGAAGAAATGACGTGGAAGAAGCTTGAATTTGCTCAAGCTATGTTTCCAAAGGAAATTGACATAACAAATGCGGACAAACTATTTTGGGAAGGGCTAAACTATACAAAAGCAGACTTATTACTTCATATACGCCAAATAGCACCATATATGTTGCCATTTTTACAGCAACGGGCGCTCACCATTATCCGTGCACCTGATGGGATAGAAGGAGAACATTTCTTCCAAAAGCATTTACCAAGCTACGCGCCTCCATTCATGGCAAGACAAACACATCAAGGAAAAGAAATCATTACTTGCGAGACTTTAAAAGATCTTATTTGGTTAACCAATCACGGAACAATCGAATTCCATACACCATTTCAAAGCCTTACAGCACGTACACCAGAAGAAATCGTCTTTGATTTAGACCCGCCAAATAGAGACCGTTTTGATTTAGCTATCCATGCAGCTTTAAACATGAAGCATGTTTTTGATGAGTTACAGCTAACTTCCTTTGTTAAAACGTCTGGTAATAAAGGGTTGCAAATCTACATCCCTATCCCCTCTGGTAGCATGACTTATAAACAGACTGCTTTGTTTACGGAAGCGATAGCACGTACGTTAGAAAATGCGTTTCCAGCACTGTTCACGACCGAGCGTCTTAAGGAAAAACGAAAAGGTAGGCTCTATATTGACTATGTACAGCATGGCAAAGGGAAAACGATTATAGCACCGTATTCACCGAGAAAAAACGCAGAAGCTACCATCGCAATGCCTTTATACTGGGAGGAAATAACGAACGACCTTTCCCCAAAAAGCTTTACGATAAAAAATGCTGTGGAGCTTGTCAAACAACGCGGATGTCCATGGCGAGCTTATAAAGCAGTTAAAAAAAGCCAAAATCTCACAGAAATTTTGACTTTTTTAGGAACTTAG MKVMKPIPTRDIPRGNAWLYEVKYDGYRCTLQWRKDSIQLRSKNHNDLSKQFPEIITACLQVQGQVESHLPLMLDGELVIINQPYQANFDWMQKRARMQAEASIQSASKERSACLMAFDILQEQGNALLSTPLEERKNILKTLLSHQLFKDKIMYVPSYSDPDQLWEKIFTHLGEGMIAKRKHSTYKQGKQHQDWYKIKNWRSISGFLTAYDGDNDYFQVGVYKNNHIISIGKCKHGLSQKDFSIVKQLFQTKGKLENKTYTLPPAICATTHSLDLYKQELREPAFQKILAHARPEEMTWKKLEFAQAMFPKEIDITNADKLFWEGLNYTKADLLLHIRQIAPYMLPFLQQRALTIIRAPDGIEGEHFFQKHLPSYAPPFMARQTHQGKEIITCETLKDLIWLTNHGTIEFHTPFQSLTARTPEEIVFDLDPPNRDRFDLAIHAALNMKHVFDELQLTSFVKTSGNKGLQIYIPIPSGSMTYKQTALFTEAIARTLENAFPALFTTERLKEKRKGRLYIDYVQHGKGKTIIAPYSPRKNAEATIAMPLYWEEITNDLSPKSFTIKNAVELVKQRGCPWRAYKAVKKSQNLTEILTFLGT PGPT0014910_1348 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971 NA NA AK015_00982 852 ku COG1273 Non-homologous end joining protein Ku ATGCATACGATGTGGAAAGGAACGATTAGCTTTGGGCTTGTAAATATTCCTGTGAAAATGCATGCGGCAACTGAAAATAAAGATATTAAATTAAGGCAATTGCATAAGGAATGTCAATCACCGATTAAATATGAACGGTCATGTCCGGTATGCGACCGGCCAGTAGAAAATGAAGAAATTGTGAAAGCATATGAATATGCAAAGAATAAGTTCGTTGTGTTAGATGAGGAAGAGTTAGAAGCATTAAAGCAAGAACAGGCAGATAAAGCGGTCGAAATCATGGACTTTGTGCAGTTGGCTGAAGTAGATCCAATTTATTATGAGAAAAGTTATTTTTTATCGCCGAATGAAGGCGGAGCGAAAGCCTACGGACTTTTACGAAAGGCTTTGAAAGAGACTGGAAAAATCGGCATTGCGAAAATGATGATTCGTTCTAAAGAACAATTGGCAATTATTCGTGTCTATGAGGACACACTAGTTGTGGAAACCATACATTATCCAGATGAAGTGCGTCGTATTGAAGATGTGCCTAACATACCAAAGGAAGTGGAAACAGATCCTCAAGCATTAGATACAGCAAAGATGCTCATTGATCAGTTATCAACGACGTTTGAACCGACAAAATACAAAGACGAGTATCGCCATGCATTGCTAGACTTAATTGAACAAAAGAAAGCTAACGAGCAAACGGCGACAGCACAAGATAAGCCTTCCCCTGATGCAGCTACAAACTTGATGGATGCTTTACAAGCTTCGTTAGAGCGTGCAAAACAAGAAAAGCCGAAACCAAAACAACCATCGCTCACCAAAGAAAAGGAAAAAAAGATAAAGAAGAAGAAAACGGGAACATAA MHTMWKGTISFGLVNIPVKMHAATENKDIKLRQLHKECQSPIKYERSCPVCDRPVENEEIVKAYEYAKNKFVVLDEEELEALKQEQADKAVEIMDFVQLAEVDPIYYEKSYFLSPNEGGAKAYGLLRKALKETGKIGIAKMMIRSKEQLAIIRVYEDTLVVETIHYPDEVRRIEDVPNIPKEVETDPQALDTAKMLIDQLSTTFEPTKYKDEYRHALLDLIEQKKANEQTATAQDKPSPDAATNLMDALQASLERAKQEKPKPKQPSLTKEKEKKIKKKKTGT NA NA NA NA NA AK015_00983 159 hypothetical protein ATGGCTAAACAATTTGTAGCGATGTTGGGAGGGGTTATATTTACAATGGTCATTATTTCTATAATCGTTGATGAGTTATTATGGGGCAGTTTAATCGGTTTTGCAGTTGGTGTGGGTCTAATGTATCTCTTTTTAAAAATAATGAAGAGAAAATCGTAA MAKQFVAMLGGVIFTMVIISIIVDELLWGSLIGFAVGVGLMYLFLKIMKRKS NA NA NA NA NA AK015_00984 474 greA_1 COG0782 Transcription elongation factor GreA ATGAAAAAAACAATACCTGTAACAAAAGCAGGTTATGAAGAACTACAAGAGAAATTGAATACATTAAAGGAAGAGAAATTGGTTGAGGCAAATAAACAAGTGAAGGCAGGCCGGGCATTTTGCGATTTTCATGAAGATCCTGAATTCGATAGATCTTTAGATGAGTTAAACAAAATACAGGAGCAAATCTCAGAATTAGAATCTATTCTTGCTCGTGCAGAAATAATTGGAGAAGCAAATAGCGACGTGGTTCAACATGGGGCGTTGGTGACATTTAAAGAATACCCAGATGGCGAAGAAGAAGCTTTTCAGGTTGTTAGTGCTGCAGAAGCAGATGCGCAAAAATTACAGATCTCTGATAATTCCCCAATGGGGAGAGCATTGCTTGGAAGGAAAGTAAATGAGGAAGTGTCTGTAGAAACCCCTGCTGGAACGGTGAAGTTGCTTATAACCAAAGTGCAATACAAGGTGTAA MKKTIPVTKAGYEELQEKLNTLKEEKLVEANKQVKAGRAFCDFHEDPEFDRSLDELNKIQEQISELESILARAEIIGEANSDVVQHGALVTFKEYPDGEEEAFQVVSAAEADAQKLQISDNSPMGRALLGRKVNEEVSVETPAGTVKLLITKVQYKV PGPT0030495_3515 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TRANSCRIPTIONAL_CONTROL PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624 AK015_00985 420 hypothetical protein ATGAAGAACAAAAAATATATCATCGCTTTAACGGTTTTATCGGCATTTTTATTTAGTGCGTTAATTATCGCAGGTTCGTTGTCGCCTTTATCGGAAATGGGGGACAATGTAAATCAATTTAACTCAGTAGGCATGTGGCTTTCTATTGCTATGATACTTTTTTTCTACCTTATTCCAGTAATACTATATGCAATCGGATTAAATTGGATCAAGATAATAATGGCTATATTTTGTGTCATCGGCATTGTTATATTGCTATCAACAATTGTTATCGTACTTATAATTGGATTAGTCAATCATAACATGTTGCAACTAAGTAGTGTTCTTATTGTGAGTATCCTAGGTGTTATCATAAACATTGTGTGGCTTATTGTTGCGTTTTGGAAAAATCGAGGTAAGGCTTCGGGCTTGTCTTCTTGA MKNKKYIIALTVLSAFLFSALIIAGSLSPLSEMGDNVNQFNSVGMWLSIAMILFFYLIPVILYAIGLNWIKIIMAIFCVIGIVILLSTIVIVLIIGLVNHNMLQLSSVLIVSILGVIINIVWLIVAFWKNRGKASGLSS NA NA NA NA NA AK015_00986 891 cynR_1 HTH-type transcriptional regulator CynR ATGGATATTCGTGAGTTAAAATATTTTATAGAAATTGTAAAAAAGAAGAACTTTACGTTAGCTGCAAAAAATCTTCATATATCCCAACCAGCCTTGAGCAAAACAATGAAAAACTTGGAGTCTGAATTAGAAGTACAGTTGTTAGATCGATCAGATAAAGAAATAAAACTAACTGAAATCGGCCAACTATTTTTTGTCCAGGCGGAAGCTGTTTTAAATGCTTTTGATTCTTTGAAGGCATCTCTTTATGACCAAAGCAAGTTGAATAAAGGAGAAGTGATTGTCGGGCTACCACCCGTAATAGGATCTAGTATATTTGTCAAAGTGTTAACAACATTTAAAGAAAGTTTTCCTGATATCAAATTGCATATTATAGAAAATGGCGCGAAGATGGTCGAGCATAATTTATATAACGGCAAAATTGATCTAGGGGTAGTGATAGCCCCTGTGGACGAAAACCAGTTTGAATATATACCAATTATGGAGGATGAAAGTGTTTTAGTTGTCCATCATCATCATCCTTTGGCGCAGAGAGAAGCTGTTTCAATTGCAGACTTAAAAGAAGAAGAATTCCTTCTTTTGGATAAAACGTTTATGCTCCATCACCATGTTGTTCAGTATTGTCAGGACGCAGGGTTTAAGCCTAATATTTTATTTGAAAGCTCACAGTGGGATTTTCTTGTGGAACTTGTTGCGCAAAATCAAGGGGTTACTATCCTCCCTCGACCAATTTTGTCGCGGGTGGAAAACAGACAAATACACATTATACCTATCCGTCCTAATTGTTTAAAGTGGAAAGTGGGATTCCTCTTAAATAGAGAGCAATATGTTACACATGTAATGAAAGTTTTTATTGATCATACTGTTCGTACAGTTGCAACATGTGAATGA MDIRELKYFIEIVKKKNFTLAAKNLHISQPALSKTMKNLESELEVQLLDRSDKEIKLTEIGQLFFVQAEAVLNAFDSLKASLYDQSKLNKGEVIVGLPPVIGSSIFVKVLTTFKESFPDIKLHIIENGAKMVEHNLYNGKIDLGVVIAPVDENQFEYIPIMEDESVLVVHHHHPLAQREAVSIADLKEEEFLLLDKTFMLHHHVVQYCQDAGFKPNILFESSQWDFLVELVAQNQGVTILPRPILSRVENRQIHIIPIRPNCLKWKVGFLLNREQYVTHVMKVFIDHTVRTVATCE NA NA NA NA NA AK015_00987 729 fabG_4 3-oxoacyl-[acyl-carrier-protein] reductase FabG ATGATGAAACAATTAAAAGACAAAGTAGTCGTGGTAACTGGGGGAGCACAAGGATTAGGTAAGGCGATGTGTGAGCGATTTGCTTATGAAGGAGCTGAAGTTGTTTATTCGTTAGATTTACAAAAAGGAAATCTCACAGCAGATAATGTAAGACATCAGGAGTTAGATGTTACAAACATAGCGGAGATTGACTCTTTTATTCAATCGGTCAAAGAAGCGTACGGTCGCATCGATGTTTTAGTCAATAATGCAGGGGTCACTCGTGATGCATTGACACAGAAAATGGATGATAATAAATGGGAATCAGTGATGGATATCAACTTAAAGGGTGTTTTTCATATGACGAAGGCGATCGCTCCCATTATGATGGAGAACGGGTCTGGTTCTATTATTAATATTTCGTCCATTGTAGGTCTTTATGGAAATATTGGCCAAGCAAACTATGCTGCTACGAAGGCAGGAGTCATAGGGATGAGCTATACATGGGCAAAAGAATTTACGCGTAAAGGTGCTGCTGTACGTACGAATGTAATTGCTCCCGGCTTTATTGAAACGGATATGATGAAAACGGTTCCGGAAAAGGTGTTGCAGCCGCTTCGTGATCAAACACCATTAAAAAGATTAGGACTTCCTGAGGAAGTGGCGAATGCGGCGTTATTCTTAGCGAGTGATGAGTCGAGTTATGTAAATGGTCATGTGCTTTCCGTAGATGGTGGATTAAGGCTGTAA MMKQLKDKVVVVTGGAQGLGKAMCERFAYEGAEVVYSLDLQKGNLTADNVRHQELDVTNIAEIDSFIQSVKEAYGRIDVLVNNAGVTRDALTQKMDDNKWESVMDINLKGVFHMTKAIAPIMMENGSGSIINISSIVGLYGNIGQANYAATKAGVIGMSYTWAKEFTRKGAAVRTNVIAPGFIETDMMKTVPEKVLQPLRDQTPLKRLGLPEEVANAALFLASDESSYVNGHVLSVDGGLRL PGPT0003180_20302 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 AK015_00988 1212 thlA_1 COG0183 Acetyl-CoA acetyltransferase ATGACAAAAGTATATGTAATAGATGCTAGACGAAGTGCGATTGGATCTTTTTTAGGTACAATTGCTTCTGTACCGCCCAGTGATTTAGCTGCTCAAGTAATGAAAAGTATCATTCAGTACCATCAACTAAATGGTAGTGAAATAGACGAGGTAATTATTGGAAATGTATTATCTGCGGGGCAGGGGCAAAACATTGCTAGACAAGCAAGTATAAAAGCTGGATTACCTGAATCCGTTCCGGCTTACACAATGAATATGGTTTGTGGCAGTGGCATGAAATCTTTAATGACTGCTTATAGTAGCATTTTAGCTAATATGGCTGATCTTATGTTAGTTGGTGGCGTTGAAGTGATGTCACAGGCTCCTTTCGTAACAACGGCAGAAGTTAGAACTGGTAAGAAGCTTGGGAACCTTCAATTGCATGACAGTATGGTTCAAGATGGTTTAACCGATGCATTTCATCATTATCATATGGGGATAACTGCTGAGAATATTGCTGAAAGATATCATATAACCAGAGAAGAGCAGGACAGATTTGCTCTAACATCGCAGCAACGAGCTATCAAAGCAAATGATAGTGGTCGTTTTGAAGCTGAAATTGTACCTGTGGAGTTTATGGATCGTAAAAAGCATCTTATGACATTTAAAGAAGATGAATATCCCAATTACTCTACTACTCTTGATAAGCTTGCCCGTTTAAGACCAGCGTTTAAGAAGGATGGGACGGTTACTGCTGGAAATGCTTCTGGCATTAATGATGGAGCAGCTATACTCTTAGTAGCTTCTGAAGCTGCAGTAATGAAATATCAGCTTGAGCCAATTGCTGAGATTGTTGCGGTTGGACAAGGTGGAATAGACCCAGCTGTTATGGGGTTAGGTCCTGTAAAAGCGATTCAACATCTATTTAGTAAAACAGATGTGAATCCAGAACAGGTGGAGCTAATAGAGTTAAATGAAGCATTTGCTTCTCAATCTATCGGAGTAATCAAGGAGCTTCAGGAAATGTATGGTTGGACGAAAGAATGGATCGAATCAACTGTAAATGTTAATGGTGGAGCTATCGCGCTAGGTCATCCTTTAGGGGCTTCCGGTGCGCGGATTATTACTACACTTGTACATGAAATGCAAAAGCGAACGATAACATATGGGCTCGCATCTCTTTGTATTGGTGGAGGAATGGGTACAGCTACATTATTAAAATCTATAGAGTAG MTKVYVIDARRSAIGSFLGTIASVPPSDLAAQVMKSIIQYHQLNGSEIDEVIIGNVLSAGQGQNIARQASIKAGLPESVPAYTMNMVCGSGMKSLMTAYSSILANMADLMLVGGVEVMSQAPFVTTAEVRTGKKLGNLQLHDSMVQDGLTDAFHHYHMGITAENIAERYHITREEQDRFALTSQQRAIKANDSGRFEAEIVPVEFMDRKKHLMTFKEDEYPNYSTTLDKLARLRPAFKKDGTVTAGNASGINDGAAILLVASEAAVMKYQLEPIAEIVAVGQGGIDPAVMGLGPVKAIQHLFSKTDVNPEQVELIELNEAFASQSIGVIKELQEMYGWTKEWIESTVNVNGGAIALGHPLGASGARIITTLVHEMQKRTITYGLASLCIGGGMGTATLLKSIE PGPT0008320_3702 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK015_00989 1707 ydiF COG4670 Acetate CoA-transferase YdiF GTGAAAGCGCATTCTGTTTTGCTCTGGCGAATAGTTTCCAGACTTGAAATAGTTTCAAGTTATGTGAAGATCATGAAACATAAAGGTGTGAAAGAGATGAAAGATAACTTACAATTTATGTCTGCTCAAGAAGCGGTACATTTGATTAACACAGGTGATAGAGTTGGAATAGGGGGATTTATTGGTACAGGAGTTGCTGAGGAAATTCATATGGCAATTGAAAATAAATACATCGAAACGAATACACCACAGAACCTAACGTTAATCTATGCCGCTGGTATAGGGGATGGAAATGGTGCATCCAAGGGGCTTAATCACTACGCTCATGAAGGATTAATTAAACGAGTAATAGGGGGGCATTGGGGAATGGCTCCTCGTCTCGCTCCACTCGTCGAAGAGAATAAGTTAGAAGCATATAATTTGCCGCAAGGGGTTATTACACAGCTCATTCGTGAAAGTGCAGCAGGTCATCCGCGTTTAATCTCTCATGTCGGCTTAGGGACTTTTGTTGATCCTGATTGGGATGGCGGTAAGTTAAATGCAGTTACCACGGAGGATATTGTTGAAAAAATTCAATTTGATGGTCAAGATTATTTAGCGTATAAAACACTGCCGATAGATGTTGCTATTTTAAAAGGTACAACCGCTGATGAAAAAGGAAATATAAGTTTAGAAGATGAACCACTAACTTTAAATGTTCTATCCTTTGCTATGAATGCCAGAAACAACGGCGGAAAAGTAATTGTTCAAGTTGAAAAGGTTGTACGGGAATCTTCACTAAATCCTAAAAATGTTCACATTCCTCATGTCTTAGTTGATGCTATCGTCGTTGTAGAAAATAAAGAAAACCATATGCAAACATTCGGCACACAATACAATGAAGCTTTTATACGTAGTGATTTGGTAGTTAATGATAAAAAATCTATCTATCCATTAAATATACGCAAAGTAATCGCAAGACGCAGTGCGAAGACCTTAACCCAATCAATGAAAGTAATTAATTATGGGATTGGTGTTCCAGAAGTGGTAGCTAATGTATTAAGTGAAGAAGGACAGGAAGACCATTTTATCCCCACGATTGAACCAGGCATATTTGGAGGAACTCCAGTTGGCGGACTTGATTTTGGATGCTCCATAAACCCGGACGCGATTATTGATGAATCGTATATGTTTGATTACTACGATGGAGGAGGACTAGATATAGCCTTTTTAGGATTAGCTCAATGTGATGATAAAGGTAATGTAAACGTTTCAAAATTCGGACCTAAAATTGCAGGCTGTGGTGGATTTATTAACATTACACAAAATGCCAAAAAGCTTGTCTTTTGTGGGACATTTACAGCTGGCGGGTTAAAAATGGAAGTATGTGATGGAAGGTTAGTAATCTTACAGGAAGGAAAAGTGAAAAAATTCACCAGCGATGTAGAGCAAATTACCTTCAGTGGAAAAGTAGCGAAACAAAATGAAAAACCTGTTTTGTATGTAACGGAGAGAGCTGTGTTTGAATTACGTAAAAATGGATTGACATTAATAGAAATAGCTCCAGGAATCGATTTAGAAAGAGATGTTTTGGCACAAATGGAATTTACACCACTGATTAGTAAGGACTTAACATTAATGGATAAAGCAATTTTTAAAGAAGGTCCTATGGGGCTCATATATAATCGGAGTGAGCAGGATATGGGTAGTGATTTTCTCACAAAATAA MKAHSVLLWRIVSRLEIVSSYVKIMKHKGVKEMKDNLQFMSAQEAVHLINTGDRVGIGGFIGTGVAEEIHMAIENKYIETNTPQNLTLIYAAGIGDGNGASKGLNHYAHEGLIKRVIGGHWGMAPRLAPLVEENKLEAYNLPQGVITQLIRESAAGHPRLISHVGLGTFVDPDWDGGKLNAVTTEDIVEKIQFDGQDYLAYKTLPIDVAILKGTTADEKGNISLEDEPLTLNVLSFAMNARNNGGKVIVQVEKVVRESSLNPKNVHIPHVLVDAIVVVENKENHMQTFGTQYNEAFIRSDLVVNDKKSIYPLNIRKVIARRSAKTLTQSMKVINYGIGVPEVVANVLSEEGQEDHFIPTIEPGIFGGTPVGGLDFGCSINPDAIIDESYMFDYYDGGGLDIAFLGLAQCDDKGNVNVSKFGPKIAGCGGFINITQNAKKLVFCGTFTAGGLKMEVCDGRLVILQEGKVKKFTSDVEQITFSGKVAKQNEKPVLYVTERAVFELRKNGLTLIEIAPGIDLERDVLAQMEFTPLISKDLTLMDKAIFKEGPMGLIYNRSEQDMGSDFLTK PGPT0001790_115 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_ACRYLONITRITE|ACRYLAMIDE_DEGRADATION,PGPT0001790-pct-K01026 NA NA AK015_00990 1239 hypothetical protein ATGATTGGGGATAGCACGATGAATGAAGCGATTCAGAAAAATGGCGTTAGGGCATATATCATGGAAACGATTATGTTTTTTACGTATGCATTTTTTGCGGTTAGCTGGATTGCGGGGACGACACTGACCCCGCAAATTATGGAGCATTTTAAGTTGACAGATTTTGCTTCCGCGACATTTATTTCAAATGCAATTACGGTTGCTAAAATTATAGGTAATCTACTAGCAGCATGGTTTTTGGTTAAACTACAACCGAAAAAAGCAATTGCTTTTGCTTCGTTGTTAATTGTACTCGGAAGTGGTTTAGGTGTGTTCGTAACGGAATATTGGATGTTTGTTGTAACAAGGTTTATTACTGGTTTTGGGGGAGCCCTATATATTGTATATTTTGGACCAATTGTTATTCGTTATTTTGATCCAAAACGACGCTCTACTATTAATGGGATTAATGCAGCAGCTTATAATGTGGGAAGTATTATTGCTATGGTTGTTGTAACACCTGTTTTTACGTGGCTAGTAACTTGGCAAAATAGTATCCTGTTTTTTACAGCCTGTAGCCTTGTGTTATTCGTATTATGGCTCATATTTGGGGAAGATTTTGAACTAAATCAAACCTCTAACGATCAAAAAACGGTGAAAGCATACACATTTAAAGATGGTTTAAAGGATAAGTTTAATTATGTCTTTCCGTTTACTTATGCTGGCTTGTTATTGTTATATATCGTTATTCTTACAATTTTCCCAGTTTCAGATAGTGCTGCGATCAATCCAAAAACGCTGAGTACAGTAGTAGCGATCGCCGGAGTAGTCGGAACGATATTTGGAATTATGGTAACGAAGCGATTTGCTCGCCGTTTGCCAGTACTTCGTTGGTCAGGGCTAGCGATGACGGTATCAGCTGTAATCATGGTCATGACAACATCGGGTGCATTGGCGTTAGCTATGGCAGCACTGGTCGGATTCTTCATGTTCTTGCCAATGACAGCATTGGTTACGATTCCACAAGAGCTTCCTGATATGACACCAAGCAAATTAACGTTAATCATGGGATTCTTTTGGTCGTTTGCTTATATGTTTGAAACGGTTGCCTATTATTTTGTGGGAGTGTTAATTGATGTATCTGGCTTCCAGGCTGGATTATATTGTGCGATTCTATTAAGCTTATCATTTTTTATTGGTTCCTTTTTACTACCAGAAACAGGAGGGAAGACAGAAGATCAAAAGCAAGCAATCAGCTAA MIGDSTMNEAIQKNGVRAYIMETIMFFTYAFFAVSWIAGTTLTPQIMEHFKLTDFASATFISNAITVAKIIGNLLAAWFLVKLQPKKAIAFASLLIVLGSGLGVFVTEYWMFVVTRFITGFGGALYIVYFGPIVIRYFDPKRRSTINGINAAAYNVGSIIAMVVVTPVFTWLVTWQNSILFFTACSLVLFVLWLIFGEDFELNQTSNDQKTVKAYTFKDGLKDKFNYVFPFTYAGLLLLYIVILTIFPVSDSAAINPKTLSTVVAIAGVVGTIFGIMVTKRFARRLPVLRWSGLAMTVSAVIMVMTTSGALALAMAALVGFFMFLPMTALVTIPQELPDMTPSKLTLIMGFFWSFAYMFETVAYYFVGVLIDVSGFQAGLYCAILLSLSFFIGSFLLPETGGKTEDQKQAIS PGPT0005211_1722 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_CYANATE_DETOXIFICATION XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449 NA NA AK015_00991 1119 metXA COG2021 Homoserine O-acetyltransferase ATGGATATGAATCATGTTGAAAAAAAGCAATTTTCGTTAGACAGTTATACATTGGAATGCGGGAAAGCGATCCCTGTAACTTTAGGGTATGAGACATACGGGGAATTAAACAAAGACAAATCAAATGTAGTGGTAGTGGCACATTATTTTAGCGCTTCTAGCCATGCGGCAGGAAAGTATTCTCCTGAGGATGAGACAAGCGGCTATTGGGACTCTTTGATCGGCCCAGGTAAAGCAGTTGATACGAATAAATTCTTTGTTATTAGTACAGATAATTTGGCGAATGTACAAGCTTATCATCCGAAGGTAATTACAACAGGCCCAAGAACAATTAACCCAGAGACAGGGCAAATATGGGGGATGGATTTTCCGCCATTTACATTTCGTGATATGGCGGGTATACAGCATGATTTTATTACGAAGCAGCTAGGTATTAAGAAACTACATGCTGTCATGGGGGCTTCAGCTGGCGGGTTTATTTCATTAAATTGGGCAGTCCACTATCCAGACATGGTAGAACGTGTAATTGGAGTAATAACAAATCCACAAAATCCAGTCATAACATCGTTTAATGTGCTACAACATGCCATGCGAGCAATTGAACTAGATTCGAACTGGAACAATGGTAATTATGTGGACGATCAAGGACCTGAAGAAGGCTTGCACTTAGCTATTCAAATGATGAATGCAGGTGCGTTTACACCAGAGCTGTATGAAGATACATATCAGCGAAATAGTGATGAACAAGCTCCTTACGAATATCTTCATATGAAAACAGGTTACGAGCAACAGTTGTATGACGCTGTGAAAGCGGGAATGCCAGTTATGGATGCTAGTCATTGGTATTATACTTGTCGAGCAACGATGATGCATGATATCGCCCACGGTATAGGCTCATTAGAAGAAGCGTTAGACAGAATACAGGCTAACGTGTTAATGATTTCTTGCACGCGTGATTTACTACAGCCGACCATTTATAATCGTCGTATGGTTGATACGTTGTTGAAGTTAGGCAAAGAAGCAGAATTAGTAGAAATAGAGAGCTTAAAAGGGCATATGGCAGGCGTATTAGATGGGCATTTGTTCAGTGATGATATCCGAAAGATGCTACAAAAATAG MDMNHVEKKQFSLDSYTLECGKAIPVTLGYETYGELNKDKSNVVVVAHYFSASSHAAGKYSPEDETSGYWDSLIGPGKAVDTNKFFVISTDNLANVQAYHPKVITTGPRTINPETGQIWGMDFPPFTFRDMAGIQHDFITKQLGIKKLHAVMGASAGGFISLNWAVHYPDMVERVIGVITNPQNPVITSFNVLQHAMRAIELDSNWNNGNYVDDQGPEEGLHLAIQMMNAGAFTPELYEDTYQRNSDEQAPYEYLHMKTGYEQQLYDAVKAGMPVMDASHWYYTCRATMMHDIAHGIGSLEEALDRIQANVLMISCTRDLLQPTIYNRRMVDTLLKLGKEAELVEIESLKGHMAGVLDGHLFSDDIRKMLQK NA NA NA NA NA AK015_00992 546 hypothetical protein ATGAATGAACTTACACTTGTTAAAAAGGCGATAAAGGGAAACAGGGAATGTCTAGAGGAATTACTTGTTTTGCACGGCGATCAACTGTATCGCACTGCTTACTTATATGTTCGGAATCGCGAAGATGCTTTAGATGTTGTCCAGGAGACATCTTACAAAGCTTTTTTATCAATTGGTCAATTAAAAAATGAAAAATACTTTTTAACTTGGCTAACAAAAATACTTATAAATTGTTCGTATGATGTATTGAAAAAGAGCAAGAAAGAATTACCTCTGAGTAATATGATCGAACTTACTACGGATGAACGGGAAAAAAGAGAGGAGAATCTGGACTTATTAGAGGCAATTAATAGGTTGAACGAAAAGCATAAAAATGCGATTATTCTTTTTTACTTTCAAGATCTCTCTATAAGTGAGGTAGCTAAGGTAATGAAAATACCTGAAAATACGGTAAAAACCTTTTTGAGCAGGGGGAAAGCTCGATTAAAAAAATTGTTAGGAGGAATGAACTATAATGGAGAAAAAATCACTTCAAAAAGTATATAA MNELTLVKKAIKGNRECLEELLVLHGDQLYRTAYLYVRNREDALDVVQETSYKAFLSIGQLKNEKYFLTWLTKILINCSYDVLKKSKKELPLSNMIELTTDEREKREENLDLLEAINRLNEKHKNAIILFYFQDLSISEVAKVMKIPENTVKTFLSRGKARLKKLLGGMNYNGEKITSKSI PGPT0014960_9785 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK015_00993 1011 hypothetical protein ATGGAGAAAAAATCACTTCAAAAAGTATATAAAGAGATTGAAGTACCTAGAGATAGTGTTTTAGATGCAATAAGGGCTGGGAAGGAACGTGCTAATCATAATGTACCTAAAAATAATACAAGGAAAATTATATGGTCTATAGTTGCGGCTGCAACTTTATTTATTTCTTCCAGTTTCGTTTCTCCCTTTCTATCACACGCAATGGCAGAGGTGCCATTGGTTGGGAATGTGTATAATGCCTTCAATGACGCTGTAGGTCGAAATTTACAAACTCAAGATTTGATAACAGAATTGAATCAAACATCCAGTTATAAAGGTATAGATGTATCTGTTACAAGAGCCTATTATGATGGAGCAGTCATAGGAGTTACTTTTTCTGTTAAAGGTAGTCTGAAAACAGAAGAAGATGGTCAAGTTCAAGGGTTTTATGAAATATATGATGGTAAGGATGGCATTTCCGATAGTAAAGAACTAGTGTATTTGCAGCCAACTGAGAATGGCTATACAGGACATATACAATTTAGCTACCCAAAAAATGAATTACCTTCAGAAACTACTTTTCCATTAGAATTTAAGAGGATAGGTGGTACGGAGGGAAGTTGGCGGTTTGACGTCCCGATAAACCAGTTACCATATGAGATAGTAAATGTTGATAAAGGAACTAAAAAAGAGAATTCAGAAATAAATGTTCATTTCGATTCAATTACAGAAGGCAAAGCATCTACTGCTATTAATTATACCGCTAATTTTCCAATTCAAGGAAAACATAATCAGGTACGTCTAGAGGTTTATGATGATCAAGGTAAAGAACTCTTTATCTCCACGGACGGAATTGATATAGAAACTACCAAAAAAGACGATAGGATTATTGTTAAAGGCAGAAGTATTATTCCACAGCCAATAAAGGGGAAAACTAATTATATTAAAATTCACCCAAAAGTGGCTTTGACTGGTGAAGATCCAAATGAACCGTTAGAATTAGACCCAATAATAATCGACTTTGATAAATAA MEKKSLQKVYKEIEVPRDSVLDAIRAGKERANHNVPKNNTRKIIWSIVAAATLFISSSFVSPFLSHAMAEVPLVGNVYNAFNDAVGRNLQTQDLITELNQTSSYKGIDVSVTRAYYDGAVIGVTFSVKGSLKTEEDGQVQGFYEIYDGKDGISDSKELVYLQPTENGYTGHIQFSYPKNELPSETTFPLEFKRIGGTEGSWRFDVPINQLPYEIVNVDKGTKKENSEINVHFDSITEGKASTAINYTANFPIQGKHNQVRLEVYDDQGKELFISTDGIDIETTKKDDRIIVKGRSIIPQPIKGKTNYIKIHPKVALTGEDPNEPLELDPIIIDFDK NA NA NA NA NA AK015_00994 1011 moaA COG2896 GTP 3',8-cyclase TTGTCTGAAATGAAAGATAAATTTGGACGTCCTTTACATGACTTGCGAATTTCTGTGACAGATCGTTGTAATTTTCGTTGTAGATATTGTATGCCAAAGGAAATGTTTGGAAACGATTTTTCGTTTATGAAAAGAGAGCAGTTGCTTTCATTTGAAGAGATAGAGCGAGTGGTGAAGATTTTTGTTCCATTAGGAATAAGGAAAATTCGCTTAACGGGTGGAGAGCCTTTGTTGCGTAAAGGTTTACCAGTGTTAATTGATAAGCTAGTGTCTATTCATGGATTAGAAGATGTTGCATTGACAACGAACGCCTCATTATTGGAGCGTATGGCTCCCCGTTTGAAGGAGGCAGGTTTGCATAGGGTGAATGTGAGCTTAGATGCCATAAACGACGATGTTTTTATGACAATTAATGATGCCGCTTACAAAACAGAAATGATTTTAAGAGGGATTGATAAGGCTAAAGAAGTCGGGTTAGGCGTTAAGGTCAATATGGTAGTAAAAAAAGGAATGAATGATCATCAAGTAATTCCAATGGCTACTTATTTTAAGAAACGTGGAATTACGTTGAGATTTATTGAATTTATGGACGTTGGTACAGCGAACGGTTGGAACTTTCGTCAAGTGATGACAAAAAAAGAACTTTATGATGAATTATTAAAGCATTTTGCTTTAGAAGCCGTAAACCCTGCTTACGTTGGTGAAGTTGCGAAAAGGTATCGTTATGTCGGAACGAATACAGAAGTTGGCTTTATTACCTCTGTTTCCGAGTCTTTTTGTTCTACTTGCACAAGAGCAAGAGTTGCGGCTGATGGGAAGCTATATACATGCCTCTTTGCATCTAATGGGTTAGATTTAAAAAGTATACTACGTTCTAATTCTGGTGATGAAGCTGTGCGTGCAGCAATTGTATCTACGTGGCAGAACAGAACGGATCGGTACTCGGATGAACGAACAGAAGAGTCGGCAAAGAATAAAACAAAAATTGAAATGTCTTATATAGGTGGCTAA MSEMKDKFGRPLHDLRISVTDRCNFRCRYCMPKEMFGNDFSFMKREQLLSFEEIERVVKIFVPLGIRKIRLTGGEPLLRKGLPVLIDKLVSIHGLEDVALTTNASLLERMAPRLKEAGLHRVNVSLDAINDDVFMTINDAAYKTEMILRGIDKAKEVGLGVKVNMVVKKGMNDHQVIPMATYFKKRGITLRFIEFMDVGTANGWNFRQVMTKKELYDELLKHFALEAVNPAYVGEVAKRYRYVGTNTEVGFITSVSESFCSTCTRARVAADGKLYTCLFASNGLDLKSILRSNSGDEAVRAAIVSTWQNRTDRYSDERTEESAKNKTKIEMSYIGG PGPT0008410_2224 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639 NA NA AK015_00995 234 moaD COG1977 Molybdopterin synthase sulfur carrier subunit ATGGTAGAGGTTTTATTATTTGCACAGCTTCGAGAAGACATAGGAACAGACCGTTTACAAGTAGAGGCTGAAGAAATGACTATTCATGAATTGAAAAAGCAACTTCAGGAAAGCTATTCGTTATCGCAAATGGAAACAATGATGACAGCAATTAATGAGGAATATGTAATGGATTCAGAAGTGATAAAAGCTGGAGATACAATTGCTTTTATTCCTCCTGTAAGTGGAGGGTGA MVEVLLFAQLREDIGTDRLQVEAEEMTIHELKKQLQESYSLSQMETMMTAINEEYVMDSEVIKAGDTIAFIPPVSGG NA NA NA NA NA AK015_00996 594 mobA putative molybdenum cofactor guanylyltransferase ATGAAACAGGATATAACTGGAGCCGTCATTGCGGGAGGGGCGTCAAGAAGATTTGGCTCCCCAAAAGCATTTGCTAAAAAAGACGGAAAAGCTTTTTATCAAATTTCCATCGCTGTATTGCGTACGTTTGTTAACAAGATTTTTTTGGTAACTAGTCCAGCTCTAGCGGCTTGCTTTAGGCATGATGATACGGATGTGAAAATCATAGAGGATATACCGCATTATCAAGGGGATGGTCCGCTTGCAGGAATTTATTCCGCAATGACTTCTTGTGAAACAGAGTGGTTGCTCACCTTGCCTGTCGATGTGCCGTTTATGAAGTCAGAAGTACTAGAGGTTTTGTTGCGGGAGATGGGAGATGAGGTAGACGCAGTTATTCCCATAGTAGATGAAAAAATGCAAGTCCTTGTAGGGTTATTTCGTTGTACTATAAAAGACAAGATCAAAACGCAGCTTAATCAGGAAGAACGGAAGGTTGATCACTTATTGGAAAAAATATCTACACGTTATGTGAAAATAGATGATACCAAAGCATTTTTTAATATAAATCGACAGTCCGAATATCACAAATATGTGGCTAATATAGAACATTAA MKQDITGAVIAGGASRRFGSPKAFAKKDGKAFYQISIAVLRTFVNKIFLVTSPALAACFRHDDTDVKIIEDIPHYQGDGPLAGIYSAMTSCETEWLLTLPVDVPFMKSEVLEVLLREMGDEVDAVIPIVDEKMQVLVGLFRCTIKDKIKTQLNQEERKVDHLLEKISTRYVKIDDTKAFFNINRQSEYHKYVANIEH NA NA NA NA NA AK015_00997 513 moaB COG0521 Molybdenum cofactor biosynthesis protein B TTGTTACAAGACCATCGAAAGGCATCACCAAAGGCTGTAACATGTGCTATTTTAACCATCAGCGATACAAGAAATAAGGAAACCGATAAAAGTGGAAGATTCATTCAATCGTTTTTGGGAGAGGAAGGTCATACTGTTTCTGCTTACGATGTAATCCCAGATGAAAAATGCATGATTGAAATGCATATAAACAGCTATGGAACAGACATAGAAGCTGTGATTATAAATGGAGGTACAGGCATTTCCAAACGCGATGTCACCATTGAAGCTGTCAAGCCATTATTAGATAAAGAATTACCTGGCTTTGGTGAGTTATTTCGTATGCTTAGTTACCAATTGGACATCGGTTCAGCAAGCATGTTATCAAGAGCAGTCGCCGGCGTTTCACAAAATCGTGTTATTTTTGCCATACCAGGTTCTAGTGGGGCGGTAAAACTAGCGATGGAAAAGTTAATCTTGCCTGAATTGGGACATCTTGTCATGGAAGTTAGCAAAGATTTAGAGCAAGGTTAA MLQDHRKASPKAVTCAILTISDTRNKETDKSGRFIQSFLGEEGHTVSAYDVIPDEKCMIEMHINSYGTDIEAVIINGGTGISKRDVTIEAVKPLLDKELPGFGELFRMLSYQLDIGSASMLSRAVAGVSQNRVIFAIPGSSGAVKLAMEKLILPELGHLVMEVSKDLEQG PGPT0008420_1452 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638 NA NA AK015_00998 807 modA_2 COG0725 Molybdate-binding protein ModA GTGAAAAAACAAACCATACTCATACTTGTAGCTGTGCTCATCATTATAACTGCTTGTGGAAATGCATCTAACTCTAACTCAAATGCCAAGGGCTCCATAGAACTTACGATTTCTGCGGCTTCCAGCATGATGGACGTATTAACAGAAATAAAAGAAAACTTTGAGAAGGAAAACCCGAATATGGAAGTAACATTTAATTTTGGAGGGACAGGGGCGCTACGGAAGCAAGTAGAACAAGGAGCACCTATTGATGTCTTTTTTTCTGCTTCTAAAAAAGATTACGATCTGTTATTAGAGGGAGGGTATATTGAACAAGGCGAGGAATTGTTACATAATCAATTAGTTGCTATCCAGCCAAAAGATGGTTCTGTTTCAACGCTACAAAATGTTGTTAACACGAATCAAAAATTTGCTCTTGGTACACCGGAATCCGTACCAGCAGGCTTCTATGCGCAAGAAGCATTACAAAAAATGGGTTTTTGGGATGAGTTGCAAGGGCAAATGGTATTTGCTAAAGATGTATCTCATGTCTTGCAATTAGTAAAAGATAAAGCGGTGTCCGCTGGTATAGTCTATAGCAGTGATCTCCATCGTGTGAACGAAGTAGATATTATAGAGAAAATAGATGGCGCATTACATACCCCAATATCCTATTATGTAGCGGTCATTGAAAATGGTAATGAACGTTCTCAAGAAAAGCAAGCAGCGGCAGAACAGTTTTATAACTATGCGCAAAATGAAACGAGTAAAGCGCTATTTGAAGCCTACGGATTTGTCATTCGTGATAAGCTGGTGGAGGATACATGA MKKQTILILVAVLIIITACGNASNSNSNAKGSIELTISAASSMMDVLTEIKENFEKENPNMEVTFNFGGTGALRKQVEQGAPIDVFFSASKKDYDLLLEGGYIEQGEELLHNQLVAIQPKDGSVSTLQNVVNTNQKFALGTPESVPAGFYAQEALQKMGFWDELQGQMVFAKDVSHVLQLVKDKAVSAGIVYSSDLHRVNEVDIIEKIDGALHTPISYYVAVIENGNERSQEKQAAAEQFYNYAQNETSKALFEAYGFVIRDKLVEDT PGPT0008435_970 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020 NA NA AK015_00999 666 modB COG4149 Molybdenum transport system permease protein ModB ATGTGGTCTTGGCACCCTGTTCAACTTTCGTTAGTCGTAGCCAGTATCGCAACAGGGATTGTATTTGTATTTGCTATGATTGTGGCGTATTGGATGACCGAAAAAAATGTGAAAGGACGCGCCATTTTAGAGACGGTTGTCTTCCTCCCTCTTGTTTTGCCACCAACCGTCATTGGTTTTTTATTAATTATTATTTTTGGCAATAACAGCTTTGTTGGGCAAGCTATCTCCTGGCTAACCGGACAACCCCTGTTATTTACCGTCACTGCAGCGGTTATAGCTGCAAGTGTAGTTGCTTTCCCACTTATGTATCAATCACTGAAAACCGGTTTTCAAATGGTTGATGATACTATTCGTGGTGCGGCCAAAGTAGATGGAGCATCTAATGGAAAGCTGCTATTTCTAATTACCATTCCGTTATCCTATCGGTCTATTGCCACTGGATTTATTTTAAGTTTTACACGGGCGTTTGGTGAGTTTGGAGCAACTTTAATGTTTGCTGGAAATATTCCAGGAAAGACGCAAACCATTCCAACAGCCATTTATCTTGCTATTGAATCTGGGCAAACAACAATTGCTACCTATTATTCGCTCATCAGCATTAGTTTTTCGTTTGTGTTGTTGTTTATGATGAACAGATTGACGAGGGTGGACGTAAAAAAATAG MWSWHPVQLSLVVASIATGIVFVFAMIVAYWMTEKNVKGRAILETVVFLPLVLPPTVIGFLLIIIFGNNSFVGQAISWLTGQPLLFTVTAAVIAASVVAFPLMYQSLKTGFQMVDDTIRGAAKVDGASNGKLLFLITIPLSYRSIATGFILSFTRAFGEFGATLMFAGNIPGKTQTIPTAIYLAIESGQTTIATYYSLISISFSFVLLFMMNRLTRVDVKK PGPT0008440_3416 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018 NA NA AK015_01000 1068 hypothetical protein ATGGTAGCAAAAAATAGGCTTGCTTTGGCAGAAAGAGAGTTAGGAAGATCTGTGGTAGCTATTAATTATGAGTGGAGAACAGAGCGAATGAGTAAAGGTCAAGATGCTTTGTTTTTTGGAGTGAAGGACACGAATCAGATACCAAATGATGTAATAGATAAGCTGAATAGTGATCAAAATATGATTTGGCTAACAGTGGATAAAGCGGCAAGCAAGGGAAGAGCGATAGATACGGATTTGCATAACCCAATAACTTACCGATTAATGACAGGTTCTTCTAGCGGCGGACCAATTAACATTTTAAAAGGAATAAATGATTTCGCAATTGGAACAGATGGTGGAGGTTCCATCCTTGGTCCCGCAATGAGTTGTCAACTTCCTTCTGTGATAGGTTCAGGGATAGGGTTACATGTAAAGCAAAAAAAGACATCAACTGATGGAATAGATTTTACTGGAAGTGTTGGCGTAATTGCCAAAGATATGTGTACATTAGCTTCAATTATAGAAACTTTAATTAACGAGGAACTTGAGCTAGTGGAAGAACCGAAGTTGAAAATCGCCATTCCAAAAAAAGGAACGATTACATGCCCAGATCAAATGGATATGCATGAAAAAGTTGTAAATTACTTATTAAAAATTGATTGTTCGCATATTTCCTTCTTAGAAGTAGACATGACAGGGATTGATAATCGAGCTAGAGGTATAAACATTATTCAAGAAATTTTAGGTAAAAACGAAGCCGATTTAATTTTAACCTGTGAAGGTCCGATTGATGTGTATGGTTATGGTGAAACAATCCCGCAACAGTTTGGGCAAGTTGGTCAAGAGTTAACGAAACATCATGGAAAATATCTTCTACGTTCAGCAAACATGTGCAACACAACAGCTATTACGGTTCCAACTGAAAACCTTGCAACCGGATTAGTCATCGTTGCTAAAGAGGGGATTGGAAACTGCAAAAATGCGTTTAATTTAGCCAAAAAGTTAGAAAAGGGGATCAACCTTCCAGATGTTTGGAAACGTTATTTTCTTGATAATGAACAGGAATTTAATGGTTTTCAGCTATAA MVAKNRLALAERELGRSVVAINYEWRTERMSKGQDALFFGVKDTNQIPNDVIDKLNSDQNMIWLTVDKAASKGRAIDTDLHNPITYRLMTGSSSGGPINILKGINDFAIGTDGGGSILGPAMSCQLPSVIGSGIGLHVKQKKTSTDGIDFTGSVGVIAKDMCTLASIIETLINEELELVEEPKLKIAIPKKGTITCPDQMDMHEKVVNYLLKIDCSHISFLEVDMTGIDNRARGINIIQEILGKNEADLILTCEGPIDVYGYGETIPQQFGQVGQELTKHHGKYLLRSANMCNTTAITVPTENLATGLVIVAKEGIGNCKNAFNLAKKLEKGINLPDVWKRYFLDNEQEFNGFQL NA NA NA NA NA AK015_01001 933 hypothetical protein ATGAGTAGAATTTGGGAAAGTTTATTTTCGAAAAATGGTTTAGCAGCAAAAGGCATTGCTAAAGAACTCATTGATGTCAATGAGGGGGACAGAATTCCTAGAGTAGAAGATTTTGTTCAGAAATTATCTTTTGGCCGGGGAACTATTCAAGGTGGATTAAATGTATTGGAGAGGTTGCATGCAATTACGTTGGAATCTAGAGGGCATTTAGGAACCTTTTTAATGAATAAAGATATTCACATATTAAAAGAAATTGCAGGAATTGGTTCTTTAATGGGCGCAATGCCATTACCTTATTCCACACGTTATGAAGGCTTAGCAACAGGATTAATTGAGGTATCAGATGTGATGCATAAACGTTTGGATTTGGCATACATGAGAGGATCTAAGCAGCGTTTGGAAGGGTTAAAGTCACGTAGATATGACTTCGTTGTCATGTCTAAGTTAGCTGCTGAAGAAGAAATGAAGCATAATGATAACCTACAAGTAGCTATTAATTTTGGACCCAAAACATACGTAACGGCACATGAAATTTTTTTAGCAGACCCTTCCAACAATCAAATCAAAGATGGCATGCGGGTTGGAATAGACTTTTCATCTATTGATCAATCCAAGATTACTCTATTGGAATGTGACAAGATTAATGTGGAATTAGTACCAACTAATTACATGCAACTATTTGAGAATCTGCAAAATGGGAGTTTGGATGCGGCAGTATGGAATGCAGATGAAAGGAGAATAAACAAAACGTTCAAAAAAGTAGGCTTTCGAACAAAAGAAGCAAATATGCTTTCGGAAAAAGCTTCCACATCCGTTATTTTAATTGAAAAAGATCGAACTGACGTACATGATTTTCTCTTAGGATTGGAAACAAGAAAAATTATTGAAATACAAGAGCTAGTAGTTAATAAGAAAAAACTACCACATTACTAA MSRIWESLFSKNGLAAKGIAKELIDVNEGDRIPRVEDFVQKLSFGRGTIQGGLNVLERLHAITLESRGHLGTFLMNKDIHILKEIAGIGSLMGAMPLPYSTRYEGLATGLIEVSDVMHKRLDLAYMRGSKQRLEGLKSRRYDFVVMSKLAAEEEMKHNDNLQVAINFGPKTYVTAHEIFLADPSNNQIKDGMRVGIDFSSIDQSKITLLECDKINVELVPTNYMQLFENLQNGSLDAAVWNADERRINKTFKKVGFRTKEANMLSEKASTSVILIEKDRTDVHDFLLGLETRKIIEIQELVVNKKKLPHY NA NA NA NA NA AK015_01002 378 hypothetical protein ATGAACGTACAAGATCTCAAAGACAGATTAAACTTGTTGTTGGAAAAATGCTTAATAAAACAAAAGGAATATGATATTGCTACTATTGCATTTGAAAGGTTATTAAAAGTGCTTAACAAGCATGATATCGAGCAAGCAGAGATGCTTTTTACTCATTTACCGATGGCTTTAAATCGTATTGAAAAAGGAGAAGAAGTAGAAAAACCTGCAGTTGAGTTAATGGAAGAGGTAAAAAATTCCATTTATTTCCCGATGGCAAAGGAGCACGTTTTCTATATTGAAAACAGATGGGGGGCGCCTTTGCCAGAAGGAGAGAAGGAGTTTTTATATATGCATTACACAAATGTAATTAATTTAAATTCACAAGGAGGACAATAA MNVQDLKDRLNLLLEKCLIKQKEYDIATIAFERLLKVLNKHDIEQAEMLFTHLPMALNRIEKGEEVEKPAVELMEEVKNSIYFPMAKEHVFYIENRWGAPLPEGEKEFLYMHYTNVINLNSQGGQ NA NA NA NA NA AK015_01003 357 hypothetical protein ATGAAAATTGTTATTGGTGGTCAAGTAGAAAAAAAGACAATAGAGTCATTAATAAAGGAAATGGATTCATCTATTGAAACGGTAATTAAATCAGATTTAGATGCTGCAATGGCTATAAAGTCAAACCAAGCAGATTATTATGTGGGAGCTTGTCATACTGGTGGTGGCGGTGCATTGGCTATGGCTATTGCCTTACTTGGAAGAGATCAATGTGAAACAGTTTCCATGCCTGGTAGGAAGCCAAATAATGATAATATTATCGAAGCGGTTAACAGCGGTAGAAAAGCATTTGGTTTTACTGCAGATCATGTCGATGCTGCGGTACCAATGATTATTAATGCATTAAAAAATAAATAG MKIVIGGQVEKKTIESLIKEMDSSIETVIKSDLDAAMAIKSNQADYYVGACHTGGGGALAMAIALLGRDQCETVSMPGRKPNNDNIIEAVNSGRKAFGFTADHVDAAVPMIINALKNK NA NA NA NA NA AK015_01004 1293 hypothetical protein ATGGAGACTTTATTTATTGTGTTAATTGGAGCGATGGCGGCCATTTTAGCAAACCAAAATATTGCAGTGTTTAACGATGGTTTGAGACCAGTCGTCGGAGAACATATTGAAGGAAGGCTAAAGCGTAGAGAGTTAGGAGTAACGGCTTTTGCAATGAGCTTTGGATTAGTCATTGGGTTTGGTATCCCTTTTACATTATCAGCTAGTATTATTTTGATTCATAGCATTTTACTAGGTACAGATATTATCGGTTTAATCACACCAAAGAATAAATGGGGAACCCCTTTAGCAGCCGCCGTTGGAGGATTATACGGATGGGCATTATTAGCAGGTTTAGAAAGTTTTGTAAAGCTATTTGATTATTTACCCGTTAATTTTTTAGAACCATTAGGAGAAGTTGGAACTCCTGTTGTAGTAACGTTCATGGCTTTTCCAGCTTTAGCAGTTGCTATGCAATTTAGTATTAAAAAAGGTATTCTAACATTTGTTTTAGCAGCTTTGGTACGGCAGCTTACCGTATTTGTCAATGAGAATGGATTCCTTTCCATTGGTGAAAATGTTATTCAATTAAATCAAGAAGGTATGGCACTCATTGTTGGAATGATCTTTCTATTTTTCTATGCAATGAAAGAAAAAGGGGATGAAGGATCTTCTGTTGATTTGGCTGCCATGTTTAGTGAAAAGGTTAAATCTATTAAAAATAATGTCATATATTTTGTCATTATAGGGGCTCTCATTGCAGGAGCGACAAATTTATTAATCATGGCTGGTGATCCAATTTCTCTCAATCTAATTGCAGAAGGAAAAATTACAGATGCTGGGATTGCAGCTGCAGCTAGAGCAATTGGATTTATTCCACTAGTAGCTAGTACTGCGATTGCGACAGGTGTTTATAGTCCGGTTGGGTTTACATTAATTTTTGTTGTCGGCTTATTTTCGCCAAATGTTTGGGTTGCTGTAATTATTGGTGGAATAATCAGTTTTCTAGAAGTTATGTTACTAAGTTCAATTGCAAGATTTTTAGACAAATATCCTGGTGTGAGAAACTCTGGTGAAAATATTCGTAGTGCTATGACCAAACTATTAGAAGTCGCTTTATTAATTGGTGGTGCGAATGCATCTAATATGATTGCACCTGGGTTCGGCTTCTTCTTTATTGCTGGTTTTTATCTATTAAATGAAGTAGCTGGTCGTCCGATTGTCCGTATGGCAGTAGGTCCTGTTGGCGCAATTGCAGTAGGTATTATCGCTAACATCCTAGTCGCTTTAGGCTTAATGAGTATTCCGCAATAA METLFIVLIGAMAAILANQNIAVFNDGLRPVVGEHIEGRLKRRELGVTAFAMSFGLVIGFGIPFTLSASIILIHSILLGTDIIGLITPKNKWGTPLAAAVGGLYGWALLAGLESFVKLFDYLPVNFLEPLGEVGTPVVVTFMAFPALAVAMQFSIKKGILTFVLAALVRQLTVFVNENGFLSIGENVIQLNQEGMALIVGMIFLFFYAMKEKGDEGSSVDLAAMFSEKVKSIKNNVIYFVIIGALIAGATNLLIMAGDPISLNLIAEGKITDAGIAAAARAIGFIPLVASTAIATGVYSPVGFTLIFVVGLFSPNVWVAVIIGGIISFLEVMLLSSIARFLDKYPGVRNSGENIRSAMTKLLEVALLIGGANASNMIAPGFGFFFIAGFYLLNEVAGRPIVRMAVGPVGAIAVGIIANILVALGLMSIPQ NA NA NA NA NA AK015_01005 918 php COG1735 Phosphotriesterase homology protein ATGATACAAACTGTAAGAGGTAGGATTACTACAGATGACTTTGGGGTATGCGCAGCACATGAACATTTATCCATTGATCTATCAAAAGTGAAAAATGATCCAGACACTATATTAGATGATGAAGAAGGTATGATTTCTGAGTTGAATCATTTTTATCGTGCGGGTGGCAGATCGCTAATAGAATTAACAAATGATGGAATGGGTAGAAATGTTTCACGTTTAAAAACGTTAAGTGAGAAATCAAATGTTCACATTGTAACTTGTACAGGATTTTATAAGAATCCCTTTATTCCTGATTTTGCTAACAGCTGGGACCGTCATCAGTTTGCAGCGCATTTTATTCGTGAAATAGAAGAGGGAATAGGAGATAGCGGAATATTTCCGGGGATAATAGGTGAAGTTGGAACAAGCTTAAATGAGATGAAGCCAGTAGAAAAAGAACTAATTATTGGTGCTGGAAAAGCAGCTTTAGAAACGGGATTAACGGTTAGTACACATACGACGTTAGGAACAATGGGTCGTGAGCAAGTAGAAATGCTTTTTAACGTTGGCTTGGATAAAGATCAAATTATTATTGGTCACCAAGACCTCAATTCGAATAAAAATGAAGTGCTAGAGGTGCTTCGTTCTGGAGTTTATATTGGATTTGATACAATTGGAAAAAATAACTATAGGCCAGATGAAGAACGTTTATCGTATTTGATCGATTTTATTGAACGAGGTTTTCAAAAACAAATTTTACTTTCCGCTGATTTAACTAGGAAATCTCATTGGAAAAAGCATGGTGGTCTTGGATATGATTTAGTACTTAATAAGTTTGTACCAATTCTACGGGAGCAGGGCGTCTCTAATCATGTTATAGATGATTTGTTGATTCATAATCCTGCGAACGCCTTATCGATAAAGGAGCGTTTATAG MIQTVRGRITTDDFGVCAAHEHLSIDLSKVKNDPDTILDDEEGMISELNHFYRAGGRSLIELTNDGMGRNVSRLKTLSEKSNVHIVTCTGFYKNPFIPDFANSWDRHQFAAHFIREIEEGIGDSGIFPGIIGEVGTSLNEMKPVEKELIIGAGKAALETGLTVSTHTTLGTMGREQVEMLFNVGLDKDQIIIGHQDLNSNKNEVLEVLRSGVYIGFDTIGKNNYRPDEERLSYLIDFIERGFQKQILLSADLTRKSHWKKHGGLGYDLVLNKFVPILREQGVSNHVIDDLLIHNPANALSIKERL PGPT0006755_719 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006755-php|opd|adpB-K07048 NA NA AK015_01006 1125 yhfS putative protein YhfS GTGGCTTATGATAAATCAAAATTAAAGTATGCCGATTCTGTTATTCCAACTTTAACCGTTAAAGAAGCGCAACAATTACAGTTTAAATTAGTTGATTGTATGAGTGAGCATTTTTCTGGCGATCAGTTTTTATCAATGGGAGATTTAGGAGTTGCTCCACAATATAAAAAACCAGAACAGACAAAAAGGGTTGAACGAACACTTGCTACATTTTTTGGCGCAGAGAATGCTTCGCTAGTGCGAGGGGCTGGTACTGGAGCAATTCGTACTATACTAAGTACATTGATGTCAACAGGAGATCAAATGTTCATTCACGATGCCCCAATATATACAACGACTCAGGATACCATTCAAATGCTGGGAATTAAAACAAAGAAAGTAAATTATAATGATGTGGAAGCTGTTAAAAGAGCAGTAACAGCAGAGGATAATTGTAAAGTTTTTTATGTTCAACATGCACGCCAAACACCTACTGATATCTATGATTTAAAGACAGTTATTCAAATTGTTAAACAGGCACGACCAGATATCGCCATTGTTGTTGATGACAATTATTGTGCTATGAAGGCGTATGGGATTGGTGTTGAGTTTGGGGCGGATTATTCCACTTTTTCAGGATTTAAAGTACTTGGACCAGAAGGAATTGGGATAATTGTTGGTAAGAATGAAGCAATCAACTTGCTTCAAGAAAGAAATTATTCAGGCGGTGGCCAGATTCAAGGATATGAAGCAATGGAACTGTTGCGCATGATGACCTTTGCGCCTGTAGCTCTTGCTACGCAAAATGAACAGGTGGAAGATGTTTGTAAGCACTTAAATGAAGGTATAATTGAAGGAATCGATCATGCATATATGGTAAATGCACAATCAAAAGTGATTATTGTAGAACTGCGACAGCCAATTGCTCAAGAAGTTATTAAAGTGAGCAATCAATTGGGGGCAGCAACACACCCGGTGGGGGCAGAGTCTAAGTATGAAATTATACCAATGATCTATCGTGTTTCAGGCAGTTTTATTGCCGCTGAGCCAAAGTTAAAAGAGTATGGCTTACGAATTAACCCAATGAAATCTGGATCTTCAACTGTTTTAAGAATTTTAGATAAAGCAATAAAATCAGTACAATAA MAYDKSKLKYADSVIPTLTVKEAQQLQFKLVDCMSEHFSGDQFLSMGDLGVAPQYKKPEQTKRVERTLATFFGAENASLVRGAGTGAIRTILSTLMSTGDQMFIHDAPIYTTTQDTIQMLGIKTKKVNYNDVEAVKRAVTAEDNCKVFYVQHARQTPTDIYDLKTVIQIVKQARPDIAIVVDDNYCAMKAYGIGVEFGADYSTFSGFKVLGPEGIGIIVGKNEAINLLQERNYSGGGQIQGYEAMELLRMMTFAPVALATQNEQVEDVCKHLNEGIIEGIDHAYMVNAQSKVIIVELRQPIAQEVIKVSNQLGAATHPVGAESKYEIIPMIYRVSGSFIAAEPKLKEYGLRINPMKSGSSTVLRILDKAIKSVQ NA NA NA NA NA AK015_01007 1161 yhfX COG3457 putative protein YhfX ATGTTTTTGGACGTAACCAAACGTAGAAATCCACAACTAATAAAGACTGGTGTTACTTTTCATCAATCTGGGGAAATCCCGCCGAACACATATATAATAGATGTGGACATACTAAAAGAGAATACAAGAATGATGGCAAAAACAGCTAATGATCATCATTTTAACCTTTATTTTATGACAAAACAACTTGGACGAATTCCCGAGTTGGCGAAAATTTTTACAGAAAATGGTATTGAAAAAGCTGTTGCCGTAGATTTTGATGAAGGTAAAGTTTTGGCTGAAAACGGAGTAGCTATTGGAAATATTGGTCATCTAGTCCAACCAGGGAAAATGCAGTGGAATGAAGTATTAAGCTGGGAGCCAGAGGTAGTTACGATATTTTCCTATGAAAGAGCCAAGCAATTATCAGAAAGTGCAGTGAAGCTTGGAATGAAGCAAAATATCTTACTCAAGGTCTATGGTTCAAATGATAAAATGTATAGTGCCCAGGAAGGCGGAATCCCCTTAGAGTACCTTTCTAAGACAGTTGCCGAAATTCAAAAATTATCAGGTGTAAATATTGTTGGCGTTACTACGTTTCCCAACTTGGAAATAAACCAAACAGAGACGAAAATGATTCCTACAACTAATATGCATACACTAATGCAGGCGAGAGACATTTTAGAGAATGAAGGAATTGAAATAAAGCAAGTCAATGGCCCAGGGGGAACTAGCTGTAAAACAATACCACAGCTAGCCCTACAAGGTGTTACACACGGCGAGCCGGGGCATGGGTTAACAGGTACAACCCCATTACATGCGTATTGTGATTTACCTGAAAAGCCAGCTATTATTTATGTTTCTGAGGTATCGCATAGGTTCAAAGAGCAATATCAAGTAATAGCGGGAGGGTATTATGGACGTTCTAATATGGAAGGCTGTTTTGTAGGACATGAGGAACAAAGTATATTGAAACGATACGTTCGTGCTTATAACAACAGCCCAGAATCTATCGACTACTATGGTTCTATAGATAAATCGGATAACTTTCAAATAGAAATTGGAGATACAGCTATTTTTGCCTTTCGCACCCAAATATTTGTAACACGAGCGCATGTAGCACTGATAGAAGGAATACAAACTGGTAATCCGAGACTTATTCATTTAGAAAGGAAGTGGTGA MFLDVTKRRNPQLIKTGVTFHQSGEIPPNTYIIDVDILKENTRMMAKTANDHHFNLYFMTKQLGRIPELAKIFTENGIEKAVAVDFDEGKVLAENGVAIGNIGHLVQPGKMQWNEVLSWEPEVVTIFSYERAKQLSESAVKLGMKQNILLKVYGSNDKMYSAQEGGIPLEYLSKTVAEIQKLSGVNIVGVTTFPNLEINQTETKMIPTTNMHTLMQARDILENEGIEIKQVNGPGGTSCKTIPQLALQGVTHGEPGHGLTGTTPLHAYCDLPEKPAIIYVSEVSHRFKEQYQVIAGGYYGRSNMEGCFVGHEEQSILKRYVRAYNNSPESIDYYGSIDKSDNFQIEIGDTAIFAFRTQIFVTRAHVALIEGIQTGNPRLIHLERKW NA NA NA NA NA AK015_01008 1200 deoB_1 COG1015 Phosphopentomutase ATGCCTAAAATGATGTTACTTGTCATTGATAGTTTTGGTATAGGAGCGATGGATGATTGTGCTGCATATGTACCTTCTGATTGTAATGCGAACACTTATAAACATATTCGAGAGGCAAAACAATGCGAACTGGATATACCGAAGATGTACGAGATGGGCTTAGGAACACTTGTAGATGGTAGACCTGTGCCAGAAAATGCTTATGGCTACTCCAAATTGGCGCACCATGGAGCAGATACCTATCTAGGGCATCAAGAGATTGCTGGAAGCTGTCCGAAAAAGTCTTATAAAAGATTAATGAAAGATATTCATGCTCAACTAAAGCAAGCTCTGGAAGAAAAAGGATATAAGGTCACATATCCGATTGATTCTTGTCCTATTCTTCTAGTTGACAACGCCGTAGTTGTTGGGGATAACTTAGAGTCTGAGGTTGGTAACATTATTAATGTGACAGCAGATTTTAAAAAAATGCCGTTCAACAAAGTAAAAAAACTAGGAGAAGTCATTCGTGCCAATGTAGATACAACGAGAGTTATTGCATTCGGTGGTCCATACACTTCCATTGACCATATATTGTCTTGTGTGAAGGAAAAAAATAAAGGGCAGTGGGGTGTGGACACACCTAAGGCGAAAGTTTATGGAGAAGGGTACGATGTTTATCATATGGGGTATGGTGTAGAAATTAACAAACAATTCCCTATGATTGCTGCAAAACATGGGCTAAAAGTTTATCGATTAGGAAAAACGGCGGATGTCTTGCATGGTGAAGGCCCCGCTGAGCCTATTGTGAATACAACCCAATTATTAAAAAAAGTTGACGAAGCGTACCAAAAAGAAAAAAATGATGCTGCATTTTTGGTGAATGTGCAAGAAACGGATTTAGCAGGGCATGCCGAGAATGTAGATTGGTATTGTGAATTGTTAAATGAAACGGATCAGTGGTTACAAAAGTTCATTCCTAAACTGGCTGAAGATGATATTTTAATTATTATGGCTGACCATGGGAACGATCCAACCATCGGACATTCTAATCATACACGAGAGTATGTTCCAATTATGGTGGTAGGAAAAAAGGTGAAAAAAGTGAGTATTGGTATGAGGGAAACTATGTCTGATGTTGGTGCAACCTTCTGTGATTTTTTTCATTTACCTGCTACAGCAGAAGGTGTAAGCTTTCTTCATGAGATTATAGAAGAGTAA MPKMMLLVIDSFGIGAMDDCAAYVPSDCNANTYKHIREAKQCELDIPKMYEMGLGTLVDGRPVPENAYGYSKLAHHGADTYLGHQEIAGSCPKKSYKRLMKDIHAQLKQALEEKGYKVTYPIDSCPILLVDNAVVVGDNLESEVGNIINVTADFKKMPFNKVKKLGEVIRANVDTTRVIAFGGPYTSIDHILSCVKEKNKGQWGVDTPKAKVYGEGYDVYHMGYGVEINKQFPMIAAKHGLKVYRLGKTADVLHGEGPAEPIVNTTQLLKKVDEAYQKEKNDAAFLVNVQETDLAGHAENVDWYCELLNETDQWLQKFIPKLAEDDILIIMADHGNDPTIGHSNHTREYVPIMVVGKKVKKVSIGMRETMSDVGATFCDFFHLPATAEGVSFLHEIIEE PGPT0017440_1051 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839 NA NA AK015_01009 495 moaC COG0315 Cyclic pyranopterin monophosphate synthase ATGGCAGATTTCTCCCATTTTAATGAACATGGCAGGGCTAAAATGGTTGATATATCCGACAAACATGAAAGTGAGCGAAAAGCCATTGCCCGATCAAGTGTCAACATGAATAAATTAGTTTATGCAAATATTGTTGAACAAAAAAACAAAAAGGGCGATGTGCTAGGTGTTGCTCAAATAGCTGGTATTATGGGCGCCAAGCAAACATCATCCATTATTCCCATGTGCCACCCGATTCCCATTAGCAGTGTAGATCTTTCCTTTACTTGGGTGGAACTAGAGGCGTACGATATGTATCAGTTAGTGATTGAAGCTGAAGTGAAAACAGTCGGGTCTACTGGAGTAGAAATGGAAGCATTAACTGCAGCTGCCACAGCAGCTTTGACGGTATATGACATGTGTAAGGCAATCGACAAAGGAATGACGATTGGACCAACTTTTTTACAAGAGAAAAGCGGAGGAAAAAACGGGGATTACCATCGGGAGACAAACTAG MADFSHFNEHGRAKMVDISDKHESERKAIARSSVNMNKLVYANIVEQKNKKGDVLGVAQIAGIMGAKQTSSIIPMCHPIPISSVDLSFTWVELEAYDMYQLVIEAEVKTVGSTGVEMEALTAAATAALTVYDMCKAIDKGMTIGPTFLQEKSGGKNGDYHRETN PGPT0008405_1349 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637 NA NA AK015_01010 528 hypothetical protein ATGACTGAAACATATTTTACAGTGAAACAGTTCGCAAATATGATTGGTATAACGGAGCGTACGTTACAATACTATGATCGAAAAGGAGTATTAAAGCCAACCAGTTACACGGATCACGGCCATCGTTTGTATACGCATGAGGATATATTTACCGCACAAAAAATCATTACATTCAAATATTTAGGGTTTTCGTTAAAAGAGATTAAAGCACACCTTTATGAGAGCGCTGCGAAAAACATGCAGGAAACGTTAAAAGAGCAAAAAAAATTACTTGAAGAAAAACGAGATCACCTTATTCATGTCATTCGCACTATTTCAAGAGTAGAGAAGATGGCAGACATGAGCGAAATAAATAAAGATTTGTTATTAGCAATTATTCATGCAACGCAGGCAGAAGAAGATGTGGAGCAATGGCTAGCGAATCATTTGTCTCCATCTTCCATGGAGAAAATTTTCATTCGCCATTTGTCCGAAGAAGAAAGATTTGATATAGAACGCAAGGTGATGGTATATGTACATCATTTATGA MTETYFTVKQFANMIGITERTLQYYDRKGVLKPTSYTDHGHRLYTHEDIFTAQKIITFKYLGFSLKEIKAHLYESAAKNMQETLKEQKKLLEEKRDHLIHVIRTISRVEKMADMSEINKDLLLAIIHATQAEEDVEQWLANHLSPSSMEKIFIRHLSEEERFDIERKVMVYVHHL NA NA NA NA NA AK015_01011 129 hypothetical protein ATGAATGCGTTAGAAATAGAAGGCGATGCTCTATATCACTTTACTCTTCTACCAAAAGAAGTAGAGTCGTTTATCAGTCAAGTTATTGATGTCTATATGGAACAGATGGAGTTCGAGGAGGAATGTTAA MNALEIEGDALYHFTLLPKEVESFISQVIDVYMEQMEFEEEC NA NA NA NA NA AK015_01012 660 hypothetical protein ATGTTAAAGCAGATAGGCTTGATGTATATGCGTTTGTGGTATTATGGCGCAGTCGTTTGGTTGAAAAAGCATCCAGCACCTGCTAGGGATGAAAATGTGTATACGTATCATCAAACGTCACAAATGATGGTAATTACAATAGTTTTTAGTATGCTAACGGTTTTAGAAGGAGGTTTGTTGCATTTCCTCCTGCATTTTTGGAATGAAATCATTGCTCGGATTACCACCATCATACATGTACATGCGCTCGTTTATTTCATGGCACTGTTTCAATCAGCGAAACGTAAGCCCCATGTAATAGAGGGGAATAAGGTTAACATACAATTTGGCTTTCAAAGTAATCTAGAATTAGATATTCGTAATATAAGCGAGATTGTAGCTGCGCAACCTATTTCTTTTGAAACGAAAATACCAAAGCATACTTATGTTTCGCTCATGCAGTGGGATGATCCACATTATGAGTTCATACTTAAACAACCTGTGCCATTGAAAAAGATCTTTGGCAAAACAAGATCTATCACATCTGTTGTGTTAAGAGCTGATGATATGGAAGGGATGATTGCTAGAATAAAAGATTTCCCATATAATATAGACGAGCAGTTGCTCAAGAAAGATGAAAAGGTGAAAAAACATGAACATAAGGAAGTATCATCCAGATGA MLKQIGLMYMRLWYYGAVVWLKKHPAPARDENVYTYHQTSQMMVITIVFSMLTVLEGGLLHFLLHFWNEIIARITTIIHVHALVYFMALFQSAKRKPHVIEGNKVNIQFGFQSNLELDIRNISEIVAAQPISFETKIPKHTYVSLMQWDDPHYEFILKQPVPLKKIFGKTRSITSVVLRADDMEGMIARIKDFPYNIDEQLLKKDEKVKKHEHKEVSSR NA NA NA NA NA AK015_01013 429 yiaC COG0454 Peptidyl-lysine N-acetyltransferase YiaC ATGAACATAAGGAAGTATCATCCAGATGAACTGGATCAATTAGTGGATATTTGGTATCAAGGCTCCCTATATGCGCACAACTTTATCGAGCAAGCGTACTGGGAGTCACAACGAAAAGCGATGAAGGAAACGTATTTGCCAATGGCGGAAACGCATGTTATTTTGGCGGACAGCGAGATAGTAGGTTTTATTGCAATGGTTGACAATTATTTAGCAGCTGTATTTGTGAAAGTTGCTTGTCAAGGAAAAGGCTACGGTAAAGAACTATTGCAATTTGTTAAAGCAAACCGCAATCACATACAATTAAAAGTCTATCAGAAAAACAAGCAGGCGGTCGGTTTTTACCTCAAACAGGCTTTTGCAATTTGTGAAGAATTGGTAGATGAACCTACAGGGGAAAAGGAATATTTGCTGGAATGGAAAAAATAA MNIRKYHPDELDQLVDIWYQGSLYAHNFIEQAYWESQRKAMKETYLPMAETHVILADSEIVGFIAMVDNYLAAVFVKVACQGKGYGKELLQFVKANRNHIQLKVYQKNKQAVGFYLKQAFAICEELVDEPTGEKEYLLEWKK NA NA NA NA NA AK015_01014 750 mta_2 COG0789 HTH-type transcriptional activator mta GTGATTTCTATAAAAGAAATAACCAAACAGACGGGAATAACGGTACGAACGATGCGATACTATGACCAAATCAATTTACTTTCACCAGCCGACAAGACGGAAGGCGAGCATAGACTGTATGGAGAGAAAGAGCTAATAAAATTACAAGAAATTCAGTTTTTGAAAACGTTAGGATTTAGTCTGCAAGCTATTAAGGATATGCTGGAGAATGAAAACCATGATTGGTTTAGTGGTTTGCAAAATCAATTGAATTATATTTTAAAAGAAAAAGAAAAGCTAGGGGAAATGGAAAGCATCCTACGTGGGTTGTTACATGAAATGGTACTGGAAGATCAAATTGACTTGCTTCAATTACAAAAACTCATTCAAATTTACCAGAAAGATTTTCATAAAAGGGAAGCGTATTTAAAACAAATGTTTGATCAAGAAGAAAGAAAGCTGTTGGATATGCTCCCAAATATTAATCACGGTGATCCAGATACAATGGAATGGATCGCGCTAATGGCCCAATTAAAACAGCATATGCTAAAAGGAGTCTCTGCACCAGAAGTGCAACGAATTATTAGACGGATGGATGAAAAAACGGTGGAGGTTTACGGTGATTGTCCAGAATTTATAGATAAGTTATGGGAAATAAGAAAATCACCTGAAAAATCACAGGAAGCTGGTTTTTATCCATTGGATCAAGAACTATTAGAGTTTGTAGAAAAAGCGTTTGTTATTTATCAAAACAATAGAAAGGAAGCTTGA MISIKEITKQTGITVRTMRYYDQINLLSPADKTEGEHRLYGEKELIKLQEIQFLKTLGFSLQAIKDMLENENHDWFSGLQNQLNYILKEKEKLGEMESILRGLLHEMVLEDQIDLLQLQKLIQIYQKDFHKREAYLKQMFDQEERKLLDMLPNINHGDPDTMEWIALMAQLKQHMLKGVSAPEVQRIIRRMDEKTVEVYGDCPEFIDKLWEIRKSPEKSQEAGFYPLDQELLEFVEKAFVIYQNNRKEA NA NA NA NA NA AK015_01015 474 hypothetical protein TTGGGTATGTATGTATATCAGCATACGGGAGAGATTTCAAATTTTCTTATCGTAATTACGATTTTTGTCATCTATGCTTGTACATTTGGTATCTTTGATTTCATAAGGTTAGACCGTTGGATGCGGAATAAGATTGGAAATGGGCGTGGCGTAGAATTGCTAACGGATAAAGATTATACCATTATGGACAGAAATAAAAATCCTAAATACATTGCCAAGAAGTATCGTATCTCTTCTATGATTCATATTGTAGTGTTTATCCTAGGGCAAACCATTTTCTGGTCATTAGGAACAGATAGTTGGGAGGAATTGAAAGCATATCTGACTGATTTATCATGGGTAGAGCAAGGGGATTTTACACAGTCACCATACACGAATAAGACGTTTCTTTCTATTGGAATGCTATGGGGGATTGTATTTGTAGTCGATCTCATTTATTCGTGGTCTTACACGCTTTTTCCAAGTAAAAGGTGA MGMYVYQHTGEISNFLIVITIFVIYACTFGIFDFIRLDRWMRNKIGNGRGVELLTDKDYTIMDRNKNPKYIAKKYRISSMIHIVVFILGQTIFWSLGTDSWEELKAYLTDLSWVEQGDFTQSPYTNKTFLSIGMLWGIVFVVDLIYSWSYTLFPSKR NA NA NA NA NA AK015_01016 591 hypothetical protein ATGTATTATTATCCGTATGTATACCCTTATCCTTACTATACGAACAATCCAAATTACTATAGTAGGTATGCACCTATGCATGCAAATATGGATGGCACACCTCTAGCTTATCAAAATTATGCTTATGCCTATCCCAGTTATCAAAATCCCTTTTACCAAACAGACGATCGTTCACACTTGAAAGACTACGGCGGAAAGCCATATGTGGTAAATATTGAGGAAGCTACAGAGGAAAATGAAACATTTCGTACAGCCATTTGGACGGGAGATCATTTACAAGTTACCGTCATGAGTATTCCTGTAGGTGGGGATGTTGGATTAGAGGTTCACCCAAACGTAGACCAGTTTTTACGCATTGAAGAAGGTGAAGGAATAACACAAATGGGTAATACCAAAGATAATCTAACTTTTCAGCGTAACGTCTATGACGACTATGCCATTATGGTTCCTGCTGGCACATGGCATAATATAACAAATACAGGCGATAAACCATTGAAGCTTTATTCCATTTACGGGCCGCCAAACCACCCATTTGGAACGGTACATCGAACACAGGAAGAGGCCATGGAGATGGAAGGGCATTATCATTAA MYYYPYVYPYPYYTNNPNYYSRYAPMHANMDGTPLAYQNYAYAYPSYQNPFYQTDDRSHLKDYGGKPYVVNIEEATEENETFRTAIWTGDHLQVTVMSIPVGGDVGLEVHPNVDQFLRIEEGEGITQMGNTKDNLTFQRNVYDDYAIMVPAGTWHNITNTGDKPLKLYSIYGPPNHPFGTVHRTQEEAMEMEGHYH NA NA NA NA NA AK015_01017 1530 ahpF_1 COG3634 NADH dehydrogenase ATGGTACTAGACCCAGAGATCAAGTCACAATTACAACAATATCTTGAACTATTAGAAAACGACCTAGTGCTTAAAGTAAGCACTGGAGACGATAAAATATCAAAGGACATGCTAGCTCTTACGGATGAGCTAGCTAATATGTCCAATAAAATAACAGTTGAACATACAAAGCTAGCGAAAACACCAAGCTTTAGTATTAATCGTGTCGGGGAGGATTCAGGCATTGCGTTTGCTGGTCTTCCACTTGGGCATGAATTTAATTCACTCGTCTTAGCTCTCTTACAGGTGAGTGGCAGACCGCCAAAATTAGATCAAAAAATGATTGACCAAATTAAAAGCATTACAGAAGAATATCACTTTGAAACATATGTTAGTCTAAGCTGTAACAACTGTCCTGACGTGGTTCAAGCGTTAAATATGATGAGCGTACTCAACCCAAATATTTCGCATACGATGATTGACGGTGCAGCGTTTAAAGACGAAGTAGAAAGCAAGAACATTATGGCAGTTCCGGCTGTCTATTTAAATGGAGAATTCTTTAATGGTGGGCGAATCACCCTTGAAGAGTTACTAGAAAAAATCGGACATGGTGTAGATGCCTCTGAGCTTTCTGAAAAAGAGCCCTTTGACGTTCTTGTCGTCGGCGGTGGTCCAGCAGGTGCTAGCTCAGCTATATATGCTGCTCGTAAAGGAATCCGCACTGGTATCGTTGCTGAACGCTTTGGCGGTCAAGTTCAAGATACACTTAGTATCGAAAACTTTATTAGCGTCAAGCGCACAGAAGGGCCCAAGCTAGTTGCTAACCTAGAAGAACATGTCAATGATTACAACATTGATGTCATGAACTCTCAACGCGCCAAAAACCTCGAAAAGAAAGATATGTTTGAGCTTGAACTGGAAAATGGCGCTGTACTAAAAAGTAAAAGTGTCATCATTTCTACAGGCGCTCGTTGGCGAAACATCGGCGTTCCTGGCGAACAAGAATTTAAAAACAACGGTGTAGCATATTGTCCACACTGTGACGGTCCATTATTCGAAGGAAAAGATGTCGCTGTTATCGGCGGAGGTAATTCTGGAATTGAAGCAGCTATCGACCTCGCTGGAATTGTGAAGCATGTCACGGTACTTGAATTCGCGCCAGAACTAAAAGCTGACGAAGTGCTACAAAAACGCTTGTACAGCTTACCAAACGTAACAGTCATTAAAAATGCCCAAACAAAAGAAATCACTGGTACTGACAGTGTAAATGGGATTACCTATATCGATCGTGAAACAAAAGAAGAAAAACATATTGAACTTCAAGGTGTATTCGTACAAATTGGACTCGTTCCAAATACAGAATGGCTTGAAGGCACTGTAGAACGCAACCGCATGGGTGAAATCCTTGTAGACAAACAAGGACAAACAAACGTTCCCGGCTTGTTTGCCGCAGGAGATTGTACCGACAGTGCTTATAACCAAATTATCATTTCTATGGGGTCAGGCGCAACTGCTGCTTTAGGCGCATTTGACTACTTGATCCGTAATTGA MVLDPEIKSQLQQYLELLENDLVLKVSTGDDKISKDMLALTDELANMSNKITVEHTKLAKTPSFSINRVGEDSGIAFAGLPLGHEFNSLVLALLQVSGRPPKLDQKMIDQIKSITEEYHFETYVSLSCNNCPDVVQALNMMSVLNPNISHTMIDGAAFKDEVESKNIMAVPAVYLNGEFFNGGRITLEELLEKIGHGVDASELSEKEPFDVLVVGGGPAGASSAIYAARKGIRTGIVAERFGGQVQDTLSIENFISVKRTEGPKLVANLEEHVNDYNIDVMNSQRAKNLEKKDMFELELENGAVLKSKSVIISTGARWRNIGVPGEQEFKNNGVAYCPHCDGPLFEGKDVAVIGGGNSGIEAAIDLAGIVKHVTVLEFAPELKADEVLQKRLYSLPNVTVIKNAQTKEITGTDSVNGITYIDRETKEEKHIELQGVFVQIGLVPNTEWLEGTVERNRMGEILVDKQGQTNVPGLFAAGDCTDSAYNQIIISMGSGATAALGAFDYLIRN PGPT0013150_1366 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387 NA NA AK015_01018 564 ahpC COG0450 Alkyl hydroperoxide reductase C ATGTCTTTAATAGGAACCGAAGTACAACCATTCTCTGCAAAAGCCTTTAAGCAAGGTGAATTTATCGATGTTACAGAGGAAAATTTCAAAGGGCAATGGACAGTGCTTTGCTTTTACCCAGCAGACTTCTCATTCGTATGCCCAACAGAACTAGAAGATTTACAAAACGAATATGAAAATTTGAAAAAATTAGGTGCTGAAGTGTATTCTTGCTCTACAGACACACACTTCGTACACAAAGGTTGGCACGATGCGTCTGATAAAATTAATAAAATTGAATACGGAATGATTGGCGATCCTGCACAAACACTTACTCGTATGTTTGATGTGTTAAATGAAGAATCTGGTCTTGCTGATCGTGGAACATTCATCATTGATCCAGATGGCGTTATCCAAACTGTAGAAATCAATGCGGATGGTATCGGCCGTGATGCTAGCTCATTAGCTGATAAAATCAAAGCTGCACAATATGTACGTAACAATCCAGGTGAAGTATGTCCTGCAAAATGGAAAGAAGGCGAAGAAACACTTAAACCAAGCCTTGACCTAGTAGGTAAAATCTAA MSLIGTEVQPFSAKAFKQGEFIDVTEENFKGQWTVLCFYPADFSFVCPTELEDLQNEYENLKKLGAEVYSCSTDTHFVHKGWHDASDKINKIEYGMIGDPAQTLTRMFDVLNEESGLADRGTFIIDPDGVIQTVEINADGIGRDASSLADKIKAAQYVRNNPGEVCPAKWKEGEETLKPSLDLVGKI PGPT0003260_665 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119 NA NA AK015_01019 1482 alsT_2 COG1115 Amino-acid carrier protein AlsT ATGCAAGTTATTCTGCAATCTATTTCAGAGTTTCTTTGGGGACTGCCTCTTCTTATTGCTATTCTCTTTACGGGCGTGTATTTTTCCGTTCGGAGTAAATTTTTTCAATTTCTTTATTTGCCACATATTCTTAAAAAAACATTGCTAAGTATCTTTAAAAAGAAGGCCACTAATGATGATACGTCCTCCAAAGGGATTATTTCCTCCTTTGAAGCTGTTAGTACAGCTATTGGCGGTTCTGTTGGTGTTGCCAATATTGGCGGAGCCTCCACTGCAATTGCCGTTGGCGGGCCAGGTGCTGTATTTTGGCTTTGGATTTGTGCCCTATTTGGTATGATTATAAAAACCGTTGAAGTAACCTTGTCTGTTCATTATCGCAGCACAGATGAAAACGGCGAACCGTATGGCGGTCCAACCTATTATATGGAAAAAGGACTTGGAGAAGAGAAGAATTTCCGCTACTGGATGATCCCTGCCATTCTGTTTGGTTGCGGTATTTTTGGCACCTTCTTTTTTACACTGCAAAACTACACGATCTCCGAAGCAGTAAGTTCTACATTTGATATTGGCATGATCCCTGTCTCCTTAACACTTATGGTAATTACATATTACGTCATCTATGGTGGTTTAAAGCATATTGGGAAGTTTGCAGCAAAATTAGTTCCCATTATGGTGTTATTTTACATTCTGTCTGGTTTGTATATTATTTTGAGCCATGTCACCCAAATTGGCGACGTGTTTTCCATTATATTTCAAAGCGCGTTTGGTGGGACAGCCGCTGTAGGCGGGTTTACTGGCGCAGCAGTAACACAAGCAATTAGTATGGGGATGGCAAGATCCGTCTATAGTAATGAAGCTGGTTGGGGGACTTCCCCGATGGTTCATTCAACTGCTAAAGTAAATCATCCCGTTAAACAAGGGCTTTGGGGCGCGTTTGAAGTATTGGTTGATACGATTGTGGTTTGTTCCCTCACTGCTTTTGTCATCATTATTACAGGTAAATGGTCTTCCGGCATGTCAGGTGCTGCATTAACATTATCGGCATTTGAAATGGGAATAGGCGACACTGGAAGAGTTGTCATCACCATTTCGATCTTCTTATTTGGATTAACAACCTTAACAGGTTGGTTCGTATATTATGAAGTGCTACTGCGCCACCTATTACGAAATCAAAAGCGCGCTTTTAAAAGAGGTGTGTTGACGTTTTACAATTGGTTTTACCCTATACCAGGAACGGCTTTAGTCATCTACGCCGTAAGCTATGGTTTAACAGGTCAAACGGTCTGGTATTTTGCCGATATAGCTTCTGCTATTCCTACGTTTATCAATGTTACGGTGATTTTAATCTTAAGCAAAAAATTCTTTACCTTGCTCCACGACTATAAGGCAAGGTATTTAGGAATTGGGAAAATCGACCCAACTGTACATCTATTTTATGAAGATGAGCATCCACCCCCTTCTACTTTTAAAAAAGTGCCTTAG MQVILQSISEFLWGLPLLIAILFTGVYFSVRSKFFQFLYLPHILKKTLLSIFKKKATNDDTSSKGIISSFEAVSTAIGGSVGVANIGGASTAIAVGGPGAVFWLWICALFGMIIKTVEVTLSVHYRSTDENGEPYGGPTYYMEKGLGEEKNFRYWMIPAILFGCGIFGTFFFTLQNYTISEAVSSTFDIGMIPVSLTLMVITYYVIYGGLKHIGKFAAKLVPIMVLFYILSGLYIILSHVTQIGDVFSIIFQSAFGGTAAVGGFTGAAVTQAISMGMARSVYSNEAGWGTSPMVHSTAKVNHPVKQGLWGAFEVLVDTIVVCSLTAFVIIITGKWSSGMSGAALTLSAFEMGIGDTGRVVITISIFLFGLTTLTGWFVYYEVLLRHLLRNQKRAFKRGVLTFYNWFYPIPGTALVIYAVSYGLTGQTVWYFADIASAIPTFINVTVILILSKKFFTLLHDYKARYLGIGKIDPTVHLFYEDEHPPPSTFKKVP PGPT0014405_1234 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 AK015_01020 1653 rocB COG4187 Protein RocB ATGATGTTACATTCCAGAGAGGAAATATTGCATATAACCAAACAATTAGTACACATGGAAAGCGTGGTAAATACAGATGGGGAAAAAACGATAGCATCTTCATTGTATTCCATTATTTCCAATTATCCCTATTTCAGAGGGCATGCTGATCAAGTGCTTTTACAGCCGACAGCAAATGATCATATGGAAAGATATAATGTGCTTGCGTTCGTAAAAGGGACAAAAGGAAACAGTAATCGAACGGTCATTCTTATGGGACATATGGATACGGTTGACACATTTGATTTTCAACATTTACAGCAAGTAGCTTGTTCTCCAGAGGAGTTGATGGAACATCTAAAAGGGGAGCAATTGCCTTCTACGGTAAAAGCAGACTTAGAATCAGGGGATTGGTTGTTTGGTCGTGGAGCTTTAGATATGAAAAGCGGTCTTGCTAGTCATTTATATTTGTTGAAATATTATGCCAACCATCCCGAGGAACTGAAGGGGAATTTGCTATTTTTAGCAGCTTGCGATGAAGAAGATAGTTCACATGGTATTTTATCGGCGATACCGCTATTAAAATCATGGAAAAGGGAAAAAGGTTTTGAATATGTAGCTGCCATTAATTCTGACTTTGTTGCTCCAGCATTTGCAGGAGATGAAAATCGCTACATATATAAAGGTACAGTAGGGAAATTGCTTCCGACATTTCTTGTTCAAGGAGCAGAAACACATGTTGGCTCGTGCTTCGAAGGGTTTGATCCGAATTTTATAGCAGCTGAGTTAACAAATCAAATCAATTATAACCCACATCTTTGTGATGATGCACATGGAGAAATGACGCATCCACCTGTTTCTTTAAAGCAAACCGATTTGAAGCCAGCTTATACAACACAAACTGCTTTGGCGGCTTACGTATACTATAATTTTTTTACCCATTCCTGGTCGCCGGCAGAAGTTCTGGAAACATTGAAAGGGGAGGCTTACATTGCTTTTGAGCGGGCTATTGAAAAATTGCAACAGCGCTATCAGCAATTTGGTCAGCTTCGAGGAAAATCGCCTGCACCGCTTGGATGGAAGCCAAGAGTACTAACGTATGAAGAAATGGAAAATAGGTTAAAAAAGGAGCATGGTGAGCCTTTTATACAGCATATCCAAGCGTTTAAAGATTTTCTTTTGCAACAAGAAAATCTGGATACCCGTTTATTTTCTGTTTATATCGTGGAAGAGGCTTGGAAATGGATGACAGATAAAACACCAGCAATTATTTTATTTTATGCTTCTCTTTACTCACCAAGAGTGGACTTATCGGAGGACAATGAAAAAGAAGCGACACTCATCAAAGCTTTGGAGAAGGCGGTCACCGAATTACAACCAAACTATTCGCATCCTTTAGTAACAAGAAATTTTTTTCCACATATTTCAGATATGAGCTTTGTGGCGATTAGAGATTCACAAGCAGATATTCAAGCTGTTACCCAGAACAGCCCAAGTTGGGGTAGCAAACATTTTGTCCCTTATGAGGATATACGGGAATTAAATATACCTGTAATCAACATCGGCCCGTACGGTATGGATGCGCATAAGCGTTTGGAACGAGTAGAGATGACATATTCTTTTGAAATCGTGCCAAACTTAACAAAGCGTGTGATTGAATTATTGGGAATGTGA MMLHSREEILHITKQLVHMESVVNTDGEKTIASSLYSIISNYPYFRGHADQVLLQPTANDHMERYNVLAFVKGTKGNSNRTVILMGHMDTVDTFDFQHLQQVACSPEELMEHLKGEQLPSTVKADLESGDWLFGRGALDMKSGLASHLYLLKYYANHPEELKGNLLFLAACDEEDSSHGILSAIPLLKSWKREKGFEYVAAINSDFVAPAFAGDENRYIYKGTVGKLLPTFLVQGAETHVGSCFEGFDPNFIAAELTNQINYNPHLCDDAHGEMTHPPVSLKQTDLKPAYTTQTALAAYVYYNFFTHSWSPAEVLETLKGEAYIAFERAIEKLQQRYQQFGQLRGKSPAPLGWKPRVLTYEEMENRLKKEHGEPFIQHIQAFKDFLLQQENLDTRLFSVYIVEEAWKWMTDKTPAIILFYASLYSPRVDLSEDNEKEATLIKALEKAVTELQPNYSHPLVTRNFFPHISDMSFVAIRDSQADIQAVTQNSPSWGSKHFVPYEDIRELNIPVINIGPYGMDAHKRLERVEMTYSFEIVPNLTKRVIELLGM NA NA NA NA NA AK015_01021 1155 mdh_1 NAD-dependent methanol dehydrogenase ATGACAGCGCAAAGTCAATTTTCAATGCCTTCCATTAACTTATTTGGTTCAGGAAGCATTCAAGAAACTGGTTCCCGTTTAAAAGATGTAAATGCGAAGAAAGCCTTATTAGTAACAGATGAGGGACTATTTAAATTAGGTATCGCAGACAAAATTGCGAACATCATTAAAGAAGCTGGGCTAGAAGTAGAAGTTTATCCAAAAGCTGAGCCAAACCCTACAGACAAAAACGTAGCAGATGGTGTAGAAGCATATAAAGCTGCCAATTGTGACTCTCTTGTATCATTAGGAGGAGGATCTTCACATGACGCCGCTAAAGGTATTGGACTTGTTGTATCTAACGGTGGAACGATCCACGATTATGAGGGTGTAGATAAATCAGAGAACCCATTAGTTCCATTAATCGCCATTAACACAACAGCTGGAACAGCAAGTGAAATGACGAAGTTTACAATAATAACTGATGTAAAGCGTCATGTAAAAATGGCTATTATTGATAAGCATGTAACGCCTTTAGTATCCATTAACGATCCAGATTTAATGGTTGGTCTACCACCAGCACTAACTGCTGCTACAGGATTAGACGCTTTAACTCATGCTGTAGAAGCTTACGTATCAACAGCGGCAACTCCAATGACAGATTCAGCTGCTGAAAAAGTATTTGAACTTATTCCTGAATATTTACCACGAGCATTTGCCAATGGACAAGATATCGAAGCACGTGAAAAAATGGTTTACGCACAATTCTTAGCCGGCATGGCATTTAACAACGCTTCGTTAGGGTATGTGCATGCAATTGCTCACCAAATGGGCGGGTTCTATAACTTGCCACACGGTGTATGTAACGCCATCCTTTTACCACATGTGTGCCATTACAACCTTGTAGGTCGCGAAGATCGTTTTGCTAAAATGGCAGCCTATTTAGGTGAAAATGTAGACGGATTAAGCAAACGTGAAGCAGCTGAAAAAGCAATTGCTGCCATTGAGCGTTTATCGAGAGACTTAAATATTCCATCTGGCTTTAAAGAACTTGGTGCAAAAGAAGAAGACATCCCTACCCTAGCAGAAAACGCTATGAAGGACGCTACGGCTGCAACCAACCCTAGAAAGCCAAAATTAGAAGAAGTTCAAGCAATCATTCGCAAAGCGATGTAA MTAQSQFSMPSINLFGSGSIQETGSRLKDVNAKKALLVTDEGLFKLGIADKIANIIKEAGLEVEVYPKAEPNPTDKNVADGVEAYKAANCDSLVSLGGGSSHDAAKGIGLVVSNGGTIHDYEGVDKSENPLVPLIAINTTAGTASEMTKFTIITDVKRHVKMAIIDKHVTPLVSINDPDLMVGLPPALTAATGLDALTHAVEAYVSTAATPMTDSAAEKVFELIPEYLPRAFANGQDIEAREKMVYAQFLAGMAFNNASLGYVHAIAHQMGGFYNLPHGVCNAILLPHVCHYNLVGREDRFAKMAAYLGENVDGLSKREAAEKAIAAIERLSRDLNIPSGFKELGAKEEDIPTLAENAMKDATAATNPRKPKLEEVQAIIRKAM PGPT0006370_560 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954 NA NA AK015_01022 1401 gmuD_2 COG2723 6-phospho-beta-glucosidase GmuD ATGTCACAATACACATTTCCTAACGACTTTTGGTGGGGAAGCGCTGCTTCAGCTACGCAAACAGAAGGTGCTGCAGCAATTGACGGTAAAGGAAAAAATATTTGGGATTATTGGTATGAACAAGAACCGAATCGTTTTTTTCAACAAGTCGGTCCCAGTGAAGCGTCCCGTTTTTATGAAGCCTATCAAACAGATATTGCCTTAATGAAAAAGTTAGGTCATAATTCCTTTCGTATGTCTATCTCCTGGTCACGTCTTATGCCAAATGGTACAGGAGAGGTGAATCCAGCAGCGGTGAATTTTTACCATCACGTACTGGATGAGCTAATCAATGCAGGGATTGAGCCTTTTGTAAACCTCTATCATTTTGATATGCCGCTAGCTATGCAACAGATAGGTGGCTGGGAAAACCGCGATGTTGTCGAAGCCTTTCAAGCATATGCTCGTACTTGTTTCCAATTATTTGGTCCTAAAGTGAGCAAATGGTTTACACAGAATGAACCCATTGTTCCCGTAGAGGCTGGCTATCTATATGATATGCACTATCCAAATGTCGTTGATTTCAAACGAGCTGTTCAAGTAGGATATCATTCTGCTTTAGCTAGTGCCAAAGCGATCCAAGCCTATAAAGAAGAAAGGCAACAAGGAAAGATAGGTATCATTTTAAATGTAACCCCATCTTATCCAAGAAGCAGTCACGCAGCTGACGTAAAAGCTGCGAAAATTGCAGATTTATTTTTTAACCGCTCTTTTTTAGATGTCTCTGTAAAAGGTGAATTCCCGAAAGAACTTATCCAATTACTGGAAAAACATGACCTGTTACCAGTCACTCAAACGGAGGATCGCGTCATTTTCTCAAATTATACGATTGACCTTTTAGGGGTAAACTATTATCAGCCCCGTCGAGTAAAAGCAAAAGAATATGCCGCTCACCCAGACGCCCCTATAATGCCTGAGCATTTTTTTGACGCTTATGACATGCCGGGCAGAAAAATGAACCCCTATCGTGGTTGGGAAATATATGAAAAAGGAATTTATGATATTTTAATCAACTTAAAAGATAACTATAATAATGTAGAGTGCTTCATTTCTGAAAATGGTATGGGCGTAGAAAATGAGCAGCGATTTAAAGATGATTCTGGAATCATTCAAGATGATTATCGAATTGATTTTTACAAAGATCATTTAAAATGGGTCCACAAGGCATTAGAAGAAGGAGCTAACGTTAAAGGGTATCACGTATGGACATTTATGGATAATTGGTCTTGGATGAATGCCTATAAAAATCGCTACGGCTTAGTTTCCGTTGATTTAAATAATAACGCGAAACGTTCCATTAAGAAAAGCGGTTATTGGTTTAAAGATGTCGCTACTAACAATGGCTTTTTTACAGAAGCATAA MSQYTFPNDFWWGSAASATQTEGAAAIDGKGKNIWDYWYEQEPNRFFQQVGPSEASRFYEAYQTDIALMKKLGHNSFRMSISWSRLMPNGTGEVNPAAVNFYHHVLDELINAGIEPFVNLYHFDMPLAMQQIGGWENRDVVEAFQAYARTCFQLFGPKVSKWFTQNEPIVPVEAGYLYDMHYPNVVDFKRAVQVGYHSALASAKAIQAYKEERQQGKIGIILNVTPSYPRSSHAADVKAAKIADLFFNRSFLDVSVKGEFPKELIQLLEKHDLLPVTQTEDRVIFSNYTIDLLGVNYYQPRRVKAKEYAAHPDAPIMPEHFFDAYDMPGRKMNPYRGWEIYEKGIYDILINLKDNYNNVECFISENGMGVENEQRFKDDSGIIQDDYRIDFYKDHLKWVHKALEEGANVKGYHVWTFMDNWSWMNAYKNRYGLVSVDLNNNAKRSIKKSGYWFKDVATNNGFFTEA PGPT0019255_3384 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223 NA NA AK015_01023 897 bglK COG1940 Beta-glucoside kinase ATGAAACACTACCTTGCATTTGACTTTGGCGGAACGTATATCAAATACGCAGTAATAGATGAAGAAGCAAACATTTCTTTAGAAGACAAAATCCCAACTCCCGATCATTTACAAGATTTATTGGATTTTATCCAACAAACAGTGCAGCAAGTAAAACAAAAGAAAGAAATTAAAGGACTAGCGATTAGTTGTCCAGGAACGATTACGGCTGATGGTGAAGTACAAGGGACGAGTGCCATCCCTTATTTACACGACATCGCTTTAAAGAAGGTACTGCATGAAGCAACAGACATGCCAGTCGCAGTGGAAAATGACGCAAACTGTGCAGCACTTGCGGAGTTATGGAAAGGCGGCGCTGTTGGACTACAAGATGCATTGGTCATTGTCATTGGTACAGGTATTGGTGGAGCTATCATTTCAAACGGTGCATTATATCGTGGTGCGCATCTTTATGGTGGAGAGTTCGGCTACGCTATTTTGTTTGCAGATCCAAAAACCAAACGAATCGATTATTGGAGTCAGATGGGATCTACTTCTGCCATCGTACGAAAAGTCGCTGAACAAAAAGGGATTTCAGCAAACTCGTTATCTGGAGAACAAATTTTTTCCATGGCTAACAATGGAGATGAGATTTGTCAGCAAGCTATCGAGGAATTTTATTTTGTTTTAGCAACAGGCATATACAACTTACAGCATATGTATGATCCTGAACTTATTTTAATCGGTGGGGGTATTAGTGCAAGGCAAGATTTTATGTCTTCCCTTTCTACTAGCATACAGGATGTTCAACAATCAATGGGAATAGGCAACCCGCACGGAAAAGTAACTACTTGTACTTTTTTACAACAGGCAAATCTTATCGGGGCAACCTATCATTTCCTTCAATCTAAATCATAA MKHYLAFDFGGTYIKYAVIDEEANISLEDKIPTPDHLQDLLDFIQQTVQQVKQKKEIKGLAISCPGTITADGEVQGTSAIPYLHDIALKKVLHEATDMPVAVENDANCAALAELWKGGAVGLQDALVIVIGTGIGGAIISNGALYRGAHLYGGEFGYAILFADPKTKRIDYWSQMGSTSAIVRKVAEQKGISANSLSGEQIFSMANNGDEICQQAIEEFYFVLATGIYNLQHMYDPELILIGGGISARQDFMSSLSTSIQDVQQSMGIGNPHGKVTTCTFLQQANLIGATYHFLQSKS NA NA NA NA NA AK015_01024 843 murR HTH-type transcriptional regulator MurR ATGAAGCGGGTGGTACGGTTGATTAACAGTGATCTATTTTTATTAATTGAAAGTTCTAGATTGAAGTTTACAGTAGTAGATGAACAAATTGCTGCTTATTTTTTAGAGGGAAATCCTCCTCTCAAACAGTCGGCAATTGCAAAAAAAATAAATGTATCTACTGCTTCTATTACAAGGTTTTGTCAAAAAATAGGCTTTGAAAACTATAAGGAATTTATCTATGCCTATCGAAATGCGTTAGAAGAGCATACTATTGATAAAAACAATGTGACACATAATCTTAAATTTCGTTATAAAGAATTGATTAATACGATTGATGAAAATCTAGATATACAAGATATTAAAACGGTATGCGATTATATTTACAATCATAAGATCATTCATGTGTACGGATTAGGATTAAGCGCAATTGCTGGAGCTGATTTCAAATTTCGATTTACTAGGATTGGTAAATTTATTGAAGTAGTGCAAGATCATAATTCCATCGAGATGGTCTCTTCCCTTTTAAATGAAGATAATTTAGTTATTTATTTGTCGTTACGAGCAGAAAACCAATATGTTCTTGACTCCCTACAACAGCTTAAACAACAAGGGACATCGATTGTTATCATCACTTCAAATCATTCAGAAGAAATAAAAGAACTGGCAAATGTTACTTTACTGACTTCAAGTTTACAAAACACAAATGAAGTTGGACAAATCTCTGTACAGATCCCGCTGCTCATTATTATTGATATGATTTATTCGCAGTACATTAGCATGTACAGAGAAAATATAAGCAAATGGATTCATACGGAACACGCTTATAGACAAGGTCACAACATGAAGAATAAGCGATTCTAA MKRVVRLINSDLFLLIESSRLKFTVVDEQIAAYFLEGNPPLKQSAIAKKINVSTASITRFCQKIGFENYKEFIYAYRNALEEHTIDKNNVTHNLKFRYKELINTIDENLDIQDIKTVCDYIYNHKIIHVYGLGLSAIAGADFKFRFTRIGKFIEVVQDHNSIEMVSSLLNEDNLVIYLSLRAENQYVLDSLQQLKQQGTSIVIITSNHSEEIKELANVTLLTSSLQNTNEVGQISVQIPLLIIIDMIYSQYISMYRENISKWIHTEHAYRQGHNMKNKRF NA NA NA NA NA AK015_01025 2649 mngB COG0383 Mannosylglycerate hydrolase ATGAAAAAGAAAATTCATGTGATCGCTCATACACATTGGGACTATGAGTGGTATTTTACAAGTAGCGAATCATTTATCCAGCTTTGTTACCATATAGATGAGGTAATCAAAGCGTTAGAAGATGGTGTCCTCGACTACTATATGCTGGACGGACAAATGAGTATAGTGGAAGATTACCTGGAGGTACACCCAGATAAACAACAAATATTACAATCACTCATCGCAGCTGGAAAATTAAAAGTTGGTCCTTGGTACACACAATCCGATCAAATGATTATTCGTGGTGAATCGCTCGTCCGCAATTTGCAGCTTGGTATTGAATCTGGAGATGCATTAGGCGGAGCAGATCGATTAGGGTATATCCCAGATGCGTTCGGACAATCCATGGATATGCCAAAGATTTTTTCACAATTTGCGATTGATAAAGCTGTCTTTTGGCGCGGATTGTCCTCTGACCAATTAAACACGAGAGAATTCTACTGGCAGTCAGAGGATGGATCTAATCTATTAACCTACAATATAAAAGATGGTTACTTTGTCGGTGTACAACTCATTGAAGTAGACTATGCAAAGCCTTTATTAGAGCAAATAAAACAGAATACCACTTCATCTCATATTGCTCTACCGGTGGGTGGGGATCAACGATATGTCGATTTTAATTTAAAAGAACGGATTGCTCACTATAACGAACAGCTTACAGATGATCACTTCATCGAAAGTAACTACGATCACCTCTTTGCAGGCATCGAGAAAGAAGCGAAGGATTTACCAACTGTCCAAGGAGAATTATTGAATGCGGAAGTTTCTAAAATTCATCGTTCTATTTACTCATCTCGCTATGATCACAAATATTTGAACGATAAAATAGAACGTCGGTTAATTTTTCAAATTGAGCCATTAATGAGCCTAGCAGACCAGCTAGGAATTCCATATAAACAAGCGCTTATAGATAAAATTTGGAAATTAACATTACGTAACCACGCTCATGATAGTGCTGGTGGCTGTAATAGCGATAAAACAAACCAAGCCATTTTACAACGCTTTATTGAAGCTGACCAACTTTCCTATTCTGTCGTCGATTACTTAACACGAAAAATCAGTGAATCAAGGAATAATGTAAAAAATAATCAAGTAACTATCTTTAACACGTTACCAATAATAAGAGAGCAAGTTATTACCATTGCTTTATCATTACCAGAGACGAGCTTTTCTATATATCATGGAGAACAAAAATTGGATTATGACATCCGAAATATAACGAAGCATTCCAATGCACCGATTCGTAAAACAATCGATCCTGCTCCTGCATCGTATTATTACGAAATCGAAATTGCCTTGCCTGTAAAATTACAACCGCTTGGCTATGAAGTGCTTGATATTGTATTGGAAGAAGATCGTATGGAAACAGTTCCTGCTTCCGAGAAGCAAGAGGTCACTCCAAATACAATTGAAAATGAATATTATCAAGTACAAGTTAAGAATGGCAGTGTTCAAGTTCTCGACAAAGAAAGTAACACCTTATATCCTAATTTCTTACTTGTTGAAGATGCTGGTGATGACGGAGATAACTACGACTACTCGCAACCAGAAAATGACTGGAAATTACAATTTAAATTTGACACAGCTAGTGTTTCTAGCAATCCAGGAACTTGGAAAAGCACACTGAAGCTTAACGGAAATTTTGTTGTCCCTAAAAACCAGCACGAACGCGAACAAGGAACTGCTACGGCATTGATTCCTTACACCTGCACTATTGGGTTAGAAGCGCATAAGCAGGCTGTAGATATTCATTTGAAAATAAATAATCAAGCAATGGATCATCGCATGCGCTTACTAATAAATGGTGGAGTAAATACAGAGGAAAGTATTGCTGATACACCTTTCGGGACTATATCTCGTCCTGTAACTGACCCTAACTTCAAACATTGGCAGGAAAAGGGCTGGAAAGAAGAGCCAACAGGTATTTATCCGATGCTTAGCTTTGTTCAATTGCATGACCAACAAAAAAGCGTGACCGCCTTTACAAAAGGGATCAAAGAATACGAAATTATCGGTTCTAAAGAAAAAGATATAGCACTCACGCTATTTCGTGCAGTAGGCTATCTTGGTAAACCAGATTTGAAACGGCGACCAGGGGTGGCTTCTGGTAATCAGTTCAAATATATCGAAACACCTGATAGCCAATTGCTTAAATCATTAACATTTAAGGTCTCTGTTCGCATTGGGCGTACATGTAATCAAGCTTGCGCATTTGCAGATTACCAAAAATATGCCATGTCGATTCCTTACTATCAACAGCAAAGCTTAAACCAATTTACGAATACGCTAAAATACTTTGTGATGCAACCACTCCCTTTTCAAGTACCAGAAACCTATTCTTTGGTGGATGCGACAAATGTGAAACAAGTTGTATTTAGTTCATGTAAAAAAGCACGTCAAAGTAAAGGAATGATCTTACGCTTTTTCAATCCGACAAACCAAGCTATGGAAGATGGTGGCGAGCTAACCTGCAAAGAAAACGTCCGCTTTTGGCAGTTTACAACGATGGAAGAGAAACTGGATAAATCCAACCAAAGAAGTAGCCAAACCATTCATTTAGGAAGCTTTAAGCCAAAAGAAGTTAAAACAATATATATCGAATTTAAATAA MKKKIHVIAHTHWDYEWYFTSSESFIQLCYHIDEVIKALEDGVLDYYMLDGQMSIVEDYLEVHPDKQQILQSLIAAGKLKVGPWYTQSDQMIIRGESLVRNLQLGIESGDALGGADRLGYIPDAFGQSMDMPKIFSQFAIDKAVFWRGLSSDQLNTREFYWQSEDGSNLLTYNIKDGYFVGVQLIEVDYAKPLLEQIKQNTTSSHIALPVGGDQRYVDFNLKERIAHYNEQLTDDHFIESNYDHLFAGIEKEAKDLPTVQGELLNAEVSKIHRSIYSSRYDHKYLNDKIERRLIFQIEPLMSLADQLGIPYKQALIDKIWKLTLRNHAHDSAGGCNSDKTNQAILQRFIEADQLSYSVVDYLTRKISESRNNVKNNQVTIFNTLPIIREQVITIALSLPETSFSIYHGEQKLDYDIRNITKHSNAPIRKTIDPAPASYYYEIEIALPVKLQPLGYEVLDIVLEEDRMETVPASEKQEVTPNTIENEYYQVQVKNGSVQVLDKESNTLYPNFLLVEDAGDDGDNYDYSQPENDWKLQFKFDTASVSSNPGTWKSTLKLNGNFVVPKNQHEREQGTATALIPYTCTIGLEAHKQAVDIHLKINNQAMDHRMRLLINGGVNTEESIADTPFGTISRPVTDPNFKHWQEKGWKEEPTGIYPMLSFVQLHDQQKSVTAFTKGIKEYEIIGSKEKDIALTLFRAVGYLGKPDLKRRPGVASGNQFKYIETPDSQLLKSLTFKVSVRIGRTCNQACAFADYQKYAMSIPYYQQQSLNQFTNTLKYFVMQPLPFQVPETYSLVDATNVKQVVFSSCKKARQSKGMILRFFNPTNQAMEDGGELTCKENVRFWQFTTMEEKLDKSNQRSSQTIHLGSFKPKEVKTIYIEFK PGPT0019330_133 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0019330-mngB-K15524 NA NA AK015_01026 465 hypothetical protein ATGGTGACATCGATCTTAGATATACAACATATTACTTTTGATTCTTCCGTAACGACAAAAGATGAAGCTTTACAATTTATTGCTGACTTTGCAAAAGAAAAAGAGATTGTTAAATCGGCTAAAGCATATTATAAAGGGCTAAAAAAACGTGAGCAAGAGGTTACGACAGGTTTTAAGAGCTCCATTGCTATTCCTCACTGTAAGCATAAAACAGTGAAGAAACCTGCACTGATGTTAGTGAAATTTACGAACCCAATTGAGTGGGAATCGATGGATCATCAACCTGTTCATATGACGTTCGCCCTTGCTATTCCTGAAGGGAAAAATCAAGAGCATCTCACATTACTCAGTACAATTTCTCGGGCATTAATTGATGAAGCATTTACAAAATCGATTATGGAAGCTGCAACAGCTGAGGAATTGCATGCGATTATTCAAAATAAATTACTTGCTCAAAGTGACTAA MVTSILDIQHITFDSSVTTKDEALQFIADFAKEKEIVKSAKAYYKGLKKREQEVTTGFKSSIAIPHCKHKTVKKPALMLVKFTNPIEWESMDHQPVHMTFALAIPEGKNQEHLTLLSTISRALIDEAFTKSIMEAATAEELHAIIQNKLLAQSD PGPT0017130_233 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017130-fruB-K02768 NA NA AK015_01027 1467 manP_2 COG1299 PTS system mannose-specific EIIBCA component ATGTCTAAAAAGAAAATTGTTGGTGTTACAGCTTGTTCAGCCGGAATAGCCCATACGTATATGGCCGCCGAATCTTTAGAAAAGGCTGGCGTTGCTAAAGGTTACGACATCAAAGTGGAAACACAAGGTTCCATCGGTGTCGAAAACAAACTAACTGCTCAGGAAATTGAAGCAGCTGACGTAGTAATACTAGCTGTAGAAATTAATATCGATATGACACGTTATGCAGGTAAGCGTGTATTAAGAGTACGAGCAGCAGAAGCAATTAAAAATCCTGAGGCTTTAATTGAAAAGGCTTTAAATGAGGCTCCTATTTACGGTGAAAAGGGAACAAAAGCGGGAGTAGCAAAGATGGGCAAAACAGAAGAAGGCGGTTTCTTCCAGCATATTATGGCAGGTATTTCCTACATGATCCCAATGGTTATTGCTTCCGGACTTATTTTAGCTATTGCCAATGTATACGCATTCCAAAAAGATGATGCAGGAAGAATTGTCAACTGGGGTTTTGATACTTCTACATTTATGGGCGATTTAATGTCCAACTTGTTCAGTGTTGGGCAAGTCGGTTTCCTATTAATGATCCCTTTGTTTGCTGGATTTGTTGCGAACTCTATCGCCGGAAAACCAGCAATTGCAGCAGCCATGATTGGAACCTATATTGCCAATGATGCAGAAATGCTTGGCGCTGAAGCTGGAGGAGGATTTTTAGCAGCTATTCTAGTTGCCTTTGCAGCTGGGTATCTTGTCAAAGGGCTTAAAAAAATTCCTTATCCAAAAATCATTCAGCCTATCGTACCAATCATGCTACTACCATTAGTAAGTACATTAATTATTTCTATTTTTGTCCTATACGTGATTGGAAATCCAATGGCCTCTATGATGGACTTCTTATATGAAGGGTTAACGACTTTAAATGAAAATTATGCGGCAGCACCAGTAATTGTAGGTATTATTATTGGCGCAATGGTCGGCTTTGACCTTGGTGGACCAATTAATAAAACAGCACTTGTTTTTGGTACAGCAGTCTTTACGGACACCGTTGCTAAATATGGCATTGAAGGTGCTAACTTTGTACCACAGACAGCAACTCAAGCAGCGATTTCTGTTGCTCCACTTGGAATATGGCTTGCCTCTATACTCTTTAAAAAGAAATTTTCACCAACCGAAAAAGTATCTGCACATAGTGCATTTGGTATGGGGATGGTTGGTGTAACAGAGGGTGCTATACCTTTTGCGGCACAAGACCCAATTCGAATGATCCCTGCCTTTGTTGCTGGTTCAGCAGTTGCTGGAGGACTTGCAGCGGGATTAGGCGCCAAATTTTACGGCGGTATCGGCTCTCCACTTGGTACATTTGTCGGATATATTGAACAGCCTATTCCTTTTGTTACATGGATTTTCAGTGTCATGACAGGGGTACTCGTTACAGCCGTTATTATTGGATTTACAAAGAAAAAGGTGGAATAA MSKKKIVGVTACSAGIAHTYMAAESLEKAGVAKGYDIKVETQGSIGVENKLTAQEIEAADVVILAVEINIDMTRYAGKRVLRVRAAEAIKNPEALIEKALNEAPIYGEKGTKAGVAKMGKTEEGGFFQHIMAGISYMIPMVIASGLILAIANVYAFQKDDAGRIVNWGFDTSTFMGDLMSNLFSVGQVGFLLMIPLFAGFVANSIAGKPAIAAAMIGTYIANDAEMLGAEAGGGFLAAILVAFAAGYLVKGLKKIPYPKIIQPIVPIMLLPLVSTLIISIFVLYVIGNPMASMMDFLYEGLTTLNENYAAAPVIVGIIIGAMVGFDLGGPINKTALVFGTAVFTDTVAKYGIEGANFVPQTATQAAISVAPLGIWLASILFKKKFSPTEKVSAHSAFGMGMVGVTEGAIPFAAQDPIRMIPAFVAGSAVAGGLAAGLGAKFYGGIGSPLGTFVGYIEQPIPFVTWIFSVMTGVLVTAVIIGFTKKKVE PGPT0017120_2309 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 AK015_01028 747 hypothetical protein TTGAAGGTTAAAAAAGATTTTTCATGGTTATTTATTTTCGTTGGTATTATTTTTATGATTCTTTTTGGGATTGTTAGTTTAGGAGTCTTTCAAGAAAGCACGTCAATAGAAAATATTGATTTGGCAATAATTGAAGTGATCCAAACTAATGTCACCGATACAAAAACAGCCTTCCTCTCAATATTATCGGAGATTGGCAACATAAGACTGAGTATCGCATTAACAATAGCATTTGTTATTTTTCTTTTTATTAAGAGATGGTATTTGGCTGGCTTTTGGCTTGGTGGAACTGTTCTTTGCTTTGCGGCAATTGGCACAAAGCTGATTAAAAAGGTAATGGGTCGAGCACGACCGAACATTCTTCCATTGATTGAAAAAACAACAGAGAGCTTCCCAAGCGGCCATGCAACGTCGGCGACCATTTTTTATGGAATTCTTGGACTGGTGCTCATTCTTCTTACAAATAAATACTGGAAAAAAACGGCAGTCGGGTTGGCTGTACTCGTATTAATTGGTTTTATTTTAATGACGAGAATTTATCTTGGTGTACATTTTCCAACCGATGTAATTGGAGGCTTCTTATATGGGATGGCAACTGTCTTTATTTCCGTAGGTATTTATAAGCGCGTTCTGGAGCCGCTGCAACAAGTACTGCTTCGGTTTAACATTCAGGATCGAAGCATAAGTAGGACAGAGGGGGGAAGTTCCTGTTTTTCCCAATCAGGCGGTGAGGGAAAGGAAGTTTGA MKVKKDFSWLFIFVGIIFMILFGIVSLGVFQESTSIENIDLAIIEVIQTNVTDTKTAFLSILSEIGNIRLSIALTIAFVIFLFIKRWYLAGFWLGGTVLCFAAIGTKLIKKVMGRARPNILPLIEKTTESFPSGHATSATIFYGILGLVLILLTNKYWKKTAVGLAVLVLIGFILMTRIYLGVHFPTDVIGGFLYGMATVFISVGIYKRVLEPLQQVLLRFNIQDRSISRTEGGSSCFSQSGGEGKEV PGPT0024170_102 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302 NA NA AK015_01029 639 hypothetical protein ATGAAGGATCATGAGACATTTCGCAACTTCTTAAATCGTTTAATAGATGAGAGATCTTTATCTTTAAGAAAGTTAGGTAAAATCTCAGGGATTGATCATGCTACCCTTTCAAAAATTATAAATGGAAAGCGGGAGGCAAACTTAATCCATTTACAAAAGCTTTCTGTAAGTCTTGATATCGAATTAACAACATTTATGCATGCTGCAGGTTATATAACTGAACCTAAACAGAAGGAAGACTCAGATATTCAAAATTCAGTGGATTTAATACAAAAATTAATAAAAACAACCAACAACTATGATGAGGATTTTACATTTGAGAAAGTGAAACAAGAAATTGCCAAATATCAGGATTACAGTCAGACAACGGATGGTAGAAATAAGATTTTGCAGGAATTTGAGAATAAAATTGAAAAAACAGACAGCAAGGGACCCTGCATATCACAATTACGAACCATGTTTTTTCGTTTTTCTGCTAAAAAAGGTACAGTCCGTGAGATTGCTTTAATGGGAGCAGCTCTAATTTATTTTATTATAACAACTGATTTATTACCAGATTACCTGCTTCCAATTGGCTTTTTGGATGATGCAGTTATTGTGCAGGCAGTTTTACAGTATATGGACAGCAAAAAGTTCTAA MKDHETFRNFLNRLIDERSLSLRKLGKISGIDHATLSKIINGKREANLIHLQKLSVSLDIELTTFMHAAGYITEPKQKEDSDIQNSVDLIQKLIKTTNNYDEDFTFEKVKQEIAKYQDYSQTTDGRNKILQEFENKIEKTDSKGPCISQLRTMFFRFSAKKGTVREIALMGAALIYFIITTDLLPDYLLPIGFLDDAVIVQAVLQYMDSKKF NA NA NA NA NA AK015_01030 1161 rodA_1 COG0772 Peptidoglycan glycosyltransferase RodA ATGGAATCAAATACATATAAGATTGATTACTTCATTCTCTTTTTAGTCTTTTGTTTGTTTATTTACAGTCTGCTTGCAGTATTTAGTGGTTCTGGCCAATACGCTCAAGGGACTCCCTTTTATTTCGTTACGAGGCAATTTATATGTTACCTTATTGGAGTCGGATTAATGCTTCTTGTAACAAGGTTTGATTTTAAATTATTGGAAAAATGGGCACTGCCTATATATATTACGGGAGTTGTACTTCTTCTACTTGTCCATTTTGGGGGAACAGAAAAAAATGGTTCCAAGCGTTGGATCGACCTTGTAGTAATCGAAATTCAACCCTCTGAGTTTATGAAAATATTCCTCATTATTTACCTGGCATTTATTTTAAGAAGAGCGGGGAAGTCTCCATTAACTTTCAAGAGTAGTATTCCTATTGTTTTAAAAGTCACTTTTTATTCTCTTATTCCATTTCTACTTATATTAGTTCAGCCAGACTTGGGTTCGGCCCTCGTTATTCTAGGGATAACGATTACTTTAATTTTTAATTCTAGTATCTCTTCAAAAATGCTCGTCTTTATCATTTCTGGTATTACAACGGCGCTAGGATGTTTAGCTTATTTATTTTATTTTCAGCACGAGTTATTCACAAAAGTTCTAAAGCCACATCAATTATCACGAATATATGGTTGGCTTGATCCTGAACAATATGCTTCAGATTATGGTTATCAATTGCAGCAAGCAACGATAGGAATAGGCTCAGGACAAATGTCCGGAAGAGGGTTTACTCAAGGAGTGCAAGTACAAAGTGGTAAAATTCCAGAAGCGCATACAGACTTTATTTTTGCGGTAATCGGTGAAGAGTTTGGTTTTATAGGAACAGTCTTATTATTATTAATTTACTTTTTGTTAATCTATCGAATTATCCAAATTGCCTTACAAACTACTAATCTATTCGGTGTTTATATTTGTGTAGGAACTGTTGGCTTGATTAGCTTACAAGTCTTTCAAAATATTGGAATGACGATTGGTTTAATGCCGATTACTGGATTGGCGTTGCCGTTTATTAGCTATGGTGGCAGTGCACTTCTAACTAATTTCGTTGCTTTAGGACTAGTATTCAGTGTGCAAAAGCATTCTAAGCAATTTATGTTTAGCGACAATAAAGTTACTTAG MESNTYKIDYFILFLVFCLFIYSLLAVFSGSGQYAQGTPFYFVTRQFICYLIGVGLMLLVTRFDFKLLEKWALPIYITGVVLLLLVHFGGTEKNGSKRWIDLVVIEIQPSEFMKIFLIIYLAFILRRAGKSPLTFKSSIPIVLKVTFYSLIPFLLILVQPDLGSALVILGITITLIFNSSISSKMLVFIISGITTALGCLAYLFYFQHELFTKVLKPHQLSRIYGWLDPEQYASDYGYQLQQATIGIGSGQMSGRGFTQGVQVQSGKIPEAHTDFIFAVIGEEFGFIGTVLLLLIYFLLIYRIIQIALQTTNLFGVYICVGTVGLISLQVFQNIGMTIGLMPITGLALPFISYGGSALLTNFVALGLVFSVQKHSKQFMFSDNKVT NA NA NA NA NA AK015_01031 1161 ftsW_1 COG0772 putative peptidoglycan glycosyltransferase FtsW ATGGATATCTTGCTCCTGATACAAAAGAAATTAAAAAATGTTGATTTTCCATTATTGGTTATCATTCTTTTGCTTGCTGGCTTTGGTTTAATGATGATTTATAGCAGCAGTAGTACGTTATCTTACTTAAATTATGATACAACCAATCATTTTTTTATAAAACAGCTTCAATGGTTGCTTTTAAGTATCATCCTTTTATTGATTACTATCTTTATTCCGTATCAGCTGTATAGTAAATTCAGTCCGTTCTTTGTTTTAACAACGATTATTTTATTAGTTTTGGTATTACTTCCGGGTATTGGTGTGGAAAGGAACAACTCGCAGCGATGGATCCAATTAGGCCCTTTATTGTTTCAGCCAACGGAATTAATCAAATTATTGATGCTGATTTATTTCGCATTCTTTTACTCGAAGAAACAAGATATTATTAATCAATTTAATCGTGGAGTTCTTCCACCCTTACTCGTTTTGGCGATTGTTTTTTTACTCATCTTACGGCAGCCTGATCTGGGATCTGCTGCATTAATATTGTTTGCTTGTGGCATTATTGTGCTCTCGTCTGGGGTGGCATGGAGACATCTATTGATGCTTGTAAGTGTTGGAATACTTAGCGTTATTTACTTTGCCCTTTCCTCTCCTTATCGTTTGGAGAGGCTGACTTCATTCATCGACCCCTTTAGAGATCCTGTCGGGGATGGTTATCAATTAGTCAATAGTTATATTGCCATTGGTACAGGCGGAATCACAGGGAATGGATTAGGGAGAAGTATTCAAAAGCTCGGGTTTCTCCCTGAAGCGCATACAGACTTTATAATGGCAATTGTAGTAGAGGAGCTCGGTTTAATGGGTCTTCTCTTTGTTATTGGTGCCTATATTTTTATTATGTTTAGAGGAGTAGCAATTGCTAAAGCTTGCGATAATATGTTTCCTAAATTACTAGCTATGGGAATAACCTTTCAAATCATGCTTCAGGTCATTTTCAATTTAGGTGCAGTATCCGGGCTGCTTCCAATTACAGGTATCCCTCTTCCTTTAATTAGCTATGGGGGCTCTTCCACAATCGTTACGATGACCTCCTTTGGAATATTGCTGCAGATTTCTGCCCAGGCTAATTTCAAGCCGAAAGTCAGTAAAAATCAGCTGCCGGAATACCAATTTTAG MDILLLIQKKLKNVDFPLLVIILLLAGFGLMMIYSSSSTLSYLNYDTTNHFFIKQLQWLLLSIILLLITIFIPYQLYSKFSPFFVLTTIILLVLVLLPGIGVERNNSQRWIQLGPLLFQPTELIKLLMLIYFAFFYSKKQDIINQFNRGVLPPLLVLAIVFLLILRQPDLGSAALILFACGIIVLSSGVAWRHLLMLVSVGILSVIYFALSSPYRLERLTSFIDPFRDPVGDGYQLVNSYIAIGTGGITGNGLGRSIQKLGFLPEAHTDFIMAIVVEELGLMGLLFVIGAYIFIMFRGVAIAKACDNMFPKLLAMGITFQIMLQVIFNLGAVSGLLPITGIPLPLISYGGSSTIVTMTSFGILLQISAQANFKPKVSKNQLPEYQF PGPT0014810_3659 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588 NA NA AK015_01032 351 hypothetical protein TTGAACGTCATGCCATTACGGTTTTTTTTAGTAATACTATCGGTTATCTTGCTTGCCATGGCTGGATGCGAGAACAATCATGCATCAAATGTAGATAACAAACAAATGAATAGTAAGGAGGAGAGCGCTTTGAATCAAGAACTAATTCAAGCTGCGGAACGAGGGGAAAAAGCAAAAGTAAAGAAATTGCTTGATGAAGGCGCAAGTATAAATGCAACCGACGATCAAGGAACAACAGCTGTACTTGCTGCCACATATAGCAATGAAGTAGAAACAGTCAGATTGCTCATTGAGAAAGGTGCAGACATAAACAAGCAGGACAATCGGTTGGATAATGTACTACTTGTCTAA MNVMPLRFFLVILSVILLAMAGCENNHASNVDNKQMNSKEESALNQELIQAAERGEKAKVKKLLDEGASINATDDQGTTAVLAATYSNEVETVRLLIEKGADINKQDNRLDNVLLV NA NA NA NA NA AK015_01033 456 yvbK putative N-acetyltransferase YvbK ATGAAGGTTAGACCATTACGAGTGAATGAAGCACCACCATTAGATTTATTATTAGAAGCAGATCCGCAATTAGACTTGGTAAAAGCATATCTTCTCAGGGGGGATTGCTATATTGCAGAAGTTCATGAAAAAAGAATCGGTGTATATGTTTTACTTCCAACTAGACCAAGTACCGTTGAGTTGGTGAACATATCTGTAGCGGAATCTGAGCAGGGAAAAGGATATGGAAAGAAGCTTGTTGGGGATGCTATTCAAAAAGCGAAAGCAAAGCGATATAAAACATTGGAAATTGGTACAGGCAATTCTAGTATAGATCAGTTAGCCATGTATCAAAAATGTGGCTTTCGAATAACTGGTGTAGACAAAGATTTTTTTGTACGTCATTACTCTGAACCTATTTCTGAAAATGGCATTTCGTGTGTTGATATGGTGCGTCTATCTATGGATCTTGCATGA MKVRPLRVNEAPPLDLLLEADPQLDLVKAYLLRGDCYIAEVHEKRIGVYVLLPTRPSTVELVNISVAESEQGKGYGKKLVGDAIQKAKAKRYKTLEIGTGNSSIDQLAMYQKCGFRITGVDKDFFVRHYSEPISENGISCVDMVRLSMDLA 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 AK015_01034 456 guaD COG0590 Guanine deaminase ATGGATGTGTTTATGGAACGTGCGGTAGAGTTAGCAGTGTCAAATGTGAAGCATGGTGGACAGCCGTTTGGTGCGGTATTGGTCAAAGATGGGGAAGTGGTTGCTGAGGGGGTAAATGAGCTTCACCACACCTATGATATTAGTGCTCATGCGGAACTCGTAGCGATTCGACAAGTGCAGCAAAAATTACAAACGAATGACTTGTCCGGTTACACCATGTATGCAAGTGGTGAGCCTTGTCCCATGTGTTTAACAGCAATGTATTTTGCATCCATTGACCAGGTGTATTACGGTGCATCAGTTGAAGATGCGGCTGAAATAGGTTTAACAACGTCAAAAAGAATATATGAAGACTTGCGAAAATCGAAGACAGAACGATCATTACCTACCACTCAAATGCCACTACGTGAAGGGCAAAAGGATCCAATGAAGCTTTGGGAAGAGGGGAACAGATAA MDVFMERAVELAVSNVKHGGQPFGAVLVKDGEVVAEGVNELHHTYDISAHAELVAIRQVQQKLQTNDLSGYTMYASGEPCPMCLTAMYFASIDQVYYGASVEDAAEIGLTTSKRIYEDLRKSKTERSLPTTQMPLREGQKDPMKLWEEGNR PGPT0021515_2780 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487 NA NA AK015_01035 852 fbaA_1 COG0191 putative fructose-bisphosphate aldolase ATGTTAGTTACGTTAAAAGAAGTCATGGAGGTAGCAGAAAAAAGAAACTGTGGTATTGCCGCAATAAACACACCAACATTTGAAAGTTTAGTTGCTGCAATAAGCGCAGCAGAGAAAAATACTACTCCTATTATCATACAGCATGCCCAAAGCCATGAGTACATTAATCAGATAGAAACAATTGGACCTGCTATGATCACACTGGCCAAACATGCAAGCATACCAATTTGTGCGCATATTGATCATGGTGAATCTATAAATTATTTAGAAAAAGGCTTGCAGCTCGGCTTTACATCCATCATGTATGATGGCTCAAGATTACCTTATGAAGAAAACGTACAAAAAACGAGAAAGGCAGTAAGGTTAGCAAATGAATTTGGAGCAAGTGTAGAAGGTGAATTAGGAATTATGATAGGCAATGAAATTGGCGAACACACACAAGAAGTTAACGAAGAAGATAATTATACAGACCCACAGTTAGCATATAAATTTGTGAAAGAAACAAACATAGACGCACTTGCAGCTTCATTTGGCACAGTTCATGGATTCTATAGACATAAACCAAATTTAGATTATAAAAGAATCAAAGAAATTGCAACATTAACTAACTTACCGTTAGTAATGCATGGTGGATCTGGTCTAAGTTCAAAAGAATATAAACTATCTATTAAAAATGGCGTAAAAAAGATTAATTATTATACTTATGGAGCTAAAGTAGGCGCGGATGCAACTAAAAATTGTATCAATAATAATGATGCCGTTTTATTTTCCGAGATATCACGCTATGCTCAAGATGCTATGGAAAAAGACTTTCAACAAATAATAGATGTTTTTAAAAGTATAACAGAATGA MLVTLKEVMEVAEKRNCGIAAINTPTFESLVAAISAAEKNTTPIIIQHAQSHEYINQIETIGPAMITLAKHASIPICAHIDHGESINYLEKGLQLGFTSIMYDGSRLPYEENVQKTRKAVRLANEFGASVEGELGIMIGNEIGEHTQEVNEEDNYTDPQLAYKFVKETNIDALAASFGTVHGFYRHKPNLDYKRIKEIATLTNLPLVMHGGSGLSSKEYKLSIKNGVKKINYYTYGAKVGADATKNCINNNDAVLFSEISRYAQDAMEKDFQQIIDVFKSITE PGPT0017615_4965 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 AK015_01036 534 hypothetical protein ATGATTATTTATAACCAAACGTTAACCATTACTTCAGCAGGAAATCGGGTATCCTATCATGATATTACGGAAAAAATCAGAGAAATTGTTGAACAAAGTACAGTGAAAGATGGTTTATGTGTAGTGGCTTCACCACATACAACTTGTTCTGTTTTCTTTGAAGAATATTCGCATGATAAAAACTACGCAGGTGATGAATACCTTCAAGTTGATTTAAATAATGTTTTAGAAAAAGTGGTACCTAGATGCCTATCTGAGGGACAGTATTACCACCCTGGACCTGAACATACAAAATTCGGAGTAGAACTCCCAAAAGAAAAAATGCGTACAGAAGGAACAGATTTAGTACCAGATAAAAGATCCCTATTAAATACGGAGGCACATATTAAAGGAACCTTCATCGGCTCCAGTGAGACCTTTATCATCGAAAACAAGGAACTGCAAATTGGTAAAGTAGGTTACATTTATTTTGTAGACTGGGACCAAAATCGAGTGAGAAATAGGCAATGTAAGGTTCAAATTATTGGTCAATGA MIIYNQTLTITSAGNRVSYHDITEKIREIVEQSTVKDGLCVVASPHTTCSVFFEEYSHDKNYAGDEYLQVDLNNVLEKVVPRCLSEGQYYHPGPEHTKFGVELPKEKMRTEGTDLVPDKRSLLNTEAHIKGTFIGSSETFIIENKELQIGKVGYIYFVDWDQNRVRNRQCKVQIIGQ NA NA NA NA NA AK015_01037 675 tpiA_1 Triosephosphate isomerase ATGTTTACCTCCCATATTAAAAAACCCGTTTTTATTGTAAATCCTAAATCCTATCTTTACGGAAGTGATTTGTTAAAACTGGCAAAAATTACAGATAGATTAGCAGAAAAATATGCTATCGACGTTTTATTTACAGGTCAATTAATAGATTTGCAAAAGGTAATCGAAGAAACCAAACATGTAATCGTTACCGCTCAACACATGGACCATTTAGTTCCAGGAAGAGGCATGGGGCATGTTCTACCTGATGCTTTAAAAGATAAGGGAGTAAAAGCGGTTGTCTTAAATCATGCAGAGAATCCACTCACGCTATCCGAATTGGATAAAACGATTCGAAGAGCTAACGAATTAGGCATGATAACAATTGCTTGTGCTGACACAGTAAAACAATGTAAAGCAGTTGCAGAATTAGAACCTCATATGATTATTTGTGAACCAACGGAATTAATTGGAAGTGGGGCAACGAGTGAATCATCTTATCGAAAAGAAACTACAACTGCAATTAAAGAGATCAATTCAGAGATATTGGTTTTACAGGCAGCAGGTGTAAGTACGGGAGAAGACGTAAGACAGGTTCTGCAAGAAGGAGCAGACGGCACTGGTGGAACAAGCGGCATTATTAATGCACCCAACTGGGAAACTAAATTAGAAGAAATGATAAGTTGCTTAATTTGA MFTSHIKKPVFIVNPKSYLYGSDLLKLAKITDRLAEKYAIDVLFTGQLIDLQKVIEETKHVIVTAQHMDHLVPGRGMGHVLPDALKDKGVKAVVLNHAENPLTLSELDKTIRRANELGMITIACADTVKQCKAVAELEPHMIICEPTELIGSGATSESSYRKETTTAIKEINSEILVLQAAGVSTGEDVRQVLQEGADGTGGTSGIINAPNWETKLEEMISCLI PGPT0017995_6004 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 AK015_01038 288 hypothetical protein ATGAAAAAGAAACTACTAATTATATGTGGAACTGGTGTCGCTACATCAACTGTTGTTACAGGGAAAATAAAAGAATGGCTTCAGGATAACCAATTAGATAATCAAGTAACTTTATTCCAAAGTAAAATCTCAGACGAAGTAAATAACCTAGATAATTATGATGTAGTAATAAGCACAACCATTGTCCCTGATAATCTAAAAGAGAAGGTAATTAATGGAGTACCTTTATTGACTGGTGTAAGGAAAGAGGAAGTGTTTCTTCAATTAAAAGAAAAACTAACCAAATAA MKKKLLIICGTGVATSTVVTGKIKEWLQDNQLDNQVTLFQSKISDEVNNLDNYDVVISTTIVPDNLKEKVINGVPLLTGVRKEEVFLQLKEKLTK PGPT0016947_264 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016947-gatB|sgcB-K02774 NA NA AK015_01039 1338 gatC_2 COG3775 PTS system galactitol-specific EIIC component ATGCAAGTCTTTCAAGAGGTCATGCAGTGGTTTGTTGATTTAGGAGCCAGTGTCATGCTCCCAATTATTTTCTTCGTTTTTGGCTTGATTTTAGGAATAAAGCCAGGGAAGGCTTTTAAATCTGCTTTAACCATTGGAATTGGCTTTATAGGATTGAACTTAGTAATTGGTCTTTTAACCAATAATTTAGGTCCAGCTGCTGAAGCAATGGTTGATAATTACAATCTATCTTTGCAAACAATTGATGTAGGATGGCCCGCAGCATCGGCAATTGCATACGGCACCCTTTTGGGTAGTATGGCAATCATTGTAGGGATCTTAGTAAATGTTATTTTACTTGTATTTGGATTAACAAGAACATTAAATGTAGATATTTGGAACTTTTGGCACATCGCATTTTCCGGATCCATCGTGTATGCAGCAACAGCAAGCTTTGCTTTAGGTGTTTTTACGATGATTACACATTCCATGCTTCTCTACTTCTTGGCAGATAAAAGCGCAAAGTATGTTGAAGAATACTATCAGCTACCAAATATGTCATTCCCACATGGGGCTTCTACACCAGGTTTTCTTTTAGCTCTACCATTAAACTGGGTTTTTGATCGAATACCTGGTTTAAATAAGATAAATATTAGCGCTGAATCCGTACAGAAAAGATTTGGAGTTTTCGGAGATACAACAGTTTTAGGATTTATCATTGGAGTAATTATCGGATTATTAGCTAGTTATGATATGAATAACACTTTAAACCTAGGTGTTGCAACAGGTGCTGTGATGTTGTTAATGCCAAGAATGGTTTCCTTATTAATGGAAGGGCTTACCCCTATCTCTGAAGCCGCAAGTAGTTGGGTTCAGAAAAGGTTTCCTGGTAAAGAATTATTTATCGGAATGGATAGTGCATTAGCTGTGGGACAATCATCTGTTTTATCTGCTTCTCTATTACTAGTGCCAATCGCACTTCTACTAGCAGTTATTTTACCAGGAAATACGGTACTACCTTTAGGAGATTTAGCTACCGTTCCTTTTATGATTTGTTTAATGGCTGCTGTATTTCGAGGAGACATACTTCGTACCGTAATAGGAGGAGCAATATACATCGCCACAGCACTATATGTTGCATCTTGGGCAACTCCTTTAATAACCAAGTCTGCAATAGCATCCAATTTCGACTTAGGAGGAAATTCCTCTATTAGCGTATTAAGTGATGGTGGTGCATGGACAACTTTTTTATTTGGTGGTCTAGCAGAAAACTTAGCTTGGTTAGGAATAGGCTTCGTTTTTATTATTGTATTATGCGCATTGATTTACCAAGGTAAGATGCAAGCCAGAAAGAAATAA MQVFQEVMQWFVDLGASVMLPIIFFVFGLILGIKPGKAFKSALTIGIGFIGLNLVIGLLTNNLGPAAEAMVDNYNLSLQTIDVGWPAASAIAYGTLLGSMAIIVGILVNVILLVFGLTRTLNVDIWNFWHIAFSGSIVYAATASFALGVFTMITHSMLLYFLADKSAKYVEEYYQLPNMSFPHGASTPGFLLALPLNWVFDRIPGLNKINISAESVQKRFGVFGDTTVLGFIIGVIIGLLASYDMNNTLNLGVATGAVMLLMPRMVSLLMEGLTPISEAASSWVQKRFPGKELFIGMDSALAVGQSSVLSASLLLVPIALLLAVILPGNTVLPLGDLATVPFMICLMAAVFRGDILRTVIGGAIYIATALYVASWATPLITKSAIASNFDLGGNSSISVLSDGGAWTTFLFGGLAENLAWLGIGFVFIIVLCALIYQGKMQARKK PGPT0016948_443 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016948-gatC|sgcc-K02775 NA NA AK015_01040 468 hypothetical protein ATGATGTTTTTTAATAAAGAGATAATTAAGTTTAATTTTGAAGGACATTCCAAAGAACAAGTTCTAAGCCATTTGTCAGAAAAATTTATTGAAAACGATCTCGTTACGCAAGACTTTTATGAATCCATTATCTCTAGAGAATTAAGCTTTCCAACAGGTTTATGGATAAATGATACGGGGATTGCAATACCTCATACTGATTCTGAAAAAGTAAAACAAGCACAAATCGGATTTATGTCTTTAAAACAACCTGTAACATTCAAAGAAATGGCAAACAAAGATAATGAAATAGAAGTATCACTCATTTTTATGCTAGCGTTAAAACAATCTGATCAGCAATTGTCTATGCTACAAAAGCTTGTTAACCTTTTCCAAAATGAAAGTTTGGTAAAACAATTAAAAGAATGCACATCACTTATTGAATTTAAAAGCATAATGAAAAACGCCGGCTTGAATAAGGCAATTTAA MMFFNKEIIKFNFEGHSKEQVLSHLSEKFIENDLVTQDFYESIISRELSFPTGLWINDTGIAIPHTDSEKVKQAQIGFMSLKQPVTFKEMANKDNEIEVSLIFMLALKQSDQQLSMLQKLVNLFQNESLVKQLKECTSLIEFKSIMKNAGLNKAI PGPT0016946_234 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016946-gatA|sgcA-K02773 NA NA AK015_01041 441 manR_2 COG1762 Transcriptional regulator ManR GTGATTTACATGCTTACATTAAACAAGGATTTAATCATTTTTTGTGAAAACATGAACAATAAGGAACGTATAATAACAAAAATAACTTCATTATTGTATAGAAAGAATTATATCAATAATAAAAAAGACTTTGTTAAAAAAGTTATTGAAAGAGAAAAGGCAGGTTCAACATATATAGGAAATAATGTAGCAATCCCACACGGGGAATCAAAAAGTGTGAAGACAAATTGCTTGGTTATCTTAAAAAGTAGACTACCAATCAATTGGGATGGATACGTCGTACATGTTATAGCATTATTTTCCATCCATCCAAACATAAATCAAATAGAAAAAGAAAATTATAAAAGATATATACAAGCAATTGGAGATGAAAACTTCGTAAACAAGTTAAAAAATACTAACGATAAGGAGAAGATCGTTATGCTATTTGAGAACGATTAA MIYMLTLNKDLIIFCENMNNKERIITKITSLLYRKNYINNKKDFVKKVIEREKAGSTYIGNNVAIPHGESKSVKTNCLVILKSRLPINWDGYVVHVIALFSIHPNINQIEKENYKRYIQAIGDENFVNKLKNTNDKEKIVMLFEND PGPT0017130_653 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017130-fruB-K02768 NA NA AK015_01042 1479 manR_3 COG1762 Transcriptional regulator ManR ATGCATTTCAATGAGAGAGAACAAAGTATTATTGATATATTACTGCAATATAAGTTCTATGTTCCTGCTTCAAAAATTGCTAAGCAATTAGACGTTTCTAAAAAGACCGTTTATCGAACGATAAATAAACTAAATGAAAATCCTGCTTCTAAACCATTAATTGAATCCAAGCTTGGCGAAGGGTTTAGACTTAACTATGAGGAATATATAAGGAAAAAATCAGCTAAGGAAAGTTTTCTGAAGAATTATACTCCTGTAGAGCGAAGGAATCAAATTCTCATAGATTTACTGTTCAAAGCACCAAATCCAATTAGAACAACAGATTTTTATGATAAATATTTCGTCAGTGAAACCGTTATATATACGGATATAACAGTACTCAATAAGAGGTTAAAAAAACACAACTTAAACATTGACAGAAATGGAAAATATATTTCTATAATCGGAAATGAAGTAGATATTAGGAAAGTATTAATTAACACGATTAATATTTTTAATTTAGATAATCTATTATCTAAAGAAGAGCTTAATCATAATGACACGGAATTTATTATTGATAATATGAATAGATTGGAAAGTCAACTAAATATCACCATTCCTTATCCATATAATATCAATATCTTTTCTCATCTATACATATTAATCAATAGATTTAGAAGTGGGAAAGTAGATGTGAGCAAAGTAGTTGATAAACTTAAACAGCCATACACCAATTTGATTCAAGAAAACAAGGACATTTTTCAGCAAGCCAAAAATATTATTAATCACTTTTCCAATTACTTAAATAAAAACTTACCAGATACGGAAGTGTGGTACCTGTTCCAATATTTATTATCATCACGATTAGTAAACAATAGCAAAAAAGAAGTTGAACAGGTTAAACACGGCCTAGAGAAAGAAATAACCGAATTTTATATAAAAGAAAGCGGTAAAGCGTTATGCAAGAACTTTAATAAAGAAATGGTATGGGAAGAATTAATCAATCACATAAGGCCAATGATTAATCGCATAAACAATAATATTCATATAAAGAACAACTTATTAGAAGAAATTAAGGTAGAGTACGAAGAACTATTTCATATCATTACAATGATATCACAAAATGCAGAACAAACATTTAATTTGGGGAAAATTACCGAACATGAGAACGGCTATTTGACGATATACTTTGCAAAATATCTGGAGCAAATGTTTGATACAAAGAGGATAATAATTATTTGCACTAGCGGCATCGGCACTTCTGAATTACTCAAAGTAAAGGTCAAAAAAGCATTTCCAAATATAGAAATAGTGGATGTTCTTTCAACTACAGATTTTATGAATCAATTTCATAAATATAATGCTATTGATTTCGTTCTTACCACCGTAATTTTGGAATCGTTCACAAAAGAAGTGCCTATATTATTAGTAAGCCCTGTTTTTGGTGATAGAGATAAAGAGATAGTAAATACGTTCATAAAAAAAGAAAGGCAAACGTGA MHFNEREQSIIDILLQYKFYVPASKIAKQLDVSKKTVYRTINKLNENPASKPLIESKLGEGFRLNYEEYIRKKSAKESFLKNYTPVERRNQILIDLLFKAPNPIRTTDFYDKYFVSETVIYTDITVLNKRLKKHNLNIDRNGKYISIIGNEVDIRKVLINTINIFNLDNLLSKEELNHNDTEFIIDNMNRLESQLNITIPYPYNINIFSHLYILINRFRSGKVDVSKVVDKLKQPYTNLIQENKDIFQQAKNIINHFSNYLNKNLPDTEVWYLFQYLLSSRLVNNSKKEVEQVKHGLEKEITEFYIKESGKALCKNFNKEMVWEELINHIRPMINRINNNIHIKNNLLEEIKVEYEELFHIITMISQNAEQTFNLGKITEHENGYLTIYFAKYLEQMFDTKRIIIICTSGIGTSELLKVKVKKAFPNIEIVDVLSTTDFMNQFHKYNAIDFVLTTVILESFTKEVPILLVSPVFGDRDKEIVNTFIKKERQT NA NA NA NA NA AK015_01043 1602 lcfB_2 COG0318 Long-chain-fatty-acid--CoA ligase ATGAACGTAGAAGCAAATCGTGATTTCATTAAAGTGTTGCAACGCGCCAGAAGAAATACATTAGGAGATATACTCTCCCGAACAAGCGAACGGAAGCCTAACCAAATTGCAATCGCTTACAAAAATAATGAAGTAACGTATAAGGACTTGGATCATTGCGTAAATCAAACTGCACATGCTTTCTTAGCAGACGGAATGAAAAAAGGAGATCGGATTTCTGTTATGTCCAAAAACAGCTTAGAGTTTGTCATTGCAAACTTTGCTCTAGCTCGAATAGGGGCTGTCATGATTCCAATCAATTATATGTTGCATATAGAAGACATCACCTATATTGTGGATCATGCTGCAGTTACAGGGCTCATCGTTGCTGAAGAGTATATACATTTACTGGATGAAGCAGTATTAAATATGGATATTTTATATTGGTATGTCATGGAGGCAAATAGCAAAGCGACCAATGAGAAATGGAAACGATTAGATGTTGTGAGACAAGATCAACCTACATCTCTCGTTGATGTTGATGTGGAAGAAGATGATCTATGTCATGTTTTATATACGAGTGGCACAGAATCACGACCCAAAGGCGTTATGCTCACTCACAAAAGCATTATCAGTGAATATGTAAGTTGTATTGTAGATGGCGACATGCAGCCAGAAGATATTATAATTCATGCGCTGCCGCTATATCACAGCGCTCAACTTCATGTGTTTTTAGGCCCTAGCATTTATGTTGGTGCTAGTGGAATCATTCTTGATGGGGCTAATCCAGAAACGATGCTAAAAACAGTCGAAGAGAAAAAAGTTACGCAACTTTTCTGTCCGCCAACCATATGGATTGCTTTATTGCGTCACCCCGATTTTGCAAAGAGAGATTTATCCAGTTTACAGAAATGCTATTATGGCGCAGCAATTATGCCTAGAGAAATACTTAAAGAGTTAACAGAACGCCTACCCAATGCAGGTTTTTGGAACTTTTACGGGCAAACAGAAGTTGCTCCACTTGCTACCGTTCTAAAACCGGAGGATCAGCTACGAAAGCTCGGCTCTGCAGGAATCCCATCGTTAAATGTACAAACAAAAATTGTGGATGAAAATGATGTTGAGCTAGCTCGTGGAAAAGTAGGTGAAATCGTACATCGCACTCCACATGCCATGAAAGGTTACCTTCAAGATCCAGACAAAACAGCAGAAGCGTTTCGCAATGGTTGGTTCCATAGCGGAGATTTAGGTGTGATGGATGAGGACGGCTATATAACCGTTGTTGATCGTAAAAAGGATATGATTAATACTGGAGGAGTAAACGTATCTAGTCGTGAAGTAGAGGAAATCATTTATCAGTTAGCAGGCGTGTCGGAGGTTGCTGTCATTAGTATACCAGACCCTTATTGGATTGAAGCTGTTACAGCTATTATTGTCCCCAAACAAGACACACCATTAATAGAGGAAGAAGTGAAAGCATTTTGTAAAGATAGACTATCCAAATTCAAAGTTCCTAAATATATTATTTTTTCAAATACGCTCCCGAAAAATCCTAGCGGTAAAGTACTCAAGCGAGCTTTACGTGAGCAATATGAGGATAGGGGGAATGTGAATCCTTCATGA MNVEANRDFIKVLQRARRNTLGDILSRTSERKPNQIAIAYKNNEVTYKDLDHCVNQTAHAFLADGMKKGDRISVMSKNSLEFVIANFALARIGAVMIPINYMLHIEDITYIVDHAAVTGLIVAEEYIHLLDEAVLNMDILYWYVMEANSKATNEKWKRLDVVRQDQPTSLVDVDVEEDDLCHVLYTSGTESRPKGVMLTHKSIISEYVSCIVDGDMQPEDIIIHALPLYHSAQLHVFLGPSIYVGASGIILDGANPETMLKTVEEKKVTQLFCPPTIWIALLRHPDFAKRDLSSLQKCYYGAAIMPREILKELTERLPNAGFWNFYGQTEVAPLATVLKPEDQLRKLGSAGIPSLNVQTKIVDENDVELARGKVGEIVHRTPHAMKGYLQDPDKTAEAFRNGWFHSGDLGVMDEDGYITVVDRKKDMINTGGVNVSSREVEEIIYQLAGVSEVAVISIPDPYWIEAVTAIIVPKQDTPLIEEEVKAFCKDRLSKFKVPKYIIFSNTLPKNPSGKVLKRALREQYEDRGNVNPS NA NA NA NA NA AK015_01044 396 hypothetical protein TTGTTACTAGTAGTCATTGGTACAAGCTTGCAAGTGAATAGGATTGCAGCAGATAAACAAAGTTGGAGCCTACAGCAAGTCCACAAGATAGAATCGGTTTCCAACTGGATGAACACGTATATGAATCAAATAGAAAAAGATGCATTAGAGCATCAAGAACTGCAACGGATAGAACAGAAAAAGAAATTAAAACAGACAGGAGAGCAAGCTCGTAGAAAAGGAAAATCGAAAATAGAAGACTATCAGAATAGTTATTCGGAGCGCTTCGTAAAGGCGAAGGAAACGTTTCGCATAGTAGATAAATTTCAGCATTATTCTAATGAAAAGAAAGCAGACATTCACGAGCAACTGAATGAAGGGGTAAAAGCAGAAATTTTATCATGGGTAGATGAATAG MLLVVIGTSLQVNRIAADKQSWSLQQVHKIESVSNWMNTYMNQIEKDALEHQELQRIEQKKKLKQTGEQARRKGKSKIEDYQNSYSERFVKAKETFRIVDKFQHYSNEKKADIHEQLNEGVKAEILSWVDE NA NA NA NA NA AK015_01045 783 hypothetical protein ATGAAGTGGGGATTAAAAACAATGAAAGGGAAAGTGGTTGCTGGAATGGTAGGAGTAGGTATTTTGACGGGATCAGGTGTTGTATTAGCCGGTTCAGGGGCAGGGGATCATTTACGTGAATGGTATGAAGGTATGTTTGGGGATTCTGTTGCTACCATAGAAGATGACGTTACGACATATGGGGAAAGTAAACTGCCAGAGTTAGAGGCGGAATATGAACAGTTAAAAAACGATGCGTCGCTGGATATTGATTTAATGAGAGAAAGGCTAACAAGCGAATCATTAGAAGAAATTGTTGCAGCGAAAATAGAGCATCTTGAGTCTCTTGATGGTGAATCTAGGGAAATTTTAGATCAAATGGGTTTGGAATTTTATAATGTGTTTTTGGATGGCTATGGAGAAATTCAACGTTTAAGTGACGAAGGGTTAAATTATGCTTCCGAAGACTTAACGAATTATACTGGTGAATTAGGGCAAGAGGCGAGAAATCAAATAACGAGTGATTTGACTGCTGCCAAACAGGAAGCGGTAACAGATTTGGAAACGGCGATTCAAAATGCTCAAGACCAAATAGAGGCAGAACTTCGTAATCAGGAAGAAATAACGACACGTAACTTAAAAAATCAAATTGATTGGGCAGTAGAAGATGTAAGGCAGGTAGTAACGGCATTGCTTGCAAATTTAATGGAAGAGCAACAGATGATTATAACCCAAACTGCGCAAATATTAGAAGATGAAGCAAAAGAAGCGCTTGATGATGTTGTTTCCGGTATCAATGAATAG MKWGLKTMKGKVVAGMVGVGILTGSGVVLAGSGAGDHLREWYEGMFGDSVATIEDDVTTYGESKLPELEAEYEQLKNDASLDIDLMRERLTSESLEEIVAAKIEHLESLDGESREILDQMGLEFYNVFLDGYGEIQRLSDEGLNYASEDLTNYTGELGQEARNQITSDLTAAKQEAVTDLETAIQNAQDQIEAELRNQEEITTRNLKNQIDWAVEDVRQVVTALLANLMEEQQMIITQTAQILEDEAKEALDDVVSGINE NA NA NA NA NA AK015_01046 483 hypothetical protein TTGGGCAACAGAAAAGAAACCTACAGGCGAAGAAGGTGCTACAATCTTAAGAAAATAATCATTGTTTTTTTGCTATGTATGTTAATAGCAGCTGGAAGTTTCTATCCTGTTTTTGCTGATGAAGATATAGGTGGTATGGTAACGGATTGGTTGCAGCAGAAAACAGATGATGCGATACAAAAAGTGGATGAGGCTATTTTAGAAGAAGAGAAGGAACAAACAGAACGTTTGCGAAAAGCGTTACGAGTGAAAAAGCAGGAAGCAGAACAAGAACTAAATCACACAGCAGATCAAGAGATCACAGCCCGAACGGAGGAGCTAGAGCGTTATGCTGATGAACTAATAAAATCACTGAATAGGAAACAAACAGAGAAAGATCAGGCAGCAATAAAGAAAGAGTTCGAAGCAATTGTAAAAGAAGCAAAAGGGAAGATGGAGGATGTCTCTGTCTTACATGACGAACACGAGGAGTTCGGTAAGTGA MGNRKETYRRRRCYNLKKIIIVFLLCMLIAAGSFYPVFADEDIGGMVTDWLQQKTDDAIQKVDEAILEEEKEQTERLRKALRVKKQEAEQELNHTADQEITARTEELERYADELIKSLNRKQTEKDQAAIKKEFEAIVKEAKGKMEDVSVLHDEHEEFGK NA NA NA NA NA AK015_01047 564 sigI_1 RNA polymerase sigma factor SigI ATGGAGAAGCAGAAAAAAGCTGTGTCAATGACATTTGAAGAAATTGTAGAACAAAACGAGCGTAGGATATATTACCATTTGCATAAATTAAACATCCGTGATCCGCATCGTGAATTTTACCAAGAGGGATTGGTGGCGATGTGGAATGCGTATGAAAAATATCAGCCAGATAAAGGTCCTCTTGCTACGTATTTTAATTATACGATTCGTAATCGGTTAATTGACGTCGTAAGAAAGGAAGCAAAGGAAAAGGAAAAAGTGGATGCGTATAAGCAATTTCAAGGGGTAAAGGAAAAGACCGGTAATTATTACAAATCTGGTGGAAATGCCTATCCGATAAAATATGCAGAGAGCCCTAATTTGGAAGCCGAGGAACTTCTACAAGTTGCGAAGGCGATTTTAAGTAAGAATCAATGGACATGGTTGAAACTTTTCATTATAGAAGATATGACGACAAAGGCCATCGCTGAAAGAGAGGGCGTATCTGTAGATGCAGTAAAAAGCTGGGGGAAAGAAGCGAGGAAGAAGTTACAAAAGCTGTATTCTTGCGGAGAGGGTATATGA MEKQKKAVSMTFEEIVEQNERRIYYHLHKLNIRDPHREFYQEGLVAMWNAYEKYQPDKGPLATYFNYTIRNRLIDVVRKEAKEKEKVDAYKQFQGVKEKTGNYYKSGGNAYPIKYAESPNLEAEELLQVAKAILSKNQWTWLKLFIIEDMTTKAIAEREGVSVDAVKSWGKEARKKLQKLYSCGEGI NA NA NA NA NA AK015_01048 420 hypothetical protein ATGGAAGAACAAGCAAACGCTTTTGGAGAGAAGCTAAAACAATGTAGGATGGAACGAGATTGGTCACAAGAAAAGTTAGCTAAAGAGTTACATGTTTCTCGCCAAGCCGTCTATAAATGGGAAACGAATAAAAGCTACCCTGACATCCAGAATTTAATACGTATTAGTGATCTGTTTAACATAACGATTGATGAGTTGATTCGTGGAGATGAACAAATGCAAAAAACGATTAGCATTGACGATGATGAATTATTTGACCAATTCTCTGACCCTGGTTTTTATATAGGAATGATTCTAATACTAGTAGGCGTTTTAATTTTCGATGATCCTTTAACAAATACATTCTTGTTTACTGGTCTTATTACCATAATATTTTTTACTGGTACCATACAATCGTTGAAAAAGCTATTTAAAAGTTAG MEEQANAFGEKLKQCRMERDWSQEKLAKELHVSRQAVYKWETNKSYPDIQNLIRISDLFNITIDELIRGDEQMQKTISIDDDELFDQFSDPGFYIGMILILVGVLIFDDPLTNTFLFTGLITIIFFTGTIQSLKKLFKS NA NA NA NA NA AK015_01049 336 hypothetical protein ATGTTGGAATGTTGTTGTAAATCTGGAGAGACAAGAGAGTTATTATTAGAGGCGGATATGGCAGACCCTATTTGGTGTAAGAGTTGTCGCTGTAATTTAGATATGGGGGATTTACCTCTTTCTAAGGAGTTAAAAAACGAATTAGAAACATGGGCTTCCAATTATGGAACGTGGATAAATTGGGAAAAAGATACATTACTACCGCATGCTGAAAAACAAGTAATGATGTATAATAAAACAGGATATCGCTTATTGCGTAAACTACAATCTGAGCTACCTTCTCATTATTCCATTCAATTTATCCCTTCGACGGTAGAAGAATATGAAACCCTATAA MLECCCKSGETRELLLEADMADPIWCKSCRCNLDMGDLPLSKELKNELETWASNYGTWINWEKDTLLPHAEKQVMMYNKTGYRLLRKLQSELPSHYSIQFIPSTVEEYETL NA NA NA NA NA AK015_01050 609 hypothetical protein ATGGAAACATTATTAATGATTTTCGTATTATTAGCGCTTGTCTATTATATTTTTCGGATTATCCAAGTGACTGTGAAATTAAAACAAGAGCATGTTTTTCCATTAACGAAAGAAGAAAGAAGAACGATTCGGAAGCATCCGCGAAAAATAACTGCTCCACCAACTGTTGAAGGACAGAAATTAGGTTTATTAGCTAATCTGGCGTTCATGTTTTTTATCGCTTCCATGTTTAGCATTGTTTATATTACAGATGTATTCTCCTGGCATCAATATTTATTTATGTTATTTTTTTTAATGTATGCTTATTTCATGTTGCCATTAAATTTGGTTGCGGTGAAACAGGATGGCATATTAATTGGTACACGTTTTCTTTCATGGAAGCATATTCATTCTATAAAAGCCGTAGCAATAGATAAAAATCACAAGTTTTATGGCCATTCTTCAGATGCTAATATAGGTTTCGTGGTGAAAATAAAATATACATTTGGTTTTACTTCCTTTGTCGTTACATCGGAAAAAACGTTGAAACAATTATTAAAACTTTGCCAAGAGCACGTTACAGTAGAAGATGAGATGCACACATCTGTAAGTGAATCTAAAATAAAGTGA METLLMIFVLLALVYYIFRIIQVTVKLKQEHVFPLTKEERRTIRKHPRKITAPPTVEGQKLGLLANLAFMFFIASMFSIVYITDVFSWHQYLFMLFFLMYAYFMLPLNLVAVKQDGILIGTRFLSWKHIHSIKAVAIDKNHKFYGHSSDANIGFVVKIKYTFGFTSFVVTSEKTLKQLLKLCQEHVTVEDEMHTSVSESKIK NA NA NA NA NA AK015_01051 513 hypothetical protein ATGAACATAGCTATCTCCATAGTTGGAGCTATATTTATACTGTCTTTTCTGCTTTTTTCTGTTTGGATATTTATTGCTGAGAGAAAAGATGTAAGTTCCGAAAAAAAGAATGTTTTTATCATTTCTTTCGTTTCATTTTGTTTAGCGCTCATTGTAACGCTCGTCTTTGGAGCTGGTATATTTATATTACTTGGCTCGATTAAAATGACAAATACATTTTTTGATTTGGATTTAACTATAAAGCAAGTTGGGTTTATATTTATCGGGTATCTTCTCTTTCTATTTACGATTGACAATGTAATAAAATTAGTAGTTAAAGCGATCGTTGGGAAAAATTTAGCTAATCCCTTACTTCTTCTACTTATTCGTATTTTCACTTTGCATATAATTGGTCTTTTTATTGGCATTCATCAAACGAGTAGCTTCCTGATTGCTACTGTAGTCGCTCTGTTTATTTTCTTGATAGAAATTTATGTTATTTTATGCGAACAGGATAAGAACGAAGCTATCTAA MNIAISIVGAIFILSFLLFSVWIFIAERKDVSSEKKNVFIISFVSFCLALIVTLVFGAGIFILLGSIKMTNTFFDLDLTIKQVGFIFIGYLLFLFTIDNVIKLVVKAIVGKNLANPLLLLLIRIFTLHIIGLFIGIHQTSSFLIATVVALFIFLIEIYVILCEQDKNEAI NA NA NA NA NA AK015_01052 792 ucpA_1 Oxidoreductase UcpA TTGAAGAAAATGGAAGGTAAAATAGCAATTGTTACAGGTGCAGCAATGGGGAATGGAAAGGGTATTGCTGAAGTTCTAGCCAAACATGGCGCTACTACTATTTTGTTAGATGTCTCCAAGCAAGTGCATGATACTGCGAAAGAATTAACAGAACGTGGCTTTGAAACGATGGCTTTAGAAGTGGATGTTACAAATAACGAAGATGTAAAAGCCGGAATTGATAAAGTTATAGAAAAATATGAGCGTATAGATGCTCTCATTAACAATGCAGGCGTTGTTCGATTAGCAAATTTTGAAGATATGGACGATGAAACAAGAGATTTTCATTTCAACATTAATATTAACGGCGTTTGGAATGTAACAAAAGCTGTTTTGCCGCATATGAAAAAAGCTAAGCAAGGTAGAATTGTCAATCTTTCCTCTGTAACAGGAACGATGGTAGCTGATCCTGGCGAAACCGCATACGCAACAACGAAGGCAGCCATTCTTGGTTTCACAAAATCATTAGCTAGAGAAGTAGCTCCTGATAATATTACTGTGAATGCTATCTTACCAGGCTATGTGTTAACTCCTATGGCAGAACAAATGGCAAAAGAAACGAATCCAGATAATCCGCAAGAAGTCATTGACGGAATAGCAAGCGGGGTTCCTTTAGGACGTCTTGGTAAAATTGAAGAAGTCGGTGAACTTGCAGCGTTCTTAGCTTCTGATGAATCCAGCTACATCACAGGTACACAAATTGTTATTGATGGCGGTAGCACATTACCAGAAACTGTTTCCGTCGGGAGCTAA MKKMEGKIAIVTGAAMGNGKGIAEVLAKHGATTILLDVSKQVHDTAKELTERGFETMALEVDVTNNEDVKAGIDKVIEKYERIDALINNAGVVRLANFEDMDDETRDFHFNININGVWNVTKAVLPHMKKAKQGRIVNLSSVTGTMVADPGETAYATTKAAILGFTKSLAREVAPDNITVNAILPGYVLTPMAEQMAKETNPDNPQEVIDGIASGVPLGRLGKIEEVGELAAFLASDESSYITGTQIVIDGGSTLPETVSVGS PGPT0003180_17144 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 AK015_01053 921 ctaB2_1 COG0109 Protoheme IX farnesyltransferase 2 ATGATTTTGGAAAATAAGCAGGAAAGACCAAGGCGAAATTGGGCAAACATTTTGTCAAAAACGATTAAAACGGGGATTATTCGCTCAAATCTGATCCCGATGTTTGCTGGTTTTACTTTGGCTTTATATACGTATCAAATTAGTTTTATGGAAAAGTTGCCGGATGTTATTTTTGCTTTGCTTGGTGCAGCCTTAGTTATTGGAGCTGCGGGTGCTTTTAACAATTTATATGATCGAGATATTGATGCAATTATGGAAAGAACCAAGCGAAGACCTACTGTAACAGGGGAAATAAAACCAGCTATTGTACTGTTGCTGAGCGTAATTATGGCGATCAGCGGGATTGCATTATTAGCGTTAACAACGTGGTTAGCTGCACTATTAGCTTTCTTGGGGCTGTTTTTTTATGTCTTTCCATATACGATGTGGAGCAAACGAAAAACGGTATATAATACAGAAATAGGCAGTATTTCCGGTGGGATGCCTCCACTCATTGGATGGGCAGCTGTCTATCCAGATATTACCCATCCCGCCATCATCGGTTTATTTATTGTAATGATTATTTGGCAAATGCCGCATTTTTATGCAATAGCCATTCGAAATCATAAACAATATAAAGCTGCAAAAATTCCTATGCTTCCTGTTGTAAAGGGTGTGCAACGCACCTACATTCAAACGAACGTTTATTTAATTATTATGATTGTAATTAGTTTCTTATTTGGTACATTAAGTATCGGGCTAATGTTAGTAGCACTTTTGTTAAGTGTAGGTTGGTTGACACTTAGTGTGTATCGCTATAACAAAGTGGATTCAGAGAAGTGGGCAACTTCCATGTTTCTGTACTCCTTAATCCATATGACAGTGCTTTTTTCTACCATTATTATTTATTCATTAATGGGAATTGTGTTTGAGCTCTATTAA MILENKQERPRRNWANILSKTIKTGIIRSNLIPMFAGFTLALYTYQISFMEKLPDVIFALLGAALVIGAAGAFNNLYDRDIDAIMERTKRRPTVTGEIKPAIVLLLSVIMAISGIALLALTTWLAALLAFLGLFFYVFPYTMWSKRKTVYNTEIGSISGGMPPLIGWAAVYPDITHPAIIGLFIVMIIWQMPHFYAIAIRNHKQYKAAKIPMLPVVKGVQRTYIQTNVYLIIMIVISFLFGTLSIGLMLVALLLSVGWLTLSVYRYNKVDSEKWATSMFLYSLIHMTVLFSTIIIYSLMGIVFELY PGPT0008520_2167 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 AK015_01054 108 hypothetical protein ATGAAGGAAAAAGGGCGGTTCATATCTATTATAAATGATGTGGTTTCTAGTATAAAAGCAATGATGCATAAAGACATGATTAAAAATCGACTGATTTTAAAAGGTTAG MKEKGRFISIINDVVSSIKAMMHKDMIKNRLILKG NA NA NA NA NA AK015_01055 1338 hypothetical protein ATGGATAATTTGGCTGTATCGATCATTATTCTTCTGGTTTTAATTATTGCAAATGGTATCTTTGCAATGACAGAAATTGGAATTGTTACATCAAGGAAAATAAGATTAGAACAAAAAGTAAAGGAGGGAAATAGCAAAGCTAAAACAGCCCTTTATTTGGCCGAAAACTCTAGTGAGCTTCTATCTACCATTCAGATAGGGATTACATTGATTGGAATTATATCTGGTGCCTTTGGTGGTGCTGCCATTGCGGATGATGTGAGTGTTTATTTGAGCGAAATTCCTTTTTTAGCACCTTGGAGCAGGGAGATTAGTATGGTACTTGTCGTTACATTGACAACTTTTTTAACGCTCGTTATCGGTGAACTAACACCAAAGCAAATTGGCTTAACAAATCCGGAGAAAGTAGCACTTGCTGTGGCAAAACCGATGTATTTCTTTTCAAAAGTTGCCAAACCGTTAATCTGGATACTAGATCAGTCCACAAAACTCGCCCTCAAGACACTCGGAATTAAAACAACCAATGAACCAGACGTAACAGAAGAAGAAATTCAACAAATGATTGAGCAAGGTGTTCATAGTGGTAGTATTGAGGAAATTGAGCACGAGATGGTCGATCAAATTTTTTATATGGGCGATCAGCGTCTGAGTGATATATTAACACCGCGAACGCAATTAACTTGGATAGATATAGAAAGTAGTTTTGAAGAAAATATGGAAATCATTAGTCAAAGTGAGTTTTCACGCTTTCCTGTTGGAAAAGGGAGCTTAGACCACTTTTTAGGTATTATACATACGAAAAAAGTGTTTTCAAAATTACAATCAGCAGAAGCATTCTCGATTGATGACTGTATTGAAAAAGCGTTGATTCTACCGGAACATGTAAAAGTCTTTAAGGCTTTGGAAACGTTAAAAGAATCAGGATATCATCAGGCTGTTGTTGTAGATGAGTATGGAGGTGTCGAAGGTTTTGTAACGTTAAATGATATTATGCAAGTTATTGTTGGTGAAATACAGACAGAAGGAGGTAGGGAAAGGGCTACAATCATGCAGCGTGATAATGATTCATGGCTTGCAGACGGTCAAGTTCCATTTGATACATTTTTGCGTTATTTCGATTTAGAAGATGAAATTGATGATGATGTTATGAAAGATACATCCTTCCAAACACTAGGTGGTTTTATCACGAGCGAAATAGGTAATACTCCAATAGAAGGGAATAGTGTTTTTATAGCTAATTTGAAATTAGAAGTAGTCGATATGGATAGCGTACTTGTCGATAAACTCTTAATTACTCGACTAGAAGAAACAGAAGTAAAAGAAGAAGATAACGTATAA MDNLAVSIIILLVLIIANGIFAMTEIGIVTSRKIRLEQKVKEGNSKAKTALYLAENSSELLSTIQIGITLIGIISGAFGGAAIADDVSVYLSEIPFLAPWSREISMVLVVTLTTFLTLVIGELTPKQIGLTNPEKVALAVAKPMYFFSKVAKPLIWILDQSTKLALKTLGIKTTNEPDVTEEEIQQMIEQGVHSGSIEEIEHEMVDQIFYMGDQRLSDILTPRTQLTWIDIESSFEENMEIISQSEFSRFPVGKGSLDHFLGIIHTKKVFSKLQSAEAFSIDDCIEKALILPEHVKVFKALETLKESGYHQAVVVDEYGGVEGFVTLNDIMQVIVGEIQTEGGRERATIMQRDNDSWLADGQVPFDTFLRYFDLEDEIDDDVMKDTSFQTLGGFITSEIGNTPIEGNSVFIANLKLEVVDMDSVLVDKLLITRLEETEVKEEDNV NA NA NA NA NA AK015_01056 2637 COG0474 Calcium-transporting ATPase ATGGAATATTACCAAAGGCAAACAGAAGATGTTCTAAAAGCAGTAGCGTCCACGGAACAAGGTTTATCTCAACAAGAAGCGAATGCACGCCTGAAACGGGACGGATATAATGAAATAGAAGATAAAGAGAAAGTTCCTACGTGGAAATTATTTTTAGAAACCTTTAAAGATCCAATGGTTATTGTATTATTAGCAGCAGCTGGTGTGCAAATGTTACTGGGAGAATGGGTGGAGTCACTCATTATTTTCCTTGTATTATTAATTAATTCTGTCATTAGTGTTGTGCAAACACGTAAGGCGGAAAGTTCCTTAGAAGCGCTCCGAGATATGTCTGCGCCTGAAGCAAAAGTCATACGAGATGGTACGAAGCAGACGATTGCTGCTAAAGAACTCGTCCAGGGAGATATTGTTTATTTAGAAGCGGGGGATTACGTTCCTGCTGATGGCCGGGTGTTGGAAAGTGGCTCTTTGAAAGTAAATGAAGGAATGCTCACAGGTGAGTCAGAGGCTGTTGATAAATCGACCGAAGCAATTGAAGAAGAAGCTGCACTTGGTGATCGTAGTAACATGGTGTTTAGCAGTTCTTTAGTTGTATATGGTCGGGGTTCTTTTGTCGTAACTGGTACGGGGACGAAAACCGAGGTTGGTAAAATTGCCGATATGCTTTCTACGGCAGAGCAAAAAGAAACGCCACTACAACAGAAATTAAATGGCTTTAGCAAGAAGTTAGGTATTGGTATATTAATTCTTTGTATTGTTATTTTTGCTGTCCAAGCTGCGCGTATTTGGTTTGGTGATAGTGATGTAGATACAACAACTGCATTATTAAATGCTTTAATGTTTTCCGTAGCGATTGCTGTGGCTGCGATTCCAGAAGCACTCCAATCGATTGTTACCATTGTCTTGTCAGTTGGAACAAATAAAATGGCAAAACAGCATGCGATCATTCGTAAACTTCCTGCTGTTGAAACATTAGGCTCCACCAGTATTATTTGCACGGACAAAACAGGGACATTGACGCAAAATAAAATGACGGTTACCGATCATTATTTACCTTTTAATAAGCATGAACGTTTGCCTGAAGATCCAAATGATTGGTACGAAGCAGAACGTTTACTAGTTTATATTGCTGCGCTATGTAATGATTCGTATATTAATCAGGACAAGCAGGAGGTTGGTGATCCAACTGAAATAGCTTTAATTAACTTTGCAAATCAACATGCACACAATTACGAAGAGCTGCGAGAAAGGTTTCCACGAACAGCAGAGTTACCATTTGATTCAGATCGAAAATTGATGTCAACTGTAAACACAATTGATGGGGCAAATCTGCTCTTGGCAAAGGGCGGCCCTGATGTCATGTTTCAGCGGGCTGGCTATGTGTTCGTAAATGGCGAAGAACAGCCAATGACAGATGATTTACGCGCACGATTTGAAGGGGCAAATGAAGAGTTTTCTAATCAGGCGTTACGTGTGCTAGCCTATGGGTATAAACGCTTACCTGATACAAAAACGGAAGTCACTCATGATGATGAGTATCATTTTGTGCTTGTCGGTTTAACGGCAATGATGGACCCGCCTCGAGAAGCTGTATATAGCTCCATTGAAGAATCCAAAGCTGCAGGTATTCGAACAATAATGATTACTGGTGATCATAGAACAACAGCACAAGCAATTGGACGAGATATCGGTTTAATGGGTGACAATGATATAGCCATTACGGGTAAAGAGCTCGATAACATGTCGGATGACGAGCTAGAAGAAAAAATTGAGCATATTTCTGTATATGCTCGCGTGTCGCCAGAGAATAAGATTAGAATTGTACGTGCATGGCAGCGAAAAGGTGCTGTTACTGCGATGACAGGTGACGGTGTCAATGATGCGCCAGCTTTAAAACAAGCTGATATCGGCGTAGCTATGGGAAGCGGTACGGATGTTTCTAAAGATGCTGCGGCAATGATTTTAACGGATGATAATTTCGTATCCATTGTTAATGCTGTGCAGGTGGGAAGAACGGTGTTTGATAACATTAAAAAGGCCATTGGTTATTTATTCGCTGGTAATTTAGGAGCGATTATTGCCATTTTATATGCCGTGATTTTTAACTTACCAAACCCATTTACAGCTTTACAATTGTTATTTATCAATTTAGTAAACGACTCCTTGCCAGCCATCGCTTTAGGTGTGGAAAAATCAGAACCAAATGTAATGAAACGTAAGCCACGACCGACGGATGAAGGGATATTTGCTGGAGGAACATTGCAAACTGTCATAACGAGAGGGATATTGATTGCTGTCGCAGTTGTTATTTCCTTCTATATAGGATTAGATCATTCGAATGAAATGGGCGTCGCTATGGCGTTTACTACATTAATCATTTCTCGTACGTTGCAAACTTTCCCAGCTCGTTCCAATACGGAGACGTCAATAAAAATGGGCTTTTTCTCCAATAAATATGTAATTGGCGCTGTATTGTTAGGTTTTGTTTTGTATGGAATAACAGTGCTTCCTTTTGCAAGAGATGTATTTAACATTCCTGATGCATTTGGCTTTAGTGATTGGGCTATCGCTACAGGGTTAGCAGCCGCTGCAGTAATTTGTATGGAAATAGCCAAAAAAATGTTTAGAAGAGCTTAG MEYYQRQTEDVLKAVASTEQGLSQQEANARLKRDGYNEIEDKEKVPTWKLFLETFKDPMVIVLLAAAGVQMLLGEWVESLIIFLVLLINSVISVVQTRKAESSLEALRDMSAPEAKVIRDGTKQTIAAKELVQGDIVYLEAGDYVPADGRVLESGSLKVNEGMLTGESEAVDKSTEAIEEEAALGDRSNMVFSSSLVVYGRGSFVVTGTGTKTEVGKIADMLSTAEQKETPLQQKLNGFSKKLGIGILILCIVIFAVQAARIWFGDSDVDTTTALLNALMFSVAIAVAAIPEALQSIVTIVLSVGTNKMAKQHAIIRKLPAVETLGSTSIICTDKTGTLTQNKMTVTDHYLPFNKHERLPEDPNDWYEAERLLVYIAALCNDSYINQDKQEVGDPTEIALINFANQHAHNYEELRERFPRTAELPFDSDRKLMSTVNTIDGANLLLAKGGPDVMFQRAGYVFVNGEEQPMTDDLRARFEGANEEFSNQALRVLAYGYKRLPDTKTEVTHDDEYHFVLVGLTAMMDPPREAVYSSIEESKAAGIRTIMITGDHRTTAQAIGRDIGLMGDNDIAITGKELDNMSDDELEEKIEHISVYARVSPENKIRIVRAWQRKGAVTAMTGDGVNDAPALKQADIGVAMGSGTDVSKDAAAMILTDDNFVSIVNAVQVGRTVFDNIKKAIGYLFAGNLGAIIAILYAVIFNLPNPFTALQLLFINLVNDSLPAIALGVEKSEPNVMKRKPRPTDEGIFAGGTLQTVITRGILIAVAVVISFYIGLDHSNEMGVAMAFTTLIISRTLQTFPARSNTETSIKMGFFSNKYVIGAVLLGFVLYGITVLPFARDVFNIPDAFGFSDWAIATGLAAAAVICMEIAKKMFRRA PGPT0013990_4579 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537 NA NA AK015_01058 780 hypothetical protein GTGGATATTGGGGAGCAAAATCGTCTTGCGTGGGACAAGAAAGTGGAAGACAGGGCAGTTTATACGCAGGAAGCATCTAGCGATGTAATTAAAAAAAGTAAAGCGGGAAATTGGGAAATAACCGTCACGACGAATAGACCTGTTCCGAGAAGCTGGTTTCCTGTATCTCTTACAGGGAAGAAAATCTTGTGCTTAGCTTCTGGTGGGGGACAGCAAGGGCCTATTTTAGCTACAACTGGAGCTGACGTAACAGTATTTGATATATCTAAACGACAACTGGAAAAAGATTTGCTCGTCGCTGAACGTGAAGGATTAAATCTAAAAACTGTACAAGGTGACATGGCGGATTTATCTTGTTTTCAGGATGAAACGTTTGATATCATTGTTCATCCTGTTGCAAATTTGTTTGTGAAAGATATTTCCCATGTTTGGCATGAAGCGGCTCGGGTGTTAAAAACGAACGGTACACTTATTTCTGGTTTTACGAATCCTGTGTTATTTATTTTTGATGATGAAGAAGATAGAAAAGGAAATTTAGTTGTAAAGCATACAATTCCTTTTCATTCTTTACAAGACCTTTGTGAAGAAGAAGTAGAGACGTATTTAAAAGCAAATCACACGATTGAATTTGGTCATACTTTAGAAGATCAAATTCAAGGGCAGGTGGATGCAGGCTTTGTGATTGCAGGTTTTTTTGAAGACGATTTTGGGGGCAATAGACCGTTGGATCAACATTTAAAATGCTTTATCGCAACAAAAGCAATAAAGGCATCTATTTAG MDIGEQNRLAWDKKVEDRAVYTQEASSDVIKKSKAGNWEITVTTNRPVPRSWFPVSLTGKKILCLASGGGQQGPILATTGADVTVFDISKRQLEKDLLVAEREGLNLKTVQGDMADLSCFQDETFDIIVHPVANLFVKDISHVWHEAARVLKTNGTLISGFTNPVLFIFDDEEDRKGNLVVKHTIPFHSLQDLCEEEVETYLKANHTIEFGHTLEDQIQGQVDAGFVIAGFFEDDFGGNRPLDQHLKCFIATKAIKASI NA NA NA NA NA AK015_01059 1878 nrdD COG1328 Anaerobic ribonucleoside-triphosphate reductase ATGATCGAAACAAAAACCACTCCCAAAAACATAGGTGAAGACTTAGTGCTGGCTTTTCAAGACATTGTGTCAAGCTCTAACCAAGATTTAATTCAAGAAAATGCCAATGTTGATGGCAGATCACCATGTGGACAGATGAATAAATTTGCCAATGAGAGTGCTAAATTCTATGCAAAGCAACAAATGTTAAGCGAAGAAGCTAACCAAGCTGTAGCAGAAAACTATATTCATATTCATGATTTAGACTATATGCCGACAGGAACGGCTACTTGTTGTCAAATTCCTTTAGGAAAATTATTGGAAAAAGGATTCAACACGGGACATGGTCATATGCGCTCGCCGCAAACGATTCTAAGTGCGATGGCGCTAGCGGCGATTATTTTTCAAAGTAATCAAAATCAACAACACGGAGGACAAAGTTTTCCGGCATTTGATTATGATTTAGCACCGTTTGTTAAACGTTCCTATGAAAAACGTTTACGTAAATTAAAACAATACCCGCTTGCACTTTCTAAGCAACAATTGGAGGAATTAGCGTGGTCGGAGACAGACCATGAATGCTATCAAGCATGTGAGGCGTTTATTCATAATTTAAACAGCCTTCATTCTCGAAGTGGTGGTCAAGTTCCGTTTACGTCCATTAATTATGGTACAGATACAAGCAGAGAAGGTAGAATGATTGTAAAAAATTTATTGTTAGCTACGCAAGCCGGTTTAGGTAAGGGAGAAACGCCAATCTTTCCTATTCAAATTTTTAAAATGAAAAAAGGCGTTAATTTCTATAAGGAAGATCCAAACCATGATTTGTATCAACTAGCGCTTAAAACGACAGCAAAACGATTGTTCCCTAATTTTAGCTTTATTGACGCACCTTTTAATTTACACTATTATGAACCTGATAACCCATACTCAGAAGTAGCTTATATGGGATGTCGCACACGAATAATGGCTAATCGTCACGGAAAAGAAAATAGTCTTGGCAGAGGCAACTTGTCATTTACAAGTATCAACTTAGTGAAATTAGCACTTACTACACAATCTTTTGAAGCTTTTATACAAAAATTAGATGAATACGCAGATATTGTCATACGTCAGTTGTATGATCGTTATCTATTTCAGGCGCGTAAACTTGTGAAAGATTTCACCTTTTTGCATGGACAAGGAGTATGGGAAGGAAGTTCACAATTAGGTCCTGAGGATAGATTAGAAAAAGTGTTAAAACAAGGAAGCTTAAGCGTTGGCTTTATCGGCTTAGCAGAATGCTTAGTAGCCTTAACAGGCAAGCACCACGGCGAATCTGATGAAGCACAGAGTACTGGGGAAGAGATTGTTGCGTTTTTACGTAGCAAATGTGATCAGGCTTGTGAACAATATGATTTAAATTATTCCTTAATAGCAACTCCTGCTGAAGGTTTAAGCGGTCGGTTTACCAAGCAAGATCAAAAGGAATTTGGCAGAATTCCAGGCGTTACTGACAGAGATTATTATACAAATTCGTTTCATATCCCAGTATACTATCCAATTTGTGCTATGGAAAAAATAAAACGAGAAGCAATATATCATCCATATACGAATGCTGGCCATATTACGTACATTGAAGTAGACGGGGATGTAAGTAAAAATTTAAAGGCGATGGATACACTTGTAAAAACAATGGCAGAAAGCGGTATTGGTTATGGAAGTGTGAATCATCCAGTAGATCGTTGTAAAAACTGTGGTTATACAGGGATGATAGATAATGAATGCCCTAAATGCCAAATAACAGATGAAAAACAAATCGATCGAATTCGCCGGATCACAGGTTATCTTGTAGGAACGATGGATAAATGGAATACGGCAAAAGCCTCCGAAGAACATGATCGGGTGCGGCATGTGTAA MIETKTTPKNIGEDLVLAFQDIVSSSNQDLIQENANVDGRSPCGQMNKFANESAKFYAKQQMLSEEANQAVAENYIHIHDLDYMPTGTATCCQIPLGKLLEKGFNTGHGHMRSPQTILSAMALAAIIFQSNQNQQHGGQSFPAFDYDLAPFVKRSYEKRLRKLKQYPLALSKQQLEELAWSETDHECYQACEAFIHNLNSLHSRSGGQVPFTSINYGTDTSREGRMIVKNLLLATQAGLGKGETPIFPIQIFKMKKGVNFYKEDPNHDLYQLALKTTAKRLFPNFSFIDAPFNLHYYEPDNPYSEVAYMGCRTRIMANRHGKENSLGRGNLSFTSINLVKLALTTQSFEAFIQKLDEYADIVIRQLYDRYLFQARKLVKDFTFLHGQGVWEGSSQLGPEDRLEKVLKQGSLSVGFIGLAECLVALTGKHHGESDEAQSTGEEIVAFLRSKCDQACEQYDLNYSLIATPAEGLSGRFTKQDQKEFGRIPGVTDRDYYTNSFHIPVYYPICAMEKIKREAIYHPYTNAGHITYIEVDGDVSKNLKAMDTLVKTMAESGIGYGSVNHPVDRCKNCGYTGMIDNECPKCQITDEKQIDRIRRITGYLVGTMDKWNTAKASEEHDRVRHV PGPT0021330_1969 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636 NA NA AK015_01060 483 nrdG COG0602 Anaerobic ribonucleoside-triphosphate reductase-activating protein ATGGATACAGCAAGCGTGTTATCCATTTATCATGATTCGGTTGTGGATGGGGAAGGACTACGTGCTGTTATCTTTTTTGCGGGTTGCCCTCATTTCTGCAAGGGATGCCATAACCCGAAGTCATGGAATTTGCGAAATGGCAAAGAAATGCATGTAAATCAAATTGTGGAAGAAGCGCTGAACCCATTAAATGATATTACATTAAGTGGTGGCGATCCGTTTTACCAAGCAGAGGCTGTAGCTAAAGTAGCTAAACAACTTAAAGAGCATGGTAAAAACATATGGGCTTATACGGGATGGACATTAGAACAGTTATTAGAGAATAAAGATCCGCACCAATTAGAGTTACTGCAATATGTGGACGTACTTGTAGATGGTCCATTTATTCTAGCAGAACGTGATTTAACGTTAACGTTTCGTGGAAGTCGAAATCAACGGATCATTGATATGAAAACAATGCAGGATTATACGATGGATGACTAA MDTASVLSIYHDSVVDGEGLRAVIFFAGCPHFCKGCHNPKSWNLRNGKEMHVNQIVEEALNPLNDITLSGGDPFYQAEAVAKVAKQLKEHGKNIWAYTGWTLEQLLENKDPHQLELLQYVDVLVDGPFILAERDLTLTFRGSRNQRIIDMKTMQDYTMDD NA NA NA NA NA AK015_01061 1128 gloB_5 Hydroxyacylglutathione hydrolase ATGTCTTTTACAGCAATGAAGTCTCATGAAGTAGCAAGAAAGGTCATCCAAAAGAAAGAATTATTTATTTTGGATGTTCGTAATGAAAGTGATTTTGCAGATTGGAAGATAGAAGGAGAAAATTTTTCATATTTAAACGTCCCTTACTTTGATTTAATTGATGGTGTAGATAGTATTTTAGATAAATTGCCAACAGATAAAGATATTTTAGTTGTTTGTGCGAAGGAAGGATCTTCTGTAATGGTTGCTGAAATGCTGTCGGAACAGGGATTACAAGTTTTCTATTTAGAAGGCGGTATGAAAGCTTGGAGCGAACACATGGAGCCAATAAAAGTTGGTGATTTAACTAACGGTGGTGAAATGTATCAATTTGTTCGCTTAGGAAAAGGATGTCTCTCTTATATGGTAGTGTCTAATGGTGAAGCGGCAATTATTGATGCTACACGCATGACAGGAATTTTCACTCGTTTTGCGAAGGAGCTTGGCGTTACTATTAAGCATGTGCTCGACACACACTTGCATGCAGATCATATTTCTGGTGGTAGAAGTATCGCTAAAGAAACAGGAGCGACGTATTGGCTTCCACCGAAAGACGCTGGAGAAGTTGTATTTGATTATCAAGCTCTAGAAGACGGGGAAGAAGTGAAGATTGGTAATACAACCATTAATATCCATGCTTTATATAGCCCGGGGCATACCATTGGTTCTACATCCTTTGTCGTCGGTGAAAAATATTTATTGACAGGTGATATTCTATTCATTGATTCTATTGGTAGACCAGATTTAGCTGGACTTGCAGAAGATTGGGTAGGAGATCTACGCGAAACGTTGTATCATCGTTACCGTGAATTATCAAATGAACTCATCGTTCTTCCGGCTCACTTTATGATTATCGAAGAATTGAATGAAGATGGTACAGTTGCTGAAAAGCTGGGAACACTATTTGCGAAGAACCACGGATTAAATATTGAAGACGAAGCGGAATTTAGAAAACTAGTAACGGAGAATTTACCACCTCAACCAAATGCGTATCAAGAAATTCGTCAGACGAATATGGGGAAAATTACTCCTGATGAGGAAAAACAACGTGAAATGGAAATCGGTCCTAATCGTTGTGCTGTTCGATAA MSFTAMKSHEVARKVIQKKELFILDVRNESDFADWKIEGENFSYLNVPYFDLIDGVDSILDKLPTDKDILVVCAKEGSSVMVAEMLSEQGLQVFYLEGGMKAWSEHMEPIKVGDLTNGGEMYQFVRLGKGCLSYMVVSNGEAAIIDATRMTGIFTRFAKELGVTIKHVLDTHLHADHISGGRSIAKETGATYWLPPKDAGEVVFDYQALEDGEEVKIGNTTINIHALYSPGHTIGSTSFVVGEKYLLTGDILFIDSIGRPDLAGLAEDWVGDLRETLYHRYRELSNELIVLPAHFMIIEELNEDGTVAEKLGTLFAKNHGLNIEDEAEFRKLVTENLPPQPNAYQEIRQTNMGKITPDEEKQREMEIGPNRCAVR NA NA NA NA NA AK015_01062 552 can COG0288 Carbonic anhydrase 2 ATGGATGAACAACATATCATTCAAAGTAATCAAGATTTTGTTAAAAAAACGCAATTGGAAGACCCGGATCTTTTCAATCAGTTACAACAAGGGCAACACCCTGATTTCTTCGTATTAGCATGTAGTGATTCTCGAGTTAGTCCATCTGTCATTTCGCAAATGAAGCTTGGCAATATGTTTGTCCACCGAAATATTGCTAACCAAGTAGCGAAAGAGGATGCAAGTTTTTCAGCGAGTCTTTATTATGCCTTGGTCCATCTTAAAGTGAAGCATATTATTATAAAGGGGCATACAGAATGTGGTGGTATTCACGCTGCTTGGAGTGGTAACAATGAAGAAGAATTAGCACCATGGATTGCTAACATCCGCAGTAATTTACCAGATTCAAGTTCTAACAAAGAAGTCTCCATGGATGAGCTAACGAAAATCAATATCATGAAACAGGTAGAGCATATAAAAGATCATCCTATCTACAAAGCATATGGAGAAGGAGTAAGCGTAAGTGGATTATTGTTCCATCTTGACAGTGGAAAATTAGAAAAAATCGTCTAA MDEQHIIQSNQDFVKKTQLEDPDLFNQLQQGQHPDFFVLACSDSRVSPSVISQMKLGNMFVHRNIANQVAKEDASFSASLYYALVHLKVKHIIIKGHTECGGIHAAWSGNNEEELAPWIANIRSNLPDSSSNKEVSMDELTKINIMKQVEHIKDHPIYKAYGEGVSVSGLLFHLDSGKLEKIV PGPT0002415_6779 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673 NA NA AK015_01063 1683 COG0659 putative sulfate transporter TTGTGGAAAAAACTAGTTCCAGCGTTTGATTGGTTGCCAAATTATAATCGTAGTGATTTCAGTGGTGACTTATCAGCCGGATTAATTGTAGCCATTATGCTAATCCCACAAGGTATGGCTTATGCCATGTTAGCTGGTTTAGACCCAGTTATCGGACTATATGCTTCAACAATTCCTTTAATTATCTATGCGCTTTTTGGTACATCAAGACAGTTAGCAGTAGGTCCAGTAGCAATGGTGTCTTTACTTGTTCTAAGTGGTGTTTCAACATTAGCTGAACCCGGATCATCGGAGTATGTTTCGCTCGTTCTTTTACTCATGTTAATGGTAGGATTGATTCAATTATTATTAGGGGTTCTTAAGCTAGGATTCTTAGTTAACTTTCTGTCGCATGCTGTCATTAGTGGCTTTACTTCAGCAGCAGCGATCATTATCGGTTTGAGTCAATTAAAGGACCTAACTGGTGTTACGTATGAATCTGGAAAAAGTGAAGTGTTTTTGCTTATCTTAGAATCTGTAAAACGAATATCCGAAATTAACCCAATTACATTAACGATTGGTATTGGTAGTATTGTTTTGTTAATTCTATTTAAAAAATATGTAAAAAAGATACCTGGCCCTATTGTAGTGGTTACACTAAGCATCTTAGCAGTGTATGTTTTCAATTTATATGAAGATGGTGTATCGATTGTAGGGCAAGTTCCTAAAGGACTGCCAGCATTGTCTTTCCCAACATTTACGATGGATTCCATCGTTGCTTTGCTACCAATAGCGTTTACCATTACCTTTGTTGGCTTTATGGAATCTATTGCTATGGCAAAGGCTATCGCAGCTAAAGAAAAGTATAAAGTAAATGCAAATCAGGAATTAATAGGCTTAGGTTTGGCAAATGTTGGAGGTTCCTTTTTCTCTGCTTATCCTGTAACAGGTGGTTTTTCTAGATCAGCGGTCAATTACCAAGCAGGTGCAAGAACGCCGTTAGCTTCAATTATTACGGCAGTGCTCATTATGCTAACATTACTTTTTTTCACAGATTTATTTTATTATCTTCCAAAGGCTGTGTTGGCGGCAATTATTATGGTAGCTGTCTATAGTTTGATCGATTTTCATGAAGCTAAAAAACTATTTAAACTTAACAATGCAGACGGTTGGACTTGGATACTAACATTTTTGGCAACATTAGTGCTCGGAATTCAAACAGGTATTTTAATCGGTATTGTATTTTCACTGCTTGTCTATGTTAGTAAAAATGCTTATCCACATATTGCGGAATTAGGCTTTGTGGAAAGTCGTGGTGTGTATAAAAACAAGCAACGTTATCCTGATGCAATGGATGATCCAGAGGTAATCATCTTTCGTGTAGATGCTGATCTGTTCTTCGCTAATATGTCATTTGTTGAAGATAAAATGTGTAATCGGTTAGCAGAAAAACCAGATACAAAGTATGTTATTATGGATTTTTCCGGAGTGAATTCGATGGATGCTGTTTCCATTCATTCATTGGAGGAAATGATGCAGACTTGTAATCAGCATACGCAATTTTTATTTGCGGGTATTAAAGGGCCTGTCATGGATGTATTAGAAAAAGCAAGCTGGGATAAAAAATACCATCAGATGATTCACTATATTACTATTGAAGAAGCAGTAAAATCATTGAAAAATAGGGTGAAGAACGATGGATGA MWKKLVPAFDWLPNYNRSDFSGDLSAGLIVAIMLIPQGMAYAMLAGLDPVIGLYASTIPLIIYALFGTSRQLAVGPVAMVSLLVLSGVSTLAEPGSSEYVSLVLLLMLMVGLIQLLLGVLKLGFLVNFLSHAVISGFTSAAAIIIGLSQLKDLTGVTYESGKSEVFLLILESVKRISEINPITLTIGIGSIVLLILFKKYVKKIPGPIVVVTLSILAVYVFNLYEDGVSIVGQVPKGLPALSFPTFTMDSIVALLPIAFTITFVGFMESIAMAKAIAAKEKYKVNANQELIGLGLANVGGSFFSAYPVTGGFSRSAVNYQAGARTPLASIITAVLIMLTLLFFTDLFYYLPKAVLAAIIMVAVYSLIDFHEAKKLFKLNNADGWTWILTFLATLVLGIQTGILIGIVFSLLVYVSKNAYPHIAELGFVESRGVYKNKQRYPDAMDDPEVIIFRVDADLFFANMSFVEDKMCNRLAEKPDTKYVIMDFSGVNSMDAVSIHSLEEMMQTCNQHTQFLFAGIKGPVMDVLEKASWDKKYHQMIHYITIEEAVKSLKNRVKNDG PGPT0003020_2485 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321 NA NA AK015_01064 228 tusA COG0425 Sulfur carrier protein TusA ATGGAAGCAGCAAAAGTATTAGACGCAAAAGGGTTAGCATGCCCAATGCCAGTAGTAAGAACAAAGAAGGCGATCGAAGAAATAAATGCAGGAGAGATTTTAGAGGTGCATACAACAGATAAAGGTTCAAAAAGTGATTTAACGGCGTGGGCTAAGTCTGGTGGGCATGAATTAGTAAAAGAAGCCGAAGAAGGCGATGTATTTAAGTTTTGGATTAAAAAGGCTTAA MEAAKVLDAKGLACPMPVVRTKKAIEEINAGEILEVHTTDKGSKSDLTAWAKSGGHELVKEAEEGDVFKFWIKKA NA NA NA NA NA AK015_01065 399 dsrE2_1 COG2210 Sulfur carrier protein DsrE2 ATGGCAAATACAAAAGTGGCAATTATTGCAGCAAATGGGGGACTGTTTGATGCATATAAAGTTTTCAATTTAGCAACAGCAGCTGCAGCATCGGATGCAGAAGTAGGCATTTTCTTTACATTTGAAGGATTAAATTTAATTCATAAGGAAGCTCATAAAAACCTTCCATTGCCAGAAGGAAAAGAGCATTTTGAGGAAGGCTTTAAACAAGCAAATGTACCATCCATTGCAGAATTATTAAGTATTGCGCAAGAAATGGATGTAAAAATACTAGCCTGTCAAATGACAATGGATGTAATGAACTTAGAAAAAGATCAGCTCGTTGATGGTATTGAAGTCGCTGGTGCAGCATCTTTTATTGAATATGCGAAAGATGCCAATATGACGCTAACATTCTAA MANTKVAIIAANGGLFDAYKVFNLATAAAASDAEVGIFFTFEGLNLIHKEAHKNLPLPEGKEHFEEGFKQANVPSIAELLSIAQEMDVKILACQMTMDVMNLEKDQLVDGIEVAGAASFIEYAKDANMTLTF NA NA NA NA NA AK015_01066 573 glpE_1 Thiosulfate sulfurtransferase GlpE ATGAGTATTACTGCAAATGAAGTATTAGATGCCAAAGGGCTATCTTGCCCTATGCCAATTGTTAAAACGAAAAAAGCGATTAGCAATTTAAAGGCTGGAGAAGTTATTGAAGTGCAAGCTACAGATAAAGGTTCTACAGCGGATATAAAAGCTTGGTCTGAAAGCACAGGGCATCAATACATTGGCACGGTAGAAGAAGGAGACGTGTTGAAACATTACATCCGCGTAGCTAGTGAAGCGGAAAAGAAAGAAGAAACGAAGCATGATAACGTGGTTAATTTAAATGACTTACAAAAGAAAGTAGAAGCAAAGGATACTATTTCTATCCTTGATGTGCGTGAGCCGGCAGAATTTGCCTTTGGTCATATACCTGGGGCAATCAATATTCCTTTAGATCAATTGGATACAAGACTAGAAGAATTAGATAAAGAAAGAGAATTATATGTTATATGCCGGACGGGAAGCCGTAGCGATTTAGCTTCGCAAAAGCTTACTGCTCATGGATTTAAGGATGTGATCAACGTTGTTCCAGGTATGACCAAGTGGGAAGGATCACTTGAAAAAAATAACTAA MSITANEVLDAKGLSCPMPIVKTKKAISNLKAGEVIEVQATDKGSTADIKAWSESTGHQYIGTVEEGDVLKHYIRVASEAEKKEETKHDNVVNLNDLQKKVEAKDTISILDVREPAEFAFGHIPGAINIPLDQLDTRLEELDKERELYVICRTGSRSDLASQKLTAHGFKDVINVVPGMTKWEGSLEKNN NA NA NA NA NA AK015_01067 300 COG0607 Sulfurtransferase ATGAAGGAAATTACAACACAAGATTTGATAAAGAAGTATCAACAAGATCAACAAATAAAGATTATTGATGTTCGGGAAGATGATGAAGTAGCGCTAGGGAAGGCCCCTGGAGCACTCCACATCCCATTAGGAGACGTAGCAAATCGTGTCCAGGAATTAAACAAGGATGAACATTATTATGTCATTTGCCGTTCTGGTGGTAGAAGCGCCACTGCATGTAAAATTTTAGCAGAAAACAACATTGATTGTACAAACATAGCTGGAGGCATGCTTGCTTGGGATGAAGAAGTAGAAATATAG MKEITTQDLIKKYQQDQQIKIIDVREDDEVALGKAPGALHIPLGDVANRVQELNKDEHYYVICRSGGRSATACKILAENNIDCTNIAGGMLAWDEEVEI PGPT0013055_85 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK015_01068 480 dsrE2_2 COG2210 Sulfur carrier protein DsrE2 ATGGCTGAAAAAAAGAGGACGACAATTATTCTATTTAGTGGTGAATACGATAAAGCGATGGCTGCTTATATTATTGCTAATGGTGCTGCTGCCTATGATCATGAAGTAACGATTTTCCACACATTTTGGGGGTTAAACGCACTACGCAAAGATAATCAAGCTCCTGTAAAAAAAGGCTTCTTGGAGAAAATGTTTGGAAAAATGATGCCGCGTGGTGCTGATAAAATGGGACTATCTAAGATGAATTATTTAGGAATGGGGCCAAAAATGATGAAGCAAGTCATGAAAAAGCATAATGCTATGCCACTTCCTGATTTAATTTCTATGGCGCAGGAGCAAGACATAAAACTACTTGCTTGTACGATGACAATGGATTTATTAGGTTTGCAAAAAGAGGAGTTGCTCGACAATATTGAGTACGGTGGCGTAGGAGCATATGTCGGAGATTCCGAAGATGCAAATATAACCTTATTTATATAA MAEKKRTTIILFSGEYDKAMAAYIIANGAAAYDHEVTIFHTFWGLNALRKDNQAPVKKGFLEKMFGKMMPRGADKMGLSKMNYLGMGPKMMKQVMKKHNAMPLPDLISMAQEQDIKLLACTMTMDLLGLQKEELLDNIEYGGVGAYVGDSEDANITLFI NA NA NA NA NA AK015_01069 354 hypothetical protein ATGGCATTGTTGTTTATGAGTATATTTGTTCTAATTCTATATTTTTCCTACCAAAGATATTTCCCTGTACGGGGAGTTAGTAGCTTAGATGAAGATGAATTATTTGTTAAAGATGATCAAACCGTTTTAGTTGATTTAAGAGATTATAATAAATCTTATAAAGATGCGCTGGATCGAGCTTTATGTTTACCGTTAGCTTATTTAAATCGGCATTATCAAGACATTCCAAGCAACTCTGTTATTTTAGTTGCTTCAAATAGTGTAGAAAAAAATATTGCTGCTAGATTTTTATGCAACAAGGGGTATGCTGTCAAAGGCTACTATGTAAGAGACGAAAAAAGCTGCTCTGATTAG MALLFMSIFVLILYFSYQRYFPVRGVSSLDEDELFVKDDQTVLVDLRDYNKSYKDALDRALCLPLAYLNRHYQDIPSNSVILVASNSVEKNIAARFLCNKGYAVKGYYVRDEKSCSD NA NA NA NA NA AK015_01070 360 glpE_2 Thiosulfate sulfurtransferase GlpE ATGGAAATAGTGCAATGGGTGCTCATTGCTATAGCAGTTGTGTTTATAGTTAGTAGGTTTATGCCGGTAAAAGGCGTGACACAAATGACTGTACAAGAAGTAAAAAACAAGTTGAAAGATAGAAAAGTACAATTTATTGATGTCCGTACCCCGCAAGAATATAAGGCAAATCATCAAAAACCATTTAAAAACATACCGTTACACGAGCTAATGAATCGTTGTAACGAATTAGATAAGCAAAAAGAAGTCGTCGTTATTTGTCAAAGCGGTATGCGTAGTATGCGTGCAGCAAAAATATTAAAAAAACAAGGATTTGGAAAAATAACTAACGTAAAAGGTGGCATGGGTGCCTGGATATAG MEIVQWVLIAIAVVFIVSRFMPVKGVTQMTVQEVKNKLKDRKVQFIDVRTPQEYKANHQKPFKNIPLHELMNRCNELDKQKEVVVICQSGMRSMRAAKILKKQGFGKITNVKGGMGAWI NA NA NA NA NA AK015_01071 255 hypothetical protein ATGAAATACGATGCAAAAGTAAAAAATCGTATGAAACGTATAGAAGGACAAGTAAAAGGTATTATTAAAATGATGGAAGAAGAAAAAGATTGTAAAGATGTCGTCATGCAGTTATCAGCTGTAAAGAGTGCCTTAGATAGAACTTCAGCACTTGTAGTTAGCAAAAATCTGGAGGCTTGTATTCGTCAAGCAGATGATGAAGATGCAGAACCTTTAATTAATGAAGCGGTCAATTTGCTTGTAAAGAGTAGATAA MKYDAKVKNRMKRIEGQVKGIIKMMEEEKDCKDVVMQLSAVKSALDRTSALVVSKNLEACIRQADDEDAEPLINEAVNLLVKSR PGPT0004175_2145 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK015_01072 1371 lutA_2 Lactate utilization protein A ATGGATACACAAGAAAAAGCACGCATTCAGACCGCTTTTCAAGAAAAAATGGATTATGATGAACTAATGAATTGTACGCGTTGCGGATTTTGTTTACCAAGTTGTCCAACATATGTTGAAACAGGAAGAAATGAAGTCCATTCACCACGTGGGCGAATCGCTTTAATGAAAGGTTTGGTCGACGGGGTGATTGAACCTAGTGAAGAAGTGAAAGAATCTATTGACCTTTGTCTTGGCTGTAGAGCTTGTGAACCCGTGTGTCCTTCTGGTGTGAACTTTGGCAGATTATTAGAGCAAGCAAGGGATGCGATTTATCAAAGCAAAAATCCAACATTACCAGAAAAAGTAATGAAGGGGATCTTTTTAAAAAATATTTTCCCTCAACAAAATCGCATGATTGGGCTGACTGGTTTACTGAGCTTTTACCAACGTTCTGGTGCTCAAAAACTTGCACAAGCAACTGGTGTCATGAAACTTTTTCCTGAGACGATGCGCACCATGGAAAAAGTGCTTCCAGATGTTCCAAAGCGTTCTGCAATGAAACGACGCCCACATCACTTACAGCCACTCCACAGAAATCGTACCAAGAAGATAGCGTTTTTTTCTGGCTGTTTAATGGATACCATTTTTATGGAAACAAATGATGCTACCATGAAGCTATTGCAGTATGCAGGGTGCGAAATTGTTGTTCCTAAAACACAAGCTTGCTGTGGAGCATTACACGGACATAGTGGGGAAATGGATCATGCTCGAGAAATGGCAAAATGCAACATTGCTGCTTTTGAAGAAGCTGAAGTGGATTATATTATTACAAATGCGGGTGGATGCGGTGCCTTTTTAGTGGAATACGCTCATTTATTAAAAGATGATCCGCAATGGCATGAACGTGCAGAGCGCTTTTGTGCGAAAATCAAAGATATCACTCGGGTGTTAGTAGAACTTGAATTTCATAAACAGCCGTTGTCTTTACCGGAACAAGTCGTTACGTATCAAGATTCTTGCCATTTGAAGAACGGTCAAAAAACATTTATGGAACCAAGGCAATTGCTAGAGTCAATTTCCGGTGTTCAGTATGTAGAAATGAAAGATGCAAGTCGTTGCTGTGGTTCAGCAGGCATTTATAATATTGTTCAATCCGAAATGTCGATGCAAATCCTTGATTATAAAATGGAACAAGCAAGGAATACGAATGCGAAAACGATTGTGACGACGAATCCAGGTTGTCTACTGCAAATGAAGCTAGGTATTGAAAGAGAAGGTTTGTCTAAGGAAATGAATGCCGTGCATATTGTCGATTTTTTACTGGAAGCATATGAAAGAGCAAATGATAAAGAAGCGACAAGCAAGCAAGTTGCAGCTTCAAAAGTATGA MDTQEKARIQTAFQEKMDYDELMNCTRCGFCLPSCPTYVETGRNEVHSPRGRIALMKGLVDGVIEPSEEVKESIDLCLGCRACEPVCPSGVNFGRLLEQARDAIYQSKNPTLPEKVMKGIFLKNIFPQQNRMIGLTGLLSFYQRSGAQKLAQATGVMKLFPETMRTMEKVLPDVPKRSAMKRRPHHLQPLHRNRTKKIAFFSGCLMDTIFMETNDATMKLLQYAGCEIVVPKTQACCGALHGHSGEMDHAREMAKCNIAAFEEAEVDYIITNAGGCGAFLVEYAHLLKDDPQWHERAERFCAKIKDITRVLVELEFHKQPLSLPEQVVTYQDSCHLKNGQKTFMEPRQLLESISGVQYVEMKDASRCCGSAGIYNIVQSEMSMQILDYKMEQARNTNAKTIVTTNPGCLLQMKLGIEREGLSKEMNAVHIVDFLLEAYERANDKEATSKQVAASKV NA NA NA NA NA AK015_01073 1413 COG0277 putative FAD-linked oxidoreductase ATGTTAAATAGGGATGTAAGAGAAAAGCTAATCGCAATTGTCGGGGAAAATAATGTAGAAGATAACAATGCAAGTTTACTAGCTTATTCATATGATTCTACGCCACGGTATCAGACATTACCTGATGCAATGGTAGCACCGAGAAATAAACATGAGGTTTCAGCGGTGGTGAAAGTTTGTAATGAACATCAAATACCAATTGTACCTCGTGGGTCTGGGACAAATCTATGTGCTGGCACAACGCCTTCAGAAGGAGGAATAGTGCTTATTTTTAAGCACATGCGAGAAATTTTAGAAATTGATGAAGAAAACTTAACTATGACCGTACAGGCTGGGGTATATACAAAAGATATTTTAGATAGAGCGAAAGCAGTAGGTCTTTTCTATCCGCCAGATCCAGGTTCGATGCACATATCGCAAATCGGGGGGAATATTAGTGAGAACTCTGGTGGACTGCGAGGGCTTAAATATGGTGTGACGAGAGATTACGTGCTTGGACTTGAGATCGTTTTGCCAAACGGTGAGATCATTCAAACTGGTGGAAAGCTTGCCAAAGATGTAGCGGGGTACGATTTGACAAGATTGTATGTCGGAGCAGAGGGGACGCTTGGGGTTATTACCGAAGCGATCTTAAAGCTTGTTCCACAACCAGAAACAAAACAAACGATGCTTGCCCTTTATCATGATTTAGCAGCTGCCGCGGAAAGTGTGTCAGCGATTATTGCCAACCGCATTATTCCTGCTACCTTGGAATTTTTAGACCAAGCGACAGTGCAAGTTGTAGAAGACTATGCCAAAATTGGACTGCCGACAGAAGCGAAAGCAGTGCTATTAATTGAACAAGATGGGCCACCTGAAGTAGTCGCTCGTGATATGGAAAAGATTGCGTCGTTATGTAAAGATAATCAAGCATTTGACGTACAGGTGGCGCAAACAGATGAAGAGGCAGAGCAATTGACGGCAGCGCGGAGAACAGCGTTATCCGCGCTATCTCGGTTAAAGCCGACAACTATTTTGGAAGATGCTACGGTGCCGCGCTCGAAAATTGCAGCAATGGTAAAAGCAATTGGGGAAATTGCTGCAAAGTACGAGCTAACTATTTGTACATTCGGTCATGCTGGTGACGGAAACCTCCATCCGACATGCCTTACAGATGCTCGTAATGAGAAAGAAATGGAATTAGTAGAAAAAGCATTTGCAGAAATTTTTGAGAAGGCGGTTGACCTTGGAGGAACGATTACAGGTGAACACGGTGTCGGAATGATGAAGCTTCCTTATTTGCATTTGAAAGCGGGAGAGCATGGAGTTGAGGCGATGCGCCGTATAAAGCAAGCGTTAGATCCTCATGAAATTATGAATCCAGGAAAAATGTTTGACCCGCTCACAAAGCAAAGTAAGGAGGTGGAGAAATAA MLNRDVREKLIAIVGENNVEDNNASLLAYSYDSTPRYQTLPDAMVAPRNKHEVSAVVKVCNEHQIPIVPRGSGTNLCAGTTPSEGGIVLIFKHMREILEIDEENLTMTVQAGVYTKDILDRAKAVGLFYPPDPGSMHISQIGGNISENSGGLRGLKYGVTRDYVLGLEIVLPNGEIIQTGGKLAKDVAGYDLTRLYVGAEGTLGVITEAILKLVPQPETKQTMLALYHDLAAAAESVSAIIANRIIPATLEFLDQATVQVVEDYAKIGLPTEAKAVLLIEQDGPPEVVARDMEKIASLCKDNQAFDVQVAQTDEEAEQLTAARRTALSALSRLKPTTILEDATVPRSKIAAMVKAIGEIAAKYELTICTFGHAGDGNLHPTCLTDARNEKEMELVEKAFAEIFEKAVDLGGTITGEHGVGMMKLPYLHLKAGEHGVEAMRRIKQALDPHEIMNPGKMFDPLTKQSKEVEK 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 AK015_01074 1122 cdaR_1 COG3835 Carbohydrate diacid regulator TTGGAAAATATTCTGCTGCAAACAGATCGGCTCTATAACTCGATTGTTCAGGAAATGAATCGGCTTATTAAGGAAGAAGTGATTGTAACAGATCAGCAAGGTTATATTGTGGCGAGTACAGATGCTAAACGAATTGGCAGTTACCATGAAGGTGCTTGTATAGCAATGCAACATAAAGAAAAAATGATCATGTCAAAAGAGTTAACCAAAAAACTACATGGCGTAAGAGAAGGCGTCGTGTTTCCAATTGTGATTAACAAAATTCCTTTGGGTGTCCTTGGGATTACTGGTAACCCGTCTATCGTAGAGCCATATGCTAGATTGGTACAAAAAGTGACAGAATTATTTATACAAGATTCGCTAACTAGAATAAATCAGGAAAGCAAAGCACGTGACGTGGAATTTTTTATTTTTGACTGGCTCAATCAAACAAGCAGCTATACGAGTTTAGTTGAGAGAAGTAAATTTTTTCATATTAACATGGAAGCTTATAAGCAAGTAGTTGTATTTAAAAGAAAAGAATTAAAAACTGGATTTTCGTACCATCGATTTGAAAAGTTGAAATCTGTTTGGGATGATTTCGTCGGTGCTTTGTTTGTAAGGTGGGGGCAAGACCGAATTGTCATGTTAGTTGAAGCAGTAGAGGCATCGTTATTAGATCATTGCCTACGCAAATGGATCGCTGCTGTATACCAAGAATTAGATGAACATTTGTATGCTGGGGTTGGAAATATTGTTGAGCCAGAGCACTTATCGGCATCGTTTTCGCAAGCAGTAAAGGCAAGCGAACATGCTGATGGGACAAATCCTGTTGTGTTTGAAGCGGATTTACGTTTTGAAATGCTCGAACATGAAATTAGTGCGCAAACAAAAGAAACGTTTATTTGTCGAACTTTAAAAGAGTTAGTAAAAGAAAAAGAGCTAATGAAAACGCTAGCGAGCTGGTTTTCTCATGATATGCAAATGCAAGTTACGGCGAATGCTTTACATATTCATAAAAATACATTGCATTACCGGCTAAATCGAATTGCAGAAATTACTAATTTAAATCTTAAAAAGTTGGATGATGTTATGTTATTGTATATGGCCTTTCGCTTATCATCATGTAATTATAATAAGTAA MENILLQTDRLYNSIVQEMNRLIKEEVIVTDQQGYIVASTDAKRIGSYHEGACIAMQHKEKMIMSKELTKKLHGVREGVVFPIVINKIPLGVLGITGNPSIVEPYARLVQKVTELFIQDSLTRINQESKARDVEFFIFDWLNQTSSYTSLVERSKFFHINMEAYKQVVVFKRKELKTGFSYHRFEKLKSVWDDFVGALFVRWGQDRIVMLVEAVEASLLDHCLRKWIAAVYQELDEHLYAGVGNIVEPEHLSASFSQAVKASEHADGTNPVVFEADLRFEMLEHEISAQTKETFICRTLKELVKEKELMKTLASWFSHDMQMQVTANALHIHKNTLHYRLNRIAEITNLNLKKLDDVMLLYMAFRLSSCNYNK NA NA NA NA NA AK015_01075 987 Beta-peptidyl aminopeptidase BapA ATGAATTTAAAAAAAGGGAGCCATAATTGTATTACGGATATTGCAGGAGTCCAAATTGGACATGTCACGTTATATGAAAAATTAGATGAGGAACAAACTATTTGCACTGGAGTAACGGCCATATTGCCGCATAAAGGCAACCTATTTCGTCATAAAGTCCATGCCGGGAGTGCTGTGTTAAATGGATTTGGCAAAACAGCAGGATTAGTTCAAATAAATGAACTTGGACTTGTGGAATCACCAATTATGCTGACAAATACATTTAGCGTTGGTTCTGTTTGGCAAGGAACGCTCGACTATATGCTCGATACAACAGAAGAAATTGGCGACACGACAAGTTCCATTAATATTGTTGTCGGGGAATGTAATGACAGTTATTTAAATACAGCGCGCTACCCTGCAATCAAGCCAGAACATGCTGTCAAAGCGATTAAATCAGCTAGCACCTCGCCTGTAGCTGAAGGCTCAGTCGGTGCGGGAAAAGGGATGGTATGCTTTGGTTATAAAGGGGGAATCGGAACAGCTTCACGTATCGTTTCACATAAATCCATAAACTATCAAATTGGCGGGATCGTATTAAGTAACTTCGGCAAAAGAGGTGATGCGCTCTTTGCTCGTTGGGAGCCAGTCCAACAAGATACCCCTGATGGTTCCATCATGATGATCTTAGCAACAGATGCACCACTACTCGAGAGACAATTACAACGACTTGCTAAACGTTGTGCTGCGGGTCTTGGGTGCACTGGTAGTCAATTAGCGAACGGCAGCGGTGACATTGCCATTGCTTTTTCAACTGCGAATAAAGTCCCACACGCTTCCGATTCCTACACACAAACCGTTGATTATTTACGGGATGATCATCCGTTAATGAACCAGCTGTTCCAAGCGGTCGTTGAAATTATTGAAGAATCGGTTATCCGCTCTTTACAAATGGCAGAGACGACAGAAGGAAGAAAGGGACGAATTGTAACAAAGGCCCCTTTATAG MNLKKGSHNCITDIAGVQIGHVTLYEKLDEEQTICTGVTAILPHKGNLFRHKVHAGSAVLNGFGKTAGLVQINELGLVESPIMLTNTFSVGSVWQGTLDYMLDTTEEIGDTTSSINIVVGECNDSYLNTARYPAIKPEHAVKAIKSASTSPVAEGSVGAGKGMVCFGYKGGIGTASRIVSHKSINYQIGGIVLSNFGKRGDALFARWEPVQQDTPDGSIMMILATDAPLLERQLQRLAKRCAAGLGCTGSQLANGSGDIAIAFSTANKVPHASDSYTQTVDYLRDDHPLMNQLFQAVVEIIEESVIRSLQMAETTEGRKGRIVTKAPL NA NA NA NA NA AK015_01076 1428 Putative aldehyde dehydrogenase ATGCGAACAAATCTAAACCATTTTATTAACGGTGAATGGATCGGCTCAACTGGTTCCGAAACGATCCAAGTATGCAATCCTGCGACCGAAGAAGTGATTGGTGAGATTAGTTCTGGAACCGAAGAAGACCTCAATAAGGCAGTGGCTGCAGCAAAAGCAGCTTTCCCATCTTTTTCAAAAACGTCAAAAGAAGAACGAATCCAATTGTTGGAAGCCATCGCCAATGAGTATGAAAATAAAAAAGACGAACTGATTGACGTAATTACAGAAGAACTAGGATCTCCAGTATCTATTTCCCAACATGTTCACTACACCATGGGATATAACCATTTCAAGCATGCAGCCGAAGCATTAAAAGACTTTTCTTTTGAAGAAAATCGAGGAAATCATAAAATTCGCAAAGAATCAATTGGTGTAAGTGGGTTAATTACACCTTGGAACTTCCCAACTAATCAGACCTCGACAAAAATAGCGGGAGCGATTGCAGCCGGTAGTCCCATGGTATTAAAACCAGCTTCGATGACACCTTTTGCAGCCATGATGCTAGCTGATATCTTGGCAACGGCTGGTGTTCCAAAAGGTGTGTTTAATTTAGTAAACGGTTCTGGTTCAACGATTGGAAATGGCATTAGCAAACATCCAGATATTGATTTTGTCTCCTTCACAGGTTCAGGAAAAGTAGGCGAAAAAATCATGAAAAATGGAGCAGAAACAATTAAAAAAGTAGCTCTTGAACTTGGAGGGAAATCACCACTTGTCGTATTAGAAGATGCAGACATGGAAAAAGCCGCGAAAACTGCGGCTTGGAATATTATGATGAACACAGGCCAAGTTTGCTCTGCAGCAACAAGAGCAATTATTCCAGCTTCGAAAAAAGAGGCATTTGAAAAAGCAGTCAAACAAGCTGTTTCCTCTTTTGAATATGGAGACCCAAAACAAACAGAAACAAAAACAGGGCCGCTTATATCTAAAGATCAATGGGATACGGTACAATCCTATATTGAAAAGGGGATTCATGAAGGAGCAACTTTACTCCTCGGTGGCACTGGAAAACCAGAAGGCTTAGAGACAGGCTATTATGTAAAGCCAACCGTGTTTACAGATGTAACCAATGATATGGTCATTGCTCAAGAAGAAATTTTTGGACCTGTCCTCTCTGTCATCACCTATAATGATTTAGATGAAGCGCTAGAGATCGCTAATGATACGATTTATGGTCTGGCAGGTTACGTTGTCGGCAAAGATAAGCGGACACTTGCTCACGTAGCCAACAATATAAAAGCCGGACAAATTACGGTGAATGACGGAAAGACCGATTTCTTTGCTCCGTTTGGTGGCTATAAACAATCGGGTATTGGTAGAGAATGGGGCGACTACGGTATTGAGGAGTACCTCGAAGTAAAAGCGATTATGGGGTTATCTTCATGA MRTNLNHFINGEWIGSTGSETIQVCNPATEEVIGEISSGTEEDLNKAVAAAKAAFPSFSKTSKEERIQLLEAIANEYENKKDELIDVITEELGSPVSISQHVHYTMGYNHFKHAAEALKDFSFEENRGNHKIRKESIGVSGLITPWNFPTNQTSTKIAGAIAAGSPMVLKPASMTPFAAMMLADILATAGVPKGVFNLVNGSGSTIGNGISKHPDIDFVSFTGSGKVGEKIMKNGAETIKKVALELGGKSPLVVLEDADMEKAAKTAAWNIMMNTGQVCSAATRAIIPASKKEAFEKAVKQAVSSFEYGDPKQTETKTGPLISKDQWDTVQSYIEKGIHEGATLLLGGTGKPEGLETGYYVKPTVFTDVTNDMVIAQEEIFGPVLSVITYNDLDEALEIANDTIYGLAGYVVGKDKRTLAHVANNIKAGQITVNDGKTDFFAPFGGYKQSGIGREWGDYGIEEYLEVKAIMGLSS PGPT0006875_8311 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128 NA NA AK015_01077 225 hypothetical protein ATGACGATTCCTGAAACAGCAGAATATTTGTCTATGAATGAAAAGCAATTACATGCACTTGTGTTGCAAGGGAGAATTAGAACTGTGCATGATGGGGAACAATTTCTCATTAACAGTGAACAATTTCAAACCCATTTTGAGCAGGTGGAAAAATATCGGGCGATGATTCAAGACTACCTCAATGAACCGATTCCTGAAGATTTGGACGTGAAAGATGAAGATTAA MTIPETAEYLSMNEKQLHALVLQGRIRTVHDGEQFLINSEQFQTHFEQVEKYRAMIQDYLNEPIPEDLDVKDED PGPT0017735_3736 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 AK015_01078 1029 mccF Microcin C7 self-immunity protein MccF ATGAAACCAAATAAGCTGCAAAAAGGGGATCGTGTGGCAACAGTGAGCCCAAGTTGGGGTGGGGCAGGTGAAACGGAACTTCGCAATCGTTATGAAATTGGTGTAAGGCGGTTAGAAGAGGTGTTTGGGCTGGAAGTTGTGCCAATGCCTAACAGTTTAAAAGGTGCCGCATATGTCTATGAAAACCCACAAGCTCGTGCGGAGGATTTGATGCAAGCCTTTCAAGATCCAACCATTAAAGCGATTATTGCCAACATTGGCGGGGAAGATAGTATTCGACTCTTACCATACATTGATTTTTCTGTCATTCGTAATCATCCGAAGATCTTCATGGGCTATTCTGATGCAACAATGGTGCATTTGTTCTGTTACAAAGCAGGTCTATCCTCTTTCTACGGTCCAGCCATATTAACCGATTTTGCTGAGAATGTGGAGATGCATGAATATACCATTGATTTTATCGAGCGAACGCTTTTTTCTCAGAAACCGATTGGCAAAGTGGAAGCAGCCAAGGAATGGACGAGTGAGTTTTTGGATTGGTTCGTCCCTGCAAACAGCCAGATAAAAAGGAGTATGCAACCGAATAACGGATACGAGTTGCTACAAGGAAAAGGCATTGTTTCGGGGCACTTAATCGGTGGATGTATGGAAGTATTGGAATTTGCCAAAGGGACAGAGCTTTGGCCGAAAATGGATCATTGGAAGGATGGCATGTTATTTTTTGAAACATCAGAAGAAAAACCATCACCAGACCATGTGAAACGTTGGTTAAGAAATTATGCTGCCCAAGGCATTTTGCACGTAGTAAACGGTATGATTTTTGCAAAACCGCAGCAAGAGCAGTATTATGAAGAATATAAAACTATAATTGGGACAGTGTTACAAGAGTATGATTTAGAACATTTGCCAGTCCTGTTTAATTTGAACTTTGGCCATACAGAACCGAAATTTATTTTGCCTTACGGAGCAATGGCGGAAATGAATTGTGAGGCAAAGACATTTTCAATACTAGAAAGCGGTGTGCAATAA MKPNKLQKGDRVATVSPSWGGAGETELRNRYEIGVRRLEEVFGLEVVPMPNSLKGAAYVYENPQARAEDLMQAFQDPTIKAIIANIGGEDSIRLLPYIDFSVIRNHPKIFMGYSDATMVHLFCYKAGLSSFYGPAILTDFAENVEMHEYTIDFIERTLFSQKPIGKVEAAKEWTSEFLDWFVPANSQIKRSMQPNNGYELLQGKGIVSGHLIGGCMEVLEFAKGTELWPKMDHWKDGMLFFETSEEKPSPDHVKRWLRNYAAQGILHVVNGMIFAKPQQEQYYEEYKTIIGTVLQEYDLEHLPVLFNLNFGHTEPKFILPYGAMAEMNCEAKTFSILESGVQ NA NA NA NA NA AK015_01079 654 aadK Aminoglycoside 6-adenylyltransferase ATGCGAACGGAACAGGAAATGATGCAGCTTATTATGCAAACAGCGCATCATTTTGTTTATTTGATGCAATTTAAGGATGGAAATCGGCTTGATTTAACATTGATTCCGGAAGAAAAGCTTGCTTCGTTTCAACCATTTGATAGTTTAAGCGTGTTATTGATGGATAAAGATCAGTTAATTGGCGAATTACCTCCACCTAGTGAACGAGATTATTATATTCAAAGACCAACAGAGCAAGCATATGCAGATAAGTGCAATGAGTTTTGGTGGATTTGTTTGAATATTAGTAAAGGATTATGGCGGGAAGAGATAACGTACACGATGTTTATGTACGAACAAATTAACCGCAATGTACTTATGCAAATGATCGATTGGTATATTGGTGTGAAAACGAATTTCTTAGTTAGTGCAGGAAAGCTTGGCAAGTACTATCCCAACTATTTAGATGAAGAGGACTGGGAGAAATACAGGAAGACATATAGCTGCGGCAAGGATGTTGATCGGATTTGGGAAGCATTATTTACGATGTGTGACTTATTTACGAAGTTATCCAAACATGTGGCGCATACGCTTGATTTTGCGTTCCAGCAAGAAGATGTAACGAATGTCATGATGTATATGAGGCGCATAAGAAAACTTGAAAATTACGGATAA MRTEQEMMQLIMQTAHHFVYLMQFKDGNRLDLTLIPEEKLASFQPFDSLSVLLMDKDQLIGELPPPSERDYYIQRPTEQAYADKCNEFWWICLNISKGLWREEITYTMFMYEQINRNVLMQMIDWYIGVKTNFLVSAGKLGKYYPNYLDEEDWEKYRKTYSCGKDVDRIWEALFTMCDLFTKLSKHVAHTLDFAFQQEDVTNVMMYMRRIRKLENYG PGPT0028695_205 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 AK015_01080 360 hypothetical protein TTGACCAATCATGATAGGTGGTTTATTCAAATTCGAAAAGGCCTTGCTGAACTCGCTGTTATGATCCTAATGAAAGACAGTGCTGTGTATGGATATCAACTTACAAAAGCATTAAAATCCAATCCCATGTTTGAGCTTTCGGATGGATCTATTTATCCACTTTTAAAAAGATTAGAAGCGAACGAGCTAGTAGATACGTATTGGGATAACCCAGTTACGGGCTTACGCAGAAAGTACTACCAACTATCTACAAAAGGCGCCCAAGTTTTAACAGAACGTTTAAATTTGTTTCAAGAATCCATGGATTTGTTATGGAAATTACAGAAGGAGGTCATGGATGATGAAGATCAAAAGCACTGA MTNHDRWFIQIRKGLAELAVMILMKDSAVYGYQLTKALKSNPMFELSDGSIYPLLKRLEANELVDTYWDNPVTGLRRKYYQLSTKGAQVLTERLNLFQESMDLLWKLQKEVMDDEDQKH NA NA NA NA NA AK015_01081 594 hypothetical protein ATGAAGATCAAAAGCACTGATACCTATTTAAGAAAATTAGAAGAAGAGCTGATGGAGTTACCGAAAGAGGAACGAATAGCCATCGTAGCTGAAATTGAGGATCATTTCTCCAATGCCATCATGGAACAAACGAAACAAGGAACTAGCAAAGAAGACGCCGAACGTTTTATACTTCAAACCTTCCATTCTCCTAATGTTTTAGCAGAATCCTATGTAACCTCTTCCAGCACAAATAATTTCGATCAACTTACTGTATCTGTTTTTATTATTGGCTTATGGAGTGCGGCAAGTGGGACTTTACTTGCGCAATTTCTAGATATTTATGATCTTGGCAAGTTAACTGCAGGTATGCTTGGGGTAGCTATTTCTATTATTCATCTATTCTTAAAAAAAGAGTGGCGAAAATTAGAAGTGCAAACATTACGTGCTTTCAAGTATATTATCCCTTTCGTTTTGTTCCCTGCCTCCCTTTTCTTATTTTGGCTTCAAGGGGAAATTAACGCCTATACAATCACCTATTTAATTAGTTTTTGGATATTTATTGGACTATGTTATGGCTTATTTCATCGGGTTTATAAACGGGTGATGAGTTAA MKIKSTDTYLRKLEEELMELPKEERIAIVAEIEDHFSNAIMEQTKQGTSKEDAERFILQTFHSPNVLAESYVTSSSTNNFDQLTVSVFIIGLWSAASGTLLAQFLDIYDLGKLTAGMLGVAISIIHLFLKKEWRKLEVQTLRAFKYIIPFVLFPASLFLFWLQGEINAYTITYLISFWIFIGLCYGLFHRVYKRVMS NA NA NA NA NA AK015_01082 336 hypothetical protein ATGAACGGAGAAGAGATTATGATGCAGCTCATACTGCACGGCGGAAATGCCCGCGGTGCAGCTTATGAAGCATTAGATGCCGCGGAAGAATATGATTTTACGGAAGCAGAAAAGAAACTGGAAGAAGCGCATGAAGAATTTGTTCAAGGACATAAATATCAAACGGAATTGATTCAAGGGCAAACTGAAAGTGCGACGCCAAGTTTTTTCATGATCCATGCGCAAGATCATATTATGACAGCTCAAGCGGAAATTCAGTTAATTAAGCGTATGGTTACGCAGTTGCGAAAAACAGAGAGTATAGAGAAACGATTGGAAAAGTTAGAGAAGAATTAA MNGEEIMMQLILHGGNARGAAYEALDAAEEYDFTEAEKKLEEAHEEFVQGHKYQTELIQGQTESATPSFFMIHAQDHIMTAQAEIQLIKRMVTQLRKTESIEKRLEKLEKN PGPT0016980_462 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 AK015_01083 1299 licC_1 COG1455 Lichenan permease IIC component ATGATTGAATGGTTAGAAGATCATTTGATGGAACCTTTGGGTAAAATTGCGCAAAACAAATATTTACAATCAATTCGTGATGCCTTTGTTATTTTTGCTTTACCGGTTATTATAACAGGAGCTATTTTCCTGATTATTGCCAATCCACCATCAGCTATTGATTGGGGACCGATTCAAGCATGGGAAAGAGCAGTGGCCCCCATCCAAGCCGAATTGTTATTTCCATTTAATTTAACATTTGGTTTAATGGCTTTAACGGTATCATTTGGTATTGGCTATAGTTTAGCAACAAGACATGATATGGATGCGGTGATGGCAGGTATACTATCTATGTTGGCCTTTTTCATGACCGCTTTTCCTGTAACGGACATTACGAAAGTTCCCTTTGGTGATATTTTAAATTATTTAGGTGGACAAGGATTGTTCGTTGCGATCATTTTAGGGATTGCTACAACAGAACTCATGCGGTTTTTAATTAAGAAAGGATTTACGTTTGAAATGCCAGCGGGAGTACCCCCATATGTGATGCGAACATTCCGAGCACTAATTCCATTTATGATTATTTTACCGCTTGTTTGGATTATCTCTTGGATCGTCTGGGCGAACTATGAAGTAACACTTCCGCAATTAGTACTTGATTTATTCAGTCCATTAGTTAGTGCGTCGAATTCGTATTGGGCAGCAATTGGTATGAATCTTTTAATGCTTATTTTATGGTCCATTGGTATTCATGGAATGAACGTTGTTTCTTCTGTTGCCTATCCATTTTGGATGACACAGCTAGCGGAGAATGCGGATGCTGTGAAAGCAGGTACAGAAGCAACTGGTATCGTTACAGAGCCATTCTTCCATATGTTTACACATATTGGTGGATCTGGTGCTACGCTCGGGCTCGTCATTTTTATGTTGTTCTCCGCTTCAGCACAATTAAAACAAGTGGGGAAAACAGCGATTATCCCATCACTGTTTAATATTAACGAGCCAGTTATTTTTGGAGTGCCAATCGTGCTGAATCCAATTTTAATTATTCCATTTGTTTTAGGACCAGCAATTATTGTTACTGTAAACTACATTTTATTTGCGACTGGCATATTACCACCGGTCATTATTCAACCACCATTTACAGTACCTATTTTCCTTGGCGGATTTATTGCCACAGGTGGATCATGGTTAGCGGGATTAGTGCAAATTATGAACGCCGTCATTGCAACGGTAATTTACTACCCATTCTTTAAGAAATATGAAAAACAATTAACTATGCAGGAAAAAGAGGAAGAACCAGCAGCAGTAGGCAACTAA MIEWLEDHLMEPLGKIAQNKYLQSIRDAFVIFALPVIITGAIFLIIANPPSAIDWGPIQAWERAVAPIQAELLFPFNLTFGLMALTVSFGIGYSLATRHDMDAVMAGILSMLAFFMTAFPVTDITKVPFGDILNYLGGQGLFVAIILGIATTELMRFLIKKGFTFEMPAGVPPYVMRTFRALIPFMIILPLVWIISWIVWANYEVTLPQLVLDLFSPLVSASNSYWAAIGMNLLMLILWSIGIHGMNVVSSVAYPFWMTQLAENADAVKAGTEATGIVTEPFFHMFTHIGGSGATLGLVIFMLFSASAQLKQVGKTAIIPSLFNINEPVIFGVPIVLNPILIIPFVLGPAIIVTVNYILFATGILPPVIIQPPFTVPIFLGGFIATGGSWLAGLVQIMNAVIATVIYYPFFKKYEKQLTMQEKEEEPAAVGN PGPT0016970_2305 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 AK015_01084 324 gmuB_2 COG1440 PTS system oligo-beta-mannoside-specific EIIB component ATGGAAAACAACCAAGAAATCAAATTAATTATTTTATGTAGTTGGGGAGCAACTTCCAGTCAATTAGCGAAAAAAGTGCAAGATGCAGCGAAAAAAAGAGGTCTGTCTGTAACTGTTGATGCAGGAGGTACAGGAGAATTTAAACAGAAAGCGAGCAATTACAATGTAGCTTTACTAGAACCGCAAGTTCGTCATTTGAAAAAAGAAGTGACTAAAACAGCAGAGCAATTTGATATCCCAGTTGATTTAGTGGATCAACGTGCTTTTGCATTGATGGATGGCGATAAAGTATTGGATCAAGCTTTAAAATTAATAAATAAATAA MENNQEIKLIILCSWGATSSQLAKKVQDAAKKRGLSVTVDAGGTGEFKQKASNYNVALLEPQVRHLKKEVTKTAEQFDIPVDLVDQRAFALMDGDKVLDQALKLINK PGPT0016975_348 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 AK015_01085 237 hypothetical protein GTGAAGAAGTTTTTAACGATGTATGCCGTACTATTTACAGCGATATGGGTTGGGTATGGTATATATGCACTGTGGACGAATCAAGAATCTGCACACCTCATTTTAGGACTTGGGGTCGCTTTTTCAATCGTCATTTGTTTAGCTTCATGGTTTTCTTATTGGCTTATGCGTCACTATAAAAGAGTGGATAGCATGGCGAAGAACATTTTAAGTAATTCGAAAAACAAAACGAAATAA MKKFLTMYAVLFTAIWVGYGIYALWTNQESAHLILGLGVAFSIVICLASWFSYWLMRHYKRVDSMAKNILSNSKNKTK NA NA NA NA NA AK015_01086 2619 norR_1 Anaerobic nitric oxide reductase transcription regulator NorR ATGAGTAAAATAAACGAAGTAAAAGCGGTGCTACGTACAGAATCAGGCAAACGGGAAGGGGTAACAGCGAAAGGTGTCAGCGGGCTTTTGCATATTGATCGTTCTACGGCGAGTCGCTACTTAAATGAGTTAGTAAAGCAAAAGGATGCCGTAAAAGTACCAGGAAAACCAGTGAAATATATCGCAAATATTCACGCGGAAGAGACAGACTTAAACTATGCAGAAGGTATTGGCAAAAGTTTGCGTCCTATTTTAGAACAAGGGATGGCAGCTTTATTATATCCTTCGCGAAATATCCCGATTTTACTTACGGGGGAAACAGGTACGGGGAAAACGTATCTTGCAGAAACTTTATGCAAATTAGCTAGAAAACGGATGAGCGATCAAGGGGATGTCCCATTTGTAACTTTTAACTGTGCAGATTACGCTCAAAATGCAGAGTTGTTAGTAGGACAAATTTTCGGGGTGAAAGAAGGCGCTTTTACGGGTGCAAATGAAGATCGAGCTGGTCTTGTAGAGAAAGCTGATGGAGGTATTCTATTTTTAGATGAAATCCACCGCTTACCTCCTTCTGGTCAAGAGATGTTGTTTTATTTAATGGATAAAGGTGTTTATCGTGTGCTAGGAGAAGCGACGAAAGATCGGTATGCTACGATTACAATTATCGGAGCGACCACCGAAGATCCGCATAAGGCATTACTTCCTGCTTTAGTTCGGCGGTTTTCGATTAAATTGATATTACCGTCGTTAAAAGAGAGAACTCGGGAGGAAAGAGAAGAGCTTGTCAATTATTTCTTGCGCCAAGAAGCAAACAAAATGGATACGAGCTTAGCTATAACAGATCAAAGCCGTGAAGCGCTGCTCTTATATCCTTGTCCGGGAAATATAGGTCAATTAAAAGGTGACATTCAAATTGCCTGTGCACATGCTTATTTACGTTACTTAAATAAACAGGAGGAAAAAGTAACAATTCAAATAGCAGATTTACCAGATAATATTGCTAGCTTCGGTAGCTCTTCTTCTTTAGAACAACGGGAAGTAACTTCTACCATTGAAGGGGAAAAAGCGATTAGTGAGCATCTCCCTAATATTTATCAAAAAATAGCTAAACAAGCGGATCATCAATCGATTCATATAACGATTCAAAAATATATTGCTGATTTATCAAAGAAATATCGTCAGCCCGACTTTGTGCAGCAAGGGTGGCAACAATTAATTGATGAGGATTTGTTTCATGCTTTATTAGACGCTAAAAATCGACTATCTTATTTGCCCGTACATTTTAATAATAATCAATTGTATGTGATCGGTTTACATTTACAAAATTATCGCAACCATCAACATGAAGCAAGGGAAGAACTCCCCATTGTTGTGCATCATAACCCAGCGTACCGAGAAGCGGCGCAACAGTTAGCTACCCATTTACATACAACGATAGGATTAGCTTTACCAGAAGAAGAAATTGCCTTATTGGCTCACTTTTTAACGGCTAATGAAAGCAATGTGCTTCACGCTGAGCAATCGATCGCGGTTATTTTAGTTACACACGGGGCAACTACTGCTTCCTCCATGGCCGAAGTGACAAATACGTTATTAGGAAATGAAGTCATTCAAGCGATTGATATGCCATTACATGTTTCAGCTACAGAAATATATCAGCAGGTAAAGCAAAAGATAAGTACGATGACACATATAAAAGGTGCGCTCTTACTTGTAGATATTGGCTCCTTGATCACGATGGGAGATGCGATAAAGCATGATTTGGATGTGCAAGTAAAAACCTTATCGAGTGTTAATTTACCGATGGTATTAGAAGCTGGTAGAAAGTCACTTACTTCCAATGTGAGTTTAGAAGAAATTTATCAAGCTACGAAAAAAGCAATGACTATTTTTGTGAAGGAGAAAACAAATTATTCCCCAGTAGAAAAAAAGCGTATGATTACTACCGTTTGTTTTACAGGAGAAGGGGCTGCGCAATTACTAGAATCGTGGATTGAGGATCAATTAGCAGAAGTAGATGAGGATGTTCTCATTCGTTCAGTGCGCATTGATCCGACTACAAAAGATGCCTCCATGTTGGAGGAGTTAAAACAACATTATGATATTGTCGCTATTATTGGAACAGTTCCTGTTACGATAGAAGGAGTGCCTTATATTCCTGCTTGGGAGCTTTTACAAGAAGAAGGCATTGCGAGAATGACTAAATTACTAGAAGTGACGCGAAAATCTCCGAAATTACGAGAGGGAGAAGTAAAGCAGAATGAAGTCTTTCCACTTGTGTCTAAAGGGCTTGCGGAAATTGTCACATTTATTAATCCGCAATCATTAGTAGCAATTTTAAATGATTATATGGAACCTATTGCAACCTACTATCATTGGGATGTAAATAGAAAATTAGGGATGTGGATGCATCTTGGTAGTTTAATGGATCGTTTAGTAGGTGCAAAATTGCAAAATAATATGGAACAGTTGCTTGCATCTGTGCCAATCGATCGGCAATTCACAGTAGCGGCAGGAGAAAAGGAAATTTGGGAGCCGTTGTTTGCCAAGTTAGAAGCAAAATACCATCTCCCAATTTATGAACCAATTCGAAACGCATTACAAAAATTATCGCGTTAA MSKINEVKAVLRTESGKREGVTAKGVSGLLHIDRSTASRYLNELVKQKDAVKVPGKPVKYIANIHAEETDLNYAEGIGKSLRPILEQGMAALLYPSRNIPILLTGETGTGKTYLAETLCKLARKRMSDQGDVPFVTFNCADYAQNAELLVGQIFGVKEGAFTGANEDRAGLVEKADGGILFLDEIHRLPPSGQEMLFYLMDKGVYRVLGEATKDRYATITIIGATTEDPHKALLPALVRRFSIKLILPSLKERTREEREELVNYFLRQEANKMDTSLAITDQSREALLLYPCPGNIGQLKGDIQIACAHAYLRYLNKQEEKVTIQIADLPDNIASFGSSSSLEQREVTSTIEGEKAISEHLPNIYQKIAKQADHQSIHITIQKYIADLSKKYRQPDFVQQGWQQLIDEDLFHALLDAKNRLSYLPVHFNNNQLYVIGLHLQNYRNHQHEAREELPIVVHHNPAYREAAQQLATHLHTTIGLALPEEEIALLAHFLTANESNVLHAEQSIAVILVTHGATTASSMAEVTNTLLGNEVIQAIDMPLHVSATEIYQQVKQKISTMTHIKGALLLVDIGSLITMGDAIKHDLDVQVKTLSSVNLPMVLEAGRKSLTSNVSLEEIYQATKKAMTIFVKEKTNYSPVEKKRMITTVCFTGEGAAQLLESWIEDQLAEVDEDVLIRSVRIDPTTKDASMLEELKQHYDIVAIIGTVPVTIEGVPYIPAWELLQEEGIARMTKLLEVTRKSPKLREGEVKQNEVFPLVSKGLAEIVTFINPQSLVAILNDYMEPIATYYHWDVNRKLGMWMHLGSLMDRLVGAKLQNNMEQLLASVPIDRQFTVAAGEKEIWEPLFAKLEAKYHLPIYEPIRNALQKLSR NA NA NA NA NA AK015_01087 207 hypothetical protein ATGAAAGTGATTGACCCAAATCCATCTAGATTGGCTGCAAGTATTCATGACAAGAAGAAAGAAATGATTACATTAGGTTTAAAGTACGGGTTAACTGATCGAAGGACTGTAAAATGCAGTCAACAGCTTGACAAGCTATTAAACTTACACAATAGTTTAAGACCTTTTTATGTGGCTAGCTTTACTTTTTTTTATTTTCTAGCTTAA MKVIDPNPSRLAASIHDKKKEMITLGLKYGLTDRRTVKCSQQLDKLLNLHNSLRPFYVASFTFFYFLA PGPT0024640_58 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_0_SPORULATION,PGPT0024640-spo0E-K06376 NA NA AK015_01088 903 mmgF COG2513 2-methylisocitrate lyase ATGGCATGGATTGTCGATGAACCGAAAACACAAAAAGAGTTAGCAGAACAATTCAAAGAGCTCATATACGCAGAGGTGATTTTACAAATTCCTGGAGCCCATGACGCAATGGCAGCGCTCGTTGCTAAACAAACAGGTTTCAATGCGCTGTATCTATCTGGGGGGGCGTATACTGCTAGTAAAGGCTTACCAGATTTAGGAATGGTAACATCAACAGAAGTAGCTGACAGGGCTAGAGACTTAGTTCGGGCTACGAACTTACCAGCTTTAGTAGATATTGACACGGGTTTTGGCGGTGTGTTAAATGTAGCTCGGACAGCCCAGGAGATGTTTGAAGCGAATGTTGCTGCTGTACAAATAGAAGATCAGCAGCTACCAAAGAAATGCGGTCATTTGAACGGGAAACAGCTCGTCACAAAAGATGAGATGGAACAAAAGATTCAAGCAATTAAAAAAGTAGCTCCTTCGCTAGTAGTCGTTGCTCGGACGGATGCCCGAGCGAATGAAGGGTTAGACGCTGCCATTGAACGAGCGAATGCGTATGTAGCTGCTGGAGCAGAAGCGATTTTTCCCGAAGCGTTACAAACGGATGAAGAGTTCCAAGTGTTTGCTCAGAAGGTCAATGCGCCACTTTTAGCAAATATGACTGAATTTGGAAAAACACCCTATATCACTGCTGAAGAATTTCAGCGTATGGGCTTTAAAATGGTGATTTATCCAGTAACTTCTTTACGTGTTGCAGCTAAAGCATATGAACGAATCTTCAAGCTGATTAAAGAAGAAGGTACACAAAAAAATGGTGTTACAGATATGCAAACGAGAAAAGAACTGTATGAAACCATTTCATATGATGACTTTGAAGCGTTAGATAAAAATATTGCGAAAACTGTGCTAGGAGAATAA MAWIVDEPKTQKELAEQFKELIYAEVILQIPGAHDAMAALVAKQTGFNALYLSGGAYTASKGLPDLGMVTSTEVADRARDLVRATNLPALVDIDTGFGGVLNVARTAQEMFEANVAAVQIEDQQLPKKCGHLNGKQLVTKDEMEQKIQAIKKVAPSLVVVARTDARANEGLDAAIERANAYVAAGAEAIFPEALQTDEEFQVFAQKVNAPLLANMTEFGKTPYITAEEFQRMGFKMVIYPVTSLRVAAKAYERIFKLIKEEGTQKNGVTDMQTRKELYETISYDDFEALDKNIAKTVLGE PGPT0001555_541 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417 NA NA AK015_01089 1437 mmgE COG2079 Citrate/2-methylcitrate dehydratase ATGGTACAAGTGAAAGATGAAAGAAAGACAGATCAACTATTAGAAGAAATAGCAGACTATGTATTAAATAAAGAAGTTACTAGTGAAGAAGCTTTTTCCACCGCACATTATGTGTTAATCGATACATTAGGTTGTGGGATATTAGCTCTTAATTATCCAGAATGTACGAAACATCTTGGGCCGATTGTACCCGGAACAGTAGTACCAAATGGCGTGCGCGTTCCTGGGACTTCCCATGTACTAGACCCTGTGCAAGGAGCGTTTAGTATTGGAGCGATGATTCGTTGGCTCGATTATAATGATACATGGCTTGCTGCAGAGTGGGGGCATCCATCTGATAATCTTGGGTCTATTTTAGCAGTGGCTGATTTTATTAGCCGCCGGAATATAGCGAACGGAAAAGAGCCGCTTAAGGTGAAAGATGTATTAGAGATGACAATTAAGGCACATGAAATTCAAGGAATTCTTGCTTTAGAGAACAGCTTGAATCGTGTCGGACTTGATCATGTTTTATTTGTGAAAATCGCCTCGACGGCTGTCGTAACGAAAATGCTTGGTGGTACGAAAGAAGAGATTATTCATGCATTATCCAATGCTTGGATTGATAATTCTAGTTTACGAACGTATCGTCATGCACCGAATACAGGATCTCGTAAATCTTGGGCTGCTGGTGATGCAACGAGCCGAGCTGTTCGATTAGCGTTAATGGCTTTAAAAGGGGAAATGGGTTACGCGACGGCGTTAAGTGCTCCAGGTTGGGGTTTTCAAGATGTGTTATTTAATAAACAAGAGCTTGTATTAAAACAGCCTTTAGATAGTTATGTCATGGAAAATGTACTTTTTAAAGTATCTTATCCTGCTGAATTCCATGCCCAAACAGCAGCAGAAGCGGCGATCGAGCTTCATCCTGAGATAAAGGACCGCTTAGATGAAATTGATCACATTACGATTTCTACCCATGAATCAGCAATTCGCATTATTGATAAAAAAGGACCGTTGTATAATCCAGCTGACCGTGATCATTGTTTGCAATATATAACAGCTATCGGTTTATTAAAAGGAAATATTGTGGCAGAAGATTATGAGGATGATGTTGCTGCTGACCCAAGAGTGGATATGTTGCGGGATAAAATGGTTGTTACAGAAAATAAAGCATACACAGAGGATTATTTAGATCCAAATAAACGTTCCATTGCAAATGCCGTTCAAGTTCATTTCAAAGATGGCACGCAAACAGCAGCAATTGAACGTGAATATCCATTAGGGCATCGTTTTCGCAGAGAAGAAGCAATTCCAAAGATATTAGACAAGTACGCAGCTAATTTGGCGACACAATTTGCTAGCAAACAGTTGCAGGAAATTGAAGCCATTAGTTATGATTATGGTAAGTTAGCGGAGATGGATGTAAACGAATTTATGGAATTATTTGCGAAGTAA MVQVKDERKTDQLLEEIADYVLNKEVTSEEAFSTAHYVLIDTLGCGILALNYPECTKHLGPIVPGTVVPNGVRVPGTSHVLDPVQGAFSIGAMIRWLDYNDTWLAAEWGHPSDNLGSILAVADFISRRNIANGKEPLKVKDVLEMTIKAHEIQGILALENSLNRVGLDHVLFVKIASTAVVTKMLGGTKEEIIHALSNAWIDNSSLRTYRHAPNTGSRKSWAAGDATSRAVRLALMALKGEMGYATALSAPGWGFQDVLFNKQELVLKQPLDSYVMENVLFKVSYPAEFHAQTAAEAAIELHPEIKDRLDEIDHITISTHESAIRIIDKKGPLYNPADRDHCLQYITAIGLLKGNIVAEDYEDDVAADPRVDMLRDKMVVTENKAYTEDYLDPNKRSIANAVQVHFKDGTQTAAIEREYPLGHRFRREEAIPKILDKYAANLATQFASKQLQEIEAISYDYGKLAEMDVNEFMELFAK 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 AK015_01090 1107 mmgD COG0372 Citrate/2-methylcitrate synthase ATGAGTACGAATCAGCAGTTTGTCCCTGGTTTAGATGGCGTTATTGCAGCAGAGACGGCTATATCATTTCTTGACACAGAACAAGAAAAAATCATTATTCGCGGGCATGAATTAATCGATTTGTCGCAAAATAATGACTATATTGATGTTGTGCATCTTTTGTTAGATGGTAAATTACCAACTGCTTCTAAAAAAACGGCTCTTGAAAAGAAGTTAACCTCTAATTACGATATACCAGATCAAGTGATGCAAATTTTATCTCTATTGCCAAAGCAAACACACCCGATGGATGGATTGCGGACAGGATTGTCAGCGCTTTCTGGATATGATGGAGATATAGATAATCGCTCTTTAGAAGCGAATAAAAGTAGAGCATATAAGCTATTAGGCAAGTTGCCAGCTATTACGGTAAATAGCTTTCGTCTAATTAATGGGCAAGAGGTTGTCAAACCGGATCCAACACTTTCTTACAGTGCAAATTTTTTATACATGATTACAGGGGAGAAACCAACAGCGTTTGAAGCGGAAATATTTGATCGTACATTACTACTTTATAGTGAGCACGAAATGCCAAATTCAACATTTACTGCTAGAGTTATCGCTTCGACAAATTCCGACCTTTATGGAGCCTTGACAGGGGGAGTTGCCTCCTTAAAAGGAAATTTACATGGTGGTGCGAATGAAGCGGTAATGTATATGTTAAATGAAGTGAAAACTGCCGCTGCTTTTGAAGAATTAATTCAAAGAAAGCTTATCAATAAAGAAAAAGTAATGGGCTTTGGGCACAGAGTGTACATGAAGAAGATGGATCCAAGAGCGTTAGTGCTGAAAGACGCTTTAAAGCAACTATGTGAGAAAAAAGGGGACTACACATTATTAGAAATGTGTGAAGCTGGAGAAAAAGTAATGCGAGAGGAAAAAGGTTTATATCCTAATCTCGATTATTATGCAGCACCTGTGTATTGGATGCTTGGCATTCCAATCGGTCTTTATACGCCGATTTTCTTTAGTGCACGTACAGCGGGATTAGTTGCACACGTCATAGAACAGCATAACAACAATCGCATTTTCCGTCCGCGTGTTCATTACATTGGAGAAAGTTATTAA MSTNQQFVPGLDGVIAAETAISFLDTEQEKIIIRGHELIDLSQNNDYIDVVHLLLDGKLPTASKKTALEKKLTSNYDIPDQVMQILSLLPKQTHPMDGLRTGLSALSGYDGDIDNRSLEANKSRAYKLLGKLPAITVNSFRLINGQEVVKPDPTLSYSANFLYMITGEKPTAFEAEIFDRTLLLYSEHEMPNSTFTARVIASTNSDLYGALTGGVASLKGNLHGGANEAVMYMLNEVKTAAAFEELIQRKLINKEKVMGFGHRVYMKKMDPRALVLKDALKQLCEKKGDYTLLEMCEAGEKVMREEKGLYPNLDYYAAPVYWMLGIPIGLYTPIFFSARTAGLVAHVIEQHNNNRIFRPRVHYIGESY PGPT0001455_6310 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 AK015_01091 849 hypothetical protein ATGTTGGCGGAATTATATCGGACGGAAAATATTACACAAGCTGCACAACGGCTGTTTTTATCTCAACCAACCTTAACATCTCGTTTAAAAAAAATGGAAACATATTATGATGTCCAGCTTATCATACGTAAACAGAGAGGAATTACGTTTACACCAGAAGGAGAACAGTTGGCTCTTCACGCACAAAAAATGCTGTATGAACAAAGAAGGATTGAAGAACAGCTTCATAATATGAAAGATCAGTTTGCTGGCACGATTCGAGTCGGCGTATCAAATTTTTTCGCATTGAATAAAATGCCGAAATTATTACGTTTATTTAAGCAAAGTTACCCAGATGTAGAATTTCAGGTAGTCACAGGATGGAGTAGTGAAATGCACCGCCTTATTTTAAATCATGATGTACATATTGGATTTATCAAAGGTGATTATATTTGGAATGAAAATAAACATTTACTATATGAAGAAGAGATTTGTATTGCTTCTCCGTGGGATTTCCAATGGGAGGACCTTCCTCATTTACCTCGTATTGATTACCATACAGATGAGAAAATGAGAAGTATTGTCGATCAATGGTGGTATAGCACCTATAAACAAAATCCAAATATTAATATTCAAGTCAATCAAGTTGAAACATGTAAAGAAATGGTCATTAATGGACTTGGTTATGCCGTTATAGCCAATCTTGTCGTTCGTCCGCACACCGATTTATTCATTAAACCAATTCATTTACCGTCGGGTGAATCCGTGACCAGAAAAACTTGGATGTACTATCATGAAGAAACGTTAAAGCTAAACATTGTAAAAGCATTCGTCCAGTTTATTGAAACGCTTGATGTGAAAGCATTATAG MLAELYRTENITQAAQRLFLSQPTLTSRLKKMETYYDVQLIIRKQRGITFTPEGEQLALHAQKMLYEQRRIEEQLHNMKDQFAGTIRVGVSNFFALNKMPKLLRLFKQSYPDVEFQVVTGWSSEMHRLILNHDVHIGFIKGDYIWNENKHLLYEEEICIASPWDFQWEDLPHLPRIDYHTDEKMRSIVDQWWYSTYKQNPNINIQVNQVETCKEMVINGLGYAVIANLVVRPHTDLFIKPIHLPSGESVTRKTWMYYHEETLKLNIVKAFVQFIETLDVKAL NA NA NA NA NA AK015_01092 684 hypothetical protein ATGAATGCGCTTTATCCAGAGCAATGGTTACATAACTTGTCAACGGGAGAGAAAATAGCCGCCGAAGTTCGCATGCAAATTATTTCCAAGAAAATTGAAAGCGATACCATAATTTCTGAAAATAAGCTTGCTAAACAATTTGATACGAGCCGGTCTCCTGTACGAGAAGCTCTAAAAATTCTCGCTTCTGAAGGTTTCATTCAACTTGAAAAGATGGGGGCTGTCATCTTAGACTTTTCAGATAAAGACATTGAAGAGCTTTATGATATAAGAAAAATGATGGAACAATTTGTGCTTGAACGCATCATTCAGTTGGATACGGATGCTCTCGAACAACAGTTAATTAAAATTATCGACATGATGTATATTGCAGTTAAATTTAAAGATGCTGAAAGTTTAACTGCTCACGATTTGGATTTCCATGAAACAATCGTTCGATGTATCAATCATAAGAGAATATTACTAATGTGGTCAAAAATGCGTCCAACTATGGAAAGCTTTATTTTATTGTCAATGAGGCGAAGGTTTAAAGACGCCCCAAAGGATGCTGATAGAATTGTGCAAAATCATAAACTCATGCTGAAATCGATTCAAGATAAGGATAAAGTTTCTATTTCCAAAGCCATTGAAAACAATTTTAACACGCACCATATGCTAGAAAAAGAAAGAAAACATCATCATTAA MNALYPEQWLHNLSTGEKIAAEVRMQIISKKIESDTIISENKLAKQFDTSRSPVREALKILASEGFIQLEKMGAVILDFSDKDIEELYDIRKMMEQFVLERIIQLDTDALEQQLIKIIDMMYIAVKFKDAESLTAHDLDFHETIVRCINHKRILLMWSKMRPTMESFILLSMRRRFKDAPKDADRIVQNHKLMLKSIQDKDKVSISKAIENNFNTHHMLEKERKHHH NA NA NA NA NA AK015_01093 1344 gntT COG2610 High-affinity gluconate transporter ATGCCATTATTTATTGTCGCTTTAGGAATTATCGTACTACTGATACTGATTATGAAATGGAATATACATACCTTTATCTCTTTAATTATCGTTGCTTTTTTGATTGCCTTATCTCTAGGAATGCCTCTTAAAAACATTGTTGCATCTATTGAAAGCGGGATGGGAGGAACGCTAGGAAGTATCGCATTTGTATTTGGATTAGGCGCAATACTTGGTAAGTTAATAGCCAATGCAGGCGGTGCCCAACGGATTGCTATTACACTCATTGAAAAATTTGGCGAAAAACAAATTCAATGGGCAGTCGTTATTGCTTCTTTCATTCTTGGTATAGCATTATTTTTCGAAGTGGGATTAGTATTGCTTATTCCGATTGTGTATCAAATTGCCAAGCAAACAAAGGTTTCTTTCTTATCTCTTGGTCTACCAATGGTGGCAGCATTGTCTGTCACACATGGTTTTTTACCACCACATCCGGGACCAACCGTCATTGCACAAGAATATAATGCAAATATAGGCATGGTTTTACTTTATGGAATCATTGTCGCTATACCAACTACATTCATTTCCGGACCGTTTTTTGCTAGATTTGCAAAAAAATGGGCTCCTTCTGCTTTTGATAAATTAGAAAGCGGTAGCCTAGCAGAAATTGGAGAAGCGAAGCAATTTAAATTAGAAGAAACACCAGGGTTTGGTATTAGCGCATTTACAGCTTTATTTCCAGTTTTATTAATGATGCTATCTACCATAATCTCTTTATTTCAAGGCGATAAATCAGGTTTTATATTTGATTTTTTCTCAATGCTTGGTTCGCCGACGACCGTGATGCTTTTGTCTGTCTTATTAGCCATCTATACGATGGGATTAGCACGTAATATTCCCATGAAAGAGCTAATGAGCGCTGCAGAAAGTTCTATACGCTCTATTGCGATGATGCTATTAATTATTGGTGCAGGTGGAGCTCTAAAACAAGTTTTAATTGATGGTGGCGTTGGCGATTATGTTGCTGTTTTATTTGACGGTAGTTCCATCTCGCCTATTATTTTAGCTTGGTTAATTGCAGCAGTCTTAAGAATTGCTCAGGGGTCAGCTACCGTCGCAGCATTAACGACAGCAGGGCTAGTTATTCCTTTAATGGCAGGGTCAGATGTTAATTTGGCACTAATGGTATTAGCTACAGGAGCTGGTAGTCTTATCGCATCACATGTCAATGATACTGGCTTTTGGATTATTAAAGAGTCCTTTGGTTTAACAATAAAAGAAACATTTTTAACGTGGACGATGTTAGAAACTGTTATCTCTATAAGTGGTCTTATCTTCATCTTACTATTAAACATTTTCGTGTAA MPLFIVALGIIVLLILIMKWNIHTFISLIIVAFLIALSLGMPLKNIVASIESGMGGTLGSIAFVFGLGAILGKLIANAGGAQRIAITLIEKFGEKQIQWAVVIASFILGIALFFEVGLVLLIPIVYQIAKQTKVSFLSLGLPMVAALSVTHGFLPPHPGPTVIAQEYNANIGMVLLYGIIVAIPTTFISGPFFARFAKKWAPSAFDKLESGSLAEIGEAKQFKLEETPGFGISAFTALFPVLLMMLSTIISLFQGDKSGFIFDFFSMLGSPTTVMLLSVLLAIYTMGLARNIPMKELMSAAESSIRSIAMMLLIIGAGGALKQVLIDGGVGDYVAVLFDGSSISPIILAWLIAAVLRIAQGSATVAALTTAGLVIPLMAGSDVNLALMVLATGAGSLIASHVNDTGFWIIKESFGLTIKETFLTWTMLETVISISGLIFILLLNIFV PGPT0001340_2180 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 AK015_01094 558 ymdB_2 COG2110 O-acetyl-ADP-ribose deacetylase TTGCACATCATAATCGGTGAAAATAGGTTGGAGCTAACCATTGGAGATATAACGAAAGAAGAAACAGAAGCAATCGTTAATGCAGCAAATGGCTCGCTGATGGGTGGCGGTGGTGTTGATGGAGCAATTCATCAAGCAGCAGGACCAGAATTATTGCAAGCTTGTCGAAAGATCCGTAAAGAACAGCTAAAAGGCGAGCCTTTAGGAACTGGAGAAGCTGTCATAACTGCTGGGTATAATTTACCTGCAAGCTATGTAATCCATACGGTAGGACCCATTTGGAATGCTCATCATCCAAATCAAGACAAGCAGTTAGCAAGCTGCTACCGGCAAGCACTCAAACTTGCTAAAGAACTTGATCTATCAAGCATTGCATTTCCATCTATTTCTACTGGTGTATTTCGTTTTCCTATTAAAGCAGCAGCAGAAATAGCTATAAGAGCAATTACGAACTATTTGCAGACAGCTACATTTGGTCAAGTTAAAATGGTTCTCTTTTCCGAAGCTGACTTTCGTGTTTATCAATCTGCTTTGAAAAATATAACTGATTCCCTTTAG MHIIIGENRLELTIGDITKEETEAIVNAANGSLMGGGGVDGAIHQAAGPELLQACRKIRKEQLKGEPLGTGEAVITAGYNLPASYVIHTVGPIWNAHHPNQDKQLASCYRQALKLAKELDLSSIAFPSISTGVFRFPIKAAAEIAIRAITNYLQTATFGQVKMVLFSEADFRVYQSALKNITDSL PGPT0027680_956 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-darG-darT_TOXIN-ANTITOXIN_SYSTEM,PGPT0027680-antitoxin_darG-K23518 NA NA AK015_01095 1221 ymfD Bacillibactin exporter ATGACAAACCAACCTAAAACATGGAGTATTATTAGCATTGCCTCCATACCACTTGTAATGACACTAGGAAATTCAATGCTTATCCCTGTACTGCCAATTTTTGAAAAAGAAGTAGGTATTACCTCCTTTCAATCAAGTATGGTCATAACAAGCTACTCGATAGCTGCCATTTTTCTTATTCCAGTAGCAGGCTATTTATCGGATCGCTACAGTAGAAAAATCGTTATTTTAATCAGCTTAATTTTCGCTTTTATTGGTGGTTTAATTGCCGGTTTTGCCTCGTGGAAACTAACAGAACCTTTCACATGGATTATTATTGGTCGTATTCTCCAAGGCATAGGAGCAGCCGGGGCCTTCCCTATTGTACTGCCTTTAGTAGGAGATTTATTTAAAGGCGATGATGAGAAAACAAGCGCTTGCTTAGGTATTGTTGAAACATCTAACACGCTCGGAAAAGTACTAAGCCCTATACTCGGCGCACTATTTGCCGCTTTTTTATGGTATATACCTTTTTTCTCTATTTCTGTTTTTAGTATTATTTCTACTGTGCTCATTTATTTTTTTATTAAAGTACCAAAACAAGCAGACGAAGTAGAACCTCTGCGAAAATTTATCCAGAGAACAAAAAACACCTTTAAAACAGAAGGTAAATGGCTATATACCGTTTTTTTAATTGGAATTCATTTCATGCTTATACTATTCGGTGTTTTGTTTTTTCTCTCTGATATCTTTGAAAAACAGCATCAGCTATTTGGAGTGACAAAAGGGTTGGTATTAGCTATTCCATTGTTTGGACTTTGCCTCGCATCGTTTATTACTGGTCGGAAAATAAAGGGTGATTTAGCAACGATGAAACGTGTGTTATTAATTAGTTTGCCTATTGTCGCAGTAACTGTCGTGTTCATTGGCTTTTCAAGTAATAACTTGTATCTATTGTTAAGTGTTTCTTCTATTTTAGGAATTGCTATTGGCGCTGTACTGCCTACATTAGACGCACTGATTACCCAAGGAATTGATAAAGAAGAACGAGGAACGATCACGGCTTTCTATAGTTCTTCACGTTTTATCGGTGTCGCTTTAGGTCCCCCAGTTATATCTTTAGCAATGCGCCACTATATTCATTTCAGTTATATAACCATGGGTATCGTTAGTTTTTTGTTGGTTTTTTTTGTATGGTTTTTTATTCGTGGAGAAGAAGCTATTATTGCAGAAAGCGGATAA MTNQPKTWSIISIASIPLVMTLGNSMLIPVLPIFEKEVGITSFQSSMVITSYSIAAIFLIPVAGYLSDRYSRKIVILISLIFAFIGGLIAGFASWKLTEPFTWIIIGRILQGIGAAGAFPIVLPLVGDLFKGDDEKTSACLGIVETSNTLGKVLSPILGALFAAFLWYIPFFSISVFSIISTVLIYFFIKVPKQADEVEPLRKFIQRTKNTFKTEGKWLYTVFLIGIHFMLILFGVLFFLSDIFEKQHQLFGVTKGLVLAIPLFGLCLASFITGRKIKGDLATMKRVLLISLPIVAVTVVFIGFSSNNLYLLLSVSSILGIAIGAVLPTLDALITQGIDKEERGTITAFYSSSRFIGVALGPPVISLAMRHYIHFSYITMGIVSFLLVFFVWFFIRGEEAIIAESG PGPT0003580_587 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 AK015_01096 573 hypothetical protein ATGACAGTCAAAGAGGGTTTAGTACAATCAGATGCAGCAGCAGCAAAATTAATTGAAATTAATCGAATAATTACAGATGCCGTGTTCCAAGCTTTTCTATTCTCATGGCAGTGGTGGCTAGGCATTATTTTATTTGTCGTTCCCTGGATACTTTGGGTTATATTTAGAACTAAACATAGCACAGGACGTTTATTAGGTTGCGCCTTTCTAACCATTGCGCTATCTTTAATAATTGATTTAGTCTCATTATCTTATGGATTATGGTCTTATCCTATGAAATTTTCACCCGTCTCACCGATTCTTTTTCTCCCTTATCATTTAGCTTTAGCTCCTGTTGCTGTTATGTTTGTGTTGCAAATCAAACCAAAAGCGAATGCCCTTATTAAAGGGAGTATCTTTGCGGCTATTGCGGCTTTTGGAGGAATGAACCTTTTCAACGCATTAGATTTTTACAATCCAAAAAACTGGTCCACATTTTATGACTTTTTTATCTTTCTATTTCTATTCTTTGCCTCTTATTGGTTATTCCATATTCAAGGCTACGAAAAAATTCCTGCAAGAAAAAATACGTAG MTVKEGLVQSDAAAAKLIEINRIITDAVFQAFLFSWQWWLGIILFVVPWILWVIFRTKHSTGRLLGCAFLTIALSLIIDLVSLSYGLWSYPMKFSPVSPILFLPYHLALAPVAVMFVLQIKPKANALIKGSIFAAIAAFGGMNLFNALDFYNPKNWSTFYDFFIFLFLFFASYWLFHIQGYEKIPARKNT NA NA NA NA NA AK015_01097 2181 glcB_1 COG2225 Malate synthase G TTGACAGCGTATATAACGACAGGCAATTTGCAAATTGCTACAGAACTTTATGAATTTGTTAAAAAGGAAGCATTACCAGGCACGGGATTGAATCAAGAGAAGTTTTGGCAGGATTTTGATGAACTTGTTACTGATTTGGCACCTAAGAACAAAGCATTATTAGTTGAAAGAGAGAAAATGCAACAAAGAATAAATGACTGGCTTCAAACAAATGATTTTGAAGATCAAGAAGCGTATACGTCATTTTTAAAGGAGATTGGCTATCTAGAGCCAGAAGTGGATGATTTTACGATTACAACCGAAAATGTGGATGATACGATTACAAAGCAAGCAGGGCCGCAATTAGTTGTCCCTATTGATAATGAACGTTATGCGCTAAATGCTGCCAATGCGAGATGGGGGTCGCTTTACGACGCATTGTACGGTTCAGATGTGATCTCTGAAGAAGATGGCGCGGAAAAGGGGGCGTCATATAATCCCATTCGTGGGCAATGGGTAATAGAATTTGGAAAAAAATTTTTAAACGATCATTTCCCACTGCAAACAGGGTCTCATGCCGAAGTGACTCGGTATTTTGTAAGTGATGGGAATTTGCATATTAGCTTAGAAAATGGTGCAACAACGGCATTAAAACATACGGCGCAATTTGTTGGTTATCAAGGTGATGTAGCATTGCCAACAGCTATTCTTTTCGTTCATAACGGTTTACACGTTGAAGTGCAAATAGATCCGTCGCATCCAATAGGTAAAACGGATGTTGCTGGGGTAAAAGATATTGTATTAGAAGCAGCGACAACGACAATTATGGACTGTGAGGATTCTGTAGCTGCTGTGGATGCAGAAGATAAAACGCTTGTTTACCGAAATTGGTTAGGGTTAAATAAAGGTAACTTATCCGCTACATTCACCAAAGATGAAAAAGAAATCACCAGAACGTTGCATGCTGATCGTACGTATAAAGGTCCAAATGGAGAAGCGATTACATTGTCTGGACGAGTGCTGATGTTTGTGCGAAATGTAGGGCACTTAATGACAACGAATGTGATTCTCACGAAAAACGGAGAGGAAATTCCTGAGGGGATCATGGATGGTGTGTTCACTTCACTTATGGCAAAACACGATTTATTAGGAAGCGGGCGTTATCGAAATTCACAAGAAGGCTCGATTTATATTGTAAAGCCAAAAATGCATGGCTCAAAAGAAGTTGCATTTGCGAATGAATTGTTTCATCGAATTGAAGATATGTTAGATTTAGAACGATATACGATTAAAATCGGGGTTATGGATGAAGAACGAAGAACATCATTAAATTTAAAAAACTGTATTTATCAAGTAAAAGAACGCGTCGTATTTATTAATACGGGATTTTTAGATCGAACAGGTGATGAAATTCATACATCTATGGAAGCCGGTCCAATGATTCGTAAAGGGGAAATGAAGACATCGGCTTGGTTACAGGCATACGAAAAAAATAATGTGCAAACAGGGCTGCAAGCAGGGTTACAAGGGAAGGCGCAAATTGGTAAAGGAATGTGGGCGATGCCAGATTTAATGGCTGATATGCTTAAACAAAAAATTAGTCACCTTACAGCAGGTGGGAATACGGCTTGGGTACCGTCGCCAACAGCAGCGACATTACATGCATTGCATTATCATGAAGTGGACGTAAAAGCAGTTCAAGATCAGCTTGCCAAAGAGAAGCAAAGTTATCAGACTGATATGTTGCAAGTGCCAATTGCTAAGCAACCAAATTGGTCGCATGAGGAAATACAAAATGAGTTAGATAATAGCTGTCAAACATTGCTTGGCTATGTCGTTCGTTGGGTGGACCAAGGCGTAGGATGCTCGAAAGTTCCTGATATTCACCATATTGATTTAATGGAGGATCGAGCAACGTTACGAATTTCCAGTCAAATGTTAGCTAATTGGTTGTATCATGGTGTTTGCACAGAAGAACAAATGATGGATTCCTTAAAAAGAATGGCAAAAATGGTAGATAAACAAAACGAAGGTGATAAAAATTATCGTTCGATGGCCCAGAATTTCGATCGTTCGATTGCCTTTCAAGCAGCTTGTGACCTTATATTTAAAGGAAAAGAACAGCCTAATGGATACACCGAGCCTATTTTGCACCGCAGACGTCTTGAAGTGAAACAAAATGAATTACTATCAAAACAATAA MTAYITTGNLQIATELYEFVKKEALPGTGLNQEKFWQDFDELVTDLAPKNKALLVEREKMQQRINDWLQTNDFEDQEAYTSFLKEIGYLEPEVDDFTITTENVDDTITKQAGPQLVVPIDNERYALNAANARWGSLYDALYGSDVISEEDGAEKGASYNPIRGQWVIEFGKKFLNDHFPLQTGSHAEVTRYFVSDGNLHISLENGATTALKHTAQFVGYQGDVALPTAILFVHNGLHVEVQIDPSHPIGKTDVAGVKDIVLEAATTTIMDCEDSVAAVDAEDKTLVYRNWLGLNKGNLSATFTKDEKEITRTLHADRTYKGPNGEAITLSGRVLMFVRNVGHLMTTNVILTKNGEEIPEGIMDGVFTSLMAKHDLLGSGRYRNSQEGSIYIVKPKMHGSKEVAFANELFHRIEDMLDLERYTIKIGVMDEERRTSLNLKNCIYQVKERVVFINTGFLDRTGDEIHTSMEAGPMIRKGEMKTSAWLQAYEKNNVQTGLQAGLQGKAQIGKGMWAMPDLMADMLKQKISHLTAGGNTAWVPSPTAATLHALHYHEVDVKAVQDQLAKEKQSYQTDMLQVPIAKQPNWSHEEIQNELDNSCQTLLGYVVRWVDQGVGCSKVPDIHHIDLMEDRATLRISSQMLANWLYHGVCTEEQMMDSLKRMAKMVDKQNEGDKNYRSMAQNFDRSIAFQAACDLIFKGKEQPNGYTEPILHRRRLEVKQNELLSKQ PGPT0001445_547 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638 NA NA AK015_01098 885 cynR_2 HTH-type transcriptional regulator CynR ATGGACATTCGTCAAGTTGAGTATTTCATTGCTGTAGCCAATAAACAAAATTTCACCAAAGCTGCCTCCGCGCTTCACATCTCACAACCGTCCTTAAGTAAAGCAATTAAAAATTTAGAAAATCAGCTCGGTGTTACTTTATTTTATCGAGGTGGAAAAAAGATTGAACTGACAGATGCGGGCGCAGCTTTTTTGGGGAACGCCAAACAATTTATCGAAGCTTATGAAAATCTAACAACGGAAATGTATGACGTGGTGCAATTAAAAAAAGGACAAATAAAAATTGGCATCCCTCCCATTATTGGCGCTACTTTTTTTTCAAAATTAATTAGTCAATACAAAGCAGCGCACCCCTCCTTTCATATTGAACTAAACGAAGTGGGTAGTAATTTAATTCAACATGGGGTAAAAGAAGGAGAGTTAGATGTTGGCCTCATTTGTAATCTACCAGTAGAAAAACACCACTTTTCTACAATAAACCTGTTAAAAGACCCTTTAATGGTCGTTGTCCAAAACAATCACCCTCTTGCTTCTGAAAAATCTGTTGCATTGCCAGATTTACAGGATGAACCATTTATTTTATATCAGCAAGATTTCTCTTTACATGACCGGATTGTAGAAGCCTGTCAATATTACGATTTTTCACCAAATGCAGTATGTAAAAGTTCGCAGCGAGACTTTATGATAGAAATGGTGGAGGCAAACTTAGGCATCGCTCTTTTCCCTAGTAAAATTTGTAAACAACTGCTCCATCACGATGTTCAAGCTATTCCTTTCAAACAACCAAGGCTTCATCTGGAGTTGGCACTTATTTGGAAAAAAGATAAATATTTGCCGTATGCCGTACGTGAGTTTGTCACTATGGCAAAAGATTTCACAAATTAA MDIRQVEYFIAVANKQNFTKAASALHISQPSLSKAIKNLENQLGVTLFYRGGKKIELTDAGAAFLGNAKQFIEAYENLTTEMYDVVQLKKGQIKIGIPPIIGATFFSKLISQYKAAHPSFHIELNEVGSNLIQHGVKEGELDVGLICNLPVEKHHFSTINLLKDPLMVVVQNNHPLASEKSVALPDLQDEPFILYQQDFSLHDRIVEACQYYDFSPNAVCKSSQRDFMIEMVEANLGIALFPSKICKQLLHHDVQAIPFKQPRLHLELALIWKKDKYLPYAVREFVTMAKDFTN NA NA NA NA NA AK015_01099 219 hypothetical protein ATGAACGCACAAACCCCATCATTTACAAGTGCTTTTGACCCTTACGTATACCAAACTTTACAGTCAATAACAGGTGCCACGCTCATTGTACAAACAACACAAGGAACAGTGACAGGTAGCTTAAAAACAGTAATGCCTGACCATATCGTTTTAGAATCGGGCGGATCTTCATTCTATATTCGTATTCAACAAATTGTTTGGGTGATTCCGAAAAGCTAA MNAQTPSFTSAFDPYVYQTLQSITGATLIVQTTQGTVTGSLKTVMPDHIVLESGGSSFYIRIQQIVWVIPKS NA NA NA NA NA AK015_01100 897 hypothetical protein ATGTTTAAGCGTGAAAACCGCATGTTAATTGAACTGCCTGTTCCTGAACACGGCGATCCTAATGCTGCAGCAGCGGTCCAAGAATTATTAGGTGGGAAATTTGGCGAGATGTCTACATTAAATAATTATATGTTTCAATCGTTCAATTTCCGCCAAAAAGATAAGCTTAAACCATTTTACGATCTTGTAGCAAGTATAACAGCTGAAGAGTTCGGCCATGTTGAACTTGTGACGAACACAATTAATCTACTTTCAAAAGGAAACACCTTTTACACGGGAAACCCAGATGTAACCCCGTTACGCGAAGGAAAAGACAGTCGAAATACGTATCAATTTATCGCTACTGCTCAAACAGCACTTGTAGGTGACTCCATGGGTCGAGCATGGACAGGAGATAATGTCTTTAGTAGCGGCAATCTTGTCTTAGATTTACTACACAATTTCTTTCTTGAAGTCGGCGCTCGTACACATAAAATGCGCGTTTACGAAATGACAGAACATGAAACAGCAAGAGAAATGATTGGTTACTTATTAGTTCGTGGAGGTACACATGTGCTAGCCTATGCGAAAGCATTAGAAATCGCAACAGGCGTTGACGTTAAAAAGCTTATCCCGATTCCTGATTTATCGAACACGAAGTTTGATTATGCTCGAAAATTTGAAGAACAAGGATTGGCAAATGTTTTATACACGTGGAATGATGTGGGAGATTATAACGATATCCGACAAATTTGGAAAGGAGACAATCCAGAGAATGGGGAGAAGCTAATCGTCAAGGAAGGAACACCAAAAGGAGGCCCTGTTCCTAATTTAGAAGACCTTCCTGAACAATTTGCACCTGGCATTGATAAAGATGATTATCAAAAAATCGCTAAACGGTTAATGGAAAACATGTAA MFKRENRMLIELPVPEHGDPNAAAAVQELLGGKFGEMSTLNNYMFQSFNFRQKDKLKPFYDLVASITAEEFGHVELVTNTINLLSKGNTFYTGNPDVTPLREGKDSRNTYQFIATAQTALVGDSMGRAWTGDNVFSSGNLVLDLLHNFFLEVGARTHKMRVYEMTEHETAREMIGYLLVRGGTHVLAYAKALEIATGVDVKKLIPIPDLSNTKFDYARKFEEQGLANVLYTWNDVGDYNDIRQIWKGDNPENGEKLIVKEGTPKGGPVPNLEDLPEQFAPGIDKDDYQKIAKRLMENM PGPT0013240_381 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217 NA NA AK015_01102 1101 metI COG0626 Cystathionine gamma-synthase/O-acetylhomoserine (thiol)-lyase ATGTTACAACAAACGCGTGAAACAAACATGGTGCAACTAGGAAATCGAAGTGATGCTCGCACTGGCGCAGTTAATCCCCCTATTTATTTATCAACTGCATTCAAACATGATGGGATAGGGCAGTCAACCGGGTATGATTATAGCCGTACAAAAAACCCTACCCGATGCCTGTTAGAGGAAGGTGTTGCGCATTTAGAATCTGGTAAGCAAGCCTTTGCTTGTAGTTCAGGCATGGCGGCTATCCAGCTTGTACTTTCCCTTTTTCAAGCTGGTGATGAAATCATTGCTTCAGCAGATATTTACGGGGGAACGTATCGTTTGTTGGAACAGTACAACAAAGCATACAATTTCAAGATCTGCTATGATCCTTTTACCAACTTCAAAGAAACGGAAGCAAACATATCTAACAAAACAAAAGCAATATTTATTGAAACACCGACAAACCCTTTAATGCAGGAAATAGATATTGCCTCCATCGCTCACCTTACTAAAAAATATAATCTATTACTTATTGTTGACAACACCTTCCTTACGCCATATTTGCAACGCCCTTTAGAACTTGGCGCTAATATTATTCTACATAGTGCAACAAAGTATATCGGCGGGCACAATGATGTATTGGCTGGCATAGTAGTTGCTAACGATGAACCGATTTGTGAACAACTCGCTATGATGCATAATGCATCTGGGGCAGTGCTTTCTCCATTTGATTGTTGGCTGTTAATTAGAGGGTTAAAAACGCTTTCCTTGCGTATGGAAAAGCATGAAACAAATGCCCGAGAATTAGCCCATTTTTTAAGCAACCACCAAGCAATAAAAGAGGTGCTTTATCCTGGCAAAGGTGGTATGTTATCTTTTCGTTTACACGATAGCAAGTGGGTAGACCCTTTTTTACAGCAAATGCAACTGATTACCTTCGCCGAAAGTCTAGGCGGTGTGGAAAGCTTTATCACGTATCCAGCGACACAAACACATGCGGATATTCCCCTTAATGAACGTACCAAGCGTGGCATTGATGACTGTTTATTACGCTTTTCGGTCGGAATAGAGCATGTGAATGATTTAAAACATGATTTGCAGAACGCATTACAGGCATTTTAA MLQQTRETNMVQLGNRSDARTGAVNPPIYLSTAFKHDGIGQSTGYDYSRTKNPTRCLLEEGVAHLESGKQAFACSSGMAAIQLVLSLFQAGDEIIASADIYGGTYRLLEQYNKAYNFKICYDPFTNFKETEANISNKTKAIFIETPTNPLMQEIDIASIAHLTKKYNLLLIVDNTFLTPYLQRPLELGANIILHSATKYIGGHNDVLAGIVVANDEPICEQLAMMHNASGAVLSPFDCWLLIRGLKTLSLRMEKHETNARELAHFLSNHQAIKEVLYPGKGGMLSFRLHDSKWVDPFLQQMQLITFAESLGGVESFITYPATQTHADIPLNERTKRGIDDCLLRFSVGIEHVNDLKHDLQNALQAF 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 AK015_01104 1050 hypothetical protein ATGAAACGCAGCTTACAACAAAGATTGCAGGAAGGTACGGTTATTGTGGGAGAAGGTTATTTATTTGAATTAGAACGCAGGGGGTATTTACAAGCAGGTTCTTTTGTACCGGAAGTCGCATTAGATAATCCACAAGCTCTGAAACAAGCTTATCGCGATTTTATGAATGCAGGCTCAGACGTCGTACTGGCGTTTACTTACAATGGGAATAGAGAAAAGATGCGAATTATTGGTAAGGAAGAATTGCTCGAGCCGTTGAACAGAAATGCCATTCAACTAGCAAAAGAAGTCGCCAAAGAACATCCTGTAGAAGAAGCACTCGTTGCTGGAAACATTTCTAACACGAATATTTTCGATCCGAATGACCCAGCTTCCAAAGAGCAAGTAAGGAGCATTTTTGCCGAGATGGTGCAATGGTGTAAAGAAGAAGGTGTTGATTTCGTAAATGGAGAAACATTTTATTATTATGAAGAAGCTCTAATCGCTTTAGAAGAAATTACGAAACAAGAACTCCCAGCCGTTATCACTTTTGGTCTTATGGGAGAAAACATTTTAAGGGACAGGTATACCGTAGAGGAAGCTTGCCAATTATTATCTGAAAAAGGAGCGCTCGTCGTCGGAATGAATTGCTTCCGTGGCCCTGATACCATCCAGCCCTTTGTAGCTAAAATAAGAGATACAGTCAAAGGTTATGTTGGGGCATTACCAATACCTTATCGAACAACAGAGGCGCACCCAACCTTTTTCAACTTGCCGGATGGAGGTTGCAGTTGCCATTTACCTACAGAAACGACATTCCCAACGGCACTTGATCCGCTTTATCACAACCGCTACGAATTAGCCGCTTGGGCGAAAGAAGCAAAAGACATCGGTGTGAACTATATTGGCTTATGCTGTGGCGCGTCGCCTGCAATGTTACGTGCTGTTGCAGAAGCTGTCGGTAAAGAAACGATTAATTCCAAATACTCGCCAAATATGGAAAAACACTTTTTATTTGGTACTGACAAAACGTTGAAAAAACATAATTTAGAATACCGAACTAAGGCTTAG MKRSLQQRLQEGTVIVGEGYLFELERRGYLQAGSFVPEVALDNPQALKQAYRDFMNAGSDVVLAFTYNGNREKMRIIGKEELLEPLNRNAIQLAKEVAKEHPVEEALVAGNISNTNIFDPNDPASKEQVRSIFAEMVQWCKEEGVDFVNGETFYYYEEALIALEEITKQELPAVITFGLMGENILRDRYTVEEACQLLSEKGALVVGMNCFRGPDTIQPFVAKIRDTVKGYVGALPIPYRTTEAHPTFFNLPDGGCSCHLPTETTFPTALDPLYHNRYELAAWAKEAKDIGVNYIGLCCGASPAMLRAVAEAVGKETINSKYSPNMEKHFLFGTDKTLKKHNLEYRTKA NA NA NA NA NA AK015_01105 198 hypothetical protein GTGGGTGCTTGGGAATATGCGGTAGAAACTTGGACATTAGGGATCACTTCAGCTGATCGAGAGGAATTTGAAGATAAATTAAATGAATATGGAAAACAAGGTTGCGAATTAGTAAACGTTATACCTCAGATTGGTGGGAGTATGGGGGATATTAGTGTGAACTTTAACCAAATCATTTTTAAAAGAAAAGCGATATAA MGAWEYAVETWTLGITSADREEFEDKLNEYGKQGCELVNVIPQIGGSMGDISVNFNQIIFKRKAI NA NA NA NA NA AK015_01106 771 hypothetical protein TTGGAGTCAACAATCGAAGCCTACATTCACAAAATTGTAAATGAGCTACACTGTGGGGAAGAAGAAAAAAAAGACATGACAGATGAAATGAAAGATCATTTGTATTTGTTGATACAAGAATATAAGGAAGATGGGTTTTCAAATGAAGTAGCCGTAAATAAAGCGTTAGAAACGTTTGGCGAACAAAAGCAATTAGCAAGAGGCTTACAAACATCTATTTCTCCTTTTCACAAATTATGCAAAATAACGACAGGCATTTTTTTCGGATTATATGTTCTTATCCTATTTTTTAAGTTCTTTTTGGAGCGCATGATTTTAACAGCGACTATAGTTAAAAGTGGTGACTTTTTTAACCCACATGTGGCTATTCCGGAAAATTTTACAGGTGCATTTGATGTTGAATACATTCATTTAAATGCCAATTTTTTGCCCTTTAAAACGACGCTACAATATATCTTAAATGCAGATTCATATAACGTATTCATTATTATTGAAAACACCATAGGGAATGCCCTTGTATTTTTGCCGCTAGGAATCTTTCTGCCGCTATTATTCCCAAAGTGCCATTCACTATTAAAAGTTTCTATAACTGTAACGATCATTATCTCGGCGATTGAAAGCTTGCAATTGTTGTTATGCGTTGGTCAATTTGATGTGGATGACATTATCTTAGGAACGATTGGCAGTGGCATAGGATTTTTATGTTTCCTATTTTTCCGGCGCTTAAAGAATGGAATAACTGCAATACGACGTATAGAAAAAGAATTATAA MESTIEAYIHKIVNELHCGEEEKKDMTDEMKDHLYLLIQEYKEDGFSNEVAVNKALETFGEQKQLARGLQTSISPFHKLCKITTGIFFGLYVLILFFKFFLERMILTATIVKSGDFFNPHVAIPENFTGAFDVEYIHLNANFLPFKTTLQYILNADSYNVFIIIENTIGNALVFLPLGIFLPLLFPKCHSLLKVSITVTIIISAIESLQLLLCVGQFDVDDIILGTIGSGIGFLCFLFFRRLKNGITAIRRIEKEL NA NA NA NA NA AK015_01107 363 hypothetical protein ATGGATAAAGAAATAATGAAAGGAAGTATTGATATCCTGCTATTGTCTCTCCTCCAGAATCGTGATATGTACGGCTATGAGATGGTTAAGGCGTTAAAAAAAAATAGTAATGAACTGTATAACATGAGTGAGGGTACTTTGTATCCTGCTTTAAAGCGACTTGAAAATAAAGGCTGGGTCCAATCTTATTGGGGAGATTCTGAAAGTGGAGGCAGACGGAAATATTATCAAATTACCCAGCAGGGAAAAAACGAGCTAGCTAACAAACTGCAAGAATGGAATCAAATTAGCCATTTAATTAAGGTATGTTCGGAGGGATTAGGTTGGAGTCAACAATCGAAGCCTACATTCACAAAATTGTAA MDKEIMKGSIDILLLSLLQNRDMYGYEMVKALKKNSNELYNMSEGTLYPALKRLENKGWVQSYWGDSESGGRRKYYQITQQGKNELANKLQEWNQISHLIKVCSEGLGWSQQSKPTFTKL NA NA NA NA NA AK015_01108 693 hypothetical protein ATGCCTTCTTCTTGGAAAAGATCATTAGAACTAGCATATACAAATCATTACATTATTACGAAGGTGAATGAACAGAAACCAGTTAATTGGTTATTACTAGATGTAGGTTTAGAAAATGTGGCAGAAGAGCATATTAACCAATCCTTAGATAATTTGCTTATTGGATTTAATCGATTGTTTAAGTATAAAAGTGTAAAGCAAGCTACATTAGGTTATTTTCGTATGCTGGATATAGTTAAACAAAATGATAGGTTCCATCCAAAAATTCATGTCTTGCTGCCAACGATGAAAAGCTATTTTCAAGGAAGATACTATATAAAACGTGATAAATGGTTAGAAATGTGGGCTAAAGCTTTAGGGGTTACTAATGATCTATATGTAAATGTAAAAGTGATCCAACCTGAGGATAATAGTCATCGAATGGTAGAAAAAATGGAACAAGGTTTAGCAGTACTTTTGGATGTACCAGAAGCAAACAGACCTAAAAAAGATAAGAAAATTATTGAGACACGAAGGTTAATTGGGTACAGCAGGTTATTAAAAAAGGAAGCAGATCAACTACCTCCTGATTCAGACTTTTACCTAGATATAGCTCATTTACGTACAGACGATAGGATTGCAAATGTTGCTTTTGACAACATGCTCACCTGGCACCCTGGCTTAAGAACAGAAAAAGAAAATCCTTTTATCTGA MPSSWKRSLELAYTNHYIITKVNEQKPVNWLLLDVGLENVAEEHINQSLDNLLIGFNRLFKYKSVKQATLGYFRMLDIVKQNDRFHPKIHVLLPTMKSYFQGRYYIKRDKWLEMWAKALGVTNDLYVNVKVIQPEDNSHRMVEKMEQGLAVLLDVPEANRPKKDKKIIETRRLIGYSRLLKKEADQLPPDSDFYLDIAHLRTDDRIANVAFDNMLTWHPGLRTEKENPFI NA NA NA NA NA AK015_01109 1257 tyrS Tyrosine--tRNA ligase ATGAATCTTATTGATGAGTTAGAATGGCGTGGAGCTATAAATCAACAAACAGATGCTGAAGGATTAAAAGATTTAATTGAAGAGAAAAAGATTTCTTTATATTGCGGTGTTGATCCAACTGGTGATAGTATGCATATTGGTCATTTAATTCCATTCATTATGATGAAACGCTTTCAATTACACGGCCATCAACCGGTTATTTTAATTGGAGGAGCGACAGGGACTATTGGTGATCCTAGTGGACGCCAAACAGAACGGCAATTACAAACATTAGAGAAGGTACAAGATAATGTTGATAAGCTAACGAAGCAAATGAAGAAATTATTCTTCGATGGTGATAGTGAACTTAGGATCGTGAACAACTACGATTGGACACATAACTTAAGTATATTGGATTTCTTACGTGATTACGGTAAAAATTTTAGTGTCAATAATATGTTGGCAAAAGATATTGTCGCTAGCCGATTAGATAGTGGGATTTCGTTCACGGAGTTCTCTTACCAAATTTTACAATCTATGGACTTTCATCACCTATTTAAAGAAGAAAATGTACAATTACAAATTGGTGGTAGCGATCAATGGGGCAATATTACAAGCGGATTAGACCTCATACGTAAAAAAGAGGGTCAGGATGCGAAAGTCTTTGGTCTAACCATTCCACTTTTATTAAAAGCAGATGGAACAAAGTTTGGTAAAACAGCTGGTGGAGCAATTTGGTTAGACGCAGAAAAAACGACACCATACGAATTTTACCAGTTTTGGATTAACGCAGATGATAAAGACGTCATAAAATACCTGAAATTCTTTACGTTCTTAACGAAAGAAGAAATTGATGAATTAGAGAATAAAGTGAAAACAGAACCGCATAAACGTGAAGCGCAAAAAGTGTTAGCAAAAGAAATGACAAAGTTTGTTCATGGTGAAAAAGCATTAACGCAAGCATTGAAAATTACGGAAGCACTTTTTAGTGGAAATGTTAAATTATTAACAGCAGATGAAATTGAACAAGGATTTAAAGACATGCCTACTTTTCAAGCTTCCAAAGAAACAAAAAATATTGTCGACTGGTTAGTTGAGTTAGGTATCGAACCATCTAAACGCCAAGCGAGAGAAGATATTAACAATGGAGCTATTTCCATGAATGGAGAACGAATAACCGATGTTAATACAGATGTAACAGCAGAAAACGCATTCGATGGAAAGTTTATTATTATTCGTAAAGGGAAGAAAAAATACAGCTTGGTAAAATTAGCTTAA MNLIDELEWRGAINQQTDAEGLKDLIEEKKISLYCGVDPTGDSMHIGHLIPFIMMKRFQLHGHQPVILIGGATGTIGDPSGRQTERQLQTLEKVQDNVDKLTKQMKKLFFDGDSELRIVNNYDWTHNLSILDFLRDYGKNFSVNNMLAKDIVASRLDSGISFTEFSYQILQSMDFHHLFKEENVQLQIGGSDQWGNITSGLDLIRKKEGQDAKVFGLTIPLLLKADGTKFGKTAGGAIWLDAEKTTPYEFYQFWINADDKDVIKYLKFFTFLTKEEIDELENKVKTEPHKREAQKVLAKEMTKFVHGEKALTQALKITEALFSGNVKLLTADEIEQGFKDMPTFQASKETKNIVDWLVELGIEPSKRQAREDINNGAISMNGERITDVNTDVTAENAFDGKFIIIRKGKKKYSLVKLA NA NA NA NA NA AK015_01111 303 hypothetical protein ATGCTTATAGATGAAATACGTGGAGAAGAATTAGATGATTTTTTTTGCGCGTTTTTAGAACTTCAAACAATAGAAGAATGTTATTGTTTTTTTGATGATTTATGTACAGTCAATGAAATAAAGGCAATGCTTCAACGATTTAGAGTAGCAAAAATGCTTTATAATGATAACACATATTGTCAAATTGAAGATGAAACAGGGGCAAGTACAGCAACCATCTCTCGTACGAAACGTTCATTATATCATGGGAATAATATGTATGATATTCTTTTCAGTCGGATGAAGAAAAGTATAGAGAGTTAA MLIDEIRGEELDDFFCAFLELQTIEECYCFFDDLCTVNEIKAMLQRFRVAKMLYNDNTYCQIEDETGASTATISRTKRSLYHGNNMYDILFSRMKKSIES NA NA NA NA NA AK015_01112 1374 nhaC_1 COG1757 Na(+)/H(+) antiporter NhaC ATGAAAAGAGATATAACGTTAAAAGAAAGCATCTTTCTACTAGTATTATTATTATTGATTATAGGTATTAGTATAATAGGTTTGGATTTGCCTCCGCAAATTCCGATTTTATTCGCAGTAGGAATTGTTATCCTTTTTGCTAAGATGAAAGGTGCTTCATGGGAAGTTGTTCATAAGGGAATTGAAAATGGAATTATACCTGGTCTGATCCCCATCATTATCTTTATGCTTATTGGTGTCTTAATAAGTGTTTGGATTTCAGCAGGAACCATTCCAACTATCATGGTTTATGGGTTAGGGATTTTATCAGCGAAATTTTTCTTACCTTCTGTGTTTGTTATTTGTGCACTTGTTGGTATTTTAGTAGGTAGTTCGTTCACAACCATTTCAACTATAGGTATTGCGTTTTTAGGTATGGGACAAATGATGGAATTTAATATTGCGATGACTGCTGGCGCTATAGTGTCAGGAGCTTATGTCGGGAATAATATATCTCCTTTATCCGATACAGCCAATTTGGCTTCTGCTATAGCGGAAGTGGATTTATTTGAACATATTAAAAATATGTTGCGAAAAATTGTTCCTGCTTTTGTTATTTCACTTATCTTTTTTATTATAATTGGACAAACAAAAGCGGGAGCGACGGAAAGTAATATTAATGAATTAGTAGATACATTATATTCTAATTTCAATATTTCTATGGTGTCCCTAATACCAGCACTCATTTTATTTTTGTGTGCGTGGAAGAAGATACCTGCTATTCCAACACTTCTAATGAGTATTGCGGTTACCGTTGTTATTCAATATATATATTATCCACATACCAGCTTTTCTAAAATCGCTAGCCTTATGCAAGATGGATTTGTTTCGAATACAGGAACAGAAACGGTAGATGTTTTGCTTACCAGGGGTGGTATGCAAAGTATGATGTGGTCTGTTTCGCTAATTATCCTTGCTTTGACATTAGGAGGACTGTTAGTAGAATTAAAAATTGTTGAAACGTTAATATCAAAAGTTCAAGGTCTTGTTAGTACAAAAGGGAAATTAATTTTAATGGCTGGATTAAGTGCGGTAGGTATAAATATCGTTCTTGGAGAACAGTATTTATCCATTATTTTGCCAGGTAAAGCATTTAAATCGCAAGTGGAGGCAATAAATCTTGATCCCAAAAAACTCTCAGCTATTTTAGCAGATGCTGGGGCAGTAGTTAATTCACTAATTCCATGGGGAGTAAGTGGTGTGTTTATTACTGGAACATTGGGGGTTTCTACATTAGAGTATGCACCATTTGCTATCTTTTGTATAACTGCTCCAATTATAAATGTATTATTTGGTTTTTTTGAAAAAGAGAAGGGATTACCTCCTCTCTCTTAA MKRDITLKESIFLLVLLLLIIGISIIGLDLPPQIPILFAVGIVILFAKMKGASWEVVHKGIENGIIPGLIPIIIFMLIGVLISVWISAGTIPTIMVYGLGILSAKFFLPSVFVICALVGILVGSSFTTISTIGIAFLGMGQMMEFNIAMTAGAIVSGAYVGNNISPLSDTANLASAIAEVDLFEHIKNMLRKIVPAFVISLIFFIIIGQTKAGATESNINELVDTLYSNFNISMVSLIPALILFLCAWKKIPAIPTLLMSIAVTVVIQYIYYPHTSFSKIASLMQDGFVSNTGTETVDVLLTRGGMQSMMWSVSLIILALTLGGLLVELKIVETLISKVQGLVSTKGKLILMAGLSAVGINIVLGEQYLSIILPGKAFKSQVEAINLDPKKLSAILADAGAVVNSLIPWGVSGVFITGTLGVSTLEYAPFAIFCITAPIINVLFGFFEKEKGLPPLS PGPT0013945_1441 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315 NA NA AK015_01113 819 pdxK_1 COG0351 Pyridoxine kinase ATGACAATTAAAAAAGTATTAACGGTTGCAGGTTCTGATTCAAGTGGTGGTGCAGGTTTGCAAGCCGATCTGAAAACATTTCAAGAATACGGAACTTTTGGCTGTACTGCTATCACGAATCTCGTCACGATGGATCCCAAAAATAATTGGAATCATCGAGTGTATCCCGTTGATGAGACGACAGTTCGGGAACAATTGGAAACAATCTTCTCTGGTAGTCCGCTAAATGCTATGAAAACGGGGATGTTAGGCTCTACAAATATCATAAAGATTGTAAGTGAAATGATTGATCAATATGAAATGAAGAATGTTGTAATTGATCCGGTGATGGTTTGTAAAGGAGAAGATGAGCCTTTGCACCCGGAAAATGGGGTTGCTATCCGCGATTATCTTTTACCGAAAGCAACTATCGTAACGCCTAATTTATTTGAAGCTGCTCAACTATCTAGTATGTCTGCAATCCGTACAGTTGCTGATATGAAAGAAGCAGCGAAAAAGCTGATAAACCTTGGCCCAGAATATGTTGTTATTAAAGGCGGAAAAAGTTTAGATGGCAATAAAGCAATTGATTTACTTTATGATGGGTCTGCTTTCACTTTTTACGAAGTAGAGAAAATCAATACGAATTATAATCACGGTGCTGGATGTACATTTGCAGCTGCTATCACAGCAGGATTGGCAAAAGGTTTCTCTGTAAAAGAATCGGTAGCAAAAGCAAAAACATTTACCACCGAAGGTATTAAGGCTGGATTTGCCTTTAATGCTTTCATTGGACCAGTTTGGCATGGAGCATATAATAGAGCAGTTCTATCTGATTAG MTIKKVLTVAGSDSSGGAGLQADLKTFQEYGTFGCTAITNLVTMDPKNNWNHRVYPVDETTVREQLETIFSGSPLNAMKTGMLGSTNIIKIVSEMIDQYEMKNVVIDPVMVCKGEDEPLHPENGVAIRDYLLPKATIVTPNLFEAAQLSSMSAIRTVADMKEAAKKLINLGPEYVVIKGGKSLDGNKAIDLLYDGSAFTFYEVEKINTNYNHGAGCTFAAAITAGLAKGFSVKESVAKAKTFTTEGIKAGFAFNAFIGPVWHGAYNRAVLSD PGPT0009125_2580 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 AK015_01114 1863 hdc Histidine decarboxylase ATGAAAACTGAATTACAAGACCACAATTTAAAAGCTTTATTCTTAGGAAGTAAAGGTGAAAATGTAGATTTATTTAAAGAACTATTACTAAAAATGATTGATGAACATGTGGGGTGGCGTCAAAACTATCAGCCGCAAGACTTACCAGTAATTACGCCACAAGATAAAAGTTCAAAAAGTTTCCAAGAAACTGCTGATCATGTACGTAGTGTATTTAATGTTTTATCTTCTAAACTTCGTACGAACTCACTTCCATGGCATACAGCAGGTCGTTTTTGGGGACATATGAATTCTGAAACATTAATGCCATCTATCATTGCTTATACAACTGCCATGTTATGGAATGGGAATAACGTAGCATATGAATCCTCACCAGGCACTTCACAAATGGAAGAAGAGGTTGGTCATGAGTTTGCTGCTCTTATGGGATATAAAAAAGGAGAAAGCTGGGGACATATTTGTGCTGATGGTTCTATTGCCAACCTTGAAGGTCTTTGGTACGCAAGAAATATGAAATCTCTTCCTTTAGCTATTAAAGAAGTTGCTCCTGAATTTGTAGCAGGTAAAACGGAATGGGAATTACTTAACATGTCTACAGAAGAAATTCTAGATATTCTAGATCAAATTCCTGAAAAAATAGACGAAGTGAAAGAGCATTCTGCACGCAGTGGGAAAAACCTGCAAAAACTAGGTAAATGGTTAATTCCTCAAACCAAACATTATTCTTGGTTAAAAGCTGCTGATATTATCGGTGTAGGACTTGACTGTGTTGAAGCTATTGATGTGGATGATCATTATCGAATGGACATTGATAAATTAGAAGCAAAAATCCGCGAATTGGCAGCTGAAGAAGTTCCAGTTCTTGGTGTGGTTGGGGTAATTGGAACAACCGAAGAAGGACAAGTCGATCGTATTGATAAAATGGTAGAATTACGAGACAAATTAGCTAAAGAAGGCATTTATTTCTATATACATGTAGACGCTGCTTACGGTGGCTATGCCCGTGCAATATTCTTGGATGAAAATAATAACTTTATAGATTACGCGAAAATGGAAGAAGTACATGAGAAATTTAACGTTTTCACAGAGAAAAACGAATGGCTTACCGAAGATATTTATCATTCTTTCAAAGCGATGAGTGAAGCGGAAACCATTACAATTGACCCGCATAAAATGGGGTATATTCCTTACTCTGCTGGTGGTATTGTAGTTAAAGATACGAGAATGCGTGACGTGATTTCTTATTTTGCCACATATGTATTTGAAAAAGGTGCAGATATTCCTGCTTTACTTGGTGCTTATATGCTAGAAGGATCGAAAGCAGGTGCTACTGCGGCTGCAGTATGGACAGCCCATCAGGTACTACCATTAAATGTAACAGGATATGGTAAATTAATCGGTGCAAGTATTGAAGGTGCTTATCGTTTCTATCATTTCTTACAAGGAAAACAATTCAAAGTTGGCGATAAAACCATTCATGTTTATCCATTAACAAAACCTGACTTTAATATGGTTGACTATGTATTTAATGAAGAAGGAAATACAGACTTAGAAAAAATGAATAAGCTTAATCATGATTTTTATGAACAAGCTTCTTACGTTAAAGGTGGATTATACAATAACGAGTTCATTACTTCACATACAGATTTTGCGATTCCAGACTATGGAAACAGTCCATTGTCATATGTTAACAGTTTAGGATTCAGTAAAGAAGAGTGGGATCGTGAAGGTAAGGTTACAATACTTCGTGCTTGTGCTTTATCACCGTATGCATATGACAAAGATGTCTTTGATGAATATGCTAGCAAGATAGAGCAAGCAATTCAAGAAAAACTTGAAAAAATTTATGCTGTTGTAAACTAA MKTELQDHNLKALFLGSKGENVDLFKELLLKMIDEHVGWRQNYQPQDLPVITPQDKSSKSFQETADHVRSVFNVLSSKLRTNSLPWHTAGRFWGHMNSETLMPSIIAYTTAMLWNGNNVAYESSPGTSQMEEEVGHEFAALMGYKKGESWGHICADGSIANLEGLWYARNMKSLPLAIKEVAPEFVAGKTEWELLNMSTEEILDILDQIPEKIDEVKEHSARSGKNLQKLGKWLIPQTKHYSWLKAADIIGVGLDCVEAIDVDDHYRMDIDKLEAKIRELAAEEVPVLGVVGVIGTTEEGQVDRIDKMVELRDKLAKEGIYFYIHVDAAYGGYARAIFLDENNNFIDYAKMEEVHEKFNVFTEKNEWLTEDIYHSFKAMSEAETITIDPHKMGYIPYSAGGIVVKDTRMRDVISYFATYVFEKGADIPALLGAYMLEGSKAGATAAAVWTAHQVLPLNVTGYGKLIGASIEGAYRFYHFLQGKQFKVGDKTIHVYPLTKPDFNMVDYVFNEEGNTDLEKMNKLNHDFYEQASYVKGGLYNNEFITSHTDFAIPDYGNSPLSYVNSLGFSKEEWDREGKVTILRACALSPYAYDKDVFDEYASKIEQAIQEKLEKIYAVVN PGPT0020445_20 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020445-tyrDC-K22330 NA NA AK015_01115 1434 gadC COG0531 Glutamate/gamma-aminobutyrate antiporter ATGGCTAAAACAAAAAGCCTAACACTTTTTGGGTTGATCGGTATTACGATGGCTTTTTTTGGTACGGTACGTAGTGTGCCAACACTTTCCATAACTGGATGGACACAAATTTTTTATATGTTAATTGCGGCAGTTCTATTTGCATTGCCAATCGCTTTGATGTCTGCTGAACTCTCTACAGGCTGGCCAGAGGAAGGCGGACCTACAGTTTGGGTGAAGAACGCATTAGGTGAGAAATGGGGATTTGTTACCTCATGGTTACTATGGGTTCAAATGTTTTTTGGTATGGTCATGGTTGCGTCTACAGTAGGTGTGTTATTTGGATACGTTGTTAATGCACCAGAGCTATCTTCAAACAATTACTTTATTTTTGCAGTTATTTTAATATCTTACTGGGGCGTGACGATATTAAATCTCAAATTTGATATGGTAAAAGTGGCTGGTAACTGGGGAGCTATTATCGGTGTTTATATTCCATTCGTTATCCTAGTTGTTCTAGGTGTTATCTATATGATTAAGAATGGTATTCAACCAAATAGCTATTTAGGAGATTTTAAACCGAGCGATCTTGTTCCGAATTTTAAAGACTTAGGTAGCTTAACTTACTTATCAGGAATTATCTTTATTTTTGCAGGTGTAGAAATCTCATCTGTGCATGCAAATAATATCGAAAATCCTAAACGTAATTATCCAATTGCTGTTATAGCATCTGTTCTTTTGTTGGTTTTCTTTAATATTGTCGCTGGTTTAACTGTTTCAAACGCAGTACCAGTAGGTGAATTGGAGTTAGCTAATATTACACAACCGTACATGATTTTTTCTGAAAACTTGGGTATCCCATCCATTTTCGTTAATATCATTTCCTTAATGATTTTAATTGGGGTGTTAGTCCAATTAAGTGCATGGGTACTTGGCCCAAGTAAAGCGATGATCAAAGTTGCGGATGAAGGTAACTTGCCTAAATTCTTTCAAAAAAGAACGGAAAAAGACATTCCGATAACCTTTGTACTAATTCAAGCAATTGTTATTTCTCTAGTATCTTTCTTGTACGTAGTTGTTCCTGATGTGAATAGTGCCTTTTTAATTATTACAATTACAACAACCATTTTATATTGTATTGTGTATGCATTGATTGCTATTTCAGCAATCCGCTTACGCTATAAAATGCCAGAAGTTGTACGTCCATTTAGATTAGGAAATAAAGGAAATGGATTAATGTGGTTTGTTTCCATTCTTTCTTTAATTAGTGTAGCAATTACACTTACTGTCAGTATTATACCACCATCTATTTTACAACCTAGTCAGTACACAGGTTATATTATTTATCAAATAGCAGCTACAGTAATAATGGTAGGTATAGCTCTTTTTATTCACAAATGTAAAAAACCAGAATGGAAGAAAGAAACAACAACTAATCATAAAAAATGTAGCTAA MAKTKSLTLFGLIGITMAFFGTVRSVPTLSITGWTQIFYMLIAAVLFALPIALMSAELSTGWPEEGGPTVWVKNALGEKWGFVTSWLLWVQMFFGMVMVASTVGVLFGYVVNAPELSSNNYFIFAVILISYWGVTILNLKFDMVKVAGNWGAIIGVYIPFVILVVLGVIYMIKNGIQPNSYLGDFKPSDLVPNFKDLGSLTYLSGIIFIFAGVEISSVHANNIENPKRNYPIAVIASVLLLVFFNIVAGLTVSNAVPVGELELANITQPYMIFSENLGIPSIFVNIISLMILIGVLVQLSAWVLGPSKAMIKVADEGNLPKFFQKRTEKDIPITFVLIQAIVISLVSFLYVVVPDVNSAFLIITITTTILYCIVYALIAISAIRLRYKMPEVVRPFRLGNKGNGLMWFVSILSLISVAITLTVSIIPPSILQPSQYTGYIIYQIAATVIMVGIALFIHKCKKPEWKKETTTNHKKCS PGPT0014500_470 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014500-gadC-K20265 NA NA AK015_01116 660 yhfK COG0702 putative sugar epimerase YhfK ATGGTTATTTTGAAAATTCTTGTTGTAGGAGCAAACGGACAAATTGGTAAACATCTGGTGAAACAAATTCAAGATAGTGGGAAACACACGGCAAGAGCAATGATTCGTAAACAAGAGCAAGCGAGCTATTTTAACGAATTAGGTGCAGAGACAGTCATTGTGGATCTTGAAGATGAGGTAGCAGCGATTACAAAAGCGGCTGATGATGTTGACGCTGTCGTGTTTACAGCTGGTTCAGGACCTAAAACTGGAAAAGACAAAACATTAATGGTGGATTTAGATGGTGCAGTCAAAACGATGGAAGCAACGAAAGCAGCTGGGGTAAATCGTTTTGTGATGGTAAGCTCATTTGACACAAGCCGGGAAGCCATCCAAAGAGCGTCATCTTCTTTTGCCCCATATGTTGTTGCTAAGCATTATGCAGATGAGTGGCTCAGAAGCACAAATTTAGATTATACGATTGTCCACCCTGGCTTATTAACAAATGATCCGGGAACGGGGAAAGTGCATGCAGCAACGAAAGTGGAGCGAGGAGAAATACCTCGAGAAGATGTGGCAAGCGTTATTTTCGGTTGTTTAGAAGACGACACAACCATTGGTAAAGATTTTCAAACCGTAACAGGTGAAACGGAAATGAAACAGGCATTACAGAAGTTATAA MVILKILVVGANGQIGKHLVKQIQDSGKHTARAMIRKQEQASYFNELGAETVIVDLEDEVAAITKAADDVDAVVFTAGSGPKTGKDKTLMVDLDGAVKTMEATKAAGVNRFVMVSSFDTSREAIQRASSSFAPYVVAKHYADEWLRSTNLDYTIVHPGLLTNDPGTGKVHAATKVERGEIPREDVASVIFGCLEDDTTIGKDFQTVTGETEMKQALQKL NA NA NA NA NA AK015_01117 249 hypothetical protein ATGGCAATTATAGTTCACATTGATGTAATGTTAGCAAAAAGAAAAATGAGTGTAACGGAGCTTTCGGAAAAAGTAGGTATCACGATGGCGAACTTATCTATTTTAAAAAATGGCAAGGCGAAAGCAGTTCGTTTTTCTACGTTAGAAGCCATCTGTAAAGCGTTAGATTGTCAGCCAGGGGATATTTTAGAATATCAAGCTGACTTGGAGACAGAAATTAAAGAAGAGCATCATCGGCAAGTGCAATAG MAIIVHIDVMLAKRKMSVTELSEKVGITMANLSILKNGKAKAVRFSTLEAICKALDCQPGDILEYQADLETEIKEEHHRQVQ PGPT0014940_262 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727 NA NA AK015_01118 477 hypothetical protein ATGAGACGTGTAGCAGTACAAATCTTGAAGGTTGCTATTTTTGTAATTGGCATCGTTGTATTAGGCTTATGTATTTTCGCCTTGCCTCCGTTAGCAAGCAGTTCAGCAGAAATGTTTCCGGAGTTTTCTTATTTACAATATCCTATTTTAATAGGCTTGTATGCGACAACAATCCCTTTTTTCTATGCGTTATATCAAGCGCTTAATTTATTGACTTATATGGAGAAGCAGCTTGCTTTTTCAACGTTTGCGGTGCGGTCATTAGCGCGTATTAAGTACAGCGCGATTGTCATCAGTCTATGTTATATAAGTGGAATGTTTTATCTTCTAACGCAAAGTGCGCTTCATCCTAGTATTGCAATTGTAGGATTGGCGATTCTTTTTTCTGCCATCGTTATCATGTTGTTCGCCGCGGTTCTACAAGAACTTTTGAAAAATGCAATGAAGATTCAGTCAGAAAATGAGTTGACGATTTGA MRRVAVQILKVAIFVIGIVVLGLCIFALPPLASSSAEMFPEFSYLQYPILIGLYATTIPFFYALYQALNLLTYMEKQLAFSTFAVRSLARIKYSAIVISLCYISGMFYLLTQSALHPSIAIVGLAILFSAIVIMLFAAVLQELLKNAMKIQSENELTI NA NA NA NA NA AK015_01119 153 hypothetical protein ATGAAATATATAAAATCTGCGAAATACGATAAAGCGCTTGTTAATGAAAACATGATGGGCCCTAATAGTATGAAAATACTCGAGGAACTAATGCAAGATGTTCCATTAAAAAGTGGTATGCGAGTATTAGACTGGGTTGTGGGAATGGATTAA MKYIKSAKYDKALVNENMMGPNSMKILEELMQDVPLKSGMRVLDWVVGMD NA NA NA NA NA AK015_01120 960 dus putative tRNA-dihydrouridine synthase ATGACAGATAATTTTTGGCGTGATTTACCAAAGCCGTTTTTCGTATTAGCACCAATGGAAGATGTAACGGATGTCGTATTTCGTCATGTCGTTAGTGAAGCTGGAAGACCCGATGTGTTTTTTACAGAATTTACAAACTCGGAGAGCTATTGCCATCCCGAGGGGAAATTTAGTGTGCGTGGACGCCTAACTTTCACAGAAGATGAACAGCCTATTGTAGCCCATATATGGGGAGATAAACCTGAAAACTTTCGCCAAATGAGTATTGGGATGGCGGAAGAAGGATTTAAAGGCGTTGATATTAATATGGGCTGCCCTGCACCTAATGTTGCAGCGAACGGAAAGGGATGTGGGCTTATTCGACGTCCAGAAGTTGCTGCAGAGCTGATTCAAGCAGCAAAAGCAGGAGGACTGCCCGTAAGTGTGAAGACAAGGCTTGGCTACACCCAAGTGGAAGAGTGGCGGGATTGGTTACGTCACATCCTACAACAAGACATTGCAAATCTTTCTATTCACTTACGTACGAAAAAAGAAATGAGTAAAGTAGCTGCCCATTGGGAGCTCATCCCAGAAATAAAGAAACTTCGTGATGAGGTGGCACCAAATACTTTATTAACCATTAATGGAGATATTCCTGACCGTCAGACTGGCTTGGAACTTGCCAATAAATACGGTGTGGATGGGCTTATGATTGGTCGTGGTATTTTTAAGAATCCATTTGCGTTTGAAAAAGAGCCGAAAGAACATAGCAGTGAGGAATTGCTTGACCTCCTAAGATTGCATCTGGATCTTTTCGATAAGTATGCTATGTTGGAGCCACGTCCGTTTAAGCCGCTTCGTCGCTTTTTTAAGATATACGTCCGTGATTTTCACGGAGCGAGTGAATTAAGGCATCAATTGATGAGCACAGAAAAGACGGATGAAGTACGTACATTGCTGGATAACTTTGAGCATTGCTAA MTDNFWRDLPKPFFVLAPMEDVTDVVFRHVVSEAGRPDVFFTEFTNSESYCHPEGKFSVRGRLTFTEDEQPIVAHIWGDKPENFRQMSIGMAEEGFKGVDINMGCPAPNVAANGKGCGLIRRPEVAAELIQAAKAGGLPVSVKTRLGYTQVEEWRDWLRHILQQDIANLSIHLRTKKEMSKVAAHWELIPEIKKLRDEVAPNTLLTINGDIPDRQTGLELANKYGVDGLMIGRGIFKNPFAFEKEPKEHSSEELLDLLRLHLDLFDKYAMLEPRPFKPLRRFFKIYVRDFHGASELRHQLMSTEKTDEVRTLLDNFEHC NA NA NA NA NA AK015_01121 822 hag COG1344 Flagellin ATGATTATTAATCACAACATTGCAGCGTTGAACACTCATCGTCAACTTTCTAACAACAACGGCGCTGTACAAAACTCATTGGAGAAGCTTTCTTCAGGTCTTAAAATTAACAAAGCAGGAGATGACGCTGCAGGTCTAGCAATCTCTGAAAAAATGCGTGGTCAAATCCGTGGATTGGAAATGGCACAAAAAAACGCACAAGATGGTATCTCTTTAGCCCAAACTGCTGAAGGTGCAATGAATGAAACGCATGCTATCCTTCAACGTATGCGTGAATTAGCCGTACAATCTTCTAACGACACGAATACAGATAAAGACCGTGCGGAATTACAAAAAGAAGTAGATCAGTTAGCGCAAGCGTTAAATGATATCTCTGAAGACACAGAGTTTAATACACAAAAATTACTTGATGGATCATTTGAAGCTACTTTCCATGTTGGTGCTAATAAAGGGCAAAACCTTACTTTAGAAATTGGAAAAATGAGTGCTGATGAATTAGGTGTTGCAGAAGGAGAAGGAGGCATCGATATTTCTAGTCAAGAAGCAGCAGACGAGGCAATTACTACTATTCAAGAAGCAATTGACAACGTATCTGCTGAGCGTTCGAAAATTGGTGCAGTACAAAATCGTTTGCAACATACCATTAACAATCTAGGTACGTCTGCTGAAAACTTAACAGCCGCTGAATCACGAATCCGTGATGTGGATATGGCGAAAGAAATGATGAACTTTACGAAGGACAACATTCTTACACAAGCTGCTCAATCTATGCTTGCACAAGCTAACCAACAACCACAAGGCGTACTTCAATTACTTCGTTAA MIINHNIAALNTHRQLSNNNGAVQNSLEKLSSGLKINKAGDDAAGLAISEKMRGQIRGLEMAQKNAQDGISLAQTAEGAMNETHAILQRMRELAVQSSNDTNTDKDRAELQKEVDQLAQALNDISEDTEFNTQKLLDGSFEATFHVGANKGQNLTLEIGKMSADELGVAEGEGGIDISSQEAADEAITTIQEAIDNVSAERSKIGAVQNRLQHTINNLGTSAENLTAAESRIRDVDMAKEMMNFTKDNILTQAAQSMLAQANQQPQGVLQLLR PGPT0015190_4703 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 AK015_01122 762 yfcA COG0730 putative membrane transporter protein YfcA ATGTCTTTTACAGATATTTTCCTAATCCTAATTACAGGTTTTATAGCAGGTTTTATTAATACAATGGCCGCAGGGGGATCTCTTTTAACCCTACCTGTTTTAATTTTTCTTGGTTTACCATCCGCAGTTGCCAACGGAACTAATCGGGTTGCTATAGTGGTCCAAAGTATTGCTGCAACAACGAATTTTTATCGAAAAGGATACTTTGACAAAAAACTTGGTTTCTTGCTAAGCATTCCAGCTATTATAGGGTCAGTAATAGGAGCCAACCTTGCCGTCTCTATATCTGATCAATTATTTAACCGGATACTTGCTGTTATAATGGTAATTACAGTTATATTTATTATCTGGAGACCGGAAAAGAAAATTTCAGCGATTGGCAATGGAGACTATTCTATCGTTCGTAAAGTGTTGGGTATCACTACTTTCTTTTTTGTGGGGATTTACGGTGGATTTATTCAAGCAGGAGCTGGTTTTTTTATAATTGCTGGTTTAACAGCCATTTTTGGAATTAGTCTTGTTAAATCAAACAGTATTAAGGTTTTTGTCGGTGGAATTTACATTTTGGTTTCTCTTTTTGTATTCATTATTCATGGGCAAATTAATTGGTATCTTGGTTTGTCCTTGGCGGTTGGAAATGCCTTTGGAGCCTGGGCTGGAAGTCATATCGCCATATATAAGGGTGATAAATGGATTCGGGTTTTTCTTATCATCACCGTATTTTTCATGGCAGGGAAGCTTTTGGGTTTTTTTGATTTTTAG MSFTDIFLILITGFIAGFINTMAAGGSLLTLPVLIFLGLPSAVANGTNRVAIVVQSIAATTNFYRKGYFDKKLGFLLSIPAIIGSVIGANLAVSISDQLFNRILAVIMVITVIFIIWRPEKKISAIGNGDYSIVRKVLGITTFFFVGIYGGFIQAGAGFFIIAGLTAIFGISLVKSNSIKVFVGGIYILVSLFVFIIHGQINWYLGLSLAVGNAFGAWAGSHIAIYKGDKWIRVFLIITVFFMAGKLLGFFDF NA NA NA NA NA AK015_01123 1086 citA COG0372 Citrate synthase 1 ATGATCATGTCTACTGATCTCGCAGATGTTGCTGTAGCAAAGACAAAATTATGTTTTATAGATGGTGACGAAGGTTTGCTTGAGTACAGAGGACACGAGGTAGGAAAGTTAGCAAAAAACCATGTATTTGAAGAGGTTGTCCACCTTTTATTGATCGGACATCTTCCCTCTGTAGAAGAATTATTTAGTTTTAAAAATAAAATGGCATCTTATCGTTCGTTGCCGGAACCTGTAAAAGAAATCATCAATACTATTCCTACAGATGTTGATATGCTTAGTGTACTTCGAACGGCAATTTCAACCTTAGGGGAATTCAGTTTTCCTCCAACGGTAGAACAGTCGTTATCAATATGTACTAAAATACCTTCAATAATAGCGTACAGATATAATCGTGTTTGTAAAAGAAAACCTGTCGAACCAAGTAATCATTTAGGTCACACTGCTAATTATCTATACATGATAAAGGGAACTCAGCCCGAATTAGAACAAGTTCAAGCACTAGAGGCTTATCTGATTTCAACATTGGAGCATGGAATGAATCCTTCGACTTTTGCAGCTAGAGTAATTACATCAACCCGGGCAGACATTGTCTCATCGGTATCTGCGGCTATTTCTGCATTGAAAGGACCGTTGCACGGTGGGGCTTTATCACAAATTTCTATGAATTTACAAGAGATTGGCTCAAAGGAAAACACGGAACGGTGGTTACGAGAGAAAATCGAAGCTGGAAAAAGAATCATGGGGTTTGGTCACCGAGTGTATAAGTACCGGGATCCGCGAGTTTTACCATTAAAAAATATTGCAATCAAACTATCTGGAAACGACAGCAAGTTGGATTTGGCCACTCATGTTGAGGAAATGACACTACAATTGCTTAAAGAATATAAACCTAATAAACAATTTATAACCAATGTTGAATTTTATGCAGCTGCGTTGCTAAATGCTGTTGGTTTTGATAACAATTTGTTAACAGCAACTTTTGCGGTTAGCAGATCGGTTGGGTGGTGTGCACATTCAATAGAGGCTGCTAATGGTCCCTTGATTTATCCTCAATCGGTTTATTCAGGACCGCGAATTGGTTTATGA MIMSTDLADVAVAKTKLCFIDGDEGLLEYRGHEVGKLAKNHVFEEVVHLLLIGHLPSVEELFSFKNKMASYRSLPEPVKEIINTIPTDVDMLSVLRTAISTLGEFSFPPTVEQSLSICTKIPSIIAYRYNRVCKRKPVEPSNHLGHTANYLYMIKGTQPELEQVQALEAYLISTLEHGMNPSTFAARVITSTRADIVSSVSAAISALKGPLHGGALSQISMNLQEIGSKENTERWLREKIEAGKRIMGFGHRVYKYRDPRVLPLKNIAIKLSGNDSKLDLATHVEEMTLQLLKEYKPNKQFITNVEFYAAALLNAVGFDNNLLTATFAVSRSVGWCAHSIEAANGPLIYPQSVYSGPRIGL PGPT0001455_6594 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 AK015_01124 1182 carC COG1960 Caffeyl-CoA reductase-Etf complex subunit CarC ATGGATTTCGAACCAAACACAGAACAAAATGATTGGATTACAAGAATTCAACAATTCCTTGTAAAAAATGATCTGGAAAACGCAATGAAAAGTGAATCTGAACGTTTGCCATGGCATATTCGCGAGCTTGCTGGACAGGAAAACCTAATAGGATTAGATGTACCGAAAGAAGATGGTGGACACGGGGTATCTGATTTAACTATGGGACATATTTACGAAGTGTGTGGACGCTTTGGATTAAATACAAGAGAGCTTTTCGGAGCAGGTCATGGCAGATTAATTGCGAACTATGGAACCAAAGAACAAAAAGAAAAATATCTTCCCCCACTCATGAGGGGTGAGATTCTAATCGGAGCAGGTTTGACTGAACCTACTGGTGGTTCAGATGTAGGTGCGTTTCAAACCACAGCTAAAAGAGTTGGATCCAGTTACATTATTTCAGGAGAAAAAGAGTGGGTCAATAGAATAAGGGAAGCAAAGGTATTTGTGGTATTTGCAAAAACAGACCAGGAATTAGGTGCCAAAGGGTTATCGGCCTTTATTGTAGAAATGAACGATCCAAAGATTAAAAAGTATGAATACGAGGCACTAGGGTTAAAAGGGTTCTCTTATGGCGGTTTTGAACTAGATGACGTAGTCGTACCTACTGAAAACTTACTGGGTGAAGAAGGACAGGGGTTTGCAATTGTTAATCAACATTTTAATTTTGTGAGAAATTTAGTTGCGTTAATTTCCATTGGTAGTGCTCAAATGGCACTAGAGCAGGCTATAGATTTTGCTAAGAGTCGACAAGCATTTGGTGGACCAATTGGACGATTTCACTCGGTAATGCATAAAATTTCTGAAGGAGAAACAACACTTGAAGCAGCACGATTACTTGCTTATAAGTCCTTAGTCTATTTGGATAAGGGTAAACCAAATGCAAAAGAGGCATACATGGCAAAATGGTTTGGAACAACATCGGCTTACAAGGTAATAGATGATGCTTTACAGATACACGGTGCTCGGGGATATATTAAAGACTATGGTCTTGAACAACGGCTTCGTGACGTGAGAGCGTTTTTAATTGCTGATGGTTCAACGGAGGTTATGAAGTCTGTACTTGGGAGAGAGTTGCTTGGAAAAGAGGTTTATAATGCCTCATATGGTAGAGTGACTCCAAAGAGAGAGAAAATAGTATGA MDFEPNTEQNDWITRIQQFLVKNDLENAMKSESERLPWHIRELAGQENLIGLDVPKEDGGHGVSDLTMGHIYEVCGRFGLNTRELFGAGHGRLIANYGTKEQKEKYLPPLMRGEILIGAGLTEPTGGSDVGAFQTTAKRVGSSYIISGEKEWVNRIREAKVFVVFAKTDQELGAKGLSAFIVEMNDPKIKKYEYEALGLKGFSYGGFELDDVVVPTENLLGEEGQGFAIVNQHFNFVRNLVALISIGSAQMALEQAIDFAKSRQAFGGPIGRFHSVMHKISEGETTLEAARLLAYKSLVYLDKGKPNAKEAYMAKWFGTTSAYKVIDDALQIHGARGYIKDYGLEQRLRDVRAFLIADGSTEVMKSVLGRELLGKEVYNASYGRVTPKREKIV PGPT0005225_5 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005225-aliB-K04117 NA NA AK015_01125 234 hypothetical protein GTGATTTATTTACCAGTGACCAAACTTTTTTTGTGGAAATTGGCCATAGAAAATTTAGAGATGCAGTTAAGTGACACACCAATGGATTCTGATTCAAGCGGAAACAACGAATTAATACAAATATCAATCCTTAATGATTGGCAAGAAATGAAAGGTAAGTTGACAGTGATTCAAGAGAATATAAGAAACTTAGTGAATTCATTTGAAAAGGCTAATTGGGCAACTAAATATTGA MIYLPVTKLFLWKLAIENLEMQLSDTPMDSDSSGNNELIQISILNDWQEMKGKLTVIQENIRNLVNSFEKANWATKY NA NA NA NA NA AK015_01126 864 gltR_1 COG0583 HTH-type transcriptional regulator GltR ATGGACATAAAGGAATTAGTTATCTTTAAAACTTTAGCTCATGAAGGAAATATCACAAAGGCCGCTGAACAATTAAATTATGTTCAATCTAATGTCACAGGGAGAGTAAAAAAATTAGAATCAGAACTGCAAACCGTACTGTTTTACAGACATCCGCGGGGTGTCTCGTTAACCTCAAAAGGAAAACTGCTTTTAGCGTATACAGACAAAATTTTAAACTTAATGGAAGAAACCAAAAAAGCTATTCAAGATTCTGAAACCCCTCATGGCCCACTATCTATAGGTGCAAATGAGACAACGGCATCTGTTAGATTACCTGCTGTTTTGGTTTCTTACAATGAGAACTACCCTGAAGTAGAATTGTCCCTAAACATTGGTGAAACAGAAGATCTTATCAGTGATGTTCTTGATTACAAACTAGATGGAGCGTTTGTGGTAGGACCCGTTAAACATCCTGACATTATTCAGACACCAATACTGAAGGAAGAACTCGTTGTTATAACAGACAATCTGCAAGCCCCATTCACTTTTTTAACGGATTTAAAAAAACGGACATTGCTAACACGCCCCCATTGCATTCACAGAAAACGTCTAGAACAATGGCTTCATGATGAGGGCATTTTCCCCTTAAAAATTATGGAGTTCGGAACATTAGAAGCAATCATCGGATGCGTAAAAGCCGGATTAGGGGTTTCTATAACTACAAAATCACTTGTCAGCCACCATAAAATGGATGACAAGCTCTGTTACCACGAGATCCCCGAGAAATACTCCACCGTAAAAACAGTGTTTATACGAAGAAAAGATGCCTTTATCACAAGTGCCTATAGCAGATTTATAGAAATGATAATCCAAAGTTTCTGA MDIKELVIFKTLAHEGNITKAAEQLNYVQSNVTGRVKKLESELQTVLFYRHPRGVSLTSKGKLLLAYTDKILNLMEETKKAIQDSETPHGPLSIGANETTASVRLPAVLVSYNENYPEVELSLNIGETEDLISDVLDYKLDGAFVVGPVKHPDIIQTPILKEELVVITDNLQAPFTFLTDLKKRTLLTRPHCIHRKRLEQWLHDEGIFPLKIMEFGTLEAIIGCVKAGLGVSITTKSLVSHHKMDDKLCYHEIPEKYSTVKTVFIRRKDAFITSAYSRFIEMIIQSF NA NA NA NA NA AK015_01127 93 hypothetical protein ATGCCCATGATACGACAAATGAAGCTATTTGGCATCCAAGAATTATACGATATGGAGCCTATCCAAAATATGAAGCCATTTTTTCTGCAATAG MPMIRQMKLFGIQELYDMEPIQNMKPFFLQ NA NA NA NA NA AK015_01128 453 hypothetical protein GTGAAAGTAGCACTTATTCATATGGCTTATTTCATAGCACTTATTATCCTTTCTGTCTTATCCTTTTTCACAATATTTGGTGCGGGATTTGTAGGAGGGATTGACTTATATACTTTAATTATTCCTTTTATATTTAGTGTGTTGTGGCTTTGTGACTACATATGGCGTATGCTAAGTATGAATCCAAATAAGATACAGTTAATTCGTCCAACAAAAGATTGGGCATTTATCAGTTTATTCCTATCGGGGATATGTATCGTTTTTAGTTTATTTTTATCAACATTGCTTCCAGTACTTGGAATTTCCATCATATTGCTTCTTAGTTGGTACTTCCTGCTTTATGGATACACAAATAAAAAAAACAAGGATGCTCTGAGGGCTTTAGGTTCGATTCTGTTTCTTATTTCTTTAGTGTATGCTTATCTAATTTGTGGATATTATATTACAATATAA MKVALIHMAYFIALIILSVLSFFTIFGAGFVGGIDLYTLIIPFIFSVLWLCDYIWRMLSMNPNKIQLIRPTKDWAFISLFLSGICIVFSLFLSTLLPVLGISIILLLSWYFLLYGYTNKKNKDALRALGSILFLISLVYAYLICGYYITI NA NA NA NA NA AK015_01129 1383 rlmCD_1 COG2265 23S rRNA (uracil-C(5))-methyltransferase RlmCD ATGGCAAAAAAAGCAGTACCCGTAAAAAAGAATGAAACGTTGACGCTCACATTTGAAGATTTGACACACGAAGGAAACGGCGTGGCGAAAGTGAATGGCTATCCTTTATTTGTACCGTATGGATTGCCAGGTGAAAAAGCGCTCGTGAAAGTCGTTAAAGCGAATAAAAATTTTGGCTTTGGGAAACTTTTAGAAGTAAAGAAAGCAAGCACGGAGCGAGTCGAAGCGCCTTGTAACGTCTATTATAAATGTGGTGGCTGTCAATTACAGCATATGAGCTATCACTTGCAATTAGAGATGAAGCGAAACCAAGTGAAAAATGTAATGCGGAAAATAGCGCATATGGATCATGTTCCTGTTCATCCTACATTAGGTATGACCGATCCATGGCGTTATCGCAATAAAGTACAAATTCCAGTGGGGGAAAAAGAAGGCGCGATAATTACTGGCTTTTATCAAAAACGCAGTCATCGTATTATTGATGATATGGATACTTGTCTCATACAGGATGAAGTGAATGATCGCATGGTAGAAGCAGTGCGCAGAATTGCCTCGCAGTTAGGTATCTCTGCTTATGATGAATCGACACATCGCGGAGTATTACGTCATATTATGGTGCGTACAGGAAGAGAGACGAAGGATACAATGATCGTCCTAATAACGAGGACGGAAAAACTGCCGCATCAAGATGCACTCATTCAAGCATTGACAGAAATGTATCCTCACGTCAAATCCATTATTCATAATGTGAATAAAGAAAAAACGAATGTGATCCTTGGCAAGAAGTCAAAAATTATTTGGGGAGACGCTTATATTTACGATACAATCGGCGACATTCAATTCGCTATTTCCGCCAAATCATTTTACCAAGTTAATCCACCACAAACAAAAGTCCTCTACGAAAAAGCGTTGGAATATGCCAATCTGAGCTCATCCGATGTGGTGATTGATGCGTATTGTGGTATCGGTACGATTTCTTTATTTTTAGCACAGCAAGCGAAAAAAGTGTATGGAATAGAAGTTGTTCCAGAAGCAATTAGCGATGCTAAGAGAAATGCGGAACTAAACGGAATTACAAATGTCGAATTCGTTGTAGGTGAAGCGGAAAAGGTAATGCCATGGTGGAAAGCGCAAGGATTGCGCCCAGATGTTATTATCGTTGATCCGCCACGCAAAGGTTGCGACGAAGCGTTTCTTGAAGCAATGATCGAGATGGAACCAAAGCGGATTGTGTACGTTTCCTGTAACCCATCTACATTAGCTCGGGATTTAAACATATTAGATGCGGGCGGCTATGAAACGAAAGAAGTGCAACCAGTTGACATGTTTCCACAGACGAATCATGTGGAGTGTGTGGCGGTTTTACAAAGAGAAGTTGTCTAA MAKKAVPVKKNETLTLTFEDLTHEGNGVAKVNGYPLFVPYGLPGEKALVKVVKANKNFGFGKLLEVKKASTERVEAPCNVYYKCGGCQLQHMSYHLQLEMKRNQVKNVMRKIAHMDHVPVHPTLGMTDPWRYRNKVQIPVGEKEGAIITGFYQKRSHRIIDDMDTCLIQDEVNDRMVEAVRRIASQLGISAYDESTHRGVLRHIMVRTGRETKDTMIVLITRTEKLPHQDALIQALTEMYPHVKSIIHNVNKEKTNVILGKKSKIIWGDAYIYDTIGDIQFAISAKSFYQVNPPQTKVLYEKALEYANLSSSDVVIDAYCGIGTISLFLAQQAKKVYGIEVVPEAISDAKRNAELNGITNVEFVVGEAEKVMPWWKAQGLRPDVIIVDPPRKGCDEAFLEAMIEMEPKRIVYVSCNPSTLARDLNILDAGGYETKEVQPVDMFPQTNHVECVAVLQREVV NA NA NA NA NA AK015_01130 168 hypothetical protein GTGGAGAGAGAATTTTATGTTGGTTGGGGAACATTAGCACTAATTAATGCTGGATTAGCTCAAGGAAAGAATCGTACAGGGTTCAATTGGTTTGTTCTGTCTTTATTCATAGGACCTATTGCCACATTGATCTTGCTGTTTGTTGAGAAGTACCCAGAAGACGAATAA MEREFYVGWGTLALINAGLAQGKNRTGFNWFVLSLFIGPIATLILLFVEKYPEDE NA NA NA NA NA AK015_01131 903 dagK COG1597 Diacylglycerol kinase ATGAATAAAGCACGTATTATCTATAATCCTACGTCCGGTAGAGAAGCCTTTAAAAAGGAGCTACCTGCAGTATTAGAAAAGCTAGAAGTAGCCGGTTATGAAGCATCTGCTCACGCAACGACTTGTGAAGGAGATGCCATTCAGGCTGCACAATTAGCTGTTGAACGAGGGCATGACCTTGTGATTGCTGCTGGTGGAGATGGAACAATCAATGAAGTCATCAATGGTTTAGCAGAGCGAGAGAATCGTCCCAAACTTGGAATTATACCTGTAGGGACGACGAATGATTTTGCTAGAGCGTTACATATTCCACGGGATATCCAAAAAGCTGTTGATGTAATTGTGGCTGGACAATCGATGTATTTAGATATCGGCAAAGTAAACGATCATTATTTTATGAACATTGCTGGTGGAGGTAAACTGACTGAACTGACTTATGAAGTGCCAAGCAAGCTAAAGACGATGCTTGGGCAGTTAGCTTATTATATGAAAGGTATTGAGATGTTGCCTTCCTTGAAGCCTTCCAGAGCAAAAATTGAATATGACGGCAATGTCATTGATGAAGACATTATGCTTTTTCTTATTTCCAATACAAATTCCGTTGGTGGTTTTGAAAAACTAGCACCAGATGCTGATATGCAGGACGGTTATTTTGATTTAATCATTTTAAGAAAAACGAATTTGGCCGAGTTTATCCGAATTGCCACTTTAGCATTGCGCGGAGCACATTTAGAGGATAGTCATGTTATTTATGTGAAGGCGAAACATATTAAGGTGATGACGGATGAGAAAATGCAATTAAATATTGACGGGGAATATGGCGGATTGCTCCCGGGAGAATTTGCCAACCTGCAACAGCATATTGAATTTTTCGTTCCAGCGGACTTCCTAGAAAAAAATTAA MNKARIIYNPTSGREAFKKELPAVLEKLEVAGYEASAHATTCEGDAIQAAQLAVERGHDLVIAAGGDGTINEVINGLAERENRPKLGIIPVGTTNDFARALHIPRDIQKAVDVIVAGQSMYLDIGKVNDHYFMNIAGGGKLTELTYEVPSKLKTMLGQLAYYMKGIEMLPSLKPSRAKIEYDGNVIDEDIMLFLISNTNSVGGFEKLAPDADMQDGYFDLIILRKTNLAEFIRIATLALRGAHLEDSHVIYVKAKHIKVMTDEKMQLNIDGEYGGLLPGEFANLQQHIEFFVPADFLEKN PGPT0024345_1672 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029 NA NA AK015_01132 1431 gatB_2 COG0064 Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B ATGAACTTTGAAACAATTATTGGCTTAGAGGTACATGTTGAGTTAAAGACACAGTCAAAAATTTTCAGTCCTAGTGTGAATGCTTTTGGTACAGCACCGAATACAAATGTTAACCCAATTGACCTAGGTTATCCAGGTGTATTACCTGTACTAAATGAAGAAGCAGTTAACTTTGCGATGAAAGCAGCGATGGCTTTAAATTGTGACATTGCGACAAATACGAAATTTGACCGAAAAAATTATTTCTACCCAGATAATCCAAAAGCGTATCAAATTTCCCAATTTGATCAACCCATTGGTGAGAATGGTTGGATTGAAATTGAAGTACATGGAAAGAAAAAGCGGATTGGTATTACTCGTCTTCACTTAGAAGAAGATGCTGGGAAGCTAACCCATGGAGAAGATGGTTACTCTCTAGTCGATTTTAATCGTCAAGGAACGCCTTTAATTGAAATTGTTTCTGAACCAGATATGCGCTCCCCAGAAGAAGCTTATGCTTATTTAGAAAAACTAAAAAATATTATTCAATATACTGGTGTATCTGATGTGAAAATGCAGGAAGGTTCTTTACGTTGCGATGCGAATATCTCTTTGCGACCAATCGGACAAGAAGAATTTGGTACAAAAACGGAACTAAAGAATTTAAACTCTTTCAGTTTCGTACAAAAAGGGTTAGAATTTGAAGAAAAACGTCAGGAAAAAGTGTTACTTTCAGGAGGGGAAATTCTGCAAGAAACACGCCGTTATGATGAAAAAACGAAGGAAACGATTCTTATGCGTGTGAAAGAAGGCTCGGATGATTATCGTTATTTCCCAGAACCGGATCTTGTTCCGCTTTATATTGATGATGCTTGGAAGGAACGCATTCGCAAGGAAATTCCTGAACTCCCAGATGCGCGTAAAAATCGTTATATGGAAGAACTGGACTTGCCAGAGTACGATGCTACGGTAATGACCAATTCCAAACAGATGGCTGATTTTTTTGAAGAAGCAATCGCTCACGGTGCAGATATGAAGCAAGTTTCTAACTGGTTGATGGGTGAGATTTCTGCTTATATGAATAAACACCTAAAAGAGCTAGATGAATTAGCGATTACACCAGAAGCACTTGCCAAAATGATTCAGCTCATTGCTGATGGTACAATTTCTTCAAAGATCGCGAAGAAGGTATTCGCAGAGCTAGTTGAACATGGCGGCGATCCAGAGAAGATTGTCAAAGAGAAAGGTCTCGTGCAAATTTCTGATGAAGGTCAGTTGAAAGAGATTATTTCTAAAGTGCTTGATGAAAATGAACAGTCCATTATTGATTACAAAAATGGAAAAAATAAAGCGGTTGGCTTCTTAGTTGGTCAAGTGATGAAAGCTACGAAAGGACAAGCCAACCCGCCAATGGTTAATAAAATTTTATTAGAAGAAATCAACAAACGATAA MNFETIIGLEVHVELKTQSKIFSPSVNAFGTAPNTNVNPIDLGYPGVLPVLNEEAVNFAMKAAMALNCDIATNTKFDRKNYFYPDNPKAYQISQFDQPIGENGWIEIEVHGKKKRIGITRLHLEEDAGKLTHGEDGYSLVDFNRQGTPLIEIVSEPDMRSPEEAYAYLEKLKNIIQYTGVSDVKMQEGSLRCDANISLRPIGQEEFGTKTELKNLNSFSFVQKGLEFEEKRQEKVLLSGGEILQETRRYDEKTKETILMRVKEGSDDYRYFPEPDLVPLYIDDAWKERIRKEIPELPDARKNRYMEELDLPEYDATVMTNSKQMADFFEEAIAHGADMKQVSNWLMGEISAYMNKHLKELDELAITPEALAKMIQLIADGTISSKIAKKVFAELVEHGGDPEKIVKEKGLVQISDEGQLKEIISKVLDENEQSIIDYKNGKNKAVGFLVGQVMKATKGQANPPMVNKILLEEINKR NA NA NA NA NA AK015_01133 1467 gatA_1 Glutamyl-tRNA(Gln) amidotransferase subunit A ATGGCGCTATTTGATTACACAATCAAGCAGTTAGAAGAAAAGGTACATAATGGTGAAATTACGGTAGAAGAGTTAGTAAATGCTTCGTATGAACGCATTCATGAAGTGGATGATGAGGTTCATGCATTTTTAACGTTAAATGAAGAAAATGCGAAAGCCCAAGCAAAAGAACTGGACAAACAAGCGGATAAAACAGCTGCATTATTTGGAATGCCGAGTGGTATTAAGGATAATATCGTAACAAAATCGCTGCGTACGACATGCGCGAGTCAGTTTTTGGATAACTTCCATGATCCATTATATAATGCAACAGTCGTTCAAAAATTGAGCGAACAAAAAGCAGTTACGATTGGTAAATTAAACATGGATGAATTTGCGATGGGTTCATCAAATGAAAATTCAAGCTATGAACCAACACGTAATCCTTGGAATACGGATTATGTTCCTGGGGGCTCTAGTGGTGGTTCCGCAGCGGCTGTGGCTGCCGGTGAAGTGTTATTCGCATTAGGCTCAGATACAGGTGGATCGATTCGTCAACCAGCTGCATTTTGTGGTGTAGTAGGATTAAAGCCAACATACGGTAGAGTATCCCGATTTGGTTTAGTCGCTTTTGCGTCCTCTTTAGACCAAATTGGACCATTAACACGAACAGTAGAAGATAATGCTCGCGTGTTAGAAGTAATTGCAGGTCACGATGCAATGGATTCAACGAGTGCAAATATAGAAGTTCCTGCGTATACGGAAGCATTAACAAATGATGTAAAGGGACTAAAAATTGCGGTACCGAAAGAATATTTAAGTGAAGGTGTAGCTCCAGAGGTAAAAGCGTCGGTCATGGAAGCATTAAAGGTATATGAATCTTTAGGCGCTACGTGGGAAGAAGTTTCCCTACCACATTCCAAATATGCTGTTGCGACTTATTACTTGTTATCTTCATCGGAGGCGTCGGCTAACCTTGCTCGCTTTGATGGGGTTCGTTACGGCGTTCGCTCGGAGAATGCAGATAATATGATTGATATGTTCAAAAAATCACGCAGCGAAGGTTTTGGTGAGGAAGTAAAACGCAGAATCATGCTTGGTACGTTTGCTCTTAGCTCTGGGTATTATGATGCGTATTATAAAAAAGCGCAAAAAGTACGTACCTTAATCAAACAAGATTTCGAGCAAATTTTCCAAGATTACGATGTGGTTATTGGTCCAACAACACCTACACCAGCGTTTAAAGTTGGAGAAAAGGTAGACGATCCATTAACGATGTATGCAAATGATATTTTAACGATTCCCGTTAATTTAGCTGGCGTCCCTGGTATTTCTATTCCGTGTGGTTTCGCAAAAGAAGGTTTACCAATTGGCTTGCAAATTATCGGAAAACACTTTGACGAAGCAACGGTTTATCGTACAGCACATGCGTATGAAAAAGCGACCGATCATCATAAACAACGCCCTCAGCTAGGAGGTGCCAAATAA MALFDYTIKQLEEKVHNGEITVEELVNASYERIHEVDDEVHAFLTLNEENAKAQAKELDKQADKTAALFGMPSGIKDNIVTKSLRTTCASQFLDNFHDPLYNATVVQKLSEQKAVTIGKLNMDEFAMGSSNENSSYEPTRNPWNTDYVPGGSSGGSAAAVAAGEVLFALGSDTGGSIRQPAAFCGVVGLKPTYGRVSRFGLVAFASSLDQIGPLTRTVEDNARVLEVIAGHDAMDSTSANIEVPAYTEALTNDVKGLKIAVPKEYLSEGVAPEVKASVMEALKVYESLGATWEEVSLPHSKYAVATYYLLSSSEASANLARFDGVRYGVRSENADNMIDMFKKSRSEGFGEEVKRRIMLGTFALSSGYYDAYYKKAQKVRTLIKQDFEQIFQDYDVVIGPTTPTPAFKVGEKVDDPLTMYANDILTIPVNLAGVPGISIPCGFAKEGLPIGLQIIGKHFDEATVYRTAHAYEKATDHHKQRPQLGGAK NA NA NA NA NA AK015_01134 291 gatC_3 Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C ATGGAAAAAATATCAAAAGATCAAGTGAAGCATGTTGCCCATTTAGCGCGTTTGCATGTAACAGAAGAAGAAGCTGCCATGTTTACGGAGCATTTAAGCTCTATCATTACTTACGCAGAACAGCTCAATGAACTGGACACAACGAATGTAGAACCGACGACACATGTACTTGATATAAAAAATGTGATGCGTAAAGATAAGCCAAAGCAATGGATTACACAAGACGAAGCACTAAAAAATGCTCCAGATCACAAAGATGGTCATTTCCGTGTACCATCCATATTGGAGTAA MEKISKDQVKHVAHLARLHVTEEEAAMFTEHLSSIITYAEQLNELDTTNVEPTTHVLDIKNVMRKDKPKQWITQDEALKNAPDHKDGHFRVPSILE PGPT0023460_2529 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 AK015_01135 1521 putP COG0591 Sodium/proline symporter TTGACTACAGCGACGCTTATCACATTTATTGTTTATTTAGCAGGAATGTTACTTATTGGTATTATGATGTACTATCGCACGAATAATTTATCGGATTATGTATTAGGAGGTAGAGGGTTAGGCCCAGGGGTTGCTGCTCTAAGTGCAGGTGCTTCCGATATGAGTGGTTGGCTGCTACTCGGTCTGCCTGGGGCTATTTATGCTTCTGGTATGTCAGAGGCGTGGATGGGGATTGGCCTTGCTACTGGTGCATATTTAAATTGGCAATTTGTCGCAAAAAGGTTACGTGTTTATACGGAAGTTAGTAATAATTCCATTACAATTCCAGATTTTCTAGCCAATCGTTTTAAAGATCAATCACATATTTTACGTGTGATTGCTGCGTTAGTCATTCTATTATTTTTTACGTTTTACACTTCATCTGGGATGGTTGGTGGTGCAAAACTCTTTGAAGCGTCGTTTGGACTTTCGTATGAAACAGCACTATGGATTGGTGGCATTATTGTTATTTCTTATACATTATTAGGAGGTTTCTTAGCTGTAGCTTGGACTGATTTTGTGCAAGGGTTACTCATGTTTCTTGCATTGCTAGTAGTTCCCATTGTCGCGCTAACACAAATGGGAGGATGGAATGCGGCTGTGCAAGCGGTCGGTGAGATTCATCCTTCTCACTTAAATATGGTGGAAGGTGTTGGGATAATGGCGATTATTTCTTCCGTTGCATGGGGTCTAGGTTATTTTGGGCAGCCGCATATATTAGTTCGGTTTATGGCTTTACGCTCGCATAAAGATGTCCCAAAAGCGAGATTTATTGGAACTGCATGGATGGTACTCGGGTTATATGGCGCTATTTTTACAGGGTTTGTTGGACTTGCATTTATAAGCACCCAAGAAGTGCCGATATTATCTGAATTTGGTATTCAAGTTGTAAATGAAAATGGAATACAAATGCTAGCCGATTCGGAGAAAATTTTCATTGCGTTTTCGCAAATTCTATTTCATCCAGTTGTTGCTGGGATTTTATTAGCAGCTATTTTATCAGCTATTATGAGTACGATAGATTCCCAGTTACTTGTGTCTTCTTCGGCAGTCGCGGAGGATTTTTATAAAGCTATTTTCCGCAAGCAAGCGACAGACAAGGAACTCGTATGGGTTGGTAGACTTGCTACGGTAGTTATTGCATTCATTGCACTTATGATTGCCCTGAATCCTGAAAGCTCTGTGTTGGAATTAGTTAGCTATGCGTGGGCTGGGTTTGGTGCAGCTTTTGGTCCTATTATTCTATTATCATTATTTTGGAGTCGAATTACACGTAATGGTGCGCTTGCTGGTATAGTAGTTGGTGCCGCAACGGTCATTATTTGGGGAGAATTTTTATCTGGGGGGATTTTTGATCTGTATGAAATTGTTCCCGGGTTTCTATTCAATTTAGTTACGACGATTGTAGTTAGTTTATTACAAAAGCCAAATGAGGATCTTATTGCTGATTATGATGAAACGGTGAAGCAATTGAAAGCGTAA MTTATLITFIVYLAGMLLIGIMMYYRTNNLSDYVLGGRGLGPGVAALSAGASDMSGWLLLGLPGAIYASGMSEAWMGIGLATGAYLNWQFVAKRLRVYTEVSNNSITIPDFLANRFKDQSHILRVIAALVILLFFTFYTSSGMVGGAKLFEASFGLSYETALWIGGIIVISYTLLGGFLAVAWTDFVQGLLMFLALLVVPIVALTQMGGWNAAVQAVGEIHPSHLNMVEGVGIMAIISSVAWGLGYFGQPHILVRFMALRSHKDVPKARFIGTAWMVLGLYGAIFTGFVGLAFISTQEVPILSEFGIQVVNENGIQMLADSEKIFIAFSQILFHPVVAGILLAAILSAIMSTIDSQLLVSSSAVAEDFYKAIFRKQATDKELVWVGRLATVVIAFIALMIALNPESSVLELVSYAWAGFGAAFGPIILLSLFWSRITRNGALAGIVVGAATVIIWGEFLSGGIFDLYEIVPGFLFNLVTTIVVSLLQKPNEDLIADYDETVKQLKA PGPT0013970_421 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 AK015_01136 105 hypothetical protein ATGGAATACACGATTCAGGGGGCGACTTGGTTTTGGTTATTTGTCCCTATGCCTGTAATACTTATTTTATCTTTTATTACTTTATTTACAGAAGGGAGAAAATAA MEYTIQGATWFWLFVPMPVILILSFITLFTEGRK NA NA NA NA NA AK015_01137 135 hypothetical protein TTGAAAAAAGGAATAATGTCCATACTATGTGGGGCATTACTAATTGGCGGATTTTTATTTACAGAACAGCAATTTTCAGATGATGCTGGAAGGAGTAACCATCCTAAAAAATTCATGTCTGCCCAAATTGAATAG MKKGIMSILCGALLIGGFLFTEQQFSDDAGRSNHPKKFMSAQIE NA NA NA NA NA AK015_01138 1269 nprA_2 Transcriptional activator NprA TTGGTAGACGTTGGTCCTTTCATCAAATTACAACGAACGAAGCGACAAATGACGCAAGAAGAATTGTCGGAAGGAATCGTTTCATTGTCTTATTTATCCAAGATTGAAAATAAAAAGACGAAGGCAAGCCCAGAAATCATTCAATTACTTTGTAATCGATTAGGAATTGAATTTGCAGAAGAAACGAATTCCCACATCGAAGAGAAATGTCAACAATGGTATGAAATGCTCTTTGACCACTGTGATAAACAAGAAATGACCGACCGTTATGAAGAATTGCAAGTGATTATGAATCAAAGTATTAATGAAAACTTTATTATGTTTGAAATACATCAGATTCGTTATTATAGTGTTTTACGTGATTTTAATAAAGCGCTAGCAAAAATTAATGAGCTACATGAATTAGTAGATTCTTTTAATCCAAAACATGAATATTATTGGTACAAGTTTAAGGGTGGTTATTATTCGCTTCAAGATAAGCATGCTAAAGCGATGAAATTGTTTAAGCAGGCCCAAGAAAAAATCCCGCTTGCCAATTTAAATGAGGTGGAAATAGCTGACCTGAAATATGGATTAGCTGTTACTCATAGTCAACTATGGCAACAGTTGGAGTGTTTGGATTATACACAAGAAGCAATGGAAGTATTTCAACGCGAATATAATTTTGATCGCTGTGGTCAATGCCATATTTTATTTGGCATCTCTTACCAAAGGTTTAAGAAATATGAAAAAGCAATTAAAAACTTTCAATTAGCAAAACATTTAGGCGAACTGTGTGATAACCAAGATGTGATTAGTTTAGCACATCAAAATTTAGGTTACCTGTACTCGTCTACTGGAAATTCGGAAGAAGCAATCAAAAATTATTTGTTAGCTATTGAGGACAAAGATGTAGATACTGATCATCTTTTATCAACTTATACTTGTTTAATTGAAGAATATTATCATGTTAAACAATATGAGAAAGTAGAGCAAATTTTACGAGAAGCTAAAGAATTATTATCAAAAGTCACGTATTCAGATTTATATAAATTATATGACTATAATATTAAAGTGTATACACACTTAATAAATGAAGAATTTAGTAAGTTTAAAGTGTTATTAACAGATGAATTTATACCGTACCTTAAACAAGCAGGTGAGCATAGTGATTTAGTATTTTTTGCTAAATTACTCGCTAACCATTTAGAGGAATGGGGAAAGTATAAAGAATCTGTTCAATATTATAAGTTAGCAAGCTTAAGCTATGAGGAATTTGTCAACATGTAA MVDVGPFIKLQRTKRQMTQEELSEGIVSLSYLSKIENKKTKASPEIIQLLCNRLGIEFAEETNSHIEEKCQQWYEMLFDHCDKQEMTDRYEELQVIMNQSINENFIMFEIHQIRYYSVLRDFNKALAKINELHELVDSFNPKHEYYWYKFKGGYYSLQDKHAKAMKLFKQAQEKIPLANLNEVEIADLKYGLAVTHSQLWQQLECLDYTQEAMEVFQREYNFDRCGQCHILFGISYQRFKKYEKAIKNFQLAKHLGELCDNQDVISLAHQNLGYLYSSTGNSEEAIKNYLLAIEDKDVDTDHLLSTYTCLIEEYYHVKQYEKVEQILREAKELLSKVTYSDLYKLYDYNIKVYTHLINEEFSKFKVLLTDEFIPYLKQAGEHSDLVFFAKLLANHLEEWGKYKESVQYYKLASLSYEEFVNM PGPT0011700_160 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QUORUM_SENSING_REGULATORS CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480 NA NA AK015_01139 1110 hypothetical protein GTGAAAAAGACAATGATTTGGTTCATAGGTGCACTATTGCTGCTCACGAGCTGCGCCCCCAATATGAACGAAGAGGAAGTTTTACAGGAAAAAGAATCAAATTCAAATGAAGAGCAGGCGATTGTTCCTAGCTATCAGCTTTCAGATGATAATTATAAAATGATTATTCCGTTTAAGCCAGGTAAAGCCAGAGGTGTGATTGTAAGTCAAGTTGCTAATCGTCTTGATATAGACGAAGTGGAGGAGGGCTTACGGCGACATTCTAAATCGGTGTTTGATCCCAAAAAGTATTTATTCCAAGAAGGGCAATACATTGATGAAGAAACAGTTATAGAGTGGATTGATGCATTGAATCCAAAGAAGAAAGAAGGAGGGTCGGAGAAGTATCATAGGGAGAATCCTCGTTACCTTTCTCATATTCTAGAGCAAAATTATTTAGTCAAAAAGGACGATAATACAGTATCACTAGCAGGTGTTTCGATCGGGATTGCGATGAAATCTACCTACCAATTTCAAACGGAAACGGGTGGTCCAACGTACGAAGAGGATATTAGCAAATCAGAAATGATGAAACAAGCAAATAAAATTGCTAATAAGCTTCTTGAAGATATACGTAAAATCGAAGGATTAGAAAATGTTCCGATTATGATGGCAATTTATCGCGAAGAGGATCAATCTTCCCCTGTTCCAGGTAATTTTGTCGCTAAAACGAATATACCAGCAGACAGCTCTTCTGTTGGGGAGTGGGACTCCATTAAAGAGAAGTATGTATTATTCCCGTCAGAAGAAGGAAAAAAAGATTATTTTGAAGATCATGAACTAGTGACGAATTTCGGTAAGGAAATCGCTAGTTATTTTCCGAATTATGTCGGTGTTGTCGGTGAAGGATTCTACGTAAATGATGAACTGCAAAAGATGACGCTTGAGATCCCAATTGAGTTTTATGGGAAAGGCGAAGTAGTTGGCTTTACCCAATATGCTTACGGATTAGTCCAAGAAATGTTTTCAGACCATTACGGTTTAGAAGTCAAAATAACATCCAGTGATAAACTAGAAAGTATCATTTATCGAAATCCTGGTTCAAAAAAGCCAACAGTAAATATTTTATAA MKKTMIWFIGALLLLTSCAPNMNEEEVLQEKESNSNEEQAIVPSYQLSDDNYKMIIPFKPGKARGVIVSQVANRLDIDEVEEGLRRHSKSVFDPKKYLFQEGQYIDEETVIEWIDALNPKKKEGGSEKYHRENPRYLSHILEQNYLVKKDDNTVSLAGVSIGIAMKSTYQFQTETGGPTYEEDISKSEMMKQANKIANKLLEDIRKIEGLENVPIMMAIYREEDQSSPVPGNFVAKTNIPADSSSVGEWDSIKEKYVLFPSEEGKKDYFEDHELVTNFGKEIASYFPNYVGVVGEGFYVNDELQKMTLEIPIEFYGKGEVVGFTQYAYGLVQEMFSDHYGLEVKITSSDKLESIIYRNPGSKKPTVNIL NA NA NA NA NA AK015_01140 2019 ligA DNA ligase ATGGACAAACAACAAGCACAAGAGAAAATAAAACAGCTTACGACGCTTTTAAATCAATATAATTATGAGTATCATGTGCTCGATAAGCCATCTGTGGAAGATGCGGTTTATGACCAAAAAATGCGCGAGCTTCGTGAGCTAGAAGAAGCGTATCCAGAGTTTCAAGAGCCAGATTCTCCTACACAGCGTGTTGGTGGAGAGCCGCTGGAAGAATTTCATAAAGTGGAGCACCGTATTCCTATGCTTAGCTTGGCAAATGCTTTTAATGAACAAGATATTCGCGATTTTGTTAAAAGGGCGAGTCAAGGAATGGAAGAGCCAATAAGCTTCGTTTGTGAGTTAAAAATTGATGGATTAGCAGTTTCTTTAACATACGAAGATGGCAAGTTTGTTCGTGGAGCAACACGTGGTGACGGAACGATAGGTGAAGATATTACAAGTAATTTACGAACAATCCGTAGCATTCCATTAACAATTAGAGAAAATGAAACATTGGAAATACGTGGAGAAGCGTTTATGCCACATAAATCCTTTTTAGCTTTAAACAAAGAACGAGAAGCAAAAGGGGAAGAACCATTTGCCAATCCGCGGAACGCAGCGGCGGGTTCTTTACGCCAGCTTGATCCGAAAATTGCCGCGAAACGAAACCTCGACATTTTTTTGTATGGGGTTGGCGAATGGGATAATAGCAATGTAACGAAACATAGTGAACGGTTAGAACGGTTAAAAGAATTAGGTTTAAAGGTTAACCCAGAATGGAGAAAATGTGACTCCGTAGAAGAAGTGATGGCGTATGTGCAATATTGGACGACAGAACGACCACACCTAGATTATGAAATTGATGGGATTGTTATTAAAGTAGATGACATTAACCAGCAAGAAAAATTAGGTTATACTGCAAAAAGTCCACGTTGGGCAATTGCTTATAAGTTTCCGGCTGAGGAAGCCGTAACGAAACTGACAGATATTGAATTAAGCGTTGGTAGGACAGGTGTAGTTACACCGACAGCGATTTTAAATCCAGTAAAAGTTGCTGGCACAACTGTTCAACGTGCTTCTCTTCATAATGAAGATTTAATACGGGAACAGGATATTCGCATTGGCGACACGGTCGTGGTTAAAAAAGCGGGAGATATTATTCCTAAAGTAGTTCGAGCTGTGGTAGAAGAACGAACAGGGGAAGAGCAAGAATTTCATATGCCGGAGGAGTGTCCTGCATGTGGCAGTGAATTAGTCCGTTTAGAGGAAGAGGTTGCTTTACGTTGTATTAACCCAAATTGCCCTGCGCAACTAAAAGAAGGGCTTATCCATTTTGTATCTAGGAATGCTATGAATATTGATGGCCTTGGAGAAAAGGTAATCGTTCAGCTATTCCAAGCTGATTTGGTGAAAACAATTGCTGATATTTACCGTCTGGAAAGAACAGAACTTTTAAAACTGGAACGGATGGGAGAAAAATCAGTTACCAATTTATTAGAAGCGATTGAAGCTTCAAAAGCAAATTCACTGGAAAAATTATTATTTGGTCTTGGCATTCGTTTTGTTGGAGCAAAGGCTGCCAAAACATTAGCGATGGAATTTGAAACGATGGAAAAGCTGCAACAAGCAACGTATGATGATTTAGTAGCAATTAATGAAATTGGCGAAAAAATGGCTGACTCTATCGTACAATATTTTCAAGAACAACAAGTGATGGATCTTTTAGAAGAATTGCGTAGCCTTGGTGTTAATATGTCTTATTTAGGCGTAAAACCTACAGAAACAGCTCAAACAAGTGCATTTAGCGGGAAAACGGTTGTGTTAACAGGAAAAATGGAAATATATACACGCACCGAAGCAAAACAATTCATTGAAGACTTAGGTGGGAATGTAACTGGGAGCGTCAGTAAAAAGACAGATTTAGTCATTGCTGGTGTAGATGCAGGTTCCAAGTTAGCAAAAGCAGAAAAACTTGGGGTTGAAGTTTGGGATGAATCTCAATTTGAGCAGGTCATGAAAAACGAGGGAGTGGGATCGTGA MDKQQAQEKIKQLTTLLNQYNYEYHVLDKPSVEDAVYDQKMRELRELEEAYPEFQEPDSPTQRVGGEPLEEFHKVEHRIPMLSLANAFNEQDIRDFVKRASQGMEEPISFVCELKIDGLAVSLTYEDGKFVRGATRGDGTIGEDITSNLRTIRSIPLTIRENETLEIRGEAFMPHKSFLALNKEREAKGEEPFANPRNAAAGSLRQLDPKIAAKRNLDIFLYGVGEWDNSNVTKHSERLERLKELGLKVNPEWRKCDSVEEVMAYVQYWTTERPHLDYEIDGIVIKVDDINQQEKLGYTAKSPRWAIAYKFPAEEAVTKLTDIELSVGRTGVVTPTAILNPVKVAGTTVQRASLHNEDLIREQDIRIGDTVVVKKAGDIIPKVVRAVVEERTGEEQEFHMPEECPACGSELVRLEEEVALRCINPNCPAQLKEGLIHFVSRNAMNIDGLGEKVIVQLFQADLVKTIADIYRLERTELLKLERMGEKSVTNLLEAIEASKANSLEKLLFGLGIRFVGAKAAKTLAMEFETMEKLQQATYDDLVAINEIGEKMADSIVQYFQEQQVMDLLEELRSLGVNMSYLGVKPTETAQTSAFSGKTVVLTGKMEIYTRTEAKQFIEDLGGNVTGSVSKKTDLVIAGVDAGSKLAKAEKLGVEVWDESQFEQVMKNEGVGS NA NA NA NA NA AK015_01141 2223 pcrA COG0210 ATP-dependent DNA helicase PcrA ATGAGTCAAACAAAGGAAACATTATTAAAAGGATTGAATCAACAACAGCGAGAAGCTGTGATGCATACAGACGGCCCACTTCTTATTATGGCTGGTGCTGGAAGTGGAAAGACACGTGTATTGACGCATCGAATTGCTTATTTATTAGCAGAGAAGGACGTTTCTGCTCGTAATGTGCTAGCTATTACATTTACAAATAAAGCGGCTAGAGAAATGAAAGAACGTGTGAAAAGGTTAGTTGGACCTGAAAGTGAGTATATGTGGGTATCGACTTTTCACTCGATGTGTGTACGCATTTTACGTAGGGACATTGACCGCATTGGCTATAATAGTAACTTTACTATTTTAGATAGCAGTGATCAGCTATCGGTTGTCAAGCAAGTGCTTAAAAATTTGAATATAGATCCGAAAAAAATGGAACCAAGGGCGATGCTTGGTCAAATTAGTGCTGCCAAAAACGAACTCATTACACCAGAAGAATATAATAAACGCGTAGGTAACTTTTTTGAACGGCAAGTAGGACAAGTATATGAAGCGTATCAAAAGATGATTGTAAAAAACCAATCGCTTGATTTTGATGATTTGATTATGCAAACCATTCATTTATTTAAACGTGTACCAGAAGTGTTGGAATACTACCAACGCCGTTTTCAATATATTCATGTTGATGAGTATCAAGATACGAACCACGCGCAATATGCACTTGTAAAAATGCTAGCGAGTCGTTATCAAAACTTATGTGTTGTCGGTGATTCCGATCAGTCCATTTACCGCTGGCGAGGTGCTGAAATTGCGAATATCCTAACCTTTGAAAAGGATTATCCGACCTCAAGAACCATTATGTTGGAACAAAATTACCGCTCGACAAAGTCTATTTTAGCTGCTGCGAACCATGTGATTGATAATAACACAAGCAGGAAGCCAAAAAAGCTATGGACGGAAAATGAGGAAGGCAAACAAATTCATTACTTTCAAGGTGCAACGGAGCAAGAGGAAGCTTTATTTGTCACGGAAAAAATTCAGCAATTAACTCGAGAAGGGGAATACTCCCCAAGTGATGTGGCGATACTATATCGAACGAATGCACAATCTCGTGCTATTGAGGATACCTTGGTGAAATCGAATATGGCGTATCAAATGGTAGGCGGTACGAAATTCTATGAGCGCAAAGAAATTAAGGACATTATTGCTTACTTGCGCTTAATTGCCAATCCTAATGATGATTTAAGCTTTGAGCGTGTTGTCAATGTGCCGAAACGAGGAATTGGGAAAACGTCGGTGGAACGTTTGCGCGAATATGCTGCTCTTCACGATATCTCTTTTAATGATGCAGTGAAGGAAGTCGATTTTACGGGCGTATCTAAAAAAGCAGCTAACGCACTTGCTGCATTTTCAAGTCTCATTCAATCGTTGTCGCAACAACAAGAGTTTTTAACAGCTACAGATATGGTAGAGGCTGTATTAACGCGAACCGGCTATGAAACGATGTTAAAAAATGAGCGATCTATCGAAGCACAAAGCCGTTTGGAAAACTTAGAAGAATTCATGACGGTTACGCAAGATTTTGAAGCAGCTAGTGAAGATAAAACACTTGTTGCCTTTTTGACAGATTTAGCGTTAATTGCTGATATTGATCAAGTAGATGAAGAGGAAATAGAAGCAGAAGATAAAATTACATTAATGACATTACATGCAGCAAAAGGATTAGAATTTCCAGTTGTATTTTTGATCGGTATGGAAGAAAATGTTTTCCCGCATAGCCGATCCATGTTTGATGACGAAGAAATGGAAGAAGAACGTCGATTAGCTTATGTCGGTATTACGCGTGCTGAAAAAGAACTTTATCTCACCCATGCGCGTATGCGAACCTTGTTTGGACGAACGAATATGAATCCTATTAGCCGGTTTATTAATGAAATACCGGAAGAATTAATAGCAGGTATCGAAGTAGCTAACGATGCCATGTTTGGCAGAAGAAGTACAGAACCGAAGCCGAATAGAGCGCAACCGATGAAGCGTAAAGCACAGCAAATGCAGAAAACATCCGGTGCTGAAAATGAAATGTGGTCATCTGGCGATAAAGCGAACCATAAAAAATGGGGCGTTGGTACGGTTGTAAAAGTAAGTGGAGAAGGTGAAGCAATGGAGCTTGATATTGCTTTCCCTGCACCAGTTGGCATTAAACGTGTACTAGCAAAATTTGCACCAATTACGAAACAATAA MSQTKETLLKGLNQQQREAVMHTDGPLLIMAGAGSGKTRVLTHRIAYLLAEKDVSARNVLAITFTNKAAREMKERVKRLVGPESEYMWVSTFHSMCVRILRRDIDRIGYNSNFTILDSSDQLSVVKQVLKNLNIDPKKMEPRAMLGQISAAKNELITPEEYNKRVGNFFERQVGQVYEAYQKMIVKNQSLDFDDLIMQTIHLFKRVPEVLEYYQRRFQYIHVDEYQDTNHAQYALVKMLASRYQNLCVVGDSDQSIYRWRGAEIANILTFEKDYPTSRTIMLEQNYRSTKSILAAANHVIDNNTSRKPKKLWTENEEGKQIHYFQGATEQEEALFVTEKIQQLTREGEYSPSDVAILYRTNAQSRAIEDTLVKSNMAYQMVGGTKFYERKEIKDIIAYLRLIANPNDDLSFERVVNVPKRGIGKTSVERLREYAALHDISFNDAVKEVDFTGVSKKAANALAAFSSLIQSLSQQQEFLTATDMVEAVLTRTGYETMLKNERSIEAQSRLENLEEFMTVTQDFEAASEDKTLVAFLTDLALIADIDQVDEEEIEAEDKITLMTLHAAKGLEFPVVFLIGMEENVFPHSRSMFDDEEMEEERRLAYVGITRAEKELYLTHARMRTLFGRTNMNPISRFINEIPEELIAGIEVANDAMFGRRSTEPKPNRAQPMKRKAQQMQKTSGAENEMWSSGDKANHKKWGVGTVVKVSGEGEAMELDIAFPAPVGIKRVLAKFAPITKQ NA NA NA NA NA AK015_01142 687 pcrB COG1646 Heptaprenylglyceryl phosphate synthase GTGAATACGTTATTAAAACAATGGGAACACATATTTAAGCTTGATCCAGCAAAAGAAATAACGGATGAGGATTTAGAGAAAATCTGCGAGTCTGGTACGGATGCAATTATCGTTGGTGGTACGGATAATATTACCTTAGACAGCGTATTAGATTTACTATCCCGCATTCGTCGATATACAGTGCCTTGTATTTTAGAAATATCATCCATGGATGCCATTACGCCAGGATTTGATTATTATTATATTCCTATGGTGCTTAATTCAAAAGAGAAAAAATGGATGATGGATATGCAACATCAGGCCATTAAAGATTATGTAGATATGATGGAGTTTAGCGAAATTTTCTTTGAAGGGTATTGCATTTTGAACGAGGATGCAAAAGCATTTACCTATACGAATAGTTATTTACCAGATGAGGAAGATGTCATTGCTTATGCGTATATGGTAGATAAAGTATTTCACTTGCCTATATTTTACTTGGAGTATAGCGGAAGATATGGCGATCCAGCTCTGGTTGCCAAGGTAAAAGCGCAGTTACAGCATGCCACCCTTTTTTACGGTGGAGGTATAGAAACTGCTGCACAAGCGAAGGAAATGAAACAGAACGCCGATGTCATCGTTGTTGGCAACAGTGTATATACGAATATGAAGCAAGCTTTACAAACCGTTTCTGCGGTAAAAGAGTAA MNTLLKQWEHIFKLDPAKEITDEDLEKICESGTDAIIVGGTDNITLDSVLDLLSRIRRYTVPCILEISSMDAITPGFDYYYIPMVLNSKEKKWMMDMQHQAIKDYVDMMEFSEIFFEGYCILNEDAKAFTYTNSYLPDEEDVIAYAYMVDKVFHLPIFYLEYSGRYGDPALVAKVKAQLQHATLFYGGGIETAAQAKEMKQNADVIVVGNSVYTNMKQALQTVSAVKE PGPT0024385_268 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATE_SYNTHASE_ACTIVITY,PGPT0024385-pcrB-K07094 NA NA AK015_01143 297 hypothetical protein GTGCAAATTGATAAATTACGTGGACAACATTTAGATGAACTATTTGAAGCTATCCTATCATTAAAAGATAAAGAAGAATGCTACCACTTTTTTGATGACATAGCGACAATGTCTGAGATTCAATCGCTGTCACAGCGCCTGCAAGTAGCTAAAATGTTAACACAAGGTGCTACGTATAATGCGATTGAAGAAAAGACAAATGCTTCAACGGCTACTATTTCACGAGTACGGAGATGTATCAATTACGGAAGTGATGGTTATAAAATCGTGCTTGATCGGATAATGGAAGATAAATAG MQIDKLRGQHLDELFEAILSLKDKEECYHFFDDIATMSEIQSLSQRLQVAKMLTQGATYNAIEEKTNASTATISRVRRCINYGSDGYKIVLDRIMEDK NA NA NA NA NA AK015_01144 1014 yerB Putative lipoprotein YerB ATGCGAAAAGTTTTATTCCTAGTAGTTATCATAGCAATTGTTTTTATTGCAGGTTGTAAAGATGAAGAGGATGTGGGGAAGGACAACGAAAAAGGTGATGATAAAAATGCTGCATATGCTTTGACAGGTCTTTCTGCAGATGGAGCAACAGATAACAGAATGGTTGCTGTCATGGTAAATAATCATCCAAAAGCAAGGCCGCAAACGGGTTTATCACAAGCAGATATTGTTTTCGAAATGCTAGCTGAAGGGAACATTACGCGGTTTCTAGCGCTTTACCAAAGTGAGCTACCTGATGTTATTGGCCCTGTTCGCAGTGCGCGGGAGTATTATTTTGATTTAGCCCAAGGGTATAATGCTATTTACGTGCATCACGGCGCTGCTGATTTTATTAATCAAAAGATGAAAGATAAAGGAATTGACCATCTGAACGGCTCGCTTTATGATAATGATGGTAACTTATTTAAACGGGAGGTTTTTCGTAAAGCGCCTCATAACTCGTATTTACAAACCGATGCGATATATGAAATAGCGGAAGAAAAAGGGTATGATGTAACTGCTACATATGAATCATTGCCATTTCTTGAAACGGATGCTGAAATTGCCGGTTCTCCTGCACCAAAGGTTACCGTTAGTTATGCAAATAATCCAAATGAAATGATACAATATATATTTAAAGAGGACAGTGGAACGTATAAGCGCTATAATGGAGAGCAGCAAACTGTAGAAATGGATACGGAAGAGCCAATTGAAATAAGTAATGTATTCATTATCGAAGCAAGTCATCAAGTAATTGACCAAGAGGGACGCCGCGCTATTGATTTAGAATCCGGCGGTGAGGCTTATTTATTACAAAACGGTGTGATGCAAGAAATACAATGGGAAAATCGAGCTGGCAGAATCATCCCTGTAAAGAATAATAAGGAAGTACCGTTTGTTCCGGGGAAAACATGGGTTAATGTTATTCCTCAACAACCTGGATTGCAAGACATTGTAACGATATCAATTGATTAA MRKVLFLVVIIAIVFIAGCKDEEDVGKDNEKGDDKNAAYALTGLSADGATDNRMVAVMVNNHPKARPQTGLSQADIVFEMLAEGNITRFLALYQSELPDVIGPVRSAREYYFDLAQGYNAIYVHHGAADFINQKMKDKGIDHLNGSLYDNDGNLFKREVFRKAPHNSYLQTDAIYEIAEEKGYDVTATYESLPFLETDAEIAGSPAPKVTVSYANNPNEMIQYIFKEDSGTYKRYNGEQQTVEMDTEEPIEISNVFIIEASHQVIDQEGRRAIDLESGGEAYLLQNGVMQEIQWENRAGRIIPVKNNKEVPFVPGKTWVNVIPQQPGLQDIVTISID NA NA NA NA NA AK015_01145 1707 yerA COG1001 Putative adenine deaminase YerA ATGAGGCAGCATGTCAGAGTCGTCGATGGAGAAGTAGCTCCAACGATCGTGCTGGAAAACGCGACTTACTTGAATGCGTATACGAAACAATGGGTAGAATCCAATATTTGGATGTATGAAGATCGGATTGTTTATGTGGGGGAGCAAATGCCAGATAATTTACACGATACAGAGGTTGTAGACTGTACAGGGAAGTATATCGTTTCAGGTTATATTGAGCCGCATGCCCACCCCTTTCAATTGTATAATCCGGAACAATTGGCATTGCACGCAGCTAAAACAGGCACAACAACATTAATCAATGACAATTTATTATGGTTATTTATGTTAAACAAAAAGAAAGCGTTTTCGATTTTGGAGGAGTTTAGCAAGCACCCTGTGTCTATGTATTGGTGGGCTCGATTTGATCCGCAGACGGAGTTGCAGGGGGAGCATGGTTTATTTCAGACAGAAGATGTTTTATCGTGGGTAAAACATCCTGCGGTAGTTCAGGGTGGTGAACTCACTTCCTGGCCAGATCTCCTAGCAGGTGACGATATTTTATTATATTGGATTCAAGAAACGAAAAATCAGCGTAAACCTGTGGAAGGACATTTCCCGGGCGCTTCTGAACGGACCTTAACAAAAATGAAACTACTTGGTGTTAATGCGGATCATGAATCGATTTCTGGAGAGGAGATTTTACGACGTCTACGACTAGGCTATCATGTAGGCTTGCGATATTCATCGATACGCCCCGATTTACCAAATTTGATAGAGGAGATGCTTGCAGCAGGGTTGACATCCTTTGAAAATTTAACCTTTACAACAGATGGAGCGACACCTGCTTTTTATGAAACAGGGCTTATTAATCAGTGTATCGACATTGCTATAAAAAAAGGAATACCTATTGAAGAAGCTTATTTAATGGGCAGTTTCTACGCTGCTAAGCATTTACGAATGGAAGAACAGCTAGGAAGCATTGCGCCTGGTCGATTTGCCCATATTAATATTTTAACAGAAAAAGATAATCCTCATCCAGAGAGTGTGCTGTCAAAAGGAAAATGGATTGTAAAACATGGCGAACAGCAAAAAATGCAAGCCCAAATCCCGTGGTCAAAATATCACATCAAGCCACTAGATTTAGATTGGGAAATAAGCTATAAAGAATTACAATTTTCCGTTCCAATTGGTTTGGAAATGGTCAACGATGTGATTATGACGCCATATCCAATTGAAGTGGATATAACCGTTGAAGAACTTCCTGCCGAAACAACGGATTCCTTTTTAATTTTACTTGATCGACATGGCAAATGGCGTGTGAATACGACTTTACGAGGATTTACGAATGAATTAGGTGCTATTGCGAGCTCTTATTCTGTGTCTGGCGATTTTGTATTTATTGGAAAAAGAAAAAGTGATTTGTTACTTGCTGGTAAACGTGTAAAAGAGTTAGGCGGGGGGATTGTTATTGTCCATCATGGAGAAATATTATTAGAAATTCCACTCCAACTTGGTGGGATGATGTATGCTGGAGAGATGGACGAACTGATTAAACAGGAAAAAGAATTAAAACAGATTTTACAATCATTTGGGTATCCATTTTCTGACCCTGTGTATTCGATATTTTTCTTATCCTCTACGCACTTACCTTATGTGCGTATTACACCACAGGGAATTATGGATGTGAAGCAAAAGGAGCTCCTATTCCCTGCAACGATGTGTTAG MRQHVRVVDGEVAPTIVLENATYLNAYTKQWVESNIWMYEDRIVYVGEQMPDNLHDTEVVDCTGKYIVSGYIEPHAHPFQLYNPEQLALHAAKTGTTTLINDNLLWLFMLNKKKAFSILEEFSKHPVSMYWWARFDPQTELQGEHGLFQTEDVLSWVKHPAVVQGGELTSWPDLLAGDDILLYWIQETKNQRKPVEGHFPGASERTLTKMKLLGVNADHESISGEEILRRLRLGYHVGLRYSSIRPDLPNLIEEMLAAGLTSFENLTFTTDGATPAFYETGLINQCIDIAIKKGIPIEEAYLMGSFYAAKHLRMEEQLGSIAPGRFAHINILTEKDNPHPESVLSKGKWIVKHGEQQKMQAQIPWSKYHIKPLDLDWEISYKELQFSVPIGLEMVNDVIMTPYPIEVDITVEELPAETTDSFLILLDRHGKWRVNTTLRGFTNELGAIASSYSVSGDFVFIGKRKSDLLLAGKRVKELGGGIVIVHHGEILLEIPLQLGGMMYAGEMDELIKQEKELKQILQSFGYPFSDPVYSIFFLSSTHLPYVRITPQGIMDVKQKELLFPATMC PGPT0021510_1378 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486 NA NA AK015_01146 1242 purD COG0151 Phosphoribosylamine--glycine ligase ATGAACATTCTAGTCATTGGTCGTGGTGGTAGAGAGCATAGTATTGTAATGAAATTAAGAGAAAGTGGACAGGTTACTCAATTATATGTAGCTCCAGGAAATGGCGGGATGGTAGAGCAAGCTACTTGTGTCTCTATTGATGAAATGGATACCCAAGGATTAATCGATTTTGCTAAGGAAAAGGCAATTGATTTAACGATTGTCGGTCCCGAAAATCCATTAAATAAAGGCATTGCGAACGCTTTTCAAAGAGAAGGGTTACGTATCTTTGCTCCAACACAAGAAGCTGCTATCCTTGAAGGAAGCAAGCAATTTGCGAAACAATTTATGGACAAGTATCATATACCAACTGCTGTTCACGAAACATTTACAGATGTGGATAAAGCAAAAGCATATATTGAATTAAAAGGAGTGCCTATTGTCATTAAAGCGGACGGGCTTGCTGCTGGTAAGGGAGTTGTTGTAGCTGAAACGAAACAAGCTGCATTTGCCGCTGTAGAAGAAATGTTAGTCGAAAAAACATTTGCCGATGCAGGGACAACCATTGTTATTGAAGAATTTTTACAAGGAAAAGAATTCTCTTTAATGGCTTTTGTTTATAACGACCAAGTGTATCCGATGGTTCCTGCTCGTGATCATAAACGCGCATTTGATTTTGATCAAGGACCGAATACTGGCGGAATGGGTGCTTTTGCGCCAGTGCCAGACGTAACACAAGCAGACTTGGACTATACGTATAAACATGTTTTACAGCCTACAGTGAACGGACTTATAGAAGAAGGAAGGCCATTTATCGGTGTGCTTTATGCAGGACTCATGAAAACGGAAACTGGCCCAAAAGTGATTGAATTTAACACTCGATTCGGTGATCCAGAAACACAAGTTGTTTTGCCATTGTTAAAAAATGATTTAGCACAAGTATGTGTAGATGTAATAGACGGTATTGATCCGAAGCTTGAATGGGAGCAAAAAGCTTGTGTCGGTGTCGTCGTAGCTGCTAGTGGTTATCCAAATGAGTATGAAAAAGGAATAGACATTCCCGCATTGCCAGCTACGCCTGCGGAGATTGTCCATGCAGGCACAAAACAAATTGGTGAACGGATGGTGACAAATGGTGGTCGTATTTTAGTATCGGCAGCTGTAGCGGATACCCTTGATGAAGCGGCTTCGTTTGCTTATGAGCCTCTCCAAGTGTTCAAAGATAGAGATGAATTCTTTTATCGAACGGACATTGCAAAATAA MNILVIGRGGREHSIVMKLRESGQVTQLYVAPGNGGMVEQATCVSIDEMDTQGLIDFAKEKAIDLTIVGPENPLNKGIANAFQREGLRIFAPTQEAAILEGSKQFAKQFMDKYHIPTAVHETFTDVDKAKAYIELKGVPIVIKADGLAAGKGVVVAETKQAAFAAVEEMLVEKTFADAGTTIVIEEFLQGKEFSLMAFVYNDQVYPMVPARDHKRAFDFDQGPNTGGMGAFAPVPDVTQADLDYTYKHVLQPTVNGLIEEGRPFIGVLYAGLMKTETGPKVIEFNTRFGDPETQVVLPLLKNDLAQVCVDVIDGIDPKLEWEQKACVGVVVAASGYPNEYEKGIDIPALPATPAEIVHAGTKQIGERMVTNGGRILVSAAVADTLDEAASFAYEPLQVFKDRDEFFYRTDIAK PGPT0021575_4954 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945 NA NA AK015_01147 1533 purH Bifunctional purine biosynthesis protein PurH ATGAAAAAACGAGCATTAATAAGTGTATATGACAAAGAAGGAATTACATCGTTTGCAAATGAATTAGTCCAGGCAGGATATGAGATTATTTCAACAGGTGGAACGCTCCATACATTACAAGCAGCTCATATTCCAGCAACTGCTGTGGAAGATATAACTGCTTTTCCAGAAATATTAGATGGTCGGGTTAAAACATTGCACCCAAACATTCATGGTGGATTACTCGCAAAACGGGGGAACAAAGCACATCTGAAAGAGCTTGAAGTGAATGCTATTACGCCAATTGATCTTGTTGTTGTTAACCTTTACCCCTTTAAGGAGACGGTAACGAACGAAGCAGCTTCTCATGGGGAAATCATTGAAAATATTGATATTGGTGGTCCTTCGATGTTGCGAGCAGCGGCTAAAAGCTATCAGGCGGTAACCGTGGTTGTTGATCCAACCGATTACGAAAGCGTACTCCAAGCATTGCAAACTGGTGAAGTTACGTTAGAACAACGTCAGCAGTTAGCTGCGAAAGTATTCCAACATACAGCAGCATATGATGCACTTATTGCCTCTTACTTTACAGAAAGCACTGGAGAAGCATTTCCAGATCATTATACGATTACATATGAAAAGGTACAGACGCTACGTTATGGAGAAAATCCACATCAAGCAGCCGCTTTTTATAAGCAACCGGTTACGAAACAGCAAGGATTGGCTACAAGTGAACAATTGCATGGGAAGGAGCTTTCCTATAACAACATCCAAGATGCGAATGCGGCTTTAGAGATTTTGGCAGAATACAACGCACCTACAGCTGTTGCGGTAAAACATATGAACCCATGTGGAATTGGAACGGCAGATACGCTTGCAAAAGCATTTGCACATGCGTATGCGGCAGATCCTGTTTCCATATTTGGGGGAATTGTTGCTTGCAATCAAATAGTAGATAAGGAAACGGCGCTGCAGTTAAGCGACATCTTTTTAGAAATTGTAATCGCACCAGGCTTTACAGAAGAAGCACTGCGAATATTAACTGAAAAGAAAAATATTCGTCTTATGAAATTGCCTCGACAAGTAAATAAAGTAATCGAAAACAAATATACATCGGTTGTTGGTGGTATGTTAATTCAAACGAAAGATGAGGAACAAATTACAGCCTCCGATGTTACTGTTGCTACGAAACGAGAGCCCACGGAAAAAGAGAAGGAGCAATTACTCTTTGCGTGGAAGGCAGTCAAACATGTGAAATCCAATGCGATTGTGTTGGCAAAAGAGAATCGAACGGTCGGTATTGGTGCAGGACAAATGAATCGAGTTGGCGCTGCAAACATTGCTATTGAGCAAGCGAAAGAGCATGCAGTAGGAGCAGTTATGGCTTCGGATGCATTTTTCCCTATGCCAGACACAGTGGAAGCCGCTGCGAAAGCAGGAATTACTGCTATTATTCAGCCAGGCGGTTCTAAGCGCGATCAAGATTCCATTGATGTTTGTAACCAATATGGGATTGCAATGATTTTTACGGGCATACGTCATTTCAAACATTAA MKKRALISVYDKEGITSFANELVQAGYEIISTGGTLHTLQAAHIPATAVEDITAFPEILDGRVKTLHPNIHGGLLAKRGNKAHLKELEVNAITPIDLVVVNLYPFKETVTNEAASHGEIIENIDIGGPSMLRAAAKSYQAVTVVVDPTDYESVLQALQTGEVTLEQRQQLAAKVFQHTAAYDALIASYFTESTGEAFPDHYTITYEKVQTLRYGENPHQAAAFYKQPVTKQQGLATSEQLHGKELSYNNIQDANAALEILAEYNAPTAVAVKHMNPCGIGTADTLAKAFAHAYAADPVSIFGGIVACNQIVDKETALQLSDIFLEIVIAPGFTEEALRILTEKKNIRLMKLPRQVNKVIENKYTSVVGGMLIQTKDEEQITASDVTVATKREPTEKEKEQLLFAWKAVKHVKSNAIVLAKENRTVGIGAGQMNRVGAANIAIEQAKEHAVGAVMASDAFFPMPDTVEAAAKAGITAIIQPGGSKRDQDSIDVCNQYGIAMIFTGIRHFKH PGPT0008110_4274 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602 NA NA AK015_01148 576 purN Phosphoribosylglycinamide formyltransferase ATGAGTCGGGTGAAAGCAGCGGTATTTGCTTCAGGGACAGGAAGCAATTTTCAAGCCATGCTTGACGAAAGTGACTTGGCTTGTGAGATCATTTTATTAATCTGTGACAGACCTGAGGCAGCCGTCATAGAAAAAGCAAGGCAACATCAAATTCCTGTCTATCAGTTCGACCCGAAGCAATATGCCACGAAAGAAGCATATGAAAGAGAATTGGTGACTGTATTAAAAAAAGCGCGTGTCCAGTGGATTTTTTTAGCAGGATATATGCGTATTGTAGGTTCCTATTTACTACATGCGTATCAAGGTAAAATCGTGAATATCCACCCTTCGTTGTTGCCCGATTTCCCTGGGAAAGATGCGATTACGCAAGCTTTTGCAGCGAAAGTGGATAAAACAGGGGTAACCATTCATTTTATCGATGAAGGTATTGATACAGGACCGATCATCGCTCAACAAACAGTCGATATGTATCCAGATGATACGATTCGTTCATTAACAAAACGCATCCAGCAAGTCGAGCATAAGCTATATCCAAAAATAATTAAACAATTAGTACAAAATGAGGGAGAACTATGA MSRVKAAVFASGTGSNFQAMLDESDLACEIILLICDRPEAAVIEKARQHQIPVYQFDPKQYATKEAYERELVTVLKKARVQWIFLAGYMRIVGSYLLHAYQGKIVNIHPSLLPDFPGKDAITQAFAAKVDKTGVTIHFIDEGIDTGPIIAQQTVDMYPDDTIRSLTKRIQQVEHKLYPKIIKQLVQNEGEL PGPT0008095_3877 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175 NA NA AK015_01149 1071 purM COG0150 Phosphoribosylformylglycinamidine cyclo-ligase GTGAAGGCTTATGCAGCATTAACTTTAGATGATAGAGAAGGAGAAGTGACCATAGTGGCAAATGTATATAAACAAGCTGGTGTAGACGTTGAGAAAGGCTATGAAGCTGTGGAACGAATGAAAAAGCATATCCAGCGAACGAAAAAAAAGGAAGTGCTAGCTGAAATTGGAGCATTTGCCGGCCTGTTTGATCTTTCGGGCTTTTCTTACGAACAACCAGTACTTGTATCAGGAACAGATGGAGTAGGTACAAAATTGAAGCTCGCGTTTGCCATGGATCAGCATCATACCATCGGAATTGATGTTGTGGCGATGTGCGTCAATGATATTGTTGCTCAAGGGGCAAAACCACTCTTTTTTCTCGATTATATTGCTTGTGGAAAAAATGATCCGAAGCAAATGGAACAAATTGTAGCTGGGATTGCAGAAGGTTGTGTTCAGGCAGATGCAGCTTTAATCGGTGGAGAGACAGCTGAAATGCCAGGGATGTATCAAGCTGGTGAATATGATTTAGCTGGCTTTACCGTTGGCATTGCCGAGAAAAAAGAACTCATTACGGGAGAAAACATCCAATCCGGAGACGCTATTATTGGATTGCTATCAAGTGGTATACATTCTAATGGCTATTCGCTCGTGCGTAAATTAACGGCCGATTTAGCTTTTGATCAATCTTATAGTTTAAGTGAACCTCTAGGAGAAGCATTACTTACGCCAACACGTATTTATGCGAAGTCGATACAAAGTGTTTTAAAAACAGGGTATATAAAAGGTGTAGCTCATATTACAGGTGGAGGTTTTTACGAAAACTTCCCACGCATGGTACCAGAAAATCTAGGAGTGGATATTGATACTAAGGCGTGGGACATACCAGAAATTTTTCCGTTTTTACAACAACAAGGAAAGATTGCGACAGAGGAAATGTTCGGTGTGTTTAATATGGGAATTGGGATGGCAATCGTAGTTGCAAAACAGCATGTGTCAGAAGTTATGGATCACTTAGAAACTGCAGGGGAGAAGGCATCTATTATTGGTTCGGTGATGGAACAAAAAGGAGTGCACATACGTTTATGA MKAYAALTLDDREGEVTIVANVYKQAGVDVEKGYEAVERMKKHIQRTKKKEVLAEIGAFAGLFDLSGFSYEQPVLVSGTDGVGTKLKLAFAMDQHHTIGIDVVAMCVNDIVAQGAKPLFFLDYIACGKNDPKQMEQIVAGIAEGCVQADAALIGGETAEMPGMYQAGEYDLAGFTVGIAEKKELITGENIQSGDAIIGLLSSGIHSNGYSLVRKLTADLAFDQSYSLSEPLGEALLTPTRIYAKSIQSVLKTGYIKGVAHITGGGFYENFPRMVPENLGVDIDTKAWDIPEIFPFLQQQGKIATEEMFGVFNMGIGMAIVVAKQHVSEVMDHLETAGEKASIIGSVMEQKGVHIRL PGPT0021570_1483 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933 NA NA AK015_01150 1413 purF COG0034 Amidophosphoribosyltransferase ATGCATGCTGAAGACAAAGGCATAAGAGAAGAATGTGGCGTGTTCGGTATCTGGGGGCATGAAAAAGCGGCAGAACTGACGTATTACGGGTTACATTCGATGCAACATCGTGGTCAAGAAGGTGCTGGTATTGTTGTCAATGATGGACAGCATTTAAAAGTGCATAAAGATGTCGGATTAGTGAATGATGTTTTTAAGCATGCAGATTTTTCTTTGTTACAAGGTGATGTAGCAATTGGACATGTCCGTTATTCGACACAAGGTGCTAAAACGGTAGAGAATGTGCAACCCTTATTGTTTCATTCCCAAAAGGGGAGTATGGCGCTTGCACACAATGGCAATTTAATGAATGCCTATGCTTTGCGAGCAGAATTAGAAGAAGAAGGAAGCATATTGCAAACTTCATCCGATACAGAAGTATTGGCACATTTAATCAAACGTAATGGGAACCAAGTCTCGGAGGTTTCCATTACAGAAGCATTAAATCAAGTCAAAGGTGCCTATGCCTATTTAATTTTGACGGAAAAGCAGCTGTTTGTTGCGCTAGACCCGCACGGCATTCGTCCATTATCGATTGGTAGATTAGGAGATGCCTATGTTGTTGCTTCGGAAACGTGTGCGTTTGGGCAGATTGGCGCCACATTTGAACGGGAAGTATTACCAGGTGAGCTCATTACGATTAACGATCATGGTCTCACATCGACAAGATTTGCTATGCGAGAACAACGAAAAATGTGTGCCATGGAATATGTGTATCTATCCCGACCAGATAGCGATGTAAATTTAGTAAATGTGCATGCGTCAAGGAAAAACATGGGCCGGGAGCTTGCCAAAGAAGCTCCGGCAGATGCAGATATCGTTGTTGGCGTGCCTGACTCTAGTACATCAGCTGCGATTGGTTACGCTGAAGAGAGTGGACTTCCATATGAGGTGGGGATTATTAAAAACCGTTATGTTGGTAGAACTTTTATTCAACCTTCCCAAGAATTACGAGAGCAAGGGGTGAAGCTCAAGCTATCCCCAGTTCGAAGCATCATTGAAGGAAAGCGAGTCGTTATGATTGATGATTCCATTGTCCGTGGCACAACGAGTAAACGGATTGTGCATATGTTAAAAGAAGCTGGTGCAAAAGAAGTGCATGTGCGAATTGCTTCCCCGTCTATTCAACATCCTTGCTACTACGGGATTGACATGTCGACAAGAAAAGAGTTAATTGCAGCGAATTATGAACAAGATAAAATAAGAGAAATCATTGGCGGAGATAGTCTAGCGTATTTGTCAGAGGCAGGTATGGAAAAAGCAATATTAAAAGATAAGACGATCCATCAAGGCGTTTGTACAGCGTGTATGACTGGTAAATATCCGCTCTCCATGGAAGCGGACAAACAAGTGTCTCCTTTTATTTCCCTATAA MHAEDKGIREECGVFGIWGHEKAAELTYYGLHSMQHRGQEGAGIVVNDGQHLKVHKDVGLVNDVFKHADFSLLQGDVAIGHVRYSTQGAKTVENVQPLLFHSQKGSMALAHNGNLMNAYALRAELEEEGSILQTSSDTEVLAHLIKRNGNQVSEVSITEALNQVKGAYAYLILTEKQLFVALDPHGIRPLSIGRLGDAYVVASETCAFGQIGATFEREVLPGELITINDHGLTSTRFAMREQRKMCAMEYVYLSRPDSDVNLVNVHASRKNMGRELAKEAPADADIVVGVPDSSTSAAIGYAEESGLPYEVGIIKNRYVGRTFIQPSQELREQGVKLKLSPVRSIIEGKRVVMIDDSIVRGTTSKRIVHMLKEAGAKEVHVRIASPSIQHPCYYGIDMSTRKELIAANYEQDKIREIIGGDSLAYLSEAGMEKAILKDKTIHQGVCTACMTGKYPLSMEADKQVSPFISL PGPT0020225_4744 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764 NA NA AK015_01151 2229 purL COG0046 Phosphoribosylformylglycinamidine synthase subunit PurL ATGTTGCAAACGCATGAAATAAGCCCAGAGCAAATTGAAAATGAAGCGCTTTATAAAGAAATGGGTTTAAATGATGAAGAATACCAGATGGTGAAACATATTTTACAGCGCAGACCGAATTATACGGAAACAGGGATTTTTTCCGTCATGTGGTCCGAGCATTGTAGCTATAAATCGTCTAAACCATTATTGAAAAAGTTCCCAACGAAAGCCCCGCATGTGTTGCAAGGTCCTGGCGAGGGGGCAGGGATTATTGATATTGGCGATGAGCAGGCTGTTGTTTTTAAAGTCGAAAGTCATAATCACCCGTCTGCAGTCGAACCGTATCAAGGTGCGGCAACAGGCGTTGGTGGCATTATTCGTGATGTCTTCTCTATGGGCGCACGTCCGATTGCTCTCTTAAATTCGCTGCGGTTTGGTCCATTAACAAATGAACGGACGAAATACTTATTTTCCGGTGTTGTTGACGGTATTGCAGGATATGGGAATTGTGTCGGTGTTCCAACAGTTGGTGGGGAAGTGCAATTTGATGACTGTTATCAGGAGAATCCATTAGTAAATGCCATGTGTGTCGGTTTAATAAAGCATGAAGATATTCAAAAAGGGATTGCCGCTGGTGTGGGGAATACGGTCCTTTATGCTGGAGCGCCAACAGGTCGGGATGGTATTCATGGTGCGACATTTGCCTCTGATGATTTGGCAGAGGATTCATTAAAAGATCGTCCTGCAGTACAAGTTGGCGATCCATTTATGGAAAAATTACTGATTGAAGCATGTTTAGAAGTAATCCAGTCAGATGCGCTCGTAGGCATGCAAGATATGGGTGCTGCTGGTTTAACCTCTTCTGCTAGTGAAATGGCTAGTAAAGCTGGGACAGGTTTGGAGATGAATTTAGATCATGTACCACAAAGAGAAGCAAATATGACAGCGTATGAACTAATGCTTTCTGAATCACAAGAACGGATGTTGCTCGTGGTTAAAAAAGGACGTGAACAAGAAATTATCGAAGTATTCCAAAAGTATAGCTTGCAGGCAGTAGCAGTTGGTGAAGTCATTGAGGAAAAGACCTTTCGTATTTTCCAACATGGCAAAATGATGGCTGATATTCCAGTTGACGCATTAGCAGAAGAAGCTCCAGTGTATCATTTACCTGCTAAAGAAGCTGCTTATTTCCAAGCTTTTCAACAAATGAAGCAAGAAGTGCCAGTTGTTGAAGATCATGCACAGATGTTCAAACAACTGTTACAGCAACCGACGATCGCTTCTAAAGAATGGGTTTACGATCAGTATGATTCTATGGTGCAAACAAATACAGTCGTTACGCCAGGTTCTGATGCAGCGGTAGTGCGTATTCAAGGTACGAATAAATCGTTAGCAATGACAACGGATTGTAATTCTCGATACATTTACTTAGATCCTGAAACAGGTGGAAAAATTGCCGTTGCAGAAGCGGCTCGTAACATTATTTGTTCAGGTGCTAAGCCACTCGGGTTAACAGATGGATTGAACTTTGGCAACCCAACGAATCCTGAAGTGTTTTGGCAAATGGAAAAAAGCGTGGAAGGCATGGTAGCTGCTTGTGAAACGTTAGATACGCCTGTAATTAGTGGAAATGTATCCTTGTATAACCAGTCAGGCGGAAAGGCGATTTTTCCGACTCCTGTGGTAGGGATGGTTGGGCTACATGAATCACTGGATCATATTACGTCGAGCTTTTTTCAACAAGCAGGAGATCGTATTTATGTTATTGGAGAAACGGCGTGCGATTTTGGGGGTAGTGAGCTACAGCGACTTATGCAAGGAAAGTATGCAGGAAAAGCATCGCAAATAAACTTAGACGTCGAGAAAAAACGGCAAGATCAGCTATTAACAGCAATCCAACAAGGGGTCGTATCATCAGCACATGACGTTGCTGAAGGTGGTTTGGCAGTTGCTTTAGCGGAAAGCCTGTTTGCTGAGCATACATTGGGGGCAACTGTACAGTTATATGGTGACCCGACAGTGATGTTATTTAGTGAAACACAGTCTCGATTTCTTGTAACTGTTCCAGAAAATAAACAAGAAAATTTTGTGAATATCGTTGAAGATGCCGTTGAGATTGGGAAAGTTACAACAGATGAGCAGCTTACGATTTCTATCAATGAGCAGGAATATGTGTCTGAATCTGTTGCTTTATTACAAGAACAATGGAAAGGAGCCATTCCATGCATGCTGAAGACAAAGGCATAA MLQTHEISPEQIENEALYKEMGLNDEEYQMVKHILQRRPNYTETGIFSVMWSEHCSYKSSKPLLKKFPTKAPHVLQGPGEGAGIIDIGDEQAVVFKVESHNHPSAVEPYQGAATGVGGIIRDVFSMGARPIALLNSLRFGPLTNERTKYLFSGVVDGIAGYGNCVGVPTVGGEVQFDDCYQENPLVNAMCVGLIKHEDIQKGIAAGVGNTVLYAGAPTGRDGIHGATFASDDLAEDSLKDRPAVQVGDPFMEKLLIEACLEVIQSDALVGMQDMGAAGLTSSASEMASKAGTGLEMNLDHVPQREANMTAYELMLSESQERMLLVVKKGREQEIIEVFQKYSLQAVAVGEVIEEKTFRIFQHGKMMADIPVDALAEEAPVYHLPAKEAAYFQAFQQMKQEVPVVEDHAQMFKQLLQQPTIASKEWVYDQYDSMVQTNTVVTPGSDAAVVRIQGTNKSLAMTTDCNSRYIYLDPETGGKIAVAEAARNIICSGAKPLGLTDGLNFGNPTNPEVFWQMEKSVEGMVAACETLDTPVISGNVSLYNQSGGKAIFPTPVVGMVGLHESLDHITSSFFQQAGDRIYVIGETACDFGGSELQRLMQGKYAGKASQINLDVEKKRQDQLLTAIQQGVVSSAHDVAEGGLAVALAESLFAEHTLGATVQLYGDPTVMLFSETQSRFLVTVPENKQENFVNIVEDAVEIGKVTTDEQLTISINEQEYVSESVALLQEQWKGAIPCMLKTKA PGPT0021730_1266 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269 NA NA AK015_01152 684 purQ COG0047 Phosphoribosylformylglycinamidine synthase subunit PurQ GTGAAATTTGCTGTCATCGCCTTTCCTGGTTCAAACTGCGATCGAGATATGTACAGGGCAGTAGCAAACGTTTTAGGAGCAGATGCTGATCTATTATGGTATGAAACTGCTAATCTAAATAACTATGATGCCATTCTTCTTCCTGGCGGCTTTTCTTATGGAGACTACTTGCGTACAGGCGCAATTGCAGCAACGTCAAATGTGATGCAACAAGTAAAAAAACACGCCGCAAAAGGTAGGCCTGTACTAGGTGTTTGTAATGGTTTTCAAATTTTAACGGAGTCGGCTTTACTTCCTGGGGCGTTATTGCGCAATAAAAATCTTTCGTTTATGTGTCATCAAGAAGTGTTAACGGTAAAGAACAATCAAACCATGTTTACAACGGCGTATAGTGAAGGAGAAACAATCCAATTACCCATTGCGCATGGGGAAGGAAATTATTACTGTGATGAAGCGACATTGCAAGAATTAATAGAACATAAGCAAATTGTGTTTACCTATCAAAATAATCCCAATGGCTCTATAGAGAATATTGCTGGAATTGTAAATAGAGAAAGGAATGTTCTTGGAATGATGCCGCACCCAGAGCGTGCTGTGGAACAATTGTTAGGCAGCGCGGATGGCTTACGTTTATTTCAGTCATTGATTCATAATTGGAGGGAAACTTATGTTGCAAACGCATGA MKFAVIAFPGSNCDRDMYRAVANVLGADADLLWYETANLNNYDAILLPGGFSYGDYLRTGAIAATSNVMQQVKKHAAKGRPVLGVCNGFQILTESALLPGALLRNKNLSFMCHQEVLTVKNNQTMFTTAYSEGETIQLPIAHGEGNYYCDEATLQELIEHKQIVFTYQNNPNGSIENIAGIVNRERNVLGMMPHPERAVEQLLGSADGLRLFQSLIHNWRETYVANA PGPT0020220_1190 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265 NA NA AK015_01153 252 purS COG1828 Phosphoribosylformylglycinamidine synthase subunit PurS ATGAAAAAAGTAAAGGTGCATATTACGCTTAAAGAAGGGGTGCTTGACCCACAAGGAAAAGCTATTCAACAATCTTTACATGCGTTAGGGTACGAAGAAGTAGAGGAAGCACGAGTGGGGAAAATGATTGAGCTACAAGTAGAGGAAGGACCTCATATAGAAGCTCGTATTAAAGAAATGTGCGATAAATTATTAGCTAATCCGGTCATTGAAAATTATCAAGTTACGATGGAGGAGGCTGTTCAGTCGTGA MKKVKVHITLKEGVLDPQGKAIQQSLHALGYEEVEEARVGKMIELQVEEGPHIEARIKEMCDKLLANPVIENYQVTMEEAVQS PGPT0021725_976 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264 NA NA AK015_01154 714 purC COG0152 Phosphoribosylaminoimidazole-succinocarboxamide synthase ATGAAGGGTGCCTTACTTTATGAAGGGAAGGCAAAGCAAGTATATGAAGCAAAAGATGCAGCTGGAAGGCTCATCCTTTCCTATAAAAATGACGCAACGGCATTTAATGGTGAAAAAAAATCAGTATTTCCAGGTAAAGGTCGCTTGAACAACGAAATAGCAGCACATATTTTCTCTATGCTACAGGATAAAGGAGTAAAGACACATTTCATCGAGCGTTTAAATGAAATAGAACAGCTCGTTTGGCAAACGGAAATTATTCCGCTTGAGGTTGTCGTTCGTAATGTTGCCGCTGGCAGCATTACGAAGCGCCTTGGGATTGAAGAAAAAACAGTCTTTGAACCGCCAATTGTGGAATTGTTTTATAAAGACGATGCGCTCGGTGATCCGTTAATTAATGATGAGCATGCATTACTCGTTGCGTCTATTACACAAGCTGAATTGCAGGAAATTAAAACAAAGGCACGAGCGATTAACAACCATTTGCAGCATATTTTTCAAGCTATTCGTATTCAATTAGTGGATTTCAAGTTAGAATTTGGCAGGCTCGCAAGTGGCTCCATCGTGCTTGCAGATGAAGTTTCCCCAGATACGTGTAGACTTTGGGATGTCGCAACATTTGAAAAATTGGATAAAGATGTCTTTCGTCAAGGAACGGGTGACCTGCTCGCTGTATATGAAGAAATATTAAACCGACTGGAGGAGCAAAAATGA MKGALLYEGKAKQVYEAKDAAGRLILSYKNDATAFNGEKKSVFPGKGRLNNEIAAHIFSMLQDKGVKTHFIERLNEIEQLVWQTEIIPLEVVVRNVAAGSITKRLGIEEKTVFEPPIVELFYKDDALGDPLINDEHALLVASITQAELQEIKTKARAINNHLQHIFQAIRIQLVDFKLEFGRLASGSIVLADEVSPDTCRLWDVATFEKLDKDVFRQGTGDLLAVYEEILNRLEEQK PGPT0021565_4009 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923 NA NA AK015_01155 1296 purB COG0015 Adenylosuccinate lyase ATGATAGAACGTTATACAAGAGAAGAAATGGGAGCTATTTGGACGGAAGAAAATAAATTTAAAGCATGGTTAGAAGTCGAACTATTAGCGTGTGAAGCATGGAGTGAATTAGGTGTAATCCCAAAACAGGATGTGCAACAACTACGTGCGAAAGCGTCGTTTGATATGGACCGCATTTATGACATAGAACAAGAAACTCGCCACGACGTTGTTGCTTTTACAAGAGCAGTATCGGAAACATTAGGAACCGAGAAGAAATGGGTGCACTACGGCTTAACCTCTACCGACGTTGTTGATACGGCACTATCGTACTTAGTGAAGCAAGCAAATACGATTATTCGTCAAGATTTACATGCGTTTATTGAAATTTTGCAACAAAAAGCGATCGAACATAAACACACGGTTATGATGGGAAGAACGCACGGTGTTCATGCGGAGCCGACAACTTTTGGATTAAAACTGGCACTTTGGTATGAAGAAATGAAACGAAACTTGGACCGATTTGAAGCAGCGGCAACCTCCATCGAATTTGGTAAATTGTCTGGAGCTGTAGGTACATATGCGAATATTGATCCATATGTGGAACAGTATGTATGTAAGAAATTAGGTTTAACGCCTGCACCTGTGTCTACACAGACATTGCAGCGAGACCGTCATGCTGCTTATATCGCTACATTGGCTTTAATTGCTACATCCATTGAAAAGTTTGCAACAGAAATTCGTGGCTTACAAAAAACGGAAACACGAGAAGTAGAGGAGCGTTTTGCAAAAGGTCAAAAAGGTTCTTCAGCAATGCCGCATAAGCGAAACCCGATCGGTTCAGAAAATATGACTGGTATGGCAAGAGTGCTTCGTGGATATGTAACAACAGCTTATGAAAATGTTGCATTGTGGCATGAACGAGATATTTCCCACTCTTCTGCGGAAAGAGTTGTTTTACCAGATGCGACCATTGCACTTAACTATATGCTCAATCGCTTTAGTACTATCGTAAAGAATTTAACTGTGTTCCCTGAAAACATGAGGCGTAACATCGACAAAACGCATGGCGTTATATTTTCACAGCGTGTATTACTTACTTTAATTGACAAAGGAATGAGTCGAGAAGCTGCTTACGATACAGTACAGCCAAAAGCGATGCAAGCATGGGAGACAGGAACACATTTTAAGCAGCTCGTTCAGGAAGACAAAACAATTACGGCGCATTTATCACAAGCTGAGATAGAGAATTGCTTTGATTATACGTACCATTTAAAGAATGTGGATCAAATTTTTGAAAAAATTGGCTTAGCGTGA MIERYTREEMGAIWTEENKFKAWLEVELLACEAWSELGVIPKQDVQQLRAKASFDMDRIYDIEQETRHDVVAFTRAVSETLGTEKKWVHYGLTSTDVVDTALSYLVKQANTIIRQDLHAFIEILQQKAIEHKHTVMMGRTHGVHAEPTTFGLKLALWYEEMKRNLDRFEAAATSIEFGKLSGAVGTYANIDPYVEQYVCKKLGLTPAPVSTQTLQRDRHAAYIATLALIATSIEKFATEIRGLQKTETREVEERFAKGQKGSSAMPHKRNPIGSENMTGMARVLRGYVTTAYENVALWHERDISHSSAERVVLPDATIALNYMLNRFSTIVKNLTVFPENMRRNIDKTHGVIFSQRVLLTLIDKGMSREAAYDTVQPKAMQAWETGTHFKQLVQEDKTITAHLSQAEIENCFDYTYHLKNVDQIFEKIGLA PGPT0021555_5196 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756 NA NA AK015_01156 1128 purK N5-carboxyaminoimidazole ribonucleotide synthase TTGCAAAAAAATAACCTTATCTTACCTCCAAAAACGATTGGAATTATTGGTGGCGGACAACTTGGTCGCATGATGGCGTTAGCAGCTAAATATATGGGATATCGTATTGCAGTGCTTGACCCAACTGCTGATTGTCCGACAGCGCAGGTTGCTGATCATTCGATTGTTGCCCACTATGACGATATGGATGCAATCAAAGAATTAGCGAATGTATCGGATGTTGTTACGTACGAGTTTGAAAATGTGAATTTACAAGCGGCGGCATTTTTAGAACAACAAGATAAGCTCCCACAAGGCGCTTATGCCTTAGAAGTGACGCAAAATCGTGAAAAAGAAAAAACAGTGATGCGCGAGCTTGATTTACCAGTAGCCGATTTTGTTATTGTGAGAAATGGGGAGGAATGTTTACGAGCGTTACAAGATGTTTCCTTTCCTGCAGTGATTAAAACGTGTAGTGGGGGATATGATGGCAAAGGTCAGTTAAAAATAGAGGATGAATCAGACATTGATACAGCTTGTCAGTTTGCTGATAAGCACCGACATTGTATTATAGAGCAGTGGGTACGTTTTGATAAAGAGATATCCGTCATTTTTACACGTTCGCAGGCTGGGGAAATTACTTTTTTCCCTATTGCAGAAAATGAACATCGTCAGCATATTTTACACCAGACGTCTGTACCAGCTACGGTTTCGACAGAAGTAGAGAAGCTTGCGATCCAGGCGGTAGAAAAGCTGGCGCATCATATGCATATTGTTGGAACCTTTGCGGTGGAACTATTTGTCCAAGGTGACTCTATTTATATGAACGAATTGGCACCACGACCACATAATTCGGGACATTATACGATAGAAGCATGCAATGTTTCCCAATTTATGCAACATATTCGTGCGATTTGTGGAATGTCGTTACTAGAAGTAAACCTTCTACAATCTGCTATCATGGTCAATGTTTTAGGGCAAGATCTAGGGCATGTTATGCAGTGCTTACCGAAAGCAACAGCAGGCTTTGTTCATTTGTATGGAAAAGAAGCAGCGAAACCCCAAAGGAAAATGGGGCATATTACTTTTACTAGCGATACGCTAGAGAACGTACACCAGCAGATGAAGACATTTTGGGAGGCAAAATAG MQKNNLILPPKTIGIIGGGQLGRMMALAAKYMGYRIAVLDPTADCPTAQVADHSIVAHYDDMDAIKELANVSDVVTYEFENVNLQAAAFLEQQDKLPQGAYALEVTQNREKEKTVMRELDLPVADFVIVRNGEECLRALQDVSFPAVIKTCSGGYDGKGQLKIEDESDIDTACQFADKHRHCIIEQWVRFDKEISVIFTRSQAGEITFFPIAENEHRQHILHQTSVPATVSTEVEKLAIQAVEKLAHHMHIVGTFAVELFVQGDSIYMNELAPRPHNSGHYTIEACNVSQFMQHIRAICGMSLLEVNLLQSAIMVNVLGQDLGHVMQCLPKATAGFVHLYGKEAAKPQRKMGHITFTSDTLENVHQQMKTFWEAK PGPT0021550_2372 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589 NA NA AK015_01157 486 purE COG0041 N5-carboxyaminoimidazole ribonucleotide mutase ATGATAGGGGTAATTATGGGCAGTATTTCTGATTGGGAAACGATGAAGCATGCTTGTGATGTATTAGATCAACTGCAACTTCCATATGAAAAGGAAATTATGTCAGCTCATAGGACACCAGACGATATGTTTGCCTATGCCAAATCAGCTAGGGAGCGAGGGATCAAAGTAATTATTGCTGGTGCTGGGGGTGCAGCTCATTTACCAGGAATGGTAGCATCACAAACGAATTTGCCTGTCATCGGAGTTCCGGTTCAGAGCAAAGCGTTACAAGGGCTTGATTCGCTTTTATCGATTGTACAAATGCCAGGTGGTGTTCCGACAGCAACGGTTGCGATTGGAAAAGCTGGAGCGAAAAATGCAGGGATACTTGCAGCACAAATGATAGGTGCGTTTGATGACAAAGTAGCTAATAGATTGGAAGATTTTCGCAATGATATGAAGCAGGCTGTTGCAGAAATGAGGGATGAACTTGCAAAAAAATAA MIGVIMGSISDWETMKHACDVLDQLQLPYEKEIMSAHRTPDDMFAYAKSARERGIKVIIAGAGGAAHLPGMVASQTNLPVIGVPVQSKALQGLDSLLSIVQMPGGVPTATVAIGKAGAKNAGILAAQMIGAFDDKVANRLEDFRNDMKQAVAEMRDELAKK PGPT0021545_3717 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588 NA NA AK015_01158 108 hypothetical protein ATGGTTGCTGTCGATAAAGACTTGGTAACGGTTTTTAGGAAATTAGTTGACGCAAAGATCATTACATGTAATTGGTTTATGTTATTTATTCAAGGAATTATCGCATAA MVAVDKDLVTVFRKLVDAKIITCNWFMLFIQGIIA NA NA NA NA NA AK015_01160 618 hypothetical protein ATGTTGTTAAGTAATGCCATCGTAATGGTCGTTATTATTTTAGTTATTAATATCGTATACGTATCCTTATCTACTGTACGCATGATTTTAACGTTAAAAGGAAGGCGTTACATTGCTGCCTTCGTTAGTATGTTTGAAATTGTTATTTATGTACTTGGTCTCGGGCTTGTACTAGATAACTTAAATGAAATTCAAAATTTAATTGCTTATGCCATTGGTTTTGGAATTGGTGTTATCTGTGGTTCCATAATTGAAGAAAAGCTAGCGCTAGGATATATTACCGTCAATGTGATTTCATCAAATCCAGATATCGCGTTTACGAAACAACTACGGGATAAAGGGTATGGTGTGACAAGTTGGTTTGCTTACGGGATGGAAGGTGATCGTTTATCTATGCAAATCTTAACCCCTCGTAAGTATGAGTTGAAACTCTATGAAACCATTAAACAAATTGATCCGAAAGCGTTTATCATTGCTTATGAACCGAAGCAAATACATGGCGGATTTTGGGTGAAACAAGTGCGAAAAGGTCGGTTAATGAATCCGAAAAAACGTACGGAAGAAGAGAGAAAACACCAGCAGGTAAAAGCAGATGACCAAGGAGAAGTACACAAATAA MLLSNAIVMVVIILVINIVYVSLSTVRMILTLKGRRYIAAFVSMFEIVIYVLGLGLVLDNLNEIQNLIAYAIGFGIGVICGSIIEEKLALGYITVNVISSNPDIAFTKQLRDKGYGVTSWFAYGMEGDRLSMQILTPRKYELKLYETIKQIDPKAFIIAYEPKQIHGGFWVKQVRKGRLMNPKKRTEEERKHQQVKADDQGEVHK NA NA NA NA NA AK015_01161 435 hypothetical protein ATGGATCCTTTTCAGCAAATGTCCGATTGGAAAAAGAACATGGATCATTTTTTCGGTGATAGTTTTTGGAACGAGTTTGAAGGTCTTATAAAACCTACAATACCACAAATAAACATCTATCAAACCGACCATGAATTATTTTGTATTGCAAGTGTTCCCGGAATAAGTGATTTGGATAAGCTCGATGTATATGTAGACTATACTACATTGGAATTAAAAGGTTCCATTGATATTGACCATTCTTACGGAACAGTAGTTAAAGAAGAAATACTACATGGCGTATTTGAAAGAAAAATAGCGCTTCCCTTTCCTGTTCGCTCCGATAAAATAAAAGCAACTTACAAAAATGGACTTGTCTATATCCAATTGCATCGCCTTATTTCCGAAACAAGCAGAAAAAATCGCGTTCATGTTCATGTATTGGAAGATTCCTAA MDPFQQMSDWKKNMDHFFGDSFWNEFEGLIKPTIPQINIYQTDHELFCIASVPGISDLDKLDVYVDYTTLELKGSIDIDHSYGTVVKEEILHGVFERKIALPFPVRSDKIKATYKNGLVYIQLHRLISETSRKNRVHVHVLEDS PGPT0014635_6413 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK015_01162 663 yiiM COG2258 Protein YiiM ATGGCAGAACCATATATTCATAAATTATTTCATAGAAAAAAACTAGATCAGCAAAATCAAGAAGGAAAGGAGTCTATGGCTTATGTAAATGAAGAGGTGAAAGGTTCTATTTATGTAACAGAACAAGGATTAACGTTGGAGAAAGATGCAGACAAAGCATTGTTTGTTTACCCGTGGAAACATTATTATGATTGGGCTGACGTCTATGAATTAGACACGATGCAAATAGGAGATATTGGAGAAAATCTATCTGTCTTAGAAATGGATGAGTACGCTGTGTCCCTTGGGGATACCTTTCAATTAGGGGAGGCGATCGTTCAAATTAGCCAACCTTATTTACCATCTTGGAAGTTAGCTAGGCGTTTGCAAATAGATGATTTTGCATTACAAATGCAACACAGTGGTCGTACAGGGTGGTATTTTCGCATTCTTCAAGCAGGGAATATACAAGCAGAACAAGATATGGAATTAATCGATCGCCCTTACCCGCAATGGTCGATTGCTGCATGCAATGAGGCAATGCACAAGTTTAAAGAAGATTTACGCTTAGCAGACGATTTATTACAGTGTGACGTGCTAGGAAAAACATGGGAAAATATGCTAAAAAAACGATTGCGGGGCATTCCGTTACGAACTAAAAGGCGTCTATTTGGCCCTGAATAA MAEPYIHKLFHRKKLDQQNQEGKESMAYVNEEVKGSIYVTEQGLTLEKDADKALFVYPWKHYYDWADVYELDTMQIGDIGENLSVLEMDEYAVSLGDTFQLGEAIVQISQPYLPSWKLARRLQIDDFALQMQHSGRTGWYFRILQAGNIQAEQDMELIDRPYPQWSIAACNEAMHKFKEDLRLADDLLQCDVLGKTWENMLKKRLRGIPLRTKRRLFGPE NA NA NA NA NA AK015_01163 525 msrA COG0225 Peptide methionine sulfoxide reductase MsrA ATGAAGAAAAAACAACGAGCAACCTTTGCTGGCGGATGCTTTTGGTGTATGGTAAAGCCATTTGACCAATGGGATGGAGTAGACAGTGTTATTTCTGGATATACAGGTGGGCATATGGAAAACCCAACATATGAAGAAGTAAAACAAGGCAAAACCGGGCACTATGAAGCAGTTGAAATTACTTACGATCCGGATGTTTTATCCTATGAAACCATCTTGAACATATATTGGCAACAAATTGACCCTACGGATGACGGCGGGCAATTCCATGATCGAGGCGACTCCTATCGAACTGCTGTATTTTACCATAATGAAGACCAAAAAAAAGAGGCAGAGTCCTCAAAATTACAACTTGAAGAAAGCGGAAGATTTTCTAAACCGATTGTTACGCAAATTTTGCCAGCTACGACTTTTTATCCAGCTGAAGCATACCACCAAAACTTTTATCAAAAAAATACAGATACCTACGAAGAAGATCGTGCCAAATCTGGTAGGGATGCGTTTATTAAACAAGTGTGGAGATAA MKKKQRATFAGGCFWCMVKPFDQWDGVDSVISGYTGGHMENPTYEEVKQGKTGHYEAVEITYDPDVLSYETILNIYWQQIDPTDDGGQFHDRGDSYRTAVFYHNEDQKKEAESSKLQLEESGRFSKPIVTQILPATTFYPAEAYHQNFYQKNTDTYEEDRAKSGRDAFIKQVWR PGPT0013065_5004 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304 NA NA AK015_01164 1173 hypothetical protein TTGTCTAATCAATCATCGTTAACACCTTTAAAAATGTTATTATTTGCTTTCCATGCTACGAATACGATTATTCTTAGTTATTTACCCTTGTACTTGAAATACAAAGGCTTGGATGGTACAGAAATTGGTTATGTACTAGCAGTTGGTCCTTTAGCCTCTATTGTAGCGCAACCGTTTTGGGGATATATGAGTGATAAATACAAAACGGTAAAACGTGTTATTCAAGTCTGTCTCATCGGCTTACTAGTCATGAGTGTGATCTTTTTTCAAATGAATACACTACTACCAATACTAATTGTTGGAGCTGTATTTTATTTTTTCGTAACTCCTATTGGCGCATTAGGAGATAGTCTTGCACAACGAAGAGCCCATGATCTTGGCGTTTCATTCGGAACGATACGTTTATGGGGATCGATTGGTTTTGCTACTTCTTCGCTTGTTATTGGAGAAATCCTTACAAGAGCCGGCATTCAGTATATGATTATTCCTTACTTATTTTTCGGGGTATTGGCATTTATTGTTAGTTTTAAGCTAGTGGACGTTAACGTAACGTCAGAGCCTGTAAAATTAAGGGATGTCAGTTTGCTCATTAAGAGTAAACCTTTTCTTATTTTTCTTTTCTTCATCATGTTTTTAAGTGTGACGCACCGAGCAAATGATAGTTTTATTGGTTTGTATATTGAGCAACTAGGTGGAAGTGAAGGTTTAGTTGGAGTGGCTTGGTTTGTCGGTGTGCTTACGGAGGCTCTTGTATTCGCTACTGCTGGATACTGGTTCAGAAAGTATCACCCGCTCGTGTTCGTTATTATTGCTGGGATTTTATATAGTATTCGCTGGTTTATTTATGGAGCAGCAGATAACCCTTGGTATATTATTAGTTTACAGTTCTTGCACGGTTTAACTTTTGGTACGTTCTATTTAGCTTCGTTTAATTATATATCACGACTTGTTCCTAAAATATTACAATCAACTGGACATCTTGTTTTCTTTGCAACATTCTTTGGTGTATCGGGGATTATTGGTTCCTTAATTGGAGGTGCCATGATTGATTCCTTTGGCGGGAATGCCTTATACAATTTCATGGGAGTCATTGCTTTTATTGGTACCATTTTAATTACAATTTACCACTTGCTTCCATACGGAAAAGAAACTTATATACATGACAAAGCTTAG MSNQSSLTPLKMLLFAFHATNTIILSYLPLYLKYKGLDGTEIGYVLAVGPLASIVAQPFWGYMSDKYKTVKRVIQVCLIGLLVMSVIFFQMNTLLPILIVGAVFYFFVTPIGALGDSLAQRRAHDLGVSFGTIRLWGSIGFATSSLVIGEILTRAGIQYMIIPYLFFGVLAFIVSFKLVDVNVTSEPVKLRDVSLLIKSKPFLIFLFFIMFLSVTHRANDSFIGLYIEQLGGSEGLVGVAWFVGVLTEALVFATAGYWFRKYHPLVFVIIAGILYSIRWFIYGAADNPWYIISLQFLHGLTFGTFYLASFNYISRLVPKILQSTGHLVFFATFFGVSGIIGSLIGGAMIDSFGGNALYNFMGVIAFIGTILITIYHLLPYGKETYIHDKA PGPT0028051_682 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 AK015_01165 1677 hypothetical protein TTGCATACAAAAACGATACCGAATAAAGCGAAACAGCTGGAAAACAGCGCTATACATAAAAAGCTAATGGGAATAACAGAAGAGACACTAGATTTAGTAAGACAAGCCGCACCCATCCTATCATCACATAAGCAAGAATGTATTTCTGTCGTTTACAATTATCTTGAATCTATTACAGACCAAAATAAACAATCCATATCACAGCAACAATTAGAAACCATTGTTGCAGAGTATGTAGAAGAGCTATTAAAAGCAACAGTGGATGATAATTACGTACGCTCTCGTATAGAAATAGGTAAACAACTCAGTCAGTTACATATAACTGTGGAACAATACATTGTTGTCCACCATTTACTTACTCATCACATCATTTCCTTATTACTAGAACAACCACGCCGCAAACAAAAACAAACGATACTATTGTCGCTCGCTATACAAAAATTGACTGCCTTAGATCAGCAACTTATCGTACAAGCACATATCGAAGAAACATTTAAATCCTTTCTAGGTCAAATTTCAGAGTTACTTCATGGTGTGACGACGTTAGATTCAACAGAGCAATTAATTAACCAAATGGAAAGCATTGTCGAAGAGAGCCACAATGTAACATCTGCTACTGAAGAAGTCAGTGCTTCTGTTAACGAAGTAGCTGAACATGCTACAAAGGTGGCTGAAGAGACAGATGAAGCTGTTGTTTCTGTAAATAAAAGTAAACAAGTAATCCATGGAGCACTTGAAGATATGAACCAAATGGGCGAGGTTTATAAAGAGGTCGCCTCACAAATAAGAAGTTTAAATGAAGAAATAAAGCAAACCCATTCTTTTGTAAATGTCATTGAAGATATTACGGAGCAAACAAGCTTACTCGCTTTAAATGCAAGTATCGAAGCTGCACGCGCAGGTGAACATGGGAAAGGTTTTTCCGTCGTCGCTCAAGAAGTTCGCAAACTGGCAGAACATACAAAAGAACAAACAATACAAATTAAGCAAAATATGGAGTCACTACAACAAGTAGCTAGCGATGTTACAACTGAAATGGATAACACCGAAACACGTATGCAACTTACAGTGTCAGAATCACAAACTGGCGAGCAAGAACTGGAGCATATCATAGCAGCTATACAGGCCATTAACGGTTCCACCTCACAAATTGCGGCGATGACAGAAGAACAAACATCAGCAGTAACCGAAATTGCTGATCGAAACGCGGCTATGTTTGACATGGGGAATGCAACTCAAGATGTCGCAAAAGAAACAGCCAAAATCATTTTAGAGTTAAGCAAACAGATGGATGCATATCGCCTGACATTTTTTGATAGTATTCGTTTTCACGCAAAAGATATATTAAAAGCAGCAAAAACCGATCATTTGCTTTGGAAATGGCGTGTATATAACATGCTACTTGATTTAGAAGAAATTGATTCTAACCAAGTCGCTTCGCATAAAGCATGCCGTCTCGGTGAGTGGTATTATGGAAATTTACCGTCTTATCTTAAAGAAAATTCTATCTTTCAGCAATTGGAAGAGCCACATCGCCTAGTACATCATTATGCAAAGTTAGCCGTTCAAAGCTATGAACAAGGAGAACGCACAGAAGCAAAAAGCTATTTCAAGCAACTTGCTACTGCTTCCGATGAAGTCTTACGTCTTTTAACACAGCTAGAACAAGCAATTTGA MHTKTIPNKAKQLENSAIHKKLMGITEETLDLVRQAAPILSSHKQECISVVYNYLESITDQNKQSISQQQLETIVAEYVEELLKATVDDNYVRSRIEIGKQLSQLHITVEQYIVVHHLLTHHIISLLLEQPRRKQKQTILLSLAIQKLTALDQQLIVQAHIEETFKSFLGQISELLHGVTTLDSTEQLINQMESIVEESHNVTSATEEVSASVNEVAEHATKVAEETDEAVVSVNKSKQVIHGALEDMNQMGEVYKEVASQIRSLNEEIKQTHSFVNVIEDITEQTSLLALNASIEAARAGEHGKGFSVVAQEVRKLAEHTKEQTIQIKQNMESLQQVASDVTTEMDNTETRMQLTVSESQTGEQELEHIIAAIQAINGSTSQIAAMTEEQTSAVTEIADRNAAMFDMGNATQDVAKETAKIILELSKQMDAYRLTFFDSIRFHAKDILKAAKTDHLLWKWRVYNMLLDLEEIDSNQVASHKACRLGEWYYGNLPSYLKENSIFQQLEEPHRLVHHYAKLAVQSYEQGERTEAKSYFKQLATASDEVLRLLTQLEQAI PGPT0015710_18057 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 AK015_01166 1335 pbuG COG2252 Guanine/hypoxanthine permease PbuG ATGAAAAAGTATTTTAGGTTTGAAGAACTTGGGACGAATTACCGTACTGAGTTTATGGCGGGGTTAACAACCTTTCTAGCAATGGCTTATATTTTATTCGTTAATCCGTCCACATTAGCATTAGTCGGCATTGAAAATCTGCCTAATGGAGTGACTCGTATGGATCAGGACGCTGTATTTGCTGCAACAGCAATTGCTGCAGCGATTGGTTCCTTATTTATGGGTCTGATTGCAAAATATCCGATTGCACTAGCACCGGGGATGGGATTAAATGCATTTTTTGCTTATACAGTAGTATTAGGATATGGCATACCTTGGGAAACAGCCCTAAGTGGCGTATTGGCTTCCGGACTTATTTTTATTGTGTTAACACTAACTGGGCTACGTGAAAAAATTATTAATGCTATTCCAGCTAATTTAAAAATGGCTGTAGGTGCAGGGATTGGCTTTTTCATCGCTTTTATTGGCTTCCAAAACTCTGGTATCATTGTAGCCAATGAAGCGACATTACTTGGGTTAGGTGATTTAACTTCACCAACCGTACTTTTAGCTGTTTTTGGCTTAGTGATATCGATTATTTTAATGACGGTTGGCATTCGTGGTGGTATTTTTTACGGAATGATTATTACTGCTATCGTCGGAATGGTTGTTGGTTTAATTACCCCGCCATCAGGCGTGGATGGGATTGTAAGCAATGTTCCTAGCTTGGCACCTACCTTTGGACAAGCGTTGGTGAATTTTGGTGATATTTTTACATTGCAAATGCTGGTCGTTATTTTAACGTTCTTATTTGTTGATTTCTTTGATACGGCAGGCACATTAGTTGCCGTTGCGAACCAAGCAGGGCTTATGAAGGATAATAAGCTACCACGGGCTGGCAAAGCCTTGTTTGCTGACTCGGCAGCTACAGTAGCGGGTGCAACACTAGGTACCTCGACAACGACAGCTTATGTGGAATCAACGGCTGGAGTTGGAGCTGGTGGACGAACTGGGTTTACAGCAGTTGTTACGGCTATGTTTTTTTTACTTGCACTATTCTTTTCTCCGTTATTAAGTGTCATAACAGCAGAAGTAACGGCCCCTGCATTAATCATCGTTGGTGTATTAATGTCTTCTGCTTTAAAGAATATTGAATGGGATCAATTTGAAATTGCTGTTCCGGCATTTTTGATTGTCATTGCGATGCCACTGACATATAGTATCGCGACAGGAATTGCCATTGGATTTATCTTCTATCCGATTACGATGCTGTTAAAAGGGCGAGCTAAAGAAGTTCACCCGGTTATGTATTTCTTGTTTGTGATATTTGTATTATATTTTATTTTCTTAAGTTAG MKKYFRFEELGTNYRTEFMAGLTTFLAMAYILFVNPSTLALVGIENLPNGVTRMDQDAVFAATAIAAAIGSLFMGLIAKYPIALAPGMGLNAFFAYTVVLGYGIPWETALSGVLASGLIFIVLTLTGLREKIINAIPANLKMAVGAGIGFFIAFIGFQNSGIIVANEATLLGLGDLTSPTVLLAVFGLVISIILMTVGIRGGIFYGMIITAIVGMVVGLITPPSGVDGIVSNVPSLAPTFGQALVNFGDIFTLQMLVVILTFLFVDFFDTAGTLVAVANQAGLMKDNKLPRAGKALFADSAATVAGATLGTSTTTAYVESTAGVGAGGRTGFTAVVTAMFFLLALFFSPLLSVITAEVTAPALIIVGVLMSSALKNIEWDQFEIAVPAFLIVIAMPLTYSIATGIAIGFIFYPITMLLKGRAKEVHPVMYFLFVIFVLYFIFLS PGPT0007325_3547 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 AK015_01168 1161 znuA_1 COG0803 High-affinity zinc uptake system binding-protein ZnuA ATGTTCAAAAAGTATAAAGGTGTATTCATTTTATTTTTGCTAATTTTCGTAATAACTGCATGTTCCCAAGGCGAGGAAGCCAAAAAAAGTAAAGCAAGTGACGACTCCAAGAGTTCAGATAAAGATATAACTTTGTTTACTACTGTGTACCCTCTTCAGTATTTTGCTGAACAAATTGCAGGGGATGAAGCTATCGTAGAATCCATTTTACCGCCGGGGTCAAATCCTCATAATTATGAACCAAGCTCAAAAGAAATAGTACAAATTGCTGAAGCAGATGCTTTTATCTATAACGGAGCAGGCTTAGAACCTTATGCCAAACAAATCTCAGATACGATACAATCGGAAGACATAAAAATAGTGGAAGCTTCAAAAGGGATAGATTTTATAGAGCATGCTCACGAACATGGGGAAGAAGATAGTCATGCTCATGACCATGAAGGTGATGCAGAAGAAAGCAATCATGACCATGAAAGTGATGAAGGTAGTAATCATGCGCATGAGGGGGAAGATGACCACACTGATGAAGACGAACATGCTGGACATGACCATGGGGATAAAGATCCGCATGTTTGGTTAGATCCAATCCGTTCTATCCAGTTAGCTGAGAAGATAAAGGATGTGCTTGTAGAACTTCAACCTGATTCTAAAGAGACATTTAATAGAAACTTTTCTGAGCTAAAAGGAAAACTTGAAAACCTAGATAAAGCGTTTCGAGACAAACTTCAGGATTTACCAGGAAATGAGATTATTGTATCGCATGCTGCTTACGGATATTGGGAGCATTCTTATCATCTTAAGCAAATTCCTATATCTGGCTTAAGTCCAACAAATGAGCCGTCGCAAAAAGAGTTGAAAAATATTGTAGAAACTGCGGAGAACCATGGATTGAAATATGTGTTCTTTGAGCAGAATGTAACGCCTAAAGTAGCAGATGTTGTTCGCGAGGAAGTGAATGCAGAAGCTTTACGTATCCATAATTTATCTGTTTTAACAGAAGAAGATTTAGAGAAGGATGAAGACTACTTTACGCTTATGCAATCTAATTTAGAGGCTTTAACAAAAGCATTATCGGACCCTACGGCAGTTTCTGATGAACCTGGCAAAGTGGAAGAGAACGAACATGAGCATCACGATCATAGTCATGCTCATGATGAATAA MFKKYKGVFILFLLIFVITACSQGEEAKKSKASDDSKSSDKDITLFTTVYPLQYFAEQIAGDEAIVESILPPGSNPHNYEPSSKEIVQIAEADAFIYNGAGLEPYAKQISDTIQSEDIKIVEASKGIDFIEHAHEHGEEDSHAHDHEGDAEESNHDHESDEGSNHAHEGEDDHTDEDEHAGHDHGDKDPHVWLDPIRSIQLAEKIKDVLVELQPDSKETFNRNFSELKGKLENLDKAFRDKLQDLPGNEIIVSHAAYGYWEHSYHLKQIPISGLSPTNEPSQKELKNIVETAENHGLKYVFFEQNVTPKVADVVREEVNAEALRIHNLSVLTEEDLEKDEDYFTLMQSNLEALTKALSDPTAVSDEPGKVEENEHEHHDHSHAHDE PGPT0004220_299 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815 NA NA AK015_01169 300 czrA_1 COG0640 HTH-type transcriptional repressor CzrA ATGAACGATAAAGAAATGATCCACAACTCTGCTCGTTTGTTTAAAATCTTAGGAGACGAAACAAGGCTCTCTATACTTCATTTACTTTCTAAAGCAGAAGCTAATGTTTCAACCATTGTAAACCATATTGGTATTGAACAATCAAATGCTTCCCATCAATTAAAAATATTAAAAGACCATCGTTTAATCCAATCAAGAAGAGAAGGAAAATCAGTCGTTTATTTTCCAGACGATAATCACATTTATGAAATTTTAGATCAAGTATTCGCTCATATCAAAGAAGATACGGATACTGAATAA MNDKEMIHNSARLFKILGDETRLSILHLLSKAEANVSTIVNHIGIEQSNASHQLKILKDHRLIQSRREGKSVVYFPDDNHIYEILDQVFAHIKEDTDTE PGPT0004305_343 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043 NA NA AK015_01170 1944 zosA_1 COG2217 Zinc-transporting ATPase ATGAAAAAAAATCACGCACATCATCATCATAACGATGAACACAGCCACACTCACGATCATGATCATGGGAAAGCACCAATTATTCTTTATTTTATTGGCTTGATCGTGGCAATTATCGCTTTATTTCTAAACGATGATTATCTATTGCTGCAAAATATTCTTTTTTCGATTGCGACAATCATCGCAGGGTACCATGTCGTTATTATTGAAGGTATCGGTGAGACAATTGAAAATACGAAACATAAAAGAAGATTTACACCGAATTCCCACATCCTCATGGGGTTAGCTGCTTTAGGTGCATCCTTATTGGGCGAATTTTGGGAAGGGACATTATTGATTCTTATTTTCTCTGGTGCGCATTTTCTAGAAGATTATGCTGAAGGACGGAGTAAAAGAGAAATCACCAAATTACTTGAAATGAACCCAACCACTGCGCGATTAATGGATGATAGTGGGAATACCACCTTCGTTGAAGTTAGCGACTTAAAAGTTGGAGACCGTTTACAAGTATTAAATGGGGATCAAGTACCTATTGATGGAAAAATATTATCTGGTAGCACTTCTATTGATGAATCATCCATAAACGGTGAAAGTATACCTAAAGAAAAGTCAAAAGGTGACGAAGTATTTGGCAGTACCATCAACGGAACAGGAACTTTCACTATGGAAGTAACAAAAGAAGAGAAAGACACGGTTTTCTCAAAAATTCTGCAACTCGTAAATCAAAACCAAAGTAATCAAACAAAAGCTGCTAGTATTATTCAAAAATTCGAGCCAAAGTATGTTAATTTCGTTTTAATTGCCATACTGTTAGTTATAGTAATGGCACCATTCCTATTGGATTGGTCATGGTATGAAAGTACCTATCGAGGACTTGTCTTATTAGTAGCATCGGCACCGTGTGCACTTGCTGCTGCAACTGTGTCAGTCACACTGTCCGCTACGTCAAACCTCGCCAAACGTGGTGTACTTTCAAAAGGAGCGTCTTATCTCTCACAACTCGCAAATATTAATGCCATCGCTTTTGATAAAACAGGCACTTTAACAAGAGGAAAACCGCAAGTTACCAATTACTTCTTCTCAGACTCCATAGATGGAACATACATCATTGATATTGTAGTTGCTCTAGAAAGAGGATCTAACCACCCTTTAGCTAACGCAATTTTAGATAAATTTACTGCTCAAAATAAACTAGACATTGACATCACAAATCAAATTGGTAAAGGGTTAACCGGAGATTATAATCAAAATAATTATCGCATTGGGAAACCAACTTCTTTTCATAATGTACCAAATGACATCGCAGATTTAAATGATGAATGGGCCTCTGAAGGTAAGACAGTCGTATATGTAGCTGAAAATGAAAAAGTAATTGGGATTATTGCTTTAATGGATATTCCTAATAAAGAAGCGAAAAAAACAATTGATTACTTCAAAAGCCTCCATATCCACACCACTCTTATTACGGGTGATTCTGAAATGACAGGTAAAGCCGTTGCGAAAAAGCTAGGTATAGATGAAGTCATTGCGAATGTTATGCCAGATGATAAAGCGAACATCATTAACTCGCAGAAAGAAAACTATGGAGTTGTCGGTATGGTTGGTGACGGTGTGAATGATGCACCTGCTTTAGTTAACGCCGATGTTGGTATTGCGATGGGCGATGGGACGGATGTTGCAGTAGAAGTATCTGATTTAGCTTTAATGAAAAACGATCTATCGAAACTCGTAAATGCTCACCGCATTTCTAGAAAAATGAACCGGGTGATTTGGCAAAACATTATATTTTCCATGTCAGTTGTTGCCTTTTTAGTTGTGGTGAGTTTTCTTGGATTAACGGATATCGCAATTAGTGTCATCATCCATGAAGGCAGTACTTTAGTCGTCATTTTAAATGGACTTCGCTTATTGCGCTCCAAAAATAATGTATTACTTACGGACTGA MKKNHAHHHHNDEHSHTHDHDHGKAPIILYFIGLIVAIIALFLNDDYLLLQNILFSIATIIAGYHVVIIEGIGETIENTKHKRRFTPNSHILMGLAALGASLLGEFWEGTLLILIFSGAHFLEDYAEGRSKREITKLLEMNPTTARLMDDSGNTTFVEVSDLKVGDRLQVLNGDQVPIDGKILSGSTSIDESSINGESIPKEKSKGDEVFGSTINGTGTFTMEVTKEEKDTVFSKILQLVNQNQSNQTKAASIIQKFEPKYVNFVLIAILLVIVMAPFLLDWSWYESTYRGLVLLVASAPCALAAATVSVTLSATSNLAKRGVLSKGASYLSQLANINAIAFDKTGTLTRGKPQVTNYFFSDSIDGTYIIDIVVALERGSNHPLANAILDKFTAQNKLDIDITNQIGKGLTGDYNQNNYRIGKPTSFHNVPNDIADLNDEWASEGKTVVYVAENEKVIGIIALMDIPNKEAKKTIDYFKSLHIHTTLITGDSEMTGKAVAKKLGIDEVIANVMPDDKANIINSQKENYGVVGMVGDGVNDAPALVNADVGIAMGDGTDVAVEVSDLALMKNDLSKLVNAHRISRKMNRVIWQNIIFSMSVVAFLVVVSFLGLTDIAISVIIHEGSTLVVILNGLRLLRSKNNVLLTD PGPT0004200_3430 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534 NA NA AK015_01171 1536 guaA GMP synthase [glutamine-hydrolyzing] ATGAAGACAAATGAAATGATTTTAGTATTGGATTTTGGTAGCCAATACAATCAATTAATTACACGACGAATCAGAGAATTTGGCGTGTATAGTGAGTTGCACTCTCATAAGTTAACAGCTCAAGAAATTAAGGAAATAAACCCGACAGGTATTATTCTTTCTGGAGGGCCACATAGCGTATATGATGAAAATAGCTTCCGCTGTGATCCCGCAATTTTTGATTTAGGTATCCCAGTATTAGGAATTTGCTATGGCATGCAATTAATGGCCTTACATTTTGAAGGCAAAGTAGAAAAGGCTAAAAACCGTGAATACGGAAAAGCGGAAATGGACGTTCAAGGAGAACCAACGCTCTTTGCAGGTACACCAAAGCAGCAAACTGTATGGATGAGTCATGGGGATAAAGTGGTAGAAGCTCCAGCATCTTTCCAAGTAGATGCAACAAGTCCTTCGACACCTATTGCAGCTATTAGTAATCAGGAACAAGGGCTGTATGGTGTACAGTACCATCCGGAGGTACGTCATTCCGAGTATGGAAATGATGTGTTAAAGCAGTTTGTCTTTGCGGTGTGTGGCAGTAAGGGTGACTGGACGATTGAGAATTTCATTGACATGGAAGTGAAGAAAATCCAAGAAAAAGTCGGCGACCGAAACGTATTATGTGCTTTAAGTGGTGGCGTTGATTCCTCTGTTGTTGCAGCACTTATTCATAAAGCAATTGGCGATCAGTTAACTTGTATTTTTGTCGATCACGGGTTGCTTCGTAAAAATGAAGCTGATGATGTGATGAAAGTATTTGCGGATGATTTTCATATGAATATTATTAAGATTGATGCTAAGGATCGTTTCTTAACGAAATTAAAAGGTGTCGACGATCCAGAGAAGAAGCGTAAGATTATCGGAAATGAATTTATTTACGTGTTCGATGATGAAGCAGCGAAGCTTAAAAATATGGACTTTCTAGCGCAAGGAACGCTCTACACAGATATTATTGAAAGTGGAACAGAAACAGCTCAGACGATAAAATCACATCATAATGTTGGTGGCCTTCCTGAAAATATGCAGTTTGAATTAATCGAGCCGTTAAACACATTGTTTAAAGATGAAGTTCGTGAATTAGGAACACAGCTAGGTATACCTGAGCGTATCGTTTGGCGTCAGCCTTTCCCTGGCCCGGGACTTGCTATTCGTGTACTAGGGGAAGTAACGGAAGAAAAATTAGAGATTGTTCGTGAATCCGATGCAATTCTACGTGAGGAAATTGCGAAAGCTGGACTAGACCGTGATATATGGCAATACTTTACAGTGCTACCGAACATTCGCAGTGTCGGTGTCATGGGAGATGCCCGCACGTATGATTATACGATTGGTATCCGTGCAGTAACGTCCATTGATGGTATGACTTCCGATTGGGCGCGTATCCCTTGGGACGTCTTGGAGAAAATCTCAACTCGTCTCGTGAACGATGTAGCTCATATTAACCGTGTAGTGTATGATGTAACGAGCAAGCCACCTGCTACGATTGAGTGGGAATAG MKTNEMILVLDFGSQYNQLITRRIREFGVYSELHSHKLTAQEIKEINPTGIILSGGPHSVYDENSFRCDPAIFDLGIPVLGICYGMQLMALHFEGKVEKAKNREYGKAEMDVQGEPTLFAGTPKQQTVWMSHGDKVVEAPASFQVDATSPSTPIAAISNQEQGLYGVQYHPEVRHSEYGNDVLKQFVFAVCGSKGDWTIENFIDMEVKKIQEKVGDRNVLCALSGGVDSSVVAALIHKAIGDQLTCIFVDHGLLRKNEADDVMKVFADDFHMNIIKIDAKDRFLTKLKGVDDPEKKRKIIGNEFIYVFDDEAAKLKNMDFLAQGTLYTDIIESGTETAQTIKSHHNVGGLPENMQFELIEPLNTLFKDEVRELGTQLGIPERIVWRQPFPGPGLAIRVLGEVTEEKLEIVRESDAILREEIAKAGLDRDIWQYFTVLPNIRSVGVMGDARTYDYTIGIRAVTSIDGMTSDWARIPWDVLEKISTRLVNDVAHINRVVYDVTSKPPATIEWE PGPT0021580_4610 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951 NA NA AK015_01173 2196 hypothetical protein ATGAGTACGCAAAAGTCGAGTCCTGTTACTTTTTATACGTTGATTCTTTATATTTGCGGATTCATTTTATTTCTAGAATGGTTCTACCCATTGCAAGAAGTGACGGATACGACAAATATTAGTATGTTTATGCTTTACGGCGTTCTATGCTTTCTTCTTTCTTTTATGCAGGTTAGATGGTGGCTGTCGTTTATCTTGAAGGGGGCAGCATTACTATTCGTGGTAAATAGTCTATTTTTTACGACGAGTTTTTTAAACCCGTTATGGATAGGAGAGTTATTGCAAGATAGTATCTTAAATACGCAAGCATTGTTTAACAGAACATGGTATGAGTTCACGCCATTGTTTCGTAGTACGATGTTTCTTATTTTAATCTGGTTAATGAGCTACTTACTACATTATTGGTTTGTCATTAGAAAACGTGTCTTTATGTTCGTATTTCTGACGATTGCTTATTTGGCAGTGTTAGACACATTTACAGTTTATGATGGTACTGCTGCAATCATTAGATCCTTCATTATATCTTTGCTTGCTTTAGGGTTAGCCCACTTTATGAGAGAGATGGATCGAGAAGCGCTTCGTTTTACATTAGCTAAGAAATCTGCGGTTTGGTTGCTGCCATTAGTTGCGATTGTTTTATTTTCTTCAGCTGTTGGGTTAGCTGCACCAAAATTTTCTCCTCAATGGCCTGATCCCGTACCGTTTATTCAAAGCAGTGCAGAAAATGCAGGCTTCTCTGGAGAAGGAAATGGCGGAATTCAAAAGGTTGGCTACGGAGAAGATGACAGTAGATTAGGAGGTTCTTTCGTACAAGATTATACACCAGTATTTGAAGCGGAGGCCGATGAAGAACATTACTGGCGTGTAGAGACAAAAGATGTGTATACAGGAAAAGGATGGGAAAAGAGTCATGATTCTGCTTATACAGAATTGGGTAAAATACCACCAATGTTTCAAGAAAATGTTAATCTAGAAACAAAGAAAGCTACGATCGAATTTCAAGGTGATGAAGCACTTGATAAGCTCGTTTATCCGTACGGTTTCGATCATGTAGAGGCACCAGAAGGGGAGCCGTATTTTGATATGTCTTCGGAAGCAATTCAGTTAATGGATGATGCCAATGATCCGATTACATTAGAAAATTATACGGTTGATTATGGCTATCCTACTTTTCAAATTGAAGCTTTGCAACAAGCTTCCAGTTCAGATAACTCTATGGAAGCATATACGCAAATTCCAGAGACGCTTCCAGATCGAGTAATTGAATTGGCAAAAGATATTACTGCTGAAGAAGAGACGCAGTACGATAAAGCAAAGGCGATTGAAAGCTACTTCTCCAGCACCGATTTTACGTATCAAACGACAGATGTTCCTGTGCCTGAAGCAAACGAAGATTATGTGGATCAATTTTTATTCGATTCTAGGGCAGGATATTGTGATAATTTTTCCACCTCGATGGTTGTCATGTTACGTTCGCTGGATGTTCCTGCAAGATGGGCGAAAGGATTTACCGGTGGTGAATTAGTGGATGCGGGAAGTGAAAAAAACACCTATGAAATAACTAATTCCAATGCGCATTCATGGGTAGAAGTCTATTTTCCTGGTTCAGGATGGGTTCCATTTGAACCAACAAAGGGATTCTCGAATTTATCCGACTTTCAGAATGAGCCCATAAGTGGGGAAACGCAGCAACAAGATTCCTTGCAACAGTCGGAACAGGAGACAGAGGATGAGGAGCAGTCGGAAGAAACAACGCCTGAGGAGGAAAAAGAAGAGGAGTCCGAAGTCGCATCAGCTGCTGCATCTAACTCGGGGCCAACTGCCATGGAATGGATGTTGCCAACTGTTATCGGTATCGCGCTTTTACTCATTGTCTTCATTCTTGTTTACAGAAGTAGGCTTCGCTTGCAATCTAAATGGGTACGTCGTAAATTTACAGCGGATAATAATGTAGAAAATCAACAGGAGGCGTATCACTTTTTGATGAAAGTGTTACAAAAACAAGGGGAAGCAAAACGTCCTGGGGAAACATTACGAGAGTATGCAATGAAGATTGATAAAAAGTATGAAACGACAGATATGCAGAAGCTTACGGAGCATTATGAACGGCTCATTTACAGAGATGACGATAAGCTTGCTTCTAAAACAGAGGTGGCGCAATTATGGAAAAATTTAATAAAACGAATATTGTCTTGA MSTQKSSPVTFYTLILYICGFILFLEWFYPLQEVTDTTNISMFMLYGVLCFLLSFMQVRWWLSFILKGAALLFVVNSLFFTTSFLNPLWIGELLQDSILNTQALFNRTWYEFTPLFRSTMFLILIWLMSYLLHYWFVIRKRVFMFVFLTIAYLAVLDTFTVYDGTAAIIRSFIISLLALGLAHFMREMDREALRFTLAKKSAVWLLPLVAIVLFSSAVGLAAPKFSPQWPDPVPFIQSSAENAGFSGEGNGGIQKVGYGEDDSRLGGSFVQDYTPVFEAEADEEHYWRVETKDVYTGKGWEKSHDSAYTELGKIPPMFQENVNLETKKATIEFQGDEALDKLVYPYGFDHVEAPEGEPYFDMSSEAIQLMDDANDPITLENYTVDYGYPTFQIEALQQASSSDNSMEAYTQIPETLPDRVIELAKDITAEEETQYDKAKAIESYFSSTDFTYQTTDVPVPEANEDYVDQFLFDSRAGYCDNFSTSMVVMLRSLDVPARWAKGFTGGELVDAGSEKNTYEITNSNAHSWVEVYFPGSGWVPFEPTKGFSNLSDFQNEPISGETQQQDSLQQSEQETEDEEQSEETTPEEEKEEESEVASAAASNSGPTAMEWMLPTVIGIALLLIVFILVYRSRLRLQSKWVRRKFTADNNVENQQEAYHFLMKVLQKQGEAKRPGETLREYAMKIDKKYETTDMQKLTEHYERLIYRDDDKLASKTEVAQLWKNLIKRILS NA NA NA NA NA AK015_01174 1260 hypothetical protein ATGAAATACCGCTTTCGAATGATTGTAAGCAGTCTGTTTCTGATTACTATCCTTCTGCTGTTATTTTCGTATGCTATGTTTCAAGGCGGCTTTGTCAGTTGGTTTTTATTTTTTAGCTTTCTTCCTATATTGTTATACGAAGCAGTTGTTTTACTATATCCAATTCGCAAATGGCAGGTTAGTAGAAAGCTTTCCCATTATGTAACCGACGCTGGTGGAGCGGTTATCGTAAAGGTTAAAATAAAACGTCGTTTTCCATTTCCTTTATATTACTGCATCATAGAAGATATGTTAGCAGATTCATTGAAAAAGGTGGACAACGGTAAAGAAAAATATCAGTATATGCACCAAGCTGATCAACTGTTTATTGAACGGAGAATGAAACGGGTTCTGTTTCCAGGTTTTAAGCGAACATTTTCTTTTTCTTATCAGTTAGAACAAATTCCAAGAGGTATACATTCCTTTCAAAAGGTACGGATACGGACAGGAGATTTTTTTGGGCTTGTTAAAAAAGATCATATGTATGCTGTAAATGACTCGCTCGTTGTCTATCCAAATGCTCGCCGGCTCCTATTAGATGAACAAATGCGTAATCAGCAGGAAGGCAATGTACTCAGCTCATCGTTACGACTTAACAATGTCAATGTAGCGACAGGGATAAGGGAATATTTACCTGGAGATCGTGTGTCTTGGATTGACTGGAAGCAAACAGCAAGAAAAAATACGATGATGACAAAGGAGTTTGAGCAAGAAAGAGGAACGAGCAGAATCATTGTCCTAGAAGCTTGTAATATATCAAATCCGATTGTTTTTGAAGGAATGGTAGAAGTAACGTATGCTTTGCTTACTCATTTTAAGAAACAATCGGTGGAATCTGGATTACTTACCGTCGGAAAAGACACAAGTTTTTTTGCATCTATACATGCGCAAGGAGACTTTAATCGATTAATAGAACATATAACAAAACTACAGCCAAGTAAAAATGACATGTTTTCAATGGGCATTCAGAACCAATGGTCGAAGCTCGTTAGCGGGGGTACCCTTTTATTCGTTGTAGGAAATATGGATAAACCGTTCGTAGAGATGATGAAAAAGGTGAGACAAAGAGCGAAACATATATGCATTTTGTTTATTCAGCCTGCGCAACAACATACCCTTTCGGCTCCGTTTGTTCGTCAGTTACAAACTTTTGGAGTAGATGTATTTGAAATGACAGAGCGTGAATTAATGAAAAACCCGTTAGAGGTGAAAAAAATATGA MKYRFRMIVSSLFLITILLLLFSYAMFQGGFVSWFLFFSFLPILLYEAVVLLYPIRKWQVSRKLSHYVTDAGGAVIVKVKIKRRFPFPLYYCIIEDMLADSLKKVDNGKEKYQYMHQADQLFIERRMKRVLFPGFKRTFSFSYQLEQIPRGIHSFQKVRIRTGDFFGLVKKDHMYAVNDSLVVYPNARRLLLDEQMRNQQEGNVLSSSLRLNNVNVATGIREYLPGDRVSWIDWKQTARKNTMMTKEFEQERGTSRIIVLEACNISNPIVFEGMVEVTYALLTHFKKQSVESGLLTVGKDTSFFASIHAQGDFNRLIEHITKLQPSKNDMFSMGIQNQWSKLVSGGTLLFVVGNMDKPFVEMMKKVRQRAKHICILFIQPAQQHTLSAPFVRQLQTFGVDVFEMTERELMKNPLEVKKI NA NA NA NA NA AK015_01175 948 hypothetical protein ATGTCATATAATGTAAAAATAGAAAATGTTTTACAAAATATAAGAAAAGTAATGATCGGCAAAGAAGAACCTGCTGTTTTAAGTCTCGTTGCTTTATTAGCACAAGGGCATGTGCTATTAGAGGATGTACCAGGTGTTGGGAAAACCATGCTTGTAAAAACGTTGGCGAAGTCTTTAGATTGTGACTTTAGGAGAATACAATTTACCCCTGATTTATTACCTTCCGATGTTACAGGTGTATCCATTTTTAATCCAAAAACACTAGAGTTCGAATTTCGTGGTGGACCAATTCTCGGTAATATCATATTAGCAGATGAAATCAATCGAACTTCTCCAAAAACACAGTCCGCCCTGTTAGAAGCAATGGAAGAAAAACATGTCACTGTGGATGGTAATACGATTCCTCTAGCTCGCCCTTTTTTTGTCATGGCTACTCAAAATCCAATTGAATATGAAGGTACGTATCCATTGCCAGAAGCACAATTAGATCGATTTATTTTAAAATTAAACATGGGATATCCGACGTTTGTGGAGGAAATGGAAATGCTCACACGTACTTCGCAGGTGCATCCTATTGATTGTGTAGAAGCTGTGTTAACAAAACAAGAATTAGAACATATCCAAGATGAAGTAAAGCATGTGTATATCGATAAAAATGTGCAACATTATATTATTGATTTAGCAACAAGTACGAGAACACATCCGCAAATTTATTTAGGCGTCAGCCCAAGAGGGTCGATTGCTTTGATGAAAGCTGCAAAGGCATATGCCTTTATTTTAGGACGTGACTATGTTTTACCAGATGATGTGAAATATTTGGCTCCTTACGTTTTAGCACATCGAATCATCCTGCGCTCGGAAGCAAAATATAGTGGAGAAACTGCTAGTGACGTTATTGCAATGATTATCGAACAAACTGAAATACCAATACGAAAGGAATTGCTTTAA MSYNVKIENVLQNIRKVMIGKEEPAVLSLVALLAQGHVLLEDVPGVGKTMLVKTLAKSLDCDFRRIQFTPDLLPSDVTGVSIFNPKTLEFEFRGGPILGNIILADEINRTSPKTQSALLEAMEEKHVTVDGNTIPLARPFFVMATQNPIEYEGTYPLPEAQLDRFILKLNMGYPTFVEEMEMLTRTSQVHPIDCVEAVLTKQELEHIQDEVKHVYIDKNVQHYIIDLATSTRTHPQIYLGVSPRGSIALMKAAKAYAFILGRDYVLPDDVKYLAPYVLAHRIILRSEAKYSGETASDVIAMIIEQTEIPIRKELL NA NA NA NA NA AK015_01176 1521 abgT_1 COG2978 p-aminobenzoyl-glutamate transport protein ATGGGGAAGAAAAGAGGACTATTCCAACGCTCGTTGGATGGGGTAGAAGTGGTAGGTAATAAATTACCTCATCCTGTCACATTATTCGCAATATTGGCTTTAATGGTTTTGCTTTTGTCAGCAGCCTTGTCTCCGCTGGGTATTAGTGTTGAGCACCCAGGTGAAGAAGGAGAAATGGTTGAGATAAAAAATTTATTAAATGGCGAAGGAATCAACTATATATTTTCAAGTATGACGGATAACTTTATTGGCTTTGCCCCACTTGGCGTAGTCCTATTGACGATGCTTGGAATTGGAATTGCCGAAAGAGCAGGATTAATTGGCGCTATCTTGCGTGGGTTCGTGTTAGCGGTTCCCAATCGATTTATTACATTAGGTTTAGTATTTGCAGGGATCATGTCAAGTGTCGCTTCTGATGCTGGTTACGTCGTATTGCCACCGCTTGGAGCATTATTGTTTGCTGCTGTTGGTCGCCATCCATTAGCTGGGTTAGCTGCTGCTTTTGCAGGTGTCTCTGGGGGCTTTAGTGCGAACTTAGTGTTATCAGGGACAGATGCATTGTTAGGTGAGCTTACCATTGCAGCAGCTGCCATCGTTGACCCTGCTTATGCTGAAGGCATGAGTATAGCCATGAACTGGTGGTTTATTGGTGCATCTGTATTTGTATTAACACTTATTGGCGCATGGGTAACAGAACGAATTGTTGAACCGAGGTTAGGTACATACAAAGGAGAATACGAAGAAACAGTTGAAAAGCTAACAAGCCTAGAAAAGAAAGGTCTTATATGGGCGACGGTTTCTATAGTGGTGTCTCTTATTTTAGCAGTGCTACTCGTTGTTCCAGAAGGAGCTCCAATGCGTGGAACAGGAGAGCGACCAATTATTGAGTCGCCATTTATGGATTCCCTTGTACCAATTATTGCGATTTTATTCTTTATTCCTGGTCTTGTTTACGGTATTGTAACGAAGGCAGTGAAAAATGACAAGGATGTCGCTTATCAACTTTCCGACACAATGGCTTCCATGGGGATGTTCATTGTGCTAGCATTTACTGCTGGTCAATTTGTTGCTTATTTTAACGAGTCTAATATGGGATTAGTGTTAGGAGTTTATGGTGCGGACTTCTTGCAAAGTATTGATTTAACAGGTATCCCTTTAGTAATCGTGTTTATTATATTAGCAGGGTTTATCAATATCTTTATTGGAAGTGCCTCCGCAAAATGGGCGATGATGGCGCCGATTTTTGTGCCAATCATGATGCAATTAGGTTATTCACCAGAATTAACGCAGATGGCTTATCGTATTGCAGATTCATCAACAAATATTATTTCACCACTTATGACCTATTTTGCGATCATTATCGCTTTTGCACAAAAATATGATAAGAAAATGGGGATAGGTACACTTGTTTCAACCATGATTCCTTATTCTATTTTCTTTCTTATTGGATGGACAATTATGCTTGTTATTTGGATGTTAATCGGAGTTGAACTAGGCCCTGGTGCGCCAATTTCTTATTAA MGKKRGLFQRSLDGVEVVGNKLPHPVTLFAILALMVLLLSAALSPLGISVEHPGEEGEMVEIKNLLNGEGINYIFSSMTDNFIGFAPLGVVLLTMLGIGIAERAGLIGAILRGFVLAVPNRFITLGLVFAGIMSSVASDAGYVVLPPLGALLFAAVGRHPLAGLAAAFAGVSGGFSANLVLSGTDALLGELTIAAAAIVDPAYAEGMSIAMNWWFIGASVFVLTLIGAWVTERIVEPRLGTYKGEYEETVEKLTSLEKKGLIWATVSIVVSLILAVLLVVPEGAPMRGTGERPIIESPFMDSLVPIIAILFFIPGLVYGIVTKAVKNDKDVAYQLSDTMASMGMFIVLAFTAGQFVAYFNESNMGLVLGVYGADFLQSIDLTGIPLVIVFIILAGFINIFIGSASAKWAMMAPIFVPIMMQLGYSPELTQMAYRIADSSTNIISPLMTYFAIIIAFAQKYDKKMGIGTLVSTMIPYSIFFLIGWTIMLVIWMLIGVELGPGAPISY NA NA NA NA NA AK015_01177 1506 nylA 6-aminohexanoate-cyclic-dimer hydrolase GTGAAAACGAGCGAATTTAGAAACTATGATGCAGTGGATTTAGCTGATTTAGTAAAAAAAGGTGAGACGACTGAAGAAGAACTCTTGCAAGCTTCGTTAGAACAGCTTGCGCAAGTGAATCCAACTTTACATGCGGTTATTTCGGAACGTAAAGAAAAAGCGCTTCAAGAATGGAAAGATATTACGTATAATAGGCCGTTTCGTGGTGTGCCTGTTTTGCTAAAGAATACGGGACAACAATTAAAAGGGGAGCGGACGACTTCGGGTTCCAAGTTATTGAAACAGTATGCTCCCGTAGCAAAACAAGATTCTCATTTTGTGCGTGCTTTTCGTGATGCTGGTTTTCAATTTATTGGTCATACGAATACACCAGAGTTTGGCTTGAAAAATATTACGGAACCTGAAACAGATGGTCCAACTCGAAACCCTTGGAATGTGGCATATTCACCAGGCGGATCAAGTGGGGGTTCGGCAGCCGCGGTTGCAGCTGGCATTGTTCCGTTGGCAGGAGCTAGCGATGGCGGGGGGTCGATTCGCATACCTGCTTCTTTTACAGGGCTGTTCGGTTTAAAGCCGACGAGAGGGAGAACACCAGTAGGTCCGGGAGCAGGTCGCCAGTGGCACGGTGCTGCGATTGATTTTGTCTTATCAAGAAGTGTGCGAGATAGTGCGGCAATGCTGGATGTATTACAGACAAGTCAGCCTGAAGCTGCCTTTCAAGCACCGCTATATTTGGAAAGCTACTTGGAAACGATGAAGCAACCGCCAAAAGAAGAGCTTCGCATCGCTTATTCTGTTACATCGCCTGTCGGTACGCCTGTATCCAATGAAGCCAAAGAAGCGGTCATGAAAACTGTTCAATGGTTGGAGCGGCTAGGCTACCAAATCGAGGAAAATGACCCTCCTATTGATGGAAAGGAACTTATGCGAAACTATTATTTAATGAATAGTGGAGAAATCGCTACTGTCGGTATGCAGTTAGAGAAAATGATTGGAAGAAAGATTACTAGTGATGATGTGGAATTGGAAACATGGCTGTTGCATTGTGCTGGGCAGTCTGTATCAGCAGCTGCGTTTTCCTCCAGTATTGCTTCATGGGATGTGGCAGCAGCTGCAATGGCTGATTTTCATAAAAGCTATGATTTCTATATTACCCCTGCTACTGCTTTCACAGCACCTAAAGTCGGAGAATTATCGTGGGATAATATAGAGAAAAAACGGTGGATAACAAAAATGGAGAATGCCAAAGCAAATGAGAAACAAGAGATTATTTATGATATGTTTTTACCGAGTCTAACCTATACGCCATTTACTCAATTGGCTAATTTAACCGGACAGCCTGCTATGTCTCTACCACTTCATGTAACAAGTGAAAATATGCCTTTAGGCTTACAAGTTACGGCTAATAAGGGAGAAGAACATAGGTTATTACAATTAGCTTATCAATTGGAAGAAACTGACCTATGGCAAGGGATGAAAGGAAACCCATATTACAATCCTATGTAA MKTSEFRNYDAVDLADLVKKGETTEEELLQASLEQLAQVNPTLHAVISERKEKALQEWKDITYNRPFRGVPVLLKNTGQQLKGERTTSGSKLLKQYAPVAKQDSHFVRAFRDAGFQFIGHTNTPEFGLKNITEPETDGPTRNPWNVAYSPGGSSGGSAAAVAAGIVPLAGASDGGGSIRIPASFTGLFGLKPTRGRTPVGPGAGRQWHGAAIDFVLSRSVRDSAAMLDVLQTSQPEAAFQAPLYLESYLETMKQPPKEELRIAYSVTSPVGTPVSNEAKEAVMKTVQWLERLGYQIEENDPPIDGKELMRNYYLMNSGEIATVGMQLEKMIGRKITSDDVELETWLLHCAGQSVSAAAFSSSIASWDVAAAAMADFHKSYDFYITPATAFTAPKVGELSWDNIEKKRWITKMENAKANEKQEIIYDMFLPSLTYTPFTQLANLTGQPAMSLPLHVTSENMPLGLQVTANKGEEHRLLQLAYQLEETDLWQGMKGNPYYNPM PGPT0006115_2642 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426 NA NA AK015_01178 168 hypothetical protein ATGAATTATTGGACAGAATATTTACCTGATTGGAGACAAATTTTCTATACAGGGATTGCGTTCATCATTCCGTTTTTGCTGTATAAAATAAATAAGAGATTACACCACTACGGTGATCCATCTTGGAAAAAAGATAGTGCAGATGAAACGCGGCTAGAAGAAGAGTAG MNYWTEYLPDWRQIFYTGIAFIIPFLLYKINKRLHHYGDPSWKKDSADETRLEEE NA NA NA NA NA AK015_01179 1128 yndE Spore germination protein YndE ATGCGCCAGTTTGAATATGCAGATGAGAAAATCAGTGATAATGAATTAATGATTGCCATTCCATCCGTTACAATTGGCGTAGGCGTTCTCAGTTTACCAAGTTTAATCGCAGAGAACACAATAGGGTCTGACGGATGGATTCCGATTCTTGGGGCCGGGATTTTGTTTGTTGCCATAACTTGGTTAATTGTAAAAGTTGCTTCGATGTATCCGAACCAGCCTTTTATAAGTTTTGCGTCCCTTTTAGTATCAAAGCCAATAGCTACTATACTAACTATTTTACTTGCTTTGCAAGGCGTTTTTATTACAGGTTTTGTTTTACGGATTATTGCTGATATCGCTAAAGAATATTTGTTTGATCGTACACCGTTAGAAGTGATTTCTCTTAGCTTTCTTCTTGTAGTATGCTACGCGGTTTCTGGGTCAAGAGCAGGTTTGTTTCGATTAAATATGATGTTTTTTCCGATCATTATTTTCATCATTGTTTTTGTCGGTATATTTTCTACTAATTGGTATGATGCCACCAATTTTCTACCAGTATTCCAAACGGATATCCAAGGATACGCAGGTGCTATGAAGAATAGCATATTTTCCTTAACCGGATTATTTATTTTATTTTTTTACACGTCGCTAGTACGTAAACCAGATAAAGCACCTAAAAAGGCAGCTTATGGTATGACAATGGTTCCTATATTTTATATATTTATTTATTTTATGTGTATAGGTGTGTTCGGCTATGCCGGAACAGCCAATGTCAATTATCCAATTATTGAAATTGCGAAAGAAATTGAAATACCCGGAGGGTTCTTTGAGAGGTTCGATTCTATTTTCTTTGTGATTTGGATGATGGCTGTTTTTAATACGGTCACAATGGCTTTTGATTCATCTTTATATGCTTTGAAGTCTGTTTTTAATCTAAAGAAAATGCACTATATATTAGTTTTAACGCCGATGTTGTTTTTTGTGGCAATGACCCCTGAAGATGTGATGGATGTCCAAAAATTCGGTGATTTTGTAAGTATATATGGGTTAGTAATTACTACACTAACAGCAGTCGTGTTGTTTATCATTGCATCTGTGAAAAAAAAGACCAGCTCCGAAGCTTCTAAAAGGAGGAACTCTAAATAA MRQFEYADEKISDNELMIAIPSVTIGVGVLSLPSLIAENTIGSDGWIPILGAGILFVAITWLIVKVASMYPNQPFISFASLLVSKPIATILTILLALQGVFITGFVLRIIADIAKEYLFDRTPLEVISLSFLLVVCYAVSGSRAGLFRLNMMFFPIIIFIIVFVGIFSTNWYDATNFLPVFQTDIQGYAGAMKNSIFSLTGLFILFFYTSLVRKPDKAPKKAAYGMTMVPIFYIFIYFMCIGVFGYAGTANVNYPIIEIAKEIEIPGGFFERFDSIFFVIWMMAVFNTVTMAFDSSLYALKSVFNLKKMHYILVLTPMLFFVAMTPEDVMDVQKFGDFVSIYGLVITTLTAVVLFIIASVKKKTSSEASKRRNSK PGPT0025120_40 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311 NA NA AK015_01180 1542 gerBA_1 Spore germination protein B1 ATGGGAAGACGAGTAATAAAAAGAAACAATCAAAACACGCAAACAGATGCTAATAATTTCAATACATATTTGACATCTTCTTTAAAGGAGAATCTCGACAGTATTCAGAAAATGCTTGGAAACCCTGTTGATTTAGTCGTAAGGAACTTCTATTTGGCAAAGCACGCCTGTGCGATTATCTATATTGATGGACTGAGTAATAAACAGCAAATTGAAGAAAATGTTCTAAGGGAATTGGAGAGATTGGAGCAAAGTAATCAAACAGAAGAATTAAATACATCGAATTTATTAGCTATTATTCATGAACAATTAATTAGTATTTCTGGCATAAAAAATGTAGATACCATGGATAAATTATCACTTGGATTATTGTCAGGAAGCTCTGTACTTTTGCTTGACGGCGTGGAGCGTGTTTTGTTATTAGAGACCAAAGAATGGGAAAGTCGTGCGATACAGGAACCTGTGTCAGAAGCACTTATTCGTGGTCCAAGAGAAGGGTTTGTAGAAAACTTAAACACCAATATGGTGTTAATCAGAAGACAAATACGTGACCCTAATCTACATTTCAAAGAATATGACATAGGAAGAAGGTCAAAGAAAAAGCTTGTATTAGCTTATATATCTGGGATTATTCACCCAGAGTTATTAAAGGAAGTTAAAAAAAGGTTATCCTCCATTGACACAGATGATGCGATGGAATCGGGATATATTGAGCAATGGATTGAAGATAGTTTCTTGTCTCCTTTTCCACAAATATTTAATAGTGAACGACCTGATAAAGCAGCTTCTGCCCTCACAAAAGGTAAATTTATTATCTTGCTTGATGGAACCCCTTTTGTACTCATCGCACCTACAGAAATAGGTGGAGCATTTAAATCACCAGAAGATTATTACGAGCGTTGGTTAATTAGTTCATTGATAAGAGTGTTACGTTATTTAGCAGCTTTTATAACCATGTTCCTACCGGCTTTGTATATTGCTTTAGTTTCCTATCACCAAGGGATGATTCCATCCCAGTTAGCTTTTTCGATTGCGGCAACAAGGCAAGGTGTGCCATTTCCTGCTTTTGTTGAAGCTGTATTAATGGGAATTACCATGGAACTGTTAAGAGAAGCCGGTGCGCGATTACCAAAAACAATTGGGCAAACCATTGGTATTGTTGGAGGATTGGTTATTGGAGAAGCAGCTGTTTCAGCAGGTATTGTAAGTCCAATTATGGTTATTGTAGTCGCTTTAACGGCAGTGGCATCATTTACAATCCCCATGTATAGTGTCGCTATTTCCTTTCGAATGGTTCGATTCGGATTTATGGTAGCAGCGGCTTTTTTAGGCTTGTATGGTGTTATTCTTGCGTATATTATGGTCAACATTCACATTGTCAATTTAAAGAGCTTTGGCGTTCCTTATTCCACTCCTTATGCGCCGACGTTTTTTAACGATTGGAAGGACTTGGTTTTACGTATGCCAGCACCAATGTTAGGAAAAAGGCCGGAGTATTTACAAACGAAAGATAAAATTTCTGCAAATAACACGGAGGGATAA MGRRVIKRNNQNTQTDANNFNTYLTSSLKENLDSIQKMLGNPVDLVVRNFYLAKHACAIIYIDGLSNKQQIEENVLRELERLEQSNQTEELNTSNLLAIIHEQLISISGIKNVDTMDKLSLGLLSGSSVLLLDGVERVLLLETKEWESRAIQEPVSEALIRGPREGFVENLNTNMVLIRRQIRDPNLHFKEYDIGRRSKKKLVLAYISGIIHPELLKEVKKRLSSIDTDDAMESGYIEQWIEDSFLSPFPQIFNSERPDKAASALTKGKFIILLDGTPFVLIAPTEIGGAFKSPEDYYERWLISSLIRVLRYLAAFITMFLPALYIALVSYHQGMIPSQLAFSIAATRQGVPFPAFVEAVLMGITMELLREAGARLPKTIGQTIGIVGGLVIGEAAVSAGIVSPIMVIVVALTAVASFTIPMYSVAISFRMVRFGFMVAAAFLGLYGVILAYIMVNIHIVNLKSFGVPYSTPYAPTFFNDWKDLVLRMPAPMLGKRPEYLQTKDKISANNTEG PGPT0025115_148 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310 NA NA AK015_01181 1005 hypothetical protein TTGAATAATTTATACACGAACTATTTTACAGCTTCAGATATTTCAACGTTATGGGACACTTACGAAAGTGATACGATTATAAAATACGGCATGAAACATTTTCTTCAACATGTAGAGGACCCTGATATTCAAAACATATTACAAGAAACATTACAGTTAATTGAAAGAAATATTCATCATATGGAAGAGCTATTTAAAAAAGCAAATTTTCATATACCTAAAGGATTTACAGACGAAGATATCAATTTAAATGCACCTCGTCTATTCTCGGACACCCTTTATTTAGAGTATATTTTTAATATGACATTTTTTATGTTAGACACATACAGTTTAGCTCTTTCCGTCGCAGATCATAAAGATGTCAACGATTACTACGCTAAAAATTTAAAAGCTGCTATTTCTTTAAATAAACAAGCAAAAGAACTAGAGAAAGAAAAAGCAATATACATTCGTTCTCCAAGAATACCTCATTCAGAAACCATCACATTTGTAGAAGATAAAAATTACATGACTGGGTGGCTCGGTGAACGCAGACCTTTATTAGGTATAGAAGTAACTAACTTAGTCTTTCACTCTAAACGCAATGCTTTAGGCCATGCTATGATTACAGGGTTTAGTCAAGTAGCTCAATCCAATGAAGTGAAGAAATTCTTCCAAAAAGGAAGAGATATATCCGGTAAGCATTTAGAAGTGTTTACATCTATTCTTCATGAAGATTTCTTATCCGATGGAGCACTTTTAAGAACTTCAGAGGTAACGGATTCTACAACTGCTCCGTTTTCCGATCGACTCATGGTGACCTTCGTAGCGAACCTCATCGCTTCCAGTATTGGACAATATAGCGTCTCTATGTCTAGAAGCCCCAGACATGATTTAAGTGTGCAATATGCACGTTTAATGGCAGAAGTAGGAAAGTACGCCAACGAAGGTATGAAGATCCTTATCCGTCATGGATGGCTCGAACAACCTCCCATGGCCGCTAATCGAAATGACTTAGTGGAATAG MNNLYTNYFTASDISTLWDTYESDTIIKYGMKHFLQHVEDPDIQNILQETLQLIERNIHHMEELFKKANFHIPKGFTDEDINLNAPRLFSDTLYLEYIFNMTFFMLDTYSLALSVADHKDVNDYYAKNLKAAISLNKQAKELEKEKAIYIRSPRIPHSETITFVEDKNYMTGWLGERRPLLGIEVTNLVFHSKRNALGHAMITGFSQVAQSNEVKKFFQKGRDISGKHLEVFTSILHEDFLSDGALLRTSEVTDSTTAPFSDRLMVTFVANLIASSIGQYSVSMSRSPRHDLSVQYARLMAEVGKYANEGMKILIRHGWLEQPPMAANRNDLVE NA NA NA NA NA AK015_01182 483 hypothetical protein ATGGATACAAACCTAAGCAAAAAAAGTAAAAAACTAGCAGCTATACTATGGAGTATTGCCTTGCCGGGATTTGGCCAATTATTAAATCAAAAGTATGTAAAGGGGCTATTACTAATTGGCTTAGAATTTATCATTAATGTTATGGGAAATTTTAATAAAGTCATTATTTATAGTTTTCAATTTAAGATTGAAGAAGCTATCGAAGGGACCAATTATTTATGGCTGATGTTTTATCCATGTTTATACTTTTTTGCCATCTGGGACGCCTACAAAGATGCTGGCGGAGGGGAAAGACCTTTTGCTTACCTACCACTAGTTTTTTCTGCATACTTTGTCACGATTGGGCTAATTTTTTCATCCAAACTTCATGTGTTTGGATATTTAATTGGCCCCATGTGGCTACCAATGCTATTCTTGCCTATCGGACTTAGTATAGGGGCTTTCATTCAATGGATTTTACTTAAAGTTTATACTAAAAAATAA MDTNLSKKSKKLAAILWSIALPGFGQLLNQKYVKGLLLIGLEFIINVMGNFNKVIIYSFQFKIEEAIEGTNYLWLMFYPCLYFFAIWDAYKDAGGGERPFAYLPLVFSAYFVTIGLIFSSKLHVFGYLIGPMWLPMLFLPIGLSIGAFIQWILLKVYTKK NA NA NA NA NA AK015_01183 1029 dppD COG0444 Dipeptide transport ATP-binding protein DppD ATGACGGAAAATCCATTATTAGAAGTAAGCAATTTAAAAACGTATTTTTACTTAGAAAATAATTTTGTGGCTCGCGCAGTAGATGGTGTAGATTTCACAATAAATCAAGGTGAAACCTTGGCAATTGTTGGCGAATCAGGGAGTGGAAAAAGTATCACTTCCCTCTCGATTATGCAATTGATTAATAAGCCTGGAAAAATTGTAGATGGAACAATTTTCCTTGAAGGAGATAATTTATTAACAAAATCCAGTAAACAGATGACTAAAATACGTGGCAATGATATTGCAATGATTTTCCAAGAACCGATGACAGCACTAAATCCAGTCTATACCATTGGGAGTCAAATTGTTGAAACGATTCGAAAACATAAAAGCCTGTCCAAGCATGCTGCACGGGAAAGAGCTATTGAATTACTGAACCTAGTTGGATTTCCAAGAGCAAAAGAAGTTATGAACGAGTATCCACATCAATTATCGGGTGGAATGAGACAAAGAGCAATGATCGCTATGGCCATATCTTGTGATCCAAAGCTCCTCATAGCTGATGAACCTTCTACAGCCTTAGATGTAACCATTCAAGCGCAAATTTTAGATCTGCTCATGGAAATGAAAGAACGTTTAAATATGTCCATCCTTTTAGTCACGCATGACCTTGGCGTAGTAGCCGAATACGCAGATCGTGTACTAGTAATGTATGGTGGCCAAATCGTTGAGGAAACAACTGTCGAAGCTATTTTTGAAGAAACGAAACACCCTTATACCATTGGGCTATTAGAAAGTTTACCAAGTTTAGAAAAAGAAGTAAAACGGCTCGGTGCCATCAAAGGTTCTGTCCCTCCAGCCTATCTATTTCCTAAAGGATGTCGTTTTGCCGACCGCTGTCCGCATGTAATGGATCAATGCAGAGAATCAAATCCTGAACTATTATCCATAGCACCCACACATAAAGCACGCTGTTATCTTTATGAATTAGGAGGAGGCCATTCTCATGACAATCGAGCAAAAACAACTGCAGAACAAAAAATCTGA MTENPLLEVSNLKTYFYLENNFVARAVDGVDFTINQGETLAIVGESGSGKSITSLSIMQLINKPGKIVDGTIFLEGDNLLTKSSKQMTKIRGNDIAMIFQEPMTALNPVYTIGSQIVETIRKHKSLSKHAARERAIELLNLVGFPRAKEVMNEYPHQLSGGMRQRAMIAMAISCDPKLLIADEPSTALDVTIQAQILDLLMEMKERLNMSILLVTHDLGVVAEYADRVLVMYGGQIVEETTVEAIFEETKHPYTIGLLESLPSLEKEVKRLGAIKGSVPPAYLFPKGCRFADRCPHVMDQCRESNPELLSIAPTHKARCYLYELGGGHSHDNRAKTTAEQKI PGPT0004435_8003 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 AK015_01184 1020 oppF_4 COG4608 Oligopeptide transport ATP-binding protein OppF ATGACAATCGAGCAAAAACAACTGCAGAACAAAAAATCTGAACAAGAGCAAAATAATGAAACCATTATGCAAGCAAGTCATATAAAAAAATACTTCCCCATCAAAGGTGGTATTTTCAAACATACAATTGGTCATGTAAAAGCTGTAGACGATGTTTCTTTATCCATAAAAAAAGGAGAAACACTTGGTCTTGTTGGAGAATCTGGTTCTGGTAAATCAACACTTGGGCGTGTGTTACTTCGTCTTTTAGAGCCTACAGAAGGTGAAGTCATATTTGAGGGCAAAGACATTTCCCATTTAAACAATCGGAAATTACGTGCATATCGAAAACATATGCAAATTGTTTTTCAGGATCCATTTGCTTCACTTAATTCTAAAATGAGTGTCGGAGAGCTAATTGAAGAGCCTTTACTCGTGCAAACTTCCGTTTCTAAATCAGAACGTAAGCAAATGAGTGTTGAATTGCTAGAGAAAGTCGGTCTACGAGCGAATGATCGTGCAAAATATCCGCATGAATTTTCTGGAGGACAGCGTCAACGAATTAGCATTGCACGGGCGCTTGCACTTAACCCAAAATTCATTATCTGTGATGAACCAGTGTCAGCACTCGATGTTTCCATTCAAGCTCAAGTGCTAAATTTAATGGCGGACTTACAGGAAGAATATCATCTTACCTACTTATTTATAGCGCATGACCTCAGCGTTGTTAAACATATTAGTGATCGTGTAGCTGTCATGTATTTAGGACGTATTGCAGAGCTTGCACCGAAAGAACAACTCTACCAAAACCCACTTCACCCATATACAAAAGCTTTACTATCATCTGTGCCATCGACAAATGTAAGAGAAAAGAGAGAGAAAATTAAACTTAGTGGTGATTTACCAAGTCCAGCGAATCCACCATCTGGTTGTGTTTTCCGTACACGCTGCCCTATGGCACACGACCGTTGCATAAGCGAAATACCAGCATTAAGCGAGATGGAGAAGGGGCATTTTGTTGCATGCCATTTGTACGAATAA MTIEQKQLQNKKSEQEQNNETIMQASHIKKYFPIKGGIFKHTIGHVKAVDDVSLSIKKGETLGLVGESGSGKSTLGRVLLRLLEPTEGEVIFEGKDISHLNNRKLRAYRKHMQIVFQDPFASLNSKMSVGELIEEPLLVQTSVSKSERKQMSVELLEKVGLRANDRAKYPHEFSGGQRQRISIARALALNPKFIICDEPVSALDVSIQAQVLNLMADLQEEYHLTYLFIAHDLSVVKHISDRVAVMYLGRIAELAPKEQLYQNPLHPYTKALLSSVPSTNVREKREKIKLSGDLPSPANPPSGCVFRTRCPMAHDRCISEIPALSEMEKGHFVACHLYE PGPT0004440_6885 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 AK015_01185 1779 appA_3 Oligopeptide-binding protein AppA GTGTTTAACAAAAAATGGATGTTACTTTTCGTACTTATGTTATTCTTTAGTTTTGTATTAGTAGCTTGTAATGGTGATGACACCTCCGAAGAGGAAGGAAATGAAAGCCAAGCAAAAGAAGATGATGAAGCAAGTGGCGAGCCTCAAAAAGGCGGCACCTTGACTGGGGCAATGGATACAGCTCCAGCAGGAGTCTTTAATCCAATCTTTTACGAGGAAGCCTATGAGGCAAATATTCTTGACTTTACACACGAATCGTTAGTCGGGCAAACAAAAGAATTAGAATTTGAAGCCGAATTAGCTAAAGAGTGGGAAATTAATGAAGACCAAACAGAAATCACTTTACAACTAGAGGAAGGCGTAAAATGGCATGATGGCGAAGAATTCACTGCGGATGATGTCGTTTTTACGTACAAAGCAATAGCTAGTCCTGGCTATGTAGAAGCTGGTGGGATTCGTACAGAATACGTTGTAAGATTACTTGGATATGAAGCGTTCAACAATGAAGAAACGGATGAGTTTGAAGGGGTAGTAGCTGAAGATGATTACACCGTAACTTTTAAATTCGCAGAGCCTAATGTAACGATTTTAAAAGACGTCTCTTTTTCCATTATTCCTGAGCATATTTTTGCAGATGTCCCAATAGCTGAAATACCTGAACACGCTGCAACTTTAAACGCTGGCGAGGTAATCGGTACTGGACCATTTAAATTTACAGAAATGCTAGAGCGTGAGCAATACGTGCTAGAAAAGAACGCAGATTACTGGAAATCCGAGCCATATTTAGACCAAATTGTGTGGCGTGTGGTTGACCAGTCTGTCATGTTGGGTCTGCTAGAAAGTGAAGAAATTGACTTTATTGCTGACCCTAATGGCGTACCAGCACCTGACTTCGAAACAGTTGACGCACTAGAACATATAGAAATTATTGAACAACCTGACTTCGGGTATCAATTAATGGGCTTTAAAGTTAATCACCGTACAGATGCCGATGTAGAAGCCGGTGCTATTGAGCCGGACAACTGGGTACCAAATGAAGATATGGGTGAACTAAAGGTTCGCCAAGCAATGGCACATGCTATTGACCGCAAGGCGCTTGTTGATAACTTACTGTATGGCCATGGTTCCGTAATTAATGCTCCAATAGCACAACAATTTTGGGCTTACGATGAAGAAGCAACAACAAAATTTGAATTTGATCCAGAAAAAGCAAAATCACTATTAGATGAAGCTGGCTATGAGGATACAAATGATGACGGCTTCAGAGAAACACCAGATGGAGAAGAATGGGTGGTCAACTTAAACTATCCAACTGGAAATAAGCTACGTGAAGACTCTGCACCAATTATTGAACAGTTCTTAGAAGATGTAGGAATAAACATCGACCTACGTCAGCCAAAAGAAATGACCGCTTATGTAGAAGAACTAACCAATGATAATTCTGATTGGGATCTTTTCCTTCTAGGTTGGAGTTTAGGAAGTGCTGATCCAGATCCTTCAGGGCTATGGGGAGCAGACGCTGCTTATAATTATCAGCGTTGGAACAATGAACAGTCAGAAACATTATTGGAAGAAGCTATGCAAGCTCCTGAAGCATTTGAACAAGATTACCGTGCTAAAAAATATAGTGAATGGCAAGCAGCCTTCTCGGAAGACTTACCAGCTATCTTACTCTATGCACAAAATAAAATTTATGCCTTTAACGAACGGTTAAATGGTGTAGATCCAATGCCATATTCCTTTAATAATGAACCAGAAAACTGGTGGTTAGCCGAGTAA MFNKKWMLLFVLMLFFSFVLVACNGDDTSEEEGNESQAKEDDEASGEPQKGGTLTGAMDTAPAGVFNPIFYEEAYEANILDFTHESLVGQTKELEFEAELAKEWEINEDQTEITLQLEEGVKWHDGEEFTADDVVFTYKAIASPGYVEAGGIRTEYVVRLLGYEAFNNEETDEFEGVVAEDDYTVTFKFAEPNVTILKDVSFSIIPEHIFADVPIAEIPEHAATLNAGEVIGTGPFKFTEMLEREQYVLEKNADYWKSEPYLDQIVWRVVDQSVMLGLLESEEIDFIADPNGVPAPDFETVDALEHIEIIEQPDFGYQLMGFKVNHRTDADVEAGAIEPDNWVPNEDMGELKVRQAMAHAIDRKALVDNLLYGHGSVINAPIAQQFWAYDEEATTKFEFDPEKAKSLLDEAGYEDTNDDGFRETPDGEEWVVNLNYPTGNKLREDSAPIIEQFLEDVGINIDLRQPKEMTAYVEELTNDNSDWDLFLLGWSLGSADPDPSGLWGADAAYNYQRWNNEQSETLLEEAMQAPEAFEQDYRAKKYSEWQAAFSEDLPAILLYAQNKIYAFNERLNGVDPMPYSFNNEPENWWLAE PGPT0004430_2702 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 AK015_01186 969 gsiC_3 COG0601 Glutathione transport system permease protein GsiC ATGTACAAATATATTATCCGTAGAATATTAATATTCATCCCAATGCTGTTTGCCCTTACAGTGATTGTATTTGGTATTTCACAGTTAGCTCCTGGAGATGCTTTGTCAGGGAAAATGCTTAATGATCCAAATGTAGACCCTGAAGTTTTTGAAGAACGCCGTCAAGCATTAGGTTTAAATGATCCTATTTATGTACAGTACTGGAACTGGATAAGTGATGCAGCACAAGGCGACTTTGGAAATTCCCTCTTCTTTAATGGTCGTTCTGTTGCTGAATTAATTGAAGCTCGATTTGCTAACACATTGTATTTAGGTCTTTTCTCTTTAGCTATTACGGTAATTGTTGCTATTCCTATTGGCATTTATTCTGCAAGAAAGCCATACTCATTACTGGACTATGGGGCTACTGGTTTTGGTTTTTTAGGATTAGCTATTCCTAATTTCTTTTTTGGATTAATAGCAATTTACGTCCTATCGATTAACTTAGGTTGGTTCCCTTCGCAAGGGACATTATCCACTCCTGGACTTACTGGATTTGAAGCATTTATGAATCGTATTCATCACATGGTTCTCCCTGGTATTACACTTGGATTAGCAGGCACTGCAACTTATATGCGATATATGCGTTCCGAAGTGCTAGACGTATTAGGAAGCGATTATATACGTACAGCAAAGGCAAAAGGTATGTCGGAAAGTAATGTCCTCTATAAACATACGCTACGAAACGCACTAATTCCTATTATCACCTTAATGGGATTTGAAATTGGCGTGTTATTAAGTGGTGCTGTAATCACGGAACAAGTTTTTCAATACCCTGGATTAGGCACTTTATTTTTAAGCTCTGTTATGAACCGCGATTTTCCAGTTGTAATGGCGATTGCTCTCATACTAGGTATTCTCATTTTAATTGGTAATTTAATAGCTGATATTCTTTACAGCATTATTGATCCAAGAATACGTTACGATTGA MYKYIIRRILIFIPMLFALTVIVFGISQLAPGDALSGKMLNDPNVDPEVFEERRQALGLNDPIYVQYWNWISDAAQGDFGNSLFFNGRSVAELIEARFANTLYLGLFSLAITVIVAIPIGIYSARKPYSLLDYGATGFGFLGLAIPNFFFGLIAIYVLSINLGWFPSQGTLSTPGLTGFEAFMNRIHHMVLPGITLGLAGTATYMRYMRSEVLDVLGSDYIRTAKAKGMSESNVLYKHTLRNALIPIITLMGFEIGVLLSGAVITEQVFQYPGLGTLFLSSVMNRDFPVVMAIALILGILILIGNLIADILYSIIDPRIRYD PGPT0004445_7691 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 AK015_01187 924 oppC COG1173 Oligopeptide transport system permease protein OppC ATGCAAACAAATACGGAAAGCACATTACCAACAGGACCGGAAAATGAGCCTATTGATCAACAACATCAACATAAGACACCATTTCAGTTAGCATTTAACCGTTTTAAAAAGAATAAGTTAGCTGTTATTAGCATTTTTGTACTTTTAGCTATTGTTATTATCTGTATTGCTGCCCCATTACTTACGAGTCAAGACCCAATTAAAACAGACGTAACAAATATTGAAAAAAGACCTACCGATGAACATATTTTAGGAACGAACGGGCAAGGGCAAGACAATTTCGCCCGCTTATTATACGGCGGAAGAATCTCTTTAATTGTCGGTTTTAGTGCCATGTTTTTTACGTTAGTCATTGGCGTTGTGCTTGGATCCGTCGCTGGTTACTATGGCGGCAAGGTAGATAGTATCATTATGCGTGGAGCAGATATTATGCTTATGCTACCATTTCTTGTACTTGTGCTAACGATTATCGCAGTTATTGATAAGATAACAATCGGAATATTTGTTACCATTATCGCTTTAACATCATGGCCTAATTTAACTCGTATTATCCGAGCTACATATTTATCACTCCGAGAGCAGGAGTTTGTACTAGGCGCCAAAGCCATCGGTGCAAGTGATATGCGAATTATCCGTAAACATTTTATTCCCAATGCGATTGGTCCGATTATTGTAAATGCTACGCTCATGATGGCAACATACATTATTGTAGAATCAGGGCTTAGCTTTATCGGTTTTGGCATCCCTCAGCCAACACCAACTTGGGGGAATATGATTTCTGAAGCACAAAACATTCGCATATTGCGAAATAACCCAGAAGCATGGATACCTCCAGGATTAGCTATTTTAGTAACCGTTCTAGCAATTAATTTTATCGGTGACGGATTGCGAGATGCCTTTGATCCGAAAAGTAAGCAACGATAA MQTNTESTLPTGPENEPIDQQHQHKTPFQLAFNRFKKNKLAVISIFVLLAIVIICIAAPLLTSQDPIKTDVTNIEKRPTDEHILGTNGQGQDNFARLLYGGRISLIVGFSAMFFTLVIGVVLGSVAGYYGGKVDSIIMRGADIMLMLPFLVLVLTIIAVIDKITIGIFVTIIALTSWPNLTRIIRATYLSLREQEFVLGAKAIGASDMRIIRKHFIPNAIGPIIVNATLMMATYIIVESGLSFIGFGIPQPTPTWGNMISEAQNIRILRNNPEAWIPPGLAILVTVLAINFIGDGLRDAFDPKSKQR PGPT0004450_5605 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 AK015_01188 1701 hypothetical protein ATGAAAAGATTCCTACGCTTTAACAATGTTAAAAATAAATTAATTATTGGTTACGTTGCTATTATAGTTGCACTTATAATAACAGCTGTTTATCATTTTTATACAGCGAAGCAAGTTAATGAGGAAGTAAAATCAGTTATAAGTACGGAAGTAGCGGCTGTTCAAAAAGTTGAACGTCTTCATGCAAATCTATTAGAGCAACAGGCATTAGCTATGGCGTTTCTATTAAATAAAGAAGATCCGCTCCGTAAAGACTATGAACAAATGCAAACGGAAGGAAAGAATTTAATAGAAGAAGTACAGACGATAGCATCAGCTAAACAATGGCACGAACTAAGCAATAAACAAAAAGAATGGCAGCAAGAAGTCAAAAAGCGATTTAATAAAATAGGTGATGGAGAACCGACAAGTAACTTAGCAAACGTTCAAACTTTAGGTTCTGAAGTTAGTTCCATCATAAAAGAAATGGTAGATAACCAAACGAAAAAGCTGGAAAATAAAAAAGCGCAAGCTGTTTCTAATGCAAAAGATTCACAAACTTGGTTTATCATACTTACTGCTAGTTTCATTTTATTCGTAGTTGCTATTAGCGTACTAACTGTCCGATCCATTACAATACCGATCAATCAATTGTGGGCGAGAATAAAAGGTATTGCGGAGGGGAAGGTGCAACCAGAGCCACTGCCTATAAATGCAGGCGGTGAGTTTGGGCAAATGATGGAAGCGACTCATACAATAAGTGAAAACATTAACAATTTTTTGGGAAAAGTTAATCATGTATCAAATACCGTAAGTAATTATGGACAATCTTTTACTCGCTCGGCTCAAGAAGTGATGGAGGGAGCAGAACAGATAGCTACAACCATGCAAGAATTAGCCGTTGGTTCAGAGACACAAGCAAATCGAGCAAGTGATTTAGCGATGAATATGGAAACATTTAGTACGAAAGTGAGTGATACAAACGACCAAGGAAAGTTAATCGATCAAGCTTCTCAAGAAATTTTGACGATGACCGAGGAAGGAGAGCAGATGATGAAATCTTCCTCAGAGCAAATGGAACAAATTGATAAAATAGTGAAAGAAGCAGTAGATAAAGTGAGGCAATTAGATGAACAATCGCAAGAAATTAACCATTTAGTCCAAACCATTCAAGATATTGCTGAACAAACGAATTTACTTGCATTAAATGCTGCGATTGAAGCTGCTAGAGCAGGAGAGCATGGAAAAGGCTTTGCGGTTGTAGCAGATGAGGTAAGAAAACTCGCTGAACAAGTAAGCGATTCTGTAACAAATATAACTGGAATTGTTACCCATATTAAGCATAACTCCAATTTAGTTACGAATACGCTAGAAAATAGTTATGAGGAAGTGGAAACGGGTACCAAACAAATTCACGCAACACAACAAACATTTGATGGCATAACCATGTTTGTCAATGAAATGGTTCAAATTATAAAAACAATATCTTCGCATTTAGAAGAAATGAAAGATAATAGCAGTAAAATGAATGCAGCTATTCATGAGATAGCTTCTGTTACAGAGGAGTCATCAGCTGGAATTGAACAAACTGCAGCTTCGGCCCAACAGTCAAGTGCAGCAATGGGAGAAGTTGTTGATCAGTCCAAAGATTTGGACAATCTCCGGCATGAATTACATGAAATGGTTCACATTTTCAATAAAGGTAAAATGCATCAAGAATAG MKRFLRFNNVKNKLIIGYVAIIVALIITAVYHFYTAKQVNEEVKSVISTEVAAVQKVERLHANLLEQQALAMAFLLNKEDPLRKDYEQMQTEGKNLIEEVQTIASAKQWHELSNKQKEWQQEVKKRFNKIGDGEPTSNLANVQTLGSEVSSIIKEMVDNQTKKLENKKAQAVSNAKDSQTWFIILTASFILFVVAISVLTVRSITIPINQLWARIKGIAEGKVQPEPLPINAGGEFGQMMEATHTISENINNFLGKVNHVSNTVSNYGQSFTRSAQEVMEGAEQIATTMQELAVGSETQANRASDLAMNMETFSTKVSDTNDQGKLIDQASQEILTMTEEGEQMMKSSSEQMEQIDKIVKEAVDKVRQLDEQSQEINHLVQTIQDIAEQTNLLALNAAIEAARAGEHGKGFAVVADEVRKLAEQVSDSVTNITGIVTHIKHNSNLVTNTLENSYEEVETGTKQIHATQQTFDGITMFVNEMVQIIKTISSHLEEMKDNSSKMNAAIHEIASVTEESSAGIEQTAASAQQSSAAMGEVVDQSKDLDNLRHELHEMVHIFNKGKMHQE PGPT0015710_16293 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 AK015_01189 582 COG1611 Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase ATGGATAAACTCGCTGTGTTTTGTGGTTCCAGACCAGGCATCTCACCGACATACTTAGAAGCAGCTACAAAGCTCGGGAAAGAACTAGCTAATCAACATATTACGCTCATCTACGGTGGTGCAAGTGTTGGTCTCATGGGGGCTGTCGCTGATGCCGTGCTAAATGAAGGAGGCAAAGCAATTGGGGTTATACCAGAATTTCTTAAAAACAAGGAAGTCTATCATAAAAATCTGACGGAACTAATCATCGTCGACTCGATGCACGAAAGAAAAATGACAATGGCAAATTTAGCGGATGGTTTTATTGCTTTACCAGGAGGCCCTGGCACCCTCGAGGAATATTTCGAAGTATTTACGTGGGCACAATTAGGTTTGCATCAAAAACCATGTGGACTTTTAAATGTAAACAGCTATTACAACCAACTACTTCATTTTTTCCAGCATATGCAGGAACAACAATTTATGGAGCAAAAGCACCTCGATGTTGTATTGTCTGATACGAATGCAAAAGAGTTAATTGAAAAGTTTCGTCATTACGAGCCACCAGCTATTAAATCGTTTTTAAGAGCACATCAAACATAA MDKLAVFCGSRPGISPTYLEAATKLGKELANQHITLIYGGASVGLMGAVADAVLNEGGKAIGVIPEFLKNKEVYHKNLTELIIVDSMHERKMTMANLADGFIALPGGPGTLEEYFEVFTWAQLGLHQKPCGLLNVNSYYNQLLHFFQHMQEQQFMEQKHLDVVLSDTNAKELIEKFRHYEPPAIKSFLRAHQT PGPT0007225_516 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522 NA NA AK015_01190 1221 ykuI COG2200 putative EAL-domain containing protein YkuI ATGGACCCACTAGATATCATGATGAAGCTTGATCAGATCGTTCCATACTTCGATCCGATTATAAGTGCAGAGAATCAATTCATTATTGGGTATGAAACGATTCCCTATTTTCAAGACGAGGAAAAGGAATTACATAATCTCCTTTGGTTTTTCAAAGACAAAAGCATTCCGAGTGACTTTAGGCTAGAGCTTACGCATACAGTATTACAAAAAGTGTTAGATAAATATATGGCGACAGATAAGACACAACTGCTATTTATTCATTACGATGCAAAACTGTTACTGAAAGATAACGGGGACAGTATGCTATCTATTTTACAAACCTATGAAGAACAAGGATTAGCTTTAAATAAACTTGTGCTACAATTTACGGAAGCCTTTGTTAGTGAACATATTGCTTCCCTTAAGCATTTATTTGCATACATTCAAACATTCGGCATTCAAATCGCTATTGATGATGTAGGAGAAAAAAACGGAAACTTAGATAAGTTAGCTTTAATTAAGCCTAACATTGTCAAAGTCGATGTTTCATTTTTACGAGAAGACGATCTGCCTCAATTGTATCAGGATGTTCATCACTTACTTTCTATGCTTTCGCGCAAAATTGGTGCTGCGCTATTATTTAAAGGTATTACTTCTTTTCACCAGCTAAACTACGCGTGGAGAAACGGTAGTCGCTATTATCAAGGAGAGTATTTAGAAAAAACACAGCCAAGCTTTATTCCAATTGACAGTTGCAAAGAAAAGGTCAAAAAAGACTTTCTTCATTTCATCAATTACGAACGAAAAAAAATGAAAGCACAACTAGAATTAACGGAAAAAATAAATACGCAAATAGCTAAAACATTAAAGACAATTGATCCTCATGCCCCTTATGATGAAACGATCCTTGCTGTTGCGAGCGATTGTAATGATTACAGTTTCCGAGTTTATATTTGTAATGAGGCTGGATTTCAGCTATCTGCAAATGCGGAAAAAGGCGCAGATGGTATATGGTGTCTACAACCAGAAGGAAGGCAAAAAAATTGGAGTTGGCGACCTTATTTCTTTGAAAATATTGCCCGCATGAGTATGGAAAAGAAAGGGATATTATCTGATTTATATACAGATATTGAACGCGATGAACGTATTCGGACATACTCTTACCCTATTACTTCAGACCGTTTTATTTTCATTGACATCCCTTATGATTTTCTCTTTGAACAGGAAGGTCTCCTATAA MDPLDIMMKLDQIVPYFDPIISAENQFIIGYETIPYFQDEEKELHNLLWFFKDKSIPSDFRLELTHTVLQKVLDKYMATDKTQLLFIHYDAKLLLKDNGDSMLSILQTYEEQGLALNKLVLQFTEAFVSEHIASLKHLFAYIQTFGIQIAIDDVGEKNGNLDKLALIKPNIVKVDVSFLREDDLPQLYQDVHHLLSMLSRKIGAALLFKGITSFHQLNYAWRNGSRYYQGEYLEKTQPSFIPIDSCKEKVKKDFLHFINYERKKMKAQLELTEKINTQIAKTLKTIDPHAPYDETILAVASDCNDYSFRVYICNEAGFQLSANAEKGADGIWCLQPEGRQKNWSWRPYFFENIARMSMEKKGILSDLYTDIERDERIRTYSYPITSDRFIFIDIPYDFLFEQEGLL NA NA NA NA NA AK015_01191 900 hypothetical protein ATGAGCTTTATGAAGAGCAAATTAGTCATTTTGGGTTTCATTATGGTGTGCATTGTTTTATTGGCAGCATGTGGGGAAGAATCCAACTCGAAAAGTGAAGCGGGGCAGGCTACAGGAGAAAAGGGTACGATTGAAATGGCACAGATTAGTTGGGCAGAAAATATTGCTGTTTCAAATATGTGGAAAGTTATTTTAGAAGAACAAGGCTATAAAGTAAATTTAAATTTACTAGACATGGGAACGATTATGAAGGCACTTGCTGAAAACGAATTGGATGTTAACTTAGAAGTATGGCTCCCGGTGCAAGATCAAGCATATTTACAAGAATATAAAGATGATGTTTTCTTTTCTGAAGAGCCGTGGTATGATAAAGCGAAAGTCGGACTGGTTGTGCCTAAATACTTAGAAGAAATTAATAGTGTGGAAGATTTACATGCGCATAAAGAGATGTTCGAGGGGGAAATAACTGGTTTTGATGCTGGCGCAGGAACAATGGAAGTGACGGAAAAACTAATAAAAGAATATGATTTGGATTATGAATTAATTCCTAGCTCAGAACCAGCTATGATTACCGAGATCGCACAAGCTATAAAAAATGAGGAGCCAATCGTTGCTCCACTTTGGAATCCACATCGCGTATTCTCCCAATATGATTTGAAGTATCTTAAAGATCCGAAAGAGGTATATGGGGAAGTAGAAAAAATATATCATGCAACAAGGAAAGACTTTAAAGAAGATTTTCCTAGTGTAGATGAATGGTTCAAAAATTGGAAAATGGACGATGCATCCATTGGAGAACTAATGACGTATGTGAATGAAGCGGAAGAGCCGATTGATGGAGCGAAAAAATGGGTTGCAGATAACCAGGAATTAGTTAATAAGTGGGTGGAATGGGAGTAA MSFMKSKLVILGFIMVCIVLLAACGEESNSKSEAGQATGEKGTIEMAQISWAENIAVSNMWKVILEEQGYKVNLNLLDMGTIMKALAENELDVNLEVWLPVQDQAYLQEYKDDVFFSEEPWYDKAKVGLVVPKYLEEINSVEDLHAHKEMFEGEITGFDAGAGTMEVTEKLIKEYDLDYELIPSSEPAMITEIAQAIKNEEPIVAPLWNPHRVFSQYDLKYLKDPKEVYGEVEKIYHATRKDFKEDFPSVDEWFKNWKMDDASIGELMTYVNEAEEPIDGAKKWVADNQELVNKWVEWE PGPT0013640_3217 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002 NA NA AK015_01192 549 opcR_1 COG1510 HTH-type transcriptional repressor OpcR ATGGCGAATTCACATGATGAAATGGCGAAAGAAAAGCTTGAAGAAGCAAAAGGCTACGTTATTGAAACCATCGCAGAAACAATGGACGTATACGGTGTAACTCCGGCTGCGGGTAAGCTTTATGCAACGATGTATTTTAAAGAGCAAATGAATCTTGATGAAATGCGAGAAGAATTGGGAATGAGTAAACCCAGTATGAGTACGAGTGTTAGGAAACTACAAGAAAACGAGATGGTAAAGAAAAAGTTTCAAAAAGGCTCACGTAAACATACGTATGCAGCAGAAAAAGATTTTTTCCATTCTTTTATGTCCTATTATTGTCAACTATGGGATCGTGAAGCAAAGATGAATATGGAAGCGATTAAGCAGGCCGAATTTACTTTAGATCAAATTTTTGAAGATGAGAATGTGTCGAGGGAATTGATGGAGGAAGCACGAGAAATCTATGATCAGCTTGAGCAATCTAAAATATATTATCGTTGGCTTGAGCGTTTAGTTGCTAGTATACGATCAGAAGAGATCTACGAGTTCTTGCCAAAAAAGCCATAA MANSHDEMAKEKLEEAKGYVIETIAETMDVYGVTPAAGKLYATMYFKEQMNLDEMREELGMSKPSMSTSVRKLQENEMVKKKFQKGSRKHTYAAEKDFFHSFMSYYCQLWDREAKMNMEAIKQAEFTLDQIFEDENVSRELMEEAREIYDQLEQSKIYYRWLERLVASIRSEEIYEFLPKKP PGPT0013690_197 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109 NA NA AK015_01193 1473 gbsA COG1012 Betaine aldehyde dehydrogenase ATGTTGAATTTTAAGCAAAACTTTATTAACGGTGAATGGTTACCTTCTCATACAGGTAACACACGAGATATTATAAACCCATTTAACCAAGAGGTCGTTGCTCAAGCGACAGAAAGTGATGAAACAGATACAATATCTGCGATTGCTGCTGCAAGAGAAGCATTTGATGAAGGTGAATGGTGCAGAACATCTGCCACAGAACGCGCTAAAAAATTACATACCATTACAGCGCTCATCGAACAGGATAAAGAAGAGCTAGCTAAACTAGAAACGCTTGATACAGGTAAGACCATCGAAGAAAGCCGTAGCGATATGGAAGATATTGCGGGAGTATTCCGTTTTTATGCAGAATTAACTGATAAACATGGTGGCGAATTGATCAACTCCCCCGTCCCAAACACCATTAGCAAAGTAGTCTATGAACCTGTAGGTGTATGTGGTCAAATCACTCCATGGAATTATCCATTATTACAAGCATCTTGGAAGTTAGCACCAGCATTAGCTGCTGGAAATACATTAATCATGAAACCAAGCGAAATTACACCATTAACAACTGTAAAACTTTTTGAATTAATGGAAGAAGCTAAGCTACCAAAAGGTGTGGTCAACCTCGTATTAGGAAAAGGAGATACGGTTGGGGCAGAACTTTCTGCTAATCACGATATTGACTTGATATCATTTACAGGAGGTATGAACACCGGGAAAAAAATCATGCAATCAGCCAGTTCCAACGTAAAAAAACTAGCGCTTGAACTAGGCGGAAAAAACCCGAATATTATTTTTGCCGATGCTGATTTCGATATAGCGGTTGACCAAGCTCTACATGCCGTCTTCTTTCATGCTGGGCAAATTTGTTCAGCTGGTACACGACTGATTATTGAAGAAAAGATACATGATGCATTTGTTCAAGCTTTAGTTGAACGAGTGAAAAACATTACGTTGGGGAATGGATTTGACGCCTCTACGCAAATGGGACCGCTTATTTCTAAAACGCATTTAAATAAAGTCATTCAATACGTTGAAGACGGAAAAAAAGAAGGAGCTACCGTAGCAGTAGGAGGACAACAACCTGACAATCCAAATTTACAACATGGATTCTTTTACTTACCTACTGTACTTACCAATTGCACATCAAATATGCGTGTTGTTCAAGATGAAGGTTTCGGTCCTGTCATTACAGTAGAAACATTTACCACAGAACAAGAAGCCATTCAATTAGCAAATGATTCTATTTATGGGCTATCTGGCGGTGTGTGGACAAAAGATATAGCCAAAGCAGAACGCTGTGTTTCTAAAATGCGAATGGGTACAGTTTGGATCAATGACTACAATGTTTATTTTCCACATGCCCCGTGGGGTGGTTTTAAACAATCTGGAATTGGCAGAGAACTTGGCAAAGCAGGACTAGAAGAGTATCAAGAAGTGAAGCATGTCTATCATAATTTACAGCCTGATGCGTTGAACTGGTTTTAG MLNFKQNFINGEWLPSHTGNTRDIINPFNQEVVAQATESDETDTISAIAAAREAFDEGEWCRTSATERAKKLHTITALIEQDKEELAKLETLDTGKTIEESRSDMEDIAGVFRFYAELTDKHGGELINSPVPNTISKVVYEPVGVCGQITPWNYPLLQASWKLAPALAAGNTLIMKPSEITPLTTVKLFELMEEAKLPKGVVNLVLGKGDTVGAELSANHDIDLISFTGGMNTGKKIMQSASSNVKKLALELGGKNPNIIFADADFDIAVDQALHAVFFHAGQICSAGTRLIIEEKIHDAFVQALVERVKNITLGNGFDASTQMGPLISKTHLNKVIQYVEDGKKEGATVAVGGQQPDNPNLQHGFFYLPTVLTNCTSNMRVVQDEGFGPVITVETFTTEQEAIQLANDSIYGLSGGVWTKDIAKAERCVSKMRMGTVWINDYNVYFPHAPWGGFKQSGIGRELGKAGLEEYQEVKHVYHNLQPDALNWF PGPT0007165_1385 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130 NA NA AK015_01194 1209 gbsB COG1454 Choline dehydrogenase ATGAGCTTAAATATGAAATTAGAGCATATGTATAAATTACATACATTTGAAATACCAACTACGATAAAGCATGGCATTGATTCCATTCAATCAATTGGAAATGAAGTAAAACAGCTCGGTGTATCAAAAGCCCTTTTAGTAACTGACCCAGGTATCTATGAAGCTGGTGTAACACAGCCTGTGGAAAAGCACTTAAAAAAAGCGGGGATAGAAGTTGTTATCTTTAATAAAGTTGAGCCAAACCCACCCGTTCGTTTGATTGCAGAAGGCTCTAAGTTATATAGAGAAAAAGGCTGTAATGGACTTGTTGCTGTTGGTGGCGGAAGTTCTATGGACACGGCAAAAGGCATTGGTGTGGAAGCTACACATCAAGGCAGTGTCTTAGAATATGAAGCTGCGGAAGGAAAAAAGCCCTTAGAAAATCGCATTCCACCTTTAACAACCATTCCAACTACAGCGGGGACTGGTTCTGAAGTAACACAATGGGCAGTTATTACAGATGAAAAACGTGCATTTAAATTTAATACGGGTGGCCCATTAATTGCTGCTCACTTAACAATAATTGACCCTAAACTGCATGTATCCATGCCTTCACACGTTACGGCAATGACTGGTATTGATGCTTTAGCCCATGCGATAGAATGTTTTACCATGCATTTTGCCCAGCCTATTACAGATGCGGTTGCATTATTGGCAATGGAATACGTTGGAAAATACATACGTCGCGCTTATGCTGACGGAGGTGATCTTGAAGCACGCTATGGTATGGCTCAAGCTGCTATGCTTGCTGGTTTATCTTACGGTAGTGAATCAGCTGGAGCCGCTCATGCCATGTCCCAGACATTAGGTGGTATTCTTCCAGTTGCCCATGGTCAATGTGTTGCCGCTATGCTCGGTCCAGTAATGGAATACAATTGGAAAGGTCATCCTCATAAATTTGCAAGAATAGCCCAAGCATTAGGTATTGACACATTTCATATGACGACAGAAGAGGCTGCCAAAGCAGCTGTAAACGAAATTTATCAGCTTGTAAAAGACTTAGATATCCCGACATTGGAAGAACAGGGTGTTTCTCCAAATATGATAGAGCGATTATCAAAAGAAGCGATAAAAGATCCACAAACGATAGGTAACCCACGTGACCTAACAGAAAAAGACTACCAATGGATTTATAAACGTTGCTTCGATTTAGTAGCAAAAACACTGTAA MSLNMKLEHMYKLHTFEIPTTIKHGIDSIQSIGNEVKQLGVSKALLVTDPGIYEAGVTQPVEKHLKKAGIEVVIFNKVEPNPPVRLIAEGSKLYREKGCNGLVAVGGGSSMDTAKGIGVEATHQGSVLEYEAAEGKKPLENRIPPLTTIPTTAGTGSEVTQWAVITDEKRAFKFNTGGPLIAAHLTIIDPKLHVSMPSHVTAMTGIDALAHAIECFTMHFAQPITDAVALLAMEYVGKYIRRAYADGGDLEARYGMAQAAMLAGLSYGSESAGAAHAMSQTLGGILPVAHGQCVAAMLGPVMEYNWKGHPHKFARIAQALGIDTFHMTTEEAAKAAVNEIYQLVKDLDIPTLEEQGVSPNMIERLSKEAIKDPQTIGNPRDLTEKDYQWIYKRCFDLVAKTL PGPT0008300_16 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0008300-gbsB-K11440 NA NA AK015_01195 675 lnrK_1 COG2197 Transcriptional regulatory protein LnrK ATGATAAAAGTATTACTCGTAGATCGTGAAGGGATATCTAGTGAAGGATTACGTTTAATTATTGAAAGAGAAAGGGAGATGAAGTGGGTAGGAACATATTTTCAAAAAGAAGAAGTTATTCATGCTGTCCAAGAAAAACAACCAGACATTGTTGTCTTTCATATCAATCAATCGCATCATACAGTGATAGAATTAACGAAAGAGATAAAAAGTATATCGAAGCAAATTAAAATTATTTACATTTTGTCATTTATTGAGCCCACCTTTATTACAAACAGTATAAAAGCCGGGGTAGAAGGCTATTTCTTAAGCCACTCTGATCATACCAACTTCGTATCTATGATAAAAAATATTTACCATAATCATTACGTTATTACGGAAGACATTGCAGTAACCATTTTACAACAATTTCAAAAAGGAGATGAAAAACAACGTCTACACGCCAAGCTTTTAGAAAAAGAAATTGATTTAACATGGAGGGAACTCGACATCGCCTTCCTCATCTATCAACGTAAAAAAAATAAAGAAATTGCCCAATCACTACATTTGAAAGAGAAAACAGTTCGCGATTACGTCAGCATCATTTATAAAAAATTAGGAGTAAATAAACGGTTACTTGTCATTAACCTTTTAGAAAATTTAATAGCAGAAGAACCAGAGGACAATTTCCAATAA MIKVLLVDREGISSEGLRLIIEREREMKWVGTYFQKEEVIHAVQEKQPDIVVFHINQSHHTVIELTKEIKSISKQIKIIYILSFIEPTFITNSIKAGVEGYFLSHSDHTNFVSMIKNIYHNHYVITEDIAVTILQQFQKGDEKQRLHAKLLEKEIDLTWRELDIAFLIYQRKKNKEIAQSLHLKEKTVRDYVSIIYKKLGVNKRLLVINLLENLIAEEPEDNFQ NA NA NA NA NA AK015_01196 468 hypothetical protein ATGAAACCAATAAAACGATGGAACAGAGATGACCAACCATTACGCAAATTCAAAAGTGAACTTGATGGAATGTTTGAACGCTTTTTTGATGATCCATTTTTCTCCAACAACAGTTTATGGAATAGACAACAAGGTGGATCATTCGCTTGCAATATTCGTGAAAAGAAAGATAAATATATTGTAGAAGCTGAAATCCCTGGTATAGATCCATCCGATATAGAGGTTGAGATTGAAGACAACATGGTTACGATTAAAGGGGAGAAAAGGCAACAAATAGAAACAGAAGACAATGATACAGAAATGCGAGTTGTGGAGCATAGTTATGGATCATTTCAACGCTCTTTCACACTACCAGATAATGTGAATACGGATAAAGTCAGCGCCGATCATAAAAATGGCATGCTATACCTTCACATTCCAAAAACGAAAGAAAGCAAAAAACGTCGTATTAAAATTAATGGGCAATAA MKPIKRWNRDDQPLRKFKSELDGMFERFFDDPFFSNNSLWNRQQGGSFACNIREKKDKYIVEAEIPGIDPSDIEVEIEDNMVTIKGEKRQQIETEDNDTEMRVVEHSYGSFQRSFTLPDNVNTDKVSADHKNGMLYLHIPKTKESKKRRIKINGQ PGPT0014635_3736 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK015_01197 882 gspA COG1442 General stress protein A ATGAAAGAAGACTTTAAAATTACATATTTAACAGAGAAAGATAGGCTTAAGGGAGATATGTTTATGAATATATTAGTTACCATTGACGCCAATTACATGCACCCAGTAAAAGTAATGCTCCATTCCTTATTTTTACATCATCCTGAGGATTTCTTTTGCATTTATCTCATGCATTCTTCTTTAACAGATGACGAAACGCGCAGATTAAATGATTATATAGAAAGACGCGGGCATGAACTACAGGTTATTACCTTAGAAAACCATCATTTTGCTGACGCTCCTGTCATTAAACATTTTTCAAAAGAAATGTATTATCGTTTATTGGCGTACAAATTTTTACCTAATTCACTGGATAGAGTGCTTTATCTCGATCCAGATATTTTAATTATTAATTCCATACATGATCTGTATCAGATGGACATGGCCAATTATTTGTACGCTGCTGCATATCACGATCGCACCCCCATTACAAATATTAATAAACTTAGGTTACGACCATATGATGTAGAAGCTTACTATAACTCTGGCGTGTTACTACTTAACTTAACAGAACAGCGAAAGCATATTTCTGAACAAGCTATTTATGAATTTGTAGAAGTAAACAAAAAAAAATTAATTCTCCCAGACCAAGATATTCTAAACGGCTTATATGCAAAGCAAATTAAAGATATCGATGAAGTTCGTTATAATTTTGATGCACGATTTTATTATTACTATAAGATTACGAGCAAAAATAAAATAGATATGGATTTTGTTATCAACAATACATCGATTATTCATTTCTGTGGTAAAAAGAAACCATGGTACAAAACATATTATGGGAGCTTTCATTCGTTATATAAACATTATGAACGCTTTGCATTCCATTCGGTTAACAAATAA MKEDFKITYLTEKDRLKGDMFMNILVTIDANYMHPVKVMLHSLFLHHPEDFFCIYLMHSSLTDDETRRLNDYIERRGHELQVITLENHHFADAPVIKHFSKEMYYRLLAYKFLPNSLDRVLYLDPDILIINSIHDLYQMDMANYLYAAAYHDRTPITNINKLRLRPYDVEAYYNSGVLLLNLTEQRKHISEQAIYEFVEVNKKKLILPDQDILNGLYAKQIKDIDEVRYNFDARFYYYYKITSKNKIDMDFVINNTSIIHFCGKKKPWYKTYYGSFHSLYKHYERFAFHSVNK NA NA NA NA NA AK015_01198 147 hypothetical protein ATGGGAAAGCGCAGTGGGATGACCCCGAAGAAAAAGCAAACTGCTTTTTTTGAGGAGGCTGAGCGCCAGCCATGGAAAACGTTGTGCTATTCCACAGCGGTCACTAGCTATGCATTTTGTAAGCAATTGTTCCATTCAGAACAATAA MGKRSGMTPKKKQTAFFEEAERQPWKTLCYSTAVTSYAFCKQLFHSEQ NA NA NA NA NA AK015_01199 948 licT COG3711 Transcription antiterminator LicT ATGATCAGGCACCACCAAGTCAAATGTAACGTTAGTGAACTTCTCTTCATTTTCTGTTATGTTTTGATATTGGTGTTTTTTTATGGCTTTTTTAAGGGTGTGACTATATTGCTAACCATTATAAAATCATTAAACAACAATATCATTTTAGCCAAGTCTGAAAAAAATGAAGAATTGATTATATTTGGCACTGGTATCGGTTTTAAAAAGAAGCACGGAGATTTAGTAGATGAATCAAAAGCCACAAAAGTCTTTAAAGCAGAAAAAAACATGCAAACAAGGACGTTTTTAGAACAAATCTCTCCTGAGCTTTTAGCCGTAACTGAAAAAATTGTCCGGCTTGGCGAAGACAAGTTGCAAAAGAAGTTAAATCAATCGATTCTTTTTTCTTTAGCAGACCACTTACAGTTTGCTACAGATGAAAAATACCATACTACAAATAAAGATAATCCATTACAATGGGAGATTCCTTACTTATATTATGAGGAATATGAAGTTAGTAAAATAGCCGTACAAATCATTCAGGATGATCTTGGCTACACCCTTCCCAAAATGGAAGCTGCTTTTATTGCGCTACATTTTGTCAATGCGCAAATCGATAGCTCAACCATGGAAGAAACGATCCAAATTACCAAACTTATTAAAAATATTGTTAAAATCATTCAAAGATTATTTGAAGTCAATATTGATAAAACAACGATTAATTATTCACGCTTTATTACTCATCTCCGCTATTTCATTGCTCGACAAAAAATGAAACAGCGAGAAAGTATTCAAATGGATGAAGCATTAAAGAAAACCATTGAAGAAAGATATATGAAAAGCTATGCTTGCGGATTAATGATTAAAGAAATGGTTGAAAAAGAATTCAACTGGGAAGTCACTTATGATGAAATTGCATTTTTAGTTATTCATATCGAACGTATTTTTCAAGAGAATAGATCCTAA MIRHHQVKCNVSELLFIFCYVLILVFFYGFFKGVTILLTIIKSLNNNIILAKSEKNEELIIFGTGIGFKKKHGDLVDESKATKVFKAEKNMQTRTFLEQISPELLAVTEKIVRLGEDKLQKKLNQSILFSLADHLQFATDEKYHTTNKDNPLQWEIPYLYYEEYEVSKIAVQIIQDDLGYTLPKMEAAFIALHFVNAQIDSSTMEETIQITKLIKNIVKIIQRLFEVNIDKTTINYSRFITHLRYFIARQKMKQRESIQMDEALKKTIEERYMKSYACGLMIKEMVEKEFNWEVTYDEIAFLVIHIERIFQENRS PGPT0014761_772 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 AK015_01200 1869 bglF COG1263 PTS system beta-glucoside-specific EIIBCA component ATGGATAAGCAAAAGCTTGCGGCAAAAATCATTAAAGAAATGGGTGGAAAAGAAAATATCATACAAAATTGGCACTGCATTACCCGTTTGCGCTTTAATGTAACAAGTAACAACGAGGTGAACATCGATAACATTAAAGCACTTGACGGTGTCCTAGGAGCACAATTTCAAAGTGGACAATTTCAAGTCATTATTGGTAATCAAGTAGCTGAAGTTCATGCTGAAATTAGCAATATCTTAGGTACAGGTGAGAATAATCAATTACCTTCAGCTAAAAAACAAAATGGAAATATTATTGAACGTATATTCGATGTTATTTCTGGGATTTTCACCCCTATTTTACCGGCCATTGTTGGAGGTGGATTATTAAAAGGATTACTCGCTTTGTTCATTGCAGTAAATCTACTATCTGAACAAAGCTCGACCTATGAAATCTTGCACTTTATTTCGGATGCACCGTTTCACTTTTTACCTTTCTTAATCGCATTTTCAGCTGCGAAAAAATTTAATACCGACGCTTCCCTTTCTGTTGCTTTAGCTGGTATTCTTATGTACCCAAAAATAATGGAGTATGCAGCGGGAACAGAAGTAGACAGTTTAAGCTTTTTGGGTTTACCAATTCCGATGAACAGCTATGCATCATCCGTTATCCCAATTATATTAGGGGTTTGGCTATTAAGCTATATTTATAAAGGTGCAGATAAAATCGTGCCTCGATCACTACGTATTATCTTTGTTCCGTTACTAAGCTTGGTTATTACGGCACCATTCATGTTAATGTTTATTGCACCATTAGGAAGCTATGCAGGGATTTATCTAGATACCTTTTTCTCAGGAATGTTTGATATTGCTGGGCCAATTGCCGGGCTATTAATGGGTGGCCTCATGCCGCTGATCGTTATTACAGGCATGCATTATGCATTTTTCCCTGGAACATTTGCAAGTTTTGATAAGTATGGTTATGACATTATGCTGTTACCTATGAACTTTGTCGCTAATTTAGCACAAGCAGGAGCAACGTTAGGTGTGTTGCTTAAAACGAAGAATAAAAAAATGAAACAGTTATCTTTCTCCACTTTCATTCCAGCATTGTTTGGAATTACAGAGCCAGCCATTTACGGTGTTACGATGAAGTTAAAGAAACCATTTTATGCAAGCTTGATTGGTGGTGCTGTCGGCGGAGGTATCTACGGAACATTCGCTGTAAAAACAACTGCGTTTACCGTTCCAGGCATTATGTCCATACCAACTTATATTTTTAGTGGAAATAATTTACTTTATGCGCTCATTGGCGTAATTGCAAGTTTTTCTGTTGCACTACTAGTAACTGTACTGCTTGGCTTCGAGGATGAAGATAGTCCTTTAGAGGAAAAAACTTCATCTAATGATAAAGCCATGATCGAAAAGGATGTAACAATTAACATTCCATCACCAATAACAGGAAAAGTTATGCCTTTAGAATCCGTTCCAGATCAAACATTTGCTGACGGACTTGTCGGAAAAGGATTAGCCATTGAGCCCGAGGGAGACACTGTATACGCTCCTTTTTCAGGAAAGGTTACTACAGTCGTACCTTCCAAACATGCTATTGGCATTACGTCAGACGATGGTGTGGAATTACTTATTCATGTCGGTTTAGAAACGGTAAATTTAAATGGCGAAGGATTTGCATTAAACGTGGAAGTCGATGATGACATACAACTCGGAGACAAGCTATTAACGTTTGATTTACATGCATTAAAAAAGCAAAACGTTTCTATTATTACACCTATTATTATCACAAATTCCCCTCATTTCTTAGATGTGATAGCCACATCTGAAAAACAGGTAACTGCCTGTGATGATAAATTAATTATGTTAATTAAGTGA MDKQKLAAKIIKEMGGKENIIQNWHCITRLRFNVTSNNEVNIDNIKALDGVLGAQFQSGQFQVIIGNQVAEVHAEISNILGTGENNQLPSAKKQNGNIIERIFDVISGIFTPILPAIVGGGLLKGLLALFIAVNLLSEQSSTYEILHFISDAPFHFLPFLIAFSAAKKFNTDASLSVALAGILMYPKIMEYAAGTEVDSLSFLGLPIPMNSYASSVIPIILGVWLLSYIYKGADKIVPRSLRIIFVPLLSLVITAPFMLMFIAPLGSYAGIYLDTFFSGMFDIAGPIAGLLMGGLMPLIVITGMHYAFFPGTFASFDKYGYDIMLLPMNFVANLAQAGATLGVLLKTKNKKMKQLSFSTFIPALFGITEPAIYGVTMKLKKPFYASLIGGAVGGGIYGTFAVKTTAFTVPGIMSIPTYIFSGNNLLYALIGVIASFSVALLVTVLLGFEDEDSPLEEKTSSNDKAMIEKDVTINIPSPITGKVMPLESVPDQTFADGLVGKGLAIEPEGDTVYAPFSGKVTTVVPSKHAIGITSDDGVELLIHVGLETVNLNGEGFALNVEVDDDIQLGDKLLTFDLHALKKQNVSIITPIIITNSPHFLDVIATSEKQVTACDDKLIMLIK PGPT0016920_1105 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 AK015_01201 1473 bglH COG2723 Aryl-phospho-beta-D-glucosidase BglH ATGAATCAATCATTACAAACAACATTTCCAAAAGATTTCTTATGGGGCGGTGCTACTGCTGCCAACCAAATAGAAGGTGCTTATGACAAAGACGGAAAAGGGCTGTCTACATCTGACATGGCTGCTTATAAAGATCCATACGCTGGAGGGAAGGTAGATAATTTCACATTTAATGTGAATTCCGTTGAATTAGAGGAATATTTAAACCATCCTGATAAATATTTGTTCCCTAAACGCTGGGGAATTGACTTCTATCACCGCTATAAAGAAGACATTGCGTTATTTGCTGAAATGGGCTATAAGGTGTTCCGCTTATCTATTTCTTGGGCACGTATCTTCCCAACAGGCTTAGAAGATAAACCTAACGAAGCGGGATTAGCATTCTATGACAAGGTTTTTGACGAGCTCGCTAAGTACGACATTGAACCCCTTGTAACAATGTCACATTATGAAATGCCACTTACGTTAACCCAAAAGTATAATGGCTGGGTAAGTCGCGAGTTAATTGGCTTATTTGAAAAGTTTGCTCGGGTACTTTTTGAGCGTTATAAAGATAAAGTAAAATATTGGATTACATTTAACGAAATGAATATGAATTTAAATAGTATCTATACAGGCGCTGGTGTCCTAGCTGATAAAGTAGACAATGTAGAAGAAGCAGCCTACCAAGCATCTCATCACCAATTTTTAGCTAGTGCACTTGCCGTAAAAGCTGCACGAGAAATTATGCCAGAGGCACACATCGGCTGTATGATTAACCAAATTGAATCGTATGCACGTACAACGAAACCAGAAGATCAATTACAAGCATTAAAGGCAGATCAAATTAATATGTTCTATCCTGATGTACAAGTGCGAGGTAAATATCCAAATTACATGGTACGTTATTTTGCAGAGAATGATATCAACCTAGAAACAAAACCAGAAGATGCAAAAATCCTAGCAGAAGGTACTGTCGACTTTATTGCTTTTAGTTATTATATGAGTCACGTAACAGAAGCACGTCCAGATGCAGCTAAAATTGCTGGTTCTTTTGACAGTCCTATCAAAAATGAATATTTAGAGCTATCACAATGGGATTGGCCGATTGATCCAATTGGATTAAGAATTTCTTTAAACAAATTATATGATCGATACCAAAAACCGTTATTCCTAGTGGAAAATGGACTAGGCGCACGAGATGAGCTTACAGAAGACGGAAAGATTCATGACCCTTATCGTATCGATTACATTAAAAAGCATATTATTGAAATGAAAGAAGCAATTCAAGATGGCGTCGAACTGATGGGATATACGACTTGGGGATGTATTGATTTAATTAGCTGTGGTACATCACAAATGTCCAAGCGTTACGGATTTATTTATGTAGATCAAGACGACAAAGGAAATGGAAGCTTAGAACGTTACAGAAAAGACTCTTTCTATTGGTATAAAGATGTTATTGCATCTAACGGTGAGAACCTAGGAGAATAA MNQSLQTTFPKDFLWGGATAANQIEGAYDKDGKGLSTSDMAAYKDPYAGGKVDNFTFNVNSVELEEYLNHPDKYLFPKRWGIDFYHRYKEDIALFAEMGYKVFRLSISWARIFPTGLEDKPNEAGLAFYDKVFDELAKYDIEPLVTMSHYEMPLTLTQKYNGWVSRELIGLFEKFARVLFERYKDKVKYWITFNEMNMNLNSIYTGAGVLADKVDNVEEAAYQASHHQFLASALAVKAAREIMPEAHIGCMINQIESYARTTKPEDQLQALKADQINMFYPDVQVRGKYPNYMVRYFAENDINLETKPEDAKILAEGTVDFIAFSYYMSHVTEARPDAAKIAGSFDSPIKNEYLELSQWDWPIDPIGLRISLNKLYDRYQKPLFLVENGLGARDELTEDGKIHDPYRIDYIKKHIIEMKEAIQDGVELMGYTTWGCIDLISCGTSQMSKRYGFIYVDQDDKGNGSLERYRKDSFYWYKDVIASNGENLGE PGPT0019255_226 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223 NA NA AK015_01202 879 ywpJ_1 COG0561 Phosphatase YwpJ GTGTTCTATGTTGTAGAGAGGATGGATTTATTGAGTAAAAAAATTGTTTTCATTGATATCGATGGAACATTAACCACACCTGATGGTAAAGTACCTTCGTCAGCTAAACAAGCTATTCGTACTGCCCGACAAAATGGGCATCTTATGTATTTGTGTACAGGACGATCAAAGCCTGAAATTATTTCCAGCATTTTAGAAATCGGTTTTGACGGAATTATTGGAGCTGGCGGTGGCTATATTGAAGTAAATAACGAGCTTGTTCATCATCAAACCATGCCAGAACAGTCCGTCAGAAAGATTGTTGATTACTTCCATCAGCATGAAATTGGCTATTATTTAGAATCCAATGAGGGCTTATTTGGCAGTGATAACTGTGAAGAAGTAATACGTCAACGTGTTACGAATAAGTTAGATAAAGATAGTGTAGCATATAAGCAAGCTGATGCTGAATTCCACTGGTTTTATCAATTACTCGATATGTATCGAGGTAAAGCTATTGACTATGGAAATGTAAATAAGATATCTTTCATCAGTAATCAACATCAGCCATTTGAAGAAATTAGCAACAAATTTGGAGAAGCATTTACGATGTATCGAACAACCGTTGCACAATTTGGTCCAGAAAGTGGCGAAATTGCTGTTAAAGGTGTTGATAAATACAAAGCAGTGAAATACGTTTTAAACGATTTACAAATTCCCAGAGAACAAAGCATGGCCTATGGAGACGGCAATAATGATATCAAAATGTTTGAAGCTGTCCACTACGGTGTTGCTATGGAAAATGCTACCGATGATTTGAAAAAAGTTGCCCAAGAAGTAACAGCCAAAGCAGAAGATGATGGGATAATGCATAGCTTTAAGCAACATCAATTGCTTTAG MFYVVERMDLLSKKIVFIDIDGTLTTPDGKVPSSAKQAIRTARQNGHLMYLCTGRSKPEIISSILEIGFDGIIGAGGGYIEVNNELVHHQTMPEQSVRKIVDYFHQHEIGYYLESNEGLFGSDNCEEVIRQRVTNKLDKDSVAYKQADAEFHWFYQLLDMYRGKAIDYGNVNKISFISNQHQPFEEISNKFGEAFTMYRTTVAQFGPESGEIAVKGVDKYKAVKYVLNDLQIPREQSMAYGDGNNDIKMFEAVHYGVAMENATDDLKKVAQEVTAKAEDDGIMHSFKQHQLL NA NA NA NA NA AK015_01203 1323 argH COG0165 Argininosuccinate lyase ATGAAGCTTTGGGGAGGACGGTTCACAAAAGAAGAAGATACGTTAATGGAAGTGTTCAATTCATCGTTAGAGGAAGACCTAGCTCTTGTAGAAGAGGATCTAGATGGGAGCATTGCGCATGCAGAGATGCTCGTGCATTGTCATATTATTGCGCAGGAGGAAGGGGAGAAAATAGTTCAAGGGCTTCACAAGATAAAACAAGATATAGCAACTGGTAATTTAGTCGTTGAAGGAGACCATGAAGATATTCATAGCTTTGTAGAAGCAACATTGACAGAAATGATTGGCGAAGCAGGAAAGAAGCTTCATACATCACGAAGCAGAAATGATCAAGTGGCGACGGATTTAAAATTATATACGAAGAAACGAGCGAAAGAAACAATAAATAAACTACAGTTATTGATTCATAGCTTGGAAAAAACAGCAGTAGCAAATCAACATGTTATTATGCCAGGCTATACGCATTTACAACGCGCTCAAGTCGTTACCTTTGGGTATCATTTGCGGGCTTATATCGAAATGTTTACGAGAGATACAAAGCGTTTGGAGCAGACCGTAGCTAATTTAAATGAGAGCCCGCTTGGCTCTGGTGCATTAGCAGGAACGACGCACGACATTGATCGCCAAATTACTGCGGAAAAACTAGGCTTTTCTAAACCAGCAGCTAATTTTATGGATGGTGTCAGTGATCGTGATTTTATTATTGAATTATTATCTGATCTCTCCATTATTATGATGCATGTAAGTCGATTAAGTGAAGAGCTAATTTTATGGAGCAGTCAAGAGTTTTCTTTTATTAAAATCGATGATGCCTATGCAACTGGGAGCAGCATTATGCCACAGAAAAAGAATCCTGATGCAGCTGAATTAATCAGAGGTAAAACTGGAAAAGTATACGGGGCATTAGTTAGTGTATTAACGACGATGAAAGGTTTACCACTTGCTTATAATAAAGATATGCAAGAAGTAAAATCACCCATGTTTCAGGCGGTAGATGAAGTATTGCTTTCTATAAAAATGATGGATAAGATGGTTGCCACCCTGCAAGTGAATGGGGAGCAAATGAAGCAAGCAATTAAAGCGGGCTTTTTAAACGCGACAGAGGTAGCGGATTATCTTGTCCAAAAAGGTGTGCCTTTCCGTGATGCGCATGGTGTAGTAGGTGCGATTGTTTTATATGGAGAAAAAGTAGGGAAGAGTATTGAACAATTAACGTTGGAAGAACTACAGCAATTTAGTGATTCGATAGAACAAGATATATTTGCTTATGTAGATTATACGAATCTATTAAAAAGAGGAAATAAAAAAGAAATGCTTGACTAA MKLWGGRFTKEEDTLMEVFNSSLEEDLALVEEDLDGSIAHAEMLVHCHIIAQEEGEKIVQGLHKIKQDIATGNLVVEGDHEDIHSFVEATLTEMIGEAGKKLHTSRSRNDQVATDLKLYTKKRAKETINKLQLLIHSLEKTAVANQHVIMPGYTHLQRAQVVTFGYHLRAYIEMFTRDTKRLEQTVANLNESPLGSGALAGTTHDIDRQITAEKLGFSKPAANFMDGVSDRDFIIELLSDLSIIMMHVSRLSEELILWSSQEFSFIKIDDAYATGSSIMPQKKNPDAAELIRGKTGKVYGALVSVLTTMKGLPLAYNKDMQEVKSPMFQAVDEVLLSIKMMDKMVATLQVNGEQMKQAIKAGFLNATEVADYLVQKGVPFRDAHGVVGAIVLYGEKVGKSIEQLTLEELQQFSDSIEQDIFAYVDYTNLLKRGNKKEMLD PGPT0014242_86 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681 NA NA AK015_01204 1515 hypothetical protein ATGGGGATTGTTTCTTTAATTCCACCAATAATAGCAATTGTATTAGCCATTATCTTTCGTAATGTTATTGTATCTTTATTCACGGGGTTATTTGTAGGAATTGTTATTCTTGCTAACGGAAATCCAATTACTGCAACAACGAGCACAATAAGAGAGTATTTGTTTCCGCAATTAACAGATAGCTATAATGCAGCCGTCATCGTCTTATTATGTTTTATAGGAGGCTTTGTTGCCTTAGTAGAACGTTCAGGAGGAGGAGCCGCTTTAGCGAAAAGAACAGCTAAATGGATTAATACGAACACAAAGACGCAGTTATCTGCCTGGTTTGGAGGGATTATTATCTTTTTTTCCGATATGGGAACGCCTTTAATTGTCGGTCCTGTATTTGAAAAACTGTTTGATAAAGTGAAGGTGTCTAGAGAAAAATTAGCTTGGATTCTCGATTCGACATCATCACCTGTTGCCATTCTCATCCCTTTTATTGGCTGGGGAATATATGTGATGGGGATTATAAAAGAAGAATTTGCACGGTTAAATATAACAGCGTCTGAATTTACAACGTTTGTAGAAGCAATTCCCTTTCAGTTTTATGCCATTCTATCCGTGTTCATCGTGCCAATTGTAGCTATAACGAAAATGGATTTTGGAGCAATGGCTAAAGCGGAAAAACGTATAGAGCAGACGGGGAAAATTTACTGGCAACAATCTAATCCGCTACGTAAAACGGATGTAGATGCTGAAACAATGCCTGAAAGTCATCCGATGTTAATTTGGCTCCCACTTGCTGTTTTATTTATTACTTTATTCAGTTTATTGGTGTCATATGGTTTTCCAGCAAAAGCTGTACCGGGAAGTGATTTCCGAGTTGCATTAAGCACAGCTTACTTATTTGCTGCCATCCTATTAATGGTATTAATGGTACTATATAAAGTGAAGAAAATGAATGAGATATTTACTATATATCTACAAGGAATGCAACGAATGATGCAAGTCATTCTGATTTTGGTCTTAGCGTGGGCATTAGGATCTTTGTTAGGTGAAATGGGAACGGCAGCGTATATTGTTGAACAATTAGAAGGGAATGTACCTGCCTATATAGTGCCAGCAATTATTTTCTTAGCTGCAGCAAGTATGTCTTTTGCAACTGGTAGCTCATGGGGAACTTTTGCCATCATGCTTCCGCTCGCCATTCCAATGGCATCTGGTCTTGAAGCTCCGATGCTTGTCAGCATTGGTGCGGTATTATCAGGAGGGCTATTTGGTGATCATTGTTCTCCAATATCTGATTCAACAATCCTAGCTTCAACGGGGGCAGGTTGTGACCATATCGATCATGTAAAAACACAATTACCATATGCGCTAACCAATGGATTCATTGCACTCGGATCGTTTATCATAGCTGGGTTTACGGGAAGTAATTTGACAATTGTAGGAAGTATTGTATTCATGGTTGTGCTGTTTATCGTTTTATCGAAACGAAAAAATAAACAACAAGGAGTGGAAAATGTAGCATGA MGIVSLIPPIIAIVLAIIFRNVIVSLFTGLFVGIVILANGNPITATTSTIREYLFPQLTDSYNAAVIVLLCFIGGFVALVERSGGGAALAKRTAKWINTNTKTQLSAWFGGIIIFFSDMGTPLIVGPVFEKLFDKVKVSREKLAWILDSTSSPVAILIPFIGWGIYVMGIIKEEFARLNITASEFTTFVEAIPFQFYAILSVFIVPIVAITKMDFGAMAKAEKRIEQTGKIYWQQSNPLRKTDVDAETMPESHPMLIWLPLAVLFITLFSLLVSYGFPAKAVPGSDFRVALSTAYLFAAILLMVLMVLYKVKKMNEIFTIYLQGMQRMMQVILILVLAWALGSLLGEMGTAAYIVEQLEGNVPAYIVPAIIFLAAASMSFATGSSWGTFAIMLPLAIPMASGLEAPMLVSIGAVLSGGLFGDHCSPISDSTILASTGAGCDHIDHVKTQLPYALTNGFIALGSFIIAGFTGSNLTIVGSIVFMVVLFIVLSKRKNKQQGVENVA NA NA NA NA NA AK015_01205 675 ung COG0692 Uracil-DNA glycosylase ATGACGAAGCAAATTCTATTTAATGATTGGGAAGAATTACTAAAAGAAGAGTTTCATAAATCGTATTATTTGCAGCTGAGAGAGTTTTTAAAGCAAGAGTATACTTCATACACGATCTATCCAGATATGAAAGCTATATTTAATGCCTTACACTATACGCCATTTGCCGAAGTAAAAGTAGTTATTTTAGGTCAAGACCCTTACCATGGTCCAAAACAAGCACATGGGTTAAGCTTTTCGGTGAAAAAGGGAGTTGCCCTGCCCCCTTCATTAAAAAATATCTTCACCGAAATGAAGCACGATTTGGGGCATGCTATTCCTGCTCATGGCTGTTTAGAATCATGGGCCAAACAAGGCGTATTATTATTAAATAATGTGCTCACTGTCCGCAAAGGTCAAGCACATTCACATCGTGGAAAGGGGTGGGAGCAATTCACTGATCGTGTTATTCAGTTGCTTAATCATAAGGAAGACCCTGTTGTGTATATTTTATGGGGCGGCGCTGCACAAAAAAAGCAGTCTCTCATTGATACAGATAAACATTATATTATAAAATCTCCGCACCCAAGCCCCTTGTCTGCGTACCGAGGGTTTTTTGGCAGTAAACCTTTTTCGCAAACAAATCAACGATTAGAGCAGCTAGGTAAACAAACGATTGATTGGAAGATTGAATAA MTKQILFNDWEELLKEEFHKSYYLQLREFLKQEYTSYTIYPDMKAIFNALHYTPFAEVKVVILGQDPYHGPKQAHGLSFSVKKGVALPPSLKNIFTEMKHDLGHAIPAHGCLESWAKQGVLLLNNVLTVRKGQAHSHRGKGWEQFTDRVIQLLNHKEDPVVYILWGGAAQKKQSLIDTDKHYIIKSPHPSPLSAYRGFFGSKPFSQTNQRLEQLGKQTIDWKIE 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 AK015_01206 1296 iaaH Indole-3-acetyl-aspartic acid hydrolase ATGGCAATAGAATTAAAGAAGAAATTAATGAACTGGCGAAGGGATCTGCATCAACACCCTGAAACGGGGTTTTTAGAAATGAGAACCGCGTCCATCGTTGCTGGTGTTTTATCGGAATTAGGATTTACCTTACAAATGGGCAAAGAAGTAATGTCAGAAGCACACTGTATGGGAAAACCTGACGCAAAAGAGACAGCTATGCACTATACTTGGGCTTGTGATCATGGAGCGAATGAATCATTTGTAGGACTTTTTAAAGAAGGGTTCACAGGGATTGTTGCTACGATGAAAACAAATCGTCCTGGGCCGGTAATTGCTTACCGTTTTGATATGGATGCGCTTGATATTCATGAATCGGAAGCTTCTAATCACGTTCCCACTAAACTTGGTTTTCGCTCACAAGTTGATGGGAAAATGCATGCATGTGGACATGATGCGCATACCGCAATTGGTCTAGGCTTAGCAACATATCTTGCTGCTGAAAAGGAAAACCTCTCCGGTACGATTAAACTTATTTTTCAGCCAGCAGAAGAAGGAACGCGCGGTGCAAAATCAATGGTTGAAGCGAATGTCGTTCGTGACGTAGACTATTTTATTGCTTCGCATATTGGAACAGGAGTGCCACATGGTCATTTTCTAGCAGCTAATAATGGCTTTTTAGCTACGTCAAAATTGGATGTAACGTTTAAAGGCACTGCTGCGCATGCTGGCGGGAATCCTGAACAAGGAAGAAATGCTTTGTTAGCTGCAGCGGCTGCTACCTTGAATATGCACGCCATTTCTCGTCATTCAGAAGGAATCTCAAGAATAAATGTAGGTGAACTCCATGCTGGAAGTGGCAGGAATATTATTGCGCACCACGCAAAAATGAAGGTGGAAACAAGGGGAGAGCATGCTGGAATAAATCAATATATCAAAGAGCAAGTGGAATTGATTGTCGCTGGTGCTGCTACGATGTATCAAGTCGATTATGACATAGAAACAGTAGGTGAGGCGATTCATTGTAAGTGTTCTGAGGAATTAGCGCATATCCTTTATAGATGTGCTAATGCATCATCGGAAATAGAGCATGTAGAGCTACAAAAGGATGCTGGAGCAGGGTCTGAGGATGCCACGTATTTTATGGAGGCTGTTCAGAAAAATGGTGGATTAGCGGCATATTGTATTTTTGGAACGGAATTAGCTGCAGGGCATCATAACGAGAAGTTTGATATTGATGAAGAAACATTGCTACCCGCTGTTAAAATTTTATACCAATCTGTATATGAAATTTTAAAAAAAGAACACGATGCGTAA MAIELKKKLMNWRRDLHQHPETGFLEMRTASIVAGVLSELGFTLQMGKEVMSEAHCMGKPDAKETAMHYTWACDHGANESFVGLFKEGFTGIVATMKTNRPGPVIAYRFDMDALDIHESEASNHVPTKLGFRSQVDGKMHACGHDAHTAIGLGLATYLAAEKENLSGTIKLIFQPAEEGTRGAKSMVEANVVRDVDYFIASHIGTGVPHGHFLAANNGFLATSKLDVTFKGTAAHAGGNPEQGRNALLAAAAATLNMHAISRHSEGISRINVGELHAGSGRNIIAHHAKMKVETRGEHAGINQYIKEQVELIVAGAATMYQVDYDIETVGEAIHCKCSEELAHILYRCANASSEIEHVELQKDAGAGSEDATYFMEAVQKNGGLAAYCIFGTELAAGHHNEKFDIDEETLLPAVKILYQSVYEILKKEHDA NA NA NA NA NA AK015_01207 1518 abgT_2 COG2978 p-aminobenzoyl-glutamate transport protein ATGAAAGAAAAAACAAATAAAAGTTTATTTCAGAAATTTTTAAATGGAATTGAAAAGTTTGGTAATAAACTTCCTGATCCATTTATCTTATTTATAGCGTTAGCTATTATCATCATTATTGCTTCTTCTATTTTTAGTATGTTTCATGCCTCAGTAACCCATCCTGGTTCTGGAGAAGAGCTTCCAATTAAAAACTTGGCTTCGGGTGAAGGAATTCAATTTATTTTAAGTTCCATGCTAGATAATTTTACTGGATTTGCTCCTCTAGGATTAGTGCTTGCAATGATGCTTGGTATTGGTTTGGCAGAAAAAGTAGGCTTACTAGATTATGCCATTCGAAAAACCATCTTAAAATCTCCTCCAGCACTAATTACGTATACGGTTGTATTTGTAGGTATTCTAGGCAATTTGGCTTCTGATGCAGCGATGGTACTTATACCACCACTGGCAGCAATGGTATTTTATAAAATTGGACGCCACCCGTTAGCTGGTTTAGTGGCAGGTTACGCGGCTACAGGTGCAGGTTTTACAGCTAATCTGTTTATTGCTGGAACAGATGTATTATTGGCGGGAATTTCGACTGAAGCAGCAGCTATTATTGACGACTCGATTGTAGTTACTCCTTTAGATAACTGGTATTTTAATGTTGTATCTGTGTTTGTTATTACGATTGTGGGCGGACTTATTACGGATAAATTTATTGAACCGCGTTTAGGTAAATACAAAGGAGGAGCCATTGATGCAGGATTGGAAGAAGATCATCCGAAAGCTGGAAAAGCATTTCGTAATTCGATTATAGCTGCTTTAGCTTATATCATTTTAATTGTCATTACTATTTTTATGCCGAACAGTCCGCTAAGAGGAGAAGGTGGCAGCATTGTTCCTTCGCCATTTTTAGATGGAATTGTACCAATTATCCTAATTTTCTTTGTTATTATTGGAGTCACTTACGGTATAACAGTAGAAAAAATAAAATCTAGCAGAGATGTTAGTGGCTATATGGCTGAGTCTATGAAAGACATGGCTGGATACATTGTTTTGATATTCGCAATCGCTCAATTTATAAACTATTTTAGCTGGTCTAATATCGGCACTTGGGTGGCAGTAAATGGGGCAGATTTACTCAAAGAAATTAACTTTACTGGGATTTGGCTAATTATCGGATATATTTTGTTCACAGCTTCATTAAACTTCTTGATTACTTCTGGGTCGGCTAAATGGGCTTTAGAAGCGCCAGTATTTATCCCAATGTTTATGCAACTAGGCTACAGTCCGGCATTTACACAGGTTGCCTACCGCGTTGCGGACTCGTCCACAAATATTGTAACGCCACTAATGCCTTATATGGTTATTATCTTAGCATTTATGCAAAAATATGATAAAAAAGCTGGTATCGGTACATTTATTTCATTGATGATTCCCTATTCAGTTGCATTTTTATTAACATGGATTATTCTTATTTTAATATTCTTTTATGCAGGTATTCCATTCGGTCCAGGTGTAACACCGTTTTTATAA MKEKTNKSLFQKFLNGIEKFGNKLPDPFILFIALAIIIIIASSIFSMFHASVTHPGSGEELPIKNLASGEGIQFILSSMLDNFTGFAPLGLVLAMMLGIGLAEKVGLLDYAIRKTILKSPPALITYTVVFVGILGNLASDAAMVLIPPLAAMVFYKIGRHPLAGLVAGYAATGAGFTANLFIAGTDVLLAGISTEAAAIIDDSIVVTPLDNWYFNVVSVFVITIVGGLITDKFIEPRLGKYKGGAIDAGLEEDHPKAGKAFRNSIIAALAYIILIVITIFMPNSPLRGEGGSIVPSPFLDGIVPIILIFFVIIGVTYGITVEKIKSSRDVSGYMAESMKDMAGYIVLIFAIAQFINYFSWSNIGTWVAVNGADLLKEINFTGIWLIIGYILFTASLNFLITSGSAKWALEAPVFIPMFMQLGYSPAFTQVAYRVADSSTNIVTPLMPYMVIILAFMQKYDKKAGIGTFISLMIPYSVAFLLTWIILILIFFYAGIPFGPGVTPFL NA NA NA NA NA AK015_01208 1428 abgB_2 COG1473 p-aminobenzoyl-glutamate hydrolase subunit B ATGGAAGGTTTCATCAGAGATTATTTGCGTGAAAAAAAGGCGTTTTTTGAACAGATAAGCCAGTTTATTTTTTCTCATCCAGAAACAAGATTTGAGGAGTATGAATCAGCTTCTTTTTTGGCAGAAGCATGTGAGAAGCAAGGGTTTGAGGTTGAAAAAGGAGTGGGAAATATTGCTACTGCATTCGTAGCAACATATGGAAAAGGCGCCCCTATTATTGGTTTTTTAGGGGAGTATGATGCATTGTCTGGCCTAAGTCAAACCCCAAATCAAACGACTTACCAGCCGTTGGAAACAGATATCGGTCATGGATGTGGTCATAACCTGCTCGGTACAGGAGCATTTGCCGCAGCTTGTGCTGTAAAGGAATATCTCGACAAGCATGGCCTTTCAGGAACGGTGAAATTTTTTGGATGTCCTGGAGAAGAAGGAGGGTCTGGCAAAACGTTTATGGTAAGGGAAGGTGTATTTACAGGTGTTGATGCTGCACTAACTTGGCACCCATCTCCTGTGAATGCGATTATGAGTGCCTCGAGCCTGGCTAATTATCAGATATCTTTCGCTTTTAAAGGGACAACCTCCCATGCCGCTAATTCCCCTCATTTGGGAAGGAGTGCACTGGACGCTGTTGAACTGATGAATGTAGGCGTGAATTATTTACGAGAGCATGTTGTACCAGAAGCGAGATTGCATTATGCAACAACAAATACAGGTGGGATTTCTCCTAATGTTGTGCAAGCAAACGCGGAGGTATTATATTTAATCCGGGCACCAAAAGTAAAACAAGTAGAGGATATATATCAGCGTGTTTGCAAAATTGCACAAGGTGCTGCATTAATGACAGAAACAGAGCTTACAATCAGATTCGATAAAGCTTGTTCGAATTATATTCCGAACAGAAGCATGGAGAATATGCTGCATGACCAATTGTGCAAATCAGATGTAGAAAAGCCGACAGAAGAAGAAAAATTATTCGCGGAAGACATCTGGCATTCGCTTACCGATTCGGAACGAGAAGGGTACTTGGAAATTATTGAAGGGTTTGGTTATGTTGGTAATGGAGAGGAGTTTGCTAATAAATATCTTGCAGAGACGATATCTCCATATGAAGCATCTGACAAGATATTATCCGGCTCTACGGATGTCGCAGATGTTAGCTGGGTAGTACCGACAGCTCAATTAACTGCTGCAACTTCTACACTAGGAACGCCACTACATTCATGGCAAATGACAGCACAAGGAATTTCAAGCTTTGCTCATAAAGGAATGCTACGAGCGGCTCAAGCAATGGCATTGACAGGAATTCAATTATTGACAGATTCTGTTGCTTTAAAAGAAGTGAAAGAGGAATTTCAACAATTCACAGAAAAAAATCCATACACATGCCCTATTCCTAAAGAAGTACAGCCTTCTGTATTAAAAACCTAG MEGFIRDYLREKKAFFEQISQFIFSHPETRFEEYESASFLAEACEKQGFEVEKGVGNIATAFVATYGKGAPIIGFLGEYDALSGLSQTPNQTTYQPLETDIGHGCGHNLLGTGAFAAACAVKEYLDKHGLSGTVKFFGCPGEEGGSGKTFMVREGVFTGVDAALTWHPSPVNAIMSASSLANYQISFAFKGTTSHAANSPHLGRSALDAVELMNVGVNYLREHVVPEARLHYATTNTGGISPNVVQANAEVLYLIRAPKVKQVEDIYQRVCKIAQGAALMTETELTIRFDKACSNYIPNRSMENMLHDQLCKSDVEKPTEEEKLFAEDIWHSLTDSEREGYLEIIEGFGYVGNGEEFANKYLAETISPYEASDKILSGSTDVADVSWVVPTAQLTAATSTLGTPLHSWQMTAQGISSFAHKGMLRAAQAMALTGIQLLTDSVALKEVKEEFQQFTEKNPYTCPIPKEVQPSVLKT NA NA NA NA NA AK015_01209 312 hypothetical protein ATGGAATTCCCAGTTATTCATACTAATTTTTGGGATGGTATTATTGCTGTTCCATTAATTGTAATTATTACGCAAATATTCAAACTTTTCCCTATTCCTAGACAGTACTTTCCTAGTATCGCTAGTACCATCGGGTTTATGATGTCTATTTTTATTAGCCATCGTGGTGATTTATGGGCAGGTATTTTTATGGGGGGTTTTTACAGTGCAGCCGCTGTCGGAACGTATGCATCTTTAAAAACATCGTGGATTGCATTTAAAGAACGCCAGAAAAAAAAGCGGCTGAATGAGGTTGCTAGTGAGGATATGTAA MEFPVIHTNFWDGIIAVPLIVIITQIFKLFPIPRQYFPSIASTIGFMMSIFISHRGDLWAGIFMGGFYSAAAVGTYASLKTSWIAFKERQKKKRLNEVASEDM NA NA NA NA NA AK015_01210 936 rbsB COG1879 Ribose import binding protein RbsB ATGGCTAAATGGTCAAAGGTACTTATGTTTGTAGTAGTTATAGTTTTTATTTTAGGGGCTTGCTCTACAGATGCTCCTGGTAGTGAAGAGGATAATGACAAAGAAGCCAACAATGATAAAGTGAAGGTCGGCTTATCTATTTCTACTTTAAACAATCCTTTTTTCGTTACCTTACGTGATGGGGCGGAAAGCGCTGCAGAAGAAGCAGGCTTTGAGATAGTTACATCTGATGCACAAAACGACCCGTCTACACAGTTAAGTGATATTGAAGACCTTATACAGCAAGATATTGATGTCTTACTAGTAAATCCAGTTGATTCTGAGGCCGTTGTTACTGCAGTGGAATCTGCCAATCAAGCAAATATCCCAGTTATTACCGTAGATCGAAGTTCTGAAGGCGGCGAAATAGTCACCCATATTGCTTCTGATAATGTAGCTGGCGGAGAAATAGCAGGTGAATTTATTGCTGAACAACTTGGGGAAGAGGGAAAAATTGTTGAATTAGAAGGAATTTCTGGATCGTCTGCAGCTAGAGAGAGAGGAGAAGGATTTCACAATATAATGGATGAACTAGACGGAATGGAAATCGTTGCTAAGCAAACGGCTGACTTTGACCGTACAAAAGGCTTATCGGTAATGGAAAATATTATCCAAGGTACAAAAGATATTGATGCATTATTTGCGCATAATGATGAAATGGCTTTGGGTGCTATTGAGGCATTAGAGTCACAAAATATGCTAGAAGATGTCGTTGTCGTTGGCTTTGATGCAACGGAGGATGCAGTAGCCGCTGTCAGCGAGGGAAGAATGCTTGCAACAGTCGCTCAGCAACCAAAGTTGATTGGAGAAAAAGCCATTGATGCAGCAGGGAAGATAGTTGAGGGTGAAGAGTTAGAGGAATTTATACCTGTAGAACTTGAGTTAGTGACAGAGTAA MAKWSKVLMFVVVIVFILGACSTDAPGSEEDNDKEANNDKVKVGLSISTLNNPFFVTLRDGAESAAEEAGFEIVTSDAQNDPSTQLSDIEDLIQQDIDVLLVNPVDSEAVVTAVESANQANIPVITVDRSSEGGEIVTHIASDNVAGGEIAGEFIAEQLGEEGKIVELEGISGSSAARERGEGFHNIMDELDGMEIVAKQTADFDRTKGLSVMENIIQGTKDIDALFAHNDEMALGAIEALESQNMLEDVVVVGFDATEDAVAAVSEGRMLATVAQQPKLIGEKAIDAAGKIVEGEELEEFIPVELELVTE PGPT0015740_5239 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 AK015_01211 936 rbsC COG1172 Ribose import permease protein RbsC ATGGTGAAGTGGAATAAGGTAAGCATAGCCCAATTAGGACCGCTGCTTGGTTTACTCCTGATTACAATTGTATTAGGGGTAATGAGTGAGAGCTTTTTCACTTTAAATAATATCTTAAATTTATTGCGGCAAGTATCCGTTAATGCCCTCATTGCTTTTGGAATGACATTTGTTATTTTAACGGCGGGAATTGATCTTTCAGTCGGTTCTACACTGGCTTTAGGAAGTGCGTTAACAGCGGGGTTATTAGCTAGTGGGATGGATCCAATTTTGGCTATTTGCATTGGTTTATTCATTGGTTTTGTACTTGGTGCAGTCAATGGTTTGATTATCGCTAAAGGAAAAGTTGCTCCATTTATAGCAACTTTGGCAACCATGACAATTTTTCGTGGTGCAACATTAGTTTATACAGATGGAAAACCAATTACTGGGCTATCCGATTCCTTTTCTTTTGAAATGATTGGAAAAGGCTATGTATTTGGAATTCCATTTCCTGCAATTATTATGGTCATTGTCTTTCTTATTTTATTTTTTATTTTGCATAATACGGTATTCGGACGCCAAGTGTATGCAATTGGTGGGAATGAAGAAGCTTCTAAATTATCTGGGATCAAAGCAGATCGAGTTAAAATTGGTGTTTATTCACTGACAGGTATGCTATCTGTACTTGCAGGCATTATCATTACAAGTCGTTTAGATTCTGCTCAGCCAACAGCAGGAACAATGTATGAACTTGATGCAATAGCAGCTGTTGTCATTGGGGGAACAAGTCTTTCTGGAGGAAAAGGAAGAATATTTGGCACGTTAATAGGAGCTTTAATCATTGGGGTTATTGATAACGGGTTAAACCTATTAAATGTATCTTCTTTTTATCAGCAAATAGTCAAAGGTCTCGTTATTTTACTAGCAGTGCTTTTAGATAGAAAAGCAAAATAA MVKWNKVSIAQLGPLLGLLLITIVLGVMSESFFTLNNILNLLRQVSVNALIAFGMTFVILTAGIDLSVGSTLALGSALTAGLLASGMDPILAICIGLFIGFVLGAVNGLIIAKGKVAPFIATLATMTIFRGATLVYTDGKPITGLSDSFSFEMIGKGYVFGIPFPAIIMVIVFLILFFILHNTVFGRQVYAIGGNEEASKLSGIKADRVKIGVYSLTGMLSVLAGIIITSRLDSAQPTAGTMYELDAIAAVVIGGTSLSGGKGRIFGTLIGALIIGVIDNGLNLLNVSSFYQQIVKGLVILLAVLLDRKAK PGPT0016590_6100 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 AK015_01212 1500 rbsA_2 COG1129 Ribose import ATP-binding protein RbsA ATGACGAGTGACCCTTTTGTACAGATGAACAATATCAGTAAAGCATTTTCCGGAAATAAAGTATTACAACAGGTTGATTTTACTGTAAACCGTGGGGAAATTCATGCATTAATGGGAGAAAACGGAGCGGGAAAGTCTACTCTAGTGAAGATTTTAACAGGCATTTATACAAAAGATCAAGGCGAAATGTTTGTGCGAGGCAAACAGATGACATTTTCGGGTCCAAAGCATGCTGAAGCCTATGGAATTAGTGTTATTCATCAGGAATTAAACATTATTCCACATTTAACAGTAGCGGAGAATATGTTTTTAGGGAAAGAGCTGACATATGGAAAAACGGGTATTCTTAATAGGCGGAAAATAAGACGTAGAACGGCTGAGGCCTTAACTAAATTAGGTGTACATGATATAAAAGCCGAACAACTGGCTGGTGAACTATCGATTGGAAAGCAACAAATGGTTGAAATAGCGAAAGCTTTGACAACCAATGCAGAATTAATCATTATGGACGAGCCTACAGCGGCATTGACAGATCATGAAATTGAAAACTTCTTTCGCGTTATTAAAAATTTGCAAGCAGATGGAGTAAGCATTGTCTATATATCCCATCGCATGGAAGAAATATTTGAAATTTGTGATCGGATCACGGTTCTGCGTGATGGTCAATATATTGGCACCAAAGCTACACCTCATACATCATTTGAAGAGATTGTGAAAATGATGGTAGGTAGAGAGCTTGGCGAACGATATCCTGCGAGAAATCATGCTGTCGGAGAAGTCGTCTTTCAAGTTAAAAACCTACAATTGGCTAATTATTTTCGTGATATCAGCTTTTCTGTCAGAGAAGGAGAGATTCTCGGTGTGGCTGGTTTGATGGGAGCAGGTCGGTCTGAGGTGATGGAAGCTATTTTTGGATACCGTAAATTAGATAGAGGAACAATTGAACTAAATGGAAGACAAGTTGTTATTAAACATCCGCGTGATGCAGTTAATGCAGGGATTGGCTTTATCACAGAGGACCGTAAGTCGAAAGGATTAATTATTCATGCTTCTATTAAAGAAAATATCGCCTTACCTAATTTGAGAGCGTTATCACGATATGGGATCATCCATAAAAGTAAAGAAAAACAGCGCATTAGCGAGTTAATGCTCAAGCTACAGGTTAGAGCTACAAACGAAGCTCAGGAAGTAAAATCTTTAAGTGGTGGGAATCAGCAGAAAGTAGTCATCGCCAAATGGTTGGCAATTCAGCCGCGAGTGCTTATTTTAGATGAACCAACTCGAGGTGTAGATATTGGTGCAAAAAAAGAAATTTATACGATGATGAATGAACTTTCTAAAGAAGGTGTAGCCATTATTATGATTTCTTCGGAATTACCTGAAGTGCTTGGGATAAGTGATCGGGTAATGGTCATGCATGAAGGCGAAATAACGGCGTTTATAGACAGTGAACAAGCTGATCAAGAATCCATTATGACTGCAGCCACAGGAGGTGCTTAA MTSDPFVQMNNISKAFSGNKVLQQVDFTVNRGEIHALMGENGAGKSTLVKILTGIYTKDQGEMFVRGKQMTFSGPKHAEAYGISVIHQELNIIPHLTVAENMFLGKELTYGKTGILNRRKIRRRTAEALTKLGVHDIKAEQLAGELSIGKQQMVEIAKALTTNAELIIMDEPTAALTDHEIENFFRVIKNLQADGVSIVYISHRMEEIFEICDRITVLRDGQYIGTKATPHTSFEEIVKMMVGRELGERYPARNHAVGEVVFQVKNLQLANYFRDISFSVREGEILGVAGLMGAGRSEVMEAIFGYRKLDRGTIELNGRQVVIKHPRDAVNAGIGFITEDRKSKGLIIHASIKENIALPNLRALSRYGIIHKSKEKQRISELMLKLQVRATNEAQEVKSLSGGNQQKVVIAKWLAIQPRVLILDEPTRGVDIGAKKEIYTMMNELSKEGVAIIMISSELPEVLGISDRVMVMHEGEITAFIDSEQADQESIMTAATGGA PGPT0016600_3854 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 AK015_01213 396 rbsD COG1869 D-ribose pyranase GTGAAAAAGACAGGCATTTTGAATCGCGACATCGCCACTGTTCTTTCTCAACTAGGGCATACCGATACAATTGTTGTAGCAGATTGCGGTTTACCAATACCGCAGCATATAAAATGTATTGACCTCTCTATTAACCTTGGAACGCCTTCATTAGTAGATGTTGTCCGTTTAATAATCAAGCATATGGAAGTTGAAAAGATAACGATAGCTAGTGAAATCAAGTTGCAGAATACTAGTCTGCATCATGAAATCACATCAACCTATGGAAACATCCCATTAGATTATGTTTTCCATGAAGAATTTAAAAAAGCAATGAGCGATACGAAGGCAGTAATTCGAACTGGTGAAGCAACGCCATTTGCCAATGTCATGTTACGTTCGGGAGTTATATTTTAA MKKTGILNRDIATVLSQLGHTDTIVVADCGLPIPQHIKCIDLSINLGTPSLVDVVRLIIKHMEVEKITIASEIKLQNTSLHHEITSTYGNIPLDYVFHEEFKKAMSDTKAVIRTGEATPFANVMLRSGVIF PGPT0016595_719 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 AK015_01214 894 rbsK Ribokinase ATGATGATACATGCTCCGAAAATCTGTGTAGTTGGAAGCATTAATATGGACATGACGATTCAAACAAGACAAATGCCTCGGCAAGGAGAAACGGTGTTAGGTCAGTCCTTTGCACTATATCCAGGAGGAAAAGGAGCTAATCAAGCAGTTGCAGCGGCTAGACTAGGAGCAAAAGTTACAATGATTGGCGCTGTCGGTGAGGATGAATTTGGCGTAACATTACGAAAACATTTGCAAGTTGAAGGCATTAATACAGATGGCGTTATCAAAAATAGCGAACAGTCTACAGGCGTAGCAAACATTATTTTGTCTGAAGACGATAATCGAATTATTGTTGCTCCAGGGGCTAACGCACTCGTTACCAAAGAAGTGATTGATCGACATGAAAACATTATTCAACAAAGTGACATCATTTTATTGCAACTAGAAATACCACTTACTACGGTAGCCTACACGGTGAAAAAAGCGAAGCAATATCATATTCCAGTTGTAGTAAATCCTGCTCCATATCAGCATTTACCGAAAGAAATAGTACAAGACACTACTTATTTTACTCCGAATGAAATGGAAGCAGAAGCAATGGAAAAAGAAGCTTCTTCCAGCTCTATAAAAGATAAAATGGTAGTGACGCTAGGGAGTGAGGGGGTACATTTTTACGAAAATAACTCGGAAAAAAAGGTGCACAGCTACTCCGTTCCTGTAAAAGATACAACAGGTGCAGGTGATACATTTAATGGCGCTTTTGTTACACAATTAGCACAAGGTGAAACGCTGTCGCAAGCTATACATTTTGCCAATGCAGCAGCTGCATTATCAATAACGAAAGTGGGGGCACAAGCAGGCATGCCAACAGTAGAAATGGTTCATCAGTTTATGACAGAAAGGGATGGTTAA MMIHAPKICVVGSINMDMTIQTRQMPRQGETVLGQSFALYPGGKGANQAVAAARLGAKVTMIGAVGEDEFGVTLRKHLQVEGINTDGVIKNSEQSTGVANIILSEDDNRIIVAPGANALVTKEVIDRHENIIQQSDIILLQLEIPLTTVAYTVKKAKQYHIPVVVNPAPYQHLPKEIVQDTTYFTPNEMEAEAMEKEASSSSIKDKMVVTLGSEGVHFYENNSEKKVHSYSVPVKDTTGAGDTFNGAFVTQLAQGETLSQAIHFANAAAALSITKVGAQAGMPTVEMVHQFMTERDG PGPT0017405_3996 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 AK015_01215 987 ccpA_1 COG1609 Catabolite control protein A ATGGCGACCATTCGAGATGTTGCGAAACTTGCTAACGTATCAACAGCAACAGTATCTAGGGTGTTAAATGACAATGGATATGTTAATAGTGAAACAAGACAGCGTGTCAATGAAGCGATTGAACAGCTACGCTACCGACCGAATGACGTTGCTAGAAGTTTATTTAAAGGTAGCTCTAAGATGATTGCACTTTTTGTTCCAGACATTAAAAACCCTTTTTTTCCAGAGCTTGCGCGTGCCGTAGAAGATGTAACGAATCAGCACGGTTATACCTTTGTATTATGTAATACCGATGATAATCATGAAAAAGAAATCACGTACTTAAATGCGTTAACACAAAAATCCGTGGATGGTTTTATTATGGTGTCAAGTACAATATGTGAGAAACACCTTGAACATGTGACAAGCCCAATTATTTCTTTGGACAGGAGATTTAGTTCGAACATCTCGTCTGTTACAGTAAATAACCGAAAAGGTGCGAGAGAAGCGACAGCATATTTGCAATCCATTGGCTGTAAAAAAATTGCCCATATTTGCGGTCCACAAACAGCAAGCAATTCAAAAGATCGCTTAAAAGGCTATCTTGATGTAGTGAAGTATGAAGCATGGTTTCATTCGGATTTTATCGTGGCAGGCGATTATCGATTTAAAAGTTCCTATGAAGTAACCAAAGAGCTTTTAACGAAGCATAAAGATATTGATGGCCTCTTTGTAGCAAATGATTTGATGGCTGTGGGTGTAATAAAAGCAGCCGAATCATTAAATATGAACATTCCGGAACAGCTATCTGTAATCGGCTTTGATGGAATTTCTCTCGGACTAACCACTACTCCTTCATTAACAACCATACAGCAGCCTATATACGAAATTGGAAGTAGGGCAGCACAAATTTTATTAGAATTGATTGATCATCCAGAGCAGCAAGTTATTCATGAAGAATTAGAAGTTACATTATTAGAGCGTGATTCTACAAAACGAAGGGAGTAA MATIRDVAKLANVSTATVSRVLNDNGYVNSETRQRVNEAIEQLRYRPNDVARSLFKGSSKMIALFVPDIKNPFFPELARAVEDVTNQHGYTFVLCNTDDNHEKEITYLNALTQKSVDGFIMVSSTICEKHLEHVTSPIISLDRRFSSNISSVTVNNRKGAREATAYLQSIGCKKIAHICGPQTASNSKDRLKGYLDVVKYEAWFHSDFIVAGDYRFKSSYEVTKELLTKHKDIDGLFVANDLMAVGVIKAAESLNMNIPEQLSVIGFDGISLGLTTTPSLTTIQQPIYEIGSRAAQILLELIDHPEQQVIHEELEVTLLERDSTKRRE PGPT0014791_434 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK015_01216 222 hypothetical protein ATGTGGTACTTACTAGCTCTTGGAGGATTGTTCGTTGCAATCGCACTATTTTACACCATTAAGGTCGGTAAAGATGTAGAGACACAAAAGGACGAGTATGATACGGAATTTAAAGCAACCAAAAAACACCCTGCGTTATTTAATCCTGTTTTCTTAGCATATATTATTGGATTTGGCGGGATTATTCTGCTTATATTGTATTTTGCTTTAACATGGAAATAA MWYLLALGGLFVAIALFYTIKVGKDVETQKDEYDTEFKATKKHPALFNPVFLAYIIGFGGIILLILYFALTWK NA NA NA NA NA AK015_01217 1656 dppA_1 COG0747 Periplasmic dipeptide transport protein ATGTTAACAACTTTTTACTTAAAATTAGAGACAGGGGGTATCTTCATAATTATGAAGAACAAAAAATTATTATGGCTCGTATCCTTGTTAGCCATGCTTACATTTGTCCTAGCAGCATGTGCTGGTGATGGGGAGTCTGAAAGTAAATCAGAAGGCGAAGGGTCAGGAGAAGAAGATTCAGGAAGCGGTGGCGATTTAGTAATTGCTCTTCCATCTGATGTCGTTTCGTTATCTCCACATGGTACAAATGATATTCCATCTGGCCAAGTTGCAGATAATATTTATGAAACATTGACTGTCCTAGATGAAAATCAGGAACCGCAACCAAGCTTAGCAAAAGAATGGAAAGAAGTAGATGAAACCACTTGGGAATTTCAATTGCAAGAAGGTGTGAAATTCCATGATGGAGAAGCATTGACGGCAGAGGCTGTAAAGAAGAACTTTGATCGTCTTGTTGATGAAAAGATTGCTTCGCCGAGAGCTTTCTTATTTGAAGCAGTGGAAAGTGTGGAAGCAAAAGATGATCTTACATTAGTGATTAAGTTAAAATATCCATATGCACCGCTGTTAGCAAATTTAGCACATAGTGGTACAGCAATTATGAGTCCGAAAATAATTGATGAAGATTATGCACAAATGGAAGATGGAGGCGATGCCGATGCATATATCAACAAAAACCCTATCGGAACTGGTCCATTTAAATTAGATGAGTGGAAAGCAGGGGAAGAGGTTGTTATCTCACGTAACGATGATTATTGGGGCGACAAGGCAAAACTCGATACTGCTAAATTTAAAGTAGTTACTGAACAGAGTGCTAGAGTAGCTGAACTTGAGACATCTGTAGCTCATGTAGCCGATCAAATAGGACCAAATAATATATCTCGTGTTGAAGGCATGGATGGAGCGAGCGTGGTGCAGGAGCCAAGCACTTCGTTGTCATATGTAGGTTTTAACGCACAAAAAGAACCTTTTGATGATAAAAAAGTTCGTCAAGCTGTTTCCATGGCAATCAATAAAGAAGAAATTATAAGCGGTGTATACAACAATGTAGGTATTCCAGCCAAAGGCCCATTAGCTCCACCAGTATTTGGGTATGATGAAAATGTCGCTGGTTTAGAGTTTGATGTGGAAAAAGCAAAAGAGCTATTAGCGGAAGCTGGCTATGAAGATGGTTTTAAAACAACGATTTGGACGAATGATAACGAACAGCGTGTAGATACAGCTGTTACGATTCAAAATCAACTAAAAGAAATTGGTGTTGAGGTTGAAATTGAAGAATTAGAATGGGGAGCATTTTTAGATAGAACAGCTAATGGCGAACATGATATGTATGTTCTTGGTTGGTCAACAAGTACAGGAGATGCAGACTATGGTATGTATCCATTATTCCATTCATCTGCACTTGGGGAAACTGGTAATCGCTCTTTCTTAGAAAATGAAGAATTAGATAAGATTTTAGATGAAGCTCGTCGTGAAACAGATCCTGAAGTACGTAAAGAGCTATATTCTGAAGCACAAGAAATGCTTGTTGATTTAGCACCGATGATTTATACACATCACCAAGAGTACTTACTCGGTGTAAGTGATAAGGTGAAAGGCTTTGGCGTTGATGCCCAAGGTATTTACCAAATTAAACAAGCGTATATTGAAGAGTAA MLTTFYLKLETGGIFIIMKNKKLLWLVSLLAMLTFVLAACAGDGESESKSEGEGSGEEDSGSGGDLVIALPSDVVSLSPHGTNDIPSGQVADNIYETLTVLDENQEPQPSLAKEWKEVDETTWEFQLQEGVKFHDGEALTAEAVKKNFDRLVDEKIASPRAFLFEAVESVEAKDDLTLVIKLKYPYAPLLANLAHSGTAIMSPKIIDEDYAQMEDGGDADAYINKNPIGTGPFKLDEWKAGEEVVISRNDDYWGDKAKLDTAKFKVVTEQSARVAELETSVAHVADQIGPNNISRVEGMDGASVVQEPSTSLSYVGFNAQKEPFDDKKVRQAVSMAINKEEIISGVYNNVGIPAKGPLAPPVFGYDENVAGLEFDVEKAKELLAEAGYEDGFKTTIWTNDNEQRVDTAVTIQNQLKEIGVEVEIEELEWGAFLDRTANGEHDMYVLGWSTSTGDADYGMYPLFHSSALGETGNRSFLENEELDKILDEARRETDPEVRKELYSEAQEMLVDLAPMIYTHHQEYLLGVSDKVKGFGVDAQGIYQIKQAYIEE PGPT0004430_5969 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 AK015_01218 894 gsiD_3 COG1173 Glutathione transport system permease protein GsiD ATGAGTGCAGAACAAGTAAACAATGTAATGACACAAAAAACGGATCATCCTTTCATACGATCAATGAAAGACTTCTATAGTAAATTACGAAAAAATAAGAGTGCCTTAGTTGGAGGGTATTTAATTATTATTTTAGTCCTCATCGCTCTTATAGGACCGTACTTAACTTCCCAAGCTCCAGACGCAGTCGATTATGGTGTGAAGCTTCAAGGGCCTTCTGCTGAGCACTGGTTTGGAACCGATCATCATGGCAGAGATATTTTCACAAGAGTTATTCATGGATTAGGAATTACGATGGGTATAGGTATTTCAGCAACTATTTTGGGTGGAATTGTTGGTATTTTTCTTGGATTAATTTCAGGTTACTACGGCGGAAAATTAGATGCTATTATCATGCGAATGATGGACATTTTGCTAGCTTTCCCAGGAATTTTATTAGCTCTAGCGTTAATTAGTATTCTAGGAGCAAATTTGCGAAATGTAATTTTTGCTGTTGCCATTTTTGCAATTCCGACGTTTGCTCGAATTGTAAGAGGGTCAACATTGGCTACAAAAAAATTAGAATACATTGATTCCATGAAGGCACTAGGCGCATCTGATACGAGAATTATATTCAAACATATCTTACCAAATATTTTGTCGCCAATTATTGTACAAGCGAGTCTATTCATTGCTACAGCAGTACTATCTGCTAGTGGTCTGTCATTTTTAGGGATGGGGGCACAGCCACCATCACCAGAATTGGGTGCACTTTTAAGTGACGGCCGTGACTTTATGTGGGATGCAGGCCATATTGCGTTGTTCCCAGGCTTGGTAATCATGTTAATCGTATTAGCCTTCAACATCTTTGGTGATGGTTTACGAGATGCGTTAGATCCAAAAATGAAAAAATAG MSAEQVNNVMTQKTDHPFIRSMKDFYSKLRKNKSALVGGYLIIILVLIALIGPYLTSQAPDAVDYGVKLQGPSAEHWFGTDHHGRDIFTRVIHGLGITMGIGISATILGGIVGIFLGLISGYYGGKLDAIIMRMMDILLAFPGILLALALISILGANLRNVIFAVAIFAIPTFARIVRGSTLATKKLEYIDSMKALGASDTRIIFKHILPNILSPIIVQASLFIATAVLSASGLSFLGMGAQPPSPELGALLSDGRDFMWDAGHIALFPGLVIMLIVLAFNIFGDGLRDALDPKMKK PGPT0004450_8408 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 AK015_01219 921 gsiC_4 COG0601 Glutathione transport system permease protein GsiC ATGTTTCAATTTATTGTACGGCGTTTATTACAGCTGATTCCTGTTTTAATAGGTGTAACTATTTTAGTGTTTTCCCTTATGCACCTATCTCCAGGAAACCCAGCACATATTATTGCTGGTGAAAGCGCGCCTCCAGATACAGTTGAACAAATTGAAGAACGATTAGGATTAAATGATCCGATACTGATTCAATATTTTAATTTTGTCAAAGATGCTGCTATGTTAGATTTCGGAAATTCTTGGAGAACAAGTTTACCAGTTAGTGAGGAACTATGGCCAAAATTTTGGGTTACTTTTGAATTAGCTGTTTACAGTACGCTGTTTAGTATATTTTTAGGACTAATTGCAGGTATTATTTCAGCGGTTAGAAAATATTCATTTGCGGATGTTTCTATTATGTTAATAGCATTATTCGGATTATCGATGCCTAACTTCTGGTTTGGCCTTATGTTAATGCAATGGTTCTCTATTAAACTCGGTTGGTTGCCGCCAACAGGGTGGGGGACGCCAGAGCAAATCGTGATGCCAGTCATTACACTAGGAACGATGGGAGCTGCCGTTATTGCTAGGATGACGCGTTCCAGCATGTTGGATGTAATTTCTCAAGATTATATTCGAACAGCGCGTGCCAAAGGCTTAGGTGAAAGAATCGTTATCTATCGCCACGCTTTAAAAAATGCATTAATACCAGTAGTAACAGTTGTAGGATTACAATTTGGTAGTTTACTAGCGGGAGCTGTTTTGACTGAATCTGTATTTGCTATTAATGGCATGGGGAAATTAATCATTGATCGTATATTGGCAAGGGATTTCCCTGTAGTACAAGCCGCCGTTTTAGTAATTGCTATCGTATTCGTATTTGTAAATTTAATTGTCGATATTTCTTACAAGTTCTTAAATAAACGGATTGACTTAGAATAG MFQFIVRRLLQLIPVLIGVTILVFSLMHLSPGNPAHIIAGESAPPDTVEQIEERLGLNDPILIQYFNFVKDAAMLDFGNSWRTSLPVSEELWPKFWVTFELAVYSTLFSIFLGLIAGIISAVRKYSFADVSIMLIALFGLSMPNFWFGLMLMQWFSIKLGWLPPTGWGTPEQIVMPVITLGTMGAAVIARMTRSSMLDVISQDYIRTARAKGLGERIVIYRHALKNALIPVVTVVGLQFGSLLAGAVLTESVFAINGMGKLIIDRILARDFPVVQAAVLVIAIVFVFVNLIVDISYKFLNKRIDLE PGPT0004445_14098 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 AK015_01220 1032 oppD_4 COG0444 Oligopeptide transport ATP-binding protein OppD ATGAGTGAAGATATTATTTTAGATATAAAAGATTTACAGACATCTTTTTACCTAGATGATTTTGAAGTAAAAGCAGTGGATGGTGTTTCCTTTAAATTACCTAAAGGGAAAACAATAGGTATTGTTGGAGAATCAGGCTCTGGTAAAAGTATTACAGCACTATCAATATTAAGATTGCTTGATCATCCTGGTAAAGTAAAAGGTGGAGAGATTAACTTTAAAGGTAGAGATTTAACTACATTAACAGACAAGGGAATTCGTCAAATTCGGGGGAACGAAATTTCCATGATATTCCAAGAGCCGATGACTTCCTTAAATCCTGTTTATACCATTGGACAACAAATTCGTGAAACATTAAAGGTCCATCAGGGTCTGGGCAAAGAAAATGGAACAAAGAAAGCGATTGAATTATTAAAACTAGTTGGTATTCCTTCCCCAGATAAACGAGTGAAACAATATCCACACGAGCTATCTGGCGGGATGCGACAACGAGTTATGATCGCCATGGCGCTGGCTTGTAACCCAGATTTACTTATTGCAGATGAACCAACTACAGCATTAGATGTAACGATACAAGCACAAATTTTGGATCTTATTAATGACTTACAGGATCGCCTTGGTATGTCTGTCATTATGATTACCCACGACTTAGGTGTAGTAGCAGAGACGTGTGATTATGTAGCCGTTATGTACGGTGGTAAAGTAGTCGAATACCAAGATGTGAAGTCCTTGTTTAAAAATCCTAAACATCCCTATACAGTAGGGTTATTGAAGTCCATTCCTCGTCATGATACAGATGTGGATGAATTGGAGCCGATTAGAGGTAGCGTGCCAAGTCCAAAGGATATGCCAAAAGGCTGCCGTTTTGCACCAAGATGTCCGTTTGCCACTGAACTTTGTATGGAAGAACTCCCTTCCCTTGATCATGTAGAAGGAGAAAGTGAAGTTCGTTGTTGGATATATACTGATCGTTGGGATGGAGATGCGGAGGTGAAGGCACATGGCCCAAAAAGAGTTGCTCAAAGTAACTAA MSEDIILDIKDLQTSFYLDDFEVKAVDGVSFKLPKGKTIGIVGESGSGKSITALSILRLLDHPGKVKGGEINFKGRDLTTLTDKGIRQIRGNEISMIFQEPMTSLNPVYTIGQQIRETLKVHQGLGKENGTKKAIELLKLVGIPSPDKRVKQYPHELSGGMRQRVMIAMALACNPDLLIADEPTTALDVTIQAQILDLINDLQDRLGMSVIMITHDLGVVAETCDYVAVMYGGKVVEYQDVKSLFKNPKHPYTVGLLKSIPRHDTDVDELEPIRGSVPSPKDMPKGCRFAPRCPFATELCMEELPSLDHVEGESEVRCWIYTDRWDGDAEVKAHGPKRVAQSN PGPT0004435_7898 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 AK015_01221 1011 oppF_5 COG4608 Oligopeptide transport ATP-binding protein OppF ATGGCCCAAAAAGAGTTGCTCAAAGTAACTAATTTAAAACAATATTTCCCGATTAAAGGTGGTTTTCTAGGAAGAACCGTTAACCACGTTAAAGCAGTAGACGATGTTACATTTGAAATTTTCGAAGGGGAAACATTAAGTGTCGTCGGTGAATCAGGTTGTGGTAAATCTACGACTGGTCGTGCCATTCTACGCTTAGATGAACCTACAGCTGGAGAAATCGAATTTGATGGCGGAGACTTATTAGCGTTGAGCAAAAGCGACATGCGTAAAAAACGAAAAGACTTACAAGTAATTTTCCAGGATCCATACGCTTCATTAAACCCACGCCAAACCGTCGCGCAAATTTTAACAGAAGCAATGGCCATTCAAAATGTAATACCAAAAAAAGAGCGCAGAAAACGTGCGATTGAACTATTGGAAACAGTTGGGTTAAATGCGGGACAAATTGACCGATACCCACATGAGTTTTCTGGTGGGCAGCGTCAAAGAGTCGGGATTGCCCGTGCTCTATCAGTTAATCCGAAATTAATTATTTGTGATGAAGCTGTTTCTGCTTTAGATGTTTCCGTACAAGCACAAGTATTGAATCTATTAAAGAATTTACAACGTGAATTTAAATTAACCTTTTTATTTATTGCCCACGATCTCGGTGTAGTTCGACATATTTCGGATCGAATTATTGTCATGTATTTAGGGAAAATTGTAGAAATTGCTGACAAAAAGTCGTTATTTGATAATCCACAGCACCCTTATACGAAGTCATTATTATCAGCTATACCAACACCTGATCCAGAAGCTAAAAAAGAACGTATTATTCTAAAAGGGGATGTTCCGTCTCCAATAGATCCGCCAACTGGATGTCGCTTCCATACAAGATGTCCATTTGCTACCGATTTATGTAAAACAGAAGTTCCTGATTTACGCAACTTGGATCATATGAAAGAAGGGCACCGATCTGCATGTCATCACATTGAAAAAATTGTAACTGGTGAAATGCAACCGACATAA MAQKELLKVTNLKQYFPIKGGFLGRTVNHVKAVDDVTFEIFEGETLSVVGESGCGKSTTGRAILRLDEPTAGEIEFDGGDLLALSKSDMRKKRKDLQVIFQDPYASLNPRQTVAQILTEAMAIQNVIPKKERRKRAIELLETVGLNAGQIDRYPHEFSGGQRQRVGIARALSVNPKLIICDEAVSALDVSVQAQVLNLLKNLQREFKLTFLFIAHDLGVVRHISDRIIVMYLGKIVEIADKKSLFDNPQHPYTKSLLSAIPTPDPEAKKERIILKGDVPSPIDPPTGCRFHTRCPFATDLCKTEVPDLRNLDHMKEGHRSACHHIEKIVTGEMQPT PGPT0021035_1048 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 AK015_01222 183 hypothetical protein TTGGAAAATACATTCGATATTTTAAATGAAGAAATACCTGTTTTAGACATTATTGCTGTCCTTTTAGTTGAAGATGACCCAATAACAGGGATAGTATTTGTGTTACTTTTAAAAATGGTCACTGACGATAAAATAATTAAAATATCCCTCATATTATTAATAATCATTTTATCTCATGTGTAA MENTFDILNEEIPVLDIIAVLLVEDDPITGIVFVLLLKMVTDDKIIKISLILLIIILSHV NA NA NA NA NA AK015_01223 1578 gsiB COG0747 Glutathione-binding protein GsiB ATGAAAAGAACATTATTTGCTTTTTTAACTGTAATTATTCTATTTTCATTAGTAGCATGTGCGGGAGGAGAAAGTGGTGAGGAAGAAGGAACATCCGAACAAAATGAAAGCAAGAAGCGTTTAACCGTCAACCTGTCTGCAGATCCTGTTTCACTTGATCCGCATGCAGCTAACGATGGTACATCGCTATATGTGATGAATGCTATGTATGATACACTTGTTGCTATGAATAAAGAGTTGGAAATAGAACCTGCCTTAGCTGAAAGTTTGGAACAGGTAGATGAACTAGTTTGGGAAGCTAAGCTTAGAAAAGATGTTACATTTCATGATGGTAGTGAATTGAATGCAGAAGTTGTAAAGGCGAATTTGGATAGGGTTCGTGATCCAGATGTAGGTTCACCATTAGCGTTTTTATTTGATATGATTGATTCTGTGAGCGTAGTGGATGATTTTACCGTGCATATTGAAACGAAATTCCCTTTTGCTGCGTTACCATCACACTTAGCTCATCCAGGCGGACATATTATCAGTTTAGATGCAATAGAAAAAGATTATCAACAAATGGAAGATGGAGGAGATCCATTTACGTATATTAATGAGAATCCAGTGGGTACAGGGTACTTTAAGTATGATGAGCGAGTAAATGGGGAGTATGTATCACTTGTGAAGAATGATGCTTACTGGGGGAAAAGAGCAAAAGTTGATCAAGTGACCTTTAAGACAGTTCCAGAAGATGCAGCCCGAATTGCTGAGCTACGAACTGGGGAAGCTGATATTATTTATCCTGTTAATCCGAATGATATGGAACAAATTAATAATAATGAAGAAACAGTTGTTCATGAGACAGAAAGTGCAAGTATGTCTTACCTAGGTATGAATAATAATAAAGAACCTTTTCAAGATAGTAATGTCAGACAAGCGATAGCAATGGCAATTGATAAACAAGAGCTGATAGACGGCGTGTTTTCAGGAGTACCATTAGTGGCAAATGGCCCTTTGGCACCAACAGTTGTTGGCTATAGTGATAGCTTGGAAGCAATCGATTATAATCTTGATAAGGCAAGCGAGTTATTGAAGGAAGCTGGTTATGAAGAGGGTTTTAGCGCAACCATTTTAGCATATGACCGTACGACTTCTGATGTAGCAGAATATATTCAAGTGCAGCTTGAGAAAATAGGTATTGATGTGAATATTGAAATGGCTGAGGTGGGAGCATATTTGGAAGTAACAGCAAATGGAAGTTTTGATATGTTTATCGGCAGCTGGGGTACAGTGACTCTTGATGCAGATTATGGTTTATATCCAATGTTTTATTCTCAGAATGCAGGTTCTGCTGGCAATAGGTCTTTTTTTAACAACGAACGAGTAGATGAGTTATTAGAAAATGCAAGACAAACATCTAATGAACAGGATCGCTTGCAACTTTATAAAGAAGCGCAGCAAATAATCATGGACGAAGCTACAATTGTTCCTTTATACCATTCGGTTCTCTTGGCTGGTCTACGTGAAGAAGTAGCGGGGTTTTATCAATACCCAAGCAGTTTTCCATTTTTACGAGATGTGGCAATGAATTATTGA MKRTLFAFLTVIILFSLVACAGGESGEEEGTSEQNESKKRLTVNLSADPVSLDPHAANDGTSLYVMNAMYDTLVAMNKELEIEPALAESLEQVDELVWEAKLRKDVTFHDGSELNAEVVKANLDRVRDPDVGSPLAFLFDMIDSVSVVDDFTVHIETKFPFAALPSHLAHPGGHIISLDAIEKDYQQMEDGGDPFTYINENPVGTGYFKYDERVNGEYVSLVKNDAYWGKRAKVDQVTFKTVPEDAARIAELRTGEADIIYPVNPNDMEQINNNEETVVHETESASMSYLGMNNNKEPFQDSNVRQAIAMAIDKQELIDGVFSGVPLVANGPLAPTVVGYSDSLEAIDYNLDKASELLKEAGYEEGFSATILAYDRTTSDVAEYIQVQLEKIGIDVNIEMAEVGAYLEVTANGSFDMFIGSWGTVTLDADYGLYPMFYSQNAGSAGNRSFFNNERVDELLENARQTSNEQDRLQLYKEAQQIIMDEATIVPLYHSVLLAGLREEVAGFYQYPSSFPFLRDVAMNY PGPT0004430_13097 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 AK015_01224 633 hypothetical protein GTGACTTTGGAAAAATCAATTAATCAAGGAACAGTTTTAGTTTTAGGAACTATATTCATTGGTTTATGTTATCAGTTAATCCCTGTGTTTTTTATAATGAACCCAACACTTGAAGTCGTATCGACTATTTTCAATGCTTTTCTGGGTGGTATATTAGCATATGTTGTTTTGAGAAGAGAATTTATAGACTGGTTTAAACATTTTAGTTTGAAATGGGTGATTTTGGGTTCTGTTTTAATGATAATTACTGGAGTAGTTCTCGGTAACTTATATACATTTCTAGTAAACGATTCAATCGAACAAAATACTGTCACAAGTGTTTTATCTTGGAATTACTTCATCACCCATGTTCCGTTCTTATTAATGGGGGAAGAACTACTTTCTATTCCACTTTTATATGGTATATGGAAAAAATGGGGGTGGAAGTTTTGGCAAGCTTCGCTATTAAGTGCGCTTCTATTTTCCGTTTGGCACCTTGCTGCTTATAACTTCAATTTTTTACAAATTTTAATCCTCATTACTCCGAGCCGCTTAATTTTAAACTATCTATTTAAAAAGACAAATTCTATTCTTGTGGCTTGGATGGCTCATATTCTCTTTGATCTATTTGCTTTCTTACCTTATCTTCTGTGA MTLEKSINQGTVLVLGTIFIGLCYQLIPVFFIMNPTLEVVSTIFNAFLGGILAYVVLRREFIDWFKHFSLKWVILGSVLMIITGVVLGNLYTFLVNDSIEQNTVTSVLSWNYFITHVPFLLMGEELLSIPLLYGIWKKWGWKFWQASLLSALLFSVWHLAAYNFNFLQILILITPSRLILNYLFKKTNSILVAWMAHILFDLFAFLPYLL NA NA NA NA NA AK015_01225 1422 cstA_1 COG1966 Peptide transporter CstA ATGATTACATTTATTTTATCTATTATTTTACTAATTGTAGCTTATTTTACGTATGGCAAATTTATTGATAAGTTATTTGGGCCGAATAACGAAAAGAGTACACCTGCCTACGCTAAGCATGATGGCGTAGACTATGTCCCAATGAATAAGCATAAAAATGCAATGATTCAATTGCTTAATATTGCTGGTACTGGTCCCATCTTCGGACCTATTATGGGTGCTTTATTTGGACCCGTTGCTTTTCTCTGGATTGTACTTGGATCGATTTTTGCTGGGGCAGTTCATGATTATTTAACAGGGATGATTTCTATACGAAACAAAGGGGCACATATTCCTGAATTAGCGGGGAGATTTTTAGGCAAAGCGTCAAGACATATTGTAAACGCCTTTTCTCTATTATTGTTAATTTTAGTTGGAACCGTTTTCGTTACTACGCCAGCGTCACTTATTGATATATTGCTAGATGAAAAGATTGCCTTTTCTATTATTTTAGGAGCCATCTTCCTTTATTTCTTTCTATCCACGATATTGCCAATTGATAAAATAATTGGTCGAATATATCCAATACTAGGCGCTATTCTCTTATTTGGAACAATAGCGATTGGAATTTCGTTATTATTCTCAGATTATAAAATACCAGAGTTACACCTTACCAATATGCATCCGGATAACTTACCAGTAATTCCATTGTTATTCTTTACGATTACTTGTGGTGCATTATCTGGTTTTCACGCGACACAATCACCGATTATCTCGAGAACAACACAAAAGGAATCGCAAGGACGTTATATTTTTTATGGCATGATGATTGCTGAGGCTATCATTGCAATGATCTGGGCAGCTGCTGCTATGAGCCTTTTTGATGGACAAACCTTAAGCGGCATCATTGCAGAAGGTACTGCATCTGCTGCAGTAAATGAAATCGCGATCACATTGCTAGGTGCAGTTGCAGGAACAATTGCTGTACTTGGAGCAATTGTTTTACCAATTACCTCCGGAGACACTGCATTTCGTGCCGCACGCTCCATTATTGCAGATTATTTAAATATCGGACAGAAAAAAGTGTTTAACCGGTTGTCCATTGCTATTCCTTTATTCGTTATTTCATATATTTTAACGAAAATCGATTTTAATATTTTATGGCGTTATTTTTCATGGGCTAACCAAGCAACGGCCGTAATCGCTTTATGGATAGCTACGATGTATTTATTTATGAAAGAAAAAAATTACTTCGTATCGATGGTGCCAGCTATTTTCATGAGTTATATGGTGTTTGTGTATATTTTAAATGCGCAAATCGGTTTCCGACTTGATTTGAATGTTTCCTTTATCGTCGGTGCTGTGTTAACTATTATTCTTACTTTCCTATTCTTTAAAAAAGCAAAAACGAACAAAGCAAATCAATTGAAAGTAGATATGTAA MITFILSIILLIVAYFTYGKFIDKLFGPNNEKSTPAYAKHDGVDYVPMNKHKNAMIQLLNIAGTGPIFGPIMGALFGPVAFLWIVLGSIFAGAVHDYLTGMISIRNKGAHIPELAGRFLGKASRHIVNAFSLLLLILVGTVFVTTPASLIDILLDEKIAFSIILGAIFLYFFLSTILPIDKIIGRIYPILGAILLFGTIAIGISLLFSDYKIPELHLTNMHPDNLPVIPLLFFTITCGALSGFHATQSPIISRTTQKESQGRYIFYGMMIAEAIIAMIWAAAAMSLFDGQTLSGIIAEGTASAAVNEIAITLLGAVAGTIAVLGAIVLPITSGDTAFRAARSIIADYLNIGQKKVFNRLSIAIPLFVISYILTKIDFNILWRYFSWANQATAVIALWIATMYLFMKEKNYFVSMVPAIFMSYMVFVYILNAQIGFRLDLNVSFIVGAVLTIILTFLFFKKAKTNKANQLKVDM PGPT0015060_1996 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200 NA NA AK015_01226 171 hypothetical protein ATGCATCACACAAATGAAGTTAGCAATTATATAAATAATGTAGAAGATAGATGGAAAGACGCTTTTGTAGAATTGAAAAAAACAATTGACCAAAAGATCCCTGATGGATTTGAGTTAGTAATGCAGTATGGTATGCCATCCTATGTAGTTACCTCTATCTATTTACCCTGA MHHTNEVSNYINNVEDRWKDAFVELKKTIDQKIPDGFELVMQYGMPSYVVTSIYLP NA NA NA NA NA AK015_01227 576 hypothetical protein ATGATTGAAAAAGTGGACCGTCGAATAAAGTATACAAGAATGGTGTTGAAGGATAGCTTAATTACATTGTTAAAAACAAAGCATCTTTCAGCAATTACAGTAAAGGAACTTTGTAAGCATGCAGATGTTAATCGTTCTACTTTTTATGCGCATTACAAAGATCCATATGATTTATTGATAAATATAGAAGAAGAAATTATAAAAGGTTTGAATTCTTATTTAAGCCAACAAAATTTTGCTGAAAGAAAACAAGCATTGCAAACGACGGAGAAGTTATTAGAGTATGTCGCTACAAAATATTGCATTTGTCATACACTTCTGAATGAAAGTGAGAATACATCGTTTGAAAGCAAATTAATGAATGTGGCAAGAAACTTCCTAATAAAAAATTGGTTGGACGAAAATAAAATTGGAAAATCCAAATCAGAATATATTAGTACCTTCATCGTTAGTGGTAGTATTCATGTAATAAAAAATTGGTTAGTGAATAACATGGATAAACCGCCCCAGCAGATTGCTGAAATTATTAATAACATTGCTAATAATGGAATCAGAGGGGTAGAAGGAAGTGGATGA MIEKVDRRIKYTRMVLKDSLITLLKTKHLSAITVKELCKHADVNRSTFYAHYKDPYDLLINIEEEIIKGLNSYLSQQNFAERKQALQTTEKLLEYVATKYCICHTLLNESENTSFESKLMNVARNFLIKNWLDENKIGKSKSEYISTFIVSGSIHVIKNWLVNNMDKPPQQIAEIINNIANNGIRGVEGSG NA NA NA NA NA AK015_01228 2112 hypothetical protein GTGTATAATATAATAATAGAGGCTTTCAATTATATACGCAAGGGATGGTGGACACCGATTGATTGGATAACAAAAATTATCAGACATAAAAAAGCCGTCGTTATTACGTTTATCACACTAGCTATCATTAGTGCACTTGCACAATTTGCGGTTTCCATAAATTATAGTATGGTTGATTATCTTCCAAAGGACTCCCCATCAACCATTGCCATGGAAACGATGGAGGAAGAATTTGATGGTGCTGTAGCTAATACACGCGTCATGATAAAAGATATAGAAATTCAAGAAGCCTTAGAATTCAAGCAAGATCTAAAAGCAATAGATGGCGTTTCTGAAGTTACATGGCTAGATGATGCAATTGATACGAAAACACCGATTGAAATGGCGGATAAAGATACGGTTGATTCCTATTATAGAAATGGAAATGCGTTATTTTCTTTCCATATTGCAGAAGGGAAAGAAGTGGAAACGACCGATGAAATCTATGAATTAATTGGGAAAAAGAACTCTATGGCTGGTGAAGCACTAGATACAGCAACCTCCCAAAAAATGACGGGGAAAGAAACAATGTATGCAGCTGCATTACTCATACCAATTATTATCATTATTCTTATTCTATCGACGAGATCATGGGCAGAACCTGTTTTTTTCCTAACTGCCATCGGCATTTCTGTCATTATTAACTTAGGAACCAATATATTTATCGGCGAAATATCATTTATCACCCAATCCGTTGCTCCTATATTGCAGTTAGCGGTTTCGCTTGATTATGCGATATTTTTACTGCATAGTTTTGGGGATTATCGCAAACAAACAGACACACCAGCAGAAGCCATGCAGATGGCGATGAAACGCTCGTTTCCAGCAATTGCAGCGAGTGCTTCCACCACATTTTTTGGCTTTATCGCCTTAACCTTTATGGACTTCGAAATTGGAGCAGATCTAGGACTTAATTTGGTGAAAGGAATTGCCCTTAGCTTTATTAGTGTCATGGTATTTCTACCTGCTTTAACGTTGATGTTCTACCATTGGATTGATAAAACCGAGCACAAACAATTACTACCAAGTATACGAAACGTTGGAAAAACATTAAATAAACTTCGTGTACCAGCACTAATTGTTTTATTAATCTTCATGGTGCCAGCCTTCTTAGGTCAAAGCCAAACCAATTTTTTATATGGCATTGGCGAACAACCCGAAGCGTCAAGAGCATATAACGACGAAGTAGCCATTGAAGAAGTGTTTGGAAAACATACACCGATGGTTTTACTACTTCCAAAAGGCGATATCGCAAAAGAAAAGCATTTCGTGCAAGAATTGAAAAATTTTCCAGAGGTAAAAAGTACTGTATCCTATGTGGATGCTATTGGTCCCGCAATACCTCCTAACTACTTAGATGAATCCGTAACAGCGCCATTCTTTTCTGAGAATTACAGTCGAATCATCGTTAATACGACGGTAGATACGGAAGGTGAGGCAACGTTTGCTTTTATTGATGAAATTCAATTGCTTACCTCGGATTACTATGAAGACAATTACCACATATTAGGGGAAAGCGTCACCTTATATGATATGAAGCATGTAGTTGAAAAGGATAATACGGTGGTTAACCTGTTAACTGTAATAGCCATTGCTACTGTGTTACTCATTACTTTCCGGTCACTCTCTTTTCCGGTTGTTTTATTAGTCACGATACAATCAGCTGTCTGGATCAATTTATCAATTCCATATTTCACAAATACGCCACTCGTTTATGTAGGATATTTGATTATCAGTACCGTACAACTGGCAGCGACAGTGGACTATGCCATTCTTTTAACAGAAGCGTATAAAGAAAATCGCAAAGAAATGCATGCATTACCAGCCATTAAGAAAACAATAGATGAGAAAATATTTTCCATCGGCGTATCCGCTTCAATTCTATCCAGTGTAGGATTTATTCTATGGCTGACCTCGTCCAACCAAATTGTTGCTTCTATCGGACTTTTATTAGGTAGAGGTGCGTTGCTCGCATTTATCATGGTCGTGTTAGTATTACCTGCACTGCTAAGCCTACTAGACCGCGTTATTGAAAAAACAACATGGAAAGCAAACTTTTACAAAGGGGAGTGA MYNIIIEAFNYIRKGWWTPIDWITKIIRHKKAVVITFITLAIISALAQFAVSINYSMVDYLPKDSPSTIAMETMEEEFDGAVANTRVMIKDIEIQEALEFKQDLKAIDGVSEVTWLDDAIDTKTPIEMADKDTVDSYYRNGNALFSFHIAEGKEVETTDEIYELIGKKNSMAGEALDTATSQKMTGKETMYAAALLIPIIIIILILSTRSWAEPVFFLTAIGISVIINLGTNIFIGEISFITQSVAPILQLAVSLDYAIFLLHSFGDYRKQTDTPAEAMQMAMKRSFPAIAASASTTFFGFIALTFMDFEIGADLGLNLVKGIALSFISVMVFLPALTLMFYHWIDKTEHKQLLPSIRNVGKTLNKLRVPALIVLLIFMVPAFLGQSQTNFLYGIGEQPEASRAYNDEVAIEEVFGKHTPMVLLLPKGDIAKEKHFVQELKNFPEVKSTVSYVDAIGPAIPPNYLDESVTAPFFSENYSRIIVNTTVDTEGEATFAFIDEIQLLTSDYYEDNYHILGESVTLYDMKHVVEKDNTVVNLLTVIAIATVLLITFRSLSFPVVLLVTIQSAVWINLSIPYFTNTPLVYVGYLIISTVQLAATVDYAILLTEAYKENRKEMHALPAIKKTIDEKIFSIGVSASILSSVGFILWLTSSNQIVASIGLLLGRGALLAFIMVVLVLPALLSLLDRVIEKTTWKANFYKGE NA NA NA NA NA AK015_01229 1881 hypothetical protein ATGCGCCTATTAGCAAATATTTATGGTAAAACCCGTAGCTTGACTTCTACCTTTCCGATAGTGAAGAAAATAAGTCTACTGCTGTTCATTTTTATGCTCGTAGTGGCGTTTCTTCCTTCTGCCGTTTTAGCAAATGATGATCCAGCAGAAAAAGAATCAAAAAATTCTACAGACAAAGGCGAATACAAAACAAAAGATGAAGTCATTTACGGTAATATGCGCGCCAATGGGCAAATGAAAGAAATGTATGTTGTCAATACATTTCAAGTAACGAAGCCCGGAAAAATAATTGATTATGGAGCGTACAGTTCTGTCCGAAACTTAACAAACTTACTAGATATAGAAAAAAACGGAAACAAAATCCAATTTCAAGCCGAGGAAGAGAAGGAATTTTATTACCAAGGAAATATGCCAAACAAACCACTTCCTTGGGATATTTCGATTACCTATATTCTGGATGGTAAGGAAATACAAACCGAGGAATTAGCAGGTAAAAGTGGTGCGCTAGAAATACAAATTTCCACTTCCAGGAATGAGGACGTAGATCCAAAGTTTTTTAACAATTATTTGTTACAAATTGCCGTAACGCTAGATCCAACAAAGTTTGATAATATTCAAGCTCCAGAAGGAACAAAAGCAAATGCAGGTCAAAATAAACAAGTCAATTTTACCGTGATGCCAGAACAAGAAGAAGATTTTATTATTTCAACCGACGTGTCAGAGTTTGAAATGGATCCAATCGAAATAAATGCAGCTCCCTATTCCATGTCCATCGAGAGTCCTGATACAAGTGGCGTAACTGGAGAAATGCAGGAGCTAGCAAATGCAATAAGTGACATACATGCAGGTGTTGGTGATTTAAAAACAGGCGTATCGGAACTAAATAAAGGTGCACAAGGAATTCGTGATGGTTCCACAGAATACAAAAACGGCATAAATGAATTAAACCAGTCATCTGGTGAATTAGTAAGCGGATCTGCGTCTATTAAAGAGGCATTACACACCATGAACCAAACGGTACAACAAAGTACGAGTAATATAGATCTCAGCTCCATTCAAGCGTTACCAGCCCATTTACGAGAAATTGCAAATGGATTGGAAGAATCAACAAAAGCTACGGATGGTCTGAAACAGAATTATTATCAAGCAAAAGGTCAATTAGATAAAGCAATGCATGCCATTCCGTCCGATGCAATTACCGAAGCGCAAATAAAAGAATTAAAAAATAGTAACGCCGACCAAGAAGTTATTGAACAATTAGTAAATACGTATTGGGCAGCAAACATCGCTAAAGAAACCTATAACCAAGTAACAGGTGCATTCGACGGCGTAACTGTAGCATTGGAACAATCCTCTAGCGCAACAACGGAGATGGCAAAAAACTTAAGGCAAATGGCTACGGAGATGGAGCAAACATTGAATTCCATGAATCAACTGGACATGATGGACCAAATTCAAGAAGGGTTTGCAACATTTAATGATGAATACGAAACATTTCATAATGGATTAGTGGACTATACAGATGGTGTAGAAGAATTAGCTACTTCCTATCAAGATTTGGATGCAGGTATACAAAAGTTAGCAAAGGGAACAGCAGGCACAAGTAATGGCATCAGTGATTTATATGCAGGTACAAAAGAGCTACGAGAAGCTACGAGTAATTTACCAGGTCAAATCGAACAAGAAACCGAAGAAATGATGGAAGAATATGATAACTCCGACTACAAACCAATCTCTTTCATTTCCGACAAAAATGAACAAGTAGAAGTCGTACAGTTTGTCCTGCAAACAGAAAGCATTGAAATCCCTGAGCAAGAAGAACCTGAACAAACAGAAGAAGAAAAAGGCATCTGGGAACGCTTTTTAGATTTGTTCCCATAA MRLLANIYGKTRSLTSTFPIVKKISLLLFIFMLVVAFLPSAVLANDDPAEKESKNSTDKGEYKTKDEVIYGNMRANGQMKEMYVVNTFQVTKPGKIIDYGAYSSVRNLTNLLDIEKNGNKIQFQAEEEKEFYYQGNMPNKPLPWDISITYILDGKEIQTEELAGKSGALEIQISTSRNEDVDPKFFNNYLLQIAVTLDPTKFDNIQAPEGTKANAGQNKQVNFTVMPEQEEDFIISTDVSEFEMDPIEINAAPYSMSIESPDTSGVTGEMQELANAISDIHAGVGDLKTGVSELNKGAQGIRDGSTEYKNGINELNQSSGELVSGSASIKEALHTMNQTVQQSTSNIDLSSIQALPAHLREIANGLEESTKATDGLKQNYYQAKGQLDKAMHAIPSDAITEAQIKELKNSNADQEVIEQLVNTYWAANIAKETYNQVTGAFDGVTVALEQSSSATTEMAKNLRQMATEMEQTLNSMNQLDMMDQIQEGFATFNDEYETFHNGLVDYTDGVEELATSYQDLDAGIQKLAKGTAGTSNGISDLYAGTKELREATSNLPGQIEQETEEMMEEYDNSDYKPISFISDKNEQVEVVQFVLQTESIEIPEQEEPEQTEEEKGIWERFLDLFP NA NA NA NA NA AK015_01230 1482 opuD_2 COG1292 Glycine betaine transporter OpuD ATGAAAAAAGTAACGATTGTCTTTTGGGTTACATTAGCCATTACTGCTGCGTTGTCTGTATTGGGAGCAGTCCTGCCAGATAAGTTTGAAAAAATTTCAAGCTTGGTTATGCGCTTTATATCGAATCATTTTGGCTGGTATTATTTATTAATTGTAACACTGTTTGTGGTGTTTTGCGTTTACCTTGTATTTAGCAAGTATGGAAAAATAACGCTTGGTAAAGTTGGTGAAAAACCGGAATTCGGTTATCTATCTTGGTTCGCCATGCTTTTTAGTGCGGGAATGGGGATTGGGCTTGTGTTTTATGGTGTTGCCTCACCTGTTTCTCATTATATGAAAACTCCTCCGATGGCAGAGCCTGGTACTAGAGAGGCTTTTGAAGATGCGCTACGTGTGACTTTTTTTCACTATGGTATTCATGCATGGGCGATTTATGCATTAATTGGATTAGTGCTCGCTTACTTTATGTTTCGTCATGAAAAGCCAGGTTTAGTAAGTTCGTCACTGGAATCGTTGTTTGGTGATAAAATGACAGGGCCTTTAGGGAAAGCGGTTGACGTAATTGCTGTTTTTGCGACTGTTGTGGGAGTAGCAACGACACTTGGGTTTGGTGCTACGCAAATTAACGGTGGTATTGCTTATTTGTTTGATATACCGATTGTGTTTTCGGTACAATTTATTATTATTTTGATTGTGACTGTTTTATTTATGATATCTACATATACAGGCTTAAGTAAAGGGATTCGTTACTTAAGTAATGCGAATATGGGATTGGGAGCAGCGTTGTTTTTGGCAACTTTAATTCTTGGACCGACTTTATATATCTTTAATTCTTTTACAGACACGATAGGCTTATATATACAGCAATTGCCTTCTGAAAGCTTTCGTCTATCTCCGCATAATGAAGAAGAGCGAGCATGGGTTATGAACTGGACGGTATTTTTTTGGGCATGGTGGATTGCATGGGCACCATTTGTTGGAATCTTTATTGCTAGAGTATCTAGAGGGCGAACCATTAGAGAGTTTGTGTCAGGTGTGTTAATTGTACCGTCAGTAGTCGGCTTTCTTTGGTTTTCAGCATTTGGTGTCTCAGGGATGGATGCACAGAATAAGGGTGCTAATATAGCAGCACTTCCGGATGAACAAGCTTTATTTGGGTTGTTTGACCAAATGCCATTAAGTATTATTTTGTCATTACTTGGCATTTTGCTTATTAGTACCTTTTTTATTACGTCTGCTGATTCCGCAACCTTTGTTTTAGCGATGCAGACAACGAATGGATCGATGACACCACCGACAGCGGTAAAGTTTGCTTGGGGAATTGCACAATCCTCTATAGCTGCTGTATTGTTATATACGGGTGGTTTACAAGCATTGCAGAATGCACTTATTTCCGCCGCCTTGCCATTTTCGTTTATTATGCTATTGATGATTGTTTCTTTTTATAAAGCACTGAAAAAAGACAAAGGCAGAAATCAGTAG MKKVTIVFWVTLAITAALSVLGAVLPDKFEKISSLVMRFISNHFGWYYLLIVTLFVVFCVYLVFSKYGKITLGKVGEKPEFGYLSWFAMLFSAGMGIGLVFYGVASPVSHYMKTPPMAEPGTREAFEDALRVTFFHYGIHAWAIYALIGLVLAYFMFRHEKPGLVSSSLESLFGDKMTGPLGKAVDVIAVFATVVGVATTLGFGATQINGGIAYLFDIPIVFSVQFIIILIVTVLFMISTYTGLSKGIRYLSNANMGLGAALFLATLILGPTLYIFNSFTDTIGLYIQQLPSESFRLSPHNEEERAWVMNWTVFFWAWWIAWAPFVGIFIARVSRGRTIREFVSGVLIVPSVVGFLWFSAFGVSGMDAQNKGANIAALPDEQALFGLFDQMPLSIILSLLGILLISTFFITSADSATFVLAMQTTNGSMTPPTAVKFAWGIAQSSIAAVLLYTGGLQALQNALISAALPFSFIMLLMIVSFYKALKKDKGRNQ PGPT0013600_1324 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK015_01231 414 hypothetical protein GTGGTCGGAGTGGGGGCAAGCGATTTTTTGACGGGCTTGAGCGATTTTTGTGCGTGGACGAGCGATTTCCGTGCGAGAGTGAGCGAGTTTCCGATGAACTGGAGCGAGTTTCCGATGAACTGGAGCGAGTTTTTGACGAACTGGAGCGAGTTTCGCACTAGGACAAGCAATTTTCTGACGAGCATGAATGCATTCCGCTTAGAAGGTAATTTTCTCCCTTTTGCTTTAAACTCCAAAAATTGGATTAAGCACATTAGAAAAACTTGGCTTGTCGCCAAGTCTTATGGCGAATGGCATAGTTTTTCTTATACTATAACCCTTAAAACTTTTATACTTTCCTATAGTGTAAAAAAATTGCACTTTGTTGTAGACCTCTATCTAACAACAAAGTGCAATGTAACTTGTATGCAATAA MVGVGASDFLTGLSDFCAWTSDFRARVSEFPMNWSEFPMNWSEFLTNWSEFRTRTSNFLTSMNAFRLEGNFLPFALNSKNWIKHIRKTWLVAKSYGEWHSFSYTITLKTFILSYSVKKLHFVVDLYLTTKCNVTCMQ NA NA NA NA NA AK015_01232 1356 alsT_3 COG1115 Amino-acid carrier protein AlsT ATGGCGCAAATTGAAGAATTTTTAAGTCAGATGAGCAGTATTGTATGGGGAATACCATTACTTGTACTACTAGTAGGTACTGGAATTTATTTAACAATTAGACTTGGTGCTTTGCAGGTGCGTTCGTTACCTTATGCGCTAAAGCTTGCCTTTTCCAGAAATCAGGATAAAGATTCAGAGGGAGATATTTCCCACTTTCAGGCGTTAATGACTGCTTCGGCTGCAACAGTTGGTACTGGTAATATTGTTGGAGTAGCCACGGCGGTTGTGATGGGTGGTCCTGGTGCTATTTTTTGGATGTGGTTAGCTGGATTTTTTGGCATGGCGACGAAGTATGGTGAGGCAATTTTAGCTGTAAAGTATCGTGTGAAAGATGCGAATGGAAATATGGCTGGTGGTCCAATGTATTATTTGGAACACGGATTAAAACAGAAATGGCTCGGTGTTCTGTTTGCAGTATTTGGTTCTCTTGCAGCTTTTGGGATTGGTAATGGAACACAGTCTAAAGCTATTGCAGATTTAATGCATGATACATTTTCTGTTCCGTTTTGGGTCACTGGTATTGTGCTAGTTATCTTTGCTGGTATGGTTATTTTAGGTGGTATTAAATGGATTGGACGGGTAACTGCATTTTTTGTGCCTATTATGGCATTGTTTTATATTCTTGCTGGAATTATAGTTATGATAATGAATATTAATCTTGTACCAGAAGCACTTGGAACGATTTTTACATTTGCGTTTACAGGCGAGGCTGCAACGGGGGGAGCTATTGGTGCAGCGATACGATTTGGAATTGCCCGCGGTTTGTTTTCCAATGAAGCAGGTTTAGGGTCTGCTCCTATAGCTGCTGCAGCAGCTAAAACGGACTTACCTGGCAGACAAGCGCTCGTTTCGATGACGCAAGTTCTTATTGATACATTTATCGTTTGTTCAATTACTGGAATTACTATTGTTATGTCTGGTAATTGGCGAGATGGTTCCATCGAAGCAGGTGTGTTGACGTCTACAGCTTTTGAGACTTTACTTGGTGGAGCAGGTCCATATATTATTACAATTGGGTTACTGTTTTTTGCCACTTCGACAATTTTGGGATGGGGATATTATGGAGAAAAATGCTTCCAATACTTATTCAAAAATCCTATGGCAGTAAGAGCTTATCGTACGGTTTTCGTTCTTTTCATTTTTGTTGGCGCCACCGCTACCCTTGATGTAGTATGGATGCTCGCCGATGTACTGAATGGCTTAATGGCTGCGCCCAACTTAATTGGTTTACTCGGATTATCAGGGGTAATTATTTATGAAACCAAACGTTTCCAGAAAAAAGCCAAAGAGGAAAAGCAGAAAGTAGCTTCGTAG MAQIEEFLSQMSSIVWGIPLLVLLVGTGIYLTIRLGALQVRSLPYALKLAFSRNQDKDSEGDISHFQALMTASAATVGTGNIVGVATAVVMGGPGAIFWMWLAGFFGMATKYGEAILAVKYRVKDANGNMAGGPMYYLEHGLKQKWLGVLFAVFGSLAAFGIGNGTQSKAIADLMHDTFSVPFWVTGIVLVIFAGMVILGGIKWIGRVTAFFVPIMALFYILAGIIVMIMNINLVPEALGTIFTFAFTGEAATGGAIGAAIRFGIARGLFSNEAGLGSAPIAAAAAKTDLPGRQALVSMTQVLIDTFIVCSITGITIVMSGNWRDGSIEAGVLTSTAFETLLGGAGPYIITIGLLFFATSTILGWGYYGEKCFQYLFKNPMAVRAYRTVFVLFIFVGATATLDVVWMLADVLNGLMAAPNLIGLLGLSGVIIYETKRFQKKAKEEKQKVAS PGPT0014405_4272 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 AK015_01233 699 hypothetical protein ATGAAAGAAATAATCAATGAACTATTGGGGGATCATTTTTATGTTATTTTAACTCGTTTACTTATCGCATTATGCCTTTCTGGATTAATCGGGTTTGAAAGGGAGTTAAAAAATCATTCAGCTGGATTTCGCACCCATATTTTAGTAGGCGTTGGCTCTTGTCTAATGATGCTACTTTCTTTATTTGGATTTGAATTTTTTCTAGAGCATTACGAGAATATCCGTTTTGACCCTGCAAGAATACCTTCGTATGTGATAAGTGGAATTGGGTTTTTAGGTGCTGGTACCATCATTGTATATGGTGGCACGATAAGAGGTTTAACGACAGCTGCATCTATTTGGACAGTTGCAGGGTTAGGTCTGGTAGTAGGTGTTGGTATGTATGGGGCAGCAGTAGTAACAACTGCAATAATATTACTCAGCCTTATATTCCTTAATAATTTTGAACGCCTATTTAAAAAAGGAAAAGTTTCCCACGTTATTCAAATCGTTACACTCCCAGACTTGCCCGTAAATGAGGTGGTTGCAGTGTTTGACAACCATTACGTTTCTATTAAAAAAGTAGAAATATCAAAATCAGATAATAATTACCGTAATATTTTTATTAATACAGAAGGAATAACGAATGCAGAACGTCTAACTTTATTTGATGAAATTTCTCGTATTAACCATGTTAGAAATGTTACTGAATTAAAATAA MKEIINELLGDHFYVILTRLLIALCLSGLIGFERELKNHSAGFRTHILVGVGSCLMMLLSLFGFEFFLEHYENIRFDPARIPSYVISGIGFLGAGTIIVYGGTIRGLTTAASIWTVAGLGLVVGVGMYGAAVVTTAIILLSLIFLNNFERLFKKGKVSHVIQIVTLPDLPVNEVVAVFDNHYVSIKKVEISKSDNNYRNIFINTEGITNAERLTLFDEISRINHVRNVTELK PGPT0014005_1327 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507 NA NA AK015_01234 165 hypothetical protein ATGGGCGATACTCGTTCGAATGAATTACGTCCGTTTCTTTTATATAAAAAAGGCGTACCTTTCAAAATTCTAAAATGTTTGGCAAAATCTTTTTTACACTATAGGAATGTGTCGGATTTTTTAATATATTATAAGCAAAAATACGGTTTCCGCCATAAGACTTGA MGDTRSNELRPFLLYKKGVPFKILKCLAKSFLHYRNVSDFLIYYKQKYGFRHKT NA NA NA NA NA AK015_01235 468 ctsr Transcriptional regulator CtsR ATGGGTAATATATCAGATATAATTGAAAGTTATTTGAAGCAAATCCTTCAATCAAAAGGGAAGAATGTAATTGAAATTAAACGAAGTGAGATAGCTGACCAATTTCAATGTGTCCCCTCACAAATTAATTATGTAATTAATACACGCTTTACTGCTGAAAAAGGTTATATTGTGGAAAGTAAGCGTGGTGGCGGTGGTTTTATTCGAATTATGCGGGTTATTCACCAAGAAGAGTCCAAGTTGATTGATGAAATTATTGAAATGATTAATCCATCTGTATCTCAGCAAAAAGCAGTCGGTATATTAGAAAGGTTACTTGAAGAAGAGTTAATTACGGAACGCGAGGCTAAGATTATGTTAAGCGCTATTGAAAGAACGACGCTTCCATTCCAATTGCCTTTACGAGATGAAATTCGTGCACGCGTATTAACATCCATGCTTACAACGCTTAAGTATTTAAATAAATAA MGNISDIIESYLKQILQSKGKNVIEIKRSEIADQFQCVPSQINYVINTRFTAEKGYIVESKRGGGGFIRIMRVIHQEESKLIDEIIEMINPSVSQQKAVGILERLLEEELITEREAKIMLSAIERTTLPFQLPLRDEIRARVLTSMLTTLKYLNK PGPT0014610_217 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014610-ctsR-K03708 NA NA AK015_01236 549 mcsA COG3880 Protein-arginine kinase activator protein ATGCAATGCCAAGAATGTCACAAACGTCCTGCAACCCTTCATTTCACACAAGTGATTCAAGGGCAAAAAATGGAGGTTCATGTTTGTAATGTTTGTGCGAAGGATAAAGGGTATATGAACTATTCAGAAGATGGATATTCGCTACATCATTTACTTTCTGGGTTATTTAATTTTGACACCTCCAGCTTGTCAAATCCACACACGGAAAGTTATCATCAGACAAAGGACTTACAATGTCCAAAATGCGAAATGACTTTTTCTCAATTTAAGCAAGTAGGAAAATTTGGCTGTGCTGTTTGTTATGAAACTTTTAACGATCGTTTAGACTCGATATTTCGAAGAGTCCATGCGGGGAATGTAAAGCATAATGGGAAAATCCCTAAACGACAAGGTGGAGATTTGCATAAGAAAAAACAGCTAGAAGATTTAAAACTGCATTTGAAAAAGTTAATTGAGAATGAAGAATTTGAAGAAGCAGCAAAAGTAAGAGATCAAATTAAAGCTTTAAATCAAGATGACGGTCAGGCAGAGGCAGGTGATCAATCATGA MQCQECHKRPATLHFTQVIQGQKMEVHVCNVCAKDKGYMNYSEDGYSLHHLLSGLFNFDTSSLSNPHTESYHQTKDLQCPKCEMTFSQFKQVGKFGCAVCYETFNDRLDSIFRRVHAGNVKHNGKIPKRQGGDLHKKKQLEDLKLHLKKLIENEEFEEAAKVRDQIKALNQDDGQAEAGDQS PGPT0014655_162 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014655-mcsA-K19411 NA NA AK015_01237 1065 mcsB Protein-arginine kinase ATGACATTGCAGCAATTTATGAATGAAGCGATTAGCCCGTGGATGCGGAAAGATGGTCCAGATAGCGATATTGTTTTAAGTAGCCGTATTCGCCTTGCTCGAAATTTTGCTAATATACCTTATCCAATAGCTGCTGATCCAAAAGAGTTAGAGGAAATAAGGAGTTTTTTTCAAGAAAAGTATGAAGGACAAACTTATGGAGTGTATAAAGATTTAGCATTTGTATCCATTCGTGATCTATCCGCTATTGAAAAACGTGTATTAGTCGAAAAACATTTGATTAGTCCGTTGTTAGCAAAGCAATCTGAAGCTGCATCTGTGCTTATTTCTGAAAATGAGCAAGTATCTCTTATGATCAATGAAGAAGACCATATTCGCTTGCAACTTTATTTCCCAGGTTTTCAAATAGCAGAGGCCCTGCAACAAGCATTCGAATTTGATGATTGGCTAGAAGAAAAAATCAATTATGCTTTTGATGAAAAACGAGGTTACTTGACAAGTTGTCCGACGAATGTAGGAACTGGAATGCGTGCTTCTGTTATGATGCATTTGCCCGCGTTAGTTTTAACAAAACAAATCAATCGCATGATACCAGCAATTAACCAGTTAGGTCTCGTTGTACGAGGTATTTATGGCGAAGGTAGTGAAGCGCAAGGAAACATTTTTCAAATATCTAATCAGATTACGCTTGGAAAATCAGAAGAGGATATCGTTGCTGATTTGCAAAGTGTTGTGAAGCAATTAATTGAACAGGAACGTTATGCGAGACATCGGATAATGGAGCAATCGAAAGAGAAGTTGGAAGATCGAATTTTTCGTTCTTATGGTGTATTGGCATATGCAAGAATTTTAGAATCAAAAGAGGCTGCAACATGCTTATCCAATGTAAGGTTAGGTATTGATGTAGGTTTATTGAAAAATGTATCAAGAAATATTTTAAATGAACTAATGATTTTGACTCAACCAGGATTTTTACAGCACTATGCCAAAAAAACATTAGCAGCAAGTGAACGTGACCAATTGCGAGCTTCTCTTATTCGTCAGCGGTTGCAATTAGAGGAATAG MTLQQFMNEAISPWMRKDGPDSDIVLSSRIRLARNFANIPYPIAADPKELEEIRSFFQEKYEGQTYGVYKDLAFVSIRDLSAIEKRVLVEKHLISPLLAKQSEAASVLISENEQVSLMINEEDHIRLQLYFPGFQIAEALQQAFEFDDWLEEKINYAFDEKRGYLTSCPTNVGTGMRASVMMHLPALVLTKQINRMIPAINQLGLVVRGIYGEGSEAQGNIFQISNQITLGKSEEDIVADLQSVVKQLIEQERYARHRIMEQSKEKLEDRIFRSYGVLAYARILESKEAATCLSNVRLGIDVGLLKNVSRNILNELMILTQPGFLQHYAKKTLAASERDQLRASLIRQRLQLEE PGPT0014660_331 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014660-mcsB-K19405 NA NA AK015_01238 2427 clpC COG0542 Negative regulator of genetic competence ClpC/MecB ATGATGTCTGGACGTTTTACCGAAAGAGCACAAAAAGTACTCGCACTCTCCCAAGAGGAGGCTGTAAGATTAGGGCATAATAATATCGGGACAGAACATATTTTACTAGGACTTGTCCGCGAAGGAGAAGGTATTGCTGCAAAAGCATTACAATCACTTGGATTGGAGATTTCCAAAATTCAAGAAGAGGTGGAAAAACTAATTGGCGTAGGGAAACAGCCAATGCAAACAATTCACTATACACCACGTGCGAAAAAAGTGGTAGAACTTTGCCAAGATGAAGCACGTAAGCTTGGGCATTCATATGTTGGCACAGAGCACATACTATTAGGGCTTATCCGAGAAGGAGAGGGCGTTGCTGCTAGAGTTTTAAACAATTTAGGGGTTAGCCTGAACAAAGCTAGACAGCAAGTTTTACAGCTTTTAGGTAGTAATGAATCGCAAGCAAATCGTCAGGGGCGTGCGCAACAATCCAATGCGAATACCCCAACACTTGATTCGTTAGCACGTGATTTAACGGTGAGCGCCAAAGAAGGCAATATTGATCCAGTTATTGGACGTAGTAAGGAAATCGAACGGGTTATTCAAGTGTTAAGTCGCCGTACGAAAAACAACCCTGTATTAATTGGCGAGCCTGGTGTAGGAAAAACAGCGGTTGCAGAAGGGCTTGCACAACAAATTATTCAAAATGAAGTACCAGAAACATTACGAGATAAGCGCGTGATGACGCTAGATATGGGAACGGTTGTGGCAGGAACAAAATATCGTGGTGAGTTCGAAGATCGTTTGAAAAAGGTAATGGAAGAAATTCGTCAAGCTGGTAACATTATCTTATTTATTGATGAATTGCACACTTTAATTGGCGCCGGTGGGGCAGAAGGTGCGATTGATGCGTCAAATATTTTAAAGCCATCACTTGCCCGTGGTGAGTTACAGTGTATTGGTGCTACGACATTAGATGAGTATCGTAAATATATTGAAAAAGATGCAGCGCTTGAGCGCAGATTTCAGCCTATTCAAGTTGATGAACCAACGTTGGAAGAAACGATCCAAATTTTAAAAGGCTTACGTGATCGTTACGAAGCACATCATCGTGTTACGATAACAGATGAAGCAATTGAAGCAGCTGCTAATCTATCGGATCGTTATATAACTGACCGGTTCTTACCAGATAAGGCGATTGATTTAATTGATGAAGCAGGATCGAAGGTGCGTTTAAAATCCTATACTGTACCACCAAACCTGAAGAAATTAGAACATAAGTTGGAAGAGGTTCGTAAGGAAAAGGATGCAGCTGTACAAAGTCAAGAGTTTGAAAAAGCCGCATCGCTTCGTGATTCCGAGCAACGGTTACGTGAAGAAGTAGCTGAGACGAAGACAAAATGGAAAGAAAAGCAAGGACAAACCGATACGGAGGTTACAGTAGAAGACATTGCGAGTGTTGTATCTATCTGGACGGGTGTCCCTGTAGCAAAACTAACGAAGGATGAGAGCGAACGTTTGCTTAACATGGAGGAGATCCTTCACAATCGAGTAATCGGCCAAGAAGAAGCTGTAAATGCCGTTTCTAAAGCAATCCGTAGAGCTCGAGCAGGGTTGAAAGATCCGAAACGCCCAATTGGTTCGTTTATATTTTTAGGACCAACAGGGGTTGGGAAAACGGAATTAGCTCGTGCCTTAGCGGAAGCCATGTTTGCGGATGAGGATGCCATGATTCGAATTGATATGTCGGAGTATATGGAAAAGCATGCTACTTCTCGTTTAGTTGGCTCACCTCCTGGCTATGTAGGATATGAAGAAGGCGGTCAACTAACTGAAAAAGTCCGTAGAAAACCGTATTCCGTTGTGCTTTTAGATGAAGTAGAAAAGGCTCATCCGGAAGTGTTCAATATCTTATTACAAGTTCTTGAAGATGGTCGTTTAACCGACTCCAAAGGTCGCGTGGTCGATTTTCGTAATACGGTATTAATTATGACATCGAATGTTGGTGCGAGCGAATTAAAGCGAAATAAATATGTTGGCTTTAATTTAGGGGAAGAAGACCAGGATTATAAAAATATGAAATCAAAAGTAACGGAAGAGCTAAAAAAAGCATTTCGACCAGAATTTTTAAACCGTATAGATGAAACAATTGTTTTCCATTCCTTAGAGAAAAAACATATGAAGCAGATTGTAACGCTAATGATTCAACAACTGCAAAAACGTTTAAAAGAACAAGATATCGAGTTCTCGCTAACAGATAAGGCAATTGAAAAGATTGCCAATGAAGGTTTCGATCCTGAATATGGAGCAAGACCGCTTCGTCGCTCGATTCAAAAGAATGTAGAGGATTTATTGTCTGAAGAGCTTTTAAAAGGAACAATTGAAAAAGGTCAAAAAGTAAAAATTGGTTTAAACAATAAAGGAGAATTTATTATACTTCCTTAG MMSGRFTERAQKVLALSQEEAVRLGHNNIGTEHILLGLVREGEGIAAKALQSLGLEISKIQEEVEKLIGVGKQPMQTIHYTPRAKKVVELCQDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNESQANRQGRAQQSNANTPTLDSLARDLTVSAKEGNIDPVIGRSKEIERVIQVLSRRTKNNPVLIGEPGVGKTAVAEGLAQQIIQNEVPETLRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMEEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDEPTLEETIQILKGLRDRYEAHHRVTITDEAIEAAANLSDRYITDRFLPDKAIDLIDEAGSKVRLKSYTVPPNLKKLEHKLEEVRKEKDAAVQSQEFEKAASLRDSEQRLREEVAETKTKWKEKQGQTDTEVTVEDIASVVSIWTGVPVAKLTKDESERLLNMEEILHNRVIGQEEAVNAVSKAIRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAEAMFADEDAMIRIDMSEYMEKHATSRLVGSPPGYVGYEEGGQLTEKVRRKPYSVVLLDEVEKAHPEVFNILLQVLEDGRLTDSKGRVVDFRNTVLIMTSNVGASELKRNKYVGFNLGEEDQDYKNMKSKVTEELKKAFRPEFLNRIDETIVFHSLEKKHMKQIVTLMIQQLQKRLKEQDIEFSLTDKAIEKIANEGFDPEYGARPLRRSIQKNVEDLLSEELLKGTIEKGQKVKIGLNNKGEFIILP PGPT0014585_3099 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696 NA NA AK015_01239 1374 radA COG1066 DNA repair protein RadA TTGGCGAAGCGTAAAACGAAATTTGTTTGTCAGGATTGTGGGTATGAAGTAGCAAAATGGCTTGGCAAGTGTCCTGGTTGTAATAATTGGAATACGTTTGTAGAAGAGATTGAAATTACTGGTGGGAGACAAAAGCAAGCTTTTCAAACAGGTAATAGGTCAGTAGGAAAGCCTGAAAAAATTACAGCAATTAAATCACAACAAGAACCGAGAGTGACAACAGATATGAAAGAGTTTAACCGTGTGCTCGGCGGCGGCATTGTGCCAGGCTCTCTCGTTCTAGTTGGTGGTGATCCAGGGATTGGAAAGTCTACCCTGTTATTACAAATATCATCTCAATTGGCAGATAAAAGTCTGTCTGTTTTATACATTTCCGGGGAAGAATCAACGAGACAGACAAAGTTGCGTGCTGATCGTTTAGGTGTAACTTCCGACGAGTTATATGTGTTAGCAGAAACAAATTTACTTGATATAGCAAATCAAATCGAAGCAATAAAACCATCATTTGTCGTTATTGATTCCATTCAAACGGTCTATCGTGAAGAGATTACTAGTGCACCGGGCAGTGTTTCTCAAGTAAGAGAATGTACATCTGAATTGATGAAAATTGCTAAAACGAATGGAATACCCATCTTTATTGTGGGACACGTGACGAAAGAGGGGACGATTGCTGGCCCAAGGCTTTTAGAGCATATGGTGGACGCTGTGCTATATTTTGAAGGGGAGCGTCATCATACGTACCGCATTTTAAGAGGTGTGAAAAATCGGTTTGGTAGTACGAATGAAATGGGCATCTTTGAGATGAAGGAAGCGGGGCTACGCGAAGTTTTAAACCCTTCAGAAATATTTTTGGAAGAACGTTCACAAGGAGCTTCGGGGTCTACCGTCGTAGCTTCTATGGAGGGAACAAGACCAGTATTGGTAGAGATACAGGCATTAATTTCTCCTACAGCGTTTGGTAACCCTCGTAGAATGGCGACAGGAGTAGATCAGAACCGTGTTCCACTACTGATGGCAGTGTTAGAAAAACGTGTCGGTTTAATGCTGCAAAACCAAGATGCATATATTAAAGTTGCTGGTGGTGTTAGACTTGATGAACCTGCCATTGATTTAGCAATTGCTGTTAGTATTGCTTCTAGCTTCCGTGATCAACCAACAAAGCCGGAAGATATTTTTATTGGGGAAGTCGGACTGACGGGAGAAATAAGACGGGTATCTCGCATTGAACAACGTGTTCAAGAAGCTGCCAAACTAGGATTTAAACGCGTTATTTGTCCTAAAAATAATTTGGGGGGTTGGACAACGCCAAATAACATCGAAATTATCGGTGTAAACACGGTGCAAGAAGCGTTACAAATCGGGGTAAGTAGATAA MAKRKTKFVCQDCGYEVAKWLGKCPGCNNWNTFVEEIEITGGRQKQAFQTGNRSVGKPEKITAIKSQQEPRVTTDMKEFNRVLGGGIVPGSLVLVGGDPGIGKSTLLLQISSQLADKSLSVLYISGEESTRQTKLRADRLGVTSDELYVLAETNLLDIANQIEAIKPSFVVIDSIQTVYREEITSAPGSVSQVRECTSELMKIAKTNGIPIFIVGHVTKEGTIAGPRLLEHMVDAVLYFEGERHHTYRILRGVKNRFGSTNEMGIFEMKEAGLREVLNPSEIFLEERSQGASGSTVVASMEGTRPVLVEIQALISPTAFGNPRRMATGVDQNRVPLLMAVLEKRVGLMLQNQDAYIKVAGGVRLDEPAIDLAIAVSIASSFRDQPTKPEDIFIGEVGLTGEIRRVSRIEQRVQEAAKLGFKRVICPKNNLGGWTTPNNIEIIGVNTVQEALQIGVSR PGPT0014905_2569 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485 NA NA AK015_01240 1095 yacL COG4956 putative PIN and TRAM-domain containing protein YacL ATGAAAAAGATTGTGCATTTGTTTTTCATTATTTTAGGAGGAACTATAGGTTATCTTTATGTTCCTTTGTTTTTAGCTTTATTAAATATTGCCGATGCTAATTGGATGTTCTCTCCCTATATAGGAATGGCGATCGGTGCTATTATTTTCTTTCTCATATCATATTGGCTTGTCGATTATATTGTGGGATTTTTAAAATGGATAGAGGAAGCACTTATTCATCTACCTGCTGGTGATTTATTTTCAGGGACGTTAGGTTTGATGGCTGGTTTAATTATCGCGTATTTAATCACCATACCTTTGGGAGATCTTAATGTATTAGTTTCACAAGTTCTTCCATTATTTATAACGATTATATTAGGGTATCTAGGTTTTCAAGTCGGTTTTCGCCGTCGTGAAGATATTGTCAATTTATTTAATATGAATCGTAAGGAAAAAGAAAAGCGAAAAATCCCAGAAAGTGATGTAACAAATACAACCATACAACCTAAAGCAAAGATATTGGATACAAGTGTCATTATTGATGGACGGATCGCTGACATTTGCCAAACGAACTTCTTGGAAGGAACGGTTGTTATTCCGCAATTCGTACTTGGCGAGCTGCAACATATTGCTGATTCATCTGATGTATTAAAGAGAAACCGTGGACGTAGAGGTTTAGACGTGTTAAATCGGATCCAGAAAGATTTACCTGTAAAAGTGGAAATCTATGAAGGGGACTTCGAAGATATTCATGAGGTGGATAGCAAATTAATCAAATTGGCTAAAGTAATTGATGGTATCGTTGTAACCAATGATTTTAACTTGAATAAAGTTTGTGACTTGCAAAGTGTGTCTGTATTAAACATTAATGATTTGGCGAATGCTGTGAAGCCTGTTGTCCTGCCTGGGGAAGAATTAACCGTACATGTTATAAAAGATGGGAAAGAACATAATCAAGGGGTCGCTTACCTTGATGATGGAACCATGATTGTTGTGGAAGAAGGTAGAGACTATATCGGCAAAACAATCGAAGTGCTAATTACGAGTGTCTTGCAAACGTCTGCTGGACGAATGATATTTGCAAAACCAAAATTACTTGAAAAAGCACTGTAA MKKIVHLFFIILGGTIGYLYVPLFLALLNIADANWMFSPYIGMAIGAIIFFLISYWLVDYIVGFLKWIEEALIHLPAGDLFSGTLGLMAGLIIAYLITIPLGDLNVLVSQVLPLFITIILGYLGFQVGFRRREDIVNLFNMNRKEKEKRKIPESDVTNTTIQPKAKILDTSVIIDGRIADICQTNFLEGTVVIPQFVLGELQHIADSSDVLKRNRGRRGLDVLNRIQKDLPVKVEIYEGDFEDIHEVDSKLIKLAKVIDGIVVTNDFNLNKVCDLQSVSVLNINDLANAVKPVVLPGEELTVHVIKDGKEHNQGVAYLDDGTMIVVEEGRDYIGKTIEVLITSVLQTSAGRMIFAKPKLLEKAL NA NA NA NA NA AK015_01241 222 hypothetical protein TTGTATGACAGCGCCTTGCTTTTAAATTCTATATTAAATTATACGGTTCTTGCTCGTATAACAAAAGTGATAACAACCATTGTTATCACTTTTGTTCATCCTTTATATGTTATACCTTTTTACAGTGCTTTTTCAAGTAATTTTGGTTTTGCAAATATCATTCGTCCAGCAGACGTTTGCAAGACACTCGTAATTAGCACTTCGATTGTTTTGCCGATATAG MYDSALLLNSILNYTVLARITKVITTIVITFVHPLYVIPFYSAFSSNFGFANIIRPADVCKTLVISTSIVLPI NA NA NA NA NA AK015_01242 1470 gltX Glutamate--tRNA ligase ATGACAAATCAGGTTCGAGTACGTTATGCACCAAGTCCAACAGGTCATTTGCATATCGGAAACGCACGTACAGCATTATTTAATTACTTATATGCAAAACATTTCAATGGAAAAATGATTATTCGCATTGAAGACACAGACGAGAAACGAAACGTAGCAGGTGGCGAAGAAAGCCAGCTAAAGTTTTTAAAATGGTTAGGTGTTGAATGGGATGAAGGCGCTGATGTAGGTGGCGATTACGGTCCGTACCGTCAGATGGAGCGTCTTGATATTTATCAAAAATATGTGGACGAGCTGTTAGAAAGAGGCTTGGCATACAAATGCTATATGACAGAGGAGGAGCTTGAAGCGGAAAGAGAGCAACAGCGCGCTAACGGCCAAGTTCCAAAATATTCTGGCGCCCATCGTGATTTAACGGAAGCACAAATCGCAGCCTTTGAAGAGGAGGGGCGTTTACCAAGCATCCGTATGCGAGTTCCTGAAAATAAGACATATACATTTAATGATATTGTAAGAGGCGATATTACATTTGAATCTAGTGATTTTGGTGATTGGGTTATTGTAAAGAAAAACGGTATTCCGACGTATAACTTTGCCGTAGCTATTGATGACCATCTAATGGAAATTACGCACGTATTACGAGGAGAAGAACATATTTCCAATACTCCAAAACAAATGATGATATATGATGCATTTGGTTGGCAGCCGCCAAAATTTGGCCATATGACACTGATTCTTAACGAAGAACGGAAAAAATTAAGCAAGCGTGACCAGCATATTATTCAATTCATTGAACAGTACCATGACTTAGGCTATTTGCCAGAAGCTTTGTTTAATTTTATTACGTTACTAGGTTGGTCTCCGGTTGGGGAAGAGGAAATTTTTGATAAGCCAACTTTAATTGATATCTTTGATCCAAATCGCTTATCTACGTCTGCAGCTATCTTTGACCGTCATAAATTGAAGTGGATGAATAATGCGTATATAAAAGCGACAGACCTTTCAGAAGTGATTGACTTGGCACTACCACATTTAGTAAAGGCTGAAAAGCTGCCGAACGATATGGATGAAGAGACAAGGGAATGGGTTAAGAAGGTTATTGCATTATACAAAGAGCAATTGCGTTATGGTGCAGAAATTGTAGAATTAACGGAGATGTTTTTCTCTAAAGAGCTCAGCTTTGATGACGCTGCTTGGGAAGTTCTTGAAGGAGAGCAAGTTCCAGAGGTATTACAAGTCTTCACAGATAAGCTCCTTCATTTGGATGATTTTACAGCCGATTCTATTAAAGCTCAGATTAAAGCAACACAAAAAGAAACGGGGCATCGAGGTAAGAAACTATTTATGCCGATCCGTGTAGCTACTACGGGACAAACTCATGGACCAGAATTACCTATGGCAATTGAACTACTAGGAAAAGATACCGTCATTAGCCATTTAGACGCTGTATTAAAGAAACTTAAAGCGTAA MTNQVRVRYAPSPTGHLHIGNARTALFNYLYAKHFNGKMIIRIEDTDEKRNVAGGEESQLKFLKWLGVEWDEGADVGGDYGPYRQMERLDIYQKYVDELLERGLAYKCYMTEEELEAEREQQRANGQVPKYSGAHRDLTEAQIAAFEEEGRLPSIRMRVPENKTYTFNDIVRGDITFESSDFGDWVIVKKNGIPTYNFAVAIDDHLMEITHVLRGEEHISNTPKQMMIYDAFGWQPPKFGHMTLILNEERKKLSKRDQHIIQFIEQYHDLGYLPEALFNFITLLGWSPVGEEEIFDKPTLIDIFDPNRLSTSAAIFDRHKLKWMNNAYIKATDLSEVIDLALPHLVKAEKLPNDMDEETREWVKKVIALYKEQLRYGAEIVELTEMFFSKELSFDDAAWEVLEGEQVPEVLQVFTDKLLHLDDFTADSIKAQIKATQKETGHRGKKLFMPIRVATTGQTHGPELPMAIELLGKDTVISHLDAVLKKLKA 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 AK015_01245 240 hypothetical protein ATGCAACGGTGGTGTGAGAGGGGTGAAAAGTTACTTAACTTTTCCCTCTACTCGATTTGGTTCATTGTTATCAAATCCTTTGCTATACACCGTGAATGTAAACCGCAAACAATGATACTTGTATTTAGCACGAAAGCTTGCATGAATGGAGCTACTATTGTTAATGAAAATAGATGTCTAACAAGGAGATTTTGCAGAAAAAGCTTTACGGCTAAGAATGAAGCTAAATATAATAGATAG MQRWCERGEKLLNFSLYSIWFIVIKSFAIHRECKPQTMILVFSTKACMNGATIVNENRCLTRRFCRKSFTAKNEAKYNR NA NA NA NA NA AK015_01246 663 cysE COG1045 Serine acetyltransferase ATGGGCATTTGGAAACGAATGAAAGATGATATGGATGCTGTATTCGAGCAGGACCCAGCTGCACGCTCTTATTTTGAAGTTTTTTTAACGTATTCAGGTCTTCATGCTGTTTGGTCGCACCGTATTGCCCACGCGTTATATAAGCGTAAAATGTTTTTTATTGCCCGTGTCATCTCACAAATGAACCGTTTCTTTACTGGAATTGAAATTCACCCAGGTGCGATAATTGGTAGACGTTTATTTATTGACCATGGAATGGGAGTTGTTATTGGTGAAACATGCGAAATTGGCAATAATGTAACGATTTTTCAAGGGGTAACGTTAGGTGGTACTGGAAAAGAAAAGGGAAAGCGGCATCCGACGATAAAAGATAATGCGCTGATTGCAACAGGAGCCAAAGTGCTTGGATCCATAACAATTGGGGAAAGCGCAAAAGTAGGTGGCGGGTCTGTTGTTTTAAAGGATGTGCCCGATAATGCTACCGTAGTCGGTATCCCGGGCAAAATTGTAAAGCACCGCGGAGAAAAGGTTACTAAAGACTTAAATCATCACAAACTACCTGATCCAGTAGCAAATCGATGTGAATATTTACAGCAGGAAATTGATGCATTAAAGGAAGAAATAGCTAAATTAAAGGAAGGGAAAAAACACGATGTCCATTAA MGIWKRMKDDMDAVFEQDPAARSYFEVFLTYSGLHAVWSHRIAHALYKRKMFFIARVISQMNRFFTGIEIHPGAIIGRRLFIDHGMGVVIGETCEIGNNVTIFQGVTLGGTGKEKGKRHPTIKDNALIATGAKVLGSITIGESAKVGGGSVVLKDVPDNATVVGIPGKIVKHRGEKVTKDLNHHKLPDPVANRCEYLQQEIDALKEEIAKLKEGKKHDVH PGPT0020265_4195 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 AK015_01247 1401 cysS COG0215 Cysteine--tRNA ligase ATGTCCATTAAAATATACAATACGTTAACACGTAAAAAAGAAGTGTTTAAACCAATAGAACAGGGCAAAGTGAGCATGTATGTTTGCGGACCGACTGTATATAACTATATTCATATTGGTAATGCAAGACCTGCAATTGTCTTTGATACAGTGAGACGTTATTTAGAGTACAAGGGTTTTGAAGTAGATTATGTGCTCAATTTTACGGATGTGGACGATAAGTTAATTAAAGTTGCCAATGAGCTCGGTAAGGAAGTGCCAGAGGTAGCTAACCGGTTTATTTCCGCTTATTTAGAAGATGTTGGTGCTTTAGGGGTAAAAGAAGCTACACATAACCCTCGAGTAACAGAAACAATGGCTGATATTATCGCCTTTATTGAGAAGCTTATTGAAACAGGTGTTGCTTATGAAGTGCAAGGTGATGTCTATTTTAAACCTCGGGAGTTTAAAGGATATGGAAAGTTATCTCATCAATCTGTCGATGAGCTAAGGTCTGGAGCTCGAATTCAAGTTGGTGAGAAGAAAACAGATCCACTTGACTTTGCTTTATGGAAAAAGGCAAAGGATGGAGAGATTGCTTGGGATTCGCCGTGGGGAAAAGGGCGCCCCGGATGGCATATTGAGTGCTCTGCCATGGTAAAAAAATACCTTGGCGAGACAATTGATATTCATGCAGGAGGGCAAGACCTTGCTTTTCCACACCATGAGAACGAAATAGCGCAATCGGAAGCTCTGACGGGAAAAACATTTGCTAACTATTGGATGCATAATGGTTATATCAACATTGATAATGAAAAAATGTCCAAATCACTAGGAAACTTTTTATTAGCTCGCGATTTAATCCAACAGTATGATCCACAAGTCATTCGTTTCTTTATGCTTAGTGTCCATTATCGTCACCCGATTAACTTTTCTGAGGAGTTATTACAGAGTGCAGAAAACAGTTTAGAGCGAATAAAAACAGCTTATTTTAATTTAGAGCACCGCAAACCTTCTAGCATGGATCTTGTAGATCATAAAGAGGATTGGTTGCAAAAGCTAGCGCAATGGAAGCAGCAATTTGAGGCGGAGATGGATGATGACTTTCATACTGCCAATGCAATTTCAGTTCTTTTTGAAGTAGCGAAAGAAGCGAATGTCTACTTGCAACAAAAACAGACATCAAGCGAGGTAATTGCAGCTTTCCAACAAGTCATACGCTCTTTCTTAAAGGTTCTTGGAATTGAATTAGAGGTGGAACAGGAGCTACTAGATGCAGAGATTGAGGCATTAATTGAAGAACGTAATACCGCAAGAAAAGCTCGTGATTTCGCTCGTGCTGATGAAATTAGAGATATGCTAAAAGAAAAAAATATCATTTTAGAAGATACGCCTCAAGGAGTACGATGGAAAAGAGGATAA MSIKIYNTLTRKKEVFKPIEQGKVSMYVCGPTVYNYIHIGNARPAIVFDTVRRYLEYKGFEVDYVLNFTDVDDKLIKVANELGKEVPEVANRFISAYLEDVGALGVKEATHNPRVTETMADIIAFIEKLIETGVAYEVQGDVYFKPREFKGYGKLSHQSVDELRSGARIQVGEKKTDPLDFALWKKAKDGEIAWDSPWGKGRPGWHIECSAMVKKYLGETIDIHAGGQDLAFPHHENEIAQSEALTGKTFANYWMHNGYINIDNEKMSKSLGNFLLARDLIQQYDPQVIRFFMLSVHYRHPINFSEELLQSAENSLERIKTAYFNLEHRKPSSMDLVDHKEDWLQKLAQWKQQFEAEMDDDFHTANAISVLFEVAKEANVYLQQKQTSSEVIAAFQQVIRSFLKVLGIELEVEQELLDAEIEALIEERNTARKARDFARADEIRDMLKEKNIILEDTPQGVRWKRG PGPT0002985_3951 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883 NA NA AK015_01248 444 mrnC COG1939 Mini-ribonuclease 3 ATGGAAAAGAGGATAACCATGGAGCAAGATGTAAAACAATTGAAAAGCCTTGCCCTTGCCTATATGGGAGATGCTGTCTATGAATTGTATGTAAGAGAGCACCTCCTTCAACAAGGTCAAGTAAAACCACAGCAATTACATCAACAAGCAATCCGTTATGTGTCAGGAAAAGCGCAAGCAACTGTTGTTCGCCACTGGCTAAAGGTGGACAAGTTAACCGCAGAAGAAGTACGGGTAGTGACAAGAGGAAGAAATGCAAAGTCAGGCTCTATTCCCAAAAACATACGCGTTCAAACATATCGCTACAGTACAGCCTTCGAAGCATTAATCGGTTATCTTTATTTAGGAAATGATAAAGAACGGTTAGAACAACTTATTGAAGAAGCGATTCAGTTAACAGAAAGGAGTGGAACCGAATATGGATCAGGAGCTGATAATTGGTAA MEKRITMEQDVKQLKSLALAYMGDAVYELYVREHLLQQGQVKPQQLHQQAIRYVSGKAQATVVRHWLKVDKLTAEEVRVVTRGRNAKSGSIPKNIRVQTYRYSTAFEALIGYLYLGNDKERLEQLIEEAIQLTERSGTEYGSGADNW NA NA NA NA NA AK015_01249 747 Putative TrmH family tRNA/rRNA methyltransferase ATGGATCAGGAGCTGATAATTGGTAAAAATCCTGTTATAGAAGCGATGAAGTCGGGGAGGTCGATAAATAAAGTGTTTGTATCCGAACAGTTAAACTCTTCCGTACAAGCAAAGTTTTTTCAATTAGGGAAAACGGCACATACTGTCGTTCAAAAAGTTCCCAAACATAAATTAGATCAGTTAGCTAAAGGAGGAAGCCATCAAGGGGTGGTCGCATATGTCGCATCGTATACATATGCAACGCTAGATGATCTATTTCACCAAGCTGAAAAACGAAATGAAGCAGCATTCTTTTTGATTTTAGATGAATTAGAAGACCCGCATAATTTAGGTTCTATTTTACGGACGGCAGATGCTGTAGGGGCACACGGCGTCATTATTCCAAAGCGTCGTTCCGTAGGTTTAACTGCAACTGTAGCCAAAACAGCAGCTGGGGCAATAGAGCATGTACCGGTTGTTCGCGTAACGAATATTGCTAATACTATTGAAGCATTGAAGGAACGCAATATTTGGGTGGTTGGTACAGAAGCGGATGCATCAGAGGATTATCGGCAATTAGAAGGTACGCTGCCGCTCGCTATTGTAGTGGGAAACGAAGGGAAAGGGATGAGCCGTCTAGTAAAGAAAAAATGTGATTGGACAGTAAGCTTACCCATGAAGGGGAAGGTATCCTCTCTTAACGCTTCCGTTGCTTGTAGCCTTTTATTATATGAGGTGTATCGGAAAAGGAATCCTTATGGTGAATAA MDQELIIGKNPVIEAMKSGRSINKVFVSEQLNSSVQAKFFQLGKTAHTVVQKVPKHKLDQLAKGGSHQGVVAYVASYTYATLDDLFHQAEKRNEAAFFLILDELEDPHNLGSILRTADAVGAHGVIIPKRRSVGLTATVAKTAAGAIEHVPVVRVTNIANTIEALKERNIWVVGTEADASEDYRQLEGTLPLAIVVGNEGKGMSRLVKKKCDWTVSLPMKGKVSSLNASVACSLLLYEVYRKRNPYGE NA NA NA NA NA AK015_01250 510 yacP COG3688 putative protein YacP ATGATTGTTGTCATTGTAGATGGATATAACATCATTGGAGCATGGGATGAACTTCAGCGGTTAAAAGAAAAAGATATTGGGCAAGCCCGAGATCGTTTAATCGAATGGATGGCTGAATACCAAGCGTATTCAGGTTTTCGTGTCATTGTTGTATTTGATGCTTATTATGTACACGGGGTAGAGACAAAAACAACTGCGTATAATGTAGAAGTTATTTATACAAAAGAAAAAGAAACAGCCGATGAATGTATTGAAAAATTAGTAAAAGAGGTAAAAGATATCCGTACGCAAGTATACGTAGCAACATCTGATTTTGCAGAGCAACGAACAATTTTTGGAAGTGGAGCTTTAAGGAAATCTGCTCGAGAGCTATGGATAGAAACGAATAATATACAACAGAACATTGAAAAGACGATAGAAAAGCATTATAAGAAACAAGCAAATTCAAAAATTACATTAGATCCGAAAACGTTAGAGACTTTTGAAAAATGGAGAAGAGGGAAGATGTAG MIVVIVDGYNIIGAWDELQRLKEKDIGQARDRLIEWMAEYQAYSGFRVIVVFDAYYVHGVETKTTAYNVEVIYTKEKETADECIEKLVKEVKDIRTQVYVATSDFAEQRTIFGSGALRKSARELWIETNNIQQNIEKTIEKHYKKQANSKITLDPKTLETFEKWRRGKM PGPT0010355_5 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 AK015_01251 651 sigH COG1595 RNA polymerase sigma-H factor GTGAATGTCAATCAAATAGAGATGGGCGATCAACGCTTAAATAAGCTGGACGATGAGAGTATTGTGCAGCTTATTCATCAGGGGAACAGTCACGCTTTAAATTATTTGATACACAAGTATCGTAATTTTGTACGTGCAAAAGCACGGACGTATTTTTTAATTGGCGCGGATAAAGAGGACATTGTCCAAGAAGGAATGATCGGTTTATATAAGGCTATTCGCGATTATGATGGAAAAAAGCTATCCTCATTTAAAGCTTTTGCTGAATTATGTGTAACAAGGCAAATCATTACAGCGATTAAGACAGCGACAAGACAAAAACACATTCCGCTAAATTCGTATGTGTCTTTGGACAAGCCGATTTATGATGAAGAGACAGATCGCACTTTATTAGATGTCATCGCAGGATCAAAAGATATTGATCCACAAGAACTGCTTGTGAACCAGGAAAAATATGGAGACGTAGAAGCGAAATTATCAGAATTGTTGAGCGGATTAGAGAAGAAAGTACTGCAACTTTATTTAGATGGAAGGACGTACCATGAAATATCAGTTGCACTTAATCGTCATGTTAAGTCGATCGATAATGCACTACAACGAGTAAAGCGTAAATTGGAGCAGTTAATTGCGGAGGCGGAAATTACTTCATAG MNVNQIEMGDQRLNKLDDESIVQLIHQGNSHALNYLIHKYRNFVRAKARTYFLIGADKEDIVQEGMIGLYKAIRDYDGKKLSSFKAFAELCVTRQIITAIKTATRQKHIPLNSYVSLDKPIYDEETDRTLLDVIAGSKDIDPQELLVNQEKYGDVEAKLSELLSGLEKKVLQLYLDGRTYHEISVALNRHVKSIDNALQRVKRKLEQLIAEAEITS PGPT0014795_1704 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 AK015_01252 150 rpmG2_1 COG0267 50S ribosomal protein L33 2 ATGAATAAGAAAATCACTTTAGCGTGTGCAGTTTGTGCTAGTAGAAATTATACAACGAATAAAAATGTATCCACACAACCTGTACGGCTTGAAGTAAATAAGTATTGTAAACATTGTGGTAAACATACATTGCATCGGGAAACAAAATAA MNKKITLACAVCASRNYTTNKNVSTQPVRLEVNKYCKHCGKHTLHRETK NA NA NA NA NA AK015_01253 168 secE Protein translocase subunit SecE ATGTTTCGTTTTTTAAAAAACGTTTCAAGAGAAATGAAGAAAGTTAGCTGGCCGAATCGCAAAGAGTTAACTAGCTATACCATAACGGTTATTACAACGGTTGCTTTTATAGCGTTATTCTTCTTTTTAATTGACCTTGGAATCACGCAAATTTTAAACTTACTTTGA MFRFLKNVSREMKKVSWPNRKELTSYTITVITTVAFIALFFFLIDLGITQILNLL PGPT0025715_4030 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073 NA NA AK015_01254 537 nusG COG0250 Transcription termination/antitermination protein NusG ATGGAAAAAAATTGGTATGTCGTACATACGTATTCTGGTTATGAAAATAAAGTGAAAACGAACTTAGAAAAGCGTGTGGAGTCCATGGGGATGGAAGATAAAATTTTTCGCGTTATTGTTCCGGAGGATGAAGAGACAGAAATAAAAAATGGCAAGAAAAAGGTAACGAAGAAGAAATTCTTTCCAGGATACGTACTCACAGAGATGATTATGACAGATGATTCATGGTATGTCGTTCGAAATACTCCTGGAGTAACAGGGTTTATCGGTTCAAGTGGTGGTGGAACGAAGCCAACGCCGCTATTGCCAGAAGAAGTAGAAACAGTATTAAAACGTATGGGTGTTGCGGAAAATCCTGTACAATTTAATTTTGAAATTAAAGAGAATGTTCGTGTGACGGATGGTCCGTTTACTGATTTCACGGGTACTGTTGAAAATATAGACACAGATAAGCAAAAGGTAAAAGTTCACGTAAACATGTTCGGAAGAGAAACACCTGTAGAATTAGATTTCTCACAAATAGAAAAGCTCGATTAG MEKNWYVVHTYSGYENKVKTNLEKRVESMGMEDKIFRVIVPEDEETEIKNGKKKVTKKKFFPGYVLTEMIMTDDSWYVVRNTPGVTGFIGSSGGGTKPTPLLPEEVETVLKRMGVAENPVQFNFEIKENVRVTDGPFTDFTGTVENIDTDKQKVKVHVNMFGRETPVELDFSQIEKLD NA NA NA NA NA AK015_01255 426 rplK COG0080 50S ribosomal protein L11 GTGGCTAAAAAAGTGATTAAACTTGTGAAACTACAAATCCCAGCTGGAAAAGCAAATCCGGCACCACCAGTAGGACCGGCACTTGGTCAAGCAGGTGTTAATATCATGGGCTTTTGTAAAGAATTTAACGCACGTACGCAAGATCAAGCGGGTATGATTATTCCTGTTGAGATAACAGTGTTTGAAGACCGTTCGTTTACGTTTATTACAAAAACTCCACCAGCAGCTGTTTTGCTTAAAAAAGCAGCAGGCATTGAAACTGCTTCTGGTGAACCAAATCGTAATAAAGTAGCAACAGTTAAGCGCGATAAAGTAAAAGAAATTGCAGAAACAAAAATGCCTGACTTAAATGCTGCTGATGTAGAAGCAGCGATGCGCATGGTTGAAGGAACAGCGCGTAGTATGGGTATTACGATCGAAGACTAA MAKKVIKLVKLQIPAGKANPAPPVGPALGQAGVNIMGFCKEFNARTQDQAGMIIPVEITVFEDRSFTFITKTPPAAVLLKKAAGIETASGEPNRNKVATVKRDKVKEIAETKMPDLNAADVEAAMRMVEGTARSMGITIED NA NA NA NA NA AK015_01256 696 rplA 50S ribosomal protein L1 ATGGCTAAAAAAGGAAAAAAACATCAAGAAGCATTAAAGCTTGTTGATCGTTCAAAAGCGTATGAAGTATCTGAAGCAATTGCGCTTGTAAAAGAAGCTGCCAAAGCTAATTTCGATGAGACGGTTGAAGCTGCTTTTCGTTTAGGTGTTGATCCTAAGAAAGCAGATCAGCAAATCAGAGGAGCGATGGTTTTACCACATGGTACAGGTAAAACACAACGTGTGCTTGTTTTCGCAAAAGGCGAGAAAGCGAAAGAAGCAGAAGCTGCTGGAGCTGACTATGTAGGAGATGCAGATTACATTAACAAAATCAACCAAGGTTGGTTCGACTTCGATGTTGTTGTTGCAACTCCAGACATGATGGCAGAGGTTGGTAAACTAGGAAGAGTGTTAGGTCCAAAAGGTCTTATGCCAAACCCTAAGACTGGAACAGTTACATTTGATGTAGAAAAAGCTATCAACGATGTAAAAGCTGGTAAAGTAGAATATCGTGTCGATAAGTCTTCCAATGTGCATGTTCCAATTGGTAAAGTGTCATTCGATAACGAGAAGTTAATTGAAAACTTTGTTGCTATTACAGAAACACTTGTAAAAGTGAAACCGCAAGCTGCTAAAGGAACTTATATGAAGAATGCGTCTGTGTCTTCTACAATGGGACCAGGAATTCGCGTTGATGTTTCTAGCATGGCGCGCTAA MAKKGKKHQEALKLVDRSKAYEVSEAIALVKEAAKANFDETVEAAFRLGVDPKKADQQIRGAMVLPHGTGKTQRVLVFAKGEKAKEAEAAGADYVGDADYINKINQGWFDFDVVVATPDMMAEVGKLGRVLGPKGLMPNPKTGTVTFDVEKAINDVKAGKVEYRVDKSSNVHVPIGKVSFDNEKLIENFVAITETLVKVKPQAAKGTYMKNASVSSTMGPGIRVDVSSMAR NA NA NA NA NA AK015_01258 501 rplJ COG0244 50S ribosomal protein L10 ATGTCTGGTATTATTGAGCAAAAGAAACAATTAGTGGAAGAAATTAAAGATAAGCTTGTTTCTAGTGAAACTGTCGTAGTAGTGGATTATCGTGGTTTAGATGTTGCTGCAGTAACCGAACTACGTAAACAACTACGTGAAGAAGGCGTTGATTTCAAAGTCTACAAAAACACCATGACTCGTCGTGCAGTAGAAGCTGCTGAACTAAACGAACTAAGTGATGTTTTGGTTGGTCCTTCTGCGCTTGCATTTAGTAAAGATGATGCTGTAGCTCCGGCTCGCATTATTAAAAAATTTGCTAAAGAAAATGAGGCGCTTGAAATCAAAGGTGGCGTTATTCAAGGTAGTGTTGCTACAATCGACCAATTGCAAGAGCTTGCCGATCTTCCAAATTACGAAGGTATGGTCTCTATGCTTCTTAGCGTGCTTCAAGCACCGATCCGTAATCTTGCGTATGCAGCAAAAGCGGTGGCGGAACAAAAAGAAGAACAAGGCGCATAA MSGIIEQKKQLVEEIKDKLVSSETVVVVDYRGLDVAAVTELRKQLREEGVDFKVYKNTMTRRAVEAAELNELSDVLVGPSALAFSKDDAVAPARIIKKFAKENEALEIKGGVIQGSVATIDQLQELADLPNYEGMVSMLLSVLQAPIRNLAYAAKAVAEQKEEQGA NA NA NA NA NA AK015_01259 366 rplL 50S ribosomal protein L7/L12 ATGACGAAAGAACAAATCATTGAAGCAGTAAAAGAAATGACTGTATTAGAACTAAATGATTTAGTAAAAGCAATTGAAGAAGAATTTGGAGTAACAGCTGCAGCACCTGTAGCGGTAGCTGGTGCTGCTGGTGGCGCTGAAGCTGCTGAAGAGCAAACAGAATTTGATGTTGTTCTTAACGACGCTGGTGCATCAAAAATCAAAGTTGTTAAAGCAGTACGTGAAATCACTGGTCTAGGACTAAAAGATGCGAAAGAATTAGTTGATAATGCTCCAAAACCTGTAAAAGAAGGCGTATCTAAAGAGGACGCTGAAGAAGTTAAAGGTAAGTTAGAAGAAGCAGGCGCAACTGTAGAAGTGAAGTAA MTKEQIIEAVKEMTVLELNDLVKAIEEEFGVTAAAPVAVAGAAGGAEAAEEQTEFDVVLNDAGASKIKVVKAVREITGLGLKDAKELVDNAPKPVKEGVSKEDAEEVKGKLEEAGATVEVK NA NA NA NA NA AK015_01260 603 rlmG COG2813 Ribosomal RNA large subunit methyltransferase G ATGAGTGAGCATTACTTTTCACAAAAACCCCAAACGACAAGTTCACCAAAAACATGGCTATACAATGCGAATGGAAAAAAATACACCTTTACAAGTGATGTAGGTGTGTTCTCGAAAAATGAAGTCGATTTCGGAAGTCGCTTTTTATTGGAACAGTTTACTCCTCCTGATATAGTAGGAGATTTCTTGGATCTTGGTTGCGGTTATGGGCCGATCGGTATAACGGTAGCAGATCAATATAAAGATCGACATATTGTAATGGTTGATATTAATGAGCGAGCATTGGAACTAGCGAAAAAAAACGCAGCGCAAAATACAGTGGAAAATATTACGTGTTTGCAAAGTGATAAATTATCAGCTGTTATGGATCGAATGTTTGCAGCTATAATTACAAACCCGCCAATTCGAGCTGGTAAGTTGGTTGTGCATGAGATGTTTGAGCAAGCAGAGCAAGTATTAGTTCGAGGTGGGGCTTTATGGGTGGTAATCCAAAAAAAGCAAGGAGCGCCTTCAGCGAAGAAAAAATTGGAGCAATTGTTCGCGGAAGTAGATACTGTCGCCAAGCGTAAAGGTTATTATATATTTCGAGCAGTTAAGGTTTGA MSEHYFSQKPQTTSSPKTWLYNANGKKYTFTSDVGVFSKNEVDFGSRFLLEQFTPPDIVGDFLDLGCGYGPIGITVADQYKDRHIVMVDINERALELAKKNAAQNTVENITCLQSDKLSAVMDRMFAAIITNPPIRAGKLVVHEMFEQAEQVLVRGGALWVVIQKKQGAPSAKKKLEQLFAEVDTVAKRKGYYIFRAVKV NA NA NA NA NA AK015_01261 3537 rpoB COG0085 DNA-directed RNA polymerase subunit beta TTGACAGGACAACTAGTTCAATATGGGCGGCACCGCCAGCGCAGAAGCTACGCACGAATCAGCGAAGTGCTAGAATTGCCGAATTTAATTGAAATCCAAACAGCTTCTTATGATTGGTTTTTAGAGGAAGGACTTCGAGAAATGTTTAAAGATATTTCTCCAATCGAAGACTTTACAGGCAATTTATCACTAGAGTTTGTTGACTACAGTTTAGGAGAGCCCAAGTATCCTGTGGATGAATCGAAAGAGCGAGATGTTACGTATAATGCTCCGCTTCGTGTGAAGGTTCGCTTAATTAATAATGAAACCGGCGAAGTGAAAGAACAGGAAGTATTTATGGGCGATTTTCCTTTAATGACAGATACAGGAACGTTTGTTATTAATGGAGCAGAACGTGTCATTGTATCTCAGCTCGTAAGGTCGCCAAGCGTGTATTACAATGAAAAAATTGATAAAAATGGTAAACGAGGCGTAGCTGCAACCGTTATTCCAAACCGTGGCGCATGGTTGGAATTTGAAACGGACGCAAAGGATGTTGTCCATGTCCGAATTGATCGTACACGTAAATTGCCAATCACAGTATTATTACGAGCGCTTGGTTTTGGTGATGATCAGGAAATCATTGAACTCATTGGGGAGAATGAATACCTGAAAAACACGCTCGAAAAGGATAATACGGAAACAACAGAAAAGGCATTATTGGAAATTTATGAGCGTTTACGTCCTGGTGAGCCACCTACCGTTGAAAATGCAAAAAGCTTGCTCGTATCTCGCTTCTTTGACCCAAAGCGTTATGACTTAGCGCATGTAGGTCGTTATAAAATGAATAAAAAGCTGCATATAAAAAACCGCTTGTTTAACCAAGTATTAGCTGAAACTATTGTCGATCCTGAAACTGGAGAAGTGTTAGCTGAAAAAGGTGATAAGCTAGAAAGAAAGCTATTAGATAAATTAATTCCTTATCTAGAACGCAAAGAAGATAAGTTAGGTCATAAAGAATTACAACCAAAAGAAGGCGTGTTGGATGAGTCCATTCATCTGCAGTCTATAAAAATTGTTGACCCTACCGACCCAAGTGGAGAAAGAGTGTTAAATGTAATCGGCAATGCAGGTGTTGATGCAAGTGTGAAGAATATTATGCCTGCTGACATATTAGCATCCATCAGTTATTTCTTTAACTTGCTACATCAAGTAGGAGGGACAGATGATATTGATCATCTAGGTAACCGTAGACTTCGTTCTGTAGGAGAACTTTTACAGAACCAATTTCGTATCGGGTTATCTCGAATGGAGCGTGTGGTACGTGAAAGAATGTCCATCCAGGACACGTCTAGCATAACGCCACAGCAATTAATTAATATTCGGCCCGTTATTGCTTCCATCAAGGAATTCTTTGGTAGCTCCCAATTGTCACAGTTTATGGATCAAACGAATCCACTCGCTGAATTAACGCATAAACGACGTCTATCCGCACTAGGCCCAGGCGGTTTAACAAGAGAGCGTGCAGGGTTTGAAGTTCGTGACGTTCACTACTCTCACTATGGTCGTATGTGCCCAATTGAGACACCAGAAGGACCGAACATCGGATTAATCAACTCACTTTCTAGCTATGCGAAAGTGAATAAGTTCGGATTTATTGAAACGCCTTACCGACGTGTAGACCCAGAGACAGGCAAAGTAACTGCCCACATTGATTATCTAACTGCTGACGAAGAGGATAACTATATCGTTGCGCAAGCTAACGCAAAATTGGATGATGATGGCACATTTGCTGAAGACGAGGTCATCGCGCGTTTCCGTGGGGAAAACACGATTGTCGCTAGAGAAAAACTCGATTATATGGATGTATCACCAAAGCAGGTCGTATCTGCCGCAACAGCTTGTATTCCTTTCCTTGAGAATGATGACTCTAACCGTGCATTGATGGGTGCGAACATGCAACGACAAGCTGTTCCATTAATGCAACCAGAAGCGCCAATCGTTGGAACAGGAATGGAATATGTGAACGGCAAGGACTCTGGGGCTGCTGTTATTTGTCGCCATGAAGGTGTTGTGGAGCGTGTAGAAGCCAAACAGGTATTTGTACGCAGAACATCTGTTGTTGATGGGCGCGAAGTAAAAGGTGATCTCGATCAGTATAAGTTACAAAAATATATACGTTCTAACCAAGGAACTTGCTATAACCAACGCCCGATTGTAAGTGAAGGCGACCGCGTCATGAAAGGAGAAATCCTTGCTGATGGCCCTTCTATGGAAGACGGAGAATTAGCACTTGGCCGAAACGTACTCGTCGGTTTTATGACGTGGGAAGGTTATAACTACGAGGATGCAATTATCATGAGCGAACGCCTTGTAAAAGATGATGTGTATACATCGATCCATATTGAAGAATATGAATCCGAGGCGCGTGATACGAAATTAGGTCCAGAAGAAATTACAAGAGATATTCCTAATGTTGGTGAAGATGCATTAAAGAACCTCAATGAATATGGAATTATTCGTGTTGGTGCTGAAGTAACAGATGGAGACATCTTAGTTGGAAAAGTAACGCCAAAAGGTGTAACGGAACTATCTGCCGAAGAGCGTTTGTTGCATGCTATCTTTGGTGAAAAGGCACGAGAAGTTCGTGATACTTCCTTACGTGTGCCGCACGGTGCTGGAGGTATTGTGCTTGATGTGAAGATCTTTAACCGCGAGGATGGCGATGAACTTCCACCGGGAGTTAATGAGCTTGTACGTGTATATATCGTACAGAAACGGAAGATTCACGAAGGCGATAAGATGGCAGGTCGTCACGGAAATAAGGGTGTTATTTCTAAAATTCTTCCTGAAGAAGATATGCCTTTCTTGCCTGATGGAACGCCAATTGACATTATGTTAAACCCATTAGGGGTACCATCCCGTATGAATATCGGACAGGTATTTGAACTCCATCTAGGAATGGCGGCACGTGCACTAGGCATTCATGTTGCCACACCAGTATTTGATGGAGCGACAGAAGACGATGTTTGGGAAACATTAGAAGAAGCTGGCATGCCTCGTGATGCGAAAACAATTCTTTATGACGGAAGATCTGGAGAGCCGTTTGACAATCGAGTATCTGTCGGTGTTATGTATATGATTAAGCTTGCTCATATGGTAGACGATAAATTACACGCTCGTTCTACTGGGCCATACTCCCTTGTAACGCAACAGCCATTGGGTGGTAAAGCACAATTTGGTGGTCAGCGTTTTGGAGAGATGGAAGTGTGGGCTTTAGAAGCTTACGGTGCAGCATATACCCTACAGGAAATTCTAACAGTTAAATCGGACGATGTAGTGGGACGTGTGAAAGCATACGAATCCATTGTCAAAGGGGATAATGTACCTGAACCAGGAGTTCCTGAATCCTTCAAAGTACTTATCAAAGAGCTGCAAAGTCTAGGTATGGATGTAAAAATGTTATCTAGTGATGAAGAAGAAATTGACATGATGGAACTAGAAGAAGAAGATACACAACAAGCTAGTAAGCTAAATATAGAAGTGGAAGAAAGCTAA MTGQLVQYGRHRQRRSYARISEVLELPNLIEIQTASYDWFLEEGLREMFKDISPIEDFTGNLSLEFVDYSLGEPKYPVDESKERDVTYNAPLRVKVRLINNETGEVKEQEVFMGDFPLMTDTGTFVINGAERVIVSQLVRSPSVYYNEKIDKNGKRGVAATVIPNRGAWLEFETDAKDVVHVRIDRTRKLPITVLLRALGFGDDQEIIELIGENEYLKNTLEKDNTETTEKALLEIYERLRPGEPPTVENAKSLLVSRFFDPKRYDLAHVGRYKMNKKLHIKNRLFNQVLAETIVDPETGEVLAEKGDKLERKLLDKLIPYLERKEDKLGHKELQPKEGVLDESIHLQSIKIVDPTDPSGERVLNVIGNAGVDASVKNIMPADILASISYFFNLLHQVGGTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDTSSITPQQLINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGGLTRERAGFEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSYAKVNKFGFIETPYRRVDPETGKVTAHIDYLTADEEDNYIVAQANAKLDDDGTFAEDEVIARFRGENTIVAREKLDYMDVSPKQVVSAATACIPFLENDDSNRALMGANMQRQAVPLMQPEAPIVGTGMEYVNGKDSGAAVICRHEGVVERVEAKQVFVRRTSVVDGREVKGDLDQYKLQKYIRSNQGTCYNQRPIVSEGDRVMKGEILADGPSMEDGELALGRNVLVGFMTWEGYNYEDAIIMSERLVKDDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEDALKNLNEYGIIRVGAEVTDGDILVGKVTPKGVTELSAEERLLHAIFGEKAREVRDTSLRVPHGAGGIVLDVKIFNREDGDELPPGVNELVRVYIVQKRKIHEGDKMAGRHGNKGVISKILPEEDMPFLPDGTPIDIMLNPLGVPSRMNIGQVFELHLGMAARALGIHVATPVFDGATEDDVWETLEEAGMPRDAKTILYDGRSGEPFDNRVSVGVMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVKSDDVVGRVKAYESIVKGDNVPEPGVPESFKVLIKELQSLGMDVKMLSSDEEEIDMMELEEEDTQQASKLNIEVEES NA NA NA NA NA AK015_01262 3609 rpoC COG0086 DNA-directed RNA polymerase subunit beta' TTGCTAGATGTAAATAACTTTGAGTATATGAAAATTGGTTTAGCTTCACCAGAGAAAATTCGCTCTTGGTCACATGGTGAGGTAAAAAAACCAGAAACGATTAATTATCGAACATTGAAGCCAGAAAAAGACGGATTGTTCTGTGAGCGGATTTTTGGTCCACAAAAAGATTGGGAATGTCACTGTGGAAAATATAAGCGCGTGCGCTATAAAGGCGTGGTTTGTGATCGCTGTGGTGTTGAAGTGACAAAAGCAAAAGTTCGTCGTGAGCGGATGGGGCATATTGAACTTGCTGCACCTGTATCTCACATATGGTACTTTAAAGGTATTCCAAGTCGTATGGGGCTTGTTTTAGATATGTCACCTCGTGCGTTAGAGGAAGTCATTTACTTCGCTGCTTATATCGTTACGGAAGCAGGTGACACACCGTTAGAGAAAAAGCAACTCCTATCTGAAAAAGAATACCGTGCATACTACGATAAATACGGTAAGTCTTTTAAAGCGCAAATGGGAGCTGAAGCGATCCGTAAATTGCTTCAGGATATAGACTTAGAAAAAGAAGCAGGTATTTTAAAAGAAGAACTAAAAACAGCACAAGGACAACGTAGAACACGTGCGATCAAGCGTTTAGAAGTATTAGAATCGTTCCGTCATTCTGGAAACGAAACGTCTTGGATGATTTTAGACGTGTTACCAGTCATTCCACCTGAAATTCGCCCAATGGTGCAGCTCGATGGGGGGCGTTTTGCTACTTCTGATTTAAATGATTTATACCGTCGTGTAATTAACCGAAACAATCGGTTAAAACGTCTATTAGATCTTGGAGCGCCAAGCATTATTGTTCAAAACGAAAAGCGTATGCTTCAGGAAGCAGTAGATGCCCTAATTGACAATGGTCGTCGTGGTCGTCCAGTAACTGGACCAGGAAACCGTCCATTGAAATCCTTGTCTCATATGTTGAAAGGGAAACAAGGACGTTTCCGTCAAAACCTACTTGGTAAACGTGTGGATTATTCCGGCCGTTCTGTTATCGTAGTTGGGCCGCATTTGAAAATGTACCAATGTGGACTGCCAAAAGAAATGGCCTTAGAGTTATTTAAGCCATTTGTGATGAGAGAGTTAGTGGAAAAAGGAATTGCACATAATATCAAGTCTGCCAAACGGAAAATTGAGCGTGTGCATCCTGAAGTGTGGGATGTCTTAGAAGAAGTTATTAAAGAGCATCCAGTATTGCTTAACCGCGCACCAACGTTACACAGACTTGGAATCCAAGCTTTTGAGCCGACACTTGTAGAAGGTCGTGCAATTCGTTTGCACCCATTAGTTTGTACGGCGTATAATGCCGACTTTGATGGGGACCAAATGGCTGTGCACGTACCATTGTCTGGAGAAGCTCAAGCGGAAGCAAGAATTTTAATGCTTGCAGCTCAAAACATTTTAAATCCAAAAGATGGAAAACCAGTTGTAACACCATCTCAGGATATGGTATTAGGAAACTATTATCTTACTTTAGAACGAGAAAATGCTATCGGAGAAGGATCTGTCTTTAACGATACAAATGAAGCGGTATTGGCTTATCGGAATGGGTATGTACATCTACACACCCGTGTTGCTGTACACGCATCAGGTTTGAATAATCAAACATTTACGGAAAAGCAAAAATCACAATTGCTTATTACAACAGTTGGGAAGCTGATTTTCAACGAAATCTTATCAGACTCTTTCCCTTATATAAATGAGCCAACAAAAGAGAACTTAGAGTATCATACACCAGAAAAGTATTTTGTGGAAAAGGGTGCGAATATCCCTGAGCTTATTAAGTCATTTGAGTTGGTTAAACCATTTAAGAAAGGCTTTTTAGGAGATATTATTGCTGAAGTCTTCAAACGGTTTAAAATTAGTGAAACATCTAAAATGCTTGATAGAATGAAGGATCTTGGCTTTAGTTATTCCACAAAAGCAGGTATGACAGTCGGTGTTTCTGATATTGTTGTACTTAAAGAAAAAGAAACAATCCTTGAAGAAGCACAAAACAAAGTCGACAAAGTACTAAAACAATTCCGTAGAGGTTTAATTACGGATGATGAAAGATACGACCGCGTTATTGCAATTTGGTCACAAGCCAAAGATACGATACAGGATAAGTTGATGTTATCCCTTAGCGAAAGAAACCCGATTTATATGATGAGTGATTCTGGTGCTCGTGGTAACGCCTCAAACTTTACGCAGCTTGCAGGTATGCGTGGTTTAATGGCTAACCCGGCTGGTAAGATTATTGAATTACCGATTAAATCAAGCTTCCGTGAAGGTCTAACTGTATTAGAGTACTTTATATCTACGCACGGTGCTCGTAAAGGTCTTGCGGATACAGCATTGAAAACAGCTGACTCAGGGTACCTAACACGTCGTCTTGTTGACGTAGCGCAAGACGTTATCATACGAGAAGATGATTGTGGGACAGATCGTGGCTTGGCTGTAACTGCTTTACAAGATGGTACGGAAATGATCGAACCATTAGTTGATCGCTTAATTGGACGTACGGCATTCTATGGTATTAAGCATCCAGAAACGAATGAAGTCATTGTTGGAGCAAATGAAATTATTAGCGAGGACCAAGCAAAAGAAATTACCAATGCTGGTATTGAAAAAGTAACCATACGTAGTGCATTCACATGTAATACGAAGCATGGTGTATGTCAAAAATGTTATGGAAGAAACTTGGCAACTGGTGCTGATGTAGAGGTTGGGGAAGCAGTAGGAATTATTGCAGCTCAATCCATTGGTGAGCCAGGAACACAGCTAACGATGCGTACTTTCCATACTGGTGGGGTAGCTGGGGACGATATTACACAAGGTTTGCCACGTATTCAAGAGTTGTTTGAAGCTCGTAATCCGAAAGGGCAAGCTGTTATTAGTGAAATATACGGAACCGTACAAGAAATTAAAGAAGTGAAAGATAAACAAGAGATTGTCGTTCAAGGCGATGTTGAACAACGCTCTTACGCAGTACCTTACAATGCTCGCATGAAGGTGACCATTGGTGACAAGGTTATTGCTGGTCAAGAACTAACAGAAGGTTCTATTGATCCTAAGGACTTATTACGCGTTCAAGGTGTAGAAGGTGTACAAAACTATCTGTTGCGTGAAGTGCAACGTGTATACCGTATGCAAGGTGTTGAAATTGGCGATAAACACGTAGAAGTAATGGTTCGCCAAATGCTTCGTAAGATTCGCGTAATTGACTCTGGGGATACAGATGTTCTGCCAGGTTCTTTATTAGAGTTGCACCAGTTCCGTGACGCAAACCATAAAGTGTTACAAGATGGACAGCAACCGGCTATAGGTAAACCAGTATTACTTGGTATTACAAAAGCATCACTTGAGACAGATTCCTTCTTATCTGCTGCATCTTTCCAAGAAACAACTAGAGTATTAACGGATGCGGCTATTAAAGGAAAACGTGATGAGCTTCTTGGTTTGAAAGAAAATGTTATCATCGGTAAACTTGTACCTGCTGGAACAGGTATGCAACGTTATCGTCGTATTAAACCTGCTACAGCTGAACCAATTACAGCTGAGCCAATTGAAGAAACGGAAACTGTTCAGTAA MLDVNNFEYMKIGLASPEKIRSWSHGEVKKPETINYRTLKPEKDGLFCERIFGPQKDWECHCGKYKRVRYKGVVCDRCGVEVTKAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVIYFAAYIVTEAGDTPLEKKQLLSEKEYRAYYDKYGKSFKAQMGAEAIRKLLQDIDLEKEAGILKEELKTAQGQRRTRAIKRLEVLESFRHSGNETSWMILDVLPVIPPEIRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPSIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPHLKMYQCGLPKEMALELFKPFVMRELVEKGIAHNIKSAKRKIERVHPEVWDVLEEVIKEHPVLLNRAPTLHRLGIQAFEPTLVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSGEAQAEARILMLAAQNILNPKDGKPVVTPSQDMVLGNYYLTLERENAIGEGSVFNDTNEAVLAYRNGYVHLHTRVAVHASGLNNQTFTEKQKSQLLITTVGKLIFNEILSDSFPYINEPTKENLEYHTPEKYFVEKGANIPELIKSFELVKPFKKGFLGDIIAEVFKRFKISETSKMLDRMKDLGFSYSTKAGMTVGVSDIVVLKEKETILEEAQNKVDKVLKQFRRGLITDDERYDRVIAIWSQAKDTIQDKLMLSLSERNPIYMMSDSGARGNASNFTQLAGMRGLMANPAGKIIELPIKSSFREGLTVLEYFISTHGARKGLADTALKTADSGYLTRRLVDVAQDVIIREDDCGTDRGLAVTALQDGTEMIEPLVDRLIGRTAFYGIKHPETNEVIVGANEIISEDQAKEITNAGIEKVTIRSAFTCNTKHGVCQKCYGRNLATGADVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQELFEARNPKGQAVISEIYGTVQEIKEVKDKQEIVVQGDVEQRSYAVPYNARMKVTIGDKVIAGQELTEGSIDPKDLLRVQGVEGVQNYLLREVQRVYRMQGVEIGDKHVEVMVRQMLRKIRVIDSGDTDVLPGSLLELHQFRDANHKVLQDGQQPAIGKPVLLGITKASLETDSFLSAASFQETTRVLTDAAIKGKRDELLGLKENVIIGKLVPAGTGMQRYRRIKPATAEPITAEPIEETETVQ NA NA NA NA NA AK015_01263 255 rplGB COG1358 Ribosome-associated protein L7Ae-like protein ATGTCTTATGAAAAAGTAATGCAAGTGAAATCTAGTGTAGTTATCGGAACAAAACAAACGCTCAAAGCCATGAAAAATGGGCATATTAGTGAAGTGTTTGTTGCTGTTGATGCAGATCAACATATGATACAAAAGGTTACACATTTAGCTGAAGAATTGGGCATTCCTTGTCATCATGTCGATTCTAAAAAGAAATTAGGAGTAGCATGTGGTATCGAGGTCGGTGCAGCCGCTGTTGGTATAAAACAGAATTGA MSYEKVMQVKSSVVIGTKQTLKAMKNGHISEVFVAVDADQHMIQKVTHLAEELGIPCHHVDSKKKLGVACGIEVGAAAVGIKQN NA NA NA NA NA AK015_01264 414 rpsL COG0048 30S ribosomal protein S12 ATGCCAACAATTAACCAATTAGTGCGTAAAGGTCGTGTAAGCAAACCAAAAAAGTCTGATTCTCCAGCTCTAAACAAGGGGTATAACAGCTTTAAGAAAACATTCACAGACCAAAACTCTCCACAAAAACGTGGTGTATGTACACGTGTTGGAACATTAACGCCGAAGAAACCAAACTCAGCACTTCGTAAATATGCTCGTGTGCGTTTGTCTAACAACATGGAAGTAACAGCATACATTCCTGGAATTGGTCATAATCTTCAGGAACACAGCGTTGTACTTCTTCGTGGTGGTCGTGTGAAAGACTTACCTGGTGTTCGTTATCACATTGTTCGTGGTGCGTTGGATACAGCAGGTGTAGAAGGTAGAATGCAAGGTCGTTCTAAGTACGGTACGAAAAGACCGAAAAAATAA MPTINQLVRKGRVSKPKKSDSPALNKGYNSFKKTFTDQNSPQKRGVCTRVGTLTPKKPNSALRKYARVRLSNNMEVTAYIPGIGHNLQEHSVVLLRGGRVKDLPGVRYHIVRGALDTAGVEGRMQGRSKYGTKRPKK NA NA NA NA NA AK015_01265 471 rpsG COG0049 30S ribosomal protein S7 ATGCCACGTAAAGGCCCAGTACCTAAACGCGATGTCTTACCAGATCCGCTTTACAACTCAAAACTTGTGACTCGTTTAATCAATCAAATTATGGTTGATGGAAAAAGAGGAAAAGCACAAAAAATTCTTTATAAAGCATTTGAATTGGTTGCTGAAAGAAGCGGTCAAAATGCAATGGAAGTATTTGAACAAGCGATGAAAAATGTTATGCCTGTTCTTGAAGTACGTGCACGTCGTGTTGGTGGATCAAACTACCAAGTACCAATGGAAGTACGTCCAGAACGTCGTCAAGCGCTAGGACTACGTTATATTGTTAACTACTCTCGTTTACGCGGAGAAAAAACAATGGAAGAACGTCTTGCTAATGAAATTTTAGATGCTTCTAACAATACAGGTGCTTCTGTGAAGAAACGCGAAGAACTGCATAAAATGGCAGAAGCTAACAAAGCATTTGCTCATTACCGCTGGTAA MPRKGPVPKRDVLPDPLYNSKLVTRLINQIMVDGKRGKAQKILYKAFELVAERSGQNAMEVFEQAMKNVMPVLEVRARRVGGSNYQVPMEVRPERRQALGLRYIVNYSRLRGEKTMEERLANEILDASNNTGASVKKREELHKMAEANKAFAHYRW NA NA NA NA NA AK015_01266 2079 fusA COG0480 Elongation factor G ATGGCTAGAGAGTTCTCCTTGGAAAAGACGCGAAATATTGGTATTATGGCACACATTGATGCAGGTAAAACTACTACTACGGAGCGTATTCTTTTCTATACAGGACGCATTCATAAAATTGGTGAAACGCATGAAGGTGCATCACAGATGGACTGGATGGAGCAAGAGCAGGAAAGAGGTATTACTATTACTTCTGCTGCAACGACTGCTCAATGGAAAAACCATCGAATTAACATTATTGACACACCTGGACACGTGGATTTCACTGTTGAAGTTGAACGTTCATTACGTGTGTTAGACGGTGCCGTAACCGTTCTTGATGCACAGTCAGGTGTGGAGCCACAAACGGAAACAGTATGGCGCCAAGCTACAACATACGGGGTTCCACGTATTGTTTTTATTAACAAAATGGATAAGATCGGCGCTGATTTTCTTTATGCAACAAAAACGTTAAAAGATCGTCTAGGCGCTAATGCACATCCGGTTCAACTTCCGGTAGGTGCAGAAGATAACTTTGAAGGAATTATCGACCTCATTGACATGCAGGCATTCTTCTATGAAGATGACCTCGGTACTCGTGCAGAGACTCGTGAAATTCCGGCTGATTTAATGGATAAAGCTCAAGAATGGCGTAATAGCTTAATTGAAGCTGTTGCTGAACTTGACGAAGACTTAATGATGAAATACTTAGAGGGTGAAGAAATCTCTAAGGATGAGTTAAGAGTCGCTATCCGAAAAGCTACACTAGATGTTGAATTCTATCCAGTATATTGTGGGTCAGCATTCAAAAATAAAGGTGTACAATTAATGCTTGATGGTGTTATTGATTACCTTCCAGCACCTACGGATGTTGCTGATATTGAAGGGATTGTCCCTGGTACGGAGGAAAAAGTAACTCGTCCATCTACAGACAATGCACCGTTCTCAGCATTGGCATTTAAAGTAATGACAGATCCATATGTTGGTAAGCTTACTTTCTTCCGAGTATATTCAGGTACACTAGATGCTGGTTCTTATGTGAAAAACTCTGTAAAAGATAAGCGTGAGCGTGTTGGACGTATCCTACAAATGCACGCAAATTCAAGACAAGAGATTTCCACTGTATATGCTGGTGAAATTGCAGCTGCTGTTGGTTTAAAAGATACATCTACTGGTGATACGCTTTGTGATGAAAAGAATTTAGTTATTCTTGAATCTATGGATTTCCCAGAACCGGTAATCGGAGTTGCTATTGAACCAAAAACAAAAGCCGACCAAGACAAAATGGGTATTGCTTTAGGTAAACTAGCTGAAGAAGACCCAACCTTTAAAACAGAAACAAATGAAGAAACAGGCCAAACGATTATTTCAGGTATGGGTGAACTTCATCTTGACGTTATCGTTGACCGCTTGAAGCGTGAATTCAAAGTAGAAGCAAACGTTGGTGCGCCACAGGTTGCATATCGTGAGACATTCCGATCTGCTGCTGAAGTAGAAGGTAAATTTGTTCGCCAATCTGGTGGTCGTGGACAATACGGACACGTTTGGGTTAAATTTGAACCTAACGAAGAAGGCGCTGGCTTTGAATTTGTGAACAAAATTGTTGGTGGGGTTGTACCACGTGAATACATTCCATCTGTTCAAGCTGGTATTGAAGAATCAATGGAAAATGGTGTATTAGCTGGATATCCACTAATTGATATTAAAGCAACTTTGTATGATGGAAGCTATCATGATGTGGACTCTAACGAAATGGCATTTAAAGTAGCTGCCTCTATGGCACTAAAAGCTGCTAAAAATAAGTGTAACCCAGTTCTTCTTGAGCCGATTGCTAAAGTAGAAATTGTTATCCCAGAAGAATATATGGGAGACATCATGGGTGATATTACTTCTCGTCGCGGACGTGTAGAAGGTATGGAAGCTAGAGGTCCTGCCCAAGTGGTAAAAGGCTTCGTTCCACTTTCTGAAATGTTCGGTTACGCTACAGCATTGCGTTCTAACACACAAGGTCGTGGTACATTTACGATGTACTTTGATCACTACGAGGAAGTACCAAAGAGTATTTCTGAAGAAATTATTAAGAAAAATGCTGGTCAATAA MAREFSLEKTRNIGIMAHIDAGKTTTTERILFYTGRIHKIGETHEGASQMDWMEQEQERGITITSAATTAQWKNHRINIIDTPGHVDFTVEVERSLRVLDGAVTVLDAQSGVEPQTETVWRQATTYGVPRIVFINKMDKIGADFLYATKTLKDRLGANAHPVQLPVGAEDNFEGIIDLIDMQAFFYEDDLGTRAETREIPADLMDKAQEWRNSLIEAVAELDEDLMMKYLEGEEISKDELRVAIRKATLDVEFYPVYCGSAFKNKGVQLMLDGVIDYLPAPTDVADIEGIVPGTEEKVTRPSTDNAPFSALAFKVMTDPYVGKLTFFRVYSGTLDAGSYVKNSVKDKRERVGRILQMHANSRQEISTVYAGEIAAAVGLKDTSTGDTLCDEKNLVILESMDFPEPVIGVAIEPKTKADQDKMGIALGKLAEEDPTFKTETNEETGQTIISGMGELHLDVIVDRLKREFKVEANVGAPQVAYRETFRSAAEVEGKFVRQSGGRGQYGHVWVKFEPNEEGAGFEFVNKIVGGVVPREYIPSVQAGIEESMENGVLAGYPLIDIKATLYDGSYHDVDSNEMAFKVAASMALKAAKNKCNPVLLEPIAKVEIVIPEEYMGDIMGDITSRRGRVEGMEARGPAQVVKGFVPLSEMFGYATALRSNTQGRGTFTMYFDHYEEVPKSISEEIIKKNAGQ NA NA NA NA NA AK015_01267 1191 tuf COG0050 Elongation factor Tu ATGGCTAAAGAAAAGTTCGACCGCTCGAAAAGTCACGTTAACATTGGAACAATTGGACACGTTGACCATGGTAAAACAACGCTAACTGCTGCAATTACAATTGTAATGCATAAGAAATCTGGTAAAGGTACGCAAATGGCGTATGATCAAATTGATAATGCACCAGAAGAAAAAGAGCGTGGAATTACTATTGCAACTTCTCACGTAGAATATGAAACGGATACTCGTCACTATGCGCACGTTGACTGCCCAGGTCACGCTGACTATGTTAAAAACATGATCACTGGTGCTGCACAAATGGACGGAGCAATCCTAGTAGTATCTGCAGCTGATGGTCCAATGCCACAAACTCGTGAGCACATCCTACTATCTCGTAACGTTGGGGTACCTTCTATTGTAGTATTTCTAAACAAAGTAGATATGGTAGACGATGAAGAGCTATTAGAATTAGTAGAAATGGAAGTTCGCGATCTATTAACAGAGTACGACTTCCCTGGTGATGATGTTCCTGTAATTGCTGGCTCTGCTTTGAAAGCAATTGAAGGAGTAGAAGAATACGAAGCAAAAATCGTTGAATTAATGGAAGCTGTTGACGAGTACATTCCAACTCCAGACCGCGATAAAGACAAACCATTCATGATGCCTGTAGAGGACGTATTCTCTATTACAGGTCGTGGTACTGTTGCAACTGGTCGTGTTGAGCGTGGAGAAGTACGTGTTGGTGATGAAGTTGAAATCATCGGCTTAAACGAAGCAGCTCAAAAAACTACAGTTACTGGTGTAGAAATGTTCCGTAAGCTTCTAGACTATGCAGAAGCTGGTGACAACATTGGTGCACTACTTCGTGGTGTGGCACGTGAAGATATTAACCGTGGTCAAGTACTAGCAAAACCTGGTTCAATTACACCACACACAAAGTTTAAAGCAGAAGTTTATGTTCTATCTAAAGAAGAAGGTGGACGTCACACTCCATTCTTTGCTAACTATCGTCCACAGTTTTACTTCCGTACAACGGATGTAACTGGTGTTATCCAACTTCCAGAAGGAACAGAAATGGTAATGCCTGGCGATAACATTGAAATGACAGTTGAGCTTATTTCACCAATTGCTATTGAAGACGGTACTCGCTTCTCTATTCGTGAAGGTGGCCGTACAGTTGGTTCTGGTGTTGTATCAGAAATTATTGAGTAA MAKEKFDRSKSHVNIGTIGHVDHGKTTLTAAITIVMHKKSGKGTQMAYDQIDNAPEEKERGITIATSHVEYETDTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLSRNVGVPSIVVFLNKVDMVDDEELLELVEMEVRDLLTEYDFPGDDVPVIAGSALKAIEGVEEYEAKIVELMEAVDEYIPTPDRDKDKPFMMPVEDVFSITGRGTVATGRVERGEVRVGDEVEIIGLNEAAQKTTVTGVEMFRKLLDYAEAGDNIGALLRGVAREDINRGQVLAKPGSITPHTKFKAEVYVLSKEEGGRHTPFFANYRPQFYFRTTDVTGVIQLPEGTEMVMPGDNIEMTVELISPIAIEDGTRFSIREGGRTVGSGVVSEIIE PGPT0015245_2494 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION TRIGGERED_IMMUNITY PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358 NA NA AK015_01268 309 rpsJ COG0051 30S ribosomal protein S10 ATGGCAAAAGAAAAGATTAGAATCCGTTTGAAAGCTTATGATCACCGTATTTTAGATCAATCAGCTGAAAAAATTGTAGATACAGCGAAACGTTCTGGTGCTAATGTATCTGGACCAATCCCACTACCTACTGAAAAATCAGTCTACACGGTTTTACGTGCGGTTCATAAATATAAGGATTCACGTGAGCAGTTTGAGATGCGTACACATAAACGTCTCATCGACATTGTTAACCCTACACCGCAAACTGTTGATTCACTAATGCGTTTAGACTTACCGTCTGGTGTAGACATTGAAATTAAACTATAA MAKEKIRIRLKAYDHRILDQSAEKIVDTAKRSGANVSGPIPLPTEKSVYTVLRAVHKYKDSREQFEMRTHKRLIDIVNPTPQTVDSLMRLDLPSGVDIEIKL 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 AK015_01269 630 rplC COG0087 50S ribosomal protein L3 ATGACGAAAGGAATCTTAGGTCGTAAAATCGGCATGACTCAGCTATTCTCTGAAACAGGAGAACTAATGCCTGTAACTGTAATTGAAGCTGAGCCAAACGTCGTATTACAAAAGAGAACATTAGAAAATGATGGTTATGAAGCAATCCAACTAGGTGTTGCTGACGTAAAGGAATCACGTACGAATAAAGCGGAAAAAGGTCATGCTGAAAAAGCAAACACAAACCCTAAGCGCTACGTTCGTGAAATCCGTAACGCGAAGCTTGACGAGTATGAAGTTGGTCAGGAAGTGAGCGTAAACGTATTTGCTTCTGGTGATAAAATTGATGTGACAGGAACTACAAAAGGTAAAGGATTCCAAGGTTCAATTAAGCGTCACAATCAACAACGTGGACCAGAAACTCATGGTTCTCACTATCACAGATCACCAGGTTCGTTAGGTGCGGTTGACCCAATGCGTGTATTTAAAGGAAGACCACTTCCAGGACGTATGGGTGGAGAACAAGTAACGATCCAAAACCTTGAAGTAGTAAAAGTAGATGAAGAACGTAATCTACTACTAGTAAAAGGTAATGTCCCAGGTGCAAAGAAATCATTCGTAAAAATAACGAGTGCAGTCAAGGCTAACTAA MTKGILGRKIGMTQLFSETGELMPVTVIEAEPNVVLQKRTLENDGYEAIQLGVADVKESRTNKAEKGHAEKANTNPKRYVREIRNAKLDEYEVGQEVSVNVFASGDKIDVTGTTKGKGFQGSIKRHNQQRGPETHGSHYHRSPGSLGAVDPMRVFKGRPLPGRMGGEQVTIQNLEVVKVDEERNLLLVKGNVPGAKKSFVKITSAVKAN NA NA NA NA NA AK015_01270 624 rplD 50S ribosomal protein L4 ATGCCTAAAGTAGCACTACTAAAACAAGATGGAGCTCAAGCTGGTGAATTGGAATTAAACGAAGCTGTATTTGGAATTGAACCAAATGAGCATGTATTACATGATGCAGTAGTTATGCAACGTGCGTCTTTACGTCAAGGTACGCATGCGGTAAAAAACCGTTCTGAAGTACGCGGTGGTGGTCGTAAACCATGGCGTCAGAAAGGAACTGGTCGTGCACGTCAAGGTTCTATTCGTTCCCCACAGTGGGTTGGCGGAGGTACTGTATTTGGACCAACACCACGCAGCTATAGCTATAAATTGCCAAAGAAAGTCCGTCGCTTAGCACTTAAATCTGCGCTTTCTTCAAAAACAAAAGAAAATAATCTTGTCGTTTTGGAAAGTCTTATTTTTGCTGAACCAAAAACAAAAGAAGCAGTAAAAATGCTAGCAGCATTAAAAGTAGATGCAAAAGCTTTAATTGTTGTAACTGAAAAAGAAGAGAACGTTGTTCGTTCCGTAAATAATCTTCCGGCTGTCTCTATTTTAACAGTGGAAGAAATGAATGTATTAGACTTGCTTGGCCATGACAAGCTGATCTTAACAAAAGAGGCAGCTGAAAAAGCAGGGGAGGTGCTTGCATAA MPKVALLKQDGAQAGELELNEAVFGIEPNEHVLHDAVVMQRASLRQGTHAVKNRSEVRGGGRKPWRQKGTGRARQGSIRSPQWVGGGTVFGPTPRSYSYKLPKKVRRLALKSALSSKTKENNLVVLESLIFAEPKTKEAVKMLAALKVDAKALIVVTEKEENVVRSVNNLPAVSILTVEEMNVLDLLGHDKLILTKEAAEKAGEVLA NA NA NA NA NA AK015_01271 288 rplW COG0089 50S ribosomal protein L23 ATGAAAGATCCACGTGATATTATAAAGCGCCCTGTCATTACAGAACATTCAGCTGATTTAATGGCAGAAAAAAAGTACACGTTTGAAGTAACTCCTCAAGCGAATAAAACAGAGATAAAAAACGCTGTTGAACAAGTTTTTGGAGTGAAAGTAATCAAAGTGAACACGTTAAATGTAAAAGGTAAGTTCAAGCGTATGGGTCGTTACGGTGGATACCGTTCAGATCGTAAAAAAGCTGTTGTTCAGCTTTCTGAAGACAGTAAAGAATTAGATTTCTTTGAAGCATAA MKDPRDIIKRPVITEHSADLMAEKKYTFEVTPQANKTEIKNAVEQVFGVKVIKVNTLNVKGKFKRMGRYGGYRSDRKKAVVQLSEDSKELDFFEA NA NA NA NA NA AK015_01272 831 rplB COG0090 50S ribosomal protein L2 ATGGCGATTAAAAAATTCAGACCAACGTCCAACGGTAGACGTAATATGTCCGTATCTGATTTTGCAGAAATCACTACAGATACGCCTGAAAAATCCCTTTTAGCTCCACTACACAAACGTGGTGGTCGTAATCATCAAGGGAAGTTAACCGTTCGTCATCAAGGTGGCGGTCACAAGCGTCAATACCGTATCATCGATTTCAAGCGTGATAAAGATGGTATACCAGGACGCGTTGCTACTATTGAATATGATCCAAACCGTTCAGCAAACATCGCATTAATTCATTATGTTGATGGTGAAAAACGTTATATATTAGCTCCAAAAGGTATAAAAGTGGGGCAAGAAGTTATTTCTGGTGAAGATGCGGATATTAAAATGGGAAATGCATTACCATTAGTAAATATCCCAGTAGGTACAATTATTCATAATGTTGAGTTGAAGCCAGGACGTGGCGGACAGCTTGTTCGTTCAGCGGGTGCAGAAGCACAAGTTCTTGGTCGTGATGGTAAATACACGTTAGTTCGTTTGTCTTCAGGAGAAGTTCGTTTAATTCTGTCTTCTTGCCGTGCAACTGTCGGTCAAGTTGGTAATATTGAACATGAGCTTATCCGTGTAGGTAAAGCAGGTCGTTCTCGTTGGTTAGGTATTCGCCCAACTGTTCGTGGGTCTGTTATGAACCCGAATGATCACCCACACGGTGGTGGTGAAGGACGCGCGCCAATCGGTCGTAAATCACCAATGTCACCATGGGGTAAGCCAACACTTGGTTACAAGACACGTCAACGCAACAAGCCATCTGATAAGTATATCGTTCGTAAACGTAAAAAATAA MAIKKFRPTSNGRRNMSVSDFAEITTDTPEKSLLAPLHKRGGRNHQGKLTVRHQGGGHKRQYRIIDFKRDKDGIPGRVATIEYDPNRSANIALIHYVDGEKRYILAPKGIKVGQEVISGEDADIKMGNALPLVNIPVGTIIHNVELKPGRGGQLVRSAGAEAQVLGRDGKYTLVRLSSGEVRLILSSCRATVGQVGNIEHELIRVGKAGRSRWLGIRPTVRGSVMNPNDHPHGGGEGRAPIGRKSPMSPWGKPTLGYKTRQRNKPSDKYIVRKRKK NA NA NA NA NA AK015_01273 279 rpsS 30S ribosomal protein S19 ATGGGTCGTAGTTTGAAAAAAGGACCTTTTGCAGATGACCATCTTATGTCAAAAATCGAAGCATTAAACGAAAGTGATAAAAAACAAGTAATTAAAACTTGGTCACGTCGTTCAACTATATTTCCTAATTTTGTAGGACATACAATAGCGGTATATGACGGACGTAAGCATGTACCAGTCTACGTTACAGAAGACATGGTCGGACATAAATTAGGTGAATTCGCGCCAACACGTACCTTTAAAGGGCACGGTGGCGATGATAAGAAAACAAAACGCTAA MGRSLKKGPFADDHLMSKIEALNESDKKQVIKTWSRRSTIFPNFVGHTIAVYDGRKHVPVYVTEDMVGHKLGEFAPTRTFKGHGGDDKKTKR NA NA NA NA NA AK015_01274 342 rplV COG0091 50S ribosomal protein L22 ATGCAAGCTAAAGCCGTTGCAAAATCGGTTCGTATTGCTCCTCGTAAAGTACGATTAGTCGTTGATCTTATTCGAGGAAAAAATGTAGGTGAAGCAATTGCGATTTTACGCCATACACAACGCGGTGCTTCTCCAGTCGTAGAAAAAGTATTAAACTCTGCGATTGCTAATGCAGAGCACAATTATGAAATGGATACAGATAACCTGGTCATTTCAGAAGCATATGTAAACGAAGGCGCTACTTTGAAACGTTTCCGTCCACGTGCACAAGGTCGTGCAAGTAGAATTAATAAACGCACAAGCCACATTACAGTAGTGGTAACAGAAAAAAAGGAGGGTTAG MQAKAVAKSVRIAPRKVRLVVDLIRGKNVGEAIAILRHTQRGASPVVEKVLNSAIANAEHNYEMDTDNLVISEAYVNEGATLKRFRPRAQGRASRINKRTSHITVVVTEKKEG NA NA NA NA NA AK015_01275 642 rpsC COG0092 30S ribosomal protein S3 GTGGGTCAAAAAGTAAATCCAACTGGTCTTCGCGTTGGCGTCATTAAAGACTGGGAGTCAAAATGGTATGCCGGCAAGGACTATGCAGACTTATTACATGAAGACATTAAGATTAGAGAATACTTGGAAAACCGCTTGAAGATAGCTGCTGTTTCATCTATTGATATTGAGCGTGCAGCAAACCGAGTGAATATTACGATTCATACTGGTAAACCAGGTATGGTTATCGGTAAAGGCGGTTCTGAAGTGGAATCTTTGCGTAAAGCTTTAAATAGCTTAACTGGCAAGCGAGTTCACATCAATATTGTAGAAATTAAAAAAGTAGATCTTGATGCAACATTAGTTGCTGAAAATATTGCTCGTCAATTAGAAAACCGTATTTCTTTCCGTCGTGCACAAAAGCAATCCATTCAACGTGCGATGCGTGCTGGCGCAAAAGGAATTAAAACACAAGTATCCGGACGTCTTGGTGGCGCAGACATCGCTCGTGCGGAACATTATAGTGAAGGGACAGTACCACTACACACATTAAGAGCTGATATCGATTATGGTACAGCAGAAGCAGACACTACGTATGGTAAGTTAGGTGTCAAAGTGTGGGTATACCGTGGAGAAGTCCTTCCAACGAAAACTGACAAATAA MGQKVNPTGLRVGVIKDWESKWYAGKDYADLLHEDIKIREYLENRLKIAAVSSIDIERAANRVNITIHTGKPGMVIGKGGSEVESLRKALNSLTGKRVHINIVEIKKVDLDATLVAENIARQLENRISFRRAQKQSIQRAMRAGAKGIKTQVSGRLGGADIARAEHYSEGTVPLHTLRADIDYGTAEADTTYGKLGVKVWVYRGEVLPTKTDK NA NA NA NA NA AK015_01276 435 rplP COG0197 50S ribosomal protein L16 ATGTTAATGCCTAAACGTGTGAAATATCGTAGACAACATCGTGGTAAAATGAGAGGCCAAGCCAAAGGTGGCACAAGTGTTGCTTTCGGTGAATATGGTCTACAAGCAGTAGAAGCGTCGTGGATTACTAGCCGTCAAATCGAGGCTGCTCGTATTGCAATGACTCGTTACATGAAACGTGGCGGTAAAGTTTGGATAAAAATCTTTCCTGACAAGCCATATACTGCAAAACCCCTAGAGGTTCGTATGGGTTCCGGTAAAGGTGCTCCAGAAGGATGGGTAGCAGTAGTAAAACCAGGAAAAATCATGTTTGAAATCGCTGGTGTACCAGAAGAAGTTGCTCGTGAAGCGTTACGTCTTGCTTCTCACAAACTTCCGATTAAAACAAAATTTGTAAAACGTGAAGAAATTGGTGGTGAAAGCAATGAAGGCTAA MLMPKRVKYRRQHRGKMRGQAKGGTSVAFGEYGLQAVEASWITSRQIEAARIAMTRYMKRGGKVWIKIFPDKPYTAKPLEVRMGSGKGAPEGWVAVVKPGKIMFEIAGVPEEVAREALRLASHKLPIKTKFVKREEIGGESNEG NA NA NA NA NA AK015_01277 201 rpmC COG0255 50S ribosomal protein L29 ATGAAGGCTAATGAGATTAGAGAACTAACCACTGCCGAAATTGAACAAAAAGTAAAAGACTTAAAAGAAGAGCTATTCAACTTACGCTTCCAGCTTGCAACTGGCCAACTAGAAAACACTGCACGTATTCGTCAGGTAAGAAAGTCAATTGCTCGCATGAAAACTGTTGTTCGTCAGCGTGAATTAAGCGTAAATAACTAG MKANEIRELTTAEIEQKVKDLKEELFNLRFQLATGQLENTARIRQVRKSIARMKTVVRQRELSVNN NA NA NA NA NA AK015_01278 264 rpsQ COG0186 30S ribosomal protein S17 ATGACAGAACGTAATGATCGTAAAGTTTACACTGGACGTGTTGTCTCTGACAAAATGGATAAAACCATTTCTGTTCTAGTGGAAACATATAAATTCCACAAGCTATACGGCAAGCGTGTTAAATATTCAAAAAAATTCAAAGCACATGATGAGAATAACCAAGCAAAAGTTGGCGATATCGTAAGCATCATGGAAACTCGTCCGCTATCAGCTACAAAACATTTTCGCCTCGTTGAGATTGTTGAAGAAGCGGTAATTATATAA MTERNDRKVYTGRVVSDKMDKTISVLVETYKFHKLYGKRVKYSKKFKAHDENNQAKVGDIVSIMETRPLSATKHFRLVEIVEEAVII NA NA NA NA NA AK015_01279 369 rplN COG0093 50S ribosomal protein L14 ATGATTCAACAGGAAACACGTTTAAAAGTTGCAGATAACTCTGGTGCACGTGAACTATTAACTATTAAAGTATTGGGCGGATCCGGACGAAAAACCGCTAATATTGGCGACGTTGTTGTTTGTACGGTAAAAGAAGCAACACCAGGCGGCGTTGTCAAAAAAGGTGATGTTGTAAGAGCTGTTATTGTACGTTCGAAATCTGGTGCACGTCGTAAAGATGGTTCATATATTCGTTTTGATGAAAATGCAGCGGTAATTGTTCGTGATGATAAGAGTCCAAGAGGAACTCGTATTTTTGGACCAGTTGCACGTGAATTGCGTGATGCAAAATTCATGAAAATCGTATCTCTTGCTCCAGAAGTATTATAA MIQQETRLKVADNSGARELLTIKVLGGSGRKTANIGDVVVCTVKEATPGGVVKKGDVVRAVIVRSKSGARRKDGSYIRFDENAAVIVRDDKSPRGTRIFGPVARELRDAKFMKIVSLAPEVL NA NA NA NA NA AK015_01280 312 rplX COG0198 50S ribosomal protein L24 ATGCATGTAAAAAAAGGTGATAAAGTAAAAGTTATTTCCGGCAAAGACCGCGGAAAAGAAGGCACTATCTTAGAAGCATACCCGAAAAAAGAGCGTGTGCTTGTAGAAGGAATTAACATGATTAAAAAACATGCCAAACCTTCCCAAGAAAATCCACAAGGTGGAATTCTTAATCAGGAGGCACCAATTCATGTTTCTAACGTGATGCCAATAGATCGTAAAACCGGAGAGCCAACCCGTGTTGGTTACGAAGTACGTGATGGAAAGAAAGTCCGTATCGCTAAGAAATCCGGAGAAGCGTTAGATAAATAG MHVKKGDKVKVISGKDRGKEGTILEAYPKKERVLVEGINMIKKHAKPSQENPQGGILNQEAPIHVSNVMPIDRKTGEPTRVGYEVRDGKKVRIAKKSGEALDK NA NA NA NA NA AK015_01281 540 rplE COG0094 50S ribosomal protein L5 ATGAATCAATTAAAGAAAAAATATCAAGATGAAGTACTACCATCTTTAATGAATAAATTTAACTATGAGTCTGTAATGCAAGTACCAGCTATTGAAAAAATAGTAGTGAACATGGGTGTTGGTGATGCAGTTCAGAACTCAAAAGCTTTGGATAATGCTGTCGAAGAGTTGGCGTTAATTTCTGGACAAAAGCCAATGATTACTCGTGCAAAAAAATCGATCGCTGGATTCCGCCTACGTGAAGGAATGCCGATTGGTGCTAAAGTAACCCTTCGCGGTGAGCGTATGTACGAATTTTTACAAAAACTAGTTGCTGTATCACTTCCACGTGTACGTGACTTCCGTGGTGTGTCTAAAAAGGCATTTGATGGTCGTGGAAACTACACTTTAGGAGTGAAAGAACAGCTTATTTTCCCAGAAATTAATTATGATAAAGTGAGTAAGATTCGTGGGATGGACATTGTTATCGTAACAACATCTAACACGGATGAAGAAGCTCGTGAACTTCTTACTCAGTTAGGCATGCCTTTCCAAAAGTAA MNQLKKKYQDEVLPSLMNKFNYESVMQVPAIEKIVVNMGVGDAVQNSKALDNAVEELALISGQKPMITRAKKSIAGFRLREGMPIGAKVTLRGERMYEFLQKLVAVSLPRVRDFRGVSKKAFDGRGNYTLGVKEQLIFPEINYDKVSKIRGMDIVIVTTSNTDEEARELLTQLGMPFQK NA NA NA NA NA AK015_01282 186 rpsN1 COG0199 30S ribosomal protein S14 GTGGCTAAAAAATCAATGATTGCAAAGCAAAAACGTCCGCAAAAATACCAAGTACGTGAATATACACGCTGTGAGCGCTGTGGACGTCCGCATTCTGTAATCCGTAAATTTAAACTTTGCCGTATTTGTTTCCGTGAACTTGCCTATAAAGGTCAAATTCCTGGTGTCAAAAAAGCAAGCTGGTAA MAKKSMIAKQKRPQKYQVREYTRCERCGRPHSVIRKFKLCRICFRELAYKGQIPGVKKASW NA NA NA NA NA AK015_01283 399 rpsH COG0096 30S ribosomal protein S8 ATGGTTATGACAGATCCAATTGCAGATATGCTTACTCGCATTCGTAATGCGAATATGGTAAGACATGAAAAGTTAGAGCTTCCAGCATCAAAGATGAAAAAAGAGATCGCTGATATTCTTAAACGAGAAGGTTTCGTTACAGATTATGAGCTTGTAGAAGATAACAAGCAAGGTGTTCTTCGCATCTTCCTTAAATATGGAGCAAACGAAGAGCGTGTAATTACAGGTATTAAACGTATAAGTAAACCAGGATTACGTGTTTATGCGAAAGCTGATGAAGTACCACGTGTACTTAACGGTTTAGGAATTGCTATCGTTTCAACTTCAAAAGGTGTGCTTTCTGACAAAGAAGCGCGTTCTCAAGCTGTTGGCGGCGAAGTATTAGCATACGTGTGGTAA MVMTDPIADMLTRIRNANMVRHEKLELPASKMKKEIADILKREGFVTDYELVEDNKQGVLRIFLKYGANEERVITGIKRISKPGLRVYAKADEVPRVLNGLGIAIVSTSKGVLSDKEARSQAVGGEVLAYVW NA NA NA NA NA AK015_01284 537 rplF 50S ribosomal protein L6 ATGTCTCGTATAGGACTGAAGCCAATCGAAGTTCCTGAAGGAGTAGAAGTGAAATTCGATGGAACTGTCGTTACAGTTAAAGGACCTAAAGGTGAATTAACAAGAAATCTACATCAAGATATTAAAGTTAACATGGAAGGCAACGTGATTAAGCTAGAGCGCCCAAGCGATCATAAGGATCATCGCGCATTACACGGTACGACACGTAGCCTCATTAACAATATGGTTGAAGGTGTAAGTAAAGGGTTTGAAAAATCGCTTGAAATCATCGGTGTTGGTTACCGTGCGCAGAAGCAGGGAAATAAAGTAATCGTCAACGCTGGTTACTCACACCCTGTAGAAATCGATCCAATTGACGGGATTGAAATTGACGTACCAAAAAACACACAACTTATTGTTAAAGGTATTGATAAGGAGCTTGTTGGAGCTGTTGCTTCTAAAATTAGAGCAATTCGCCCACCAGAGCCTTATAAAGGTAAAGGAATCCGTTACGAAGGTGAATATGTACGTCGTAAAGAAGGTAAAACTGCCAAGTAA MSRIGLKPIEVPEGVEVKFDGTVVTVKGPKGELTRNLHQDIKVNMEGNVIKLERPSDHKDHRALHGTTRSLINNMVEGVSKGFEKSLEIIGVGYRAQKQGNKVIVNAGYSHPVEIDPIDGIEIDVPKNTQLIVKGIDKELVGAVASKIRAIRPPEPYKGKGIRYEGEYVRRKEGKTAK NA NA NA NA NA AK015_01285 366 rplR 50S ribosomal protein L18 GTGATTACAAAACCTGATAAAAATATGGTGCGTAAGAGAAGGCACGCTCGTGTACGTAAAACCGTTCACGGAACAGCACAGCGTCCTCGTCTAAACGTCTACCGTTCAAATAAACACATCTATGTACAGCTTATTGATGATACAAGTGGAAACACAGTGGTTAGTGCCTCTACAAAAGATAACGAGTTGAACTTAACAGGTGCAACTGGTAATGTAGAAGCAGCAAGACAAGTCGGAGAAGCAATAGCTAAACGTGCTCAGGATAAAGGTTACAAATCGGTTGTCTTTGACCGCGGTGGCTACCTTTATCATGGACGTGTGAAAGCTTTAGCAGAGGCTGCAAGAGAAGCAGGTCTTGAATTTTAA MITKPDKNMVRKRRHARVRKTVHGTAQRPRLNVYRSNKHIYVQLIDDTSGNTVVSASTKDNELNLTGATGNVEAARQVGEAIAKRAQDKGYKSVVFDRGGYLYHGRVKALAEAAREAGLEF NA NA NA NA NA AK015_01286 504 rpsE COG0098 30S ribosomal protein S5 ATGAATAAAAACATTGATCCGAACAAATTAGATCTTGAAGAACGTGTTGTTGCGGTAAACCGTGTTGCAAAAGTTGTTAAAGGTGGTCGTAATTTCCGCTTTGCAGCTCTAGTTGTTGTCGGAGACAAGAATGGTCATGTAGGTTTTGGTACAGGAAAAGCACAAGAAGTACCAGAAGCAATTAAAAAAGCAGTAGATGATGCGAAGAAAAATTTAATTACAGTACCTATTGTTGGAACTACCATCCCACATGCAATTCATGGTCGATTTGGCTCAGGTAATGTATTGTTGAAACCAGCTACGGAAGGTACAGGAGTTATCTCTGGTGGTCCAGTACGTGCGATTTTAGAGCTTGCTGGTGTTGGTGATATACTAACAAAATCATTAGGTTCTAATACGCCGATTAATATGATTCGTGCAACAATCAATGGTTTAACAAACTTAAAGCGCGCAGAAGATGTAGCAAAACTACGTGGAAAGTCTGTAGAAGAACTGTTAGGATAA MNKNIDPNKLDLEERVVAVNRVAKVVKGGRNFRFAALVVVGDKNGHVGFGTGKAQEVPEAIKKAVDDAKKNLITVPIVGTTIPHAIHGRFGSGNVLLKPATEGTGVISGGPVRAILELAGVGDILTKSLGSNTPINMIRATINGLTNLKRAEDVAKLRGKSVEELLG NA NA NA NA NA AK015_01287 183 rpmD 50S ribosomal protein L30 ATGTCTAAAAAACTAGAAATAACCCTCACGCGCAGTGTTATTGGTGGAACAGAAGTTCAAAGAAAAACTGTTCAAGCATTGGGATTAAAGAAAATTCGTCAATCGGTTGTTCATGAAGATACTCCAGCTCTTCGCGGCATGGTCAATAAAGTATCTCATTTACTAACGGTTAAAGAGGTTTAA MSKKLEITLTRSVIGGTEVQRKTVQALGLKKIRQSVVHEDTPALRGMVNKVSHLLTVKEV NA NA NA NA NA AK015_01288 441 rplO COG0200 50S ribosomal protein L15 ATGAAACTTCATGAATTGAAGGCTGCAGAAGGTACACGTAAAAACCGTAATCGTGTAGGTCGTGGAATGTCATCTGGCAACGGGAAAACATCAGGACGTGGACATAAAGGTCAAAAAGCGCGCTCTGGTGGCGGTACTCGTCCAGGGTTTGAAGGTGGTCAGTTACCACTATTCCAACGCTTGCCAAAACGTGGGTTTACAAACATTCATCGTAAAGAGTTTGCTATTGTAAATGTAGAAACGTTAAATCGGTTTGAAGAAGGCACAGAAATAACACCTGAGCTATTACTGGAAGAAGGCGTAGTTAGCAAGTTGAAAGCAGGTATTAAAGTACTTGGCAACGGCTCGATCGAGAAAAAACTAACAGTAAAAGCTCACAAGTTCTCTGCTTCCGCTAAAGAAGCAATCGAGGCAGCGGGCGGTCAAACAGAGGTGATTTAA MKLHELKAAEGTRKNRNRVGRGMSSGNGKTSGRGHKGQKARSGGGTRPGFEGGQLPLFQRLPKRGFTNIHRKEFAIVNVETLNRFEEGTEITPELLLEEGVVSKLKAGIKVLGNGSIEKKLTVKAHKFSASAKEAIEAAGGQTEVI NA NA NA NA NA AK015_01289 1293 secY Protein translocase subunit SecY ATGTTCCGTACAATCTCCAATTTTATGCGCGTAGGTGATATAAGACGGAAAATAATTTTCACGCTATTAATGTTGGTTGTCTTCCGTCTTGGCACGTTTATACCTGTGCCATTTACTGATAAGCAGGCAATTGACTTTATGAATTCCCAAAATGTGTTTGGCTTTTTAAACACATTCGGTGGTGGCGCATTGCAAAATTTCTCCATCTTTGCGATGGGGATTATGCCTTATATTACGGCGTCTATTATTATGCAATTGCTACAAATGGATGTCGTACCTAAATTTGCTGAGTGGAAAAAACAAGGTGATGCAGGCAGAAAAAAGCTTGCCCAAGTCACGCGTTACGGTACCATTGTGCTTGCTTTTATCCAAGCGATTGCTATGTCAGTAGGATTTAATGCTATGGCTGGTGGTATGTTAATTGCTGATCCTGGTCCCATGAAATTTATTGTGATTGCCATTGTTTTAACGAGTGGGACAGCATTTTTAATGTGGCTTGGAGAACAAATTACTGCGAATGGAGTCGGTAATGGAATTTCGATTATCATTTTTGCAGGTATTGTTGCAGCAGTACCAAATGGCGTACAACAGCTATACAGCCAGTATTTTATTAACCCTGGCGAAGAACTGTTCATTAATATTGTTATTGTTGCGTTGATTGCTTTGGTTGTGGTTGCCGTAACCGTTGGAGTTATTTTTATTCAACAAGCGTTACGTAAAATACCCGTTCAATATGCAAAAAAACTTGTCAATCGTTCTCCAGTAGGCGGTCAGTCAACACACTTACCTTTAAAAGTGAACGCTGCTGGTGTTATTCCAGTTATCTTTGCCATTGCGTTTATTATGGCGCCAAGTACAATTGCGACCTTCTTTGAAGGAAACGATATTGCTGCAACCATCCAACGTATCTTTGATTATACACAGCCGATAGGTATGGTTATCTATGTTGCGTTAATTATCGCCTTTACGTATTTCTATACGTTTGTTCAAGTAAACCCAGAGCAAATGGCTGAGAATTTACAAAAACAAGGTGGTTATGTACCTGGGATTCGTCCAGGTAAAAACACAGAGGCCTATTTGACTAGAGTACTGTACCGTCTCACATTCGTAGGTGCACTATTCTTAGCTGCTGTATCTGTCTTACCGCTTGCTTTAAGCGGCGTTGCTAACTTGCCGCAGTCCATACAAATTGGCGGAACTAGTTTACTGATTGTTGTAGGAGTAGCGCTTCAGACGATGAAGCAATTGGAAAGTCAATTGGTGAAACGTCACTATAAAGGTTTTATTAAGTAA MFRTISNFMRVGDIRRKIIFTLLMLVVFRLGTFIPVPFTDKQAIDFMNSQNVFGFLNTFGGGALQNFSIFAMGIMPYITASIIMQLLQMDVVPKFAEWKKQGDAGRKKLAQVTRYGTIVLAFIQAIAMSVGFNAMAGGMLIADPGPMKFIVIAIVLTSGTAFLMWLGEQITANGVGNGISIIIFAGIVAAVPNGVQQLYSQYFINPGEELFINIVIVALIALVVVAVTVGVIFIQQALRKIPVQYAKKLVNRSPVGGQSTHLPLKVNAAGVIPVIFAIAFIMAPSTIATFFEGNDIAATIQRIFDYTQPIGMVIYVALIIAFTYFYTFVQVNPEQMAENLQKQGGYVPGIRPGKNTEAYLTRVLYRLTFVGALFLAAVSVLPLALSGVANLPQSIQIGGTSLLIVVGVALQTMKQLESQLVKRHYKGFIK PGPT0025725_4146 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076 NA NA AK015_01290 645 adk Adenylate kinase TTGAACTTAATTTTAATGGGCCTGCCCGGTGCTGGAAAAGGCACACAGGCAGAGAAAATAAACGAAAAATATGATATCCCTCATATTTCAACAGGAGATATGTTCCGTTTAGCTATTAAAGAGGGAACAGACTTAGGTAAAAAAGCAAAAGCGTACATGGACCGAGGAGAACTTGTTCCAGATGAAGTTACGAATGGTATTGTTAAAGAACGCTTGAGTAAAAATGATTGTAAACATGGATTTTTATTGGATGGTTTCCCAAGGACAATTGCTCAAGCAGAAGCATTACAAAGTCTATTGCAGGATATCAATCAATCCATTGATTACGTCATTCATGTAGATGTACCAGAAGAAAAATTAGTGGAGCGTCTAACTGGTCGTAGAATTTGTCCAACATGCGGAACAACGTACCATGTAGTTTATAATCCGCCAAAAGAAGATGGGGTCTGTGATAAAGATGGCTCAACCTTGATCCAACGTGATGACGATAAGCCAGCTACGGTGAAAAAGCGTCTATCTGTAAATATAGAACAGACGAAGCCGTTATTAGACTTTTATAATGAAAAAGGATATCTAGTAACAGTTAATGGCGATCAGGATATTGATCAAGTGTTTCAAGATATTCAAGCTAAAGTAGAAAAATAG MNLILMGLPGAGKGTQAEKINEKYDIPHISTGDMFRLAIKEGTDLGKKAKAYMDRGELVPDEVTNGIVKERLSKNDCKHGFLLDGFPRTIAQAEALQSLLQDINQSIDYVIHVDVPEEKLVERLTGRRICPTCGTTYHVVYNPPKEDGVCDKDGSTLIQRDDDKPATVKKRLSVNIEQTKPLLDFYNEKGYLVTVNGDQDIDQVFQDIQAKVEK PGPT0009040_5231 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939 NA NA AK015_01291 336 hypothetical protein TTGAACGAAGATGATTCGATACCGCGGATAGGTCAAGTTGTTCGAATTATGCAAGGTCGTGAAGCGGGTCAATATGCAGTCGTTATTAAATCTGTCGATGATAAGTATGTCTTGCTTGCAGATGGGGAAAAACGTAAATATGATCGACCAAAGAAAAAGAATCTTCATCATATCGAGTTAATGGATTATATTTCTCCAGAAGTCCAAAACAGCCTTCTAGAAACTGGTCGTGTCACAAATGGTAAACTGCGATTTGCCATAGCGAAATTTATCAATGAAGTTGTGACTGATTTGAAGAAGGGAGATCAACACGATGGCGAAAGACGATGTAATTGA MNEDDSIPRIGQVVRIMQGREAGQYAVVIKSVDDKYVLLADGEKRKYDRPKKKNLHHIELMDYISPEVQNSLLETGRVTNGKLRFAIAKFINEVVTDLKKGDQHDGERRCN NA NA NA NA NA AK015_01292 219 infA COG0361 Translation initiation factor IF-1 ATGGCGAAAGACGATGTAATTGAAGTGGAAGGAACCGTAACCGAAACATTGCCGAATGCGATGTTTAAAGTCGAATTGGAAAACGGTCATACTGTATTAGCCCACGTATCCGGGAAAATTCGTATGCACTTTATTCGCATTCTTCCTGGCGACAAAGTAACGGTTGAACTTTCTCCGTATGATTTAACTAGAGGACGTATTACGTACCGTTATAAATAA MAKDDVIEVEGTVTETLPNAMFKVELENGHTVLAHVSGKIRMHFIRILPGDKVTVELSPYDLTRGRITYRYK NA NA NA NA NA AK015_01293 117 rpmJ COG0257 50S ribosomal protein L36 ATGATGAAAGTAAGAGCATCTGTAAAACCCATTTGCGAAAAATGTAAAGTCATTAAACGAAATGGTAAAGTAATGGTTATTTGTGAAAATCCAAAGCATAAACAAAAACAAGGATAA MMKVRASVKPICEKCKVIKRNGKVMVICENPKHKQKQG NA NA NA NA NA AK015_01294 366 rpsM COG0099 30S ribosomal protein S13 ATGGCACGTATTGCAGGTATTGATGTCCCACGTGATAAACGCGTAGTCATTTCCCTAACGTATATTTACGGTATTGGAAAAACTACTGCTCAAAAAATCCTTAAAGAAGCAGGCGTTTCTGAAGACACTCGTGTACGCGACCTTACTGAGGACGAATTAGGAAGAATTCGTAAAGCTACAGACGAGTATACCATTGAAGGAGACCTTCGTCGTGAAGTATCTCTAAATATTAAACGTCTTATCGAGATCGGCTCATATCGCGGAATCCGCCATCGTCGTGGACTTCCTCTTCGTGGACAAAAAACAAAAAATAATTCACGTACTCGTAAAGGGCCGCGTCGCGCGATCGCTGGAAAGAAAAAATAA MARIAGIDVPRDKRVVISLTYIYGIGKTTAQKILKEAGVSEDTRVRDLTEDELGRIRKATDEYTIEGDLRREVSLNIKRLIEIGSYRGIRHRRGLPLRGQKTKNNSRTRKGPRRAIAGKKK NA NA NA NA NA AK015_01295 390 rpsK 30S ribosomal protein S11 ATGGCACAAAAGTCAAGCGCACGTAAACGTCGTGTGAAAAAAAATATTGAGTCAGGTATATCCCATATCCGTTCAACATTTAATAACACCATCGTTACGATTACAGATACGCAAGGAAATGTTCTTGGATGGAGTTCTGCTGGTGCATTGGGCTTTAAAGGTTCAAAGAAATCTACTCCATTTGCTGCCCAAATGGCAGCTGAAACTGCTGCTAAATCTGCAATTGACCATGGTATGAAAACTCTTGAAGTAACCGTTAAAGGACCAGGAGCCGGCCGTGAAGCAGCTATTCGTTCTCTTCAGGCAGCAGGTTTGGAAGTTACAGCTATTCGTGATGTAACGCCAGTACCACATAACGGTTGCCGCCCACCAAAACGTCGTCGTGTATAA MAQKSSARKRRVKKNIESGISHIRSTFNNTIVTITDTQGNVLGWSSAGALGFKGSKKSTPFAAQMAAETAAKSAIDHGMKTLEVTVKGPGAGREAAIRSLQAAGLEVTAIRDVTPVPHNGCRPPKRRRV NA NA NA NA NA AK015_01296 945 rpoA COG0202 DNA-directed RNA polymerase subunit alpha ATGATCGAAATTGAAAAACCAAAAATTGAGACGGTAGAAATCAGCGATGATGCTACATTTGGAAAATTCGTAGTCGAACCGCTTGAACGTGGATATGGTACCACTCTAGGAAACTCCTTGCGTCGTATCCTACTATCCTCACTTCCAGGTGCTGCTGTGACTTCAGTTCAAATTGATGGAGCGCTACATGAATTTTCAACGATTGATGGTGTTGTTGAAGATGTAACAACAATTATTTTGAACTTGAAAAAATTAGCGCTAAAAATCTACTCAGATGAAGAAAAGACATTGGAGATTGATGTGCAGGGAGAAGGAAAAGTTACGGCTGCAGATCTAACCTATGATAGTGATGTAGAGGTCCTAAATCCGGATTTGTTAATTGCTACATTGAATAACAAAGGCAGCTTGTATATGAAAATTACTGCAGAACGTGGACGTGGGTATCGACCTGCTGAAGCAAACAAACGTGATGATCAGCCAATCGGGATAATTCCAGTTGACTCCATTTTTACTCCAGTATCACGTGTAACCTACCAAGTAGAGAATACACGTGTTGGTCAAGTAGCTAACTTTGATAAATTAACATTAGATGTACGTACAGATGGCAGTATTCGTCCAGAAGAAGCTGTTTCTTTAGGTGCGAAAGTCTTTACAGAGCATCTTAATATTTTTGTAGGTTTAACAGATGAAGCGAAAAACGCTGAAGTGATGGTCGAGAAGGAAGAAGACCAAAAAGAAAAAGTGATGGAAATGACGATTGAAGAACTTGATCTTTCTGTCAGGTCCTATAACTGTCTAAAGCGTGCTGGGATTAACACCGTACAAGAACTAGCAAATAAATCTGAAGAAGATATGATGAAGGTACGCAATCTTGGACGTAAGTCGTTAGAAGAAGTAAAAGTGAAGCTTAACGATTTAGGTCTTGGCTTGCGAGACGATGACTAA MIEIEKPKIETVEISDDATFGKFVVEPLERGYGTTLGNSLRRILLSSLPGAAVTSVQIDGALHEFSTIDGVVEDVTTIILNLKKLALKIYSDEEKTLEIDVQGEGKVTAADLTYDSDVEVLNPDLLIATLNNKGSLYMKITAERGRGYRPAEANKRDDQPIGIIPVDSIFTPVSRVTYQVENTRVGQVANFDKLTLDVRTDGSIRPEEAVSLGAKVFTEHLNIFVGLTDEAKNAEVMVEKEEDQKEKVMEMTIEELDLSVRSYNCLKRAGINTVQELANKSEEDMMKVRNLGRKSLEEVKVKLNDLGLGLRDDD NA NA NA NA NA AK015_01297 354 rplQ 50S ribosomal protein L17 ATGGCTAGAAAATTAGGTCGTACATCGGATCAACGCATGGCGCTACTTCGTAATCTTGCTTCTGATTTAATTATTCATGAGCGGATTGAAACAACAGAAGCCAAAGCGAAGGAGTTAAAATCCGTTGTTGATAAAATGATTACATTAGGCAAACGTGGGGATCTGCACGCACGCCGTCAAGCAGCCTCATTTCTATATAATCAAGAAGCTAATGAAGATCAAAACGTTATTCAGAAGCTTTTCAATGATGTGGCTCCGCGTTACGAAGACCGTCAAGGTGGGTACACACGTGTTCTTAAACTGGGCGCTCGTCAAGGTGATGGTGCGAAAATGGCAATCATTGAACTAGTTTAA MARKLGRTSDQRMALLRNLASDLIIHERIETTEAKAKELKSVVDKMITLGKRGDLHARRQAASFLYNQEANEDQNVIQKLFNDVAPRYEDRQGGYTRVLKLGARQGDGAKMAIIELV NA NA NA NA NA AK015_01298 846 ecfA1_1 COG1122 Energy-coupling factor transporter ATP-binding protein EcfA1 ATGAGTAGCAATGAAAAATTGGTAGAGTTTAGAAATGTATCATTTCGATATGGAGCAGAGCAGCCATGGGTACTGAAAAACTGTAGCTTTGAGATCGATCGCGAAGAATGGGTTGCCATTATTGGTCATAATGGTTCGGGGAAATCTACCATAGCTAAATTAATGAATGGACTTTTATTTCCGCAAGAAGGGGAAATTTATGTAGCTGGGAAAAAAGTGCAGGAAGATACCATTTGGGATGTACGTAAAGATGTCGGCATGGTGTTTCAAAATCCAGATAATCAATTTGTAGGTACAACGGTACAAGACGATGTTGCATTTGGCATGGAGAATAGAGGTTTTCCAAGAGAGGAAATGCTACAGCGACTTGATGATGTGTTACATGCAGTTGGCATGGTGGATTATCGCTTAACGGAGCCTCATCGTCTATCTGGTGGACAAAAGCAACGTATAGCTATTGCAAGCGTGCTAGCTGTATCTCCCAAAGTGCTTATTTTAGATGAAGCAACAGCGATGTTAGACCCAAGAGGAAGAAGAGATATTATGCAAACCGTCGCTCATTTGCAAGCAAATAAGGATGTATCCTTACTAACAATTACACACGACCTGCAAGAAATTGTCCAAGCAGATCGGGTTATTGTAATGAATGAAGGTCAAGTTTGGGACGAGTCTCATCCGAGAGAGCTTTTTTCTAAGCAAGATGATCTACTTGCAATTGGATTAGATGTTCCGTTTATTGCTTCCTTAGCAAAAGCTTTAAAACAGACGGGCATTCCCATCACAAAAGAACCATTAAATCATGAAGAACTGTTGGAGGAACTATGGACATTACATTCGAGAACGTAA MSSNEKLVEFRNVSFRYGAEQPWVLKNCSFEIDREEWVAIIGHNGSGKSTIAKLMNGLLFPQEGEIYVAGKKVQEDTIWDVRKDVGMVFQNPDNQFVGTTVQDDVAFGMENRGFPREEMLQRLDDVLHAVGMVDYRLTEPHRLSGGQKQRIAIASVLAVSPKVLILDEATAMLDPRGRRDIMQTVAHLQANKDVSLLTITHDLQEIVQADRVIVMNEGQVWDESHPRELFSKQDDLLAIGLDVPFIASLAKALKQTGIPITKEPLNHEELLEELWTLHSRT PGPT0004455_107 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COBALT_RESISTANCE COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006 NA NA AK015_01299 873 ecfA2_1 COG1122 Energy-coupling factor transporter ATP-binding protein EcfA2 ATGGACATTACATTCGAGAACGTAAGCTATATCTATCAACAGCACTCCCCATTTGCTCATAAAGCGATTGACCAATTAAGCTTTCATATCCCTTCTGGAACATTTGTAGCCATTGTAGGTCATACGGGTTCAGGGAAATCAACTTTAATTCAGCATTTAAATGGTCTTGTTCAGCCGACAGCAGGAAAAGTAAAGATAGGAGACTTTGAGCTCACGGCAGAAAAAAAGCCGAAACATATGAAACAGCTAAGAAGCAAGGTCGGTGTCGTATTTCAATATCCGGAGCATCAACTATTTGAAGAGACGGTTGCGAAGGATATTAGCTTTGGACCTAAAAATTTTGGTGTTGGGGATAGCGAAATACAACGGCGAGTGACAGAAGCATTACAAGCTGTTGGTTTATCAGCAGATTATGTAGAGCGCTCCCCCTTTGATTTAAGTGGTGGGCAAATGCGCAGGGTCGCTATTGCTGGTGTTTTAGCTACAAAACCAAACGTCCTTGTCTTAGATGAACCGACTGCAGGACTTGATCCAAGAGGGCAAAAAGAAATGATGGAGATGTTTTATGAACGCCATCGGTCTGAACAGCTTACAACGATACTCGTCACACATAGCATGGAGGATGCCGTTACGTATGCGGATCATGTCATTATTTTAAATAAAGGTAGTAAATATATGGAAGGGAAACCAGAGGAAGTGTTTGTGCAAAAGGAAGCATTGCAACAAGTTCAACTGGATGTTCCCGAAATGGTAGCCTTTATTAATCGTTGGAATGAAAAATTTCACACCAAACTTCCTTTTACGAAGCAGTCTGAGCGCGAATTAGCAACCGCTATTACCGCCGTGCTTAAAGGAGGGAAAAGCCATGAATAA MDITFENVSYIYQQHSPFAHKAIDQLSFHIPSGTFVAIVGHTGSGKSTLIQHLNGLVQPTAGKVKIGDFELTAEKKPKHMKQLRSKVGVVFQYPEHQLFEETVAKDISFGPKNFGVGDSEIQRRVTEALQAVGLSADYVERSPFDLSGGQMRRVAIAGVLATKPNVLVLDEPTAGLDPRGQKEMMEMFYERHRSEQLTTILVTHSMEDAVTYADHVIILNKGSKYMEGKPEEVFVQKEALQQVQLDVPEMVAFINRWNEKFHTKLPFTKQSERELATAITAVLKGGKSHE PGPT0004455_95 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COBALT_RESISTANCE COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006 NA NA AK015_01300 798 ecfT_1 COG0619 Energy-coupling factor transporter transmembrane protein EcfT ATGAATAATGCCATGGTTATTGGTCAGTACGTACCAGGGAACTCCGTTGTTCACCGATTAGACCCACGAACGAAGATTACAATTATTTTTATCTTTGTGTTTGTCGTCTTTTTAGCGAACAATGTGTGGAGCTATACAATATTAACTGTTTTTGCACTTTTAAGTATGATAACATCTCGTGTACCATTACGATTTGTTTTAAAGGGTTTAATGCCTGTATGGTTTTTAATTATTTTTACCTTTCTACTCCATGTAATTATTACAAAAGAAGGTGATGTCGTATTCGAGATTTTTACCTTTCAAGTATACTCTGGTGGGTTAATTCAAGGTTTTGCTATTTCCATGCGATTCTTTCTACTTATTTTAGTCACGTCGCTACTAACATTGACAACAACACCGATAGAAATAACGGATGCGATTGAAAGCATGTTGCAACCATTAAAAAAAGTGAAATTTCCGGTTCATGAATTGGCGTTAATGATGTCGATATCACTCCGTTTCATTCCAACGTTGTTACAAGAAACAGATAAAATCTCAAAAGCGCAAGCGTCACGTGGCGTTGACTTTCGAACAGGGAAGCTCAAAGATCGCATACAAGCCGTCGTGCCATTGCTCGTTCCATTATTCGTCAGTGCTTTCAAACGAGCAGAAGAGCTAGCTATGGCGATGGAAGCGAGAGGCTATCAAGGTGGCGAAGGTCGTACCAAGTTGCGTGAATTAAAATTTACGAAGCTAGATGTAGGAATATATCTTTTGTTTATACTCGTCATTCTCGGATTATTTTTGACTAGGAACTAG MNNAMVIGQYVPGNSVVHRLDPRTKITIIFIFVFVVFLANNVWSYTILTVFALLSMITSRVPLRFVLKGLMPVWFLIIFTFLLHVIITKEGDVVFEIFTFQVYSGGLIQGFAISMRFFLLILVTSLLTLTTTPIEITDAIESMLQPLKKVKFPVHELALMMSISLRFIPTLLQETDKISKAQASRGVDFRTGKLKDRIQAVVPLLVPLFVSAFKRAEELAMAMEARGYQGGEGRTKLRELKFTKLDVGIYLLFILVILGLFLTRN PGPT0004015_2000 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 AK015_01301 741 truA COG0101 tRNA pseudouridine synthase A ATGGAACGACTAAAATGTACACTTCAATATGACGGCTCTCATTTCTCTGGCTTTCAAATCCAACCAGGAAAAAGAACCGTACAAGGAATACTAGAAAAAGCATTACAAAAAATGCATAAGGGTGAACCTGTACGCATTCATCCTTCAGGGAGAACCGATACAGGCGTTCATGCAAAAGGACAGACGATTCACTTTGATTCTCCATACAACATCCCTATGTACAATTGGAAGCAAGCATTAAACACCTTGCTCCCTGATGACATTTATGTTAAGCAGGTAGAAGTGGTTCCTAATACGTTTCACGCTAGGTATGATGTAGTAGAGAAGGAATATCGCTATTATGTATATCATGCAAAGGAACCGGATGTATTTAGACGCAATTATGCTTATTTTTTCCCGTATGCATTAGACGTTGCTTCCATGCAAGTAGCATGCCGTTATTTGGAAGGAACGCATGATTTTACAACCTTTTCCTCTGCTAAAGCAACAACAAGAGGGAGTAAACAGCGTACGCTTTATCAAGTAACCTGTGAAAAAAGAGGCGCCGAAATTGAATTTATTTTTCGTGGTAGCGGATTTTTATATAATATGGTGCGCATCATCGTTGGTGTAATATTAGACATAGGTCAAGGAAGGCGAGAAGCGTCTGATATAGCTGTTTTACTGTCAAAAAGGGATAGACGTTCAGTAGGAGAAACAGTGCCTGCACAAGGCCTCTATTTGTGTCGTGTGAAGTACTAA MERLKCTLQYDGSHFSGFQIQPGKRTVQGILEKALQKMHKGEPVRIHPSGRTDTGVHAKGQTIHFDSPYNIPMYNWKQALNTLLPDDIYVKQVEVVPNTFHARYDVVEKEYRYYVYHAKEPDVFRRNYAYFFPYALDVASMQVACRYLEGTHDFTTFSSAKATTRGSKQRTLYQVTCEKRGAEIEFIFRGSGFLYNMVRIIVGVILDIGQGRREASDIAVLLSKRDRRSVGETVPAQGLYLCRVKY NA NA NA NA NA AK015_01303 438 rplM COG0102 50S ribosomal protein L13 ATGCGCACAACTTTCATGGCAAATGAAAATAATATCGAACGCAAATGGCTAGTTGTTGATGCAGAAGGCAAACGATTAGGTCGTTTAGCAAGTGAAGTTGCTGCGATCCTTCGTGGAAAGCATAAACCAACTTACACGCCACATGCAGATACAGGTGACCATGTCATCATCATTAACGCAGAGAAAATTGAATTAACTGGTAATAAACTAACAGATAAAAAATACTACCGTCATACAAACCACCCTGGTGGTTTAAAAGAACGTAATGCAGAGGAAATGCGTACAAAATATCCTGAGCGTATGCTAGAGATGGCAGTTAAAGGCATGCTTCCAAACGGTCCTTTAGGTCGCAGAATGGCTAAGAAGCTTCATGTATTCAGAGGCGCTGAACACAATCATCAAGCACAAAAACCAGAAGTTTATGAGCTTCGTGGGTAA MRTTFMANENNIERKWLVVDAEGKRLGRLASEVAAILRGKHKPTYTPHADTGDHVIIINAEKIELTGNKLTDKKYYRHTNHPGGLKERNAEEMRTKYPERMLEMAVKGMLPNGPLGRRMAKKLHVFRGAEHNHQAQKPEVYELRG NA NA NA NA NA AK015_01304 393 rpsI 30S ribosomal protein S9 TTGGCACAAGTACAATACTATGGCACAGGTCGTCGTAAAAAATCAACTGCGCGCGTACGTTTAGTACCTGGTACGGGCAACATTACAATTAACGGTCGTAATGCAGCTGATTATTTCCCATATGAAACACAGTTGTTAATTTTAAACCAACCACTTGTAGCAACAGAAACACAAGGAACATATGACATTATTGTCAACGTTCATGGTGGTGGCTTCACTGGTCAAGCAGGAGCTATTCGTCACGGAGTTGCACGTGCATTGCTAGAAGCTGATCCTGAGTACCGTAGCGCTCTAAAATCAGAGGGTTACCTAACTCGTGATGCTCGTATGAAAGAACGTTATAAATACGGTCTTAAAAAAGCACGTCGTGCACCACAGTTCTCAAAACGTTAA MAQVQYYGTGRRKKSTARVRLVPGTGNITINGRNAADYFPYETQLLILNQPLVATETQGTYDIIVNVHGGGFTGQAGAIRHGVARALLEADPEYRSALKSEGYLTRDARMKERYKYGLKKARRAPQFSKR NA NA NA NA NA AK015_01305 1041 xerC_2 Tyrosine recombinase XerC ATGGCTAGTATAGTAAAAAGAGGAAAATCATATAGAGCACAAGTTTCATTGTACAAACACGGTCAACATAAAAGGATTTCGCAAACTTTTCCAACAAAGAAAGAAGCAAATCTTTGGGCTTTAGAAATGGAATTAGCGAAAGGGGAAGGAAAAGAACTTGCTCACAGAACAACAACATTTGCTGACTTCTTTGAGAATTGGATTTACCTTGTAAAGGTCAATGATGTTAAAGAAACGACATTCCAGAATTATGTTCGTACTTCAGGCATTATTAGAAATTTATTTCAGGATATCCAATTAAAAGATTTGAATGATATTGTTGTTCAGAAGAAAATTGACGAATATGCGAAAACACATTCACGAAAAACAACACATGAAGTGCTTCTTAAAATTAAAACATCTTTACGTGATGCATACGCTCGTGGTTATATTACAAACGATTTTGCTCGTTTAGTGAAAACACGTGGAGAAAACCCACCTAAACGAAACAAAGCTTTATCTATTACAGATTTTAAAAAGCTTCGCAATTACGTTTTACAGCATCCAGAAGATGAATTCAACGTACTTGTATTACTAGCATTAGAAACAGGTATGCGACGTGGAGAACTACTAGCAATACGTCCAGAGAGTCTTTATGAATACGGAATAGAAGTTAGACATTCAATCAGTCCTACTTCTAACGATACTTCCTTAAAGACACAAAATGCAAAACGTGATGTTTCTATAAATAAAGAAGTGTATGAGCTGATTCGTAGGATTCCTGTTAAAGAGAATGGTTATATTTTTAGTTTTGGAGGATTTAAACAATCTGAACAGTTGACTGACCTATTAGAGAAACTTGACATTAATAAAACAACGTTCCACGGTTTAAGAGATACGCATGCATCGTTTTTATTCGCCCAAGATATTGATATTGCATATGTATCAAAACGGTTAGGACATATAAATATACAAACAACTCAAAATTATTATCTGGAATTAATGCCAGAAAAAAAGCACCAGCAAGATGCCGATGCTTTAAATCTGTTAAGTGCGCTATAA MASIVKRGKSYRAQVSLYKHGQHKRISQTFPTKKEANLWALEMELAKGEGKELAHRTTTFADFFENWIYLVKVNDVKETTFQNYVRTSGIIRNLFQDIQLKDLNDIVVQKKIDEYAKTHSRKTTHEVLLKIKTSLRDAYARGYITNDFARLVKTRGENPPKRNKALSITDFKKLRNYVLQHPEDEFNVLVLLALETGMRRGELLAIRPESLYEYGIEVRHSISPTSNDTSLKTQNAKRDVSINKEVYELIRRIPVKENGYIFSFGGFKQSEQLTDLLEKLDINKTTFHGLRDTHASFLFAQDIDIAYVSKRLGHINIQTTQNYYLELMPEKKHQQDADALNLLSAL NA NA NA NA NA AK015_01306 198 hypothetical protein ATGAGCAACAACATGGCTACAAAGGATTATCCATATCTATTAACAAGAGAACAAGCTTCAGACTTCTTAGGTATTGATCCAAAATCCTTTGATAAATACATCCGACCACACGATGAGCTAGAGCGTTTCATGATCGGCAAGCATGAACGATACACAATGAAATCTTTAGTACACTTTATCGAAAAGCACTCCGTTTAA MSNNMATKDYPYLLTREQASDFLGIDPKSFDKYIRPHDELERFMIGKHERYTMKSLVHFIEKHSV NA NA NA NA NA AK015_01307 198 hypothetical protein ATGAATAAGCCAAAAGTAAGAGAAAACATAAAGAATGTGATTGAAATTGTTGACTCAGTTTTACAGGGTGAAAGCACAATCAACAAAAAGACCAGTGATTCGGATTATCAAAAACACAACTATACACCCGAATCTATTTTAGCAAATATTAAAGTTAGTGCCGAAAGTGCATTGAATGCATTAAACGAATATGAATAA MNKPKVRENIKNVIEIVDSVLQGESTINKKTSDSDYQKHNYTPESILANIKVSAESALNALNEYE NA NA NA NA NA AK015_01308 489 hypothetical protein ATGAAGCACATGCGCCATGTAGCTAAAGAAGTAGATGACTGGACACGTGTTGAAGCAGAGTATTCTGGTGATTATGCGCACCAGCTAACAGAAGCAATAAAGCAATGTAGTACGGATGAGCAACTCAAAAATTTAATAGTGAGTTCTATCATTGATCGATACATGTTCTTTTACACGAACTCGAATCGACCACATAAACTCACGAAATTAATGCTCGATTTGTTGGATCAGAAAGACTTCCACTTTGAGTCACCTTCACCACGAAACAACTTATTAGAGCAATCGATAGACCATTTAATTAAGGGGTCTGGTCTTCTTCCAACATTGTGGAAAGCTGAGCAGATATGGGGCAATGGCACAGCACGGGAATTAATAGATTATTTCTATAAACATTTCTATGAAGAGTTCGAACCCAATGATGACCATATATCTTGGGTGAATAAATACAAGGCACTTTATCTGTTAGAAGGTAAACCTTGGGAAGGATGA MKHMRHVAKEVDDWTRVEAEYSGDYAHQLTEAIKQCSTDEQLKNLIVSSIIDRYMFFYTNSNRPHKLTKLMLDLLDQKDFHFESPSPRNNLLEQSIDHLIKGSGLLPTLWKAEQIWGNGTARELIDYFYKHFYEEFEPNDDHISWVNKYKALYLLEGKPWEG NA NA NA NA NA AK015_01309 195 hypothetical protein ATGGCAAGTACTAATAAAAGTTATCTGCAAAAGGTTATTGATGACAATAAAGAAAAACCATACAAAAGAAACAACTCGAAAGTGTCCGATGTGTCCAAAAACTTTCAAGCTCAAACATTGTATATCGGGGCAAAAAGCAGAAATACAAAAGTGCATTTACGCATTTATGATAAGAAAGAGGAACAATTGTCATGA MASTNKSYLQKVIDDNKEKPYKRNNSKVSDVSKNFQAQTLYIGAKSRNTKVHLRIYDKKEEQLS NA NA NA NA NA AK015_01310 492 hypothetical protein ATGATTAAACCAGATATAGACCAATTCACACTAGTATTACAAGCAACAGGCGTATTTGACTTTGACGAATGGCGTGACTGGGTAGCAAAAAGCTTAATAGGCACATTCTTGGTTAAATCAAAAATGCATAAGCTATTCGACGACTTTGATGAAGCAGACATTAAGCTGCCTGAAGGTTATACCGTGGGCTATTCATTCATCAATGCACCATTTTACTTTTGCATTGCCTATCATGAAGCATTCACGAAAATGGGTGTCATAGTCAAATTCAGCGCTTACGCATGGCATGAATATCGGAAGCGATATGAAGAAGAATTTAACGAACCAATTCATTTACACACCTTTTTTAAGTTGATTGATGCTGATGAGTATTCTTTTAGACTTTCACGAATTGATATGTGCTGCGACTTTTTTAATGAAGGCATTGATATCGCTAAATTAAAACGTTCAATTGAAGAGAAAAGGACTGAATTGCGCTATGGCAAGTACTAA MIKPDIDQFTLVLQATGVFDFDEWRDWVAKSLIGTFLVKSKMHKLFDDFDEADIKLPEGYTVGYSFINAPFYFCIAYHEAFTKMGVIVKFSAYAWHEYRKRYEEEFNEPIHLHTFFKLIDADEYSFRLSRIDMCCDFFNEGIDIAKLKRSIEEKRTELRYGKY NA NA NA NA NA AK015_01311 330 hypothetical protein TTGGCGAAAAAGGAACGCGATGAAGTCGACAGCATACTGTCTGACGTTGCATTCATGGGTCGTCAACTAGGGTGTATCTTGTGGGTAGCGACACAACAAATGAATGCTCAAACAATGCCAACAGCGATTAGAGAACAGCTCGTCTTGAAGATTGCTTTAGGTGATAGCGACGAGCAAACCTATAGAACTTTATTTTCATCTAGTGTGGATATACCACCAGTCGAGTTTACTGCTGGTCAAGGAATTTACAGTTATCCAGGGCTTGCAAGTGCTGACAATCCACGCTTGTTGACGGTTCCTTACTGTAGCTTTTTGAATGAAAGCATCTAG MAKKERDEVDSILSDVAFMGRQLGCILWVATQQMNAQTMPTAIREQLVLKIALGDSDEQTYRTLFSSSVDIPPVEFTAGQGIYSYPGLASADNPRLLTVPYCSFLNESI NA NA NA NA NA AK015_01312 975 hypothetical protein ATGAAGAAAACATATCGAATGCAACGGGGGTTCATTTCGTTTCTGACCATTGGGCTGTTTCTCGTTTTATGGTTTTTCTTCTATAAATTGTATCCATTGATTGCAGAACAAATAACGACATTACAGCTTCCACATGTTGAGTCACATATCTTTTTGGCTCCTATTGGTTTGATGGCAATCGGCTTATTCATTGGTTGGTCATTTCGCAATAAACTATGGTTTGGACCACTTTTTTCCGTTCATTACTATTCGATGATAAAACGATTGAGAAGGCATATCAAAGATGCAAGATTTGAAGGTGAACGTGAGTTTGATAATCATTTAGTTAGATTACCAAACATCAAAATTGTATTTGATGATAACCGAGCTAGAAAATCAGGAAAAGTGTTTATTCAAAACTCTATTAAATTCGACAGGAAATTAGAAGACATGAGAATTGATTCAGCGTTAAATGGATATGTATGTGAACGTCAATATTTATCTAGAGATCGTAATTGCTATGTCTTTGAGATTTATGCTGTAGATTCTCAAAAGCAACTTGAGATTAAATCAGCAAATGATTTGATTAAATGGTCAAATAAGACAGCAGACGATTACGCCTTACGCTTAGATGAACGTGCAACCGTTCCGTTTCATCATATGGGACTTTCGGGTCAGACAGGTTCGGGCAAATCATTTTTCATCCAAATGCTGGTTGAACAAGTGTTATCGAAAAAGGCCAATCATGAGTTATTCATTATTGATCCGAAGCGCACGGATGTTTACCAAATGGCCAAACGTACGGTTGGTGATGAGCGCACCGCTGACAAAACAAATGCGATTGAATTGATTAAACAATTTCATGAACGAATGAAAGTACGACAAGATGAGTTGCAAGATTATTTCATATCGAATCGCAACAAAACGTATAAGGACGCAGGTTTTCCCGCTTTAATTCTGCTTATAGATGAGTTTGGGGCTTTAAGAGAGTCATGA MKKTYRMQRGFISFLTIGLFLVLWFFFYKLYPLIAEQITTLQLPHVESHIFLAPIGLMAIGLFIGWSFRNKLWFGPLFSVHYYSMIKRLRRHIKDARFEGEREFDNHLVRLPNIKIVFDDNRARKSGKVFIQNSIKFDRKLEDMRIDSALNGYVCERQYLSRDRNCYVFEIYAVDSQKQLEIKSANDLIKWSNKTADDYALRLDERATVPFHHMGLSGQTGSGKSFFIQMLVEQVLSKKANHELFIIDPKRTDVYQMAKRTVGDERTADKTNAIELIKQFHERMKVRQDELQDYFISNRNKTYKDAGFPALILLIDEFGALRES NA NA NA NA NA AK015_01313 360 hypothetical protein ATGAAGAAACTACGAGAGTTTAATCGGTTTGACTGTGCGGCCTTTTTCAGAGACAAGGACGTACGAGTGATGTCACACGAGGACTGGAAAGAATACGATGCTGACGGAAAAAATCCTAAAGTCATTGGAACTAAGTATAAAACAGTTATTGCAACTGACCGAACAGAATACACAGGGGCAGATGTAGCACCTGATCTTAATGCAGGGGAACAGGTTGTAGTGAAAGTTCCTCAACCACCAAAGGAATATAAAAAGTTCAGTAAAATTATGTTTGTGAATCCGACAGCTTCCGTGTATGGAACGTTCATGAGCGAACTTTCAGTCAAAGCAGATGACGTAGATATTACTCAACCAAAATAA MKKLREFNRFDCAAFFRDKDVRVMSHEDWKEYDADGKNPKVIGTKYKTVIATDRTEYTGADVAPDLNAGEQVVVKVPQPPKEYKKFSKIMFVNPTASVYGTFMSELSVKADDVDITQPK NA NA NA NA NA AK015_01314 780 hypothetical protein GTGATTTTTGCTGTTTTTCAAATACACAGATTCTCTGTTAAAATTTTTGGTTTGTGTTATAATGAGAAAAACGATGGCGAGGTGAGCAAACTTATGAGCAATCAGGATAAAGTAGAGATTCACGAAATTCTTGATATGTTTAATGAAGCAGTAGGTTACAATGGTTTGGATAATACCGGTAAAATAACCAAAATTAGGGATGATGTTATTACACGGTATGTATTTTATAACTGGGTTGATGAATACAACAAAACACATACAAGACCAATTAAAAGTCAGAAAGTTGATCAACGTACTAACGTATGGTTTAGAAATGACATTGAAAAGCTAATTAAAACTACAAAAGTACAAGAAAAACTAAAAAGGGCATATTTAAAAGAAACTACCGATTTATATGGTGAAACTGGAATGTATGGATTACCTAATAGAAGGGTATCGAAGAAGTATAAAGAAAAAATGGATGAAAGAAACAATGAGGGATTTGTTCAAGCAATTAAGAGCAGAATGGAACAATTGATAGATGAGATTATTGAGAATCATTTCACTTTGTTATGTGATAGCAATCAAATCAATGTAAAGACCTACATAAACAAAAAAGAAATTATAAAAGAATTTATTGACTTGGAAAAAGTTGAAGAAGAAGCTTTTAAAATGGAAAATAACTATTATGGGATACCTGAATATGATAGTACAGGTGATATAGTAGCTGTGCATCATCAAGGGAAAATTCCGAAGACAAGTTATTTTTTAAAAGACCCAATAAAACCTAAAACAGTGTAA MIFAVFQIHRFSVKIFGLCYNEKNDGEVSKLMSNQDKVEIHEILDMFNEAVGYNGLDNTGKITKIRDDVITRYVFYNWVDEYNKTHTRPIKSQKVDQRTNVWFRNDIEKLIKTTKVQEKLKRAYLKETTDLYGETGMYGLPNRRVSKKYKEKMDERNNEGFVQAIKSRMEQLIDEIIENHFTLLCDSNQINVKTYINKKEIIKEFIDLEKVEEEAFKMENNYYGIPEYDSTGDIVAVHHQGKIPKTSYFLKDPIKPKTV NA NA NA NA NA AK015_01315 444 hypothetical protein ATGGAAACCATTTTAGAAGTAGTTCGCATTGAACAAATTATCAAAGAGGCAGAAGAAGGTGTTGATTATATCATTCGTAGCCCAGAAGACGGAGCAAAATTAGCGTCTCGCTTTATTGGTCGTGATGATCGTGAAGTGTTTTTTGTTATGTGTTTAAATACAAAGAATAATGTTGTTGCAGTTCATCGTTGTCATGTTGGTTCGTTAAATTCCTCGATTGTACACCCGCGCGAAGTTTTTAAATCAGCAATACTTAATAACGCAGCAAGTGTAATTGTTGCACATCAGCATCCAAGTGGTGATATAACGCCATCGATGGAAGACATTAATGTTACAAAGAGATTAGTCGAAGCTGGAAAGTTACTAGGCATTGAATTGCTTGATCACCTAGTAGTAAATAGTAATAACAGTTTTACTAGCTTGAAAGAAAGAGGCTATATTTAA METILEVVRIEQIIKEAEEGVDYIIRSPEDGAKLASRFIGRDDREVFFVMCLNTKNNVVAVHRCHVGSLNSSIVHPREVFKSAILNNAASVIVAHQHPSGDITPSMEDINVTKRLVEAGKLLGIELLDHLVVNSNNSFTSLKERGYI NA NA NA NA NA AK015_01316 762 hypothetical protein TTGGAAGAGATAGGAATTAAAAGCAAACTCCGTGTACAGAAACATGGAGAAGTATTCACACCAAAGAGAATAGTGAAAAAAATGTTAGATGTACAAGAAATAAAAGAAGCATGTGAAAGTATACTGACAACTTTTTTAGAACCATCTGCTGGGGAAGGAGCTTTCCTCGTTGCTATCCTTGAAAGAAAACTAAATATAGTTGTTAAAAATTATAATGATGACCTAGGGCGTTTTGAGAATTACTCTCTGTTAGCTTTAACCAGCCTTTATGGAATTGAATTATTAGAAGATAATGCTCAGACGTGTGTGTTAAATATGTTTCAAGTGTATTATGATATTTATCAAGAACAAGTTCAATATCATAACGGAAAGTTAAAGAAAAAAGTATTAGATAGTGCTAAAGAAATTATTTCATCTAATATAAGGCAAGGAAACTTTTTAACTAAACAATCAATAGATGGTAATCCATTAGTATTTAGTGAATGGTCCCCAATTAAAATGAGGAAAACAACTAAAAGAATTAAGATACAGAGAACGGAATACACTTTAGATGAAATATATGGAAATGAAGAAAAAGAATCAGGAAAGAGTATTAATAAAGCCATAAATAAAACTATACAGCCATATAAACAATTAGATTTGTTTGATCTATTAGTAGAAGATGATATTGACAGTGAAAATGAAAACCCTAAAGAGATGCGTTATACACCTGTTAATATAATAGATGTTTATAAAGCGGAAATGGAGGAAGCTGATGGATAA MEEIGIKSKLRVQKHGEVFTPKRIVKKMLDVQEIKEACESILTTFLEPSAGEGAFLVAILERKLNIVVKNYNDDLGRFENYSLLALTSLYGIELLEDNAQTCVLNMFQVYYDIYQEQVQYHNGKLKKKVLDSAKEIISSNIRQGNFLTKQSIDGNPLVFSEWSPIKMRKTTKRIKIQRTEYTLDEIYGNEEKESGKSINKAINKTIQPYKQLDLFDLLVEDDIDSENENPKEMRYTPVNIIDVYKAEMEEADG NA NA NA NA NA AK015_01317 4341 hypothetical protein ATGGATAAGACAATAATTAAACCTTTTGATGAAATTGAATATAAAGTCTATGGTTATACTTTACCTGAAGTTCCTAATCATGATGGATATGTCAAAGTCGGAGATACAACAAGAAATGCAGTACAGAGGATATTTGAACAAGTAGGTACGGCTGGTTTAAATCCCGAAGTTTTATTTGAAAAAAAGGCACAGAAATCAGATGGTGAATGGTTTCGAGATAAAGACTTACATAGATTTCTAATCCAAAATGGAATCCAGAAGGAAAACTTTAATGGTCGTGCAGATGAATGGTTCTATTTTAATGGAACACCTGAAAAAGCTGAAAGATTAACTGATAAATTTATCAATCGTGATTATGATGAAATACAAATTGATGACAAACGTTCGGATTATGTATTAAGAAATGAACAACAACAAGCAGTAGAAAAAACATATGAGTATTATCAAAGTAATCAGGAACCAAAAGAGTTTTTGTGGAATGCTAAGCCACGTTTTGGGAAGACATTAACAACCTATGATTTTATAAGAAATTTAAATGCAACCAATGTTTTAATTGTAACCAACAGACCAGCAATCGCGAACTCATGGTTCGACGATTTTAATAGATTTATCGCATGGCAAGAACCGCAAAAGAAGTTTGTTTCCGAAACAGAAGCATTAAATAGAAAAGCTATGTCTAGAAAGCAATATCTTGAATTTATTGATACAACGTCTTATGAAAATCCTTCACAAATTACCTTTATATCGTTACAAGACCTAAAAGGGGCGAAGTTTGCAGGTGGTAATTATGAAAAGCTAGAGTGGGTAGCTGGCTTGGATTGGGATTTGTTAGTAATTGATGAAGCTCATGAAGGTATTGATACAAAAAAGACAGATATAGCATTTAGTCAAATAAAAAGGGGTTTTACGCTACATTTATCTGGTACACCATTTAAAGCGTTAGCTAATAGTAAATTTTCTGAAGAACAAATATTTAATTGGTCGTATGTAGATGAACAAGAAGCTAAAGAAAACTGGGATCCAACAATTGGTAGCAATCCTTACGAAAGTTTACCTACTTTAAATTTATTCACGTATCAAATGAGTAAAATGATAGAAGATGAAGTATCGGCAGGATTAACAATAGAGGAAGAAAAAAATGTTGATTATGCATTTGATTTGAATGAATTTTTTAGAGTGAAAGAAAATGGACAATTCGAGTATGAAGAAAGTGTTGTTCGCTTTTTAGATAATCTATCTTCAGGAGGGTTTCCATTTTCTGAAAATCAATATCGTAATGAACTAAATCATACATTTTGGTTGTTGCCACGTGTGCATGCGGCAAAAGCACTTGAAAAATTGCTAAATGCTCATCCTACATTTAAAGATTATACAGTCGTACTTGCAGCAGGAGATGGAGTTAGCTTACATGATGGCGTAGAAGCAGAAGCACTTGATTTGAAAGAGAATACAAAAAGCTTTGATAAAGTTAGAAACGAAATTGAGCAAAATGATAAGACAATAACACTTTCAGTGGGGCAATTGACGACTGGTGTAACAATTCCAGAGTGGACAGCTGTATTTATGCTAAATAATATTGTTTCTCCTAGTTTATACTTTCAAGCTGCATTTCGGTCACAAAATCCGTATGAATTTGAAAAAGACGGAAAGCTATATCGTAAAGAAAATGCGTATATATTTGATTTTTCACCAGATAGAACATTAAGGCTTTATGATGATTTTGCCACTGGTTTATCAGGTAGTGATGCCAAGACAACAGCAGAAAGAAAAGAGAAAATCACAAAATTATTAAACTTCTTTCCTGTTATTGCTGAAGATGAGCAAGGCACAATGCACGAAATAAATGCCTCTGAAGTTCTGACGATTCCAACACGTATTACCTCAAGAGAAGTGGTAAAAAGAGGATTTATGAGCAATTTACTATTCGCTAATATATCTGGAATTTTTTCAGGGGACTCTCCGTTTAAAGAAATTTTAGATAAAATACCACCAGAGAAAAATAAAAGATTAGAGAAACCCCGCGAGGTGTCTGTCACTGATCCGCATTTAAATGGCGATGGAGAAGTAGAGGTACCAAAGGAAGTGGTATTAGGTAAATCAAAAGAACTTTTTGGAGAAAAAATTTATAAATCAATCGAAGTGGTTGATGAGTTTATATCTTCCTTTGACGAAGCTGAGGAAAAACAAAAAGAGTCCATTAGAAAATTAGCGGAAGATATAACAACATCAATTTCAGATGGTTTTAATAACTTAAAAGATTCCTACAAGCTAAATAAAGGACAGACAAATAAATTAAAGGATTCAGTAAATGATTCTATTGAAAGTGTTATAACTGAGAAAAGTTTGACGCTCAGTAATCAAGTTAAAGAATTAGAAGAAGAATATGAAAAGAAAAAGCAAGATGCAGAAATGAGAAAAGACGAAACAGAATTAAAAGTAGTGACTCAGCAATATAAAGAAGCAAAAGAAAAGGTGGAAAAGGTTTTTGCCGATGAAATTAATAAAGAAGTAGAAAAAACAATCAACACCGTTGTCGAAGAACAAATAGAAAAAGTAGAAGAAAAGAAGAAGAAAACAACAGAAGATGATGTACGTGATCATTTAAGAGGTTTCGCACGTACAATTCCTGCGTTCTTAATGGCATATGGCGACGATCAGACTAGTTTAGAAAACTTTGAAAAGAATATAGATGAAGCTACCTTCGAAGATCTTACAAGTATCACAATAGAAGAATTCAAGAAGCTTCGGGATGGTTTCGAATATAAGGACGATAAAGGCAATATAAAAATCATTCATGGTTTATTCAATGAGGTAGTTTTTAATGCCAGTATCCGAGAGTTCTTAGATACTAAAGAACGTTTAGCAAATTACTTTGATGATAGTTTGAGTGAAGATATTTTTGATTATATTCCTCCACAGAAAACAAATCAGATATTTACACCAAAACGTATAGTAAAATCGATGATAGATATTTTAGAAAATGAAAATCCGGGGATTTTTTCTGATAAGACTAAGAAGTTTGCTGACTTATATGTGAAAAGTGGCTTATACCTTACAGAAATAGTCAAGAAATTAAATGATGGTTTGAAGAATCAAATTCCAAATCAACAAGAACGAATCAAGTGGATACTTGAAAATCAAGTATATGCTTGTGCGCCTAGTAATATTATTTATAACATCGTTAAAAACTTCATCTATAATGATATGGTGAATGTGTCAACAAAAAATCTTATCGAGTTTGACACAATGAAATCAGCAAGTGAAGAAAAACTAAGTAGAGAAATTTATAACAAATTTGGAGATGATAAATTGAGGTTCGATGTAATAATAGGGAATCCACCTTATCAAGATGAAACCATTGGAGATAATAAAACTTATGCACCACCAATTTATCATAAATTTTTAGAGGAATCATATAAATTAGCTGACAAGGTAGAAATGATTCATCCTAGTCGTTTCTTGTTTAATGCTGGAAGTACACCAAAAGCATGGAATAAGAAGATGTTATCTGATGAAAATCTTAAAGTTGTTAAGTATTTCGATGATAGTTCAAAGGTCTTTCCAAATACTGATATTAAAGGCGGAATTGCAATAACATATCGAGATAAAGAAAGGAAGTTTGGAGCAATTGGAACTTTCGTTGTACACGAAGAATTAAATAACATTTTAAAGAAAGTGAAAAATGATAATTTCAACGCCTTTAGTGAATTAGTTTATGCACCCGAGAGTTATAAGTTTACAGAAGCAATTCATGAAGACCATAAAAATGTAAAAGGACTATTGAGTAAAGGTCATGAGTATGCAGTAATGACAAATATTTTTGGTAAGCTACCTTTTATTTTTTTAAATTCAAAACCGAATGATTCTGAGGAATACTATAGATTTTTTGGAAGAGAAAATAATGAACGTGTCTATAAATGGGTAAAGGCTAAATATATTGAATCTCATCCCAATTTATTAAAGTACAAAGTACTCCTTGCTAAGTCAAATGGTAGTGGTTCATTTGGGGAAAGCCTTACTGAACCTGTTATAGCATCGCCATTTGAGGGACATACCCAAACATTTATTAGTATTGGAAAATTTGATACTCAATATGAAGCGACTGCAGTGGCAAAGTATATTAAAACAAAATTTTTACGGGCATTGCTGGGAACACTAAAAGTTACTCAAGATAATAAAAAAGCTTCTTGGTCAAATATTCCTTTCCAGGATTTCACTAATGATTCCGATATTGATTGGTTAAAGTCAATATCTGAAATCGATCAGCAGTTATACAAAAAATATAATTTGAGTGAGAATGAAATAAAATTTATCGAAGAAAATGTAAAAGCCATGGAATGA MDKTIIKPFDEIEYKVYGYTLPEVPNHDGYVKVGDTTRNAVQRIFEQVGTAGLNPEVLFEKKAQKSDGEWFRDKDLHRFLIQNGIQKENFNGRADEWFYFNGTPEKAERLTDKFINRDYDEIQIDDKRSDYVLRNEQQQAVEKTYEYYQSNQEPKEFLWNAKPRFGKTLTTYDFIRNLNATNVLIVTNRPAIANSWFDDFNRFIAWQEPQKKFVSETEALNRKAMSRKQYLEFIDTTSYENPSQITFISLQDLKGAKFAGGNYEKLEWVAGLDWDLLVIDEAHEGIDTKKTDIAFSQIKRGFTLHLSGTPFKALANSKFSEEQIFNWSYVDEQEAKENWDPTIGSNPYESLPTLNLFTYQMSKMIEDEVSAGLTIEEEKNVDYAFDLNEFFRVKENGQFEYEESVVRFLDNLSSGGFPFSENQYRNELNHTFWLLPRVHAAKALEKLLNAHPTFKDYTVVLAAGDGVSLHDGVEAEALDLKENTKSFDKVRNEIEQNDKTITLSVGQLTTGVTIPEWTAVFMLNNIVSPSLYFQAAFRSQNPYEFEKDGKLYRKENAYIFDFSPDRTLRLYDDFATGLSGSDAKTTAERKEKITKLLNFFPVIAEDEQGTMHEINASEVLTIPTRITSREVVKRGFMSNLLFANISGIFSGDSPFKEILDKIPPEKNKRLEKPREVSVTDPHLNGDGEVEVPKEVVLGKSKELFGEKIYKSIEVVDEFISSFDEAEEKQKESIRKLAEDITTSISDGFNNLKDSYKLNKGQTNKLKDSVNDSIESVITEKSLTLSNQVKELEEEYEKKKQDAEMRKDETELKVVTQQYKEAKEKVEKVFADEINKEVEKTINTVVEEQIEKVEEKKKKTTEDDVRDHLRGFARTIPAFLMAYGDDQTSLENFEKNIDEATFEDLTSITIEEFKKLRDGFEYKDDKGNIKIIHGLFNEVVFNASIREFLDTKERLANYFDDSLSEDIFDYIPPQKTNQIFTPKRIVKSMIDILENENPGIFSDKTKKFADLYVKSGLYLTEIVKKLNDGLKNQIPNQQERIKWILENQVYACAPSNIIYNIVKNFIYNDMVNVSTKNLIEFDTMKSASEEKLSREIYNKFGDDKLRFDVIIGNPPYQDETIGDNKTYAPPIYHKFLEESYKLADKVEMIHPSRFLFNAGSTPKAWNKKMLSDENLKVVKYFDDSSKVFPNTDIKGGIAITYRDKERKFGAIGTFVVHEELNNILKKVKNDNFNAFSELVYAPESYKFTEAIHEDHKNVKGLLSKGHEYAVMTNIFGKLPFIFLNSKPNDSEEYYRFFGRENNERVYKWVKAKYIESHPNLLKYKVLLAKSNGSGSFGESLTEPVIASPFEGHTQTFISIGKFDTQYEATAVAKYIKTKFLRALLGTLKVTQDNKKASWSNIPFQDFTNDSDIDWLKSISEIDQQLYKKYNLSENEIKFIEENVKAME PGPT0027185_2 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027185-EC_3_1_21_4-K01155 NA NA AK015_01318 387 hypothetical protein ATGAAAATGGACATGATTAAGCGTAATCCGATGGAATATGTCACGTTACCCAAACTAAAACATGAGATGGAATATGATGTAGAGCTGGAAGAAAGGAAGCGTTACTATACCCGTGAAGAGCTTAGAACCTTTTTAGAGGTGATTCAGGAGGATGACATGGCTTATACCATGCTACGGCTGCTCGCCTTCACAGGAGCACGCAAGGGAGAACTATATGCCCTGCATTGGTCGGACGTGGACTTCTACAGTAAGTCGATCAGCTTGAAAAAGACATTGATTTACACTGGTGGAAAAAAACAGCTTCAGACATCAAAAACAAAGGCCTCCTGGCGTGTCATTAGCGTTGACGATGAACCCCCCCCTGACAATCTTAAAGAAATAGCGTAG MKMDMIKRNPMEYVTLPKLKHEMEYDVELEERKRYYTREELRTFLEVIQEDDMAYTMLRLLAFTGARKGELYALHWSDVDFYSKSISLKKTLIYTGGKKQLQTSKTKASWRVISVDDEPPPDNLKEIA NA NA NA NA NA AK015_01319 384 hypothetical protein ATGGCAAACATTAAAAAGTACACAAAGAAAGACGGTACCACCGCTTATATGTTTAATGCTTATCTCGGCAAGGATCCCCTCACTGGCAAAAAGAAACGAACCACACGCCGAGGTTTCAAGACAAAAAAAGATGCAAATATTGCGTTATCTAAAATATTGGATGAAGTCGATGAACTCGGGCTCCGCCAAAATGATCAGCTGACCTTCCAGGAAGTTTTTGAAGAATGGTTTAAGCAACATCGTAGAGAAGTAAAACCAACTACGGTGTATGCGATGGAGAGTAAATTCAACCGTAGAATCCTCCCGGTCTTCGGTCCTTACAAAATGAAAGACATAACCCGATCGTTGCCAAAAAGCTATCAACGGTTGGGCCAAGGAGCTTAA MANIKKYTKKDGTTAYMFNAYLGKDPLTGKKKRTTRRGFKTKKDANIALSKILDEVDELGLRQNDQLTFQEVFEEWFKQHRREVKPTTVYAMESKFNRRILPVFGPYKMKDITRSLPKSYQRLGQGA NA NA NA NA NA AK015_01320 279 hypothetical protein TTGGAGCCGGAAATAGTAATTCAACTTGTTAATTCTTCAAAGAAGCAATACCCTATAAAACTGATATGTGAGTGTATAGGAGTGCCAAGAGCTACCTATTATAGTTGGGTTCAAAAATCCTGGGAACCAACAGAGTTAGAACAACTTATTATCGATATATGTCAAAAAATTCTTGTAAATCGAAATACGGTTCAACGAATCATGCAAAAGTATAAGATTCAATGTCGAGTCAAACCAAAAAGAAAATCAAAGATCGCTGGCGAAGGTAATGTGTTGTAA MEPEIVIQLVNSSKKQYPIKLICECIGVPRATYYSWVQKSWEPTELEQLIIDICQKILVNRNTVQRIMQKYKIQCRVKPKRKSKIAGEGNVL NA NA NA NA NA AK015_01321 189 hypothetical protein ATGAAGTGGTATCGTGACGGGGAAGAACATCGATTGTCACAACCTATTGGTAAGCAATATTCCTTTGGTAAAGATCCTGAAGAATTAAGTGAAATAGATCAATTAAAAAGGCAAGTCAACCATTTGGAAATTAAAAATCAAATTTTAAAAAAGTACCGGGAAATCGAAAGGAGTTGGAGCCGGAAATAG MKWYRDGEEHRLSQPIGKQYSFGKDPEELSEIDQLKRQVNHLEIKNQILKKYREIERSWSRK NA NA NA NA NA AK015_01322 138 hypothetical protein ATGGGGGAAAAGAAAAATATCTATTCTGAAGAAGTAAAACGTAAGGTCATTGAAATGAAGTTATCAAAAAAGTACATCAATAAACATATTATGAATAAACTGGGGATTCGTAACGTAACTAAATCAAAGTATGGATGA MGEKKNIYSEEVKRKVIEMKLSKKYINKHIMNKLGIRNVTKSKYG NA NA NA NA NA AK015_01323 1221 hypothetical protein ATGGGAAAAATCGTATTTCTCGAAAGTAACGTTTCAGGTTTCGAAGCCATAATCAAGGCCAAGAGAAAAGGGAATCATGTTATTTTTATGACTTCCGACTTGAAGCATTACAAAAAAAAATTTGCCTTAAAAGTTTTGAAAGAGGTAGATGAGATTATAGAAATTGATTCAAGTATTGATGTTCTAGATATATTAGATGAAATTAGGAGAATAGGAAAAATAGATGCCTTTCTTACCTTCAACGATATGCACACAAGCATTGCGGCACAGGTGGCAAGGGCTTTAAAATTACCAGGAATCGATCCAATTGCTGTCACAAATGCTAAGAATAAAGCAAAAAGTAGGGAGATTTTTAAAGAAAAAAATGTTCCCTCTATTCACTATACATATCTATTAGAGCATGAACTTCCTGAAATTAAAATTAATTATCCAGTAGTGATTAAGCCGACGGATGGAACGGCTAGTCGCTTTGTAAAGCTGCTCAATCATCAGGATGATTTAAGTCAATACTATGATGAAATAAAAGAAGTTGATTCCTATGGAAGAAGTATAAAACGAGAAAAGGAATTCTTGATTGAAGAGTATGTCGCTGGAGATGTAGTGAGTGTAGAAATCCTTTGCTATGAAGGATTGTATCACGTACTAGGAATTACAGGAAGAGATATTTCAGGGAGCCCTTTCTTTGTGGAGACGGGCTTCTATTTCCCTCTAGAGAGAGAGGATGCTGATAAAATTATTGATGCAGCATTAAAAGCTGTAAAGGCCTTGGCACTTGATTTTGGATTCTGCCATGTGGAATTAATTTTATCCAAAGACGGACCTGTGATTATTGAAGTTAATCCTAGGCTCGCTGGTGCGGTGATCCCTAAGTTAATGCACATTTCCACAGGTCAAGACCCTTTAGACCTAATATTGGAGCTATATTTAGGTAAACCAATTGATATTCAAGCAGAAAGAAAAAAGCAATTGATCTGCGCCCATTATTTTTATTCTAACCAAACAGGGAAACTACAAAACATAGATCACTTAGATGAGGTGAGGAAGCTTGACTATTGCATTCAGATTTCTATTTTGAAAGAAATGGAAACACATATTAATGGATTTTCTTCTAATTTTGACTTGATTGGTAATGTTATTTATGAAGCGGATAGTGTTGAAGAGGCAAAGAGAAAGAAAGATAAAATAGAGCAAACTATACAAATAGTAGTATTTAATGAATAA MGKIVFLESNVSGFEAIIKAKRKGNHVIFMTSDLKHYKKKFALKVLKEVDEIIEIDSSIDVLDILDEIRRIGKIDAFLTFNDMHTSIAAQVARALKLPGIDPIAVTNAKNKAKSREIFKEKNVPSIHYTYLLEHELPEIKINYPVVIKPTDGTASRFVKLLNHQDDLSQYYDEIKEVDSYGRSIKREKEFLIEEYVAGDVVSVEILCYEGLYHVLGITGRDISGSPFFVETGFYFPLEREDADKIIDAALKAVKALALDFGFCHVELILSKDGPVIIEVNPRLAGAVIPKLMHISTGQDPLDLILELYLGKPIDIQAERKKQLICAHYFYSNQTGKLQNIDHLDEVRKLDYCIQISILKEMETHINGFSSNFDLIGNVIYEADSVEEAKRKKDKIEQTIQIVVFNE NA NA NA NA NA AK015_01324 1197 hypothetical protein ATGAATATATTGATTGTAGGTGGAGTAACTGAAGCACAAGAATATTTATGTGAACAAGGGTATAACCTGCATTTAATTACGAATAGATTAGAGATGCAATTTGGACCTAGCGCAATTAATGCATGTAGTCAAGCGTTTATTTGTGATTTTACAGAAGAACATCATTTTGAGGAATTGTACCAGTTTGTGAGACAAATTCATTCCTTATATCAATATGAGTATATCCTTTCCTTTAATGATAGGGGTTTAAAGGCGGCAGCTTATTTATCAGATAAGTTAATAGTGAAAGGTTTTAATTGGCATGCTGTGAAAAGTACACAAAATAAACTTCTTTTTAGACAAGCGATGCAAAAACTCCCTGAATATAATATACCTTTTGTTGAATTAGATAGCTATAAATCACTATTTAAATTTTGGCATACTCATCAGAAAATCGTATTAAAACCTTCAGTGGGTAGTGGAAGTAAGGGGGTTATATACATAGAAAAAGAAGTTGATTTAGAACAAGGCTATATGTATACCAAAAGTCTTAGTGGTATCCATCCGCTTTTTGCAGAAGCATATGTCGAAGGAAGGGAATATAGTGTTGAGACATACACAAGTGATGGCCAACATTCATTATTAGCCATTACAGATAAAACCAATACAGGAAAGCCTCACTATGTTGGTTTATTTCATTGTCTGCCAAGTAAAGCGGATGACTCTACGCAAGACATAATTAAAAAAGCGGTGTTTGACTGCTTGGATAGTTTGGATTGGGATTTTGGAACAACCCATATCGAGGTGAAAGTACATGAAAATACAGTAAAGATCATAGAAATACAACTTAGACCTGGTGGGAATTTCAACAAACTTATTCATGCCGCAACGGGAATAAATATTTACGAGCTATTCCATTTAACCATGCAACAAAAGATTAGACTCCCCGTTTCCCCAAAATATAATAAAGCGGCTGTGATGTTATTTTTTAAGGGGCAGACTGGGGTGATTCAGTCTATAGAGAATACTCATCTTCTTGAACAAAAGGATGTGGTTGATTATAAAATTCGTGTTAAAGTAGGCGATCGCATAAAAAAAGATTGGAAAAGCACTTTAGACCGACCCGGATATGCAATTTGTGGAGGAAAAAGCTATGAAGATGCAATGCAGCTAGCTCAGGAATTATCAAAAAATATAAAATTCAATACATATGAATAA MNILIVGGVTEAQEYLCEQGYNLHLITNRLEMQFGPSAINACSQAFICDFTEEHHFEELYQFVRQIHSLYQYEYILSFNDRGLKAAAYLSDKLIVKGFNWHAVKSTQNKLLFRQAMQKLPEYNIPFVELDSYKSLFKFWHTHQKIVLKPSVGSGSKGVIYIEKEVDLEQGYMYTKSLSGIHPLFAEAYVEGREYSVETYTSDGQHSLLAITDKTNTGKPHYVGLFHCLPSKADDSTQDIIKKAVFDCLDSLDWDFGTTHIEVKVHENTVKIIEIQLRPGGNFNKLIHAATGINIYELFHLTMQQKIRLPVSPKYNKAAVMLFFKGQTGVIQSIENTHLLEQKDVVDYKIRVKVGDRIKKDWKSTLDRPGYAICGGKSYEDAMQLAQELSKNIKFNTYE NA NA NA NA NA AK015_01325 969 cysK_1 Cysteine synthase GTGAAAACGACTAATATAAATATTGACAAGGTATTAGAACAATTTAAGGAACAAACTGGTAATACCTCCATATTCCATTTGCCATTTCCAAATGGAAGCAATGTTTTTGCGAAATGTGAATGGACAAATCCAACTGGATCAATAAAAGATAGAACAGCATATGGCTTAATAAAAGATGCAAGAGATAATGGGAAATTTAATAATGATAGTAAAGTCTTAGAGTATAGTGGAGGAAATCTAGGTAAATCTCTTTCTGAAATTTGTTTTAGAGCAGGAATTGAGCTTTATATTGTTTTTAGTCCGGGTTCAAGTAAAACTTATAAAAAAAGTTTGATTGATTTTTTAAATAAGAGAAAGGCTAACCTAATTCCTGTTAAACGACCAGATGGGTTTTACGGAGTCATGCAACACACAATCAATCTAAGCAAAGAAAACCCTGCATACACCTTCTTATATCAGCATATAAACGAGTCTAATTTTAACATTCATCGAGATTGGACAGGAGCTGAAATCATAGAACAACTGAAAGGGTATGAGCTACATGCTTGGGTTGCAGCGATTGGAAGCGGAGGAACATTGATGGGGGTTTATGAAAAGCTTCAACAGAATTTTCCGGACATAGAATTACACCCTGTTTCTCCTGCTGAACAGCCTTATGGAACGCCAGAAAAGCCCAACACGTTAACAAAGCTAGCGGGTACTAGTGGATTAGGGTATGGTGTAAAGCAAAAGTTTGTACAACGAAAAGAGCATTTATTTAAGCACCATTGGAAAATAACATACGCTGAAGCATTAAAAGAAATGGAAAGGTTCTATAAAGAAACTAATATCAAGATCGGCTCCTCAGCTGCTGCAAATCTCATGGTTGCAAGAGAGATTGCTGGAAATAATGAAAATTACAATGTTGCTACTGTTTTTTCTGACAAAGGGAGCGAGGAAGAATGGGATGTGATAGAGAATGGACTATAA MKTTNINIDKVLEQFKEQTGNTSIFHLPFPNGSNVFAKCEWTNPTGSIKDRTAYGLIKDARDNGKFNNDSKVLEYSGGNLGKSLSEICFRAGIELYIVFSPGSSKTYKKSLIDFLNKRKANLIPVKRPDGFYGVMQHTINLSKENPAYTFLYQHINESNFNIHRDWTGAEIIEQLKGYELHAWVAAIGSGGTLMGVYEKLQQNFPDIELHPVSPAEQPYGTPEKPNTLTKLAGTSGLGYGVKQKFVQRKEHLFKHHWKITYAEALKEMERFYKETNIKIGSSAAANLMVAREIAGNNENYNVATVFSDKGSEEEWDVIENGL PGPT0002810_4882 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 AK015_01326 642 hypothetical protein ATGGACTATAATGTGATCCTTGAACAAAGTTTTGAAAAAAGCTATAAAGAAGGGTTAGATTTATGGACGAAAGACGAATTCTTAAACCGCCATGTCAAGCAATATGCGCAATCACTTGGGGGCGAAATTCGAAGAAAAATATTAGATATAGGAACAGGTAAAGCTCAGAATTCACCTTTTTTCTTAAAAACAGGTCATGAATTTACAGGTATTGATATAGCCGGACAAAAAGAGTGGGAAGTGATAAAAAACAACTTTCCTGATAAAGCATCTTTCTTCAAAGTTAACTTTTTAGAATGGGAAGGACGTGATGAGGAGTTTACAGATATTTTAGATGTTGGCTGTTTACATCATCAAGATTATGAAAAAATTCCAGAATATATTAGAAAAGTTAGTAAAATGCTTTCGAAGGGCGGAAAGTTCTTTCTGATTGTATCTACCTTTGAGGAAAGTAATTTGAACCAGAGGTTCCATCAGGTCGAAAAGTTGCCAAGCGGTAAAATTAGAAACATGTTTAACACCTGTGAGATTCAATATTTATTAAGAGAAGCGTTTGATATAGAAAGTATGCAAAGAATTCATAACATCAAGCGAAACCGATACTTACTAGAAATCATTGCAAAAAAGAGGTGTTTGGATTGA MDYNVILEQSFEKSYKEGLDLWTKDEFLNRHVKQYAQSLGGEIRRKILDIGTGKAQNSPFFLKTGHEFTGIDIAGQKEWEVIKNNFPDKASFFKVNFLEWEGRDEEFTDILDVGCLHHQDYEKIPEYIRKVSKMLSKGGKFFLIVSTFEESNLNQRFHQVEKLPSGKIRNMFNTCEIQYLLREAFDIESMQRIHNIKRNRYLLEIIAKKRCLD NA NA NA NA NA AK015_01327 552 azr_1 COG0431 FMN-dependent NADPH-azoreductase TTGAAGATTATGATTATTAATGGTAGTCCCAGACAACATTCTAGAACAGAGATTATATGTCAGACAGTCAAAGAAATCTTTGCAAATATGAATGAAAAAGTAGAAACAGATGATATTGCTTTAAATCAATATATTCTTCCATTATTTGATGGTAAAGAGTCCACCAAACAAAGTGAAAAAGTTCAACATTTTATAGATAGATGTATTGAAGCGGACGCATTTTTGATTTGTACACCAGAGTACCATAATGGCATTAGTGGTTCTTTAAAAAATGCATTAGATTTCTTAAATAAAGTGCACTTTTATCAAAAGCCTATTGGTATTTTATGCGCGTCCGGTTTTGAGAATACAGGCCTAAATGCATTAAACCAGTTAAGACTTATTTGTCGAGGGTTAAGTGGGTTAGTACTAACAAGCCAGGTCGTAGTCAGTCCAGAAAAAATCAATGATTATAATAAAATTAATCACGAAGGTGTGCTTACAAACATTGAAAGCATGATACAGGAGTTAATTCCTTTAGCAGAGTTTCTAAAGAAAAGGAGGAAAGAGTGA MKIMIINGSPRQHSRTEIICQTVKEIFANMNEKVETDDIALNQYILPLFDGKESTKQSEKVQHFIDRCIEADAFLICTPEYHNGISGSLKNALDFLNKVHFYQKPIGILCASGFENTGLNALNQLRLICRGLSGLVLTSQVVVSPEKINDYNKINHEGVLTNIESMIQELIPLAEFLKKRRKE PGPT0006791_68 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006791-azr|azoB-K03206 NA NA AK015_01328 1065 egtB Hercynine oxygenase ATGTTTAGATATATTCAGCAGATCAAGTTTTGTAAGATATCTGCAGGCCATTTTAACTTTGGACATGAATGGAATAAAAGAGAATTCATTGAAGAAGCGGATAGATATAAAATTCCAGTTGAATGGCTGGCAAAAGAGGTACCAGTAAATCGAATATTTTTAGATAGTTTTGATATTTCCGAAACGCAAATAACAGTTGGGATGATGAGTGAATTTTACAAGGATAATCCAAAATTTATCGCTCCTAAAGAGTTACAGTTTAACATTGACAAACATTACATGGAACTTCCTGCATACCCAATCAGTTATGAAACGGCCCTAGCATTCTGTTCATGGTTATCATTCATATTAGATGAGGTGATTGATTTACCGACTGAACCAGAGTGGGAAAAGAGTGCCAAGGGAATGAAGAATAATATGTTCCCTTGGGGAAATGAAGAAAATCATGAAATTCCCAATATCAGAGTGGGTAGAACTCCTTCTACACCCCAAAATGTGAAGTCCCATCCTCACAATATGTCAGGCTATGGGGTATATGATCTAGCAGGTAATGTAGAAGAATGGACGAGAAGCTTCAATAAGCCATACAAAAATAATAACATCATATATTCTCAACTATTAAATTATCCTATACTAAGGGGAGGTACTTGTGAGCACGGTATTGATTTAGGCAGAAGTACGCGAAGGCACGGCAATCATCCTAGCTTATATACAGGGTTTAGAGTAGTGAAAAGAAGCAGCCTCAATAACTTGACTTCGCATATGTATGAGCTGAATCGTGATCTTAAATCTTTAGAAAGAGGAGATTTAATCTTGGGGAAAATTTCCTCAATAGGGGAAGATCATGTCTTGGTACATTTAGTCAATGACTTTTATACAAAAGTTAGCTTGAATGCTATACCAACCAATGTGATCGAACTGTTTGGAAGCTTCAAAAACAAGGATTCTGAAATATTACTGAAGCTGGAAAAGATAGAGGGTGAAACCTATCATTGTATCAAACCAACAGTGGAAGATATAGATGAATTTTTTACTTCTAATCATGTGAGCGGGGTCAGACCTTAA MFRYIQQIKFCKISAGHFNFGHEWNKREFIEEADRYKIPVEWLAKEVPVNRIFLDSFDISETQITVGMMSEFYKDNPKFIAPKELQFNIDKHYMELPAYPISYETALAFCSWLSFILDEVIDLPTEPEWEKSAKGMKNNMFPWGNEENHEIPNIRVGRTPSTPQNVKSHPHNMSGYGVYDLAGNVEEWTRSFNKPYKNNNIIYSQLLNYPILRGGTCEHGIDLGRSTRRHGNHPSLYTGFRVVKRSSLNNLTSHMYELNRDLKSLERGDLILGKISSIGEDHVLVHLVNDFYTKVSLNAIPTNVIELFGSFKNKDSEILLKLEKIEGETYHCIKPTVEDIDEFFTSNHVSGVRP NA NA NA NA NA AK015_01329 1272 mdrP_2 Na(+), Li(+), K(+)/H(+) antiporter ATGCTAAAGGAATTGAGCCGGGGGATCATAATAAGGATTGGGATTATCTTTTTAAGTAGGGTAGTAGGTCTTATTGTATTCCCCTTTATGGCAGTCCATTATTCAATTGTTTTTGGATCGGTTCTTGCTACAATCCTATTGGTTACTAACGTGATCGTACAGTTGTCTACAAATTTATATGGCGGATATCTAACTGATTTGATAGGCAGGAGGAAGATCATACTTAGTGGAGAGTTCATTAAAACAATATCTTTTATCGGACTAGTCATCTCTAATTCTCCCTTTTTTGTTTCACATCAATTAACATTTATATTCATATTGCTGATTATTGCTTGCCAAGGATTGATGACTCCAGCAGTAGAGGCTTCATTATTAGATATAAGTAATGAGAAACAAAGACCGGTTATGTATTCGCTAAACTATTGGATCATGAATTTCGCCATCATGTTTGGCATTTTGATAGGTGGATGGTTCTTCTTGACCAATATTTTTGAATTAATGGTAGGCTTAGCCATTGCTTCTATACTGACCCTATTGTTAACATACATTTTCATTAAAGAGAGTTATGAACCTGTTCACAAAAATTACAAGGCATTTAATATGTTAAGTATTTTTAAGCAATATAGTCCAGTTGTGAGAGATAAGCCGTTTCTACTATTTACCTTAGGTGGAATATCTATAATAGCAATAGATTTTCAGAGAAATAACTATATTGCAGTGAGATTAACAGAAGAAATGCCCATCATGAATGTTGAGCTGTTTAATATGCTTAGCGTGACATTAGACGGCTTAAGGATAAACAGTTTATTAACCGTTTTAAATACTATATTAATTATCCTACTAGGTAGTTTAATAATGAAAATAGTCAAAAATAGATTGAGTCATGCTTACTTATATATTGGCTTTATGTTATTTGCATTTGGATTTTCGTTTTTAAGTGCAACGAATAACATATTATTATTAGTGATTGGTGTATTAACCTTAACAATAGGTGAGCTTATTTATGTTCCGATTAGACAGACGATTTTGGCTAAGGTGATTAGTGAAGAGAATCGTGGGACGTACTTAGCTTTTAACGGCTTGATTAATCATTCATCTCGATTAATTGCGTCAATGATGTTACCTTTGGGAGTCTTTGTAGGAGGGAAGGTTATGGCTCTCATTATATTAATTTTTGGGGGGTTGGCAATTTTATTCAGTTATATAGCGCTCAAAAAATATAAGGATATGAATATAAGTACAGTTGATCAAACTAAGGAAAATTTATCTTAG MLKELSRGIIIRIGIIFLSRVVGLIVFPFMAVHYSIVFGSVLATILLVTNVIVQLSTNLYGGYLTDLIGRRKIILSGEFIKTISFIGLVISNSPFFVSHQLTFIFILLIIACQGLMTPAVEASLLDISNEKQRPVMYSLNYWIMNFAIMFGILIGGWFFLTNIFELMVGLAIASILTLLLTYIFIKESYEPVHKNYKAFNMLSIFKQYSPVVRDKPFLLFTLGGISIIAIDFQRNNYIAVRLTEEMPIMNVELFNMLSVTLDGLRINSLLTVLNTILIILLGSLIMKIVKNRLSHAYLYIGFMLFAFGFSFLSATNNILLLVIGVLTLTIGELIYVPIRQTILAKVISEENRGTYLAFNGLINHSSRLIASMMLPLGVFVGGKVMALIILIFGGLAILFSYIALKKYKDMNISTVDQTKENLS PGPT0028575_193 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028575-lmrP-K08152 NA NA AK015_01330 732 ribA_1 GTP cyclohydrolase-2 ATGATTATAAAAAGTAAATATTATGACACTATACTTTCAAATCTAAAAATCATAGAAATGAGTCATGCAGATGAATACCTATACTTATTTGGCCCTGTTGATTTGCCGATAGATATAGAAGGTGAAGTGGTTACTTTTCAGTGGTATACATGGTTTAAGCATAGTATCAAATGGAGTATGGAAGAGCTAATAAAGAACTTACCATTCTTGAAGCAAAATGAGAATCAACAAAGCTCGATTTTAGTATATGGGGATATAGAGAATGATCCAAATACTAAAGTTAGGTTTCACAGTATATGTCATACTGGAGACATTTTTAACAGCAAAAAATGCGACTGTGGACTGCAATTAAAGAGCTCATTAAAAACAATTTATGAAAATAAATCTGGCGCATTGTTTTATATAGCCAGTCATGAGGGAAGGGGCATCGGCTTATTTAGTAAGGCCATAGCTTATTCCCTCCAAGAAGAGGGGTTGGATACCGTAGAAGCAAATCTAGCCATTGGGCATGAGGTAGATACTAGAAAATATGATGAATCAGTGGAAATTCTTAAGTTTTTTAGAACGAAGCCCATCGTTCTTTTGACAAATAATCCTACAAAAATTGAATATCTTATGAATCGTGGTATAGAGATTCTCTCAACTGAGGGGATCCTTGTTGACTACAATGAGTATAATGAAAAGTATATCAAAGCAAAAGTGGATAGAATGAATCACATTATCAATATATAG MIIKSKYYDTILSNLKIIEMSHADEYLYLFGPVDLPIDIEGEVVTFQWYTWFKHSIKWSMEELIKNLPFLKQNENQQSSILVYGDIENDPNTKVRFHSICHTGDIFNSKKCDCGLQLKSSLKTIYENKSGALFYIASHEGRGIGLFSKAIAYSLQEEGLDTVEANLAIGHEVDTRKYDESVEILKFFRTKPIVLLTNNPTKIEYLMNRGIEILSTEGILVDYNEYNEKYIKAKVDRMNHIINI PGPT0007985_650 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497 NA NA AK015_01331 1761 hypothetical protein ATGCATACTGGACCTTTAAGAGCTTTGGTTATGGATAATAAAGGAGAGCACGTCTATACGGGTGGATACGATAAAAAGTTATTTAAGTGGGACTTTCAAACAGGGGAGTTTAAAAAACTAACAAAGCATAACCATTTGATAACTAGTTTAGCAATTAGTAGTGACTCTAAGTATCTAATTTCAGGATCTGCTGACTACAGCATTAGGCTATTTGATTTAGAAACAGATGAGCATGTTCAGACATACTTAGGGCATACAGATGATGTTGAATTTGTTACTTTTACTTCGGATGATAAATATATCATTTCAACGTCCAACCAACACGATGGAAGAGTATTGGTTTGGGATGTGAATACGGGTAAGATTCTGGTTGAGTTCACGGAACATAAGAGTAGTGTTAAATCCGTTTGGACTTTTCGTAATAAAGCATTCTCTAGTGATAACGAAGGAAATGTCTATGTTTGGGATATTAATACTGGTGTGGTTTCGGACAATTTAGGTCCTTATGATTATGATATTGATATTATTAATGGGCGAGAAGAGGAGCAAACCATTTATCTGGGATTAGATAACGGGGACGTGGAAATTTATGATGCAAATTCTCATGAATTTATTAAGACGATTCATGCTCATGATATCGGAATTAAATGTATTAAGTTCTCCCCATCTGGGGAGCTGATTCTTACAGCAGCATATGATCATAAGGTAAAAATCTGGAATAAAGATTTTGAATTGATTACAACATTACCTGCTTACATGTATCAATGGGAGGTTGGTTTTGCCTTTACTCCTGATGAGAGATATGTTGTTGGCTGTACCTTTGGAAACAAATATTGTGTCTGGAATTTGGAGAAGAATGAATTTATTGAGGAAGGGATAAAGAACAGTACACCATCCATAAACGATATTACAGTGAGTGAACAAGGGGATATTGCTACTGCTTCAGATGATGGGGTCTTTAGAATGAATGGTGAGGTAATAGGGGGAATAAGTAGAGTTCTCAATAATGCTGTAGGTATCAGTCAAGACGGAAGTCTAGTCGTATGGGGGGACCATCAGGGTGAAATACATGTGATTGAACAGGATACAAAAGAGCTGATTAAAACCATATCATTAGATTCTGGTCCGATTAACTCTGTTGTTTTTGACTACTATACAGACTCCATTTATGTTGGAACATATGGAGGACTGATTTACAAAGTGAATATCACAATGCTTGAGGTCGAGAAAAAATTCAAAGCAAATGATGGTGCCATTAAAGGAATGGTCATTGAAGAGAATATGATTGTGTCGGTTTCTTCTGGTGGCCAAGTTCATGTGTTTGATAAACACAACGTAAATAAGCCTCCTGTAAGCCTTGTGGGGTCATCTTTTATTATTAACGATGTGGCATTTAGTAAGAAGTTGAACCTGATTGCAACAGTTAGTCGAGACAAGATAGTAAGAATTTATAAGGCTGATACCTATACATTGGAAGGGATTCATAATTTACACAACTATTCAATTAAAACGGTAAGCTTCGATTCAGAGGGTGTTTTATTCGCAGGGGATTATTGGGGGTATGTCAGCATATGGGATATTCAAAATGATACAAAGGACTTGATTAAGGTGGCATCTAATGGAATCAGCTTTATGGATTTTTATAAAGATCAAGTCATAGCGGGCTCCTATGACGGTGGTGTTTATGCAATTTGTTCTAACAAGCAAGTGACCGAAAAATTTCGGTTGTTTGATCAAGAAAAAGACTTGCAAACAACGTAA MHTGPLRALVMDNKGEHVYTGGYDKKLFKWDFQTGEFKKLTKHNHLITSLAISSDSKYLISGSADYSIRLFDLETDEHVQTYLGHTDDVEFVTFTSDDKYIISTSNQHDGRVLVWDVNTGKILVEFTEHKSSVKSVWTFRNKAFSSDNEGNVYVWDINTGVVSDNLGPYDYDIDIINGREEEQTIYLGLDNGDVEIYDANSHEFIKTIHAHDIGIKCIKFSPSGELILTAAYDHKVKIWNKDFELITTLPAYMYQWEVGFAFTPDERYVVGCTFGNKYCVWNLEKNEFIEEGIKNSTPSINDITVSEQGDIATASDDGVFRMNGEVIGGISRVLNNAVGISQDGSLVVWGDHQGEIHVIEQDTKELIKTISLDSGPINSVVFDYYTDSIYVGTYGGLIYKVNITMLEVEKKFKANDGAIKGMVIEENMIVSVSSGGQVHVFDKHNVNKPPVSLVGSSFIINDVAFSKKLNLIATVSRDKIVRIYKADTYTLEGIHNLHNYSIKTVSFDSEGVLFAGDYWGYVSIWDIQNDTKDLIKVASNGISFMDFYKDQVIAGSYDGGVYAICSNKQVTEKFRLFDQEKDLQTT PGPT0009785_6 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009785-toxC-K20332 NA NA AK015_01332 1230 carB_2 Carbamoyl-phosphate synthase large chain ATGAAGAAAAAGAAAATAGTCATGATTAGTCCATGGCCAACAATTGCCGAGGAAGCGAAGAATGAGGATTTTTATTTAATTGTGTTGTGGGATAAGAATCATAAAAGCTCTATAGCTTTTAACAAGGTGAGTACCTATGCTGATGAGCTATACATGATTGATTTTTTAGATGAGTACAAAGTTGAATCTATACTAAAATGGATTAACTCCTTTGATGACGTAGAGTACATTTATCACTTAGGTAAAGATGAGCATGTTGAGCTCATTTATCGTGTGGCTGAGGAATTGAAACGAAATGTAAATAATTTGGAGACCATTTCTATCATCAATAACAAGAAAAAAATGAGACAATATTTAGAAGCAAATGGAATATCATCTATCCGTTATACGACAGCCGATCTATATAATATAACAGAAAAAGCAGAAGCGTTTACCTATCCATTTATCGTCAAGCCCGTAAAACTTTCAGGAAGTCAGGGAGTAGCATTATGTCATCATGCCCAAGATTTAGAACGATGGAAAGCGTCACTAGAAGCTCTGGATTATAGGGGAGAATTTTTATTAGAAGAGTATTTACAAGGGATTGAAGTGTCTGTGGAAACCATTACTTTTCAAAATGAGCATTATATAATTGGGATTACAGACAAGTTAAAAACACCCCCACCTCAGTTTGTTGAGGTGGGACATATCTTTCCTTCAAGACTTGATGAACCTACAAGGGAAGCTGTAGAAAAATTAATTAAAGAAATACTGACTTCTCTTGGTTATTCTTTCGGACCGTGTCATTCGGAGATTATTCTTACAGAAGGTGGGCCAAGGATAGTAGAGCTACAACCGAGATTAGCAGGTGATAGAATCCCTAGATTAATTGAACACTCTACAGGCATACGAATGGAAAATATTATCTTTAAAATGTTAAAAGGGCACAGACCTTATATCAGTAATACTCCTAAAAAGGTTTCTCAAATCCATTATTTTAATTGGACTCCGGGTGAGGTTCTTGAAATTAAAGGAATTAATGAAGCTAGGATATTACGTAATGTCAAAGAAATCTTTATAAATAACTCTGAAAGAATATTGCCCGTTCTAGACTCCTATTCAAGAACAGGTTATGTAATTGTGGAAGGTGAATCGTATGAAGAATTAAATCAGACCATAAACGAAGTGAATGAACGGATAACTGTCATATATAAGACAGAGTCTGATTCCCCTCCCGTTTTTGATGTTTGA MKKKKIVMISPWPTIAEEAKNEDFYLIVLWDKNHKSSIAFNKVSTYADELYMIDFLDEYKVESILKWINSFDDVEYIYHLGKDEHVELIYRVAEELKRNVNNLETISIINNKKKMRQYLEANGISSIRYTTADLYNITEKAEAFTYPFIVKPVKLSGSQGVALCHHAQDLERWKASLEALDYRGEFLLEEYLQGIEVSVETITFQNEHYIIGITDKLKTPPPQFVEVGHIFPSRLDEPTREAVEKLIKEILTSLGYSFGPCHSEIILTEGGPRIVELQPRLAGDRIPRLIEHSTGIRMENIIFKMLKGHRPYISNTPKKVSQIHYFNWTPGEVLEIKGINEARILRNVKEIFINNSERILPVLDSYSRTGYVIVEGESYEELNQTINEVNERITVIYKTESDSPPVFDV NA NA NA NA NA AK015_01333 405 yycE putative protein YycE ATGGAGTTTAGGGATTTTACAGCAGCTCAAGTTAGAATAGCAAGACCGACAGACAAATTAGAAGAGGTCATTGATTTTTATGTGAATGGTTTAGGTTTTAAAGAAATACAGAAATTTAAAGGGAATAGAGGATATGAGGGTGTTATTATTGGATTGCCTGATGTTAATTATCACTTAGAATTCACCCGTCATTTTGATGGAAGCCCATGTTCTGCACCCACTAAAGATAATCTATTAGTTTTCTATATAGCTAATAAAGAGGAAATCAATAAAGTATCTCATCGATTACATAAAATGGGATACCAAGAGGTAGATCCTGATAACAGCTACTGGAAAGAACAAGGAATCACAATAGAAGATCCTGATGGCTGGCGAATAGTATTGATGAATAGATTGTATGATTAA MEFRDFTAAQVRIARPTDKLEEVIDFYVNGLGFKEIQKFKGNRGYEGVIIGLPDVNYHLEFTRHFDGSPCSAPTKDNLLVFYIANKEEINKVSHRLHKMGYQEVDPDNSYWKEQGITIEDPDGWRIVLMNRLYD NA NA NA NA NA AK015_01334 261 hypothetical protein ATGAACAAAAAAATTATAGGGTCCATTTTCATTCTAATTTCTACAATTCTATATTGTACTCGATACATTAGCGCAGCAATTTCAGGAGCAAACGCTAAAAGTTGGTCTAAAGAAGAATTTATGGCGCATTTATCATATGTACCAAGTAGTTTAATGATACTAAGTATTATTGCTATGATTATAGGGTTAATTTACTTTATTACAGGGCTAATAGATTTAAAGAAACAGTATAATGCAACTAATAAGAATGTAGAAAGCTAG MNKKIIGSIFILISTILYCTRYISAAISGANAKSWSKEEFMAHLSYVPSSLMILSIIAMIIGLIYFITGLIDLKKQYNATNKNVES NA NA NA NA NA AK015_01335 669 hypothetical protein TTGATAAAAATTAATTGGAAGAAAAAATATTTTTTTGTCCTTTTTTTATTTTTATTGCTGAGTATTTTTAACGTAACCGTCTATGCTGATGAAATTGGTAGTGAAGAAGAAAAAGATTTCCTTTACGAGGGTTTAAAACCCGGTGAAACAGTTGTGAATTTTTATTCTGAACCAGTATCAGAAGATGAATTAATTTACGAAAATGAAGTACTTCCAAAAGAAGCGCTTACTGAGAATGAATCTATTGAAGGTGAATCTGTGTCACCAATGATCAGGAGAAAAAAATGGTACCTTAAAGGTGGTAAGAAATATGTTGGTCTGAGTTACGGATCATGGAGATACGCAGGAGCTTCAACAATCAGTGGTGGCGTGTTACATGCATCTCACTCATCAACTGTTGCTAATTCATATTCTGGATCATTAAATGTTACGAAGAGGGATTTAAATGCTTATATAGGATTCAACACTACTAAGTCTTGGTCGAAAACAGTTAGTTATTCAAGCCCCTCATATCCATCTGGTAGGTACAGATTACAATACAGACACGTTTACAAAAAGTATAAAGTAAAACAAGTTCAAGCTTATCATCCTAGAGGTAGGGTGTATGCTACTAAGTATGTATATCCTAAAAGATGGATTGAACGAAATTATAGAGTAGTGAAATTTTAA MIKINWKKKYFFVLFLFLLLSIFNVTVYADEIGSEEEKDFLYEGLKPGETVVNFYSEPVSEDELIYENEVLPKEALTENESIEGESVSPMIRRKKWYLKGGKKYVGLSYGSWRYAGASTISGGVLHASHSSTVANSYSGSLNVTKRDLNAYIGFNTTKSWSKTVSYSSPSYPSGRYRLQYRHVYKKYKVKQVQAYHPRGRVYATKYVYPKRWIERNYRVVKF NA NA NA NA NA AK015_01336 105 hypothetical protein ATGGATAAATTCACCAATGTTGAAAAAATACAAGCAGTCATTCGCTATCAAAGTGGTGCAGAAGTGATCTTTAACAATGGCAACAAATATTTCATTCTCTTCTGA MDKFTNVEKIQAVIRYQSGAEVIFNNGNKYFILF NA NA NA NA NA AK015_01337 159 hypothetical protein ATGGACGATGCCTCAAATGGATTTTTTCTTCGAATTCCAGCCGCTGAGGTTAGCGTAACTTCTAGACATAAAGGATATCACGCAGTATATAGTAGTTTTGTGAGGAAAAAGTTGGATGAAATAGATATTAGTAAATATAATAAAAAAACAAGTTTTTGA MDDASNGFFLRIPAAEVSVTSRHKGYHAVYSSFVRKKLDEIDISKYNKKTSF NA NA NA NA NA AK015_01338 357 hypothetical protein TTGGCTTATGATGAGATTTTTGGTGAGGAAGAGTATAATTGGAAGGATATCAGAGAATTGGAAAGGAGTAAAGTCTGGGGTATTTATTACGCAATGTCTGAAAATGAAAAGCCTAAAGGATTGGAAGAATTATTAGAAATTATTGCTGATAATGTGAGAAAGAGCTCATTTAAAAATAGTATATTTTATAATGATGTTGTAGCTGACCTTACTAATTGTGCCATCAATAGAGCGATAAACGGAAAGAGTAATCCCTTTTTTGAAAAATTGTTTGAGATATACCAATTTGGTGCTTTTCCTTGCGGTTGGAATGGTGATTATCCAGAAGGAAAAATTGTTGCTTTTAAATTGGATTAA MAYDEIFGEEEYNWKDIRELERSKVWGIYYAMSENEKPKGLEELLEIIADNVRKSSFKNSIFYNDVVADLTNCAINRAINGKSNPFFEKLFEIYQFGAFPCGWNGDYPEGKIVAFKLD NA NA NA NA NA AK015_01339 300 hypothetical protein ATGAATATTTTGCCTGATAGAATAGATGAATTTCTAGGAGAAGAAATGTATAAACGAGAAGATAAAAATTTAGTGGAGGATGCTTTAAAACGTTTATGTGTAAATCCGTCAGTTACTTTTCGCGAATTTTATAATCAGTACGAAGGACCCTTCTGGGAAGAACATGTACCATTTGAATTACTGGATATAGTAGAAGAAGAGCACAGTATTGAATTATATACTTTTATTTCTCGGCAAGAACATGCTTTTTTTCCTAAACAATATTTGGTTCTAAGCGAAATGTTCCTTTCTTTTAGATGA MNILPDRIDEFLGEEMYKREDKNLVEDALKRLCVNPSVTFREFYNQYEGPFWEEHVPFELLDIVEEEHSIELYTFISRQEHAFFPKQYLVLSEMFLSFR NA NA NA NA NA AK015_01340 144 hypothetical protein GTGATTCAAGAAGTATACGGTAACAATGATGAATATGATTTCTTCCTACGTCACTTTAACTATGAGAGCTATGGACAAACATTAGATTCAACAGGTACTTATCTATTTTTAGAAAATGACGTAGCTGTGGAATATTTAAACTAA MIQEVYGNNDEYDFFLRHFNYESYGQTLDSTGTYLFLENDVAVEYLN NA NA NA NA NA AK015_01341 129 hypothetical protein ATGAGCGAAGTCAAAATTTACATAGCAAACTTGGCAGCATATAACGCTAGAGAATTAAGAGGTGCATGGTTTACATTGCCGTCGATAAAAAGATTATTCTTAAAACAATTTTTCATTCAAAATAATTAG MSEVKIYIANLAAYNARELRGAWFTLPSIKRLFLKQFFIQNN NA NA NA NA NA AK015_01342 93 hypothetical protein ATGTTAAAATGCTTTCTAGTAATTATTTCTGTTATTGAAGTACTTGTAGATGGTAAGCGGGTAGTAATCGAATTAAATAATCAAGTGAGTTGA MLKCFLVIISVIEVLVDGKRVVIELNNQVS NA NA NA NA NA AK015_01343 702 graR_1 COG0745 Response regulator protein GraR ATGAAAAAGATTTTGATTGCGGAGGATAATGAAAATCTTCGTTCACTTTTAACTAAACATATAGAAAAATTCGGATACAAAGTAATAGCTTTAGACCAATTCAATAATATTTTAGATAAATTTCTTGAAAAAGAGCCCGATCTAGTTTTACTGGATATAAACTTACCATCTTATGACGGCTTTTATTGGTGCAGACAAATTCGTCAACATTCCATATGTCCAATTATTTTTATATCTGCTCGTGAAGGAGCAATGCATCAAATTATGGCTTTAGAAAATGGTGCGGATGACTACATCACAAAACCTTTTGAATATGACATGGTAATTGCTAAGGTTAAAAGTCACCTAAGAAGAGCATATGGCGAGTATGCATCAAATAAGAGTGAAAGGATGCTTAATTTTCATGGCTTAACATTCTTACCAGAAAGAATGGAACTTCGATTTCAATCAAAATCAATAGAGGTTTCCAAAAAGGAAGCATTGTTATTAGAAGTATTATTAGAACGTGGTGAAAAGGTAACGAGCAGGGACCGTTTAATTGAAAAGATGTGGAACACAGATATGTTTATTGATGAAAATACGTTAAATGTATATATTGCACGAGTAAGGAAAAGACTTTCTGCCATTGGATTTCAGGATACTATTGAAACGGTTCGTGGTGCAGGTTATAGGATGAGGTATACAGGGGAGCAAGTAGAATGA MKKILIAEDNENLRSLLTKHIEKFGYKVIALDQFNNILDKFLEKEPDLVLLDINLPSYDGFYWCRQIRQHSICPIIFISAREGAMHQIMALENGADDYITKPFEYDMVIAKVKSHLRRAYGEYASNKSERMLNFHGLTFLPERMELRFQSKSIEVSKKEALLLEVLLERGEKVTSRDRLIEKMWNTDMFIDENTLNVYIARVRKRLSAIGFQDTIETVRGAGYRMRYTGEQVE PGPT0027850_91 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 AK015_01344 1002 graS_1 Sensor histidine kinase GraS ATGAAGTTGTTTCTACGTTCGCATTTGTCCCTCATTTTAGTTACCCTGATACAAGGTATATTTATATTTGTTTATTATTGGTTTTTAGGATTCCAAGAATTAAATCATTTGCTTTATGTTTTTATGATGCAAGTAATAACTATTGGTATCTATCTAATTTATCGATGGATACAGGATGTAAAACTGTATCGTTGGATAAAACAAGAAACTAGTGATGACGAATTATACGTGCCACATTTGGGAAAAAGTACATTAGCTGAATCCATTTATGAAAGACAATCTGTCCTCAAAGAATCCTATGAAAACAATATTCAACAGGTTAAAAAAGATTTAAACGAAAGAGTAACATTCACAAACCAATGGGTGCATCAAATGAAAACACCCTTATCTGTAATTCATTTAATGATTCAAGATCATGATGAAAAATTATTTCAAGATATTCGAAAAGAGTTATATCGATTAGAAGAAGGATTAAAAACTGTGTTGTACTCGTCACGATTATCTATGTTTGAAAAAGACTATTCTATCGAAAAGATCCCACTTCAAAGCTTTATGAATGACATTATAATGGAAAATAAAAGATTGTTTATTCAATATAAAATTTTCCCTAGAAAATATTTTCCAGAAGATAACTTATGTGTGTATTCTGATAAGAAATGGCTGCAATTTGTTATAGGCCAAATTATTTCCAATGCCGTTAAATATTCTGCTGATAAGAGTAGTATATTAAATATTAAAATTGAAAGCCAAGAAAAGTACATTATGTTAGAGATTCAAGATTTTGGTGTTGGAATTCCTTCGCAAGATATCAGGAGGGTTTTTGAACCTTATTTTACAGGGATCAATGGTAGATTGTATCACGAATCAACTGGAATGGGCCTTTACTTAGTAAGAGAAATCATGCATAAACTTCAGCATGAAATAGAACTGGAATCAGATATAGGACAAGGTACGACGTTTAAAATTTTTTTTAAGGAATATATTCCATCGAATAGAAACTAG MKLFLRSHLSLILVTLIQGIFIFVYYWFLGFQELNHLLYVFMMQVITIGIYLIYRWIQDVKLYRWIKQETSDDELYVPHLGKSTLAESIYERQSVLKESYENNIQQVKKDLNERVTFTNQWVHQMKTPLSVIHLMIQDHDEKLFQDIRKELYRLEEGLKTVLYSSRLSMFEKDYSIEKIPLQSFMNDIIMENKRLFIQYKIFPRKYFPEDNLCVYSDKKWLQFVIGQIISNAVKYSADKSSILNIKIESQEKYIMLEIQDFGVGIPSQDIRRVFEPYFTGINGRLYHESTGMGLYLVREIMHKLQHEIELESDIGQGTTFKIFFKEYIPSNRN PGPT0027855_100 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 AK015_01345 774 yxdL_2 COG1136 ABC transporter ATP-binding protein YxdL ATGGCAGATGTATTACAAGTGCAAGATTTAAATAAAATTTATGATGGGAGATTAACCTTCCAAGCTTTAACAAATATTACATTTAACGTGGAAAAAGGAGAATTTATTGGGGTAATGGGTCCTTCAGGGTCGGGAAAAACAACATTATTAAATCTGATTTCTACAATAGATAAACCCACATCAGGAAAGGTTCTTGTTAATGGGCAAGAACCTCATAAATTAAAGAAAGGAAAACTTGCAGAATTTCGACGTAAAGAATTAGGATTTGTTTTTCAAGACTTTAATTTATTAGACACATTAACATTGGAAGAAAATATTATGCTTTCTTTAACACTAGAAAGAGTAGATTCAGATGTAATTGACAAGAAGGTACAGACTATCACTCAAAAGTTAGGTATTGATTCAATCTTAAATAAACGGACATATGAAGTATCAGGTGGGCAGAAACAACGTACTGCAATTGCTAGGGCAATTATTCATCACCCTGCATTACTGTTAGCTGATGAACCAACGGGAAACCTAGATTCTAAATCATCGAAAGATGTAATGCATACTTTACAAATGATTAACGAAAAAGATAAAACAACGATGTTAATGGTTACTCATGATCCATCTGCTGCTAGCTATTGTGATCGAGTTATTTTCATTAAAGATGGTAAATTGTACAACGAAGTTTATAAAGGAACGAATCAGAAGGAATTTTTTCAACAGATTTTAGATGTTTTATCAATGCTAGGAGGAAATTCGGATGACATTTCCACAGTTCGCTTTTAA MADVLQVQDLNKIYDGRLTFQALTNITFNVEKGEFIGVMGPSGSGKTTLLNLISTIDKPTSGKVLVNGQEPHKLKKGKLAEFRRKELGFVFQDFNLLDTLTLEENIMLSLTLERVDSDVIDKKVQTITQKLGIDSILNKRTYEVSGGQKQRTAIARAIIHHPALLLADEPTGNLDSKSSKDVMHTLQMINEKDKTTMLMVTHDPSAASYCDRVIFIKDGKLYNEVYKGTNQKEFFQQILDVLSMLGGNSDDISTVRF 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 AK015_01346 1881 yxdM_1 ABC transporter permease protein YxdM ATGACATTTCCACAGTTCGCTTTTAAAAATATAACACGTAATTTGCGAGCGTATCTAGCCTTTTATTTAAGTAGTTCGTTTGCTGTTATGATTTTCTTTATGTTTGCGATGTTCATCTTTCATCCTGCTTTAGAAACAGGTTATATGAATAACATTGCCAAAAAAGGGATGGTATTTGCGGAATGGATTATTTTTGTGTTTTCTATCTTATTTGTCCTTTACTCTGTAAGTGCCTTTTTAAAAACACGAAAAAAGGAATTTGGAATTCTTACAATTCAAGGGGCATCACCTAAACAACTTCGTTTGCTAATAACACTGGAGAATGTATTTATTGGTGTTGCTTCCATTGTTACAGGAATCGTTGGTGGAACATTGCTTGCCAAACTGTTCTTTACGGCAGGTTCTTATATAGTTGAAATGGAACCACTTCAACTATATTTTCCTTTAAAAGCATTAGGAATAACCATCGCAGTATTTCTACTTCTGTTTGTATTTATCTCTCAATTTACACTGTTCATTATTCATTCAGAAGAAGTAATTTCTTTACTAAAAGGATCAGTCAAACCAAAAAAAGAACCAAAGCCGTCTATACCTTTTTCTATTATAGGAATTCTGTTCTTAGGTGCAGGGTTTGGCTTAGCTTTATTTGCAGATATTAATATTAGTAGTGCAGTTATTATTACTGTTTGTACAGTAATCGGAACCTACTTGTTTTATAGCCAGTTGAGTGTCTGGATGCTAAAGTTGTTGAAACGAAATAAAAAATTTTATAGAAAAGGGACAAACTTACTTTGGATTTCAGATTTAATGTATCGAGTCAAAGATAATGCTCGTTTATTTTTCATCGTAAGCATTGTTTCTGCTGTAGCCTTCACAGCCACAGGGACTTTAACTACGTATAAATCAATGTTTACTACAAAAGATTTACTGTATGAAATGGAGTTTTTATCCTACGTAAATAACAAAGATAAAAAAGAACAATTGGCTTATATTCAAAGCCAATTTAATCAAAAAGAAATTGATTATGAGCAATCTAAAATTAAAATGATTGAGACAGATCAAGGATCGTCGAATTCCCCTGTCTTAGTTGTTTCATACAAAGATGGTGTGGAGATATTACCTGAATTAAAATCCACCAAACTTGAAAAAGGAGAAGGGGTTTACTTTGGTCAAACAGAACGAGGAGACCATACAATACTTCAAGATAATACCACAGACTTACAATTAAGTAATCAACAAATTTCGATAAAATTACAGTCAATTGAACAGCCAATCCTTTTCCTTGATGATGTGTTAGTTGTTGATGAAAATACATTTAAACTATTGAAGCAAAGTAATGAGTTAGTAACCTTTTATGGTTTTCAATTTGCTAATTCAAAAGAAAACTTAGATATAAGTCAAAGGATACATGATCGTATTGTAGGTGAAACATATAACCCTGATGCTAGATACTTTTCAAAGTCCATCGAGTATTATCAGACGGTTCAATTACCAAGCTTAAGTCTGTTTATTGGTTTATTTATTGCCATCATCTTTTTTCTGGCTGCAGGGAGTTTCTTGTATTTCAGGTTGTTTACAGATTTATATGAGGAGAGAAAAAAATATAAATCACTAGCGAAAATTGGCTTAAGTGAAAAAGAAATGGTAAAAAGTGCAAGTATTCAAATGGCAAACCTTTTCTTTTTACCATTTTTGTTGGCAATTGTTGAAACAGGTTTCGCTTTACAAGTGTTACAAAGGGAAGGAGGATTTTCTAATGTATTTCAATCAGGAGTTATTACCATGCTAGGATTTTTGGGATTACAGGTTCTATACTTTATTACCATTCGTTTTAGTTACATCAAAAATTTAAAAGAATATGTATATCTAAATAAAAATTAA MTFPQFAFKNITRNLRAYLAFYLSSSFAVMIFFMFAMFIFHPALETGYMNNIAKKGMVFAEWIIFVFSILFVLYSVSAFLKTRKKEFGILTIQGASPKQLRLLITLENVFIGVASIVTGIVGGTLLAKLFFTAGSYIVEMEPLQLYFPLKALGITIAVFLLLFVFISQFTLFIIHSEEVISLLKGSVKPKKEPKPSIPFSIIGILFLGAGFGLALFADINISSAVIITVCTVIGTYLFYSQLSVWMLKLLKRNKKFYRKGTNLLWISDLMYRVKDNARLFFIVSIVSAVAFTATGTLTTYKSMFTTKDLLYEMEFLSYVNNKDKKEQLAYIQSQFNQKEIDYEQSKIKMIETDQGSSNSPVLVVSYKDGVEILPELKSTKLEKGEGVYFGQTERGDHTILQDNTTDLQLSNQQISIKLQSIEQPILFLDDVLVVDENTFKLLKQSNELVTFYGFQFANSKENLDISQRIHDRIVGETYNPDARYFSKSIEYYQTVQLPSLSLFIGLFIAIIFFLAAGSFLYFRLFTDLYEERKKYKSLAKIGLSEKEMVKSASIQMANLFFLPFLLAIVETGFALQVLQREGGFSNVFQSGVITMLGFLGLQVLYFITIRFSYIKNLKEYVYLNKN PGPT0027860_292 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 AK015_01347 357 hypothetical protein TTGAAGAAAAAAGTGAAAATAATGATAGGGATTTTACTTACTTTGGTTGTTATGTTAGTTGTATTTTTTACACTTGCTCCGGAAGTAGAGAGAGATCATATTAATCCTTTTGTACCTAAAGAAGAGGTATATGTACAAATTAATGAAGAGCCCATTGTTGGTCGCAGATATGAATATACTTTAACTGGCTATAATGAAGACGGCGAAGAAAAGGAAGTAACATTTAGTTCATCAAGAGTATTAAAAGAAAATGCTATTTTAAAAGTTAAGGCAAAAGGATCTTATGTAGAAAACTGGAAAGAAGTACAGATTGATGAATTGCCAGATGAAGTAGAAACAAAGCTAAATAAAAATTGA MKKKVKIMIGILLTLVVMLVVFFTLAPEVERDHINPFVPKEEVYVQINEEPIVGRRYEYTLTGYNEDGEEKEVTFSSSRVLKENAILKVKAKGSYVENWKEVQIDELPDEVETKLNKN NA NA NA NA NA AK015_01348 909 hypothetical protein GTGAGCATCGATTATAAAATAGTTAACTCATTAGAACAATATGAAAGATTACTTCAAATTACAAATTCGGAAGAGAGGAAAGATTTCTTTCGCTATACGATGATGCAGCCATTTGAAAAAATGTGGAAATTAATTAATGTCCTTATAAAAGCGAAGAAAGAAAATGGTTATGACGTATTAATAGCTACGAAAATGCTTGGTTATGCAGACATTTCTGATGATAAAACCATTAAAGAAGCACTCACTATTTTAAAAGGTAGCAATGCTTATGCAGTAGCAGAAAATACGATTAAAACATGTATAGATAAAGCGGTTCATGCAGGTTTGAAAATAAATGCTAAGGAAATAAAATTAGGACTGTATATTTCTGATCCTGAAAAATTAAAACTATTAAATGGCTATACAGGGTTTGGAGGAATACCTGGATTTATTACGGTAAATATATATCCAAATCATTATAATTTGCCGAGAATCCCAGCGGTAATAGCTCATGAATTTCATCATAATATACGTTTTTCTTATTTTGATTGGGATTACGGAAATGTTACAGTAGCTGATTATCTCGTTATAGAGGGATTAGCTGAATCATTTGCAAGAGAGTTATATGGAGCAGAGCAATTAGGTCCTTGGGTTACAAGTATGAATAAAGAAGAAGTAGAGTATTCCACCAATGTTATTAGAGAAGCGCTTGAGTTAAAGGGGTTTGCAGAGGTAAGCAGCTATATGTTTGGCGATGAAATTGCTGTGCAAGAAGGGTATCAACCTGTTGGTCTTCCTTTCTGCGCTGGTTATGCAGTAGGATATAAAGCTGTTCAAGCTTATATGAAAAAGTATAACAAAACCATATCCGAAGCAACCTTAGCTTCAACGGATGACATAATTAATGGTTGTGAGTTATTTGCCACGTAA MSIDYKIVNSLEQYERLLQITNSEERKDFFRYTMMQPFEKMWKLINVLIKAKKENGYDVLIATKMLGYADISDDKTIKEALTILKGSNAYAVAENTIKTCIDKAVHAGLKINAKEIKLGLYISDPEKLKLLNGYTGFGGIPGFITVNIYPNHYNLPRIPAVIAHEFHHNIRFSYFDWDYGNVTVADYLVIEGLAESFARELYGAEQLGPWVTSMNKEEVEYSTNVIREALELKGFAEVSSYMFGDEIAVQEGYQPVGLPFCAGYAVGYKAVQAYMKKYNKTISEATLASTDDIINGCELFAT NA NA NA NA NA AK015_01349 420 hypothetical protein TTGACAAAAAAGAAGCAAGGCTTAATAGAAAAAGGGTTTAATCATAAAAAAACATTCTTTAGCTTTTTGGGGGTGTCCTATTACCTCACTAAAGAGGATAACGAAAATTTGATAAAAAACTTATTTGCGGGCATCCCGGCTGTTAGTTCTATTGTTTTTGATTTTGCTGATGAAACACTTTTTCAAGAAAAGGGCGTGTCTAATCGAGTTGACAACATGGTGAAAATGGCTTCGGCAAGCGGAGAGCCAATGAAATCAGCATTCACTTATAATGAAATAGAGAGTATGTTGGAAAAATCGGGCTTGCTAATTTATGAGCATTTGACACCAGATTCGATAAATGAGCTTTATTTTAAAAATAGAACGGATTATTTATCAGCTTTTGTGACCATTCATTTCGTTCATGCTGTAAAGAGATGA MTKKKQGLIEKGFNHKKTFFSFLGVSYYLTKEDNENLIKNLFAGIPAVSSIVFDFADETLFQEKGVSNRVDNMVKMASASGEPMKSAFTYNEIESMLEKSGLLIYEHLTPDSINELYFKNRTDYLSAFVTIHFVHAVKR NA NA NA NA NA AK015_01350 102 hypothetical protein ATGATATTCATAAAGGAACAAGTGCTAAAACTAAATAAGGAAAGAACTAGTGGAAAAGTAGTTATTTTCAGTTTAGGAAAAGCACCAAATGATGCTTTATAA MIFIKEQVLKLNKERTSGKVVIFSLGKAPNDAL NA NA NA NA NA AK015_01351 168 hypothetical protein ATGTACTCACCAGTATTACAATTTATTTTTGTAGTTGGGATATTGTATGGTCTTATTATGCTTTTTGTGGCAATGAAACAAAAACAAAATACAAGTAAGAGTCAAATAGGACGTTCAATAGCTCTAATGGTTGTATGTGGAGCATCGCTTCTAATAACTATTATTTAA MYSPVLQFIFVVGILYGLIMLFVAMKQKQNTSKSQIGRSIALMVVCGASLLITII NA NA NA NA NA AK015_01352 957 rhaR_1 HTH-type transcriptional activator RhaR ATGAAATTTAAAGGGTTTTATGCATTAGAAGAGTTCTCTCATGTGAAAATGGATCAACAAAAGGTTTTGTTTCAATATAATTCAAAAAATCAGATGTTATTTTATGAAGTATTCGAAGGTATTTCGATTGTTTTTAATGAGCTTGAGACCGATGAACTCCAGTGCAATAAAAAGACTTTTCATCCGATGCTTTCCATTAACTATTGTTATGAAGGACACGTCGAATGTGAAATGGTGAAGGGAAAACGAACATGTCTTTCTACTAAACAGTTATTATTATCGGTGGCTAGTGCAACTCAAGAGGATTTCCAGGTGCCCTCTAAATATTATAAGGGCATTACTATTAGCGTTGATTTAGTGCATGTGTCAGATAAAACCTTGGCAGTATTAGCTGATTATCAAATTGACTTAGAGCGAATAACGAAGCATTTGCAACACCATACGTATTGTATATTAGATTCGGAGACAACGATTCAGCATTTGTTTGCGGATCTGTTGAAAAGTCCCTTTCAGCAACAACTCCCTTATTTAAAGCTAAAGGTGTTAGAGACTCTGTTTATTATTTCGAATATGCCTTTAGAGCAGTATGTGAGGACAACCGATTATATTCCGCATAGCAAATATAAGAAGATGAAAAAGATTGCGCATTACATACTCAAGCATTTTCAAGAGCCTTTAATGATTAGTGAATTATGCGAGCTGTTTCACGTGTCGGAATCTTATTTGAAGAAGTATTTTAAGGTAACATTTGGCGAGTCTGTGCATCATTATATTCAAAAGACGAGGATCGATCAGGCTTGTCAGCTGTTGATTGAAACAGATTTATCGATCCTAGAGATTGCGAATTCGGTTGGGTACAAAAATTCAAGTAAATTTGCGGCAATCTTTAAACGAGAAAAGCAGCAAACTCCTTCGCAATATCGAAAAGAAATGAGAGACGAATTGGAGCATCGGTAG MKFKGFYALEEFSHVKMDQQKVLFQYNSKNQMLFYEVFEGISIVFNELETDELQCNKKTFHPMLSINYCYEGHVECEMVKGKRTCLSTKQLLLSVASATQEDFQVPSKYYKGITISVDLVHVSDKTLAVLADYQIDLERITKHLQHHTYCILDSETTIQHLFADLLKSPFQQQLPYLKLKVLETLFIISNMPLEQYVRTTDYIPHSKYKKMKKIAHYILKHFQEPLMISELCELFHVSESYLKKYFKVTFGESVHHYIQKTRIDQACQLLIETDLSILEIANSVGYKNSSKFAAIFKREKQQTPSQYRKEMRDELEHR NA NA NA NA NA AK015_01353 1773 COG1132 Putative multidrug export ATP-binding/permease protein ATGAAGCAGAATTGGTTGTTAGCTAGCTGGGATTTTACTAAAAATAGTAGAGCCAAAGTTTTTCAAGCCATTGTACTTAGCACCATTAGTGTGTTTTTAGGAATTGTGCCGTATATTGGTGTGTACCAAATCGTTGAGCATTTTTTTAATGGCACAGCGACATCCAATGTCGTGTTACAGTGGGGAGCGATTTGCATGTTCGCCTTCTTAGGAAAGCATGTGTTTTTCGGATTTGCAACAACGACTGCGCATAAAGCAACATACAACATATTAGAAGCGATTCGTCTGCAGTTATCGAAGAAAATGACAAAGCTCCCTTTAGGTCATATTCTAAATGAAAAAATTGGGAAATTAAAGAACTTAGTCGTGGACCAAGTAGAAACAATTGAGTTGCCATTATCGCATTTAATCCCTGAAGGTGCTTCGTATAGCTTGTTACCAATCTCAATTTTCATTTATCTATTTATTATTGATTGGCGCATGGCTCTTATTTCATTAATAACGATTCCACTTGGCATGATTCCATTTGGTTTTGCTCTACGCTCGTTCAATAAGAGTTATGGAGCATATATGCAAGCAGGAGACCAGGTGAATAGTACCCTTGTGGAATACATTGAAGGGTTAGAAGTGATTAAAGCATTCAATCAAACCGGTCGTTCTTATGAAAAATTTGAAAAAACGATCGTGAATTTCAAAGAATATACGGTTCGATGGTTTAAAAGTTCCATTAAGTCATTAAATCTAGCAAGTGCCATTCTTCCAAGCTCTTTAATCGGTACATTGCCGTTAGGTTTATATTTGTATTCCATTGGTGAGCTGACAGTAGCTGAATATATTTTATGCCTGCTGTTGTCCATGGGGATTATTGAGCCACTTTCGAAGTTTGCGTTGTTTACGAATTATGTAAAGCAAATTCAATATGCGGTAGAAATGGTTCATCGTTTTTTAACGTTGAAGGAGCTTTCTGATACAACTGAACGCGTAGAGCTTAAGGAGCCCCTTGATATTGAGGTCAATCATGTGTCATTTCGCTATGAAGAAGACCTGCCATATGTTATTAATGACTTGTCCTTCCATATCGAACCCGGACAGTTTGTTGCATTTGTAGGTCCTTCGGGTAGTGGGAAGTCCACCATTGCGAAGCTACTCGCACGATTTTGGGATGTCACTTCAGGAGAAATCTTACTAAATAACTACAACATCAAAGATCTTTCATTAGATCAATTAGCGGAAAATATTAGCTTTGTCATGCAGGATGATTTTTTATTTAATGAGTCGATTATGCAAAATATTCGCTACGGTAATCCGAATGCGACGGATGAGGAAGTGTTTACAGCGGCTAAAGCAGCGTGCTGTGATGAATTTATTAGAAGGCTTGAAAATGGGTATGACACGCTTGTTGGTGAAGCTGGTGGGCGACTTTCTGGTGGTGAACGTCAACGAATTGCGTTAGCTCGAACGATTTTAAAAAATGCACCTATTGTCATTTTAGATGAAGCAACAGCATTCACAGACCCAGAAAATGAATTTAACATTCAACAATCCATCCATCAATTGATTCAAAATAAAACGTTAATCGTTATTGCGCATCGTCTATCAACCATTAAGGATGCGGATCATATTTACGTTCTAAAAAATGGTGAAATTGTAGAATGTGGGAGGCATGAACAGCTGTTAGCGAATAGGGCTACGTATGCGGGAATGTGGGAGGCTCACATATATGCGCAAGAACTGACGATAACGAAAAGATCGGACAAGGAGTTGCAATCATGA MKQNWLLASWDFTKNSRAKVFQAIVLSTISVFLGIVPYIGVYQIVEHFFNGTATSNVVLQWGAICMFAFLGKHVFFGFATTTAHKATYNILEAIRLQLSKKMTKLPLGHILNEKIGKLKNLVVDQVETIELPLSHLIPEGASYSLLPISIFIYLFIIDWRMALISLITIPLGMIPFGFALRSFNKSYGAYMQAGDQVNSTLVEYIEGLEVIKAFNQTGRSYEKFEKTIVNFKEYTVRWFKSSIKSLNLASAILPSSLIGTLPLGLYLYSIGELTVAEYILCLLLSMGIIEPLSKFALFTNYVKQIQYAVEMVHRFLTLKELSDTTERVELKEPLDIEVNHVSFRYEEDLPYVINDLSFHIEPGQFVAFVGPSGSGKSTIAKLLARFWDVTSGEILLNNYNIKDLSLDQLAENISFVMQDDFLFNESIMQNIRYGNPNATDEEVFTAAKAACCDEFIRRLENGYDTLVGEAGGRLSGGERQRIALARTILKNAPIVILDEATAFTDPENEFNIQQSIHQLIQNKTLIVIAHRLSTIKDADHIYVLKNGEIVECGRHEQLLANRATYAGMWEAHIYAQELTITKRSDKELQS PGPT0031300_1 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-EQUIBACTiN_TRANSPORT,PGPT0031300-eqbK-NA NA NA AK015_01354 1767 msbA COG1132 Lipid A export ATP-binding/permease protein MsbA ATGATAGGGACATTGAAACGAATGATGACATGGTGTGCACCCTTTAAAAAGAGGTTGTATGTAGGATTTTTATTTTCATTTATTAATGCGATTTTCATTATTATTCCTGTGGCACTGACTGGCTATGTGATGAAGATGATACTTATGCAAATGGCTGATGAGTATGCGATTACTCTTGAAGATGTGTTATTTGTCTTAGCGCTAACGGTGTTATCGGTCATTGGTCGCTATGTGTTTACTTATTTGCGTTCTGCTTATCAGGACATGATTGGCTATGAAGTGGCCACTCAGAAGCGCTTAGAGCTAGGAAATAATTTAAAAAATGTACCATTAAGCTTTTTGCAGAAGCATCCTACAGGCTCACTCACGTCTGCGGTCTCAACCGATTTACAGTTCATAGAAATGCATGGCATTAAAATGCTTGATACGATTGTAAATGGTTATGTAAGCTCGATTCTTTTTTTACTCATCATGGGATTTTACAATTGGGTCATCGCGCTGATTTCAGTAATCGGTTTACTTGGCTCTTATTTCTTCCTCAATCGTATCTCGCAAAAATCGAAACAAAATGCGGAGGAATATCAGCGATCACGGAATGTGATGACGTCAGCTACATTAGAGTTTGTACGGGGGATTCCGTTTGTGAAATCCTTTAAACTAGATGGCTTAGCCAATGAAAAGCTGCACCATGCATTTGAAAAGGCAAAAAATATAAACATCAAAATCGAAACCGATTTTGTAGGGCCGAATCAGGCACATTTAATTACCTTAAAGATAACGTCCATTTTCATTGTGATGTCTTCGAGCTTGATGGCATTAGAGGGAATGCTTGAGTTACCTACAATGGTCATGTTTATAATCTTGTCTTTCACGATGTTCCGTGGCGTTGAAGTGATGAATGATGCGATGCATATCTTAAAGGTCATCGATGAAACCTTTGATAAATTAGAACAAATAGAATTGTCATCGAAACTACGCGATGAAGTAAAAGACATCGAAGTACCTAATCACACCATCCGTTTTTCCAATGTGTCTTTCCAATATGGCAGTGAGAAGGTATTAAAAGATCTTTCGTTTACGATTCCTGAAAATCAAACCACGGCATTTGTAGGTCCTTCAGGCAGTGGGAAATCGACGATTTGTCATTTGATCGCGCGTTTTTATGATATTCAGGAAGGGGTTATTACCATTGGTAATGTAGATATTCAGACCATGTCAGCTGAATCGCTACTTAAAAATATTAGTATCGTGTTCCAAAAGGTGTATTTGTTTAACGACACAATTTATAACAATATTTCCTTTGGAAAGCCTGATGCTACATATAAAGAAGTAGTAGAGGCAGCCAAAAAGGCACGATGTCACGATTTTATAATCAAGTTGCCCAATGGTTATAACACTATTGTAGGCGAAGCAGGGGCAACGTTGTCTGGTGGTGAGAAGCAGCGTATTTCAATTGCACGTTCCATTATTAAGGATGCGCCAATTATTATTTTGGATGAAGCAACGGCAAGTATGGATCCTGAAAATGAGCATTTAATTCAAGAGGCTATTCTAGAGTTAGTCCATGGTAAAACTGCAATTATGATTGCTCATCGTTTGAAAACAATTCAGCATGCGGATCAAATTATAGTGTTAAATAAGGGAGAGACTGTACAGCAGGGTAATCATGACAAGCTTTTATCGGAGGAAGGTATGTATCGTCAATTAGTGGAAAGCCGAAAAAAAGTTGAAACATGGACTTTGAAGGGAGATGGTAATTATGAATAA MIGTLKRMMTWCAPFKKRLYVGFLFSFINAIFIIIPVALTGYVMKMILMQMADEYAITLEDVLFVLALTVLSVIGRYVFTYLRSAYQDMIGYEVATQKRLELGNNLKNVPLSFLQKHPTGSLTSAVSTDLQFIEMHGIKMLDTIVNGYVSSILFLLIMGFYNWVIALISVIGLLGSYFFLNRISQKSKQNAEEYQRSRNVMTSATLEFVRGIPFVKSFKLDGLANEKLHHAFEKAKNINIKIETDFVGPNQAHLITLKITSIFIVMSSSLMALEGMLELPTMVMFIILSFTMFRGVEVMNDAMHILKVIDETFDKLEQIELSSKLRDEVKDIEVPNHTIRFSNVSFQYGSEKVLKDLSFTIPENQTTAFVGPSGSGKSTICHLIARFYDIQEGVITIGNVDIQTMSAESLLKNISIVFQKVYLFNDTIYNNISFGKPDATYKEVVEAAKKARCHDFIIKLPNGYNTIVGEAGATLSGGEKQRISIARSIIKDAPIIILDEATASMDPENEHLIQEAILELVHGKTAIMIAHRLKTIQHADQIIVLNKGETVQQGNHDKLLSEEGMYRQLVESRKKVETWTLKGDGNYE PGPT0031305_1 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-EQUIBACTiN_TRANSPORT,PGPT0031305-eqbL-NA NA NA AK015_01355 588 hypothetical protein ATGAATAATAAGTTAACGACGAGGGATTTTATTACGATTGCATTTTTTAATATTTTAATCATCTTTGGGGCAATGATTTCAAGTTTATTCACACCTTTTGTTGGGTATGCAGCCGTACAAATAGTATGCGCTATATTAATGACACCATTTTTAATTATTTTAGCTATCAAGGTTAAAAAGCGAGGCGTATTTTTATTAACAGGTATATGTCAAGGTTTATTCTATATGGCTATGGGGATGACCTATTATATTTTAATTTATTTAGTGTTTACAATTATTGCGGAAATTATTTGCTGGAAAACAGAAAGTTATAATAGTATTTGGAAGGTAACAGTAGGAACGGCATTGTTCCAAATTGGTTATTACTTAGGTGGAGTAGTTCCATTATTCTTATTCCGTGAGAAGTATTTGGCGGCTCTAGGATCAAGCTATAGTGATGAAAAGGCATTAAACGATATGCTTTATTACTATGAGGATCCTGTCATGATCAGCGTCATGATTTTATTAACGGTTATTGGTGTAATTATTAGTTCATTTATCGCTAAATCAATTTTAAATCGTCATATCAAGAAGGCGAAGCATGTATGA MNNKLTTRDFITIAFFNILIIFGAMISSLFTPFVGYAAVQIVCAILMTPFLIILAIKVKKRGVFLLTGICQGLFYMAMGMTYYILIYLVFTIIAEIICWKTESYNSIWKVTVGTALFQIGYYLGGVVPLFLFREKYLAALGSSYSDEKALNDMLYYYEDPVMISVMILLTVIGVIISSFIAKSILNRHIKKAKHV NA NA NA NA NA AK015_01356 678 ecfT_2 Energy-coupling factor transporter transmembrane protein EcfT ATGAGAAACATTGATCCACGAACACATTTAGTTGTGTTATTTGCGGTCAGTATACTTATTTTCTTATACGATCATCAATGGCAATTTGATGTATTGTTTATCTTTGGTGCATGTTATATGATCCTAAATGGATTGTGGAAGAAAGCCATCAGTGCAGTCGTTATCTATGTAGCGATGCTCTTGTTATTAAAAATCGTGCCCAATATTTTTCCAGCGATGGCGGTGTTTTTATTCATTACGACTCGCGTGTTCCCCATGTTTATGGTCGGGACAGCCTTAGTCTTAGTCCCAGGTAGCCGTATATTATATACGTTGGATTATATGAAAGTACCCAAACCCATTTTGATCTTGATTATGGTATTCCTTCGGTTCTCACCTATGATTTTGAAGGAAATACAAATTATTTATCAAGGGATTAAGGTGCGTAGCATTTTTCCAACACCGCTTGATTTGTTGAAAAAACCATTAGTGGCCTATGAATGCATTGTCGTTCCATTAATGTTTCGTTGTCTAAAGCTTTCAAGTGAGCTTGCAGCAGCTGCCGAGATTAGAGGAATTGAGTGTAATCGTAAGCGGACAACGGTTTATACCACGACATTTGATGCGACAGATTTCACTGCAATGTTATCAGGATGCATTGCATTTTCAATATACCTTGTAGGAGGGCGTGTCTTATGA MRNIDPRTHLVVLFAVSILIFLYDHQWQFDVLFIFGACYMILNGLWKKAISAVVIYVAMLLLLKIVPNIFPAMAVFLFITTRVFPMFMVGTALVLVPGSRILYTLDYMKVPKPILILIMVFLRFSPMILKEIQIIYQGIKVRSIFPTPLDLLKKPLVAYECIVVPLMFRCLKLSSELAAAAEIRGIECNRKRTTVYTTTFDATDFTAMLSGCIAFSIYLVGGRVL NA NA NA NA NA AK015_01357 1386 ykoD_1 COG1122 Putative HMP/thiamine import ATP-binding protein YkoD ATGATACGCTTTACGAATTTCAGCTTTACCTATGAAGGGCAAGATCAAGGAGTGTCCAATCTTAACTTGCAGCTTGAGCAGGGGAAGTGCTTATTACTGTGTGGTCAGTCCGGTCATGGGAAAAGTACGATATTAAGGGTGTTAATGGGGTTAGTGCCTAGCTTTTATAAGGGAAAGGTAAGTGGGGAAGTGTTAGTAGATGGTAAAGCTCCTCATACTTTAACACCTGAACAGCGTGCACAAATGGTCGGTGTCGTTTTCCAAGACCCACGCAGTCAGTTTTTTATGGATACAGTACAGGATGAAATCCTATTTGCTGCTGAAAATTTAGGGATGGATCGTTCAGAGCTAGTAAAGCATTTGCAGACACAAACGAAGCTCTTAAATGTCGAGCCATTGCTATATCAAAAGGTTTCAGATTTATCAAGTGGACAACGTCAACGTGTGGCCGTTGCAGCGGCAACTATCTTAAAGCCTAAGTTATTACTTTTAGATGAGCCAACTGCCAATTTAGACCAGACGACCATCGCTTTGCTAGTGGATATGTTAAAAGACTTAAAGTCATTAGGTACTACGACCGTGATCAGTGATCACCGTTTAACTGATTATAGAAGCTTAACAGATGAAGTAGCGGTAATTCAATATGGAAAGATTGTCTTTAATCAAGATACAAACTCTTTTTTCAGTCAACCTAAAGAGCATTTTAAGCAATTCGGATTACGCCATCCGAATTTAAGGAAATATAATATACTATCGGAAGTTGCTCATCAATCGACGAATAAATTGATATTTGAACGCGTTAGCTATCTTTACAAAAGCAGTAAGAAAGGACTTGAAAGCTTTTCCGCTGCAGTAGATAGTGGAAAGGTGATTGCCATTCGAGGCTTAAACGGTACAGGTAAAACAACAATGGGAAAAGTTTTATCGGGACTTTATAAAGAGAGAAAAGGCAAAATTACGTTTAACGGTAGTCGAGTAAAAGCTAGTAAACGAAATAAAATGACGTACTTTGTTATGCAGGATGCGGATTATCAGTTATATGCAGACAGTGTTGGAAATGAGTTAGTTTTTGGTAAGAAGGTGTCAGAGAAATTAAAGCAAAAGGCATATAAGGCAATGGATGCATTTGGAATTATGCATTTAAAAGATCGTCACCCCAGTTCCTTATCTGGAGGTGAGAAGCAGCGAGTAATTATTGCAGCAGCCTTTGTTTCAGATACAGAAATCATTATTTTAGATGAGCCAACTTCAGGGCTAGATGGAGACAATATGCTAAAAGTAGCGAAATGGGCTCGTCGCTTGGCAGATCAAAATAAATTCGTCTTTGTGATCACACATGATGAAGATTTCATTGAAATTGTTTGTGATAAAGTAATTTATTTGTAA MIRFTNFSFTYEGQDQGVSNLNLQLEQGKCLLLCGQSGHGKSTILRVLMGLVPSFYKGKVSGEVLVDGKAPHTLTPEQRAQMVGVVFQDPRSQFFMDTVQDEILFAAENLGMDRSELVKHLQTQTKLLNVEPLLYQKVSDLSSGQRQRVAVAAATILKPKLLLLDEPTANLDQTTIALLVDMLKDLKSLGTTTVISDHRLTDYRSLTDEVAVIQYGKIVFNQDTNSFFSQPKEHFKQFGLRHPNLRKYNILSEVAHQSTNKLIFERVSYLYKSSKKGLESFSAAVDSGKVIAIRGLNGTGKTTMGKVLSGLYKERKGKITFNGSRVKASKRNKMTYFVMQDADYQLYADSVGNELVFGKKVSEKLKQKAYKAMDAFGIMHLKDRHPSSLSGGEKQRVIIAAAFVSDTEIIILDEPTSGLDGDNMLKVAKWARRLADQNKFVFVITHDEDFIEIVCDKVIYL NA NA NA NA NA AK015_01358 753 fatE COG4604 Petrobactin import ATP-binding protein FatE ATGATAAAAATTACCAATACTAGGAAGTTTTATACAGATGATGTAGAAATTGGACCTTTAGATTTACAAATACCAAAAGCTGGGTTTACATCCTTAATCGGTCCCAACGGTGCTGGGAAGTCTACAACTCTTATGATGATTGGGCGTCTTTTGGATATGGATGAAGGTCAGATTATGATTGCGAATATGGATGTTTCTAATTCTAAATCAAAAGATTTAGCAAAAGTCGTGACTATTTTACGACAAGAAAATCATTTTGTAACGAGGCTTACTGTCCGGCAGTTAGCAGGATTTGGGCGTTTTCCGTATTCAAAGGGAAGGTTAACTAAAGAGGATGAGGCTATTATATCTAAGTATATCGATTTCTTAGACTTGACTGATCTAGAAAATAGATATTTAGATGAGCTTTCAGGAGGTCAAAGGCAAAGAGCTTATGTTGCAATGGTCTTGTGCCAAGAGACTGAATATGTACTTTTAGACGAGCCTTTGAACAATCTTGATATTGCTCGTTCTGTTCAAATGATGGAGTATTTGAAACATGTTGCTAATGAATTTGGAAGAACCATTCTGACTGTCATGCATGATATAAATTTTGCGGCCAAATATTCTGATAGAATTTGTGCTATGAAAGATGGAAAAATAGCTGCTTTTGGAACAGTAGAAGAGATTATGGCCCCAGAAGTTCTGACCGATATTTTCGAAACGAAAATAGAAGTTATCGATGGTCCCTATGGACGAATAGCGGTATATTAA MIKITNTRKFYTDDVEIGPLDLQIPKAGFTSLIGPNGAGKSTTLMMIGRLLDMDEGQIMIANMDVSNSKSKDLAKVVTILRQENHFVTRLTVRQLAGFGRFPYSKGRLTKEDEAIISKYIDFLDLTDLENRYLDELSGGQRQRAYVAMVLCQETEYVLLDEPLNNLDIARSVQMMEYLKHVANEFGRTILTVMHDINFAAKYSDRICAMKDGKIAAFGTVEEIMAPEVLTDIFETKIEVIDGPYGRIAVY PGPT0003760_8499 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 AK015_01359 1059 fatC COG4605 Petrobactin import system permease protein FatC ATGAACACATTGGAATATAGAAGTAAAGAAATTTTTGATTCCGGCCTCCATACTAAAAGTAGATCTGCGAGAGCTTTTAGCTCGAAGGCGGATGAAAAACGTTATTGGATTTTGCTGGTAACATTGATTGTTTTGGGACTTCTTTCTACGTACGGGCTTTTAGTGTATAATAATCCAGTTCCAATAGATTCACCTTCATTTATCCCTGTTGTTATGAGAAGAATTGAAGCTGTTGTTGCGATGACGATTGCTGCAATTTGCCAGAGTTTATCAACCGTTGCCTTTCATTCAGTTACGAATAATAAGATTATAACACCTTCACTTTTAGGTTTTGACTCACTTTACTCAACAATTCATACGAGTACAGTGTTTTTCTTTGGTGCAGGTGCACTACTAAATTTTAGTGGTATTGGCTCATTTCTGTTTCAAGTAGTTGTCATGGTAGCGATGAGCCTAATACTTTATGGGTGGTTACTTGCTGGAAAGTATGGAAATTTACAACTTATGCTTCTGGTTGGAATTATTATTGGTACAGGTTTAAATTCCGTGTCAGCTTTTATGAGAAGAATTCTTGATCCATCTGAGTTTGATATTTTACAGGCAAGATTGTTCGGCTCTGTCACTAACGCGGATGCTGCTTATTTTCCAATAGTCATTCCAATGGTAATAATTGTAGCATTATTACTTTTTGCTTATTCTAAAAAACTGAATGTAGTGTCACTCGGAAAAGATGTTGCAATTTCTTTTGGAGTTAAACCGCGATCTAGTATCATATATACGCTCATATTGGTTTCTGTTTTGATGTCAATTTCAACGGCTTTAGTTGGACCACTTACATTCTTTGGGTTTTTAGTTGCGACTTTAAGTTATCAAGCAGCTCCTACATATGATCACAGGTATATCTTCCCAATGGCCCTTGCTATCGGTTTTTTGATACTGACAAGTGCGTACTTTTTTATGTATCATGTTTTTAACACTCCAAGTGTGGTTATGGTTATTATCGAACTGTTTGGAGGATTAATATTTTTAATTGTTATTTTAAGGAAGAGGTCTCTATGA MNTLEYRSKEIFDSGLHTKSRSARAFSSKADEKRYWILLVTLIVLGLLSTYGLLVYNNPVPIDSPSFIPVVMRRIEAVVAMTIAAICQSLSTVAFHSVTNNKIITPSLLGFDSLYSTIHTSTVFFFGAGALLNFSGIGSFLFQVVVMVAMSLILYGWLLAGKYGNLQLMLLVGIIIGTGLNSVSAFMRRILDPSEFDILQARLFGSVTNADAAYFPIVIPMVIIVALLLFAYSKKLNVVSLGKDVAISFGVKPRSSIIYTLILVSVLMSISTALVGPLTFFGFLVATLSYQAAPTYDHRYIFPMALAIGFLILTSAYFFMYHVFNTPSVVMVIIELFGGLIFLIVILRKRSL PGPT0003770_2619 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 AK015_01360 1017 fatD COG4606 Petrobactin import system permease protein FatD GTGCCGAAAAATGTAATTGCTGGGGTTGAGCGTAATTCTCAACCCCTGTTTTATAGCCAAAATAAAATCTGGACAAAATCTTTTATATTAGCTATTATAGTAGTTTTTATTTTAGGTGTTTTATCGCTGTTTACTGGCGTTTATGATATAAGCGGACAAGAAAATGGAATGGATATGTTTTTCATAACTCGTGTGCCAAGAACAGCTGCACTCATGCTTACTGGAGCCGCCATGGCAATGGCAGGACTCGTAATGCAACTTATTACACAAAATCGGCTAGTTGAGCCTACTACAACTGGCACTATAGAATGGGCTGGTTTAGGATTGCTTACAGTTTATCTACTTATTCCTGCACCGTCTTTAATGCTACGAATGACTGGAGCAATTACCTTTTCTTTTGTTGGAACGATGATCTTTTTTTTATTCTTGCGAACAGTCAAACTACGCTCTTCTTTAATCGTACCAATAATTGGACTAATGTTAGGAGCAGTAATTTCTGCCGTTTCAACATTTGTCGGGCTTCTTTTCCGAATGACTCAAAATATTGAGAGTTGGTTTGTAGGCTCCTTTGCTTCAGTTCAAGTTGGTAGGTATGAATATTTATGGATTATTGTTATTGTTACTATATTAATCTTTATCTTTGCAAATAGATTGACTTTAGCAGGACTAGGTGAAGACGTTGCAACAAGCTTAGGAGTAAATTACAATAAACTCATTCTTTTTGCTACCGGTCTTATTTCTTTAGCCGTTGGAATTGTAGCGACTGTAATTGGTAACTTACCTTTTTTGGGGCTAATTGTCCCGAATATTGTGTCCATGTTTAGAGGAGATGACCTCAGAAGTAATTTGCCGTGGGTATGTGTAATCGGAATGGGAACAATAACTATTTGTGACTTAATTTCTCGTACCATCATTATGCCATTTGAACTACCTGTTTCTTTAATACTAGGAACATTTGGTTCGGTTGTATTCATTATTATTTTATTAAGACGGAGAAAACCAAGGAGGTCAAGATGA MPKNVIAGVERNSQPLFYSQNKIWTKSFILAIIVVFILGVLSLFTGVYDISGQENGMDMFFITRVPRTAALMLTGAAMAMAGLVMQLITQNRLVEPTTTGTIEWAGLGLLTVYLLIPAPSLMLRMTGAITFSFVGTMIFFLFLRTVKLRSSLIVPIIGLMLGAVISAVSTFVGLLFRMTQNIESWFVGSFASVQVGRYEYLWIIVIVTILIFIFANRLTLAGLGEDVATSLGVNYNKLILFATGLISLAVGIVATVIGNLPFLGLIVPNIVSMFRGDDLRSNLPWVCVIGMGTITICDLISRTIIMPFELPVSLILGTFGSVVFIIILLRRRKPRRSR PGPT0003770_6504 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 AK015_01361 1014 yclQ_2 COG4607 Petrobactin-binding protein YclQ ATGAAAAAGTTCAAATTAACTGTCATAATGACAATCTTCGTTTTAATGTTGGCTGCTTGTTCAAATTCGAATAATGAAGCAGATAAATCTGAAACAAAGGAGAAAGCAAACGATTCTACTGAACCTACAACCGTTGAAATTACCGATGCTAATGGAACTGTTACAGTGCCTGTAAACCCTAAGAAGGTAGTTGCTTTAGATAATAGAACGTTTGAAACTTTAGCTGATTGGGGAATTGAGTTAGCTGCTGCACCTAAAGGACTATTACCTGCAGATTCACCATATGCAGATGATGAAGAAATTGAAGATGTGGGAATGCACTTTGAACCCAATCTTGAAGCTATAGCAGGTGTAAATCCTGAACTTGTAATTGTTGGACAAAGGTTTTCTGGCTATTATGAAGATATTAAAAAATTAGTGCCAAACACACCTGTTATTAATCTTAATATTGATGTTTCTGAGGAAGCTGATACACCTGGAGAAAATTTGGTGGAAGGACTTAAAGACACTACAGTTACTTTAGGAAAAATTTTCGATAAAAACGAAGAGGCAGAAAAATTGACAGCTGAGTTTGACCAAGCTATAGAGAAAGCTAAATCTGCATATAATGAAAAAGATAAGGTTATGGGCGTTATCGTTTCTGGCGGAGATATTGGCTTTTCAGCTCCCAAAACTGGACGTGTTTGGGGACCAATGTATGAAATCTTTGGTTGGACTCCAGCATTAGAAGTCGAAGATACTACTTCTGATCATCAAGGTGATGAGGTTTCTGTTGAAGCGATTGCAGAGAGTAATCCTAATTGGATTTTCGCACTCGATCGTGATGCACCACTAGCTGGAGTAGAGGATAAAGTTCCTGCTCAGGATGTTATTGATAAATCACCTGCTCTTCAAAAAACAACGGCTGTTTCTAAAGAACAAATCGTTTATGCACCAGAGGATACTTACTTAAATGAATCAATACAAACATACTCGGAGTTATTTAATAACCTCGCAAAGAATTTAGCTAAGTAG MKKFKLTVIMTIFVLMLAACSNSNNEADKSETKEKANDSTEPTTVEITDANGTVTVPVNPKKVVALDNRTFETLADWGIELAAAPKGLLPADSPYADDEEIEDVGMHFEPNLEAIAGVNPELVIVGQRFSGYYEDIKKLVPNTPVINLNIDVSEEADTPGENLVEGLKDTTVTLGKIFDKNEEAEKLTAEFDQAIEKAKSAYNEKDKVMGVIVSGGDIGFSAPKTGRVWGPMYEIFGWTPALEVEDTTSDHQGDEVSVEAIAESNPNWIFALDRDAPLAGVEDKVPAQDVIDKSPALQKTTAVSKEQIVYAPEDTYLNESIQTYSELFNNLAKNLAK PGPT0003765_5145 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 AK015_01362 1383 stp_3 Multidrug resistance protein Stp ATGATAGCAAACCAAGACACATATTATAAATATCGGTGGTGGGCACTAGCTATTGTATTGTTACCAACTTTATTAATTTCATTGAACAATTACATGCTACAAATTGCATTACCCAATATACAATCTGATTTACATTTATCTTTTACAACAGCACAGATTTTATTTTCTTGTTATGCCATTGGTTTAGCTGTACTGTTAATTGTCGGTGGTAAGCTCGGGGATATGTACGGTAGACGAAAAACATTATGGTTTGGAGTGGCTTTATTTGTTCTCTCATCATTAATTGGTGGTCTTACATCCATCATTACGCTTTTAATTGGTATGCGTTTAGTTCAAGGTATTGCTGCTGCGATTATTCAACCACAAGTTTTAGCGATTGTACAAGTAATATTTCCATCACACGAACAAAGAATAGCCTTTAGTTTGTATGGTGCTGTCATTGGTATTGCATTTGCTTTTGGTCTCATTTTAGGTGGGGTAATTATTGACTGGAATTTATGGGGATTAACGTGGCGCAATGTTTTCTTTGTGAATATCCCTTTTGGTATTTTAGTATTAATACTTCTACCTTTAATCCCTAAAGATTCAAATATGTTAAAAATTAAAATTGATTGGTTAGGAACTGCTATATTAATGAGCAGTATTTTATTAGCAATTGCTACCTTAACAAATAGTCAAAATCATGGTTTTAGTATTCTTACGATTTCCACATTTATCTTAACCAGCCTAAGTATACTATTATTTATTAAAATAGAGAAAGAACAACAACATCCTTTAATAGATTTAAACATATTCACAAACAAACGCTTTAGCTTGGGAATCATTTCGTTATTTAGTATCTACTTGAGTATGTTTGCCTTATTTTTTATTCTAAGCTACTATGCACAAAACTTTTTAGGCTATGATGCTAAAGCAACGAGCATCATTTATTTACCAATTGGAATAGGGTTTTTCATCAGTTCGTTACTAACTGCTCAAATCACAAAGTTTTTACGTGGTTTAACTTTGTTCTACGGGGCATTAGTAATGAGTATTTGTATTGTGAGTTTAGCGATTGTCTTGCATTTTTCCTGGACACTGCAAGATACGTTCGTTATTGTAATACTTTTTATTTATGGACTAAGTCTAGGTTTAGCTACTACACCTTTAGCAAGTGTTATTTTACATGGCTTGCCACTCAAAATTGTTGGCGTTGCTTCCGGTATTTTTAATACTACTATGTACTTAGCTAATTCATTTGCAGTAGCTTTTATAAGTATTTTATTTTCAAGTTTTATGTTACCGAGCACTGCATTTTTAATGTGTTTAATAAGTATTTCGATAGCTTCACTTATTGCCGCCTCATTATTTTACTATTATCAAAGAACAGTAACTACTATGTAA MIANQDTYYKYRWWALAIVLLPTLLISLNNYMLQIALPNIQSDLHLSFTTAQILFSCYAIGLAVLLIVGGKLGDMYGRRKTLWFGVALFVLSSLIGGLTSIITLLIGMRLVQGIAAAIIQPQVLAIVQVIFPSHEQRIAFSLYGAVIGIAFAFGLILGGVIIDWNLWGLTWRNVFFVNIPFGILVLILLPLIPKDSNMLKIKIDWLGTAILMSSILLAIATLTNSQNHGFSILTISTFILTSLSILLFIKIEKEQQHPLIDLNIFTNKRFSLGIISLFSIYLSMFALFFILSYYAQNFLGYDAKATSIIYLPIGIGFFISSLLTAQITKFLRGLTLFYGALVMSICIVSLAIVLHFSWTLQDTFVIVILFIYGLSLGLATTPLASVILHGLPLKIVGVASGIFNTTMYLANSFAVAFISILFSSFMLPSTAFLMCLISISIASLIAASLFYYYQRTVTTM NA NA NA NA NA AK015_01363 777 fecE COG1120 Fe(3+) dicitrate transport ATP-binding protein FecE TTGAAATTATATGCCGAAAACATTTCTTTCATGGTAGATAACGTAAAAATTATTAATGATATTTCACTTCAAGTAAATGAAGGACAATTTGTCGGTATTCTAGGGCCGAATGGCAGTGGAAAATCAACTTTATTAAAAAGTATTTACAAAGTAAATAAGCCACAAACTGGAACTATCATGTTAGATGACCTTAATATTCTAGAAACCACATCTAAGAAACTCGCTACACATATGGCAGTTGTTGGTCAATTTAATACTACTTCTTTTGATTTTACTGTTTATGAAATGGTCGCAATGGGACGCACACCTTATAAAAAATTTATGGAAAATGATAATGTACATGATAGAACATTAATTCATGCTGCATTAGAAAAAGTAAACTTGCTGCACAAACAAGAACAAAAGTTCATGCTTTTATCAGGTGGTGAACAACAACGTGTTGTACTAGCCCGCGCATTAGTACAGGAGCCAAACTTCTTAGTATTAGATGAACCAACAAACCATTTAGATATTAAATATCAAATTCAAATCCTAAGTATCGTAAAGTCATTAAAAATAGGTGCTTTAGCTGCTCTACATGATTTGTCAATCGCTGCCATGTATTGCGATTATCTTTATGTTTTAAATAATGGACGCCTTTATGATCAAGGGAAGCCCAACACTATTTTAACAAAGACATTAATTAAAGAAGTGTATGGTGTAGATTGCCACATATCCAAAAATGCCGTCACTAACCAACTTATAATTTCATATTTTCCAATGTTAGACGACGAATAA MKLYAENISFMVDNVKIINDISLQVNEGQFVGILGPNGSGKSTLLKSIYKVNKPQTGTIMLDDLNILETTSKKLATHMAVVGQFNTTSFDFTVYEMVAMGRTPYKKFMENDNVHDRTLIHAALEKVNLLHKQEQKFMLLSGGEQQRVVLARALVQEPNFLVLDEPTNHLDIKYQIQILSIVKSLKIGALAALHDLSIAAMYCDYLYVLNNGRLYDQGKPNTILTKTLIKEVYGVDCHISKNAVTNQLIISYFPMLDDE PGPT0003760_5964 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 AK015_01364 1026 hmuU COG0609 Hemin transport system permease protein HmuU ATGATACAAAAACATTTCGTTTTATCTCTTTTATTATTAACTACTTTTTGTACCATCGTTCTGTCCATTGCAATTGGACAGGTTACAATTCCAATAAGCACAACCATTGAAACCATTTTTTCGTCATTTACAAATCAAGAAAAAAGTTTATTTTATGACATCATTTGGGATATTCGTATTCCTAGAACTTTATTAGCTTTATTAGTTGGAGCTGGCTTAGCATTATGTGGTACTGTTATGCAAGCTTCTGTCCAAAACCCTTTAGCTGATCCATATATTTTAGGTATTTCATCTGGTGCGTTATTAGGTGCTACTTTTTCAATTATAGTTAGCCATACATTGGGTAATTTCTTTGGTTCCATTAGTTTACTAGTTTGGGCATTTCTCGGCGCACTATTAGCTACTGTTGTCGTTTTATTACTAGCTAATATTGGACCAAAAATGTCGGTAGTAAAATTAATTTTGGCAGGTACAATTGTCAATGCATTATTCACAGCAATATCTAACCTATTTATCTATTTTGCAAAAGATGCAGAAGGTGTTCGTTCCATTACTTTTTGGACCATGGGTAGTCTTGCTTCAGCTAAATGGGCTGACCTACCAATCATTACAATTTTTATTGTGATAATCTCTATTTTTTTCCTCTCACAATGGCGTGTAATGAACGCCATGCTTATGGGGGAAGAAGCTGCAATGACTTTAGGAGTGAACCTTCATGTTTTGCGTAGAGTGTACTTAATTATCTCTGCCATTTTAACCGCTATTATCGTGGCCAAATGTGGCATTATAGGATTTGTTGGTTTAATAATTCCTCATTTAGTACGAATATTTACAGGTGCCAACCACCGCTTTTTAATACCTATGGTTTTACTCGTTGGCGGTCTGTTTTTAATGTGGGCTGATTTATTAGCACGTATTATTATCACAAATAGCGAATTACCAATAGGTATTGTAACAGCTATTTTAGGTGCACCTGTATTTATGCACATGTTACTAAAAAAGAAATATGGTTTTGGGGGAAATTAA MIQKHFVLSLLLLTTFCTIVLSIAIGQVTIPISTTIETIFSSFTNQEKSLFYDIIWDIRIPRTLLALLVGAGLALCGTVMQASVQNPLADPYILGISSGALLGATFSIIVSHTLGNFFGSISLLVWAFLGALLATVVVLLLANIGPKMSVVKLILAGTIVNALFTAISNLFIYFAKDAEGVRSITFWTMGSLASAKWADLPIITIFIVIISIFFLSQWRVMNAMLMGEEAAMTLGVNLHVLRRVYLIISAILTAIIVAKCGIIGFVGLIIPHLVRIFTGANHRFLIPMVLLVGGLFLMWADLLARIIITNSELPIGIVTAILGAPVFMHMLLKKKYGFGGN PGPT0003770_5687 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 AK015_01365 999 hypothetical protein ATGAAAAATATCATCATAAGTAGTTTGTTCATTAGTTTATTATTACTTATAGGTTGTAATACCTCAAATGAAACAAAGGAAGAAAAAACACAAGTATTGAATTCACATTATCCATTAAGTTATGACGTTTTTAATTATGAGGGTGATGTGCTACAGCAAACCATTGAAAATGAGCCTAAACGTGTTTTAGTAATTGGTTCTGCAATGGCGGAGTTAATGGTGAAATTCGATTTACAAGATAAAGTTGTTGGTTTTGGGTATGACGATCAAACAAATGCAAGTTACCAAGAAGAAATTAAAAAGATGCCTTTATTAAGTGAAATGTGGCCATCAAAAGAATCTATTATCGCATTAAAGCCCGATTTAATTTTTTCTGTTGCTTCTGCTTTTCGTGAGGATATGATAGGTTCCATTCCTTCCTGGAATGAAAAAAACATCCCCACTTTACCTGCGATTAATTTTAATATTGGACGTAGTAAAGATAGCTATTTTGATGAAATTAAAAATTTTGGACGTGTTTTTAACATTGAAGATCAAACAAATAAATATATCAATGAACAGGAATCACGTATTAAAAAGATAGCCGATACGATCGACCAAGCACAAGAAAAACCTAGAGTCCTTTTTATCAGTCATGTACGTGATAAATATTATTATTACTCACCTAATTGGTGCATGGTGGATGAAATGATTGAGCTTGCGAATGGTGAGTTTGTAAATATGTCCGATCAACCTTATATCGAGTTGTCTGCTGAAGCTATTATTGCAGAAAATCCAGACAAAATTGTTTTAACACAATTCCAAAAGCAAAATGAAGAAACAACATTGCACGCCCTTTTAGGAGATAAACAATTAAAAAATGTACATGCTGTTAAAAACAAAGACGTTCTAGTAGTGGACTATACTAATGCAGTAAATGGAAGCCCTGAAATCGCAAACTTATATGAAGATGTGGCTAAGTTCATTCAACCTAAGCAATTTTCGGGTGCTGAGTTATGA MKNIIISSLFISLLLLIGCNTSNETKEEKTQVLNSHYPLSYDVFNYEGDVLQQTIENEPKRVLVIGSAMAELMVKFDLQDKVVGFGYDDQTNASYQEEIKKMPLLSEMWPSKESIIALKPDLIFSVASAFREDMIGSIPSWNEKNIPTLPAINFNIGRSKDSYFDEIKNFGRVFNIEDQTNKYINEQESRIKKIADTIDQAQEKPRVLFISHVRDKYYYYSPNWCMVDEMIELANGEFVNMSDQPYIELSAEAIIAENPDKIVLTQFQKQNEETTLHALLGDKQLKNVHAVKNKDVLVVDYTNAVNGSPEIANLYEDVAKFIQPKQFSGAEL PGPT0003765_6112 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 AK015_01366 645 hypothetical protein TTGGTAAGAATCACAAAAGGTACAATAGAGAGACGCAACGAAATATTAGATATGGCTGAAAAATTATTTAGGGAAAAAGGTTATAATAAAACATCAACGACAGATATAACAAAAGGTTTAGGAGTTGCTCAAGGTACACTCTATTATCACTTTTCTTCAAAAGAAATATTAGCTAAAGAATTAGTTAATCGACAATTGCAGCTTGTACATAAACATTTTTCTAATGTGTTGCTACGGACGGATTTAACTGCTTACGAAAAATTAGCATGGATTTTCATCTATGAATTAGATGATCCGCATAACCATGTAGAAATATTTAGTTATCTACATAACGATCATAATTCACTGTTGCGTCAAATGCTATATGTACAAACAATATGTAAATTTTCACCAATTGTAACTGAAATGATTTTACAAGGTAATCAAGAAGGGATTTTCAAAGTCGAAATTCCCGCACTTATAGCAGAATTCTTCTTATCAACAATTCATCATTGGGTTGATTCATCCTTATTCAGCTGGACAAAAAAGGAGAAAATTGCTCGTATTACAGCGTTGCAATCTACATTTGAACATTTATTCGGATTGGAGGAAAATCAACTCAATTTAAATACTTTGCGCAAAGTAGTAGCTGATAAAATCCAATAA MVRITKGTIERRNEILDMAEKLFREKGYNKTSTTDITKGLGVAQGTLYYHFSSKEILAKELVNRQLQLVHKHFSNVLLRTDLTAYEKLAWIFIYELDDPHNHVEIFSYLHNDHNSLLRQMLYVQTICKFSPIVTEMILQGNQEGIFKVEIPALIAEFFLSTIHHWVDSSLFSWTKKEKIARITALQSTFEHLFGLEENQLNLNTLRKVVADKIQ NA NA NA NA NA AK015_01367 849 hypothetical protein TTGAAAATTGTGGTGATAGTTATTTATTCTATTGGGAAGTTTTCTAATATTAGCAATGTGCCGATCAAAACACTCCGATATTATGATAGCATCGACTTGTTAAAGCCTTCTGTGGTTGATAAAACAACAGGGTATAGGTATTATGACTACCAAAAGTTTTCTCAGGTGGAGCGCATAAAAGCTTTAAAGAGTCTCGGTTTTTCTTTAAATGAAATAAAGGAAATAATAAATGGAAGCATAAAAAAGGATTTAAATCAAAAATTGATAGAGAAACGAAACGATGTCATTGTTAGAAAAAGTCAATTAGAAAGCATTATTAGTGAAATAGATGATATATTAAATTATTCTAAGCCTTATTTTGAAAAAAAATATCATATCAGTTCAGTTTATTTTGAATATCGTCCGTCTATAACAGTTATTAGTATAAAAGAGAAGATTGAAATACATCAAATGGATCAGTTAGTCGAGCGCTTATTTCAAAAAGTGTACGCATACAATTGTAAAATAAAAGGGAATTTGATGACTATATGGCACGAATGGGACAATCCATTATCACAAGAGACAGAAGTCATGTTTGAAATAGATGGAGATATATTAAATAATACTTTAGAGAATGAAGTAAAAATTATCCCTAATGGAGAATATGCATGTGTTGATTTTGTTGGTTTGTATTCTGATTTAACGGTAGCTTATGACCAATTGAAAGATTTAATTGTAAAAGATTCTTTTTTTATTGAAGAATATATGGAGGGTTTGGTTCCTCAGGAAATGGATGATATGTTATGTGTAAAACCATTAAAAGATGCAGATCCTAATAATTTTAAGACAAAAGTTATGTTGAAATTATAA MKIVVIVIYSIGKFSNISNVPIKTLRYYDSIDLLKPSVVDKTTGYRYYDYQKFSQVERIKALKSLGFSLNEIKEIINGSIKKDLNQKLIEKRNDVIVRKSQLESIISEIDDILNYSKPYFEKKYHISSVYFEYRPSITVISIKEKIEIHQMDQLVERLFQKVYAYNCKIKGNLMTIWHEWDNPLSQETEVMFEIDGDILNNTLENEVKIIPNGEYACVDFVGLYSDLTVAYDQLKDLIVKDSFFIEEYMEGLVPQEMDDMLCVKPLKDADPNNFKTKVMLKL PGPT0003907_17 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003907-bmrR-NA NA NA AK015_01368 1098 hypothetical protein ATGAAGGGAAAAGGAAGCTTTGTTTATCTAGAAGGAACTTCATATGAAATAGGATATAATCAAGGAAAAGATCTAAGTGTTATTCCAAACATACAAAAAATGTTGTTTGAAGATCATAAGAAAAGTAAAGCTCGTGCGGAAGATACTTTAGAAAATTTTAATATGTATTGTCCAGAATTGATAGACGAATTACAAGGGGTTTCTGATTATTTCAATAGGGATGTAGAAGAATTAAGATTTATACAAGATAGTTATTTAATGGGTGGTGGTTGTAGCTTGGCGGCTATTACACCGAAAATGACAGTTGATGAAAAAATGTATGTTTTTAGAACGTATGATTTAAGCCCGAATATATCTGATATGAGGCTATGTTCTACGAATGCAGATAATAAGTACTCTCATACAGGTTTTTCTGTTTCAACATTCGGTAGAAGTGATGGTTTAAATGAGTATGGTCTATGTGTAACCTTTGCTTCGTGTGGTGTACCAGTTGGAAACCACCCAGGAATGTTAAAAGCTAAAGTAGATGGTTTAAATTTTATGGTGGTTGTCCGAATTATATTGGAAAATTGTCAAACCATTGAACAAGCTATTGATTTGTTTTATGAACTACCCATAGCATCTAATATGAATTTGTTGATAGCTGATAGATTTGAGAAAGTTGCAATTCTAGAAGCGTATAATGGAAGTAAGGGGCATACAATAGAAGAAAGTAGATACAGTTTAGCTACAAACCATGCATTGCTAGAAAAGGTAAAAATTCAAGAAATGTCCATATTAAAACAATCTGTGGTTCGTTATGAAGCAATGGATCAATATTTTTCAAATAGACAATTGGTAACCAAAGGTGATATGAAGGCAATATTAAAAGCAGAGTATCCAAAAGGTGTGTCGTCTCTAAATTATGAAGAAGGTTTTGGAACCGTTCATGCAGCACTATTTTGTATTAGTGATAGAACAATGGAGTTTTCATTTGGTTCTCCCATGCGCAATGAAATATATCAAATCAAAGTCGGTGATAATATGCCAAACAAAAGCTTTGATATTGATTTAAAAAACAAAAGTTATGGACGAGATTTTTGGGATTTGATGGAATAG MKGKGSFVYLEGTSYEIGYNQGKDLSVIPNIQKMLFEDHKKSKARAEDTLENFNMYCPELIDELQGVSDYFNRDVEELRFIQDSYLMGGGCSLAAITPKMTVDEKMYVFRTYDLSPNISDMRLCSTNADNKYSHTGFSVSTFGRSDGLNEYGLCVTFASCGVPVGNHPGMLKAKVDGLNFMVVVRIILENCQTIEQAIDLFYELPIASNMNLLIADRFEKVAILEAYNGSKGHTIEESRYSLATNHALLEKVKIQEMSILKQSVVRYEAMDQYFSNRQLVTKGDMKAILKAEYPKGVSSLNYEEGFGTVHAALFCISDRTMEFSFGSPMRNEIYQIKVGDNMPNKSFDIDLKNKSYGRDFWDLME NA NA NA NA NA AK015_01369 537 hypothetical protein ATGAAACTATATAAGGAATTAAACATTCTAGAAGATAAAAAATTATACAATAAAATAAACCTATGTAGTATAGCGATCCTAATAATTACAACGGTTGCTGTGTTGGTAGCTCACACCATTATAATCGGAGAAGTTCGTTTATTCTTTTCTCTATCTACATTGGTGTGGGTACTAGGAGTAACGTTAGTCTCCTTACCAATTCATGAGTTTATTCATGGAATATTTTTCAAAGCCTTTTCTACATCTGGAAAAGTGAAGTATGGGTTTACAAAAGGGATGCTTTATGCGACGAACCCTGGACAAGTTTATACAAAGCGACAGTTTATGATCATTATTTTAGCCCCGTTTGTTATAAATAGTATACTATTTTGTCTTCTATTTATTTTTGGAATGGAAAGCACTGCTTTTTGGATTGTATTCATTCTCCATACAGCAGGATGTGCTGGTGACTTTTGGTATATTTATGAAATCATTAAAAATCCAAACATCACCCATTGTGAAGATACGCCAGTTGGCGCTAAATTTTTTGTAGCGTAA MKLYKELNILEDKKLYNKINLCSIAILIITTVAVLVAHTIIIGEVRLFFSLSTLVWVLGVTLVSLPIHEFIHGIFFKAFSTSGKVKYGFTKGMLYATNPGQVYTKRQFMIIILAPFVINSILFCLLFIFGMESTAFWIVFILHTAGCAGDFWYIYEIIKNPNITHCEDTPVGAKFFVA NA NA NA NA NA AK015_01370 642 hypothetical protein ATGAAGAATCAAACAAAGAAGATTTATGGAAGCATTGTACTTACCCTGTTTATTTTCTTACTCGCAGGATGTGCAAATAGCATGGAGGAAGAATCAGAAGCGGAGAATTCAGAGAAGGATGTCACTACAGTATCGGAAACAGATAATAAGGAAGATCATAAAAACAACGACTTAGAAAAAACGCCATCTAGCAACACACCTAATAAAGGGAAAACAGGTGAATCCAAAGATGCTTCTTCAGAAGACAATGCGGAAAAAGATACCTTATCCAATTATTCTACAGAGGAAATTGAATATGCACGTATTTGGCTACAGCTTGGGGCAATTAAAGATGTAGAGGAATTGAATATCCGCCATATTTCCGCTGGGACACCACTTAACCCCGATGATGAAACAAGTGCGAGCTATCCCGAAGACGTCATTCAGTTATCTGGTAGCCGTTTAGTAGCGGGTTCCGTAACATATAGTAGCAATGGAGACGGAACAATAAATGTATATAACATCCCCTTACGTTGGGACGGCAGCTACCCAACAGGAGAAGATTTTTACAAAGATTTGATTGAAAATACGGAGTTAGTGCGTGTAGATAGAGGAGAAGATAATAAAATTAGTGCGCTCATTAACAAAATGAATACTCTGTAA MKNQTKKIYGSIVLTLFIFLLAGCANSMEEESEAENSEKDVTTVSETDNKEDHKNNDLEKTPSSNTPNKGKTGESKDASSEDNAEKDTLSNYSTEEIEYARIWLQLGAIKDVEELNIRHISAGTPLNPDDETSASYPEDVIQLSGSRLVAGSVTYSSNGDGTINVYNIPLRWDGSYPTGEDFYKDLIENTELVRVDRGEDNKISALINKMNTL NA NA NA NA NA AK015_01371 1119 pdhA_1 Pyruvate dehydrogenase E1 component subunit alpha ATGTCTAAAAAAAGTACAACAAAGTTAGATTTAGTTAGCCTTGTAAAAGGATATAAAGATTCGTTTCCTTTTTACCAAGTACTAGCTCCATCAGGAGAAATAGTGCATTCTGACCTAGAACCTAAGCTAAGTGATGAAGAACTGAGTACATTAATGAAAAGACTTGTATGGGCCCGGACGTATGATAAAAGAGTTACATTACTAAACCGTCAAGGAGCTTTAGGAAATTATGCTCCAGGTGGGGGACAAGAAGCTAGTCAAATTGCTACACAATATGCCTTAGGTGAGAAGGATTTTTTTGCAGGAACCTACCGAGATTTAGCACCGCTTATTTTACATGGCTTACCTTTAGAAAAAGCTTTCCTTTGGTATAAAGGGCATATGAAAGGAAATGAGTATCCAGAAGATCTCCAAGCTTATGCACCGCAAGTGATTGTTGGTGGGCACATTACACACGCAATGGGTGTTGCATTTGGAATGAAAAAGCGAAATAAAAAATCAATCGTATTGTCATTAAGTGGTGATGGAGCAACGTCACAAGGAGACTTTTATGAGGGCATTAACTTTGCTGGTGCTTATCAGGTTCCTTATGTTGCCGTTGTTCAAAATAATGGATATGGTATCTCGGTACCAGTCGAACAACAAACGGCCGCTGAAACATTGGCACAGAAAGCTGTAGCGGCAGGAATTCCGGGTATTCGAGTAGATGGAATGGACCCACTTGCTATGTACGCAGCAGTCTCTACAGCTCGTGAACATGCCTTGGCAGGGAAAGGACCTGTCGTTATAGAAGCGTTAACCTACCGTTTTGGACCACATACGATGTCTGACGATCCAACTCGTTATCGTTTAGCTGAGGAGTTAGGAGAATGGGAGCAAAAAGATCCCCTAGTTAGAATGAGAACGTATTTAAGCAATAAAGGCTTATGGACGGAAGAACAAGAAAAAGAAGTTGAAGAATCTTGTAAGCAAGAGATTAAAGACGCCGTTGCAGCAATTGGTCAAGTTGACAAACAAAAAGTGTCTGATTTCTTGAAGAACATGTATGAAGTTTCTCCTCAAAATATTCAAGAACAAATTGCTGAATACGAAGCAAGGGAGATGAAGGAAAATGGGTAA MSKKSTTKLDLVSLVKGYKDSFPFYQVLAPSGEIVHSDLEPKLSDEELSTLMKRLVWARTYDKRVTLLNRQGALGNYAPGGGQEASQIATQYALGEKDFFAGTYRDLAPLILHGLPLEKAFLWYKGHMKGNEYPEDLQAYAPQVIVGGHITHAMGVAFGMKKRNKKSIVLSLSGDGATSQGDFYEGINFAGAYQVPYVAVVQNNGYGISVPVEQQTAAETLAQKAVAAGIPGIRVDGMDPLAMYAAVSTAREHALAGKGPVVIEALTYRFGPHTMSDDPTRYRLAEELGEWEQKDPLVRMRTYLSNKGLWTEEQEKEVEESCKQEIKDAVAAIGQVDKQKVSDFLKNMYEVSPQNIQEQIAEYEAREMKENG PGPT0018025_1095 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 AK015_01372 975 pdhB_1 Pyruvate dehydrogenase E1 component subunit beta ATGGGTAAAAAAACAATTGTACAGGCTATTAATGATGCACTGGACTATAAATTAAATAAAGATGAAAACGTTTTATTGTTTGGTGAAGATATTGGACCTAACGGTGGTGTTTTCAGGGTTACAGATGGGCTTCAAGCTAAACATGGAGAGGATCGTGTATTTGATACACCATTAGCAGAATCCGGGATTCTAGGTATGTCTGTAGGATTAGCTACAGAAGGATTTAGACCTGTCCCTGAAATACAGTTTCTAGGATTTATTCTAGAAGCAATGTCTCCAGTTGTAGCCCAATTTTCTCGAATGCGCTACCGGATGGCAAACACAAGAAGTATGCCAATTACAGTTAGAGCACCATATGGCGGTGGAGTGCATACACCAGAACTTCACTCCGATAGTTTAGAAGGTATATTAGCACAGGTGCCGGGGATGCGTATTGTTATTCCAAGTAACCCATATGATGCCAAAGGGCTACTTATTTCTGCGATCGAAAGTAATGATCCGGTTATTTTCTTAGAACATTTGAAGCTTTACCGCTCCATTAAACAGGACATTCCAGATGAAGATTATCGTGTACCTTTAGATAAAGCAGCAGTTACACGTGAAGGATCTGATGTAACCGTTATAGGGTATGGTCTTATGATTAGTGAAGCACTTAAAGCAGCTAAAGAATTAGAAGATGAAATTTCTGTAGAAGTTATTGATTTAAGAACGATTGCACCAATTGATATGGACACAGTGCTTGCATCCGTTAAGAAAACAGGTCGTGTTGTGGTTACACAAGAAGCACAACGTCAAGCAGGTGTCACGGGACAATTAATGTCAGAAATTGGGGAGCGTGCCTTTATGTATTTAGAAGCACCTATTTCAAGAGTTACCGCACCAGATTCCGTTTACCCGTTTGGTGCAGCTGAAGCAGACTGGCTCCCTAATGCGAAAGATATTATTAAAAAAGTGAAGGAAGTATATGATTTTTAG MGKKTIVQAINDALDYKLNKDENVLLFGEDIGPNGGVFRVTDGLQAKHGEDRVFDTPLAESGILGMSVGLATEGFRPVPEIQFLGFILEAMSPVVAQFSRMRYRMANTRSMPITVRAPYGGGVHTPELHSDSLEGILAQVPGMRIVIPSNPYDAKGLLISAIESNDPVIFLEHLKLYRSIKQDIPDEDYRVPLDKAAVTREGSDVTVIGYGLMISEALKAAKELEDEISVEVIDLRTIAPIDMDTVLASVKKTGRVVVTQEAQRQAGVTGQLMSEIGERAFMYLEAPISRVTAPDSVYPFGAAEADWLPNAKDIIKKVKEVYDF PGPT0019590_2901 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 AK015_01373 1332 pdhC_1 COG0508 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGATTTATTCATTTATATTACCTGATAGCGGTGAAGGGATACACGAAAGTGAAATTGTCTCGTGGGTTGTACAACCTGGGGATAAAGTAAAAGAAGACGATACGCTAGTAGAAATTCAAAGTGATAAGGCTGTTGTAGAACTTCCTTCTCCTGTTTCTGGTGTTGTAAAAAAATTATTATTTAAGGAAGGTGATGTTCCAAAGGTTGGAGACGCAATTATGGAAATTGAGATGTCTGATGAAGGTGCTGAAAAAGTAGCAAAGGAAGAGGAAGGCAATGTTACGAAAGAGCGTGGTACGGATACGGTAGCCATTGAACATGAAGCTGTTCGTCATTTGACTCCATCAGATGAACTGCCTGAGGAAACACTGGATCAAAAATCAGTCGCTAAAAAGCCAGCTTCAGACGTGGACATTAGAATGTTAGCTATTCCAGCCGTTAGAAAATATGCACGTGAAAAAGATGTTGATATTACGCAAGTTCCAGCTACTGGAAAAAATAGTCGGGTCACAAAAGAAGATATTGATCATTTCTTAGCTTCAGGTGGACAAGCTGCACAAGAAGAAGTGGTTCAAAAAGAAATGGTTCAGGAACAAGCAGCACCCGAAACAACAGTCACTGAACTAGAGCGTAGAGTTAAAATGACTCCTACTCGTAAAGCGATTGCAAATGCCATGGTAAATAGTAAAGCGACTTCACCTCATGTAACGGTGTTGGATCGTGTGAATGTCTCTAAACTCGTAGAACATCGGGATCGTTTTAAGGTTATTGCCAAAAAACGAGGCATTAAATTAACGTATACTGCTTACTTTGTAAAAGCACTGACGGCTATATTAGCTCGTTACCCTGACTTAAATGCATCCATAGATGAGAAAGCAGGAGAAATTATTTATAAAAATTACATGAACGTAGGAATTGCAACAGATACAGATAAAGGTCTCTTTGTTCCGGTAATCCATGAGGCAGATCGTAAAAGTTTATTTAAGATTGCTGAAGACCTTGCCGAAAATACAGAAAAAGCAATGAATGGAACATTAACAAGTGCAGACATGAAAAATAGCTCAATGACAATTACGAATGTTGGAGCTCTTGCAACTAGTGGTGTATGGTCAACTCCAATTATCAATCAGCCAGAAGTTGCTATTCTTGGGGTAGGTAGGATAGAAGATGAAGTCATCCCTGATGAAAATAAACAACCAATGGTTGCACCGATGTTAAAAATATCATTTGGTTTTGATCATAGAATAATTGATGGTGGAACGGCACAAAGAGCAATTAATGATTTAAAAGATTATTTAGCTGATCCAGAATTACTTTTTGTAGAAGGGTGA MIYSFILPDSGEGIHESEIVSWVVQPGDKVKEDDTLVEIQSDKAVVELPSPVSGVVKKLLFKEGDVPKVGDAIMEIEMSDEGAEKVAKEEEGNVTKERGTDTVAIEHEAVRHLTPSDELPEETLDQKSVAKKPASDVDIRMLAIPAVRKYAREKDVDITQVPATGKNSRVTKEDIDHFLASGGQAAQEEVVQKEMVQEQAAPETTVTELERRVKMTPTRKAIANAMVNSKATSPHVTVLDRVNVSKLVEHRDRFKVIAKKRGIKLTYTAYFVKALTAILARYPDLNASIDEKAGEIIYKNYMNVGIATDTDKGLFVPVIHEADRKSLFKIAEDLAENTEKAMNGTLTSADMKNSSMTITNVGALATSGVWSTPIINQPEVAILGVGRIEDEVIPDENKQPMVAPMLKISFGFDHRIIDGGTAQRAINDLKDYLADPELLFVEG PGPT0001390_4435 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 AK015_01374 1419 pdhD_1 Dihydrolipoyl dehydrogenase ATGATCATGGTAGTAGGGGATTTTGCTGAAGAATTAGAAACAGTAGTCATTGGTTCAGGACCAGGAGGGTATGTTGCTGCCATTCGTGCTGCACAACTTGGTCAAAAGGTAGCTATTATAGAGCGTGGAGAAATTGGTGGTGCTTGTTTAAACGTTGGTTGTATTCCATCTAAAGCGTTAATTCATGCTAGTCATAAATATCAAACTTCCTTGGATTCCAAAATTTTAGGCATTCATACGAAAGAAACGACCGTGAATTTTAAAGAAACACAAGCTTGGAAAAATAAAGAAGTCGTTGCTACGTTAACAAAGGGTGTTGAAATGCTTCTCAAGAAAAATAAAGTCGAAATAATGAAGGGAGAAGCACACTTTATTGATAATGAAACGCTTCGTGTTATGTATGATGACGAATCTGGACAGACGTATAACTTTAAGCATGCGATTATCGCTACGGGAAGTCGTCCAATTGAAATCGAATCATTTAAATTTGGTAAACGTGTTATAGATTCCACTGGCGCATTAAACTTAACCGAAATACCTAAGAAACTGACTGTCATAGGCGGAGGATATATTGGTGTTGAACTTGCTGGTGTTTACGCTAATTTCGGTACAGAAGTGACTATTTTAGAAGGATCGGAACAGATTTTACCTGGTTTTGAAAAAGACATGGTTAAACTTGTTGTTGATGCATTCAAAGCTAAAAATGTTTCCATTGTAACAAATGCGATGGCTAAATCTGTGAAGCAAACAGACAAAAAAGCAACGGTCACATATGACGCAGGTGGGCAAGAAGAAGCCATTGATGCTGACTATGTGTTAGTATCTGTAGGACGTAAGCCTAACACAGATGATATTGGTTTAGAACTAGCTGGCATTAAAACAAATGATAAAGGTCTTATTGAAGTCGATGAACAAGGTCGCACGAATAAAAAGAATATTTTTGCCATTGGTGACGTTGTCCCCGGAGCTGCACTTGCCCATAAAGCAAGCTATGAGGCAAAAGTAGCTGCTGAAGTAATTAGTGGAAGCAAAGGTGCAGCAGTAGATTACTTGGCAATGCCTGCTATATGTTTCACAGATCCAGAACTAGCAACAGTTGGTTATACGAAAAAAGAAGCGAAAGAACATGGATATGACGTCAAAGAGAGCAAATTCCCACTTGCAGGTAATGGGCGTGCATTATCCCTAAATCAAACAGAAGGATTTGTCCGTCTCATTACAGAGAAGGAAAGTGGTACGCTATTAGGTGCGCAAATAGCTGGAGTTAGCGCAAGTGATATGATTGCTGAAATAGGATTAGCAATCGAAAACGGATTAACTGCGGAAGATGTTACATTAACTATTCACAGTCACCCATCCATGGCAGAAAGTGTGATGGATGCTGCCGAGTTAGCATTAGGACAACCGATCCATATCTAA MIMVVGDFAEELETVVIGSGPGGYVAAIRAAQLGQKVAIIERGEIGGACLNVGCIPSKALIHASHKYQTSLDSKILGIHTKETTVNFKETQAWKNKEVVATLTKGVEMLLKKNKVEIMKGEAHFIDNETLRVMYDDESGQTYNFKHAIIATGSRPIEIESFKFGKRVIDSTGALNLTEIPKKLTVIGGGYIGVELAGVYANFGTEVTILEGSEQILPGFEKDMVKLVVDAFKAKNVSIVTNAMAKSVKQTDKKATVTYDAGGQEEAIDADYVLVSVGRKPNTDDIGLELAGIKTNDKGLIEVDEQGRTNKKNIFAIGDVVPGAALAHKASYEAKVAAEVISGSKGAAVDYLAMPAICFTDPELATVGYTKKEAKEHGYDVKESKFPLAGNGRALSLNQTEGFVRLITEKESGTLLGAQIAGVSASDMIAEIGLAIENGLTAEDVTLTIHSHPSMAESVMDAAELALGQPIHI PGPT0001380_4419 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 AK015_01375 1056 hypothetical protein ATGGGAACAGAAACAATGACAGCCAAGAAGTTTTCGATGAATGTACTAAATGGATTAGCAATAGGTACTGTTTTAGCATTAATACCAGGTGCATTACTAGGAGAATTATTTAAAGCATTATTACCTATTTTTCCTCAAGGTCAGTTTGTTTTAGATGTTACATCCATGTCCAACTCGATATTAGGATTAATCGTTGGTGTTTTGATTGGTTATCAATTTAAATTCACTCCCATTCAATCAGCTTCCCTCGGTCTTGCAGTCATGGTAGGTGGAGGAGCAGTTGATTTTTCAGGTGACGCTCTAACTATGGCAGGAACGGGCGATGTCATTAATATGATGTTTACGGGTGCTATTGGTGCTGGGATTATTCAATTGTTAGGTTCACGTTTAAAAAGTTACAGTATTATTTTAATACCGCCAATTCTATTAATTGTTGGTGGAGGGTTAGGTTATGCTCTTTTACCATATGTTGGGCACATTACAACACTTATCGGCCATTTTGTATCTCAGTTACTTACGCTACAACCTATTATCATGAGTGTTTTACTTGCGATTTTATTCTCTATTCTTATCACAACGCCAATTACTACAGTCGGAATTGCCCTTGCTGTTTCCCTAGCAGGTATTGGATCTGGTGCTGGAAATTTAGGGGTCGTTGCTGCAGGCTTCGGGCTTGCGATTGCAGGTTGGAGAGTAAACTCAGTGGGGACATCACTGGCTCACTTTATTGGTTCCCCAAAAATGTCAATGCCGAACGTCTTTGCTAAACCGAAAATATTGCTACCAGTTATTTGTAATGCTGCTGTATTAGGAATACTAGCGGCGATATTTAAAATACAAGGAACGCCTATGAGTGCGGGGTTTGGATTTAGTGGACTGGTTGGCCCGGTTAACCATCTCAACTTGGCAGCAGGTGGATGGTCCGTTGGAAACATATTAATTACGATATTAGTATTTGTTGTCGCTCCAATAGGTTTAGGGATATTTTTTAATTACCTGTTTACAAAAATCTGGCCAATTATTTCACCAGAAGATTACAAACTCGACGTAGAATAA MGTETMTAKKFSMNVLNGLAIGTVLALIPGALLGELFKALLPIFPQGQFVLDVTSMSNSILGLIVGVLIGYQFKFTPIQSASLGLAVMVGGGAVDFSGDALTMAGTGDVINMMFTGAIGAGIIQLLGSRLKSYSIILIPPILLIVGGGLGYALLPYVGHITTLIGHFVSQLLTLQPIIMSVLLAILFSILITTPITTVGIALAVSLAGIGSGAGNLGVVAAGFGLAIAGWRVNSVGTSLAHFIGSPKMSMPNVFAKPKILLPVICNAAVLGILAAIFKIQGTPMSAGFGFSGLVGPVNHLNLAAGGWSVGNILITILVFVVAPIGLGIFFNYLFTKIWPIISPEDYKLDVE NA NA NA NA NA AK015_01376 984 pta_1 COG0280 Phosphate acetyltransferase ATGTTACATGATTTTCAAGAATTGGAACAAAAGATAGGCAACATAAAGGAACCTAAAAAAGTAGCTGTCGTTAAAGCGGCTAATGAACAAGCGTTAGAAAGCATTTTTGAACTAGCTAATGAAGGAGTAGTTATACCATTTCTAATTGATAGTCAGTCAGAAATAGAAGATTTAATATCAAAAATGGATATGAAAAACACTACTTATCATATCGTTGACGTGTCATCTGATCAAGAGGCAGCGTATAAAGGTGTTGAATTAGTAAGGGAAAATAAAGTTCATTTTATTATGAAAGGAAATATTCAAACGGGGACATTATTAAAAGAAGTCGTTCATCGGGAAACAGGAATACGAGAGAAAGATGTCCTTTCTCATCTAGCGTTAATCGATGTCCCTGCTTATCCAAAACTGATTGGAGTTACAGATGGTGGTATGCTGTTAACGCCAAATGTCGATCAAAAACAGGCGATGATAGAAAATGCGCTAGAAGTCATGCGGGCATTAAACTATCATCATCCAAAATTTGCGGTATTATCTGCAGCTGAAGTTGTTCAGCCTAAGCTTCCAGCTTCAACAGATGCAGATGAATTAACGAAACGATTTAAGGAAAGTGAAGATTGTGTTGTAGAAGGACCTATTTCATTAGATGTTGCTCTCAGACCTTCCATTGCGACTGAAAAAGGATACCAAGGAGAAATTAACGGGGATGCAGATGTATTAGTTGCTTCTGATGTTGTAGCCGGTAATACATTATCCAAAAGTATGCTCCTACTTGCTAACGGCACAATGGCTGGCATTATTCTTGGGGCTCAAGTTCCAATTGTTTTAACATCTAGAAGTTCAAGTACACTGGAAAAACGATATTCTCTTCTGTTGGCATTACAAATTAGCCATGCACAAAAAGAGGAAGGAGTAAATGAAGATGGCGGATCGTATTCTATCTATAAATCCTGGAGCAACATCAACGAAACTTGCATATTTTGA MLHDFQELEQKIGNIKEPKKVAVVKAANEQALESIFELANEGVVIPFLIDSQSEIEDLISKMDMKNTTYHIVDVSSDQEAAYKGVELVRENKVHFIMKGNIQTGTLLKEVVHRETGIREKDVLSHLALIDVPAYPKLIGVTDGGMLLTPNVDQKQAMIENALEVMRALNYHHPKFAVLSAAEVVQPKLPASTDADELTKRFKESEDCVVEGPISLDVALRPSIATEKGYQGEINGDADVLVASDVVAGNTLSKSMLLLANGTMAGIILGAQVPIVLTSRSSSTLEKRYSLLLALQISHAQKEEGVNEDGGSYSIYKSWSNINETCIF PGPT0001810_201 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001810-ptb-K00634 NA NA AK015_01377 1098 buk2_1 COG3426 Butyrate kinase 2 ATGGCGGATCGTATTCTATCTATAAATCCTGGAGCAACATCAACGAAACTTGCATATTTTGAAAATGATGAATTGATTTTAAGTAAAGAATTAACCTATTCCTATGATGATATTGCTAAATACGATTCTATCATGGATCAATATGATTTTCGATTTAGAGAGATTACCATGTGGTTAACAGAACAAAACATGACGAATGGTTCTTTCGATGCGGTTGTAGGTCGTGGAGGATTGTTACCTCCAGTTAATGCAGGTGCATATATTGTTGATGACGCAATGATAGATTGTTTAAAAAATCGTCCTGTCTTACAACACGCTTCAAATTTGGGAGCTACGCTGGCAAAAGGGGTTGCTCAAGCGTTTGGCACATTGGATTGTAAGGCCTATATATATGATCCTGTAACGGTTGATCAAATGGATGATGTTGCACGAATTTCAGGGGTTGCAGACATAGAGCGTAAAAGTATTGGTCATGTGTTAAATATGCGAGCTGTCTGTATGAAAATTGCAGAAGAAAAGTTACAGAAGCCTTATGAAGAAAGCAATCTTATTGTAGCACATGTTGGCGGAGGAAGTTCAGCTAGTGTTCATAAAAACGGCCGTATGATTGATCTTGTATCTGATGATGAAGGTTTATTTTCAACAGAACGTTCTGGAGGTCTCCCATTAAAAGAAGTTATTCCATTGTGTTTTGAACGTACGAAAAAAGAAATGACGGATTTGACACGGAAAAAAGGTGGACTTGTCTCTTATTTTGGTACAAATGACGCTCGTATTGTTGAGGAAAAAGCTAAAAATGGGGATGAAAAAGCAAAACTTGTTTTAGAGGCGATGGCTTACCAAATAGCAAAGACAATTGGTGAACTCGCTACGGTTCTTTACGGAAAAGTGGATGGAATTATTATGACTGGTGGACTTGCTTATTCGGAGTTTATTACCAGTCTGGTGAAAGATAGAACCTCTTTTATTGCCCCTGTTTTCTTTGTTCCGGGGGAAGCAGAAATGGTAGCACTTGCTAAAGGAGCGAGGCGTGTTTTAGTTGGTCAAGAAAAAGCGCAAGTTTTTAAAGAACACGACAGAAAGGCAATTGTTGTGTAA MADRILSINPGATSTKLAYFENDELILSKELTYSYDDIAKYDSIMDQYDFRFREITMWLTEQNMTNGSFDAVVGRGGLLPPVNAGAYIVDDAMIDCLKNRPVLQHASNLGATLAKGVAQAFGTLDCKAYIYDPVTVDQMDDVARISGVADIERKSIGHVLNMRAVCMKIAEEKLQKPYEESNLIVAHVGGGSSASVHKNGRMIDLVSDDEGLFSTERSGGLPLKEVIPLCFERTKKEMTDLTRKKGGLVSYFGTNDARIVEEKAKNGDEKAKLVLEAMAYQIAKTIGELATVLYGKVDGIIMTGGLAYSEFITSLVKDRTSFIAPVFFVPGEAEMVALAKGARRVLVGQEKAQVFKEHDRKAIVV PGPT0001815_160 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001815-buk-K00929 NA NA AK015_01378 933 panE_2 COG1893 2-dehydropantoate 2-reductase ATGAAAATAGCAATCGCAGGATCTGGAGCGTTGGGTAGTCGGTTTGGCTACATGCTTTACGAAGCAGGAAATGATGTTATCTTAATTGATAAATGGAAAGAACATATTGATTCCATTCGGGAAAATGGTCTCATCGTTCAAGATGGAAATAACAGAAAAATAGTTAACATTCCTATCTTTTATCCCCATGAAGTGGCTGAGGAAGTTGATCTTGTCTTCGTTTTCACAAAATCAATGGGTTTGCAGGATATGCTAGAGGACATAAAACCAATTTTAGGGGAAAATACAAGTGTGATTAGTTTACTAAATGGAATTGGCCATGAAGATATATTAAAAGAATACCTTCCTGTTAAAAACATTTTTATGGGTGTGACCATTTATACTTCAGGATTGAAAGGTTCTGGCCACGTTATCTTTGAGGGATCTGGCACCATTGAAATTCAGAACTTTACACCAGGAGATCGTGAAGAGAAAAAGGCCTTACAACTTGTAGGTATGCTCAATCAAGCTGGTTTTAAAGCATACTATAGTGAGGATGTTAAATATTCTATTTGGAGAAAAGCATGTGTTAATGGAGCGATGAATGCAATTTGTGCACTACTTGATTGTAACTTGGCAGAGTTCGTATCAACGAATCAAGCCGAAATGATTATTCGTCATATCGCGAAGGAGTTTGTTAAAGTAGCCAAGGAAAAGGGAACAATACTAGATGAGGATGATATAGTTGAATATATTTTACAGTCTTCTAGAAAAGTTGGAAGTCACTATCCCTCCATGCACCAAGATCTCATTCAAAACCATCGTTTAACAGAAGTGGATTTTTTAAATGGTGCTGTAGCCCGAATGTCGAAAGAACTTAGCTTTGAGACTCCATATAATACATTAATTACGCAATTAATACACGCTAAGGAACAAATCATAATGGATGAATAG MKIAIAGSGALGSRFGYMLYEAGNDVILIDKWKEHIDSIRENGLIVQDGNNRKIVNIPIFYPHEVAEEVDLVFVFTKSMGLQDMLEDIKPILGENTSVISLLNGIGHEDILKEYLPVKNIFMGVTIYTSGLKGSGHVIFEGSGTIEIQNFTPGDREEKKALQLVGMLNQAGFKAYYSEDVKYSIWRKACVNGAMNAICALLDCNLAEFVSTNQAEMIIRHIAKEFVKVAKEKGTILDEDDIVEYILQSSRKVGSHYPSMHQDLIQNHRLTEVDFLNGAVARMSKELSFETPYNTLITQLIHAKEQIIMDE PGPT0008745_3039 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 AK015_01379 885 gltC_1 HTH-type transcriptional regulator GltC ATGGAGCTTCGACAAATTAGATACTTTGTAGCCATTGCAAACTCTAAAAGTTATTCAGAAGCAGCAAATAATTTATTTGTGACGCAACCAACCTTAAGTTGGAACATACAAAAGCTAGAAGAAGAATTAAACGTTCGTTTATTTTATCAAACAAATCAAGGGTTAAAACTAACCGAGGCAGGAAACATATTCTATGAAAAAGGAAAAGACATTCTTATTCATGTAGATGAATTAACAGAAACCATTCAGCAACTCAATCAAAAGGAAAACAAAACACTAAAAGTTGGCCTAACTGTTCTTTTTGCTATTCAATATATGAAAGAAATTGTTCATTTTACTTCTACCCATCCTGAAGTTGAAGTATCCCTTATTCAAACCGGATCTATTAAATTGCAAAAAATGCTCGCCAACAAGGAACTAGATATTGGATTATTATCTTTCCCTATTTATGAGCCTTCCATTACTATTGAAAACTTGAACACTTCTAATCCAGATTACTCAGTCGCTGTTGTCATGCCTTTTAACCATCCATTAGCTGAGAAAAAATCCATACAATTCTCCGATTTAAAGGGTGCTTCCATTTGTTCATTTTCTTCTAATTACGTATTGGGAAAAATACTTCATAAATCCTGTCAGGAAAATGGATTTCAACCAAATATTATTTTTATGAATGACAACTGGGAAGTTTTATTACAGAATACGCTTATTACAGGTGGTGTCACCTTAATGCCAAAAGCACTTGAACGCCTGAGTAACTATAACAATTTAAAATGGATACCGCTTAATGATAAAGCAAATTATTTTAAAATAGGAATTGCAAAAAGAAAAAATGAACACTTAAAAGATATTGCTATACGTTTCATTGATACGATAAAAAAGAATTAA MELRQIRYFVAIANSKSYSEAANNLFVTQPTLSWNIQKLEEELNVRLFYQTNQGLKLTEAGNIFYEKGKDILIHVDELTETIQQLNQKENKTLKVGLTVLFAIQYMKEIVHFTSTHPEVEVSLIQTGSIKLQKMLANKELDIGLLSFPIYEPSITIENLNTSNPDYSVAVVMPFNHPLAEKKSIQFSDLKGASICSFSSNYVLGKILHKSCQENGFQPNIIFMNDNWEVLLQNTLITGGVTLMPKALERLSNYNNLKWIPLNDKANYFKIGIAKRKNEHLKDIAIRFIDTIKKN NA NA NA NA NA AK015_01380 516 hypothetical protein TTGAAAAAAGTATTGTTTTTAATTGTTATTAGTATTTTGAGCCTTTCATTGGCTGCTTGTTCTGGAGAAACTGAGAGCGAAGCAAAGGCAGAAAATGAAAAAGAGACGGAGCAAGAAAATAAGGAACAAGAAGAGGCAGATAGTCAAAAGACGGAAGAGAAACAAGAACAAAACAAAGGTATGAATGTGGATAAAGCAACACAATTATTAGAGGATCATGTATTAGAAGAAAATGATGAAATACAAAAATTAACGATGAACGATGGAGAAATAAAAGCTTCCATTATAATTGGCGATAACGACACGATAAATGATAAAACTTTGTTAGCTCAAATTGCTTATAGTAGTGCCGGTGATGAATTTTTGCAACATGAAGGCTGGGAAGTACTAACCATAGATTTTGTTGATCTTGCTGAAGTATCGATGCATCGAAATGAACAAGAAACCGATGAAAATGATTTTGTTTATTTTCCAATGGATAAAATAATTGATCAGTTTGAGTCAGAAGCAAACTAA MKKVLFLIVISILSLSLAACSGETESEAKAENEKETEQENKEQEEADSQKTEEKQEQNKGMNVDKATQLLEDHVLEENDEIQKLTMNDGEIKASIIIGDNDTINDKTLLAQIAYSSAGDEFLQHEGWEVLTIDFVDLAEVSMHRNEQETDENDFVYFPMDKIIDQFESEAN NA NA NA NA NA AK015_01381 705 hypothetical protein ATGCAAATATACTGGACTAAAATAAATAAGATTATTGAAGAAGCCCCTGAAGTTAAAACGTACCTGCTAGACTGTCCGAAAGGCTTTACATGGGAAGAAGGTTCCCACACTCATTTTGCGCTGGAAGGTTTTAATGCAGGAGATAAACCAAATCGCTCCCTGATTCGCCACATGTCAATCTCAACTTTACCGCACGAAAATTCAATTGGGATTACGACACGCATCAGAGAGCAGTGTTCGGAGTTTAAAACGATTTTAAGGAATCTTGAAGTGGGCAATCAAGTTGCAATATTTAAAACGCATTCAAATGTACCCCTTAAAAGAGAAGACAAAAATGTTTATCTGCTGTCATCAGGTGTCGGTTTGGCAACTTTCAGACCATTGGTGCTTGAGTATTTCGAGCGTGCGGACAACGTCAAACACATTCATTCTCTGAACATCGATTCATCGCAAGGTTTTTTATTCACTAATATTTTTGAATCTTCATTGGACAAGAAGTTCACATCACAATTTGTCGATAATCGTAAAGAATATTATGAAGAAGTGAAAAATCTTGCTGCAGACAAGGATGGACTATTCTATGTTGTAGGTAGCGACGAATTCATTGTGCAGAATATGGAGGTGTTGCGTGAGCAGGGCATTAAGGTGGGACAGATTATGCTCGACAAGCATGAACGACAGATGTCTGAATTTTTACCAATGTAA MQIYWTKINKIIEEAPEVKTYLLDCPKGFTWEEGSHTHFALEGFNAGDKPNRSLIRHMSISTLPHENSIGITTRIREQCSEFKTILRNLEVGNQVAIFKTHSNVPLKREDKNVYLLSSGVGLATFRPLVLEYFERADNVKHIHSLNIDSSQGFLFTNIFESSLDKKFTSQFVDNRKEYYEEVKNLAADKDGLFYVVGSDEFIVQNMEVLREQGIKVGQIMLDKHERQMSEFLPM NA NA NA NA NA AK015_01382 933 hypothetical protein ATGGGGATTACTTTTGCAATTTTATCAGCCTGCACGTTTGCTATAAACAACGTGGTTGTAAAGAAAGGTATCATGCGAGATACTCATAACGATAATGGCTTATTTATTACTGTTATCATAAATATAATTCTTTTGGGTTTATTATGCTTCATTGTTATTGGAATAAGAGGATGGAATTTTGAGTTTTCATGGACAGCTATCTTCTTCTTTTCACTTGCTGGATTATGTACAACAGGGATAGGTAGATTTACATTATTTTCAAGCATTTCATATATAGGACCATCAAAAGCATCGGCAATTCGTAACTCAACGCCCATTTTTACAACTTTGTTTGCCCTTATTATTATTAAAGAAAATATTGCGTTTTTACCAGGCGTTGGAATGGTACTCCTACTTGGAGGAATAATTAATGAAGGAATAAGAATTTCCACGTCTAAGACATCGAAACAAGAACATATCCCTAATTCCTTTACAGTTCATTCTAAGAAACATCAGTATCTAGGCGTAGGGTTGGCTTTATTATCAGCTTTAACTTTCGGAGTTGGTCAAGGATTTCGTAAACAAGGCTTAATAGAAACGAATGACGCATTTTTAGGTGCATGGATAGGAGCTTTGGCTTCTTTTATTTTCTTAATTCTTTATAAAACCGTTCGCAAAGAATTTACAGCAGCAAAATTAAAGAAGAGCTTCACTACGATGAACCCTTTCTATTTAACTGCTGGCGTTCTAACAAGTCTTGGTCCACTATTCTTTTTCCTGGCTGCGCAAACGATGGAAGTTTCCTATGTAAGTGTAATTGCAGCTACAGAACCATTAATTACTATTTTAATTAGTGCAGCCATTTTTAAAGGGATTGAATCAATTACTATAGGTACTTGGCTAACCATTTTTATAATGCTCTTTGGAACAATATTGATCGCAATTAATATGTGA MGITFAILSACTFAINNVVVKKGIMRDTHNDNGLFITVIINIILLGLLCFIVIGIRGWNFEFSWTAIFFFSLAGLCTTGIGRFTLFSSISYIGPSKASAIRNSTPIFTTLFALIIIKENIAFLPGVGMVLLLGGIINEGIRISTSKTSKQEHIPNSFTVHSKKHQYLGVGLALLSALTFGVGQGFRKQGLIETNDAFLGAWIGALASFIFLILYKTVRKEFTAAKLKKSFTTMNPFYLTAGVLTSLGPLFFFLAAQTMEVSYVSVIAATEPLITILISAAIFKGIESITIGTWLTIFIMLFGTILIAINM NA NA NA NA NA AK015_01383 465 marR COG1846 Multiple antibiotic resistance protein MarR ATGAAGAATAAAAAATACATTACAAATAACGATTTAATCCCTAACAGCCAGCATATCGGTAGATTAATCTTGCAACTTCAACGACTCGAACGAAACCCTCGTACCTTTGGTAAAGCAGGTACGTTGACTCCAAGTGAGATTCATGCAGTAGATGCAATTGGAGAAGACGGAAATGTACTTATGAGCCAGATTGCAGAACGACTCGGAATTACCAAAGGAGCAATCACACAGATTATTAGTCGGTTGGAAAAGAAAGAAATTGTTTTTCGGACTTCACATCCCGAAGATTCAAGAGCAGTGTTAATTTCATTAACTGAAAAGGGAGTAGTAGCTTTTCGAGCACATATGGAACTTCATCAGAACTTTTACCAAAAACTTAGTAAACAGCTAAATGCTGACGAAATTGCTATTTTTGAAAAATGTATAAAGATTTTTTCATCATTACTAGACGAAGTAGATGATTGA MKNKKYITNNDLIPNSQHIGRLILQLQRLERNPRTFGKAGTLTPSEIHAVDAIGEDGNVLMSQIAERLGITKGAITQIISRLEKKEIVFRTSHPEDSRAVLISLTEKGVVAFRAHMELHQNFYQKLSKQLNADEIAIFEKCIKIFSSLLDEVDD NA NA NA NA NA AK015_01384 321 isdG COG2329 Heme-degrading monooxygenase GTGTACATTGTTACAAATACGACGAAAATCAAAAAAAATCAAGGACATAAGCTGATAGAGCGTTTTAATAAAGTAGGTCATATTGAATCAATGCAAGGATTTTTGGGACTTGAAGTACTAATAACAGATAAATTAAATGATTACGATGAGGTAAATATCGTAACTCGATGGGACTCAGAAAGTTCTTTTAAAAAATGGATAAAGAGCGATGCTTTTAAAAAAGCACATACGCATGATGGCGGAAAACCTGAATACATTATTACCAATACCATCTCTTATTACGAAGTCAAAATCATTCGTAAACCAATCGCTTCTGCGTAA MYIVTNTTKIKKNQGHKLIERFNKVGHIESMQGFLGLEVLITDKLNDYDEVNIVTRWDSESSFKKWIKSDAFKKAHTHDGGKPEYIITNTISYYEVKIIRKPIASA PGPT0003630_230 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003630-hmoA-K07145 NA NA AK015_01385 777 fpuC COG1120 Petrobactin import ATP-binding protein FpuC ATGAATGCTATCCAAACCAATTGTATTTCATTAAATGTCCATCATTTTAAATTGGATAACATCTCTTTGACTATTCCGAACCAAAAAATTAGTTCTATCGTAGGGCCAAATGGTTCAGGTAAATCAACGCTTTTAAAAATTATTAGTAATCTACTTAAGGCAGATCAAGGTTCTGTTTATATATATGAAAAAGAAGCCCAGTGTTATAAAAATAAAGAGTTCGCGCAAAAAATTACTATGTTACAGCAGTCAAAAAATCAACTACCTAATTTAACAGTTAAAGAACTCATTTCTTTTGGTAGATCACCATATAAACATTTTTTTAGCAATCAATTATCTATGGAAGATGAACAAATAATTTCTGAGGCGATGCAGATTACAAATATAACAAATTATAAAAATCGTCTGTTTTATAGTTTGTCTGGTGGAGAACAACAGAAAGTACGGATTGCAATGGCTTTAGCCCAAAAAACTAGTATCTTATTGTTGGATGAGCCAACAACTTATTTAGATATTTCACACCAATTTGAAGTTATGGAACTCCTGCAATATATTAACAAGCATTTTAATATAACTATTATTATGGTTTTGCATGATTTACAACAAGCAGCAACATACAGTAATTATATGATTGCATTAAAACAAGGTAAAATAGTACAACGCGGTATCCCCAACGAAGTGTTAACGAAAGAATTTTTACAAAGTGTCTATAATCTACAAGCACGAATTAAATTTGAAGATGGTTATCCACTAATCATACCTAATATAAGGAGGTAA MNAIQTNCISLNVHHFKLDNISLTIPNQKISSIVGPNGSGKSTLLKIISNLLKADQGSVYIYEKEAQCYKNKEFAQKITMLQQSKNQLPNLTVKELISFGRSPYKHFFSNQLSMEDEQIISEAMQITNITNYKNRLFYSLSGGEQQKVRIAMALAQKTSILLLDEPTTYLDISHQFEVMELLQYINKHFNITIIMVLHDLQQAATYSNYMIALKQGKIVQRGIPNEVLTKEFLQSVYNLQARIKFEDGYPLIIPNIRR PGPT0003760_5965 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 AK015_01386 996 yfhA COG0609 putative siderophore transport system permease protein YfhA ATGTCAGTGCAAAAAAGAAGTATGCGTAGGAAATATATAACGATTATTACTCCTCTTCTCTTAATACTTGTCACTCTGTATGGTATTTCTTATGGCCCAATTTCCATTTCTCTCACAGAAATATGGACTGCATTGTTTACAGAGGAAAACACCATGCAGAAAAAAATAATTATGGATATACGCCTACCACGAGTATTAATTGGATTACTCACAGGAGCGTGTTTAGCAGCTTCAGGTGCTATATTACAGGGTGTTATGAAAAATCCATTAGCTGATCCTGGAATCATTGGCGTCTCATCTGGTGCTGGACTTGCAGCAATAATTACGATGGTTTTGTTACCACAGTTCATCAACTTATTACCTATAGCTGCATTTATCGGCGCACTTTTTACATCACTCTTAATTTATTTATTAGCGTGGGATCGTGGCGCTTCTCCTGTAAAAATTATACTTGCCGGTGTCGCTATAAATGCTTTATTGGGGGCAATCATGAGCGGGATCATGGTTTTATATAGTGACCGTGTTCAAGCTGTCTTACCTTGGCTCTCTGGTGGCTTAACTGGCAAAGGGTGGTATCAACTGGAATTTATGGCTCCATATGCTCTTTTTGCGCTTCTTCTATCCGTATTGGCTATTAAACCTGCAAATGTTCTACTGCTTGGTGATGACTCAGCTAAACTTTTAGGAGAACATGTAGAAGTACAACGTTTTTTACTCATCACACTAGCTTCTTTATTAGCAGGTGTAGCTGTTAGTGTAGCTGGACTAGTGGGATTTGTCGGATTAGTTATTCCACATGTGATTCGACTTTTAATTGGTGATGATTATATCTTTTTATTACCTTTAAGTATTATCAGTGGTGCTATACTCGTTGTGTTGGCAGACACTATTGCGCGATCTTGGTTTGATCCGATTGAAATACCCGTTGGCATATTACTTGCTTGCCTCGGAGCACCGTTCTTTTTATATTTACTCAAGAAACGGAGGATATTGTGA MSVQKRSMRRKYITIITPLLLILVTLYGISYGPISISLTEIWTALFTEENTMQKKIIMDIRLPRVLIGLLTGACLAASGAILQGVMKNPLADPGIIGVSSGAGLAAIITMVLLPQFINLLPIAAFIGALFTSLLIYLLAWDRGASPVKIILAGVAINALLGAIMSGIMVLYSDRVQAVLPWLSGGLTGKGWYQLEFMAPYALFALLLSVLAIKPANVLLLGDDSAKLLGEHVEVQRFLLITLASLLAGVAVSVAGLVGFVGLVIPHVIRLLIGDDYIFLLPLSIISGAILVVLADTIARSWFDPIEIPVGILLACLGAPFFLYLLKKRRIL PGPT0003770_8691 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 AK015_01387 948 btuF Vitamin B12-binding protein ATGCGTAATTATTTATTTATTACTTTACTCTTTTTACTTATATTCCTTGTTGGATGTAATAATCAGGATGACCAATCAGAACAACATGAAACGCAATCAAAAGGGGATACAATTTCCGTTACAGACTCCTCCAAGCGAACGATTGTTTTGGAAAAAGCACCAGAAAAAATTGTTGCTTTAAGCAATGGCGACGTAGATATTATCTATGCCTTAGGACATAAAGTAGTTGGTCGCCCATCAGGAAAAACAATAGTTAGCGAGGCTAAAGACGCTCTGGAAATAGGTTCTAATCATAGCTTAGATTTGGAAAAAATAACTTCCTTAGAACCTGACCTCGTATTAGGGAACCATCCAATGAATATGAAGGACATACAAGCAGTAGAAGATATTGGAGCTGAGATGGTATTAACAAGTGCCAATTCGGTGCAAGACATTCAGAAACAAATTTCTCTATTTGGAGATTTATTAAACAAACAAGATAAAGCACAACAAATCGTACATAAAATAGATAACAAACGAAAAGAAGTAAAAGAAAACACAGTAGAAAAAAAGCCTAGAACACTATTGATCTATGGTGCACCTGGAACCAACATGGCAGCATTACCTAATTCTCTCAGTGGAAATATTTTAGAATTAGCTGGAGGAATAAATATTGCTAGTGATTATCCAAGTTTAGAAATGTATCCACAGTATGCACAATTAAACACAGAGAGAATTATAGAATCCAATCCAGAAATCATTCTTTTAATGACACATGGCAATCCAGAAAAAGTAAAAGAGAGTTTAATAAAGGAAATGTCGCAAACAGCCGGCTGGGATGAACTGGATGCTGTGAAAAATAATCGCCTGGTTATTCTTCCTTCTAATCTGTTTGGAACAAATCCTGGAACAAAAGTAATTGAATCCATTGATTATCTATATGATGTACTAAAAAACACGAGGGAATAG MRNYLFITLLFLLIFLVGCNNQDDQSEQHETQSKGDTISVTDSSKRTIVLEKAPEKIVALSNGDVDIIYALGHKVVGRPSGKTIVSEAKDALEIGSNHSLDLEKITSLEPDLVLGNHPMNMKDIQAVEDIGAEMVLTSANSVQDIQKQISLFGDLLNKQDKAQQIVHKIDNKRKEVKENTVEKKPRTLLIYGAPGTNMAALPNSLSGNILELAGGINIASDYPSLEMYPQYAQLNTERIIESNPEIILLMTHGNPEKVKESLIKEMSQTAGWDELDAVKNNRLVILPSNLFGTNPGTKVIESIDYLYDVLKNTRE PGPT0003765_8529 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 AK015_01388 690 hypothetical protein ATGCAAAAACGTTGGTCTGAAATTTTAATACTTATTTTAGTACTCCTGTACTCTGTCTCCCATATTTGGTTTCCTGTAGAAACTAGTTATGCAAAGTCTAAGTTACCAAATGTAGAAGAAGGAGTATACTCATTGGATTACGTTATACTACACGCACAAACAGATTCAGTATCTATTGCCAATGACTATTTTGAGAAACCAGCAACATACATTGTACATAATGGTAAGCATTATATACGGTTTATGTTAAATCATAGTGAGTGGACCAAGGAGTTACAGTCACCTTTAGGGGACTCTTTTGTTGATGTGAAAGTAATTCAAGAGAATAAAAAGGAAAATACAAGAATAGTTCAATTTCAGGTAGATCGAGATTTAACTGAACCCATTGCGTTTAAAATGCATGTGTTTATTGAAACAATGGATCCTGTTTATGATCATCGATATACAGTACGATTTGATTTTGACTTAGATACTTTAAAGAAATTAGATCAACAAACGATAGAAAAAATGGATATAAGTGATGAAGATTTTTTAGCGATGGAAGAAAAGGATTCAAAGGTCTCCAATAAATCAACGGAACCAAAGGAATCAAATACATTGCTCTACGGTACTCTTTTATTGATTGCTTTAATAGTTTTTTCTGTAGTGTTTTATAAAATTAGAAAAAAGAGGAGCTCGAAGGAGGAATGA MQKRWSEILILILVLLYSVSHIWFPVETSYAKSKLPNVEEGVYSLDYVILHAQTDSVSIANDYFEKPATYIVHNGKHYIRFMLNHSEWTKELQSPLGDSFVDVKVIQENKKENTRIVQFQVDRDLTEPIAFKMHVFIETMDPVYDHRYTVRFDFDLDTLKKLDQQTIEKMDISDEDFLAMEEKDSKVSNKSTEPKESNTLLYGTLLLIALIVFSVVFYKIRKKRSSKEE NA NA NA NA NA AK015_01389 645 hbp1 COG5386 Hemin/hemoglobin-binding protein 1 ATGAACAAAGTGAAAAAGAAAATAATTTTATTTTTATTAATGTTAATAGCAGTCTTCTCTGTCGAAAGTACATCTATAGAAGCTGCGTCGAATTATGATGAAGGGGAATATAATTTACCTTTCACAGTATTGAAAGGGGATTCAAATGAGAGATCAATGACGAATGATTATTTAAAATCCCCAGGTAAATTAATTGTTAAAAATGGAAAGAATATCGTGCAACTTACTTTGAAGAATAGTTCATGGTGGAAGTCTTTTCATATTCAATCAAAGCCAGTCACTGTTGTCAGTGAGAGTAATGATACAAGGGTTGTTCAGTTTGATGTTGCAGATTTGAATCAGATACTGGATGCAAATATACATGTGGTTGTGCCAGATATAGATTATGACAACAAATATAATATTCGGTTTCAATTTGATACCTCAAGTTTAAAGATGGGAGATAAGACGTCTTCACCTGCAAATAATGAATCTAAGAATAACGTAGAAGCTGAAAAACAATCCACCGATGGAACGAAACATACTGGGAACAAATCAGAACCTGAAAAAAATCCAAAAACTTCAGATAACACCCCTGTTTTCTTATTGACAGCAACGTTATTTGCTTCAGGGTTCGTGATCTTAAGGGAAATATCAGTTAAATAA MNKVKKKIILFLLMLIAVFSVESTSIEAASNYDEGEYNLPFTVLKGDSNERSMTNDYLKSPGKLIVKNGKNIVQLTLKNSSWWKSFHIQSKPVTVVSESNDTRVVQFDVADLNQILDANIHVVVPDIDYDNKYNIRFQFDTSSLKMGDKTSSPANNESKNNVEAEKQSTDGTKHTGNKSEPEKNPKTSDNTPVFLLTATLFASGFVILREISVK NA NA NA NA NA AK015_01390 1698 hbp2 COG5386 Hemin/hemoglobin-binding protein 2 ATGAAAAAATTAGGGGCTTTGTTTTTAGTTGCCATCTTAATCGTTATGGGCATTACTTCATCATTATCTTCATTATCAGCTGAGGAAGTTGATAAAGTATTTGCTAATGGAGAATATGAATTACCATTTGAAATTTGGAAAGAAAATGAGGACAAAGTATCAGTAGCTGATGGTTATATGGAGAAGCCAGCCAAGCTGTTTATTGAAGAAGGAAAATACAAAATACAAGCTACTTTAAAAAACAGTTCATGGTGGCAGTACTTTAAAGTTAACAATGGGCAAGAATTTGTTGATGTTACAGTCATTAGTGAAAATGAAACAGATAATACACGTCTAGTACAATTTGAAGTTAACAATATTGAAGAAGTTGTAAATGCCAAAGTGCATATTATTGTTACGGGGATCCCCGGATTTGAATATGATAACAAATATAATATTCGCTTTAAATTTGATACGTCAAATATCCCATTGGCAGAAGAGCCAATTAATCCAGAAACGCCAAAGCCAGAAGAACCTGATTCAGAGTTAGAAAAGCCATCTGTTATCGAATTAGAGAATGGGGATTATACAATTAATGTTGCTACGTTACATGCCAAGGAAAATAAACCATCAGGAATGGCACGTTATATCGATGAATCGGCTTTTATATATGTAAAAGATGGAAAAACATATGTGAAACTTACCTTAAAGGATCATCAAACAGTAACTGGATTTCAAATTGATGGACAAGAACCAATACAAGAGGAAATAAATGAACAGCGGAATTCCAGAATTGTCACATATGCACTAAGAGAACTTATTACTCCAATGAAAGCACGGGTTCAGTACAAAGCAGGCGTTCACACGGGTGATCAACCATTAAGGTTATCTTTTAATGAATCTAGTATAAAAAAGGTAGAAAAAGAAAAACCTACAGATTCAAATGTGGGTCCGAAAGAAGATGCAAATAAAGACAAAAACGAATCAAATAACGATCCAGAGGATAAACATAAAAATAAACATGAAAATAAAAATAAGGAACTTAATCAAAATTCTTCAGACAGACAAAAAATTGATCCAAAGAACTTGAAGAATGGAGAATATTCTATTGCTTATAGAGTGTTAAAACAGGATACAGATCAGAAATCTGTAATGAATGATTATGTCATTAGTCCTGCTAGTTTAAAAGTAAAGGACGGAAAAAAAAGAGTTGCCATTACCTTTAAAAACAGTTCGTGGATTACCGATTTCAAAGTATACCACAATGGAAAGCTAATAAAACCCAAAGTTTTAAGTCATGATCCTAAAGCAGATACTCGTGTGATTGAATTTGCTGTGGAAAATTTAGATAAGAAACTGAATGCGTGGGTAAAAGTAGATATTCCAGAAATAGGTTATCATCATGAATATGATGTGCAATTTCATTTTGATCCTAGTTCTATTGAGCTTCTTAAGGGTGGAGAAACGTATCCAAAAATAAAAGTAGAAGACGAAATACAGTTACCAATAAAAAAGCTAAATAATAATGGTCAGGGCCCAAAATTTGATCGTAATGCAGACCAAGGCGATAAACAGGAATTAGCTGCAAAGAAAGATGTAAATAAAACCAATAATCCAACCACTAATGATCCAGCTAAAATTATTTTGTTTGCTAGTTTATTATTTGGTTCGTTTATTCCTATAGCATTTAAATTAAGTAAAAAATTCCGTTCTATTTAA MKKLGALFLVAILIVMGITSSLSSLSAEEVDKVFANGEYELPFEIWKENEDKVSVADGYMEKPAKLFIEEGKYKIQATLKNSSWWQYFKVNNGQEFVDVTVISENETDNTRLVQFEVNNIEEVVNAKVHIIVTGIPGFEYDNKYNIRFKFDTSNIPLAEEPINPETPKPEEPDSELEKPSVIELENGDYTINVATLHAKENKPSGMARYIDESAFIYVKDGKTYVKLTLKDHQTVTGFQIDGQEPIQEEINEQRNSRIVTYALRELITPMKARVQYKAGVHTGDQPLRLSFNESSIKKVEKEKPTDSNVGPKEDANKDKNESNNDPEDKHKNKHENKNKELNQNSSDRQKIDPKNLKNGEYSIAYRVLKQDTDQKSVMNDYVISPASLKVKDGKKRVAITFKNSSWITDFKVYHNGKLIKPKVLSHDPKADTRVIEFAVENLDKKLNAWVKVDIPEIGYHHEYDVQFHFDPSSIELLKGGETYPKIKVEDEIQLPIKKLNNNGQGPKFDRNADQGDKQELAAKKDVNKTNNPTTNDPAKIILFASLLFGSFIPIAFKLSKKFRSI NA NA NA NA NA AK015_01391 921 isdE High-affinity heme uptake system protein IsdE ATGAAAAAAGCCTACATGTTTCTTTTGATTGTAGTAGTAGTCGTTGGGCTAGTAGGTTGCTCAGATGGAGGAAAAGCTACTGTGGGGGAGGTAAGTGACCCTGATAATAATCGTATTGTTTCAACTACAGTTGCCGTTACAGAAATAATGAATGCACTAAAACTAGACTTAATCGGAATTCCGACAAGTTATAAAGATTTACCAGAAAGGTATGATGATGTAACAGAAGTTGGTAATCCAATGAGTCCTGATATGGAACTAATTATGTCACTAAAACCAAAAAAAATACTGTCTGTGACAACACTAAAGTACGATCTAGAATCTGTATTTGATGATGCGGGCATAGATACGAGATATATTAACCTCCAAAGTGTAGAAAATATGCATAAAGCAATAATAAATCTTGGCAAAGAATTCGACCGTGAAGCAGAGGCAAAAAAAATCGTACAAACTTTTGACGAAAAGGTAGCAGACATTAATAAAAAGACGCATGGTAAGAAACCACCACGTGTTCTTATTTTAATGGGAGTACCAGGTAGTTATTTAGTAGCAACGGACCGCTCCTACATTGGAGATTTAGTTGAAATAGCTGGTGGTGTCAATGTGTTTTCAGGGGAGAAGGTTGAATACCTAGCTTCTAATACGGAACATTTACAACAGGCCAATCCAGATATTATTTTACGAGCAGCACATGGTATGCCTGATGAAGTCGTTAAGATGTTTGATAAGGAATTTAAAGAAAATGATATTTGGAAGCATTTTGACGCCGTGAAAAATGGTCGAGTATACGACTTAGAAGAACTTCTTTTCGGGACAACAGCTAATCTAGCAGCCCCGGAAGCATTAGATGAATTATATAACATGTTGTATCCTGAGGAAAATAAAGGTAAGGAGATAGAAAAGAGTGACCACAGTGAATAA MKKAYMFLLIVVVVVGLVGCSDGGKATVGEVSDPDNNRIVSTTVAVTEIMNALKLDLIGIPTSYKDLPERYDDVTEVGNPMSPDMELIMSLKPKKILSVTTLKYDLESVFDDAGIDTRYINLQSVENMHKAIINLGKEFDREAEAKKIVQTFDEKVADINKKTHGKKPPRVLILMGVPGSYLVATDRSYIGDLVEIAGGVNVFSGEKVEYLASNTEHLQQANPDIILRAAHGMPDEVVKMFDKEFKENDIWKHFDAVKNGRVYDLEELLFGTTANLAAPEALDELYNMLYPEENKGKEIEKSDHSE NA NA NA NA NA AK015_01392 993 isdF putative heme-iron transport system permease protein IsdF GTGACCACAGTGAATAAGCGAATCATTAGTTTTGTAACAATTATTATATTACTCGTCTCCGTAATCCTGTTTTCGGCAATGTCAGGAAGTATTCGTGTAACCTTTATGGAACTTATTCAAGGTTTAATTTCGGGAACGAATAATGACGTCGAAGTAGTTAAAGATTTACGATTACCAAGGATTATAATCGCTATTTTTGCTGGAGCGGCATTATCTGTTTCGGGTGTACTTATTCAAGCAGTAATGAGAAATCCATTAGCTGAACCTGGAATTATTGGTGTATCTTCCGGTGCGGGATTTATGAGTATGTTGATGATAAGTATTTTTCCAACGTTATTCTTCTATACACCATTATTTGCTTTTTTAGGCGGTGCAATTGCATTTTTCTTGGTTTATTCATTTTCTTGGAAGTCGGGTTTAGATCCTTTAAGAATGATTTTAATTGGGGTTGCGATTAATGCCATTTTTACAAGCTTAAGTCAAACCTTTAATTATCGAGGTAGTTATACCTCTTCCATGGTACAAGAAGTAACTACTTCTACGCTATCTATGAAAAAATGGGCGGATGTTGAGATTATCGTTGTTTACGGTACAATAGGGTTGATTTTTGCCTGTTTGGTTTTTGCTTGGTGTAATTATTTAGCCTTAGAAGATAAAACTGTGAAAAGCTTAGGATTAAATGTAAATATTGCTCGATTTGTTATTTCATCAATTGCTGTTTTGTTAGCTGGTATTGCTACTGCAACAGCAGGTTTATTTTTATTTGTGGGTTTGCTTGTCCCACATATTGGTCGAATCTTAGTCGGTACTGATCATAAAGTTCTTATTCCTTTTTCAGCACTCTTAGGTTCTTTGTTAATATTATTATCCGATACATTAGGGAGAATTATTATTGCACCAAATGAAATTCCTGCTTCTATTATTATGGCGTTAATAGGAGGACCGTTTCTAATATTTTTGCTTAGAAAGAGTGATCGAGTTTATGGAACTTAA MTTVNKRIISFVTIIILLVSVILFSAMSGSIRVTFMELIQGLISGTNNDVEVVKDLRLPRIIIAIFAGAALSVSGVLIQAVMRNPLAEPGIIGVSSGAGFMSMLMISIFPTLFFYTPLFAFLGGAIAFFLVYSFSWKSGLDPLRMILIGVAINAIFTSLSQTFNYRGSYTSSMVQEVTTSTLSMKKWADVEIIVVYGTIGLIFACLVFAWCNYLALEDKTVKSLGLNVNIARFVISSIAVLLAGIATATAGLFLFVGLLVPHIGRILVGTDHKVLIPFSALLGSLLILLSDTLGRIIIAPNEIPASIIMALIGGPFLIFLLRKSDRVYGT PGPT0003770_8684 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 AK015_01393 771 fepC COG1120 Ferric enterobactin transport ATP-binding protein FepC ATGGAACTTAAAGATATAACTTTTTCGTATGACCTTAAAAACAATCATTTGGTTGATGTAAACGGAGAGATTAATCGCGGGAAAATTACTACAATTATTGGGCCAAATGGGAGTGGAAAATCAACATTACTTGGAATAATGTCCAATCAAATCACTCCTCATAAAGGGTATGTTCGGTTAGACGGAAAACAATTAGTTGAATTTCGATCAAAAGAATTTGCCCGAAAGGTAGCCGTTGTACATCAAAGAAACAGCGCACCAGCTGATATGACAGTAGAAAAATTAATTAGTTATGGCAGATTGCCATATAAGTCATTTTTAGCTAATAATAAGCAAGAGGATGCTAAAGTAATTGAATGGGCACTCCAAAAAACAAATTTATCTAAGAAAAGAAACCATGCCCTATATACTTTATCCGGTGGAGAACAACAACGTGTTTGGATTGCGCTAACTTTAGCTCAACGTACTCCTTTTCTGTTTTTAGATGAACCGACGACTTATTTGGATATTTATTATCAATATGAGCTATTAGAATTTATTAAAAAACTAAATAGAGATTTAGGTATAACGATCGTTATGGTACTTCATGATATTAATCAGGCAATCCGATATAGTGACATTATTATTGCTATGAAACATGGACAAATAGTTAAAAAAGGTGTGCCCAAAGATATAATTACTAATGAGCTTATGAAGGAAGTTTACGGAATAAATGTTTTAATCAAAGAAAACAAAGATACAGGGATTTATACAATACCCATTGGAATTTAA MELKDITFSYDLKNNHLVDVNGEINRGKITTIIGPNGSGKSTLLGIMSNQITPHKGYVRLDGKQLVEFRSKEFARKVAVVHQRNSAPADMTVEKLISYGRLPYKSFLANNKQEDAKVIEWALQKTNLSKKRNHALYTLSGGEQQRVWIALTLAQRTPFLFLDEPTTYLDIYYQYELLEFIKKLNRDLGITIVMVLHDINQAIRYSDIIIAMKHGQIVKKGVPKDIITNELMKEVYGINVLIKENKDTGIYTIPIGI PGPT0003760_4142 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 AK015_01394 765 srtB COG4509 Sortase B ATGAGTGGTAAGAAAATCAGAAAATCGCTTTCTAATCTGTTGATCACTATATGTCTTGGAGTGTTTGTCTATTCAGCATATGAATTAGTTTCATTAGGATTGGATTACTATCAAAATAGACAAGTACTGGCTGATGTACAGGATATATATGCAGCACAAACAAAGGCTTCAGATTCATCAGAAGTTGAAAAAGGTGAAATAAGAAAGCAATTTAAAGAGCTACACAAAATAAACCCGGACATTATTGGTTGGCTTGCTATTGATAAGACAAATATAAATTATCCAATTTTACAAGCAGAGAATAATGAGCATTATTTATATCGGAATTACAAAGAAGAACAATCAAGAGCCGGTAGTATTTTTATGGACTATCGTAATAATGTGAATGCATACAATTCAAATATTGTTTTATATGGGCATAACATGAAGGATGGGTCTATGTTTCATAATTTAAGAAAATATACGGATGAAGAATTTTTTTCAAACCATCGTAGCGTTTATTTTGATACGAAATATGAGAGCTATCAAGCAGAAGTATTCTCTGTCTATCACACGACAACAGACTTTGATTATATTCAAACACATTTCTCTACCCAAGATGAGTACAGACAATTAGTTAATGAAATTAAAGATAAATCAGTATTCCAATCTGATGTACACGTGAATGAAAAGGATACGATTATTACACTATCCACTTGTGATTATACACTCGACCCGGATGAGGGGCGCTTTGTTGTCCACGCAAAAATATCTGATCAGGAGTAA MSGKKIRKSLSNLLITICLGVFVYSAYELVSLGLDYYQNRQVLADVQDIYAAQTKASDSSEVEKGEIRKQFKELHKINPDIIGWLAIDKTNINYPILQAENNEHYLYRNYKEEQSRAGSIFMDYRNNVNAYNSNIVLYGHNMKDGSMFHNLRKYTDEEFFSNHRSVYFDTKYESYQAEVFSVYHTTTDFDYIQTHFSTQDEYRQLVNEIKDKSVFQSDVHVNEKDTIITLSTCDYTLDPDEGRFVVHAKISDQE PGPT0024080_226 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024080-srtB-K08600 NA NA AK015_01395 108 hypothetical protein ATGGAAATAAAGAACTATTGCTTGAAAAATAAAGTTTATAAGCTAAACGACCTCATCACAATTAATGATGCCTATATTGGCGGTTTTGATAACCAGTCATTAATTTAA MEIKNYCLKNKVYKLNDLITINDAYIGGFDNQSLI NA NA NA NA NA AK015_01396 1011 feuC COG0609 Iron-uptake system permease protein FeuC ATGATTCCATCCCAACTAATACGCAAACAACGTATCATTATATTCATTTTACTACTACTTATTATCATGACGTCCATCATAGCAATTGGCGTAGGCCCATCTTCTGTGTCTATGGATCGTTTAATTCCGACTATTTTAGGAAACGGAACATTTAAAGAAGACTTCGTGTTTTTCTCTATTCGCTTACCACGACTTATTATTATCGTGTTAGCCGGCATGGCACTCTCACTTTCTGGGGCTATTTTACAGGCATTAACTAGAAACGACTTAGCTGATCCTGGAATCATCGGGATAAACTCGGGAGCTGGTGTAGCTATTGCCGTATTCTTTTTATTTATGCCAATAGAAGTAGGAAATTTTGTATATATGCTACCTGTTGTCGCTTTTATCGGTGCTATGGCTACTGCCATATTGATATATATATTTTCCTACCAAAGAAAAACCGGTCTAAATCCTATCCATCTTGTTCTTGTTGGGGTTGGATTTTCCATGGCATTATCTGGTCTTATGGTCATCCTCACATCCGGTGCTAAAAATGAGAAAGTCGACTTCATCGCTAACTGGTTGGCAGGAAATATATGGGGAACAGACTGGCCATTTATCTTAGCTCTGCTCCCATGGATTTTGATTTTATTTCCATATACATACATAAAATCACACCAGTTAAACATATTTGGGATGAGTGAACCAGTAGGTATTGGGCTTGGTATGCATGTAGAAAAAGAAAGAATCGTATTATTAATGGTAGCCGTTGCCTTAGCAGCTGCAACCGTATCTGTGACAGGTGGAATTGCCTTTATTGGATTAATGGCACCACATATCGCAAAAGGGCTCGTCGGGCCACGACATCAGCTATTCCTGCCAATCACTATTCTGATTGGTGCTTGGTTATTACTAGTAGCCGATACGATTGGCAGGAATATATTGCAGCCAGAAGGCATTGCCACAGGTATTGTCGTGGCAATTATCGGAGCACCGTATTTTATTTATCTACTATTAAGAAGCAAATAA MIPSQLIRKQRIIIFILLLLIIMTSIIAIGVGPSSVSMDRLIPTILGNGTFKEDFVFFSIRLPRLIIIVLAGMALSLSGAILQALTRNDLADPGIIGINSGAGVAIAVFFLFMPIEVGNFVYMLPVVAFIGAMATAILIYIFSYQRKTGLNPIHLVLVGVGFSMALSGLMVILTSGAKNEKVDFIANWLAGNIWGTDWPFILALLPWILILFPYTYIKSHQLNIFGMSEPVGIGLGMHVEKERIVLLMVAVALAAATVSVTGGIAFIGLMAPHIAKGLVGPRHQLFLPITILIGAWLLLVADTIGRNILQPEGIATGIVVAIIGAPYFIYLLLRSK PGPT0003770_6935 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 AK015_01397 1017 feuB COG0609 Iron-uptake system permease protein FeuB GTGAAGAAAGTAAAAAGAGAAATCCAACATACGGCTTTTCCAATCAAATTAATCATCGCTATTATAGTATGCTTCTTCACATTCCTTATAGCAACAAAAATGGGTGCAAAAGAAACGAGTTTTGCTGACGTTTTTGTTGCGTTTTTCCAAAAAGGTAGTTCTGAAGGCTATTCCGTTATTCGGGATATTCGTTTACCAAGAGAAGTTGCCGTGATGTTTGTTGGGGCAGCTCTTGCTGTCTCCGGTGCCATTATGCAAGGGATGACACGTAACCCCTTAGCTGATCCTGGGTTACTTGGTTTAACTTCCGGTGCCAATGCTGCATTAGCATTCGCACTGGCCATGTTACCGAGCGTAAGTACTTTTGGAATTATGGTGGCATGTTTTATTGGGGCTGCAGCAGGTGCAGGGCTCGTCTTTGGTATTGGCTCCATGCAAAAAGGTAGCTTTACCCCTGTTAAATTAGTATTAGCAGGCGCTGCCATTTCTATCTTTTTACAAGCAGTTGCGGATGCTATCGGTTTATATTTTAAAATCTCCAAAAACATCTCCCTTTGGACAGCAGGAGGTGCTATTGGTACGACATGGCAACAGCTGTCCATTGTTGTTCCATTTATTTTAATCGGGTTACTATTTGCATTGCTTCTATCTCGTCAAGTAACGATTCTCAGCTTAAATGAAGATGTTGCCACTGGTTTAGGTCAAAATACAAGGCGAATTCGTTGGCTGTTATTTATTGTGATTGTTATATTAGCTGGAGCCGCCGTCTCGTTAGTCGGGAATATGGCATTTATCGGCTTAATGATCCCTCATATTGTACGAGCGATTGTTGGTGTTGATTATCGTCATATCATTCCGATGTCTATCTTTACTGGAGCCATCTTTATGTTGCTTGCAGATTTAGTCGGACGTATGATTAATGCACCAATGGAGACACCAGTTGTATCCATTGTTGCTGTTCTTGGACTCCCGTTCTTTCTATTTGTTGTGCGAAAAGGAGGAAGCGCATTTCAATGA MKKVKREIQHTAFPIKLIIAIIVCFFTFLIATKMGAKETSFADVFVAFFQKGSSEGYSVIRDIRLPREVAVMFVGAALAVSGAIMQGMTRNPLADPGLLGLTSGANAALAFALAMLPSVSTFGIMVACFIGAAAGAGLVFGIGSMQKGSFTPVKLVLAGAAISIFLQAVADAIGLYFKISKNISLWTAGGAIGTTWQQLSIVVPFILIGLLFALLLSRQVTILSLNEDVATGLGQNTRRIRWLLFIVIVILAGAAVSLVGNMAFIGLMIPHIVRAIVGVDYRHIIPMSIFTGAIFMLLADLVGRMINAPMETPVVSIVAVLGLPFFLFVVRKGGSAFQ PGPT0003770_6627 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 AK015_01398 927 fhuD COG0614 Iron(3+)-hydroxamate-binding protein FhuD ATGAAAAAACAATTCATTCTGCTATTTAGCATCCTCATTCTTGTACTTAGTGCTTGTAATACGAACGATGAAAAGAAAGAAGATAACGATAAAGCAGCTTCAGAAAATGAAAAAGATATCATTACCTATGAATCTGAAGACGGTCCTGTAGAAGTTCCTGCCGACCCGCAACGTGTCGTTGTGCTTAGCCAATTTGCTGGAGATTTAATCAAACTTGGCGTCCATGTTGTTGGTGCTGACTCATGGGCGAAAGATAACCCGCGTTTTGAAGAATTAAAAGACGCTGCCACCGTTTCTGAAGATAATTTGGAACAAATCATCGAGCTAGAACCAGATCTAATCATCGGCTTATCTTCCACTAAAAATATAGACAAGTTAAAAGAAATTGCACCGACCGTTACATTTACTTACGGAAAAGCTGGTTACCTAGATCAACATATTGAAATTGGCAAGCTCGTAAACAAGGAAGAAGAAGCCCGCAAGTGGGTAGAAAATTTTGAGAAAGAAGCAAAAGATGTCGGTAAACAAATTAAAGATAAAATTGGCAAAGATGCTACGGTATCTGTCATCGAAAAGTTCGATAAACAATGGTATGTGTTTGGCGATAATTGGGGGCGTGGTACCGAAATTCTCTATCAAGCCATGGGACTAAAAATGCCTGAATCAGTGAAAGAACAGGCGTTAAAAGATGGTTATTACGCTCTTTCAGAAGAAGTTATCCCTGATTTTGCAGGTGATTATTTAATTGTTAGTGATCAATCTGGTGCAGAAGATACTTCTTACTTAGAGTCGGATACGTTCCGAAGCATTCCTGCTGTACAAAATGATCAAATATTTGTTGTTAATGGAAAAGAATTTTACTTTAATGATGCGTCAACACTTGAATATCAATTGGAGTTTTTCAAAGAAAAATTTTTAGGGGAATAA MKKQFILLFSILILVLSACNTNDEKKEDNDKAASENEKDIITYESEDGPVEVPADPQRVVVLSQFAGDLIKLGVHVVGADSWAKDNPRFEELKDAATVSEDNLEQIIELEPDLIIGLSSTKNIDKLKEIAPTVTFTYGKAGYLDQHIEIGKLVNKEEEARKWVENFEKEAKDVGKQIKDKIGKDATVSVIEKFDKQWYVFGDNWGRGTEILYQAMGLKMPESVKEQALKDGYYALSEEVIPDFAGDYLIVSDQSGAEDTSYLESDTFRSIPAVQNDQIFVVNGKEFYFNDASTLEYQLEFFKEKFLGE PGPT0003765_9463 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 AK015_01399 831 yusV COG1120 putative siderophore transport system ATP-binding protein YusV ATGTTTCGTTTAACCGCAAATGACTTAACTGTTGGCTATGACAAAGTGCCCATTATACAAAATTTATCCGTTACTATTCCTGATAAGCAGATCACATCCATCATCGGTAGTAATGGTTGTGGAAAATCCACTTTGTTAAAAGCAATGACAAGAATCATCCCTTATGAAGGTGGTTCAGTCCTGTTAGATGGTTCCCAAATTGCCATGATGAAAACAAAGGACGTTGCTAAGAAAATGGCCATCCTCCCCCAATCACCAGATAGCGCAAGCGGATTAACAGTTGGTGAATTGGTATCTTACGGACGCTTTCCACATCAAAGTGGATTAGGTAAATTAAAACAAGCAGATATCGATGTAATTCATTGGGCAATGGAGGTAACTGCTATAATAGATTTTAAACACCGCACTGTAGATGAATTGTCTGGCGGTCAAAGACAGCGCGTGTGGATTGCCATGGCTTTAGCGCAAGAAACGGACATCATTCTACTTGATGAACCAACAACCTATCTCGATATGGCTCATCAACTAGACATTCTTCAACTGCTAGAGCAACTGAATAAGCAAGAAGGTCGAACCATTATAATGGTTTTACACGATATCAACCAAGCGGCTAGGTTCAGTGATCACTTGCTTGCCATGCGTTCGGGACAAATTATTCAAACTGGGAGTCCCAGAGATGTCCTTACCAAAGAAATGTTACGAAATGTATACGAAATAGACGGAGAAATAGGGAAAGACCCACGTACAGGTAAACCAATCTGCATCACTTACGATCTAATTAAACAAAAGGAGCAACATAACGATGAAAAAACAATTCATTCTGCTATTTAG MFRLTANDLTVGYDKVPIIQNLSVTIPDKQITSIIGSNGCGKSTLLKAMTRIIPYEGGSVLLDGSQIAMMKTKDVAKKMAILPQSPDSASGLTVGELVSYGRFPHQSGLGKLKQADIDVIHWAMEVTAIIDFKHRTVDELSGGQRQRVWIAMALAQETDIILLDEPTTYLDMAHQLDILQLLEQLNKQEGRTIIMVLHDINQAARFSDHLLAMRSGQIIQTGSPRDVLTKEMLRNVYEIDGEIGKDPRTGKPICITYDLIKQKEQHNDEKTIHSAI PGPT0003760_1528 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 AK015_01400 1059 COG0492 Ferredoxin--NADP reductase ATGATTCATATATCTGAGGCAGACGTGTATGATGTAACGATTGTTGGAGGAGGGCCAGCTGGGCTTTTTTCAGCATTTTACAGTGGTCTACGTGAATTGAAGACGAAAATTATTGAATATCATCCTTTTCTTGGTGGAAAAGTGAATGTATATCCTGAAAAAATTGTCTGGGATATAGGAGCGATGCCACCACTTCCAGGACAACAAGTTGTCGAAAATATGGTGCAGCAAGGGCTTACCTTTGACCCTGAGGTAGTGTTCAATGAGGAAGTTGTATCCATTGACAAAAATGAAGCTGGTTTCTTTGTTGTGAAAGCGTCCTCAGGAAATGTGCATTATTCTAAGACCGTAATCGTAGCAGTTGGTGGGGGGATATTAAATCCAAAACGTTTACCACTTGCTAATGCGAGCGACTTTGAAAATAAAAATCTGCATTATACGATAAAGAATTTGAAAGATTTTAAGAATAAGCGTGTATTAATTTCTGGTGGGGGAAATTCTGCCACGGATTGGGCTAAAGAATTATCAGGTATTGCGAAAGAAGTATATATTGCATGTAGAAGCGATTTTTCTTGCCATGAATCCCAGATTACATATTTACAAAATCATTCTGTTGTTTGCTTCACGCAAACTGAAATATCGGAATTAATGGCAAATGCCTCTGGCGATCGGATAGAAAAAGTAGCACTGAAAAATCGAGAGTCAGGTGTAAAGCAATATATTCCGATTGACGAGGTTATTGTGAACCATGGCTATGAGAGAGACAAATCATTATTAGAGGACAGCCCACTTGATATTCAAATCTTTGATAATTATTTTATAGCTGGATCAAGCAGTAGTGAAAGCTCTATCCCTGGCTTATTCGCTGCAGGAGATATTTTACATCATGACGGTAAGCTTCATCTTATTGCTGGTGCTTTTCAAGATGCAGCAAACGCAGTCAATCAAGCCAAACTTTACCTTGAACCCGAAGCAACGAAAACAGCAATGGTATCCTCTCACAATGAAAAACTATATAGACGGAATGAAAAAATCGTAGCGGATTTATTGAGGGAATAG MIHISEADVYDVTIVGGGPAGLFSAFYSGLRELKTKIIEYHPFLGGKVNVYPEKIVWDIGAMPPLPGQQVVENMVQQGLTFDPEVVFNEEVVSIDKNEAGFFVVKASSGNVHYSKTVIVAVGGGILNPKRLPLANASDFENKNLHYTIKNLKDFKNKRVLISGGGNSATDWAKELSGIAKEVYIACRSDFSCHESQITYLQNHSVVCFTQTEISELMANASGDRIEKVALKNRESGVKQYIPIDEVIVNHGYERDKSLLEDSPLDIQIFDNYFIAGSSSSESSIPGLFAAGDILHHDGKLHLIAGAFQDAANAVNQAKLYLEPEATKTAMVSSHNEKLYRRNEKIVADLLRE NA NA NA NA NA AK015_01401 1014 melR COG1609 HTH-type transcriptional repressor MelR ATGGTGAAGTTGGAGGACGTCGCCAAAAAAGCTGGTATTTCTAAAACAACTGTCTCACGCGTATTAAATAACGACAAAACCATTACAGTGACGGATGAAACGAGAGAGAAAATACTGGCGGCCGTTGAAGAATTAGGATATAAGCCCTTACGTAAAAAAAGGACAAAACCAAAGCAATACCATGTGGCAATGATTCATAACAATGAAGCATTTAAAAGCACTGTAGATAGAGCCTTCTACTTTTCCATTCGTAATGGATTAGAGCATATGGCGCTGAAGAAGAATGTGACCATTGTAAGTTTACCACTGGATCATTTAACAACGATCTCTACTACGAATACGACTTTTGATGGCGCCATTATTCTCGGAAATCTTTCCAAAGATGAACATGATTTTATTCGTGAGTATATTCATTCGCAACATGTAGTTGTTATTGGTCTTGCAAATCCTTATGCCGATCAATATGACCATATTTCATTTAATACAAGACAAGCTGTGTATAAGGTACTGGACTATTTAAGAGAACTTGGTCATGAACAAATTGGCTGCTTAGGTGCCGAAGAATCATCTGATCTATTAAACACTGATTCACGTAAATGGCATTTCACCAATTATATGAAAGCACTAGATCTATATCATGAAGATTGGATTATTTTTGGAGACAAGGGAATAGAAGCGGGGCAAGAAATCGCTAAAAAATTACTAGAACTTGAGGAGATACCAACGGCTTTGTTTGTTGCTAACGACCCAACGGCAATTGGTGTAGTGCAAGCATTGCAAGATGCAGGGCTAAAGGTTCCAGAAGACATGTCGGTCATTGGATTTAATGGTGACTATACAACGGAATATATTTACCCCCCATTGTCTACATTAAAAGTAAATACAAATGAAATGGGGCAAGAAGCGATTATTACCGTTCTAGAACGGATCAAAGGATACAGGAAACTAGCTAAAAAAGTAGAAATAGCAACACATATTATTGAACGGAAAAGCTGTGCTTCAATAACAAAATGA MVKLEDVAKKAGISKTTVSRVLNNDKTITVTDETREKILAAVEELGYKPLRKKRTKPKQYHVAMIHNNEAFKSTVDRAFYFSIRNGLEHMALKKNVTIVSLPLDHLTTISTTNTTFDGAIILGNLSKDEHDFIREYIHSQHVVVIGLANPYADQYDHISFNTRQAVYKVLDYLRELGHEQIGCLGAEESSDLLNTDSRKWHFTNYMKALDLYHEDWIIFGDKGIEAGQEIAKKLLELEEIPTALFVANDPTAIGVVQALQDAGLKVPEDMSVIGFNGDYTTEYIYPPLSTLKVNTNEMGQEAIITVLERIKGYRKLAKKVEIATHIIERKSCASITK PGPT0017992_10155 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 AK015_01402 750 suhB_1 COG0483 Fructose-1,6-bisphosphatase/inositol-1-monophosphatase ATGAGCCTTGAACCTACATCGCCACGATATGAATTTGCAATCAACTTAATCGACTCTTGCAAACTTCTATTAGAGCAACATTCCATTGAAAATATAGAAGAAAAAGATCACGATAAAGATTTAGTTACCAATCTAGATAAAGTACTTAATACGCATATTATTCGTGAAATTAGCAACAGATTTAATGATAGCATTGTCGGTGAGGAAGAATCAAAATCAGGAAACAAACAAAATAGCTGGTACATTGATCCTATTGATGGAACGACAAACTTCATTTATCGTCATCGTGAATTTGCTATATCCATCGCCTTCGAAGGAAATGAAGAAAAATTTGGACTCGTTTTTGATGTAAAGGAAGACACACTATATCACGCTCATACCAACTTGGGAGCTTTTATTAATGGTCAACCTTTTACCCGACCAAAAACAGCAGCATATGGAATTATCCATATTAACCCCAGCTACCTAAAGGAAGCAAAATATGAAGCATTTGCCAATCGCTTTAAAGGTGTTCGTTACCTAGAAGTTTGTGCTATCGAAATCATTCGAGTAGCAATTGGAGAAGCGAGCTGCTTTTATAGAAGAGATCAACAAGCATGGGATTATAAAGCCGCGGTTATCTTCGCAGAAATGGTCGGCTTACTTGTAGAGGTGACAGAAAATCAAACCGTTCTAGTAGGTACAAAATGGAACGAGTTTCTTGAAGAAATCAACAAACACGAAAGGAAAAGTGTTTCGGGGGATTTATAA MSLEPTSPRYEFAINLIDSCKLLLEQHSIENIEEKDHDKDLVTNLDKVLNTHIIREISNRFNDSIVGEEESKSGNKQNSWYIDPIDGTTNFIYRHREFAISIAFEGNEEKFGLVFDVKEDTLYHAHTNLGAFINGQPFTRPKTAAYGIIHINPSYLKEAKYEAFANRFKGVRYLEVCAIEIIRVAIGEASCFYRRDQQAWDYKAAVIFAEMVGLLVEVTENQTVLVGTKWNEFLEEINKHERKSVSGDL PGPT0018535_7277 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 AK015_01403 867 hypothetical protein ATGAAATACACCACTATCTTAAACAATCTATTGGAAAAAAATGATTGCTTAATTGCTTGTCACCAAGGGTCGGCAGGAGGGAATATTTCCTACAACACATATCGGTCCATGCTGAATGCCATTCGTCAAGGTGCTCATATTGTAGAATTTGATATTAGTCGATCAAAAGACGGTATCTTTTATATTTTTCACGAGCATGAAGAGCCCATTCGCTTGAATCAACAAGAAAAATTTCGCGAATTTACCTCTGATGCATTAAGTCGTATGCCTTTACTGAATATGAATATGCAAGCTGTCGATTCCCCACCAACAGTGAAACAATTTATGGCAGCTATGAAAAAGCATCCCCATACATTATTACATGTTGATCATGCCAAGAAATGGGGAAAAGAGCTTTTGGAACATTTCGATCAATTTGAAGATCAACGAGAATCTATTATAATTAAAACAGATGTTGAAGCAACCGATTATTTGGAAGTATTAGCACAGCATGAGGTGAAATATATGACGTTGCCAAAGGTCTGGAGTGAAACTGACTTTAAAACCATTATGTCGTATCGTGATCACATTAATATCATTGGATTTGAAATGATCTTTGATGATCCGCAAGCAACTTATGTATCAAAGGAAACTTTACATACACTTCGAGAAATGGGCTACCACACCATGATTAACGCCATTGTTCTTTGGAATGATCGCCTATCACTTTGCGGTGGATTTGACGACGATATCTCCTTATTGGAAGACCCAGATTTGGGGTGGGGAAAGCTGCTAGAGATGGGTTTTGATATTATTCAAACAGATTGGCCACTACCATTAAAAGTATATCTTGAACAAAAAGGAGTTAATCTCGTCTATGAGCCTTGA MKYTTILNNLLEKNDCLIACHQGSAGGNISYNTYRSMLNAIRQGAHIVEFDISRSKDGIFYIFHEHEEPIRLNQQEKFREFTSDALSRMPLLNMNMQAVDSPPTVKQFMAAMKKHPHTLLHVDHAKKWGKELLEHFDQFEDQRESIIIKTDVEATDYLEVLAQHEVKYMTLPKVWSETDFKTIMSYRDHINIIGFEMIFDDPQATYVSKETLHTLREMGYHTMINAIVLWNDRLSLCGGFDDDISLLEDPDLGWGKLLEMGFDIIQTDWPLPLKVYLEQKGVNLVYEP NA NA NA NA NA AK015_01404 1716 hypothetical protein ATGAAACAACTTATAAACGTAAAACAATGGAAGAAAAATAGTATGCGTCTACTAATCGGCGCCTTTCTACTATGGTTTGTCATTGCCTTTCTCATATATCCAAACTTCAACATCATTCTAGCAAGTTTTCGAACAGAATCAGGATTTTCCTTTGCTATTGTTCGTAAGCTATTCGAGTCGCCCATTGCCATGGATGGGTTAAAAAACAGCTTCATCTTAGCTATATCCTTAGCAATTACCACGAATATTGTTGGGGTCTTTATTGTACTTGTTTCCGAGTACTTTGAAATAAGAGGAGCTAAACTATTAAAAATTGGATATATGACAACATTTATTTATGGCGGAATCATATTGGTTTCAGGCTACTCGATGATTTACGGCGAAAACGGGATTGTGACAAAGACACTTGCTTCGTTTTTCCCTAATTTTAATGTGCAATGGTTTGGAGGGTTTTGGGCTGTTCTGTTTGTAATGACAGTATCTACGACAACCTCACATATGATGTTCTTAGGAAATGCGATTAAATCCATTGACAACTACACGATTGAAGCTGCTAAAAACATGGGTGCTTCGTCATTTTACATTATAAGAAGAATTGTTTTACCTGTCGTGTTGCCTACCATTTTTGCCATTACTATTTTGCAATTCTTGGGCGGGCTAAGTGCATTTGCTGCTCCCTTAATTATTGGCGGAAAAGACTTTCAAACCATTGCCCCATTAATTTTAGAATTAAATAAAATCCCTGGGTCACAAGGGTTGGCACTTATGCTTTCGTTAGTACTCGGACTGACAACGATTTTGCTATTAATCTTATTCACGAAACTCGAAAAAGGTGGAACTTTTTTCTCTATATCAAAAACAAAAGCAGTATATGTCAAACAGAAGATTAATCATAAAGCACTTCATATCTTTGTTCATGCTATAGCTTACCTACTGTTTATCATTTATGTCATGCCAGTGGTTTTAATCATTGCATTCTCTTTTACCAATTCTGCTGCCATTCATGAAGTAAAATTAAGCTTTTCCGCATTTACTCTAGATAACTATCAAACAGTATTTCATGATATAGAAAAGATTACCCCGTTTTTTAATAGTGCTAATTTTTCTATCCAAGCAGCAATTGCAGTTACAATAATTGTTTTGTTAGGTGTAGGCATAAGAAGAAAGCATGACAATTTTTTTACCCTGTTTATTGAATATGCATTTTTAATACCATGGATGCTACCATCTACGTTAATCGCAATTGGATTTTTAACCACTTATGATGAGCCGAAATTAATTATTGGAAACAAGGTGTTAATCGGTACAACCGAAATATTAGTGCTAGCGTATATCATTATTCTCATTCCGATTACTTCCAGACTATTACGAGCTTCCTATCAATCTGTGGATCAGGATTATGAGCGGGCTGCAAAATCGCTCGGCGCGAGTTCATTTTACACGTTTCGTCGAATCGTCTTACCTATGCTCCTGCCAACTGTTCTCGCATTAATTGTCTTAAATTTCAACTCACTACTATCGGACTATAACATCGCAGCATTTTTATCGCATCCTTTAAAGGAGCCGCTCGGTTTATTGATTCGCAGATATACATCTGTGGAAGCGACTGGCGATACACAAGCATTAATCTATGTCTTCTCGACAATTTTGATGGCGATTGCCGCCATCACCGTTTCGATCGTTTATGGCTGGTTATTAAAAGAAAAGAAGAAATAA MKQLINVKQWKKNSMRLLIGAFLLWFVIAFLIYPNFNIILASFRTESGFSFAIVRKLFESPIAMDGLKNSFILAISLAITTNIVGVFIVLVSEYFEIRGAKLLKIGYMTTFIYGGIILVSGYSMIYGENGIVTKTLASFFPNFNVQWFGGFWAVLFVMTVSTTTSHMMFLGNAIKSIDNYTIEAAKNMGASSFYIIRRIVLPVVLPTIFAITILQFLGGLSAFAAPLIIGGKDFQTIAPLILELNKIPGSQGLALMLSLVLGLTTILLLILFTKLEKGGTFFSISKTKAVYVKQKINHKALHIFVHAIAYLLFIIYVMPVVLIIAFSFTNSAAIHEVKLSFSAFTLDNYQTVFHDIEKITPFFNSANFSIQAAIAVTIIVLLGVGIRRKHDNFFTLFIEYAFLIPWMLPSTLIAIGFLTTYDEPKLIIGNKVLIGTTEILVLAYIIILIPITSRLLRASYQSVDQDYERAAKSLGASSFYTFRRIVLPMLLPTVLALIVLNFNSLLSDYNIAAFLSHPLKEPLGLLIRRYTSVEATGDTQALIYVFSTILMAIAAITVSIVYGWLLKEKKK PGPT0003730_1508 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011 NA NA AK015_01405 1002 btuD_4 Vitamin B12 import ATP-binding protein BtuD ATGATTGAATTACAAGATATTGAAATTGCCTATGATGATTTTATTGCCATGAATGAACTTAACATCACGATCAATGAAGGCGAATTTTTTACGCTGTTAGGTCCTTCTGGATGTGGAAAAACAAGTTTACTTCGAACCATTACAGGGTTTGTTTCTCCGTCTAAAGGACGAATTATTATTGATGGAAAAGATGTGACGGAGGAATCCGTAGAAAAAAGAGGCGTTGGCATCGTTTTTCAATCATACGCGATTTTTCCAACGATGAATGTATTTGAAAATATTGCCTTCGGGTTACGAGTGAAACGATTATCAAAAAAAGCAATAAAAGAGAAAGTATTGGAAATTGCTCGGATGGTTGATTTAAACGAGGAGCATTTACAGCGAAACGCCTCCGAACTATCTGGCGGACAGCAACAGCGGGTTGCCATTGCCCGTGCATTAGTGCTTCAACCAAAAATCCTATGCTTAGATGAACCCCTCTCCAATTTGGATGCAAAACTACGAAACCAATTGAGAGTAGAGTTAAAAAGACTGCAAAAGCAATTTGGGATTACAACCGTCTATGTCACACATGACCAGGAAGAAGCATTAACAATGTCTGATAAAATTGCTGTCTTCAACAATGGAAAACTGGAACAACTGGGCACGCCAAACGATGTATTTAACAACCCAACATCGGAATTTGTAGCAACATTTATAGGTGATAGCAACGTCTTAGAAACAAAAGAACTGGCTACTTTTTTAAACGCTAAGAACCTTTCTCGTCCAAGCGGGAAAAGCTACCTTCGTCTAAATCATGTACACACAAAGCCTATCAAAGAAGCGATAGAACTGGATGCTGTCGTAACAAACGTGGAATATTTTGGGCTTTATAGCAAATATACGTTCAAAACCGTTTTTGGACTGACACTTCGCAATGTCGAGGTAGACCTTTCTAACCAAATGAATATTGGCGATAACGTAACATTGTATCTAAAGCAAAGTGATTTCATCCATTTGTAG MIELQDIEIAYDDFIAMNELNITINEGEFFTLLGPSGCGKTSLLRTITGFVSPSKGRIIIDGKDVTEESVEKRGVGIVFQSYAIFPTMNVFENIAFGLRVKRLSKKAIKEKVLEIARMVDLNEEHLQRNASELSGGQQQRVAIARALVLQPKILCLDEPLSNLDAKLRNQLRVELKRLQKQFGITTVYVTHDQEEALTMSDKIAVFNNGKLEQLGTPNDVFNNPTSEFVATFIGDSNVLETKELATFLNAKNLSRPSGKSYLRLNHVHTKPIKEAIELDAVVTNVEYFGLYSKYTFKTVFGLTLRNVEVDLSNQMNIGDNVTLYLKQSDFIHL PGPT0003735_3856 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010 NA NA AK015_01406 1068 hypothetical protein ATGAGAAAATTATTGCTCATGCTTGGAATAGTTTCAACCCTTATATTCATTACCGCTTGCAGTGAGGAAGGAAAAGAAGCAACTGAAGCAAAATCAGATAAGAAGTCGGAATTAGTCGTGTATACCAACCAAATTTCTGGTGATCGCGAGGAAGTAGCTAAAAGTTTAGTAGAAGAGCAAAATTTCGATTTTGAAGTTGTATTTGTGCAAGCTGGTGGAGGAGAAATGAAAGACAGACTTATCGCTGAAAAAAATAATCCACTCGCGGATGTTGTTTTGGGAGGCTCTCCATTAGAGCATTTAGCTTTAGCAGAAAATAATATATTAGCACCATTTACTCCTATTTGGGCAGAAGATATCGATTCCAGTTTAGTTGGACCAGAAAACAACTACTGGCCATGGGCCATCGATACCGTTCACTATACGTACAATAAAGATTTAGTTGGTGGGAATAATCAACCACCAGTACCGCAAGATTGGCCTGATTTAACAAAACCTGAATATAAAGATCAATACTATATTTTCGAACCCTCTGGAACGACAGGTGCTGTTCTGTTCGCTTCCATGCTTGTAAGATATCAGGACGATAATGGTGAGCATGGCGTATCAGAAGAAGGATGGAAATTAGTAAAAGATATTTATGCAAATGCCGTAAATCCAACTCCGCAAGATTGGCAAGAAGCACTGAAGGAAGACGTAACGGGAGGATTCATTTGGGGAGGCGGCGTGATTTCCGTTGCTCGTGACAAGAATATCAAACTAGATATTATGGAACCTTCTGTAGGTACACCGTTTTTACCTGCTCTTGTAGGAAAGATTCATACTGGTAACGAGGAGAAAATGGAAAACGCAGAAGAATTTATTAACTGGTGGGGTTCTACCGACGTCCAAGCAACTTGGGGAGAAAAAACTGGACAAGCCCCAGCAAATAAAGAAGCACTAGAGAAAATTGGTGGAGAGATACAAGCATTGCTTGATCGTTTAGAAGCACAAGAACTTGACTGGAATTATATCTATGAGCATATGGATGCATGGCGTGAAAAAATGGCACTTGAATATGCACAGTAA MRKLLLMLGIVSTLIFITACSEEGKEATEAKSDKKSELVVYTNQISGDREEVAKSLVEEQNFDFEVVFVQAGGGEMKDRLIAEKNNPLADVVLGGSPLEHLALAENNILAPFTPIWAEDIDSSLVGPENNYWPWAIDTVHYTYNKDLVGGNNQPPVPQDWPDLTKPEYKDQYYIFEPSGTTGAVLFASMLVRYQDDNGEHGVSEEGWKLVKDIYANAVNPTPQDWQEALKEDVTGGFIWGGGVISVARDKNIKLDIMEPSVGTPFLPALVGKIHTGNEEKMENAEEFINWWGSTDVQATWGEKTGQAPANKEALEKIGGEIQALLDRLEAQELDWNYIYEHMDAWREKMALEYAQ PGPT0003725_1280 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012 NA NA AK015_01407 399 hypothetical protein ATGCCTGTTCTGTATAAAGAAAGTCCACCAGTTGCATGGCGAGTTGGCGTTGATTTGTATGTGAGTGAAGTTAATAATCCTGAGAATGTAAATTGGTTAGAAGCTTTGATTGGGCCAGGACATAAGCATAGATTAGGTTTGTTCAGAAAGGCTGTGCAACAGATGCAAGCCTGTCCTGTAAAGTTAATTGAGGGAGATGGGGTGGAGTTACTTTCTGAAATTGCTAAGCAAGCATCTCATAATGCGTCCTTATGCATTTTTCATACGCATGTAGCAAATCAAATGCTGCAAGAGGTAAAGCAAAAATTGCTAACAAGCATACAAAAAGAGGTGAAAATAGAGACATTTTCCATTTATATAACAATATATGTGATGCAAATCTTCATCTGGATTATGTGA MPVLYKESPPVAWRVGVDLYVSEVNNPENVNWLEALIGPGHKHRLGLFRKAVQQMQACPVKLIEGDGVELLSEIAKQASHNASLCIFHTHVANQMLQEVKQKLLTSIQKEVKIETFSIYITIYVMQIFIWIM NA NA NA NA NA AK015_01408 930 panS COG0385 Pantothenate precursors transporter PanS ATGCAAGCATTTATCAAATTCAGTCACTTTATCGGAAAAACATTTGCTATTTGGGTATTGTTGGTGGCGGTAATAGCTTTCTTATTGCCAGAGCAATTTTTATGGATTGGTAATTACATATCAATTTTGTTGGGAATTATCATGTTTGGGATGGGGATGACATTATCGGTGCATGATTTTCGGGAAGTCGCTCGCCAACCGAAAAGTGTAGCTATTGGTGTTGTTTTACAATTTTTGTTCATGCCGCTTATTGCTTATGGTTTAGCAAAAGGGTTAAACTTACCACCAGAAATTTCCATTGGAGTTATTTTAGTTGGAGCTTGTCCCGGAGGTACAGCCTCTAATGTCATGACATTTTTAGCAAAAGGGAATACAGCTCTTTCTGTTGCTATCACATCTGTATCCACATTGCTTGCGCCTTTGTTAACACCTGCCATTATCTATTTTCTAGCGCAAGAGTGGTTACAGGTATCCGCATCAAGCATGTTTATGTCGGTTGTAAAGATTGTCTTGTTACCTATTGTTTTAGGATTAATTGTCCAACTTTTCTTAAAAGAACAAGCAAAGAAAACCGTTGATATTATGCCCCTTGTCTCTGTAGTTGCTATTGTTTTAATTGTTGCTGCTGTTGTTGCAGGTAGTAAAGACAAGATCATCGAATCAGGCTTGCTCATATTTGCAGTTGTACTATTACATAATGGGTTTGGTTATTTAGTTGGCTTCTTTATTGCGAAGTTATTTAGACTAACATACACGGATCAAAAAGCTGTTTCTATTGAAGTTGGTATGCAAAATTCAGGTTTGGGTGTGGCATTAGCTGCTGCTCATTTTAGTCCGCTTGCAGCAGTTCCTAGCGCCATCTTTAGCTTTTGGCATAACATATCTGGGCCCATACTGGCAACATATTGGGCGCAAAAAGCGAAGAAATAA MQAFIKFSHFIGKTFAIWVLLVAVIAFLLPEQFLWIGNYISILLGIIMFGMGMTLSVHDFREVARQPKSVAIGVVLQFLFMPLIAYGLAKGLNLPPEISIGVILVGACPGGTASNVMTFLAKGNTALSVAITSVSTLLAPLLTPAIIYFLAQEWLQVSASSMFMSVVKIVLLPIVLGLIVQLFLKEQAKKTVDIMPLVSVVAIVLIVAAVVAGSKDKIIESGLLIFAVVLLHNGFGYLVGFFIAKLFRLTYTDQKAVSIEVGMQNSGLGVALAAAHFSPLAAVPSAIFSFWHNISGPILATYWAQKAKK PGPT0013890_1991 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453 NA NA AK015_01409 351 hypothetical protein TTGCATCACAGATTATTTCGATCGTTCATCTTATTGCTGTTATTCGCATGTTTACTATCGAGTCAGGCTGTACAGAAAATCAATCAAATGCCTAATTTGATAGCAGAAAATACAACGATTACGTCTGTTGTACAAGCGTCTCAGGAAGACGCGATACAAGTTACTTCACCTACTGTTCCGATGCCAAAGGATGCACTGTTTCTAACAAAAGCTCCTTTTGTTAAGGAAGATGTCATATTATATTTCCTAGAGGATTTTTTTCCAGATAAGGGTTTATATGCTACAGATACGCATCGAATGGTGGAATGGATGAAGTACCACTCCAATTATCTCTCTCTTCATGTTTCATAA MHHRLFRSFILLLLFACLLSSQAVQKINQMPNLIAENTTITSVVQASQEDAIQVTSPTVPMPKDALFLTKAPFVKEDVILYFLEDFFPDKGLYATDTHRMVEWMKYHSNYLSLHVS NA NA NA NA NA AK015_01410 198 hypothetical protein ATGAAGTCATCACAAGAAAAAGCAGGGTGGAAAGAAACAATCATATGTTATGTAGTTATTCTTATTATTTTAAGCATTTTCTTAGGAACCATTGTAATTAGTGGAGAAATAACAGGCATACATTGGATGGATTATTTACGTAAGTTCGAATGGGATGTCAATATAGATTTATTAAGACAGCTGTTTTTGATAGACTAG MKSSQEKAGWKETIICYVVILIILSIFLGTIVISGEITGIHWMDYLRKFEWDVNIDLLRQLFLID NA NA NA NA NA AK015_01411 1170 bdhA COG1979 NADH-dependent butanol dehydrogenase A ATGCAAAATTTTAACTACTATAACCCAGCAAACATTTACTTCGGGAAAGGCGAAGAACGTCGTATTGGTGAGCTTATTGACACAGAAAGTCATTCTAAACGTGTTCTTGTACTCTATAGTGGCGACTATATTTTTGATTTAGGTATTTATGATACCATTGAAACAAAGCTTCATGCCAAAAATATAAAGATTTTCAAAAATGGAGATGTGGTTCCTAATCCTGAAATTAGCTTAATCCGCAAGTTGGTGACAATTGTAAAAGAGCAGGAAATTGATTTCATTTTAGCTGTCGGTGGCGGTAGCGTGATTGACACAGCAAAAGCTGTAGCCTTTGGTGCATTATACGACGGGGATGCCTGGGATTTCTTTATTGGTAAGGCTGAAGTAAAGCAAGCACTACCAATTGGCGTGATTTCTACTGTTGCCTCTTCTGGTTCAGAAATGTCGAATGCTACCATTGTTTCTAACGCAGAACACAAATTAGGTGTGGAAACAAACCTGATTATTCCCGCATTTTCGATTCTCAACCCAGAATTCACAGTAAAACTGCCAAGCTATCACACCGGCGTAGGTGTATCCGATATTTTAACACATCTTTTAGAACGTTACTTTACTAAAATAGAGCATGTACAATTAACTGATTTTCTTCTTGAAGGTGCAGTACAATCACTTTTAATTAGCGGGCAACAATTGATGGAACAACTAGAAGATTATGACTTAAGAGCAGAAGTCATGTGGACTGCCGTCATGGCGCATAACAATAGCTTAGAATTAGGACGTGAACCAGACTGGGCCTCACATCGTATGGAGCATGAGCTTAGCGGGCAATATGGCATCGTTCATGGAGAAGGAATGGCCATCGTATTTCCTGCTTGGATGGAATATGTAAGTCAGTTCCACCCAGATATTTTTGTTAAGTACGGCGTTCGCGTATTTAACATTGATCCGTTTGCTCACTCGAAGGAAGAAATCATTCAATTAAGTATCGAAAAGACACGTGATTTCTTCACCCGTATGGGCATGAAGTCACGCTTGAGTGAATTGGAAATTGACGATACACATTTTGAAGAAATGGCAAATCGTGCAACGAAAAATAACACCCAAGCCATTGGACACCTTAAGAAATTAAATGCTACAGATATGGTGGAAATATTGAAATTAGCTTTGTAA MQNFNYYNPANIYFGKGEERRIGELIDTESHSKRVLVLYSGDYIFDLGIYDTIETKLHAKNIKIFKNGDVVPNPEISLIRKLVTIVKEQEIDFILAVGGGSVIDTAKAVAFGALYDGDAWDFFIGKAEVKQALPIGVISTVASSGSEMSNATIVSNAEHKLGVETNLIIPAFSILNPEFTVKLPSYHTGVGVSDILTHLLERYFTKIEHVQLTDFLLEGAVQSLLISGQQLMEQLEDYDLRAEVMWTAVMAHNNSLELGREPDWASHRMEHELSGQYGIVHGEGMAIVFPAWMEYVSQFHPDIFVKYGVRVFNIDPFAHSKEEIIQLSIEKTRDFFTRMGMKSRLSELEIDDTHFEEMANRATKNNTQAIGHLKKLNATDMVEILKLAL PGPT0008295_211 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 AK015_01412 912 ydjF COG1349 putative HTH-type transcriptional regulator YdjF ATGTCAATACATTTCAAAGAAAATCACAATTATTTTGTTTTGATATTTTGGCTTTTGTTTGCAAAAAGTTTGCAATTACGTTTTGAAACATTTACTTTTCGGTTTTTTTATGATAAAGTGCAAGTAGCAAATCGTAAAGGAAAGATTGTTTTGATGAAATATGATCGATTACAAGAAATTTTAAAACAACTCAATAATACCGGCAGTGTAAAAGTGACGGATTTGAGCAAAATGTTAAATGTAACAGAAGAAACAATCCGCAAAGATTTAGCAACCTTAGAGAAGGAAAAGAAGTTAAAACGCGTGCGTGGTGGTGCTTATCAGCCCAAAACACTTGATAAAGAAGTGCCTGTTTTATTAAGAGAAACGATGTTAAAAGAAGAAAAGCAAAATATGGCTGGTAAATGCTTGCAATTCATTGAAGACGGAGAGTCTGTCGCTTTAGACAGCTCCACAACATCATTATCTATAGCAACACTTTTAAGTATGACAACATTAAAAATTACTGTTATATCTAATTCATTAGATATTGCCAACGTCTTAAAGGATCACAAGTCTATTAAACTAATTATTATTGGTGGTAACTTTAGGAATGTAACACATTCCTTTATTGGTGTAAATGCCCAAAATGTAATATCCCGATACTTAATTGATAAAGCGTTTATTAGTAGCTCTGGCATAAGCTTGCATATTGGTCCAACCGATTACAGCGAAGAAGAATCGCTGATTAGAAAACAATTCTTACAACAATCAGAGAAAAATTATTTGGTAGTGGACCATACAAAATTTGATTTTCGCACAATCCATTTAATTGATGACTTTTCGCACATCTCTACCATTATTACAGACCAAAAGCCATCGCCAGAGTGGATGCATTTCTTTCAAAATAATAATATACAGTTGATTTATTAA MSIHFKENHNYFVLIFWLLFAKSLQLRFETFTFRFFYDKVQVANRKGKIVLMKYDRLQEILKQLNNTGSVKVTDLSKMLNVTEETIRKDLATLEKEKKLKRVRGGAYQPKTLDKEVPVLLRETMLKEEKQNMAGKCLQFIEDGESVALDSSTTSLSIATLLSMTTLKITVISNSLDIANVLKDHKSIKLIIIGGNFRNVTHSFIGVNAQNVISRYLIDKAFISSSGISLHIGPTDYSEEESLIRKQFLQQSEKNYLVVDHTKFDFRTIHLIDDFSHISTIITDQKPSPEWMHFFQNNNIQLIY NA NA NA NA NA AK015_01413 1329 mleN_2 COG1757 Malate-2H(+)/Na(+)-lactate antiporter ATGCAGAAAACAGAAGAAAAAAACAAAACTTCCAATAAAGGGAGATTTATGGGGCTTGTCCCGTTAATTATCTTTTTGGCTTTATATATGTTAACAGGTTTAGTGTCAGGTAGCTTTGAAAACATGCCATTGATGATTGGTATATTAATTGCTTCAGGCGTTGCATTAATGATGTCGAATAAAGACAATCCGACAAAGTTTGAAGAGCGAGTGACGATGTTTTGTAAAGGTGGTGGCGACCACACATTGATCTTAATGGTTGTTATCTTTATTTTAGCAGGAGCATTTCATGGTGTAGCTAGTGGAATGCATGCTGTTGATTCCGTAACAAATTTAGGTCTTAGTGTTCTACCATCCAATTTAATTTTGCCAGGCTTGTTTATTATTGGTTGTGTACTTAGTTTCTCTATGGGAACGTCTATGGGGACGGTTGCGGCTTTGGCACCATTAGCTATTGATATTGCTGATAAAACAGGATGTAATGTAGCATTAGTATGTGGTGTTGTTGTTGGTGCGGCTATGTTTGGTGATAATTTATCGTTTATATCTGACACAACCATTGCAGCAACGCGTACACAAGAAATATCTATGAAAGATAAATTTAGAGCAAATATTTTAATGGTTTTACCAGCAGTAGTTATTAATATGATCTTATTGGCTTTTGTTCCGATTAATACGGTTTCTATCTCTGGATCTTATGACTACAACATAATAAATATCATTCCATATGTGTTAGTTATCGTTTTGTCATTAGTTGGTGTTCAAGTTATTACAGTAATGGTTACAGGGATATTTGCAGGTATGTTTATTGGTTTATTCCATGGAGATTTTACAATTATTGAGTTTATGAAGATTGCCCATGATGGTATGAGAGGCATGGAAGATATGGCTATTATTGCTATTTTAGTCGGTGGGCTTGTTGCATTAATGAAATATCTTGGAGGAATTGATTGGCTACTTCATACGCTTACTAGAAAGACGAAAACAGCACGAGGTGGGGAACTTTCCATTGCAGCCCTTGTTAGTTTAATGGATATTTCAACTACCAATAATACGATTTCCATCATCGCTGCAGGACCGCTAGCGAAAGATATTTCCGATGAATTCGGTATTTCTCGTTCGCGTACGGCAAGTTTACTAGATATATTTTCTGCCGCATTCAATGGTTTATTACCATATGCAGGACAATTATTAGTAATTGGCGGCATGGCAGGAGTATCACCTGTTAGTATCATGCCTTATAACTGGTACTCCATTCTAATGATAGTGATCGGTTTACTATCTATTGCTATTGGCTTTCCAAAAGGGAAAGATGTAAAGGTTAACTAA MQKTEEKNKTSNKGRFMGLVPLIIFLALYMLTGLVSGSFENMPLMIGILIASGVALMMSNKDNPTKFEERVTMFCKGGGDHTLILMVVIFILAGAFHGVASGMHAVDSVTNLGLSVLPSNLILPGLFIIGCVLSFSMGTSMGTVAALAPLAIDIADKTGCNVALVCGVVVGAAMFGDNLSFISDTTIAATRTQEISMKDKFRANILMVLPAVVINMILLAFVPINTVSISGSYDYNIINIIPYVLVIVLSLVGVQVITVMVTGIFAGMFIGLFHGDFTIIEFMKIAHDGMRGMEDMAIIAILVGGLVALMKYLGGIDWLLHTLTRKTKTARGGELSIAALVSLMDISTTNNTISIIAAGPLAKDISDEFGISRSRTASLLDIFSAAFNGLLPYAGQLLVIGGMAGVSPVSIMPYNWYSILMIVIGLLSIAIGFPKGKDVKVN NA NA NA NA NA AK015_01414 1206 drdK 5-deoxyribose kinase ATGATGTCCAAATTCACACAGCATTTTTTAATGGCGCATGAAGACGTGAAACAGTTTGTGACGGATGAATTAAAGCTATTTCCAATGGATGCAGAGCTGAAGGTAAGTGAAATTGGTGATGGTAATATCAATTATGTGTTTAAGGTTGTCGATAATAAATCAGGGAAGCGTGTCGTTGTGAAGCAGGCGGATGTGCTACTTCGATCATCTGGTCGTCCGCTTGATATTTCAAGGAATAAGATTGAAGCTGATATATTAAAAATACAATATGAGCTTGTACCAGCATTTATTCCGGAAATTTACAATTATAATGAAGCGATGAGCACATTAACAATGGAAGATATTTCTGCTTATAAAAATCTGCGCTATGAATTAATGAATGAACAAATTTTCCCAAACTTTGCCGAAGACATCAGTACATTTTTAGCAAATGTACTTTTACCTACTACGGATTTATGTTGGGATCGTCATGAGAAAAAAGAGCTTGTTAAAAACTTCACCAATATAGATATGTGTGATATTAGTGAAGACCTTGTCTTTACGGAGCCTTATTATAACTATAAAGACCAAAATATTATTATTGAAGCGAATGAACAGTTCGTAAAAGATCATATTTATCAAAATGATGTGCTAATTGGTCATGTTGCCGCATTACGTAATAAGTATATGAATCAAGCCCAAGCATTAGTGCATGGAGATTTGCATTCAGGCTCCATTTTTATTAATCAAGCAGGGGTTAAAGTCATTGATCCAGAGTTCGCTTTCTATGGTCCGATGGGCTACGATATTGGAAATGTTATCGGTAATTTATTCTTTCCATTGGCAAGAGCTCACTATTACAATGGAGACGGAAAATTTCAAGTATGGTTAGCAAACACGATTTGTGATGTGTATGATAAAGTGAAGGAAAAAATGGCAACTGTTTATGACGAAAGCGTGACGCTTCCGCTTTATAAGAATACATCTTTTAAAACGACTTATCTAAGTGAAGTAATGGCTGATTCTTTAGGGTATGCAGGAACGGAAATCATACGTCGTGTTATCGGTGATTCCAAAGTAAAAGAAGTATCCGAGGCGCCACTAGGTGAAGAACGTATTGCTATGGAACGTGCGTTACTTAAAATGGGAATGGAGTTAATTATGCAACGAAATGAGATCACAACAGGGGAAGAGCTAGTTCGTCGATGTCACCAAATAATGGCTTAA MMSKFTQHFLMAHEDVKQFVTDELKLFPMDAELKVSEIGDGNINYVFKVVDNKSGKRVVVKQADVLLRSSGRPLDISRNKIEADILKIQYELVPAFIPEIYNYNEAMSTLTMEDISAYKNLRYELMNEQIFPNFAEDISTFLANVLLPTTDLCWDRHEKKELVKNFTNIDMCDISEDLVFTEPYYNYKDQNIIIEANEQFVKDHIYQNDVLIGHVAALRNKYMNQAQALVHGDLHSGSIFINQAGVKVIDPEFAFYGPMGYDIGNVIGNLFFPLARAHYYNGDGKFQVWLANTICDVYDKVKEKMATVYDESVTLPLYKNTSFKTTYLSEVMADSLGYAGTEIIRRVIGDSKVKEVSEAPLGEERIAMERALLKMGMELIMQRNEITTGEELVRRCHQIMA NA NA NA NA NA AK015_01415 1053 mtnA COG0182 Methylthioribose-1-phosphate isomerase ATGCAACGAGCGGATTATGATTTACCGTTTTTATTAACTTATGAAAATGTAGCTTGGTATGAGAATGGCAAAGTGCGCATATTGGATCGGAGAATTTATCCGACAGAGGTTCGATTTGTTGAATGTACGACACATCAAGAGGTTGCCCAAGCTATTACAGATATGGTCACACAAAGTGCTGGTCCCTATACAGCGGCTGGAATGGGTATGGCATTAGCTGCGTATGAAATACGCGGTAAAAAAGAAGCGGAGCAAGTAGCGTACTTGGAAAAAGCCGCTCATACGATTGCTTATGCTCGCCCAACTACGGCAAATCGGATGGGGAAAATTACGAGCAGTTGTTTAGAAGTAGGGAAAGCTGCGCTAGCAAAGGGGGAAGATCCTGTTGAAGCGATTTTTCTCTCCACGGTAGATTCTTTAAATCGTCGTTATTCCATTATGGATAAAGTAGGCAAGCACTTAATTAAATTAATGCCACATAATGGAAAGATTCTGACGCAGTGTTTTGGGGAGACAATAGTGGGAACTTTCCTACGTGCTGCTAAAGCAGAAAATAAAGATTTAGAAATTTTTTGCGCGGAGACTCGACCATATTTGCAAGGTGCTCGTTTAACGTCTAGCTGTGCCATTGATTTGGGCTTTCCAACAACAGTAATTACGGATAATATGGTAGCTTATGCTATGGAATACAAACAGATTGATGTGTTTACGTCTGCTGCGGATTCCATTGCTAGGGATGGACATATAGCGAATAAAATTGGTACCAATCAAATCGCTATCGTCGGACAGCATTATGAAGTTCCTTATTATGTGACAGGGATTCCAGATACCGATAAGCAAACAAAAGCGGATATTGTAATTGAAGAACGTGATCCGAAGCAAGTATTAGAATATCGAGGAATTCCTAATACCTTAGCTGGAGTTCAAGCTATCTACCCATCTTTTGATATCACAAGCCCATCTCGTATCAGCGGAATTGTGACAGATAAAGGCGTTTACGCTCCTAATGATTTGGATGCATACTTCAAAGAGGAGCAAGTCCGGTTTTATTAA MQRADYDLPFLLTYENVAWYENGKVRILDRRIYPTEVRFVECTTHQEVAQAITDMVTQSAGPYTAAGMGMALAAYEIRGKKEAEQVAYLEKAAHTIAYARPTTANRMGKITSSCLEVGKAALAKGEDPVEAIFLSTVDSLNRRYSIMDKVGKHLIKLMPHNGKILTQCFGETIVGTFLRAAKAENKDLEIFCAETRPYLQGARLTSSCAIDLGFPTTVITDNMVAYAMEYKQIDVFTSAADSIARDGHIANKIGTNQIAIVGQHYEVPYYVTGIPDTDKQTKADIVIEERDPKQVLEYRGIPNTLAGVQAIYPSFDITSPSRISGIVTDKGVYAPNDLDAYFKEEQVRFY NA NA NA NA NA AK015_01416 660 drdA_1 5-deoxy-D-ribulose 1-phosphate aldolase ATGAAATATGCTGAAGAACGGAAACAGATTGTAGATTATGGCAAGAAATTATTAGAAGAGAACTTAACGACAGGTACTGGCGGTAATATAAGTATCTTTATAAGAGAAGATCAAGTGATGCTTATTTCACCAAGTGGTATTCCTTATCCAGATATAAAGGAAGAAGATATTGTATTATTGAATCTCGATGGAGATGTACTGGAGGGAGATCGTAAGCCTTCCAGCGAGTATGATATGCACCGTATTTTTTATCAACGTACAGAGCATGTGAATTCCGTTGTGCATACACATTCGGAATATGCAACTGTTTTTGCATGCTTGCATGAAGAAATCTTGCCTCTCCATTATATTATTGGTTCGGTTGGCAATAAAGTTCGCTGCTGTGAATATAAAACGTTCGGTACGTATGAGCTAGCGGAAGAAGTTTTTCAAACGATTGGCAATGATAAAGGACTGTTGCTTGGTAACCATGGTGTGATTGCAGTTGGCGAGGATTTACCAGCGTCTTTTTCCGTTGCGAAGGACATCGAGTTTATTGCGAAACTGTACTATCGGGCGCGGAGTATTGGGAAACCAGTTCTGTTAAATCATGAACAGTTAGCTGAAGTTGTTGATAAATTTGGTACGTATGGACAATTAAGAACATACGGCCAAGATTAA MKYAEERKQIVDYGKKLLEENLTTGTGGNISIFIREDQVMLISPSGIPYPDIKEEDIVLLNLDGDVLEGDRKPSSEYDMHRIFYQRTEHVNSVVHTHSEYATVFACLHEEILPLHYIIGSVGNKVRCCEYKTFGTYELAEEVFQTIGNDKGLLLGNHGVIAVGEDLPASFSVAKDIEFIAKLYYRARSIGKPVLLNHEQLAEVVDKFGTYGQLRTYGQD PGPT0017430_988 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628 NA NA AK015_01417 291 hypothetical protein ATGCTATTGACATCCGTATTCCTTGTTGTGACAAGTTTTTTTCTTTGGTGTGTACTTTCCATCAAATACGTCTTTTATCAAGACTATCTATCTGTCAAAGGTGGACCGTTTACAAGTCGAATTGCATATGAAAGCATTACGAAGGTCTCCGCTACTTCAACTATTTTTTCTGGTTATCGCTTATTGTCATCAAGAGATGCTATTGAAATTTCATATACGATTTTTGTGAGTGTGAAAGTATCCCTGAGAGACCAAAAAGAGCAGTGTCCAAACGCGCGGTTTCAAGAATGA MLLTSVFLVVTSFFLWCVLSIKYVFYQDYLSVKGGPFTSRIAYESITKVSATSTIFSGYRLLSSRDAIEISYTIFVSVKVSLRDQKEQCPNARFQE NA NA NA NA NA AK015_01418 1014 yfmJ COG2130 Putative NADP-dependent oxidoreductase YfmJ ATGAAACAACAACAACTCATTTTTAATGAACGACCTAATGGGCTACCAAATGCAAGCACGTTTGCCATGAAAGAAGTGGAGGTGGGGAGTCCAAAGCAGGATCAATTACTATTAAAAACGCTTTATATTTCTGTTGACCCGTATATGCGTGGCAGAATGGCAGATGGTCCATCCTATATTGCCCCATTTCAAATTGGCGAGCCTCTTAATGGTGGAGTTGTCGGGCAAGTGATTACTTCAGAAAGTGATCAATTCCAGCAAGGAGATATTGTTACGGGAATGCTAGATTTTCAAGAATATCATATAGTGAATGCGGATCAAGTACGTAAGGTAAATACATTTGGTTTACGTCCTAGTGTTGCTCTTGGCCCTTTAGGAATGCCAGGATTGACGGCGTATTTCGGGATGATGCATATTGGTGAGCCAAAACAAGGAGAAACGGTAGTTATTTCTGGAGCGGCAGGAGCTGTTGGACAAATAGCAGGTCAACTTGCTAAAAAAGCTGGTGCACGTGTAATAGGAATTGTTGGTTCTGAGGAAAAAGCAGCGTATATTACGGAAACACTGGGCTATGACCTTGCAATCCAATACAAGCTTGGCGATGTGCATGAACAATTGAAGCAAGCTTGTCCAAATGGTATCGATGTTTATTTTGAAAATGTAGGTGGAGAAATAGGCGATGCGGTATGGCCGTTACTGAATGCATTTGCTCGTATACCTGTTTGTGGTGCTATTTCGTCGTATAACTTGAAAGAGGGCGAAAGGGACATTGGTGTACGAGTACAGACGTATTTAATCAAAGCTAGAGCAAAAATGCAAGGCTTTTTAGTCGGTGACTATACAGAACATTTTAAGGAAGCATATGAGGAATTAGGCAAAGCGATAGCGAGTGGAGAATTAAAATACCAGGAGACAATTCGCGAAGGATTCGAGTCGATCCCTGATGCTTTCATCGGCTTGTTTACAGGTGAGAACATTGGCAAGCAATTGGTGAAAGTCGCAGAACAAGAATAA MKQQQLIFNERPNGLPNASTFAMKEVEVGSPKQDQLLLKTLYISVDPYMRGRMADGPSYIAPFQIGEPLNGGVVGQVITSESDQFQQGDIVTGMLDFQEYHIVNADQVRKVNTFGLRPSVALGPLGMPGLTAYFGMMHIGEPKQGETVVISGAAGAVGQIAGQLAKKAGARVIGIVGSEEKAAYITETLGYDLAIQYKLGDVHEQLKQACPNGIDVYFENVGGEIGDAVWPLLNAFARIPVCGAISSYNLKEGERDIGVRVQTYLIKARAKMQGFLVGDYTEHFKEAYEELGKAIASGELKYQETIREGFESIPDAFIGLFTGENIGKQLVKVAEQE PGPT0023605_223 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 AK015_01419 876 hypothetical protein ATGGAAATGAAAGAGGAATTACCAGCAAATATAAAAGAGCAATTGCAAAATTTTGCAAGGAATACGACTGCTTATACAGAATTAATTCGTGAAGGTGGCTATATGGCTCCTAATAAGGAGATCATTATTGATGCCGTTACAGCACTTTTACTAGGGAAAAACATTTTATTAAAAGGTCCTACAGGGGCTGGGAAAACAAAGTTTGCTGAAACGCTATCTTTTTTATTTCAGCAGCCGATGTTTAGCATTAACTCTTCTGTAGATATAGATGCTGAGAGCTTACTAGGGTTTAAAACACTTACTTATCAGGATGAAAAGCAAGTGATTGAATTTATCCCAGGTCCTGTGATAAATGCGATGGAGCACGGAACCTTTTTGTATATAGATGAAATTAATATGGCCAAGCCAGAGACACTTCCTATTATAAATGGCGTATTAGATTATCGACGTTCGATTACAAACCCTTTTACAAATGAAATTGTAACTGCGAGTAAAGGGTTTAATGTCATTGCTGCAATAAATGAAGGCTATGTAGGAACGGTGCCTTTAAACGAGGCGCTAAAAAATAGATTTATCGTGATTGAAATTCCTTATATTCAAGGTGGACAATTAAAACAGTTAATAGCGCAAAATACCAAGTTGGAAGATGAAAAGCTGGTGGATTTATTTGTAAAACTATCGAGCGATCTGATTGAAGCAGTAGCTCAAGGTAAAATTAGTGAGGATGCAGCTTCTATTCGGGCTTTATTAGATGCATGTGATTTAAGTAAGCATATACCTGCTAAACGTGCGATTCAACGGGCAATTGCTGATAAATTAGAGGAAGATCGCGAACGAGAATTTATTATGAGCCTCGCAGAAACATTATTTAGTTAG MEMKEELPANIKEQLQNFARNTTAYTELIREGGYMAPNKEIIIDAVTALLLGKNILLKGPTGAGKTKFAETLSFLFQQPMFSINSSVDIDAESLLGFKTLTYQDEKQVIEFIPGPVINAMEHGTFLYIDEINMAKPETLPIINGVLDYRRSITNPFTNEIVTASKGFNVIAAINEGYVGTVPLNEALKNRFIVIEIPYIQGGQLKQLIAQNTKLEDEKLVDLFVKLSSDLIEAVAQGKISEDAASIRALLDACDLSKHIPAKRAIQRAIADKLEEDREREFIMSLAETLFS PGPT0000370_254 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000370-norQ-K04748 NA NA AK015_01420 1914 hypothetical protein ATGTATCGATTTCATCATAACATCGTAGACACCCAATTATTTCGACAGTTACAGGATTTGTCTACGGTTCTATCTGGAGTTTCTGACCTTACATTCACGTATCGTTTTGGTTCTTATATTGATATCGTTGATCGGGAAGTAACAGCAAGCAGAATGTGGGATAAAGCAAAATTTGAATACCGAGTAGCTGGTTTGAAAACAGACGTATATTTACGAACAATTGGAACGCTATCCTACACGGATGTACGTGCTGTGCAACAATACGTGGAAGCTTTAAATCGCTTTTCGTTACCTAAATTCGGCAGGAACTTATTTGCTTTATTAGAAGATATTCGGCTGGAGGAGCAGATTAAACAGGAACGCCCTGGTACGAAAAATGTATTTTTACAAAGAAAAGTGTATTTAAAACATCAATTTGACAAAGATCGAGCAGCCCATGTAACGAGAGGGCTTGCGCTTGATGAATTATTTTGTCTAATCTACTTACGCCTGCAATCAGACGTTGCCGAGCCGAGTTTCCCAATGGCAAGCGAAGAGCAACTGGATCAACTTAAAAGGTTAGCCGCCAATTTATACGAAGTGTTTGAAGCAAAAAGCACGTCTGATATTGCTCGCATATGTGAGCAAATGCTACATGTAATATCAGAAACCAGTCATTACGACATGATTCATGATTATTTTGTCCTCCCCATTCGCCATGTTCATACATTTGCAAAAAATACGTTATTTGATGAATTAACGCGAACGGACCCACTGGAAAATGACGATAAGGAGGAATTGGACGAAGACAAAAATGAATATATTGACGAAACTTTTTCGACATGGCATAGGGAAAATGAAAACAGTGATCGTAAACAAACCTTTCTGCAGTTTGAGTTAGAAGTCGGGACAAAAACGAATATGAAAGGGAATGGTGCGCGTGAGACCGAAGATGGCGATCAAGCAATGGGGACAATACAAGGTGCTGCTGGGCAAACAAAAAATAAGGATTATTCTGACCTAGAATCACTAGATAAACAAGAAAATAAACAAGGCCAACGTGCAGAAAATGTCTATGGGGAAGAGAATAAGGATGCGGTTAAGCTTTTAAAACAAGCGGGCGCTCCAACTAAATCGGAAGTGGCGCTTTATGAAGCGTATGTAAAAGATGTGGAGCCGTATAAGCGAAAATTAGAGAATATATTAAAAAAGACCATCGAACATAAACAAAATGCACCGAGGACGAATATAATGGCTGGCCGCTTATCGAGAAAGCTGTTACCAATTGTGCTTGATGAAAGGCCACTCATTTTCTACAAAAAGAATGAGAAATCGAAGGAATTTGATGCTGCTTTTACGTTGCTAATTGATTGTTCAGCATCGATGCAAGGGAAAATGGAGGAAACGAAGCGAGGAGTTACGCTGTTTCATGAGGTATTAAAAGCTTTTCAAATTCCTCATTCTATTATTGGCTTCTGGGAAGATGCAATGGAAGTTAAAGAGCATTATCAGCCAAACTATTTCCATGTTATTCATGCTTTTACTGATTCATTTTATGAACGTAATGGTCCTAAAATTATGCAGCTTGAACCGCAAGAGGATAATCGTGATGGTTTTAGCATTCGTGTAGCGACAGAGGAACTCGCAGTAAGACGGGAAAAGAATAAGTTTTTACTTGTCTTTTCAGATGGGGAGCCAGCTGCTGCGAACTATAATCAAAATGGCATTGTTGATACAAATTTAGCGGTCATGGAGGCTAGGAAGCAAGGAATTGAAGTAATTGGAACATTTCTTGCTAATGGAGAAATCGGTGAACTAGAGGATCACTTTATGCAAAATATTTATGGGAGAGAAAGGATCCTTGTTCCCAATGTAGCTGAGCTTCCAGAACATTTTGCGCCACTTATGAAGAAGCTGTTGTTAAAAGCACTTTAA MYRFHHNIVDTQLFRQLQDLSTVLSGVSDLTFTYRFGSYIDIVDREVTASRMWDKAKFEYRVAGLKTDVYLRTIGTLSYTDVRAVQQYVEALNRFSLPKFGRNLFALLEDIRLEEQIKQERPGTKNVFLQRKVYLKHQFDKDRAAHVTRGLALDELFCLIYLRLQSDVAEPSFPMASEEQLDQLKRLAANLYEVFEAKSTSDIARICEQMLHVISETSHYDMIHDYFVLPIRHVHTFAKNTLFDELTRTDPLENDDKEELDEDKNEYIDETFSTWHRENENSDRKQTFLQFELEVGTKTNMKGNGARETEDGDQAMGTIQGAAGQTKNKDYSDLESLDKQENKQGQRAENVYGEENKDAVKLLKQAGAPTKSEVALYEAYVKDVEPYKRKLENILKKTIEHKQNAPRTNIMAGRLSRKLLPIVLDERPLIFYKKNEKSKEFDAAFTLLIDCSASMQGKMEETKRGVTLFHEVLKAFQIPHSIIGFWEDAMEVKEHYQPNYFHVIHAFTDSFYERNGPKIMQLEPQEDNRDGFSIRVATEELAVRREKNKFLLVFSDGEPAAANYNQNGIVDTNLAVMEARKQGIEVIGTFLANGEIGELEDHFMQNIYGRERILVPNVAELPEHFAPLMKKLLLKAL NA NA NA NA NA AK015_01421 675 hypothetical protein ATGTCTTATCAGAACAATGTGTTTAAATTTTTCTTTTCGATGGAAGATCACTTCGAGCATATTAAACATGCGGAAAGAATTCGAAACTTCTGGCGTGGTCTTTTCCTATTATTTTTTTGTAGCGTTCTTATATATGGATTCATGGCATATTTAGGCTTGGGAACGGATATCCTTTCAGCAAATATGCTAAAAGTGACGCCGTTGGAATATGAGCAACAGAAGTTTTGGTTTATGGTTGGAAGAATGGGATATGCTGCTTTACTTGCTGGATTTATTTTATTTGTACCATCCTTACTTTATTATGCAGTTACAGGAATACCTTATCGTAAAATAGTGATTATGCAACAAGTCGTTTTAGTTGTCATGCTAATAGAACGAGTAACATGGATTCCACTTGCTGTTTGGAATGGATTAGATTGGTATCTTTCCCCATTGTCGTTAGGTATTATTGCTTCTTATATTACCGAACAGGAGTATTTGATTTATTTTTTTGGAATGATTTCGTTATTCCAAGTTTGGATAATCGGCTTTCAAGTAAAATATTTACGGTTTTTCACTGACATGAGAAAGCTTTGGTTATGGTTTATGGTGATTGGCTTGCATGTTTTTTTCTGGTCGATGGCTTCTGTGCTCGTATTTGCTGACCAATACTTACTAAATAGGTGGTTTCATTAA MSYQNNVFKFFFSMEDHFEHIKHAERIRNFWRGLFLLFFCSVLIYGFMAYLGLGTDILSANMLKVTPLEYEQQKFWFMVGRMGYAALLAGFILFVPSLLYYAVTGIPYRKIVIMQQVVLVVMLIERVTWIPLAVWNGLDWYLSPLSLGIIASYITEQEYLIYFFGMISLFQVWIIGFQVKYLRFFTDMRKLWLWFMVIGLHVFFWSMASVLVFADQYLLNRWFH NA NA NA NA NA AK015_01422 1320 hypothetical protein ATGTCAACGTTAAGAAAGCGATTACAATTAATTGGTGCAACTTTGTTCATTGGTGCGAATGTTTTATTAGTTTATACAGATGATGAGGAGAAGGTAGATCGTATAGCGTATGTTTCAGAGTGGGCAGATGCTTCTCAAGCTGATTTGGAAAAAAAGCTACATACTACAGGAGTATTAACATCTGCCGAGGAAAAGCCCATTTATTTTGATTCGACGACAGGAAGTTTCGAGGCTTTTAAAGTAAAAGAAGGAGATGTGGTGAAGGCTGGTGATGCGCTATTCACTTATAAAGTTGGCCATTATCAAGCGGTGATGGCGGAGTTGCTCGAGAAAAAAATGCAGTTAGAAGAAGAAATAGCATCTATTGAAAAAGTCATCTCGCAAATGTCCTCGTTGCAAATACCGGATATAAATACTGAGAGTGCGGGATTAGAATGGACGGAAGAAGAGTTGACAATTACCATTCCGCAAGACCCTGTTCAAGCTAGATTAATGAAGCAACAATTTTTATTGGAAAAAGAAACAGAAGTAGCCGAGAAGCAAATCGCTTTAAAAAGTGTGGATAGTCAAATAACAGAACTGCAAGAAACTGGGGACACTATTACCGTCGATAGTCCGTATGAAGGGACCATAACGCAACTTTCAAAACAACTAACAGATCCCATTATTACAGTTTCTAGTACAGAGCTTCATGTAGAAGGCGAATTGACGGAATCAGAAAGAGTAGATGTGAAAACAGATCTTTCTGCAAACCTAGAGGTAACAGAGTTAAAAGAATCTCTAACGGGAACCGTCACTAAGGTGGGAGAGATGCCCAAGGAAAAAGCTACTGCAACAACATCCAGCCTTTATCCGATTATCATTAAACTAAACGAATTCAATGAGGAACAAGGGGAAGCGGTAGAAAATGATGACGAGCGGGAAGATGGGCAATCAGAAGGCAATTTATCCCTTCAACGTCATACAGAACAAAATTTATTACCAGGGTACCATGTGGATATAGATATTATAACGGAGACTTCAGAAGGAGCCACTGTATTGATGGAAGATGCCATTTTTCAACAACACGTGTGGAAAATGACAGAAATGGGCACTCTATTACGTCAAAAAATAAGTACTGGATTAAAAGAAGACTCCCGTGTGGAAATAATCTCTGATTTACAGGTAGGAGATAAAGTCGCTCTGCAACCAGGAAAACCATTTCGTTCAAATGCATCGTTTATAACGCCTTTAAAATGGGGGGCTGGTCTTAAGCCTACCGTTTCGCCCAAAGGTACGAATTGGTTGGAATTTTTCATATCGGGGATTATAAATAGATAG MSTLRKRLQLIGATLFIGANVLLVYTDDEEKVDRIAYVSEWADASQADLEKKLHTTGVLTSAEEKPIYFDSTTGSFEAFKVKEGDVVKAGDALFTYKVGHYQAVMAELLEKKMQLEEEIASIEKVISQMSSLQIPDINTESAGLEWTEEELTITIPQDPVQARLMKQQFLLEKETEVAEKQIALKSVDSQITELQETGDTITVDSPYEGTITQLSKQLTDPIITVSSTELHVEGELTESERVDVKTDLSANLEVTELKESLTGTVTKVGEMPKEKATATTSSLYPIIIKLNEFNEEQGEAVENDDEREDGQSEGNLSLQRHTEQNLLPGYHVDIDIITETSEGATVLMEDAIFQQHVWKMTEMGTLLRQKISTGLKEDSRVEIISDLQVGDKVALQPGKPFRSNASFITPLKWGAGLKPTVSPKGTNWLEFFISGIINR NA NA NA NA NA AK015_01423 846 hypothetical protein ATGTCTACGATTAAAAAATATAGTCAATTATTTCTAGAAAAATTTCAAACGGATCAAGTCCCATTATTAGCAGCAGCATTAGCCTATTATTTTCTTTTATCCATTGTTCCCCTTTTTTTAATAGGTTTTACGTTGATTCCCTACTTTCCAATTAGTGCCGAAGAAGCTGTTTCATTTACAAACCAATTGCTACCGAATGAACTTGCCATACTATTAGAAGAAAACATTGTAAGTATTGTCGAAGTACCAAGGGGCGGCCTGCTAACACTAGGGATCATCGGTGCCTTATGGTCCTCATCTGCTGCGATGAATGCTTTTATTAAAGCGACCAATGCAGCTTACGAAGTTGAAGAAACACGGAATATGCTCATTGTTCGCCTTACCGCTCTAATTTTGACGCTAAATATGATTTTCGCTTTTATTATCGCCATTACGCTGCCATTATTTGGTGATCTTATTCTACAATTTATTACCTCTTTTGTCGGACTAACTTCTGCCATGAGTTTATTATTTCAAGTTTTACGGTGGCTATTGAGCATAACTGTTTTAACAGGTTTTTTGCTTCTTTTATACCGTTTTGCTCCGAATAAGCGCCTCCCTTTGAAACATATTCTACCTGGAGCAATAACAGCTAGTGTTCTTTGGCAACTGATATCATTCGGATTCTCTTTCTATATTAGCAATTTTAGTAACTACTCTGCAACTTATGGTAGTCTTGGTGGTATTATTATTTTACTCATCTGGTTTTACTTAACAGGCATGATCTTTTTGAGTGGTGCCATTATTAACGTTCTATATAACGACAAACGATCTAAAGGGGTGGAAAACGAACAGCAAGTATCCTAA MSTIKKYSQLFLEKFQTDQVPLLAAALAYYFLLSIVPLFLIGFTLIPYFPISAEEAVSFTNQLLPNELAILLEENIVSIVEVPRGGLLTLGIIGALWSSSAAMNAFIKATNAAYEVEETRNMLIVRLTALILTLNMIFAFIIAITLPLFGDLILQFITSFVGLTSAMSLLFQVLRWLLSITVLTGFLLLLYRFAPNKRLPLKHILPGAITASVLWQLISFGFSFYISNFSNYSATYGSLGGIIILLIWFYLTGMIFLSGAIINVLYNDKRSKGVENEQQVS PGPT0014525_6452 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK015_01424 453 hypothetical protein GTGTTAGACGTGTTATATTTTACATTATTAATGATAGCTGTGGCATTTGCATTGACAGTCGTTTTTATTGTTATTGTGTTACATCGTTTTACGAAGTTATTAAAGACGACCGGGAGTACATTGGGACAAGTTGAAACAGATATGCAACAAACTATTCCAGAGCTACATCATACATTAAAGCAAACACATGTAACGGTGGATGACATAGGGGAAAAATTGCAAGCGACAGATTCATTATTTGCGACGGCTGATAATGTCGGGCGCTCCGTCCAAAATATGAACCAAACCGTGCAAAAAACAAAACCAATATGGAAGAAAGACCGGTTAGAAGAAGATATTGAACCTTATGTGGAAGGGATACGTTGGACAGCTGTAGCTGCTTATTTATATAAGCAATGGAAAGAAGAATATATGACGAGAGAGTCTGACGATCAAACTAGAAAAGAGGGATAA MLDVLYFTLLMIAVAFALTVVFIVIVLHRFTKLLKTTGSTLGQVETDMQQTIPELHHTLKQTHVTVDDIGEKLQATDSLFATADNVGRSVQNMNQTVQKTKPIWKKDRLEEDIEPYVEGIRWTAVAAYLYKQWKEEYMTRESDDQTRKEG NA NA NA NA NA AK015_01425 414 hypothetical protein ATGTTATTAGAGATAGGTGTCTTATTAATCGGTATTGCGTTTTTTATCGCAGCTATATTTGTATCTTATGCACTAAATAATTTAGCAGGTGTTCTTCGTGGCGTGGAAAAAACAGTTGAACAAGTACCTGAGCAGATGAATGCCATGGTAACAGAAACAACCGGATTAATTAAAGAAAGTAATCATACCTTAGAGGATATTAATGATAAGATGAAGCAGCTTAGCCCATTATTTTATGTAGTGGGAGATGTGGGGAACGTGACGCGCAAATTTTCCGCTTCTCTCGTCAAAGTTACAGAATCTGTCAATGAAAAGTCTGAGAATACCGCAGATGAAATGCAATCTAAAGGGTTATCCAATTCGTTTGGGAAGGTGTATTCTTGGATGGAAAATCGTAAGCAACAAAAACAATAA MLLEIGVLLIGIAFFIAAIFVSYALNNLAGVLRGVEKTVEQVPEQMNAMVTETTGLIKESNHTLEDINDKMKQLSPLFYVVGDVGNVTRKFSASLVKVTESVNEKSENTADEMQSKGLSNSFGKVYSWMENRKQQKQ NA NA NA NA NA AK015_01426 441 hypothetical protein ATGGATTGGTTAGGACTTGGAGTTACTATCTTGGGGGTTGCTTTCTTAATCCTTGCTATTCTATTAATTAAACCTTTATTCCACTTAGCAGGAGTGCTTCGTAGCCTACAGACAACAACAGATAAATTACCAGAACAAGTAGAAGAAATTACAAACCAAGCTACCGACACGATAAGCACTGGACATGAGACACTTCATGAACTGAATAAACAAGTGAAGGAGCTAACACCTATTTTCCATCTAGTTGGAGATGCTTCAAAAGCTGCTAAGGCTGCTTCATCAACAGTAGTCGATGCTATCATGAAAGTACAAGGTTCATCAACAGAAGGAAACGGCTTTACCAAGAAGCATCATTTAGAAGGTATTTACGGCCTTGCTACGTTAACTTATTATGCGATAAAGCAAAGTAAACCACAACAAGCTAGCAACAATTCGAAATAG MDWLGLGVTILGVAFLILAILLIKPLFHLAGVLRSLQTTTDKLPEQVEEITNQATDTISTGHETLHELNKQVKELTPIFHLVGDASKAAKAASSTVVDAIMKVQGSSTEGNGFTKKHHLEGIYGLATLTYYAIKQSKPQQASNNSK NA NA NA NA NA AK015_01427 735 cwlD COG0860 Germination-specific N-acetylmuramoyl-L-alanine amidase TTGAAGCGATGGTATAAAATCGTATTATGGCTGGTGGGTGTTTTTATATTAGGTTACCTTATTCAACTACCAATTAAAAATCAACTTTCACTTGACGTAGGATCTTCTTTTTCCTTACCCTTATCTGGAAAGACGATTGTGATTGATCCGGGACATGGAGGGCCTGATGGCGGAGCTGTTGGTAAGGATGATACACAGGAAAAGGATATTTCGCTAGAAGTTTCTAAGAAGTTGCAAAAGTATTTACAGCAAGTGGGAGCAATCGTGTATTTAACGCGAGAAACAGATAGGGATCTTGCTTCTGAGAATGTAAAAGGGTTATCGAAACGAAAATCAGAGGATATTCGAAATCGATTGTCGTTCATCAATGAACAAGAAGCAGATTTATTTATTTCATTGCACTTAAATGCACTACCTTCAACTAAATGGAGAGGGGCGCAGACATTTTATAACCCCCAAAAGGATGAAAATAAGCATTTGGCAGAAATGATTCAGGCAGAGTTTATTCGTAATTTAGAAAACACCAATCGTGCAGCTCTAGCCATTAACAATGTCTATTTACTGAAGTACGCAGAGACGCCTGGTGCACTTGTAGAAATAGGTTTTTTATCTAACGTTGAAGAGCGAGAATTATTAAAAGATACGGATTACCAACAGAAAGTAGCTGCGAGTATTTATAAAGGAATTTTACGGTATGCTACGGAGGAAATAAAGGCAGAGGAAGGGGAGGATTAA MKRWYKIVLWLVGVFILGYLIQLPIKNQLSLDVGSSFSLPLSGKTIVIDPGHGGPDGGAVGKDDTQEKDISLEVSKKLQKYLQQVGAIVYLTRETDRDLASENVKGLSKRKSEDIRNRLSFINEQEADLFISLHLNALPSTKWRGAQTFYNPQKDENKHLAEMIQAEFIRNLENTNRAALAINNVYLLKYAETPGALVEIGFLSNVEERELLKDTDYQQKVAASIYKGILRYATEEIKAEEGED PGPT0024160_6593 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_01428 1104 salA COG0489 Iron-sulfur cluster carrier protein ATGTTATACTGTCGATGTATGCATTTACAAAGGGATGGTGATTCAATGCTAACAAAGGAAGAAGTAATTCAACTGCTTAACTCTGTAAAAGATCCTTTTTTACATATATCGCTAGAAGAAACGGAAGGCGTAAAGGAAGTAAATATTAAAGAAGAAAAGAAACATGTAAGTGTAAAAGTCGCTATCGCAAAAACAAACACTGCTGAACAGATGCAACTGCAACAAGAAATTGTTGGGATTTTGAAGAAAAACGGAGCGACAACGGTTGGTTTACGATTTGAACAATTACCAGATGATGTGATTAAGAAATACCAACCTGCCGCTGAAAAGGAGCAAGAAGCTACATTGATGGGTGGTAACAGCGGCACGAAATTTATCGCTGTTTCCAGTGGAAAAGGCGGTGTTGGTAAATCGACGGTAACGGTTAATTTAGCGATGTCGCTCATGCGTTTAGGGAAAAAAGTAGGCATTATTGATGCCGATATTTATGGTTTTAGTGTTCCCGATATGATGGGCGTGGAGGAACGTCCAAAGGTTCGTGGTGAAAAAATTATTCCAGTGGAACGTTTTGGTGTAAAAGTTATTTCTATGGGATTTTTTGTAGAAGATAATTCACCAATTATTTGGCGTGGGCCGATGCTTGGAAAGATGTTAAACAGCTTCTTTAAGGAAGTAGAATGGGGCGATCTTGATTATTTATTGCTTGATTTACCACCTGGAACAGGCGATATCGCGATGGACGTCCATGAATTACTTCCATCCTGTAAGGAAGTCGTCGTTACAACACCTCATCCTACAGCGGCGTTTGTTGCCGCTCGTGCTGGTCAAATGGCGTTAAAAACGGAGCATGAAATTCTAGGTGTCATTGAGAATATGGCTTATTTCGAAAGTCAGCTTACAGGTGAGAAGGAGTACGTGTTTGGACAAGGCGGTGGCAAGAAGCTGGCAGAAGTGTTAAAAACAAAAGTACTTGGCCAGTTGCCGTTGCAGCAACCTTATGAAGAAGAGGATGTATTTGCTCCATCCATTTATCAGCAAGACCATCCAATTGGACAAGCTTATCATAAGATCGCTGCCAAAATAGTGGCGCAATTAGAAGCGTGA MLYCRCMHLQRDGDSMLTKEEVIQLLNSVKDPFLHISLEETEGVKEVNIKEEKKHVSVKVAIAKTNTAEQMQLQQEIVGILKKNGATTVGLRFEQLPDDVIKKYQPAAEKEQEATLMGGNSGTKFIAVSSGKGGVGKSTVTVNLAMSLMRLGKKVGIIDADIYGFSVPDMMGVEERPKVRGEKIIPVERFGVKVISMGFFVEDNSPIIWRGPMLGKMLNSFFKEVEWGDLDYLLLDLPPGTGDIAMDVHELLPSCKEVVVTTPHPTAAFVAARAGQMALKTEHEILGVIENMAYFESQLTGEKEYVFGQGGGKKLAEVLKTKVLGQLPLQQPYEEEDVFAPSIYQQDHPIGQAYHKIAAKIVAQLEA PGPT0013215_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528 NA NA AK015_01429 639 gerD Spore germination protein GerD TTGAAGACGAATCGATTCAAAATCCTTGGCATCGTTGCCATTGTTTCTTTCATAGTTATTAGTGGCTGTACCGATGGAAATACCTCGGACAAAGAAGGAGATTATGATACAACAAAGAAAATGGTTGTTGATATATTACAAACGGAAGAGGGTAAAAAGGCAATTAGTGAATTAATGACCGATGAAAAGTTGAAACAGGAACTAGTTCTGGACTCTGACGTTGTTAAAAAATCAATTAACGAGGCACTCGTATCAGAAAAAGGAAAACAGATGTGGACGATCTTATTTCAAGATACCGACTTTGTAAAAGAATATACAAAATCAATGCAAGAAGAACATATGAAGCTTATGAAGCGGCTAATGAATGATGCAGATTACCAAAAACAGATGCTTGAATTATTACAAAACCCAGAAATGACAGATCAAATGCTTCAAGTAGTAAAAAGCCAACAATTTCGAGAGCATCTTGAAGAAACGATTCAACAAACGCTAGAAACACCACTTTTCCAAGAAAAAATGCAAGAGACATTATTAAAAGCAGCTGAGAAGCAAGGAAAGCAAGCAAAGGAAGAGGGTAAAGACAAAGAAAGTGAAGGCGGTAGCGATGGAGGCACAGAAGAATCAGGTGGTGGTGGCTAA MKTNRFKILGIVAIVSFIVISGCTDGNTSDKEGDYDTTKKMVVDILQTEEGKKAISELMTDEKLKQELVLDSDVVKKSINEALVSEKGKQMWTILFQDTDFVKEYTKSMQEEHMKLMKRLMNDADYQKQMLELLQNPEMTDQMLQVVKSQQFREHLEETIQQTLETPLFQEKMQETLLKAAEKQGKQAKEEGKDKESEGGSDGGTEESGGGG PGPT0025045_84 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025045-gerD-K06294 NA NA AK015_01430 639 hypothetical protein TTGAACACGAGAAAATTAGTCAATTTCTTTTTTAAAACATTGCTAATAGGCGGTTTAGCAGGGCTTATTACAAGCTTTTTTGTAAAAGCAGAGGACTACGCAGCTATTCTTAATCCAATGAATTGGATGGAGTTATTAGGGCTACTTATCTTTTTTATAGGGTTAGGTCTTGTGTTTAGTGTAGTCAGTCAGACTGGTTTTTTTGCATACTTGTTTATTAATCGCTTTGGGCTAGGACTATTTCGTTCTTTTTGGCCAACCGTACAAGTACTTCTCATTGCATTTGTATTGTTTGATCTGATTTATTTTCCATATCAAGCTACAAAAGGTGAGGTGGCTATCTATTGGTATATTCTTATGGCTTTAGCTATATTAGCCTATGGGTGGATTGTTGCGACGATTAAAGCAAAGGAAACGAATAAGCAAGCATTTATTCCTGCTTTATTTCTAATGGTAGTGATAACAACGGTCGAATGGGTGCCAGGATTGCGGACGGAAGGTACGGATTATGCTTGGTTAATGATCATTCCGTTGTTAGCTTGTAACACATATCAATTGCTGGTACTTCATCGCATTAATCCGAGTAAGTCTCAAAAGCAGGATGTATCTAAAACAACTACGAAAAAAAAGAAGGCATAA MNTRKLVNFFFKTLLIGGLAGLITSFFVKAEDYAAILNPMNWMELLGLLIFFIGLGLVFSVVSQTGFFAYLFINRFGLGLFRSFWPTVQVLLIAFVLFDLIYFPYQATKGEVAIYWYILMALAILAYGWIVATIKAKETNKQAFIPALFLMVVITTVEWVPGLRTEGTDYAWLMIIPLLACNTYQLLVLHRINPSKSQKQDVSKTTTKKKKA NA NA NA NA NA AK015_01431 759 hypothetical protein GTGGAACATTTTTATGTATGGCGTTTCAATAAGTGGAAACGGTGGTTAACTGTAGCTGTTGTTGCTCTATTTACAGCAACATTTTTATGGTTAGAGTGGAACGGGGAATTTACGGTTTTCTCCAACAAGGAACCATCAGCTATGTCAAAAGGAAACGCAAACGAAAATAATATTGCCCTAACTTTTAATATTAGCTGGGGAGAAGAACGCGTTCATGACATTCTAAAAGAACTAAAAGAAGAAGGTGTACAAGCAACTTTTTTTATAAGTGGAGAGTGGGCAGAAAGACATCCGGCTATTGTTGAAAAAATCACGGAAAACAAACATGAATTAGGAATGCTTGGTTATCGCTATAAAAGTTATTTGGATAGAGAATTGGACACGGTAAAAAAAGATTTGCGAAAAGCCCAAGAAGTTTTTGGTAAATTAGGGTATGAAGATTTGCGTTTATTACGACCCCCTAACGGTCATTTTAATAAAGAAATTATTGAAACAGCTGAGAATATGGGATATAACGTCATTCACTGGAACGTGAATCCAAACGATTGGAAAAATCCTGGCTCAGATACAATTGTAGATAATGTCATGAAGCAAACCACGAATGGAGATATTGTTTTACTACATGCTTCTGATTCGGTCAAACATACAGCGAAAGCGCTGGAAACGATTCTACCTGGCTTGAAAAACAAAGGGTTTTCGTTTGTTTCTATGACTGAACTAATAAATCAAGCACACGCTAGCACTGAATTCGTTGACTAA MEHFYVWRFNKWKRWLTVAVVALFTATFLWLEWNGEFTVFSNKEPSAMSKGNANENNIALTFNISWGEERVHDILKELKEEGVQATFFISGEWAERHPAIVEKITENKHELGMLGYRYKSYLDRELDTVKKDLRKAQEVFGKLGYEDLRLLRPPNGHFNKEIIETAENMGYNVIHWNVNPNDWKNPGSDTIVDNVMKQTTNGDIVLLHASDSVKHTAKALETILPGLKNKGFSFVSMTELINQAHASTEFVD PGPT0018645_3616 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK015_01432 222 hypothetical protein ATGTTAGGATTACTAATTAATAACATAGAGCAAAGGGAACTGGAATATTTAATCAGACGAGAGTTGGAAGAGCTATTAATGGATTTAGAGGATTCTCGAATAGATAAAATAGTAAAAGATTCTATGCGTGAAAGATACCAAATGTTGTTTCAGTTATTTCGCAGAGTAGCTAATGAAAAAGAGTGTTTGAAATACATGCCAAAAAAAACTTTAAATAATTAA MLGLLINNIEQRELEYLIRRELEELLMDLEDSRIDKIVKDSMRERYQMLFQLFRRVANEKECLKYMPKKTLNN NA NA NA NA NA AK015_01433 2454 hypothetical protein ATGGAGGCAATATCGCAAAAGCAGCTATCACAAGCGAACAACATATTACATACCATTGTTGAGGCAACAGAATATTTTTATCAGTTAGTAAAGCAAGAAGAAAGCAATCAGGCAATATTTATATTTAGTTCTATTGTGGAAGGTGTGCAATCCGTAAGTAAGACGTTTGAGAATGACGAGTTTTTACGAGATGACAAGCGTAAATTAGAAAACTATCTATTGCAAGTCGCTCAATTATTGGAAGCAAATAAATTCATTAAGATTACAGAAGTACTTCAATTTTCATTTTTGCCACTTTTAAAGAGAATGTTATCCTATATGGAAGAAATAGATGGACAAAATAAAGCTGAAAAAGTTTATACAATTGGGGTGTTCTCCCCACAGGCGAATCCTGTAAAGTTCTTACCTCAACCAAGGCTTCAAGCTTTAATTAAAGAAAGTCAACAACAACATGCACGTTTACTATTCTTTACAGAAACAGATGTCGACCTAGAGAACAATGAGATAGAAGCTGATACATATGTAAATGGAAGTTGGGAGAGAATAACTGCTCCTTTTCCAGATGTCATTAATAATATAGGAACAATCAAACCGTCCCATATCGAAAGGGAATTACGACGGAAAATTCCTTTTACAAGCTATCATGTAGGTAACAAATTTTCTTTGCCTAAACGAATGGTTAAGTACCGTAAATATGCTGATTTACTTGTTCCGTTTAGACTTTGTCAAAAAGAAAGTGATATTTTTGACTTTTTACAAGAAAATAATAAAGTAGTGTTTAAATCACTATTAAGTAATCGCGGGGAAAATATTTTCTTTGTTACCAAAAAAGGCAACCGTTACATTTTAATGGAGCATAAAAAAGAGAGAATTTTAAATCAAGATGTGTTTTCAAAATGGTTGCAAGAGCATATTTTAAGAAAAAAAGGTAGTTTTATTATTCAACGGTATATTCATACACGCACGAAAAATGATGAACCGTATCATATTCGCTCTCACGTCCAAAAGAATGGACAAGGGGATTGGATAATCACGCACATATACCCGCGTGTTGGAAATAGAAAAAGTAATTTAAGTAATGTTGCTACAGAAGGAAGAGTAGAAGACTTTCATACATTTTTACTTCATGAGTATGGCGAACTTGGAGAAAAGTACGCACATGATATTTTGCAACTATCCTTAGAAGTAGCGAGCCATTTAGATAAGTTATACAACTTTGCATTAGATGAACTTGGTTTGGATTTTGCAATTGATGAAAATGGTAGATACTGGATGCATGAAGCGAATAATGGTCCGCAAACTGCCTATCACGAAGAAAAACGAGCAGTCAATACAATAGCCTATGCGAAATACCTTGCTGAAAATGGTATATTTCGTTCTGATCGGATACTTCAGCAACGGTTTAATTCCAGTATAGCCAATATCTCCAATGCGTCAACGAATGGAAAACCTACAATAGGTATGTTAGTAGGAAAACATGTTCGAGATGCATTGACCAAGGAATTTGCAAAGCTGGCAGAACAAAAAGAATTTTATTTTTATGTATTTAGTCCCAAGGATGTTGATGAATATGAAAGAGTCATCCGTGGTTATGTATTAGAGGATGGGGAGTGGATTGCTAAAATAATAGAGTATCCTGACATAGTGTTTGATAGATTGAAGATGAGAAATAGTAAACAGATGCAATGGCTGTATGAAGAATTGTCTGAGAAAGCAAGTTTTACTAATAATTGGAATGATCTCACCGAACGATCTGAATTATATAACCATCTAGCAGACAGGGAGTATATGTTACCTTTCCAACAAGTAAAGAGAACGAGAGATATTTTTAGAATGTTAGAGGCCCATCACCAGGTTGTGCTAAAGCCTGAAGTTGGGACATTATATGATGAACATGTTATAAAGGAACTTGAACATGGTAAATATTTGCTTATTCATGGAAAAAGAAAAACAGTGTACAGTCAACTTCCATTGACAAATAAACTAAAGGAATTATTAGAGGAAAGAAGCTATGTTGTCCAAGTTGATCCACGTATTACAGCTTTCGAAAATAGAGATGATTTGGTTTCTATACATGTTCATTTAATGAACAAGGAAATGAAAAATTGGGATTTCATAAGTGGATATGTCAAAACGAAAAGTTTTGAAGCAGGAAGCAATGCGACTGTTCACAGGCGAGATATGCTGGAGTATTTAACAGAGACATACGATGGTCAAGAGGTAAAGTTATTGGAATCAGAGCTTATGGCTATTGCTGAAAATGCTGCTACTACTTTAAAAAACACGTATCAAGAAAGTATGTCTGAAGTAGCTATTAGCTTATCGATGAACGATTTGAGAAATATCTATGTCTTAGATGTGAATCCTAGCGGTCCATCTTATATATATAATCCTACAATTTTAGCAAAACAATTGCTTTCTTATATTTCTGAGTTGTTCACAGGAAGAGGATGA MEAISQKQLSQANNILHTIVEATEYFYQLVKQEESNQAIFIFSSIVEGVQSVSKTFENDEFLRDDKRKLENYLLQVAQLLEANKFIKITEVLQFSFLPLLKRMLSYMEEIDGQNKAEKVYTIGVFSPQANPVKFLPQPRLQALIKESQQQHARLLFFTETDVDLENNEIEADTYVNGSWERITAPFPDVINNIGTIKPSHIERELRRKIPFTSYHVGNKFSLPKRMVKYRKYADLLVPFRLCQKESDIFDFLQENNKVVFKSLLSNRGENIFFVTKKGNRYILMEHKKERILNQDVFSKWLQEHILRKKGSFIIQRYIHTRTKNDEPYHIRSHVQKNGQGDWIITHIYPRVGNRKSNLSNVATEGRVEDFHTFLLHEYGELGEKYAHDILQLSLEVASHLDKLYNFALDELGLDFAIDENGRYWMHEANNGPQTAYHEEKRAVNTIAYAKYLAENGIFRSDRILQQRFNSSIANISNASTNGKPTIGMLVGKHVRDALTKEFAKLAEQKEFYFYVFSPKDVDEYERVIRGYVLEDGEWIAKIIEYPDIVFDRLKMRNSKQMQWLYEELSEKASFTNNWNDLTERSELYNHLADREYMLPFQQVKRTRDIFRMLEAHHQVVLKPEVGTLYDEHVIKELEHGKYLLIHGKRKTVYSQLPLTNKLKELLEERSYVVQVDPRITAFENRDDLVSIHVHLMNKEMKNWDFISGYVKTKSFEAGSNATVHRRDMLEYLTETYDGQEVKLLESELMAIAENAATTLKNTYQESMSEVAISLSMNDLRNIYVLDVNPSGPSYIYNPTILAKQLLSYISELFTGRG NA NA NA NA NA AK015_01434 243 hypothetical protein TTGAATCAAAAGCAGATAAATGATTTATTATCCACAATGAACGATTTGCTGGAAGAATTGGAAGAAATTAGAGAAAAAAGTAAGCAAGTGGATGATCAGTGTAAAGATTTAGACATTCGAGCAAGTAATATGAAGGGGAATATAAACCAATTAGCACGAGGGTTACAATCCTTAGAAGGTCAATTTAATTTAGTCACAACAGGTCACGAATTGCCCTGTTTGATGAGCGGAAACGAACTTTAA MNQKQINDLLSTMNDLLEELEEIREKSKQVDDQCKDLDIRASNMKGNINQLARGLQSLEGQFNLVTTGHELPCLMSGNEL NA NA NA NA NA AK015_01435 1056 hypothetical protein ATGACAAACATCCTTATTTTGGATGGTCATAATGATACATTATTAAGATTACACAAGTCACATGAAAGTGAAATGATTTTCTTTAATGAAAATACTTTTGGTCATATTGATTTGCCACGTGCAAGAACAGGCAAGTTTGCTGGAGGATTTTTTGCTGCCTTTACTCCAAATGAGAACTACAAAGTCGAACCAGAAAAACATGTAACCAAAACAGGATACGATATGCCTTTACCACCACCTATTGATCAGCCATTTGCATTGAATTATACGAACGCCTTGGCTGCAACTCTTTTTAAGCTAGAAGCCGCTTCAAATGGAAAAATAAACGTCGTGAAAAGCAAGGAAGAATTGATCCGTTGTTTGAACAAGCAAAAATTGGCTACTATTTTCCATATAGAGGGAGCTGAAGCGATTGATCGTGAGTTCCATGCGCTTCACGTCCTTTATCAAGCTGGGTTGCGATCATTAGGCATTGTTTGGAGTAGACCTAATCGATATGGCGAAGGTGTTCCTTTTCGCTATCCATCTTCTCCTAACATCGGTGATGGGTTAACAGATGATGGAAAACGCCTCGTAAAGGAATGTAATCAGCTCGGAATTATGGTTGATACAACGCATTTAAACGAGAGGGGATTTTGGGACGTTGTTCAGTTAAGTGATGCTCCTATTGTAGCAACTCATTCAAACGTTCATGCTATCTGTCCAATTTCAAGAAACCTTACCGATAATCAACTCAAAGCAATTAAAGATAGTAATGGTGTAGTAGGCATTAATTATGCAGTCAATATGTTACGTCCTGACGGTCAATTTGATACAAATATTCCATTAGATACCATTGTTGATCATATCTCCTATATAGCGGATAATTACGGAATTGATCATGTCGCTTTAGGATCCGATTTCGATGGCACAACTGTACCAGATAGTCTAAAAGATGTGACAGGTTTACCTAAATTACTAAAGAGGCTAGAAATAGCGGGGTTTGCAGAGCAAGAAATTGAAAAAATTGCTTATAAAAATTGGGTACGTGTATTAGGGGAAACTTGGAAGGAGTAA MTNILILDGHNDTLLRLHKSHESEMIFFNENTFGHIDLPRARTGKFAGGFFAAFTPNENYKVEPEKHVTKTGYDMPLPPPIDQPFALNYTNALAATLFKLEAASNGKINVVKSKEELIRCLNKQKLATIFHIEGAEAIDREFHALHVLYQAGLRSLGIVWSRPNRYGEGVPFRYPSSPNIGDGLTDDGKRLVKECNQLGIMVDTTHLNERGFWDVVQLSDAPIVATHSNVHAICPISRNLTDNQLKAIKDSNGVVGINYAVNMLRPDGQFDTNIPLDTIVDHISYIADNYGIDHVALGSDFDGTTVPDSLKDVTGLPKLLKRLEIAGFAEQEIEKIAYKNWVRVLGETWKE PGPT0020950_2277 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 AK015_01436 972 murK COG2971 N-acetylmuramic acid/N-acetylglucosamine kinase ATGGAATATATAATTGGTATTGATGGTGGGGGTACAAAAACACAGGTAGTAATGGTTGATATGAGAGGAAATACAGTAATTAATTTTACAGTCGGTCCTTCGAATGCAAATGTAATATCTAACCAGGAATTACATGAGATATTTAAAGCTATATTCCAACGTATAAAAGATCGGGCACCAGTTGAATTTGAACGTGTAATCTGTGTTTATGCAGGTATAGCTGGGGCAGGGAGCGCTGAAATAAAACAGCAAATAACAGGTATTTTATCATCATTAGTTCCTAAGAACAGCAAAGTTTATTTGGAGATAGATGCGTTAAATGCGTTATATTCCGGAACTTTGGGTGATCCGGGGATCGTTCATATATCAGGAACCGGATCTGTAGCTTATGGAATAAACAAGAAGCAAAATAAAGATAGAGTAGGGGGATGGGGGCATCTACTTGGTGATGAAGGTAGTGGTTACAGCATAGGAAGGCAAGGTGTATCTGCCGCTTTAAAATTCCAAGATGGAAGAGGAGATCAAACAATACTATTGGATATGCTCTATGAACATTTCCGTGTAGATAATGCTCGCTCTCTCATAGACCATATTTATTTTGCGCAAGATATGAAGAGAACGATTGCAAGTTTATCTGAAATTGTTTTTTGTGCCTATAAAAGAAATGATCGTGTAGCTAGCCGGATAGTTGAAAATGCTGCAATTGAAATAGTACATCACATCGTAACACTTTATCGTAAATTGTTTACAGATAGGGAAGAAGTTAAAGTGGTATTGTGTGGCGGAATCTTTAACGATGTGGATGGAGTTTTACCAATTGTCCATAGGAACTTGGAAAAGGATGACTATTTTCGAGTTTTAACTCCTTCTCTCTTACCTGTTTATGGATCTATCGTAGGCGGTTTTACACAACTTGATGTAAAAGTTACTTCTGATATGATAAAAAGGATGCAAGAGGCAAGTACAAACTAA MEYIIGIDGGGTKTQVVMVDMRGNTVINFTVGPSNANVISNQELHEIFKAIFQRIKDRAPVEFERVICVYAGIAGAGSAEIKQQITGILSSLVPKNSKVYLEIDALNALYSGTLGDPGIVHISGTGSVAYGINKKQNKDRVGGWGHLLGDEGSGYSIGRQGVSAALKFQDGRGDQTILLDMLYEHFRVDNARSLIDHIYFAQDMKRTIASLSEIVFCAYKRNDRVASRIVENAAIEIVHHIVTLYRKLFTDREEVKVVLCGGIFNDVDGVLPIVHRNLEKDDYFRVLTPSLLPVYGSIVGGFTQLDVKVTSDMIKRMQEASTN NA NA NA NA NA AK015_01437 864 murQ COG2103 N-acetylmuramic acid 6-phosphate etherase ATGGGTTTAGATCAAATGTCTATTAAAGAAATTATGGTTTATATGAATAAAGAAGATACGACGGTTCCTGTTTCTGTAGAAAAAGCTTTTCATCAGATTGAGCCCGTTATTCAAAAAGTAACCGAAACGATTAAGAATGGCGGAAAAATTATATATATGGGGGCAGGCACAAGTGGAAGAATGGGTGTACTAGATGCATCGGAATGTCCACCAACTTTTGGGGTTCAACCCGATCTGTTCACTGCTTTGATTGCTGGTGGGGAAAATGCGATCAGACAAGCAATTGAAAATGCAGAGGATAGTGTAGAATCGGGGGAACATGATGCGAAACAGCATCTATCATCAAAAGATTTCCTAATCGCTATTGCAGCAAGCGGTCAAACACCTTATGTTATTGGTGGAATTAAGCAAGCAAAAAAACAACATATACCTACTGCTTGTATTGTCTGTAAAGAAAATACAAAAATAAGTCAATTAGTCGATTATCCTATTGAACTTCTTGTAGGAGAAGAAGTTATTCAAGGCTCTACTCGTTTGAAGGCAGGTACTGCTCAGAAGTTGGTTTTAAATATGATATCGACTATTTCTATGATAAAAAATGGAAAAGTATATAATAATTATATGGTTGATGTTCAAGCAACGAATCAAAAATTAAGAGATAGAGCTGTTAGTATAGTATGTGACATTGCTAATGTTACAGAACATGAAGCAAAAAAGGCTTTGCAGGAATCTGAGTTTAATTTAAAGGCAGCTATTCTTATTAGCATGTTTCAATTGAAGTCAGATGAGGCCTGTTATATTTTACAGGAAAACAGTGGTAATTTACGTGAAGCCATTATGGATATACAAAGGGAAGGGAAATAA MGLDQMSIKEIMVYMNKEDTTVPVSVEKAFHQIEPVIQKVTETIKNGGKIIYMGAGTSGRMGVLDASECPPTFGVQPDLFTALIAGGENAIRQAIENAEDSVESGEHDAKQHLSSKDFLIAIAASGQTPYVIGGIKQAKKQHIPTACIVCKENTKISQLVDYPIELLVGEEVIQGSTRLKAGTAQKLVLNMISTISMIKNGKVYNNYMVDVQATNQKLRDRAVSIVCDIANVTEHEAKKALQESEFNLKAAILISMFQLKSDEACYILQENSGNLREAIMDIQREGK PGPT0019040_1906 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 AK015_01438 1086 hypothetical protein ATGAGAAACTTGGGGATTTCTATATACCCGAATCATTCAAGGGTGGAAGATGATTTAGCGTATATTGAATTGGCGCATAAATATGGTTTTACTCGTATTTTTACATGCCTTCTATCCATGGAAGGTGATGCTGAGAAAATTATTGAACACTTTAAACAAACCATTCAGTTCTCCAAACAACTGGGTATGGAAGTAATTTGTGATATAAATCCAAGAGTTTTTTCAGAATTAAATATTTCATATAATGATTTATCATTTTTTAATGCATTAGGTGTTGATGGTATTCGATTAGATCTTGGCTTTACTGGAAATGAAGAAGCGCAAATGACTTTTAATCCGTATGAATTAAAGATAGAAATAAACATGAGTAACGCAACGAAATACTTAGATAATATCATGAGTTATCGTCCTAATAAAGAAAAGTTAGTAGGCTGTCATAATTTTTATCCACATAGGTATTCAGGTCTTGCTTATGACTTTTTTATACAGTGTAGTAAGAAATTTAAAGATTACGGTTTAAGAACAGCAGCATTTGTATCTTCTTCCGATGCGACTTATGGACCATGGCCTATTATGGAAGGCCTTCCTACTTTGGAAATGCACCGTACATTACCTATTGAAGTACAGGCAAAACATTTATGGGCTACCAATTTAATTGACGATGTAATTATTGGCAATGCTTATGCATCTGAAGAAGAGCTAAAGAAGCTGAGTACGCTACAGCGTGAAAAAATTATTTTTTCAATAAAAGTAGAAGAAGGAATCTCTGACTTGGAGAGAAAAATTATTTTTGATGAACCACATTTCTATCGTGGGGATGTATCTGATTATTTAATTCGGTCTACTCAAAGTCGGGTCAAGTATCGAGGGCATTCTTTCCCTGTGCATCATACACCGAATATAAAGCGTGGGGATATTATTATTGAAAGTGATTTATATAAACAATATGCTGGAGAGTTACAAATTGCATTGCAAGATATGGTGAATTCAGGTAAGTCCAATGTTGTTGGCAGAATACGTGAGGAAGAGGTATTACTTCTTGATCATCTGCAGCCATGGGATAAGTTTGGCTTCGAAGAAAAATGA MRNLGISIYPNHSRVEDDLAYIELAHKYGFTRIFTCLLSMEGDAEKIIEHFKQTIQFSKQLGMEVICDINPRVFSELNISYNDLSFFNALGVDGIRLDLGFTGNEEAQMTFNPYELKIEINMSNATKYLDNIMSYRPNKEKLVGCHNFYPHRYSGLAYDFFIQCSKKFKDYGLRTAAFVSSSDATYGPWPIMEGLPTLEMHRTLPIEVQAKHLWATNLIDDVIIGNAYASEEELKKLSTLQREKIIFSIKVEEGISDLERKIIFDEPHFYRGDVSDYLIRSTQSRVKYRGHSFPVHHTPNIKRGDIIIESDLYKQYAGELQIALQDMVNSGKSNVVGRIREEEVLLLDHLQPWDKFGFEEK NA NA NA NA NA AK015_01439 327 licA_2 COG1447 Lichenan-specific phosphotransferase enzyme IIA component ATGAATTTAGAAATGGATATTTTTTCTATTATTTCCCACGGTGGTGACGCGAAAGCTACTGCCTACAAAGCTCTGGATTTAGCTTATGAGAGCGCATTTACGGATGCAGAAGAAAAATTGAAGGAAGCACAAGAGCAGTTAACGAAAGCGCATAATACACAAACGAAATTAATTCAAGCAGAAATAAATGATGAACCAGTGAAGATGTCATTATTAATGGTGCATGCCCAAGACCATCTAATGACATCCATTAGTGAAATATCTTTAATTGAACAGATGATAAAAATGCTACAACGAATTCATTGCTTAGAAACAAAATTATCATGA MNLEMDIFSIISHGGDAKATAYKALDLAYESAFTDAEEKLKEAQEQLTKAHNTQTKLIQAEINDEPVKMSLLMVHAQDHLMTSISEISLIEQMIKMLQRIHCLETKLS PGPT0016980_783 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 AK015_01440 306 celA_1 PTS system cellobiose-specific EIIB component ATGAAAGTGTTATTTGTATGTTCTGGGGGTATGTCTAGCGCAATTGTTGTTAAGGCGCTAAAGACGGAAGCGAAAAAACATGGGCATGAAATGGAAGTCCACGCTATTGGAACAAGTGAGGTTGAACAAGAAATGCAAAAAGAGTGGGATGTTTGTATGGTCGCACCACAAATTAAACACCGCTTTGACCAAGTCAAAGTGCATGCTGACGAAGCAGGAGTTCCTTGTGGAGCAATTCCAGCACAAGCTTACACGCCATTAGGTGGTCCTTTACTATACAAAACTCTAAATGAACTCATCAAGTAA MKVLFVCSGGMSSAIVVKALKTEAKKHGHEMEVHAIGTSEVEQEMQKEWDVCMVAPQIKHRFDQVKVHADEAGVPCGAIPAQAYTPLGGPLLYKTLNELIK PGPT0016975_1452 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 AK015_01441 1266 licC_2 COG1455 Lichenan permease IIC component TTGAGTAAATTTGTAGATTTTATGGAAAATAAACTGTCCGCTCCTATGGCACGTTTATCGGAACAACGTCATTTATTAGCTGTTCGAGATGGGGTTATTTCTGCATTACCTTTTATTATTGTTGGATCATTCTTTTTAATCTTTGCTTTTCCGCCATTACCAAAGGATTGGGCAATTACACAATGGGCAACAGAGCATGCTGCAGAAATTTTAATTCCATACCGAATGACCATGTTTATCATGTCATTATACATAGCATTTGGTATTGGCTATAATCTAGCGAAGTCCTATAAAGTAGACCCTTTATCTGGAGCGCAAATTGCTGTTGCGGCTCTATTATTAACCCTAACACCAACTGCTCTTGATGAATTAGGGTTTGTTCTGCCAATGCAATATTTAGGTGGACATGGACTATTTGTTACCATTATCGTATCCATTCTTGCTGTAGAAATATTTAGAGTTTGTAAACAAAAACAAATTACCATTAAATTACCTGAGCAAGTACCTTCTTCGGTTTCTCGCTCATTCGAAGCACTTATTCCGGTTGCCATAGTAATCATCTTAATGTCAACCATTACCGTTGTAATGGGAATAAATCTACATCATGTAGTCGATAAATTAGTTGCTCCATTAGTAACTGCAGGCGATAGCTTATTTGGTGTATTAGTACCAGTATTTCTCATCACTTTCTTCTGGTCATTCGGTATACATGGGGTTTCTGTCGTAGGTTCTATTGCAAGGCCGCTATGGGAAGTATATCTTGTTAACAACTCTCAAGCAGTGGCAGATGGAGCTTCCACCATTCCGCATATCGCACCAGAAACTTTTTACCAATGGTTTATTTGGATAGGTGGTTCTGGGGCTACATTAGGTCTCGTTATTGCGATGTTGCTTTTCGCAAGATCTAAATACATTAAAAATTTGGGTAGAGCTACGATTGTTCCTAGTTTGTTTAATATAAACGAACCAGTTATTTTCGGGGCACCAATTGTTCTTAATCCCTTATTGATTATTCCGTTTATTATTACGCCAATTGTTACAGCGATTATTGCTTATTTTGCAACATCTATAGGATTAGTAAGCCCGACATATATTATGCCACCATGGACATTACCAGCTCCAATTGGTGCATACTTATCCACTGGTGGTGATTGGCGAGCTGTTGTCTTAGTACTAATAAATATAACCATATCTGTAACAATCTATATGCCGTTCTTAAAGCTATATGATAAAAAAATGATAGCTATGGAACAAGGAGAGGAATAG MSKFVDFMENKLSAPMARLSEQRHLLAVRDGVISALPFIIVGSFFLIFAFPPLPKDWAITQWATEHAAEILIPYRMTMFIMSLYIAFGIGYNLAKSYKVDPLSGAQIAVAALLLTLTPTALDELGFVLPMQYLGGHGLFVTIIVSILAVEIFRVCKQKQITIKLPEQVPSSVSRSFEALIPVAIVIILMSTITVVMGINLHHVVDKLVAPLVTAGDSLFGVLVPVFLITFFWSFGIHGVSVVGSIARPLWEVYLVNNSQAVADGASTIPHIAPETFYQWFIWIGGSGATLGLVIAMLLFARSKYIKNLGRATIVPSLFNINEPVIFGAPIVLNPLLIIPFIITPIVTAIIAYFATSIGLVSPTYIMPPWTLPAPIGAYLSTGGDWRAVVLVLINITISVTIYMPFLKLYDKKMIAMEQGEE PGPT0016970_2825 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 AK015_01442 312 hypothetical protein ATGATTCAATCCAAAGGCATCATCCCTAGAATTAGTTTTAAAGGGGTATTTGTGTTTATGTCAATAACCATTTTAGGGTTATTGTTACTTCCCACCCTTTTCATGACTATAGGTATTACTAAAACAGCTAGTTTTTTTATCGCTTGTACCATTTCTTCATCAATTGGTAGTATGCTCGTTTTAACTAAAATTGATGGTAAACCCACTGAAAGAATCTATTTCAGAAAAAGAATGGCACTTTCTATGATTGTTGGACTTTTATCAAGTGCACTCATTATTTTTGTTTTTGGAGGAGATATTTTTGGATACTAA MIQSKGIIPRISFKGVFVFMSITILGLLLLPTLFMTIGITKTASFFIACTISSSIGSMLVLTKIDGKPTERIYFRKRMALSMIVGLLSSALIIFVFGGDIFGY NA NA NA NA NA AK015_01443 1317 licH_2 COG1486 putative 6-phospho-beta-glucosidase TTGGATACTAAAGGTATAAAACTTGTCACTATTGGCGGTGGATCAAGCTATACACCAGAATTTGTGGAAGGCATTATTAAACGGTATAACGAATTACCAGTCAAGGAGCTCTGGCTTGTCGATATCGAAGACGGTAAAGAAAAACTTGATATTGTAGGAAACCTAGCTCGAAGAATGGTTAAAAAAGCCAACATCCCGATGGAAGTACATTTAACTTTAGATAGAGAAGCTGCTTTACAAAATGCGGACTTTGTAACTACACAAATTCGAGTCGGATTGTTAGATTCAAGAATTAAAGATGAAAGGATACCAATTAAACACGGAATGATTGGCCAAGAAACAAATGGTGCTGGCGGATTATTTAAGGCCCTTCGAACCATTCCAGTATTAATGGACATTGCTAGAGACATGCAAAACTTATGTCCGAATGCTTGGTTAATTAATTTTACAAATCCAGCTGGTATCGTTACGGAAGCATTAGTAAAATATAGTAAACATAAAAAAGTCGTTGGCGTTTGTAATGTGCCAATTAATATGAAAATTACTATTGCAGACCTTTTAGGCGTGCCTGAAGAAAAAGTTCAGATTGAATTCGCAGGTTTAAACCATATGTCTTATGGTACGGATGTATTCGTAGACGGGGAATCAAAATTAGCAGAAGTGATTGAATTATTGGCTAAACCTGAAAACCAATTATCTATGAACAATATAGCGCCTCTTCCATGGGAAGGAGAATTTATTAAAGCACTTCATATGATACCTTCTCCTTATCATCGTTATTATTATAAGACGAAGGAAATTTTAGCTAATGAGCAAAAAGAATACCAAGAAGGAAAAACAAGAGCGGAAACAGTCAAAGAGCTGGAAAGTAAGTTATTTGAACTTTATAAAGATCCAAACCTAAATATTAAACCACCCCAACTTGCTGAAAGAGGTGGCGCATACTATAGTAATGTCGCTTGTGATCTAATTTCCTCTATATATAACAATACAGGAGATATCCAAACGCTTAATGTTGTGAATAACGGAGCAATTTCCAGTCTTCCTGATAACACTGTAGTCGAAGTGAACTGTACTGTAACAAATAAAGGACCAATACCTTTAGCTGTCGGTGCTTTACCATCTCCTATTAATGGACTTATTCAACAGATCAAGTCTTTTGAGCTAGCTGCGATGGAAGCAGCTGTAACAGGTTCATATGAAATAGCATTGTTGGCATTATGTATTAACCCTTTAATTACAGACGATGGAAAAGCAAAAGTAATTCTTGATGAATTACTTGAAGCACATAAAGAATATTTACCACAATTTCATTAA MDTKGIKLVTIGGGSSYTPEFVEGIIKRYNELPVKELWLVDIEDGKEKLDIVGNLARRMVKKANIPMEVHLTLDREAALQNADFVTTQIRVGLLDSRIKDERIPIKHGMIGQETNGAGGLFKALRTIPVLMDIARDMQNLCPNAWLINFTNPAGIVTEALVKYSKHKKVVGVCNVPINMKITIADLLGVPEEKVQIEFAGLNHMSYGTDVFVDGESKLAEVIELLAKPENQLSMNNIAPLPWEGEFIKALHMIPSPYHRYYYKTKEILANEQKEYQEGKTRAETVKELESKLFELYKDPNLNIKPPQLAERGGAYYSNVACDLISSIYNNTGDIQTLNVVNNGAISSLPDNTVVEVNCTVTNKGPIPLAVGALPSPINGLIQQIKSFELAAMEAAVTGSYEIALLALCINPLITDDGKAKVILDELLEAHKEYLPQFH PGPT0019105_821 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222 NA NA AK015_01444 1017 malR COG1609 HTH-type transcriptional regulator MalR ATGGTAACAATAAAAGATGTAGCAAAGGCGACAGGTGTATCACCTTCTACTGTGTCTAGAGTAATTGCAGATAATCCAAGAATCAGTCTGGATACGAAAAAGAAGGTTCGAAAGGCAATGAAGGAATTAGGATATCACCCTAACGTAAATGCTAGAAATTTAGTCGCCAAGTCTACCAAAACAATTGGCGTTGTGATGCCTTCATCTGCTGATAAGTCTTTACAAAATCCGTTCTTCCCGGAAGTGTTGCGAGGTATCGGAACGGTTACCCATGATATGCAATATTCGATGATGTTATCGAGTGGTGGAACAGAAGAAGAGATGTTTGCTGAAGTAGAACGTATGGTTTATGGCAGTTATGTAGACGGAATCATTTTACTTTACTCACGTATGAATGATCGAATAACAAATTTTTTGCGTGAAAAAGAATTTCCATTTGTAATTGTAGGAAAACCGTATGATTATGTAAGTGAAATTACACATGTCGATAATGATAACTATAAAGCTGGAAAAGAAATAACAAATTATTTAATTGACCAAGGACATGAGCACATTGCTTTTATTGGTGGTTCCAGAGATCTTATTGTAACGATGGATCGAGAAAACGGATATAAAGCGGCTTTAAATGAAGCGGAGCTACCAGTTTGTGAAGCTTATCGTATTCATAGTGAATTCCTTCAATCAGGAGGGAGAGAAGCAATAGAGAAATTGTTGCAATTAGAGTATTCGCCAACAGGAATTGTTGTAAGTGATGATTTAATGAGCCTAGGGGTGCTAAGTGCTTTAGAAGAGTTAGGGTATGATGTCCCTACTGACATTTCATTGGTAAGCTTTAACAATGTATACCTATCCGAGCTGACAAGTCCAGCTTTAACAACTGTTGACATTCAAATATATCAACTGGGTGTACAATCTGCGAAAGCTTTAATTGAAAAAACACAATCGGATTTTGTCCCTGAAAAACGTATCATTATTCCACACGAAATTGTGTATCGGGATTCTGTGGGGGAAAGATAA MVTIKDVAKATGVSPSTVSRVIADNPRISLDTKKKVRKAMKELGYHPNVNARNLVAKSTKTIGVVMPSSADKSLQNPFFPEVLRGIGTVTHDMQYSMMLSSGGTEEEMFAEVERMVYGSYVDGIILLYSRMNDRITNFLREKEFPFVIVGKPYDYVSEITHVDNDNYKAGKEITNYLIDQGHEHIAFIGGSRDLIVTMDRENGYKAALNEAELPVCEAYRIHSEFLQSGGREAIEKLLQLEYSPTGIVVSDDLMSLGVLSALEELGYDVPTDISLVSFNNVYLSELTSPALTTVDIQIYQLGVQSAKALIEKTQSDFVPEKRIIIPHEIVYRDSVGER PGPT0014791_153 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK015_01445 2349 COG1501 Oligosaccharide 4-alpha-D-glucosyltransferase ATGCTAGAGGATACTAGTTTTGCTATTCATCCAGGAAAAAATACAGAGACAGAAGCAATTCGGTTCTGCGATATTGGGAATGTAATAGATGTTGAGAAAAATTCCCAAGGCTACTCCTTTCAGTGTGAAAAAGGGCATGTCATCGTTTGTTTTTATCATCCTTCCATTGTTAGGATTGTAATGAATCCTACAGGGAAAGTTGATCTAAATGGCTCGAAATCAGTGGTAGTAGAGCCCGAAAGCATGCCAATTACTGAAAAAGAAATATCAGATACGTTTTTGTTACAAACAGAGGAGCTTGAAGTTACTATTCGTAAACAGCCATTTCGTGTTTCTATTCATGAAATCAACGGACGCGTTATTGTTCGAGAAAAAGAACGTGGTATGGCTTTTAGAGAAAACGGAGAAGTAATTGTATGTAAAGAGAAATTCACTACAGAACATTACTATGGATTCGGAGAAAAAAGTGGTTTTTTAGATAAACGCGGAGAAAAATATGAGATGTGGAATAGTGATGTGTATGCACCGCATAATCCAGAAACAGATCCCTTGTATCAATCTATTCCTTTCTTTATGACACTACGCCAAGGAACAGCACACGGCATCTTTTTTGATAATACTTTTAGAACGACCTTTGATATGAAAAGCTATGATAATATGTATACCTTTCATGCAGAAGGAGGGCAAGTCGATTATTATGTCATGGCAGGGCCCACTCCGAAAGAAGTTTTAGAACAATATACTTTCATAACTGGAAGAATGCCTCTTCCAGCAAAATGGGCATTAGGCTATCATCAGTCACGGTATAGCTATGAATCGGAAGAAGAAGTTCGTGCTTTAGCGGAAAAATTTGTGGAGCGAGATATTCCTGTTGATGTCATCCATTTAGATATTCATTATATGAATGGTTATCGTGTATTTACGTTTGATAAAAATCGCTTCCCTGATCCTGAAAAATTAATAGCGGATCTTCGAGATATGGGCATTCGTGTTGTGCCAATCGTTGACCCAGGTGTGAAAAAAGATCCTGAATATACCATTTACCAAGAAGGGGTAAGAGATGACAACTTTTGTAAATATCTTGAAGATGATATTTATATTGGGGAAGTTTGGCCAGGTAAAAGCGCCTTTCCTGACTTTACCGAGGAACGTGTAAGGAAATGGTGGGGCGATAAGCACGTGTTTTACAGCAGTATGGGTGTAGAAGGTGTCTGGAATGATATGAATGAGCCAGCTGTATTTAATGAAACAAAAACAATGGATACGGCTGTCATGCATCGGAATGATGGCAATCCTACAACACATCGTGAATTGCATAATGTCTACGGTTTATTAATGGGGAAAGCAACCTACGAAGGGTTAAAAGGGCAATTAAATGGTAAACGTCCATTTTTGCTTACTCGTTCCGGTTACGCTGGTGTACAACGGTTTGCTACAGTATGGACGGGCGATAATCGGAGCTTTTGGGAACATTTACAAATGAGTCTGCCAATGGTAATGAACCTAGGGTTATCTGGTGTTGCTTTTGCGGGCCCTGATGTAGGTGGATTTGCCCATGATACAAATCCAGAACTATTGGTTCGTTGGACGCAAGTTGGCGCGTTTACGCCTTTTTTTCGAAATCATTCTGCGATTGGAACAATGTATCAAGAACCATGGCAGTTTGGGGAAAGGTACGAAAATATAATAAGAAGGTACATCAAAATGCGTTATGAGTGGATGCCGCAATTGTATACATTGTTTCGTCAAGCAAGTGAACGAGGCTTGCCAGTTATGCGTCCGTTATTCATGGAGTATCCTACTGATGAAAAGACCTATAATTTAAACGATCAATTTATGGTTGGGGATAATGTCATGATCGCACCAATTTTAGTTCCAGCAATTACAGATCGTGCTGTATACTTTCCAGAAGGTGATTGGGTCAATTTCTTTGTGGGAGAAGAATATGAAGGTGGTAAAGTACACCTTGTTCATGCAGAACTGGATCAATTACCAATCTTTATTAAAAAAGGAACGGCAGTACTGCAAAATTCTTATATCTCTAACGAGAAAAAACAAGGCAACGATATGGCAATGCATATTTTTGCAAGCCAGCAAAATGCAACATATACATGTATGCTTTATGATGATGACGGAGAAACATTTGCTTTTGAAAATGGTACTTATCTTAAACTCGACATAGAGATCATTTCGACAAAGGATCAAGTAGTTGTTGAAGTGAAACGCAAAGAGGGTACGTATCAGCCAAGTTATCAGAACATAAAAGTGAATGTAATTGGTCTTAGCGAAGGGCAGCATGTTATAATAAATGGAGCGAAAAGTGGAAAGCAAACAACGATAAATCTATAA MLEDTSFAIHPGKNTETEAIRFCDIGNVIDVEKNSQGYSFQCEKGHVIVCFYHPSIVRIVMNPTGKVDLNGSKSVVVEPESMPITEKEISDTFLLQTEELEVTIRKQPFRVSIHEINGRVIVREKERGMAFRENGEVIVCKEKFTTEHYYGFGEKSGFLDKRGEKYEMWNSDVYAPHNPETDPLYQSIPFFMTLRQGTAHGIFFDNTFRTTFDMKSYDNMYTFHAEGGQVDYYVMAGPTPKEVLEQYTFITGRMPLPAKWALGYHQSRYSYESEEEVRALAEKFVERDIPVDVIHLDIHYMNGYRVFTFDKNRFPDPEKLIADLRDMGIRVVPIVDPGVKKDPEYTIYQEGVRDDNFCKYLEDDIYIGEVWPGKSAFPDFTEERVRKWWGDKHVFYSSMGVEGVWNDMNEPAVFNETKTMDTAVMHRNDGNPTTHRELHNVYGLLMGKATYEGLKGQLNGKRPFLLTRSGYAGVQRFATVWTGDNRSFWEHLQMSLPMVMNLGLSGVAFAGPDVGGFAHDTNPELLVRWTQVGAFTPFFRNHSAIGTMYQEPWQFGERYENIIRRYIKMRYEWMPQLYTLFRQASERGLPVMRPLFMEYPTDEKTYNLNDQFMVGDNVMIAPILVPAITDRAVYFPEGDWVNFFVGEEYEGGKVHLVHAELDQLPIFIKKGTAVLQNSYISNEKKQGNDMAMHIFASQQNATYTCMLYDDDGETFAFENGTYLKLDIEIISTKDQVVVEVKRKEGTYQPSYQNIKVNVIGLSEGQHVIINGAKSGKQTTINL PGPT0018560_1383 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK015_01446 849 malG COG3833 Maltose/maltodextrin transport system permease protein MalG ATGGCTATGTCACGTAAGACAAAATCGAGGATGGAAGTAACGTTTATCTATATCTTTTTTCTAATTATGTTTGTAATTATTGGCTATCCATTATTTTGGGCTTTAATGATGAGTTTAAATGAAGGTTCCAATATGCTCGTAACGGATTTATTTCCAAAGAACCCAACGTTAGAACATTATAAATGGTTGTTTACTGATCCAAACAGTGATTATGTAATTTGGTATAAGAACAGCCTTTATGTTGCAGTTATTAATTCTATAGGGTCTGTTGTAATTACATCTTTGATTGCTTATGCTTTTTCTAGATACAAATTTGTTGGTAGAAAATATGGTTTGTATATGTTTTTATTGTTACAAATGTTTCCTGCTTTAATGGGTATGGTTGCTTTGTACATTCTATTAAATACAATTGGCCTAACCGATTCTCTCTATGGTTTGATGTTAATCTATTTAGGTGGGCAAATTCCTTTTAACGCATGGTTGGTGAAAGGGTACTTTGATACGATACCTAAAGAATTGGACGAAGCGGCAAAAATAGATGGTGCAGGTCATTTGAAAATATTTTGGACGATTATGTTACCATTGGCAAAGCCTATTTTAGCCGTTGTCGCATTATTTAATTTTATGGCGCCCTTTATGGACTTTTTATTGCCAAGGATTGTTCTAACAAGTCCTGAAAAATACACATTGGCACTAGGATTATATAATTTTATCAATGACCAGTTTTCCACGAATTTCACTAGATTTGCTGCTGGTTCCATCCTTATTGCCGTGCCAATTGCGCTTGTGTTCTTATTATTGCAACGTTACTTAATTTCTGGTTTAACCTCAGGAGCGACGAAAGGGTAG MAMSRKTKSRMEVTFIYIFFLIMFVIIGYPLFWALMMSLNEGSNMLVTDLFPKNPTLEHYKWLFTDPNSDYVIWYKNSLYVAVINSIGSVVITSLIAYAFSRYKFVGRKYGLYMFLLLQMFPALMGMVALYILLNTIGLTDSLYGLMLIYLGGQIPFNAWLVKGYFDTIPKELDEAAKIDGAGHLKIFWTIMLPLAKPILAVVALFNFMAPFMDFLLPRIVLTSPEKYTLALGLYNFINDQFSTNFTRFAAGSILIAVPIALVFLLLQRYLISGLTSGATKG PGPT0016325_778 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 AK015_01447 1299 hypothetical protein ATGGCTACTGAAAAAAATGACACCAACGCCCGAAGAATACAGCCTCGTACATTAGCAATGATATTATCTATTATCATACCTGGATTAGGACAAATGTATAATAGAAGGTTTTTAAAAGGATGCATATTTTTAATTGTAACGATTTCCTTTTTAGTAACCACATGGAATTTTATTGATATTGGGATATGGGGGCTATTCACGCTTGGAACGATTCCGCGTGAGCACCATTCGATCCAACTGCTTATACAGGGTTTAATTTCGTTAATTATTCTCTCATTTGGAATAGCGATCTATGTTTATAATATAAAAGACGCTCGTGCTGATGCTATAGCTAGAGAGCATAATCGTCCTAATCCCACATTATTACAAGGTGTGAAAAACTTTTACAATAATGGTTTTCCATATTTTATGATTTTGCCTGGTCTATTAATGCTCTTATTTATTGTGGTTGTACCTTTATTGTTTATGCTCGCATTAGCCTTTACAGATTATAACCAATATAATGCGCCTCCGCGTAATTTATTAAGTTGGGTCGGCTTCGAGAACTTTGTTAACCTAACAAAAATAGATATATGGAAAGACACATTCTTAAGCGTTTTCACATGGACAGTCGTTTGGACAGTTGTTGCTACAACATTCCAAATTGTATTGGGACTATTTTTAGCATTGTTAGTGAACGATCCGAGAATTAAATTCAAACGAACAATACGGACATTTTTAATATTACCTTGGGCAGTCCCAGCGTTTGTGTCGATTTTAATTTTTTCCGCACTATTTAACCCCACCTTTGGGGCGATCAATAGGGATATTTTAAGCCAATTTAATGTGATAATTCCCTGGTTATCAGATCCGTTTTGGGCAAAAATTGCTTTAATTATGATTCAAACGTGGCTAGGATTTCCGTTTGTGTTTGCCTTATTTACAGGTGTATTGCAAAGTGTTCCTCGAGATATGTATGAAGCTGCAGATGTAGATGGAGGTACACGTTGGCAAAAATTACGTCATATTACATTACCACATATTTTATTTGCGACAGCTCCATTGTTAATTATGCAGTATGCAGGAAACTTTAATAACTTTAATATTATTTATTTATTTAATGAAGGTAACCCAGCTGTGCGAGGACAAAATGCTGGGGGTACAGATATTTTAATATCCTGGGTGTATAAACTAACGTTTGAGTCTAATAACTACAATATGGCTGCTGCTATTACCATTATAATGGGATTAATTATCTCTGTATTTGCCTTTTTCCAATTTAGAAAGACAGCTTCATTTAAAGAGGAGGGACGTTACTAA MATEKNDTNARRIQPRTLAMILSIIIPGLGQMYNRRFLKGCIFLIVTISFLVTTWNFIDIGIWGLFTLGTIPREHHSIQLLIQGLISLIILSFGIAIYVYNIKDARADAIAREHNRPNPTLLQGVKNFYNNGFPYFMILPGLLMLLFIVVVPLLFMLALAFTDYNQYNAPPRNLLSWVGFENFVNLTKIDIWKDTFLSVFTWTVVWTVVATTFQIVLGLFLALLVNDPRIKFKRTIRTFLILPWAVPAFVSILIFSALFNPTFGAINRDILSQFNVIIPWLSDPFWAKIALIMIQTWLGFPFVFALFTGVLQSVPRDMYEAADVDGGTRWQKLRHITLPHILFATAPLLIMQYAGNFNNFNIIYLFNEGNPAVRGQNAGGTDILISWVYKLTFESNNYNMAAAITIIMGLIISVFAFFQFRKTASFKEEGRY PGPT0016320_804 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 AK015_01448 1281 cycB COG2182 Cyclodextrin-binding protein ATGAAAAAAGGTTTATTTTATTTACTTGCAATGATCTTATTTGTTAGCGTTTTAGCTGCCTGTGGTCCAGATGATGCTCAAAAATCTGAAGGAGAAAAGGAAGCTACTGAATCAGGAGAGATGCCAGAGAAGCCTGAAAAACTGAAACTTTGGGTAAATGCGGAAGAAAAACAAGAAGAAGCATTAAAAGAAATGACAGCAGGCTACACAGAAGAAACAGGAATAGAAATAGAAATGGTGCCTGTAGATATGCTAGAGCAAATTGAAAAATTAGATGTTGAAGGCCCAGCCGGAAATGGTCCAGACGTCATTTTTCAGCCGCACGATAGAATTGGTGATTTAGTACTTAGGGGATTAGTAGACCCAGTAGATTTGGGAGATATTGAAAAAGAATATACAGATACAGCTTTGGAAGCGATGCAATACGATGGAGAATATTGGGGATATCCAGCTGTAGCTGAGACGTATGCTATGTATTACAATAAATCTCGCGTTGAAGAAACACCGGAAACAATGGAGCAAATTATGGAAATAGCTGAAAGAGACACGGATTCTGATAAAGATGAATTTGGCTTTTTAATGGAAGCGGCTAACTTATATTTTGTATACCCTTTCTTCTCAGGAAACGGAGCATATGTGTTTGCGAATGAAGATGGAAACTATGATATTACAGATATTGGTTTAAATAATGAAGGCGCTTTAAAAGGTGGAGAATTAGTTTCTGAATGGTTTGATAAAGAATACATCCCTCAGGATTTAACTCCAGATATAATGAATGGACTGTTCCAAGAAGGAAAAGTATCAACGATTATTAACGGACCTTGGACGGTACGTGATTACTCGGAAGCACTTGGAGAAGATTTAGCTACGGTTCCGCTACCTAAATTGGAAAATGGAGAAAATCCAAAATCATTTGTAGGCGTGAAATCGTATATGCTTTCCTACTACTCAGAAAATAAAGAATGGGCTCAGGATTTAATGGCTTATTTGACAAACTTTGAAAGTTCTATGACATATTACGATATTGCTGGAGAACTTCCTGCTCGTAAAGATGCAATGGAAGATCCAATTATTGCCGATGACCCAATTTATTCTGCATTTGCAGAACAAACACAATACGGTGAGCCGATGCCTAGTGTTCCTGCCATGCAGCAAGTATGGGAGCCGTTCAATGATGGTCTAAACTTCATTTCAAAAGGTGAACCTGTGAAAGAAGTGTTGGATGAAGCAGTTGAAACAATTAAAGAACAAATAGAGGCTTCAGGAGTCAAGGAGAAATAA MKKGLFYLLAMILFVSVLAACGPDDAQKSEGEKEATESGEMPEKPEKLKLWVNAEEKQEEALKEMTAGYTEETGIEIEMVPVDMLEQIEKLDVEGPAGNGPDVIFQPHDRIGDLVLRGLVDPVDLGDIEKEYTDTALEAMQYDGEYWGYPAVAETYAMYYNKSRVEETPETMEQIMEIAERDTDSDKDEFGFLMEAANLYFVYPFFSGNGAYVFANEDGNYDITDIGLNNEGALKGGELVSEWFDKEYIPQDLTPDIMNGLFQEGKVSTIINGPWTVRDYSEALGEDLATVPLPKLENGENPKSFVGVKSYMLSYYSENKEWAQDLMAYLTNFESSMTYYDIAGELPARKDAMEDPIIADDPIYSAFAEQTQYGEPMPSVPAMQQVWEPFNDGLNFISKGEPVKEVLDEAVETIKEQIEASGVKEK PGPT0016315_394 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 AK015_01449 1782 nplT Neopullulanase TTGATCAAAGAAGCAATCTATCATAGGCCTAAAAATAACTTCGCTTATGCCTACGACAAAGAAACACTACACATTGTTCTACAAACAAAGAAAGACGATATGAAAACAGTACAGCTTGTATTTGGCGACCCATACAACTGGAAAAATGACGAGTGGCAAAGTGAAACGAATTCAATGGTTAAAACAGGTTCTACGGATTTCCATGATTATTGGTTTATTGCCATTCGCCCACCATATAAACGATTACGTTATGCTTTTATTTGCAGTGATGAATCAGAAACGTGCTTTTATGGGGAAAGTGGCATTTTTGCAAGCGCTCCGAAAAATATTGCTAACTATTTTTGCTTTCCGTTTTTAAATGCAGCCGATGTATTTCAACCACCAGATTGGGTGAAAGATACGGTTTGGTATCAAATTTTCCCTGAACGATTTGCAAACGGGGATGAATCTCTAAATCCTGAAGGCGCTTTACCTTGGGGATCTACCAATCCTTCAACAACAAACTTTTTTGGCGGGGACTTTCAAGGGGTTATGAATCATTTAGATCACCTTGAAAGTTTAGGAATAACAGGAATTTATTTCACGCCAATATTTAAAGCCTACTCCAATCATAAATACGATACCATGGATTATATGGAAATCGATCCGCAGTTTGGCGATAAACACACTTTCAAAAAGCTCGTTCAAGCTTGCCACGACCGAGGGATTAAAGTAATGCTTGATGCCGTCTTTAATCATAGCGGCTATTACTTCCCACCGTTTCAAGATGTATTGGAAAACCAAGCGCAATCTAAGTACAAGGATTGGTTTCATATTTGGAATTTCCCAGTCGTTACTGAGCCACAACCAAACTACGACACATTTGGATTTGTCGCATCGATGCCTAAACTAAATACGGAAAATCAGGAAGTAAAAGACTATTTAATACAAGTGGCACGTTACTGGATAGAGGAATTTGATATTGATGGTTGGAGACTAGATGTCGCTAATGAAGTAGATCACAGTTTTTGGCGCGATTTTCATCGCACCGTTAAAGAAGCAAAGCCAGATGCTTATATATTGGGTGAAATTTGGCATGATTCCATGCCTTGGCTGCAAGGCGACCAGTTTGATGCTGTTATGAATTATCCATTTACGAATGGGATTATTGACTTCATTGCCAAAAATACAATGGCTGCAACCACATTTAAAAATGCGATTACAAAAGTATTGCATATGTACCCAAGGAATGTAAATGAAGTGGCATTTAATTTATTAGATAGTCATGATACACCAAGAATTTTAACGATAGCTAACGAAAATATCGACCGTATTAAATTGCTTTACCTGTTCCAGTTTTCCTTCTCAGGAACTCCATGCATCTATTACGGAGATGAAATTGGTATGAGCGGAGGGCATGATCCAGGTTGCCGTGCTTGTATGGAATGGGATGAAGAAAATCAAAATCGAGAGCTATTCACCTATGTACAAACCCTCATTCGTTTACGTAAAACGGAGCCTTTATTCGGAAATGACGCTTCATTTCGTTTTTTATATGCCGATGATAACACCAACACGATTGCCTATGAAAAATATGATGAACAAAAACGTCTTATCTTTCTGTTAAATGCAGGCGAAAAAGAAGCTAACGTCTCAAATACTTGTATTTTTAAAGCAACAGAACAAGTGAATGAATGGAGCATTTCTTCCCTTTCAAATGGTGTAAAGAAAGAATGTATAAATATATCAGAACCACTAACTGTACCAGCTCTTGCCTATCGTGTTTTCGAATCTAAAAAATAA MIKEAIYHRPKNNFAYAYDKETLHIVLQTKKDDMKTVQLVFGDPYNWKNDEWQSETNSMVKTGSTDFHDYWFIAIRPPYKRLRYAFICSDESETCFYGESGIFASAPKNIANYFCFPFLNAADVFQPPDWVKDTVWYQIFPERFANGDESLNPEGALPWGSTNPSTTNFFGGDFQGVMNHLDHLESLGITGIYFTPIFKAYSNHKYDTMDYMEIDPQFGDKHTFKKLVQACHDRGIKVMLDAVFNHSGYYFPPFQDVLENQAQSKYKDWFHIWNFPVVTEPQPNYDTFGFVASMPKLNTENQEVKDYLIQVARYWIEEFDIDGWRLDVANEVDHSFWRDFHRTVKEAKPDAYILGEIWHDSMPWLQGDQFDAVMNYPFTNGIIDFIAKNTMAATTFKNAITKVLHMYPRNVNEVAFNLLDSHDTPRILTIANENIDRIKLLYLFQFSFSGTPCIYYGDEIGMSGGHDPGCRACMEWDEENQNRELFTYVQTLIRLRKTEPLFGNDASFRFLYADDNTNTIAYEKYDEQKRLIFLLNAGEKEANVSNTCIFKATEQVNEWSISSLSNGVKKECINISEPLTVPALAYRVFESKK PGPT0012200_354 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208 NA NA AK015_01450 222 hypothetical protein ATGACTTTTTGGGATAGGTACATTCTTGAAGAAATGCTTCCAAAAATGAAGCAAGATGCTACTATTCAGAGCGTGGACTTTAAAATAATCAACACGCCAGCCTCTGTGTATGCAAGGAGTGGTGTATTTGCCCAACGTGTAATTGAGCAAAAACTAATTGCGCGTGAAAAATTAGTGTTTGCTGTAAAACAGAAGCTGAATTTTTTGCAAACTTCACATTAA MTFWDRYILEEMLPKMKQDATIQSVDFKIINTPASVYARSGVFAQRVIEQKLIAREKLVFAVKQKLNFLQTSH NA NA NA NA NA AK015_01451 228 hypothetical protein TTGGAGAATATGTATGATGCTGATGGTTTACCTATACAAAATACAAAAAATTATATCGAATTATTTGGGGAGTGGGGAGGAAGAACGATGGAAAGTACGAAAGCGTTAGTTCATGCATTTGCTGCATGCAATAATTGGGTAAGTGAACGAACCAAAGTACCAGAAAATGACATGATTCAAGCAATGCAAAAGGAAAATGGTCGGCAGCAGAGATTATTAGTCATATGA MENMYDADGLPIQNTKNYIELFGEWGGRTMESTKALVHAFAACNNWVSERTKVPENDMIQAMQKENGRQQRLLVI NA NA NA NA NA AK015_01453 1962 apc4 COG0146 Acetophenone carboxylase delta subunit ATGGAAGTGATGAAAAACAATTCTTTAGATCCAGTAACATTTGAAGTGTTAAAGAATAGTTTTATTAATTTAGTTGATCAGATGTCGGAACAGATAATACGAACGTGTTATTCGTTTGTTATATATAATCGAGATTTTAGTTCTGCATTATGTGACGCTAATGGGAATATTGTAATGCAAGGTACGCAGGATATCGCTGTTCATGTAGGCACTTTACATTTAACTGCAAAAGCAATTATTGAATATTTTCAAGAGGATATTCACCCCGGGGACGTATTTCTCATTAATGATCCTTATCGTGGGGGGACTCATTTTAGTGATGTTAGGGTGATAAGACCGGTTTTCTACCGGAAAACACTGATTGCATTTATCCAGTCAAATGGTCACTGGGCTGATGTTGGTGGAGGTATGCCTGGATCTTTTGATGTTAGCTCTAAGGCTCATTTTGGAGAAGGTGTTCGCATACCTCCAACTCGAATTTGGAGTAAGGGTAACTATTTGAAAGATGTAGCTAATCTTATTGTGAGCAATATGCGGGTGCCAGAAGAACGGTTTGGAGATTTACGTTCTCAGGTAGAAGCAACAAAAGTAGCGGAAAAAGAGCTTCTCAGATTAATAGATAAATATACAATAGATAAAGTATTATTAGCATTTGCTGAAGTTCAAAACTATGTAGAACGATTAACCAGAGAGAAATTAAAGCAGCTTCCAAACGGAACATGGGAAACAATAGATTATATTGATATGGATCCAGATTTTGGAGACGGAATGATTCCTATTAAAGTAAAATTATCTATTAAAGATGATCAAATTGTTTATGATTTGGATGGGACACATTCCACTATTGGTTGTTTTTTGAATGCAACTTTTGGTTCCTCACTTTCGGGTCTATATGCTGGGACGAAAACGTTTTTTCCTGATATACCATTAAACTCTGGCTTCTATCGCGTTATAGAAGCAAGTTTACCAAAAGGTTCCGTTGTTCATGCAGATTGGCCAGTGGCTGTATCTGGTTTTTGTTCAGGACCATTTGAGAAAATTATGAATGCTTGCTTTGAGTTGTGGTCACATATTATGCCGGAAAAAGCGCTAGCATGTTCTTTTAATTTAGAGTATTTATTAATTGGAGGATGGGATCAAAGAGAAGGATATAATCAATTTTTTATGTGGTATGACTGGATGGTCGGTGGCCACGGTGGTCGTATAAGTAAAGATGGGGCGAATGCTATGTCACCAGTCTTTGGAGCGGGGTTGAGTGTGCAACCTTGTGAAGGTCAAGAGCGTTTAACCCCTGTGATTACATCTTATCATAAAATTATGACTGATTCTGGAGGACCCGGTGAATATCGCGGAGGGTGTGGAGTTGAGAAAGGGGGAACACTAACGGCGATTCAAGACGCTGTTATGTCTGTATGTTGTGACCGTTCAAGATCAGTTACATGGGGGATCTTTGGCGGTTTGCCGTCAAACCCGCACGGAAATTGGTTAAATCCTCAAACAGATAAAGAAGAATTTTTAGGTGCTTTTTTTTCTAATGTTTCATTAAAAGAAGGGGATAGATTTACAAGACCATCAGCTGGAGGAGGCGGACTTGGCGACCCACTAAAACGTAATCCACAATCGGTATTAGAAGATGTTAAAGATGGCTACGTTTCTATTGCTCGTGCAGAAAAAGATTATGGCGTGGTTATCAAGGCAATTGATCCTGATGTTGATCATTATGAAATTTTACAAGAAGAAACCAGCAGTATGCGCAATTATATAAGAGAAAATAGAAAGGTGTGGCTAACAGAAGACCCACAAAATGTAATTATAAAGTATAGAGATGGGATAATAGGGAAATTAGACTTAATTCGTCAATATGGCGTAATTATTGATTTTTCAACAAACACTGTTTTGGAAAAAACAACGCAACAGTTTCGAGAGATGCTTCACAAGCGCTCAGTAGCTTATTGGGAATAG MEVMKNNSLDPVTFEVLKNSFINLVDQMSEQIIRTCYSFVIYNRDFSSALCDANGNIVMQGTQDIAVHVGTLHLTAKAIIEYFQEDIHPGDVFLINDPYRGGTHFSDVRVIRPVFYRKTLIAFIQSNGHWADVGGGMPGSFDVSSKAHFGEGVRIPPTRIWSKGNYLKDVANLIVSNMRVPEERFGDLRSQVEATKVAEKELLRLIDKYTIDKVLLAFAEVQNYVERLTREKLKQLPNGTWETIDYIDMDPDFGDGMIPIKVKLSIKDDQIVYDLDGTHSTIGCFLNATFGSSLSGLYAGTKTFFPDIPLNSGFYRVIEASLPKGSVVHADWPVAVSGFCSGPFEKIMNACFELWSHIMPEKALACSFNLEYLLIGGWDQREGYNQFFMWYDWMVGGHGGRISKDGANAMSPVFGAGLSVQPCEGQERLTPVITSYHKIMTDSGGPGEYRGGCGVEKGGTLTAIQDAVMSVCCDRSRSVTWGIFGGLPSNPHGNWLNPQTDKEEFLGAFFSNVSLKEGDRFTRPSAGGGGLGDPLKRNPQSVLEDVKDGYVSIARAEKDYGVVIKAIDPDVDHYEILQEETSSMRNYIRENRKVWLTEDPQNVIIKYRDGIIGKLDLIRQYGVIIDFSTNTVLEKTTQQFREMLHKRSVAYWE NA NA NA NA NA AK015_01454 2043 apc3 COG0145 Acetophenone carboxylase gamma subunit ATGGGGAATTTAAGAGTTGCTGTTGATGTGGGTGGGACGTTCACAGATGTGTTTGTATTTGATGAAATTAATAAGAAGATTTCTGTAGAGAAAACGTCATCTACTCCTGCAAATCCTGATATTGGTGTCATACAAGGGCTGAAAAAGGTTAATATACCTTTTGAAGAGATCAAGGTTTTTTCGCACGGTACGACTGCAGGGACTAATGCTTTAATAGAACGGAAACTTCCTAATACGGCACTAATTACTACGAAAGGATTTCGTGATGCAATAGAAATACGTAGAGGTACAAAATTGGATTTATGGGATGCGTATAACGATGTTGCCCAGCCATATATCAAAAGAAGAGATCGTTTTGAAATTACAGAAAGAACGGATTACGCTGGTGATATCCTTGTTGATGTAAATGAGCAGGAAGTAAAAGCATTAGCACACAAGCTGAAAAAAAGAGGGGTAGAAGCCATTGCCGTTTGTTTTTTAAATGCTTATATCAATGGGGAAAATGAACGTGTAACAAAGGAAATATTACAAGAGCAACTACCAGATGTTTTCATCACTATTTCAAGTGATATTCTTCCAGAAATTTTTGAACATGAGCGGATGAGTACAACAGTAATTAATGCTGTTCTTGGCCCAAAAATAACCAATTATATGAAGACATTGGAAAGTAAATTAGGTGAAAAGGGGTATAAAGGAGAAATTTTAATTATGCATTCTGGAGGTGGTGTGATTACTTCGGAAAATGTACCAAAATACGCGGGACGACTTGCGAGTTCGGGTATTGCTGCTGGAGCAATTGCAAGTAAACATATTGCAAGTTTATGCGGGTATAAGAATGCCATTGGATTAGATATGGGCGGAACAAGTACGGATATTTCTTTAGTTTATGATGGAAATTTGAAAATGACAAAAGAATGGTATATCGAGTATGGGTATCCAATAGGATTTCCAAGTATTGAACTGATGACGATTGGTGCAGGGGGAGGGAGTTTAGCTTGGATTGATGCAGGTGGTTCTCTGAGAAATGGTCCAGAGAGTGCTGGTTCATTTCCTGGCCCTGCAAGTTATGGGAAAGGTGGAACTCAGCCTACAAACACCGATGCGAATTTGGTATTAGGTCGGCTCAGTAACTCCCTATTAAATGGCCAGATGCAGTTAAAAAAAGAACAAGCGCTTCAATCGCTGCAACCAATATGTGAAACGTTTGGCTATACTTCTCTGGAAGCCGCAGACGCGATATTAAATGTAGCTAATGCTAACATGAGTGATGCGCTTCGTCTTATTTCGGTTAGAAAGGGCTATGACCCAAGAGACTTCGTATTAGTTGCTTTTGGTGGAGCAGGAGGATTGCATAGCGCTTATCTAGCAAAAGAACTGCATATTCCTCATGTTATTATACCCACCTATCCTGGTGTTGCAGCTGCATACGGCTGTTTACTTGTTGATTACCGCCACGATATAACCCAAACTTATGTAGCCAATATGGAAGATGTGGATCAAGAAGATTTAAATAAGGCATTTGCTAAATTAGAGCAAAAGGGAATAGAGTTATTAAAAAAGGAAAAGGTCTCCGTACAAAACATGCAATTGATTCGGCATTTGGAAATGCGTTACTCCGGTCAATGGAGGTCGCTAGCTGTCACTGTCAATCGTCCAATCGTTTCTTTAAGTAGTGCTTTAGACAAGTTTCACCAAGAACATGAGCGGGCATTCGCCTTCTCGAATCCAGATCAAAAGGTAGAAATTTATGGATTACGTGTTGAGGCTATTGGGACGGTACCTAAACCAGAACTAGCAAAAGAGGAGCCTTCAGGGAATTTAGAAAATGCTTTAAAGGAATATCGTCATGTTTATTTTAAGGAAGAAGATGGTTTAGTTCGTACACCAATATATAAACGGTCACTTCTCCCAGTAGATAGCTTTATACATGGACCTGCAATTGTCGAACAGCTAGATACGACAATTATTATTCCGCCACAGTTTACCGCTACCGTTGATGAGTATAAAAATATAATTATTCATGTGAATATAGGGGGAGCGTGA MGNLRVAVDVGGTFTDVFVFDEINKKISVEKTSSTPANPDIGVIQGLKKVNIPFEEIKVFSHGTTAGTNALIERKLPNTALITTKGFRDAIEIRRGTKLDLWDAYNDVAQPYIKRRDRFEITERTDYAGDILVDVNEQEVKALAHKLKKRGVEAIAVCFLNAYINGENERVTKEILQEQLPDVFITISSDILPEIFEHERMSTTVINAVLGPKITNYMKTLESKLGEKGYKGEILIMHSGGGVITSENVPKYAGRLASSGIAAGAIASKHIASLCGYKNAIGLDMGGTSTDISLVYDGNLKMTKEWYIEYGYPIGFPSIELMTIGAGGGSLAWIDAGGSLRNGPESAGSFPGPASYGKGGTQPTNTDANLVLGRLSNSLLNGQMQLKKEQALQSLQPICETFGYTSLEAADAILNVANANMSDALRLISVRKGYDPRDFVLVAFGGAGGLHSAYLAKELHIPHVIIPTYPGVAAAYGCLLVDYRHDITQTYVANMEDVDQEDLNKAFAKLEQKGIELLKKEKVSVQNMQLIRHLEMRYSGQWRSLAVTVNRPIVSLSSALDKFHQEHERAFAFSNPDQKVEIYGLRVEAIGTVPKPELAKEEPSGNLENALKEYRHVYFKEEDGLVRTPIYKRSLLPVDSFIHGPAIVEQLDTTIIIPPQFTATVDEYKNIIIHVNIGGA NA NA NA NA NA AK015_01455 201 hypothetical protein ATGAAAAAAGACGGAGAGGGTAAGGGAACTCCTGAAAGAAAAAGGGAAAGAATGAGACAAGAGGAATTAAATAATCCTTCAAGTAGTATTCATGGAAGTGTTTTGTCAGATTTAGTAGGTGCTTTAGGGTGGAAAGGTAGTTTACTATTCGTTATTGCGATAGCAATAGGCTTATTCATCGTGTCTGTCTTTATATTTTAA MKKDGEGKGTPERKRERMRQEELNNPSSSIHGSVLSDLVGALGWKGSLLFVIAIAIGLFIVSVFIF NA NA NA NA NA AK015_01456 705 hypothetical protein ATGGCTATAATCAGTACATTATTAGGTACAATCGCATCATTGGGGATCATTGCTGGCATTATCTTACTAATCGTGGGTGCTATTAAAAAGAAAAAATACAGAGGCGGCTTGATAACACTCGTTTCCATCGTTTTATTTAGCATAGCATCCTTTATGATGCCTGACGAGTTGAAAGAAAAGTATGCAAACCAAGAACAAAGCAAAGCCGAAACCCCGGATAAAGATAAACGAGTAATTGATGATGATTACGATGACGAAGAAGATGACGACGAATACGACGATGATAAACGCAAAAAGAAAACCAACGCGCTTTCTTCTCAACAGAAAAAAACGATAAAAGCAGTACAAAATTTCCCTACTTTTACGAAAGAATACAAAAAATTAAGCCGTAGTACACAAAAGAAAACATGGGATAAGCATTTATCTGGAAAAAAAGTAACTTGGAAAGGTTACGTGATGGAAGCCAAAGGAAAAAAGGTATACGTTTGGGGAGGAAACAGATACAACGGGCAAAAATGGTCTAAAGTTAAATCAAGTAAGAAAAATGAGGCTTACCAAGTGTTTCTTGCCGATTTTGGAAGAAGTACTCCAAAGAAAGCATTGAAGCCTGGGGATAAAGTAACAATAAAAGGTACATTGATGTCCAGCGGTGACCCGAAACAAAATATGCATTGGAAACTACATAACGCCAAAATTGGATATTAG MAIISTLLGTIASLGIIAGIILLIVGAIKKKKYRGGLITLVSIVLFSIASFMMPDELKEKYANQEQSKAETPDKDKRVIDDDYDDEEDDDEYDDDKRKKKTNALSSQQKKTIKAVQNFPTFTKEYKKLSRSTQKKTWDKHLSGKKVTWKGYVMEAKGKKVYVWGGNRYNGQKWSKVKSSKKNEAYQVFLADFGRSTPKKALKPGDKVTIKGTLMSSGDPKQNMHWKLHNAKIGY NA NA NA NA NA AK015_01457 900 purU COG0788 Formyltetrahydrofolate deformylase ATGAATCACTTCATGAAGAAAAGTATTGAACATTTTAAAATTGAAAATGAAAACAAGGCACGTCTGTTAATTAAATGCCCAGATCAGCCTGGAATAGTAGCCACTGTTTCTGATTTTTTATATCGAAACGGAGCAAATATTATTACTTCTGATCAATATACATTGAATCCTGACGGCGGTCAGTTTTTTATGCGTATTGAATTTTATTGTCCGCAATTAGGTGAAAAAGCAGAGCAAATCGAGCAGGCATTTCAACCTATTGGCGAACAATTTGCGATGAATTGGCAATTCGTTTATGTTAGTCAATTGAAAAATATAGCGATTTTTGTCTCTAATGAACCGCATTGTTTAATGGAATTGTTGTGGGAATATCAAAGCGGTAGTCTTATGGCAAATATCGCTCTTGTTATTAGCAATCATGAAACGGCTAGAGAAACCGTAGAGTCGGTGGGAATTCCTTTTTATTACATTCCAGCAAATAAAGATATTCGCAAGCAAGTAGAGGAAAGGCAACTTCAATTGCTGAAAGATTACGAGGTCGATGTTATTGTGCTTGCGCGCTATATGCAAATATTAACAAGTGACTTTGTTAAAAATTATGAGAACAGAATCATTAATATCCATCATTCTTTTTTACCAGCTTTTGTTGGTGCAAAGCCATATGAACGTGCTTATGAACGCGGTGTAAAAATGATTGGAGCGACCTCTCATTATGTAACCAATGATCTAGATGAAGGTCCGATTATTGAGCAAGATATCGGTAGAGTAGACCATAGAGATGATATTGCGAAAATGAAGAAGATTGGACAAGCGATCGAGAGGGTTGTTCTATCACGTGCTGTCAAATGGCATCTGGAGGATCGGATCATTGTGCATCAAAATAAAACGATCGTGTTTTAG MNHFMKKSIEHFKIENENKARLLIKCPDQPGIVATVSDFLYRNGANIITSDQYTLNPDGGQFFMRIEFYCPQLGEKAEQIEQAFQPIGEQFAMNWQFVYVSQLKNIAIFVSNEPHCLMELLWEYQSGSLMANIALVISNHETARETVESVGIPFYYIPANKDIRKQVEERQLQLLKDYEVDVIVLARYMQILTSDFVKNYENRIINIHHSFLPAFVGAKPYERAYERGVKMIGATSHYVTNDLDEGPIIEQDIGRVDHRDDIAKMKKIGQAIERVVLSRAVKWHLEDRIIVHQNKTIVF PGPT0008155_573 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433 NA NA AK015_01458 717 COG2071 Putative glutamine amidotransferase ATGAAGCCAGTTATTGGAGTAACGCCATCTGTAGAAAACGCATCGAATATGCATTTTGTAAGTATTGCGAATATTACAGCAATTGAGGGAGCGGGAGGCACCCCGATAATTCTTCCTTTTGTACCTTCAAAAACGCAAATAAGACAAATTGCCAGTTTAATTGACGGGTTATATTTAACAGGGGGCAATAGTATCGACCCTACATTATTTGTTGAAGAACCGCATCCGAAGTTAGGGGAAATTAATCCGATACGTGATCAATACGAAGTTGCATTAATACAAGAAATACAAAAGCACCAAAAACCCATATTAGGAGTTTGTAGAGGGTGTCAGATTTTAAATATTGCCTTAGGCGGCGATATGTACCAAGACATTTATGCACAAATGGAAGGGGGATTGTTACAGCATAAGCAACATGCTCCCGATGGTCATGCTTCTCATTATGTTCACGTGAAAGAGGACTCCGTATTACGAGAAATTGCCGGTATGGAAAAAATAAAAGTGAATAGTAGGCATCATCAGGCTAACCGAAAGCTTGGAGAGGGTATGCAAATTTGTGGTATGGCAAGTGATGGCGTCGTTGAAGCAATAGAAAGCAGAGAAGAGTCTTTCTTATTAGGAGTTCAGTGGCATCCGGAAAACTTAGCGATAGAAGAAGATGCTGTCTCTAAAAATATTTTTCATGCGTTTATAGAAGCTTGCAGGGAAAGAAGCTAA MKPVIGVTPSVENASNMHFVSIANITAIEGAGGTPIILPFVPSKTQIRQIASLIDGLYLTGGNSIDPTLFVEEPHPKLGEINPIRDQYEVALIQEIQKHQKPILGVCRGCQILNIALGGDMYQDIYAQMEGGLLQHKQHAPDGHASHYVHVKEDSVLREIAGMEKIKVNSRHHQANRKLGEGMQICGMASDGVVEAIESREESFLLGVQWHPENLAIEEDAVSKNIFHAFIEACRERS PGPT0020950_104 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 AK015_01459 768 phnE_1 COG3639 Phosphate-import permease protein PhnE ATGAAGCGAATTCGTTTGATTGCAATTGTTGCCATCGTTTCAGCTATATACATCTGGGCTTTTGCTGGTCTACCGAAATTAGAATGGAAGGATACATCTGTTGAAGTGGTTTCTGCTATTGTTTCTGGTCTGTTTCAACCTGATTGGGGTTATGTGTATGACCCCGATGGAGAGGATTTACTTCGTGGGTTGTTAGATACACTAGCTATTGCTTTGCTAGGAACATTTATTGCTGGTATTCTTTGTATTCCATTTGCTTTTTTAGCTTCAAAAAATGTTATTAAGTCTAAGGCTACTGTTGGAACAAGTAAGTTTATGTTAAGTTTTATTCGTGTGTTCCCTGATATTGTACTTGCCTTATTATTTATTAAAGCAGTAGGACCAGGAGCCTTTGCAGGTGTTCTAGCTTTAGGTATTGGTGCTGTTGGTATGTTAGGAAAGCTAATTTCAGAAAGTATGGATCATGTAGATTTAAGTGCCAAAGAAGCATTAATATCCTCTGGAGCAAATCCAGTAAAGACCTTTATTTTTGCCATTGTACCACAAGTATTACCAAACTTTTTCTCGTTCATATTGTATCGCTTTGAAGTAAATGTACGTGCCGCGGCAGTTTTAGGTGTCATTGGCGCTGGAGGAATAGGAACACCGCTTATTTTCGCTTTAAGTGTTAGAGATTGGGAAAGAGTAGGGATTATTTTGTTAGGGATTATTTTGATGGTAACGGTAATTGATATGATTTCAGGAAAATTAAGAGCACGTTTCATTTAA MKRIRLIAIVAIVSAIYIWAFAGLPKLEWKDTSVEVVSAIVSGLFQPDWGYVYDPDGEDLLRGLLDTLAIALLGTFIAGILCIPFAFLASKNVIKSKATVGTSKFMLSFIRVFPDIVLALLFIKAVGPGAFAGVLALGIGAVGMLGKLISESMDHVDLSAKEALISSGANPVKTFIFAIVPQVLPNFFSFILYRFEVNVRAAAVLGVIGAGGIGTPLIFALSVRDWERVGIILLGIILMVTVIDMISGKLRARFI PGPT0002530_3091 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK015_01460 801 phnE_2 COG3639 Phosphate-import permease protein PhnE ATGAAAGAATCACAGTTTAACCAGTCGCTAGCAATACCTGTTCCTCCATCTAAGCTAAAGCCTTTTTTTACAACAGTCTTCATAGCAGTGTTACTGCTTTGGGGAGGTTGGCAAATTGAATTTTCATTTACAGAGTTACTTCGTGGATTGCCGAATATGTGGGATCTTATTGTTCAATTGGTGCCGCCGAATTGGGATTATTTTTCGGTTATCACACAGCCGATTTTAGAAACCATTCGTATGGCGGTAGTTGGAACAACGCTTGGTGGTTTAATCGCATTCCCGTTATCAATTTTGGCAGCGCGGAATGTTTTCAGCTCTGCATGGATTACAACATCAGCCAGGTTTGTTTTAAATTTAATTCGTACGATACCTGAGTTGTTATTAGCTGCTTTATTTGTTGCCGTGTTTGGTATTGGACCTATACCAGGTATTTTTGCGCTCATGTTTTTTTCTATTGGTATTATTGCTAAGCTTTTTTATGAATCGATTGAAGCAATAGACCCTGGACCACTGGAGGCAATGACCGCAGTTGGTGCAAATAAATTAAAATGGATTTTTTATGGTGTCGTCCCGCAAATAATGGCATCATTTATGTCGTTCTTTCTATACACATTCGAAATTAATATCCGTGCGGCAGCAGTGCTTGGTTTGGTGGGAGCTGGGGGTATTGGTCTATATTATGAACAAACACTTGGATTTCTTGACTATGGGAAAACAGCTTCCATTATTATTTATACATTAGTAGTTGTTTTAATTATTGATTATTTGTCAACAAGAATAAGGGAGAAATTAACATGA MKESQFNQSLAIPVPPSKLKPFFTTVFIAVLLLWGGWQIEFSFTELLRGLPNMWDLIVQLVPPNWDYFSVITQPILETIRMAVVGTTLGGLIAFPLSILAARNVFSSAWITTSARFVLNLIRTIPELLLAALFVAVFGIGPIPGIFALMFFSIGIIAKLFYESIEAIDPGPLEAMTAVGANKLKWIFYGVVPQIMASFMSFFLYTFEINIRAAAVLGLVGAGGIGLYYEQTLGFLDYGKTASIIIYTLVVVLIIDYLSTRIREKLT PGPT0002530_2545 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK015_01461 771 glnQ_1 COG1126 Glutamine transport ATP-binding protein GlnQ TTGATAGAATTAAGAAATGTTTCTAAAGTATATTCCAATGGTACAAAAGGATTAGATGATATTGATTTACAAATTAAGGAGGGGGAATTTGTCGTTATAGTAGGGTTATCTGGTGCAGGGAAATCTACGCTCCTCCGTTCCATTAATCGTCTGCATGAAATAAGTGAAGGAGAAATAACAGTTAACGGAAATTCGATTTCTGAAGCAAAAGGAAACGAATTGTATCGAATTCGACGAGACATTGGGATGATCTTTCAAAACTTTAACCTCGTACGTCGATCCAGCGTCATGAGAAATGTTTTATCTGGGCGAGTCGGTTATCATTCGACATTAAAAATGATACTAGGTTTATTCTCTAAGCAAGATAAAGAACTTGCTATGAATGCATTAAACCGTGTAAATATAGCAGAAAAAGCCTATATTCGTGCGGATCAACTATCTGGAGGACAGCGGCAAAGGGTTTCCATTGCTCGTGCGTTAGCGCAAGAGGCTAAAGTTATTTTAGCGGATGAACCAGTAGCTTCTTTAGATCCAATTACAACGAAGCAAGTAATGGATGACTTGCTGCGAATTAATCAAGAATTAAATATTACAATGGTAGTTAATTTGCATTCTGTTGATCTGGCTAGAAAATATGCTAGTCGAATTATTGGTTTAAATAAAGGGAAAATAGTATTTGATGGAAAAGCTAATGAAGCAACAGAAGAAGTTTTTGCAACTATTTATGGAAACCATGAATTAGTGGCAGAACAGATAGGAGTTGCAAAATGA MIELRNVSKVYSNGTKGLDDIDLQIKEGEFVVIVGLSGAGKSTLLRSINRLHEISEGEITVNGNSISEAKGNELYRIRRDIGMIFQNFNLVRRSSVMRNVLSGRVGYHSTLKMILGLFSKQDKELAMNALNRVNIAEKAYIRADQLSGGQRQRVSIARALAQEAKVILADEPVASLDPITTKQVMDDLLRINQELNITMVVNLHSVDLARKYASRIIGLNKGKIVFDGKANEATEEVFATIYGNHELVAEQIGVAK PGPT0002520_1595 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041 NA NA AK015_01462 933 ptxB_1 putative phosphite transport system-binding protein PtxB TTGAAAAAAGCAAAATACGTAGGACTATCTTTATTACTTTCAATTGGATTTCTCTCTGCTTGTGGGGATGATGCGGATAATGCACAAGCAAAAAAAGGTGAAGAAAAATTAGACGAGCTCTCTGTGCAATTTGTTCCTTCACAAAATGCAGATACACTAGAGGCGAAAGCAAAGCCTTTGGAAGAATTACTTAGTGAAGAATTAGATATTCCTGTTGAAGTAAGTGTATCTACGGATTATAACACGATCATAGAAGCTATGGATTCAGAACAAGTGGATGTTGGATTTTTACCACCAACCGCCTATGTACTTGCACAAGAAAAAGGTTCAGGCGATGTCATGTTGCAAGCGCAGCGTTATGGTGTAAATGATGATGGTTCCCCAACAGAAGAATTAGTGGATTCATATAATTCTATCTTTATTGTCAATGAAGATTCTGATATTGAGTCTGTTGAAGATTTAAAAGGAAAGAAAATTGGTTATCAAAATGTAACATCTTCAGCAGGCTTCGTTTGGCCAGCAGCTACATTACTAGAGGCTGGTATTCATCCTTTGAACGATGTGGAGCCAGTAACATTAAAAGGGCATGACCAAGCGGTGATTTCTTTGTTAAATGGTGACATAGACGCAGCTGTAACGTTTCAAGATGCTCGTAATGTCGTTGCTAGTGACTATGAAGATGTTTTTGAAGAAACACGAATTATTGAATTTACGGAACCAATTCCGAATGATACCGTAGCGATTCGTCCTGAAATTAATGATGAAATGAAGAAAGCTATTACGGATGCTTTTATTGCTATCGGAAAAGACGAGGAAGGTCAGCAAATCATTCGTGATATTTATTCTCATGAAGGATACGTAGAATCACAAGATAGCAATTTTGATATTGTGAGAGAATATGAAGAAAAGGTAAGTAAAGAAGTAGAAAAATAA MKKAKYVGLSLLLSIGFLSACGDDADNAQAKKGEEKLDELSVQFVPSQNADTLEAKAKPLEELLSEELDIPVEVSVSTDYNTIIEAMDSEQVDVGFLPPTAYVLAQEKGSGDVMLQAQRYGVNDDGSPTEELVDSYNSIFIVNEDSDIESVEDLKGKKIGYQNVTSSAGFVWPAATLLEAGIHPLNDVEPVTLKGHDQAVISLLNGDIDAAVTFQDARNVVASDYEDVFEETRIIEFTEPIPNDTVAIRPEINDEMKKAITDAFIAIGKDEEGQQIIRDIYSHEGYVESQDSNFDIVREYEEKVSKEVEK PGPT0002525_1385 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044 NA NA AK015_01463 531 hypothetical protein ATGAAAACCTACCATTTACAAGCTCCTATTTATTTTTCAGCAAAAAAATCCATACCTATAACCATTGATCAAGAAGAGGTCGGATACATTCGCAAAACAACTGCTAATACACTTGAAAAAGATCGTGTTTTTACCTATACAAGCTATGATGAGGAAAAATATTATGTTCTTGGAATAAAGAAAAATGGTTGGAAACGCCTCGTATTAACCGAGTATCAGCTACAAACTAATTCTAAAAAGTATCATTTCAAAGATAAATTAGGGAGTAACATACTTTATTTTTGTGTTATGGGGGAGGTAGAAAATCATCAAATTCTAATCGAGGAAAATTGGGCTGGAGATTTAGAAATAAAGTTTAATCATAATAAAGTTGCCAAGATTAAAGTTGCATCCCTTAGCTTGAAAACAACCTTTCAGTTTGAGGACACTGTGGAAGAAAATAGTCCTTTATTCGCACTCACCATTCTTATGTATTTCATGTTCAAAATATATAAAGATGAAAATAATTGGATAGAAGGACTACTTGAATGA MKTYHLQAPIYFSAKKSIPITIDQEEVGYIRKTTANTLEKDRVFTYTSYDEEKYYVLGIKKNGWKRLVLTEYQLQTNSKKYHFKDKLGSNILYFCVMGEVENHQILIEENWAGDLEIKFNHNKVAKIKVASLSLKTTFQFEDTVEENSPLFALTILMYFMFKIYKDENNWIEGLLE NA NA NA NA NA AK015_01464 147 hypothetical protein ATGAAGGTGACAATGAACGTTCAAACTGCCTACCACGGAGACTTACTACGTGCAGGAAAAGTATACGACGTAGATGACGAAACAGCGAAGCGTTGGATTGCCAGTAAATTAGCTGAAAAGGCAGAAGATCAATCAGTTAAGCGATAG MKVTMNVQTAYHGDLLRAGKVYDVDDETAKRWIASKLAEKAEDQSVKR NA NA NA NA NA AK015_01465 213 hypothetical protein ATGAACAACATATCGAAAACCTATTGGGATAATTTTTGGAATGCTAGACGTGAAGAAAAACCAACAGTTGTAACCGCTTGGCAATTTGACGATGACCCAGACGACTATTTGGCTCAACTGGTTATTGATGGTCTAAAAACAGCTCTGGGCAAATATTTTATGAATTGGAAAATGAACCAATTCATACTGTCCAAGACTATAGCATTATTTTAA MNNISKTYWDNFWNARREEKPTVVTAWQFDDDPDDYLAQLVIDGLKTALGKYFMNWKMNQFILSKTIALF NA NA NA NA NA AK015_01466 240 COG1146 Ferredoxin ATGGCTTTTGTTATTTTAGATCCTTGCCGAGGCGAGAAGTCAGGGGAATGTGTTAGCGTTTGCCCTGTTGATTGTATAGAAGAAGGTCCTGATCAATTTTATATTGATCCAGATATTTGCATTGATTGTGGCGCTTGTAAAGCAGTATGCCCTGTAGATGCCATTGAAGAAGAATACGATCTAACTGCTGATCAAGAAGTCTTTCTAGAAAAAGCAGAAGAATTTTTTGCGAATAAATGA MAFVILDPCRGEKSGECVSVCPVDCIEEGPDQFYIDPDICIDCGACKAVCPVDAIEEEYDLTADQEVFLEKAEEFFANK PGPT0030810_1604 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524 AK015_01467 1197 scmP_2 COG1473 N-acetylcysteine deacetylase ATGAAAAAATCGAATATAGCTTATGAGGTGAAAAAGATAGAGAAAGAAGTGGAATTCATACGTAGATATTTCCATCAATATCCGGAGTTAAGCAACGAAGAAATTGGAACTTCAGCTTTTATTCAAGAAAAATTACGGCAGTTTGAAATCCCTTTTGAAACCGGATACGCAACACATGGTGTATTAGGTATTATTCATGGTAAGTCATCAAGAAAAACCGTGGCGCTTCGAGCTGATATGGATGCATTGCCTATTCAGGAATTAGTCGACCACGCTTACCGTTCAACATACAAAAATAAAATGCATGCTTGTGGTCATGATGCGCATATGGCTATGTTGTTAGGAGCGGGTTATGTGTTGCAACAATTACGTCATGAATTTAATGGAACGGTATTGCTCGTATTTCAGCCCGCTGAAGAAGATGCGCCAGAAGGAGGAGCCCAGCGATTAATGGATGAGGGTATTTTCTCTGAATATGTTCCAGATGTAATTTACGGTCAACATGTATGGCCGGATTTACCTGTTGGGCAAATTGGTGTAAGAAATAAAGAAATGATGGGCGCTTCGGATAGATTTGAAATCACGCTTACTGGGGTTGGCGGGCATGCAAGCATGCCTCATCAAACCACGGACGTGATGGTAACTTTAGGCCATGTTATCACCAGTTTGCAAACCATTGTTAGTAGAAGTCTAGATCCTTTGGAGGCATCCGTTGTAACGATAAGCAAAATAACGGGAGGCGAGGCAGCGAATATTATTCCAAATCAAGTAAAAGCGGAAGGTTCTATTCGTACCTATGAGCCTTCTATACGAGCTCGCCTGAAGGAACGTTTTTTCACTATTACGAGACAAATTGCAGAAGCTTTTGAAGTGAAAGTAGATATTACGTATCAAGATGGTTATCCTGCTACGATTAATATACCAAAATGGGCCAGTCTAGCAAGGGAAACAGCTAACGAATTAAATCTAGATACACCAGAAATAAATCCGTCTTTAGCTGGTGAAGATTTTAGTCGCTTTTTAGAAAGTTATCCTGGTGCATTTATTTGGTTAGGTACTCAATTAGACGAAACTAATAAACAAGCTTCCCTACATGATGCGCGCTTTCAAATAAATGAACGTGCTTTACCTATCGGAACATCCTTTTTAGCGCAGTTAGCGATAGATACGTTGCATGCTTTTGAAAAAGAAACATAA MKKSNIAYEVKKIEKEVEFIRRYFHQYPELSNEEIGTSAFIQEKLRQFEIPFETGYATHGVLGIIHGKSSRKTVALRADMDALPIQELVDHAYRSTYKNKMHACGHDAHMAMLLGAGYVLQQLRHEFNGTVLLVFQPAEEDAPEGGAQRLMDEGIFSEYVPDVIYGQHVWPDLPVGQIGVRNKEMMGASDRFEITLTGVGGHASMPHQTTDVMVTLGHVITSLQTIVSRSLDPLEASVVTISKITGGEAANIIPNQVKAEGSIRTYEPSIRARLKERFFTITRQIAEAFEVKVDITYQDGYPATINIPKWASLARETANELNLDTPEINPSLAGEDFSRFLESYPGAFIWLGTQLDETNKQASLHDARFQINERALPIGTSFLAQLAIDTLHAFEKET NA NA NA NA NA AK015_01468 2181 topB_1 COG0550 DNA topoisomerase 3 ATGAGTAAAATAGTAGTATTAGCAGAAAAGCCTTCTGTAGGACGGGACATTGCCCGTGTATTGCAATGCAATAAAAAAGGAAATGGTTTTATGGAAGGTTCAAAATATATCGTCACATGGGCGCTAGGGCATCTTGTGACGTTAGCAGATCCTGAGGCTTATGATGCAAAATATAAAACATGGAAATTAGAAGACCTTCCGATGCTGCCGAAAGAATTAAAATTGACGGTAATTAAAAAAACAGGGAAGCAATTCCAAGCTGTAAAAACACAACTTCATCGAAAAGATGTTCATGAAATTGTTATTGCTACAGATGCTGGAAGAGAAGGAGAGTTAGTAGCTCGCTGGGTGTTGGAAAAAGCAAATGTGAAAAAACCTGTTAAGCGTCTATGGATTTCTTCTGTAACGGATAAAGCAATTAATGATGGATTTAAACAGTTAAAATCGGGGAAACAATTCGAAAATCTATATGCTTCAGCCGTCGCAAGATCTGAAGCGGATTGGTATGTTGGTCTTAACGCTACAAGAGCTTTAACAACAAAATTTAATGCCCAACTATCCACTGGTCGTGTGCAAACACCCACCTTAGCGATGGTAGCCTCAAGAGAAAAGGAAATAAAAACGTTTCAACCGAAAACATACTATGGAATAGAAGCAAAAACGAATAAAGGGTTTTCGCTTCTTTGGCAAGATGAAAAAAATAATAAACGATTTTTCTCTAAACAAACAGCTGAAAAAATAATTCAGAAAATAACCAATGAAGCGCTACAAATTGTGCATGTTGAGAAAAATTATAAGAAAAAATCTGCACCACAATTGTATGATTTAACAGAATTACAACGTGATGCTAACCGAATGTTTCAATTTTCTGGTAAGCAAACTTTGTCTATTATGCAAAAACTATACGAACAGCATAAAGTATTGACCTATCCTAGAACAGATTCACGTGTGATTTCAACAGATATCGTTTCTACATTAAAAGATCGCGTAAAAGCGTGTGGCGTAGATGCTTACGCTCGTCATGCTAACAAGATTTTGCGTAAAGATTTAAAATTACCAAAATCAGTTGTAAATAATGCGAAGGTAACAGATCACCATGCGATTATTCCTACCGAACAATCTGTTATGCTTTCGGATCTTGATGATAAAGAACGAAAAATTTATGATTTAGTTGTAAAGCGGTTTTTGGCAGTTTTATCAGATCCTCATGAATATGAACAAACGACAATTATCGCTGAAGCAAAGGGTGAAAAGTTTGTTGCGCGAGGGAAAATGGTTAAGAAACAAGGCTGGAAGGAATTATATCAGCGCAACTTCTCGGATGATATAGAAGAAGATGAACAACAATTACCGACTATAGAAAAGGGACAGCAACTTCACCCTGTTCGTTATACGTTAACACAAGGAGAGACGAAACCACCAGAACGATTCACAGAAGGTACATTATTACAAGCAATGGAAAACCCTGTTCGTTACATGAATACGTATGATACAAAGGTAGCCCATACTTTAAAAGATACGGGTGGGATTGGTACGGTCGCCACTCGCGCAGATATTATTGAAAAATTATTTCATAACATGTACATGGAGTTGAAAGGAAAGTATATCTATTTAACTTCAACTGGCAAACAACTGCTTGAATTAGTACCAGAAGATTTACGTTCCCCGGCATTGACAGCCGAATGGGAGCAAAAGCTTAGTCAAATTGCAGAAGGAAAAGCGAAGAAAGAGCAGTTTATTTCTGAAATTAAAGGCTACACAAAACAAGTTGTTCGGCAAATTAAATCCAGTCAGGAAAAATTCAAACATGACAATATGACGGGAACAAAATGTCCAGATTGTGGAAAACTCATGCTGGAAATATCCAATAAAAAAGGGAGAATGTTAGTCTGTCAAGATCGCTCATGTGGACATAGAAAGAATATTGCCAAGCAGACAAACGCTCGTTGCCCTAACTGCCATAAACGTCTGGAACTTCGTGGAGAAGGAGAAGGGCAAATTTTCACTTGTAAATGTGGGCATAGAGAAAAATTATCTACTTTCCAGACAAGAAAAGAACGAGAGAAAAAGCATAATGTTTCGAGAAAAGAAGTTAATAAATACTTGAAAAAGCAGGATGATGATGGATTTGCTAATAATGCATTAGCAGAACAGCTGGCAAAACTAAAGTTGAAGAAATAA MSKIVVLAEKPSVGRDIARVLQCNKKGNGFMEGSKYIVTWALGHLVTLADPEAYDAKYKTWKLEDLPMLPKELKLTVIKKTGKQFQAVKTQLHRKDVHEIVIATDAGREGELVARWVLEKANVKKPVKRLWISSVTDKAINDGFKQLKSGKQFENLYASAVARSEADWYVGLNATRALTTKFNAQLSTGRVQTPTLAMVASREKEIKTFQPKTYYGIEAKTNKGFSLLWQDEKNNKRFFSKQTAEKIIQKITNEALQIVHVEKNYKKKSAPQLYDLTELQRDANRMFQFSGKQTLSIMQKLYEQHKVLTYPRTDSRVISTDIVSTLKDRVKACGVDAYARHANKILRKDLKLPKSVVNNAKVTDHHAIIPTEQSVMLSDLDDKERKIYDLVVKRFLAVLSDPHEYEQTTIIAEAKGEKFVARGKMVKKQGWKELYQRNFSDDIEEDEQQLPTIEKGQQLHPVRYTLTQGETKPPERFTEGTLLQAMENPVRYMNTYDTKVAHTLKDTGGIGTVATRADIIEKLFHNMYMELKGKYIYLTSTGKQLLELVPEDLRSPALTAEWEQKLSQIAEGKAKKEQFISEIKGYTKQVVRQIKSSQEKFKHDNMTGTKCPDCGKLMLEISNKKGRMLVCQDRSCGHRKNIAKQTNARCPNCHKRLELRGEGEGQIFTCKCGHREKLSTFQTRKEREKKHNVSRKEVNKYLKKQDDDGFANNALAEQLAKLKLKK NA NA NA NA NA AK015_01469 618 ytaF putative sporulation protein YtaF ATGCTATTTTATACAGGGTTAATTCTATTAGTAATTGCGGTAAGTTTAGACAGCTTTAGTGCAGGAGTTGTTTATGGTATGCGTAACATTTGTGTCCCTTTTAATGCTCTTTTCATTATTATGGTATGCTCTGGAGTTATCGTATTTGTATCTATGACTATTGGTAGTATGTTTCTTACTGTCCTTACACCAGATATTGCAAGTATGCTCGGAGGAAGTATCTTAATTGTACTAGGTTGCTTTGCTTTTATTAACTGTTTACGTTCAAAATCGGACACGTCGAATCAAAACCAGAAGCGGAAACAAAATATTTTAACAACTGTTTTATCTACACCTGATAAAGCTGACTTGGATCGTTCTGGTATCATTTCACCAAGTGAAGCGGTATTGCTTGGCTTTGCTTTAGCTCTAGATGCATTCGGCGCTGGGATTGGTGCATCCATGCTAGGATATGCCCCTATTCTAACCGCTTTGTTAATTGCTTGCATGAGTGGCGCTTTCTTATACCTAGGTTTAACAGCAGGCAGAATACTAACGAAAAATAGGCATATGCAACGACTCACCTTTCTTCCCCCGCTATTACTCATTACACTTGGCATAACAAATTTAGTTCATTAA MLFYTGLILLVIAVSLDSFSAGVVYGMRNICVPFNALFIIMVCSGVIVFVSMTIGSMFLTVLTPDIASMLGGSILIVLGCFAFINCLRSKSDTSNQNQKRKQNILTTVLSTPDKADLDRSGIISPSEAVLLGFALALDAFGAGIGASMLGYAPILTALLIACMSGAFLYLGLTAGRILTKNRHMQRLTFLPPLLLITLGITNLVH NA NA NA NA NA AK015_01470 792 actIII Putative ketoacyl reductase ATGGATATGCAATTACAACACAAAACCGTGCTAGTTACTGCTGGAAGTAAAGGGTTAGGAAATGCGATTGCTACAGAGTTTGCAAAAGAAGGAGCAACTGTGTTTATTAGTAGCCGAAATGAAGAAAACTTAAAGAGGGCTGTAAAAGAAATAAAAGAAGCTACGGCTAATCCAAACGTGGAATACTACGTATGCAATATGAAAGATGCGGATGCAATTAAGCAAATGATTCTCTCTATTGTAGAAAGAGAAGGGAAGGTAGATGTTCTCATTAATAATGCTGGAGGTCCGCCAGCAGGAAGTTTTCTCGAAATGGATGATGAAAGCTGGTATCATGCATTTGAATTAAATTTACTTAGTTTTGTAAGAACGATTCGTGAAGTAGTTCCGCATATGAAACAGCATGGAGGTGGGAAGATTGTCAATATCGCTTCCTCTTCTATTAAGCAAGCACTTGACAATCTAGTTTTATCTAATACAATGCGACCAGGTATAGTTGGTCTTTCCAAAACGTTAGCTCAAGAACTAAGTGCAGACAATATATTAATTAATACGGTGGGTCCAGGTTCTGTGAAAACAGATCGGGTTCTTGATTTAAACAAGAAAAAAGCAGATAAATTGCAAACATCGCCAGAAGATATCATGGCTAAAGCTGAACAAAATATTCCCATGAAGCGCTATGGTAAGCCAGAGGAATTTGCCAAAGCAATTGTATTTTTAGCTTCCGGAGCAAATACGTATATTACAGGTCAAGCTTTAATCGTAGATGGCGGGCTTGTAAAAGCATTGTAG MDMQLQHKTVLVTAGSKGLGNAIATEFAKEGATVFISSRNEENLKRAVKEIKEATANPNVEYYVCNMKDADAIKQMILSIVEREGKVDVLINNAGGPPAGSFLEMDDESWYHAFELNLLSFVRTIREVVPHMKQHGGGKIVNIASSSIKQALDNLVLSNTMRPGIVGLSKTLAQELSADNILINTVGPGSVKTDRVLDLNKKKADKLQTSPEDIMAKAEQNIPMKRYGKPEEFAKAIVFLASGANTYITGQALIVDGGLVKAL PGPT0003180_3786 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 AK015_01472 867 cvfB COG2996 Conserved virulence factor B ATGATGCATCATTTAACTGGAACTATTCAGAACTTGCTAGTTGAAAGAAGGATTGATACTGGTTATGTATTAAGCCACAAACAGAATGAGGTTTTATTACATCATCAAGAAACAAATAAGGAATTAACGCCTGGGGAAGAAATAGAAGTATTTTTATATACAGATAAGAAAGGGAAGGTTGTAGCTTCTACACAACTTCCTCACATACAAATGGATAGCTATGGATGGGCGACTGTCAAAGAAGTAATACCTAATCTTGGCGTATTCTTGGATATTGGAACAACGAAAGAAATACTTGTTTCTAAAGATGACCTCCCTCTATACGAAAACGTATGGCCACAAATCGATGATTGCTTATATGTAACGTTGGGACGAGATAAAAAAGGAAGGTTACTTGCTTTTCCTGCTACAGAATCGGTAATTTTACAAGACATAGAATCTGCTCCAGAAGAATTATGGAATACTCCTATCTCTGGTACAGTGTATTTCACTAGCAAAGAAGGTTCGGCAATAATTACATCTGAACATTACCGAGGTTTCATTCATTACACCGAACGCAAGCAAGAACCTCGATTAGGAGAGCTTGTCACAGGAAGAGTAATTGAAGTAAAGACCGATGGAACGTTAAATATCTCCCTTCGTCCAAAGAAAAAAGAAAGCATGGAGGAAGATGCAAAACAAATTTTAGACCATCTTCAAGCAAATAATGGCTCTATTCCATTTGATGACAAAAGTGACCCAGAAGATATACGAGCTACTTTTCACATTAGTAAGGCAGCTTTTAAACGGGCACTCGGTAGGCTAATGAAGGAACACAAAGTCGAACAACGTAATGGCTACACTTATTTGGTCCAAAAAAAAGTATAG MMHHLTGTIQNLLVERRIDTGYVLSHKQNEVLLHHQETNKELTPGEEIEVFLYTDKKGKVVASTQLPHIQMDSYGWATVKEVIPNLGVFLDIGTTKEILVSKDDLPLYENVWPQIDDCLYVTLGRDKKGRLLAFPATESVILQDIESAPEELWNTPISGTVYFTSKEGSAIITSEHYRGFIHYTERKQEPRLGELVTGRVIEVKTDGTLNISLRPKKKESMEEDAKQILDHLQANNGSIPFDDKSDPEDIRATFHISKAAFKRALGRLMKEHKVEQRNGYTYLVQKKV NA NA NA NA NA AK015_01473 285 hypothetical protein ATGTTTCAATCGGTGCTTACAATTGGTGCAATATTAGTAGTTGCAGTAGTTGCAGTTAGTCTGATACTACTAAAAGCGACTTCAAAGGAAAGCTATACAGGTTACTTCCCAGGTATTTTAATAGGTTTAACTGGGTTGGTGTTTCTTATGTTAGCTTCCGTAATCGGAAAAGTAGAAATCATGGGCGCTGGTTTAGGGGGATGGGGCATTGCATCATTATTTGCTGCAGCGATTGGCCTCATTATTACAGCGTTAACTGACACGTATGCAAATGTAAAAGCGTAA MFQSVLTIGAILVVAVVAVSLILLKATSKESYTGYFPGILIGLTGLVFLMLASVIGKVEIMGAGLGGWGIASLFAAAIGLIITALTDTYANVKA NA NA NA NA NA AK015_01474 789 yidA COG0561 Sugar phosphatase YidA ATGACATACAAAACGCTATTCTTGGACATTGATGGAACTATTTTAACCCCAAACCATACTTACACTGCCTGTACAAAAGACGCAATTAAACAAGTACAGCAACAAGGTATACTCGTCTTTATTTGTACGGGAAGACCTTTACATGAAGTAAAAGAATTAGGTGAAGAATTGGGAGTAGAAGGGTACATAGGCTACAATGGAGCTTATGCAATTTATGAAAACCACATACTTGTTAATAAACCAATGGATAAACAAATATTAGAACAGTTTTTAGCTTTAGCAAAGCAAAATCACCATGAATTAGTTTGTTATACAAAAGATAAAAACTATTACACTTCACTGTCACATCCTGTCATCAAGAATTTTGTAGACGTTTTTCAACTTAGAAACAACCAACTTTTAACTACAGATGTACACGAACAAATCCTAGGTTCCTCTATAATTAATGTTTTACCAAGTCAAGTACAGGCTTATGAAGAATTAGATACAGACATCCACTTGTCAGAAGTAACCGTAAATAATATATCAAATTGCTATGATATCATTCGTCAACAAGTTAATAAGGGAGAAGCGATAAAAAGCGTGCTGCAGCATTTAGATATAGAGCCACGTCAAGCAATCGCTTTTGGTGATGGAATGAACGATAAGGAAATGTTACAAGTCGTAGGGGAAGGGTTCGCGATGGAAAACAGTAACCCTGAGCTATTTGCTTATGCCAAGTACAGAACTACTTCTGTAGAAGAATCAGGTATATACAACGGGCTTAAACAACTGCAACTTGTGCGATAG MTYKTLFLDIDGTILTPNHTYTACTKDAIKQVQQQGILVFICTGRPLHEVKELGEELGVEGYIGYNGAYAIYENHILVNKPMDKQILEQFLALAKQNHHELVCYTKDKNYYTSLSHPVIKNFVDVFQLRNNQLLTTDVHEQILGSSIINVLPSQVQAYEELDTDIHLSEVTVNNISNCYDIIRQQVNKGEAIKSVLQHLDIEPRQAIAFGDGMNDKEMLQVVGEGFAMENSNPELFAYAKYRTTSVEESGIYNGLKQLQLVR PGPT0017727_268 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA NA NA AK015_01475 528 hypothetical protein ATGATATATTGGGAGATATTTCTTGCTTTCTTTATTCCAGGGATTTTAGGGTACGGTGGAGGTCCTGCTTCTATACCACTTGTCGAAAATGAGGTCGTCTCTCGTTACGGTTGGATGGATGTCCAACAGTTTAGTGAAGTTTTAGCACTTGGCAATTCGTTACCTGGACCTATCGCTACAAAAATGGCAGGTTATATAGGATATGAAGTAGGTGGACCGCCGGGTGCATTTGTTGGAGTGTTTGCAACTGTAGCGCCTTCCTTGATTTTGGTTATTATTTTATTAAGCATTCTATATAAATATAAAGACTCTCCGAAAGTAAAACGGATGACCTTATATGTTAGACCAGTTATCGGTATCCTGCTTGGTGTTATGGCCTGGCGTTTTTTTAGTGAATCTTACGTTAACATAGGTTTGCTCCAAACAGCACTGTTGAGCTTAATTAGTTATCTATTAATGGAAAAATTTAAATTGCATCCCGCATTTGTTATTGGTGGTGCATTGGTTTATGGAGGCTTTTTGTTATAA MIYWEIFLAFFIPGILGYGGGPASIPLVENEVVSRYGWMDVQQFSEVLALGNSLPGPIATKMAGYIGYEVGGPPGAFVGVFATVAPSLILVIILLSILYKYKDSPKVKRMTLYVRPVIGILLGVMAWRFFSESYVNIGLLQTALLSLISYLLMEKFKLHPAFVIGGALVYGGFLL NA NA NA NA NA AK015_01476 582 hypothetical protein ATGAAATTACAATGGAATATTTTTGTAGCTTTTTTCAGAGTAGGTATATTAGGTTATGGCGGTGGCCCTAGCTCCATTCCGCTCGTTCATAAAGAAGTGGTCGATAAATATAAGTGGATGAGTGATGAAGAATTTGGTGATTTATTAGCACTTGGCAATACATTACCTGGACCAATCGCAACGAAACTAGCAGGATATATTGGATATCGTGTTTCTGGCATTTTAGGAACCATAAATGCTGTACTAGCAACGATTTTGCCTACGATTTTTTTAATGATTTTATTACTATCTTCCCTTTCATCTATTAAAGGTTATGATTGGGTACAAGGGATGACAGCAGCTGTAATTCCAGTAGTTGGAGTAATGCTTGCAGTATTAACCTGGCAATTCATTCAGAAAGCTGGAAAAGGTATGGGGTGGGTTCCCACAGGATCTATGCTCGTTGTCGTTTTTGTCCTATTAGAATTCGTCAATATCCATCCTGGTATTCTTATTGGAGTTTTATTATTCTTAGCGATTGTAAAAAAAGATCGTAAAAGAGAGAAAACGCACCTATCGGAAAGAGAAGGTGATTCATCATGA MKLQWNIFVAFFRVGILGYGGGPSSIPLVHKEVVDKYKWMSDEEFGDLLALGNTLPGPIATKLAGYIGYRVSGILGTINAVLATILPTIFLMILLLSSLSSIKGYDWVQGMTAAVIPVVGVMLAVLTWQFIQKAGKGMGWVPTGSMLVVVFVLLEFVNIHPGILIGVLLFLAIVKKDRKREKTHLSEREGDSS NA NA NA NA NA AK015_01477 1614 ywrD COG0405 Glutathione hydrolase-like YwrD proenzyme ATGGAATTTTTTCAAAGGCAAACTTATCCTTATGCTGTCCCACGTCAAGCTACATATGCAAAAAAAGGAATGGTAGCAACTTCGCAGCCGTTAGCCGCACAAGCAGGGCTTGAAATATTAAAACAAGGAGGCAATGCGATTGATGCTGCTATTGCAACGGCGGCATGTCTAACTGTAGTAGAACCGACATCGAATGGTATTGGAGGAGATGCGTTTGCATTAGTATGGACAAAAGGGAAGTTACATGGTTTAAATGCAAGTGGAAAATCACCTCAACATATCTCCGTGGATGCTGTCAAGGAGTTAGGTTATAAGGATATCCCAGAATATGGATGGATTCCAGTTACTGTTCCTGGAGCTCCAAGTGCTTGGGCAGAGTTATCTAAAAAGTTTGGTAAGCTTTCGTTGCAAGAAGTTTTAAAGCCTGCAATTCATTATGCATATGAAGGATTTCCGGTTTCGCCAATATTAAGTAGGTTTTGGAAAAAGGCCTATCAAGTTTATGAATGGAAACTGACAGACGATTTATTTAAAGAATGGTGTACAACTTTTGCACCTAAAGGAAAAGCACCTGCAGCAGGCGAAATATGGTACGCACCAAACCATGGAACGACATTACAGGAAATAGCAGATAGCTACGGGGAGTCTTTTTATCGTGGAGAATTAGCAGAGCGTATTCATCAATTCTCCAAGCAAAGTGGTGGTTTTCTAACAAATGATGATTTAGCTAGCTATTATCCGGAATGGGTGGAACCGATCCATGTGAAATACCGAGGTTACTCTATTTGGGAAATACCACCGAACGGCCAAGGGATTATTGCTCTTCAAGCATTGAACATTTTAAAAGGATTTCATTTTGAAGAGAAAGATCATGTTGAAACATATCATAAGCAAATCGAAGCTATGAAACTAGCATTTGCAGATGGACAGAAACATGTATCTGAACCATTATATATGAGGTATTCAGTAAGTGAGTTGCTAAGTGAAGAATATGGGGCGCTCCGCCGAGGGTTAATAGGAGATCATGCACTACAACCAGAAGCTGGAGAGCCTGCCTTAAGTGGTACTGTTTATTTAGCTACTGCCGATCAGGAAGGGAATATGGTATCATTTATACAAAGCAATTATATGGGATTTGGCTCTGGTATTGTAGTTCCTGGCACAGGGATTGCTTTGCAAAATAGAGGTCACAATTTTTCGATGGATCCTTCCCATGTAAATGTTCTTGCAGGTGGGAAAAGAACCTATCACACCATTATACCTGGCTTTATGACTAAAGATAATCAGCCTGTAGGACCATTTGGGGTGATGGGAGGATTTATGCAACCGCAAGGCCATGTGCAAGTGATTATGAATACGCTTGATTTTCAAATGAACCCACAAGTCGCACTAGATGCACCGCGGTGGCAGTGGATAAAAGATAAGCAAGTTGAAGTCGAAGATCGTTTTCCACATCATATTGCTTTGGAGTTAGCAGAAAAAGGACATCGTATTCAAGTACAGCTAGAACCAAATAACTTTGGAAGAGGGCAAATTATTTGGAGAAATCCAGACACTGGTGTGTTGATTGGTGGTACAGAATCGAGGGCGGATGGAACGATAGCTGCTTGGTAA MEFFQRQTYPYAVPRQATYAKKGMVATSQPLAAQAGLEILKQGGNAIDAAIATAACLTVVEPTSNGIGGDAFALVWTKGKLHGLNASGKSPQHISVDAVKELGYKDIPEYGWIPVTVPGAPSAWAELSKKFGKLSLQEVLKPAIHYAYEGFPVSPILSRFWKKAYQVYEWKLTDDLFKEWCTTFAPKGKAPAAGEIWYAPNHGTTLQEIADSYGESFYRGELAERIHQFSKQSGGFLTNDDLASYYPEWVEPIHVKYRGYSIWEIPPNGQGIIALQALNILKGFHFEEKDHVETYHKQIEAMKLAFADGQKHVSEPLYMRYSVSELLSEEYGALRRGLIGDHALQPEAGEPALSGTVYLATADQEGNMVSFIQSNYMGFGSGIVVPGTGIALQNRGHNFSMDPSHVNVLAGGKRTYHTIIPGFMTKDNQPVGPFGVMGGFMQPQGHVQVIMNTLDFQMNPQVALDAPRWQWIKDKQVEVEDRFPHHIALELAEKGHRIQVQLEPNNFGRGQIIWRNPDTGVLIGGTESRADGTIAAW PGPT0002935_4796 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681 NA NA AK015_01478 450 lrpC COG1522 HTH-type transcriptional regulator LrpC ATGAAATTGGATCATATAGATAAAAAATTACTAGAAGCTTTAACCGAAGATGGTAGGTTATCCTACGTTGAATTAGCAGAAAAAGTCGGGCTATCACGAGTAGCCGTAAAAGACCGCATTCAAAACCTAAAAGATAAAGGAGTTATTGAAAAATTTTCGGTTGTTATTAACTCCGAAAAATTTGGCAAGCAAGTCTCAGCTTTTTTTGAAGTAGATGTAGAACCTATGCAATTACAAGAAGTTGCTCAAAATTTAGCTGATAATCCTCAAGTAGCAAGCATCTATCAAATGACTGGTCCTAGTACATTACATATGCATGTACTAGTTGAAGATTTTCAAAAATTAGAAGCTTTTATCAATGAAGAATTATACTCTGTAAGCGGAATCACTCGCGTAGAAAGTTCGATTATTTTAAAGCGTTTTAAAAGCCGAACTGGATTCAAACTGTAG MKLDHIDKKLLEALTEDGRLSYVELAEKVGLSRVAVKDRIQNLKDKGVIEKFSVVINSEKFGKQVSAFFEVDVEPMQLQEVAQNLADNPQVASIYQMTGPSTLHMHVLVEDFQKLEAFINEELYSVSGITRVESSIILKRFKSRTGFKL PGPT0004196_5 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_CHROMATE_RESISTANCE CHROMATE_RESISTANCE-CHR_TRANSPORT_SYSTEM,PGPT0004196-chrS-NA NA NA AK015_01479 1746 ypdA COG3275 Sensor histidine kinase YpdA ATGTTTGACCTACTAGTTATGATGTTAGAGCGACTCGGTATTATTGTCATGATCGCTTTTTTACTTACACGTCTACAATTTTTTCGCAATATGATTTCACAACATACATTAAGTCAAAGCCAACAATATAAGGCTATGCTTTTCTTTGGCTTATTTGGCATTATTGGTACATACACGGGATTAATTTTTAATACAGGTACTTCTGAAATTGAACGTTGGCGAATTGGGATTGAGCCAGATGAAGCAATTGCGAACTTTAGAGTTATCGGCGTCGTTGTAGCAGGACTTCTAGGTGGTTATAGAATTGGCATAGGCGCAGGAGTTATTGCTGGTGTTCATCGTTTCCTACTAGGAGGCTATACGGCGTTAAGCTGTGGAATTGCTACCATTATTGCAGGTTTTTTCTCCGGATATTTTCACAAAAAACAAAGCCACCATTCATTACCAAAAGTATTTACAATTACCGCAACGGCAGAAATCATCCAAATGTTGCTTATTCTGCTTTTGGCAGGGTCATTTGAACAGAACATTCCTTTAGTAGAAGTTATTGGCTTGCCTATGGTAATTGCAAACGGCCTGGGTGGTGCTTTATTCATGCTCATTATTCAAATGGTCATTCAGGAAGAAGATAAAGTTGGTGCAGTTCAAGCGCAATTAACTTTGCGTATTGCTGATAAAACACTTGCCCATTTAAGAAAAGGACTAAATGAACAAACGGCGCAAGCAGCCTGTAACATCCTTTATCAAGAGATGAACGCTATTGCTGTTTCCATGACGAATGATAAGGAAATTCTCGCTCATGTAGGGTTGGCTGATGATCATCACAAACAAGGGAATCAAATTCAAACACAAATCACAAGGGATACCATTCATTCTGGAGAATTAATCGTTGCTTCCGGGCAACAAATCCATTGTAGCCATGATAATTGCCCGTTAAAAGCCGTCGTTGTAGCTCCATTAAAACAACGAGGAAAAACCATTGGCACGTTAAAATTTTACTATCATTCCAAAGAAGATATTAACCGTCTAGTAAGAGAGATGGTAAGCGGATTGGCAAAACTGCTAAGTAATCAATTAGAGATTGCCCGTGCCGAAGAAGCGTTGCAATTAGCAAAGGCATCAGAGATTAATGCGTTACAAGCACAAATCAGACCCCACTTCCTATTTAACACGTTAAATACGATAACGTCTCTCGTACGAATTGACCCGATGAAAGCAAGAAAATTACTTGTATCGCTTTCCCATTTTTTAAGACAAAATTTAACTGTAACGACAGATCAAGAAGTTACCATCGATCAAGAATTAAAGCATGTACAAGCCTATTTAGATATTGAGCAAACACGTTTTCACGATCGCCTACACGTGGGGTATCACATTGATGACGATTGCTTAAAGGAAACAGTGCCTCCATTAATTTTGCAACCAATTGTTGAAAATGCAATGAAACACGGCTTAAAAGATAAAAAGGAAAACGCAAATATTATTATACAAATTTATATTAAGAATAATGCTACACATATATCTGTTACAGATAACGGAAAAGGAATACCGAATAAAGAAATGGACCGTATTGGTCAAAAAGTGGTTCCATCTAAATCCGGTACAGGAATGGCTTTATATAATATTAATCGCAGACTAACCATGAAATTTGGCCCATCAGCGAAGTTAGTCATCACTAGCAAAACACATGAAGGAACATGCGTGCAATTTTCAATTCCGAGAACAAAGGCGCAAGTGCCCGTTTAG MFDLLVMMLERLGIIVMIAFLLTRLQFFRNMISQHTLSQSQQYKAMLFFGLFGIIGTYTGLIFNTGTSEIERWRIGIEPDEAIANFRVIGVVVAGLLGGYRIGIGAGVIAGVHRFLLGGYTALSCGIATIIAGFFSGYFHKKQSHHSLPKVFTITATAEIIQMLLILLLAGSFEQNIPLVEVIGLPMVIANGLGGALFMLIIQMVIQEEDKVGAVQAQLTLRIADKTLAHLRKGLNEQTAQAACNILYQEMNAIAVSMTNDKEILAHVGLADDHHKQGNQIQTQITRDTIHSGELIVASGQQIHCSHDNCPLKAVVVAPLKQRGKTIGTLKFYYHSKEDINRLVREMVSGLAKLLSNQLEIARAEEALQLAKASEINALQAQIRPHFLFNTLNTITSLVRIDPMKARKLLVSLSHFLRQNLTVTTDQEVTIDQELKHVQAYLDIEQTRFHDRLHVGYHIDDDCLKETVPPLILQPIVENAMKHGLKDKKENANIIIQIYIKNNATHISVTDNGKGIPNKEMDRIGQKVVPSKSGTGMALYNINRRLTMKFGPSAKLVITSKTHEGTCVQFSIPRTKAQVPV NA NA NA NA NA AK015_01480 729 lytR COG3279 Sensory transduction protein LytR ATGAATCGCACCATTAAAACTTTAATTGTAGATGATGAAAAATTAAATCGAGAAGAGCTTATTTATTTACTAAATAACTTCCCAAATATTGAAATTGTGGGACAAGCAAATTCTGGAGAAGCATGCATCATGGAAACCATGAAAAAGAAACCTGATCTTGTTTTTCTTGATGTAGAGATGCCAGAAATGGATGGAATGGAAACAGCTGCTTCACTAAAAGAACTTAAACACCCTCCATTATTAGTATTTGCTACAGCGTACCCTCAGTTTGCCGTCCAAGCTTTTCGATATGAAGCCATTGACTATTTATTAAAGCCGTATGATGAAAAACATTTAGAACAAACGATTTCTAGAATTGAAAAAACGTTATTTCATGTAGAAGAAAAGGAACAAGAGGTTGCTAATAAATTGGGGATTGAAAATGAAGATGGCGTTATATATGTAGACCCTACTGAAATACTCTACTTGCAGAGCGTAGACAAACAAGTCAAGATCGTGACCAAATCTAAAATATTTTTTTCTAAAAAAACTTTAAAGGATTTAGAAAAAAGATTAAGCACCTTTCGTTTTTTTCGCATTCATAAAAGTTATGTTATTAATCTTCATTATGTAAGCAAACTCACTCCATGGTTTAATGGCGCTTATAATTTACAGGTCTTCGGCAGAAATGAATCTTTACCAGTGAGTAGAAATTACGTAAAACCCTTACGCGAACAATTAGAACTTTAA MNRTIKTLIVDDEKLNREELIYLLNNFPNIEIVGQANSGEACIMETMKKKPDLVFLDVEMPEMDGMETAASLKELKHPPLLVFATAYPQFAVQAFRYEAIDYLLKPYDEKHLEQTISRIEKTLFHVEEKEQEVANKLGIENEDGVIYVDPTEILYLQSVDKQVKIVTKSKIFFSKKTLKDLEKRLSTFRFFRIHKSYVINLHYVSKLTPWFNGAYNLQVFGRNESLPVSRNYVKPLREQLEL NA NA NA NA NA AK015_01481 1455 cstA_2 COG1966 Peptide transporter CstA ATGTTTACATTTATAGGAGGAATTATATTATTAATTATAGGTTATTTCACATATGGTAAATTTATTGAAAAAGTTTTTGGAGTTCAACCAGATAGACCAACACCAGCCATTACGAAACAAGATGGCGTGGATTATTTGCCATTAAAACGGAACAAAAATGCCATGATAGAGTTAATTAGTATTGCAGGCGTCGGTCCCATTTTTGGGCCCATCATGGGAGCTTTATATGGACCAGTAGCATTTCTTTGGATCGTTATAGGTTGTATTTTCGCAGGAGCAGTGCACGATTATTTAACAGGGATGATTTCCATTCGTAATGGCGGAGCACATCTACCACAACTGGCCGGAAAGTTTTTAGGAAAATATATGAAACATATTGTTAACATATTTTCCGTTCTGCTTCTACTACTAGTCGGTACCGTTTTTGTTAGTTCTTCCGCTGGCCTAATTTTTGATTTAGTAAATGGATCAATTGCGCTTGTAGCACTTATTGTCATTATCTTTGGATACTATATCCTATCCACGATGTTACCGATCGATAAATTAATTGGGAAGTTGTTCCCGATATTTGGTGCATTTTTACTTATTGGAACATTAGCGTTAGGTATTAGCCTTGTTATCAATCAAGCGCCAATTCCAGAAGTATCTTTAACCAATTTACACCCTGAAAATACACCCATATTTCCGTTATTGTTTCTAGTTATTTCATGTGGTGCTTTATCTGGATTTCATGCAACACAATCACCAATTATTGCTAGAACGACAAAAAATGAAAAAGAAGCAAGAAGTGTCTTTTATGGCATGATGATCGTAGAAGGAATTATTGCTATGGTATGGGCCGCCGCAGCTATGAGTTTATTCGGAGGGACCGTTACTTTAAATGAACTCATTAACACCATCGGAACGGGTGGGATTGTAAGTGAAGTTGGCACGATGATGCTTGGATCCATCTTGGGATCTGTTCTTGTATTATCCATTATTTTTCTTCCACTTTCATCTGGTGACACGGCATTTCGCAGTGCACGCATGATCATTGCTGACTACTTTCATGTATCACAAAAGAAAATTACGAAACGTTTAATCATCGCTCTACCATTATTTTCAATATCCGTTATTTTAACAAATATGGATTTCACCTTGCTTTGGAGATATTTCTCTTGGGCCAATCAATCTTTAGCGGTTATTGCATTATGGGTAGCATCCATGTATTTATTTATTGCCAAAAAGAATTATTTCGTAGCCATGATTCCAGGCATTTTCATGACCTATGTAACTACAGCATACATCCTAAATGCTCCAATTGGATTTAGAATACCAATGAATATAACTTATATACTAAGCGCAATAATCACAATTGGAATAATTGGCTTATTTTATAAATATGCACGGCAAAATGCAAGAAATGGGATGAAAATTGAAGAAAGCGTTGCTGTTTCTCCATCTAAAGCAGCTTAA MFTFIGGIILLIIGYFTYGKFIEKVFGVQPDRPTPAITKQDGVDYLPLKRNKNAMIELISIAGVGPIFGPIMGALYGPVAFLWIVIGCIFAGAVHDYLTGMISIRNGGAHLPQLAGKFLGKYMKHIVNIFSVLLLLLVGTVFVSSSAGLIFDLVNGSIALVALIVIIFGYYILSTMLPIDKLIGKLFPIFGAFLLIGTLALGISLVINQAPIPEVSLTNLHPENTPIFPLLFLVISCGALSGFHATQSPIIARTTKNEKEARSVFYGMMIVEGIIAMVWAAAAMSLFGGTVTLNELINTIGTGGIVSEVGTMMLGSILGSVLVLSIIFLPLSSGDTAFRSARMIIADYFHVSQKKITKRLIIALPLFSISVILTNMDFTLLWRYFSWANQSLAVIALWVASMYLFIAKKNYFVAMIPGIFMTYVTTAYILNAPIGFRIPMNITYILSAIITIGIIGLFYKYARQNARNGMKIEESVAVSPSKAA PGPT0015060_1996 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200 NA NA AK015_01482 381 dhaM COG3412 PTS-dependent dihydroxyacetone kinase, phosphotransferase subunit DhaM ATGAGTTATGTAGGTATTGTGTTGATTTCTCATAGCCATAAAATTGCTGAAGGAGCTAAAGAATTGATTCGTCAAGTGATGAAAGAAGTTCCTATTGAAGTGGCTGGAGGAACGGAGGACAATGAGATAGGTACGAGTATTGAAAAAATTAACAGTGCCATAGAAAAAGCAAATAGCGGAAGCGGCGTACTATTATTTTATGATCTTGGTAGTGCAAAAATGAATGCTGAAATGGCTATGGAAATAGCTGATCAAGAAGACATTAAATTAGTCGAAGCGCCAATTGTAGAAGGAGCATATGTTGCCGCAGTAGAATCGGGTATGGGCAAAAACGTGGATGATGTCTATGAAGCTGTACGCAGTTCTTTCCCTGAAAAATAA MSYVGIVLISHSHKIAEGAKELIRQVMKEVPIEVAGGTEDNEIGTSIEKINSAIEKANSGSGVLLFYDLGSAKMNAEMAMEIADQEDIKLVEAPIVEGAYVAAVESGMGKNVDDVYEAVRSSFPEK PGPT0018450_753 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881 NA NA AK015_01483 627 dhaL COG2376 PTS-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL ATGCAACTAAATGTAATGAATACAGTTCAATGGATGCAACGAGCAAATGAAAAAATGCAAACCAACAAAGATGAATTAACGGCTTTAGATCAGCCTATTGGAGACGGTGACCACGGAATAAATATGGCTAGAGGGTTTCAAGAAGTAGCTTCAAAATTGGAAGAAGCTACTTATACGAATGTATCTGAAGTTTTCAAAGATGTGGCGATGACGTTAATGTCGAAAGTAGGCGGCGCTTCAGGTCCCTTATTTGGAACTGCTTTCCTTAAACTATCAACGAAACTAAAAGGAGAAGAACTTGTAGACCAAACTAGTTTCAGCGCTGCATTAAATGAAGCAGTAAATGGGTTAAAACAACGTGGTAAAGCAGAAGAAGGCGAGAAAACTATGGTTGATATGTGGGCATCAATCGCACATTATTTTACAGATAATGAGCATTCGACACCTGATGGACTCATGGCCAGCGCGGATGCTGCACTTGAAAAAATTAAAGCAATGACCGCAACCAAGGGACGAGCAGCCTATTTTAAAGAAAAAACGATCGGACACCAAGATCCAGGTTCAGCTTCTACTTATTTTATTTTTGAAGCTCTAGCAGAAGTGTGGAAAGGAGATAGTAAAGCATGA MQLNVMNTVQWMQRANEKMQTNKDELTALDQPIGDGDHGINMARGFQEVASKLEEATYTNVSEVFKDVAMTLMSKVGGASGPLFGTAFLKLSTKLKGEELVDQTSFSAALNEAVNGLKQRGKAEEGEKTMVDMWASIAHYFTDNEHSTPDGLMASADAALEKIKAMTATKGRAAYFKEKTIGHQDPGSASTYFIFEALAEVWKGDSKA PGPT0018455_1020 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879 NA NA AK015_01484 996 dhaK COG2376 PTS-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK ATGAAAAAAATTATTAATAATCCAAATGAAGTTGTACAAGATATGGTGCAAGGTCTAGTTGCTGCTTATCCGTCCAAATTAAAAGTAATTCCTGAGACGCTTGTCATCGCTCGTAAAGATGCTCCTGTAGAAGATAAAGTTGGTTTAGTGAGTGGTGGGGGTAGCGGTCATGAACCAGCTCATGCTGGATATATTGGAAAAGGTATGTTAGATTGTGCAGTTGCAGGTGAAGTTTTTACATCGCCAACACCTGACCAGGTATTTGAAGGAATTAAAGCAGCAGACGGAGGAAAAGGCGTCTTTCTCGTTATTAAAAACTATACAGGGGATGTACTTAACTTTGAAATGGCTGCAGAGTTAGCTGAAGCAGAAGGTATTCAAGTAGAAAAAGTAATTGTAAATGATGATGTTGCTGTAGAAGATAGCTCGTTTACAACGGGGAGAAGGGGTATAGCTGGTACCGTACTCGTTCATAAAATAGCTGGGGCTATGGCTGAAAGTGGCGCTTCATTGCAAGAGGTAAAGCGTGTTGCTGATAAGGTTGTAGCCAATGTGCGCTCCATGGGAATGGCGTTAACTTCTGGCACTGTCCCAGCTGCTGGGAAGCCAAGTTTTCAGTTAGATGATAATGAAATGGAGATAGGAATAGGTATTCACGGAGAACCAGGAATTGAACGAAAGCAAATCGCTTCTGCTGATGACATTGCTACAGAATTAGTAGAACGAATTTTCGCTGATATAGACATACCAAAAAGACAAGAAGTAGCTGTAATGATTAATGGTTTAGGTGCTACTCCGGAAATGGAACTATTTATTGTTAATAAAAAGGTGCAAAGCCTGTTAAAAGATAAAGGTATTGAAGTATTTCAAACATTTGTAGGAGAATATATGACATCGTTGGAAATGGCGGGTTGTTCAGTTACTTTGCTAAAGCTAGATGACGAATTAAAATCTTTACTACAAGCTCCGTCTGAAGCACCTGCATTTCGCAATTAG MKKIINNPNEVVQDMVQGLVAAYPSKLKVIPETLVIARKDAPVEDKVGLVSGGGSGHEPAHAGYIGKGMLDCAVAGEVFTSPTPDQVFEGIKAADGGKGVFLVIKNYTGDVLNFEMAAELAEAEGIQVEKVIVNDDVAVEDSSFTTGRRGIAGTVLVHKIAGAMAESGASLQEVKRVADKVVANVRSMGMALTSGTVPAAGKPSFQLDDNEMEIGIGIHGEPGIERKQIASADDIATELVERIFADIDIPKRQEVAVMINGLGATPEMELFIVNKKVQSLLKDKGIEVFQTFVGEYMTSLEMAGCSVTLLKLDDELKSLLQAPSEAPAFRN PGPT0018460_1027 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878 NA NA AK015_01485 1497 glpK COG0554 Glycerol kinase ATGGAAAATAAATATATTTTGTCAATTGATCAAGGTACGACAAGTTCTCGTGCGATTATCTTTAATCAGAAAGGGGAAATTGTCGAGACAGCACAAAGGGAGTTTGAACAATTTTTTCCTCAACCAGGTTGGGTGGAACATGATGCAAATGAAATTTGGACATCTGTACTAGCTTGTATAGCAGATGTATTACGTAAAGCTGATTTAGCAGCGAATCAAATTGCCGGTATTGGAATAACAAACCAACGTGAAACTGCTGTGGTTTGGGATAAAAAAACAGGCAAACCAATTTATCGGGCCATTGTTTGGCAATCTCGTCAAACAGAAAATATTTGTAAGGAACTTAGAGAAGCTGGACACAATGAATTGTTTAGAAAGAAAACAGGATTGCTTCTTGATCCTTATTTTTCCGGTACGAAAGTAAAATGGATTTTGGATAACGTAGAAGGTGCAAGAAAAAAGGCGGAAAATGGAGAATTATTATTTGGTACGATTGATAGCTGGCTCGTTTATAAATTCTCTGCTGGAACCACACATATAACCGATTATACGAATGCATCTCGTACATTGATGTTTAATATCTATGATCTCCAGTGGGATGATGAATTATTAGAAATTTTAACCATCCCGAAAAGCATGCTACCTGAAGTGAAACAATCATCAGAAATATACGCACATACGGTATCCTATCATTTCTTTGGTGAAGAAGTCCCAATTGCAGGTATCGCTGGAGACCAGCAGGCAGCATTATTCGGGCAAGCGTGCTTTGAAAAAGGAATGGTAAAAAACACGTACGGTACAGGTTGCTTTATGCTTATGCACACAGGTGAAGAGGGTGTAGCTTCTGACCATGGCTTATTAACTACGTTGGCTTGTGCAGTAGACGGTAAAGTAGAGTATGCATTAGAAGGCAGTATCTTTGTGGCTGGCTCTGCTATTCAATGGCTTCGAGATGGGTTAAAACTCATTGAAGATTCTCCGGAAAGTGAGCTGTTTGCCAAAAATGTTCCAAACACGGATGGCGTATATATGGTCCCAGCCTTTGTAGGTTTAGGCACACCTTATTGGGATAGCGATGCTAGAGGAGCTGTATTTGGGCTAACTCGTGGAACAACAAAAAGTCATTTCATACGTGCAACACTAGAATCTTTAGCGTATCAATCTAAAGACGTTATTAATGCCATGGTTGCTGATTCACAATTAGATTTAAAAACGTTACGTGTGGATGGAGGAGCCGTTAAAAATGATTTGTTAATGCAATTTCAAAGTGATATTTTGGATGAAGTACCTGTTGAACGTCCTGTCATTCAGGAAACGACAGCATTAGGCTCTGCATATTTAGCTGGTTTAGCGTTAGGTTATTGGAAAGACAAAGATGAAATAGCCCGTCAATGGGAAGTAGAAAAAACGTTTCATGGAAACATGGGCAAACAAGAACGTGAAAAATTATATGCTGGCTGGCAAAAGGCTGTAGAAGCGACAAGAGTTTTTAAATAA MENKYILSIDQGTTSSRAIIFNQKGEIVETAQREFEQFFPQPGWVEHDANEIWTSVLACIADVLRKADLAANQIAGIGITNQRETAVVWDKKTGKPIYRAIVWQSRQTENICKELREAGHNELFRKKTGLLLDPYFSGTKVKWILDNVEGARKKAENGELLFGTIDSWLVYKFSAGTTHITDYTNASRTLMFNIYDLQWDDELLEILTIPKSMLPEVKQSSEIYAHTVSYHFFGEEVPIAGIAGDQQAALFGQACFEKGMVKNTYGTGCFMLMHTGEEGVASDHGLLTTLACAVDGKVEYALEGSIFVAGSAIQWLRDGLKLIEDSPESELFAKNVPNTDGVYMVPAFVGLGTPYWDSDARGAVFGLTRGTTKSHFIRATLESLAYQSKDVINAMVADSQLDLKTLRVDGGAVKNDLLMQFQSDILDEVPVERPVIQETTALGSAYLAGLALGYWKDKDEIARQWEVEKTFHGNMGKQEREKLYAGWQKAVEATRVFK PGPT0018435_3962 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864 NA NA AK015_01486 834 glpF COG0580 Glycerol uptake facilitator protein ATGGTGGCTGAATCAGAATTTTTAGCTGAATTAATTGGTACGATGATTCTCATTATTCTTGGTGGTGGTGTTGTTGGTGGTGTGACTTTAAAGTCATCCAAAGCGGAAGGATCTGGGTGGGTCGTTATTACGATTGCCTGGGGATTGGCAGTTGCCTTTGGGGTTTATGCAGTCGGGAACTACTCTCCTGCACACATTAACCCTGCTGTTACGATAGGTTTCGCATCTATTGGAGAATTCCCATGGTCTAAAGTACCGATGTATGTAACGGCGCAAATCATAGGGGCAATTATTGGTGCGGCGGTCGTTTTTATTAATTATTTACCCCATTGGAGAAAAACAAAGGATCAAGCTACGAAGCTAGGCGTTTTTGCTACTGGACCAGCAATTCGCAGTCCGCTTGCAAACTTATTGAGTGAAATGGTTGGTACATTTGTGCTCGTTTTAGGGCTTTTGTTTATTGGAGCAAATGAATTTACAGAAGGTTTAAATCCGATTATAGTTGGGGTATTGATTATAGCAATAGGTATGTCATTAGGTGGGGCAACGGGTTACGCTATTAACCCTGCTCGTGACTTAGGACCACGTATTGCTCATGCCTTACTTCCGATTCCGGGGAAAGGTTCTTCCGATTGGGAATATGCTTGGGTTCCGATCGTAGGTCCAATCTTAGGTGGAATATATGGAGCATTTTTTTACGATGCACTATTTATCGGTGAATTCACTGCTGTTTTCTGGATATTAAGTGTTGTTATTGCATTACTTATAATAGGGGCAGTTAGCATGGAGACGAAGGGAGAGCGTTCTGCTAAAATAAATAATCATAACGCTTAG MVAESEFLAELIGTMILIILGGGVVGGVTLKSSKAEGSGWVVITIAWGLAVAFGVYAVGNYSPAHINPAVTIGFASIGEFPWSKVPMYVTAQIIGAIIGAAVVFINYLPHWRKTKDQATKLGVFATGPAIRSPLANLLSEMVGTFVLVLGLLFIGANEFTEGLNPIIVGVLIIAIGMSLGGATGYAINPARDLGPRIAHALLPIPGKGSSDWEYAWVPIVGPILGGIYGAFFYDALFIGEFTAVFWILSVVIALLIIGAVSMETKGERSAKINNHNA PGPT0004760_634 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440 NA NA AK015_01487 2367 acyII Penicillin acylase 2 proenzyme ATGGAGGAAAAGACCATAAAACAAACAAGAAAGAAAACGAAATTAACAATCATTATTATTGGAATGATAACACTCATTTTAGTAATCGCTTTCTTTGTTGTTACTGTTTACTTGGATCGCTTGGTTGAAAAAACAGAGGGAAGCATTCAGCTTTCCGTTTTAAAGCAGAAGGTGGACGTGATCACGGATGCTAATGCCGTGCCAAAGATACAGGCGCAAAATGAACATGATTTATATGCAGCACAAGGGTATGTCCAAGCACAATATCGGTTATTTCAAATGGAAATGTCCCGCAGACAGGCATCCGGTACGATCAGTGAGGTAGCAGGCGAGGCAGCTGTTGATCAAGATAAATATTTTCGTACATTAGGACTAAGAAGAGCAGCTGAGAAATCTTACGACCTTTACAGCGATGAAGCAAAAGAAGTATTAGAGGCGTTTGCCAAAGGGGTCAATGCCTATATGCAACAAGCGAAGGAAGATAATACGCTACCAATTGAATTTAAATTAATGGGCTTTGAACCAGAAAAATGGACACCACTAGACTCATTAACTATTGGTAAATACATGGCATTTGATTTGGGTGGTCACTGGGAGCAGCAAGCGTTCAATTACTATTTACTACAACAATTTGGAGAAGAAAAAGCATACGAGTTATTTCCATCTTATCCTCAAGAAAAGCCTGTTATTATGAAAGAAAAATATGTTTCTGTAAAAGATAAACTATCTCAAGCAATTATTCCGCCAGCATTTAATGGGAGCAATAATTGGGTCGTTTCTGGTGAGAAAACAGCTTCTGGATTCCCTATGTTAGCAAATGATCCACATTTGGGCTTAGCGACTCCATCTATCTGGATTCAAATGCAGTTGCAAACCGAAACGCAACAAGTAAGCGGTGTTATTTTTGCAGGAGTTCCAGGAATTATATTAGGTCATAATGAACAAATTGCGTGGGGAGTAACCAACACAGGACCAGATGTGCAACAATTATACCTTGAAAAAAGAAAGCCTTATTCTAAAGCGACGTTTTTATTTGAAGGGGAGTGGGAAAAAGCAAGTATTATTCAGGAACCGATTGCTGTGAAAGACGGAGCAACGATTGATTATGAAGTAGTCGAAACAAGGCATGGTCCTGTTATCTCCGAATTTGTTGAAGATAGTGGGGAGGAAAATGTTCTGTCACTCAAGTGGACTGCATTAGAAGCAACGACGGAATTGGAGGCTATTTTACAAATAAATAAAGCGAAGAACTGGGAATCCTTTGAAAAGGGATTGGAAAAGTTCTTAGCCCCCGCACAAAATTTTGTCTTTGCTTCTAAAAGCGGAACAATAGCTTATAAGGCAAATGGAAATATTCCAGTTTATGAAAACGGAAAAGATGCCTTGCTCCCACTTCCAGGTTGGCAAAGAGAAAATGAATGGCGTGGCTATATTCCGTTTGATGAGCTTCCTATAATGATTAATCCAGAAAAAGGTTATATTGCGACTGCTAACAACAAAATAACGACAGAAGATTATCCGTACCATATAAGTAATGTATGGGCGCAACCGTATCGCTATGAACGCATTGCAGAAGTATTAGAGAGTGTGGAGGAAATAACAGTTCAAGGCATGCAGGATTTACAAATGGATAGCTTTAACATGCAAGCAAAAGAACTTACACCTTCATTTTTACAATTATTAGAAGGGGGAAAACTATCCAAACAAGCTACAGAAGCACTCTGTCTTTTAGATGAATGGGATTATAAGGATGATGCTTCTGCTAGTCAGCCATTACTATTTCATCATTGGCACAAAAATATTGAAAAGACCATTTATCAAGAAATACCAGATTCCATGTTAGATCTATTTAAAGGGAAGGGACAGTCGACAGATACTTTATTAAGAAAAGCAATTAAAGGAGAACCGTCTGCATGGTTAGAAACTTATGGAGGTTTACAACAAGTTTTATTGGATTCATTACAACAGTCTATTACGGAGTTAGAAGAAAAATATGGGGAGACTATATCAGAGTGGAAATGGGGAGATTACCATCGCGTCTACTTTGAACACCCTCTTTCCAACGTTCATCCTGTTTTAGAGTATATTTTTAATCAAGAAGGTCCTATTCTAGTAGATGGAAGCAGTGTAACGCCAATGGCTGCAAGTTTTGAAGAAGAAACAGGGATTGTAGATCATGGTGCTTCTTGGCGGTTTGTAATAGATATGGCAACCCCATCAAAAGGCTACCATATCGTTTCACCTGGACAATCAGGTCACGTGAAAAGTCGGTGGTATCAGGATCAATTACCAGATTGGGTGAAGGGGAATTATCATACAACCTATTTGGATAGTATGACAGGAGAGCAATTGACACTGTACCCGTAA MEEKTIKQTRKKTKLTIIIIGMITLILVIAFFVVTVYLDRLVEKTEGSIQLSVLKQKVDVITDANAVPKIQAQNEHDLYAAQGYVQAQYRLFQMEMSRRQASGTISEVAGEAAVDQDKYFRTLGLRRAAEKSYDLYSDEAKEVLEAFAKGVNAYMQQAKEDNTLPIEFKLMGFEPEKWTPLDSLTIGKYMAFDLGGHWEQQAFNYYLLQQFGEEKAYELFPSYPQEKPVIMKEKYVSVKDKLSQAIIPPAFNGSNNWVVSGEKTASGFPMLANDPHLGLATPSIWIQMQLQTETQQVSGVIFAGVPGIILGHNEQIAWGVTNTGPDVQQLYLEKRKPYSKATFLFEGEWEKASIIQEPIAVKDGATIDYEVVETRHGPVISEFVEDSGEENVLSLKWTALEATTELEAILQINKAKNWESFEKGLEKFLAPAQNFVFASKSGTIAYKANGNIPVYENGKDALLPLPGWQRENEWRGYIPFDELPIMINPEKGYIATANNKITTEDYPYHISNVWAQPYRYERIAEVLESVEEITVQGMQDLQMDSFNMQAKELTPSFLQLLEGGKLSKQATEALCLLDEWDYKDDASASQPLLFHHWHKNIEKTIYQEIPDSMLDLFKGKGQSTDTLLRKAIKGEPSAWLETYGGLQQVLLDSLQQSITELEEKYGETISEWKWGDYHRVYFEHPLSNVHPVLEYIFNQEGPILVDGSSVTPMAASFEEETGIVDHGASWRFVIDMATPSKGYHIVSPGQSGHVKSRWYQDQLPDWVKGNYHTTYLDSMTGEQLTLYP PGPT0028075_1376 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028075-pac-K01434 NA NA AK015_01488 288 hypothetical protein TTGAGTATTCTGTTGGATTTATTTGATATTGTACGTTATTTTTATGAATCAAGGCGTGTGGAAGAAAAAGATATTGAAAAAAATATCCGTTACCTAAAGCAACAACAGTGGTTTCAAAACTACTTAAAACATCCAGAAATATATAAAGTAATTGTTTATGATAGAGATGTGCGTGAATGGATCGGAAAATTAAAGTACAAGAAGCTAAACCATCCATCTTATGTAGAAAAAGTACGTAAAAAAATAGGTAAGTTACTATCAAAAAAGATAGATATTGTTATTCATTAA MSILLDLFDIVRYFYESRRVEEKDIEKNIRYLKQQQWFQNYLKHPEIYKVIVYDRDVREWIGKLKYKKLNHPSYVEKVRKKIGKLLSKKIDIVIH NA NA NA NA NA AK015_01489 1848 asnO COG0367 Asparagine synthetase [glutamine-hydrolyzing] 3 TTGTGTGGAATAGTAGGTTATGTGGATTTTAATAGAGATGTGCGGGCAAAGGAAAAAATGCTTGAACAGATGACAGACACATTGCTACATCGTGGACCGGACGAAACGAATACATGGATGAATCAACATGTTGCTTTTGGGCATCAGCGGCTTTCAGTTATTGATATTGAAGGTGGAAAGCAACCAATGCACAAAGCGAAAAACCGTCATACTTATACGCTTATATATAATGGTGAACTATATAATACGGATGAACTACGTAGCGATTTAAGGCAGAAAAACTATCATTTTGAAACGACATCTGATACCGAAGTGTTGCTTACTGCTTACTTGGAATGGCAAGAACAATGCGTCGATTATTTAAATGGAATATTTGCATTTGCAATTTGGGATGAAGAAAAAGAACAACTGTTTATAGCTCGAGATCGCTTGGGGGTTAAACCGTTATTTTTTCAAGAAAAAAATGGGCAGTTTATCTTTGGCTCCGAACTAAAAGCTATCCTAGCTCACGAAGAAGTAAAAGCGGAAATTGATCGTTCTGGTTTAGCAGAAATATTTGGTCTTGGTCCGTCTAGGACACCAGGACATGGCCTATTTAAAAATATGCATGAGCTTCGGTCAGGTCATGCATTAACTTTTTCAAAAAATGGTCTCAAGAAATGGCGCTATTGGAATGTAAACAGTTGTCATCATACAGATTCCATGTCCGAAACAATAAGTAAAGTAAGAGAGCTATGTATTGATGCAGTGCAACGGCAGCTCGTTTCTGATGTTCCTATATCCACTTTTTTATCTGGTGGTTTAGATTCGAGTGCTATCACAGCAATTGCCTCGCAATATTTTCAGGAACGAAGAAAAGGGTCTCTCACTACTTTTTCTGTAGATTATAAAGGTAATGCAGATTATTTTAAGGCAAGCAAATTTCAACCGTCCATGGATCAGCCATTTATTGAGGAGATGGCAACCGTTTTTCAAACGAATCACCATAATGAAGTGATCTCTGGGGAAGCATTAGCAAGCCATTTAAAAAAGGCTGTAGAATTACGAGATCAGCCTGGAATGGCGGATATAGATTCGTCATTACTCTGGTTCTGTCAACAGATTAAAAAGCAAACGACAGTGAGCTTATCAGGAGAATGTGCCGATGAAATATTTGGAGGATATCCATGGTTTCATTCCCCACCGACGGATGAAGAAACAGGTTTTCCATGGATGCGATCTTTGTCATCACGTATTGATTTACTTCATCCTCACTGGCAGGAGAAGTTACAGCTCTCAGAATATGTGTATGCGCGTTATCAGGAAACAATCGATGAAACACCACGCCTTGATGGAGAAAAAGAGGAGGATGCACGTAGAAGAGAGCTGTTTTATTTAAATATGCATTGGTTTATGGCTCAGTTATTGGATCGAAAAGATCGGATGAGTATGGGAGCGAGTTTAGAAGTTCGTGTGCCTTATGCGGATCATCGTTTAGTAGAGTACGTGTGGAATATACCATGGGAAATGAAGATACTTGAAGGGAAAGAAAAAGGTATTTTACGAAAAGCAATGGAAGGCATTCTACCAGAGACTATCCTTTACCGTAAAAAAAGCCCTTTTCCAAAAACATTTCAACCAGCGTATACAAATGCAGTGAAAAAATGGATGCGGGAAATAGTAGACGATGAGGGTGCTCGATTATTTGAGTTCTTAAATAAGGAAAAAGTAGAGGCTATTTTAGTAAGCGAGGGGAAAGAATTTAAAGAACCGTGGTATGGACAATTAATGCAAGGCCCGCAACTCATTGCTCATCTTTGCCAGATAGATTACTGGTTGAGAACGTATGATGTCAAGGTGGTGGAGTAA MCGIVGYVDFNRDVRAKEKMLEQMTDTLLHRGPDETNTWMNQHVAFGHQRLSVIDIEGGKQPMHKAKNRHTYTLIYNGELYNTDELRSDLRQKNYHFETTSDTEVLLTAYLEWQEQCVDYLNGIFAFAIWDEEKEQLFIARDRLGVKPLFFQEKNGQFIFGSELKAILAHEEVKAEIDRSGLAEIFGLGPSRTPGHGLFKNMHELRSGHALTFSKNGLKKWRYWNVNSCHHTDSMSETISKVRELCIDAVQRQLVSDVPISTFLSGGLDSSAITAIASQYFQERRKGSLTTFSVDYKGNADYFKASKFQPSMDQPFIEEMATVFQTNHHNEVISGEALASHLKKAVELRDQPGMADIDSSLLWFCQQIKKQTTVSLSGECADEIFGGYPWFHSPPTDEETGFPWMRSLSSRIDLLHPHWQEKLQLSEYVYARYQETIDETPRLDGEKEEDARRRELFYLNMHWFMAQLLDRKDRMSMGASLEVRVPYADHRLVEYVWNIPWEMKILEGKEKGILRKAMEGILPETILYRKKSPFPKTFQPAYTNAVKKWMREIVDDEGARLFEFLNKEKVEAILVSEGKEFKEPWYGQLMQGPQLIAHLCQIDYWLRTYDVKVVE PGPT0020150_2920 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953 NA NA AK015_01490 1818 appA_4 Oligopeptide-binding protein AppA ATGAAAGGAAGTCGTTGGCGTATTTTATTATACGCACTCTTGCTAGGTTTAGTACTTACACTGGCTGCCTGTGGCGGAGATGACGAGAGTAAGTCAGATAAATCGGGCGATAAGAAGTCTGGAAAAGATGGAGATCAAATTTACTCGATTGAAGATTTTAATGTAGAAACGAAAAATGAAGGCGAAGCGATGGATGGCGGGCACTTGAAATTTGGTGTCGTCACAGATACAGCTTTCGAAGGGCTGTTAAATTTTAACTTCTACTCAGGAGCTTATGATGTTGAGTTTATTAAATGGTTTGATGAATCTTTATTATCTGCGGATGAAACGCATAATTTCACCCAAGATGGTGCTGCCACATTTGAAGTAGATGATAGTGGTAAGGTGTTTACGTTTACGATTCGTGATAATGTAAATTGGCATGATGGGGAGCCTGTAACTGCTGAAGACTGGGCATATGCTTATGAAGTTATCGGTCACCCTGATTATCCTGGTGTTCGTTATGGCGATGATTTTACAGTTATTGAAGGTATGGAGGAATATCATAACGGAAAAGCTGATTCTATTTCTGGTATTGAAGTGGTAGATGAGAAAACGATGAAAATTACGTACAAAGAAGCATCCCCTTCTTTATTAAGCGGTGGAATTTGGTCTTACGCTTTACCAAAGCATGTTTTTCAAGATATCCCTATAGCGGAAATGGAAAAGTCTGACGCTGTCAGAAAAGAACCAATCGGCATGGGACCATATAAAGTAAAAAGTATTACACCAGGAGAAGCTGTCGTATACACAAAAAATGAAGATTATTGGCAAGGTGAACCAAAGTTAGATGAAGTTACAGTTAAAGTCGTGAATCCGAAAACAGTTGTACAAGCTTTAGAATCGGGAGAAGTAGATACGGTTCATGAATTTCCTACAGATCAATATCCAGACAATGCGGATATGTCTAATGTAGAATTTATAGGGAATGTGGACATGGCTTATTCTTATATCGGCTTCAAATTAGGAACTTGGGATAAAGAGAAGAAAGAAGTAAAACCGGATCCAAATAAGAAAATGGCGGATGTGAATTTACGTAAAGCAATGGGACACGCCATTGATAATGAAGCTGTAGGGAAGCAATTTTACAATGGCTTACGCTGGAATGCGACAACATTAATTCCACCATCACATCCAGATTTCCATGATCAAGACAATCCTGGAATCGAATATAATCCAGAACAAGCAAAGAAACTGTTAGATGAAGCAGGATATAAGGATACCGATGGAGACGGAATGCGTGAAAATCCTGATGGCGAAGAATTGGTGATTAATTTTGCTTCTATGTCTGGTGGAGAAACGGCTGAACCAGTTGCAAATTACTACATTCAATCTTGGAAAAAAGTTGGATTAAATGTACAACTATTAGATGGTCGTTTACAAGAGTTTAATTCATTCTATGATCGAATTGGACAAAGTGGTGACGATGATCCGAAAGTCGATGTATATGCAGCAGGATGGGGTGTGGCAACAGATGTCAACCCAGCAGGATTATATGGACGTGACGCTCTGTTTAACTTCTCTCGCTATGCAAGTGAAGAAAATGATCAACTTCTAGAGCAAGGTGTCTCTAAAGATGCTATGGATTTAGAGTACCGTCAGAAAGTGTATAAAGAATGGCAAGAATTAATGGTCGAAGAAGTTCCGGTCATTCCTACCAATTATCGCGCAAAATTAGTTCCTGTGAATAAGCGCGTATTGAATTACTCTGTAGCACATAACTGGGGTAATTACTATGAAATTGCGGTAACGCAAGAAGAACCAGTAAAAGCTGAATAA MKGSRWRILLYALLLGLVLTLAACGGDDESKSDKSGDKKSGKDGDQIYSIEDFNVETKNEGEAMDGGHLKFGVVTDTAFEGLLNFNFYSGAYDVEFIKWFDESLLSADETHNFTQDGAATFEVDDSGKVFTFTIRDNVNWHDGEPVTAEDWAYAYEVIGHPDYPGVRYGDDFTVIEGMEEYHNGKADSISGIEVVDEKTMKITYKEASPSLLSGGIWSYALPKHVFQDIPIAEMEKSDAVRKEPIGMGPYKVKSITPGEAVVYTKNEDYWQGEPKLDEVTVKVVNPKTVVQALESGEVDTVHEFPTDQYPDNADMSNVEFIGNVDMAYSYIGFKLGTWDKEKKEVKPDPNKKMADVNLRKAMGHAIDNEAVGKQFYNGLRWNATTLIPPSHPDFHDQDNPGIEYNPEQAKKLLDEAGYKDTDGDGMRENPDGEELVINFASMSGGETAEPVANYYIQSWKKVGLNVQLLDGRLQEFNSFYDRIGQSGDDDPKVDVYAAGWGVATDVNPAGLYGRDALFNFSRYASEENDQLLEQGVSKDAMDLEYRQKVYKEWQELMVEEVPVIPTNYRAKLVPVNKRVLNYSVAHNWGNYYEIAVTQEEPVKAE PGPT0004430_1861 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 AK015_01491 903 dppC_2 COG1173 Dipeptide transport system permease protein DppC ATGGAATATTCAAATGTAGAAGTAGTAGAGGTAGAACAAGAAAAAGCTCCTTCTATGGCGAAAGTAATTTGGCGAGAAATTGTGCGAGATAAAGTAGCGCTTATATCTTTTATTTTTCTTATTGTTATTACAAGCCTTGTTTACGGAGTATCTTTATTTTTGAATCAAGATGAAATTGTTAAAGTAGATTTATTTGCTATTAATCAGCCACCGTCTAGTGAGTTTTTGCTAGGAACGGATTATGGGGGCAGAGATATTTTTGGACAGCTTATTATTGGGACGCGCAACTCCTTATCAATAGGTATCTTAGTGACGCTTATGACAGGGATTATCGGTATTACTTACGGGCTTGTATCTGGTTATTTTGGTGGAACAGTCGATAACATTATGATGCGTATTGTTGATTTCTTTTTAATTTTGCCATTTTTAATGATCGTTATTGTATTTGTTGCGATTGTGCCTAAATATAGTATATGGTCTTTCTCATTGATAATGACTGCATTTCTCTGGATGGGGATTGCTCGGTTAATTCGTTCAAAGGCGTTACAAGAGCGGGAACTTGATTATGCACAGGCCTCCAAAACGCTAGGAACGCCGAACTGGAAGATTATGTTTTTTCAAGTTTTACCGAATTTAAGTTCGTTAATTATTGTGACGATGACGTTAAACTTGGCTGCGAATATCGGTTTAGAGTCTGGGTTGTCCTTTTTAGGATTCGGTTTTCCAGAAGATACTCCAAGTCTTGGAACATTACTTGGTTATGCAAGAAACCCACAAACTCTAGAATTAAGATGGTGGATTTGGGTGCCAGCAGCGATTATGGTTTTCTTATTAATGTTAGCTGTCCGAAATGTTGGCGAAGCATTGAAGCGTGCTACAGATGCAAGACAGCGCAGAGGTTAA MEYSNVEVVEVEQEKAPSMAKVIWREIVRDKVALISFIFLIVITSLVYGVSLFLNQDEIVKVDLFAINQPPSSEFLLGTDYGGRDIFGQLIIGTRNSLSIGILVTLMTGIIGITYGLVSGYFGGTVDNIMMRIVDFFLILPFLMIVIVFVAIVPKYSIWSFSLIMTAFLWMGIARLIRSKALQERELDYAQASKTLGTPNWKIMFFQVLPNLSSLIIVTMTLNLAANIGLESGLSFLGFGFPEDTPSLGTLLGYARNPQTLELRWWIWVPAAIMVFLLMLAVRNVGEALKRATDARQRRG PGPT0004450_7624 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 AK015_01492 963 gsiC_5 COG0601 Glutathione transport system permease protein GsiC ATGTGGAAATTTATTGTTAGACGACTGTTAATTACGATGCCACAAGTTGTTTTGCTAAGTATATTAGTATTCATTATGGCACAACTAATGCCAGGGGATGCGTTGTCTGGTTTAATCGATCCAAATATTGATCCGTCAGCGATTGAAGAGCAACGAGAGAAACTCGGGCTAAATGATCCATGGTACGTGCAATATAAAGATTGGGTGACATCAGCCATTCAAGGCGACTTAGGACAATCTTTTCGCTTTAAGATGCCTGTCTCTGAGTTAATCGGCCAGCGCCTTGTAAACACATTCTGGTTATCCTTAGCGACGTTAATCATTACATATCTCATCGCCATCCCATTAGGTATTACGAGTGGACGTTACAATGATACATTGCGAGATCAATTAATTAATGGTTACACGTATATTGGTTTTGCCACGCCATTATTTATCTTTGCCTTAGTAATGTTATGGGCGTTTGGTTATGGTTTAGGTTGGTTCCCAACTGGTGGAAGTGTAGATCCAGGATTAGAACCAGGCTCATTTGCGTATATTATGAGTAAAGTTAATCACTTATTACTACCAGCCATATCGATGGCATTAATTACTACTGTAAATACGGTGCAGTATTTGCGTAGTGAAATCATTGATACAAAACAGAAAGACTTTGTCATTACGGCAAGAGCAAAAGGTGCTTCTGAATCACGCGTTTATCGTCGACATATTTTCCGCAATTCCTTATTACCAATTGCTGCTTATTTCGGTTTTGAAATTACGGGACTTATTGGCGGGACCGTTTTTATTGAAACAATTTTCAGCTATCCAGGTATGGGATTGTTATTTATGGAATCTGTGCTGCAAAGGGATTATAGTGTCGTAACATCTGTTGTCTTGTTATTTGGAATCGCATCTATTTTAGGCGCCTTATTATCAGATATTATTTTAAGTCTCGTAGATCCGCGTATTCGAATTAAATAA MWKFIVRRLLITMPQVVLLSILVFIMAQLMPGDALSGLIDPNIDPSAIEEQREKLGLNDPWYVQYKDWVTSAIQGDLGQSFRFKMPVSELIGQRLVNTFWLSLATLIITYLIAIPLGITSGRYNDTLRDQLINGYTYIGFATPLFIFALVMLWAFGYGLGWFPTGGSVDPGLEPGSFAYIMSKVNHLLLPAISMALITTVNTVQYLRSEIIDTKQKDFVITARAKGASESRVYRRHIFRNSLLPIAAYFGFEITGLIGGTVFIETIFSYPGMGLLFMESVLQRDYSVVTSVVLLFGIASILGALLSDIILSLVDPRIRIK PGPT0004445_8568 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 AK015_01493 933 oppF_6 COG4608 Oligopeptide transport ATP-binding protein OppF ATGGCACTTCTTGAAGTAAACGATTTAAAGGTGCATTTTCCCATTCGAGGGGGAATCTTAAATCGTAAAATAGGTGCAATAAAGGCTGTTGATGGCGTGTCTTTTTCCATTGAAAGAGGAAAAACGTATGGTCTTGTAGGAGAGTCTGGTTCTGGAAAAACAACAACCGGAAAAGCGATTATCGGTTTAAATCATATTACTTCAGGAACGGTGAAGTTTGATGGTGTAGATTTAGCAGGCTTTAAATCCAAAAAGTCTGATATTCGTAAAGATATTCAAATGATTTTCCAAGATCCTTATTCTTCATTAAATGGCAGAAAACGAGTACTTGATATTGTTGCAGAGCCGTTGCGAAACTTTGAAAACTTAACGAAAACAGAAGAAAAAAAACGCGTACAAGAATTGCTTGAACAAGTAGGGTTAAGCCCTGAAAGTATTTTAAAATACCCGCATCAATTCTCCGGTGGACAACGGCAACGGATCGGTATTGCAAGAGCAATCGCCTTAAAGCCTAAATTAATTATTGCCGATGAGCCTGTTTCTGCATTAGATGTTTCGGTTCAGGCACAAGTCCTTAACTTTATGCAAGATATTCAAAAGGATTTAAATTTGACGTACTTATTTATAAGCCACGATTTAGGCATTGTAAAGCATATGTGTGATGAGATTGGCATTATGTATAAAGGACGTTACGTGGAAGCGGGTACGAAAGCGGATATTTTTAATCATCCACAACATATTTATACGAAACGCTTAGTAGCAGCTATCCCAGATATTAATCCAGTTAACCGTCAACAGCAAAAAGTATACCGCGAAGAAGTAGAGAAAGAGTATCAGCAAAATTATAATGATTATTTTGATCAAGAAGGTCTAGCGTATACATTACGCCATATATCTGACTCCCATTTAGTAGCTTTACCGCAGAAAGGTTGA MALLEVNDLKVHFPIRGGILNRKIGAIKAVDGVSFSIERGKTYGLVGESGSGKTTTGKAIIGLNHITSGTVKFDGVDLAGFKSKKSDIRKDIQMIFQDPYSSLNGRKRVLDIVAEPLRNFENLTKTEEKKRVQELLEQVGLSPESILKYPHQFSGGQRQRIGIARAIALKPKLIIADEPVSALDVSVQAQVLNFMQDIQKDLNLTYLFISHDLGIVKHMCDEIGIMYKGRYVEAGTKADIFNHPQHIYTKRLVAAIPDINPVNRQQQKVYREEVEKEYQQNYNDYFDQEGLAYTLRHISDSHLVALPQKG PGPT0004440_8547 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 AK015_01494 1020 oppD_5 COG0444 Oligopeptide transport ATP-binding protein OppD ATGAGTAATAGCATTTTGGAAATTAAAAATCTTAAAACATCGTTTCGTATTAATGATGACTATTATGCCGCTGTGGATGATGTTTCTTTATCTGTTAATAAGAATGAAACATTAGCGATTGTTGGTGAATCAGGCTCTGGAAAAAGCGCCTTAGCATTTTCTATTATGGGATTACATACAAAAGCCAAAATAGATGGAAGCATTCAATTTAAAGGTGAAGATATTGTTCATTTATCAGCTGGGAAATTAAACAAGCTACGAGGCAATGATATGGCGATGATTTTTCAAGACCCGTTAACAGCGTTAAATCCGTTGATGACGGTAGAAGATCAGATCGCGGAAGCTTTATTATTACATAATCGACAACTATCGAAAACAAAACGAAAAGAGCGGGTTATTCACTTGTTAAATCAAGTTGGCATCCCTCGTCCAGAGTACACCTGTGAACAGTACCCACATCAATTATCTGGTGGAATGAGGCAACGAGTGATGATTGCCATTGCTATTGCTAATAAGCCAGAACTACTCATTGCTGATGAGCCTACTACAGCGCTTGATGTAACGATTCAAGCCCAAATACTTGGTTTAATGAATGATTTAAAAGAACAAATGAATACAGGTGTTATTTTAATTACCCATGATTTAGGTGTTGTCGCTGAAATGGCGGATCGTGTAGCCGTTATGTATGCAGGGCAAATTGTAGAGATTGCGGATGTTTATACGTTGTTTCAAAAGCCGCTTCATCCATACACGAGATCCCTTTTAAATTCCATTCCGGCTGAAGATAGTGTGCATGACAAACTCCACGTGATTCAAGGAATTGTTCCATCCTTGCAAAATCTTCCGCGAGAAGGGTGTCGATTTAAAGCACGAATTCCGTGGATTAGTGAGGATGCACATGAAGAAAATCCTGAGCTACATGAGATAACACCAGGGCATTTCGTTCGTTGTACCTGTTATCAGCAATTTTATTTTCCGGAAGAAAAGGTAGAGGGGGAATCAAGTCATGGCACTTCTTGA MSNSILEIKNLKTSFRINDDYYAAVDDVSLSVNKNETLAIVGESGSGKSALAFSIMGLHTKAKIDGSIQFKGEDIVHLSAGKLNKLRGNDMAMIFQDPLTALNPLMTVEDQIAEALLLHNRQLSKTKRKERVIHLLNQVGIPRPEYTCEQYPHQLSGGMRQRVMIAIAIANKPELLIADEPTTALDVTIQAQILGLMNDLKEQMNTGVILITHDLGVVAEMADRVAVMYAGQIVEIADVYTLFQKPLHPYTRSLLNSIPAEDSVHDKLHVIQGIVPSLQNLPREGCRFKARIPWISEDAHEENPELHEITPGHFVRCTCYQQFYFPEEKVEGESSHGTS PGPT0004435_8442 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 AK015_01495 1569 hypothetical protein ATGGCGAAACGCTTATTTCTGTCGTTGTTGTTCGGTTTATTGCTATTGTCCACTCCATCTTATGCTATTGCACAATCGCAAAGTTTGTCGGAAGCCAAACAGCTTCATGAAGGAACAAAAGGGTCTGCAATGGGGAAGGGAGATAACGGAAATGATGAAACGCCAGGGGAATGGTTTGTAGGAGAGACGCCAACTAATCCAATACCTGACGCCCCTTTGCTTTTATTTGTGCCTGGTTTAAACAATGTGGCACAAGTATTTTGGGAGGATGGTGGATTGTATGAAGCTGCTTTTGAAGCGGGATATGAAACGGCTTTTATCCAGCTTCATGATGCAGGTGGCGCTTCTGCCGATATGTGGGATAATGGAAAATTGCTCGCTGAAAAAATTACGGAAATTTCAGATCAATTCCAAGGGAAGCCAATTACGATTATTGCGTACAGTAAAGGTGGCGTTGATGCGCAAGCTGCGGCAACTTATTACGGAGCTTGGCAATATATAGATCGTATTATTACTCTATCTAGTCCGCATCATGGATCCGAACTAGCGGACTTGGCTAATAGTAGTTGGGCTGGTTGGCTAGCTGAATTACTCGGGATGCGAGGTGAAGGAACATCTGCGGTTGAGACCGGATATATGGAACATTTTCGTTCTTTGACAGATGAAGAAACCTATGCCTATGTAAATGATTATTACACTTTAGGTGGTACGGATTGGGGATCGGTATTTTCATCGACATGGTTTGGAGGAATGTATTTATCCAGTTACGGTGATAATGATGGCGTGGTAACAACTGTGAGCAGTCGTCTGCCTAAAGGAGAAGAAGTTGCAATTGGGGATTGGAACCATACTTCTATCCGAAGTAATCGTATCTTTCCTATCATACAAGACGATGTGTTGCAGGGGAATAACCCGAGTCGGGATTATTTGATTTATAAGGAACAAATCTCAAAGACTGCAAAAACAGAGCAATATGTACACGGCGATGCATTAAGGAATAACAAAGCTGAAAAGCATCTATTTCCAATCGAAGACGCTATTGACAAGGTAAATATACAGTTGTACACAGCTAATCCACTCCAACGTGTAGAACTTATTGATCCGAATGGAAAAGTTTATGACGATGTGCAAGTGACGCAGCAGGAGGGTGGTTTTTTCGCTGGAGCGACGGGGTATCACATACAAATCAATCAACCTTCAGCTGGAGAATGGTCATTAAAAATGCGTAGTGAGAAGAAAAACGCCTATTTATTGCATGGTCAATATGATAAAGCAATTCAAAAGCAAATTCTATCAGAGACACAAGATCGTGGAAGCGATAGCAAATGGAAAACGAATAAAAAGCAGGTGAAGGAAGAGAGTATAGAAGTACACTATACAATTGTGGAATCAGGACAGCAAATTCCTGTAGTGACTGCCACGTCGAAAGGCTTACCTCTATTATCAAAAGAATTTTCGCAGTTAAAAAAGAATCGAAGCTACAATATTACGATGGATATAAAAGGCGAGACAATTTCTGGATCGCCTTTCAAACGGACAGTGGTTGATTCTGTTTATCTATCTGAATAA MAKRLFLSLLFGLLLLSTPSYAIAQSQSLSEAKQLHEGTKGSAMGKGDNGNDETPGEWFVGETPTNPIPDAPLLLFVPGLNNVAQVFWEDGGLYEAAFEAGYETAFIQLHDAGGASADMWDNGKLLAEKITEISDQFQGKPITIIAYSKGGVDAQAAATYYGAWQYIDRIITLSSPHHGSELADLANSSWAGWLAELLGMRGEGTSAVETGYMEHFRSLTDEETYAYVNDYYTLGGTDWGSVFSSTWFGGMYLSSYGDNDGVVTTVSSRLPKGEEVAIGDWNHTSIRSNRIFPIIQDDVLQGNNPSRDYLIYKEQISKTAKTEQYVHGDALRNNKAEKHLFPIEDAIDKVNIQLYTANPLQRVELIDPNGKVYDDVQVTQQEGGFFAGATGYHIQINQPSAGEWSLKMRSEKKNAYLLHGQYDKAIQKQILSETQDRGSDSKWKTNKKQVKEESIEVHYTIVESGQQIPVVTATSKGLPLLSKEFSQLKKNRSYNITMDIKGETISGSPFKRTVVDSVYLSE NA NA NA NA NA AK015_01496 216 hypothetical protein ATGACTTTCGTGAAATTAAACAATCGTGTAAAAGAACTACGAGCGCGATTTGATTTAACGCAAGAGCAACTCGCCAAAAAAGTAGGCGTAACCAGACAGACCATTGCTGCTATTGAAAAAGGCGATTATGTACCATCCTTACTTTTGGCATTAAACATATGCAAAGTGTTCCATCTTCCTATGGAAGAAACTTTTTGGTTATTGGAGGACGATTAA MTFVKLNNRVKELRARFDLTQEQLAKKVGVTRQTIAAIEKGDYVPSLLLALNICKVFHLPMEETFWLLEDD PGPT0014635_261 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK015_01497 468 hypothetical protein ATGAGATTAAAATGGGTGTTCTTTATTAACGTATTGTTATTGTTGCTAGCTGCTTGGGGATTTATTCCTATTTATTCATTTGGAATGCAAGTAGCCAATGCGATTAAAGGTGAGAGCACAGGAGAATGGATTAATATTACACCGACGATCATTTTTTTATTCATCTTTTTAGGGGTTGGGGTCTTGATGTACAGACATAATGCAAAGAAACATAAGCGTATGCTATTGAAATTATTCATGCCTGCAGAGTTTTCTGAACAAGATGAACGTGAAAAAATGATTAACGCTCACGCTTGTCGTAAAGTTTATCTTTTCATGCCATTGATTTTTGGGATAATCCTTTTTTTAATGGGCTTGTATCCATTCATAGCTGACACGTTTCCTTCTTATCCGATGTTACTTTTATTCATCTATCCAATTGCGCAAATTACAATCTATTATTTATCTGTACCAAGTTTTAACTACTAG MRLKWVFFINVLLLLLAAWGFIPIYSFGMQVANAIKGESTGEWINITPTIIFLFIFLGVGVLMYRHNAKKHKRMLLKLFMPAEFSEQDEREKMINAHACRKVYLFMPLIFGIILFLMGLYPFIADTFPSYPMLLLFIYPIAQITIYYLSVPSFNY NA NA NA NA NA AK015_01498 810 hypothetical protein TTGTTACAAGAAATGTATAAACGAAGAGAAAAAATGGGGTATATATTTTTAGCTGTATTTATCGTTGTAGTTCTTGGGTATATATTGATTTGGACGCCAACAGGAGCCAAACAGTGGGGAGAAGTATCCATTTTAGGTTTACCCGTTTTATTTTTAATAATAATAATTATTCGAAGCAGAATAAGCTATCAGAAATTAAAAGACGTAGAAATAGACTTTTCCAAAACATCCATTTTACAACTTGATCACGTTGTCCTTAAAAAGGATGCCAGTTTGTTACCACGGTTATTATGTTTTGAAAAAAACGGCAGGTATGTTGGCGCTTTTCAACTTATGCACGTTTCGTTCTGGTGCTATCCTTTGCTCATTTATAATAGTTCGTTCATAAATTGGCTGCCAGTAAAGTTTGCGTTTATCTCTAACACTGGAGAATTGGTATTTAAGTTGAAGCGAAAAGGCATGAAGAAAACGGAAGTTGCGTATTACGATGCAAGTGACAATTATATCGGGTCTTATATTCAGGAAGATTTTAAAAGTGTCTTGCGACTAAAAGGGAAGCTCTTTGATGAGGAAGGAAAGCAAATGCTTTTTATTGATGGATCTACTATGACTGGTGATTTCACATGGATCGATGAACATCATCATCGCTGGGCCTATTTTTATAATGGAAGGTTTCCGCATGAGTATACTACTTTGTTTCACGACTTAGATAATGATATTGTCGAGGTCTCTGATAAGTTATCTCAACAGTATAAGCAATTGCTGTTCGGGGTAATTGGATTCTTATTTATTCAGAGAACGAACAAATAA MLQEMYKRREKMGYIFLAVFIVVVLGYILIWTPTGAKQWGEVSILGLPVLFLIIIIIRSRISYQKLKDVEIDFSKTSILQLDHVVLKKDASLLPRLLCFEKNGRYVGAFQLMHVSFWCYPLLIYNSSFINWLPVKFAFISNTGELVFKLKRKGMKKTEVAYYDASDNYIGSYIQEDFKSVLRLKGKLFDEEGKQMLFIDGSTMTGDFTWIDEHHHRWAYFYNGRFPHEYTTLFHDLDNDIVEVSDKLSQQYKQLLFGVIGFLFIQRTNK NA NA NA NA NA AK015_01499 285 hypothetical protein TTGCAATGGGTTTTAGAAATAGCAAGTTTTATTGTCATCATATGCCTTTTATATAAACGAATAAACGATATAGAAGATATATCCCTTATGCATGTGGTATATATTGTTTTGTCATTTATCATTATTTCAGTTCTATCTGCTATTATTTTTTATTATCCTGGTAGTTGGCTTGTGAATAAGATTAGTAATAGCTTCTTACGTATCGTTACGACGTATGCGATCGTTATTATTGTCACTTCAATTGGACGTTGGTTATGGACGAAAACATTTGCTGAAAATCGTTGA MQWVLEIASFIVIICLLYKRINDIEDISLMHVVYIVLSFIIISVLSAIIFYYPGSWLVNKISNSFLRIVTTYAIVIIVTSIGRWLWTKTFAENR NA NA NA NA NA AK015_01500 1482 galT_1 Galactose-1-phosphate uridylyltransferase ATGGTGTATCCCTATTTAGCAGGACTTATTGAAAAAGCAGGTACCACAGAAATGATTGCACAAGCTGACAAAGTATATGCTAAGAACCAAATTATGAATTTATTGCAATTAGAGGCATATCCAGATGGAGTAGTACCAGCAAGAGATACTTCCATCCCAAATTTAGTAGAGCATTTGATTGAATATGCATTGGAGCATGAAATTATTCGCAACGTTTTAAGTGAAAAGGAAATACTGACGGCTCATATCATGAATTGTCTTATCGCGCGCCCTTCAGAAATTAACCAGACATTTTATGAAAAATATAAGCAATCACCAATAGAAGCTACGAATTACTTTTATGCTTTATCAAAAAATAGTAACTATATTCAAATGAATCGAATTGCGAAAAACATAAGCTATAAGGTGGACACGGCTTATGGGACGATGGATATTACGATTAATTTATCCAAACCGGAAAAAGATCCAGAGCAAATGAAGCTAGAGCGGGAAAATGTTAAAAATGTGACGTATCCGAAATGTCTATTATGTATAGAGAATGAAGGCTATGCTGGGCGAATAGATCATCCAGCTCGGGCAAATCACCGCATGATAAGAGTACCTTTACATGACGAGATGTGGTTTTTTCAATATTCTCCGTACGTATATTATAATGAGCATAGTATATTACTAGCTGGAGAACATCGGAATATGAAAATCGATCAGCAAACATTCAAACGGCTCTTAGCATTTATAGATATATTCCCGCATTATTTTATTGGCTCCAATGCAGATTTACCAATCGTTGGTGGATCTATCTTAAGTCATGATCATTATCAGGCAGGGAAGTATGAATTTGCTATGACGAATGCGAAAGAAGCATTTTCCTTTTCGTGGAGAAAGTATCCAAGATTGCATTGTGCTGTCCTACATTGGCCATTATCCGTTATTCGTTTAGTGGGAAGCAATAGTACTGATTTAGTAGAAGCAGCAGATGACATTTTAGCCTCATGGAAAGATTATTCGGATGAATCAGCGGATATTCAAGCTTTTACGGAGCAAACGCCGCATAATACCATTACGCCAATTGCTAGAAAACGTAAGGACAAATATGAATTAGATCTTGTCTTGCGGAATAACCGAACGACAGAACAGTATCCTCAAGGTATTTTTCATCCGCATGCAGATGTACATCATATTAAAAAAGAAAATATTGGATTAATAGAAGTGATGGGCTTAGCTGTATTGCCAGCCCGTTTGAAGCAAGAATTAGCTGAAATAGAGAGCTATTTATTACATGGACAGCAGCAAGTAGCGGAGCATCATAGCGTTTGGGCAGACAACTTAAAAAAGCAGTATCCAGATGTACAAACTACAGAAGAAGCAAGAGAAATTGTGCGTAAAGAAGTCGGTAATACGTTCGTACGTATTTTACAAGATGCAGGAGTGTTTAAAGACAATCAATCTTTTCATCGATTTCTGCAAGTGTTTATTAATGAATAA MVYPYLAGLIEKAGTTEMIAQADKVYAKNQIMNLLQLEAYPDGVVPARDTSIPNLVEHLIEYALEHEIIRNVLSEKEILTAHIMNCLIARPSEINQTFYEKYKQSPIEATNYFYALSKNSNYIQMNRIAKNISYKVDTAYGTMDITINLSKPEKDPEQMKLERENVKNVTYPKCLLCIENEGYAGRIDHPARANHRMIRVPLHDEMWFFQYSPYVYYNEHSILLAGEHRNMKIDQQTFKRLLAFIDIFPHYFIGSNADLPIVGGSILSHDHYQAGKYEFAMTNAKEAFSFSWRKYPRLHCAVLHWPLSVIRLVGSNSTDLVEAADDILASWKDYSDESADIQAFTEQTPHNTITPIARKRKDKYELDLVLRNNRTTEQYPQGIFHPHADVHHIKKENIGLIEVMGLAVLPARLKQELAEIESYLLHGQQQVAEHHSVWADNLKKQYPDVQTTEEAREIVRKEVGNTFVRILQDAGVFKDNQSFHRFLQVFINE PGPT0017835_499 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965 NA NA AK015_01501 906 glcK_1 COG1940 Glucokinase ATGAAATACAGCATTGGGATTGACATTGGCGGAACAAAAGTGGCGGCAGGAATTGTAAATGAATATGGCAATTTAATTCAACAGGTAAAAGTGAGCAGTGATCTTACAAATAAGGAAACGATGTTTGCTAAAGTTGTGCAATGTGTAGAACAGCTGCTAGACCATTCTAGTATTCCAAAACATGAAATATATGGCATTGGCGCAGGTGTCCCGGGGAAGGTAGATCGTGAGCGAGGGATTGCTGTTTATCAGAATAATTTACCCTGGGATAACTTTCCATTTATGGAACGACTCCAAAAAGCAATCGGTATTGACAAAATTGCCATTGATAATGATGTGTATATGGCTGCGTTTGCAGAGTGGAAAAAAGCGGAAATGGCTAATCAAGAATTGCTTGTTTATATCACAATTAGTACTGGTATTTCCTGTTCTATTATTCAAGATGGTGAATTTATTCGTGGTGCTGGTTTTGCTGGGGAATTAGGTTTAATTCCAGTTTATTCTAAATTAAACAGCGAAGCCTTACAAAGATTGGAAAATGCTGCTTCAGGACCAGCAATGCAACTACAGGCAAGAAAGATATATGCAGATGATCAGGTCATAACGAAAGATATTTTTGCTAACTATTTGACAGGTGATGAAGAAGCACAGCAGTTGATAGAAGAAATGGTATTTGTTCTAACACAGGGTGTCTATACTGTCAGTAGTTTGTTAGATCCAAATAAAATTGTTTTTGGAGGAAGTGTAGTTACCCATAATCCTTGGTTATTAGAGCTAATCAAAGTAAAACTCCAAACGTATTTGCTTGCTGAACAAATCCATATCCTAGAAAATATGGAGATTAGTAAGCTGAACAATCACCAAGGCATTATTGGTGCAGGGTTAAGAGCGTGTGTGCTTTCCTAG MKYSIGIDIGGTKVAAGIVNEYGNLIQQVKVSSDLTNKETMFAKVVQCVEQLLDHSSIPKHEIYGIGAGVPGKVDRERGIAVYQNNLPWDNFPFMERLQKAIGIDKIAIDNDVYMAAFAEWKKAEMANQELLVYITISTGISCSIIQDGEFIRGAGFAGELGLIPVYSKLNSEALQRLENAASGPAMQLQARKIYADDQVITKDIFANYLTGDEEAQQLIEEMVFVLTQGVYTVSSLLDPNKIVFGGSVVTHNPWLLELIKVKLQTYLLAEQIHILENMEISKLNNHQGIIGAGLRACVLS NA NA NA NA NA AK015_01502 168 hypothetical protein ATGAAGGATAAAATTTTTGTAGTTGTCAAGGTTGTTTTCTTTCTATTTTGTCTGTTTCTCATATTTTATGGACAACAAACCGTTGGCAAATTTGAACTATTTCTTCAACTTATTGGCTTAACAGGTCTTTTATTTTTACTATGGAACTATAATCGGAAATTTGTATAA MKDKIFVVVKVVFFLFCLFLIFYGQQTVGKFELFLQLIGLTGLLFLLWNYNRKFV NA NA NA NA NA AK015_01503 2163 1,3-beta-galactosyl-N-acetylhexosamine phosphorylase ATGAAAAAAACAACAGGAAGAGTTACATTACCAAGTCAGCAACATTTTTTACAAGAGACGAAGGAATTGATGGAGCGCTGGGGTGCAGATGCACTGCGAGATAGCGATGGAACGAAGTTGGATGATGAGATCAAACAATTAGATGCGAAAATTTATACGACGTATTTTGTGGCTCGAAATCATAATGATTTTGCTAAACAGCATCCAGAGGAAATGCAGCAACTATATTTAATGTCGCCCTATTATACAGCAACAGAAACCACGTTGGAAATTCCGTTTTTAAAGGGTTATTTTGAGGAACAAATAACGCCGGATTATATTCATGATCCAAAGCGTTGGTGGGAAGTAATCGACCGAACAACAGGTGAGGTTGTTTCACCAGACTATTGGCAAGTAGATGAAGCAACGAATTGTGTAACGATGAAACAAGTTGAACAGTGGCATGAATATACGGTTTCTTTTTTAGCATATATGAAATGGGATCCGACGCAAATGTATAATCATATAACAAATGATTGGGGAGATACACCACATGATATCCCGTTTGATGTCCGTCAACCTCATTCTAACCAGTATGTAAAAGCATATTTACAACAATGGTTAAAGGAAAATCCAGATACAGACGTTGTTCGCTTTACGACCTTTTTCTATCATTTCACACTCATTTTTAATGATTTAGGTAAGGAGAAGTTTGTGGATTGGTTTGGCTACGGTGCGAGTGTTTCCGTTGCAGCACTTGAAGCGTTTGAAAAAGAGAAAGGCTACCGTTTAAGGCCAGAAGATATTGTGGACAAAGGCTATTACAACACGACTTTTCGTATTCCTTCGCAAGCGTATTTAGATTATATTGATTTTATTCAGCAGTTCGTTGCAAAGGAAGTGAAGGAATTAGTTGATATCGTTCATGAGCATGATAAAGAAACGATGATGTTTTTAGGCGATAATTGGATTGGAACAGAACCTTATGGTAGTTATTTTCCATCTGTCGGCATGGACGCCGTTGTTGGTAGCGTTGGTGATGGAACGACGTTACGAATTATTTCTGATATTCCAGGTGTGAAATATACGGAAGGAAGATTTTTACCTTATTTCTTTCCTGACACATTCTATGAAGGCAATGATCCGGTTATTGAAGCAAACGAAAATTGGTTAACAGCAAGAAGAGCGTTAATGCGCAAACCTTTAGATAGAATTGGTTATGGCGGTTATTTAAGTTTAGCATATAAGTTTCCTAAATTTGTTGATTACGTGGAGAAGGTTACAAATGAATTTCGAGAAATTTATGATAATATTCACGGAATTCAACCGTATACAGGTCTAAAAGTAGCCGTTTTAAATGCATGGGGGAAATTGCGAACATGGCAAACGCATATTGTTGCCCACGGAAAATGGTATAAAAAAGCGTATTCTTATCATGGTGTATTAGAAGCATTAAGTGGATCAGCAGTGGACGTATCTTTTATTAGTTTTGACGATGTAATCGCAAAAGGGGTACCAGAAGATATAGATGTGATTATTAATGTAGGTGATGCAGGGACTGCGTTTTCTGGCGGCGAGAAATGGAAAAATCCTCAATTAATTTCCATTCTTCGTAAATGGATATATGAGGGGGGCGGTTTCGTTGGTATAGGAGAACCAACTGCTTATCATCATGAAGGGCGCTATTTTCAGCTTGCTAATGTTTTTGGATTAGATAAAGAATTAGGCTTTAGCTTATCGACGAATAAATATTTTACAGAAGTAATCGAGAATCATTTTATTGCTGAAGATATGACTGCATTTGATTTTGGTGAAAGCATGGAGTATATCTTTGCATTAAACGAGGCGACAGAAATTATCGAATATTCTAATGATGGTGTTCATCTTGCTAGCTCCGGTTTTGGAAAGGGGAGAGCCGTATATATCGCAGGTTTACCGTATAGTCATGAGAATACGAGATTATTATTACGTGCCATGTATTATGCAGCTCATAAAGAAGAAGAAATGAGAAAATGGTTTGCTTCAAATGTGCACTGTGAAGTACATGCATACCCAGAAGTGAAAAAATATGCCATTATTAATAACTCTACCGAAAAACAAGTTACCAATGTTTATGATGGCGATGGAAACAAACGTCAAGTTGAGTTAGAAGCAAGCGAAATCATATGGGAGGACTACACATGA MKKTTGRVTLPSQQHFLQETKELMERWGADALRDSDGTKLDDEIKQLDAKIYTTYFVARNHNDFAKQHPEEMQQLYLMSPYYTATETTLEIPFLKGYFEEQITPDYIHDPKRWWEVIDRTTGEVVSPDYWQVDEATNCVTMKQVEQWHEYTVSFLAYMKWDPTQMYNHITNDWGDTPHDIPFDVRQPHSNQYVKAYLQQWLKENPDTDVVRFTTFFYHFTLIFNDLGKEKFVDWFGYGASVSVAALEAFEKEKGYRLRPEDIVDKGYYNTTFRIPSQAYLDYIDFIQQFVAKEVKELVDIVHEHDKETMMFLGDNWIGTEPYGSYFPSVGMDAVVGSVGDGTTLRIISDIPGVKYTEGRFLPYFFPDTFYEGNDPVIEANENWLTARRALMRKPLDRIGYGGYLSLAYKFPKFVDYVEKVTNEFREIYDNIHGIQPYTGLKVAVLNAWGKLRTWQTHIVAHGKWYKKAYSYHGVLEALSGSAVDVSFISFDDVIAKGVPEDIDVIINVGDAGTAFSGGEKWKNPQLISILRKWIYEGGGFVGIGEPTAYHHEGRYFQLANVFGLDKELGFSLSTNKYFTEVIENHFIAEDMTAFDFGESMEYIFALNEATEIIEYSNDGVHLASSGFGKGRAVYIAGLPYSHENTRLLLRAMYYAAHKEEEMRKWFASNVHCEVHAYPEVKKYAIINNSTEKQVTNVYDGDGNKRQVELEASEIIWEDYT PGPT0024575_92 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS CE-REMODELLING_PHOSPHORYLASE_ACTIVITY,PGPT0024575-gnpA-K15533 NA NA AK015_01504 882 ngcG COG0395 Diacetylchitobiose uptake system permease protein NgcG ATGAAAAATTCTGAGAAATTGAGTTTAGACGGTTTAATGCGATTATTTATTTATGTGGCGTTAATCACATTAGCGGTTTCCATTATTGTACCTGTCGCATGGGTGTTTTTAGCATCAATCAAGCAAAATAAAGAGTTTTATGGAAGCCCTTGGGCACTTCCGGATGGTATTCATTTAGCTAACTTTGTAGAAGCGTTCCAAGGAGCGCAGATGGGTGAATATCTATTAAACTCTGTACTTGTTACAGCGATGGCTTTAATCATTTTATTAGTTGTAGCACTGCCAGCGGCATACGTATTGTCTAGATTTGAATTTAGAGGAAATCGTTTCATTAATGGCATGGTAAAAGCAGGCTTGTTCATTAATGTTAGTTATATTGCAGTGCCGATTTTCCTAATGCTCTTAGATTGGGATACAGGTTTAAGAACAATTGTAGGAAGTGAGCTTTTACTGAATAATCGATTTATGTTGGCGCTCATTTATGCTTCAACAGCTTTACCATTTACGATTTATTTATTATCAAGTTATTTTAAAACATTACCTTCTGATTTTGAAGAAGCAGCAAGTATAGATGGTGCAGGGTACTATAGGACAATGTTTTCGGTCATGTTTCCTATGGCGGCACCGAGTATCGTGATTGTTATCTTATTTAATTTCTTATTATTTTGGAATGAGTATATATTAGCGCTAACGCTAATGCCGGCAGAAAATCAAACGTTGCCAGTTGGCTTGTTGAATTTAATGGCTGCAGAACGTTCAGCAGTGAATTACGGACCGATGTATGCAGGTATGGTAATCGTCATGCTTCCTACATTAATTCTATATATTTTGGTTCAAAAACGTTTAACACAAGGAATGACAGTTGGTGGAGTGAAAGGTTAG MKNSEKLSLDGLMRLFIYVALITLAVSIIVPVAWVFLASIKQNKEFYGSPWALPDGIHLANFVEAFQGAQMGEYLLNSVLVTAMALIILLVVALPAAYVLSRFEFRGNRFINGMVKAGLFINVSYIAVPIFLMLLDWDTGLRTIVGSELLLNNRFMLALIYASTALPFTIYLLSSYFKTLPSDFEEAASIDGAGYYRTMFSVMFPMAAPSIVIVILFNFLLFWNEYILALTLMPAENQTLPVGLLNLMAAERSAVNYGPMYAGMVIVMLPTLILYILVQKRLTQGMTVGGVKG PGPT0016425_195 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016425-ngcG|ABC_NGC_P1-K10202 NA NA AK015_01505 891 ngcF COG1175 Diacetylchitobiose uptake system permease protein NgcF ATGAGCAAAACGAGGTCACGTAATCTATTTATTGGCTTATGCGTTTCGCCAGCTTTGATTTTATTAATGGTCTTTATGTTTATGCCAACATTCGAGGTGTTTCGGATGTCGCTTTACCGTTGGGGTGGTTTTTCTAACACGCAACAGTTCGTTGGCTTAGATAATTTTAAGCTACTTTGGAATGATATGACGTTTATTCGTTCTTTTCAAAATTCCATCTTCTTAATCGTTGTCGTCGCGATTGTTACATTTTCGTTTGCCGTCTTTTTTGCGGCAATTTTAACGAAAGAAAACGTAAAGGGTGGAAATTTCTTTCGGATTATTTTCTACATCCCAAATATTTTATCCATTGTTGTTATTGCGGGGATATTTTCAGCCGTTTATGACCCTTCAAGTGGTCTATTAAATAGCATTCTAGGTATATTCAGCTTAGAGAATCTACAACAAATGTGGTTGGGGGATCAAAAGGTCGTTATTTATAGTTTGGCTGCAGCTCTTATATGGCAGGCCATTGGTTATTATATGGTGATGTATATGTCAAGTATGGCAGGTATCCCACCAAGTTTTTATGAAGCAGCTTCTTTAGAAGGGGCAAGTAAACTAAAACAGTTTACGAGTATTACATTACCTCTAGTATGGAATAACATTCGTACAACGCTAACCTTCTTTATTATAAGTACGATTAATTTGAGCTTTTTATTAGTAAAAGCGATGACAGGCGGAGGACCTGATGGGTCAACAGAAGTATTTCTTTCTTACATGTATGATCAAGCGTATGGAAACTCTACCTTCGGCTACGGAATGGCTATTGGGGTTATTGTGTTTCTGTTCTCCTTCTTATTAGCAGCGATTGTTAGCAGGATAACAAAGCGCGATGTATTGGAGTATTAA MSKTRSRNLFIGLCVSPALILLMVFMFMPTFEVFRMSLYRWGGFSNTQQFVGLDNFKLLWNDMTFIRSFQNSIFLIVVVAIVTFSFAVFFAAILTKENVKGGNFFRIIFYIPNILSIVVIAGIFSAVYDPSSGLLNSILGIFSLENLQQMWLGDQKVVIYSLAAALIWQAIGYYMVMYMSSMAGIPPSFYEAASLEGASKLKQFTSITLPLVWNNIRTTLTFFIISTINLSFLLVKAMTGGGPDGSTEVFLSYMYDQAYGNSTFGYGMAIGVIVFLFSFLLAAIVSRITKRDVLEY PGPT0016420_251 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016420-ngcF|ABC_NGC_P-K10201 NA NA AK015_01506 1350 ngcE Diacetylchitobiose binding protein NgcE ATGAAAAAAATGAAGTTTTTATTAACTGTTTCTATCATTCTCGTTATTTTTACTTTAGCAGCATGTTCCAATGGAGAAGAGAAGGAAGAAAAATCAGCAGATAAAGAAGGTAGCGGCGAGAAAACAACATTAAAAGTAGCTGCATTAGAATCTGCATATGGTACGGAAATGTGGGAAAATGTTGTGAAGTCTTACGAAGAAGTAAATCCAGATGTAGAGGTTGATCTGCAAATGGAAAAGAACTTGGAAGAAGTTGTACGACCAAATATGCAAGCCGGGGATTACCCAGATGTGTTATTACTAGCTACAAACAGAGAAGAAGCTTTAACGGAAACCTTGATTAAAGAAGATGGTGTAGAAAACATTACAGATGTTTTTGATATGCAAGTACCTGGAGAAGAAACAAAAGTAAATGAAAAACTTTTAGAAGGTTTTACAGATACACTAGCTACTAACCCATACGCTGATGGAGAAACTTATTTAGCGCCAATGTTCTACAGTCCAACTGGCTTATTCTACAATGCAGGTTTATTTGAAGAAAAAGGTTGGGAAGTGCCGAAAACTTGGGATGAGATGTGGGAATTAGGAGATAAAGCAAAAGAAGAAGGTATTTCATTATTTACGTATCCAACGAGCAACTACTTTGATACGTTACTTGGATCCATGCTATATGCTGCAGGTGGAGCAGATTTCTACAGCTCTGCTATGACCTATGAAGATGGCATTTGGGAATCCGAGGAAGCAACTAAAGCATTAGAAACCGTCGAAAAACTAGCAGACTATGTACATCCGAATACAGTAGCAAATGCTAATCCAAATGATTTTACGAAAAACCAGCAATTAGTCTTAGATAATAAAGCTTTATTTATGCCAAATGGTAACTGGGTTGTCGATGAAATGAAGGAAGCACCACGTGCTGAAAACTTTGCTTGGGGTATGACTTCTATCCCTGCCTTTGAAGATGATGGTGACCGTTATGCATTTACTTTCTTCGAGCAAATTTGGATTCCAAAAGATGCAAAGAATAAAGATGTAGCGAAAGATTTTATTGCGTATATGTATTCAGACGAAGCAGCAGATACATTCTTAGAAGCAGGAGCAGTACAGCCAATTGAAGGTATTACCGAACAATTAGATGGCCAAAAACAAACTTTCTATAGTATTTATGACGAGGAAGGTGTGCTGCCAGCTATGGGAACTTTTGCTTCTACAAAACCAGTTCCTGGGGCGAATATGGGTGATACTTTATACGGAAGTATTGATAGTGTCATTAGTGGCGATATGACATTTAAAGAATGGCAAGAGAAAATAGAAGAAGTAAGTGATAAGCTTAGACCAGCTTTAAATTAA MKKMKFLLTVSIILVIFTLAACSNGEEKEEKSADKEGSGEKTTLKVAALESAYGTEMWENVVKSYEEVNPDVEVDLQMEKNLEEVVRPNMQAGDYPDVLLLATNREEALTETLIKEDGVENITDVFDMQVPGEETKVNEKLLEGFTDTLATNPYADGETYLAPMFYSPTGLFYNAGLFEEKGWEVPKTWDEMWELGDKAKEEGISLFTYPTSNYFDTLLGSMLYAAGGADFYSSAMTYEDGIWESEEATKALETVEKLADYVHPNTVANANPNDFTKNQQLVLDNKALFMPNGNWVVDEMKEAPRAENFAWGMTSIPAFEDDGDRYAFTFFEQIWIPKDAKNKDVAKDFIAYMYSDEAADTFLEAGAVQPIEGITEQLDGQKQTFYSIYDEEGVLPAMGTFASTKPVPGANMGDTLYGSIDSVISGDMTFKEWQEKIEEVSDKLRPALN PGPT0016415_273 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016415-ngcE|ABC_NGC_S-K10200 NA NA AK015_01507 837 rhaR_2 HTH-type transcriptional activator RhaR ATGTCCTATGAGGTGTACCAAATGAAAGGTGCAAAGCATGAAAAGCCACCGTTCAAACTTCTATATATTACTCATTCCGAATATGATAAAGGCTGGCATAGCACGCAACACACCCATCATTTTTCCGAATTATTCTATATTGTCAAAGGTAAAGGCTCATTTATACTTGCTGACCGAGAAGTTCCCATTAAAGAAAATGATTTAGTCATTATTAATCCGAATGTGGAACATACAGAAAAGTCTAATTGGGATGATTCCCTTGAATATATTGCTTTAGGGATAGAGGGATTGTTTTTCAGCCAAGCGGATAATAAAGACCCACACTCTAGCTTATACCGTTTTCAAGTAGATCGAACTAACATTCTTTTCTACTTGAACCGAATATTAGAGGAAATACAGGAGCATAAAGAAGGACATGAATTAATTTGTCAAAACATTATCGAGATAATGATTATCAAGTTACAAAGAGACAAAAAGCTTACCATCAATCAAACGGAGTCACCAAATATTAATAAAGCTTCTGCCTTTGTCATGTACTATATAAATCAAAACTACCGTGATGACTTAAACTTAAATAAATTAGCTGAGATCGGCCATATTAATAAATATTATTTAGCACATACATTTAAAAAAGATATGGGTATATCACCAATTGAGTATTTAAACAGAGTCCGAATTAAAGAAGCAAAGCTCATGCTCGAAACAACCGATTACTCTATTGCGCACATCGCTGCTTTTACTGGTTTTTCATCCCAATCTTTTTTCACACAAGCATTCAAGCGCTTAGCAAAGCAAACGCCTTCTAAATACCGGAAGGAAATGAGAGCGAATTCATAA MSYEVYQMKGAKHEKPPFKLLYITHSEYDKGWHSTQHTHHFSELFYIVKGKGSFILADREVPIKENDLVIINPNVEHTEKSNWDDSLEYIALGIEGLFFSQADNKDPHSSLYRFQVDRTNILFYLNRILEEIQEHKEGHELICQNIIEIMIIKLQRDKKLTINQTESPNINKASAFVMYYINQNYRDDLNLNKLAEIGHINKYYLAHTFKKDMGISPIEYLNRVRIKEAKLMLETTDYSIAHIAAFTGFSSQSFFTQAFKRLAKQTPSKYRKEMRANS NA NA NA NA NA AK015_01508 3852 Endo-alpha-N-acetylgalactosaminidase TTGAGTAAAAGCTTGCAAAAAAGACTAGCCATTTTTCTTACTGTACTGATGCTCGTATCGACAGGAATAATAACAAGTATGTCTCCATCTCGTGTTGCGGCTGAAGAGTCTGATGCTAACTTAGATGTAAAGGATTCAAAAGTACAAGTGGAGAAGCAATCAAAAGCTGAAAAAAAATCAGAATCTGTCCATATTACTGATTCCAAACTGGAAGATGGCGATTTTGAAGTTTTACAAGGAGATGGGACGCTAAAGTATAACAACGATGGTTCCGTTACGTACGGTGTAACATCTCATGGAAAGAACAAAATTGTCTATCGTAACATGCCTAAAATAAAGAATGGAGTTTTTGAGGCGGATATTACAGCAGATTCGGATTTAAAGCGTTTTGGCTTTATTTACCGAGTTCAAGACAATTCTGCTTATACGTATGTTGGAACCGGAGATAGTAATAATCAGTATTTTGGGGAAATCTTTGGTCCGACAAATAAGTGGACTTCCATGACAAATAGTGTGGCGTTAGAGGCAAATAAAACTTATAAGCTTCGGGTTAAATTTATGGATGACACTGCAAGCCTATATATTAATGGTGACAAGATAGGTGCTTGGACACAAGCAGAAGGTGTTGATTCACCAGGGTTGCTCGGTTTGGAAAAGAGCCGAGGTGAAGCAAATATAAACATTTCGAATGTGAAAATAAAAGAATATGTACCACCAACACCACCAAGTAAAGATCCTATATTAGAAACGTTAAGCTCTGATTATATGGATGTAACCGTTGATCAAGTCTATCCTCGAGTAGTGGAATATGATGTAGACGGGAAAATGATGTATGGACAAGAAACGCCGGTATATGGATTAAAGGTGAATAACATGCTTTACTATCCAGAAGTGGCATTTGAAAAGGTAAATGATCAGGAAGCGATCTATTCATTACATGTAAAAGATGAATATGAAAATATAGACGTGCATGTGAAGCTTTCATTAAAAGTAGATGGCAACCAAGTCGTTTACCAAATACAGAAAGTAGATTCGAAAACAGATGTTCAAATAGAAACAATAGAATTTGTTGATTTAAATTTTATTTCGGTGCATGATGCGCAAAAAGGTGCCGAAGCCAAGCTTACTAATTTGAGCAGTGATGTTAAGAAGCCGGGAGATACTACTGTAAAAGTGGATGCTACGCTGAAGGATATCGGCGCAAAAAAAGGCTATTATACGGCATTTTTATCCACCAATGAACTTAGCGCAGGCGTATGGTCAAGCTCAGAAGTAAACGGTTATCGAAATCTTGTAGCAAGCCGTTATGAAAATGAAAACGGTAATAAAGTAATGGGAATTGGTTCAAATGCTTTATATTATCACCGTGATTTTATGAATCAGCCTGCTTCTAATACCCCTACCGTTAAAGTTGTTATTGCAGAAGATATAAATGACGATGGGCAAGTTGATTGGCAGGATGCAGCCATTGAATACCGAGATTTACTGCCAAAAGTAGAAGGTGCTGAGACGGTAAACAATACAGTAGGAACACGAATTGCTATGAACTTTGGCTCTCATGCGCAACAGCCCTTTTTGAAAACGCTTGATAATGTGAAAAAGGTTGCTTTAGCAACGGATGGACTAGGACAAGCAGTTCTCTTAAAAGGATACGCCAATGAAGGACATGATAGTGGACATCCAGATTATGGCGATGTTGGGGAACGTATTGGTGGTATAAAAGATATAAACGCATTAATTAGAGAAGGAAACAAATATAACGCAGAATTTGGTGTGCATATTAATGCTCAGGAAGCTTATCCGGAAGCAAAATCATTTAGTGAAGAATTAATAAATGGACCAGAAGCAAAAGGATGGGGTTGGTTAGATCAGTCTTACACCATCGATAAGTTAAAAGATTTATATACTGGTTCGCGTGCGAAACGCTTGGATGAACTGAAGGCAAATGTACCAAATTTAGATTTTATTTATTTAGATGTATGGTATCAAGATCAATGGGAATCTAATCGTGTAGCAGAGCAATTTGCTGATCGAGGCTGGAGAATGACAACGGAATTTGGCACAGCTATTGCTAATTATTCCACATGGCAGCATTGGGCTACTGATAAAAATTATGGTGGACCAACTGATAAAGGGATTAATTCGGAAGTGCTTCGTTTTATTAGCAATCACCAAAGAGACTCATGGGTGCTGAATTGGCCGGAAGCTGGTGGCACAGCAGATCATCCATTGCTTGGTGGATTTGAGTTAGCTGGATTTGAAGGCTGGCAATCCGATAAAAACTTTGACCAATTTATAAACATGACTTTTGACACCAACGTACCAACGAAATTTTTACAAAAATATTATGTTATGAATTGGGAAACGATGGACGGTGACCCTACTAAAACGAATCTAGAGAAAGAAATTACTTTAAAGGACCCTAGTAATGGTGATGTAGTAAAAGTTACAAGAAAAGACAATTCTAGAGAGCGAGTAATTACGCTTAACGACAAAGTTGTTTTAGATGGCGACACCTATTTATTGCCATGGGTTGAACAAGATTTTGAAACATCGACACCTGATGCAAAAAAATTGTATCATTGGAATTTAGAGGGCGGTAAAACGACTTGGGAATTACCAGATGAATTTAAAAATGCATCGAAGGTATACGTGTATAAATTAACCGATCAAGGTAGATCCAAAAAACAAAAGATAAACGTTAAAAATAATCAGATCACCTTAAACGCTCAACCAGCTACACCATACGTTATTGAAGCGAAGCAAACGAAAGGCGTGCAAGTAAAAGAATGGAGTGAAAACTCCCACGTTAGTGATACAGGCTTCAATGCTGGAACTTTGAAAACGAAGCATACAAAGGTTTCTGGCGATAAAAAATCGGTTCATGTGAAACGAACAGATCAAACAGGTAGTGAACGGAATTTAAGCAGTGGCGATTACTATTTGCAATTTACAAATCCAACCAAAGACTCTAAAGTAACGAAGAAAATTAGTAATTTAGAGCCAGGAAAAGATTATGTTGCAGAAGTTTACGTAGAAAATAATAGTGATGCAAAAGCGAGTATTCAAATCGAAGGCAGTAAGCAGAAAAATGTAGAGAATTATACGTATCGAAGCTTGCAAAAAAATTATGTGAAAGCAGATTCTCATGCAACTAATGACGGATATAATAGTAAGATGCAACGTATGCAAGTAGCATTTACAGCAAAAAAATCATCTGCTAAATTAATTTTAAAACGTGAATCTGGAGAAGGGATTACGAAATTTGATGATATTCGTATCGTACAAAAAAGCTTAAGTAACCACGCTTCTGAAGCTGTATTTGAACAAGATTTTGAATCTGTTGTGCAAGGTATCTATCCGTTCGTTGTTGGTAATACAGAAGGCGTAGAAGATAACCGCGTTCATTTATCTCAGCTTCATGCCCCGTACACACAAAAAGGTTGGGCAGGCAAAAAAGTAGTCGATGATGTAATAGCTGGAAATTGGTCGCTGAAAGTAAATACAGGTAATAAAGGTCTCGTTTATCGTACTATACCTCAACATTTCCATTTTGAAGCGGGGAAAACGTATAAAGTAACGTTTGATTATCAAACAACAGCCGACTCTTATCGATTTATCTCTGGTAATAAGGCGATTGATGTTCGTGACATTAATAAAGCGGAAGGGATTCAAATAAATGAAAAACTTTCGTCAGCAGTTGACACGAAAACGGCAACCTTTACGGTAAAAGGGTCAGAAAATTACCAAACGTATATTGGTATTTTTAATGACGGTACATCATTAAATGGCGGTACTGGTAAAGGTACATTTATGCTAGATAATTTACGAATTGAAACCGTAGAAGATTAG MSKSLQKRLAIFLTVLMLVSTGIITSMSPSRVAAEESDANLDVKDSKVQVEKQSKAEKKSESVHITDSKLEDGDFEVLQGDGTLKYNNDGSVTYGVTSHGKNKIVYRNMPKIKNGVFEADITADSDLKRFGFIYRVQDNSAYTYVGTGDSNNQYFGEIFGPTNKWTSMTNSVALEANKTYKLRVKFMDDTASLYINGDKIGAWTQAEGVDSPGLLGLEKSRGEANINISNVKIKEYVPPTPPSKDPILETLSSDYMDVTVDQVYPRVVEYDVDGKMMYGQETPVYGLKVNNMLYYPEVAFEKVNDQEAIYSLHVKDEYENIDVHVKLSLKVDGNQVVYQIQKVDSKTDVQIETIEFVDLNFISVHDAQKGAEAKLTNLSSDVKKPGDTTVKVDATLKDIGAKKGYYTAFLSTNELSAGVWSSSEVNGYRNLVASRYENENGNKVMGIGSNALYYHRDFMNQPASNTPTVKVVIAEDINDDGQVDWQDAAIEYRDLLPKVEGAETVNNTVGTRIAMNFGSHAQQPFLKTLDNVKKVALATDGLGQAVLLKGYANEGHDSGHPDYGDVGERIGGIKDINALIREGNKYNAEFGVHINAQEAYPEAKSFSEELINGPEAKGWGWLDQSYTIDKLKDLYTGSRAKRLDELKANVPNLDFIYLDVWYQDQWESNRVAEQFADRGWRMTTEFGTAIANYSTWQHWATDKNYGGPTDKGINSEVLRFISNHQRDSWVLNWPEAGGTADHPLLGGFELAGFEGWQSDKNFDQFINMTFDTNVPTKFLQKYYVMNWETMDGDPTKTNLEKEITLKDPSNGDVVKVTRKDNSRERVITLNDKVVLDGDTYLLPWVEQDFETSTPDAKKLYHWNLEGGKTTWELPDEFKNASKVYVYKLTDQGRSKKQKINVKNNQITLNAQPATPYVIEAKQTKGVQVKEWSENSHVSDTGFNAGTLKTKHTKVSGDKKSVHVKRTDQTGSERNLSSGDYYLQFTNPTKDSKVTKKISNLEPGKDYVAEVYVENNSDAKASIQIEGSKQKNVENYTYRSLQKNYVKADSHATNDGYNSKMQRMQVAFTAKKSSAKLILKRESGEGITKFDDIRIVQKSLSNHASEAVFEQDFESVVQGIYPFVVGNTEGVEDNRVHLSQLHAPYTQKGWAGKKVVDDVIAGNWSLKVNTGNKGLVYRTIPQHFHFEAGKTYKVTFDYQTTADSYRFISGNKAIDVRDINKAEGIQINEKLSSAVDTKTATFTVKGSENYQTYIGIFNDGTSLNGGTGKGTFMLDNLRIETVED PGPT0019265_117 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0019265-engCP|engBF|endoEF-K17624 NA NA AK015_01509 990 galE COG1087 UDP-glucose 4-epimerase ATGAGTATATTAGTATTAGGCGGTGCTGGTTATATAGGTTCTCATGCGGTATACCAATTAATGGATCAAGGAAAAGAAGTAATCGTAGTAGATAACTTAGAGACAGGTCATCAAGAGGCAATTCATCCGAAAGCTGTATTTTATAACGGAGATATTCGTGATATTCATTTTTTACGCACGGTTTTTGCTAAAGAATCCATTGAGGCTGTGATTCATTTTTCTGCCAATTCTTTGGTTGGTGAGTCGATGGAAAATCCATTGAAATATTTTGATAATAATGTGTATGGCACGCAAGTTTTACTACAAGTCATGACTGAATATAACGTGAAACATATCGTTTTTTCATCTACTGCCGCTACATATGGAGAGCCAGAAGCCGTTCCAATTACAGAAACAATGGCTACTCATCCAACTAATACGTACGGCGAAACAAAATTAACAATGGAAAAAATGATGAAATGGACTGAACAAGCACATGGAATAACATATGTATCGTTAAGGTATTTTAATGTTGCTGGAGCAAGAGAAACAGGCGAGATAGGGGAAGACCATCATCCAGAGACACATTTAATACCAATTGTGCTACAAACAGCGTTGGGACAACGAGACCATATAACCATTTTTGGAGATGATTATGCTACGGAAGATGGTACATGTATTCGTGATTATATTCACGTACAAGATTTAATTGATGCACATTTACTTGCATTAGATTACTTACAGCGCGGAGGAAAAAGCGATATATTCAATTTAGGAAGTAGCCAAGGGTTCTCGGTGAAAGAAATTATTGATACAGCTAGACAAGTAACTGGTAAGAAAATACCTGCCAAAATTGGGAAACGGCGTGCAGGCGATCCTAGTACACTAATTGCAAGTTCACATAAAGCGAAAGAGATATTAGGATGGAATCCAAAGCGCACCCTAATAACAAAAATTATAGAGGATGCCTGGAATTGGCACGTGGGAAATCCTGATGGATATCGTAAATAA MSILVLGGAGYIGSHAVYQLMDQGKEVIVVDNLETGHQEAIHPKAVFYNGDIRDIHFLRTVFAKESIEAVIHFSANSLVGESMENPLKYFDNNVYGTQVLLQVMTEYNVKHIVFSSTAATYGEPEAVPITETMATHPTNTYGETKLTMEKMMKWTEQAHGITYVSLRYFNVAGARETGEIGEDHHPETHLIPIVLQTALGQRDHITIFGDDYATEDGTCIRDYIHVQDLIDAHLLALDYLQRGGKSDIFNLGSSQGFSVKEIIDTARQVTGKKIPAKIGKRRAGDPSTLIASSHKAKEILGWNPKRTLITKIIEDAWNWHVGNPDGYRK PGPT0019010_322 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 AK015_01510 93 hypothetical protein ATGAAAAAAGTTAATGTCATCTTGAAAGCGCGTACTTTAAGAATGCTGTTAGATCAAGTATGTAAGACAAAAGATGATGATATTAGTCGTTAA MKKVNVILKARTLRMLLDQVCKTKDDDISR NA NA NA NA NA AK015_01511 459 hypothetical protein TTGCCAAACACCATTTGCGAAAGGAACATCAAGATAAATATTGATAACATGTGGTCATTTATTAGTGACCTTAATAACTGGGCACCACTGGTTCCTGGATATGAACAGCATAAAATGGTGAACCAAAAGAAATCTATCTGGATATGTGAAGGAAAAGTTGGATCGTTCCAAAAAACGGTTCAATTAACCGTGGTCATTACCGAATGGAATGAACCAGAAAAAATCTCTTTCCAACTATCCAGCAGCAACCAAATGCTAACAGGGAATGGAACCGTTTGCGCCAATAAACTTAGTGATAGAGAAACCAATTTTACTTTTTCTCTTACACTCCATGCAAAAGGGTTGGCTGGAAAAATGGTAAATGGCTCATTAAGAGCATTTCTACCGAAACTAACTTCAAGCTTCATAGATGCAATGATTCGTCATATGTACGGAACAAAGGCGCAAGCGCTCGTTTAG MPNTICERNIKINIDNMWSFISDLNNWAPLVPGYEQHKMVNQKKSIWICEGKVGSFQKTVQLTVVITEWNEPEKISFQLSSSNQMLTGNGTVCANKLSDRETNFTFSLTLHAKGLAGKMVNGSLRAFLPKLTSSFIDAMIRHMYGTKAQALV NA NA NA NA NA AK015_01512 873 hypothetical protein ATGACGACTATTACGAAAAAAATGAATCCAACCGTACTAGCATACATACAAATTATTTTTGGTGCTACGCTAGTAGGCTTAGCTTATAATATTTTTCTATTACCTGCTAAATTGGCAGCAGGTGGCATATCTGGTGTAAGTACCATTTTATTTGAGTTGTACCAAATTAGTCCTTCTTTCGTTCAATTTTTAATAAATATCCCTATCTTTATTATAGGATGGATAGCATTAGGCAAAGACTTCAGCTCGAAAACGCTGGTAGGTACATTTTGGGTTCCATTTATTATTTGGTTAAGTTCCGACATTCCCATTACATTAACAAACCCTTTACTTAGTGCCATCTACGGAGGGATTATCCTTGGAGTTGGGTTAGGGATTGTTTATAAAGGAAATGGATCAACTGGTGGTACAGCAGCTATTGCGCAAATTGTAAAGAAATTTACTGGATTATCGAGTGGATACTCCCAATTAATTGTGGATGGAGTAGTTGTCATTTCTTCCATTATTGTATTTAACTTGGAATTAACACTTTTTGCACTCATGTGTATTTATATTACAAGTAAAACGATCGATATTGTTCAACTACAAACCTCTGCCACAAAATTGGTGATGATTATTACGGATAATGAAGAGCGTATTCAATCCATAATTCGAACGGAATTGGATCGAGGTTTAACAAAAGTACGTTCTGTTGGAGGTTATTCAGATAAAAAGAAAACAATGATTCTTTGTGTTGCAGAACAGCAAGAGGCCGTTCAATTAAAGAAGATATTGCAGCGAGAGGAAACCGATTCATTTGTCATCTTCTTGAATGCTTCCGAAATACTAGGTAGAGGTTTCTCACTTGATAAATATTATGGACAAAAACTCTAA MTTITKKMNPTVLAYIQIIFGATLVGLAYNIFLLPAKLAAGGISGVSTILFELYQISPSFVQFLINIPIFIIGWIALGKDFSSKTLVGTFWVPFIIWLSSDIPITLTNPLLSAIYGGIILGVGLGIVYKGNGSTGGTAAIAQIVKKFTGLSSGYSQLIVDGVVVISSIIVFNLELTLFALMCIYITSKTIDIVQLQTSATKLVMIITDNEERIQSIIRTELDRGLTKVRSVGGYSDKKKTMILCVAEQQEAVQLKKILQREETDSFVIFLNASEILGRGFSLDKYYGQKL NA NA NA NA NA AK015_01513 960 tdcB COG1171 L-threonine ammonia-lyase TTGCAGCGACTTGCTCCGCTTGTTCATCGAACACCTTTATTAACATCACAGACAACGAATCAAGCTTTAGGGAAATATGTTTATTTTAAAATGGAAAATCAACAGAAAACAGGTGCTTTTAAATTTAGAGGTGCTACCTATAAATTAATGCAATTAAAGCGACGGCAACTGGATCAAGGTGTGGTTACTGCTTCAGCTGGAAATCATGCACAAGGAGTGGCCTATGCAGCTCGTAAATTAGGGGCAAAAGCGACAATTTTTATGGCAGAGAAAACGCCACAAGCAAAAGTAGATGCAACACGCAATTATGGAGCAGAAGTCGTTTTGTCTGGAGAAACTTTTCAAGAAGCATATGAGGCTTCTATGGATCATCAGCTTCGTACAGGTGCAACATATATTCATCCATTTGACGATTATGATGTCATGGCTGGTCAAGGGACAGTTGCAATGGAATTATTACGTCAAGAAGATCGGGTTGACACGATATTAGTTCCAGTAGGTGGAGGAGGATTAATTAGCGGTATTGCTGTTGCAGCAAAGCATGTGAATCGAAATATGAAGGTGATTGGGGTGCAAGCTGAGGGAGCAGCTGCTATTTATAAAAGCTTCCATACTGGTAAAACAGAAAATCTACATGCCGTCCAAACGATTGCTGAGGGAATTGCAGTGAAAAAGCCAGGTGAACGAACATTACCGTTAATCAGACAATACGTGGATGATATGATAACCGTTTCTGACGAAGCGATTGCATCATCTATTGTTTACATGCTTGAACGAAATAAAACATTAATGGAAGGAGCGGGTGCTGCAGCAATTGCCGCCTTATTCACCCATAATGAGCAAATAAAATCCCGACATTGTGGGGTCATTGTAAGTGGTGGAAACATGGATATTAGCACCATGCCCAAAATACAGGAACTAGCTGCACGTTTGTCTCACCGTGAGCTTGTTTACTCATAA MQRLAPLVHRTPLLTSQTTNQALGKYVYFKMENQQKTGAFKFRGATYKLMQLKRRQLDQGVVTASAGNHAQGVAYAARKLGAKATIFMAEKTPQAKVDATRNYGAEVVLSGETFQEAYEASMDHQLRTGATYIHPFDDYDVMAGQGTVAMELLRQEDRVDTILVPVGGGGLISGIAVAAKHVNRNMKVIGVQAEGAAAIYKSFHTGKTENLHAVQTIAEGIAVKKPGERTLPLIRQYVDDMITVSDEAIASSIVYMLERNKTLMEGAGAAAIAALFTHNEQIKSRHCGVIVSGGNMDISTMPKIQELAARLSHRELVYS PGPT0001960_6563 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 AK015_01514 579 leuD COG0066 3-isopropylmalate dehydratase small subunit GTGGAAGCTATTCAAAGGCATAGAGGTGTAGTATACCCATTAAATCGAACGAATGTAGATACGGACCAAATTATACCGAAGCAATTTTTAAAACGAATTGAGCGTACTGGATTTGGACAATATCTTTTCTACCATTGGCGATTCGATGATGATGGAGAGCTTAGAAAAAATTTCAACTTAAACGATAAACGGTATGAAGACGCCTCGATAGTAGTGGCAGGTGAAAATTTTGGTTGTGGTAGTTCAAGAGAGCATGCTCCATGGGCACTATTAGATTTTGGGTTCCGAGTTATTATAGCGCCAAGCTTTGCGGATATTTTCTATAATAATGCTTTAAAAAATGGCATCATCGTTATCCAAGTAAAAGAAGAGCTTGTAAACCAATGGTTAAAAAAAGCGGAACGAGAGGAACTTATTTTAGATGTAGATTTGGAAAAGCAGCAAATTATGGACCGAGAGATGGTTTATCCGTTTCAAATTCCAGAGTATCATAAGCAAAAATTAATTAACGGATTGGACGATATAGCTTTAACATTACAACATGAGGAAAAAATTGCACGATACGAAAAAAGTATGTGA MEAIQRHRGVVYPLNRTNVDTDQIIPKQFLKRIERTGFGQYLFYHWRFDDDGELRKNFNLNDKRYEDASIVVAGENFGCGSSREHAPWALLDFGFRVIIAPSFADIFYNNALKNGIIVIQVKEELVNQWLKKAEREELILDVDLEKQQIMDREMVYPFQIPEYHKQKLINGLDDIALTLQHEEKIARYEKSM PGPT0001443_4040 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704 NA NA AK015_01515 1413 leuC COG0065 3-isopropylmalate dehydratase large subunit TTGGCTGCAGGAAAAACGATTATTGAAAAAATTTGGGAACAACATACCGTGCATCAAGAAGCAGGGAAACCAGATTTATTATATATTGATTTGCATTTAATTCATGAGGTAACTTCCCCACAAGCGTTTGAAGGTTTACGATTGAATAATCGCAAAGTCCGAAGACCAGATTTAACTTATGCGACGATGGATCATAATGTACCAACCAAAAACAGAGATGAAATAAGAGATGCGATTTCGCGGAAGCAGATGGAAACATTGCGGCGTAATTGTAAGGAAAACCATATATCATTAGCAGATATGTTCCACCCTGATCAAGGGATTGTTCATGTGATTGGGCCAGAGTTAGGTTTAACACAACCGGGAAAAACGATTGTTTGCGGGGATAGTCATACGTCCACACACGGAGCGTTTGGAGCTTTAGCTTTCGGAATTGGTACGAGTGAAGTGGAGCATGTATTAGCGACACAAACGGTATGGCAAGAAAAACCAAAGACATTAAATGTCCATGTGGAAGGTGATTTAGGATCTGGTGTAACTGCTAAAGATTTAATTTTAGCAATCATTGCTAAATTTGGTGTTCGTTTTGGAACGGGGTATGTTATTGAATACACGGGAGAAGCAATTCGTAATCTTCCCATGGAAGGTCGGATGACCGTTTGTAATATGTCCATTGAAGCTGGTGCGCGTGCAGGTTTGATTAGCCCTGACGAAAAAACGGTGGACTATTTACGCGGAAAGGCGCATGTCCCGGAAGGAGAAGCATTTAACCAACAAGCGCAACAATGGCTAGCTTTAGCTACAGATGAAGGAGCAATATATGACCATTATGTCAGCATCCGAGGTGACGAAGTAGAGCCACAAGTAACATGGGGAACGAATCCAGCTATGTGTGTACCTGTAAGTGGATCAACGCCAAGTTTAGAGGAGACAGATTACCCTGAAGATGTAGAACGTGCGCTTCAATATATGGGGTTATTGGAGAACCAGCCAATTTCTTCTATTCATATTGATCATGTATTTATTGGCTCGTGCACGAATTCACGATTAGATGATTTACAAAAAGCTGCTTCTATTGTAAGCGGGAGAAAAGTCCATCCTGAAGTACGTGCCATTGTTGTTCCAGGTTCGTTTAGCACCAAATTACAAGCGGAGAAACTTGGAATAGATAAAATCTTTCAAGAAGCTGGGTTTGAATGGCGTGATGCAGGTTGTAGCATGTGCTTAGCTATGAATGATGATGTAGTTCCTTCTGGTGGGCGCTGTGCTTCTACTTCCAATCGTAATTTTGAAGGCAGACAAGGAAATGGTGCTAGAACACATCTAGTTAGTCCAGAAATGGCAGCTATTGCTGCAATTGAAGGGAGATTTGTAGACGTTCGAGACTATGCAAGCACGAAAGTTTCTTCTTAA MAAGKTIIEKIWEQHTVHQEAGKPDLLYIDLHLIHEVTSPQAFEGLRLNNRKVRRPDLTYATMDHNVPTKNRDEIRDAISRKQMETLRRNCKENHISLADMFHPDQGIVHVIGPELGLTQPGKTIVCGDSHTSTHGAFGALAFGIGTSEVEHVLATQTVWQEKPKTLNVHVEGDLGSGVTAKDLILAIIAKFGVRFGTGYVIEYTGEAIRNLPMEGRMTVCNMSIEAGARAGLISPDEKTVDYLRGKAHVPEGEAFNQQAQQWLALATDEGAIYDHYVSIRGDEVEPQVTWGTNPAMCVPVSGSTPSLEETDYPEDVERALQYMGLLENQPISSIHIDHVFIGSCTNSRLDDLQKAASIVSGRKVHPEVRAIVVPGSFSTKLQAEKLGIDKIFQEAGFEWRDAGCSMCLAMNDDVVPSGGRCASTSNRNFEGRQGNGARTHLVSPEMAAIAAIEGRFVDVRDYASTKVSS PGPT0001442_2271 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703 NA NA AK015_01516 1107 leuB COG0473 3-isopropylmalate dehydrogenase ATGAATAAGCAAATTGTTATTCTTCCTGGTGACGGTATTGGTAAAGAGATTATGGATGCTGCCGTACGTGTTTTACAAGCAATTGCTGAAAATTTCAATCATCAATTCACCTTCTCAGAGCATCTCATAGGTGGTGCTGCAATTGATGGAGAACAATCGCCTTTACCAGAAACGACGATTCACGCGTGCAAAAAAGCGGATGCCGTTTTATTAGGAGCAGTGGGAGGGGAAAAATGGGATGCCTTACCTGGAGAAAAGCGACCAGAGAAAGGATTGTTAGGTATTCGCAAAGAGTTAGGTTTATTTGCAAATTTGCGGCCAATTAAGGCATTTACTCCTTTACTGCATGCTTCTCCTTTAAAGGAAGAGATAGTAGAGGGAAGCAACATTTTAATTATTCGTGAATTAACAGGTGGATTATATTTTGGCGAACCGAAAAAACGTATTCCAGAGGAAAATGCAGTGGTAGATACATTGTATTATACTCAAACAGAAATAGAGCGAATCGTTGATAAAGCTTTTCAAACAGCTAGAACGAGAAAGAAGCGCGTCACTTCTGTGGATAAAGCAAATGTTTTAGAATCAAGCAGGGTGTGGAGAGAGGTTGTGGAAGAAAAGAGCAAACAATACCCAGACATCGCTGTGGATCATTTGCTTGTCGATGCTGCGGCAATGAAACTCATTACAAATCCAAAGCAATTTGACGTCATTGTGACGGAAAATATGTTTGGAGATATTTTAAGTGATGAAGCGTCTGTTTTAACGGGTTCCTTAGGAATGCTTCCCTCTGCAAGTGTTCGAACGGATGGCGTAGGTCTTTATGAACCTGTTCATGGATCAGCACCAGATATTGCTGGCAAAGGAATTGCCAATCCACTCGGGATGATTCTCTCTGCAAGCTCTATGCTCCGTCAATCCTTTGGTATGGAACAGGAGGCTGACGAAATAGAGTACGCTGTACAAATGACACTTGAACAAGGCTACCATACGCCTGATTTATCTATTAAAAACGGTACGGTCGTTGGAACAAAAGAAATGACAGATATAATATTAGGAAACCTTGCTACGAATGATGCTTCACAATGTATTTGTAATTCTTATGTATAA MNKQIVILPGDGIGKEIMDAAVRVLQAIAENFNHQFTFSEHLIGGAAIDGEQSPLPETTIHACKKADAVLLGAVGGEKWDALPGEKRPEKGLLGIRKELGLFANLRPIKAFTPLLHASPLKEEIVEGSNILIIRELTGGLYFGEPKKRIPEENAVVDTLYYTQTEIERIVDKAFQTARTRKKRVTSVDKANVLESSRVWREVVEEKSKQYPDIAVDHLLVDAAAMKLITNPKQFDVIVTENMFGDILSDEASVLTGSLGMLPSASVRTDGVGLYEPVHGSAPDIAGKGIANPLGMILSASSMLRQSFGMEQEADEIEYAVQMTLEQGYHTPDLSIKNGTVVGTKEMTDIILGNLATNDASQCICNSYV PGPT0001441_840 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052 NA NA AK015_01517 1551 leuA 2-isopropylmalate synthase ATGTCAACAATTAAACTATTCGATACGACACTGCGCGATGGAGAACAATCACCAGGCGTCAATTTGAATAAGTTAGAAAAAATAGAAATCGCCAAACAGTTAGAACGGTTAGGTATGGATCGGATTGAAGCAGGTTTTCCTGCTTCGTCCAAAGGCGATTTTCAAGCGGTCAAGGAAATTGCAGACACGTTAAAAAATACGTCCGTTATCGCTTTAGCAAGAACAGTCAAGTCGGATATTGATACTGCTTGGGAAGCATTAAGAGGTGCAGATGAACCGCGAATTCATATATTTCTAGCGACGTCGCCAATTCATATGACGTATAAGCTGAAAAAGACGCCGGAAGAAGTAATTGCAACAGCAACAGATATGGTAGCATATGCAAAGCAAACATTTTCACAAGTGCAGTGGTCAGCAGAAGATGCGTCACGCTCAGATTGGGGATTTTTAGCACAAATTATTGAAAAGGTCATTGATGCTGGTGCGACTGTTATTAATTTACCAGATACGGTAGGTTACACAACACCTAAGGAATATGGGGATATGTTCCATTATATTAGAAAGAATGTTCCTAATATTGAAAAAGCAATGTTATCATGCCATTGTCATAATGACCTTGGGATGGCAGTTGCAAATTCTATTGCTGCTGTAGAAAATGGTGCGACACAAATCGAAGGAACAATTAACGGTATTGGTGAACGGGCAGGAAATGCATCCTTAGAAGAGATTGTCGTTGCTTTAAAGATTCGTTCTGATTTTTATCCTTATCAAACAAATATAAAGCTTGATGAAATAAAAAGAACGAGTGATATGGTGGCAAAACTGACAGGAATGCATATTCAAGCAAACAAGGCCATTGTTGGAAGAAATGCATTTGCCCATGAATCTGGAATCCATCAGGATGGTGTGTTAAAACATGCTTCTACGTATGAAATTATTACTCCAGAGTTGGTTGGCGTTCAAGCAAATACGCTGTTTTTGGGGAAACATTCGGGGCGTCACGCTTTTAAAGATAAATTAAAAGAACTTGGAATGCGCGTAACAGAAGATAATATGAAGCAAGCGTTTGAGGCGTTTAAGCGATTAACAGATCATAAAAAAGAGGTAACGGATGACGATATCTTTACTATTGTAACGGAGATTCAAACCAACACTGCTACAGTGGATAAATATACGTTGGAAATGTTTCAACTACAATATGGATCCAATAACATTCCGACTGCTGCTGTTGAATTAAAGACCCCGTCTGGTAAAAAGGTGAAAACGGCGTGTACAGCACAAGGGAGTGTCGAAGCATTATATAAAACACTAGAGTCATTAACCGAAGAAGAAACAAGATTAATTGATTATCAGATTAACTCTGTCGGAGGTGGAAAAGATGCGTTAGCGGAATCGCGCGTTCAACTTACAGTGAATGGAGAAACTGTAAATGGCCGGGGTTCGGCACAAGACGTCATGGAAGCTTCCGTGCAAGCGTATCTAAATGCAGTCAATCGGTATATTATTCAACAGGTGAATGCAGAGAAGAAAGAAGTTGTAAAAACTCAGTGA MSTIKLFDTTLRDGEQSPGVNLNKLEKIEIAKQLERLGMDRIEAGFPASSKGDFQAVKEIADTLKNTSVIALARTVKSDIDTAWEALRGADEPRIHIFLATSPIHMTYKLKKTPEEVIATATDMVAYAKQTFSQVQWSAEDASRSDWGFLAQIIEKVIDAGATVINLPDTVGYTTPKEYGDMFHYIRKNVPNIEKAMLSCHCHNDLGMAVANSIAAVENGATQIEGTINGIGERAGNASLEEIVVALKIRSDFYPYQTNIKLDEIKRTSDMVAKLTGMHIQANKAIVGRNAFAHESGIHQDGVLKHASTYEIITPELVGVQANTLFLGKHSGRHAFKDKLKELGMRVTEDNMKQAFEAFKRLTDHKKEVTDDDIFTIVTEIQTNTATVDKYTLEMFQLQYGSNNIPTAAVELKTPSGKKVKTACTAQGSVEALYKTLESLTEEETRLIDYQINSVGGGKDALAESRVQLTVNGETVNGRGSAQDVMEASVQAYLNAVNRYIIQQVNAEKKEVVKTQ NA NA NA NA NA AK015_01518 1044 ilvC COG0059 Ketol-acid reductoisomerase (NADP(+)) ATGTCAAAAGTACTTTATGAGCAGGATGTAAACACAGAGGTTTTAAGAGAGAAACGAATTGCTATTATTGGGTATGGTTCGCAAGGCCATGCACATGCTCAGAATTTAAGAGAGAGCGGGTTTGATGTTATCGTAGGACTGAGACCAGGAAAGTCTCAAGTAAAAGCAGAAGAGGATGGGTTTAGAGTCCTGTCGGTAGCAGATGCTGTAAAACAGGCAGAAGTAGTCATGATTCTTTTACCAGATGAAATGCAAACTACCGTTTATACAGAGAGCATTGAACCGAACTTGCAACCTGGAAATGCGATCGCTTTTGCCCATGGATTTAATATTCACTTTAGTCAAATTGTCCCGCCATCTAATGTCGATGTTTTTCTTGTAGCACCGAAAGGGCCTGGTCATTTAGTTCGTCGTACGTATGAAGAAGGAGCCGGAGTTCCTGCACTTTATGGCATTTATCAAGATGTGTCTGGAAAGGCAAAAGAAATTGCATTAGCATATGCTCAAGGGATTGGCGCTGCTCGAGCTGGAATTTTAGAAACGTCTTTTCAAGAAGAAACAGAAACGGATCTTTTTGGCGAGCAGGCTGTATTATGTGGAGGCGTGACAAGTTTAATTAAAGCAGGATTTGAAACATTAACGGAAGCTGGTTATCAGCCAGAAGTAGCCTATTTTGAATGTTTGCATGAGATGAAGTTAATTGTTGATCTTCTCTATGAAGGTGGCTTGGAAAATATGCGTTATTCTATTTCTGATACAGCCCAATGGGGGGACTTTGTATCAGGGCCACGCGTAGTAAATGAAGAAACGAAAGCTAGAATGAAAGAAATTTTGCAAGATGTGCAAACAGGAGCTTTTGCTAAAGGCTGGATTTTAGAAAATCAAGCGAATCGACCGCAATTTAATGCAATTAATGCGAAAGAGAACCAGCATCCAATCGAGCAAGTAGGAAAGGAGTTACGTGCATTAATGCCTTTTGTTTCAGAGCCGTTACAGAAAAAGCGAAATAAACAAAAGGATGTGAAAGTTCATGTCAACAATTAA MSKVLYEQDVNTEVLREKRIAIIGYGSQGHAHAQNLRESGFDVIVGLRPGKSQVKAEEDGFRVLSVADAVKQAEVVMILLPDEMQTTVYTESIEPNLQPGNAIAFAHGFNIHFSQIVPPSNVDVFLVAPKGPGHLVRRTYEEGAGVPALYGIYQDVSGKAKEIALAYAQGIGAARAGILETSFQEETETDLFGEQAVLCGGVTSLIKAGFETLTEAGYQPEVAYFECLHEMKLIVDLLYEGGLENMRYSISDTAQWGDFVSGPRVVNEETKARMKEILQDVQTGAFAKGWILENQANRPQFNAINAKENQHPIEQVGKELRALMPFVSEPLQKKRNKQKDVKVHVNN PGPT0008735_1329 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 AK015_01519 519 ilvH COG0440 Acetolactate synthase small subunit ATGAGGCGGATTATTACGGCAACCGTACAAAATCGTAGCGGTGTCCTCAACCGAATTACAGGAATGCTATATCGACGACAGTTCAATATTGAGAGTATTTCTGTAGGTGCCTCAGAAACAGAGGGTATTTCAAAAATGACGTTTGTTGTTGAAATTGAGGACCATCAGAAGTTAGAACAGCTAACAAAACAGTTAAATAAGCAAATCGACGTATTGAAAGTTTCTGATATTACAGAAAAAGCAATTGTAGCGAGGGAACTAGCATTAATTAAAGTTGGCGGAAGTGGTCAGTTACGTGCAGAGATACAAGGAATGATTACCCCGTTTCGGGCTTCTGTGATTGATGTGAGTAGAGACAGCTTAACTATTCAAGTAACTGGAAGGCCAGATAAGGTAGAAGCACTTATCTCATTATTAAAGCCGTATGGGATTAAAGAACTAACTAAAACTGGTGTAACAGCTTTCTTACGTGGACAGCAGCCAACACAGGTGACAGAACTTAATGCATTTACGATTTAA MRRIITATVQNRSGVLNRITGMLYRRQFNIESISVGASETEGISKMTFVVEIEDHQKLEQLTKQLNKQIDVLKVSDITEKAIVARELALIKVGGSGQLRAEIQGMITPFRASVIDVSRDSLTIQVTGRPDKVEALISLLKPYGIKELTKTGVTAFLRGQQPTQVTELNAFTI PGPT0008205_1507 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 AK015_01520 1722 ilvB_1 COG0028 Acetolactate synthase large subunit GTGAAAGTGCAGGTAAAGCATGAATTGGAAAGTACAAAAGAAATAGTTACAGGTGCTGATGTGTTAATTAATGCCTTAGTAGAAGCAGAAGTGGATACAATTTTTGGTTACCCGGGTGGTGCGGTCTTACCGATTTATGATGCTATTTATCGCAGCAATGCACCATTTGAGCATGTTCTCTCCCGTCATGAACAGGGTTCCATTCATGCGGCGGAAGGATATGCTCGAGTTACAGGGAAGCCGGGGGTAGTTATTGCTACATCTGGTCCAGGAGCTACCAATTTAATTACTGGAATTACAGATGCAATGATGGATTCATTACCAATTGTTGTTTTTACTGGTCAGGTAGCTAACAGCGTCATAGGTACCGATGCTTTTCAGGAAGCAGATGTCATGGGGATTACCACTCCAATTACGAAGTACAATTATCAAGTAACAAATCTTTTGGAGCTACCAAAAATTATTAAAGAAGCCTTTCATATTGCTTCTACTGGTAGACCAGGTCCTGTAGTCGTAGATATTCCGAAAAATATTTCTTCTGAGTTATCTGATGCTGTTTACGATGATCACTTTGCGCTTCCTGGCTATCAACCAAATAAAAACCCAAATCCATTGCAAATTACGAAACTAATGGATGCATTAAGCAAATCTAGCCGTCCATTAATTTTAGCTGGTGCAGGAGTTATTTTTGCAAATGCAAGTGAGAAATTAATCGCATTTGCAGAAAAGTTTCAGCTTCCAGTTGCGAACACGTTATTAGGGCTTGGAGGGTTCCCAAGATCGCATGAATTGTCACTTGGTATGGCAGGTATGCATGGGAGCTATACAGCAAACATGGCAATCTATGAATGTGATTTTTTAATTAATATCGGTGCTCGTTTTGATGATCGTTTAACTGGTAACTTACAGCATTTTGCTCCTTTAGCCAAAGTAGCACATATTGATATCGATCCAGCGGAAATTGGCAAAAATGTCTCAACGGAAATACCAGTGGTGGCAGACGCAAAAGAAGCATTAATAGCGTTACTAGCAACTTCTAATGAGCCTGTAGAGCGATCAGCTTGGCGAGATCAATTAACTTCGTATAAAAAGCAATATCCGCTTTGGTACGATCGATCGGAAGCATTTATTTCACCACAATGGTTAATGGAACAAATTCATGATTTGTCAAAAGGAGAAGCGATTGTAACTACGGACGTTGGGCAGCATCAAATGTGGGCAGCACAGTATTACGCGTTTGAAAAGCCAAACCGCTGGGTAACATCAGGAGGCTTAGGGACAATGGGATTTGGATTTCCAGCAGCGATCGGCGCACAATTGGGAGCGCCAGATGATGTCGTCATTTCGATTGTAGGGGATGGTGGATTCCAAATGACGTTTCAAGAATTATCCGTCGTAAAAGAGAAAAAATTGCCCGTAAAAGTTATTATTGTCAATAATCAAGCTTTAGGCATGGTGAGACAGTGGCAGGAAAGCTTTTATGAAAAACGTTATTCAGAATCCTTGTTTATGGAAAATCCGGATTTTGTAAAATTAGCTGATAGTTATGGCGTGCGCGGCATGCGTGTTGAAAAGGAAAAAGACGTTCCAAAAGTATTACAAGAAGCGTTAGCTTTCGATGGTCCTGTTGTAGTTGACTGTCGTGTTGTACAGCAAACTTCTGTTTACCCAATGATCGCACCTGGTAAGGGAATTCATGAAATGATTGGGGTGAGAAAATGA MKVQVKHELESTKEIVTGADVLINALVEAEVDTIFGYPGGAVLPIYDAIYRSNAPFEHVLSRHEQGSIHAAEGYARVTGKPGVVIATSGPGATNLITGITDAMMDSLPIVVFTGQVANSVIGTDAFQEADVMGITTPITKYNYQVTNLLELPKIIKEAFHIASTGRPGPVVVDIPKNISSELSDAVYDDHFALPGYQPNKNPNPLQITKLMDALSKSSRPLILAGAGVIFANASEKLIAFAEKFQLPVANTLLGLGGFPRSHELSLGMAGMHGSYTANMAIYECDFLINIGARFDDRLTGNLQHFAPLAKVAHIDIDPAEIGKNVSTEIPVVADAKEALIALLATSNEPVERSAWRDQLTSYKKQYPLWYDRSEAFISPQWLMEQIHDLSKGEAIVTTDVGQHQMWAAQYYAFEKPNRWVTSGGLGTMGFGFPAAIGAQLGAPDDVVISIVGDGGFQMTFQELSVVKEKKLPVKVIIVNNQALGMVRQWQESFYEKRYSESLFMENPDFVKLADSYGVRGMRVEKEKDVPKVLQEALAFDGPVVVDCRVVQQTSVYPMIAPGKGIHEMIGVRK PGPT0008185_4597 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 AK015_01521 1686 ilvD COG0129 Dihydroxy-acid dehydratase TTGGATAAAGATTTGCGAATTAAAAGTCATGTTTTTAGTGATGGTGTTATGCGGGCGCCGAACCGAGCAATGCTTAGAGCAGTTGGTGTATCAGATGAGGATTTTAACAAGCCGATGATAGGTGTGGCGAGTACGTGGAGTGAAGTAACCCCGTGTAATATACATATTGATGAGCTAGCTCGTCAAGCAAAAGATGGGGCGCGAGAAGCGGGGGGTGTTCCATTAATTTTTAATACGATTACAGTGTCTGATGGAATATCAATGGGAACGCAAGGAATGCGCTATTCCTTGCCCAGTAGAGATCTAATTGCAGATTCTATTGAAACAGTAGTAGGCGCGGAGAATATAGATGGGTTAGTAGCTATTGGTGGATGCGACAAAAATATTCCCGGATGTATGATTGCGATCGCTAATGCGGAAGTACCTGCTGTTTTTGTATATGGTGGTACGATTGCACCTGGTTCTTTAAAGGGGAAAGATATAGATTTAGTGTCGGTTTTCGAGGGTGTTGGAAAGCATAATAATGGTTCCATTGACGATGAAGAGTTACGCCAAATTGAATGTCACGCATGCCCTGGAGCAGGTTCATGTGGTGGTATGTATACGGCAAATACGATGGCTTCAGCAATAGAAGCGCTAGGTATGAGTCTTCCAGGAAGTTCTTCTAATCCTGCAGAATCAAAAGAAAAAGTAAATGATTGTAATAAAGCTGGTAAAGCAGTTTATCACTTATTAGAAAAAGGCATTTATCCAAAAGATATTATGACGAAAGAAGCTTTTGAAAATGCCATTACGGTTGTAATGGCATTAGGTGGCTCAACAAATGCAATATTACATTTGTTAGCTATTGCACACGCTATAGAAGTGAATTTAACCATCGAGGATTTTAATCGCATGCAAGTAAAGACGCCTCATTTAGCTGATTTAAAACCAAGTGGTAAGTATGTTATGCAAGACTTACATCGGGTAGGCGGTGTACAAGCTGTAATGAAGTTCCTTCATGAAAATGGGTATCTTCATGGCGATTGCTTAACGGTAACTGGTAAAACAATTGCAGAGAATTTGCAAGAAGCGCCGTCCTTACAAGAAGGACAAGAAGTGATAATGCCTTTTCATAATCCGAAACGTAAAGATGGACCACTTATTGTGTTAAAGGGTAACCTTGCCCCAAAGGGCGCTGTAGCAAAAGTATCTGGTGTAAAGGTAAGTCGACATGTAGGGCCTGCGCGGGTTTTTAATACAGAAAAAGAAGCAACAGAAGCGGTAATGGATAATAAGATTAAAGAAGGAGATGTACTTGTCATACGCTACGTCGGACCAAAAGGAGGCCCGGGTATGCCGGAAATGCTGTCTATTTCAGCTATTTTAGTTGGAAAAGGGCTAGGTGAAAAAGTAGCTCTATTAACCGATGGTAGATTCTCTGGCGGAACACATGGGCTAGTCGTCGGGCATATCGCACCAGAAGCGCAGGTTGGTGGTGCAATTGCTTTCTTGCAAGAAGGGGATATGGTGACGATTGATTCTACGCAAAAAGAGATATCGTTTGCAATATCAGATCAAGAATTAGCGGAAAGACAGAAACATTGGACTGCTCCTCCATTGTACAAAAAAGGTGTGTTAGGTAAATATGCTCATAACGTATCCTGTTCTTCGTTAGGAGCTATTACCGATTATTTAAATAAATAG MDKDLRIKSHVFSDGVMRAPNRAMLRAVGVSDEDFNKPMIGVASTWSEVTPCNIHIDELARQAKDGAREAGGVPLIFNTITVSDGISMGTQGMRYSLPSRDLIADSIETVVGAENIDGLVAIGGCDKNIPGCMIAIANAEVPAVFVYGGTIAPGSLKGKDIDLVSVFEGVGKHNNGSIDDEELRQIECHACPGAGSCGGMYTANTMASAIEALGMSLPGSSSNPAESKEKVNDCNKAGKAVYHLLEKGIYPKDIMTKEAFENAITVVMALGGSTNAILHLLAIAHAIEVNLTIEDFNRMQVKTPHLADLKPSGKYVMQDLHRVGGVQAVMKFLHENGYLHGDCLTVTGKTIAENLQEAPSLQEGQEVIMPFHNPKRKDGPLIVLKGNLAPKGAVAKVSGVKVSRHVGPARVFNTEKEATEAVMDNKIKEGDVLVIRYVGPKGGPGMPEMLSISAILVGKGLGEKVALLTDGRFSGGTHGLVVGHIAPEAQVGGAIAFLQEGDMVTIDSTQKEISFAISDQELAERQKHWTAPPLYKKGVLGKYAHNVSCSSLGAITDYLNK PGPT0001875_4117 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 AK015_01522 330 csaA COG0073 putative chaperone CsaA ATGGCTCATATAGAAGATTTTAAAAAAATAGATATGCGTATTGGAACAGTGAGAAACGCAGAACCTTTTCCAGAAGCAAAGATACCAGCAATTAAACTATATATTGATTTCGGGGAGCTAGGAATAAAACAAGCATCTGCTCAGATTACGAAACGATACGAACCAGAAGATTTAGTAGGGAGGCAAGTAACAGCAGTTGTTAATTTTCCGCCTATGCGAATCGCAGGCTTCAAGTCTGAAGTGCTCGTATTAGGTGGAGTGCCAGAAAAAGGGGACGTTATTTTATTAGCACCTGATGTTGAGGTGGCAAATGGAACAAAGATATCGTAG MAHIEDFKKIDMRIGTVRNAEPFPEAKIPAIKLYIDFGELGIKQASAQITKRYEPEDLVGRQVTAVVNFPPMRIAGFKSEVLVLGGVPEKGDVILLAPDVEVANGTKIS NA NA NA NA NA AK015_01523 1248 proA COG0014 Gamma-glutamyl phosphate reductase ATGGCAGAAGTACAAGAGAAAGGGAAGTTGGCAAAAGTTGCAAGCTACCAGTTGAATGGTATAACAACAAAGGAAAAGAACGAAGCGTTGGAATACATTGCAAAGCAGTTGGTAGAAGACAAGGAGAAGATTCTAAAAGAGAATCAGAAGGATTTACAGGTCGGAGAAAAAAGTGGCATCTCAACATCGATCTTAGATAGAATTATGTTGGATGATACGAGAATTGAAGCCATGTATGACGCTATATTTCAACTTATTGCATTAGATGATCCAATTGGTGAAGTTCTTGAGCGTCTTGAAAAAGATAATGGTCTTCGTATGGAAAGAAAACGCGTTCCCATCGGCGTAATAGGTATGATTTATGAAGCACGACCAAATGTAACGATTGATGCGGCCACATTAGCTTTAAAAACAGGAAATGCGGTTATTTTAAGGGGAAGCTCATCTGCTACGTTTTCCAATCAAGCTATCGTCGCATCGATTCACCAAGCTTTGGCTAAATCAAAGCTTCCAGCAGATGCGGTTCAACTCATTACGGATACAAGTAGAGAGACGGCACAACAATTATTTACGTTAAATGAATACTTAGATGTATTGATTCCTCGAGGAGGGAAAAACCTCATTCAAAAAGTTTTACAATCTTCAACAGTACCAGTAATTGAAACTGGAGCTGGTAACTGTCATATGTATATTGATGCTTCTGCTAAGCAAGAGCTAGCTTTTAAGCTTGTTTTAAATGCAAAATTACAGCGTCCGTCTGTATGTAATGCAATCGAATCATTGCTCGTTCATCAGGATTGGTTTAAGGAACATGGAAACTCTTTACTAGAAAAACTGGACAAAGAGCAGGTGAAAATTTACGGGGACGAAAATGTTTGTAAGGCTTTTTCAAAAGCGAAATTAGCCACAGAAGAAGATTGGTATACAGAATATCTTGATTTAGCAATTAGTGTTAAATTAGTTTCTACATGTGAGGAAGCGGTCAATCATATTAATAAGTATGGTACACGGCATTCAGAGGCTATTATTACGCAGGACAATGAACATGCTGATTATTTCCAGCAGCACGTCGATGCTGCCGCTGTCTATCACAATGCTTCTACAAGATTTACAGATGGTTTTGAATTTGGGTATGGAGCGGAAATTGGTATTAGTACCCAAAAATTACATGCTAGAGGGCCTATGGGGTTACCGGCACTTACTTCAAGTAAGTTTTATATCTATGGAGACGGTCAGGTTAGGGAATAA MAEVQEKGKLAKVASYQLNGITTKEKNEALEYIAKQLVEDKEKILKENQKDLQVGEKSGISTSILDRIMLDDTRIEAMYDAIFQLIALDDPIGEVLERLEKDNGLRMERKRVPIGVIGMIYEARPNVTIDAATLALKTGNAVILRGSSSATFSNQAIVASIHQALAKSKLPADAVQLITDTSRETAQQLFTLNEYLDVLIPRGGKNLIQKVLQSSTVPVIETGAGNCHMYIDASAKQELAFKLVLNAKLQRPSVCNAIESLLVHQDWFKEHGNSLLEKLDKEQVKIYGDENVCKAFSKAKLATEEDWYTEYLDLAISVKLVSTCEEAVNHINKYGTRHSEAIITQDNEHADYFQQHVDAAAVYHNASTRFTDGFEFGYGAEIGISTQKLHARGPMGLPALTSSKFYIYGDGQVRE PGPT0014215_3633 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147 NA NA AK015_01524 1092 proB COG0263 Glutamate 5-kinase 1 GTGAGGAAACAGAGAGTTGTTGTAAAAATAGGAAGTAGTTCGTTAACAAATGCACATGGTGAAATGGATGAGGCGAAGTTAACCGAACATGTGGCCGCGATTGCCAAGCTTCGCGAATTAAAGCATGACGTTATTTTAGTTTCATCAGGTGCAGTGGCCGCAGGTTTTCCACAAATTGGCTATGCATCAAGGCCTGTAACCTTAAAAGGAAAGCAAGCTGCTGCGGCTGCAGGACAGGGATTGTTAATTCAAACATATATGGAAAAATTTTCAGAATATGATTTACGGGCTGCCCAATTATTATTGACGAGAGACGATTTTAAAGATCGAGAACGATATAAAAATGCGTTTAATACGTTAATGGAACTATTAGAACGGCGAGTTATTCCAATTATTAATGAAAATGATACGGTATCCATCAAAGAACTTACATTTGGAGATAATGATATGTTGTCAGCTTTAGTTAGCGGTATTGTTCATGCAGACCAGCTCATTATGCTTACCGATATTAACGGCATCTATGATTTAAATCCACGTCAAAATCCAGCAGCTAGAAAATATGACCATCTTGCCCAAATTACAGAAGAAATGGTTGACCAGACAGATCAACATGGGTCTTCAGTAGGTACTGGAGGAATGAAATCGAAGTTGGAAGCTGCAAAGATGGCTTTATCATTAGGTGTTAGTGTGTTTATCGGAACTGGAAAAGGCGCTGAAAAATTATCGCAAATCTTGGAAGGAAGTGGAGATGGTACTTATATTTCTAATCCTGCTAAAGGTTCGATTACGACCAATAAGCAATGGATTGCACTTCATTCAGATCCGGTAGGTCAACTTTACTTGGATAAAGGTGCAGAAGAAGCAATCCTTTATCAAGGAGCAAGTTTATTAGCTGCAGGGATCCGGAGAGTGCAAGGGCAGTTTAAGGAGGGGGACGTTGTAGAAGTATATGGAGAAAATGGGTTAATTGGCAAGGGGGAGGCAAGTTGTTCAGCAGATGTAATTATGAAAGAATTGCAACTAAGGAGCGTGGACAAAGATTGCTTATCATCTAGGGTTATTCATCGAGACCGTTGGGTGAGATTAACATAA MRKQRVVVKIGSSSLTNAHGEMDEAKLTEHVAAIAKLRELKHDVILVSSGAVAAGFPQIGYASRPVTLKGKQAAAAAGQGLLIQTYMEKFSEYDLRAAQLLLTRDDFKDRERYKNAFNTLMELLERRVIPIINENDTVSIKELTFGDNDMLSALVSGIVHADQLIMLTDINGIYDLNPRQNPAARKYDHLAQITEEMVDQTDQHGSSVGTGGMKSKLEAAKMALSLGVSVFIGTGKGAEKLSQILEGSGDGTYISNPAKGSITTNKQWIALHSDPVGQLYLDKGAEEAILYQGASLLAAGIRRVQGQFKEGDVVEVYGENGLIGKGEASCSADVIMKELQLRSVDKDCLSSRVIHRDRWVRLT PGPT0014220_3399 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931 NA NA AK015_01525 1422 farB_1 Fatty acid resistance protein FarB GTGACTTCAGAAAATACAACAACAAATAATCCGAGAGAAGTAAATAAAGTACCACTGCTTATCGTTTTAATTTCAGGTGCATTTGTTGCCATTTTAAATCAAACTTTATTAGCAACTGCTTTGCCAAAGATCATGCAAGATTTACAGTTAGACGCCAATACAGTTCAGTGGTTACAGTCTATATTTATGTTAGTAAATGGCATTATGATTCCAATTACGGCATTTTTAATTGAACGATTTACGACAAGAGGACTCTTCCTAACAGCATTAAGTATATTTGCGGTAGGTACACTTATTTGTGCAATTGCTCAAAACTTTTCTGTGTTAATGGTTGGGAGAATCGGTCAAGCAGCGGCAGCAGGCATTATGATGCCGTTAATGCAAACGATACTGTTCCTCATATATCCAATTGAAAAAAGAGGTACAGCGATGGGGATGTTCGGTATGGTGATTGCTTTTGCGCCAGCTATAGGGCCGACATTGTCTGGATGGCTAGTAGAGCACTTTCCGTGGAGAAGTGTATTCTATGTCGTATTGCCAATTATTATTATCGACATCGTTGTTGCCTATTTTATTTTAAAAAATATTACGAAACAAACATTTCCGAAAGTAGATGTGATATCGATTATCTTGTCTACATTGGGCTTTGGTGGTTTATTATATGGATTTAGTGTGGCAGGTAATAGCGGTTGGGGAAGCGCACAGGTAATTATATCGTTAGTTGTTGGTGCCATTACATTAACCATGTTTATTTTAAGGCAGATGAAATTGGAACAACCTATCTTAGAATTTCGCGTATTCCGTAATGCTGTTTTTTCTTTAACAACAGCGTTAGGAATGGTTACTTTTATGGCAATGATTGGCGCAGCAGTTATCATTCCTATTCTTGCACAAAATATGCTTGGGTTTACCGCCTTGGAATCTGGTTTAATGATTTTGCCTGGTGCCATTGTTATGGGAGTAATGAACCCAATTACTGGAAGATTATTTGATCGATTCGGTGCACGTTGGTTAGCCATTATTGGTCTGTCTATTGTCACGATAACGACATTTATGTTTACAAATATATCTATGAATACGTCATTTGGCTATATTGCAACAGTAAATGCGGTTCGTATGCTTGGGATAGCCATGGTCATGATGCCTGTTACAACGGCAGGATTAAACCAATTACCATTCCATCTTATACCGCATGGAACTGCGATGAATAACACGATGCGCCAAGTTGCCGGAGCTGTTGGAACAGCTTTACTAGTAACAGTGATGACAAATTCCGCATTACCAGAACAAGGTGTTCAAGGAATGATTCATGGAGTAAATGTTTCATTTATTGTAGCTGGAGTGTTTGCGATTATAGCACTTGTCTTATCTCTATTTATCAAAACGGAATCAAACAAAGAGTCGGTTAAACTTAGTAGATAA MTSENTTTNNPREVNKVPLLIVLISGAFVAILNQTLLATALPKIMQDLQLDANTVQWLQSIFMLVNGIMIPITAFLIERFTTRGLFLTALSIFAVGTLICAIAQNFSVLMVGRIGQAAAAGIMMPLMQTILFLIYPIEKRGTAMGMFGMVIAFAPAIGPTLSGWLVEHFPWRSVFYVVLPIIIIDIVVAYFILKNITKQTFPKVDVISIILSTLGFGGLLYGFSVAGNSGWGSAQVIISLVVGAITLTMFILRQMKLEQPILEFRVFRNAVFSLTTALGMVTFMAMIGAAVIIPILAQNMLGFTALESGLMILPGAIVMGVMNPITGRLFDRFGARWLAIIGLSIVTITTFMFTNISMNTSFGYIATVNAVRMLGIAMVMMPVTTAGLNQLPFHLIPHGTAMNNTMRQVAGAVGTALLVTVMTNSALPEQGVQGMIHGVNVSFIVAGVFAIIALVLSLFIKTESNKESVKLSR PGPT0029035_2 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 AK015_01526 765 hypothetical protein ATGCAAAAAAAAATGTGTGTATCGATATGTGTGATTTTGATTTTGCTTTTAACAGGTCAACAAGCAATAGAAGCTTCTCTTCATGAACTGTTAACAAAATCCGATCCAACTAACAATAAAGAACAACAGCGTTATAATAAAATGTTATTGATGTATACGGCGAAGGAAATGGGCATTCAAGTGGAAGGGAAATCTAAAGGAACATTACAAAAGGAAGTAGAGCAGCTAATTATAGAACAAGCTAGGAAAAAATATGCCATTCAGGCAGAAGGAAGAAGTAAAAGAGAGCTACTAGAAGCGATTCATTATACGCTAGTGGTTCAAAAAGCAAAACAGCTTGGTTTAAAAACAACTGGAAAATCGGCAGAACAATTAGCGAAAGAAGTATATGATAAACAATTAAGGAAGAAAGCCAACCAATTGGGGGTTGTATGTGAAGGTAAAACGACAGAACAATTAAAACAAGCATTAATCCAATTTGAGGTAGAGGTAGAAGCCAGGCGATTAGGAATAAAGCAACGTGAAAAAGGCATAGATCAGCTAATTAAAGAAGTACATGAAGCTAAATTATACCATACTGCCGAACAATTAGGGTTACTTACAATGAATAAAACTCCTGTTGATTTAATGGAAGAAATTATTGTTAACCATGCAACAGAAGCAAAAGAATTACAGTTATACCCATTTCAAAATGGGGAACTTCATAGCTACCTTCACTTTAAATTTGAACTAGAGGATCGTTTTATGATATTTACAAACAACTGA MQKKMCVSICVILILLLTGQQAIEASLHELLTKSDPTNNKEQQRYNKMLLMYTAKEMGIQVEGKSKGTLQKEVEQLIIEQARKKYAIQAEGRSKRELLEAIHYTLVVQKAKQLGLKTTGKSAEQLAKEVYDKQLRKKANQLGVVCEGKTTEQLKQALIQFEVEVEARRLGIKQREKGIDQLIKEVHEAKLYHTAEQLGLLTMNKTPVDLMEEIIVNHATEAKELQLYPFQNGELHSYLHFKFELEDRFMIFTNN NA NA NA NA NA AK015_01527 411 hypothetical protein ATGAAAAAAGTAATGCTCGGTTTGTTAAGCCTATCCTTGTTATTGTTGAGTGGTTGTGCCTTATTAGAGGAAACGACGAATTCTTTAAATTATGCAGAGGAAGCAACTGCCTACGTTAATGATTTAAACAATTTTTTAGAAAAAGCTTCTACTTTAGAAGCAGATGAATTAAGAACAGAACTGAAAAATCTACAAACTACAATAACTGACTTTATTGATATCGACCCACCTGCCATCGCTGAAGACATACACCAAGAATTAAAAAGTAGAAGTGAACAATTATTAGATACAACGAACAATTTAATGGATCAAGGGGAGATAACAGTTGAACAGATTACAGATACAGAGCTTTATCGTACGATTGAAAATATCCAATCACTGCAAAATCAAATTGAACAATTGGAACTGTAG MKKVMLGLLSLSLLLLSGCALLEETTNSLNYAEEATAYVNDLNNFLEKASTLEADELRTELKNLQTTITDFIDIDPPAIAEDIHQELKSRSEQLLDTTNNLMDQGEITVEQITDTELYRTIENIQSLQNQIEQLEL NA NA NA NA NA AK015_01528 420 fosB COG0346 Metallothiol transferase FosB ATGATGAAGGGAATAAATCACGTTTTATTTTCTGTTTCCGACTTAGAAAGGTCGGTTATATTTTATGAACAAGTCTTCGGGGCAAAGCTGTTAGTTAAAGGGAGGAGCACTGCATATTTTGATATGGATGGGCTGTGGCTTGCGTTAAACGAAGAAAAAGATATTCCGCGGCAAGAAATCCATCAATCTTATACGCATCTCGCATTTTCCATTGATGAAGCAGAGTTTGACAGAGCATATGATTTATTATGTAGGTTAAATGTGAATATTTTGCAAGGAAGAGAAAGAGATGTGAGGGATAAAAAATCCATCTATTTTACAGATCCTGATGGGCATAAGTTCGAATTTCACACAGGTACTTTAGCAGATCGATTAACTTATTATAAACAAAATAAACAGCATATGGAATTCTTTGAATAA MMKGINHVLFSVSDLERSVIFYEQVFGAKLLVKGRSTAYFDMDGLWLALNEEKDIPRQEIHQSYTHLAFSIDEAEFDRAYDLLCRLNVNILQGRERDVRDKKSIYFTDPDGHKFEFHTGTLADRLTYYKQNKQHMEFFE PGPT0028560_115 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 AK015_01529 108 hypothetical protein ATGAAGAAATTAATTCGAAAATTAATTAAATATGGACCAGTCATATATCCAGTAGTGAAGAAATACCTTGATAAACGTAAATCGACTAAAACTTATCATGGTGAATGA MKKLIRKLIKYGPVIYPVVKKYLDKRKSTKTYHGE NA NA NA NA NA AK015_01530 354 hypothetical protein ATGGCACATCATCGAAATTCGATTGAACAGACGTTATTAGCGTACAAAAAGGGTGTAGACACCTTTTCAAAACAAATGCCTGCATTTACGAAAAAGTATCATGATTTTACAGAAGCTTGCTTTCAAGAAGGAGAGCTTTCTGCTAAAGCAAAGCAGTTAATAGGTCTAGGTATTAGCTTACATGCACAAGATGAGTATTGTATTATTTATCACACAAAAGGATGCTTGGACCAAGGTTGCACAAAGCAGGAAATTTTAGAAGCGGCAGCTGTTACAGCAGCATTTGGTGGTGGAGCATCTATGAGCCAAGCAGTAACGCTCGTTCAGGAGTGCGTTGACGAACTTTCAAACTAA MAHHRNSIEQTLLAYKKGVDTFSKQMPAFTKKYHDFTEACFQEGELSAKAKQLIGLGISLHAQDEYCIIYHTKGCLDQGCTKQEILEAAAVTAAFGGGASMSQAVTLVQECVDELSN NA NA NA NA NA AK015_01531 141 hypothetical protein ATGGCTTTAGAGCATGTGTTTTTAGACGAAGTATTGTGGCTGATGGCGGAAGTTCCTGAAGACTGGGAAAAGCCATCGCAACGTCAGCTCTTTTTAAGTGTTGTTCATTTGCTTTTACATAGCCAGGCATATGAAATCTGA MALEHVFLDEVLWLMAEVPEDWEKPSQRQLFLSVVHLLLHSQAYEI NA NA NA NA NA AK015_01532 651 hypothetical protein TTGCAAAGTACAAAAGTATTAGAACAATTTCAAATAGCTGCTGAAAAAGAGCCCAAAAGTATTTACCCTTTTTCTCCCGTTTACCATGCCTCATATAAAGGGGAAGAGGTTATTGTGAAGAAAACGCAAAAACCACTTGAACGTGCCGAAGCATTAGCGAGATACACACGATTTTTACAAGAGAACGGCATTTATATTGTTACACCGATTAAAATGAACACAAATAATCCGCAAGAACTGGGAGATGCGTGTTACGTTGTGTACCCATTTATCCATGGAAAAGCGTATACAGCGACACATACACAAATATATGCATCGGGTTGTTTATTAGGGCATATTCATGCGTTATCACCAAAAGGAGAGCTATTTCAACTTCCAGAATATGATGTGTATGATTTCACAAATGAAGAAGTAGAGGAAAGCGTACGAGCGATCACAAATCATGCTAAACGGAACCGTGTTACTTTTCCTATAACTCAGTTAGAAGAAAAATTACTTTCCTGTGTAACCAAACAATCTTGTTTGAAGGAACTTTCCTTGCCCCATGTTTTAACACCGCATGATTATAAAGCGAATAACCTAGTCTTTACACCTGAACCTTGTTTGATTGATCCCGACAATGCTGCAAAGTTCCGCGTGTTTTTGATTTAG MQSTKVLEQFQIAAEKEPKSIYPFSPVYHASYKGEEVIVKKTQKPLERAEALARYTRFLQENGIYIVTPIKMNTNNPQELGDACYVVYPFIHGKAYTATHTQIYASGCLLGHIHALSPKGELFQLPEYDVYDFTNEEVEESVRAITNHAKRNRVTFPITQLEEKLLSCVTKQSCLKELSLPHVLTPHDYKANNLVFTPEPCLIDPDNAAKFRVFLI NA NA NA NA NA AK015_01533 399 aacA-aphD Bifunctional AAC/APH ATGCAAAATAATCTTTCCATTCGGCCGTTAAACAAGAAGCATCAAGCACTGCTAAGGAGTTGGTTGTGTGATCCTTCTGTTTTAAAATTTTATGGGGGGAGGGATAAATCCTATACTATGGAAATGATAGAGGATAAATTCTATACAAATAATGCTTTAATATCCCGCTGTATTATATATTGTAATGAAATTCCAATTGGTTATTTGCAGTATTATCCAATTAATAGCTGTACAAGTAATTTGATGCCCCTTGTAGGTTCAAGCGCTTACGGTATGGATCAATTCATTGGTGAAGGTAGTTATCGAAATAGAGGAATTGGAACGGAGCTTATAAAAAAAGTAACGGCATTTCTCATTGAAGCGTACGGTCGTCCAAGGTTGTCCTCGACCCACATGTAG MQNNLSIRPLNKKHQALLRSWLCDPSVLKFYGGRDKSYTMEMIEDKFYTNNALISRCIIYCNEIPIGYLQYYPINSCTSNLMPLVGSSAYGMDQFIGEGSYRNRGIGTELIKKVTAFLIEAYGRPRLSSTHM PGPT0028650_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,PGPT0028650-aacA-K00663 NA NA AK015_01534 384 hypothetical protein GTGGATAGAATAACGGGTGCTGCAGGGATTTGTATGAATAACTGCAATCAAATGTTAATGGTGCTACAAGGGAAGCCTGAAGAAAAAAAGAAGTGGGCAGTGCCATCTGGAATAACAGAACTTAATGAAACGTTCGAAGTATGTTGTATACGAGAGGTTTTTGAAGAAACAGGATATCAGGTAACCATTAACAAAAAGCTACATACAAAGAAAATAGCAAACGTTGAAATACAGTATTTTTTAGTTGAACTAATTAATGGCCATATAAAGATACAAGATCCCGATGGATTAATTTACGATGTTGCATGGAAAGAAAAAGAAGAACTACATCAACTGCCTTTAACCTTTGAGGAAGATCGTGATTTTTTGCTATCTTGTTTTTGA MDRITGAAGICMNNCNQMLMVLQGKPEEKKKWAVPSGITELNETFEVCCIREVFEETGYQVTINKKLHTKKIANVEIQYFLVELINGHIKIQDPDGLIYDVAWKEKEELHQLPLTFEEDRDFLLSCF PGPT0028650_12 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028650-aacA-K00663 NA NA AK015_01535 507 hypothetical protein TTGCAGATACGTAAAGCAAATGTAGATGATGCTGCATCTATAGCCAAAGTTCATATAGATAGTTGGAAAACAACGTACAGCGGAATCTTGCCAGATGAATTTTTACAAACTTTAACGTATGAGCCAAAAAAATGGCGCGAGCAAATAGTAAACCAACCAATCCATATAGCTGAAGATAACGACGGCTATATCGTTGGTTTTGCTATGGGCGGCAAAGAGAGGACAGGAAAATATGCTGGATATGATGGTGAACTTTATGCTATTTATCTTTTAGAAGACTACCAAAGAAAAGGAATAGGGAACATGTTGTTTCAAAAGGTTGTGGAACAGCTCTATAAGGACGGTGTAGATACAATGATTGTCATGGTATTAGCGGATAATCCAGCGAAACATTTCTATGAAGCTATGGGCGGAAGCTTGCTCCAGCGCACAAAGCTGCATGTTGGAGGTCATGAATTACCAACGCTTGTATATGGTTGGAAAGATATAAGTATTTTTACACAATAA MQIRKANVDDAASIAKVHIDSWKTTYSGILPDEFLQTLTYEPKKWREQIVNQPIHIAEDNDGYIVGFAMGGKERTGKYAGYDGELYAIYLLEDYQRKGIGNMLFQKVVEQLYKDGVDTMIVMVLADNPAKHFYEAMGGSLLQRTKLHVGGHELPTLVYGWKDISIFTQ NA NA NA NA NA AK015_01536 384 hypothetical protein ATGAAAATTTACCGTTTTTCAACCGCGTATGCAAAGCAAGTTACAGCACATGAATCAAAAAATCTAAGCATTACACCGTTATTAAAACTTGATAAAGCGTCCATCCAAATGAGCTATCTATATCTAGAAGCTGGAGGTGTTGTTGGTGAGCATGCTGCTTCAACAGATCAGCTTCTTTTTGTAGTTGAAGGTAGCGGGGAAGTAAAAGGAGCTGAAGGATACTTTCTACCTGTTCAAAAAGGAGAAGCTGTATATTGGGAACAGAATGAACGGCATGTAACGCAATCAGAACATGGGTTAACGGCTATTGTCATTGAAGCGACTATACCGAATCTTACTCATGATATATGCGCTGAAATGATAGAAAGAAACGAACGCTATTAA MKIYRFSTAYAKQVTAHESKNLSITPLLKLDKASIQMSYLYLEAGGVVGEHAASTDQLLFVVEGSGEVKGAEGYFLPVQKGEAVYWEQNERHVTQSEHGLTAIVIEATIPNLTHDICAEMIERNERY NA NA NA NA NA AK015_01537 480 hypothetical protein ATGAATTTGAGCATACGCAAGATGGAAGAAGCAGATATTGAATCCGTTCAACAAGTAGCAGTAACAAGCTGGCACGCCACGTATGAAGGAATTATACCTAAAGGTACTCGAGATACATTTTTAGTTGGTGCTTATAGTGAAGATATGTTGCTTAGACGGTTAAAAGGATCGCATTTTTTCGTTGCTGTAGTAGACGCAAAGGTGATTGGATTTGCAAATTTTTCTCCTGTTACAGATAAAGGAACAATGGAATTAGCTGCTATTTATATATTGCCAGAATATCAAGGGATGGGAGTAGGTACAGCACTATTAGAAGCTGGAAAACAAATAAATCGCAATGCGGCAATTTATATTCATGTGGAGAAGGAAAATAAGCAAGGCACGCGTTTTTATGAACATAAAGGCTTTAAAAAAGTAGAAGAATTCACGGAAGATTTTGCTGGGCAACAATTGCAAACAGTTCGCATGGTGCTTTCATAA MNLSIRKMEEADIESVQQVAVTSWHATYEGIIPKGTRDTFLVGAYSEDMLLRRLKGSHFFVAVVDAKVIGFANFSPVTDKGTMELAAIYILPEYQGMGVGTALLEAGKQINRNAAIYIHVEKENKQGTRFYEHKGFKKVEEFTEDFAGQQLQTVRMVLS NA NA NA NA NA AK015_01538 366 hypothetical protein ATGGATAAAGAATCGAAAAAAGAGCATGAAGTGAATGAGCGAATTCAATATACTGATCCCATTAGTGAAATGGTTAAACGGGCAGAAAGGGAAGGACAATTTGAAAATTTACCAGGAAAAGGAAAGCCACTAAAATTAAAGGGTGACAATTTTAGTCAAGAACAGCAGTTATATAAAACAATGAAGGATAATCACGTCTTACCAAAATGGATCGAATTAGCTAATGAAATTGACGTGTTAAAAGAAGAACTAGCTATTTTGCATGTAGAAGAAAGGAAGGCCAAAATAAAACTTACGAATAAAAAAATTAAACAATACAATCGCTTGTGCCCGCCTTCTTTACAGCGAAACAAAATACATGAATAA MDKESKKEHEVNERIQYTDPISEMVKRAEREGQFENLPGKGKPLKLKGDNFSQEQQLYKTMKDNHVLPKWIELANEIDVLKEELAILHVEERKAKIKLTNKKIKQYNRLCPPSLQRNKIHE NA NA NA NA NA AK015_01539 672 COG2968 26 kDa periplasmic immunogenic protein ATGTATCCCAACTATTATCAAATGCCTACAAGGACAGAGGCCGTCTTTAGTAGGACGATGAAAGTGTATGGAACAGGAAAAGTAATGGTGGAGCCAAATATTGCTTCGATTCAATTAGGAGTCGTTACAGAAGATCCATCCCTTACGAAAGCGCAACAGGAAAATGCGCGCATCATGAATCAAGTGATCCAATCTTTAAATGAATTAGGTGTACCTCCACAAGCAATACAAACCTCTTCCTTTACTATCCGACCTATTTTTGACTATAAAGATGGAAAGCCTGTAAATCAACGGTATCAGGTTATGAACACGCTTCAAGTTACACTTACAGATTTTGAAGCAATAGGAGCTATTATTGATAGGACTGTTCTAGAAGGAGTAAACCGCGTATTTGATATTCAATTTTCAACTGATCAGCAAGCAGCCGCTTATGATCAGGCTTTGCAAATTGCTTTAGAGGATGGAACTCGCAAAGCCAGCACCATTGCCCAAAATTTCCATGTAGTCTTAGATACCGTTCCGCTTAAGATTATAGAACAAACCTCACCACCTCCAGTAGCTTATAAAGCCTTTTCTGCTTCTGCTGAAAGTACCACGACACCGATTCAAGCCGGGCAAATAGAAATAGAAGCAAATGTAGAACTGTTATATCGGTATTCATTTGTCCAATAA MYPNYYQMPTRTEAVFSRTMKVYGTGKVMVEPNIASIQLGVVTEDPSLTKAQQENARIMNQVIQSLNELGVPPQAIQTSSFTIRPIFDYKDGKPVNQRYQVMNTLQVTLTDFEAIGAIIDRTVLEGVNRVFDIQFSTDQQAAAYDQALQIALEDGTRKASTIAQNFHVVLDTVPLKIIEQTSPPPVAYKAFSASAESTTTPIQAGQIEIEANVELLYRYSFVQ PGPT0012980_2172 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807 NA NA AK015_01540 969 hypothetical protein TTGATAATAAAGCCATTGCAAGCTCCACATTATCTTTTACAAATGGAAGCATTAGCACGAAGAATTTCACCTCATCACATATTAAAAGAGAGCATTACAAGTAAAGCGAAACGATTGCGAGCAGGTTATATAGGCGAAGCATCCCTTGAATATTATCTCCAATTTTTACCCTACCATAATTTCTTCATCTTCTATAATATACGCTTGAAAGATGAACACGGCTATTTTCAAATAGACATTCTCGTTGCCTCTACGAAGTTTCTCTTCATTTTGGAAGTGAAAAATATTAAAGATCATGTAATTTTTGATGACATGGGACAAGCTATTCGCTTTGTAAATGAAAAAGAAGAAGCTTTTACTCATCCAATATACCAAATAAATTTACAACACACGAGATTGCTTCGATGGTTGCGACAATACAACCTTCCGCCAGTCCCACTTGAAAAATTAGTCATTTATACTCACCCCAAAACCATTCTTAAAAATCTCACAAACGATCCGACGATTTCAAAACATATTATTCAAAAAGAAAAGCTACTTGAAAAGGTGGAGCTATTTCAAGAAACATATACGCAATCTTGCTTATCTGAAGAAGAACTGCTTCGTTTATCCTCTCTCCTAATTTCTTCTCATATAACAAAAGAGGTTGCTGTTATGCAGAAGTATGCGCTGACAAAGAATGAGCTTCTTCGAGGTGTATTTTGCTTTAACTGTAAGAAAAGCAAAATGTACTTTCATTATGGGATGTGGCGGTGCAGTAGCTGTCATCAACAGTCAAAAACAGCTCATCGACATGCGCTTTCTGATTATGCTTTATTGATAGAACCGTATATAACGAATCGCCAAGCTCGAGAGTATTTAGAAGTACCATCTTCCCATATGATGAAACGATTACTTATGAAAGAAAAAATGGGCGCTGTTGGAAATACTAGTGGCAGAAAATATAAGGTAGAAGTTTTACGATTCTAA MIIKPLQAPHYLLQMEALARRISPHHILKESITSKAKRLRAGYIGEASLEYYLQFLPYHNFFIFYNIRLKDEHGYFQIDILVASTKFLFILEVKNIKDHVIFDDMGQAIRFVNEKEEAFTHPIYQINLQHTRLLRWLRQYNLPPVPLEKLVIYTHPKTILKNLTNDPTISKHIIQKEKLLEKVELFQETYTQSCLSEEELLRLSSLLISSHITKEVAVMQKYALTKNELLRGVFCFNCKKSKMYFHYGMWRCSSCHQQSKTAHRHALSDYALLIEPYITNRQAREYLEVPSSHMMKRLLMKEKMGAVGNTSGRKYKVEVLRF NA NA NA NA NA AK015_01541 555 hypothetical protein ATGAAAATTTTAACCGTAACAGGATATAAACCAATGGAAATCAATATATTTAATGAGGAGGATGAACGGGTTACATATGTAAAGGCCGCAATAAAAAAGCGATTAATACCGATGATCGAGGAGGGCTTGGAATGGGTGATCCTATCTGGACAAATGGGTGTGGAAATGTGGACTGCAGAGGTGATATTTGATTTGCAAGATAATTATGATGTTCAATTAGGAATATTTCCACCGTTTGAAAATCAGGACAGTCGCTGGCCGGAGCCATTGCAAGAGAAGTACCAATCCATCGTTGCAGCAGCTGATTTTTATAAACCCTTATATCAAGGCGATTATCGTGGAGCCTATCAGTTTAAAGCAAAAAACTTATGGCTAGCGGATAAAAGCGACGCCTGCTTATTACTTATGGATCAGGAGTATCCAGGAAGTACGCGCTTCTTTTATGAAATAGCTAAACGATATTTACCAAATCATGCCATTTATACGATTACACCGACAGATTTAGACGATGTTGTTGAAGAAATTAGGATGGCTAATCCTGATTACTGGATGTAA MKILTVTGYKPMEINIFNEEDERVTYVKAAIKKRLIPMIEEGLEWVILSGQMGVEMWTAEVIFDLQDNYDVQLGIFPPFENQDSRWPEPLQEKYQSIVAAADFYKPLYQGDYRGAYQFKAKNLWLADKSDACLLLMDQEYPGSTRFFYEIAKRYLPNHAIYTITPTDLDDVVEEIRMANPDYWM NA NA NA NA NA AK015_01542 366 hypothetical protein ATGTGGAATCATCATGGGAAGTGTTGTCCCCCAAAGCAGGTCGTTCATCCAACAAAATATGATTGTGTAAAACAATGTAGTGAAAATGTTGTAGAGCATATTCACCCTTCGCATACGACGGTGCAAAATCATCATACGACAATTAATAAGCATGTATTTCCTCATTCTACTTCTGTACAAAATACAAATAGCAGTGTAGATGTATACGGTGGGTCTTTTAATGTGCCATCTCAAGTAGGAGGGGCAATGGCACCAGGAATGGGAAATGGTCAAGTAGCAGGAGCAATGGCGCCAGGAATGGGACCAGGAATGGGTCACGGCTGTCATAAGCCAAAACATTGCCAACCACCACATAAATGGTGTTAA MWNHHGKCCPPKQVVHPTKYDCVKQCSENVVEHIHPSHTTVQNHHTTINKHVFPHSTSVQNTNSSVDVYGGSFNVPSQVGGAMAPGMGNGQVAGAMAPGMGPGMGHGCHKPKHCQPPHKWC PGPT0025150_46 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025150-cotD-K06327 NA NA AK015_01543 537 hypothetical protein ATGATGCTAAACGTATATGAAAGGCTTTTAACTGGCGATAAACAGCAAAAGCAAGCGTATGAAGTAATCATGCATTTAAATCTACTGCATGATTTAAAAGCATATAATCCGATTTTATGCGGTACATTTCCTTTAGGGATTCATACTTCTAAGTCAGATTTAGATATCATTTTACATTCTAAAGATTTGCGGTGTTTGGAACAGAAGCTAAAGCGGTTATACTCGCACCATGAATCATTTACATTAAAACGTAAATATATTCGTGAACGGAAAGTGTTGAAAGTGAACTTTATTTATCAATCTTTCTCTTTTGAACTTTTTGCGCAAAATCAGCCAGTCAATGAGCAATACGCCTACTTGCACATGATTATTGAAGAAAAAATATTGTTAAAGTATCCTGAATGGAAACAGAAAGTGATTCACTTCAAACAATCAGGGGTGAATACAGAGGTAGCTTTTTGTAAACTACTAGGGCTTGAAGGGGACCCCTTTGAAGCGTTAATTCAATATGGAAAACAAAATCATATTATAGCATAA MMLNVYERLLTGDKQQKQAYEVIMHLNLLHDLKAYNPILCGTFPLGIHTSKSDLDIILHSKDLRCLEQKLKRLYSHHESFTLKRKYIRERKVLKVNFIYQSFSFELFAQNQPVNEQYAYLHMIIEEKILLKYPEWKQKVIHFKQSGVNTEVAFCKLLGLEGDPFEALIQYGKQNHIIA NA NA NA NA NA AK015_01544 585 hypothetical protein TTGGAAATTAAAGCCTACCATCCAAATGATGAAAAAGGATGGTTACAATGTAGGGTATTGGCTTTTCTATCAACAGCTTACTATGATAATGTCTTACAAGAAAAGGAAAAGTATAAGCATCCGTCTATTGAACTGGTGGCTATTCACCAAAACAAAGTAGTTGGGCTGATCGATGTAGAATATGAGGCGGAAAAGAATCAGGTATGTACAGGTGAACGGGGGCTTGGAGGAATGATTTGGAATCTTGCTGTACACCCTGATTATCAGCGACTTCAAATTGGACAGCAATTATTACACCGAGTCGAAAACCTTGCAATCGAAAAAGGCTTGACCTATTTGGAAGCATGGACAAGAGATGATGACTGGGTTGTAGACTGGTATAAGAAAAATGATATTCGCCCAGTTTATGCTTATTTGCATGTTTTTATGGAGGGTAAAAGTGAAATGCATTATGTAAAAAGTGAGGTTAAAGCGCTTCGTCCTGTTCAAGCTTGGGCTCATTACAATGGGGAGAACGAAGAATCTATTCGGCAAACATTTGAGCGAGTGCACACATGCACCGGTTTGGAAAAGAGGTTAAAATGA MEIKAYHPNDEKGWLQCRVLAFLSTAYYDNVLQEKEKYKHPSIELVAIHQNKVVGLIDVEYEAEKNQVCTGERGLGGMIWNLAVHPDYQRLQIGQQLLHRVENLAIEKGLTYLEAWTRDDDWVVDWYKKNDIRPVYAYLHVFMEGKSEMHYVKSEVKALRPVQAWAHYNGENEESIRQTFERVHTCTGLEKRLK NA NA NA NA NA AK015_01545 390 mscL COG1970 Large-conductance mechanosensitive channel ATGTGGAAAGATTTTAAAGAATTTGCGTTTAAAGGAAATGTGGTTGATTTAGCTGTAGCCGTTGTAATTGGAGCAGCATTTAGCGCCATTGTAACCTCCTTAGTAGAAAATATGATTACACCAATTATCGGCATTATTATGAATGGCATCGATTTTAGCAATTTATCAATCACCTATAAAAGTGCGACTATTAATTATGGGTTGTTCATCCAATCCATTGTTGATTTCTTTATTGTTGCAGGTTCTATATTTCTATTTATTCGGTTATTAATGAAATTTAAGCGTAAAAGAGAAGAAGATCCTGTAGAGGAAGTACTAGAAGTGAACGCCCAAGAAGAATTATTAAAGGAAATAAGGGATTTATTGAAAGCGCAGAGGAACAACAAATAA MWKDFKEFAFKGNVVDLAVAVVIGAAFSAIVTSLVENMITPIIGIIMNGIDFSNLSITYKSATINYGLFIQSIVDFFIVAGSIFLFIRLLMKFKRKREEDPVEEVLEVNAQEELLKEIRDLLKAQRNNK PGPT0013771_2526 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282 NA NA AK015_01546 291 hypothetical protein ATGGAGCAATTATTGAGGCAGATCAAGCTACTAAGTGAAAAAGAACCAAAAACATTGGAGCAAATGGCACTAAAATTATCAGAAGAGGTTGGAGAAACCTCACAAGCAGTATTATCTTACTTAAAAGTAAATGGAAGTGAATATAAACAATTAGGTATTCATGAAGTAAAAGAAGAATGTGTAGATGTCATTCTTGTAACGTTAGCTTTATTCTATAAAGTAGCTGAAAATGAAAATGAGTTACAAGAATTAATAATAAGAAAAATGGACAAATGGCAGCGTAAAATATAA MEQLLRQIKLLSEKEPKTLEQMALKLSEEVGETSQAVLSYLKVNGSEYKQLGIHEVKEECVDVILVTLALFYKVAENENELQELIIRKMDKWQRKI NA NA NA NA NA AK015_01547 333 hypothetical protein ATGAATGTCATTGAATTTCAACAATGGGTAAAGGAATATTATGAAAGTAGGGGCTGGTCCGAGTTAGACATTTTTATTCGTATCGGTTTTTTAGCAGAAGAAACGGGTGAAGTTGCACGCGCTATAAGAGCCCTTGAAATAGGAAGGGATAGGCCTGATGAAAAAAAGGAATCTTATGAGAAAAATAAGCAAGCGTTAACTGAAGAATTAGGGGATGTATTGGGTAATTTAATCGTGATTGCAAACAAGTACAATATCCCACTAAAAGAGGTGTTTCACTCACATAAGAAGAAACTCTCCGATCGTTATTTTAATGATGAGGCAAGCAAATAG MNVIEFQQWVKEYYESRGWSELDIFIRIGFLAEETGEVARAIRALEIGRDRPDEKKESYEKNKQALTEELGDVLGNLIVIANKYNIPLKEVFHSHKKKLSDRYFNDEASK NA NA NA NA NA AK015_01548 153 sspP Small, acid-soluble spore protein P ATGGGAGGTAAACCAAAAGGTCCAAAACAGCAATCACACCCTGACCTACCTGAAAGCCCGAGGCAACCTTATGGAGAACCGTTAGCTGGCTCTAAAAAGGTGAAAAAGGCAAATCATTCAAGACAAAAGCATAATCCACATCATGGGTTATAA MGGKPKGPKQQSHPDLPESPRQPYGEPLAGSKKVKKANHSRQKHNPHHGL PGPT0024935_39 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024935-sspP|cotL-K06433 NA NA AK015_01549 537 hypothetical protein ATGAAAATAAGAACAGAAAGATTGCTTATACGTAATTTTGAATGGGGTGATTGGCAAGAAGTGTATCACTATACATCCCAAAGCTCTGTTATGAAATATATGCCTGAAGGATTGCTATCAAAAGAGGAAACACAAAATTGTATTAAACAGAACATGGGTAAATCAGCCGAAAAATTCCCAGTAATATTAGTTAACACGAAAACTCTAATCGGCCACGTTGAATTTTTCGAATATTTCGGCAACCACACATATGAGATAGGGTGGGTATTTAATTCCAAATATCATAATAAAGGTTACGCATCAGAGGCTGCATTCGCAATGCTAAAATATGGATTTGAAGAGCTACAGTTACATAGGGTGGTAGCCACTTGCCAGCCAGAGAATGTTCCTTCATATCGTGTCATGGAAAAGATCGGTATGAGGAGAGAAGGCTACTTTAAAAAATGCATTCCTCATGAAGACGAATGGTGGGATGAATACGCTTATGCTATTTTGAGAGAAGAATGGAAAGGTAGCTCTGTCTCGTTATTATCCTAG MKIRTERLLIRNFEWGDWQEVYHYTSQSSVMKYMPEGLLSKEETQNCIKQNMGKSAEKFPVILVNTKTLIGHVEFFEYFGNHTYEIGWVFNSKYHNKGYASEAAFAMLKYGFEELQLHRVVATCQPENVPSYRVMEKIGMRREGYFKKCIPHEDEWWDEYAYAILREEWKGSSVSLLS NA NA NA NA NA AK015_01550 1377 nhaC_2 COG1757 Na(+)/H(+) antiporter NhaC ATGTTTCCAATTCAACCAAAACATCAACCAACTTTAGTAGGTGCCATTGCATTTTTTATTATCATTGTTAGTTTAATTAGCTTCTTTATTATTAAGTTGGGGACAAATCCACATATTCCAATTATTTTAGGTATTTTTCTATTACTTGCCTACGGTCTTATTCGCAAGATATCGTTTATTGATTTACAACATGGTCTAGTAGAAGGTGCTAAAACGGGAATGGGTGCTGTATTTCTATTTTTTGTCATCGGTATTCTAATTAGCAGTTGGATGATTAGTGGCACTATTCCAGCACTCATTAACCTTGGCTTTTCTTTTATTGGCACTACTTGGTTCTATTCTGTTGTATTTTCGATTACAGCAATCATCGGCGTCTCTATGGGAAGTTCATTAACAACAACTGCCACAATTGGAGTAGCTTTTATTGGTATGGGGGATGCTATGGGAGCATCGATGGCAATTACAGCAGGTGCTATTGTTTCAGGAGCTTTTTTTGGAGATAAAATGTCACCCCTTTCCGATACGACAAATCTTGCATCAACTGTAGTAGGTGTAGATTTGTTTGAGCATATTAAGCATATTAGTTTAACGACAATTCCTGCCTTTATTATTTCGTTTATTATATTCGCTCTTCTCTCACCAGAAGCAACTTCAACATCTATCGGAAGTGGAAAAGCGTATCAAGAAGCTTTGGAGGCAACGAATTTAATTCATTGGACTTCTTGGATTCCTCTAATTGTGCTAATAATTTGTACGTATTTCCGGATACCAGCTTTCATTTCTATTTCGCTGAGTAGCTTAGTTGCTACGACTTTTGCCGCCATTACAAGCAATCTAGCGTGGAATGAAATTTGGAGCATTTGGTTTAATGGTTACACTGCAACAACAGATTTTGAGCCAGTTAATTCACTACTTACAAAAGGTGGAATTAACAGTATGCTGTTTACGATTTCCTTAGTTATTTTGGCTTTAGGGTTTGGTGGGCTATTATTTGTAACTGGAATCATTCCTACATTACTATTAGCATTACAAGAAAAATTAAAACGCGTCCGTTCTATTGTCGTTTCAACAGCAGCAACAGCTATTGGAGTTAATATTTTAATTGGTGAACAATATCTCTCGATCATGCTAACAGGCGAAACGTACAAAACGATTTACACAAAAGCGAAACTACCGAAAAAAGTGCTAGCACGTACTTTAGAAGATGCTGGGACAGTTATTAATCCACTCGTACCATGGAGTGTATGTGGGGTATTTATTGCTGATGTTCTAGGTGTCTCTGTCTTAACCTATTTACCATTTGCTTTTTTCTGCCTGTTAAGCCCAATTATTACGATGTTTTTCAGCGGGAAGTCCTTTGAAGCTTCTAAAAAATAA MFPIQPKHQPTLVGAIAFFIIIVSLISFFIIKLGTNPHIPIILGIFLLLAYGLIRKISFIDLQHGLVEGAKTGMGAVFLFFVIGILISSWMISGTIPALINLGFSFIGTTWFYSVVFSITAIIGVSMGSSLTTTATIGVAFIGMGDAMGASMAITAGAIVSGAFFGDKMSPLSDTTNLASTVVGVDLFEHIKHISLTTIPAFIISFIIFALLSPEATSTSIGSGKAYQEALEATNLIHWTSWIPLIVLIICTYFRIPAFISISLSSLVATTFAAITSNLAWNEIWSIWFNGYTATTDFEPVNSLLTKGGINSMLFTISLVILALGFGGLLFVTGIIPTLLLALQEKLKRVRSIVVSTAATAIGVNILIGEQYLSIMLTGETYKTIYTKAKLPKKVLARTLEDAGTVINPLVPWSVCGVFIADVLGVSVLTYLPFAFFCLLSPIITMFFSGKSFEASKK PGPT0013945_1395 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315 NA NA AK015_01551 240 hypothetical protein ATGGTTGGATATATTCCAATAGCAATTACATACGGTGAATTGGCAAAACAGGCAGGGGCGTCGCTAACAGAATGGACATTAGTGAGCGTGTTTGTGTTTGCTGGAGCTAGTCAATTTATGGGGGAGAATATGATAGCGGTAGGAGCTGGAGCACTTGAATTAATTGTGCTCAATTTTCATGAGTTTGTCTTTTATGATATTAAAATGGAAACTTCCCATGTCGATGGGGCTAACAGATGA MVGYIPIAITYGELAKQAGASLTEWTLVSVFVFAGASQFMGENMIAVGAGALELIVLNFHEFVFYDIKMETSHVDGANR NA NA NA NA NA AK015_01552 135 hypothetical protein ATGTCGATGGGGCTAACAGATGAAATTTTTGCAGTTACAGCTATGTATCCAAAAAAAGCAAGCATCAAGCATGGCGTTTATTTTTATGGTGCAATTTTTCTCACTGCCTTTTTCTCATGGGTTATCGGTTTTTGA MSMGLTDEIFAVTAMYPKKASIKHGVYFYGAIFLTAFFSWVIGF NA NA NA NA NA AK015_01553 873 mneS COG0053 Manganese efflux system protein MneS ATGAATCATTCGGATAACTTAAAAAAGGGAGAAAAAGGGGCTTGGATAAGCATCTTTGCATATATCGTATTGGCTACTAGCAAATTAGTAGTTGCTGCACTTGGAAATTCTGAAGCTTTACGTGCCGATGGATTAAACAACGCATCAGATGTTGTTGCTTCCATAGCTGTTTTAATCGGTCTAAAAATATCTCGCAAACCACCAGATGAGGATCATCATTATGGGCATTTCCGAGCAGAAACGATTGCTTCTTTATTTGCTGCTTTTATTATGATGTTAGTAGGAATTCAAGTAATTATAGAAACAGTCCAATCTATCTTAAAGCAACATTATGTCCAGCCTGATATGCTAACAGCTTGGACAGCACTAGTAGCTGCTATCATCATGTTTATGGTTTATTTTTACAATTTACGTCTTTCCAAAGCTGTTGCAAGTTCTGCATTATATGCGGCTGCTCAAGATAACCGCTCCGACGCATTAGTTAGTATTGGTGCTTTTATCGGCATTATCGGTGCTCAGTTTGGCTTGTTTTGGCTAGACCCAATAGCAGGATTAGTTGTAGGTTTTATTATTTGTAAAACAGCTTGGGATATTTTTAAAGATGCTACACATACATTAACAGATGGTTTTGATGAGAAACAAATAGAAAAAATAAAATTAAGTGTATTAAAAGACCCTGATGTAAAACAGTTGTATGATATTAAAGGAAGAATTCACGGTAATCAAGCATTTATTGATATTACAATATTGGTTGACCCAAACCTTAATGTAGAAGAAAGCCATGCTATTACCGAACGAATTGAAAGATATTTATATAAAGAACACCATATTACTCATGCGCAAATTCACATTGAACCTTACCAAACTTTTTAG MNHSDNLKKGEKGAWISIFAYIVLATSKLVVAALGNSEALRADGLNNASDVVASIAVLIGLKISRKPPDEDHHYGHFRAETIASLFAAFIMMLVGIQVIIETVQSILKQHYVQPDMLTAWTALVAAIIMFMVYFYNLRLSKAVASSALYAAAQDNRSDALVSIGAFIGIIGAQFGLFWLDPIAGLVVGFIICKTAWDIFKDATHTLTDGFDEKQIEKIKLSVLKDPDVKQLYDIKGRIHGNQAFIDITILVDPNLNVEESHAITERIERYLYKEHHITHAQIHIEPYQTF NA NA NA NA NA AK015_01554 234 hypothetical protein ATGAAAAAGCAGAAGATTGTATACCAATTCTTTCGATACAATGGAAAAAAGGTAAAAGCGAAACGAGAAATTACGTTTGAACTGCGATTGTCTAGTCGTCTGCTTTTGGATGAAATATGTTTTAATTATAATAAGGCATATCTTGAGAAACAAATTAATCGTTCCATTGATGAAGGGAATAAAAATGCTTTTGTGAAATGGAGTAAAGCGTATAAAACCTTCCTTTGGGAATAA MKKQKIVYQFFRYNGKKVKAKREITFELRLSSRLLLDEICFNYNKAYLEKQINRSIDEGNKNAFVKWSKAYKTFLWE NA NA NA NA NA AK015_01555 1026 hypothetical protein ATGAACATTCGTGCAAAACTTACATTAGGCGTAGGTATTGGCGTAATTTTAATTGTTGTTTTCCTTATTTCTCGGTTTAATGAATTCGAGATTCAATCCCAACAGGAAGTTCCTATGAAGTTCCAAGCTTCTGGAGTAAAGTTATCCGGGTCGTTATATTTACCTAAGTCCCCCCCACCATATGATGTTGCTGTGTTTATACATGGAGACGGACCACAAAATCGGACTTCAAATGGGGACTATGCATTTATAATGAACGCTTTATTAAAAAACAATATTGCTTGTTTCTCTTTTGATAAAGCAGGGATAGGAGACTCTGAAGGCGATTGGCTCTCTCAAACTATGGAAGATAGGGCAAAGGAAATTGAATCTGCTATGCAAATGCTTCGAAAAGAAACGCAAGTTAATACCATTGGCGTTATAGGGTTTTCGCAAGGCGGATGGGTAACATCTGAACTCGCAAAAGATAAAACGAAAATGGATTTCATGGTCGTTATTGGTGGAGCTATCGATTGGATGGAGCAACACATTTACTATGAAAGTCATATCGCCAATCAAAAAGGATTTACTAAACAGGAAAAGCTGGCATATTTAAAGGATATTAGAAAATTAGATAATTTAATTGCACAAAACGCGTATGAAGACTACGTGAATTTTGTAAACCAAATGGCTTATGGAAAACCTATGTCAAAAGAGCGTTTTCAATTTGCTTATCTTAACCACGAGGCAAACGCAACGGATGGTATAAAAGATATTCAAGTACCTTTTCTTGGATTATTCGGTGAAAACGACTTAAATGTGGACGCACAAGAGAGTTATAACACATATAAAGCGATTTTCAATGATATGGGCAAGACAAATTATGAATTGGTGATGCTACCGAATGCTACTCACGAACTTTTAGATGCTAAATATAATACACAACGGGAAGACTTGACACGTGACGCTCTTTTATGGGGAGATCGGATTTATGCGGATGGGGCGCTGTTTACGTTAGTAGATTGGATCCAAAAGACCGTAGATTAA MNIRAKLTLGVGIGVILIVVFLISRFNEFEIQSQQEVPMKFQASGVKLSGSLYLPKSPPPYDVAVFIHGDGPQNRTSNGDYAFIMNALLKNNIACFSFDKAGIGDSEGDWLSQTMEDRAKEIESAMQMLRKETQVNTIGVIGFSQGGWVTSELAKDKTKMDFMVVIGGAIDWMEQHIYYESHIANQKGFTKQEKLAYLKDIRKLDNLIAQNAYEDYVNFVNQMAYGKPMSKERFQFAYLNHEANATDGIKDIQVPFLGLFGENDLNVDAQESYNTYKAIFNDMGKTNYELVMLPNATHELLDAKYNTQREDLTRDALLWGDRIYADGALFTLVDWIQKTVD NA NA NA NA NA AK015_01556 609 hypothetical protein ATGTATACGATTAAAAAAGGGTTTGACGAATCCAATAGACAAAGAGCAGCAAAATTATATAGCGAAGCTTTTGAGCGAAAATTTTCCAAAGTCGTGGGTAATAGAGAGGTTATTGAAGGTCTACTTGAACAATGTATGGATTCTCAGTTTTGTTTTGGTGCCTACAACGAAAACAACCAATTGGTAGGACTAATGGGGTTTCACATTGACAATCAAGCTTTGATAAAATTAAAGATTTCTAGCTTCATTAAAACATTTGGTGCTATTCGAGGGATCTATAAAGCATCTTTATTACAATTGCTTTTTAATCACAAATCGGACAATGCCAAACAATTACTAATGAACGGTGTTGCTATTGAGTCTACTTATCGTGGCAGAGGCATCGGTAGTCAACTTTTCGAAGCGTTATTCACCTTTGTAAAATCAGAAGGGTATGAAAGTATAAAATTGCACGTTATTGATGAAAACCCACGGGCTAAAGCACTCTACGAACGGCTTGGATTTGTACAAAAAAAACACGAAAAAATGCCTCGATGGGCGGCAGATTTATTTGGTGTAAGCGGATTTTCAGCAATGGTATTACCAATACGCGAAAAGGAAAAGAAATGA MYTIKKGFDESNRQRAAKLYSEAFERKFSKVVGNREVIEGLLEQCMDSQFCFGAYNENNQLVGLMGFHIDNQALIKLKISSFIKTFGAIRGIYKASLLQLLFNHKSDNAKQLLMNGVAIESTYRGRGIGSQLFEALFTFVKSEGYESIKLHVIDENPRAKALYERLGFVQKKHEKMPRWAADLFGVSGFSAMVLPIREKEKK NA NA NA NA NA AK015_01557 729 hypothetical protein ATGAAAGATACATACTCTATTGGCGAAGTAGCAAAACTGCTTCAAATCTCGATTCATACCATTCACTATTATGAAAAAGTTGGTTTACTTCCTAAAATAGATCGATTAGAAAATGGTTACCGTTATTTTGATACAGAATCAATATTACGCTTAAAAGGTATTGTTTTGCTTAGAGCGTGCGGAATGTCCATAGATAATATCTTGAAAATTCATCAAGATAATTCTATTGAAAATAATCTTGATTTAATGCTAGATACATCTAAAATGCTGGAAAGTCATATTACGGAGCTTCAAAATATAAAAAGAGAGCTGGATGAAGCCATTATTGCCTCAAAAAATTTCCATACTAAAGCTAGCTCTTCGATTGTAATGGAAAAAATTACAGGGTGGTTTAACCCTTACTTTAACAATGAAATTTCTCTAACTGATTTTTTAGAGGATGACGATACAGCTTGGCTTCTCCAAGATGAGGAATTTGTTATGGGAAAAATAAACGCATTACAAGAATCGGAAGACTCCCTTTCACTGGAAGATCAGTTATATTTATGCTGTTACTTTTCATTTAATAATGAAGAAGCAATCGAACAATCCTTAAAAAAGTTGCTCGCTTATGCGGCAAATAAAAAGTATAATACGAAAGATTATGCTCTTTTGACGGTATTGTCGAAACCATCCATTTCCCTAGGGCACCATTTAGCAGGACGCCTTATGCTGGCATTACACAATTAA MKDTYSIGEVAKLLQISIHTIHYYEKVGLLPKIDRLENGYRYFDTESILRLKGIVLLRACGMSIDNILKIHQDNSIENNLDLMLDTSKMLESHITELQNIKRELDEAIIASKNFHTKASSSIVMEKITGWFNPYFNNEISLTDFLEDDDTAWLLQDEEFVMGKINALQESEDSLSLEDQLYLCCYFSFNNEEAIEQSLKKLLAYAANKKYNTKDYALLTVLSKPSISLGHHLAGRLMLALHN NA NA NA NA NA AK015_01558 1296 hypothetical protein ATGAAGAAAAAGACCACCCTTAGTTGGGTGCTTTACGATTTTGGTAATTCTGCTTTTGCAACAACGGTTATGGCGGCGGTTTTACCGGTTTTTTATTATGATGTCGCAGCAGTTGGTGCAAATCAAGATTTAGCGGCTAGCTTTTGGGGGTATTCTCAATCTATTGCTGTGTTAATCGTAGCTATTTTAGCACCAATCTTAGGGGCAATTAGTGATTATTCAGCTGCGAAAAAGCGTTTTTTGCAGTTTTTTGCATATATGGGAATGATCGCTAGCATTTTACTTGCTTTCGTTGGTGAAGGAGACTACATATTTGCATCTATACTACTCATTATTGGAACGATTGGGTTTTCAGGGGGGAATGTTTTTTACGATGCATTTTTACCTGAAATCGCCAAAGAAGGCGATATGGACAAAGTGTCTGCTGCAGGTTTTGCTTGGGGATATATAGGTGGAGGAGTGCTCTTAGCGATTAACATACTAATGATTTTAAAGTTTGATTGGTTTGGAATTGCAAATGCTACAGCGGCGAGTCAGCTAGCTTTTGTAACCGTCGGAATATGGTGGTTTTTATTTTCACTTCCACTTTTTCGTAATATTCACGAAGAAAAGAAACAAGTTGTAAAAAGGGATAAATCGTATGTAGCTATTGGTTTTTCTAGAGTTGTTACTACATTTAAAGATATAAAACAATACAAGCAATTATTAATCTTTTTATTAGCTTTCTGGATGTATAATGATGGCATCTCTACCATTATAAAAATGGCTACCATTTATGGAAGAGACATTGGAATAGATGGAAACAGTTTAATTGTAGCTTTATTAATTACTCAATTTATAGGCATTCCTTGTACTTTTTTCTTTGGGTGGCTTGCGAGTAAAATAACTGCAAAAAAAGCCTTGTTGATTTCTTTATATGCATATACAGGTATCGTATTACTTGGATATTTCATGACATCAGCTTTGCATTTTTATTTGCTTGCTATTTGTGTAGGGGTTGTACAAGGGGGAGCACAGTCATTAAGTAGATCGATTTATGGTCGTATGGTCCCGGAACATAAGCACGCTGAGTTTTTTGGTTTTTACGGTATTTCCTCTAAGTTTGCTGCTATTTTTGGGCCGTTCTTATTTGGACTTGTGGGGCAGCTTTTAGGATCAAGCCGTTATGGAATTATCTCTTTACTCGTCTTTTTCATTGGCGGTATCCTTTTATTAAGGTTTGTGAATATAGAAAAAGGTATTGCGGACGCTGCAAGGCAAAACCCCGCTTCAGAAGCTGGGGTTATACTAAAATAG MKKKTTLSWVLYDFGNSAFATTVMAAVLPVFYYDVAAVGANQDLAASFWGYSQSIAVLIVAILAPILGAISDYSAAKKRFLQFFAYMGMIASILLAFVGEGDYIFASILLIIGTIGFSGGNVFYDAFLPEIAKEGDMDKVSAAGFAWGYIGGGVLLAINILMILKFDWFGIANATAASQLAFVTVGIWWFLFSLPLFRNIHEEKKQVVKRDKSYVAIGFSRVVTTFKDIKQYKQLLIFLLAFWMYNDGISTIIKMATIYGRDIGIDGNSLIVALLITQFIGIPCTFFFGWLASKITAKKALLISLYAYTGIVLLGYFMTSALHFYLLAICVGVVQGGAQSLSRSIYGRMVPEHKHAEFFGFYGISSKFAAIFGPFLFGLVGQLLGSSRYGIISLLVFFIGGILLLRFVNIEKGIADAARQNPASEAGVILK NA NA NA NA NA AK015_01559 912 hypothetical protein GTGCCCAATATTTGGACTCATATTATGTTTTGTGAAGAAATGGCTGATGCGGTAACAAAAACACATCAATTTCCAAGTTACGAACCCATGATGAAATTAGGCGCCCAAGGGCCTGATCCTTTCTTTTATCACCGTTTTTGGCCATGGATGAAAGAAGGAAAAGCTCAAGAAATAGGCTTAGCATTACATGAAACAAAATGTGGGCCATTTTTACTTGATTTAATACACACAGCTAAAAGAAAGGATAACCAAGTAAAAGCTTATGTATTTGGCTTTATTACTCATCATATATTGGATCGCAATACACATCCATACATTCATTACTACGCAGGTTATGAAGGGAATAAACACCAAAAATTAGAAATCATTATTGATACGTTGATGCTGCATAAGTTCAACAACTTAAAGACATGGAAAACGCCGGTTTATAAAGAAATTGACGTTGGAAGAAAATTAGATAAACAAATTGTTCACTTACTTTATCAAATAATTAATAAACACTATCCAGAATTAAAAGCAACTCCATTCTATATTCAAAAATCATATAAAGATATGAAATTAGCCTTAAAAATATTATCAGATCCATATGGGTGGAAGAACCGTCTTCTCCCTTCCCTTATTTCATCCTATTCTCATCAACCAGTGGAAAATAAGAAGGATTATTTAAATGAGCAAAAAAATACTTGGTATCACCCCGCAACAAGAGAACCAAGCAACAAAAGCTTTATTGAACTATATCAACAGGCAAAAGCAGAAGGGGTAAAAATTTTAACTACTGTTCATAGTTATTGGAAAGAACAACATGATGAGCTGTATCATGAGTTAGCTCTTCAAATTGGCAATATATCTTATGATACAGGCAAGAGTCTTGCGCTAAAACTAGCCAACCAATATGCTGATCCAATCGTATAG MPNIWTHIMFCEEMADAVTKTHQFPSYEPMMKLGAQGPDPFFYHRFWPWMKEGKAQEIGLALHETKCGPFLLDLIHTAKRKDNQVKAYVFGFITHHILDRNTHPYIHYYAGYEGNKHQKLEIIIDTLMLHKFNNLKTWKTPVYKEIDVGRKLDKQIVHLLYQIINKHYPELKATPFYIQKSYKDMKLALKILSDPYGWKNRLLPSLISSYSHQPVENKKDYLNEQKNTWYHPATREPSNKSFIELYQQAKAEGVKILTTVHSYWKEQHDELYHELALQIGNISYDTGKSLALKLANQYADPIV NA NA NA NA NA AK015_01560 1386 fumC Fumarate hydratase class II ATGGAGTATCGTATAGAAAAAGATACGCTTGGAGAAATTCATGTACCAAAAGAAAAATATTGGGGAGCGCAAACACAAAGAAGTAAACAGAACTTTCCTATTGGTAAAGAGACAATGCCATTAGAAATAATTAAAGCGTTTGCGATTTTAAAAAAAAGTGCAGCTCTTGCAAATAAAGAACTAGGTCTTATGGAACCAAAAAAAGCGGAAGCAATTGAAGTAGCTGCAGATCAAATTGTTCGAGGGGAATTAACAGAACACTTTCCTTTGGTAGTATGGCAAACAGGTAGCGGTACACAATCAAATATGAATGTGAATGAAGTTATTGCACATGTAGGGAACAAATGGTTGAAAGAACAAGGAAGTGAATGGACTTTACATCCTAATGATGAGGTGAATAAGTCTCAAAGTTCCAATGATACATATCCTACAGCTATGCATATAGCATTTGTTTTGAAGCTGGAGGATAAAGTTCTACCTGCTTTACGTACATTAAAAGATACACTAAAAGTAAAGATGGACAACTATCAAGATATTGTGAAAATTGGCCGGACTCACTTGCAAGATGCTACGCCACTAACGTTAGGACAAGAAATTAGCGGCTGGCACCACATGCTTGAAAAATCAGAAATGATGATCGAGCAAAGTACTACTTATTTAAAAGAATTAGCAATTGGTGGCACCGCTGTTGGTACAGGTTTAAATGCTCATCCAGAATTTTCGGAGCGAGTGTGTAAGCAGATAAATGCCGCTACCGGTAAAAACTTTATCTCCGCTCCGAATAAATTCCACGCTTTAACGAGTCATGATGAGTCTGTTTATGCACATGGCGCTTTAAAGGCATTGGCTGCTGATTTAATGAAAATAGCTAATGATGTGCGCTGGCTTGCTAGTGGACCAAGATGTGGAATTGGCGAAATTAATATTCCAGCGAATGAACCAGGAAGTTCCATCATGCCAGGCAAAGTAAACCCAACGCAAAGCGAAGCAGTTACGATGGTTGCTACCCAAGTGATGGGAAATGATGCAACTATTGGTATTGCAGCTAGTCAAGGTAATTTTGAATTAAATGTCTTCAAACCAGTAATCGCATATAATTTCTTACAATCTTGTGAGCTTCTGGCAGATAGCATATTATCATTTGATGATCGTTGTGCAAAAGGAATTGAACCGAACTTAGAGAATATTGACAAAAACTTAAAAGATTCTTTAATGTTAGTAACAGCATTAAATCCACATATTGGATATGAGAATGCAGCTAAAATAGCCAAAGCTGCTTTTGAAAATAATGCAACATTGAAAGATACAGCAGTCAAATTAGGCTTACTTACCGAAGAACAGTTCGAACAATATGTAAATCCTAAGGAAATGACTTATCCAAAGTAA MEYRIEKDTLGEIHVPKEKYWGAQTQRSKQNFPIGKETMPLEIIKAFAILKKSAALANKELGLMEPKKAEAIEVAADQIVRGELTEHFPLVVWQTGSGTQSNMNVNEVIAHVGNKWLKEQGSEWTLHPNDEVNKSQSSNDTYPTAMHIAFVLKLEDKVLPALRTLKDTLKVKMDNYQDIVKIGRTHLQDATPLTLGQEISGWHHMLEKSEMMIEQSTTYLKELAIGGTAVGTGLNAHPEFSERVCKQINAATGKNFISAPNKFHALTSHDESVYAHGALKALAADLMKIANDVRWLASGPRCGIGEINIPANEPGSSIMPGKVNPTQSEAVTMVATQVMGNDATIGIAASQGNFELNVFKPVIAYNFLQSCELLADSILSFDDRCAKGIEPNLENIDKNLKDSLMLVTALNPHIGYENAAKIAKAAFENNATLKDTAVKLGLLTEEQFEQYVNPKEMTYPK PGPT0001650_3875 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 AK015_01561 198 sasP-C_1 Small, acid-soluble spore protein C ATGGCTAGAAACAGTTCAAATCAGCTAGTCGTTCCTGGTGTACAGCAGGCTCTTGATCAAATGAAGTATGAAATTGCTCAAGAATTTGGTGTGAATTTAGGTCCAGATTCTACTTCTCGTGCTAATGGATCAGTTGGAGGAGAGATTACGAAACGACTTGTGCAAACAGCACAACAACAATTAGGACCAAAAGCATAA MARNSSNQLVVPGVQQALDQMKYEIAQEFGVNLGPDSTSRANGSVGGEITKRLVQTAQQQLGPKA PGPT0024865_306 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 AK015_01562 1098 msmX COG3839 Oligosaccharides import ATP-binding protein MsmX ATGGCTGAACTACGCTTAGAACATATTCAAAAAGTTTACGACAAAAAAAATATTGCCGTTGATGATTTTAATCTTCATATCCAAGATAAAGAATTTATTGTCTTTGTTGGTCCATCTGGTTGTGGTAAATCAACAACACTTCGTATGATTGCAGGATTAGAAGAAATTTCCGATGGTGACTTCTACATTGACGATAAGAAAATGAATGACGTAGCACCTAAAGATCGAGATATTGCAATGGTATTTCAAAACTATGCGCTATACCCTCATATGAATGTCTATGACAACATGGCATTTGGCTTAAAGCTAAGAAAATTTAAAAAAGATGAAATTGATAAGCGTGTAAAGAACGCTGCAAAAATATTAGGGCTAGAACCTTACCTGGATCGTAAGCCAAAAGCATTGTCCGGGGGACAGAGACAAAGGGTAGCGCTAGGAAGAGCTATCGTTCGTGATGCAAAAGTATTCTTAATGGATGAGCCTTTGTCCAACCTTGATGCAAAACTACGTGTTCAAATGCGTGCCGAAATTCAAAAGCTACATCGTCGCTTGCAAACAACTACTATTTATGTTACACATGATCAAACAGAAGCGATGACAATGGCAACACGACTTGTTGTTATGAAGGACGGAATTATTCAACAAATTGGTGCCCCAAAAGACGTTTATGACAATCCTGATAATGTATTCGTCGGTGGTTTTATCGGATCACCTTCTATGAACTTCTTTACTGGAAAATTATCAGAAACACATTTTGAAATTGGTAATACGAAAATTGCAGTTCCTGAAGGTAAATTAAAACCATTACGTGAACAAGGATATATAAATAAAGATGTTACATTAGGTGTTCGACCTGAAGATATTCATGATGAGCCGGTGTTTATTGAATCATCTCCAGACACAAAAATTACCGCTACCATAGAAGTGGCTGATTTAATGGGTGCTGAAACCTTCCTTTATTCCAAAATTAATGAGCAAGATTTCATCGCTCGCATTGACTCAAGAACAGATATTAATGTCGGCTCCAACATTGATTTAGCACTTGATATGAATAAAGCGCACTTTTTTGATATTGAAACAGAATTGCGTATTCATTAA MAELRLEHIQKVYDKKNIAVDDFNLHIQDKEFIVFVGPSGCGKSTTLRMIAGLEEISDGDFYIDDKKMNDVAPKDRDIAMVFQNYALYPHMNVYDNMAFGLKLRKFKKDEIDKRVKNAAKILGLEPYLDRKPKALSGGQRQRVALGRAIVRDAKVFLMDEPLSNLDAKLRVQMRAEIQKLHRRLQTTTIYVTHDQTEAMTMATRLVVMKDGIIQQIGAPKDVYDNPDNVFVGGFIGSPSMNFFTGKLSETHFEIGNTKIAVPEGKLKPLREQGYINKDVTLGVRPEDIHDEPVFIESSPDTKITATIEVADLMGAETFLYSKINEQDFIARIDSRTDINVGSNIDLALDMNKAHFFDIETELRIH PGPT0016310_3575 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 AK015_01563 900 hypothetical protein ATGAACGAACGTCTGAAAAAAATATTTCCTAATCTTATTGTGGAACCAAAAGACGCCTCGCCAACATCAACTGTGTATAAATGGTTTTTATTACAAAATGGTACGAAAGTAGGTATACCTAAACAAGACTTAACAGATAAAGATATACATTTATTAGCAACATTTCTTACCCCTTACCGAGCCGATCTGCCACATCCCACGAAAAAAGAAATACGATGGCAAAGCATTGTCCAACAATCCATTGAACACGTTCCAACTGAGCCATTAACCTCTTACCGATTTGTTTATTTTTCTATGAAGGAAAAACAAATTGAACCGTTGATGTTTAAAGAATCGGTTCAAACATTATTCAATTATGAAATAGCCATTTTATGGAAAAACAGAAATGAAGGGGTATTTATTGAAGAAAAGATGGGAGCTCAGGATGAAAGCATTCCATATGAACAAATCATTGATGTATTAATGAATGACTTATCTGTAAATATACGATTTTTAGTTGGACCTTATTTAAATAGCTATCAACAAGCAAGTGATCAATATATGCATATATTAGCCTACGCGAAAACGGCGTTCAAATATGCACCTAAAGCCGTTTTAAAATATCAAGAAGCATTGCCCTACATATTGTTAGAACAAACGGATGACAAATTTCAACATCACTTGTCTGAAGTGGCTTTACAAGAATTTGCGACCGATAAAGACTTTTTACAAACAATACGTACTTTTTTACAATGTAATTTGAATATTTCCGTTACAGCCAAAAAATTATATATGCACAGAAATAGCTTACAATATCGAATAGATAAATTTATTGAAAAAACTGGAATTGATCTTCGACAATTTCACGAGGCCGTTACTGTCTATTTTGCACTTCTAGCAAACATGCACAAAGACGAATGA MNERLKKIFPNLIVEPKDASPTSTVYKWFLLQNGTKVGIPKQDLTDKDIHLLATFLTPYRADLPHPTKKEIRWQSIVQQSIEHVPTEPLTSYRFVYFSMKEKQIEPLMFKESVQTLFNYEIAILWKNRNEGVFIEEKMGAQDESIPYEQIIDVLMNDLSVNIRFLVGPYLNSYQQASDQYMHILAYAKTAFKYAPKAVLKYQEALPYILLEQTDDKFQHHLSEVALQEFATDKDFLQTIRTFLQCNLNISVTAKKLYMHRNSLQYRIDKFIEKTGIDLRQFHEAVTVYFALLANMHKDE NA NA NA NA NA AK015_01564 354 hypothetical protein TTGCCAAATATTTATGATAGTGCATATGATTTAGAAACAGCAATCCGTGAAAGTGAAGAGTTTAAGGCTTTAAAACATGCTTATGATGAAGTGATGAACGACTCATCTGCTAAACAGATGTTTGATAACTTTCGGGAAACACAAATGACTTTACAAGAAAAACAAATGCAAGGTCAGGAAATATCGGAAGAAGAAGTAGAAAAAGCAAGGCAAGTTGTTGAAGTTGTTCAGCAACATAAAGCAATTTCTAAATTGATGGAAGAGGAACAACGGCTTAATATGGTAATTAATGATATTAGTCGGATTATTACGAAACCTTTAGAAGAGCTTTACGGCCCTGAAGCAAACGCATAG MPNIYDSAYDLETAIRESEEFKALKHAYDEVMNDSSAKQMFDNFRETQMTLQEKQMQGQEISEEEVEKARQVVEVVQQHKAISKLMEEEQRLNMVINDISRIITKPLEELYGPEANA PGPT0026336_51 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA NA NA AK015_01565 774 paaF COG1024 2,3-dehydroadipyl-CoA hydratase ATGGGAACGACAGTTATTTATGAAAGTAAGGAAGGAATTTCGTATATTCATTTGAATCGTCCGGAACGTTACAATGCGCTTCATTTAGAGATGTTAGATGAGTTATTAACGACGATTGAAAAAGTGGAGGCAAATGATGATAAAGTTGTTATTCTTTCTGGTGAAGGAAATGCATTTTGCTCAGGTGGAGATATTTCCATGATGAATCAATTAGCAGATTATAACGATTTTGCATCCATTATGGATTTAATTGGTAAGATTACGTTGAAGCTATTTATGATGCCAAAAATAGTAATCAGCGCTATTCAAGGGTCAGCTGTAGGGCTAGGGCTGAGTTATGCATTGACTGCGGACTTTGTTGTAGCACAGCAAGAAGCAAAGCTCGGTATGTTGTTTATTGGCATTGGTTTAGCTCCAGATGGAGGGGGGCATTTTCTGTTAAAGGAGCGAATTGGAGTGCAAAGGGCAAAACAATTTATTTGGAGTTTACAACAAATGGATGCTAGCAGCGCTAAAAAAATTGGATTGGTCGATGAATTAGCGCCAGAACGCGTGATGCCATATGCTATTCAATTGGCAAATAAATTAAAACAGACACCAATACTATCTATGGTGGAAACAAAGATGATGTACCATTCACACCAAAAAGAAACGCTTCTTGATTTTTTAGAAGCGGAAAAAGAGGCACAGTGGAAGTTACGACACACACAAGATCACGAAGAGGGTGTACAAGCTTTCTTAAATAAACGAAAGCCCGAATTTCAAGGGATTTAG MGTTVIYESKEGISYIHLNRPERYNALHLEMLDELLTTIEKVEANDDKVVILSGEGNAFCSGGDISMMNQLADYNDFASIMDLIGKITLKLFMMPKIVISAIQGSAVGLGLSYALTADFVVAQQEAKLGMLFIGIGLAPDGGGHFLLKERIGVQRAKQFIWSLQQMDASSAKKIGLVDELAPERVMPYAIQLANKLKQTPILSMVETKMMYHSHQKETLLDFLEAEKEAQWKLRHTQDHEEGVQAFLNKRKPEFQGI PGPT0006070_2668 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866 NA NA AK015_01566 186 hypothetical protein ATGCGACATTATACGTTGACTGTGTTTGATCCGTCTGGAGAAAAGTTGTTAGATGAAACTTTTACAGCTACAAACGATGAAGAAGCGAAAGAAATCGGTACGGCTAAATTAGAAAAGGAAGGTTATTCCGAACATACACACCGTTGTGTTACACCAGATGCTAAACTTCTTTTGTTTCATCGTTGA MRHYTLTVFDPSGEKLLDETFTATNDEEAKEIGTAKLEKEGYSEHTHRCVTPDAKLLLFHR NA NA NA NA NA AK015_01567 210 hypothetical protein GTGAAAACACTTATTCGTGAAAAACGTATTCAGTTTGATATGACGCAAGAAGATTTATCACATAAGTTGAAAGTATCAAGACAAACGATCATATCCTTAGAAAAAGGAAAATATAAACCGTCGCTCATACTGGCTCATAAATTGGCACAGACATTTAACTGTACCATAGAAGATATTTTTATTTTTGAGGGGGATGAGAATGTTAAGTGA MKTLIREKRIQFDMTQEDLSHKLKVSRQTIISLEKGKYKPSLILAHKLAQTFNCTIEDIFIFEGDENVK NA NA NA NA NA AK015_01568 324 hypothetical protein ATGTTAAGTGACATATATCTCGAAAAACCTATTGTAATTTGGATATTTCTTGTAGGAAATTTGCTTTTACTTCCGATTGTTTATTTTATCACCCGAACTATTGGTCAAAAAAAACGTTTATTTGATGAACGACATAAAGAAATTATGAACCAAGCAAAAGCGAAGTCTTGGAATATTACTTTTTTTGTCCTTTTAATCGCCTATATTGTTATGATGCTGTTGAATTATTATTATCTGCATCTCATTGTAATGTCTATTATATTCCAATTACATTGTGGATCTTTTATGGTTGCTTCCGTTTATTTTAGATCAAAAGTAGAATGA MLSDIYLEKPIVIWIFLVGNLLLLPIVYFITRTIGQKKRLFDERHKEIMNQAKAKSWNITFFVLLIAYIVMMLLNYYYLHLIVMSIIFQLHCGSFMVASVYFRSKVE NA NA NA NA NA AK015_01569 897 COG1131 Multidrug efflux system ATP-binding protein ATGTTACAACTAAAAGAAGTGACAAAGAAATTTGGGACTCATACTGCTGTTGACCAGCTGTCCTTGGAAATACCTGAAAGAGAAATGTATGGGTTTTTGGGCGGAAATGGTGCTGGGAAAACGACAACATTTCGCATGATTTTAGGATTATTAGACAAAACATCTGGAGACATATCGTGGGAGGGAAAGGCAGTTAATTATGAAAAGAGTCATTTAATTGGCTATCTTCCTGAGGAAAGGGGACTTTATCCGAAGTTAACTGTGAAAGATCAACTTACTTATTTAGCGAGGCTTCGAGGAATGGGAAAGACAGAAGCAATTAAAGAGTTAAAATCCTGGCTTGATCGATTTCAAGTTCCAGAATATCTAAATAAGAAAGTTGAGGAATTATCCAAAGGAAACCAACAAAAAATTCAGTTTATTTCAGCGATCATCCATAAACCGAAACTATTAATTTTAGATGAACCTTTTTCCGGACTGGATCCAGTAAATGTGGAAATGCTAAAAGAAGCAGTGGTGGATTTAAAAGAAAAAGGGACATCGATTGTTTTTTCTTCTCATCGCATGGAGCATGTTGAAGAGCTTTGTGAGCATTTATGCATATTACATAAAGGCAAGCAAGTCGTTCAAGGGTCATTACGGGAGATAAAACGTTCCTTTGGTAAGAAAAACTTAAGTGTTTATGCTGACTTTTCCGTTGATTTTCTTAGAGATTTTCCTGGTGTTACGAAATATAAATCCGTTATGGATGGGTGCGAGTTACAAATTGAAAATGAAGCAGTGTCTCAAGGAATTTTTACTGCTATACAAGGTAAGGGGTTTGTAAGAAAATTTGAGTTGGAAGAGCCGTCTCTCAATGATATTTTTATTGCGAAAGTAGGTGCTTCCTATGAATAA MLQLKEVTKKFGTHTAVDQLSLEIPEREMYGFLGGNGAGKTTTFRMILGLLDKTSGDISWEGKAVNYEKSHLIGYLPEERGLYPKLTVKDQLTYLARLRGMGKTEAIKELKSWLDRFQVPEYLNKKVEELSKGNQQKIQFISAIIHKPKLLILDEPFSGLDPVNVEMLKEAVVDLKEKGTSIVFSSHRMEHVEELCEHLCILHKGKQVVQGSLREIKRSFGKKNLSVYADFSVDFLRDFPGVTKYKSVMDGCELQIENEAVSQGIFTAIQGKGFVRKFELEEPSLNDIFIAKVGASYE PGPT0006725_16089 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_01570 1251 yhaP_2 COG1668 putative protein YhaP ATGAATAAGTTTTGGATTATTTTAGGGCATACGTATACGACTAGAGTGAAATCGAAATCATTTATCATTACAACACTCATTACACTCATCTTTATATTTGCTTTAACGAATATAAAAACGATTATCGATGTTTTTTCTGATGGGGAAAAAGATCAAATTGCTGTTATTGATGAGACAGATGAACTATTTAAGCCACTTGCCGAAAATGTGGAACAAGCCAATGAAGATATAGAACTTGCGCTTTATGAGGACACAGAAGAAAAAGCAAAACAAGCGGTAGAGGAAGAAGACTATGCAGCGCTTATCCTTTTGAGTAAAAATGAAAAGCAACTGCCAGAAGCAACTTATTACGCGAATAGTATTTCCGAATCAAGTTTACAAACGACATTAGAGCAACAGCTACAGCAGCTGAAAATAATGTATGCTACAGAGCAAGCTGGTGTTGATCCAGCGACACTAGCTATGATTAATGAACCGGTAGTGTTTGATACCATTGCTTTAGATGAATCAGCTAAAACGGAAGAAGAACTGAATCAAGCTCGCGGCATTGTATACATCATGTTATTTTTGTTATACATGACTGTTATTATGTATGGCAATATGATTGCTACAGATGTAGCAACGGAAAAGTCATCCCGAGTAATGGAAATTCTTATTTCCAGTGCACCGCCTGTAACACATATGTTTGCTAAAATTATTGGTGTTGCATTAGTCGGCTTAACACAAATAGTTCTGTTTTTAGGTGCTGGTTATGCGCTTATTACTGCCAAAGATGAAGCAACTAAAGAACTATTTGCACAGTTTGGGATTGGCTCTGCTTCTACATCGATTTATATTTATGCTATCGTATTTTTTATCTTAGGCTATCTTCTCTATGCGACACTTGCAGCCATGTTAGGGTCGTTGGTGAGTCGAATTGAAGATGCGCAACAAATCATTATGCCGATGACATTTTTGATTGTTATCGCATTTGTTATCGCAATGAGTGGCCTTTCTACACCAGATGCTGGGTTTATTAAAATCACTTCGTTTATTCCATTTTTTACACCGATGATTATGTTTCTCCGTGTAGGTATGTTAGATATTCCTGTTTGGGAAATTGCCTTATCTATCGGTCTTTTAGTTGGAACCATCATTATTTTAGCGATTCTCGGAGCTAAAGTGTACCGTGGAGGAGTTCTCCTGTATGGTCGATCTAGTTCACTAAAAGATTTAAAAAAAGCACTAGCATTATCAAAAAAAGAAAAATAA MNKFWIILGHTYTTRVKSKSFIITTLITLIFIFALTNIKTIIDVFSDGEKDQIAVIDETDELFKPLAENVEQANEDIELALYEDTEEKAKQAVEEEDYAALILLSKNEKQLPEATYYANSISESSLQTTLEQQLQQLKIMYATEQAGVDPATLAMINEPVVFDTIALDESAKTEEELNQARGIVYIMLFLLYMTVIMYGNMIATDVATEKSSRVMEILISSAPPVTHMFAKIIGVALVGLTQIVLFLGAGYALITAKDEATKELFAQFGIGSASTSIYIYAIVFFILGYLLYATLAAMLGSLVSRIEDAQQIIMPMTFLIVIAFVIAMSGLSTPDAGFIKITSFIPFFTPMIMFLRVGMLDIPVWEIALSIGLLVGTIIILAILGAKVYRGGVLLYGRSSSLKDLKKALALSKKEK PGPT0006730_3334 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_01571 1224 yhaO COG0420 putative metallophosphoesterase YhaO GTGTCAGAAGAAATTACGTTTATTCATGCGGCTGATTTGCATTTAGACAGTCCATTTAAGGGGTTAGCTTCTGCACCTGAAGCTATCTTTCAAGAAATACGGAAAAGTACATTTACAGCTTTGGAACATTTGGTTCATAAGGCGATTCGATATCAAGTAGATTTTATATTACTTGTAGGAGATTTGTTTGACAATGAACAACAAAGCTTGCAAGCACAAATTCGATTAAAACGAGCTTTTGAAACGCTTCAACAATATAATATTACCGTGTTTTTATCTTATGGAAATCATGATCATGTGGAGGGGAATCCTCGTTTTGTTCCTTATCCTAATAATGTGATTGAATTTTCAAATGAAACGGTATCTTCGTATACATATGTCAAAAACGGCGAACCCGTTGCAGAAATTTACGGCTTTAGTTACGAAAAACGAGCTGTGTTAGATAATAAAGTGGCCGAATATGAGATAAAAAATCCAGCTGTAGCCTTTCATATTGCCATGTTACACGGGAGCGTGCAAAGTAATACAGAGCACGATACGTATGCCCCTTTTAAAATATCGGATCTTAGAGAAATAGATATGGATTATTGGGCGCTAGGACATATTCACCAACGACAAATAGTAAAACAAACACCTCCAATCATATATCCGGGAAATATTCAAGGTCGACACCGTAAAGAAACAGGTGAAAAAGGTTGTTATCATGTTCGCCTTACAAAAAATGAAGCACAGCTGGAATTTTTGCCGCTACAAGCTATTCAAATTAAGCATGCATCCGTAGACATAACAGCATGTGACACGGTTTTTGATATGGAGAGCGTGCTATTAGCAACACTAAAAGAGATGACAGCTGTAACACCACAGTTAATCGATGTACAACTAGAAAGTAAGTATGAGCATATTTATGAATGGGAACGCGATGGACACATAGAAGATGTAATAGATGTAGTCAATGAAACGCTTCAACAATTTCATCCTTGGTCGTACATTTTTCATTTTACAATTTACGGGCAAACAAATATTGATGAAACTTTATATTATGGCAATCATTTCATTGGTGAAATGCTCCGTGAAGCTGAAAAACAGCCAGTGCAACCGTTGTTAACAGACCTTTATAAGCAACAGCAAGCACGCAAGTTTTTACCGTCGTTAACAGAGGAAGAACAACAAACAATCAAAACAGCGGCAAAACAACTTCTTGTTCATGAACTGTTAAAGGAATGA MSEEITFIHAADLHLDSPFKGLASAPEAIFQEIRKSTFTALEHLVHKAIRYQVDFILLVGDLFDNEQQSLQAQIRLKRAFETLQQYNITVFLSYGNHDHVEGNPRFVPYPNNVIEFSNETVSSYTYVKNGEPVAEIYGFSYEKRAVLDNKVAEYEIKNPAVAFHIAMLHGSVQSNTEHDTYAPFKISDLREIDMDYWALGHIHQRQIVKQTPPIIYPGNIQGRHRKETGEKGCYHVRLTKNEAQLEFLPLQAIQIKHASVDITACDTVFDMESVLLATLKEMTAVTPQLIDVQLESKYEHIYEWERDGHIEDVIDVVNETLQQFHPWSYIFHFTIYGQTNIDETLYYGNHFIGEMLREAEKQPVQPLLTDLYKQQQARKFLPSLTEEEQQTIKTAAKQLLVHELLKE NA NA NA NA NA AK015_01572 2961 hypothetical protein GTGATTATTCAACGAGCAACCATTTTCGGGTTTGGAAAATGGGTGAATGAGACCTTTGATTTTTCTAGTCGTGCAGTCCATTATATTTACGGAGAAAATGAATCAGGCAAGTCTACTTTGCATACATTTATCCTATTTATGTTATTTGGCTTACCACCTAAACAATGTGAATTATATCGCCCGAAAACAAGTGGACAGTTCGGAGGCAGATTACATGTTTCCCTTCATGGAGATATGTGTATGATTGAACGTTTATACAAAGGTAGGCATAGCGAAGCAGTTATTTATACATCAGATGGGGATGAAAAAGGAGAAGTTTGGCTTCAAGATAAGCTTAAAGGAATGACGTTGGCAACATATCAGTCTATATATTCTTTTTCTGCTAAAGACTTAATGGGCATTTCCGACATGCAGGCGGATGACCTAGGAGAGATTATCCTTGGAATTGGGTTAACAGGGGTGAAGAATTTATATACAGTAGAAAAACGATTGGATCAGCAACTAGGATCGTTATTTAAACCATCTGGAAAGAATCCGCTTATCAATCAACAATTGACGAAGCTTCAAGAAATTCAAACAAAGGCCAATGATTGGAAACGGATAGAATTAACGTACCAAGAAAAACAAAAGCATATAAAGGAATTAGAGCAATCGTTAAGGGATATAAAACACAGTATTAGTGATCAATATGAAGAACGATTTTCTATAGAAAAACAAAGACATGCCTTGCCAACAATTCAAGCTTTTCAATCTATCCATAAGCAATTAAAACAGATGCCAGAGAGAATTTGTTTTCCTGAAGCGGGAATAGAGCGCTGGGAGCAGTTAAAAGAGAAGCTCTTGCCTTTAAAGAGTAAACAAGCCGTTTTAGAAGCAAACCAATCGCGTTACCATAACAAAATAAAATTATTAGACGAAACACTATTACCAGTGGATTTGAATGACGATGGTAAAAAAATGATGGAAGAAATGGGCCGTTATGAACAGTTCCAGGATCAAATAGATAATTTGTCGCAATCATTACAAAAACAGCAACAACAGTTTAATACCATTTGTAATGACCTCCAATTACCGATAAATCGTGAAGAAGTAAGTAAACTAGAGTTGTCTATCTTTACGGAAAAGAATTGGAAGAAAATAAAAGAGGATTTAGACCAATTAGATGCAAAACAATTGCAACTACAGCTAGAAAAACAACAATTGGCAAAGCATCGGCAGAAACTGATGGAAGAAAAACAAGCTATTCAAGAACGGATGGCTAAAGAACATCAATTAAAGCAATGGAAAGCACAGCTACAACAAGCACAAACGTCTGATTCTTCCTTATCCATGGATCAACAAAAAAGGAACGCAGCTAATTGGCAGCAAGAAAAGCAGCGAAAACAAAAGCAAACACGATCATTCTTTCTTAGCGGGATTATTGTTGCATTCGTTTTAGCATTTGTGGGCAGTGTTACGGATTATAACAAGCTTCTATTTGTGGCTCCGTTTGTAGTGGTTTTAGCTTTCTTTCAATGGAAGATGCGAGCACAGTCGATAAAAGAGATGGACAGATGGTTTACAGCGTCGACAAGTGAGCTGCATTATTCTATTACAGATGACGAGAGAGTGCGTCTAGAGCAATCTGTGGCTCAAGAATTACAGTTTCGCACAAAGCTTGATGCAATGGAAGAACAATTGAAATCGGTCGATGTAAAAGCGTTACAACAAGAAGAACAGCAGTTACAATTATCGGAGCAAATGAGGCGCATGGATGAATGTATTCTTGCTGAGCAACGTATTTATCCATTTTTAGCACAACTTGCTCCCCAATATTGGATAGATGTCTTTCATAGTTTAAAACAGTTACAGTTTATTCATAAAAGAATGGAAGAAGATGAAACAATTTACAATAAACAAGCACAACATATGCAAACAATTCACACGAAACTGAGTGCGTTTATCGAACGTATAAATGGAGAATGGTTGGAGCAGACTGTTCAAACACAATTTCAATATGTAGAAGACTCCTTGACAAAAAATGAAGCACATCTGAACCAACGATCGTATTATGAAAATCAGTTAGCTGAAAATGAATGGGCATTGCAACAGATATACGAACAAATGAAGCCTTTAGAATTGGAAATGAATCACTTATTAAAAGCAGCTCTGGTAGAAAGTGAAGAAGTGTATTACGAGAAAGGAAAGCAGAAACAACGATTGCAATCACTCAAGAAGCAAGAGGAGGAATTAGTAGCTCAGCTTGATTTCTTGTTTCCTAAAGAAAAGTGGCAAGCATTGCTACATAAAACCCCTTCTGTTTTTGAGTTGGAACAGGAAGAGAAAAAAGTACATCAAATCACTACAGAGTTGGAGGCGCATGTAGACGAACAACAGCAAAAATTAGCAAAGTTTCATACGGAAGTAGATATATTGGAGAAAAAAGAAGATTATTCTACATTGATTCATCAAAAAGAAATGGAACAGGAAGCATTACATCAACAAGCTAGACATTGGGCGACATTAAAAGCGGCAAAAGAAATGCTATTACAGGCGAAGCGATCTTATCAGAGTAAATATATAAGTAAGGTGATCGAAAAAACCTCATTATATTTTCGCGAATTAACCGCAGAGAACTATCGCTGTGTTTACCCACCGACTGTAGGGCGATTATTTACGGTGGAAAAAGAGGATGGTACACGTTTAAATGTGAAAGAGTTATCTCAAGGTACGATGGATCAATTATATATCGCATTACGTTTTGCGGTTAGTGTAAGTATGAGTGAAGAACATGCTTTACCGTTTATCCTTGATGATGCTTTTGTACATTTTGATTCGGTGCGAACAAAGCGTGTTGCAATGCTACTTGAACGCATTGCACAAGAGCAACAAGTGATCGTTTTCACGTGTAAACAAGACCTTATTGAAGTAGCGAAAAAAAGAAGTTTTGTTCAAATGTTAAATTCTATTCGCATTCATTAA MIIQRATIFGFGKWVNETFDFSSRAVHYIYGENESGKSTLHTFILFMLFGLPPKQCELYRPKTSGQFGGRLHVSLHGDMCMIERLYKGRHSEAVIYTSDGDEKGEVWLQDKLKGMTLATYQSIYSFSAKDLMGISDMQADDLGEIILGIGLTGVKNLYTVEKRLDQQLGSLFKPSGKNPLINQQLTKLQEIQTKANDWKRIELTYQEKQKHIKELEQSLRDIKHSISDQYEERFSIEKQRHALPTIQAFQSIHKQLKQMPERICFPEAGIERWEQLKEKLLPLKSKQAVLEANQSRYHNKIKLLDETLLPVDLNDDGKKMMEEMGRYEQFQDQIDNLSQSLQKQQQQFNTICNDLQLPINREEVSKLELSIFTEKNWKKIKEDLDQLDAKQLQLQLEKQQLAKHRQKLMEEKQAIQERMAKEHQLKQWKAQLQQAQTSDSSLSMDQQKRNAANWQQEKQRKQKQTRSFFLSGIIVAFVLAFVGSVTDYNKLLFVAPFVVVLAFFQWKMRAQSIKEMDRWFTASTSELHYSITDDERVRLEQSVAQELQFRTKLDAMEEQLKSVDVKALQQEEQQLQLSEQMRRMDECILAEQRIYPFLAQLAPQYWIDVFHSLKQLQFIHKRMEEDETIYNKQAQHMQTIHTKLSAFIERINGEWLEQTVQTQFQYVEDSLTKNEAHLNQRSYYENQLAENEWALQQIYEQMKPLELEMNHLLKAALVESEEVYYEKGKQKQRLQSLKKQEEELVAQLDFLFPKEKWQALLHKTPSVFELEQEEKKVHQITTELEAHVDEQQQKLAKFHTEVDILEKKEDYSTLIHQKEMEQEALHQQARHWATLKAAKEMLLQAKRSYQSKYISKVIEKTSLYFRELTAENYRCVYPPTVGRLFTVEKEDGTRLNVKELSQGTMDQLYIALRFAVSVSMSEEHALPFILDDAFVHFDSVRTKRVAMLLERIAQEQQVIVFTCKQDLIEVAKKRSFVQMLNSIRIH NA NA NA NA NA AK015_01573 546 opcR_2 COG1510 HTH-type transcriptional repressor OpcR GTGCCAGAGAAAAATGAATACAAAGACTGGGAAAAATATGATGAAACAATTGAAAAATTCATTCAAGTCATTGCTAAAAATATGAACCTTTACGGCCTTACTTCTTCAGTGGGCAGATTATATGGTGTATTATATTTCTCTAATAAGCCAATGACTTTAGACGATATGCGTGATGCACTTGAAATGAGTAAAACAAGCATGTCGACAGGTGTAAGGACGCTGTCTGAGATGAAAATGGTGGAATCCACTTTTAAACGTGGTATTCGGAAAGACCTTTATCAATCTGAAGAAGATTGGTATAAATCTTTTACTTCTTTGTTTGGCAATCGTTGGCGTCACCATACGGAAACAAATATTGAAGAAGCGGAAGAAGCGATGGCGGAGCTTCAACAGATAGCAAGAGAAACAGAAGATGAGCAATTAAAAGCAAAGATTCATGCGGATATAGAACGGTTAGAGTATGCTAAAAATTACTATGAATGGTTAATGAAATTTATCCAAGTGATTGAATCAGGTGAAATATTTAACTATATACCAAAACATTAA MPEKNEYKDWEKYDETIEKFIQVIAKNMNLYGLTSSVGRLYGVLYFSNKPMTLDDMRDALEMSKTSMSTGVRTLSEMKMVESTFKRGIRKDLYQSEEDWYKSFTSLFGNRWRHHTETNIEEAEEAMAELQQIARETEDEQLKAKIHADIERLEYAKNYYEWLMKFIQVIESGEIFNYIPKH PGPT0013690_217 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109 NA NA AK015_01574 1221 yhaM 3'-5' exoribonuclease YhaM ATGACATTGTCTTATTTTTACAATTTTGTTCCTATCACCTTTAACTGCAATGAAGCAGAACGAAAAGAAATTCTTAACCAATTCCCAGCGCCTGTTTTACCTGATTCTACGGAGTTTTTTAACATAGCAGATGCATCTCCTGGTAACCACGTGAAAGTTCGAGTACTTCTTAATGAATTTCATGTACAAAAAACAAAAACAAATAAACAGTATCTTAAAATGCTGTTTAGCAATAATGCTGGTACGATAAATACAAAAATGTGGGATAATCAAGGTGCTGTCGATAGGCATCAACCTATTTTAGAGAAATACGCTGTTTTTGACATTGAAGGAATAGTCGATGATTTTCGCGGACATAAATCTTTAACAATTCATCAATTAACTCCTTGCACAGAAGAGATAGACCCATTTTCATTATTAGCTTACACCCAACAAAATATAGACGATTTAACTATTGAATTATTTTCCTATCTAAATGAATTAGCAATACCATATAAAGACATCGCATTAGGGGCAATGCGTCAATTTTGGGATCAGTTTAGAATTAGACCTGCCGCAAAAGGGTTCCACCATAATTATTTAGGTGGCCTATTAAAACATACGGTTGGCCTAATGAGATTTGCTAGATATATAATTAAAATAGAAGAAAATCATTATAAAGCTGTCATGAAGCTAATTAATGTAGTAGAAAAAGCTTTTAAAAATGAATTATGGTCGCAATTTCAAACAAGTGAAAATCAACAACTTATCTGGAAAGGTACCATAGATCACCTCTACGATATGTTGCAAGGTATGATGGCCTATAAGGAACAAGAACCTAACTATGATGTAATCATGACGAGCATTCTATTTCACGATATTGGTAAGTTAATAGAGTATGACCATGCTGGAAAAACATTTGAAGCATTTAAATTTCTCTTCCCTACAGCTGACCATTCCGATTTAGAAAATAGAAAGCAAGCGGGAATTACAATGGATGAATTAGGAGTAATGGTTGGTCATATTCCTTATGGCGTACTGATCCTTACAAAGATGATCGAAGCAGAAGGCATAGAATTATCTTTAGGAGCTATTCATCAAATGTCACATTGCATCCTCTGCCATCACGGGCTACCAGAATGGGGAGCCTGTGTTCGAAAACCGCAATCTATTGAGGGGTATATTATTCATATTGTGGATTTTTTAGACAGCCGATATGAAAATGCTGAAGAGATAAAGTAA MTLSYFYNFVPITFNCNEAERKEILNQFPAPVLPDSTEFFNIADASPGNHVKVRVLLNEFHVQKTKTNKQYLKMLFSNNAGTINTKMWDNQGAVDRHQPILEKYAVFDIEGIVDDFRGHKSLTIHQLTPCTEEIDPFSLLAYTQQNIDDLTIELFSYLNELAIPYKDIALGAMRQFWDQFRIRPAAKGFHHNYLGGLLKHTVGLMRFARYIIKIEENHYKAVMKLINVVEKAFKNELWSQFQTSENQQLIWKGTIDHLYDMLQGMMAYKEQEPNYDVIMTSILFHDIGKLIEYDHAGKTFEAFKFLFPTADHSDLENRKQAGITMDELGVMVGHIPYGVLILTKMIEAEGIELSLGAIHQMSHCILCHHGLPEWGACVRKPQSIEGYIIHIVDFLDSRYENAEEIK NA NA NA NA NA AK015_01575 198 hypothetical protein ATGATACTCGGTGTACCTTGGTGGGTGTTTGTTATGATTTTACTAATTTTTGTTAGCGGATATATGGCTTTTCGGGGAATGGTTGCTGAAAGAAGAATGGAACAGCATTTCATTGAGCAAGAAGGGGAAGTTTACATGGAGCGTGTTAGAAAGGGGAGGGAGTTGAAAGAAAGGGGGAAACAAGCAACTGATGAATAA MILGVPWWVFVMILLIFVSGYMAFRGMVAERRMEQHFIEQEGEVYMERVRKGRELKERGKQATDE NA NA NA NA NA AK015_01576 891 prsA_2 COG0760 Foldase protein PrsA ATGAAGAAAATAGCAATTGCTGCTACGTTAACTGCTAGTGTATTAGCACTAGGCGCGTGTAGTTCTGGAGATGACGAAGCTGTCGTTGAAACTGGAGCTGGAAATATAACGAAAGATGAGTTTTATGAAGTACTAAAGGATCGCCATGGCGAAGAAATTTTACAGGAATTGGTGACTGTAGAAGTACTTAACGATAAGTACGAAGTTTCTGACGATCAAGTTGATAAAGAAGTTGAAAAAATGAAAGACCAACTTGGTGAGCAATATGATATGGCTATTGAACAACAATTTGGTAGTGAAGACGAATTGCGTAACATGATAAAAATTAGCTTATTGCAGGAAGAAGCGATCGCTGAAGATGTAGACATTAAAGAAAAAGAACTTAAACAGCTTTACGACCGTAAAAACAAAGAAATACAAGCACAGCATATTTTAGTAGAAGACGAAGAGACTGCTAAGAAAGTCAAGAAGAAGTTAGACGATGGCGGAAAATTTAGTGACTTAGCAAAAGAATATTCTACAGATGGAAGTGCTGAAAAAGGTGGCGACCTAGGTTACTTCTCTGCGGGACAAATGGTGCCAGAATTTGAAGATGCTGCCTATAGTATGAAAAAGGATGAAATTAGTGATCCAGTCAAAACACAACATGGTTTTCATATTATTAAAGTAAATGATATTCGCGATAAAGAAGAACAACTTGGAAAATATGAAGATGTAAAAGAAGACTTACGTCGTGAGCTATTAACAAAGAAAATGGATCCTGCTAAAATGCAAGAAAAAATTGATAAGCTAATTAAAGACGCAGACGTTAAAGTAAAAATTGACAAATACAAAGATTTGTTTAAACAAGACGAGAATAAAGAATCTGAAGATACAGAAGCAAAAGGTTAA MKKIAIAATLTASVLALGACSSGDDEAVVETGAGNITKDEFYEVLKDRHGEEILQELVTVEVLNDKYEVSDDQVDKEVEKMKDQLGEQYDMAIEQQFGSEDELRNMIKISLLQEEAIAEDVDIKEKELKQLYDRKNKEIQAQHILVEDEETAKKVKKKLDDGGKFSDLAKEYSTDGSAEKGGDLGYFSAGQMVPEFEDAAYSMKKDEISDPVKTQHGFHIIKVNDIRDKEEQLGKYEDVKEDLRRELLTKKMDPAKMQEKIDKLIKDADVKVKIDKYKDLFKQDENKESEDTEAKG NA NA NA NA NA AK015_01577 186 hypothetical protein ATGAATATCATTTTTCTCATTTATGGATTTATAATATTTCTTATTTTTAACTCTTTAACGCATAAATTATGTATTAAACTGGAAATGGAAGCACTAAAACAAGGGAAGATGTTTCGAGTAATTAATCTAATGATTACTATTCTTCTCGTCAGTTCCTACTTGCGATTGATGAACGCAATGGTATAA MNIIFLIYGFIIFLIFNSLTHKLCIKLEMEALKQGKMFRVINLMITILLVSSYLRLMNAMV NA NA NA NA NA AK015_01578 552 hypothetical protein ATGAATTGTTGGAAATCCATTAACCTTGCAAAAGACTTTGGTCGTAATCGATTATTTCTTATGTCAAGCTTAATTACGTTGTTTTCTTTTATTCTTTTATATGTAGTAATAACCATGGCACAAGGTTCAACAGCAGAAGTTAGTGAGGTCGGAATTTTACCTTTCTTTCTATTTCTCATGCTTTTACCAATGGTTCATTCGTCCATGCACATACTTCCTTTAATTCTAATGAATAAACGTATGAGAATCGTATTTAAATTTAAAAATAGATGCTTTCCTGTGTTCTATTATTATACAAAATATCACTTAACCAAAAAAGCGTATTTACTTGCAACTATAGCACCAACCGCTTTATTAACTATCCCAGGAGTTGTTGCCAGTTATTACTTTCACTCCTATTCAGTGTACATTTTATTACTTACATCCGTAAATATCGGTATTGCTTTCATTGATTTACTATATATTTGTCAGCTCTGGAAAGCGCCCAAATGTTCACTCATAGAGAATAATGAAGACGGTAATGGCTTAGATATACTAATTCAAGGTTCATAA MNCWKSINLAKDFGRNRLFLMSSLITLFSFILLYVVITMAQGSTAEVSEVGILPFFLFLMLLPMVHSSMHILPLILMNKRMRIVFKFKNRCFPVFYYYTKYHLTKKAYLLATIAPTALLTIPGVVASYYFHSYSVYILLLTSVNIGIAFIDLLYICQLWKAPKCSLIENNEDGNGLDILIQGS NA NA NA NA NA AK015_01579 336 yhaI putative protein YhaI ATGAAAAATGAGGCAGAAACGGTTGCTTTTCACTTGCATTTACTTTCCAAAATTATTGATAAGGAAGCACACCCGTTTACAAAGCTAATTATAGAACAAGGTGTAACAGAAGATGAATACAATCACTTAATTCGCTTACTTGATCTGCTAGAAGATCAATTAAAAAAACAAAAGAATGCAGGATTATTAGATTTTTCTTCCTTATTGGTCCATTTTGCTGGTATGCTAACTGAAAAATTAGCACCTCATCAAACTATTTATGCACTAAAAAAAGAAGGATATTATCCTTCTTTAATGAATGAGTTTTTAAAAATCATGGAAAATCTAGGGGATTAG MKNEAETVAFHLHLLSKIIDKEAHPFTKLIIEQGVTEDEYNHLIRLLDLLEDQLKKQKNAGLLDFSSLLVHFAGMLTEKLAPHQTIYALKKEGYYPSLMNEFLKIMENLGD NA NA NA NA NA AK015_01580 486 hypothetical protein ATGAATAAACCTCAAACAGAGAATATAAACAATAAAATTTTACTTGAATTTACAAAGACCATCGAAATGTTTGGACTAACACCATTAGAGTCACGACTATTTACATATTTATATTTAGCTGACAAACCGATGACACTAGATGATATGGCGGAGGCACTAGGGAAAAGTAAAACGGCGATGAGTACGAGTATTCGAACGCTCGCAGACCAAAATTTAGTCACACGCGTTTGGAAGAAAGGTGTGCGTAAAAGTCTTTATAAAGCGCATACACAATTATTTAAAGCATTTATGATTTCTTATTTGAACAAGTGGGTGGAAGCAGTGAATCAACAAAAAAGCGCATTTATAGAATTGGAGCAAATGATGAAAGAAATAAAGAGGAATCATACTAATTTAAAATTAAAAGCTACGGAAGAACGTCTTCAGGAAATTATTCAGTTTCACCAGGAAATGGAAGATGTATTTCGTGAGGTAAAAAAGGATTAG MNKPQTENINNKILLEFTKTIEMFGLTPLESRLFTYLYLADKPMTLDDMAEALGKSKTAMSTSIRTLADQNLVTRVWKKGVRKSLYKAHTQLFKAFMISYLNKWVEAVNQQKSAFIELEQMMKEIKRNHTNLKLKATEERLQEIIQFHQEMEDVFREVKKD NA NA NA NA NA AK015_01581 1200 gbuA Glycine betaine/carnitine transport ATP-binding protein GbuA GTGCCGGTAGTAATAGAGGCAAAGAATGTATCTAAAATATTTGGGAAGAACCCGAAGCAATCCATTAAGTTATTGGATCAGGGCTTATCGAAAGAAGAAATATTGAAAGAGACTGGTAATACAGTTGGAGTCAATCGAGCTTCTTTTTCGGTAGAGCAAGGTGAAGTGTTTGTGATTATGGGGCTATCTGGTAGCGGGAAATCTACTTTAGTTCGAATGCTGAACCGACTCATTGAACCGACAGAAGGTACGATTTTGATTGATGGTGAGGATTTAGTAGCAATGGATAAACAAGCGCTACGTAATGTTCGTAGACAAAAGCTAAGCATGGTTTTTCAAAACTTTGGTTTATTTCCTCATCGCACCATTTTACAAAATGCTGAATACGGTTTAGAAATTCAAAAAGTGGATAAAGAAAAACGGCAAAGCAAAGCAAAAGAAGCATTAGAATTGGTAGGATTAGGAGATTATATGCATCAAAAACCTAACCAGTTGTCAGGAGGTATGCAACAACGCGTTGGTCTCGCACGTGCGTTAGCGAATGACCCGGAAGTGCTGTTAATGGATGAGGCTTTTTCTGCTTTAGATCCGCTAATTCGCAAAGAAATGCAAGATGAATTAATGGACTTACAAAATAAAATGCAAAAAACGATAATCTTTATTACGCATGATTTAGACGAAGCATTACGTATTGGTGATCGAATTGCACTTATGAAAGACGGGTCGATTGTCCAAATTGGTACACCGGAAGAGATTTTAGTTAATCCAGAGAATGATTATGTAGAGAAATTTGTGGAGGATGTTGATCGTTCGAAAGTGTTAACAGCACAACATATCATGAAGCGACCGGAAACCGTTAATTTAGATAGACATGGACCAAGAGTTACGCTGGAGCGAATGCGTGAAGAAGGGTTGTCAAGTATATTTGTTGTAGATAGTAAAAGAAATCTTATGGGGTATATCACAGCAGATGATGCATCTGAAGCAAGGAAATCAGGGATCAAGGATTTAAAAGAAATATTGAAAAATGATATTCCAACTGTAGAAAAAGAAACACCGATGCATGATATTTTTGATTTAATTTATAATTCACCTATTCCAGTTGCAGTTGTAGACAATGAAAAGTTAGCAGGAGTGATCGTTAGAGGGGCAGTAATTGCCGCTTTATCCAGTGAGAATGAGGTGAATTTGCATGCTTAA MPVVIEAKNVSKIFGKNPKQSIKLLDQGLSKEEILKETGNTVGVNRASFSVEQGEVFVIMGLSGSGKSTLVRMLNRLIEPTEGTILIDGEDLVAMDKQALRNVRRQKLSMVFQNFGLFPHRTILQNAEYGLEIQKVDKEKRQSKAKEALELVGLGDYMHQKPNQLSGGMQQRVGLARALANDPEVLLMDEAFSALDPLIRKEMQDELMDLQNKMQKTIIFITHDLDEALRIGDRIALMKDGSIVQIGTPEEILVNPENDYVEKFVEDVDRSKVLTAQHIMKRPETVNLDRHGPRVTLERMREEGLSSIFVVDSKRNLMGYITADDASEARKSGIKDLKEILKNDIPTVEKETPMHDIFDLIYNSPIPVAVVDNEKLAGVIVRGAVIAALSSENEVNLHA PGPT0013630_966 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 AK015_01582 858 gbuB Glycine betaine/carnitine transport permease protein GbuB ATGCTTAATAATGTATTAGATGTTGTACCAAATATGCCATTAGCTAAATGGACTGATAATGCTACAGATTGGATTACAGAATCATTTTCCTTTCTATTTGATCCTGTGAAAGAACAGTTTGAAAAATTTATGGATGTTACTTCTGAAGCCTTGATGGGTGTCCCACCACTTATTATTATTCTTGTTGTAGCAATTATAGCGTTCTTTATATCAGGAAAAAAATTTGGGCTTACTACATTTTCCATTGTTGGTCTGTGGTTGATCTACAACCAAGGATTATGGGATCAGTTAATTAATACATTTACACTCGTATTGTTGGCGAGTATTTTATCCGTCATTATTGGTGTTCCTATCGGTATTCTCATGTCTAAAAGTAATATTGCAACCGCAATTATTACACCAATTCTCGATTTTATGCAAACCATGCCAGCCTTTGTCTATTTGATTCCGGCAGTAGCGTTCTTTGGCATCGGAATGGTACCGGGTGTGTTCGCTTCCTTAATTTTTGCTACACCACCTACTGTTCGTTTTACAAATTTAGGGATTCGTCAAGTTTCTGCTGAGTTAGTAGAAGCTTCAGAAGCTTTCGGTAGCACAGGTGCTCAAAAGTTGTTTAAAGTCGAACTTCCAATGGCGAAATCAACCATTATGGCAGGAATTAACCAAACGGTAATGTTAGCCTTATCTATGGTTGTCATTGCATCTATGATCGGAGCACCTGGTTTAGGTAGAGACGTTCTTTCAGCATTACAGCGTGCAGAAGCGGGAGCTGGGTTTGTTGCAGGAATTGGTATAGTGATTTTAGCGATCATTATGGATCGTTTTACGCAAAGTATGAATAATCGGAAAGAAAAATAA MLNNVLDVVPNMPLAKWTDNATDWITESFSFLFDPVKEQFEKFMDVTSEALMGVPPLIIILVVAIIAFFISGKKFGLTTFSIVGLWLIYNQGLWDQLINTFTLVLLASILSVIIGVPIGILMSKSNIATAIITPILDFMQTMPAFVYLIPAVAFFGIGMVPGVFASLIFATPPTVRFTNLGIRQVSAELVEASEAFGSTGAQKLFKVELPMAKSTIMAGINQTVMLALSMVVIASMIGAPGLGRDVLSALQRAEAGAGFVAGIGIVILAIIMDRFTQSMNNRKEK PGPT0013635_1727 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001 NA NA AK015_01583 900 hypothetical protein ATGTTAAAATTTAATTGGAAACGTCTCGGCTTAGTTGCTGGGCTTTCATTAACTTTATTTGCAGCTGGTTGTGGATCAGATGATGAATCCTCTGATTCAGGAGAAGGGACATCAGGCGAAGGTGAAAGTAAAGAAATAGAATTAGTCTATGTAGAGTGGGATTCTGAAGTAGCTTCTACGCACGTAATTGGAAAAGTATTGGAAGATCAAGGCTTTGATGTTACGTTAACCCCACTAGATAATGCCGTTATGTGGGAAGCAGTAGCTAATGGAGAGGCAGATGGTATGGTAGCAGCATGGCTTCCTGGTACACATCAAAGTCAATATGAGCAATATGGCGACCAAGTAGTTGAATTAGGCGTGAATTTGGAAGGTGCAAAGATCGGCCTAGTTGTACCAGAATATATGGATGTTAATAGTATTGAGGATTTAGATAAACAAGCTGATCAAACTATTACTGGTATTGAGCCGGGCGCAGGTGTCGTAGCTGCTTCAGAAAAAGCGGTTGAGGACTATGAGAACTTAAGTGATTGGACCGTACAGACCTCTTCAAGTGGTGCTATGGCAACGGAGTTAGGATCTGCGATTGAAAATGAAGAGGAAATTGTAGTAACAGGTTGGACGCCGCATTGGAAATTTGCGAAATATGACTTGAAATATTTAGAAGATCCAAAAGGTTCATTTGGAGAGGCTGAAACCATTGAAACGATGGTGCGTGAAGGATTGGAAGAAGATATGCCAAATGCATACCAGATTTTAGATCAATTCAACTGGACGGCTGAAGATATGGAAGCTGTTATGCTTGAGATTTCAGATGGCGCTAAGCCTACAGAAGCTGCCGCGAATTGGGTAGAAGAAAATCAAGATAAAGTAGACGAATGGTTAAAAGGTGTAGAGTAA MLKFNWKRLGLVAGLSLTLFAAGCGSDDESSDSGEGTSGEGESKEIELVYVEWDSEVASTHVIGKVLEDQGFDVTLTPLDNAVMWEAVANGEADGMVAAWLPGTHQSQYEQYGDQVVELGVNLEGAKIGLVVPEYMDVNSIEDLDKQADQTITGIEPGAGVVAASEKAVEDYENLSDWTVQTSSSGAMATELGSAIENEEEIVVTGWTPHWKFAKYDLKYLEDPKGSFGEAETIETMVREGLEEDMPNAYQILDQFNWTAEDMEAVMLEISDGAKPTEAAANWVEENQDKVDEWLKGVE PGPT0013640_3209 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002 NA NA AK015_01584 930 gbuC Glycine betaine/carnitine transport binding protein GbuC GTGCAGAAAGCAAATGGCTGGAGTAAACTGTTATTATTTGGTTCAATTATTGCCGTGATGCTACTAGCGGCTTGCGGTTCTGAGGAGAAAGAGGGAGGCAATGCAGCAGGCGATTCAGGTGAGACGAATTATGGAGAAGAAATAGATTATACCATTACGGGGATTGAGCCCGGAGCGGGGATTACAGTAGCAACAGAGAAGGCGATAGAAGAATATGATAGTTTGTCAGGTTGGGAGCTTGAACAGTCTTCCACGGCAGCCATGGTAACGGAATTAGAAGAAGCGATTGCAAGTGAAAGCCCAATTATTGTAACGGGGTGGAATCCGCATTGGAAATTTGCAAAATTCGATAATCTGAAATATTTGGAAGATCCAAAAGGTATTTATGGTGACGTAGAGGTTATTAAATCACTAGCAAGAAAAGGGCTAGAAGAAGATAAACCAAATGCTTATAAGCTAATTGATCAATTTAAATGGTCTGTGGAAGATATGGAAGGAATTATGTATGAAGCTTCTGAAAGCGGGAAAGAAGTTGCTGAAGTAGCAAAACAGTGGGTTAAGGATAATCCGGATAAAGTAGAAGCGTGGACAGAAGGAGTAGAAGATGTGGATGGTGTTGAATTCGAACTTGTTTCTACACCTTGGGATTCAGAACGATCTTCGGCCAATGTTGTCGCTGAAGTCATGCGTCAAAAAGGGTTTAAGGTGACAATTACTCCTGTAGATGTCGCCGTCATGTTTGAAGCAGTTGCTAATGGGGATGGAGATGCTACATTAGCTGCTTGGATGCCAGCAACCCATAAAGATTTTTATGAGAAGTTTAAAGGTGATTTTGAAGATTTAGGAGCAAATTTAGAAGGGGCAAAGATTGGTTTAGTTGTACCTGATTATATGGATGTAGATTCTATTGAAGATATACAAGCGAAATAG MQKANGWSKLLLFGSIIAVMLLAACGSEEKEGGNAAGDSGETNYGEEIDYTITGIEPGAGITVATEKAIEEYDSLSGWELEQSSTAAMVTELEEAIASESPIIVTGWNPHWKFAKFDNLKYLEDPKGIYGDVEVIKSLARKGLEEDKPNAYKLIDQFKWSVEDMEGIMYEASESGKEVAEVAKQWVKDNPDKVEAWTEGVEDVDGVEFELVSTPWDSERSSANVVAEVMRQKGFKVTITPVDVAVMFEAVANGDGDATLAAWMPATHKDFYEKFKGDFEDLGANLEGAKIGLVVPDYMDVDSIEDIQAK PGPT0013640_2784 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002 NA NA AK015_01585 360 hypothetical protein ATGACAAATGCGAAATCACTATGGTTAGGAATTGCAGTCGGCGGTGCTGTAAGTGCAACTGTTACGCTGCTAAGTGCACCAGCTTCTGGAAAACAACTTCGGGTGAAAATGAAGGAAAAAAGTATTGAGTGGAAAGATATGCTTTTACATTTAAAGCAGGATGGCGTTCGATTAAAGAATCAAATTAAGGAAACTTCACAGGAAGGCGCCATATTATTTAAAGAGCTCACGCAAGATATGAAAAAATCCGTATCGGAATGGAAAACAACTGTAGAGCCTCATCAAGAGAATATTCATCAATATTTGGCGCAGATTGAATCCAGCCTAAATGACCTTGAAAATAAAATAAAAAAACAATAA MTNAKSLWLGIAVGGAVSATVTLLSAPASGKQLRVKMKEKSIEWKDMLLHLKQDGVRLKNQIKETSQEGAILFKELTQDMKKSVSEWKTTVEPHQENIHQYLAQIESSLNDLENKIKKQ PGPT0015027_223 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA NA NA AK015_01586 522 trpP putative tryptophan transport protein ATGAATATTCGAATTTTAATGATTTTGTCGCTACTGATAGGGATTGGCGCTGTATTACACGCTATTGTACCACCAGTTATTTTTGGAGTGAAGCCAGACATGCTGCTTTCTATGATGTTTTTAGGAATTTTATTATTTCCTAAACTGAAATACGTCATTATTCTTTCCATTGCTACTGGAGCTATATCTGCTTTAACAACAAGTGCACCTGGCGGTCAAATAGCTAACATGATTGATAAACCTATTACAGCTATTATTTTCCTTAGTTTATTCTTCATTATCTCCAAAACATTGCGTCCGCTTCCACAAGCAGTTATTTTAACTGCAATTGGGACAATGATCTCTGGTGCTATATTTTTAAGCGTTGCACTCTTTTTAATTGGGATTATGGAGGGTTCATTCGTAGCGATGTTTAGCATAGCCGTATTGCCAGCAGCATTATTAAACTCTATTCTTATTGCTGTTGTTTATCCAATTGTACAAAGGATTTTAAAAAGAACACCGCAATTAATGATGACATGA MNIRILMILSLLIGIGAVLHAIVPPVIFGVKPDMLLSMMFLGILLFPKLKYVIILSIATGAISALTTSAPGGQIANMIDKPITAIIFLSLFFIISKTLRPLPQAVILTAIGTMISGAIFLSVALFLIGIMEGSFVAMFSIAVLPAALLNSILIAVVYPIVQRILKRTPQLMMT NA NA NA NA NA AK015_01587 429 hit_2 COG0537 Protein hit ATGAGTCATGAAGATTGTATATTTTGTAAAATCATTAATCAAGAAATTCCTTCAGCTAAAGTGTATGAAGATGAGCATGTATATGCCTTTTTAGACATCAGTCAAGTTACAAAGGGGCATACATTAATTATTCCTAAAGTACATGTTAAAAACATTTATGAAACTCCATCTGACGTTGCCGCTGCTCTTTTTGAAAAGGTGCCAAAAGTGGCAAATGCAATTAAATCAGCTTATGAGCCAATAGGGATGAACTTACTTAATAATAATGAAAAGCCAGCCGATCAATCCGTCTTTCACTTACATATCCACCTTCTTCCACGATACGGAAAAAACGACGGCTTTTCCTCTAATTGGAAAGTACACTCAGATGATTATAGTGCCAGTGATTTGCAAGAAATCGCAGGAACGATAACAAACCATATGGATTAA MSHEDCIFCKIINQEIPSAKVYEDEHVYAFLDISQVTKGHTLIIPKVHVKNIYETPSDVAAALFEKVPKVANAIKSAYEPIGMNLLNNNEKPADQSVFHLHIHLLPRYGKNDGFSSNWKVHSDDYSASDLQEIAGTITNHMD PGPT0021690_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710 NA NA AK015_01588 1014 ccpA_2 COG1609 Catabolite control protein A GTGAAAGTAACTATTAAAGATATTGCCAAGAAAGCTGGTGTCTCTCCAAGCTCCGTTTCATTAGTATTAAATGATAGACCGAGCCGTATTTCCGAACAAAAAAAAGCTGAAATTAAACAAATTGCCAAAGAGCTAAACTATACTGCAAATCAAATAGCAAGAAGTCTTGTTACAAAACAAACAAAAACGTTCGGCTTAATTATACCTGACATTGAAAATATATTTTTTTCTTCTTTAGCCAAACATATCGAAATGCAATGCCGTATACACGGTTACACATTAATCATTGTCAATTCCAATGACCAATTTGAAAATGATATCGCATTACTCGATTTATTATTATCGCGTTCTGTAGAAGGTATATTTCTTATCCCAGCCAGTGCATCATGGCTAAAAAAAACAGAGCTAATCGAAAAGTTAAAGCAACTCACTGTCCCATATATTTTGCTGGATCGTGTATTTTCTGACCTGTCTTGTGATAAAGTTTGGTTTGATAATGAATATGGAGCTTATATAGCTGTGAAATACTTATTGGAAAATGGCCATCGAAAAATCGCCTGCATTGCCAGTTCCAGTTTTATTAATGGACAATTTCGTTTAAACGGGTATTTGCGAGCTTTAAAAGAATTTAATATCCCAATTGATTATAACAACATTTTAACAGGTGATTATAAGAAAGAAAGTGGTTATCTAGCAGGCCAAAAAATAATAAACAAGGATGTAACAGCTATATTTATTACAAATGATATGATGGCGCTTGGTTTTATTCATAGCATTTATGAGAAGAACAAAAAAATACCCGACGATTACTCTGTTATCAGCTATGATAACACCATTTACCCTTACTTATTTGGTGTTGAATTATCATCTGTTAAACAAGATGTAAAGAAATTAAGTGAAACAGCTTTCAAACAATTGTTTCAAAAAATACAAAAAAAAGATAATGTTGCCAAAAACACTTGTTTACAGCCTGAACTTATCGCAAGAACAAGTGTAAAAACCATACATGCTTAG MKVTIKDIAKKAGVSPSSVSLVLNDRPSRISEQKKAEIKQIAKELNYTANQIARSLVTKQTKTFGLIIPDIENIFFSSLAKHIEMQCRIHGYTLIIVNSNDQFENDIALLDLLLSRSVEGIFLIPASASWLKKTELIEKLKQLTVPYILLDRVFSDLSCDKVWFDNEYGAYIAVKYLLENGHRKIACIASSSFINGQFRLNGYLRALKEFNIPIDYNNILTGDYKKESGYLAGQKIINKDVTAIFITNDMMALGFIHSIYEKNKKIPDDYSVISYDNTIYPYLFGVELSSVKQDVKKLSETAFKQLFQKIQKKDNVAKNTCLQPELIARTSVKTIHA PGPT0014791_161 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK015_01589 1422 dcuD COG3069 Putative cryptic C4-dicarboxylate transporter DcuD ATGACAGATAACTTAATTATGTATAGCTCAGCAATCCTAGCTGTTATTATCGTCATTTATATGCTAGTAAAGAAAATGGACATAAAAGTCGCTTTATTTTCGATTGGTATACTTTTAATATTTATAGGGACGAGTATGGGCAATGAAATTCCAATGGCCGACTTTGAAACAACCGGTTCTACATTACTAGACCCATTGCAAGTTATTGTCCAGCAATTTAAGGAAACCTTTACGAAAGCAGGACTTATTATTCTCATGCTTGGCGGATATACAGCATATATGTCTTCTATTGGTGCGAACGACGTTACTGTACAAGTTCTAACAAAACCAATTAGTAAGATCAAATCTGTTTATTTTTTAGTTCCAGCAGTGTTTTTGCTCGGAAACTTATTATCGCTCGTTATTCCAAGCGCTTCCACATTAGCTATTTTATTATTGGCTACTTTATATCCTGTGTTAAAGCGAGCTGGAATGTCGGTACTAAGTATAGCTGCAGTTATCGCTACTTCAGCTACAATAATTCCGACACCATTAGGAAGTGATAACGTCGCCGTGTCGGAAGAGTTGGCGAAATTCGCTGCTTTTACTGACTTATCTGTAACCGATTACGTGTTTCAATACCACGCTATTGTCTCTATACCAACGTTAATTTTTATAGCAATAGTTCATTATTTTTGGCAAAAACGGATGGATAAAAAAACGTTAGCTTCTCAAGCGAAAGAGGAAGTGGAATTAGAAAATATAGAAGAAATAACTGGTGGTAAATTATTCAAAGTTGTATATGCAGTACTACCTATCTTTCCAATTGTCCTTTTGCTTATTTCTTTTATCTTGGAAATGACTACAAATGCAACGATCTCCCTTAGCGTAGAAAATTCCGTGCTTTTTTCACTCATCCTCGCTGTTGTTTGTGAATTAATACGTAAAAAAGGTAATAAGGCGGTTTTATCAAACACAGAGAAGTTTTTCGAAGGGATGGGGAAAGCTATTCCTATCGTAGCGCTCATTGTTGCTGCTTCCGTATTTGTTACTGGTTTAAAGTCCATCGGCTTGTTAGACACGTTACAGACGGCTATGCAAAACTTTCACGGACAAGGATTAGATTTTATCTTACCACTTATATTAGTGCTTTTTACTGCGCTTATCGTCTTATTAAGTGGAAGTGGTATTGCATTATTCTTTGCAATGATCCCTTTGATGGTTCCATTAGCAGAAGCAGCAGGAATAAGTCCAGTCGCTATTTCCATACCAATGGGACTTGCTGGAAACCTATTCCGTGCAGTATCTCCTGTAGCAGCTGTTGTGTTAATTATTGCCGGCACATTAAAAGTAGATCCATTAGACATTATTAAACGTACATCTGTGCCAATGATCTCCGGCGTCGTTTTCATGTTCGTACTTTCAATGATCATCTTTCTATAG MTDNLIMYSSAILAVIIVIYMLVKKMDIKVALFSIGILLIFIGTSMGNEIPMADFETTGSTLLDPLQVIVQQFKETFTKAGLIILMLGGYTAYMSSIGANDVTVQVLTKPISKIKSVYFLVPAVFLLGNLLSLVIPSASTLAILLLATLYPVLKRAGMSVLSIAAVIATSATIIPTPLGSDNVAVSEELAKFAAFTDLSVTDYVFQYHAIVSIPTLIFIAIVHYFWQKRMDKKTLASQAKEEVELENIEEITGGKLFKVVYAVLPIFPIVLLLISFILEMTTNATISLSVENSVLFSLILAVVCELIRKKGNKAVLSNTEKFFEGMGKAIPIVALIVAASVFVTGLKSIGLLDTLQTAMQNFHGQGLDFILPLILVLFTALIVLLSGSGIALFFAMIPLMVPLAEAAGISPVAISIPMGLAGNLFRAVSPVAAVVLIIAGTLKVDPLDIIKRTSVPMISGVVFMFVLSMIIFL PGPT0017345_81 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ENERGY_METABOLISM CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0017345-dcuC|dcuD-K03326 NA NA AK015_01590 927 rihC COG1957 Non-specific ribonucleoside hydrolase RihC ATGAATGACAACCAAACACCTATTATTATTGATACAGATCCAGGAATTGACGATGCTGTAGCCCTTGCTGCCGCATTATTTAGTAAAGAATTGGATATTAAATTGATTACGACAGTTGCTGGTAATGTAAGTCTCGAAAAAGTAACGTACAATACGTTACGGCTATTACAATTTTTCAAAAAAGAAATTCCTGTTGCTGCTGGTGCAGACCAACCGCTAATTAAAGAACCGATAGATGCGAGTAATGTTCATGGTGAAACAGGTATGGATGGTTATAATTTTCCAGAGCCTAACGAAAATCTCTTATTAAAAGAGCATGCTGTTAACGCGATGTACAAAACTATTCTTCAAAGCAATAAGCCAATTACGCTTGTACCCATTGGACCATTAACCAATATTGCACTACTTATAAGATTGTATCCAGAAGTGAAAACAAATATTAAAGAAATCGTATTAATGGGCGGATCTACAACGCGAGGGAATTCTGGAGTCATGGCTGAGTTTAACATTCATGCTGACCCCGAAGCCGCAAGTATTGTATTTAACAGTGGCGTACCCATTGTAATGGTTGGATTAGATGTCGGTTGGAAAGCACTCGTTTACCCTGAGGACAGTGAAAAATTGAAAACATTAAACGAAACCGGTCATATGATTTACCATTTATTCCAAAAATATCGTGGTGGTAGTATGAAAACTGGACTAAAAATGTATGATAGTTGTGCTATAGCCTACTTGCTATGTCCACAGATGTTCACTACACAAAAAGCTTATGTAGGTATTGAGCTAAATGGCTCCTTAACAAAGGGGGGTACTGTTACTGACTTGAAAGGATACTTAAATATGCCAAGTAATGCGACCGTTTGTTTAGACATTGATGAAAAATTATTTAAACAATGGTTTTTGGATAGTTTACAAAAATGCAACTAA MNDNQTPIIIDTDPGIDDAVALAAALFSKELDIKLITTVAGNVSLEKVTYNTLRLLQFFKKEIPVAAGADQPLIKEPIDASNVHGETGMDGYNFPEPNENLLLKEHAVNAMYKTILQSNKPITLVPIGPLTNIALLIRLYPEVKTNIKEIVLMGGSTTRGNSGVMAEFNIHADPEAASIVFNSGVPIVMVGLDVGWKALVYPEDSEKLKTLNETGHMIYHLFQKYRGGSMKTGLKMYDSCAIAYLLCPQMFTTQKAYVGIELNGSLTKGGTVTDLKGYLNMPSNATVCLDIDEKLFKQWFLDSLQKCN PGPT0013465_2335 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239 NA NA AK015_01591 921 rbsK/rbiA Bifunctional ribokinase/ribose-5-phosphate isomerase A TTGAAGAAAGTACTTATTTTTGGAAGCTTAAATATGGACCTTTCCATTTATACCGATCGCATTCCAAATAACGGAGAAACGATACAAGGAAAAGACTTTTTCCTATCCCCTGGAGGTAAGGGGGGAAATCAAGCTGTAGCTGCCGCTAAAAGTGGAGCAAATGCTTGGATAGCAGGAGCAGTAGGCACAGATTTATATGGGAACAAATTAGTAGAAACGCTAAAAAAATATAAGGTGAATTGTGATTATATAAAAATGCGCCGACGTGTAACGACCGGAATTGCCATGATCATTAGAAATGATGGAGACAATCGAATTATTTTAGACAATGGAGCCAATGACGACGTTGATTTCCAAGACGTCAACAAAATGCTGCAAGATATCGGTCGTCCTGGAGATATTTTTTTAACGCAATTTGAGAACGATTACGAAACCACTTTGCACTCACTAAAAGCTGCAAAGGAAAAGGGACTTTTTACTATATTAAACCCTGCACCAGCTAAACATATTGCTAAAGCCAATTATCTTCATATTGATTTACTTATCATTAATCAATCAGAGTGTGAATTTTTATCGGGAATATACCCATCCGAAGAAAGCGAATACAAAAAAGCAATACAATACTTTCAGCAACAAGGAGTTCATGCGGTACTGATTACCTTAGGAGCGGAAGGGAGTATAGTTGGTGAAGATACAACCATCCATTTCGTGCCTGGTCTCTCTGTAAATACTGTAGATACAACCGCTGCTGGAGATACTTATATTGGGGCGCTTGCCTGTGAACTTTCTCATGGAAAAACAATTCAAAAAAGTATGGAATATGCTACGTGTGCCGCAGCGTTAACCGTATCTAAAGCCGGTGCACAGAAATCCATACCTACTAGACAAGATTTAATTGATTCCAAATATGTAGAGGAGTAG MKKVLIFGSLNMDLSIYTDRIPNNGETIQGKDFFLSPGGKGGNQAVAAAKSGANAWIAGAVGTDLYGNKLVETLKKYKVNCDYIKMRRRVTTGIAMIIRNDGDNRIILDNGANDDVDFQDVNKMLQDIGRPGDIFLTQFENDYETTLHSLKAAKEKGLFTILNPAPAKHIAKANYLHIDLLIINQSECEFLSGIYPSEESEYKKAIQYFQQQGVHAVLITLGAEGSIVGEDTTIHFVPGLSVNTVDTTAAGDTYIGALACELSHGKTIQKSMEYATCAAALTVSKAGAQKSIPTRQDLIDSKYVEE PGPT0017405_2683 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 AK015_01592 747 ecsA_1 COG1131 ABC-type transporter ATP-binding protein EcsA GTGGAATCTTTACTACATATTGAAAACCTTTATGGAGGATATACGCATAAGCATGTGTTACAAGGTATTTCCTTTACGGTACATACAGGTGAAATCGTTGGCTTAATTGGTTTAAATGGAGCTGGGAAAAGCACTACTATTAAACATGTTATCGGGTTAATGCAACCAAAAAAAGGGATGATTACTGTAAACGGAAAAACATTTCAAGAAAATACGGAGACATACAGGAATCAAATGGCTTATATTCCTGAAATGCCTATCTTATATGATGAACTGACATTGTATGAACACTTGCGTTTAACAGCTATGGCTTATGATATTCCGCAAGATATATTTGAAAAAAGGTTAGAGCCTTTATTAAAGGAATTTAGAATGGAGAAGAAGTTGAACTGGTTCCCTGTCCATTTTTCCAAAGGTATGCGTCAAAAGGTTATGATAATGTGTGCATTTTTAATTGAACCACCATTATATATTGTAGACGAGCCTTTTGTAGGGCTTGATCCGTTAGGTATTCAATCTTATTTACAGCTAATGAATCAGATGAAAGAAAATGGATCGGGTGTGCTGATGTCTACCCATATTTTAGCAACAGCAGAGCGGTATTGTGATCGCTTTGTTATATTACATGACGGAACGATACGAGCTGATGGCAGTCTGGATCAATTAAGAGAGAGCTTTAAAATGCCCCATGCTACTTTGGATGATTTGTATGTACAATTAACAAAGGAAGAAAATAACCATGTTTAA MESLLHIENLYGGYTHKHVLQGISFTVHTGEIVGLIGLNGAGKSTTIKHVIGLMQPKKGMITVNGKTFQENTETYRNQMAYIPEMPILYDELTLYEHLRLTAMAYDIPQDIFEKRLEPLLKEFRMEKKLNWFPVHFSKGMRQKVMIMCAFLIEPPLYIVDEPFVGLDPLGIQSYLQLMNQMKENGSGVLMSTHILATAERYCDRFVILHDGTIRADGSLDQLRESFKMPHATLDDLYVQLTKEENNHV PGPT0006725_27934 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_01593 1212 hypothetical protein ATGTTTAATTCTCACCATTTTTTCAAGGAACGGTTTTCAGCGCATTTAAAAGAGACAAGTCGTTATTTACGCTATATATTTAATGGTCATATAGCTATTGCAATGCTATTTTTCATCTCTGCGTTAGCTGTTTATTACCAAAAGTGGTTGCAAGAGATCCCAGATGATTTTCCTGCTGCTTGGGTTATATCCATTGTTTTTGGCTTGATAGCAAGTTATAGTCCAGTGCGCACCTTGTTAAAAGAGCCAGATCTTGTATTTTTAATTCCAGCAGAACAGAAAATGAAAGCTTATTTTCGTAATGCTATTGCATACAGCTTTACGATTCAATTGTATTTAGTATTTTTAGCTGCTGCAGCTTTGGGCCCGTTATATACAACTGTTTTCGCCAATCGTGCTGGGGTTGTATATCTCATAACCATTGCATTGTTGCTTGTATTTAAATTCGCCAACCTAATTGCGAATTGGTGGATGCTCAAAGTGAGGGAACGTGATTCTCGGTTAATTGATACAGTCGTTCGTACTGTGTTAAATATAGCTGTCTTTTATTTTTTTATATCTGGCAGCATGTTATTAGCCGGTATCACAACATTGCTTTTTGCCATTGTGTTTTTGTATGATTATCAAATAGCGAGTAAACGTCCTGGATTACTATGGGATTTACTGGTGGAAAAAGATCAAAGTCGTATGCAAGCATTTTACCGATTAGCGAATATGTTTGCAGATGTACCTCATTTAAAAAGTCGAGTGAAAAAACGGCATTGGTTGGTCCGTATCGTTAGTATAGTTCCTTTTACCCGAACAGCTACGTACGATTATTTATATCGAATTACTTTGATACGAAGTGGTGATTACCTTGGTATGTATGTGAGATTAGTCGTTATAGGTGGGGTACTTATTTATGTGATTCCACCATTATGGTTGAAAATTATCTTTGCTTTATTGTTTTTATATTTAAGTAGTTTTCAAATGATGACCTTATATCAGCATCACCGTACTATTTTGTGGCTGGATCTCTACCCAGTTTCTCTGCAAATTCGCCAACAATCATTATTAAAGTTACTATTGCAATTAAGTATCGTACAAGTGATTTTATTTACGGCAGTGTTTATCGTAATGGATATATATATAGGGGCCATGATAACATTTGCAGGTGGGATTATATTTTCTTGGTTGTTTGTAGATGGCTATGTGAAACGAAAGCTTACGTAA MFNSHHFFKERFSAHLKETSRYLRYIFNGHIAIAMLFFISALAVYYQKWLQEIPDDFPAAWVISIVFGLIASYSPVRTLLKEPDLVFLIPAEQKMKAYFRNAIAYSFTIQLYLVFLAAAALGPLYTTVFANRAGVVYLITIALLLVFKFANLIANWWMLKVRERDSRLIDTVVRTVLNIAVFYFFISGSMLLAGITTLLFAIVFLYDYQIASKRPGLLWDLLVEKDQSRMQAFYRLANMFADVPHLKSRVKKRHWLVRIVSIVPFTRTATYDYLYRITLIRSGDYLGMYVRLVVIGGVLIYVIPPLWLKIIFALLFLYLSSFQMMTLYQHHRTILWLDLYPVSLQIRQQSLLKLLLQLSIVQVILFTAVFIVMDIYIGAMITFAGGIIFSWLFVDGYVKRKLT NA NA NA NA NA AK015_01594 1170 N-acetyldiaminopimelate deacetylase TTGTTAAAACAAATATATCACTCCATTGAAGCTTTGTATGAAGAAATGGTACATATTCGGAGACATCTTCACCAATATCCAGAGCTATCGTTTCAAGAAACGAAAACAGCTGCCTATATTGCAAATTATTACAAAACACTAGGTATACCTTATGAAGCAAACATCGGAGGTAATGGTGTCATTGCAACTTTCAAAGGTGGGAAGCCAGGAAAGACAATTGCATTGCGAGCCGATTTTGATGCGCTTCCCATTCAAGATGAAAAAGATGTCCCCTATCGTTCTAAAGTAAAAGGCATTATGCACGCATGTGGGCATGACGGTCATACAGCTACATTGCTAGCTTTAGCTAAGGCATTAATAACGTACAAACAAGAATTGCCTGGGACGATTGTTTTTTTACATCAACATGCAGAGGAATATGCACCTGGAGGAGCAAAACCCATTATCGATTCAGGTGCCATTGATCATGTTGACGCTGTTTTTGGCACCCATTTATGGGCCACAACGCCACTTGGGGTGTTACAAACATCCAAACAGGCTTTTATGGCCGGAGCAGATCGCTTTGTAATAGAAGTCCAAGGCAAGGGTGGTCATGGCGCGTATCCACATGAAACAAAGGACGCCATCGTTATTGGATCGCAAATCGTGTCGCAATTACAACAAATTGTCAGCAGACGAATTAACCCGTTAGATACAGCGGTTATAACCGTAGGCATTTTTGAAGCTGGTAAAGCATTTAATGTAATAGCTGACAAATCAAGACTTGTAGGAACGGTACGATATATAAACCCTGCCTTACAAGCAATAATTATGAAGGAAATGGAAGTAGTCATTAAAGGAATATGTATGAGTCAAGATGCCACCTATAGATTTGATTACATCAAAGGGTATCCCCCTTTAATTAATCACAAGGAAGAAGCAGCACTTTTGTTACAATTGGATCAACATATCAAAGAGATTACAAAAACCGAAACGATTGAGCCTTCTATGGCTGGTGAGGACTTTGCATATTATCTGCAAAAAAAACCTGGAGCGTTCTTTTTTACAGGCGCTCAAAAAGATAAACAACCATTTCCACACCACCATCCAAAATTTGATTTTAATGAACAGGCTATGCCAATAGCTGCCAAAACACTAATAACTGCTTATTTAGCTTATCAAACTAGATAA MLKQIYHSIEALYEEMVHIRRHLHQYPELSFQETKTAAYIANYYKTLGIPYEANIGGNGVIATFKGGKPGKTIALRADFDALPIQDEKDVPYRSKVKGIMHACGHDGHTATLLALAKALITYKQELPGTIVFLHQHAEEYAPGGAKPIIDSGAIDHVDAVFGTHLWATTPLGVLQTSKQAFMAGADRFVIEVQGKGGHGAYPHETKDAIVIGSQIVSQLQQIVSRRINPLDTAVITVGIFEAGKAFNVIADKSRLVGTVRYINPALQAIIMKEMEVVIKGICMSQDATYRFDYIKGYPPLINHKEEAALLLQLDQHIKEITKTETIEPSMAGEDFAYYLQKKPGAFFFTGAQKDKQPFPHHHPKFDFNEQAMPIAAKTLITAYLAYQTR NA NA NA NA NA AK015_01595 435 hypothetical protein ATGGAACAAGACTTACAAACATTAATTGATGGTTTAAATGAAGACTTAGCAAATGAATATGGCGCAGCTATTCAATACACGTATAGTGCCTCCGTAGTTAGCGGACTATATCGTTCTGCATTAAAACCTTTTTTTGAAGCAGAAGTGACAGATGAATTAGGACATGCTTTATACCTTTCCGAAAAAATCAGCTCTTTAGGTGGCACACCTACAACTAAAGCAGCTGACGTTCCACAACCTACAGACGTTAAGGATCTATTACAAGCAACATTACAAGCAGAAGCAGATACAATTAAACGTTATGAAAAAAGGAAAGAGCAAGCTGAGAAATTAGGCTACACGGAACTTGTTGTAAAATTAGAAGATATGATTGCTGATGAAACACATCATAAAGAAGAAATTGAGCGACTACTAGCTGATCCACGCTTAGCATAG MEQDLQTLIDGLNEDLANEYGAAIQYTYSASVVSGLYRSALKPFFEAEVTDELGHALYLSEKISSLGGTPTTKAADVPQPTDVKDLLQATLQAEADTIKRYEKRKEQAEKLGYTELVVKLEDMIADETHHKEEIERLLADPRLA PGPT0003965_3183 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594 NA NA AK015_01596 648 hypothetical protein ATGAGAAGAAGTATGATGTATTTGTATGCGATCGTATTTTTCATTGGGGTTGTTCTCACATTGCTGTGGGGTTATAAAGTGGCAAATCAAACAATGCCATATGTCGATCAATGGACACGTGATGTAGTAGAGAGATTAGATGATACAGCCATTTACACTGCTTTTCGCTGGATTACAGAGCTGGGTTCATCATCTTTTACAATTCCGTTTGTCCTTGTAATGGCATTTGTTTTTTGGTGGATATACCGTAGTATAATACCTGCGCTAATTTTTAGCTTAGGGACACTTTCAACGCATTATTTTAACATAGCCATTAAACATTTGGTGGAAAGAGAAAGGCCGAGTGTATTCGTTGCAGCAAATGCAGAAGGACATAGTTTTCCTTCTGGCCATGCTATGATTTCAATGGTGTGTTACGGCTTAGTTGCGTATTTCCTGTCCAATCGTCTAAAGCAAAATACAAAAAAATGGCTCATCCAAGTCTTTTTTGTTGGTTTGATACTATTAATAGGCATTAGTCGATATATCATTAATGTCCATTATTTAACGGATGTTCTTGCAGGGTTTTTTATCGGTTTTTTATGCTTGGTTGGTTTGGTATATCTCTATCAGTTAACGAGTAGACAGATTTCTCCGTCTAGAGGCTGA MRRSMMYLYAIVFFIGVVLTLLWGYKVANQTMPYVDQWTRDVVERLDDTAIYTAFRWITELGSSSFTIPFVLVMAFVFWWIYRSIIPALIFSLGTLSTHYFNIAIKHLVERERPSVFVAANAEGHSFPSGHAMISMVCYGLVAYFLSNRLKQNTKKWLIQVFFVGLILLIGISRYIINVHYLTDVLAGFFIGFLCLVGLVYLYQLTSRQISPSRG NA NA NA NA NA AK015_01597 1233 entS_1 Enterobactin exporter EntS ATGGAAGCAATATCTGAAACAAGTAAGACAGTACCAGTATTAAAGAATAGAAATTTTTTGTTATTATTTATTGGCTCTATTTTTTCTGCACCTGGGTACTACATTTATTTAATCGCAGCAGAGTGGTTAATGTTAACGATTAGCGAAAATAGAGTTTATTTTGGCATGTTGTTTTTCGCAGCTTCTGTTCCGCGATTGTTACTATTAGCAGTTGGTGGGGTTGTTGCTGATAGGTTTAATAAACGAACCATTTTATTTATTGCTGATTCGCTTAGGGCTTTATTCATTGCTGCGCTTTTATTATTCCTCTATCTTAATATGGTAACAGTTTGGCATTTAATCATTTTAGCTGCATTGTTTGGGATCGCTGATGCTTTTAGTTACCCGGTTACAAACTCCATGACACCATTATTATTGGAAGAGGATCAATTGCAACAAGGTAATTCATTCATTCAAATGACCATGCAAATAAGCCCTATTTTAGGTCCTGCTTTAGGAGGCGTATTATTAGCTGTATTAGGTTTTAAGGGGGTTTTTTCTGTTGCTTGTGTTATGCTATTGATAGGAGCTTTAACGGTGCTTTTTATTCAATTAAAACAAGAAAAAGAGGAAAGTGATGCACATTCCCCTTGGAAGGATTTAAAGGAAGGGTTCCTGTATGTACGTCAAAGCGATTTTATCGTATCTATTATGTTTATCGCTTTTTTTATTAACTTTTTCTTTTCAGGTCCTTTTTCCATTGGAATGCCGATCATTGTAAAAGATGTTTTTGATGGAAGTGCTATTAGTTTAGCAACAGTTCAAACAGCGATGGGGCTCGGTGCAATGCTAGGAGCGATTCTTTTAGCAGTGAAAAAAGTAACAAACTACAGAAAGGTGATATTAGTAAGTTTATTAGTGGTTGGGTGCCTCTATACGTTTATTGGAATGTCCAATCAACTGTATATGAGTGCTATTCTTGTATTATGTATGGCAGTTTTATTGCAATTCGTTAATATTCCGATCTTCACTATTTTGCAAAAAACAGTAGACAAAAGTATGTTAGGGAGAATTATGGGGCTTTTAATAACCGTAACTACAGGTTTAATTCCAATCTCTTACGTAGCAACTTCTACGCTAATCGCGTTAGGTGTAGATATACGGTATATTATGATAGGTGGTGGGATTTTTATTGTCATTATCGCTATGATTAGTTTTAATTTCAAGCGCCTTCGTAACCTTGAAATCTCATAG MEAISETSKTVPVLKNRNFLLLFIGSIFSAPGYYIYLIAAEWLMLTISENRVYFGMLFFAASVPRLLLLAVGGVVADRFNKRTILFIADSLRALFIAALLLFLYLNMVTVWHLIILAALFGIADAFSYPVTNSMTPLLLEEDQLQQGNSFIQMTMQISPILGPALGGVLLAVLGFKGVFSVACVMLLIGALTVLFIQLKQEKEESDAHSPWKDLKEGFLYVRQSDFIVSIMFIAFFINFFFSGPFSIGMPIIVKDVFDGSAISLATVQTAMGLGAMLGAILLAVKKVTNYRKVILVSLLVVGCLYTFIGMSNQLYMSAILVLCMAVLLQFVNIPIFTILQKTVDKSMLGRIMGLLITVTTGLIPISYVATSTLIALGVDIRYIMIGGGIFIVIIAMISFNFKRLRNLEIS NA NA NA NA NA AK015_01598 750 liaF COG4758 Protein LiaF ATGAAGAATATAATTCGTTTGTTTTCAGCAGTTTCCATTATTAGTATTGGAATTATACTTGTTCTGTTTAATCTAGGTGTGATTGCTTTTGATGTGTATGAGATATGGGTTTACCTTTACCCCATTTTCTTTGTGCTAGTAGGCATAAAATGGATTATTCAAGATTTTCGTAAAAAAGGTAAGAGCTGGGAAGTGGGGTCTTTTTTCCTTTTGTTTGGCCTTTTGCTCTTACTCGATAGGCTTGCCATATTGTCCTTTCATTTTTTTGATGTATGGAAATTATGGCCGCTATTCATTGTTTATATAGGTGTTTATTTCTTAAAACGGGATAAAAGTTATTCGGATACACATTGGAATAACATTGAACAAGAAGATAATAGTGCTACTTTTTCCAAATTTTCCATTGGAACTTATGAATATACGAAGCCGAATTGGAGAGCAGAACCAACCAAATTACATGCGTTGTTCGGAGATTTTTATTTAGATTTTTCCAAAGCTTTTATTCCGGAGCACGAAATACCATTTAGCATCCGCTCGTTAGCTGGTGATGTTACCATTTTAATACCTGAGCATGTCCCATTTCGTGTTCAAGCGGTGGTGCGAGCTGGAGAAATTGAGATCGTTGGCAAGCGTGTGGATGGAGTTCATCGAAAGCTTTCCTTTCAAAGTGATAATTACGAGCATGCTATTCGGAAAATTGATTTTATAATTAAGCTCGGAGCTGGATCCATTCGGATTGAACAAGTGTAA MKNIIRLFSAVSIISIGIILVLFNLGVIAFDVYEIWVYLYPIFFVLVGIKWIIQDFRKKGKSWEVGSFFLLFGLLLLLDRLAILSFHFFDVWKLWPLFIVYIGVYFLKRDKSYSDTHWNNIEQEDNSATFSKFSIGTYEYTKPNWRAEPTKLHALFGDFYLDFSKAFIPEHEIPFSIRSLAGDVTILIPEHVPFRVQAVVRAGEIEIVGKRVDGVHRKLSFQSDNYEHAIRKIDFIIKLGAGSIRIEQV PGPT0028815_113 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 AK015_01599 1032 liaS_1 COG4585 Sensor histidine kinase LiaS ATGCGTCAACGTTTTGCAAGTATACGGTATAGTTATATTATCTCCCATCTATACGGACTGTTTTTAACCTGTATTATTTTACTCGCCACGTTATTAACCATATACGTTTTACTCGAACCTATTTGGCTAACCATAAAAGGGATTTTCTTATTTATCGTTCTATATCTCCTTATTGCATTATTGGTTTCTATTTATGCTGGTTTTAAATCTGGTGGTAGCTTGAAGTATCGCTTTGATTATATATCTACACAGATTACTCAATTTGCACATGGAAACTATCAATCTCGCTTGCATTTCCAAGAAGGAGATGAGATTACGAGAGTGGCAAATGAAATGAATGCATTAGGAGAGGCGCTACAGGATCAAGTCAAGTCCTTGCAGCGAATGGCTGATGAAAGAGCAGATATGGCAAAAAACTCCTATAAAACAGCGGTAATGGAAGAAAGGCAGAGGATCGCACGAGATTTGCACGATGCCGTGAGCCAGCAATTATTTGCGCTCACTATGTTTTCTGAAGCGGCAATAAAGCAGTTGGATAAGGCTCCTAAATTAGCAAAAGAGCAAATGATGGAGGTATCAAAGGCAGCGTTACAATCACAAACGGAAATGCGTGCTTTGTTATTACATTTACGTCCCGTCTATTTATCTGGAGAACCATTAAATAAAGGGATACTGAAATTGGTAGAAGAGTTACAACAAAAAAGCAGAATTGAGTTTCAAGTTTCAATGTCGGATAACTTGGATGTTTCGGATACAATTGAAGAGCATGTATTCCGTATTGTTCAGGAGGCACTTTCTAATATATTACGTCACTCCAATGCATCCAAAGTCATTATTCATATTTCTAGTCGTTCCAATGAGTTATTGGTACATATTGGTGACAATGGTCAAGGGTTTCATGTGGAAGAAAATAAGAAAGCGTCTTATGGTTTAAAAACGATGAAGGAGCGCAGTGAGGAATTGGGGGGAACGTTTCACATTCGCTCTAGTGAACGAGAGGGGACTTATGTTGATATTCGTATACCTTGTTAG MRQRFASIRYSYIISHLYGLFLTCIILLATLLTIYVLLEPIWLTIKGIFLFIVLYLLIALLVSIYAGFKSGGSLKYRFDYISTQITQFAHGNYQSRLHFQEGDEITRVANEMNALGEALQDQVKSLQRMADERADMAKNSYKTAVMEERQRIARDLHDAVSQQLFALTMFSEAAIKQLDKAPKLAKEQMMEVSKAALQSQTEMRALLLHLRPVYLSGEPLNKGILKLVEELQQKSRIEFQVSMSDNLDVSDTIEEHVFRIVQEALSNILRHSNASKVIIHISSRSNELLVHIGDNGQGFHVEENKKASYGLKTMKERSEELGGTFHIRSSEREGTYVDIRIPC PGPT0014865_376 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 AK015_01600 639 liaR_1 COG2197 Transcriptional regulatory protein LiaR ATGATGATTCGTGTCGTAGTCGTTGATGATCACGAAATTGTAAGAAAAGGAATTATTGCGTATTTGCAAACCGATCAAGAAATCGATGTGGTTGGTCAAGCAAAAAGCGGAAAAGAAGGAGTGGAGGTTACTTTACAAGAACGTCCAGATGTGGTTCTAATGGATTTAATAATGGAAGATGGTAATGGAATAGAAGCAACAACACACATTACGCAGCAGTTTCCATCGTGTAAGATTATCATTTTGACAAGCTTTTATGATGATGAGCAAATTTTCCCTGCACTTGAAGCGGGCGCGTTTAGTTATTTATTAAAAACATCCTCTGCAACAGAAATTACCGAAGCAATAAAAAAGACCTATCATAACGAAGCAGTGATTGAACCGAAAGTGGCTGGTAAATGGATGAGCAATTTTCGCTCTGTAGAAAAAAAGCCTCACGAATATTTAACGGAACGAGAGTTGGAAGTTTTACTATGTATTGGAAATGGTTTGACGAATCAAGAAATTAGTGAACAACTATATATTGGTATTAAAACAGTAAAAACGCATGTGAGTAATATTCTATCAAAACTGGAAGTGAGCGATCGAACACAAGCTGCAGTTTATGTACACCGTAATCGATTGTATCAGCAAAAATAA MMIRVVVVDDHEIVRKGIIAYLQTDQEIDVVGQAKSGKEGVEVTLQERPDVVLMDLIMEDGNGIEATTHITQQFPSCKIIILTSFYDDEQIFPALEAGAFSYLLKTSSATEITEAIKKTYHNEAVIEPKVAGKWMSNFRSVEKKPHEYLTERELEVLLCIGNGLTNQEISEQLYIGIKTVKTHVSNILSKLEVSDRTQAAVYVHRNRLYQQK PGPT0014870_323 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 AK015_01601 432 bdbC disulfide formation protein ATGGTGAAACTTTCAAACAAACAAGAAAATTTATTATTATTTATTTGGGCGCCGTCTATAGTTGCTCTACTTGGAAGTCTGTTTTTTTCTGAAATAATGGGGTACCCGCCTTGTGATTTATGTTGGATACAGCGAATATTCATGTACCCACTTGTTATTATTTACGGTACAGCATTATGGAAGAAAGATATATCCATTGCGTTACCAGGTTTGTTTTTGAGTGGGATAGGAATGCTTGTATCCATATACCATTATCTAACGCAAAAGCTCCCAGCCTTACAAAAGGCTGGCGATGCATGTGGTCTGATCCCATGCAATACTGTCTATATTAATTGGTTTGGTTTTGTGACGATTCCCTTTTTAGCAGGTACAGCATTTATCTTTATATTTGTATTACATATAATATTAATACGATCTAGACGGATGTTATAG MVKLSNKQENLLLFIWAPSIVALLGSLFFSEIMGYPPCDLCWIQRIFMYPLVIIYGTALWKKDISIALPGLFLSGIGMLVSIYHYLTQKLPALQKAGDACGLIPCNTVYINWFGFVTIPFLAGTAFIFIFVLHIILIRSRRML NA NA NA NA NA AK015_01602 591 hypothetical protein ATGACATTTAAAGATGTCAATTGTTTTAACGGGGCAAAGAAAATAGTGATTTACGAGAATGATATTGTAGTATATAATGTCGAAGAGTCTTTCACAAAAGGAGCTGAAATTATGGCTAAAAAAATATCCATTTTTATTGGTGTTATTGTCGTTTTATTTGCAGGTCTATATTTTGTTGTCGACTACAAAAATAACCAAGCTGTTGAAGATAACAACAACCCTTATGGAGATAAAGAGCTAAAACAGGGCACAATTGATCAATTAGATGATCCAAACTATCAGAATCAGATTATGCCAGATGAGCTCAAAAAGAAAGTAGATAGTGGTGATCCTGTAACGGTTTATTTTTATAGTCCAACATGTTCACACTGTCAGTCAACTACTCCGTATCTTGTGCCGTTAGCAGAAGATAATGACATCGATATGAAAAAAATGAACTTACTTGAGTTTAAAGATGAGTGGGAAGCTTACAGAATAGATTCTACACCAACTTTAGTCCATTTTGAAGATGGCAAAGAAGTTTCACGTATTGTTGGTGATCAGGGGGAAGCTAATTTTCAAACCTTCTTTGATGAATATGTAAATAGATAA MTFKDVNCFNGAKKIVIYENDIVVYNVEESFTKGAEIMAKKISIFIGVIVVLFAGLYFVVDYKNNQAVEDNNNPYGDKELKQGTIDQLDDPNYQNQIMPDELKKKVDSGDPVTVYFYSPTCSHCQSTTPYLVPLAEDNDIDMKKMNLLEFKDEWEAYRIDSTPTLVHFEDGKEVSRIVGDQGEANFQTFFDEYVNR PGPT0013055_1226 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK015_01603 1203 dhaT COG1454 1,3-propanediol dehydrogenase TTGTTTTATACATTATATTGCCGTATGTATCAACAAAAAATGAAGATTGCAAGTAAATGGATACATTGGCGTACACCCATATTAATTAAAGGTGAAAATAGTCTGCAACAATTACCGAAAGTGTTGGAGCAAAATAAGCAAACACGAGTACTCATTGTAACGGATAAAGGATTAAGCGAATCAGGGTTACTTGATACTTTATGTGCTGATTTACAATGTGCTAACATTGATTACGCTATTTACGATAAAACAGTCCCTAACCCAACTGTTAGAAATATTGAAGAAGCACTTACTTTATTTTGCGACCAACAATGTAAAGCAATGATTGCTTTAGGGGGTGGATCCGTTATAGACTGTGCAAAAGTAGTTGGGGCTAGATTTGCTTATCCAAATAAATCTATATCTAAAATGAAAGGTCAATTAAAGGTTCGTAAAGAGACACCAACATTATATGCTGTCCCGACTACTGCAGGGTCTGGGAGTGAAGCAACGTTAGCAGCTGTTGTTAGTAATCCTGCTACTTCCGAAAAGTATGCTATTAATTCCCCAGTGTTAACCCCAAATTATGCTTTGCATGATCCAAAATTGCTTGTTAATCTTCCGCCGTTTATGACGGCAACCACAGGTATGGATGCGCTAACGCATGCAATTGAAGCGTTTATCGGAAAGAGCAATACGCAAAAGACGCGTGATTGGAGTAAGCAGGCTGTGGTTTTAATTTTTGGAAATTTGGAACAAAGTTATATAGAGCCAGAAGATTTAACAGCTAGAGCAAGCATGCAAAAGGCTTCCTATCTAGCTGGAAAAGCTTTTACTCGCGCTTATGTTGGCTATGTTCATGCTATCGCTCATACATTCGGTGGTTTTTATCAGGTGCCACATGGTTACGCAAATGCTATTATATTGCCATATGTTTTGGAATTTTATGATGACGTGGTTTACGATTTATTGGCTGAACTTGCAGATACAGTACAGCCTATCAACCAATTCTCATCTAATAAAGAGAAAGCACTTTGGATGATCAAGGAAATAAAACGAATGAATAAAGCAATGGGTATCCCTGAAAAAATAGCTACAATTGATAAAGGTGTTATCCCTAAAATGGTAGAAAGGGCTCTAAAGGAAGCAAACCCATTATATCCAGTCCCTAAAATACTAACTAAACAAGATTTGTACCACCTGTATTATCAAATTACTGAATGA MFYTLYCRMYQQKMKIASKWIHWRTPILIKGENSLQQLPKVLEQNKQTRVLIVTDKGLSESGLLDTLCADLQCANIDYAIYDKTVPNPTVRNIEEALTLFCDQQCKAMIALGGGSVIDCAKVVGARFAYPNKSISKMKGQLKVRKETPTLYAVPTTAGSGSEATLAAVVSNPATSEKYAINSPVLTPNYALHDPKLLVNLPPFMTATTGMDALTHAIEAFIGKSNTQKTRDWSKQAVVLIFGNLEQSYIEPEDLTARASMQKASYLAGKAFTRAYVGYVHAIAHTFGGFYQVPHGYANAIILPYVLEFYDDVVYDLLAELADTVQPINQFSSNKEKALWMIKEIKRMNKAMGIPEKIATIDKGVIPKMVERALKEANPLYPVPKILTKQDLYHLYYQITE PGPT0006370_126 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954 NA NA AK015_01604 498 hmoB_1 COG2329 Heme-degrading monooxygenase HmoB ATGTTTGCTCACATGACAAACGGCACCGCTGAATTCTTACAAAAAATCATTGATAAACACCCAAAAAAACATATATCCCTTATGCATGGTGAATCCAGTTCGCTTGCCTATTATGAGGATAAAGCTAAAAGCATTTTCAATTCTGGAAGAGAATATGTAATTTTAATTACAATTGGAGCGATACAAGAAGAAGGATATGTTGTTATGAATAACATACCCGTAACAGAAGAAGGGCAACCCGTTTTTGAGCATCATTTTCAAAATCGCAAACATGAGGTAGAAAAAATGCCAGGATTCCAAGCATTTCGCCTGTTGAAACCAAAAAAAGGAAATACCTACATTGTTTTCACCCAATGGCGCTCTGTACAAGATTTTGAGAATTGGAAAACGTCAGATCAGTTTAAACAAGCACATAAGAATCCATCTGTGAAAACTCCCGATTATTATGCAGATCGACCATTTATAACATCTTATCATATGGTGACAGATGAGAAATAA MFAHMTNGTAEFLQKIIDKHPKKHISLMHGESSSLAYYEDKAKSIFNSGREYVILITIGAIQEEGYVVMNNIPVTEEGQPVFEHHFQNRKHEVEKMPGFQAFRLLKPKKGNTYIVFTQWRSVQDFENWKTSDQFKQAHKNPSVKTPDYYADRPFITSYHMVTDEK NA NA NA NA NA AK015_01605 234 hypothetical protein TTGTCCCAAATGATCCTAAGCCCATTATCTAGGAACATCACGGAACGTCCAAGGTATTTGACATATTATTTAAGGCTTTTACTCATTCATGAATTCCAAACCAAGTTACTTGGAACGGAAGGCGGCGACTCCAGCGGGGAGAGCATGAGTCTTGACACCCTACAGCGAACGGTTTTTGTGAGCGAGGAGGCTCAAGCAGCCCTGAGGAAAGCGTTCGCCTGTAGTAAAAAGTAA MSQMILSPLSRNITERPRYLTYYLRLLLIHEFQTKLLGTEGGDSSGESMSLDTLQRTVFVSEEAQAALRKAFACSKK NA NA NA NA NA AK015_01606 2178 pbpF COG0744 Penicillin-binding protein 1F ATGAGCAGAATAGAAAAAAGGAAGAAGAAGCGTTCACGCTTGTTGAAGAAATGGAAAATAATTTTATATAGTTGTTTGTTAATGATAATCATCGGGTTAGTTAGTTACGCTTCCATTATTTTTGGTGGTCGGTTGATTGTTGATGATGAACAATTTTTTTTGGACGCAACGACAACGGTAGAAACAAGAGATGGCAAGGTAATTGGAAGGCTTTATCATGAAAATCGCACCTTAGCTAATTTAGATGACATACCTGAGCATGTGCGAGATGCATTTATTGCTATTGAAGATCGCAGGTTTTATGACCATCAAGGGGTTGATTTTCGTTCTGTTTTTCGAGCGGTGTATAAAGATATTTTGGCTATGCAGAAAGTAGAAGGCGCTAGCACGATTACACAACAACTTGTTAAAAATTTATTTTTAAGTCATGAGAAAACATGGCTTCGTAAAACCAAAGAAGTCATGGCATCTGTTTATTTAGAACGCACATTACCGAAAGAGCGGATATTGGAATTGTATTTAAACGAAATTTACTTTGGACATGGCGTTTACGGCATAGCTACAGCTGCTAAATATTATTTTTCCAAAGATGTAGAGGATCTGTCTATAGCAGAAGGTGCATTGTTAGCTGGTCTTGCTAAAGCACCTAATGGATATTCACCCATTAACTATCCTGAAAAGGCAATAGATCGCAGGAATACAGTACTCTTGGCAATGAAAGATATTGGCGTTATAAGCGAAGAACAACAAAATAAAGCAAAAAAGCAGGAGCTTGATCTGAAAGTAAATAAATGGGATCCTGAACCATGGTGGACAGACTATAGTGATTTTGTTATGAAAGAAGCCGCTCAAGAACATCGTTTATCGTTAGAGGAATTAAAGCGAGGCGGTTATCGTTTAATTGTTAACGTTGATCCTGCTGTACAAAAAGTCGCTTATGAACAATTTAAACAGAATTCCTATTTTCCTGGGAGCACGGATGATGTACAAGGCGCTTTTACGATGATGGATCACAAAACAGGGGATATCGTAGCAGTAATTGGTGGACGTGATTTTACATTTGGTGACTTGAATCGAGCAACTGCATCGAGGCAACCAGGTTCTACCTTCAAACCACTAGCGGTTTATGGTCCAGCACTTATGAAAGAAGAAAAGTATCACCCTTATGCTTTAATACCCGATCAAAAACAAGCCTATGATGGTTATACAGCTGAAAATTACGATGACCAGTATGGTGGTTTTGTTTCCATTTATGATGCCATTCTTTATTCTAAAAACGCCCCTGCTGTATGGTTATTAAATGAAATTGGGATTACGGATGCAAAGAAGTATTTAAAAAAGCTCCATCTTCCTGTCGAGGATAAAGGATTAGCTATTGCTTTGGGTGGATTATCTAAAGGAGTAACGCCAGCTGGATTAATGGAAGCTTATACTAGTTTTGCTCAGCGTGGAAAAGTCGTTAAAGCTCAAGCTATTTATCAAATTAAGGATCGACACCACCAAAAAGTGTTTCAAGCGAATCGAAAGGCAGAAAAAGTATTTAGTCCACAAGTAGCTTGGAATATGACGGAAATGCTAGAGCAAACCGTTAAATCAGGAACAGCGTCAGCAGGAAGTTTTACAAAAGCATTAGCTGGAAAGACAGGATCTACAGAGCATCCGCAAATGGAAGGAAAGGTAAAAGATGCGTGGTTTGCAGGCTATACCCCAACGTATGCAATGGCATTATGGATGGGGTACGATCAAACGGATGAGGAGCATTATTTAACGGGCGGAAGTGCCTATCCGACGAGGTTAGTGAAATCTATTTTAACAGAGATCGATCAGCAAGAGCCATTGGCGGATTCGTTTGCGAAACCTGCAGAAGTAGATGCTTTACCGGAACCTATCATACTACCAGAAATTAAAAATGTACAAGCCAGTTATGCTTTTGGTAGTTTGTCTTTGTTTCAGGGGAAGATTACTTGGCAAGGGTCAGAGGATGACCGCGTTATCTATCGAATTTACCGAAAAAAAGAAGGTATCGATGAACGAGTTGGTCAAGTCAAAGGAGAAATGGAATTTGTAGTTGAAAACGCATTGTTGAACGCGAAAGAATATTATGTTGTCCCTTATGACCCGTTGACAAAAACGGAAGGCTCACCATCTAACACAGTAACGCTTAGCTGGGGAGCATGA MSRIEKRKKKRSRLLKKWKIILYSCLLMIIIGLVSYASIIFGGRLIVDDEQFFLDATTTVETRDGKVIGRLYHENRTLANLDDIPEHVRDAFIAIEDRRFYDHQGVDFRSVFRAVYKDILAMQKVEGASTITQQLVKNLFLSHEKTWLRKTKEVMASVYLERTLPKERILELYLNEIYFGHGVYGIATAAKYYFSKDVEDLSIAEGALLAGLAKAPNGYSPINYPEKAIDRRNTVLLAMKDIGVISEEQQNKAKKQELDLKVNKWDPEPWWTDYSDFVMKEAAQEHRLSLEELKRGGYRLIVNVDPAVQKVAYEQFKQNSYFPGSTDDVQGAFTMMDHKTGDIVAVIGGRDFTFGDLNRATASRQPGSTFKPLAVYGPALMKEEKYHPYALIPDQKQAYDGYTAENYDDQYGGFVSIYDAILYSKNAPAVWLLNEIGITDAKKYLKKLHLPVEDKGLAIALGGLSKGVTPAGLMEAYTSFAQRGKVVKAQAIYQIKDRHHQKVFQANRKAEKVFSPQVAWNMTEMLEQTVKSGTASAGSFTKALAGKTGSTEHPQMEGKVKDAWFAGYTPTYAMALWMGYDQTDEEHYLTGGSAYPTRLVKSILTEIDQQEPLADSFAKPAEVDALPEPIILPEIKNVQASYAFGSLSLFQGKITWQGSEDDRVIYRIYRKKEGIDERVGQVKGEMEFVVENALLNAKEYYVVPYDPLTKTEGSPSNTVTLSWGA PGPT0023895_224 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 AK015_01607 1041 hemE COG0407 Uroporphyrinogen decarboxylase ATGGCAAACAAATTCAATGATACGATTATTCGAGCTTATAAAGGGGAATCTACGAATTATACACCAGCTTGGTTTATGCGTCAGGCTGGGAGGTCACAACCTGAATATAGAAAATTAAAAGAGAAGTATTCTTTATTTGAAATTACACATCAACCAGAATTATGTGCCTATGTAACGAGATTACCAGTAGAAAATTACAATGTAGACGCAGCCATTCTGTATAAAGATATCATGTCTCCACTGCCAGCATTAGGGGTGGATGTGGAAATTAAATCAGGTATTGGTCCAGTGATTGATAATCCAATTGCCTCTCTTCGTGATGTAGAAAAGCTTGGAGCAATTGATCCACAATCCGATGTTCCGTATGTATTGGAGACAATTCGCCTGTTGACACAAGAACAGTTACAAGTACCCTTAATCGGTTTTAGTGGCGCTCCTTTTACATTGGCGAGCTATATGATTGAGGGAGGACCATCAAAGAACTACAGTAAAACGAAAGCATTTATGTATCAGCAACGAGAAGCATGGTTTTTATTAATGGATAAATTGGCTGATATGACCATTACGTATGTAGAAGCTCAGATTGAAGCTGGTGCACAGGCTATTCAAATTTTTGATTCTTGGGTAGGTAATTTAAATGCATCTGATTACCGTATTTTTATTAAACCAGTAATGACAAGAATTTTTTCTGAACTGCAACGACATGATGTCCCACTCATTCTATTTGGTGTCGGCGCACGGCATTTATTGATGGAGTTTAACAATTTACCTGTTGATGTGATTGGGTTAGACTGGAGGACTTCCGTGCAAGAAGCAAGGAATATGGGAGTTACGAAAGTGTTGCAAGGAAATTTAGACCCAGCTATTTTGTTAACAGAATGGGAAATGCTAGAGAAGCGAACACAAGCTATATTGGATGAAGGCTTAGCAGATGGAAACCATGTTTTTAATCTTGGTCATGGCGTGACGCCAGATATTCAACCGGCTACATTAAAAAGATTAACTACGTTTATTCATGAGTATAGTCAGCGAAATAGGTGA MANKFNDTIIRAYKGESTNYTPAWFMRQAGRSQPEYRKLKEKYSLFEITHQPELCAYVTRLPVENYNVDAAILYKDIMSPLPALGVDVEIKSGIGPVIDNPIASLRDVEKLGAIDPQSDVPYVLETIRLLTQEQLQVPLIGFSGAPFTLASYMIEGGPSKNYSKTKAFMYQQREAWFLLMDKLADMTITYVEAQIEAGAQAIQIFDSWVGNLNASDYRIFIKPVMTRIFSELQRHDVPLILFGVGARHLLMEFNNLPVDVIGLDWRTSVQEARNMGVTKVLQGNLDPAILLTEWEMLEKRTQAILDEGLADGNHVFNLGHGVTPDIQPATLKRLTTFIHEYSQRNR PGPT0008465_3575 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599 NA NA AK015_01608 942 hemH COG0276 Ferrochelatase ATGGAAAAAAAGAAAATGGGATTATTAGTGATGGCTTATGGAACACCATACAAGGAAGAGGACATTGAACGGTATTATACGCATATTCGCCACGGCAGAAAGCCTGAAGCAGAAGCATTGCAAGACTTAAAAGATCGTTACAAAGCAATTGGAGGCATATCTCCATTGGCAAAAATAACGAATCAGCAAGTGGAAAAACTGGAGGCAACATTAAATGCAGTTCAAAACGAATATGACTTTAAAGCATATACTGGGTTAAAACATATTGAGCCATTTATTGAGGATGCTGTGCAACAAATGGCTGAAGATGGTATGGAAGAAGCGGTGTCAATAGTTTTAGCACCACATTTTTCTACTTTTAGCGTACAATCCTATAATAAACGAGCAAACAATGAAGCTGAAAAATATGGTATTACGATTACTTCAGTGGAAAGCTGGTATGATGAGCCTGGTTTTATTAAATATTGGGCTGATCAAATTACCGACGTTTATGCCAAGATGGCAGACGAGGAACGGGAAAAAGCAGTGCTGATTGTTTCTGCCCATAGTTTGCCTGAGAAAATTTTACAGGATGGTGACCCTTATCCACAACAGTTAGAAGAAACCGCCAAACTAATTTCAGAAGCAACTGGGATTAAGAATTATGAAATTGGTTGGCAAAGTGAAGGCAACACGCCAGATCCTTGGTTAGGACCAGATGTACAGGATCTTACAAGAGATCTTTACGAGCAAAAGGGATACCAAGCTTTTGTTTACGCACCTGTAGGTTTTATAGCCGACCATTTAGAAGTGTTATATGACAATGATTACGAATGCAAAGTAGTTTGTGATGAAATAGGTGCATCCTATTATCGACCAGAGATGCCAAACGTACATCCACAATTTATTCATACATTAAGCGATGTTGTACTAAAGCAAGTAAAGCGTGAACCGAATGAATAA MEKKKMGLLVMAYGTPYKEEDIERYYTHIRHGRKPEAEALQDLKDRYKAIGGISPLAKITNQQVEKLEATLNAVQNEYDFKAYTGLKHIEPFIEDAVQQMAEDGMEEAVSIVLAPHFSTFSVQSYNKRANNEAEKYGITITSVESWYDEPGFIKYWADQITDVYAKMADEEREKAVLIVSAHSLPEKILQDGDPYPQQLEETAKLISEATGIKNYEIGWQSEGNTPDPWLGPDVQDLTRDLYEQKGYQAFVYAPVGFIADHLEVLYDNDYECKVVCDEIGASYYRPEMPNVHPQFIHTLSDVVLKQVKREPNE PGPT0008485_4508 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 AK015_01609 1410 hemY COG1232 Protoporphyrinogen oxidase ATGAATAATTCAAAACAAATTGTCATTATAGGCGGCGGTATAACAGGTTTATCTGCTGCCTATTATTTACAAAAACAGCTCGTTGAAAAGCAACTTCCTTATAAGGTGAAGCTTGTGGAAGCAAGTAGTCATCTAGGGGGGAAAATAAGAACGTTGCACCGGGATGGATTTACGATTGAACAAGGTGCAGACTCGATGTTAATTCGTAAACAGCCGGCTATGAAATTAGTGGAAGAGCTACATCTTGAAGATCAAATTGTTCGTAATGCTACGGGAAAATCCTATATTTTGAAGGGAAATAAGTTCCACCGTATGCCACAAGATACCTATATGGGAATTCCAAAAAATGCGCGTTCTATATGGAATTCTACATTAATTTCTCCGAAAGGAAAATTAAGAGCTTTGGCAGATTTATGGAAGGGAAAACGAAAAGAAGAAACAGATGAGTCTTTAGCAGCTTTTTTTAGACGTCGCTTTGGAAATGAATTACTCCATAACCAGATTGAAACGCTGTTATCTGGAATTCATTCTGGAAATATAGAAGAAATGAGTTTAAAAGCTTCTTACCCACAATTTCGCCAATTGGAGCAAGAATATGGCAGTTTAATGAAAGGGTTAAACAAAACTATTCCCAAAGTTGCAAAAGATAAAGGGAAAGGGCCGGCACCTGGTGCTTTCTTTTCCTTTCAAAACGGTTTAGGTACTCTAGTAGATCGTTTAGCAGAAGAAATTGGAGAAGAGAATATGATGCTCCAAACAGCGGTTGATCATATTGAAAAAAAGGAACACGGCTATCATGTACTGTTAAGTGATGGAAATGTTTATAAAGCAGATGCTGTTATTATAGCTACACCACATTTTACCGTGCCGAAAATATTTAGTCAGTATGATTTCTTTCAACCTTTTGTGGAGGTACCTGCCACATCAACAGCTAATATTGTGTTGGCGTTTGATAAGGTGAAAATAAAAAAAGATATAGATGGCACAGGCTTTCTTGTTAACAAGAACAGCAATTACCATATTACTGCTTGTACATGGACACATAAGAAATGGCCGTTAACAACCCCAGAAGGGAAAGTTTTAATGCGCTGTTATGTTGGGGGACCGGATAACGAAGAAATAGTCGAGGCGTCAGATGATGCGCTAACAGACATTGTGCTAAAAGATTTACATAAAGCAATGAAATTAAAAGGTGATCCGACATTTAGTGTTGTTACACGTTGGCGAAATGGAAGACCGCAATATACACTCGGGCACTTGGAACGACTTGCTGAAATTAGAAAACAAGCTAGGCTGCAGTTACCTGGTGTTTTTTTAACAGGTTGCTCCTATGATGGTCAAGGTATTCCAGACTGCATTGAACAAGGAGAAAGAACAGCTCAAAAAGCATTACATTTTGTTTTACGTTAA MNNSKQIVIIGGGITGLSAAYYLQKQLVEKQLPYKVKLVEASSHLGGKIRTLHRDGFTIEQGADSMLIRKQPAMKLVEELHLEDQIVRNATGKSYILKGNKFHRMPQDTYMGIPKNARSIWNSTLISPKGKLRALADLWKGKRKEETDESLAAFFRRRFGNELLHNQIETLLSGIHSGNIEEMSLKASYPQFRQLEQEYGSLMKGLNKTIPKVAKDKGKGPAPGAFFSFQNGLGTLVDRLAEEIGEENMMLQTAVDHIEKKEHGYHVLLSDGNVYKADAVIIATPHFTVPKIFSQYDFFQPFVEVPATSTANIVLAFDKVKIKKDIDGTGFLVNKNSNYHITACTWTHKKWPLTTPEGKVLMRCYVGGPDNEEIVEASDDALTDIVLKDLHKAMKLKGDPTFSVVTRWRNGRPQYTLGHLERLAEIRKQARLQLPGVFLTGCSYDGQGIPDCIEQGERTAQKALHFVLR PGPT0008475_1331 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231 NA NA AK015_01610 1812 pepF1_1 Oligoendopeptidase F, plasmid ATGGAGAAACGACCAACTCGTTCTAAAGTACCTGAAAACTTAACATGGGATTTATCAGATCTATTTTCTACACACAAAGATTGGCAAAACGAATTAGAGGCTATTCAAAAGGATGTAGAACAATTTGCGATTTTTAAAGGAGAATTAGGAAAAGAAGCTTCTGCATTATATCAATGCCTTGCCACCTACGAAGCTTTTCAAAAAAGAGTTATGTGGGTAGCAACCTATGCTAATTTACGAAACAGTACAGATGGAACAGACCCATCTCGTCAAGAAGATAGCGCAAAAGTAGCCCAAGCACTAGCAATAATTCAAGCAAAACTATCTTTTATTCAGTCAGAAATACTGGAAATACCTACAGAAACGATTGGGGATTTTGTAAAACGGCACCCCGAATTAGCAACGTACCGCAAAATGCTTGCTGATTTAATAGAAAAAAAACCTTATACATTGTCTTCGCAGATAGAAGAACTACTCGCTTCTCTTTCTGAAGTTCACGATGCGCCATATGTGATTTATCAGCGTAGTACATCATCCGATATGATGTTTGCTTCCATTACGGATGAGCATGGAAATGAACTTCCTATGTCTGCTGCATTGTATGAAGACCGTTATGAGCTAACTGCTGATAACACTGCTCGTAGAAATGCATATAAATCTTTTGTACAAACGCTTCGACAATATCAACATACATACGCTGCCGTTTATGCAACAGAAGTTACCAAGCAAGTGGTGATGGCAAGGCAACGTCAGTATGATAATGTCACAGATATGCTATTGCATCCACAACAGGTAACGACAGATATGTATCATAATCAACTAAATATTATTCAAGCAGAGCTCGCTCCTCATATGCAACGATTTGCTAGACTAAAAAAAGAACAATTGGGATTGGAAGAGTTATACTTATGCGATTTGAAAGCGCCGCTTGATCCAGACTTCAATCCGGTAACTACATATGAAGAAGCGACAGCTACAATTGTGGACGCTCTCGGTATTATGGGAGAAGAATATCAACAAGTTATAAAACAGGCTATTCAAAACCGTTGGGTCGACTTGGCTGATAACATTGGGAAAAGGACAGGTGCTTTTTGCTCCAGCCCTTATGGCGTACATCCCTATATCCTAATTACATGGACAGATACCATGCGCGGTGCATTTGTATTAGCTCATGAATTGGGACACGCAGGTCATTTTTACTTTGCCGGAAAAGAACAGTCTTTATTTAATACTCGTCCTTCAACGTACTTTGTTGAAGCACCTTCCACTTTAAATGAATTACTGCTCGCGAATCACTTATTAGCTAAAACAGATGATGAGCGAATGAAAAGATGGATTATCACCCAGTTATTAGGGACATATTATCATAATTTTGTGACGCATTTACTGGAGGCAGAATTCCAAAAAAGGGTGTATACGTTAGCCGAAAATGGAACGCCTTTAACAGCAAAAGTTCTTTCTGAACAAAAGAAAGAAGCTTTAGCGAATTTCTGGGGAGATAAAGTAACAATGGATGAAGGAGCCGGACTCACATGGATGCGTCAGCCACATTACTACATGGGACTCTACCCTTATACGTACTCTGCTGGTCTGACCGTCTCTACTGCTGTAGCACAGACTATCCAGCAAGAAGGGGCTCCAGCTGCCGAACGTTGGATTAACGTATTAAAATCTGGAGGAACACTAAAGCCGCTTGATTTAATTCAAAAAGCTGGTGTGGATATGTCTTCGCCTGAACCTATTAAGAAAGCTGTCGACTTTGTAGGATCACTTGTAGATCAATTAGAAGCAAGTTATCAGAAAGAAAAGTAA MEKRPTRSKVPENLTWDLSDLFSTHKDWQNELEAIQKDVEQFAIFKGELGKEASALYQCLATYEAFQKRVMWVATYANLRNSTDGTDPSRQEDSAKVAQALAIIQAKLSFIQSEILEIPTETIGDFVKRHPELATYRKMLADLIEKKPYTLSSQIEELLASLSEVHDAPYVIYQRSTSSDMMFASITDEHGNELPMSAALYEDRYELTADNTARRNAYKSFVQTLRQYQHTYAAVYATEVTKQVVMARQRQYDNVTDMLLHPQQVTTDMYHNQLNIIQAELAPHMQRFARLKKEQLGLEELYLCDLKAPLDPDFNPVTTYEEATATIVDALGIMGEEYQQVIKQAIQNRWVDLADNIGKRTGAFCSSPYGVHPYILITWTDTMRGAFVLAHELGHAGHFYFAGKEQSLFNTRPSTYFVEAPSTLNELLLANHLLAKTDDERMKRWIITQLLGTYYHNFVTHLLEAEFQKRVYTLAENGTPLTAKVLSEQKKEALANFWGDKVTMDEGAGLTWMRQPHYYMGLYPYTYSAGLTVSTAVAQTIQQEGAPAAERWINVLKSGGTLKPLDLIQKAGVDMSSPEPIKKAVDFVGSLVDQLEASYQKEK NA NA NA NA NA AK015_01611 129 hypothetical protein ATGCTCAACGTTCTTGAATTTTTCAGAAATTTACCTAAGAAAAAATGTAGTAAATGTGGAAATGATATGTTAGAAAAAGCAGACTGCTATGGAAATTTATGTGACGAATGTGATCATCCAGCAAGATAA MLNVLEFFRNLPKKKCSKCGNDMLEKADCYGNLCDECDHPAR NA NA NA NA NA AK015_01612 1005 lplJ COG0095 Lipoate-protein ligase LplJ ATGACAAGTATGAAATTCATTGATAATCAAGGTATTTTAGACCCAGCTATGAACTTAGCATTGGAACAGTATATTGTAGAAAACTTTGGTGAAAAAGATACATTTTTATTGTTTTATGTGAATCAACCTTCCATTATTATTGGACGCAATCAAAATACGATTGAAGAAATAAATACGCATTATGTTAACGAACATGATATTAAAGTTGTACGCCGTTTATCTGGGGGCGGGGCCGTTTACCATGATGAAGGAAACTTAAACTTTAGTTTCATTACAAAAGATGATGGGAATAGCTTTCAAAATTTTGCTAAGTTCACCCAGCCTGTAGTAGAAGCATTAAATAAGTTAGGTGTGCCTGCCGAATTGAAAGGACGTAACGATTTAGTTGTCGAAGGTCGTAAAATCTCAGGGAATGCCATGTATGCGACGAAAGGAAAGATGTTCAGTCATGGGACGCTCATGCTTGACTCTGAAATTGATAAAGTTGTATCAGCGCTTAAAGTAAACAAAGAAAAAATAGCTTCCAAAGGAATTAAGTCCATCCGCAGTCGGGTAGCAAACATTTCCGAGTTTTTCAATCAAAAAATATCCATGGACGAATTTAAACACGTTATTTTACGGCATGTATTTGATGTGGAGGATATCTCTGAAGTTCCACGTTATGAATTAACAGAAGAAGATTGGAAAAATGTTAAACAAATATCACGTGACCGCTATAATAACTGGGATTGGAATTACGGCAAGTCGCCATCGTTTAATATTCAAGCTTCCCATAAATTTGATGCAGGTCTTGTTGATGTTCGTTTAGACGTCAAGAAAGGAATAATAGAGAATTGTAAAATTTATGGTGACTTTTTCGGTGTTGGAGAGATCAACGTTTTGGAAAATAGTCTTATTGGTGTCCGTCATCAACAAGAAGCAATTGAAGAAGCGTTGACCAATGTTGAAGTTCCTCGTTATTTAGGAAAGATATCGAAAGAAGACTTTATTCAGTTAATCTATTAA MTSMKFIDNQGILDPAMNLALEQYIVENFGEKDTFLLFYVNQPSIIIGRNQNTIEEINTHYVNEHDIKVVRRLSGGGAVYHDEGNLNFSFITKDDGNSFQNFAKFTQPVVEALNKLGVPAELKGRNDLVVEGRKISGNAMYATKGKMFSHGTLMLDSEIDKVVSALKVNKEKIASKGIKSIRSRVANISEFFNQKISMDEFKHVILRHVFDVEDISEVPRYELTEEDWKNVKQISRDRYNNWDWNYGKSPSFNIQASHKFDAGLVDVRLDVKKGIIENCKIYGDFFGVGEINVLENSLIGVRHQQEAIEEALTNVEVPRYLGKISKEDFIQLIY PGPT0003945_1351 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 AK015_01613 1536 lcfB_3 COG0318 Long-chain-fatty-acid--CoA ligase ATGAATATAAGTAAGCAATTGTCTTGTACTGCGCAAGAATATGCGAATAAGCCAGCATATATCTTTGAGCATCAGCCAACGAGTTATAAGGATCTCGATCAAGCTGTGACTTTATTTGCTTCTGGGTTAGCAGCAATTGGTTATAAAAAAGGTGATCACATTGCTTTAGTTGTCGGAAATAGCCCTTATTACATTATTGGTCTATATGGTGCTCTAAGGCTGGGGTTAGTGGTTATTCCAATTAATCCATTATATACACCAAGTGAACTGAGTTATATTTTACATAATGGAGATGTCAAGGCGGTAATAACGTTAGACCGATTACTAGAAAAATTTCAGGCGATAGATGGGGAACTAAGTATTTCTAATTACATTGTTTGTGATTCTGGGGCAGGAGAACAACCAATACCGATGGAGAGAGAAAGATTGCATGCTTTTTCTGAGGTGCTACAATTAGGAGATCCGTATTTCGACCAACCAGATCTGCAAAGTGATGATTTGGCCATTATTTTATATACATCTGGGACAACTGGTACACCAAAGGGAGCCATGCTTTCTCACCACAATTTGTATTCCAATGCAAAAGATGTTGCAGATTATTTAAGTATAAATGATAAAGACAAAGTAATTGCTGCTTTACCCATGTTTCATGTGTTTTGCTTAACGGTTTCCCTTAATGCGCCTTTAATGAATGGCGGGACAGTTATCGTTTTACCAAAATTCTCACCTTCTGCCGTATTTGAATTAAGTACAACCTATCAAGCAACTATTTTTGCTGGGGTACCGACGATGTATAATTATTTATTGCAAGCAAAGCGGGAAGATAAAGAAAATCCATTTGCAACGATCCGGTTCTGTATTTCTGGAGGGGCATCTATGCCAGTAGCTTTGTTAAAGGGATTTGAGCAAGATTTTGATGTCACCATATCTGAAGGCTATGGATTATCTGAAGCTTCACCGGTAACTTGCTTTAATCCGTTAGATCGACCACGTAAACCGGGGTCGATCGGCTGCAGTATTCAAGGGGTTGAAAACAAGATTGTAGACGAATGGGGCGAAGAAGTGCCTGTTGGCGAGGTTGGGGAATTAATCGTTCGCGGTCCCAATGTAATGCTAGGCTATTATAAGCTTACGGAAGAAACAGCTGCTGCTTTAAAAAATGGCTGGTTATATACGGGAGATATGGCACGAAAGGATGACGAAGGTTATTTTTTTATCGTTGACCGGAAAAAAGATATGATTTTAGTAGGTGGCTATAATGTGTATCCTCGTGAAGTAGAAGAAGTCTTCTATAGGCATCCAAATGTAATAGAAGTAGCTGTAATAGGTACGCCTGATCCAGAAACTGGTGAGGCGGTACAATGCTTTGTTGTGACAGATGAAAATGACGTAACCGCGGAAGAATTAATTTCATTTTGCCAGACGTATTTAGCAAAATATAAAGTCCCTGCAAACATCATTTTTTTAGATGAATTACCAAAGAATACAACTGGAAAAATTTTAAGGAAAAACTTAAAGGAACAAGTACTTCAATGA MNISKQLSCTAQEYANKPAYIFEHQPTSYKDLDQAVTLFASGLAAIGYKKGDHIALVVGNSPYYIIGLYGALRLGLVVIPINPLYTPSELSYILHNGDVKAVITLDRLLEKFQAIDGELSISNYIVCDSGAGEQPIPMERERLHAFSEVLQLGDPYFDQPDLQSDDLAIILYTSGTTGTPKGAMLSHHNLYSNAKDVADYLSINDKDKVIAALPMFHVFCLTVSLNAPLMNGGTVIVLPKFSPSAVFELSTTYQATIFAGVPTMYNYLLQAKREDKENPFATIRFCISGGASMPVALLKGFEQDFDVTISEGYGLSEASPVTCFNPLDRPRKPGSIGCSIQGVENKIVDEWGEEVPVGEVGELIVRGPNVMLGYYKLTEETAAALKNGWLYTGDMARKDDEGYFFIVDRKKDMILVGGYNVYPREVEEVFYRHPNVIEVAVIGTPDPETGEAVQCFVVTDENDVTAEELISFCQTYLAKYKVPANIIFLDELPKNTTGKILRKNLKEQVLQ PGPT0008380_13985 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK015_01614 531 comK COG4903 Competence transcription factor ATGTTTAACTTCTACACAGATCCTCCCGAGATCACCCCTTTTACTGCTGCCTTGGTAGCTCGACGAGACTCCAACAACAAAGCAATGACGATGGTGCTTGAAGATCAGGAAGAATATGCAGTTGGTTGCTCCCCGAGTAAGGTGATGGATCACGCTTGTAAGTATTTTGGCAGCAGTTTAAAAGGAAGACAGGATGGAACGCGTGATGTTTGCGGTATTACCCATAAAGCCCCCGTTACAATTGATCCATTAAGCGGCATGTATTTTTTTCCAACGATTTCTCCTTCGAGCTCTCAGTGTACATGGATTGCCCATTCCCATATCGAACAAGTTCAAAGAAAGCATGAATATGGGACGGAAATTATCTTTCTAAATGGAAAAAGCATTGAATTAGACATTTCCTATGGGTCGATGATAAACCAAATTCAGCGAACAGCTCAATTTCGGTATTTATTAAATAACCGACTCAAGTTTTTAAAGAAGCACATTGCTCCTTCAGAATCGACTTTCTCATCAACTCCTCAAACATAA MFNFYTDPPEITPFTAALVARRDSNNKAMTMVLEDQEEYAVGCSPSKVMDHACKYFGSSLKGRQDGTRDVCGITHKAPVTIDPLSGMYFFPTISPSSSQCTWIAHSHIEQVQRKHEYGTEIIFLNGKSIELDISYGSMINQIQRTAQFRYLLNNRLKFLKKHIAPSESTFSSTPQT PGPT0025815_217 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 AK015_01615 396 hypothetical protein TTGCGTTACTTAAACGAAGATGAGTTAACATTGGCATCACGCTTCCTGTTTCTTTCCATGACTATCTTAGTAATTCAACAAGATATTTATTTTCTACAGACTGGTACATTCAAAGCATTTAAAATAAAGGAATCCTACCTAGAAGTTTTAACAAGAATGGAACAGCTTGCATTTCAGGAGCGAAAAAACTTACGGAAAACGATGCAGCAAAAACAAATACAAGTTGTAAAGTTGGAGAAAAATGATTCCTTTTCCTCTTATTTGTTTATTTGTCGAGGGCGTGAGGAAAAACGCAATTATTTCAATCCTGCTATCCGAAAAAAAGTGAAACTTATGTTTGAGGAGTTGATGAGAAAGTCGATTCTGAAGGAGCAATGTGCTTCTTTAAAAACTTGA MRYLNEDELTLASRFLFLSMTILVIQQDIYFLQTGTFKAFKIKESYLEVLTRMEQLAFQERKNLRKTMQQKQIQVVKLEKNDSFSSYLFICRGREEKRNYFNPAIRKKVKLMFEELMRKSILKEQCASLKT NA NA NA NA NA AK015_01616 657 hypothetical protein ATGCTTTTATTAGACATCCAACTATCCGATTGGGAAATGATTTTTGATAGTGAAACTTTTGATGATTACATTACGCAACTATTAAAAAATTATGAGAATCTAGGCCCTATCCCTGGTTTCCTGTTGCCATTTATTGAGGCGTTTTTTCCATTTTTGCCGCTAGTTGTATTCGTTTTTGCCAATGCTGCTGCTTATGGGCTGTTTGAAGGGTTTATTTTATCTTGGGCAGGTGCAGCAATAGGTGCTATTCTCGTCTTTTTAATTATTCGTAAGTTAGGTGATCGAAAAGTATTTAAAATAATTCGTAAAAATAAACAGGTGAGGAAAGTAACTGCATGGCTAGAAAGGCATGGTTTTGGACCACTGTTTTTATTAATGTGTTTCCCTTTTTCTCCGTCATCTGTTATTAATGTTGTTTCTGGATTGTCTAAAATTAGTACCCAACAATTTATCTTAGCCGTAATTATGGGGAAATCCGTCATGATTTTCTCCATTGCTTATGTTGGCTCAAGTATTATGGAATTTGCCAAGAATCCGGTGAAAACGATTGTTGTTGGAATATGTATCGTGTTATTTTGGATGATTGGTAAATATATTGAAAAGCGATTACAGAAAAAAGCGGAGTTGCGCGAAGAATCTGATACGAGGAAAGATTAA MLLLDIQLSDWEMIFDSETFDDYITQLLKNYENLGPIPGFLLPFIEAFFPFLPLVVFVFANAAAYGLFEGFILSWAGAAIGAILVFLIIRKLGDRKVFKIIRKNKQVRKVTAWLERHGFGPLFLLMCFPFSPSSVINVVSGLSKISTQQFILAVIMGKSVMIFSIAYVGSSIMEFAKNPVKTIVVGICIVLFWMIGKYIEKRLQKKAELREESDTRKD NA NA NA NA NA AK015_01617 552 sipV COG0681 Signal peptidase I V ATGAAAAATAAATATCGGAAAGTGGTCTTTGTTATTTTGTTTGGGGCCATGATTATAATTGCTAGCAGGTCAGCTTTATTTGCCAGCTATGTGGTAGAAGGTGAATCAATGGAGCCAACTTTGGATGATGGGAACCTGCTAATGGTAAACAAGTTTGTGTATGATTTAACGGAAGTCGATCGGTTTGATGTGATTGTCTTTCGTGCTAATGAGAAAGAAGATTACGTCAAAAGAGTAATTGGAATTCCAGGGGATACGATTTATTACCAAGATGACAAATTATATATAAATGGGAATTATGTTGAAGAAGATTTTTTACAAGAATATGCGCAAGCTACGTTAAGTAATAAACCATATACAGAAAATTTCTCGCTGGAAGAAGTAACTGGAGAGACAAAAGTGCCAAAGGGCAAGCTATTCGTTATGGGAGATAACCGTGGGGAAAGTTTGGATAGTCGTGCATTTGGATTTATTGCACAGACGCAGTTGGTCGGCAAAGTAGATGTGAAATATTGGCCTATTTCTCAAGCTAGTCTAAGTCTGGGTAACTAG MKNKYRKVVFVILFGAMIIIASRSALFASYVVEGESMEPTLDDGNLLMVNKFVYDLTEVDRFDVIVFRANEKEDYVKRVIGIPGDTIYYQDDKLYINGNYVEEDFLQEYAQATLSNKPYTENFSLEEVTGETKVPKGKLFVMGDNRGESLDSRAFGFIAQTQLVGKVDVKYWPISQASLSLGN NA NA NA NA NA AK015_01618 3498 addB COG3857 ATP-dependent helicase/deoxyribonuclease subunit B ATGAGTCTCCGTTTTATAACAGGTCGCGTAGGTACAGGGAAAAGCGGTCGCATATTTGATGAAATAAAAGAAAAATTGCTAGATCAGCCACAAGGCTCAGCTATATTTTATCTTGTGCCTGATCAGATGACTTTTCAGCAAGAATATAATTTATTTAAAGATAAGGAAATTCGTGGCAGTATACGGGCGCAAGTAGTTAGCTTTTCACGTTTAGCTTGGAGGGTTTTACAAGAAACAGGGGGAGGAAATAAGCCCTTTATTAGTACAATAGGAATGCAAATGATGTTACGAAAAATCATGGAAGAAAAGCAAGGAGAATGGCATGTGTTTCAACATGCTATGGAAAAGCATGGGTTTATTGAACAATTAGAAACGATGATTACCGAATTTAAACGCTACGCTATTACACCTGAATTATTACAAGCTAAAATGGAGCATATGAATAGCTATGTACATAAGAAAACAGGAGAAGAAAGTCTCCTTCATAAATTGGAAGACTTGTTGTATATTTATGAAAAACTATTGCTTTCATTACAAGGAAAATATATAGACGGGGAAGATCAATTACAAATACTTGCAGATAAAATTGCTCATTCCAGGCTATTAGAAAATGCAGAAATCTATATTGATGGTTTTTATCGTTTTACACCTACAGAACTTATCGTAATACAAGCATTGTTAAAAAAATGTAAGCAAGTTACGGTTGCGTTAACGGTCGATAAGCCAGAAGAAGAACCTACTTCAGAAGTTGATTTGTTTTATCAAACGAAAGAAACGTTTCATGTATTAAAGCAATTAGCTGCGTCTATAGATGTAACGGTAGAAGAAACGATTAAACTAGCCCCTACATATGGTCGCTTTCGTAATCGCCCATACTTTGCTCATTTGGAGCAGTACTTTGATCATCGTCCAGCGCCAACATATGAACAACCAGTCCCTATACAAATTGCTGAGGCAGTTCATCCTCGTGCAGAGGTGGAAGGTGCTGCACAGCAAATTATTCATTTGGTGCGAGACGAGGGATATCGTTATCAAGATATGGCCATATTTATAAGGCAAACAGACATGTATCATGATCTAATCGCGACGATTTTTCATGATTACGATATCCCTGTATTTATTGATGAAAAGCGGACGATGTTAAACCATCCGTTAATGGAATTTATTCGTTCAGCATTAGATGTCGTTGAAGGAAATTGGCGTTACGACGCGGTTTTTCGTCTGTTAAAAACAGATTTTGTGTCAATTTCGGACAAGGAATACCCGCTAACAGCAGATGCGATTGATGAATTAGAAAATTATGTACTGGAATATGGAGTTCGATCCCGCACAAGCTGGTTTTCTGAGAAAGATTGGATTTTTCAGCGTTTTCGTGGATTTGATCAGATGTCACAAACAGATACAGAACGGGAAACACAATTACGTATTAACCGTTATCGAAAACAAGTAATTAAGGCCTTTGAAGGCTTTGATACGCAATTAAGAGAAGCAGAAACAGTGAAGGAAAAATGTGTTTGTTTGTATCGATTATTGGAAGAACTTCAAGTTCCTACAAAATTAGAACAATTGCGAGCTGAATACGATGAACAAGCTGAAATCGAAAAGGGGCGAGAACAGGAACAAGTTTGGGATGCCGTTATTCAACTGTTGGATGAAATGGTAGAAATGGTTGGCGAAGAAACGATGTCATTATCTGTATTTCGTAAAACATTGGAAGCTGGTTTAGAAACATTGAAGTTTGCTCATGTGCCCCCAAGTATAGATCATGTTATTGTCGGTTCTATTGATCGCTCAAGAATAAGCGATATTCGTTGTGCCTTTTTATTAGGTGTAAATGAAGGAATTTGGCCGTTGAAACCGTCCGCGGATGGGTTAATTAATGAACAAGAGCGTAATTTATTAGCTGATCATGGCGTACAGCTTGCTGAAACGAGTAAACGTCAATTACTAGACGACTGGTTTTATATGTATGTGTCTTTCACAGTAGCAAGTGATCAGTTATGGATTAGTTACCCATTAAGTGATGAAGAGGGAAATACGAAGATGCCATCACAACTTATTAAGCGAATAGAGAACTTATTCCCAAGCTGTTGTGAACATCAATTGCTGCAAGAGCCCGATGAATTGTTAGAAGCAGATCGTTTTGTGACAACACCTCATAAAACAAGAGCTGCCTTAACAGCACAACTAGCAAGGTATCGTAAGGGGTATCCAATAAAACCCATTTGGTGGCATGTACTCAATTGGTATATCATGCAGGAAAAAAAGAACGGAACGACATACCGTATTTTACAGAGCCTGTATTATCAAAATAAACCTAGTAATCTATCGGCAGAAACCGTTGAGCAGCTATATCCAAAACAGATTAAAGCAAGTGTTTCTAGACTGGAGACATATTACAGATGTTCTTATCAGCATTTCGCCAAATATAGCCTTGGTTTAGAGGAAAGGCGAACATATAAGCTAGATGCACCAGATATTGGTCAGTTATTCCATGAAGCGTTAAAAACGATAACCGTATGGATTCAACAAGGAGACAAAGAATTTTCTCAACTCACACAATCTGATGCGGCTTCATACGCACATCAAGCAGTTACCAAGCTATCTCCTATATTACAGCACCAAATCTTGCACAGTTCGAATCGCTATCAGTATATTCAACAGAAATTAGAAGAAGTAATTGCAAGGGCAACGTATGTACTAAGTGAGCAAGCTAGAAGAAGCCATTTTTCTCCAGTTGGTTTGGAGTTAGGATTTGGGAACGATCAAGATCTACCGCCGTTAACTGTTCCTTTGCAAAACGGATTTGAATTGATGCTTAGAGGCAGGATAGACCGTGTCGATAAGGCTGTTAAAGATGACGAGCTATTTTTACGAATTATTGATTACAAATCAAGTGCAAAGGAATTAAATTTGCTTGAGGTGTACTACGGACTTGCATTGCAAATGTTAGCATACCTTGATGTAGTTATTACGCATTCGGAACAATGGCTAGGCGTAAAAGCAACACCAGCAGGTATTCTGTATTTCCACGTCCATAATCCGATGATTACAGGACAAGACAAGCTTGATGATGCCACGATTGAAAAAGAATTATTTAAAAAATATAAGATGCAAGGGCTATTGTTGGCAGATGAAGATATTGCTAAACTCATGGACCAAGCTTTAGAATCAGGTGCTAGCCAGATAATTCCAGCTGCAATTAAAAAGAATGGTGGATTTTACAGTTATTCTAAAGTAGCAGATGAAAGGACCATGAAGCATTTACAGCAACATGTTCATCAACTGATGACGCAGGCAGGGATAGACATGACACATGGTGCTATCGATTTAAATCCATATTATTATAAACAACAAAATGCTTGTACGCACTGCCCGTTTCAATCTGTATGTCAATTTGATCCGACGATATCAACGAACAATTACCGCAAACTAACAGATATGAAGCAGGATGAAATACTCAAACGAATGCAAGCAGAGGAGGATTCAGAATGGTGA MSLRFITGRVGTGKSGRIFDEIKEKLLDQPQGSAIFYLVPDQMTFQQEYNLFKDKEIRGSIRAQVVSFSRLAWRVLQETGGGNKPFISTIGMQMMLRKIMEEKQGEWHVFQHAMEKHGFIEQLETMITEFKRYAITPELLQAKMEHMNSYVHKKTGEESLLHKLEDLLYIYEKLLLSLQGKYIDGEDQLQILADKIAHSRLLENAEIYIDGFYRFTPTELIVIQALLKKCKQVTVALTVDKPEEEPTSEVDLFYQTKETFHVLKQLAASIDVTVEETIKLAPTYGRFRNRPYFAHLEQYFDHRPAPTYEQPVPIQIAEAVHPRAEVEGAAQQIIHLVRDEGYRYQDMAIFIRQTDMYHDLIATIFHDYDIPVFIDEKRTMLNHPLMEFIRSALDVVEGNWRYDAVFRLLKTDFVSISDKEYPLTADAIDELENYVLEYGVRSRTSWFSEKDWIFQRFRGFDQMSQTDTERETQLRINRYRKQVIKAFEGFDTQLREAETVKEKCVCLYRLLEELQVPTKLEQLRAEYDEQAEIEKGREQEQVWDAVIQLLDEMVEMVGEETMSLSVFRKTLEAGLETLKFAHVPPSIDHVIVGSIDRSRISDIRCAFLLGVNEGIWPLKPSADGLINEQERNLLADHGVQLAETSKRQLLDDWFYMYVSFTVASDQLWISYPLSDEEGNTKMPSQLIKRIENLFPSCCEHQLLQEPDELLEADRFVTTPHKTRAALTAQLARYRKGYPIKPIWWHVLNWYIMQEKKNGTTYRILQSLYYQNKPSNLSAETVEQLYPKQIKASVSRLETYYRCSYQHFAKYSLGLEERRTYKLDAPDIGQLFHEALKTITVWIQQGDKEFSQLTQSDAASYAHQAVTKLSPILQHQILHSSNRYQYIQQKLEEVIARATYVLSEQARRSHFSPVGLELGFGNDQDLPPLTVPLQNGFELMLRGRIDRVDKAVKDDELFLRIIDYKSSAKELNLLEVYYGLALQMLAYLDVVITHSEQWLGVKATPAGILYFHVHNPMITGQDKLDDATIEKELFKKYKMQGLLLADEDIAKLMDQALESGASQIIPAAIKKNGGFYSYSKVADERTMKHLQQHVHQLMTQAGIDMTHGAIDLNPYYYKQQNACTHCPFQSVCQFDPTISTNNYRKLTDMKQDEILKRMQAEEDSEW NA NA NA NA NA AK015_01619 3720 addA COG1074 ATP-dependent helicase/nuclease subunit A ATGGTGAGCTGGACAACGGAACAAGAAGAAGCTATCTATACAAAAGGGTCTGATACTCTTGTTGCAGCAGCTGCAGGTTCGGGTAAAACAGCAGTTTTGGTGGAACGAATTATTCAAAAACTGTTGGATAAGAAGCAACCTGTAGATATTGATTCCTTACTTGTGGTTACATTTACAAATGCAGCTGCACAAGAAATGCGTAATCGAGTTGGTGATGCATTAGAAAAAGCTTTAGAAAAAAACCCAGCTTCTTTACATTTAAAAAAACAATTATCGTTATTACAACGAGCATCTATCTCCACATTACACGCATTTTGTTTAGATGTTGTTAAACAATATGCTTATTTGCTAGATATTGACCCAGCTTTTCGGATTGCAAATAATATGGAAGCAGAACTGATGAAGCAGGAAGTATTAGACGACTTATTTGAAAGCTGGTATGGAACGGATGCAGAGGAACAAGAAGCTTTTTTTCAAGTTGTTGACCGTTTTTCAAGTGATCGAAGCGATGCCGATGTAGAGAAATTAATTTTACAATTATATGAGTTTGCAGTAAAAAACCCTTGGCCGGATAAATGGTTAGATCAATTAGCGGAAGCTTATGATATACCAAAAACGGCTCAAGAAAGTGAGTTAAGCTGGCTAAAAATTTTGAAACGCGAAGTGAAAGAACAGTTAAATGCCATGGAAGAGGAAATAGAGCAAGCAATGAAGGTAGCGAGAGAAAGTGATGGACCTTATCATTATGCCGATACACTCGAGAAGGATTTGGTACTTGTTCATGAAGCGAGTGCTCATTTGGGTGATTGGCAACAATTGCACGATTGGATAGAAGCAAGTACGTTTGCTAAGCTATCTAGTAAAAAAGTAGAGGTTAATGAGGAAAAGAAAAAACAAGTAAAAAAATTACGAGAAAGCTATAAAAAGCGCTGGACAGCCATGAAACAAGGTTGGTTTGCTAGGAATTTAGTAAGCCACCTAGAAGATATGCGTGAAATGGCTCCGATAATGAAACAGTTAGCTTCACTCGTGAAAGCATTTAAAGCGAAGTTTCAAGAAGAAAAAAAAGGGCGTGCTCTCGTTGATTTCTCCGACTTAGAGCATTTATGTTTGCAAATATTGCTTGAAGATAGAAATGTGGATAAGCCAAAGCCGTCAAAAGTGGCAAAAAGTTTCCAAGATCAATATACGGAAATACTCATTGATGAGTATCAAGATACAAACCTTGTTCAAGAGACTATTTTATCACTAATAAGCAATCAAACAGGTGCGGGAAACAGATTCATGGTAGGGGATGTTAAACAAAGCATTTATCGTTTTCGCCACGCAGAGCCGTCTTTGTTTATAAAAAAGTATAATCGTTTTGCTCAATCTGAACATCTTGCTAAACGAATCGACTTATCACGGAATTTTAGAAGCCGTAGCCAAGTTTTAATGGCGACAAATTATTTATTTAGACAAATCATTGATGAATCGCTTGGAGAAATAAATTATGATGCAAATGCAGAGCTCATTTATGGAAATAAGATGTATGACAACTTCCCCCACAGAGCTCCTAGTCCAGAATTAATTATTATTGATCGGGAAACGAATGAGCGTAAAGAAACCGACTTGGATCATTCCATGGACCTAGAGAAAGCAGAATTAGAAGCACGAATGTATGCAAATAAAATAAAGCACTGGATTGGCCAAGAAGACGGGCAACCATTACAAGTAGTAGATAAAAAAACAGAGCAACAACGTGACGTGCAATATCGAGATATTGTTATCTTACTTCGTTCCATGACGGATGCACCTGTGATTACAGACGAGCTAAAAAAACAAGGAATTCCTGTTTATGCAGAACTGTCTACAGGCTATTTTGAGGCGATTGAAGTAAAAGTCATGATCAGCTTTTTAAAAGTCGTAGATAATCCGCGGCAGGATATTCCTTTAGCCTCTGTTTTGCGTTCACCAATTGTCGGTCTAAATGAAGAAGAATTAACTACCATTCGGTTAGCGAGAAAAAAACAAACCTATTATGAGGCATTACTATTCTATGCAAAAGAGCATGTCAATGCATTAGCTGATAAAATCACCATGTTTTTAGAGTCGTTACATCGATTACGTAAAGCCACAAGACAAGGAGCTTTATCGGAGTTAATTTGGCAAATTTATCGAGAAACGAAATATTATGATTATGTTGGTGGTATGCCAGGAGGTAGGCAAAGGCAGGCGAACCTCCGTGCATTGTATGATCGGGCAAGAACGTATGAAGCAACCTCTTTCCGTGGCTTATTCCGTTTTCTTCGCTTTATAGAACGTATGGAAGAGAGAAAGGAAGATTTAGGCGCTGCAAGAGCTTTAAGTGAACAAGAAGATGTTGTAAGGATTATGACCATCCATAAAAGTAAAGGATTGGAATTTCCTGTAGTCTTACTAGGTGGTATGGATAAGCAATTTAATTTAAGTGATTTAAATCAAAAATATTTATTGCATAAAGATTATGGTTTTGCTAGCAAGTATATTGATCCAGTTAAACGAATATCTTATCCTACGCTTTATTATCATGCATTAAGACGGGAAATGTTACGTGATCAATTAGCGGAGGAGATGCGCGTTTTATATGTCGCATTAACTCGAGCCAAAGAAAAGCTTGTTATGATTGGAAGTGTGGCATCTTTTGATAAGAAAAAGGAAAAATGGCAAGCCATTCAAAACCATCCTTACTGGGTACTACCAACTCATGGACGAATAGAAGTAAAAACATACCTTGATTGGGTTGCTCCTGCACTTGTACGGCATCATGAAAATGAAGTATTACGACTTGGAGAAATAGGAGAACAAGTAAAAGAAGAAATTCAACAAGACCCTTCTAGTTGGGAAATTAGCATCCATCACGCTAACGAGCTTGAAGAAACAGGGAAGCAAGCTGATGACGAATTAGATCAGCTTTATCAACATATTTCTGAATGGACTCCTTTTACATTATCCAGCGATAAGTTAGCAAAAACGGTGCAACAACGTTTGAGTGATACGTATCCTTATATACACGCTGCGAAATCCAGAGCGAAACAAACGGTAACCGAATTAAAGCGGCAGCAGGAATTAAAAGATGAGTACAGTAGTGATCATTTAATTACACCTAGGCAAAGACCAATTATGAAACGCCCTGTTTTTATGCAAAAGGAAAAGAAGGTATCAGCTGCTGAAAAGGGTACTTTTATGCATAAAGTAATGCAACATTTACCATTGCATCGTTCGTTGACGTATGAGGAGATTGAAACGGAATTAGAAAAAATGGTGGAAAAAGAAATGATTGGTCGAGAGGCTGTCGAAGAAATAGATATTACAGCTATTGAACATTTTTACCAAACGTCAATTGCTCAAATAATGATAACAGCTCCTTATGTGCAACGAGAAATTCCGTTTAGTTTAGCCATTCCAGCTACAGAAGTATATCATGATTGGCAAGGAAAAGAAGAAGATGTATTAATACAAGGTGTAATCGATGCGATTATTTCGACAAAGGATGGTTGGATTATACTGGACTATAAAACCGACTCCATTCATGGAGAATGGTCCGAGCTAGTAGAAGAAAAGTTGTTACGAAGATATCAAACACAAATGGATCTTTACCGCCATGCAGTTGAAACTATTTGGAGACAGCCAGTATTGGAAACATACCTTTATTTCTTTACAAAACAAGCGCTTGTTCGGGTGCCGTCCAGAAGATATTGA MVSWTTEQEEAIYTKGSDTLVAAAAGSGKTAVLVERIIQKLLDKKQPVDIDSLLVVTFTNAAAQEMRNRVGDALEKALEKNPASLHLKKQLSLLQRASISTLHAFCLDVVKQYAYLLDIDPAFRIANNMEAELMKQEVLDDLFESWYGTDAEEQEAFFQVVDRFSSDRSDADVEKLILQLYEFAVKNPWPDKWLDQLAEAYDIPKTAQESELSWLKILKREVKEQLNAMEEEIEQAMKVARESDGPYHYADTLEKDLVLVHEASAHLGDWQQLHDWIEASTFAKLSSKKVEVNEEKKKQVKKLRESYKKRWTAMKQGWFARNLVSHLEDMREMAPIMKQLASLVKAFKAKFQEEKKGRALVDFSDLEHLCLQILLEDRNVDKPKPSKVAKSFQDQYTEILIDEYQDTNLVQETILSLISNQTGAGNRFMVGDVKQSIYRFRHAEPSLFIKKYNRFAQSEHLAKRIDLSRNFRSRSQVLMATNYLFRQIIDESLGEINYDANAELIYGNKMYDNFPHRAPSPELIIIDRETNERKETDLDHSMDLEKAELEARMYANKIKHWIGQEDGQPLQVVDKKTEQQRDVQYRDIVILLRSMTDAPVITDELKKQGIPVYAELSTGYFEAIEVKVMISFLKVVDNPRQDIPLASVLRSPIVGLNEEELTTIRLARKKQTYYEALLFYAKEHVNALADKITMFLESLHRLRKATRQGALSELIWQIYRETKYYDYVGGMPGGRQRQANLRALYDRARTYEATSFRGLFRFLRFIERMEERKEDLGAARALSEQEDVVRIMTIHKSKGLEFPVVLLGGMDKQFNLSDLNQKYLLHKDYGFASKYIDPVKRISYPTLYYHALRREMLRDQLAEEMRVLYVALTRAKEKLVMIGSVASFDKKKEKWQAIQNHPYWVLPTHGRIEVKTYLDWVAPALVRHHENEVLRLGEIGEQVKEEIQQDPSSWEISIHHANELEETGKQADDELDQLYQHISEWTPFTLSSDKLAKTVQQRLSDTYPYIHAAKSRAKQTVTELKRQQELKDEYSSDHLITPRQRPIMKRPVFMQKEKKVSAAEKGTFMHKVMQHLPLHRSLTYEEIETELEKMVEKEMIGREAVEEIDITAIEHFYQTSIAQIMITAPYVQREIPFSLAIPATEVYHDWQGKEEDVLIQGVIDAIISTKDGWIILDYKTDSIHGEWSELVEEKLLRRYQTQMDLYRHAVETIWRQPVLETYLYFFTKQALVRVPSRRY NA NA NA NA NA AK015_01620 219 gerPF putative spore germination protein GerPF ATGCCTTCTATTGTTGGTCCGATTAAAATTGTTAGTGTGAGTGGTGGGGTCGTAAATTTTGGTGATTCCTTTTATATTGCTCCAAAAGAATCTACAAAAACAAATGCTGGTTCTGGTTCCTTAAACACTGGAGATTTCACATGCACAAATAATGGTGTAAGTTCAACCAATCCATTTGACCCAGATATAAACGACCAAAATTTAACTGCAAATGCTTAA MPSIVGPIKIVSVSGGVVNFGDSFYIAPKESTKTNAGSGSLNTGDFTCTNNGVSSTNPFDPDINDQNLTANA PGPT0025090_58 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304 NA NA AK015_01621 384 gerPE putative spore germination protein GerPE ATGAAAAAAAGAACATCCATTGTTGATAATTTGTTTACTAACTCTGTATCCACAAGTAGTATACTTTCCATTGGGGATACAGAAAATGCTGCGTTAAAATTTAAAGGGCTTGCTATTCAAAAACAAAACCCTGTTTTTTCTAAACGTGATGAAGAAACATTCAATTACCCACTATTTAAGCGAGATACGAATTGGCCAGAACCTAAAATGCTCGTAAACAAATTAACGACCCACCACAAAGGGAGCATTCATGTGGCGAATGTTGCAAGTATCGGCGTAAGTAGTTCTTCATTACTCCAAATTGGTAATTTAACAAGAGTCTATGCAGAGTCCCGTGTGAAGCATTTCCGTAAGCTACAAGATACAAGTGAATCTTTTGAATGA MKKRTSIVDNLFTNSVSTSSILSIGDTENAALKFKGLAIQKQNPVFSKRDEETFNYPLFKRDTNWPEPKMLVNKLTTHHKGSIHVANVASIGVSSSSLLQIGNLTRVYAESRVKHFRKLQDTSESFE PGPT0025085_127 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025085-gerPE-K06303 NA NA AK015_01622 177 gerPD putative spore germination protein GerPD ATGAATATGGAAGTTCATAATTGGGGGTTAAATATTGGTAATGTTCAAGTTGACAACGTATCCTCATCATCTGTGTTTCTAATTGGGGACAATGAGCAATTTCTTCTTTCATCCTTTTTCGATACACCACCCGAAGCATTTACTTTAGGAAATATTGTACCATTAGCACTTACGTAA MNMEVHNWGLNIGNVQVDNVSSSSVFLIGDNEQFLLSSFFDTPPEAFTLGNIVPLALT PGPT0025080_94 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025080-gerPD-K06302 NA NA AK015_01623 579 gerPC putative spore germination protein GerPC ATGAATCATTCAAACTGGTCCACTTATATGTACGATATGCATGAATACATGAGACAACAGGAAGCGTTAATTGAACAATTAACATCACGAGTAAATGAATTAGAAGAAAAGCTACAGAACAAAAAATCTAACCATATCGAAAAAGTAGAATATCATTTTGACCAACTAAAAATTGAACAATTAGATGGAACGCTTCATATTGGTTTATCTCCACAAGATTTGGCTAATCTAGACGGTAGCTTTATTGATCAACCGAAACCTCCAAACTATCAAGCCCCTTTAAAACAAACGATACAAGCAGAATTAAATGATTATTTGCATCGAAACGGCACAAATATAATTAACCAAATGGCAGCAGAATATAATGTAAGTATGGATGACGGTTATCCTCCCATTTTGATTCAAGATATGATCAAACAGTTACCAGGACGAATTGCCTTTTACGAAAACGAAGCATATAACGAAAAAAACTTACAAACAAGAGATGACATCCATCGATTTATATCCGACAACGTAAAAAATGAAATTAAACAGTCATTACGAAAATATATGGATACCCAAAGATCTAAAGGAGAATAG MNHSNWSTYMYDMHEYMRQQEALIEQLTSRVNELEEKLQNKKSNHIEKVEYHFDQLKIEQLDGTLHIGLSPQDLANLDGSFIDQPKPPNYQAPLKQTIQAELNDYLHRNGTNIINQMAAEYNVSMDDGYPPILIQDMIKQLPGRIAFYENEAYNEKNLQTRDDIHRFISDNVKNEIKQSLRKYMDTQRSKGE PGPT0025075_141 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025075-gerPC-K06301 NA NA AK015_01624 201 gerPB putative spore germination protein GerPB ATGCCTTTAACCGTGCATCAAACCATAAGTATTTATATGATTAAAGTTGGAGCTATTACGAATTCATCTGTTCTACAAATTGGTAGTACGGGAAGTATTCAATCCCAATCTGACATTTACAATACCGGTGGTTATACGGAACCTGCGCCAACAGCCGAAGTTATTCAAGAAGCAGTTCCATTGGTTCCTTTAGCTCCCTAA MPLTVHQTISIYMIKVGAITNSSVLQIGSTGSIQSQSDIYNTGGYTEPAPTAEVIQEAVPLVPLAP PGPT0025070_110 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025070-gerPB-K06300 NA NA AK015_01625 213 gerPA putative spore germination protein GerPA ATGCCAGCGAAAGTAGGGGCAGTGAAAGTCGTTAACTTATCATCTTCCAGTATTTTTAATATTGGTGACGTTTACTCAATGTCTCCGAATAGTACTGCTAAAACATATGCTGGTGGAGGGTCATTTAATACCGGCAACGGAATTCGCGTAAACTTAGGAAATGCTAAAACGTATATATACGATTCAGATAAAGTAGATATGTCTTATAACTAA MPAKVGAVKVVNLSSSSIFNIGDVYSMSPNSTAKTYAGGGSFNTGNGIRVNLGNAKTYIYDSDKVDMSYN PGPT0025065_148 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025065-gerPA-K06299 NA NA AK015_01626 1176 hypothetical protein ATGAATCAACAAGCTTCACCTGTGCAAGCAAAAGAGAGACTTCATTGGATAGATGCTGCAAGGGGATTTGCCATTTTTGGCATACTAATTGTTAATATGCTGTCATTTAGCTCTCCTTACTTTACATACAGAGGAGAAGGGTTAGTTTGGAATAATCCTGAAGATGAGGTAACGCTTGCTGTTATTGATATCGTTTTTCAAGCGAGCTTTTACAGTTTATTTTCTTTTTTATTTGGATTTGGCCTCCAATTAATGACGGATCGTCTCCAATTAAAAAAATTAGAAGCTGTTCCGCTTCTAACTCGAAGACTTTTATTTTTATTATTATTTGGAGTGATTCATGCATTTGTAATTTGGTATGGCGATATCTTAATTACCTATGCTCTTGTCGGTTTACTTGCATTGTTATTTTTGAGAGTAAAGGAGAGGACTTTAATTTATTGGGCTGTGGGGCTGTTAGGAGGGTTTGTTGGCTTTATTACATTTATTTCCTATTTGGCGAGAACATGGATAGCTATGTATGGACAAGAGCCATTAAAGCCAGTTGAACCTATTATTGCAAATTATCAAAGTAACTCCTTTACTACTATTTGGTCACAAAATGCGCAAGATTGGCTGTTTGGGAGTGGATTAGGTCTCTTCTTTCTTCCCTTTTTACTCTTGCCGTTATTTTTAGTGGGTATGTATTTTGCAAGAAAACGTTGGTTACATCATCCAATGCAACATAAATCAGTACTAAAAAAGTTATGGGTGTATTCGCTTATTTTGTTTTTAGTGTTTAAATTAGGGCCATATTTCTTTGGTAACCCATTGTGGTTTGAAATTGCCCAAGATAGTATTGGAGGCTTGTTTTCTGCCCTGTTTTATATTTTGTCCATTACACTATTGGGACAAACAGAATTAGGTGCTAAATTGATGCAACCATTTAACTATGTTGGGAGAATGGCATTTACCAACTATATTATGCAGTCTATCCTTTGTGTTCTCTTGTTTTATGGGATTGGATTAGGTTGGTATGGTCAAACTTCCCCGTTACAAGGTGTAGGTATAGCCATTATTATTTATGGTTTGCAAATGATATATAGTAGTATATGGTTAAGGAAGTTCCGTTATGGGCCTTTGGAGTGGTTATGGAGAAGTCTTACTTATGGAAAGATGCAACTTATGGGCAAATAA MNQQASPVQAKERLHWIDAARGFAIFGILIVNMLSFSSPYFTYRGEGLVWNNPEDEVTLAVIDIVFQASFYSLFSFLFGFGLQLMTDRLQLKKLEAVPLLTRRLLFLLLFGVIHAFVIWYGDILITYALVGLLALLFLRVKERTLIYWAVGLLGGFVGFITFISYLARTWIAMYGQEPLKPVEPIIANYQSNSFTTIWSQNAQDWLFGSGLGLFFLPFLLLPLFLVGMYFARKRWLHHPMQHKSVLKKLWVYSLILFLVFKLGPYFFGNPLWFEIAQDSIGGLFSALFYILSITLLGQTELGAKLMQPFNYVGRMAFTNYIMQSILCVLLFYGIGLGWYGQTSPLQGVGIAIIIYGLQMIYSSIWLRKFRYGPLEWLWRSLTYGKMQLMGK NA NA NA NA NA AK015_01627 177 hypothetical protein ATGGAGAAGTCTTACTTATGGAAAGATGCAACTTATGGGCAAATAAATCATGCAAACACTGAAAAAGCAGCTTGGAACAGTGCCAAGCTGCTTTTTTATGGTCTGGGATATTATAAAATTTTACATATGTGGATAAACTTACTAAGTTATTTAGCCACGTCCGGCTCCAGCGCCTAG MEKSYLWKDATYGQINHANTEKAAWNSAKLLFYGLGYYKILHMWINLLSYLATSGSSA NA NA NA NA NA AK015_01628 1197 rocD COG4992 Ornithine aminotransferase ATGGGACAAACAAGTCAACAAATTATTGATCAAACACAGGAGTACGGTGCTAAAAATTACCACCCTCTGCCTGTGGTCATCTCTAAGGCAGATGGAGTATGGGTAGAAGATCCTGAAGGAAACCGCTACATGGACATGCTCAGTGCTTATTCAGCTGTTAATCAGGGACATCGCCACCCACAAATTATTAAAGCACTAAAAGATCAAGCGGATCGTTTAACTTTAACATCCCGAGCGTTTCATAATGATCAGCTTGGGCCTTGGTTTGAAAAAATTTGTAAGCTTACGAATAAAGAAATGGTATTGCCGATGAATACAGGCGCAGAAGCAGTAGAAACGGCTATTAAAGCAGCTAGAAGGTGGGCTTATGACGTAAAAGGAGTGGCGGAAAACAAAGCTGAAATTATTGCTTGTGAAGGTAACTTCCACGGTCGAACAATGACCGCTGTCTCTTTATCATCTGAAGCCGAATACAAACGTGGCTTCGGACCAATGTTACCAGGTATTAAAATTATCCCTTACGGAGATGCAGAAGCTCTAAAGGCTGCAATCAATGAAAATACCGCAGGCTTTTTATTTGAACCAATTCAAGGAGAAGCTGGTATTGTCATCCCACCAGATGGTTTTTTACAAGAAGCATACCAGATTTGTAAAGAAAACAATGTACTATATATTGCGGACGAAATTCAGTCTGGACTAGCTCGCACAGGAAAAATGTTTGCATGTGACTGGGAGAATGTAACACCTGACGTACAAATTCTTGGAAAAGCCTTAGGTGGAGGCGTCTTTCCAATCTCATGTGTAGTTGCTAACAAAGATATTCTCGGTGTATTCAATCCTGGTTCTCACGGATCCACATTTGGAGGTAATCCACTAGCATGTGCTGTCTCTATTGCTGCATTAGATGTTTTAGAAAAAGAGAATTTAGCAGATCGCTCTTTAGAATTAGGAACGTACATGATGAATGAATTAAAGTCCATCCCTAATCCAAAAATAAAAGAAGTTCGTGGTAAAGGGTTGTTTATCGGCGTGGAGCTTACCGAACCAGCCCGTCCATATTGTGAAGCGTTAAAGGAAAAAGGACTGCTTTGTAAAGAAACACATGAAAACGTCATTCGATTTGCACCTCCATTAATTATTAAACAAGAAGATTTAAAATGGGCTGTTTCTCATATTAAAGAAGTATTAACACCATAA MGQTSQQIIDQTQEYGAKNYHPLPVVISKADGVWVEDPEGNRYMDMLSAYSAVNQGHRHPQIIKALKDQADRLTLTSRAFHNDQLGPWFEKICKLTNKEMVLPMNTGAEAVETAIKAARRWAYDVKGVAENKAEIIACEGNFHGRTMTAVSLSSEAEYKRGFGPMLPGIKIIPYGDAEALKAAINENTAGFLFEPIQGEAGIVIPPDGFLQEAYQICKENNVLYIADEIQSGLARTGKMFACDWENVTPDVQILGKALGGGVFPISCVVANKDILGVFNPGSHGSTFGGNPLACAVSIAALDVLEKENLADRSLELGTYMMNELKSIPNPKIKEVRGKGLFIGVELTEPARPYCEALKEKGLLCKETHENVIRFAPPLIIKQEDLKWAVSHIKEVLTP PGPT0007155_447 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 AK015_01629 369 hypothetical protein ATGACACATTTGCATATAACGGGATGGGTATTAGGGTTTATTTTATTAGCAATCTCTTATGCTATGTATAAGAAAGGTAATACGAAAGCAGGGAAAATCGTACATATGATTTTGCGCTTGGATTATTTACTTATCTTATATTCTGGAGGAGACTTAATTACCCCTTACTTTAATGGTGGATCGTTAATGGCAGAAGCAATTGTTAAAGGGGTTGCGGGTATATGGATGATTGCTATTATGGAAATGATACTCGTTCGCTTACCAAAGGAGAAACCATTAAAAGGACTGTGGACACAGTTTGTCATTGCGCTTATTATTCTGCTTGTATTAGGATTCGTTCGGTTACCTATGGGAATTCAATTAGGTTAA MTHLHITGWVLGFILLAISYAMYKKGNTKAGKIVHMILRLDYLLILYSGGDLITPYFNGGSLMAEAIVKGVAGIWMIAIMEMILVRLPKEKPLKGLWTQFVIALIILLVLGFVRLPMGIQLG NA NA NA NA NA AK015_01630 180 hypothetical protein ATGTACGTAGGACAGCCTTTTTTATACTATAATGGCTTTAGAATAGGCGAAACTATAATTTTTCGTCATAACGTTTTGTTGATAAGCCACGTTTTACTTATTCCTTGGTGTGGCTGGATTATAGATAACAGTGAAAAAATAATCGGACAAGAAAAAGATGGACGGGGGAAAGAGAAGTGA MYVGQPFLYYNGFRIGETIIFRHNVLLISHVLLIPWCGWIIDNSEKIIGQEKDGRGKEK NA NA NA NA NA AK015_01631 1488 COG0366 Cyclomaltodextrinase GTGATGAAGAAAGTAATTGCTTTTTTAATAGTTAGTTTCATGTTTTTTATTTATGTACCAACTATGGTTCAAGCTGATGAAACAAGCATTCAAGATGAAGTTTTTTATCGTATCTTAGTTGACCGCTATAATAATTTAAATGTTGAACGTGATAAACAAATTGATCTTGATAATCCAAAAGCATATCATGGTGGTGATTTGGAAGGGATTACAGATAGGTTGGATACTTTTGAGGAATTGGGGTATACTTCCATCATCCTGTCACCTATTATGGCAAACGCACCAGACGGTTATCATGGTTATTGGATAGAAGACTTTTATAACGTAGAACAGCAATTTGGTGATATGGAAAGTTTGCAAAAGTTAATTGATGAAGCTCATGAAAGAGAGATAAAAGTTGTTTTGGAGCTTGTCACGAAATATGTTGCTAAAAGCCATCCGATTGTTACTAATCCATCTAAAGCGGATTGGATTGATCGAGATGCACAAGTAAACACAGCTTGGGGAGAAAATGTTGTTGCATTGAATCAAGAAAATGAAGCAGTACAAGATTATTTAGTCAATGTAGCAAAGTATTGGAAAGAAGAAACGGATGTTGACGGTTTCCAATTACACGCTGCAGACCAAGCCTCACCATCGTTTTTAACTCTACTTTCAAATGAAATAAAACAATCTGATGAAAATTTTTATTTGTTAGCAGATGTACTAGAGGGAAAATCTGATGTAACTACTTTACAGGAAAATCAACATATTGATGCTGTTGAGAACCATAATGCACAGCAAGCAATGCGTGATGTTTTTTCTAAACCTGGTGTCTCACCGGAAAATATATATGAAGCAACAATGCAAGATAGCGCTGTTGATATGCTATTTATGGATGACCAATCCATGGAGCGTTTTACACAAACTTTAGCGGAGAATGGCAGAAATCCATTGACAGCTTGGAAATTAGCTTTAACCTTTTTATATTCTATGCCAGATGTTCCAATGATCTATCAAGGTTCCCATCTGCCGATGTATGGTTCCACATTGGATGAAGTACAACGGATGGTAGAGTTTAACAGTGGAGATAAAGAATTAACGGAGTTTTTTAATAGGATATCTTCCTTACGTCAAGAGTTTCCTGCCTTACGAAGAGGAAACTACGAAATGGTAGGGACAGATGGAGCAATGAGTGTGTTTAAACGTACTTATGATGGGCAAACGATGTATATTGCTATTAATAACGATGTAAAGACACGTTCTGTTACCATTTCAGATGTAGAAGAAGGAAAAGAATTGCGAGGATATTTAAGTGATCAAACCTTTCGAGCTAATGACAACGGAGAATATCGGGTGGGTTTAGATAGAGAGATGGTAGAAATATTCTCTGTAGAAGAAGATACAGGGCTTAACTGGTGGTTTATTGGTTTTATAATCGGTATATTTTTATTATTTATCGTTGGTATCGTGGTGTTATCTAGAAAACAAAAGAAAAATGAGGGGTGA MMKKVIAFLIVSFMFFIYVPTMVQADETSIQDEVFYRILVDRYNNLNVERDKQIDLDNPKAYHGGDLEGITDRLDTFEELGYTSIILSPIMANAPDGYHGYWIEDFYNVEQQFGDMESLQKLIDEAHEREIKVVLELVTKYVAKSHPIVTNPSKADWIDRDAQVNTAWGENVVALNQENEAVQDYLVNVAKYWKEETDVDGFQLHAADQASPSFLTLLSNEIKQSDENFYLLADVLEGKSDVTTLQENQHIDAVENHNAQQAMRDVFSKPGVSPENIYEATMQDSAVDMLFMDDQSMERFTQTLAENGRNPLTAWKLALTFLYSMPDVPMIYQGSHLPMYGSTLDEVQRMVEFNSGDKELTEFFNRISSLRQEFPALRRGNYEMVGTDGAMSVFKRTYDGQTMYIAINNDVKTRSVTISDVEEGKELRGYLSDQTFRANDNGEYRVGLDREMVEIFSVEEDTGLNWWFIGFIIGIFLLFIVGIVVLSRKQKKNEG PGPT0012200_897 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208 NA NA AK015_01632 873 COG1307 Fatty acid-binding protein ATGGATATTAAAATCCTTGCCGATTCAGCTTGTGATTTAACAGCAGATTATTATAATAAATACGACATAGCATTTATACCATTAACCGTCCGGCTTGATGATAAGGATTACGAAGATGTCAAAACAATAGATCCTAAAACAGTTTACCACGCAATGCGTGATGGGAAAACCCCAAAAACATCGCAAGCTTCAGCTCAGCGTTTTAAGTCTATTTTTACATCTCATGCTGAAGCAAATCAACCTTTAGTTTACCTTGCTTTTTCTTCTCAACTATCTGGTACATATCAAGCAGCAAAAATGATGGAACAAGAAGTAAAAGAAAGCTATCCCGATGCTCCTATTCACGTAATTGATACGAAATGCGCTTCACTAGGGTATGGGCTTGTTGTACTTCATGCAGCAAAGCTTGCCAAGCAAGGAGCGGCGTTACAAAGAATCGTAGAATCAAGTAAGTCCTGCGCTCTTCATATGGAACACATCTTTACTGTTGATAACCTAGAATATCTATATCGAGGTGGCCGTGTAAGCAGAACAGCAGCGTTTGTTGGTTCTTTGTTAAAGATTAAACCAATTCTTCACGTAGAAGATGGCAAGTTAATTCCATTAGAAAAGATACGCGGTTCAAAAAAATTGTTCCTCCGTATGCTAGAAATCATGGAAGAACGCGGTGATGATTTATCAAACCAAACCATTGCAATTTCCCATGGCGATGACTTCGAGCGAGCAGAACAACTTGCTTCCATGATTAAGGAAAAATTTCACGTGAAAGATGTTATTATTGAGATGGTTGGTTCGGTTATAGGTGCGCATTCAGGGCCTGGAACGATTGCACTTTTCTTTTTAAATAATACCGATTTTGATCGCCCTGCATAA MDIKILADSACDLTADYYNKYDIAFIPLTVRLDDKDYEDVKTIDPKTVYHAMRDGKTPKTSQASAQRFKSIFTSHAEANQPLVYLAFSSQLSGTYQAAKMMEQEVKESYPDAPIHVIDTKCASLGYGLVVLHAAKLAKQGAALQRIVESSKSCALHMEHIFTVDNLEYLYRGGRVSRTAAFVGSLLKIKPILHVEDGKLIPLEKIRGSKKLFLRMLEIMEERGDDLSNQTIAISHGDDFERAEQLASMIKEKFHVKDVIIEMVGSVIGAHSGPGTIALFFLNNTDFDRPA NA NA NA NA NA AK015_01633 843 hypothetical protein ATGTTCATTTTTGAAGCAAAACGAATTGCAGTAGTCATTTTTGGAGCGTTGCTTAATGCAATATCTCTGAACTTTTTCTTAATTGAAGCAAATGTGTATGCTAGTGGGTTTACTGGTGCTGCTCAATTAGCATCTAGCGTTTTTAATGATTTCGTTGGCATCGGAATTAGTACGGGAATTTTATTAGCTCTATTTAATATCCCTGTTGCTATATTGGGTTGGCTTAAAGTAGGTAAAGGGTTTACGATTTATAGTGTCGTTTCTGTATTTTGCACGACTCTTTTTCTAGAATTTATTCCTATGGTTCAAATATCAGAAGACATTATTTTAAATGCTGTCTTTGGTGGTGTTGTTGGTGGTACTGGTGTAGGGATTACACTTAAAGTCGGTGCTTCCACTGGAGGAATGGACATTGTGGCGATGGTTTTATCGAGAATGAAAGATAAACCGATAGGTACGTATTTTTTAATGTTAAATGCGATTATTATAGCATTCGCTGGTATTTTATATGAACCAGAAAATGCTTTGTATACCTTACTTACTTTATACGTAACGACACGTGTAATTGACGCTCTTCATACACGTCATGAAAAGGTTACAGCTATGATCATTACTCGTAAAGCAGACGAACTGCAGGCTGCTATTCACCAAACTATGGTACGTGGTATTACGATTCTTCCAGCTAAAGGAGCTTATACAAAAACAGATAAGGATATGCTTTATTTGGTCATCACTCGGTATGAATTATATGATTTAGAGAGAATTATTAATGAAGTAGATCCGAACGCATTTACAAATATCGTTCAAACGACAGGTATATTTGGTTTTTTTCGCAGAGATTAA MFIFEAKRIAVVIFGALLNAISLNFFLIEANVYASGFTGAAQLASSVFNDFVGIGISTGILLALFNIPVAILGWLKVGKGFTIYSVVSVFCTTLFLEFIPMVQISEDIILNAVFGGVVGGTGVGITLKVGASTGGMDIVAMVLSRMKDKPIGTYFLMLNAIIIAFAGILYEPENALYTLLTLYVTTRVIDALHTRHEKVTAMIITRKADELQAAIHQTMVRGITILPAKGAYTKTDKDMLYLVITRYELYDLERIINEVDPNAFTNIVQTTGIFGFFRRD PGPT0014526_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014526-yitT-NA NA NA AK015_01634 426 hypothetical protein ATGTGGAAAAAAGTTTTCTTGTTAATAGCTATAGCATTAGTACTTTTTGGATGTAGTACGAAGAATGAAAAGGGCGACCCCACAGCCAAAGACACTTCAACACGAGAAGCACAGACAAACGGCGTCCGTTTTGAAAACTTGGAAATGGAAGTGACCGATGGAATAGCTGTTTTACAAGGTGAAGCGCATGCGAATGAAACGGATGTATTTTACCAATTGGAACATGAAGGAGAGCCCCTTAGTGACGAAACGGCTTTACCTTTAGAGAAGAAGAAAGGGCAATGGGAGAAGTTTATGGTAGAGGTTAAACTGCCAGAGGAAACATTGCATGCGGAGGAACCTCCAGTAATTGTGATATATGGAAAGAATCATGATGGTGAAAAAATAAACCCGAATTATTTCCCTGTAGATGTTGAAAACAAATAA MWKKVFLLIAIALVLFGCSTKNEKGDPTAKDTSTREAQTNGVRFENLEMEVTDGIAVLQGEAHANETDVFYQLEHEGEPLSDETALPLEKKKGQWEKFMVEVKLPEETLHAEEPPVIVIYGKNHDGEKINPNYFPVDVENK NA NA NA NA NA AK015_01635 264 hypothetical protein TTGAGTATTCGTGCTGAAGCCACCCCGAATCCAAATGCAATGAAATTTACTGCAGATAAACTAATATTTGAAGGAACAAACAGTATATCCGTAATGCCTGGAGATACGAGTGAATATGACATTTTAAATGATTTAATGCAAGTAGAAGGTGTAGATAATGTTTTTGGATATCAAAACTTTATTACCGTAAATAAGCAATTCGATACAGAATGGGATGATTTAATACCAAAGGTAACAGAAGTAATAGAAAAATATGGATTTTAA MSIRAEATPNPNAMKFTADKLIFEGTNSISVMPGDTSEYDILNDLMQVEGVDNVFGYQNFITVNKQFDTEWDDLIPKVTEVIEKYGF NA NA NA NA NA AK015_01636 207 hypothetical protein TTGGAAAACAATCAAAATAATTTATTTCAACAAGCAAGAAATGCTGTGATGAACTTTATGAGTCAGCAAAACAATGCTTCTAATGCAGAAGATAAACAAGCTGCACAAACTGCTATTCAAGCTGCTTATCAGGAGGCTACACCTGAAGAAAAACAGCAATTACAGCAATTGGAAAATCAATTAAGGCAACATAATCAAATACAGTAA MENNQNNLFQQARNAVMNFMSQQNNASNAEDKQAAQTAIQAAYQEATPEEKQQLQQLENQLRQHNQIQ NA NA NA NA NA AK015_01637 150 hypothetical protein GTGAGTAAAGCAAGTAAATCAAAGCGTTTTGCCCAACAGAGCGCAGATTCTGTAAAAAAGCATGCTGAACGCTTCCCTTATCGAAGCAGATTCTCTGAGGTGCAGAGAAAACAAGATGAAGCTGATAACCATACAGTAGGAGGGTTTTAG MSKASKSKRFAQQSADSVKKHAERFPYRSRFSEVQRKQDEADNHTVGGF NA NA NA NA NA AK015_01638 822 yitU COG0561 5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU ATGCAAACAAACAGACACTTAATAGCATTAGATCTTGATGGAACACTGTTAACCGATAAAAAAGAAATAAGCCCTAAAACAAAACAAGTAGTTTTAAAAGCAATGGACGAAGGTCATATCGTTGTTATTGCAACAGGCAGACCACATCGGGCAAGTATTGGTTATTATAAAAATTTAGGGTTAACTACTCCGATGGTAAATTTTAATGGTGCACTTATTCACCATCCAAATGATAAGAAATGGGATGCTCTGCACAGTCCGATGTCTATACGAACAGCTCATAAAATTATCGGAACGTGTTATGAGCTAAATGTACGAAATATATTGGCTGAAGTTATGGATGATGTGTATTTAGATCAATATGATCAAGCCATTATTGATATATTTCATATGTCAAAAAATGACCCCCCTTTTACAATAGGGAGTCTGAGAAATAAATTAACAGAAGACCCTACTTCCATCTTAATTCATCCGAAAGATGAACATATTTCCACATTACGAAAACATCTTGATGACTTTCATGCTGACCTTATTGAACACCGTAATTGGGGAGCACCTTGGAACATTATTGAAATTGTTCGCAAAGGAATGAATAAGGCTGTTGGTTTACAGAAGATTGCTCATTATTTCCATATCCCCGCGGATCGCATTATCGCTTTTGGTGACGAAGATAATGATTTAGAAATGATTGATTACGCAGGGGTAGGTGTAGCTATGGGCAATGCAATTGATGAATTAAAATCCATAAGTAAATACGTGACAGATTCTAATGAAGAAAACGGAATAGCAAATTTCTTACAAACCTATTTAAAAATAGGCTGA MQTNRHLIALDLDGTLLTDKKEISPKTKQVVLKAMDEGHIVVIATGRPHRASIGYYKNLGLTTPMVNFNGALIHHPNDKKWDALHSPMSIRTAHKIIGTCYELNVRNILAEVMDDVYLDQYDQAIIDIFHMSKNDPPFTIGSLRNKLTEDPTSILIHPKDEHISTLRKHLDDFHADLIEHRNWGAPWNIIEIVRKGMNKAVGLQKIAHYFHIPADRIIAFGDEDNDLEMIDYAGVGVAMGNAIDELKSISKYVTDSNEENGIANFLQTYLKIG PGPT0008595_370 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 AK015_01639 1158 xerC_3 Tyrosine recombinase XerC ATGAAAATGCATAAATCGAACAAAGATCCAGAGCTATTCTTTTATTTTAATGCTAAAGGGGAAAAGCTATGGTGTTTTAGACATAGATATTATGATTCTCTAGGTAAACGTAGAGAAAAAACAAAACGTGGTTATAAGAAAGAAAACGAAGCATACAGAGAACTTTTAGAAGTAAAGACCAATACCATTAATGGTTCATCAAAACTGGTTGAGCACTCCAATTTGACCGTCTCTGAATGGTTAGACACATGGTATGATGTACACAAAAATGAATGGAAAGATTCAACTAGGGAACACCGTAAGCTTGTTATAGACAAACACTTTAAACCGTTGCTAGGTAATTATAAATTGGCTCAATTAAACAAAACAACATACAAAAGAGTTTTTATAAATAAGCTATTGGAAAAAATGAATCCAAATACCGTGCAGTTTCTACACCGTATTTTTAAAGTGGCCATAAACGCAGCGGTTGATGATGAGATTTTAGACAGGAACCGTTTCACTAAAATTAAGATTCAAAAGAAGAAAAGAGAAAAAGAAAACTTCTTAACTCCAGAAGAACTTAATATCTTTCTTCCAGCTGCTAAGAAGCTTCTAACAACTACAAATTATACACTTGTATTATTACTTACTTTTACTGGTTTTCGCAAGGGTGAAGCTTTAGGCTTGCAATGGGATGACATTTGTTTTGAAAAAAATACAATAACAGTAAACCGCACTAGAGATAAATATGGAATACGTACTCCCAAAAGCGAAAAAAGTTATCGAACAATTAAAATCGACAATGTTTTAATATCACAATTAAAATCATATTATTTATGGTGTAAAAAGGTAAAATTATCTCTGGGTTTACATTTACAAGAAAATGACTTAGTGTTTATAACGAATACTGGTTCTCCTTGCAATGATTCCACATTAAATAAAGCATTTGAAAGCTTATTTGATGAACTAGAGATCAAACGAATTACACCGCATGGATTAAGGCATACTCATGCAACCATATTAATTGAAAAGCGGATTCCCGTTATTGAAATAGCCCAACGCTTAGGGAACACTCCCCAAATGATTTATAATGTTTACGGTCATTCGTTTGATAAAATAGAAAATGAATCTGTACAGGCATTTAGCGATAGCGTAAATTCAAGCGCAATTCAATAA MKMHKSNKDPELFFYFNAKGEKLWCFRHRYYDSLGKRREKTKRGYKKENEAYRELLEVKTNTINGSSKLVEHSNLTVSEWLDTWYDVHKNEWKDSTREHRKLVIDKHFKPLLGNYKLAQLNKTTYKRVFINKLLEKMNPNTVQFLHRIFKVAINAAVDDEILDRNRFTKIKIQKKKREKENFLTPEELNIFLPAAKKLLTTTNYTLVLLLTFTGFRKGEALGLQWDDICFEKNTITVNRTRDKYGIRTPKSEKSYRTIKIDNVLISQLKSYYLWCKKVKLSLGLHLQENDLVFITNTGSPCNDSTLNKAFESLFDELEIKRITPHGLRHTHATILIEKRIPVIEIAQRLGNTPQMIYNVYGHSFDKIENESVQAFSDSVNSSAIQ NA NA NA NA NA AK015_01640 519 hypothetical protein ATGACGTTAGAAGAATTAGGACAAAATACTGGCTTTACAAAAGGGTATTTATCTATGATTGAAAACGGCAAAACCGAAAAGTCACCAAGCTTCGAAACACTACAAAAAATAGAAAAAGGCTTGGGTGTGCCCGATTCAACGTTGCTTAAGGAGGCTGGATATATTGTAATTGATCCTGTAGTAGATGATTATGAAAAAGCTTCTTATTTGACTGATTTGTATTATCGTTCAGTTATTAAATGGAGCGAAGATCAATTTTTTAATGAAAAAGACACTATAGCAATCAGAGAACATTTTTCCGATTTACTGCTTAGATATAAACAACTCGTAGAAGCATTAGGCTATGCAAAAGATAGGTGGGAGTACAATAAGGAATCCTATAAAACTTTATATGAAGACAGATTATCAGAAGAAGAAATCAAAGAAATGTTTTTAAAGAACGAACTAGAAGCTAAATTAAAAGACCTTACAGTTTGGATAGAACAATTCCCTCACAGAATAGCAAGGAATATCGATTAA MTLEELGQNTGFTKGYLSMIENGKTEKSPSFETLQKIEKGLGVPDSTLLKEAGYIVIDPVVDDYEKASYLTDLYYRSVIKWSEDQFFNEKDTIAIREHFSDLLLRYKQLVEALGYAKDRWEYNKESYKTLYEDRLSEEEIKEMFLKNELEAKLKDLTVWIEQFPHRIARNID NA NA NA NA NA AK015_01641 240 hypothetical protein TTGATTATTTACTTACCCAAGAAAACAAAAATACTTGTAGCGATGGCGCGAAAAGGTCTTAACCAAAAAAGCCTAAGTGAAAAGGCTGGTATCAATAAAGCGACACTATCCTTATTCATGAATAGTAAGAGAAACATTTCACCTACAACCGCTAAAAAGATAGCTGCAGCACTTGAATGCGGTCTAGAGGAGATTTTTGAAATTGAAATAAAAGCAACAGGTATAAAATCTTTAAACTAG MIIYLPKKTKILVAMARKGLNQKSLSEKAGINKATLSLFMNSKRNISPTTAKKIAAALECGLEEIFEIEIKATGIKSLN NA NA NA NA NA AK015_01642 273 hypothetical protein TTGTCATTCGCTAACATTAATATCGATATAGACCAAAATGAAATTAGGGATTACGTAAATGCAAAGCTAGATGAAGCATTAGAAAATGAATTGTTTTTATGCGATATAAACGAACTGGCTAAAAGAACTTGTATGAGCAAATCTTTTCTTGAAAATGAAATACTCTGCGATCCACGCATGAGATTGCTGGAAAGAAGAAAAGAAAAAGGAAAACGTTTTTGGTTTTATAAAGAGAGTTTAGAAGTTATTAGGGAAATTATGAACGAATGGTAA MSFANINIDIDQNEIRDYVNAKLDEALENELFLCDINELAKRTCMSKSFLENEILCDPRMRLLERRKEKGKRFWFYKESLEVIREIMNEW NA NA NA NA NA AK015_01643 96 hypothetical protein ATGGTAAATAAAATATCGCACGGACAGGCGCTATTTGAAGAAAAAGCAAATAACAGTGCTATTCAAGTTGTAGATACTGATAAAAAAGGGGAGTAA MVNKISHGQALFEEKANNSAIQVVDTDKKGE NA NA NA NA NA AK015_01644 414 hypothetical protein ATGATTTGTTCTAATTGTGGAGAAAACATTCAAGTTAATCAAGATTACTATAGAGCTGGGAAAGCTCAAACTGTATTTTGTAGTGAGAATTGCTGTTATGAAGCGTATGAAGGCTATTATTCCAAAAAAGAAATATCAAAAACTATTGAAAGAATCAAACACCCCTTGGAGGTAATTCATGCAGAAAAAGAATATACAGAGTTTAGTGTGATAGATCCAGAAGGCGTGTTGGAAGTCACTAAAATAATGGAACAGGCCATTAAACAAGAATCACCTTATGTGTTTGAGTTTATCAATGAAAAGGGTGCTATTGAAAAAACTACAAGCAGGGAAATCTACTTGGAACATATTCTAAGCTGGGCAGCAGAAACAATTGATAGTCTTGTAGAGGTAAAAGAAAGGAGTTTTAAATGA MICSNCGENIQVNQDYYRAGKAQTVFCSENCCYEAYEGYYSKKEISKTIERIKHPLEVIHAEKEYTEFSVIDPEGVLEVTKIMEQAIKQESPYVFEFINEKGAIEKTTSREIYLEHILSWAAETIDSLVEVKERSFK NA NA NA NA NA AK015_01645 312 hypothetical protein ATGATGGCACAAGGCATTGTAAGCATGCTACACGATTTGGAAAGTTTCATCGGAACATCGATCTCTAAGACGGAAGTTTTATCAGATATTGAAGTAGAATTTTCCCAACTCATCGAGAAAGGACTTACGAATGCTGAAGAATGGGGAGGCATGGAACGGATTGAAGTACAACGAAAAATAAGATTACTAGATGATTTGCTTTGGTACACAGTCAATGAACTGCGCCAAGTGAACGATAAGTTAAACAATACTAAAAACCAGATGTTTCAACAGATCGTGAAGGGAGATTCATCGAATGAAATTAACGAGTAA MMAQGIVSMLHDLESFIGTSISKTEVLSDIEVEFSQLIEKGLTNAEEWGGMERIEVQRKIRLLDDLLWYTVNELRQVNDKLNNTKNQMFQQIVKGDSSNEINE NA NA NA NA NA AK015_01646 597 hypothetical protein ATGAAATTAACGAGTAAACGAAAATTATTTATAAAATCATATATTAAAGCTATACAAGGTTTTATGGAGAAGGAAGAACAAGAACAGTTAAAAAAAGTAGTTTTTTACGGGATAAAGGTAATTAACGACATGCCAGAACCTATCAACACAACAGATTATATGTATTGTTTTGATTTAGCTAGTGGTATTAAGGAAAATGTTGCTTTGCTTACACCAAATGAATTTATGAACACTTTTCCAATTGCTAAAGAATTTGATGGTGATAAATTCGAAACCAAGGATTATTTTTACACCATGAATTATATAAACGCTCTGGAACGAGATACATGTATTGGAAAACAAGTAAATCCTTTAGAATTTTTATGGGAGTATCATAATTGGGATGTAATGCATTTTAGTACAAAAACCTTAGGCTATTTAAGTGGGTTAAGACGAGCAGAAGGACATTTGGATATATTTGAGGAATTCATGGCTTCTCAAGGCAAGGACACGCCGAATACTTTTAAAAATAGTAAGGGTGAACCAATGTATATACGAAGCGGAAAACCCGAGAAGGTACAAACAACTCCAACTGCAGATTTAAAAGTAGTAAGGTAG MKLTSKRKLFIKSYIKAIQGFMEKEEQEQLKKVVFYGIKVINDMPEPINTTDYMYCFDLASGIKENVALLTPNEFMNTFPIAKEFDGDKFETKDYFYTMNYINALERDTCIGKQVNPLEFLWEYHNWDVMHFSTKTLGYLSGLRRAEGHLDIFEEFMASQGKDTPNTFKNSKGEPMYIRSGKPEKVQTTPTADLKVVR NA NA NA NA NA AK015_01647 129 hypothetical protein TTGAAAAGAACAGTTGATTTAAACAAATTGGCTACTTTGCTAGATATTAATATAGAAGAATTAAAGCAACAGACAAAGAGAGAGGACAATGAAAGAGGTGAAACTGATGAGAATATTGAAGAAGATTAA MKRTVDLNKLATLLDINIEELKQQTKREDNERGETDENIEED NA NA NA NA NA AK015_01648 873 hypothetical protein ATGGCTAGACCGCAGAAAGAAGGGTTAGATTATTTTCCGCTGGATGTTGATGTTGATCAAGATGAAAAAGTCATAATGGTTAACGCTAAATATGGCATGAGAGGATTCGGCATATTTATCCGTTTATTAATGGATATTTACAAAAAAGGTTATTACTGCCATTGGTCTGAGAAAGAAGTATATATATTTTCAATGAAGGTTAATGAAGCTGCTGAGTTAGTGAAGGGCGTTGTGGATGAATGTTTAAAATGGGGTTTTTTTAGCAAAGAAATGTATGATTCTTACTCAATTCTGACTTCAAAAGGCATTCAATCAAGATATAAATTAGCAACTGGAAGAAGAAAAGAAACCTTAATTGCTCCTGAATATGATTTGATTAATGCGGACAATAATTCAGTTAATGATAACAAAAACTATAGTTCGTGTAGCAAAAGCAATACAGAAAGTACACAAAAGAAAGTAAAAGAAAAGAAAGTAAAAGAGAATAGTCGTAAAAGAATTTACGACAATACTTCTCCTTATTATAAATTAGCAAAGTACTTCTATGGACAGATAAAGAATAATAATCCAAATCATAAGGAACCAAATTATCAAAAGTGGTCGAATGACATACGGTTGTTGATAGAAAAAGATGGCCGAAGTATAGAAGATGTGAAGCATTTAATGTATTGGGTGCAACAAGATAATTTTGAAATGGTCAATGTATTGTCTCCCGATAAATTAAGAAAAAGATTTGATCAGTTAACAATGAAATCTAGGTCTAGTTACAAAAATGATGAAAACAAGCGTGATGATCCCAGAGATAAAGAGATCGCTCTTCAACAGTGGATTGCAGAAGGGAACAACCCTGAGGAGTTCAATTGGGAGAGTTAA MARPQKEGLDYFPLDVDVDQDEKVIMVNAKYGMRGFGIFIRLLMDIYKKGYYCHWSEKEVYIFSMKVNEAAELVKGVVDECLKWGFFSKEMYDSYSILTSKGIQSRYKLATGRRKETLIAPEYDLINADNNSVNDNKNYSSCSKSNTESTQKKVKEKKVKENSRKRIYDNTSPYYKLAKYFYGQIKNNNPNHKEPNYQKWSNDIRLLIEKDGRSIEDVKHLMYWVQQDNFEMVNVLSPDKLRKRFDQLTMKSRSSYKNDENKRDDPRDKEIALQQWIAEGNNPEEFNWES NA NA NA NA NA AK015_01649 363 hypothetical protein ATGACTGGATTGACGAACAGAGAAAAGATCAAGGTTAAAAAAGCAGTTATTGCAGAGTTAGAGAAGTATCGTTATCTAAAGTGGTTAAAAGAGCCAACGCAGGAACACAAAGATTTCTTTAAAACGATAGATAACGCTGTGGAAGATTTACCTGAAAAAGAAAGTTTCTTGATCAGAAAGCGATACTTGAGCAATGAATCGGAGTATATTACAGATTCCCAAATGTATAAGAGAATATTCGATCCGCCTATTTCAGAACCCACTTATAGAAAGATAAAGGAGAGGGCAGTAATTAAATTGGCTCTGTGTCTGTGGGGAGGGAGATTTGTAGAAATGTCAATAAGTAAAACAAATAATCAATGA MTGLTNREKIKVKKAVIAELEKYRYLKWLKEPTQEHKDFFKTIDNAVEDLPEKESFLIRKRYLSNESEYITDSQMYKRIFDPPISEPTYRKIKERAVIKLALCLWGGRFVEMSISKTNNQ NA NA NA NA NA AK015_01650 432 hypothetical protein TTGGAAGATAACTATTTACATGGAATTATAAACGTTTGTTATGCATTGGATAGAGTGGAATTTTTACACAGGGTAAAAGGCAGATACTCAAGGATGATATTAGATGAAGGTGATTCCATAGAAGTATTAATTGATGGGATTTACTCCACGGTTTCAATAAGCGAAGTATTGGCCGAGGGAGAAAATGGTCAATCTGTTTATGACGGCGAGGAAACGAGGGTTGTAATAAATCCCGCTACTACCGCACAAATAGAAGCTGAGCTCCAATCTTTATATATTAAAGAACTATTCAAGATGATTGATGGTGGATGGATAACTCCTGAAAGTGCAATGGAAATGATGGATGATTACCGAAACATATACATTTATCAAAAAAGAGTTATAAAGAAATCTAAAAGAAAGTTTAAGGTTCTTCCTGTTGATTTTTATTAA MEDNYLHGIINVCYALDRVEFLHRVKGRYSRMILDEGDSIEVLIDGIYSTVSISEVLAEGENGQSVYDGEETRVVINPATTAQIEAELQSLYIKELFKMIDGGWITPESAMEMMDDYRNIYIYQKRVIKKSKRKFKVLPVDFY NA NA NA NA NA AK015_01651 93 hypothetical protein ATGGAAGCTAGACATAAAAAGGCTGAAATAGATTACAAAAAGGGAATGAAGTATAAAGATCTGATAAATATGGCGTTTCAATTAATACCGTAA MEARHKKAEIDYKKGMKYKDLINMAFQLIP NA NA NA NA NA AK015_01652 219 hypothetical protein ATGACAAAGAATAAGTATTGCTTTAATAATGCGGACGAGCTACGCAAATTCATGGAAACAGAAGTAGTGACAACTACAGAAGCTGTAGAACTAATTGGTTGCAGCAGGCAGAATATAAAGCAATTGGTTGACCATGGTACACTAGTGCCGATTAAGCAAACGCCAAGAGAAAGGCTTTTCCTAAAGGATGACGTATTGAACTATCGCAAAAGAAAATAA MTKNKYCFNNADELRKFMETEVVTTTEAVELIGCSRQNIKQLVDHGTLVPIKQTPRERLFLKDDVLNYRKRK NA NA NA NA NA AK015_01653 1251 hypothetical protein ATGGATAAATATTTAAAAGTTCATTTGCCTAAAAGCAACAAAGAAATCAAACAGATATGGGATCAGGCTATCTTTATTGTAGACACTAATATTTTGTTAAACCTTTACAAATATTCAAATTCTACTAGGAATAAATTCTTTAATATAATGGAGTCATTAAGTTCAAAAACATGGATACCTCATCAAGTAGCACTGGAATACGTTTTAAATCGCACAAAAAAGATTCACGAACAAGAGAAAAATTATGATAATCAAGTTGAAGCTATTGAAAATGCAAAAAAAACTGCTATTGACCAATTGAATAATAAGGTAAATGTTATAAAAAAATCTTTTCGTAAAATTGATTTAGAAGATATTAAGAAAAGAATAACTAATTTCTTTGACGAACTAAAACAAGAAGTCACAAATAATGATGATTATACAGCAGGTGAGTTTTATCAAAACGATAAAATACTTAAAAGCTTTTTGAAACTATACGAAAATAAAATTGGTGAAGCTTATGGTCAAGACGAATTAGATGAGCTATACAAAGAAGGGAAAGGAAGGTATGATAAAAAAATTCCTCCAGGATATGAGGATAAGAGAGATAAGGAGGGGGAGTATAAGGTATATAACAATACAGAAATCAAAAGTGAATACGGGGATTTATTATTGTGGAAACAAATTATTCAAAAAGCCAAGAAAGAGAAAAAACCAGTAGTGTTTGTTACTGATGATAAGAAAGAAGATTGGTGGAAGATTGAACATGGAAAAGTAAAAGGTCCAAGAGAAGAATTAATTAATGAATTTTTGAAAGAAACAGGCTGTGAAATACTTATGTATAGTACAGAGTATTTTCTGGAAAAGGCCAAAGAAAACTTAACCATAGATATAAATGATGATGTAATTAAAGAAGTGAAAGATGCAGCAGTTGAACTTGATATGTTATCTAAAAGAAATCAAAGTTTGAGAGCTAATTTTCATAGAATAGATGATTTTATATCAAGAAAAGATAATGATATTGTATCAGACGATAAAGTCTTCGAAAGTACATTGAAAAGGCAAAGAAAACAATATAAAGAAGTACTAAATAAAATGGATATACTAACTGTAAAGATTGTTAAGCTAGAAAATTTAAAGAATGAACTCTCTTACCATCAACAAGAAGAGATTGAACAAATGATTAGTTCATTTAAAAATGAGTATCAGGAGTTGGAATTTGCTAAATCCATGTTAGAAGCAGATATGTATCGTCAAAAGGAGTATAAATAA MDKYLKVHLPKSNKEIKQIWDQAIFIVDTNILLNLYKYSNSTRNKFFNIMESLSSKTWIPHQVALEYVLNRTKKIHEQEKNYDNQVEAIENAKKTAIDQLNNKVNVIKKSFRKIDLEDIKKRITNFFDELKQEVTNNDDYTAGEFYQNDKILKSFLKLYENKIGEAYGQDELDELYKEGKGRYDKKIPPGYEDKRDKEGEYKVYNNTEIKSEYGDLLLWKQIIQKAKKEKKPVVFVTDDKKEDWWKIEHGKVKGPREELINEFLKETGCEILMYSTEYFLEKAKENLTIDINDDVIKEVKDAAVELDMLSKRNQSLRANFHRIDDFISRKDNDIVSDDKVFESTLKRQRKQYKEVLNKMDILTVKIVKLENLKNELSYHQQEEIEQMISSFKNEYQELEFAKSMLEADMYRQKEYK NA NA NA NA NA AK015_01654 675 hypothetical protein ATGGCAAGAAGTAAATTGCTAACTGATTTATTAAGTTCTAATGTGGATTTGGAGAGCATATTCTTACGATTAAAAGTCATTTTAAGTGATCTAAATTATGATCCTGTAATGAAGTGGATTGATGGGGAATTAAAAGGGTATACCGATATAAAAACACTGCCAAGTTATAGAATAGCAGAGGGTTATCCAACAGGCACTTTCTTAACTGGTGGCGGGCGAGCAAAGCACAGTAATACAGGTGTTCCAATTGAATCACTTGTAGATGAAGAACAGGTAAAAGCAATAAAGACTGTATCATTTAAGTATGGAATAAGCGTAATACAAAATATGCTTATTACCCAAGATGCCCACATTAGAAAAGAAATATCTGCTGCTTATTATCACCGTATTTCTAAGCCCGAATTGCAAATAGTTCATATGGAAGTAAGAGTTCCTTTGGAATTTGTTAGAAATGTTGTTTCTAATGTTAAATCAAAGTTAGTGGAGATTGTTATGGAGCTAGAGAAGGATTTTGAAGACATTGATGAGCTTGATATAAAACCTCAATTGGAAAATCAAGACGTTGAAACAATAATCTATAATATAGAAAACATACTGCACGATTCAATTCAAATAGGAGATGAAAATAAGTTCAATAAGTCTAAACTTGGTCATGATTCTGGTGAGGAAAAATGA MARSKLLTDLLSSNVDLESIFLRLKVILSDLNYDPVMKWIDGELKGYTDIKTLPSYRIAEGYPTGTFLTGGGRAKHSNTGVPIESLVDEEQVKAIKTVSFKYGISVIQNMLITQDAHIRKEISAAYYHRISKPELQIVHMEVRVPLEFVRNVVSNVKSKLVEIVMELEKDFEDIDELDIKPQLENQDVETIIYNIENILHDSIQIGDENKFNKSKLGHDSGEEK PGPT0027797_858 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-AbiTi-AbiTii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027797-toxin_AbiTii-na NA NA AK015_01655 210 hypothetical protein ATGAATATAAAGATTGGTGATAAAAATAAAATCAAGAATTCCAATGTTGGACATACTATTAATTCTAAAGGTAATAGCGTAAGCGAAAGGAAGAAAATCAGTGAAAAACACCCAATATTAATTGGTGCATTTATTTCTTTTATGGTTGGTTTTATACTCCTTTTTTCATTCTGGGATAAAGTCGTAGGTTACGTTGAGAATTTATTTTAA MNIKIGDKNKIKNSNVGHTINSKGNSVSERKKISEKHPILIGAFISFMVGFILLFSFWDKVVGYVENLF NA NA NA NA NA AK015_01656 762 hypothetical protein ATGATCGGAATATATGAAGAAAAAATTGATACCATTCCAAGCTTAATTATAGTGGATGCAGAAAAAAATGGCGTCGCTTTGCCCGTAGTTACTTATTTCCACGGGTTTACCAGCGCAAAAGAGCATAATTTGCCGCTAGCATTTTTACTTGCTCAAAAAGGATACCGGGTTATCTTGCCAGATAGTAAGTATCATGGCAACCGTGAAAATGGCATTCATGTGGAGAAAAGACAACTATCCTTTTGGGATATTGTAGTGCAAAATGTAACTGAATTACAATATATAAAGGATTATGTGGATGAAGCTGGATTATTATTAGATGATCGCTTTGGCGTAGCGGGAACAAGCATGGGAGGGATAACTACTTCTGCTGCAATTACCCAATATGAATGGGTTAAAGCAGCCGCTATCTTAATGGGTACACCGAAGATTACAACCTTTGCACAGGAAATTATTGATGCGTTTAAAAAAACGGGCGATCTGCCTGTAAAACAACAAGAAATTACGAACTTATTGGATCGGTTAGCTAAGTATGATTTGTCTCAGCAACCAGAGAAGTTAAATGAACGCCCGTTGTTTTTTTGGCATGGGGAAGCAGATGAGATTGTACCGTTTAATCATGCTTACTCTTTTTATAAACAAGTAGCACCAACTTATGCTAACTCTAAAGATATTGTTTTTCTAGGAGAAGCAAATCGTGGTCATAAAGTAGGGAGATTTGCCACACTTGAAACGGTAAAGTGGTTTGTAAATCATTTATAA MIGIYEEKIDTIPSLIIVDAEKNGVALPVVTYFHGFTSAKEHNLPLAFLLAQKGYRVILPDSKYHGNRENGIHVEKRQLSFWDIVVQNVTELQYIKDYVDEAGLLLDDRFGVAGTSMGGITTSAAITQYEWVKAAAILMGTPKITTFAQEIIDAFKKTGDLPVKQQEITNLLDRLAKYDLSQQPEKLNERPLFFWHGEADEIVPFNHAYSFYKQVAPTYANSKDIVFLGEANRGHKVGRFATLETVKWFVNHL NA NA NA NA NA AK015_01657 312 sufT Fe-S protein maturation auxiliary factor SufT ATGGATGAGGCATTAAAGGAGAATCTTTTTGGTGCATTAGAAAATGTTATTGATCCTGAATTAGGCATAGATATTGTTAATTTAGGTTTAGTATATGATGTAGAATTAGATGAAGAGGGGATATGTAAGGTTACAATGACACTAACTTCTATGGGATGTCCGCTTGCTGGACATATTGAGCAAGACGTCAAACACGCATTATCTGATATTCCAGAAGTGAAAGAAACGGAAGTTAGCATTGTATGGAACCCTCCATGGGGCAAGGAAAGAATGTCACGTTATGCTAAAATTGCACTAGGTATTCCAGATTAA MDEALKENLFGALENVIDPELGIDIVNLGLVYDVELDEEGICKVTMTLTSMGCPLAGHIEQDVKHALSDIPEVKETEVSIVWNPPWGKERMSRYAKIALGIPD NA NA NA NA NA AK015_01658 834 uppP Undecaprenyl-diphosphatase ATGGACGCTATATCTAGCTTAAGTATCATTTTAAAATATTTACTACTCGGTTTATTTCAAGGTTTCACGGAACCAATACCTATTTCATCAAGCGGGCATTTGGTTATGCTTCGTGATCTCCTTCATTTACAAGTCGAATTAACAGGATTGTCATTTGAAATTTTAGTGAATTTTGGGTCACTAATCGCTGTGCTGGTCGTTTTCCGTGAAGATTTAATTCGGTTAACAAAAAATGGGCTTCGATTTATTTTACAAAAAGATAGAGATAATGAAGCAACGGCTGACTTTCAATTTATCGTATTTCTAATTGTAGCAACCATTCCTACGGGAGTTTTAGGCTTCTTATTAAACGACTATATAAGTGACATTAAAGCAGTTACTGTCGGATACACCTTGCTGATTACTGGGGCAGCTTTATGGATAATTCGTAATCTTCACGGGAAGAAAAATGACGGAGATTTAACGATAAAAGACGTACTTATTGTCGGTGCAGCGCAAGCCGTCTCATTAGTTCCTGGAATTAGCCGTTCAGGTGCTACCATTGTTGCTGCCATGCTTGTCGGCATGAAGCGGGAAACAGCTTTTCGTTTTTCTTTTTTACTTTATATTCCCGTTAGCCTTGGTGTTACGATTTTAGGAATAAGTGATATTGTCAAAGATGAAAGGTTTAATGAATTAATGATCCCTTATGCTATTGCCTTTTTAGCTTCCATTATTGCTACATATTTTGCCCTTAAATGGTTCGCTAACATCATGGCTAAAGGCAACCTAAAGTATTTTAGTTTTTATTGTTTCATAGTTGGGATCCTAGCAATTATTATCTTTACACGATAA MDAISSLSIILKYLLLGLFQGFTEPIPISSSGHLVMLRDLLHLQVELTGLSFEILVNFGSLIAVLVVFREDLIRLTKNGLRFILQKDRDNEATADFQFIVFLIVATIPTGVLGFLLNDYISDIKAVTVGYTLLITGAALWIIRNLHGKKNDGDLTIKDVLIVGAAQAVSLVPGISRSGATIVAAMLVGMKRETAFRFSFLLYIPVSLGVTILGISDIVKDERFNELMIPYAIAFLASIIATYFALKWFANIMAKGNLKYFSFYCFIVGILAIIIFTR PGPT0024165_1740 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153 NA NA AK015_01659 339 hypothetical protein ATGAGTCACGGTCATCAACATATATACGATGTTTGTAAGGATCATATGCATGCTTATGTGCTTATTGAGTTAGTAGATGGTTCTAGCGTTGACGGGATAATAACAGGTTTGGATCATGAATCTGTATATTTAGCAGTACCAATAGAAGCGCATGAACAACATCACTCACATATGCAGCAAGGGCATAGCCAACATCACAGACAATTTGGTTATGGCTATCCAGGATACGGCGGGCCTGGTTATGGTTACGGAGGATATGGGTACCCTCCTAACCGTTTTCGAAGGCTTATTTTACCACTAACTGCTTTAGCTGCACTCAGCATTTTACCATGGTATTAA MSHGHQHIYDVCKDHMHAYVLIELVDGSSVDGIITGLDHESVYLAVPIEAHEQHHSHMQQGHSQHHRQFGYGYPGYGGPGYGYGGYGYPPNRFRRLILPLTALAALSILPWY NA NA NA NA NA AK015_01660 174 hypothetical protein ATGCGATACATTGTTACACTTTTCTGGTCATGTTTAATCGGCGCAGTAGTTTCCTATGTTTTATCAAGTATGGGAAGTGAACCATTCAACTTAACAGCAACCATCGGATTATCAGTCGTCTTTTTTGTGATGGTATCCGTACTAGGTGACGGTATTTTAAAAGAAGATAACTAA MRYIVTLFWSCLIGAVVSYVLSSMGSEPFNLTATIGLSVVFFVMVSVLGDGILKEDN NA NA NA NA NA AK015_01661 597 hypothetical protein TTGGTTACGGTGGTTGCAAATTGTAATCATTGGATTGGTTTTCATATCACGAATCAATTATTGGAACAAGGCTTGAAAGTAAAGGGGATTGTAGACTGTAAAAAAGATGATTCTCTGTCTCTTTTTTTTGAGAGAAATAGTAATTTTTCCTTTTATTCAGGTGATACAAACGAAATATATGAACAATTCATTTGTATTGGTTCCATTCAAGAAGATGTCAATATTTCTGCGGAATTATGTGTAACACTAGCACATCCAAGTACAGTACATCCATTTACAAGCCTAAATGGCGTAATTATTGAATTACCTCTTTTATTTGGTGAATGGATGCCTATGTCAGAGAATGGTATGTATTTTCAAGGAGAATTTGTTCCTTTTTCATCGGATTATTTTCTTCAACATGCCATATATATTCATGATTTTATAGACGTTTTTCTTAAATGGTTAGAAATGTACGAGGTAGGTGAAGAGAAGCAAAACGTAAACAAAATAAAACTTGATAATTATATAGATATTAAGGACAATAGACCTAAAGAGGCGACAGTTAATCAGGTCATTCAACACTTTCGAAATCAACGATTAGGGAAGATGTTCTGA MVTVVANCNHWIGFHITNQLLEQGLKVKGIVDCKKDDSLSLFFERNSNFSFYSGDTNEIYEQFICIGSIQEDVNISAELCVTLAHPSTVHPFTSLNGVIIELPLLFGEWMPMSENGMYFQGEFVPFSSDYFLQHAIYIHDFIDVFLKWLEMYEVGEEKQNVNKIKLDNYIDIKDNRPKEATVNQVIQHFRNQRLGKMF NA NA NA NA NA AK015_01662 951 Purine-binding protein TTGCGGAATGTCTTTGCAATTATTAGCATGTTAATGATACTAGGTAGCTGTAGTAGCCCCATGCAAACAGAACAGCGAATACAGAGTGTGGGTATGTTATTAAACGGAAACATCTCTGATCACATATGGAATGAAAAAGGGTACCAAGGACTTGTTTCATTAGGAGAAAAGTACGGAATGGATGTTTATTATAAAGAAAATGTTGCAACTGAGAAGGAAATTATTGAAGCGATAGAGGAATTTTCCAATCAAGGAGTAAATTTTATATTTGGCCATAGTTCTTTTTATGGAAAACACTTTACAGACGTTGCTGAGAATTATTCTCATATACAGTTTGTTTATTTTAATGGTTCTTATGTTGCAAAAAATGTAACTAGTTTTACATTTGATACGTATGCGGCTGGATATTTTGCTGGTATGTTATCTGGTAAAATGACAGCTGTAAATAAAGTGGGCATCATTGCCACTAATGAATGGCAGCCAGAGATTGAAGGCTTCTTTGAGGGCGTTAAAAATGTAAACCCGAAAGCGGAAATAGAATTAGCTTTTTTAAATGACTGGAATGAGGTGCAAACGGCACAAGGGATTTACCAACAAATGAAATCAACCGGCGTAGATGTATTTTATCCAATAGGTGATGCTTTTAGTGAAGAGATTATTAAGCAAGCAAAAAGAGATGAGGTTTATGCCATTGGGTATAGGACTAATCAAGCAGAGTTAGCAGAGCATACAGTTTTAACTTCGACTGTCCACCATGTAGAGAAACTGTATGAATATGCAGTGGAACATGTAAATGATCGTAATTTAGCCGGACAGTTAAAAAGCTTTGATTTTCAAGATGGTGTTATTTCTTTAGCGCCTTTTAATGACCAAGTTCCCCACTCTTATCAATATGAGATGAACCAAGCAATGGAACATTATACAAATACGGGTTTACTCCCTGAAATGTAA MRNVFAIISMLMILGSCSSPMQTEQRIQSVGMLLNGNISDHIWNEKGYQGLVSLGEKYGMDVYYKENVATEKEIIEAIEEFSNQGVNFIFGHSSFYGKHFTDVAENYSHIQFVYFNGSYVAKNVTSFTFDTYAAGYFAGMLSGKMTAVNKVGIIATNEWQPEIEGFFEGVKNVNPKAEIELAFLNDWNEVQTAQGIYQQMKSTGVDVFYPIGDAFSEEIIKQAKRDEVYAIGYRTNQAELAEHTVLTSTVHHVEKLYEYAVEHVNDRNLAGQLKSFDFQDGVISLAPFNDQVPHSYQYEMNQAMEHYTNTGLLPEM NA NA NA NA NA AK015_01663 942 fabHA COG0332 3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 1 ATGGATGTTGGTGTTTTAGGCTTAGGTCATTATGTTCCTGAAAAAGTCGTTACGAATCATGATTTAGAGAAGATCGTCGATACAAATGATGAGTGGATTCGTACGAGAACAGGTATTGAAGAAAGAAGAATAGCAGAAGAGGACATGGATACTTCAGATATGGCATTTTTAGCAGCAGAAAAAGCTATCAACAATGCGAATCTAGAACCTAATGATATAGACCTTATTTTAGTCGCAACAGTAACTCCTGACACACCATTTCCCTCTGTTAGCTGTATGATTCAAGAACGTTTAGGTGCAAGGAATGCAGCAGCCATGGATATTAGTGCAGCTTGTTCAGGTTTTATGTATGGGATGGTAACAGCAAAGCAATTTATTGAAAACAACACATATAAACATGTATTAGTTGTAGGAGTAGAAAAGCTGTCAAAGATTACTGATTGGTCAGATCGTAGCACATGCGTATTGTTTGGTGATGGTGCTGGTGCAGCCGTAATGGGCCAAGTATCGGATGGTAAAGGGATTCTTTCGTTCGAATTAGGTGCTAATGGTGCAGGCGGAAAAGAATTAAAGCAGGAAAAAGATACTGGTTATTTATATATGAATGGTCGTGAAGTATTTAAATTTGCTGTCAGACAAATGCCAGAATCATCTGTTAATGTAATTAAAGCTGCTGGATATAAAGAAGATGATGTAGATTATTTAGTGCCACATCAAGCAAATATACGCATCATGGAGGCGGCTCGGCAGCGATTAGGTATCTCCGAAGATAAGATGGCCCAAACAGTAAAGAAGTATGGCAATAACTCTGCAGCTTCTATACCAATTGCTTTGTCGGAATCAGTCGCAGATGGTAAAATAAATGATAATGATTTGATCGTTTTAGTTGGCTTTGGCGGCGGTTTAACATGGGGCGCCTTAGCCATAAAATGGGGAAGATAA MDVGVLGLGHYVPEKVVTNHDLEKIVDTNDEWIRTRTGIEERRIAEEDMDTSDMAFLAAEKAINNANLEPNDIDLILVATVTPDTPFPSVSCMIQERLGARNAAAMDISAACSGFMYGMVTAKQFIENNTYKHVLVVGVEKLSKITDWSDRSTCVLFGDGAGAAVMGQVSDGKGILSFELGANGAGGKELKQEKDTGYLYMNGREVFKFAVRQMPESSVNVIKAAGYKEDDVDYLVPHQANIRIMEAARQRLGISEDKMAQTVKKYGNNSAASIPIALSESVADGKINDNDLIVLVGFGGGLTWGALAIKWGR PGPT0008355_7027 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648 NA NA AK015_01664 1242 fabF COG0304 3-oxoacyl-[acyl-carrier-protein] synthase 2 ATGAAACAAAGAAGAGTTGTAGTAACAGGAGTTGGTGCTGTTACGCCTGTTGGAAATCATGTTAGTACCATGTGGGAAAACATAATTTCAGGGAAATCAGGGATTGATTTTGTGACCAAAGTGGATAAAGAACTATTTCCGGCTAAGGTAGCTGGAGAAGTGAAAGATTTTGATCCAAGTGCCTATATCGAGAAGAAAGACGTTCGTAAAATGGACTTGTTTACACAATATGCTGTTGTGGCGTCCAAAATGGCGGTTGAAGATGCCGACCTTACTATTGATGATGATAATCGGAATCGTGTAGGCGTTTGGATTGGCTGTGGTATCGGTGGTATGCAAACTTGGGAAGATCAGCATCGAAAACTGTTAGAAAAAGGACCTAAGCGAGTTAGTCCATTTTTTGTACCAATGATGATCCCAGATATGGCTGCGGGTCAAGTTTCTATTCAATTAGGTGCAAAAGGGATAAATTCATGTTCTGTTACAGCTTGTGCTTCAGGTGCAAGTTCCATAGGTGATGCTTTTAAAGCCGTGCAGCGTGGTGATGCCGATGCCATTGTTACCGGTGGAACAGAAGCGCCGATATCTAACATGGCGTTTGCTGGCTTTTCTTCTGCCAAAGCACTCTCTCTTAATGAAGATCCACAAAAAGCAAGTCGCCCATTTGACAAATATCGTGATGGGTTTGTAATGGGAGAAGGTTGCGGTGTTTTAGTGTTAGAAGACTTAGAAACGGCGTTAGATCGTGGGGCACATATTTACGCAGAAATTGTTGGTTACGGTGCTACTGGTGATGCTTATCATATTACTGCGCCAGCAGAAAACGGCGAAGGTGCAGCACGTGCGATGGATATGGCGTTAAATGATGCAACAATTGCACCAAATGAGGTTGATTATATTAATGCACATGGTACGAGCACAGCCCTTAATGATAAATTTGAAACTGCTGCTATAAAGACAGTATTGGGCGACCATGCGAATGATGTTGCCATTTCTTCAACAAAATCAATGACAGGACATTTACTAGGTGCTGCTGGCGGTGTAGAATCGGTGATTTCTGTTAAAGCAATTGAAGAAGGAATCGTTCCGCCTACCATTAATCTTGAACATCCTGACCCAGATTGCGACTTGGATTATGTTCCAAACAAGGCAAGAAAACAGCATGTTCAAGTTGTATTAAGTAATTCGCTTGGATTTGGCGGTCATAATGTTGCACTACTATTTAAAAAATACCAAGCATAG MKQRRVVVTGVGAVTPVGNHVSTMWENIISGKSGIDFVTKVDKELFPAKVAGEVKDFDPSAYIEKKDVRKMDLFTQYAVVASKMAVEDADLTIDDDNRNRVGVWIGCGIGGMQTWEDQHRKLLEKGPKRVSPFFVPMMIPDMAAGQVSIQLGAKGINSCSVTACASGASSIGDAFKAVQRGDADAIVTGGTEAPISNMAFAGFSSAKALSLNEDPQKASRPFDKYRDGFVMGEGCGVLVLEDLETALDRGAHIYAEIVGYGATGDAYHITAPAENGEGAARAMDMALNDATIAPNEVDYINAHGTSTALNDKFETAAIKTVLGDHANDVAISSTKSMTGHLLGAAGGVESVISVKAIEEGIVPPTINLEHPDPDCDLDYVPNKARKQHVQVVLSNSLGFGGHNVALLFKKYQA PGPT0008360_5196 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458 NA NA AK015_01665 204 hypothetical protein ATGGGATACGTGTTTTTATTTTTAATGGGCTTTGGTTTTTCTATTATGGGTGGCGTCACCATTATTGCATATATGAATTTTCTTCCAGCAGGTCTATCATGGGGAGAGTATATGAGTTTTATAACTAGTAGAGTAGAATGTTATTTTTTGCCAGTTGGGCTGATTCTCATGCATATTGCTTTAAAACGTTACCCAAACAGTTAG MGYVFLFLMGFGFSIMGGVTIIAYMNFLPAGLSWGEYMSFITSRVECYFLPVGLILMHIALKRYPNS NA NA NA NA NA AK015_01666 756 hypothetical protein ATGCTATATATGCATGATGTTTGGGTGAATTGGTTTGAAGGAGAAGAGAATGGTTATAATGTATGTTATTTTCATGAGTGGCGTAAAGATGATGGTATTGAATTATTAGATCAAATACCATTATTATACATAACGAAAGAACTGTTCTCTTATATTGAAAATGATATGCAGGAAATCCCAAAACCGCTTTTAGATGCTATCTATAAGCGTGCTTATATGCGCAAAGGGCATGATAGAACAGTTCTAGAATATGCTAGCATTATAACAGATGGCAAGGAAATCCTTATCTTTGACACTATTGGTTATCGGATCCCAGTTCGAAAAAGCAGATTAATTCCAAGGCAGGAACAGCTCGTCTACGATATGATAAAAAATGCCAAAGTGCAATCGTTTAAATATGACGGGAACAATTATAAAAAAGAATACCATATGCTTTCTATGCCACCAGAACTCGTTTTTGGATTAACTAGAAGAGAGCGTCAACTAAAACAATTAATGATGATGGGGTTAGATCAGTTATGGACGACAAATAATTTGGAAGAGTTACGTTATTGGTTAACAGAATGGAACCCAAAACGTTATCCATATATTCGTTTTATGGATGAGAAAGCAGTTTGGACTGCCCTATATGAAGGCGTGAAAAAAGGGTGGAGTGATCGGCATGAGGATTTCTGTCACAAACTTATTAAAGGACAGCCTTTCTTGGAAAAAATGTGGGAAATAGAAAATGGGCAAGAACAAAACGCTTCGCAATAA MLYMHDVWVNWFEGEENGYNVCYFHEWRKDDGIELLDQIPLLYITKELFSYIENDMQEIPKPLLDAIYKRAYMRKGHDRTVLEYASIITDGKEILIFDTIGYRIPVRKSRLIPRQEQLVYDMIKNAKVQSFKYDGNNYKKEYHMLSMPPELVFGLTRRERQLKQLMMMGLDQLWTTNNLEELRYWLTEWNPKRYPYIRFMDEKAVWTALYEGVKKGWSDRHEDFCHKLIKGQPFLEKMWEIENGQEQNASQ NA NA NA NA NA AK015_01667 999 trpS COG0180 Tryptophan--tRNA ligase ATGACAACAATTTTTTCAGGAATTCAACCAAGTGGTACGTTAACTTTAGGAAATTACCTCGGTGCATTAAAACATTTTACGGAACTTCAAGATGACCATACATGCTATTTTTGTATTGTGGATGAACATGCTATTACTGTTCCGCAAGATCGATTAAAACTTCGAAATAACATCCGTTCGCTTGCAGCCTTATATTTAGCAGCCGGTATTGATCCAGAAAAATCAACGCTATTTATCCAATCAGAAGTCCCTGCACACACGCAATTAGGATGGATGCTACAATCCATCAGTTATATGGGTGAGTTAGAACGAATGACCCAATATAAAGATAAATCTGCAGATAGAGAAGCTGCTATTCCGTCGAATTTGCTCACCTATCCTGCCTTAATGGCGGCTGATATTTTACTATATCAAACCGATCTCGTTCCTGTAGGAGAAGATCAGAAACAACATTTAGAATTAACGAGAAATTTAGCACAACGATTCAACAATCGATATAACGATATCTTTACTGTTCCAGAGGTAAGTATACCTAAGGTTGGAGCTCGTATTATGTCATTGCAAAACCCATTAAAGAAAATGAGTAAGTCCGATGAGAATGAAAAAGGATTTATTTCTATGCTTGATGAACCAAAAAAAATCGAAAAGAAAATTAAGAGTGCTGTCACTGATTCTGAAGGAATCGTGAAATACGATAAAGAAAACAAACCGGGTGTATCTAACCTATTATCTATTCATTCCATCTGCTCTGGTGAATCTATTGCATCCCTTGAGCAAAAATATGCGCACAAAGGTTATGGAGAATTTAAGCAAGGAACAGCTAATGCTATCATTGAGGTGTTAAAACCAATTCAAGACAACTATTATTCACTCTTGGATTCTGAACAATTAGATTCAATTTTAGATTCTGGTGCCGAAAAAGCTGCCCTCACCGCAAATCGAACAGTTGCAAAAGCCAAAAAAGCAATGGGCTTAGGAAGAATAAAAAAGAAAAAATAA MTTIFSGIQPSGTLTLGNYLGALKHFTELQDDHTCYFCIVDEHAITVPQDRLKLRNNIRSLAALYLAAGIDPEKSTLFIQSEVPAHTQLGWMLQSISYMGELERMTQYKDKSADREAAIPSNLLTYPALMAADILLYQTDLVPVGEDQKQHLELTRNLAQRFNNRYNDIFTVPEVSIPKVGARIMSLQNPLKKMSKSDENEKGFISMLDEPKKIEKKIKSAVTDSEGIVKYDKENKPGVSNLLSIHSICSGESIASLEQKYAHKGYGEFKQGTANAIIEVLKPIQDNYYSLLDSEQLDSILDSGAEKAALTANRTVAKAKKAMGLGRIKKKK PGPT0007120_5395 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 AK015_01669 1041 selU COG2603 tRNA 2-selenouridine synthase TTGCAAAATATTACTATTGAAGCACTTAGATCAATGAAGGAAAAAAAGAAACTTACGCTTATTGATGTAAGATCTCCTTCTGAATTTAACACCGCCACGATTCCAAACAGTATCAATATTCCCTTTTTTAATGACGAAGAAAGAGCAGAAGTAGGTACATTGTACAAACAAAAAAGTCCTGAAATAGCTAAAGAGCATGGCTTAAAAATAATGTCTGCAAAACTACCTGATTTTGTGAAAAGTTTTTCAAATACAGATGGAGAAAAGATTGTATTCTGTTGGCGCGGTGGCATGCGGAGTAAAACGACAGCTACTGTTTTAGACTTAATGGGAATTGAAGTTTATCGGTTAGATGGAGGCTATCGCAGTTATCGCAACTGGGTTGTGAACACGTTAGAAAATTTAAATTGGGATACGAAAGCAGTCGTACTAAACGGTCATACCGGATCAGGAAAAACAACCATACTTAGAAGATTAGCAAAGCTAAATTACCCTGTTATTGATTTAGAAGGAATGGCTAATCACCGTGGTTCCATATTTGGTCAAATTGGCTTACAACCACATAACCAAAAAACATTTGATGCGTTGCTCATCGAACAAATAGAAAGCATAAAACAAACGCCATTTATGCTTATTGAAGGTGAAAGTAAGCGAGTAGGTAGAGTGATTTTACCAAACTTTCTCTTAAAAAAGAAGACGGAGGGCACGCAATTTATCATTGAACTTCCCATTGAAGAACGAACCGCAGAAATTATAAAAGAATACGAACCTTGGAAGTATAAAGAATCATGTTTAGAAGCATTTAAACGTATCAAAAAGCGCATTCATACACCTATTGCTAAAAAAATTGAAACGGAATTAAAAGCAGGACACTACGAATTAGCAGTCATGCTATTGCTCAAATATTATTATGATCCTTTATACGACTATACGACGAAACAAATACCCGATGAGAAAAAAATAAGAATTAAAGCGAAAAATATATCGGAAGCCTATCAATTATTAAAGGAGCAGATAGATAACCACTATTATGCGAAATGA MQNITIEALRSMKEKKKLTLIDVRSPSEFNTATIPNSINIPFFNDEERAEVGTLYKQKSPEIAKEHGLKIMSAKLPDFVKSFSNTDGEKIVFCWRGGMRSKTTATVLDLMGIEVYRLDGGYRSYRNWVVNTLENLNWDTKAVVLNGHTGSGKTTILRRLAKLNYPVIDLEGMANHRGSIFGQIGLQPHNQKTFDALLIEQIESIKQTPFMLIEGESKRVGRVILPNFLLKKKTEGTQFIIELPIEERTAEIIKEYEPWKYKESCLEAFKRIKKRIHTPIAKKIETELKAGHYELAVMLLLKYYYDPLYDYTTKQIPDEKKIRIKAKNISEAYQLLKEQIDNHYYAK PGPT0004830_1073 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004830-selU|mnmH-K06917 NA NA AK015_01670 1050 selD COG0709 Selenide, water dikinase ATGACGAAGAACAATGTAAAACTAACAACGCTCACCACAAAAGGGGGATGCGGTTGTAAAATTGGCCCCGCTGATTTAGCTGACATTATAAAACAACTCCCTTCACCCACTCCAAACCCAAACGTCCTTGTCGGTTTAGATACAAGCGATGATGCTGGAGTATACCAAATTAATGAAGATACAGCTATTGTGCAAACGTTAGATTTCTTTACACCAATTGTAGATGATCCATATTCATTTGGACAAATTGCTGCAGCTAACGCCATTAGTGATATTTACGCTATGGGCGGTACACCAATAACGGCATTGAACATCGTTGCTTTCCCAGTCCACACCTTAGATAAGGAAATTTTAGCCGATATACTACGTGGTGCTGGTGATAAATTGACTGAAGCGGGCGTTGCATTAGTAGGCGGACATTCCATTGATGACAAAGAACCAAAGTTTGGACTTGCCGTAACCGGAATCATACACCCTGCAAAAGTGCGGACAAACAGTGGAGTGAAACCGAATGATAAGTTAATTCTGACAAAACCTATTGGTGTAGGTGTACTAACAACATCTATTAAACGCAATTTACTTACAGATATAGAGATTGAACATGTTACGAAGGTAATGGCTACATTAAATAAAGTAGCTGCTCATATTATGCAAAGTTATGAAATACACGCCTGTACAGACATCACAGGTTTTGGATTGTTAGGCCATGCATCCGAAATGGCCATAGGTAGTGAAGTCAGTCTTACTATATACGACCATAAAGTCCCTAAACTACCTAGGGTTAAGGAGCTAGCAGAATTAGGTGCTATTCCTGGTGGTACAAAGAATAATTTTCAACACGTACAAGGAAAAGTTTCTTTTCCAAGTAGCATGGACCAAATAGACCAGTGGATTTTATGTGATGCGGTTACTTCAGGTGGTCTGTTAATGGCTGTAAAGGATAAAGAAGCTGCTCAACTACTATCTGAATTACAAGCTGAAGGTATACATGCCGCAATTATTGGCGAGGCTACGGAAGATACAAAATCACATATTTACGTACAGGAGTAA MTKNNVKLTTLTTKGGCGCKIGPADLADIIKQLPSPTPNPNVLVGLDTSDDAGVYQINEDTAIVQTLDFFTPIVDDPYSFGQIAAANAISDIYAMGGTPITALNIVAFPVHTLDKEILADILRGAGDKLTEAGVALVGGHSIDDKEPKFGLAVTGIIHPAKVRTNSGVKPNDKLILTKPIGVGVLTTSIKRNLLTDIEIEHVTKVMATLNKVAAHIMQSYEIHACTDITGFGLLGHASEMAIGSEVSLTIYDHKVPKLPRVKELAELGAIPGGTKNNFQHVQGKVSFPSSMDQIDQWILCDAVTSGGLLMAVKDKEAAQLLSELQAEGIHAAIIGEATEDTKSHIYVQE PGPT0004820_979 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004820-selD-K01008 NA NA AK015_01671 1203 hypothetical protein ATGAGAAAAACACGAAATCTACTAATCTCAGGGATTAGTATTGCTTTATTAAATCTTCCTATGGTTGCACATGGGGAAGAGACAGCTACTGCTAGCTTACACCAAGAACGTGAACTTAGCCTACAGCCGTTAAAAGATAGTATGAAACGATTTGTACATACCTCAGACTATAAATTTGAATATCCAGATGCGGTGCGTGGTATTTATGTGACTGGAAATTCAGCGGGAGGAAGCAGATTCAACAATCTTGTTGATTTTGTTGATCAGACGGAATTGAATTCAATGGTCATTGATGTAAAAGAAGATAATGGCAATTTAACATTCACTCCTGAAGAAGGTTCTCCTTATGAAGATATGGCTTCAAATATGATACAGAATCCTGAGAAAATGATGGAAACTCTGGAAGAAAAAGAAATCTATCCGATTGCTAGAGTGGTAGTTTTTAAAGACTCCGTTCTAGCTAAAAAACGCCCTGACCTGTCATTTAAAAAGAATGGACAAGTGTGGGTTAATAATAAAGGGGAAGCGTTTGTTAATCCGTTTCAAAAGGAAGTATGGGAATACAATGTAGAAGTGGCTAAGATGGCTGCGCAGATGGGCTTTCAAGAAATTCAATTTGATTATGTTCGTTTTCCGGAAGGATTTGAAACGAGAGACCAAGAATTGAATTATAGTTTAGGTGATTATAAGGACAGTGAAATGGACGATGTGCAAAAGCGTGTTCAAGCAGTTACTGATTTCGTAGAATATGCGCGAAATGAATTATCAAACTACGATGTTGATGTTTCTGTAGATATTTTTGGTTATGCAGCTACGATAGAAGAAGCGCCTGGAATTGGACAGAACTTTTCTAAAATATCAGAGAACGTAGATATTATTTCGTCCATGATTTATCCTAGTCATTGGACATCTTATTTCGGTATTGAAAAGCCAGATACCGAGCCTTATAAATTAGTGGATGAGTATGCGAAGATGGAAAATAAAGTATTAGGTGCTTTAGAAGAACCGCCAGTTTCAAGACCTTGGCTTCAAGACTTTGAAGCACCTTGGTTGTATTCTGGAGCAACGAAGCAATACGGCAAAGCCGAAGTAGAGGCGCAGATTAAGGCGTTGTATGAAAATGGAATAAATGAGTTCTTGCTTTGGAATGCTGGTAACACGTATTCAGAAAATGTTGATTACACAATTGGATTAGACGAATAA MRKTRNLLISGISIALLNLPMVAHGEETATASLHQERELSLQPLKDSMKRFVHTSDYKFEYPDAVRGIYVTGNSAGGSRFNNLVDFVDQTELNSMVIDVKEDNGNLTFTPEEGSPYEDMASNMIQNPEKMMETLEEKEIYPIARVVVFKDSVLAKKRPDLSFKKNGQVWVNNKGEAFVNPFQKEVWEYNVEVAKMAAQMGFQEIQFDYVRFPEGFETRDQELNYSLGDYKDSEMDDVQKRVQAVTDFVEYARNELSNYDVDVSVDIFGYAATIEEAPGIGQNFSKISENVDIISSMIYPSHWTSYFGIEKPDTEPYKLVDEYAKMENKVLGALEEPPVSRPWLQDFEAPWLYSGATKQYGKAEVEAQIKALYENGINEFLLWNAGNTYSENVDYTIGLDE NA NA NA NA NA AK015_01672 1551 spoVB COG2244 Stage V sporulation protein B ATGACGAAACAAACTTTTTTACAAGGTACACTTATTCTTATTCTTGCAGGTATGATCACTCGTTTTCTAGGCTTTATCAATCGAATCGTCGTCGCTCGATTGATTGGTGAAGAAGGTGTTGGTCTTTATATGATGGCTTTACCGACATTTTTTCTCGTCATCACATTAACACAGCTTGGCTTACCTGTTGCTATCTCTAAACGTATTGCTGAAGCAGAAGCTCGTGGCGATGAAGCAAAAACAAAAAAAATTGTCATCGTATCCTTAGTCATTACAGGTATTTCTAGTATCGTCTTTACCACTTTAATGATTACAGCGACACCGTTTGTCGCCAAACATCTATTGACTGACGAAAGAACACTATACCCACTGTTAGCTATCAGCCCAATCATTCCTATTATAGCTATTTCATCCGTTTTACGGGGTTATTTCCAAGGAAAGCAAAACATGAAACCACAAAGCTATGCACAGGTGTTAGAACAAATTGTGCGTATAAGTTGTGTAGCAATGTTTGTTAAATTACTCTTGCCTTTTGGTCTTGAATATGCTGCAGCAGGAGCCATGTTTAGTATTATTTTAGGAGAATTTGTGTCACTTATTTATATGACGCACAAATTCAAACGAAAAAAACGAATTAAAATAAGAACAAACTTTTTTTCTTATTTAGCAACCAGTAAATCTACAATAAAGGAGCTTTTTTCCATTGCTTTACCAAGTACAGGCAGTCGCTTTATCGCATCTATTTCACATTTTCTGGAGCCAATACTTGTTGCGCAAAGTCTAGCCATAGCAGGGGTATCCACCACATTAGCAACAAAACAATACGGTGAATTAACAGGTTATGTACTACCTTTACTGTTTCTACCAACATTTATTACCCATTCTTTATCCATCGCTTTAGTCCCTTCTATTTCTGAAGCGGAGGCAACAAAAAATAAACGGATGATTCATTACCGAATTCATCAAGCCATTCGGATTTCTTTTGCATCTGGAGCCATAGCTACGATTGTACTGGCTTTATTTTCTGTACCTATTTTAACATATATGTACGGAACCGCTAATGCAAGTAAATTTATCACAATAATGGCTCCATTTTTTATTTTACTTTATATCCAAGCTCCATTACAAGCCGCATTACAAGCACTTGACCTTGCTAAAGCTGCTATGTGGAATAGTTTAATTGGTGCTTTTTGTAAGCTTGCCATGCTTTTTTTACTCGCATCCAATCCGAATTTTGGGATTACTGGTGTTGCAATAGCTATTTCCTTAAGCGTCGTATTAATTACACTTTTACATTTAGGAGCTTTGTATAAAGCGATTAAATTTAGCATACCTGTTTTAGATATATCAAAAATGATTGCTCTTCTCTTATTGACTTGGGGAGTCGGTGAGCTATTACAACGTATATACGTAAATATGCAAGGTGGGATTACGCTGTTAATTATCATCTTTGTTATTTTAAGTTTCATTTATATACTCTTTTTATTTTTACTTCGTTTTATAACGAAAGAAGAATTGAAACAAATCCCTTTTCTGCAAAAATGGCTTTAA MTKQTFLQGTLILILAGMITRFLGFINRIVVARLIGEEGVGLYMMALPTFFLVITLTQLGLPVAISKRIAEAEARGDEAKTKKIVIVSLVITGISSIVFTTLMITATPFVAKHLLTDERTLYPLLAISPIIPIIAISSVLRGYFQGKQNMKPQSYAQVLEQIVRISCVAMFVKLLLPFGLEYAAAGAMFSIILGEFVSLIYMTHKFKRKKRIKIRTNFFSYLATSKSTIKELFSIALPSTGSRFIASISHFLEPILVAQSLAIAGVSTTLATKQYGELTGYVLPLLFLPTFITHSLSIALVPSISEAEATKNKRMIHYRIHQAIRISFASGAIATIVLALFSVPILTYMYGTANASKFITIMAPFFILLYIQAPLQAALQALDLAKAAMWNSLIGAFCKLAMLFLLASNPNFGITGVAIAISLSVVLITLLHLGALYKAIKFSIPVLDISKMIALLLLTWGVGELLQRIYVNMQGGITLLIIIFVILSFIYILFLFLLRFITKEELKQIPFLQKWL PGPT0024825_509 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409 NA NA AK015_01673 300 hypothetical protein TTGGAAATCGTACAAACTGTATCTGAATGGAAAGAAATGGTCCGTCCAGCTTTGCAAAGTAAGGCGGAAGAATTTCATTTAATGGGATATGAAGAAGCAACGCCAGAAGATGTTTGGAAATGTCTTGTAGGGAAAGTATGGAAAGGCGACCCTGAAAAAAGAATTTATGAAGTAGTACAAGACATTTTTCAATTAACAACAGCGACTTACATTAGTTATTTAACTGTAAGTGCACAGCAAAATGATGATTTATTTGCTTCTATTGCAGCAGTTACGAATACAGAAATGAATCATCATTAA MEIVQTVSEWKEMVRPALQSKAEEFHLMGYEEATPEDVWKCLVGKVWKGDPEKRIYEVVQDIFQLTTATYISYLTVSAQQNDDLFASIAAVTNTEMNHH NA NA NA NA NA AK015_01674 2271 secDF COG0341 Protein translocase subunit SecDF ATGAAAATGAGAGGCAGAATTGTTGCCTTTTTTCTAATCGTACTTATCTTTGCTGGTACAATTGGAACAACGGTTACAGGGATTACAAAAGATATTAATTTAGGTTTGGACTTACAAGGTGGATTTGAAGTTCTATATAAAGTTGAACCAGTTGACACTCAACAGGAGGTAGACCGTACAACGTTAGAATCAACGGTAGAGACTTTAAATGATCGTGTGAATCGACTTGGAATTAGTGAAGCAAGTATAGATATTGAAGGAGAAGACCGCATTCGTGTCCAGCTTGCTGGAGTAGAAAATCAAACCGAAGCAAGAGAGTTATTATCAACAACAGCACAGCTTTCTTTTCGTGATGTTAATGATAAAGAGCTTTTAAGTGGCAATGATGTTAAAGAAAATAGCGCGAAGCAGGATTTCGATCCTAAAAGTAATCAACCAATCGTTACATTAGAATTGAAGGATGCAGAGAAATTTGGTGAAGTAACGAGTAAAATAAAGGATATGAATAACCCAGAAACGACTTATCCAGATAATTTATTAGTCATTTGGATGGATTATAAAGAAGGTGATTCTTTTGCAGAAGAGTATGGAAAAGAGGATCCTAAATATGTTTCTGCTCCTAGCGTAACGCAGACATTAAATACGAACCAAGTCATGATTTCTGGTAATTTCACCGTGGAATCTGCAAAGCAATTAGCCAATGTCATTAATTCTGGTTCCTTACCAGTACACATGGTCGAGAAATATTCTACATCGGTAGGAGCACAGTTTGGGGAGCAGGCGTTAAACAAAACCGTTTTTGCAGGATTTATTGGTGTTGGCATCATCTTTCTCTTTATGATAGCTATTTATCGTTTCCCTGGTTTAATTGCAGTAATTAATTTAAGCATCTATATTTACCTTATTCTATTTGTATTTGAATTAATGAATGGTGTATTAACGTTACCAGGTATTGCTGCCCTCATCCTCGGTGTAGGTATGGCTGTTGATGCCAATGTCATTACATTCGAGCGCATTAAGGAAGAATTACGCACTGGAAAATCGTTAATTTCTTCATTTAAAGCTGGTACGAAGAATTCACTTTCAACCATATTAGATGCAAACATAACGACGCTAATTGCAGCTTCCGTATTATTTATTTTCGGAACAAGCTCCGTCAAAGGTTTTGCAACGATGTTAATCGTTAGTATTCTTGTGAGCTTTATTACGGCTGTCTTTGGTACTCGTTTACTTTTAAGCTTATGGATTAAAAGTCCGTTTTTAAAACAGCGTCCTAGTTGGTTTGCTGTAAAAAGGTCAGACATTAAAGATATTAAGGATAAGCAAGTTGAAGAAGCAAAATTATTTAATCGAGAAATCAATGTTGTTCAACATCGAAAGAAATTCTTTTGGATATCAACGATTATGGTTGTGCTAGGAATCGTTTCCCTTGCCTTATTTAAATTAAATCCAGGTATCGATTTTACAAGTGGTTCAAGAATTGAAATTTTAGCTGAAACTAGCATCACTACAGATGAAGTAGAGAAGGAGTTTGGCAAGCTTGATCTTGAAGTGAAATCGATCGTTTCTTCAGGGGAAAATGGAGAGATGGCCATTGCGAGATTTGATAGAGTATTAAGTAAAAACAAAATTGCTGAAGTGAAAAGCCATTTTGTAGATACTTATGGCAATGAGCCAAACGTTAGTGTTGTTTCACCAATTGTTGGTGAAGAGCTCGTGAAAAATGCGGCTTACGCTGTCGCCATTGCTTCTATATTTATGATTATTTATGTCACTATTCGTTTTGAATTCTTTTTCGCTATTACGGCGATAATTGCTTTATTACACGATGCTTTCTTTACGATCGCGATTTTTAGTGTTACGCAAATTGAATTTGATATAACCATTGTGGCAGCGATTCTTACAATTGTTGGTTATTCTATAAATGATACCATTGTTACTTTTGACCGAATTAGAGAGAATTTAAGGAAAAAGAAAAAAATTAAATCGTATAAAGAGCTTGCTAGCGTTGTTAATCGAAGCTTAGTACAAACGTTTGTACGTAGTATCAATACGTCCATTACCACATTAATTGCTGTATTAGCATTTTTATTTCTAGGTGCTGAATCAATTGGTGGATTTGCAATTGCTTTAACGTTTGGTTTATTAGCTGGTACGTATTCGTCACTTTTCTTAGCCTCACAATTATGGCTTGTATGGCGAGGAAAAATGATTAAGAAAAAACCAGTTGATTTTACAAAGAAAAAGCGTGTAGAAGGCCCACAAGTATAG MKMRGRIVAFFLIVLIFAGTIGTTVTGITKDINLGLDLQGGFEVLYKVEPVDTQQEVDRTTLESTVETLNDRVNRLGISEASIDIEGEDRIRVQLAGVENQTEARELLSTTAQLSFRDVNDKELLSGNDVKENSAKQDFDPKSNQPIVTLELKDAEKFGEVTSKIKDMNNPETTYPDNLLVIWMDYKEGDSFAEEYGKEDPKYVSAPSVTQTLNTNQVMISGNFTVESAKQLANVINSGSLPVHMVEKYSTSVGAQFGEQALNKTVFAGFIGVGIIFLFMIAIYRFPGLIAVINLSIYIYLILFVFELMNGVLTLPGIAALILGVGMAVDANVITFERIKEELRTGKSLISSFKAGTKNSLSTILDANITTLIAASVLFIFGTSSVKGFATMLIVSILVSFITAVFGTRLLLSLWIKSPFLKQRPSWFAVKRSDIKDIKDKQVEEAKLFNREINVVQHRKKFFWISTIMVVLGIVSLALFKLNPGIDFTSGSRIEILAETSITTDEVEKEFGKLDLEVKSIVSSGENGEMAIARFDRVLSKNKIAEVKSHFVDTYGNEPNVSVVSPIVGEELVKNAAYAVAIASIFMIIYVTIRFEFFFAITAIIALLHDAFFTIAIFSVTQIEFDITIVAAILTIVGYSINDTIVTFDRIRENLRKKKKIKSYKELASVVNRSLVQTFVRSINTSITTLIAVLAFLFLGAESIGGFAIALTFGLLAGTYSSLFLASQLWLVWRGKMIKKKPVDFTKKKRVEGPQV PGPT0025710_1082 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025710-secDF-K12257 NA NA AK015_01675 327 hypothetical protein GTGAGAGGTCAAACATATGTTATATTTACCATTGTTTTTGTGATTATCGTAGCAGTATTTGCCGTTACGAATGTGGAGACAGTGGAGGTCAATTACCTCTTTTGGTCCGCGGAATCACCGTTAATATTAGTCATTCTATTTTCCGTACTAATGGGCGGTTTAATAACTGCAACAGTAGGGTTAATTAAGATGTACCGTATGCAAAGAGAAATGAAGCGCCTTGAAGCTGAAAATTTCAACTTGATGAACAGGTTAGAAGAAGAAGGTATTTCACACCCTAAAGAAGAAAGCGAAGCGCTTCAATTAACTGAGGAGAAAGAAAAGTAG MRGQTYVIFTIVFVIIVAVFAVTNVETVEVNYLFWSAESPLILVILFSVLMGGLITATVGLIKMYRMQREMKRLEAENFNLMNRLEEEGISHPKEESEALQLTEEKEK PGPT0014665_493 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992 NA NA AK015_01676 2325 hypothetical protein ATGTTGGCAAGCAAGGCAAATTGGAATTTTATCGAACAAGAAATAGCGAACGTAGAAAGGGACAACGACTCCCTGTCTATTTCCCCTATCATTGAAAAATTACTGGTACAAAGAGGGGTTACGACGAAACAAGCTGTATCTAAATTTTTAAAACCAGATTTAGAAGATTTACATAGTCCAGATAAACTTCTTTCCATAGATAAAGCAGTAAAAAGAGTGAAATTAGCAATTGAACAAGGTGAAAAACTACTTGTGTTCGGTGATTATGATGCTGATGGAGTTACTGCTACGACGGTTTTGATAAAGGCATTACAAGAATTAGGTGCTCTGTGCGACTATTATATTCCGAATCGCTTTACAGAGGGGTATGGTCCAAATGAAGCTGCTTTTCGACAAGCACATCGAGAGGGATATACACTTATAATAACAGTAGACACGGGTATTGCCGCTATGGAAGAAGCAAAAATAGCTCAAGAATTAGGCATGGATGTAATCATCACAGACCATCATGAGGTTCAAGAAAATGTACCAGAATGTTATGCGATTATTCATCCTAAATGCTCACCTGATTATTTGTTTCAGGAGTTAGCTGGCGTTGGCGTAGCATTTAAATTTGCGCAAGCATTGCTTGGATATCTTCCCAAGCAATTGTTAAGTTTTGTTGCAATAGGTACTGTAGCAGACCTTGTACCGTTAGTGGATGAAAATCGTATATTGGTATACAACGGCTTAAAAGAATTAGCAAACACCACCAATCCAGGTTTAAAAGCTTTAAAACAGACTGCTAACATTAACGGTAATGTAACAGAAGAAGATGTGGGTTTTGCTATCGGGCCCAGACTAAATGCTGTAGGAAGACTTCAATCAGCAGACATGGCAGTAGAATTAATGCTAACCGAAGATCCACAAGAAGCTATAACCATTGCTGAAGAAATGGAAGAGATAAATAGCGAAAGACAACAAATTGTGCAAAAGATTGTAAAAGAAGCAGAGCGATTACTATTTGATAAAGAGCAGCAAGACGTTATTGTTGTAGCAAAGGAAGGTTGGAATGAAGGGGTATTAGGAATTGTTGCTTCTAAGCTAGTTCGTAAATGGGACAGACCAGCAATTGTTCTGTCTATTAAACCAAATGAAGGAATTGCAAAAGGATCTGCCAGAAGCATCCCAGCTTTTGATTTATTTCACAATTGTATGCAAGTAAATCATTTATTCGAGCAATTTGGTGGACATTCTCAAGCAGCAGGGATGACATTAGCATTAACGAATGTTCAACCGTTGGAACTAGCTTTAAACAAACAAATCGCTCAACAATTAAGCGAGTCAGACTTCAAACAAGAGTTAAACATTCATGCCACTTTACCTGTTTCACAAATAAATATTCCTTTAATTAAGGAAATTCAACAATTAGCTCCATTTGGAATGCATAATTCGAAACCGTTGTTTCATATAAAAGCTATACCAGAACAATCAAGGCAAATTGGGAGTATGAAAAATCACCTTAAATTGCAGTTCACAGAAAATAATCAACAACTTGATGCGATCGGTTTTGGCTTTGGAGAGTTGTACAACTACCTTACTCCTCATACGCCTGTTAACATCGTAGGCGAGTTAAGCATTAATGAATGGAATGGCAGTCAAAAACCACAGCTAATGATTCAAGACTTGTCTATTGATGAATGGCAGCTGTTTGATCATCGTGGAAAGCGGCAAGCAAATTTAAATGAATTTATTCATTCATACTCATCTGTTTTTAGTATAGGAGATCGTACCCGTGCGGAGTCTTTAGGAATCCCTCATAAAGATTATCAAGACGACTGGTCTTCTTTGGAAAATGTGGATACATTAATTTTATTTGCACTGCCATCAAACTTAAAAGACTTAGAAGCATTACTGAAACAAATTAAGCCAAAAAATATTCATCTGTGTTATTATGTAAAAGATAGCATTTATTTGCGTGCTTTTCCGTCTAGAGATGACTTTAAAAAGATGTATATTTTTTTACAACAGAAAAAAGTAGTATCCATTGATAAAGATTTACCTCCATTTGCACAAACAAATGGTTGGAGCAAGGATAAATTGTTGTTCTTAATTCATGTGTTTTACGAACTTCATTTTATACAGATAGAAGGCAGAATAATACAGGTTGAAGAAAAGCCATTAAAAAAAGATTTGCAGGAGTCAGCAACATATCAGAAACGTTTACAGCAAGCTGAGATTGAAAGGAAATTGTACTACTCAAATTACGAGCAATTAAAAAAACATTTTACAAACTGTATGGAACATTTGGGAAGCCCCAAGGAGGAACAAAGCTATGGATTATAA MLASKANWNFIEQEIANVERDNDSLSISPIIEKLLVQRGVTTKQAVSKFLKPDLEDLHSPDKLLSIDKAVKRVKLAIEQGEKLLVFGDYDADGVTATTVLIKALQELGALCDYYIPNRFTEGYGPNEAAFRQAHREGYTLIITVDTGIAAMEEAKIAQELGMDVIITDHHEVQENVPECYAIIHPKCSPDYLFQELAGVGVAFKFAQALLGYLPKQLLSFVAIGTVADLVPLVDENRILVYNGLKELANTTNPGLKALKQTANINGNVTEEDVGFAIGPRLNAVGRLQSADMAVELMLTEDPQEAITIAEEMEEINSERQQIVQKIVKEAERLLFDKEQQDVIVVAKEGWNEGVLGIVASKLVRKWDRPAIVLSIKPNEGIAKGSARSIPAFDLFHNCMQVNHLFEQFGGHSQAAGMTLALTNVQPLELALNKQIAQQLSESDFKQELNIHATLPVSQINIPLIKEIQQLAPFGMHNSKPLFHIKAIPEQSRQIGSMKNHLKLQFTENNQQLDAIGFGFGELYNYLTPHTPVNIVGELSINEWNGSQKPQLMIQDLSIDEWQLFDHRGKRQANLNEFIHSYSSVFSIGDRTRAESLGIPHKDYQDDWSSLENVDTLILFALPSNLKDLEALLKQIKPKNIHLCYYVKDSIYLRAFPSRDDFKKMYIFLQQKKVVSIDKDLPPFAQTNGWSKDKLLFLIHVFYELHFIQIEGRIIQVEEKPLKKDLQESATYQKRLQQAEIERKLYYSNYEQLKKHFTNCMEHLGSPKEEQSYGL NA NA NA NA NA AK015_01677 513 apt Adenine phosphoribosyltransferase ATGGATTATAAAAAATATATTAAAATTGTGGAAGATTGGCCAAAGAAAGGAATTAAATTTAAAGACATTACACCATTAATGGCAAATGGGGAAGCCTTTCATTCAGCAGTAGACGAAATTGTGGATTACGCGAAACAAAAGGAAATAGATGTCGTTGTAGGTCCAGAAGCAAGAGGATTTATTATAGGGTGTCCAGTCTCTTATTCGTTAGGAGTTGGATTTGCGCCAGTGAGAAAAGAAGGAAAACTTCCTCGTGAAGTCATTAAAGTGGATTACGGTTTGGAATACGGAAAAAATGTCTTAACCATTCATAAAGATGCGATTAAACCTGGTCAACGTGTATTAATTACAGATGATTTATTAGCAACAGGGGGGACGATTCAAGCAACCATTCAGTTAGTAGAAGAACTCGGAGGTGTTGTTGCTGGATGTGCATTTATTATTGAATTAAGTTATTTAAACGGAATGGACAAACTAAAAGGCTATGATGTACTATCTTTGATGCGTTTTTAA MDYKKYIKIVEDWPKKGIKFKDITPLMANGEAFHSAVDEIVDYAKQKEIDVVVGPEARGFIIGCPVSYSLGVGFAPVRKEGKLPREVIKVDYGLEYGKNVLTIHKDAIKPGQRVLITDDLLATGGTIQATIQLVEELGGVVAGCAFIIELSYLNGMDKLKGYDVLSLMRF PGPT0021455_4719 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759 NA NA AK015_01678 2202 relA COG0317 GTP pyrophosphokinase ATGGCAAAAACCGATATAATGACAATAGATGATATTTTAAATAAGGCAAGTCAGTATCTGTCGGAAGATGATACTGCTTTTATTCGCCAAGCCTATGAATTTGCCGAAGAAGCTCATGCTGATCAATTTAGAAAGTCGGGGGAGCCGTATATTATCCACCCTGTACAGGTAGCAGGAATATTAACGGAGCTCGGGATGGACGCTGAAACAATCGCAGGAGGATTTCTTCATGATGTGGTTGAAGACACGGATGTGACTGTGGAAGAAGTGGAAGAAGCATTTAATCATGAAGTAGCTATGCTAGTTGATGGGGTTACAAAGTTAGGGAAAATTAAATATAAGTCAAAAGAAGCGCAGCAAGCAGAAAATCATCGAAAAATGTTTGTTGCCATGGCGAAAGATATCCGTGTGATTTTAATTAAATTGGCAGATCGTTTGCATAATATGCGTACTTTAAAACATTTGCCTCCCGAAAAACAGCGTCGTATTGCAAATGAAACGCTAGAAATTTTTTCACCGTTAGCACATCGATTAGGAATTTCAACCATCAAATGGGAATTAGAGGATACGGCATTACGCTATTTAAATCCTCAGCAATATTATCGAATTGTTCAATTAATGAAACAAAAAAGAGATCAGCGTGAATCATATATTAAAGAAGTCATGGATCAAGTTTCCAAACAATTAAGAGAAATGAATATAGATGCTGAATTATCTGGCCGTCCAAAACATTTATATAGCATATATCGGAAAATGGTAAAACAAAATAAACAGTTTAATGAGATATATGATTTGCTTGCTGTGCGCATTTTAGTTAATAGCATTAAGGATTGTTATGCTGTTCTTGGCATTATCCATACTTGTTGGAAGCCGATGCCTGGGAGATTTAAAGATTACATTGCTATGCCAAAACCAAACCTGTATCAATCATTGCACACGACCGTTATAGGTCCAAAAGGTGACCCGCTAGAAGTGCAAATTCGGACAAGAGAAATGCATGAAATAGCCGAATATGGAATTGCAGCTCATTGGGCGTACAAAGAAGGCAAGCAAGTTCAAAATGATAAAAAGTCTTTTGAAGAGAAATTAACTTGGTTTAGGGAGATTTTGGAGTGGCAAAATGATACACATGACGCAGAAGAATTCATGGAATCTTTAAAGGTCGATTTATTCTCAGACATGGTATATGTGTTTACTCCAAAGGGAGATGTTATTGAGCTTCCAGCTGGTTCCGTTCCCTTAGATTTTGCCTATAAAATTCATACAGAAATCGGTAATAAAACGATTGGAGCAAAAGTTAACGGGAAGATGGAGCCACTTGATTATAAATTGAAAAACGGCGATATAGTTGAAGTAATGACGTCAAAGCATTCTTATGGTCCCTCTCAAGATTGGCTTAAAATAACCCAAACTTCTCAAGCTAAAAGTAAGATTAAGCAATTTTTTAAAAAACAGCGTCGTGAAGAAAATTTGTTAAAAGGGAAAGAAGCTGTGGAACGTGAAATTCGTAGCTTTAGTATCGAACCAAAAGATGTTTTAAAGCAGGATAATTTGCAGCGTGTGTATGAAAAATATAATTTCTCTAATGAAGAAGATATGTATGCAGCGGTAGGTTATCAAGGTATTACTGCTGCATCTATAGCAACAAAGTTAACAGAAAAATTAAGACAATCAAAAGAAAAACAACAAGCTCTTGAACAAACCATTGAAGAAGTTAAAACAGATGGAAAACAAAAGAAAGTCAGTAAACGGGATTCTGGAGTGAAAGTAGAGGGGATTGACAATTTACTTGTCCGTTTATCTAAATGTTGTAACCCAGTACCAGGCGACCAAATAGTAGGATATATCACAAAAGGAAGAGGTGTATCCGTTCATCGAGCTGACTGCCCGAACGTGCAGACAGAAGAAGCTAAGCAACGATTTTTGCATGTCGAATGGGAAAATAATCGTACAGAACAGAAACAATATCATGTAGATTTGGAAATATCGGGCTATGATCGACGAGGATTAGTGAACGAAGTGCTACAAGCCGTAAATGAAACGAAGACGAATATAACTTATGTGAATGGTAGGTCAGACCGAAATAAGATGGCAATTATTCAAATAACCATTCTAATTCATAATACAGCACATCTTCGAAAAATAGTCGAGCGCATTAAACAAATTCCTGAAGTGTATTCCGTAAAACGAACATTGCATTGA MAKTDIMTIDDILNKASQYLSEDDTAFIRQAYEFAEEAHADQFRKSGEPYIIHPVQVAGILTELGMDAETIAGGFLHDVVEDTDVTVEEVEEAFNHEVAMLVDGVTKLGKIKYKSKEAQQAENHRKMFVAMAKDIRVILIKLADRLHNMRTLKHLPPEKQRRIANETLEIFSPLAHRLGISTIKWELEDTALRYLNPQQYYRIVQLMKQKRDQRESYIKEVMDQVSKQLREMNIDAELSGRPKHLYSIYRKMVKQNKQFNEIYDLLAVRILVNSIKDCYAVLGIIHTCWKPMPGRFKDYIAMPKPNLYQSLHTTVIGPKGDPLEVQIRTREMHEIAEYGIAAHWAYKEGKQVQNDKKSFEEKLTWFREILEWQNDTHDAEEFMESLKVDLFSDMVYVFTPKGDVIELPAGSVPLDFAYKIHTEIGNKTIGAKVNGKMEPLDYKLKNGDIVEVMTSKHSYGPSQDWLKITQTSQAKSKIKQFFKKQRREENLLKGKEAVEREIRSFSIEPKDVLKQDNLQRVYEKYNFSNEEDMYAAVGYQGITAASIATKLTEKLRQSKEKQQALEQTIEEVKTDGKQKKVSKRDSGVKVEGIDNLLVRLSKCCNPVPGDQIVGYITKGRGVSVHRADCPNVQTEEAKQRFLHVEWENNRTEQKQYHVDLEISGYDRRGLVNEVLQAVNETKTNITYVNGRSDRNKMAIIQITILIHNTAHLRKIVERIKQIPEVYSVKRTLH PGPT0014310_2462 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139 NA NA AK015_01679 447 dtd COG1490 D-aminoacyl-tRNA deacylase ATGAGAGCAGTCATTCAACGTGCAAAAGCAGCGAGCGTTTCAGTTAATGATTCCGTTATTGGACGAATAGAACATGGGTTTGTTGTATTGCTTGGCGTAACTCATGATGATACGATCGAGGATGCAACTTATTTAGCTAATAAAATCGTCCATCTGCGTGTTTTTGAAGACGAACAGCAAAAGTTAAATTTATCATTAAAAGATGTAGAGGGAAGTATTTTATCTGTTTCACAATTTACATTGTATGGGGATACAAAAAAGGGGCGTAGACCAAATTTTATGAATGCAGCTAAACCAGAAAGAGCAAATGAGCTGTACCTTCAATTTAATCGTTTAGTTACAGATGAAGGTGTTCATGTAGAAACTGGGGCATTTGGGGAAATGATGGATGTCCAATTGACAAATTCAGGCCCTGTTACGTTAATTTTAGATAGTAAGCAAAGATAA MRAVIQRAKAASVSVNDSVIGRIEHGFVVLLGVTHDDTIEDATYLANKIVHLRVFEDEQQKLNLSLKDVEGSILSVSQFTLYGDTKKGRRPNFMNAAKPERANELYLQFNRLVTDEGVHVETGAFGEMMDVQLTNSGPVTLILDSKQR NA NA NA NA NA AK015_01680 1047 hypothetical protein TTGAATAAACGTATAATGGCTATTTCCATTCTAGTACTGTTGTTTACTTTCAATTCGGACAAATCTGTTAGTTTTGCACAACAAGGTACTATTACAGAAGATAACGTGCATATGCGTTCAGGGCCTGGAACAGAATTTCAAATAATAACACAAATTAATGATGGAACAGCATTTACATTGATAAAACAGCAAGTAAAGTGGGTAGAAATACAATTAGATGATAGTAGCGTCGGTTGGGTTCATGCTAAATATATTAGCATCAAAGACCAAGTGGACACACCGTCTACAATCACTATTCCTCATGATAATACCCAAATTCGTAGTAGTCCATCTACGGATGCTCCTATAGCAAATTTTGCAAAGAAAGGAAGTTCGTTTCAAGTTCTTTCTTCCAAAGGGGACTGGTACGAAATAGAAGATAAAGCGATACATGGATTCGTATATAAAGCCCTTACTGAACCTGCCCCCCTCCCTATGAAAAGCAGTTTTGCTAACAAATCGATTGTTATTGATGCTGGTCATGGCGGAAGAGATGTTGGAGCGATAGGTGCAAGCAGCGTATTTGAAAAAGATGTGGCTTTTTTGACAGCTCAAGAATTAACAAATGAACTATCCATGCTCGGTGCAAATGTCCGATTAACAAGAAGAAATGATGATTATATCCCTTTAAATAGCAGAATTAGCTACAGCAACAATTTTGATACAGATGTATTTATCAGCTTACACTACAACAGCGTACCAAACTTACCTAATGTTACTGGTATCGAGTCCTTTTACTACAAAGAAGCAAATCAAAAGTTAGCTGCTTCGATCCAAAAGAAAGTATTCCATGCTGTTCAAACAGATGATCGTGGTACATCATTTGGAGATTTTTTAGTACTTAGACAAAATTTGAAGCCAGCTATCTTACTAGAATTAGGGTTTATTTCCAACAAAGCAGAAGAATCACGTCTTCTAACGACGATGTACCAGAAGAAGCTTGTGTCTGGCATCATCCAAGGGTTAGGTTCCTATTTCGCACGTTCTGAGATTGGTAAAGCTGAATAG MNKRIMAISILVLLFTFNSDKSVSFAQQGTITEDNVHMRSGPGTEFQIITQINDGTAFTLIKQQVKWVEIQLDDSSVGWVHAKYISIKDQVDTPSTITIPHDNTQIRSSPSTDAPIANFAKKGSSFQVLSSKGDWYEIEDKAIHGFVYKALTEPAPLPMKSSFANKSIVIDAGHGGRDVGAIGASSVFEKDVAFLTAQELTNELSMLGANVRLTRRNDDYIPLNSRISYSNNFDTDVFISLHYNSVPNLPNVTGIESFYYKEANQKLAASIQKKVFHAVQTDDRGTSFGDFLVLRQNLKPAILLELGFISNKAEESRLLTTMYQKKLVSGIIQGLGSYFARSEIGKAE PGPT0024160_4643 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_01681 177 hypothetical protein ATGCATAAATCAAAAAAACAGTGGAATGCTCATCGACATACGGACTTGTTTGGAGTGAATTTACATCAGGTTATGGAGTTAGTAGAAGCGGAAGCAAATCATATGGAGATGGCAGAAGAATTAGGTTTATCGTTAAGGGAAATTCATGTATTAAAGAAAAAGATCAATCGTGCTTGA MHKSKKQWNAHRHTDLFGVNLHQVMELVEAEANHMEMAEELGLSLREIHVLKKKINRA NA NA NA NA NA AK015_01683 1290 hisS COG0124 Histidine--tRNA ligase ATGAGCTATAAAGCGCCACGAGGTACGACTGACATACTACCTGAAGATGCAAAAAAATGGCGGTGGGTAGAAGAAACAATTAAACAGGTATGTCACAAATTTCATTATGAAGAAATTCGGACACCTGTATTTGAACATACGGAAGTGTTTCAACGCGGGGTCGGTGATACAACAGATATTGTTCAAAAAGAAATGTACACTTTTGAAGATCGAGGTGGGAGGAGTATTACTTTACGACCAGAGGGAACAGCTCCTGTCGTTCGTTCTTTTGTACAGCATAAACTGCACGGTTTGGCAAACCAACCAACAAAACTTTATTACTTTGCAGAAATGTTCCGATATGAACGTCCACAAAAAGGGAGAATGCGACAATTAAATCAATTTGGAGTAGAAGTATTGGGTAGTGCTGATCCAGCTGTCGATGCAGAAGTTATTGATTTAGCAATGACTTGCTATCAAAAAATGGGCTTAACATCTTTAAAATTAGTAATTAATTCACTCGGAGATAAAGAAAGTAGAGAAAATCATAGACAAGCACTTATCGCGCACTTTACACCGCATAAGCATGAACTCTGCTCTGATTGCCAAACGCGTCTACAAAACAATCCGTTACGTGTACTAGATTGTAAACAAGATCGGGATCATCCAGCAATGCAAACTGCTCCTTCTATTTTAGACTATTTAAATGAGGAGTCTGAAGCCTATTTTGAACAAGTTAAAGACTATTTGGATAAAATCGGAATTCCCTATGAAATAGATAAAAACTTGGTTCGCGGTCTAGATTATTACAACCATACGGCATTTGAAATCATGAGTGAAGCAGACGGATTCGGTGCGATAACAACTTTAGCAGGTGGTGGTAGATACAATGGCTTAGCTGAAGAATTAGGAGGTCCAAACACGCCCGGAATCGGATTTGGAATGGGGCTTGAACGATTGCTTATGGCATTAGAAGCTGAAAATCAAGTTATCCCTGTCGATCGTTCACTGGAAGCTTATGTCGTAGCAGTTGATGAACAAGCACAAAAAGAGGCCGTAATGCTCGTTTCTAAACTGCGCAAGCATGGTGTCCAGGTAGATAAGGACTATTTAGGAAGGAAAATGAAGGGGCAATTCAAAGCAGCTGACCGTTATGCAGCTAAATATGTATTAATTATTGGAGAAAGTGAGCTTGAAGAACAGACGATTACGGTAAAAGAGATGAGCACAGGAGAGCAAACAACGGTCGCTAAAGATCAAATAATTGACGTGATGAAGGAAAAGTGTGTAGGAGGAAGAGAACATGAGTAA MSYKAPRGTTDILPEDAKKWRWVEETIKQVCHKFHYEEIRTPVFEHTEVFQRGVGDTTDIVQKEMYTFEDRGGRSITLRPEGTAPVVRSFVQHKLHGLANQPTKLYYFAEMFRYERPQKGRMRQLNQFGVEVLGSADPAVDAEVIDLAMTCYQKMGLTSLKLVINSLGDKESRENHRQALIAHFTPHKHELCSDCQTRLQNNPLRVLDCKQDRDHPAMQTAPSILDYLNEESEAYFEQVKDYLDKIGIPYEIDKNLVRGLDYYNHTAFEIMSEADGFGAITTLAGGGRYNGLAEELGGPNTPGIGFGMGLERLLMALEAENQVIPVDRSLEAYVVAVDEQAQKEAVMLVSKLRKHGVQVDKDYLGRKMKGQFKAADRYAAKYVLIIGESELEEQTITVKEMSTGEQTTVAKDQIIDVMKEKCVGGREHE NA NA NA NA NA AK015_01684 1782 aspS Aspartate--tRNA ligase ATGAGTAAGCAGCAACGTGTAATGGCGGGTTCACTATGTGAATCTAATGTAAAAGAATCTGTCCTTTTAAAAGGGTGGGTGCAAAAGCGCCGCGATTTAGGAGGCTTAATATTTATCGATTTACGTGATGCTTCTGGTGTTGTGCAAATTGTCTTTAATCCAAATCATTCACAAAGAGCGTTAGAAATTGCTGAAAATATTCGCAGTGAATATGTAGTTGAAGTAGAGGGAACCGTTGTAAAACGTGATTCTTCAACGGTTAATCCTACTATGAAAACAGGAGAAATTGAAGTGATCGTTTCTACGATTACGATTTTAAACAAAGCGAAAACACCACCTTTTGCAATTCAAGATAAAGCAGAAGTATCCGAAGATTTACGATTATCTTATCGTTATCTTGATTTGCGCAGACAGCCATTGCAAGAAACGTTTAAATTAAGACATCACATTACACAGGCTGTTCGCCACTATTTAAATGAACAGCAGTTTTTAGAGATGGAAACACCTATTTTAACTAAAAGTACACCAGAAGGAGCGAGGGATTATCTTGTTCCAAGTCGTGTGCACCAAGGTGAGTTTTATGCTTTACCACAGTCGCCTCAATTGTTTAAACAATTAATTATGATGGGGGGATTTGAAAAGTATTACCAAATTGCTCGTTGTTTTCGTGACGAAGATTTACGAGCAGATCGCCAGCCTGAATTTACACAAATTGATGTGGAAACATCATTTTTAACAAGCGATGAAATCATGCAGTTAACAGAAGAAATGATGCAATTTGTTATGAAAGAAGTGAAAGGAATTGACATCTCCCTTCCATTAAAACGCATGCCGTATGATGAGGCAATGGCACGATATGGTTCTGATAAACCAGATACTCGTTTTGGAATGGAATTAATTCATGTTGGAGAGATTGTGAAGAAATCGAGCTTTAAAGTATTTCAAAGCGCTATTGAATCAGACGGTTTAGTAGCTTTGTTGAATGTAAAACAACAGGCAAAGACATATTCACGCAAAGATATTGATAAACTAACTGAGTTTGTTAAAGTGTATGGTGCCAAAGGTCTTGCATGGCTTAAAGTTGAAGGAGAAGAATTAAAAGGACCAATTGTCAAATTTATTTCTGAAGAAGAAAAAGCAGGTTTAATGGAAAAAGCACAAGCGGAAGATGGTGATTTGTTATTATTTGTTGCAGATAAAACCAATGTTGTTTACAATAGCTTAGGCGCCCTTCGTTTAAAATTAGGAAAAGAGTTAAACTTGATAGACAACACTGCATATCATTTTCTATGGGTGACGGACTGGCCGTTATTAGAATACGACGAAGAGCAAGGAAGGTATTTTGCAGCGCACCATCCGTTTACTTCACCGATTGAATCAGACATTGAAAAGCTGGCTACAGAGCCGGAAAATGTCAGAGCAAATGCATATGATTTAGTTTTGAATGGCTACGAATTAGGCGGTGGGTCTGTTCGTATTCATCAGGTAGAGCTGCAAAAGAAAATGTTTAAGGTGTTAGGATTTTCTGAAGTGGAGGCTAAAGAACAGTTTGGTTTTCTATTAGAAGCCTTAGAATATGGTGCTCCACCACATGGCGGCGTAGCCTTGGGGCTTGATCGAATTGTCATGCTTTTAGCTGGCAGAACGAATTTAAGAGACACGATTCTATTTCCGAAAACAGCTTCTGCTTCCGATCTATTAACAGATGCACCGAGCGAAGTGGACCCAGGTCAATTAGATGAATTGTCTATTCAACTTATTTCTCAAGATCAAGATAAATAG MSKQQRVMAGSLCESNVKESVLLKGWVQKRRDLGGLIFIDLRDASGVVQIVFNPNHSQRALEIAENIRSEYVVEVEGTVVKRDSSTVNPTMKTGEIEVIVSTITILNKAKTPPFAIQDKAEVSEDLRLSYRYLDLRRQPLQETFKLRHHITQAVRHYLNEQQFLEMETPILTKSTPEGARDYLVPSRVHQGEFYALPQSPQLFKQLIMMGGFEKYYQIARCFRDEDLRADRQPEFTQIDVETSFLTSDEIMQLTEEMMQFVMKEVKGIDISLPLKRMPYDEAMARYGSDKPDTRFGMELIHVGEIVKKSSFKVFQSAIESDGLVALLNVKQQAKTYSRKDIDKLTEFVKVYGAKGLAWLKVEGEELKGPIVKFISEEEKAGLMEKAQAEDGDLLLFVADKTNVVYNSLGALRLKLGKELNLIDNTAYHFLWVTDWPLLEYDEEQGRYFAAHHPFTSPIESDIEKLATEPENVRANAYDLVLNGYELGGGSVRIHQVELQKKMFKVLGFSEVEAKEQFGFLLEALEYGAPPHGGVALGLDRIVMLLAGRTNLRDTILFPKTASASDLLTDAPSEVDPGQLDELSIQLISQDQDK NA NA NA NA NA AK015_01686 681 rsfA Prespore-specific transcriptional regulator RsfA ATGGCTAAGGTCAGACAAGATGCATGGTCACATGAAGATGATCTATTATTGGCAGAAACCGTCTTACGTCACATTAGAGAAGGAAGTACGCAACTGAATGCTTTTGAAGAGGTTGGAGATAAATTAAATCGTACATCTGCCGCATGTGGATTTCGTTGGAATGCAGAAATACGCAATAAGTATGTAAATGCTATTGATCTCGCAAAACGTCAGCGAAAAGAAAAGAAACGGGCTATGGCTAGAGCAGAAAAAGTAGAAAATAAACCAACCCTTGTAGCTTCATCAGCCACAAAACATCAAGAGACGGAGCAGTTTCAAACATCAACTGAAACTTCTATAAACGTCAATTCTTCCAATTCTCACGTAACGATGGATAAAGTCATTCATTTTTTAAGAGAATTAGAAAAGCAATCGTTACATTCAAATCAATCTCAAGCATCACTTGAACACGTTCAAAATGAAAAAGAAGAATTACAAAAACAAGTAGATAGATTGACTCAAGAATTAAAACAAACAAAATCGCAATTAGCGACGATGCAGGAGGACTATCAAGCTTTTATTCAAATTATGGATAGGGCGAGAAAAATGACTGTGTTAGAAGATCAAGATATGAGGACTGCACCAGCATTTCGAATGGATAAAAATGGAAATTTGCAACAATTAGCGCAAGGATCTAATTGA MAKVRQDAWSHEDDLLLAETVLRHIREGSTQLNAFEEVGDKLNRTSAACGFRWNAEIRNKYVNAIDLAKRQRKEKKRAMARAEKVENKPTLVASSATKHQETEQFQTSTETSINVNSSNSHVTMDKVIHFLRELEKQSLHSNQSQASLEHVQNEKEELQKQVDRLTQELKQTKSQLATMQEDYQAFIQIMDRARKMTVLEDQDMRTAPAFRMDKNGNLQQLAQGSN NA NA NA NA NA AK015_01687 1269 COG2256 putative AAA domain-containing protein ATGAAACAAAAACCACTTGCATTTCAAATGAGACCTGAACATATTGATGAAATTATTGGTCAAGAGCATTTAGTTGGCGAAGGGAAAATTATTCGTCGGATGGTAACTGCTAAGCGACTTGCATCCATGATATTATTTGGACCGCCTGGTACGGGAAAAACATCCATGGCAATAGCCTTAGCAAGAAGCTTAGCAATGCCAGTAAAAACATTAAATGCAGTAACAGATAAAAAAAGAGACATGGAAATTGTTGTGGAAGAAGCAAAAATGACAGGGCAATTGGTACTTATTTTAGACGAAGTACATCGTTTAGATAAAGCGAAGCAAGACTTTTTACTTCCACATCTTGAGAGTAATTTAGTAATTATGATTGGTTGTACAACAAGCAACCCTTATCATTCCATTAATCCTGCTATTCGTAGCAGATGTCATCTGTTTGAATTGCATCGACTAACAACGGATCATGTCAAGAAAGCAATACAACGTGCATTAAAAGATGAAGTAAACGGCTACGGCAGCTCGTCCATTTACATTTCTGAGCAAGCATTAAATCATTTTGCGTTTAGCGCTAACGGAGATCTGCGTGCAGCATTAAATGGGTTGGAGTTAGCTGTAGCATCAACACCAGAGATTGAAGAGAAACAAATTTCTATCACCTTAACAACAGCGGAAGAGTGTATGCAAAAAAAGAGTTTTTCACATGATAAAAATGGCGATGCGCATTATGATGTGCTTTCTGCTTTTCAAAAATCCATTCGTGGAAGCGATGTTGACGCTGCACTTCATTATTTAGCCAGATTAGTGGAAGCTGGTGACTTAGAAAGTATCGGGCGGAGAATGGTTGTAACTGCGTATGAAGATATTGGATTAGCCAATCCACAAGCAGGGCCACGGACGTTAACAGCTGTACAAGCTGCGGAAAGGTTGGGCTTTCCAGAAGCTAGAATCCCATTAGCTGTTGCAATTATTGAACTTTGTTTATCTCCAAAATCCAATTCAGCCTATAAAGCTTTAGACAAAGCTTTACAAGATGTACGCAGCGGAAAAGGCGGAGAAGTTCCTGCTCATATTAAAGATGCTCATTACGCTGGTGCACAAACATTAGGAAGAGGAACACAGTATCAGTATCCACACGACCATGAGAGTGGTTGGGTAAAGCAACAATATTTACCTGAGGCAATCAAACATAAGCAATACTATGAACCTAAAGCTACAGGGAAATTTGAACAAGCTATGAAACAAGTTTATGAGAGAATAAAGAAAGATTAG MKQKPLAFQMRPEHIDEIIGQEHLVGEGKIIRRMVTAKRLASMILFGPPGTGKTSMAIALARSLAMPVKTLNAVTDKKRDMEIVVEEAKMTGQLVLILDEVHRLDKAKQDFLLPHLESNLVIMIGCTTSNPYHSINPAIRSRCHLFELHRLTTDHVKKAIQRALKDEVNGYGSSSIYISEQALNHFAFSANGDLRAALNGLELAVASTPEIEEKQISITLTTAEECMQKKSFSHDKNGDAHYDVLSAFQKSIRGSDVDAALHYLARLVEAGDLESIGRRMVVTAYEDIGLANPQAGPRTLTAVQAAERLGFPEARIPLAVAIIELCLSPKSNSAYKALDKALQDVRSGKGGEVPAHIKDAHYAGAQTLGRGTQYQYPHDHESGWVKQQYLPEAIKHKQYYEPKATGKFEQAMKQVYERIKKD NA NA NA NA NA AK015_01688 420 cymR HTH-type transcriptional regulator CymR ATGAAAATTTCAACCAAAGGAAGATATGGTCTTACTCTTATGATACATCTAGCAAAATGTCATGGCAAAGGACCTATTTCTCTAAAACAAATAGCGAAGGAAAATCAATTATCGGAGCATTATTTAGAGCAACTAGCCTCACCATTACGAAATGCCGGCTTAATTCGGAGTATTCGCGGTGCATATGGTGGTTATGTATTAGCTAAGGAACCAATGGATATAAAAGCTGGTGACATCATTCGTGTATTAGAAGGCCCGATTACACCTGTAGAAGGAATAGAAAATGAAGAACCAGCAAAGCAAGCTTTGTGGCGAAGAATCCGTGATGCAGTTAAAGACGTATTGGACACGACGACGTTAAAAGATTTAGCTGAGCATAATGATGATGAACCACAAGATGCTTATATGTTTTATATTTAA MKISTKGRYGLTLMIHLAKCHGKGPISLKQIAKENQLSEHYLEQLASPLRNAGLIRSIRGAYGGYVLAKEPMDIKAGDIIRVLEGPITPVEGIENEEPAKQALWRRIRDAVKDVLDTTTLKDLAEHNDDEPQDAYMFYI PGPT0004960_1213 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643 NA NA AK015_01689 1146 iscS_1 Cysteine desulfurase IscS TTGGAACATATATATTTGGATCATGCGGCAACGACACCCGTTCATCCACAAGTATTAAAACGCATGTGTGAAGTAGAAAAAGAGACTTTTGGAAATCCATCCAGCGTGCATGCTTTTGGAAGAAAAGCGCGACAACTTGTAGATAGCGCTAGATCCCATATTGCTAAACGTATTGGCGCTAACGAAAAAGAAATTATTTTTACAAGTGGCGGAACAGAAGCGGATAATTTAGCCTTAGTTGGCGTAGCTAGAGCCAATCGAGACAAAGGAAATCATATTATTGTAACTGCTCAGGAACATCATGCGGTATTACACACTGCGGAAGCGTTGGAAAAAGAAGGTTTTCGTGTCACCTATGTACCTGTAGACAGACAAGGGAAAATTGCGGTTGAGGATGTCATGGATGCATTGACAAGCGAAACTATTCTCGTTTCCGTAATGTATGTAAATAATGAAACAGGCATAATCCAACCAATTCAAGAAATTGCTGAACAAATGCAGCATCATCAAGCCTACTTGCATACGGACGCTGTGCAAGCTTTTGGTTTACTTGCTATTGATGTTCGTGAATTAGGTGTTGATTTACTAACTGTATCTGCTCATAAAATTAACGGTCCAAAAGGCATCGGTTTGTTATATACGAAAAAAGACGTACAGTTACAATCCTTGCAATATGGTGGTGAGCAAGAAAGGAAACGGCGTGCAGGAACAGAAGATGTTGCTCGAATCGTAGGCTTTGAAAAGGCTGTTGAGTTAGCAGTAGAACATAGGCATGAGCGAGCGGAACAATATCGAGTTCTTAAACAGCAATTTATCAACGGCTTACGGGAACAAGACATTGACTTTCGAATAAATGGTGACCAACAGAATACAGTCGCTTCGATTGTAAATATTAGCTTTCCAAACACGGCTGTAGAAGCACTCTTAACTAATTTAGACCTCGATGGTGTTGCTGCATCTAGTGGTAGTGCGTGTACGGCCGGGTCTGTAGAACCTTCGCATGTGTTAACAGCGATGTACGGTTCAGGGGATGAATGCACTACAAATTCGGTTCGATTTAGTTTTGGCCTAGCTAATACTCCAGAAAACATTCAGACTGCTACTAAAAGAGTAGCTAAGAGCGTGAAGCGACTGACTCAGTTATAA MEHIYLDHAATTPVHPQVLKRMCEVEKETFGNPSSVHAFGRKARQLVDSARSHIAKRIGANEKEIIFTSGGTEADNLALVGVARANRDKGNHIIVTAQEHHAVLHTAEALEKEGFRVTYVPVDRQGKIAVEDVMDALTSETILVSVMYVNNETGIIQPIQEIAEQMQHHQAYLHTDAVQAFGLLAIDVRELGVDLLTVSAHKINGPKGIGLLYTKKDVQLQSLQYGGEQERKRRAGTEDVARIVGFEKAVELAVEHRHERAEQYRVLKQQFINGLREQDIDFRINGDQQNTVASIVNISFPNTAVEALLTNLDLDGVAASSGSACTAGSVEPSHVLTAMYGSGDECTTNSVRFSFGLANTPENIQTATKRVAKSVKRLTQL PGPT0000065_6174 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 AK015_01690 1107 mnmA tRNA-specific 2-thiouridylase MnmA ATGAATCAAGATACAAGAGTAGTTATAGGCATGAGTGGAGGTGTAGATTCTTCGGTAGCAGCTCTATTGTTAAAGCAACAAGGTTATGATGTGGTGGGGATTTTTATGAAAAACTGGGATGATACAGATGAATTTGGTGTTTGTACCGCGACAGAGGATTTTGAAGATGTTGTCCGAGTATGTAACCAACTAGATATCCCCTATTATTCCGTTAATTTTGAAAAACAATATTGGGATAAAGTGTTTACGTATTTTTTAGATGAATATAAAGCAGGTAGAACACCTAACCCTGATGTGATGTGTAATAAAGAAATAAAATTTAAGGCGTTTATGGACCATGCATTGTCATTAGGTGCTGATTATGTTGCAACTGGTCATTATGCCAGAGTTCGTGAACAGAATGGGCGCTTTGAAATGTTGCGTGGTGTAGATGGCAATAAAGACCAAACGTATTTCTTGAACCAACTAACAGAAGATGTGCTATCAAAAGTTATGTTTCCGCTTGGACATTTACCGAAATCAGAGGTACGGAAAATAGCTAAAGAAAATGATCTTGCTACGGCAACGAAGAAAGATAGTACAGGTATATGCTTTATTGGAGAACGGAACTTCAAAGCATTTTTAAGTGAATATTTGCCTGCTCAGCCTGGAGAAATGCAGACGTTAGATGGCGTAGTGAAAGGACGCCATGATGGTTTAATGTACTATACAATAGGACAGCGACAAGGTCTTGGTATTGGTGGTGCAGGTGACCCGTGGTTTGTAGTTGGAAAAAATATAGCCGAAAATATATTATACGTAGAGCAAGGGTATAGTAATGAAAAGCTGTTTTCTGATGCTTTGACTGCAACAGATGTAAATTGGATCCAATCGGATAAATTAAACGAGGTGTTTACTTGTACTGCAAAATTTCGCTATCGTCAAGATGATAGTCCAGTAACGGTAACCGTGTTGGGTAATAATCAAGTTCATGTTGTTTTTAAAGAAAGTCAACGTGCTATTACTCCTGGGCAAGCTGTCGTTTTTTATGATGGAGAAATATGTCTTGGAGGCGGTACAATTGATAAAATTTATAAGCGTGAACGTCAACTTGATTATGTAGGTTAA MNQDTRVVIGMSGGVDSSVAALLLKQQGYDVVGIFMKNWDDTDEFGVCTATEDFEDVVRVCNQLDIPYYSVNFEKQYWDKVFTYFLDEYKAGRTPNPDVMCNKEIKFKAFMDHALSLGADYVATGHYARVREQNGRFEMLRGVDGNKDQTYFLNQLTEDVLSKVMFPLGHLPKSEVRKIAKENDLATATKKDSTGICFIGERNFKAFLSEYLPAQPGEMQTLDGVVKGRHDGLMYYTIGQRQGLGIGGAGDPWFVVGKNIAENILYVEQGYSNEKLFSDALTATDVNWIQSDKLNEVFTCTAKFRYRQDDSPVTVTVLGNNQVHVVFKESQRAITPGQAVVFYDGEICLGGGTIDKIYKRERQLDYVG NA NA NA NA NA AK015_01691 666 yrrB TPR repeat-containing protein YrrB ATGGAGAGCAAGTTAAAACTAGCGATAAAAGCAATGCAGAATAACGAGCTGGAAGAGGCTGCGTCATTATTTGCAGAAATTATAGAAGAATACCCAGATGATCCCGTAGGGTATACTAATTTTGGGAATCTACTTTTGCATATGCAAGATACAGAGCGAGCACAACGTTTCTTTGCCAAAGCAATTGAATTAGATCCACATGCAGCAACTGCTCACTACGGTTTAGGAAATTTATTTTATGAGCAGTCGCTATACACGAAAGCGCAAAACCATTTACAGCAAGCTATAGATCTAGGATTAAAGGAAGCAGATGTTTATTATTTATTAGGGATGACATTTCAACAACAGGGTTATCACAAACTAGCATTACCATATTTATTGCGAGCTGCTGAACTGAATACAAATGAAGAAGAATTCCTGTTCCAATATGGATTAAGTCTTGCACAATGTGAGCATGTAAAAGAAGCGGAGGAAATCTTTCACAAAGTTCTTCAGTTGAATCAGAATCATAGCGATGCATATTATAATTTAGGAGTCATAGCTTTATTTAGAGAACAGGCAGAAAGAGCATTAAACTATTTTGAGGAAGCATTGCGCATTCAGCCTGACCATATTTTAGCTGCCAACGGTCGTAAGAATGTACAACCCTACCTTCATGAATCATAG MESKLKLAIKAMQNNELEEAASLFAEIIEEYPDDPVGYTNFGNLLLHMQDTERAQRFFAKAIELDPHAATAHYGLGNLFYEQSLYTKAQNHLQQAIDLGLKEADVYYLLGMTFQQQGYHKLALPYLLRAAELNTNEEEFLFQYGLSLAQCEHVKEAEEIFHKVLQLNQNHSDAYYNLGVIALFREQAERALNYFEEALRIQPDHILAANGRKNVQPYLHES NA NA NA NA NA AK015_01692 2322 recD2 COG0507 ATP-dependent RecD-like DNA helicase ATGGAACAAATAAAACAGCCAGCAGAAAATGAAAGCTATATTCGTGGCGAACTCCTTCACTTAATTTTTACAAACGAAGTGGAGCATTTTTCAATTGCTAAAATTAAGGTGTTAGATACAAACGAAACACTTGAAGAGAAAACAATTGTTATAAAGGGTTATTTTTATAATCTGCAGCCGGAAACTAGCTATTATTTTTTTGGGGTATTTGATAAACATCCGCGATTTGGCACTCAGTATAAAGTAACTTCATATAAAACATTTATTCCAGAGACGAAGGATGGTTTAGTAGCCTATTTATCCAGTGATCTATTCTATGGCATTGGCAAAAAAACAGCTGCCAAGATTGTGGATCAATTAGGTGAGAATGCAATTTCTAAAATTATTGATGATCCTGAAGCATTGTATGCTATATCTGGACTGAAGAAGAAAGCAGCCGATCAATTACGTGTTACTTTACAAGAAAATCAAGGCTTTGAACATGTTGCTATCTATTTAGCACAATATAATATTGGCTTGAAAATGGCACAAAAAATCTATCAAAACTATAAAGATGAAGCAGTTCAATTATTAGAAGCAGACCCGTATCAGTTTGTGTTCGATATTGATGGGTTTGGCTTTCGAACTGCTGATGAAATAGCTAGACAAATGGGGCTTCCAGCTACTCACCCGACTCGTATAGGAGCAGGTTGCATCTATGTTTTGCAAACTTCTATTCAGGAGGGGCATGTTTATTTGCCAATGGATGTTTGCATTTCATCTATTTGTTCGCTATTAAATACGAAAGAATTAACGGAAGCAATGGTAGTAGAAACTTTAACAGCTTTAAATAAAGATAAACAAGTAATTCTCCAAGATGGCAATGTCTACTTACCTTCTCTCTACTATGCTGAGGATGGATTTAGTTCTCATTTAAAACGCATTTTACAAAAGCCAATCGAGCATCAAACGCCGATAGCTGAGCTTATGAAAATCATTGGCAGTATTGAAGAAGAAGAAATTTTATCCTATGGAAAAGAACAGTTTACAGCGATCAACCAAGCTATTCATGCAAAGGTTATGATTCTAACAGGCGGTCCAGGAACAGGTAAAACGACCGTTATTAAAGGTATTCTAAAAGCGTATGCCAATATTCATGAGCTATCTTTACAGCCAAAAGATTACGAATATAAAAGTGACTTTCCATTCATCTTAACTGCACCAACAGGAAGAGCTGCAAAACGATTAAATGAATCTACTGGGCTACCAGCAATGACTGTACACCGCTTATTAGGATGGGATGGAAACCAAACTTTTGAAAAAAATGAGCATGAACAACTAAGTGGTAAATTTATTATTATAGATGAATTTTCTATGGTAGATATTTGGTTAGCTAATCATCTTTTTAAAGCTATCCCAGATGATATGCAAGTATTAATTGTAGGGGATGAAGACCAATTGCCTTCTGTTGGACCAGGGCAAGTGTTAGCAGACTTGCTAAGTACAAATAGAATACCATTTGTGAGGCTGACGGAAGTATATCGACAAAAAGAAGGCTCAAAAATTATTCAACTCGCTCACGAAATAAAAAAAGATGAGCCAATAAACTTAGGAAAAGATCATGATTTTAACTTTATCCAATGCGGAACAACACAAATGGGACATGTAATTACTAAAATATTTACGAAAGCTTTGGAGAAAGGATTTGAAACGAAAGATATTCAAGTTCTTGCCCCTATGTACCGTTCAGAAGCTGGAATTACTAAATTAAATCAAGAGCTTCAACAAGTAATTAATCCAAAGACAAACCAGAAAAGAGAAGTTCGCACACAAGAAGCAATCTTTCGAACAGGTGATAAGGTTATACAGCTTGTTAACCAGCCTGATGATGGCGTATATAATGGAGATATTGGAGAAGTAGTCGCTATTTTTCGAGAAGAAGAGAACACGGAACAAGAAGAACAGCTTGTCATTGCCTATGAAGATCGTGAAGTTGTTTATGAGCGGAAAGACTACCGTAATATTATGCTGGCATATTGTATTTCCATTCATAAATCACAAGGTAGTGAATTTCCTATTGTCATCATGCCTGTTGCTTGGGCATACCAACGCATGCTGAGAAAGAATCTATTATATACCGCAATAACAAGAAGTAAACAATCATTAATTATTTGTGGTGAGCAAGAAGCTTTTTTATACGGTGTAGCGACAAAGAATAAAAGTCATCGCTATACAACACTGACACAACTGCTCATGGAAAAATTAACTGTGCTTTATGAATCGAATATACATGCAAATTTGGAAGAGAATGATTCTAATCTTTCCCCTTATGACTTTATGTAA MEQIKQPAENESYIRGELLHLIFTNEVEHFSIAKIKVLDTNETLEEKTIVIKGYFYNLQPETSYYFFGVFDKHPRFGTQYKVTSYKTFIPETKDGLVAYLSSDLFYGIGKKTAAKIVDQLGENAISKIIDDPEALYAISGLKKKAADQLRVTLQENQGFEHVAIYLAQYNIGLKMAQKIYQNYKDEAVQLLEADPYQFVFDIDGFGFRTADEIARQMGLPATHPTRIGAGCIYVLQTSIQEGHVYLPMDVCISSICSLLNTKELTEAMVVETLTALNKDKQVILQDGNVYLPSLYYAEDGFSSHLKRILQKPIEHQTPIAELMKIIGSIEEEEILSYGKEQFTAINQAIHAKVMILTGGPGTGKTTVIKGILKAYANIHELSLQPKDYEYKSDFPFILTAPTGRAAKRLNESTGLPAMTVHRLLGWDGNQTFEKNEHEQLSGKFIIIDEFSMVDIWLANHLFKAIPDDMQVLIVGDEDQLPSVGPGQVLADLLSTNRIPFVRLTEVYRQKEGSKIIQLAHEIKKDEPINLGKDHDFNFIQCGTTQMGHVITKIFTKALEKGFETKDIQVLAPMYRSEAGITKLNQELQQVINPKTNQKREVRTQEAIFRTGDKVIQLVNQPDDGVYNGDIGEVVAIFREEENTEQEEQLVIAYEDREVVYERKDYRNIMLAYCISIHKSQGSEFPIVIMPVAWAYQRMLRKNLLYTAITRSKQSLIICGEQEAFLYGVATKNKSHRYTTLTQLLMEKLTVLYESNIHANLEENDSNLSPYDFM NA NA NA NA NA AK015_01693 195 hypothetical protein ATGCGATGCCCGAATTGTAATGGGAAAGATATTGGTAAAATAGGAATCCGGCAATACTACTGTTGGACGTGTTTTGTTGAGATGACGGTAGAAAATAATACACTGCTTTTACATCAAGTGGAAGCAGACGGATCATTAAGTTCGCTCAATGACTTATTTAATGAGGAAGAAAGAAGACTATATGGGAATAGTTAA MRCPNCNGKDIGKIGIRQYYCWTCFVEMTVENNTLLLHQVEADGSLSSLNDLFNEEERRLYGNS NA NA NA NA NA AK015_01694 1107 hypothetical protein ATGTTTAATAGTCGTCAAAGCCTGAACTTCCTCTATTTTCTATTAATTGGTATTCTACTCTTCCTGTTTTTTTACTTAATGATTAAATTGTTTCCTTTCTATAAAGCAGTATTTTTACTTTTCTGGCATGTAGCAGCTCCGTTTGTTATTTCCTGTTTAATTGCTTATCTATTATACCCAGTTGTGCAGGCAATACATAAGTACCACATTCCTAAAGGAGTGGCAGTTTTAATCATTTACCTGCTTTTTTTTGGTTTAACAGCCTATTGCATATATCGTATTTATCCAATGGTTGTTGTTCAAGTGAGAGATTTAAATGAGCAGTTTCCACAGTTAATGAAAATGTATGAAAAAATGATTTACCAATTTTATGAGTATACATCCTTTTTACCCGAAAATGTGCATGATAAATTTGACCAATTTTTGTTACGAATGGAGAATACACTCGACCAACTCTTAGAAAGATTGATGAGTGGGTTTACCAAGGTCTTTGATCTCATCATCTTTTTAACGGTTATACCTGTACTTGTTTTTTATTTTTTAAAAGACTATGAAAAAATAAAAAAGTACGGGAAACAGCTAATTCCATCTAGGTTTAGAGCTCCATGTAGTCAAATTTGGCATGCAATTGATGATAGTTTAGGAAATTATATTAGAGGCCAATTAATTGTTTGTGGCTTTGTAAGTCTCACGTCTTTTGTTATTTTTAAATTTTTATTGCAACTTGATTTTGCGTTGTTACTAGCCATCATTATGGGAATAACAAATTTAATTCCTTATTTTGGGCCTATTATTGGAGCGGTCCCAGCAGTAGCTATAGGTTTTACTGTCTCAGGGAATATGGTCGTTTTTGTCATTTTATCCGTGTTTGTTATTCAGTTGATAGAAAGTAATTTACTTTCCCCGTATATTGTTGGAAAAAGTATTAATATTCACCCAGCCGCCATCATTTTTGCTTTATTACTAGGTGGGCAGTTGTTTGGTGTCGTTGGCATGATTATCGCGGTGCCATTAATGACTATTTTAAAAGTAATTATCACGCATTTATTTATATGGAAGGATTATCATTCCACTTCTAAGCAAGAAAGAGACTCTGCACCATCTTAA MFNSRQSLNFLYFLLIGILLFLFFYLMIKLFPFYKAVFLLFWHVAAPFVISCLIAYLLYPVVQAIHKYHIPKGVAVLIIYLLFFGLTAYCIYRIYPMVVVQVRDLNEQFPQLMKMYEKMIYQFYEYTSFLPENVHDKFDQFLLRMENTLDQLLERLMSGFTKVFDLIIFLTVIPVLVFYFLKDYEKIKKYGKQLIPSRFRAPCSQIWHAIDDSLGNYIRGQLIVCGFVSLTSFVIFKFLLQLDFALLLAIIMGITNLIPYFGPIIGAVPAVAIGFTVSGNMVVFVILSVFVIQLIESNLLSPYIVGKSINIHPAAIIFALLLGGQLFGVVGMIIAVPLMTILKVIITHLFIWKDYHSTSKQERDSAPS NA NA NA NA NA AK015_01695 2640 alaS Alanine--tRNA ligase ATGAAGCAATTAACGTCAGCAGAAGTGAGGCAAATGTTTCTTGATTTTTTTAAGGAGAAAGGACATCGAGTGGAACCAAGTGCATCTCTTGTGCCAATAGACGATCCAACATTACTATGGATTAATAGTGGTGTCGCTACATTAAAGAAATATTTTGATGGTAGAGTTATTCCAGAGAACCCACGTATTGTTAATGTTCAAAAATCGATTCGTACAAATGATATTGAAAATGTAGGCTTTACTGCAAGACATCATACGTTCTTTGAAATGCTCGGAAACTTTTCGATAGGTGATTATTTTAAGCAAGAAGCGATCGAATGGGCATGGGAATTTTTAATAAGTGACAAGTGGATTGGATTTGAAGAAGATCGTTTATCCGTCACCGTGCATCCCGAAGATGATGAAGCGTATGACATTTGGCTGCACACTATTGGATTGCCCAAAGAGCGTATCATCCGTCTCGAAGAAAATTTCTGGGATATTGGAGAGGGGCCAAGTGGTCCCAATACCGAAATATTTTATGATCGTGGCGAAAAATATGGTAATAACTCGAATGACCCTGAGCTGTATCCAGGAGGAGAAAACGATCGTTACTTAGAAATATGGAATCTTGTATTCTCCCAATTTAATCATAACCCAGATGATACGTATACTCCGCTACCTAAAAAGAATATTGATACAGGGCTAGGTCTTGAACGAATGGTGTCCGTCATTCAAGATGTTCCAACCAATTTTGAAACAGATTTATTTATGCCGATAATAAATAAAACGGAAGCTTTAGCATCTGTAAAATATGGTGAGACTTCATCAGGGGATACGGCTTTTAAAGTAATTGCTGATCATATACGCACAGTCAGCTTTGCTATTGGCGATGGAGCAGTCCCATCGAATGAAGGAAGAGGGTATGTGTTACGTCGCCTCATTCGTAGAGCAGTACGCTTTGCGAAAGAGATCGGCATTGAAAAACCGTTTATGTATGAGCTTGTTGATATAGTGGCAGAAATCATGCAAGATTTTTACGCGCAAGTAGTGGAAAAGAAAGCATTCATTAAAAATATGATTAGAGCAGAAGAACAAAAATTCCATGAAACATTGCATGATGGTCTAGATATATTAACAACTATTATGGATCGTGAAACACAACGAGGTAGTACCATTTTCCCTGGTTATGAAGTGTTCCGTTTATACGATACGTATGGTTTTCCTAAAGAACTAACCGAAGAATATGTTCAAGCACAGGGATTTACTATCGATGAAGCAGGTTTTGAGAAAGAAATGGAAAAACAAAGGGAACGAGCAAGAAAAGCACGACAAAAAGTCGATTCTATGCAGGTACAAGGAGGTGCGATAGCGAATATTGATGTATTAAGCGAGTTTGTGGGTTACTCCAACTTAGAACAGGATACTACTGTTGCTGCAATCATCCAAGGGGAAGAACAAGTAGAGCAAGCAAATGCTGGAGAAGAAGTATACTTGTTTTTACACCAAACTCCTTTTTATGCAGAAAGTGGGGGGCAAATTGCTGATCATGGTACGATTCGTACAGAATATGCGCTTGGATCTGTAAAAGATGTACAAAAGTCTCCAAAAGGACAACATATACATCGAGTATTCATTGAAAAGGGTAGTATTTCAGTAGGTGAAATGGTTACTGCGACAGTGGATGCATCGAAGAGATCGTTTATTGTTAAAAATCATACGGCAACTCATTTGTTACATCAAGCTTTAAAGGATGTGGTTGGAGAACATGTTAACCAAGCTGGTTCATTCGTAGCACCTGAAAGATTACGTTTTGATTTTTCTCACTATCAAGCCGTATCTAAGCAAGAGTTAAAGCAAATTGAACAGATTGTAAATGAAAAAATATGGCAAGCTATTTCATTAGAAACTACAACAGAAAAGCTGAAAGATGCGAAAAAGATGGGAGCAACGGCCCTTTTTGGGGAAAAATATGGAGATGTAGTTCGTGTCGTTCAAATTGGTGACTATAGTATTGAATTATGTGGTGGCTGTCACGTTGTTAATACAGCTGAAATTGGCCTATTTAAAATTGTAACGGAAAGTGGAATAGGTGCTGGAACACGACGTATTGAAGCAGTAACAAGTAAGCAAGCTTATCATTTTATGTCAAATAAATTAGGCGTGTTACAACAGGCGGCCCAACTTGTAAAAGCAAAAGAAGAAGCGGTGCCTGAAAAAATTGAAGGACTATATAATGAAATAAAACAATTACAAAAAGAAGCGGAATCTCTGCAAGCTAAATTAGCAAACAAAGAAACTGCCAGCATGCTGGAAGAGGCTGATTCAATAGACGGAGTTCGTGTTTTAGCGAAACAAGTAGATGTGCGAGATATGAACCAGTTAAGGAATATGGTAGATGAATTAAAACAAAAACTTAATTCAGGTATGATTCTATTAGCCATGGAAAATAATAATAAAGTACAGCTAGCAGCAGGTGTATCCAAAGATTTAATCGAACAAGGTTATCATGCTGGGCATTTGATTAAAAAAGCAGCACAAGCATGTGGGGGAGGCGGAGGAGGCCGACCTGACATGGCACAAGCTGGAGGAAAAGACCCTGCTAAAATTGAACAAGCGCTGCATGCTGCAAAGCTTTATATTAAAGAGAAGCAAAACTAA MKQLTSAEVRQMFLDFFKEKGHRVEPSASLVPIDDPTLLWINSGVATLKKYFDGRVIPENPRIVNVQKSIRTNDIENVGFTARHHTFFEMLGNFSIGDYFKQEAIEWAWEFLISDKWIGFEEDRLSVTVHPEDDEAYDIWLHTIGLPKERIIRLEENFWDIGEGPSGPNTEIFYDRGEKYGNNSNDPELYPGGENDRYLEIWNLVFSQFNHNPDDTYTPLPKKNIDTGLGLERMVSVIQDVPTNFETDLFMPIINKTEALASVKYGETSSGDTAFKVIADHIRTVSFAIGDGAVPSNEGRGYVLRRLIRRAVRFAKEIGIEKPFMYELVDIVAEIMQDFYAQVVEKKAFIKNMIRAEEQKFHETLHDGLDILTTIMDRETQRGSTIFPGYEVFRLYDTYGFPKELTEEYVQAQGFTIDEAGFEKEMEKQRERARKARQKVDSMQVQGGAIANIDVLSEFVGYSNLEQDTTVAAIIQGEEQVEQANAGEEVYLFLHQTPFYAESGGQIADHGTIRTEYALGSVKDVQKSPKGQHIHRVFIEKGSISVGEMVTATVDASKRSFIVKNHTATHLLHQALKDVVGEHVNQAGSFVAPERLRFDFSHYQAVSKQELKQIEQIVNEKIWQAISLETTTEKLKDAKKMGATALFGEKYGDVVRVVQIGDYSIELCGGCHVVNTAEIGLFKIVTESGIGAGTRRIEAVTSKQAYHFMSNKLGVLQQAAQLVKAKEEAVPEKIEGLYNEIKQLQKEAESLQAKLANKETASMLEEADSIDGVRVLAKQVDVRDMNQLRNMVDELKQKLNSGMILLAMENNNKVQLAAGVSKDLIEQGYHAGHLIKKAAQACGGGGGGRPDMAQAGGKDPAKIEQALHAAKLYIKEKQN NA NA NA NA NA AK015_01696 270 hypothetical protein ATGAGTTCAATTGATAAAACAATGAAATTTAATTTTTCAGAGGAACCGTTTGAAGAGAATGTGAAAGAGATTTTGTTTAAAGTACACGAAGCGCTCCAAGAAAAAGGCTACAACCCAATTAATCAAATTGTTGGCTATTTACTGTCCGGTGACCCTGCCTACATTCCGAGATACAATGACGCTCGTAATCTAATTCGTAAAATTGAACGAGACGAAGTTATTGAAGAACTGGTAAAATTTTATTTAGAGCAACAGAGGGCAGGTAGATAA MSSIDKTMKFNFSEEPFEENVKEILFKVHEALQEKGYNPINQIVGYLLSGDPAYIPRYNDARNLIRKIERDEVIEELVKFYLEQQRAGR NA NA NA NA NA AK015_01697 414 yrrK COG0816 Putative pre-16S rRNA nuclease ATGAAGATATTAGGGCTTGATGTAGGATCCAAAACGATTGGCGTTGCTGTTAGCGACGCTTTAGGTTGGACTGCACAAGGAATTACAACTATTAAATGGAATGAAAATGTTTTAACTTCAGCGGATGATGCTTTGGGTGAAATTATAACAGAGTACGAAGTTGGAAAGGCTATTATTGGGTTACCGAAAAATATGAATGGAACGATTGGTGAACGTGGTGAAGCTTCCATTGTTTTTGCAAAACATATGGAGAAAAAGTTTCAAATTCCAACAGAACTCTGGGATGAGCGTTTAACGACAATTGCTGCAGAAAGAGTATTGTTAGAAGCTGATGTTAGTAGAAAAAAACGAAAAAAGGTCGTTGATAAGATGGCTGCTGTGATGATTTTGCAAGGTTATCTTGACCAAAAATAA MKILGLDVGSKTIGVAVSDALGWTAQGITTIKWNENVLTSADDALGEIITEYEVGKAIIGLPKNMNGTIGERGEASIVFAKHMEKKFQIPTELWDERLTTIAAERVLLEADVSRKKRKKVVDKMAAVMILQGYLDQK NA NA NA NA NA AK015_01698 282 hypothetical protein ATGGCGTTAGAAGAAAAAGAAAGAATTATTATCCCAGATGAAAATGGAGAAGAGCATCTTTTTGAGGTATTATTTACATTTGATTTGGACGATACGAACCAGTCTTACATTGCAGTAACACCTGTAGAGCAATCTGAGGAAGAAGAAGTGGAAGTGTACGCATTTCGCTATGAAGAAAAAGATGAGGATGATTTATCATTATTTCCAATCGAATCAGACGATGAGTGGGAAATGGTAGAAGAGATGCTAAACACCTTAGCAGAGCAGGAAAATGAAGAATAA MALEEKERIIIPDENGEEHLFEVLFTFDLDDTNQSYIAVTPVEQSEEEEVEVYAFRYEEKDEDDLSLFPIESDDEWEMVEEMLNTLAEQENEE NA NA NA NA NA AK015_01699 1119 mltG_1 Endolytic murein transglycosylase ATGTCCAAGCAGATAAAAACCAGCAAATTTAAGGACAACCTCAAGGCTCGCAGTGAAGAAGCTAAAACGGTTCGCAAAATTGTAACGATCATTATTATGACGCTATTAATTATATTGGTAATAGGGGGGGCTTCAGGTTACTTATATGTGAAATCTGCATTAGAACCTGTTAATCCTGGCAGTAAAGAAGAAATTAAGGTAACGATACCAATTGGATCTTCATCCTCTAATATTGCTAATATATTGGAAGATAATGGTGTGATTAAGAACGCACTAATATTTCGCTTTTACTTAAAATTTAATAATGAGTCCAGCTTTCAAGCGGGAGATTATGTATTTACTCCAGATATGGAGCTAAGTGAGATTGTCGATTCATTAAAAAGTGGTAAATTATTGGCAGAACCTGTCTATACGGTTACCATACCTGAAGGAAAAACGATAGAAGAGTTAGCAGAAATTTATGCAGAACAATTACCTTTGTCCAAAAAAAAGTTTTTAGAAAAAGTGAATGATCCAGATTATATTCAGGCATTAATGGAACGCTATCCATCTGTGCTGTCAGAAGATATTTTAAACCCAGAGATTCGTTCACCACTGGAAGGGTATCTATTTGCCGCAACGTATGAGTTCTTTGAAGAAGAGCCTAGTGTTGAAACAGTTGTCGATGAGATGCTAAAAAAGACAGAAAGCGTGCTATCCGATTATTTAGATGCCATCAAGGAGCAAAATTATACTGTTCACGAAGCTATAACGTTTGCCTCTGTTATTGAAAAAGAAACGGGCGCCAAAGACCAGCGTAAGAAAATAGCAGGAGTATTTGCTAATCGGTTAGAAAAAGGGATGAAACTTCAGACAGATCCAACTGTTTTATACGCGCAAGGGGAACATAAAGACCGAGTTTTGTATGAAGATTTAGAAATTGAATCACCATACAACACTTATTATATAGAAGGTCTTCCTGTTGGTCCGATTGGTAATTTTTCCGAGACCGCGCTTGAAGCCGCCCTTCACCCTGAGGAATCGAAGAATTTATATTTCTTACATGATAAAGATGGAAATATCTATTATGCAGAAACATTAGAGCAACATAATAAGAACAAGCAAAAACATATAAATTGA MSKQIKTSKFKDNLKARSEEAKTVRKIVTIIIMTLLIILVIGGASGYLYVKSALEPVNPGSKEEIKVTIPIGSSSSNIANILEDNGVIKNALIFRFYLKFNNESSFQAGDYVFTPDMELSEIVDSLKSGKLLAEPVYTVTIPEGKTIEELAEIYAEQLPLSKKKFLEKVNDPDYIQALMERYPSVLSEDILNPEIRSPLEGYLFAATYEFFEEEPSVETVVDEMLKKTESVLSDYLDAIKEQNYTVHEAITFASVIEKETGAKDQRKKIAGVFANRLEKGMKLQTDPTVLYAQGEHKDRVLYEDLEIESPYNTYYIEGLPVGPIGNFSETALEAALHPEESKNLYFLHDKDGNIYYAETLEQHNKNKQKHIN NA NA NA NA NA AK015_01700 648 trmR_1 COG4122 tRNA 5-hydroxyuridine methyltransferase ATGAATGACAGCAATAGTGGTCATTACTTAGAAAAAATGATACCAAAACGAACCGCTTCTATTGAAAGGTTAGAAAAAAAAGCCAAAAATGATCATGTGCCAATTATGGATGTAGTAAGTATGCATTTTGTACAACAAATCATTCGTCTAAAACAGCCTAAGCGGATATTAGAGATCGGTACAGCAATTGGTTATTCTGCTTTACGCATGCTGGAAGCACAACCTAATGCAGAAATTATAACCATAGAAAAAGATGAGCAAAGATATCAAGAAGCCAAGGGGCATATTCGTGCTCACCAAGCTGAACAGCAGATAAAAATCTTATCTGGAGATGCCTTAGAAGTACTAAAAAACTTGCAAAACGAAGCATTTTTTGATGTAATATTTATCGACGCTGCTAAAAGCCAGTATCGTCGTTTTTTTGAGCTTGTTACACCCTTACTAGCAAATGAAGGTATTATCATTACGGATAATGTTTTATTCCGAGGATATGTTGCCAACGAGCGTATCGTTCCATCTAGGTATAAAAAAATGGTGGAAAAGATCAATGAATATAATCATTGGCTAATGCAACATCCATTGTTTACCACGACTATAGTACCTATAGGAGATGGTGTAGCAATTAGTAGCAAACAGAGTCAGAGTTAG MNDSNSGHYLEKMIPKRTASIERLEKKAKNDHVPIMDVVSMHFVQQIIRLKQPKRILEIGTAIGYSALRMLEAQPNAEIITIEKDEQRYQEAKGHIRAHQAEQQIKILSGDALEVLKNLQNEAFFDVIFIDAAKSQYRRFFELVTPLLANEGIIITDNVLFRGYVANERIVPSRYKKMVEKINEYNHWLMQHPLFTTTIVPIGDGVAISSKQSQS NA NA NA NA NA AK015_01701 651 udk Uridine kinase ATGCATCATCAACCAGTAGTTATTGGGGTAGCAGGTGGAAGCGGAAGTGGAAAAACTTCTGTTACACGCTCCATATGCCAGCGCTTTTTAGAGCAAACCATTTTAGTTATTGAACAGGACTATTATTATAAAGATCAAAGCCATCTCCCATTCGAAGAACGCTTAAACACCAACTACGATCATCCATTAGCTTTTGACCATGACCTATTAGTTGAGCATATGCATAAATTATTAAGCGGTGAGACGATAGATAAACCCGTTTATGATTATAAGATGCATACACGCTCTCAAGAAATTATTCAAGTACAACCAAAAGATGTAATCATTTTAGAGGGGATATTAATTCTTGAAGATCCACGGCTACGTGATTTAATGGACATTAAAGTTTTTGTTGATACAGATGCGGACTTACGAATTATTCGCAGGCTTATGCGAGATATAAAAGAACGTGGAAGAACATTAGATTCTGTAATTGAGCAATATGTTCATAAAGTCAGACCATCACACTTACAATTTATTGAACCGAGTAAACGTTATGCTGACATCATTATTCCAGAAGGTGGACAAAATCATGTAGCCATTGACATTATGGCAACTAAAATAGAAAATATCCTTTTGAAACATAGTAATAAATTTAATGAAAAGTATTGA MHHQPVVIGVAGGSGSGKTSVTRSICQRFLEQTILVIEQDYYYKDQSHLPFEERLNTNYDHPLAFDHDLLVEHMHKLLSGETIDKPVYDYKMHTRSQEIIQVQPKDVIILEGILILEDPRLRDLMDIKVFVDTDADLRIIRRLMRDIKERGRTLDSVIEQYVHKVRPSHLQFIEPSKRYADIIIPEGGQNHVAIDIMATKIENILLKHSNKFNEKY PGPT0021230_2459 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876 NA NA AK015_01702 477 greA_2 COG0782 Transcription elongation factor GreA ATGACTGTAGAAAAAAGCTATTATATGACTCAAGAGGGGAAAGAGAAATTAGAACAAGAATTGCATTATCTAAAAACAGAACGCCGTCAAGAAGTGGTTGAACGTATAAAAGTGGCTCGAGACTTCGGTGATCTTTCCGAGAATTCAGAGTATGATTCTGCAAAAGACGAACAAGCTTTTGTGGAATCTCGAATTGCACAAGTGGAAAAAATGATTCGTAATGCAGTTATTATAGAAAATGATAATCAAAACCCGCACATTGTTTCTTTAGGTAAATCTGTGACGTTTCAAGAACTTCCTGATGGTGATACAGAAACATACACCATTGTTGGAAGTGCTGAAGCTGATCCATTTGAAGGTAAAATCTCTAATGATTCCCCAATGGCACAGAGTTTAATCGGAAAAGAAGTGGGTTCAGAAGTTTCTGTAGCTACTCCTGGTGGAGAAATATTTGTAAAGATTATCGAAGTTGAATAA MTVEKSYYMTQEGKEKLEQELHYLKTERRQEVVERIKVARDFGDLSENSEYDSAKDEQAFVESRIAQVEKMIRNAVIIENDNQNPHIVSLGKSVTFQELPDGDTETYTIVGSAEADPFEGKISNDSPMAQSLIGKEVGSEVSVATPGGEIFVKIIEVE PGPT0030495_1956 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TRANSCRIPTIONAL_CONTROL PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624 AK015_01703 690 hypothetical protein ATGGGTGATTTTGATAGAGTTTCCCGTGTAGATAAATTTGAAAAACGAAGAAAAAATACTAAATCTATATCAATTTTTCTTATTATAGGTGCTGTTTTAGTCCTCATTCTGTTGGGAACTTGGATGTTTGGCGGTGGCGATGAATCCTCAGAAGAGAATAAAGATACTTCCAATGAACAGGCAGAAGCAGAAGATAACGGTACAGAAGATAGTAAGGAAGGAGATAACAACGATCAATTTACTAGAGTAGAAGATGATGAGGACAACACTCAGTCTTCTGATAATGAAAAAGATGAACAAGATAATATAAAAGAGGAAGAACAAGCTGAAGATAATAGTTCAGTGGAAACAGAACAAGTTGAATCGTCAGATGATAATGTCGTGAAAGCTTTTACAGGTGATTGGAAGCCAATTGGAACAGAACAAAAAGGAACGCATACAACAAACTATAATGAAGGTTCTCAAGATAGAAAAGAAATCAAGACTGCTGTTACGCAGGTAACGGGTTTAGATAAAAATAGCATGGTTACACATTGGGTAGGAAATGGTGGAAGTCCGGAAAAAGTAGAAGCAACAGTTTCTACAGAAGATAATACACAGATTTACCGTGTGTATTTAATTTGGGTAAAAGAAAAAGGCTGGAAACCAACAAAGGTAGAACAATTAAAAAGTGTAATTATTAACAGATAG MGDFDRVSRVDKFEKRRKNTKSISIFLIIGAVLVLILLGTWMFGGGDESSEENKDTSNEQAEAEDNGTEDSKEGDNNDQFTRVEDDEDNTQSSDNEKDEQDNIKEEEQAEDNSSVETEQVESSDDNVVKAFTGDWKPIGTEQKGTHTTNYNEGSQDRKEIKTAVTQVTGLDKNSMVTHWVGNGGSPEKVEATVSTEDNTQIYRVYLIWVKEKGWKPTKVEQLKSVIINR NA NA NA NA NA AK015_01704 690 mtnN COG0775 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase ATGACAATAGGAATTATTGGAGCAATGGATGAAGAAATTGCTTTCTTAAAAGATGCAATGTATATCAAAAAAGAGTTAGAAGTAGCAAACTGCTTATTTATTGAAGGACAATTATATGATAAAGAGGTTGTTTTGCTTCAATCCGGCATTGGTAAAGTGAATGCTGCGATGGCAACAACCATCCTGCATGAACGATTTGCTCCAAACTACATCATTAACACTGGATCAGCAGGAGGATTTGCTACAGATCTAGAAATAGGAGATGTAGTTATCTCGACACAAGTTGTCCATCATGATGTAGACGCTACGGCATTCGATTATGCTTACGGACAAGTGCCGCAAATGCCTGCAATGTATGATGCAGATGTTAATTTAGTCGCAAAAGTAGTAAATGTATTGACAGACCTAGACATCTCATATAAAAAGGGAATTATTGCGACTGGTGACTCGTTTATGAGTGATGGAAAACATGTTACATTTGTTCGTGAAAAATTTCCTACTATGATAGCTGCAGAAATGGAAGCAGCTGCGATAGCACAAGTATGTTACCAATATGCTACACCATTTGTTATTATACGTGCACTTTCTGATATTGCTGGAAAAGAATCCTCTGTTTCTTTCGACGCCTTTTTAAAAACTGCAGCCACAAATGCTGCTAATATCATCATAAAGTTTATACAATCAACCTAA MTIGIIGAMDEEIAFLKDAMYIKKELEVANCLFIEGQLYDKEVVLLQSGIGKVNAAMATTILHERFAPNYIINTGSAGGFATDLEIGDVVISTQVVHHDVDATAFDYAYGQVPQMPAMYDADVNLVAKVVNVLTDLDISYKKGIIATGDSFMSDGKHVTFVREKFPTMIAAEMEAAAIAQVCYQYATPFVIIRALSDIAGKESSVSFDAFLKTAATNAANIIIKFIQST PGPT0014320_2448 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 AK015_01705 228 hypothetical protein ATGGATAATAAACAGAGATTGAAATATAAATATATAGATTACCAACGTTTTATAGGTGTGTTATTAATCTTATCTATGTATTTATTTTTAGGTGCTATCATTAATACGTATTTGAGACCTTCTGAAGATGGTATTGTTCTTATTGGTTTAACACTCGTTTCATTGGGTGCTGGATTTTGGTTGGCATACCAACAACGTCAAATAAAAAGAAAGCTAGATGAACGCTAA MDNKQRLKYKYIDYQRFIGVLLILSMYLFLGAIINTYLRPSEDGIVLIGLTLVSLGAGFWLAYQQRQIKRKLDER NA NA NA NA NA AK015_01706 228 hypothetical protein ATGAAAACTGCTATTGTAAGGCTTGTTGCACTAAGTATTTTATTGCTTAACCAAGCTTTAATCACCTTTGGCTATCAGCCCCTACCATTAAACGAAGATGAAATTTATGAAATTGTTTCTACAATAGCTACTACAATAATGGCCATATATGCTTGGTGGAAAAATAATAATGTTACCAAAAAAGCGCAAGAAAATGAAAAATTTTTAAAGGAAAATGGAATGAAATAA MKTAIVRLVALSILLLNQALITFGYQPLPLNEDEIYEIVSTIATTIMAIYAWWKNNNVTKKAQENEKFLKENGMK NA NA NA NA NA AK015_01707 726 sigK RNA polymerase sigma-28 factor TTGTCCGGCATTTTAAGTGCGCTCGCTTTACTTATTAAAGAAGCGATGTTCTTTGTCTCTTATGTTAAAAACCATGCTTTTCCCCAACCTCTACCACCTGATGAAGAAAAAAAATACATTCAGCAAATGCAGGACGGAAGTGAAACAGCGCGAAACAAACTCATTGAACATAATCTTCGGCTCGTAGCACATATTGTAAAAAAATTTGAAAATACGGGAGAAGATGCTGAAGATCTTATTTCTATTGGAACCATTGGTTTGATTAAAGGGGTGGAAAGTTATTCGCCTGGAAAAGGTACAAAACTTGCTACTTATGCAGCCCGGTGTATTGAAAATGAAATATTAATGCACTTACGAGCATTGAAGAAAATAAAGAAAGATGTTTCGCTGCATGATCCAATTGGTCAAGATAAAGAAGGAAATGAAATTAGCCTTATTGATATCTTAGAAGCTGAGAATCAAAATATTATCGAATTTATTCAATTAAATATGGAAATTGAAAAAATGGAAGATTATTTTGCGATTTTAGATAAACGAGAACGAGAAGTAATTGTTTATCGGTATGGATTAAACGATGAAAAAGAACTAACACAACGAGAAATTGCCAGAAAATTAAACATATCTAGAAGTTACGTTTCTCGAATTGAAAAACGAGCTTTGATGAAAGTATTTCATGAATACTACAGAAAAGAACATAGAGGTAAAAGGGATAAAAAAGAAAGCTAA MSGILSALALLIKEAMFFVSYVKNHAFPQPLPPDEEKKYIQQMQDGSETARNKLIEHNLRLVAHIVKKFENTGEDAEDLISIGTIGLIKGVESYSPGKGTKLATYAARCIENEILMHLRALKKIKKDVSLHDPIGQDKEGNEISLIDILEAENQNIIEFIQLNMEIEKMEDYFAILDKREREVIVYRYGLNDEKELTQREIARKLNISRSYVSRIEKRALMKVFHEYYRKEHRGKRDKKES PGPT0014795_970 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 AK015_01708 93 hypothetical protein ATGAGTAAACATGCAGATGTAGCAATTGAATTAGAAACAGGTCAGGAGGTAATTATTGAAGCCACCTGCTTAAAAGTTGGAAGAGCGCTTTGA MSKHADVAIELETGQEVIIEATCLKVGRAL NA NA NA NA NA AK015_01709 1380 PTS system EIIBC component ATGAAAAAGGAAGAAAAACTGACGCAGGATATTTTACAGTTTATTGGTGGAAAAGAAAACATAAAACAAGTTAGCCATTGTATGACAAGACTAAGGCTTAAGCTTAAAGATGATGGAAAAGCTGACATCAGTGCTTTAAAAAATGTAAACGGTGTCATAGGGGTTGTTGTGGACGAAACATTACAGATTGTGATTGGACCAGGAACTGTTAATCGTGTTGCGGAGAAAGTAAGTGAAATAACTAAATTAGGCATTGGCGAGGAGCAAGGTCCAGATGATAAAAACTTGACGTTTGAAGAAAAAGCAGCATTACAAAAGCAGGAAATAAAGCAAAGAAATAAAACGCCTTTTAAAAATTTTCTACGTCGATTAGGTAATATTTTTATTCCATTAATTCCTGGGTTAGTTGCCTCAGGTATTATTAATGGCGGTGCTAACTTTGCAAAAAATGCGGGTGTTGATCCAGAAACGACATGGATGCAAATCTTGCTTGTTTTTGGAGGCGCTATTTTTACGTATTTAGCTGTATTAGTAGGATGGAATACCGCAAAAGAGTTTGGAGGCACACCTGTATTAGGTGCCATTGCTGGTATGATTTTATTTAATCCGATGCTTGCTGATATTACCATATATGGGGAAGCGTTAGTTCCTGGTAGGGGGGGCTTATTCGGAGTCATCTTTGCAGCTTGGTTAATGACATTTTTAGAAAAACGAGTTCGAAAAATTATTCCAGCAGCCGTAGATATTATTTTCACTCCTTTAATTACGGTTTTAATTGTTGGTTTTGCTTCTTTATATGTAGTTATGCCAGTTGCCGGTGTCTTATCTGATGGCATAACAGATGGATTAACATCCTTAATCGATATGGGGGGATTTATTGCTGGTGCAGTATTAGCAGGTTTTTTCCTTCCATTAGTAATGGTTGGATTGCACCATGGATTAACCCCCATTCATTTAGAGCTTATTAATACGTTCGATAATACGGCATTACTTACTATTTTAGCGATGGCCGGAGCAGGGCAAGTGGGAGCAGCAATGGCTATTTATGTGAAAACCAAAAATAAACGCTTACGAAATATTATTAAAGGTGGTCTACCAGTAGGATTTTTAGGAATTGGAGAACCTTTGCTTTATGGCGTGACATTGCCTTTAGGACGGCCGTTTTTAACCGCATGTATGGGAGCGGCAATTGGGGGCGGATTTCAAGCTGTCATGCAAACTGCAGCTAAAGGTATCGGTGTTTCAGGTTTGTCATTGATTCCACTTATTGATGATGGAAAGTATATATTATATTTCTTAGGTTTAGTAATTTCATATGCTGGAGGTTTTATTTTCACGTATTTGTTCGGCTTTAAAGAAGATATGGCTAAAGATATATAA MKKEEKLTQDILQFIGGKENIKQVSHCMTRLRLKLKDDGKADISALKNVNGVIGVVVDETLQIVIGPGTVNRVAEKVSEITKLGIGEEQGPDDKNLTFEEKAALQKQEIKQRNKTPFKNFLRRLGNIFIPLIPGLVASGIINGGANFAKNAGVDPETTWMQILLVFGGAIFTYLAVLVGWNTAKEFGGTPVLGAIAGMILFNPMLADITIYGEALVPGRGGLFGVIFAAWLMTFLEKRVRKIIPAAVDIIFTPLITVLIVGFASLYVVMPVAGVLSDGITDGLTSLIDMGGFIAGAVLAGFFLPLVMVGLHHGLTPIHLELINTFDNTALLTILAMAGAGQVGAAMAIYVKTKNKRLRNIIKGGLPVGFLGIGEPLLYGVTLPLGRPFLTACMGAAIGGGFQAVMQTAAKGIGVSGLSLIPLIDDGKYILYFLGLVISYAGGFIFTYLFGFKEDMAKDI PGPT0014190_1042 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 AK015_01710 1080 hypothetical protein ATGCTAGGTATTTCTGTATATATTGGTGAACAAAGTGTGGAAGAACAGTCCACTTACATAAAGAAAATGAAGGAAAAAGGGTTTACGTCTATTTTTACCTCTCTGCATATACCAGAAGAGGACCCCGCTATGTATAAACACCAGTTACAAGCATTAGGAAAGATAGCAAAGCAATTAAATATGGAACTAATGGTTGATATTTCTCCAACTTCACTTATTGCTTTAGGGTTTGAGTGGAAGACAGCTTCTGAGTTAGTAAATTGGGGATTAAGTGGTCTGCGCGTTGATTATGGAATTGACGAGGATACGATTGTATACCTCTCAAAAGAGATGAAGGTCGCTCTTAATGCAAGTACACTAACGCCGCATGTTTTAGAAACATTAAAACAAAAAGGGCTGGATATTTCTATGGTTGAAGCATGGCATAATTTTTATCCACGCCCGGAAACTGGCATTGGCTGGGATGATTTTATTAAAAAAAATAAATGGTTAAAACAAGAAGGATTATCTATCATGGCGTTTATACCAGGAGATGAAAAGTTAAGAGGCCCCATTTTTTCAACATTACCAACGTTAGAAGCTCACAGATCGGTGTCTCCTTTTGCTGCATATTTAGAGCTTAGTCATAAGGGAATAGTTGATAAAATTTTGATTGGAGATAGAGGTGTTAGTGAACGTACGTTCGAACAGTTTTCTGGTTACCAAAAAAATGAAATCCTTCTTCATGTGACACCAAATCCAGCAATACCTCAATCAGATGTAGATTTAGTAAAAGGCACGCATACAAACCGCGTTGATCGCGCACGCGATTGTATTCGTTCTGTTGAGTCGAGACAATATGCATCGATAGGAGCTACGAAGATTGCCCCTGTTAACTGTGTAGAACGTCGTATAGGTTCAATAACAATTGATAATGAGCATTATCAAAGGTACCAGGGTGAAGTGCAAATAACTACACGCGATTTGCCTAAAGATAGACGAGTAAATGTTATTGGAAGAGTAGTCCCCCAAGATAGGATGTTGTTAAAATGGATAGATGGTGGGCAAAGGTTTACCATTAAACTGGTTTCAAACGATTAG MLGISVYIGEQSVEEQSTYIKKMKEKGFTSIFTSLHIPEEDPAMYKHQLQALGKIAKQLNMELMVDISPTSLIALGFEWKTASELVNWGLSGLRVDYGIDEDTIVYLSKEMKVALNASTLTPHVLETLKQKGLDISMVEAWHNFYPRPETGIGWDDFIKKNKWLKQEGLSIMAFIPGDEKLRGPIFSTLPTLEAHRSVSPFAAYLELSHKGIVDKILIGDRGVSERTFEQFSGYQKNEILLHVTPNPAIPQSDVDLVKGTHTNRVDRARDCIRSVESRQYASIGATKIAPVNCVERRIGSITIDNEHYQRYQGEVQITTRDLPKDRRVNVIGRVVPQDRMLLKWIDGGQRFTIKLVSND NA NA NA NA NA AK015_01711 381 mrpG COG1320 Na(+)/H(+) antiporter subunit G TTGATAGAGACGTGGATTAATATTATCTTAAACCTTATCGTTGCTTTATTCATTTTAGCGGGCACCTTTTTTATTCTATCTGCGTCAATTGGCGTCGTTCGCTTTCCTGATGTTTATACAAAATTACACGCAGCAACAAAAGCATCTACATTAGGAATCGCTTTTATTCTTATTGGAGCTTTTACGTATCTATATTTAGAGCATTCTATTGTTAGTGGTAAGTTGCTATTAGCAATCGTATTTATCATGTTAACAGCTCCCGTAGGTGCACATATGATGGGAAGAGCTGCACACTCATCAGGAGTAAAGCCATATTTAAAAAACCAAAAAGATGCATATGAAGAAGCTGTAAAAGAGTATAAAAAAAGAAATATGTATTAG MIETWINIILNLIVALFILAGTFFILSASIGVVRFPDVYTKLHAATKASTLGIAFILIGAFTYLYLEHSIVSGKLLLAIVFIMLTAPVGAHMMGRAAHSSGVKPYLKNQKDAYEEAVKEYKKRNMY PGPT0013925_465 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571 NA NA AK015_01712 312 mrpF COG2212 Na(+)/H(+) antiporter subunit F ATGACGAATATATTAACAACGACAGACAATATATTACAAGTAGCAATCGTGATCTCGTTTATTGGTATATCACTATCATTAGCTCTTCTTTTATATCGTGTTATATCTGGCCCTACACTACCTGATCGAGCGGTTGCATTAGATGCCATTGGTATTAACTTAATGGGGCTAGCGGGCTTAATGTCAATCTACTTGATAACAACAAAATTAAATGACGTCATTTTGCTCATTGGAATCCTTGCATTCCTTTCAACGCTTGCCATTGCAAAATACCTAGAAAAGGGTGTTATCATTGATAGAGACGTGGATTAA MTNILTTTDNILQVAIVISFIGISLSLALLLYRVISGPTLPDRAVALDAIGINLMGLAGLMSIYLITTKLNDVILLIGILAFLSTLAIAKYLEKGVIIDRDVD PGPT0013920_240 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570 NA NA AK015_01713 477 mrpE COG1863 Na(+)/H(+) antiporter subunit E ATGGCTTTTCAAATAGTAATTAATTTAATTATCGCCTTTATGTGGATGTTCTTAAGTGAATCTTATTCTGTTCCAAGCTTTTTTGCTGGATATCTATTAGGGATTTTACTCTTGTTTCTTTTACGTCGCTTTATACCAGACACGTTCTATTTTCGAAGAGTGGTAAAGATCGTTAGCTTGATCTTCCTGTTTATAAAAGAGTTACTCTCTTCAAACATTGAAATTGTAAAACTTGTTTATTCACCGAAACCAAATTTTGAACCAGCAATATTCGAGCTACCAACAGAGTTGAAAAGTAATTGGGAAATTACCTTGTTGGCGAATTTAATTTCTCTCACTCCAGGTACATTATCCGTTGCTGTATCGCGTGATAATACAAAATTGTTTATTCATGGAATGGATATTCATGATAACAATGAGGCTATCGATTCCATAAAGAACACATTTGAAAAAGCAATCATGGAGGTGACAAGATGA MAFQIVINLIIAFMWMFLSESYSVPSFFAGYLLGILLLFLLRRFIPDTFYFRRVVKIVSLIFLFIKELLSSNIEIVKLVYSPKPNFEPAIFELPTELKSNWEITLLANLISLTPGTLSVAVSRDNTKLFIHGMDIHDNNEAIDSIKNTFEKAIMEVTR PGPT0013915_1293 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569 NA NA AK015_01714 1482 mrpD COG0651 Na(+)/H(+) antiporter subunit D ATGAGTAATTTAGTAATACTACCAATTATCATCCCAATGATAGCAGCTATCGTTCTTATCTTTTTCAATAAAAATGTTCGCATATCAAGAGCACTAACGAAGCTGTTTTCAATCATTAGTTTAGCAACAGCTGGCTATATTACTTGGTACGTACTTGAACATGGCACAATTATATTGCAAACAGGAGACTGGATGGCTCCTTATGGAATTGTTTTAGTCATGGATGGCTTAGCTGCCATATTAGTTTTAACAACGAATGTAATTAGTACTGCCTGTGCATTCTACGCTCCCTATGCTGGTTTGGAAAAAAGAGAACAATTTTATTTCTATCCATTTTTCTTTTTTCTCATTACTGGTGTGTCTGGGGCATTTATAACGGGTGATTTATTTAACCTATTTGTATTCTTTGAAGTGTTATTAATGGCTTCTTACGGTTTAATTGTATTAGGAGGCGGAAAAGTTCAATTACGAGAATCGCTGAAATACCTGTTAATTAACTTATTTTCATCGATGTTATTTGTTACCACTGTTGCACTTTTATATGCCGTTGTTGGAACAGTGAATATGGCACAAATTGCCGAACGCGTACAAGAAGTGGAACAGCAAGGTATCATTACAACGATTGGGATATTACTGTTTTTTGTTTTTGCTACGAAAGCAGCGTTATTCCCACTTTATTACTGGCTACCAAAGTCATACATCGTACCGAATCCTGTTATATCGGCTTTATTCGGCGCGTTGCTAACAAAAGTTGGGGTTTACTCTATCTTACGAGTATTTTCACTTATTTTTGTTTATCAAACAGATTTAACCCATGAAATGTTTATTTGGATAGCTGGTCTATCGATGATTTTTGGCATCATTGGTGCATTGTCGACTTCAAATATTAAATTGATTATCGCTTATAACATTATTCCTGCCATTGGATTTATCCTTCTAGGAATTGGGGTTTTGAACGAATCTGGAATTAGTGGCTCCATATACTATCTTATTAACGATATGATCATTAAAACTGCACTATTTTTACTAGTAGGTATCATAGCCTATGTAGCTGGAACATCCGATTTACGCAAAATGGGCGGGCTTATTCATTACTATCCTTCTTTAGGTTGGCTATTGTTTTTATCTGCTGCCGTATTAGCAGGTCTCCCACCTTTTAGCGGGTTTATCGGCAAATTGTTATTACTGAAGGGTGCCTTTGAAGAAGGAGAAATCGCTATCGTTATTGTCGGTTTGCTAACGAGTCTGCTCATCCTTTATTCCGTTGTAAAAATATTTATTAACGGATTTTGGGGAGATAAAGAAACAATGGGTACTATTGTAAAGAAGCCTATTAACGGCTTAATGGCTCCCGTTGTCGCTTTATTAACGATATCTGTATTGCTAGGAGTTGGAGCAGAATTGTTTTATCCGAGTATTGAGTCAATAGCTGCTTATTTACTTGATCCGGAAATTTATATTGATTCTGTGCTAAAGGAGTAA MSNLVILPIIIPMIAAIVLIFFNKNVRISRALTKLFSIISLATAGYITWYVLEHGTIILQTGDWMAPYGIVLVMDGLAAILVLTTNVISTACAFYAPYAGLEKREQFYFYPFFFFLITGVSGAFITGDLFNLFVFFEVLLMASYGLIVLGGGKVQLRESLKYLLINLFSSMLFVTTVALLYAVVGTVNMAQIAERVQEVEQQGIITTIGILLFFVFATKAALFPLYYWLPKSYIVPNPVISALFGALLTKVGVYSILRVFSLIFVYQTDLTHEMFIWIAGLSMIFGIIGALSTSNIKLIIAYNIIPAIGFILLGIGVLNESGISGSIYYLINDMIIKTALFLLVGIIAYVAGTSDLRKMGGLIHYYPSLGWLLFLSAAVLAGLPPFSGFIGKLLLLKGAFEEGEIAIVIVGLLTSLLILYSVVKIFINGFWGDKETMGTIVKKPINGLMAPVVALLTISVLLGVGAELFYPSIESIAAYLLDPEIYIDSVLKE PGPT0013910_2093 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568 NA NA AK015_01715 339 mrpC COG1006 Na(+)/H(+) antiporter subunit C ATGGAGATTATTACATCTATATTAGCAGGAGTTTTGTTTGCAACTGCCATCTATAATATGTTGCAAAAGCAATTGCTTCGCATCGTTATAGGTACAGCATTACTATCCCACGGAGCCCACATCCTTATTTTTACAATGGGGAAATTAAAAACTGGTCAGCCTCCTATTTTGACAGATGGGATCGAAAATTATACCGATCCGCTACCTCAGGCTTTAATCCTAACGTCTATTGTGATTAGCTTTGGTGTAACCAGTTTACTTTTAGTGTTAGCTTATAGATCGACTCAAGAAAACGGTACGGACAATATGGAAGAATTAAGGGGTAACGAAAATGAGTAA MEIITSILAGVLFATAIYNMLQKQLLRIVIGTALLSHGAHILIFTMGKLKTGQPPILTDGIENYTDPLPQALILTSIVISFGVTSLLLVLAYRSTQENGTDNMEELRGNENE PGPT0013905_1575 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567 NA NA AK015_01716 2316 mrpA COG1009 Na(+)/H(+) antiporter subunit A ATGATATTTGCAGTTCTTATTCCACTGCTTATTGCATGCTTTATTCCTGCATTAAGTAAATTAAAAGAAAAAATACATACAGGGATCTTCGTTTTTTTTATACCTTTTTTGATTTTTCTATACTTCGTTACTTTTATAGGTAACGACTTTACTCCAATCATGGAACATTATAACTGGATTCCATCTTTAGGCATTAACTTTGATTTATATTTAGATGGTCTAAGTTTATTATTCGTGCTATTAATTAGCGGAATTGGTTCATTAGTCGTCCTTTACTCCATCTATTATCTTGACAAGTCAGAACGCCTTGGGCATTTTTATGTGTATTTGCTCATGTTTATGAGCGCAATGCTTGGCGTAGTGCTATCGGATAATATATTTGTGCTTTATACGTTTTGGGAATTAACATCGATTTCTTCGTTCTTATTAATTGGGTACTGGCATTTTAAAGAGCGTTCTCGCTATGGTGCATTAAAATCCATGCTCATAACTGTATTTGGCGGGTTAAGTATGCTTGGTGGCTTTATTCTGCTGTACGTCGTTACAGGTACAACAAGCATACAACAAATGATTACCCAAGTAGATTTTATTTTAGATAGCAATTATTTGCCACTCATTCTCGGCTTATTACTATTAGGTGCATTTACAAAATCTGCCCAATTCCCATTTCACATTTGGCTACCTGACGCAATGGAAGCACCAACACCTGTTAGTGCTTATTTACATTCAGCCACCATGGTAAAAGCGGGGCTTTTTCTTGTAGCTCGTTTTTCGCCGATTTTCTCTGGATATGAAGCGTTTTTTATTATTGTAAGTGTATTTGGAATTGCAACATTGTGTTGGGGCGCTTATATGTCTGTAAGACAAACAGACTTAAAGGCTATTTTAGCTTTCTCTACCATTAGTCAGCTTGGAATGATCATGGCTATGCTAGGTTTTGGCACAAAAGCAGCCGTTTTTGCAGCTGTTTTCCATATATTAAATCATGCGACATTCAAAGGTAGTCTATTTATGGTAGCTGGGATTGTTGATCATGAAACTGGAACTCGAGATATTCGAAAACTTGGCGGACTGGCTACTTTAATGCCCATTACTGCTACATTAGCCATGTTTGGAACATTTTCTATGGCGGGAGTTCCATTACCATTTCTAAATGGCTATTATAGTAAAGAACTGTTTTTTGATGCATCACTAGGCTTAGGTGCTGACTTTTGGAGTCAAACCATCCCATTTTTAGCAGTTCTAGGTAGTATTTTTACATTTGTCTATTCCATGTATCTGTTCTTCGGGACATTTACTGGTAAAAAACATTTGGAGAAACTACCAAAGAAACCACACGAAGCACCTATCGGCATGCTTATATCACCGATCATTCTTGTAGTTGGCGTCATTACAATTGGTTTGTTTCCAAATATGGTTAACTCATCCTTTTTACAGCATGCAGCGACTGCGATCAACAGTTCTGTAACCTATAAAGACGTTACATTTTGGCATGGATTTATTCCACCTTTTAAAATGTCATTAGCAGTGGTTGGAATAGGTACAGTGTTATTTTTAACTCGAAAAAAATGGCGAGGAGTTTATCAAGTCTTGCCTGGTAAAGTAAGCTTTAACCACGTATACGACGCTATTTTAAATCGAATTGGTCAAGTTTCTAATCGCATTACGAATTACTACATGACTGGTTCATTAAGAACATATATGTCTTTAATTCTTGGCACAATGCTTATTGTTTCGTTTCTATTTATGTTTTTAACAGACGGTTTTGCATTTAGCACGAACGAGTTAGCTGATATTTCATTTATCGAGGTTGCAGTTGTAGGAATTATGATTATTGCAGCAATCGCTACTATTTATATGAATCATAATGTAGCTGCCATCTTAGTAGTCGGAGTGGTTGGTTTCGGTGTGGCTATTCTATTTGTTATTTATCGCGCACCAGATATTGCTCTAACGCAATTAGTTATTGAAACAATTACTGTGGCACTCTTTTTACTTTGCTTTTACCATTTACCGAAGTTGCGCAAATCATCTGACACACCAAGAACAAAACTGATGAATGCAATCATTTCTATCGGGTTTGGAACGTTGATTACCTTAGTGGCAATATCTAGTCATAGTAGTAGGTGGTTCGAATCGATAGCTAATTACTTTGTAGAGAACTCAAAACCATTGGGCGGCGGATATAATATTGTTAACGTAATTTTGGTTGATTTTCGTGGGTTAGATACCTTATTCGAAATCGCTGTGTTAGGTATCGCTGCATTAGCCATCGTCGGCCTTATTAAATATAAAAAGAATAAGGAGGCAGAATAA MIFAVLIPLLIACFIPALSKLKEKIHTGIFVFFIPFLIFLYFVTFIGNDFTPIMEHYNWIPSLGINFDLYLDGLSLLFVLLISGIGSLVVLYSIYYLDKSERLGHFYVYLLMFMSAMLGVVLSDNIFVLYTFWELTSISSFLLIGYWHFKERSRYGALKSMLITVFGGLSMLGGFILLYVVTGTTSIQQMITQVDFILDSNYLPLILGLLLLGAFTKSAQFPFHIWLPDAMEAPTPVSAYLHSATMVKAGLFLVARFSPIFSGYEAFFIIVSVFGIATLCWGAYMSVRQTDLKAILAFSTISQLGMIMAMLGFGTKAAVFAAVFHILNHATFKGSLFMVAGIVDHETGTRDIRKLGGLATLMPITATLAMFGTFSMAGVPLPFLNGYYSKELFFDASLGLGADFWSQTIPFLAVLGSIFTFVYSMYLFFGTFTGKKHLEKLPKKPHEAPIGMLISPIILVVGVITIGLFPNMVNSSFLQHAATAINSSVTYKDVTFWHGFIPPFKMSLAVVGIGTVLFLTRKKWRGVYQVLPGKVSFNHVYDAILNRIGQVSNRITNYYMTGSLRTYMSLILGTMLIVSFLFMFLTDGFAFSTNELADISFIEVAVVGIMIIAAIATIYMNHNVAAILVVGVVGFGVAILFVIYRAPDIALTQLVIETITVALFLLCFYHLPKLRKSSDTPRTKLMNAIISIGFGTLITLVAISSHSSRWFESIANYFVENSKPLGGGYNIVNVILVDFRGLDTLFEIAVLGIAALAIVGLIKYKKNKEAE PGPT0013895_1157 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565 NA NA AK015_01717 162 hypothetical protein ATGCCAAAAAGAGTGGTTAGCAACGATATGCTTGGTAAGTTTAGCAAACAAACAGCCAAGATGAAAGAAAGCCCACCTGATGATTCCTTTATAACGAATGAGCGTTGTGGTACAACTTTCAAATGGGGAAAAATTCTTTTTTATGTGCAACAAATGGTTTAG MPKRVVSNDMLGKFSKQTAKMKESPPDDSFITNERCGTTFKWGKILFYVQQMV NA NA NA NA NA AK015_01718 147 sda Sporulation inhibitor sda ATGGAACATTTGTCGGATGAATTATTACTCGAATCATATATTACAGCAAATGATTTAAATTTAAGCCCTGATTTTCTCTTGCTAATTGAAGAAGAGATTCATAGAAGACATTTGTCACATAAAATAAAAGATACAAAATCAGGTTAA MEHLSDELLLESYITANDLNLSPDFLLLIEEEIHRRHLSHKIKDTKSG NA NA NA NA NA AK015_01719 516 hypothetical protein GTGTTAAAAAAGTTTTTACCGAATGAGCATGTGAAAAGTATATTTGAGATTCATCCTGAATCATTGAAGGAAAAAGGGATAAAAGGTATTATTACTGATTTAGATAATACTTTGGTTGCTTGGGACGTTAAGGAAGCTACTTCTGAAGTGGTAGAATGGTTTAAGTTAATGAAAGAGCATGGCATTAGCGTAACCATAATTTCCAACAATAATCGAGAGCGAGTGAGTGTGTTTTCTGAGCCGCTCGATACCCCTTTTGTATTCAGTGCTCGCAAACCATTAAGCAAGGCGTTTAAAACAACAGCTAAAAAAATGAATTTAAAGGAAGAAGAAATTGCCGTTATCGGGGATCAGGTTTTAACGGATGTACTCGGAGGAAATATGGCTGGTTTTTATACAATTTTAGTCGTCCCCATTGTGCAATCAGACGGAAAGATAACAAGAATTAATCGTAAAATAGAGCGCCGTATTCTTGCATATATGCGAAAAAAGGGGAAAATAAGCTGGGAGGAATAA MLKKFLPNEHVKSIFEIHPESLKEKGIKGIITDLDNTLVAWDVKEATSEVVEWFKLMKEHGISVTIISNNNRERVSVFSEPLDTPFVFSARKPLSKAFKTTAKKMNLKEEEIAVIGDQVLTDVLGGNMAGFYTILVVPIVQSDGKITRINRKIERRILAYMRKKGKISWEE NA NA NA NA NA AK015_01720 1101 yqeH COG1161 putative protein YqeH ATGGAAACAATATATTGTCAAGGTTGTGGTATACGCATTCAAACAACAGAAAAGAACCAACCAGGGTACACTCCTGCCTCATCCTTGATAAAGGAAAATATTCTATGTCAAAGGTGCTTTCGTTTAAAGCACTATAATGAAATTCAAGATGTTGCAATTACCGATGCTGATTTTTTTAAAATGGTAAGTTCTATTAGGGATACATCTGGGTTAGTAGTACATGTGGTCGATATCTTTGATGTTGCTGGAAGTTTAATTAAAGCTTTACCGAGAATAGTTGGAAATAAATCCATTTTGTTAGTAGGTAATAAAATCGATTTGCTTCCTAAATCAGTTAATACAAGGAAGTTACTACAATGGTTACGCGCGCAAGCTAAACAAGTGGGGGTAAATGTAGCCGATGCTTGTTTAATCTCCTCAGCAAAAGGGCACGGGATAAGTGAACTTGCAGAGACAATGGAGCAATATAGAAATGGTGATAACGTTTATATTGTGGGCACAACAAATGTTGGAAAGTCAACGTTTATTAACCGATTAATTAAAGAATCGACAGGCTATCGTGACGTGATTACTACTTCTTATTTTCCAGGAACGACATTGGGTTTTATTGAAATTCCTTTAGATAACCATTCAGCTCTCATCGATACACCAGGTATTGTAAATAAAGAGCAAATAGCTCATTATATTTCTGGTAAAGACTTAAAGCTGATTACACCAAACAAAGAGATAAAACCTAGAGTTTACCAATTAAATGATGGACAAACTTTGTTTTTTGGCGGATTAGCTCGATTAGATTTTATAAAAGGAGACAAACAGTCCTTTGTCTGTTATTTTTCTAATCAAGTTTCGATACATCGTACAAAATTAGAAAAAGCAGATGAACTATTTGAAAATCATCTCGGTGAACTATTGACGCCTCCATCCATGGAGTCCATCGATCAAATACCACCTATGATTTCGGACACATTTCGAATAGATCCGGGAAAGTATGATATTGTTTTTCCTGGTTTAGGCTGGGTCAGCATCTTAGGTGATGGTGCTACAGTAACTGCGCATCGACCAAAAGGTGTTGCTGTTTCTATTAGGCAATCATTCAACTAG METIYCQGCGIRIQTTEKNQPGYTPASSLIKENILCQRCFRLKHYNEIQDVAITDADFFKMVSSIRDTSGLVVHVVDIFDVAGSLIKALPRIVGNKSILLVGNKIDLLPKSVNTRKLLQWLRAQAKQVGVNVADACLISSAKGHGISELAETMEQYRNGDNVYIVGTTNVGKSTFINRLIKESTGYRDVITTSYFPGTTLGFIEIPLDNHSALIDTPGIVNKEQIAHYISGKDLKLITPNKEIKPRVYQLNDGQTLFFGGLARLDFIKGDKQSFVCYFSNQVSIHRTKLEKADELFENHLGELLTPPSMESIDQIPPMISDTFRIDPGKYDIVFPGLGWVSILGDGATVTAHRPKGVAVSIRQSFN NA NA NA NA NA AK015_01721 843 aroE COG0169 Shikimate dehydrogenase (NADP(+)) GTGGCATACATGTTTGGGTTAATTGGTTATCCTATTAAACACTCGCAATCGCCATGGATTCATGAGCAATTTATGAAAACAACGGGAGTGGAAGGGGATTACTGTATCTATGAAGTAACTCCAGAAGATTCTTTTGAGGCATTTATGGGACAGCTTCAATCGTCTAGTGTAGACGGTTTTAATATAACAGTACCATACAAGGAGAAAATTATCTCTTATTTAGATGATATTGATCCTGTAGCTTTAAAAATTGGAGCAGTCAATACGGTGGTGAATAGGAATGGTAAGTGGATTGGTTATAATACGGACGGCAAGGGGTATGTTCGTTCTTTAAATTCCAAGTTTCCTAACTTATTGCAAAAAGCCACTAAACGAGCGCTTATTCTTGGTGCTGGTGGTGCTGCTAAAGGGATTTTTGCAGCGCTTGAAGAGGTGGGTTTTAAAAGAATAGATATAGCTAATCGAACGAAAGAAAAAGCGGTAATGATTTGTGGGCGACACAAACATCAGTCACAAGCATATTCCTTTGAGGATGTGGAACAGCGTTTGCATGACTATGATATTGTCATTCAAACAACTTCTGTAGGAATGAAACCGCATGTTGATCAATCTGTTTTATCAGATGATACAAACTTTTCGCCTGTACCAATTTACAGTGATATCGTATATCAACCGATCAGAACGAATTTTTTACAGAAAGCAGAACAAAGTGGTGCACAAATTCACTATGGACACACAATGCTTCTCTACCAAGCGCAATATGCTTTTGAATTATGGACAGGTCGAAAACCAAATATAGGGCAAATGGATGAAGAATTAAAACAGATTTTGAAAGGAAGATAA MAYMFGLIGYPIKHSQSPWIHEQFMKTTGVEGDYCIYEVTPEDSFEAFMGQLQSSSVDGFNITVPYKEKIISYLDDIDPVALKIGAVNTVVNRNGKWIGYNTDGKGYVRSLNSKFPNLLQKATKRALILGAGGAAKGIFAALEEVGFKRIDIANRTKEKAVMICGRHKHQSQAYSFEDVEQRLHDYDIVIQTTSVGMKPHVDQSVLSDDTNFSPVPIYSDIVYQPIRTNFLQKAEQSGAQIHYGHTMLLYQAQYAFELWTGRKPNIGQMDEELKQILKGR PGPT0012890_2684 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 AK015_01722 291 yhbY COG1534 RNA-binding protein YhbY ATGCTAACTGGAAAACAGAAACGATTCTTACGAGCAAGAGCAAATCAAATAAAACCTATTTTTCAGGTTGGTAAGACAGGCGTAAATGAAAATATGGTTACACAAATTACAGATGCTTTAGAAAAAAGGGAACTATTGAAAGTAAGTATTTTACAAAACTGTTTAGAGGACAAAACAGTTGTTTCTGAACAATTAGCGGAAGGAACAGGTGCTGAGGTTGTGCAAATTATTGGAAATAATATTGTCCTTTATAAAGAGTCAACAGAAAACAAGCACATTGTATTACCATAA MLTGKQKRFLRARANQIKPIFQVGKTGVNENMVTQITDALEKRELLKVSILQNCLEDKTVVSEQLAEGTGAEVVQIIGNNIVLYKESTENKHIVLP NA NA NA NA NA AK015_01723 567 nadD COG1057 Nicotinate-nucleotide adenylyltransferase ATGAAACGCATAGGATTATTAGGAGGTACATTTGATCCACCTCATATTGGTCATTTAATCATTGCAGAAGAGGTGCGCCTCGCTTTAGATTTAGAGGAGGTTTGGTTTATCCCTTCTTATACGCCACCTCATAAAAGCAATGTAAAAACGAAGCCAGAACATCGACTGAAAATGATTAGACTTGCTATACAAGGCAATCCTTATTTTAAAGTGGATACAATTGAGTTAGACCGGACTGGGAAATCTTATACCATTGATACGATAAAAGAGCTAAGAAAACGCCACTCTGATAAGAAATTTTATTTTATTATTGGTGGAGATATGGTTGAATATTTACCTAATTGGTATCAAATAGAGGAATTAAAAAATCTGGTAACTTTTGTTGGAGTTAAACGCTCTAATTTTTCAACCGAAAGTGCGTTTCCTGTTTTTATCGTAGATATTCCTTTAATAGAAATTTCTTCAACTGTTCTACGTAAAAGGTGTTTAGAAGGAACTTCCGTACAATATTGGTTGCCACATTCTGTTCATCAGTATATAAAGGAGCATCATTTATATGGACATTGA MKRIGLLGGTFDPPHIGHLIIAEEVRLALDLEEVWFIPSYTPPHKSNVKTKPEHRLKMIRLAIQGNPYFKVDTIELDRTGKSYTIDTIKELRKRHSDKKFYFIIGGDMVEYLPNWYQIEELKNLVTFVGVKRSNFSTESAFPVFIVDIPLIEISSTVLRKRCLEGTSVQYWLPHSVHQYIKEHHLYGH PGPT0013435_4357 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969 NA NA AK015_01724 576 hypothetical protein ATGGACATTGAATTAGCGAAAGAGAAAGTAAAACCCCACTTAACAAAAGAACGATATGAACATTCCTTACGAGTTGCTGAAACAGCTAAAATGTTAGCGGATCGATCTGGTGAAGATGTACGTAAGTTGGAGTTAGCAGGTGTATTGCATGATTATGCAAAGTACCGCCCTCAAGAAGAATTAGCACGCTGGATTAAGTCATCTACATTACCGAAAGATTTGCTTGCATTTCATCATGAGCTTTGGCATGGACCAGTTGGTGCACTTTTAATTGAAAAAGAGCTTGGCATAAAGGATAAAGTAATACAAGGAGCCATAAGGTATCATACTACTGGAGCGGCAAATATGAACAAGTTTGAAATGATTATTTTTTTAGCGGATTACATAGAACCAGGAAGAAGCTTTCCAGGAGTGAATGAAGTGAGGAAAGTAGCAGAAAATAATCTACAACAAGCATGCTGGATGGCCTTATCCAATACAATTCATTTTCTAGTTGGAAAAGGAGCTACAGTATATCCAGATACATTTTATGCGTATAATTACTTAACGAGATTGGGTTATGGAGGTATTGTTTAA MDIELAKEKVKPHLTKERYEHSLRVAETAKMLADRSGEDVRKLELAGVLHDYAKYRPQEELARWIKSSTLPKDLLAFHHELWHGPVGALLIEKELGIKDKVIQGAIRYHTTGAANMNKFEMIIFLADYIEPGRSFPGVNEVRKVAENNLQQACWMALSNTIHFLVGKGATVYPDTFYAYNYLTRLGYGGIV 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 AK015_01725 357 rsfS COG0799 Ribosomal silencing factor RsfS ATGCAAAATGAACGAGTTGTACAATTAGCAGCGCACGCATGTGACGATAAGCGAGCAGAAAATATTATAGCATTGGATATGAACGGTGTTTCTTTAATAGCAGATTATTTTTTAATCTGTCATGGGAATAACGAACGGCAAGTGCAAGCAATTGCGAGGGGAATTAAAGAAAAAATGGAAGAACATAATATCCCTGTTTACCGGCTGGAAGGATTTGAACAAGCTAGGTGGATTCTTGTAGATGTAGGTGACGTAGTTTGTCATGTTTTTCATAAAGATGAAAGAAGCTACTACAATTTGGAGCGCCTGTGGGGGGATGCTGTAACATATTCCATTGAAATGGATCAGGATGAATAG MQNERVVQLAAHACDDKRAENIIALDMNGVSLIADYFLICHGNNERQVQAIARGIKEKMEEHNIPVYRLEGFEQARWILVDVGDVVCHVFHKDERSYYNLERLWGDAVTYSIEMDQDE NA NA NA NA NA AK015_01726 747 Glycine/sarcosine N-methyltransferase ATGGTGTATGAAAGAATGGCTGACATCTATGACCTATTTATGGTAAACGCTCCATATGATAAATGGTTGCAATTGACAGAGCAACTCTTAGAGGGAAGAGAAATTCAATGTATAGCAGATGTAGGTTGCGGTACAGGGGAGATTACTCGGCGACTTGCGCAAGTTTATCCGCATGTAGTTGGGGTGGACTACGCAGTAGATATGTTGTCAAAGGCAGAAAGAAAGTGTAGAGATACGGGCACATCTATTCAATGGGTTTGTCAAGATGTAAGGTCACTAAACGGCATAACTGGTCTCGATGCCGTTGTTAGTTTTTGTGATGTAATTAACTATATAACAACTGAACAGGAGTTAGCACACACGTTTCAGAATATTTATGATGCGCTTAGTGAAAAAGGAGTTTTTTTATTTGATGTCCACGCATTATCGTTTGTCATGGAAAACTATATGAACGAAACGTTTGCTGATGTTACTGAAGAAGCTAGTTATATCTGGTTTTGTTTAGCGGGGGAACACATTGGTGAGATGTATCATGAGCTAACTTTTTTTTCAAAAAACGAAAAGGGTACTTACTCCCGATTTGATGAAGTTCATCATCAACGTACTTTTTCTGTAGATTTTTATAAAAAATTATTACAGCAAAAAGGCTTCCAAAATATAAAAGTGTATGGGGATTTTTCTATAAAAGCTAATAGTGTTGATGAAAACACAGCTCGAATTTTCTTTTTTGCTGAGAAGAGTAAATGA MVYERMADIYDLFMVNAPYDKWLQLTEQLLEGREIQCIADVGCGTGEITRRLAQVYPHVVGVDYAVDMLSKAERKCRDTGTSIQWVCQDVRSLNGITGLDAVVSFCDVINYITTEQELAHTFQNIYDALSEKGVFLFDVHALSFVMENYMNETFADVTEEASYIWFCLAGEHIGEMYHELTFFSKNEKGTYSRFDEVHHQRTFSVDFYKKLLQQKGFQNIKVYGDFSIKANSVDENTARIFFFAEKSK NA NA NA NA NA AK015_01727 609 hypothetical protein TTGTACACAAATAAAGTAAAACGTATTCTTTTTATCATTGCTATTCCTATAGCAATCATTGTGGTTCTCCTAATAACGAGTGGCGAAAAAGATGAGGATGAAGCGGAAAGGAAGGTTGATGTGAATGATCAACCAATAGATCCTAGTCTCGCTTCATCTACGGAGCAAGAGAAAGGTGTTACTTCTTCCATATATGTTGATATTAAGGGAGAAGTAAAGAACCCGGGAGTTTATGAGATGGATGCGGAAGAACGTGTCATTGATGCTATTGAAACTGCAGGCGGATTTACAAACAATGCAAATGAGTCTCTTGTGAATTTAGCCCAAAAAGTTCATGATGAAATGGTTATTGATGTATTGCCCGTTGGCGACAATGGAACACCAGCTTTAACAAATAGGCAACATACGGATACTTCTAAAATTAGAATTAATCAAGCTACTGTTGAGGAGATTGAAGCCTTAAATGGAATTGGGCCAGCAAAAGCAGAAGCAATTGTGCAATACCGAGACGAAAATGGTCATTTTCAACAAATTGAAGATTTATTAGAAGTTTCTGGGATTGGCGAGAAAACATTAGAGTCACTTGAAGATGATATTCAAGTACCATAG MYTNKVKRILFIIAIPIAIIVVLLITSGEKDEDEAERKVDVNDQPIDPSLASSTEQEKGVTSSIYVDIKGEVKNPGVYEMDAEERVIDAIETAGGFTNNANESLVNLAQKVHDEMVIDVLPVGDNGTPALTNRQHTDTSKIRINQATVEEIEALNGIGPAKAEAIVQYRDENGHFQQIEDLLEVSGIGEKTLESLEDDIQVP PGPT0029410_1555 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 AK015_01728 579 tadA_2 tRNA-specific adenosine deaminase ATGGAACGCATTTCATGGGACCAATATTTTATGGCACAAAGCCATTTATTGGCTCTTCGTAGTACGTGTACAAGACTTATGGTCGGTGCCACAATTGTAAGAGATAAACGAATAATAGCTGGCGGTTATAATGGCAGTGTGTCAGGGAGTGTCCATTGTATTGATGACGGCTGTTACGTAATTGATGGACATTGTGTGAGAACGATTCATGCTGAAGCAAATGCATTACTACAATGCGCAAAGTTTGGCGTTCCTACAGATGGTGCTGATATTTATGTCACTCATTTTCCGTGCTTACAATGCTGTAAACAGTTAATACAAGCAGGTATACAAACAGTAATTTATGCAAAGGATTATCATAATCATCCATACGCTGTTTCTCTATTTTCGGAAGCGGGCATAAAAACAAAAAAAGTAGAACTTGATGATGTTAAGGTTGATACGAATTACATGGAAAAACAAGTATTTGTAAAACAACTCCTTCAAAAAATGGAAAAAGGAGTGCTAGAAGCTGATGAGTTAAGAAACTTAAAAGAAGATGCTGTGCGTCTGTTTCATTTAGATGTGCAAGGAGATTAA MERISWDQYFMAQSHLLALRSTCTRLMVGATIVRDKRIIAGGYNGSVSGSVHCIDDGCYVIDGHCVRTIHAEANALLQCAKFGVPTDGADIYVTHFPCLQCCKQLIQAGIQTVIYAKDYHNHPYAVSLFSEAGIKTKKVELDDVKVDTNYMEKQVFVKQLLQKMEKGVLEADELRNLKEDAVRLFHLDVQGD PGPT0021380_419 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 AK015_01729 2271 comEC_1 COG0658 ComE operon protein 3 GTGAGTGGGTATTGGCATTTTATTGCATCTGCTGCTTTGGTAAGTATGCTGGCCAAGTTAACGAATTTGCACAGTCTTGCTTTTATTCTATTTATGGTATGGATAAGTTATTTATTCTACAAGAAGCGGATAGCCATCCTCTCTGTGATGCTATCCATTCTATCTCTTCTCTTTTTCCACTTTTATCTTCCAGAACTCCCTAATCATAACAATATCTCTCCTCCTAATGGTCCAACAACAATATCTGGCACGATTATAAGTTCTGTTGAAAAGTCTCCTTCTCGCCTTACTTTTACGATCCTTAATAAACAAACAGATGAAAAAATCGCAGTCGCCTACTTTTCAGACGAGGAGATCGATTATAACGAAGCTATACGGTATGGCTCTGCATGTTCATTTACTGCAGAATGGAACGTACCGGACGCTGCTACAAATCCGGGACAATTTGACTATCGTATGTATTTATTATCACAAGAAATAAAGTTTGAAGCAATATTAACCGACATCGATTCATTAAAATGTATAAGTAAAACAGGTTTAATGCAGGAACTTAAAGGAGTTAGACATAAAGTACTGGGATATATAGATAGGCGTTTAACCAATGAAACAGCTGGTTGGATGCGAGCACTTGTGCTTGGAGATGATTCCTATGTAAGTGAAGACACCGTAGAATTGTTTGAACGTTGGGGGATGAGTCACTTACTTGCCATTTCTGGTTTACATGTGGGGATTGTAGTTGGGCTAGTATATTTTTTGTTAATTAAATTAAACCTACTCACGAAGGAGTGGGCGCAGTGGGTTATCCTTGTATTTTTACCTTTGTATGCTATTCTTGCTGGTGGAGCGCCTTCCGTTTTACGGGCGAGCTTAATGGCTTGCATGGGTATTATCCTACATAAAACAGGCTGGAAATGGAATGTTACAGATGTTTTAAGTTTGATATTTTTGTTTTTGCTTGTTACAGATAAATATATGATGTATCAAGTTGGCTTTCAGCTCTCCTTTGCAGTAACGTTTGCTTTGCTATTGTCCAAACAAATATTGTTACAGTCGAAGAGCCGCTTTGCTCAAGTGTTATATATTAGCTTTATTGCTCAAATTGCCATTTTACCAATTCAATTTTATTACTTCTCTTTATTTCAGCCTGCTTCCGTATTTGTTAATTTGCTTATGGTTCCGTATTACTCCGCTTTTGTAATCCCTATCATGTTTTTTATGCTTATTTTGCTACCTTTCCCTTGGATTTCTTTGTTGGATACTTGGTTTTTAAACATTCACGAATTAGCGATGCAAATAGTTTATTGGTTTGATGAATATGTATATTATCCTATGGTGAGCGGTCCATTACCTTGGATAATAGTGCTTACCTATTACGTCTTGCTATTTCGTTTTATGCAATTATGGGAGAAAGGAAAATTAAAACAAGCTTTTAGTTTTGCGGTAATGCTTGTTTTGGTATTAACGCTAAATGGTTTACGTCCTTATTTATCACCATATGGGACAGTTACGATGCTAGATATTGGGCAAGGTGATGCATTTGTTGTTGAATTGCCTTATCGTAAAGGAACGATATTTATTGATGCGGGATCGTCTTTTTCATTTCAAGAACAAGCACCTTCTGATCGGGTACATGATCAGATTATAAAGCCATATTTATATTCTCGAGGAATTCAGCAATTAGATGCTATCATCTTAACCCACGATGATACAGATCATATTGGAAGTGTGTCTTACCTACTGGAAGATTTTGCAGTAAATACGGTTGTAGTCAGTCCTTTTTTTAGTACAAAGGGGTTGTACCTGCTGCAACTCACAGAGGAAGTGGACTTAGCCACTATAAAAGGAAATTCAAAAGTGACTATCGCTGATCATTTGTTTAATGTTCTGGCTCCAATTCAAGATAACAATGATACAAATGGAAACTCCATTGTATTGCATACAACGTTGGGAGGAAGAGAATGGTTATTTACTGGTGATATTTCAAAAAAAGAAGAAAAGAAGTTAGTGAAACAATATCCAAATTTGTCTGTAGATGTTTTAAAAATTGCTCATCATGGCAGTGACTCTTCCACGGATAAACAATTTCTTTCACAACTTTCACCAGAGATTGCTTTGATTTCTGTAGGAAGGGACAATCTTTACGGACATCCTCATCAAGACGTGATGCAAAGACTTAAAGAACAAGGAGTAACAATATTGCGGACAGATTTACATGGCGCTGTTCAATATCGATTCAAAGGGAAGGAAAGTTATTTTATGATTAGAAAATAA MSGYWHFIASAALVSMLAKLTNLHSLAFILFMVWISYLFYKKRIAILSVMLSILSLLFFHFYLPELPNHNNISPPNGPTTISGTIISSVEKSPSRLTFTILNKQTDEKIAVAYFSDEEIDYNEAIRYGSACSFTAEWNVPDAATNPGQFDYRMYLLSQEIKFEAILTDIDSLKCISKTGLMQELKGVRHKVLGYIDRRLTNETAGWMRALVLGDDSYVSEDTVELFERWGMSHLLAISGLHVGIVVGLVYFLLIKLNLLTKEWAQWVILVFLPLYAILAGGAPSVLRASLMACMGIILHKTGWKWNVTDVLSLIFLFLLVTDKYMMYQVGFQLSFAVTFALLLSKQILLQSKSRFAQVLYISFIAQIAILPIQFYYFSLFQPASVFVNLLMVPYYSAFVIPIMFFMLILLPFPWISLLDTWFLNIHELAMQIVYWFDEYVYYPMVSGPLPWIIVLTYYVLLFRFMQLWEKGKLKQAFSFAVMLVLVLTLNGLRPYLSPYGTVTMLDIGQGDAFVVELPYRKGTIFIDAGSSFSFQEQAPSDRVHDQIIKPYLYSRGIQQLDAIILTHDDTDHIGSVSYLLEDFAVNTVVVSPFFSTKGLYLLQLTEEVDLATIKGNSKVTIADHLFNVLAPIQDNNDTNGNSIVLHTTLGGREWLFTGDISKKEEKKLVKQYPNLSVDVLKIAHHGSDSSTDKQFLSQLSPEIALISVGRDNLYGHPHQDVMQRLKEQGVTILRTDLHGAVQYRFKGKESYFMIRK PGPT0029415_1998 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 AK015_01730 135 hypothetical protein ATGAACGAATTTGAAAAAGACATTCAGTCTAAAACAAATGACGTCGTTGATAACATTAAAGGCTTTACATTTTCATTTGTATTCTTTTTGTTAATTTTTGCAATCGGGGTAACCATTAGTGTGCTTGGATCTTAA MNEFEKDIQSKTNDVVDNIKGFTFSFVFFLLIFAIGVTISVLGS NA NA NA NA NA AK015_01731 1026 yqeN COG1466 putative protein YqeN ATGGATTACATAGAAGTAGTCAAACAATTAAATAAGAAACAGCTAGCACCTCTATATTTATTTTATGGAACTGAATCCTTTTTTATACAACAATTAAAAAATAAATTAAAACGAGTTACAATTAACGATGATATAGATAATTTAACCGTGTATGATTTAGATGAAACTCCTATTGAAGATGTGATTTCTGATGTGGAAACCTTTCCCTTTTTTGGTGAACGCAAATTAATTATTGCGAACAACGCTTCATTTTTAACAGCAAAACAAGGAAAAAATGCAGTGGAACATCAGTTGGAAATTCTGGAAACGTACTTATCAAATCCTGTAGATTATTCTATTTTACTAATTATTGCTCCATATGAGAAGTTAGATGAAAGGAAAAAAATAACAAAATTATTAAAAAAGCAGGCAACAGTTGCTCATTGTAGAGAAGTAAAAGAGTATGAATTACGAAAATGGATGAAACAACTGGCAGATCAACTGAAAATTGAGATAACAGACGAAGTATATGATATGCTCGAATCAGAAATTTCAACCAATCTTCATCTTTTGGAAAGCGAATTACATAAATTTTCTTTGTATGTCGGAGAAGGCGGGCTGGTGACCAAAGAAATTGCTAATCAATTATTGTCTCATACTGCTACAAGCTCATCGCTTCGATTGGCGGATGCAGTTATGAAACGGGATTTAGCTCAGGCAATTGAAATCTATAAAGATTTAGAAAAGCAAAAAGAAGAACCAATCGCTTTGGTAGGTTTGCTCGCATTTCAGTTTCGCATCTTGTTAAGAGTGAAGCTTTTAAAACAGAAAGGCTATACGCAGGGCCAGATGGTAAAACAACTTGGTGCCCATCCATATGTAATTAAATTAGCTTTAGAACGTGAAGCAAAATTCACAGTAAGAGCGCTACACTATTTTATGAACCAGCTTGCAGAAGCGGATAGTGTAATGAAGCAGGGTGGTATGGAAAAAGATGTAGCATTTGAAATGCTTTTATATCAATTAGTGAAACGAAATGGTGCTTAA MDYIEVVKQLNKKQLAPLYLFYGTESFFIQQLKNKLKRVTINDDIDNLTVYDLDETPIEDVISDVETFPFFGERKLIIANNASFLTAKQGKNAVEHQLEILETYLSNPVDYSILLIIAPYEKLDERKKITKLLKKQATVAHCREVKEYELRKWMKQLADQLKIEITDEVYDMLESEISTNLHLLESELHKFSLYVGEGGLVTKEIANQLLSHTATSSSLRLADAVMKRDLAQAIEIYKDLEKQKEEPIALVGLLAFQFRILLRVKLLKQKGYTQGQMVKQLGAHPYVIKLALEREAKFTVRALHYFMNQLAEADSVMKQGGMEKDVAFEMLLYQLVKRNGA NA NA NA NA NA AK015_01732 267 rpsT COG0268 30S ribosomal protein S20 ATGGCAAACATTAAATCTGCAATTAAACGTGTTGATACAAATAGAAAAAAGCGTTCAAATAATAATACACAAAAATCAGCTATGCGTTCTCATATCAAACATGTTGAAAAGTTAATTGAAGCAAAAGATAAAGAAAATGCAAGCATCGCTTACAACGTAGCTAAAAAAGCAATTGATAAAGCTGTACAAAAAGGCGTCGTTCATCAAAATTTCGGAAACCGTCAAAAATCACGGCTAGCTAACAAAATTAACCAGCTTGGCGCATAA MANIKSAIKRVDTNRKKRSNNNTQKSAMRSHIKHVEKLIEAKDKENASIAYNVAKKAIDKAVQKGVVHQNFGNRQKSRLANKINQLGA NA NA NA NA NA AK015_01733 1116 gpr Germination protease GTGATTGTCTTGGGGCAACGGAATAAGCACATAGTACCTTACCAAGTAAGGACAGATTTAGCAGTAGAAGCAAAAGATATGTATGTAGAGAAGCGAGAGCAAACGGAAAAGTCATTAAAAGGTGTGAATATTAAAGAAAAAGAGAAAGATGGTGTAAAAGTTTCTTACGTAAATATTGATCAAACGGGTGCTAAAATGCTGCAAAAAAAACCTGGAACGTATATTACGATTTATGCAGATGGGGTAAAACGTCAAGATACAGATAGGCAACACTTGGCAGCTCAAGTTTTAGCAGAGGAACTAGAGGAACTTCTAAGTGCAAATGGAATTTCCCCAGATGCTAAAGGACTTATTGTTGGTCTAGGTAATTGGAATGTAACTCCTGATGCACTTGGTCCAATGACAGTAGAGAAGGTTTTGGTTACAAGTCATTTGTTTCGTCTAGAGCACGAGACAGTTTCAAGTGGGTATCGATCAACGGCAGCAGTTACACCAGGGGTTATGGGAGTAACAGGAATTGAAACAAGCAATATTATTTTCGGTATTGTGGAAAAGTTTGAACCAGATTTTGTTATTTGTGTGGATGCACTCGCTTCACGATCGATAGAAAGGGTGAATGAGACCATTCAATTGTCTAATACAGGCATACACCCAGGATCCGGTGTAGGAAATAAGCGTAAAGAAATTAGCTATGAAACATTAGGAATACCTGTTATGGCAATCGGCGTTCCTACTGTCGTTGATGCAGTAACGATTGCCAGTGATACGATCGATTTTATCTTAAAACATTTTGGTAGGGAATGGCGAGAAAAAGATGCACCTTCAAAAGCTTTAACTCCGGCTGGTCTAGCATTTGGCGACCGTAGTTTAAGTGATGATGATATGCCGGAAAAAGAAAAGCGTGAGACATTTCTTGGAGTAGTAGGTGGTCTTGAAAATGAAGAAAAAAGACAGTTTATCTCAGAGGTGCTTACTCCTTTAGGGCATAATTTAATGGTTACACCCAAAGAAGTAGATGGGTTTATGAAGGATATGGCAACTGTTCTTGCTAATGGAATAAACGCAGCACTTCATGAGAAGATCGACGTAGATAATGTTAGTGCTTATAGCAGATAG MIVLGQRNKHIVPYQVRTDLAVEAKDMYVEKREQTEKSLKGVNIKEKEKDGVKVSYVNIDQTGAKMLQKKPGTYITIYADGVKRQDTDRQHLAAQVLAEELEELLSANGISPDAKGLIVGLGNWNVTPDALGPMTVEKVLVTSHLFRLEHETVSSGYRSTAAVTPGVMGVTGIETSNIIFGIVEKFEPDFVICVDALASRSIERVNETIQLSNTGIHPGSGVGNKRKEISYETLGIPVMAIGVPTVVDAVTIASDTIDFILKHFGREWREKDAPSKALTPAGLAFGDRSLSDDDMPEKEKRETFLGVVGGLENEEKRQFISEVLTPLGHNLMVTPKEVDGFMKDMATVLANGINAALHEKIDVDNVSAYSR NA NA NA NA NA AK015_01734 1164 hypothetical protein ATGAGAGCAAAGGCTATACGTGTTTTTTTGCCTAAGAGTAGTGTGTATATTATTGGCTTTATATTTCTATTTTTATTTATTGCAGCGATGACAGCGATAAAACCCGCTTACAGGTTATCATCAGAAATGATAACAGAATGGACAAGTGATTTAGATAGCTCTTTCTTTTATTATTTACTGAGCAAAGAAAATCGTGCATTTGATGAAGGTTTTCCTGCTGGGAAAGGGGAGCCTGATGTAATCAATACCTTATTTCAAATGGTGACTAGTTTAAAGCCGAATGATCCGAGAAGTCTATTAAGAAATGAAGTACCGGGTTTTTCTCATTTTGATAATCGAATGGTTGTAGCTGGTCAAGGGACTGACTTTACAAATTTCCCTATAGAATCATCGCCTCCTTTGAAAGAAGTTTTAAAAGAAAGGCAAGCCATAATAGAGGGTAGTGAAGAAGAGGAAAAGGAAGAAGCGAAAAAAAATCAAGAGCGTAGTGAAGCTACACCGTCAACTGGGGATAGACAAGTGGTTTACGTATACAATTCACATAACAGGGAATCGTTTTTACCGCATTTACCTGGTGTGGAAGATCCAAATGAAGCACACCATAAAGAAGTAAATATAACAAAAGTGAGCAATTACCTAGCAAAATCACTAGAAGAAAACGGCATTGGGACGATAGTCGAAAACAAGGACATTATGAATGAATTAAACGAAAAAGGGTGGGGTTACGGAAAATCGTATCAAGCCTCTAGACAAGTTGTAGAGGAAGCAATAGCAAATAATAAGGACATTCAATATGCATTTGATTTACATCGGGATTCCATTGGTAGAGATAAAACGACTGCAAAAATAAATGGAAAACCTTATGCCCGTCTTATGATAGTAATTGGCGCAGAACATGCTGATTATGAAAAAAATCAGAAGCTAGCAACAAAGTTACACTATTTATTAGAAGAACGTTACCCAGGGTTAAGCAGAGGAGTGTATACCAAGAAGGGTGCAGGTACAAATGGGGTTTTCAATCAGGATTTATCGAATAATGCACTATTATTTGAATTTGGTGGCGTTGAGAATAACTTGGGCGAGCTTTATCGTTCAGCTGATGCACTCGCCGATGTATTTAGTGAAATGTTTTGGGACGCAGAGAAGGTAGATACTTCATCCTAG MRAKAIRVFLPKSSVYIIGFIFLFLFIAAMTAIKPAYRLSSEMITEWTSDLDSSFFYYLLSKENRAFDEGFPAGKGEPDVINTLFQMVTSLKPNDPRSLLRNEVPGFSHFDNRMVVAGQGTDFTNFPIESSPPLKEVLKERQAIIEGSEEEEKEEAKKNQERSEATPSTGDRQVVYVYNSHNRESFLPHLPGVEDPNEAHHKEVNITKVSNYLAKSLEENGIGTIVENKDIMNELNEKGWGYGKSYQASRQVVEEAIANNKDIQYAFDLHRDSIGRDKTTAKINGKPYARLMIVIGAEHADYEKNQKLATKLHYLLEERYPGLSRGVYTKKGAGTNGVFNQDLSNNALLFEFGGVENNLGELYRSADALADVFSEMFWDAEKVDTSS PGPT0024690_277 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385 NA NA AK015_01735 312 hypothetical protein ATGGCTCGTGCTATTATTGTACTACTTTTATTAGCAGTTTGCTTTTTAGCAGGTGTTGTTTACGGGAATAATGGGGTTGATCAGGAAAAAGCAGATTCTATTTTTCAGGCGCAGGATGTAATAGGTTCAGATGAACTAGATAATGAAAAAGATATAAAGTCAGTTGCGGAAAGAAATCCTGAGCAACAAGTCCAACCTGATGTGCCAGCGCCATCTACCGAAAAAACGGCTTCTGTTTTAGAAGCTAGTATTACTGGCTTTTTTGAAGCAGTAGTAACAATATTGTATCAAATAGCAGAGTTGTTTTTTTAG MARAIIVLLLLAVCFLAGVVYGNNGVDQEKADSIFQAQDVIGSDELDNEKDIKSVAERNPEQQVQPDVPAPSTEKTASVLEASITGFFEAVVTILYQIAELFF NA NA NA NA NA AK015_01736 1809 lepA Elongation factor 4 ATGGCAGAAATTCAAAGAAATGTGCGTAATTTTTCAATTATCGCTCATATTGACCATGGAAAGTCAACGTTAGCTGACCGTATTTTAGAGCGTACAAAAGCTATTACGCAACGAGAAATGAAAGATCAGCTTTTAGATGCAATGGATTTAGAGAGAGAACGTGGTATTACCATTAAATTAAATGCTGTACAACTGAATTATCAAAGTAATGCTGGAGAAGAATACCTTTTTCATTTAATTGACACACCTGGTCATGTTGATTTTACATATGAAGTATCCAGAAGTCTTGCTGCTTGTGAAGGTGCTATTCTAGTTGTGGATGCAGCGCAAGGAATTGAAGCACAAACACTAGCTAACGTATATTTGGCGTTGGATAACGATTTGGAAATCATACCCGTAATTAATAAAATTGATTTACCAAGCGCAGATCCAGAAAGGGTGAAACAAGAGCTTGAAGATGTTATAGGTATTGATAAAGATGATGTTATTTTAGCTTCTGCGAAAGCGAATATAGGAATTGATGAAATTTTAGAACGTGTTATTGAGGCAATCCCTGCACCTGAAGGCGATCCAGAAGAACCACTTAAAGCATTGATTTTTGATTCTATGTATGACCCGTATCGGGGAGTTATAGCGTATGTTTGTATTAAAGAAGGCTCTTTGAAGGTTGGCGATAAAATCAAGATGATGGCCACTGGAAAGGAATTCGAAGTGAATGAATTAGGTGTTTTTAGACCAAAACCAGTAAATAAAGACGAATTGATTGTTGGAGATGTAGGATACTTAACTGCTTCCATAAAAAATGTAGGGGATTCACGAGTTGGTGATACGGTTACATTAGTAGATCGCCCAGCTAAAGAACCATTGCCTGGATATAAACGCTTAAATCCAATGGTCTTTTGTGGATTGTACCCTGTAGATTCCAAGAACTATAATGACTTACGAGAAGCGTTAGAACGTTTAGAATTAAACGACTCGTCCCTGCAATATGAAGCTGAAACATCGCAAGCACTAGGTTTTGGTTTTCGTTGCGGATTTTTAGGGCTATTGCATATGGAAATCATTCAAGAGCGCATTGAAAGAGAATTTAACATTAGTCTAATTACTACGGCTCCAAGTGTTATTTATGAAGTGGAGCAAACGGATGGGACAACAATTAACGTTGATAATCCAGCGTTTATGCCGGACCCACAACAAATTAAAGAAGTAAGAGAGCCATATGTGAAAGCAACGATAATGGTTCCAAACGAATATGTCGGTTCTGTTATGGAAATTGCTCAAAAAAAGCGCGGTCAATTTATGGATATGGAATATTTAGATGATATTCGTGTTAATGTTATTTACCATATTCCGTTATCAGAGATTGTGTATGATTTCTTTGACCAATTAAAATCGCAAACGAAAGGCTATGCTTCATTTGATTATGACTTAATTGGTTATCAGGCATCCAAGCTAGTTAAAATGGATATTTTATTAAATGGGGATACGATTGATGCACTATCGTTTATTGTTCACAGGGACTTTGCTTATGAACGCGGTAAGCATATTGTAGACAAATTAAAAGATCTTATCCCTAGACAGCAATTTGAAGTCCCGGTACAAGCGGCAATTGGTAACAAAATCATTGCTAGATCTACCATTAAAGCAATGCGGAAAAATGTCTTATCCAAGTGTTATGGCGGGGATATTTCCAGAAAGAGGAAACTATTGGAGAAACAAAAAGAAGGAAAAAGACGGATGAAGATGGTTGGTTCTGTTGAAGTACCTCAAGAAGCATTTATGGCTGTTTTGGAAATGGATGATAATTAA MAEIQRNVRNFSIIAHIDHGKSTLADRILERTKAITQREMKDQLLDAMDLERERGITIKLNAVQLNYQSNAGEEYLFHLIDTPGHVDFTYEVSRSLAACEGAILVVDAAQGIEAQTLANVYLALDNDLEIIPVINKIDLPSADPERVKQELEDVIGIDKDDVILASAKANIGIDEILERVIEAIPAPEGDPEEPLKALIFDSMYDPYRGVIAYVCIKEGSLKVGDKIKMMATGKEFEVNELGVFRPKPVNKDELIVGDVGYLTASIKNVGDSRVGDTVTLVDRPAKEPLPGYKRLNPMVFCGLYPVDSKNYNDLREALERLELNDSSLQYEAETSQALGFGFRCGFLGLLHMEIIQERIEREFNISLITTAPSVIYEVEQTDGTTINVDNPAFMPDPQQIKEVREPYVKATIMVPNEYVGSVMEIAQKKRGQFMDMEYLDDIRVNVIYHIPLSEIVYDFFDQLKSQTKGYASFDYDLIGYQASKLVKMDILLNGDTIDALSFIVHRDFAYERGKHIVDKLKDLIPRQQFEVPVQAAIGNKIIARSTIKAMRKNVLSKCYGGDISRKRKLLEKQKEGKRRMKMVGSVEVPQEAFMAVLEMDDN 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 AK015_01737 1149 hemW COG0635 Heme chaperone HemW ATGATACCAATACATTCTGTCTATATCCATATCCCATTTTGCCAACAAATATGTCATTACTGTGATTTTACGAAGTTTTTTTATAATGAACAATTGGCAAATGATTATGTTGATGCGTTAAAAAAAGAAATGTCTACCTACGTTGAAAAAGAAAAGAAAGTAAAGACGATTTTTATCGGAGGTGGAACGCCTACTGCTTTAACCGTTCCACAGTTAGAGGCTGTTCTCCGTCATATTGCAGAAACATTCGATCTTCATGAATGTGAAGAATTTACCATTGAAGCAAACCCTGGAGATTTCAGCAAGGAGAAGGTTGCTTTGCTAAGTACCTATGGGGTGAATCGAGTTTCACTTGGTGTCCAAGTGTTTGATAATGAGATGTTAAAGACACTTGGAAGAATTCACACTGTAAAAGATGTGTACGATACCGTCTCATTATTACAAGATTATGGAATTCATAACATCAGTACTGACTTGATATATGCACTTCCGAATCAAACAGTTGCCCATTTTAAAGACTCATTAACAAAGGCCATGAACTTAGATTTGCCACATCTTTCAACATATGCTTTGCAAATTGAACCTAAAACGGTTTTTTATCAGCGTTATAAAAAAGGCAATCTCCCTCGACCACCTCAAGAAGACGAGGTAAAAATGTATGATATTTTAAAAACAACTGCGGCGAAAAACGGCTTATACCAGTATGAAATTAGTAATTTTGCTAAACAAGGTTTTGAAAGCAAACATAATTTGACATATTGGAATAATAACTTTTATTATGGGTTTGGGGCAGGAGCATACGGTTATCTACCTGGCAAGCGATATGGTAATATTCGACCTTTACCGGCTTACATTAAACAAGTTAACAATGATGGGAAACCTGTTTTACATGTAGATAAAATTGGGAAAAAAGAGCAAATAGAAGAAGAAATGTTTCTCGGTCTACGTAGAATGGAAGGGGTAAGCAAACGTCAGTTTACAGATAAATTTGGTGTATCTATGGATAAAATATATCGTCCATCTATTGAAGAACTTGTACAACGTGGATGGTTACTAGAGCGAGAAGACCAAATAGCATTATCAGAAGAAGGTAAAATAGTAGCTAATGAAGTATTTGAAAGATTTTTGTTAGACGATCTGGTTATTTGA MIPIHSVYIHIPFCQQICHYCDFTKFFYNEQLANDYVDALKKEMSTYVEKEKKVKTIFIGGGTPTALTVPQLEAVLRHIAETFDLHECEEFTIEANPGDFSKEKVALLSTYGVNRVSLGVQVFDNEMLKTLGRIHTVKDVYDTVSLLQDYGIHNISTDLIYALPNQTVAHFKDSLTKAMNLDLPHLSTYALQIEPKTVFYQRYKKGNLPRPPQEDEVKMYDILKTTAAKNGLYQYEISNFAKQGFESKHNLTYWNNNFYYGFGAGAYGYLPGKRYGNIRPLPAYIKQVNNDGKPVLHVDKIGKKEQIEEEMFLGLRRMEGVSKRQFTDKFGVSMDKIYRPSIEELVQRGWLLEREDQIALSEEGKIVANEVFERFLLDDLVI PGPT0003200_3215 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 AK015_01738 1032 hrcA COG1420 Heat-inducible transcription repressor HrcA ATGTTAACAGAAAGGCAGTTATTAATTTTACAAGTCATAATTGATGATTTCATCGAGTCGGCACATCCAGTTGGCTCACGTGCTATTGCCAAGAAAGAAGTGATTCCATATAGTGCTGCGACCATTCGTAATGAAATGGCAGATTTAGAAGATCTGGGATTTCTTGAGAAAACTCATTCTTCATCAGGACGCATTCCTTCTGAAAAAGGATATCGTTATTATGTGGACCATCTCATTTCACCAAATATCCTACATCAAGAAGGCAATGTAATTAAACACATGATTCAGGATGGTTTTTTTGAATTTGAACAAATTGTACAAATGTCTGCAGAAGTATTATCAAAGTTGACCAACTATACTTCCATCATACTGGGGCCTGAAATCTTTGAAACAAAACTGAAACAAATTCAAATTATTTCTTTGTCAGTCAATACCGCCGTAGCGATACTCGTTACAAATACAGGTCATGTAGAACATCGTGCATTTTCAATTCCAGAAGAAATAGATAGTTCAGATCTAGAGAAAATGGTAAATATTTTAAATGATCAGTTGCATGGTGTTCCAATTTTGCAGTTGGCTGAAAAATTTAATGCGGAAATTGCTGCGATGATGCAGAAGTATGTTTCCGATTTAAATAACTCCTATCAACATTTAAAGGGAGCATTCTTACAAGATCATCCTGTCAAATTATATATAGGCGGAAAATCTAATATGTTAATGCAGCCAGAGTTTAATGATGTTGATAAGATACGAGCTTTTTACTCCATGATTGAAAATGAAGATGAGATAGTGAATTTATTAAAGCAATCTAGCGAAGGCATTAAAGTATCTATCGGAAAAGAAAATGATGTTGCAGCGATAAAAGATTTAAGTTTAATTACGGCCGCTTATCATTTAGGAGAAGGGCAAATGGGGACAATCGCATTACTTGGGCCAACGAGAATGGAATATCGCAAAGTAATTTCATTATTAAGTATCCTTTCGAATGAAATGACAGACGTATTGTACACGAGGTATAAAGATGAAGATTAA MLTERQLLILQVIIDDFIESAHPVGSRAIAKKEVIPYSAATIRNEMADLEDLGFLEKTHSSSGRIPSEKGYRYYVDHLISPNILHQEGNVIKHMIQDGFFEFEQIVQMSAEVLSKLTNYTSIILGPEIFETKLKQIQIISLSVNTAVAILVTNTGHVEHRAFSIPEEIDSSDLEKMVNILNDQLHGVPILQLAEKFNAEIAAMMQKYVSDLNNSYQHLKGAFLQDHPVKLYIGGKSNMLMQPEFNDVDKIRAFYSMIENEDEIVNLLKQSSEGIKVSIGKENDVAAIKDLSLITAAYHLGEGQMGTIALLGPTRMEYRKVISLLSILSNEMTDVLYTRYKDED NA NA NA NA NA AK015_01739 597 grpE COG0576 Protein GrpE GTGGAGGAACAGGAAAAAAATACAAATACCGCTACTGAAAATGATGATAAACAGGAAGAAGTAGTGGAAGAAGAAGCAGTGGAATCTGTAGAAGTATTAGATAAAGATGATACAGACGAAGCGAATGACAGTGACGCAGATGCAGAACTACAATCAAAATTAAAAGCACTTCAAGCAGAAAAAGAGGAACTTTATCAAAAGTTACTTCGTGTTCAAGCTGAATATGATAATTTCAAAAAGCGCACGGTCAAAGAGCGTGAAGCAGCTCGTAAATATCAATCACAGGATTTAATTCAAGAATTACTACCTGCTTTAGATAACTTCGAGCGTGCCTTACAAGTTGAAAAAACAGAAGACACTGCAAGTATAATTGATGGTATATCGATGGTTTATAAGCAAATAAAAGATGCACTAGCTTCACAAGGCGCTGAAGAAATTACAGCTGTTGGGGAAGAATTTGATCCAAATGTACATCATGCTGTTATGCAAATAGAAGCTGAAGATAAGCCATCAAATATCGTTGTAGAAGAATTGCAAAAAGGCTATAAATTAAAAGATCGTGTTATTCGACCAGCAATGGTAAAAGTAAATAAATAA MEEQEKNTNTATENDDKQEEVVEEEAVESVEVLDKDDTDEANDSDADAELQSKLKALQAEKEELYQKLLRVQAEYDNFKKRTVKEREAARKYQSQDLIQELLPALDNFERALQVEKTEDTASIIDGISMVYKQIKDALASQGAEEITAVGEEFDPNVHHAVMQIEAEDKPSNIVVEELQKGYKLKDRVIRPAMVKVNK PGPT0014650_3466 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687 NA NA AK015_01740 1842 dnaK COG0443 Chaperone protein DnaK ATGAGTAAAATAATTGGTATTGACTTAGGTACAACAAACTCTTGTGTCGCAGTAATGGAAGGTGGCGAATCTGTTGTTATCCCAAACCCTGAAGGGAACCGGACAACGCCTTCTGTTGTAGCGTTTAAAAATGGGGAGAGACAAGTTGGGGAAGTTGCAAAGCGTCAGGCAATTACCAACCCAAATACTATCCAATCTATTAAACGTCATATGGGCACAGATTACAAGGTAAAAATTGAAGATAAAGAATATACACCACAAGAAGTTTCAGCTATTGTACTTCAACACCTTAAGTCTTATGCAGAAGATTATATTGGAGAAAAAGTAGAAAAGGCTGTTATTACAGTTCCAGCATACTTTAATGATGCAGAACGTCAAGCTACTAAAGATGCTGGTAAGATTGCAGGTTTGGAAGTTGAGCGGATTATTAACGAACCTACAGCAGCAGCTTTAGCATATGGAATTGATAAAGAAAATGAAGATCAAACAATTTTAGTATATGATCTAGGTGGAGGAACATTTGACGTTTCTATTTTAGATATTGGTGACGGTACATTTGAAGTTGTTTCTACAGCTGGAGATAATCGTCTAGGTGGTGACGATTTTGACCAAGTTATCATTGACCATATGGTACAAGAATTTAAGAAAGAAAATGGCATTGATTTATCCAAGGATAAAATGGCTACACAACGTTTGAAAGATGCCGCTGAAAAAGCGAAAAAAGAACTATCTGGAGTATCACAAACACAAATCTCTTTACCGTTTATTACAGCGGGTGAGGCTGGACCTCTACACTTAGAAATGACTTTAACAAGAGCGAAATTTGAAGAACTCTCTTCTGATCTTGTTGAGCGTACGATGGTTCCTACTCGCAAAGCTTTATCAGATGCAGATTACACAGCTAATGATATTGACAAAGTTATTTTAGTTGGTGGTTCTACAAGAATTCCAGCTGTTCAAGAAGCTATTAAACGTGTCATTGGTAAAGAACCATCTAAAGGGGTAAACCCAGATGAAGTTGTTGCGCTTGGTGCAGCTATTCAAGGTGGCGTTCTGCAAGGTGATGTAAAAGATGTTGTATTATTAGACGTAACGCCACTTTCTTTAGGTATTGAAACAATGGGTGGTGTAACAACTAAACTTATTGAACGAAATACAACCATTCCGACAAGTCACTCACAAGTTTTTTCAACAGCAGCTGATAACCAAACAGCCGTTGATATTCATGTATTGCAAGGTGAACGTGAGATGGCAGCTGATAACAAGACGTTGGGTCGTTTCCAATTAACTGACATTCCACCAGCACCACGTGGAGTTCCACAAATAGAAGTAACTTTTGATATTGATGCAAATGGTATTGTTAACGTCCGCGCTAAAGATTTAGGTACAAATAAAGAACAGTCTATTACCATTAAATCTTCTTCTGGTCTTTCTGATGAAGAAGTAGATAAAATGGTAAAAGAAGCGGAAGAAAATGCAGAAGAAGATAAGAAACGTCGTGAAGAAATTGAATTGCGTAATGAAGCTGATCAACTAATCTTTACAACGGATAAAACAATTAAAGATCTTGGTGATAAAGTCTCTGAGGAAGAAAAACAAAAAGCAGAAGCTGCTAAAGAAGAGTTGAAATCTGCACTTGAAGCTGATGATATGGATAAGATCAAAGAAAAGAAAGAAGCTTTACAAGAACAAGTGCAACAGCTTTCTGTTAAATTGTATGAGCAAATGGCACAAGAACAACAAGCTCAACAAGGTTCACAAGAGTCAAATAGTGGCGATGATGATGTTGTGGATGCAGAATACCAAGAAGTAGACGATGAAGAAGACAAAGATAAAAAATAA MSKIIGIDLGTTNSCVAVMEGGESVVIPNPEGNRTTPSVVAFKNGERQVGEVAKRQAITNPNTIQSIKRHMGTDYKVKIEDKEYTPQEVSAIVLQHLKSYAEDYIGEKVEKAVITVPAYFNDAERQATKDAGKIAGLEVERIINEPTAAALAYGIDKENEDQTILVYDLGGGTFDVSILDIGDGTFEVVSTAGDNRLGGDDFDQVIIDHMVQEFKKENGIDLSKDKMATQRLKDAAEKAKKELSGVSQTQISLPFITAGEAGPLHLEMTLTRAKFEELSSDLVERTMVPTRKALSDADYTANDIDKVILVGGSTRIPAVQEAIKRVIGKEPSKGVNPDEVVALGAAIQGGVLQGDVKDVVLLDVTPLSLGIETMGGVTTKLIERNTTIPTSHSQVFSTAADNQTAVDIHVLQGEREMAADNKTLGRFQLTDIPPAPRGVPQIEVTFDIDANGIVNVRAKDLGTNKEQSITIKSSSGLSDEEVDKMVKEAEENAEEDKKRREEIELRNEADQLIFTTDKTIKDLGDKVSEEEKQKAEAAKEELKSALEADDMDKIKEKKEALQEQVQQLSVKLYEQMAQEQQAQQGSQESNSGDDDVVDAEYQEVDDEEDKDKK PGPT0014555_5616 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043 NA NA AK015_01741 1128 dnaJ Chaperone protein DnaJ GTGAGTAAACGAGACTATTATGAAATCCTTGGAGTTGAAAAAGGAGCGTCTAAGGATGAGATAAAAAAAGCGTATCGTAAATTAGCAAGAAAATACCATCCAGATGTAAATAAAGAAGCAGACGCTGCGGATAAATTTAAAGAAGCAAAAGAAGCTTATGAAGTATTAAGTGATGACCAAAAAAGATCTCAATATGATCAATTTGGTCATGCCGGACCACAAAGCCAAGGTTTTGGTGGTTTTGGCGGTGCGCAAGATTTCGGTGGTGGTTTTGGTGATATATTTGATATGTTTTTCGGTGGTGGAGGTCGAAGAAGAGACCCAAATGCCCCTCAACAAGGCGCCGATTTGCAATATACGATGCAATTAGATTTTGAAGAAGCTATTTTTGGAAAAGAAGCAGATATCACCATTCCAAAAGAGGAAACATGCGATACTTGTACAGGTACAGGAGCTAAGCCTGGAACAAAGGCAAAAACTTGTTCACATTGTAATGGATCAGGTCAATTGAATATGGAACAGAATACGCCGTTCGGTAAGGTAGTTAATCGTAGAGTGTGTCATCATTGCAATGGATCAGGTAAAATTATTCCAGACAAGTGTACTACATGTGGCGGTGCTGGAAGAGTCAAGAAACGTCGTACCATTCATATTTCAATACCAGCTGGAATAGATGAGGGGCAACAAATTCGCGTGTCAGGAAAAGGAGAAGCGGGAGTTAATGGTGGCCCTCCAGGCGATTTATTTGTTGTTGTACAAATTAAACCACATGATTTCTTCAGCAGAGAAGGCGACGATATATATTGCGAGCTACCTTTAACTTTTGCACAAGCTGCTCTTGGTGATGAAGTAGAAGTGCCAACTGTGCATGGAAAAGTGAAGCTTAAGATACCTGCTGGAACCCAATCGGGCAAAATTTTTCGTTTAAAAGGCAAAGGTGCACCAAATGTGAGGGGTTACGGTCATGGAGATCAGCATATTAAAGTGAAAATAATAACACCTACGAAATTGACAGATCGTCAAAAGGAATTATTGCGTGAATTTAATCAAATCGGTGGTAATGAAGCGGCAGATGAACAAGATAGTTCTTTATTTGAACGTTTTAAAAAGGCATTTAAAAGTGAATAG MSKRDYYEILGVEKGASKDEIKKAYRKLARKYHPDVNKEADAADKFKEAKEAYEVLSDDQKRSQYDQFGHAGPQSQGFGGFGGAQDFGGGFGDIFDMFFGGGGRRRDPNAPQQGADLQYTMQLDFEEAIFGKEADITIPKEETCDTCTGTGAKPGTKAKTCSHCNGSGQLNMEQNTPFGKVVNRRVCHHCNGSGKIIPDKCTTCGGAGRVKKRRTIHISIPAGIDEGQQIRVSGKGEAGVNGGPPGDLFVVVQIKPHDFFSREGDDIYCELPLTFAQAALGDEVEVPTVHGKVKLKIPAGTQSGKIFRLKGKGAPNVRGYGHGDQHIKVKIITPTKLTDRQKELLREFNQIGGNEAADEQDSSLFERFKKAFKSE PGPT0014545_4469 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686 NA NA AK015_01742 948 prmA COG2264 Ribosomal protein L11 methyltransferase ATGAAGTGGTCAGAGCTTTGTATCCATACTACAAATGAAGCAATTGAACCAATATCGAACATTTTACATGAAAACGGAGCTAGTGGTCTGGTGATTGAAGATGCGATGGATTTAGTAAGGGAGCACACCTCCACATTTGGAGAAGTATATGAATTAGACCCAGAACAATATCCTGATGAAGGGGTTTATATAAAAGCTTATCTTCCTATGAATAGTTTTCTCGGTGAGACGGTAGAAGAAATTAAACAGGCCATAAATAATTTAATGTTATACGATATTGATTTAGGCAGAAATCAAATCACATTAAGTGAAGTTCATGAAGAAGAATGGGCAACTGCTTGGAAAAAGTATTATAAGCCTGTGAAAATATCAAAACGAATTACGATAAAACCAACGTGGGAAGCATATCAACCTGTAGATACAGATGAAATGATTATTGAATTGGATCCAGGTATGGCTTTTGGTACAGGAACCCATCCGACAACAGTACTAAGTATTCAAGCGTTGGAACAGTTCCTAAAGGAAAATGATACAGTAATAGATGTCGGTTCAGGGTCAGGTGTCTTAAGTATTACAGCTGCTTTATTAGGTGCTAATCATGTCTATGCGTATGATCTAGATGATGTTGCCGTAAATAGTACGATGTTAAACGCTAAATTAAACAATTTAGCAATGAAAATTACTGCTAAACAAAAAAATTTATTAGACCATGTTACAGTAGAAGCAGATCTGATCGTTTCTAATATCTTAGCGGAAGTAATAGTACGATTTGTTGAAAAAGCATGGAGCCAACTAAAACCTGGAGGTCATTTCATTACCTCGGGTATTACGCAGGCTAAAAAACAATTCGTCAAGGATCATTTGGAGCAGCAAGGGTTTGAAATAATTCAAACCAATGAATTAGAAGATTGGGTTTCGCTTGTTGCACGTAAACCTAGTTATGAGTAG MKWSELCIHTTNEAIEPISNILHENGASGLVIEDAMDLVREHTSTFGEVYELDPEQYPDEGVYIKAYLPMNSFLGETVEEIKQAINNLMLYDIDLGRNQITLSEVHEEEWATAWKKYYKPVKISKRITIKPTWEAYQPVDTDEMIIELDPGMAFGTGTHPTTVLSIQALEQFLKENDTVIDVGSGSGVLSITAALLGANHVYAYDLDDVAVNSTMLNAKLNNLAMKITAKQKNLLDHVTVEADLIVSNILAEVIVRFVEKAWSQLKPGGHFITSGITQAKKQFVKDHLEQQGFEIIQTNELEDWVSLVARKPSYE NA NA NA NA NA AK015_01743 759 rsmE COG1385 Ribosomal RNA small subunit methyltransferase E TTGCAGCGATATTTTGTACCTGCACATACATGGGCTGATAAAACCATTAAGATTACTGGGGATGATGCGCATCATATTATGCGTGTTATGCGATTTCAAACAGGAGATGAAATTATTTGCAATCATCCTGATGGACAAGCTGCTATTTGTAAGATTACAATCTTAGATAATCAGGTAGTATATGCTGACATTGTCAGTTGGTTAAATGATCATACGGAATTACCAGTAAATGTCGCAATTGCTCAAGCATTGCCAAAAAGTGATAAATTGGAATGGGTTTTGCAAAAAGGGACGGAACTAGGGGCAAATTGTTTTTTGCCTTTTCAAGCAGCTCGTTCCATTGTAAAATGGGATGAGAAGCGGAAAGATAAGAAATTAAAGCGATGGCATAAAATTGTTAAAGAGGCAAGTGAACAAAGTCACCGGAACAAGATCCCTGGTGTGGAACCTTGTAAGGGACTTAACGAAGTAATTGAAGTTGGAAAGAAGTTTGATGTCATGTTATTTGCTTATGAAGAAGAGGCTAAGTCTGATCGCTATCAATCCTTAGGGTCTGTGTTGCAAAGAATTCAAAATAGGCAAAGTATACTTATTTGCATTGGTCCTGAAGGTGGTTTTTCAAATGAAGAAGCGGATATACTAAAAGAAAATAAATTTAAACCAGTACGACTTGGACCAAGAATTTTAAGAGCAGAAACTGCTGCTTTATATACATTAGCGAGTATTTCGTACCACTTTGAAGAAATGAGGTGTTCATGA MQRYFVPAHTWADKTIKITGDDAHHIMRVMRFQTGDEIICNHPDGQAAICKITILDNQVVYADIVSWLNDHTELPVNVAIAQALPKSDKLEWVLQKGTELGANCFLPFQAARSIVKWDEKRKDKKLKRWHKIVKEASEQSHRNKIPGVEPCKGLNEVIEVGKKFDVMLFAYEEEAKSDRYQSLGSVLQRIQNRQSILICIGPEGGFSNEEADILKENKFKPVRLGPRILRAETAALYTLASISYHFEEMRCS NA NA NA NA NA AK015_01744 1356 mtaB COG0621 Threonylcarbamoyladenosine tRNA methylthiotransferase MtaB ATGATGCCAACCGTAGCTTTTCATACATTGGGTTGCAAAGTAAACCATTATGAAACAGAAGGTATATGGAACATGTTTAAGGAACAGGGTTATGAGAGAGTTGATTTTGATCGTAATTCTGATGTATATGTGATTAATACATGCACGGTTACAAATACAGGGGATAAGAAAAGTAGACAGATTATACGTAGAGCTATTCGAAAAAACCCAGACGCTGTTGTTTGTGTTACTGGTTGTTATGCACAAACTTCTCCAGGAGAAATAATGGAAATTCCCGGGGTAGATGTAGTTGTGGGTACACAGGATCGGAAACATATGATCCATTATATTGAACAACATAAAAAGTCAAAAGAACCAGTAAATGGCGTTTCTAATATAATGAAGAATAGAGTCTTTGAAGAAATGGATGTACCTGACTTTTCCGATCGTACTAGAGCTTCCTTGAAAATACAAGAAGGATGTAATAACTTCTGTACTTTCTGTATTATTCCCTGGTCACGTGGGCTCTTACGCTCAAGGGATCCACAAAATGTCCTTGAACAAGCGCAAAAGCTTGTAAATGCAGGATATAAAGAAATTGTATTAACTGGTATTCATACGGCAGGATATGGAGAAGATATGAAAGACTATAATTTTGCCATGCTCCTACGTGATTTAGAAACAAAAGTTAATGGATTAAAACGAATTCGTATTTCATCCATTGAAGCTAGTCAAATCACGGATGAAGTGATAGAAGTGTTGGATAAATCTGAGAAAGTCGTTAGCCATTTGCATATCCCATTACAATCAGGCTCGGACTCTGTTTTAGAAAGAATGCGTAGAAAATATTCAAGTTCTTACTATAAAGAAAAAGTCATGAATTTGAAGAAGGCGCTGCCTGGTTTAGCGATAACGTCGGATGTTATTGTCGGCTTTCCAGGGGAAACAAATGAAGAATTTCAAGAAACATATGATTTTATTAAAGAAATTGGTTTTTCCGAATTGCATGTTTTTCCTTACTCTCGAAGAACAGGGACACCAGCTGCAAGAATGGAAAATCAAGTTGATGATGAAGTAAAAAACAACCGCGTTCATCAATTAATCGAATTATCGGAGCAGTTAGCTAAAGCATATGCGGAAAATTATGAAAATGAAGTGCTAGAAGTAATACCGGAAGAACATTCACATGATGAGGAACATCCAAATCAATTAATCGGCTATACAGATAACTATTTAAAAGTCGCTTTTTCTGGTACACCAGATATGATTGGAAAACTTGTGCGTGTAAAAATTACAAAAGCAGGTTACCCGCTCAATCAGGCAACATTTGTCAAAGTGTTAGATGAAATTGCATATGATGAAGTAGTCTCACATTAA MMPTVAFHTLGCKVNHYETEGIWNMFKEQGYERVDFDRNSDVYVINTCTVTNTGDKKSRQIIRRAIRKNPDAVVCVTGCYAQTSPGEIMEIPGVDVVVGTQDRKHMIHYIEQHKKSKEPVNGVSNIMKNRVFEEMDVPDFSDRTRASLKIQEGCNNFCTFCIIPWSRGLLRSRDPQNVLEQAQKLVNAGYKEIVLTGIHTAGYGEDMKDYNFAMLLRDLETKVNGLKRIRISSIEASQITDEVIEVLDKSEKVVSHLHIPLQSGSDSVLERMRRKYSSSYYKEKVMNLKKALPGLAITSDVIVGFPGETNEEFQETYDFIKEIGFSELHVFPYSRRTGTPAARMENQVDDEVKNNRVHQLIELSEQLAKAYAENYENEVLEVIPEEHSHDEEHPNQLIGYTDNYLKVAFSGTPDMIGKLVRVKITKAGYPLNQATFVKVLDEIAYDEVVSH NA NA NA NA NA AK015_01745 669 deoC2 Deoxyribose-phosphate aldolase 2 TTGAAAAATTTAGCAAAGTACATTGATCATACGCAATTAAAGCCTGAGACTACAAAAGAAAAAATAGCTCAAATTGTAAAAGAAGCGAAGGAGCATCATTTTGCATCTGTCTGTGTAAATCCATATTGGGTTGCTTACTGTTATAATGAGTTAAAAGCAACTCAAGTAAAAGTTTGCACCGTTATTGGCTTCCCATTAGGAGCAACTACAACATCTTGTAAAGTGGCAGAGACAAATAAAGCCATTGAAGATGGAGCTACAGAAGTAGACATGGTTATTAATATTGGTGCTTTAAAATCGGGAGACAAGCAAACAGTTTTAAATGACATTGAAGCAGTTGTACAAGCAGCAAATGGCAAAGCCCTTACGAAGGTTATTATTGAATCATCTTTGTTAAAAGATGACGAAAAGGTAATTGCTTGTCAACTAGCAAAACAAGCAAAGGCTGACTTTGTTAAAACATCGACAGGTTTTTCCGGTGGCGGAGCAACTGTGGAAGATATTCGATTAATGCGAGAAACTGTAGGCCCAAATATGGGAGTAAAGGCTTCTGGTGGAGTTCGAGATTTAGCAACAACGAAAGCAATGATAGAAGCAGGTGCAACAAGAATTGGTGCAAGCGCTGGTGTAGCTATTTTAAACGATGAACAAGGAGATAGCACATATTAA MKNLAKYIDHTQLKPETTKEKIAQIVKEAKEHHFASVCVNPYWVAYCYNELKATQVKVCTVIGFPLGATTTSCKVAETNKAIEDGATEVDMVINIGALKSGDKQTVLNDIEAVVQAANGKALTKVIIESSLLKDDEKVIACQLAKQAKADFVKTSTGFSGGGATVEDIRLMRETVGPNMGVKASGGVRDLATTKAMIEAGATRIGASAGVAILNDEQGDSTY PGPT0017445_3051 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 AK015_01746 177 rpsU 30S ribosomal protein S21 ATGTCAAATACAACTCGCGTTCGTAAAAACGAGTCTCTTGAAGATGCTCTTCGTCGCTTTAAGCGTAGTGTATCCAAAAGTGGTACATTGCAAGAATATCGTAAGCGTGAACACTACGAAAAACCAAGTGTGCGTCGCAAAAAGAAATCTGAAGCTGCTAGAAAGCGTAAATTCTAA MSNTTRVRKNESLEDALRRFKRSVSKSGTLQEYRKREHYEKPSVRRKKKSEAARKRKF NA NA NA NA NA AK015_01747 450 yqeY COG1610 putative protein YqeY GTGACATTACTCGAAACATTAAACCAAGATATGAAGCAGGCGATGAAGAACAAAGATAAACAAACCCTGAGTGTGATTCGCATGGTAAAAGCTTCTATTCAAAATGAAACCATTAAACTTGGAAAAGACTCATTATCAGAAGACGAAGAAATTTCGATCTTGTCGAGAGAAGTAAAGCAAAGAAAAGATTCCCTCCAAGAATTCAAATCAGCGAGTCGCGATGATCTTGTTCAACAAGTTGAATTAGAATTAGATATTCTGCAAACATATATGCCAAAACAGCTTACGGATGAAGAGCTGGAGGCAATAGTTAAATTAACGATTGAAGAAGTGAACGCAACTTCCAAAAAAGATATGGGAAAAGTAATGAGTGCAATTATGCCAAAGGTTAAAGGTAAAGCAGATGGTTCACAAATTAACAAACTTGTACAAAAACAGTTAAGTAACTAA MTLLETLNQDMKQAMKNKDKQTLSVIRMVKASIQNETIKLGKDSLSEDEEISILSREVKQRKDSLQEFKSASRDDLVQQVELELDILQTYMPKQLTDEELEAIVKLTIEEVNATSKKDMGKVMSAIMPKVKGKADGSQINKLVQKQLSN PGPT0030490_1583 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-TRANSAMIDASE_ACTIVITY PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117 AK015_01748 1335 hypothetical protein ATGACTGCTAAAAAAGTGTATACATATATTTTTGTTTTATGCGTGTTTTTAGTCACTATATTCAATGTTGGTGCTGGCGTAGATGCTAATAGCACCAGTCATAAAACAGTCCATATTATTCCAATAGAAAAAGAAGTAGAAAGAGGACTGCAAGCATTTTTAGATAGAGCGACCGAAGAAGCAATAGAAGAAGGCACTGATCATATTATTTTTGAAATTAATACACCAGGAGGAAGAGTAGACTCGGCTGGAGAAATTGCCACAATTTTACAGGACCTAGATGTTCCCACTACTTCATTTATTGTGAATCGTGCTTTATCAGCGGGCTCTTACATTGCTTTAAATACAGATACAATATATATGCGCCCCCAAGCAACTATGGGAGCTAGTGGTGTCATCACTTCAGATGGTAATGCAGCAAATAAAAAAGCCCAATCTGCTTGGATAGCTTCCATGAAGAGTGCGGCTGAATCAAAAGGAAGGGATCCGCAATATGCCATGGCGATGGCTGATGAGTCTATTGATCTTCCAGAACTAGATGCAGGGGAGGGTAAGTTTCTAACTTTAGGTCCATCACAGGCATTAGAAGTGGGGTATTCAGAAGGTACTGTTGAAAATAGGGAAGAGTTATTGCAACAATTGAGTTTAGAAAACGCAACAGTTATGGAAAAAGAACCAACATTAGCAGAAGAAGTAGCTAGATTTTTAACAAATCCCGTAGTTATCCCAATTTTACTATCTATTGCTAGTTTAGGGCTTGTTGTAGAACTGTATTCACCCGGATTCGGTGTAGCAGGAATTATGGGACTTATTTCGCTTGTATTATTTTTCTATGGACATATTGTGGCTGGTTTAGCTGGTATGGAGGCAGTTATCTTACTTATATTAGGCATCGGGCTCATTATTGCAGAGTTTTTTGTGCCTGGTGGCGTATTAGGTTTAATTGGTGCAGGTGCGATTATTGGCTCGTTGTTTATGTCAGGATATGATATAGGTCATATGTCGTTAAGCATAGGAATTGCATTCTTATTATCATTAATTGTTTCTATTATTCTTTTCAGAAGAATGGGTATGGATAAAGGGATTTTCAGACATATTATACTTAAAGATCAAACAACAACGGAGCAAGGATACGTATCTTCAGTAAATCGCTTAGAATTAATCGGTTTAGAAGGCATTACCGTTACTCCACTTCGTCCTGCTGGTACAGCTGTATTTGATCAAGAACGTTTGGATGTAATTTCAGAAGGTCGGTTTATTGATGAAAATAAAAAGGTTAAAGTTGTAAAAGTAGAAGGTGTACGTATAGTAGTACGCGAAATAAAGGAGGTTTAA MTAKKVYTYIFVLCVFLVTIFNVGAGVDANSTSHKTVHIIPIEKEVERGLQAFLDRATEEAIEEGTDHIIFEINTPGGRVDSAGEIATILQDLDVPTTSFIVNRALSAGSYIALNTDTIYMRPQATMGASGVITSDGNAANKKAQSAWIASMKSAAESKGRDPQYAMAMADESIDLPELDAGEGKFLTLGPSQALEVGYSEGTVENREELLQQLSLENATVMEKEPTLAEEVARFLTNPVVIPILLSIASLGLVVELYSPGFGVAGIMGLISLVLFFYGHIVAGLAGMEAVILLILGIGLIIAEFFVPGGVLGLIGAGAIIGSLFMSGYDIGHMSLSIGIAFLLSLIVSIILFRRMGMDKGIFRHIILKDQTTTEQGYVSSVNRLELIGLEGITVTPLRPAGTAVFDQERLDVISEGRFIDENKKVKVVKVEGVRIVVREIKEV NA NA NA NA NA AK015_01749 996 hypothetical protein ATGGATTTAGAGAGCTTAATGCCGTTAATAATTATCGCGGTTATTTTAATTGCAGTAGCTATTTTATTTACTTTTATTCCAGTTATGCTATGGATTAGTGCTTTAGCAGCAGGAGTGAAAGTAGGTATCTTTCAATTAGTTGGAATGAGACTTCGTCGCGTAGTTCCAAATCGAGTGATTAATCCACTTATTAAAGCACATAAGGCCGGGTTAAATGTTAAAACAAATCAACTGGAGAGCCATTATTTAGCTGGTGGTAATGTCGATAGAGTGGTAAATGCATTGATCGCAGCGCATCGTGCGAACATTGAACTGCCATTTGAACGAGGAGCAGCGATTGATTTAGCGGGACGTGATGTATTAGAAGCAGTTCAAATGAGTGTTAATCCAAAGGTAATTGAAACCCCGTTTATTGCTGGTATAGCTATGGATGGGATTGAAGTGAAAGCAAAAGCTAGAATAACCGTTCGTGCTAATATAGATCGCTTAGTAGGTGGTGCTGGTGAGGAAACGGTAATAGCTCGTGTAGGAGAAGGTGTTGTAAGCACCATTGGTAGCTCACATGCTCATACCGAAGTATTAGAAAACCCAGATTCCATTTCACATAATGTACTAAATCGAGGCTTAGATGCTGGTACGGCTTTTGAAATACTATCCATTGATATTGCAGATGTTGATATTGGTAAGAACATCGGTGCAATTTTACAAACGGATCAAGCTGAAGCGGATAAAAACATTGCCCAAGCAAAAGCCGAAGAGCGTCGAGCAATGGCAGTTGCTCAAGAACAAGAAATGCTTGCTCGAGTGCAAGAGATGCGTGCAAAAGTAGTTGAAGCAGAAGCAGATGTACCACTTGCTTTAGCTGAAGCTTTACGTTCAGGTAACCTTGGTGTGATGGATTATATGAACTATAAGAACATTGATGCTGACACAGATATGCGTGATTCTATTGGCAAGTTATCTGAAAATGGAAACGATGATCATGAGCAAAATTAA MDLESLMPLIIIAVILIAVAILFTFIPVMLWISALAAGVKVGIFQLVGMRLRRVVPNRVINPLIKAHKAGLNVKTNQLESHYLAGGNVDRVVNALIAAHRANIELPFERGAAIDLAGRDVLEAVQMSVNPKVIETPFIAGIAMDGIEVKAKARITVRANIDRLVGGAGEETVIARVGEGVVSTIGSSHAHTEVLENPDSISHNVLNRGLDAGTAFEILSIDIADVDIGKNIGAILQTDQAEADKNIAQAKAEERRAMAVAQEQEMLARVQEMRAKVVEAEADVPLALAEALRSGNLGVMDYMNYKNIDADTDMRDSIGKLSENGNDDHEQN NA NA NA NA NA AK015_01750 534 hypothetical protein ATGGAAGGGCTCTTCGAAGCTATTTTTAGCAATGGATTTATCATTTTGGCAGCAATCGCTGGGATCATTGGTTTTTTTAAAGATTCCTTTAGTAAAGATACAGATACGGAAAATGAACGAAGAAAGAAACCGAATAAGCCCGCTCCTCCTTTCGGTGGAGGAGCTACAAAGCCAGCTAGTCAACCTACTAAACGTCCTGAACGAGTAGGAGGGTCTATATCAACAGCATCAGCTTCTGAGCAAAAACAGCAACAAATGGAGCAATTAGCTGAGCAAATGGGAGCTGATTTGCAAGAGCCGCTAGAAGACCTTGCCCAACAAGTACAATCTGTTCAAAGCCAGAGACAAGCGACAGAAGGACATTTGCAGAAGCAAAAAATGAAGCGGCAAGTTGCAAATAACTTTACACGAGAAGGCTTAATTAATGGCATTATTATGTCCGAAGTACTAGGGAAACCTAGAGGAAAAAAACCATATCGTAGTGCTGTTTCGGAGCAAATAAAAATGAAGCAGATAAATGAATTAAAACGATAA MEGLFEAIFSNGFIILAAIAGIIGFFKDSFSKDTDTENERRKKPNKPAPPFGGGATKPASQPTKRPERVGGSISTASASEQKQQQMEQLAEQMGADLQEPLEDLAQQVQSVQSQRQATEGHLQKQKMKRQVANNFTREGLINGIIMSEVLGKPRGKKPYRSAVSEQIKMKQINELKR NA NA NA NA NA AK015_01751 309 hypothetical protein GTGAAAAAATGGCAACAACAAATTAGACCATGGTTAACGAAGTATTTTGCACTTCCTTCAGATGTGTTATTGGAACTACCAAGAATTACAGTAGTTGGACAATTGCATGTTTATATTGAGAATCATAAAGGTTTGGAAACCTATTCGGATACAGAGTTAAAACTAAAGTCGAATAAAGGATATGTTCGCATTTCGGGTTCAGATTTTGTTTTAAAAAGAATGCTACCCGAAGAAATTTTGCTAGAAGGTATGATTAGAGATATAACCTTTATTCCAGATGGAGGTACAGGATATGACGCAAAAGAATAA MKKWQQQIRPWLTKYFALPSDVLLELPRITVVGQLHVYIENHKGLETYSDTELKLKSNKGYVRISGSDFVLKRMLPEEILLEGMIRDITFIPDGGTGYDAKE PGPT0024990_35 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA NA NA AK015_01752 1212 hypothetical protein ATGACGCAAAAGAATAAATTACATATAGCTGGTGCTGTTAGTATCATTGTAACAGGCGATAGACCAGAATTGTTTTTTCAGCATTGTACTAGTTATGGCATTCAGGTATGGGACGTAGTAAAATTAAATCATCAGTCATGCAAGGGTATGATAGGTCTTAAGGACGTTAATTATATAAAAAAATTACGGAAGGATACGAATTATAAAATTAAATTTATCGACCGTAAAGGATTTCCATTTTTCATTCGCCACTATTTAAGGAAAAAAGAATTAATACTTGCATTTATTCTAAGTGTCTTGTTTCTCTTTACACTGTCTAATATTATATGGGATGTGGAAATAACTGGTGTACCTAAAGATATTGAAGAAAAGATAGATGGACAATTAGAACAATATGGTATCCACCCAGGATCATGGATATTTTCTATTGACTCTCCAAAACATATACAACAACAATTATTGCATGATGTACCTGAATTACTATGGGTTGGTATAAATCAAAAGGGGACAACCTTTCACTTAGAAGGTGTAGAAAAAATAGTTGTGAAAGAAGAAGAAAATCCAGAACCAAGAAACTTAATTGCTGCTAAAAAAGGAATTATTAAGAAAATGTATGTTTCCAAAGGGGTTCCAAAAGTAGATGTTCATGATTATGTGGAGAAAGGCGACCTATTAGTATCGGGGAAAATGGATGACGGAGAAGAAGCAGAGGAAGAAGAAGGGAAAAAAGAAGTAAAACATGTAGCAGCGGATGGAGAGATCACCGCGTTAACTTGGTATGAGGTTAAAGTAAGTGTGCCATTAAAGGCAAATACAGAACAATTAACAGGAGAACAAGATAATAAATACCATCTAAGTTTTGGGGATTTCAAACTGCCAATTTGGGGCTTTGGATCATCGGACTTTGAAAATACGCAACAGGAACAGGAAGAATCAAAACTTCGCTTTTTAAAGTGGGAATTGCCTATAAAAATAATTGAAACCAATATCCATGAAAAAACGTATAAAACAGTGGAGAGAACAAAAAAAGAAGCAATTGAGGTAGGTATTAAACAAGCGAAAGAACAATTAAAACTAGAGCTAGGAGAAGCGGAGATCTTATCTGAAAAAATTTTGCAACAATCTACAGAGAATGGTAAAGTTAAACTAAACTTATATATGAGTGTTGAAGAAAATATTATTGATACACAACCTTTACGTCAAGGAGATTGA MTQKNKLHIAGAVSIIVTGDRPELFFQHCTSYGIQVWDVVKLNHQSCKGMIGLKDVNYIKKLRKDTNYKIKFIDRKGFPFFIRHYLRKKELILAFILSVLFLFTLSNIIWDVEITGVPKDIEEKIDGQLEQYGIHPGSWIFSIDSPKHIQQQLLHDVPELLWVGINQKGTTFHLEGVEKIVVKEEENPEPRNLIAAKKGIIKKMYVSKGVPKVDVHDYVEKGDLLVSGKMDDGEEAEEEEGKKEVKHVAADGEITALTWYEVKVSVPLKANTEQLTGEQDNKYHLSFGDFKLPIWGFGSSDFENTQQEQEESKLRFLKWELPIKIIETNIHEKTYKTVERTKKEAIEVGIKQAKEQLKLELGEAEILSEKILQQSTENGKVKLNLYMSVEENIIDTQPLRQGD PGPT0024760_99 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_IV_SPORULATION,PGPT0024760-yqfD-K06438 NA NA AK015_01753 975 COG1702 PhoH-like protein ATGCCGGATAATTTAACAGCAGTCGATTTACAATTAAATAGTCCAAAAGAAGCTTTAGCACTATTTGGTAATAACGATAAATACTTGCATCAATTAGAAGAAATGCTTCAAGTTTCTATTATAACGAGAGGAGAGCAGATTCATGTATCTGGTGATCCAGATACGCTTAACCTCGTTCAGGATGTCTTACAAGCTCTGCTCTCCATTATTCATAAAGGGTTGACCATTACAGAAAGAGATGTCGTTTATGCGGTTGAACTTGGAAAAAAAGGAAAAATAAACCAATTTGAAACTTTATTTGAAGATGAAATTACGAAAAATGTAAAAGGAAAGTCCATTCGTGTTAAAACATTAGGGCAAAAAAAATATATCTCTGCAATTAAAGCAAATGATCTCGTCTTCGGGATCGGTCCAGCAGGTACGGGAAAAACGTATTTAGCTGTCGTAATGGCTGTTCATGCACTTAAGAATGGCTATGTGAAAAGGATTATATTAACTAGACCAGCTGTAGAAGCGGGAGAAAGTTTGGGTTTTCTTCCTGGTGATTTAAAAGAAAAGGTAGATCCTTATTTGCGACCGCTATATGATGCTTTGCATGATGTTTTAGGGGCAGAGCATACGATGCGCCTGATTGAAAGGGAAACGATTGAAATAGCCCCGTTGGCCTATATGCGAGGGAGAACGCTCGATGATGCCTTTGTTATTTTGGACGAAGCACAAAATACGACCCCTGAGCAAATGAAAATGTTTTTAACGAGACTTGGTTTTGGATCAAAAATGGTGATTACTGGGGACATAACGCAGATTGACTTACCAAAAGGTGTACAGTCAGGTTTAAGGGTTGCAAGTCATTTATTAAATGGGATAAAAGGAATGGATTTTGTTTATTTAGAGCAAACAGACGTCGTTCGACATCCGCTTGTGCAACGAATCATTGATGCGTATGATAAAAATAGCCAGCATCGTAGTGAATAA MPDNLTAVDLQLNSPKEALALFGNNDKYLHQLEEMLQVSIITRGEQIHVSGDPDTLNLVQDVLQALLSIIHKGLTITERDVVYAVELGKKGKINQFETLFEDEITKNVKGKSIRVKTLGQKKYISAIKANDLVFGIGPAGTGKTYLAVVMAVHALKNGYVKRIILTRPAVEAGESLGFLPGDLKEKVDPYLRPLYDALHDVLGAEHTMRLIERETIEIAPLAYMRGRTLDDAFVILDEAQNTTPEQMKMFLTRLGFGSKMVITGDITQIDLPKGVQSGLRVASHLLNGIKGMDFVYLEQTDVVRHPLVQRIIDAYDKNSQHRSE PGPT0002700_2957 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217 NA NA AK015_01754 2148 pgpH Cyclic-di-AMP phosphodiesterase PgpH GTGGATAAGAACAAATTCAATCCGCGTACTTGGTTTTCATTTACAAAACGTTTCAATAAATGGGGCATGATGATAGCTGCTTCTCTTTTACTAAGTGTGTTTTTCTTTCTAATCATGATTGACAATATACAGACGGAAACCTATGAGATAGAGAGATTTAGTAGAGCTAAAGAAACGATTCGTTCTCCAGTTACGATAGAAAATGAGCAAGAAACAGAGCGTAAAATACGAGAAACGGTTCAAGCTGTAGAGGATAGATACAATATTGACCAAGAAATTACGGATGAGCGTATGGCGTATACGAAAGAAATTTTTGACGCAATCACTAAATTGGAAGAAGAACTTAAAGACACGCAACAAAATAAGGGAGGCTCCGATACGGCTCCTATCTCTGAGCAAGAAAAAGTGCAACAATTAAAGCAAATTCTGTCTGAAGAAATACAAAAAGGAGTCAGTGATGACTCGCTGTCTCAGCTTATTCAAGTACCTAAAGAGGAACGGGAAAAAGGTGAGAAATTTTTCTTGGGAATTTTGTCTAAAACGTTGAATAATGGTGTGCGAACAGAAAATACACAAAGCGCTATTTCAAATATCCAACAAGAGATTAAGTATTCAGATTTAGATGCTGACATGAAAGAAGTTCTGACCCGGTTAAGTGAGTTTGCGGTGGTCGAAAATTCATTTTTTGATGTGGATAAAACATCTGCTGCTCGAAAGGAAGCAGCTAGCAATGTTGAACCTGTTGTAATTAGAGCGGGAGAAATCATCGTTCGCGAAGGACAAACGATTACGAATGAAGTATATAAAAAACTAGAATTGGTTGGAGTTCTTGATAAAGAGCGAAATTTCTTTCCAGGAATTGGATTGGCTATACTTGTCTTGCTACTAGGAAGTGCAATAGCTCATGAAATGAATTGGCTTGCCAGAAAAGAGCGTTTAAATAATGCTAAAGTTACTGCAATTGTTGTTATTAGTATCATGACAGTTGCTTTAATGAAAATAGTAAGTATTTATACAACGCAAATAAACCAACTCTTTTACGTAATGCCTATAGCTACGGGGGCTTTGCTACTAAAACAATTAACACATGAACGTTCTGCGATCATTTTCAGTACGCTGTTCGCGATTTTAGGAAGTGTTATCTTCAATCATCAAATTCCTGGTTCTTTAAATGTGGAAGCAGGTATATACTTTTTGCTCTCCCAGTTGGCAGCCGTTTTCTTCCTGAGAAATGTCAAAGATAGACTTGCAGTTATGAAGGCTGGATTAGGAATTGCGGTTATTAATATCATGGTTGTATTATTATTTATATTTCTCTCTTTTGAGAAATATGCATGGGGAGATATGTTACTACAATCATCTTTTGCAACAGCATCTGCATTCCTGTCAGCTGTACTTACAATTGGACTGTTACCATATTTTGAGGCTGCTTTAGGGATTTTATCAGATATTAAGTTACTACAGTTATCAAGCCCAAATCATCCATTACTAAAGAAATTATTAACGGAAGCTCCTGGTACATATCACCACTCTGTGATGGTGGCTAACTTAAGTGAAGCTGCTTGCGAAGCAGTTGGAGCAAATGGGTTACTGGCAAGGGTTGGTGCTTATTATCATGACTTAGGTAAGACGGTACAACCTCATTTTTTTATTGAAAATCAATTGGCAATTAAAAACCCTCATGACTTTATTGAGCCAAATGAAAGTGCTAGAATAATAATTAGTCATCCTTATGATGGAGCTGAGATGTTGAAAAAACATCGACTACCACAAGAAATTATTGATATTGCTAAACAGCATCATGGCACTTCTTTACTGAAGTATTTTTATTACAAAGATAAAGAACAAAATAAGGAAGTGGAAGAGGCAATTTATCGTTATCCTGGGCCTAAACCACAAATGAAAGAAGCGGCTATTGTTAGTATATGTGATTCAGTAGAAGCCGCAGTCCGTTCACTACAAGAACCTACAGAACAAAAAATAGAAGAAATTGTTACATCTATTATTCAAGATAAGTTAGTAGACGGACAGTTCGATGAATGTCCGATTACTTTACAAGAGCTAAATAAGATTCAACAAACAACTTGTAGCACATTGAAAGGGATATTCCATTCGCGTATTCAATATCCCGTGGAGGAGGCAAAATAA MDKNKFNPRTWFSFTKRFNKWGMMIAASLLLSVFFFLIMIDNIQTETYEIERFSRAKETIRSPVTIENEQETERKIRETVQAVEDRYNIDQEITDERMAYTKEIFDAITKLEEELKDTQQNKGGSDTAPISEQEKVQQLKQILSEEIQKGVSDDSLSQLIQVPKEEREKGEKFFLGILSKTLNNGVRTENTQSAISNIQQEIKYSDLDADMKEVLTRLSEFAVVENSFFDVDKTSAARKEAASNVEPVVIRAGEIIVREGQTITNEVYKKLELVGVLDKERNFFPGIGLAILVLLLGSAIAHEMNWLARKERLNNAKVTAIVVISIMTVALMKIVSIYTTQINQLFYVMPIATGALLLKQLTHERSAIIFSTLFAILGSVIFNHQIPGSLNVEAGIYFLLSQLAAVFFLRNVKDRLAVMKAGLGIAVINIMVVLLFIFLSFEKYAWGDMLLQSSFATASAFLSAVLTIGLLPYFEAALGILSDIKLLQLSSPNHPLLKKLLTEAPGTYHHSVMVANLSEAACEAVGANGLLARVGAYYHDLGKTVQPHFFIENQLAIKNPHDFIEPNESARIIISHPYDGAEMLKKHRLPQEIIDIAKQHHGTSLLKYFYYKDKEQNKEVEEAIYRYPGPKPQMKEAAIVSICDSVEAAVRSLQEPTEQKIEEIVTSIIQDKLVDGQFDECPITLQELNKIQQTTCSTLKGIFHSRIQYPVEEAK NA NA NA NA NA AK015_01755 471 ybeY Endoribonuclease YbeY GTGTATATTGACTTTCATGATGAAACAAATTCAGTGGAAAGTGATTATATTGATTTAATTCAACGGTTAATTGCATTTGCTGCTAAAGAAGAAGGTGTAACGCCACAAGGTGAAGTATCCATTAATTTCGTTACGAATAAAGAAATTCAAGAACTAAATCGAAACTATAGGCAAAAGAATAGTCCTACAGATGTCCTGTCGTTTCCTATGCAAGAACTTGGAGAAGGGGAAGAAGAAATAAATATATTAGACGAAAATCTCCCCGTGCTGTTAGGCGACATTGTGATATCTGTGGATAGAGCAAAAGAACAGGCAAAAGAGTACGACCATTCTTTGGAGAGAGAATTAGCCTTTCTAGCGTTACATGGCTTCCTTCACTTATTGGGATATGATCATGTAGCGAAAGTAGATGAAAAGGAAATGTTTGCGAAACAAGAAAAAATCTTAGGTGCGTTTGGAATTGAAAGATAA MYIDFHDETNSVESDYIDLIQRLIAFAAKEEGVTPQGEVSINFVTNKEIQELNRNYRQKNSPTDVLSFPMQELGEGEEEINILDENLPVLLGDIVISVDRAKEQAKEYDHSLERELAFLALHGFLHLLGYDHVAKVDEKEMFAKQEKILGAFGIER 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 AK015_01756 369 dgkA COG0818 Undecaprenol kinase TTGGAATTGAAAGATAAAAAACGACTGGTTGGTTTTTCTTTTGCATGGCAAGGTATACAGTTTGTTGTCAAAAATGAACGTAATTTTCGAGTGCATTTATGTGCTGCAATTGTAGTGATATTGGCTGGTATTATCTTAAACATAAACATCACGGAGTGGAGTATTATCTTACTTTTGATTGGGAATGTGTTTATAACAGAAATGCTAAATACTGTCGCAGAAAGAATAATTGATTACGTAAAACCAGATGTTCATCCTGCTGCAAAACAAATAAAAGATGTGGCTGCTGGAGCGGTTCTTATAGCAGCCACCATTGCTGTAATAATAGGTTGTTTTATTTTCATTCCAAAAGTAGCCGGACTTATGTGA MELKDKKRLVGFSFAWQGIQFVVKNERNFRVHLCAAIVVILAGIILNINITEWSIILLLIGNVFITEMLNTVAERIIDYVKPDVHPAAKQIKDVAAGAVLIAATIAVIIGCFIFIPKVAGLM PGPT0024175_452 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024175-dgkA-K00887 NA NA AK015_01757 903 era COG1159 GTPase Era ATGGAAAAACAATTTAAATCAGGTTTTATAGCTATTATCGGTAGACCAAATGTTGGAAAATCCACGTTTATGAATCAGGTGATCGGGCAAAAAATAGCTATTATGAGTGATAAACCACAAACAACGAGAAACAAAATTCAAGGTGTACTGACATTGCCAGACGCGCAAATGATATTTATAGACACACCAGGCATCCATAAACCGAAACATCAGCTCGGCGATTTTATGGTGAAAACCGCTATAAATACATTAAATGAGGTCGATGCCATTTTATTTATGATTAATGCAGAGGAAGGGTATGGAAAAGGAGATCAATACATTTTAGATAGACTGCAAAAGGTAGATAAGCCTGTTTATTTAATTGTAAATAAAATTGATCTTGTACACCCTGATAAACTACTCCCATTAATTGATCAATATAAAGATAAACATGATTTTACAGAAATTATTCCTATTTCCGCTTTGCAGGGGAATAATGTAAAACATCTGTTAGAAGTGCTAAAAGATCAATTGGCAGAGGGCCCGCAGTATTATCCAGAGGATCAAATTACAGATCACCCTGAACGTTTTATTATCAGTGAGTTAATTCGTGAAAAAGTACTACAATTTACGAAAGAAGAAGTTCCTCATTCGATAGCAGTTGTTATTGAGAATATGGAACAACGCAATCATGGTAAAGTTCTTATTCAAGCAACTATTGTAACAGAAAGAAAAACACAAAAAGGCATTCTTATTGGGAAACAGGGAACGATGCTTAAAAACATTGGGAAAGCAGCCCGTAAAGATATTGAAAATCTGCTTGGTACAAGCGTGTACCTAGAACTATGGGTAAAAGTTAAAAAAGATTGGAGAAACAAGCAAAGCCAACTGCAAGAATATGGTTTCAGCAGAGATGATTATTAA MEKQFKSGFIAIIGRPNVGKSTFMNQVIGQKIAIMSDKPQTTRNKIQGVLTLPDAQMIFIDTPGIHKPKHQLGDFMVKTAINTLNEVDAILFMINAEEGYGKGDQYILDRLQKVDKPVYLIVNKIDLVHPDKLLPLIDQYKDKHDFTEIIPISALQGNNVKHLLEVLKDQLAEGPQYYPEDQITDHPERFIISELIREKVLQFTKEEVPHSIAVVIENMEQRNHGKVLIQATIVTERKTQKGILIGKQGTMLKNIGKAARKDIENLLGTSVYLELWVKVKKDWRNKQSQLQEYGFSRDDY NA NA NA NA NA AK015_01758 144 hypothetical protein GTGATCGATCTATCCTGGAAATTATTTAGTCAAACGGGAAACATTGAAACCTATTTAATCATGAAAGAGTTAGAAAATGAACAAAACCTTCAAGAATTAGGACAACAAGATGAGAAAAATGAAACTCCGATAGAAACGAAATGA MIDLSWKLFSQTGNIETYLIMKELENEQNLQELGQQDEKNETPIETK NA NA NA NA NA AK015_01759 744 recO COG1381 DNA repair protein RecO TTGTTAGAAAAAATACAAGGTGTCGTATTGAAAACACGTGACTATGGAGAGAGTCATAAAATCGTTACAATATTTAGTGGAAAATTAGGGAAGCTCTCTGCGATTGCTAAAGGAGCAAAAAAACCAAAAAGTAGAATGGCTGCTGTAACGCAGCCGTTCATCTATGCGGAATTTCTTATGTATGTGAATAAAGGGTTAAGTACAATACAACAAGCAGAAATTATTGACTCTTTTCGCCCCATACGTGAAGACATTGTAAAAACAACTTACGCAGCATATCTTGCTGAACTTACAGATAAATTAGTCGAGGATAAACAGCCAGATGGATTTATTTATGAACAGTTTTTTCAAACAATGGAGTGGATTAATAGCAAAGAAGAGGCTGATATCCCCTTAATGATGTATGAATTGAAATTATATAAAAAAGGGGGATTTGCACCCACGGTAGATTGTTGTAGTAGCTGTCATAGTGTAACGCCTCCGTTTGTGTTTTCTATTCAAGAAGCTGGTTTACTGTGTACATCATGTAGAAGTATGGACGAGCGAGCTATTGAATTACCAAAAGGAGTAGTTAAATTATTATTCATCTTTGCAACGGTCGATTTACAACGCGTGTCAAACATTTCAGTAAAGGAACAAAATAAACAGTTGCTTAGGGAATTGTTAGACCATTATTATGATTATTATGGTGGGTATCTTCTTAAATCAAGAAAGCTATTAAAACAAATGGATCTATTGAAATGA MLEKIQGVVLKTRDYGESHKIVTIFSGKLGKLSAIAKGAKKPKSRMAAVTQPFIYAEFLMYVNKGLSTIQQAEIIDSFRPIREDIVKTTYAAYLAELTDKLVEDKQPDGFIYEQFFQTMEWINSKEEADIPLMMYELKLYKKGGFAPTVDCCSSCHSVTPPFVFSIQEAGLLCTSCRSMDERAIELPKGVVKLLFIFATVDLQRVSNISVKEQNKQLLRELLDHYYDYYGGYLLKSRKLLKQMDLLK NA NA NA NA NA AK015_01760 879 glyQ COG0752 Glycine--tRNA ligase alpha subunit ATGAATATTCAAGAGATGATCTTAACTTTGCAAAATTATTGGTCACAGCAAAATTGCATTCTTATGCAAGCCTATGACGTGGAAAAAGGAGCGGGTACTATGTCACCAATGACATTGCTACGTAGTCTTGGACCTGAACCATGGAACGTTGCTTATGTAGAACCATCAAGACGCCCTGCGGATGGCCGTTATGGTGATAATCCAAACAGGTTATACCAACATCACCAATTTCAAGTCATTATGAAACCTTCTCCAGATAATATCCAGGAGTTATACTTAGGTTCTCTAAGAAAATTAGGGATTAATCCGCTTGTTCATGATATACGATTTGTAGAAGACAACTGGGAAAACCCAACCTTAGGTGCAGCTGGTCTTGGCTGGGAAGTTTGGCTTGACGGGATGGAAATTACACAATTTACGTACTTTCAGCAAATCGGAGGATTAGAAGCAAATCCTGTTGCTGTAGAACTAACGTATGGAATTGAGCGTCTCGCTTCGTATATTCAAGATAAAGATAATGTATTTGATTTAGAATGGACAAATGGCGTGACAGTCAAAGACATCTTTTTTCAACCAGAATATGAACATTCCATGTATACATTTGAAACATCTAATACGGAAATGTTATTTGGGCTTTTTACCAAATATGAGCAAGAAGCTAAAGATACGATGGAAAAAGGGTTAGTATTTCCTGCTTATGATTACGTTCTTAAATGTTCTCATACATTTAATTTGTTGGATGCCAAAGGTGTCATCTCTGTAACAGAACGTACCGGTTATATTACAAGAATTCGTAACTTAGCAAGAGGTATTGCTAAAGCGTATGTTGCTGAAAGAGAACGACTTGGCTTTCCGATGTTAAAAAAGGAGGAACAATAA MNIQEMILTLQNYWSQQNCILMQAYDVEKGAGTMSPMTLLRSLGPEPWNVAYVEPSRRPADGRYGDNPNRLYQHHQFQVIMKPSPDNIQELYLGSLRKLGINPLVHDIRFVEDNWENPTLGAAGLGWEVWLDGMEITQFTYFQQIGGLEANPVAVELTYGIERLASYIQDKDNVFDLEWTNGVTVKDIFFQPEYEHSMYTFETSNTEMLFGLFTKYEQEAKDTMEKGLVFPAYDYVLKCSHTFNLLDAKGVISVTERTGYITRIRNLARGIAKAYVAERERLGFPMLKKEEQ NA NA NA NA NA AK015_01761 2082 glyS COG0751 Glycine--tRNA ligase beta subunit ATGGTGACAGATGCTCTATTTGAAATTGGACTGGAAGAAATGCCGGCTCGTTTCATTGATGATGCAGAAAAACAATTAAATGACAAAACAGTAGCATGGCTAAAAAGCTTGCGCATTCCTTATAAAAATTTAGCGACCTTTTCCACACCAAGACGTTTGGCAGTTTTTATTGAAGGGCTTAGTGAACAACAAACAACGATTAAAGAAGAAGTGAAAGGCCCGGCAGAAAAAATTGCTAAAGATGAATCTGGTAATTGGACAAAAGCAGCGATTGGCTTTACAAAAGGGCAAGGCAAGACAACAAATGATATTTATACAAAACCTGTCAATGGCACTACATATATTTTTGTGCAAAAGCATATTGAAGGAAACAATACATTCGACCTCCTGCCAGGGTTTAAAGACATCATTCTGTCCATTAACTTTGGCAAGAATATGCGCTGGGGAGCACAAACAATGCGTTATGCTAGGCCGATACGTTGGCTGGTCGGCTTATGCGGTTCAACGGTGGTTCCTTTTGAAGTTGCTCATGTAAAAAGCAGTAATATGACATATGGCCATCGTTTTTTAGGAACGAAAATAGCCATTAATAACCCAAAGCAATATGAAGAAAAATTACTACAGCAATTTGTAATAGCAGATGCAAAAAAACGCGAAGCAGCTATATTACAAGGAATTCATCAATTAGAGCAAGAGCATTCGGTGCATATTCCTATTGATCATGAACTATTGCATGAAGTTCGTAATTTAGTGGAATATCCTCAAGCTTTTTTAGGCTCATTTGAACATGCATTTTTATCCATACCTGAGGAAGTATTAATTATCTCCATGAAAGAGCATCAACGCTATTTCCCTGTTCGTACGAATACTGGAGGGGAGTTATTACCTCATTTCGTTGGCATACGTAACGGAGACGACACTTCATTAGAGACAGTAATAAAAGGAAATGAAAAAGTATTACATGCTCGCTTATCTGATGCTGCTTTTTTCTACGAGGAAGATCGTAAGCGTTCTTTGAGCGATTTTTTAACAAAGCTACAACGAGTTGTATTTCAAGAAGATTTAGGGACCATTTATGAAAAAGTAGAACGTGTCATTATATTAACTCGTTTAATTAGTCAGCATCTTGAACTACCTGAGTCAGATATTAATCGTGCTGTTCGTGCTGCTGAATTAAGTAAATTCGATTTAACCACTAGTATGGTAAATGAATTTACTGAATTGCAAGGCGTTATGGGCGAAAAATATGCTGTTTTTTATGGCGAAGACGCAATTGTTGCTCAAGCAATTAGAGAACATTACTTACCAAAATCCGCCAACGGCGTTTTGCCTGAAACTATCGCAGGAACAATTGTTAGTATGGCAGATAAATTAGATACGATAGCAGGTTGTATTTCTGTAGGATTATTACCGACAGGATCTCATGATCCTTATGGGTTACGTCGTCAAGCAATTGGTGTATTACGGATGTTACTTACAAATAAATGGAACATAACCGTAGAAAAGCTTATTGAGCTTACCTTGCAAGTATATGCTACATCCAAAGTAAAGCTAGAAAATCAAAGTGAAGCTGCTACTATCATTAACGACTTCTTTTTACATCGTGCTACTTATATCTTTAAAGAAGCGGGAATTGAGCCAGATATCATTCACGCTGTATTACATCAGGATATTGGCAACTTTACGCACAGTTTAGCAAAAGCAGAATTATTATCAGTCAAACGAAATGATGATAAATTCAAATTATCACAGGAAGCTTTTGTGCGTGTATTAAATTTAGCTCAAAAAGCATCATCTAAATTAATTGATCCAGATGTATTGCACACAGAATCTGAAAAAGCGTTATACGATAAATATTGTCATATCCAGGAAGCGTTTCGGAATTCAAGTGGAGAAGCTGGAGAAGAATTAAAACTTTTGGAGCAATTGACGGATCCGATTCACCAATTTTTTGAACAAAATATGGTAATGGTAGATGATGAAGAAATCCGTAATAATCGGTTGGCGCTTTTGTACCAAATCGGTCAGCTTATTTATAACTATGCTGATGTAACAAAAATTGAATGGAAACAAAGCTTTTAA MVTDALFEIGLEEMPARFIDDAEKQLNDKTVAWLKSLRIPYKNLATFSTPRRLAVFIEGLSEQQTTIKEEVKGPAEKIAKDESGNWTKAAIGFTKGQGKTTNDIYTKPVNGTTYIFVQKHIEGNNTFDLLPGFKDIILSINFGKNMRWGAQTMRYARPIRWLVGLCGSTVVPFEVAHVKSSNMTYGHRFLGTKIAINNPKQYEEKLLQQFVIADAKKREAAILQGIHQLEQEHSVHIPIDHELLHEVRNLVEYPQAFLGSFEHAFLSIPEEVLIISMKEHQRYFPVRTNTGGELLPHFVGIRNGDDTSLETVIKGNEKVLHARLSDAAFFYEEDRKRSLSDFLTKLQRVVFQEDLGTIYEKVERVIILTRLISQHLELPESDINRAVRAAELSKFDLTTSMVNEFTELQGVMGEKYAVFYGEDAIVAQAIREHYLPKSANGVLPETIAGTIVSMADKLDTIAGCISVGLLPTGSHDPYGLRRQAIGVLRMLLTNKWNITVEKLIELTLQVYATSKVKLENQSEAATIINDFFLHRATYIFKEAGIEPDIIHAVLHQDIGNFTHSLAKAELLSVKRNDDKFKLSQEAFVRVLNLAQKASSKLIDPDVLHTESEKALYDKYCHIQEAFRNSSGEAGEELKLLEQLTDPIHQFFEQNMVMVDDEEIRNNRLALLYQIGQLIYNYADVTKIEWKQSF NA NA NA NA NA AK015_01762 630 ccpN COG0517 Transcriptional repressor CcpN ATGGAATTATCAAGTAGACAAGAAGAAATAATTGAAATTGTAAAAGAAAACGGCCCGATAACGGGGGAGAATATCGCTGAGCGTCTTCACTTAACAAGGGCTACATTACGTCCAGACTTGGCAATTTTAACAATGGCAGGTTTTTTAGATGCAAGACCCCGTGTGGGGTATTTTTATACTGGTAAAACAGGAAATGAATTATTAACAGAGCAGATTAAAAAAATTAGAGTATATGAATATCAACATGTCCCTATTGTTGTAAAAGAGAGCGTTTCGGTATACGATGCGATCTCAACGATGTTCTTAGAAGATGTAGGGACCCTTTTCGTAGTTGATGATCAGTCGTGTTTAACAGGCGTACTATCGCGAAAAGATTTACTTCGCGCAAGCATTGGGAAACAAGATTTAAATGCTTTACCTGTACATATCATTATGACACGAATGCCTAATATAACAGTATGTCAAAAAGATGATTTGTTGGTAGAAGTTGCTCAAAACTTGATTAGTAAACAAATTGATGGTATACCTGTCGTGAAAAAAACAAAGTCTGGATTGGAAGTTGTTGGAAGAGTTACAAAAACAACAATTACAAAAGCTTTTGTTGAATTGGTTATGGAAGACCACATTTAA MELSSRQEEIIEIVKENGPITGENIAERLHLTRATLRPDLAILTMAGFLDARPRVGYFYTGKTGNELLTEQIKKIRVYEYQHVPIVVKESVSVYDAISTMFLEDVGTLFVVDDQSCLTGVLSRKDLLRASIGKQDLNALPVHIIMTRMPNITVCQKDDLLVEVAQNLISKQIDGIPVVKKTKSGLEVVGRVTKTTITKAFVELVMEDHI NA NA NA NA NA AK015_01763 801 yqfL COG1806 Putative pyruvate, phosphate dikinase regulatory protein ATGTTTATGCAACCTGTATATGTTTTATCCGATTCCGTAGGGGAGACAGCTGAGTTAGTCATTAAGGCAGGCTTAAGTCAGTTTAATCACGGAACATATAAAATTCAACGTATACCCTATGTAGAAGACAAAAAAACAATCGATGAAGCTTTACAACTCGCTGTAGAAAGTAAAGGGCTCATTGGTTTTACACTTGTTGATCCTATTCTAAGGAACTATGTAAATGAACGTGCCAAACAAATGAACCTTGAAGCTATTGACATCATGGGCCCGGTGTTGAAATCCATGGAACGTGTTTTTGAACATGCACCGCGAATGGAAGCAGGGCTAGTCCATAAGCTTGATGAAGACTATTTTAAGCGGGTAGAGGCAATTGAATTTGCGGTAAAGTATGACGATGGGCGTGATTCGAGAGGAATTGCTAGAGCAGACATTGTTCTAATCGGGGTATCTAGAACATCTAAAACTCCTCTATCACAATATTTGGCTCATAAACGCTTAAAAGTTGCCAACGTACCGATTGTACCAGAAGTCGATCCTCCAGAAGAATTGTTTGAAGTGGATGCTTCAAAATGTATCGGATTACGTATAAGCGCTGATAAGCTGTATGAAATACGTAAAGAAAGGCTTCGTGCTTTAGGTTTAGGAGATCAGGCAACATATGCGAATATGGAACGTATTCATAAAGAACTGGCGTATTTTGATAAAATTGTTGATAAAATTGGTTGTAAAGTCATCGATGTATCAAATAAAGCTGTTGAGGAAACGGCTAACAGTATTAGACAAATCGTAAAAAAATAA MFMQPVYVLSDSVGETAELVIKAGLSQFNHGTYKIQRIPYVEDKKTIDEALQLAVESKGLIGFTLVDPILRNYVNERAKQMNLEAIDIMGPVLKSMERVFEHAPRMEAGLVHKLDEDYFKRVEAIEFAVKYDDGRDSRGIARADIVLIGVSRTSKTPLSQYLAHKRLKVANVPIVPEVDPPEELFEVDASKCIGLRISADKLYEIRKERLRALGLGDQATYANMERIHKELAYFDKIVDKIGCKVIDVSNKAVEETANSIRQIVKK NA NA NA NA NA AK015_01764 1818 dnaG_2 COG0358 DNA primase ATGGCTAATCAAATTCCTGAAGCATTAATTGAAGAGATTCGTAAGGCGAATGATATTGTTGATATAATAGGCGATTATGTCCAGCTAAAAAAACAAGGAAGAAACTATTTTGGATTATGCCCATTTCATGGTGAAAAGACGCCATCTTTTTCTGTGACGCAAGACAAGCAAATTTTTCACTGTTTTGGCTGTGGTAAAGGTGGCAATGTAGTCACTTTTTTAATGGAGATAGAGAGCTTTTCTTTTTACGAAGCTATCCAGTTTTTAGCTGAACGTAGCGAAATTTCATTGCCTCAAAGTATTCAAAGTCAAAAGGATACTAATTTATCTAAAGAAACGCAAGATATGCTATCTGCACATGAATGGTTGACGAAATTATATCATCATTTATTACGCTTTACAAAAGCAGGAAAGGAAGGTTATGCGTATTTAAAAGATAGAGGGATAGATGAGGAAGCAGCAGATATTTTCCAGCTAGGCTTTAGCCCCATTGCCGATCATCTAACAGTCGAGTTCTTGAAAAAGAAAGGTTTTCATGAACAATTACTTGTAAAAGCAGGCTTGCTTCAGATGAATGAAGCTGGGCATGCCTCCGATCGTTTTCGTGGTAGAATTATTTTTCCTATTCGAAATCATTTAGGAAAGACAGTTGCCTTTGGAGGACGTGCAGTTGGCGATTATAAACCTAAATATATAAATAGTCCTGAAAGTGAATTGTTCCACAAAGGAAAATTATTATATAATTTTGACCTGGCAAAAAGGTACATTCGTAAAGAAGACGAAGTGGTTTTATTAGAAGGCCAAATGGATGTCATAGCTGCCCATCAAGCGGGGGTTCGTAATGCGGTAGCTACGCTTGGCACAGCCTTAACAGAATTCCAAGCTAAGCTGTTAAAACGTTATGTAAACAACGTCATTATTTGCTACGATGGAGATCGTGCTGGGCTAGATGCTGCTTATAAAGCTGCTGTCATATTACGCCAATGTGGATGCGAAGTAAGAGTTGCATACCTACAAGCAAATATGGATCCTGACAGTTTTATTCGCATGCATGGAGGACAAGCTTTTATTGATGAGGTCATTAAAGCTAGCGATACATTTATAACTTTTTATATGCGATTTTTAAAAAAGGATTATCAACTAAATCTAGAAGCTGACCGTATACAATATGTTGAGAAAGTCCTAAAGCAGATTGCAACGATTGACAGCTCTATAGAACGGGAATATTACCTAAAAGAGTTGAGTAATGAATTTGAAATATCTATGGAAGCTCTCATGGATGAAATTTCAGGTTATCAAGAAATGTTTGCTAGAAATAAGGATAATCAACAAAAGAACAGATATACTAGTAGTACAGTATGGAATAAGGTGAGATCGAAATTATTGCCAGCATTTCATAATGCAGAACGGCAATTAATTGCATATATGTTACAAGACGTAAGTATAGCTGAAAAGGTACAAGAAAAAATTGGAGCAAGTTTTCATATAGATGCACATAAAATTATTGCTACTTATTTATATGCTTTTTATGAAGAAGGAAATGCCCCTAATGTCAGTTTGTTTTTAGAAAGGATAACAGATACAAATTTGCAACAGGAAATAACAGAGATAGCAATGTTACCATTACAAGAAAATATAAGTGACAAACAACTTAATGATTACGTCCATACGATTATAGCTAAGCAAACGGATAAAGTGACGATACAATCATTACGAGAGCAACAAAAGGAAGCAGAAAAACAGAATGACCCAATAAAGGCAGCGCAAATTGCCAAACAAATTATTGAATTGAATCATCAGTTGAAGCATACAAATTGA MANQIPEALIEEIRKANDIVDIIGDYVQLKKQGRNYFGLCPFHGEKTPSFSVTQDKQIFHCFGCGKGGNVVTFLMEIESFSFYEAIQFLAERSEISLPQSIQSQKDTNLSKETQDMLSAHEWLTKLYHHLLRFTKAGKEGYAYLKDRGIDEEAADIFQLGFSPIADHLTVEFLKKKGFHEQLLVKAGLLQMNEAGHASDRFRGRIIFPIRNHLGKTVAFGGRAVGDYKPKYINSPESELFHKGKLLYNFDLAKRYIRKEDEVVLLEGQMDVIAAHQAGVRNAVATLGTALTEFQAKLLKRYVNNVIICYDGDRAGLDAAYKAAVILRQCGCEVRVAYLQANMDPDSFIRMHGGQAFIDEVIKASDTFITFYMRFLKKDYQLNLEADRIQYVEKVLKQIATIDSSIEREYYLKELSNEFEISMEALMDEISGYQEMFARNKDNQQKNRYTSSTVWNKVRSKLLPAFHNAERQLIAYMLQDVSIAEKVQEKIGASFHIDAHKIIATYLYAFYEEGNAPNVSLFLERITDTNLQQEITEIAMLPLQENISDKQLNDYVHTIIAKQTDKVTIQSLREQQKEAEKQNDPIKAAQIAKQIIELNHQLKHTN NA NA NA NA NA AK015_01765 1125 sigA COG0568 RNA polymerase sigma factor SigA ATGGCTGAAAATAAACCTTCGCAAACGAAGGAAAGTGAACTTGAGCAAACTTTAGAACAAGCAAAGGATCAACTGGTTGAAATTGGTAAAAAACGTGGTGTTCTTGCTTACGAAGAAATAGCCGATAAATTATCTAATTTCACAATAGAGTCTGATCATATGGATGAATTTTATGAGTACCTAGGAGATCAGGGGGTCGAAGTAATTGGTGAATCAGAAGAAGACCCTACGATGCAACAAATTGCAAAAGAAGAAGAATTCAATCTAAACGACCTTAGTGTACCACTAGGTATTAAAATAAATGATCCTGTACGTATGTATTTGAAAGAAATTGGGCGTGTTGATTTATTGTCAGCAGCTGAAGAAATTGATTTGGCAACAAGGATAGAACAAGGAGACGAAGAAGCTAAACGCCGTCTTGCTGAAGCGAATCTTCGTTTAGTTGTCAGCATCGCAAAACGTTACGTAGGACGCGGTATGTTGTTTTTAGACTTAATTCAAGAAGGAAACATGGGACTTATTAAAGCTGTGGAAAAATTTGATCACCGAAAAGGATTTAAATTTAGTACCTATGCTACATGGTGGATAAGGCAAGCAATTACAAGAGCGATAGCTGATCAAGCTAGAACTATTCGAATTCCAGTGCATATGGTTGAGACAATCAACAAATTAATTCGCGTCCAAAGACAATTGTTACAAGACCTAGGTAGAGAGCCAACACCTGAAGAGATTGGAGAAGAAATGGAACTTTCTCCGGATAAAGTACGAGATATTTTAAAAATTGCTCAGGAACCAGTCTCATTAGAAACCCCTATTGGCGAGGAAGATGACTCACATTTAGGTGATTTTATTGAAGATCAAGAGGCTGTCTCGCCTTCTGATCATGCGTCCTATGAACTGCTCAAAGAACAACTTGAAGATGTACTAGATACGCTAACAGACCGCGAAGAAAATGTTCTTAGGTTACGCTTCGGTTTAGATGACGGTCGTACTAGAACTTTAGAAGAAGTTGGCAAAGTTTTTGGGGTAACCCGTGAAAGAATTCGTCAAATTGAAGCAAAAGCTTTACGTAAATTAAGACACCCTAGCAGAAGCAAGCGATTAAAAGATTTTCTAGACCAATAA MAENKPSQTKESELEQTLEQAKDQLVEIGKKRGVLAYEEIADKLSNFTIESDHMDEFYEYLGDQGVEVIGESEEDPTMQQIAKEEEFNLNDLSVPLGIKINDPVRMYLKEIGRVDLLSAAEEIDLATRIEQGDEEAKRRLAEANLRLVVSIAKRYVGRGMLFLDLIQEGNMGLIKAVEKFDHRKGFKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINKLIRVQRQLLQDLGREPTPEEIGEEMELSPDKVRDILKIAQEPVSLETPIGEEDDSHLGDFIEDQEAVSPSDHASYELLKEQLEDVLDTLTDREENVLRLRFGLDDGRTRTLEEVGKVFGVTRERIRQIEAKALRKLRHPSRSKRLKDFLDQ 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 AK015_01766 378 hypothetical protein ATGAAAAGGAACCCTGTTATCCCTTTTGCTTTAATTGCAATAATAGGGATACTGACAATCATTGTGATATCATTTGTAGGGATAGGCCAACGAGATGATATCCAACAAGCCGAAGAAGGCGGTGGGGAACAGGCTGAGGAAAGCCAAGAAGGGGAAACAACGGATGACCCTGAAGCAATTTATGAAGCAAATTGTGCAAATTGTCATGGTGGTGACTTATCTGGGGGAATGGGGCCAGACTTAACCCAGGTAGGTAGCAAATTATCAAAAGATGAGATTCAAAATATAATTATTAACGGAAAAGGGCAAATGCCTCCAGGTTTAGCCACAGAATCTGAAGCACAAGTGTTAGCAGAGTGGTTAGCTGAAAAGAAATAG MKRNPVIPFALIAIIGILTIIVISFVGIGQRDDIQQAEEGGGEQAEESQEGETTDDPEAIYEANCANCHGGDLSGGMGPDLTQVGSKLSKDEIQNIIINGKGQMPPGLATESEAQVLAEWLAEKK NA NA NA NA NA AK015_01767 720 trmK COG2384 tRNA (adenine(22)-N(1))-methyltransferase GTGAAGGCTAAGATTTCAAAACGGCTAAAGTTAGTAGCTTCTTTTCTGTCTACAGGAGCAAAATTTGCAGATATCGGATCTGATCATGCCTATTTGCCGTGCTATGTCTGTCAAAAAGACCCCACAGCAACTGCTGTTGCTGGAGAAGTGAATGTAGGCCCATTTCAAAGGGCTATAGAAACCGTAAAGGCATACGGCTTAGAACAACAAATTGATGTTCGACTTGGTAATGGGCTGGAGGTTTTTGAAGCCGAAGAAGTAAACCAACTGGTGATTGCTGGTATGGGAGGTTCATTAATTCATGATATTTTGGAGAGTGGAAAAACGAAGCTCACCTCGGTGGAGCAGATTATTGCTCAACCAAATGTAGATGCAAGAGCTGTTCGGAAATGGATGATTCATCATGGATTTACGATTACTGATGAAGATATAATAGAAGAGAACAGGCATTGTTATGAGATTATTAATGCAAAGCGGTTAGATACTCCAGATAATAAACAATTAGATGAAAAAGATTTATTGTTTGGCCCCATATTATTGCGTAGTAAACCACCTGCATTTTATAAAAAGTGGAACGAAGAAGCTCGTAAGTTAGAATACGTGTTACAGCAGTTAAAACAAGCGAAGCAAGTAGACCAAAAGAAGTATGAGCAATTTACAAAAGAGTGGAGATGGATGAAGGAGGTATTAAGTAATGAAGCAGGAACTTACTACTCGTGA MKAKISKRLKLVASFLSTGAKFADIGSDHAYLPCYVCQKDPTATAVAGEVNVGPFQRAIETVKAYGLEQQIDVRLGNGLEVFEAEEVNQLVIAGMGGSLIHDILESGKTKLTSVEQIIAQPNVDARAVRKWMIHHGFTITDEDIIEENRHCYEIINAKRLDTPDNKQLDEKDLLFGPILLRSKPPAFYKKWNEEARKLEYVLQQLKQAKQVDQKKYEQFTKEWRWMKEVLSNEAGTYYS NA NA NA NA NA AK015_01768 1116 COG0327 GTP cyclohydrolase 1 type 2 ATGAAGCAGGAACTTACTACTCGTGATGTGTTTCAGGTGATAGAGCAACTGGCTCCAAAGACGTTCGCATATGACTGGGATCCAGTTGGTTTGCAAGTTGGAAGTTACAACAAATCAGTAAGTAAAGTAATGGTTACGCTAGATGTGGTGGAAGCAGTTGTTGATGAGGCAATTGAAAAAAACGTAGATGTTATTGTTGCTCATCACCCTTTATTATTTAAAGCCGTACAGAAAATTAATACAAACACATCAATAGGGCGTATTTTACAGAAATTATTGACCAATGATATTACCGTATATGCAGCACATACTAATTTAGATATAGCAAAAAATGGCGTTAACGATGTATTATGTAAAATAATTGGAATAGAAAATACTCATGTTCTAGTTGAGAAAGAAACAGAACAATTGCTCAAGCTGGTTGTTTATGTACCTAAAACCCATATTGAAGAAGTAAGAAATGCAATTAGTGATGCTGGTGTAGGGTATATTGGTAATTACAGTCATTGTACTTTTCAAACAGAAGGACAAGGAACATTCAAGCCTTTAGACGGAACAAATCCATATATTGGAAATGTGAACGAATTAGAAAAGGTGGAGGAAGTGAAGCTAGAATCTATTATGGAAGAAAGCAAGCTGTCTTCTGCATTAACTGCAATTCGTCAATCTCATCCATACGAAGAGCCAGCATACGATGTATATCCATTAAGAAATAAAGGGGAAGTATATGGTCTTGGAAGGATAGGCGAACTAGTAAATCCTACGCAATTATCCGATTTTTGTGAGCAGGTAAAAACAACTTTAGAAGTGGATTGCGTACGCGTTACGGGAAAAATGGATAAGCAAGTGAAAACTGTAGCAGTTCTTGGCGGAAGTGGGGAGAAGTTTATTCATCAAGCTAAGAAAAAAGGGGCAGATGTTTTTATAACAGGTGACGTGACATTTCATCAAGCGCAAGACGCTCAGGAAATGGGGTTAGCAATAATAGATGTTGGTCACTATGCGGAAAGCGTGATGAAAGCTTCTGTACAAGAATACTTGGCAACTAGCCTTAATGGGGATAATGTTGAAATTATAGTATCAACAACGAATACAGATCCATTTCACTATGCATAA MKQELTTRDVFQVIEQLAPKTFAYDWDPVGLQVGSYNKSVSKVMVTLDVVEAVVDEAIEKNVDVIVAHHPLLFKAVQKINTNTSIGRILQKLLTNDITVYAAHTNLDIAKNGVNDVLCKIIGIENTHVLVEKETEQLLKLVVYVPKTHIEEVRNAISDAGVGYIGNYSHCTFQTEGQGTFKPLDGTNPYIGNVNELEKVEEVKLESIMEESKLSSALTAIRQSHPYEEPAYDVYPLRNKGEVYGLGRIGELVNPTQLSDFCEQVKTTLEVDCVRVTGKMDKQVKTVAVLGGSGEKFIHQAKKKGADVFITGDVTFHQAQDAQEMGLAIIDVGHYAESVMKASVQEYLATSLNGDNVEIIVSTTNTDPFHYA NA NA NA NA NA AK015_01769 1311 cshB COG0513 DEAD-box ATP-dependent RNA helicase CshB ATGAATTATACATTTCAAGACTTTTCTTTTGCTCCAGTTATGGAGCAAGTAATTAAACAATTAGATTTTCACGAACCAACAGCAATTCAAAAACAGGTTATTCCAGCAGTTTTAGAGGGTAAGAGTGTAGTTGGCCAATCAAAAACAGGTTCAGGAAAAACGCATGCGTTTCTATTGCCGTTGCTAAATGCAATCGATGAGAATAAACAGCAGGTGCAAGTTGTGATAACAGCTCCAACGAGGGAGCTTGCAACACAGTTATATAATGAAGTAAAACAAATCACTCGCTATGCGGATAAAAACGAAATTTGGACAGCAAAGCTATTGGTTGGCGGTACTGATAAACAAAAAATGATGGAAAAATTAAAGCAACCTCCTAAAATTGTTGTCGGAACACCTGGAAGAATATTAGATATGATAAAGGAGAACGCAATATCTATTTACACTGCGAATAGTTTTGTTATCGATGAAGCGGATTTAATGTTGGATTTAGGTTTTATTCAAGAAGTGGATCAGTTACTCGTTCGCTCTCATCCTAAGGTTCAAATTTTGGTTTTTTCCGCAACAATCCCACAACCATTGTATTATTTTTTAAAGAAATATTTACAACAGCCAGTACATGTAAAAATTTCCGATGACATTTATCCAGAAAAGATGGAGCATCGACTAATTTATTTAAAACATAGAAATGAAGCGTCAATTATTGCTGAGATTTCAAAGGTTATTCAGCCATATTTAGCGATTATTTTTACAAATGGAAAAGAAAAAGCGAATGAGTTAGCAGCCTCTCTGCAAGAGAAGGGAATGGAAGTGGGGCTCATTCATGGCGGTTTATCTCCTCGTGAACGTAAGCGTGTATTAAAAGAAATTCAAAACTTACGCTACCAATATATTGTAGCTACGGATCTCGCTGCCCGCGGTATTGACATTAAAGGAGTTAGTCACGTAATTAATGCACAGCTACCGAAAGAAGAGGATTTTTATATTCATCGGGTCGGCAGAACTGCACGTGCGGGTATGGAAGGAACAGCAATCAGCATTTACCAATCTGATGATTTGTCGCTCATTGAAAAGCTAGAAGAAAAAGGTTTAGCTTTTATGTATGTAGATGTTCGCAATGGGGAGTGGCAGGATGCAAAACCTTGGAATCAACGTGTGCTTCGTACAAAACAGGGCACTGATATGGATAAAGAAGCGTGGAAAAGAGTAAAAAAGGCACAGAAAGTAAAGCCTGGATATAAGAAAAAAATGAAACGGGAAAAAGAGATAATTAAAAAACGGTTATCTAAAACCAAGCATAAAAAGAAATAG MNYTFQDFSFAPVMEQVIKQLDFHEPTAIQKQVIPAVLEGKSVVGQSKTGSGKTHAFLLPLLNAIDENKQQVQVVITAPTRELATQLYNEVKQITRYADKNEIWTAKLLVGGTDKQKMMEKLKQPPKIVVGTPGRILDMIKENAISIYTANSFVIDEADLMLDLGFIQEVDQLLVRSHPKVQILVFSATIPQPLYYFLKKYLQQPVHVKISDDIYPEKMEHRLIYLKHRNEASIIAEISKVIQPYLAIIFTNGKEKANELAASLQEKGMEVGLIHGGLSPRERKRVLKEIQNLRYQYIVATDLAARGIDIKGVSHVINAQLPKEEDFYIHRVGRTARAGMEGTAISIYQSDDLSLIEKLEEKGLAFMYVDVRNGEWQDAKPWNQRVLRTKQGTDMDKEAWKRVKKAQKVKPGYKKKMKREKEIIKKRLSKTKHKKK NA NA NA NA NA AK015_01770 894 nfo_1 COG0648 putative endonuclease 4 ATGTTGAAAATAGGGTCACATGTATCCATGAGCGGAAAGAAAATGTTGCAAGGCTCTTCAGAAGAAGCGGTTTCTTATGGGGCTAATACATTTATGATTTATACCGGCGCACCGCAAAATACGCGAAGAAAGCCAATTGAAGAATTGAATATTGGAGCTGGGAAGGCTCATATGAAAGAGCATGGTATAGAAGAAATTGTAGTTCATGCTCCATACATTATTAATATAGGCAATTCTACAAAACCACAAACATTTCAGCTAGGTGTAGATTTTTTAAGAAGTGAAATCGATCGAACAGATGCAATCGGAGCGAAACAAATTGTCCTTCATCCTGGAGCCCATGTTGGAGCGGGTCCTAAGACAGGTATTAAGCAAATAATTAAAGGGTTGAATGAAGTTCTAGAAAAGGATAAGAATGTACAAATAGCTCTTGAAACAATGGCAGGTAAGGGATCTGAAATAGGAAGAAGTTTTGATGAATTAGCTCAAATTATCGATGGAGTTACTCATAATGAAAAATTATCTGTTTGCTTTGATACTTGTCACGTACATGATGCTGGATATGACATTGTAAATGATTTTGATGGTGTATTACATCAATTTGATAAAATAATCGGGGTCAACCGTATAAAAGTTATTCATATAAATGATAGTAAAAATGAAGTGGGTGCGCATAAAGATAGGCATGAGAACATTGGTTTTGGCTATATTGGCTTTGATGCTTTATCATCTATTATTCATCATCCGCAATTAATGGACTTGCCTAAAATTTTAGAGACACCATATGTAGGAGAAGACAAAAAAAATAAGAAGCCTCCGTATCGTTTGGAGATAGAAATGATCAAATCCAGCCAATTTGACAGTAAACTAAAAGAAAAAATTATCGCACAATAA MLKIGSHVSMSGKKMLQGSSEEAVSYGANTFMIYTGAPQNTRRKPIEELNIGAGKAHMKEHGIEEIVVHAPYIINIGNSTKPQTFQLGVDFLRSEIDRTDAIGAKQIVLHPGAHVGAGPKTGIKQIIKGLNEVLEKDKNVQIALETMAGKGSEIGRSFDELAQIIDGVTHNEKLSVCFDTCHVHDAGYDIVNDFDGVLHQFDKIIGVNRIKVIHINDSKNEVGAHKDRHENIGFGYIGFDALSSIIHHPQLMDLPKILETPYVGEDKKNKKPPYRLEIEMIKSSQFDSKLKEKIIAQ NA NA NA NA NA AK015_01771 285 hypothetical protein ATGGTAAATTTTATTAAAGATATGGTTCAAAAAAAATTAAAACAAATATCTGCTCAAGAATTAATTCATTACGGAAAACAATACGGGTTTTCACTAACGCAACAAGAAGCCGAAATGATAATGGCATACTTAAAGCAACATCCTGTAGATCCATTTGATGCAGAAGGACGAAAGCAAATGTTTCAACAACTAGCACGCATCACTGACCCTGCAACAGCAAAAAAAGCACAAAAATTATTTAATGAGTTAATTCACTCTTATGGGTTAGGCTACTTATTTGAATAA MVNFIKDMVQKKLKQISAQELIHYGKQYGFSLTQQEAEMIMAYLKQHPVDPFDAEGRKQMFQQLARITDPATAKKAQKLFNELIHSYGLGYLFE NA NA NA NA NA AK015_01772 381 hypothetical protein ATGGATCAATATCCCAATCGAGGAATGAAGGATGTTGAAGAACCCCCAAATTATGGTGAGCAGCGTAAAAACCAAGATTTTGTTGGTATAGAACCAGATAGCTCAAGAGATGAGGAATTTGCTGCTGAGATGACTGCAGATGATGCCGATGATGCCGATACAGAAATAGCTGGAGATATGGATGAAAATACTACCTTTGGATGGGTCGGTATTGCCTTATCCATTATTTCTTTCTTTATCTGGCCAATTATCTTTGGTGTAGCTGGCATTGTTCTTGGGTTTATGTCAAGAAGTAGGGGAGCTGATGCATTAGGAAATATTGCTATTGCAGCTGGCGCAGTTTCCATTCTTATCACTTTGTTCATTTTACCATTTGTTTAA MDQYPNRGMKDVEEPPNYGEQRKNQDFVGIEPDSSRDEEFAAEMTADDADDADTEIAGDMDENTTFGWVGIALSIISFFIWPIIFGVAGIVLGFMSRSRGADALGNIAIAAGAVSILITLFILPFV NA NA NA NA NA AK015_01773 348 hypothetical protein ATGGATTTTCCCAAAAAATTATTTTCCTTATTTATTTGTATAATGGCTATATATATCATATATCAGGATATCACACAAGAAAGCCCCCATTCTAGAATAGAGCTTGAAAAGCATAGTGATATGATTTCTCCAACGATGTTTCATGTCGTCCCCGTTAAGGTGGAACCAAATGATACGGTGCTTTCTATTGTAGAACAAATTAACCCTAATATACAAAATGAGTTGAATGTTAAGCGTATTTTAAACGATTTTAAATTGAGTAATCCTAACGCGGACCCTTTTTCCCTTACTACAGGTAAAATATATTATTTCCCAAAATATAGTAAAACATTATTATATGATCGTTAA MDFPKKLFSLFICIMAIYIIYQDITQESPHSRIELEKHSDMISPTMFHVVPVKVEPNDTVLSIVEQINPNIQNELNVKRILNDFKLSNPNADPFSLTTGKIYYFPKYSKTLLYDR NA NA NA NA NA AK015_01774 630 hypothetical protein TTGACTGTATTCGAGATGGAATGGATTGGAATTCTCATTACTGGTTTTGCTACTTTATTCCTTATTGGTGAAGTGTTAGTTAATATGCGAGGACTTTTCGGTCTATTAGGAATAGGGTTTATTACTGTATATTTTGGAGCATATGTTGAAACAAGTTCAATTATTATTATGCTTATTATTTACTTTGTTGGATTATTACTTATTATTATTGATGGGAAATTATTAAATGATGGGACACTTGCAACAATTGGTTTAGCAAGTATGCTTACAGCTGTTGCGCTTCCTTCACCAAGTTTCACATCAGGGTTATATGCTGTATTAGGAGTATTACTAGGTGGTGGGTCGTCACTTTTATTCTTAAAAGTTTTTAAACGTAGAGAAATGTGGAACAAAATCACTTTAAAAGACCAATTAACAAAGGAAGCTGGTTATAATTCCATGAATGAAACTTATGAGGGATTGGTAGGTGAAGAAGGCATTACACTTACTGATTTGCGCCCTGTTGGTACAATTCGAATTCATCGTAAAGATTACAGTGCGATATCAAATGGGCAATGGATCGAAAAAGATACAGCCATTAAAGTTGTTCAAGTTGATGGTACCCGTATTCTAGTAGAAAAAATAAATTAA MTVFEMEWIGILITGFATLFLIGEVLVNMRGLFGLLGIGFITVYFGAYVETSSIIIMLIIYFVGLLLIIIDGKLLNDGTLATIGLASMLTAVALPSPSFTSGLYAVLGVLLGGGSSLLFLKVFKRREMWNKITLKDQLTKEAGYNSMNETYEGLVGEEGITLTDLRPVGTIRIHRKDYSAISNGQWIEKDTAIKVVQVDGTRILVEKIN NA NA NA NA NA AK015_01775 1626 hypothetical protein TTGGAAATTGATATTCAAAAACTTATATTTGAATTTATCGGTGGGCTAGGTATTTTCCTTTTAGGTATTAAATATATGGGAGAAGGGCTTCAAAAATCAGCTGGTGATCGGTTGCGAGATATTTTGGATAAATTTACCAGCAATCCGTTTATGGGGGTCCTCGCTGGAATTATCGTTACTATTTTAATACAGAGTAGCTCAGGCACGACTGTCTTAACGGTAGGTCTTGTAAATGCTGGCTTTATGACGTTAAGACAAGCTATTGGCGTCATAATGGGTGCCAATATTGGTACCACGGTGACGGCCTTCATTATTGGAATTGACATAGGGGCCTATGCTTTACCAATCATTGCAGTTGGTTGTTTTCTTATATTTTTCTTTAAAAACCAAAAAACAAACGCGGTTGGACAAGCTGTGTTTGGCTTTGGTGCTTTGTTCTTTGGTTTAGAGCTAATGAGTAATGGAATGAAACCTTTACGTAGCTTAGAGGCCTTTCAAGAATTAACATTAAGTATGAGTGATACCCCAATTCTAGGAGTTGTTATTGGTACTGTATTTACTTTAATTGTTCAAAGCTCTAGTGCAACTATTGGAATATTACAAGGCTTATTCTCTGAAGGAGCAATGGATTTAAAGGCTGCTATACCTGTATTGTTTGGAGATAATTTAGGTACAACAATTACTGCTATCTTAGCTTCACTAGGAGCAACAGTTGCAGCAAAGCGTGCTGCGTTAACACATGTTATTTTTAACCTTATTGGAGCGACCGTTTTTCTAATTATTCTTGATTTGTTTACTGTCTTTGCTGGATTTTTACAGGATCAATTTGCACTAAGTCCAGAAATGACCATAGCGTTTGCTCATGGAAGCTTTAATATAACGAATACCATTATGCAATTTCCGTTTATTGGTGCTTTGGCTTGGATAGTAACGAAAATGGTTCCTGGTGAAGACTCCATCATTGAATATAAACCACAACATTTGGATCCCATTTTTATACAGCAATCTTCTTCATTAGCATTAGATCAAGCAAAATCAGAGCTTGTGCGCATGGGAGAGTATGCTTATAAAGGTTTGGAAGAAACCAATAAATATTTAAATACACATTTAATAAAACATGCTGAAATGGCGATGCAAATTGAAGGCGCCCTTAATAATTTAGATCGAAAAATAACCAATTATTTGATAAGTTTGTCGAAAGAATCGCTTTCAGAGTTGGAAAGTGCTAAACATTCAACATTATTGGATTCCGTACGAGATGTGGAACGAATTGGGGATCATTTTGAAAACATTGTTGAACTTATCGACTATAAAATTTCCAATAAAGTACACCTAACAGATGGTGCAAAAGAAGATTTAAATGAAATGTTTGAATTAACTATATCTACCGTAAAACAAGCGATTGAATCATTGGAAAATATGAATCGAGAAGAAGCCCTTTCTGTAATACAAAAAGAAGATCAAATAGATAAGATGGAAAGGAATTTCCGCAAACGCCATATTATACGTATGAATGAAGGTACCTGTAGCGGATCTGGTGGTATTGTGTTTGTAGATATCCTTAGTAATTTAGAACGAATTGGGGATCATGCAGTTAATATAGCAGAAGACGTTTTAGGAGAATAG MEIDIQKLIFEFIGGLGIFLLGIKYMGEGLQKSAGDRLRDILDKFTSNPFMGVLAGIIVTILIQSSSGTTVLTVGLVNAGFMTLRQAIGVIMGANIGTTVTAFIIGIDIGAYALPIIAVGCFLIFFFKNQKTNAVGQAVFGFGALFFGLELMSNGMKPLRSLEAFQELTLSMSDTPILGVVIGTVFTLIVQSSSATIGILQGLFSEGAMDLKAAIPVLFGDNLGTTITAILASLGATVAAKRAALTHVIFNLIGATVFLIILDLFTVFAGFLQDQFALSPEMTIAFAHGSFNITNTIMQFPFIGALAWIVTKMVPGEDSIIEYKPQHLDPIFIQQSSSLALDQAKSELVRMGEYAYKGLEETNKYLNTHLIKHAEMAMQIEGALNNLDRKITNYLISLSKESLSELESAKHSTLLDSVRDVERIGDHFENIVELIDYKISNKVHLTDGAKEDLNEMFELTISTVKQAIESLENMNREEALSVIQKEDQIDKMERNFRKRHIIRMNEGTCSGSGGIVFVDILSNLERIGDHAVNIAEDVLGE PGPT0002650_1777 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324 NA NA AK015_01782 612 sodA Superoxide dismutase [Mn] ATGGCTACATTTGAATTACCTGAACTACCATATGCTTACGATGCACTTGAGCCTACGATTGACAAGGAGACTATGAACATTCACCATACGAAGCATCATAACACGTATGTTACTAAATTAAATAGTGCTTTGGAAGGGCATGCTGAGCTTCAAAACAAATCACTACAAGATTTGATTAGCAATTTAGATGCTGTACCAGAAAACATTCGTACAGCAGTTAGAAATAATGGTGGTGGACATGCTAACCACAGTCTTTTTTGGAAGGTTCTTTCACCAAACGGTGGCGGCGAACCAACTGGTGAACTTGCTACAAAAATAGATGAAGCGTTTGGTAGCTTTGATAAGTTCAAAGAGCAATTTGAAAGCGCGGCAGCTGGCCGCTTTGGATCAGGTTGGGCTTGGTTAGTACTTCATAACGGAAATCTTGAAATTATGAGTACTCCTAACCAAGACTCTCCACTAATGGAAGGTAAAACGCCAATTTTTGGTGTAGATGTTTGGGAACATGCATATTACTTAAAATATCAAAACAGACGTCCTGAATATCTTTCATCCATTTGGAATGTTGTTAATTGGGATGAAGTAGCTAAAAACTATAACGAGGCTAAGTAA MATFELPELPYAYDALEPTIDKETMNIHHTKHHNTYVTKLNSALEGHAELQNKSLQDLISNLDAVPENIRTAVRNNGGGHANHSLFWKVLSPNGGGEPTGELATKIDEAFGSFDKFKEQFESAAAGRFGSGWAWLVLHNGNLEIMSTPNQDSPLMEGKTPIFGVDVWEHAYYLKYQNRRPEYLSSIWNVVNWDEVAKNYNEAK PGPT0004190_3842 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 AK015_01783 1272 hypothetical protein ATGCAGAAAAGCCGCTTTTTTTATTTTGGTAATACAAATATGAATAAGGATTTTATCTTTTTGCTTGTTATTGGCGGTTTATATTCATTAGGGCTATTTTTGTCCAATACGTTTGTAAACATTTACCTATGGAAGCAGTCGGGAGATTATGTAACAATCGCTGTATATAATTTAGCTATTTACATTTTTCAACCAATTACCTTTATTATTGCTGGTAGATTAGCTAAAAAAGTGGACAGAGTAATTGTGTTACGACTAGGAGTAACTTTTCTATCGTTATTCTTTCTAAATGTTCTTTTAATAGGTGATAAAGCTTCCTATTTTAACTTTCTTTTAGGTGGTTTGCTCGGTATAGGGTATGGGTTCTATTGGCTAGCGTTTAATGTATTGACTTTTGAAATTACTGAACCAGATACAAGAGATTTTTTTAATGGTTTTTTAGGAGTGTTACAATCATTTAGTGGTATGGTAGGTCCTTTATTAGCAGGTTTTATTATCGCTAGAATGGAAGCGAATATTGGCTATACCATTATATTTACTATTTCTTTTATCATGTTCATTTGTGCTGTAGTCATTAGTTTTTTTTTAAAGCCGCGAAAAGCAGAAGGCGATTTTTATTTTCGTCGTGTGCTAACAGAACGTTCCCATAATAAAAACTGGAAAAGAATTCAAAATGCCCACATCTTTCAAGGGCTTCGCGAAGGAATATTTGCGTTTATTATTGCGATTTGGGTGTTTTTAATTACCCAAAGTGAGTTTGCTTTAGGGATGTTTAATTTAGTTTTTTCTGGTCTTTCACTCGTGTTTTATTTTATTGGAACAAAATTTATTAAGCCCTCTATGCGAAAAAAATCAATCTTACTTGGCAGTCTAATCTTATACTTTGCCATTGCTTTAATTATTTTTGACATTAGCTACGCACAATTGTTAATTTATGCTGTATTTATTGGGGTTGCCTATCCTATTATTATGATTCCATATGTTTCCTTAACATATGATGTTATTGGGAAAGCTTGGAAGGCGAAGGAATATCGTGTGGAATACATTGTTGTACGTGAGTTATTCGTGAATATTGGTCGGGTTACATCCATTTCTGTTTTTTTACTAGCGATTACCTTTTTACAAGCTGAGATAATAATTCCCTATTTATTGGCTCTTTTTGGCGCAGGGCATATTTTCATCTATTTGTTTGTGAAAAAAATTTACTTGGAAAGTAATATGGAAAAACAAGTTTTTATAAAAGATCAGTTTACAAATGAAAAAAATCGTTAG MQKSRFFYFGNTNMNKDFIFLLVIGGLYSLGLFLSNTFVNIYLWKQSGDYVTIAVYNLAIYIFQPITFIIAGRLAKKVDRVIVLRLGVTFLSLFFLNVLLIGDKASYFNFLLGGLLGIGYGFYWLAFNVLTFEITEPDTRDFFNGFLGVLQSFSGMVGPLLAGFIIARMEANIGYTIIFTISFIMFICAVVISFFLKPRKAEGDFYFRRVLTERSHNKNWKRIQNAHIFQGLREGIFAFIIAIWVFLITQSEFALGMFNLVFSGLSLVFYFIGTKFIKPSMRKKSILLGSLILYFAIALIIFDISYAQLLIYAVFIGVAYPIIMIPYVSLTYDVIGKAWKAKEYRVEYIVVRELFVNIGRVTSISVFLLAITFLQAEIIIPYLLALFGAGHIFIYLFVKKIYLESNMEKQVFIKDQFTNEKNR NA NA NA NA NA AK015_01784 2067 pbpH_1 COG0768 Penicillin-binding protein H ATGAACAAAAAGAAGAAAAAAGCGCAACTTCCCTTTCGTATAAACCTATTGTTTTTTATCATTTTTCTAATGTTTGCAGGGCTAATATTGCAGTTAGGAGTTGTGCAAATATTAAACGGAGAGGAATTTCAAGAAGAAATTGAGCGTACTGTAAAAGATACAACGAAGGTTCCTGTCCCTAGGGGAAAGATTTATGATAGCAAACATCAAGTCATTGTCGATAATAAACCACTCTATTCCATTACGTACACCCCGCCCAAAGGGGTACAAGCTGAAGATCGCTTAGAAGTAGCAGAAAAACTTGCCAAGTATATTTCTATGGATAGTGATGGTGTAACAGAGCGCAATAAAAAGGAATATTGGTACTTGAAAAATAAAGAAATGGCAGATAAACGTTTAAAAGAAGAAGAAGCTGCTGAATTAGACAATGCGGAACAATACAACACTATTTTGGACAGAATTACGGAAGAGGAAATATCTGGTTTTTCTAAACAAGAATTAGAAGTAATTGCAATTAAAATGGAGTTAGATAAAGCTTATTCGCTAACGCCGCAAATTGTAAAAAACGAAGATGTCACTGCGGAAGAATATGCTCAAGTTTCTGAGCATTTAGCGGAACTTCCTGGTATTAATGCGACTACAGATTGGAATAGAGACTACCCATTTAATGATACAATGAGAAGTTTGCTTGGATCGATAACATCGCAAGAACAAGGGATACCTGCGGATAAAGAAGAGAACTTTCTAACGAAAGGATACAGCAGGAATGATCGTGTAGGTAAAAGCGGTTTAGAAGAATATTATGAAGATGTACTTCGTGGTCGTAAAGAACAAATTCAATATACAACCACAAAGTCTGGGGATGTAGTGGATAGCAATACCGTAGTGGAAGGTAGACGTGGAAAAGATCTAGTGTTAACTATGGATATCGATTTCCAAGAAAAAGTCGATAAAATTGTACGAGAAGAGTTGAAAACTGCAGTTCAAAAACATCCTTATGAGAACAGGTATTTAAAAGATGCGCTAGCAGTAGTAATGAATCCTAAAACGGGTGAAATATTAGCTGTAAGCGGTCAAACAAGAGATGGTAATGACTATAAGGATGCAACGATTAAAACACTTTATGATGCACATCGTCCAGGGTCAGTTGTAAAAGGGGCAACGGTACTAGCTGGTTTAGAGTCAGGTGTCATATCTCCGGGGCAGCGTTTTAATGATTCACCGTTAAAAATTAAAGGGACACCACAAAAGGGGTCTTATAGAAGTTTAGGTTCAGTCAATGATATCGATGCGTTGAAAAAATCATCCAACGTATATATGTTTTACATTGCGTTAAAAATGGGAGGCGAAAATCGATATCCTTTCCCAAACAACTCAAAAGCAGCATTTGATCCAGCAGCTTGGCAAGTAATGCGCAATTACTTTCAACAGTTTGGACTAGGAGTCAGAACGGGTATTGATTTTCCATATGAAAGTATCGGGTATGAAGGACCTAAAATGTCTAACGCAGGGCTTTTAATGGACCAAGCTATTGGACAGTATGATACGTATACAACGATGCAGCTGGCGCAGTATGTCTCCACAATTGCTAATAATGGTTACCGGACACAGCCGCATTTCTTAAAGGAAATACGGGAACCGAGTAGATCGGATAAGCAATTAGGGGGTGTATATCGTAGTGAAAATACAAAAGTGTTAAACCAAATTCAAATGGACCAATCCTATATTGAGCGCGTTCAAGAAGGATTTCGTCAAGCTTTTCAAGAACAAGGGGGAACAGTATATTCTTTCGGTAGTTCCAAGGATTACAAACCGGCAGGAAAATCTGGTACAGCACAAAATGAGATTTATGAAGATGGTGAGTTGGTTGCTGAAACAGAGAACCTCTCCTTAATAGGTTATGCACCTTATGATGATCCAGAAATTGCTCTTGCGGTAATGGTTCCCAATACAGGGCTAGGCAATGGTTATCGGATTAACTATGAGATTGGTTTTAAAATAATGGATGCATATTTTAATGCGCAGAAAGATAACAACAAAGATGACAAAGAACAAGAAGATGAATAG MNKKKKKAQLPFRINLLFFIIFLMFAGLILQLGVVQILNGEEFQEEIERTVKDTTKVPVPRGKIYDSKHQVIVDNKPLYSITYTPPKGVQAEDRLEVAEKLAKYISMDSDGVTERNKKEYWYLKNKEMADKRLKEEEAAELDNAEQYNTILDRITEEEISGFSKQELEVIAIKMELDKAYSLTPQIVKNEDVTAEEYAQVSEHLAELPGINATTDWNRDYPFNDTMRSLLGSITSQEQGIPADKEENFLTKGYSRNDRVGKSGLEEYYEDVLRGRKEQIQYTTTKSGDVVDSNTVVEGRRGKDLVLTMDIDFQEKVDKIVREELKTAVQKHPYENRYLKDALAVVMNPKTGEILAVSGQTRDGNDYKDATIKTLYDAHRPGSVVKGATVLAGLESGVISPGQRFNDSPLKIKGTPQKGSYRSLGSVNDIDALKKSSNVYMFYIALKMGGENRYPFPNNSKAAFDPAAWQVMRNYFQQFGLGVRTGIDFPYESIGYEGPKMSNAGLLMDQAIGQYDTYTTMQLAQYVSTIANNGYRTQPHFLKEIREPSRSDKQLGGVYRSENTKVLNQIQMDQSYIERVQEGFRQAFQEQGGTVYSFGSSKDYKPAGKSGTAQNEIYEDGELVAETENLSLIGYAPYDDPEIALAVMVPNTGLGNGYRINYEIGFKIMDAYFNAQKDNNKDDKEQEDE PGPT0023930_466 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465 NA NA AK015_01785 657 phoU COG0704 Phosphate-specific transport system accessory protein PhoU ATGCAGACGAGAGGGCAGTTTGACCAAGAACTGAAAGAAATAGATCAAGAAATTGTTGAATTAGCTAATTTAACAGAGAAAGCATTGGATAATGCTGTTCGGGCGTTATTCAATCAAGATATTGGCTTGGCAGAACAAGTTATTGAAGGCGATAAAGTAATTGATAAAAAAGACTTAGAAATTAATGATAAAGTAGTGCTGTTAATAGCTAAACAAAACCCTGTTGCAACAGATTTGCGTCGTTTAATAACAGCCATTAAAATTGTCGCTGATTTAGAGCGAATGGCAGATAATGCAAGAAATATTGCGAGGTCTACAATCAGGTTAGGGGAAAGTAGGGAAGTATCTATTCCAACCCGTTTAAACGCTATGCAAGATACATTAGTAAACATGTTACACACAGCCATAACAGCTTTTACAGAAGAAGATGGTAAACTCGCTGGACAATTAGCAGAAATGGATGACGCTGTAGATAAAGAAAATAAGCTTATTTTAAGTGAATTATTAGGCGAGACGGCAACAAACCCAGATAAGATCCAATACATTATGCAAATTTCTCTATGCTCCAGATATTTGGAGCGATTTGGTGATCATATAACCAATATCGGAGAAAGTATTTTATACTTGATTAAAGGGGAAAATTATAATTTAAACTAA MQTRGQFDQELKEIDQEIVELANLTEKALDNAVRALFNQDIGLAEQVIEGDKVIDKKDLEINDKVVLLIAKQNPVATDLRRLITAIKIVADLERMADNARNIARSTIRLGESREVSIPTRLNAMQDTLVNMLHTAITAFTEEDGKLAGQLAEMDDAVDKENKLILSELLGETATNPDKIQYIMQISLCSRYLERFGDHITNIGESILYLIKGENYNLN PGPT0002630_3623 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ARSENIC_RESISTANCE ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039 NA NA AK015_01786 720 ISL3 family transposase IS652 TTGATTATTGCTGATGGAGAGACCAAGGAACCGATTGATATTTTGCCAAATCGAAAAAAGAAGACCATAAAGGACTATCTTCAAAAACATGGAACCAATGTGGATGTGGTCATTATGGACATGAGTCCTTCTTTTAAGGCAGCTGTCCAAAAGGCGCTGGGGAAACCGGTTATTGTAGCCGATCGTTTTCATTTTTGTCGTTATATCTATTGGGCTCTTGACGGGGTCAGAAGAAGAATCCAGTCTGATTGGAATGATTATGACCGTAAAAAATGTAAAAGAATGCGCTATGTGTTTTACAAAGACAGTGCAAAGCTGACCGAAAAGGACCACTGGTATTTGGACAGGTACCTTGGGATGGACGAAGAACTTCGCAGGGCTTACGAGTTGAAAGAGTTCTACTGCCTTTGGTTGAAGCAAGCCAAGGAAAATGGACAGGCTAGGATCAAAAAAACCAAGCGAGGATTAATGGATTTTTACAAGAAGGTCGAACAAGAGGAGATCCCTGAATTTGTGAAGGCTATCCGTACATTCAAGAACTGGCAGACGGAAATACTAAATAGCTTTTTATTTGATTACTCAAATGGTTTTCTGGAGGGAATTAATAACCTAACGAAAGTCATGAAGAGGAACGCCTTTGGATTTAGGAACTTCCTAAGGGCAAGGGCAAGAATACTTCTTTTACATAAGTATAAAAAAATTGGAAGTCATGTTGGGTAG MIIADGETKEPIDILPNRKKKTIKDYLQKHGTNVDVVIMDMSPSFKAAVQKALGKPVIVADRFHFCRYIYWALDGVRRRIQSDWNDYDRKKCKRMRYVFYKDSAKLTEKDHWYLDRYLGMDEELRRAYELKEFYCLWLKQAKENGQARIKKTKRGLMDFYKKVEQEEIPEFVKAIRTFKNWQTEILNSFLFDYSNGFLEGINNLTKVMKRNAFGFRNFLRARARILLLHKYKKIGSHVG PGPT0030630_1548 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485 NA NA AK015_01787 1182 mvaS COG3425 Hydroxymethylglutaryl-CoA synthase ATGAAAATAGGAATAGATAAAATAGGATTTTACACGCCGCATTTATATGTAGATATGAATGATTTGGCAAAAGCTAGGGACGTAGATCCAGCCAAATTCACCATTGGTATTGGTCAAGAAAAAATGGCTATCGCACCACTTACCCAGGATGCTGTTACGTTGGCTGCTAATGCTGCCTTGGAAATTATTGATGAATCAGATAGACAAGCTATTGACTTTGTAATATTTGGTACAGAAACAGGTGTAGATCATTCTAAAGCAGCAGGAGTATATGTTCACCATTTATTAGATCTCCAACCGCAAACAAGAACCGTGGAAGTAAAGCAGGCTTGTTTCGGAGCAACAGCTGGGATTCAAATGGCTAAAGCTCACATTGCTTTACATCCAAACAGCAAAGTTCTAGTATTGGCCTCAGATATTGCCAGATATGGACTACGAACTGGTGGAGAGGCGACACAAGGTGCAGGTGCAGTAGCCATAGTAATGAGTAAGAACCCTAAAATTATGGCAATAGAGGAGCCATCTGCCTATTTAACAGAAGATGTAATGGATTTTTGGCGACCTGTATACTCTGAATATGCTCAAGTAGATGGAAAATTATCAAATGAAATGTATTTGTCTTTTTTTGAGAAAATATGGGAAGCTTATCAACAAAAGACAGGCTTGGGAATTGGCGATTTTTCTGCCATTTGCTACCATCTCCCATATACGAAAATGGGTTTAAAAGCTCTAAGAATGATTTATGACCAAGGAACGGAAGCGGACAAAGAACGTCTGTTAGAAAACTTGGAACATAGTAAAATATACAATAAAAATGTTGGCAATATTTATACTGGCTCTTTGTATTTAAGCTTTCTGTCTTTAATTGAGCATCAAAATAATCTACGTGCTGGTGACAGGATTGGGTTGTTTAGTTATGGATCTGGAGCAGTAGGAGAATTTTTTGCGGGTATTTTACAACCTAGTTATCAAGAACATTTGCATGCAGAGCAACATCAGAAATTACTTTCTTCTAGAACAGAAGTAAGTGTAGAGGAGTACGAACGAATATTTGCAGCGACGTTGCCAAAAGATGGAACTGCTTATCAACTGAATGATCAAAATGATCCTGCAAAGATTAAACTTTCCGGGGTTAGTGAGCATAAACGCCATTATGTAAATAGCCTTGCAGTGAAAATGTAA MKIGIDKIGFYTPHLYVDMNDLAKARDVDPAKFTIGIGQEKMAIAPLTQDAVTLAANAALEIIDESDRQAIDFVIFGTETGVDHSKAAGVYVHHLLDLQPQTRTVEVKQACFGATAGIQMAKAHIALHPNSKVLVLASDIARYGLRTGGEATQGAGAVAIVMSKNPKIMAIEEPSAYLTEDVMDFWRPVYSEYAQVDGKLSNEMYLSFFEKIWEAYQQKTGLGIGDFSAICYHLPYTKMGLKALRMIYDQGTEADKERLLENLEHSKIYNKNVGNIYTGSLYLSFLSLIEHQNNLRAGDRIGLFSYGSGAVGEFFAGILQPSYQEHLHAEQHQKLLSSRTEVSVEEYERIFAATLPKDGTAYQLNDQNDPAKIKLSGVSEHKRHYVNSLAVKM PGPT0008340_1114 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008340-hydroxymethylglutaryl_CoA_synthase-K01641 NA NA AK015_01788 783 pfyP Blue-light photoreceptor ATGAAGAAGCAACGACATGATAAATTGCATTTATTTGAAAAGGCATTAAATTATACAAGAGTCGGCTTAATTATAACTGATCCAAATATAGAAGATAATCCAATTATTTTTGTAAATAAAGGTTTTACTGAATTAACAGGATATGAAGAAAATGAAGTTATAGGTAAGAATTGTCGATTCTTGCAAGGTGAAGCTACGGAATCTTATAGTATGGATAGAATACGGACTGCAATTTGGACAAAGGAATCCATTTCGCTACAGCTATATAACTATAGAAAAGATGGGACTGGTTTTTGGAATGAGCTTTCGATTGATCCGATGTGGGTGGAAGAGGAGAAAAAATATTATTTCGTTGGCGTCCAAAAAGATGTTACAGAATTAAAAGAAAGTGAACGTCTATTACAAATGAGTTTGCAGGAGATCGATAAACTTTCCACGCCTATTGTACCCATTAGAGATGATGTCGCAGTCTTACCTCTTATCGGTAATATGAATGATCAGCGAATGGAAACGCTCATGTCTAATATATCTACGTATATGGAGCAGGCTAATGAGGGATATATCATTATTGATTTATCTGGACTATATGAAGTGGATACATATACTGTGTCACGTCTTCTAAAAGTTCATCAATTTATTTCATTAATGGGCAAAGAATTATTATTTGTTGGTTTTCGCCCAGATATGGCTCTGAAAACGGTGATTATTCAAGATACCTTTAAAGATATGAATACATTTAAAAATGTTAAAATGGCTTTAAATTACATAGATAAAATTAAGTAG MKKQRHDKLHLFEKALNYTRVGLIITDPNIEDNPIIFVNKGFTELTGYEENEVIGKNCRFLQGEATESYSMDRIRTAIWTKESISLQLYNYRKDGTGFWNELSIDPMWVEEEKKYYFVGVQKDVTELKESERLLQMSLQEIDKLSTPIVPIRDDVAVLPLIGNMNDQRMETLMSNISTYMEQANEGYIIIDLSGLYEVDTYTVSRLLKVHQFISLMGKELLFVGFRPDMALKTVIIQDTFKDMNTFKNVKMALNYIDKIK PGPT0014656_15 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014656-ytvA|pfyP-NA NA NA AK015_01789 450 hmoB_2 COG2329 Heme-degrading monooxygenase HmoB GTGAAATTGAAGATTCAAAGGAATCATGGGGGAGAACCATTAACTATTATTGAAGAAGGGAACCAAGTTCAAATTGTTTCAGAACAGGTAAATACCTATGAAATCATTGATCAATCCAATAATTTGTGTGAAGAGGCTGTTACTGTGTTAAATTATATTGGTGTTTATAATGAAAAAAGGCAGCGCTTTGAAGAACGTTTTTTGCATCGCCCTAGAATGATAGAAAACGAACAAGGCTTTATCGCAATTCGCGTTTTACGTCCTTTACAAGATGATATATATATTGTTCTAACACAATGGCAAACGGAGGAAGATTTCCGAAATTGGCAAGCATCTACTGCGTACCAGCATGCGCATAAAAATAGAAATACGCAAAAAGGAATTGACCAAGAGCAAGGCGTACTTAAAGGAAAACCATATCATTATTTGTATCAAGCAAGCCATAGATAA MKLKIQRNHGGEPLTIIEEGNQVQIVSEQVNTYEIIDQSNNLCEEAVTVLNYIGVYNEKRQRFEERFLHRPRMIENEQGFIAIRVLRPLQDDIYIVLTQWQTEEDFRNWQASTAYQHAHKNRNTQKGIDQEQGVLKGKPYHYLYQASHR NA NA NA NA NA AK015_01790 714 hypothetical protein ATGGATAAAGATGTAGTTGTGATTGTCTATCATGGATCTAAGGATGATGATAAGAATCAAGCGTTTTTAAACTTTGTTGATCATTTAAATTTACAGGCTTGGGATGATGGAAATGCGCGCTTTATTGGATGTTATATTGAGCAAGCAGAGCCTACTATAAATCAAATTATGCAACAACGGGATAGCTTATACGGACGTGTTTACATTTTTCCATTGCTTTTCTTAAGAGGGAAGCATTATAACAAGGATGTAAAAGGGGTTATTGAAGCATACGAACAAGAAATAAATAAAAATACAGTATTGCTCCCACCACTTTGCGAAGACGATTTATTTTTAACCTATGTGGTTGAGCGTTTATATTCGGTTTATAATCAACCAGTTATTATTGCGGCACATGGGTCAGCTCATGACACTCGTGCAAATGATGCACTTGAACAGTTGACGACTCTTTTGGAACAACAATATTCCCGACCATCCTCGTCTCTGTTCTTATTTGGCGAAGGGCAACATGTTTTAGAACAATTTTCTTTCCGTTATGAGTTGTTTTATATTTTGCCACTAACATTTGGAAAAGGGGCAGTTTACGAGCAGTTTAAAGACAGGGTGCTAGGCTATCCAAAAGCAAAGCTGTTGCCGCCTGTCTATTTTGATAAGTCGTTGCAGAATTATGTTTTGTTGAAGTTAAAAAGTTTAAGGGAGGATGTTGAAAAGTGA MDKDVVVIVYHGSKDDDKNQAFLNFVDHLNLQAWDDGNARFIGCYIEQAEPTINQIMQQRDSLYGRVYIFPLLFLRGKHYNKDVKGVIEAYEQEINKNTVLLPPLCEDDLFLTYVVERLYSVYNQPVIIAAHGSAHDTRANDALEQLTTLLEQQYSRPSSSLFLFGEGQHVLEQFSFRYELFYILPLTFGKGAVYEQFKDRVLGYPKAKLLPPVYFDKSLQNYVLLKLKSLREDVEK NA NA NA NA NA AK015_01791 1308 dctM COG1593 C4-dicarboxylate TRAP transporter large permease protein DctM ATGACTCCTGAAATGATAGGAATGATAGGAATTATTGGATTAGTTGTCCTGTTGTTATTAAAAATACCTGTAGGCATCGCTTTAATTATAATTGCTCTAAGCGGAACAACACTTATTCGTGGTTGGGATGTGGCGTTTTCTCAATTAGGTAGAACGCCTTTTGATACAGCAAGTTCATACTCTTTAAGCGTTATTCCATTATTTATCTTGATGGGTATGATTCTTTCTTATACAGGCATGGGGAAAGATTTATACAAAGCTGTCGATAGCTGGATTGGTCATTGGAAAGGTGGCTTAGCCATGGCAACAATTTGTTCTGCAGCTATTTTTTCAGCCATATCAGGCTCTTTAAATGCTACAACTGCTACCGTATCGAAAATCACTTTACCTGAAATGGAAAAATATCGTTATAAGCCAAGCTTGTCTACAGCATGTGTGGCAGCAGGAGGAACTTTAGGCATTCTTATTCCTCCAAGTGTGATTTTGATTTTATACGGCATTCAAACGAGAGAACCTATTGGAGAACTGCTTATTGCTGGTATTATTCCAGGAATGATTCAATTGCTCCTATTTATATTGATTGTAGTTTTTCTTGTGCGTAGAGACCCTACGTTAGCCCCTGCTAGAGAAGAAGGAAGCGCTTTAACAACGGAAAAAATGACCACGCTAATACGCATGTGGCCCTTTGCAGCGCTTTTTTTGATTAGTATTGGAGGAATATACTTAGGAATATTCACCCCCACAGAAGCTGCTGGAGTAGGAGCTATCAGTGCTTTGTTTTTTTCCTTGCTTTCTAGAAAAATGAATTGGCACCGTCTAAAACTGGCTTTTCACGAATCTGTAAAATTAACAGCTTATATTTTCTTTATTCTGATTGGAGCTACATTGTTTAGTCAGTTTTTGACGATAAGTAGACTTCCTGTAGAATTAACCTATCTTGTCAGTCGTTTAGAATTAAATCACTATATCATTCTTATTGGTATTTTACTAGCATTGTTTTTGCTTGGATGTTTTATTGAAGGGTTATCTCTGATTGTGCTTACCATCCCAATTGTTTATCCAATAATCTTGGAGCTAGGATTTAATGGTGTTTGGTTTGGAATTATAATGGTAATGGCAATTAATATTGGTTCTTTAACCCCTCCACTGGGAATTAGTATTTTTGTAATTAAAGGCGTCGCTCCTAATATACCTGTACAAACTATATTTAAGGGAGCTATACCAATGATAGTCGGCATGATTATTTGCATTTTGTTACTCATTATATTTCCTTCTTTTGTTACAATTTTGCCCAGTTTAATGAGATGA MTPEMIGMIGIIGLVVLLLLKIPVGIALIIIALSGTTLIRGWDVAFSQLGRTPFDTASSYSLSVIPLFILMGMILSYTGMGKDLYKAVDSWIGHWKGGLAMATICSAAIFSAISGSLNATTATVSKITLPEMEKYRYKPSLSTACVAAGGTLGILIPPSVILILYGIQTREPIGELLIAGIIPGMIQLLLFILIVVFLVRRDPTLAPAREEGSALTTEKMTTLIRMWPFAALFLISIGGIYLGIFTPTEAAGVGAISALFFSLLSRKMNWHRLKLAFHESVKLTAYIFFILIGATLFSQFLTISRLPVELTYLVSRLELNHYIILIGILLALFLLGCFIEGLSLIVLTIPIVYPIILELGFNGVWFGIIMVMAINIGSLTPPLGISIFVIKGVAPNIPVQTIFKGAIPMIVGMIICILLLIIFPSFVTILPSLMR PGPT0017335_1410 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690 NA NA AK015_01792 489 hypothetical protein TTGAAAAGATGGATAGAACAACTTGCAAGATTCTCTCATAGGCTAGCTCAATGTATTTTGTTTATGATGGCTATATGTATTACCATAGATGTTTTATCAAGGTGGATGTGGAATAAACCTATATTAGGTACCGTTGATTTTACGGAACTTGGTTTATCAATGGTGATATTTTTAAGCATTGCTTATACACATGTAAAAGAAGAACATATTTCCATAGACTTTGTTTTCGAACGGTTTCCAAAGCGAATGCAATTGGTTTTACATGCCATCATTCATATCCTCACCTTTATTTTAATGGTTTTAATAGGATGGAGTACTAGCGAATACGCAATTCGTCTATACAATGCCAATACAACCACCGGAGATCTTACTATTCCTCTTTATCCTATTGCTTGGGTAGCTGTTATTGGATTAAGTTTATTCGCATTATCAGCCCTGCTACACGCTATACGTTATATGCATAAGGGGGTGTTCATAAATGACTCCTGA MKRWIEQLARFSHRLAQCILFMMAICITIDVLSRWMWNKPILGTVDFTELGLSMVIFLSIAYTHVKEEHISIDFVFERFPKRMQLVLHAIIHILTFILMVLIGWSTSEYAIRLYNANTTTGDLTIPLYPIAWVAVIGLSLFALSALLHAIRYMHKGVFINDS NA NA NA NA NA AK015_01793 1032 COG1638 Solute-binding protein ATGTTGCGAAATCACTATCTGCTTATAGGATTTGTATGGTTATTTATTCTATCGGCTTGTTCTCAAGGAATAGCTTTAACCGAATCGGATCACCATTTGATTATTTCACATTTTTTACCTGGGAGCCACCCCATTCAAACGGATATTCTGAAAGGAATTGGCGATGAATGGACAGAGGAATCGAATAATTCGATTACATATGATTTATATCCTTCTAATGCATTAGGGAATGCAGGATCACAGTATGATATGGCCGTCACTGGAGAGGCAGACATTGCCTTAAGCGTTCATGGCTATTCACCTGGAAGATTTCCTTTAGTTTCTATACTGGAATTACCATTTTTTGCAGAGTCAGCAGTACACGGGTCAAAAATAATAGAACATTTATTTAATGAATTTCCTAGTATTCAAAAGCAACATGATGATAGCGTTCCATTATTTTTATTCACCGCAGATCCTGCTCAGTTAGTGACGAAAACAAAACGAATAAAATCTCCAGAGGATGTAAAGGGGTTACGTATTCGATCACCTTCTCCATTAGCAAATGAAATATTAGAAGCGCTAGGTGCCGTCCCTGTATCTATGCCAATGGGAGATGTGTATGAATCTATGGAGCGAGGCGTCATTGATGGAGCAATGATTCCGTTAGAAGCTTTATATAATTACAACCTTCATGAAGTAACAAACTATATTACTATAGGAAACTTTTCAACAACGCCTTTTTTTGCTGTCATGAACAAACACAAGTATGAACAGTTTTCAAAATCGGAAAAATCAATGATACACGAATCCACTGGTTTAGAAGCAGCGATAAAAAGCGGCCAAGTTTTTGATCAAGATGGGAGAAAAGGGAGAAATCTAGCGGAAGAGAGCGGTGCGAAAGTGTATGAGGTAGATAAAAATCAAATAGGTGAATGGAACGCAGCCTTAAAACCTGTATTTGAGACATGGATAGAAGAAATGGAAAAAGAAGGATATCCAGGCAGGGAAATTTACCGTCGAGCTTTAGAACTTAAAGAAGAGTTACGTTAA MLRNHYLLIGFVWLFILSACSQGIALTESDHHLIISHFLPGSHPIQTDILKGIGDEWTEESNNSITYDLYPSNALGNAGSQYDMAVTGEADIALSVHGYSPGRFPLVSILELPFFAESAVHGSKIIEHLFNEFPSIQKQHDDSVPLFLFTADPAQLVTKTKRIKSPEDVKGLRIRSPSPLANEILEALGAVPVSMPMGDVYESMERGVIDGAMIPLEALYNYNLHEVTNYITIGNFSTTPFFAVMNKHKYEQFSKSEKSMIHESTGLEAAIKSGQVFDQDGRKGRNLAEESGAKVYEVDKNQIGEWNAALKPVFETWIEEMEKEGYPGREIYRRALELKEELR NA NA NA NA NA AK015_01794 390 hpcD 5-carboxymethyl-2-hydroxymuconate Delta-isomerase ATGCCTCATTTAATCATCGAATATACTGCCAATATTCGAAAGGAAATAAATATCCCTGATTTATTGAAACAGGTTCATCAGGTGTTATTATGCCATCGCGAGTTAATCCCCATAGGTGGACTTCGTTCTAGAGCAATTGCATTAGAAGAATATCTTATCGCAGATGGTACAGAGGATGATGCGTTTGTTCATGCAACTTTAAAACTTGGAAAAGGGAGGACAGATGAGGAAAAAAAATTATTATGCAATGACTTGTTTACGGTGATGACAAACTATTTAGCTTCTTTATATAACGAAAAGTATTTAGCCATTTCCCTAGAATTATATGAATTTACTCTTCCAACCTACAAATTAAACAATATTCATCATCGCTATATACAAGAAAAATAA MPHLIIEYTANIRKEINIPDLLKQVHQVLLCHRELIPIGGLRSRAIALEEYLIADGTEDDAFVHATLKLGKGRTDEEKKLLCNDLFTVMTNYLASLYNEKYLAISLELYEFTLPTYKLNNIHHRYIQEK NA NA NA NA NA AK015_01795 771 hpcE_1 COG0179 Homoprotocatechuate catabolism bifunctional isomerase/decarboxylase ATGAAGTATGCACGGGTAGCATTTGAAGGAAGTATACAAGAAGCCATTGTGACAGAGAATGATATTCAACTACTTGATGGTCAGCTAGTCAAGGAAAATGAAGTAGTTTGGTTACCTCCTGTACAACCGAATACAATTTTTACATTAGGCTTAAATTATGCGGATCATGCGAAAGAACTATCATTTTCAGCAGTTCAAAAGGAACCGCTAGTCTTTTTTAAAGGCCCAAACACTTTAATTGGTCATAATGGAAAGACTGTTCGCCCAAATGATGTGACGTTTATGCATTATGAATGTGAATTAGCAGTAGTAATAGGTAGACAAGGAAAGAATATAAAGCAGGAAGAGGCTTATGACTATGTAAGAGGCTATACTGTAGCAAATGATTATGCCTTTCGAGATTACTTAGAAAATTATTATCGCCCAAACCTACGTGTGAAAAACCGTGATGCTGCAACACCGATTGGTCCTTGGCTTGTTGACAAAGAAGACGTAAAGGATCCGATGAACTTAACTTTACGAACGTTTGTTAATGGAAAACAAACACAACAAGGTTGTACAGGAGATATGCTTCTAAGCATACAAGAACTCATTGAATATTTGAGTAGTTTTATGACGTTATATCCAGGAGATATTATCTTAACAGGTACACCAAAAGGGTCCATTGATACGGTAGTGGGAGATGAGGTTATCACGGAAATTGAAGGGATTGGGCGTTTAATGAATACGATTGTAAGTGAAGAAGCGTTAACAAACTTTAAAAACGAGTAG MKYARVAFEGSIQEAIVTENDIQLLDGQLVKENEVVWLPPVQPNTIFTLGLNYADHAKELSFSAVQKEPLVFFKGPNTLIGHNGKTVRPNDVTFMHYECELAVVIGRQGKNIKQEEAYDYVRGYTVANDYAFRDYLENYYRPNLRVKNRDAATPIGPWLVDKEDVKDPMNLTLRTFVNGKQTQQGCTGDMLLSIQELIEYLSSFMTLYPGDIILTGTPKGSIDTVVGDEVITEIEGIGRLMNTIVSEEALTNFKNE PGPT0001630_42 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164 NA NA AK015_01796 783 hpcE_2 COG0179 Homoprotocatechuate catabolism bifunctional isomerase/decarboxylase GTGCAGACAATTTATATGAAGTTGTCAGGAGTAGGGCCTTTACAAGAAGGAAGAGTGGATTTAAGGAAGCAAACGATTATGATAGGGAATACCACCTATAAAGCAGATCAAGTACCATTTGAAATTCCTATTAATGGAACTGTATACGGGACATTATTAAACTACCATGGTGCATATGAGCAATTAAAGCCAGCTATGAATGAAGCACCCTATGAAAAGCCACCTAAGGCACCCATTCTCTATATAAAACCGATGAATACATTTGCTGCAACAGCATCTTCTATACCTTGCCCTGAAAGCGCGGTGGAAATAGGTGCTGCATTAGGGATTGTGATTGCAAAAACGGCAAAGAAAGTAACGGAAGCTAACGCGTTAGATTATATTAAAGGATATACGATTGCCAATGATGTTAGCATTCCGCATGATAGTGTTTATCGTCCAGCGGTAAAGGAAACAGCACGAGATGGCTTTTGTCCAATTGGGCCATGGATTATGGATAAAACCGCAGTAGGTAATCCTAATAACTTAGAGGTTCGTGTTCTCGTTAATGGAGTAGTTAAACAGCGTAGTAATACAAATCAATTGATTCGATCCGTAGAAAAATTGCTTTGTGATGTAACTGAGTTTATGACACTTGCAAAAGGAGATGTATTATTAGTAGGTATACCTGAGAAACCTCCACGGGTAAAAGCGAATGATGGTGTACAAATAGAAATTGAAAAGGTAGGTACACTTGAAAATACAATAGTAACGGAATCACTACCAGCAGGAGGAAGAATATGA MQTIYMKLSGVGPLQEGRVDLRKQTIMIGNTTYKADQVPFEIPINGTVYGTLLNYHGAYEQLKPAMNEAPYEKPPKAPILYIKPMNTFAATASSIPCPESAVEIGAALGIVIAKTAKKVTEANALDYIKGYTIANDVSIPHDSVYRPAVKETARDGFCPIGPWIMDKTAVGNPNNLEVRVLVNGVVKQRSNTNQLIRSVEKLLCDVTEFMTLAKGDVLLVGIPEKPPRVKANDGVQIEIEKVGTLENTIVTESLPAGGRI NA NA NA NA NA AK015_01797 930 dapA_3 COG0329 4-hydroxy-tetrahydrodipicolinate synthase ATGATTCATTTGGTTAAAAACTATGAGAATATAAAGCAACGATTACGAGGGTCTGTTACCCCGTTAATTACGCCTTTTAAAGCAAATTATGAAGTAGATTATGAAAAACAAACAGAATTAATTGACTATCAACTTCAAAATGGAACACATGCTATTTCTGTTACGGGAACTTCGGGAGAGCCAAGCTCGCTTACTTTAGAAGAACGTGTTTACGTAATGGAAAACGCTCACAAAGCCATTCGTGGAAGAGTGCCATTCGCTCCTGGAACAGGTTCTACGAATCATGAAGAAACGATGTACCTAACGAAAAAAGCTCAAGAGATTGGTGCAGATGCTGCTATGGTCATTGTTCCGTACTATAATAAACCAAATCAGCACGCTTTATTTAAGCATTTTAAAACCGTAGCTGATGCAGTAGACATACCGATTATTGTCTATAATATACCAGGTCGGACAGCTGTCAATATGGAAGTGGAAACATTAGCTAGATTAAGGGAAGAATGTCCTAATATTATTGGTGTTAAGGAATCGAATAAAGATTTTGAGCATGTAAATCGTGTATTGCTTCATTGTGGAAGAGATTTTATGCTGTTTTCAGGTATTGAACTGCTTTGTTATCCTATGCTTGCAATTGGTGGAGCAGGATCAATTAGTGCAACGTCGAATGTCGAGCCGAAAAAAGTAGCTGATATGCATAATGCCTGGGCTGAGGGGGATGTTGAACAGGCGCAGAATTTGCACTTTGAACTAATGAAGTTAAATGATGTTTTATTTAAAGATACGAATCCTGCTCCCGTTAAAGCAGCGCTTGGCATGATGGGGAAAATTGAACCAGTATTACGTTTGCCAATGGATGTTCCCTCTGAGAAATTACAGAACGAAATATATGAAACCTTAATGGACTATGGAAAGGTGTTGCAGCAAACGTAG MIHLVKNYENIKQRLRGSVTPLITPFKANYEVDYEKQTELIDYQLQNGTHAISVTGTSGEPSSLTLEERVYVMENAHKAIRGRVPFAPGTGSTNHEETMYLTKKAQEIGADAAMVIVPYYNKPNQHALFKHFKTVADAVDIPIIVYNIPGRTAVNMEVETLARLREECPNIIGVKESNKDFEHVNRVLLHCGRDFMLFSGIELLCYPMLAIGGAGSISATSNVEPKKVADMHNAWAEGDVEQAQNLHFELMKLNDVLFKDTNPAPVKAALGMMGKIEPVLRLPMDVPSEKLQNEIYETLMDYGKVLQQT PGPT0002080_1579 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714 NA NA AK015_01798 987 bphC Manganese-dependent 2,3-dihydroxybiphenyl 1,2-dioxygenase ATGAAGGTGAATTTTAATATTATACGTGCCGGTCGTGCTGTCTTACATGTTACCGATATAGAAAAGTCGCGTTTATTTTACGAAAAACTTGGATTTGTCGTCACGGATACTGATAATGGAAATTTGTTTCTTCGTGGTTTAGAAGAGCATAATCATCATAGCTTATGGTTAAAACAGAAACAAGAGCCAGCTGTGGAAGTAATTAGTTACAAAGTGACCTCAGAAAAAGATATAGATGAACTTGAAAGTTTTTTTAGGCGTCAAGGAAGAGAAGTAAAGCGGATCAAAGCAGGAGAACAGCCTGCTGTTGGTCAAACAATTCGTGTGCAGGATATAACAGGTATTCCAATAGAATTTTATGCAGAAATGGAGACAGTGGAGCGACTCTTACAACGGTATGATTTGCACACTGGTGCAAAAGTTCAACGAATTGATCATTTTAACTGTATGGTGCGCGATGTCGAAACAGCTTACCACTATTATTTGCACAAACTAGATTTTGCCTGTTCAGAATACACAGTAGGGGAGCATCAAAAAATATGGGCAGCATGGCTTCATCGTAAGCCATCTGTTCATGATGTTGCATTTATGAATGGAGTAGGCCCTCGTTTACACCATATTGGATTTTGGTTAAAAGATCCTATGAGCCTCATTGATGGATGTGATGTGCTAGCAGCGTCAGGATATAGCACCAATATAGAAAGAGGACCTGGTCGCCATGGGCTTTCGAACGCTTTTTTCCTATACGTGAGAGACCCAGATGGACACCGAATCGAATTATATAATGGTGATTATTTAACGAGTGACCCTGATTTCAAACCTATAAAATGGGATTTGGATGATCCAATGCGGCAAACCTTTTGGGGACATGAAGCTCCAGATAGCTGGTTTGATGAAGCTTCAGACGTTTTAGATATACAAACCGGTCAAAAAATAGCATTACAGCAGCCTAAACTGAAAAAAAGTAAGCCGCAATTTATCATGTAG MKVNFNIIRAGRAVLHVTDIEKSRLFYEKLGFVVTDTDNGNLFLRGLEEHNHHSLWLKQKQEPAVEVISYKVTSEKDIDELESFFRRQGREVKRIKAGEQPAVGQTIRVQDITGIPIEFYAEMETVERLLQRYDLHTGAKVQRIDHFNCMVRDVETAYHYYLHKLDFACSEYTVGEHQKIWAAWLHRKPSVHDVAFMNGVGPRLHHIGFWLKDPMSLIDGCDVLAASGYSTNIERGPGRHGLSNAFFLYVRDPDGHRIELYNGDYLTSDPDFKPIKWDLDDPMRQTFWGHEAPDSWFDEASDVLDIQTGQKIALQQPKLKKSKPQFIM PGPT0005055_299 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446 NA NA AK015_01799 1506 amnC 2-aminomuconic 6-semialdehyde dehydrogenase ATGGAAAATCAAATAACAGAACAACATTTAGAAATGAAGCAACAAGTAAAGGATGTTCCGCATTATATTAATGGAAAATTTGTTACTACAGTTCAGGAGGAAGTCTTTGAAAATATTAGTCCATTTACCAATCAAACAATCAATCGAGTAGCGTCAGGGAATAAAGCGGATATAGATCTAGCTGTGGATGCTGCTAAAAAAGCATTTTACGGTGAGTGGGGACAATTAAAAATAAAGGAAAGGCTGGCTTATATTTATAAAATTGCCGATGTCATCGATGAACATATTGACGAAATTGCGCCACTCGAGTCATTTGATACGGGGTTGCCAATAAGTCAGACAAAGAAAATGGTAAGTAGAGCAGCATATAATTTCCGTTTTTATGCAGAGATGGTTGCAACAAGGATGGTTGGAGAAGCATATCAAGTAGACGATGAATTTTTAAATTACACCATTCATAAGCCTGTTGGAGTAGCTGGTTTAATTACACCTTGGAATGCACCATTTATGTTAGAAACTTGGAAGCTTGCACCTGCACTTGCTACTGGAAATACTGTCGTGTTAAAGCCAGCAGAATGGTCACCGTTAACAGCGAATCGTTTAGCGGAAATTATAGATAAAGTAGGGTTGCCAGATGGTGTGTTTAATGTTGTTCATGGTTATGGAGAAACAGCTGGAGCAGCACTGGTGTCACACCCTGATGTGCCTTTAATCTCATTCACTGGAGAAACAACAACAGGTTCAGAAATTATGAAAAATGGAGCGGATAGCTTGAAGCGTTTTTCGATGGAACTTGGTGGCAAGTCACCGATTATAGTGTTTGAAGATGCAGATGTAGAAAGAGCGTTAGATGCTTGTACATGGGGAATTTTCTCTTTCAATGGGGAGCGTTGTACAGCTAATTCACGTCTCTATGTACATGAAAGTATTGCTTCCACATTTATTGAACAGTTAAAAGAACGAATTTTCAATATAAAAGTTGGAGATCCGCTTAATGAAAATACACAAGTAGGACCGTTAATTCATAAAGAACATTATGAAAATGTGCGGAGCTATTTGGATTTAGCAAAAGAAGAAGGTTGTGAAGTAATAAGTGGTCATGCACCAAGGAATAGTGAGGGAAACTATGTTCCACCGACTTTAATTCTCCATGCGAAAAATAATATGCGTATCGTTCAGGAAGAAATTTTTGGCCCCGTCATAGCAGCGATGACATTCACGGATGAAGCGGAAGTAATTCATTTAGCTAATGATGTTCGCTACGGGCTTGCAGGTTATGTGTGGACAAAGGATATACAGCGTGGGCATCGGGTTGCTCAAGCCATTGATTCAGGAATGTTATGGGTTAATGCTCAAAATGTAAGGGATTTAAGGACACCATTTGGAGGATCAAAGCATAGTGGTATAGGGCGTGAAGGTGGACATTACGCTTTTGATTTTTATACAGAAACGCAGATTATTCATGTTGCATTGAAGGATCACTATATTCCGCAATTTGGTAAATAA MENQITEQHLEMKQQVKDVPHYINGKFVTTVQEEVFENISPFTNQTINRVASGNKADIDLAVDAAKKAFYGEWGQLKIKERLAYIYKIADVIDEHIDEIAPLESFDTGLPISQTKKMVSRAAYNFRFYAEMVATRMVGEAYQVDDEFLNYTIHKPVGVAGLITPWNAPFMLETWKLAPALATGNTVVLKPAEWSPLTANRLAEIIDKVGLPDGVFNVVHGYGETAGAALVSHPDVPLISFTGETTTGSEIMKNGADSLKRFSMELGGKSPIIVFEDADVERALDACTWGIFSFNGERCTANSRLYVHESIASTFIEQLKERIFNIKVGDPLNENTQVGPLIHKEHYENVRSYLDLAKEEGCEVISGHAPRNSEGNYVPPTLILHAKNNMRIVQEEIFGPVIAAMTFTDEAEVIHLANDVRYGLAGYVWTKDIQRGHRVAQAIDSGMLWVNAQNVRDLRTPFGGSKHSGIGREGGHYAFDFYTETQIIHVALKDHYIPQFGK PGPT0005060_124 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005060-dmpC|xylG|praB-K10217 NA NA AK015_01800 477 nphA2 NADH-dependent flavin reductase ATGGATAGTAGAGCTTTCCGAAATGCAATGGGGCGCTTTGCAACTGGAGTTACTGTAATTACAACTAAAATAGGAGAAGAGATCCATGGTATGACAGCAAACGCATTTATGTCCGTTTCCTTAGAACCGAAATTAATTACAGTATCGATAGATAATCGAGCGAACATGTTAACAAAACTGCATAAATCTAATAAGTTTGCAGTTAATGTTCTAGCAGATACGCAACAAGATATATCCATGCATTTTGCCAATCAAGCTAAAAGATGCGAGGAAATACCATTTGAAATCTTTCATTCTGTCCCAATTATTCAAGATGCGCTTGTTTCCGTTGTTTGTGAAGTGGAGCAGGCTTTTGAAGTAGGGGATCATACCCTTTTTATTGGTAAAGTAATAGCAATGGAGTCTAATCAAGGCAGCCCGTTAACTTTTTATAAGGGACAGTATGGAAAATATGAGCCTGCAGAATACGTAAATTAA MDSRAFRNAMGRFATGVTVITTKIGEEIHGMTANAFMSVSLEPKLITVSIDNRANMLTKLHKSNKFAVNVLADTQQDISMHFANQAKRCEEIPFEIFHSVPIIQDALVSVVCEVEQAFEVGDHTLFIGKVIAMESNQGSPLTFYKGQYGKYEPAEYVN PGPT0006700_573 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STEROID|DERIVATE_DEGRADATION XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006700-hsaB-K16048 NA NA AK015_01801 1452 COG2368 4-hydroxyphenylacetate 3-monooxygenase oxygenase component ATGCCAGCTAAAACAGGACAACAGTATATTCAACGTTTAAAGGAAGCAAATAATAATGTGTATATCCAGGGAGAAAGGGTTCAAGATGTAACAGAGCATCGTCTCTTTAAAAATGTCACTCAAACTATGGCAAAGCTATATGATCTCCAATATGAAAAGCCAGAGAAAATGCTCTATACATCACCAACAACAGGTGATCAAGTAAGTAAAACATTTATGGTGCCGACAACGATAGATGAATTAATGGAGCGTAGAGAGGCCATTATGGAGTGGCAAAGTTTTACAAAGGGGTTAATGGGAAGGTCACCTGACTATTTAAATGCGGATGTCATGGCAATGGGGCAGGCAAGTGAATTTTATGCTGAAGGAGATCCGATGTTTGCTGAAAACGCTAGAAATTATGCAGCGTTTGCTCGAGAAAATGATATTAGTTTGACGCATACATTAATTCATCCTCAAGTTAACCGGGCAAAAATACAAGCAAAGCAAAAGGACGCAAATGTAGCATTACATGTTGTAGAGAAAAACGATGATGGAGTAGTTGTTAATGGTATTCGCTTGTTAGCAACACAAGGAGCGATCACGGATGAGATTTTAGTTTTTCCTTCAACAGTTAAAAAATCAGGTGAGTTGGATGACCCTTACTCCTTAGCCTTTGCAATCCCAAATAATACGCCAGGTCTAAAATATTTAAGCCGTGAAGCTTTTGTCTATAGTGATAATTCATACGATCACCCGTTAAGCCAACAGTTTGAAGAAGGGGATACAATCGTTGCTTTTGATCATGTATTAGTACCATGGGATCGTATCTTTGTGCTGGAGAATTCATCCATTTGTAATCGTGCATTTGGTGAAACGAATGCTGTCGTTCATATGACGCATCAAGTAGTCATAAAAGATATTGCAAAAACAGAATTTTTACTTGGTGTTGTGCTGACATTAATGGATTCTATCGGTATTGATGGCTTTCAGCACGTGAAAGATAAAGGGACAGAAATTATCCTTACATTAGAAACGATGAAGTCACATTTATTCCGTGCAGAACATAATGCTAAGCTCGATAAATGGGGAATGATGACACCGGACTTTGCGGCGCTCGATGCAGCTAGAAATTGGTTCCCACGTGTATATCCACGGATGGCAGAAATCATTCGAATTTTGGGAGCATCTGGAATGATGGGGATACCAACACAGGCTGACTTTGAAAATGAGGAGATTGGACCTATTCTTCACCGTGCGATGCAAGGGAAAAATGTGCAAGGATATGAGCGTGTACAGATCTTTCGCTTAGCGTGGGACTTAACAATGAGCGCGTTTGGAAGCAGGCAGACCCATTATGAATATTATTTCTTTGGTGACCCAATTAAGATGGGAATGGCTTATTTTGATAAGTATGATAAACAAACTTATAAAGCGCAAGTGAGTGATTTTTTACACTATAGGAAAGCATAA MPAKTGQQYIQRLKEANNNVYIQGERVQDVTEHRLFKNVTQTMAKLYDLQYEKPEKMLYTSPTTGDQVSKTFMVPTTIDELMERREAIMEWQSFTKGLMGRSPDYLNADVMAMGQASEFYAEGDPMFAENARNYAAFARENDISLTHTLIHPQVNRAKIQAKQKDANVALHVVEKNDDGVVVNGIRLLATQGAITDEILVFPSTVKKSGELDDPYSLAFAIPNNTPGLKYLSREAFVYSDNSYDHPLSQQFEEGDTIVAFDHVLVPWDRIFVLENSSICNRAFGETNAVVHMTHQVVIKDIAKTEFLLGVVLTLMDSIGIDGFQHVKDKGTEIILTLETMKSHLFRAEHNAKLDKWGMMTPDFAALDAARNWFPRVYPRMAEIIRILGASGMMGIPTQADFENEEIGPILHRAMQGKNVQGYERVQIFRLAWDLTMSAFGSRQTHYEYYFFGDPIKMGMAYFDKYDKQTYKAQVSDFLHYRKA PGPT0020455_592 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483 NA NA AK015_01802 885 gltC_2 HTH-type transcriptional regulator GltC TTGGATTTAAGACAATTAAGGTATTTTCAAACAATTGCAAGAGAAGGACAAATCACGCGTGCAGCGAAAAAATTGCATATAGCTCAGCCACCCTTAAGTCAAAGCTTAAAAGCTTTAGAAACCGAATTAGGCGTCAAATTAATGGAGCGTAATGGCAGGAAAATGGAATTAACAGAGGCAGGTAATATTTTATACCAAAAAACAATTCACCTGTTTGAGTATGTGGAAGAGACCTGCATAGAGGTAAAAGATACAGCAGCAGGTATAAAAGGAATACTATCCATTGGTTGTGTAAAAACATGCTTTCCGCAAATACCAAAAAAGCTTAAATATTTTCATAGGAAATATCCGAATGTTCATTTTCAGCTCAAAGAAGGTGATTCTTACTTGCTTGCAGAAGAACTGATCCAGCGATCCATTGATCTAGCAATTGTTCGCTTACCTCTTGATATGAGCCTTTTTGCTAAACAGTCTCTTCCTAGTGAAAACTACATAGCTGTCATACCGGAAAGTTGGTCTACTACTTCAACCGCCAAAACCATTACAATGAAAAAATTAAGTGAGTTGCCATTACTACTATTACACCGTATCCACGGACAAGGACAATATGAGTTAATTCTTGAACAATTTGAAAACCACCGTTTATCACCAAAAATTATTTGTGAGTGTCCAGATGTGGACATGATCTTGCAATTAGTAAGTGAACAGGTAGGAGCAACTATCATTCCAGAATTGACGCTACAAAATTATCCATTACGTGGTTTGAAACAACTACCTATTAAAGATCATTCCTTCCCTTCTCACTCAGCGATCATTTGGCTAAAAAATCGCTACTTACCAAAAAGCGCCAAACGTTTTATTGAACTATTTACAGGTGATAAATGA MDLRQLRYFQTIAREGQITRAAKKLHIAQPPLSQSLKALETELGVKLMERNGRKMELTEAGNILYQKTIHLFEYVEETCIEVKDTAAGIKGILSIGCVKTCFPQIPKKLKYFHRKYPNVHFQLKEGDSYLLAEELIQRSIDLAIVRLPLDMSLFAKQSLPSENYIAVIPESWSTTSTAKTITMKKLSELPLLLLHRIHGQGQYELILEQFENHRLSPKIICECPDVDMILQLVSEQVGATIIPELTLQNYPLRGLKQLPIKDHSFPSHSAIIWLKNRYLPKSAKRFIELFTGDK PGPT0019770_165 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 AK015_01803 1356 stp_4 Multidrug resistance protein Stp ATGAAGAAATTAAACAAAAAGCGTTGGCTGTTTATTATTACAATTGGATTAGGAACATTACTGAACCCGTTAAATTCATCGATGATATCTGTTGCGGTTACACGTATGCAGGCGGATTTTGCTTTAACATTTATCCATGCATCATGGTTAATTTCTATTTTTTATTTAGCAAGCGCAGCTGGACAGCCAGTAATGGGAAAATTAAGTGATATGTTTGGAGCTAAACGATTATTTTTAACAGGGTTGACGCTTGTAGCTTTTGCATCCTTACTGGCCCCGTTTTCTCCTGATTTTCCAATTTTATTAGCTTGTCGTGCATTGCAGGCGATTGGTAGCTCAACTTTATTCCCGAGTGGGATGAGCATGATACGAACGCATATTACAGAAGGACAAGGGCGGGCGCTGGCGATTTTATCAATCTTCGCTTCTACATCGGCAGCTTTTGGTCCTTCTATTGGCGGTTTTTTCATTCATTCTTGGGATTGGCAAGCTATTTTCTTTATCAACTTTCCATTTATTATCGTGTCATTTGTATTAGCTATGTTTATTTTACCTGCTACAAATGAAAAAGTAGTGATAAAACAGATAGATTTGTTAGGAATTTGTTTGTTTATTTTATCAATAACATGCTTTATTTTGTTTTTGCTTTCGTTGGAGGAAGGGGATATCCGTTGGTGGACACTATTTATTTGTATTGCAACTGCTGTGCTGTTTTACCGTTTTGAGGCTAAGCACAATGCCCCATTTATGGATGTAAATAGTTTAAGAAAAAATACAAAAGAAACGTTAGTGTATGTGCAATTTACGGGCATCAACCTGATATATTATTGTTATTTTTTTGGTTTTCCTATTTTTATGCAGCAAGCTCTAGCGTATAACGAAGCAAAAACGGGCGTTTTGATGCTTGCACTTGCAGGGTTTGGCGTTATCATTGCACCATTAGCAGGAAGCTTAATTGATAAGGTGGGTTCGAAATTACCTGCTTTAATTGGAATTGGTTTACTCGTCATTGGAACCGGTTTATTGTTAACGTATCATGAAAGCTCCCCCATTGGTTGGCTACTTATGATTATGAGTGTTTTAGGCGCTAGTAATGGCTTTAACAATATATCGATGCAGACAGCGCTATATGAAAATGTAAGGCCTGAGAATACAGGCCAAGCTTCTGGTTTATTTCAAACGAGCAGATATATGGGAGCAATCTTATCCTCTAGTTTGCTAGGTGTAATGCTAAATGATCAAGTGAGCCATGAAACATTACATTTGGTTGCCATTATTTGTTTTGTTTTTTCCGTTTTTGTATTTTTTATGATGTTAAAACTTCCAGGGAAATTAATGAGTAAAGCCCGTTCATAG MKKLNKKRWLFIITIGLGTLLNPLNSSMISVAVTRMQADFALTFIHASWLISIFYLASAAGQPVMGKLSDMFGAKRLFLTGLTLVAFASLLAPFSPDFPILLACRALQAIGSSTLFPSGMSMIRTHITEGQGRALAILSIFASTSAAFGPSIGGFFIHSWDWQAIFFINFPFIIVSFVLAMFILPATNEKVVIKQIDLLGICLFILSITCFILFLLSLEEGDIRWWTLFICIATAVLFYRFEAKHNAPFMDVNSLRKNTKETLVYVQFTGINLIYYCYFFGFPIFMQQALAYNEAKTGVLMLALAGFGVIIAPLAGSLIDKVGSKLPALIGIGLLVIGTGLLLTYHESSPIGWLLMIMSVLGASNGFNNISMQTALYENVRPENTGQASGLFQTSRYMGAILSSSLLGVMLNDQVSHETLHLVAIICFVFSVFVFFMMLKLPGKLMSKARS NA NA NA NA NA AK015_01804 597 plsC_1 COG0204 1-acyl-sn-glycerol-3-phosphate acyltransferase ATGTACAATTTTTGCACTTATGCATTAAAAATAATTCTCAGTTTGTTTGGCAGAATAAAGGTTTATCAAAAGGAAAATACGGAAATATCAGGTGGTTTTGTTATCGCTTGTACCCATTCAGGGTGGGTGGATATTTTATGGCTGGGCGTTAGTATGTTACCTAAACAAATTCATTATATGGCCAAGAAAGAGTTGTTTCAGTCGACGTTTTTGAAATGGCTAATGGAACAGTTGCATGCGTTTCCTGTTGATCGGGAAAACCCAGGACCAAGTGCAATAAAAACCCCAAGAAAACTATTGAAAAACGGTGAAATCGTCGGTGTATTTCCAAGTGGTACAAGAACAAGTGAAGAAGTACCATTAAAAAGAGGAGCGGTTACAATGGCTGGGTATGCGAAAGCGCCGATTTTACCAGTGGCTTATCAAGGTCCCAATAATTTTGCTGATCTTTTCAAACGAGTAAAGCCTAAAATTATTTTTGGACAACCTATCTATATGCCTGAAGATTTGCCGCTTAAACAAGGCATGGAAGTGATGATGGAAAAGTTGGAAAAATCCTTACATGATTTGCAAACGCAACTTAGAGAAATGGAATAA MYNFCTYALKIILSLFGRIKVYQKENTEISGGFVIACTHSGWVDILWLGVSMLPKQIHYMAKKELFQSTFLKWLMEQLHAFPVDRENPGPSAIKTPRKLLKNGEIVGVFPSGTRTSEEVPLKRGAVTMAGYAKAPILPVAYQGPNNFADLFKRVKPKIIFGQPIYMPEDLPLKQGMEVMMEKLEKSLHDLQTQLREME PGPT0024380_6907 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK015_01805 627 hypothetical protein ATGAATGGTACAACACATGCAGCAATTGGAACGGTAACTGGCTTTATAATTGCAAATAACTTACAAAGCCCTCCTGCAGAAACAGCTTTACTTGTTAGTCTTGGGACAATTTCAGCATTAATTCCAGACTTAGATATTGATGGGAAATTACGAGGTAAGATTACCCTATCGCATAAACTGTTTCGAACAATTGCTCAGGTTATCGGTGTTTTACTCATTATTTACAGCTTTTATGAAGGAGTAGGAATGAAGCAATGGATTGGGGCTGGGAGTGGGTTTGCTTTGCTTTCCATCTCTATTCGCCTTAAACAAAAACATATGCTTACCATAACCGGAATAGGTGTTATTATTGGTGGACTTGCATTGCAAGAACAGTGGCTGCTATTTTTAGGAATTTATGTTATTATTGCTTCTTTCGTAGCACATAGAAGTTATACACATTCCCTTGTCGGTCTTTTGTTTTTTGGATTTATTGCCTATTATTTAGATCAATCACTTCAGATCAAAGGGGTATATTATTCATGTTTCATTGGCTATATAACACATATCATTGCTGATAGTAAATTTTTACCCTTTAATAAACGTGGTGTGAAGCTGTTCTTACCATTTTGGAATAAGGAGTTTTAA MNGTTHAAIGTVTGFIIANNLQSPPAETALLVSLGTISALIPDLDIDGKLRGKITLSHKLFRTIAQVIGVLLIIYSFYEGVGMKQWIGAGSGFALLSISIRLKQKHMLTITGIGVIIGGLALQEQWLLFLGIYVIIASFVAHRSYTHSLVGLLFFGFIAYYLDQSLQIKGVYYSCFIGYITHIIADSKFLPFNKRGVKLFLPFWNKEF NA NA NA NA NA AK015_01806 2001 tkt_1 Transketolase ATGACGGAATCAGGAAACAACATTGAAAACTTATCTATTAATACCATTCGTACCCTAACGATTGATGCGGTAGAACGTGCGCAACATGGTCATCCAGGTATGCCAATGGGAGCAGCCCCAATGGCATACAGCCTATGGAAACGAATCATGAATATGAATCCTAAAAACCCTGAATGGTTCAATCGAGATCGCTTTGTTTTATCGGCTGGTCACGGTTCTATGCTACATTACTGCTTATTACATCTAGCTGGTTACGATCTATCTTTAGATGAGTTGAAAAACTTCAGACAATTAGGTAGTAAAACAGCAGGACATCCAGAATTTGGGGTAACGCCAGGAGTGGAAATTACTACAGGTCCACTTGGGCAAGGAATACCAGCTACTGTTGGTTTAGCTTTAGCTGAGAGGCATTTAGCTGAAACTTTTAATCGAGAAGGCTATCCAATTGTTGACCATTACACTTATACTATTTGTGGTGATGGCGATTTAATGGAAGGTATTTCTTATGAAGCAGCATCTTTAGCAGGACATTTAAAATTAGGTCGTTTAATTGTTTTATATGACTCTAATGACATTAGTTTAGATGGTGAACTAGCGTTATCGTTTTCAGAAGATATCAAACAGCGGTTTGAATCTTGCCATTGGCAATATCTTTATATTGAAGATGGTAATGATATAGAAGCAATTGAACAAGCAATTAAAGAAGCGAAAGCGGATGAAGACCGCCCAACGATTATCGAAATTAAAACAAAAATTGGTTATGGTGCTCCTACTATTGAAGGTAAAAGTGATGCACACAGTGATCCAATTGGTGTTGAAGAAATTCAACGTGCAAAAGCGTTTTATAAATGGAACTATGAAGAAGATTTCCATGTACCTGAAGAAGTATACGAAGATTTTCGTAGTATTTTAGAGAATGGAAGCAAAAAAGAAGAGCAATGGAATAAATTATTTAAGCAGTATGAAGAAGCGTATCCAGAGCTTGCTGCTGAATTAAAGCGATTAATCGCTGGTGATTTACCAAAAAACTGGGAAGACAATTTGCCTGTTTACAAAGAAGGTGAGGCAAATGCAACACGTGCTTCCGCAAGTCAAGTGCAGCAAGCTTTAGCAGAGCATTTTCCAGAACTAGTTGGTGGATCTGCAGATTTAAATGCTTCAACGAAAACAAGGTTACAATCATTTCCTGATTTAACATCACAAAATTATGCTGGTAGAAATATTTCATTTGGTGTTCGAGAATTTGCTATGGGTGCTATCGCAAATGGAATGGCACGTCATTATTTAAGACCATTTGTCAGTACATTCTTTGTATTTTCGGATTACTTGCGACCAGCTATTCGACTGTCCGCTTTGATGGAGCAACCGGTAACCTTTGTGTTTACCCATGATAGTGTGGCGGTTGGACAAGATGGACCAACTCACCAACCTGTTGAGCATTTAGCCTCTTTTCGAGCGATGCCTCACATTACAGTATTAAGACCTACCGATGCAAATGAAACGAAAGAAGCTTGGAAAATTGCCGTAACACAAAAGGATCGTCCAACCATTCTCGTACTGGGTCGTCAAGGCGTCCCGACTTTAAGACAGACAAGGGAAAAGGCAGTAACAGGTGTTCCAAAAGGAGCTTACGTTATATCGGAAGCTGAAAAAACAGCAGAAGGCATTTTAATTGCTGCAGGATCAGAGGTTCACCTCGCTTTGAAGGCTCAGGCAAAGCTTGCTGAAGAAGATATCCATGTGAATGTTGTCAGTATGCCATCTTGGGATCTATTTGATAAACAGTCAGCAGAGTACAAAGAAAGTGTATTACCTTCGCATTTACAAACACGCTTATCCATTGAAATGGGTTCTAAGGTTGGTTGGAAGGAATATACGGGATGTAATGGTGCAGTAATGAGCATTGATTCATTTGGCGTTTCTGGACCAGGAGACCAAGTGATCGAGAAATTCGGGTTTACTGTAGAAAACGTCGTAGCCAACTTTAAAAACTTATTATAA MTESGNNIENLSINTIRTLTIDAVERAQHGHPGMPMGAAPMAYSLWKRIMNMNPKNPEWFNRDRFVLSAGHGSMLHYCLLHLAGYDLSLDELKNFRQLGSKTAGHPEFGVTPGVEITTGPLGQGIPATVGLALAERHLAETFNREGYPIVDHYTYTICGDGDLMEGISYEAASLAGHLKLGRLIVLYDSNDISLDGELALSFSEDIKQRFESCHWQYLYIEDGNDIEAIEQAIKEAKADEDRPTIIEIKTKIGYGAPTIEGKSDAHSDPIGVEEIQRAKAFYKWNYEEDFHVPEEVYEDFRSILENGSKKEEQWNKLFKQYEEAYPELAAELKRLIAGDLPKNWEDNLPVYKEGEANATRASASQVQQALAEHFPELVGGSADLNASTKTRLQSFPDLTSQNYAGRNISFGVREFAMGAIANGMARHYLRPFVSTFFVFSDYLRPAIRLSALMEQPVTFVFTHDSVAVGQDGPTHQPVEHLASFRAMPHITVLRPTDANETKEAWKIAVTQKDRPTILVLGRQGVPTLRQTREKAVTGVPKGAYVISEAEKTAEGILIAAGSEVHLALKAQAKLAEEDIHVNVVSMPSWDLFDKQSAEYKESVLPSHLQTRLSIEMGSKVGWKEYTGCNGAVMSIDSFGVSGPGDQVIEKFGFTVENVVANFKNLL PGPT0011200_3233 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 AK015_01807 1368 ulaA_2 COG3037 Ascorbate-specific PTS system EIIC component ATGACTACCATGAATGAATTCTTAAGTGTCTTAGTCGATATTTTAAGTCAGCCAGCCATTTTAGTTGCTGCCATTGCGCTAATTGGATTATTAGCGCAAAGAAAAAATTTGTCAGAAATCATGAAAGGCGCTATTAAAACATTCGTTGGGTTTATTGTTATTGCTTCTGGAGCTGGAATACTAGAACAAGGCCTTTCTCCATTTGGTGCCATGTTCCAAGAAGCATTTAATGTGTCAGGAGTAGTACCAAATAATGAGGCCATCGTTGCATTGGCGTTGAATGAATATGGGACAAATACAGCACTCATTATGTTTTTCGGGATGATTGTTAACGTTCTCATTGCCAGATTTACAAGATATAAATATATCTTCTTAACTGGACATCACACACTCTATATGGCTTGTATGCTTGCCGTAATAATGGCTGTAGCAGGATTTGATACGATACCATTAATTGCTGCAGGTGCGGTTGCGTTAGGTATTATTATGACGCTATCTCCAGCCATTTTACAACCATTTATGCGACAGCTTACTGGTAATGATAATGTCGCTTTAGGACATTTTAGTGCGGTAGGGTATGCTATTAGCGGATTAACTGGAAAATTATTCAAAAAAAGCAAAGAACATTCCACAGAAAATATTGATTTTCCAAAAGGACTTGGATTTTTACGCGATAGTACGGTAAGTATTGCTTTAACCATGATTGTTATGTATATCATTGTTGCTTTTTTTGCAGGTTCCGCATTCATTGAAGCTGAATTAAGTGATGGTACAAACTACCTCGTGTTTTCTTTGATGAAAGGTGGTAGTTTTGCGGCTGGAGTGTTTATTATACTATCAGGTGTTCGCCTCGTGTTAGCAGAGATTATTCCAGCATTTAAAGGGATTTCTACGAAAATTGTTCCAAATGCAAAACCAGCTCTTGATGTTCCGATTATTTATACGTATGCGCCGAACGCTGTGTTAATTGGTTTTTTCAGTAGTTTTATTGGCGGGATATTCAGTATGGGGATTATGTTTGTTTTAGGTACAACCATTATTCTTCCTGGTGTTGTGCCACACTTTTTCACAGGTGCAGCAGCTGGTGTTTTAGGTAATGCAACAGGTGGTATAAAAGGTTCTGTTGCTGGTTCGTTTGTAAACGGAATTATTATTTCGTTTTTACCAATATTTTTACTTCCAGTCCTAGGAGAGCTAGGTTTTGCCAATACAACCTTCTCTGATGCTGACTTTGGTGTATCCGGTATATTCTTTGGAACATTAGCAAATTATGCAGGCCCAATTGCAATCGTTATTAGCTTAATTGTCATTCTAGGGTTAATGCTTATCCCTTTTGGTAAGAAAAAAGAAGCAACAAAAAACGTTTAG MTTMNEFLSVLVDILSQPAILVAAIALIGLLAQRKNLSEIMKGAIKTFVGFIVIASGAGILEQGLSPFGAMFQEAFNVSGVVPNNEAIVALALNEYGTNTALIMFFGMIVNVLIARFTRYKYIFLTGHHTLYMACMLAVIMAVAGFDTIPLIAAGAVALGIIMTLSPAILQPFMRQLTGNDNVALGHFSAVGYAISGLTGKLFKKSKEHSTENIDFPKGLGFLRDSTVSIALTMIVMYIIVAFFAGSAFIEAELSDGTNYLVFSLMKGGSFAAGVFIILSGVRLVLAEIIPAFKGISTKIVPNAKPALDVPIIYTYAPNAVLIGFFSSFIGGIFSMGIMFVLGTTIILPGVVPHFFTGAAAGVLGNATGGIKGSVAGSFVNGIIISFLPIFLLPVLGELGFANTTFSDADFGVSGIFFGTLANYAGPIAIVISLIVILGLMLIPFGKKKEATKNV PGPT0017105_781 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017105-ulaA|sgaT-K03475 NA NA AK015_01808 282 hypothetical protein ATGAAATTTTTAGCAGTATGTGGGTCAGGATTAGGAACAAGTTTTATGGTGGAAATGAATATTCAACAAATTTTACAAGAGTTAGGTGTCTCGGGTATTGAAGTGGCGCATTCTGATTTAAGTTCAGCAACGCCTGGAGACGCAGATGTATTCTTTTTAGCAAAAGATATTGCTGAGGGAGGTGCCCATTTAGGTGAAGTAATCGTGTTAGATAATATTATAGATATGGATGAGTTGAGGGACAAGGTAACAAAAGTAGTAAAAGAAAAAAATCTAATTTAA MKFLAVCGSGLGTSFMVEMNIQQILQELGVSGIEVAHSDLSSATPGDADVFFLAKDIAEGGAHLGEVIVLDNIIDMDELRDKVTKVVKEKNLI PGPT0017110_731 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017110-ulaB|sgaB-K02822 NA NA AK015_01809 2028 hypothetical protein TTGTTTGATCAAAGGTCTTTCAAACTGTTTGAAGAAATTATTACGCATGATGAGATTACTGTTTCTCAAGTCATACGAAAATTAGATGTTTCAGAACGACAATTTTACTATGATTTGGAAAAAGTGAATAACACTTTAAAAAGTATGAAGTTAAAGCCAATTAAACTGCATAGTCAACAATTTGTCGTTGATGTTAAAGTGAAAGATTTACTTCAAGCTGGTGCTCCTTTGGATATTTCTATGCATCACATTGTTTTATCAGAAAAGGAACGCATTTATTTACTCTATTTATACACGTTTATTCGCAAAGAACCTGTTTCCAATTATCATTATCAGCAATTGCTTTACGTAAGTAAGAATACAGCGCTAAGTGATGTGAAAAAAGCAAAAGAATTGTGTCAAAAAAAAGGGGTTATCCTTCAATATTCAAGGAAAGATGGCTACCACTTAACTGGTACAGAAATGGAAAAAAGAAGGTTAGCAAGCTTTTGTATCAATTACTTGCTCACAAAGTCACTAGGAAAAGAGATGTTAGTGCTCGTATTAAAATCGTGGAAACAGGAAGACTACTATGTGAATACGCAGTTAACAATGAATGATGTTTTAAAAGCAAAGCATATTCATTTAGTAAAGGATAGGAAAGCCGAAGTTATTTTTCATTTAACGTTTATAAGAGTCCGAACCGCAAAAATAAAGCCATTGTTTTCTCAAGAGGAGAAACAGTTATTGCGTTCACAACGTTTGTTTGGACTGGTAGAAGAGTTGGCACGACAATTATTTGAAAATAATCAATCAGAAGAACAATATTATTTGACCTTGCAAATATTAATTGCCTTACAGGAAGTGAAATTAGAAGAAAATCCATATTTAAGAAGACTGACCTCACAAATCATTGAAGCATTTGAAAAAAACACTTTGCTTCCGATTGATAATAAAACTTTTTTACAAAAAAGCTTGTATAACCACCTCGTTCCAGCTTTTTATCGAATTACATTTGAAATACCGCTTGTGAACCCTTTAACATCACAAATTAAACAAAAGTATGTGGAATTGTTTCAATTTGTCAAACGCTCGCTCGCTCCTTTATCTGAGTGGACAAAAAAGCCAATTAGTGATGAGGAAATAGGTTATTTTACGCTTCATTTTGGCGGTTATCTTGAAAAAAATAGAAGTAGACATAAAACAGAAATTCATGCATTGATTGTTTGTTCTAACGGGGTCAGTTCTTCCATTATGTTGCGTGCACAGTTAAAGGAGATGTTTCCAAACATTCATTTTTCCAGGGTGCATACAGCTGAACAAGTAAGCTTGCTTCCAACATCTAGTTATGATCTGATCTTTACTACAGTAGATGTGGATTCGCCCAAGCCGGTATTTACAGTGAAACCATTGCTTTCAAAAATAGAAAAAAATTATTTAATTGAATCTGTGATGAATCAATTCCCTATTTTCAATAATTATGATTTTTCAATGGATCAAATAATGGAAGTAATAGCAAAACATACAGAAATTAAAGATGAGAAACGGTTATTTTCAGACCTTGTTGATCTCATACATCTAAGTCATACCGATATAGGAGGGTATAAACCAATGCTTTCAGAATTACTTAACGAAGAAATGATCCAGTTTACAGATGAGCCTTTGAGCTGGAAAGAAGCTATAGAGATGGCTGCACAACCATTACTTGAAGCTCAGAAAATTAAGCCAGAATATATTGAGGCGATGAATAAAAAAGTCGAAGAAGTAGGAACTTATATTCATATAGGTAAAGGAATTGCTATTCCCCATGCACGACCAGAGGAAGGCGTAGTCAATTTAGGGATGTCTTTTTTAAGAACAAAAACACCAGTTAAATTGCTAGGCAAGGATGATCACCAAATTGATATTTTTATTTGTTTAGCAGCGATCGATAATGAGGCGCACTTAAAGGCATTATCACATTTAACAAAGTTGCTGTCAGATAACGCAACACTCCAAGCTTTAAAAGCAGCGCAAACAGCGCAAGAAGTCATGGAAATTATTAAATAA MFDQRSFKLFEEIITHDEITVSQVIRKLDVSERQFYYDLEKVNNTLKSMKLKPIKLHSQQFVVDVKVKDLLQAGAPLDISMHHIVLSEKERIYLLYLYTFIRKEPVSNYHYQQLLYVSKNTALSDVKKAKELCQKKGVILQYSRKDGYHLTGTEMEKRRLASFCINYLLTKSLGKEMLVLVLKSWKQEDYYVNTQLTMNDVLKAKHIHLVKDRKAEVIFHLTFIRVRTAKIKPLFSQEEKQLLRSQRLFGLVEELARQLFENNQSEEQYYLTLQILIALQEVKLEENPYLRRLTSQIIEAFEKNTLLPIDNKTFLQKSLYNHLVPAFYRITFEIPLVNPLTSQIKQKYVELFQFVKRSLAPLSEWTKKPISDEEIGYFTLHFGGYLEKNRSRHKTEIHALIVCSNGVSSSIMLRAQLKEMFPNIHFSRVHTAEQVSLLPTSSYDLIFTTVDVDSPKPVFTVKPLLSKIEKNYLIESVMNQFPIFNNYDFSMDQIMEVIAKHTEIKDEKRLFSDLVDLIHLSHTDIGGYKPMLSELLNEEMIQFTDEPLSWKEAIEMAAQPLLEAQKIKPEYIEAMNKKVEEVGTYIHIGKGIAIPHARPEEGVVNLGMSFLRTKTPVKLLGKDDHQIDIFICLAAIDNEAHLKALSHLTKLLSDNATLQALKAAQTAQEVMEIIK PGPT0017115_53 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017115-ulaC|sgaA-K02821 NA NA AK015_01810 540 COG0431 NAD(P)H-dependent FAD/FMN reductase GTGAAACTTGTTGGAATAGCCGGCTCATTAGTCGGAGAAAAAACGTCGCAAGTAGTACATGACGTTTTACGTGTAGCCAAACGTATCGATAAACAAATAGAAATCGAATTAATCGACTTGAAAGAATATGATGTAGAGTTTGTTAATGGGTCACCTTTAGCCTATTATAATAAAGACACATGGTATGTAGTAAATACGATTTTAGCAGCAGATATGATTGTTTTTGGTTCACCTATCTATCAAGCATCTATTTCAGGCGCGTTGAAAAATTTGCTCGACCATTTTCCGATCGACGCCTTCAAATCAAAAGTTACCGGAATTGTAACTACTGCTGGATCGGATAAGCACTTTCTCGTATCCGAATATCAATTAAAGCCGATACTTGCTTATTTGAAAGGAATCATACCTCGTTATAGTGTTTTTGTTAACAATGATTGTTTTAATGATGATAATGAGATTATTGACCAAGATGTACAAAAAAGGATAAACAAGCTCGCTCAAGAAATGATTACAATTAAAAAACGTACGTATAGCGTTTAA MKLVGIAGSLVGEKTSQVVHDVLRVAKRIDKQIEIELIDLKEYDVEFVNGSPLAYYNKDTWYVVNTILAADMIVFGSPIYQASISGALKNLLDHFPIDAFKSKVTGIVTTAGSDKHFLVSEYQLKPILAYLKGIIPRYSVFVNNDCFNDDNEIIDQDVQKRINKLAQEMITIKKRTYSV PGPT0003045_1958 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0003045-ssuE-K00299 NA NA AK015_01811 1848 ltaS1_1 COG1368 Lipoteichoic acid synthase 1 ATGCGAAAATTAACCCTGTTGATAGAAAGAAATGTATTGATGACGTTGATTATCTTATTATGGCTAAAATCAGTCATTATTTCTTTTACTACTTTTCAATTACCGCTTTATTCTTGGTTTGATATCATGATCGTTTTTATCAACCCGATTGGCATTATTATGATCATGTTTGGGCTTAGTTTCTTTTGGAGAAAACGTTTGTCTCCACTTATGCTATTTATCATTTATCTATTATTGTTAGGCTTATTGTATGCAAATGTGCTTTATTATCGGTTTTATATTGATTTTGTTACCGTTTCTGTTTTACTACAATTGAACAATGTAGGAGGTTTAGGGCCAAGCACGGTTGAACTCTTTTCCCCGCTTGATATATTGTTATTTGTCGATATTGCAGTAATTGGATATGTTATTTTTAAAATGAACAGAAAGAAAAACTGTCCAGTAGTACCTAATAAGAAAAGATATGCTTTTACTGGTGTGGGGCTGCTTGTCTTTACTTTGGTCATTGCGCTCATTCAAAATCCGTTTCTTTTACAAACAGATTACGATCGTGAAGAACTAGTGAAGTCATTAGGTTTATATAATTATCAGCTGATAAATATAGCAAATGGTGTTAAATCTCCCGTAATGAAAGCTCTTGCAGATGAGGCAGATGTAAAAGAAGTACAATCGTATATCCAAGGTAATGAAGAAAAGGGTTCATTTCAGGAATTTGGAATAGCGGAAGGAAAGAATGTTGTTTTTATTAGTTTAGAGTCTACACAAAATTTTGTGATTAACCAAAAAGTGAATGGCAAAGAAATAACCCCATTTTTAAATGAGCTTATTCAAGACAGTTTTTACTTTAACAATATATACGACCAAGCAGCGCAAGGAAAAACATCTGATGCAGAATTTATGATAAATACTGGCTTGTATCCTTTACCAAGTGGTTCTGTATTTGTCCGCAGACCGAACAATGAATTTCAATCCCTACCGTATATCTTGCGAGAAGAAAATGGCTATACGGCTGCTGCTTTTCATGGAAATGATGCTTCATTTTGGAATAGAGACGATATGTATCGATCGATAGGGTTCGATACATTTTTCTCGAAAAAAGATTATCATGTGACGGAAGAAAACTCGGTTAATTATGGGTTAAAGGATATTCCCTTTTTTGAACAATCAATGGAAAAATTACTTCATTTATCTGAACCTTATATGGCAAGTTTCCTTACGTTAACGAATCATTTTCCATTTTTATTAGAAGAAGAGGATCAATCTATTTCACCCGCGAATACATCTGTAGGTGTTGTTAATCGATATGTAACAACCGTTCGGTATGAGGATGAAGCGTTAAAACGGTTTTTTGAATTAGTAAAGGAAAAAGATATGTATGAAGATACAGTGTTTGTTATCTATGGAGATCATTATGGTATTTCCAAAAAATACGAAGCTGGTGTTTATGAATTACTTGGGCAAGAGGATACGGAAATGAGCCACCTTGAGTTACAAAAGGTGCCAGTAATTATCCACGTACCAGGACAAGAAGGAAAAAAGATAGAAACAGTGGGAGGAACGATTGATATTCATGCAACTGTTTTAGAATTAATAGGGGTACGAGATAGGGAGCAAATGAATTTTAGTCGTAATCTATTTACGAGAGATAATGAAGCCCCTGTTGTGTTTCGCGATGGAAGCATCGTCACAGATAAATATGCTTATGTAAATGGTCGTTGTTATGATAAGCACAAGCAACAGGTTGTCGAATCAAATACATGTAATGATTATTTAGAAACGGCACGAAATGAACTATATGCTTCAGATCAAATTATCCTTGGTGATCTATTTCGCTTTATCGGAAAATAG MRKLTLLIERNVLMTLIILLWLKSVIISFTTFQLPLYSWFDIMIVFINPIGIIMIMFGLSFFWRKRLSPLMLFIIYLLLLGLLYANVLYYRFYIDFVTVSVLLQLNNVGGLGPSTVELFSPLDILLFVDIAVIGYVIFKMNRKKNCPVVPNKKRYAFTGVGLLVFTLVIALIQNPFLLQTDYDREELVKSLGLYNYQLINIANGVKSPVMKALADEADVKEVQSYIQGNEEKGSFQEFGIAEGKNVVFISLESTQNFVINQKVNGKEITPFLNELIQDSFYFNNIYDQAAQGKTSDAEFMINTGLYPLPSGSVFVRRPNNEFQSLPYILREENGYTAAAFHGNDASFWNRDDMYRSIGFDTFFSKKDYHVTEENSVNYGLKDIPFFEQSMEKLLHLSEPYMASFLTLTNHFPFLLEEEDQSISPANTSVGVVNRYVTTVRYEDEALKRFFELVKEKDMYEDTVFVIYGDHYGISKKYEAGVYELLGQEDTEMSHLELQKVPVIIHVPGQEGKKIETVGGTIDIHATVLELIGVRDREQMNFSRNLFTRDNEAPVVFRDGSIVTDKYAYVNGRCYDKHKQQVVESNTCNDYLETARNELYASDQIILGDLFRFIGK PGPT0023375_1307 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 AK015_01812 1623 phnW 2-aminoethylphosphonate--pyruvate transaminase ATGGTGAAAGAATCATACTTTGTAATTTATAAGATAGCAGACTTAGAAGAAGAGTTAGAGCAAATCTATCGTTTAAACTATGAAACGTTTGTTGAAGAGATTCCACAGCATGAAAAAAATAGCGACCATAGATTAGTAGACCGTTTTGACGATAAGAATACATATGTTATTGCTAAACGAGGCAAGGAAGTAATTGGAATGATTTCGGTTCATAATCAAAGACCATTTTCGCTTGACAAAAAGTTAGATAATGTAGATGATTATTTACCTGTATCTGCTATCCCTTGTGAAATACGTTTATTAGCTATAAAAAAGCAGTATCGAGGAGGGCGCATCTTTTATGGTCTCTGTGAAATGTTAGTAGACTATTGTTTGGAAAGAGGGTTTAATATGGCGGTTATTTCTGGAACATTAAGGCAAACAAAGCTCTATAAACATTTAGGGTTTAAAGCGTTTGGACCATTAGTTGGAACGGAAGAAGCACCGTATCAACCTATGTATTTAACGAAGAAAAACTTTGAGCGTGCCTCTAAATTATTTGAACGAATGTTGCGAAAAGAAGTGCGGCAAGACAATTATAATTTCCTTCCAGGTCCTGTGGAGGTTTCCGATGCTGTAAAAAAAGCATGGAGTGATAAAGCTATATCTCATCGTGCGAAGGATGTACATAAAGTAATGGAAGAGGTACAGCAACAATTATGTGATGTAACCAATGCTAATTATGTAGAAATTGCAGTAGGTACAGGTACACTTGCGAATGATATGATTGCTGCTCAGTTAACAACACTTCCAGGTGAAGGGTTAATTCTGTCAAATGGCGAATTTGGAGAACGTTTAATGGATCAAGCTGTGAGGTTTGGTCTTTCTTTCCAAAGCATTTCTAAGTCGTGGAGTGCACCGATTACTTTAGAAGAAATAAAACGAACATTGGTTGAGCATCCAGAAATAGAATGGCTATGGACTGTCCATTGCGAGACATCAACAGGCTATGTTTATCCATTGGAAGAATTAAAGCAGCTATGTAACCAATATGGTGTCCGTTTATGTATAGATGCTTGTAGTACGGTTGGTGTTCTACCGCTTCATTTAGAGTCCGTTTATTTAGCAAGCACGGTAAGTGGAAAAGGTATCGGTTCATACCCGGGATTAGCTATTGTGTTTCATCACGAGAAGCTTTTTCCACAAAATTCAATACCTAGTTATTTAGACCTTGGTAGGTATCAAACAAGCGATAGTATTCCGTTTACGCATTCATCGAATAGTTTGTTGGCTATGCAAGCTGCTTTACAGCAGTTTTGTCCAGATAAAACAAAGCTATTTCGAGATATAAGCAATGCATTTCAAAGCGTTGGCATGCAAGTGCTCACAGGAGAAAATTATTCTCCGGGTATTGTGACGGTTTGTCTACCTCCTGAAATTCGTTCACGTCAGTTCGGCGATGTGTTGAAACAAAAAGGGGTTCAAGTTAGTTATGAAAGCAGTTATTTACTAAACCATAACTGGTTTCAAGTGGCTATTATGGGACAACAACAAGCTTCGCATATCAGGAAGGGCATAGAGATTATTGTTGAGGTATATCAACAGTTTGCTAGAGAGAAGGAGATTCATTCATGCGAAAATTAA MVKESYFVIYKIADLEEELEQIYRLNYETFVEEIPQHEKNSDHRLVDRFDDKNTYVIAKRGKEVIGMISVHNQRPFSLDKKLDNVDDYLPVSAIPCEIRLLAIKKQYRGGRIFYGLCEMLVDYCLERGFNMAVISGTLRQTKLYKHLGFKAFGPLVGTEEAPYQPMYLTKKNFERASKLFERMLRKEVRQDNYNFLPGPVEVSDAVKKAWSDKAISHRAKDVHKVMEEVQQQLCDVTNANYVEIAVGTGTLANDMIAAQLTTLPGEGLILSNGEFGERLMDQAVRFGLSFQSISKSWSAPITLEEIKRTLVEHPEIEWLWTVHCETSTGYVYPLEELKQLCNQYGVRLCIDACSTVGVLPLHLESVYLASTVSGKGIGSYPGLAIVFHHEKLFPQNSIPSYLDLGRYQTSDSIPFTHSSNSLLAMQAALQQFCPDKTKLFRDISNAFQSVGMQVLTGENYSPGIVTVCLPPEIRSRQFGDVLKQKGVQVSYESSYLLNHNWFQVAIMGQQQASHIRKGIEIIVEVYQQFAREKEIHSCEN NA NA NA NA NA AK015_01813 558 plsY_3 COG0344 Glycerol-3-phosphate acyltransferase GTGAATCCACTGGAAAAAGTCATTTGGATTTTGGTTGCATATGTATTTGGCTGTTTAAATGGCGCTTATTATGTTGGTAAACTATATTATCAACAAGATATTAGAGAATTAGGTAGTACGAATGCTGGAGCTAGAAATGCGGGAAGGGTCTTTAGTCGTTCTGCGTTTATTGTTACAGTAATTATAGATGCATGGAAGGTAATTATTCCGTTATGGATAGCTATCAGCTTTTGGGAAATGGATACGATTATACTAGGGTGTATGGCTATTGCCCTTCTCCTAGGTCATTTATGGCCAGTACAACTAGGTTTTCGTGGAGGGAAGGGAGTAGTTGTATACTTAGCTACAGCACTTATGTTAGCCCCTATTCCTTTAGTTGTTTGTGGGCTTATCATCTTGCTAGGGTATCAACTTCATAAAAATCTTACGTTAATAGCCATGATTGGGTTTAGTAGTATCCCGTTAAACTTGTTCATTTTCTATAGAAATATCGAGTTGACAGTAGTTTTTTTCATGATGCTGTCTGTTGTTGTAATTATGCATAGAAATGGGGACTAA MNPLEKVIWILVAYVFGCLNGAYYVGKLYYQQDIRELGSTNAGARNAGRVFSRSAFIVTVIIDAWKVIIPLWIAISFWEMDTIILGCMAIALLLGHLWPVQLGFRGGKGVVVYLATALMLAPIPLVVCGLIILLGYQLHKNLTLIAMIGFSSIPLNLFIFYRNIELTVVFFMMLSVVVIMHRNGD PGPT0024375_3777 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591 NA NA AK015_01814 546 hypothetical protein ATGACATCTAATCTAAAGGAAATAACGGGATCTCTTCTTTCGGCAATTGGAACGATACAAGCGGCAATCGGTAGCACTCCCCAGTTATCTTTAAGTAAAGATCAACGTTTTCAACTTCGATTAATAGGGAATGTATTACAAGCTCTAGGAAGCGGCGTGACTGCTGAAGGTGAAAGCGAGGCTTCTTTTGAAAAATTAGGGTACCAAATTCAAGCTACGGGCAATTCAACTGTAATAGTAGGAATGTTGATTTATCGTTCTTCAGATCCTATAACAGAAGAAAAATTGATTATAACAGGACTGTGGATGCAGGCATTGGGGAGTTTTCTAGTGGCTACTGATGAATGGGCTGATAACACAAATGGTGTGTGGGAAAATACTATCGGAGCCTTATTGCAAGGTATTGGTAACTCTTTACAAGCAATAAGCGGCATTCAAACGCTTCAAAACAAGCAGTCGGATCAGCCTATAATTGGGGTTGTAGGAAGTTGGATACAAGCAGTAGGCGCCGTTATATCATTTATTGGAGCATTTCAAGAAGAATAG MTSNLKEITGSLLSAIGTIQAAIGSTPQLSLSKDQRFQLRLIGNVLQALGSGVTAEGESEASFEKLGYQIQATGNSTVIVGMLIYRSSDPITEEKLIITGLWMQALGSFLVATDEWADNTNGVWENTIGALLQGIGNSLQAISGIQTLQNKQSDQPIIGVVGSWIQAVGAVISFIGAFQEE NA NA NA NA NA AK015_01815 693 ompA Outer membrane protein A ATGAATACTAAATATGAGCGTTTATTTAGGCAGAATAGGGACGAAGGACATTTTTGGCCATCATTTACAGACTTACTTACAACGATTTTACTTTGCTTTATTCTAATTTTTGTTGCTATGATGATTATTAAATCCTTACAAATAGAAGAAATGAAAAAGACGTTAGACCAAATTATGGGTGTACGAGCAAAGTTAGTGGAAGACTTAAAAGAAGAGTTCGGTGGTTCTGAATTAGGTGTTGAAGTAGACGAAAAGACGGGCGCCATCATTTTTAACACAGAGATTTTGTTTGCCTATGATAAGCACGAGTTAAAGGCTAACTCTTATACTTTTTTAGACGAATTTGTACCCAAATATTTGGATATTTTGTTGCAAGAAGGGTACGAAGAGTATGTTGCAGAGATCATTATTGAAGGTCATACGGACCGTGATGGGTCGTATTTATATAATTTACAGTTAGCACAGAATAGAGCATATAGTGTTGCTGCCTACCTATTAAGTGATGATTTTCCATACAAGAATATCCAGCAGCATTTAGCAAATAAATTAACGGTGAATAGTAAATCATTCTCCGACGTAAGAGCAGATGAGAACGGGAATTATAGTGCAGAAGCTTCCCGTAGAGTGGAATTCAAATTTCGACTGAAGGACGAAGAAATATTGGATAAAACAAGAGAGATTTTAGGTGGGTAG MNTKYERLFRQNRDEGHFWPSFTDLLTTILLCFILIFVAMMIIKSLQIEEMKKTLDQIMGVRAKLVEDLKEEFGGSELGVEVDEKTGAIIFNTEILFAYDKHELKANSYTFLDEFVPKYLDILLQEGYEEYVAEIIIEGHTDRDGSYLYNLQLAQNRAYSVAAYLLSDDFPYKNIQQHLANKLTVNSKSFSDVRADENGNYSAEASRRVEFKFRLKDEEILDKTREILGG NA NA NA NA NA AK015_01816 1830 hypothetical protein ATGGTTGAATTTATTCTTGAATTATTTACATCAAAACAAAGAGTGGAAGCTATTTTAAGCAGCTCCGTTATTGAGTTTATTTTTGTTGTCCTGTTTGTCATGTTTCTATTGGCTTTGCTGATTCATATTACCATTTACAATAAATTAAAAACGATCAGAAATCACCTGAAAGCAACGGGGAATTTGAATGTAGAGCCGTTAAATACATTGAAAGAACAATATGAACAAAAGCAAAAACAAGAAATGGTTAAAGTGGAGACATTTGTTCAAGAGCAATTTTCGAATTGGCGTATATGGCAAATTTCTGTCGTTAGTCTCATTAAAATGGTGCAAATGACTGTGTCTGTGTTTATATTATTAGGAGTACTTGGCACATTTATTGGCTTAACCTCTTCTTTAAGTAGTATTGATTTACAAGGAAATGATGTGGTTACAGGGGTAGCAAGTGTATTAGCCGGTATTGATGTTGCTTTTTATACGAGCATTGTTGGGATGGGATTTTCATTAGTGATGACGGTATTAATAAAGGTATTTAATACAGAATTTATGTTAACAGATATTATGCTTATGACGGAGACGAGATTAGAAGGCACAGAGGAAAATGGACTGCAACAATTAGTAAGCCTTTCAGAGGCGATTAATACGTCCATACAGCATTTACAAAAGTCGAATCAACAGTCCTTTCAAACAATAGAAGCCGCCTTTGCTGGATTTCAAAATTACACCTCAAGTTTGGAACAATCCGCTAAAGACTTAGCTGCATTTAATCATGGGCTTTCAGATAATCTCGAATCATTTCAGCAATTATTTACACATATGCAAAAAGTAACCGATAGTTTTGCTGCGGGAACGGACAATCTAAACGAAAATTTTGCTACATTATTTACGTATTTCAAACGTATGGATAGCCATAACGAACGACAGGTAAAAGCGTTCGAACAAACGTATGAGAAGATAAAAGAAGCAATGATTTCGCAAATGGACATGTTGAAAAATTTTTTAGATTCTACAGAGGAAATAAAACAATTCACATCTACTTTATTAGATGAACAGGCATCGTTACAACAGAATTTCACCTCGATACAGGAAAAGAGCAAACAACTCGTTGTGCAAATGGAGGCACAGAACAAAGAATTTAGGTCCATATTTGGTGCGGATCTATCGACAAAGCTATCAGGTGTAATTGAACAACTATATGGATTGTCGAGAGAATTTGATAAAATGGGAGATGGTTTAACACAGCTTCCAAATGCACTTGAAGTCATTAACCAAACGCAAGCAGAATATAAACATTTATTATCGGATCGTTTCCAAGAATTAAAAGAATTTAACCGTACATTTAGCAATCATATAAAATCACAGGCTACAAATACGATGGCATTTGAAAAACATTTGCAGCAAACGATAAGTTCTTTTGAACAAATGGATATGAAAAATAGTCAATTGTTACAAGAAATAAATGGAACCATTTCCCAAATGACGCAAACACATCAGCAACGCGAGAACCAGTTGGATAATAGTGTGCATATATTAAAGGATACGTTAGCCAATTATGTTCATAATCTGGAAGGGTCTGTAGGAAAACGATTAGATCAAATTGGTCAAGCTCTCCAAGCGTCCATGCGTGAAGTAAATGAAGGGCTGCGAAATGAATGGAATGAACTAAGAAGAATGAATGACACGACACAGCAAAATCAAGTAAGGGCAATCCAACAAAGCGTACAGGATCTGCAGCGGGAAATTCACATGTTAAACCAACAATTGGCTGCTTTTTCTCAACGTAATTACACTTCAAACAATGCGATAAGGCTGAACCAAAATGAATACTAA MVEFILELFTSKQRVEAILSSSVIEFIFVVLFVMFLLALLIHITIYNKLKTIRNHLKATGNLNVEPLNTLKEQYEQKQKQEMVKVETFVQEQFSNWRIWQISVVSLIKMVQMTVSVFILLGVLGTFIGLTSSLSSIDLQGNDVVTGVASVLAGIDVAFYTSIVGMGFSLVMTVLIKVFNTEFMLTDIMLMTETRLEGTEENGLQQLVSLSEAINTSIQHLQKSNQQSFQTIEAAFAGFQNYTSSLEQSAKDLAAFNHGLSDNLESFQQLFTHMQKVTDSFAAGTDNLNENFATLFTYFKRMDSHNERQVKAFEQTYEKIKEAMISQMDMLKNFLDSTEEIKQFTSTLLDEQASLQQNFTSIQEKSKQLVVQMEAQNKEFRSIFGADLSTKLSGVIEQLYGLSREFDKMGDGLTQLPNALEVINQTQAEYKHLLSDRFQELKEFNRTFSNHIKSQATNTMAFEKHLQQTISSFEQMDMKNSQLLQEINGTISQMTQTHQQRENQLDNSVHILKDTLANYVHNLEGSVGKRLDQIGQALQASMREVNEGLRNEWNELRRMNDTTQQNQVRAIQQSVQDLQREIHMLNQQLAAFSQRNYTSNNAIRLNQNEY NA NA NA NA NA AK015_01817 828 hypothetical protein ATGATGTCTATCTTACTATTCTTTTACGAACTAGGGAGAAAATTTTTTATATATAAAGTGTACGATCTTTCTGCACAAATGGCTTATTATTTCCTACTATCTGTTTTTCCGTTTCTGTTCGTGATTTATTCGTTAATTCCTTATTTGCCCTTTAATGAAGATTATATTTTAACGCTAATTGAACCGTATGCACCGGATACAACGTATCGTCTAATTAGAAATACGTTAACTGCTGTGCTCGCAAATCAAAATCAACCCTTGCTTTCTTTAAGCTTGGTTATTTCTGTATGGCTTGCTTCAATGGGATTTCAATCCATGAAACGTATACTTAACACGGCTTATAACGTGCATGAGAAGGAAAGTATCGTAAGACAAGTAATCGAAGGGCTAATGTTAACTATAGGATTTATGATTGTTTTCTTGTTTTCCGTTGTTGTTCCTGTTTTGGAAAGAACATTAAGGGCATATTTGGTCGATATATTTACCAATGATAGTTTTCATCGTTTGTGGGATTTTATCCAGTGGGGAGTTGGTAGTTTTTTAATCATGACTTTTTTTCTTCTACTTTATTATTTCACTCCAAATCTACGTGTCAAAGTAAAGCAAGTTCTTCCAGGTGCGCTTGTCGCTACAATTGGTTGGCAAATTATCTCCCTTCAATTTGCTACTTTTGTTAGTCGTAACGATTATACAGCTTTTTATGGACAATTAGGAGGTATTGTTGTATTAATGATTTGGTTCTATATGTCTGCTATGATCATTATTATTGGGGGATTAGTTAATGCTATGATTTATCCAATTCAACGTAGCGAAAGGCGTTCTTTTTAG MMSILLFFYELGRKFFIYKVYDLSAQMAYYFLLSVFPFLFVIYSLIPYLPFNEDYILTLIEPYAPDTTYRLIRNTLTAVLANQNQPLLSLSLVISVWLASMGFQSMKRILNTAYNVHEKESIVRQVIEGLMLTIGFMIVFLFSVVVPVLERTLRAYLVDIFTNDSFHRLWDFIQWGVGSFLIMTFFLLLYYFTPNLRVKVKQVLPGALVATIGWQIISLQFATFVSRNDYTAFYGQLGGIVVLMIWFYMSAMIIIIGGLVNAMIYPIQRSERRSF PGPT0014525_6747 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK015_01818 1707 htpX_1 Protease HtpX ATGCAACTCTTTATCATAAGTGTTATTACTATTTTACTTACCTGTATTTCTTTCATTCTTCCAAAGAAAGTAAGTGTAGGGCTACTTCTTATCGGCAGTTGTAGTATGATCGTATATTTACTCATGACGAATGAATTTTTCGAAGCAGTCTTGCCACTTAGTGTGATGTTTGTCACCTATTTTAGTTTTAGTGTTGTCTTTGACCATGACAAAAAGTTGAAAAAACAGCAATTACAACAAAAGCTTTCGGTTACAAACTTTCAGATCGTTGAACTGAAAAGAGATGTTAGGCGAATTTTGATGGATATTTGTTTAGCTGGTGCAATAGCAGGAGTTTCCGTTATTTGTCTTCTTTTTATTCCAGAAATGATCAATACACTTAAGTATCTACTTGGCTACTATTTAATTTTGATGCTTCCACCATTCTTGAACCGCTTGGTAGATTATTTCTTTGCCAAGGTGTATATGTTACCTGAGGAACAAGTGCTGGTCATTATCTCCTTACTTGAAGCAAGAGAATTGCCAATGGAACATTTAGAAGCTATTCAAAAACAATCTAATCCAGATATTTTAAGACTTCATCCTAGTTTTGCCTTTTTAGCTGAACGAAAAGATTATACAATTTCATTTTCAACCGTATTGCGTTTAACTTTTTCTGGAGAAACAATGTATTTAACACCTGTAAATGTAGAGGCGTGGTACATGTACTGGAATCGTTTTATCCAAGTAGACCAAGTAGAAACGGAAAAAAATATTCTTCCAATCTGGCATAGGAGCAATATAAAGCGCTTGTTATGGAAAGGCTATTTTGCAATTAGCGTTAAAGGTGTTGCTGCATATACAGCGTTATTAACTATTTTGATTTTTCTTCATTGTCCGTGGTATGTTATTACTGTTTTTGTATTTCTATGGTGGCTGTTTAATATGTATATTGCAGACCGACTACTCATTAATGCTTCAGACGCAGAAGAAGTTACAGCGGGAGAGTTATATCATATTTCCCAGGAAATTTTTTCGAAGGCTGGAATAACAGGCACTAGATTATATGTGATTGACTCTGATGTATATAACGGTTTTGCAACGGGTACGCACATTGGAAAAGGGACGATAATGTTGACTAGCGCAACAACGAAATTATCCTGGTCTGCAGTGAAGGCTATTTTAGCACATGAGGCAATACACATAAAAAAGCGGGATGTTATGGTGAATCAAATTGGACGGGTGATGTTAATGATTGTTCTTGGATTTGGCATCTTTTTATCTTTTAATGGACTAAAGCAATTAATAGAACAGCCATTACTACTTATTGTATTAATAAATTTACTTTGGGCTATTTTTATAATCTGTTTATCAGGGGTTGCTCAATGGACAGAAGTAAGGGCTGATTATTTGGGAGCTGAACTACTAGAGGCAGGGAATAGACATATGGCTGATGGATTGAAAGAATTAGCTGTTGCCCAAGATCAAGCAACAAACAAGGCATTACAATATAGCAATCTTGAAGAGAATAACCATAACAGCATAGAAAGAGGTAGCTGGTTGTTACGCTTCATGGAGTTCCAGTTTATGCCACATCCGCCGTTATATTGGCGTATTCAACAACTATGTAAAGAAGAAAACTGGAATAGAACGAGGAAAGCGTGGCTAGTTGCACGAATAAAAGAATCGTTGCCGGATTTCTTCCAGCATAAAAGAGTTAACTTGTAG MQLFIISVITILLTCISFILPKKVSVGLLLIGSCSMIVYLLMTNEFFEAVLPLSVMFVTYFSFSVVFDHDKKLKKQQLQQKLSVTNFQIVELKRDVRRILMDICLAGAIAGVSVICLLFIPEMINTLKYLLGYYLILMLPPFLNRLVDYFFAKVYMLPEEQVLVIISLLEARELPMEHLEAIQKQSNPDILRLHPSFAFLAERKDYTISFSTVLRLTFSGETMYLTPVNVEAWYMYWNRFIQVDQVETEKNILPIWHRSNIKRLLWKGYFAISVKGVAAYTALLTILIFLHCPWYVITVFVFLWWLFNMYIADRLLINASDAEEVTAGELYHISQEIFSKAGITGTRLYVIDSDVYNGFATGTHIGKGTIMLTSATTKLSWSAVKAILAHEAIHIKKRDVMVNQIGRVMLMIVLGFGIFLSFNGLKQLIEQPLLLIVLINLLWAIFIICLSGVAQWTEVRADYLGAELLEAGNRHMADGLKELAVAQDQATNKALQYSNLEENNHNSIERGSWLLRFMEFQFMPHPPLYWRIQQLCKEENWNRTRKAWLVARIKESLPDFFQHKRVNL PGPT0014605_23 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799 NA NA AK015_01819 1053 hypothetical protein TTGTCAGCGTGTACACCAGATTCAAATCAATTTTCTCCAAAGGAAATGGTTAATAAAGTATTAACTACTGAAAAAGAAACAAATGTAGCTTATTATGGAGAGTCGACAACGGTAACGAAAGAAAATGAAACAGAAGTAGAACGGTTTGTAATGAAAGAATGGCGAGACGGTACAGGCAAAATTCGTGTGGAAATAGAAGGCAATAAAGAAGAGCCCATATCTATTGCCGTTAATGATGGCGCATCTTTAATTAGTTACGAACCAAAGCAAAAACAAGCTCTCATCATGGATGACCAAGAAATGCTTGCATTAAATCAACCATCCCCTATGGATCAAGTGAACTTTATTTTAGAACAAATTTCAAAAACACATGAAATAAGAACGGGAAAAGAACAGAAGATAGCTGGTCGCCAAACGCAACTCGTCATCGCTGAACCTAAAGCTAAAGATCAATTATATGGTCGACAAGAGTTATGGATAGATAAGGAAAACTGGATTGTTTTAAAAATGAATGCAACGATAGGAAACCAAACAGTAGAAACAGAATATAACCAAATTAATTTTGAAGCAGATATAGCTGATGAGAAATACTCCTTGAAATTACCAAAAGATGTAGAAGTTAAAAATATGAATGAGTTAAATTCAAATCGCAAAGTTACTTTAGAAGAAGCACGTGAACAAATGGGAAGTACATTCTTATATGTGCCTGAAGCAGAAGATATAGTGTTAAGTAATGTTGAACTAATTGAACTGGCAGGTGAATTTTCGCGTATGGAAGTAAGCATGGATTATACGAAAAACAACATACCGATATTCAATTTGTCTGTTTTTCCAATACCAAATGAAGATAATAATGACATTGAAACGTTTACAGCGTCAAATGAAAAGCGGATTACATTCCGAGGCGTGGATGGGGTGTATACGGAGGATGATACGTATCAAATGTTGTTATGGGACGAACAAGGTCTGCGTTATTCTATCATGATAATGGATGCAGATTTAAGTTTGAACCAAATCAAACAATTCGTAAATAAAATGAAATTTGTCCCTTAA MSACTPDSNQFSPKEMVNKVLTTEKETNVAYYGESTTVTKENETEVERFVMKEWRDGTGKIRVEIEGNKEEPISIAVNDGASLISYEPKQKQALIMDDQEMLALNQPSPMDQVNFILEQISKTHEIRTGKEQKIAGRQTQLVIAEPKAKDQLYGRQELWIDKENWIVLKMNATIGNQTVETEYNQINFEADIADEKYSLKLPKDVEVKNMNELNSNRKVTLEEAREQMGSTFLYVPEAEDIVLSNVELIELAGEFSRMEVSMDYTKNNIPIFNLSVFPIPNEDNNDIETFTASNEKRITFRGVDGVYTEDDTYQMLLWDEQGLRYSIMIMDADLSLNQIKQFVNKMKFVP NA NA NA NA NA AK015_01820 1461 rcsC_2 Sensor histidine kinase RcsC ATGAAAATAAAAACATGGCTTCTGGTATCTTATTTTGTTGTTATGGTCCTTCCTGTAATGGCAGGTTATTTATTATTTTTATTCATACAAGGGTACCATGATGAACTGAAAATACAAGAACATATTGAAACGGTAGAGGAAATAACGACATTAAAGGCATTACTTGTTGACCCAGAATTATACGAGTTTAATAGCGATTGGGGCAAAATCAAGCAAAATATAGATAAGAATCAAGCTGTTACTGTACTAAATAAAGATGGCATAGTTATGTATGCATCTCATTCATCTGTTACTTCAACTTTTCAAAAATATGGAAAAAAGCAGTTGTATGAAGGTCTATACGAATTAGAACAAGGCTACCGTTCTTATACTTATCGTCAACCTGTATTTATGAAAGATAAACTAATTGGATTTTTTGAAATACAAATCCCTAGAGAACAATGGGTGGAGGGAGTTACGAATCGAGCACTTTTAGTAGGTGTAGGTTTATGTATTATTTTTATTGTTATTTATACGTTAGTTGTCCTGTTTGTGAATAAAAAAATAGTACGTCCATTGAAGAAGCTTATTAATGATATAAAACGATTTGCTGCTGGGGAATCAATACATGAAAGAAAGACGAAAAAAGATGAAGTGGGGGAATTAACAGCACATTTTTATGTTATGAGTAGACAAATAAATAAGGCGAGAAGAATAGCTAAGCAAGAACAGCAAGCCAAGGAATACTTAGTTGCTAGCGTATCTCATGACTTAAAAACACCGTTGACTTCCATTAAAGCATACGCAGAGTCATTAGTATTTGAAAAAGATATCCATGTAAAAGAACAGAAGGAATATTTGCATATCATTATGGAAAAAACAGATTTTCTAAAAGCAATGCTTGATGATTTATTAACCTACACGATGTTGCGCTCATCAGAAAAGCAGCTGGAGTTGGCTTTAGTAGATGGGGAAGAATTTTTTGACATGTTAACCTCAGACTTTGAAACTCTTTGTAAACAAAAAGGGATTGACTTGCATGTTTCTTTGCAAGTCAAAGGGAAATACAAGGTAGACCCAAACCAAATGATACGTGTGATGGATAATCTTGTGAGCAATGCAATTTCCCATACTGCTACTTATGGAAATATTTGGTTAGGAGTTGTATCATGGGACTTGCCAGATTGGACATATTCCTTTGTGCGTCAAAATGTGGATTGGAAAGGGCAAGGGGAAGAGGGGGTTTTCATCTTAATACAAAACGAAGGGAAAGGGATTGATGAAGCGGTTTTGCCGCATGTGTTTGAACCATTTTATCAACATAATCCAGCGAGGAGTAAGCAAGAATTTCAAAGAAATGGTTTAGGGTTAAGTATTGCAAAACAAGTAATTGAAGAGCATGGAGGGTGGATACATATCTTCTCCCAAAAAAACGTAGGTACATGTGTTGTTTGTATGTTGCCTCAAACTTTGGAAAGGTGA MKIKTWLLVSYFVVMVLPVMAGYLLFLFIQGYHDELKIQEHIETVEEITTLKALLVDPELYEFNSDWGKIKQNIDKNQAVTVLNKDGIVMYASHSSVTSTFQKYGKKQLYEGLYELEQGYRSYTYRQPVFMKDKLIGFFEIQIPREQWVEGVTNRALLVGVGLCIIFIVIYTLVVLFVNKKIVRPLKKLINDIKRFAAGESIHERKTKKDEVGELTAHFYVMSRQINKARRIAKQEQQAKEYLVASVSHDLKTPLTSIKAYAESLVFEKDIHVKEQKEYLHIIMEKTDFLKAMLDDLLTYTMLRSSEKQLELALVDGEEFFDMLTSDFETLCKQKGIDLHVSLQVKGKYKVDPNQMIRVMDNLVSNAISHTATYGNIWLGVVSWDLPDWTYSFVRQNVDWKGQGEEGVFILIQNEGKGIDEAVLPHVFEPFYQHNPARSKQEFQRNGLGLSIAKQVIEEHGGWIHIFSQKNVGTCVVCMLPQTLER PGPT0011705_13 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011705-nisK|spaK-K20487 NA NA AK015_01821 702 srrA_1 COG0745 Transcriptional regulatory protein SrrA ATGGAAGAAAATATTTTACTTGTGGAAGACGATATGGAAATTGCACGTATCATTCGAGATATGCTCATGCGTAACCATTATCAGGTAGCATGGGCTACAACAGGGTTAGAAGGATGGGAAGATTTTAAAATTTCTAATTATGACCTTGTAATTGTAGATGTCATGCTTCCTGAAATGGATGGGTTTTCTTTATGTAAAAATATCCGCTTAAAAAGTGACGTACCAATGATTATCATAAGCGCTCGAAAAGCAGATGGGGATAAAGTAAAAGGTTTAGGGTTAGGGGCAGATGATTATATAGCAAAACCATTTAGTATGCTGGAATTAAAAGCCCGAGTAGAATCGCATTTACGTCGTTGGCGTAGGTTCCAAGGAGTTCCTAAACAGACAAAGCACACCTCTTATGTACATGGGCTAATGGTAGATTGGAAAGAGCGCCACGTTTCTCTTCAAGGCAAAAGAATTACGCTAACCGATAAAGAATGGGAGTTACTTACTGTTTTGGCTAAACATCCTGAGCAAACGTTCTCCAAGAAAGAGCTATATCAGCATATTTGGCAGCAAGTTGAATTAGATGGCATACATACGGTAACGGTTCATATTAAATCATTAAGAGAAAAGTTGCAAGACTCTGTGAAGACACCTCGATACATACAAACGGTATGGGGAAAAGGCTATCGCTTTATTGGTGACATGCAATGA MEENILLVEDDMEIARIIRDMLMRNHYQVAWATTGLEGWEDFKISNYDLVIVDVMLPEMDGFSLCKNIRLKSDVPMIIISARKADGDKVKGLGLGADDYIAKPFSMLELKARVESHLRRWRRFQGVPKQTKHTSYVHGLMVDWKERHVSLQGKRITLTDKEWELLTVLAKHPEQTFSKKELYQHIWQQVELDGIHTVTVHIKSLREKLQDSVKTPRYIQTVWGKGYRFIGDMQ PGPT0014763_90 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-ENVELOPE_REMODELLING_REGULATION CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA NA NA AK015_01822 918 hypothetical protein ATGAGGTCACGATTATTTTTGTTACTGTGCTTTTTTTTGATTCTGCTTACGAGTTGCGATGAACGTTCAGATAGTAGTGATCAATCAAACTCAGTATCTAGTTATCAAGATGACAAAACAACAATTCAAACAGAAGATAGTAGAGAAATGGCTGATTCAGGAAAAGAACAAACGGAACAGAAAGCCGAAGAAACGGAAGTGCCAAAAGCAGATACTTACGATGTGGATCAACGAAAAGTAATCTATACTGCGGATACACGTATAGAAGTAAAAGATTTACAGAAAAAAATAACGACTTTGGAAAGTTTGATTATAGATTATAATGGTTATATTGTAGAATCATCTAGAAGTAATGATACAGAAGAAAAAAATAGCACCGGTTTCATCACTGCAAGAGTACCACAAACGAATTTTAAAACTTTTATGGATGAAGTAGAATCGGGGGAAGGAAAATTATTAAGTAATAATATTTCAGGTCAGGATGTCACCGAAGAATATGTGGATTTAGAGTCTCGACTTCAATCTAAAAAAGTAGTAGAGAAAAGGTTATTAGCTTTTATGGAACAAGCTGAAAAAACAGAGGATTTATTGGCTATTTCAGAAGACCTTGCAGAAGTACAGGAAGAAATAGAGCAAATTACTGGTCGAATGAATTATCTACAAAATAAAGCCGATTTGGCAACTGTTCATATCGAAATACAAGAAAATAATGTATCGTTAGAAGATGGAGACTTAAATACATGGGAGGCAACGAAACAGCAATTCATAAAGAGTATAAACTTTCTTTTGAAAGTGATTTCAAACGTGTTTGTATTTATAGCAGGTAACATGCCGGTTCTTATTCTAATTAGTGTATTAGGTTGGCTTGGTTGGATTTTTATAAGAAAATGGGTAAAGCAAAATCACAAGGAGAAATAG MRSRLFLLLCFFLILLTSCDERSDSSDQSNSVSSYQDDKTTIQTEDSREMADSGKEQTEQKAEETEVPKADTYDVDQRKVIYTADTRIEVKDLQKKITTLESLIIDYNGYIVESSRSNDTEEKNSTGFITARVPQTNFKTFMDEVESGEGKLLSNNISGQDVTEEYVDLESRLQSKKVVEKRLLAFMEQAEKTEDLLAISEDLAEVQEEIEQITGRMNYLQNKADLATVHIEIQENNVSLEDGDLNTWEATKQQFIKSINFLLKVISNVFVFIAGNMPVLILISVLGWLGWIFIRKWVKQNHKEK NA NA NA NA NA AK015_01823 1218 fdhA Glutathione-independent formaldehyde dehydrogenase GTGGCTGAGAACAGGGGTGTCGTATATGTAGGTGCTGGTAAAGTAGAGGTGCAGGATATTCGTTATCCGGATTTAGTTTTACAGGATGGGCCAGGTGTAAATCCATTAAATGTGGGGCGAAAATGCCATCATGGCGTCATTGTTAAAGTAGTAACTACGAATATTTGCGGAAGTGATCAGCACATGGTTCGAGGGAGGACTACAGCTCCCAGTGGCTTAGTGCTTGGTCATGAAATTACTGGAGAAGTTGTTGAAGTAGGACGAGATGTTGAGTTTATCCAAATAGGAGATTTAGTATCTGTTCCATTTAACATTGCCTGCGGACGTTGTAGGAATTGTAAACAACAAGACACTCATATTTGCCAAAATGTTAATCCAGATAGACCAGGATCAGCCTATGGTTATGTTGATATGGGCGGATGGGTAGGCGGTCAATCGGAATATGTAATGGTTCCATATGCTGATTTTCAACTGCTTAAATTTCCTGATAAAGATCAGGCTATGGATAAAATACTTGATTTAACTATGTTATCGGATATTTTTCCGACAGGTTATCATGGAGCGGTAAGCGCCGGAGTTAAACCGGGATCAACAGTTTACGTTGCCGGAGCAGGTCCTGTAGGTCTTGCTGCTGCACATTCAGCTCAATTACTCGGAGCATCTGTCGTCATTGTCGGTGATTTAATTGAAGAAAGGCTGGCACAAGCACGCAGCTTCGGATGTGAAACAATTAATTTACGTGAACATACGAATTTAGGGGAACAAATGGAGCAGATCCTAGGTGTACCAGAAGTAGATTGTGCGATTGACGCAGTTGGATTTGAGGCTAGTGGTCACGGAGAAGGAGCAAGTGAAGCACCGGCAACTGTTTTAAACACGATTATGGGTATAACTCGGGCTGGAGGAAAATTAGGTATTCCAGGGTTATATGTTACAGGTGACCCAGGGGGCGTTGATAAAGATGCAAAAGAAGGAACGTTGAAAATTCGCTTCGGATTAGGATTTGCGAAAGCACATACATTTGTTACTGGCCAAACTCCAGTGATGAAATATCATCGTGATTTAATGATGGCCATTTTAAGTGGAAAGGCGCAAATTGCAAAAGCAGTAAATGCTACATTAATTTCGTTGAATGAAGCGCCAGCTGGATATGAAGCATTTGATGGTGGTGCGTCAAAGAAATTTGTTATTGATCCGCATGGTTTGGTGAAAGCATAA MAENRGVVYVGAGKVEVQDIRYPDLVLQDGPGVNPLNVGRKCHHGVIVKVVTTNICGSDQHMVRGRTTAPSGLVLGHEITGEVVEVGRDVEFIQIGDLVSVPFNIACGRCRNCKQQDTHICQNVNPDRPGSAYGYVDMGGWVGGQSEYVMVPYADFQLLKFPDKDQAMDKILDLTMLSDIFPTGYHGAVSAGVKPGSTVYVAGAGPVGLAAAHSAQLLGASVVIVGDLIEERLAQARSFGCETINLREHTNLGEQMEQILGVPEVDCAIDAVGFEASGHGEGASEAPATVLNTIMGITRAGGKLGIPGLYVTGDPGGVDKDAKEGTLKIRFGLGFAKAHTFVTGQTPVMKYHRDLMMAILSGKAQIAKAVNATLISLNEAPAGYEAFDGGASKKFVIDPHGLVKA PGPT0002115_112 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148 NA NA AK015_01824 576 hypothetical protein ATGAAGAAGTACTTATTTGTTTTACTTGCTGTAATGTTAGTAGTTTTATCTGCATGTGGTGGATCAAGCGAAAGTAAAGACACAGAAAATGAAGAAAGTAAAGATAGCGCCGATGCAGCGAATGAAGAAAGCAAAGATAGCGCGGAAACAAACGAAAACGAAGATGTATACTTCAAAGATAATGAAGCTAAAATTGAAGATTTAAAAATCAAAATAAAAGAAACAAAGGTTATACCTGCTGGAGAAGAAGGAAATGAAACTGGAGAAAAACCAGTATTTGCTATCTGGTATGAGACAACGAACCTTACTGATAAAGACATAGATCCGTCAACAGCTTGGATAGCAGTATTTACAGCGTTGCAAGACAACGATCCAAATGCAGTAAACGAACTGGAAATGGGTAGCTTACCAGACGGAAACCATTCAGATACACAAACGGAAACGATAAAGAAAGATGGTACGGTAGAAAACTCCATTGCTTATGAATTAGATGATTTAGAAACTCCTGTAACCTTAGTAGCTACACAAGGCGTTATGGGAGAAGAGATTGGTAGACAAGATTTTGAAATTAAATAG MKKYLFVLLAVMLVVLSACGGSSESKDTENEESKDSADAANEESKDSAETNENEDVYFKDNEAKIEDLKIKIKETKVIPAGEEGNETGEKPVFAIWYETTNLTDKDIDPSTAWIAVFTALQDNDPNAVNELEMGSLPDGNHSDTQTETIKKDGTVENSIAYELDDLETPVTLVATQGVMGEEIGRQDFEIK NA NA NA NA NA AK015_01825 1251 pdhC_2 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGGCTACATCGATATTAATGCCAAAACTAGGTATGACGATGACAGAAGGAACGGTGGAAGAATGGCTTAAACAACCTGGAGACACCGTAAAAGAAGGTGAAGGAATTGTCACAATTAGTTCAGATAAATTAACGAGTGAAGTAGAAGCTCCAGCTGATGGTATATTATTAAAGGTAATAAAAGAGATGTCTGAAGAAGCAGAAGTTGGTGAACCGATTGGTATTGTTGGGCAAGCTGGAGAAGAAGTAGGGGAAGCGACATCGACTTCTGAAAAAGAAAAAACTGAACCAACAGCTGAGGTACAAGAGAAGGCGGTTCAACAAGTAGAGCAGCAACCTGAAGGACATCAAGACATGAAAGGTCCGCAACGAAAAAGGCGTATTTCTCCAGCTGCTCGTAAAAAAGCAAAAGCATTATCCGTAGATATTTCTAAAGTAACAGGTACTGGTCCTAAGGGAAGGATTACTAGAAGAGACATTGAGCAAGTAGCTGAGCTGCAAGTAGCAGCGACCACAACGGAAGAACAGGTTACAACAAAACCAGCCGTTCATGAAGAAGAAGCAATGCAGGTTCAAGGTATGTCAGCAATGAGAAAATCAATTGCTGCTAATATGCAGCATAGCTTGGAATCAACCGCGCAATTAACATTACATCGGAAAGCTGATATAACAAACTTACTTGCTTTTCAAAAGAAAATGCGCACAGAAGCAGCAGAGAATAATTTAGATTTAAAGCTGACACTAACGGTATTTTTAGCTCGAGCTGTAACGTTAAGCTTACAAGCACATCCTGAAGTAAATACACATCTTATTCATGATCAGCTACACCAATTTGAAGAAGTACATTTAGGTATTGCAACCTCACTAGAAGATGGATTGGTTGTTCCTGTTGTAAAACATGCGGAAAGATTGCCACTCGGTAGCTTAGCAAAGCAAATGAAACATGTCACAGAAACTGCTCGTGAAGGAAAAAATGCTGAATTAAGCGGAGCAACATTCACCATTTCTAATTTAGGTGCGCAAGGTATAGAATATTTCACACCAATCCTGAACCCACCAGAAAGTGGGATTTTAGGTGTAGGTACATTTGTACAAGAGCTTAGGTTAGATGAAAATGAGCAGGTGAAACAGATAACTTCGCTACCACTCAGCTTAACCTTTGATCACAGAGTATTAGATGGGGCGCCAGCAGCAGAATTCTTAAATACGATTGCTCATTATTTAGCAAAACCATATTTGTTATTGCTGTAA MATSILMPKLGMTMTEGTVEEWLKQPGDTVKEGEGIVTISSDKLTSEVEAPADGILLKVIKEMSEEAEVGEPIGIVGQAGEEVGEATSTSEKEKTEPTAEVQEKAVQQVEQQPEGHQDMKGPQRKRRISPAARKKAKALSVDISKVTGTGPKGRITRRDIEQVAELQVAATTTEEQVTTKPAVHEEEAMQVQGMSAMRKSIAANMQHSLESTAQLTLHRKADITNLLAFQKKMRTEAAENNLDLKLTLTVFLARAVTLSLQAHPEVNTHLIHDQLHQFEEVHLGIATSLEDGLVVPVVKHAERLPLGSLAKQMKHVTETAREGKNAELSGATFTISNLGAQGIEYFTPILNPPESGILGVGTFVQELRLDENEQVKQITSLPLSLTFDHRVLDGAPAAEFLNTIAHYLAKPYLLLL PGPT0001390_5708 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 AK015_01826 1032 acoB COG0022 Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit beta ATGGCGAGAAAAATAACGTTTTCAAAGGCGATTAATGAAGCAATGGATATTGCAATGGAAAGAGATAATAAAGTCATTTTAATTGGAGAAGACGTAGCTGGAGGAGCAACAGTCGATCATCTACAGGATGAAGAAGCTTGGGGTGGCGTTTTTGGAGTAACGAAAGGATTAGGAAATAAGTATGGACGTAAACGGGTCATCGATATGCCAATTGCTGAAGCTGGCTATATGGGAGCGTCAGTGGCCGCTGCGGTTACAGGTTTAAGACCAATATCAGAATTAATGTTTAACGATTTTATTGGCAGTGCGATGGATGAAATTATGAACCAAGGTGCTAAAATTCGTTATATGTTTGGTGGGAAAGCAGAAGTTCCATTAACTATTCGTACAAGCCATGGTGCGGGTGCAGGAGCTGCAGCGCAGCATTCCCAATCATTATATGGCATGTTAACAGCTATCCCTGGATTAAAAGTCGTTGTTCCTTCTAACCCTTACGATGCTAAAGGCTTGTTATTAACGGCAATTGAAGATAATGATATGGTCGCCTTTTTTGAAGATAAAACACTATATAGTATGAAAGGTGAAGTACCCGAAGGATATTATACAATACCGTTAGGAAAGGCAGAAATTAAGCGTGCGGGGGATGATCTAACCATTGTGGCGATAGGTAAAATGGTACAAGTAGCTGAAAGCGCTGCAAATCAGCTTGCTAAGCAAAATGTCGAGGTGGAAATTATTGACCCTAGATCATTATCTCCACTTGATGAGGATACGATTTTACAGTCCGTTGAGAAAACAGGGCGTCTATTGATCATTGATGAAGCAAATCCACGTTGTAATGCAGCAACGGATATTTCTGCTATGGTTGTAGATAAAGGTTTCGATTTTTTAGATGCGCCAATTAAGATGGTGACGGCTCCACATGCACCTACACCATTTGCCACAAACTTAGAGCAATTATATATACCACGAGCAGAAACAGTTGTACGAACAGTAAAAGAAATGATTGGGGAATTGACCTTATCTAGATAA MARKITFSKAINEAMDIAMERDNKVILIGEDVAGGATVDHLQDEEAWGGVFGVTKGLGNKYGRKRVIDMPIAEAGYMGASVAAAVTGLRPISELMFNDFIGSAMDEIMNQGAKIRYMFGGKAEVPLTIRTSHGAGAGAAAQHSQSLYGMLTAIPGLKVVVPSNPYDAKGLLLTAIEDNDMVAFFEDKTLYSMKGEVPEGYYTIPLGKAEIKRAGDDLTIVAIGKMVQVAESAANQLAKQNVEVEIIDPRSLSPLDEDTILQSVEKTGRLLIIDEANPRCNAATDISAMVVDKGFDFLDAPIKMVTAPHAPTPFATNLEQLYIPRAETVVRTVKEMIGELTLSR PGPT0008235_240 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 AK015_01827 966 acoA COG1071 Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha ATGGATAAGAAAATAGCAAGTTGGATGTATACAAAAATGAATGACATTCGTAATTTTGAAAACCAAGTCCAAAAAATTTTTGCTACAGGGGAAATTCCGGGATTTGTACATTTATATGCAGGGGAAGAAGCTGTTGCAGTTGGGGTTTGTGCTCATTTAGAAAATATAGATTATATAACCAGTACACATCGTGGGCATGGCCATTGTATTGCCAAGGGCTGTGACTTAAATGGGATGATGGCTGAAATATTTGGTAAAGAAACTGGTTTATGTAATGGAAAAGGCGGTTCCATGCATATAGCAGATTTGGAAGTCGGCATGCTTGGAGCTAACGGCATTGTTGGTGGAGGGTTTCCATTAGCTGTTGGTGCAGGTTTATCTGCTGATATTTTAGAAAACGGTGGCGTTGCAGTATGTTTCTTTGGCGATGGGGCAAATAATCATGGCACTTTTCATGAAGGAATTAATATTGCAGCAGCATTGAATCTACCTGTTGTTTTTGTCGCAGAAAATAATGGCTTTGGAGAAGCAACGCCATTTGAGTACGCTACTTCAGCAAAAACTATTGCTGATCGAGCAATAGCATATGATATACCTGGCGTACGCGTTGACGGAAATGATGTTACTAAGGTTTATGAAGTTGCCGAAGAAGCGATAGAAAGAGCTAGAAACGGAGAAGGACCAACCTTAATTGAAGCCATTACTTATCGTACGAGTGGTCATTTTGAAGGAGATAATCAAGCGTATAAGTCAGAATCTGATAAAGAAAAGTGGCCAGTAGAAGTAGATTGTATTGAACAATTCAAAACATACGCGTTAGAGAATAAACTGTTAAGCAAAACGGAACTGGAAGAGATGGAGAAGGCGTCTTTAAAAGCGGTGGAGGAAGCAGTTGAATTTGCGCATCACAGTAAAGTGCCAAGTGAGGAAGCATTAACGGAGAATGTATACGTTTCTTACAAATAA MDKKIASWMYTKMNDIRNFENQVQKIFATGEIPGFVHLYAGEEAVAVGVCAHLENIDYITSTHRGHGHCIAKGCDLNGMMAEIFGKETGLCNGKGGSMHIADLEVGMLGANGIVGGGFPLAVGAGLSADILENGGVAVCFFGDGANNHGTFHEGINIAAALNLPVVFVAENNGFGEATPFEYATSAKTIADRAIAYDIPGVRVDGNDVTKVYEVAEEAIERARNGEGPTLIEAITYRTSGHFEGDNQAYKSESDKEKWPVEVDCIEQFKTYALENKLLSKTELEEMEKASLKAVEEAVEFAHHSKVPSEEALTENVYVSYK PGPT0008230_900 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 AK015_01828 1803 acoR COG3284 Acetoin dehydrogenase operon transcriptional activator AcoR TTGATTACCGATGTCGTTACCAAAGAGAATTGGAAGCGTTTCATTCATGAGGGGAGTCTAGTGGATGAAAATATTTCCTATGAGCTTGTTGACTCTTGGGAAAGATGTAAGCAAGAAGGTGTTAATCCGTTTGATGGGATTTCTAAATCGATTTTACAGCCAGATGAACTCCAGCGGCGTGTAGAACAAAATGCACTGCTTATTTCGTTAGTAGAAGCGCAACGCAATCAGTTACATTATTTTTTAAAGGGATGGCAATATGTTACGACATTGACAGATAAAGAGGGTTACATACTACAAAATAGAGGCGAGCAGTCAGTAGAAGCAAAAGCTTATGATATTTTATTTATTCAAGGCTCAAATTGGGGCGAAACAGAAGTGGGAACCAACGCAATTGGATTAGCTCAATTATATAAGAAGCCATTTATAGTAAGGGGTTATGGCCATTTTGCAGTAGCCTCACAAATTTGGAACTGTGCCGCTGCACCAATTGTTGATCATCATAATCAGTTGATTGGCATTCTTAATATTTCAAGTCCCTATAAACCAATAAACTTTAATTATGTACTGGCTTCGGTAAAAATGATTGCCGATTCTATTTCGCTTGCTTGGCGAAAAACCATGTACGAGGATATGGAACAATTACAGAAATTATCTTGTTCTAAAAATGCAATTATTTGTTCCAATGATGATGTTATATGTAAGTTACCGAGGCATTTGGAAAATAAATATGGATATATGCTTGGTGAACCGTTAGATAACATAATGCCAGAGATAAGTTTGCATGGTGAAAGAAAACCACTTTTAATAAATGGCCGCTCCATAGGTTATGAGGTTTATGTGCAGGAAGAAATAAAGGAAAATCCTGTTTATTTTGCAGGTGTGACAGGAAAAAGTGATGTATTTCAAAAGGTATTGCAAGATATTCATAAAGTTGCTACAACGGATGCTGCTGTTCATATATATGGAGAGACTGGTACAGGAAAAGAATTAGTTGCTGAAGCAATTCACCGTAATAGTGAACGTGCGCATCAACCTTTTGTTTCTATTAATTGTGGGGCGATCCCTGAACAGTTATTGGAAAGTGAGTTGTTTGGTTACGAACCTGGTGCATTCACCGGTGCTCATAAAAATGGTAGAAAGGGAAAGCTAGAAGCGGCAAACAAAGGCACTTTATTTCTAGATGAAATTGGTGATATGCCTTCATCCATGCAGATTTCTTTGCTTCGGGTACTACAACAAAAGCAAGTAACTCGAATAGGAGGCTATGAGCCTATTCCTATTGATGTGCGCATTATTTCAGCAACAAATGTAGATATACGTCAACTAGTTGCAGAGGAGACAATGCGAGCTGATCTCTTTTATCGTATTTACGGTTTTCCTATTTATGTACCGGCTTTACGACAACGCAAAGAAGATATTCCTTATTTTATCGATTATTATTGCAAGGAAAATCATTGGTATCCAAGCTGGATAAATAAATTAACAGCTACTTTTAAACATGGAAGATGGACAGGGAATATTCGTGAATTATTTAATGCTTTAGATCGCTGTCGCATTTTATTTCCAGAGCAAACACCTGAGGAAGAGGAGCTTTATCAGATTATTTCGATTTGGGATAACACAGAGCTGATAAGAGTAGAGAGCAACGAAAAGGAAACACAAAATTTTCGCAATCAGTTAGAAGTAGACAAGATTAAACAAGCCTTAAAAAAACATCACAATCATGTACCAAGTGCTGCAGCCGATTTAAATATGTCACGAAGTACATTATATCGTAAAATTAAAAAGTACCAATTGTAG MITDVVTKENWKRFIHEGSLVDENISYELVDSWERCKQEGVNPFDGISKSILQPDELQRRVEQNALLISLVEAQRNQLHYFLKGWQYVTTLTDKEGYILQNRGEQSVEAKAYDILFIQGSNWGETEVGTNAIGLAQLYKKPFIVRGYGHFAVASQIWNCAAAPIVDHHNQLIGILNISSPYKPINFNYVLASVKMIADSISLAWRKTMYEDMEQLQKLSCSKNAIICSNDDVICKLPRHLENKYGYMLGEPLDNIMPEISLHGERKPLLINGRSIGYEVYVQEEIKENPVYFAGVTGKSDVFQKVLQDIHKVATTDAAVHIYGETGTGKELVAEAIHRNSERAHQPFVSINCGAIPEQLLESELFGYEPGAFTGAHKNGRKGKLEAANKGTLFLDEIGDMPSSMQISLLRVLQQKQVTRIGGYEPIPIDVRIISATNVDIRQLVAEETMRADLFYRIYGFPIYVPALRQRKEDIPYFIDYYCKENHWYPSWINKLTATFKHGRWTGNIRELFNALDRCRILFPEQTPEEEELYQIISIWDNTELIRVESNEKETQNFRNQLEVDKIKQALKKHHNHVPSAAADLNMSRSTLYRKIKKYQL PGPT0001030_1842 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 AK015_01829 468 hypothetical protein ATGTTTACGTATGTACGGAGCAATAATAGTACGATATTCGTTGAAAAAAATGTGTTTAATACGAACAAAATATATAACCAAATTGCTTTTGATAAACAGGAGCTCCATTGTGCTGACATTTTTCAACAACACATGGAGTCAAAACGATTGCAAACGGAAAGATATGTTATTCAAAACAATGATACCCCTGTAGGAATTTTAGAATATGGAATGCATAGTCCTCGAACGAATATGCCTTGGCTAACGCTTTTGCTTATTGATAAGAAATATCAAGGAAAGGGGTTAGCTAAAAATGTTTATTTACAGTTCGAAACATGGATGCAAGTAAAAGGAGCTTCTAATATTCAAATTGCTGTCCATGCTAACAATGAGAAAGCGCTATTATTTTGGAGTAATATGGGTTTTAGGCAGTATGATGAACGTGTTTACCAAGCAAAGCGCTATTATAGTTTAGAAAAGAGATTATAA MFTYVRSNNSTIFVEKNVFNTNKIYNQIAFDKQELHCADIFQQHMESKRLQTERYVIQNNDTPVGILEYGMHSPRTNMPWLTLLLIDKKYQGKGLAKNVYLQFETWMQVKGASNIQIAVHANNEKALLFWSNMGFRQYDERVYQAKRYYSLEKRL NA NA NA NA NA AK015_01830 477 hypothetical protein ATGGATAAAGTTATCCACAATCTTGATTTACATTCAAAAGGAATTTGGTTTCCTATTACGATTAGCATCATTTTAGTACTCACTATACTTTTTATCCCTAAAAAACATATTACTTGGAAAGAGCTATACGCCACTTTTGGAATTGTTGCATTTATAACTTGGCTTAGTGATTCATTAGTTGCCAGAACATTAGATTTAATACATCTTGCTGATCCAAAAACAGCTGGACTTGCGGAAATTTTAGTGTATACGTTTGTCCCTTCCTCTTTAGCAATATTATTTATTAACTATTATACGCATAAAAACAAATGGTTTTTAGTAGTAGTATTTACAATTATTTCTGCTTTATTGGAATGGACTATGGTACATTTGGATTACCTGAAATATACTGGGTGGAATCCTTTTGTTTCCATAGCTGCCTACATTATTGCATTTGGATTCCTTATACCTTTACATGTTAAATTGCTCCGTAAATAA MDKVIHNLDLHSKGIWFPITISIILVLTILFIPKKHITWKELYATFGIVAFITWLSDSLVARTLDLIHLADPKTAGLAEILVYTFVPSSLAILFINYYTHKNKWFLVVVFTIISALLEWTMVHLDYLKYTGWNPFVSIAAYIIAFGFLIPLHVKLLRK NA NA NA NA NA AK015_01831 318 hypothetical protein ATGATTTTTTTCGCTATTGGTGTGAGTAATGGAATATATATGAAAGGAAGTTTGAACAATTTGAAAAGATTATTTGTATTTTCATTAAGTTTTATTATTTTGTATTTCGTTATGCAAGTGTTAACGGGTTTCATTGTTACCTTACTATATGTTCCAAACATAGCGAAAGCATGGAATACCGATGGGGCATTATTTCAGACTATTACATTACAGGGTAAGTCTTTTCCAATATCGATTATTTTTGTATTGATTTCTGTTGCTATTGCTTACTTTATTCAAAGGAAATTTGTCAGGCTACTTCATAATAAAAGAGCATAG MIFFAIGVSNGIYMKGSLNNLKRLFVFSLSFIILYFVMQVLTGFIVTLLYVPNIAKAWNTDGALFQTITLQGKSFPISIIFVLISVAIAYFIQRKFVRLLHNKRA NA NA NA NA NA AK015_01832 195 hypothetical protein ATGATTCACCCCTTCAGGGAGGGGACTGGACGAGTGAGTCGTTTGATTATTCGTGAAGCCGCTCGAAATCATAGATATAATTGGGATTTTGGAAGGATTGACAGTGCTTTATACACGAAAACAATGATTAGAAGCGTGATAGATGTATCCTCATTACAAAGTTTATTTCATCAAACCTTAACAACATGTCATTAA MIHPFREGTGRVSRLIIREAARNHRYNWDFGRIDSALYTKTMIRSVIDVSSLQSLFHQTLTTCH NA NA NA NA NA AK015_01833 168 hypothetical protein ATGGCAAAATTAACAATTGAATCTAAAGAGTTTCAACAAGTCCTTGCTAATCTTCGTTTCGAAAACATGTTTCTTTCACCTGAACTTCAAAAGAAAGTTGTCAGTCTAGTGAATAATGATGAAAGGATTACCCAAGAGACGATAAAAAGGATTATTGCAAATGGATAA MAKLTIESKEFQQVLANLRFENMFLSPELQKKVVSLVNNDERITQETIKRIIANG NA NA NA NA NA AK015_01834 573 hypothetical protein ATGAAAAAAGGACTTACCGCAGTAGTCATAGCCTTAACGCTTTTCTTAACGGCAGGGGCAGTTTCAGCGTCTTCTGTTGACGAATCTATTACTTTGCATAAAAAGTTGCTAAAGGATCAAGCTTTACAGTCTCTTCAAGAGGAATATCCAGATGCTCAATTTATTGAAGAAGATGTAGCGAAAGACGGATCCGTAGAAGGTATAACTCTTCAAGGACCCGCTCCTCCTTTAACTTCTTTAAGTGTATATGCAGCTATTTCTACTCATTACCCACAGTATGAATACTTTGCACTAAATCAATTAACATCTATTGAAGATCATGGTGGAGAAGAAATGTACATTGTTACAAGGGAAATTGGCTATAGTAGAAATACATCAAGGATAGCCCAAATGAATGGTGGAAATATACCAATGCTTATGGACGAAGCCATTGATTTAAATGGTGATCGAATCATTGATGGGTATTTTAGGTGGTGGGACGCCAGCGGATATGAGAATGGTAGATTTACATATCAAGCTACCTCTATCAACGCACCTTGGAATACAATGAGCGCTAGGATGAATATTAGATAA MKKGLTAVVIALTLFLTAGAVSASSVDESITLHKKLLKDQALQSLQEEYPDAQFIEEDVAKDGSVEGITLQGPAPPLTSLSVYAAISTHYPQYEYFALNQLTSIEDHGGEEMYIVTREIGYSRNTSRIAQMNGGNIPMLMDEAIDLNGDRIIDGYFRWWDASGYENGRFTYQATSINAPWNTMSARMNIR NA NA NA NA NA AK015_01835 483 hypothetical protein ATGAATATTAGTCAAATGAATGCAATAACAGCCCATACTCTACCAGCAAATACAAATATAAAAAACACAGAAACGGAAGACCATTTTAGCAAAGACATGAAGCAAACTCAAGAAACATCATCAGCAAAAAAAGATACACCGAATATTTGGAGAGAACTTTCTGAAAAATACGATATTACGAATGCTTCTTTTGAAGATCTCAACGCGATAAGTACTGCTTTGTATGAAGCAGGCCAAATATCCCTTAGAGAACATGCAGGCTTCACTTTTGATTTTAATAGAGCGACAGAATCTTTAAAACAACAAGCAACTGGAATATCCCCTCATTTCACAATGTATGCCACACAAGCTAATGAATGGGGAAATAGAAATTGGATAGAAGAATTTCAAGCAAGAGCAGATAGAGCATTCCAGTATGGTAATATCATTGGACACCATACTAATAACAATTTAACAGCTATTTTACAGAAATTAAAGCTGTAA MNISQMNAITAHTLPANTNIKNTETEDHFSKDMKQTQETSSAKKDTPNIWRELSEKYDITNASFEDLNAISTALYEAGQISLREHAGFTFDFNRATESLKQQATGISPHFTMYATQANEWGNRNWIEEFQARADRAFQYGNIIGHHTNNNLTAILQKLKL NA NA NA NA NA AK015_01836 480 hypothetical protein ATGAATGCAATTGGGTTATTGCTATTACAATTTGAAGAAATTAGAAGCAGAAACATAAAAGTGTGGGAGGTCATTCCTGAGGAAATGTTGCATTGGAAACCTGATGAAGAAGCTTTAACATGTGCTGAAATGATTAGACATTTATTAGAAGCTGAGTTCCTTTTCCATCACGTTCTTATAGGTAGAGGTGGTAAGGGGCTTGTTAATTTGGATAATCCATTTGAAGCAAAAGAATTTATATCAGTGGAAGATGAACTTAAATTTGCTAAGCCTTTTCGAGAGAGGTTTTTGGAATATATTCAAACACTGGACGCGCATGACTTAGAAAATATAGAAATAGATCTAATTAATGAAGGAGGTTATATGAAACAGCTAGGTGCAATGTTAGTACGGATTGCTTACCATGAGTCAGTTCATACAGGTCAATTGCTAGACTACATGAGAACAATGAGAATTACCCGTCCGAAGATATGGGATTAA MNAIGLLLLQFEEIRSRNIKVWEVIPEEMLHWKPDEEALTCAEMIRHLLEAEFLFHHVLIGRGGKGLVNLDNPFEAKEFISVEDELKFAKPFRERFLEYIQTLDAHDLENIEIDLINEGGYMKQLGAMLVRIAYHESVHTGQLLDYMRTMRITRPKIWD NA NA NA NA NA AK015_01837 1398 hypothetical protein ATGGCAAAAAACATGCCAGAAATCGAAGAGTATAAATATGGGTTTCATGATCGTGACGTTTCTGTCTTTCGCTCAGGAAAAGGTCTGACTCGCGAAATTGTTGAAGAGATTTCCAGAATGAAGGAAGAACCGCAATGGATGCTTGATTACCGTCTTAAAGCGTTGGAACATTTCTATGAGCGTCCAATGCCTCAATGGGGCGGCGACCTTTCGGAGTTGAATTTTGATGAAATTGTTTACTATGTGAAGCCTTCAGAAAAACAAGGAAGAACATGGGATGAAGTACCAGAAGAAATCAAACGAACTTTTGATAAGCTAGGTATCCCTGAAGCGGAACAAAAATATTTAGCAGGTGTTTCTGCGCAATATGAATCTGAAGTTGTTTACCATAGTTTAAAAGAAGATTTAGAAGAAATGGGTATCGTATTCAAGGATACCGATACAGCACTAAAAGAAAATGAAGAGCTATTCAAAGAGTATTTTGGTAAAGTGATTCCAGCAACAGACAATAAATTTGCTGCTTTAAATTCAGCTGTTTGGTCTGGAGGTTCATTTATATATGTACCAAAAGGTGTAAAGACGACGACGCCACTCCAAGCTTATTTCCGTATTAACTCAGAAAACATGGGACAGTTTGAGCGTACGTTGATTATCGTTGATGAAGGTGCTTCTGTCCATTATGTAGAAGGTTGTACAGCACCAATTTATACGACTAATTCATTACACAGTGCAGTCGTAGAAATCTTCGTTAAAAAAGACGCTTATTGCCGTTACACTACGATCCAAAACTGGGCAAACAACGTTTATAACCTAGTAACTAAGCGTGCTACCTGTGATGAGAATGCGACAATGGAATGGATTGACGGTAATATTGGCTCTAAAATTACGATGAAGTATCCTGCAGTGCTTTTAAAAGGGGAAGGTTCTCGTGGTTATACACTTTCTATTGCCTTTGCTGGTAAAGGGCAGTTGCAAGATGCTGGTGCCAAAATGCATCACCTAGCACCTAATACGTCATCTTCAATTGTTTCGAAGTCTATTTCAAAAAATGGCGGAAAAGTATCTTACCGAGGACTTGTACATTTTGGACGTAAAGCATCAGGTGCTCGCTCTAACATCGAATGCGATACGCTTATTATGGATAATGAATCTACATCCGATACGATTCCATACAATGAAATAAACAATGACAATATTTCATTGGAGCATGAAGCAAAAGTGTCCAAAGTTTCTGAAGAACAGCTGTTCTATCTGATGAGCCGTGGCTTAACAGAAGAAGAAGCAACAGAAATGATCGTTATGGGCTTCATTGAACCATTCACAAAAGAACTACCAATGGAGTATGCAGTTGAAATGAACCGGTTAATCTCGTTTGAAATGGAAGGGTCTATTGGATAA MAKNMPEIEEYKYGFHDRDVSVFRSGKGLTREIVEEISRMKEEPQWMLDYRLKALEHFYERPMPQWGGDLSELNFDEIVYYVKPSEKQGRTWDEVPEEIKRTFDKLGIPEAEQKYLAGVSAQYESEVVYHSLKEDLEEMGIVFKDTDTALKENEELFKEYFGKVIPATDNKFAALNSAVWSGGSFIYVPKGVKTTTPLQAYFRINSENMGQFERTLIIVDEGASVHYVEGCTAPIYTTNSLHSAVVEIFVKKDAYCRYTTIQNWANNVYNLVTKRATCDENATMEWIDGNIGSKITMKYPAVLLKGEGSRGYTLSIAFAGKGQLQDAGAKMHHLAPNTSSSIVSKSISKNGGKVSYRGLVHFGRKASGARSNIECDTLIMDNESTSDTIPYNEINNDNISLEHEAKVSKVSEEQLFYLMSRGLTEEEATEMIVMGFIEPFTKELPMEYAVEMNRLISFEMEGSIG NA NA NA NA NA AK015_01838 435 sufU COG0822 Zinc-dependent sulfurtransferase SufU ATGGCTTTTAATAACCTAGATACACTTTACAGACAAGTAATTATGGATCATTATAAAAACCCGCGGAACAAAGGCAATTTAGATGGAGATACTTTGACAGTCGACATGAACAATCCTACTTGCGGAGATCGAATTCAGCTTAATATGCAAGTAGAAGATGGGATTGTTAAAGATGCCAAATTTGAAGGTGAGGGCTGTTCGATTAGTATGGCCTCAGCTTCTATGATGACCCAAGCAATTAAAGGGTTAGAAGTTAAAAAAGCTTTGAAAATGTCCGAGATGTTCTCCAAAATGATGTTAGGAGAAGATGTTGATACGACAGGCCTAGATGTAGGAGATATTGAAGCACTGCAAGGTGTATCCAAGTTTCCTGCAAGAATTAAATGTGCCACCCTTTGTTGGAAAGCAATGGAAAAGGGTGTTAAAGACGAATAA MAFNNLDTLYRQVIMDHYKNPRNKGNLDGDTLTVDMNNPTCGDRIQLNMQVEDGIVKDAKFEGEGCSISMASASMMTQAIKGLEVKKALKMSEMFSKMMLGEDVDTTGLDVGDIEALQGVSKFPARIKCATLCWKAMEKGVKDE PGPT0000075_1759 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488 NA NA AK015_01839 1221 sufS COG0520 Cysteine desulfurase SufS ATGGATGTTAAAGCCATTCGCGAGCAATTTCCTATTCTCAACCAGGAAGTGAATGGCCATCCTTTTGTTTATTTAGATTCTTCAGCGACTTCACAAAAGCCTATCCAAGTGATTGAAGCTGTAGATACCTATTATCGGACATATAATTCCAATGTTCATCGTGGCGTGCATACGCTAGGTACAAAAGCAACAACTGCGTATGAGGGAGCAAGAGAAAAAGTACGTCGTTTTATTCATGCATCCAGTAGTGCCGAAATTATTTTTACGCGAGGAACTACAACGGCGATTAATACCATTGCAACTAGCTACGCACGGACTAACTTACAAGCTGGGGATGAAATTATAATTACGCCAATGGAGCATCATAGTAATATTATCCCTTGGCAACAAGCTGCCAAAGCCACCGGTGCTACATTAAAATATATACCATTACAAGAGGATGGGACGATCCGGTTAGAAGATGTCAGGGAAATGGTTTCCGAACAAACAAAAATAGTTGCAATGACGCATGTATCTAATGTGTTAGGTACGATCAATCCAATAAAAGAAGTAGCCGCTATAGCTCATGATCATGGAGCTATTATGGTAGTAGATGGAGCACAAGGCGCACCGCATATGAAAGTAGATGTTCAAGAGCTTGATTGTGATTTCTATGCTTTTTCAGGTCATAAAATGTGCGCTCCAACTGGTATTGGTGTACTTTATGGAAAAAAAGAATTGCTCGAAAATATGGAGCCAGTTGAATTTGGCGGAGAAATGATTGATTTCGTAAATCTTTATGACTCCACATGGAGAGAGCTTCCATGGAAATTTGAAGGTGGTACGCCAATTATCGCTGGTGCTATAGGTTTAGGGGCGGCTATTGATTTTATCGAAGACATCGGTATGGATGCTATTTCAAAGCATGAGGAAAAACTTGCCACATATGCCTATGAAAAAATGCAAGCGATGGATGGGATTAAGATTTATGGTCCAAAACATCGTGCTGCGCTTATTACGTTTAATCTTGACGATGTCCATCCTCATGATACAGCAACCGTTTTAGATGCAGATGGAATTGCTGTTCGAGCAGGTCATCATTGTGCACAGCCATTAATGCGTTGGCTTGATGTGACAGCAACGGCGAGAGCAAGCCTCTATTTGTATAATACAGAAGAAGATGTTGACCGTCTCGTAGACGGACTCAAGAAGACAAAGGAGTATTTTGGGAATGGCTTTTAA MDVKAIREQFPILNQEVNGHPFVYLDSSATSQKPIQVIEAVDTYYRTYNSNVHRGVHTLGTKATTAYEGAREKVRRFIHASSSAEIIFTRGTTTAINTIATSYARTNLQAGDEIIITPMEHHSNIIPWQQAAKATGATLKYIPLQEDGTIRLEDVREMVSEQTKIVAMTHVSNVLGTINPIKEVAAIAHDHGAIMVVDGAQGAPHMKVDVQELDCDFYAFSGHKMCAPTGIGVLYGKKELLENMEPVEFGGEMIDFVNLYDSTWRELPWKFEGGTPIIAGAIGLGAAIDFIEDIGMDAISKHEEKLATYAYEKMQAMDGIKIYGPKHRAALITFNLDDVHPHDTATVLDADGIAVRAGHHCAQPLMRWLDVTATARASLYLYNTEEDVDRLVDGLKKTKEYFGNGF PGPT0020195_3564 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 AK015_01840 1308 hypothetical protein ATGACTGTAGAAACCAAGTTACCATACAATAAAGAGTACATTGAACAATTTTCAAAAGAACGAAATGAACCACAATGGATGTTAGATTTACGACTTCAAGCGTTAAATAACGCTGAAAAGCTAGAATTGCCAAAACCGGATAAAACGAAGATTGGTAAATGGAATTTTACGGAGTTTAAACATACAGCAAAAGGTGAGGAAATTACTTCATTACAAGATCTGCCCGTTGAATTACAGGAATATTTAGATGAAAATAACTTACCTGAGAACCTCCTAATTCAGCGTAATCATTCTGTTGCTCACAGTACATTAAGTAAAGAACTGGAAGATAAAGGTGTTATCTTCACAGATATTTTTACTGCTTTGCAGTATCATGGCGATCTCGTACAGCGCTATTATATGAAGGATGCCGTATCTGTTGATGAGCATCGTTTAACAGCCATGCATGCAGCTTTAATGAACGGTGGTGTTTTTGTTTACATTCCTAAAAATGTCGTTGTTGAAGCACCTTTACAAGCTATATTCTGGCAGGAAGATCCAGAGCTCTCTATATTTAACCATGTACTCGTCGTCGCAGAACAAGGCAGTTCAGTAACGTATGTAGAAAATTATATTTCTCATAATGAAAACGAATCAACGGTTGCAAATATTGTAACAGAAGTTATTGCCCAAGATAATGCAAAAGTTTCTTTTGGGGCGGTGGATAATTTTGCCGCAGGTACTACGGCATACAATAACCGTCGTGGGGTTGCTTACCGGGATGCAACGATTGAGTGGGCACTTGGACAAATGAATGAAGGTAATACCGTCTCAGAGAATATTACCCATTTAGTTGGCGAGAATTCACTATCCAATGCGAAGACAGTATCTGTTGGCCGTGGAAAACAAACACAAAACTTCACTGCAAAAATTGTCCATTTTGGTAAAAATTCAGAAGGATATATTTTACAACACGGTGTAATGAAAGAAGGAGCTACTTCTATTTTTAACGGAATTGGTAAAATAGAACACGGTGCTTCCAAATCAAATGCGGAGCAAGAATCACGTGTACTCATGTTAAGTGAGAAAGCTCGTGGGGATGCCAACCCGATTTTATTAATCGATGAAGATGATGTAACTGCTGGTCACGCAGCTTCTGTTGGGAGAGTAGATCCATTACAGCTTTATTATTTAATGAGTCGAGGAATTACACAAGAAGAAGCAGAACGTCTAATTATTCATGGTTTCTTAGCTCCAGTAGTAAATCAACTTCCAATTGAAGCGGTGAAAAATCAATTGACGCAAGTTATTGAAAGGAAGGTATATTAA MTVETKLPYNKEYIEQFSKERNEPQWMLDLRLQALNNAEKLELPKPDKTKIGKWNFTEFKHTAKGEEITSLQDLPVELQEYLDENNLPENLLIQRNHSVAHSTLSKELEDKGVIFTDIFTALQYHGDLVQRYYMKDAVSVDEHRLTAMHAALMNGGVFVYIPKNVVVEAPLQAIFWQEDPELSIFNHVLVVAEQGSSVTYVENYISHNENESTVANIVTEVIAQDNAKVSFGAVDNFAAGTTAYNNRRGVAYRDATIEWALGQMNEGNTVSENITHLVGENSLSNAKTVSVGRGKQTQNFTAKIVHFGKNSEGYILQHGVMKEGATSIFNGIGKIEHGASKSNAEQESRVLMLSEKARGDANPILLIDEDDVTAGHAASVGRVDPLQLYYLMSRGITQEEAERLIIHGFLAPVVNQLPIEAVKNQLTQVIERKVY NA NA NA NA NA AK015_01841 786 sufC COG0396 Vegetative protein 296 ATGGCTGGATCAACGCTAGAAATTAAGAATTTACACGTATCAATTGAAGATAAGGAGATACTAAAAGGTGTCGACTTAACAATAAAGGGTGGAGAATTTCATGCAATTATGGGACCAAATGGTACTGGTAAATCCACTTTAGCTTCTGCGATTATGGGGCATCCGAAGTATGAAGTTACAGAAGGAAGCATCTTATTGGATGGAGAAGATGTATTGGAAATGGAAGTAGATGAGCGTGCTCGTGCTGGTTTATTCCTTGCGATGCAATATCCAAGTGAAATTAGCGGTGTAACTACTTCTGACTTCTTGCGTTCTTCGATGAATGCTCGCCGCGGCGAAGGAAACGAAATTTCACTTATGAACTTTATTAAAGAAATGGACAATGCTCTTGATTATTTAGAAATTGATAAGAATATGGCGCAAAGATATTTGAATGAAGGGTTTTCTGGCGGGGAGAAAAAGCGTAACGAAATTCTGCAACTTATGCTACTGAAGCCTGAGATCGCCATTTTGGATGAAATCGACTCTGGTTTAGATATTGATGCATTGAAAATAGTGTCTAAAGGCATTAACAAACTTCGTGACGAAAACTTTGGCTGCTTAATTATTACACACTATCAACGTTTATTAAACTATATAACTCCTGATTTCGTGCATGTCATGATGCAAGGTCGCGTTGTTAAATCTGGTGGACCAGAATTAGCTAAGCGTCTTGAATCAGAAGGTTATGAGTGGATTAAAGAAGAATTAGGTATCGAAGATCATACTGTTGAGCAAAATGCGTAA MAGSTLEIKNLHVSIEDKEILKGVDLTIKGGEFHAIMGPNGTGKSTLASAIMGHPKYEVTEGSILLDGEDVLEMEVDERARAGLFLAMQYPSEISGVTTSDFLRSSMNARRGEGNEISLMNFIKEMDNALDYLEIDKNMAQRYLNEGFSGGEKKRNEILQLMLLKPEIAILDEIDSGLDIDALKIVSKGINKLRDENFGCLIITHYQRLLNYITPDFVHVMMQGRVVKSGGPELAKRLESEGYEWIKEELGIEDHTVEQNA NA NA NA NA NA AK015_01842 171 hypothetical protein ATGAAGTACACTTCTGAAATGGAAAAAGCAATGCAGCAATCGCATCATATTGGTTTTGCGGAGTATCAACGGAAGTTAAAACAACGGCTAGCAGTTGAAAAAAAACGGCAGCAAGAATATCAGAAGTGTAAGCTATTTACCTTAGCATATATGAACCAACAACACGGCTAA MKYTSEMEKAMQQSHHIGFAEYQRKLKQRLAVEKKRQQEYQKCKLFTLAYMNQQHG NA NA NA NA NA AK015_01843 825 metQ_2 COG1464 Methionine-binding lipoprotein MetQ ATGAAAAAATATATTCTTTCCATTTTAATCCTTACTGTATTAGGTGGTTTATTAGCTGCTTGTGGTGGGGAAAAAGAAAAAGACGATAATAAAATAACTGTCGGAGCTTCCAGTGTACCACACGCAGAAATATTAGCAGAAGCTAAGCCGATTTTAGAAGAGAAAGGTATTACCCTGGAAATTAGTGAATACCAAGACTATGTGTTACCGAATGATGATCTTGCGAATGGAGAAATTGATGCTAACTATTATCAACACATCCCATTTCTTGAGCAAACAATTGATGATACAGGTTACGATTTAGATTATATTGCAGGTATTCATATTGAACCGATGGGCGTATATTCCAAAGGGATATCTAATGTGGAGGATATTCCAGAAGGAGCGGAAGTTATTATGAGTAACTCCGTGCCAGATCATGGGCGTATTTTAACTTTGTTTGAAGAACAAGGACTTATTAAAATAGATGAAGATGTAGACAAAGCACGTGCTACTGTTGATGATATAGTAGAAAATCCCAAAAACTTAACTTTTTCACCTGAATATGAGGCTGCTGTCCTTCCAGAATACTATGAAAGGGAAGAGGATGCCCTTGTAGCCATTAATACGAACTATGCAATTGATGCTGGTCTAAAGCCAGAAGAAGATGGTTTATTTATTGAAGGCGATGAATCTCCTTATGTGAATGTGTTGGCAGTGAAGAAAGAGGATAAAGACGATGAAGCATTAAATAAATTAGCTGAGGTCTTACAATCAGAAGAAATTCAAGCTTTTATGAGGGAAAAATATAATGGAGCAATTGTTCCAGTAAAAGAAGAGAAATAA MKKYILSILILTVLGGLLAACGGEKEKDDNKITVGASSVPHAEILAEAKPILEEKGITLEISEYQDYVLPNDDLANGEIDANYYQHIPFLEQTIDDTGYDLDYIAGIHIEPMGVYSKGISNVEDIPEGAEVIMSNSVPDHGRILTLFEEQGLIKIDEDVDKARATVDDIVENPKNLTFSPEYEAAVLPEYYEREEDALVAINTNYAIDAGLKPEEDGLFIEGDESPYVNVLAVKKEDKDDEALNKLAEVLQSEEIQAFMREKYNGAIVPVKEEK PGPT0020510_2752 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073 NA NA AK015_01844 669 metP_2 COG2011 Methionine import system permease protein MetP GTGTTAGCTGATTTATTTGCTACTATTAAAGTAGAAGATATTATAGAAGCAACGAAAGAAACATTTTATATGACGATTATTGCTTTAATAGGAACCTTTATTTTTGGTATTTTACTTGGGTTACTGTTATTTCTCACTAATAAAGGGGGACTATGGCAAAATAAATGGGTTAACTTTATCACGGCCACGTTTGTAAATGTATTTCGTGCTATTCCTTTTATTATATTAATATTATTGTTATTCCCTTTTACTGATTTTCTTGTTGGTACGATAAGAGGCCCTAACGCTGCGCTCCCGGCATTAATTATTGGAGCAGCACCATTTTATGGACGGTTGGTGGAAATTGCTTTAAGAGAAGTAGATAAAGGTGTCATAGAGGCTGCTAAAGCAATGGGTGCCAAGACCCGAACAATTATTTTTAAAGTATTGTTACCAGAAGCAATGCCAGCTTTAATTTCAGGACTTACCGTTACTGCTATTGCGCTTATTGGTTATACAGCAATGGCAGGAGCAATTGGGTCAGGAGGCCTGGGAAGCTATGCATATTACTCGGGCTTTCAACGTAGAGACTTTGATATTGTTTTGCTTTGTTCCGTAATTATTGTGTTCATTGTATTTCTATTTCAATTTATTGGTGATTATATTACACGCAAACTAGATAAACGTTAA MLADLFATIKVEDIIEATKETFYMTIIALIGTFIFGILLGLLLFLTNKGGLWQNKWVNFITATFVNVFRAIPFIILILLLFPFTDFLVGTIRGPNAALPALIIGAAPFYGRLVEIALREVDKGVIEAAKAMGAKTRTIIFKVLLPEAMPALISGLTVTAIALIGYTAMAGAIGSGGLGSYAYYSGFQRRDFDIVLLCSVIIVFIVFLFQFIGDYITRKLDKR PGPT0020515_1852 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072 NA NA AK015_01845 1032 metN_2 COG1135 Methionine import ATP-binding protein MetN GTGATATCGATAGAGGGTTTGCGTAAAGTTTTTACTGCAAACAAGACAGACACAACGGCTGTTGACGATGTAACCCTTTCGATTAAACAAGGAGATATCTTTGGTGTGATCGGTTATAGTGGTGCAGGAAAAAGTACGTTTGTGCGATTACTGAATCGTTTAGAAGAACCTACAGGTGGTAAGATTTTTATCCGTAATCAAGAAATAACAGCATTAAAAAAGAATGAATTGCGGTTAGCTAGACAAGATATTGGAATGGTATTCCAGCATTTTAATTTGTTATGGTCACGTACTGTAAAAGAAAATATAGCTTTCCCATTAGAAATAGCAGGTGTTGAAAAAGAAGAACGGAACCAACGTGTTCAATCTCTCATTGATTTGGTCGGTTTATCCGGGAAGGAAGCGACCTACCCTTCGCAATTAAGTGGTGGGCAAAAACAACGGGTTGGCATAGCGAGAGCATTAGCAAACAAGCCTTCCGTATTATTATGTGATGAAGCAACATCAGCCTTAGATCCAGAAACAACAAACTCTATTTTAGACTTGCTTGTTGACATAAATCAGCAATTAGGCTTAACGATTATATTAATTACACATGAAATGCATGTTATTCGAAAAATATGTAACCATGTAGCCGTGATGGAAAACGGAAAAGTGGTAGAACAAGGTAATGTATTGGATGTGTTCTCACACCCCAAAAAAGATGTTACGAAAAAGTTCGTTCAACAGCTAATGGGGGATGCAGAAGCCGAGAATGAGTTTGAACATTTAGTTCGCACATTTGAGAATGGTAAGTTGATTCGTCTCCATTTTGTAGGTGAAACAACGAACGATGCTTTAATTAGTAAGCTCGTAAAGACGTATGACATTGACATTAGTATTTTACAAGGGAAAATTACGCGAACACAGGCTGGTGCGTACGGTACGCTATTTATCCAGATGACTGGTGAAGAATCAGAAATCACACAAGCGATCCAACATGTAACAGAAAAAACTTCTGTAGAGTTGGAGGTGATTCGCGGTGTTAGCTGA MISIEGLRKVFTANKTDTTAVDDVTLSIKQGDIFGVIGYSGAGKSTFVRLLNRLEEPTGGKIFIRNQEITALKKNELRLARQDIGMVFQHFNLLWSRTVKENIAFPLEIAGVEKEERNQRVQSLIDLVGLSGKEATYPSQLSGGQKQRVGIARALANKPSVLLCDEATSALDPETTNSILDLLVDINQQLGLTIILITHEMHVIRKICNHVAVMENGKVVEQGNVLDVFSHPKKDVTKKFVQQLMGDAEAENEFEHLVRTFENGKLIRLHFVGETTNDALISKLVKTYDIDISILQGKITRTQAGAYGTLFIQMTGEESEITQAIQHVTEKTSVELEVIRGVS PGPT0020520_1913 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK015_01847 315 hypothetical protein TTGCAACAAGTAACAAAAGAGCAACTACAGCAATCCAATTACTTTCTTTATATTTATACACCACTTTGCGGAACGTGTAATCTTGCTAAAAGTATGTTACTTAAAATGGAACAAATGCAAAAGCAAGAGCTATTTTTAGAAATGAATGCATCACTACATCCAGAATTTATGCAAACGTACCAAATAGAAAGTGTTCCTTGTTTGCTTATAAAGAAAGATGGAGAGCTCGTTGAAAAAATGTATGCATTTCGCGATGTAGCAAATATATACCAACACTTGATCATGCATAGACCAGAATTGTTTTCATTTCAATAG MQQVTKEQLQQSNYFLYIYTPLCGTCNLAKSMLLKMEQMQKQELFLEMNASLHPEFMQTYQIESVPCLLIKKDGELVEKMYAFRDVANIYQHLIMHRPELFSFQ PGPT0013063_12 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013063-yusE-NA NA NA AK015_01848 357 rnmV_1 Ribonuclease M5 ATGATTACAGATGGATCAGAAAAGGTTATGATTGTAGAAGGATTGACTGATAAGAAGCAAGTGAATAAAGTGATTGCCGAAGAGATCACCATTGTTTGCACAAATGGAACGCTTGGAGTAGAGCGATTTGATCACATGTTGGAGGAATATGGTTTAGATGATAAGGATGTTTATATTCTTGTCGACGAAGATCCTTCTGGCATCAAGCTTCGTAAACAACTAGCAAGAGAATTACCACATGCTGAACACGTCTATGTAAGTAGCGAGTACAGAGAAGTAGCGACGACACCTGAAAATGTACTAGCTCAAGTTTTAGTGAGTAAACGAATAGCGGTTAATCCTATATTTCTGATTTAA MITDGSEKVMIVEGLTDKKQVNKVIAEEITIVCTNGTLGVERFDHMLEEYGLDDKDVYILVDEDPSGIKLRKQLARELPHAEHVYVSSEYREVATTPENVLAQVLVSKRIAVNPIFLI NA NA NA NA NA AK015_01849 381 gcvH COG0509 Glycine cleavage system H protein ATGAGCGTACCAAAGGATTTATTATATTCAAAAGAACACGAATGGGTAAAAAAAGAAGATGGAACTGTGCGCATTGGAATTACTGCATTTGCACAAGATGAGTTAGGTGACATTGTGTTCGTTGAACTACCTGAAGTCGGTGACGAATTAGAAATCAATGAGCCTTTCGGTAGTGTAGAGTCTGTGAAAACGGTATCGGAATTATATGCTCCTATTAGTGGCAAAGTAGTTGAAATGAATGAAGAATTGGAAGATAGCCCTGAATTGGTGAATGAATCACCATACGAAAAGGCATGGATGGTCGTTGTTGAACCAACTAAGGAAACAGAATTGGATGACTTACTATCTGCGGAAGCTTACGAAGAAATTATCAGTGAATAA MSVPKDLLYSKEHEWVKKEDGTVRIGITAFAQDELGDIVFVELPEVGDELEINEPFGSVESVKTVSELYAPISGKVVEMNEELEDSPELVNESPYEKAWMVVVEPTKETELDDLLSAEAYEEIISE NA NA NA NA NA AK015_01850 354 mgsR COG1393 Regulatory protein MgsR ATGCTGACTTTTTTCTGGTATCCGAACTGTGGGACATGCAAAAAAGCGAAAAAATGGTTAGATAATCATCAAGTAAATTATAAACCAATACATATAGTGCAAAACCCACCTAATAAAGAAGATATACTTGAACTGATGCAGAAGAGTGGGATGCCTGCAAGAAAATTCTTTAACACAAGTGGTAAAAAATATCGTGAATTAAATATGAAGGAAAAAATAGCAGATGCCACGGAAGAAGAAATGGCGGAGATACTAGCTTCTGACGGAATGCTAATTAAGCGACCAATTGTAACAGATGGCTCTAACGTAACTGTTGGCTTCAAAGAGGAAGAATTTGAAAAAAACTGGCTATAA MLTFFWYPNCGTCKKAKKWLDNHQVNYKPIHIVQNPPNKEDILELMQKSGMPARKFFNTSGKKYRELNMKEKIADATEEEMAEILASDGMLIKRPIVTDGSNVTVGFKEEEFEKNWL PGPT0004720_2961 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537 NA NA AK015_01851 1785 fadE_2 COG1960 putative acyl-CoA dehydrogenase ATGAGCGAAACAAAAGAGAAAGTATTCAAAGGCGGCGGTTTTTTAGTTGATGATTTAACTGCAGAGGACGTCATTACTCCAGAGGATTTCACCGATGAGCATAAGATGATTGCGAAAACGACAGAAGAGTTTGTGGTTGGTGAAGTAGTTCCTAAAATTGACCATTTGGAAAATCATGAATTTGAGCATTCTGTAGATTTACTAAAAAAAGCTGGTGAGTTAGGGTTGTTAGGAGCGGATGTCCCTGAAGAATATGGCGGTTTAGCTTTAGACAAAATCAGTTCTTCTTTAATTACGGAAAAATTTGCTCTTGCGGGTGGTTTTTCGGTTACACATGGTGCACATGTAGGAATTGGCTCATTGCCAATTGTGTTTTTCGGCAACGAGGAGCAAAAGGAAAAATACTTACCGAAATTAGCTACTGGAGAATTGTTAGCAGCATATGCTTTAACAGAACCAAGCTCAGGTTCAGACGCTTTAGGGGCAAAAGCTACAGCTACGTTAAATGAGGCGGGAACACATTATATTTTAAATGGAGAAAAGCAATGGATAACGAATTCAGCTTTTGCTGATGTGTTTGTCGTTTATGCTAAGATTGATGGAGAACATTTCTCCGCATTTATTGTAGAACGTGAATTTCCAGGTGTATCCACAGGGCCTGAAGAAAAGAAAATGGGAATTAAGAGTTCCTCAACTCGTACGTTGATTTTGGAAGATGCTGAAGTACCAGTAGAAAACTTATTAGGTGAAAAAGGACGGGGCCATATTATCGCATTTAATATTTTAAATGTTGGCCGCTATAAGCTTGCTATTGGTGGTGTTGGTGGAGCGAAGCGTGGCATTGAGTTAGCGGCGAAATATGTAAATGAACGTAAGCAATTTAATAAGCCTATTTCTAGCTTTTCCCTGACAAAAGAGAAACTAGCAACAATGGCTGCAGAAACATATGCAAATGAAAGTGCGGTATATCGTACGGTAGGCTTATTTGAGCAGCGAATGGGTGCACTTACGGAGGAGCAATTAAATGACGGTAGAGAAATTGCTAGAGCAATTGCCGAATACCAAATAGAATGTTCGATGAATAAGTATATGTGTACGGAACTATTGGATTTTGTAGCAGATGAAGCTGTTCAATTACATGGTGGTTACGGTTTTATGCAGGAATATGAAGTAGAGCGAATGTACCGCGATTCACGTATTAACCGTATTTTTGAAGGGACAAATGAAATTAATCGCTTATTAGTTCCTGGTACATTATTGAAGAAAGCAATGAAAGGTGAGTTGCCTTTATTACAAAAGGCACAATCACTTCAAGAAGAGCTAATGATGATGATGCCAGAAGAAGTTGGCACAGATGCATTAGAACAAGAAAAACATCTGCTTAAAAATGCGAAGAAAATGGTATTGCTAGGAGCTGGTTTAGCGGCACAGAAATTTATGCAGAACATCGAAAACGAACAAGAAATTCTTGTGAACTTAGCTGATATGGTAGCAGAGGTTTACAATATGGAGTCTGCCATTTTGCGTACAGAAAAGGCAATTCACCGAAATGGTGAGGAAAAGAGTATGCAAAAGCTGTTGTATACGCAAGTTTATGTACAAGAAGCGTTTAATCGCATGGAGGCAAATGCTAAAGAAACATTAATTGCTGTAGAAGAAGGAGACACTTTACGAATGATGCTTTCTTCTTTACGTAAGTTAACGCGGCATACACCGACAAATGTAATTGCAAAAAAACGCGAAATTGCTACTGCCATTATTGAAGAAGAAAAATATACGCTATAA MSETKEKVFKGGGFLVDDLTAEDVITPEDFTDEHKMIAKTTEEFVVGEVVPKIDHLENHEFEHSVDLLKKAGELGLLGADVPEEYGGLALDKISSSLITEKFALAGGFSVTHGAHVGIGSLPIVFFGNEEQKEKYLPKLATGELLAAYALTEPSSGSDALGAKATATLNEAGTHYILNGEKQWITNSAFADVFVVYAKIDGEHFSAFIVEREFPGVSTGPEEKKMGIKSSSTRTLILEDAEVPVENLLGEKGRGHIIAFNILNVGRYKLAIGGVGGAKRGIELAAKYVNERKQFNKPISSFSLTKEKLATMAAETYANESAVYRTVGLFEQRMGALTEEQLNDGREIARAIAEYQIECSMNKYMCTELLDFVADEAVQLHGGYGFMQEYEVERMYRDSRINRIFEGTNEINRLLVPGTLLKKAMKGELPLLQKAQSLQEELMMMMPEEVGTDALEQEKHLLKNAKKMVLLGAGLAAQKFMQNIENEQEILVNLADMVAEVYNMESAILRTEKAIHRNGEEKSMQKLLYTQVYVQEAFNRMEANAKETLIAVEEGDTLRMMLSSLRKLTRHTPTNVIAKKREIATAIIEEEKYTL 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 AK015_01852 1176 fadA COG0183 3-ketoacyl-CoA thiolase GTGAAGGAAGCAGTAATTGTTGCGGGTGCAAGAACCCCTGTAGGCAAAGCAAATAAAGGGTCACTTGCTCAGTCAAGACCTGATGATTTAGCAGCGCTAACCATTAAAGAAACATTAAAACGTGCAGGTAATTATAATGGAAATATTGATGACGTGATTATTGGCACTGCTATGCCAGAAGCAGAACAAGGTATGAATATGGCTAGGAATATAGCTGGCCTTGCAGGTTTAGATCATAATGTACCTGGAATAACAGTTAATCGTTATTGTTCTTCAGGTTTACAAAGCATTGCTTACGCTGCAGAGCGCATTATGGTTGGAGCTAGTGATACCATTATTGCAGGTGGGGCAGAATCTATGAGTCTAATACCAATGGGTGGTCATGTTATTAAACCGAATTCACAGTTAGTAGAAAATGCCCCAGGATATTATATGGGAATGGGGCATACAGCAGAAGAAGTTGCCAATCGTTTTCAAATTTCTAGAGAAGATCAAGACGCTTTTGCGGTAAGAAGTCATCAACGCGCTGCTAAAGCAATCCAAGAAGGTAAATTTACGGATGAAATGGTGCCTGTTGAAGTAACGCATCGGTTCATTAATGATCAAAATAAACCAGAAGAGCAAAAGATGACATTTAAGATGGATGAAGGAGTACGTCCGGAAACATCTACTGAAATTTTAGCTAAATTAAGACCTGCATTTCATATCAATGGATCGGTTACTGCAGGAAATTCATCACAAATGAGTGATGGAGCAGCATCCGTGTTAGTAATGGATAGAGAAAAAGCAGAAGCAGATGGGTTAATACCAATGGTTAAATTTCGTTCATTCGCTGTAGCTGGCGTGGAGCCAGAAATTATGGGAGTTGGTCCGGTAGCTGCTATCCCAAAGGCTTTAAAAATTGCTGGTTTAGAATTGGCGGACATTGATTTATTTGAATTGAACGAGGCGTTTGCTTCTCAATCCGTTCGTGTTATTCAAGCTTTGGATTTAGATATGGATAAAGTCAATGTCAATGGTGGTGCAATAGCGTTAGGACATCCACTAGGTATGACAGGAACGAAATTAACGCTAACACTTATGCATGAAATGAAACGCAGGAAAGTGCAGTTTGGTGTTGTAACCATGTGTATTGGGGGAGGCATGGGAGCAGCAGGTGTTTTTGAACTGATATAA MKEAVIVAGARTPVGKANKGSLAQSRPDDLAALTIKETLKRAGNYNGNIDDVIIGTAMPEAEQGMNMARNIAGLAGLDHNVPGITVNRYCSSGLQSIAYAAERIMVGASDTIIAGGAESMSLIPMGGHVIKPNSQLVENAPGYYMGMGHTAEEVANRFQISREDQDAFAVRSHQRAAKAIQEGKFTDEMVPVEVTHRFINDQNKPEEQKMTFKMDEGVRPETSTEILAKLRPAFHINGSVTAGNSSQMSDGAASVLVMDREKAEADGLIPMVKFRSFAVAGVEPEIMGVGPVAAIPKALKIAGLELADIDLFELNEAFASQSVRVIQALDLDMDKVNVNGGAIALGHPLGMTGTKLTLTLMHEMKRRKVQFGVVTMCIGGGMGAAGVFELI PGPT0001565_3809 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 AK015_01853 2400 fadN COG1024 putative 3-hydroxyacyl-CoA dehydrogenase ATGAAGCAATTGATCAGGCGTGCTGCTGTTTTAGGATCAGGGGTAATGGGGTCAGGAATTGCGGCACACTTGGCTAATGTTGGTATACCAACAATTATGCTTGATATTGTACCGAAACAGTTAACAAAAAAGGAAGAAAATAAGGGGTTAACTTTAAATAATCCATCTGTTCGCAATCGAATTGCAACAGAGAGTAAAAAGGCGTTATTAAAACAAAAACCTTCCCCTATTGCAATGAAAGAGAGCCTTGATTTAATTGAAGTAGGAAATATGGAAGATGATATGGAAAAGCTAGCTGAGGTGGATTGGATTATTGAGGTTGTCGTCGAAAATTTGGAGATTAAACGAAAAGTTTTTGCGAATGTAGAACAGTATCGTAAACCGGGAACAATTGTAAGTTCAAATACATCTGGTATTTCTATTGAAGCAATGTCGAGCGAATGTTCGAAAGATTTCCGCAAACACTTCCTAGGAACACATTTCTTCAATCCACCAAGATACTTAAAATTACTTGAAGTCATTCCAACGAAAGATACTGATCCTGAAGTGCTGTCCTTTATGAAGCAATTTGGCGAAGACATTCTAGGAAAGGGTGTCGTTGAAGCTAAGGACACACCTAACTTTATTGCTAATCGAATTGGTACTTATGGCTTGTTAATTACTGTACAGGAAATGTTACGTGGCGGTTATAGTGTAGGCGAAGTTGATTCTGTAACAGGACCGTTAATTGGTAGGGCAAAAAGTGCTACCTTCCGTACCCTTGATGTCGTAGGACTAGATACATTTATCCATGTAGCGAAGAATGTATATGACCAAGTGGAAGGAGAAGAAAAAGAGAAATTTTCTGTTCCTGAATTTATGCATACAATGCAGGAAAAAGGCTGGTTAGGCGCCAAAAGTGGTCAAGGATTTTTCTTAAAGAAAAAAGGGAAAGACGGTAGTGTTATTTATGAATTAAATCCAAAGACATTGGAATATGAAGATAGGAAAAAGCTTAAAACGAAAGCGACGGAAATGGCGAAACAAGAAAAAGGCTTGCATCGAAAAATGAAAACGCTTCTAGCTCAGAAAGATGATCGAGCAAGTGCGCTCGTTTGGTCTATTTTAAAACCTGTGTTTATTTATGCTGCCGAATTAACAGGCGAAATAGCTGATGATATAGCAGCTATTGATGATGCGATGAAATGGGGCTTTGGCTGGGAACTAGGTCCATTTGAAACTTGGGATGCAATTGGTTTGCGTAAATCAGTTGAACGCATGCAAAGCGAAGGAGAAACGGTTCCTACATGGGTTTTACAATTATTAGAAGCAGGAAAGGAATCTTTCTATCAAACAGAAAATGGCAACGTCTACTTTTATGATCAAGGAACATATAAGAAAAAGGATGTCAATAAAAAAGAGATCCATTTGCGCAGTTTAAAAGAAGTGCAGGGTGTTATTAAAAAGAATACAGGAGCTAGCTTAATAGATTTAGGCGACGGGGTAGCATGTTTAGAATTTCATTCTCGAAGCAATGCCATCGGATTAGATATTATGCAAATGGTTCATTTCGCCATAGAAGAGGTGGAGAAGAATTACGAGGGTCTCGTTATTGGTAATCAAGGCAAGAACTTCTGTGTAGGAGCTAATTTAGCCATGATGTTGATGGAGGCACAAGATGATAATTTCTTTGAACTAGATATGGTTATTCGGCAATTTCAAAATATGACGATGGCAATTAAATATGCTAATAAACCAGTCGTTGTTGCACCGTTTAATATGACGCTTGGTGGTGGTGCAGAAGTGTCCTTGCCGGCAGCTTCTATTCAAGCCTCAGCAGAAACTTATATGGGACTTGTAGAATTTGGGGTAGGTCTTATTCCTGGCGGCGGCGGTACGAAAGAATTGTATGTAAAGATGCTTCGTCAACTTCCAAAAGGCGTGTCTTTCGATACGACGAAGGTAGCCAATGATGTTTTTGAAAAGGTAGCGACAGCGAAAGTATCTACTTCAGCTGCTGAAGCACGCGAATTTGGCTTTTTAGACCAATGTGATCGAATTAGCGTTAACCCTGATCATTTACTATATGATGCAAAGGAAAATGTCCTATCATTAGCTAATTCAGGCTATCGGGCGCCAAAAAGAGAAAAAATTCCAGTAGTCGGTGATGCAGGTTATGCTGCCATGGTATTAGGGGCTAAAAATTTGCATTTAAGTGGTTATGCTTCAGAACATGATGTGAAAATGGCAGAGAAATTAGCCTATGTTTTGTCAGGGGGTAGAATTCAAGAAGGAACGAAAATAGATGAACAAGTAATGCTCGATTTAGAACGAGACGCCTTTTTAAGCTTAATTGGAGAGCCAAAAACACAACAACGAATGCAACATATGTTGGTTAAAGGAAAACCATTACGTAATTAA MKQLIRRAAVLGSGVMGSGIAAHLANVGIPTIMLDIVPKQLTKKEENKGLTLNNPSVRNRIATESKKALLKQKPSPIAMKESLDLIEVGNMEDDMEKLAEVDWIIEVVVENLEIKRKVFANVEQYRKPGTIVSSNTSGISIEAMSSECSKDFRKHFLGTHFFNPPRYLKLLEVIPTKDTDPEVLSFMKQFGEDILGKGVVEAKDTPNFIANRIGTYGLLITVQEMLRGGYSVGEVDSVTGPLIGRAKSATFRTLDVVGLDTFIHVAKNVYDQVEGEEKEKFSVPEFMHTMQEKGWLGAKSGQGFFLKKKGKDGSVIYELNPKTLEYEDRKKLKTKATEMAKQEKGLHRKMKTLLAQKDDRASALVWSILKPVFIYAAELTGEIADDIAAIDDAMKWGFGWELGPFETWDAIGLRKSVERMQSEGETVPTWVLQLLEAGKESFYQTENGNVYFYDQGTYKKKDVNKKEIHLRSLKEVQGVIKKNTGASLIDLGDGVACLEFHSRSNAIGLDIMQMVHFAIEEVEKNYEGLVIGNQGKNFCVGANLAMMLMEAQDDNFFELDMVIRQFQNMTMAIKYANKPVVVAPFNMTLGGGAEVSLPAASIQASAETYMGLVEFGVGLIPGGGGTKELYVKMLRQLPKGVSFDTTKVANDVFEKVATAKVSTSAAEAREFGFLDQCDRISVNPDHLLYDAKENVLSLANSGYRAPKREKIPVVGDAGYAAMVLGAKNLHLSGYASEHDVKMAEKLAYVLSGGRIQEGTKIDEQVMLDLERDAFLSLIGEPKTQQRMQHMLVKGKPLRN PGPT0008395_492 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516 NA NA AK015_01854 978 znuA_2 COG0803 High-affinity zinc uptake system binding-protein ZnuA TTGAGAAGAACATCCATTACTATACTTATACTTGGCTTTATTACATTAATTGTTGTCGGTTGTACAAAAACAGATGGTGCTAATCAAAAGAACACAGATATAACTATATATACATCTATATATCCAATTCAGTTTGCTGTAGAGCAAATTGCTGGAGACACAGCTGATGTGCATTCCGTTTACCCACCAGGAGTAGATGCTCATACCTATGAACCAACCTCTAAAGACATGACAAATATAGCTAAAAGCGATGTGTTTATTTACTTAGGTGCAGGGTTAGAAGGATTTGCAGAGAATGCAGCAGACGCACTGCGTTCAGAAGACGTGGAGCTTGTCGAGCTAGGAAAAAATGAGCATCTTTTTGATAAAGAAACGAACCATACAGTAAGTGATCACGCCCATGAAGATGGAGAGCATGCTGATGAAGCGGGAGCTCATGAAGGTCATACCCATGGAGATCACGACCCTCATGTATGGCTTGATCCTTCGCGAATGATTACATTATCTGACATGGTAAAAGAACAATTAATGAAACTTAACCCAGACGATAAACAGCTTTACGAAAGTAATTTTGATCAATTAACAGAACAGCTACAATCGCTTGATGCCGACTTTACATCCGTTTTGGAAGCAGCAACAAACAAACATATTCTCGTATCCCATGCAGCTTATGGTTATTGGGAAGAGCGCTATGGTTTAGAGCAAATTTCCATTAATGGGTTGTCACCTAACCATGAGCCATCACAGAAAGAACTAACCGAAATTATCGACCAAGCTGAAAAGGATGATCTTCATTATATCATCTTCGAACAAAATACGTCCAATCGTGTATCAAAAGTTATACAAGACCATATTCAAGCACAAGCTGTTACCATTCATAACTTATCTGTCTTAACAAAGAAAGATCTCGAAAATGAGGAAGATTATTTTTCCATTATGAAAAAAAATCTAAAAACACTCGATCAAGTAACTTCTTAA MRRTSITILILGFITLIVVGCTKTDGANQKNTDITIYTSIYPIQFAVEQIAGDTADVHSVYPPGVDAHTYEPTSKDMTNIAKSDVFIYLGAGLEGFAENAADALRSEDVELVELGKNEHLFDKETNHTVSDHAHEDGEHADEAGAHEGHTHGDHDPHVWLDPSRMITLSDMVKEQLMKLNPDDKQLYESNFDQLTEQLQSLDADFTSVLEAATNKHILVSHAAYGYWEERYGLEQISINGLSPNHEPSQKELTEIIDQAEKDDLHYIIFEQNTSNRVSKVIQDHIQAQAVTIHNLSVLTKKDLENEEDYFSIMKKNLKTLDQVTS PGPT0004220_1283 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815 NA NA AK015_01855 756 znuC COG1121 High-affinity zinc uptake system ATP-binding protein ZnuC GTGAGTGAAGCCATTATCTCCATGAAAAACATCAGTTTTTCTTATGAAAATAAGCAAATATTAGATCATATCAATTTTTCCGTATCTAAAGGCTCATTTATGGGCTTGGTTGGGCCAAACGGAGGTGGAAAGACCACACTTATTAAATTAATTCTCGGTTTACAAAAAGCGGATGCTGGAAGTATTCAATTATTTGGCCAACCGATTGAAAAATTTAACAACTGGCATAAGATTGGTTTTGTTTCGCAAAAGGCAAATGCGTTTAATAAAGGTTTTCCAGCAACCGTATACGAAGTAGTGTCAATGGGTCTAACAGCCAAAGTTGGCTATTTAAAATTCTTTCAAAAAAAACATAAAGAAAAAATTAAGGAAGCAATTAATCAAGTTGGAATGAAGGCATATACACATGAAAATATCGGTAACTTATCTGGTGGACAACAACAACGCATCTTTATTGCTAGATCTTTAGTCAATGATCCTGAACTACTCATCTTAGATGAACCGACTGTAGGGGTGGATAATGAGAATGTACAGCGATTTTACGATTTACTTGATAACCTAAACCGCAATAAAGGCATTACGATGCTTATGATAACGCATGACACTGGAACAATCGCTGAACAAGCAACTGAAATTGCATGTTTAAATAAAACATTGCATTTCCACGGGAAACCAGAAGCTTATAAAAGAATATCGAACGAAGAGTGGTCTCATATTTATGGACATAATATCCATTTAATTACACACGACCATTGA MSEAIISMKNISFSYENKQILDHINFSVSKGSFMGLVGPNGGGKTTLIKLILGLQKADAGSIQLFGQPIEKFNNWHKIGFVSQKANAFNKGFPATVYEVVSMGLTAKVGYLKFFQKKHKEKIKEAINQVGMKAYTHENIGNLSGGQQQRIFIARSLVNDPELLILDEPTVGVDNENVQRFYDLLDNLNRNKGITMLMITHDTGTIAEQATEIACLNKTLHFHGKPEAYKRISNEEWSHIYGHNIHLITHDH PGPT0004230_1589 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817 NA NA AK015_01856 837 znuB COG1108 High-affinity zinc uptake system membrane protein ZnuB ATGCTAGCAGATTTTTTGGAATATGATTTTTTAAGAAATACGTTATTTACTGGAATAATAATTGGTCTTATAGCACCTTTACTAGGAACATTTATTGTGGTCAGAAGATTGTCTTTGCTAGCTGATGCGCTATCCCATGTCACTTTAGCTGGAATCGCATTCGGTTTATTATTAGAAAAAAAATTCGCACTCATGATCAGTCCACTGTATACCGGAATAGCTTTTTCTGTGTTCGGTTCAATATTAATTGAAAAGTTGCGTGGCGTTTATAAGGCATTTCAAGAGCTGGCTATTCCAATCATATTATCTGGTGGTGTAGGGCTTAGCGTTATATTTATTTCTATAGCAGATGGATTTAATACAGATTTATTTAGCTATTTGTTTGGCTCTGTATCTGCAGTAAGTAAAAGCGATTTTTATTCTATAGCTGGTATAGCAGGGTTTATTATTATTATCATCGTCCTGTTTTTCAAAGAATTATTTACACTTTCTTTTGATGAGGAGCATGCAACTATTTCTGGATTACACACGAAAGCAATCCATTTATTATTTATCGTTTTAACTGCCTTAGTTATTGCAATCTCGATGAGAATCGTCGGAGTGTTACTTGTTTCAGCTCTTATGACACTACCTGTTGCAGCCAGCATGCGTTTTGCTAAAGGATTCAAGCAAATGGTGTATTTATCTATTGTATTTGGTGAAATAGCTGTTATTATAGGGTTAATAACAGGATATTATTTAAGTATTCCACCAGGTGGAACGATTGTATTAGTATCTATTTCGCTGTTAATATTATCCATTATTATAAGCAAGCAGCGTTCAAAAGCAACATCCTAA MLADFLEYDFLRNTLFTGIIIGLIAPLLGTFIVVRRLSLLADALSHVTLAGIAFGLLLEKKFALMISPLYTGIAFSVFGSILIEKLRGVYKAFQELAIPIILSGGVGLSVIFISIADGFNTDLFSYLFGSVSAVSKSDFYSIAGIAGFIIIIIVLFFKELFTLSFDEEHATISGLHTKAIHLLFIVLTALVIAISMRIVGVLLVSALMTLPVAASMRFAKGFKQMVYLSIVFGEIAVIIGLITGYYLSIPPGGTIVLVSISLLILSIIISKQRSKATS PGPT0004225_1032 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816 NA NA AK015_01857 420 zur COG0735 Zinc-specific metallo-regulatory protein ATGAATAGACAAGAGGCTGTCACACTTTTACGTAAAAAAGGCTATAAAATGACGGGGAAACGAGAAGACATCTTATCTTTTTTTGAAAAAGCAGATGGTTACCGTACCGCTAAAGATTTAATTACACATTTAGAAGAAAATTATCCTGGTATCAGTTTTGATACTATTTACCGTAATTTACATCTCTACCACGATCTAGGCATTTTGGAAACAACCGAATTAGGTGGTGAAAAGCATTTTCGAATGAATTGTGCACATCATCATCATCATCATTTTATATGTAAAGATTGTGGTAAAACAAAAGAAATTGATATTTGTCCTATGGAAGAAGTCGAACAACTATTAGCTGCGTATTCGATTGAAGGACATAAATTTGAAATCTACGGAAGGTGTCCTGGATGCATGTTAGCAAAAACATAA MNRQEAVTLLRKKGYKMTGKREDILSFFEKADGYRTAKDLITHLEENYPGISFDTIYRNLHLYHDLGILETTELGGEKHFRMNCAHHHHHHFICKDCGKTKEIDICPMEEVEQLLAAYSIEGHKFEIYGRCPGCMLAKT PGPT0004295_283 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004295-zurR|zur-K02076 NA NA AK015_01858 399 crcB_1 Putative fluoride ion transporter CrcB ATGCATGTTAGCAAAAACATAAAATTAGTCACAGCAATTGGATTAGGCGGAGCAGTTGGCGCAATGGGAAGGTATAGTCTAACATTTATATTCTCAACAGATGGTTTCCCGTTTGCTACGTTATCCGCCAACTTGCTTGGCTGTTTTTTATTAAGCTATTTATTACATCACAAACAAATCAAAAAACACTTGCCACCAACGTTGTTCACAGCATTAACGACTGGATTAATTGGCTCATTTACTACTTTTTCCACTTTTACCGTTGAAACGATTGAGCTTTGGAATAGCCATTTTTTCTTAGCGATTACCTATGTTTTACTTAGCATTGCCGGCGGCTTGTTATTCTGCTATATTGGTTATCTATTTTCCATACATACTAGAAAGAAGGCAAGAATATGA MHVSKNIKLVTAIGLGGAVGAMGRYSLTFIFSTDGFPFATLSANLLGCFLLSYLLHHKQIKKHLPPTLFTALTTGLIGSFTTFSTFTVETIELWNSHFFLAITYVLLSIAGGLLFCYIGYLFSIHTRKKARI PGPT0004985_1596 DIRECT EFFECT BIO-REMEDIATION FLUORIDE_DETOXIFICATION FLUORIDE_RESISTANCE FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199 NA NA AK015_01859 342 crcB_2 Putative fluoride ion transporter CrcB ATGAGCTTTTTTTATGTTGCTTTAGGAGGCTTTTGTGGAAGTTTTGTCCGCTACCAACTGTCAATTGCCGCAAATAAGCGATTAATTGGAACTTGGCTTGCCAACATCACGGGATCTATCCTTTTAGCTTCTCTTATACTAATATACACAAAAGAAATCCTTCCACATACTTGGTGGCTCATTCTTGGAGTCGGTTTTTGTGGAGCCTATACAACATTTTCCACATTTGGAAATGAAACAATTCAATTACTATTACAACGACAATGGAATAAGGCTATCGGCTATATTAGCTTATCGTTCATCGTTTCTATTCTACCGGCAACATTAATTTTATCGTTATAA MSFFYVALGGFCGSFVRYQLSIAANKRLIGTWLANITGSILLASLILIYTKEILPHTWWLILGVGFCGAYTTFSTFGNETIQLLLQRQWNKAIGYISLSFIVSILPATLILSL PGPT0004985_5677 DIRECT EFFECT BIO-REMEDIATION FLUORIDE_DETOXIFICATION FLUORIDE_RESISTANCE FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199 NA NA AK015_01860 783 hypothetical protein ATGGATTTAAACAAAGAACTAAAACAATTAGAGTCAGTAGAAAGAGGAGGTCCTGATAAAGTATTTACCATGTATTTAAATACAGACCCTTCTGACCCTGAACAACAAGGTGGGGAATGGAAAATTCATTTCAAAAACGGAATACGTAATTTCGAACATTATTTAGAAGAATCTGATGATAAAGAAGAACTTCGTAATTTTCAACATGTAAAACAAAACGTGGAAAATTTCATTAGAGGCAATGAACAACAATTTCGCAAAGGTGTTATTGTGTTTGCAACAGCAGATGAAGAAGTGTGGTTTGCAATACGAGTTCAAATGCGTTTAGAAACAGAATTTTTCTGGCAGGAAACGCCACAATTAGAACAATTACAGAAATTGAAAGAAGAATACCCAAAAACCGGGATCGTGTTGGTGCAGCAAAGCGAAGTGAGAGTTATCGAATCCTATTTAAATGAAATGGAAATGGAGAAGCATTTTGAATTAGATGTTAATGTAGATGACTGGCGTGAAAAAACGGCGATGGGACCAGGGAATCCTACGATTCAAAAGGACGATTTAAGCGCTCGCTTTGAAGCGAATAAACATCGTTGGTATAAATCTTTAGCTCCTAAAATGGATAAGTTCGCCAAAGACAGGGGCTGGGAAAAAATAGTGGTAATAGGTGAACCAGGACAGGCGCAAGCATTTCAAGATCAAATGAACAAGCAATCTGATGAAGTGATCAATAAAAATATGCTGGATCATGAATCAGAGAGAATAATCGAGGAAGTTTTCGTATAA MDLNKELKQLESVERGGPDKVFTMYLNTDPSDPEQQGGEWKIHFKNGIRNFEHYLEESDDKEELRNFQHVKQNVENFIRGNEQQFRKGVIVFATADEEVWFAIRVQMRLETEFFWQETPQLEQLQKLKEEYPKTGIVLVQQSEVRVIESYLNEMEMEKHFELDVNVDDWREKTAMGPGNPTIQKDDLSARFEANKHRWYKSLAPKMDKFAKDRGWEKIVVIGEPGQAQAFQDQMNKQSDEVINKNMLDHESERIIEEVFV NA NA NA NA NA AK015_01861 315 gdnD_2 COG2076 putative guanidinium efflux system subunit GdnD ATGGATTGGCTTATACTTGTATTAGCAGGGTTTAGTGAAATTCTCGGTGTTACGGGAATTAATAAAGTGAATCAACGGATAAGTGTCATGTCCATTTTATGGTTATTTGGAGGTTTTGGACTAAGTTTCATACTGCTTGGTATTGCAATGGAAACAATTGCAATGAGTACGGCTTATGCTGTTTGGACAGGGATGGGAACAGTAGGCAGTGCCATTGTTGGTATGTTATTTTTTAAAGAATCTAGCGATTGGAAGAGGTTACTTTTTATTGGCATGATTTTAAGTGCAGCAGTTGGTTTGAAACTCATTTCATAG MDWLILVLAGFSEILGVTGINKVNQRISVMSILWLFGGFGLSFILLGIAMETIAMSTAYAVWTGMGTVGSAIVGMLFFKESSDWKRLLFIGMILSAAVGLKLIS PGPT0029170_215 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 AK015_01862 339 gdnC COG2076 putative guanidinium efflux system subunit GdnC ATGAATAAAGATTGGAATACGGTATTTATTGCTAGCTTATTTGAAATTTGCTGGGTAATTGGTCTAAAACACTCAAACAGTATGGTTGATTGGGGGTTAACGCTAATAGCTATTTATATTAGTATGCACTTGCTTATTATGGCTTCTCGTCGCTTGCCGGTTGGTACCAGTTATGCGGTATTCACCGGTATAGGGACGGCAGGGACAGTAGTAGCAGACATAGTGATTTTTGGAGAGCCAATTCGACTTTTGAAAATGGCGCTCATTCTATTGTTAGTATCAGGAGTTATTGGCTTAAAATTAGTCACACCACAAAAAGATAGGAAAGAGGTGTCATAA MNKDWNTVFIASLFEICWVIGLKHSNSMVDWGLTLIAIYISMHLLIMASRRLPVGTSYAVFTGIGTAGTVVADIVIFGEPIRLLKMALILLLVSGVIGLKLVTPQKDRKEVS PGPT0029165_253 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 AK015_01864 1509 ectT Ectoine/hydroxyectoine transporter ATGAAAAAAAATACTTTTAACAACCCAGTTTTTTATGTGTCAGCGTTTGTTGTGCTATTACTTGTTATTGTTGGCGCGATTATGCCAAATCGTTTTGGCGCTGTAGCGGAAAAAATGTTTAATTTTACAACTATTAATTTTGGTTGGTTTTACCTCTTGGCTGTGTTTATCTTTGTTGCATTTTTAATTATTTTATCTGTGAGTAAGTATGGGAAGATAAAATTAGGAGCAGTGCATTCCAAACCAGAATACTCTTTTTTTACCTGGGTTGGCATGCTTTTTTCAGCTGGTTTCGGAGCAGGTCTTGTTTTTTGGGGCGTAGCAGAACCAATGAGTCATTTTTTTAACACCCCATTTCCTGAAGTAGAAGCTATGACAGAGGAGGCAGCGAGAGTTGCTATGGGTTACGCCTTTTTTCATTGGGGAATTAGCCAATGGTCTGTATTTGCGATTGTAGGACTTGTTATATCCTATTTACAGTTTAGAAAAAAGCAACGAGGATTAATTTCAACTTCCATTCAACCAATCATAGGTGAAAATAAATCGATTGCAAATACAGTGGATACTCTAGCGGTAGTAGCGACTGTGATGGGAGTAGCTACGTCTTTGGGATTAGGAATACTTCAGATGAATGGTGGCTTAAAGTCTGTTTTCGATGTACCGACTTCCATATGGGTACAAATGGGTATTGCTGGAGTCATGCTTGTAACCTACTTAATATCATCAAGCACAGGATTAGATAGAGGAATAAAATGGTTGAGCAATATTAATTTAGGGCTTTGTCTACTGTTATTAGTGTTTGTATTTTTAGCAGGCCCCACTGTTTTTATTTTGAATACACTCGTTTTAGGATTAGGTGATTACTTATCAAGTTACATTCATTATAGTCTTCGTTTAACCCCTTATACAGGAGATACTTGGGTAAGGGAATGGACTATTTTCTATTGGGCTTGGGCTATTGCTTGGTCTCCATTTGTTGGAGCATTTGTAGCGCGCGTATCTAGAGGAAGAAGTATTCGTCAATATGTTTTAGGAGTATTGGTCGTTTCACCAGCAATTGCTTGTATCTGGATTGCGACTTTTGGAGGGACAGCTGTATATAATGATTTAATGAATGGAACTTCTATAGCTCAAGCTGTGAATGTAGATATTGCAGTAGCCCTGTTTGAAACGTATCAGCATTTGCCGATGACAAATATACTTTCTATCCTATCTATATTTCTAATATTTACATTCCTTGTGACTTCAGCAGACTCTGCAACATATATCCTTGGTGTAATGACTTCAAAAGGAAGCTTAAACCCAGCATTAGTGACAAAAATTGTCTGGGGGCTTTTGATAACTGCTATTGCTATTGTACTTTTATTAGCAGGAGGTTTAGAAGCTTTGCAAACCGTTTCGTTAATATCGGCGCTCCCATTTACGGTCATATTGTTGCTCATGATCATCTCATTTACACGGATGTTGTCAAGTGATTATAAAAAAGTAAAACAAGATAAAGAGTATTAG MKKNTFNNPVFYVSAFVVLLLVIVGAIMPNRFGAVAEKMFNFTTINFGWFYLLAVFIFVAFLIILSVSKYGKIKLGAVHSKPEYSFFTWVGMLFSAGFGAGLVFWGVAEPMSHFFNTPFPEVEAMTEEAARVAMGYAFFHWGISQWSVFAIVGLVISYLQFRKKQRGLISTSIQPIIGENKSIANTVDTLAVVATVMGVATSLGLGILQMNGGLKSVFDVPTSIWVQMGIAGVMLVTYLISSSTGLDRGIKWLSNINLGLCLLLLVFVFLAGPTVFILNTLVLGLGDYLSSYIHYSLRLTPYTGDTWVREWTIFYWAWAIAWSPFVGAFVARVSRGRSIRQYVLGVLVVSPAIACIWIATFGGTAVYNDLMNGTSIAQAVNVDIAVALFETYQHLPMTNILSILSIFLIFTFLVTSADSATYILGVMTSKGSLNPALVTKIVWGLLITAIAIVLLLAGGLEALQTVSLISALPFTVILLLMIISFTRMLSSDYKKVKQDKEY PGPT0013600_1162 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK015_01865 1254 cwlO COG0791 Peptidoglycan DL-endopeptidase CwlO TTGAAGAAGTCAATTGTAACAGTTGCGACTGTGACAGTCGTTGGATTTAGCAGTGCATTTTTTCATACACAGGTGCAAGCGGAGACACTAGGGAACTTAAAAGATAAGCAAACAGAAATTCAAAGTGATCGAGAAGCAATTAAAGCCGATCTTTCAAAAGCAGAAGCGAAAATTGCTGATGTGCTAGTTGAATTAGAAGAGTTGAATCAACAAATTACGCAATTCGATGATGCAATGAAAGAAAATAAAGCGCAAATCGAAAAAGTGCAAGCCGATATTGCTAAAAAAGAACAAGAAGTGGACAAGCTTGAAAAAGAGATAGCAACACTGGAAGATGCAATCGAGAAACGCTTTAATAAGTTAAAAGAACGTGCTGTTTCTTATCAAAAAAGTGGTGGTGACGTTAACTACTTAGAAGTTATTTTTGGTTCTAAGGACTTTGGTGAATTTATTAACCGTGTATCAGCTGTTAATAAAATTACAAATTCAGATGCTAATTTAATAGAAGAACAAGAGAAAGATAAAAAAGAAGTGAATGAGAAGAAAGATAAAGTTGTTAATAGTTTAGAGGAGATGGAAGCATTACAAGTTGAATTAAAAGGTATACAGGAAACTATTAAACAACAAAAAGAAGAAAACGAGAAAAAAGAAGCAAAACTAAAAGATAAAAAAGCTGATCTTGAAGGTTTAAAAGAAGACTTAGAAATCAAAGATAACAATCTTGCTGATCTTCAAGCAGAAGTAAGACAAAGCATGCAAGTTGAACGTCAATCTGAAGCTGCAACTCGTAGTAATACTTCTAATGGCGGAGAATTGCAAACGCTAGGTAGTAAAAGCGAAACAAAAAGTAAAAGCTCTTCTTCTGCACCAAAAGTGTCAGCTGGAAGTGGCAGTGTAAGTACAATTGTTAATTCTGGACGTCAACATTTAGGTGTGCCTTATGTTTGGGGAGGAAAGGGACCAAGCGGCTTTGATTGTTCTGGATTTGTATCTTGGGCATTTGCACAAGGTGGCTACTCTATTCCATCAAGCACAAGCGCATTAGTAAATGTAGGTCAAAAAATCTCATACAGTGAAATTCAACCTGGAGATCTAGTTTTCTTTGATACGTATAAGAAAAATGGACATGTCGCTATTTACATGGGTGGAGGTAATTTCATTGGTGCGCAAAGTACACCAGGAGTTTCCATAGAGAGCATGTCTAATTCATACTGGAGCAATGCATTTAAAGGACATGTACGCCGCGTTCTTTAA MKKSIVTVATVTVVGFSSAFFHTQVQAETLGNLKDKQTEIQSDREAIKADLSKAEAKIADVLVELEELNQQITQFDDAMKENKAQIEKVQADIAKKEQEVDKLEKEIATLEDAIEKRFNKLKERAVSYQKSGGDVNYLEVIFGSKDFGEFINRVSAVNKITNSDANLIEEQEKDKKEVNEKKDKVVNSLEEMEALQVELKGIQETIKQQKEENEKKEAKLKDKKADLEGLKEDLEIKDNNLADLQAEVRQSMQVERQSEAATRSNTSNGGELQTLGSKSETKSKSSSSAPKVSAGSGSVSTIVNSGRQHLGVPYVWGGKGPSGFDCSGFVSWAFAQGGYSIPSSTSALVNVGQKISYSEIQPGDLVFFDTYKKNGHVAIYMGGGNFIGAQSTPGVSIESMSNSYWSNAFKGHVRRVL PGPT0023995_860 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471 NA NA AK015_01866 1278 aceA COG2224 Isocitrate lyase ATGGTAACTGAACGTGTAGAAAAATTACAGAAAGCTTGGGAAAATGATGAACGGTGGATAGGTGTAGAAAGGCCTTATAGTGCGGAAAAAGTTATTCGTTTAAGGGGTTCCGTGGATATAGCATACACATTGGCAGAAAAAGGATCGGAGAAATTATGGGAATTATTACAAACGGAAGATTACATTCATGCACTTGGAGCTTTAACAGGAAATCAAGCTGTTCAACAAGTTAAAGCTGGATTAAAAGCAATTTATCTTAGTGGTTGGCAAGTAGCTGCAGATGCGAACTTAGCAGGGCAAATGTATCCAGACCAAAGCTTGTACCCTGTGAATAGTGTACCAAATGTAGTAAAGCGGATAAATCAAGCATTGCAACGAGCGGATCAAATTCATTATTCAGAGGGGAAAGAGGATATCGATTGGTTTGCGCCAATTGTCGCTGATGCAGAAGCTGGTTTTGGTGGTCAATTAAATGTATTCGAACTTATGAAATCAATGATTGAGGCAGGTGCTTCAGGTGTACATTTTGAGGATCAACTAGCTTCAGAGAAAAAATGTGGCCATTTAGGCGGTAAAGTATTGCTACCTACACAAACAGCGGTACGAAATTTGATTGCTGCTCGATTGGCTGCGGATGTAATGGGAACACCTACTATTATTGTTGCTAGAACCGATGCAAATGCGGCCGATTTGATTACGAGTGATGTAGATCCTTATGATGCTCGATTTATTACTGGAGAGAGAACAACAGAAGGCTTTTATAAGACGAAATCTGGTATTCATCAAGCGATCGCAAGGGGACTTGCGTATGCGCCTTATGCTGATTTAATCTGGTGTGAAACTTCAGAACCAAATTACGAAGAAGCTAAACAATTTGCCGAGGCGATACACGAAAAATATCCAAACAAAATGTTAGCTTATAATTGTTCACCATCATTTAATTGGAAGAAAAAGTTGACAGATGAAGAAATTGCTCAGTTCCAGAATAGAATAGCAGAACTTGGATATAAATTCCAGTTTGTTACGTTAGCAGGATTTCACGCTCTTAATTATAGTATGTTTGAATTGGCAAGAAAATATAAAACAGAAGGTATGAAGGCATATTCGGAGTTACAACAAAATGAATTTGATAGCGAAAAATATGGATATACTGCTACAAGACATCAACGAGAAGTAGGAACTGGGTATTTTGATGAAGTCGCACAGGTGGTTTCTGGAGGTACGTCCTCAACGGCTGCATTAAAAGGTTCAACAGAAGAAGAACAATTTTCTTTATAA MVTERVEKLQKAWENDERWIGVERPYSAEKVIRLRGSVDIAYTLAEKGSEKLWELLQTEDYIHALGALTGNQAVQQVKAGLKAIYLSGWQVAADANLAGQMYPDQSLYPVNSVPNVVKRINQALQRADQIHYSEGKEDIDWFAPIVADAEAGFGGQLNVFELMKSMIEAGASGVHFEDQLASEKKCGHLGGKVLLPTQTAVRNLIAARLAADVMGTPTIIVARTDANAADLITSDVDPYDARFITGERTTEGFYKTKSGIHQAIARGLAYAPYADLIWCETSEPNYEEAKQFAEAIHEKYPNKMLAYNCSPSFNWKKKLTDEEIAQFQNRIAELGYKFQFVTLAGFHALNYSMFELARKYKTEGMKAYSELQQNEFDSEKYGYTATRHQREVGTGYFDEVAQVVSGGTSSTAALKGSTEEEQFSL PGPT0001550_2464 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637 NA NA AK015_01867 1035 hypothetical protein GTGAAACCTTCCCATTTTATTGGCAGCAGAGTTGTAAAAACTGGTGTCGCAGTTTTTCTTACCGCTTGGATTTGCGAGCTGTTTCATGCCCCAGCTGTGTTTGCTGTAATAACAGCTATCGTAACGATCGAGCCAACTGTAGCTGATTCCATACGTAAAGGGTTTATACGCTTTCCTGCCTCAGCAATTGGCGCTGCTTACTCCGTATTTTTTATATATTTATTTGGAAATTCGCCAATAACCTATGCGCTTGCAGCAACATTGACAATTGTCACTTGTTTTCGCCTAAAACTGCACGCAGGACTATTAGTTGCTACGCTTACAGCAGTAGCAATGATCGAAGTCATTCATAGCAATTATTTTATATCCTTTCTTATTCGCCTAGGAACAACTACAATCGGCTTAGTTGTTTCTACTGCCGTCAATATGTTTGTTCTACCACCTGATTATACATCACATATCACGGAAAATATGATGACCATTCGAAAACGTTTAGCGACTAGAATTAAAAAAGTATTCTATGCAGTAACAGCTGAACAGCCAATAACAGCGGTCCATTCATTACATTCATCAGATGATGTATATAAAAAAATTCGCCAAACGGAAACACTTATCCAATTCCAAAAAGAAGAAGCCAAATATCATCCACTAACAAGTAGCGAAAAGAAATTTTTCAAGCAAATAGAAAAACAGCTAGCAAGCTTAAAACTAATTCATTACCATATTGATAATGTTCTTACCACGAAGTTGAGAAATGACCTTTGGATGGACCATGAAAAAAAGATTATTAGAGAGGTTGTTGATGAATTGGTGGACACTTTCCACCATAAAACCAAGTTAAATCAAACGGATATTTGCAATTTAAGAGAACTTTATTGGCGAGAAAATGGAGTTGCCAGTCGAAAGCCAGATGCAAATATTGCAAATCTTCCACCTGAATTAATTATTACGTATGAGTTACTTACCATTTGTCAGCTAACGAATCGTTTCTTAGAGTATGGAAATAATGTTGACGTGGTAAATTCATCTGATTAA MKPSHFIGSRVVKTGVAVFLTAWICELFHAPAVFAVITAIVTIEPTVADSIRKGFIRFPASAIGAAYSVFFIYLFGNSPITYALAATLTIVTCFRLKLHAGLLVATLTAVAMIEVIHSNYFISFLIRLGTTTIGLVVSTAVNMFVLPPDYTSHITENMMTIRKRLATRIKKVFYAVTAEQPITAVHSLHSSDDVYKKIRQTETLIQFQKEEAKYHPLTSSEKKFFKQIEKQLASLKLIHYHIDNVLTTKLRNDLWMDHEKKIIREVVDELVDTFHHKTKLNQTDICNLRELYWRENGVASRKPDANIANLPPELIITYELLTICQLTNRFLEYGNNVDVVNSSD NA NA NA NA NA AK015_01868 630 liaR_2 COG2197 Transcriptional regulatory protein LiaR GTGATACATGTATTATTTGCTGATGACCATGAAATGGTACGTATTGGAGTAACTTCTTATTTAGCGGCCCAGCCAGATATAGAAGTTGTTGCAGAGGCAGCTGATGGAGGAGAAGCTGTAGAACTAGCGTTAACGTTAAAGCCGGATATAATTTTAATGGATCTTGTTATGAAAGAAATGGACGGAATTGAGGCAACACGGCTCATTATTGAACAATGGCCAGAAGCTAAAATAATTATTGTGACCAGCTTTTTAGATGATGAGAAAGTGTACCCCGCTTTAGAAGCAGGTGCAACAAGTTATATGTTGAAAACATCGAAAGCGGAAGAAATAGCTAAAGCAATTCGAGCAACCTTTGAAGGACAAACTGTGTTGGAGCCAGAAGTGACAGGGAAAATTATGAATCGTATGCGTTCTCCAGAACGCGCTTTGCACGAAGCTTTAACAGAAAGGGAACGGGAAATTTTGTTGTTAGTCGCTCAAGGAAAAACAAATCAAGAAATTGCCGATCAATTGTTTATTTCGTTAAAAACGGTAAAAGTACATGTAAGTAATATTTTATCTAAGTTAGAAGTGCAAGATCGCACGCAAGCTGTTATATATGCTTTTAAAAATCATTTAGTTGAATAA MIHVLFADDHEMVRIGVTSYLAAQPDIEVVAEAADGGEAVELALTLKPDIILMDLVMKEMDGIEATRLIIEQWPEAKIIIVTSFLDDEKVYPALEAGATSYMLKTSKAEEIAKAIRATFEGQTVLEPEVTGKIMNRMRSPERALHEALTEREREILLLVAQGKTNQEIADQLFISLKTVKVHVSNILSKLEVQDRTQAVIYAFKNHLVE PGPT0014870_534 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 AK015_01869 1038 liaS_2 COG4585 Sensor histidine kinase LiaS ATGAACCTGTTATTACGGCATATCTCTACTGCAGTTTTATATAGTATTATTTTAACAATATTAGTAACAGGAGTAACACTTTTTGCGTTCGTAGATGATTGGAGTACGATTGTTAATAAAAAAATAGAAGACATCTCCTTCTTATTTATTTTATTTGTTATTCCTGTCACTGTTGGTATTATAACTGGGATAGTTGCAGGTATCTATTGGAGACAACGTGTTCACTTTGTGGAAAAGAGAATGGAAGAAATTATTAAAGGACAAAAACTAAGTTTTGATTTGGAAATACCAAAAGGCTTGGAACAAATGCAGCATCATCTTGAGCAAATTCAACATAAATTTAGGATGCAAACAGAGCATGCTCAACGATTAGCAACGGAACGAGCTGTAGAACGAGAACAAAGCTTACAGGAAATTGTTGTTCAAGAGAGAAATAGATTAGCTCGCGAATTGCATGACTCTGTCAGTCAGCAATTATTTGCGGCTTCAATGATGATGTCGACGATTACAGAAACAAATCCGCCTCAGGATGAAACAATGAAAAAACAACTTCGGATGGTAGAGAATATGATTCAACAATCGCAGTTAGAAATGCGAGCACTTCTTTTACATTTACGTCCTGTAGCTTTGAAAGGGAAATCTTTACAAGAAGGGACGAAGGAGTTGTTAATTGAACTCACACAAAAAGTGCCAATGCAAATTGATTGGAATATTGAGGATTTTACCGTTGATAAAGGTGTAGAGGATCAATTGTTTCGGATTATCCAAGAAGCTTTATCAAATACATTACGCCATGCAAAAGCTAATTCTTTGCATGTCATGTTAGTAGAAAGAGATGGAAATATTATTCTGCGAGCAACGGATGATGGGGTTGGGTTTGATATGAAAAAATTAAAAACTGGATCATATGGTTTACAAAATATGAGAGAAAGAGCTTATGAAATAGGTGGCAGCTATAAAATAATTAGTTTTCCTAATCAAGGCACACGCCTAGAAGTAAAAGTTCCTTATTTTAATGAAGGAGGAGAGATGGAGTGA MNLLLRHISTAVLYSIILTILVTGVTLFAFVDDWSTIVNKKIEDISFLFILFVIPVTVGIITGIVAGIYWRQRVHFVEKRMEEIIKGQKLSFDLEIPKGLEQMQHHLEQIQHKFRMQTEHAQRLATERAVEREQSLQEIVVQERNRLARELHDSVSQQLFAASMMMSTITETNPPQDETMKKQLRMVENMIQQSQLEMRALLLHLRPVALKGKSLQEGTKELLIELTQKVPMQIDWNIEDFTVDKGVEDQLFRIIQEALSNTLRHAKANSLHVMLVERDGNIILRATDDGVGFDMKKLKTGSYGLQNMRERAYEIGGSYKIISFPNQGTRLEVKVPYFNEGGEME PGPT0014865_334 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 AK015_01870 735 hypothetical protein ATGTTTCATCGACTATCAACCGATACATTGAATTGGATACTGATTGTTGGTGTCATTCTCTTTGTATTAGAGATGACTTTTTTTGAAGGCGGCATGATTATTCCTGCGCTTTTTTTTGCCTTGCTTATTTATGTGGGAAGAAAAAATCTAAAACGTTTTTGGGGGAAATTATTTTTTTGGGCAGGTTTAATAGGAATTATTTTTTCCATTTTAAATATGCTTGCGATTCGATTTTTTGTTATTGCTACAATAGCAATATTTGTTATTCAATATTCGAAATCAAAAAAGGTAGCGAAATGGGTAAAACCTTATTTAAATACGGAAACGGCGCAGGTGGAACAAGAAGACCTTGTTCGTAAACACCCTTTTTTTGATCACCGCTTTTTTGATGACCAAAGAACAGATGATGTTGCTTATCAATGGAGAGATGTTAACATTCATGGAGCATTCGGTGATCGAGTTATAGATTTAAGCAATACTGTGTTACCAAAGGATACGGCAGTCATCTCTATTCGCCATCTTGTAGGGAATATCGAGATTTATGTGCCGTATGACGTAGAAGTTAGTATTCATCATAGCTCCGTTATTGGACGTGCGCACATTTTTGGAAATTACCATGATCGTATGATGAACCAAACGTTATTATATCAAACGAAAAATTATGATACGTCGTTCCCTCGTGTAAAAATAATTATAGCTATATTCTCTGGAGATGTCGAGGTGAAACGAATATGA MFHRLSTDTLNWILIVGVILFVLEMTFFEGGMIIPALFFALLIYVGRKNLKRFWGKLFFWAGLIGIIFSILNMLAIRFFVIATIAIFVIQYSKSKKVAKWVKPYLNTETAQVEQEDLVRKHPFFDHRFFDDQRTDDVAYQWRDVNIHGAFGDRVIDLSNTVLPKDTAVISIRHLVGNIEIYVPYDVEVSIHHSSVIGRAHIFGNYHDRMMNQTLLYQTKNYDTSFPRVKIIIAIFSGDVEVKRI PGPT0028815_165 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 AK015_01871 633 liaH_1 COG1842 Protein LiaH ATGACTAACATTTTCACAAGAATGAAGGAGTCTGTCGTTAGCGATTTACACCATATGATGGATCAAAAGGAGCAAAAAAACCCCATTGCAGCTTTAAATCATTATTTAAGGCAAAGTGAGCAAGAAAAGGAAAAAGTACGGAAGCTTTTGGAACGCCAGTACAAGCTAAAAGATGAGTTTTTAAAGGAATATCAATTAGCGCAAGATTTAGCAGATAAACGGTTAAAGCAAGCTAATATTGCTGAAAGAGCCGGAGAAACAGAAATGTACGAATTTGCGATTCGCGAACATCAAGAATATCAAGCAAGAGCTGAGCGCATGAAAGCTTCGCGCGATGAGGCAGTTGCTGAACTTGATACATTAGAACAAAAGTACGAAAATATGAAGCATAAGTTAAAGGATATGCATTTACGGCGCATGGAATTAATGGGACGGGAAAATATAGCACGCGCAAATTCTCAAATGAATCGGGTCATTGGTGAAACTGCGGACAAACCATTTTCAAAATTTGCTGAAATGGAACGTTATATTGAAGGGTTAGAATATAAAGTAAATAGTGCTTATTACCGTAGCACATTTGATCAAAAAATTGCTAACCTAGAAAAAGAAATGAATGATAAAGAAGAAGTATAA MTNIFTRMKESVVSDLHHMMDQKEQKNPIAALNHYLRQSEQEKEKVRKLLERQYKLKDEFLKEYQLAQDLADKRLKQANIAERAGETEMYEFAIREHQEYQARAERMKASRDEAVAELDTLEQKYENMKHKLKDMHLRRMELMGRENIARANSQMNRVIGETADKPFSKFAEMERYIEGLEYKVNSAYYRSTFDQKIANLEKEMNDKEEV PGPT0028805_137 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 AK015_01872 354 hypothetical protein GTGAAAAAATTTCTTTTATTTCTAGCAGGGTTAGTAGCCTTCATGGTCCTACTTGCTAACATAGGACCAATGGTATTCTTCGCGCTAGGTATTTGGTTACTGTATGTTATTTTTAAGCAGTTTATGAAAACTGATTCTGTTGCAGGAAAAGTAGGCTGGGTTATTGTAGGGCTCATTGTTTTGAGTATTACCATTTCAAATATGTTTGCGTTAATAGGCGTTGTTGCGATAGTGGCACTCTACATGATTTATAAAAGTTGGAAGAAAGACGACGATGATCCAGTTGTACATCATATAAAAGAAGACGATCCATTTACAAATTTTGAACGTGAATGGGCAGAATTAAATAAGTAA MKKFLLFLAGLVAFMVLLANIGPMVFFALGIWLLYVIFKQFMKTDSVAGKVGWVIVGLIVLSITISNMFALIGVVAIVALYMIYKSWKKDDDDPVVHHIKEDDPFTNFEREWAELNK PGPT0028800_94 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 AK015_01873 609 COG0586 putative membrane protein ATGCAACATTGGGTCACTTCAGTAATGGAAGAGTTAGGTTATATTGGTGTGTTTTTCATGATGGCTTTAGAAAACATATTTCCTCCTATACCTTCAGAAATTGTTTTACCATTTGGAGGATTTCTAACAACAACGACTGATTTATCTGTCGTAGGTGTTATTGTTGCAGCAACAGTTGGATCAGTTCTTGGGGCAGTTATTTTATTTGGAATTGGTCTTTTGCTTGATGTTAAACAATTAGAAAAAATTATTCACAGATATGGCTCTATGCTAAGAATAAAAAAACAAGATATTCAAAGAGCAGATGCTTGGTTTGATAAGTACGGCTATTGGACGGTATTTATTTGTCGAATGGTCCCTTTGGTTAGAAGTTTAATATCCATTCCAGCAGGGATGTCAAACATGAATTTTGTCATGTTTTTATTCCTAACAGTTGCTGGTACATTGTTTTGGAATACTTTATTAATTTTGATCGGTGTTCAGCTCGGTGAATCATGGACCGACATATTATCATTTATGGAATTGTATTCTACAGTTATTTATATTTGTATCGGTGTAGGGATCGGTATTATCCTTTACTTATATATCAAACGGAGAAGGCAGCAATAA MQHWVTSVMEELGYIGVFFMMALENIFPPIPSEIVLPFGGFLTTTTDLSVVGVIVAATVGSVLGAVILFGIGLLLDVKQLEKIIHRYGSMLRIKKQDIQRADAWFDKYGYWTVFICRMVPLVRSLISIPAGMSNMNFVMFLFLTVAGTLFWNTLLILIGVQLGESWTDILSFMELYSTVIYICIGVGIGIILYLYIKRRRQQ PGPT0002570_3590 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B1|THIAMIN_METABOLISM ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0002570-phoA-K01077 NA NA AK015_01874 180 hypothetical protein ATGGTATTAGAAAAAATAAAAAGTGAATATATATTTGGAGATCCATCCCAAGTTCATAGGCGACTCCAAGCATTGCAACTAGCATACCAGGCAGATGAAATGATGATTTTAACGAACACTCCTGATTATGTCAGCAGAAAGACTTCTTACCAATTAATTGCGCAAACCTGTTTAACCTAG MVLEKIKSEYIFGDPSQVHRRLQALQLAYQADEMMILTNTPDYVSRKTSYQLIAQTCLT NA NA NA NA NA AK015_01875 579 hypothetical protein ATGGAAAATTTGCATGATTTCTTTAAACAAATTCAATTAAATAGCCAATTATCATTGGATGATATTCCAGATTTAGATTTATATATGGATCAAGTTATTCAATTATTTGAAAATAAGTTTGACGTGTTAAAGCGAGATGAACAAGAAAAAGTTTTAACGAAAACGATGATTAATAACTATGCGAAAGGGAAACTGTTCTATCCGATTGAAAATAAGAAATACTCTAAGGATCATTTAATGCTAATTGCGATGATTTACCAGCTAAAAGGTGCTCTATCTATTAATGATGTCAAAACAACATTGCATCAACTGAACAAAATGATTACAGAAGAAAATTTTGCCTTAGCAAATTTATATGAAAGTTATGTACAGCTTGCTGAAGATAGTATGCAACAAATGAAATCAGAAACCGAACAATTAATTCATGATGTGGAAGAGCATAGTAAATCTTTACCTAGTCAGAATGCTGATTATTTACAGGAGCTTCTATTAGTTACTTCTCTTGCTAATATGAGTAATTATTATCGTCGAGCAGCAGAAAAGATGGTTGATCGCATTGCTAATAAAATGGATACATAA MENLHDFFKQIQLNSQLSLDDIPDLDLYMDQVIQLFENKFDVLKRDEQEKVLTKTMINNYAKGKLFYPIENKKYSKDHLMLIAMIYQLKGALSINDVKTTLHQLNKMITEENFALANLYESYVQLAEDSMQQMKSETEQLIHDVEEHSKSLPSQNADYLQELLLVTSLANMSNYYRRAAEKMVDRIANKMDT NA NA NA NA NA AK015_01876 648 hypothetical protein ATGGGTGTATATATTCGAGAACCGATTAATGGGCTTACTCATTTATTCGGTGCAATATTGTCGTTTATCGGTCTTTTGGCATTAATTTTTAAAGCAAATGAAACAATTGGTTCCCCGCTTGCCATTACAGCAGTTGTAATTTTCGGTTTAAGTATGACATTGTTATATTCCGCATCAGCAACATACCATATGGTTATTGCAAAAAAACAGGTCATTGCTTTTCTTCGACGTATAGACCATTCCATGATTTATATATTAATAGCTGGGACGTATACACCATTGTGTCTTATCAGTTTAAAAGGTACGTTAGGGTGGACACTTTTTATTATTATTACAACCTTAGCAGTGTTAGGTGTAGTATTTAAATTAGTATGGTTCCATTGCCCAAGGTGGCTATCTACTTTACTCTATATAGGAATGGGCTGGATTGTAGTATTTTTCAGTTCAAATTTAGCGCCTATCATCAATAAAGGTGGAATGGTATTTCTAGTCTTAGGAGGAGTCATCTATACCGTTGGTGGTATCATTTACGCATTAAAGCCAAAAGCACTAAATTTTAAGCATATGGGCTTTCATGAAATTTTCCACCTGTTTATTCTAGCAGGTAGTTTATTCCATTTCATTACTGTATATGTTTATGTCTTATAA MGVYIREPINGLTHLFGAILSFIGLLALIFKANETIGSPLAITAVVIFGLSMTLLYSASATYHMVIAKKQVIAFLRRIDHSMIYILIAGTYTPLCLISLKGTLGWTLFIIITTLAVLGVVFKLVWFHCPRWLSTLLYIGMGWIVVFFSSNLAPIINKGGMVFLVLGGVIYTVGGIIYALKPKALNFKHMGFHEIFHLFILAGSLFHFITVYVYVL NA NA NA NA NA AK015_01877 438 hrp1 COG0517 Hypoxic response protein 1 ATGAATCAGCAAATTCGTAACTATATGACACAAAATGTGTACACAGTAAATGATTCGCAAACTATTCAAGAAGCTGCAGCATTAATGAGTGAACATAATATTGGCGCCATACCTGTTGTAGATGCACAAGGGAATTTGGTAGGTATGTTGACAGATCGCGATATTACATTACGGTCTACGGCGCAAGGGGAAGCAGCACAAACCCCAGTTTCCCAAGTGATGACAGCACAAAAAATTGTTCATGGTACTCCAGAAATGGATATTCATGAAGCAGCTGAGCTAATGGCACAACAACAAATTAGACGTTTACCCGTTGTGGAAAATGGCAAAATTATTGGCATGGTTGCTTTAGGGGATTTAGCTGTAGATCATCAGCTACAGAATGAGGCAGGAGAAGCTTTGTCCAGTATTTCGAATCCTTCAAGTCCGCAGCAATAA MNQQIRNYMTQNVYTVNDSQTIQEAAALMSEHNIGAIPVVDAQGNLVGMLTDRDITLRSTAQGEAAQTPVSQVMTAQKIVHGTPEMDIHEAAELMAQQQIRRLPVVENGKIIGMVALGDLAVDHQLQNEAGEALSSISNPSSPQQ NA NA NA NA NA AK015_01878 258 hypothetical protein ATGCTTTTGCTTATTCGGCTTATTTTTTTAGAAAAACTTGGCTTTTCGCCATGTCTTATGGGAGAAACTGTAGTTTTTATACTTTTTTACTTTCCTTTAGTAGAAAAAATCCCTCCGTCTATTTTTAAAGAGGGAGAGATTATTTATAAGAACTACTTTTTAAAAAAAGAAGATAGGAGCGGGCTTACTTGGCCATATAATTTGTTTACCTGCGACGCTACTTCTGTCACTTTATTAAAATCAACTTGCCCTTCCTGA MLLLIRLIFLEKLGFSPCLMGETVVFILFYFPLVEKIPPSIFKEGEIIYKNYFLKKEDRSGLTWPYNLFTCDATSVTLLKSTCPS NA NA NA NA NA AK015_01879 246 hypothetical protein TTGTTTCCTGAAAGGCGAGGAAAACAGCTACGACAAGATCGACCTAGACATGCACCTAATTGGATTGGAAAGCCTGCTCAGCCACGCAAACAGGACCAAACTTCTTCTGGTGTGATGAAACTATTAACTAACTTTCGTAATCAGGAAGGGCAAGTTGATTTTAATAAAGTGACAGAAGTAGCGTCGCAGGTAAACAAATTATATGGCCAAGTAAGCCCGCTCCTATCTTCTTTTTTTAAAAAGTAG MFPERRGKQLRQDRPRHAPNWIGKPAQPRKQDQTSSGVMKLLTNFRNQEGQVDFNKVTEVASQVNKLYGQVSPLLSSFFKK NA NA NA NA NA AK015_01880 1179 gerAC Spore germination protein A3 GTGAAAAAAATGCCCATTTTTGTCCTTTGTATGATTGTATTCCTGCTTTTAACGGGGTGTTGGGACCGAACGGAGATTGAAGATCAGGGGTTCGTTGTGGGTTCAGCGATTGATCTTGAGGAAGAAAATGGTAACGATAATTCTTTTAAGATAAAGCTTACAAATCAAATTGTACTTCCCGGTGGCTTGGGAACACCATTGCAAGGTGGAGGTAGGCAACAAGAGGCTTATCATAATATAACAATAACAGGAAGTAGTATTTTTGAAATTATTAGAGAAATGGCTACTTCTGCGAATGAGCGGCTTTTTTTTCAACATATGAAAGTTGTTGTTGTATCGGATCAAGTTGCGAAAAAACCCCAATTATTTTCCAAGGTCATGGATGTGTATATACGTGACCATGAAATGCGAAGAGGAATGACCGTATTAATTGCCAAAGAAGGAACGGAAGCAAAAGAAATTCTAGATGTACTCCCACCTGGAGAAAAAGTTCCTGCACTTTATATTGATTCATTATTGGAGAATAGCTATAAAACAGCAAGTTCCTTAGAGCCTCTTCAAGTTGGCCAATTGCAGGAACGGATGTTAACGAAGCGGAGTTACACCATTCCTGAAATTCAAGTGGGAGATAACCAAACGTTAAAATATAAAAACGCCGCTGTTTTTCAAGCTCCTGAACATAGAATGGTTGCTTCTTTATCAGGAGAAGAGACGAGGGGATTAGCATTTTTAACAGAGCATGATCAAACAAGTCCGGTTATGGTTAATGTCGATGACGAAGACGTTGTGATTGAATTAGTAGATATAAATCACACATACGATGTTTTAAGTGATGATAAAGATAATCTAGCTTTTGAGATTTCCTTGAATATAGAGGGGAGTATAACAGAAATGCTTGGAGAATCTAAAGTGCTTAAAGCTTCATTTTTTAAAAAATTGGAAAATGAAACTGAAAAAAAGGTGAAAGAAATTACAGAAAAAACGATAAAAGTAGTACAGGATGATTTACAAGTAGATGTTATCCAAATAGGTGATACACTTTTTCAACGTCACTATGACCTATGGCAAAAAGTAAAAGACAATTGGGATCAAGGAGAAAACTATTTCTCCAAAGCAGATATTCATGTAACGGTAGATGTAAATATTAGTAAAACAGGAGCTTCGGATAACTTTAAATAA MKKMPIFVLCMIVFLLLTGCWDRTEIEDQGFVVGSAIDLEEENGNDNSFKIKLTNQIVLPGGLGTPLQGGGRQQEAYHNITITGSSIFEIIREMATSANERLFFQHMKVVVVSDQVAKKPQLFSKVMDVYIRDHEMRRGMTVLIAKEGTEAKEILDVLPPGEKVPALYIDSLLENSYKTASSLEPLQVGQLQERMLTKRSYTIPEIQVGDNQTLKYKNAAVFQAPEHRMVASLSGEETRGLAFLTEHDQTSPVMVNVDDEDVVIELVDINHTYDVLSDDKDNLAFEISLNIEGSITEMLGESKVLKASFFKKLENETEKKVKEITEKTIKVVQDDLQVDVIQIGDTLFQRHYDLWQKVKDNWDQGENYFSKADIHVTVDVNISKTGASDNFK PGPT0025125_130 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025125-yndF-K06312 NA NA AK015_01881 825 graR_2 COG0745 Response regulator protein GraR ATGAATAAGATACAAAATTTAAGATATGGAATTCAAGGTAAAACATATATAAAACATCATGCATTATTGGAGTTACTTTTAAAATTTTTTCATACATGCTATATTTTTTATAGTTTACTTATACAAAACAAAGATGAGCGTGATGAGAAAATGAATCGTTTCAAAATTTTAATCATAGAAGACGAACCGATAATTCGCGACGAGTTAAGAGATCATTTACAGAATGCAGGATATAAGACGGATGTAGTAACTGAGTTTCAAGATATTTTGTCTTATGTTCGAAAATCAAGCCCTGATCTTATTCTTCTAGACATTAATTTACCTTATATTGATGGTTACACACTTAGTCGTGAGATTCGCAAAGAATCAAATGTCCCGATTATCATCGTGACAAGTAGGGATAATGAAATGGATGAGTTATTGAGCATAAACCTTGGAGCTGATGATTTTATAACGAAACCTTATAACTTACAAATATTAACTGCAAGAATAGAAGCTTTATTCAAAAGGACATACGTTAATCAATCTAATAATGTACTTTCTTGTGGAGAGTTAATATTAGATATAGCAAAAGGTGCTGTTTATTACCATGATAAGCAACAAATACTTACTAAAAATGAGTTGAAAATTCTTCACTATTTAATGCAGCATAGAGGAACAATCATTTCAAGAGAAACAATGATGGAATATCTCTGGTCTTCCGATCTATTCGTTGATGATAACACGCTTTCTGTTAACATGACACGTTTGCGCAGAAAACTAGAGAAATTGGGTATAACTAATCCTATTGAAACTCGTAGAGGACTAGGGTACGTGATGTCATGA MNKIQNLRYGIQGKTYIKHHALLELLLKFFHTCYIFYSLLIQNKDERDEKMNRFKILIIEDEPIIRDELRDHLQNAGYKTDVVTEFQDILSYVRKSSPDLILLDINLPYIDGYTLSREIRKESNVPIIIVTSRDNEMDELLSINLGADDFITKPYNLQILTARIEALFKRTYVNQSNNVLSCGELILDIAKGAVYYHDKQQILTKNELKILHYLMQHRGTIISRETMMEYLWSSDLFVDDNTLSVNMTRLRRKLEKLGITNPIETRRGLGYVMS PGPT0010220_126 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010220-braR|bceR-K19082 NA NA AK015_01882 1011 graS_2 Sensor histidine kinase GraS ATGAATATCTTAAGTTTTTCCCATGAAAAATTACCATTTTTATTGATAAATGTTGTATTGTTTGGTTTGTTTAGTATCATTCTTTGGAAGATCCATATATCTTTTGAAATGATTTTAATAGTTGGATTAGCTTGGTTCGCCCCTTTAATTATTGCCTATCTTTTAGAGTATGGAAAAAAGCGAAGATATTATCAACATTTGATTGATTATCAGGAGTCGCTTGATAAAAAATATTTACTTCCAGAAATATTGGAACGACCCACTTTTTTAGAAGGAACAATTGTACAGGATGCTATAGAAATCGCCTATAAGCAGATGCATGAACATATCAATATATACAAACGGGAGCAAAAAGATTATCAAGAATATATTGAAACATGGGTTCATGAAATTAAAACGCCTCTCTCCTCAGCAAAATTAATTTTGAACAACCGTGATATAGATTATGGAGTATTACAAGAATTAGACAGGACAGAACAATTCATAGAGCAAGTACTTTATTTCGCAAGAAGTAACAATGTCTCAGAGGATTATCTTATTAGCAAATTCTCACTTAGAGAAGTTGTTACTAGAGTAGCAAAAAAAAATGCCAAAGATTTCATTTACAAAAAGATCAAATTAGATCTTGGGGAACTCAATGAAATGGTCTATAGTGATAAGAAGTGGGTGGAATTTATTTTAAATCAGATTGTAGTCAATGCTATCCAATACAGTAAAAAGGCTAGTAGCGAAATACAAATAACTTCAACTCCTTATGATAACAAGGTCGTGTTACAAATTAAAGATAATGGAATTGGAATTAAAAAGAAAGATCTACCAAGAGTTTTTGACAAAGGTTTTACAGGAGAAACTGGTAGGACATATAGTAAGTCAACTGGAATAGGGTTATATTTATGCAAACGGTTGGCTGATAAGCTAAATCTAGGAATAAGTATAGAATCAAAACAAAATATTCATACAACTGTTTTTCTTGTTTTCCCAATGAATAAATCACTTTTAATGGAACCGTAA MNILSFSHEKLPFLLINVVLFGLFSIILWKIHISFEMILIVGLAWFAPLIIAYLLEYGKKRRYYQHLIDYQESLDKKYLLPEILERPTFLEGTIVQDAIEIAYKQMHEHINIYKREQKDYQEYIETWVHEIKTPLSSAKLILNNRDIDYGVLQELDRTEQFIEQVLYFARSNNVSEDYLISKFSLREVVTRVAKKNAKDFIYKKIKLDLGELNEMVYSDKKWVEFILNQIVVNAIQYSKKASSEIQITSTPYDNKVVLQIKDNGIGIKKKDLPRVFDKGFTGETGRTYSKSTGIGLYLCKRLADKLNLGISIESKQNIHTTVFLVFPMNKSLLMEP NA NA NA NA NA AK015_01883 771 yxdL_3 COG1136 ABC transporter ATP-binding protein YxdL ATGCAAAAAAATATACTACAGGTCGACCATATAGAAAAATATTTTGGAAATAAGGGAAATATAACAAAGGCCCTTAATGACATTTCCTTTAAGGTAGATAAGGGAGAATTCGTGGGAATAATGGGACCGTCCGGAAGTGGTAAAACAACGTTACTTAACTGCATCTCAACTATTGATACAGTTACAACTGGTCATATCACCATCAACGGAAAAGATATTACTACCTTAAAGAGGAAGAATCTTGAAAAATTCCGTCGTGATGAACTAGGATTTATTTTTCAAGATTTTAATCTATTGGATACACTTACTGCTTACGAAAACATTGCCCTAGCATTATCTATACAAGGAGAAAAGCCATCTAAAATTCAATCTAATTTACAAGAGATCGCAGAAAAATTGGAAATAAGTTCTGTCTTAGATAAATTTCCTTATGAAATGTCAGGTGGGCAAGAACAACGTGTTGCCTCTGCTCGTGCTATTGTTGCCAATCCTTCCCTAGTATTAGCAGATGAGCCCACAGGGGCACTTGACTCCAAGTCTTCTAGATTATTATTAGAATCATTTGAAAAACTGAACCAAGAACTTTCAACTACAATTTTAATGGTTACGCATGATGCTTTTACTGCTAGTTACTCTAATCGAATTCTGTTTATCAAAGACGGAAAAATTTTCAATGAACTTATAAAGGGAAATGATTCAAGAAAAGCATTCTTTAATCGTATCATGGAAGTCATAACCCTTCTAGGAGGCGATGCAGATGATGTACTCTAA MQKNILQVDHIEKYFGNKGNITKALNDISFKVDKGEFVGIMGPSGSGKTTLLNCISTIDTVTTGHITINGKDITTLKRKNLEKFRRDELGFIFQDFNLLDTLTAYENIALALSIQGEKPSKIQSNLQEIAEKLEISSVLDKFPYEMSGGQEQRVASARAIVANPSLVLADEPTGALDSKSSRLLLESFEKLNQELSTTILMVTHDAFTASYSNRILFIKDGKIFNELIKGNDSRKAFFNRIMEVITLLGGDADDVL PGPT0013345_2776 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK015_01884 1989 bceB_2 COG0577 Bacitracin export permease protein BceB ATGATGTACTCTAAATTATCCTTACGAAACGTTAAACGGAGCTTTAAAGACTATGCTATTTACTTTTTAACCATTACATTCGCTGTTAGCCTTTTTTATAGTTTTAATTCTTTGGCCGCACAACAGGCAATGTTAGAACTATCTAATAGCCAAGAAGATATGGTACAAGATTTAATATATACCATTGGAATTATTTCTATTTTCATTTCCACCGTACTAGCGTTTCTAATTATTTTTGCGAACAGTTTTTTAGTCAAACGTCGTAAAAAAGAATTAGGAATGTATATGACGCTTGGGATGAGTAAGTTCAACATTTCCAAAATCCTTGTAATGGAAACCTTCTTTATTGGGCTGATTTCTTTACTAGTTGGTCTAGGATTAGGAACCATTTTATCACAAGGGTTGTCCTTATTAACCGCCGCACTTTTTCAAGTAGACATACAAGAGTATACTTTTGTATTTTCTACAACAGCAATGTTAAAAACTATTCTGTATTTTGGGATTATCTTTCTAATAGTTATGCTTTTCAATGTAATCATGATAAATCGTTACAAGCTGATCGATCTTTTTATAGCAAATAAAAAAAATCAGCAAGTAAAACTGAAACGAACATCCACTGCTATAGGTGTTTTTGTATTATCTTTACTTTTGATTGGCAGTGCATACTTCCTTATGTTGAAATATGGTTTATTTAAGAGCATGAATTTACTCTGGACCAGTGTTGGTCTAGGATCAATCGGTACATTTCTTTTCTTCTTTTCATTATCAGGATTCTTACTGAATATAGCGAAAAAAAACGAGAAATTATATTACAAGAACATCAATATATTTCTATTAAGACAAATAAATAGTAAAGTGAACTCTACGTTCATTTCAATGACCATTATTTGTTTAATGTTATTCTTTACAATAGGAGTACTCTCGACAGGATTTAGTTTGAAAAATAGTTTTGAAAAAGATCTAACGGTAACTACTCCTTACGATTCCACGCTCTCTTTCTTTAAATATGAGGAAAGTGATGAAAATCTTGAAAAGAAACTTAGGGAATTAAATGTTAGGCGATACGGGGACAACATTACATTTAAAGAATACTATTCAGATGAATCAATCTCCTCGTTTCTAAAGAAATTTACAGACGAAGAAGCAAAGTCTGTTTTAGAAGGCAAGGCATCTGCTCCGTTAACATTAATAAAACGCTCTTCTTATGAAGGCTTAGCTCAATTACAGGGAAAAGACTCTGTCAACTTGGAACAAAACGAAGTACTCATTCTAACCAACCAAAAAGATATGAAAAAAACGATGAAGCGATTTGTAGATAACAATAAAAGTATTAAAATAAATCAAAAAGAATATCGACTATCAGGATTTCAATTCATGTCTGTTAGAACAGGTACGTCAGCTAATGACACCATGATTGCAGTATTGCCAGATCAAGCAGTGTCAGAAATGGAACCATCCAGAATTTCGTTAAATATACAGTATGAGGGAGATGTAAATAAGGCAGACCAAGAGCTGTATAATTTAACCAAAACGTATAACAAAAACGCTGATAAAAACACGTATTTATTGGGGACGACCAAAACTTTAGTATATGAAGATGCTACAGGTAACTCTACCGTGATAGTGTATATAGGGATATACTTAGGAATCATATTTCTAATTTCTAGTGCCGCAATCCTAGCATTACAACAACTTTCTGAGGCTAGCGATAATAAGGCACGGTATGACCTGCTAAAAAAGATAGGCGTAACACAAAAGGAAGTAAATCAATCCATTTTCAAACAAATATTCATTTATTTCATGATGCCACTTTCTCTAGCTATCATTCACTCAATTTTTGGTATAAAGGTAGTGAATAAAGCCATTGTATCTGCTGGACAATCAAATGTGCTTTTCCCTTCTCTTCTTACAGCTGGAGTTATTATAGTAGTGTATGGAGGATACTTTTTAGCAACATATTCTGGGTATAAATCAATTCTAAAGAAATAA MMYSKLSLRNVKRSFKDYAIYFLTITFAVSLFYSFNSLAAQQAMLELSNSQEDMVQDLIYTIGIISIFISTVLAFLIIFANSFLVKRRKKELGMYMTLGMSKFNISKILVMETFFIGLISLLVGLGLGTILSQGLSLLTAALFQVDIQEYTFVFSTTAMLKTILYFGIIFLIVMLFNVIMINRYKLIDLFIANKKNQQVKLKRTSTAIGVFVLSLLLIGSAYFLMLKYGLFKSMNLLWTSVGLGSIGTFLFFFSLSGFLLNIAKKNEKLYYKNINIFLLRQINSKVNSTFISMTIICLMLFFTIGVLSTGFSLKNSFEKDLTVTTPYDSTLSFFKYEESDENLEKKLRELNVRRYGDNITFKEYYSDESISSFLKKFTDEEAKSVLEGKASAPLTLIKRSSYEGLAQLQGKDSVNLEQNEVLILTNQKDMKKTMKRFVDNNKSIKINQKEYRLSGFQFMSVRTGTSANDTMIAVLPDQAVSEMEPSRISLNIQYEGDVNKADQELYNLTKTYNKNADKNTYLLGTTKTLVYEDATGNSTVIVYIGIYLGIIFLISSAAILALQQLSEASDNKARYDLLKKIGVTQKEVNQSIFKQIFIYFMMPLSLAIIHSIFGIKVVNKAIVSAGQSNVLFPSLLTAGVIIVVYGGYFLATYSGYKSILKK PGPT0013350_10294 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK015_01885 150 hypothetical protein GTGGCACTCCTTATTGTGCCAATTGCGCAGAAAGAAGCAAAAAATACACTCATTCCTCTCTCTTTTGATAACCTTGAGTTGCTGACAAAAAAAGGTAAAGGAGAGGGAAAGAGTGCAATATTATCTTATCATAGAATTTATTGGGGATAA MALLIVPIAQKEAKNTLIPLSFDNLELLTKKGKGEGKSAILSYHRIYWG NA NA NA NA NA AK015_01886 171 hypothetical protein ATGCACTGTGGAGTGTGCAATAAAAAATTCAATCAAAATGACCACGTTTATATGGATGACGCACATACGGTTACGCACTATTACTGTTTTAAAAATAAATCAGTAATTATTGCTGTGGGAAGCTTTAAGGAGATTGTTGATAAGTTTGATTTTTTTAAGCAATTGCGCTGA MHCGVCNKKFNQNDHVYMDDAHTVTHYYCFKNKSVIIAVGSFKEIVDKFDFFKQLR NA NA NA NA NA AK015_01887 246 hypothetical protein ATGAATAATAATAAAAACAGGCGATTAATTAATTTAGCGGAAGTCTTTAAAATTTTTGCTTTTATATATTTAATATATGCAATAATCAATACTATAAATAGAAATTTTGTTATAAATATTAATTCTGAACTGCATATATTCAATCTTCGTTGGATTAGTTTTTTAAATGATGTAGCTAACGGCGGATTTAAAGTATTAGTTTTGTTTGGAATTAGTGCAATACTACGTAGACTTATTGAAGATTGA MNNNKNRRLINLAEVFKIFAFIYLIYAIINTINRNFVININSELHIFNLRWISFLNDVANGGFKVLVLFGISAILRRLIED NA NA NA NA NA AK015_01888 258 hypothetical protein ATGAATAATAACAAAAGCAAGCGATTAATAAATGTAGCGAATGTCTTTAAAATGTTCGCTTTTATATATTTAATATATTCGATTGGTGATATCGCATATAGGTATATTGCCCTTATGCATGCTAATCCTCATCTAAACGTAAATCAAATATTCAATTGGAATAGTTTTTTAAGTCAAGTAGCTAATCGCGGTTTCAGGGTATTGGTTTTGTTCGGGATTGGCGCAATACTACGTGAACTTAAAGCCCCATCCATCTAA MNNNKSKRLINVANVFKMFAFIYLIYSIGDIAYRYIALMHANPHLNVNQIFNWNSFLSQVANRGFRVLVLFGIGAILRELKAPSI NA NA NA NA NA AK015_01889 315 hypothetical protein ATGGTTAATGATCGAGGTACAATAAAATGGACATCTATCATGATGCCTGAACATATTGAAATGCTTCAAGAGATGTGGAAAGAACAGGATTATAAAGAGAAGCCGATTTTGGATGAACAACAAAAAGAAGAAATAAACACAAAATTACTGATGGCTTTAGCCAATGATTTAACTGTCGAATTAAAGTATTTTGATAAGCATGATTTTTATAAAGTAAAAGGTAAGATCACAAGTAATAATAAACAAAATAAATACATAAGCATTGCTGGTCAACGTTTGCCATTTGAGTGCATTATGGATGTTTGGATAAAATAA MVNDRGTIKWTSIMMPEHIEMLQEMWKEQDYKEKPILDEQQKEEINTKLLMALANDLTVELKYFDKHDFYKVKGKITSNNKQNKYISIAGQRLPFECIMDVWIK NA NA NA NA NA AK015_01890 216 hypothetical protein ATGTTAAGATTATTCAAAAATTCATTAGATAACAAGCAAAAGATCTTCATCTTCTATATGGATAACAATAACCAAGTAACTGAGCGCTACGTACGTGTATTAGAGATAAAAGAAAATAGTATTTTAGCCTATTGCTTTTATCGTAAACAAGTGCGAACATTTAACATTGAAAATATTTTATCTGCTGGAAAAGTAAGAAAGAAGGTTGTTTCATAA MLRLFKNSLDNKQKIFIFYMDNNNQVTERYVRVLEIKENSILAYCFYRKQVRTFNIENILSAGKVRKKVVS NA NA NA NA NA AK015_01891 210 hypothetical protein GTGGAAAGAAAAATATCTGGACATTTGGTTGGCTTTGGATCTGTTAAAGATATGGAAAGATTGGAGCAATACTACGACGACGGTTTTACTGATGCTGGAATGACTGAGATTAGGGATAGTAATATGTTTAGTGTTGCTGAGTGTGATGAGTTATGTGAGGAACTGTCTGGAGAGGTTACTGTGAGGAATAAGAAAAAGCCCTCGGGGTGA MERKISGHLVGFGSVKDMERLEQYYDDGFTDAGMTEIRDSNMFSVAECDELCEELSGEVTVRNKKKPSG NA NA NA NA NA AK015_01892 1368 hypothetical protein TTGAAGAAACGTTTTTTATTAATTATCTCATTTGTAGTTTTTGGAATCTTATTTTTTTCTGCACCAGAGGTAGATGCATCGACTGAACATCTCAAGATTCCACATCGATTTAATGCTTATGAATCGCCGTCATTTCTTTCAAAAAAAGTTAGTAGCTTTGGACCACAAACTGTTACAGTGTATGAAAAGAAAGATGATTATTGGTACTTAATCAAAACAAAATTCGGGAAAAAATGGACTTATTATAATCCAAAATTAAAAGATAGAAAGATCAAGACTAGATTTATAGGGTATGAAAAACCGTCTTTTGAGTCAAACAGGGTTACTGGTTTTAAGCCAACAACCGTTAAAGTGATAGGGAAATATAGTAAACATTGGTATTTAATTGAATCAACTAACTATGGAAATGTGTGGGTCTACCATGATCCAAACTGGAAAATAACTAAAAAAGATAGATTCTACACATTTAATAGTGCTTCATTTAATGACAAGATGGTTTCAAGTTTTGCTCCACAGACGGTAAATGTTATTGGTAAACGTGGAGATCATTGGTACGCTATTCATACTCAAAAGTTTGGAGAAGTATGGATGTATCATGATCCAAATTGGAAGAAAAGTTTTAAAAACAGGTTTCAAACCTTTGACAAGCCGAACTTCTATTCAAAACGAGTAACTAGTTTCGCGCCGCAAACAGTAAAAGTGGTTAATAGGGTAGGAGATTGGTATCAAATTAATACATCTAAATTTGGAAAGGTGTGGGTGTACGGTAAATTGAATTGGACATACAAAATGAAGAATAGATTAACTGGATATAAATCATATTCATTCAACTCCAAAAAAGTTTCTAGCTTCGCACCTCAAACAGTAAATGTTTTAAACAGAGTAGGAGATTGGTATCAAATAAAGACAGGGAAATTTGGTAACTTATGGATTAACCCCAAAGAAGTTGATTTAAAACCGGATTGGACAATTCCGTTAAATAGCAAAAGTTATGTTGTTACTTCAAAATACGGTCATAGATCAAGTGGCTTTCATCATGGTATAGATTTAGCTCAAAATGGTACTGTGAAAGTATTAGCTGCAGCTGATGGTACAGTGTCTCGGTCATATAGGTCATCAAGTTACGGTGAAGTTGTTTTTATTAGGCATAGTGTAGGAGGGAAAACTTATGAGACTGTTTATGCACATATGAGAAGTGGGTCTAGAAAGGTTTCAGTAGGAACTAAAGTAAGGCAAGGTCAAGTTATTGGTTATATGGGGAGTACAGGATATAGTACTGGACAGCATTTACATTTTGAAGTTCATCAACCTCGATGGAATGGTTCTAAAAGCTATTCTATAAATCCTGAGAAATTTATTGACTTTTAG MKKRFLLIISFVVFGILFFSAPEVDASTEHLKIPHRFNAYESPSFLSKKVSSFGPQTVTVYEKKDDYWYLIKTKFGKKWTYYNPKLKDRKIKTRFIGYEKPSFESNRVTGFKPTTVKVIGKYSKHWYLIESTNYGNVWVYHDPNWKITKKDRFYTFNSASFNDKMVSSFAPQTVNVIGKRGDHWYAIHTQKFGEVWMYHDPNWKKSFKNRFQTFDKPNFYSKRVTSFAPQTVKVVNRVGDWYQINTSKFGKVWVYGKLNWTYKMKNRLTGYKSYSFNSKKVSSFAPQTVNVLNRVGDWYQIKTGKFGNLWINPKEVDLKPDWTIPLNSKSYVVTSKYGHRSSGFHHGIDLAQNGTVKVLAAADGTVSRSYRSSSYGEVVFIRHSVGGKTYETVYAHMRSGSRKVSVGTKVRQGQVIGYMGSTGYSTGQHLHFEVHQPRWNGSKSYSINPEKFIDF NA NA NA NA NA AK015_01893 1227 hypothetical protein ATGGCAAAAGTAGTAGCAATAGACATTGGACATGGATCTGATACGTTTCCTCCTAGCAAGGGAGTTTATAAAAACGGGAAGGGTTATGCAGAGCATGATTTTAACTCCAAGGTTGGGGTTGAGTTAGACAAGTTGCTGAAGCACAACGGATTTAAGACTGTGATGTATCAAAAGCCTGTTAGCCCTGATGTAGGATTAACAGCACGAACCAATTACTATAACGCAAAAGGTGTTGATCTAGTTTACTCTTTACATGCTAATTACAACGGAAACCTCGATGTTAACGGGCGTTGTGTGTTTTATTGGCATACAGCAAATGATGCTAAAGAGTTAGCTGATATTATTGTGGACGAGATTAAAAAGGTTGGTTATTCTACGCACGGCAACGGCTTACATGCATCTAAACCTAATAGCTGGACAAATCTGCACATCTGTAGAGAAACGAATATGACAGCCGTGTTATCCGAGAATGGCTTTATGTCTGGTGACAAGGACTTTGAATTGATTTTCGGTAGTAAGCAAAAGCAATATGTAAAAGATATGGCAAGAGTACATGCTAAGGCTATTTGTCGTTATTATGGGGTTAAATTTAAGGATTTGGATGGAATGACTGTTGCTGATAAACCATCTAAGCCTAGTAACCCAAAACCAAGTAAAGGATCATATAATGGCGATTCCATTGTTGACTATCTTAACCATAAAAAGATGGATTCTAGCTTTAGCCGCCGTGCTAAATTAGCCAAACAATACGGTATTAAAGGATATAAAGGAACTGCAGAACAAAATACTGAGTTACTAAATAAACTTAAAAAAGGCAAGCCTGTATCCAAACCATCTAAATCCATAAAAGTTGGTAGCAAGGTGTACCTAAGCAAATCAGCATCTAAATACGCTACTGGTGAAAATATACCGTCTAGCATTAAGGGTAAATCCTACACTGTACAACAGGTGAAAGGAAATAAAGTGCTGCTCAAAGAAATTTATTCATGGGCTTACAAATCAGATGTAGGTGGATCTAGTAAATTTATCGCATCCAGCAAGCCAAAATCAAAATCATTTAAACCAGGACAAAAAGTAACTGTTAAAAAATCCGCAAGCAAATTTGCGACCGGAGAGTCGATTGCTGACTTTGTTAATGGTAAATCCTACACGGTTAAACAGGTTAAATCAGATCGGGTGCTACTCGATGGTATTATGTCTTGGGTTTGTAAGAAAGACGTGTATTAA MAKVVAIDIGHGSDTFPPSKGVYKNGKGYAEHDFNSKVGVELDKLLKHNGFKTVMYQKPVSPDVGLTARTNYYNAKGVDLVYSLHANYNGNLDVNGRCVFYWHTANDAKELADIIVDEIKKVGYSTHGNGLHASKPNSWTNLHICRETNMTAVLSENGFMSGDKDFELIFGSKQKQYVKDMARVHAKAICRYYGVKFKDLDGMTVADKPSKPSNPKPSKGSYNGDSIVDYLNHKKMDSSFSRRAKLAKQYGIKGYKGTAEQNTELLNKLKKGKPVSKPSKSIKVGSKVYLSKSASKYATGENIPSSIKGKSYTVQQVKGNKVLLKEIYSWAYKSDVGGSSKFIASSKPKSKSFKPGQKVTVKKSASKFATGESIADFVNGKSYTVKQVKSDRVLLDGIMSWVCKKDVY PGPT0024160_2989 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_01894 654 hypothetical protein ATGGCGACATTTATTTATCCAACAGATACTAGAAGAGTAACCAGTGGTTTTCGAGGAAGTAGACCGAATCATAATGGGGTAGACTTTGCTGAAGGTGGATATAATCGTATTTATGCTACAGCTAGTGGTGTGGTTACTCGTTCGTATCGTTCATCAAGCTATGGCGAGTGCATATTCATTTTGCATACAATCAATGGCCAGAGTTGGGAAACTGTTTATGCACATATGCGTGAAGGATCTCGAAGAGTAAGTAGCGGCGATAGAGTAGCACAAGGACAAACAATAGGAGTGATGGGGAATACGGGCGATTCCACTGGGCAACATTTGCATTTTGAGTTACATCGTGGTCGGTGGAATATGAGTAAGAGCAATGCTGTAGATCCACTAAATTATGTACGTGAGGGAGATGAGGAAGTGAAATATCGTTTAAAAACAGGTAAATTTGATTTTGCAGAGGACATGGTGAAAGCTAAAGCTGATATTAAGGAGAAGCATAACTTGGTTCTTTATGAAGTTCCTGAAAGCCTTGAATGGAATCCTGGTTATCGCATTATTACAGGTGCAGCTTTTGAAAGTATGAAAGAGGCGGAAAAAGCTAAATCAGAATTAAGAAGTATTATACCAAATTATGCTGTCTACGTTATTGAAGCGTAG MATFIYPTDTRRVTSGFRGSRPNHNGVDFAEGGYNRIYATASGVVTRSYRSSSYGECIFILHTINGQSWETVYAHMREGSRRVSSGDRVAQGQTIGVMGNTGDSTGQHLHFELHRGRWNMSKSNAVDPLNYVREGDEEVKYRLKTGKFDFAEDMVKAKADIKEKHNLVLYEVPESLEWNPGYRIITGAAFESMKEAEKAKSELRSIIPNYAVYVIEA NA NA NA NA NA AK015_01895 267 hypothetical protein ATGAAAATTAATTGGAAAGTAAGGTTTAAAAAGAAGTCTTTTTGGTTGGCCTTGGTTCCAGCAATTGTATTACTAATTCAGATAGTTACTAATTGGTTTGGGTATGATTTGGCATTCAACGTACTTAATGAAGAAGCTGCAAAATTTATTAATGCTGTTTTTGCAGTACTTGTAATTTTAGGAATTGTCAATGATCCAACAACTAGCGGAATTAGTGACTCTAGACAAGTTTTAAAATATAAAAAACCAAGAAAGGATGTTAAGTAA MKINWKVRFKKKSFWLALVPAIVLLIQIVTNWFGYDLAFNVLNEEAAKFINAVFAVLVILGIVNDPTTSGISDSRQVLKYKKPRKDVK NA NA NA NA NA AK015_01896 282 hypothetical protein ATGAGTGAAAAACAACAATGGTATAATAACCAACAATTATTTGAGCAGATAAATGCTATGAGTAAAGATTTTGTGGGTTTGCGTCATGAAATGCGAGAAACTCGCAGCATGATTAAAAAATATAACGGATTACGAGAAAAAATAGATGTGGTAGAAGGCAAAGTCAAAAAAATAGAAGCTATAACAGAAGGCAAGAAATCATTTGCAGAAGCTATTCGCCTATGGGGTGGATGGCTTTTTGCTTTGATTACGTTAGCAGTATTACTTACTGATAAATTTTAA MSEKQQWYNNQQLFEQINAMSKDFVGLRHEMRETRSMIKKYNGLREKIDVVEGKVKKIEAITEGKKSFAEAIRLWGGWLFALITLAVLLTDKF NA NA NA NA NA AK015_01897 1611 hypothetical protein ATGAAAACTATAAAAAACAATGATATTCAAAATAAAGAGTTAAATAGTAATATGAATCGAATGATGTCTCAATTAGATGCAAAGGCGGCGAGTATAGACAATTATTTTATCGCAACTGAACAAGATAATATTAAAGGTAATGGATCTTTTGATGATACAGAAGGAATTCAACAACTTCTAGATGTGGCTGCATCAAATAATGGGGTGAGAATTGTCTTTCCAGCTGGGACTTATATTCTGACACAAGAACTTCGTTTGACTGAAGGAACTTATCTGGAATGTGACCCTAATGCCAAATTTTTAAAGTCACACAATGGACCAATGCTTTTAAACTTAAGGCCTGAAGATAAAATGGAAAGATACAGCGGTAATGGGAACATCACAATTGATGGTGGTATTTGGGATAGTAATTATCCTGCGTTTGGAGGAGGCACTTCTCATGTTTTCGGTCACGGAGACGGCATTCGTATTATGAATTTAACTATACGTAATGTTGGTGGAGGTCACGGTATAGAATTCAATGCTTGTAGGAACATTTTGGTTCAAAATTGTAATTTCAATGGTTTTGATAACTATGGTGGTGAAAAAAGTTATTCAGAAGCTATACAACTTGACCTTGATAAAGGAGATGGGGTTTTCCCTTGGGGTGGTAATTCAGGGGATAATACGCCATGCCAAGATGTTTATATTGTCAATAATCGCTTTACTTCTTCAGCTGAACTCGGTCCTTGGGGGCGCGCAGTTGGATCACATTCAGCAACTGCAGATAGATGGCATGAAAGGGTTGTGATTGTTAACAACATTGTTTTAGGTTGTCATACTTGGGCTTTTAGAACTTACTCATGGAGAGACGTGATTATTTCAAATAATAAGATTGAACAGTGCGGGGGCGGTATATCTGTTGATCCGAATAACGTTGACGGGGTTGATGATACAGATGTAAATGGTAATCCAACTGGAGAAAGTAACATATGCGAAAGATTTACAATTAGCGGAAATATTATTGATGGAGGTGGTTCTTACGGTTCGGCGATGAGCATTTCAGGGAATAATACAGATTCTATACGCTCCGTAACAGTGACGGGGAATACAATAAATAATTATAATGGAAATGCCATTTATACAGGTTATATTAATGAGGCGGTGTTCAGCGGTAATGTCCTCAATAATGTAGAATATGGAATTAAACTGGTACAAACTTGGATGGTAAATATAACAGGTAATTTACTACGTTCCGTAGCAAACACTGGAATTGAATGTTTTTCCGGAAATAAGCAAGTTAATATAAATGGAAATCATCTTAATTTCGTGCGTGGGCAAGGAATTTGGGTTTCTGGTACAGATACTATTGGGATTACAAATAATGAAATTACTGGGGTTGGTTATGTCGCAAATGGTTCCGATTGGCAAGGTGTTAGAGTAACTTCAAAAGCTGATAGGGTTACTGTTGTTGGAAATACTTTCAGGCAATGGGGAAAGACTTATAAAATGCACTATGCAGTTTACATTTCGTCTAGCTGCACAAATTCATTATTGGCTGTAAACAACATGGCTGGAATAAGTAATTATACGAGTTCAGGAACCACTGTATATGGTAATTTAAGTAACTAA MKTIKNNDIQNKELNSNMNRMMSQLDAKAASIDNYFIATEQDNIKGNGSFDDTEGIQQLLDVAASNNGVRIVFPAGTYILTQELRLTEGTYLECDPNAKFLKSHNGPMLLNLRPEDKMERYSGNGNITIDGGIWDSNYPAFGGGTSHVFGHGDGIRIMNLTIRNVGGGHGIEFNACRNILVQNCNFNGFDNYGGEKSYSEAIQLDLDKGDGVFPWGGNSGDNTPCQDVYIVNNRFTSSAELGPWGRAVGSHSATADRWHERVVIVNNIVLGCHTWAFRTYSWRDVIISNNKIEQCGGGISVDPNNVDGVDDTDVNGNPTGESNICERFTISGNIIDGGGSYGSAMSISGNNTDSIRSVTVTGNTINNYNGNAIYTGYINEAVFSGNVLNNVEYGIKLVQTWMVNITGNLLRSVANTGIECFSGNKQVNINGNHLNFVRGQGIWVSGTDTIGITNNEITGVGYVANGSDWQGVRVTSKADRVTVVGNTFRQWGKTYKMHYAVYISSSCTNSLLAVNNMAGISNYTSSGTTVYGNLSN NA NA NA NA NA AK015_01898 213 hypothetical protein ATGATTGAATATCAAATTAACGGTACAAGATTTAACGAAAATGAGGTACGTATTGATTTTAGAGCAATTGACGAGTATGGGCAGATTAATTTACATGGATACGTGCCTGTGAAGATGCAAGAGTTTTTTGCAAATAGCTCTAGCATGGATAGTTTAGCTGGACTAGTGGAGCAAAAAGTCAACGAGAGATTAAGTACGACAGGCGCTGAATAG MIEYQINGTRFNENEVRIDFRAIDEYGQINLHGYVPVKMQEFFANSSSMDSLAGLVEQKVNERLSTTGAE NA NA NA NA NA AK015_01899 297 hypothetical protein GTGGCAGAGGAAGAAATAGCACTATTAAAAGAATATGCAAAGCTTGATGAAGAAGGGGAGCTTATCCGTAAATCGGATGGCTCCTTTTATATTGAAGATGTAAAAGAATTTAAAAAGCAACAGGAAGATTTGTACAATGAGCATTTTGTTATTGATGATGCAAACCTAGAAGGTGCATTGCAAACGATTGAAAAGGTGGTGTTAGATTATGACAAAGAATTAAGCAATAAAGATGCGTTTATCCACGATTACATTTGCCAGCAATTTGAAGAATCTAAAGAGGAGGATGATCAGTAA MAEEEIALLKEYAKLDEEGELIRKSDGSFYIEDVKEFKKQQEDLYNEHFVIDDANLEGALQTIEKVVLDYDKELSNKDAFIHDYICQQFEESKEEDDQ NA NA NA NA NA AK015_01900 1914 licR_3 COG1762 putative licABCH operon regulator ATGAGATCTCGCCAGTTTGCAATTTTAAAATTGCTTGATAACGAAGAAGGTATGGTGGTGACGAGTGCTCAACTGGCTACGGAGGTTAATGTAAGTCCGAAGACAGTAAGAATGGAAATAAAACAATTGAATACGATTCTTAGAGACTACAATATGTATATTAAATCCTTACGCGGAAAAGGATATATTTTAAAAGGCAAGAATAAAGAAAAAATAACTAAATTGTTATCAAAATGTGTAAACGAATTTCGCACGGTGGTCCCCGTAGATTCAAGTGCCAGAGTAAATTATCTATTAGAAAAACTATTGTTTTGTACCGATTATATAAAAATAGAGGAGTTACTTGCAGAGTTATTCATTAGTAGATCTACTTTACAAGGTGATTTAAAAACGGTTCGAGAATTACTACAATTTTATGGGTTGTTTATTGAACATAAACCTAACTTTGGAATGAAAATAGTTGGCGATGAAACGTTCATCCGTTTTTGTTTGTCTGAATACATTTTTAATCAACATCCATTACTTCTAAAAGAGCAAATGGGGAATATTTTGTCGTTAGAAGAATTGAATATCATAAGGAATTCCATTCTCGAAAATATAAGAAAACATCATATCGCTATTTCCGATATTAGTTTACACAATTTGATCATTCACTTATCCATTGCATATAAGCGTTTGTTAGAACACAAGTCTGTTGAATTTGTAAAAGAAGAAATATATTCTTTATTTTATGAAAGAGAATATGAAGTAGCACAAAAGATAGTAGAGCAAATCGAAAGCGGATTAGGAATTAAATTTCCCAAAACAGAAGTTGCTTATTTAGCCATTCATTTAAAAGGAACAAAGCTGACTTCCACTGCTAATCATTTAGATTTTCAAAGTATAGTTGATAAGGAAATTTATTGTCTAGCAAAGGAGGTTATACAGGTCATTGATAATGAGTACGATTTAAAGTTAACAGATGATGAAGAACTGTTAAGAAATTTATGCTTACATCTTAAACCTGCTATTAGTCGTTTTCGCTATCAAATGAATATACGTAATCCAATGTTGGAGGAAATAAAAATGGAATACCCTCTTTCATTCGAAGCGGCATTAACAGGGGTTAGTGTAATAAATGAACGATTTAGTGTTCAGTTTAATGAAAGTGAAGTCGGCTATGTTGCTCTTCATATAGAGGCTGCATTAGAAAAGGCAAAACGCTCCTATATGGAACGGAAGCGTAGCTTAATTGTTTGCGCTACGGGTCTGGGAAGCTCGCAATTGCTTTTACATAAGTTGATAAATATTTTTGGGAAGAAACTTCATATTACTGGGACAATAGAACTATATAACTTAACACGTCTTAACCTTAAAGATTATGATTTTATTATTAGTACAATTCCAATTAAAAATAAACTACCAATACCAGTTATTCATATAAGTAATATTCTTGGTAATATAGATGTTTCTAAAATTGAGCGTATGTTAGATTGTTTGGATATAGACTTAAAAGAATTTATTTTTCCAGAGTTTACATTTTTACAATATGATTTTCAAATACCAGAATCAGTTATTAAATTTTTAACAAATAATTTAGTGCAGAAAGGAAAAGCAGACACAGATTATATACAATCTGTACTAGAAAGAGAAAGTTATGCACCAACTAGTTTTGGCAATATGGTAGCGATTCCTCATCCACTAAAACCAGGAACAAATGCCACCTTTCTCTCTATATTAACTTTATTACGTCCAATAAACTGGGGAGATAAGTTTGTTCAATTAGTCATATTACTTAATATAAATAAAAATAGGAAAGAAGATCTGCAACTCATGTTTCAATCTCTTGTTCATTTAATGAATGATAAACAAAAGGTCTTTCAGTTACTAAGATGCAAGACGTATTCGGAATTATTAGAAGTAATAGAAGAATAG MRSRQFAILKLLDNEEGMVVTSAQLATEVNVSPKTVRMEIKQLNTILRDYNMYIKSLRGKGYILKGKNKEKITKLLSKCVNEFRTVVPVDSSARVNYLLEKLLFCTDYIKIEELLAELFISRSTLQGDLKTVRELLQFYGLFIEHKPNFGMKIVGDETFIRFCLSEYIFNQHPLLLKEQMGNILSLEELNIIRNSILENIRKHHIAISDISLHNLIIHLSIAYKRLLEHKSVEFVKEEIYSLFYEREYEVAQKIVEQIESGLGIKFPKTEVAYLAIHLKGTKLTSTANHLDFQSIVDKEIYCLAKEVIQVIDNEYDLKLTDDEELLRNLCLHLKPAISRFRYQMNIRNPMLEEIKMEYPLSFEAALTGVSVINERFSVQFNESEVGYVALHIEAALEKAKRSYMERKRSLIVCATGLGSSQLLLHKLINIFGKKLHITGTIELYNLTRLNLKDYDFIISTIPIKNKLPIPVIHISNILGNIDVSKIERMLDCLDIDLKEFIFPEFTFLQYDFQIPESVIKFLTNNLVQKGKADTDYIQSVLERESYAPTSFGNMVAIPHPLKPGTNATFLSILTLLRPINWGDKFVQLVILLNINKNRKEDLQLMFQSLVHLMNDKQKVFQLLRCKTYSELLEVIEE PGPT0019430_442 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019430-licR-K03491 NA NA AK015_01901 1302 licH_3 COG1486 putative 6-phospho-beta-glucosidase ATGGGTGGATTAAAAATAACGGTAATTGGAGGGGGTTCTTCCTATACGCCTGAATTGTTAGAGGGAATTATTAACAATCAAGAACTTTTACGAGTAGAGGAGCTTTGGTTAGTAGATATAGAAGAAGGAAAACAGAAGTTGTCCATTATAGAAGGGCTATCAAAGCGAATGATTCAAGCATCAGGATATTCAATTAAAATTGTTGCAACTTTCAATAGACAAGAGGCGATAAAAGGTGCAGATTACATTATTACCCAACTTAGAGTTGGACAGCTTAAAATGCGTCGTTATGATGAATACACCTCTATTAAACACGGAGTAATTGGTCAGGAAACAACCGGAGCAGGTGGCTATATGAAAGCATTACGTACCATACCAGTTATTTTAGATATTTGCAATGATATGGAACAACTTGCACCCAAAGCATGGTTATTGAATTTCACAAATCCTGCAGGAATTGTAACAGAGGCGGTCTTAAAATATAGCAATGTAAAAGTTATTGGTTTATGCAATAACCCGATAAATTATTATAAAAAATTTGCTGCTGCTTATAACGTTTCTATGAAGGATGTGAGCATCAATTTCACAGGTATAAATCATTTGCTTTGGCTGACTGATTTATATATTAGGGGCGAGTCAAGAATTAAAGATATATTTAATGGATGGTCAAATATTTATGAAGCAAAAAATATTCCTGACTTTGGCTGGGATCTTGATTTCTTAAGATCTTTAGATGCTATTCCATGTGGTTATCATAAATATTATTATCAGTCTGATCGGATTTTACAACAGCAATTAGAGGAGTTTAAACGAAATGAAACCCGTGCTGATCAAGTTCAGAAGATTGAGCGAGAACTATTTAAAATTTATCAAAATCCAAAACTAAGCAAAAAACCAAAAGTTTTAGAACAAAGAGGTGGTGCGTACTATTCGGAGGCAGCTGTAAATTTGATTAAATCGATTGAGTTGAATACAAAAGAAATTCATACATTGAATGTTCGTAATAATGGATCAATTTCTTGTTTACCTATCAATACTTGTATAGAAGTAAATTGTGTTGTGGAACGGCATCAGGTTACTCCATTGCAAGTAGGGCAAGTTTCTCCGCAAATCAGAGGACTTTTACAACATGTGAAAGCATATGAAGAACTCACTGTTGAAGCTGGTGTTAATGGGGATAAAGGTGTTGCTCATCAGGCATTGACGTTACACCCACTTATCCCTTCCGCTGAAAAGGCAAATGCTATTTTAAAAGAAATGTTTATGATAAATAAAAAGTTTTTACCGCAGTTTAAGATTTAA MGGLKITVIGGGSSYTPELLEGIINNQELLRVEELWLVDIEEGKQKLSIIEGLSKRMIQASGYSIKIVATFNRQEAIKGADYIITQLRVGQLKMRRYDEYTSIKHGVIGQETTGAGGYMKALRTIPVILDICNDMEQLAPKAWLLNFTNPAGIVTEAVLKYSNVKVIGLCNNPINYYKKFAAAYNVSMKDVSINFTGINHLLWLTDLYIRGESRIKDIFNGWSNIYEAKNIPDFGWDLDFLRSLDAIPCGYHKYYYQSDRILQQQLEEFKRNETRADQVQKIERELFKIYQNPKLSKKPKVLEQRGGAYYSEAAVNLIKSIELNTKEIHTLNVRNNGSISCLPINTCIEVNCVVERHQVTPLQVGQVSPQIRGLLQHVKAYEELTVEAGVNGDKGVAHQALTLHPLIPSAEKANAILKEMFMINKKFLPQFKI PGPT0019105_1046 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222 NA NA AK015_01902 321 celA_2 PTS system cellobiose-specific EIIB component GTGAAAATAACGTTGCTTTGCGCATTAGGGATGAGTACAAGCCTTTTGGTAGAAAGAATGAAAAAAGCAGCCAGTCGCAGAGAGTTGGATGTGAAAATAGAAGCACATTCGGTAGACGAGATAGATAGACAACTTAAAGATTCAGATGTCATGCTCTTAGGTCCACAAATTCGCTATAAAAAGAAGGAACTATTTAAAAAAGCAGAAAAGGAAAAGGTGCCAATTGCTATTATTGATATACGAGCATATGGAGCGACAGATGGTGAAAAAGTGCTAGAGCAAGCGCTTCATTTAAAGAATAATGATGAGGAGGGTGTATAG MKITLLCALGMSTSLLVERMKKAASRRELDVKIEAHSVDEIDRQLKDSDVMLLGPQIRYKKKELFKKAEKEKVPIAIIDIRAYGATDGEKVLEQALHLKNNDEEGV PGPT0016975_428 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 AK015_01903 1278 licC_3 COG1455 Lichenan permease IIC component GTGAATCGTTTTAATGAGTCTATGGAACGTTATTTTATGCCAGTTGCAGGGAAATTGGCTGAACAACGTCATTTAAAATCAGTAAGAGATGGAATTATAGCAACAATGCCGCTATTAATTATTGGAAGCGTTTTTCTGATTATTTCATCTCCACCAATTGAATCGTGGGCTGAATTTATGAAACCCTATGCACAAACGTTAAGTATTCCAGTAAATGCTACCTTTGGTTTGTTAGGTCTAATCGCAGTATTTTCAATTGCATATAGCCTTGCGAAAAGCTATGGAATGGATGAATTATCTGCTGGTGTACTAAGTGTGGCTACATTTTTTGTCGCTACCCCTCTTACTGAAGAAGGAAATATACCGTTAAACTTAATGGGAAGTGAAGGACTATTTATTGCCATTGTTTTAGCCATCTTCACAGTAGAAGTTTTCCGTTTTTTTGAAAACAAAAATATTGTTATTCGTATGCCTGAAGGGGTGCCACCGTCAGTATGGCGAGCATTTACAGCTCTTATTCCCGGAGCAATCATTATTTTTATAGTATGGGGAGTAGACTTATTGTTGCGTAACTTCTTCAATTTATCATTGCATGGAGTAGTAGCCGCTATTTTAAGGCAACCTTTAGAAGCTATGGGATCAAGTTTATGGGGAGCAATTATTGCAATAATCCTTATCCATTTACTGTGGTCTTTTGGAATTCATGGTATCTCCGTTGTAGCAAGTGTTATGGCTCCAATTTGGTATAGTTTAACAGAACAAAATGTTGCTGCACAACAGGCTGGTGAGGAACTTCCATATATAATTGGGCAACCATTTATGGCGATATGGTGGGCAGTTGGTGGTTCAGGCATGGCTTTAGCATTAACCATACTTTTTGTTTGGCGAGCTCGTTCGAGGCATTTAAAAGGATTGGGACGAGGCTCTATTTGGGCAAGTTTCTTTAATATAAGTGAACCAATCGTTTTTGGAGCTCCAATTGTAATGAACCCGTTGTTATTTTTACCTTTCATACTAGCACCATTAACAGTAGGTATTATCACGTATTTTTCAATGTCGCTTGGATTTGTAGGAAAACCTTATGCAATTGTTCCATGGACGACACCACCTCCTTTTTCTGGAATATTGACAACAGGTGATTGGCGTGGTGGTGTATTAATGATGATCAATATTATTGTAGCTATCTGTATTTATTATCCGTTTTTCCGTTTGTACGATAAAAAACTATTAGAAGAAGAGCAAGCTAGTGAGTCAGTGGCTGCTACTACAGAAAGTTAG MNRFNESMERYFMPVAGKLAEQRHLKSVRDGIIATMPLLIIGSVFLIISSPPIESWAEFMKPYAQTLSIPVNATFGLLGLIAVFSIAYSLAKSYGMDELSAGVLSVATFFVATPLTEEGNIPLNLMGSEGLFIAIVLAIFTVEVFRFFENKNIVIRMPEGVPPSVWRAFTALIPGAIIIFIVWGVDLLLRNFFNLSLHGVVAAILRQPLEAMGSSLWGAIIAIILIHLLWSFGIHGISVVASVMAPIWYSLTEQNVAAQQAGEELPYIIGQPFMAIWWAVGGSGMALALTILFVWRARSRHLKGLGRGSIWASFFNISEPIVFGAPIVMNPLLFLPFILAPLTVGIITYFSMSLGFVGKPYAIVPWTTPPPFSGILTTGDWRGGVLMMINIIVAICIYYPFFRLYDKKLLEEEQASESVAATTES PGPT0016970_2685 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 AK015_01904 759 COG3394 Carbohydrate deacetylase ATGGGTAACAATACAGTCAAACTTATTATAAATGCGGATGATTTTGGGATTACGGCTGGTGTGACATATGGAATTCTATTTGCTCATCAATATGGCATCGTATCAAGTACAACTGTCATGGTTAATATGCCATTTGCCAAAGAGAGTTTAAAAGAAGCAAAAAAACATCCTAATTTGGGAGTAGGCTTGCATCTCGTTTTTGATGCAGGTCGTCCCATCTTTGCTTCCCAAAGTAGTTTAACGAGTCATTCTGGATATTTTTTGAAAAAGGAAGGGTTAATGCAATCTGCTAAAAGAGAGGATATAAAAAATGAGGTCGAGGCTCAGCTTGATTTAGCACATAAATGGTATGGGAATATAACGCATATAGATAGTCATCATCACCTGCACCATCATTTTCCATTGTTACTGGATGTCGTTTTAGAGACTGCAAAAAACTATAATATGCCGGTTAGATTGCTTCCTGACACAAAGATAGCGTATAAAATAGCGAGTCCAGATTATTTTTGTGGAGGTTTTTATGGGGAAGAAAGCGTTTCAATAAATAATCTTAAAGATATGATAACAAGTTTAAAGCCAGGAATTACAGAAATGATGTGCCACCCAGGATTTATAGATTCTGGTTTATATAAAATTAGCAGTTATAACAGGATGAGAATGAAAGAAGTGGCTGTCTTAACTAACAACAAGATGAAAGAATATATGCAAAAACAATCTATTGAATTGATTCATTATGGAGGAGTCGTAGATGGACGTTGA MGNNTVKLIINADDFGITAGVTYGILFAHQYGIVSSTTVMVNMPFAKESLKEAKKHPNLGVGLHLVFDAGRPIFASQSSLTSHSGYFLKKEGLMQSAKREDIKNEVEAQLDLAHKWYGNITHIDSHHHLHHHFPLLLDVVLETAKNYNMPVRLLPDTKIAYKIASPDYFCGGFYGEESVSINNLKDMITSLKPGITEMMCHPGFIDSGLYKISSYNRMRMKEVAVLTNNKMKEYMQKQSIELIHYGGVVDGR PGPT0012160_957 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478 NA NA AK015_01905 354 celD PTS system cellobiose-specific EIIA component ATGGACGTTGAGAATGTATCAATGAATATTATTTTACATGCAAGTACTGCAAAACAACACTTGTATGAGGCGTTAAATTATGCTCGGGAGGCAGAATTTAATGCTATTGAATCTTCAATGAAGCTTGTTCATACTGAATTATTGCAAGCGCATAATTTACAAACGAAACTTATTCAAGAAGATACGAAGGGAGGGCTTGAATATATACCTGTATTATTAGTTCATGCTCAGGATCATTTAATGTCTGTAATGTCAGAAAAAAACTTAATAGAAGAATTAATAATACTTCATCGAAATCAAAATGAACAAAGTGAAAAAATTAATCATTTAATGAATAGGATGTATGATAACTAA MDVENVSMNIILHASTAKQHLYEALNYAREAEFNAIESSMKLVHTELLQAHNLQTKLIQEDTKGGLEYIPVLLVHAQDHLMSVMSEKNLIEELIILHRNQNEQSEKINHLMNRMYDN PGPT0016980_127 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 AK015_01906 1734 hypothetical protein TTGATACCAGGTATTGAAGTTTTTTTAAATGAACATTTATCGTGGGTGGAGGAGAAGCGAGTAGGATTAATTACAAATCATACAGGAGTTACAAGTGATTTAAAGAGTAGCATTCATTTATTATATGCACATCCAGAAGTGTATTTAACGGCGTTGTATGGCCCTGAACACGGTATTCGAGGTGACCGGGAAGCTGGAGAGTATGTGGAATCTTATGTAGATGAAAAAACCGGCTTACCTGTATACAGTTTATATGGTCCGACTTGGAAGCCAAAAGAAGAAATGCTTGAGGATGTAGATGTGTTATTATTTGATATTCAGGATATCGGTTCCAATGTTTATACCTATATTTACACTCTTGGATTTGTTATGGAAGCAGCTGCAGAGTACGATAAACAAATAATTGTTTTAGATAGACCGAATCCAATTGGTGGTATGAAAGTGGAGGGGCCGTTGCGATCAAAAGATGCAGTAAGTTTTATGGGGAGATTTTTACTCCCTGTAAGGCATGGGATGACGGTTGGAGAATTAGCTTTAATGTGGAACCAAGAATACAGTTTGGGAATAGATGTAAAAGTAGCTAAAGTCAAAGGTTGGAGAAGAAACGTGTATTTTTCTAATACGGAGCTACCTTGGGTTCTAACATCCCCAAATATTCCTACTGAAGAGACAGCTTATTTATATACTGGAACGGAGCTATTGGATGATACGTCACTGTCTACAGGGCTTGGTACTACAAAACCGTTTGAATTAGTAGGTGCCCCATGGATTGAAAGTGAAGCATTGGCAGAAGAAATGAAAAAACGTAATCTTGTAGGTGTTAAGTTTCGACCAGCTTATTTTACTTCAAGATTCGGAAAGTATAAGGGAAAATTAATTGGTGGGGTACAGGTTCATATAAGTAATATTTCAGAAGTTGACTTGGTTTCTTTAGGGTTAAACTTGCTTGATGCAATGAGAGATCAAAACCCAGAAAAATTTAAAATGAATGAGAGTTATGTTCATTTAATTGGAGATACCGAAGTACCTACTAAGATTATGAATGACCATCCCGTCAGTGAAATTATTGACTCGTGGCTAGTGGATTTGGATAAGTGGGTAAAGAATGTTCGAAATAAGTATTTAATTTATCCTCCATATCCAGATAAAGCAAAACCTTACAAGCCATCAGGGGCGTTAGGGATTATGCCCTTGGATGTGGAAATGATTTCAGGTCAAAATGTGGCATTAGCTTTAAGAGGTTATGATAAAAATGGCAGAAAACTAGAGATTGATACTAGTTTAATTACTTGGACTACCTCAGGGAATATTGGGTATATAGAAAACGAGATATTTCACGCTGAAAAAGAAGGAGAGGGACAAATAACAGCAAAATATGGAAGCTATACAGCTAACCGAGAAATACTTGTTTCGGCACGCTATGTAAACAATATAAGGTATGGTATTCATTCTAACTATACAAGAGTTGTGTTAGATATAAATATGAGAATGAATGACTTTAAAATAGTTGAAGGGAAAAATACTTTAACTATCCAAATACCTTATGCAAAGATTTGTGGTGAGTTATTACAAGAAGGAGGCACCATTGAAATAAGCAATAGTCCTGTATTGTCATCTATTGAATATTTGAAAAAAGATACAATGTTCATTGCTGATTTTCATTTGCAAGAAAGAAAAGTGTTCTATGAAACGCCTGATTTTGCATCGCGGATAGTTGTTGATATAATGCATTAA MIPGIEVFLNEHLSWVEEKRVGLITNHTGVTSDLKSSIHLLYAHPEVYLTALYGPEHGIRGDREAGEYVESYVDEKTGLPVYSLYGPTWKPKEEMLEDVDVLLFDIQDIGSNVYTYIYTLGFVMEAAAEYDKQIIVLDRPNPIGGMKVEGPLRSKDAVSFMGRFLLPVRHGMTVGELALMWNQEYSLGIDVKVAKVKGWRRNVYFSNTELPWVLTSPNIPTEETAYLYTGTELLDDTSLSTGLGTTKPFELVGAPWIESEALAEEMKKRNLVGVKFRPAYFTSRFGKYKGKLIGGVQVHISNISEVDLVSLGLNLLDAMRDQNPEKFKMNESYVHLIGDTEVPTKIMNDHPVSEIIDSWLVDLDKWVKNVRNKYLIYPPYPDKAKPYKPSGALGIMPLDVEMISGQNVALALRGYDKNGRKLEIDTSLITWTTSGNIGYIENEIFHAEKEGEGQITAKYGSYTANREILVSARYVNNIRYGIHSNYTRVVLDINMRMNDFKIVEGKNTLTIQIPYAKICGELLQEGGTIEISNSPVLSSIEYLKKDTMFIADFHLQERKVFYETPDFASRIVVDIMH NA NA NA NA NA AK015_01908 1641 metG_2 COG0073 Methionine--tRNA ligase ATGAATATACTAATTGGTGGGGCTTGGCCATATGCAAATGGATCATTGCACTTAGGGCATATATCCAGTCTTTTGTCTGGAGATATTTTAGCGCGTTATTACAGAGCAAAGGGTGATCATGTGCTATATGTGTCTGGAAGTGATTGTAATGGAACACCTATTACAATACGGGCCAAACAAGAGGGAGTGGAACCAAAAAAAATAGCCAATACGTATCATAAAGAGTTTAAACAATGTTTTGATCAGCTTGGCTTCACTTACGATTGCTATACACGTACAGATGCACAACATCACCATACCACGGTTGGAGAAATATTCACCACCTTAATGGAAAAGGGTAACATTTACCGCAAAGAGGTGGAACAAGCTTATTGTAGTACTTGTGAACAGTTTTTACCTGATCGTTTCGTAGAAGGTATTTGTCCACATTGTGGAAAAGAAGCACGTGGAGATCAATGTGAGCATTGCTCCAAGATACTTGAATCATTAGAACTGGTGAATAAAAAATGTAAACTATGTGGCAGTTCACCTGTAACAAGAAACACAGAGCATTTTTATTTTAAATTGAGTACTTTTCAACAGTTATTGGAGCATTACCTCAAAGATATGAAAGAAACGGGGACTTGGCGAGAAAATGCACTTAAAATAGCAGAAAGATATTTACAGGAAGGCTTACATGATAGAGCAATTTCAAGAGACCTACCAGTCGGTGTACCTGTACCTGTTGAAGGTTATGAGTATAAAAAAATTTACGTTTGGTTTGAAGCAGTTGCTGGTTATTATACCGCTAGTAAAAAATGGGCAGAGGATAATCATAAGGATCATACTTCTTTTTGGGGGGAGGACGCGATCTCTTATTATGTTCATGGAAAGGATAATGTCCCGTTTCATGCAATTATTTGGCCAGGTATATTATTAGGTATAAATAAGCCGGCCCTTCCAACTTATATGGTTTCTAATGAGTATGTAACGATCGAGAAGAAAAAGCTATCTACTAGCAAAAACTGGGCGGTTTGGGTCCCGCACATGTTGGAGAAATATGACCCAGATTCCATACGATATTTTTTAACAATCAATGCTCCTGAACATAGAGATGCTGATTTTTCCTGGCGTGAATTTGTCTATAGCCATAATAGCGAGCTGCTTGGAGCTTATGGTAACTTTGTGAATAGGAGTGTGAAATTTATTGAAAAATTCTTTCATGGAGTCGTGCCTGAAGGACAGATTAATAAAGAAATGAAGCATCAGGTAGATGAGCTTTATCATCAAGTGGGTACAATGATTGAACACACTCATTTTAAACAAGCGCTAGAGTTAATTTTTGAGTTTATTAGGGGTGTTAATAAATATTTTGATCAGCAAAAGCCATGGCTTCAAGTAAAAACTTCTCCTAAAGATTGTCAAAATACGTTAAGAAGTTGTGTCTATATTATTGTCAATTTAGCTCAGTTATTACATCCGTTTCTACCATTTTCCAGTGATAAATTGAAACAAGCATTTAACATAGAGGAAATACAATGGAAAGCCATTGATAGTAATGATTCATCTTCTATAAACATTTCTGAACCGTTATTTGAAAGAATCGATGTCATTGTTATTGATAAAGAAATAGAACAGTTAAGAAAGCAATCCTCTTTATAA MNILIGGAWPYANGSLHLGHISSLLSGDILARYYRAKGDHVLYVSGSDCNGTPITIRAKQEGVEPKKIANTYHKEFKQCFDQLGFTYDCYTRTDAQHHHTTVGEIFTTLMEKGNIYRKEVEQAYCSTCEQFLPDRFVEGICPHCGKEARGDQCEHCSKILESLELVNKKCKLCGSSPVTRNTEHFYFKLSTFQQLLEHYLKDMKETGTWRENALKIAERYLQEGLHDRAISRDLPVGVPVPVEGYEYKKIYVWFEAVAGYYTASKKWAEDNHKDHTSFWGEDAISYYVHGKDNVPFHAIIWPGILLGINKPALPTYMVSNEYVTIEKKKLSTSKNWAVWVPHMLEKYDPDSIRYFLTINAPEHRDADFSWREFVYSHNSELLGAYGNFVNRSVKFIEKFFHGVVPEGQINKEMKHQVDELYHQVGTMIEHTHFKQALELIFEFIRGVNKYFDQQKPWLQVKTSPKDCQNTLRSCVYIIVNLAQLLHPFLPFSSDKLKQAFNIEEIQWKAIDSNDSSSINISEPLFERIDVIVIDKEIEQLRKQSSL NA NA NA NA NA AK015_01909 1236 yfcJ_1 putative MFS-type transporter YfcJ ATGAGTGAATTCAAGCTAGGAATGAAGGAGAATTATGTTCAGTTTTTCTTATTAGTAATTACGAACTTGTTTGTTGGTTCAATGGTTGGGATAGAAAGAACCGTTTTGCCGATTATAGGCGAAGATCAATTCGGACTGGCATCAACAAGTGCTGCGTTGTCTTTTATTATCAGCTTTGGTTTTTCTAAGGCGATCGTAAATTATTTTGCTGGTCATATAGCAGATCGATTTGGTCGTAAGCAGGTGTTATTACTTGGTTGGATCGTCGGTTTATCTGTTCCTATGTTGATTATTTTTGCGCATGCATGGTGGGTTATCGTTTTTGCCAATATCTTACTGGGAATTAATCAAGGATTGGCTTGGTCCATGACGGTTAATATGAAAATTGATCTTTCCAAGTCGAATGAAAGAGGAACAGCAGTGGGGTTAAATGAATTCGCTGGTTATTCTGGAGTAGCTTTATTGGCAGCTATTTCAGGTTATGTCGCTTCTACTTATTCTTTGAGACCCGAGCCATTTTATATCGGAATAGGAATTTCGGTGGTAGGGATACTGTTATCATTAACTGTGAGAGATACAAGGCATCATATAGAGTTACAAATGAAGCAAAGCGCAGCTATGACAAATAGTGGAGGAGATTTATCATCGAGAAAAATCTTTCAATTAACTACATGGCAGGACAAGAATCTTTCAGCTATTAGCTTTTCAGGTCTATCTACTAATCTCAAAGATGGAATGGCATGGGGGTTGTTCCCATTATATTTTACTTCTGTTGGATTATCGGTAGCGCAAACTGGAACCATAGTTGCATTATACCCAGCTGCATGGGGGTTTTTTCAATTATTTACAGGAATATTAAGTGATAAAATTGGTAGAAAGAAATTAATTACTTATGGCATGTGGATACAAGCTATTGCGCTGTGGTTTATTTTGCTAGTTAGCAGTTTTTCACTATGGGTCGCTGGAGCTTTAATATTAGGTTTAGGAACGGCAATGGTTTATCCGACGTTGCAAGCTGCTATTGGTGATGTCGCTGCACCTAACTGGAGAGCTTCTTCAATGGGGGTGTATCGGTTTTGGCGAGATAGCGGCTATGCTTTTGGTGCGTTACTAGCTGGACTCATAGCTGATGTGATGGGGGGCGGCTGGGCGATAGGAATGGTAGCTTTATTGCCATTTTTAGCTGGTGTAGTTGCTAGAGTGCGTATGGATGAGACGTTGGATATGGAAGTGTGA MSEFKLGMKENYVQFFLLVITNLFVGSMVGIERTVLPIIGEDQFGLASTSAALSFIISFGFSKAIVNYFAGHIADRFGRKQVLLLGWIVGLSVPMLIIFAHAWWVIVFANILLGINQGLAWSMTVNMKIDLSKSNERGTAVGLNEFAGYSGVALLAAISGYVASTYSLRPEPFYIGIGISVVGILLSLTVRDTRHHIELQMKQSAAMTNSGGDLSSRKIFQLTTWQDKNLSAISFSGLSTNLKDGMAWGLFPLYFTSVGLSVAQTGTIVALYPAAWGFFQLFTGILSDKIGRKKLITYGMWIQAIALWFILLVSSFSLWVAGALILGLGTAMVYPTLQAAIGDVAAPNWRASSMGVYRFWRDSGYAFGALLAGLIADVMGGGWAIGMVALLPFLAGVVARVRMDETLDMEV NA NA NA NA NA AK015_01910 909 iolE COG1082 Inosose dehydratase ATGACGAATATTGCATGGGGAATCGCACCGATTGGTTGGAGAAATGATGACATTCCTGAAATTGGAGCAGAAAACACGCTATCACATGTTTTAAGTGACATTGCTGTTGCTGATTATGCAGGAACAGAAGTGGGAGGCTTCTTTCCGGAAGCAGAAGTATTAAATAAGGAATTGGAACTTCGCAAATTAAGAATTGCTGGTAAGTGGTTTAGTAGTTATATTATTCGAGATGGTATCGAAGAGGCGGAAAAAGCATTTCGTAAGCATTGTGAATATTTAAATGCGGTAAATGCAGATGTCGCTGTAGTATCTGAACAAACGTATAGCATTCAGGGAACTGATAAGAATGTATTTGCCGAAAAACCGTTTTTTTCAGATGGAGAATGGGACCGTTTATGTAGTGGATTAGATCTTCTTGGTAAGGTAGCGCATGAATATGAGTTGAAACTTGTCTATCATCATCATATGGGAACGGGTATTCAAACCCTAGAAGAGGTCGATCGTTTAATGTACAATACAGACCAAAATTATGTGAATTTGCTTTATGACACAGGGCATATCTATGTGTCTGATGATGAATATATGCATCTACTAAATAAGCATATAGATAGAATAAAACATGTTCATTTTAAAGATGTTCGTAAAGATGAAAAAGAGGAATGTAACAAAGAGGGGAAATCATTTTTACAATCATTTTTAGCTGGAATGTTCACGGTTCCTGGTGATGGAAATATTGATTTTGTCCCAGTTTATAAAAAATTGCTTGCATCTGGATATGAAGGGTGGATTATTATAGAAGCAGAACAAGATCCTAATAAAGCGCATCCTTTAGAATATGCCTTAAAAGGAAAAAAGTACATTGATGAGACATTATTGCCTTTAAATAAATCATTGGCATCTATACAGTAG MTNIAWGIAPIGWRNDDIPEIGAENTLSHVLSDIAVADYAGTEVGGFFPEAEVLNKELELRKLRIAGKWFSSYIIRDGIEEAEKAFRKHCEYLNAVNADVAVVSEQTYSIQGTDKNVFAEKPFFSDGEWDRLCSGLDLLGKVAHEYELKLVYHHHMGTGIQTLEEVDRLMYNTDQNYVNLLYDTGHIYVSDDEYMHLLNKHIDRIKHVHFKDVRKDEKEECNKEGKSFLQSFLAGMFTVPGDGNIDFVPVYKKLLASGYEGWIIIEAEQDPNKAHPLEYALKGKKYIDETLLPLNKSLASIQ PGPT0016785_787 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335 NA NA AK015_01911 1026 iolG_1 COG0673 Myo-inositol 2-dehydrogenase TTGAAGAAAATAAATTTGGGAATTGTTGGTTTAGGAAGAATGGGTTTTACTCATGCTGAAAATATTGTGGAGAGAATTCCAGAAGCTGTATTGGTAGCTGTTTGTAGTTTTGTGGATGAAGAACTCCAAATGGCAAAAACAAAGCTAGGTGTGGAGAAAACGTATACAAGTTTTGAAAATATGCTCTTGGATGCTGAAATTGATGCAGTAGTGATTGCTTCTCCATCGGGGCTTCATGGTGAACATATCCGTTTAGCTATGAAAAAAGGGCTGCATGTATTTTGTGAAAAGCCAATCGGTGTAGAAGTAGAAGATATAGAAAAAACGATTGAAGTAGTAGAAGGTTATCCGAAACAAATATTCCACTTAGGCTTTATGAGACGTTATGATAAGTCTTATCAATACGCAAAACAAAAGGTAGACAATGGTGAAATTGGTGATTTAACTTTAATTCGCTGTTATGGCATTGATCCAGCTTCTGAATTAGAAAATTTTGTGAAATTTGCAACAAATAGTAAAAGTGGTGGGCTATTCGCTGACATGGCTATCCATGATATCGATTTAGTCAGATGGTTCTCTGGAAAAGAAGTGAAACGCGTGTGGGCAATTGGAAAGAATACTACTTATCCTGAATTAGATGATTTAGGTGATTTAGAAACTGGAGCCGCTATGATGCAATTAGAGGATGATACAATGGCTCTTTTAGTTGCCGGTAGAAATGCGGCGCACGGTTATCATGTGGAAACGGAACTAATAGGGTCAAAAGGAATGCTGCGCATTGCGCAGGAACCTGAAAAGAATCAAGTTTCCATTTTTAATAATCAAGGAGTGGTAAGGCCTACTTCGCAACATTTTTCAGAACGTTTTAAAGAGGCCTTTTTCCGAGAGATGAAAGAATTTATTTTGTGTATTCAGGATGGGAAACAACCAGGTATAACTGTATACGATGGTTTGGAAAGTACAGTAATTGCGAATGCTTGTCAAGAATCGGTTGACGCTGGAAAAATGATCGAAATATCTAAATAA MKKINLGIVGLGRMGFTHAENIVERIPEAVLVAVCSFVDEELQMAKTKLGVEKTYTSFENMLLDAEIDAVVIASPSGLHGEHIRLAMKKGLHVFCEKPIGVEVEDIEKTIEVVEGYPKQIFHLGFMRRYDKSYQYAKQKVDNGEIGDLTLIRCYGIDPASELENFVKFATNSKSGGLFADMAIHDIDLVRWFSGKEVKRVWAIGKNTTYPELDDLGDLETGAAMMQLEDDTMALLVAGRNAAHGYHVETELIGSKGMLRIAQEPEKNQVSIFNNQGVVRPTSQHFSERFKEAFFREMKEFILCIQDGKQPGITVYDGLESTVIANACQESVDAGKMIEISK NA NA NA NA NA AK015_01912 1596 yidK COG4146 putative symporter YidK TTGAATGCGTTTGCCCTAGTGACATTTGTTGTCATTATAGCTCTAGTATGGCTTTATGCATGGCGGAAAAGTAGAAATATTGATATTTCTACTGCAGAAGGATTTTTTATGGGAGGTCATAGTCTAACGGGGTTGTCTATAGCAGGGACAATCATTATGACGAACTTATCAACAGAACAACTAGTTGGACAGAATGGTCAAAGTTATGCAGCTGGTATGGAAGTCATGGCTTGGGAGGTCACCTCTGCAATTGCGATTGTTTTATTAGCTTTAGTTTTTCTTCCGAGGTACATGAAGTATGGCGTAAATACGATTTCTGACTTTATTGAAATTCGCTATGATACGTTTACAAAAAGGCTTATCTCCATACTGTTTATGTTTACGTACTTGACTTCATTTTTGCCTGTAGTACTTTATTCTGGAGCTTTGGTTTTTAATAAGTTGTTTAACATAGATGAAATTCTAGGTGTAGATCCACTAATAGCAGTTGCTATTTGTGCAGCTTTTATTGGCGCTGTAGGAGTTTTATACCTCTTAATGGGAGGGCTTTCATTAAGTGCTTTTAGTGATACTATTTATGGATTTGGTCTACTTACAGGAGGTATACTGATATTAATCTTGGGAATAGTGACACTTGGAAATGGAAGCGCTATGGACGGGGTTCATTTTATTCGTGAAAATACAGCGGAAAAGTTAAATGCTTGGGGCGCTATAGATTCTGATTATGTCCCGTGGCCTACCTTAATGTTAGGGATGTTGTTCAATAATTTATATTTTTGGTGTTGTAATCAAATGATTGTACAAAAAGCGCTAGGTGGAAAAAGTTTGAAAGAAGGACAAAAAGGTGCGCTTTATGTAGCTTTCTTTAAAGTTTTTGGAGCCTTATTTCTAGTATTACCAGGTATTGTTGCTTTTAATATGTTTGATGGAGGCATTGCTAATCAAGATGACGCTTATCCGAGTTTAGTTTCGGCAGTGTTACCTGAATGGGCATATGGCATCTTTGCGGCTGTTATATTTGGTGCAATATTAAGCTCATTTGTTGGTTCATTAAACTCAACGGCCACTTTGTTTTCTTTGGATTTTTACAAGCCAATTTTTAATAAAGATGCAACAGATAGACAAGTCGCTAGGATGGGGAAAATTGTAACCGTCATTGTTGGGTTTATATCAATAATCATTGCGCCATTAATTGCTTTTGCACCAACTGGCTTATATAACGTTATACAGGAGTTTAACGGGTTATATAGTTTGCCGTTACTAGTTATTATTCTATTTGGTTTTTGGAACAAGCGAGTTACTGCGCAAGGGGCCAAAATTACTTTCTCCTTCCACCTTGTTGTTTATATTGCAGCTCAAGGGTTGCTCGCTGAGATAAACTATCTTTATATATTTAGTGTTTTATTTATATTAGATTGTTTCGTTTTATGGATGTCAACAAGAATAAATCCATTAAAAGAACCTTTTCAATTCCAAGCAAATCTTAATAAGGTTGATATGACTCCTTGGAAACATGTGAAATGGGTGAGTGCCATAGCTTTGTTATTAGTGGTAATTATGTATACTGTTTTCTCGCCTGTTGTGTTAGCTAATTAA MNAFALVTFVVIIALVWLYAWRKSRNIDISTAEGFFMGGHSLTGLSIAGTIIMTNLSTEQLVGQNGQSYAAGMEVMAWEVTSAIAIVLLALVFLPRYMKYGVNTISDFIEIRYDTFTKRLISILFMFTYLTSFLPVVLYSGALVFNKLFNIDEILGVDPLIAVAICAAFIGAVGVLYLLMGGLSLSAFSDTIYGFGLLTGGILILILGIVTLGNGSAMDGVHFIRENTAEKLNAWGAIDSDYVPWPTLMLGMLFNNLYFWCCNQMIVQKALGGKSLKEGQKGALYVAFFKVFGALFLVLPGIVAFNMFDGGIANQDDAYPSLVSAVLPEWAYGIFAAVIFGAILSSFVGSLNSTATLFSLDFYKPIFNKDATDRQVARMGKIVTVIVGFISIIIAPLIAFAPTGLYNVIQEFNGLYSLPLLVIILFGFWNKRVTAQGAKITFSFHLVVYIAAQGLLAEINYLYIFSVLFILDCFVLWMSTRINPLKEPFQFQANLNKVDMTPWKHVKWVSAIALLLVVIMYTVFSPVVLAN PGPT0013955_2193 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 AK015_01913 1020 iolG_2 COG0673 Myo-inositol 2-dehydrogenase ATGGAAAAAGAAAAAGTGAATGTAGTAGGAGTAATTGGAGCAGGAAGAATTGGGAGATTGCATATTAATAATATGAGAAATATGCCTAATGTACGTCTGAAAACAGTATCAGATCCCCAGGCTGATCATATGAAAGATTGGTTTTCTGAGTCTGGAGTGGAAAATTTAACCAAAGACTATAAAAATATTATAAGCGATCCAGAAATTAATGTGGTTTTTATATGTGCTCCTACCAGTTTGCATGTTCAAATTATCACAGAAGCAGCAAAAGCAGGAAAGCACATCTTTTGCGAAAAGCCGATATGCTTTTCGGATGAAAATACGTGTAAAGCTCATAAGGTAGTAAAACAAGCTGGTGTGAAGTTTCAATTGGGCTTTAATAGAAGATTTGATCGTAACTTTGCAAAAACGAAAGAGTTGGTAAAAAATAAAGCTATTGGTGATTTGCATATTTTAAAGATTCAATCTCGAGATCCCGAACCACCCTCTTTGGAATATGTATCTCACTCTGGTGGTATATTTATGGATATGAGTATTCATGATTTTGATATGGCCCGTTTCATATCGGGTTCTGAGGTTGAAGAAGTATATGTGGTAGGTGGAGCGCTCATAAATCCAGAGATTAAGCAGTATGAAGATATTGACACAGCATTAATTACTTTAAAATTTGAAAACGGTTTAGTAGGTGTTATTGACAATAGTCGACAAGCTGTATATGGATATGATCAGCAATTAGAGGCATTTGGGTCAAAAGGATCAGCAAAAGTAAATAATGAAAAAGAATCTAGTGTTGAGGTTCTATTAAAAGAGGGTGTAAAAAGTAGTAACCCGCTACACTTCTTTTTAGAAAGATATAATGATGCTTTTATTGAAGAGGTAGAACAGTTTTTTGAAGCAATTAATAACGATGAGGAAGTTCCTTGTGGCTTCGTTGATGGCATCATGGCACAGCGAATTGCTTCTGCGGCAAAAGAATCGTTATTAACTGGACTTCCAATAAAAGTAGAAAAATATCAATAA MEKEKVNVVGVIGAGRIGRLHINNMRNMPNVRLKTVSDPQADHMKDWFSESGVENLTKDYKNIISDPEINVVFICAPTSLHVQIITEAAKAGKHIFCEKPICFSDENTCKAHKVVKQAGVKFQLGFNRRFDRNFAKTKELVKNKAIGDLHILKIQSRDPEPPSLEYVSHSGGIFMDMSIHDFDMARFISGSEVEEVYVVGGALINPEIKQYEDIDTALITLKFENGLVGVIDNSRQAVYGYDQQLEAFGSKGSAKVNNEKESSVEVLLKEGVKSSNPLHFFLERYNDAFIEEVEQFFEAINNDEEVPCGFVDGIMAQRIASAAKESLLTGLPIKVEKYQ NA NA NA NA NA AK015_01914 390 hypothetical protein ATGCCGTTACTTACGTTTGATTTGATAGAAGGTAGGACGGAAGAAGAAATCAAGTTATTATTAGATGCATCTCACCGTGCTGTTGTTAAAGCATTTGAAGTTCCTGAGGGTGATAGATATCAAATAGTTCATCAGCATCCCAAACATGAACTAATCATAGAAGATACAGGCTTAGGATTTAAAAGAAGCGATGAAGTTGTGGCTATTTCTGTAAGAAGTACACCTCGAACGGATAAGCAAAAGAAATTATTCTATAACCTCCTTGTCAAGGAATTGAATGAGATTTGCGGTATGGACTCGAAGGATGTAATGGTTTCAATTGTGACGAACAGTGCAAGCGATTGGAGCTTTGGATTTGGTGAGGCACAATTTTTAAATGGTGAGTTATAG MPLLTFDLIEGRTEEEIKLLLDASHRAVVKAFEVPEGDRYQIVHQHPKHELIIEDTGLGFKRSDEVVAISVRSTPRTDKQKKLFYNLLVKELNEICGMDSKDVMVSIVTNSASDWSFGFGEAQFLNGEL NA NA NA NA NA AK015_01915 771 srlR COG1349 Glucitol operon repressor ATGAAATTAAAAAGAATACAGGAAATTGAAGCTTACGTTCACGAAAACGATAGTGCAAGCATTGATGAACTTTGTGATAAGTTTAATGTGTCTAAAAACACTATTCGTCGTGATATAAACAAAATTGTAGAAAATGGGACAATAAAAAAAGTCTATGGTGGAGTTGCTTCTGTTTCTAATCAGCTTAAACCCTATGAGCATCGCCACTCCAGCCATTCAGAAGAGAAAATAGCCATTGGTAAAGCCGCAGCGGCGGAAATTGAGGATAACGATCTTGTTTTTATTGATTCCGGTACAACAACTAGTTGTATAGGCGATTTTTTTGATCCGGAAAAAAGAGTAACCATCATTACCAATAACTTAAATATTATTAATAAAGCCGCTGAGTTAAGTAATTATCAGCTCATATTAATAGGTATGACATATAAACGTGCTACCAGATCTTTTGTCAATGTAGAGTCTTGGGAATACTTTAAACGCATCAATATTACCAAAAGCTTTATGGCAGCAACAGGACTTTCAATTGAACGCGGTGTTACGAATTCAGATTTACTAGAATATGATATTAAAAGCCGCATTGTCGAAAAGACGGATCGAAACATTCTGCTAGTCGATCATTCAAAATTCGATAAAGCCGCTTTAGTCACCTATTCAAATGTTGAAAAGTTTCATCAAATCATTACTTCAGATTCTATTCCAGAAAACTATAAAGTCTATTGTAAGGAGAAAGGTATTAAAATTAATTATGTCAATCAAAATAAAAGTCATTAA MKLKRIQEIEAYVHENDSASIDELCDKFNVSKNTIRRDINKIVENGTIKKVYGGVASVSNQLKPYEHRHSSHSEEKIAIGKAAAAEIEDNDLVFIDSGTTTSCIGDFFDPEKRVTIITNNLNIINKAAELSNYQLILIGMTYKRATRSFVNVESWEYFKRINITKSFMAATGLSIERGVTNSDLLEYDIKSRIVEKTDRNILLVDHSKFDKAALVTYSNVEKFHQIITSDSIPENYKVYCKEKGIKINYVNQNKSH NA NA NA NA NA AK015_01916 1464 iolA_1 COG1012 Malonate-semialdehyde dehydrogenase ATGGGTGAAATTAGAACTTTGAAAAACTTTGTGAATGGAAAATGGGTTGGAAGTGAAACGAAAACTTTTGAAGATGTTTTAAATCCAGCAACAGAGGAAGTCGTTGCAAGAGTTCCTATTTCCACAAAAAAAGAATTAGATGAAGCCGTAGAAATAGCCAGTGAAGCTTTTCAATTATGGAGTAACACTGCTGTACCAAAAAGAGCACGTATCTTATTTAAGTTCCAACAGTTACTCATGGAAAACAAGGAGGATCTTGCTCGTTTAATAACGATTGAAAATGGAAAGGCATACAGTGAAGCTCTAGGGGAAGTGCAACGTGGAATTGAAAATGTAGAATTTGCTGCTGGAGCACCTTCTTTAACAATGGGAGATTCATTATCATCCATTGCTACCGATGTAGAAGCGACCAATTATCGTTACCCTATTGGTGTAGTTGGCGGAATCTCACCTTTCAATTTTCCAATGATGGTGCCTTGTTGGATGTTCCCAATGGCCATTGCATGTGGAAACACATTTATTTTGAAACCATCCGAACGTACGCCACTTTTAACAGAAAAATTAGCTGAATTGTTTAAAGAAGCTGGTCTTCCAGATGGTGTGTTTCAAATTGTAAATGGTGCACATGATGTAGTGAATGGAATACTCGAACATCCAGAAATACAAGCAGTATCTTTTGTAGGGTCAGAACCTGTTGGAAAGTATGTTTACCAAAAAGGTTCTGAAAATCTTAAGCGCGTGCAAGCTTTAACTGGTGCTAAAAACCATACCATTGTTTTAAATGACGCAGACTTAGATGAAACGATTCGGAATGTAATCGCTGCTGCTTATGGTTCTGCTGGTGAAAGATGTATGGCTGCATCCGTTGTGGCAGTAGAAGAAGGTATTTATGATGCATTCATGGAACAGCTGGCATCTGAAGCTAAACAATTAAAAATGGGAAATGGATTAGATGAAGAGGTGTTTTTAGGGCCAGTTATTCGTAAAGAACATCAGCAAAAAACATTTGATTATATTCAAAAAGGTGTAGACGAAGGTGCTACATTAGTATTGGATGGTCGTGAAGGAATTCCAAGTGAAGGATATTTTGTCGGTCCAACTATATTTACAGATGTCACTCCAGAAATGACCATTTGGAAAGAGGAATTATTTGCGCCTGTTCTTTGTGTTGTGAAAGTGAAGAATCTGGCAGCAGGAGTAGAATTGGCCAATAAATCTGTATTCGCTAATGGTGCATGCTTGTTCACGAATAGTGCAAATGCAATCCGTTATTTCCGTGAAAATATAGATGTGGGTATGCTCGGAGTTAACTTAGGTGTTCCAGCACCAATGGCATTCTTCCCATTTTCAGGGTGGAAATCATCTTTTTATGGAACATTGCACGCCAATGGAAAAGACGGTGTTGAATTCTACACACATAAGAAAGTGGTTACCGCTAGATATGCAACAAAAGATTTTAAATAA MGEIRTLKNFVNGKWVGSETKTFEDVLNPATEEVVARVPISTKKELDEAVEIASEAFQLWSNTAVPKRARILFKFQQLLMENKEDLARLITIENGKAYSEALGEVQRGIENVEFAAGAPSLTMGDSLSSIATDVEATNYRYPIGVVGGISPFNFPMMVPCWMFPMAIACGNTFILKPSERTPLLTEKLAELFKEAGLPDGVFQIVNGAHDVVNGILEHPEIQAVSFVGSEPVGKYVYQKGSENLKRVQALTGAKNHTIVLNDADLDETIRNVIAAAYGSAGERCMAASVVAVEEGIYDAFMEQLASEAKQLKMGNGLDEEVFLGPVIRKEHQQKTFDYIQKGVDEGATLVLDGREGIPSEGYFVGPTIFTDVTPEMTIWKEELFAPVLCVVKVKNLAAGVELANKSVFANGACLFTNSANAIRYFRENIDVGMLGVNLGVPAPMAFFPFSGWKSSFYGTLHANGKDGVEFYTHKKVVTARYATKDFK PGPT0002295_3982 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 AK015_01917 816 iolB COG3718 5-deoxy-glucuronate isomerase ATGAGTAAGTTGCAATACAAACCGAACGATCATAACGTTTCTGGAGTTACTATTTTGCAAGATGTTCATGAAAGAAATTCAGATTTAAAATACGTCGCATTTAAACTCATTCAGTTGGATGAACAAGCGACCTATGCTGAAGAATTGACTGATAAAGAAGTATGTATTGTTGTTTTAACAGGAAAGGCTTCTGTAAAAACAGGAGATCAACTGTTTGAAGAATTAGGAACACGCGATTCCGTATTTGAAAAGAAACCGACAGATAGTGTTTATGTTTCAAAGGATTCTACATTTAAAATAGCTGCAAAAAGTGCTTGTAAGATAGCATTATGCTATGCACCTGCAACAGAAAAACGGCAAGCTCAAGTGATACGGGCAGCTGATAACTCTGTAGAGCATCGAGGGAAATATCAGAATAAAAGAATGGTACACAATATATTACCAGATAGTTCAGCTGTATCTAGTAGTTTACTAGTTGTAGAGGTATATACGGATGAGGGTAATTTTTCAAGTTACCCTCCTCACAAGCATGATCAGGATAATTTGCCAGAAGAATCATTTTTAGAGGAAACGTATTATCATGAAATAGACCCTGAACAAGGCTTTGTGTTCCAGCGTGTGTATACAGATGATCGTTCTTTAGATGAAACGATGAGTGTAGAGCATGGGGATGTAGTTTCCGTTCCCAAAGGCTATCACCCTGTTGGAGTGCCAGATGGTTACACTTCCTATTATTTAAATGTCATGGCTGGTCCTAAAAAGATTTGGAAGTTTCATAACGATTTAGATCATGAGTGGATTTTAAAGAGGAAGTAA MSKLQYKPNDHNVSGVTILQDVHERNSDLKYVAFKLIQLDEQATYAEELTDKEVCIVVLTGKASVKTGDQLFEELGTRDSVFEKKPTDSVYVSKDSTFKIAAKSACKIALCYAPATEKRQAQVIRAADNSVEHRGKYQNKRMVHNILPDSSAVSSSLLVVEVYTDEGNFSSYPPHKHDQDNLPEESFLEETYYHEIDPEQGFVFQRVYTDDRSLDETMSVEHGDVVSVPKGYHPVGVPDGYTSYYLNVMAGPKKIWKFHNDLDHEWILKRK PGPT0018475_720 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 AK015_01918 978 iolC COG0524 5-dehydro-2-deoxygluconokinase ATGAGGTTAAAAAAAAGAAATAAAAAAATGGATATAATCGCTATTGGTAGAGCGTGTATTGATTTAAATGCTGTTGAATATAATCGGCCAATGGAAGAAACTATGACTTTTCAAAAGTATGTCGGTGGTTCTCCAGCAAATATTGCTATTGGGACGTCAAATTTAGGGCTAAATGTTGGGTTTATTGGAAAAGTATCCGATGATCAGCACGGAAGATTTATAACGACTTATATGGCTGGAAAAGGTGTAGATACATCGCAAATGGTGTCGGATCAAGAAGGAAGGAAGTCGGGGTTAGCCTTTACAGAAATTAAGAGTCCTAGTGAATGTTCTATCTTAATGTATAGAGATAATGTAGCAGATCTTTATTTAACACCACAAGAGGTGGAAGAAAGATATATCCGTGAGTCTGAAGTTCTTTTAGTATCTGGAACAGCTCTTGCACAAAGTCCTTCTCGAGAGGCTGTATTAACTGCTGTTGAATACGCAAAAGCAAACAATGTAAAAGTTATCTTTGAAATCGACTACCGTCCATACACATGGAAATCAGAGGAAGAAGTATCCACTTATTACACATTAGTAGCACAAAAATCGAATATTGTCATCGGTACCCGTGATGAATTTGATATGTTAGAGGGAAAAGAAGCAGGAGATAATCAAGATACTGTAAAGGAATTATTTAAATATGAGCCTGAATTAATTGTCATTAAACACGGTGTCGAAGGATCTTTTGCATATAGTAAAGAGGGAAAAGAATATGAAGCGAACGCTTACAAGACCAAAGTTTTAAAGACATTTGGTGCTGGAGATGCTTATGCTTCTGCATTTCTTTATGCGTTATTTAATGAGAAAGATGTAGAAACCGCTTTAAAATATGCTAGTGCAGCAGCAGCGATTGTTGTTAGTAAGCATAGTTCTTCTGAAGCGATGCCAACCGTTTCAGAGATTGAGGATTTAATCAACGATCAGTCCCAATAG MRLKKRNKKMDIIAIGRACIDLNAVEYNRPMEETMTFQKYVGGSPANIAIGTSNLGLNVGFIGKVSDDQHGRFITTYMAGKGVDTSQMVSDQEGRKSGLAFTEIKSPSECSILMYRDNVADLYLTPQEVEERYIRESEVLLVSGTALAQSPSREAVLTAVEYAKANNVKVIFEIDYRPYTWKSEEEVSTYYTLVAQKSNIVIGTRDEFDMLEGKEAGDNQDTVKELFKYEPELIVIKHGVEGSFAYSKEGKEYEANAYKTKVLKTFGAGDAYASAFLYALFNEKDVETALKYASAAAAIVVSKHSSSEAMPTVSEIEDLINDQSQ PGPT0018480_1002 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 AK015_01919 1917 iolD COG3962 3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase ATGGTAGCAACCATTCGTTTAACAACTGCCCAGGCGTTAATAAAGTTTTTAAACCAGCAGTATTTATCTGTTGATGGCAAAGAACATCCTTTTGTTGAAGGTATCTTTCATATATATGGCCATGGCAATGTTCTTGGAATTGGGGAAGCTTTAGAAGAAGACGCAGGCCACTTAAAAACCTTTATGGGAAAAAACGAACAGGGGATGGCTCATGCAGCAATTGCTTTTTCTAAACAATCCCTACGTAAAAAGATCTATGCTTTATCTAGTTCAGCTGGACCAGGATCAGCGAATATGATAACAGCTGCCGGCACAGCTTTGGCTAATCAGATTCCTGTTTTATTCTTACCAGCAGATACATTTGCTACAAGACAGCCAGATCCAGTATTACAACAAATAGAGCAAGAGTCAAGCATTGCTATTTCAACAAATGACGCATTTAAAGCCGTTTCGCGTTATTGGGATCGCGTTCAAAGACCAGAACAGCTAATGTCTGCTTTGATCAGAGCGTTTGAAGTAATGACCAATCCAGCTACGATGGGGCCAGCTACGATTTGCTTACCTCAAGATGTAGAAGGGGAAGCGTACGATTATCCAATTGAATTCTTTCAAAAACGCGTACATTATATCAACCGTACAGTACCTACAAAGCGTGAAATGGAAGGAAGTGTAGAAAGAATTAAAAACAGTCATCAACCAGTAATTGTTGTTGGTGGTGGTTGTAAGTACTCAGAAGCAAGAGAGGAATTAATCCACATCTCAGAACGACATGATATTCCATTAGTAGAAACACATGCTGGGAAATCGACTGTAGAGTGGCAATTCAAAAATAATTTAGGTGGACTAGGAATTTTAGGTACATCTGCTGCAAATAAGGTAGTTAAAGAGGCAGATCTAATTATTGGTATTGGTACAAGATATACCGATTTCACCACTTCTTCTAAAACGTTGTTTAATTTGGAAAAAAGTCAATTCCTTAACATTAATATAAGTCGTATGCAAGCATATAAGTTAGACGCATATCAAGTTGTCGGTGATGCCAAAGCGACACTAAAGGAGTTAGCGCCACTATTAGAAGGATATAAGGCAAATTATGGTACGCAATTAGAAAAATTAAAAAGGGAATGGCTAGATGAAAGAAAGCGTTTAGCAAATGTTCAATTTAAACGGAAAGATTTTGTTCCTGAAATAGACGGACATTTTTCACAAGAAAAGTTAAACGAATACGCAAATGTTTTACAGACAGAACTAACGCAAACAGAAGTATTTGTTGCATTAAATGAATCGCTTAATGAAGACGCCATTGTTGTTTCGGCGGCTGGTTCATTACCAGGAGATATGCAAAGATTATGGAATCCGGTCGTTCCTAATACGTATCACTTGGAATATGGTTACTCTTGTATGGGGTATGAAATTGCTGGTGCATTAGGAGCACGTCTAGCCGAACCAGATAAAGAAGTGTATGCCTTTGTTGGTGATGGGAGTTTCTTAATGCTACATTCGGAACTTGTTACAGCTATTCAATACAATAAAAAAATTAATATTATTCTATTTGATAACTCTGGATTTGGTTGTATTAATAATCTACAAATGGGTAACGGGTGCGCAAACCAAGGAACAGAATTTAGAACAGCAGCTGGTACAATTTTAAACATAGACTATGCAAAAGTAGCAGAGGGTTACGGCGCTAAGACCTATAAAATAAGTAATCTTGATGAATTGAGACTAGCTATTGAAGATGCGAAAAAACAACCAAATTCTACATTAATTGAAATTAAAGTTCTTCCAAAAACAATGTCAGATGGCTATGAGGGAAGTTGGTGGAATGTCGGTTTATCTGAAGTTTCTAAAAAGGAAAGTATAAATAAGGCATTTCAAAATAAGCAAGAAGCAATGAAGCAGGCGAAAGGGTATTAA MVATIRLTTAQALIKFLNQQYLSVDGKEHPFVEGIFHIYGHGNVLGIGEALEEDAGHLKTFMGKNEQGMAHAAIAFSKQSLRKKIYALSSSAGPGSANMITAAGTALANQIPVLFLPADTFATRQPDPVLQQIEQESSIAISTNDAFKAVSRYWDRVQRPEQLMSALIRAFEVMTNPATMGPATICLPQDVEGEAYDYPIEFFQKRVHYINRTVPTKREMEGSVERIKNSHQPVIVVGGGCKYSEAREELIHISERHDIPLVETHAGKSTVEWQFKNNLGGLGILGTSAANKVVKEADLIIGIGTRYTDFTTSSKTLFNLEKSQFLNINISRMQAYKLDAYQVVGDAKATLKELAPLLEGYKANYGTQLEKLKREWLDERKRLANVQFKRKDFVPEIDGHFSQEKLNEYANVLQTELTQTEVFVALNESLNEDAIVVSAAGSLPGDMQRLWNPVVPNTYHLEYGYSCMGYEIAGALGARLAEPDKEVYAFVGDGSFLMLHSELVTAIQYNKKINIILFDNSGFGCINNLQMGNGCANQGTEFRTAAGTILNIDYAKVAEGYGAKTYKISNLDELRLAIEDAKKQPNSTLIEIKVLPKTMSDGYEGSWWNVGLSEVSKKESINKAFQNKQEAMKQAKGY PGPT0018485_590 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 AK015_01920 870 iolJ COG0191 6-phospho-5-dehydro-2-deoxy-D-gluconate aldolase ATGGCATTAGTAACATTAAATGATATACTTCCTCAAGCTAAACAAGCAGGATATGCTGTAGGACATTTTAACATAAATGGTCTTATTTGGCCACAAGCTATATTAGAAGCAGCTCAAGAGGCAAAGGCTCCTGTTATTATTGCTTCTTCGGATAGATTGGTGGATTATCTTGGTGGTTTCAAACTAATTTCTGATATGGTTCGTAATCTAATGGAAGTTCAACAAATTACTGTTCCGGTTGTATTACATTTGGATCATGGGCAAAGTGTAGAAAGATGTTTTGAAGCGATTGACGCTGGATATAGCTCTGTGATGTACGATGGTAGCCATTTTCCAGTTGCTGAGAATATTAAAAATACGAAGCAAGTAGTAGACTATGCACATGTAAATGGTGTATCCGTTGAAGCAGAAATTGGTACGGTTGGTGGTTATGAAGATGGTCTAATAGGCAATATTTGTTATGCCAATTTACGAGAATGTGTAGAGCTTGTGGAGAAAACAAGAGTCGATGCGCTTGCCGCTGCACTAGGTTCTGTACATGGGAAGTATGTTGGTGAACCAAAGCTAGGATTTAAGCAGATGGCTGAAATATCTAAAGAAGTTGAAATCCCACTTGTCTTACATGGAGCAAGTGGAATACCGTTAGACCAACTGCAAAAATCAATACGCTTGGGGCATGCTAAGATTAATATTAATACTGAAATGAATATAGCTTGGAGAGAAGCACTACAACAAAGTTTAGTAGAAAATCCAGAAGTATATGAGCCAAAGAAATTATTGGAGTTAAGTAAACAGGCAATGAAGGAAACAGTACATGAAAAAATCCAAGAATTTGGTTCAAGTAATAAAGCAATGAAAAAAGTAGAATAG MALVTLNDILPQAKQAGYAVGHFNINGLIWPQAILEAAQEAKAPVIIASSDRLVDYLGGFKLISDMVRNLMEVQQITVPVVLHLDHGQSVERCFEAIDAGYSSVMYDGSHFPVAENIKNTKQVVDYAHVNGVSVEAEIGTVGGYEDGLIGNICYANLRECVELVEKTRVDALAAALGSVHGKYVGEPKLGFKQMAEISKEVEIPLVLHGASGIPLDQLQKSIRLGHAKININTEMNIAWREALQQSLVENPEVYEPKKLLELSKQAMKETVHEKIQEFGSSNKAMKKVE PGPT0018500_46 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 AK015_01921 483 hypothetical protein ATGAAAGCGAGCACTTTGACTGTTTTTCAAGAAACATCGGGTTGTTTTAATTCGGTAAATGAATGGAACGACATGTATAATTTCTTTCACGTGAAGCAAACAGAAGAAATGCTGTGTGATGAACAAGAAGGATATATGTTTACGGACGAAAAAGAAACAGAAGATGCTAAGCAGCATATATTACGAAAGGCATTTAATAACATCGTTTTTGTTGAGCGCATTCACCAAGTTGCCTACCGTAATGCTTTAACAAACTCAAATTTAAAAAAAGAAGAAGATCATGCTGATGACATTTTCAAGCAATTACAAGCAGCGTTAACTACTACGGAACAAAAGGATTTACTTACCGAATTAGAGGCTGCATGGAACAGTATGTATGCCGTTTTCTTAGAATACAGTTATTGTCAAGGTATAGCTGATAGTCCTGTGATCCATAAGGAACTAAAGCAATATGGAATTTGTATTTTAAAGGAATGTGCATAG MKASTLTVFQETSGCFNSVNEWNDMYNFFHVKQTEEMLCDEQEGYMFTDEKETEDAKQHILRKAFNNIVFVERIHQVAYRNALTNSNLKKEEDHADDIFKQLQAALTTTEQKDLLTELEAAWNSMYAVFLEYSYCQGIADSPVIHKELKQYGICILKECA NA NA NA NA NA AK015_01922 555 hypothetical protein ATGTGTGAAAAGAAAAAAGCTTTACTTTTGGTCGATGTACAAAAGGCTTTTGATGATAAAAAATGGGGCGAGAGAAATAATCAAGATGCAGAAGAGAATATGAGAAAAATACTACAATTATGGAGAGAAAAGAAGTGGATAGTAATTCACATACAACACACGTCTGATAATCCTCATTCCGCATTTCATATGGCGAATAAAGGCTTTGCTATCAAAGAAATAGTTGAACCAATCGAGGGGGAAGTTATCATTACAAAAAAAGTAAACAGTAGTTTTATTGGTACTAACTTAGAAGAACAATTAAAAGCAAATGAAGTATCAACCGTTGTAATTACGGGATTGACTACACCGCATTGTGTATCAACGACTGCAAGAATGAGTGGTAATTTAGGGTTTGATACATATCTGATTTCAGATGCTACTGCAGCATTTGGATTGAAAGATCAAAATAATAGATATTATGATGCAGAAACTATACATAATGTATCTCTGGCTACATTGCATGGTGAATTTGCCACGATACGGACAACGGAGCAACTAATTAACAGTTTATAA MCEKKKALLLVDVQKAFDDKKWGERNNQDAEENMRKILQLWREKKWIVIHIQHTSDNPHSAFHMANKGFAIKEIVEPIEGEVIITKKVNSSFIGTNLEEQLKANEVSTVVITGLTTPHCVSTTARMSGNLGFDTYLISDATAAFGLKDQNNRYYDAETIHNVSLATLHGEFATIRTTEQLINSL NA NA NA NA NA AK015_01923 324 hypothetical protein ATGTGGGGTGGTTTTCAATTTGCATCAGAGCCTCTCCCTCCATTTACTGCAGAAGATGCTATAAAATTTGCCTCAGAAGGAGATGAAATGCTAGCAAAATTCCCACAAAAAGAAGGTATTTCTAAAGTGAAAATTGACGGATACCATATAATTCAAGGAACAAAAGCTGAAATTATTGATGATGATACTTATATCCTATATTTTTTTGAAACATGGAGTAAAAATAGTGAAAGCGATTCATTTTCTGTTTCCTATAAGATAGACCGTAATTCTTCAACTTTGCACAACTCAGATTGGAACTATAGCCGTCCATTTGAATATTAA MWGGFQFASEPLPPFTAEDAIKFASEGDEMLAKFPQKEGISKVKIDGYHIIQGTKAEIIDDDTYILYFFETWSKNSESDSFSVSYKIDRNSSTLHNSDWNYSRPFEY NA NA NA NA NA AK015_01924 438 hypothetical protein ATGAACACTCTCCCCCTTTTATTAAGAAAACTTGTTACTTCTTACATACTAACTATCTTTATTGCTATCTACTTTGCAATCTTTTATCTATTCCCAATAGAATCAGCTTCCTATTATTTAGAAGTGGACTTTTTAGGGTGGACTTTCATTTATAGCATTTATATTTTTCCTGTACTGCTTTTATATGGAAGTCCTATTTCAATTATAGTAGAGCTCATTCATAAAAAAGGCATCTTTAAAAATAGATGGCTTTACATTCTATTACATAGTTTATTTGGAGGATTTTTCGGTATTATTGTGGTGACTCTTGACTCTTTTCTTTTTAATTGGTTATTCATTTTATTTAGCGCATTTCTGGCATTATTATACGCTGTGATTGATCGCATTCTCTATATAAAAATAAAAAGCAAAGTCTATCGTTTCCAGTTATTATATTAG MNTLPLLLRKLVTSYILTIFIAIYFAIFYLFPIESASYYLEVDFLGWTFIYSIYIFPVLLLYGSPISIIVELIHKKGIFKNRWLYILLHSLFGGFFGIIVVTLDSFLFNWLFILFSAFLALLYAVIDRILYIKIKSKVYRFQLLY NA NA NA NA NA AK015_01925 693 tenA_2 COG0819 Aminopyrimidine aminohydrolase ATGTCATTTACAGACACATTACGAGAAGTAACCGCAAAGAGTTGGGAGCAAAGTGTAAAACATCCATTTGTAAAAGGGATTGCCAAAGGTGATTTATCCCTAGACATTTTCAAGTATTATATTTTACAAGACATTTATTACTTGAAGCACTATGGAAAAGTCCATGCCTTGGCAGCTACATTAGCTGAAGATTTTCAAGTAACAGCTATGCTAGCTGACAAAGCAAAAGGAACTGCACAAGCAGAGCTAACCGTTCATAAACAGCATGCAGAAATCTTAAACATCACAGATACAGATTGGGATCATTTCAAACCAGCCCCAACTGCTTACGCCTATACATCACACTTATATCGCGCTGCAGCATCTGGAAGCCTAGGTCAAGCTATTGCAGCCATGTTGCCTTGTTATTGGTTATACGCAGATATCGGAAAAACGTACGAAAATGCAAAACCAACCGAAAAAATCTATCAAAATTGGATTGCTACCTATGCAAGTGACTGGTTTCAAGATTCAACCAATGAACAGATTCATTTGCTTAATCAAATTGCATCCGAATCTACGGAGAAGCAAAAAGAAAAGATGAAAGAGCAATTTATCATTGCTAAAGAATACGAGCTTGCCTTCTGGGAGATGTCCTATATAAAGGAAAATTGGTTCTCTGACAGACATTGGCATGAGCTTTCGATGGCTTAA MSFTDTLREVTAKSWEQSVKHPFVKGIAKGDLSLDIFKYYILQDIYYLKHYGKVHALAATLAEDFQVTAMLADKAKGTAQAELTVHKQHAEILNITDTDWDHFKPAPTAYAYTSHLYRAAASGSLGQAIAAMLPCYWLYADIGKTYENAKPTEKIYQNWIATYASDWFQDSTNEQIHLLNQIASESTEKQKEKMKEQFIIAKEYELAFWEMSYIKENWFSDRHWHELSMA PGPT0009055_452 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 AK015_01927 570 IS1595 family transposase ISBce21 TTGAGACCAGCATTAACGAAAGATATTCATGTACAAACTTTTAAAGACTACTATTGGTTAAAAGAAGAGTTACAATTATTTTGTAAGCAAAATGGCATTCGTACTTCGGGATCGAAATTAGAACTTACAGACCGCATTGATACTTTCTTGCGTACAGGTGAGGTAAAAAAGCCAATCCGAAAAAGAAGCAGTACTAAAAAAGCAAAAACAAAAGACGAATTAAGCTTAGATACTGTAATTACGGAAAATCATCGTTGTAGTCAGCATGTGCGGGCTTTTTTTAAAACAATTATCCCGAATTTTCACTTCTCTACGTATATTCAAAACTATTTTAAAGAAAATGTCGGTAACACGTATCATGATGTTGTTCAAGCGTGGTATGAGGAGGGAGAGCGAAAGAAAGATCCGTCATACAAGAAAACGATTGCTCCACAATTTGAATATAATCAATTTATTCGTGACTTTTTTGCAGATCCGGCTAATAAAGGAAAAAGTAGGGAAGATGCAATTAAAGCTTGGAACAACATAAAGCAACGTCCAGGGAGTAACAAATATACGGCAAACAAATAA MRPALTKDIHVQTFKDYYWLKEELQLFCKQNGIRTSGSKLELTDRIDTFLRTGEVKKPIRKRSSTKKAKTKDELSLDTVITENHRCSQHVRAFFKTIIPNFHFSTYIQNYFKENVGNTYHDVVQAWYEEGERKKDPSYKKTIAPQFEYNQFIRDFFADPANKGKSREDAIKAWNNIKQRPGSNKYTANK NA NA NA NA NA AK015_01928 372 gph_2 Phosphoglycolate phosphatase ATGAAGAGGGGGGTGTACAAATTGAACTATAAAAATATTATATTTGATTTTGATGGAACCTTGGCAGATTCAAAGCAATGCAGTGTATTAGCAACACAGAATGCTTTTAAAGCGTTACGACTACATATACCGTCTGCGGATACTATCGAACACTATATGGGAATCCCAATTGAAACATCTTTTAAAAAAATGGCAGATCGAGAGTTATTGAAAGATGAGTATAAGCTTTTATTGCAAACTTTCCGTGAACAGTATAAACAGTTAGAAAGCGATTTACTAACCGTTTTTAAGAATATACCAGAAGTGTTACATAAAATGGTTTTAGAGGGAAATTGTTATTTGTTTTATCAAGTAAAAAGACAGATGTACTAA MKRGVYKLNYKNIIFDFDGTLADSKQCSVLATQNAFKALRLHIPSADTIEHYMGIPIETSFKKMADRELLKDEYKLLLQTFREQYKQLESDLLTVFKNIPEVLHKMVLEGNCYLFYQVKRQMY PGPT0001730_6416 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091 NA NA AK015_01929 333 gph_3 COG0546 Phosphoglycolate phosphatase TTGTTATTTGTTTTATCAAGTAAAAAGACAGATGTACTAAAACGGAATCTACAAAGTTTAAACATAGATACTTATTTTCATGATATTATAGGATCGGACAAAGTATCTCATTATAAACCGCATCCTGACGGTATTTTAAACATCGTTGAACAGTATCATTTAAAAAAGGAAGAGACGGTTATGGTAGGAGATGCTATATATGACTTACAAATGGCTAAAGCTGCTGCTATTTCATCATGTGGAGTGACTTGGGGGAGTCATAAAAGAGAACAATTGACGGAAGAAAAACCTGATCATCTAATAGATGAAGTCATGCAACTTGTATATTCGTAA MLFVLSSKKTDVLKRNLQSLNIDTYFHDIIGSDKVSHYKPHPDGILNIVEQYHLKKEETVMVGDAIYDLQMAKAAAISSCGVTWGSHKREQLTEEKPDHLIDEVMQLVYS PGPT0001730_6416 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091 NA NA AK015_01930 156 hypothetical protein ATGAAAATTGAAACGAAACGACTTTTATTAGTTCCTTGTACAGAGGAAAACGTAAAAATGGTTTTAGAACGAGAGCAAAGTGTTGGTAACCATATCTATCAACACATAGAAAAGTTGCAAGAAGATCAAAGTCAATTGGCTGGGGACCGTGGTTGA MKIETKRLLLVPCTEENVKMVLEREQSVGNHIYQHIEKLQEDQSQLAGDRG NA NA NA NA NA AK015_01931 258 hypothetical protein ATGCTGGATTTAAGATCGGTAGAAATTGGGTATGGAATCATGGATCATGCTCGTAATCAAGGATATGCGACAGAAACTGTTGGAGCGCTTATAGATTGGGCCTTTGCTTTCGCTTCTGTAGAGCAAATTCATGCAGAATGCTTGGTTACAAATTTGCCATCCATAAGCGTGCTGGAAAAAGTAGGGATGCGCAAAACAAAAGAAGTAGATGATAGGATAAAATGGATATTGAAGAGAAACAGCGTTAACGAGGCTTAG MLDLRSVEIGYGIMDHARNQGYATETVGALIDWAFAFASVEQIHAECLVTNLPSISVLEKVGMRKTKEVDDRIKWILKRNSVNEA NA NA NA NA NA AK015_01932 2055 hypothetical protein ATGGAAGGCGTTAAAAGAAGATTTATTAAATACCTAATACTGAAAGAAAGTGTGGGATGCAATGAATTAATAACCGAGTTCCAATTTACGAAGCATGAAGTTATGAACATAATGAAAGATATGAATCAATCTTTCAAAAAAGATGTCATTATTTCAAGTGATGAAGTAGCCTATATGTCTGAAGTTGGTAAGATGATCTGCTATAAGAAATTTTTTCTAGATAGAGAAAAATTATTTAGTCAACATGAATTTGAAATTCGCTACCATTTGATTCTTATTGCATTAGCAGTGGATAAAAAATATTTATCCTTACTGGAATTAGCAGACATATGCTTAGTGAGTAAAAATACGATATTAAATGATATGAAACCACTGAAAGAAAATTTACGTTTAAAAGGAATTGAAGTGGACTATTCTCGCAAGTTAGGTTATTTTATGAAAGGTTCAGAGTTTACAATAAGAAATGTATTAGTAACAGCAGTGAAAAACGTGCTTCGGTCCTCGGCAGGGCGAATACTGTTGGAAGAAAAGAATTTTGTAGATAGTTCAGAAATATTTCGGTTGCAAAAAAGACTGGAGCGAGTAGAGAGTAGAATCGGTATAACATTAACCGATGAACAATTAGATGAACTTCCATATATTATTCACTTTGTTTTAAAAAGGGCGAGCAAATTCAATCGTAATTGGTCCTTTAAAATAGAGAGCTATGATATTAAAAACACTGTAGAGTTTCCTGAAATACAGCAGATGTTTTGGGATTATAATGATTTAACACAAAGCGATTTGCTTTACTTATCCTTACAAATATTAGCATCCAATATGGTAGAGTCAGCGCTATTTATTACAGATGGGGACGAGGTATCTCAAGCAACGGATCATTTTATTGACAATATTGAAGTGAATTTGGCTATTAATATGTATCGTAGAAAAGAATTAAAGCATAAAGTACTTCTTCATATGAGACCTGCTATTTACCGAAGTTTGCTTGGTTTTCAAATTAATAACCCACTAACAAAAGAATTTTTAGCTCAATATCAAGAAATCTATCGTATAGTAAAAAAATCTGTTAAACCTTTTGAAGATATTATTCATAGGGAGATGTCTACAGAAGAAATTGTTTACCTATGCATGATTGTCTTAAGTTGGATCTATGAAACAGAAGAGACAGAAACCATTTTTAAAGCTGTAGTGCTATGTCCAAGCGGAACATCCATATCTAAACTATTATTAGTGACATTACAATCCATGTTTCCAGGAATAGACTTTATTGGTGCTTATGCAGTTAGACAGTTTAAAAAAGGTGGATACGAGGTTGATTTCATTTTTACAACGATTCCAATTAATGATCATCGAACCACTTTTATTGTTCCACCAATTTTAGATAGCCAAAGTAGGATGGAATTAAGAAGTAAGGTGCGAAATGAGATGAAAAGTGATAGTAATAGATTCGTGCATTCACTGGTAAAGTTAATTCAACCTTACGTTCCAACACAATATTTGGATGTTGTTTCTAAGAAAATTGGTTCCGTCTTAGTAAATCAAACAACTTGTGATTATTTGAACAATTCATTGGAGCACTTTAAATTTTCTATCGACCATATAAGCATTATGAAAGAGGATGTGAATTGGGAGGAAATTGTTGATCGTTCCATGTTACCTCTTTTAAGAAGAAATAGTATTACAGAAAAATATATCAATAAAACTAAAACGATTTTCTACCATAATTATGAGCAGATGTTAATTGCTGCGAATGTTTATTTGCCTCATGCAGCAACAGAATATGGGGTGAAAAAAAAGGACTTCCAAATTAATATTCTAAAAAAACCAGTATTTACCCCTACTGGTGAAGAAGTAAAGATAGTTGTAGCGTTAGCTCCTTCTGTTGATAATGATCACGTACCAACTTTAATTCGATTAAACAATTTATTTATGGATAAAAACGTCATGTGTGAAATGATGAAGGAAGATAATATATTTACCATCCAGAGTATTCTTAACAATCTAGGAGGAGCAGAAGATGGGTTTCGAAACTTTATTTCAGAAAGAACTAATTAA MEGVKRRFIKYLILKESVGCNELITEFQFTKHEVMNIMKDMNQSFKKDVIISSDEVAYMSEVGKMICYKKFFLDREKLFSQHEFEIRYHLILIALAVDKKYLSLLELADICLVSKNTILNDMKPLKENLRLKGIEVDYSRKLGYFMKGSEFTIRNVLVTAVKNVLRSSAGRILLEEKNFVDSSEIFRLQKRLERVESRIGITLTDEQLDELPYIIHFVLKRASKFNRNWSFKIESYDIKNTVEFPEIQQMFWDYNDLTQSDLLYLSLQILASNMVESALFITDGDEVSQATDHFIDNIEVNLAINMYRRKELKHKVLLHMRPAIYRSLLGFQINNPLTKEFLAQYQEIYRIVKKSVKPFEDIIHREMSTEEIVYLCMIVLSWIYETEETETIFKAVVLCPSGTSISKLLLVTLQSMFPGIDFIGAYAVRQFKKGGYEVDFIFTTIPINDHRTTFIVPPILDSQSRMELRSKVRNEMKSDSNRFVHSLVKLIQPYVPTQYLDVVSKKIGSVLVNQTTCDYLNNSLEHFKFSIDHISIMKEDVNWEEIVDRSMLPLLRRNSITEKYINKTKTIFYHNYEQMLIAANVYLPHAATEYGVKKKDFQINILKKPVFTPTGEEVKIVVALAPSVDNDHVPTLIRLNNLFMDKNVMCEMMKEDNIFTIQSILNNLGGAEDGFRNFISERTN NA NA NA NA NA AK015_01933 477 gatA_2 COG1762 PTS system galactitol-specific EIIA component ATGGGTTTCGAAACTTTATTTCAGAAAGAACTAATTAAACTAAATACTGAATTTCATTCGTCGGATGATATGTTTGTAGCGCTTAGTCATGATTTAATAAAAAACGGTTATGTAGAGGATACTTTTAATCAAGCAATCATCGAAAGAGAAAAAGAATTTCCAACAGGATTGTCTACAGGAAAAGCATTGTTAGCTATACCACATACGGATACAAAGCATATTACAAAGCCATTTATATATGTTGTAAAGGCTAACAAGCCAATGAAATTTTTGCAAATGGCAACTACGGACACGTGGCTTGAAGTAAATATCATATTTATGCTTGGTATAAAGGACCCAGCAAAACAAGTCGGTCTACTTTCAGTGATTATTGATAAGTTCAAGGATGAGCAATTTGTTCATACATTTCAATCTATTTCAAATGAGAAAGAGATGCTTGCATTTTTAAAAAACAATTTTAGGAGAGATGAAAAATGA MGFETLFQKELIKLNTEFHSSDDMFVALSHDLIKNGYVEDTFNQAIIEREKEFPTGLSTGKALLAIPHTDTKHITKPFIYVVKANKPMKFLQMATTDTWLEVNIIFMLGIKDPAKQVGLLSVIIDKFKDEQFVHTFQSISNEKEMLAFLKNNFRRDEK PGPT0016946_124 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016946-gatA|sgcA-K02773 NA NA AK015_01934 276 gatB_3 COG3414 PTS system galactitol-specific EIIB component ATGAAAAAAGTAATTGTAGCTTGTGGTTCAGGGGTAGCGACTAGTCAGACGGTAGCATCAAAAGTAAAGTCAATTTTGGAAGAAAAAGGTGTTCGAGCAAGTGTAGAAGCAGTTGATATTAAGTCGTTAGATCAGTATATAAAGACCAGCGATGTGTATATTTCAATTACAAAAAATACAGAAGAATATGATATTCCAACTCTAAATGGAATAGCCTTTTTAACCGGTATGGGAATGGAAGAAGAAACACAAAAATTGCTAGATGCATTAAAGTAA MKKVIVACGSGVATSQTVASKVKSILEEKGVRASVEAVDIKSLDQYIKTSDVYISITKNTEEYDIPTLNGIAFLTGMGMEEETQKLLDALK PGPT0016947_539 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016947-gatB|sgcB-K02774 NA NA AK015_01935 1350 gatC_4 COG3775 PTS system galactitol-specific EIIC component ATGGTGGAACTGCTAAACACAATATTTTCATATATTTTAGATTTAGGTGCTTCTGTATTTGTTCCGGCAGTTATGTTATTAATTGGTATTTTTGTAAAAATGAAATTTAAAAATGCTTTAAGTGCAGCCATTACTTTAGGTGTAGCTTTTTTAGGAATGAATCTTGTAATTGGCTTCATGCTTGATGCTTTAACACCAGCTGCGCAAGCTTTAGCAGAGAGAACAGGCATTGAATTAACTGCTGTTGATGGGGGATGGACGACCGCCGCTTCATTGTCTTGGGCTTGGCCATATGCATTTCTTCTATTCCCTATTCAGCTTGTTATTAATGGAGTGATGCTACTGATAAATAAGACAAAAACGTTGAATGTTGACTTATGGAACGTATGGGGGAAGATTTTTACAGCTGTACTTATATACGGTGTAACAGGAAGTATGTATGTCGCTCTTATTGGTTCAGCTATAGTAATCATTTTTGAATTGGTATTTGCTGATTTGAACCAAAAACAAATTGAGACATTGACTAATATTCCGGGAGTTACAAGTTCTCATAACTTTTTTTTAATCGGTACATTACTAATGCCAATTGATTGGATGTTACGGAAATTTAAAGTGTTTAATAAAGAGATGGATGCCAATGCTTTAAGAGACAAAATTGGTATTTTTGCGGAAAATCATGTAATGGGTTTTATTATTGGGTTGCTTTTAGGATTGGCTGCTGGTTATTCCATCGCTGACTCACTCATTTTGTCTATGCAAGCAGCTGCTGCGCTAACATTATTCCCGATGGTAGCTAAACTATTTATGCAAGCGTTATCTCCATTGTCAGAAGCAATTAATGATTATATGAAGAAACGCTTTAAAGGTAGAGAAATTTTTATTGGGCTTGATTGGCCAATACTAGCTGGATCTAGTGAGGCATGGGTAGTAATGACTATTTTAGTTCCAATTACGTTATTCTTTGCTCTTATATTACCAGCAAATGCAGTTCTACCTTTCGCGGGAATCTTAAACATTGGATTAGCGGTACCCGCATTAATTGTAACAGGTGGAAACTTATTACGGATGTTAGTAATCTGTACAATTACTACACCAATATTTCTGTATGCTGCTACCTATTTTGCTGATATTATGACAGATTTAGCCCATTCAACCAAAGCCGTTGAATTAGAAGCGGGTCAGCAAATTACTTGGAGTACAGTGGAGTACCCAGTATTTCGGTATATTTTAACGGAGCTTGGTAGTTTTAGCATAATTGGACTGGCTTTAGCTGCTGTATGGGTATTAGGTTTTATCCTGTATCGAAAAGAAATGTTGAAGAGAACAGAAGAATTAAAGGCACAAGGATAG MVELLNTIFSYILDLGASVFVPAVMLLIGIFVKMKFKNALSAAITLGVAFLGMNLVIGFMLDALTPAAQALAERTGIELTAVDGGWTTAASLSWAWPYAFLLFPIQLVINGVMLLINKTKTLNVDLWNVWGKIFTAVLIYGVTGSMYVALIGSAIVIIFELVFADLNQKQIETLTNIPGVTSSHNFFLIGTLLMPIDWMLRKFKVFNKEMDANALRDKIGIFAENHVMGFIIGLLLGLAAGYSIADSLILSMQAAAALTLFPMVAKLFMQALSPLSEAINDYMKKRFKGREIFIGLDWPILAGSSEAWVVMTILVPITLFFALILPANAVLPFAGILNIGLAVPALIVTGGNLLRMLVICTITTPIFLYAATYFADIMTDLAHSTKAVELEAGQQITWSTVEYPVFRYILTELGSFSIIGLALAAVWVLGFILYRKEMLKRTEELKAQG PGPT0016948_402 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016948-gatC|sgcc-K02775 NA NA AK015_01936 648 drdA_2 5-deoxy-D-ribulose 1-phosphate aldolase TTGTTGTATCAAAGAGAAAGAGAACAGTTGGCTAAAATTGTGAGAAACATGTTCTCTCGCTATGAGACAAATACAGCTGGTGGCAATGTTAGCGTTAGGGTGAATAATCAACATATTATTATGACACCAACCCATATGTCTCAAGAATACCATTGTAATATTTCCCCATACCAAGTTTTAGTGGTAGATATGGATGAAAATATTGTCGAAGGTGACGGGAAAATTACAAGAGAAATTAATATGCATATGGCATGTTATAAACACAATCAACAGATTGGCTGTGTACTTCATGCACACGCACTTAAATCAATGGTGTTTGCGACAATGGGAATGGATATGCCTAATTTAACAGAATCAACGCAAAAGTTTGGCGATATACCATGTTTAGATTTTGCTCCTGCGACTTCAAAAGATTTAGCGGATACAGTTAAACATCATATGGAGAATAAAGCTTTAGATTCAATAACAAACGTTATGTTATTGAATAAGCATGGCGTGTTAATTACGGATACTAATTTAATAAAAGCTTATGATAATCTTGGACGTTTGGAATACAATGCATACATTGCTGAAAAAGCGTTATTATTTGATAAGTTAGGTATTTGTACGATTAAAAATAAATCTTTGAACTATAACTTAGATGAATAA MLYQREREQLAKIVRNMFSRYETNTAGGNVSVRVNNQHIIMTPTHMSQEYHCNISPYQVLVVDMDENIVEGDGKITREINMHMACYKHNQQIGCVLHAHALKSMVFATMGMDMPNLTESTQKFGDIPCLDFAPATSKDLADTVKHHMENKALDSITNVMLLNKHGVLITDTNLIKAYDNLGRLEYNAYIAEKALLFDKLGICTIKNKSLNYNLDE PGPT0017430_1362 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628 NA NA AK015_01937 663 drdA_3 5-deoxy-D-ribulose 1-phosphate aldolase ATGAAATATTTAAAAGAAGAACGAAAACAAATTGTTGCATATGGAAAGAAATTGATTGATGCTGGCTTAACGGTTGGAACTGGTGGGAATATTAGTATCTTTGATAAAGAAGCTGGGCTAATGGGGATTACACCAAGTGGAATCGATTATCATCAATTGAGGGAGCAAGATATTATTATTATGGATTTGTATGGTAATGTGGTGGAAGGTGAGTTAAAGCCTTCGAGTGAATTTCAAATGCATTCCATTGTTTATAAAAATAGATGCGATGTAACTGCAATGGTTCATACACATGCTCTGTATTCCACAACAATATCTTGCTTAAATGTTGATTTACCAGCTATCGATTACCTTGTTGCACACAGTGGAGGAAAAAATATTCGTTGTGCTGCATACGCAACATATGGCACAAGGGAATTGGCTGAAAATGCACTTGAAGCTATGAAAGATAGAAAAGCAGTTTTATTAGCAAATCATGGTATTAATGTAGTTGGCAGTTCTCTTGCAGAAGCTTATGCTATTACAGAGCAACTGGAATTTTGTGCAAGGTTGTACTGGCAGTCCAAAGCAATTGGTAATCCCATCATATTAGCCGACGAGGAAATGACGATGATGGTAGAAAGATTTAAAGATTATGGCCAACCTAAAGATACGCTAAAGTGA MKYLKEERKQIVAYGKKLIDAGLTVGTGGNISIFDKEAGLMGITPSGIDYHQLREQDIIIMDLYGNVVEGELKPSSEFQMHSIVYKNRCDVTAMVHTHALYSTTISCLNVDLPAIDYLVAHSGGKNIRCAAYATYGTRELAENALEAMKDRKAVLLANHGINVVGSSLAEAYAITEQLEFCARLYWQSKAIGNPIILADEEMTMMVERFKDYGQPKDTLK PGPT0017430_938 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628 NA NA AK015_01938 1011 yumC_1 COG0492 Ferredoxin--NADP reductase 2 GTGAAAGAAGAATGTATGTATGATGTAACGATTATAGGTGGTGGGCCAATAGGTTTATTTGCTGCTTTTTATGGGGGGTTACGACAGATGAAAGTGAAAATCATCGAAAGTTTACCTCATTTAGGTGGGCAATTGTCTGCATTATATCCTGAAAAGTACATTCATGATGTTGCGGCATATCCGAAAGTGAAGGCACAAGAATTAATTGATCAGCTAACGGAACAAGCAATGCAATTTAATCCCCATGTTGTATTACAGCAAACGGTAGAAAATGTAGTGAAGGTTAATAATCAATATTTTCAACTTGCTACAGACAAAGAAGTGCATTATTCAAAAACAATTCTTATTACTGCTGGTATAGGAGCCTTTGAACCTCGACGAATAAAATTAGCAAATGCACATACATACGAAGGAAAGAACTTACACTATTTTGTTCAAGATGTAAATCGTTATAAGGATAAAAACGTTTGTATATTAGGTGGTGGAGATTCAGCGGTAGATTGGGCAATGATGATTGAGCCAACGGCGAAAAATGTGAAAGTTATTCACCGAAGAGAGCAATTCAGGGCCCACGAACATACTGTTTCTAAACTGTTTGACTCTAAGGTTGACGTATTTACTCCCTTTCAATTACATGAAATTGTAGGCGACGGAAAAATAGAAGAAATTACTATCCAAAACGTAAAAGACTCAGAAATGATGAAAATTCCGTTAGACGAATTAATCGCTAGTTACGGCTTTATATCTTCTTTAGGTCCGATTAAAAATTGGGGGCTAGAATTTGTGAAAAATGCTATTCAAGTAGATTCAGCTATGAATACGAATATCCAAGGTATTTATGCTGCTGGCGATGTTGTTACCTTTTACGGAAAAGTGAAGTTAATTGCTTCAGGATTTGGTGATGCAGTTACTGCAATTAGTAGTGCTAAAACGTATATAGACCCTAAATCTAGGCATCAACCCCAACATAGCACAACTTTATTTGAAAAGTGGGAAAAAATGAAAAGTTAA MKEECMYDVTIIGGGPIGLFAAFYGGLRQMKVKIIESLPHLGGQLSALYPEKYIHDVAAYPKVKAQELIDQLTEQAMQFNPHVVLQQTVENVVKVNNQYFQLATDKEVHYSKTILITAGIGAFEPRRIKLANAHTYEGKNLHYFVQDVNRYKDKNVCILGGGDSAVDWAMMIEPTAKNVKVIHRREQFRAHEHTVSKLFDSKVDVFTPFQLHEIVGDGKIEEITIQNVKDSEMMKIPLDELIASYGFISSLGPIKNWGLEFVKNAIQVDSAMNTNIQGIYAAGDVVTFYGKVKLIASGFGDAVTAISSAKTYIDPKSRHQPQHSTTLFEKWEKMKS PGPT0013060_2949 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK015_01939 270 COG1146 Ferredoxin ATGGCGTTTGTTATTACATCTCCTTGCTCTTTTGAAAAGTCTGCTGAGTGTGTAGAAGTTTGTCCTGTAGATGCGATTCATTCAGGAAATGAAATGTACTACATAGATCCTGACATATGCATAGACTGTGCAGCATGTGAGCCAGTTTGCCCAGTTCAAGCTATATATGCAGAAGAAGACGTCCCTGAAAAAGAGAAGGAATACATGAACAAAGGCTCGGGGCGCCCGTTTAGCAACGTAGCCAATGGAACGAAGCAACTGAAGTTTTAG MAFVITSPCSFEKSAECVEVCPVDAIHSGNEMYYIDPDICIDCAACEPVCPVQAIYAEEDVPEKEKEYMNKGSGRPFSNVANGTKQLKF PGPT0030810_1569 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524 AK015_01940 1323 COG1541 Phenylacetate-coenzyme A ligase ATGTTTTATAACCAAAGAATGGAAACGCTTCCTAGAGAAAGTATGGAAAAACTTCAATTATCAAGACTTAAAAAAACAGTGCAAACCGTTTACGATAAAACCCCTTATTATCATAAAAAATTTGCAGCATTAAATCTAACCCCAAACGACATTCAATCCTTAGAAGATATTCAGAAATTACCATTTACGCAAAAGAAAGATCTGCGAGATAATTATCCATTCCAATTATTTGCATTACCAATAAGTGGAATTGAAAGAATCCATGCTTCTAGCGGTACAAGCGGGAAACCGACTGTTGTAGGATACACTAGAAACGATTTGGAAGTATGGGCGGAAATTGTTGCTAGAGCAATTGTTGCTTGTGGAGGAAATAAGCATCGTATTCTACAAAATGCATTTGGTTATGGTTTGTTTACTGGTGGACTTGGTTTACATTATGGATCAGAAAAACTAGGAATGGCCACCGTTCCCGTTTCAGGAGGAAATACAGAAAGGCAAGTGTTATTAATAGAAGATTTTAAGCCTAGTGTCATTGTTGGTACTCCTTCCTATATTTTAAATATTGCTGACAAAATGGAACAATTAGGAAAAGACCCCCTAAAAACCAGCTTGCAATATGGAATATTTGGTGCTGAACCTTGGTCAGAGAAAATGCGCAAAGAGTTAGAAGAAAGATTGGGAATTAAAGCCATGGACATTTATGGATTAAGTGAAGTGATGGGGCCTGGAATTTCCTGTGAATGTTTACAAGCACAATCTGGTCTGCATGTCGCTGATGATCATTTTTATGTGGAGGTCATTCATCCAGATACGTTGGACCCCGTACGAGAAGGAGAAGAAGGGGAGCTTGTTTTTACTAGTTTAACCAAAGAAGCTTTTCCGATTATTCGTTATCGTACTGGTGATATAGCTTCCATTACGAAAGAACCTTGTATATGCGGCAGAACAACAACGAGAATGTCACGTGTAAAAGGAAGAATTGATGATATGCTTATTGTTCGTGGCGTGAATGTTTACCCGACGGAGATAGAGAGCGCTTTATTAGAGATGCAGGAGCTAGAACCACATTATCAGCTTTATGTTGTGAATCAAGGCTCATTAGATAAAGTGTTGTTAAAAGTAGAGATCAATGAAACGATGTACCGACAATTAGATGGGAATTTAGAACACGAAAAAATAAAAGCGCTTTCTGATCAAGTTTTTCAACAATTAAAAAGTAAATGTCTCGTTAGTATAGATGTGAGCATTGAACATCCTGGTACGATCCCTCGGTCGATGGGGAAAGCGATTCGTGTTGTTAGAGACAGCGGAATAAAAATTTAA MFYNQRMETLPRESMEKLQLSRLKKTVQTVYDKTPYYHKKFAALNLTPNDIQSLEDIQKLPFTQKKDLRDNYPFQLFALPISGIERIHASSGTSGKPTVVGYTRNDLEVWAEIVARAIVACGGNKHRILQNAFGYGLFTGGLGLHYGSEKLGMATVPVSGGNTERQVLLIEDFKPSVIVGTPSYILNIADKMEQLGKDPLKTSLQYGIFGAEPWSEKMRKELEERLGIKAMDIYGLSEVMGPGISCECLQAQSGLHVADDHFYVEVIHPDTLDPVREGEEGELVFTSLTKEAFPIIRYRTGDIASITKEPCICGRTTTRMSRVKGRIDDMLIVRGVNVYPTEIESALLEMQELEPHYQLYVVNQGSLDKVLLKVEINETMYRQLDGNLEHEKIKALSDQVFQQLKSKCLVSIDVSIEHPGTIPRSMGKAIRVVRDSGIKI PGPT0026240_1451 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-OTHER_QSR|BF_RELATED_SYSTEMS CE-QSR_VIRULENCE_REGULATORY_SYSTEM,PGPT0026240-paaK-K01912 NA NA AK015_01941 981 paaA COG3396 1,2-phenylacetyl-CoA epoxidase, subunit A ATGGTTTTAACTCCTTTTCACCAATTAACAGCTGATGAAAAATATGATCATTTTATGGAAAGGATTGAAAAAGGTGAAAAAATAGAGGCGGAAGATTGGATGCCAGACGAATATAGAAAGGCATTGATACGTTTAATTTCGATGCATGGGATTAGTGAAATTATGGGGGCACTCCCTGAAAAAGAATGGGTACCTAAGGCGCCAACTTTACATCGAAAATTAGCTATTATGGCTAAAGTTCAGGATGAAATGGGGCATGGTCAGTTGCTGTTACGCGTCGTAGAAGATTTAATCCAACCATTGGGGAAAACAAGAGACCATATTATGGAGGATTTATTTACAAAGCGACTTAAATTTCATAATGTCTTTCATATGCCTGCACCATCATGGGGAGATGCAGCTATTATTGCTTGGTTAGTGGATGGAGCGGCTATTTTATCACAAACGATGATGTTAAATACTTCTTATGGACCATATGGAAGAGCATTGAAAAGAATTTGTCAGGAGGAATCCTTCCATGCGAAACATGGGGAAAGCTTAACACTAGCTTTGGCTAGTGGAACGGAAAAACAAAAAACCATGTTACAGGAAGCACTTCATCGTTGGTGGGAATCGTTATTAACCTTTTTTGGCCCGAAATCAAAGCAAGAAACAGGTCACACCAATGTTGATATTGGTATAAAGTATAAACTTCGAACAAAAACAAATGAGCAATTACGGCAAGAATTTTTAACGAAATATGTACCAAAAATTCAATTACTTGGATTAAGCATTCCAGACGAACAGTTGCGTTTTGATGAAGATACACAAGAGTGGCGTTATACAGAGCCAGATTGGCAGAAATTTAAAAGAATAGTAGCTGGGAATGGACCAAAATCAGATGAAAGGCTAGCTTTACGCAGGAATTCTTATGTAAATAGTCAATGGGTTCGGGATGCGTTAAAACAATACAAAGAACAAGCAAGTGAACATGTTGGATGA MVLTPFHQLTADEKYDHFMERIEKGEKIEAEDWMPDEYRKALIRLISMHGISEIMGALPEKEWVPKAPTLHRKLAIMAKVQDEMGHGQLLLRVVEDLIQPLGKTRDHIMEDLFTKRLKFHNVFHMPAPSWGDAAIIAWLVDGAAILSQTMMLNTSYGPYGRALKRICQEESFHAKHGESLTLALASGTEKQKTMLQEALHRWWESLLTFFGPKSKQETGHTNVDIGIKYKLRTKTNEQLRQEFLTKYVPKIQLLGLSIPDEQLRFDEDTQEWRYTEPDWQKFKRIVAGNGPKSDERLALRRNSYVNSQWVRDALKQYKEQASEHVG PGPT0006045_636 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006045-paaA-K02609 NA NA AK015_01942 318 hypothetical protein ATGGCAAGTGAACAATTTTATGAAGCGTTTGAAGTTTTTAGCAGGAAAAGGGATGGCTTACCTTTAGAACACCGATTTAGCTTAACAGCACCCAACAAGGAAATGGCTTATATCATGGCGAAAGAAAATTTTTTTCGGCGTGAAGCCGTGAAAGAATTGTGGGTTGTAAGTCGAAAAGAAGTTAGGAAGATGACCCAAGAAGAAAGAGAAGCCTTTCAATTAATGGATAATAAAGCTTATCGGGAAACTCGTGGCTATGTAGATCTCCCTAAGAAATGGAAAGAATTTAATCATGATACAAAAGTGAAGGAGGGGTAA MASEQFYEAFEVFSRKRDGLPLEHRFSLTAPNKEMAYIMAKENFFRREAVKELWVVSRKEVRKMTQEEREAFQLMDNKAYRETRGYVDLPKKWKEFNHDTKVKEG PGPT0006050_219 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006050-paaB-K02610 NA NA AK015_01943 792 paaC COG3396 1,2-phenylacetyl-CoA epoxidase, subunit C TTGCAACGAGAAGATATGGTTTTGTGTGAATTACTTTATCAATTAGCAGATGATAATTTCATTCTAGCCTATCGTGGCTCGGAATGGCTCGGAATGGCGCCTCATATTGAGGAGGATGTTGCTTTTTCATCCATCAATCAAGATATGATGGGGCATGCGGTCATGTATTATCAATTGTTAGAGGAATTAGGAGCGGGCGATGTTGATACGTTATCACATTGTAGAGAGCCAGAATCCTTTCGAAATGCTATTCTTTTAGAGCGGAAGAACGGATTAGGCCATTATTTAAAAAATCCCAATTATGATTGGGCCAATACGGTAGTTCGCCATTATTTGTTCAGTGTGTTGAAACAAATTCGCTTAGAATCTCTATATCATTCTAGTTATGAGCCTTTGAAACAAGTAGCAGAGAAAATCTCATCAGAGCATTACTACCATTCTATGCATTGGGAAACTTGGTTCACACAATTAATGGCGAGTACGAAAGAAGCCCGTCATCGTATGGAAAATGCTATCAACTCATGTTGGCAAGAGTTTGACGGAGTAATCTCTTTAGGTAGATACGGTAAAGAAATATGTGATTATCAGTTGATAGCGCAAGAAGACAAATTGCGAAATGAATGGTTAAGAAGAGTTTGTGATACATTTGGTGAAATGCAATTTTCACCCAAGACATCTCTTGGCATGGAAAGTGGAAATGGACGCAATGGAGAACATACGGAAGATTTAACGGAAGCTTTGGAAGTGTTGAGTGAAGTATACGGAGGTGATAAGCAAGCAGTTTCTTGGTAA MQREDMVLCELLYQLADDNFILAYRGSEWLGMAPHIEEDVAFSSINQDMMGHAVMYYQLLEELGAGDVDTLSHCREPESFRNAILLERKNGLGHYLKNPNYDWANTVVRHYLFSVLKQIRLESLYHSSYEPLKQVAEKISSEHYYHSMHWETWFTQLMASTKEARHRMENAINSCWQEFDGVISLGRYGKEICDYQLIAQEDKLRNEWLRRVCDTFGEMQFSPKTSLGMESGNGRNGEHTEDLTEALEVLSEVYGGDKQAVSW PGPT0006055_481 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006055-paaC-K02611 NA NA AK015_01944 540 paaD COG2151 Putative 1,2-phenylacetyl-CoA epoxidase, subunit D ATGACGAAAAACTTACTTCTAAAGAAAGAAGTACAGCAAGTATTACAGCAAGTAACTGATCCAGAAATGCCGTATATTAGTATCGTTGAATTAGGCATGTTGGAAAACATAGCAATGAAAAGGGACGGTTTTGTTCAAGTGGAGCTATTACCAACATTTAGTGGATGTCCAGCTTTAAATATGATTCAAGCAGATGTAAAAGAAAAAGTGAAAAAGCGCTTGTTAGATTGGAACGATGAATTAGAGGTTGAAGTTACATTTCGTTTTCATCCTCCGTGGACAACGGATCGCATTACGGAAACGGGGAAAGAAAAATTAAGACAAAATGGAGTTTCACCCCCACCTGCTTCTTTTACTGCGGGTGAACCTTGGAAGATTCCATGCCCTTATTGTCATTCCATGTATACAACGATGGATAATATATTTGGACCAACAGCATGCCGAAGTATTCTTTATTGTAATGCGTGTAAAAACCCATTTGAAGCAATGAAACCCATTGCTAATTTATTTGAAGGAGTGGAAAATAAATGGTTAAATTAA MTKNLLLKKEVQQVLQQVTDPEMPYISIVELGMLENIAMKRDGFVQVELLPTFSGCPALNMIQADVKEKVKKRLLDWNDELEVEVTFRFHPPWTTDRITETGKEKLRQNGVSPPPASFTAGEPWKIPCPYCHSMYTTMDNIFGPTACRSILYCNACKNPFEAMKPIANLFEGVENKWLN PGPT0006060_208 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006060-paaD-K02612 NA NA AK015_01945 303 hypothetical protein ATGGTTAAATTAATAGCATTGTATAAACGCCCTGAGGATAAGGTTAGTTTTGATGAACATTATCAGAATGTTCATACGCCCATCACTAAAAAAATTCCTGGATTACGTAAAATGGAAGTTACTAAAATTGTAGGTTCACCTAGTGGGGAAAGTAAGTACTATCTGTTATGTGAAATGTATTATGACGATCACGATGCATTAAAAGCGGCGATGAAAACGGATGAAGCAAAAGCATCTGGAAAAGATTTGATGTCATTCGCTGGGGATTTAGTGACGATGATGATTGGTGAGGAAGTTGAATAA MVKLIALYKRPEDKVSFDEHYQNVHTPITKKIPGLRKMEVTKIVGSPSGESKYYLLCEMYYDDHDALKAAMKTDEAKASGKDLMSFAGDLVTMMIGEEVE NA NA NA NA NA AK015_01946 720 echA8 COG1024 putative enoyl-CoA hydratase echA8 TTGCACCGCCCGAAAGTTTTAAATGCTATTAATCAATCGATGGTAGCAGAAATTTTAACTGCATTATGTGAATTTGATTATTCAGAGCAAGTGAAAGTCATTGTTTTATTTGGCGCCGGTAAATCTTTTGCTGCTGGAGCAGATATTAAAGAAATGATGGGAGAAAATGCGGTTTCCATGGAGTTGAAAAATCAGTTTGCTGATTGGGATCGTATTGCATTAATAAAAAAACCAGTAATAGCTGCAGTGCACGGATTTGTCCTCGGTGGTGGATTTGAGCTTGCATTATGTGCTGATATGATATTTGCAGCAGCAAATAGTAAATTTGGATTTCCAGAAGTGAAACTTGGTGTTATGCCGAGTGCTGGAGGTTGTGTGAAATTAACGAAATTAATAGGGAAAAGAAAGGCATTAGAATTTCTATGGAGTGGAAATCATTTGGAAGCAGAAGAAGCGAAACATTGGGGAATGGTGAATCGGGTTGTACCAAATGAACTTCTTATGCAAGAGACGATACATTTTGCTGAAAAATTAAAGAAGCAACCGGCTTTGGCTTTACGGTTAATAAAAGATACGGTTAGAAGGGCAGAGAATGTAACTGAAAATGAAGCGATGCAATATGAACGAAAAAACTTTTCTTTGCTTTTTGCTTCTGAGGATCAACAAGAAGGGATGCAGGCATTTATGGAAAAGCGATCGCCTCATTTTCAGGGGAAATAG MHRPKVLNAINQSMVAEILTALCEFDYSEQVKVIVLFGAGKSFAAGADIKEMMGENAVSMELKNQFADWDRIALIKKPVIAAVHGFVLGGGFELALCADMIFAAANSKFGFPEVKLGVMPSAGGCVKLTKLIGKRKALEFLWSGNHLEAEEAKHWGMVNRVVPNELLMQETIHFAEKLKKQPALALRLIKDTVRRAENVTENEAMQYERKNFSLLFASEDQQEGMQAFMEKRSPHFQGK PGPT0001860_8032 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 AK015_01947 774 paaG COG1024 1,2-epoxyphenylacetyl-CoA isomerase ATGTTTCAGACCATTCATTATGAAGAAAAGGATCAGGTCGCTTGGCTAACCTTGAATCGACCTGAGAAATTAAATGCATTTACAAGTACGATGAATCAAGAAATGATCGAAGTATTTCAAAGCGTGGGAAAGGATCATAAAATACGTGCCCTTGTTATTACTGGTGCCGGAAAAGCATTCTGTTCTGGAGAAGATATTAGCAGCCTACAACCTGAGATGCAACTAGGGGAAATTATTAAATCCCGCTACCAACCGATGATGAAAGAGCTTGCTCGAGTGGAAAAACCAATTATTGCTTCTATTAATGGAGCAACAGCAGGTGCTGGGTTAAGCTTGGCATTGGCGTGTGATTTTCGAATTGCTTCGGAACAAGCTTCATTTATGGAGGCGTTTATCCATATTGGGTTAATTCCAGACTCTGGAAATTTATATTATTTGCCTCGTATCGTCGGTTTAGCAAAAGCCCTTGAATTAGCTATTTTAGGTGAGAAGCTAACGGCAAAAGAAGCGAAGGAGGTTGGTCTAGTAACAAAAGTAGTCCCACCAGATCAGTTAGAGGCAGAAACGACTTCATTTGTTGATCGCTTGGCTCATATGCCTACAAAAGCAATTGGGTTAATCAAGCGTTACATGTACCAAAGCTTTGAAACGAACTTAAATAATATGCTAGATTATGAGGCGTTTGGACAAGAAATTGCTGGTAAGACAGAAGATTATGCAGAAGGGGTTCAGTCCTTTTTGGATAAACGATCCCCTAAATATAAAGGATATTAA MFQTIHYEEKDQVAWLTLNRPEKLNAFTSTMNQEMIEVFQSVGKDHKIRALVITGAGKAFCSGEDISSLQPEMQLGEIIKSRYQPMMKELARVEKPIIASINGATAGAGLSLALACDFRIASEQASFMEAFIHIGLIPDSGNLYYLPRIVGLAKALELAILGEKLTAKEAKEVGLVTKVVPPDQLEAETTSFVDRLAHMPTKAIGLIKRYMYQSFETNLNNMLDYEAFGQEIAGKTEDYAEGVQSFLDKRSPKYKGY PGPT0006070_2663 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866 NA NA AK015_01948 1518 betB COG1012 NAD/NADP-dependent betaine aldehyde dehydrogenase ATGGTAAAAACAACAGAACAGCCAATTTTTGCGAAAGAGCTAAAGCGTGAGACATACCAAATGGTTATTAATGGAAAATCAACACAGGCTAAGTCAGGTGAAATGGCGACGGTTTACAATCCTGCAACAGGTGAAGTCATTGCTGAAGTGCCAAAAGCAAATCTGGAAGATGTAGACTTAGCAGTAGAAGCAGCTCGAGAAGCTTTTGATAATGGCAAATGGAAGCGTTATCCAGTAGGAAAGCGCGCACGCGTATTAAACAACATTGCTTCGATTATGAGGGAGCGGTTTCATCAATTAGTTGAGATGGAAGTTATGAATAGTGGTAAAACCATCTCCGCAGCTCAAGGTCAAGTCATGCAGGCAATAGAAGATTTCGAGTTTTATGCTGGAGCCATTGTTGGACATTGTGGCACGGTAAATAATGTCCCTGGGCAGTTTTTTAATTATACGCAAAAAGAACCGATCGGTGTAGCAGCGCAAATTATACCTTGGAATTACCCAATGATGATGGCTGCTTGGAAGGTGGCGCCTGCCATTGCAACAGGCTGTTCTATTGTATTAAAACCCGCCAGTTTTACACCAATTACGGCAATTTTGTTAGCAGAAATTTGTACAGAAGCAGGTGTACCTGAAGGGGTTGTTAATGTAGTAACAGGCCCAGGTGCAACGATCGGCACTTATTTAACGGAACATAAAGGCATTGACAAGGTTGCCTTTACAGGAGAAACAAATACAGGGAAGGATATTATGGCAAAAGCTTCGGAAACCTTAAAGCGGGTTACCTTAGAGTTGGGAGGAAAATCTCCCAACATCGTATTCCCAGATGCCGATTTAGAGGCGGCGGTTAACGGGTCTGTTTTCGGTATTTTTTACAACACTGGTCAATCGTGTGAAGCAAGATCGCGCTTATTTATCCATGAAGATATGTATGATGAATTTATGGAAAGTTTTCTCGATAAGACAAGGAAACTAGTTGTAGATGACCCGATGTCAGAAAAGTCTCACGTTGGTGCGATTATTAGTAAACAACAATTGGATAAGATCCATCGTTATGTAGAAGGAGCAAAGGAAGAGGGTGCAACCGTTGTAACAGGGGGACATCCCTTAAAAGTAGAAGGTTTTGCAGAAGGATATTGGTATGCACCAACCGTAATAACAAATGTAACAAATGATATGAAAATTGCGCAAGAGGAAGTTTTTGGTCCTGTCGTTGTTGTGATGACATTTACAGATGAAAAAGAAGTGATTCAGTTAGCTAATGATACAAAATACGGTCTGGCTGCGGCTATTTGGGCGAAAGATCAAGGTCTTATAAAGCGTGTGTCTGATCGTATTCAGGCTGGTGTGGTGATGGTGAACTGCCCGTTTTCTGCTTTTCCTGGCACTCCATTTGGTGGATATAAACAGTCTGGATTTGGTCGTGAACTAGGAATAGAGACGCTAGATTTATATACAGAAACTAAAAGTGTTTTATCTTATGCAGGAAGAAAACCGTTAAATCCATTAAATCTATAG MVKTTEQPIFAKELKRETYQMVINGKSTQAKSGEMATVYNPATGEVIAEVPKANLEDVDLAVEAAREAFDNGKWKRYPVGKRARVLNNIASIMRERFHQLVEMEVMNSGKTISAAQGQVMQAIEDFEFYAGAIVGHCGTVNNVPGQFFNYTQKEPIGVAAQIIPWNYPMMMAAWKVAPAIATGCSIVLKPASFTPITAILLAEICTEAGVPEGVVNVVTGPGATIGTYLTEHKGIDKVAFTGETNTGKDIMAKASETLKRVTLELGGKSPNIVFPDADLEAAVNGSVFGIFYNTGQSCEARSRLFIHEDMYDEFMESFLDKTRKLVVDDPMSEKSHVGAIISKQQLDKIHRYVEGAKEEGATVVTGGHPLKVEGFAEGYWYAPTVITNVTNDMKIAQEEVFGPVVVVMTFTDEKEVIQLANDTKYGLAAAIWAKDQGLIKRVSDRIQAGVVMVNCPFSAFPGTPFGGYKQSGFGRELGIETLDLYTETKSVLSYAGRKPLNPLNL PGPT0006875_2519 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128 NA NA AK015_01949 864 mmgB_1 COG1250 putative 3-hydroxybutyryl-CoA dehydrogenase ATGCGTGGATATTTTGTGGTTGTAGGCGCAGGGGTAATGGGAAGGGGAATTGCTTATGTTGCTTCATTAAGTGGTTATTTTGTTAAGCTTGTGGATGTAAAAGAAGAAGTCCTTGTCAAAGCGAAACAAGAGATAGATGTATTGTATGAAAAGGGAATAGCTAATGGAAAGATAACAGAGGCAAAGGCGATAGCAGGAAAGGATAGCATTCGTTATGAAACAGATTTAGAAATAGCGGTGAAAGATGCCATCATTATCATTGAGGCTGTTCCGGAAAGAATAGAGATTAAAAAAGATATCTTTTCCATACTTGATCGCCATGCACCAAGAAATTGTTTATTTGCTACAAATACGTCGACCATGAGTCCAACGGAGATAGCTTCATACACAACCAAACCCGATTTCGTTATTGCTATGCATTTTTTTAATCCAGTTCATAAAATGCCATTAGTTGAAATTGTTCGTGGTTTGGAAACAAGTGATGAAGCAGTAAAAATAGCAGAAAACGTTGCTGAAAAACTGGGTAAAGAAACGGTGACAATTCAAGAATTTCCTGGGTTTGTTACAAGTCGTATTAGTTGCTTAGTAGGCAATGAGGCATTTTATATGCTCCAGGAAGGACTTGGTACCCCGGAAGAAATTGATAAAGCGATTAAACTCGGATTGAATTATCCAATGGGACCATTTGAATTAGGAGATTTAGTTGGTTTAGATACAAGACTTCATAATCTTCGGTATTTACATCAGAAGTTAGGGGATAAATACCGTCCTGCACCGCTTTTAGAACAGTATGTAAAAGCAGGGCGATTAGGAAGAAAAACAGGAAAAGGTGTCTATGTCTATGAAGGAGGGAGTGAGAGGTGA MRGYFVVVGAGVMGRGIAYVASLSGYFVKLVDVKEEVLVKAKQEIDVLYEKGIANGKITEAKAIAGKDSIRYETDLEIAVKDAIIIIEAVPERIEIKKDIFSILDRHAPRNCLFATNTSTMSPTEIASYTTKPDFVIAMHFFNPVHKMPLVEIVRGLETSDEAVKIAENVAEKLGKETVTIQEFPGFVTSRISCLVGNEAFYMLQEGLGTPEEIDKAIKLGLNYPMGPFELGDLVGLDTRLHNLRYLHQKLGDKYRPAPLLEQYVKAGRLGRKTGKGVYVYEGGSER PGPT0006075_3533 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074 NA NA AK015_01950 1197 pcaF_2 COG0183 Beta-ketoadipyl-CoA thiolase GTGAAAGAAGTGGTTATCGTTGATGCAGTAAGGACGGCAATAGGAAGATACAACGGTTCATTAAAATATGTACGTCCAGATGATTTAGCGTCGGTTGTCATTCAAGCGATCATTGATAGACAGCCAAAGTTACCCATAGATGCCATTAACGAAGTGATTTTAGGTAATGCAAATGGTGCTGGGGAAGAAAATAGAAACGTTGCTCGTATGGCTCTCCTACTTGCTGGGCTCCCTGTTCGTGTAACTGGTACAACCGTAAATCGCCTTTGTGGTTCAGGAATGGATGCTGTTCATATGGCGGCACGCGCAATAATGGTTGGAGATGGGGATATTTATATTGCTGGTGGAACAGAGAGCATGACAAGAGCACCGTATGTTTTACCTAAATCAGAATTCGCTTTTCAACGGGGAAATAAGATTTTACTAGATACTACGATTGGCTGGCGTTTCACTAATCCAAGGCTAGAAGCAATGTATGGTGCTGATTCCATGCCACAAACGGCAGAGAATGTGGCAAAACAATTTCAGATAACAAGAGAAGAACAAGATGATTTTGCTTATGCTAGTCAGATGAAAGCTAAAGCAGCAATAGAAGCGAATAAGTTTTATGATGAACTTATTTCAGTAAAATATATGTTTAAAGGAGAAGAAAAGGTTGTCGATAAAGATGAACATCCACGCCCCGCAACAACTCGAGAAAAACTAGCTAGCTTACAACCATTATTTGGTGGAGGGACGGTTACAGCAGGTAATGCATCTGGAATAAATGACGGGGCATCGGCGTTGTTATTAATGAGCAAAGAAAAAGCGGAGCAATTAGGTGTGAAGCCTATGGCACGCTACATAGCGAGTGGAACATCGGGAGTAGAGCCTTCTATCATGGGGATTGGCCCTATTGAAGCATCCAAAAAAGCATTGCAACGAGCTAATCTACAAATAGAAAACGTAGATTTAGTTGAATTGAATGAAGCGTTTGCATCCCAGTCGATTGCATGTATGAAACAACTTGAATTAAATCCGGAAATAGTTAATGTTAACGGAGGCTCAATTGCATTTGGTCACCCATTAGGAGCTAGTGGAGCAAGAATTCTTACGACTTTATTACATGAAATGAACCGTCGTAATAGTAAATATGCGCTTGCTACAATGTGTATTGGTGTGGGGCAAGGAATTGCGACAGTTATTGAAAAATGGTAA MKEVVIVDAVRTAIGRYNGSLKYVRPDDLASVVIQAIIDRQPKLPIDAINEVILGNANGAGEENRNVARMALLLAGLPVRVTGTTVNRLCGSGMDAVHMAARAIMVGDGDIYIAGGTESMTRAPYVLPKSEFAFQRGNKILLDTTIGWRFTNPRLEAMYGADSMPQTAENVAKQFQITREEQDDFAYASQMKAKAAIEANKFYDELISVKYMFKGEEKVVDKDEHPRPATTREKLASLQPLFGGGTVTAGNASGINDGASALLLMSKEKAEQLGVKPMARYIASGTSGVEPSIMGIGPIEASKKALQRANLQIENVDLVELNEAFASQSIACMKQLELNPEIVNVNGGSIAFGHPLGASGARILTTLLHEMNRRNSKYALATMCIGVGQGIATVIEKW PGPT0008320_3986 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK015_01951 777 crt_1 COG1024 Short-chain-enoyl-CoA hydratase ATGAGTAACGTTTTATTAAAGACAAAAGAACGAATTGCCTATGTCACGATAAATCGACCTGAAGTGTTAAATTGCTTTAATTATTCTACATTACTAGAGTTAGAGCGTGTTATAGAAGATTTGTCGATGAATCACGATATTTGGGCGGTAGTCATTACAGGTAGTGGTGAGAAGGCCTTTAGTGCAGGAGCAGATTTAAAAGAACGTAGACAATTAGGAAACAAGGAAGTTATTCGTAACGTTAAAAAAATTAGCTCTGTGTTTGAACAAGTTGCCAATCTTCCTCAACCGACCATTGCGTTAATAAATGGATATGCTTTGGGAGGTGGGTTGGAGCTTGCGCTTGCATGTGACTTTCGCATAGCTGTTTCTTATGCGACAATGGGGTTAACAGAAACAAGTATGGGGATTATACCTGGTGCTGGTGGTACGCAACGACTTCCTAGATTAATAGGGCAAGCAAAAGCAATGGAATTTATTTTAACGGCAAAACAGATTTATGCTAACGAAGCTTTGGAGTATGGTCTTGTTCATAAAGTAGTGGAACAAGAAGAACTTTTTGAAAGCTGTGAATTATTTGTTAAGTCTATCGTGCGTATGCCGCAAATCGCCATTCGGCAAGCAAAGTTTGCTATTCAACATGGGATGGACACGGATTTAAAAACAGGGATAAAAATAGAAGAAAGTGCATATCACTTAACGATTCCAACGAAAGATCGGGTCGAAGCGCTGACCGCATTTTATGAAAAAAGACCCCCTAAATTTATCGGTGAATGA MSNVLLKTKERIAYVTINRPEVLNCFNYSTLLELERVIEDLSMNHDIWAVVITGSGEKAFSAGADLKERRQLGNKEVIRNVKKISSVFEQVANLPQPTIALINGYALGGGLELALACDFRIAVSYATMGLTETSMGIIPGAGGTQRLPRLIGQAKAMEFILTAKQIYANEALEYGLVHKVVEQEELFESCELFVKSIVRMPQIAIRQAKFAIQHGMDTDLKTGIKIEESAYHLTIPTKDRVEALTAFYEKRPPKFIGE PGPT0001860_5326 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692 NA NA AK015_01952 873 paaX COG3327 Transcriptional repressor PaaX GTGCAAAGCAAACCAAACACACGTTCAATGATTTTTACGTTATTTGGAGACTATATTCGATACTACGGTAATGAAATATGGGTTGGTAGCTTAATTAAATTATTGGAGCCATTTGACCATAATGAACAGTCTATAAGATCAGCTGTTTCTAGAATGAGTAAGCAGGGATGGGTTGTCAGTCGTAAGGAAGCAAACAAAAGTTATTATTCATTGACCGAGCGTGGAAAAAAAAGAATGGAAGAAGCGGCCAGTCGTATTTATAGAATGGAGCCTGCGGAGTGGGATGGAAAATGGCGGACGCTACTGTACACCATTCCTGAAGAAAGAAGGCATATTCGCGATGAATTGCGTAAAGAATTGATTTGGAGTGGTTTTGGCTTACTGTCCAATGGCGTTTGGATTACACCGAATCATTTAAAAGAGCAAATTTATGACATTATTGATAAATACGGTATTAAAGAAGAGGTTTATTTTTTTGAAGCTAAAAATGAAGGTTTCCAAGCGAATAAACAAATCATACGCAGCTGTTGGGATATAGATCATATAAATATGCTATACGAAAAGTTTATTCATGCGTATGAGGAAAAAATGATTGCCAATGCCATGAAAATAGAACATGGGCAAATGAGTGACCAAGACTGCTTTGTAGAACGAACTTTACTTGTTCATTACTATCGGAAATCATTGTTTGTCGATCCAGGTATTCCAAAAGAATTATTGCCAGAGAAATGGTTAGGTGAACGTGCGGCGAAGTTATTTAATGAGTATTATCAAATTCTTGCAACAAAAGCGAATGCTTTTTTCAGAGCGATTTATTTAGCAGGATATGATAACTGTCCAAGGCAAAAACAAACCATTGCGAAGGAGGAGTAA MQSKPNTRSMIFTLFGDYIRYYGNEIWVGSLIKLLEPFDHNEQSIRSAVSRMSKQGWVVSRKEANKSYYSLTERGKKRMEEAASRIYRMEPAEWDGKWRTLLYTIPEERRHIRDELRKELIWSGFGLLSNGVWITPNHLKEQIYDIIDKYGIKEEVYFFEAKNEGFQANKQIIRSCWDIDHINMLYEKFIHAYEEKMIANAMKIEHGQMSDQDCFVERTLLVHYYRKSLFVDPGIPKELLPEKWLGERAAKLFNEYYQILATKANAFFRAIYLAGYDNCPRQKQTIAKEE PGPT0006090_513 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION PLANT_DERIVED_PHENYLACETATE_DEGRADATION,PGPT0006090-paaX-K02616 NA NA AK015_01953 954 COG2070 NADH:quinone reductase TTGGGCAATTTGTTAACGGAACGACTAAATATTACTTATCCTATTTTACAGGGAGGGATGGGAAATATAAGTGATCCTGGGCTTGCAGCAGCGATTTCGAATGTTGGTGGCTTAGGAACAATAGGTGTAGGGAATATGCCAGTTGAAGAGGTTTTAACAAAAATAAAAGAAATGATGAAAAGAACATCAAAGCCTTATTGTGTAAATGTTCCTATATCTGTTCATCCGCATACAGAACAATTAATTCAGGAATTAATTGACTTAAAGGTTCCTGTCGTTTCTTTATCTGCAGGCAACCCAGCACCATTTGTTTCATTGCTCAAAGAGCATGATATAACGGTTATCTGTGTCTCTTCCACCGTAAGCCAAGCCAAAAAAGCTGAAGCTGCTGGGGTGGATATTATTGTTTGTGAAGGGTATGAGGCTGCTGGTATTAATGCACTAAATGAAAGTACTACAATGACACTTATTCCCCAAGTTGTTGAAAAAGCAAGTGTACCCGTTGTCGCAGCGGGAGGAATTGCTGATGGTAAAGGTTTGGCGGCGGCTTTATCGTTAGGGGCGCTAGGTGTACAAATGGGAACGCGTTTTATTGCTACGAAGGAATCACCTTATCATGATAATTATAAACAGAAAATTATTCATGCTACGGATGAATCAACAATTATTGTTGGAAGAAGATATCATCATATTCGTAGATTAATGAAAACAAACTTTGTTCATAAGTTGGCAGAACTCGAAATGAATCATGAGAACCCTAATTTGTTTATAGAGAAAACAACCGAAGATCACCATAAATTAGGGGCGATCGTAGGCGATTTGGATAATGGTTTTATTAATGGTGGACAAATAGCCGGCTTGATTGATGATTGTCCTACTGTAGAGGAATTAGTAGAAACGATGGTAAGAGATGCCAAACAGATATTAAAGCTTAGTATGGAAAAACTTTTGTAG MGNLLTERLNITYPILQGGMGNISDPGLAAAISNVGGLGTIGVGNMPVEEVLTKIKEMMKRTSKPYCVNVPISVHPHTEQLIQELIDLKVPVVSLSAGNPAPFVSLLKEHDITVICVSSTVSQAKKAEAAGVDIIVCEGYEAAGINALNESTTMTLIPQVVEKASVPVVAAGGIADGKGLAAALSLGALGVQMGTRFIATKESPYHDNYKQKIIHATDESTIIVGRRYHHIRRLMKTNFVHKLAELEMNHENPNLFIEKTTEDHHKLGAIVGDLDNGFINGGQIAGLIDDCPTVEELVETMVRDAKQILKLSMEKLL NA NA NA NA NA AK015_01954 516 yrdA_1 COG0663 Protein YrdA ATGATTATTCCATACAACCAACACCATCCCTTTGTTCATGATAGCGTTTTCGTAGCACCAGGTGCATACTTAATTGGCGATGTAACTATTGGTGAAGAATCTACTATTTGGTTTAATACCGTCTTAAGAGGGGATGAGGATGCCATTACAATAGGGGAAAAGTGCAGTATTCAAGACAATTCTACTATCCATTTGTTTAAAAATTGTCCTGTGGTTGTAGAAGATGAGGTTACAGTGGGACATAATGTTATTTTACATGGTTGTAAAATAGGTAAAAGATCCATTATTGGAATGGGATCTACCATTCTAGATGATGTAGAAATTGGCGAAGAATGCATCATAGGAGCAAATACCCTTATACCACAAGGTAAAAAAATACCTTCACGTTCCCTGGTAGTCGGATCTCCAGGTAAAATCGTTCGCGAAATAACTGCAAAGGATCTTGAGCTTATTCAATTATCCATTGATACATATGTACAAAAAGGGAAAGATTTCAAACAAATACTGAAAAAATAA MIIPYNQHHPFVHDSVFVAPGAYLIGDVTIGEESTIWFNTVLRGDEDAITIGEKCSIQDNSTIHLFKNCPVVVEDEVTVGHNVILHGCKIGKRSIIGMGSTILDDVEIGEECIIGANTLIPQGKKIPSRSLVVGSPGKIVREITAKDLELIQLSIDTYVQKGKDFKQILKK NA NA NA NA NA AK015_01955 393 panD COG0853 Aspartate 1-decarboxylase ATGTATCGCATGATGTGCAAAGGGAAGATTCATCGAGCAACTGTTACAGAAGCTGAATTGGATTATGTGGGTAGTATTACAATCGATTCTAAACTAATGAAAGAAGCAGATATTAAACCGTATGAAATGGTTCAAGTCACAAGCTTGCGAAATGCAACTAGATGGAAAACTTATGCTATACCAGCTCCAGAATTATCAGGTAGGATTTGTTTAAATGGTCCTCCAGCTCACTTATTTTCACCTGGTGATATTGTTATCATATTAAGCTTAGGGTTAATGACTGACGAAGAAATCAAATCATTAAACCCAAAAGTAGTATTTGTTGATGAGAAAAATAAAATAACCGAAGTGGAAGAGCATGATTTGTATTGGCCACAAAATCAAAGCGTATAA MYRMMCKGKIHRATVTEAELDYVGSITIDSKLMKEADIKPYEMVQVTSLRNATRWKTYAIPAPELSGRICLNGPPAHLFSPGDIVIILSLGLMTDEEIKSLNPKVVFVDEKNKITEVEEHDLYWPQNQSV PGPT0008890_774 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579 NA NA AK015_01956 1215 thrC_2 COG0498 Threonine synthase ATGAAGTTTTGGTTTAGCTGTAGTAATTGCGGGAAAACTTCTGCTTTTAGTCTTAAAGAAACGAAATGTACATGTGAAGGAACACTTTTAGTAGATTATGATATGGAACATGTTGGTCATACTTTAACAAAGGATAGCTTAAAAGAAAGATCTGCTACGATGTGGAGATACAAGGAGTTATTGCCGTTAGAAGACGAAAAGCATATTGTTTCTTTAGGGGAAGGATGGACACCACTTGTACGAATGAAAGAGGCTGAGAAAAAATTCCCTGCAAAAAGATTATGGGTAAAAAGAGAAGAACAGAACCCAACTGGGAGTTTTAAAGCAAGAGGTTTCTCCGCAGCTTTGTCTATTGCAAAGGAATATGGAATTAAGAAAGTTGCTGTTAATTCAAATGGTAACGCTGCTTCTGCGCTAGCAGCATATGCTAGTTATGCCGGTATGGAATCACATGTATTTGTACCAAGCGACTGTCCAGGTTTAATTGTAGATGAATGTGTTCAATATGGCGCTAACACTTTTCTAGTAGATGGGTTGATTCACGATGCAGGGAAGATTATTTCAGTTGGACAAGCTGATCAATGTTGGCATAATGTTGGTACACTTAAAGAGCCAGGAAGAGCTGAGGGAAAGAAAACAATGGGGTTAGAATTAGCGGAACAGTTAAACTGGAAATTGCCAGACATTATTATTTATCCTACAGGAGGAGGATCAGGAATAATAGGTATGTGGAGAGCATTTAAACAATTAAAGCGATTAGGGCTTGTTGAAGGAGATTTACCTCGAATGGTAAGCGTACAAGAAGCTGGGTGCCAACCAATTGTTGATACATGTGAAAGTGGTAGGAAGTTTAAAGCGCAAGCGGAAAACGTTGATTCGGCACCTACTGGTATGCGCGTCCCAAGCCCTCCTGACGGTGAATTAATTGTTTCCATTCTTTCTGAGTCAAGTGGAAAAGCTATAGCAGTAACTCAAGAGGAAATTAAGCAGTCTCAGCAATCATTTGGAAAGCAAGGTATATCCTCATCGCCTGAAGGAGCAGCAACATGGGCTGGCTTTCAACGTTTAGTTGAGAGAGGATGGGTTACTTCCAATGATGAGGTTGTGTTATTTAATACTTCCCATGCCATGAAGTATTTGCCGTGGGAACAAATTAATATTCCTAATATTAAAACGTATACAGACTGGTTGAAAGCTTACTTTGTGGCATCTTAG MKFWFSCSNCGKTSAFSLKETKCTCEGTLLVDYDMEHVGHTLTKDSLKERSATMWRYKELLPLEDEKHIVSLGEGWTPLVRMKEAEKKFPAKRLWVKREEQNPTGSFKARGFSAALSIAKEYGIKKVAVNSNGNAASALAAYASYAGMESHVFVPSDCPGLIVDECVQYGANTFLVDGLIHDAGKIISVGQADQCWHNVGTLKEPGRAEGKKTMGLELAEQLNWKLPDIIIYPTGGGSGIIGMWRAFKQLKRLGLVEGDLPRMVSVQEAGCQPIVDTCESGRKFKAQAENVDSAPTGMRVPSPPDGELIVSILSESSGKAIAVTQEEIKQSQQSFGKQGISSSPEGAATWAGFQRLVERGWVTSNDEVVLFNTSHAMKYLPWEQINIPNIKTYTDWLKAYFVAS PGPT0009175_4642 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733 NA NA AK015_01957 615 hypothetical protein ATGTTTAAGAAAATTGCAAGCGATGCTTTAGGTTTAAGCGATATCGGAAAAATCATTTCTCCAGAGGATTTTGATAAGACAGAGTCAGATGACTATATTTTACATGAGAAAGGAGAGAAGATTCACTTTCTCATTAAGTCAAAATCAGATGAGTATTGCTTTACAAACTTTGCGTTAATTCACCTTGATGGCGAAAAAGCATCAAGTAGTAAACGTAACATTTATCGTTATGATTACTATCAACATCCCATTAGCGATGTATCTGTAGAAACAGCAGGTACTGTGGATTTGGATTTAGAAATTAAATTCTCCATTGGCAAGATGCCAATTTCTGTTGATATTAGTAAAAAAGAAGGCGAAGCAATTGCAGATTTATACAAATCATTGGTAACCATTTCGCAAATACAAGATTCGAATGAGCGGAAGAAAAAATTTGCTAAAGATAGTTTACAAGTCTCTCAATCTTTATTTAACGATAACCGTTTTCAAGAGGGAATGATATCCAAAGAATTTGAAGAAGCTACTAAATTTGCATTTGAATGGTATACATCAACATATGATGAAAATACGCAAAAGGATTTTGGCGAAGTATTTGATACGTACATTCAGAATTAG MFKKIASDALGLSDIGKIISPEDFDKTESDDYILHEKGEKIHFLIKSKSDEYCFTNFALIHLDGEKASSSKRNIYRYDYYQHPISDVSVETAGTVDLDLEIKFSIGKMPISVDISKKEGEAIADLYKSLVTISQIQDSNERKKKFAKDSLQVSQSLFNDNRFQEGMISKEFEEATKFAFEWYTSTYDENTQKDFGEVFDTYIQN NA NA NA NA NA AK015_01958 510 hypothetical protein ATGGGAAACAATAAAAAGAAAGTAGATATCGGGTTGATTTTGGCGAATATGCTATTACTAGTCATGGTGATTATTTTAGCAACTTTGTTTATAGCCATACCATTTGTTATTTCCTTTGCTGTCATTTACCTTGCTCAAGTAATACCGTTCATTGATTTTCATTTTTATGAAGACTTCTGGGGGAACTTCTGGTTTTTTACAGGCTTCACACTGTTAAGCTTATTCATGGTAGCAATCATTGAAATTGCGATATTCATTGATCGAAAAGATAAAAAGTTTCGTTCTTTGGATGACATTGGCCCTAGCAGTTTGAAGGAATGGATTATTTTCTTAACGGTTTTTAGTGTGTATATGAATGCGTTTAACCTCTATTCTGAACGACTAGATACGAATTTTATTGGAGCTACAATCATAGGCTTGGTATTTGTTTTTCTACTATACGTTTTTGGGAAAATAATTGATCTATTTGCTGACGAAGAAGATACGGCGGATGTGATGGAAGAAAAATAG MGNNKKKVDIGLILANMLLLVMVIILATLFIAIPFVISFAVIYLAQVIPFIDFHFYEDFWGNFWFFTGFTLLSLFMVAIIEIAIFIDRKDKKFRSLDDIGPSSLKEWIIFLTVFSVYMNAFNLYSERLDTNFIGATIIGLVFVFLLYVFGKIIDLFADEEDTADVMEEK NA NA NA NA NA AK015_01959 783 rhaS HTH-type transcriptional activator RhaS ATGTGTCGTGTATTATTAGCTAGTCCCGAACACGCAGACCGTAAATTTCTAAAACAAATTTTTGCAGAACATTTTTTTAATGTCCTATTTCTTGACGATGCCTTATCTGCTGAAAAAGCATATGAACGTTCATTAGAACAACGACCTGATATGCTTATATTAGATGTCAGTGGATCGAGTGAAGAAATTTTTCAATATAAGATAAATATCGTTAAACGCCACCCAAACGTGAAAGTTATTTTAATAGACAATGAGGAAAACTTTAAACATATTCAAACAGCAATTCGTTGTGGAGCAGTTGACTACTTGGTGAAGCCATTAAAAGTCGAAGAATGTAAATCTGCCATTCATCGGGCAATTTTGGCACTAAATCAAGTATCTTTATTAGACTATGAACGTAAATCTGTTACCGATACCATTAAAGAAAGCGCCGCTCAAATGATGCAATACGTCCATGAACATTATTATGAAGAGATTAACTTGGATTCATTAGCAGCATTCATGCATTTAAATAAAAGTTATGTAAGCCGTTTTTTCAAAGAAACCGTCGGCATGTCTTTCGTAAGTTATTTACGACATTATCGGTTAGAACAAGCAAAAAAATTATTGCGCACATCCGATTTAACAGTCACAGAAGTTGCCGAACAAGTTGGCTATCTTGACTTAACCTATTTCAGTAGGATTTTTAAAAAAGAAAACAACCATACACCCAATGAATATAAGCAAATTTTTCAAGGAGAACATGTGCCAGCTGATATTGCTTTTGCAGAGGGACATCATTGA MCRVLLASPEHADRKFLKQIFAEHFFNVLFLDDALSAEKAYERSLEQRPDMLILDVSGSSEEIFQYKINIVKRHPNVKVILIDNEENFKHIQTAIRCGAVDYLVKPLKVEECKSAIHRAILALNQVSLLDYERKSVTDTIKESAAQMMQYVHEHYYEEINLDSLAAFMHLNKSYVSRFFKETVGMSFVSYLRHYRLEQAKKLLRTSDLTVTEVAEQVGYLDLTYFSRIFKKENNHTPNEYKQIFQGEHVPADIAFAEGHH NA NA NA NA NA AK015_01960 1353 adhE_1 COG1012 Aldehyde-alcohol dehydrogenase ATGGCAATAAATTTAGTGCAAGAAACTGTACAAACATATGAGGTAGAGACGCTAATTCAAAAAGCGAAACACGCCCAGCATATATATGCCAGTTTCACCCAAGAACAAGTCAATGAAATAGTAAAGGCTATATCTGTCCGACTAACAGAGGCTGCAGAGGACTTAGCATATAAAGCACATACTGAAACAGGATTCGGTAATGTGAAAGATAAAACGACGAAAAACTTATTCGCTAGTGAGCAAGTATACGAGAGCATTAAAGATGAACCAACCGTAGGCGTTATTAATCGAGATGAAATGAATAAAGTGATTGAAATAGGCGTGCCAATGGGAGTAATTGCAGCACTTGTACCGGTTACCAATCCAACATCTACGGTTATTTTTAAAACACTAGTGGCATTAAAAACAAGAAATGCCATTGTATTATCACCACATCCAAAAGCTGTCAACTGTATTGTTGAAGCTGCACGCGTTGTGGAAGAAGCAGCAGTGAACGCTGGAGCACCAAAAGGTTTAGTTCAAGTAATTGAGTCGCCAAGCTTAGAAGGAACACAAGCATTAATGCAACACGATGATACAGCATTAATTTTGGCAACTGGTGGTGGACCAATGGTAAAAGCTGCTTATTCTTCAGGTAACCCAGCAATTGGGGTGGGGCCTGGTAACGGTCCAGCTTTCATTGAAAAATCAGCTCATATCGAAGAAGCAATCGATCGGATTATTACGAGTAAGACATTTGATAATGGTACGATTTGCGCTTCAGAACAATCCATTATTGTTGAGAAAGGTATAAAAGAAGAAGTTGTAAAGGAATTGAAAAAGCGTAAAGCTTATTTTATGAACCAGGAAGAATCAGAAAAAGTATCTCACTTTATCATGCGAGAAAATGGCACCATGAACCCACAAATTGTAGGTAAAGCCGTTACAGAAGTTGCTAATCTATGTGGGATTATCATTCCTGCAGATACAAGTGTGCTTATTTCAGAGGAAACGACAATAGGACCTGATAATCCGTACTCACGTGAAAAGTTAACCCCAATTCTAGCAATGTACACGGTAAATGATTGGGATGAAGGTGTTACAACATGTAATACCATTTTAGAAAATGAAGGTGCAGGACATACAGCTATGTTGCACACAACAAATGATGAGTTAGTAGAAGATTTTGGTTTACGTATGAAAGCCTCTCGTATTTTGATTAATACACCGGGAACATTTGGGGGAATTGGTTTTTCTACAAATCTAGCTCCTTCCCTAACACTGGGCTGTGGTGCAATTGGTGGAAGCAGTATTACGGATAACGTAAGTGTTCGTCAGTTAATGAATATTAATCGAGTTGCGTATAATAAATAA MAINLVQETVQTYEVETLIQKAKHAQHIYASFTQEQVNEIVKAISVRLTEAAEDLAYKAHTETGFGNVKDKTTKNLFASEQVYESIKDEPTVGVINRDEMNKVIEIGVPMGVIAALVPVTNPTSTVIFKTLVALKTRNAIVLSPHPKAVNCIVEAARVVEEAAVNAGAPKGLVQVIESPSLEGTQALMQHDDTALILATGGGPMVKAAYSSGNPAIGVGPGNGPAFIEKSAHIEEAIDRIITSKTFDNGTICASEQSIIVEKGIKEEVVKELKKRKAYFMNQEESEKVSHFIMRENGTMNPQIVGKAVTEVANLCGIIIPADTSVLISEETTIGPDNPYSREKLTPILAMYTVNDWDEGVTTCNTILENEGAGHTAMLHTTNDELVEDFGLRMKASRILINTPGTFGGIGFSTNLAPSLTLGCGAIGGSSITDNVSVRQLMNINRVAYNK PGPT0006360_839 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072 NA NA AK015_01961 1134 cheB_2 Protein-glutamate methylesterase/protein-glutamine glutaminase ATGAAGGCTATTATTGTGGATGATGAACAATCGGCTTTAGACTATTTGGAACAACAGCTCAAAAAGATTAGTAAAATGTATGTTATTGGTAAAATAACTAATCCTATCCATGCACATAAAACTATTCTTAAAGAGGACGTGGACGTAATATTTTTAGATATAGGGTTGCCGGAAATGAATGGTATTCGTTTGGCTGAAAAAGTTTTAAAAGATAAGCCAAACTTACTTATTGTTTTTGTGACTGCTTATGATAAATATGCTGTAAAGGCATTTGAGCTTAATGCAATCGATTATCTAGTTAAGCCAATTCCACCTGAACGTTTGAAAAAAACAGTTGAACGAATAGATAATAATTTACAGTCATCTACAATTGAAAAAAATTCACCACTTTATGTAAATGTGCTCGGTCAATTCTCGGTTGAATCGGTTAAAGGGAAACGTGAATTTGTTGCCTGGAGAACGAAAAAAGCAGCGGAATTATTTTTATATTTATTACATCATAGAGGGAAAATGGTCAGAAAATCATTTTTAATTGAGCTACTTTGGCCTGACCTAGCATTAGAAAGAGCCAATTCATTGTTGTATACAACAATTTATTACGTAAGAAAAACACTGAGAAAGTATCATAGACATTTGAGATTACAAAATGTTTCTGATGGCTACGTTTTAGAAACAGAGAATATTATTTTAGATTTTGAAGAATGGAAAGAACAAATTAAAACGCTACCACCTTTGAATGAAACATCCGTTAATAATTATATTCAAGTATTGTTCTTATACAGAGGTGCATATCTACAGGGATATGACTTTTGGTGGGCAGAGTCAGAACGATATTATTGGGAGCAGATTTGGTTGACGAAAGCTTTGGAGATTGCGGCATTTTATCAAAAGAATCAAAATATGGCTGAAGCAAAACTATGGTATAGTTATATATGTAAAATTATCCCAGAAACAGAAAGTGCTCATTTTGCTTTAATGAAAATTTATGCACTTGAAAACAATCCTGCGCATGTGCATCAACAGTATGAATATTTGAAAAGCTACTTAAAAACTGAAGTAGGAGTGCTCCCAAACAATGATATTGTTGGATGGTACAACTCATGGAAGTCAGGCAGAAAAGTATTTTCTCATTAA MKAIIVDDEQSALDYLEQQLKKISKMYVIGKITNPIHAHKTILKEDVDVIFLDIGLPEMNGIRLAEKVLKDKPNLLIVFVTAYDKYAVKAFELNAIDYLVKPIPPERLKKTVERIDNNLQSSTIEKNSPLYVNVLGQFSVESVKGKREFVAWRTKKAAELFLYLLHHRGKMVRKSFLIELLWPDLALERANSLLYTTIYYVRKTLRKYHRHLRLQNVSDGYVLETENIILDFEEWKEQIKTLPPLNETSVNNYIQVLFLYRGAYLQGYDFWWAESERYYWEQIWLTKALEIAAFYQKNQNMAEAKLWYSYICKIIPETESAHFALMKIYALENNPAHVHQQYEYLKSYLKTEVGVLPNNDIVGWYNSWKSGRKVFSH PGPT0026304_81 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 AK015_01962 1089 hypothetical protein GTGTCGACATATTGGTTAAAACAGCCTGATGTTCAGGTAGAAGAAACGGAACAGGGACAAATTATCTGTACATTGTTAAACCGTTCAGAAACCATTGTATATGAAAGTATGAGTGTATTTATAAATTTTTTAACCTATTTACAACAGCCGCGAAATTTTGAAGAACTTCTCGTTTGGGGAGAACAAAATGAAATTACAAAAGAAATGCTAGTAGAAACATTACAAACTCTAGTAAATGATAAAATCTTGTTAACTGGTAATCAACCTTGGAATTTAACAGGAGAAAGTAGATTGTGGAGTTATCTTGCTGCACAAACATCCTCGCTTGATCAGCTATTAGACAGTGAACGAGCATGGTGTTCAAGCCGAGTAGGAATCATTGGTGTGGGAGGCGTTGGAAGCAGAGTTGCTCATGAGTTAGCGGCAATGGGAATTCCCTCCCTAATTCTAATTGATCATGATAATGTAAGCACTCACAATTTAACTCATCAATCATTGTATCCTAAAAACACTGTTGGTGAATTGAAAGTAAACGTTTTAAAAAATATATTACATCATCGATATGGAACGTTAATAGAAACTGTGCATGACCCTATCACCCAAGATATTTCTGCAAACATTTTAGAAAAACTTAAAACATGCTCGGTTGTTATATTATGTGCGGATGAGCCTTCTGTAGATACATTAGCTGATTGGATCACGCCCCATCTTACAAAGAACAATATTGCGCATATTGTTGGAGGTGGCTATCATGGTCATTCTACTAGTACAGGTACAACTGTAATTCCGGGAGTAACTGGGTGTTGGAAATGTTACGATTCGCTGGTGGAGAGAAAAGATATGCATAGTGTTTATCAACATATCCGTGGCATTTCTGGTTCTTTTAATCCGCTGATAAAAATTCTTGTAAGTTTTATCATCTCGGATACAGTAGCTGTTATTACTAATTTAACAAGGCCTTTACTTGTGAATGGAATGGGTGATTTTGATTTAGAAACTGGAAAATTCAAATGGAGACCAGGTTCACGTAATGAAAATTGTGATTGGTGTGCGAATATACCAAAGTCCTATCCTAGTTTTATGAAATAA MSTYWLKQPDVQVEETEQGQIICTLLNRSETIVYESMSVFINFLTYLQQPRNFEELLVWGEQNEITKEMLVETLQTLVNDKILLTGNQPWNLTGESRLWSYLAAQTSSLDQLLDSERAWCSSRVGIIGVGGVGSRVAHELAAMGIPSLILIDHDNVSTHNLTHQSLYPKNTVGELKVNVLKNILHHRYGTLIETVHDPITQDISANILEKLKTCSVVILCADEPSVDTLADWITPHLTKNNIAHIVGGGYHGHSTSTGTTVIPGVTGCWKCYDSLVERKDMHSVYQHIRGISGSFNPLIKILVSFIISDTVAVITNLTRPLLVNGMGDFDLETGKFKWRPGSRNENCDWCANIPKSYPSFMK NA NA NA NA NA AK015_01963 888 hypothetical protein ATGTCAATCTTAAACTTTAATAATTTGTTGCAATTTCACTCTATTTTAAAGAATATCCCCTTTCAAAAAAAAGAAGAGCAACAATTAGCAGATCTTTTTTTGAAAACCATTGTTGAAACAGACATGAATTCGAATACACTAAATCCATTGAAATATGTACCTGTGATCAAGTCATTTCCCGCTTTGAACCAAAGCGCTCAGGAAATTAGTCATGCTTATAGTTTATTTGCAGAAAAAAGAAAATCTGCTTGGACCTACTTGTCCTTGTCCCTATACAACAAACAATATGATCAGATCATTGAACCGGAGAGTGATCGATTATTAAAATCGATAGAACCCGCTCATTCTAAAAATCGTATTATCATTGCTCCATTTCATATGGGTATGCATACGATGTCCATGCCGTTAGTTACACGTTATTTCGATAAAACAACAATACTCGTAAATAGTGATGAAATAGATATCATTCAGCAATGGATGTCTACATATCTTGAAGCATCATACAGTGATTCCATAGATATGGTTCCTGTACCTTCACATACAAGCCCTTTAAAATTTACTAAAGCTATTATGAGGGGAGCAACGGGTATTATTTTCCCAGAGTTTTCATATGGTATTAATCAAGAAGAAGAGGAAGTGCCCTTCTTAGGTGGGACATTTAAAGCACCAATTGGTGTTTATGTGCTTGCCAAGCGTCTGTCAGCAAAAGTATATCCTCTGGGTTCTATTTGGAATGAAGAGGAAAACAAAGTTCGTTTCATGGTTGGAGATAGTCTTGATCCCAACGCATTATCTCAGTCCACCTTTCTACAACACTTATTTGCACAAGGAGAAGAATGGATCGCTAAAAATCCTGAGCAATGGCTTTGGGATCATTTAATAGAGTAG MSILNFNNLLQFHSILKNIPFQKKEEQQLADLFLKTIVETDMNSNTLNPLKYVPVIKSFPALNQSAQEISHAYSLFAEKRKSAWTYLSLSLYNKQYDQIIEPESDRLLKSIEPAHSKNRIIIAPFHMGMHTMSMPLVTRYFDKTTILVNSDEIDIIQQWMSTYLEASYSDSIDMVPVPSHTSPLKFTKAIMRGATGIIFPEFSYGINQEEEEVPFLGGTFKAPIGVYVLAKRLSAKVYPLGSIWNEEENKVRFMVGDSLDPNALSQSTFLQHLFAQGEEWIAKNPEQWLWDHLIE NA NA NA NA NA AK015_01964 1260 hypothetical protein ATGTGGATACTTTTAAAAAACAAATCGTTTACCAAGCTTTTCTTAGGGAAGATCGTTTCAAATATTGGTGATAGTATGTATGCTATTGCAGCAATGTGGTTGGTGTATGAGTTAAGTCATTCAGCGTTTTATACTGGATTAGCTGGGTTTTTGACAAGAATTCCGGATGTTTTTCAATTTCTGGCTGGACCATTTATCGATCGCTGGTCTTTGCGAAAAACTTTAATAATCACACAAGTATGTCAAATTATACTTGTGCTTATTATACCAATCGCTCACTACACCGGAGATTTAAATGTCTGGATGGTACTTATCATTATGCCAGTTATATCTTGCATTCAACAATTCTCGTATCCAGCTCAAATGGTTGCATTGCCAAAGTTATTGAAGCAAAATGAGTTGGTGAAAGGTAATTCTCTTTTTTCTTTTGCTAATCAGGGTATTGATATGACATTTAATGGCATTGCTGGAGTACTTATAAGTATAGTTGGTGCTGTTAGCATTTATTTGTTAGATGCTATTGTTTTTATGGTGGCGCTGCTTTTATTTTGGACATTGCCCGTCTTAAAAACGTATGAAAAAGAAAAACAAGAAAAACAAAAACTGACGGAGGCGTTTCAAAAGTATGGAAAAGACCTAAAGGAAGGATTCCAGTATGTTTTTCAATCCATTATAAGTAAGTTTTTTATTGCTACCATTATTGCTAACTTTTCTTTCGGTATCGCTTTGGCGGTAATGCCTGTCTACGCAGATTTTCGTGGAGGATCTACTACCTATGGATTTCTTATGGGTGCATTTTCTGCTGGATTCTTAATTGGAGCACTATTAAGCTCCGTTGTCGGTGCTTTTCCACTAGGCAAGACGATGATTGTAACTTATTTGTTTAGTGCCTTACTTTGGATAAGTTCTGCATTTCTTCCATGGGATATACCCGCTGTCATTGTGTATGGAATATCACTGATACCACTTGGTGCTACACAAGTACTACTATCAGCAACAGGGCAACGTATTATTCCAAGTTCACTACTAGCAAGGGTTTTTTCAGTTATTACAAGCTTGTCTTCTATAACGATGCCTCTAGGTTTTTTAATTGGTGGTACACTAGGATCCGTTTTCGGTGGGCAAATTATATTTGCTATCGGAGGTCTCGGTATGCTCTCCATTTCATTTGTGTGGTTGATCTTATCAGAATTACGTCGAATCCCAAAAGTTAATGATATTACCCCAGAAACATATGGCCTTAAAAGATCAATTAATTAA MWILLKNKSFTKLFLGKIVSNIGDSMYAIAAMWLVYELSHSAFYTGLAGFLTRIPDVFQFLAGPFIDRWSLRKTLIITQVCQIILVLIIPIAHYTGDLNVWMVLIIMPVISCIQQFSYPAQMVALPKLLKQNELVKGNSLFSFANQGIDMTFNGIAGVLISIVGAVSIYLLDAIVFMVALLLFWTLPVLKTYEKEKQEKQKLTEAFQKYGKDLKEGFQYVFQSIISKFFIATIIANFSFGIALAVMPVYADFRGGSTTYGFLMGAFSAGFLIGALLSSVVGAFPLGKTMIVTYLFSALLWISSAFLPWDIPAVIVYGISLIPLGATQVLLSATGQRIIPSSLLARVFSVITSLSSITMPLGFLIGGTLGSVFGGQIIFAIGGLGMLSISFVWLILSELRRIPKVNDITPETYGLKRSIN NA NA NA NA NA AK015_01965 2712 hypothetical protein TTGATACTAAAAACTCTTCGTAAAAAAGTAGTTTTGTTTTTTATTGTTATGGTACTCGTGCTACAAGGGTTTACATCTACAATAGTTGGAGGTGAGGTAGACGATAAAGATCCGTACTTAGATATTCTTACAAATCAGGAGGCAACTACAGAGAGTGTAGTTGTGCAAGTTCAGGCGGAATTTTCCACATTTAGTATGCTTGAAATCAAACTGCCAAAAGGGGCTACGTATGATGAGGAAAAGACGCGTTCTATACAACAAGGAGCTACTTTAGATTACAATGCTAAAAAACACGTGTTAACGCTTAAAGGGGAAAAAGGTGTACCCGAGCAACAAATAGCGTTTGTTTTAAGTAATCTGGAACAATCTCATAACGCTTTAGCTATTACTGGAAAGTTAGATGGAAATGTAGTATTCGAAGAGGATTATTCATTTCAAGTAAAGGAAGTACCGGATAGTTCGAAACCTGAGAAAAAAGAGAACAAAGAAACCTCGCAAAATAAAGTAGAAAAAGAAAAGAATGAAGAAAAAGAAAAAAATAAAAAAGAAGCAGTAAAACCAGAAGCTGAAAATAAAGATTCTATAAAACAACAGGGGCAGCAACAGCAGTATCCATCGTATACTACACCTGCAAAATATATGGCAAAAATAAATACAAACTGGCCAAATCCAGGCTCATTAAAGTTATTAAAAGAGGCAAAATCAACTGATGAGTATGGAGAATGGGAGATAGAATTAACGGCTCAAGGAAAAAATTTAAAACAAAAATCAGATGTTGTTTTATTATTTGATCGTTCTAATACGATGTATGGGAGTCGTGTTCATAAAGCTAAACAGGCTGCACAACAGTTTGTTGAAAATCTTTTAACAGAAGATGCAACGACTAGAATAGCGTTAGTGCCGTTTGGTACAGAAGCAGACAGACATGTGGATTTTAAAGGCCATAGCGAAAAACAAGTATTGAAAAGGGCGATTGAACGAATCCGTGTAACTGGAGGACCAGATGGAGCAACGAATATCCAGGCAGGTCTCCATAAAGCAAAACAATTACTGAATAGAAGTAATGCAGACAGAAAAACGATTGTCCTTTTAAGTGATGGTGAACCGACCTTTAGTTTTAGAGCGGGGAAGGCAGAGGGGTATACATGGCCGAATAATAGATATAACTTTATGCTCTCTGATTTTAATTATAATGAACTAATTGGTTCTGGAGCATCTTACTACTTAGGATGGGAATCATATTGGCTTGATGGGTTCAGAGTCAGAACAAATGGAATTGCAACTCTTTCTGAAGCAGTTCAGATTATGACTTCTGGCAACGATATATATTCCATCGGCATAGATGTGGGCGATTACGAAGAAGCAATATATGTATTAAAAAATAGCCAAAACAGAGGTTACTATGAAGGAACGGAAGATGAATTACAACAGATTTTTACTGAAATTAGTGCAGATTTGTCGCACTATGCAGCAAGTAATAGTGTTGTAACTGACCCAATGGGAGACATGTTCAACCTCGTAAAAGATGGCAGTTACAGTGGCAAAAACTTTTCAGCAAGTCATGGAGAAGTAAATTGGAATGAAGCAAAAGAAACGTTTACTTGGGATATAGGTGATATTAAGGAGAATGAAACGTACACGTTAAAGTACAAGGTGACTATTGATTGGGATAAAAACCCAAAAGGAAATGAACGATATCCAACGAACAAAGATACACCGCTAAATTATACGGATCCAAATGGCGACCCGCAAACAAAACCATTTCCAATTCCAGAAGCAGGAATTGATAAAGGAAAAATTATTAAAAAGGGTTATCGTGTAAATGTGGACGGAGATCCGATTGACCAGAATGGTAATGTCGTTTCTGATCCATCCTTAGCAGAGCAATTTTATGAAGAAGCCCATCAAGAAAATGATCAGCAAGAATTAAAGTTTAATGAAACGTATCAAGTAACAGCAAATGATGTGACTGATTATACATTGCATGTAGGTGAAAACCCAACACGTGTAAGTTTAAAAGCAGATAATCCAATAGAAAAGGTTTGGTTTGGTTACGTGAAAGAAACGGATCTGATTGCTGGTGATGTCACTGCAGAATATGTGGATGAAGAAGGCAATAAGATAGCCTCCAATGAAATTTTCACTGGTAAACTTGGTGACACATACACGACGAAGCAAAAGGATATTTCAGGATATACATTTGTAAAAGTAGACGAGGAAGGTGCTCCGGCAACTGGAAAGTTCCAAAAAGATCCGCAGACTGTCCGTTATATATACAAGCAAGAACTCGGAACATTAACGGTTCAAAAAGTGGATGAAAACGGTGAAATTTTACAAGGAGCGACTTTTGAATTAAAAAATGCTAATGGAGAAATAGTAGAATCTCAAGAAACGAATGAAGCAGGTATAGCAGAATTTAAAGAATTGTCGTGGGGGGAGTATGAACTAACAGAAACAAAGGCTCCAGAAGGTTACCGTTTGCTAAATAATCCTATCCATGTAGAAATTTCTGCCGAAAACCTTCATGAAGAGATTGAAGTAGAAAATAGTAAAAACGGTTGGATTTTGCCAGACACTGGTGGGATTGGAACGTTACTATTTTATGGATCGGGTGTTGGGCTAATGTTAGTAGCCATTCTCCTGTTTATACGAAAAAAAAGAAGAGATCAAACATCCAAAGAACAAATAACATCTACGGAAAATACGCTTTAA MILKTLRKKVVLFFIVMVLVLQGFTSTIVGGEVDDKDPYLDILTNQEATTESVVVQVQAEFSTFSMLEIKLPKGATYDEEKTRSIQQGATLDYNAKKHVLTLKGEKGVPEQQIAFVLSNLEQSHNALAITGKLDGNVVFEEDYSFQVKEVPDSSKPEKKENKETSQNKVEKEKNEEKEKNKKEAVKPEAENKDSIKQQGQQQQYPSYTTPAKYMAKINTNWPNPGSLKLLKEAKSTDEYGEWEIELTAQGKNLKQKSDVVLLFDRSNTMYGSRVHKAKQAAQQFVENLLTEDATTRIALVPFGTEADRHVDFKGHSEKQVLKRAIERIRVTGGPDGATNIQAGLHKAKQLLNRSNADRKTIVLLSDGEPTFSFRAGKAEGYTWPNNRYNFMLSDFNYNELIGSGASYYLGWESYWLDGFRVRTNGIATLSEAVQIMTSGNDIYSIGIDVGDYEEAIYVLKNSQNRGYYEGTEDELQQIFTEISADLSHYAASNSVVTDPMGDMFNLVKDGSYSGKNFSASHGEVNWNEAKETFTWDIGDIKENETYTLKYKVTIDWDKNPKGNERYPTNKDTPLNYTDPNGDPQTKPFPIPEAGIDKGKIIKKGYRVNVDGDPIDQNGNVVSDPSLAEQFYEEAHQENDQQELKFNETYQVTANDVTDYTLHVGENPTRVSLKADNPIEKVWFGYVKETDLIAGDVTAEYVDEEGNKIASNEIFTGKLGDTYTTKQKDISGYTFVKVDEEGAPATGKFQKDPQTVRYIYKQELGTLTVQKVDENGEILQGATFELKNANGEIVESQETNEAGIAEFKELSWGEYELTETKAPEGYRLLNNPIHVEISAENLHEEIEVENSKNGWILPDTGGIGTLLFYGSGVGLMLVAILLFIRKKRRDQTSKEQITSTENTL NA NA NA NA NA AK015_01966 1857 hypothetical protein ATGAACGTAACGAAAAAAAAGAAAATAAACATCGCATTAATCTTTACTTTAATTGTATCCTTGTTACTTCCACAGGCAGCATTTGCCAAGGAAATAAAAGGGGATGAGGACAATCCGTCATTAACAATTCATAAGTTCGAACAAGAACCTGGAACAGCACCTGGTGAAGATGGAACAGGTTTACCTGGCCAAAATGCAGAAGGAGATCCAGTTGAAGGGGTAACATTTACGTTAAAACAAACACATCAATATAATTCGGAAACAGATAAGTGGACAGAGGTAGCTGATGGAAAAACGATTGAAAAACAAACTGGCGAAGATGGAATAGTCGTTTTCACCAAAGCAGATGAATTAGAGCTAGGTCGTTATGAAGTTACTGAAACAGATGGACCTGCAAATGTTATTTTAAATCCAGATCCATTTTTTGTTGATATCCCAATGACGAACAAAGATCGCACTACATTAAATTACGATGTCCATGTATATCCAAAAAATGAAACCGTTCGTTCTGCTGTGGAAATAGTGAAAAAGGATGAAGATGGAAATCCACTACCAGGTGTAAGTTTTATCTTATATAACGAAGACGGTACCCTTGCTGTAGATAAAGAAGGAAATGAGATTGGGGAACTAACAACAAATGAAGCTGGAAAAATTAAAGTGGATGGTTTAGCACAAGGAAAGTATTATTTCCAAGAGACGAAAGCTCCAGAAGGATATGCATTAAATACAACCAGAATTCCATTTGAAGTTAAAAAAGCTGGAGAAAATTTACAAGATATAGTAGTAGAGTGGACGACAGTCGATGGAATTGTCGATGAAAATGGAGTAGTAACAAACTATAATACTCCTGAAATTGACAAGGATGCTAATGGCGAAAAGAAATTGGATTTTGATCGTAATAAAGAATATAAGTACAACCTTACAATTAAAACACCAAAAGATATTAACAAATATAAAGCACTTGGTGTGACAGATACTTTAGATGAACGTCTAGAGTTTGTTTCTGAAGGTAGTATTGATGGTGGATGGAAGATTGAAGGTACAAATAAATCCAATGTTGATTTTAAGCAAAAAGGCCAAACATTAATTTGGGAAATTAAAGATCCGAGTCAATTAACCCCTGGTGAGGACGTTAAAATTACGTTTACAGCAAAAATTAAACCGGATGCCGAATTAAAAGAAGGCGAAATCGGCATTGAAAATACGGCTGATCTTCATTTCAATAACAATAAAGGATCTTACACAAGACCAGCTGATCCAGACAATCCTGACCCATACGAGCCATACGATCCAGAAGATCCAGATGAACCAAATGAACCTGGAGAACCAATAGAACCACCAAATCCAGAAGAACCACCAGTAGTAGTACCTACAGAAGGTGGTATAGACGTTATTAAAGTGGATGCTTCTGATAACAATGTAAAACTAAAAGGTGCAGAGTTTAAATTAACAGATATGGATGGTAATGTCATTGACACATCTAATGCTGGAGAAGTCGTTAAAGTAAACGGAGAAGCATTCAATGGCAAATTAGAAAACTTAGTAACTGGAGAAGATGGTACATTCTCTATTACTGGTCTCACACCAGGAACGTATCAGCTTCATGAAACAAAAGCACCCACGTATACTACAGAAAATGGTGAAGAAAAGCCATATCGTTTACTATCAAAACCTGTAGAAGTAAAAGTAGAAAATAATAAAGAGTTGAGTTATGAAGTTGAAAACTCGAAGTCACTTTGGGAACTACCAACAACAGGTGGTATTGGAACGATTATTTTCACACTTATTGGTTTAACGTTAATGGGAATGGCGCTTGCACTATATTTCCGTCGTAGAAAGCTAGAAGCTATTGCTTAG MNVTKKKKINIALIFTLIVSLLLPQAAFAKEIKGDEDNPSLTIHKFEQEPGTAPGEDGTGLPGQNAEGDPVEGVTFTLKQTHQYNSETDKWTEVADGKTIEKQTGEDGIVVFTKADELELGRYEVTETDGPANVILNPDPFFVDIPMTNKDRTTLNYDVHVYPKNETVRSAVEIVKKDEDGNPLPGVSFILYNEDGTLAVDKEGNEIGELTTNEAGKIKVDGLAQGKYYFQETKAPEGYALNTTRIPFEVKKAGENLQDIVVEWTTVDGIVDENGVVTNYNTPEIDKDANGEKKLDFDRNKEYKYNLTIKTPKDINKYKALGVTDTLDERLEFVSEGSIDGGWKIEGTNKSNVDFKQKGQTLIWEIKDPSQLTPGEDVKITFTAKIKPDAELKEGEIGIENTADLHFNNNKGSYTRPADPDNPDPYEPYDPEDPDEPNEPGEPIEPPNPEEPPVVVPTEGGIDVIKVDASDNNVKLKGAEFKLTDMDGNVIDTSNAGEVVKVNGEAFNGKLENLVTGEDGTFSITGLTPGTYQLHETKAPTYTTENGEEKPYRLLSKPVEVKVENNKELSYEVENSKSLWELPTTGGIGTIIFTLIGLTLMGMALALYFRRRKLEAIA NA NA NA NA NA AK015_01967 843 hypothetical protein ATGATGAAGCGAGTAATAATTATTATCATATTTTTAGTTGGATTGGGTGTCTTTTCCTATCCTATAATAAGTAACATTTTATCGACACAAGTACATCAATCTGTAGTAAAAGAATATGCTGAGACAGTTGAAAACATGGATGAAGAGGAAATTAAACAAGAAAAAAAGAAAGCAGCTGAACATAATAAAAAATTGGAGAATTCCGAAGTCGATTTTGTTGATCCTTTCTCAGAAGAAGGGGCGGAGGGAAATAAGGCAGCTGGAAATAAAAGTTATTACGATGCACTAAATATTGACCCAGCAATTGGAAGTATCGAGATTCCTAAAATAGGTTCAAACCTGCCTATTTATCATGGCACTGGGGAAGATGTATTATCACGTGGTGTGGGGCATATGGAGAATTCTTCCTTACCTACAGGAGAAAAAGGGACTCACAGCGTACTCACCGCTCATCGAGGTCTGCCTAGTGCGAAATTATTTCGTAATTTAGATGAGCTTGGCAAAGGAGATCAATTCTATGTTAATGTGTTGAACGAAAAATATGCTTATGAAGTGTATGATGTAGAAATTGTTCTTCCACATGAAACGCAGTGGCTACAGACAGAAGATAATGAAGAATACATGACATTATTAACATGTGAACCTTATATGTTGAATACTCACCGGATGCTAGTGAAAGGAAAGCGAGTACCCTATGATGAATCAAAGGCGAAAGAAACAGAAGAAGTAACCGATACGTTTAACTATTGGTATATTGCAGGTGGTGCAGGCCTATTAGTAATTTTAATTCTTGTTTGGTGGTTGAAACGTCGTAAAAAAAAGAATAAGGTGGAAGGCTCATGA MMKRVIIIIIFLVGLGVFSYPIISNILSTQVHQSVVKEYAETVENMDEEEIKQEKKKAAEHNKKLENSEVDFVDPFSEEGAEGNKAAGNKSYYDALNIDPAIGSIEIPKIGSNLPIYHGTGEDVLSRGVGHMENSSLPTGEKGTHSVLTAHRGLPSAKLFRNLDELGKGDQFYVNVLNEKYAYEVYDVEIVLPHETQWLQTEDNEEYMTLLTCEPYMLNTHRMLVKGKRVPYDESKAKETEEVTDTFNYWYIAGGAGLLVILILVWWLKRRKKKNKVEGS PGPT0024075_1029 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284 NA NA AK015_01968 720 srtD_2 COG3764 Sortase D ATGAAGGGAAAAAAAGCAATCATCTTATTATTTGTAGCAGGTATTCTGATTTTTTTATATCCGCATGCAGCCAAACTCGTCAACAGTTACTTACAAAAACAACAAGTTGATCAATTTCAGGCTGACTTAGAAGAAAAACCCGAAGAGGAAATAAACAAGCTTATGGAAAAAGCTTCTGCATGTAATAAAGAAATCTTTTATGATAGTTCAGGTTTTCGTGATCCATTTCTTGATAATGAAGAAAAGCTGGCTGAATTTAAAAATTGTCTTGGAATAGACGACGATGAAGTGTTTGCGGCTATCGAAATTCCAAAACTTGGAGAGATGATTCCAATTTTTTTAGGAGCTACAGAAGAAACCCTTGATAAAGGGATTGGGCAAATTGAAGGCTCATCATTGCCAGTTGGTGGTGAGAGCAATCATACCGTCTTAGCGGGGCACCGAGGTATGGGAACGAAAGCCATGTTTCGTAATGTCGATGAATTAAACGATGGTGACATTTTCTATATCCATACTATGACCGATACGTTAACTTATCGTGTGTACAGTCAACAAGTGGTTGCTCCTGATGAAACGGACCCACTTGAAATTCAAAAAAATCGGGATTTAGCTACTTTATTCACCTGTCACCCGTATCCAACAGACAGAGAAAGGTTATTAATACAGGCGGAAAGAGTGAAAGAGGAGGAAAAAAAGAAAAAATCAGAATCTAAGCAATAA MKGKKAIILLFVAGILIFLYPHAAKLVNSYLQKQQVDQFQADLEEKPEEEINKLMEKASACNKEIFYDSSGFRDPFLDNEEKLAEFKNCLGIDDDEVFAAIEIPKLGEMIPIFLGATEETLDKGIGQIEGSSLPVGGESNHTVLAGHRGMGTKAMFRNVDELNDGDIFYIHTMTDTLTYRVYSQQVVAPDETDPLEIQKNRDLATLFTCHPYPTDRERLLIQAERVKEEEKKKKSESKQ PGPT0024075_1758 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284 NA NA AK015_01969 111 hypothetical protein ATGATTTATCTTAGGAAAATGAAGTTAAGTCACCTAAGGGGTGGGTGGGGAGCAGACATGGCTATTAAATTAATTCCTTATCCCAAGGACCTTATTTTATACTTTGTATAA MIYLRKMKLSHLRGGWGADMAIKLIPYPKDLILYFV NA NA NA NA NA AK015_01970 783 hypothetical protein ATGAATAAACTTTTCGTCAGCATTTCCGTTGAATTTAAAAAGTTATTTCACTCAAAAATCCCTTTAATAACTTTGCTTACATTTATGCTCATACCTTTTATTGGTGGTTTTTTCATGTTCGTGTTAAAGCATCCGGATTTTGCTGAAAGCCTTGGTTTTATTTCTACCAAAGCACAAATAATGGGGTCAGCGGATTGGTCCTCTTATCTTAGCTTACTTGCACAAGCAATTTCCATTGGCGGATTAATTATTTTTGGTTTTATTATAAGTTGGATCTTTGGCAGAGAATACTCCGATCGAACGATAAAAGATTTATTAGCACTACCACTATCTAGAAGTACCATTGTATTGGCAAAGTTTTTAACAGCCTTTATTTGGTGTCTTATCTTATCTTTATTTGTTTTATTGGTTGGACTACTTGTAGGAATGATGCTTGATTTACCGCAAGGATCAAAGGAAATAGTAACTCAAGGCATCATCGTCTTTGGTCTTTGTGCCACATTGACCGTACTTCTTTCTACACCAGTCGCTTTTGTTGCAAGTATTGGTCGCGGATACTTATCCCCCCTTGGATTTATGATTTTCACACTCATCTTAGCACAAATAGTTGCAGTAGCAGGATACGGTGCGTATTTCCCTTGGTCTATCCCAGCCCTTGCTAGTGGAGCAGCTGGCAACAAAGCATATATCGTTGAAGAAATCAGTTTAATTATTTTACTTTTCACTAGTGCGTTTGGATTGCTAAGTACGATGCTTTGGTGGCGATTAGCAGATCAATGCTGA MNKLFVSISVEFKKLFHSKIPLITLLTFMLIPFIGGFFMFVLKHPDFAESLGFISTKAQIMGSADWSSYLSLLAQAISIGGLIIFGFIISWIFGREYSDRTIKDLLALPLSRSTIVLAKFLTAFIWCLILSLFVLLVGLLVGMMLDLPQGSKEIVTQGIIVFGLCATLTVLLSTPVAFVASIGRGYLSPLGFMIFTLILAQIVAVAGYGAYFPWSIPALASGAAGNKAYIVEEISLIILLFTSAFGLLSTMLWWRLADQC PGPT0006730_16539 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_01971 936 bcrA_1 Bacitracin transport ATP-binding protein BcrA ATGAATGACGTTATTTATACAGAAAATCTAACAAAAGCATATGGGCAAACCTTTGCAGTTAATAACGTTGATTTATCTGTTGCGAAAGGCGAAATCTATGGTTTTTTAGGTTTAAACGGTGCTGGAAAAACGACAACTATCCAAATGCTATTAGGTATGATCACACCTACTTCTGGAAAATGCTACCTCAATGGAGAAAAAGTTCATTCTAAAAATAAGGACATTTGGCGTCATGTCGGTTATATGGTGGAAACACCCTATTCCTATCCAGAGTTAACGGTAAGAGAAAACCTTGACGTTATCTGCAAACTAAGAGGGATTAGAGACAAAAGTTGTGTCGATTGGATCATTAAAAACTTAAAATTAGAAGCCTACACTGCTAAAAAAACAAAACAACTATCTATGGGAAATAACCAAAGACTTGGAATAGCAAAAGCGCTACTTCACCATCCTCCTATTTTAATATTAGATGAGCCGACGAACGGATTAGACCCTGCTGGCATCGTTGAAGTTCGTCAACTTCTGAAGGAATTAGCCCAAAACAGAGGCGTAACCATTCTCATATCTAGCCATAAGTTGGATGAAATTTCAAAAATAGCTACAAATATAGCCATTATACATCAAGGGATGCTAATCAAAAAAATATCTGGTGAACAACTGGAAAAACAGTTGCACAAAACTTTGCTACTAGATGGAAAAAATAGGTTAGCAATCAAACACACTCTATTGACAGCAGGTTATAAGGTTTCTACGGATAATGAAGAAAACTCACCACTTCAAATGAAGGAAGCAAATGCAGTACATGACCCTGGGCAAATTGCTACATTACTTGTAAATGCTGGGCACCCACCAACATTACTAAAAGTAGTAGAAGAGGATTTAGAAATGTATTTTCTAAGAACCATTCGAGAATTTGGAGGCGATCAACATGAATAA MNDVIYTENLTKAYGQTFAVNNVDLSVAKGEIYGFLGLNGAGKTTTIQMLLGMITPTSGKCYLNGEKVHSKNKDIWRHVGYMVETPYSYPELTVRENLDVICKLRGIRDKSCVDWIIKNLKLEAYTAKKTKQLSMGNNQRLGIAKALLHHPPILILDEPTNGLDPAGIVEVRQLLKELAQNRGVTILISSHKLDEISKIATNIAIIHQGMLIKKISGEQLEKQLHKTLLLDGKNRLAIKHTLLTAGYKVSTDNEENSPLQMKEANAVHDPGQIATLLVNAGHPPTLLKVVEEDLEMYFLRTIREFGGDQHE PGPT0006725_8562 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_01972 600 hypothetical protein TTGGCTACCGCTTTCTCCAACAACGAAAAAGAAATAATTAGAGGAAAACTGCAACAGGCTGCAAAGGAATGCCTCGGGAAGTATGGCGTTAGGAAAACGACCGTCGATCACCTTGTCCAAATAGCTGGCATATCAAAGGGTGCCTTTTATAAATTTTATCCCAAGAAAGAAATCCTGTTTTTTTACGTCTTAGAAGACTATCAAAAATCACTCATGAAAGAATTAGCAAACAGACTTGAGAAAGAGCTTACCATAGGAGTGGAGCAGTTCACTAATTTCATTTTTCAGTTATATCAAAATGTAAAACAATCTTTTCTGATGAATCTTATTCAACAGCAAGAATTAGAGTACCTCATGAGAAAAATCCCGCCAGACATCATAATGAACCACCACTCATTAGATGCTATGTTTATGGAGCAAGTTTTTTCTTATATAAAGATAAAAGACCATGTAAATAAGCGTGTTGTCGCAGCTTCATTAAGATCGATTTTCATGAGCATGATGTACATGGAAGAAATCGGTGAGCAAGAATTTGATGAAGTTCTAAAGCTTTTAATTAAGGGAATCGCTCTGCAAATTATAGAGGAGGTTGAGACATGA MATAFSNNEKEIIRGKLQQAAKECLGKYGVRKTTVDHLVQIAGISKGAFYKFYPKKEILFFYVLEDYQKSLMKELANRLEKELTIGVEQFTNFIFQLYQNVKQSFLMNLIQQQELEYLMRKIPPDIIMNHHSLDAMFMEQVFSYIKIKDHVNKRVVAASLRSIFMSMMYMEEIGEQEFDEVLKLLIKGIALQIIEEVET NA NA NA NA NA AK015_01973 510 queT COG4708 Queuosine precursor transporter QueT ATGCATAAGTTAATATCTCAAACATCTTCACCAACGATGATCTCCGAGCTAACTAAAATTGCCATTATTAGTTCCCTCTATGTGATTGTTACCATTTCTCTCGCTCCAATAAGTTTTGGTGCTATTCAGTTTCGTTTATCTGAAATGTTTAATTTTCTAGCATTGTATCATAAGCGTTACGTTATTGCCGTCACTTTCGGAGTTGTTATTGCCAATTTCATGTCCCCTACTTGGTTCTTTGATGTTCCAATTGGTAGCATTTCTACTTTTCTTGTGTTAATTTTTTGTAGACATGTAACCCAACAAATGAAAAATGACATACTAAAAATAGCTACAACAGCTATTATTTTTGCTGTCTCCATGTTCACAGTTGCAACACAATTAACGCTCCTATTTGACTTGCCTTTCTTTTATACATGGTTAACCGTCGGCATCGGGGAACTATTATCCATGACGATTGGTGGAATAGTGATATACTGGTTAGCAAAGAGAGTAGATTTCACAAAATAA MHKLISQTSSPTMISELTKIAIISSLYVIVTISLAPISFGAIQFRLSEMFNFLALYHKRYVIAVTFGVVIANFMSPTWFFDVPIGSISTFLVLIFCRHVTQQMKNDILKIATTAIIFAVSMFTVATQLTLLFDLPFFYTWLTVGIGELLSMTIGGIVIYWLAKRVDFTK NA NA NA NA NA AK015_01974 756 ucpA_2 Oxidoreductase UcpA ATGAAGTTTGATGAATATACAGGACAAACTGTTTTTATCACTGGTGGCGCTTCGGGTATAGGAAAAGCGCAAGCTGTCTGTTTTCTAAGAAATGGCGCTAATGTATTTGTCTTCGATAAAGAGAAAAAAAACTTAGCAGAAATGGAAGAACAATATAGCGGACAATTCACCTATGCGTTAGGAAGTGTTACGGATAAAGCGTCTGTCCAAAGAGCTGTGCAACACGCATTACATAAATTTGAACGCATTGATATTTTACTAAATACAGCGGGGATACTGGATGGATATGTAACTACATTAGAAACAGAAGAATGGTTATGGAATAAGGTTATGGACACAAATGTAAAAGGAACCTACCTTGTAACCAACGTCGTACTTCCTTATATGCTTCAGCAAGAAAGCGGAGTTATCATCAACATGTCATCCATTGCAGGCTTTGTTGCTGGTGGCGGTGGTGCTGCGTATACTGCTTCTAAGCATGCCATTATAGGTTATACCAAACAATTGGATTATGACTATTGCAGAAAAGGAATTCGAGCTAACGCGATTGCACCAGGTGCGATTAAAACGCCAATGAACAAAGCGGATTTTTCTGGAGATGGAAAAATCGCCGAATGGGTAGCGAATCAGACACCTGCTGGGAGATGGGCAGACCCCATAGAAGTAGGCGAGCTCACACTTTTTTTAGCAAGTAGGGCTGCTGATTATATGCATGGTGTCGTTATTCCTATTGACGGCGGATGGACCAATAAATAA MKFDEYTGQTVFITGGASGIGKAQAVCFLRNGANVFVFDKEKKNLAEMEEQYSGQFTYALGSVTDKASVQRAVQHALHKFERIDILLNTAGILDGYVTTLETEEWLWNKVMDTNVKGTYLVTNVVLPYMLQQESGVIINMSSIAGFVAGGGGAAYTASKHAIIGYTKQLDYDYCRKGIRANAIAPGAIKTPMNKADFSGDGKIAEWVANQTPAGRWADPIEVGELTLFLASRAADYMHGVVIPIDGGWTNK PGPT0003180_10848 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 AK015_01975 222 hypothetical protein ATGACATTTGAAGAAGTATTACCTGAATTAAAATCTGGTAAGAAAGTGATTCGTAGTGGATGGAATGGCGCCGAATTATATGTAAAGCTCGTTGAAGAAAGTAAGCACGATGGTGAAAAGCTTCATCCATACTTTTTAATCAATGTCTCTGGAGAAGGCTATACCATGTTCACCCCTACTGTATGTGATATTCTTGCTGACGACTGGACCATCATTGAATAA MTFEEVLPELKSGKKVIRSGWNGAELYVKLVEESKHDGEKLHPYFLINVSGEGYTMFTPTVCDILADDWTIIE NA NA NA NA NA AK015_01976 1059 hblA_1 Hemolysin BL-binding component ATGCAAACCAAAGTAATGAAACAAATATTTATTTGCTCCATCATAACAACTTTTTTAGTAACCTATTCGTTACCACAAACAATGATTTATGCAGCTGAACAAACAGAAACAATGAAACCCGATTCAGAAAAGATAATAAAGAATTTAGAAGAATTGGCTACTAGTATAGCGAGTATAGACTCCTATGCAACAACTATCCAAAACGAACCAAAACCCAATTTAACAAATTTAAATGCTGTAAGTGACAAATTAAAACGTAACATAAACAATCATTTTGCCGATGCTAAAAACAACGCTACGTATTGGACAAGTAGTTTAAAGCCTTCCATGAACACATTTCTAGAAAGTATTGGACATTTTAACGATGTATTTCAAGAAAGGCATTCTACATTATTAGCTGCTTTGGAGAATAATGACAAAGAAAAGATACGTGCTGAGGTAGAACGGCTTAATGATAATATTGTAAGACAAAGCGAAAACGCAGAAAGATTAGTTAAAAATTTAACCCAATTTCGAGATAATGTAACGAAGGATACACAACGTTTCAAGAACAATTCTAATCAATTAGAAGTCCAAGCCATATCATCTTCACAGGCTGATATACCTCTTTTAAAGAGAAAAATTAATTATTATAATGATGTCATTGATAATACTGATTATAGAATAGCTGCTGGTTCATTAGCGTGCGCTTCCCTGATTGGCTGTATTTGGGGAGGAATTGAGATTGATAACGCTACAAGTGATAAACGAGATGCAGAATATCAAATAGACAAACTAAAAGCAAAAATAGATGGGATTGAGAAAGAAATAGCTACGATAACAGACATACAAAGTAAACTAACAAATATGGTTCAAAAAATTGATACAGCTATCGATTCCATCCAAAATTTAACAAATTACTGGTACCTCATGAACTCTAAATACCAAAACTTGCTGGACGATGTCCGTATATTAAATCCAGAAGAGTTAGATCTTTTAAGAGAGGATATGCAAATTGTAAGTAGAAGTTGGGAGCAAATTAAACAGTTTGCCAAAAACCTAGCTCAAGCATTAAAATAA MQTKVMKQIFICSIITTFLVTYSLPQTMIYAAEQTETMKPDSEKIIKNLEELATSIASIDSYATTIQNEPKPNLTNLNAVSDKLKRNINNHFADAKNNATYWTSSLKPSMNTFLESIGHFNDVFQERHSTLLAALENNDKEKIRAEVERLNDNIVRQSENAERLVKNLTQFRDNVTKDTQRFKNNSNQLEVQAISSSQADIPLLKRKINYYNDVIDNTDYRIAAGSLACASLIGCIWGGIEIDNATSDKRDAEYQIDKLKAKIDGIEKEIATITDIQSKLTNMVQKIDTAIDSIQNLTNYWYLMNSKYQNLLDDVRILNPEELDLLREDMQIVSRSWEQIKQFAKNLAQALK NA NA NA NA NA AK015_01977 1200 hblA_2 Hemolysin BL-binding component ATGGCAAAAAAATTTTTAAAACCTATTTTACAAGTAGCAGTGGCAGCAACATTAATATTTAGTAGCGTTGCTCCTTCCTACGCTTCTGCTAGTGTAGCTGAAAATAATCACCAAGCAGACAAAGTTAGTGACTTAGCCAATCAATATAAAAAATATGAACTAGGGCCAGAAGGACTAAGACAAGCACTCGAGACAACAGGATCTAATGCGCTGGTTATGGATTTATATGCTTTGACAGTTTTAAAACAGCCAGATATCAAGTTTACTAATGTTGTTATCATCGACAATAACTTACAAAATAAAATCATATCTGATCAAAGTATTGCAAGAGAGAATGCAAAAGTATGGTTAGATCAATTAAAACCACAATTAATTAAAACGAATGAAAATATTATAAATTATGATAATCGTTTCGAAGGGTACTATGATAAGCTAATAGAAGCCGCAGAAAACAAAGATAAAGATGCCTTAGAAGCTAGAATAAAAAGACTATCGAGGAGCGTTTCCAAAAACAAACAAGAAGTCGACCAATTAATTGTCGATTTAAAAGAATACAGACAAAAATTACAGTCTGATACACAAAATTTAAAAGAAGATACAAATAGGCTTTCCTCTATTTTAACGAGCGAAGATGCAGGTATACCGCTTTTAAAACAACAAATTGAATCTTACCATGATGCGATTAGTAAATATAACAAAGTATTAATAGCCTCTTCTGTCTCTACATCATTAGGACCTATAGCTATTGCAGGAGGAATCGCTGTAATTGCTACAGGCGCAGGAACGCCACTTGGTGTTGCTCTTATAGCAGGCGGAACTGGACTAACTGGTGGAGGAATTACGGGTATTGTATTAGCCAAACAAGGAATTGATGAAGCAGAGTCAGAAATTAAATCTATAACCAAAGAATTAACAGATACAGAAATTCAATTAGCGTTAGCAACAGGAATAAAACAACAGACGAATAATTTAACCAAGACGATTGATCTAGCAATTGACTCTTTACAAAACATTTCAACACAGTGGAGTACGATGGATGCAAAATATAGAAGTTTACTTAGCGATATTGATTTTATGAGTCCTGAAGACCTTGATCTTATTAAGGAAGACTTATCTATTGCTAAAATGAGTTGGAGTAATATTCGAGACTATGCGCAAAAATTATATGTAGAAGAAATTAAAGTTGTCGATAATCAATAA MAKKFLKPILQVAVAATLIFSSVAPSYASASVAENNHQADKVSDLANQYKKYELGPEGLRQALETTGSNALVMDLYALTVLKQPDIKFTNVVIIDNNLQNKIISDQSIARENAKVWLDQLKPQLIKTNENIINYDNRFEGYYDKLIEAAENKDKDALEARIKRLSRSVSKNKQEVDQLIVDLKEYRQKLQSDTQNLKEDTNRLSSILTSEDAGIPLLKQQIESYHDAISKYNKVLIASSVSTSLGPIAIAGGIAVIATGAGTPLGVALIAGGTGLTGGGITGIVLAKQGIDEAESEIKSITKELTDTEIQLALATGIKQQTNNLTKTIDLAIDSLQNISTQWSTMDAKYRSLLSDIDFMSPEDLDLIKEDLSIAKMSWSNIRDYAQKLYVEEIKVVDNQ NA NA NA NA NA AK015_01978 1125 hypothetical protein ATGAAGAAAAAAATACTATCATGTTTAATGATTCTAGTTGTTCTATTTACTGTCTTTATACCCCAAAGCGCATTTGCAGAATCAAAAGAGAGTTTGCGGAGCGTGACTTTTTCCAATTGGATAAGGACATTAGGTTCTCAATACCCACTGCTTCAAGCTTATGGATTAGTAATTTTAAAGCAGCCAGATCTAAACGTCAAAAACATGAGTAGCTTATCAAATAACCAGTATATAGCAAGGAATAACGTTCGTGAATGGCTAGATGAATACAGTTCAAAACTCATTTACATTAATGAAAATATGAATGGATTAACACAAAGAGTCGATTATTACTACGACCGCCTTTATGATTTATCGGAACAAATAGATAGTAATGAACAGGCTAAAAATTCCTTTTTAAGTCGATATAACCGACTACAGAGAGTCATGGATGATGTACAATACAAAATGGAAAGAACCTCCATGAATTTACAAGCTTATCATGACCTATTAGAAGAAGATAGCAACAATTTTTCCAAAAAAGCAGATCAAGCAATTGCTTCATTGAACGGCGGAGATGGCAAAGCAACAACAATAAGATCAGCTATCAAAGCAAATATGGAAGATATTCAAAATGAACTAGTAAAAATACTCAATAACCCGGACGAAGTATATGACTTCTCTTTTAAACTAGGTACAGAGATTTACAACACGGTGAAAACGGGAGCGGAAACCAAAACGGTAGATGTAGCGTCTATTGAAGCTTTAGGAAAAACATTAATGAGTTCCGAAGATCTGGATACAAAAGAATCTTATTCTACTATTCGCCAAAAACATAAAACCGTTACTTCATTAATGAAACAGCTATCGGAAATTGAACATCAAGCAACAGAGGTTACCATTACAGAAGATCAACTATTTGGATTTTCTTCCATGGTTGAACGCCAAATCACTATCTTTAATTATATAGTAAATGAATTTACTGAACTAAATCATATTATGGGCAATTTAAAAGAAGATATTATAGAAGGCAACATTACTCCATCTGAAATAAAGCGACAACTTAGATATTACAAAGATATAATGGATGAAATAGATAAGCAAACAGGACAATTTGAAGAATTTACTACATCAGTTAAATACTAA MKKKILSCLMILVVLFTVFIPQSAFAESKESLRSVTFSNWIRTLGSQYPLLQAYGLVILKQPDLNVKNMSSLSNNQYIARNNVREWLDEYSSKLIYINENMNGLTQRVDYYYDRLYDLSEQIDSNEQAKNSFLSRYNRLQRVMDDVQYKMERTSMNLQAYHDLLEEDSNNFSKKADQAIASLNGGDGKATTIRSAIKANMEDIQNELVKILNNPDEVYDFSFKLGTEIYNTVKTGAETKTVDVASIEALGKTLMSSEDLDTKESYSTIRQKHKTVTSLMKQLSEIEHQATEVTITEDQLFGFSSMVERQITIFNYIVNEFTELNHIMGNLKEDIIEGNITPSEIKRQLRYYKDIMDEIDKQTGQFEEFTTSVKY NA NA NA NA NA AK015_01979 1026 Formate dehydrogenase ATGAAGATCCTAGCACTTTTTCCAGAAGCTACAACTGCTACACAATTATTATCCAAAGAAAAGACATTGGGGCTAGATGAATTCCTAAAGAATACAGAGCATAAATTAACGATTGTTACCAGTGATAAAGAAGTGGACGATTACATTGAAGATGTGGATGTAGTCATTTCATCACCATTTCTTCCAGCTTATATTACGAAAGAAAGGGCAAATAAAGCGAAAAACTTAAAGCTAGCTATTACTGCTGGAATTGGATCAGACCATGTCGATCTTGATGCTGCTATAGACAAAGGGATTACAGTAGCCGAAATACCTGGGAGTAATAATGTAAGTGTAGCGGAGCAAAACGTTATGGAAGCACTGTTGCTACTAAGAAATTATGAAGAAGGACATAGACAAGCTGAAGAAGGAGAGTGGGATTTACCTAAAGTAGGTGCTAAAGCACATGACATGTTTGGTAAAACAATTGGTATTTTTGGATTTGGTCGTATTGGCCAATTAACGGCAGAGAGATTAAAGCCATTTGAGGTACATTTACAATATAATGATCCTTATCGTAAAGAAGATATAGAAGAGAAGCTAGGAATTAAATATGTTGATTTTGATATTTTAGTAAAAACATCTGATGTAATTATTATTCAATCACCGTTAACAAAGGATACGAAAAATAAATTTGATAAAGACGTCATTTGTAACTTGAAAGATAGTGCTGTACTTGTGAATTGCGCTAGAGGTGGAATTGTAGAACGAGATGCTATTGCAGAGGCAGTTAATCGTGGTAAGGTTCGTTATGGTGGTGACGTTTGGTATCCACAACCGGCACCAAAGAACCATCCTTGGCGTTCTCTTGAACAAACAGGTCTTACTGTTCATTATTCAGGTATGACTGTAGAGGCTCAGGGGAGAATACAAAAAGGTGTTTTTGAAATATTAACAAGCTTTATGGAAAATAATCCAATTGAAGAAACCTATCTAATTGTTGCCAATCATAAGGTAGCAAATAAAAGCTATCAAACCCAAAACTAA MKILALFPEATTATQLLSKEKTLGLDEFLKNTEHKLTIVTSDKEVDDYIEDVDVVISSPFLPAYITKERANKAKNLKLAITAGIGSDHVDLDAAIDKGITVAEIPGSNNVSVAEQNVMEALLLLRNYEEGHRQAEEGEWDLPKVGAKAHDMFGKTIGIFGFGRIGQLTAERLKPFEVHLQYNDPYRKEDIEEKLGIKYVDFDILVKTSDVIIIQSPLTKDTKNKFDKDVICNLKDSAVLVNCARGGIVERDAIAEAVNRGKVRYGGDVWYPQPAPKNHPWRSLEQTGLTVHYSGMTVEAQGRIQKGVFEILTSFMENNPIEETYLIVANHKVANKSYQTQN PGPT0019655_507 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019655-fdh-K00122 NA NA AK015_01980 249 hypothetical protein ATGGATTGTACTTGCAAAAACTCATCTATTAGAATAGGCATTGCACGTACAGGCGAGTTTCTATTCAAGCTGAAAAGATTTGGAGATAAAGATGTTTTTTCAAAGTTTCAAAGAGAGTCGGGTAAAAGAAAAATAAAGGAGACGGCTTGGATTGCCGTTCACCTTTATTTAACTATAGGAAAGCATGAATTTTTTAGAGTTTTGACGCTTTATTGTCATAAAGATTTTGGCGATAGCCAAGTTTTATGA MDCTCKNSSIRIGIARTGEFLFKLKRFGDKDVFSKFQRESGKRKIKETAWIAVHLYLTIGKHEFFRVLTLYCHKDFGDSQVL NA NA NA NA NA AK015_01981 318 hypothetical protein TTGGCATTAACAGATCACGAAAAACTACTCGTAAGCTCAGAATTGAACCGAAAAGGTAAAAACATGCTTTTAGCGTATGTATTACTTATCTTCTTAGGTACCTTAGGTATACATCGATTCTACCTTGACAAAAAAGGGACTGCTATTACGCAACTTATACTCAGTGTTGTAGGTGGGCTTACAGCAATCATTCTTATTGGGTTTATCCCTCTTATTATCGTGGGCATATGGCTTTTCATCGATCTATTCTTAGTTCCAGGTATGGTCGAAAAAGAAAATGAACGTATTGAGCAAGAAATCATTCGAAATTTACGTTAA MALTDHEKLLVSSELNRKGKNMLLAYVLLIFLGTLGIHRFYLDKKGTAITQLILSVVGGLTAIILIGFIPLIIVGIWLFIDLFLVPGMVEKENERIEQEIIRNLR NA NA NA NA NA AK015_01982 441 hypothetical protein ATGGCAGAACATCGTTTTCATTTAACGGCAACGTGGCCTGGTGGAAGAAATTCAAGCGGTTATATTACATCAGGAAATTTACGGACTAACGTATCCATCCCACCAGAAATGGATGGGCCAGGTACTGGGACGAATCCAGATGAGATGTTGTTAGGAGCAGCGGCAACTTGTTACCTTATTACACTTGCGGCCATGATTGAACTTGCTGCGCTTCCTTTAGAAGAAATGAGCTTAGACTCAGAAGGAATTGTTGATGTTACACGAGGTGTATTTACATATCAAAAAATTGTTCACCGACCAAAGGTTACCCTAAAGGTAGAAGCGACCGAAGAACAAAGAATTCAGCTGCAAAAGCTTGTTGAAAAAGCGGAGAAAAGCTGTATGATCTCAAGAGCTATACAAGGAAATGTAACAATAGAACTAGAGGCTGATTTAAAGTAG MAEHRFHLTATWPGGRNSSGYITSGNLRTNVSIPPEMDGPGTGTNPDEMLLGAAATCYLITLAAMIELAALPLEEMSLDSEGIVDVTRGVFTYQKIVHRPKVTLKVEATEEQRIQLQKLVEKAEKSCMISRAIQGNVTIELEADLK NA NA NA NA NA AK015_01983 174 hypothetical protein TTGCTGGTAAAACATACAACAAAAAACCTCTTTAACAAAAGGTTGTCCATCTATAAAGAAGAGAAAACAAACGTTGAAACTACATTTTGGATGGATGCTGGATTACTGCAAAGGTTAACAGTAGAATCTGCCATTTTAGGAATATATATTATGAGGGCGTTAATTAATAAGTAG MLVKHTTKNLFNKRLSIYKEEKTNVETTFWMDAGLLQRLTVESAILGIYIMRALINK NA NA NA NA NA AK015_01984 687 hypothetical protein ATGATTTCTATTAATGCTATTTTGGAAGAATTCTTAAATGAACAGAAACAACGGTTAAAACCGAAAACATTTCGTGATTATGAAAGTGTGGTGTCGTTATTTAGAATCTACTTAAATGATTACGCGCATAACTATTTAGATGATGCGAATTTGGAGTGTTGGGAGAAAGAGATAGAAGAGGATATGGAAAGCTTTACGCGTATATTTGGAGCAGAACAATTGTCAAGTAAAGTTTTTGGCGAGTTTTTAGATTACTTTATTATCCGTAAAGTGATGAGTAGCGAAGATTTTATGAAAAAAGCAGTTCGTGTTATGAAAAAGTTAGTCAAATGGTTATATGATAATCAATATATTCATCAAGCTGTTTATGCAGAACTGAAAGAATATTTCTCAGAGGCGAGTAATTTGCCTACCGTTGAAAAAGTATCCGATCTTATTTACGAGGAAACAAAAAAATCACCACAAGTAATGTATGAAGAAGAAGAGGAAGGGTACTTTTATATTGACCACATTGAAAGCGGGAAGCTGTGGCTACAACCAATGTTTGGTGGGAATAAGGTAATTGGACCATTGTCCGTACCAAAGAAAATAACAGATTTATGTGAGGAAGGCTGGCAACTAAGTGGAGTAGTCGGAAGAAGTCAGGGGAAATGGTATTTTATTGAAAGTGGTAACGTCTATCGTTAA MISINAILEEFLNEQKQRLKPKTFRDYESVVSLFRIYLNDYAHNYLDDANLECWEKEIEEDMESFTRIFGAEQLSSKVFGEFLDYFIIRKVMSSEDFMKKAVRVMKKLVKWLYDNQYIHQAVYAELKEYFSEASNLPTVEKVSDLIYEETKKSPQVMYEEEEEGYFYIDHIESGKLWLQPMFGGNKVIGPLSVPKKITDLCEEGWQLSGVVGRSQGKWYFIESGNVYR NA NA NA NA NA AK015_01985 984 cytR COG1609 HTH-type transcriptional repressor CytR TTGGTAACGATTAAGGATATTGCAACAATGGCAAATGTGTCAAGGTCAACGGTTTCTCGTGTGCTAAATAATTCAGGCTATGTGAGTGAAGAGGCTAGAAAAAGAGTAGAAAAAGTAATTGAGGAAACGGGTTATGTACCGAGCGGGTATGCTAAATCTTTGCGAACAAAGCAAACAAAAGTAATTGGAGTTATTTTACCAACCATACAAACGGAAACGCCAAGCAGAGTTGTAACAGGTCTGGGAAGGGAATTATCTAAGCACGGATACCAAATCTTACTTGCGAATACGGATCATGATAAGGAGAAGGAACTTGAATATTTGGATCTCCTTGTTAGACAAGTAGATGGTATTGTATTAATAGCGACTAACACAGAACCAGAGCTCACGCAAAAAATAAAAAGCATGAACCTTCCATTTGTAATGGTAGGTCAGGAAGCAGAAAATGTGATATGCGTGACGTATGATGATTATCATGTTGCCAGAGACGTGACAGCTTTTTTAGTTGATAAAGGACATACACAAATTGGATTTATTGGCGTGGATGAAACAGATCAGGCTGTAGGCTGTTTTCGTAAAAAAGGTTTTTACGATGAAATGAAATCCCACGACTTGCCTATTGAAGAAGCTTGGGTGCAAAAAGGTGTGTTTGATATTGATTCTGGTTGTAAAGCGATGAAGAAAATTATAGAGGATTCCAAACAGCGACCAACAGCGATTTTTGCTGTTACAGACAGACTTGCAATCGGGGCGATGAGTTATGTAAAACGGATTGGTATGGAGATACCTAAAGATATTGCCATTGCAGGCATTGGTGCTTCTGAACTATCTCAATATGTCGATCCGCCTTTGACGACAGTGGATTACAAAAACGAAACAGCAGGAGAAGAAGCGGCTAAACAGCTACTAGCTTTTATTCAAGGTGAAGATTATCAAAAGAAATTTGTATTAGACTATAGACTTCTATCTAGAGATAGTGTATGA MVTIKDIATMANVSRSTVSRVLNNSGYVSEEARKRVEKVIEETGYVPSGYAKSLRTKQTKVIGVILPTIQTETPSRVVTGLGRELSKHGYQILLANTDHDKEKELEYLDLLVRQVDGIVLIATNTEPELTQKIKSMNLPFVMVGQEAENVICVTYDDYHVARDVTAFLVDKGHTQIGFIGVDETDQAVGCFRKKGFYDEMKSHDLPIEEAWVQKGVFDIDSGCKAMKKIIEDSKQRPTAIFAVTDRLAIGAMSYVKRIGMEIPKDIAIAGIGASELSQYVDPPLTTVDYKNETAGEEAAKQLLAFIQGEDYQKKFVLDYRLLSRDSV PGPT0018830_606 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 AK015_01986 207 hypothetical protein ATGACGGAAAAACGCCCTAGTTTTTCCGCTATAACCCTAAAGTTTCTATACTTTCCTATAGTGGAACAAACGAATATTGACTATTCCCTCTCTATTCTTAAAGAGGGATTTAAAGATAAAATGTTGCATGATTTCATTGTGGAATCGATACCACACCGCATAAAAATAGGTGAAATCGATTTCACCTTTATCATACACTATCTCTAG MTEKRPSFSAITLKFLYFPIVEQTNIDYSLSILKEGFKDKMLHDFIVESIPHRIKIGEIDFTFIIHYL NA NA NA NA NA AK015_01987 1398 treP COG1263 PTS system trehalose-specific EIIBC component ATGTTAGATAACAAACAAATAGCTGAAGCACTGTTGGAAGCTGTTGGTGGGAAAGAGAATATTTCATCGATCGCACATTGTGCAACTAGGTTACGTTTACTGGTGATGGATGAGGACAAAGTTGACCGTGAACAGGTGGAAACCATAGCAAAAGTGAAAGGGGCATTTTTTCATTCTGGACAGTTTCAAATTATTTTTGGAACTGGTACAGTAAATCAAATTTATGAAGAAGTAGAGAAGCTTCATGTTTCTACGATTAATAAACAGGAGCAAACGAAGAAAGCTAGCAAGAGCGGAAATAAGTTACAACGTGCAATTCGTACATTAGGAGACGTGTTTGTACCCATTATTCCAGTACTTGTAGCAACAGGTTTATTTATGGGGCTACGTGGGTTACTTATGCAGGAGAAAATTTTAGCTTTATTCGGATTCGTTCCAGCAGATATTCCTAATAATTTTATCTTGTTTACGCAAATATTAACGGACACGGCTTTTATCTTTTTACCAGCACTCGTTGCTTGGTCCACGTTTCGTGTATTTGGCGGTACACCGATTATAGGAATTGTACTTGGACTAATGCTTGTTAGCCCCTCGTTACCAAACGCTTGGGGAGTTGCAGAAGGTGCTGAACCATTACTGTTTTTTGGCTTTATACCTGTAGTAGGTTATCAAGGATCGGTACTTCCAGCGTTTATTGCTGGAATTATTGGAGCTAAATTGGAGCGTGCAATTCGTAAGCGTGTGCCGGAAGCATTGGATTTAATTATAACGCCGTTTTTAACGTTACTTATTATGATAGGTGCAGCTCTGTTTATCATTGGACCCATTTTCCATGTGGTAGAAAATTATATTTTAGATGGTACACTTGCTGTTTTAAATTTACCATTTGGGTTAGCTGGTTTGCTTATCGGTTTTTTGCACCAAATTATTGTCATTACGGGTGTTCACCATATTTTTAATCTTTTAGAAATAAAACTGTTAGAGGATGTAGGAAGTAATCCATTTAATGCTATTATTACCGCTTCTATTGCTGCCCAGGGTGGTGCAGCTCTTGCTGTTGGTTTAAAAACAAAATCAAAGAAATTGAAAGCTTTAGCTTTTCCATCTTCATTATCTGCTTTCTTAGGTATAACGGAACCAGCTATATTTGGGGTGAATTTACGCTATGTAAAACCATTTATTATGGGGTTAATTGGTGGTGGCGTAGGAGGTTTTTCCGCTATGTTGTTAGAATTAAAAGGGACTGGAATGGCTATTACCGTAATTCCAGGTACATTATTGTATTTGGATGGGCAAATTCTATCCTATTTACTTGTGAATATCATTGCAGTTGGAGTAGCATTTGCGCTAACTTGGTTATTTGGATTTTCCGATAAGCAATTGAAAGACAATGGATAA MLDNKQIAEALLEAVGGKENISSIAHCATRLRLLVMDEDKVDREQVETIAKVKGAFFHSGQFQIIFGTGTVNQIYEEVEKLHVSTINKQEQTKKASKSGNKLQRAIRTLGDVFVPIIPVLVATGLFMGLRGLLMQEKILALFGFVPADIPNNFILFTQILTDTAFIFLPALVAWSTFRVFGGTPIIGIVLGLMLVSPSLPNAWGVAEGAEPLLFFGFIPVVGYQGSVLPAFIAGIIGAKLERAIRKRVPEALDLIITPFLTLLIMIGAALFIIGPIFHVVENYILDGTLAVLNLPFGLAGLLIGFLHQIIVITGVHHIFNLLEIKLLEDVGSNPFNAIITASIAAQGGAALAVGLKTKSKKLKALAFPSSLSAFLGITEPAIFGVNLRYVKPFIMGLIGGGVGGFSAMLLELKGTGMAITVIPGTLLYLDGQILSYLLVNIIAVGVAFALTWLFGFSDKQLKDNG PGPT0014190_952 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 AK015_01988 1452 scrB COG1621 Sucrose-6-phosphate hydrolase ATGAATAATAACGTAACAAAAGATATGGTATGTAAACAAATGGAGAAAAACCAACCTTTAATAGCAAGAGATCGCTATCGTTTGCATTACCATTTAATGCCTTCAGTAGGACTATTAAATGATCCGAACGGTTTTGTCTTTTTTAAAGGAAAATATCATATTTTTTATCAGTGGAATCCTTTTGCTGTTGAGCATGGTGTGAAATGTTGGGGGCATTCTATATCTAAAGACCTTATTCATTGGCAAGAAGTACCTGTTGCTTTACTACCTGATCAATGGTATGACCAAAATGGATGTTATTCTGGAAGTGCTGTTGTATACCAGAATCGACTGTACGTTTTTTATACGGGGAATGTGAGGGATAATGAAGGAAATCGGCAATCTTATCAGTGTTTGGCAATATCGAATGATGGAATCCATTTTGAAAAAAAGGGACCAATTATTCAAGTTCCAGACGGTTACACTGCTCATTTTCGTGATCCAAAAGTATTCTATATGAATGAATCCTGGTGGATGGTGCTTGGTGCACAAACAGAGGCGAAAAATGGAGAGGTTGTGTTATGTCGTTCTGCTGATTTATGGAATTGGACATTTGCAGGAACGTTAACTGGTAACGGACATCAAGGGTTAAACCACTTCGGTTATATGTGGGAATGCCCTGATTTGTTTCGATTAGGAAATAAAGATATTCTGCTCGTTTGCCCACAAGGAATACCTGCACAAGGCTTTCAATATCAAAATATTTATCAATCTGGGTACTTTGCTGGGGAGATAGAGAAAAAAACGATGTCTTTTGAGCATGATGCTTTTGTGGAATTGGATCGAGGTTTTGATTTTTATGCCCCTCAGACGATGCAAGATCAGGAGGGGAGAAGGATATTGATTGGGTGGATGGGAAATGCCGAGGAAGGGTCTTCCCAGCTTCCTACAGCAAATAATGGGTGGGTCCATGCTTTGACCGTTCCGCGTCAATTGGATTGGAAAAATGGAACATTGCTTCAATATCCTGTGGAAGAGTTTCAACAGTTACTGGAAAACGAAGTTCGTTTTAATGAAGCTGTATTAAATGCGCAACAATTGTTATCATTATGCGTTGACAAGGCATTTGCTGTATATTTAACTGTGGAAGATATGAAGCAATCCTGTTTAAATATACAAATAGCTGGGTCTCAAATTATATATGATTCGTTATTAAAAGTTTTTACTTTTAAACGAAAAAGCTTTACAAGTTATCAGACTATGGAAAGCAGACACTGCAAATTAGATACCCTAAGCGACATACTTATTTTAAAAGATACGTCCTCTATAGAAATTTTTCTAAATCAAGGAGAGGAAGTGTTTACTTCTCGAGTATTTGACGATGAGAACGAAGAGAATGTTCTGTTTACAGCGGACGGTGAAATAAAGCTTGATGTGAAAAAATGGGATGTACGTCGAGTTATGGATATTTAG MNNNVTKDMVCKQMEKNQPLIARDRYRLHYHLMPSVGLLNDPNGFVFFKGKYHIFYQWNPFAVEHGVKCWGHSISKDLIHWQEVPVALLPDQWYDQNGCYSGSAVVYQNRLYVFYTGNVRDNEGNRQSYQCLAISNDGIHFEKKGPIIQVPDGYTAHFRDPKVFYMNESWWMVLGAQTEAKNGEVVLCRSADLWNWTFAGTLTGNGHQGLNHFGYMWECPDLFRLGNKDILLVCPQGIPAQGFQYQNIYQSGYFAGEIEKKTMSFEHDAFVELDRGFDFYAPQTMQDQEGRRILIGWMGNAEEGSSQLPTANNGWVHALTVPRQLDWKNGTLLQYPVEEFQQLLENEVRFNEAVLNAQQLLSLCVDKAFAVYLTVEDMKQSCLNIQIAGSQIIYDSLLKVFTFKRKSFTSYQTMESRHCKLDTLSDILILKDTSSIEIFLNQGEEVFTSRVFDDENEENVLFTADGEIKLDVKKWDVRRVMDI PGPT0018815_2023 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193 NA NA AK015_01989 861 gmuE COG1940 Putative fructokinase ATGTTAATTGGAGCAATTGAAGCAGGTGGTACAAAATTCGTTTGTGCGGTTGGCGATGAAAATGGAAACATTCTTCAAAAGACGAGCTTTCCAACTGTTTCTCCAGAGGATACACTAGCTTCAGCAAAACAGTTCTTTTCTTCATTTGAGATGGAAGCGTTGGGTGTAGGTACGTTTGGGCCTGTTGATTTGAATAAGAACAGCAAAACATATGGCTCCATTTTAAATACCCCGAAAACAAAATGGCGTTACTATCCGCTTCTTGAAAAATTGCAAAGCGAATACAATATTCCTGTATATTTGGATACGGATGTGAATACAGCTTGTCTGGGTGAGTATTACTACGGTGCTGGTAAGCATGCGGAGAGCTGTTTATACATGACGGTAGGAACTGGAATTGGAGCAGGATTTGTTGGGGAAGGGAAAGTGTTTCAAGGAAAAAATCATCCAGAAATGGGACATATGTTACTAAAGCAACACCCAAACGACACTTTTGTAGGTAGTTGTCCGAGTCATAGGTCATGCTTGGAAGGGCTTGCTTCTGGGACGGCGATTGAAAAACGATATGGTAGAAAAGCAAATTTACTTACACATCTTGATGAGGTATGGGAGATAGAAGCGTATTATTTAGCGCAAGGGCTAATGAATATCTATGTTATTCTCTCCCCAGAGAAAATGGTTATTGGTGGCGGAGTATTGAAACAGGAAAGGCTTTATGCAATGGTTCGCGAGCAGTTTATGAAGTTGTTAAACGACTATTTGGAAGTGAACGATGTAGATGAATTAATTGTTCCACCGAAACTTGATGATGAACAAGCAGTTAAAGGTTCGATTGCTCTAGCAGTGAAAAATAAGAGATAG MLIGAIEAGGTKFVCAVGDENGNILQKTSFPTVSPEDTLASAKQFFSSFEMEALGVGTFGPVDLNKNSKTYGSILNTPKTKWRYYPLLEKLQSEYNIPVYLDTDVNTACLGEYYYGAGKHAESCLYMTVGTGIGAGFVGEGKVFQGKNHPEMGHMLLKQHPNDTFVGSCPSHRSCLEGLASGTAIEKRYGRKANLLTHLDEVWEIEAYYLAQGLMNIYVILSPEKMVIGGGVLKQERLYAMVREQFMKLLNDYLEVNDVDELIVPPKLDDEQAVKGSIALAVKNKR PGPT0017625_5282 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 AK015_01990 1416 pepA cytosol aminopeptidase ATGGAAATTCATGTTTGTCCTTTAGAGCCTAGTCCGCTTTTAAGTCATTCATTTGTTAAAAAAGCATCTTTTGGGGAGATGAAATTATTTTATACGGAAACAACGATCTATTTATTGGTTTGTATCTGTCCGGTGAGTGAAAATATGGAAAATATCCGACATCTTGGTGGAGAATTACGAAAGAAGGTGGACAAAGAATTTTTGTCTCAGACAGTTACTATCAATTTTAACGGCTTGTTTAAAGGATTGGAACTTGTAATGGAGGGAAGCAATGTTGCAAGTTATGTTACCGCTCTTATGGAAGGTTGGTATCTGGCTGGTTATCGATTTCAGTACTATAAGCGTAATCGTTTAGAGATGGACTATGTGCTAGAATATAATTATTCATCTTATGGCGCATATGTTGCATTGGCCAAAACTAAAAGTGATGCTGTATGTTTAGCTAGAGACTTATGTAATGAGCCCCCTAGTAAACTGACGCCAGAAGCTTATGCAAGCAAAATAGTAGAAATTTTTAGAGATACAGATGTAGACGTGGCTATTTTGGATACAGCTGATCTTACGAAACATGGTTTAGAAGCTGTTAAAACGGTCGGAAAGGGAAGTGTTCATCCTCCTAAAATGGTCGTTCTTACATTAAAAAATACAGTAGGAAAGCATGTAGCGCTTGTCGGTAAAGGAGTGACCTTTGATGCAGGAGGTGTTAATGTAAAAACAGGGACTGGACTTTGGGAAATGAAAATGGATATGGGGGGCTCAGCGGCTGTCGTAGGTGCGATGAAGCTTTTATCTGATCTGAATAGCTCTGTATACGTTACCGCAGTTATTCCATTAGTAGAAAATGTAGTAGGGAAAAATGCATACTTGCCGGCAGATGTAATTTCTTATGCAAATGGAATGCATGTGGAAGTAGGTAACACGGATGCAGAAGGTAGACTAATTTTAGCCGATGGTATTTTATACGCTCAAGACGTAGGAGCGGAAACTATTATTGATATTGCTACACTCACAGGCTCTATTGGTCAAGCCTTAGGGTTAAAAACAGCTGGTGTTTTTACTAATAACGAGAAGGATTTGTGGACATATAAAGAAATTGGCGAAGAAACTGGGGATCATGTATGGCCTATGCCATTAATTGAAGATTATAAAGCATATTTGCACAGTGATTATGCAGACTTAAATAATAGGAGTGCTTCTAAATATGGTGGTTCGATTACGGCAGCCATTTTTTTGCAACAATTTATAAAGCGACATATGAAATGGGTACATATTGATATGGCAAATACGGTGCGACCTTGGAAGGTGTATGGCTATCATGTCGAAGGGGCTACTGGTTTTGGAGTCCGATTATTAACCAAATTGGTAGAAAAGGAGTTGGGGAAACGAAATGCAATTGGAATTGATTGTACAGAATAA MEIHVCPLEPSPLLSHSFVKKASFGEMKLFYTETTIYLLVCICPVSENMENIRHLGGELRKKVDKEFLSQTVTINFNGLFKGLELVMEGSNVASYVTALMEGWYLAGYRFQYYKRNRLEMDYVLEYNYSSYGAYVALAKTKSDAVCLARDLCNEPPSKLTPEAYASKIVEIFRDTDVDVAILDTADLTKHGLEAVKTVGKGSVHPPKMVVLTLKNTVGKHVALVGKGVTFDAGGVNVKTGTGLWEMKMDMGGSAAVVGAMKLLSDLNSSVYVTAVIPLVENVVGKNAYLPADVISYANGMHVEVGNTDAEGRLILADGILYAQDVGAETIIDIATLTGSIGQALGLKTAGVFTNNEKDLWTYKEIGEETGDHVWPMPLIEDYKAYLHSDYADLNNRSASKYGGSITAAIFLQQFIKRHMKWVHIDMANTVRPWKVYGYHVEGATGFGVRLLTKLVEKELGKRNAIGIDCTE NA NA NA NA NA AK015_01991 690 cutC_2 COG3142 Copper homeostasis protein CutC ATGCAATTGGAATTGATTGTACAGAATAAACACGATGCATTGCAAGCTGAAAAGCTAGGAGCAGATCGATTAGAGCTTGTTTCAGCTATACAGGAGGGTGGTTTGACACCAAGCTTTGGAATGATAAAAACAGTCTTACGAAGTGTGCACATACCTGTTCAAGTCATGATACGGCCACATAGCCATGATTTCTATTATCAAGAAGAGGAATTTGCAGTTATTTGTGAAGATATAAAGGCACTGGAGAGCTTGCAATGTAATCAGATTGTATTTGGCGCACTAAATGAGGATCTTACAATTAACGAACAAATGCTTCATGATCTCATTGAACGCTTTCCGGGAGTAGATATTACGTTTCATCGTGCTTTTGATGAAGTGAAGGATATGTATGCAGCATACAAAACGTTAGTAAAGTATAAAGATCATGTAAAACGTATTCTAACATCTGGTGGAAAGCAAAGCTGTGAAGCAGGAAAAGAACAGCTCGCTCATTTAGTTCAGTATTCTTATGAAACAGGAGGACCTATCATTATGCCTGGTGCAGGCCTCACTCCGGATAATATTGCTGAAGTCAAACAGACAACAAAAGCAGAGCAATATCATTTTGGTAAAGCAGTTCGTGAAAGACAATCATTTGCAAACGCGATTTCAGCGCAAGCAGTGGAGAAAGTGCTATCGACTTTGAAATAA MQLELIVQNKHDALQAEKLGADRLELVSAIQEGGLTPSFGMIKTVLRSVHIPVQVMIRPHSHDFYYQEEEFAVICEDIKALESLQCNQIVFGALNEDLTINEQMLHDLIERFPGVDITFHRAFDEVKDMYAAYKTLVKYKDHVKRILTSGGKQSCEAGKEQLAHLVQYSYETGGPIIMPGAGLTPDNIAEVKQTTKAEQYHFGKAVRERQSFANAISAQAVEKVLSTLK PGPT0004085_1581 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201 NA NA AK015_01992 1752 COG1132 putative ABC transporter ATP-binding/permease protein ATGAAAGCATGGATTATTCCATATGTAAAAATGCATTACAAAGGGCTAGCAGCCAGCATTATTATCGGTTTATTAGCTTTAGCCTGTGGTGCAGCGCTTATGTTTACATCTGGGTACTTAATTTCCAAATCCGCCTTAAGACCTGAAAATATTTTAATGGTCTATATTCCCGTTGTTTCAGTGCGAGCCTTTGGTATTTTTCGAGCGGTATTTCACTATCTTTCTCGATTAGCGAGCCATGATACGATTCTGCGCGTACTAGCAAATATGCGTAGCAGATTGTATCAGACTTTAGAGCCACAAGCAGCTTTTATTCGTTCTCGTTTCCAGACTGGTAGGATACTAGGCGTATTATCAGATGATATCGACCATTTGCAAGATTTATTTATTCGTACGATTTTACCGAGTATCACTGCACTTGGTATGTACGGCATCGCTATTGCTTGTCTAGGCTGGTTTGATATGGTATTTGCTTCACTTATGGCAATATATCTCTTTTGTATCGTTGTGTTCATTCCGTTGTTTTCTTTGTGGTCTAGTCGAAAACGTACAGCATTAATAAAACAGGGGCGCTATGATCAATATCATATATTAACAGATGGATTACTTGGCATTAAAGATTGGATGATTGCTGGAAAACCAGATGAATTTACGAAGCATGATGCAAAAAAAGATCAAGCTGTTGCCATTGTTGAGCGACGCGTTAAAAGTGAGCAACGAATTCGCGACTTATTCCTTCAGCTCATCATTGGTGCGATGGTGATTTCCATGGTGTACTGGTCAAGTTCGATGGTAGCTGAAGGAAACATGCACGTGACATTAATTGCTGCTTTCGTTTTAGTTACATTGGCTATTGCAGAAGCTTTTTTGCCCGTATCCGAAGCCTTAGAACAAATTCCAGAATACACAGAATCGCTTTCAAGATTAGAAACGCTCGAAGAAACAGATCAAGAAAAGGTTGCTACTAAGTCACACATATCTTTACCAGAAGCATCTGATTCTGTAGATATTCAGCTTGATCATGTTGCCTTTCAATATCCGGGTTTTGCCAAACAAATTTTAAAAGATGTTTCCATTTCGATACCTCAAGGAAAGAAATTAGCTTTGTTGGGAAAAAGTGGTGCTGGAAAATCAAGTATCATCCAACTAATTTGTGGTTCTTATGCACCGACAAAAGGAAATGTTACACTTAACGGCATCGATGCAACAGCTTACGGCGATTCTCTATTTGAAATCGTATCGATTTTAAATCAACGACCTCATTTATTTAACACGACGATCGCCAATAACCTACGACTCGGCAACCAAAAAGCAACAGACCAAGAAATTGTAGAAGCTGCTAAAAAGGTACAGCTCCATGATTATATTATGAGCCTGCCAAAAGGTTATAACACGATGATGGAAGAATCAGGACAAATCTTTAGTGGCGGTCAACAACAACGAGTAGCATTAGCAAGAATATTATTAAAAGGCTCTCCTGTCGTTATTCTCGATGAGCCGACAGTCGGCTTAGATTCAAAAACAGAAGCTGACTTGTTAAAAACCATTTTTTTAACGCTTGATGATAAAACCGTTATTTGGATTACACATCATTTAGCTGGTATGCAGCGTATGGATGAAGTTGTCTTTTTAGAAAACGGCTATATTGAAATGCAAGGTTCGCACCAAGAACTACTAAGCACTTCACAGCGATATCAAGATTTATACTATTTAGACGTCCCACCATCAATTCGTAAAATGGTGCAAGTTTAG MKAWIIPYVKMHYKGLAASIIIGLLALACGAALMFTSGYLISKSALRPENILMVYIPVVSVRAFGIFRAVFHYLSRLASHDTILRVLANMRSRLYQTLEPQAAFIRSRFQTGRILGVLSDDIDHLQDLFIRTILPSITALGMYGIAIACLGWFDMVFASLMAIYLFCIVVFIPLFSLWSSRKRTALIKQGRYDQYHILTDGLLGIKDWMIAGKPDEFTKHDAKKDQAVAIVERRVKSEQRIRDLFLQLIIGAMVISMVYWSSSMVAEGNMHVTLIAAFVLVTLAIAEAFLPVSEALEQIPEYTESLSRLETLEETDQEKVATKSHISLPEASDSVDIQLDHVAFQYPGFAKQILKDVSISIPQGKKLALLGKSGAGKSSIIQLICGSYAPTKGNVTLNGIDATAYGDSLFEIVSILNQRPHLFNTTIANNLRLGNQKATDQEIVEAAKKVQLHDYIMSLPKGYNTMMEESGQIFSGGQQQRVALARILLKGSPVVILDEPTVGLDSKTEADLLKTIFLTLDDKTVIWITHHLAGMQRMDEVVFLENGYIEMQGSHQELLSTSQRYQDLYYLDVPPSIRKMVQV NA NA NA NA NA AK015_01993 1737 cydD_1 COG4988 ATP-binding/permease protein CydD ATGAAGAAAATGATGCGTAATCATTTACTAACGTACAAAGGGGTAAGACCGACACTTGCCATTGTTATTTCCATTACAATCGTGGAAGCAATAGCCATCATTCTGCAAGCAAAATGGTTAGCAGAATGGTTATTTCGCTTATTTAACGGCGAATTATTTCAAGAAACATGGAAGCTAGGCGTTTTTTTTCTTATTGCCTTTGTTACAAGGTATCTTATGGGTACATTAAAGAAAAAAATAACCTTCCAGTTTGCTGAAAAAACAAGAGTGGAAAAAAGAAAACAATTATTGGCCAAGCTTTTTGCGCTTGGCCCTAGCTACACGAATAAACATGGTACAGCCAAGTTAGTTAATTTAGCCATGGAAGGCGCAAACCAACAACGTACTTATTTAGAATTAATTATTCCCAAGATGATTGCTGCATGTATTATTCCACCAATAGTACTCATTTACGTTTTCTTTCAGGATAAACTGTCAAGTATCATTTTACTCTTAACCGTTCCTATCATTATTGCATTTATGATTTTATTGGGATTAGCTGCGAATAAGAAAATGGAGCGTCAATGGCATTCCTATCATTTATTATCCAACCATTTTATTGATTCTTTACGGGGGTTAGAAACATTAAAGTTTTTAGGTAAAAGTAAATCACATGGAGATACAATTGAAAAAGTGAGTGACGAATACCGAAAATCCACTATATCAACATTACGAATTGCTTTTCTTTCATCTTTTGCACTTGACTTTTTTACGATGTTATCGGTTGCCTCTGTTGCTGTAGGACTAGGATTACGTCTCATTGAAGGAAACCTATTATTAGATATTGCATTAGTCGTATTAATTTTAGCTCCAGAGTTTTTTCTTCCTATAAAAGAAGTTGGAGCAGACTACCATGCAACATTAAATGGACAAGAAGCAGCCAAAGCAATTGATCGGATTTTAGCAGAGCCTGTTCATGAAAATCATTCATTTATTACCAACTCCATTGCATGGTCAGCTAACAGTACCTTAAAGCTTTCTTCTGTTAGTCATTCCCATGACGATAACGGCTTACAAGCTCTATCTACCATTTCCATGCAAGTAAAAGGTTTTGAAAATATTGGTATTGTTGGTGCAAGCGGTGCAGGAAAGTCGACTTTAATTGATATATTAGGTGGATTTTTAACACCTGATCAAGGGAGTTTTCGCGTCAATCAGCAAATTTTAGATAGCTTAAATACAGAAGCTTGGCAGCGTCAAATCACATACATTCCACAACGCCCATATATTTTTAGTCAGTCGGTTGCAGATAATATTCGATTTTATGAACCAAATGCATCGGATGAAGATGTGTGGCAAGCTGTTCAAGATGCAGAATTGGATAAATTAATCCATACCTTTCCAAATGGTATAGAACAAGAAATTGGTACTGGCGCACGTGCAATTAGCGGCGGTCAAGAACAACGTGTCGCTTTGGCTCGAGCTTTTCTTGGTAATCGTCCTATCCTGTTATTAGATGAGCCGACTGCCCATTTGGATATTGAAACGGAATACGAATTGAAACAAACGATGACAACATTGTTTAAAGATAAATTAGTCTTTTTTGCAACGCATCGGCTGCATTGGATGGAGCAAATGGATAAAATTATTGTGTTAAAAGATGGTGTCATCGTAGAAGTGGGGACACCACATGAATTATTGCTTCGTCGCGGAGAATACTATGACCTCGTGCTATCACAATTGGAGGGAGTACAATGA MKKMMRNHLLTYKGVRPTLAIVISITIVEAIAIILQAKWLAEWLFRLFNGELFQETWKLGVFFLIAFVTRYLMGTLKKKITFQFAEKTRVEKRKQLLAKLFALGPSYTNKHGTAKLVNLAMEGANQQRTYLELIIPKMIAACIIPPIVLIYVFFQDKLSSIILLLTVPIIIAFMILLGLAANKKMERQWHSYHLLSNHFIDSLRGLETLKFLGKSKSHGDTIEKVSDEYRKSTISTLRIAFLSSFALDFFTMLSVASVAVGLGLRLIEGNLLLDIALVVLILAPEFFLPIKEVGADYHATLNGQEAAKAIDRILAEPVHENHSFITNSIAWSANSTLKLSSVSHSHDDNGLQALSTISMQVKGFENIGIVGASGAGKSTLIDILGGFLTPDQGSFRVNQQILDSLNTEAWQRQITYIPQRPYIFSQSVADNIRFYEPNASDEDVWQAVQDAELDKLIHTFPNGIEQEIGTGARAISGGQEQRVALARAFLGNRPILLLDEPTAHLDIETEYELKQTMTTLFKDKLVFFATHRLHWMEQMDKIIVLKDGVIVEVGTPHELLLRRGEYYDLVLSQLEGVQ NA NA NA NA NA AK015_01994 1020 cydB COG1294 Cytochrome bd-I ubiquinol oxidase subunit 2 ATGGTTCCTATGCTAAGTGAGGTATGGTTTATTTTAATCGCTGTATTGTTTGTCGGATTTTTGTTTTTGGAAGGCTTTGACTTTGGTGTTGGCATGGCGATGCGTTTTGTTGCCAAAACGCCTGGTGAACGTCGGGTATTAATTAATACAATTGGTCCTGTCTGGGACGGAAATGAAGTTTGGCTAATTACAGCAGGTGGGGCGATGTTTGCTGCATTTCCAAATTGGTACGCCACTTTGTTCAGTGGCTTGTACATGCCACTAGTGATCATGCTTCTTTTGCTCATAGGGCGAGGAGTAGCATTTGAGTTTAGAAGTAAACTAGATAATCCTAAATGGCGGGACACTTGGGATTGGACAATCTTTATTAGTAGCCTATTGAACCCATTATTATGGGGAGTTGTGTTCGCTGCATTGATGGCAGGCTTACCAATTGATAGTGAAATGAATATTTACGCTTCTGTCTTTGATTACATCACACCGTATACGTTAATTGGTGGAATTGCGATTACATTGCTCTGCTTTTTACACGGGCTATTCTTTATCACGTTGAAAACTACAGGTGACCTACAAATTAGAGCTCGTGAAACTGCCAAAAAAATTGTTTACGGTGTTGGTATAGCTTTAATTGCCTTTGTGGTTGCATCTTATTTCTACACAGATATTTTCCAGGTGAGAGGTGCCATATTAATTCCCATTTTCGCTCTTATTGTATTGGCAGTTGTTTTAGCTGGAAGTTTTGCTAAGAAAAGTCGTGATGGCTGGGCATTTACAATGACCGGATTAACTATCGCGCTCACGGTAACGTCTGTATTCGTCGGTTTATTCCCACGTGTAATGGTAAGTAGCTTAAATCATGCTTTTGACTTAACGATTCACAATGCAGCTTCAGGAGACTATTCGTTAAAAGTCATGACCATTGTAGCTGTCACTTTATTACCTTTTGTACTTGGTTATCAAATCTGGAGTTATTATGTATTCCGTAAACGTATTAAAGAAGAGGAGCATTTAGAATACTAA MVPMLSEVWFILIAVLFVGFLFLEGFDFGVGMAMRFVAKTPGERRVLINTIGPVWDGNEVWLITAGGAMFAAFPNWYATLFSGLYMPLVIMLLLLIGRGVAFEFRSKLDNPKWRDTWDWTIFISSLLNPLLWGVVFAALMAGLPIDSEMNIYASVFDYITPYTLIGGIAITLLCFLHGLFFITLKTTGDLQIRARETAKKIVYGVGIALIAFVVASYFYTDIFQVRGAILIPIFALIVLAVVLAGSFAKKSRDGWAFTMTGLTIALTVTSVFVGLFPRVMVSSLNHAFDLTIHNAASGDYSLKVMTIVAVTLLPFVLGYQIWSYYVFRKRIKEEEHLEY PGPT0026705_2721 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 AK015_01995 1404 appC COG1271 Cytochrome bd-II ubiquinol oxidase subunit 1 ATGGACGTTATTATGTTATCGCGAATTCAATTCGCATCTACAACTATTTTCCACTTTATTTTCGTGCCTTTATCCATTGGTTTAGTATTTTTAGTTGCACTTATGGAAACATTGTACGTTGTAAAAGGGCAAGAAAAGTACAAAAAAATGGCAAAGTTTTGGGGACACTTATTTCTTATTAACTTTGCTGTCGGAGTCGTTACCGGTATTTTACAGGAGTTCCAATTCGGGATGAACTGGTCTAACTATTCTCGCTTTGTCGGTGACGTATTCGGTGCACCACTCGCAGTTGAAGCACTATTAGCTTTCTTTATGGAATCTACTTTTTTAGGTTTATGGATTTTCGGTTGGAAAAGACTTTCTAAAAAAGTACATCTCCTATGTATTTGGCTCGTGTCCATTGGAACAATTATTTCTGCGTTTTGGATATTAGTCGCTAACTCATTTATGCAATATCCAGTCGGTTATGAAATTAACAATGGTCGCGCCGAAATGAATGACTTCCTAGCATTAATTACGAGCGGTCAAGTATGGGTGGAGTTCCCACATACTGTGTTTGGATCATTAGCCACAGGAGCATTTCTAATTACTGGTGTAAGTGCTTGGAAATTGCTTAAAAAACAAGATACGTATTTCTTTAAAAAATCATTTCATATCGCTTTAGTCGTTGCAATTATTTCTGGTTTAGGTATTGCCTTTACTGGTCATGCTCAATCACAATTCTTAGTAGAAACACAACCAATGAAAATGGCAGCAGCAGAAGGTTTATGGGAAGACAGTGCTGATCCAGCTCCATGGACAGTCTTTGCTAACATTGATACAGAAAATCAAGAAAACTCATTTGAAGTCAATATCCCATATATATTAAGTTATCTTTCCTACAGCGAATTTAGCGGAAGCGTGGAAGGAATGAAATCCATCCAAGCCAAATATGAAGAGTTGTATGGAGAAGGAGACTATATCCCTCCAGTTAAAACAACATTCTGGAGCTTCCGTATTATGACGTTCACAGGCGGATTAATGATCGTATTAGGACTTTATGGTGCTTACTTAATAAAACGTAAAAAGCTAGAACAAAGCAGGAAATATTTAAAAACGATGCTTTGGGCAATTGCTTTACCGTTCATTGGAGGTACAGCCGGCTGGATTATGACAGAAATTGGCAGACAGCCTTGGGTCGTATTTGGAGAAATGCAAACACAAGACGCAGTTTCACCGAACGTAACCGCTGGGCAAGTCCTATTCTCACTCATCTCATTTAGTGCAATCTATTTGATTCTTGCACTTGTGATGGCTTACTTGTTCGTTCGAGTAATCAAAAAAGGCCCTGTTGAAGAAGAAAAAGATGTCAAACTAACAACAGATCCTTTTGGAGAGGAAGGGTATGGTTCCTATGCTAAGTGA MDVIMLSRIQFASTTIFHFIFVPLSIGLVFLVALMETLYVVKGQEKYKKMAKFWGHLFLINFAVGVVTGILQEFQFGMNWSNYSRFVGDVFGAPLAVEALLAFFMESTFLGLWIFGWKRLSKKVHLLCIWLVSIGTIISAFWILVANSFMQYPVGYEINNGRAEMNDFLALITSGQVWVEFPHTVFGSLATGAFLITGVSAWKLLKKQDTYFFKKSFHIALVVAIISGLGIAFTGHAQSQFLVETQPMKMAAAEGLWEDSADPAPWTVFANIDTENQENSFEVNIPYILSYLSYSEFSGSVEGMKSIQAKYEELYGEGDYIPPVKTTFWSFRIMTFTGGLMIVLGLYGAYLIKRKKLEQSRKYLKTMLWAIALPFIGGTAGWIMTEIGRQPWVVFGEMQTQDAVSPNVTAGQVLFSLISFSAIYLILALVMAYLFVRVIKKGPVEEEKDVKLTTDPFGEEGYGSYAK PGPT0026700_3364 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 AK015_01996 2073 pbpH_2 COG0768 Penicillin-binding protein H ATGAGTAAGGGAATAAAGAAAAAAGAACGGAAGGATAAGCTGCCATTTCGATTGAATTTGTTATTTTTTATTATGTTTATTATGTTTGCAGCTTTAATTCTTCAGCTTGGTATTGTGCAAATTCTGAAGGGCGAAGAATTTCAGAAAGAGATCGATCGCACGGTAAACGATACAACGAAAGTGCCAGTGCCGCGTGGACAAATATATGATAGAAATCATCAACTAGTTGTTGGAAACGAACCGCGATATGCCATTACTTATACTCCAGCTAAAAGAACACAGGCGAAAGAGAGATTAGAGGTAGCTGAAAAGTTAGCTAAGCTCATTTCAGTTGAAGTAAAAGATGTTGCAGACATTAATGAAAGACTGAAAAGAGAGTATTATTACTTGAATCATAAAGAGGATGTAATAGAAAGACTTACGGATGAAGAAAGAAAGAAATTAGATGATACAGAAGAATATGATCTTGCCCTAGAACGAATAAAGAAGCACGAGATGAATGACTTGTCAGAGCAAGATAGGTTAATTATTGCCATTAAAAAGGAATTAGATAAAGCATACGCATTAACGCCACAAATTGTTAAGAATGAAGGTGTAACTGCCGAAGAGTACGCCAAAGTGTCTGAAAATTTAAGTGATTTACCTGGCGTCAATGCGATTGCAGATTGGGAACGTAAATACCCATATGAAGAAACTTTTAAAAGCCTAGTTGGTAAGATTACATCTCAAGAACGGGGACTGCAAAAAGAAAAACTGGAATACTATTTAACAAGAGGATATAGTCGGAATGATCGCGTTGGAATTAGTGGGATTGAAGAATATTATGAACACGTTTTACGAGGTAGAAAGGAGCAAGTACAATACACTACGACGAAAGATGGAACCACAATAGATTCAAAAGTAGCTGTAAAAGGAATAGCTGGGAAAGATCTTATATTAACCATTGATATGGATTTACAAAAAAAAGTAGATGAAATATTACAATCAGAGTTACAGAAAACCATTCAAAAGCATCCTTATCAGCATCAGTACATGTCAGATGCGATGGCGGTAGTTATGAATCCAAAAACAGGAGAGTTACTCGCTGTCAGCGGTGTATTGTATGATAAGGAAAAAAATGAATATAATAACGCTCCATATAAAGCAATTCATGATGCGCATTTGCCAGGATCTTCTATAAAAGGGGCGACCGTTTTAGCAGGTTATGAGTCAGGCGTTATTTCTCCAGGGCAAGTATTTCATGACAGGAAAATAAAGATTGCCTCTGGTGCTCCGAAAGGATCTTATAGTGATTTAGGTTCAGTAAATGATTTTGATGCACTACGTCGCTCATCAAACGTATATATGTTTTATATTGCATTAAAAATGGGAGGGGAACATCGTTATCCATTTCCCAATGGAGAAAGTGCTGCATTTGATGTAGCAGCATGGGATGAAATGCGTAGCTATTTTCAACAATTTGGTTTAGGTAGCCGAACCGGTATCGATTATCCTGAGGATCCAAAAGGAGTAATTGGCGATAAACAATTTCAACCAGGTTTATTGATGGACTTTGCCATTGGGCAGTATGACAACTACACCGCATTACAGCTAGCGCAATATGTATCCACAATAGCAAATGATGGCAATCGTGTTCGCCCTCGTTTAGTAAGGGAAATTCGTAATCCGTCGCCAACAGAAGATCAATTAGGTTCTGTTTATGAAAGCAAGGGGACAGAAGTATTAAATCGTATTGATATGAGCAAATCAAATATTGAACGTATTCAAGAAGGATTTAGGCAAGTGTTCAATGAATCACAAGGAACTTCCGTTCGTTTTTTCGGAACATCCAAGTATCGAGGTTATAAAGTCGCTGGAAAAACAGGAACGGCTCAAAACGCTTATTATGCCGATGGAGAAAAGAAGGCTGATACAGAAAATCTCACGCTTGTTGGCTATGCACCTTATGATGACCCTGAAATGGCTTTTGCTATTATTGTACCTCACACAGGGATTGTTAGTGGAAAACATCAAATTAACCAAACAATCGGGCAACGGATTATAGATGCTTATTTTACTGATAAAGAAGACTAG MSKGIKKKERKDKLPFRLNLLFFIMFIMFAALILQLGIVQILKGEEFQKEIDRTVNDTTKVPVPRGQIYDRNHQLVVGNEPRYAITYTPAKRTQAKERLEVAEKLAKLISVEVKDVADINERLKREYYYLNHKEDVIERLTDEERKKLDDTEEYDLALERIKKHEMNDLSEQDRLIIAIKKELDKAYALTPQIVKNEGVTAEEYAKVSENLSDLPGVNAIADWERKYPYEETFKSLVGKITSQERGLQKEKLEYYLTRGYSRNDRVGISGIEEYYEHVLRGRKEQVQYTTTKDGTTIDSKVAVKGIAGKDLILTIDMDLQKKVDEILQSELQKTIQKHPYQHQYMSDAMAVVMNPKTGELLAVSGVLYDKEKNEYNNAPYKAIHDAHLPGSSIKGATVLAGYESGVISPGQVFHDRKIKIASGAPKGSYSDLGSVNDFDALRRSSNVYMFYIALKMGGEHRYPFPNGESAAFDVAAWDEMRSYFQQFGLGSRTGIDYPEDPKGVIGDKQFQPGLLMDFAIGQYDNYTALQLAQYVSTIANDGNRVRPRLVREIRNPSPTEDQLGSVYESKGTEVLNRIDMSKSNIERIQEGFRQVFNESQGTSVRFFGTSKYRGYKVAGKTGTAQNAYYADGEKKADTENLTLVGYAPYDDPEMAFAIIVPHTGIVSGKHQINQTIGQRIIDAYFTDKED PGPT0023930_443 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465 NA NA AK015_01997 513 hypothetical protein ATGCGTGAAGTAGTAGTTATTCCATACCAAAGTCAGTGGCAGCAACTTTTTGGACAAGAAGCAACATATATAAAAGAGTTATTTCAAACGGAATTAGTTACGATACATCATATTGGTAGTACGGCTGTGCCGGATTTAGCTGCTAAACCAATTATAGATATAATGCCAGTAGTAAAGTCCATTGAGGAAGTAGGTGAGTATATAGAAGGAATGGAAAATCTAGGGTATCATGCATTAGGTGAATATGGTATCGAAGGAAGAAGATTCTTTATTAAAGGTGAGTACAAGCGGACGCATCATGTACATATGTTTCAACAAGGAGACCAGCATATCAAACGGCATATCGCATTTAGGGATTATTTAATCCATCACCCCTCGACAGCTATAGAATATGGAAACTTAAAACTGACTTTGGCAAAAAACTACCCAAATCAAATGGAAAAATATATGAGCGGAAAAAATGATTTTGTAAAAGATGTAGAGCAGCGGGCATTAAGTTGGTATAAACAGTAA MREVVVIPYQSQWQQLFGQEATYIKELFQTELVTIHHIGSTAVPDLAAKPIIDIMPVVKSIEEVGEYIEGMENLGYHALGEYGIEGRRFFIKGEYKRTHHVHMFQQGDQHIKRHIAFRDYLIHHPSTAIEYGNLKLTLAKNYPNQMEKYMSGKNDFVKDVEQRALSWYKQ NA NA NA NA NA AK015_01998 183 hypothetical protein ATGAAAGGAAAGATAGCTGTTTTCGCAGTAATTATTTTTACAATGATTGTACTTATATTATGTTGGTTTTGGTTGCAAGATGTAATTACTGATTATGATTTAGAACGTACTTCTCCTGTAGATGGTGTACATCCGCAAACAACAGAAATGCTTCCATCTCACATCGATTGCAAGCAGTTTTAG MKGKIAVFAVIIFTMIVLILCWFWLQDVITDYDLERTSPVDGVHPQTTEMLPSHIDCKQF NA NA NA NA NA AK015_01999 1461 hypothetical protein TTGATAGTACAAGATTGGAAGCGGGAGTGGTTTGGTAACGTTAAAGGGGATATTTTAGCTGGAATTGTGGTTGCCTTAGCATTGATTCCAGAAGCAATTGCTTTTTCTATTATAGCTGGAGTTGATCCGATGGTTGGATTATATGCATCCTTTTGTATCGCAGTAGTGATTGCTTTTGTCGGAGGGCGTCCAGGTATGATTTCCGCTGCAACTGGAGCAATGGCTCTTCTAATGGGGGGATTAGTTGCTGAGTATGGGTTAGATTATTTATTAGCAGCAACCATTTTAACTGGTATTATTCAAATTATTTTTGGGGTTTGCAAGCTTGCTAAAGTGATGAAATTTGTTCCCAGGTCAGTAATGATTGGTTTTGTAAATGCGTTGGCAATCTTAATTTTCACAGCGCAAATCCCCCATTTTCAAGGTGAAAGCTGGGTAATGTTCGCGTTGGTAGGTGTAACTTTAGCGATTATCTATCTATTACCAAGAATTACGAAAGCAGTTCCGTCAGCTTTAGTGGCAATTGTGGTCGTAACAGCCATTGTTATTTTCGGTGATATTCAAGTTGGTACAGTTGGCGATATGGGAGCACTAACGCAAGAGTTACCTGCATTTTTAATTCCATCTGTTCCATTTACGTGGGAAACATTCATGATTATTTTACCTTATTCCTTTGCGTTAGCTGTTGTCGGGTTATTAGAATCACTACTCACATCAAGTATTGTAGATGATATGACAGATACAGAGAGTGATAAAAATAAAGAAAGTCGCGGACAAGGTATTGCCAATATTGCTGCGGGTTTCTTTGGTGGCATGGCAGGTTGTGCCATGATTGGACAATCGGTTATTAATGTGAAGTCTGGAGGGCGTGGGAGATTGTCAGCTCTAGTAGCAGGTGTGTTTCTCATGTTTCTTATCATTGCATTAGGCGGGTTAGTAGTCCAGATTCCTATGGCAGCTTTAGTGGGCGTTATGATTATGGTATCTGTCGGTACATTTGATTGGAGCTCGGTCAAGCATATACATCGAATCCCACGCACAGATGCCATCGTTATGCTTACAACGGTTGTTGTAGTTGTTTATACGCACGATTTATCTAAAGGTGTACTTGCAGGTGTTGTTCTTAGCGCCATTTTCTTTGCGGCGAAAATTTCCCATGTTACTGTACGGAGTAAACGAGTAAATGGTGAAAACAAGCGCATCTATTATGTGGTAGGACAGCTTTTCTTTGCTTCTGTCAGTGATTTGCCAAGCAAGTTTTCGTATACGGAGAATATTCAATGTGTAGAAATTGATTTGTCACAAACCCATTTATGGGACGACTCAGCAGTAGGCGCATTAGATAAAATAGAAGCCAAATTCGCTCAACAGGATATTCGTGTGGAAATCACAGGTTTAAATGAAGCAAGCAGAAATTTAAAGCAGAGAATTGGCGGTGTTTCTAACGCATCTGGACATTAA MIVQDWKREWFGNVKGDILAGIVVALALIPEAIAFSIIAGVDPMVGLYASFCIAVVIAFVGGRPGMISAATGAMALLMGGLVAEYGLDYLLAATILTGIIQIIFGVCKLAKVMKFVPRSVMIGFVNALAILIFTAQIPHFQGESWVMFALVGVTLAIIYLLPRITKAVPSALVAIVVVTAIVIFGDIQVGTVGDMGALTQELPAFLIPSVPFTWETFMIILPYSFALAVVGLLESLLTSSIVDDMTDTESDKNKESRGQGIANIAAGFFGGMAGCAMIGQSVINVKSGGRGRLSALVAGVFLMFLIIALGGLVVQIPMAALVGVMIMVSVGTFDWSSVKHIHRIPRTDAIVMLTTVVVVVYTHDLSKGVLAGVVLSAIFFAAKISHVTVRSKRVNGENKRIYYVVGQLFFASVSDLPSKFSYTENIQCVEIDLSQTHLWDDSAVGALDKIEAKFAQQDIRVEITGLNEASRNLKQRIGGVSNASGH PGPT0003020_5537 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321 NA NA AK015_02000 417 nhaX COG0589 Stress response protein NhaX TTGTTTCAAAATATTTTATTAGCAGCAGACGGATCTTCTCATTCGGTGAGGTCTGCTGAGTATACTGTGGAAATAGCTAAAAAGTTTGCTTCTAAAGTAGAAGTGGTATATGTGGTTGACGGTGAGACTGCAAAAGCAGATGTGCTACATGCTACAGATCATACGCAAGTAGAAAAAAACAGGCAAGAAAGGATGCAACCTGTAACAGAGGTGCTACAAGAAGGAGAAATAGACTATACGGTTACTGTTTTACATGGCGAACCAGGCCCGAAAATTGTAACTTATGCCAATGAACATGATGTTGATTGTGTCATTTTAGGGAGTCGTGGCAGGAATAACCTACAAACGTTTTTGTTAGGTAGTGTCAGTCACAAAGTTGCTAAAAGAGTGGAATGCCCTGTGTTAATTGTAAAATGA MFQNILLAADGSSHSVRSAEYTVEIAKKFASKVEVVYVVDGETAKADVLHATDHTQVEKNRQERMQPVTEVLQEGEIDYTVTVLHGEPGPKIVTYANEHDVDCVILGSRGRNNLQTFLLGSVSHKVAKRVECPVLIVK PGPT0015026_50 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015026-nhaX-NA NA NA AK015_02001 1137 thiO_2 Glycine oxidase ATGAAAAAAAAAGCAATTATCATTGGGAGTGGCATTGTTGGTGCTTCTGCTGCTTATTACCTTACCAAAAGCAATTGGGATGTCACCATTGTTGATAGTAAAGAAAAAGGACAAGCGACAGACGCAGCAGCAGGGATCGTTTGCCCGTGGCTGTCCCAACGAAGAAATAAGGCATGGTATGAATTGGTCAAAGCAGGTGCTAGAATGTACCCAAACTTAGTGAAATCGCTTGCTAAGGATGGAGAAAATGAAACTGGGTATCAACAAGTTGGGGCATTACATTTACATCGAGATGAGCAAAAATTAATCGCAATGAAAGAACGAGCAGAAAAACGAAAAGCAGATGCACCCGAAATTGGGGATATAGAGCTATTATCTCCCGAACAAACGAAAGCACAGTTTCCTCTATTAGACGACAGCTACCGTTCTGTATATGTTAGTGGAGCAGCACGTGTTGACGGAAGAAAGCTCCGTGATGCACTTCTTCGAGGAGCACAAAAGCACGGAGCAAAGCTAATCAAAGGAGAAGCAATCTTACAAAACATTGGACAAAGAATTACAGGAGTTACTCTACAGGATGGAGAAGAGATAAAAGCAGATATCGTTATTGCTGCAACGGGTGCTTGGATGCGTGAATTACTTTCTCCTTTAGGAATTTCCTTTCAAGTTGAAGCGCAACGAGCACAAATTTTACACGTACAACTTGCAAACCAAAATGTAGACTTGTCTACTGCACCCGTTGTAAAGCCACCCAATAACCAATATATGCTCACCTTTCCAAACAATCGAATTGTCCTCGGTGCAACATATGAAAATAATGTTGGTTACGATTGGCGGGTAACTGTCGGTGGAATGCATGAAATAATTACAAAAGCGATGGAATTCGCACCACATGTAAAGGATGCGTCAATTGTAGAAGCACGAGTTGGCTTTCGTCCTGTAACGCCAGGACATCTACCAGTTGTTGGGGCTCTCGCTGGTTTTCAAGGATTGCTATTAGCAAATGGACTTGGATCAACAGGTCTAACGATGGGGCCATTTATTGGTTCTCAGCTAGCAAGTTTAGCAATGAATATACAACCAGAGATTGATTTCTCTCCTTATGATGTACGAAACGCTATCAGAAACCGAGCCTAA MKKKAIIIGSGIVGASAAYYLTKSNWDVTIVDSKEKGQATDAAAGIVCPWLSQRRNKAWYELVKAGARMYPNLVKSLAKDGENETGYQQVGALHLHRDEQKLIAMKERAEKRKADAPEIGDIELLSPEQTKAQFPLLDDSYRSVYVSGAARVDGRKLRDALLRGAQKHGAKLIKGEAILQNIGQRITGVTLQDGEEIKADIVIAATGAWMRELLSPLGISFQVEAQRAQILHVQLANQNVDLSTAPVVKPPNNQYMLTFPNNRIVLGATYENNVGYDWRVTVGGMHEIITKAMEFAPHVKDASIVEARVGFRPVTPGHLPVVGALAGFQGLLLANGLGSTGLTMGPFIGSQLASLAMNIQPEIDFSPYDVRNAIRNRA PGPT0020315_3753 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 AK015_02002 930 ppaC COG1227 Manganese-dependent inorganic pyrophosphatase ATGGCAAAGACGATAATTTTTGGACATAAAAACCCAGATACAGATGCAATTTGTTCTGCAATCGGATATGCGAATTTAAAACAGCAATTAGGAATGGATGTAGAGCCTGCTAGATTAGGTGCAGTTAGTAAAGAAACGCAATATGTACTTGATTATTTTGTAGCAACAGCACCTGCGCTAATGGAGGAAGTAGAGCCAGGAACGAATGTAATTCTCGTTGACCATAATGAATTTCAACAAAGTGTAGCGAATATTAAAGATGCTCGTATTACGGAAGTGGTTGACCACCATCGAATTTCCAATTTCGAAACAAGTGAACCGTTATATTTCCGTGCTGAGCCTGTTGGATGTACAGCTACTATTTTAAATAAGATGTATAAAGAAAATGGGGTTGCTGTTCCAAAGCAAATTGCTGGTTTATTACTATCAGCCATTATTTCTGATTCTTTACTTTTGAAATCTCCAACGTGTACACAAGAAGACATTGATGCGGCTTATGAATTAGCAAAAATTGCTGAAGTAGATGTGCATACGTATGGTCTTGATATGCTAAAAGCAGGTGCAGATTTAGGAGATAAGTCTATTTCCGAATTAATAACCATGGATGCAAAAGAATTTTCTATGGGTGGTGCAAAAGTAGAAATTGCCCAAGTAAATGCTGTTGATACAGAACAAATCTATGCAATGCAAGCAGAAATTGAAGCGGAAATTTCCAATATTATCAAAGAAAAAAATCTTGATTTATTTTTATTCGTTGTTACGGATATCTTGAACAATGATTCGGAAGTACTTGCTGTTGGGATTGGAAAAACAAAAGTAGAAGACGCATTTAACGTTGACCTTGACCAGCGTAGCCGTGCGTTGTTAAAAGGAGTTGTCTCACGTAAAAAGCAAATCGTAACAGCATTAACAGATGCCTATGAGAAATAA MAKTIIFGHKNPDTDAICSAIGYANLKQQLGMDVEPARLGAVSKETQYVLDYFVATAPALMEEVEPGTNVILVDHNEFQQSVANIKDARITEVVDHHRISNFETSEPLYFRAEPVGCTATILNKMYKENGVAVPKQIAGLLLSAIISDSLLLKSPTCTQEDIDAAYELAKIAEVDVHTYGLDMLKAGADLGDKSISELITMDAKEFSMGGAKVEIAQVNAVDTEQIYAMQAEIEAEISNIIKEKNLDLFLFVVTDILNNDSEVLAVGIGKTKVEDAFNVDLDQRSRALLKGVVSRKKQIVTALTDAYEK NA NA NA NA NA AK015_02003 186 hypothetical protein ATGAAAACATTCGTTCAACCCATTCTTTTTTTAATTTTAACTGCTGTTGCTTTTATTTTAAATATTTTAGGGCTCATGCAAGTTATGCCTCTTTATATAACATTACCATTATTGTTTATTTCCATTTATCTAACCATTTATTCCTTTGTTTATAAACGAACGTATCGCGGACGAGGTATACGCTAG MKTFVQPILFLILTAVAFILNILGLMQVMPLYITLPLLFISIYLTIYSFVYKRTYRGRGIR NA NA NA NA NA AK015_02005 891 hypothetical protein GTGAGTTGGGAATATTCTGGAGCAGATTCCTTGTATCAAAACACATCGGAAAAATATAGCTATGTTGATTTTGTTCAGAAACCTATAGAAATCTACGTCTTTATCGACCCATTATGTCCTGAATGTTGGGCGCTTGAACCTTTTTTAAAGAAACTTTCTACAGAATATGGACGTTTTTTCACTATTCGTCCAATCATTAGTGGTTATTTAAATTTATTAAACCAAGAATCTTTTGAACGTCCACGTAACATAAAGGAATTGTGGGAAAAAACAGCAAAACGGACTGGCATGTGCTGTGATGGAGATCTATGGGAAGAGAATCCTGTCTCCAGTCCATGGATTGCTTCTTTAGCTATTAAAGCGGCAGAATTACAAGGAAAAAAAGCTGGAAAAATGTTTTTACGTAAAATTCGTGAAAATGCATTCTTATATAAACAAGATATTTCGAAAGAGTCTGCTCTTTTAACCTGTGCAGAGGAAGCTAATTTAGATGTGAATGAGTTTATATCTGATCTTTATTCCAAGTCAGCAAAAAAAGCACTTCAATCAGACGTAAAGCTAACACAAGAAATGCAAGTTGAATATATTCCAACGATTGTTTTTTTTAATCAATTTACAGAAGAACAAGGAATTAAAATTTCTGGACTTTATCCATATGATATTTATTTACGTGTTCTAAGAGAAATATTGCAAAAACAAGCAATTCCTTCTGAAAAACCGATGTTGGAAGATTTCCTTTCTTACTACAAAACCGTAAGCACCACAGAAATTGCAGTCGTTTATGACTGGTCACAGGCTAAAACAGAGCGAGAAATGAAAAAATTGCAATTAAGACAAAAGGTCAAATGTATACCAGTGAAACATGGGAATTTTTGGGTCTACCAAGAATAG MSWEYSGADSLYQNTSEKYSYVDFVQKPIEIYVFIDPLCPECWALEPFLKKLSTEYGRFFTIRPIISGYLNLLNQESFERPRNIKELWEKTAKRTGMCCDGDLWEENPVSSPWIASLAIKAAELQGKKAGKMFLRKIRENAFLYKQDISKESALLTCAEEANLDVNEFISDLYSKSAKKALQSDVKLTQEMQVEYIPTIVFFNQFTEEQGIKISGLYPYDIYLRVLREILQKQAIPSEKPMLEDFLSYYKTVSTTEIAVVYDWSQAKTEREMKKLQLRQKVKCIPVKHGNFWVYQE NA NA NA NA NA AK015_02006 384 yjbI COG2346 Group 2 truncated hemoglobin YjbI ATGAGGAACCAGACAAATTCTATCTTTGAAGCAATTGGCGGATTACCTGTTGTAGAAAAGCTTGTCGAAGCTTTCTATACAAGAGTGAGCAAGCATCCCGATTTAATTCCTATATTTCCAGAAGATTTAACAGAAACGATTCATAAACAGAAATTGTTCCTCACGCAATTTTTTGGCGGACCGCCTTTGTACGCAGAAGAAAGAGGCCATCCAATGTTACGCAGAAGACATTTACCTTTTGCAATTACACCAACACGAAAGGATGCTTGGCTTACATGTATGGCAAATGCGCTTATCGAAGCAGAAATCGAAGAACCATATCGTACAGCTATATTTGAAAAACTAACCTTAACTGCAAACCACATGATGAACACGCCAGATTAG MRNQTNSIFEAIGGLPVVEKLVEAFYTRVSKHPDLIPIFPEDLTETIHKQKLFLTQFFGGPPLYAEERGHPMLRRRHLPFAITPTRKDAWLTCMANALIEAEIEEPYRTAIFEKLTLTANHMMNTPD NA NA NA NA NA AK015_02007 567 yjbK COG4116 Putative triphosphatase YjbK ATGACACAAGAAATAGAAATTGAATTTAAAAATTTATTAACTTCCGATGAGTATCATACATTGTTAACCGAACTTCCATTCCCTAACGAAGCTGTGACTCAAACCAATTATTATTTTGAAACAAAGGATCGCACTTTGCAAGGATTAGGAAGTGCATTACGTATCAGGCAAAAAGACAACCAATATCAACTAACGTTAAAACAACCGCATCCTAATGGTTTATTAGAGACACATGATAAGCTAACAAGGAAAGAAGCGGAAGCGTGTATGCAGGGAAAAATGGTTGCAAAAGATGAAACTGCAAAACAGTTAAATGAACTAGGTGTAGACATTGGTTCCCTCATGTGCCTTGGTAGTTTAACTACTGAACGAAGAGAATTTCAATTTCAAGATGTTCTTCTTGTTTTAGACTTCAGTAAGTATAACGGAATATCAGACTACGAACTGGAATTAGAAGCAACATCTTATGAATCAGGGCATATTTTTTTCAACCATGTATTAAATAAATTTTCAATCCCAAAACGCCATACACCAAATAAAATTGAGCGGTTTTTTAAAAGTAACTAA MTQEIEIEFKNLLTSDEYHTLLTELPFPNEAVTQTNYYFETKDRTLQGLGSALRIRQKDNQYQLTLKQPHPNGLLETHDKLTRKEAEACMQGKMVAKDETAKQLNELGVDIGSLMCLGSLTTERREFQFQDVLLVLDFSKYNGISDYELELEATSYESGHIFFNHVLNKFSIPKRHTPNKIERFFKSN NA NA NA NA NA AK015_02008 609 yjbM COG2357 GTP pyrophosphokinase YjbM GTGAAATGGCAATCTATACTTGCGCCATATGCCCAAGTTGTAGAAGAATTAAAAGTTAAATTAAAAGGAATACGTAAGCAATTTGAATACGAGTCTGAACATTCACCAATAGAATTTATAACTGGTCGTGTGAAGCCAGTCCCAAGCATTATAGAAAAAGCCGAAAACCGAAAAATCCCATTAGAGCATATAGAAAGTGAAATTCAAGATATTGCTGGAGTAAGAGTTGTTTGTCAATTTGTGGATGACATATACACCGTAGTAGAAATGATCCGTGCAAGAAATGATTTAACAATCGTTGAAGAAAAAGATTACGTTTCTCAGAAAAAAGAAAGTGGCTACCGCTCCTATCACCTCATTATTGAATACCCAGTAGAAACCGTGTCTGGGATGAAAAAACTGTTAGCAGAAATTCAAATTCGAACGTTAGCAATGAACTTTTGGGCGACAAATGAGCATTCTCTAAACTATAAATATAGAGGTAGTATACCAGCAAATATAAAAGTACGATTACAAAACGCTGCAGAAGCTGCTTTTAAGCTAGACGAAGAAATGTCAAAAATCAAACATGAAGTTCAAGAAGCTCAAAAGATGTTTCATCGAAAATAG MKWQSILAPYAQVVEELKVKLKGIRKQFEYESEHSPIEFITGRVKPVPSIIEKAENRKIPLEHIESEIQDIAGVRVVCQFVDDIYTVVEMIRARNDLTIVEEKDYVSQKKESGYRSYHLIIEYPVETVSGMKKLLAEIQIRTLAMNFWATNEHSLNYKYRGSIPANIKVRLQNAAEAAFKLDEEMSKIKHEVQEAQKMFHRK PGPT0014825_1599 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816 NA NA AK015_02009 807 ppnKA COG0061 NAD kinase 1 ATGAAATTTGCTATCGTATCTAAAGGCGATGAGCGTTCTGAACAAATAAAGTCAACAATAAAGCAATATTTAACGGATTTTCAATTAGAATATAATCAAAATGAACCTGATTTAGTCATATCTGTTGGTGGGGATGGTACATTTTTAGAAGCTTTTCACACTTATTTACAGCGGTTAAATGAAACAGCGTTTATTGGAATACATACTGGTCATCTGGGGTTTTATGCTGACTGGGTTCCGGATGAAGTAGAGAAGCTAATCATAGAGATTGCGAAAACGCCATTTCAAATTGTTGAATATCCGTTATTAGAAGTGATTATTCGAGGAAAATCAGGAGGAATTGAAGATCGTTTTTTAGCTTTAAACGAAGCTACAATTAAAACAGCTGATGGTTCTGTTGTGTTTGATGTTGAAATTAAAGGTGAACATTTTGAAACATTTCGTGGTGATGGTTTATGTATCTCCACACCGTCGGGTAGTACGGCATATAATAAAGCACTAGGCGGTGGCATTATTCACCCTTCTATTGATGCCATTCAATTAACCGAGATGGCTTCAATTAATAATCGAGTTTTTCGGACCATCGGATCACCACTCATCTTACCAAAGCACCACACATGTTTATTGAAGCCAGTTGTTGATCGAAGTTTTCTTATAGCGATTGATCATTTTACTACAAACTATGCTAATGTGAAATCAATTCAATGTCGTGTTGCTGAAGAACGTATTCGCTTTGCTCGTTTTCGCCAATTTCCTTTTTGGAAAAGAGTACGTGAATCATTTATTGCAGATGAAAATAACAGATAA MKFAIVSKGDERSEQIKSTIKQYLTDFQLEYNQNEPDLVISVGGDGTFLEAFHTYLQRLNETAFIGIHTGHLGFYADWVPDEVEKLIIEIAKTPFQIVEYPLLEVIIRGKSGGIEDRFLALNEATIKTADGSVVFDVEIKGEHFETFRGDGLCISTPSGSTAYNKALGGGIIHPSIDAIQLTEMASINNRVFRTIGSPLILPKHHTCLLKPVVDRSFLIAIDHFTTNYANVKSIQCRVAEERIRFARFRQFPFWKRVRESFIADENNR PGPT0013490_5182 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858 NA NA AK015_02010 894 rluD_2 COG0564 Ribosomal large subunit pseudouridine synthase D ATGAAATGGATTATTGAGAAACAGCATGAAGGAATGCTTCTTCGTGATTACATTCGCCAAGTTCAAGGGGTATCTAGACGAATTTTAAAAGCAATTAAATTTGAGGGCGGTCTCATTTTAGTAAATGATGTTGAGCAATCCGTTCGTTATGTATTAAAAGAAGGAGACGAAGTGGAAATTACATTGCCGATAGAAAAAAAGGGGAATTTTATGGTTCCAGGAGAAGTCCCCCTTTCGATTATCTATGAAGACAAAGATATTATTGTACTCGATAAACAGGCAGGTGTAGCAGTTCTTCCATCTTATCATTATCCTAAAGGTACGATAGCTAATGGGTTACTAGCCCATTATGAGCAGCAAAATAGTGCTTCTACGGTTCATATCGTGACAAGGCTAGATAAGGATACTTCTGGACTAATGCTAGTTGCTAAGCATCGATACAGCCACTCCGTTTTATCCACATCTCAGCAAGCGGGTGAATTAAAGCGAAAATACCAAGCGATTGTAGATGGGGATTTAAGCAAGACTTCGGGTACAATCGATGCGCCAATCGGGAGAAAAGAAGATTCCATTATTGAACGGGAAATACGAGAAAATGGAAAACGAGCCGTTACCCATTATCGTGTAGAACGTAATTTAACAGGCTGCTCTTTTGTCACTGTTCAGTTAGAAACAGGCAGAACGCATCAAATTCGTGTTCATTTTTCTAGTATAGGACACCCGCTTTATGGCGATTCATTATACGGAGGTGATGTTAGCGTCATACAGCGTCAAGCTTTGCACTGTTATGCGTTAACATTTCCGCATCCCATTACAAAACAAACATTGCGTTTTTCAGTAAATTTGCCATTGGATATGGTTAATGCGCTTCGTAAGTTGCAAACTTCTCTTTGA MKWIIEKQHEGMLLRDYIRQVQGVSRRILKAIKFEGGLILVNDVEQSVRYVLKEGDEVEITLPIEKKGNFMVPGEVPLSIIYEDKDIIVLDKQAGVAVLPSYHYPKGTIANGLLAHYEQQNSASTVHIVTRLDKDTSGLMLVAKHRYSHSVLSTSQQAGELKRKYQAIVDGDLSKTSGTIDAPIGRKEDSIIEREIRENGKRAVTHYRVERNLTGCSFVTVQLETGRTHQIRVHFSSIGHPLYGDSLYGGDVSVIQRQALHCYALTFPHPITKQTLRFSVNLPLDMVNALRKLQTSL NA NA NA NA NA AK015_02011 747 prpE COG0639 Bis(5'-nucleosyl)-tetraphosphatase PrpE [asymmetrical] ATGAAAATAGACGTAATTGGTGATGTTCACGGTTGCTTCGAAGAATTAGAGCAATTATTTTCCAAATTAGGCTACAAAAAAGAACAAATTATTTATATTCACCCACAACAGCGTGTGCCAGTATTTGTAGGTGATATAACCGACCGGGGGCCACATTCCCTAAACGTAATTACACTTGTATACCATATGGTTATTACCCATAAAAAAGCACGATACGTTCCCGGAAACCACTGTAATAAATTATATCGTTATTTTTTAGGTAATAAAGTACAGTTACGACATGGTTTGGAAACAACCGTTGCCGAGTATAAGCGTTGCTCTAAAGAAGAGCAAGCTATTATTCGCCAGCGATTCATGACGTTATATGAGCAAGCACCATTATATTTGCAAATTCCAGAATGTAATGCAATTATTGCGCATGCAGGTATCAAAGAAAGCTACGTTGGAAGAGCCGATAAAAAAGTAACATCATTTGTTTTATATGGAGATACAACTGGTGAATTTCATGCTGATGGAAGACCAGTACGTCGTGATTGGGCGGCATATTATCAAGGAGATAAATGGATAATTTATGGCCATACACCCGTGTTGCAGCCAAGATTCTTAAATAAAACAGTCAACATTGACACTGGCTGTGTATTCGGAAATCAATTGACTGCGTTTTCTCTCCCTGAGGAAAAGATAACGGCTGTTTCTTCCAAACAGCCATTTGTCAAAGAGAAGTTTGCAACTTACGAAGCGCATTAA MKIDVIGDVHGCFEELEQLFSKLGYKKEQIIYIHPQQRVPVFVGDITDRGPHSLNVITLVYHMVITHKKARYVPGNHCNKLYRYFLGNKVQLRHGLETTVAEYKRCSKEEQAIIRQRFMTLYEQAPLYLQIPECNAIIAHAGIKESYVGRADKKVTSFVLYGDTTGEFHADGRPVRRDWAAYYQGDKWIIYGHTPVLQPRFLNKTVNIDTGCVFGNQLTAFSLPEEKITAVSSKQPFVKEKFATYEAH PGPT0021535_1473 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021535-apaH-K01525 NA NA AK015_02012 1386 mgtE COG2239 Magnesium transporter MgtE ATGGAAACCAACCATCGTTATGACAAAGATTATGAAAAGCAGTATGAACAGCATTGGAAAAAATTACAACAGCAATTAAAACGAGAAAATATGGAAGGGTTTCGCAACGAATTCCTTGATATGCATTCCTATGACCAAGCTATGTTTTTCATTGAACAGAAAAAATCAATTCGTTTACAAATCTATACTTATTTATCTCCAGAAGAGATTGCAGATATTATGGAGAGTATCGATGAAGAGGAACAGACTCGCGATTTAATTAGTGAAATGGATCCTCGCTTTGCGTCTATGGTGCTAGCGGAAATGTCCGCAGATAACGCTGTCGATATTTTGAACGAAATGGATAAAGATCATATTGCTAGCTTTTTAACAATTATGGATACATCCGCAGCAGATGAGATAAAGCACTTATTACATTATGAAGAAAAAACTGCCGGAAGTATTATGACAACAGAATTTATCGCTACTTATAAAACAAACACTGCCAAGCAGACGATGCAACAATTAAAGGAGCAAGCGCCTGATGCAGAAACAATTTATTATTTATATGTATTAGATGAAGATAAGCGTTTAGTCGGTGTGTTATCTTTAAGAGATTTAATTGTAGCACCAGAAGATACAAAAATAGAAAGTATCATGATGGAAAAAGTCGTCGCCGTATCAGCTGGAAAAGACCAAGAAGAAATTGCTCAAATGATGCGAGACTATGATTTCTTGGCATTACCGGTTGTTGATTTTCAAGATCATTTATTAGGAATTATTACTGTTGATGACATTATGGATGTTATGGAAGAAGAAGCAAGCGATGATTATTCGAAGCTTGCAGGGGTATCAGATATCGATAAACCTAATGATACAGCATTAATTTCCGTGAAAAAACGTTTACCTTGGCTAGTCATTTTATTGTTTTTAGGAATGTTTACTGCAAGCCTCATTGGTCGATTTGAAGAAACATTAAATCAAGTAGCAGTCTTGGCTATTTTTATACCTTTAATTGCTGGAATGGCAGGTAATACTGGTACACAAGCATTAGCTGTTGCAGTTCGAGGTTTGGCAAGTGGAGATTATGGCAAGCAAGGGAAAATGAAACTAGTCTTACGGGAAGCAAGTACAGGCATTATCAATGGGGTTATTTGTGGCCTGCTTATTACCCTAGTAATTTATGTATGGAAACATGAGATTTATTTAGGAGTGCTTGTAGGGATTTCCATAGCTGCAACTTTATTTGTAGCTACAATTACAGGTGCATTAGTACCTATTTTTATGGATCGATTAAAAATTGATCCTGCTGTTGCTTCAGGTCCATTTATTACAACAATTAATGATATCATTTCTATTCTCATTTATTTTAGTATGGCAACACTATTTATGAAGTATTTAATCTAG METNHRYDKDYEKQYEQHWKKLQQQLKRENMEGFRNEFLDMHSYDQAMFFIEQKKSIRLQIYTYLSPEEIADIMESIDEEEQTRDLISEMDPRFASMVLAEMSADNAVDILNEMDKDHIASFLTIMDTSAADEIKHLLHYEEKTAGSIMTTEFIATYKTNTAKQTMQQLKEQAPDAETIYYLYVLDEDKRLVGVLSLRDLIVAPEDTKIESIMMEKVVAVSAGKDQEEIAQMMRDYDFLALPVVDFQDHLLGIITVDDIMDVMEEEASDDYSKLAGVSDIDKPNDTALISVKKRLPWLVILLFLGMFTASLIGRFEETLNQVAVLAIFIPLIAGMAGNTGTQALAVAVRGLASGDYGKQGKMKLVLREASTGIINGVICGLLITLVIYVWKHEIYLGVLVGISIAATLFVATITGALVPIFMDRLKIDPAVASGPFITTINDIISILIYFSMATLFMKYLI PGPT0013995_1444 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213 NA NA AK015_02013 462 hypothetical protein ATGGGGAAGAAGTATGCAAAAAAACCATTACTTTTCATCCATCAACCGAATGAAGGGCAAATGCATGTCCCAATGCAGCATATGTATGTAACTCCGAAAAAGGAGCAAAATGAAACATCAACAAATGGCGGGGAGGAAAAAAAGGGGATGAGGCATCCATCTTTTAACAAAAATTATAATAGTAAAGAAGAATATGGGCACGAAGAAAAATTGAAGCAAAATCAAACGGAGGAAAAGCAAAAATTTAAAGACATGTCGATCGAAGAAAAAGTAGATTATTTTATTAATTCCCCTAGCTACGCTCCAAAGCTAAAATGTGAAATTAAAACGGATCAACGAACATATCGTGGTGTCATTACTGGAGCTGAAGGGAACGATGTATACATTCGAGTCGGTAATCGTTCCGCCAGTACAAAAGTAAGTTTGGATGATATTAAGCATATTAAGCTTTTGGGGTTTTAA MGKKYAKKPLLFIHQPNEGQMHVPMQHMYVTPKKEQNETSTNGGEEKKGMRHPSFNKNYNSKEEYGHEEKLKQNQTEEKQKFKDMSIEEKVDYFINSPSYAPKLKCEIKTDQRTYRGVITGAEGNDVYIRVGNRSASTKVSLDDIKHIKLLGF NA NA NA NA NA AK015_02014 459 cotY Spore coat protein Y ATGGGCTGTGGAAAAGATTTTGATACAGGAAATTGTGTATGCGATATTTTAAAAGAAATCGCTGATGCACAAAATGACGTTATAGAAAATTGCTGTGATTCCAGCTGTGAACAATCAATCAACGATCTTCTGGGGGAGACAGATCAAGGCAACGGACTTGATACAGTTCCAGTGATTTTGTACTGCAAAGGAACTTGTAAGCCATTTAAAGGTTTTGGAGCTCATCCAAGTAATATCGGTGATATTGTTGCAAGTTTCTATTTTAGAGTGAAGAAAGTAACCAATGATTGCTGTGCAGTAATTGAATTATTAAGAGATCCTCGTGATGATAAAGAAAATCCTGACAACCCAGTAGAACAAGACACAAAACCTTTACGTGCTACAGGCATTTGTATTACAGTAGACCTAAACTGCTTCTGCCATGTAACATGTCTTCCAGCAATTAATGCTTTAAACTAA MGCGKDFDTGNCVCDILKEIADAQNDVIENCCDSSCEQSINDLLGETDQGNGLDTVPVILYCKGTCKPFKGFGAHPSNIGDIVASFYFRVKKVTNDCCAVIELLRDPRDDKENPDNPVEQDTKPLRATGICITVDLNCFCHVTCLPAINALN PGPT0025235_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025235-cotZ-K06344 NA NA AK015_02015 237 hypothetical protein ATGTCGGAAAGAAAAAAGCAAGTAATTCATGTGAAGGATCTCGTCATTAAAGCAGATAACGTTTTTATTGAACCTCAGCGACCACCCCGTCCACCGCACAGAAGAGATCCTTTTGCTTCAAGAAGACGTCCTTTCGATGAAAATGAAAAAGAGGATCACGAAAAAGAAGATTCTTATGACAGAGAAGATGATGAACATAGAGAAGATGAGCGTAGATCGCCATTTTCTTGGCTTTGA MSERKKQVIHVKDLVIKADNVFIEPQRPPRPPHRRDPFASRRRPFDENEKEDHEKEDSYDREDDEHREDERRSPFSWL NA NA NA NA NA AK015_02016 204 hypothetical protein ATGCGTTTTATTGAACCTAAATGGTTATACAATATGGATATTATTGATAAGCATTTGCAGAAAAATGAAAATTGGCTTCAATATCCAGATAAAAAAGCGGAACAATGGGAAATGGAGATAGGTAATTGGAATGAAGCTTTTTTAAAGCAAATGGCTCAAATCGAAAATGCTTTATTAGAAATTGGAGCTAAATTAGAAGAGTAA MRFIEPKWLYNMDIIDKHLQKNENWLQYPDKKAEQWEMEIGNWNEAFLKQMAQIENALLEIGAKLEE NA NA NA NA NA AK015_02017 261 hypothetical protein ATGGGATATATATTGCCAATAAAGCAATACCAATATCAGCAATATCACCAAAGAATAAGCGTAAAGAAACAGGATACAATGCCAGTTCAACGACCATTTAAAAGCGTACTTGATCGCAGGCATCAACAATTATCCAAACAATATGAACGACTCCATGTAGCTGGATATGATCGGTATGTGTTAACAAACCAAGAAGCTTTGGTATCATCGAAGTTTCGTGGAATGTATAAAAAAGGAGATCGGTTCAGCGTAGAGGTATGA MGYILPIKQYQYQQYHQRISVKKQDTMPVQRPFKSVLDRRHQQLSKQYERLHVAGYDRYVLTNQEALVSSKFRGMYKKGDRFSVEV NA NA NA NA NA AK015_02018 711 hypothetical protein TTGAATCACTATTGGCTAATGCTCATAGATACCATTTTCGGATTTTTCGCCTTGTTCTTGCTCACAAAATTATTAGGGAAAACACAAATTACTCAATTAACGCCGTTTGACTTCATATCTGCTTTAATTCTCGGAGAATTAGTAGGAAATGCTTTATTCGACAAAGAAGCAGGTGTCATTGAAATAGCCTTTGTGATTATTCTTTGGGGAAGTTTGCTATATATAACAGAGATAACTACACAAAAATTCAAACGTACGCGCAGCTTGTTAGAAGGAGCACCCGATTTTATTATTTATCGTGGCAAGTTAATTAGAGATGTAATGAAAAAAAATAATTTGGATATTAATCAATTACAAAGCCTCTTACGGGCTAAAGATGTTTTTTCAATACGAGAAGTAGAATTTGCTTTTATGGAAACAAACGGAACCGTATCTGTTATTCTAAAGCCTGCCTATCAAACACCGAATAAGCAAGAGCTTCAAGTTTCAACTGAGAAAACGTATTTAGCCACTACGCTAATCAATGATGGAGAAATTATCTATGACAATTTAAAAGAGAAAAATTTGACGGAGGAATGGTTAATGGACCAATTAGAAGAACAACAATATAAACATATAAGCGATGTTTTTTATGCCGAATATAAAAAAGGCGAAGGGTTATTTATTCTTCCTTATGTGAATAGAGAGCATAAAAAATATGATGAGAAGTAA MNHYWLMLIDTIFGFFALFLLTKLLGKTQITQLTPFDFISALILGELVGNALFDKEAGVIEIAFVIILWGSLLYITEITTQKFKRTRSLLEGAPDFIIYRGKLIRDVMKKNNLDINQLQSLLRAKDVFSIREVEFAFMETNGTVSVILKPAYQTPNKQELQVSTEKTYLATTLINDGEIIYDNLKEKNLTEEWLMDQLEEQQYKHISDVFYAEYKKGEGLFILPYVNREHKKYDEK NA NA NA NA NA AK015_02019 426 yjcF putative N-acetyltransferase YjcF ATGATTATAAAAGAAGTCACAACACATAAAGAACAGGATGACGCCTATCATATCCGTACAGTCGTCTTTATTCAGGAACAAAATGTATCACCTGAAGAAGAAATGGATAAATATGATGACGAAGCAATCCACTTCATAGCTTACGATGGCGAAATTCCTATTGCTACTAGCCGTCTCCGTTTTGTAGAGTCTTACGGGAAACTTGAAAGAATTTGTGTATTAAAAGAATATCGTGGAAAATCTATTGGAAAACAATTAATTCACCATATGGAACAGGCCATTCTTGAAAATGACTATCAAAAAGCAAAGTTAAATGGGCAAACCCATGCTGAGAAATTTTACCAGCAATTAGGGTATGAGACTGTATCTGATGAGTTTCTAGATGCTGGTATACCTCATGTTACAATGGTAAAACAGTTATCTTGA MIIKEVTTHKEQDDAYHIRTVVFIQEQNVSPEEEMDKYDDEAIHFIAYDGEIPIATSRLRFVESYGKLERICVLKEYRGKSIGKQLIHHMEQAILENDYQKAKLNGQTHAEKFYQQLGYETVSDEFLDAGIPHVTMVKQLS PGPT0001990_6 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001990-patB|malY-K14155 NA NA AK015_02020 519 yjcG COG1514 Putative phosphoesterase YjcG ATGAAATATGGTATTGTTATTTTTCCAACAAAGGAAATTCAAGATGAAGCAAACTCTTATCGAAAAAGGTATGATCCACACTACGCTTTAATTCCTCCGCACATTACGTTGAAGGAATCTTTTGAAGCAGATGATCAACTGATTAATGAATTAATTATTGAATTAAAACATATTGCTAATGAAATAGATCCTTTTACCATTTATATGAACAAAGTTAGTACTTTCGCTCCGATAACGAACACCATCTATTTTAAAGTCGAACCAAGGCAAGAGCTCGTTGACTTATACGAGAGAATGCATGCAGGTAAATTTCCTGATAATCACGAGTATGCTTTTGTACCACATATAACGATTGCTCAAAAGCTTCCAGATGATGAATACTCCGATGTATATAGCAGTTTAAGCATGAAGAAAACCCAACTAGAAGACCAAATTGATCGTTTCCAATTAATGTATCAGCTAGAAAATGGGTCTTGGACCGTTTACGAAACATTTGTGTTTGGAAAGGAGTACGTATGA MKYGIVIFPTKEIQDEANSYRKRYDPHYALIPPHITLKESFEADDQLINELIIELKHIANEIDPFTIYMNKVSTFAPITNTIYFKVEPRQELVDLYERMHAGKFPDNHEYAFVPHITIAQKLPDDEYSDVYSSLSMKKTQLEDQIDRFQLMYQLENGSWTVYETFVFGKEYV NA NA NA NA NA AK015_02021 726 hypothetical protein TTGGGAAGAAAAGGTTCTATGATTGAGAAACAAATCAATAGCAAGTACTTACAAGAAAATATGACATTAACAATTTATCAACCAGAAGATTTCTCTCCATTATACAAATATCAACTTTGCATTATGCAAGATGGCAATGATTATTATCAGCTTGGAAGAGTAGCTACTTTAAGTGATAAGCTACATGATAATCAAGAAATTACCAATACGATATTTGTTGGCATTCAATACAAAGATAAGTTTGACCGCCGTGAAAAGTATCATCCGGACGGTAAACAAAATGAAGCCTATATAAAATTTCTAGGACATGAGGTTGTACCTTTTTTAGATCATTTATTTCCTACTTATTACATGGGGCAATCTAGAGCCTTATTAGGCGACTCTTTAGCAGGAACGCTTGCCCTTATGACTGCCATTCGTTATCCAAATACGTTTGGAAAAGTCATCATGCAATCTCCTTTTGTAAACGAAACCGTTTTAAATGCAGTAAAAACAGCCAAAAACTTGGATCGGGTTGCCATTTACCATACAATCGGAAAAGCTGAAACAGATGTACAGATGACCAATGGCGAAAGGATGGACTTCCTAACACCTAATCGAAAGCTTCATGACATTTTACAAAGTACCGCCTCCAGTTATGATTATTACGAATTAGAGGCTGGAGAACATACATGGAAGTATTGGCAACAGGATATGAAGCGCACCCTTACTTCCATGTTTCCATAA MGRKGSMIEKQINSKYLQENMTLTIYQPEDFSPLYKYQLCIMQDGNDYYQLGRVATLSDKLHDNQEITNTIFVGIQYKDKFDRREKYHPDGKQNEAYIKFLGHEVVPFLDHLFPTYYMGQSRALLGDSLAGTLALMTAIRYPNTFGKVIMQSPFVNETVLNAVKTAKNLDRVAIYHTIGKAETDVQMTNGERMDFLTPNRKLHDILQSTASSYDYYELEAGEHTWKYWQQDMKRTLTSMFP NA NA NA NA NA AK015_02022 1818 COG1132 putative ABC transporter ATP-binding protein ATGCTAAGTAAACAATTGAAACAGCCTTTTCAATATAAAAAAATACCCATATCATCAAATTCAAGCCATAATCAAAAACGTGCTCAAGATACGAAAGGAACCATCAAGCGCATTTGGACTTATTTAGCTAATGAAAAGGGAAAGTTAACACTCGTCATTTTAATGGTTGTCGCTAGTTCTGCACTCGGTCTTTTAGGACCGTTTATGATTGGTATGGCAATTGATGATTACATTGTTACTAAAGAAACAACCGGATTAGTTACGTTATTGATTTGGCTTGTAGTCATCTATCTCTTTCATGCTTTAGCCATTTTCCTGCAAAATTTTTGGATGATTGGCATTGCCCAAAACACCGTTTTCGCGCTAAGAAAACACTTGTTTTATCAATTTCATCGGTTGCCAATTGCTTATTTTGATAAGCGACAACACGGGGAATTAATGAGTCGGATTACAAACGATATTGACAATGTGAATAACACGTTGAATCAATCCGTTATCCAAATATTTTCGAGCATTCTAACTCTAACAGGAACGATAGGTGTTATGCTCTATCTTAGCCCGATACTAACAGCTATTACTATGGTAATAGTACCAATTATGTTTCTTGCCATTCGCTGGATAACAAAGCGAACAGGCCCTTTATATAAATTACAGCAGAAAAATTTAGGCGAAGTGAATGGCTATGTTGAAGAAATTTTATCTGGTCAGCATATTGTCAAAGCTTTTTCTCAAGAAAAGCGTGTTATAAAAGAATTTGAAACACGTAATAAGCAATTAAATCATGCAGGGTTTTGGGCTCTGACCATTTCTGGGTTTATCCCCAAAGTAATGAACATGCTCAATTTTTTAAGCTTTGGACTCATCGCATTAGCAGGAGGTATTTTAGCTATAAATAATGTTGTAACAGTAGGAGTTATTGTAATATTCACAGAATATGCTAGACAATTTACACGACCGTTAAATGAATTGTCCAATCAATTTAATATATTATTATCTGCTGTAGCAGGTGCCGAACGTGTATTTCGTGTATTGGATGAAGAACAGGAAGAAGCAGATGAAAAGACGGCTCAAAAGCTTACCACTACAAATGGACATTTCGTTTTTAATAAAGTTTCTTTTGGATATGAAAATAGCTATATTTTAAAGAATATTAGCTTTGAAGCAAAACCAGGTGAAACAATTGCTTTTGTCGGGCATACAGGTGCAGGAAAAACAACCATAATTAATTTAATCTCTAGATTTTATAATTACGATGCAGGGGAAATATATTTGGATGGCATACCATTAAAAACCATTCAACGTTCGAGTTTAAGACAGCATATGGCATTTGTTTTACAAGATGCCTTTTTATTCAGAGCAACTATTCGTGAAAACATTAGATATGGACGTCTAGATGCGACGGATGATGAAGTCATTCAAGCTGCAAAAGATGCTAATGCACATGCATTTATTCAACTCCTACCGAATGCATATGACACAATGCTTGACCAAGAAGGAAGCGGCATTAGTCAAGGACAAAAGCAATTACTGACGATTGCACGCGCACTATTAGCGAAACCGAAAATCTTGATTCTTGATGAGGCGACAAGTAATATTGACACTATAACAGAGCTTAAGATCCAAGATGCTTTAAAACGGTTAATGAATGGGAGAACGAGTTTCGTCATTGCTCATCGACTGAACACAATTAAAGAAGCCGATAAGATTATTATGCTAGAAAATGGGGAAATCAAAGAACAAGGTAGCCATGAGGAACTGTTTGCCATGCAAGGACAGTATTATCATTTAAATAAAGGGCAGGTAAGGGAAGAGCTTTAA MLSKQLKQPFQYKKIPISSNSSHNQKRAQDTKGTIKRIWTYLANEKGKLTLVILMVVASSALGLLGPFMIGMAIDDYIVTKETTGLVTLLIWLVVIYLFHALAIFLQNFWMIGIAQNTVFALRKHLFYQFHRLPIAYFDKRQHGELMSRITNDIDNVNNTLNQSVIQIFSSILTLTGTIGVMLYLSPILTAITMVIVPIMFLAIRWITKRTGPLYKLQQKNLGEVNGYVEEILSGQHIVKAFSQEKRVIKEFETRNKQLNHAGFWALTISGFIPKVMNMLNFLSFGLIALAGGILAINNVVTVGVIVIFTEYARQFTRPLNELSNQFNILLSAVAGAERVFRVLDEEQEEADEKTAQKLTTTNGHFVFNKVSFGYENSYILKNISFEAKPGETIAFVGHTGAGKTTIINLISRFYNYDAGEIYLDGIPLKTIQRSSLRQHMAFVLQDAFLFRATIRENIRYGRLDATDDEVIQAAKDANAHAFIQLLPNAYDTMLDQEGSGISQGQKQLLTIARALLAKPKILILDEATSNIDTITELKIQDALKRLMNGRTSFVIAHRLNTIKEADKIIMLENGEIKEQGSHEELFAMQGQYYHLNKGQVREEL PGPT0029030_1735 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 AK015_02023 1737 COG1132 putative ABC transporter ATP-binding protein TTGAAGACTGTTTTATCATTTTTGAGACCATATAAGCTACCGGCGGCCGTTGCATTTGCACTTATGCTTGTTGAACTGGCTGTGGAGCTTGCGCTTCCCTTTTTATTAGGGAAAATGATTAACGAAGGAGTGGTGAATCAAGATTTATCAACCATCTTGAAATGGGGAAGCATTATGATTACGCTTGCTTTCATCGCTTTCATAGCTGGTCTGATTAACTCATTTTACGCTTCACATGTAAGCTGGGGATTTGCTTACGATCTACGTGAAGAGCTATTTGCTAAAATACAAGCCTTTTCATTTTCACATTTGAATCAATATCCGACATCCGCTTTAATGACTCGATTCTCCAATGATATTCGACAAATGCAAAATACCATCTATATGATCCTTCGAATTATGTCAAAAGCACCACTAATCGTTATTGGTGGTGTTGTAATGGCCTTTATCGTAAACGCTAAGCTTGCTATTATTTTTCTCATTACCGTTCCACTATTAGTTGGTTTTGTTCTTTGGGTGCTTAAAATTGCTAGCAAGTTATTTCAAAACGTACAAAAAAGCGTCGATACATTAAATCAGGTGATGCAAGAAAATTTGATTGGTATGCGCTTAATCAAAGCTTTTTCTCGTAGAAAACACGAAGAAGCACGATTTAAAAAAGCCAACCAATCGTTAGCCGAGAGAACGAGGGCGACCTTTCGTTTCGTTGAAGCTTCGATGCCCGTTTTGTTATTTGTTATGAATATGAGCCTATTATTTATTATTTGGTTAGGCAATGCACAAGTAGTAGCCGGGACAACGAATGTTGGCGATGTTGTTGCAATGATTAATTATGCATTAAGGGTTTCCATGTCTATTTCTATGTTTACGTTTATTATTATGGCGTTTTCACGAATGCAAGCTTCTACCAAACGTGTGAACGACATTTTGCATATCCATACAGAGGAAGCGCAAAAAGTAGAATGGAATGACACTACCGCCAATCATGTTCAACGTGGGGCAATATCTTTCCAACACGTATATTTTTCCTATCCTACTCATAAAGAATCGGTCTTGCACGATATCACCTTTAACGTGAATAGTGGCGAAAGAATTGCTGTAATGGGCGCTACTGGTGCAGGGAAGACATCTTTATTTCAATTAATCCCTCGACTGTATAAGGCTAATCATGGGATCATTACTATTGATGATCAAGACGTTACGTCGTATCCTTTGAACCAGCTTCGCGATAGTATAGGCTACGTACCTCAATCTCCTTTGCTATTTACTGGTATGATAAAGGAAAATATCGCTTGGGGAAAAGCTAGGGCTACCATGGGAGAAATTATACAAGCAGCAAAAGATGCACAAATTCATGAAACAATTATGCAGTTAAATGAGCGTTATGAAACTAAAGTCGGGCAAAAAGGAGTTAATCTTTCCGGAGGACAAAAACAACGAATTTCTATCGCCAGAGCACTTATTCGAAAACCAAAAATCCTAATGTTGGATGATAGTACAAGCGCACTGGATTTAGCTACAGAATCTCGATTGTTAGAAGCTATTGAAACCTATCATTGCACTACATTAATTATTACACAGAAGATAAGTACAGCAATGCGTGCCGACCGTATTCTTCTTTTGGATAGAGGAGAAATACTAGCACTTGGCACACATCAATCCCTTCTTAAATCTTCTAAGCTATATCAGCGTATTGTAGAATCTCAATTTGGAAAGGAAGTTTCCCATGCTAAGTAA MKTVLSFLRPYKLPAAVAFALMLVELAVELALPFLLGKMINEGVVNQDLSTILKWGSIMITLAFIAFIAGLINSFYASHVSWGFAYDLREELFAKIQAFSFSHLNQYPTSALMTRFSNDIRQMQNTIYMILRIMSKAPLIVIGGVVMAFIVNAKLAIIFLITVPLLVGFVLWVLKIASKLFQNVQKSVDTLNQVMQENLIGMRLIKAFSRRKHEEARFKKANQSLAERTRATFRFVEASMPVLLFVMNMSLLFIIWLGNAQVVAGTTNVGDVVAMINYALRVSMSISMFTFIIMAFSRMQASTKRVNDILHIHTEEAQKVEWNDTTANHVQRGAISFQHVYFSYPTHKESVLHDITFNVNSGERIAVMGATGAGKTSLFQLIPRLYKANHGIITIDDQDVTSYPLNQLRDSIGYVPQSPLLFTGMIKENIAWGKARATMGEIIQAAKDAQIHETIMQLNERYETKVGQKGVNLSGGQKQRISIARALIRKPKILMLDDSTSALDLATESRLLEAIETYHCTTLIITQKISTAMRADRILLLDRGEILALGTHQSLLKSSKLYQRIVESQFGKEVSHAK PGPT0029025_1459 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 AK015_02024 1059 hypothetical protein ATGACGATACTTCAAGAGATTCAACAGACATTTACGGATATGAAAATTGTTAGTGCCATTTCTTCTACGTTGTTCATTATATTGTTGGGATTTTTTCTACGTAAAAGAGAAATATTTAACGATCAAGTAGGAAAGGTACTATCAAAAGTAGTTCTTATTGTTGCATTACCAGCGTTAGCATTTAAAGCATTTATGAAAGATATTGATGCTGAATCATTAGCAGAAGGAATAGAGGTGCTTATCTGGGGAATAGCTATCTATATTATATTGATCCTGATATCCAAACCAATGTACTTAAAATATAAAGGGGATCGTCAGGACACATTACGTGTATTAACTATATTTGGATCTACTACGTTTTTTGGAATACCGATTGTTGGCGCAATTTATGGAGCAGAAGGAATTTTATATGCTTCTATTTTCAATATTGGGTACCGTATTTTTCTATACTCCTATGGATATATCAAAATGAGTGGATTGAAAATGGAAGTAGGGAATGTAAAAGAGATGTTCCTTAATCCTATCATTATTGCCACTTTTTTAGGATTATTTATCTGGATATTTCAAGGGTATTTGCCCCAAGTTAGTGTCGTGGCAGAAGATGGAACAAAAGCAGATGTGGCATTTTTACGCATTGACCAAACAGCACCTTGGTTATTTCAGCCGATGGAATATCTTGCTCGATTAGCTTCACCACTTGCATGGTTAGCAATTGGGGCTACTTTAGGGGCGATTAAGTTTAGAACAGCTTTAACCGATCGCACATCCTTGTTCTATAGCTTTAATAAAGTAATTATTGTTCCTCTTTTAAATATTGCTTTCCTTTCTTTGCTTGCAGTAACAAATGTTCTTGTTGTAAGTGATGTTTCTTTAGGAACAATAGTGATTATGATGGCAACCCCAACAGCTACAGTGGCAGCAGCGTATGCAATCAGCTTCGATCGAGATGCTTTGTTAGCTTCAAACGCATCGCTACTATCAACCATTACAGCAGTTATATTTATTCCAGTATGGATTATTGTAATTAATATAATAGCTGGATTACCTATATTTGGGTAA MTILQEIQQTFTDMKIVSAISSTLFIILLGFFLRKREIFNDQVGKVLSKVVLIVALPALAFKAFMKDIDAESLAEGIEVLIWGIAIYIILILISKPMYLKYKGDRQDTLRVLTIFGSTTFFGIPIVGAIYGAEGILYASIFNIGYRIFLYSYGYIKMSGLKMEVGNVKEMFLNPIIIATFLGLFIWIFQGYLPQVSVVAEDGTKADVAFLRIDQTAPWLFQPMEYLARLASPLAWLAIGATLGAIKFRTALTDRTSLFYSFNKVIIVPLLNIAFLSLLAVTNVLVVSDVSLGTIVIMMATPTATVAAAYAISFDRDALLASNASLLSTITAVIFIPVWIIVINIIAGLPIFG NA NA NA NA NA AK015_02025 1014 hgdH_1 COG1052 (R)-2-hydroxyglutarate dehydrogenase ATGAATTTTAAAATAGTATGTTATGGAGTTCGTGAAAATGAAACTGCCTTCTTCCATAAACTTAATCTATATCAATTTCAATTAAAGCTAATAAAACCTTTGTTAACCCATGAAAACATAGAAACAGCAGAGGGCGCAGATGGTGTTTTATTACGGGCTAACTGTACGGCTGATAGAAAAAACTTGAAGAAATTGCAGGAGTACGGTGTGAAGTATGTTTTCACTCGCACAGTAGGCTACAATCATATTGATTTAGAGGCCGCTAAAGATTATAACATATATGTAGCAAGAGTTCCTTCTTATTCTCCGAATGCAATTGCAGAATTAGCCTTAACTTTGGCAATGTCTTTGTTAAGGCATACAGCTTATACAACAGCAAAAACAGCTAATAAAGATTTTACCGTTGACCCAGTCATGTTTAGTAAAGAAGTGAGAAATTGTAAAGTAGGGATTATAGGTACAGGAAAAATTGGACTTACGGAAGCAAAATTGTTCAAAGGTTTAGGTGCAACGGTGTTAGGCTATGATATTTACCAAAGTGAAACAGCTAAACGAGTGGTTACTTTTAAGGAATTGGACGAACTGTTAAAAGAAAGCGACATTGTTAGCATTCATGTTCCATACTTACCAGGTGAAAACGAAAAGATGATTAATAAATCATTTATTTCTAAAATGAAAGATGGGGCTATTTTAATTAATACCGCTCGTGGAGAACTGCAAGATAATGAAGCAATACTTGAAGCTTTGCTAACGAAAAAAATGGAAGGATTTGCTACGGATGTATTCGCTAATGAAAAAGAGATCTTTTTCCAAAAGTTTACTAACAACGATGAACTTGATCCAACAGTCAAGGGTTTGATTGAACTGTATCCAAGAGTGTTAATTACTCCTCATATCGGTTCCAATACAGATGAGGCACTTAAAAATATGATTGAAACTAGCTACCAAAATTTTTACGATGTACTAACAAATGGAAGAACTTCGAATGCCGTTTCTCTAACGAAAAATAGCTAA MNFKIVCYGVRENETAFFHKLNLYQFQLKLIKPLLTHENIETAEGADGVLLRANCTADRKNLKKLQEYGVKYVFTRTVGYNHIDLEAAKDYNIYVARVPSYSPNAIAELALTLAMSLLRHTAYTTAKTANKDFTVDPVMFSKEVRNCKVGIIGTGKIGLTEAKLFKGLGATVLGYDIYQSETAKRVVTFKELDELLKESDIVSIHVPYLPGENEKMINKSFISKMKDGAILINTARGELQDNEAILEALLTKKMEGFATDVFANEKEIFFQKFTNNDELDPTVKGLIELYPRVLITPHIGSNTDEALKNMIETSYQNFYDVLTNGRTSNAVSLTKNS PGPT0001755_296 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778 NA NA AK015_02026 1056 hypothetical protein ATGGAAATACTAGAAATTTTTAAAACCACATTTACAGATATGAATATTATCAGTGCGATTACGTCAACGATGTTCATTATTTTATTAGGGTATTATTGTCGAAAGAAAAATATCTTTAGTGATCAAGTAGGAAAAATGTTATCCAGAGTGGTATTGTCTGTAGCGTTACCAGCTTTAGCACTAAAAGCTTTTATGAAAGACATTGACCAACAATCGTTAGCTGAGGGAATGGGTATTTTAATTTGGGGAATTGCTATTTATATTATTTTAATTATTGTCTCAAAACCAATGTATGCGAAGTTTAAAGGGGATAAAGAAGATACATTACGTGTACTAACTATTTTTGGTTCCACTACGTTCTTTGGTATTCCAATTGTTGGAGCAATCTATGGTGCTGAAGGTGTTCTATACGCTTCCATCTTTAATATTGGCTATCGGATCTTCCTTTATTCTTACGGCTATATTAAAATGAGTGGATTGAAAATGGAAGCAAAAAATATTAAAGAAATGTTTCTAAATCCAATAGTTATTGCTACCTTTGTAGGATTGTTTATCTGGATATTTCAAGATTCCTTACCACAAATGAGTGTTGTAGCAGCAGATGGTACTGCTTCAACAGTAGCATTTTTAAGAATTGACCAAACTGCTCCATGGTTATTTAAGCCAATGACATATTTAGCAAGCTTAGCTTCACCTTTAGCATGGTTAGCAATTGGCGCAACATTAGGATCTGTTGATTTTAAAACAGCTATTTCTGATCGGACATCCTTAATATACAGTGCGAACAAAGTTGTGCTGGTTCCAATTATTAACATTGTTATTTTGGCGATTCTTTCATTAACGGGCATATTGACGATGAGTGCAGTATCTGTAGGAACCATCGTTATTATGATGGCGGCCCCTACCGCAACAGTAGCAGCTGCATATGCAATTAGCTTTGATAAGGATGCGTTACTTGCTTCGAATGCTTCTTTACTATCAACGATTAGTGCAGTTGTCATGATTCCGATCTGGATTATTGTAATTAATATGATTACTTCAACAAATTTATTTTAA MEILEIFKTTFTDMNIISAITSTMFIILLGYYCRKKNIFSDQVGKMLSRVVLSVALPALALKAFMKDIDQQSLAEGMGILIWGIAIYIILIIVSKPMYAKFKGDKEDTLRVLTIFGSTTFFGIPIVGAIYGAEGVLYASIFNIGYRIFLYSYGYIKMSGLKMEAKNIKEMFLNPIVIATFVGLFIWIFQDSLPQMSVVAADGTASTVAFLRIDQTAPWLFKPMTYLASLASPLAWLAIGATLGSVDFKTAISDRTSLIYSANKVVLVPIINIVILAILSLTGILTMSAVSVGTIVIMMAAPTATVAAAYAISFDKDALLASNASLLSTISAVVMIPIWIIVINMITSTNLF NA NA NA NA NA AK015_02027 1026 hgdH_2 COG1052 (R)-2-hydroxyglutarate dehydrogenase ATGACGATTAAAGTAGTCTGTTACGGCGTAAGAGAGAATGAAGAGCCATTTTTTAACAAATTAAATAAATACGGTTTTGACTTAACTTTAGTGGAGGATTTATTAACACATGATAATATAGATACAGCAAAAGGAATGGATGCTGTGTTACTACGAGGGAATTGTGTTGCCGATAGAATAAATATTGGAAAAATGCGTAGCTTTGGGGTTAAATATGTATTTACTAGAACCGTAGGCTATAATCATATTGATTTACAAGCAGCAGCAGATTACGACATGTATGTAGCGCGTGTACCATCTTATTCACCAAATGCTATTGCTGAGTTAGCTTTAACGCTTGCTATGTCGTTATTACGTCATACTGCTTACACAACCGTTAAAACGGCGAACAAAGATTTTACTGTTGATTCCGTTATGTTTAGTAAAGAAATTCGTAACTGTAAGGTAGGGATTATCGGGACAGGGAAAATTGGTTTAACAGAAGCAAAGCTTTTTAAGGGACTTGGTGCAGAAGTGCTCGGTTATGATGTTTACCAAAGTGAAGAAGCAAAGCAAACAGTTACTTTTATGGAATTAGATGATCTATTAAAAGAAAGTGATATTGTGAGCTTACATGTTCCTTATTTCCCAGGAAAAAATGATAAAATGGTCAACGATGAATTTATTGCCAAAATGAAGGATGGAGCCATTTTTATTAATACTGCTAGAGGGGAACTTCAAGATAATGAGGCGATCCTTAAAGCGCTTCGTACACATAAATTAGCTGGTTTTGCCACGGATGTCTTTGCGAATGAAAAGGAGATCTTCTTCCAACAGTTTAATGATGGTAAAAAGCTAGATTCAACTGTACAAGCACTCGTTGATTTATATCCACGTGTGCTGATTACACCGCACATCGGTTCAAATACAGACGAAGCTCTAACGAATATGATTGAGACAAGCTTTGAAAACTTACATGATACGATTACAAAAGGGAGCACGACAAATGTCGTAGAACTTCCTGAAAAAAGTCAAGCTGTATCATAG MTIKVVCYGVRENEEPFFNKLNKYGFDLTLVEDLLTHDNIDTAKGMDAVLLRGNCVADRINIGKMRSFGVKYVFTRTVGYNHIDLQAAADYDMYVARVPSYSPNAIAELALTLAMSLLRHTAYTTVKTANKDFTVDSVMFSKEIRNCKVGIIGTGKIGLTEAKLFKGLGAEVLGYDVYQSEEAKQTVTFMELDDLLKESDIVSLHVPYFPGKNDKMVNDEFIAKMKDGAIFINTARGELQDNEAILKALRTHKLAGFATDVFANEKEIFFQQFNDGKKLDSTVQALVDLYPRVLITPHIGSNTDEALTNMIETSFENLHDTITKGSTTNVVELPEKSQAVS PGPT0001755_198 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778 NA NA AK015_02028 723 dcuR_1 COG4565 Transcriptional regulatory protein DcuR ATGATGAAAGTAATGATCGTTGAAGACGATCCAATGGTAGCTACCATTAACCAACAATATATCGAACGATCAGAAGGATTTCATACCATTGCCGCAGTAGGAACAATTACGGAAGTTTGGGAAGCCTTAACAATGGACATACCCAATTTAATCTTGCTTGATGTTTATTTACCCGGCCAAACAGGCTTAGAATTTTTGCAAGAATTAAGACAAAAACAGTATTCGATCCCCGTCATCATGATTACAGCTGCGGATGATATTGGAACAATTAAAACGTCCTTAGAGTACGGAGTCATTGACTTTCTAATTAAACCTTTTACCTACCAACGATTTAAAGTAGCCATCGATAACTTTATGCAATATCATAAATTGACAACGAGCATGGAAAAAACGGATCAAGAAACGTTAGATCAACTGCTTATTAAAGAAAAAACACCAATATCATCCAGAAATAATAATGTCTTAACACCTCTCCCTAAAGGTTTATCCAAACTAACCTTAAAAAAGGTGCTTCAAGCCATTGAAAAACAGACTCATGCCTTCTCTACCGAGGATATTGCTTCAAGTATAGACTTATCACGAATTTCTACAAGAAAATACTTGCAGCATTTAAATGACATTGGTTTTTTAGAATCAGAATTAAAATATTTATCCGTTGGTCGTCCTATTATGATTTACCATGTCGTGCCAAACAAAGAGCATTTAATTGTAGATTATAAGTGA MMKVMIVEDDPMVATINQQYIERSEGFHTIAAVGTITEVWEALTMDIPNLILLDVYLPGQTGLEFLQELRQKQYSIPVIMITAADDIGTIKTSLEYGVIDFLIKPFTYQRFKVAIDNFMQYHKLTTSMEKTDQETLDQLLIKEKTPISSRNNNVLTPLPKGLSKLTLKKVLQAIEKQTHAFSTEDIASSIDLSRISTRKYLQHLNDIGFLESELKYLSVGRPIMIYHVVPNKEHLIVDYK PGPT0019560_43 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019560-malR-K11615 NA NA AK015_02029 1599 dcuS_1 COG3290 Sensor histidine kinase DcuS ATGACTACCTTGCTCGTTTTAATCTCTGTCATAGCCTCGCTTATTGCTTCTGCCATTCTTTTAGATGACTATGTATTGGAGAGAGAACATCGAGCAGTGCAAAATAAAATTAAAAATGTTGCTAGAATGGTCGCTAAAGATACGCGTGTGATAGACAAAGTGGAAGGTTCTCCGTCAGACGCTGCTATTCAAAACTATGCAAATGAAGTGATGAATGCAACTGGCGTCAGCTTTGTTGTTGTTTTAGATAATGACCTTACTCGAAAGTCACATCCAGATGAAAGTGTAATTGGTGGCACATTTTCTAATATTGACGATGCAAGTAGATCATTGAATGGTACAGAGCATTATTCTAGGCATGTAGGAATCCTTGGAGAAGGAACACGATTTTTTACACCGATTTGGAATGACGAAGGGGAACAGATTGGAATTGTTTGCGTAGGGTATGTGCAACAAACTATTAATGATGAATTATGGAATGCGCGGAAAAATTTATATGTCGGCCTCGGTGTTGGTCTATTAGTAGGTATCATAGGTGCGCTTTACTTAGCAAGATATTTGAAAAAAGTGCTATTAGGACTTGAACCTAAACAAATTGTTGCTCATATGAAAGAGAAAGAAATTATTATTGACTCTGTTAGTGAAGCAATTATTGCTGTTTCTCCTAAGCGGAAGGTATTATTACAAAATGTTAATTTTAATAAGCTACTCAATAAAACAGAAGTTGCAACAAAAGCAATTTCCAATGGATACCTTAATGATACGCTTTTTTCCTTAATATTTGACGATGTATTTAAAACAGAGAAACCAATCGCTAACCGAGTAACAGTCATTAACCATTTTGAATTTATCGTCAATGTGCAACTCATCTATATTGATAAGAACATCTATGGAGCGGTGGCGACTTTATATGATCAATCTGAGCTACAGCATCTAATTCGAGAGTTAAGCGGGACGGAACAATACATTGATTCTTTACGTGCGCAAAACCATAAGTTTATGAATCAACTCCACACTATTTTAGGTTTAATTGAACTAGAAAAGTATGAAGATGTGCACCATTTTGTTCGTGTCCTTAATCATAATTATCATCGTGAAATGGGCTTTGTGACGGATAAAATTAAAAGCTCAGCAATAGCAGGTTTTTTACTTGGGAAAACAAGTGAGCTCGACGAACAAGGTGTTACATTAATCATTGATGAAGACTCCTATTTTCCAGCGATAAAAATCGGCGATATGCTTCATGACTTACTACTCTCTATGGGTATTCTTATTGACAATGCAAAAGAAGCTGTCATAAATAGCTCTAAAAAGCAAGTAACCCTTTTTCTGAAATATGATGAGGCTGAAGAAGTAATCATGTTTGAAGTACAAGACACAGGACCGGGTATTGAAAAACATGTATTACCTAAAATATTCGAACGCGGTTATTCTACAAAAGGAGAGAACAGAGGCTATGGATTGGACGCCATTCAATCCATTGTAAAGCAGTATCATGGACTTGTCGATGTCCAAGCAAAAACTGGACGAGGAAGTACTTTTCGTATCGAATTTCCGTTCAAATGGAGGAACAAAAATGATGAAAGTAATGATCGTTGA MTTLLVLISVIASLIASAILLDDYVLEREHRAVQNKIKNVARMVAKDTRVIDKVEGSPSDAAIQNYANEVMNATGVSFVVVLDNDLTRKSHPDESVIGGTFSNIDDASRSLNGTEHYSRHVGILGEGTRFFTPIWNDEGEQIGIVCVGYVQQTINDELWNARKNLYVGLGVGLLVGIIGALYLARYLKKVLLGLEPKQIVAHMKEKEIIIDSVSEAIIAVSPKRKVLLQNVNFNKLLNKTEVATKAISNGYLNDTLFSLIFDDVFKTEKPIANRVTVINHFEFIVNVQLIYIDKNIYGAVATLYDQSELQHLIRELSGTEQYIDSLRAQNHKFMNQLHTILGLIELEKYEDVHHFVRVLNHNYHREMGFVTDKIKSSAIAGFLLGKTSELDEQGVTLIIDEDSYFPAIKIGDMLHDLLLSMGILIDNAKEAVINSSKKQVTLFLKYDEAEEVIMFEVQDTGPGIEKHVLPKIFERGYSTKGENRGYGLDAIQSIVKQYHGLVDVQAKTGRGSTFRIEFPFKWRNKNDESNDR PGPT0019555_155 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 AK015_02031 492 hypothetical protein ATGGAGAAATCAATAAAATTAACTAACACCTTACTGTCGTGTATGGGAGAGCATGAAATTACATCCATAACGGAGGAAAAACAGAATTCTGAATATAAAGGGTGTAGTTTTAGTGTGTTTGAACATACATATCGGAGTCGTTTGGCTAAATTAACCCCAAAGAAAAAGGGGTATTTTGTAGCGTTTTGGGAAAAAGATATAAATAATCACAATCAAGCTTATTCTTATGATGAAAGTCCTAACAAGATCGTTATTTCGGTAATAGATAATGAACGGAAGGGTCAATTCATTTTTCCGAAATTAGTATTACTTCAAAAAGGCGTGTTGCGTAGTGAAACGTCCAAAGGAAAAATGGCAATGCGAGTTTATCCTTCTTGGGAGCAGGAGCTAAATAGCTCTGCGGAAAAATCTCAAAAATGGCAAATGAAATATTTTATTGATGTTTCAAAAGCAGTGGATATTGCAAGACTAACAGATTTGTATTTCTCTTAA MEKSIKLTNTLLSCMGEHEITSITEEKQNSEYKGCSFSVFEHTYRSRLAKLTPKKKGYFVAFWEKDINNHNQAYSYDESPNKIVISVIDNERKGQFIFPKLVLLQKGVLRSETSKGKMAMRVYPSWEQELNSSAEKSQKWQMKYFIDVSKAVDIARLTDLYFS NA NA NA NA NA AK015_02032 2121 ppk COG0855 Polyphosphate kinase TTGAGCGAAAACAGAAAACGCCTAGGAGATCCTAAATATTATAACAACCGCGAACTTAGTTGGCTAGCATTTAATGAGCGTGTGTTACAAGAAGCGTTGGATCAGCGAAACCCCTTGCTAGAACGATGTAAATTTTTAGCTATATTCAGTTCCAATTTAGATGAGTTTTTTATGGTTCGTGTTGCAGGACTAAAAGATCAAGTAGAAGCTGGATTTAACAAACCTGAAAATAAAGCAGGCTTAACACCAAAAGAACAGCTGGCAGCTATTTCCAAGAAAAACCACCAGCTAGTTGACATGCAATCCTCTACTTTCAAGCATGTGCTATTGCCAATGTTAGCGGATGAAAACATTACATTCCTAACCATGGATGACCTCGATCAACAAATGAAGTTAAACATGGAACGATACTTTGATGATCAAGTCTTCCCTGTGTTAACCCCTATGGCAGTGGATGCCTATCGCCCATTCCCTATGTTGGCAAATAAAAGCATTAATCTTGCCGTATTATTAGAAGATGAACGTGCTAAAAATGATATTGTGGAACTTGAAGAAGTTGTTAAAACTGCTATTGTTCAAGTGCCTTCCGTATTAAAACGTTTTATTAAGGTAGATATTCCAGATTCTAACATCACCTATTTTATTATGCTTGAAGACATTATTAGCCATTTCATTTACAAATTATTTGCCGGTTATAAAGTTATCTCTGTAACAGAATTTCGAATTACCCGGAACGCTGATATGACAATTCATGAAGAAGGAGCTCGAGATTTATTAAAAGAAATTGAAAAAGAATTGAAAAAGCGAAAATGGGGAGCCGCTGTTCGACTAGAAGTGAAACGAAAACAATATGACCCTAACATGTTAAATTTTCTGTTGTCCGTATTGGAGATTCATTATAAAGATGTGTACGAAATGGATGGTCCCATCGATTTGACCTTTTTATTCAGTTTTCACAAGTCCCTTGAACCTACGCATGAGCATTTAGTGTATGAAACATTAATCCCCCAACCACCGCAGGATATGGGAGATTCTGAAGATTTGTATGAGCTAGCAAAAGAACGGGATTTATTTTTTCACCATCCTTATGAATCCTTCGAACCAATCGTTGATTTTGTATCCGATGCAGCTGATGACCCTGACGTATTAGCAATTAAACAAACATTGTATAGAGTAAGCGGAGATTCACCTGTTATAGAGGGTTTAAAAAGAGCTGCAGAACAAGGAAAGCAAGTAACCGTGCTCGTTGAATTAAAAGCGCGCTTTGATGAAGAAAATAATGTCCAGTGGGCAAAGGAATTGGAAAAAGCCGGATGTCATGTTATTTACGGTATGACTTATTTAAAAACACATAGTAAAATTACACTCGTGGTGAGAAGAAGAAATAATCAAATTGAACAATTTGTTCATTTGGGCACAGGAAATTATAATGATCAAACCGCTAAAATTTATACAGATATGGGGATTATTACGTCCAAGCGCGAATTTGGTATTGATGCAACTAACTTCTTCAATTACTTAAGTGGCTATGCAGAAAAACCATTGTTTCATCAATTATCCATGGCCCCATTTGATATGAAAACAGATTTTTTGTCCGATATAGATATAGAAATGGAGAACCATAAGAAATACGGGGATGGATATATTATTTTTAAAATGAATTCTTTAACGGATAAAGATTTGATTATGAAAATGTATGAAGCTTCCTGTGCTGGAGTTAACATTGATCTAATCGTTCGTGGTATTTGTTGCTTACGCCCACAAATACCAGGTGTCAGCGAAAATATACGCGTCATTAGTATTGTAGGTCGTTTCCTGGAACATACTCGCATATATTATTTTCGTCATCATCAAAATAGCAAAATGTATCTTTCTTCTGCCGATTTGATGACGAGAAATATGGAGAAACGTGTGGAGCTACTTTTTCCAATTATTGATGGCAACATAAAACAAAGATTATACGAAATATTGCAAATTATAAGTAATGACAATGTAAAAGCTCGCATGCAAGATCAAAATGGCATATATCATTATGTAGAAAAGGCAGACGAAGCCCCGAAAATAGATAGTCAAATGGAGCTATTCAAAAGAGCTTACATGGTTAAAGAAGACGAGGAATAA MSENRKRLGDPKYYNNRELSWLAFNERVLQEALDQRNPLLERCKFLAIFSSNLDEFFMVRVAGLKDQVEAGFNKPENKAGLTPKEQLAAISKKNHQLVDMQSSTFKHVLLPMLADENITFLTMDDLDQQMKLNMERYFDDQVFPVLTPMAVDAYRPFPMLANKSINLAVLLEDERAKNDIVELEEVVKTAIVQVPSVLKRFIKVDIPDSNITYFIMLEDIISHFIYKLFAGYKVISVTEFRITRNADMTIHEEGARDLLKEIEKELKKRKWGAAVRLEVKRKQYDPNMLNFLLSVLEIHYKDVYEMDGPIDLTFLFSFHKSLEPTHEHLVYETLIPQPPQDMGDSEDLYELAKERDLFFHHPYESFEPIVDFVSDAADDPDVLAIKQTLYRVSGDSPVIEGLKRAAEQGKQVTVLVELKARFDEENNVQWAKELEKAGCHVIYGMTYLKTHSKITLVVRRRNNQIEQFVHLGTGNYNDQTAKIYTDMGIITSKREFGIDATNFFNYLSGYAEKPLFHQLSMAPFDMKTDFLSDIDIEMENHKKYGDGYIIFKMNSLTDKDLIMKMYEASCAGVNIDLIVRGICCLRPQIPGVSENIRVISIVGRFLEHTRIYYFRHHQNSKMYLSSADLMTRNMEKRVELLFPIIDGNIKQRLYEILQIISNDNVKARMQDQNGIYHYVEKADEAPKIDSQMELFKRAYMVKEDEE PGPT0002685_2043 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937 NA NA AK015_02033 1632 gppA Guanosine-5'-triphosphate,3'-diphosphate pyrophosphatase ATGCTGTATTTAGAAATTATGTTTCATGTAAATCCAAAATGGGAAAGCTTGTGCTATAATGAACGCAATAAACCATTAACGACAAAAGGTGTGTTCCCATTGAATGAAGAAAAGTATGCAATTATTGATATTGGTTCGAATACCATTCGTCTCGTAATCTATCTTAAAGAAAAGAGCGGCCGCTTTCAGGAAATTGAAAATGTAAAGGCAGTCGCTAGACTTAAAAATTACTTAGAAGAAAATCATTATCTTAACCAAGAAGGAATGGGAATACTAGCTAACATTGTACGTAGCTTTAAAGAAGTAACGGATACATATGAATTAAATGGAATAATATGCGTCGCTACAGCAACAATTAGGCAAGCTGAAAATAAAGCAGAAATCATACAAAAAATTGCACAAGAAAGCGGTTACGATACAAGAATTCTCTCAGAAGAAGAAGAAGCTTATTACGGATATTTAGCCGTTGTCAATTCAACGACCGTTTCTGAAGGTATAACCATAGATATTGGTGGCGGGAGTACAGAACTTACTTATTTTAAAGATAGACAATTAGTTTACTTTAAAAGTATGCCTTTTGGTGCTTTGACTCTGAAGCAAATGTTTGTAGAACACGACGTACCAACAGAAAGAGAAATGGAACAGATTAAAACCTATCTACAACAGCAATTCACTTCCATTCCATGGTTATACAATAAGCAGGTCCATTTAATCGGTATTGGCGGTAGTGCCCGGAATATGATTCAAATTGACCAAGCATTAAAAAAATATCCATTAGCTGGCGTACATCAGTATCGGATTCAAGAAAATAACATGGGCTATGTTAAAAATCACCTACGTAAGTTCCCTTTCAAAGAATTACAAAAAGTAGAAGGGTTAAGTAAAGACAGAGCAGACATTATTTTGCCTGCCATTGAAGTATTCCATACTTTATACGAGCATACAGGGGCTACAAGTTTCATGCTAAGTAGAAAAGGGTTACGTGATGGAATATTTTATGAGCAAATTATGCATGATTTCGGTATCACCAAATTTCCAAATGTACGTGAAGAGAGTTTTAATGAATTAATTGTTGATTTTAATATAAATTATAAGCAAGTTCACCAAGTTATTACCATTGCAACAAAAATTTTTGACGCCTTACGCAATAGTGGGCTTGGTTATGTAGGAAAAATCGATTATGAATTATTAAAGCGTGGTGCCTATGTATTCAACCTTGGCAAGTACATTGATTCAGAGTCTTCTTCCCAGCACACCTTTTATCTTCTAGCGAATCGAACCATAGATGGACTTATGCATACAGAACGATTAAAGATTGCACTTGTCGCTTCTTTTAAAAGTAAGCATAAATTCAAACAATATTTGAAACCGTTTAAAGAATGGTTTGTAAAGGAAGAAAAGAAAAAATTGCAGACCATAGGTGCTCTACTAAAACTGGCGTACTGCTTTGACTCGACGAAGAGAAATATTGTAAAAGACATGGATATGCTTGTTGATGAAGAAGTGATTACTATTCATGTTTACTGTGACAGAGATTGGATGCCAGAAGCCTATCAAGTTGAAAAGCAAAAAAAACACTTAGAAAAAGCACTTCACAGAAACATTAACGTTTGCTTTTGCTATCAGCAATAA MLYLEIMFHVNPKWESLCYNERNKPLTTKGVFPLNEEKYAIIDIGSNTIRLVIYLKEKSGRFQEIENVKAVARLKNYLEENHYLNQEGMGILANIVRSFKEVTDTYELNGIICVATATIRQAENKAEIIQKIAQESGYDTRILSEEEEAYYGYLAVVNSTTVSEGITIDIGGGSTELTYFKDRQLVYFKSMPFGALTLKQMFVEHDVPTEREMEQIKTYLQQQFTSIPWLYNKQVHLIGIGGSARNMIQIDQALKKYPLAGVHQYRIQENNMGYVKNHLRKFPFKELQKVEGLSKDRADIILPAIEVFHTLYEHTGATSFMLSRKGLRDGIFYEQIMHDFGITKFPNVREESFNELIVDFNINYKQVHQVITIATKIFDALRNSGLGYVGKIDYELLKRGAYVFNLGKYIDSESSSQHTFYLLANRTIDGLMHTERLKIALVASFKSKHKFKQYLKPFKEWFVKEEKKKLQTIGALLKLAYCFDSTKRNIVKDMDMLVDEEVITIHVYCDRDWMPEAYQVEKQKKHLEKALHRNINVCFCYQQ PGPT0002595_157 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524 NA NA AK015_02034 951 ldh_1 L-lactate dehydrogenase ATGAACAAACCATTACGTAAAGTTGCTATTTTAGGAACTGGCTTTGTCGGTTCAAGTACGGCATATGCCCTTATAAACCAAGGGATTTGCGACGAATTGCTATTGATCGATATGAAACAAGAAAAAGCAGTTGGTGAATCACTAGACCTCATTCATTGTATGGATTTTCTTCCTTCACGGACGAAAGTTTATACAGGTTCTATTCAAGATACAGCTGATGTGGACATTATTATTGTTAGTGCTGGCCCTCCACCAAATGAGAATCAAACTCGACTCGATACATTGGAAACCGGAACGCAAATAATGAATGATACCATTCCCGGAATAATGAAAACTGGGTTTAATGGCATTTTTTTAATTGCTACAAACCCTGTGGATATTATTACATATCACATCTGGCAATTATCTGGCCTACCACGTCATCAAGTGATTGGAACAGGTACATCGATCGACTCTTCCCGCCTCAAATCATATCTAGCACAGTTACTTGATATTGATGTTCGGAGTATACAAGCTTATACAATGGGCGAGCATGGTGATTCCCAATTTGCTGTTTGGTCACATTGCACAATTGGTGGTAAACCATTATTAGAAATATTGCATGAAAAGCCACATCTAGCTACCAAACTTGATTTAGATGATACAGTAGAAAAAGTGAAACGCGTTGGTTTTGAAATCTTAAAACGAAAAGGGACAACATATTATGGAATAGGCAATGCGTTAGCGTACTTTGCAACCCAAATATTAAATGATAGCCAACAAATTTTACCCGCTTCTTGCATATTAGACGGTGAATACGAAGAAACAAACATCGCTACTGGCGTGCCTGGAAAAATTAGCCGAAATGGTATCCAAGACATTGTTGAGCTAAACTTATCAGAACAAGAAAAGCAATTATTTAGGCGCTCTAACACCGTTTTAAGAGATTATATGCGAAGAATAGGTTATTAA MNKPLRKVAILGTGFVGSSTAYALINQGICDELLLIDMKQEKAVGESLDLIHCMDFLPSRTKVYTGSIQDTADVDIIIVSAGPPPNENQTRLDTLETGTQIMNDTIPGIMKTGFNGIFLIATNPVDIITYHIWQLSGLPRHQVIGTGTSIDSSRLKSYLAQLLDIDVRSIQAYTMGEHGDSQFAVWSHCTIGGKPLLEILHEKPHLATKLDLDDTVEKVKRVGFEILKRKGTTYYGIGNALAYFATQILNDSQQILPASCILDGEYEETNIATGVPGKISRNGIQDIVELNLSEQEKQLFRRSNTVLRDYMRRIGY PGPT0001760_2110 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016 NA NA AK015_02035 612 hypothetical protein ATGAAGAAATATGGCAGGGAATTTATTACGTTTCCAGACGTGACAGTAATGGTTATTATTTTTGCGGTAATGTTAGGGTTTACTATTCCGAATTTATACGATTGGAGGGTTTGGGCTGCAATTGGTGTAGGTATGATGACATATGCAATTAGTGAATACATGATACACCGGTTTTTATTTCATATTAAAAAACCGAAGAATCCATTTTTATTAAAATTAATTAAGCGCTTACATTATGATCACCACGTTGATCCTGATAATGTAAAATTGCTTTTCTTGCCACTCTGGTTTAGTTTCCCTAACTTTATAATTTTAGTAGGGATTTGCTATGCTATTACTGGCAATTTGAATTTGACAATGGGCTTTGCAACAGGTGTCATCGGGTATTTTTTGTATTACGAATGGAAGCATTTTGTAGCTCACAAGCCAATTCAACCAGTAACAAAAATGGGGAAACAAATTAAAAAATCACATCTTTGGCACCATTATAAAAACGAAAATTACTGGTTTGGTGTGACGCATCGTGCGGTTGATAAAACAATGGGAACATATCGTGACCATAAAGAAGTAGAAAAAAGTGATACAGCAAGGGATTTAGAAAAGCGCGCATAA MKKYGREFITFPDVTVMVIIFAVMLGFTIPNLYDWRVWAAIGVGMMTYAISEYMIHRFLFHIKKPKNPFLLKLIKRLHYDHHVDPDNVKLLFLPLWFSFPNFIILVGICYAITGNLNLTMGFATGVIGYFLYYEWKHFVAHKPIQPVTKMGKQIKKSHLWHHYKNENYWFGVTHRAVDKTMGTYRDHKEVEKSDTARDLEKRA NA NA NA NA NA AK015_02036 3054 rcsC_3 Sensor histidine kinase RcsC TTGTTACCAAAGACAGAACAAATATCGAAAACCCAAATTTTTTTAATCATTAGTTTATTCGCTTTACTATTAATTTTATTTCGTATTAGTTGGATACTTGTCCATCAAGCTCCTAAAGAACCAGTTGCAAAAAATGGCATCATTAATTTTCAAGATGTTAACTTAACAGCAGAAGAAACATATCTATTAGATGGTACGTGGAATTTTTTTCCACATTCATTTATCCAAGCTCCTTCCATGAGTAATGAAACAGCAAAGGCTGTTCAACTCCCCCATAACTGGATCAATGATGTAAATAGTAATGAAAAAAGCGTAGCATATGGTTTCGGTACATACCAATTAAAAATATTGTTACCTGAAAACCGGCCAGAACTCCTTTCCTTTCGTTTTTCAGAAATTCTTTCATCAGTTGCTGTTTATATAGATGGAAAACTTGTTTCTCAATTGAATCAGCCACACAAGAAAAATAGTATGACAGAAAAGTACGGAACTTTTTCTGTTCCTTTTTCCCCAGAGCAAGATGAAGTAGAATTGACGCTACATGTATCCAACCACGAATTACCTTTTATGGGTGGTATAACTGACTCCGTATGGTTTGGTTCAACAAACGCTATTCAAAAGGAAACTTCTTTGTTTTCAGTATTACAAATGATAGTAAGTGTCATCTATTTTTTACATGTCATATATGTATTTAGTCTTGTTTATTTCGGTAAAGGGCAGCATAAAAAAACGCTTTTATATTTTGGGTTTATGCTTGCAACCGTAGGATTTACAAATCTGATTGACGATAATGTTATCATACACTTACCTATCCCAATCGAATGGTATTACCGCCTACTCTATTTATTTTTTCTAACTACATTAATTTGTATGTTGTATTTTATCAAGTCGCTGTATATTTTACGTCATCGTTTCTTTGCTTATTTCTTACTTATATACGGTCTTTTTAGTATATCTTTTATCATTGTTCCAATTTCCCAATTTCGTACTTTAGCTTGGTTAGCAAATATTTTTGTGATCATAACTGTTATCTTTATGTTAAAACTATTGGCTCCTATTACGCAAAGAAGAGATCAGGGATCTATTATTATCCTCCTTTTTATTGTTAGTTATGGAATTAATGTAGTATGGGGAATGTTATTAAATGATAACATTATCGAAATGCCATATTACCCATTTGATTTTCTATTAATGAATATTCTAATTGCGTTTGTTTTATTGCAACGTTATGTTCATTTGCTAAATCTAAATAAACAACAAACGAAAGATTTACAAACAGCAAATAAACAAAAAGATGTCTTTTTAAAGAATACATCTCATGAATTACGAAACCCATTACACGCAATGATAAATATTGGGCAATCTATCCTTGATAAAGACAGTGCAACTTTATCTGCAGATAATAAATATCATCTAAAACTACTTGTACGTGTTGGACAACAAATGTCTTATATGCTTCATGATCTTGTTGACTTAACAAGATTAAAAGAGGAACGGATCACATTAAAACCAAAAGAAATCGATTTACATGCAATTATTTCTGGTTTAATTGACATGATTGCATTCTTAATAGAAGGGAAAAAAATACAGATTAACGTTTATATTTCTCCTTCTTTTCCAAAGCTTTATGCAGATGAAAATCGTCTATTGCAAATATTATTTAATCTCCTGCATAATGCTGTTAAATTTACTAATGAAGGGGAAATAACAATTGAAGCTAAACAAAAAGGAAAAATGGCGATGATTCAAGTAAAAGACACCGGCATAGGTATGAGTGAACAAACAATGGAAAAGGTTTTTCAACCCTATGTACAAGAAAATAGATATGAAACTAATAACGGTGGAATTGGCATTGGATTAAGCATATGTAAGAAATTAATAGAATTACACGGAGGAACCATTCGTGTAATTTCCAAACTTTATGAAGGATCTACTTTCTCTTTCACCATCCCCATTGCCCATACATTTGATAAAGATGATTATGAAAATATTGGACAAACCTTTTATCCTGCTCCATCCATTAATCAAAGCGATTGTGGATCAGCTATAGCAAGCTCCATTGATAACGAGCGTCAAAGAATTCTTATTATTGACGATGACTCTGTAAACCTTAAAGTATTATATAATATCTTATCTACCGATTATGAAGTGGCAACAGCGTATAGTGGAGAAACAGCATTACAATGCATCGAAATTGGCAAATTTGATCTTATCATTTGTGATGTGATGATGCCAAACATGTCTGGGTATGAATTAACGCAAAAAGTAAGACAACGATACAGCCTATCAGAGCTACCAATCCTATTATTAACTGCACGGCAACAGTTTGAGGATATTTATGCAGGATTTTTAGCAGGAGCAAATGATTATATAGCTAAACCAGCACAAATTTTAGAGTTACGTGCTAGAGTTCGCGCTTTAACTGATTTAAAAAAATCGATTAATGATCAGTTAAAAACGGAAGCTGCTTGGCTTCAAGCTCAAATTCAACCACATTTTTTGTTCAACACATTAAATACGATTGCTTCCTTAGGTTCCATTGATACATCAAGAATGGTTGCTTTGCTTCATGAATTTGGAAATTATTTACGGTTAAGCTTTGGCATTCATAATACACAGACACTTATCCATGTTGAAGATGAGCTAAAACTTACCCGTTCTTATCTTTATATCGAACAAGAGCGATTCGGTGATAGGTTAAAAATTGAATGGGAAATTACAGAAGATAGCAATTTTCAAATTTTACCTCTTTCAATTCAACCAATTGTTGAGAACGCAGTAAAACATGGCGTTTTACAACGAATTGATGGTGGGAAGATCATTATTCGAATCACCGAACTTGAAACCCATTATGAAATAGCTATTATTGATGACGGTGTTGGCATGAGAGAGGATAAGATCGAAAGGTTGCTAGAAGATTCAAGTAGTAAAAGTAAAGGGATCGGGTTAGCAAATACAAATCGCCGTTTTAAACAGATGTTTGGTAAAGGATTAATCATAATTAGCGAGCCAGACGAAGGCACTACAGTCATCATGGAAATACCTTTCTCCTAA MLPKTEQISKTQIFLIISLFALLLILFRISWILVHQAPKEPVAKNGIINFQDVNLTAEETYLLDGTWNFFPHSFIQAPSMSNETAKAVQLPHNWINDVNSNEKSVAYGFGTYQLKILLPENRPELLSFRFSEILSSVAVYIDGKLVSQLNQPHKKNSMTEKYGTFSVPFSPEQDEVELTLHVSNHELPFMGGITDSVWFGSTNAIQKETSLFSVLQMIVSVIYFLHVIYVFSLVYFGKGQHKKTLLYFGFMLATVGFTNLIDDNVIIHLPIPIEWYYRLLYLFFLTTLICMLYFIKSLYILRHRFFAYFLLIYGLFSISFIIVPISQFRTLAWLANIFVIITVIFMLKLLAPITQRRDQGSIIILLFIVSYGINVVWGMLLNDNIIEMPYYPFDFLLMNILIAFVLLQRYVHLLNLNKQQTKDLQTANKQKDVFLKNTSHELRNPLHAMINIGQSILDKDSATLSADNKYHLKLLVRVGQQMSYMLHDLVDLTRLKEERITLKPKEIDLHAIISGLIDMIAFLIEGKKIQINVYISPSFPKLYADENRLLQILFNLLHNAVKFTNEGEITIEAKQKGKMAMIQVKDTGIGMSEQTMEKVFQPYVQENRYETNNGGIGIGLSICKKLIELHGGTIRVISKLYEGSTFSFTIPIAHTFDKDDYENIGQTFYPAPSINQSDCGSAIASSIDNERQRILIIDDDSVNLKVLYNILSTDYEVATAYSGETALQCIEIGKFDLIICDVMMPNMSGYELTQKVRQRYSLSELPILLLTARQQFEDIYAGFLAGANDYIAKPAQILELRARVRALTDLKKSINDQLKTEAAWLQAQIQPHFLFNTLNTIASLGSIDTSRMVALLHEFGNYLRLSFGIHNTQTLIHVEDELKLTRSYLYIEQERFGDRLKIEWEITEDSNFQILPLSIQPIVENAVKHGVLQRIDGGKIIIRITELETHYEIAIIDDGVGMREDKIERLLEDSSSKSKGIGLANTNRRFKQMFGKGLIIISEPDEGTTVIMEIPFS NA NA NA NA NA AK015_02037 1131 cheB_3 Protein-glutamate methylesterase/protein-glutamine glutaminase TTGAAAGCCATTCTCGTAGATGATGAACAAATGGCATTGGATTTTTTAGAACATTTATTAAAGGAACTTGATGGAATAGAAATTGTCGATAAACTTACTAATCCATTTTTTGTAAAAACAAGCTTAAGTCAACATAATCCAGAGGTTGTATTTTTAGATATTAATATGCCACAAGTAAATGGACTGGAATTAGCTGAACAAATTTTGGAACTAGATTCTAGCATCCATATTGTATTTGTGACGGCGTATGACGAATTTGCTATTAAGGCATTTGAAATTAATGCATTAGATTATTTGTTAAAGCCTATTCAAAAAGACCGTTTAAAGAAAACTATCCAACGCTTGGAGGGGGATATTTTATTTCATAATGAAAAGAGTATGGTGCAGCAGGATCGTTTACGCCTGAATGTTTGCGGTAGTTTTTCCATCACAAAGGCAAATGGAGAAGTGGACTTGATCTCTTGGCGAACTTCAAAAGTTAGAGAATTGTTTCATTATTTGCTTCATAACAGAGGGAAACTGGTAAGGAAATCATTACTAATTGAATTGCTTTGGGGTGAGTTGGATCCAGAAAAAGCTTATGCACAACTTTATACAGCTATCTATCATGTTAGAAAAACATTAAAGGAATATCCAGACAATTTTCAACTGGAAAATACGACAGAAGGATATATTTTATCTACTCAAGCTGTCGATATCGATATTGAATTATGGCAAAAAAAACTGGCTAATTATGCATCTATTGAAAAGAATAACATTGACCAATATGTTGAAGCAATGGAATATTACACAGCTCCTTATTTTGATGACTATGATTATTGGTGGGCAGAAAACGAAAAAATTAGATTTGAAAGAGTATGGTATAGAACAGCGATGAAAATAGCTAAAGTTTTTACATCTATTTCGTCCTATGATAGAGCAATAGATTGGTATAAACGCATTTATGAGCGCTACCCAGAACAAGAAGAAGTACATTTTGCAATAATGAAGCTGTATTCTTTCAGGAACGAAACAGAAAAAGTGGAAAGACAATATGCTTATTTAAAAAAATTACTACAAACTGAATTAGGGACTAGCCCAAATGCAGAAATTACGAGTTGGTACCGTCAGTGGAAAAAATATCATATGTAG MKAILVDDEQMALDFLEHLLKELDGIEIVDKLTNPFFVKTSLSQHNPEVVFLDINMPQVNGLELAEQILELDSSIHIVFVTAYDEFAIKAFEINALDYLLKPIQKDRLKKTIQRLEGDILFHNEKSMVQQDRLRLNVCGSFSITKANGEVDLISWRTSKVRELFHYLLHNRGKLVRKSLLIELLWGELDPEKAYAQLYTAIYHVRKTLKEYPDNFQLENTTEGYILSTQAVDIDIELWQKKLANYASIEKNNIDQYVEAMEYYTAPYFDDYDYWWAENEKIRFERVWYRTAMKIAKVFTSISSYDRAIDWYKRIYERYPEQEEVHFAIMKLYSFRNETEKVERQYAYLKKLLQTELGTSPNAEITSWYRQWKKYHM PGPT0026304_87 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 AK015_02038 591 srtA Sortase A ATGAAAATTACTAAACGTAGCATAGGTATTTGCTTCATGATTGCTGGAGTAATATTCGTGTCAATCCCGTTTTATTATGAATGGAAACAAGCAAAACAAGTTGCAGCACTAGAAGAAGCTTTAGCGATGGTGGCGGAATCGGATGAGAATGCTGTTGATTTATCGTCGATAGAAGATCTCCCGTTTTCAGAAGAAGAGCTAAAGGGGGTAATTGAATTAGAGATCCCTTCCATTGACCTCAAACAAAAAATCCTAACCCAAACTACGGAAGAAAATTTAAGCATTGCTTTAACACAAATTAAATCAAATCAAATACCGGGAGAGGGTAATTTTACCGTTGCTGGTCATAGAGGATATCGAGGCGATCGACATTTTAGACAACTACCTAATGTAAAACCAGGCTCTAAAGCTTTTTTGCACACAGCGAAGCAAACTTTTATTTATGAAATTAAAACATCAGAAGTAATTGAACCAACAGCTGTGGAAGTTTTGGATGATCGTGCAGGTCAAGATGAGCTTACTCTTATCACATGCACCCTCGATGGTAAGGAGCGAATTGCAATTAAAGGAACGTTAGTAGGAAAAGAATAA MKITKRSIGICFMIAGVIFVSIPFYYEWKQAKQVAALEEALAMVAESDENAVDLSSIEDLPFSEEELKGVIELEIPSIDLKQKILTQTTEENLSIALTQIKSNQIPGEGNFTVAGHRGYRGDRHFRQLPNVKPGSKAFLHTAKQTFIYEIKTSEVIEPTAVEVLDDRAGQDELTLITCTLDGKERIAIKGTLVGKE PGPT0024075_2756 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284 NA NA AK015_02039 675 lnrK_2 COG2197 Transcriptional regulatory protein LnrK ATGATAAATGTGCTTATGATGAATACAAGCGACATTTTTACACAGGGATTAAAAATTTTATTAGAAGGCGAAGACGATCTGGAAGTTCTAGAAGTCTCCGATCGGGAATCCAATTTTATTGAACAGATAAGTGATTTTGAACCAGATATACTGCTAGTCCATTTAGTTCATGGAGTAAGTGATACATTAAAAAAACAAATAAATGAAATAAGAGAAAAATATAAACAAATTAGGGTTATATGTATTTTTGTATCCTATGATAGGAAGTTGATTAAGGAAGCTTTAACTTTAGGGGTAAAAGGATTTTTACTAAGTCACAGTAGTGGAGAGGGGCTTATTCATTCCATTCGAAGCGTGTGGCAGCATCAATATGTGTTTGCAGATGAAATTGTTATGGAAATGATTGACTTTTTGGGTACAGAGTGTATGAACAAAAAAGAAAAACTTAGTCGTTTTTTTTCTTCGCAAAATATGGATATGAATGATAGAGATATTGATATATTATTTTTGATTTATAAAGGGTATAAAAATTTAGAAATAGCTAATGAGTTGAATTTGTCAGAAAAAACAGTTCGGGACTATGTGAGCAAGGTGTATAAAAAATTACAAATAAATCATCGTCATAAAGTAAAAGCGTATTTGACGTCTATTATACACGAAAAAACGAAAGAATAA MINVLMMNTSDIFTQGLKILLEGEDDLEVLEVSDRESNFIEQISDFEPDILLVHLVHGVSDTLKKQINEIREKYKQIRVICIFVSYDRKLIKEALTLGVKGFLLSHSSGEGLIHSIRSVWQHQYVFADEIVMEMIDFLGTECMNKKEKLSRFFSSQNMDMNDRDIDILFLIYKGYKNLEIANELNLSEKTVRDYVSKVYKKLQINHRHKVKAYLTSIIHEKTKE NA NA NA NA NA AK015_02040 861 cntI Pseudopaline exporter CntI ATGAGTAACCGTAATAAAGGTATTATTTTATTACTATTGTCCGCGTTTGGCTTTTCTATGATGGGAGCTTTTATTAAGCTTTCAGGCGATGTTCCAACAGTACAAAAAACACTTTTTCGAAATGCAATTTCTATGGTCATTGCATTTGGATTCGTAAAATATTATGGTGCAAGTTTATTTGGCAAAAAAGACAGTCAAAAATATTTACTGCTTCGCTCAAGTTTAGGAGCAGTAGGGATTTTGCTTAACTTTTACGCTATTGACCATTTAGTTCTTTCGGATGCAGATATGCTTAATAAAATGAGTCCTTTTCTCACCATCATCTTCGCAGCTCTCTTTTTAAAAGAGAAAACACGATTATTTCAAGTAATATCGATTATCATTGCTTTTGCTGGAACTCTGTTCATTATTAAACCAACATTTTCATCAGAAATTATCCCCTATATTGCAGGTTTTCTCTCAGCAGTATTTGCAGCAGGAGCTTATACCGTTTTACGTGTGTTAGGTAGAAAAGAACAATTTTACACTGTTGTTTTTTATTTCTCATTTTTTACAACTGTGATTCTATTACCGTTTGTCATTGCGTTTTATGAACCTATGTCTTGGCAACAATGGGTGTACCTTTTATTAGCGGGTATTTTTGCTACTGTAGGGCAATTCGGAATAACGATTGCTTACAAATACGCACCAGCGAAAGAAATATCTATCTTTTTCTATTCCACAGTTGTCTATTCTGCATTAATCAGTATAGCCCTCTTTGGACAAATACCAGATGTACTAAGTATCATCGGTTATCTCACCATTTTCAGCGCTTCTTTGTATATGTTTATGAAGAACAATCAACAAAGTCGACTGGAATAA MSNRNKGIILLLLSAFGFSMMGAFIKLSGDVPTVQKTLFRNAISMVIAFGFVKYYGASLFGKKDSQKYLLLRSSLGAVGILLNFYAIDHLVLSDADMLNKMSPFLTIIFAALFLKEKTRLFQVISIIIAFAGTLFIIKPTFSSEIIPYIAGFLSAVFAAGAYTVLRVLGRKEQFYTVVFYFSFFTTVILLPFVIAFYEPMSWQQWVYLLLAGIFATVGQFGITIAYKYAPAKEISIFFYSTVVYSALISIALFGQIPDVLSIIGYLTIFSASLYMFMKNNQQSRLE NA NA NA NA NA AK015_02041 1197 hypothetical protein GTGAATAGTTGGAAAAATCCAATATTACTACTGTTATCCATTGGCATTTCAAGTATTGGAAACTTTATACATTTAGTTGCTATTAACATCATTGTTTACCAACTTACTGGATCAGCAGCCGCAGTTGCAGGACTTTGGATTATCGGACCATTAACAAATATATTCACAAAGTTCTGGACAGGAAGTTTTATCGATTATCGGAGTAAGCGCAGCGTAATGATCCTAACATATATGTTTCGAGCTGTTTTTATCAGTCTCATCCCCTTTGCGCCGAACATGATAGTCATTTATATTATTCTTGTCGTTCTGAGTATAGCGAACGCTTTTTTTCACCCAGCATCATCTACTTACATTACTATCCTCGTTCCAATAGAAAAAAGAAAGCGCTTCAACTCTTTTTATTCATTTGCTAGTTCTGGCGCCTTTATCATTGGCCCAGCCATCGGTGGTACACTTATTTTATCAACAAGTGTAGAAATAACACTTTGGCTCAACGCCATATCCTTTTTAATAGCATCCATTTTATTGTTATTTATTTCTCAGACAGAAAACATTGTAAAAGAAGCAATCCATACATTGACTGTTTCGCAAATCATAAAAGATTTCACTGTCGTTCAAAGCTTTATGAAAGAAAACAAGTATGTAAGCTTTATCTACCTCGGCTTTAATTTAATTATGCTGTTTACCTTTGCTATGGATGCACAAGAAGTCGTTTTTACACAACAAGTAATAGGGCTCTCTGAATTGGAATACAGTATGTTAATTAGCTTAACAGGACTTGGTTCTGTTTCAGGTGCTATTTTACTATCTATATTTTCAAATCAATTCTCCATAAGAAACATGATAAGTGTTGGCATCATTATGACCGCAATTGGTTATGTCATTTACGCTTTCTCTTGGTCTTTTACGTCCATTGTAGTTGGATTTTTAATCTTAGGTTTTTTTCTAGTATTTCTTAATGCCGGCATCATGACATTTTATCAAAATAATGTACCAGTAGATATTATGGGGAGGGTAACTAGTATTTACCAGTTAATTCAAAGTGCTCTGCAAGTCTTTTTTATTTTAGTGATAGGCATTGCAGCTGATATCGTTTCAATGCGGCTTACAATCATTATCCTCGCTCTTCTTATGTTCCTTTCATCCTGCCTTTTTGTCTTTGCTATTTTAAAAAAGGATAAAAAGATTTACTATTAG MNSWKNPILLLLSIGISSIGNFIHLVAINIIVYQLTGSAAAVAGLWIIGPLTNIFTKFWTGSFIDYRSKRSVMILTYMFRAVFISLIPFAPNMIVIYIILVVLSIANAFFHPASSTYITILVPIEKRKRFNSFYSFASSGAFIIGPAIGGTLILSTSVEITLWLNAISFLIASILLLFISQTENIVKEAIHTLTVSQIIKDFTVVQSFMKENKYVSFIYLGFNLIMLFTFAMDAQEVVFTQQVIGLSELEYSMLISLTGLGSVSGAILLSIFSNQFSIRNMISVGIIMTAIGYVIYAFSWSFTSIVVGFLILGFFLVFLNAGIMTFYQNNVPVDIMGRVTSIYQLIQSALQVFFILVIGIAADIVSMRLTIIILALLMFLSSCLFVFAILKKDKKIYY NA NA NA NA NA AK015_02042 354 hypothetical protein ATGATTAAAATAACCCCAGCAAAAATGGATAATGCAATTGAAGTTGAAGTGCAAGGAAAAGTAGAAAAAGAGGATCTGAATCTTTTTGAAGAATTTTTTACGATGAAAAAACAAGAATATAATAAAGTTAATATACTTCTACTACTTGATAAAATGGAAGGCATGTCTTTAAAAGGTGTTTTAGAAGATTTGAAAATGGTGCAACATTTAAAATATATTCAAAAACTGGCAATTGTAAGTGATAAGAAATGGATAGAAATAGGGGTGAAACTTGAAAGGCTGCTCCCAGAAACAAACGTGGAGCATTTTATACCAGAAAATAAAGTTCAAGCGCAACATTGGTTAGGTGAATAA MIKITPAKMDNAIEVEVQGKVEKEDLNLFEEFFTMKKQEYNKVNILLLLDKMEGMSLKGVLEDLKMVQHLKYIQKLAIVSDKKWIEIGVKLERLLPETNVEHFIPENKVQAQHWLGE NA NA NA NA NA AK015_02043 915 rlhA COG0826 23S rRNA 5-hydroxycytidine synthase ATGATTGAACTTATAGCGACAGCAGAATCAGTGCACCAAGCAAAGTCATTATTAAATGCTGGTGTTGATACATTATATGTTGGAGAGGATGCATTTGGTCTCCGTTTACCAGCAAGTCTATCGAGAGAAGAAGTGAAGGAAATATGTTATATAGCGCATGAAAATAATAAAAAAGTCTGTGTCGCAATGAATGCTATTATTCATAACGACCGGATTAAGTTAATTCCTGGCTATTTTGAGTTTTTACAAGAACTAATGGTTGATTCGATAACTATTGGTGATCCGGGAGTTATCCATTTATTGCACAAGCATCAAGTGCAATTACCATATGTGTATGACCCTCATACGATGGTTACGAGTGCAAAACAAGTGAATTTCTGGGCACAACGCGGAGCCAAAGGTGCAGTACTTGCAAGGGAGTTAACGTATCAAGAATTAACATCTATAGCTACAAATGCGACAATTCCTGTGGAAGTGCTTGTCTATGGAGCAACTTGTATTCACCATTCAAAGCGACCTCTACTTACGAATTATTTTAGTTACACAAAACAACAAAACGAAAATAACAAAAATTTATTTATGGCAGAACCGAAAAAATCAGAAACACATTACTCCATCTATGAAGATATAAATGGCACACATATTTTTGATACAAATGATATTAACTTATTACCTTATTTAGAAAAATTAGTGCATGCACGGATATTAAAATGGAAACTAGATGGTATCTATACAAATGGACAAGCATTCGTGGAGATTGCAAAGCTTTTTGCTGAAGCCAAACAAGCATGTTTAGATGATGCTTGGTCTAAGCAGTTACAGGAAAATTTAACAACAAAATTAATAGAATATCATCCTCATAAACGAACACTGGATACTGGATTCTTTTTAAAAGACCCAGCAGATGTGCAGTAA MIELIATAESVHQAKSLLNAGVDTLYVGEDAFGLRLPASLSREEVKEICYIAHENNKKVCVAMNAIIHNDRIKLIPGYFEFLQELMVDSITIGDPGVIHLLHKHQVQLPYVYDPHTMVTSAKQVNFWAQRGAKGAVLARELTYQELTSIATNATIPVEVLVYGATCIHHSKRPLLTNYFSYTKQQNENNKNLFMAEPKKSETHYSIYEDINGTHIFDTNDINLLPYLEKLVHARILKWKLDGIYTNGQAFVEIAKLFAEAKQACLDDAWSKQLQENLTTKLIEYHPHKRTLDTGFFLKDPADVQ PGPT0021005_3373 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 AK015_02044 1233 hypothetical protein ATGCGAATTTTAAAGAAAAAGCCAGAAGTATTAGCGCCAGCTGGTACATTAGAAAAATTAAAAACAGCTATTTACTACGGTGCAGATGCTGTTTATATTGGTGGAAGCGCATACGGATTACGAAGTCGTGCAGGTAATTTTTCATATGAAGAAATGCAGGAAGGAGTTGCCTTTGCCAAAAAACATGAAGCGCACGTGTATGTCGCTGCAAATATGGTAGCTCATGAAGGAGATATGAAAGGAGCTGGCGACTTCTTTCGAACGATAAGAGATATCGGGGTGCGCGCAGTTATTGTTTCAGACCCAGCTTTAATTGAAACGTGTATGATGGAAGCGCCGGGACTTCCGATTCACTTATCGACACAATCCTCTGCAACGAATTATGAGACGTTGAATTTTTGGAAACAAGAGGGTTTGGAGCGTGTTGTATTAGCAAGAGAAGTTGGGATGGATGAGATTAAAGAAATACGAAATCATACAGATGTAGAGATTGAGGCATTTATTCATGGTGCAATGTGTATTTCATATTCTGGGCGTTGTACGTTATCTAACCATATGTCTGCTAGAGATGCAAATCGAGGCGGTTGTTCCCAATCTTGTCGTTGGAAATACGATTTATTCGAGTTGGATCATCAAGGCGTGCGTCAAAGTTATTCAGCTGAGGAAACTGATGAGCCATTCTCCATGAGTGCTGTAGATATGTCTATGATTCACAACATTCCTGATTTTATTGAAAACGGCGTAGATAGTTTAAAAATTGAAGGAAGAATGAAATCAATTCACTATGTTTCTACGGTAGCAAATGTGTACCGCAAAGCTGTTGACAGTTATTGTGAAGATCCTGCTCATTTTACATTCCAGCAAGCTTGGGAAGATGAGCTTTGGAAAGTGGCACAACGTGAATTATCAACTGGTTTTTATTACGGAACGCCGAATGAACAGCAGCAATTATTTGGACGTCGGAGAAAGATTCCGGTATATAAATTTGTTGGTCAAGTATTGGAATATAATGATTCTTCTAAAATAGCTACTGTACAACAACGAAATAGTTTTTCTGTCGGAGATAAAGTAGAGTTTTACGGTCCTGGCTTTACACACGTCTATCAAACAATAAATCAGATGTGGAACGAAAATGGCGAGCCAATTGAACGAGCTGCTCACCCAATGATGAAAGTCCGTGTGCAAATGGATGCACCTGTAAAGCCATTCGATATGATGAGAAAAGCCAAGTAG MRILKKKPEVLAPAGTLEKLKTAIYYGADAVYIGGSAYGLRSRAGNFSYEEMQEGVAFAKKHEAHVYVAANMVAHEGDMKGAGDFFRTIRDIGVRAVIVSDPALIETCMMEAPGLPIHLSTQSSATNYETLNFWKQEGLERVVLAREVGMDEIKEIRNHTDVEIEAFIHGAMCISYSGRCTLSNHMSARDANRGGCSQSCRWKYDLFELDHQGVRQSYSAEETDEPFSMSAVDMSMIHNIPDFIENGVDSLKIEGRMKSIHYVSTVANVYRKAVDSYCEDPAHFTFQQAWEDELWKVAQRELSTGFYYGTPNEQQQLFGRRRKIPVYKFVGQVLEYNDSSKIATVQQRNSFSVGDKVEFYGPGFTHVYQTINQMWNENGEPIERAAHPMMKVRVQMDAPVKPFDMMRKAK PGPT0021005_2792 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 AK015_02045 1557 caiT COG1292 L-carnitine/gamma-butyrobetaine antiporter GTGAGTACAAAGCGTAAAGGAAGGCAGCAAAAAAAATTAATTGATTATAAAATTTTTTTACCGGCACTTTTTATCATTGTTGCCATTAGTATTCCCTTATCGTTGTATGAAGCTGAATCGCTAGAAATTTTAAATACGATATTTAATAAATTAGTAGATGTGTTTAGTTGGGGCTATCTATGGTATGCAATCATCTTAGTAGGCGTAGCGTTTTATTTATCTTTTTCAAAATACGGTAAAGTGGTGTTAGGAAATCCTGCTGATAAACCACGGTTTACATTATTTGAATATGCGTCTATTTTAATTGCTATGGGTTTAGGCTCAACGATTATGCGTACAAGCATGACGGAGTGGGCAAATGTTGCGGTCAACCCACCATTTGGAGTCGATCCTCAGTCAGTGGAAGCTATACTGTGGGGGAATTCATATAGTATGTTTTTATGGAGCTTTCAAACATTTGCTATCTTTGTTATGGCTGCTCCAGCAATGGGGTATATTTTACATGTGAGAAAGAGTCCAGTCATGCGGATATCTGAAGCTTGTCGTGTTATTTTCGGGGACCAATTTACAGATGGTGTCGGGGGAAAAATTTTAGATATTATCTTTCTAATAAGCATTCTAGCAGGGGCCGCCGTAACATTAGGATTGGGCGCGCCGATTGTTACTTATAATCTTGCTGAACTATTAAACATAGAAATAAACTTTACCCTGACGTTTATTGTTACAGTTGTATGGGTGCTTTTATTTTCGGTGAGTGCTTATTTAGGAATAGAGAGAGGAATAAAAAAGTTAAGTACACTTAATATGTATCTTGCTGGTGCATTTGCTTTAATCATTATGTTAATAGGACCTGGTATTTTTATCCTTAATTACTTTACGGACAGTGTTGGATTTTTAGTGTCTAATTATGTCGATATGTCTTTTCATACAAACTCCTTAAGCATCGGTGGAACTTCGCATATAGAAAGTCAGACTATATTTTGGTTTGCTTATAATGCTACTTGGGCCATGTTGCACAGCGTATTTGCAGCAAAGATTTCTTATGGTCGTACGATTAAAGAAATGATATTAACGTATTTAACGGCTCCAACTTTTATTTCTTGGGTAGCAACAGGTGTACTTGGTGGTTTAGGTGTGAACAGTTATTTGTCAGGTGAGGTTTCCGTCTTAGATACGGTAGCAAATAATGAAGCCATGCAAGCTATTCCAGATATATTATCGTCGCTACCATTTTCAACGATCGTACTTATCATGTTTATTACGATTGCAATGATTTTCTTAACGACTACATTAGATTCTACTACGTATACTATCGCGTCTTATACGAGTACCGAAAACATGAGCAAAGTGGAACCTTCCAAATATTTACGAATAATTGTCGCTGCTGTTATTACAGTAATGGCGTTAATTTTAATGCGAATAGGTGGTTTGCCACCGTTAGAAGTTGTTTCAGGATTATTGGGGATCCCAATAATTGTTGTTCAATTTCTAACGATATATGCTATTAAAAAAATGATCGATGAAGATAAAGCTTGGAAAACAAATGTACGTGATTAA MSTKRKGRQQKKLIDYKIFLPALFIIVAISIPLSLYEAESLEILNTIFNKLVDVFSWGYLWYAIILVGVAFYLSFSKYGKVVLGNPADKPRFTLFEYASILIAMGLGSTIMRTSMTEWANVAVNPPFGVDPQSVEAILWGNSYSMFLWSFQTFAIFVMAAPAMGYILHVRKSPVMRISEACRVIFGDQFTDGVGGKILDIIFLISILAGAAVTLGLGAPIVTYNLAELLNIEINFTLTFIVTVVWVLLFSVSAYLGIERGIKKLSTLNMYLAGAFALIIMLIGPGIFILNYFTDSVGFLVSNYVDMSFHTNSLSIGGTSHIESQTIFWFAYNATWAMLHSVFAAKISYGRTIKEMILTYLTAPTFISWVATGVLGGLGVNSYLSGEVSVLDTVANNEAMQAIPDILSSLPFSTIVLIMFITIAMIFLTTTLDSTTYTIASYTSTENMSKVEPSKYLRIIVAAVITVMALILMRIGGLPPLEVVSGLLGIPIIVVQFLTIYAIKKMIDEDKAWKTNVRD PGPT0021960_793 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARNITHINE_USAGE PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451 NA NA AK015_02046 2079 manR_4 COG1762 Transcriptional regulator ManR ATGAATAATCGCGCGCGTGATATTGTTTTATTATTTATTGAAAATGATCATTTTTTTACGGTCCATGCACTTACGCAACACTTTTCTGTAAGTCAACGTACTATTTACAATGACTTAATGGACATTGATGCATTTTTGGCAGAACATGATCTTCCCTCTTTACTACGTCAAAAAAGAAACGGCATAAAATTACAGCTTCGGAAATCGGATCAAAAAAAACTAAAAGATCTATTGGATCAAGAAGAACTAGGGGTCTATTCACCTGAAGAACGAAAAAATGCTGCTTTACATTACATGTTAACTCGCCATGAATATGTAACTATTGATCAAGTATCTAACTTTTTAAAGGTATCGAGAAATACGGTAATTAACGATATGAAGCAATGGAAGCTTTGGTTACAGGATCAATCATTATCGTTAACATCCTATCCTTATAAAGGCTTGAAAATAGAGGGTACAGAATTAGCAATGAGAAAAGCACTCTTAACAATTTATAAAAATGAAAAAAGAGAGCGTGTACAAATTACAAGCGTAGAACAGTCTATTCTAAATGAGTTTCTTTCGGTTGAAGAGATCAACCACCTTACTCGTATGGTTAGAAAGGCTGAAGATGATCTGCAAATAATTATTTCAGATCATTCCTACTTTAGAGTTATTCTTCACCTTGGATTGGCTATTACTCGCGTGAAGATGCGACGTACACTTAACGATGAAGCGATTTCTGCAAGTGTTCTAGAAACTCGTGAGTATGAAGTAGCTTGTATAATCAAAAAAGAAATAGAACGAGCTTTTAGCATCGTGTTTCCAGAAAACGAAGTAATGTATTTTGCTTCACAACTTGTTAGTAGTAGTCTGCAGGGGGCGAAACAATACGGAAATACGAACGACCAATGGCTTCCATTACAAATGGTAACTCGTACTTTTGTTGAAAAGCTAGAAACAGTATTTCATATGTCGTTTATGGAGGATGCGCAACTATTTAACGGTTTAATGGCTCATTTACGGCCAGCCATTTACCGGCTTAAAAATGATACGCACATTGAAAATCCTGTTTTAAATGCTATAAAGGAAAACTACCAATATGTGCATCATCAAGTAATGCAGACAATCCCTGTTATTGAAACGCAGTTGGATGTTAACTTTAATGAACATGAAGCTTCTTTTATAACGATGTATGTTACTGCAGCTATAGAAAGACAAAAGAAAAAAATCCGTAGAAAGCCTGTTGTCATTATTGTTTGCGATACAGGAATGAGCACATCACAAATGCTAGCAACACAATTAAAAAATTTGTTTCATATCCGTGTACTAGGTGCATTTCCAGCCAGACAGGCTGCTGAAATTGTTCAACAAGAGTTCATTGATTTAGTCATAACGACCGTTTCAATAGAGATTAAAGGGACAGAAGTTATTAATGTGAATCCTGTATTATCAAAAGAAGATATTCAGAAATTAGCTTTGTTATTAGAAAAGTTTGAGGGGCAAGAGTTGCTTGTGTTGGATATTTTGCAAATTATGGAGCCTTACTGTACTGTTCATAATTCATTGGAGCTTAGAAATAAGCTACAGCAGTATTTTCAGCATGATGCAACAAAAACTCGTCAACTAGAGAGGAGAGCAAATCCTGTGTTAATTGAAGTATTGAATGAAAATCTGATTATTACACAATCAGATGTACAAGATAGAGATAGTGCTGTAAAACTAAGTGGTGAATTGCTCTTGAAAAATGACTTAATTAAACGAGATTACATTGAAGCAATGGTTAACAATGTTCATGAAAATGGTACTTATATCGTCATTGCACCGGGGATAGCCATGCCTCATGCAAGACCAGAATATGGAGCAAAAGATATTGGTTTTAGCATTGTTACATTGAAAGATCCAATTGCTTTTGGGCACAGAACGAATGATCCTGTGAGAATTGTTATTGGTTTTTGTGCAATAGATCACGAAACACATTTAACTGCATTGTCAGAACTAGTGGGTGTTTTAAATCAAGAAGAAAAGCTAACGGCGATTTTAAATGCTGAATCATCAAAAGAAATTATGGATATTTTTCAAAAGGAGGAAAAACAATGA MNNRARDIVLLFIENDHFFTVHALTQHFSVSQRTIYNDLMDIDAFLAEHDLPSLLRQKRNGIKLQLRKSDQKKLKDLLDQEELGVYSPEERKNAALHYMLTRHEYVTIDQVSNFLKVSRNTVINDMKQWKLWLQDQSLSLTSYPYKGLKIEGTELAMRKALLTIYKNEKRERVQITSVEQSILNEFLSVEEINHLTRMVRKAEDDLQIIISDHSYFRVILHLGLAITRVKMRRTLNDEAISASVLETREYEVACIIKKEIERAFSIVFPENEVMYFASQLVSSSLQGAKQYGNTNDQWLPLQMVTRTFVEKLETVFHMSFMEDAQLFNGLMAHLRPAIYRLKNDTHIENPVLNAIKENYQYVHHQVMQTIPVIETQLDVNFNEHEASFITMYVTAAIERQKKKIRRKPVVIIVCDTGMSTSQMLATQLKNLFHIRVLGAFPARQAAEIVQQEFIDLVITTVSIEIKGTEVINVNPVLSKEDIQKLALLLEKFEGQELLVLDILQIMEPYCTVHNSLELRNKLQQYFQHDATKTRQLERRANPVLIEVLNENLIITQSDVQDRDSAVKLSGELLLKNDLIKRDYIEAMVNNVHENGTYIVIAPGIAMPHARPEYGAKDIGFSIVTLKDPIAFGHRTNDPVRIVIGFCAIDHETHLTALSELVGVLNQEEKLTAILNAESSKEIMDIFQKEEKQ NA NA NA NA NA AK015_02047 267 ulaB_2 Ascorbate-specific PTS system EIIB component ATGATTAAAATTGTTACCGTTTGTGGTGCTGGTGTAGGGAGTAGTATGATGTTACGGGTATATGCACAGCAAGTGCTGTCTGAAGAAGGAATTCAAGCTACTGTGGAGGCATCAGATATCAGCTCAGTAAGTGCGGATGAATATGATATTGTTATAACAACGTCTGATTTTGCAGATATTTTACGCAAATCAAAAGCGAAGGTTGTAAGAATTGATAACATGATGGATAAAGAGTTGCTCAGAACGGAATTAATGAAAGTAATTTAG MIKIVTVCGAGVGSSMMLRVYAQQVLSEEGIQATVEASDISSVSADEYDIVITTSDFADILRKSKAKVVRIDNMMDKELLRTELMKVI PGPT0017110_1076 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017110-ulaB|sgaB-K02822 NA NA AK015_02048 1278 ulaA_3 COG3037 Ascorbate-specific PTS system EIIC component ATGGATTTCATTATGTATCTAATTGACAATATATTCAGTCAGGCAGTGTTTGTAATTGGAATTGTTGTGTTAATCGGGTTATTGGTGCAAAAGAAAAGCTTTGATAACATTGTTTCCAGTACAGCTAAAACAATGATCGGCTTTTTGCTTATTAATACTGGAGCACAATCACTAGGAATATCTTTATTACCTTTACAGCCAATGCTTAGTAAAGTATTTCATTTAAATGCAGAAGTACCAACACTTGCTGAAGCTCAAATGGAAAGCTTTGTTGCAATTGGTACTGAAATGGCACTTATTTTTGCGTTAGGATTCATTATTCATATTTTATTTGCACGAATGACCCCATTTAAATACGTACATTTGTCTGCTCATGTGTCTTTTTTCTATGCTGGTTTAATCGCAGCTTTGTTAAAGTTCGGTACGAATATGGGATTTGTCCCACTTGTATTAACTGGTTCACTTATACTCGGATTTTATTTAACGTTTACTTGTTCTTATGTAGCGCCGCTTATGAAAAATATTAAAGGTGGAGAAGGATTCACGTTGGGGCATTCTAGTTCTAGTGGTGTTTGGATTGCAGCAAAGCTAGGCGGGGTGTTTGGTAATAAAAAACGTGATTTAGAAGATATTAAGATTCCAAAAATGTTAAATTTCTTGCGTGAAATGACGATAGCGCTAACAGTTATTATGTTTTTATTATTCCTTGTTGTATCCATTATCTCTGGTCCAACTTGGGTTATGAAAAATATAAGTGATGGGAGAGATGTTTTTTCTTTCTCTTTATTAAATGGCTTGCAATTTGGATTGTGGATTACTGTTATTTTAGCTGGTGTAAGAATGTTATTAGCTGAAATCATACCTGCATTTCACGGAATTGCTGATAAAGTTATTCCGAATGCAAAACCTGGCTTAGATGTACCACTTTTATTCCCAAATTACCCGACCTCAGTTATTGTAGGCTTTTTAACGAGCTTAGTTGCGGGATTTGTTGGGATGATCATCTTGGCTTTGATCGATTATCCAATTGCTGTTTTTCCAGCATTAATACCAACATTCTTTACTGGTGCTGCTACGGCAATATTTGGGAATTCAACAGGGGGAGTTAGAGGTGCATTGATTGGTTCGTTTGCCAATGGTTTAATTTTAATTCTTGGTCAAGCATTTCTTCTTCCACAAGTAGGGTCCTATGCATCTATTATGCGCATACTTAGTGAAACTGACTATGCTTTGTATGGGCCATTACTAGGTTTGTTACTTAAGTTGATTGGAGGCTAA MDFIMYLIDNIFSQAVFVIGIVVLIGLLVQKKSFDNIVSSTAKTMIGFLLINTGAQSLGISLLPLQPMLSKVFHLNAEVPTLAEAQMESFVAIGTEMALIFALGFIIHILFARMTPFKYVHLSAHVSFFYAGLIAALLKFGTNMGFVPLVLTGSLILGFYLTFTCSYVAPLMKNIKGGEGFTLGHSSSSGVWIAAKLGGVFGNKKRDLEDIKIPKMLNFLREMTIALTVIMFLLFLVVSIISGPTWVMKNISDGRDVFSFSLLNGLQFGLWITVILAGVRMLLAEIIPAFHGIADKVIPNAKPGLDVPLLFPNYPTSVIVGFLTSLVAGFVGMIILALIDYPIAVFPALIPTFFTGAATAIFGNSTGGVRGALIGSFANGLILILGQAFLLPQVGSYASIMRILSETDYALYGPLLGLLLKLIGG PGPT0017105_1138 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017105-ulaA|sgaT-K03475 NA NA AK015_02049 696 trpA_2 COG0159 Tryptophan synthase alpha chain ATGAAACAACTTGCATTGTATCTGCCGTGCTGTTTTCCAAATGAAACAAAATTTTTTGATGTTTTAAATCTTATGGAGAAATATAAAGTTGACATTTTAGAGTTGGGTGTTCCAGTCACCAATCCTCATATGGATGGGGCAGTTATTAGGGAAAGCCATCAACAAGTGTTAAATCAAGGGTTTAATAAAGCCGATTTTAAACAAATATTAGCTAGAATAAAGGAACAATATTCTTTTAAAGTAGTGGTTATGACTTATGCGGAAGGGCTTACGGAGTACGATTTATTAACTTCCTGTAAAAATAAAATGGACGGTTTACTATGTGTTGATAGAACTGTTACTATAGAAGATTTTCATTCACCTATACAGATTTATAATGAGGAAATGACTGACGAAGTACTAAAAGAACAGTTGGAACATAATCGTTTATTCGCTTATTGTATGAGTGGCATTGGTAAAACGGGGAGCTTTAATCATGTGCCAAATAATTATATGGATACAATGAAGCGGATAAAGACGTTTAGCTCGATTCCTGTTTATATTGGATTTGGCATCAAAGATCAAAGAGACGTAGCTAGTGTGTTTGCAAACGGTGCAGATGGAGCAATTATTGGTTCTTATTTTGTGAACTTGGTAGCAACTTCTACAATGGAGCACATTGAAAACTATCTCAGCGAACTAAAGTATATTCGATAA MKQLALYLPCCFPNETKFFDVLNLMEKYKVDILELGVPVTNPHMDGAVIRESHQQVLNQGFNKADFKQILARIKEQYSFKVVVMTYAEGLTEYDLLTSCKNKMDGLLCVDRTVTIEDFHSPIQIYNEEMTDEVLKEQLEHNRLFAYCMSGIGKTGSFNHVPNNYMDTMKRIKTFSSIPVYIGFGIKDQRDVASVFANGADGAIIGSYFVNLVATSTMEHIENYLSELKYIR PGPT0007070_4859 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 AK015_02050 435 uspF COG0589 Universal stress protein F ATGAGTGCAAATATTCTAGTAGCTTATGACGGTTCGGAACTAAGTAGAAAAGCAGTAGAGGAAGCGAAAAAGCAGGCTAAACTTGTTGATGATGCAACAGTACATGCGGTAACTGTCATTACTCACGCTGGGCCAACAGCTAATGCGGCACTTGCTCGCAGTTTTATGGGTGAAATGGCAGAAGAAATTCGTCCATCAATGGAAAGGATACGAGAAGAATTTGAAGAAGAAGGCATTCATTGTAAATCGGAAGTGTTGTTAGATTATTCTTTTCGTAATCCAAGCTCTCAAATTGTAGAGTATGCAAAAGAAAATAATATAGAATTGATTATTTTAGGTAGTAGAGGACTAGGTGGAGTAGGTCGACTTCTGTTAGGAAGTGTCAGTAGTCAAATTGTTCAACATGCAGCGTGTAAAGTACTTATTGTGAAATAG MSANILVAYDGSELSRKAVEEAKKQAKLVDDATVHAVTVITHAGPTANAALARSFMGEMAEEIRPSMERIREEFEEEGIHCKSEVLLDYSFRNPSSQIVEYAKENNIELIILGSRGLGGVGRLLLGSVSSQIVQHAACKVLIVK NA NA NA NA NA AK015_02051 927 hypothetical protein ATGAAGAGAAGTAGAATAAAATGGCTATTGTTCATGTCACTTGGAATGTTTTTAATCTTATTTACAGCGTGTAGTAATAGTGAGACAGAAAGCAATGAGAAAACAGGAAAACGAGAGGGGGAGTTAGCGTATAATCCTCCTTCTATGGAGGAGTTAGATGCGGATGATCCGATGACTTCTTACATTCAAAAAGGTGAAAAAATATTTAACGAGACGAACACTGTATTATCCGAAAGAGTAGGGAATGAATTATCCTGTGCAAGCTGTCACGCGGATGGGGGGGTGGCCCCTTCCTCTTCTATGGTAGGTGTGACGACACAATTTCCGCAGTATCGACCAAGAGAAGGCGTAGCATTTACAATTGAAGACAGAATTAATGGATGTATGATAAGAAGTATGAATGGGCAGAAAATGGATTATGATAGTGAAGAAATGCGTGCGCTTACAGCTTACTTAACGTATATTTCAGAAGGAATTGAAACCGGTGAAGATATCCCGTGGCGAATGCAAAATACGATGGAGGAAATTCCAGAGCCTAATGTAACTAGGGGAGAAGGATTATACGAGCAGAAAAATTGCTTGAGTTGTCATGCCACTGATGGTTCTGGAACCGGAGCAACAACTGGACCAGCCTTGTGGGGAGATAATTCATTCAATGATGGAGCGGGTATGAGTAGGCTGAGTAAAATGTCTGGGTATTTAAAAAATAATATGCCTCCAAATGAAGACGACACGTTAACAGATCAAGAAGCAGCTGATATCGCAGCTTTTCTGTTATCAAAAGAGCGACCAGAGTGGAAAGGACATGACTCAGATTGGCCAAATGGAGGAAGACCTTCAGATATCATAGATAAAGAACGTAGAGAAAAAATTCGTGAAGGCACATTTAATTGGGCTGATATTGAGAATGTTATTCCTGCTAAATAA MKRSRIKWLLFMSLGMFLILFTACSNSETESNEKTGKREGELAYNPPSMEELDADDPMTSYIQKGEKIFNETNTVLSERVGNELSCASCHADGGVAPSSSMVGVTTQFPQYRPREGVAFTIEDRINGCMIRSMNGQKMDYDSEEMRALTAYLTYISEGIETGEDIPWRMQNTMEEIPEPNVTRGEGLYEQKNCLSCHATDGSGTGATTGPALWGDNSFNDGAGMSRLSKMSGYLKNNMPPNEDDTLTDQEAADIAAFLLSKERPEWKGHDSDWPNGGRPSDIIDKERREKIREGTFNWADIENVIPAK NA NA NA NA NA AK015_02052 816 hypothetical protein ATGGTATTCATTCTTTGTTTAGCAATAGGGATAATAACAGCGCTGGTTGGTGCTCTGATGGGGTTAGGTGGAGGACTTGTTCTGATTCCAAGCTTACTATGGTTACATCAATTTTTAGATGCATTCGCGTGGGCAACGCCACAAGCCATAGTTGGAATCTCGCTTGTAGCAATGGTATTCACGGCATTATCTTCAACAATCGCTTATGTAAAAACAAAACGAATTGATTATAAAGCAGGCTTGTGGCTTATTTCAGGGAGTATTCCTGGAAGTATTTTTGGCTCTTGGCTCAACAAGTTTATGGATACAGAGCCGTTTTTATTTTATTTTGGAATCGTTATGATCGCAGTGTCCATGTTGTTTTTTATGAAACGAAAGATAACCTCGCAAGTTGAACCTAAAAATCAAAGTTTACGGAGTTTTTATATAGACGGTAAAACGTATTATTATCATTTTTCGGCTTGGATAGCCTTTGTGTTGTCGCTAGTTGTAGGGATTCTTTCCGGCTTGTTTGGTATTGGTGGTGGATCAATCATGGTTCCCGCTATGATCCTTTTATTTGGTATACCTACGCATGTAGCTACAGCGACATCTATGTTTATGATTTTATTTATTAGTCTAATTGGAGCTAGCACGCATATTTCACTTGGTCATTTGGAATGGCAATATGCGCTATTCTTTATTCCAGGAGCATGGATTGGTGGAAAATTAGGTGCCATGATCAATCAACGTTTGACTGGAAAAGCGCTTGAATGGATTTTGCGCATTTTATTAATTATAATTGGTATTCGAATGATTTTCCAAGGGCTGTCATAA MVFILCLAIGIITALVGALMGLGGGLVLIPSLLWLHQFLDAFAWATPQAIVGISLVAMVFTALSSTIAYVKTKRIDYKAGLWLISGSIPGSIFGSWLNKFMDTEPFLFYFGIVMIAVSMLFFMKRKITSQVEPKNQSLRSFYIDGKTYYYHFSAWIAFVLSLVVGILSGLFGIGGGSIMVPAMILLFGIPTHVATATSMFMILFISLIGASTHISLGHLEWQYALFFIPGAWIGGKLGAMINQRLTGKALEWILRILLIIIGIRMIFQGLS NA NA NA NA NA AK015_02053 1398 hypothetical protein ATGGAAGAACAAATCTATTTTTATTATACGAACGATTTACATAGTAAGTTTGATCATTGGTCCCAAGTATCGTATTTTTTAAAGCAATCGAAACGTCGTTGTGAAAGAATAGGCGATTCGTGCTGGACGGTAGATATTGGTGATCATATGGATAGAGTACATCCAATAGCAGAAGCATTTAAGGGGCAAGCAAATACTGCTTTATTAAATGAAGCTGGTTACGATATCGTTACACTTGGTAACAATGAGGGCATTACTATTTCTCATGATGAGCTCCATGCATTATACGGTGAGGCGAAATTTACAGTAGTTTGTGGGAATCTACATAATACGATTGGAAAAGCACCAAGCTGGCTACAGTCTTATAAAATAGTAACTTCAAAACAAGGGGTCAAAATTGCTGTGTTAGGACTCACGGCGCCTTTTAATGCGTATTATGAGTTGCTGGGCTGGCATGTTTCTCCGCCTTTAGAACAGTTGGAGCACTTGTTAGATACTGTGAACCGTGAAGCGAACATCATTATCGTTTTATCTCACTTAGGATATAGTGAGGATTGTGAAATAGCCCGTCGATTTCCAAATGTTGATGTAATTATAGGTGGACATACACATCATTTGTTAAAAAGTGGTGAACGTGTGAATAATAGCCTTCTTACTGCTGCAGGAAAAAATTGTTACTATGTTGGTGAAGTCAGTTTAACATGGGATCATAAGCAAGGTAAATTAAAAAACAAACAGGCACACACGACAAATATTAGCCATTTGCCAAAAGACCTAGATACAGAAGAATTGCTAGTAGCGTATGAAGAGCAAGCAAAAATTAGATTGTCGGAACCAGTTGTTCAATTATCCAGCTGTTTAAAAGTGAATTGGCGCAAAGTAACTCCAATTTTACAAGCTTTAACAGCAGCGCTAAAAGAGCAAACAGATGCTGATTTTGCTATGCTAAATGCGGGTGTATTACTAGAAAGCTTGCCTGAAGGAGTTGTCACATACGGGGACATTCACCGTATTTGTCCACATCCGATAAATACATGTGTCGTTGAATTAACTGGAAGTGAAATAGTAGAAGCTATCCGTTCTTCTTTAACAGAAGAATTTATGGAATTTCAGTTAAAAGGGTTTGGTTTTCGCGGGAAAATGATAGGTAGAATGGCTTTTTCAGGTTTAACACCGCAATTAGAGAAATTAAAAGATGGAGCAGTATTTGTTAAACAAGTATGTCAAACAGAGGGCGTTCCATTACAACCGAATCAAATGTATACATTGGCTACCGCTGATACGTTTACGTTTGGAAGATTAATTCCGGAAATTGCACGTTCGGAAATGAAAAAATACTATTTGCCAGCATTTCTGCGGGATATATTGGCACAAACTTTAAGACGTATGTATGGGTGA MEEQIYFYYTNDLHSKFDHWSQVSYFLKQSKRRCERIGDSCWTVDIGDHMDRVHPIAEAFKGQANTALLNEAGYDIVTLGNNEGITISHDELHALYGEAKFTVVCGNLHNTIGKAPSWLQSYKIVTSKQGVKIAVLGLTAPFNAYYELLGWHVSPPLEQLEHLLDTVNREANIIIVLSHLGYSEDCEIARRFPNVDVIIGGHTHHLLKSGERVNNSLLTAAGKNCYYVGEVSLTWDHKQGKLKNKQAHTTNISHLPKDLDTEELLVAYEEQAKIRLSEPVVQLSSCLKVNWRKVTPILQALTAALKEQTDADFAMLNAGVLLESLPEGVVTYGDIHRICPHPINTCVVELTGSEIVEAIRSSLTEEFMEFQLKGFGFRGKMIGRMAFSGLTPQLEKLKDGAVFVKQVCQTEGVPLQPNQMYTLATADTFTFGRLIPEIARSEMKKYYLPAFLRDILAQTLRRMYG PGPT0013395_1876 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 AK015_02054 774 yunB Sporulation protein YunB ATGAAAAAGCGACCAAGAAGGAAATTACGAACAGACTCCCCTTTGAAAATAATATTATTGTTGACGACAATTGCTTTTGTTCTTTTGACCTCCCTTAGTATTTTAATTGTTGATAAAGGGATAACTCCTCCTTTGATGGAGATAGCAAATCAAAAAACAAGAGAATTTGCTACGAGAACGATTAATGAAGCAGTGAAATCGACTGAAAATATTAGCTTTGATGATTTAATGGAAGTTAATTCGGAAAATGATGTATCTATTGTCGGGTGGAAATCCGCTGCTGTAAATCGTGCGCTTCGAGCGGCTACCAAACGAGCAGAATACTTTTTGTACGGTATGAATAAAGGGCAAACATTGGATACAGAAGATCCCGACATGCCACCACAGGATTATGGAGATACAGCAAATGAGTTAGCGGATAAAGACCCTACAGTTGTTGAGATTCCAATAGGTCAAGCTACTGGGAGCACGATTTTAGCAAATCTAGGACCTAAAATACCGGTTCATTTTGAAATTGTTGGTAGTATTCAATCAGATGTGGAATATATTATGAAAGACTTTGGGATCAATGCTGCTTTAATAGAAATATATATACCAGTGACAGTAAATGCACAAATTGTTGTACCGTTTAGTACGGAGTCAGCAGAAATTCGTACGAAGGTATATGTAGATTCTCGTGTAATTATGGGCGATGTTCCACAATTTTACGGAGGTGATGGTGAAAACGCACCTAACATTTCCGTTCCCAAAGATGACTTGAATCGAGACAATTAA MKKRPRRKLRTDSPLKIILLLTTIAFVLLTSLSILIVDKGITPPLMEIANQKTREFATRTINEAVKSTENISFDDLMEVNSENDVSIVGWKSAAVNRALRAATKRAEYFLYGMNKGQTLDTEDPDMPPQDYGDTANELADKDPTVVEIPIGQATGSTILANLGPKIPVHFEIVGSIQSDVEYIMKDFGINAALIEIYIPVTVNAQIVVPFSTESAEIRTKVYVDSRVIMGDVPQFYGGDGENAPNISVPKDDLNRDN PGPT0025000_58 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025000-yunB-NA NA NA AK015_02056 1557 hypothetical protein ATGGAAGGAACAATTTTTTCACTTATCCCAGCAGTTTTGATGCTGGTACTAGTTCTCTTAACGAGAAATGTTTTATTATCTTTAGGAACTGGAATTGTAGTAGGCGCGCTGCTTATCCATAATTTTTCTGTTTTAGATTCATTCCACGAGATTTGGACACAGTTTTATACCATTTTTGTCTCTGATGGAGCACTAAATACTGGGAATATTCTATTGCTATCATTTTTAATATTATTAGGGATGATGACTGCTTTTTTACAAGCGTCTGGAGGAAGCAAAGCCTTTGGTGATTGGATGATAAAAAAAGTAAAAACTCGCTCTGGAGCTCAGGGAATGAGTGCATTCTTAGGGTTAATTATATTTATAGATGATTATTTTAACAGTTTGGCCGTTGGTCAGATTGCCCGCCCACTTACAGATCGACATAAAGTTTCCCGAGCTAAATTGGCCTATATCATTGACTCGACATCTGCACCTGTCACAGTTATATCTCCTATTTCTAGCTGGGGAGCATATATCATTGGAATTATGGGTGGCTTATTTGCTGCCAACGGAATTACATCATTGGAGCCTTTGGAAGCTTTTGTTAAAATGATCCCCTATAATTTATATGCAATCGCAGCAGTTTTAGCGGTTTTTTTAGTTGCTTATTTAAAAGTAGATATTGGTCCAATGCGAAAACATGAAAAACGTGCAATGGAAACAGGTGAATTAATTGATCCAAAACAGGATAGTGTACCAGGAGATTTAAGTGACACGTTTACAGCACATCAAAATGGGAGAATTTATCATCTTTTATTACCTATTGGTGTACTAATTGTAGCAACAGTGTCTTCAATGATTATTACTGGCGCAATGGCTACAGAAGGTAACATCAATTTACTTACTATATTTGCAAACACTAACGTAAACTTATCCTTGTTTACTGGTGGTGTAATTGCAGTATTAACCTCCTTTTTGTTCCATCTTAGCCAGCAAAAACCGAGAAATTCAAGCTTAAAGATTGTTTTAGAAGGTGCCAAAACAATGATGCCAGCAATTTATATTCTACTCTTGGCTTGGATGATAGGTTCTATTATTGGGGTTTTGGAAACGGGTGAATATTTAGCTGGTATCGTAAACGATGCCTCGTTAAACCCTGCTTTATTGCCATTTTTGTTTTTCATTATTGCTGGTTTTATGGCACTTGCAACAGGAACATCTTGGGGAACGTTTGGAATCATGTTACCGATTGCTGCGGAAGTAACAAGTATTACAGATATGGAAATGCTATTACCATCTATGGCGGCGGTATTAGCTGGTGCTGTCTTTGGAGATCATTGTACACCGATATCGGATACAACTATTCTGTCAGCTACGGGAGCAGGAGCGAATCATATTGATCATGTGATGACACAACTTCCTTACGCTTTAATTGCAGCTTTAGCTGCATCTATTGGTTACATTTTAGTTGGACTTACAAATCAAGTGTTACTGCCTCTACTAGTGTCACTATCCATTATTATTGCCTTTGCTACCATTATTCATTTTGTGAGAAAAACAAAAACGGTCCAATAA MEGTIFSLIPAVLMLVLVLLTRNVLLSLGTGIVVGALLIHNFSVLDSFHEIWTQFYTIFVSDGALNTGNILLLSFLILLGMMTAFLQASGGSKAFGDWMIKKVKTRSGAQGMSAFLGLIIFIDDYFNSLAVGQIARPLTDRHKVSRAKLAYIIDSTSAPVTVISPISSWGAYIIGIMGGLFAANGITSLEPLEAFVKMIPYNLYAIAAVLAVFLVAYLKVDIGPMRKHEKRAMETGELIDPKQDSVPGDLSDTFTAHQNGRIYHLLLPIGVLIVATVSSMIITGAMATEGNINLLTIFANTNVNLSLFTGGVIAVLTSFLFHLSQQKPRNSSLKIVLEGAKTMMPAIYILLLAWMIGSIIGVLETGEYLAGIVNDASLNPALLPFLFFIIAGFMALATGTSWGTFGIMLPIAAEVTSITDMEMLLPSMAAVLAGAVFGDHCTPISDTTILSATGAGANHIDHVMTQLPYALIAALAASIGYILVGLTNQVLLPLLVSLSIIIAFATIIHFVRKTKTVQ PGPT0027895_294 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 AK015_02057 1530 hypothetical protein ATGGAAACACGTTCGCAGTGGGGAACAAGAGCAGGATTTATTCTGGCAGCCATTGGTTCAGCTGTGGGATTAGGGAATATTTGGCGTTTTCCTGCTGAAGCTTATGGCAATGGTGGAGGTGCCTTCTTTATTCCGTATTTATTTGCCTTATTAACAGCTGGTATTCCTATTTTAATCATGGAATTTACGATGGGGCAAAAATACCGCGGTTCTGCTCCATTAACGTTTCGAAAAATGAATAGGAAAACCGAATTTATTGGCTGGTGGGCAGTGCTGGTGGCGTTTGTGATTTCTACTTATTATTCTGTTATTATTGCCTGGGCAATATCTTATGCCTATTTTTCTATTAATTTATCCTGGGGGGCGGATACAGAAGGTTTTTTATTTAATGATTATTTAAAAACAGTTGACCCAGGACAGATAGGGAATTTGGTTCCTGGGGTATTTATTCCACTAATTTTAGTCTGGATTGTTGTCTTGTTTATCTTGTTCCGCGGTGTGAAAAAAGGAATTGAAATTGCGAATCGCATTTTCATTCCTACATTAGCTATTATATTTTTAATTATTGTTATTCGCGCGGTAACATTGGATGGAGCACTCCAAGGTTTGCAAGCCTTTTTCGAACCAGATTTTAGTAGTATTTTTTCAGGTGAAGTATGGGTCGCTGCCTACGGGCAAATATTTTTTAGTCTATCGATCGCATTTGCAATTATGATTACGTATTCAAGTTATTTACCTAAGAATTCAGATATAACAAACAATGCATTTATTACTGGGTTTGGAAACTCTAGTTTTGAATTACTTGCAGGAATAGGCGTCTTTTCGGTACTTGGATTTATGGCAGGTCAATCCGGTGTAGCTGTAGATGAAGTTGTTTCGGATGGTGTTGGTCTTGCATTTGTTGTTTTTCCAGCCATTATTAATGAGTTTCCTGGCTTAAATGGATTGTTCGGTTTCTTGTTTTTTGCATCTTTGGTTTTAGCTGGGTTAACATCGTTAATGTCCATTTCGGAAACATACATTGCTGGTATATCTGATAAGTTTAATATATCCCGTGGAAAAGCAGTCCTGTTTGGAGGGGGGATAGCTGCACTTATTTCGCTCATTTATGCAACACAAGGTGGCTTGTTCTTCCTTGATACGGCAGATTATTTTATTAATCAATTTGGTGTAGCAATGCTTGGTTTAGTAGAAGTTGTATTAATTGCTTGGTTACTTCGCCAAGTGAAAAATTTGAAAAACCATGCGGATGAATTATCTGATATTAAGTTAGGCTGGTGGTTCCCGGTTAGTTTAAATGTTATTACACCAATTGTATTAGGATATATGATGTTCGATATATTACGGTTAAATATATTGAAGTTATTTGATACACCAACAGGTAATTATGAAGGTTATTCTGATACATTTATTTTATTTGGAGGTTGGTCAGTTGCTGCCGCAGCACTAATTATAGGTGTCTTTATGGCTGCTACAAAATGGCGTTCCAAAGAGGCTAAAGGTTATTCGGATCAAAGGGAGGCTAAATAA METRSQWGTRAGFILAAIGSAVGLGNIWRFPAEAYGNGGGAFFIPYLFALLTAGIPILIMEFTMGQKYRGSAPLTFRKMNRKTEFIGWWAVLVAFVISTYYSVIIAWAISYAYFSINLSWGADTEGFLFNDYLKTVDPGQIGNLVPGVFIPLILVWIVVLFILFRGVKKGIEIANRIFIPTLAIIFLIIVIRAVTLDGALQGLQAFFEPDFSSIFSGEVWVAAYGQIFFSLSIAFAIMITYSSYLPKNSDITNNAFITGFGNSSFELLAGIGVFSVLGFMAGQSGVAVDEVVSDGVGLAFVVFPAIINEFPGLNGLFGFLFFASLVLAGLTSLMSISETYIAGISDKFNISRGKAVLFGGGIAALISLIYATQGGLFFLDTADYFINQFGVAMLGLVEVVLIAWLLRQVKNLKNHADELSDIKLGWWFPVSLNVITPIVLGYMMFDILRLNILKLFDTPTGNYEGYSDTFILFGGWSVAAAALIIGVFMAATKWRSKEAKGYSDQREAK PGPT0013950_355 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308 NA NA AK015_02058 105 hypothetical protein ATGAGTTCCAGTGCTATCTTTGTCATGATCTTAGGAATGGTAATTATTTGGGGGGGACTTGCAGCAAGTATTACTTATGCAGTAAGAAAATCAAGACAAAAATAA MSSSAIFVMILGMVIIWGGLAASITYAVRKSRQK NA NA NA NA NA AK015_02059 984 lytH COG0739 L-Ala--D-Glu endopeptidase GTGAAAAAATTGTCTATCAACCGTATTGTTATAACGTTTTTATTATTTACACTTTCCATTATGCTTACGCCTACGCTTGCAAAAGCAGATAGTGATTCTATTTATAAAAAAAGAATGGCATTATTTAAAAAAACAGAAGCAGTAACACAAATTCCATGGTATTATTTTGCTGCCATTGATAACTATGAACGAAACGCAAAAAAAGATGCTGATGATGAACAAGTGATTTCTATTGAAATGCCTACAGAAGCTTGGTTTGGCCTCGGTAATGCAGCAATGATTAATGATGAACGACTCATACGTTTTTTTAATGGTTATGGAAAAGATGGCAACGGCGATCAAATAGCTGACCCGACCAATCCTGAAGATGTTCTCTATACAATGGGAAACTATATTTTGCAGCACGGACAAACAAAAGATGATATTAAGATTGCTCTATGGAATTACTATAATCGAGATTTAACTGTCCAAACCATTATGAATACAGCTAAAGTCTTTAAAAAATTTCAAGACATTGAGTTACTTCAACGAGATTTCCCTGTGTCTACATCTTATAATTATAGTTATCGCAGTACATGGGGAGATCGAAGAGGGTTTGGTGGCTTAAGAATTCATGAGGGGACAGATATTTTTGCCGATTATGGTACTCCTGTGAAGTCAACCACTTATGGGGTAGTGGAAATGATGGGTTGGAACTTATACGGTGGTTGGCGCATTGGAATAAGAGATATATATAATATTTACCATTACTATGGTCACATGAGTGGCTATGAAGATGATATTGAAGTAGGGAAAGTTGTGAAGCCAGGTGATGTGCTTGGAGGAGTCGGTTCTACTGGTTATGGGCCACCTGGTACTTCGGGAAAATTCCCACCACATTTACACTATGGTATGTATAAAGATAATGGGTATAGCGAATGGTCTTTTGATCCATATCCGTACTTGAAAAAGTGGGAACGCATGACAAAACAAAAGGATAAATGA MKKLSINRIVITFLLFTLSIMLTPTLAKADSDSIYKKRMALFKKTEAVTQIPWYYFAAIDNYERNAKKDADDEQVISIEMPTEAWFGLGNAAMINDERLIRFFNGYGKDGNGDQIADPTNPEDVLYTMGNYILQHGQTKDDIKIALWNYYNRDLTVQTIMNTAKVFKKFQDIELLQRDFPVSTSYNYSYRSTWGDRRGFGGLRIHEGTDIFADYGTPVKSTTYGVVEMMGWNLYGGWRIGIRDIYNIYHYYGHMSGYEDDIEVGKVVKPGDVLGGVGSTGYGPPGTSGKFPPHLHYGMYKDNGYSEWSFDPYPYLKKWERMTKQKDK PGPT0024030_273 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024030-lytH-K21472 NA NA AK015_02060 534 hypothetical protein ATGAAAAGGATAATTCCAATCAGTCTATCCGTTCTCTTTTTAGCCACTGGTTGTATGGATAATAATACTGCCACAAATGAAAGAGAACGTATACAAAACCAACTTGACCCAAATAAAGAAGCTCCTGCAGATAATGACTCAGATAACAGACTGGGCTATGTTCGTTATTCAAAAGAACAAATTGATAATGATAAAGAAAAACAGCACTCCATGCGTATTGACCGTACAAAGATGGCTGATATGATTACTCGTAACATGTTAAGGTCAGATGCTTTTAAGGAAGCTGCTACGTTAGTAACGGATGAAGAAGTACTCATCGCCTATGAAAAGGCAGATGATTTCGATAAAGAAAGAGCATCACAAATGGCAGAGAAAACTGCCGCTTCCATCTTGCCAAGATACTTTGATATCTATTCTACTGATAACACAAACTTAATTAATGACATTCAAAGCTTGCATAATTCAACAACTTCTGAAGACGACTACGACAACACCATTAATAACATCATTAAAGAAATGAAAAATTCAAAATAA MKRIIPISLSVLFLATGCMDNNTATNERERIQNQLDPNKEAPADNDSDNRLGYVRYSKEQIDNDKEKQHSMRIDRTKMADMITRNMLRSDAFKEAATLVTDEEVLIAYEKADDFDKERASQMAEKTAASILPRYFDIYSTDNTNLINDIQSLHNSTTSEDDYDNTINNIIKEMKNSK NA NA NA NA NA AK015_02061 276 yutD COG4470 putative protein YutD ATGGTTGAACTTTTTGGAAAAACGTATGAGTTAATTGAAGATCATAAAGCTGGGTTTCAGGAAAGTGTTGTAAAGGAGAGGTATTCTGATATTTTAGCTAAATATGATTATATTGTTGGTGATTGGGGATATGATCAATTACGGCTAAAAGGTTTTTATGATAATAGGCACGTGAAAGTTCCAGTAGATACTAAAATTGATACATTGGATGATTACCTATATGAGTATTGTAATTTTGGTTGCGCTTATTTTGTATTAAAAAAAATGGAGCAGTAG MVELFGKTYELIEDHKAGFQESVVKERYSDILAKYDYIVGDWGYDQLRLKGFYDNRHVKVPVDTKIDTLDDYLYEYCNFGCAYFVLKKMEQ NA NA NA NA NA AK015_02062 255 hypothetical protein GTGGTTAAGAAAAAAGACTATAGTGACTTTTCAAATGTAAAACATTCCCATGATCGTTTAATACCCGAAGAATTTCCAGAAGGAGCTTTTGGCTCTTCTATTCATAGCGATACAGCTGTCGAAGGGAAATCAACTTCATGGGAAGAAGGACAGCATAGAGATAGCGCCTTTGTTTATCCAGATCGCAAACAGCATGAAAACGTTCCCAGAAGGGCGCCAGGCTCTCATATTATTCATGATGAAAAAGAGCAGTAG MVKKKDYSDFSNVKHSHDRLIPEEFPEGAFGSSIHSDTAVEGKSTSWEEGQHRDSAFVYPDRKQHENVPRRAPGSHIIHDEKEQ NA NA NA NA NA AK015_02063 270 hypothetical protein ATGGGCAAAAATTATGAAGTAATTAAGGATGAGACAGTAGGAAAAAATGTGCGGTATGTCAGCTTTATGGGGCAGTTACAACGTTATGATTTAGCTATTTTAGATGATCATGAAGACGTAAACAAAAAGCTAATTATAAACATGCGAAAAAATCGATGCTTATCCATTGATAAACAAGATTTGCACAATAAAGGTGTGATCGAACATACATTTAACGAAGCCAACATGGAGGCGGATGAAATTCGTCACTTTTTACAAGATATTCTTTGA MGKNYEVIKDETVGKNVRYVSFMGQLQRYDLAILDDHEDVNKKLIINMRKNRCLSIDKQDLHNKGVIEHTFNEANMEADEIRHFLQDIL NA NA NA NA NA AK015_02064 453 hypothetical protein ATGTATTTTGTTGATCGAGAGAAGCTGGAGTCGATTTTACAGTATATGGATCAGTTAAATGGTATATTGGAAATGGACCGTCTACACTCTTTAGAAGAAAAGTTAAGCTTGGAACGAGCAGTACATGTTTACATTGAGTCTGTACTTGATGTAGGGAATATGATGATTGACGGATTTATCATGCGTGATCCAGGTAGTTACCACGATATTATTGACATTTTATTGGACGAAAAGGTACTGCCATCTGAACAGGAGCGTGCATATAAAGAATTAATTACGCTAAGGAGAATGTTAATTTCCGACTATGCACAAGTGGATCATAAAAAAATGATTCAAGTAATGCAAACCTATCTTAAAGATTACGAACAGTTTGCAACATATATTCGTAAATATATTAACGAAGAGCATCAGCAAGTTACTCACGCGTTTTCAAATGATACTTCAAAACAATAA MYFVDREKLESILQYMDQLNGILEMDRLHSLEEKLSLERAVHVYIESVLDVGNMMIDGFIMRDPGSYHDIIDILLDEKVLPSEQERAYKELITLRRMLISDYAQVDHKKMIQVMQTYLKDYEQFATYIRKYINEEHQQVTHAFSNDTSKQ NA NA NA NA NA AK015_02065 777 yutF COG0647 Acid sugar phosphatase ATGACTAAAGCATATCAAGGCTATTTAATCGATTTAGACGGAACGATGTATCAAGGAGATGAAGCTATCCCGTTTGCGTCTGATTTTGTAAAAGCATTACAGGAAAAACAACTCCCTTATGTTTTTGTAACGAATAATTCTTCCAAAACACAGCAAGATGTAGCGATGAAACTTAAAAAATTAAATATTCCAGCAGAACCTAAGCAAATTGTTACTACTAGTTTAGCAACTGCTTCTTATATTACAGAAAATTACGGACAATCTCGCTGTTACGTTATTGGTGAAGAAGGGATACATAAAGCATTACAAGAAGAAGGGCATACCATTACAGAAACGGAAAATTGCGACGTCGTTGTTATAGGAATTGACCGTAATATTACGTACGAAAAGCTGGCTAAAGCTAGCATAGCCGTTCGTAACGGTGCAACATTCATTTCGACAAATGGCGACAAGTCTATTCCTAACGAACGTGGTTTATTACCAGGAAATGGGTCCTTAACGGCTGTTATTTCTATTTGTACTGGCGTTGACCCTGTTTTCATCGGCAAGCCTGAAGCAGTTATTATGGAAGAAGCATTGCACGTGCTCGGTTTAAAAGCAGATGAGACATTAATGGTTGGAGATAATTATGCAACAGACATTCACGCGGGCATTCAAGCAGGTATAGATACCTTAATGGTTTTTACAGGGGTGACGCCATTTTTAGAGTATGAACAACTACCTGTTAAACCTACTTATTATGTACACAATCTCAAAGAATGGTTGGAAAAACTATAA MTKAYQGYLIDLDGTMYQGDEAIPFASDFVKALQEKQLPYVFVTNNSSKTQQDVAMKLKKLNIPAEPKQIVTTSLATASYITENYGQSRCYVIGEEGIHKALQEEGHTITETENCDVVVIGIDRNITYEKLAKASIAVRNGATFISTNGDKSIPNERGLLPGNGSLTAVISICTGVDPVFIGKPEAVIMEEALHVLGLKADETLMVGDNYATDIHAGIQAGIDTLMVFTGVTPFLEYEQLPVKPTYYVHNLKEWLEKL PGPT0005420_695 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 AK015_02066 513 ypjQ COG1267 putative protein YpjQ ATGGATGCAAATACAGATCGAAGTGAGTTAGAAAAGAAAGCTAGACAGTGGTTAACGGAACGAGGTGTATCTTTAGATGATATTGCTGAACTGGTATATTACTTACAATCTAAATATCACGAAAATTTAACACTTGATGTATGTAGGCATAATGTTGACCGCGTACTTAAAAAACGAGAAGTACAAAATGCCATTTTAACTGGAATTCAATTAGATGTTCTAGCAGAGAAAAAACAGTTGCAACAGCCTTTACAAAAGACCATTGATACAGATGAAAGTTTATATGGCGTTGACGAAGTAATTGCATTATCTATTGTCAATGTTTATGGTTCCATTGGATTTACTAATTATGGGTATATTGATAAACAAAAGCCTGGTATCTTAAAAAAATTAAATGATAAATCTACTGGAGAATGCCATACTTTTTTAGATGATATTGTAGGGGCTATTGCAGCAGCTGCCTCCAGCCGTTTGGCGCATGGAACAGGTGAAGATATACTGCTTGATGATTAA MDANTDRSELEKKARQWLTERGVSLDDIAELVYYLQSKYHENLTLDVCRHNVDRVLKKREVQNAILTGIQLDVLAEKKQLQQPLQKTIDTDESLYGVDEVIALSIVNVYGSIGFTNYGYIDKQKPGILKKLNDKSTGECHTFLDDIVGAIAAAASSRLAHGTGEDILLDD PGPT0007710_785 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095 NA NA AK015_02067 972 hypothetical protein GTGCAGGTTAGTGATTGGCTTTATGAAAACTATAAAATTCATCCAGAAACGAAACGATGGATTGCGGGTAAGGAATGTTATCAAGCGAGTCAATATGTTTATTTTATCACTTCTACCGATAACAATGAAATTATACATATGGAACAAGCGGTAGTTGCTTACTATTTAGCAGAAAACGGCTATTCACATATGGCTATTCCAATCCCTAATCAACAAGGGGATTGGCTGACGCCTTACGAAGATGTAAACTATATGGTCGTTAAAGGGCTTGATTCAAGAACTGATTCCCAAGCAACAAACGGTTCTTTATTAGCGCAATTTCATCAAATTGGCAGCCTGTATCATTATGAACCACAAGCAATTTCCAGTTATGGGCAGTGGAAGCAATTATGGATTGATAAATTAAGCTGGATAGAAAGCAATGTTGAAAAAGCAGCTCAAGCAGGAGCAACGAATTATTATCGTTTAGTTATGGATATCCTCCCGTATCTTATTGGCATTAGTGAAAATGCAATTCAATATATTGGTGAAAGTGAGCAAGAATTACGTTATCATGAATCAGATCAAGGCACGATAGCCTTTCGTCGGTATATGAATCAATTGCAACAACCTCTAATGTGGCCGATGGAATTAGTATATGACCATCCAGCACGGGATATTGCTGAGTATTTACGACAACTATTTCTTCAACCTCATCCAGATGAAGCTGTTATCCATTTTTTGCAAGAATATCAAAAAAATCGTCCTGTTTCTATTTTTTTCTGGAGGTTAGTGTATGCAAGATTGTTGTTTCCAATCCATATTTACGATTGTTTAGAACAAAATTTATCTACAATTCAGGATAAAGGGTACGAACAATTAAAAGATTTAGTACAGCTTCAAGATAGGTATGAAGCAAATGTTAGTCAGTTTTTTGAGTGGGCAGACCTTGACTGTGATTTTTTACAGGTACCTATGCTACACTGGTTGTGA MQVSDWLYENYKIHPETKRWIAGKECYQASQYVYFITSTDNNEIIHMEQAVVAYYLAENGYSHMAIPIPNQQGDWLTPYEDVNYMVVKGLDSRTDSQATNGSLLAQFHQIGSLYHYEPQAISSYGQWKQLWIDKLSWIESNVEKAAQAGATNYYRLVMDILPYLIGISENAIQYIGESEQELRYHESDQGTIAFRRYMNQLQQPLMWPMELVYDHPARDIAEYLRQLFLQPHPDEAVIHFLQEYQKNRPVSIFFWRLVYARLLFPIHIYDCLEQNLSTIQDKGYEQLKDLVQLQDRYEANVSQFFEWADLDCDFLQVPMLHWL PGPT0025265_73 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025265-yutH-NA NA NA AK015_02068 972 ghrB_1 COG1052 Glyoxylate/hydroxypyruvate reductase B GTGAGAAAGCCATATGTATACGTAACCAGAAAAATTCCGGCTGCATTGTTAGCGCCATATAAGGATGATTTTACCTTTAACTATTGGGAAAGAGAAGAAACTTCGGTGCCTAGAGAAGAATTAACTAAACAAATAAAGAAAGCTGATGCTCTTATTTGCATGGTGGGCGATGCTATTGATAAATCCACATTAGAAGAAGCGAATCAACTCAAAATCATCGCTAATTTAGCTGTAGGATACGATAACATTGATTTAGAAGCGGCTAAGTCAAGAGGCATCTTTGTGACCAACACACCGGATGTTTTGACGGAGACAACTGCCGATTTAGGGTTTGCTTTACTATTAGCTACCGCAAGACGGTTAATGGAGGCTAACAACTATATTAGGCAAGGGAAATGGAAGGAATGGTCCCCTTATTTATTAGCCGGTGCTGATGTACATCAAAAAACAATTGGTATTGTCGGAATGGGAAGGATTGGCAGAGCATTAGCTAGAAGAGCGCAAGGTTTTGGAATGAAAATTATGTACCACAACCGTTCTAGAAATCTGGTAGCAGAAAGCGAGTTAGGAGCGACATATGTTGGCTTTTCTGATTTATTGAAAACGGCCGATTTTGTTGTGTCTGTTGTACCATTATCAAGTGAAACGGAAAATATGTTCGACAGTCATGCTTTTCAATTAATGAAAAAAGATGCTCTGTTTATTAATATTTCTAGAGGGGGCGTGGTGAATGAAGAAGCATTATTTCAAGCTCTGCAAAATGGAGAGATTCAAGCGGCTGGCTTAGACGTTTTTAAAGAGGAACCAATTTCAAAAGATCATCCTCTGTTACAATTACCAAATGTTGTTGCATTGCCACATATCGGTTCAGCTAGTGTGGAAACGAGAACAAGCATGTGGAACCTCAGCTTAGAAAATGTTGCTGCTGTACTGCATGGGAGTGCCCCTAAAACGCCTGTATCTTTGCAATAA MRKPYVYVTRKIPAALLAPYKDDFTFNYWEREETSVPREELTKQIKKADALICMVGDAIDKSTLEEANQLKIIANLAVGYDNIDLEAAKSRGIFVTNTPDVLTETTADLGFALLLATARRLMEANNYIRQGKWKEWSPYLLAGADVHQKTIGIVGMGRIGRALARRAQGFGMKIMYHNRSRNLVAESELGATYVGFSDLLKTADFVVSVVPLSSETENMFDSHAFQLMKKDALFINISRGGVVNEEALFQALQNGEIQAAGLDVFKEEPISKDHPLLQLPNVVALPHIGSASVETRTSMWNLSLENVAAVLHGSAPKTPVSLQ PGPT0019780_1002 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_OXALIC_ACID_DERIVATE_UTILIZATION,PGPT0019780-gyaR-K00015 NA NA AK015_02069 225 nfuA Fe/S biogenesis protein NfuA ATGCATGAACAAGTACAGGAAGTATTAAATAAATTACGTCCATTCTTGCTGCGTGATGGTGGCGATGTGGAACTAATTGATGTTGATGAAAATGGCATTGTGCTTCTTCGTCTCATGGGTGCTTGCGGAAATTGCCCTAGCTCAACCATTACTTTAAAAGCAGGAATTGAACGGGCACTTATGGCGGAAGTTCCCGGTGTCACTGAGATCGAACAAGTATTTTAA MHEQVQEVLNKLRPFLLRDGGDVELIDVDENGIVLLRLMGACGNCPSSTITLKAGIERALMAEVPGVTEIEQVF PGPT0012225_450 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567 NA NA AK015_02070 333 hypothetical protein ATGAGTAAAATCCATATTACAGTTTACGGAGCAGAGCAGATTTGTGCTAGTTGTGTTGGTGCTCCCAGCTCTAAAGATACGTATGAATGGCTACAAGCAGCATTAGGGCGTAAATATGATACAGAGGTTATCACATATGAGTATGTAGATATTAAAAATCCGCCACCTGTAGAGAAACATCAACAATTTGCGGAACGTATTATAGAGAAAGATTTATTTTATCCCATCGTTTTTATTAATGATGAGTTGGTAGCTGAAGGAATCCCAAGGTTAAAAACAATTTACCAAGCGTTGGAACAATATGAATTGCCTTTACAACCAGCAAAGAAATGA MSKIHITVYGAEQICASCVGAPSSKDTYEWLQAALGRKYDTEVITYEYVDIKNPPPVEKHQQFAERIIEKDLFYPIVFINDELVAEGIPRLKTIYQALEQYELPLQPAKK NA NA NA NA NA AK015_02071 870 dapF COG0253 Diaminopimelate epimerase ATGCAAATACCATTTATTAAAATGCATGGCTTAGGAAATAATTATATATACCTTGATTTTTTTCAACATACTGTAGCGGAAGAAAAATTATCAGAATTAGCAAAAACTATCTCCAATGTGCATACAGGAATTGGTTCGGATGGGCTAATTATTATTCATCCAAGTGAAGTAGCTGATGTTGGTATGCGTATATTTAATAAGGATGGTTCTGAAGGGAAAAGCTGTGGAAATGGTTTAAGATGTACAGCGAAGTATGCGTATGAACAAGGAATAGTAGCAGAAAAGCAATTTCAAATTGAAACGAAAGCAAATAACGTTGTAGCTGAAGTACAAGTGACAAATGGGAAAGTTGACCAAGTTACGATAAATATGGGGAAACCACATCTAAAGCGTGAACTTATTCCCATGCAAGGGGAACCAAAAACAAAAGTCATTGCGGAGCAGTTTGAAATTCAAGGAGAAGTGTTAGAGTTAACCGCACTTTCTATGGGGAACCCACATGCGGTATTTATAGTAGAGCAAGTCGCTATGAAGCAAGTGTCTCATCTTGGCCCATTAGTAGAAAAGGATCAGCGCTTTCCGCAAGGGGTCAATGTAGAATTTATTGAAATCCTTTCTCCAAACGAAATAAATTTCAGTGTCTGGGAAAGAGGTTCTGGTATAACACAAGCTTGTGGCACAGGAGCATGTGCTGCTGTTGTGGCAGGGATATTGAATGATCGTTTAGAACGAAATGAATCTGTGAAAGTTCATTTATCAGGAGGAGATTTAGATATTACGTGGGATAATGACGGTGATGTTTGGATGACAGGTGGCGCTGAGTTAATTGCTACAGGCTTTTATGAAGCAGCACATTTATCCAAGGTATAA MQIPFIKMHGLGNNYIYLDFFQHTVAEEKLSELAKTISNVHTGIGSDGLIIIHPSEVADVGMRIFNKDGSEGKSCGNGLRCTAKYAYEQGIVAEKQFQIETKANNVVAEVQVTNGKVDQVTINMGKPHLKRELIPMQGEPKTKVIAEQFEIQGEVLELTALSMGNPHAVFIVEQVAMKQVSHLGPLVEKDQRFPQGVNVEFIEILSPNEINFSVWERGSGITQACGTGACAAVVAGILNDRLERNESVKVHLSGGDLDITWDNDGDVWMTGGAELIATGFYEAAHLSKV PGPT0007230_1377 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778 NA NA AK015_02072 357 COG0316 Protein ATGACATTGACAATTACAGACAATGCTAAACAGCAAATTGTAAAGATGATGAAAGAAGAATCCGAAGGAGTCTATCTTCGCTTTGGTGTGCAAGGCGGAGGCTGTAGCGGTCTATCTTATGCCCTTGGTTTTGAATATGATATTAATAATGAGTTAGATACAACAGAAGAAATAAATGGTATTTCCGTGGTGATTAATAGTCAAGATATACCGATCATAGAAGGCACAACGATAGATTTTAAACAGAATATGATGGGTGGGGGCTTCAGTATAGATAACCCAAATGCTATCGTATCTTGTGGTTGTGGTTCTTCATTTAGAACAAAAGATAAGGTTGGTACCCCTGGTGATTGTTAA MTLTITDNAKQQIVKMMKEESEGVYLRFGVQGGGCSGLSYALGFEYDINNELDTTEEINGISVVINSQDIPIIEGTTIDFKQNMMGGGFSIDNPNAIVSCGCGSSFRTKDKVGTPGDC NA NA NA NA NA AK015_02073 987 yumC_2 COG0492 Ferredoxin--NADP reductase 2 ATGACAAATGATATATACGATGTAACCATCATTGGTGCAGGGCCTGTAGGATTATTTACCGCTTTTTACGGCGGAATGCGCCAAGCAACTGTAAAAATCATTGAAAGTTTACCACATACTGGAGGACAGTTAACTGCTCTTTATCCAGAAAAATATATATATGATATTGCTGGCTTCCCCAAAATAAGAGCTCAAGAGCTCATTGATAACTTAGAAGAACAAGCTAACTTATTTCATCCTGAAATTGTATTGGAGCAAGCAATTGAACAAGTGGAAAGACTTGATGATGGAACATTAAAATTAACTTCAGATAAAAATGATATTCATTACACAAAGACTATGATTATCACTGCTGGTAATGGTGCATTTCAGCCGCGTAAACTTAATATAGATCATTGTGAACAATATGAGGGGATTAACTTACATTATCATGTCAAAGATATGAATCAATATAAAGACCAGGATGTGCTATTACTTGGTGGGGGAGATTCTGCTGTTGACTGGGCGTTAATGCTCGAACCGATCGCTAAGAAAGTCACCCTCGCTCATCGCCGTGATAAATTTCGCGCCCATGAACATAGTGTTGAAAAATTACACGCTTCTAACGTTGATATTCTGACCCCTTTTGTTCCAAGTAGCATTGTTGCAGACGATCGAATTAACCAAGTTATTTTGGAAGAGGTTAAAGGAGAACGCAAGGTGGAATTAGAAGTGGATGCAGTGTTATGTAATTATGGCTTTATTTCTTCACTTGGACCCATTAAAAACTGGGGACTTGAGATAGAGAAAAATAGTATTGTAGTAAATTCGAAAATGGAGACGAATATCCCTGGCATTTATGCAGCGGGAGATATTTGCACTTACGATGGGAAAGTGAACTTAATTGCCACTGGATTTGGAGAAGGACCAACTGCTGTTAATAATGCTAAACATTACATTGATCCTAAAGCTAGAATTCAGCCAAAACATTCAACAAGCATGTTTTAA MTNDIYDVTIIGAGPVGLFTAFYGGMRQATVKIIESLPHTGGQLTALYPEKYIYDIAGFPKIRAQELIDNLEEQANLFHPEIVLEQAIEQVERLDDGTLKLTSDKNDIHYTKTMIITAGNGAFQPRKLNIDHCEQYEGINLHYHVKDMNQYKDQDVLLLGGGDSAVDWALMLEPIAKKVTLAHRRDKFRAHEHSVEKLHASNVDILTPFVPSSIVADDRINQVILEEVKGERKVELEVDAVLCNYGFISSLGPIKNWGLEIEKNSIVVNSKMETNIPGIYAAGDICTYDGKVNLIATGFGEGPTAVNNAKHYIDPKARIQPKHSTSMF PGPT0013060_2130 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK015_02074 1236 COG1252 NADH dehydrogenase-like protein GTGATGAATATGGAAAAAAAAAGCATAGTTATTCTAGGTGCTGGTTATGGTGGAATGATGACTGTGACCAAAATACAAAAATCTTTACGCATTGAAGAGGCAGAAATAACTTTAGTAAACATAAATGAATATCATTATCAAACAACATGGCTTCACCAGAATGCTGTTGGAACAGTGAGTGATGATCGAACGAAAATACCTATTAAAGATGTTATTAATCCCCAAAAGGTAACGTTTATTCAAGATAAGGTTTTATCAATTCAACCAAAAGATAAAAAAGTGATTTTAGAAAAAAGAATACTTCATTACGATGTACTAGTTATTGCTCTTGGATTTGAAGTAGAAACTTTTGATGTACCTGGCTTAGAAGCATATGCTTATACGATAAATAATATAGAGAAAGCCCGTGAACTTCGGAGACACATTGAACATAATTTTTCCTTGTTTGTAAAGGAAGAAAAGAAAAACCTTTCACGATTAACCTTTGTTATTGGTGGCGGCGGTTTTACAGGCGTAGAGTTTTTAGGTGAGCTTGCAGATCGTGTATCCGAACTTTGTAAAAAATATAACGTTGACAAGCAATTGGTGCGAATCATTAATATTGAAGCTACTCCGACAATTTTACCTGGATTTGATGAACAGTTAGTAGAATATGCTATGAACTCTCTTGAAGCACGTGGTGTTGAATTTATTACTGGGGCAACCTTTAAAGAATGTACCCCAACAAGTGTGTTATTTGAGAAATATGGTATGCAAACAAAGATATCTACGCATACGATAGTATGGGCTGCTGGAGTAAAGGCGAATTCAATTATAAAAGAATCAGATTTCACAACAAATAAAGGTAAAATAGAAGTGAATAATGATATGCGATCACCAGAATATGACAATGTATTTGTCATCGGAGATTGTGCATTAATTATGGATTTTGAAAAAGGCAAGCCATACCCACCTACTGCTCAAATAGCTATTCAAGAATCAGAAGCTGTAGCTTATAATATAAGAGCATATATACGAAATGAAGAAATGGAAGGCTTTAAACCGAATATTCTCGGTACTGTTGCTTCTTTAGGAAATCGTGATGCGATTGGAATTATATTTAAGAATAAGAAGGTTTTAGGTTGGAAAGCTACAATATTGAAAAAAATAATTGATAACCGTTATTTGTTTAAGCTTGGTGGGCTCCGTCTATTGGTAAAAAAAGGAAAATTCGCTATATTTCCGCGTGTTAAATAG MMNMEKKSIVILGAGYGGMMTVTKIQKSLRIEEAEITLVNINEYHYQTTWLHQNAVGTVSDDRTKIPIKDVINPQKVTFIQDKVLSIQPKDKKVILEKRILHYDVLVIALGFEVETFDVPGLEAYAYTINNIEKARELRRHIEHNFSLFVKEEKKNLSRLTFVIGGGGFTGVEFLGELADRVSELCKKYNVDKQLVRIINIEATPTILPGFDEQLVEYAMNSLEARGVEFITGATFKECTPTSVLFEKYGMQTKISTHTIVWAAGVKANSIIKESDFTTNKGKIEVNNDMRSPEYDNVFVIGDCALIMDFEKGKPYPPTAQIAIQESEAVAYNIRAYIRNEEMEGFKPNILGTVASLGNRDAIGIIFKNKKVLGWKATILKKIIDNRYLFKLGGLRLLVKKGKFAIFPRVK PGPT0004020_4103 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 AK015_02075 312 hypothetical protein TTGATTCAATTAGTAGTGTCTATCTTATTATATTTCGTTATATTCTTTGGTATCGCTTTTATTTTAAATATGCTTCTTCGAACGACTTGGTTAATGGCGTTTATTTATCCATTTGTCGTTATTATTATTGTGGATAATACTGCAACATGGAATTATTTCACAAATATGAGTGAGACGTTTACCAAGTTGATTGCTCGACTCACAGAACTTACTGCAGTAGATATTTCTATTTTGGCTGCTGGTTTTGTAGGGACAATGGTGTCCGGTCTTGTGATACGTTTACTTAGAAAGAGTGGATATCAAATGTTTTAA MIQLVVSILLYFVIFFGIAFILNMLLRTTWLMAFIYPFVVIIIVDNTATWNYFTNMSETFTKLIARLTELTAVDISILAAGFVGTMVSGLVIRLLRKSGYQMF NA NA NA NA NA AK015_02076 699 hypothetical protein ATGAAAATCAAAAAAATCATTAAAAAAACAGTTTTAAGTTTCATGTTTGTGACTATCATGCTCCTGGGAATAGTGGGTTTAAAAGAAGGAGCTTCTGCTAAACTCTGGCCATATACTCCTTCTTCTATAGACAGATTAGCGGACAATATTGATACAATGAAAGGCAAAGATGTTTATACGAGACAAACAAATTTGAAACAAAAAGAGCTTAATCATGTGAAAGAAGTAGACCGTCAAATATCAAGCAATCGAATGGATCATGTGAAAACGTTAGAAGAAGCTGTAAATTATGAACAATATCCAAGCAAAACAGTGATTGCTACTGGGTACACGGCGGGTGTAGAATCTACCGGTAAAACTCCAGACCACCCAGAATATGGAATTACCTATTCGGGAGTCCAAGTGAAAAGAGACTTGTATTCTACTATTGCTGCAGATCTATCTGTTTATCCAATAGGAACCATTTTGTTTATACCAAATTATGGATTTGGTGTCGTAGCTGATAAAGGTAGTGCTATTACAGGAAACAAAATTGACTTGTATTATGAGACGGTAGAAGATGTTTACGATAAATGGGGTAAACAGCAAGTCGATGTGTATATGATCGAAAAGGGAAATGGAGAATTAACAGAAAAACAGCTGCAACAATTAAATGAGAATGAGGCATTACAGGTGTTCAGGCAGGACATAACAGGTTAA MKIKKIIKKTVLSFMFVTIMLLGIVGLKEGASAKLWPYTPSSIDRLADNIDTMKGKDVYTRQTNLKQKELNHVKEVDRQISSNRMDHVKTLEEAVNYEQYPSKTVIATGYTAGVESTGKTPDHPEYGITYSGVQVKRDLYSTIAADLSVYPIGTILFIPNYGFGVVADKGSAITGNKIDLYYETVEDVYDKWGKQQVDVYMIEKGNGELTEKQLQQLNENEALQVFRQDITG NA NA NA NA NA AK015_02077 477 hypothetical protein ATGGAATTATTTTTAAATTATCCCTTGTGGGCAGCATTAACAGCTATTTTTTTTGCGCAAGTAATTAAAATCCCAATCGGGCTAGTAGTTACAAAGGAGCTAAATCCTAGTTTAGCATTTAGCACTGGCGGGATGCCAAGTAGCCATTCTGCAGCGGTGGCGGCATTAACTACCAGCGTAGGTATTATAGAAGGTGTAACGTCTACCATGTTCGCTATCTCTTGTGTATTCAGTGTCATCATTATGTTTGATGCTACTGGCGTTAGAAGACAAGCGGGGGAACAAGCAATTGTGTTGAACAAACTAATTCGCGATTTTCAAGTTTTTATTGATGGAGCAAAAGGCTGGCCAAAAAAAGAAGAAGATGAGAAAAGACAGGAATTAAAAGAGTTGCTAGGTCACCAACCAATCGAAGTGTTTTTTGGCGGTCTTGCTGGAATTATCATTGCTTTTACAGTGTACCATTTATTTTACTGA MELFLNYPLWAALTAIFFAQVIKIPIGLVVTKELNPSLAFSTGGMPSSHSAAVAALTTSVGIIEGVTSTMFAISCVFSVIIMFDATGVRRQAGEQAIVLNKLIRDFQVFIDGAKGWPKKEEDEKRQELKELLGHQPIEVFFGGLAGIIIAFTVYHLFY PGPT0024535_802 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 AK015_02078 600 bioY_1 COG1268 Biotin transporter BioY ATGAATCAAATGAGAACGATAGACCTTACATATGGAGCGGTTTTTGTTGTACTAATGGCAATTGGAGCTAATATTACCGTATGGTTCCCGATGCTAACGATACCCATTGGCGGAGCTGATGTTCCACTTTCCTTGCAAACATTTTTTGCAGTTCTAGCAGGATTAATGTTAGGTCGTAAACTTGGAAGTTTTTCAATGCTCGCATATATGCTTGTGGGGATAGCAGGTGTTCCTGTATTTGCTGGGCTATCAGCCGGACCCCGAATGTTCATCAGTCCAACTGGCGGATTTATTATATCATTTATTTTTGTAGCTCTAGTTACTGGTTGGATTGTAAATCATCCTAAACAAAATTATTCCTTTGTTCGTTATTGTTCAGCAGCGCTTTTGGGAACGGCAATAAATTATATAATTGGCGTGACATATATGTATGCTGCTTCCAATATGTGGTTAGACTTTCCTCTTAGCTACACACTAGCCTGGAGCGGAATGATACCATTTCTAATTAAAGATATTGCTTTTGCCGGGTTAGCGGCTTTATTTATGGTCCGTGTCATTAAAAGAATTCCTGTCTTAAGTCGCGCTAACCTAGGTGGCTAA MNQMRTIDLTYGAVFVVLMAIGANITVWFPMLTIPIGGADVPLSLQTFFAVLAGLMLGRKLGSFSMLAYMLVGIAGVPVFAGLSAGPRMFISPTGGFIISFIFVALVTGWIVNHPKQNYSFVRYCSAALLGTAINYIIGVTYMYAASNMWLDFPLSYTLAWSGMIPFLIKDIAFAGLAALFMVRVIKRIPVLSRANLGG PGPT0022050_576 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523 NA NA AK015_02079 321 hypothetical protein ATGAGTTTAAAAATTGTTTATCCAATTTGTTGTGGAATTGATGTCCACAAAACTTTTGTTGTTGCGTGCATTGCTGCTACGAACAATAAAGGAGCGACTACTTACAAACGCCATCGTTTTTCTACCTTCACAAAAGGATTAAGAGAGCTGTCACAATGGCTTTGTAAAAATAACTGTAAAGATGTTTGTATGGAATCTACCGGGAAATACTGGATTCCCGTGTTTAATGTATTAGAGGATTCCTGCAACATCACGCTAGCACACCCTAAATATGTGAAGGCAATCCGTGGTAAAAAAACGGATAAGAAAGGGCAGGGCTAA MSLKIVYPICCGIDVHKTFVVACIAATNNKGATTYKRHRFSTFTKGLRELSQWLCKNNCKDVCMESTGKYWIPVFNVLEDSCNITLAHPKYVKAIRGKKTDKKGQG PGPT0030635_607 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486 NA NA AK015_02080 270 hypothetical protein ATGCTATTATTAAGATTTAAACGGCATTTATATTGTTCTTTATATATTGTTCATATAGGAAAGCATAAAATTTCAATGGTTTATAGAATAAGCAAAACGACGGCGTTTCATCGCCATAAGGTCTTGATGGTAAGCAAAGTTTTTCTAAGGTTTAAGGTGTTATGCATAGCATTTACTAAGTTGGCTTATAGCCTTAATACTAAATACAAAGGGAGCAAAAATATAATTCGCGCACCAATTATAGGTACGCGAATGCGCTTTTTTAACTGA MLLLRFKRHLYCSLYIVHIGKHKISMVYRISKTTAFHRHKVLMVSKVFLRFKVLCIAFTKLAYSLNTKYKGSKNIIRAPIIGTRMRFFN NA NA NA NA NA AK015_02081 711 deoD Purine nucleoside phosphorylase DeoD-type ATGATGAGTGTACATATTGGTGCAAAATATGGAGAAATTGCTGATAAAATCTTATTACCTGGTGATCCTCTCCGCGCTAAATTTATCGCAGAAACATTTCTTGAAAATCCAAAACAGTATAACGAAGTAAGAGGGATGCTAGGATATACTGGAACATATAAAGGGGAAAAGGTTTCTGTTCAAGGAACAGGTATGGGAGTCCCTTCTATTTCTATTTATATCAATGAGTTAATGCAAAGCTATGATGTTCAAAAATTAATTCGTGTAGGTACATGTGGTGCAATTCAAAAGGATGTTCAGGTGAGAGATGTTATTCTCGCTCAAGGATCAACAACAGATTCTCAAATGAATCGAATGGTTTTTGGTGGTATTGATTATGCGCCAATTGCAGACTTCGATTTATTAAAGAACGCATACGATGCCGGTGTTGCGAAAGGGCTAAACCTAAAAGTCGGTAATGTATTTACAAGTGACACCTTTTACAGAGACAATGCAAAGGAAGTAAATGAAAAATTAGCTGCCTACAAAGTGTTAGCAGTAGAAATGGAAACAACTGCTCTTTATACATTAGCTGCAAAATTTGATCGTCAAGCATTATCCGTGCTAACCGTATCCGACCACATCTTAACTGGAGAAGAAACATCAGCTGAAGAAAGACAAACTACTTTCCATGAAATGATGGAAGTGGCCCTAGAAGCAGCTATTAAGTAA MMSVHIGAKYGEIADKILLPGDPLRAKFIAETFLENPKQYNEVRGMLGYTGTYKGEKVSVQGTGMGVPSISIYINELMQSYDVQKLIRVGTCGAIQKDVQVRDVILAQGSTTDSQMNRMVFGGIDYAPIADFDLLKNAYDAGVAKGLNLKVGNVFTSDTFYRDNAKEVNEKLAAYKVLAVEMETTALYTLAAKFDRQALSVLTVSDHILTGEETSAEERQTTFHEMMEVALEAAIK PGPT0013385_841 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784 NA NA AK015_02082 264 ptsH COG1925 Phosphocarrier protein HPr ATGACAGAAAAAACTTTCACAATTACTGCAGAAACTGGAGTACATGCTCGTCCTGCTACACTTTTAGTAAACAAAGCAGGTCAGTTTGAATCTGAAGTGGAAATTGCTTACAATGACAAAACAGTAAACTTGAAGTCCATTATGGGTGTTATGTCGTTAGGTATTCCTAAAGGAGCACAAATTAAAATTACTGCTAATGGTTCAGATGAAGCAGAAGCTATTAGTGGTATTGAAGAAGTTATTAAAGAACATCTTGGTGAGTAA MTEKTFTITAETGVHARPATLLVNKAGQFESEVEIAYNDKTVNLKSIMGVMSLGIPKGAQIKITANGSDEAEAISGIEEVIKEHLGE PGPT0016875_2878 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 AK015_02083 378 kapB Kinase-associated lipoprotein B ATGGCGGACGTAGCTATAGGGCATATTGTAAAAGCACATTATCGATCAGGTACCTATATTGGAAAAGTGGTCGATGATAAGGGAGATCGTTACGTGGTTGAAGTGCTTGCAGTAAAAAAACACCCAATGCAAGGTGATTTACACAACCCCCAGCAGACAGAAGGCGTTTTCTTTCATGAACGAAAAGCTTTAGCTTTTGGTGAAAAAACTAACGTTAAAAAAGCAGCTGTACACCCTTTTAATGAAACGATTCCAAATTATAATAATTCATTAAAAGAAGCCATAGAATCATACCGGAATAAACTGTTACAAGAACATTCAGATTACAACCAAGCTGCACTTCAATGCTTAGCTAATTTGGAAAAAGATTATTACTAA MADVAIGHIVKAHYRSGTYIGKVVDDKGDRYVVEVLAVKKHPMQGDLHNPQQTEGVFFHERKALAFGEKTNVKKAAVHPFNETIPNYNNSLKEAIESYRNKLLQEHSDYNQAALQCLANLEKDYY PGPT0025295_176 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORULATION_REGULATION,PGPT0025295-kapB-K06347 NA NA AK015_02084 180 hypothetical protein ATGATGCCTTTTCTTTATTTTCCAGAGGATAAATCGGAATATATCCCTGCCATTATAACATTACTTATTTTTATGATTGCTGCAGGGGTGGCCATGTACTTTATTTATAAGAAATCGAAGAAGGATGAGCGAAAATTTAAGCAACAATACCACAAGGAATTGCATGAACCTCATGATTAG MMPFLYFPEDKSEYIPAIITLLIFMIAAGVAMYFIYKKSKKDERKFKQQYHKELHEPHD NA NA NA NA NA AK015_02085 570 yojM COG2032 Superoxide dismutase-like protein YojM ATGAGAATGGTGATGGTCATTTCTCTATTATTAATAGCTGTAGCTTGCCAGCCAAAAGATGAAAAAACAAAAGAAGTTGAAATGTACAATTCATCAGGTGATATGGTTGGTACAGCCAGTTTTCATGAACAATCTGATGGGGTAAAGGTGAAAGTGGAATTAGAAGGGCTGGAACCAGGGTTTCATGGAATACATGTACACGAATACGCCAAATGTGAAGCACCTGATTTCACATCAGCTGGCAATCATTTTAACCCGACTGGTGCAGAACATGGTCTCATGCATCCAGAAGGAAACCATTTAGGGGACATGCCGAACATAGAAGCGGATGCTAACGGAGTTATTAACGCTGAACTAATGATGCCAGAGACGACGTTATTAGATGGAAAAAATTCGCTAATTAAGGGTGAAGGAACATCCGTTATTGTTACTAAAAATAAAGATGACGGAGTAAGCCAACCTGGTGGAGATTCAGGAGAGAGAATAATTTGTGGCACGTTAACAAAAACAAATGGTGATAATGAAAAACAACCATCAGACCCAACACAAAATAATGAAGATGAAAAGTAG MRMVMVISLLLIAVACQPKDEKTKEVEMYNSSGDMVGTASFHEQSDGVKVKVELEGLEPGFHGIHVHEYAKCEAPDFTSAGNHFNPTGAEHGLMHPEGNHLGDMPNIEADANGVINAELMMPETTLLDGKNSLIKGEGTSVIVTKNKDDGVSQPGGDSGERIICGTLTKTNGDNEKQPSDPTQNNEDEK PGPT0013181_1027 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565 NA NA AK015_02086 1170 patB COG1168 Cystathionine beta-lyase PatB ATGAATTTATTTGAAGAGCAACATAGCAGAAAAAATACGCGATCTGTAAAATGGGATATGTTAAAGCCTGTATTCCAAACAGACGATGTCTTACCAATGTGGGTAGCAGATATGGACTTTAGAGCTCCTGAACAGGTAAACGAAGCACTTATCGAGCGCGCTAAACACGGTATTTACGGCTATACAATGGTGGATGATGTAGTTAAAGATTCGGTTGTAAAGTGGATTCATCGTAGGCATAATTGGCACATTGATTCTAATTGGTTATCATTTAGTCCTGGTGTTGTCACTAGTTTACATATGGCAGTGCAAGCTTTAACAGAGCCTAATGATAAGATACTTATTCAAACACCCGTATATACCCCTTTTTACAATGTGATCGAAAGCCACGATCGACAAATTGTAAAAAATCCATTGCGCTATGAAGATAACTACTATCAAATTGATTTTGACGATTTTGAAGCTAAATTAAAGCAAGGCGTAAAGGCGTTCATTCTTTGCTCCCCACATAATCCAGTAGGACGTGTGTGGAAAAGGGAAGAACTAGAAAAAATGGCGAAATTATGCTTAGATTATAATGTAATTATTATTTCGGATGAAATTCATTGTGATTTAACGTTTCCCAATGAGCGACATATCCCTATCGCTTCTCTTTCTGAAGACATGAATGACCAAACAGTAACATGTATGGCTCCATCGAAAACATTTAATTTAGCTGGTTTACAGGCTTCCTATATCATTACTCCTAACCAAGAACGAAGAAAAAAAATTGAAGCACACTTATCAAAACAAGGCGTACATGGTTTAAACATAATGGGAAACACCGCTTTAGAGGCAGCTTATTTGCATGGAGACAGTTGGCTTGACGAACTTCGCGAAGTTTTGCTAAGTCATAAACAGTATGTTGAAGAAATGTTAGAAACGCATATTCCAGAAATAACTGTAACACATTCAGAGGGAACTTACTTACTTTGGATTGACTGCAGTGCTTTAAATATGGATCCAAAAGAATTACGTGAATTTATGATTCACAAGGCAAAAGTAGGTTTAAATACAGGGAAAGATTACGGAGAAGAAGGATCAACCTTTATGCGGATGAATATAGCTTGTCCAAAAGCAACATTGGAAGAGGGCGTAAGAAGAATCATCCAAGCAATTCAAAACAGATAA MNLFEEQHSRKNTRSVKWDMLKPVFQTDDVLPMWVADMDFRAPEQVNEALIERAKHGIYGYTMVDDVVKDSVVKWIHRRHNWHIDSNWLSFSPGVVTSLHMAVQALTEPNDKILIQTPVYTPFYNVIESHDRQIVKNPLRYEDNYYQIDFDDFEAKLKQGVKAFILCSPHNPVGRVWKREELEKMAKLCLDYNVIIISDEIHCDLTFPNERHIPIASLSEDMNDQTVTCMAPSKTFNLAGLQASYIITPNQERRKKIEAHLSKQGVHGLNIMGNTALEAAYLHGDSWLDELREVLLSHKQYVEEMLETHIPEITVTHSEGTYLLWIDCSALNMDPKELREFMIHKAKVGLNTGKDYGEEGSTFMRMNIACPKATLEEGVRRIIQAIQNR PGPT0001990_1852 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 AK015_02087 1347 pgi COG0166 Glucose-6-phosphate isomerase ATGACTCACGTAACATTCACGTATAAAAAAGCTCTTCCCTTTATGAATGAACAAGAATTAGATCATCTTGAAAATGCAGTAGAAACTGCCCATCACGCCCTACACAATCGAACAGGCGCTGGTAGTGATTTTCTTGATTGGATTGACTTACCCGAAAATTATGATAAAGAGGAATTTAATCGCATAAAAAAAGCAGCAGAAAAAATTCGCGATCATTCGGATGTGCTATTAGTTATCGGTATAGGGGGCTCTTATTTAGGTGCTAGAGCTGCATTGGAAATGCTTAACCACTCCTTCCAAGCTTATATAACAAAAGAAGAGCGAAAAGCTCCGCATATTATTTTTGTTGGACACCATATGAGTTCAAACTATATGCATGATTTAATGGACGTGTTAAAGGATAAAGATTTTTCCATTAACGTGATTTCTAAAAGCGGTACAACAACTGAGCCAGCAATTGCGTTCCGTATTTTCAAGCAAATGTTAGAAGACAGATATGGAGTAGAAGGTGCAAAAGAACGTATTTTTGCAACAACTGATAAAGAAAAAGGTGCATTAAAATCTTCTGCCGATCAAGCTGGTTATGAAACATTTGTAATTCCTGACGGTGTTGGGGGACGTTATTCTGTTTTGACAGCTGTAGGGTTGCTCCCAATTGCAGTAAGTGGCGCTTCCATCGATGAAATGATGCAAGGTGCACGCGATGCTATGAATGATTTTTCTGAACCTAGCTTAAAAAACAACGTAAGTTATCAATACGCTGCGGTTCGTAACATTCTTTACAATAAAGGGAAAACAACTGAACTGCTTATTAATTATGAACCAAGTTTACAGTATTTTGCAGAATGGTGGAAACAGTTATTTGGCGAAAGCGAAGGAAAAGATCATAAAGGCCTTTACCCTTCTTCAGCTAATTTTTCGACTGATTTACACTCATTAGGGCAATATATTCAAGAAGGGCGCCGTAACATTTTCGAAACTGTGCTTCGCGTTCAAGAACCAAAGCGTCAATTAACTGTAGAAAGTGACCCTGTTGATGCAGACGGATTAAATTATTTGGCTGGCAAAACCATTCACGAAATAAACGATAAAGCCTTCCAAGGAACGCTTTTAGCTCATACAGATGGTGGCGTACCAAATCTTGTAGTAGAAGTACCTAAACTAGATGCTTATACTTTTGGCTACCTTGTTTACTTTTTTGAGAAAGCTTGTGCTGTGAGCGGTTATTTATTAGGTGTTAACCCGTTTGACCAACCAGGTGTTGAAGCATATAAAAAGAACATGTTTGCGCTTTTAGGTAAACCAGGCTTTGAAGATGCAAAAAAAGAATTAGAAGACAGGTTGTAA MTHVTFTYKKALPFMNEQELDHLENAVETAHHALHNRTGAGSDFLDWIDLPENYDKEEFNRIKKAAEKIRDHSDVLLVIGIGGSYLGARAALEMLNHSFQAYITKEERKAPHIIFVGHHMSSNYMHDLMDVLKDKDFSINVISKSGTTTEPAIAFRIFKQMLEDRYGVEGAKERIFATTDKEKGALKSSADQAGYETFVIPDGVGGRYSVLTAVGLLPIAVSGASIDEMMQGARDAMNDFSEPSLKNNVSYQYAAVRNILYNKGKTTELLINYEPSLQYFAEWWKQLFGESEGKDHKGLYPSSANFSTDLHSLGQYIQEGRRNIFETVLRVQEPKRQLTVESDPVDADGLNYLAGKTIHEINDKAFQGTLLAHTDGGVPNLVVEVPKLDAYTFGYLVYFFEKACAVSGYLLGVNPFDQPGVEAYKKNMFALLGKPGFEDAKKELEDRL PGPT0017735_5070 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 AK015_02088 240 hypothetical protein ATGAATGGAATACAACGAACAGCTTTAGCATTAACAATTATTGGCGCAGTGAATTGGGGCTTAATTGGTTTATTTCAGTTTGACTTAGTGGCTGCAATATTTGGCGGTGAGCAGAGTGCAGCTTTTGCTCGAATTATCTACACAGTAGTAGGGATTAGCGGGCTAGTATTAATCCCACTGTTGTTTAAAACCGATGAAGCTTTTGCAGATCAGCACGAACCAGAAGGTGTAGATCGATAA MNGIQRTALALTIIGAVNWGLIGLFQFDLVAAIFGGEQSAAFARIIYTVVGISGLVLIPLLFKTDEAFADQHEPEGVDR NA NA NA NA NA AK015_02089 366 yugI COG1098 General stress protein 13 ATGACAAGCAATTTTGAGATTGGGCAAATTTTAGATGGTAAGGTTACTGGAATTCAACCATACGGTGCATTTGTTGCACTTGATGAAGAAACACAAGGACTCGTTCATATTTCCGAAGTTACTCATGGCTACGTTAAAGATATTAATGATCATTTAACAATTGGCGATGACGTAAAAGTAAAAGTATTGCAAATTGATGAAGAAAAAAACAAAGTTTCTTTATCTATCCGGGCTACACAAGAAACACCACAAGCTAAACCAAAACAAGTTAAGCCAAAGCAAGTAGAAGTAGAACCTTCTGGATTTAATACGTTAAAAGATAAACTAGAAGAGTGGATGAAACAATCTAACTACAATAAGAAATAA MTSNFEIGQILDGKVTGIQPYGAFVALDEETQGLVHISEVTHGYVKDINDHLTIGDDVKVKVLQIDEEKNKVSLSIRATQETPQAKPKQVKPKQVEVEPSGFNTLKDKLEEWMKQSNYNKK PGPT0014890_354 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014890-yugI-K07570 NA NA AK015_02090 420 hypothetical protein ATGGTACCAATACAAACAAGTTTGGAAGATGAAACATATGCTTTATTTAAATTAGAGGAAGTGTTAAAACCTATAGGATTTGTTATAGGTTCGAGTTGGGAGTATGATCATGGATACTTAGATATTAAGTTGGATGATCGAGGTACGTATTATTTTTTACGAATTCCGTTTAAAGCTATTGCAGGGGCGTTAGATTCCCCAGGTGTTATCGTTCGTCTACAACAACCATTCGTATTGGGGCACCAATATGAGTCTGGAAATGATATAGATAGTCGAAATGGTGCTGTTCAAGGACTAGTTAACCAATTCCAGACGCCGACAGATCCAGATACGGATATACCAAAAGAATATATTGATATGGGAAAAGATTATATAAAGGAAGTGGAAGCGTTACTTATTCCAAGGCAAGAGTATGATTAA MVPIQTSLEDETYALFKLEEVLKPIGFVIGSSWEYDHGYLDIKLDDRGTYYFLRIPFKAIAGALDSPGVIVRLQQPFVLGHQYESGNDIDSRNGAVQGLVNQFQTPTDPDTDIPKEYIDMGKDYIKEVEALLIPRQEYD NA NA NA NA NA AK015_02091 1005 hypothetical protein TTGAGTATTCGATTAATTAAACAAATTTATTTTAAACTGCCTTTATTATTCAAACTACTAATGAGCATTTTTTTATTTATGCTCGTTTTTGGATTTTTCATTCATTTAGCAGAACCTAACCAATTCCCTTCCATTTTTGATGGTATTTGGTGGGCATTCATTACTGGAGCAACTGTCGGTTACGGAGATTTTGTTCCTTTAACCCCAATCGGTAAATTAATAACCATATTGTTAATCTTAACAGGTGGGAGTTTAATTGCTTTCTACATAACCTCCTTAGCTGCTTCTACTTTTAGACAAGAACAAGCTATAGAGGAAGGAAGGGTAGCGTTTAAAGGAAGCAATCACCTTGTACTGATTGGTTGGAATGAAAGAAGCCGACAGCTAATCGAATCTATTGCTCAGTCTAATTCACATACTCGAATGGTACTTATCGATACGACGCTAGAGCACGTCTCGTTTTCTGATTACCCTGTCCACTTTATTCAAGGTGACCCTACAGAAGACATGGTTTTAAAAAAAGCAAATATACACTTAGCCGATCGTGTATTAATTACTACAGATACAGCCAAAAATGAACGAGATGCTGACAATGTCACCATTCTCACAGCTGTAGCTATTCGAGGAAATAATGCAAACGCCCCCATTATTGCCGAGATTGTTTCACTCACACAAATCGAAAACGCACGTCGTGCAGGAGCTACCACCATCATACGCTCTAACGACTTTACAAGTATATTATTTTTCCATGAAATATTTCGTCATAAAGCATCGCAACCATTTGAAGATATCCTTCACTTATTAACGAAGCAACAATTTTACCATAAAGAAGTGGAGGGGGAGTTGGGAGATTTAACCTTTCAGGAAACGATTGTTTTATTAAGCAATAAACAGCAAATCCCTCTTGGTATTATTCGTAATGAGCGCTATTATGTGAACCCTTCACCCCAATTTCGTTTACAAAAAGGTGACCTGTTAATCATACTCTTGCCTTGGAATAAGTAA MSIRLIKQIYFKLPLLFKLLMSIFLFMLVFGFFIHLAEPNQFPSIFDGIWWAFITGATVGYGDFVPLTPIGKLITILLILTGGSLIAFYITSLAASTFRQEQAIEEGRVAFKGSNHLVLIGWNERSRQLIESIAQSNSHTRMVLIDTTLEHVSFSDYPVHFIQGDPTEDMVLKKANIHLADRVLITTDTAKNERDADNVTILTAVAIRGNNANAPIIAEIVSLTQIENARRAGATTIIRSNDFTSILFFHEIFRHKASQPFEDILHLLTKQQFYHKEVEGELGDLTFQETIVLLSNKQQIPLGIIRNERYYVNPSPQFRLQKGDLLIILLPWNK PGPT0002715_2201 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716 NA NA AK015_02092 558 hypothetical protein ATGGACCTTCTACAATGGTATGAAAAAGGAATAGAACCAGATGTTTATATTGAATCAATGAAAAAGCATAAGGAGAACTTACTTGCCATTTATGATCACTTCCAACTGCCAGATAATTATACGCTTTATGCGCAAGTACAAGAAAAACAATTAAAAGTGATTGTTTTAACAGAGGACTGGTGTGGTGATGCCACGCTCAATATTCCTATCTTGTTAAAACTTGCTGAAGCTACTAACATGGACGTGCGTATACTATATCGTGATCAAAATCTAGAACTAATGGATCAATATTTAACAAATGAAACATCTCGATCCATTCCTATTTTTATTTTTATTGATGCAAATGGAAATGAAAAAGCTACATGGGGACCACGAGCAAAGAGCATACAAGATTTTGTGGATAAAGCTCAAGCGAAATTACCAAATAAAGAGCAAGCCGATTATCAAGATAAATTTAAAGAAATGATATTATTTATGAATAAGAGCTTCCGGGATAACTCCCAGTTTTGGGAGCATGTATACAAAAGTTTAGAACACACGTTAAAGCAAATTAGTTAG MDLLQWYEKGIEPDVYIESMKKHKENLLAIYDHFQLPDNYTLYAQVQEKQLKVIVLTEDWCGDATLNIPILLKLAEATNMDVRILYRDQNLELMDQYLTNETSRSIPIFIFIDANGNEKATWGPRAKSIQDFVDKAQAKLPNKEQADYQDKFKEMILFMNKSFRDNSQFWEHVYKSLEHTLKQIS NA NA NA NA NA AK015_02093 1059 ysdC_1 COG1363 Putative aminopeptidase YsdC ATGCAATTAGCAAACCAAAAATTTTTGTTAGAGTTATTACAAACCCCTTCTCCATCCAGTTTAGAAATGGAAATCCAAAAGAAGTGGTTGGAATATGTCAAACCTTTTGTAGATGAAATAAGAACAGATCATGCTGGAAATGCTATCGGTGTTTTAAACCCTGAGGCACCATTCAAAGTGTTGTTAGCCGGTCATTGTGATGAAATAGCACTAGTTATTAATCGAATTGACGAGCATGGTTTCTTACATTTTGATAAAATGGGTGGCATTAATCCTAAAGCTGCGGTTGGAATGAAGGTGATGGTGCTAGGTGCAAATGATTGTTTAACAGGTGTTATTGGCGTCAATGCTCAACATCATGGTGGCTTAAAGAATGACTTTAGTTTGGAAGATTTGTTTATCGATTGCGGTTTTAAAACGAAAGAAGAGGCAGAGGAACAAATACATATTGGTGATCTAGCGGTATATAAGACCGAACCGGAATTTCTGTCGGACCGTTATGTTGCTGGTCGCGGTCTAGACAATCGGACAGGCGCTTTTATTGTAGCAGAGGTGCTAAGAAAATTGAAAGAGACGGGCTGTCAAGTAGGTGTCTATGCAGCTAGTACAGTAAATGAAGAAACGAATATGGGCGGCGCTTATTTTGCAGCGGCAGGTGTAGCACCAGATATGGCGATTGCTTGCGACGTTACATTTGCGACAGATTATCCTGGAGTTAATACAAATAAATATGGTGATGTTCGATTAGAAAAAGGCCCTGTATTAGCAAAAGGCGCCCCTATCAATATCAAGATCAATCAACTACTTGAAAAGGCGGCAAAATCTTTAGATATTTCTATTCAGTATGAGCTTACGCCACGTATGACTGGAACTGATGCTGATAAAATGCGGCTGACAGGAAAAGGAGTTCCTGTATCGCTCGTGTCCCTTCCGCTTAGATATATGCATTCTCCTGTTGAAACAGCAAGTATCAAAGATATAGCCGAAGAAATTGATTTGTTAGTGGCAATGATCTCTGCGTTAACAGGAGAAGAAAGCTTAAACCCACTTGATTTATAA MQLANQKFLLELLQTPSPSSLEMEIQKKWLEYVKPFVDEIRTDHAGNAIGVLNPEAPFKVLLAGHCDEIALVINRIDEHGFLHFDKMGGINPKAAVGMKVMVLGANDCLTGVIGVNAQHHGGLKNDFSLEDLFIDCGFKTKEEAEEQIHIGDLAVYKTEPEFLSDRYVAGRGLDNRTGAFIVAEVLRKLKETGCQVGVYAASTVNEETNMGGAYFAAAGVAPDMAIACDVTFATDYPGVNTNKYGDVRLEKGPVLAKGAPINIKINQLLEKAAKSLDISIQYELTPRMTGTDADKMRLTGKGVPVSLVSLPLRYMHSPVETASIKDIAEEIDLLVAMISALTGEESLNPLDL PGPT0018620_5219 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179 NA NA AK015_02094 4302 bpr COG1404 Bacillopeptidase F ATGCTAAGCATTGCCGCAACATGTTTTATTGCATTTTCTTTATTCACGCCTGGGATAGCTGGTGCGCAAGAGACGCAGAAATTGCATCAATCTGTAAGTGATTCTAGTAAGGTAGAAAATAAGCTAAGTAGCAAATTAACAAAGCAATTCAAAAATGATGATAAGGTAACTTTTCTTGTTAAATTTGCTGAAAAGGCAGATGTGAAAAAGGCGGCTGATAATGCAAAAAAAACAGCAAAAAAAGCTAGCTTGACAGCACAAAAGGTAGAACATGTTCAACGTTCTGCAGTTATTTCAGAGTTGAAGGCTACAGCTTTAGAATCGCAAACGAATGTAAAAGATTATATTCAAAAGCAAAAAGAGAAAGGAAATGTAGAGACATTTCAATCTTTTCATATTGTGAATGGGATGTCGGTAACAGCTACCAAAAAGATAGCTGAAAAAATTGCTTCTTATCCTGAAGTAGAGAAAATATTACCGAATGAGGAACGTAAACTATTTGAAGTAACTGTTGATAAAGAAGAAAAGCAAATAAAAGCTGAGAACGAAAATCTAGAATGGAATGTGGAGCGTGTGGGGGCTCCGTCTGTATGGGATATGGGCTTTGACGGCTCGGGTATTGTAGTAGCAAGTATTGATAGCGGAGTACAATGGGATCATCCAGCTTTGCAGGAGCAGTATCGTGGATATAATTCTGAAACTGGAGAAGTAGATCACGCTGCAAGTTTCTTCGATGCAACAGCTGGCGAAGAGGAAGCTTATGATGATCACTCACACGGTACACATGTTACGGGAACAATGGTTGGAGCAGAGGCTGACGGTTCCAATCAAATCGGGGTAGCACCCGGAGCAAAATGGATTGCAGCAAAAGGATTAAATGCCTCAGGTGTCGGCTATGACAATTGGTTATTATCAGCTGCAGAATGGATGCTAGCTCCAAATGGAGACGCTTCCATGGCTCCGGATATTGTAAATAACTCCTGGGGTGGTGGCTCAGGGCTTGATGAATGGTATCGAGATGTAGTAACTGCATGGAGAGAAGCAGGTATTTTCCCAGCATTTGCCGCTGGTAATACTACTCTAACTAATCCAGGTGGGCCAGGTTCAGTAGCGGTGCCAGCCAATTATCCAGAGTCTTTTGCCATTGGTGCAACGGATGTTAACGATGTGTTAGGAAGTTTCTCTTTACTGGGACCTTCGCCATATGACGAAATAAAACCAGAAGTAACAGCACCTGGTGTTAATATTCGTTCAAGTGTGCCGGGAAGCGGTTATGAAGGAGGATGGAATGGTACATCCATGGCTAGTCCAGCGCTTTCTGGGGTTTTAGCATTAATGAAGCAAGCAGATGGAAGCCTTACTGTGAATGAAATGGAAGAAATCGCTATGTCAACTGCTAATCCGCTCACAGACAGTGACTACCCTGAATCACCGAATAACGGATATGGGCATGGACTAGTTAACGCTTATGACGCTGTTTCTTCTTTAGTATCTGGTTTAGGAACTTTAGAAGGGCAAGTAACAAAAGCTGGTGAAGATAAAGAAGCACCTGTTTTCGAGCATGAGCCATTAACAGAAGCATATATGGGGATGGATTTAGATTTAAATATTCAAGTGTCTGATAATATTAGCGTAAGTTCAGTTGATTTACAGTATACGAACGCAGCTGGGGAGGAAGAAACAATTGAAGCAGAACGTGTCTCTGGTGATTATAAGGATGGAAGCTATATAGCTTCCATCCCTGGAGATCAATTAACTGGGGAAAGTTTATCTTACACATGGTATATGAACGATTTTGGCAACAATGAAGCGAGAAGTGAAACGTATGAGGTAGCTTTACGACCGGGAATTACGGTCGGTTATGAGGAAGATTTTGAAGCAGCATCGGCTGGTTGGACGGTATTTGGAGAAAACAATAGTTGGGAGCGTGGAGTGCCAACTTCCGGACCTGAAACTGCTGCTTCTGGAGAGAATGTATATGCTACTAATTTAGCTGGTGCGTATGAGAGTGATTCAAATACGACACTTGTGATGCCGCCAATTGATCTTCCGAAAGAGGGGGACGCTTTTTTACAATTTAATCAATGGTATAACTTAGAAAACAATTACGACTATGGTCATGTGTTTATTTCCACGGACCAAGAGGATTGGACACAGCTTGAGGAAATTTCCAATGTATCTGACGGATGGGGAAATATGACAGTTGATTTATCCGACTATCTCGGCCAGCGAGTTTATATAGGCTTTAATTTAGATACAGACGGTAGTGTTACACGTGATGGCTGGTATATTGATGACGTTGCTTTAACAGATACACCAAGTACAGAAAATGTTTCTTTAACAGCAGAAGTGTCAAACCCTGGTTTATTAGGATTTATTGATACGGTAAGTTTGGCTTCCAAAGACAAACAAGATAAACAATCAGCCAAAAAGGAAAAAGTAGACCCGGAAAAAATAAAACCTATTCAACCAAAGGAAAAATCAAAACCAAAACAAGATACAGTGAATCCGACATTATTACCAATGCAAGCGCAAGTAAGTGTCATAGAAAGTGGACGTACGGTAACTACAGACCCTGCTACAGGTAGCTACTCATTATTACATGCAGCGGGAGATTTTACGGTAAAAGCTGAAGCATATGGCTTTCAATCACAAGAGCAGTCTGTAACCGTTGATCCGGATGGTACTTCGAAGGCTGATTTTACGTTAGAAGAAGTGGATCAATACACGATAAGCGGAACCATTACGGATGAACAAACAGGCAAACCTATACCAGATGCAACGATTTTAGTAGTGGAGGATGCCAATATTGAACCAGTAACGACAGATGAGGAAGGTAATTATTCACTCACCGCTTATCAGGGGGCATATACGTTAAAAGTACTTGCGAGCGGTTATCATGGTGCAGAAATGAAAATTAATCTAGAGGATAACGATAGTACTCAAAATGTGGAATTAGAGCCATTCTACACGGTGCCTGGTGGAGAAATTGCTTATGATGATGGAACACCAGAAAATGCTCGCGCATTCTATGATGCTGGAAATGGTTGGGGCGTAAAGATGACATTACCAGAAGGAAAGGAAACTGGTGTTGTTGATGCCGCTGTCTTTAAATTTTGGAATGAAGAGTTTCCACAACCAGGTGGTACTGCATTTCAAGTGGAGGTTTGGGATGCAAATGGACCAGATGGTACACCAGGTGAAAAGATAGCAGGCCCAGTTGATGCTGAAGCCATTCGCGATGAAAATGAATGGACAGTCGTCGATTTAGAAGAACATGGCATTGTGGTAGAAGAAGAATTTTATGTGGTGTATGTGCAAACAGCGCCAAATACAGAAGCACCTGGACTTGCTACAGATGAAAGCAGTCCAAATGAAGATAGAAGTTATCAACTAGTTGGTGGATCTTGGTCTAAATCACCAGCAGAAGAAGGAAACTATATGATTCGCGCTCACGTTAATTACGAAGTAGAGGAACCTGAAATTACCTCGCCAAAAGATGGCGCTATTACGAATAAGCAAAAGGTTACTGTAGAAGGAACTGCTTCACCAACGACTACGATCCAAATAATGAACAATGGAGAAGAAATTGGCTCGGCTGAAATAGGGGAGGATGGTACGTTTGCTATTCCAGCGGAACTATCAGAAGGGGAAAATGAACTAACAGCAGTCTCTCAGCTAGATGGAAATCCAACAGGCGATTCAGAGCCCGTTAAATTAACACTAGATACCGAAAAACCTGAGCTAACCATCGATTCACCAAAAAATGAGGAAAAACTGAATCGAGAGACTGTTACTGTAGCAGGTTCTGTCTCTGATAATAATTTGGACACCGTAAAAGTGAACGGTAAGAAAGCAAAAGTACAAGATGGCAAATATTCCAAACGAATTTTGTTAGACAATGGTGAAAATGAAATTAAAGTGGTAGCTCAAGATGCAGCAGGAAATAAAACGAAGGAAAAAATTACAGTGGATGTCGATTTCACAGCGCCTAAGGTTGAGAATTTAACCCCAGAAGAAGATGCTACACTAGCAGCTGGTGAGTCCATCAAAATTGAGTTTGAAAGTGAACCAGGGCTAAATGCAACCTATGCTATTCATATGCCACTAACGAATACAGCTACGAATGCTACAGAACTACCAATGATGGAAACATCAGAAGGCCATTACGTCGGCTATTGGACAGCAACAAGCAGTGTCGTTGCAGAAGGTGCCGTTATTGAGGTAAAGGTAGAAGATAATTATGGCAATAAGACACGTAAGCAAGCAACAGGAAAGTTATGGATTAACGCTGAGAAGTAA MLSIAATCFIAFSLFTPGIAGAQETQKLHQSVSDSSKVENKLSSKLTKQFKNDDKVTFLVKFAEKADVKKAADNAKKTAKKASLTAQKVEHVQRSAVISELKATALESQTNVKDYIQKQKEKGNVETFQSFHIVNGMSVTATKKIAEKIASYPEVEKILPNEERKLFEVTVDKEEKQIKAENENLEWNVERVGAPSVWDMGFDGSGIVVASIDSGVQWDHPALQEQYRGYNSETGEVDHAASFFDATAGEEEAYDDHSHGTHVTGTMVGAEADGSNQIGVAPGAKWIAAKGLNASGVGYDNWLLSAAEWMLAPNGDASMAPDIVNNSWGGGSGLDEWYRDVVTAWREAGIFPAFAAGNTTLTNPGGPGSVAVPANYPESFAIGATDVNDVLGSFSLLGPSPYDEIKPEVTAPGVNIRSSVPGSGYEGGWNGTSMASPALSGVLALMKQADGSLTVNEMEEIAMSTANPLTDSDYPESPNNGYGHGLVNAYDAVSSLVSGLGTLEGQVTKAGEDKEAPVFEHEPLTEAYMGMDLDLNIQVSDNISVSSVDLQYTNAAGEEETIEAERVSGDYKDGSYIASIPGDQLTGESLSYTWYMNDFGNNEARSETYEVALRPGITVGYEEDFEAASAGWTVFGENNSWERGVPTSGPETAASGENVYATNLAGAYESDSNTTLVMPPIDLPKEGDAFLQFNQWYNLENNYDYGHVFISTDQEDWTQLEEISNVSDGWGNMTVDLSDYLGQRVYIGFNLDTDGSVTRDGWYIDDVALTDTPSTENVSLTAEVSNPGLLGFIDTVSLASKDKQDKQSAKKEKVDPEKIKPIQPKEKSKPKQDTVNPTLLPMQAQVSVIESGRTVTTDPATGSYSLLHAAGDFTVKAEAYGFQSQEQSVTVDPDGTSKADFTLEEVDQYTISGTITDEQTGKPIPDATILVVEDANIEPVTTDEEGNYSLTAYQGAYTLKVLASGYHGAEMKINLEDNDSTQNVELEPFYTVPGGEIAYDDGTPENARAFYDAGNGWGVKMTLPEGKETGVVDAAVFKFWNEEFPQPGGTAFQVEVWDANGPDGTPGEKIAGPVDAEAIRDENEWTVVDLEEHGIVVEEEFYVVYVQTAPNTEAPGLATDESSPNEDRSYQLVGGSWSKSPAEEGNYMIRAHVNYEVEEPEITSPKDGAITNKQKVTVEGTASPTTTIQIMNNGEEIGSAEIGEDGTFAIPAELSEGENELTAVSQLDGNPTGDSEPVKLTLDTEKPELTIDSPKNEEKLNRETVTVAGSVSDNNLDTVKVNGKKAKVQDGKYSKRILLDNGENEIKVVAQDAAGNKTKEKITVDVDFTAPKVENLTPEEDATLAAGESIKIEFESEPGLNATYAIHMPLTNTATNATELPMMETSEGHYVGYWTATSSVVAEGAVIEVKVEDNYGNKTRKQATGKLWINAEK PGPT0020925_7 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 AK015_02096 597 fmnP COG3601 Riboflavin transporter FmnP ATGCAACCGATGAATAAACAATCATCCAAACTGATGAAAGTCATTGTCTTAGCTTTATTAGGTACAATTTCATTATTATTATTTTTCTTAAACTTTCCTCTGCCGTTATTACCAGCTTTTTTGAAAATTGACTTCAGTGATGTTCCGGCTTTAATGGCATCATTCATCTTTTCACCAGTTGCTGGGGTCCTTGTGGTCGCAATTAAAAACCTCTTATATTTAGCTGTATCTGGTGCCGCTGACCCAATTGGTGTACTTGCTAATTTTATAGCTGGAATGATGTTTGTTGTACCAGTGTCTATGCTCTATCACAAATTTAAAGGTGTGAAAAGTATAGTTTCTGGTTTAGTTACGGGAACAATCGTAATGGCAGTTGGAATGAGTGTTTTAAATTATTTTGTTTTCTTACCAGCATATGCATGGTTTATGGGGTGGGAAGACATGTCAAATACTGCAATTAAATGGGGGATAGTCTCTGCGGGGATACTACCATTTAATATTATAAAAGGAATAATTGTTGGCTTGTTATTTGTCCCATTGTATGTAAAGCTACGCGCTTGGGTAGAAGAAAAGCAAGCTAAATTTGCATCCTCGTAA MQPMNKQSSKLMKVIVLALLGTISLLLFFLNFPLPLLPAFLKIDFSDVPALMASFIFSPVAGVLVVAIKNLLYLAVSGAADPIGVLANFIAGMMFVVPVSMLYHKFKGVKSIVSGLVTGTIVMAVGMSVLNYFVFLPAYAWFMGWEDMSNTAIKWGIVSAGILPFNIIKGIIVGLLFVPLYVKLRAWVEEKQAKFASS NA NA NA NA NA AK015_02097 1458 yfmT COG1012 Benzaldehyde dehydrogenase YfmT ATGTCATTTAAAAAATTGCCAAGTCAATATATTAACGGCGTGTGGAAAGAGGGGGCTTCTCCCCTTATTATGGAAAACAAAAACCCTTATAATGGCGACCTTCTCGCCACATATCGTGCAGGCAGTAAAAAAGATTTGGATGATGCTTATCAAGCTGCAAATGCGGCACAGAAACAATGGGAAAAAACCAACCCTGTTACTAAGCGCGAGGTGTTTGAAAACGCAGTTCAATATATAAACGATAACTATGAATCCATTGTTAAAATAATAATAGAAGAGATTGGTGGGACAAGGTTAAAAGCAGAATTTGAAATAGGACTTGTAACCAACATCATAAAAGAAGCTACCACATTTCCTTTTCGAATGGATGGGAAAATCTTAACCTCCCCTATCGATGATAAGGAAAATAGAGTTTACCGTGTTCCTGTAGGTGTTGTTGGCGTAATCAGCCCATTCAATTTTCCATTTTTCTTATCCATGAAATCGGTAGCAACAGCATTGGCAACTGGTAATGGAGTTGTGCTAAAACCCCATGAACATACACCAATTACTGGTGGAACAATGATTGCATCTATTTTTGAACATGCTGGATTACCAAAAGGTCTACTCAATGTAATCACAACAGAAATTTCGGAAATTGGGGATGACTTTGTTGCACACCCTATCCCTCGAGCTATTTCTTTTACCGGCTCCACAAAAGTTGGAAAACATATCGGTGCCATTGCAGGAAAACATTTAAAGGATGCACACTTAGAATTAGGAGGAAATAGTGCATTAATAGTATTAGAAGACGCGGACATTGATTTAGCGGTAAGTGCTGCTGTATTTAGTCGTTTTACGCACCAAGGGCAAATTTGCATGTCTGCGAATCGCTTAATTATACATGAAGCAGTTTATAACGAATTTGTTGAAAAATATGTAGCGAAAGTAGCTACATTACCGTGCGGAGATCCCAAAGATCCAAACACCATTATTGGGCCGTTAATTAATCAACAGCAAGTAGAAACAACTAAAGCTTTCATTACTAAAGCAATAGAAGATGGAGCCAAGCCTATTCTTCAAGGAAAAATAGAGGGAAATGTGATAGAACCTGTGATCTTCACAGATGTAACTCCTACTATGTCTATAGCAAAAGAGGAAGTATTTGCCCCTGTTGTATCTATTTTACAAGCATCAAACGACGAAGAAGCCATTTCTATTGCAAATGATACCTTATATGGTCTAAGTGGAGCTATTCATACAAGAGACGTTGAGCGTGGTGCAGAGCTTGCAAAGCAATTAGATACAGGGATGATCCACATTAATGACGGGACCATTAACGACGAGCCTCATGTCGCATTTGGGGGAATGAAAAATTCAGGTTTAGGACGTTTAAATGGGGAATGGAGCTTAGATGCCTTTACTACTTTTAAATGGATTAGCGTTCAGCACAAGGCTAGAAACTATCCATATAGTTAA MSFKKLPSQYINGVWKEGASPLIMENKNPYNGDLLATYRAGSKKDLDDAYQAANAAQKQWEKTNPVTKREVFENAVQYINDNYESIVKIIIEEIGGTRLKAEFEIGLVTNIIKEATTFPFRMDGKILTSPIDDKENRVYRVPVGVVGVISPFNFPFFLSMKSVATALATGNGVVLKPHEHTPITGGTMIASIFEHAGLPKGLLNVITTEISEIGDDFVAHPIPRAISFTGSTKVGKHIGAIAGKHLKDAHLELGGNSALIVLEDADIDLAVSAAVFSRFTHQGQICMSANRLIIHEAVYNEFVEKYVAKVATLPCGDPKDPNTIIGPLINQQQVETTKAFITKAIEDGAKPILQGKIEGNVIEPVIFTDVTPTMSIAKEEVFAPVVSILQASNDEEAISIANDTLYGLSGAIHTRDVERGAELAKQLDTGMIHINDGTINDEPHVAFGGMKNSGLGRLNGEWSLDAFTTFKWISVQHKARNYPYS PGPT0005525_113 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 AK015_02098 864 yfmS COG0840 Putative sensory transducer protein YfmS ATGAAGGAAACAACAGTTGAGCAAATAAATACGCACCCTTTGCTGCAGTCATTTGTTACTGTTGCTCCATTTTTACAAGATTTAATTAACGATGATATTACAATAGGTATTTATGACACAGAGAAGTTAATTATTAATTTTCCGGCTAACACTTTCTCTTTAAATGTGCAACCTGGCGATCCATTAGTAGAAGGGGATATAGTAACAAATGCCATTCGGCAAAATAAAAACCAATCGGCCATCGTTCCTGCTGAGTTATTTGGTGTGAACTTGATTGCTCGTGCTGTACCACTTCATGATGAGACTGGAAACCTTATTGGGGGTGTTGGGGTCGGGCTTAGTGTGGAAAGAGCAAATCAGCTGTCCGAAATTTCTTCTAATTTGTCAACTGTTTTTGAAGATGTAACCAATACCATACAAGATATGGCAGAATCCATTTCCGGTTTAGCAAATAACATGTCCGTCGTCTCAGAAAAAGCTACAGAAGTTACCAAACAAGTAGATACAATCGAAGACGTCTCCAATGTGGTGAAAGGAATAGCTGACCAAAGCAATTTATTAGGATTAAATGCAGCCATTGAATCTGCCAGAGCTGGGGAGCATGGGAAAGGATTTTCGGTTGTAGCAAATGAAATTAGAAAAATGGCGACAAACTCCAAAGATCATGTGTCTGAAATCCAAACAATAACAAATACGATTAAAGAAGTCATTGCTAATTTGAATAAGCATATTCAAGATACGAATGTAGAATCAGATAGCCAATCAGCGGCTATTGAAGAATTATCTGCAACTGCGCAAGAAATAAATAGTAATATTCAATTACTAGCTCAACTTGCCAAAGAAAATATGCAACTGAAAAATTAA MKETTVEQINTHPLLQSFVTVAPFLQDLINDDITIGIYDTEKLIINFPANTFSLNVQPGDPLVEGDIVTNAIRQNKNQSAIVPAELFGVNLIARAVPLHDETGNLIGGVGVGLSVERANQLSEISSNLSTVFEDVTNTIQDMAESISGLANNMSVVSEKATEVTKQVDTIEDVSNVVKGIADQSNLLGLNAAIESARAGEHGKGFSVVANEIRKMATNSKDHVSEIQTITNTIKEVIANLNKHIQDTNVESDSQSAAIEELSATAQEINSNIQLLAQLAKENMQLKN NA NA NA NA NA AK015_02099 1695 hypothetical protein ATGCGTAAGTTATTTACATTTAAAAGCATTCGGATGAAACTTTTTTTTGCTTTTTCGATTGTAATTATGCTAGTTATCTTATTAGGAGTCATAAATGTAATAAGCATTAACAGAAGTAATCAGGGTACAGAAGAAATGATACAACAGGATATGCAATTATTAGTTACTGAAGAACAATTGGCAATTAATATGGCTGAGCGAACCGGTTATTTGCGAGGGTACTTATTATATAATGATGAACGATATAAACAGAGCTTCCAAAATACAATTGATGAAACGTTAGAATTGGAGAACTATGTTTCAAAACACAATAATTCGGAAGAAGTTAAGCTTTTAATGGAAAAGAAACTAGAATGGGGTGAACTGACGGATAAGTTCTTTCAAGAAATGGACGAAGGAAATAGTGCTAAAGCAAAGGTCATCATGGCAAATGAAATTCAACCAATTGGAAATCAATTAATTGATGGATTTAAGGAGTTAGCACAAAAGAGTGAAAACAATATTACAAATAAAAGTGAGGACGTTATTCAAGCTGGAGAGTTCACGTTAAGCTTTGGGTTGATCGTTACAGTATCCGTTGTAGTACTAGGAGTGCTTACTGCATTGCTAACTGCTTATTCCATAGCAAAACCGTTAAAGCGTGTGAAAGAAAGAATGACGAAGATAGCTAACGGAGAACTGAATAATGAACCGCTAGATATAAAAGGAAAAGATGAAATTGCTGAGCTAATGGCGACAACGAACGAGATGAATGAGCAATTAAAAGAATTGTTAATTTCCATTAAAAATGTGTCTAGCGTGGTTGATGATAAATCGAAAGCTCTGAACCAAGCTTCTGATGAAATGCAGCAAGGGACAGAGCAGGTGGCTGCGACGATGGAAGAGCTTGCTTCTGGGGCAGAAAATCAGGCAAATCATGCAGCTAATTTAGCAAGTATGATGAACGATTTAAACAATATCATCCAAGAAGTGAGTCAGAACAGTAATCGTATAGAGAAATCTTCTAAGGGAGTTTTAGTAAAAACAAAGTCTGGACATGATATTATGGGAACGACAAACGACCAAATGGTGAAGATAGATCATATTGTAAAGAATGCTGTAGAAAGCGTACGCGGTTTAGATATAAAAACGAAGGAAATTTCAAAATTAGTAACTGTGATAGGTGAAGTCGCTGAACAAACGAATTTATTAGCGTTAAATGCAGCCATTGAAGCAGCAAGGGCTGGGGAGCATGGGAAAGGCTTTGCGGTCGTTGCCGATGAAGTACGGAAACTGGCAGAACAGGTATCTTTGTCACTAAATGATATTACAAAAGTAGTTAATGATATTCAAACAGAGTCCGATCAAGTAACTACATCACTTCAAGATGGATATAAAGAGGTAACTGCTGGTTCAGAACAAATGAAAGAAACAAAAGATACATTTGAATCTATATATCATTCTGTCAATGAAATGGCAAATGCAATATCTCAGGTTAAAGAACATTTTGATTGGGTTTCTGAAAATAGTAAAGAGATGCATGGTTCTGTGGGGGAAATTGCGGCGATTTCTGAAGAGTCTGCAGCTGGTATTGAGCAAACATCTGCCTCTGCTCAGCAAGCTAGTAGTTCCATGCAAGAAGTATCTGCCAACGCTGACCGCCTCTCCAAACTCGCAGACAATTTAAAAACTTTAATGCAACGATTTACTATATAA MRKLFTFKSIRMKLFFAFSIVIMLVILLGVINVISINRSNQGTEEMIQQDMQLLVTEEQLAINMAERTGYLRGYLLYNDERYKQSFQNTIDETLELENYVSKHNNSEEVKLLMEKKLEWGELTDKFFQEMDEGNSAKAKVIMANEIQPIGNQLIDGFKELAQKSENNITNKSEDVIQAGEFTLSFGLIVTVSVVVLGVLTALLTAYSIAKPLKRVKERMTKIANGELNNEPLDIKGKDEIAELMATTNEMNEQLKELLISIKNVSSVVDDKSKALNQASDEMQQGTEQVAATMEELASGAENQANHAANLASMMNDLNNIIQEVSQNSNRIEKSSKGVLVKTKSGHDIMGTTNDQMVKIDHIVKNAVESVRGLDIKTKEISKLVTVIGEVAEQTNLLALNAAIEAARAGEHGKGFAVVADEVRKLAEQVSLSLNDITKVVNDIQTESDQVTTSLQDGYKEVTAGSEQMKETKDTFESIYHSVNEMANAISQVKEHFDWVSENSKEMHGSVGEIAAISEESAAGIEQTSASAQQASSSMQEVSANADRLSKLADNLKTLMQRFTI PGPT0015710_16770 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 AK015_02100 1959 ltaS1_2 COG1368 Lipoteichoic acid synthase 1 GTGAAGAAATTTATATCCAGTAAATTAGGATTCTTCGCGGTAGCACTAGTGCTTTTTTGGGTGAAAACGTATTTGATATATAAATTTGAATTCAGCTTAGGGGTAAGTGGAGCAATGCAAGAATTTCTATTATTCTTTAACCCACTAAGTTCTGCCTTAATTTTTCTAGGACTAGCGTTATTTGCAAAGGGTAGAAGAGCTGGAATTTGGATTATCATTATTGATGCGATACTTACATTTATTTTATATGCGAATGTCGTGTTTTATCGTTTCAATAGTGATTTCATTACGATTCCAACGATGCTTCAAACAGATAACTTCGGCAGCATAGGAGGAAGCATTGCTGACCTAGCACAGTGGAGCGATTTATTGTATGGGATTGACATTATTTTATTAATCGGGTTATTTGTTTTTGTGAGAAAGAATTGGTCTGTGCAACGGATGCAATTCCGTAAACCATTTTTAGTAATTGCAGCTGGGGTATTAGCTTTTAGTATTAATCTTGGTTTAGCGGAAGCAGACCGACCACAATTACTAGAACGTACATTTGATAGAAACTATCTAGTAAAATATTTAGGAGCATTCAATTTTACAATCTATGATGCTATTCAAAGTGCAAAGACGTCAACAAGGCGCGTTTTAGCTGATAGTAATGACATTACGAAAGTAGAAAATTACACGAAATCTAAGTATGCGGCACCAAATGAAAAGTACTTCGGTAAAGGTGAAGGGAAAAATATTATTAAAATTCACTTGGAGTCATTTCAATCATTTTTAATTGATTACGAGCTCCATGGAGAAGAAGTAACACCATTTCTTAATTCCTTAGTTCATGAACAAGAGAAAGGTTTTACGTACTTTAATAACTTCTTTCATCAAACAGAGCAAGGGAAAACAGCAGATGCTGAATTAATGCTGGATACGTCGTTGTATGGTTTACCACAAGGTTCAGCTTTTGTTACAAAAGGTAATAATACGTATCAAGCATTACCGGCAATTCTCGAACAAGAGCAAAATTATACAAGTTCTGTTTTTCATGGTGATGGAAAGTCGTTTTGGAATCGGGATGAAGTATATAAACACCTAGGAATTAATGAATTTTATCATGAAGATTTCTATGATATGAGTGAAGAAAATGTTATCAATTATGGATTGAAAGATAAACCTTTCTTTGAACAATCCATGCCGTATTTAGAAGATATGGATCAACCATTTTACGCGCATATGATGACCTTGACGCATCATCATCCGTATTTGATTGATGAGGAAGATGCTACCATTGAGCCTGCTGAAACGGGTGATGGATCAGTAGATCGATATTTCCAAACAGCTCGCTATTTAGATGAATCATTAAAACAATTTTTCAATGATTTGAAAGAAAAAGGGCTCTATGAAGATTCGATTATCATGATTTATGGTGATCACTATGGTATTTCTGATAACCATAATCGTGCAATGGAAGAAATAACGGATGAAGAAATTACACCAATGAAGAATGCAGACTTACAACGTGTTCCGTTTATGATCAGAATTCCTGGTGTAGAGAGTGAAGGAACAGTAGAAACATATGCTGGTCAAATTGATGTCATGCCGACCATGCTTCATATTCTTGGTGTTGATGCGAAAGACTATATTCAGTTTGGTACTGATATGTTCTCTGAAGACCATCATGAGGTTGTTCCTTTCCGTAATGGAAACTTTATGTCGCCAGAGTACAGCTATGTAGACGGAAAATATTATGATAGTGAAACAAAAGAAGTTATTGAAGAGCCTACAGATGAAATGAAAGAAATGCAGGAGAAAGTTATGAAAGAACTTGAGCTCTCCGATGAAGTGCTATATGGCGATCTACTTCGTTTTTACACACCGAATGAAAAGTGGGACGCCGTTGATACAAGTGATTATTTCTATGGTGGTCCAGAAAGTGTTATAGATGAAAGTGACAATAAAGAAGAGTAA MKKFISSKLGFFAVALVLFWVKTYLIYKFEFSLGVSGAMQEFLLFFNPLSSALIFLGLALFAKGRRAGIWIIIIDAILTFILYANVVFYRFNSDFITIPTMLQTDNFGSIGGSIADLAQWSDLLYGIDIILLIGLFVFVRKNWSVQRMQFRKPFLVIAAGVLAFSINLGLAEADRPQLLERTFDRNYLVKYLGAFNFTIYDAIQSAKTSTRRVLADSNDITKVENYTKSKYAAPNEKYFGKGEGKNIIKIHLESFQSFLIDYELHGEEVTPFLNSLVHEQEKGFTYFNNFFHQTEQGKTADAELMLDTSLYGLPQGSAFVTKGNNTYQALPAILEQEQNYTSSVFHGDGKSFWNRDEVYKHLGINEFYHEDFYDMSEENVINYGLKDKPFFEQSMPYLEDMDQPFYAHMMTLTHHHPYLIDEEDATIEPAETGDGSVDRYFQTARYLDESLKQFFNDLKEKGLYEDSIIMIYGDHYGISDNHNRAMEEITDEEITPMKNADLQRVPFMIRIPGVESEGTVETYAGQIDVMPTMLHILGVDAKDYIQFGTDMFSEDHHEVVPFRNGNFMSPEYSYVDGKYYDSETKEVIEEPTDEMKEMQEKVMKELELSDEVLYGDLLRFYTPNEKWDAVDTSDYFYGGPESVIDESDNKEE PGPT0023375_654 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 AK015_02101 258 hypothetical protein ATGGAATATACAAGCTTTAGTAAGTGGCTTGTGCTTGCATATAGGCGAAAAGGAACGTTTGTTCCGTTTTTGTGTATGGAATTCTATATGTATGGCATACTAAATAAAGATAACGTTCTTGTGGAGTCGGCGGCAAACCCTATAAGAAAGGGGGTGAGCCAGGTGAATGTATATGAAGTTTTTGTAGTTATTTTCGCATTTGGCACCTTTCTGGTGACATTGTTGACGTTAGTGGTACGCATCATGAATAAAAAATAG MEYTSFSKWLVLAYRRKGTFVPFLCMEFYMYGILNKDNVLVESAANPIRKGVSQVNVYEVFVVIFAFGTFLVTLLTLVVRIMNKK NA NA NA NA NA AK015_02102 1206 yycB COG2807 putative transporter YycB GTGGAACAAATGAAAGAAAAGAAATCCGTTTTGTATCAATATTTATTAATAGCAGGTATTATTGTCGCTGCTTTTAACTTGCGACCAGCAATCACTTCTGTTGGACCGCTTATCGGTATGATACGTGACCAACTAGAATTAGCTAATTGGAGTGCAGGGTTACTTACGAGTCTGCCATTATTAGCATTTGCGGTTATGTCACCGCTTGTAGCGAAGTTCAGTTATCGATATTCCAATGAGATGATTATGCTCATAGGGCTGCTTACTTTGTTTCTCGGTATTAGTTTACGCAGTGTTTCGATGGCTGTATTTGTTTTTGCAGGAACGTTATTCATTGGCTTAGGAATTGCGGTTTGTAATGTTCTTTTACCGAGTATAATAAAAGAAAAATTTCCAACGAAAGTAGCATGGATGACAAGCCTTTACTCTACAGCTATGGGGATTTTTGCAGCATTAGCTTCTGGAGTAAGTGTTCCTATAGCGGAAGGGTTCGGACTTGGATGGCAGATGGCTTTATGGATTTGGGCTCTACCGGCATTGATCGGGACGGTAGTATGGTTTTACCTAACAAAACATGAAAAAATGAAGCATCCTGTTTATTATCATGGGAATAACAGTGAGAAAGAACGAATATGGCTTTCGTCACTAGCTTGGCAAGTAGCGGGATTCATGGGGTTTCAATCTTTTTTATTTTATGTCACGATATCATGGATGCCAGAGATTTTGCAGGCAAATGAGATAAGTGCTTCAACAGCAGGTTGGCTATTATCTTTTATGCAATTTATTGGATTACCTGCAAGTTTTCTTGTACCTGTAATTGCTGAGAAAATTCGTTCTCAACAAGGGCTTGTACTAGCATTAGGATTATTTTCTGTTAGTGGATATGCTGGTTTATTATTCGGAGAAACATTTTCTATTATGGTGATCAGTGTTATTTTAATTGGCTTTTCCTTAAGCGGTACATTTGCCTTGGCATTGACATTTCTTGGTATGCGAGCGAAAACTGCAAAACAAGCTGCCTTTTTATCAGGAATGGCACAGACCTTTGGTTATATTCTTGCTGCTTTTGGGCCGTTTATGATAGGATTTATTTTTGATAAAACCAAGAGCTGGGACGTTTCATTAGTAGTGTTAATTATCGTTTCTGTGATTGTTGTAACATTTGGTTTTGGTGCAGGGAGAGACAAGTATGTTTTTGAAAAATAA MEQMKEKKSVLYQYLLIAGIIVAAFNLRPAITSVGPLIGMIRDQLELANWSAGLLTSLPLLAFAVMSPLVAKFSYRYSNEMIMLIGLLTLFLGISLRSVSMAVFVFAGTLFIGLGIAVCNVLLPSIIKEKFPTKVAWMTSLYSTAMGIFAALASGVSVPIAEGFGLGWQMALWIWALPALIGTVVWFYLTKHEKMKHPVYYHGNNSEKERIWLSSLAWQVAGFMGFQSFLFYVTISWMPEILQANEISASTAGWLLSFMQFIGLPASFLVPVIAEKIRSQQGLVLALGLFSVSGYAGLLFGETFSIMVISVILIGFSLSGTFALALTFLGMRAKTAKQAAFLSGMAQTFGYILAAFGPFMIGFIFDKTKSWDVSLVVLIIVSVIVVTFGFGAGRDKYVFEK PGPT0005211_2787 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_CYANATE_DETOXIFICATION XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449 NA NA AK015_02103 1269 ynfM Inner membrane transport protein YnfM ATGTTTTTGAAAAATAATGTAACAAAAGAAGAGAATTCAAATAAAACGATTGAAAAAAAACCATATAGTGTGAAAGATAGTTATTTTTGGAGGATTAATGCTAGTTTAGCGTTAGCATCTTTTTTTATTTTTGCTAGTATGTACGCAATTCAACCTTTATTGCCAGTCTTTGTTGATGAATTTCAAATTAGTGTTTCCGTTTCTAGTTTATCTATGTCATTTACTATTATTGGTTTAATTGTAGGTTTAATCATCTTGGGCTTTTTATCAGATCGAATGGGAAGAACGCAGTTTATTAAAATATCCTTATTAGGAGCTATTTTTCCGTTTCTGCTTATGCCAATCACTGATAGTTTTATAATATTTATTATACTTCGGTTTATACAAGGCTTTGCTCTTGCTGGTTTACCAGCTGCAGCACTTGCTTATTTACATGAGGAGATTGAACCTAAAAGTGCAGCTTTTGCAACAGCATTATATATATCTAGTAATGCACTTGGAGGGATGGCTGGAAGAGTAATAACGGGGATAGTGTCAGATGCTATATCTTGGCAGGTTGCCTTTTATGGACTAGCTGCATTTGGAGGTCTTATTTTAATATTAACTCATTTCTTGCTTCCACATTCTAAACATTTTCAACCTAGCCGGCTACGATTTAGTAAGGATATAGACGGATTTCTATTTCATCTTAAAGATCCACAATTGTTACTCGTTTTTGGATTAGGAATTGTTTTGCAAATGTCGTTTACAGGGGTTTGGACCTACTTGCCTTTTTATCTACAAGAAGAGCCATTTTTATTATCACTGCATACTATTTCTTACTTTTTTCTGGCATATGGGCTTGGAGTCATTGGTTCACCTTTAGCCGGGTGGCTTTCCAGTTTCATAGGGTTAGAAAAAGTTCGCATAGGTGGTATGCTTACCTTAGGTATTGGTATATTGTTTACAGTACATAACTCATTACCTATTATTGTGGTTGGGCTTTGCATTACTTGTCTTGGCTTTTTTACAGCACATTCATTGACAGCTTCTTCTGTCAGTGAAACAGTTACACACCATAAAGGGAGTGCTTCTAGCTTGTATTTGGTTTCCTATTACATAGGTGTTACCTTAGGTAGTTCTGCTTTAGCGCCGATTTGGGAAAATTTCCATTGGAAAGGACTAGCTGTGTTACTTGGACTAATACCAATGGTTTATTTACTTGTCAGTCGTTCTATTCCACACGGTAGGCGTCAGAACACTTCCAATTCTGCTTACATGAATAAATAA MFLKNNVTKEENSNKTIEKKPYSVKDSYFWRINASLALASFFIFASMYAIQPLLPVFVDEFQISVSVSSLSMSFTIIGLIVGLIILGFLSDRMGRTQFIKISLLGAIFPFLLMPITDSFIIFIILRFIQGFALAGLPAAALAYLHEEIEPKSAAFATALYISSNALGGMAGRVITGIVSDAISWQVAFYGLAAFGGLILILTHFLLPHSKHFQPSRLRFSKDIDGFLFHLKDPQLLLVFGLGIVLQMSFTGVWTYLPFYLQEEPFLLSLHTISYFFLAYGLGVIGSPLAGWLSSFIGLEKVRIGGMLTLGIGILFTVHNSLPIIVVGLCITCLGFFTAHSLTASSVSETVTHHKGSASSLYLVSYYIGVTLGSSALAPIWENFHWKGLAVLLGLIPMVYLLVSRSIPHGRRQNTSNSAYMNK PGPT0017201_456 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 AK015_02104 165 hypothetical protein ATGTTAAAACATTTGTTTTATGAATTAATTGGTTGGCTTTTTACCGGTGTAGGTGCTTACTTCATTTATGAAGACCCAACATTAATTCTACCTTACATTAGCCTTGGAATAGGTTTAGCTTTCATCATTTTTCATTTACCGAAGAGTTTACGGCGAAAAAAATGA MLKHLFYELIGWLFTGVGAYFIYEDPTLILPYISLGIGLAFIIFHLPKSLRRKK NA NA NA NA NA AK015_02105 1176 anmK COG2377 Anhydro-N-acetylmuramic acid kinase ATGTTAGAATCAGGGACGTCAAGCAATATTGTTATTGGTTTAATGTCTGGTACTTCTTTAGATGGTATTGATGCAGCGGTCGTCAAAATAAATGAAGATCACTCATTAAATTTTGAACTACTTCATTTTGCTAGCTTTTCCTATTCAAAAGAAATAAAAGAAAGAATTTCAAACATGTGTAATCCAGAAACAGTACGTATTGAAGAAATATCAAGCATGAATATGTATCTTGGAAAGTTATTTTCAGATGCTTCGAAACAAGTGATGGAAGATGCTAGGTTGTCATCGGAACAAATTTTGTTAATTAGTTCACATGGTCAAACGATATATCATCAGCCAGAACCAAGGGAAATAGAAGGAAATAAAGTCGTTTCAACGCTACAAATTGGGGATATTGGTATGATTGCAGAACTTACCGGTATTACAACAATTGGTGATTTTAGAACGAGAGATATGGCAGCTGGTGGACAAGGAGCTCCATTAGTACCATACACGGATTATAAGTTGTATCGGAAAGAAGAATACGGAAGAGCGCTAGTTAATATTGGAGGCATTTCCAATGTAACCATACTTCCAAAAGGATGTAAAGAAGCGGATGTACTAGCTTATGATACCGGGCCTGGAAATATGATAATGGATGCTTTTACAAGTTTGGCTACAAACGGTGTACAAAGTTATGATGAAAATGGTGCTATAGCAGCAAAAGGGACAGTCAATGAAGCCTGGCTGTCGCAGCTTTTAGATCACCCTTACTTCCATCTAACAACACCTAAAAGTACGGGAAGAGAATTATTCGGAGAAGCGTACTCTAACCAGCTATGGCTTGAAGCTGAGCGTCTTCAAATTGATAATGATGATAAAGTGGCTACGGTAACGGCTTTAACTGCAAAGACCATTGCTTTAGAGATTAATAAATATATAGCATCTGCTAGCTTAAAAGAAGTGTTTATTAGTGGTGGGGGCAGATATAATAAAACGCTATTAACGTTTATTTCTAAATATTTGTCTAAGGACGTCATTGTTTGCGGAACGGATGAGATTGGAATGCCTGCAGATGCCAAAGAGGCGATCTCTTTTGCTTTACTAGGATATCAATGTTATAAGCAAAGAACGAATAATCTCCCTGCGGCAACTGGTGCAAATAAGCCAGTAGTTATGGGGAAAATATCGTGGTAG MLESGTSSNIVIGLMSGTSLDGIDAAVVKINEDHSLNFELLHFASFSYSKEIKERISNMCNPETVRIEEISSMNMYLGKLFSDASKQVMEDARLSSEQILLISSHGQTIYHQPEPREIEGNKVVSTLQIGDIGMIAELTGITTIGDFRTRDMAAGGQGAPLVPYTDYKLYRKEEYGRALVNIGGISNVTILPKGCKEADVLAYDTGPGNMIMDAFTSLATNGVQSYDENGAIAAKGTVNEAWLSQLLDHPYFHLTTPKSTGRELFGEAYSNQLWLEAERLQIDNDDKVATVTALTAKTIALEINKYIASASLKEVFISGGGRYNKTLLTFISKYLSKDVIVCGTDEIGMPADAKEAISFALLGYQCYKQRTNNLPAATGANKPVVMGKISW NA NA NA NA NA AK015_02106 1650 sdcS Sodium-dependent dicarboxylate transporter SdcS ATGATTTCGTCAACTTGGAATTGGATGTGGGAGAAACATGACGAATTAAAATCTTTTTTTACATTTTTTGTCCAAGCTAATTCCTCTAGATTATCAACTGGTAGATCCATAGACCCTTCCGATAGTCTAGTAGGAAACAATAATGATCCGGGGAAAAATCGTAACTATAAGCCTGGGCAGCTTATTGGTTTAATTGCAGGTCCATTATTATTTACCATCACTTTATTATTCTTTTCACCTGAAGATTTATCTCAACAGGGATTAGCCGTTTTAGCTAGTACGATTTGGGTTGCAATTTGGTGGATGACCGAAGCAATCCCCATTCCAGCAACTTCTTTATTACCAATAATTTTATTTCCTTTAACAGGTGGCTTAGATATTGGTACTACTACATCTTCCTATGGAAGCGATACCATATTTTTGTTTATGGGTGGTTTTATGATAGCGCTAGCAATGGAAAAATGGAATCTACATAGGAGAATTGCACTATCCATTATTTCTGTAATTGGTACGAACACGAACCGTATTATTCTAGGATTCATGGTTGCAACTGGTTTTTTATCCATGTGGATTTCTAACACTGCTACAGCAATGATGATGGTTCCTATTGGTTTAGCTATTATTTACCAAATTTCAGACGCCTTAAAAGACGATCCTTCCATCGACACATCTAAAGAGAACTTTGCTTTTGGAAAGGCTCTCATGCTGAGTATTGCATATTCAGCATCTGTTGGAGGTATTGCTACATTAATAGGAACACCTCCTAACGCAGCATTAGCAGGCGTCATTAATAAAATGTATGGAATAGAGCTATCTTTTGCGAAGTGGATGTTATTTGGCGTGCCAATCGCATGGGTGTTTATTTTTATCATTTGGTTCTACCTAATTAAAATAGCTTACCCATTAAAACTAAAACAGCTTCCTGGTGGCAAAGCATTGATTCATCAAGAAAAGCAAAAGCTTGGGAAACCTTCCGCTGAGGAAAAGGCTGTTTTCACTGTATTTATTCTAGCAGCTTTGGCTTGGATTACTCGTTCATTTTTACTTGTTCAAATTAACCCTAATATAAATGATGCGATTATCGCTATGAGCGCAGCTATCCTTTTGTTTTTGCTACCCTCCAAAAATTATAAAGACACGTTTCTATTAGATTGGAATACAGCTGTGAAGCTACCATGGGGAATCTTGTTATTATTTGGGGGCGGTTTAGCAGTAGCAGCAGGATTTACGCAGTCTGGCCTTTCTGAATGGATCGGAAATCAATTAACTGCATTGCAAGGTATTCATATTTTTATTGTATTGCTAGTTGTTGCAGGACTAGTCATATTCTTAACAGAGATTACTTCCAATACCGCAACAGCAAATATGATGTACCCTATCATGGCGGCGCTCGCTTTAGCTCTAGGAGTCCATCCATTCGTAGTCATGATCGCTGCTGGTGTAGCTTCATCTTGTGCTTTTATGTTACCGGTTGCTACCCCACCAAATGCCGTCGTCTTTGGTTCAGGTTACTTACGAATTCCAGATATGGTTAAAGCTGGTGTGGCGTTAAATATAATTGGCTCTATTTTAGTCACGGTAGCCATTTATTTCTTACTGCCGATGCTTTGGGGAATAAACATTACGGAAGTACCTGATTTTGTGAAATAA MISSTWNWMWEKHDELKSFFTFFVQANSSRLSTGRSIDPSDSLVGNNNDPGKNRNYKPGQLIGLIAGPLLFTITLLFFSPEDLSQQGLAVLASTIWVAIWWMTEAIPIPATSLLPIILFPLTGGLDIGTTTSSYGSDTIFLFMGGFMIALAMEKWNLHRRIALSIISVIGTNTNRIILGFMVATGFLSMWISNTATAMMMVPIGLAIIYQISDALKDDPSIDTSKENFAFGKALMLSIAYSASVGGIATLIGTPPNAALAGVINKMYGIELSFAKWMLFGVPIAWVFIFIIWFYLIKIAYPLKLKQLPGGKALIHQEKQKLGKPSAEEKAVFTVFILAALAWITRSFLLVQINPNINDAIIAMSAAILLFLLPSKNYKDTFLLDWNTAVKLPWGILLLFGGGLAVAAGFTQSGLSEWIGNQLTALQGIHIFIVLLVVAGLVIFLTEITSNTATANMMYPIMAALALALGVHPFVVMIAAGVASSCAFMLPVATPPNAVVFGSGYLRIPDMVKAGVALNIIGSILVTVAIYFLLPMLWGINITEVPDFVK NA NA NA NA NA AK015_02107 603 pcp COG2039 Pyrrolidone-carboxylate peptidase ATGAAAAAATTATTGTTAACTGGTTTCGCGGCATTCCTAGATAATCCAATAAACCCCACAGAAAAAATAGTAGAAGAACTAGATGGAGAAGTAATAGATAGTTATAAAATTGTTGCTAGAAAATTGCCGGTTGATTTTATGATGGCAGGAAAACAATTGATTGCATATATAGAAGAACTAGAGCCAGAAGCTGTGATTGCTTTGGGATTGGCTGCAGGAAGAAGTGCTATTACACCTGAGCGGATTGCGATAAACTGTAATGACGGTTTAAAAGATAATGGAGGATACCAACCGCATGGAGAGAAAATAGTAACTGGTGGTGCAGATGGTTATTTTTCCACCTTACCCTTACATAAAATAATTGATGCATTACATGAAGAAAAGCTACCTGCACATATATCAAATACTGCCGGTACATACGTATGCAACAACGTTATGTATCACGCATTACATTTTGTACAGAAGCATGCTTTATCCATCCCAGTTGGTTTTATCCATCTTCCAGCATCTCATGAGCTCGCTTTAAAAAAACAACTTCCTAGCTGGTCGCAGTCCGATTTAACGCGCGCTGTAAAAACAATTATTTCTACTTTATCTCGATAG MKKLLLTGFAAFLDNPINPTEKIVEELDGEVIDSYKIVARKLPVDFMMAGKQLIAYIEELEPEAVIALGLAAGRSAITPERIAINCNDGLKDNGGYQPHGEKIVTGGADGYFSTLPLHKIIDALHEEKLPAHISNTAGTYVCNNVMYHALHFVQKHALSIPVGFIHLPASHELALKKQLPSWSQSDLTRAVKTIISTLSR NA NA NA NA NA AK015_02108 1179 mdrP_3 Na(+), Li(+), K(+)/H(+) antiporter ATGCCAAAACAAATTTGGCTACTTGTAATTGCAACAACGGTACATGTCACTGGTGCTTCTTTCTTATGGCCATTAAACACTATATATATGCACAATGAATTGGGGAAAAGCCTTGCTTTTGCAGGGTTTATTTTAATGCTTAACCAAGGTGCTTCCATTGCAGGTAACTTACTAGGCGGTATATTGTTTGATAAGTTCAGCCCTTATAAAACGATCCTTTTCGGAACAGGGTTAGCAATGACGGCTTCTACCGTTATGGTATTATTGCATCATGACATTGTATATTATTCTATTGCGCTTATTCTAATAGGTTTTGGTTCTGGGATAACCTGGCCTGTTATGTTTGCGATGGCTGGTTCGATTTGGAAAGAAGGAGGAAGACGTGCGTTTAATGCCATATATGTTGCTCAGAATTTTGGAGTTGCATTAGGAGCTACTGTCGGTGGCTATGTAGCAAGTATATCATTTAATTATATTTTTATAAGCAATGCGATTTTGTTTTTTAGCTTTTTTCTTATTGTTTTCATGACGTTTAAACCAATGGATGCTTATATAGATCGCCAGATGCATACGACCGTTTTAAAACAGCAAGGAAATATTAAAGATAAAGCAGCTTTTATCTCCTTATTTATTTTATGTGGCGGCTTTTTAATAACTTGGATTGCTTATAGTCAATGGCAATCCACTATTGCTTCCTATACGCAAGATTTACAAATACCATTAGAATTATATAGTACCTTATGGGCAATTAATGGCTTTCTTATTGTGTTAGGTCAGCCTTTCATAAAGTTGCTTACCACAAAGGTTACTTCACAAAAAATGCAAATATATGTGGGCAATACCATATTTCTTATATCTTTTCTGATTGCGTTATGGTCAGAAACCTTTAGCATGTTTGCGATAGCTATGGTAATCTTAACAGTGGGAGAAATGCTTGTTTGGCCTGCCGTTCCTACTTTGGCAAATGATTTAGCCCCACAAGGAAGGACAGGTTTTTATCAAGGAATCGTAAATAGTGTTGGTGCCGCAGGAAGAATGGTCGGACCAGTATTAGGTGGGGTTATTGTAGATATGTTTAACATTGAATTGTTATTCTTTATTTTATTAGCACTACTTATCATTCCTTATATAACAACGAGTATGTATGATCGGGGTTTTGTTTTAACTAGAAATACTTGA MPKQIWLLVIATTVHVTGASFLWPLNTIYMHNELGKSLAFAGFILMLNQGASIAGNLLGGILFDKFSPYKTILFGTGLAMTASTVMVLLHHDIVYYSIALILIGFGSGITWPVMFAMAGSIWKEGGRRAFNAIYVAQNFGVALGATVGGYVASISFNYIFISNAILFFSFFLIVFMTFKPMDAYIDRQMHTTVLKQQGNIKDKAAFISLFILCGGFLITWIAYSQWQSTIASYTQDLQIPLELYSTLWAINGFLIVLGQPFIKLLTTKVTSQKMQIYVGNTIFLISFLIALWSETFSMFAIAMVILTVGEMLVWPAVPTLANDLAPQGRTGFYQGIVNSVGAAGRMVGPVLGGVIVDMFNIELLFFILLALLIIPYITTSMYDRGFVLTRNT NA NA NA NA NA AK015_02109 741 ycsE 5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YcsE ATGGAGCAAGCAAAGAATATTAAACTCATCGCTTTAGACATGGATGGCACGTTATTAACAAAGGATCATGAAATTACACCACTGACTCGTCAAGCAATTTCAGAAGCAATGGATAAAGGAATTCATGTTGTATTAAGTACTGGACGTTGGTTGAAATCTTGTTACCCATTTGCAGAATCTTTAGGATTACAATCTTATCTCGTAACAGTGAATGGTGGAGAGATTTGGACGAAAGACCAAGAGCTTGTCGAGCAACATCTGTTCGACTCTAAGAAAATTGAACAGATGTACCATATAGCTGCAGGGCTTGGACTTACGACATGGATGATCACTACAGAACAAGTATATCGTAATGAGTTGCCAGAAAATGTTCATGAGCTAAAATGGTTGAAATTCGGTTGTGAGTCTCATGACCCAGTCACTTTAGAAAAAATGATTAAAGAGCTATCTTTTATAGATGGGCTGGAAATGACGAATTCCTTACCAACGAACCTAGAGGTAAACCCTGAAGGAGTAAATAAAGCCAAAGGTTTAGAAAAAGTTTGTAACTTGGTTGGAATAACAATGGATGAAGTGATGGCGGTTGGAGATAGTTTGAATGACATAAAAATGATTCAACAAGCTGGAGTAGGTGTTGCTATGGGTAACGCGCAAGAAGCGGTAAAAAAAGCTTCGGATTACATTACAGATGTGAACAACGCAGATGGAGTTGGCAAAGCAATTAGACGGCATGCGCTGTAG MEQAKNIKLIALDMDGTLLTKDHEITPLTRQAISEAMDKGIHVVLSTGRWLKSCYPFAESLGLQSYLVTVNGGEIWTKDQELVEQHLFDSKKIEQMYHIAAGLGLTTWMITTEQVYRNELPENVHELKWLKFGCESHDPVTLEKMIKELSFIDGLEMTNSLPTNLEVNPEGVNKAKGLEKVCNLVGITMDEVMAVGDSLNDIKMIQQAGVGVAMGNAQEAVKKASDYITDVNNADGVGKAIRRHAL PGPT0008595_899 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 AK015_02110 183 hypothetical protein ATGTCTTTTTCACGTGGACCAAAAGAACCGGTTCCAGAAGTGGAAACGAACATTTGGTCATGCACCAGTGACGACTGTCAAGGTTGGATGCGGGAGTCGTATAGTTTTGAGGAGGAACCAACATGTCCGTTATGTAAGTCCACTATGCAAAAGGAAGTAAGGACTCTTCCTGAACTTAAGTAG MSFSRGPKEPVPEVETNIWSCTSDDCQGWMRESYSFEEEPTCPLCKSTMQKEVRTLPELK NA NA NA NA NA AK015_02111 1524 ald1 Long-chain-aldehyde dehydrogenase ATGAGGTATGCTAATCCAAATACGGAAAATGCTGTAGTTCATTTTAGGGAAAAATATGATAATTTTATAGGAGGAGAATATCTTCCACCAGCCAATGGAAATTATTTTGAAAATGCAAGTCCGGTAACTGGAGAAGTATTTTGTCAGATAGCAAGATCGACAAAGGAAGATGTAGAAGCTGCGTTAGATGCCGCTCATGAGGCGAAAATGATATGGAGCCAAACATCGGTAACGGAAAGATCATTGTTGCTTCATAAAATCGCTGATCGAATGGAAGAGAACATGGAAAAGTTAGCTGTTGCAGAAACTTGGGATAATGGAAAGGCAGTCCGTGAACCGTTAGCTGCAGATATACCACTTGCTATTGATCATTTTCGTTATTTTGCAGGTGTGATTCGAGCACAGGAAGGCGGAGTTAGTCAAATTGATAAAGATACGGTCGCTTATCATTTCCATGAACCTTTAGGAGTAGTAGGACAAATTATTCCTTGGAATTTTCCAATATTAATGGCTACATGGAAATTAGCTCCTGCACTAGCTGCTGGAAACTGTGTTGTTTTAAAACCAGCTGAACAAACGCCAGCTTCTATTCATGTATGGCTTGATCTAGTGAAAGACTTAATTCCTGCAGGTGTTGTGAATGTGATTAATGGATTTGGCGTTGAAGCAGGTAAACCACTAGCTTCAAATAGTAGAATTTCAAAAGTAGCCTTTACAGGGGAAACAACTACCGGACGATTAATTATGCAATATGCGTCGGAAAATATTATTCCTGTCACATTGGAACTTGGTGGTAAATCTCCGAACATATTCTTTGCAGATGTAATGGAAGAGGATGATGGTTTTTTAGAAAAAGCGGTCGAAGGGTTTACGATGTTTGCGTTAAATCAAGGGGAAGTATGCACATGTCCATCTAGAGCATTAATTGAAGAAACGATATATGATAAATTTATGGAGCGCGCTATAGATAGGGTCAAACAAATTAAGTTAGGGCACCCATTGGATACTACTACGATGATGGGAGCACAAGCGTCTCGAGAACAATTGGAGAAAATCCAATCTTATTTAGATATAGGTAAGCAAGAGGGAGCAGAGGTTTTAATTGGTGGAAATGTACAAGAAGTCGATGACCCTGATTTGAAAAATGGCTATTATGTAGAGCCAACTATTTTTAAAGGGAATAATAAAATGCGCATTTTTCAAGAAGAGATATTTGGACCAGTTCTGTCATTAACAACTTTTAGAGATAAAGAAGAAGCACTTACGGTTGCAAATGATACACTGTATGGACTAGGTGCAGGGGTATGGACGAGAAATATTAATACCGCTTACCGTTTTGGTCGAAATATAGAGGCTGGTCGCGTATGGACAAATTGCTATCATCAATACCCTGCACATGCAGCATTTGGCGGATACAAAAAGTCTGGTATTGGTAGGGAGAATCATTTAATGATGCTTAGCCATTATCAGCAAACGAAAAACTTGCTAGTAAGCTATAGCGAAAGGCCGGCAGGATTATTTTAA MRYANPNTENAVVHFREKYDNFIGGEYLPPANGNYFENASPVTGEVFCQIARSTKEDVEAALDAAHEAKMIWSQTSVTERSLLLHKIADRMEENMEKLAVAETWDNGKAVREPLAADIPLAIDHFRYFAGVIRAQEGGVSQIDKDTVAYHFHEPLGVVGQIIPWNFPILMATWKLAPALAAGNCVVLKPAEQTPASIHVWLDLVKDLIPAGVVNVINGFGVEAGKPLASNSRISKVAFTGETTTGRLIMQYASENIIPVTLELGGKSPNIFFADVMEEDDGFLEKAVEGFTMFALNQGEVCTCPSRALIEETIYDKFMERAIDRVKQIKLGHPLDTTTMMGAQASREQLEKIQSYLDIGKQEGAEVLIGGNVQEVDDPDLKNGYYVEPTIFKGNNKMRIFQEEIFGPVLSLTTFRDKEEALTVANDTLYGLGAGVWTRNINTAYRFGRNIEAGRVWTNCYHQYPAHAAFGGYKKSGIGRENHLMMLSHYQQTKNLLVSYSERPAGLF PGPT0007176_505 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_SIGNAL-BRANCHING_STIMULATION PLANT_BRANCHING-AUXIN|IAA_METABOLISM PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138 NA NA AK015_02112 357 hypothetical protein ATGGTAGAACGGGTAACAGCGACGAAAGCAGCACTTCAATTGTTAGAAAAGTTGAAACGTGAACATGGAGAAGTAATGTTTCATCAGTCTGGAGGATGCTGTGATGGAAGCTCACCAATGTGCTATCCTCTCCATGAGTTTCGTGTCGGTGATGCGGATGTGTTATTGGGTAGTATTGCTGGAGTGCCATTTTATATATCAAAGGATCAATATGAATATTGGAGCAACACACAGCTCATTATAGATGCAGTTAATGGAAGGGGAGGCATGTTCTCCCTAGAAGGGCCTGAAGGGAAGCGTTTTTTAACGAGATCTAGAGTTTTTACGGAACAAGAACAATTAACTTTAGAACAATAA MVERVTATKAALQLLEKLKREHGEVMFHQSGGCCDGSSPMCYPLHEFRVGDADVLLGSIAGVPFYISKDQYEYWSNTQLIIDAVNGRGGMFSLEGPEGKRFLTRSRVFTEQEQLTLEQ PGPT0017992_21 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529 NA NA AK015_02113 2013 pbp COG0768 Beta-lactam-inducible penicillin-binding protein ATGAGAAAATTAATTGTTATCGCAATCATATTGTTAGTAGGAGTCATAACTGCCTGTTCTGATGATAACGCAACACCAAGCGATCGCTTTTCCAATTATATCAATCATTGGAACAAGAAAGAATTCGATAAAATGTATGCCATGTTAAGCAAATCAGCTAAAGAAAATTATCCAACAGAACAATTCGTCGATCGTTATAAAAAAATTTATCAGGATTTAAATGTTTCTGATTTAAAAATTGAAGCAGAAACATTGAGTGATAAAGAAAGTGAAAAAGCGATGGAAGATGGAAAAGTATCCATTCCTTTTTCCGTAAGCATGAAAACAACAGCAGGTCCTATATCTTTTGATTACGAAGCAAATCTAATCAAGCAAGAGGATGAGGATAAAGAAAACTGGTATGTAGATTGGGACACTGGTTTTATTTTCCCAGAAATGAAAGATAGCGGTGAGCTCCTGATTGATTCTACAACACCTGCTCGAGGCGAGATTCGTGATCGCAATGATATGCCTCTTGCGATGAATGATACCATTTATGAAATAGGAATTGTACCTGAGAACCTTGGGGAAAACGCAAAACAAAACAAGAAAAAAATCGCCCAACTACTTGGACTATCTATTGAATCAATTGACGAAAAACTGAATGCCAGTTGGGTAGAGCCAAATTTATTTGTTCCAATAGCAAAAATTACGAAAGAGGATGAAGCGCTCTGGAATGAGCTTGTTGCTATCAATGGTATTACTAGGCAAGAAACGACAGGACGAATCTATCCAGGGGGAGCAGCTACCGGAGCACTCGTCGGTTATATCGGACAAGTAACTGCAGAAGAGTTAAAAAAACAGAAGGAAAATAATTACTCTGCACAAGATACTATTGGTAAAAGAGGATTAGAGAAATTATACGAAAAACAGCTACGCGGCATAAAAGGTAGTACCGTTAAAGTTATAAATGATGGAGAAGAGACAATTCTCGCAGAAAAAGAGGCCAAAGATGGCGAGAATGTACAGCTAACCATCGACATAAATGTACAGGAGAAAATCTATAACACACTAGATGGCGATAAGTCTACAACCTCTGTAATAGATGCAAAAACAGGGGAAACACTTGGCTTAGTATCCAGCCCTTCTTTTAATCCAAATGAGATATTATATGGAACAACAGCAAATATTTGGAAAAAACTAGAAGAGGACAAAGAAAATCCACTCTTAAATCGTTTTTCTTCCACTTATGCTCCTGGATCGGTAATTAAACCAATTACTGGGGCAATTGGAATGAAAAATGGAACGATCGATCCAAAAGAGGGGTTAAAAATAAGTGGTCTTACTTGGAGTAACGGGGAAGGCTGGGGAGATTATGAGGTAACACGTGTATCCCAATCAAACGGCCCTGTTGACCTACATGATGCTATCGTTCGATCTGATAATATCTATTTCGCCATGCAAGCTGTCGATATGGGTGCAAAAGCTTACGTTGAAGGACTGAAAGCATTCGGCTTAGGTACGGATTTCCCATTTGAATACCCGATTACAGCATCTTCTATATCCACTTCAGAAAAGCTAGATGATGAAGTGCTACTAGCAAATACAAGCTATGGTCAAGGCGAAGTAGAAATGAGCTCGTTACACCTAGCTACAGCTTATACAGCATTTTTAAATGACGGGAACATGCTAAAACCAACTTTGTTAACAAGTGAAGAGAAGGCACAAGTGTGGAAAGATAAATTAATTACACCAGAGCAAGCGGACATAATCAAAGAAGCACTGCGAGATGTTGTTGTAGATGGAACAGCAAAGCGTTCTGCAAAAAATGCTAAATTCCCTGTTTCGGGTAAAACGGGGACGGCTGAGTTAAAATTAACTAATGATAGTGACGGTCAGGAAAACGGTTGGTTTGTTGGTTATCCTACAGACGATGAAGACATTATTGTTTCCATTATGATTGAAGAAACAAAAGGCAATAGTGGTCTTTCTACAGAAAAGGCGGTAGAAATACTCCATAAAATGAAAGAATAA MRKLIVIAIILLVGVITACSDDNATPSDRFSNYINHWNKKEFDKMYAMLSKSAKENYPTEQFVDRYKKIYQDLNVSDLKIEAETLSDKESEKAMEDGKVSIPFSVSMKTTAGPISFDYEANLIKQEDEDKENWYVDWDTGFIFPEMKDSGELLIDSTTPARGEIRDRNDMPLAMNDTIYEIGIVPENLGENAKQNKKKIAQLLGLSIESIDEKLNASWVEPNLFVPIAKITKEDEALWNELVAINGITRQETTGRIYPGGAATGALVGYIGQVTAEELKKQKENNYSAQDTIGKRGLEKLYEKQLRGIKGSTVKVINDGEETILAEKEAKDGENVQLTIDINVQEKIYNTLDGDKSTTSVIDAKTGETLGLVSSPSFNPNEILYGTTANIWKKLEEDKENPLLNRFSSTYAPGSVIKPITGAIGMKNGTIDPKEGLKISGLTWSNGEGWGDYEVTRVSQSNGPVDLHDAIVRSDNIYFAMQAVDMGAKAYVEGLKAFGLGTDFPFEYPITASSISTSEKLDDEVLLANTSYGQGEVEMSSLHLATAYTAFLNDGNMLKPTLLTSEEKAQVWKDKLITPEQADIIKEALRDVVVDGTAKRSAKNAKFPVSGKTGTAELKLTNDSDGQENGWFVGYPTDDEDIIVSIMIEETKGNSGLSTEKAVEILHKMKE PGPT0023945_142 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023945-pbpC-K21467 NA NA AK015_02114 939 tagU_1 COG1316 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU TTGAGTACGAGAATGGAGAAAAGCAAAAAAAAGCGGAAATGGCCGTTATGGCTAGGTAGTATCTTTATAGCCATTCTGTTAATTGTAGGAGCAACTATTTTTTACATTTGGAATCAAATTAATAGCACAGTTAACACGATGCATAACCCACTTTCACGTGACAATGATCCAGAACGACAAAAAGAACTCGAAGCTATCTTTAAAGATACAAAAGCTGTGAACGTTTTACTGCTCGGAGTCGATGAACGAAGCGGTGATAAAGGAAGATCGGATACGATGATCCTTTTATCGCTTAATCCAAAAACGAATGCAATGAAAATGATAAGTATCCCCCGTGATACATATGTCAACATTCCTGGTAGAGGAAAAGATAAAATTAATCACGCATATGCGTTCGGAGATGTAGAACTATCCGTCCAAACCGTGGAGGAAAACTTTGATATTCCAGTACATTACTATGCCAGTGTCAACATGGAAGGTTTTAAACAAGGGATTGATGCATTAGGTGGAGTGACCGTCACGAATAAGACCGCTTTTTCTCAAGGGGGTTCTGAATTTCCAAAAGGTGACGTGCAATTAAACGGAGAACAAGCATTAGACTACATACGGATGCGAAAAAATGATCCCAGAGGTGACTTAGGTCGTAATGAACGACAGCGCGCAGTAATCATGGCTGCTATTAATAAAGGAGCTAGCTTTTCAAGCATTACTAAATTTGGAGATATACTTACCATACTCGGGGATAATGTCAAGACGAATTTGGACATGGATGATATGCAGACGTTATTCAGCAACTATCGAAACACGAGAAATAACATATCCACTATAGAAATTAAAGGGAACGGTCAAATGATCGGCGGGATTTGGTTTTATGTTGTCCCTGAGTCGGAGTTTAGTCGTGTACAGTCTGAGATTAAAACGCATATGGATGGGAAATAG MSTRMEKSKKKRKWPLWLGSIFIAILLIVGATIFYIWNQINSTVNTMHNPLSRDNDPERQKELEAIFKDTKAVNVLLLGVDERSGDKGRSDTMILLSLNPKTNAMKMISIPRDTYVNIPGRGKDKINHAYAFGDVELSVQTVEENFDIPVHYYASVNMEGFKQGIDALGGVTVTNKTAFSQGGSEFPKGDVQLNGEQALDYIRMRKNDPRGDLGRNERQRAVIMAAINKGASFSSITKFGDILTILGDNVKTNLDMDDMQTLFSNYRNTRNNISTIEIKGNGQMIGGIWFYVVPESEFSRVQSEIKTHMDGK PGPT0023440_3145 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 AK015_02115 252 sinR COG1396 HTH-type transcriptional regulator SinR ATGTCAATTTCAGCATTAGCGGAAAAGACTGGTGTAGAAAAATCCTATTTAAGTTCCATTGAACACGGTTTACAGAAAAATCCTTCTATTCAGTTCATTGAAAAATTAATTTATGTACTAGGTGTGTCCATAAATGAGTTGTTACAAGAGGAAACAAGTTTAGCAGCAGAACAATATGATGAGGAGTGGCTGGAAATTGTTAAAGAAACAATGGAATCGGGAATGATAAAAGAACATTTAAAGAATACTTAG MSISALAEKTGVEKSYLSSIEHGLQKNPSIQFIEKLIYVLGVSINELLQEETSLAAEQYDEEWLEIVKETMESGMIKEHLKNT PGPT0014755_168 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014755-sinR-K19449 NA NA AK015_02116 153 hypothetical protein ATGGGTGAGCAGGAAAAGTATAAAAATTTATTAAAGAAAGTTATTCAAGAAACAGAAAATCAAAATATAAACTCTTCACAAGAAATGGTGAATATGCTTGTTAAAGAATTAAGGAGTATTACGTTAACAAGTTCAGTAGCACCTAAATCTTAA MGEQEKYKNLLKKVIQETENQNINSSQEMVNMLVKELRSITLTSSVAPKS NA NA NA NA NA AK015_02117 1206 nagA COG1820 N-acetylglucosamine-6-phosphate deacetylase ATGGATAAAACTTTGCCTATGTTCATTAAAAACGCTAATATATTCACAGAAACGACGATCATCAAAAATGGCAGTTTGCTTTTAGATGGAGGGAAAATTAGTTCTGTTCACCAACATGGGGATTTTCCGGCTTGTTTACCTGAAGCAACGCAAGTGATAGATGCAAATGGTTTATCTGTAATCCCTGGCTTTATTGATGGACATATTCATGGTGCGAATGGTTCGGATGTGATGGATGCTACCGAAGCAGCTTTAGATACGATGAGTAAAACGCTTCCCAAAGAAGGGACGACTAGCTATTTAGCGACAACGATTACACAGTCTCCTGAGCAAACGGAAGCAGCTTTAAGAAATGTACGTGATTACGTCAATAAAATTGGTCAAGCAGAAGTGGTTGGGGTGCATTTGGAGGGACCATTCATTGAAAAGAAGAAAGCGGGTGCTCAGCCATTACAATACATTAAAGATCCCGATATAGACGTATTCAACCACTGGCAGGAACTATCTGGAAACAAAATAAAAACGATTACAATGGCTCCAGAGCTTGACTCGAATGGAGCGTTTATAAAAAAATTAGCTGCTGATGGGGTCAATGTGTCTGCAGGTCATACGAATGCTAACTTTTCTATGATGCAACAAGCTGTAAAGCATGGGGTTAAGCAAGTTACACATCTTTGTAATGCTATGAACGGTATTCATCACCGTGATATCGGCACAGTTGGTGCAGCTATGCAACTCAAAGAATTACGTGCAGAACTCATTGCAGATGGTATTCATGTTGTACCAGAAATGTTGCAACTTATTTATCAAAACATTGGTAGTAAACGACTACTTTTAATTACAGATGCGATGCGGGCAAAATGTTTACCTGCTGGTGAGTATGAGTTAGGTGGGCAGCCCGTACATGTTTCTGCAGATAGAGCAGTATTAGATAATGGTACTTTAGCAGGAAGCATTTTAAAAATGCAGGAAGGTGCGCAAAACATGTTGCGATTAACAGAAGCTTCTATGCATAACATTATTGAAATGACTGCTGTAAATCCTGCCAAACAAATAAACATATATGATAGAAAAGGTAGTATCACACCAGGAAAAGATGCCGATGTTCTCATTGTGAATGAACATTTGGATATTAAGTATACATTTTGCAGAGGGAAAATAGCATTTAAAGGAGATAGAGAAAATGGAATTAATGAAGGTTCGTAA MDKTLPMFIKNANIFTETTIIKNGSLLLDGGKISSVHQHGDFPACLPEATQVIDANGLSVIPGFIDGHIHGANGSDVMDATEAALDTMSKTLPKEGTTSYLATTITQSPEQTEAALRNVRDYVNKIGQAEVVGVHLEGPFIEKKKAGAQPLQYIKDPDIDVFNHWQELSGNKIKTITMAPELDSNGAFIKKLAADGVNVSAGHTNANFSMMQQAVKHGVKQVTHLCNAMNGIHHRDIGTVGAAMQLKELRAELIADGIHVVPEMLQLIYQNIGSKRLLLITDAMRAKCLPAGEYELGGQPVHVSADRAVLDNGTLAGSILKMQEGAQNMLRLTEASMHNIIEMTAVNPAKQINIYDRKGSITPGKDADVLIVNEHLDIKYTFCRGKIAFKGDRENGINEGS PGPT0018860_603 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 AK015_02118 726 nagB COG0363 Glucosamine-6-phosphate deaminase 1 ATGGAATTAATGAAGGTTCGTAATTATGAAGAGTTAAGTGAACGTGCCGGAGAAATGGTCATCGAAAAAGTAAATGCGCTTGAAAAACCAGTACTAGGTTTGGCAACAGGATCTACTCCGGAAGGATTATATGAGTATTTAATTAACCAATATAAAGCGGAAAAAGTATCATTTGAACATGTTGTTACTTTCAATCTTGATGAATATGTAGGTTTGGAAAAAGAAGATATTAATAGCTATAACTACTATATGAATGAAAAACTATTTAAACATCTTGGTATACCAGCTCATCAAACATACTTGCCAAATGGTAATGCACTTGATCTTAATCAAGAAGCTATAAATTATGAAAAACGTATTAAACAGGCAGGTAATATAGATTTGCAAATTCTTGGTCTAGGTTTAAATGGGCATATTGGTTTTAATGAACCAGGAACCCCGTTCACAAGCAGAACGCATATTGTTCAACTGGATGAGTCTACGCGTCAAGCTAATGCACGTTTTTTTATATCGCTTGATGAAGTACCTACGCAAGCAATAACAATGGGAATTGAAACCATTATGGAGAGTGAGCAAATTGTATTGCTTGTCTCTGGAGAAGGAAAAGCGGAAGCGTTGAAACGAGTAGTAAATGGTAAAGTAAGCGAAGAATTTCCAGCTTCCATATTGCAAAACCATAATAATGTGATTATTATAGCGGATGAAGCAGCGTGTAAGTTACTTTAA MELMKVRNYEELSERAGEMVIEKVNALEKPVLGLATGSTPEGLYEYLINQYKAEKVSFEHVVTFNLDEYVGLEKEDINSYNYYMNEKLFKHLGIPAHQTYLPNGNALDLNQEAINYEKRIKQAGNIDLQILGLGLNGHIGFNEPGTPFTSRTHIVQLDESTRQANARFFISLDEVPTQAITMGIETIMESEQIVLLVSGEGKAEALKRVVNGKVSEEFPASILQNHNNVIIIADEAACKLL PGPT0018865_2783 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 AK015_02119 633 yigZ COG1739 IMPACT family member YigZ TTGCTCGATCGTTATTATACTGTAAAACGAGAAGGTCAAGACGAAATTATAATACAAAAATCTCGGTTTATTGGCTATGTTAAAAGAGTTGAAACGGAAGAAGATGCACAAAAATTCATTCAAGAAATAAAGAAAAAACATCATGATGCAACACACAACTGCTCTGCTTATATAATAGGAGAACACGACCAAATTCAAAAAGCGAATGATGACGGAGAACCTAGCGGAACAGCAGGAGTGCCTATTCTAGAAGTACTGAAGAAACAAAAATTGAAAGATACTGCAGTTGTTGTCACACGTTATTTTGGAGGTATTAAGCTTGGAGCAGGTGGTCTCATTCGAGCATATGGGAGCACAACTTCACAAGCAATTAAAACAACTGGAGTGGTTAAGCGTCAGCGCATGCAAGGATATACGGTGACTGCGGATTATGGGTTATCTGGTAAATTAGAGCATGCTCTACGACAGTCGGAATACATCTTACACAAAACAGATTATACAGATCAAGTCACGTACCATGTTTATGTCGAAGTGGGAGCAGAAGCAGATTTGGAAGCTTTTATAGTTGAATTAACCAATGATCAAGCAAGAATAAACAAAACAGATACGACTTACCTTGAAATTGATGTATAA MLDRYYTVKREGQDEIIIQKSRFIGYVKRVETEEDAQKFIQEIKKKHHDATHNCSAYIIGEHDQIQKANDDGEPSGTAGVPILEVLKKQKLKDTAVVVTRYFGGIKLGAGGLIRAYGSTTSQAIKTTGVVKRQRMQGYTVTADYGLSGKLEHALRQSEYILHKTDYTDQVTYHVYVEVGAEADLEAFIVELTNDQARINKTDTTYLEIDV PGPT0006760_3380 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271 NA NA AK015_02120 1140 degS Signal transduction histidine-protein kinase/phosphatase DegS ATGGCGCAAAGAATTAGCGATCGAGTTTTAGATTATATTATTCATGAGATGATTGAAGTAGTGCAAAATAGTAAAGATGAAATTTTTAGTATTAGTGAAGAAGCAAGAAAAGAGCATGAACATCTTGTGAAAGAGTTGCAAGATACAAAAATAAGGGTAGCACAACATATTAATGATGGTGACGATTTGGAACAAAAAGTTCGCTTTTCTCGTAGGAGACTAGCTGAAGTGAGTAAGCATTTCGATAGATACTCTGAAGCCGAGATAAGAGAAGTATATGAAAAGACACATTCTATGCAGACTAAACTAGCCATGTTGCGTCAGGAAGAAAGTGTACTGCGTGAAAAAAGAGATGATTTAGAGAGAAGATTAATTTCTCTTGCACAAACCATTGAACGGGCTGAAGGGTTAGCTGGTAAAATATCTGTGGTTCTTAACTATTTACATGATGACTTTAAACAAGTAAATGAAATGCTTGAAGAAGCAAAAGAAAAACAGGAATTTGGCTTAAAAATTATTGAAGCCCAGGAAGAAGAACGACGGAAAATTTCCAGGGAAATTCATGATGGACCAGCACAAATGCTCGCGAATATACTATTGCGATCTGAACTGGTAGAACGTACTTTTCTTAATCAAGACGTAGATCAAGCACTGGTAGAAATCAAAAGTGTTCGTGAGATGATACGCTCCTCCTTATACGAAGTAAGAAGAATTATTTATGACCTCCGTCCGATGGCTTTGGATGATTTAGGTTTAATTCCTACCATGAAAAAATATATCTCTACCACCGCAGACTATAATAATTTGAAAATTGAATTTCATGCATTTGGAGAGAAAAAGCGATTGCATCAAAAATATGAAATTGCTGTTTTTCGATTAGTACAAGAAGCTTTACAAAATGCTGTAAAACACGCAGAAGCTTCTTTAATTCAAGTGAAATTGGATATAGGAAAAAGTGATTTAACGATGGTAATTAAAGATAATGGGGTAGGGTTCGACCCTTCGTTAAAAAAAGATAAATCATTTGGATTAATTGGTATGAGAGAAAGAGTGGAGATGCTTGAAGGTGAAATGAATATCTCATCAAGCATAGGAAAAGGAACAACTATTTACATAAAGGTTCCTTATACGTCTGTATAA MAQRISDRVLDYIIHEMIEVVQNSKDEIFSISEEARKEHEHLVKELQDTKIRVAQHINDGDDLEQKVRFSRRRLAEVSKHFDRYSEAEIREVYEKTHSMQTKLAMLRQEESVLREKRDDLERRLISLAQTIERAEGLAGKISVVLNYLHDDFKQVNEMLEEAKEKQEFGLKIIEAQEEERRKISREIHDGPAQMLANILLRSELVERTFLNQDVDQALVEIKSVREMIRSSLYEVRRIIYDLRPMALDDLGLIPTMKKYISTTADYNNLKIEFHAFGEKKRLHQKYEIAVFRLVQEALQNAVKHAEASLIQVKLDIGKSDLTMVIKDNGVGFDPSLKKDKSFGLIGMRERVEMLEGEMNISSSIGKGTTIYIKVPYTSV PGPT0014285_333 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS_SIGNALLING,PGPT0014285-degS-K07777 NA NA AK015_02121 693 degU COG2197 Transcriptional regulatory protein DegU ATGACTGAGGAAAGAAAAATACGTATTGTTTTAATAGACGACCATAAATTATTTCGTGAAGGCGTAAAAAGAATATTGGATTTTGAACCGGCATTTGAAGTAGTGGCAGAAGGCGATGACGGTTCAATGGCTGCCAAACTTGTAAAGGAAAATAACCCAGATGTCGTGTTAATGGATATTAATATGCCAAATATGAATGGAGTTCAGGCAACCAAGGATCTTGTCCGTTATTTTCCAAATACAAGCGTCATTATTTTATCGATCCATGATGATGAGAGCTATGTTACCCACGCTCTAAAAACTGGGGCACAAGGTTATTTATTAAAAGAAATGGATTCAGAGGCATTGATCGAAGCGATTAAGGTTGTCAGTGATGGCGGTTCTTATCTGCATCCAAAAGTGACACATAACTTAGTGATGGAGTATCGCAGACTAGCAAAAGACAATCTATCGTCCTTAGCGGAAAATGGTATAGAATATAGGCAACCACTCCATTTACTAACAAAAAGAGAGTGCCAGGTATTACAATTATTGGCAGATGGAAAAAGCAATCGCGCTGTAGCTGAAACACTTTATATTAGCGAAAAGACAGTAAAAAACCATGTGAGTAATATTCTACAAAAAATGAATGTTAATGATAGAACACAGGCTGTTGTTGCTGCTATCCGCAAAGGGTGGGTAGAAGTAATCTAG MTEERKIRIVLIDDHKLFREGVKRILDFEPAFEVVAEGDDGSMAAKLVKENNPDVVLMDINMPNMNGVQATKDLVRYFPNTSVIILSIHDDESYVTHALKTGAQGYLLKEMDSEALIEAIKVVSDGGSYLHPKVTHNLVMEYRRLAKDNLSSLAENGIEYRQPLHLLTKRECQVLQLLADGKSNRAVAETLYISEKTVKNHVSNILQKMNVNDRTQAVVAAIRKGWVEVI PGPT0012750_105 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 AK015_02122 846 degV COG1307 Protein DegV ATGAAAGTTGCTGTAATGACAGACAGCACGGCCTATATACCCAAAGAAATACGAAATAAATTTAATATACATATGGTGCCATTAAGTGTCCAGTTTACGGATACTTCTTATCAGGAAGAAATTGACATTACAACGGAAGAGTTTTATCAAAAATTAAAGGAAACGAACGAACTGCCAAAAACTTCACAGCCTTCGATCGGTTATATTACAAATGTTTTAGAGGATTTGGCTAAAGAATATGATGCGGTTGTTTCCGTCCATCTTTCTAGTGGCATTAGTGGTACATATCAGGCGGTAGTAAGTGCTGGTGAAATGGTAGACGGAATTGAAGTTTATGCATATGATTCGGAAATTAGTTGTATGGCGCAAGGTTTTTATGTATTAGAAGCAGTAGATATGGTGCAAAAAGGAAAACAGCCTAAGCAAATTATCCGTCGATTCGATGAGATGAAGCAAACGATGCGTGGATATTTTATGGTAGACGATTTAAGTAATCTACATCGTGGAGGACGTCTTAATGGGGCACAGGCCATTTTAGGTAGTGTCCTACAAGTAAAGCCAATTCTTCATTTTGTAGATAAAATAATTGTGCCATACGAAAAAATTCGTACCAAGAAAAAAGCGCTACAGCGGATACTTGATATGCTGGAAAAAGATGCTTCTGAAGGTGGGGCAATCAAGGTAGCCTTTGTTCATGCAAATAATGAAGTTGACGCTCTTGATTTGGAACAACGATTTTTAAAAAAATACCCTGACGCTGAAACGACTATCAGTTATTTTGGACCTGTTATTGGCACACATCTTGGAGAAGGTGCATTGGGTGTGACATGGTATAAGCAGAAATAG MKVAVMTDSTAYIPKEIRNKFNIHMVPLSVQFTDTSYQEEIDITTEEFYQKLKETNELPKTSQPSIGYITNVLEDLAKEYDAVVSVHLSSGISGTYQAVVSAGEMVDGIEVYAYDSEISCMAQGFYVLEAVDMVQKGKQPKQIIRRFDEMKQTMRGYFMVDDLSNLHRGGRLNGAQAILGSVLQVKPILHFVDKIIVPYEKIRTKKKALQRILDMLEKDASEGGAIKVAFVHANNEVDALDLEQRFLKKYPDAETTISYFGPVIGTHLGEGALGVTWYKQK NA NA NA NA NA AK015_02123 2499 smc_4 Chromosome partition protein Smc ATGGGAAAAGCGGGTTATATTTCCGCAGAAATAAAACGTATTTTCCAAAATAAACATGTAATTCTCACCGTCTCTTTAGCTATATTCGTCCCACTTCTATATGCCATGATTATGTTGTCACCAAAATGGGGTCCTTATGACAATACGAATAATTTACCAGTAGCAGTAGTAAACAATGACCAAGGTGCCATGTCAGATGGTGAGCGTCTAAACATCGGCGATAGTTTAATGACTAGCTTGAAGGAAAACAAATTGCTAGGCTGGGAGTTTGTATCGTCCAAAGAAGCGAAAAAAGGCATGGATAATATGAAATATTATATGACGATTGAAGTTCCAGAAGACTTCTCAACAAAAGCCTTGACCGTTCTCGATGATGAGCCAATAAGACCTACATTACATTACATGCAGAATGAAGGGCTACACTTCATGGCAGCACAAGTTACTAATAAAGCTGCTGAATCAATAAAAACGCAGTTATCTACACAAATAACCACAACATATGTAGAAAATGTAGTCGCTCAATTAAAAGAAGTATCAAGTGGATTTACAGAAGCCTCAGATGGTGCGAAACAGATTAATCTTGGGTCTAATAAACTAAAAAATGGGTCTGAGCAAATTCTAGATTCTTTAAATGAAAAATCCTCCGATATCAAACGATTAGCAAATGGAGCTCAACAATTAGAAGATGGGTCCCAAACGATGAAAGAATCGCTGGTTTCTAAACAGGAAAATATAACGAGTCTTGCTAAGGGTGCGCGAGAATTAAATATAGGAACAGGCACACTTTTAAACAACTTACAAAATAAAACAAATGATGTCACAAAATTAGCTAATGGCTCTTCACAAGTACATGAAGGAACGATACAGTTAATGAACGCTTTAAATGAAAAATCAGCTGATATTGCTCGTCTATCCAATGGGGCTTCCGAATTAGCAGATGGAGCGAACGAACTACGTACTGGTTCCACAAATTTATTGACAGGCGCAAAACAAGCAAAAGATGGAACAACACAACTGAAAAATGGGCTTAGTGAAAGGATTATCCCCGGAAGCGAACAATTAGCTACAGGAGTTCAACAAGCCCAAGCAGGTGTTCACGATACCATTCAATCCATGCAAAGCTTACAAGCAGCGCTTCAAGAATTACCCAACAGTGTTGACGGACTAGAAGATAATGCTTTATACAACATCATTATGGCTCAACTAAATGAAACTTTAAAAACAAGCCCACAAAAACAAAAAGATTTTCAAAAGCTTGTTAACGGAGCAAATCAATTACGAGACGGCCTAAAAAATGAGCTAAGTGTAGGTGTGACCGATTTGAACAGTGGTCTTAAGCAACTTGTAGAAGGTCAACAACAATTTCAAAACGGTGTAATTGAACTAGAAAAAGGAGCGACTGAAGTAGCAGCTGGTAATAAAACCGTAGAAGCAGGATGGAAAGAGTTACAGACAAACGTAGCTACATTACAGGAAGGAACCAAGCAAATAAAAGACGGGAATCTAACTGTAAAAAGTGGGTGGAGTGAGCTTACAGCTGGTACGAAACAATTGCTTAATGGCTCCAGACAAGTACGTGATGGAAACAAGACAGTAGAGATTGGGTGGCAAAAATTGACCGCTGGTGCAATAGAACTGGAAGATGGTTCTAGTCAAGTAAGCGCTGGAAATCAAACTGTAAAACAAGGCTGGGAAACGTTAACAGATGGGGTTTCACAAGTAGACGGTGGCCTAGCAAATTTATCTGATGGAAGTGAAGAATTACAAGAAGGTTTAGAGGGAGGTGCTGCGAAAACGAACAATTTAAACACTACCCAAGAAAATATTTCCATGTTTGCGGAACCTGTTGTTTTAGATGGCGAAGTAATGAACAGCTTTCCTTTTTACCGTGATTCAAACGCACCATACATTTTAACATTAGCGCTTTATGTTGGCATTTTAATTATGTCCTTTGCAGTTAAATATCGCACTCCTGTTATTATTCCTCCATCAGCAACAGCTTGGTTTACTGGCAAAGCTATAAAGCTAATAATGCTTGCTATTCTACAAGCATTAATCCTATCTTTATACACACTCGTTTTCCTAAATTTAGATGTGCAAAGCGGTGTTTCTTTCGTCTTGTTTTCTATTATGGTAAGCTTAACTTTCTTAATGATTATTTTATTCTTAGTAAGTGCAGCTGGAAATGTTGGGAGATTTATAGCATTGGCATTCGTTATCCTGCAATTGTCCACAACCGGATCACCCTTACCAATTGATATGCTCCCAGAAGGATTACGTCAGATGAGTACTTTCTTACCATTTACGTATTCGCTTGAAAGTTACAGAAGTATTATATCTTTAGGCATAACCTCCAATACATGGGAGAGTGTTGGCGGTCTATTCTTATATTTTAGTATTTTCGCATCACTCGCTATGAGTGTGTTCTATATTCGATTCAAATTTATGAGAAAACAAATGCATTATCAAAATAGTGATGCTAAGGAATCCGTTAGCTAA MGKAGYISAEIKRIFQNKHVILTVSLAIFVPLLYAMIMLSPKWGPYDNTNNLPVAVVNNDQGAMSDGERLNIGDSLMTSLKENKLLGWEFVSSKEAKKGMDNMKYYMTIEVPEDFSTKALTVLDDEPIRPTLHYMQNEGLHFMAAQVTNKAAESIKTQLSTQITTTYVENVVAQLKEVSSGFTEASDGAKQINLGSNKLKNGSEQILDSLNEKSSDIKRLANGAQQLEDGSQTMKESLVSKQENITSLAKGARELNIGTGTLLNNLQNKTNDVTKLANGSSQVHEGTIQLMNALNEKSADIARLSNGASELADGANELRTGSTNLLTGAKQAKDGTTQLKNGLSERIIPGSEQLATGVQQAQAGVHDTIQSMQSLQAALQELPNSVDGLEDNALYNIIMAQLNETLKTSPQKQKDFQKLVNGANQLRDGLKNELSVGVTDLNSGLKQLVEGQQQFQNGVIELEKGATEVAAGNKTVEAGWKELQTNVATLQEGTKQIKDGNLTVKSGWSELTAGTKQLLNGSRQVRDGNKTVEIGWQKLTAGAIELEDGSSQVSAGNQTVKQGWETLTDGVSQVDGGLANLSDGSEELQEGLEGGAAKTNNLNTTQENISMFAEPVVLDGEVMNSFPFYRDSNAPYILTLALYVGILIMSFAVKYRTPVIIPPSATAWFTGKAIKLIMLAILQALILSLYTLVFLNLDVQSGVSFVLFSIMVSLTFLMIILFLVSAAGNVGRFIALAFVILQLSTTGSPLPIDMLPEGLRQMSTFLPFTYSLESYRSIISLGITSNTWESVGGLFLYFSIFASLAMSVFYIRFKFMRKQMHYQNSDAKESVS NA NA NA NA NA AK015_02124 1152 hypothetical protein GTGTTTTTCTATAGTGGTGGAATGAAGACGGCACATGCCCAAGAAACAACAAAATCATTTAATTATGTATGTACAGCCAATACTTCTTTTGGTGAGATCGCTATTAATATGAACGTTACACCAACTGCCACAGTACCAAATAAAGTACAAGCCAATCAGGAGTTTTCTGTTTCTAATATACAGACTACTATTGGTGTAGACTTAACCGGACAAATCGAACCATTAAAGGGATTTATTAACCCATTTAACGGTCATGTAAATCAATTGAATTTAACATCGCCAAGTGAAACAGTGAATGTGTTTGGTTCGGAAGGAGTGGCTATTCCCGAGACGCCATTTGATCCCAACGATACCCTGATTTCCTTTCAAATTAGTGGCAATGATACGAATTTCAATGCAGGAGAGGATGATGTAAACATTCATGTAGGTGAAATAGAAGCAGAAATTTATGCAAAATTAGGCACGACACCAATTGATCTACCTGTCACTTGTACCCCTCCAGAAGATACACTGTTTACAACAGTAAAAGTGGAAGAAAAGCTGGATAATCAAGCACCTGTTATTACGTTAAAGGGTGATAACCCAATGACTATAAAAGTTGGAGAAACATACAACGATCCAGGAGTCATGGCTAAAGATGAGGTAGACGGGGATCTAACTAAGCAAGTAATAGTTTCTGGTGATCTGAATACTGAAAAACTAGGCGAATACAGCATTACATATACAGTAGAAGATAAAGCCGGAAATCAAGCGACAGCTACTCGAATTGTATATGTAGAAGCTGCAGAACCAGATGACGATGAAAAGCCGGGGGATGGTGAAAAACCTAGTGACGATGAAAAGCCAGAGGATGATGAAAAACCTAGTGACAGTGAAAAGCCGAGCGACGATGAAAAACCGGGTGACGGTGAAAAGCCAGGGGATGATGAAAAACAGGATGATGGCGAAAAACCGGGGGATGGTGAAAAACCAGGGGATGATGAAAAACCAGAAGAAAATAATTTAGGTGCAGGAAATGATGACAATAAACCTGGTAACGGCGTAGTGCTTCCAAATACTGCAACGAATATACCGTTCATATTATTAATCGGTGCAATACTTGTAACAGCAGGCGCGTCCATACCTTTGTTTAGAAAATATATTTTTAATTAA MFFYSGGMKTAHAQETTKSFNYVCTANTSFGEIAINMNVTPTATVPNKVQANQEFSVSNIQTTIGVDLTGQIEPLKGFINPFNGHVNQLNLTSPSETVNVFGSEGVAIPETPFDPNDTLISFQISGNDTNFNAGEDDVNIHVGEIEAEIYAKLGTTPIDLPVTCTPPEDTLFTTVKVEEKLDNQAPVITLKGDNPMTIKVGETYNDPGVMAKDEVDGDLTKQVIVSGDLNTEKLGEYSITYTVEDKAGNQATATRIVYVEAAEPDDDEKPGDGEKPSDDEKPEDDEKPSDSEKPSDDEKPGDGEKPGDDEKQDDGEKPGDGEKPGDDEKPEENNLGAGNDDNKPGNGVVLPNTATNIPFILLIGAILVTAGASIPLFRKYIFN NA NA NA NA NA AK015_02125 1494 hypothetical protein ATGCGGTTAGACCAATATATGGATACTTTTTTTCAGTATGGTTTATGTTTAATAAGAGAAAACCAAAAACAAATTGAGTATCATTGGAAACAAGTTTCAGGTTATTTTGAAAGTGGTGAAACGAAGTTAGCAAAAATCCCTATTTCATTACAAGTGCTTTCAGATTTAATCTTTGATTCTCAATATGATAAAGAAGCTCTATTAATTAAAATAAACGAAGTAGGGAAGAGGAAATCTGTAAGTCAGCCCATGAACCAATTTGTTATTACTTTAATGGAAATTGCTGTCCATAGGGTAGTTAAACGGAAGTCAAACTATGATTATAGTGACCTGCAAGCCATTCAATATGTGTTTATGAAGATGCGGGACCATATACTTACGGATAAACAAGATTTTCTATTTACTATAGATGATTTTCTAGATCAACTTGTAAATTCGGAACAATTTCCAATTGATTGGTTAGCAGTCGTGGAAAAAAATGAGCAAGTATTTTACATCAGCAAATGGTTTCAGAGCAATACACAATGGAACCGTCCATCTCATGATTTTAAAGCTAGCACCTTTTTTAATTTAACAGAAGAACTATTAAAAAGTATGCCATATTCCAATAATAAAAATACGATTACGATACCCTATAAGTATAGTACACTTTTAATATGTATAGATAGAAAAGGAGCTGGCTATACAATTCCTTTTATAAACTATATATTGCAATTATTTGAAAACAGTTCAAGGAGATTAAAGGCACCTCGTCAAGAACAGCAATGGAAAGACTCTGTTATTATGTTTTATGAATCCATTATTCAAGCAAAGACTTTTGATGAATCTGTGAAATTAGTTACGCAAGGCTTCATTAATTATTTACCTTTTGAAAGATGTGGTATTTTTTCCTATTCATCAGATGATAGAGTGGGAAGTGGCTTGTTAGGTCATCAATTTGATAATAAAGCAATTCAAGAAATAATGGAGGATGTGCGTAATCTTCCTTTGATTGACAAAGGAATGAAGCTATTGCAATTGTTTGGAGAGGGGATGAAATATCTGCAACCTCTTTTCATTACGGATGCAAAGGAAAGCTTTCCTATTGAATACATTAATAAATTTCAATTGAAGTCTATAGTTGTTGCTCCGCTGTATCAGCCTTCAAATAACCGACTTATAGGTGCAGCTATTCTTGATCAAGGGCCTTATAGCCAATTTTCTATCTCACAAGACGCATACACAGCTTTGCTTAAATTTGGACAAAGTGCAGGAGAAGTGATTGGAAAGTTCGAAAAAAAGCCGCATATAGATAAACGCTCATTCTGCTTAACTGTGAGAGAAGTTGAAGTTTTAGCACTGATGGCAGAAGGAGAGTCAACGAGTAGTGCGGCTGATAAATTACATCTAAGCGAGTATACAGTTCGTGATTATATGACGGCAATTATGCGAAAAATGGAGGTGAAAAACAGGACAGAAGCGGTTGCGTATGCAATTAGAAAAGGGATCATTTAA MRLDQYMDTFFQYGLCLIRENQKQIEYHWKQVSGYFESGETKLAKIPISLQVLSDLIFDSQYDKEALLIKINEVGKRKSVSQPMNQFVITLMEIAVHRVVKRKSNYDYSDLQAIQYVFMKMRDHILTDKQDFLFTIDDFLDQLVNSEQFPIDWLAVVEKNEQVFYISKWFQSNTQWNRPSHDFKASTFFNLTEELLKSMPYSNNKNTITIPYKYSTLLICIDRKGAGYTIPFINYILQLFENSSRRLKAPRQEQQWKDSVIMFYESIIQAKTFDESVKLVTQGFINYLPFERCGIFSYSSDDRVGSGLLGHQFDNKAIQEIMEDVRNLPLIDKGMKLLQLFGEGMKYLQPLFITDAKESFPIEYINKFQLKSIVVAPLYQPSNNRLIGAAILDQGPYSQFSISQDAYTALLKFGQSAGEVIGKFEKKPHIDKRSFCLTVREVEVLALMAEGESTSSAADKLHLSEYTVRDYMTAIMRKMEVKNRTEAVAYAIRKGII NA NA NA NA NA AK015_02126 348 hypothetical protein ATGTCACAAACCGCTAACCTGCTTAAGAAAATGACGAAAGCTCTAAAAGAAGATACTTCCTTAATAGATGATATGGATGTCGTCTATCAGTTTAATTTTAAAAGCGATTATCCAACCACTTATCAACTACTATTACGCGGAAAAGACAGTTATGTTGTAGAGGGAAAAACAAAAAAAGCAGATTGTATTTTATTTATGAAAGAAGAGCATTTTCTTCAGCTAGCGACAGGTGAATTAACCGGGACTAAGGCGCTCTTTACTGGTAAGTTAAAAATGGAAGGCAATGTGAAATTGGCCTTAAAATTAGAGCATATTCTATCTGCTTATAATCAACATAAGACCGTTTAA MSQTANLLKKMTKALKEDTSLIDDMDVVYQFNFKSDYPTTYQLLLRGKDSYVVEGKTKKADCILFMKEEHFLQLATGELTGTKALFTGKLKMEGNVKLALKLEHILSAYNQHKTV NA NA NA NA NA AK015_02127 1413 comFA COG4098 ComF operon protein 1 ATGATAGAAAAACTTACTACTTCGCTATATCTAGAACTTGTCAAACATTGTGATGGAAAATTACTGCTCCGAAAAGAAATTCCTCTTGATGAAGAACTATTCCACGCCTCTCTCGAGCAAAACATATTGACCCCTATCCCATCTATCATGAAAACCCCGTTTATCAAAATATGTCGACGTTGCGGAAATCGAAAAAAATCTCAATTCTCCAACATGCATGATCTTAATCAGAAACGCCTTATTGCATACTGTCGTAATTGCATCCAGATGGGACGAGTAATGGAGACAGAACCACTGTATCGGTGGAATGGTGAGCCAGCTTGTTGGCAAAAGCATGAGTGGGCTTGTACTTGGGAAGGTCAACTTACTGGTGCGCAATCCAAGGCTTCTGAAACAATCCGTGATGCTATTTTGCAGCAAGAATCCTCGCTTTTAGTATGGGCTGTTTGCGGATCTGGAAAAACAGAGATGCTATTTGCTGGTATTGAAGCAGCTTTACGGCAAGGGATGCGCATTTGTCTTGCTACTCCGAGAGTCGATGTAGTAAGGGAGCTACTTCCGAGAATACAAGAAGCTTTTTCAACCATACTGATTCAAGCGTTATACGGAGGTAGCAAGGAAAAGAGAGGCACCTCGCAAATCATTATTGCTTCCACCCATCAACTTTTACGCTTTGAACATGCATTTGATGTGGTCATTATTGATGAGCTAGATGCTTTTCCATATCATGCAGATACTTCTTTGGCCTTTGCGACAGAAAGAGCTTTAAAGCCTTCAGGTACAATGATTTATTTAACTGCTACTCCTAGACGTAAAGAACGACGTAAACTACAGTGGAATCAGTTGAAACATGTTTTTGTGCCAACCCGTTATCACGGTTATCCGCTCCCTGTTCCTCAGATGTGCATGTGCTTTTCTCTACACAAGCAATTACAAAAGGGAACCGCTCCTCGAGCATTTATCCGATGGCTTTGTCAGCGAGAAAACAAGCAACGTCAACTCTTGATTTTCCTTCCAACTATCTCTCTTACAGAAAAAGTAGTTAGTCATATATATACTATTCTTTTTAACCAGAAAATAATTAAAGATGCATCGGAAATAACTTCTGTACATGCATCTGATCCTGAAAGGGAACGAAAAATTTCTCAATTTCGAAATAAAAGGCTCCTAGTATTAGTCACCACGACCATTTTAGAAAGAGGCGTAACTTTTCCTTCTGTTGATGTGGCTATCATAGACGCTGGTCATTCTGTATTTGATGAAGCAGCGCTCGTTCAGATTGCAGGACGGGCAGGAAGAAGCGCAGAAGATCCTGACGGGGAAGTCGTTTTCTTTCATGATGGAAAAACAAATGCCATGGTGCGAGCCATTCGCTTAATTAAAAGAATGAATCAACTAGGAGGATTTACATGA MIEKLTTSLYLELVKHCDGKLLLRKEIPLDEELFHASLEQNILTPIPSIMKTPFIKICRRCGNRKKSQFSNMHDLNQKRLIAYCRNCIQMGRVMETEPLYRWNGEPACWQKHEWACTWEGQLTGAQSKASETIRDAILQQESSLLVWAVCGSGKTEMLFAGIEAALRQGMRICLATPRVDVVRELLPRIQEAFSTILIQALYGGSKEKRGTSQIIIASTHQLLRFEHAFDVVIIDELDAFPYHADTSLAFATERALKPSGTMIYLTATPRRKERRKLQWNQLKHVFVPTRYHGYPLPVPQMCMCFSLHKQLQKGTAPRAFIRWLCQRENKQRQLLIFLPTISLTEKVVSHIYTILFNQKIIKDASEITSVHASDPERERKISQFRNKRLLVLVTTTILERGVTFPSVDVAIIDAGHSVFDEAALVQIAGRAGRSAEDPDGEVVFFHDGKTNAMVRAIRLIKRMNQLGGFT PGPT0029425_139 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 AK015_02128 681 hypothetical protein ATGATGACATGTCTACTTTGTGAAAAGAATATTCTCCCTGAAGTAACGTGGAGAACCATGCTTTATCCAGAAGCAAAAGTTATTTGTGATGCTTGCAATCAGTTATTAGTGGCAATAGATGGCCCACGTTGCACAAGATGCAGTCGTTCGAGTACGGAAGGGAAATGTTTGGACTGTATCCATTGGGAAAAAGCTCCTTCAAAGGATAGTTTAGCTAGTAACTATTCGGTTTACCCGTATAGTAATTTTATGCAAGAAATCATCACGAAATGGAAGTATCAAGGAGATTATGAACTTGGTAATGTGTTTAAAAAAACATTTCGTATCCACTTTAAACGCATAATAAAGACTACTTCAAAGGCATATGTAGCAGTGCCGATTCCTTTAAGTGAAGAAAGACAAGAGGAGCGTGGATTTAATCAAGCAGCCATGTTAGCTGAGTTTCTCCCTATCCCAAAAGCGAATTATTTAGAACGGATCGGGAGTGAAAAACAAGCAAAAAAATCAAAAGAAGAAAGGTTGAATTCTGTAAATCCTTTTAGATTAAAAAAACCGCTTAACAAACCGGTTATTTTAGTCGATGATATATATACGACAGGAGTGACATTGAGGCACGCTGCTAAAGTATTGTTAGAGCAAGGCTGCCCCAATGTATTATCCTTTACACTTATTCGAAGCTAA MMTCLLCEKNILPEVTWRTMLYPEAKVICDACNQLLVAIDGPRCTRCSRSSTEGKCLDCIHWEKAPSKDSLASNYSVYPYSNFMQEIITKWKYQGDYELGNVFKKTFRIHFKRIIKTTSKAYVAVPIPLSEERQEERGFNQAAMLAEFLPIPKANYLERIGSEKQAKKSKEERLNSVNPFRLKKPLNKPVILVDDIYTTGVTLRHAAKVLLEQGCPNVLSFTLIRS PGPT0029435_347 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 AK015_02129 408 hypothetical protein ATGGCAGAATTAGCAAACTGTTCTCGTTGTGATCGTTTATTCTTAAAAGGAGCACGTACAATTTGTCAAAATTGCTACCAACAAGAGGAGGAAGCGTTTCGAACCGTTTATCAATTTATGTCCAAACGAAAAAATAGAGAAGCGACAATGTCTGAAATTGTTGAAAACACAGGTGTAGATGAGGAATTAATTATTAAATTTATTAAAGAAAAACGTTTATTGCCATCTGAGTTCCCGAACATTGGTTATCCATGTAGTCATTGTGGTAACTACATCACTGCAGGCAATTTATGTATCTCTTGTAGAGAGAAATTAAAAAAAGACTTACAACAGTATGAAGCGCAAAAAGAAAGACGAATAGAAGAAGACAAAGAGAGACAAAAAACGTATTACTCGTTTGATGATTAA MAELANCSRCDRLFLKGARTICQNCYQQEEEAFRTVYQFMSKRKNREATMSEIVENTGVDEELIIKFIKEKRLLPSEFPNIGYPCSHCGNYITAGNLCISCREKLKKDLQQYEAQKERRIEEDKERQKTYYSFDD NA NA NA NA NA AK015_02130 264 hypothetical protein ATGAAAATAAATGGGCCTAATCAATCTGACTTTAACCCATACCATAAACAACAACTGCCTAAACAAATGGAAGTTAAACAAACAATGAAAAAAGACCAATTAGAAATATCAAATGAAGCAAAACAGTTGCATGAGGACAATAGGGAAAATAAAACAAGAACTGCCAAAATAGATCGATTAAAAGAAATGATAGAATCTGGTGAATACAAAATGAACTATGATCAAACAGCACAGAAATTAATCGATTTCTTTACTGGAAAGTAA MKINGPNQSDFNPYHKQQLPKQMEVKQTMKKDQLEISNEAKQLHEDNRENKTRTAKIDRLKEMIESGEYKMNYDQTAQKLIDFFTGK PGPT0015530_1676 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398 NA NA AK015_02131 492 yvyG putative protein YvyG TTGAGCTTAAAAACTCTTATAGACATATTAGAAAAATTATTACATTTGCATGTAGAATTCGTCGATCTCTCAAAGATGAAAACAAACGTTGTAAAGAACGGCGATGTGGATACATTATCATCTATTATAGCTAGAGAGCGTAAACTGTCTAGAAAAATGGAGAAAGTAGAGAAAGAACGACAACAATATATGGCTACTTGGTTTGAGGTTAATCAGCCTCAGGAGCAAGAGCAAACTGTTACGACGCTTTTATCTCAAGTGGAATCTGAAAAAGACAAAGAGCAGTTAATCGAACTAACAACGGAGCTAATGAGGACAATGGCGCAGTTGAAACAACAAGAGCAATTGAACCGTATGTTAATTCAACAGTCTTTACAATTTGTTCACTTTTCTCTTGATCTAATGAATCCAACAATTGAATCAATGAATTATGGAACGGATAAGGAAAAACAAGTAAGATCTAAACAGTCTTTATTTGACTCAAAGGTTTAA MSLKTLIDILEKLLHLHVEFVDLSKMKTNVVKNGDVDTLSSIIARERKLSRKMEKVEKERQQYMATWFEVNQPQEQEQTVTTLLSQVESEKDKEQLIELTTELMRTMAQLKQQEQLNRMLIQQSLQFVHFSLDLMNPTIESMNYGTDKEKQVRSKQSLFDSKV NA NA NA NA NA AK015_02132 1527 flgK COG1256 Flagellar hook-associated protein 1 ATGAGTAGTTTTCATGGATTAGAAATGGCAAAACGGGCGCTGTTTGCGCAACAATCAGCATTATATACAACGGGACATAATATTTCCAATGCGAATACAAAAGGCTATACGAGGCAACGGGTTAATTTTGAAACGACGACTGCTTACCCTGCTGCTTCAAGAAACCGTCCTGAAATACCTGGACAAATAGGCACAGGTGTTGAAGCTGGTTCTGTTCAACGCGTACGCGATAAATTTTTAGATTATCAATTTCGGTCTGAAAATAGTAGATCAGGTTTTTGGACTTCAAAATCAGAAGCTCTTAGTAGAATGGAAACAGTATTAAATGAGCCATCTGACAACGGATTAGCAAGTACAATGGAGAAATTCTGGAATTCACTGCAAGAATTGGCGGTTAATCCTGATAATTCAGGAGCCAGGTCCGTTGTTGCAAACCGTGGCATGGCAGTAGCAGAAACTTTTCAGCATTTATCTAAATCGTTATCTTCCCATCGATCAGACTTAAAAAATCAAATCGATACAACTGTGAAAGAAACGAATTCATTATTACGACAAATTGGCAGTTTGAACGAACAAATTAGTGAGCTTGAGCCACATGGTTATTTACCTAATGATCTATACGATCGTAGAGATAACCTCATTGATAAATTATCCAGTAAAATGAATATAAAAGTCACCTACTCTAAAAGCTCTGAAAGCTCGCCAAAGATAGCCGATGGAATAGCCTCCATTGAAGTTGTAGATAACACTGGTAATTCTTTTCAACCTAATGTCGTTTTAATAAACGGAACATCTGAGCAACAGCAGATTAATGAGTGTACTGTGGAGTATGGCTCTGATCCTTATGCATCAGTAACCGGAATAAGTGTAAATGGAGAAACAGTCAATATTCTTGAATCAAATGGAACCTTAGGAGGTCTCATTGATTCTTATGGTCATGATTTAGACGGTGATGGGGCAATTCAAGGCACTTACACGGATATGTTAACAAATTTAGATAAAATGGCAACCGAAATGGCTAAGGAATTTAATCGTGTACATAGAAGTGGAAAAGCTTTGGATGGAACGGACGGTATTGATTTCTTCGTCTTTAAAAACGGTAAGAGCGGTGCTGCTGGAATTACGGTAAACCAACTTATTATGGATGAGCCAGATAACATTGCTGCAAGTACAAATGAAACGGATGGAGAAGGAGCAAATGCCTTAGCGCTTTCTGAAGTATTTACGGATAAATCATTAGCTGGAAATCCGTTAGGCGAGAATACATCGATTAATAGTTTTTATGATTCGTTAATTGGAGAAATGGGTGTAGAAGCCGAAGAAGCTAAACGGATGACAGAAAATACAGGGATCTTAAAATCGCAAGTAGAAGAACAACGGATGTCAGTGAGCAGTGTCTCCTTAGATGAAGAAATGTCTAACATGATTAAATTTCAGCATGCTTATAACGCTGCTGCACGAAGTATGACAACCATTGATGAAATGCTAGACCGTGTCATTAATAATATGGGTCTTGTTGGGAGGTAG MSSFHGLEMAKRALFAQQSALYTTGHNISNANTKGYTRQRVNFETTTAYPAASRNRPEIPGQIGTGVEAGSVQRVRDKFLDYQFRSENSRSGFWTSKSEALSRMETVLNEPSDNGLASTMEKFWNSLQELAVNPDNSGARSVVANRGMAVAETFQHLSKSLSSHRSDLKNQIDTTVKETNSLLRQIGSLNEQISELEPHGYLPNDLYDRRDNLIDKLSSKMNIKVTYSKSSESSPKIADGIASIEVVDNTGNSFQPNVVLINGTSEQQQINECTVEYGSDPYASVTGISVNGETVNILESNGTLGGLIDSYGHDLDGDGAIQGTYTDMLTNLDKMATEMAKEFNRVHRSGKALDGTDGIDFFVFKNGKSGAAGITVNQLIMDEPDNIAASTNETDGEGANALALSEVFTDKSLAGNPLGENTSINSFYDSLIGEMGVEAEEAKRMTENTGILKSQVEEQRMSVSSVSLDEEMSNMIKFQHAYNAAARSMTTIDEMLDRVINNMGLVGR PGPT0015195_2009 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396 NA NA AK015_02133 882 flgL COG1344 Flagellar hook-associated protein 3 ATGAGAATTACGCAGAGTATGCTTTCAAATAACATGTTACGGAATTTGTCCAATAGCTATACGAAGTTGGATACGTATATGGAACAAGTAAGAACAGGGAAAAAAATAAATCGTCCTTCCGATAATCCAGTTGTAGCAATGAAGGGGATTAATTATCGTAGACAGGAAAATGAAGCGGAGCAGTATTTACGGAATACAGGCGAGGCACATAATTGGATGGATAACTCAGATGCAGCGCTTGATCAGGCCACAAAGGCAATGCAAAAGTTACGGGAATTAGCAGTTAAGGCAAGTAATGGAACGAATGATGATGAAGAATACAAGAGTATAAAAGAAGAAGCTAAACAATTGAAAGAGCATTTAATTAGTATAGCAGATACAAAAGTAAATGGTAAATACATATTCAATGGGACGGATACGACCAATTCACCATTTGATCAAAATGGCGTTTTTTCACCTAATACGGATCCTGTTAATATTCCTATTGCTGCTGGTTTAGAATTACAAGCTAACGTGGACGGAGGAGCTGTATTCGGTAATGGTCTATTTGATACAGTCGATTCATTTATTCAAAAGCTTGACAATCATGACATGGATGGTATTGAAGAGGTCATTGGCGAAAGTATTGAGGAACTTGATACAGGAATTAATCAAATTATTGATACAAGAGCAGGCTTGGGTGCTCGCATGAATCGTTTGGAACTCGTGGAAAATAGACTGGGTGATCAGAAAATAATGGCTACAAAAATGATGTCCGATAATGAGGATATTAATTATAGTGAAGCCATTACTAATTTAATTACGCAGGAATTTTTACATCGCGCCGCATTATCAACGGGTTCTAGAATTATCCAGCCGACCCTTGTTGATTTCTTGAGATAA MRITQSMLSNNMLRNLSNSYTKLDTYMEQVRTGKKINRPSDNPVVAMKGINYRRQENEAEQYLRNTGEAHNWMDNSDAALDQATKAMQKLRELAVKASNGTNDDEEYKSIKEEAKQLKEHLISIADTKVNGKYIFNGTDTTNSPFDQNGVFSPNTDPVNIPIAAGLELQANVDGGAVFGNGLFDTVDSFIQKLDNHDMDGIEEVIGESIEELDTGINQIIDTRAGLGARMNRLELVENRLGDQKIMATKMMSDNEDINYSEAITNLITQEFLHRAALSTGSRIIQPTLVDFLR PGPT0015505_2673 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397 NA NA AK015_02134 573 yviE putative protein YviE ATGAATATTCCTCAACTGAAAATGACATCTCAAATGGCTCAAATTGAACTGCAACAAACGAAACCAAAACAAACAATCCGTCAACCAAAAGCAGACATATCAATTCAACAGCCTAAGGCAGAAGTGAGTATGCGGACAACTCCTAGTAAGTTAACTATTGATCAAACAAAGGCATTTGCCGATGCGAATTTAATGTCTATTTTCCAAAGAAATGATCAATTTGCAAGAGAAGGGAAACAAGCCGTTTTAGAGGGAATAGAGAGACGCGCGCAGCAAGGAACAGAACTAATGAAGATTGAGCAAAAAGGAAATCCGCTAATATCTCAAGCAAAAATGAATGCATATACACCAATGAAACGGTTAGGAATAGCTTTTATCCCTTCTCCGTTTTCAGTGAAAATAGACTATAAACCAGCAGAACTTCATATAGATGTACAAGCAAAAAAGCCAAATATTGAGGTGCAAACAAATTCAGCTGAGCATCACTATGTACCTGGAGATGTATTGACAAGAATGAAGCAATACCAAGATTTGCAGATTGAAGTCGTTTATCCTGAAGATAAGGTGTTATAA MNIPQLKMTSQMAQIELQQTKPKQTIRQPKADISIQQPKAEVSMRTTPSKLTIDQTKAFADANLMSIFQRNDQFAREGKQAVLEGIERRAQQGTELMKIEQKGNPLISQAKMNAYTPMKRLGIAFIPSPFSVKIDYKPAELHIDVQAKKPNIEVQTNSAEHHYVPGDVLTRMKQYQDLQIEVVYPEDKVL NA NA NA NA NA AK015_02135 450 fliW COG1699 Flagellar assembly factor FliW ATGCTTATAATGACAAAATATTTTGGAGAGATGGATATTGATTTTGCTAGGGTTATTCATTTTCCAACTGGTGTATTAGGATTTCCTCAAGAAACAGAATTTGTTTTAATTGATTTTCCTAAGCCATCTGTATTCCAATTATTACAATCCACGAAAGAAAAAGAGATAGCATTTATTGTCATTAATCCCTACCATATGTATACAGATTATACATTTGAATTGGACGACAGTATTGTACAAGCATTAAAACTGGGAGACGAAACGGATATCGTTGTATTATCGATTGTCACTCTAAAGAAGCCTTTTAAGGATAGCACGATTAATTTGCAAGCTCCGATAATTATTAATGCAAACAACTGGTGTGGAAAGCAGTTTGTAATTAAGACGAACCAATACAACACGAGAGAGCCGATTACTGTAAACGATCCTTTAATGGCGAAGGGAGAATAA MLIMTKYFGEMDIDFARVIHFPTGVLGFPQETEFVLIDFPKPSVFQLLQSTKEKEIAFIVINPYHMYTDYTFELDDSIVQALKLGDETDIVVLSIVTLKKPFKDSTINLQAPIIINANNWCGKQFVIKTNQYNTREPITVNDPLMAKGE PGPT0015630_280 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLUM_CONTROL MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015630-fliW-K13626 NA NA AK015_02136 222 csrA COG1551 Translational regulator CsrA ATGCTTGTATTAACTCGTAAACGTAATGAGGCCATCCAAATCGGTGAAGATATTGAAATAAAAGTGCTTGGTATGGAAGGCGATCAAGTGAAAATCGGCATTAGTGCTCCTTCATCTGTAGATATCTATCGTAAAGAACTCTATTTAGATATCACTCATGAAAACAATAAAGCGGCAAATATTCCAAATGAAATAGTGAATCTTTTAAAAGATAATACATAG MLVLTRKRNEAIQIGEDIEIKVLGMEGDQVKIGISAPSSVDIYRKELYLDITHENNKAANIPNEIVNLLKDNT PGPT0015065_923 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 AK015_02137 360 hypothetical protein ATGCGATTAGAGCGCATTGGGACCGGGTCACATCCTAAGTTACAAGAACAGAGTAACGATCGGCAAGCGGTTAAGAAGGAGACAACTAACAACGATCAAAGTCGAGCCGATGCTATTCGTCCGTCCATGGTCGTGACAAAAGATAAGCTGAAAACAGCTGTAGAAAAATGGAACGAATTTATTGAGCCGTTCCGAACAGATCTACGTTTTAAGTTTCATGAAAAGCTGAATGAATACTATGTGACAGTAGTCAATCCATTAACAGATGAAGTTATAAAAGAAATACCTCCGAAAAAAATGCTAGATATGTATGCAGATATGGCGGAATATATGGGTATATTAATCGATGAGAAAATATAA MRLERIGTGSHPKLQEQSNDRQAVKKETTNNDQSRADAIRPSMVVTKDKLKTAVEKWNEFIEPFRTDLRFKFHEKLNEYYVTVVNPLTDEVIKEIPPKKMLDMYADMAEYMGILIDEKI PGPT0015440_857 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015440-flaG-K06603 NA NA AK015_02138 1464 fliD COG1345 Flagellar hook-associated protein 2 ATGGTCATGCGCGTTGGTGGCTTAGCAAGTGGTATGGATATTGAAGCAATGGTAGATAAGTTGATGAAGGCTGAACGTATACCATTAAATAAATTAGAGCAAGATCGTACGAAATTAGAATGGAAACGAGATGCTTTTCGAGAAATCAACAGCAAGCTAACAGAGCTAGATGATTTAATGTTTGAAATGAGGAAGAGTGTGGCTTATAACGCAAAAAACGTTAGTTCAACCAAAGAAGGTGCAGTAACAGCAACTGCAAATGCGGATGTTGCCAATGGCACATATCAAATTAGAGTGAATCAATTAGCCAGTACAGCGATTAATGTAAGCACAAATACTGTAAAATCAGATGTACAGCTAGTTGAAGGTGATGAAATAGCATTTAATACGATAAATGAAAAAGGTGAAGAAGTACCACATACGTATACTATTCAAAAAGGCGATACATTAACGGACGTATTAAAAAAAATATCTCGAGATGATAATAATGTACGTATGTTTTATGATGAACAAACGGAAAAAGTAATTATGGAAACGACAAGGACAGGAAATTACCGTGATGGTGCAGAAATTCAATTTGATAATAATTCATTTTTAGCTAACGTGCTTCACATGGATATGGATAAGGAATCAGGCGGTACTAATGCGAAGTTTGAATACAATAATAGCGGGTTAATCATGGAATCGAAAACAAATTCCTATAAGATAAATGGAATGACATTGGAATTTAAGCAAGAGACAGAGGGTAAAAATGTCAGCCTTACTGTAACAAATGATGTGGACGCTTCCTACGAGAGAATAATGGAATTTGTTGATAAGTATAATGAAGTCGTAGAAGCGCTAAATAAATCACAGCTAGAGGAGCGTCATCGTGATTACCCACCATTAACCGCTGAACAAAAAAAGGATATGTCGGAGAACGAAATTGAACTTTGGGAAAAAAGAGCTAAAAGTGGGCTTTTACGAGGAGACACGACAATTTCTAATGGCTTATTTAATCTGCGCTCTAGCTGGTACGAAAAGGTAGATACTGGCGGAGAATATACAACTTTGACACAGGTTGGAATTGAAACATCCAAAGACTATTTAGATGGCGGAAAGCTCATAGTTAACGAAAAAGAACTGAAAACAGCACTTCGGGAAAATCCTGCTGATGTACAAAATTTATTTACTAACAGTGACGAAGGAAATTCACGTGGACTAATCCAACGTTTAGAAGATTCTCTGGAAACAACAAAAGAGCAAATCAGTGAAAAAGCTGGTAGTATTTTAACACCTTCATTAGAAAGTTATACATTGGGGAAACGAATGAAAGATGTGGATGATCGGATGGAATCTCTTGAAGATCGAATTGCTCAGGCTGAAGCTCGTTACTGGAACCAATTCACAGCAATGGAAAAAGCAATTTCAAGAATGAATCAACAGTCAGCGCAATTAATGTCCCAATTCGGTGGTGGCATGTAA MVMRVGGLASGMDIEAMVDKLMKAERIPLNKLEQDRTKLEWKRDAFREINSKLTELDDLMFEMRKSVAYNAKNVSSTKEGAVTATANADVANGTYQIRVNQLASTAINVSTNTVKSDVQLVEGDEIAFNTINEKGEEVPHTYTIQKGDTLTDVLKKISRDDNNVRMFYDEQTEKVIMETTRTGNYRDGAEIQFDNNSFLANVLHMDMDKESGGTNAKFEYNNSGLIMESKTNSYKINGMTLEFKQETEGKNVSLTVTNDVDASYERIMEFVDKYNEVVEALNKSQLEERHRDYPPLTAEQKKDMSENEIELWEKRAKSGLLRGDTTISNGLFNLRSSWYEKVDTGGEYTTLTQVGIETSKDYLDGGKLIVNEKELKTALRENPADVQNLFTNSDEGNSRGLIQRLEDSLETTKEQISEKAGSILTPSLESYTLGKRMKDVDDRMESLEDRIAQAEARYWNQFTAMEKAISRMNQQSAQLMSQFGGGM PGPT0015200_1230 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407 NA NA AK015_02139 402 fliS COG1516 Flagellar secretion chaperone FliS ATGTCTTTTTATAAGCAACATCAGGTTTACCAAAATAACGCAGTAAATACAGCGTCACCTTCAGAGTTAACGTTGATGCTTTATAATGGTTGTATAAAATTTATTAAACAAGCGATGAAGGATATAGATGGAGATCAGTTTGAAGCTAAAAATAAAAATATCCAAAAGGCGCAAAATATCATTCTTGAGTTGATGGTTACGTTAGATATGGAAGTTGATATTTCCAGTCAGTTTATGTCACTTTATGAATATATGCATCACCGCCTAACAGAGGCGAACACACAAAATGATAGAGCGGCATTGGAAGAAGTTCTTAGCTTTGTTATCGAGTTTCGTGATACATGGAAGCAAGTAATTTTACAAACTAGAAAAAAACAATATTCTAAAGGTGCTCAAGTGTGA MSFYKQHQVYQNNAVNTASPSELTLMLYNGCIKFIKQAMKDIDGDQFEAKNKNIQKAQNIILELMVTLDMEVDISSQFMSLYEYMHHRLTEANTQNDRAALEEVLSFVIEFRDTWKQVILQTRKKQYSKGAQV PGPT0015620_1316 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLUM_CONTROL MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422 NA NA AK015_02140 354 fliT Flagellar protein FliT ATGAATCGGTTAACTTCCTTCTATGATACTACCCAACATTTACATGATCTTCTTCAACAGGAAATAGACCCAAAGGAACGCGAATCGATCATCTCAAAAGTAAATGACTTGATTGAAGAACGTGGTGAACAAATGAAATCACTAAAACCGCCTTTTTCAGAGGAAGAAAAAGCTACAGCAAAAAAAATTATGCAATTAAATAAGTTAATTGAACAAGAAATGCTGTTGCTGTTTGATAATTTGAAAGTAGAATTGCGCCAAATGAAAAAACAAAAACAATCCAACCGAAAGTATATTCATCCATATGAAACGATACAATCACGGGATGGAATCTATTTAGATCGGAAAAAATAA MNRLTSFYDTTQHLHDLLQQEIDPKERESIISKVNDLIEERGEQMKSLKPPFSEEEKATAKKIMQLNKLIEQEMLLLFDNLKVELRQMKKQKQSNRKYIHPYETIQSRDGIYLDRKK PGPT0015625_372 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLUM_CONTROL MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015625-fliT-K02423 NA NA AK015_02141 558 yvyD COG1544 Ribosome hibernation promotion factor ATGAATTTTAACATACGTGGTGAAAATCTTGAGGTAACAGGAGCTATACGTGATTACGTGGAGAAGAAGATAGGTAAGTTAGAAAGGTATTTTGATGCTCCACTAGCTTCTGATGTACATGTGAATTTAAGTGTCTATAATGATGAACAAAGGATTGAAGTGACGATCCCGATGACTAATTTATTATTGCGCGGTGAGGTACAACATGTTGATCTTTACGCTGCTATTGACTTAGTTGTCGATAAACTTGAGAGGCAAATTAGAAAACATAAAACAAAAGTAAATAGAAAGTTTAGACAAAAAGGATCTCCTAAGCATGTTTTTGCAGAATTAGAAAAAGACGCTTTAAATGGAGAACAAGAAGAAGAGTCTTCTGATATAGAAATTGTGCGAACAAAACGATTCGACCTTAAACCAATGGATTCTGAAGAAGCGGTACTACAAATGGATATGCTCGGTCATTCTTTCTACGTTTTTGAAAACGCTGTAAATGGTGAAACAAATGTTGTTTACCGAAGAAAAGATGGAAAGTACGGGTTAATTGAACCAAACGCATAA MNFNIRGENLEVTGAIRDYVEKKIGKLERYFDAPLASDVHVNLSVYNDEQRIEVTIPMTNLLLRGEVQHVDLYAAIDLVVDKLERQIRKHKTKVNRKFRQKGSPKHVFAELEKDALNGEQEEESSDIEIVRTKRFDLKPMDSEEAVLQMDMLGHSFYVFENAVNGETNVVYRRKDGKYGLIEPNA NA NA NA NA NA AK015_02142 150 hypothetical protein TTGGATTGTGACAAAAGCCTTTATCTAAAGCATATTACTCAAAAAATAGAGCAACATGAGAGAACGATTAGCCAACTTGTGGAAATTGTAGCAGTTTTAAATCGACAATTAGCTACATACAAGGAGGGAGTGATGGAACGAAAGCGATAA MDCDKSLYLKHITQKIEQHERTISQLVEIVAVLNRQLATYKEGVMERKR NA NA NA NA NA AK015_02143 906 rihB_2 COG1957 Pyrimidine-specific ribonucleoside hydrolase RihB ATGCAAAACAGATTAATTATTGATACAGATATTGGGAGTGACATTGATGATGCAATGGCTTTAGCACTTGCTATGAAGTCAAAAGAAATAATAATCGAAGGAATTACAACAGTGTATGGCAATGCGGAGCTTAGAGCTAGAATTACAAAAAAATTATTGCAACTAGGAAACCAAAAAAATATTAAAGTATTTGCAGGTGTTAGCCAATCATTACTGTTTAATCGTGATATTTGGATGGCTGGTCACGAAGGAGAGGGTATTCTGACTGAAGATGAGCACATTGAATACGACAGTGGCCATGCAGTCGATTTTATTATTCAAACAATAATGAAAAACCCTGGAGAAATAACACTTATAGCAATTGGTCCGTTAACAAATATTGCCACTGCTATTATTCGTGAACCAAGCATCGTAAAAAACGTAAAAGAAATAATTATAATGGGAGGTGTTACTAGGCTTGGCGACAATTCTCTAACTCTCCCAATAAATGAGCACAATATTAGGTGCGATCCAGAAGCTGCATCCATTGTATTCAGTAGTAAAGCGCCTATTTGTATGGTCGGATTAGATGTAACATATAAAGTGACTTTCACAAAGTTTCATAGAGACCAACTAGAAAATTCGAAAACACCTCTTAATTTAGCACTTGTTAATCAACTGGATCGTTGGTTTGCTTTTATTAAGGAAGATATAACTAAAATGCACGACCCGTTAACCGTTTCTATTGCCATTAATAGAGATATTGTCAAAACAGAAAAAGCGAAAGTTCATGTTGAGTACGATCATCGCCAAATGACTGGAACAACAATTGCCATACCAGACAAAAGTGGTAATGTAGAAATTTGTCTAGATGTGGATAGCCGACGATTTAATAATATTTTATTACGTCGACTATTAGATGAATAA MQNRLIIDTDIGSDIDDAMALALAMKSKEIIIEGITTVYGNAELRARITKKLLQLGNQKNIKVFAGVSQSLLFNRDIWMAGHEGEGILTEDEHIEYDSGHAVDFIIQTIMKNPGEITLIAIGPLTNIATAIIREPSIVKNVKEIIIMGGVTRLGDNSLTLPINEHNIRCDPEAASIVFSSKAPICMVGLDVTYKVTFTKFHRDQLENSKTPLNLALVNQLDRWFAFIKEDITKMHDPLTVSIAINRDIVKTEKAKVHVEYDHRQMTGTTIAIPDKSGNVEICLDVDSRRFNNILLRRLLDE PGPT0013465_2793 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239 NA NA AK015_02144 1209 nupX COG1972 Putative nucleoside permease NupX ATGAATGTTTTATGGGGACTTGCTGGAATTGCAGTACTCGGTTTACTTGCATGGTCAATATCTATGGATAAAAAAGCAATTAATTATCGCACTGTAATAAGCGCCTTCGCTCTTCAAATTCTTTTCGGCTTCGTCGTTTTAAAATGGGATTGGGGACAAAAAATTCTAACAAAGATGGCTGATTTTGTTGAAAAGATTATAGGATCTTCCCAATCAGGAATAGACTTTTTATTTGGAGACCTTCTACCAGATAATGGATTTGTCTTTGCCATTCAAGTACTTCCAGTAATTATTTTCTTTTCTTCTTTGGTATCTGTCTTATACCACTTAAAAGTGATGCAAGGATTTATTAAATTAATTGGTGGTGCATTAATGAAGATACTGAAAACTAGTAAACTTGAATCAACAGCCTCTGCATCAAATATATTTTTAGGTCCGTATGAATCAGCTCTTGTAATTAAACCTTATGTTAAGAGCTTAACAAAGTCGGAACTATTTGCCGTTATGGTTTGTGGAATGGCTACTGTAGCTGGATCTGTATTTGCTGGATATGCGGCACTAGGAATACCAGTGGACTATTTGCTCACAGCTGCACTTATGGCAGCACCTTCCGGATTACTATTTGCCAAAATCATCGTTCCTGAAACTAAAAATAAAGCAGACAAAAAGGCTAATGTTACAACTGAAATTACCACTAAAAATGTTTTTGATGCCGCTGCTACTGGAGCAAGTGACGGTATGAAGCTCGCCTTAACTATTGCAGCCATGCTAATAGCTTTTACATCTTTAATAGCTTTAGTAAATATTTTAATTGACCCTATTGGTAACTTATTAGGCATCCAAGATTTATCTTTAGAATTTCTATTTGGATATTTGTTTTCGCCAATAGCTTTCATCATAGGTATACCATTTGATGAAATTATTGGTGGTGGTTATTTTATTGCTATTAAGTTTACTGTGAATGAATTTGTTGCTTTCACAGAATTTTCAACGGAAATGAGTAGTTTTTCAGATAAATCCGTTGCTATCATTAGCTTTGCACTATGCGGATTTGCAAATATAGCTGGTATTGCGGGCGCTATCGGTGGTTTAGGTGGAATAGCTCCAAACCGAAGAACTGAAATTTCACAACTTGGAGTCCGTGCATTAGCTGCCGCAACATTAGCTAATTTATCAAATGCAGCCATTGCTGGGATGTTTATTGTATAA MNVLWGLAGIAVLGLLAWSISMDKKAINYRTVISAFALQILFGFVVLKWDWGQKILTKMADFVEKIIGSSQSGIDFLFGDLLPDNGFVFAIQVLPVIIFFSSLVSVLYHLKVMQGFIKLIGGALMKILKTSKLESTASASNIFLGPYESALVIKPYVKSLTKSELFAVMVCGMATVAGSVFAGYAALGIPVDYLLTAALMAAPSGLLFAKIIVPETKNKADKKANVTTEITTKNVFDAAATGASDGMKLALTIAAMLIAFTSLIALVNILIDPIGNLLGIQDLSLEFLFGYLFSPIAFIIGIPFDEIIGGGYFIAIKFTVNEFVAFTEFSTEMSSFSDKSVAIISFALCGFANIAGIAGAIGGLGGIAPNRRTEISQLGVRALAAATLANLSNAAIAGMFIV PGPT0021070_1451 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 AK015_02145 759 rhaR_3 HTH-type transcriptional activator RhaR TTGGATACATTGGATTTTTTGTTTTTTTCTAAACGTAAAAAGGGACAATATATACCTAGTCATAACCATAATTGTTGTGAGTTAGTCTATTATTTTGCAAGTGGTAAAACAGAAATCGATTCAACGGAGTATACTTTTTATGAGAATAATTTTGCCCTTATTTCTCCTAATACCAATCATGATGAAATACATTTTGTTGATGCTGACGTACTGTATATTGGTTTTTATACCGAAAACGAGATAATACTAGAAAAGAATGGTGTATTTCAAGACAGCAGGGATTGGGTTATTAGAGATTGTTTAGTTAAGATGAGAGAGGAGTTTGTACAAAAACAAAGTGGATTTTCAAAAATGCTTCATTTATTAGTAGGAAAGCTCGTTATCCATTTACAGAGGTTAATTGGTAAAACTAAAAAGTATATGGATCATACAGATGATAGAATGCAGTATGTTCGTAATTATATGGAAGAATATTTTCAGCAAAAGCTGACCAATGAAATTTTAGCCAATATTGCTGGATATAGTTATGATCATTTTCGACATTTATTTAAAGAAAAATTTAGCATGACGCCACAGCGATATTTGTATTTAAAAAGAATGGAATTTGCAAAAGCATGCCTTATTCATGATCCATCGAAGTTAATTTCCGATATAGCTTTGGAGGCAGGATTCTCTAATGACTCCCAATTTTGCAGTATGTTTAAACGAGAAACTGGTATGACCCCTAAAATGTATCGTGAAGAACAAAATAAAGTGTAG MDTLDFLFFSKRKKGQYIPSHNHNCCELVYYFASGKTEIDSTEYTFYENNFALISPNTNHDEIHFVDADVLYIGFYTENEIILEKNGVFQDSRDWVIRDCLVKMREEFVQKQSGFSKMLHLLVGKLVIHLQRLIGKTKKYMDHTDDRMQYVRNYMEEYFQQKLTNEILANIAGYSYDHFRHLFKEKFSMTPQRYLYLKRMEFAKACLIHDPSKLISDIALEAGFSNDSQFCSMFKRETGMTPKMYREEQNKV NA NA NA NA NA AK015_02146 2511 secA COG0653 Protein translocase subunit SecA ATGGCAAGTATTTTACAGAAAATTTTTGGTGATGGAACGCAACGACAATTGAAAAAACTTCAAAAGACTGTCGATCAAATTGAAGCGTTAGAACCGGAAATGGAAAAATTATCTGATGAGCAATTGCAACAAAAAACAGAAGAATTTAAAACAAGATATCAAAACGGAGAAACGCTAGACGAATTGCTAGTAGAAGCATATGCAGTTGTGCGAGAGGCTGCAAAACGCGTTTTAGGTATGCGTCCGTTTCAAACCCAGTTAATGGGAGCAATCGCCTTACATGAAGGAAATATTGCAGAAATGAAAACAGGGGAAGGTAAAACATTAGCTTCCACGATGCCTGCATATTTAAATGCCATAGCTGGAAAAGGTGTCCATATAATTACAGTAAACGATTATTTAGCAAGTCGTGACGCAAAAGAGATGGGTGAACTTTATGAATTCCTCGGTTTAACAGTTGGACTTAACGGAAATGGACTTACAAAAGAGCAAAAACGAGAGGCTTATAACCAAGATATTACGTACGGTACGAACAACGAATATGGATTCGATTACTTACGTGATAACATGGTTTTGTATAAAGAGCAGATGGTACAACGTCCGCTGAATTATGCAATTATTGACGAGGTGGACTCTATTTTAATTGATGAAGCAAGAACGCCATTAATTATATCAGGCTCTGCTAAAAAGTCCGCAAGTTTATATCAACAGGCAAATGCATTTGTTTCAACATTGGCAAAAGATGACTATTCTTACGATGAAAAAACGAAAGGCGTTCAGTTGACAGAAGAAGGGATTAATAAAGCAGAACGTTATTTCTCTATTGATAATTTATTCGACTTGAATCATGTTTCGTTAACACATCATATTAACCAAGCTTTAAAAGCACATATCTCCATGCACCGTGACGATGATTACGTTGTAGAAGATGGGGAAGTCGTTATTGTCGACCAATTTACTGGTCGTCTCATGAAAGGTCGTCGCTATAGTGATGGTTTACATCAAGCAATAGAAGCAAAAGAAGGTTTACAAATCCAAAATGAAAGTATGACATTGGCATCGATTACGTTTCAAAACTTTTTCCGTATGTACAATAAACTTGCTGGAATGACAGGTACAGCTAAGACGGAAGAAGAAGAGTTTAGAAATATATACAATATGGATGTTATTGCCATCCCGACAAACAAGCCCATTATTCGAGATGATAAGCCTGATTTAATTTATAAGACAATGGAAGGAAAATTTCGTGCTGTCGTTGAAGATATTAAAGAACGCCATCAAAAAGGCCAACCCGTTCTCGTCGGTACGGTTGCCGTCGAAACTTCTGAACTCATTTCAAAGATGCTAAAAAAAGCAGGCATTAAGCATGAAGTGTTGAATGCAAAGAATCACTTTCGTGAAGCGGAAATCATCGAAAATGCTGGGCAGCGTGGTGCCGTTACAATTGCAACTAACATGGCTGGTCGAGGAACAGATATTAAATTAGGCGAAGGTGTTGTGGGATTAGGCGGACTTGCTGTTATAGGAACGGAACGTCATGAATCTAGGCGTATTGATAATCAGCTACGTGGACGTTCTGGACGTCAAGGAGATCCAGGTGTATCGCAATTTTACCTTTCCATGGAAGATGAATTGATGCGTCGATTTGGGTCTGATAATCTCCGTGCCATGATGGAGCGCTTAGGAATGGAAGATTCGCAACCAATTGAAAGTAAAATGGTTTCCCGTGCAGTAGAATCAGCACAAAAACGAGTGGAAGGAAATAACTTTGATGCGCGTAAGACGGTTCTTTCCTATGACGATGTTTTACGTGAACAACGTGAAATTATTTATAAACAGCGTTTTGAAGTGATTGATGCAGAGGGCAATTTACGCGAAATTATTGAAAATATGATTTTGTCTGCATTGGAACGTGTTGTTACAACACATACCCAAGACGATGATGAAGATAAGTGGGATTATAAAGCAATTGTAGATTATGTAACAGGTAACTTGCTTGAACCTCATGACATCTCTGAAGATGATCTTAAAGGAAAAGATCAAGGAGAAATAACCGAATGGATCATGGAAAAAGTAAAAGCACGTTATGACGAAAAAGAACAAGAATTAACGGAAGAACAAATGCGAGAGTTTGAAAAAGTGATTCTCCTTCGTACTGTCGATACAAAATGGATGGACCATATTGATCAAATGGACCAGTTACGCCAGGGAATTCATTTACGTGCATATGGCCAAAACGATCCACTTCGGGAATATCAACTAGAGGGCTTCGCTATGTTTGAGTCAATGATTCAAAGTATTGAAGAGGAAGTAGCGAAGTATATCATGAAAGCTCAAATTCGTGATAACCTTCAACGCCAGGAAGTTGTGAAAAATACGCAAGCTGTTTCTGGCGGTCAAGAAGAAAAGAAAAAAACACGTAAACCATTTGTCAAACAGAACAATGTAGGTCGAAATGATCCATGCCCATGTGGTAGTGGGAAAAAATATAAAAATTGCCATGGGAAATAA MASILQKIFGDGTQRQLKKLQKTVDQIEALEPEMEKLSDEQLQQKTEEFKTRYQNGETLDELLVEAYAVVREAAKRVLGMRPFQTQLMGAIALHEGNIAEMKTGEGKTLASTMPAYLNAIAGKGVHIITVNDYLASRDAKEMGELYEFLGLTVGLNGNGLTKEQKREAYNQDITYGTNNEYGFDYLRDNMVLYKEQMVQRPLNYAIIDEVDSILIDEARTPLIISGSAKKSASLYQQANAFVSTLAKDDYSYDEKTKGVQLTEEGINKAERYFSIDNLFDLNHVSLTHHINQALKAHISMHRDDDYVVEDGEVVIVDQFTGRLMKGRRYSDGLHQAIEAKEGLQIQNESMTLASITFQNFFRMYNKLAGMTGTAKTEEEEFRNIYNMDVIAIPTNKPIIRDDKPDLIYKTMEGKFRAVVEDIKERHQKGQPVLVGTVAVETSELISKMLKKAGIKHEVLNAKNHFREAEIIENAGQRGAVTIATNMAGRGTDIKLGEGVVGLGGLAVIGTERHESRRIDNQLRGRSGRQGDPGVSQFYLSMEDELMRRFGSDNLRAMMERLGMEDSQPIESKMVSRAVESAQKRVEGNNFDARKTVLSYDDVLREQREIIYKQRFEVIDAEGNLREIIENMILSALERVVTTHTQDDDEDKWDYKAIVDYVTGNLLEPHDISEDDLKGKDQGEITEWIMEKVKARYDEKEQELTEEQMREFEKVILLRTVDTKWMDHIDQMDQLRQGIHLRAYGQNDPLREYQLEGFAMFESMIQSIEEEVAKYIMKAQIRDNLQRQEVVKNTQAVSGGQEEKKKTRKPFVKQNNVGRNDPCPCGSGKKYKNCHGK PGPT0025735_4909 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070 NA NA AK015_02147 1062 prfB_2 Peptide chain release factor 2 ATGGCCGCATCAACGATTTTAGGGGGTCTCTTTGACTTAGAGGCAAAGACAGAACGTATTCAAGAATTAGAGCTACAAATGACTGCTCCTGAATTTTGGGATGAACAAGAAAAAGCTCAAGGCGTCATCAATGAAATGAACCATTTAAAAACATATGTCAATAGTTTTTCTCAGCTTGAGCAACAGCTTGATAATTTAGAAGTTTCTTATGAACTTGTAAAAGAAGAGAATGATCAAGAGTTATTAGAAGAATTAATTCAGCAATTAACTTCTTTACGACAACAATTCAATGATTTTGAATTACAAATTCTTTTGAGCGAACCATATGATGCCAATAATGCTATCTTGGAATTACACCCTGGTGCAGGTGGCACGGAATCTCAAGACTGGGGAAGCATGCTGTTACGAATGTATCAGCGCTGGGCAGAGAGAAAGAAATTTCAAGTCGAGACGTTAAATTATTTACCAGGTGATGAAGCAGGGATTAAAAGTGTTACATTGCTCATTAAAGGACATAATGCTTATGGTTATTTAAAAGCAGAAAAAGGCGTACATCGCCTTGTACGCATATCACCGTTTGATTCATCTGGCAGAAGACATACGTCGTTTGTTTCGTGTGAAGTGACGCCAGAAATGACGGATGATGTAGATATCGAAGTAAAGTCTGAGGATATAAAAATCGATACGTACCGTGCTAGCGGTGCAGGTGGCCAACATGTAAATACAACGGATTCTGCTGTGCGTATTACCCACGTACCGACAAACATTATTGTGACTTGTCAAAATGAACGGTCGCAAATTAAAAACCGGGAAGCAGCTATGAAAATGTTAAAGTCAAAATTATATCAACTTGAAATTGAAAAACAAAAGCAGGAATTAGCTGAAATTCGTGGTGACCAAATGGAAATTGGTTGGGGAAGTCAAATTCGTTCTTACGTCTTTCATCCATATTCTATGGTGAAAGATCATCGCACAAATGTAGAAGTTGGTAATACGCAAGCCGTTATGGATGGAGAAATTGATTCGTTTATTGATGCTTATCTAAGACAACAGGTGAATTAA MAASTILGGLFDLEAKTERIQELELQMTAPEFWDEQEKAQGVINEMNHLKTYVNSFSQLEQQLDNLEVSYELVKEENDQELLEELIQQLTSLRQQFNDFELQILLSEPYDANNAILELHPGAGGTESQDWGSMLLRMYQRWAERKKFQVETLNYLPGDEAGIKSVTLLIKGHNAYGYLKAEKGVHRLVRISPFDSSGRRHTSFVSCEVTPEMTDDVDIEVKSEDIKIDTYRASGAGGQHVNTTDSAVRITHVPTNIIVTCQNERSQIKNREAAMKMLKSKLYQLEIEKQKQELAEIRGDQMEIGWGSQIRSYVFHPYSMVKDHRTNVEVGNTQAVMDGEIDSFIDAYLRQQVN NA NA NA NA NA AK015_02148 360 cccA Cytochrome c-551 ATGAAAAAATGGTTATTAGCAATGCTGTTTGGCACTGTATTAGTGCTGGGCGCATGTGGGGGCGGCGATGATGAAAATGCTTCCGAAGAACCAGCTGATAAGGACGATGCAAAAACAGAGGATAATAGCGGTAGTGTAGATGCTACTGCTGCTGAAGAAGTCTACCAGGATAATTGTTTAAGCTGCCACGGTGCAGACTTATCTGGCGGCAATGCCCCTGCTTTGACAGATGTAGGATCAAAGTATTCCTCAGATGAAATTGCAGACATTATTAAAAATGGAAAAGGAAGTATGCCTCCGGGAATGGCTAAAGGCGATGATGTTCAATTGCTTGCTGATTGGTTAGCAGAAAAGAAATAA MKKWLLAMLFGTVLVLGACGGGDDENASEEPADKDDAKTEDNSGSVDATAAEEVYQDNCLSCHGADLSGGNAPALTDVGSKYSSDEIADIIKNGKGSMPPGMAKGDDVQLLADWLAEKK NA NA NA NA NA AK015_02149 687 ftsE COG2884 Cell division ATP-binding protein FtsE ATGATACAAATGAAAGATGTATATAAAACGTATGATAATGGTGTTTCGGCACTAAATGGAATAAATATAAATATTGACCGTGGTGAATTTGTATACATAGTTGGTCCGAGTGGTGCAGGTAAGTCCACATTTATCCGGCTAATTTTCCGAGAAGTAAAGCCAACAAAAGGAACGGTTTATGTAAATGAAATGAATGTTAATGAATTAAAAGAAAAGAAAGTGCCCTTACTTCGGAGAAATGTTGGGGTCGTTTATCAGGATTTTAAATTGTTGTCTAAACTGACAGTCTATGAAAACGTAGCTTTTGCGATGGAAGTAATCGAGTCCCATCCCTCACTAATTCGAACACGTGTAATGGAAGTACTAGATTTAGTCGGCTTGAAAAACAAAGCTAGATTTCTCCCTCATGAATTATCAGGAGGTGAGCAACAACGTGTATCGATTGCACGAGCTATTGTGAACTATCCTAAAATTGTTATTGCTGATGAACCAACAGGTAACTTAGACCCAGATACTTCATGGGGAATTATGAAAGTATTGCAGGAAATCAATGACCGTGGAACAACAGTCATTATGGCTACACATAGTAAAGAGATTGTTAATACTTTTAAAAACCGTGTTGTTGCAATTGAGGACGGATTAATTGTTAGAGATGAACATCGAGGTGAATACGGCTATGAAGGTTAG MIQMKDVYKTYDNGVSALNGININIDRGEFVYIVGPSGAGKSTFIRLIFREVKPTKGTVYVNEMNVNELKEKKVPLLRRNVGVVYQDFKLLSKLTVYENVAFAMEVIESHPSLIRTRVMEVLDLVGLKNKARFLPHELSGGEQQRVSIARAIVNYPKIVIADEPTGNLDPDTSWGIMKVLQEINDRGTTVIMATHSKEIVNTFKNRVVAIEDGLIVRDEHRGEYGYEG PGPT0020520_1037 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071 NA NA AK015_02150 927 ftsX COG2177 Cell division protein FtsX TTGTTAGAGATGAACATCGAGGTGAATACGGCTATGAAGGTTAGAATACTTATGCGACATATACGTGAAGGATTTAAAAACATCCGGCGTAATGGCTGGATGACAATGGCCTCGATTGCAGCTGTGACAACGACATTGATTTTAGTTGCTGCTTTTTTAGCTTTAATGCTGAACTTAAACGAAATGGCAGATAACATAGAAAGAGATGTCCAACTTGATGTCATGATTGAACAAACTGCATCACAGGAAGATATTCAAGCTTTAGGAGAGTCCATCAATAAATTAGAAAACATCGATTCTGCTGTTTTTTCTTCCAAAGATGATGAATTAAATAAATTAATCAAAAGCATGGGAGAGGATGGACAAGCTTGGGAAATGTTTGAACAGGACAATCCATTGAACCATGTTTATATTGTGAAGGCAAAACAGCCTGAAGATACATCAGCTATAGCTGAAGAAATTAAACAGATGTCAGCTGTAGAAGATGTCGTTTATGGGCAAGAAGTTGTGGAAAAGTTATTTGACTTTAACAAGTATGCAAGAACGATTGGATTAGTGTTAATAATTGGATTAGTATTTACGGCTATATTCTTAATCTCAAACACGATTAAAATCACAATTATGGCTAGAAGTAAAGAGATTGGCATTATGAAACTAGTTGGTGCGACCAATGGTTTTATTAGGTGGCCATTCTTCGTGGAAGGATTATTACTGGGTGTAATGGGTTCAATTATACCAATTATTATTGTGCTTACAGGGTATTATTACGTGGAAGATATCTTAAGTAAGCAAACGACGTATAATTTTATCGAACTTTTACCTTATACTCCTTTTGCTTTCCAGTTATCGGGAATTATTTTAGCAATTGGTGCAGCTATAGGTGTTTGGGGAAGTGTGATGAGTGTTAGGAAATTCCTAAAAGTCTAA MLEMNIEVNTAMKVRILMRHIREGFKNIRRNGWMTMASIAAVTTTLILVAAFLALMLNLNEMADNIERDVQLDVMIEQTASQEDIQALGESINKLENIDSAVFSSKDDELNKLIKSMGEDGQAWEMFEQDNPLNHVYIVKAKQPEDTSAIAEEIKQMSAVEDVVYGQEVVEKLFDFNKYARTIGLVLIIGLVFTAIFLISNTIKITIMARSKEIGIMKLVGATNGFIRWPFFVEGLLLGVMGSIIPIIIVLTGYYYVEDILSKQTTYNFIELLPYTPFAFQLSGIILAIGAAIGVWGSVMSVRKFLKV NA NA NA NA NA AK015_02151 1422 hypothetical protein GTGAACAAACCAATGAGAAAGTTTCCAGTCCTATTATCAACCATTGTTGCAGCTTCTACCATCACATTATCAACGACTTCCATATCTGCAGAATCGACGGCAGATTTAAATAAAAAAATTGATGCATTGCAACAACAACAAAAACAACTTGAAGAAAAACAAGGTAAGTTACAGCGTGACACAGATAAAACAGATAAAAAGATTAATAAAAACCTAGATAAACAAGGTTCTGTTGAAAAAGAAATTCATTCGATTGATACAGATCTACAAAAAACGTTAGAGCAAATAACAACGAAAGAAACAGAGATAAGTAACACCAATCAACAAATAAAGGAATTAGGAAAACAAATTCAAAAGCTCAAGAAAGAGATTACTATACTAAAAGAACGTATTGCTAAACGAGAAGGATTATTAAAGGATCGTCTGCGTAACATTCAGCAAAATGGTGGCTCTATGAAATACATAGAAGTTATTTTAGGATCGAAAAGTTTTGGTGATTTTATTAGTCGGTCATCTGCTGTAAACACGATTATGGATCAAGATAAATCGATTATGGAACAGCATGAAGCGGATAAAATAGCTGTGGAAAAAAATAAAGTAGACGTAGAAAATAAAAAGTCTGAAGTGGAAGAGCGAAAACAATCCTTGCAAGCTCAAAAACAGGATTTAGTTGCCTTGAAAGGACAGTTAGATAAACAATTGTCGAAAAAAGAAACACTAATGGCGAGCTTGGAAGAAGAACACAAAGAATTGGAAGCATACAAAGTAAGTGTAGAGGAAGAACAAGAAATTTTGGCACAACAGGCTGAAGCAGCGGAAAAAGCAAAACAGCTTGCTCAATCACAAAAGAGTGAATTAGAGCAGCTAGCTAAAGAAAAAGCAGAGCAACAAGCAAAACAAGAAGCGAAGCAATCTAAGTCCAATCATCCATCTTCTGCTAATAATAGCTCTGGCTCAAGTTCAAATTCAAGTGGTGGTTCAGCACCAGCGCCAGCACCTGAGCAAAATATGGGGGGAGATATGATGTATCCTATCTCTGCGCCAATCACCTCTCATTACGGCACTCGCTGGGGATCAATGCATCATGGTACAGATTTCGGTGCACCAATAGGTACGCCAGTTCGTTCGGCAGCATCTGGAGTTGTTATTATGACTAATTCTGCTTCTCAAGCTGGGATGTCAGGTTATGGAAATGTTATTTTAGTGTCACATAATATAAATGGACAATCTTATACAACCTTATATGCTCATTTAAATAGTATCGGAGTGAGTCAAGGTCAAACTGTAAGTGCTGGCCAAGTTATTGGTGCTAGTGGAAATACTGGCCAGTCTACAGGACCACATTTGCATTTTGAAGTTCATCGCGGTGGTTGGAATGGTTCTAAAAGTAATTCCATTGATCCAATGACAGTTTTAAATTAA MNKPMRKFPVLLSTIVAASTITLSTTSISAESTADLNKKIDALQQQQKQLEEKQGKLQRDTDKTDKKINKNLDKQGSVEKEIHSIDTDLQKTLEQITTKETEISNTNQQIKELGKQIQKLKKEITILKERIAKREGLLKDRLRNIQQNGGSMKYIEVILGSKSFGDFISRSSAVNTIMDQDKSIMEQHEADKIAVEKNKVDVENKKSEVEERKQSLQAQKQDLVALKGQLDKQLSKKETLMASLEEEHKELEAYKVSVEEEQEILAQQAEAAEKAKQLAQSQKSELEQLAKEKAEQQAKQEAKQSKSNHPSSANNSSGSSSNSSGGSAPAPAPEQNMGGDMMYPISAPITSHYGTRWGSMHHGTDFGAPIGTPVRSAASGVVIMTNSASQAGMSGYGNVILVSHNINGQSYTTLYAHLNSIGVSQGQTVSAGQVIGASGNTGQSTGPHLHFEVHRGGWNGSKSNSIDPMTVLN NA NA NA NA NA AK015_02152 1452 ctpB COG0793 Carboxy-terminal processing protease CtpB ATGAAATTAAGAAAGCTACATATTGTACTACTTTTTATATTAGCTTTAGTTATTGGTCTGGCTGGAGGTTACACGGGAGTGAAGCTAGCTCAGAAAACAACTCCACCTACAGAACAGTCAATGAAATTAGGTGGTGAAACGGCTGCCAATGAAGTACCAACCCAAGATATGGAAAAAGTGGATCAAGCTTTTCGATTAATTAAAGAAAACTACTTAGAAGAAGTTGATGATAAGCAGTTAACAGAAGGTGCGATTCAGGGCATGCTTTCTACTTTGGAAGATCCATACAGTTCCTATATGGATGCAGAAACAATGAAGAAATTTAATGAGCAAATTGAGTCTTCATTTGAAGGGATAGGAGCAGAGGTAAATAAAGTAGACGATGTATTAAGCATAGTAGCTCCGGTGAAGGACTCTCCAGCTGAAAAAGCAGGATTACGGCCAAATGATCAAGTTCTCAAAGTTGACGGGAAAAGCCTCGAAGGCTTAAGTCAAAATGAATCTGTCGCTAAGATACGAGGAGAAAAAGGAACCAAAGTGGAACTAACAATCCGTCGGGCTGGAGTTGAGGAACCTTTTAAAGTGACAATAGTAAGAGATACTATTCCTCAGGAAACGGTATACAGTAAAACGAAGAATGTAGACGGCAAAAAAACAGGTATTTTAGAAGTGACGAATTTTTCGGAACGCACAGCTCAGGAGTTCAAAGAACAGCTGACAAAAATGGAAGATAGTGGTATTGAAGGATTAGTGATTGACGTTCGAGGGAATCCTGGTGGACTGTTAAATGTTATTGAAGATATTTTAAAACAATTTGTTCCAGAAGATATGCCTTACCTACAAGTGGAAGACCAAAAAGGTAACAAAACACCATATCATTCTGATTTAAAGGAAAAGAAAAAGTACCCGATCAGTGTCATTATAGATGAAGGAAGTGCTTCAGCATCGGAAATATTAGCTGCAGCTATGAAAGAAATGGGCTATGACGTGGTTGGGCAACCAAGTTTTGGTAAAGGAACGATTCAGCAAGCCGTTCCTTTAGGGGATGAAAGTACTATTAAACTTACTTTCTTTAAATGGTTGTCACCAAATGGGAAATGGATACATGAAAAAGGTGTCCAACCTACTATTAATCAAAAACAACCTGAATATTACTATACAAGCCCTGTCGAAATTGAAGAGCCGTTAAAGGAAGACCAAACTGGAGATAAAATTAAAAATATCCAAATTATGCTTCAAGGTTTAGATTACGATCCTGGGCGTACAGATGGCTACTTTAGTGCAGCAACAAAACAAGCAGTAACTTCTTTTCAACAAGATAATGATTTGCCTAAATCTGGTGAAATTGATGCGCAGACAGCTAAGCTGATTGAAACCCAAATCATTAAAAGTATTCGTAATGGGAAAGATGATAAACAATTAGATAAAGCAATAGAAGAAGTTTATAAGTAA MKLRKLHIVLLFILALVIGLAGGYTGVKLAQKTTPPTEQSMKLGGETAANEVPTQDMEKVDQAFRLIKENYLEEVDDKQLTEGAIQGMLSTLEDPYSSYMDAETMKKFNEQIESSFEGIGAEVNKVDDVLSIVAPVKDSPAEKAGLRPNDQVLKVDGKSLEGLSQNESVAKIRGEKGTKVELTIRRAGVEEPFKVTIVRDTIPQETVYSKTKNVDGKKTGILEVTNFSERTAQEFKEQLTKMEDSGIEGLVIDVRGNPGGLLNVIEDILKQFVPEDMPYLQVEDQKGNKTPYHSDLKEKKKYPISVIIDEGSASASEILAAAMKEMGYDVVGQPSFGKGTIQQAVPLGDESTIKLTFFKWLSPNGKWIHEKGVQPTINQKQPEYYYTSPVEIEEPLKEDQTGDKIKNIQIMLQGLDYDPGRTDGYFSAATKQAVTSFQQDNDLPKSGEIDAQTAKLIETQIIKSIRNGKDDKQLDKAIEEVYK PGPT0015095_3688 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797 NA NA AK015_02153 1158 minJ COG0265 Cell division topological determinant MinJ ATGTTTTTAAACCCGTTATTTTACTGGATTTTTATTCTAATTATTGTTACTGGAATGAAGCGGATAAAACGGGAAAGAGAAGACTTCGGTATAAAAATTTACAATTTGTCTTCAGAATGGAAAAATACGTTTTGGCTGTCTATTATAGTAGGATTGTTACTTTCTGCGTTTACACTAGGTGTGGGTGTTACACTTACATATCCTGTTATATTGTTATTTGGTTTGATAACTATACTCATTAGTATAACGGGAAGAATTAACTTACTTTCGGCAAGCTATATTTTAGGGATAACCTACTTAGTCCTCATGTTTGTACCTGAATGGATAAATATAGAGACAATACTTCCTTTTCATATACATACAGATGTTCATCTTTCGGGTTTAGTTAGTTTATTAGCTCTGCTATTGCTTGCCGAGAGTATCTTATTATTTAGCTCCAGAAACGATGTAACCTATCCAGAACTGACACTTAGTAAACGGGGGATATGGGTCGGACAGCATCATTTAAAAAAGCTGACAGTAATTCCGTTTTTTTCACTTGTCCCAACAGGTTCACTAACTCCGTTTGCGGATTTTTGGCCTTATTTTACGTTAAATGGGGAGACATACGGTCTTGTACTTACTCCTTTTATTCTCGGTTTTGATCATATTGTACGTGCGCAACACCCTTCATTTGCTGCTAAAAAGCTAGCACGATCTACATTGTTATTAAGTTTCCTAGTGGCTGCGCTTGCAGTAGGTAGTATATATTATTCTTTGTTTTCATTTATAGCGGTATTATGTGCAATTTTGGGAAGAGAATGGATAAACTATCGCTTTCGTATTAACGAACAAAATAAACCAAGGTATTTTCAATCAACGGATCGAGCGTTAAAAGTGCTTGCTGTACTTCCGAATTCTCCAGCTGATCGGTTAGGGATTCATGTAGGTACGTTGATCACTAAAGTAAACGGGAAGAAAGTGAGTCAACCTGAATCTTTTTATCACGCCTTGCAAACAAGTGGAGCTTTTTTTAAATTGGAAATCATTAATCGAGAAGGAGAAATAGAATTACTACAAGGGGCATGGTATGAGGGGGACCATCATGGTTTAGGACTATTATTTGTCTCTACCCCACACGATCATGAGCATCTTAATGTAAGTAATGGAGAAGGATAA MFLNPLFYWIFILIIVTGMKRIKREREDFGIKIYNLSSEWKNTFWLSIIVGLLLSAFTLGVGVTLTYPVILLFGLITILISITGRINLLSASYILGITYLVLMFVPEWINIETILPFHIHTDVHLSGLVSLLALLLLAESILLFSSRNDVTYPELTLSKRGIWVGQHHLKKLTVIPFFSLVPTGSLTPFADFWPYFTLNGETYGLVLTPFILGFDHIVRAQHPSFAAKKLARSTLLLSFLVAALAVGSIYYSLFSFIAVLCAILGREWINYRFRINEQNKPRYFQSTDRALKVLAVLPNSPADRLGIHVGTLITKVNGKKVSQPESFYHALQTSGAFFKLEIINREGEIELLQGAWYEGDHHGLGLLFVSTPHDHEHLNVSNGEG NA NA NA NA NA AK015_02154 549 hypothetical protein ATGTTTATGCGCACCTGCTTTCTGTATTTTTGGGGAAGTATCGACCCAATTTATTTTACTTGCTCTAGGTTAACATATATTGTTGGCCCAAACCAAAAAAGGACGCTATTACGAGCTCGATTAACGAAATATAAAGGCGCTAAAATGGTTCTTTCTGATGGGACCGTAATAGAAAAGGGTGATTTGTTAGTGAAGATACATTTGCATAATGTTAAATTACTTAAAAAATTCTCAAAACAGTCGAATGACATGAAACGAGCCGTTATCATCTATCATAGTGTAAAACAAGCAATGCCAAGTTTAGCAACATATATTGAAAACCACGTGGAACAGGAAAGAGTAAAAGGGATTATTGGAATTACTAATTTATCAAAAGGTGGAAAGAAATTAGGGTTTGAAGAGAAAGCCTTGCAAAATAAATTTTATCGTATTTTCAAGAAAATAACATTATTCCCGATTAGTTTTTTAGCTGGGAAAAAATCAATAAAACCTGTTTATTTATTTATGTCAAAAGGGAAGTTATTAATGAAATACGGAAATCGCTGTTAA MFMRTCFLYFWGSIDPIYFTCSRLTYIVGPNQKRTLLRARLTKYKGAKMVLSDGTVIEKGDLLVKIHLHNVKLLKKFSKQSNDMKRAVIIYHSVKQAMPSLATYIENHVEQERVKGIIGITNLSKGGKKLGFEEKALQNKFYRIFKKITLFPISFLAGKKSIKPVYLFMSKGKLLMKYGNRC NA NA NA NA NA AK015_02155 1155 ugtP Processive diacylglycerol beta-glucosyltransferase ATGAGGCAGATGCAACCATCAGAAGCATTATTTCTTCCGTTTTTACAAATTCCAAGCGGGCATCACCATGTAGCAGATGCACTAATTGCTGAGTACAAAAGCATTTATCCAAATCATCGGTATGAAAAGGTGGACATACTTAGTTATGGGTATAAAAGTATAGAAAAGTTAGTTTCTTCTACGTATTTAACTTGGATAAAATATTTTCCGGAAGGATATGATCGTTTATACTCGTTTTTAGTTTATAAACAAGGGACTAAAAAAAGAAGCAGACAATGGCATTATGAAACTTTGTTTCGTCCAATACTACAAAAGGTGGTACAGCAAGCTGGAGCAAATATACTGTTTTTTACACATGCTTTACCTTCCAATATGGCAAGTGTTTTAAAGCAACAAAGAAAGATAGAAGCTATTACAGTAAATGTGTATACAGATTTTTTTATAAATGCTTTATGGGGGACAAAGGGAATTGACTATCATTTCGTTCCGACACTTTCCATGAAACAATATTTAATACAGTGTGGTGTACAGGAAAGTAGTATATTTGTTACTGGCATCCCCGTTCACCCATATTTTTATTATACGAATAGCAATCAAAATCAAAAAGAGGAACTGCAAATACTAATAGCTGGCGGTAGTTTAGGGACGGGAGATTTGGAATGTTTGCTAAATGAATTGAATTTATCTTCTCGAGCACATCTTTATGTTTTATGCGGACAAAATGAGCAGCTATATCAAAAACTTTACTCTAAAAAAAGTTGTCACATAACGCCATTACGCTATTTGCATTCTAAGCAAACAATGAATCAACTGTATGAGCGTGTAGATGCTGTTATAACGAAGCCTGGTGGTGTAACCGTTAGCGAATGTCTTATGAAGCGGAAACCACTGTTTATATACAGCGCTTTACCAGGCCAGGAAAGAATTAATTTACAGGAATTAACACGTTTAGGTTTAGTACAAGTAATTGATAAAAATAAAACAATTGGCAAGCAAATAATGGATTTTTTTTCAAATGATTACAAGCAACAACAACTGTATCAACAGTTGCATAACTACTTGGAAAATAGAGAGCAAGATTCTGTAGCATCTATTATAAAACGGATTACACAACAAACAAACCACAAAGGGGGAAATAGTATCTCCTATATATAA MRQMQPSEALFLPFLQIPSGHHHVADALIAEYKSIYPNHRYEKVDILSYGYKSIEKLVSSTYLTWIKYFPEGYDRLYSFLVYKQGTKKRSRQWHYETLFRPILQKVVQQAGANILFFTHALPSNMASVLKQQRKIEAITVNVYTDFFINALWGTKGIDYHFVPTLSMKQYLIQCGVQESSIFVTGIPVHPYFYYTNSNQNQKEELQILIAGGSLGTGDLECLLNELNLSSRAHLYVLCGQNEQLYQKLYSKKSCHITPLRYLHSKQTMNQLYERVDAVITKPGGVTVSECLMKRKPLFIYSALPGQERINLQELTRLGLVQVIDKNKTIGKQIMDFFSNDYKQQQLYQQLHNYLENREQDSVASIIKRITQQTNHKGGNSISYI PGPT0023400_332 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 AK015_02156 1983 uvrB COG0556 UvrABC system protein B GTGGAAAATCAATTTGAGCTAGTTGCCAAATATGAACCAAAAGGTGATCAACCACAAGCAATTAAAGAAATTGTTGAACGTATTAAGGCAGGAAAAAGGCACCAAACACTTTTAGGCGCAACAGGAACTGGTAAAACTTTTACTATGTCGAATGTAATTAACGAGATCAATCGGCCAACTTTAGTGATTGCGCATAATAAAACTTTAGCCGGTCAACTATATAGTGAGTTTAAAGAATTTTTTCCTAATAATGCGGTGGAGTATTTTGTTAGCTACTACGATTACTATCAACCTGAAGCTTATGTACCATCCACGGATACATTTATTGAAAAAGATGCGAGTATAAATGATGAAATTGATAAACTAAGGCACTCTGCTACATCAGCATTGTTCGAGCGACGAGATGTTTTAATTGTTGCGAGTGTTTCCTGTATTTATGGATTAGGTTCTCCTGAAGAATATAAAAGTCAAGTACTCTCTATTCGGACCGGCATAGAAAAGGATCGAGATCAACTATTACGTGAACTTGTAGACATTCAATACGCTCGCAATGATATTAACTTCCAACGCGGGACGTTTCGAGTGCGTGGCGACTCTGTGGAGATAATTCCAGCTTCTAGAGAGGAACACTGTATACGCGTCGAATTCTTTGGTGATGAAGTCGACCGCATTCGTGAAGTGGATGCATTGACAGGGGAAATTATTGGCGATAGAGAGCATATTGCTATTTTTCCAGCCTCTCACTTCGTAACGCGAGAGGAAAAATTGAAGCTTGCTATTAAAAATATTGAAAAGGAATTAACAGAGCGTTTAAAAGAGTTACGAGATCAAGGGAAATTACTAGAAGCACAGCGTTTAGAACAACGGACGAATTACGATCTGGAAATGATGCATGAGATGGGCTTCTGTTCAGGCATTGAAAACTATTCACGCCATCTTACTTTGCGCGAAGCAGGTGCGACACCATATACATTGCTTGATTTCTTTCCTGATGACTTTCTAGTTATGATTGATGAATCACATGTCACACTCCCACAAATTCGTGGTATGTTTAACGGGGATCAAGCGCGAAAACAAGTACTTGTAGATCATGGATTCAGATTGCCGTCAGCGCTAGATAACCGCCCGTTACGCTTTGAAGAGTTCGAAAAAGCTACGAACCAACTTGTTTATGTTTCTGCCACACCAGGGCCATACGAACAAGAGCATTCGCCAGTCATGACAGAACAAATCATTCGACCAACAGGTCTCTTAGATCCAGAGGTAGAAGTAAGACCAATTAAAGGACAAATTGATGACTTAATCGGGGAAATTCATAAACGTTCCGAGAAAAACCAACGTGTGCTAGTCACTACGTTAACGAAAAAAATGTCGGAAGATCTAACTGATTATTTAAAAGAACTTGGTATAAAAGTTGCTTACTTGCATTCAGAAATTAAAACTTTGGAGCGAATTGAATTAATTCGTGATTTACGTGTTGGTAAATATGATGTTCTCGTTGGAATAAACTTATTACGTGAAGGTCTTGACATTCCAGAAGTATCTTTAGTAACAATTTTAGATGCGGATAAGGAGGGATTTTTACGTTCAGAAAGGTCCCTTATTCAAACGATGGGACGGGCTGCACGTAATGAAAATGGCATGGTTATTATGTATGCTGATAAAATTACGAAGTCGATGCAAATAGCCATTGATGAGACGTATCGTCGACGGGAAAAGCAGATTGCTTATAACGAAAAGTATGGTATTATTCCTACGACGATTAAGAAAGACGTACGAGATGTGATTCGAGCAACTGTTGCTGCTGAAGACCAAGAAACGTACGAAAGCAAAACAAAAAGTGTTACGAAGCTAGCAAAGCAGGATAAAGAAAAAGTAATAGCGAATATGGAAAAAGAAATGAAGGAAGCTGCCAAAGCATTAGATTTTGAAAAAGCAGCTGAACTTCGAGATGTCATACTTGAACTGAAAGCAGGAAGGTGA MENQFELVAKYEPKGDQPQAIKEIVERIKAGKRHQTLLGATGTGKTFTMSNVINEINRPTLVIAHNKTLAGQLYSEFKEFFPNNAVEYFVSYYDYYQPEAYVPSTDTFIEKDASINDEIDKLRHSATSALFERRDVLIVASVSCIYGLGSPEEYKSQVLSIRTGIEKDRDQLLRELVDIQYARNDINFQRGTFRVRGDSVEIIPASREEHCIRVEFFGDEVDRIREVDALTGEIIGDREHIAIFPASHFVTREEKLKLAIKNIEKELTERLKELRDQGKLLEAQRLEQRTNYDLEMMHEMGFCSGIENYSRHLTLREAGATPYTLLDFFPDDFLVMIDESHVTLPQIRGMFNGDQARKQVLVDHGFRLPSALDNRPLRFEEFEKATNQLVYVSATPGPYEQEHSPVMTEQIIRPTGLLDPEVEVRPIKGQIDDLIGEIHKRSEKNQRVLVTTLTKKMSEDLTDYLKELGIKVAYLHSEIKTLERIELIRDLRVGKYDVLVGINLLREGLDIPEVSLVTILDADKEGFLRSERSLIQTMGRAARNENGMVIMYADKITKSMQIAIDETYRRREKQIAYNEKYGIIPTTIKKDVRDVIRATVAAEDQETYESKTKSVTKLAKQDKEKVIANMEKEMKEAAKALDFEKAAELRDVILELKAGR PGPT0014920_4490 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702 NA NA AK015_02157 2877 uvrA UvrABC system protein A ATGCCTAGTAAATATATAACCATCCAAGGTGCTAGAGCTCATAATTTAAAAAACATTGATGTCAATATACCGAAAAATAAGCTGGTCGTCCTCACCGGTCTGTCTGGTTCTGGAAAGTCTTCATTGGCTTTTGATACCATTTATGCAGAAGGTCAAAGGCGTTATGTTGAATCTTTATCTGCCTACGCAAGACAGTTTTTAGGTCAAATGGATAAGCCGGATGTAGATGCTATTGAAGGCTTATCTCCAGCAATCTCGATTGACCAAAAGACGACAAGTAAAAATCCTCGTTCTACAGTAGGAACAGTGACAGAGATATATGATTATTTGCGTTTATTGTTTGCTCGAGTTGGTCACCCTACTTGTCCGAAACATGGGGTAGAGATTACATCGCAAACCGTAGAACAAATGGTAGATCGAATTATGGAATATCCTGAACGGACTAAAATGCAAATTTTAGCACCAATAGTATCGGGCCGAAAAGGGGAGCATGTAAAGGTATTTGAAAAATTAAAGCAAGAAGGCTATGTTCGCATTCGGGTAGATAAAGAAATGCGAGAAGTTACCGAGGAAATAAAGCTTGAAAAAAATAAGAAGCATTCTATCGAAGTGGTTATTGATCGGATTGTTGTTAAAGAAGGTATGGAAGGTCGGTTAAGTGATTCGATAGAGACAGCATTAGCTTTAGGCGAAGGAAAAATCATTGTTGATGTAATCGGTCAAGAAGAAATTACATTTAGTGAAAATCATGCATGTCCTATTTGTGGATTTTCAATTGAAGAATTAGAGCCACGTCTCTTTTCTTTTAACAGCCCTTACGGAGCATGTCCAACTTGTGATGGATTAGGTACAAATTTGGAAGTCGATTTAGACCTGGTTATTCCTGATTGGGATAAATCGTTAAATGAACATGCTCTTGCGCCTTGGGAACCGATTAGTTCTCAATATTATCCACAATTGTTAAAAAGTGTTTGTAACCATTATGATATTGACATGGATATGCCTGTAAAAAATATTCCAAAAGAGAAAATGGATAAAATCCTTTACGGCAGTGGTAAAGAAAAAATTTATTTTCACTATGTGAATGAATTCGGCAATGTTCGAGATAATCATATTATGTTTGAAGGTGTAGTTAATAATGTCTCTAGACGTTACCGAGAGACATCTTCGGATTTTATTCGTGAAAATTTAGAAAGATACATGGCTCAGAAAAACTGTCCATCCTGTAGCGGATATCGTTTGAAAGAAGAAGCACTAGCTGTCCAAATGAATGGGAAGCATATTAGCGAGGTGACCGATTTTTCAATTACAGAAGCACAGACCTTTTTCCAAGGCTTACAGTTGTCCGAAAAAGAAAAACAAATTGCGAAAATGATTTTAAAAGAGATTTCGAATCGGTTGGAGTTTTTAAATAATGTAGGATTAGACTATTTAACGTTATCGCGAGCTGCAGGGACACTCTCTGGGGGAGAAGCCCAACGAATACGTTTAGCTACACAAATCGGCTCTGCATTAACAGGGGTTTTGTATGTGCTAGATGAGCCTTCCATTGGTTTACATCAACGTGATAATGATCGTTTAATTGGAACGCTAAAGCGCATGCGTGATTTGGATAACACACTCATTGTCGTAGAACATGATGAGGATACGATGCTTGCTGCTGATTGGTTAATTGACATCGGACCTGGTGCGGGAGAGCATGGCGGTGAAATTGTAGCGAGCGACACACCAGAAAACGTGATGCGTCATGAACAATCGCTAACAGGGCAGTATTTGGTTGGTAAGAAATTCATCCCTTTACCTGCAAAAAGAAGGAAAAAGGATAAGCGTGTTATTGAGATCGTGGGAGCAGAAGAGAATAATCTGCAAAAGGTTTCTGCAAAGATTCCGATTGGTTTAATGACCGTCGTTACTGGTGTATCTGGGTCGGGGAAAAGTACATTAGTAAATGAAATTTTATATAAAGCCTTAGCGAAAGAGTTATATACAGGGAAACATAAGCCAGGAAAACATAAAGCAGTAAAAGGAATAGAGCATATTGAAAAGGTCATTGATATTGATCAATCACCAATTGGCAGGACTCCTCGTTCTAACCCTGCAACATATACGGGTGTATTTGATGATATTCGTGACGTATTTGCACAAACAAATGAAGCAAAAGTGCGTGGATACAAGAAGGGGCGATTCAGTTTTAACGTTAAAGGAGGCCGTTGTGAAGCTTGCCATGGCGATGGCATTATTAAAATAGAAATGCACTTTCTCCCAGATGTGTACGTTCCTTGTGAAGTCTGTCATGGGAGCAGATACAATAGGGAAACATTAGAAGTAAAGTATAAAGGAAAAAACATTTCTGATGTGCTTGGTTTAACGATTGAGGAGGCATTGGAATTCTTTGCGAATATCCCGAAAATAAAGCGGAAATTACAAACGATTTATGATGTCGGTCTCGGTTATATAAAGCTTGGTCAACCGGCTACAACTCTATCTGGTGGGGAAGCACAGCGCGTCAAGTTGGCAAGTGAACTGCATCGACGATCAAATGGTAAATCCTTTTATATTTTAGATGAACCAACGACAGGTTTACATGCTGATGATATTAGTCGGCTGCTAAATGTGTTACAGCGACTTGTCGAAAATGGTGATACCGTTCTTATCATTGAGCATAATTTAGACGTTATTAAAACAGCTGATCACATTATCGATTTAGGTCCTGAGGGTGGTGCTGGAGGGGGAACCATTATTGCTACTGGTACACCCGAACAAATTGCTAAAAAAGACAATTCTTATACAGGAAAATATTTAAAAAATGTTTTAGAGCGTGACCAGAAACGGATGGACGCTTTCATTAAAACGACAGAAAAGTTAGCGACAAAGTAA MPSKYITIQGARAHNLKNIDVNIPKNKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMDKPDVDAIEGLSPAISIDQKTTSKNPRSTVGTVTEIYDYLRLLFARVGHPTCPKHGVEITSQTVEQMVDRIMEYPERTKMQILAPIVSGRKGEHVKVFEKLKQEGYVRIRVDKEMREVTEEIKLEKNKKHSIEVVIDRIVVKEGMEGRLSDSIETALALGEGKIIVDVIGQEEITFSENHACPICGFSIEELEPRLFSFNSPYGACPTCDGLGTNLEVDLDLVIPDWDKSLNEHALAPWEPISSQYYPQLLKSVCNHYDIDMDMPVKNIPKEKMDKILYGSGKEKIYFHYVNEFGNVRDNHIMFEGVVNNVSRRYRETSSDFIRENLERYMAQKNCPSCSGYRLKEEALAVQMNGKHISEVTDFSITEAQTFFQGLQLSEKEKQIAKMILKEISNRLEFLNNVGLDYLTLSRAAGTLSGGEAQRIRLATQIGSALTGVLYVLDEPSIGLHQRDNDRLIGTLKRMRDLDNTLIVVEHDEDTMLAADWLIDIGPGAGEHGGEIVASDTPENVMRHEQSLTGQYLVGKKFIPLPAKRRKKDKRVIEIVGAEENNLQKVSAKIPIGLMTVVTGVSGSGKSTLVNEILYKALAKELYTGKHKPGKHKAVKGIEHIEKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFAQTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIIKIEMHFLPDVYVPCEVCHGSRYNRETLEVKYKGKNISDVLGLTIEEALEFFANIPKIKRKLQTIYDVGLGYIKLGQPATTLSGGEAQRVKLASELHRRSNGKSFYILDEPTTGLHADDISRLLNVLQRLVENGDTVLIIEHNLDVIKTADHIIDLGPEGGAGGGTIIATGTPEQIAKKDNSYTGKYLKNVLERDQKRMDAFIKTTEKLATK PGPT0014915_2319 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701 NA NA AK015_02158 354 yojF putative protein YojF ATGAAACCAATTGAAATCAACCAAGTGCAAGGATGGTTGGATAAATTCATAAACACGCCAGTTTATATTCATGTAGAAACAACAAATGGTGCTTATGCTAGTCATTTTGATGAAAAAGCGTATAATGTAGGTGCTTATGTCAGGAATGTACAGATTACTTACACGCAAGCAAAAATTGTTGGCGAAGGGAATGCTTTTCGTGTTGGTTTAAAGACAAGGAATGGGTGGATTTATGCAGAAGGGTTAACGGATTGGACGATACATGAGGACACAAAAGTGCTACTTGCTGGCCATGATTGTGAAGGAAGATTAATGGTTGCTTTGCAAATAAGTGAAACCCCTTTTGATTATTAA MKPIEINQVQGWLDKFINTPVYIHVETTNGAYASHFDEKAYNVGAYVRNVQITYTQAKIVGEGNAFRVGLKTRNGWIYAEGLTDWTIHEDTKVLLAGHDCEGRLMVALQISETPFDY PGPT0019575_3 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135 NA NA AK015_02159 660 bshB2 COG2120 putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2 TTGGATAAACACGTCGTTATCATATTACCACATCCAGATGATGAGTCATTTGGATCTGCTGGATCCATTGCGCAATTTCGAAGTCAGGGAATACCAGTAACTTATTTATGCGGTACACTTGGTGAAATGGGGAGAAATATGGGGAACCCGCCATTTGCCAACCGTGAGACTTTACCAGAAATTCGCAAGCAAGAATTAAAAAATGCATGTGAAGTGCTTGATATAGATGTAAAGATGCTTGGCTATCGAGATAAAACGATTGAATTTGAAGATCGGAATGTGGTCGCTAACCATTTGCAAGGCATTTTGGAGGAAATAAATCCTAGTCTAGTTATTACGCATTATCCAGGTTATGCGGTGCATCCAGATCATAACGCTTTAGGTGCAGCTGCAATTCAAGCTGTAGAGCAAATGGAAAAATCGCGTCGTCCTGTTATTTGGGCACAAGCATTTGCTAGAGGATTTCAAAAAGAATTGGGAGAGCCTGATGTAATTAATGATGTAGAGGAACAGTTTGAAACAAAAATGAATGCTATTCTATGTCACAAATCACAGGCAGGCGGGATGATTGGACAATTAAAAAACTATAAAGATTTAGGAGCAGAGGTCTTACAAGAAGCAAAAGACCGATTTGGCAAAGAAGCGTTTTTTACACTATAA MDKHVVIILPHPDDESFGSAGSIAQFRSQGIPVTYLCGTLGEMGRNMGNPPFANRETLPEIRKQELKNACEVLDIDVKMLGYRDKTIEFEDRNVVANHLQGILEEINPSLVITHYPGYAVHPDHNALGAAAIQAVEQMEKSRRPVIWAQAFARGFQKELGEPDVINDVEEQFETKMNAILCHKSQAGGMIGQLKNYKDLGAEVLQEAKDRFGKEAFFTL PGPT0019575_407 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135 NA NA AK015_02160 195 hypothetical protein ATGAAAAAGTTGTATCGTTCAAATTCGAATCAGATGCTAGCAGGTGTTTTCGGCGGCTTAGAAGAATATTTCAATATTGATGCAACCATTTTACGGCTACTATTTGTTGTTTTGTTATTTATGAGCTTTTTCACGGTAGCTGTTATTTATCTTATTGCGGCAATGATTATTCCAGCTGAAAGGGAGATACGTTAA MKKLYRSNSNQMLAGVFGGLEEYFNIDATILRLLFVVLLFMSFFTVAVIYLIAAMIIPAEREIR PGPT0027520_1768 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 AK015_02161 354 hypothetical protein ATGAAGAGATGGCTTTTATCAATTATTCTTAATGCGGTTGCATTGATTGTCGTTGCTCAGCTATTTGATTCGTTTCATTTAGAAGGATTTGGTACAGCAGTGCTAGCAAGCTTTATTTTATCGCTATTAAACATCCTTGTAAAACCAATTTTAGTTATTTTGACGTTGCCAATTACGATGCTTACTTTAGGCTTATTTCTGTTTATCATCAATGCATTTACACTTATGATTACGCAAGCAGTTATGGGGAGTTCTTTTGCAATTAGTGGGTTTGGTACAGCTGTTTTAGCTTCCATTATTATTTCAGTTATCAGCGTGTTATTAAATCGTCTAGTGCAAGATTCCTTAGGTTAA MKRWLLSIILNAVALIVVAQLFDSFHLEGFGTAVLASFILSLLNILVKPILVILTLPITMLTLGLFLFIINAFTLMITQAVMGSSFAISGFGTAVLASIIISVISVLLNRLVQDSLG NA NA NA NA NA AK015_02162 936 hprK_1 COG1493 HPr kinase/phosphorylase ATGTCAACAGTTCGTACGAAGGATTTACTGGATAATTTTAATTTAACATTAAAAGCAGGAAAAGATGGTTTGTTTAGAGAGATAACAACTGGAGATATTTCTAGACCTGGGATAGAAATGACAGGTTACTTCAAATACTATCCTAAGGAAAGACTTCAGTTAATAGGTAGAACAGAAATGGCATATTTCTTGGAATTAAATGATGAAGAAAAAGCCCATCGTGTTGACAAGTTATGTACAGATATTACTCCTGGGATAGTTGTCACAAGAAACATGGAAATCCCTCAAGTCTTGATGGATGCTGCTAATGAATCAGGCGTGCCAATTCTCCATTCAAAGCAAAAAACAACGCGAGTTATTAGTAGACTAACCAACTTTTTAGAGGCCAAATTTGCTCCATTCACAGCTATTCATGGCGTTTTAGTTGATGTCTATGGAGTAGGTGTATTAATTATGGGGCAAAGTGGCGTAGGGAAAAGTGAAACGGCTTTGGAACTTGTTAAAAGAGGACATCGGTTAGTTGCAGATGATAGTGTGGAGATAAGACAGGAAGATTATGATACCTTAATTGGAAATTCCCCTCCTTTAATTGAACATTTATTGGAAATACGAGGATTAGGAATTATTAATGTCATGACATTATTTGGAGCTGGATCAGTTCGAAACTTTAAAAAGATCTCTTTAATCATTAATTTGGAGAATTGGGATCAACATAAGCAATATGATCGCCTTGGTTTGGATGAAGACAAGATGAAGATTATGGATGTGGAATTACCAAAAGCAACGATACCTGTTCGCCCAGGAAGGAACCTCGCAGTTATTATCGAAGTTGCTGCGATGAATTTTCGTTTGAAACGCATGGGTGTTAATGCTGCTGAAGAGTTTTCAGAGCGATTAACGAGTATGATTGATCAAGAGACAGAGGATCACTTGTAA MSTVRTKDLLDNFNLTLKAGKDGLFREITTGDISRPGIEMTGYFKYYPKERLQLIGRTEMAYFLELNDEEKAHRVDKLCTDITPGIVVTRNMEIPQVLMDAANESGVPILHSKQKTTRVISRLTNFLEAKFAPFTAIHGVLVDVYGVGVLIMGQSGVGKSETALELVKRGHRLVADDSVEIRQEDYDTLIGNSPPLIEHLLEIRGLGIINVMTLFGAGSVRNFKKISLIINLENWDQHKQYDRLGLDEDKMKIMDVELPKATIPVRPGRNLAVIIEVAAMNFRLKRMGVNAAEEFSERLTSMIDQETEDHL NA NA NA NA NA AK015_02163 885 lgt COG0682 Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase ATGAGCTGTTCAGCAGAACCGTTAGATAGAGTTTTTTTACAAATCGGTACTTTTCCAATTTATTGGTACGGAGTTATTATTGCTGCTGGAGCCTTTTTAGCGCTTTTATTAGCAAATCGTGAAGCCAGCCGTTTAGGGATGAAAAAAGATATCATGGTTGATTTAGTGGTTTTTGCGATCCCTATAGCCATTATTTCAGCGAGAATGTACTATGTTATTTTTGAATGGGATCAATATGTTGGTGGAAGCTGGACGGATGTTTTTGCTATTTGGGAAGGTGGCATTGCTATCCATGGTGCACTTATCGGTTCTGTTCTGACTGCTATTATATATGCACGAGTGAAGCGTGTATCTTTTTGGCAATTAGCTGATATTGCAGCGCCAAGTCTTATTTTAGGTCAAGCTATTGGACGCTGGGGTAATTTCATGAATCAAGAAGCTCATGGTGGACCTATTTCAGCATCTACATATGAAAGCTTCCATCAATATTTGCCTGATTTTATTATGAATCAAATGTGTATTGATGGCGTTATGTATCACCCAACATTTCTCTATGAATCTGTGTGGAATTTGCTGGTTTTTGCATTGTTGCTTTTGTTTAGAAGGTTTAACCCGCTTCGTGGCGAGTTGTTTTTAAGTTATGCCATCATGTATTCTGTAGGACGCTTCTTTATTGAAGATATGCGCACGGACAGTCTATATGTATTCGGTGAATTGCGTCAAGCGCAAGTCATCTCTGTTTTGATTATAGTGGTTGCGCTTGTGTTCATTATTTATCGTCGTAAAACTTTACACGTTCGCTATTTAGATATCATGAAACGACAATCGCAAACAAAGAAAACCAAATTAGTTGGAAAAAAGAAGAAGAAAAAGAAGAAGAAATAA MSCSAEPLDRVFLQIGTFPIYWYGVIIAAGAFLALLLANREASRLGMKKDIMVDLVVFAIPIAIISARMYYVIFEWDQYVGGSWTDVFAIWEGGIAIHGALIGSVLTAIIYARVKRVSFWQLADIAAPSLILGQAIGRWGNFMNQEAHGGPISASTYESFHQYLPDFIMNQMCIDGVMYHPTFLYESVWNLLVFALLLLFRRFNPLRGELFLSYAIMYSVGRFFIEDMRTDSLYVFGELRQAQVISVLIIVVALVFIIYRRKTLHVRYLDIMKRQSQTKKTKLVGKKKKKKKKK NA NA NA NA NA AK015_02164 963 hypothetical protein ATGAAGGGGACAGCGCAAAGAGGATTAAAACAAGGGCTTTTAACGACATGGACATTAGGAAAAGTTATTTTCCCAATCACGCTAATTGTAACCATATTACAATTTACACCCGTACTTCCATGGGTGATCAAACAGCTAACACCTATAATGGGGGTATTTGGGCTTTCCGGAGAAGCAGCTGTTCCATTAGTGCTAGGAAATGCATTAAATCTATATGCAGGTATAGCAGCTATTGTTTCTTTTGAATTTACGGTAAAAGAAGTTTTTATTATGGCTATAATGCTGTCATTTTCCCATAACTTATTTATTGAATCGGCAGTAGCGTCCAGGGTAGGAGTTAGTTGGTGGCTCATTTCTGGAATTCGTATAGGTTTAGCGCTATTTGCTGCAATTGTCATTAACCTTGTATGGGAAGGTGGTTCCGAACAAGCTGTTTACGGTTTTATTTCCAGTTCAACCCCTGCTTTAAATGGCTGGGGGGAAATTGTTTTACACGGTTTACAGACAGCAGCTATTGCGATAGTTCAATTAGCACTTATTGTTATTCCGCTTATGATTGTAATGCAATTTTTGCGCGAAATGGGTTGGCTAACAAAACTTTCCAAAGGCTTTGGTCCATTTACAAAAGCACTTGGAATGAAAGAAAATACTTCGATGACGATGGTAGCAGGGCTAACGATTGGTTTAGCTTATGGTGCTGGAGTTATGATACAGGCTGTGAAAGAAGATGGAGTCGAGAGAAAGGATATGATACTTGCGCTGATCTTTCTTGTATCTTGTCATGCTGTTGTAGAAGATACGCTCGTCTTTATTCCGCTAGGTATACCAGTTTGGCCGCTATTAATCATTCGTTTAGTAACAGCGATTGTATTAACGATGACAATAGCTTATATTTGGAATAAACTAGATAAAAATAAAAGGAAGGAACCGACAACAAATGAGCATTCGTACAATACTTTTTGA MKGTAQRGLKQGLLTTWTLGKVIFPITLIVTILQFTPVLPWVIKQLTPIMGVFGLSGEAAVPLVLGNALNLYAGIAAIVSFEFTVKEVFIMAIMLSFSHNLFIESAVASRVGVSWWLISGIRIGLALFAAIVINLVWEGGSEQAVYGFISSSTPALNGWGEIVLHGLQTAAIAIVQLALIVIPLMIVMQFLREMGWLTKLSKGFGPFTKALGMKENTSMTMVAGLTIGLAYGAGVMIQAVKEDGVERKDMILALIFLVSCHAVVEDTLVFIPLGIPVWPLLIIRLVTAIVLTMTIAYIWNKLDKNKRKEPTTNEHSYNTF NA NA NA NA NA AK015_02165 636 ppaX_1 COG0546 Pyrophosphatase PpaX ATGAGCATTCGTACAATACTTTTTGATTTAGATGGGACATTAATAGATACAAATGAGTTAATTATCGCCTCGTTTTTCCATACATTTAAGCAATATAATCTACAATTTACGCGAGAAGAAATTATTGAGTTTAATGGTCCTCCTTTAGTAGATACGTTTAAGGCAATCGATTCAGAAAAGGCAGACAGCATGGTGCAAACGTATCGAAGCCATAATATGAAAGAACATGATAATTATGTTAAGGTATTTCCTTATGTTATAGAAACATTGGAGCAGCTAAAACGAAACGGATTCAAATTAGGGGTTGTTACAACTAAAATGCGATCAGGTGTGGAAAAAGGGTTATCTACTACAAAGTTAACAGCTTATTTTGATACTGTGATTACATTAGATGATGTCAAGAACCCAAAACCACACGCAGAACCAGTATATAAAGCGATGGAAGAGTTAACTGCAGAACAACCTTCAACATTGATGATCGGCGATAACGCACACGATATAGAGGCTGGGAAAAATGCAGGTGTGCAAACAGCTGGAGTAGCATGGTCTTTTAAAGGAAAAGAACGTTTATTACAATATGAACCAACATTTATGCTAGAGGATATGCGTGATCTTTTAAACCTTACAGGAGTGTAA MSIRTILFDLDGTLIDTNELIIASFFHTFKQYNLQFTREEIIEFNGPPLVDTFKAIDSEKADSMVQTYRSHNMKEHDNYVKVFPYVIETLEQLKRNGFKLGVVTTKMRSGVEKGLSTTKLTAYFDTVITLDDVKNPKPHAEPVYKAMEELTAEQPSTLMIGDNAHDIEAGKNAGVQTAGVAWSFKGKERLLQYEPTFMLEDMRDLLNLTGV NA NA NA NA NA AK015_02166 522 dapH_1 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase ATGCGAAGAACAAAGCGTTACCCTGTGCAACATACAAATTCCTTATGGCAAATGTATAAGACAGTGTCATTTTGGAAAATCATGAGGAATTTTATCATCATTCAGCTAGCCAGATATACGCCTTTTTTACCTGTGAAAAACTGGCTTTATCGTACATGCTTATCGATGAAAATTGGTAAACAAACTGCTTTTGCGCTTATGGTTATGCCAGATATAATGTTTCCTGAAAAGATTACGGTAGGAAAAAATAGTGTCATTGGCTATAATACGACGATCTTAGCTCATGAATATTTAATTACAGAGTATCGGCTTGGAGAGGTTAGGATCGGTGATGAAGTCATGATAGGAGCGAACACGACTATTTTGCCGGGAGTTCATATTGGTGATAGGGCGATTGTTTCAGCTGGTACATTAATTCACAAAGATGTGCCTGAAGGAGCATTTGTTGGGGGAAATCCAATGCAAATAATCCATACAAAAAAAGAAAGGGAGGAAAAACATAATTCAAATGAAGGCAGGTGA MRRTKRYPVQHTNSLWQMYKTVSFWKIMRNFIIIQLARYTPFLPVKNWLYRTCLSMKIGKQTAFALMVMPDIMFPEKITVGKNSVIGYNTTILAHEYLITEYRLGEVRIGDEVMIGANTTILPGVHIGDRAIVSAGTLIHKDVPEGAFVGGNPMQIIHTKKEREEKHNSNEGR NA NA NA NA NA AK015_02167 549 glpP COG1954 Glycerol uptake operon antiterminator regulatory protein GTGAAAGATTTGCACGTTCCGACTGGTATATTGCCGGCTATACGTAAGATGAAGGACTTTGATAAAGCATTAGAAACAGGATACCCGACCATTGTTATTTTAGAAACGCGTTTAGCACAAATTAAGAGTCTCGTTGCCCACACTAAAAAATCAAATAAAAATATTTTAATTCACTTCGATTTAATTCAAGGTTTAAAGTCGGATGATTACGGAATGGAATATGTACTTAGGGAAATCAAACCAGATGGTATTTTATCAACAAGAGCAAATGTTATTCGCATGGCTAAAAAACATGGCTTACTGGCTATTCAACGGGTGTTTCTATTGGACAGTTTAGCGCTGGAGCAAAATTTAAAGCAGATTGAAAATGCCAAGCCGGATTGTATTGAAGTATTACCAGGTCTAATCCCTACCATGATTCAATCGATAAATGAACAAACAAAGCTGCCAGTTATTGCTGGGGGACTCATTAAAACAAGTGATCAAGTAAGACAAGCGCTAGAGGCTGGAGCTGTAGGAGTCTCAACATCTAATACAGATCTTTGGTAA MKDLHVPTGILPAIRKMKDFDKALETGYPTIVILETRLAQIKSLVAHTKKSNKNILIHFDLIQGLKSDDYGMEYVLREIKPDGILSTRANVIRMAKKHGLLAIQRVFLLDSLALEQNLKQIENAKPDCIEVLPGLIPTMIQSINEQTKLPVIAGGLIKTSDQVRQALEAGAVGVSTSNTDLW PGPT0022030_554 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443 NA NA AK015_02168 1671 glpD COG0578 Aerobic glycerol-3-phosphate dehydrogenase ATGCATACTTTTTCAAGCTTTCAACGTGAGGATAACTTAAAACATATGGAAAGTAAGCAACTGGATTTATTGGTCATTGGTGGGGGGATTACTGGGTCCGGTATTGCTTTAGACGCTACAATGCGAGGGATGAAAACAGGGCTAGTGGAGATGCAAGATTTTGCAGCAGGAACTTCTAGTCGTTCAACAAAACTTGTCCATGGCGGGCTTCGTTACTTAAAGCAAATGGAAGTTAAAATGGTAGCAGAAGTAGGACGGGAAAGAGCTATTGTGTATGAAAATGGCCCACATGTAACAACGCCAGAATGGATGATGTTGCCGTTTTATAAAGGAGGCACATTTGGACCAGTTACGACAAATATTGGTTTGCGCGTATACGATTTGCTAGCTGGTGTAAAAAAATCAGAACGGCGAAAAATGTTAAATATGGAAGAAGCTTTGGCAAAGGAACCGTTGATTAAACAAGATGGCTTGAAAGGAGCCGGTTATTACGTAGAGTATAAGACGGATGATGCCCGATTAACGATGGAAGTATTGAAAAAAGCTGTACAAAAAGGGGCACATGCAGCTAACTATGCTAAAGTGATTGACTTTATATATGATAAAAATAAACAAATAACAGGTGCTATTATTGAAGATCAAATTAAAGGAAAACGCTATCAAGTGCATGCAAAAAAAATGATTAATGCCGGTGGACCATGGGTGGATGAATTAAGAGAGATAGACGGATCAAAACAAGGGAAAGCGCTACATTTAACAAAAGGGGTTCATCTTGTATTCTCAAAAAAAGTTTTCCCATTACAACAAGCTATTTATTTTGATAGCCCAGATGGTCGCATGATTTTTGCGATACCTCGTGAAAATGTAACCTATGTCGGTACAACAGATACGAGTTACAAAGGGGATATTGCGAATCCGGCAACGACAGTTTCTGATCGGGACTATATTTTGAATGCTATTAACTATATGTTCCCGTCATTAAATATTACTGCCGACCATGTAGAATCGAGCTGGGCTGGTTTACGCCCATTGATTGCTGAAGAAGGGAAAGACAACCCAGGAGAAATATCACGTAAAGACGAAATATTTGTCTCTGATTCTGGGCTGATTTCAATGGCTGGGGGGAAATTAACCGGCTACCGTAAGATGGCCGAAGATGTCGTGGATAAAGTTACACAGCAGTTAAAAGAAGAAGAAGGTATTTTATATTCTAAATCTGATACAGTACATCTCCCAATCTCAGGTGGAGAAGTTGGTGGCTCGCAAGGGTTTGCCAAATTTGTTGTTCGTAAGACAGAGGAAGCAGTAGCAGAAGGGATAGATGATTCGACAGCTAAACGATTAATTTACAGGTATGGATCGAATTTTGATAAAATCTTGGAATTTTACCGTGATCGACAGCAAGAAGCAAGTGCTGAAGGGATCGAACGTTGTCTTTTTGCAGAACTAGTATATGCGCTAGAGTACGAGGCAGCGTATAAGCCTGTAGACTTCTTTATTCGACGAACTGGGGCATTATTTTTTGAAATAGAATGGGTAAAGGCACATAAAGACAAAGTTATTTCATATATGGCTAAGGTATTACAATGGACGAATGAGGAAGTAGAGAAGTATACAGGTGAATTAAATATAGCAATGGAAGAGGCTACTCATCCAGTAGTAAATAATTAA MHTFSSFQREDNLKHMESKQLDLLVIGGGITGSGIALDATMRGMKTGLVEMQDFAAGTSSRSTKLVHGGLRYLKQMEVKMVAEVGRERAIVYENGPHVTTPEWMMLPFYKGGTFGPVTTNIGLRVYDLLAGVKKSERRKMLNMEEALAKEPLIKQDGLKGAGYYVEYKTDDARLTMEVLKKAVQKGAHAANYAKVIDFIYDKNKQITGAIIEDQIKGKRYQVHAKKMINAGGPWVDELREIDGSKQGKALHLTKGVHLVFSKKVFPLQQAIYFDSPDGRMIFAIPRENVTYVGTTDTSYKGDIANPATTVSDRDYILNAINYMFPSLNITADHVESSWAGLRPLIAEEGKDNPGEISRKDEIFVSDSGLISMAGGKLTGYRKMAEDVVDKVTQQLKEEEGILYSKSDTVHLPISGGEVGGSQGFAKFVVRKTEEAVAEGIDDSTAKRLIYRYGSNFDKILEFYRDRQQEASAEGIERCLFAELVYALEYEAAYKPVDFFIRRTGALFFEIEWVKAHKDKVISYMAKVLQWTNEEVEKYTGELNIAMEEATHPVVNN PGPT0006775_1976 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111 NA NA AK015_02169 1089 hypothetical protein ATGCTTTACTCTTATTCGAATCTATATCAACGTGCTACTAAATATGGTATAATTAAATTTGTATGTCTACAAATTAGGGGGATATTTATTATGCAGCAAGTTACGAATAAAACGAAAGGAAAACAAAATAACGTTCTCCCTTTTATTCCTGAAGGTGATTTTTATTTTACAAAAGGTATAGAAGCTTTCCAAAAAAGAAAATTTGATAGTGCTGTCAAGTGGGTAAAAAAGGCAATTGATCACAAGCCTGATGAAACTTTGTATCAATGTCAATTATCTATTATATATACGGAAATTGGCGCTTACCATGCTGCTAATGACCTTTTAATGAATGTACTAAAGGTTTCTGAGAATGTCGATTGTTACTATTTAATAGCGAACAATTTCGCTCATTTAGGATTATTAAATGATGCAAAAAAGTACGCTCATCTCTATATAGAAAAAGATCCGAATGGGGACTTTAAAGAAGAAGTTCTCCATTTATTAGAACTACTTGAAATTGAAGAAGACCTAGAGGATGAAGAGTTGGAAGAAGAGGATGAACTTCTTATCTATCAGGAAACGGTTTTTTACCATATGGAGCATCATGAGTGGGAAAAGGCGATGCATATTTTAGAGGAAATGCTTATCTTGTTTCCAAATCAACCAAATATAAAGCATGAGTACGCAGAAACGCTCTTTTTTTTAGGCCATGAACAGCGAGCGGTTAATATGGAGCTTGAAGAAATGGAATCAAATCCAATTTCACTATATGGATGCAATAATTTAGCTATATTTAATTATTATTTAGGTCATATGGAAGCATATAATTTCTATATCGAGCCATTACTAAAAGTATATCCAATTCACGAGCAACAAAAATTACGTATTGCAGTAACATTAGCCCGAACAGGGCAGTATGTAGCTGCTGTAGATAGATTTAAAATGCTAAAAAAAGACAAATTGAATGGGCATCTATCTTATTTTCGCTTTTATGCATTAGCTGCATACCATATAGGAGACCATGAAAAAGCCATGTCTATTTGGAGGGAAGGGTGTAAAAAACATCCTGAATTGAAAAACGAAAATACACCTTGGCATGAGGGTTGA MLYSYSNLYQRATKYGIIKFVCLQIRGIFIMQQVTNKTKGKQNNVLPFIPEGDFYFTKGIEAFQKRKFDSAVKWVKKAIDHKPDETLYQCQLSIIYTEIGAYHAANDLLMNVLKVSENVDCYYLIANNFAHLGLLNDAKKYAHLYIEKDPNGDFKEEVLHLLELLEIEEDLEDEELEEEDELLIYQETVFYHMEHHEWEKAMHILEEMLILFPNQPNIKHEYAETLFFLGHEQRAVNMELEEMESNPISLYGCNNLAIFNYYLGHMEAYNFYIEPLLKVYPIHEQQKLRIAVTLARTGQYVAAVDRFKMLKKDKLNGHLSYFRFYALAAYHIGDHEKAMSIWREGCKKHPELKNENTPWHEG NA NA NA NA NA AK015_02170 954 trxB COG0492 Thioredoxin reductase ATGTCTGATATTAAAATGTATGATGTAATCATTGCAGGAGCAGGCCCAGCCGGAATGACTGCGGCTGTCTATGCCTCTCGAGCTAATCTAGAGACATTAATGATTGAACGTGGAATACCAGGTGGCCAGATGGCGAATACAGAGGATGTTGAAAACTATCCAGGTTATGATCATATTTTAGGACCAGATTTATCAAATAAAATGTTTGAGCATGCGAAAAAGTTCGGCGCTGCGTATGCGTATGGTGATATTAAAGAAGTAATTGATCATGGAGCGTACAAAACGATTGTTGCTGGACAAAAAGAATACCATACGCGAGCACTTATTATAACTACTGGTGCACAATATAAAAAACTAGGCATCCCTGGGGAAGAAGAGCTTAGCGGTCGAGGGGTTTCTTATTGTGCTGTTTGTGATGGAGCGTTTTTCAAAGATAAAAACCTTGTTGTTATTGGCGGGGGAGACTCTGCTGTGGAAGAAGGCATTTATTTAACGCGATTCGCTAACAAAGTAACCATTATTCACCGCCGTGATGAATTACGTGCCCAACGTATTTTGCAAGATCGCGCTTTTGACAATGATAAAATCGACTTTATTTGGGATACTGTCGTAGAAAAAATAAACGAAGGCGCCGGGAAAGTAGGAAGTGTTACTTTAAAGAACAATAACACTGGTGAAACCTATGATCATGAAATCGATGGTGTATTTGTTTATATCGGTATGGTACCTTTAAGTGAACCTTTTACATCGTTGGGTATTACCAATGAGGAAGGGTATATTCCAACAAATGAAAATATGGAAACAAAAATTCCTGGTATATTTGCTGCTGGTGATATTCGCGAAAAAACGTTACGTCAAATTGTTACAGCGACTGGTGATGGAAGTATTGCAGCTGAACAGGCCATTAAATATGTGGAAGATTTAATGGAAGAGTTAAAAGCAACACATTCGTAA MSDIKMYDVIIAGAGPAGMTAAVYASRANLETLMIERGIPGGQMANTEDVENYPGYDHILGPDLSNKMFEHAKKFGAAYAYGDIKEVIDHGAYKTIVAGQKEYHTRALIITTGAQYKKLGIPGEEELSGRGVSYCAVCDGAFFKDKNLVVIGGGDSAVEEGIYLTRFANKVTIIHRRDELRAQRILQDRAFDNDKIDFIWDTVVEKINEGAGKVGSVTLKNNNTGETYDHEIDGVFVYIGMVPLSEPFTSLGITNEEGYIPTNENMETKIPGIFAAGDIREKTLRQIVTATGDGSIAAEQAIKYVEDLMEELKATHS PGPT0013060_6297 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK015_02171 471 mutX COG0494 8-oxo-dGTP diphosphatase ATGCAACAAGTAGCAAATTGCATATTATTAAAACAAGACCACATTTTATTATTAAAAAAACCGAAGCATGGCTGGTATGCAATGCCTGGTGGAAAGATGGAATCTGGTGAAACGATAAAAGAAGCCGTTATTAGAGAATATAAAGAAGAAACCAATTTGACAATTCAAAATCCGCGTTTAGCTGGGGTATTTACATTCACTGTTTTACAAGATGATCAACAAACGAAAGAATGGATGATGTATACATTTACTTGTCAAGACTACAGCGGTAAACTGGCAGACTTTTGTAGAGAAGGAGAGCTACAATGGGTTCCCGTGAATCAAGTGTTACAGTTGCCGATGGCTGAAGGTGACCGGTTAATTTATAGGCATATTTTTGAAAATAAACATGTTGTATCAGGAGCTTTTACTTATACACCTAAAGATGATTTGATTACCTATCGAATAGATGGTTCCTCCGATATGAAGTAA MQQVANCILLKQDHILLLKKPKHGWYAMPGGKMESGETIKEAVIREYKEETNLTIQNPRLAGVFTFTVLQDDQQTKEWMMYTFTCQDYSGKLADFCREGELQWVPVNQVLQLPMAEGDRLIYRHIFENKHVVSGAFTYTPKDDLITYRIDGSSDMK NA NA NA NA NA AK015_02172 882 yvcJ COG1660 Nucleotide-binding protein YvcJ ATGAGTGAAAATCTTGAAACAAAATTAGTAATTATTACAGGAATGTCAGGTGCCGGTAAAACAGTTGCAGTGCAAAGCTTTGAAGATTTAGGGTACTATTGCGTTGACAATCTTCCTCCTACATTATTGCCAAAATTTATTGAACTCATGAGAGATTCTACAAACAATATACAGCGGGTAGCTATTGTCATGGATTTACGTGCTAGAGAATTTTTTGATTCCTTGTTTGAAGCTTTAGATACTTTAGCAGATGAAGAATGGTTAGATGAACATGTTCTATTTTTAGATGCAAAAGATGAAAAGCTTGTCAGTAGGTATAAAGAAACGAGGCGCTCACACCCGCTGGCGGTTGGAGGTTTACCGCTTAATGGAATCCGGCAAGAACGAGAAATATTGGATGAGCTAAGAGGAAGAGCACAAAGAATTATTGACACGACGAATTTAAAGCCGAGAGAACTTCGTGAAAAGATTGTTCAAAAGTATTCAGAAGAAGATCAAGAAGTATTTTCTGTGCACATGGTTTCATTTGGTTTTAAATATGGTCTACCAATTGACGCCGATCTTGTATTCGATGTTCGTTTTTTGCCAAATCCTCATTATGTAACAAATTTACAACCACTAACAGGTTTAAATAAAGATGTATCCTCTTATGTATTTCGCTGGACAGATACACAAAAATTTATCGTAAAAGTACTTGATTTATTGCAATTCATGTTACCACAATATAAAAAAGAAGGAAAGTCGCAATTGGTCGTCGCAATTGGTTGTACTGGTGGGCAGCATCGCTCCGTTGCACTGGCTGAATATTTCGCTAAAGAGTTGCATAAAGGCTATATTACACATGTCACGCATCGTGATATTGATAAAAGAAAGGGACATTAA MSENLETKLVIITGMSGAGKTVAVQSFEDLGYYCVDNLPPTLLPKFIELMRDSTNNIQRVAIVMDLRAREFFDSLFEALDTLADEEWLDEHVLFLDAKDEKLVSRYKETRRSHPLAVGGLPLNGIRQEREILDELRGRAQRIIDTTNLKPRELREKIVQKYSEEDQEVFSVHMVSFGFKYGLPIDADLVFDVRFLPNPHYVTNLQPLTGLNKDVSSYVFRWTDTQKFIVKVLDLLQFMLPQYKKEGKSQLVVAIGCTGGQHRSVALAEYFAKELHKGYITHVTHRDIDKRKGH NA NA NA NA NA AK015_02173 960 COG0391 Gluconeogenesis factor ATGACTGAGGAGAAACGTCCGAATGTGGTAGTTGTTGGAGGTGGAACGGGGATGCCTGTCCTACTCCGAGGTCTTAAGGATTTACCTATTGATTTAACAGCATTAGTTACTGTAGCCGATGATGGAGGAAGTACGGGAAGGTTACGTAATGAAATGGCAATTCCTGCTCCGGGGGATATTCGTAACGTGATTGCAGCTTTATCTGATGCTGAACCCATGTTAATTGAATTATTTCAGCATCGTTTTGATGTTTGTAATGGCTTATCTGGTCATTCACTTGGAAATTTACTTTTAGCAGCAATGAGTTCGATTACGGGAAATTTTAATATGGGGATTAGAGAAATCTCTCGTGTCTTAAATGTGAAAGGAAAAATATATCCGATCTCAAACGATAACATGTCGCTCCATGCTGAAATGGAGGACGGGACAATCGTGTCTGGGGAGTCGAAAATTCCTTTATCTAACAAAAAAATAAAACGTGTTTTTTTAAGCCCACAGCCTGTTGAACCATTACCAAATGCAGTACGTGCTTTAAATAATGCAGATTTAATCGTTATTGCACCTGGTAGCTTGTATACAAGTATTATGCCGACCATCATTATGCCACAAATAGCAGAAGCAATAAAAAATGCAAAATGTCAAGTGGTATATGTTTGTAATGTCATGACGCAAGAGGGGGAAACTACTGGTTATACAGCTGCTGACCACGTGCAAGCTATTTGTGATCATATTGGAGAAGCAAGCGTTGATGCGATTGTCGTACATAATGAACCCATTGAAAAAACGATAAGAGAGATGTATGCAGAGGAAAACGCTTCTCCTGTGGTATATGATATAGAGCGTTTAATAGGTATGGGACTGCAAATTATAGAGGGAGATATTATTGATCCGACACAGCCTACATTAAGGCATGATAATTATAAAATTGCATCATTGCTTTATTCGCTTTTGAACAAATGA MTEEKRPNVVVVGGGTGMPVLLRGLKDLPIDLTALVTVADDGGSTGRLRNEMAIPAPGDIRNVIAALSDAEPMLIELFQHRFDVCNGLSGHSLGNLLLAAMSSITGNFNMGIREISRVLNVKGKIYPISNDNMSLHAEMEDGTIVSGESKIPLSNKKIKRVFLSPQPVEPLPNAVRALNNADLIVIAPGSLYTSIMPTIIMPQIAEAIKNAKCQVVYVCNVMTQEGETTGYTAADHVQAICDHIGEASVDAIVVHNEPIEKTIREMYAEENASPVVYDIERLIGMGLQIIEGDIIDPTQPTLRHDNYKIASLLYSLLNK NA NA NA NA NA AK015_02174 945 whiA COG1481 putative cell division protein WhiA ATGTCCTTTGCTTCCGAAATAAAAAAAGAATTAACAGCAATCGAAGTAGATGATTGCTGTAAATATGCTGAATTAGCTGCATTAGTTCGAATGAATGGGGCTATTTCAATATCAAAGCAAAAATATACTTTGGATATACAGACGGAAAATGCTGCTATAGCGAGAAGGATTTATTCGTTAATTAAAGCAACTTATGATATAAGAGTGGAATTATTAGTAAGAAAGAAAATGAAATTGAAAAAAAATAATGTATATATTGTTCGTTTGAATGAAGGTGTAAGACCAATTTTAGTCGATCTCCATATTTTGCAAGAACCAATGACGTTTAATCGGGTTATTTCTGATCACCTTATTCATAAGTCTTGTTGTAAGAAAGCTTATTTGCGTGGAGCATTTCTTGCAGGTGGGTCAGTGAACAATCCAGAGACGTCTTCTTACCATCTGGAAATTTTTAATATTTATGAGGAACATAATAATTCACTTTGTAATTTGCTTAACCAATTTGAGTTACATGCTCGTAAATTAGAACGGAAAAACGGGTATATTGTTTATATAAAAGAAGCAGAGAAAATTTCAGAATTCTTAAGTATAATTGGTGCTTATAATGCTCTATTTAAATTTGAAGATGTGCGTATTGTCCGAGATATGCGCAATTCGGTTAACCGTATTGTTAACTGTGAAACAGCAAACTTAAATAAAACAATCGGAGCAGCTTTTCGCCAAATTGAAAACATACAGTTCATTGATCGTACAGTTGGTTTGGAGCAGCTACCAGAAAAGCTCAAGGAAATTGCTGTTCTCCGTGTGAAACACCAAGAAGTTTCCTTGAAAGAATTAGGCGAATTAGTAGAAAGTGGTAAGATATCTAAATCAGGTGTAAATCATCGTTTGAAGAAAATCGATGACTTCGCCGAAAAAATTAGAAATGGCGAGTTTGTACCTTAA MSFASEIKKELTAIEVDDCCKYAELAALVRMNGAISISKQKYTLDIQTENAAIARRIYSLIKATYDIRVELLVRKKMKLKKNNVYIVRLNEGVRPILVDLHILQEPMTFNRVISDHLIHKSCCKKAYLRGAFLAGGSVNNPETSSYHLEIFNIYEEHNNSLCNLLNQFELHARKLERKNGYIVYIKEAEKISEFLSIIGAYNALFKFEDVRIVRDMRNSVNRIVNCETANLNKTIGAAFRQIENIQFIDRTVGLEQLPEKLKEIAVLRVKHQEVSLKELGELVESGKISKSGVNHRLKKIDDFAEKIRNGEFVP NA NA NA NA NA AK015_02175 255 crh COG1925 HPr-like protein Crh TTGGTTGAACGGATAATTAAAGTAAATCTTTCTACTGGTCTACAAGCTAGACCAGCAGCGGAATTTGTTCAAGAAGCAAATCGTTTTAATGCTCATGTTTTCATTGAAAAAAATGGAAAAAAAGTGAACGCAAAAAGCATTATGGGATTAATGAGCATAGCCATAGTTGCTGGAGAAGAGATTACACTTATCGCTGACGGAACAGATGAGGAACAGGCTATTGAAAGGTTAACAAAGTTTGTTTCTGAAACATAG MVERIIKVNLSTGLQARPAAEFVQEANRFNAHVFIEKNGKKVNAKSIMGLMSIAIVAGEEITLIADGTDEEQAIERLTKFVSET 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 AK015_02176 588 clpP COG0740 ATP-dependent Clp protease proteolytic subunit ATGAATTTAATACCAACAGTAATTGAACAAACTAACCGCGGTGAACGCGCCTATGACATTTACTCACGCTTACTTAAAGATCGAATCATTATGTTAGGAAGTGCGATTGACGATAACGTTGCCAATTCCATTGTAGCCCAATTATTGTTTCTAGACGCAGAGGATCCTGAAAAAGATATTTCACTATACATCAACTCACCAGGTGGATCAATCACTGCCGGCATGGCAATTTTCGATACGATGCAACTCATTAAGCCAGATGTTTCTACAATCTGCACAGGAATGGCAGCATCTATGGGGGCATTCCTATTAACTGCGGGTGCCAAAGGCAAGCGTTACGCATTACCTAATAGTGAGGTAATGATTCATCAACCACTAGGTGGAACACAAGGGCAAGCAACAGACATTGAAATTCATGCACGTCGAATCATTCAAATGCGTGAAAAAATCAATCAAATCCTTTCTGAACGAACAGGACAGCCAATTGAAGTCATTGAACGTGACACAGATCGTGATAACTTCATGACAGCTGAAAAGTCTGTAGAATATGGTTTAATTGATAAGGTACTAGAGCGTAAACCTGAATAA MNLIPTVIEQTNRGERAYDIYSRLLKDRIIMLGSAIDDNVANSIVAQLLFLDAEDPEKDISLYINSPGGSITAGMAIFDTMQLIKPDVSTICTGMAASMGAFLLTAGAKGKRYALPNSEVMIHQPLGGTQGQATDIEIHARRIIQMREKINQILSERTGQPIEVIERDTDRDNFMTAEKSVEYGLIDKVLERKPE PGPT0014595_7796 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358 NA NA AK015_02178 399 hypothetical protein ATGAGAAAATTATTCGTTGTTTTATTAGGGTTTTTTCTTGTTTTTTCAGCTTCATCCATGACTTTTGCAGAATCAGTACAACAAAATACGTCAAACAATATCACTCCAGCACATCTTGAAATTATTCAAGATACACTCAACACGCCAAATCCTGACGGTACTCCAGCTCAAATCACTAACAACGAATCTCAAGATTCAATTTCTACTCAAGCAACTTATGGCATGATTACACCAGTTTTTATAAGAGCATCTGATAATTCTACTCAAGTTTATGTATACTTAACTTATACTGGGAATAAGGCTGCTAATGCTGTAAAGTTCAGTAAAATGGATATCATGCACAGTTCAGTACTTAATCGTACGGTATATAAATCATTTCCAGCAAAAACTTTGGCATAG MRKLFVVLLGFFLVFSASSMTFAESVQQNTSNNITPAHLEIIQDTLNTPNPDGTPAQITNNESQDSISTQATYGMITPVFIRASDNSTQVYVYLTYTGNKAANAVKFSKMDIMHSSVLNRTVYKSFPAKTLA NA NA NA NA NA AK015_02179 471 hypothetical protein GTGGATCATGATGAGTACAAAGCATATTTGAAGCAGCAATATTCCCATAGGGTTCGACCGTTACAATCAGTTAATGACGTTATCTCCGCATTTCAAAAAAAATTAGATATTGCCGAAACAGAATTATCAGAATCCGAAGTTATTTTCTTAAAAATGACAATGCTTAACTATATTAATGCACACAAAAACGACCCTATAAAATCTAACTTGGATAACTTAAATTTCATTTCGTATGAAGTAGTAAGAAATGAAAAAAGTGATTATTACTACAATCAGATGAGGATTACATCTGATAATGAAAGAATACTTGTCATTATTGAATCCCAGTTAAACGCAATAACCTCCAATTGCGAAGAACTAAAAGTGGATATGCTTATCGAACGTGGAATCGACACATCTCATGTTAATCAAGAAACACCTGAGTTTTTTGCATATCTAATGCTTTTTGATTCTCATAATGAGAATCATTGA MDHDEYKAYLKQQYSHRVRPLQSVNDVISAFQKKLDIAETELSESEVIFLKMTMLNYINAHKNDPIKSNLDNLNFISYEVVRNEKSDYYYNQMRITSDNERILVIIESQLNAITSNCEELKVDMLIERGIDTSHVNQETPEFFAYLMLFDSHNENH NA NA NA NA NA AK015_02180 870 hypothetical protein TTGTTTCAATTACATATTAAAAATGTCTTATTTATACTGTTAGGCGCAGCAATATTTTCTTTTGGAATCGTTCATTTTAATATGCAACATAATTTAGGAGAAGGAGGATTTACCGGGATAACCCTATTGCTTTATTTTTTATGGGATTTTGATCCAGCTATCTCGAACATCATACTAAATGTGCCTATGTTCTTAATTGGGTGGCGTTTCTTAGGTAGAATTACGTTCATCTATAGTATTATTGGTACTGCTGCTGTGTCATTGTTTTTAAGTGTTTTTCAAATGAAACCTTTTGCAATCCACCTTGAATCGGACATGACCTTAGTAGCGCTGTTTGCGGGTATTTTTATCGGTGTTGGGTTAGGGGTTATTTTTAGATATGGAGGAACAACTGGTGGTGTTGACATCATCGCTAGACTTGCTAATAAATATTTAGGATGGAGTATTGGCAAAACCATGTTTTTATTTGACTTTATGGTTATTATAACTTCTGTGTTTGCCATCTTGGATTTAAAGCAAGGAATGTATACATTGGTTACTGTTTATATTGGAGCAAGAGTTATCGATTTTATTCAAGAAGGTGCTTATTCAGCTAAAGGAGCCACTATTATTTCGAACCAAAGTGAGGAAATTGCTGCAAACATTCTCAAGAAGATGGATCGGGGTGTTACGGTATTAGAAGGAAGAGGAAGCTATTCAGGAGAAAAACGAGATGTACTGTACTGTGTTGTAGCTAGAAATGAAATTGTACGTTTGAAAAATATTATTGAGTCTATTGATCCCCATGCTTTCGTAGCTGTTAATACCGTCCATGATGTAGCAGGTGAAGGCTTTACATTGGATGAAAATAAAAACCCTATTCAAAATTAG MFQLHIKNVLFILLGAAIFSFGIVHFNMQHNLGEGGFTGITLLLYFLWDFDPAISNIILNVPMFLIGWRFLGRITFIYSIIGTAAVSLFLSVFQMKPFAIHLESDMTLVALFAGIFIGVGLGVIFRYGGTTGGVDIIARLANKYLGWSIGKTMFLFDFMVIITSVFAILDLKQGMYTLVTVYIGARVIDFIQEGAYSAKGATIISNQSEEIAANILKKMDRGVTVLEGRGSYSGEKRDVLYCVVARNEIVRLKNIIESIDPHAFVAVNTVHDVAGEGFTLDENKNPIQN NA NA NA NA NA AK015_02181 687 hypothetical protein ATGTTTGGTGGTTTTGGCGGTTACTTAATTTATGTAGCTTTATTGCTTCTTATCCCAATGTGGGCAAGTGCAAGAGTAAAAAGTACGTATAAAAAATATATGAAAGTACCAACTTCTTCGTATATGACTGGTGCACAAGTAGCACGTCGTATTCTTGATGAAAATAGTTTATACGATGTAACGATAGAAGAAACTAAAGGTATGCTCTCTGATCATTACGATCCAAGAAAAAAAGTTGTACGGCTTTCTAGCGATAATTACCATGGGCATTCTATGGCGGCTTCTGCTGTTGCAGCCCATGAAGTCGGACATGCTATTCAAGATGCAGAAAATTACGCTTTTCTTCGCTTTCGTAGCGCACTTGTTCCAGCAGCTAACTTCGGCTCCAATTTTGGAATGATTTTTATACTAATTGGATTTGTGATCGGAATGAGCCAATTGTATTTGCTAGGTATCGTTCTATTTGCTGCAGCTGTTTTATTCCAATTGGTTACATTACCAGTAGAGTTCGATGCGTCTAATCGGGCGATGGCTCAATTAGTATCTTCAGGCGTAATTCGAAATAATGAAGAGCGAAAGACGAAAAAAGTTCTGAATGCAGCTGCGATGACTTATGTAGCAGCAGCGTTAGTCGCGTTAGCAGAACTATTACGATTTATTTTGATGTTTGTTGCTAGTGACGAATAA MFGGFGGYLIYVALLLLIPMWASARVKSTYKKYMKVPTSSYMTGAQVARRILDENSLYDVTIEETKGMLSDHYDPRKKVVRLSSDNYHGHSMAASAVAAHEVGHAIQDAENYAFLRFRSALVPAANFGSNFGMIFILIGFVIGMSQLYLLGIVLFAAAVLFQLVTLPVEFDASNRAMAQLVSSGVIRNNEERKTKKVLNAAAMTYVAAALVALAELLRFILMFVASDE NA NA NA NA NA AK015_02182 264 hypothetical protein ATGAATAAGAATAGGCATCAATTCGTGTTTACTTTTGGGATGACCATAGGGATATACATATATGTTAATATTTTCATGTCTGAAGCAGTACACGCCAATGTCTCTAGCTGGGCACAACCAGTCACGGAACAGAAAGGCCAATTATTTCCGTTTATATGGATTTTGGTTATTGTAGGTGGGTGTATCGGCATTACATTAACTTATGTAAGTTGGAGAAAATATAAAGGTGAGAAGAAAAGCAAACAAGACAAAACAGTTGACTAA MNKNRHQFVFTFGMTIGIYIYVNIFMSEAVHANVSSWAQPVTEQKGQLFPFIWILVIVGGCIGITLTYVSWRKYKGEKKSKQDKTVD NA NA NA NA NA AK015_02183 591 hypothetical protein TTGTTTAAATACTTATTACTTGATAAACGGTTTTTATGCTTATTAATTATTATTAATTTAGCTGGCACTATATATGGTTATATGTGGTATGGTTCACAATTATCACAAACAGCATCCATTTTTTTAATTTTTGTTCCTGATAGTCCAACGGCCAGTTTATTTTTCACTATATTTTTATTGTTTTTTATCTTTGATAAACATCTTCCTTACATAGAAGCATTAGCAGTAATTACTTTATTTAAGTATGGTATATGGGCTGTTGTCATGAACTTCCTTACTTTGCTTGTGGAGGGATCGTTAAGTTGGCAAGGATATATGTTATTGGCCTCGCATGGTGCTATGGCCATTCAAGGGCTGCTTTATATGCCTTATTATCAATTATGCTTACGTCATATTGTGTTTGCAGCTATTTGGACGTTACATAACGATGTGATTGATTACGTTTTTGAGCAAATGCCAGTTTATTCCTCACTCTCCTCTTATATGAACGAAATAGGCTATTTTACATTCTGGTTAAGTCTTTTATCAATAGGCATTACATATTATTTTACCATTCGAGTTAGGAGAATACCCATTCTTAATGGTAAATAA MFKYLLLDKRFLCLLIIINLAGTIYGYMWYGSQLSQTASIFLIFVPDSPTASLFFTIFLLFFIFDKHLPYIEALAVITLFKYGIWAVVMNFLTLLVEGSLSWQGYMLLASHGAMAIQGLLYMPYYQLCLRHIVFAAIWTLHNDVIDYVFEQMPVYSSLSSYMNEIGYFTFWLSLLSIGITYYFTIRVRRIPILNGK NA NA NA NA NA AK015_02184 783 petD Cytochrome b6-f complex subunit 4 ATGCATAAGGGTAAAGGTATGAAATTCGTCGGTGATTCACGCATCACTGCCGATAGAAAACCAAATGTACCAAAGGATTATTCCGAATATCCTGGAAGAACAGAAGCTTTCTGGCCCAACTTTTTATTAAAAGAATGGTTAGTAGGTGCTGTGTTTTTAGTGGGATTTTTATGTCTGACACTAGCCCATCCTTCTCCATTAGAAGGTATGGCTGATCCAACGAATGCATCTTATATTCCATTGCCGGATTGGTACTTCTTGTTCTTGTACGAACTGTTAAAATATGAATTTGCTAGTGGAGATTATACATTGATGGGAATTCTTGTTTTACCTGGAATTGCATTCGGTGCATTATTGTTAGCACCGTTTTTAGACAAAGGTCCCGGAAGAAGACCACATCAACGTCCGATTTCTGTTGGGATGATGCTACTTGCTTTAGCTTCTGTAATTTGGCTAACGTACGAATCTGCAGCCAATGTAGATTGGGAATCAAGGGCAGAAACTAACAAACCAGTACCTCCTGGTGAACAGGCAGAGATTGATACAGAAGACCCAGGTTACGCCGTTTATGAGAACAGTTGCTTATCTTGTCATGGCGATAATTTACAAGGGGGTGCGGCTGGTCCGTCACTCATCGGTATTGATAAATCTGCTGAAGAAATTGCTACAATTGCTACAGAGGGAATTAACTCCATGCCACCGGATCAGTTCACAGGTACAGATGAAGAACTACAACAATTGGTTGATTTTATCGTATCCGTGAATGAGGAGTCTGGTGAATAG MHKGKGMKFVGDSRITADRKPNVPKDYSEYPGRTEAFWPNFLLKEWLVGAVFLVGFLCLTLAHPSPLEGMADPTNASYIPLPDWYFLFLYELLKYEFASGDYTLMGILVLPGIAFGALLLAPFLDKGPGRRPHQRPISVGMMLLALASVIWLTYESAANVDWESRAETNKPVPPGEQAEIDTEDPGYAVYENSCLSCHGDNLQGGAAGPSLIGIDKSAEEIATIATEGINSMPPDQFTGTDEELQQLVDFIVSVNEESGE NA NA NA NA NA AK015_02185 675 qcrB COG1290 Menaquinol-cytochrome c reductase cytochrome b subunit ATGCTACAAAAAATTTATGACTGGATTGATGAGCGTGCTGATATTACGCCTATCTGGCGGGATATTGCAGACCATGAAGTTCCAGAGCATGTAAATCCAGCACATCATTTTTCCGCATTTGTTTATTGCTTTGGTGGTTTAACCTTTTTTGTGGTTGTTATTCAAATTTTATCTGGAATGTTTTTAACGATGTATTATGTTCCAGATATCGAAAATGCATGGAGATCCGTTTATTACTTGCAAACGGAAGTAGCACATGGGCAGATTGTTCGTGGTATGCACCATTGGGGCGCTAGTGTTGTTATTGTCATGTTGTTATTACATACACTACGAGTGTTTTTCCAAGGAGCTTATAAAAAGCCACGTGAACTGAATTGGATTGTTGGTGTTTTGATTTTCTTTATCATGCTTGGCTTAGGGTTTACCGGGTATTTATTACCGTGGGACAACAAAGCGTTTTTCGCTACACAAGTTGGGTTGGAAATTTCACAACAAGTTCCATTTGTTGGCGAAGAGTTGAAAACGCTATTAGCGGGTGATGAAAAAATCGTTGGTGCGCAAACACTGACTAGATTCTTCGCAATTCATGTGTTCTTCTTGCCTGGGGCACTCTTTGCATTATTAGCAGTACATTTTATTTTAATCCGTAGACAAGGAATTTCAGGACCATTATAA MLQKIYDWIDERADITPIWRDIADHEVPEHVNPAHHFSAFVYCFGGLTFFVVVIQILSGMFLTMYYVPDIENAWRSVYYLQTEVAHGQIVRGMHHWGASVVIVMLLLHTLRVFFQGAYKKPRELNWIVGVLIFFIMLGLGFTGYLLPWDNKAFFATQVGLEISQQVPFVGEELKTLLAGDEKIVGAQTLTRFFAIHVFFLPGALFALLAVHFILIRRQGISGPL PGPT0030840_498 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412 AK015_02186 513 petC_1 Cytochrome b6-f complex iron-sulfur subunit ATGAGCGATAAAAAGCAGCAAGTATCCCGTAGACAGTTCTTGAACTATACGTTAACTGGGGTTGGTGGTTTTATGGCAGCAGGAATGCTGGCGCCAATGTTGCGAATGGCAGTTGATCCAGTGTTAAAAGAATCGGGGCAGGGGGACATGGCAAATGTCGGCTTATCTGTTGATGACATTACTACCGAGCCACAAAAAGTAGATTGGAAGATCACACAAGTTGATGGCTGGTACGAGTCAGAAGTAAACCGTTCCGCTTGGGTTTTTAAGGATGAAAATGGCGATATTCAGGCCTTTTCCCCAATTTGTAAACACTTGGGTTGTGTCGTATCCTGGGGAGGAAGTGATGAATATCCTGAACAGTTTTTTTGCCCGTGTCATGATGGACGTTACTACAAAGATGGAACAAACGTACCAGGAACACCACCTTTACAGCCGTTGGATGTTTATGAATTAGAAGTAAGAGATGGAATCTTATTTTTAGGTGATGCAGTACCAAGAGAGGGGGCGTAA MSDKKQQVSRRQFLNYTLTGVGGFMAAGMLAPMLRMAVDPVLKESGQGDMANVGLSVDDITTEPQKVDWKITQVDGWYESEVNRSAWVFKDENGDIQAFSPICKHLGCVVSWGGSDEYPEQFFCPCHDGRYYKDGTNVPGTPPLQPLDVYELEVRDGILFLGDAVPREGA NA NA NA NA NA AK015_02187 459 hypothetical protein ATGAAATGGAAAAAAACAGACATAACTCAGTATACAGAGGCAAAAGAATACATTGATACGGTTCTAATTCCATTAATGCCTTTTGAAATGGAAAGTGATACGCATTTAGACGTAAACGCTTTTCAATACGAATGGACGATGTTACTTGTAAATGAGTTAGAAAAAGAACTTACAGGACGGATGATGTTATTACCACCTTATGTTTATAGAAAACCTATCATCCAAGAACAAGAACTTACAAGAATTGATTCCTGGGCTAAAGAAATAAAAAAGCAACCTTTTAATCATGTGTTTTTTCTAACTTTAGATGGTGGATGGAAAAAGCATGAAGAAGCTCTTCCTGGAACACTACTCTGGTTGCCTGGAATGAAGTCAGGTGACTTACATTCTGCAGACATGTACAGATTTATTCGTGATCAAGTGGAGCAAATGAGCGAGTTAATTCAATCTTATTGGTAA MKWKKTDITQYTEAKEYIDTVLIPLMPFEMESDTHLDVNAFQYEWTMLLVNELEKELTGRMMLLPPYVYRKPIIQEQELTRIDSWAKEIKKQPFNHVFFLTLDGGWKKHEEALPGTLLWLPGMKSGDLHSADMYRFIRDQVEQMSELIQSYW NA NA NA NA NA AK015_02188 576 hypothetical protein ATGGTGCATACTCCAGTATCTGTAGAAGATAAAAAAAGTTTTATTCGATGGTTTTTAAATCATTACCAGCTAAAAAAGCGAGAGAGCGTATGGATTTTAAATTATTTAATGAATCACGATGAAATACTTCACCATCTTCATTTTGTTAGAGAGGCGAAATTCTGTCCACGGGGAATTATTATGACAAGTCAATGCTCAAGTGAAACAGCCTTTCGTTTTTATAAAAATCAACTCGTAACAACAGATGCAGAGAAATCGTTTCATGACATTCGCTTGAATAAAACAGAAGCTCTGTACCTTCAGTTAAATTTTAAAAGATCATACCGAAGTGCATTATATATTGCGGTATTAGAGGAAAACCCATTTATACCAAATGACTATTTCATAACTGCTCAGGACAAAGAAGTTGCACAGCAGCTGCTAGATCAATCTCGATACGAATTTCAAAGAAGTTTTTTAAATGAGCAAATTGATCAAGCCTTGGACTGTATGAATGAAGAAGCTTTCTTAAAATTAACAAAAGAACTTCAAATGTTGGAAGAGAACTTTTTAAATCAACCAAAATTGCTAAAGTGA MVHTPVSVEDKKSFIRWFLNHYQLKKRESVWILNYLMNHDEILHHLHFVREAKFCPRGIIMTSQCSSETAFRFYKNQLVTTDAEKSFHDIRLNKTEALYLQLNFKRSYRSALYIAVLEENPFIPNDYFITAQDKEVAQQLLDQSRYEFQRSFLNEQIDQALDCMNEEAFLKLTKELQMLEENFLNQPKLLK NA NA NA NA NA AK015_02189 1257 lapB Lipopolysaccharide assembly protein B ATGGAAGCTGTTCGTTTAATGGAAGCCCAGCACGCAGAAAAAGCGGTAGAATTATTGGAAAACTATTTACCAATGGCTGATGACGAAGAGCGATACACAATAGCAGAATTGTATTTGCAATGGGGCTACTTACACGAAGCAAAAGCTATTTTTCAAGATTTAATACATCAATTTCCTGCTGAAGGAGAACTAAAAGTGGCTCTTGCAGATATTTATACGGAATTGGAAGATGACGAAGCTGCTATCCAACTGTTAAATGATATTGATGAAGAAGATCCTGCTTACCTACAAACATTGATTCAATTAGCAGATCTTTATCAAGCGCAAGGGCTTTTTGAAGTATCTGAACAAAAGTTATTAATGGCTAAACGATTTGATCCTAATGAACCAATTATTGATTTTGCTTTAGGAGAATTATATTTTTCAACAGCAGATTATGTAAAAGCCACTACTTATTATGAAAATATTTTGCCTAAGATGAAAGAAATTGCTCATGTATCGATAACAGATCGCCTAGCTGAAGCGTATGCCGAATCTGGAGAGTTTGAATTAGCTTTAACTTACTATCAAGATGAAGATAGTGAAAATCCCGATACGTTGTTTAAATATGGTTTTACTGCTTACCAAACTGGAAGAAAAGACATTGCGAGAAAAGCGTGGGAACATGTCATGGAGATTGATATGTATTACCATACAGTGTATTATCATCTTGCTTCTCTTTATGAGGAAGAGGGGATATATGAGAAAGCATATGAAATTAGTCAAAAAGGACTTCATGTAGATGCTTTTAATAAAGATTTATTTTTGTTAGCTGGGAAAATTGCTCATCAACTTGGAGAAGATGAAAAAAGTGAACAGCATGTTCGAGAAGCTATAGCAATGGATCCTGATTTTAAAGAAGCAGTGCTATTTTTAATTGAATTACTAAAAAATAATGCTGATTTTAAAGGAATTGTTGACTTGGTTAGCGAAATAATGAATACAGGTGCAGAGGATCCTTTGTATAATTGGGAACTAGCCCGCGCTTATAATGAATTGGAAGTATATAATGATGCATTAAAACACTATCAAACTGCATATAATAATCTCAAAGACGATAGTGACTTTTTAAAAGAATATGGCTATTTCTTAACAGAAGAGGGGAGGATAAAAGAGGCGATACCTGTATTTACTGCATACCTTGAGCAACAACCAATAGATGATGAAGTAAATGAATTTCTATTTCGCTTAAAGCAATCTGATCGTGAAGAGCCGTAA MEAVRLMEAQHAEKAVELLENYLPMADDEERYTIAELYLQWGYLHEAKAIFQDLIHQFPAEGELKVALADIYTELEDDEAAIQLLNDIDEEDPAYLQTLIQLADLYQAQGLFEVSEQKLLMAKRFDPNEPIIDFALGELYFSTADYVKATTYYENILPKMKEIAHVSITDRLAEAYAESGEFELALTYYQDEDSENPDTLFKYGFTAYQTGRKDIARKAWEHVMEIDMYYHTVYYHLASLYEEEGIYEKAYEISQKGLHVDAFNKDLFLLAGKIAHQLGEDEKSEQHVREAIAMDPDFKEAVLFLIELLKNNADFKGIVDLVSEIMNTGAEDPLYNWELARAYNELEVYNDALKHYQTAYNNLKDDSDFLKEYGYFLTEEGRIKEAIPVFTAYLEQQPIDDEVNEFLFRLKQSDREEP NA NA NA NA NA AK015_02190 1290 aroA1 COG0128 3-phosphoshikimate 1-carboxyvinyltransferase 1 TTGAAAGAACGAATATTACAACCGATAGGCAACCCTTTACAAGGGGAGATAGAAGTACCAGGTGATAAATCGATCTCACACCGATCCATTATGTTTGGCTCACTAGCTCATGGGACTACAATTGTGGAACATTTTTTAAACAGTGAAGATTGTTTGCGTACAGTAAATATTTTTCGGTCTATGGGTGTTTCTATTGAACAGAAAGAATCCAGTTTAACTATTTACGGAGAAGGTCCACAATCATTTACTGAGCCAGTTGAGCCTCTTTATTTAGGTAATTCTGGTACGACGGCAAGACTAATACTAGGTATCTTAGCAGGCTTACCTCTTTTTACTACTTTTTATGGAGATCGTTCGTTAACAAAACGCCCTATGAATCGCGTTGTTGAACCACTTCGTCTAATGGGAGCAAGCATTACAGGGTGCTCACAAGGAAACTATCTCCCTTTAGCTGTAGAAGGGAAAACATTGCAAGCCATTCATTATCATTTACCTGTAAAAAGCGCGCAAGTTAAATCAGCTGTTCTTTTAGCTGGTTTATTTGCAAACGGAACTACTACTGTTACTGAAATATCACCTACAAGAAATCATACAGAATCAATGTTACAAGCTTTTGGTGTGGAATTGTTAAATAACGGTTTAGATATTTCCGTTCGTGGACAACAAACATTAACAGCTACAGATATTTACGTTCCCGGTGATATTTCATCTGCAGCGTTCTTTCTCGTTGCAGCTGCTATCGTTCCAGGTAGTCAATTAAAACTATTACATGTTGGGTTGAATGAAACGCGTACAGGAATCATTGACGTTTTACAAGCAATGGGAGCTGACATAACCATTGAGAGGGAAGAAACAAAAGGTGGTGAACGTATTGGTGACATTCATATTCGTTACAAGGAGTTAACAGCAACAATTATTGAAGGAGATATGATTCCAAGACTCATAGATGAGATACCGATCATCGCTTTATTAGCTACTCAAGCTGAAGGAACGACAGTAATTAAGGATGCTGCAGAACTTCGTGTCAAAGAAACGGATCGCATTCACGCTGTGACAGAAACACTTACTAATTTAGGGGCAAAAGTCGAAGAAAAAGAGGATGGGCTACTAATTCATGGACGATCGAAACTGCACGGCAATAGAATTGAATCCTATCATGATCACCGAATGGCTATGATGGCATCTATTGCATCTTTGATCACCACAAGTGAAGTCGTAATTAATGACATAACTCCAATTGCAACATCTTACCCAACTTTTTATGCAGATTTAAAATCAGTGAGCGAATAA MKERILQPIGNPLQGEIEVPGDKSISHRSIMFGSLAHGTTIVEHFLNSEDCLRTVNIFRSMGVSIEQKESSLTIYGEGPQSFTEPVEPLYLGNSGTTARLILGILAGLPLFTTFYGDRSLTKRPMNRVVEPLRLMGASITGCSQGNYLPLAVEGKTLQAIHYHLPVKSAQVKSAVLLAGLFANGTTTVTEISPTRNHTESMLQAFGVELLNNGLDISVRGQQTLTATDIYVPGDISSAAFFLVAAAIVPGSQLKLLHVGLNETRTGIIDVLQAMGADITIEREETKGGERIGDIHIRYKELTATIIEGDMIPRLIDEIPIIALLATQAEGTTVIKDAAELRVKETDRIHAVTETLTNLGAKVEEKEDGLLIHGRSKLHGNRIESYHDHRMAMMASIASLITTSEVVINDITPIATSYPTFYADLKSVSE PGPT0012850_3094 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800 NA NA AK015_02191 1101 hypothetical protein GTGAAGCGAAAAATAGCTATAGCAGGTCTTGGTCTTATCGGCGCGTCGATAGCAAAAGCATTAAAAACAATAGCTGATAATTATGTAATTGGTTATGATATTGACTTAGAGACATTACAATACGCCAAGACCCATGGTATCATTGACGAAGCAAAAACAGACTTTACAACCACAGTATGTCAAGTTGACTATCTTATTTTGGCAGCCCCAATATCTAAGTCAATTGAATTACTAGCAGCTTTAGATGAAATACAATTATCCCAAAAGTTAATCGTTTCTGATGTTTCTTCCGTGAAACAATCCATGATAACAGCGGCTAATCAGTTACAAAATATGGACATATCTTTTGTTGGTGGACACCCAATGGCAGGTTCCCATAAAAAAGGGGTGCAGGCTGCAAAAGCGCATCTATTTGAAAACGCAATTTATGTATTGACTCCCACGACGCGTAGTAAAGAGTGTGATGTTCAATCATTAAAAAGGCTTCTTGAACCGACACGTAGCAAATTTCTCATACTAGATGCGAAGGAACACGATGAAATGACTGGTGTGATTTCTCATTTCCCGCATTTAATTGCATCTTCACTCGTTCACCAGGCAAAGCATTGGGAACAGACGCACGCTTATTTACCTAACCTTGCTGCAGGTGGATTTCGCGATATTACAAGAATTGCATCTAGCAACCCTACACTTTGGCAGGATATCTTTTATCATAATCGAAAGAAAATGTCGCTGTTTTTAGAAGAATGGATTACAGAAATGAAACATGTAAAAAATTTAGTTGAAGAAAATAATAAGCAAGAGATGATTACGTATTTAGAAACAGCTAAACGGTACCGTGATGGTTTAGGTACGAAAGATAAAGGAGCCATTCCTTCATATTACGATTTGTATGTAGATATTCAAGATCAAACAGGGGCTTTAGCCCATGTAACAAAACTGTTGGCAGATAATAACATTAGCATAAATAATATTCAAATATTAGAAATTAGGGAAGGGATAATGGGAGCTCTTAGGTTAAGTTTTGCAACTGAAAAACTCCAAAAAATAAGTGCACACACCCTAAATGAATCGGGTTATGAAACGATGATCGAAAAATAA MKRKIAIAGLGLIGASIAKALKTIADNYVIGYDIDLETLQYAKTHGIIDEAKTDFTTTVCQVDYLILAAPISKSIELLAALDEIQLSQKLIVSDVSSVKQSMITAANQLQNMDISFVGGHPMAGSHKKGVQAAKAHLFENAIYVLTPTTRSKECDVQSLKRLLEPTRSKFLILDAKEHDEMTGVISHFPHLIASSLVHQAKHWEQTHAYLPNLAAGGFRDITRIASSNPTLWQDIFYHNRKKMSLFLEEWITEMKHVKNLVEENNKQEMITYLETAKRYRDGLGTKDKGAIPSYYDLYVDIQDQTGALAHVTKLLADNNISINNIQILEIREGIMGALRLSFATEKLQKISAHTLNESGYETMIEK NA NA NA NA NA AK015_02192 1092 hisC_2 COG0079 Histidinol-phosphate aminotransferase ATGAAAGCAAAATCTTCGTTAAAGCAGATTGCACCATATCAACAAGGAAAGCAAATTCAAGATATTAAGAGGCAATACCAAATAGATAGAATTGTGAAATTATCTTCAAATGAAAATCCATATGGTTATGCAGATACAGTTAGACAGTTTTTAGCTTCTTATGAGCCTGCGTTTGATATTTATCCAGATGGCCATACAGCACAACTCCGCAAAGATTTAGCTTATAAATTAAAAGTAAGTGAGTCAGAAATAATTTTTGGGAGTGGCTCTGAAGAAATTGTTCAAATGATTTGCCGAGCTTATTTATTTCAAGGAGTTAACACAGTGATGGCTACACCAACTTTCCCTCAATATAAGCATAACGCAATAATTGAAGGAGCAAAAATAAAGGAGATACCAACTATAGAAGGCCACCATGATTTAAATGGTATGCTTGAAGCTATCGATCAAGATACAAATGTTATCTGGCTTTGTTCTCCTAATAATCCAACTGGTACTCCAATAACCAAGCAGGATTTTATTGCTTTTATGGATACGTGTCCACAACATGTTTTAGTCGTATTAGATGAGGCATATTATGAGTATTTAGACGAAACGAAAGACCTTCATGCAATGGAACAGATTCAAAAATACAACAATCTTATAATTTTACGAACTTTTTCAAAGGCATACGGACTTGCGGGATTGCGTATTGGGTATGGGGTTGCAAATAAGCAGATCATTAATCAATTAAACGTTGTACGTGGACCTTTCAATACAACTTCCATCGCTCAGCAAATCGCACAAATTGCACTTGCTGATGAAGCTTTTATTGAAGAAACAAGGCAGCAAAACTTAAAAGTAAAGCTCGATTTCCAAGCATTCTTGGATAGGATAGGCTGGCATTATTACCCTTCTGAAACAAATTTCATGCTTGTTTCTACACCTACTAGTGGAACAAAAGTGTTTGATTATTTAATCCAACATGGGTTTATCGTTCGCCCTGGTGAGCTGTTGGGAATACCAAATACTTTTCGATTTACGTTAGGGTTACAGGATGATATGTATCGCATGCAGGAATTACTTTCACTCTATCAGCACCAAAACAGCTAA MKAKSSLKQIAPYQQGKQIQDIKRQYQIDRIVKLSSNENPYGYADTVRQFLASYEPAFDIYPDGHTAQLRKDLAYKLKVSESEIIFGSGSEEIVQMICRAYLFQGVNTVMATPTFPQYKHNAIIEGAKIKEIPTIEGHHDLNGMLEAIDQDTNVIWLCSPNNPTGTPITKQDFIAFMDTCPQHVLVVLDEAYYEYLDETKDLHAMEQIQKYNNLIILRTFSKAYGLAGLRIGYGVANKQIINQLNVVRGPFNTTSIAQQIAQIALADEAFIEETRQQNLKVKLDFQAFLDRIGWHYYPSETNFMLVSTPTSGTKVFDYLIQHGFIVRPGELLGIPNTFRFTLGLQDDMYRMQELLSLYQHQNS PGPT0020305_4359 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817 NA NA AK015_02193 381 aroH COG4401 Chorismate mutase AroH GTGACTAGAGGCATACGGGGTGCAACGACGGTAGCTGTTAATGCAGCCGATGTAATTATAAATAATACAAAAAACTTAATTGAGGAAATGATCAAGAAAAATAATGTATTACCAGAAGATGTTTCTCATGTTTTTATATCTGTAACAAAAGACATTACTGCAACCTTTCCAGCTAAAGGTTTGCGTGAGTTATCGGGTTGGACATATGTTCCAGTAATGTGTATGACAGAAATAGATGTGCCGAATAGTTTAGAGCTTTGTATACGTGTAATGATGGTTGTAAATACAGAACTAGAACAATCAAATATTCACCATGTCTTTCAAAATGAAGCTATTCATTTGCGCCCTGATTTAGCAAAATGGAATAAGGAGGATAAATAA MTRGIRGATTVAVNAADVIINNTKNLIEEMIKKNNVLPEDVSHVFISVTKDITATFPAKGLRELSGWTYVPVMCMTEIDVPNSLELCIRVMMVVNTELEQSNIHHVFQNEAIHLRPDLAKWNKEDK NA NA NA NA NA AK015_02194 1074 aroB 3-dehydroquinate synthase ATGGAAGAACTAAACATTCAAGCAAGTACACACGCTTATTCTATCGTTATTGGAGAAGGCATCCGAAATCAAATTACGGATTACTTCACTAATAGTTATTCATCTATTTGGGTGATAACAGATGAGAATGTAGCTAAATTATATTTGGGAGACGTATTAGAAACACTCTCAGATTTTCATGTCCACCACACAATATTACCTGCTGGAGAACAGACGAAAAGTATAGATTACTATAATCAATTAATGACAGAAGCAATTGAGTATGGATTAGACCGTCATTCTTTGTTAATTGCTTTAGGTGGAGGGGTTATTGGTGATTTAGCAGGTTTTGTAGCAGCTACTTATATGCGTGGCATTGACTATATCCAAATGCCGACAACAATATTAGCGCATGATAGTAGTGTTGGTGGAAAAGTAGCTATTAACCATCCGTTGGGGAAAAACTTGATTGGTAGCTTTTATGCACCGCAAGGAGTTTTTTATGATATTGAGACGCTAATTACGTTAAATGATCGGGAAATCCGCTCTGGATACGCAGAATTAGTAAAAGAAGCACTCATTTCTGATGAAGCTATATATAGATCCATTTTAACTACAAATTTACAAAATTTACCACCATCTATAACACAAGAGCATATTTGTTCAGGGATTCAAATTAAAGCACAAGTAGTAGAACAAGATGAAAAAGAAAATGGAATGCGAAAGTATTTGAACCTTGGCCATACGTTGGGTCATGCTTTGGAAGCTCATTTAGGATATGGATCTATTGCACATGGTGAGGCGGTTGCTATAGGTTTGCTATTTGCACTACATGTTAGCGAATCAGTTTTTGATACGACATTGCCTTTTTTACAACTAAAGCAATGGTTAGAAACAAACCACTACCCGCTTCATTCCCTAACTGGAGATCAACAAACTATATTAGCTAAAATGAAAAACGATAAAAAAAATAAACAACATCGTATTCAAATGGTGTTGCTAGAACAAGTTGGTAAACCAATTATAAAGCAGATGACGGATGAAGATATGCTTTCCTACTTATCTTCTTTTAAAAGAAAGTTGGTGAATAAGTGA MEELNIQASTHAYSIVIGEGIRNQITDYFTNSYSSIWVITDENVAKLYLGDVLETLSDFHVHHTILPAGEQTKSIDYYNQLMTEAIEYGLDRHSLLIALGGGVIGDLAGFVAATYMRGIDYIQMPTTILAHDSSVGGKVAINHPLGKNLIGSFYAPQGVFYDIETLITLNDREIRSGYAELVKEALISDEAIYRSILTTNLQNLPPSITQEHICSGIQIKAQVVEQDEKENGMRKYLNLGHTLGHALEAHLGYGSIAHGEAVAIGLLFALHVSESVFDTTLPFLQLKQWLETNHYPLHSLTGDQQTILAKMKNDKKNKQHRIQMVLLEQVGKPIIKQMTDEDMLSYLSSFKRKLVNK PGPT0012865_3541 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 AK015_02195 1170 aroC COG0082 Chorismate synthase GTGCGCTATTTAACAGCAGGGGAATCACATGGGAAACAATTAACTACGATTGTTGAAGGAGTTCCTGCCCAAATGCCATTATTAACAGAAGATATTAATCAGTCCCTTTCTCGTAGACAAAAAGGACACGGGCGGGGAAAGCGAATGCAAATTGAAAAAGACCTTGTAGACATTACGAGTGGTGTGAGGCATGGTAAAACATTAGGATCACCTATTTCTTTAGTTGTACATAATGATGACTTCAAACATTGGGAAGACATTATGGGCGCAGATCCAATAGAAACAGATCAAAAAATTCGTAGAACTATAACAAGGCCAAGACCTGGGCATGCCGATCTTAATGGTGCTCTTAAGTATGGACATCGAGACATAAGGAATATATTAGAACGTTCATCAGCCCGAGAAACAGCCGCACGAGTAGCTGCAGGGGCTATCGCAAAAACGTTGCTTAAGCATTTGGGTATTGAAATCGTTGGTTATGTGAAGGAAATTGCAGGTATTGTTGCAGAAGACCAAGAACAACTTTCTGTACGAGGAAGACAGCAAATAGCTGATGGGTCACCCGTTCGCGTTTTGGATAAACAAGTGGAAGGGCCTATGATACAGGCAATTGACGATGCAAAACAAGTTGGAGACTCAATCGGAGGAGTTTGTGAAGTTTATGTGGAAGGAATGCCAGCAGGTGTTGGTTCTTACGTCCATTATGATCGCAAATTGGATAGTAGAATAGCTGGAAGTGTAGTAAGCATAAATGCTTTTAAAGGGGTCGAATTTGGAATTGGTTTTGAAGCGGCAAAACGGAATGGTAGTCAAGTCCATGATGAGATTGCTTGGAATGAAGAGAAGGGGTATTACCGAACTACGAATCGCCTTGGGGGATTTGAAGGTGGTATGACAACAGGAATGCCGATCGTGGTTAAAGGAGTAATGAAACCTATACCTACATTAATGAAACGACCACTTACGAGCGTAGATATCGATACAAAAGAACCGTTTAAAGCGACGGTTGAAAGATCTGATGCTTGTGCAGTTCCTGCCGCTTCAGTTGTTATGGAGCATGTTGTTGCATTCGAGCTAGCAAAAGCTTTAACAGAGCAATTTACAAATGATCAATTTGCAAAGTTAAAAGAAGCGATTGAAGCATATCGTGAAGAAATCAGGTGTTTTTAA MRYLTAGESHGKQLTTIVEGVPAQMPLLTEDINQSLSRRQKGHGRGKRMQIEKDLVDITSGVRHGKTLGSPISLVVHNDDFKHWEDIMGADPIETDQKIRRTITRPRPGHADLNGALKYGHRDIRNILERSSARETAARVAAGAIAKTLLKHLGIEIVGYVKEIAGIVAEDQEQLSVRGRQQIADGSPVRVLDKQVEGPMIQAIDDAKQVGDSIGGVCEVYVEGMPAGVGSYVHYDRKLDSRIAGSVVSINAFKGVEFGIGFEAAKRNGSQVHDEIAWNEEKGYYRTTNRLGGFEGGMTTGMPIVVKGVMKPIPTLMKRPLTSVDIDTKEPFKATVERSDACAVPAASVVMEHVVAFELAKALTEQFTNDQFAKLKEAIEAYREEIRCF PGPT0012875_1442 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736 NA NA AK015_02196 774 cheR Chemotaxis protein methyltransferase TTGGAAAAGGATTATAATCAGTTTATAGATAAAATAAAAATAAAATTAGGCATTGATTTACAACTTTATAAAGAAACACAAATGAAACGAAGACTCACATCTCTTAGAAATAAACGGGGATATAAAGACTTTTATAGTTATTATCGTGCACTAGATAAAGATCAAGCATTACTAAACGAATTTGTGGATCGATTAACAATAAATGTATCTGAATTTTATCGTAATCCCAAACGTTGGGAAGTTTTACAAACTAAAGTTATGCCAGCATTGGTGAAAAAACCTTCGTTTACAATTTGGAGTGCAGCATGCTCTACAGGAGAAGAGCCGTACAGTCTTGCCATTATGCTATCAGAGCATTTTCCTAGAGCTTCCTATCGAATTATGGCAACAGATATAGATGAAGCTGCTTTAAGCAAGGCCAAGCAAGGCATTTATCAAAAACAGGCTTTAAAAGAATTACCAGCAAAATCTATTCAAAAGTATTTCACGAATCAACATGGACTATATCATCTATCTCCTAACATAAAAGAGCAAGTTACGTTTCGCAAGCATAATTTACTAGCTGATACATATCCAAATAATGTTGACTTAATCATATGTCGAAATGTTCTCATCTATTTTACTGATGAAGCAAAAGAAAGCGTTTATCAACGTTTTAGTGAATCCTTAAATACAAATGGTGTTTTATTTGTCGGTAGCACGGAACAAATATTTCACCCAGAAAAATATCAATTACGTTTATTAGACACATTCTTTTATCAAAAAATGGAATGA MEKDYNQFIDKIKIKLGIDLQLYKETQMKRRLTSLRNKRGYKDFYSYYRALDKDQALLNEFVDRLTINVSEFYRNPKRWEVLQTKVMPALVKKPSFTIWSAACSTGEEPYSLAIMLSEHFPRASYRIMATDIDEAALSKAKQGIYQKQALKELPAKSIQKYFTNQHGLYHLSPNIKEQVTFRKHNLLADTYPNNVDLIICRNVLIYFTDEAKESVYQRFSESLNTNGVLFVGSTEQIFHPEKYQLRLLDTFFYQKME PGPT0015670_4270 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575 NA NA AK015_02197 447 ndk COG0105 Nucleoside diphosphate kinase ATGGAAAAGACTTTTTTGATGGTGAAACCGGATGGTGTTCAACGTAATTTAATTGGCGATATTATAAGACGATTTGAAGCGAAAGGTTTCAAACTAGTTGGTGCAAAGTTGATGACTATTTCAGCGCAATTAGCTGAGCAGCATTATGCAGAGCATAAAGAACGTCCTTTTTTTGGAGAACTGGTTGATTTCATTACATCTGGTCCAGCTTTTGCTATGGCTTGGGAAGGAGAAAATGTAATCGCAACCGCAAGAGAAATGATGGGTAAAACTAATCCTATAGAAGCATTGCCTGGAACAATCCGTGGAGACTATGGTATGACTGTTGGGAAGAATATTATACACGGCTCTGATTCTGTTGAAAGTGCTAAACGAGAGCTTTCTTTATTCTTCAAAGATGAAGAACTCATTGATTATTCCAAGCAAGATGCAATTTGGATCTACTAA MEKTFLMVKPDGVQRNLIGDIIRRFEAKGFKLVGAKLMTISAQLAEQHYAEHKERPFFGELVDFITSGPAFAMAWEGENVIATAREMMGKTNPIEALPGTIRGDYGMTVGKNIIHGSDSVESAKRELSLFFKDEELIDYSKQDAIWIY PGPT0021210_2418 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940 NA NA AK015_02198 972 hepT COG0142 Heptaprenyl diphosphate synthase component 2 ATGAAATTAGCTAAAGCTTATGGATATTTAAAAAAAGACCTAAATGAAATTGAACAAACGATTAATGAAGTTGTACAGGCTAAACACCCTGTTTTAAGAAAAGCTTCTACCCAGTTACTTCAAGCAGGTGGAAAACGGATCCGTCCGGTATTTGTGTTACTATCAGGACAAATGGGTACCTATGACTTAGAACGGCTTAAAATTGTCGCTGTGTCATTAGAACTTATTCATACTGCTACATTGGTTCACGATGATGTAATTGATGATGCTGATATTAGAAGAGGTATGCCAACAATTAGACAGACGTATGGTAATCGTGTTGCCATGTATGCAGGCGACTATATTTTAGCACGAGCTTTAGAAGAAATTACACTCTTGCAAGATGCGAAAATACATCATCTACTTTCTAAAACGATTGTTGAAGTGTGTAAAGGTGAAATTGAACAAATTAAAGATAAATTTGATTCGAGTCAGGGATTACGCAATTATTTGCGACGAATTAAGCGTAAAACAGCTTTACTAATAGCTACGAGTTGTAAGCTAGGTGCCATTGCTTCTGGGTTACCAGAAATGGAAGCCCATAAATTATATCTTTATGGATACAATATCGGTATGTCCTATCAAATCATTGATGATATTTTGGATTTTACAGGTTCTGAAAAGGAGCTAGGAAAACCTGCAGGAAATGATTTATTACAAGGAAACTTAACATTGCCTGTATTTTTAGCGATGAGAAAACCTGCTTTAAAAGATAAAGTCATTCAAGGATTACAAGCTCCTTCTGAAATTCGTGAGAAGCATATGAAAGAAATTGTTGAAGATATAAAAAGTACAAACGCTATTGACGACTCTTATCAAATTAGCAATCGGTATTTAGAAAAAGCACTGCGACAATTAGAAGGCTTTTCTGATAGTCGTGCAAAACAAACTTTACTTCAAATTGGAAAATATATTGGCAAGCGTCGTACTTAA MKLAKAYGYLKKDLNEIEQTINEVVQAKHPVLRKASTQLLQAGGKRIRPVFVLLSGQMGTYDLERLKIVAVSLELIHTATLVHDDVIDDADIRRGMPTIRQTYGNRVAMYAGDYILARALEEITLLQDAKIHHLLSKTIVEVCKGEIEQIKDKFDSSQGLRNYLRRIKRKTALLIATSCKLGAIASGLPEMEAHKLYLYGYNIGMSYQIIDDILDFTGSEKELGKPAGNDLLQGNLTLPVFLAMRKPALKDKVIQGLQAPSEIREKHMKEIVEDIKSTNAIDDSYQISNRYLEKALRQLEGFSDSRAKQTLLQIGKYIGKRRT PGPT0025040_177 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA NA NA AK015_02199 717 menG Demethylmenaquinone methyltransferase ATGACATATCCATCTAAAGAAGAACGTGTTCATCATGTTTTTGAAAAAATATATTCAAAATACGATTCGATGAATTCCATTATTTCATTCCAACGCCATAAAACATGGAGAAAAGATGTTATGAAGCGTATGAACGTACAGATGGGTTCAAGGGCATTAGATGTATGTTGTGGAACGGGAGATTGGGCGTTGGTAATGGCAGAAGAGATTGGAGCTAAAGGTGAAGTTACAGGTCTTGATTTTAGTGAAAATATGCTTTCCATTGCGAAACAGAAACAGCGAAAATTAGAATTAGAACATGTAGATTTCATACAAGGTAATGCAATGCAACTACCTTTTCAAGATAATAGCTTTGATTATGTAACTATCGGTTTTGGCTTACGGAATGTACAAGATTATATGACAGTGTTAAAAGAAATGTACCGTGTTGTAAAACCAGGTGGGAAAGTAGTTTGTTTAGAAACATCACAACCTACTATACCCATTTATCGACAATTATATCGTTTTTATTTCCAATATATTATGCCATTGCTTGGGAAATTAATTGCCAAAAGCAAACAAGAGTATGCATGGTTAAATGAGTCTGCTAAAGATTTTCCTGATAAAAACCGTTTAAAACAAATGTTTATGGAAGCTGGATTTACTAATATTCAAGTGAAGAGCTATACTGGTGGGGTTGCAGCCATGCATATGGGCGAGAAAGAACCGAATAGTTAA MTYPSKEERVHHVFEKIYSKYDSMNSIISFQRHKTWRKDVMKRMNVQMGSRALDVCCGTGDWALVMAEEIGAKGEVTGLDFSENMLSIAKQKQRKLELEHVDFIQGNAMQLPFQDNSFDYVTIGFGLRNVQDYMTVLKEMYRVVKPGGKVVCLETSQPTIPIYRQLYRFYFQYIMPLLGKLIAKSKQEYAWLNESAKDFPDKNRLKQMFMEAGFTNIQVKSYTGGVAAMHMGEKEPNS PGPT0009535_2885 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183 NA NA AK015_02200 777 hypothetical protein TTGAATAGGTCAGCAAAGGACATACACTATGTAAAAACAGAGATAGAGAAGAAAATAAAGCATTCCTATTTGGAAAAATATATTGACAAGCCCACTATCGATGAGGAGAAATTGTTTTTATTAATGGAAATGATGAATCATAGTTCCTTACCTGAGTCCCATAAACAAAGATATATTGTTACAACTATGCTTGTACAGATGGCTTTAGATACACATGACAAAGTTCCAAGTTTAACTTCACCCAATGAAAACGAAGACGTCAAGTTACAGAAACAATTGCATGTACTTGCTGGAGATTATTATAGTGGTCTTTATTATTTAGTGCTAGCCGAAATCAGTGATTTTGGATTTATTCGGCTACTCGCTTCCACAATTAAAGAAATTAACGAGTATAAAATGAAACTCTATTATAATGAAATAGACTCTTTGCAGGAGTATATGCTTATTCGTAATCTTATTGATACACGTTTACTCGTACAAGTGGCCTCATTTTTGAATATTTCTATGATGGGAAAGATTGTGGAAAAATGGCTTTTGGTTATTAAGCTGATAAATGATATTGAACATTTTAACGCAAGAAAGATGCAGGTACATTCTTGGGTGAATAGTTTTTTCGATAAAGGTGAATTAAGCAAACAGCTGACAGCATTATTGCAACAACTAGAAGATGAAGTGCGCAAGATCTCGTCTATTTATTCTAGCTTATCAAACTACTTAGAAACAGAAATTACTTCTATAAAAAAAGCTTACGTATCTATTATGGGGGAAGAAGGTTAA MNRSAKDIHYVKTEIEKKIKHSYLEKYIDKPTIDEEKLFLLMEMMNHSSLPESHKQRYIVTTMLVQMALDTHDKVPSLTSPNENEDVKLQKQLHVLAGDYYSGLYYLVLAEISDFGFIRLLASTIKEINEYKMKLYYNEIDSLQEYMLIRNLIDTRLLVQVASFLNISMMGKIVEKWLLVIKLINDIEHFNARKMQVHSWVNSFFDKGELSKQLTALLQQLEDEVRKISSIYSSLSNYLETEITSIKKAYVSIMGEEG PGPT0007531_158 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007531-hepST-K00805 NA NA AK015_02201 225 mtrB Transcription attenuation protein MtrB ATGGATAAGTCAGGTGTTTCATCCGATTTTTTTGTTATCAAAGCACTGGAAGATGGTGTACAAGTAATTGGATTAACCAGAGGAAATGATACGCGTTTCCATCATTCAGAAAAACTTGATCAAGGAGAAATTATGATCGCCCAGTTTACAGAGCATACCTCAGCGGTTAAAGTAAGAGGTAAAGCTTTAGTTCAAACAAGTCACGGTGAGATTGAGAATGAGTAA MDKSGVSSDFFVIKALEDGVQVIGLTRGNDTRFHHSEKLDQGEIMIAQFTEHTSAVKVRGKALVQTSHGEIENE NA NA NA NA NA AK015_02202 273 hupA COG0776 DNA-binding protein HU 1 ATGAACAAAACAGACCTAATTAATGCTGTAGCTGAAAAAAGCGATCTTTCTAAAAAAGATGCTACGAAAGCAGTAGATGCAGTATTCGAATCTGTCATGGATTCACTTAAAAATGGTGAAAAAGTACAATTAATTGGATTCGGTAACTTTGAAGTACGTGAACGCTCTGCTCGTAAAGGTCGTAATCCTCAAACAGGAGAAGAGATCGAAATTCCAGCAAGCAAAGTTCCTGCATTCAAGCCAGGTAAAGCCCTAAAAGATAGTGTAAAATAA MNKTDLINAVAEKSDLSKKDATKAVDAVFESVMDSLKNGEKVQLIGFGNFEVRERSARKGRNPQTGEEIEIPASKVPAFKPGKALKDSVK NA NA NA NA NA AK015_02203 1479 spoIVA Stage IV sporulation protein A TTGGAAAGAGTAGATATTTTTAATGATATTTCTAAACGGACAAATGGAGATATTTACTTAGGTATCGTAGGAGCGGTTCGTACAGGAAAATCAACATTTATTAAAAAATTCATGGAACAAGTTGTACTGCCGAACATGGAGGAGGAAAGCGAGAGAGCTCGTGCACTTGATGAATTGCCTCAAAGTGCTGCCGGAAAAACAATTATGACTACAGAGCCTAAATTTGTACCTAATCAAGCGGTTTCCGTTCATGTCGATGAAGGTTTAGACGTAAACATTCGTCTAGTGGATTGCGTTGGGTACGCCGTTGAGGGAGCAAAAGGGTTTGAAGACGAAAATGGACCAAGAATGATTCACACCCCTTGGTACGAAGAAGCAATACCTTTTCACGATGCAGCAGAAATTGGAACAAGAAAAGTAATTCAAGAGCATTCAACAATTGGGGTTATTGTAACTGCTGATGGTTCGTTTGGAGAAATTAATCGACATGAATATGTGGATGCCGAAGCGAGGGTTGTTGATGAATTAAAAGAAGTAGGAAAGCCTTTTATCATGGTGCTTAATTCCCAGCGACCTAGCAGTCAAGAAACAGAGTTGTTACGCCAAGATTTAGTCGATAAATATGATATACCTGTTATAGCCATGAGTATTGAATCTATGACAGAACATGATGTTACCAATGTTTTGCGTGAGGCATTATACGAATTTCCAGTTTTAGAAGTTAATGTGAATTTACCAAGCTGGGTAATGGTGCTAAAAGAAAATCACTGGTTAAGAAGAGAATATCAAGAAGCCATTCAAGAGACTGTAAAAAACATTAAACGCTTGCGTGATGTGGATCAAATTGTTGGTGAATTTGCGGTTTATGAACATATTGAACAAGCAAAATTAGCCGATATGGAAATGGGGGAAGGGATAGCGGAAATTGACCTCCATGCACCTGACTATTTATATGACGAAATATTAAAAGAAATTGTAGGTGAAGAAATTAGAGGCAAAGATCATTTATTACAGCTCATGCAAGATTTTGCTCATGCGAAAAGAGAATATGATCAAGTATCTGGCGCGTTACAAATGGTCAAGCAAACAGGCTATGGAATTGCAGCTCCGGCTTTAGAGGATATGATTTTGGATGAGCCTGAAATTATTCGTCAAGGCTCTCGGTTCGGTGTTCGCTTAAAAGCTGTCGCTCCTTCCATTCACATGATCAAAGTGGAAGTTGAATCCGAATTTTCACCAATTATAGGAACGGAAAAGCAGAGTGAAGAGCTAGTGCGTTATTTAATGCAAGACTTTGAAGAGGATCCACTATCCATATGGGAGTCAGATATCTTTGGACGTTCCCTAAGCTCAATAGTAAGAGAAGGTATACAAGCAAAAATTGCACTTATGCCTGAAAACGCACGTTACAAATTAAAGGATACACTAGAACGAATCATAAACGAAGGTTCCGGTGGTCTAATAGCTATTATATTATAG MERVDIFNDISKRTNGDIYLGIVGAVRTGKSTFIKKFMEQVVLPNMEEESERARALDELPQSAAGKTIMTTEPKFVPNQAVSVHVDEGLDVNIRLVDCVGYAVEGAKGFEDENGPRMIHTPWYEEAIPFHDAAEIGTRKVIQEHSTIGVIVTADGSFGEINRHEYVDAEARVVDELKEVGKPFIMVLNSQRPSSQETELLRQDLVDKYDIPVIAMSIESMTEHDVTNVLREALYEFPVLEVNVNLPSWVMVLKENHWLRREYQEAIQETVKNIKRLRDVDQIVGEFAVYEHIEQAKLADMEMGEGIAEIDLHAPDYLYDEILKEIVGEEIRGKDHLLQLMQDFAHAKREYDQVSGALQMVKQTGYGIAAPALEDMILDEPEIIRQGSRFGVRLKAVAPSIHMIKVEVESEFSPIIGTEKQSEELVRYLMQDFEEDPLSIWESDIFGRSLSSIVREGIQAKIALMPENARYKLKDTLERIINEGSGGLIAIIL PGPT0024770_103 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_IV_SPORULATION,PGPT0024770-spoIVA-K06398 NA NA AK015_02204 729 hypothetical protein ATGTATACTACATATGGAAAAATAGCCATTTTTATATTATTTACTATCCTGTTAAGCGGCTGCTTATATCCCGATAATGAATTATCAAAAAATCAGGTTCCCAATGAAGATCAATTAGAAGCAGTCCAATCTGCAGTAGAACAATATCGAGAACAAGAGGGCGGTCTTGTGCCAATTCGAACAAAAGACAACGAAACACCTATTTTTCAAAAATATTTGGTCGATTTTCCTAAATTAAAGGAAGCCAATGTATTAACGGAAATTCCTGCTAATGCTTTTGAAAATGGTGGTGTTTACCAATATGCTTTAATCACACCAGAAAAAAAACCACGGGTAAAACTAATTGATTTACGCATATCTGAAGCAATACGTAGTGTAAATATAAAATTGGATATATATCGAGATGAACATATGTATCCACCATTTAAAGAAGAAATAGCAGATGGGATTTATACGATTGATTATGAAAAACTTGGTTTGGAAAACCCGCCTACTGTTGTAAGTCCATATTCTAAAGAAAACTTACCAATTGTGATGAATACGGAAGGCGAACTCTATGTAGACTACCGAATTGATTTGAATCAAGCATTGAAAACGGAAAAACATAAGTACGAAAATGGGGATGATATTCGCTATCTGTTAGCTAATAGTACTCCTTTTGTTCCAGCGTACTCTCTCCCTTATACTATAAAGAATGGGGAACCTGTATTTTTACAAGAAAATAAATAA MYTTYGKIAIFILFTILLSGCLYPDNELSKNQVPNEDQLEAVQSAVEQYREQEGGLVPIRTKDNETPIFQKYLVDFPKLKEANVLTEIPANAFENGGVYQYALITPEKKPRVKLIDLRISEAIRSVNIKLDIYRDEHMYPPFKEEIADGIYTIDYEKLGLENPPTVVSPYSKENLPIVMNTEGELYVDYRIDLNQALKTEKHKYENGDDIRYLLANSTPFVPAYSLPYTIKNGEPVFLQENK NA NA NA NA NA AK015_02205 198 hypothetical protein GTGTCACAAGCAATGCTGAAAATGTATATATCATTTGCGGGTATGGCTCTTTTGCTCGTTGCAATCGGCCTTATTTTATTGGCAAGGTATAAACTTAAAGGGTGGTTAGCGGGAGTAGTGTCGTTACTCGCATACGTATCATTAATTTTTGGAAGTCTTATTATCTTTTATATTGTATTTAGCGGCCCATCGGCTTAG MSQAMLKMYISFAGMALLLVAIGLILLARYKLKGWLAGVVSLLAYVSLIFGSLIIFYIVFSGPSA NA NA NA NA NA AK015_02206 261 hypothetical protein GTGAATAATTTTCAAAAAGGACTTTTTGACAAAATTCAACAAAAATCAAGCATTAATCCAGATGATGTTTACAAAGTGGCTGATTCTGTGAAACATGCAGACTTTTCGGATGAAAGAACCGTACGTAAGCTTGTTCGCCAATTAAGCAAACTAGCGAATAAACCTATCTCCAAAGAAAAAGAAGACAAAATTGTTCAGTCTATTGTAAAAAATGATATGCCCATGGATATGAATTCACTAAATAAAATGTTTAAAAAATAA MNNFQKGLFDKIQQKSSINPDDVYKVADSVKHADFSDERTVRKLVRQLSKLANKPISKEKEDKIVQSIVKNDMPMDMNSLNKMFKK NA NA NA NA NA AK015_02207 1038 gpsA Glycerol-3-phosphate dehydrogenase [NAD(P)+] ATGGCAAGAGTAGCTGTATTAGGAGCTGGAAGTTGGGGAACAGCTTTAAGTATCGTACTAGCTGATAATGGACATGATGTGCGCCTATGGACACATCGACCTGAGCAAGCAAAAAAAATAAATAAAACAAAAAGAAATGAGCAATATTTAGATACAGACATACCAGCATCTGTTATCGCTTATTCTGATTTGAAGCAAGCAATTCAAGATGCAGTTGCGATTGTTTTTGTAGTACCTACAAAGGCAATCCGTGAGGTCGCAAAGCAGTTAGATCATCTAGTGGAACCAGATACAACAATTATCCATGCTTCAAAAGGGATTGAACCTGTTACTTTAAAACGTGTTTCACAGATGATTAGTGAAGAATTATCTAAGTTTACGGAAGAAGAAATAGTTGTTCTTTCCGGCCCAAGTCATGCAGAAGAAGTGGCTCTGCGACAACCAACAACGGTAACTGTTTCTTCCATTGAACCAAAACATGCAAAAATTGCACAAGATTTGTTTATAAATGAATCATTTCGCGTTTATACTAGCCCGGATGTATTAGGAATTGAGTTCGGCGGCGCTCTAAAGAATATTATCGCCTTAGGGGCGGGAATTTCTGATGGTCTAGGTTATGGTGATAATGCAAAAGCAGCTTTGATGACAAGAGGACTTGCTGAAATAGCTAGATTAGGCACATCATTAGGAGCCAACCCTTTAAGCTTTCTCGGTTTACCAGGAGTTGGCGATTTAATTGTTACTTGCACAAGTGCGCATAGCAGAAACTGGCGTGCTGGAAACTTATTAGGAAAAGGGCATAAATTAGACGATGTTCTTGAGCAAATGGGGATGGTGGTCGAAGGTGTAAGGACTGTTCAGGCAGCTTATCAATTTGCAAAAGAACAGCAGGTTGAAATGCCAATAACAGAAGGTATTTTTCAATTGTTATTTGAAGATAAATCACCAAAAGATGTTGTTGGCCAATTGATGAATCGAAACAAACGACAAGAAATGGACGACCTCGCCCAATTATTGATGGAAAGGTATTCGCAATAA MARVAVLGAGSWGTALSIVLADNGHDVRLWTHRPEQAKKINKTKRNEQYLDTDIPASVIAYSDLKQAIQDAVAIVFVVPTKAIREVAKQLDHLVEPDTTIIHASKGIEPVTLKRVSQMISEELSKFTEEEIVVLSGPSHAEEVALRQPTTVTVSSIEPKHAKIAQDLFINESFRVYTSPDVLGIEFGGALKNIIALGAGISDGLGYGDNAKAALMTRGLAEIARLGTSLGANPLSFLGLPGVGDLIVTCTSAHSRNWRAGNLLGKGHKLDDVLEQMGMVVEGVRTVQAAYQFAKEQQVEMPITEGIFQLLFEDKSPKDVVGQLMNRNKRQEMDDLAQLLMERYSQ PGPT0024330_818 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057 NA NA AK015_02208 1311 der_1 COG1160 GTPase Der ATGAGGAAAGCAACAGTAGCAATAGTAGGAAGACCAAATGTTGGAAAATCAACTATTTTTAATAGATTAGTTGGCGAGCGCATATCCATTGTTGAAGATATTCCTGGGGTGACAAGGGATAGGATTTATGCTGAAGCGGAATGGCTTACTACCCGTTTTAATCTTATTGATACAGGAGGGATTGAAGTTGGAGACGAGCCACTTTTAGTGAAAATGCGCCAGCAGGCTGAAGTAGCAATTGATGAAGCAGATGTCATTATTTTTTTAGTAAATGGCAGAGAAGGTATTACCGCTGCAGATGAAGAAGTTGCAAAATTGCTATATAAATCAAACAAGCCTGTTGTTTTAGGGGTTAATAAAGTCGATAACCCAGAAATGAGAGAAACAATTTATGAATACTATGCACTAGGGTTTGGTGAACCATTTCCAATCTCAGGGTCCCACGGATTAGGGTTAGGAGATTTATTGGATGAAGTGGTAAGCCATTTCCCCGAATTGGATATGAGTGAAAAAGATGAAGATACAATTTATTTCAGTGTTATCGGACGTCCAAATGTTGGTAAATCTTCATTAGTGAACGCGCTACTCAATGAAGAGCGTGTAATCGTTAGTGATATTGAAGGAACAACAAGAGACGCCGTCGATACAAAACTGCATAGAGATAACCAAGATTATGTTATTATTGATACAGCTGGAATGAGAAAACGTGGGAAAGTCTATGAAACGACAGAAAAGTATAGCGTGTTACGCGCATTAAAAGCGATTGATCGCTCGGATGTTGTGTTAGTTTTAATTGATGCAGAAACAGGCATACGTGAACAGGATAAACGCATTGCAGGTTATGCACATGAAGCTGGTAGGGCAGTAGTTATTGTAGTTAATAAATGGGATACGATTACAAGTAATGAAAAAGCAATGAAAGAATTTGAAGAACAAGTGCGAGCTCATTTTCAATATTTAGACTATGCGCCTATTGTATTTTTATCGGCTAAAACAAAAAAGCGCCTGCATACATTACTTCCTGCTATACAATTGGCCAGTGAAAATCATACGAAGCGAGTGCCAACAAATGTGTTAAATGATGTTGTTATGGATGCCCTTGCTATGAACCCGACACCAACTGTAAAAGGGAAAAGATTAAAGGTACTATATGCTACACAAGTGAATGTAAAACCTCCACGTTTTGTTATCTTTGTGAATGAACCAGAACTTGTTCATTTTTCTTTTGCCAGGTTTGTAGAAAATAGAATTAGAGAAGCTTTTGGCTTTGTAGGTACACCTATTAAAATAATTGCGAGAAAAAGACAATAA MRKATVAIVGRPNVGKSTIFNRLVGERISIVEDIPGVTRDRIYAEAEWLTTRFNLIDTGGIEVGDEPLLVKMRQQAEVAIDEADVIIFLVNGREGITAADEEVAKLLYKSNKPVVLGVNKVDNPEMRETIYEYYALGFGEPFPISGSHGLGLGDLLDEVVSHFPELDMSEKDEDTIYFSVIGRPNVGKSSLVNALLNEERVIVSDIEGTTRDAVDTKLHRDNQDYVIIDTAGMRKRGKVYETTEKYSVLRALKAIDRSDVVLVLIDAETGIREQDKRIAGYAHEAGRAVVIVVNKWDTITSNEKAMKEFEEQVRAHFQYLDYAPIVFLSAKTKKRLHTLLPAIQLASENHTKRVPTNVLNDVVMDALAMNPTPTVKGKRLKVLYATQVNVKPPRFVIFVNEPELVHFSFARFVENRIREAFGFVGTPIKIIARKRQ NA NA NA NA NA AK015_02209 186 hypothetical protein ATGGAAATAGAAAAGGCTATATTAGCTGTCATTACAACAAATTCTTCCATTGTTGAAGGTGGCGCACCAATTTTCATCTGTGAAACTCGAAAAGAAGCAGAGGATATATCTGCTAATTTAGAAGCAATTACGGACGGGATTGCTCATGAATTAAGTGAAGAGTTATTTATTATCGTAAAACATTGA MEIEKAILAVITTNSSIVEGGAPIFICETRKEAEDISANLEAITDGIAHELSEELFIIVKH NA NA NA NA NA AK015_02210 885 hypothetical protein ATGAATGAGTATACGATGCCAATTTTATTTGGAGTAATCATTGGAACTTTAGCACGTATTTTAATGTTAAGAACCGATTATAGGCAATATCCTACTTATTTACATGGAAAAGTGATTCACGTGTCTTTAGGTTTTATTGCTGCCTCACTAGGCTCTGTTGCCATTCCAGCCATTATGGAGTTAGAATTTACGGCGGTTACATTTTTGACTGTTGCTGCAACGCAATTTAGGGAAGTAAGAAATATGGAAAGAAACACACTAACGGAAGTTGATAGTTTTGAATTAGTACCAAGGGGAAAGACTTATATTGAGGGTATCGCTATTTCGTTTGAAAGTAGGAATTACTTAGTTATTTTTACTTCCTTTATAACTACATTAACATTTATTATATTTAATGTTTATGTAGCATTATTTGCAGCGATATGCTCTGTTACTGTTTCAATGATTTTAATGAGCGGTAAAACAATGAAAAATATTGTACAAATAGATCATCACCCACTCCATTTCAAGGGTGCTGGTTTATATGTGGACAATATTTATATTATGAATATTGGTTTACCTGAAAGACAGGAAGAAATTTTAAAATACGGTTTAGGCTTTGTTCTCACCCCTAATAATATTAATACCATAACTACAATTGCGAATTTGGGACAACGACAAGCCATCTTGCACGACGTTTCCGTAACTTTAGGCGTATTTAGAGATTCAGGAACTCCAGCACTGACTCCGTTAATTAAGCGGGATTTAGATGATGGACGAATTGGAATATTTATACTACCACAAATAAGAGATGTTAAAAAAGCAAAAAAAGTTATTGGATCTGTCCCCATACTGGAAAGCGCCATACGCATGCCATCTGAATCCGCTTTTACAAGAAAAACTTGA MNEYTMPILFGVIIGTLARILMLRTDYRQYPTYLHGKVIHVSLGFIAASLGSVAIPAIMELEFTAVTFLTVAATQFREVRNMERNTLTEVDSFELVPRGKTYIEGIAISFESRNYLVIFTSFITTLTFIIFNVYVALFAAICSVTVSMILMSGKTMKNIVQIDHHPLHFKGAGLYVDNIYIMNIGLPERQEEILKYGLGFVLTPNNINTITTIANLGQRQAILHDVSVTLGVFRDSGTPALTPLIKRDLDDGRIGIFILPQIRDVKKAKKVIGSVPILESAIRMPSESAFTRKT NA NA NA NA NA AK015_02211 1137 ypfD COG0539 30S ribosomal protein S1 ATGAATGAAGAAGCAAACAATGAACAAATCAATGTAGCTGTAGGAGATACAGTAACCGGAACAGCAGTAAAAGTGGAAGATAAACAAGTACTCGTTGATTTCGGATACAAAACGGAAGGGATTTTACCAATCGGTGAACTTTCCAATCTTCATATTGAAGCTGCTAGTGACGTTGTAAGTGAAGGAGACACATTGACATTAAAAGTAAAGAAAGTCGAAGAAGATGATGTTATCTTATCCAAAAAAGCTGTAGATGCTGAGAAAGCTTGGAAGGATCTTCAAGAGAAGTTTGAAAGTGGAGAAGTTTTTGAGACGCAAGTAAAAGAAGTTGTCAATGGCGGTTTAGTTGTTGACGTCGGACTACGTGGGTTTATCCCAGCTTCTTTAGTAGAGACATATTATGTTGAAGACTTTAATAATTATAAGGATAAAACACTTACAGTTAAAGTAGTTGATCTTGTTCGTGATCAAAATAGAGTTATTCTATCTCATAAAGCTGTTGAAGAAGAAAAATTACAAGAAAAGAAACAGTCATTGCTTAAATCATTAGAACCAGGACAAGTTATCCAAGGCACCGTACAACGTATTACTGACTTTGGGGTCTTTGTGGATATTGGTGGAGTAGACGGTTTAGTTCATATTTCACAATTAGCTCATGAGCATGTGAAACATCCCTCTGATGTTGTACAAGAAGGTGACAGCATAGAAGTAGAAGTTTTGTCTGTAGATCCAGATAGTGAGAGAATCTCTCTATCGAGAAAAAATGCCTTACCTGGTCCTTGGTCTGGAATTGGGACACGTATTTCTCAAGGAGATGTGTTAGATGGAACAGTAAAACGTTTAGTAAACTTTGGTGCTTTTGTCGAAATTGAGCCAGGAGTAGAAGGTTTAGTTCATATTTCACAAATCGCCACACGTCATATTGGTACACCACAGGAAGTTCTTGAACCTGGACAACCGGTGAAAGTAAAAGTACTTGATGTTAATGAAAAAGAAGAACGCATCTCTTTAAGTATTAGAGAATTAGAACAAGAACAAGAAGAAAAAGAATATAGTCAATATGAAAAAGACGATGACCAATCTGGTTTTCATATAAGCGATTTTATTGGTGATAAATTAGATAAATATAAACAATAA MNEEANNEQINVAVGDTVTGTAVKVEDKQVLVDFGYKTEGILPIGELSNLHIEAASDVVSEGDTLTLKVKKVEEDDVILSKKAVDAEKAWKDLQEKFESGEVFETQVKEVVNGGLVVDVGLRGFIPASLVETYYVEDFNNYKDKTLTVKVVDLVRDQNRVILSHKAVEEEKLQEKKQSLLKSLEPGQVIQGTVQRITDFGVFVDIGGVDGLVHISQLAHEHVKHPSDVVQEGDSIEVEVLSVDPDSERISLSRKNALPGPWSGIGTRISQGDVLDGTVKRLVNFGAFVEIEPGVEGLVHISQIATRHIGTPQEVLEPGQPVKVKVLDVNEKEERISLSIRELEQEQEEKEYSQYEKDDDQSGFHISDFIGDKLDKYKQ PGPT0007615_9 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527 NA NA AK015_02212 585 plsC_2 COG0204 1-acyl-sn-glycerol-3-phosphate acyltransferase ATGAACTTGTATCGTATAGCAAAATGGGTTGTCTCTATTATTTTTTATCCACTTTTTCGTATTCAAGTAATCGGGAAAGAAAATGTCCCTAAAACAGGCCCTGTTATCATTTGTTCCAATCATATTTCTAATTATGATCCTCCAGTCGTGGGAATCACTTCTCCAAGAAGTATTTATTTTATGGCTAAAGGGGAGTTGTTTGATAATCCTTTACTAGGGAAATTATTAATAGGTATTCAGGCTTTTCCAGTAAAACGGGGCATGAGTGATCGAAATGCTTTAAGGAAAGGGTTGCAAATTTTAAAAGAAGGCCATACACTAGGGTTATTTCCAGAAGGAACAAGAAGTAGGACTGGAGAATTAAGTAAGCCACTTGCTGGGGCTGGTTTTTTTGCTTTACGCTCCAATGCAACTATTGTTCCTTGTGCCATTATCGGTAATTATAAACCATTTAAACAGTTAAAGGTTATCTATGGAAAACCTATCCCTATGGACGAATGTCGAAAAACAAAAAAAGCAACCGCTCAAGAAACAGCAGATTTGATTATGGAAGAAATTCAAAAATTATTAGATCTTAATAAATAA MNLYRIAKWVVSIIFYPLFRIQVIGKENVPKTGPVIICSNHISNYDPPVVGITSPRSIYFMAKGELFDNPLLGKLLIGIQAFPVKRGMSDRNALRKGLQILKEGHTLGLFPEGTRSRTGELSKPLAGAGFFALRSNATIVPCAIIGNYKPFKQLKVIYGKPIPMDECRKTKKATAQETADLIMEEIQKLLDLNK PGPT0024380_7103 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK015_02213 669 cmk COG0283 Cytidylate kinase ATGAAGAGATTAATAACTATTGCCATTGATGGACCTGCAGCAGCAGGAAAAAGTACTGTAGCAAAAATTGTAGCTGAGAAGCTATCATGTATTTACATTGATACAGGAGCAATGTATCGAGCACTTACTTGGAAAGCGTTGAAGAATTCTGTTAATGTTAATAACGAAGAGGCGCTTATTGAATTATTAGAGAGCACTGATATCATGTTAAAGCAAAATAGCCGTGGGCAACTTGTTTTTGTCGATGAGGAAGACGTAACCTATGATATTCGATCAAATGAAGTAACAAATAACGTATCATATGTTGCAAAACATCCTAAGATTAGAGAAGAAATGGTACGTCGTCAACAAATGCTTGCTAAACATCGAGGAGTTGTAATGGATGGACGTGATATTGGAACGCATGTACTTCCTAATGCAGATATAAAAATATTTTTAATTGCTTCTGTTGAAGAAAGAGCGAAAAGAAGATATGAAGAAAATATTAAAAAAGGAATTCATGCTGACTTGAACGAACTAAAAAAAGAAATAGAACAAAGAGATGAGATCGATTCAAAACGAGAAGCATCGCCGTTAATAAAAGCAAAGGACGCCATTGAAATTGATACAACTTCTTTGTCCATTCAAGAAGTTGCGGAACGCATACTCCTCATAGCGAAAGACATTTAG MKRLITIAIDGPAAAGKSTVAKIVAEKLSCIYIDTGAMYRALTWKALKNSVNVNNEEALIELLESTDIMLKQNSRGQLVFVDEEDVTYDIRSNEVTNNVSYVAKHPKIREEMVRRQQMLAKHRGVVMDGRDIGTHVLPNADIKIFLIASVEERAKRRYEENIKKGIHADLNELKKEIEQRDEIDSKREASPLIKAKDAIEIDTTSLSIQEVAERILLIAKDI PGPT0021220_2870 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945 NA NA AK015_02214 687 ypfA COG5581 putative protein YpfA ATGAAAATAGGAACGATGTTTCAATTAGAAGTCATGCAATCCAAAAAAAAAGGAAGTGATAAGGCAAACCAATACCGGTGTAAATTAATTGATAAAAATGAGCAATATATTTTTATTGATTTTCCTGTAAATATAAAGTCAAAAAAAACAGCTGTCTTTGCAAAAGGAACGGTATTTGAAGTCACTTTTGTTGGAGATGATGAAGTGATTTATAAATTTCGTTCTAAATTAATAACCAAAATAAAAGGTAAGATTCCTTCTTTAGCAATTCAAAAACCTGACAACGTTCATCGTATTCAGCGACGAAATTTTATCCGAGTGGAAACAGCTGTTGATGTTGCGGTACATTCAGACCAAAACCTTTTCCCACCGTTTATTACAGTAACCAATGATGTTGGTGCCGGAGGTTTGTCTTTAATCGTACCTAAAAACCAGTCTATTCTTGGGGAAATAGCAGAATTATGGTTAGTTTTACCAATGTCTAAAGGGGCTTTTTTGTACCCAAATATACGTGCCAAGCTTGTGCATCAAGAGAAGGAAAATAACAAAATTACTATAGCCTCTTTTCAATTTTTAACATTAGATACTAAAATGGAGCAATTTTTGATACGATTTTGTTTTGAAAAGCAACGAGAAGCAAGAAAAAAACAGCTATTTGATCAATCTTATGGCATAATAAAAAAATAA MKIGTMFQLEVMQSKKKGSDKANQYRCKLIDKNEQYIFIDFPVNIKSKKTAVFAKGTVFEVTFVGDDEVIYKFRSKLITKIKGKIPSLAIQKPDNVHRIQRRNFIRVETAVDVAVHSDQNLFPPFITVTNDVGAGGLSLIVPKNQSILGEIAELWLVLPMSKGAFLYPNIRAKLVHQEKENNKITIASFQFLTLDTKMEQFLIRFCFEKQREARKKQLFDQSYGIIKK NA NA NA NA NA AK015_02215 1341 ypeB Sporulation protein YpeB ATGATCCGCTGGATACTAATTGCCGTACTTGCTATAGGCGTTATAGGAACAGGGTTTTGGGGGTATCAGGAGCATCAAGAAAAAAACGCGGTTCTCATTCAAGCTGAAAACACATATCAGCGAGCATTTCATGATTTAACCTACAGAGTTGACGTATTAAACGATAAGATTGGCTCTGCTTTAGCTATGAACTCTAATCAACAATTATCACCGCAACTTGTTGAAATTTGGCGAATTACTTCGGAAGCATTATCTGATGTTGGGCAATTACCACTAGGATTATTACCATTTAATAAGACAGAAGAATTTTTAGCTGATATTGGGGAGTTTACCTACCGTACGGCAGTGCGTGATTTAAAAAAAGAACCATTATCATCTCAGGAAACAAAAGCTTTAGAAAAGCTATACAAGCAATCGGGTGAAATTAAAGATGAGCTAAGAAAAGTTCAACATACAACACTAGAAAACAACTTACGCTGGATGGACGTGCAGCTTGCTTTAGCTAATGAAGATCAGCAGATGGATAATACGATAATTGATGGTTTTAAAACGGTAGAGAAAAAAGTGGATGGGTTTACTGAAGGAGGCGGTAATGCATCTACATCAAATAAAACAGTACGAGACCACGAATTTAAATTTTTAACAGGCAATCAAATGACAAAAGAGAATGCTCTTACAAAAGCGAGCAATCTTTTAGGCGTAAAAGATAAAGATAAACTTCGAATTACTGAAAGCGGAAAGGGAGCAGAGGTCCCTGTATATAGTATTTCCTATCAAAATGGGGAAGAAAGTGGCTATTTAGATTTATCTCAAAAAGGTGGCCATCCATTTACCCTATTAATTAATAGGCCTATAAAACAAAAGAAGATCAGTTTAAATGCAGCTATGAGGAAAGCAGAAAAATATTTAAAAAAGAACCAATTTGAAGATATGACTGTTTTCCAAAGCGCTCAGTATGGAGATATCGGAGCATTTTCTTTCTTATATAATAAAGCCGGTATCCGCTATTATTCCGATGCGTTAGAGGTCAAAGTAGCATTAGATAATGGAGAAATACTCGGTCTAACAGCTATTGATTACTTTATGAATCATGGTGACAGGGAAAAAGTTGAACCTAAAATCAGTGTAGATGAAGCAAGAGAAATGGTTAATCCAAATGTTGATATTCAAGAAGAATATTTAGCTGTTATTGACAATGATCTTGGTGAAGAAGTGTTAACATATGAATTTTTAGGAACCATGGGAAATGAAACATACCGTATTTTTATCAATGCTATTGATGGACGAGAAGAACAAATAGAAAAATTAAGTGGTTCAGAAGTTAATTATGCTAGAGGTTGA MIRWILIAVLAIGVIGTGFWGYQEHQEKNAVLIQAENTYQRAFHDLTYRVDVLNDKIGSALAMNSNQQLSPQLVEIWRITSEALSDVGQLPLGLLPFNKTEEFLADIGEFTYRTAVRDLKKEPLSSQETKALEKLYKQSGEIKDELRKVQHTTLENNLRWMDVQLALANEDQQMDNTIIDGFKTVEKKVDGFTEGGGNASTSNKTVRDHEFKFLTGNQMTKENALTKASNLLGVKDKDKLRITESGKGAEVPVYSISYQNGEESGYLDLSQKGGHPFTLLINRPIKQKKISLNAAMRKAEKYLKKNQFEDMTVFQSAQYGDIGAFSFLYNKAGIRYYSDALEVKVALDNGEILGLTAIDYFMNHGDREKVEPKISVDEAREMVNPNVDIQEEYLAVIDNDLGEEVLTYEFLGTMGNETYRIFINAIDGREEQIEKLSGSEVNYARG PGPT0025130_273 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025130-ypeB-K06313 NA NA AK015_02216 834 sleB COG3409 Spore cortex-lytic enzyme ATGATGGAGAAAAAACTGACAATTATATTATGCCTTATCAGTTTTTTATTTCTTGGAATGAATGTAATACAGACGGAAAAAACAGCGCATGCATTTAGTTCTCAAGTAATTCAACATGGCGCTGTTGGTGATGATGTAATTGAATTACAAGCAAGATTACAATATTTAGGTTTTTATAACGGACAGATAGATGGTGTATTTGGATGGGGGACGTATTGGGCATTACGCAATTTCCAATATGAGTTTGGGCTTGGGATAGACGGATTAGCTGGGCAAGATACTAAACAAAAACTTACAAAGGCCAGTGAATATGATGAAAACTATGTAAAGCAACAAATTAATCAAGGTAAAAAATTCACGCATTATGGTGGCGAAAAGAGAAATAAAGAATCTACTAGTAAGAACAAAGGTGAAACAAATAATAATCAAGGGCAGGGCGATCAAGGAAGTAACACTGCTGTCAATGTACCGCAAGGGTACTCGCAAAACGACATACAGTTAATGGCAAATGCTGTTCATGGAGAAGCAAGAGGAGAACCTTATGTAGGCCAAGTAGCTGTAGCAGCCGTTATTCTAAATCGGGTAGAGAGTGCTACATTTCCAAATACTGTATCCGGTGTTATTTTTGAACCACGCGCTTTTACCGCTGTTGCAGATGGACAAATTTGGTTAACACCTAATGAGACTGCGAAGGAAGCAGTGTTAGACGCTATTAACGGTTGGGATCCATCTGGAAATGCAATATATTATTTTAATCCAGATACTGCAACATCAGGCTGGATTTGGACAAGACCACAAATTAAAAAAATCGGAAAGCATATATTTGCGAAATAG MMEKKLTIILCLISFLFLGMNVIQTEKTAHAFSSQVIQHGAVGDDVIELQARLQYLGFYNGQIDGVFGWGTYWALRNFQYEFGLGIDGLAGQDTKQKLTKASEYDENYVKQQINQGKKFTHYGGEKRNKESTSKNKGETNNNQGQGDQGSNTAVNVPQGYSQNDIQLMANAVHGEARGEPYVGQVAVAAVILNRVESATFPNTVSGVIFEPRAFTAVADGQIWLTPNETAKEAVLDAINGWDPSGNAIYYFNPDTATSGWIWTRPQIKKIGKHIFAK NA NA NA NA NA AK015_02217 690 prsW COG2339 Protease PrsW ATGTTTTCTATATTATCTGCTGGTGTTGCGCCAGCTTTGGCTTTAATGTCATTTTTTTATTTAAAAGACCGTTTCTCTGAACCAATAACTCTAATTGCGAGAAACTTTATTTTTGGAATGTTGTTAGTTTTCCCTATCATGTTTATACAATATGTTTTTCAAGCAGAAGGTATTATTAATCATCCAGTTAGTGAATCGTTTTTGCTTGTTGGGCTCTTAGAGGAATTCTTTAAATGGTTTATTTTCATGTACGCTATTTATCATCATGCTGAATTTGATGCGCATTATGATGGTATTGTATATGCTGTTGCTATAAGTCTTGGTTTTGCAACATTAGAAAATATTTTATACTTATTTACTAACGGAATTAATTATGCCTTTATTCGGGCTTTCTTCCCTGTATCTTCACATGCTTTATTTGGTGTAATTATGGGCTATTACTTTGGAAAAGCTAAAATATATTCTTTACATAAACGCCGCAATATTTTCTTAGCATTTTTTATACCGTATGTACTACACGCCATATATCACTATATTCTTACAATAGTTTCTAGTAATTGGGTTGTTGTTTTAGTACCATTCATGATTTTTTTATGGGTTATCGCATTACATAGAATGAAAATTGCTAATCTGTCACCACATGCTTTACGTAAAACTTGCGAAAAAAAGAAAGAAAACCATGCAATTTAA MFSILSAGVAPALALMSFFYLKDRFSEPITLIARNFIFGMLLVFPIMFIQYVFQAEGIINHPVSESFLLVGLLEEFFKWFIFMYAIYHHAEFDAHYDGIVYAVAISLGFATLENILYLFTNGINYAFIRAFFPVSSHALFGVIMGYYFGKAKIYSLHKRRNIFLAFFIPYVLHAIYHYILTIVSSNWVVVLVPFMIFLWVIALHRMKIANLSPHALRKTCEKKKENHAI NA NA NA NA NA AK015_02218 975 ansZ COG0252 L-asparaginase 2 TTGAAAAATAAAAAGGTGATACTAATTGCTACTGGAGGCACCATCGCAAGCGAAAAAAAGGAAGATACTGGGCTGTTGCAATCTGGTGTCATCTCAGGTGAAGAGATTGTTCAGTACTGTGATATACCTAAACATATTGACTTACAAGTCGAATCCATGCTACAAAAAGCCAGCATGCATCTTTCGTTTGACGATTTATTAGCTATAAAAGAACGAATAGATCTGCATTTAGCGAATGATCAAGTTTCAGGTGTTGTTATTACCCAAGGAACAGATACATTAGAAGAAACTTCTTATTTTATGAACTTAATTACAAATCATGAAAAGCCTATTGTGTTTACAGGTTCACAGCGATCACCGAGAGAAGTTGGAACAGATGCTTTTATTAATATTAAACATGCTGTTTTAACTGCGTCTAGTAAGGATTTATACAATGTTGGTGTTGTTGTCGTATTTAATGAAAGAATATTTCATTCTCGTTATGTAAAAAAAGAGCATGCTTCCAATGTACAGGGGTTTAATTCGTTTGGTTTTGGATATTTAGGAATTATAGATAACGAATCTGTACATATATTTCAAAAACCGATTGGAAATGAGTACTATAAATTGACAAATATGATACCTGAAGTTGACATTATTAAATGTTATATGCAAGCAGACGACAAATATATCCGAGCAGCTAGAGAAGCTAAGGTAGATGGCATTATTTTAGAAGGTGTTGGTAGAGGGCAAGTATCGCCTGGAATGATGACCGAAATTAAACGTTGTGTTAAATTAGGAATCATTGTAGTTATTACAACTTCTGCAGTTGAAGGTGAAGTATACACCACGTATGATTATAAGGGAAGTACCTTTGATTTAAAACAAGCTGGTGTTATTTTGGGAAGAGATTATGACAGTAAAAAAGCTCGTATAAAATTAATGGTTGGATTAGCTAGTGAACAGAGAGATATAACTGCATTGTTTGCTGTTTAA MKNKKVILIATGGTIASEKKEDTGLLQSGVISGEEIVQYCDIPKHIDLQVESMLQKASMHLSFDDLLAIKERIDLHLANDQVSGVVITQGTDTLEETSYFMNLITNHEKPIVFTGSQRSPREVGTDAFINIKHAVLTASSKDLYNVGVVVVFNERIFHSRYVKKEHASNVQGFNSFGFGYLGIIDNESVHIFQKPIGNEYYKLTNMIPEVDIIKCYMQADDKYIRAAREAKVDGIILEGVGRGQVSPGMMTEIKRCVKLGIIVVITTSAVEGEVYTTYDYKGSTFDLKQAGVILGRDYDSKKARIKLMVGLASEQRDITALFAV PGPT0020180_3207 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 AK015_02219 966 ahpF_2 NADH dehydrogenase ATGCAACAAGAAAAAGTGATTGTCATTGGTGGAGGACCATGCGGAATGTCTGCCGCAATTGAATTGCAAAATCTAGGTATACAACCATTAATTATCGAAAAGGGAAATATTGTAGATGCTATTTATCATTACCCTACACATCAAACATTCTTTAGTTCAAGTGATAGATTGGAAATTGGGGACGTTGCTTTCATTACAGAAGAGCATAAACCAGTACGTAATCAAGCACTTTCTTATTATCGTGCTGTAGCACAACGTAAACAGTTGAGAATTCATACATTTGAGCAAGTAACAAAAGTGGAACGAATGGATGATGATTTCCGTGTTGTTACGACAAAACAAGCATATAAAGCAAAGCAAGTAGTGATAGCTACTGGTTATTATGGACAGCCAAATATGATGGATATACCTGGCGAGGAACTTCCTAAAGTATCACATTATTTCAAAGAAGCTCACCCATACTTTCGTAAAAATGTAGCGGTTATTGGTGGAAAAAACTCAGCTGTAGATGCAGCAATGGAGCTTCACAAAGCTGGTGCGCATGTTACGGTACTCTATCGCGGGAGTAAATATTCAGATAGTATAAAGCCGTGGATACTACCTGAGTTTGATTCGCTTGTAAGAAAAGAAAAAGTAAATATGATTTTTAATGCACATATATGTGAAATCACTCATAATTCATTAATTTACGAAGTCAATCAACAAGCATATCGTTTGTCAAATGACTTTGTATTTGCAATGACAGGCTATCATCCTGATTTTTCATTACTTACTTCCACAGGTATAGAAGTGAATGATACGACAGGTGTGCCCAACTATGATGAAATAACATATGAAACAAATATATCTGGCGTTTACATTGCTGGAGTGGTAGCTGCTGGATTTAATAATAACAAAATTTTTATTGAAAATGGGCGTTTTCATGGAGAAGCAATTGCTCAGTCTATTTCATCAAAATTAAACTAA MQQEKVIVIGGGPCGMSAAIELQNLGIQPLIIEKGNIVDAIYHYPTHQTFFSSSDRLEIGDVAFITEEHKPVRNQALSYYRAVAQRKQLRIHTFEQVTKVERMDDDFRVVTTKQAYKAKQVVIATGYYGQPNMMDIPGEELPKVSHYFKEAHPYFRKNVAVIGGKNSAVDAAMELHKAGAHVTVLYRGSKYSDSIKPWILPEFDSLVRKEKVNMIFNAHICEITHNSLIYEVNQQAYRLSNDFVFAMTGYHPDFSLLTSTGIEVNDTTGVPNYDEITYETNISGVYIAGVVAAGFNNNKIFIENGRFHGEAIAQSISSKLN PGPT0013060_4822 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK015_02220 1281 gudB COG0334 Cryptic catabolic NAD-specific glutamate dehydrogenase GudB ATGGTAGCCGATAACGCAGCAGATTCTACCAAAGAAGTAAATGAAAAAATGGATGTATTAAGTTCAACACGAGCTGTTGTAAAAACTGCATTGGAGAAACTGGGTTACCCTGAGGAAGTCTTTGAACTATTCAAAGACCCTGTTCGGATGATGACAGTCCGTATTCCAGTGCGCATGGATGATGGATCCATTAAAGTATTTACTGGATACCGCGCTCAACACAATGATGCTGTTGGTCCGACAAAGGGCGGTGTAAGATTCCATCCAGATGTCACTGAAAAAGAAGTGAAAGCATTATCTATTTGGATGAGTTTAAAGGCGGGCATTGTCAACCTTCCTTATGGTGGGGGAAAAGGTGGTATTATTTGTGATCCTCGTGAAATGTCATTTCGGGAGTTAGAAGGACTTAGTAGAGGGTATGTACGTGCAATTAGTCAAATTGTAGGGCCAACAAAAGATATACCCGCACCAGACGTTTTTACTAATTCACAGATTATGGCTTGGATGATGGATGAGTATAGCCGCATTGACGAATTCAACAGTCCAGGTTTTATTACTGGTAAGCCAATAGTTCTTGGTGGATCACATGGAAGAGAATCTGCAACTGCAAAGGGTGTAACAATTTGCATTAATGAAGCTGCTAAAAAGAAAGGGCTTGATGTAAAGGGAGCGAGAGTAATCGTTCAAGGGTTTGGAAATGCAGGAAGTTTCCTATCAAAGTTTTTGCACGATGCAGGAGCTAAGGTAGTAGGTATTTCCGATGCTTACGGCGGTCTTTACGATTCAGAAGGACTAGATATTGATTATTTATTAGATCGCAGGGATAGCTTTGGAACCGTCACCAAACTTTTTAACAATACGATTACAAACAAGGAATTGTTAGAAATGGATTGTGATATTCTTGTACCTGCAGCGGTTGAGAATCAAATCACAGACGAAAACGCTTACAAGATTAAGGCTAGTATTGTAGTTGAAGCTGCTAATGGACCGACTACAATGGAAGCAACCAAAATTCTAACAGAACGTGGCATCTTGTTAGTACCAGATGTGCTAGCTTCTGCTGGAGGAGTCACCGTATCTTATTTTGAATGGGTGCAAAATAATCAAGGCTATTATTGGTCAGAAGAAGAAATAGATGTTAAGCTTCATGAAACAATGATTAAAGCATTCAATTCAATCTATAACACTGCTGAAACGAGACGTGTGGATATGCGTTTGGCTGCTTATATGATTGGAGTTCGAAAGATGGCTGAAGCGTCCAGATTCCGCGGTTGGGTTTAA MVADNAADSTKEVNEKMDVLSSTRAVVKTALEKLGYPEEVFELFKDPVRMMTVRIPVRMDDGSIKVFTGYRAQHNDAVGPTKGGVRFHPDVTEKEVKALSIWMSLKAGIVNLPYGGGKGGIICDPREMSFRELEGLSRGYVRAISQIVGPTKDIPAPDVFTNSQIMAWMMDEYSRIDEFNSPGFITGKPIVLGGSHGRESATAKGVTICINEAAKKKGLDVKGARVIVQGFGNAGSFLSKFLHDAGAKVVGISDAYGGLYDSEGLDIDYLLDRRDSFGTVTKLFNNTITNKELLEMDCDILVPAAVENQITDENAYKIKASIVVEAANGPTTMEATKILTERGILLVPDVLASAGGVTVSYFEWVQNNQGYYWSEEEIDVKLHETMIKAFNSIYNTAETRRVDMRLAAYMIGVRKMAEASRFRGWV PGPT0020205_130 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 AK015_02221 579 mecB COG4862 Adapter protein MecA 2 ATGCGAATTGAGAGAGTGTCTAATAACCAATTTACAATCTTTTTGACATTTGATGATTTAATTGAAAGAGGCTTTACAAAAGATGACTTATGGTATGATGGTTCAAATGTTCGGAAATTGTTTAGTGATATGATGTATGAAGCCAGTTCTGAATTAGGCTTTGAACTAGAAGGGGCACTGCTTGTACAAGTGCATTTAATGCAAGCGCAAGGTATGCATGTTATTGTAACGCAAAAATTAGAAGATGTGGACTTTGATGATGAATTTGTGGAAATGAAGGTCACTCTTGATGAAAATAAAAAACTGTTGTTTTCTTTTTGTGATTTGGAAGCTGTTATTGGTGTTGCGTCTTCTTTAGCTTCGATGAATATTACTGGCGGAAAAATATATTACATGGACCCTTATTATTATATGTTGTTAAATGATACGGAGTTAAATGGTGCGAATCGAGAAGATGTCATAGCTGTTTTATCTGAATTTGCTAATCCAAGCATTGTTACTACTTATCGTTTACAAGAATACGGAAAATTGATATTCGCTACCGATGCAGTAAAACAAATTCGTGCTCTATTTGCATAA MRIERVSNNQFTIFLTFDDLIERGFTKDDLWYDGSNVRKLFSDMMYEASSELGFELEGALLVQVHLMQAQGMHVIVTQKLEDVDFDDEFVEMKVTLDENKKLLFSFCDLEAVIGVASSLASMNITGGKIYYMDPYYYMLLNDTELNGANREDVIAVLSEFANPSIVTTYRLQEYGKLIFATDAVKQIRALFA NA NA NA NA NA AK015_02222 354 hypothetical protein ATGAACACAGAACACAACCCAACAAGAGATCAAGCAAAACAATTACGACGCAAAGTTCAAGAAATAAATGAAGCGGAAAGTAATACTATGGAACAAGTACCAGATTCCATACAGGAGATGGATACAGATATTTTGAATTTACCACCAAGGAAAGAGATTCATCAGCAAAAAAAGCAAACTACCCGATTAAAAATAAGTAATCCTACGCAAAGATTCTTATTCATTGTTTTTTTTATCCTACTTATCATCGTTGGTGCTTATTTTATTATAGGCGATAAGTTGTTTACTACCATTTCAATTTATAGCTTTTATTTCGAAGGTGCTATAAAAAGTTATCTTATACCTCATTTATAG MNTEHNPTRDQAKQLRRKVQEINEAESNTMEQVPDSIQEMDTDILNLPPRKEIHQQKKQTTRLKISNPTQRFLFIVFFILLIIVGAYFIIGDKLFTTISIYSFYFEGAIKSYLIPHL NA NA NA NA NA AK015_02223 585 hypothetical protein ATGAAACAAATTGATTATATTAAACGAATGGATAGTGCTGAGCTGCGGAAGCAAATGATTATTTCACAATCGATTCTAATCTTATTTAGCGTTGGCGGGAGTCTTTTGTTCTTTGAATCCTTTTTCGTTTGCTGGAAGGAAATGTTTTTTTGGAATACAGAAGAAATAATTTATTATGGAATTTTGCCAGGTTTTATCATTGTAACGATTGATTTGTTCTTAACGTACACGTTACCCGCTAAATATTACGATGATGGTGGAATAAATGAAAAATTGTTTGCTAACCAGCCTGTTTGGTTTATTGTTACTATTTCCATTTTAGTTGCTCTGTCTGAAGAGATGTTGTTTCGAGGCGTTATTCAGACTACTTTTGGTTATTGGGTGGCAAGTATTCTATTTGCACTTGTACATTTTCGCTATTTAAGAAAGCCTGTATTACTTGTATCCGTGTTGCTTGTTAGTTTTTATTTGGGATATTTATTCCGTATAACGGACAACTTAGTAGTTACAATTACAGCGCATTTTATCGTTGATGTTTTATTAGGCTTTTTCATTCGATTTAAAAGAGAGGTGTGGGTGCGATGA MKQIDYIKRMDSAELRKQMIISQSILILFSVGGSLLFFESFFVCWKEMFFWNTEEIIYYGILPGFIIVTIDLFLTYTLPAKYYDDGGINEKLFANQPVWFIVTISILVALSEEMLFRGVIQTTFGYWVASILFALVHFRYLRKPVLLVSVLLVSFYLGYLFRITDNLVVTITAHFIVDVLLGFFIRFKREVWVR NA NA NA NA NA AK015_02224 1554 srmB ATP-dependent RNA helicase SrmB GTGAAGCAGCCTGTAGATTATTTGGAACAAAATTTAAACCAATTTTTTGGTTATACGTCCTTTCGTCGTGGACAACGAGAAATAATAGAAGATGTTATAGCAGGAAAAAATGTAATTGGTGTGTTGCCAACTGGATCAGGAAAATCAATCTGTTATCAATTGCCTGCAATGTTGCAAGATGGGATAACTATTGTTGTATCACCACTTATTTCATTAATGATGGATCAAGTAAAGCAATTAAAAGCAAAGCATTGGAAGCAAGTAGCAGCAATAAACAGTTTTATGGATCGAAAAGAACGAGAACAAGTATTACAAACATTACATACGTATCGTTTAATTTATGTATCCCCAGAGCTTCTACAACAGGAAATGTTACAAATTAAATTAAAAACATTGAAAGTAAGCTTGTTTGTTATTGATGAAGCTCATTGTATCTCACAGTGGGGACATGAATTCAGGCCTGATTATATGCGTTTACAGCACATTATTACATACTGTAACTATCCACCTATACTAGCGCTCAGTGCTACAGCAACAGCTAAAGTACAAACTGATATTATTCAGTCGTTAGGAAATTCACCTTTTAAAAAACATGTTTATCCCATAGATCGGAGCAATATTGCCCTTTGCATTCAAAAAGTAGACGATGAACATGATAAAATGACAGTATTAACGGCTATTTTCAAGAAATACCATGTACCTGCTTTAATTTATTTTTCAAGCCGTCAAAAAGCGGAAGAAATAGCTGTATTGTTGGCTGAAAGAATTAACCGGCGTGTTGCAGTGTATCATGGGGGAATGGAGCAATATGACCGAATTTCTATTCAGCAACAGTTTATGAACGATCAAATTGACGTGGTTTGTTGTACGAGTGCTTTCGGTATGGGAATTAATAAGGCAGACATCCGGTTAATTATCCATTATCACTTAACAACACAATTGGAAAGTTATATTCAGGAGATTGGTAGAGCAGGAAGAGATGGGAAAGCAAGTGTGAGTGTTTTGCTTTACTGCAGGAAAGATATACATCTACCTAAGTTTATTATTCGTCGCGAACTTCCAGAAATAGATGAATTGGACGCCGTTTTCCAAAAGTTAAAGCAATGGCATGACCAAAAAAACCATTTGCCTTTACAGGAAGAAGAATTATCTGAGCAGCTAGGTATCTCTAGTCAACAGTGGAGATTGATACGTTATCAATTGGAAAGGTATGCAATTATAAGGCAAAGCAATATTTACTTTCATATCGACACTTGGAATAAAGCTTATCAATATATTAGCAACTATATTGAAAAAAGAAACAAAGCAAAAAAATCAAGGTTGAATCAAGTACTAAATTGGATTCACCAAACCGAATGTTTGAGAAAACATTTATATAAAGAATTTACGCCATCATTATTATCTCCTGCTACTGATCAATGTTGTAGTAATTGTGGTTTTTTGTGGGAAAACTGGGATCCTGTACAAAAGAAAACACCGTTTTGTATGAACTATTCCTGGCAGGAAAAACTAAAGCAAAAATTACTCATTGGGGATACTTATGAAACAAATTGA MKQPVDYLEQNLNQFFGYTSFRRGQREIIEDVIAGKNVIGVLPTGSGKSICYQLPAMLQDGITIVVSPLISLMMDQVKQLKAKHWKQVAAINSFMDRKEREQVLQTLHTYRLIYVSPELLQQEMLQIKLKTLKVSLFVIDEAHCISQWGHEFRPDYMRLQHIITYCNYPPILALSATATAKVQTDIIQSLGNSPFKKHVYPIDRSNIALCIQKVDDEHDKMTVLTAIFKKYHVPALIYFSSRQKAEEIAVLLAERINRRVAVYHGGMEQYDRISIQQQFMNDQIDVVCCTSAFGMGINKADIRLIIHYHLTTQLESYIQEIGRAGRDGKASVSVLLYCRKDIHLPKFIIRRELPEIDELDAVFQKLKQWHDQKNHLPLQEEELSEQLGISSQQWRLIRYQLERYAIIRQSNIYFHIDTWNKAYQYISNYIEKRNKAKKSRLNQVLNWIHQTECLRKHLYKEFTPSLLSPATDQCCSNCGFLWENWDPVQKKTPFCMNYSWQEKLKQKLLIGDTYETN NA NA NA NA NA AK015_02225 1065 hypothetical protein TTGATATTGAAAGGGATTATGCTAAGTAGTATCCATAGATTAAAAGGAGAACGATCCACATCAGCAACTTACTATATTATAGCAGGTAGAAAATCGATTCAAACGGTACAAGATATACATATGTATGGGTTAAAGCAATTTTATTCAATATATCCAAAGCTCATAAAATCTTATTTTGATAAAGTAATTTATGAGTTGAAAAAAGAACAATTGATTCAAATTACAGATGGTAATGAAGAAACTTATATACTTTCGTCTATAGGGCTTCAGTGGTTAGAAGATCATAAATTAATATTACCCCTTTCTTATTACTCTGGGATGCAAAATGGAGAAAGTAGTCGTGTATTTTGGCCACGATTAAAATTACTGATTCAAACAATTACGAACGTACATAAAAATGAATTTCATTTTATACCAGTTGTCGAAGATAAAGCAATTGAAGCTTGGGTAAAGCTTTATTATCAACGAATTAAGCTTGACACTTCGTCGTTTTTACAACAATTATACGAAGAATTACTGCAGGTTTTACAAAATCTTCCTAATTATATGGCAGAAATTTTTGTAGATCGACTCACAAGCTTTAAAAATTATGGGAAAAGCGTTCATCAGCTAGCTAGTAGTCATCATTTAACTACAATCGATTTAGAATTAACTTTAACAGCAGCTATGCACCGAATCCTTGATATCATTCGGTCATATAAACAAACTTACTCATTATTGAATGATATCATACAAACAACGGAACCTCGTCGTTTGTCAAATACAGCTATAACTACCTATCAACATTTGCGTGGGGGTTTTTCCATTGAGGAGATTGCCAAGAGGAGAAAATTAAGGATGAATACGATCTATGACCACGTAGTAGAAATTGCACTGCATGATTCTGCGTTCCCAATAGATAATTATGTATCAAAGTGTGATCAAGAAATTATCATTCGGGCATATAACGAAGTGGAGGTCTACAAACTTAAGCTAATAAAGCAAAAAGTACCAGAGCATATTACCTATTTTCAAATTCGTTTAGTTTTAACAATGGTAACCAACACGCAGAAGGTAGGTGATTAG MILKGIMLSSIHRLKGERSTSATYYIIAGRKSIQTVQDIHMYGLKQFYSIYPKLIKSYFDKVIYELKKEQLIQITDGNEETYILSSIGLQWLEDHKLILPLSYYSGMQNGESSRVFWPRLKLLIQTITNVHKNEFHFIPVVEDKAIEAWVKLYYQRIKLDTSSFLQQLYEELLQVLQNLPNYMAEIFVDRLTSFKNYGKSVHQLASSHHLTTIDLELTLTAAMHRILDIIRSYKQTYSLLNDIIQTTEPRRLSNTAITTYQHLRGGFSIEEIAKRRKLRMNTIYDHVVEIALHDSAFPIDNYVSKCDQEIIIRAYNEVEVYKLKLIKQKVPEHITYFQIRLVLTMVTNTQKVGD NA NA NA NA NA AK015_02226 225 Ferredoxin ATGTGTTATTATACCAAAGTTGATAGAGAAACATGTATTGCCTGTGGAGCTTGTGGTATTTCAGCACCAGATTTATATGATTATGACGATGATTGTATTGCTTATTTTTTAAAAGATAACAATCTAGGAGTTACACCTGTTGAAGATGATCTAGTTGATGCAATGTTTGATGCATACGAAGAGTGCCCCACAGGTTCTGTGAAAGTTTCTAAACAGCCATTTTAG MCYYTKVDRETCIACGACGISAPDLYDYDDDCIAYFLKDNNLGVTPVEDDLVDAMFDAYEECPTGSVKVSKQPF PGPT0007360_1303 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 AK015_02227 531 hypothetical protein ATGAACACCTATAAATTAACGCTTATTGCGTTACTAGCGGCACTTGCAGTTGTTGGAAGGTATTGGTTTGCTTTTTTACCAAATGTGCAACCAGTTACGGCAATAATTATTATTACAGGGGTAATCTTAGGGTCGGGGAGCGCATTATTGTTAACAGTTATTGTTGTCTTTGTATCCAATATGCTACTTGGCATGGGGATATGGGCGGTTTGGCAAGCGATCTCATGGGGAGTGATAGGCATTATCAGTGGTTGGATAGGTAAATTTTTTTCACGACCACCGTTTTTGCTGTTGTTAATCTTTACTGTTTTTAGCGGTTATTTTTATGGCTTTATTATCTCGCTGACTACATATCAAATGACTGGTGCATTTTGGCCATATTACATAAGTGGATTACCATTTGATACAAATCATGCTATTGGCAACGCTGTTTTTTTAGTGCTCTTTTATCCTCTTATCGCATATTTAATGGAAAAATATGCGTTACACCGTTTTACAGTAAAAGATACTGACTGGAATAATAACTTGTAG MNTYKLTLIALLAALAVVGRYWFAFLPNVQPVTAIIIITGVILGSGSALLLTVIVVFVSNMLLGMGIWAVWQAISWGVIGIISGWIGKFFSRPPFLLLLIFTVFSGYFYGFIISLTTYQMTGAFWPYYISGLPFDTNHAIGNAVFLVLFYPLIAYLMEKYALHRFTVKDTDWNNNL NA NA NA NA NA AK015_02228 435 hypothetical protein ATGAAACAATGGTTATTTCGATTTGGTTCATTTCTGGTCGCTATTGCTCTATTAGTAGGGTGTGGAAACGATGATTCAGGAACTACTGCCCCATCAAGCAATCAACCTTCTGAAAATCAAGTTACACAGGAAGAACAAGCAGCAGAAACAGTATTGATTACAATATCTAAAGACGATGGTGCGGAATACTTACATGAAAAAGAGATACCCATTGAAGAAGGCGATACTTTAATGGATGTAATGGAAGAAAATTTTTATGTTGAAACGGAACAGAATGGAGAATTTATTACCTCGATTGAACGTTTATCAGCAAAAGAAGGTGAGAAAAAAGGGTGGATTTATACCGTGAATGGTGAGATGCCAAATGTTGGTGCTGCAGAATATGAATTAAAGCCAGGTGATAAAGTAGTTTTTGATTTTCAAGCTTGGGAATGA MKQWLFRFGSFLVAIALLVGCGNDDSGTTAPSSNQPSENQVTQEEQAAETVLITISKDDGAEYLHEKEIPIEEGDTLMDVMEENFYVETEQNGEFITSIERLSAKEGEKKGWIYTVNGEMPNVGAAEYELKPGDKVVFDFQAWE NA NA NA NA NA AK015_02229 1758 resE Sensor histidine kinase ResE ATGTTTTGGCGGAGTGTAGTAGGTAAACTAGCAATAACGATTCTATTGCTAGTTTCTTTCGTGTTATTTATCTTAACTATTTTACTTTTACAGTTTTTTGAAGATTTCCATATTCAGGAAGCAGAGCAGGATATGTTACAAACAGCTGAAAAAATTTCAATGCTTGTGGATACTCATGATGAAAATGAAATTATTGAAGAAACAACTGAGCGCGTTAAAGACCCAGCTAGCCGAGTAGCCATTGTTTCAGGTGATGGTGATTTATGGGTTTCTAATAGCGAGGATGATCAATTATCCAAGCTAGAATTAGACTGGCTAAAGCAAGAGGAACTCTCTTCTGTTCTTACTAACAATGTTCAAGTACGTAAGCAAATGAAGTTACCTGGTACTGAACGAGAGGCGATGATTGTAGGCGTTCCTATGAACCATCAAGATGGAGCTATTTATGTGTATCAGTCACTGAATGTTATTGATCAAACAAAAGCAGAAACGACTAAAATTATTTTTCTTGCTGCAGGTATTGCTATTGTTTTGACTACAATATTTGCGTTTTTTCTATCCACGCGTATCACCTCTCCACTTATTAAAATGAGGGAAGCTGCTTTCGATTTAGCTAGAGGTGAATTTAATACGAAAGTGCCTATTTTAACCCATGATGAAATAGGAGAACTAGCTTTAGCGTTTAATCGTATGGGAAGACAATTGAAATTTCATTTAAATGCACTAAGACAGGAAAAAGAGCAACTATCTAGTATTGTTAGTTCAATGGCAGATGGTGTAATAACTTTAAATCGTTCAGGAGACATGATTGTTACCAATGCCCCAGCAGATCGATTTATTGAAGATTGGTATTATGAGAATAATCTTCCATACCGTGCTGAAGATCGAAAATTACCACATGAATTAAAAACCATTTTACAAGAAGTCATTGATGGCGAGACGGAAGCTATGCATGAACTTAGCCTACAAGGTAGAAATTGGGTGATGGTGATGACACCTTTATATGATCAAGCCTACGTTCGCGGAGCAGTTGCGGTCATTAGAGATATGACAGAGGAAAGAAGAATGGATAAGCTACGTCAAGATTTTATTGCTAATGTTTCTCATGAATTAAGAACACCAATTTCCATGCTCCAAGGTTATAGTGAAGCAATTGTCGATGATATTGCAGAGACCAAGGAAGACAAAAATGAATTAGCCCAGATTATTCATGAAGAATCGCTTCGTATGGGGCGACTAGTCAACGAATTATTAGACTTAGCTAGAATGGAAGCAGGCCATATTCACCTGAATACAGAAGAAGTGAAGGTTGGACCATATGTAGAACGAATTTATAAAAAATTTCAAGGGCTGGCTAATGAGAATAAAATATCTTTACATCTAGATAAGTCGATTTACGAAGCGACTGCCGTATTCGATCCAGATCGAATTGAACAAGTGTTTACAAATCTCATTGACAACGCTATTCGTCATACTAGTAAAGAAGGTTATGTAAATATAAGAGTGATCAATGATAGTGAGGCTTTCCAAGTAGAAATACAAGATAGTGGAAGTGGAATCCCAGAAGAAGACCTTCCATTTGTCTTTGAACGCTTTTACAAAGCTGATAAGTCAAGGACAAGAGATAAAAAGAAAAAAGGTACTGGACTAGGACTTGCCATTGCTAAAAATATTATTGACGCTCATCAAGGTACGATCAATGTAAATAGTAAGTTGAATCAAGGGACAGCGTTTTATCTCCGTATACCAAGGCTATAA MFWRSVVGKLAITILLLVSFVLFILTILLLQFFEDFHIQEAEQDMLQTAEKISMLVDTHDENEIIEETTERVKDPASRVAIVSGDGDLWVSNSEDDQLSKLELDWLKQEELSSVLTNNVQVRKQMKLPGTEREAMIVGVPMNHQDGAIYVYQSLNVIDQTKAETTKIIFLAAGIAIVLTTIFAFFLSTRITSPLIKMREAAFDLARGEFNTKVPILTHDEIGELALAFNRMGRQLKFHLNALRQEKEQLSSIVSSMADGVITLNRSGDMIVTNAPADRFIEDWYYENNLPYRAEDRKLPHELKTILQEVIDGETEAMHELSLQGRNWVMVMTPLYDQAYVRGAVAVIRDMTEERRMDKLRQDFIANVSHELRTPISMLQGYSEAIVDDIAETKEDKNELAQIIHEESLRMGRLVNELLDLARMEAGHIHLNTEEVKVGPYVERIYKKFQGLANENKISLHLDKSIYEATAVFDPDRIEQVFTNLIDNAIRHTSKEGYVNIRVINDSEAFQVEIQDSGSGIPEEDLPFVFERFYKADKSRTRDKKKKGTGLGLAIAKNIIDAHQGTINVNSKLNQGTAFYLRIPRL PGPT0026265_287 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026265-resE-K07651 NA NA AK015_02230 717 srrA_2 COG0745 Transcriptional regulatory protein SrrA ATGGACAAAGAGTCAAAAGTGTTAGTAGTCGATGATGAAGAAAGAATTCGAAGACTACTACGTATGTATATGGAACGAGACGGTTTTCTCGTTGAAGAAGCAGAGAATGGAGCAGATGCTTTAAAGCTTGCTCTTGATAACCATTACGATGTAATTTTACTTGATATTATGATGCCAGAGATGGATGGCGTTGAGGTTTGTCAAGAATTACGAAAAGAAAAAGATACGCCTGTTATTATGTTAACAGCAAAAGGTGAAGAAGCTAATCGTGTACAAGGTTTTGAAATTGGTGTAGATGATTACATCGTGAAGCCCTTTAGTCCTAGAGAAGTAGTGTTGCGAGTTAAAGCCTTGCTTCGCCGTGTTTCAAGTGCAACATTTCAGGAAACGGATACAACTGCGAAGAATGTTTTGGTTTTTCCTCATTTAACCATTGATCATGACGCGCACCGTGTTACTGCGGATGGAGAAGAAGTGAGCTTAACACCAAAAGAATATGAATTATTATGTTTTTTAGCAAAATCACCGGATAAAGTGTTTAACCGCGAGCATTTGTTAAAAGAAGTATGGCAATATGAATTTTTTGGAGATTTGCGAACGGTGGATACACATGTTAAAAGGCTTCGTGAAAAGTTGAACCAAGTATCTCAAGAAGCTGCGAAAATGATTGTCACTGTTTGGGGCGTTGGCTATAAGTTCGAGGTGGATGAAGACTAA MDKESKVLVVDDEERIRRLLRMYMERDGFLVEEAENGADALKLALDNHYDVILLDIMMPEMDGVEVCQELRKEKDTPVIMLTAKGEEANRVQGFEIGVDDYIVKPFSPREVVLRVKALLRRVSSATFQETDTTAKNVLVFPHLTIDHDAHRVTADGEEVSLTPKEYELLCFLAKSPDKVFNREHLLKEVWQYEFFGDLRTVDTHVKRLREKLNQVSQEAAKMIVTVWGVGYKFEVDED PGPT0013765_748 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668 NA NA AK015_02231 1191 ccsA_1 Cytochrome c biogenesis protein CcsA ATGAATAACTTAATTGAATTAAGTAGTACACTTCTATACACTGCTTTCTTTCTCTATTTAGTTGCAACTTTATTTTTTTCATTTACAATAGGGAGTAAGAGAAAATCAGATGGCAAAGCTGCTAAAATAGGAATTACATTGGCTATCATTGGTTTTTCCACCCAACTAGGCTACTTTATAACAAGGTGGATAGGGAGTGGGCATGCTCCTGTCAGTAACTTATTTGAATATATGACATTCTTTGGTATGGCAACAGTATTGGGATTCATTATCTTGTATTTTATTTACAAAATAACGGTACTGGGATTATTTGCATTGCCAGTCGCTTTAATTATTATTGCTTATGCAAGTATGTTTCCAACTGAGGTATCCCCTCTAGTCCCATCGTTGCAAAGTCATTGGTTATACATTCATGTTACTACAGTGTCTCTATCACAAGGAATTTTAACCATTAGCTTTGTCGCTGGATTAATCTATTTAATTCGGCAAATAGACCAATCAAAGACAACAAAACGAACGACTTGGTTGGAAATAACACTTTATTCGTTAATTCTCTTTGTTGGATTTATACTAGCAACAACTTTATTCAATGTCATGAATTATCAAGCTGTTTTTGAGTATCCTAATAATGCCGGAACTGGCACGATAGAAACAGAATATCATATGCCAGCAATTGCTGCACCAACAGACGGAACATTACTAACAGATAAAGTTATGAATCCTTGGTTTGAAATTCCGGAATGGATGCATGGCGCAGATGCTGGACGAAAATTTAATACATTATTATGGTCATTTATTTTTGGTACTGGCCTTTATATACTGTTAAGGCTCGTATTCAGAAAGAGACTGGGTGCTACGATTCAGCCATTACTTCAGAAAACGAATCCTGATTTATTAGATGAAATTACGTATCGTTCCGTAGCGATTGGTTTTCCTTTATTTACCTTGGGAGGTCTTATATTTGCTGCTATTTGGGCAGAAGAAGCCTGGGGAAGATTTTGGGGCTGGGATCCTAAAGAAGTTTGGGCACTAATTACATGGTTTTTCTATGCTGCCTTTCTACATCTACGTTTGTCAAGAGGTTGGCATGGCGAAAAATCTGCTTGGCTCGCTGCGGTCGGTTTTGCGATAATTATGTTTAATTTAATTGTTGTAAACCTTGTTTTAGCTGGTTTACATTCCTATGCTTAA MNNLIELSSTLLYTAFFLYLVATLFFSFTIGSKRKSDGKAAKIGITLAIIGFSTQLGYFITRWIGSGHAPVSNLFEYMTFFGMATVLGFIILYFIYKITVLGLFALPVALIIIAYASMFPTEVSPLVPSLQSHWLYIHVTTVSLSQGILTISFVAGLIYLIRQIDQSKTTKRTTWLEITLYSLILFVGFILATTLFNVMNYQAVFEYPNNAGTGTIETEYHMPAIAAPTDGTLLTDKVMNPWFEIPEWMHGADAGRKFNTLLWSFIFGTGLYILLRLVFRKRLGATIQPLLQKTNPDLLDEITYRSVAIGFPLFTLGGLIFAAIWAEEAWGRFWGWDPKEVWALITWFFYAAFLHLRLSRGWHGEKSAWLAAVGFAIIMFNLIVVNLVLAGLHSYA NA NA NA NA NA AK015_02232 1644 ccs1 Cytochrome c biogenesis protein Ccs1 ATGAATAAAATAAAATGTGAGTGCGGGCATGTTAATCCAGAAGGTACCGTCCTTTGTGAATCTTGTGGTAAACCGATAGAAGAAAATCAACATATTGATGGCAACGACAAGAAGAAATTGTTAAATATGCGATATGATGGTACTGCGCGACGCTCCCAAACATATAATAAATCGATTGTTGATAAGGTTTGGAGCTTTTTTTCTTCCGTTAAAGTGGGAATTTGGCTTATTGTCATCGCGCTTATAGCTTCTGCAGTTGGATCCATCTTTCCGCAAGAACAATACATACCTGCAGATGCAGTCTCTAGAGATCCGGCTATTTTTTATGAAGAACGTTATGGAATATTAGGACAAATTTTTTATCAATTAGGCTTCCATAATTTATATAGTTCATGGTGGTATATGGTTTTAATTGCTTTGATAGGTATATCACTCGTTATTTGTAGCCTTGATCGCTTTGTGCCACTTTTTCGTGCATTACGGAATCAAAAAGCAAAGCGACATGCAACATTTTTGCAAAGGCAACGTCTGTTTAGTCAAACAGACCAAGTTGATGAAGAAGATATCGATATTATAAAGCAAAGGTTAAAAAAATTAAGATATAATATTAAAGAGCAAGATGGGCATATCCTCGCTGAAAAGGGTAGATTTTCAAGATGGGGACCTTATGTCAATCATATTGGGTTGATTATTATTTTGCTTGCCGCTTTATTAAGACAAACTTCTGTTTTTTATATGGATGAATATATTTGGATTCGTGAAGGGGAGCAAAAAGTTATCCCCGGTACGGAGCAACAGTATTACATTGAAAATAAAGATTTTATCTTGGAAAATTATGATCCGGAAGATGAGTTATACAAAGATGCTTTAGAACAAGAAGGTGCTCCTGTTGCAAGTAATTACCAAACGAATGCAGTTATTTATAAAGCAATGGAACCAGAAGTAACTGGTGCAGAACCAGAATTAAAAAAAATTGAAGAAGGAAATATTCGGTTAAACGAACCATTAAATTTTGACGACTATGCAGTGTATCAAATGGGGTATCAGCAAAATGAATTTTCTAGCATGTCATTTAAAATTCATGAAACAAATGATCGGGAAGAAAAATCATTAGGAGATTTTACTGTTGATTTAACTTCTCCTAAATCGGAGTATGAGCTTGATAGTGGGTTTAAAGTAGAAATTAACAATTATTATCCGGATTATTTTTTGGATGATAATGGAGAGCCTGCTTCAGAGACAGATTACCCTAGAAATCCAGCGTTCGTGATGATGATTTATCCGCCAGATGGAAGTGAACCAGAAGTGAGCTTTTTAGGAATTGGCAAAAACATAGATGCGACTGGAGAAAATGACTATAATGTAGGAATTACAAACTTTGAACTTCGTGATGTTAGCGGGTTAAGTATACGTCGCGATTACTCTTTACCATACTTTATCGTTGGCGCTATTATCTTTATGATCGGTGTTATTCAGGGAATGTATTGGCACCATAGAAGAATTTGGGTTCGTCCTCAAAATGGTGGAATTCTATTAGCCGCTCATACGAATAAAAACTGGTATGGTGTGAAAAAGGATATTGAAAAAATCGTTGATGGGACACATATTCAAATGGTAATCGATCAACAAGAGCTGGATAAATAA MNKIKCECGHVNPEGTVLCESCGKPIEENQHIDGNDKKKLLNMRYDGTARRSQTYNKSIVDKVWSFFSSVKVGIWLIVIALIASAVGSIFPQEQYIPADAVSRDPAIFYEERYGILGQIFYQLGFHNLYSSWWYMVLIALIGISLVICSLDRFVPLFRALRNQKAKRHATFLQRQRLFSQTDQVDEEDIDIIKQRLKKLRYNIKEQDGHILAEKGRFSRWGPYVNHIGLIIILLAALLRQTSVFYMDEYIWIREGEQKVIPGTEQQYYIENKDFILENYDPEDELYKDALEQEGAPVASNYQTNAVIYKAMEPEVTGAEPELKKIEEGNIRLNEPLNFDDYAVYQMGYQQNEFSSMSFKIHETNDREEKSLGDFTVDLTSPKSEYELDSGFKVEINNYYPDYFLDDNGEPASETDYPRNPAFVMMIYPPDGSEPEVSFLGIGKNIDATGENDYNVGITNFELRDVSGLSIRRDYSLPYFIVGAIIFMIGVIQGMYWHHRRIWVRPQNGGILLAAHTNKNWYGVKKDIEKIVDGTHIQMVIDQQELDK NA NA NA NA NA AK015_02233 576 resA_1 COG0526 Thiol-disulfide oxidoreductase ResA ATGATGAGTTTAGATGAAATAAAACAGAAGAAAAAGAATAAAAAAAGAAATCGCTTTATATTTCGATCTGTTATTTTACTTATACTAGTTGGGGCAGTTGTATTTGCAGTCGTCCAAAATCTGCAAGATGATAAGATTATTTACAATGTTGGCGACAATGCCCCTGATTTTCAACTGGAGCAAATAAACAAATACAACGAACGAGAAACAGTTCGACTTAGCGATTTAGAAGGAAAAGGGGTAATGCTTAATTTTTGGGGAACTTGGTGTAAGCCTTGTGAAGAAGAAATGCCTTACATGCAAAAATTGTACCCACAATATAAAGAAAAAGGGGTCGAAATAGTTGCAGTTAGTCTTGATTCTACAGAACTCGTTGTTCATCGTTTCGTCGATGAATATGACTTAACTTTTCCTATTCCTCACGACAAAGATAGTCAAGTGAGAGACTTATATAAAGTGGGCCCTATTCCAAGCACTGTATTTATTGACCCACAAGGTAAAATTGTAGAGGTAGTAAATGGAGCATTAAGCTTAGAAAGATTAGATGGTTATCTACAAGAAATAACGCCTAAGTAA MMSLDEIKQKKKNKKRNRFIFRSVILLILVGAVVFAVVQNLQDDKIIYNVGDNAPDFQLEQINKYNERETVRLSDLEGKGVMLNFWGTWCKPCEEEMPYMQKLYPQYKEKGVEIVAVSLDSTELVVHRFVDEYDLTFPIPHDKDSQVRDLYKVGPIPSTVFIDPQGKIVEVVNGALSLERLDGYLQEITPK NA NA NA NA NA AK015_02234 738 rluB COG1187 Ribosomal large subunit pseudouridine synthase B ATGACAAACACGCAAGAGAGACTGCAAAAAGTGATTGCCCAAAGTGGTGTAACATCAAGAAGAAAAGCAGAACAATTAATTTTAGGTGGAAAGGTAAAGGTAAACCAACAAGTAGTTACAACACTTGGTACGAAAGTAAAACATGATGATTTTATTGAAGTAGACGGTGTTCCTTTGGAAAAAGAGGCTCCTGTTTACTATTTGTTGTACAAACCTCGTGGTGTAATATCCAGTTTAAAAGACGATAAAGGTAGAAAAGTAATTACCGACCTACTAGGTGAAGTAGACGAACGTGTTTTCCCTGTCGGTCGATTAGACTATGATACATCTGGTATATTGATTGTAACAAATGATGGCGCATTTGCTAATTTGCTCATGCATCCCCGATACCAAATAGATAAAGAGTATGTTACAAAAATAAAAGGAATTCCAGAAAAAGCTGACTTGGCAAGGTTGAGAAAAGGAGTTCGATCGGAGCAGGATATATTAAAAGCAGTACAATATCGTATTCTTGAAACGGACAAAAAGAAAAATCATACTATTTTACAACTAACTTTAAGAGAAGGAAAGAATAGACACGTGCGTCGAATGATGGAAGCATTAGGTTATCCAGTTTTAAAGTTAAAGCGTGAAAAATATGGTTTTTTAACTCTTGATGGTCTAAAACCAGGAGAATATCGACCATTAACCCCGAAAGAAGTAAAGCAAATGCGACATTTGGCAGAACAAAATTGTTGA MTNTQERLQKVIAQSGVTSRRKAEQLILGGKVKVNQQVVTTLGTKVKHDDFIEVDGVPLEKEAPVYYLLYKPRGVISSLKDDKGRKVITDLLGEVDERVFPVGRLDYDTSGILIVTNDGAFANLLMHPRYQIDKEYVTKIKGIPEKADLARLRKGVRSEQDILKAVQYRILETDKKKNHTILQLTLREGKNRHVRRMMEALGYPVLKLKREKYGFLTLDGLKPGEYRPLTPKEVKQMRHLAEQNC NA NA NA NA NA AK015_02235 531 spmB Spore maturation protein B ATGGAACTGGTAACAATAGTGAGCGCATGGCTAGTTCCTTGCTTCATTTTAATTGTTTTAGCTACTGCAACAATTAAAAAAGTGCCAGCTTATGAAGTATTTGTGGAAGGCGGGAAGGAAGGAGTAAAAATGGCTTTTTCCTTGCTTCCTTTTTTAGTCGGTATGATTGTAGCAATAGCTATATTGCGAAGTTCTGGAGCATTAGAGGCGTTTATTGATTTATTGGCGCCAATTTTAACAGCGATCGGAGTGCCGCCAGATATAATTCCACTAGCATTGGTTAGACCGATATCAGGTACAGCAGCACTCGGGATGACAACCGAGTTAATACACACGCATGGTCCAGATTCATTTATAGGTAGGCTAGCATCTGTCATGCAAGGTAGTACAGATACGACACTCTATATTTTAACAATATATTTTGGGGCCATTGGCATTAAGAAGATGAGATATGCTTTAAAAGTTGGTTTATTGGCCGATTTAATCGGAATTATTGCTTCCATTATCATTGTATCCATTCTGTTCGGGTAA MELVTIVSAWLVPCFILIVLATATIKKVPAYEVFVEGGKEGVKMAFSLLPFLVGMIVAIAILRSSGALEAFIDLLAPILTAIGVPPDIIPLALVRPISGTAALGMTTELIHTHGPDSFIGRLASVMQGSTDTTLYILTIYFGAIGIKKMRYALKVGLLADLIGIIASIIIVSILFG NA NA NA NA NA AK015_02236 591 spmA COG2715 Spore maturation protein A ATGGTAAACATAATTTGGGTATCTATGGCAGCCATTGGCATTATTTATGCTATGTTAAACGGTACAATGGATCAGGTTAATGAAGCTATTTTCTCTAGCGCAAGTGAAGCTGTTACTTTATCTATTGGACTAATTAGTGTGCTCGTATTTTGGCTCGGAATTATGAAGGTTGCTGAAAAAGCTGGGATTCTATCTGTTTTGGCGAAACTCTTTCGACCGCTTATTGTTAGATTATTTCCAGATATTCCAAAAAATCATCCAGCTATTGGTTACATCCTGTCCAATGTCACTGCAAATATTTTTGGACTAGGTAATGCAGCAACACCTATGGGGATTAAAGCTATGGAGCAAATGAAGCAGTTAAGTGGAAATGACGCTGCTTCTAGATCTATGATTACTTTCTTAGCTTTAAATACATCAAGTCTAACGGTTATCCCAACAACGGTTATTGCTATACGCATGCAATATAACTCTGCATCTCCAACTGAAATTGTTGGGGCAACTATTTTAGCGACGTTCATATCATCATTGGGCGCCATAATAATTGATCGGATTTTTTATCACAAAAGTAAATGGGAGGCAGCATCTTAA MVNIIWVSMAAIGIIYAMLNGTMDQVNEAIFSSASEAVTLSIGLISVLVFWLGIMKVAEKAGILSVLAKLFRPLIVRLFPDIPKNHPAIGYILSNVTANIFGLGNAATPMGIKAMEQMKQLSGNDAASRSMITFLALNTSSLTVIPTTVIAIRMQYNSASPTEIVGATILATFISSLGAIIIDRIFYHKSKWEAAS NA NA NA NA NA AK015_02237 1110 dacB COG1686 D-alanyl-D-alanine carboxypeptidase DacB ATGCGATTTGTTTTAGTTGCCATTTGCTCAATAATTTTGTTGACTACTTTATTTCCCGTAAAAGGACATGCTGCACCACAAGTATCTGCAAATCATGCAGTTTTAATGGAACAAAGCACAGGTCGTGTATTGTTTGAAAAACAAGCTTACTCAAAGGCTAACATTGCAAGTATTACAAAAATAATGACTGCTATTATTGCGATTGAGTCTGGTAAGATGCATGAAAAAGCAAAAGCGAGTCGAAAAGCTATTTATACAGAAGGCTCATCGATTTACTTAGAGGAAGGGGAAAAGATGCGTTTAAAAGATCTAGTATATGGATTAATGTTGCGCTCGGGAAACGATGCAGCTGTAGCAATTAGTGAGCATGTTGGAGGGAGTGAAGCTGGTTTTGTTTACTTAATGAACGAAAAAGCTAGTTGGCTAGGTATGAACGATACAAACTTTGCTAACCCACATGGTTTGGATGAAGAAGGTCACTATTCAACCGCATATGATATGGCGACACTAATGCGCTATGCTATGAAAAACCCTACATTTCAAAAGGTAACAGGCGCAACATCTTATTTAGCCGAAACGCGTATATATTCTTGGCAAAATAAAAACAAATTATTAACCCAATATTATGACCATAGTACTGGAGGAAAGACGGGATATACGAAACAAACTGGAAGAACATTGGTTTCTACTGCTGAAAAAGATGATATGAATTTAATAGCAGTAACGTTAAATGCTCCAGATGATTGGAGAGATCATATTACGATGTTTGAGTGGGGTTTTGAAGAATACAATATAGAAACATTGACTAAACCAAAAAGACTTGCTTATCGATTACCTGAAAGTAATGAAGTCTATACCGCTTATATAGATAAAGCAATTCAATACCCATTAACGAAGCAAGAAAAAAGTAAAGTATCTAACCAGCTGTTCATTGATGAGACCATTTCTGATAACAACATAATTGGAAAAAACATATTTTATTTAAATGGCAAAGCCATTGCAACGACAAACGTTTTAAATGAAGCACCGAAATCTGTTAATAAGAAACTATTTTCCAGCAATATTTATCAATTATTTAAGTATATTTCCGGAGTTGATGTGTTATGGTAA MRFVLVAICSIILLTTLFPVKGHAAPQVSANHAVLMEQSTGRVLFEKQAYSKANIASITKIMTAIIAIESGKMHEKAKASRKAIYTEGSSIYLEEGEKMRLKDLVYGLMLRSGNDAAVAISEHVGGSEAGFVYLMNEKASWLGMNDTNFANPHGLDEEGHYSTAYDMATLMRYAMKNPTFQKVTGATSYLAETRIYSWQNKNKLLTQYYDHSTGGKTGYTKQTGRTLVSTAEKDDMNLIAVTLNAPDDWRDHITMFEWGFEEYNIETLTKPKRLAYRLPESNEVYTAYIDKAIQYPLTKQEKSKVSNQLFIDETISDNNIIGKNIFYLNGKAIATTNVLNEAPKSVNKKLFSSNIYQLFKYISGVDVLW PGPT0024040_5376 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258 NA NA AK015_02238 591 scpB COG1386 Segregation and condensation protein B GTGGAAATAAATAAATTAAAAGCAATTGTAGAAGGTTTGTTGTTTGCTTCAGGGAATGAAGGAATAACAATAAAGCAATTGTCAGATGTTTTGGAAATAACAGAAGCAACGATTGAACTTGTTTTAGACGAATTAAAGCAGGAATATGAAAGCACAGATCGCGGTATACGAATGATGCAAGCGCATGAAGTGTTTCATTTAACAACTAGACCAGAGCATAGTCATTATTACAAGAAATTACTAGAGACACCTCAAACAACAAGGATGTCTCAAGCAGCGTTAGAAACGTTAGCTATTATTGCTTATAATCAACCGATAACACGAACTGAAATTGAGGAAGTACGAGGTGTAAAGAGTGATCGACCAGTACAAACCCTCCTTTCTAGGCTTTTAATTGAGGAAGTTGGGAGGAAAGATACGGTAGGTAAACCGATCTTGTTTGCTACTACAAAAGAGTTTCTTACTTATTTTGGTTTAACATCATTACAAGATTTACCACCTCTACCAGATGCAAATGATGAAGAATTAGAAACAGAAGCAGATTTATTTTTTGAGCGTTTTAATGAACAAATAAATGAAGACCATTCATAA MEINKLKAIVEGLLFASGNEGITIKQLSDVLEITEATIELVLDELKQEYESTDRGIRMMQAHEVFHLTTRPEHSHYYKKLLETPQTTRMSQAALETLAIIAYNQPITRTEIEEVRGVKSDRPVQTLLSRLLIEEVGRKDTVGKPILFATTKEFLTYFGLTSLQDLPPLPDANDEELETEADLFFERFNEQINEDHS NA NA NA NA NA AK015_02239 735 scpA COG1354 Segregation and condensation protein A TTGCAAGCTTACAAGGTGAAATTGGATGCTTTTGAAGGTCCACTTGATTTATTACTTCATTTAATTAATCAATATGAAATTGATATTTATGACATACCAGTTGCGCAAATTACGGAACAGTATATGCAATACATCCATACTATGAAACGGCTAGAGTTAAACATTGCTAGTGAGTACTTAGTTATGGCAGCGACTCTAATAGAAATAAAAAGTCAAATGCTTTTACCAAAACCTGAATTAGATGAAGATGCCGAAGAATATATGGAAGATCCACGAGAAGATCTTATGCAACGATTAATTGAGTATCGAAAGTATAAAGAAGCTGCTTTGCAATTGCAGGTTATAGAAAAAGAGGCAAATCAAATCTATACGAGACCACCTTTATTGTTCGATGAAAGCATATCTAAACATTCAGAAATCGTACAAGGTGAAACATCGGTTTATGATATGTTGGAAGCATTACGTCAAATGTTTGAACGAAAAAAATGGGATGCACCGCTAGAAACTAAAGTTGAAAAATCAGACATACCGATTGAACAGAGAATGGAGGAAGTACTACAGACAGTAAAATCAGCGAAAGAAGGGATTTTGTTTGATCGCTTATTTACAATACAAACTCGCCCTCATATTGTTGTAACATTTATTGCCCTCTTGGAATTAATGAAAAAAAATCAAGTTTATTGTAAACAAGAGAAGCAGTTATCCGAATTATACGTGTTTAGTATGGAGGAATAA MQAYKVKLDAFEGPLDLLLHLINQYEIDIYDIPVAQITEQYMQYIHTMKRLELNIASEYLVMAATLIEIKSQMLLPKPELDEDAEEYMEDPREDLMQRLIEYRKYKEAALQLQVIEKEANQIYTRPPLLFDESISKHSEIVQGETSVYDMLEALRQMFERKKWDAPLETKVEKSDIPIEQRMEEVLQTVKSAKEGILFDRLFTIQTRPHIVVTFIALLELMKKNQVYCKQEKQLSELYVFSMEE NA NA NA NA NA AK015_02240 90 hypothetical protein ATGAGTGGCGGATATGGTTACGGTGGAGGATTCGCGTTAATCGTCGTACTATTCATACTATTAATTATTGTTGGTGCTGCATGGCTCTAA MSGGYGYGGGFALIVVLFILLIIVGAAWL PGPT0024985_432 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA NA NA AK015_02241 366 ribT Protein RibT ATGTTAATTCGCTTTAAGAAAAATCTAGAAAAAATAGCCATGGGTTTGCTTTCTTTTATGCCTGAAGAAAAAGATGTTAAGAAGCTACAGCAAACCATCAGAGAATATGAAGCTAACCTAGATTGGCATTTGTATTTATGGAAGGAAGAAGATGACGTTCTAGGAGCAATTGGTTTGCGGATTGAAAACGAAAGCAATGCTATCATTCAGCATGTTTCGGTTAATCCTTCACATCGTAATCAAGGGATAGGAAGAAGAATGGTTATTGAGGTTGATAAACTTTACCGTAATAAGTATACAGTATCTACGACAAAAGAAATCCAGGAGTTTTATCAAAGGTGCGATGAAACAAATGATTTTGAATGA MLIRFKKNLEKIAMGLLSFMPEEKDVKKLQQTIREYEANLDWHLYLWKEEDDVLGAIGLRIENESNAIIQHVSVNPSHRNQGIGRRMVIEVDKLYRNKYTVSTTKEIQEFYQRCDETNDFE PGPT0008530_115 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 AK015_02242 456 hypothetical protein ATGGATGTTTTACTGCTTTTTTACCTCCTCGTTTTCGTAGCACCAATTAGTATTTTTTTTCATGAATTTGGACATGCTATAGTTGCTTGGTTTTTACAAGCCGAAAAAGTGGATATATCAATTGGCGCAGGAACTGTAAAAACATTAATGCACGTAGGTAGGTTTCGTATTTCTATTGCTCCGTTGTTTTTTATTGGGGGTTTAGCAACAAGTTATCGGCAACCCGACTATAGCAGATTGGAAAAAATAATTATAACTATTTCTGGCCCTTTATTCAGTGTTTTCATGGCTTTTATATTTTGGAAAATAGATGTCATGACTATCGCGTTTTCTTTTCATCTGTTTGTTTGGTTCAACCTTTGGGTAGGGATCGTAAATTTAATTCCTTTTAAGTGGAAAGGAAAGAAAACAGATGGACATATTATTATGCAACTCCTACGAAATAAAAATATCTAG MDVLLLFYLLVFVAPISIFFHEFGHAIVAWFLQAEKVDISIGAGTVKTLMHVGRFRISIAPLFFIGGLATSYRQPDYSRLEKIIITISGPLFSVFMAFIFWKIDVMTIAFSFHLFVWFNLWVGIVNLIPFKWKGKKTDGHIIMQLLRNKNI NA NA NA NA NA AK015_02243 438 ppiB COG0652 Peptidyl-prolyl cis-trans isomerase B ATGGCTAAAAAAGGGTATATTTTATTGGAAAATGATAATAAAATTGAGTTTGATTTATATGAAGAAGCAGCACCAAATACAGTGGCAAACTTTGAAAAGCTTGCCAATGATGGCTTTTATAATGGATTAACATTTCACCGTGTTATTCCTGGCTTTGTTAGTCAAGGTGGTTGTCCAGTAGGTAACGGAACAGGATCAGCAGGTTATACGATTAAATGTGAAACAGAAGGGAATCCGCATAAACATCAAGAAGGATCTCTTTCAATGGCTCATGCTGGAAAAGATACAGGAAGTTGTCAATTTTTTATTGTCCATGAACCTCAACCACATTTAAATGGCGTTCACACTATATTTGGACAAGTAACTTCAGGAATTCAATTTGCAAAAACAATGCAAAACGGAGATGTGATGAAGGAAGTTAAAGTTTATACGGCTTAA MAKKGYILLENDNKIEFDLYEEAAPNTVANFEKLANDGFYNGLTFHRVIPGFVSQGGCPVGNGTGSAGYTIKCETEGNPHKHQEGSLSMAHAGKDTGSCQFFIVHEPQPHLNGVHTIFGQVTSGIQFAKTMQNGDVMKEVKVYTA PGPT0015111_4689 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 AK015_02244 1308 lysA COG0019 Diaminopimelate decarboxylase ATGATAATTGATAATCATCCATTTACAGTAAATAAACAAGGACATTTAGAAATTGGCGGTATAGATAGTGTATCATTGGCAAAAAAATATGGAACACCTTTATATGTTTATGATGTGCAAATGATTCGAAACAACTGTCGCGCTTTTGTAAATACGTTTAAAAAAATGGATATTCCTGCGAAAGTAGCTTATGCTAGCAAGGCATTTTCATCAATTGCTATGTTACAAGTCATGAAGCAAGAGGGAATGTATTTGGATGTGGTATCGGAAGGAGAATTATACACAGCATTACAAGCTGGTTTTCCAACTGAGAAAATTCACCTTCATGGAAATAATAAAAGTATTGCAGAGATTAGGATGGCAATTGAAAATAATATTGGATGTATTGTGGTAGATAACTTTCAAGAAATACAACATATTCGTTCCTTGCTTAAAGATTACAATAAACAAATGGACGTTTTAATGCGAGTAACACCAGGGGTAGAATCTAAAACACATCAGTATATTATGACAGGACATGAAGATTCTAAGTTTGGGTTTAACTTGCAAAACGGACAAGCGGAGGATGCACTTTTAAAGATGATCGATGACCCATATATTTGTTTTCAAGGATTGCATTGCCATATAGGTTCACAAATATTTGAAACAGACCGATTTATATTAGCTACAAATATGTTATTTCAAGCATTAAAAATGTGGAAGCAACAGTATAATTATGTACCTAATGTGTTAAATTTGGGTGGAGGCTATGGAATTCGTTACACAAAGGAGGATGCTCCTATATCTTACGCCCCATTTATAGAAGAATTAGTTTATGAAGTGCAAAAACAAGCAGAATCTTTAGCGATTCCAATGCCAGAAATTTGGATAGAACCTGGTAGAGCAATTGCTGGCAATGCTGGGGTTACTTTATATACTATAGGTTCGATGAAAGAAATTCCAGGAATTCGAAATTATATAGCGGTTGACGGGGGTATGACAGATAATCTACGTCCCTCGTTATATCAAGCAAAATATGAAGCGGTGTTAGCAAATAAAGCAGATTGGCTAGTAGAAAAAAATGTATCTATTGCTGGTAAATGTTGCGAATCAGGGGATATGCTTATATGGGATCTACCTTTGCCTGCCGTTTCACAGAATGATATTTTGGCCGTTTTTTCAACGGGGGCTTATGGTTATTCTATGGCAAACCATTACAATCGATTTGCAAAACCCGCAGTGGTTTTTGTGGAAAATGGCAAGGATAAACTCGTTGTCAGACGTGAGACATATAAAGATGTGACCCGCCATGACCTTAGTTTTGAATAA MIIDNHPFTVNKQGHLEIGGIDSVSLAKKYGTPLYVYDVQMIRNNCRAFVNTFKKMDIPAKVAYASKAFSSIAMLQVMKQEGMYLDVVSEGELYTALQAGFPTEKIHLHGNNKSIAEIRMAIENNIGCIVVDNFQEIQHIRSLLKDYNKQMDVLMRVTPGVESKTHQYIMTGHEDSKFGFNLQNGQAEDALLKMIDDPYICFQGLHCHIGSQIFETDRFILATNMLFQALKMWKQQYNYVPNVLNLGGGYGIRYTKEDAPISYAPFIEELVYEVQKQAESLAIPMPEIWIEPGRAIAGNAGVTLYTIGSMKEIPGIRNYIAVDGGMTDNLRPSLYQAKYEAVLANKADWLVEKNVSIAGKCCESGDMLIWDLPLPAVSQNDILAVFSTGAYGYSMANHYNRFAKPAVVFVENGKDKLVVRRETYKDVTRHDLSFE NA NA NA NA NA AK015_02245 1476 gerXA Spore germination protein XA ATGGTACAACATGATCAAAAAATACCTGTGAATCCTAGAATAAGACATACTGAAAACTATATGAAAACAAGATTAGGAATTGGTGTTTCCTTTGATTTAGGGTTTCGCGAGCTTGTACTATTAAAACGAGATATTCAAATTTATTATGTGACAGGATTATGCGATTCAATTATCATCCAAGACTTATTAAAAGAGCTCGTTAATTTAAATGATCATGAAGCAAATAGTAAAAAGCTTCCAGAAATCATTAAAAACCGCCTTATACATCAACAAGTTGAACAAGTAAAAACAATGGATGAGGCTGTAGATCAGATGCTATCGGGTTTAATTGTTTTATTTATCGACGGAGAGCGATTTGCTTACGTCATAGATGTACGAAATTATCCAGGTAGAACACCTGAAGAACCAGATATTGAACGAGTGGTTCGTGGTTCTAGAGATGGGTATACTGAAAATATTATTGAAAATACAGCTTTGACAAGAAGAAGAATAAGAGATCCGAGATTGCGTAATGAAATGCTGAAAGTAGGAGAACGATCCAAAACGGATGTTTGCTTAAGCTATATTGATGATGTTGCGGATGAAGGGTTGATTCAATTAATTAAAGATAGAATTCAAGATATTGAAGTTGATGGTATTTCAATGGCTGATAAGACAGTTGATGAATTTATTATCGATCGGAAGTGGTACCCTTATCCACTAGTACGTTATACAGAGCGTCCAGATGTTGCGGCAAATCATTTATTAGAAGGACATGTTTTAATCATTGTGGATACTTCACCTAGTGTCATTATTTTACCGACCACATTTTTTCACCATTTACAGCACGCAGAAGAATACCGTCAAACACCAGCAATTGGTACTTTTATTCGTTGGATTCGATTTTTGGCTATCTTTGCATCCATGTATTTACTACCATTATGGCTATTATTTGTCATGGAACCGGATTTATTGCCTAAAGAACTGGCTTTTATTGGTCCGAATGAAGAAGGAAATATCTCAATTCCTGTCCAGATAGTAATGGCTGTCATTGGTATTGAATTCCTTAGAATGGCCGCAATTCACACACCGACACCTTTATCAACCGCAATGGGTTTAATTGCAGCGGTTTTAATTGGGCAAATTGCTATCGATGTTGGGATGTTTAGCCCTGAAGTCATTTTGTATGTCTCTGTTAGTGCTATAGGTGGCTATGTTACTCCCAGTTATGAGTTAAGCGTGTCTAATAAAATAGTGAACATTATATTCGTGGTGGTTACTGGGTTATTTGGATTAGTTGGTTTTATTACCATATTTTTAGCTCACCTCTTATTTTTAATTCACCTTAAATCTTTACGAACACCTTATTTATGGCCATTTATTCCTTTTAATCCACGGGCTATGTTGCACACTTTAATTCGTATCCCTGTACCATATACAAATAGTAGACCAAGCATTGTTCACCCTAAAAACAATTATCGTCAGCCTGAAAAATGA MVQHDQKIPVNPRIRHTENYMKTRLGIGVSFDLGFRELVLLKRDIQIYYVTGLCDSIIIQDLLKELVNLNDHEANSKKLPEIIKNRLIHQQVEQVKTMDEAVDQMLSGLIVLFIDGERFAYVIDVRNYPGRTPEEPDIERVVRGSRDGYTENIIENTALTRRRIRDPRLRNEMLKVGERSKTDVCLSYIDDVADEGLIQLIKDRIQDIEVDGISMADKTVDEFIIDRKWYPYPLVRYTERPDVAANHLLEGHVLIIVDTSPSVIILPTTFFHHLQHAEEYRQTPAIGTFIRWIRFLAIFASMYLLPLWLLFVMEPDLLPKELAFIGPNEEGNISIPVQIVMAVIGIEFLRMAAIHTPTPLSTAMGLIAAVLIGQIAIDVGMFSPEVILYVSVSAIGGYVTPSYELSVSNKIVNIIFVVVTGLFGLVGFITIFLAHLLFLIHLKSLRTPYLWPFIPFNPRAMLHTLIRIPVPYTNSRPSIVHPKNNYRQPEK PGPT0024820_170 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408 NA NA AK015_02246 447 hypothetical protein ATGAAAATGCGCACAACGATGCTGACCATCCTCACTCATCTTCTTGAAGTTTTGATTGGATTTAGTGCAGGGCTTGCTGTAGGAGCTGGTTATGTAGCGTTTATTACCATTTTAGGAATTGTTCCTAGGCTTATACAATTAAGTAAAACAGAAATGTTTCTACCTATTTATACAGCATGTATTCTTGTGGGAAGCTTATTCGGAACCTATTTATCATTTACGTCTGTAGTTTGGAACAATTCAGTATTTTTTATAGCTGTATGGGGGCTATTACAAGGTATTTTTAATGGAATGCTTGCAGCTGCATTAGCAGAAGTGCTAAATGTATTTCCAATATTATATAAACGGATTGGTATTGAAAAATATTTGTTATGGCTGCTTATGGCAATTGTCTTTGGAAAAATAGCAGGTTCTTTATTCCAGTGGTTATATTTTATGAAGCATTAA MKMRTTMLTILTHLLEVLIGFSAGLAVGAGYVAFITILGIVPRLIQLSKTEMFLPIYTACILVGSLFGTYLSFTSVVWNNSVFFIAVWGLLQGIFNGMLAAALAEVLNVFPILYKRIGIEKYLLWLLMAIVFGKIAGSLFQWLYFMKH PGPT0024800_8 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024800-spoVAB-K06404 NA NA AK015_02247 627 hypothetical protein GTGCCCAACCAAGTTTATGTAAGAATGAAAAAAAACATGGAATTAACTGAATATCAATTGTTACAACTAAAAGATATTGCAGTGATATCCACAAATGATACAAAGAAAAAGGAAATTGAATATGCACCAATATATCGATTGGGTAAAAAAGATAAAAATATTGTTGTAATTGACAGTTTTTTAGTTATTGAACATTTGAATCGTAATTTTCCAGATCTGGATTTTCAATTAATTGGCCCAAATCAAACAATAATTCGGATTAATAAGCGCAGAAAGTCTCCTTCTGTTCTTATTGCTCTTAGTGTTTGGTTATTAATTTTTGTTGGAACAGCAATGACAATTATGAATTTTCATTATGATGTAAGTATGCAGGAAGTACATCAAAAAGTTCATTTTCTGTTAACTGGAGAGAAAAAAGAATATCCGTTATGGTTGCAAATCCCCTATTCTTTAGGATTAGGAATTGGTATGCTGTTATTCTTTAATCATTGGTTTAATAAACGCTTTAATGAAGAGCCGAGCCCATTAGAAGTAGAAATTTATAATTACCAGCAAGATTTAGATGATTACGTAATTCAATATGAAAATGCGCACAACGATGCTGACCATCCTCACTCATCTTCTTGA MPNQVYVRMKKNMELTEYQLLQLKDIAVISTNDTKKKEIEYAPIYRLGKKDKNIVVIDSFLVIEHLNRNFPDLDFQLIGPNQTIIRINKRRKSPSVLIALSVWLLIFVGTAMTIMNFHYDVSMQEVHQKVHFLLTGEKKEYPLWLQIPYSLGLGIGMLLFFNHWFNKRFNEEPSPLEVEIYNYQQDLDDYVIQYENAHNDADHPHSSS PGPT0024795_91 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024795-spoVAA-K06403 NA NA AK015_02248 756 sigF COG1191 RNA polymerase sigma-F factor ATGAATGTTAATGTACAAGGGGATAATAGGAGCGATTCATTATCTGATCAGGAAGTAAAAACACTAATTGAAAAAAGTCAGCAAGGGGATAAAGTAGCAAGAGATAAATTAGTGGAAAAAAATATCCGCCTTGTATGGTCGGTTGTACAACGGTTTATAAACAGAGGATATGACCCAGACGATTTGTTTCAAATTGGAAGTATTGGTCTCATTAAATCCATTGATAAGTTTGATTTATCCTATGATGTCCGTTTTTCCACGTATGCTGTGCCAATGATTATTGGTGAAATTCAACGTTTTATTCGGGATGATGGAACTGTGAAAGTTAGTCGGTCATTAAAAGAAACTGGGAACCGGATTCGAAAGAAAAAAGATGAATTAACGAAAAAAAACGGCAGATCACCAACAGTAAATGAATTATCAGAGGCATTGGAAATCTCACCAGAAGAAGTTATCCATGCACAAGAAGCAAGTAGATCGCCACAATCTATTCATGAAACGGTATTTGAAAACGATGGTGACCCGATTACGTTATTAGATCAAATTTCCGATCAAGATACAAAATGGTTTGAAAGGATCACTTTACAAGAGGCTATTCGCGACCTAAGTGAAAGAGAAAGACTCATTGTTTATTTGCGTTATTACAAAGATCAAACACAATCTGAAGTAGCTAAACGTTTAGGTATATCGCAAGTTCAAGTATCTCGATTAGAGAAGAAAATATTAGAAGAGATGAAACTATACATTGATGTTTAA MNVNVQGDNRSDSLSDQEVKTLIEKSQQGDKVARDKLVEKNIRLVWSVVQRFINRGYDPDDLFQIGSIGLIKSIDKFDLSYDVRFSTYAVPMIIGEIQRFIRDDGTVKVSRSLKETGNRIRKKKDELTKKNGRSPTVNELSEALEISPEEVIHAQEASRSPQSIHETVFENDGDPITLLDQISDQDTKWFERITLQEAIRDLSERERLIVYLRYYKDQTQSEVAKRLGISQVQVSRLEKKILEEMKLYIDV PGPT0014795_604 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 AK015_02249 444 spoIIAB COG2172 Anti-sigma F factor GTGAAAAATGAAATGACAGTTACCTTTTCAAGTGTTAGTGAAAATGAATCATTTGCTAGAGTAACCGTAGCTGCTTTTGTAAGTAAGCTCGATCCGACAATGGACGAGCTTACAGAAATTAAAACAGTAGTATCAGAAGCTGTAACCAATTGCATTATTCATGCTTATAATAATGAACCTCATCATGAGGTAACAATAACCTGTGCGTTAATAGATGAACAAGTGGAATTAATTATCAAGGATAACGGAATTGGGATTGATGATATTGACGAAGCACGCCAGCCACTATATACTTCCAAACCTGAGTTAGAGCGATCTGGTATGGGTTTTACAATTATTGAGAACTTTATGGATACTGTCGAGGTTATATCTAATCCTGAACAAGGAACAACTGTACACATGACCAAACAATTAACCAACGCAAAAACGATGTGCTCATCGTGA MKNEMTVTFSSVSENESFARVTVAAFVSKLDPTMDELTEIKTVVSEAVTNCIIHAYNNEPHHEVTITCALIDEQVELIIKDNGIGIDDIDEARQPLYTSKPELERSGMGFTIIENFMDTVEVISNPEQGTTVHMTKQLTNAKTMCSS PGPT0024660_137 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024660-spoIIAB-K06379 NA NA AK015_02250 354 spoIIAA COG1366 Anti-sigma F factor antagonist ATGGGACTTCATTCAACATTTGCTGTTAAAGAGAATGTATTAGTTGTTCGCCTTTCTGGGGAATTAGATCACCATGAAGCAGAACAACTACGTAAAGAATGGAAAGAAGTAATGTGTGAGCATGACATTAAACATGTAGTTTTAAATTTAGAAGCTATGGATTTTATGGATAGTTCTGGACTAGGAGTAGTGTTGGGAAGGTATAAAGAAGTATTACAGTTAGGAGGAGAGATGGTTGTTTGTTCTGTCTCCCCTCCAGTAAGAAGGTTGTTTGAAATGTCGGGATTATTTAAGATTGTTCGATTAGAGGAGAACGAACAATTTGCTTTAGAGACGTTGGGGGTGGCATCGTGA MGLHSTFAVKENVLVVRLSGELDHHEAEQLRKEWKEVMCEHDIKHVVLNLEAMDFMDSSGLGVVLGRYKEVLQLGGEMVVCSVSPPVRRLFEMSGLFKIVRLEENEQFALETLGVAS PGPT0024655_300 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378 NA NA AK015_02251 1176 dacF COG1686 D-alanyl-D-alanine carboxypeptidase DacF ATGAAAAAAACTCTATGCATCATCAGCCTTGTCTGTATTCTCATGGGAAACGCGGTAACTTTCGTAAGTGCTGAAGAAGTGAAAAAAAATAACAATCAAAAGTTAGCTGAAGATGCTAAATCAGCTCTTTTGATGGAGCGTGATACAGGAAAGATATTATTCCATAAAAATGAGCATGAAAAACTACCACCAGCAAGTATGACGAAAATTATGACGCTGTTATTAATTATGGAAGCATTAGATGAAGAAAATTTAAAAATAAACGAACAAGTAAGGGTAAGCGAGCATGCTGCTTCTATGGGAGGGTCGCAAATATTCTTAGAAGCCGGAGAAGAGATGAGTGTTGATGACTTGTTAAAAGGAATTTCCATAGCTTCCGGTAATGATGCTAGTGTAGCTTTAGCAGAACGAATAGCTGGAAGTGAAGATGCTTTTGTAGAGAAAATGAACCAAAAAGTAAAAGAACTTGGATTAAAAAACACAAAATTTCAAAATGTAACAGGGCTTCCTGCTGATGAGCAGTACAGTACAGCTCATGATATGGCTGTGATGTCGAAAGAGTTGCTAAAATATGAAGATATTACTAACTATACCTCCATTTATGAGGATTATTTACGTAAAGGAGAAGATAATGAATTTTGGCTTGTGAATACAAATCGGCTAGTAAAGTTTTATGCAGGTGTTGATGGGCTAAAAACAGGCTATACAAGTGAAGCAAAATATTGTTTGTCAGCTACAGCGGAAAAAGAAGAAATGCGAGTTATTGCAGTAGTTATGGGAGCAAGTTCTTCTAAAGAAAGAAATGAACAAGTTTCTAAAATGCTTGATTATGCATTTAACCATTATCAAACGCAAAAATTATTTGAAAAAGGCGATAAAATAACCGAATTAAACCTAACTAAAGCTGAAAACAAACAAACTGATGTAGTTGCTGCAGAATCTATTAGTACATTATTTGAGCGGGGAGATTCTATTGACAATATTACTACAGAAGTGGTTATGAAAGAAGATATTCAACTTCCTGTTCAAAAAGGAGATTCTGTAGGTGAGCTTATTGTAAAAGATAAAGATAACATTTTATCTAGAAGTAATTTGACTGTTAAAGATACTATTCATGAAGCGACTTTCGGTACTCTTTGGAAGCGTGTATGGCAAAATATGGCGAAAAATGATTAA MKKTLCIISLVCILMGNAVTFVSAEEVKKNNNQKLAEDAKSALLMERDTGKILFHKNEHEKLPPASMTKIMTLLLIMEALDEENLKINEQVRVSEHAASMGGSQIFLEAGEEMSVDDLLKGISIASGNDASVALAERIAGSEDAFVEKMNQKVKELGLKNTKFQNVTGLPADEQYSTAHDMAVMSKELLKYEDITNYTSIYEDYLRKGEDNEFWLVNTNRLVKFYAGVDGLKTGYTSEAKYCLSATAEKEEMRVIAVVMGASSSKERNEQVSKMLDYAFNHYQTQKLFEKGDKITELNLTKAENKQTDVVAAESISTLFERGDSIDNITTEVVMKEDIQLPVQKGDSVGELIVKDKDNILSRSNLTVKDTIHEATFGTLWKRVWQNMAKND PGPT0024040_3734 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258 NA NA AK015_02252 1308 pdp Pyrimidine-nucleoside phosphorylase ATGCGCATGTATGACATTATTGAAAAAAAACGAGACAATCAAGCTTTAACAAAAGACGAAATTCAATTTTTTATTCAAGGTTATACGAATGGAGAAATTCCTGATTATCAAGTTAGTGCTCTATTAATGGCAATTTATTTTCAAGATATGAATGATCAAGAACGTGCTGAGTTGACCCAAGCTATGGTCGAATCAGGGGATCAGATTGAATTATCTGCTATTGAAGGAATAAAAGTAGATAAGCATTCTACTGGAGGCGTTGGTGATACAACAACGTTAATCCTTGCGCCACTCGTTGCTTCTGTAGGTGTACCGGTAGCTAAAATGAGTGGAAGAGGTCTAGGCCATACAGGTGGTACAATTGATAAATTAGAGTCTGTGCCGGGCTTTCATGTTGAAATATCCAATGATGAATTTATAGAATTAGTTAATAAAAACAAAGTAGCAGTCGTAGGTCAGTCAGGCAATCTTACTCCAGCTGATAAGAAAATTTATGGTTTGAGAGATGTTACGGCAACAGTAAATTCAATACCGCTGATTGCTAGTTCTATTATGAGTAAAAAGATTGCTTCAGGTGCAGATGCTATCGTTCTTGATGTGAAAACGGGCGCTGGGGCTTTTATGAAAGATTTGGATGATGCTAAGGAACTTGCAACGGCTATGGTTACAATAGGAAATAAAGTAGGAAGAAATACGATGGCGGTTATTTCTGATATGAGCCAACCACTGGGTCGAGCAATTGGAAACGCCTTAGAAGTGAAAGAGGCTATTGAAACATTGCAAGGGAAAGGGCCGGAAGATTTAACGGAGCTTTGCTTAACATTAGGAAGCCAAATGGTCGTCTTAGCAGAGGAGGCTGACACAATTGATGAGGCGCGCAAGAAATTAGAAGCAAACCTGCATAATGGCAAGGCATTACAGCAATTTAAGGTTTTTCTTGAATCTCAAGGTGGAGATGCTTCTGTAGTCGATCATTCTGAAACTTTACCCCAAGCATCTTATAAAATAGAACTGCCAGCTAAAAGTTCAGGAAAAATATCTGAAATTGTAGCTGATGACATTGGAACGGCAGCGATGATGCTAGGCGCTGGCAGAGCAACGAAAGATGCAGTTATTGATTTAGCAGTTGGTCTTGTTTTAAATAAGAAGATTGGAGACAGTGTGCTAGAAGGAGAATCTTTACTTACAATCTATGCAAATACAGAAGACGTTAACGATGTTAAAGAGAAGCTTTACAATAGTATTACTATTTCTACAAATGAAATAAAAGCACCAACATTAATTCATGGTATGATTACAGAATCATAA MRMYDIIEKKRDNQALTKDEIQFFIQGYTNGEIPDYQVSALLMAIYFQDMNDQERAELTQAMVESGDQIELSAIEGIKVDKHSTGGVGDTTTLILAPLVASVGVPVAKMSGRGLGHTGGTIDKLESVPGFHVEISNDEFIELVNKNKVAVVGQSGNLTPADKKIYGLRDVTATVNSIPLIASSIMSKKIASGADAIVLDVKTGAGAFMKDLDDAKELATAMVTIGNKVGRNTMAVISDMSQPLGRAIGNALEVKEAIETLQGKGPEDLTELCLTLGSQMVVLAEEADTIDEARKKLEANLHNGKALQQFKVFLESQGGDASVVDHSETLPQASYKIELPAKSSGKISEIVADDIGTAAMMLGAGRATKDAVIDLAVGLVLNKKIGDSVLEGESLLTIYANTEDVNDVKEKLYNSITISTNEIKAPTLIHGMITES PGPT0021295_268 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021295-pdp|deoA-K00756 NA NA AK015_02253 831 punA Purine nucleoside phosphorylase 1 ATGAAGCCAGAAGCAATAAAGCAAGCAAGCACATATATACAACAAAAAATAAAACATCAACCTAAAATAGGTTTAATTCTAGGATCAGGGTTAGGCGTGTTAGCGGATGAAATTGAAGATGCAGTAGTTATTCCATATAACGAGATACCACATTTTCCAGTATCAACGGTATCAGGTCATAAAGGGCAATTAGTCTCAGGAATATTAAAAGGAAAACCAGTTATTGCGATGCAAGGACGTTTTCATTATTATGAAGGATACCCAATGCAACAGGTTACCTTTCCTGTTCGTGTTTTCAAAGAGCTTGGAATGGAGACTCTTCTTGTTACCAATGCGGCTGGTGGCGTAAATGAACAATTTCACCCTGGAGATCTTATGCTTATTACAGATCATATCAATAACATGGGGGCCAATCCGTTAATTGGCAAGAATGATAATCAATTAGGAGTAAGATTTCCCGATCTGTCGGAAGTGTATAGTACAAAATTAATTGCACATGCTGAATCTTGCGCTAAAGACATTGGTTTACCAATTCAAAAAGGGGTGTATGTTGGCAATACAGGCCCTTCATATGAAACACCTGCTGAAGTTCGTATGCTTCGAACGTTAGGCGGCGATGCTGTTGGAATGTCGACGGTTCCTGAAGTTATTGTTGCAGCACATGCTGGTATGGAAGTCCTTGGTATTTCTTGCATTTCGAATATGGCAGCAGGTATTCTTGATCAGCCATTAACCCATGATGAAGTAATTGAAACTACAGAACGAGTGAAAGAATCATTTCTGCAATTTGTTAAGCAAGTAATTGAAAAAATTCCGGAAAGGTTAGGTTGA MKPEAIKQASTYIQQKIKHQPKIGLILGSGLGVLADEIEDAVVIPYNEIPHFPVSTVSGHKGQLVSGILKGKPVIAMQGRFHYYEGYPMQQVTFPVRVFKELGMETLLVTNAAGGVNEQFHPGDLMLITDHINNMGANPLIGKNDNQLGVRFPDLSEVYSTKLIAHAESCAKDIGLPIQKGVYVGNTGPSYETPAEVRMLRTLGGDAVGMSTVPEVIVAAHAGMEVLGISCISNMAAGILDQPLTHDEVIETTERVKESFLQFVKQVIEKIPERLG PGPT0013380_974 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783 NA NA AK015_02254 1182 deoB_2 COG1015 Phosphopentomutase ATGTCATTGCAAAAATTTAAACGTATTTTTCTTGTAGTAATGGATTCTGTAGGTATTGGAGAGGCGCCAGACGCTGAAATGTTTAATGATAAGGGGGCTGACACCTTAGGACATATTGCAGCACATCGGAATGGACTTCATATGCCGTATATGGGGAGTTTAGGCTTAAGTAATATTAGAGAAATACAAGGAATTGAGAAAGCGGATTCTCCAAAAGCGCATTATACAAAAATGAAAGAAGCTTCGAATGGAAAAGATACGATGACAGGTCATTGGGAAATAATGGGGCTTCATATTGAACAGCCGTTTCGCACTTTTCCAGAGGGATTTCCAGCTGAACTTATTCAAGAACTGGAGAAACAAACCGGTCATAAAGTAATTGGAAATAAACCAGCGTCTGGTACGAAAATTATTGAAGAACTTGGCGAAGAACATATGGAAACAGGTGCGTTAATTGTATATACTTCGGCAGATTCTGTTTTGCAAATCGCTGCACATGAAGAAATCATTCCAATTGATGAACAGTATCGTATTTGTGAGATAGCACGAAAGCTAACATTAGATGAAAAGTATATGGTTGGTCGTGTGATAGCTCGGCCGTTTATTGGTAAACCAGATGCCTTTGAACGAACTTCAAATCGCCATGACTATGCTTTAAAGCCTTTTGGAAGAACCGTTATGAATGAACTAAAGGATAATCAATACGATGTTATTGCTTTAGGAAAAATCTCTGATATTTATGATGGGGAAGGGGTTACGTTAGCAGTACGTACAAAAGATAATGATGACGGAATGACAAAATTAGTCGAGTCTATGGAAGAAGACTTTAATGGAATCAGCTTTTTAAATTTAGTTGACTTCGATGCAAAGTACGGACATCGTCGTGATCCTGATGGTTATGCCGAAGCTTTGGAAGCTTATGACGTTCGACTTCCAGAAGTACTAGAGAAACTACAGGATAAAGATTTATTAATTATAACCGCTGATCACGGTAATGATCCAACTCACCATGGTACAGACCACACTAGAGAGTTTGTTCCACTACTTGTTTATCATAATGGTATACAAGAAGGAAAAGAGTTACCAATTCGTGAAACATTTGCTGATATTGGTGCAACCATTGCTGAAAATTTTGAAGTTTCAATGCCAAAACATGGGACAAGCTTCTTAAATAGCATTTAA MSLQKFKRIFLVVMDSVGIGEAPDAEMFNDKGADTLGHIAAHRNGLHMPYMGSLGLSNIREIQGIEKADSPKAHYTKMKEASNGKDTMTGHWEIMGLHIEQPFRTFPEGFPAELIQELEKQTGHKVIGNKPASGTKIIEELGEEHMETGALIVYTSADSVLQIAAHEEIIPIDEQYRICEIARKLTLDEKYMVGRVIARPFIGKPDAFERTSNRHDYALKPFGRTVMNELKDNQYDVIALGKISDIYDGEGVTLAVRTKDNDDGMTKLVESMEEDFNGISFLNLVDFDAKYGHRRDPDGYAEALEAYDVRLPEVLEKLQDKDLLIITADHGNDPTHHGTDHTREFVPLLVYHNGIQEGKELPIRETFADIGATIAENFEVSMPKHGTSFLNSI PGPT0017440_1557 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839 NA NA AK015_02255 894 xerD_2 Tyrosine recombinase XerD ATGTTACATGATAGTGCAAAAGATTTTTTTCAGTATCTGCGAATTGAGCGAGGGTTGTCAGATAATACACTTACATCCTACCAAAGAGATATTAACCAATATATTCAATACTTAAAAACAATTGTAGGAAGAAAGAATTGGGAAGAAGTTACACGAACAGATATGACCAAGTTTTTATACAGCTTGAAAGACGATAATAAGTCGTCAGCTACGATATCTCGTCATACTTCTTCACTGCGAGCGTTTCATCAATTTTTAGTTCGTGAGCAAATTGTGACCCATGATGCAAGTTTGCATATTGAAACACCAAAGAAAGAGCGCAAACTACCAGATGTTTTATCTGTCAAAGAAATGGATGCGCTTTTAAACATTCCAGGGACAAGCCCATTACAGGTAAGAAATAAAGCGATGTTTGAACTTCTCTACGCAACAGGATTACGTGTAACTGAAATGATTACTTTAAGAGTTTCTGACTTACATCTCACCATGGGATTTGTGCAGTGTGTAGGCAAAGGGTCGAAAGAGCGTATTGTTCCATTAGGTAATACAGCTATCCATGCAGTGGAGAACTATTTGCAACAAGGAAGAAAGAAGTTAATTAAACGTCATCCTAAGACAGATACTCTATTTGTAAATCAACATGGTAAACCATTGTCACGACAAGGTTTTTGGAAAGTTTTAAAGAAAAGAGCGTTGGAAGCCGGTATAAACAAAACAATTACGCCCCATACATTACGGCACTCTTTTGCTACACATTTATTAGAGAATGGGGCAGATTTACGACTTGTTCAAGAAATGCTGGGACATGTAGATATTTCCACAACACAAATATATACTCATGTAACAAAAACTAGGCTAAAGGATGTTTATACAAGTTATCATCCCAGAGCTTAA MLHDSAKDFFQYLRIERGLSDNTLTSYQRDINQYIQYLKTIVGRKNWEEVTRTDMTKFLYSLKDDNKSSATISRHTSSLRAFHQFLVREQIVTHDASLHIETPKKERKLPDVLSVKEMDALLNIPGTSPLQVRNKAMFELLYATGLRVTEMITLRVSDLHLTMGFVQCVGKGSKERIVPLGNTAIHAVENYLQQGRKKLIKRHPKTDTLFVNQHGKPLSRQGFWKVLKKRALEAGINKTITPHTLRHSFATHLLENGADLRLVQEMLGHVDISTTQIYTHVTKTRLKDVYTSYHPRA PGPT0022000_6486 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763 NA NA AK015_02256 207 hypothetical protein ATGAGAACAATTCTAATGGATATTGTAAAAGTGTTTTTTTTGTTTGTTGCGTTCACCTTATTATTTTACTATGGTTTACGTGTTATGCATGCTGAATATGAGCACTTTCATCGCTACGCCCCACCTGAAGGCCCTGCTGTGAAAGTATATTCAGAAGAGCATAGTTTTTTTGAACGCATTCATTTATTTTTCCGTTTAGGGGAGTAA MRTILMDIVKVFFLFVAFTLLFYYGLRVMHAEYEHFHRYAPPEGPAVKVYSEEHSFFERIHLFFRLGE NA NA NA NA NA AK015_02257 459 fur COG0735 Ferric uptake regulation protein ATGGAACATCGAATTGACCGGATTAAAAAACAACTCCATGCCCAAAGTTATAAGTTAACACCGCAGCGCGAGGCTACTGTCCGTGTTTTATTGGAAAGGGAAGAAGACCATTTGAGTGCGGAAGATGTTTATTTATTAGTAAAAGAAAAAGCCCCAGAAATAGGTTTGGCAACTGTATATCGTACATTGGAATTATTATCGGAATTGAAAATTGTTGATAAAATAAATTTTGGTGATGGTGTTTCTCGTTACGATTTACGAAAAGAAGGTGCAAAACATTCGCATCACCACCTCGTTTGTTCCGAATGTGGTGCAGTTGAAGAAATTGAAGAAGATTTACTTGAAGAGGTTGAAAAAATAGTTCAAAATGAATGGGGATTTCAAGTAAAGGATCACCGACTCACATTCCATGGTGTTTGTAAGCAATGCCAAGCTGTAACAGTAAGTGCTTCTAGTTAA MEHRIDRIKKQLHAQSYKLTPQREATVRVLLEREEDHLSAEDVYLLVKEKAPEIGLATVYRTLELLSELKIVDKINFGDGVSRYDLRKEGAKHSHHHLVCSECGAVEEIEEDLLEEVEKIVQNEWGFQVKDHRLTFHGVCKQCQAVTVSASS PGPT0003880_1379 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711 NA NA AK015_02258 636 spoIIM COG1300 Stage II sporulation protein M ATGCAGAAAAATAAAATGCTTCTCATTAATCACGTTAAAGAACATGCAACAATCTATTTATTTATGGTCATTCTATTTTTAACCGGTGTTATATTTGGAGCAATCCTCGTTAATAGTATGAATTTTGTTCAGAAACAAGATTTATTCTTCTATTTAGAACGATTTTTTAAACAGATAACAGATAATGAACTAGCGAATTACGATGAAATTTTCAAAAATAGTTTTTTTTATCATATTAAGTATTTATTGCTTTTATTTGTGTTGGGACTATCTGTTATCGGTTTGCCATTAGTTTGGATCCTAATTTTTCTTAAAGGTTTGGTAATCGGGTTCTCTGTTGGTTTTATGGTTAATCAGCTAGGAATGAATGGCTTGTTGATCGCTACTTTATCCATCGCCCCACAGAACTTTCTTATTATACCTGTATATATTATAGCAGGTAGCTTGGCAATGATTTTTTCTTTAACATTATTGAGTAAATTATTTACTAATAAAATATCACAACCAGTTTTTCAACCTTTTGGAAGATACGTCATATTATTTTCATTGTTGGCTTTTTTTGCTAGTGTTGCTGCTCTTTTGGAAACATTTATTGCAAATGAGGCAATGCAATGGGTTGTTCGGTCATTTTACTAA MQKNKMLLINHVKEHATIYLFMVILFLTGVIFGAILVNSMNFVQKQDLFFYLERFFKQITDNELANYDEIFKNSFFYHIKYLLLLFVLGLSVIGLPLVWILIFLKGLVIGFSVGFMVNQLGMNGLLIATLSIAPQNFLIIPVYIIAGSLAMIFSLTLLSKLFTNKISQPVFQPFGRYVILFSLLAFFASVAALLETFIANEAMQWVVRSFY PGPT0024685_271 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384 NA NA AK015_02259 1164 hypothetical protein ATGCTATCCTCGTATACGGCTGACTTACACATCCATATTGGTCGTGACATGTACAATGACCCTGTGAAAATAACGGCTTCTAACCGTCTGACATTACCGGCGATTTTAAAAGAAGCAAGTAGAAATAAAGGAATTGATATGGTAGGTGTGGTAGACTGTCAAGTGCTTGCTGTGTTAAGGGAGTTAAAACAGTTGATAGTTCAAGGGGATGCTAAAGAGTTACAAGAAGGTGGTATTCGATTTGACTCGGTGACGCTTCTATTAGGATCAGAAATTGAGGTGAATGATGCCAAGGGGCAAGGACCGATTCATGTTCTTTGCTATTTTCCCCAAATCCACCAAATGGAGTTATTTTCTGAATGGCTTAGCCATCGGATGAAAAATATTTCCTTAAGCTCGCAACGTTTTTATGGATCTGCTAAAGAATTACAATGGAAAGTAAAAGACTTACAAGGTGTGTTTATTCCCGCGCACATATTTACTCCCTTTAAAAGTTTGTATGGTAAGGGTGTTTTACGAACTTTATCAGAAATACTATCTCCAGATTTAATTGATGGAATGGAGCTAGGTCTAAGTGCTGATACGCAGATGGCCGATCAGATAGAGGAACTGCATTCTTTCACATATCTAACTAACTCTGATGCACATTCTTTAGGGAAGATCGCACGAGAGTATCAGCATATGCAAATGAAACATCCTTCATTTAAAGAGTTTCAATTCGTATTAGCGAACAAAAATGGCAGGAAAATACAGAATAATTACGGAATGAACCCGAAATTAGGTAAATACTATAGAACGGTATGCAGTGAATGCTTAACTTATTTAGCGGTAGAAAAATCTGTTTGCCCTAATTGCCATTCTAAAAAACATATTAAAGGCGTAGCAGACCGAATTGCAGCTTTAAAGGACGCGGATGAACATTGTAGCTCTCGACCTGACTATACGTATCAAGTTCCATTGGAATACTTGCCGGGTATAGGGAAGAAAACATATGAAAAACTTTTGAAAAGCTTTGGAACAGAGATGCATATTATACATCAAACTACTAGGGAGAAACTTGCTCTTGTAGTATCAGAACAAATAGCACAAGCAATTATTGATATGAGAAATGGGAAATTACATGTTCAAGAAGGAGGCGGAGGTAAATATGGTTTTATTAAGTGA MLSSYTADLHIHIGRDMYNDPVKITASNRLTLPAILKEASRNKGIDMVGVVDCQVLAVLRELKQLIVQGDAKELQEGGIRFDSVTLLLGSEIEVNDAKGQGPIHVLCYFPQIHQMELFSEWLSHRMKNISLSSQRFYGSAKELQWKVKDLQGVFIPAHIFTPFKSLYGKGVLRTLSEILSPDLIDGMELGLSADTQMADQIEELHSFTYLTNSDAHSLGKIAREYQHMQMKHPSFKEFQFVLANKNGRKIQNNYGMNPKLGKYYRTVCSECLTYLAVEKSVCPNCHSKKHIKGVADRIAALKDADEHCSSRPDYTYQVPLEYLPGIGKKTYEKLLKSFGTEMHIIHQTTREKLALVVSEQIAQAIIDMRNGKLHVQEGGGGKYGFIK NA NA NA NA NA AK015_02260 546 act Methanol dehydrogenase activator ATGAACAAATTTGAAGAGAAAACGATACGTTCCAAGCAAATATTTACAGGAAACATCGTACATTTACAAGTAGATGATGTAAAACTTCCAAATGGTAAAGAGGCGAAAAGAGAGATTATTAAACACCCGGGAGCAGTAGGAATCATTCCTATAACGAAAGATAATAAAATTGTACTAGTGGAACAATTCCGAAAACCTTTAGAAAAATCTATTTTGGAAATTCCTGCTGGCAAATTGGAGCCAGGTGAAGATCCTGAGACTACAGCAATTCGTGAATTAGAAGAAGAGACAGGATATACGACGGAAGAATTATCATTTGTAACTTCATTTTATTCTTCGCCAGGGTTTGCGAACGAATTAATGTATATATATATTACGGATCAGTTGGAGCCGTTAGACGAAAGCGTTGACGGAGATGAGGATGAGTTTATTGAAATCGTCGAATTATCATTAGAAGAAGCCAAACAATACGTAGAAGCAGAACGAATTCACGATGCAAAAACAAATTATGCTATTCTCTATTTACACGCATTAGGATTGAGCTAA MNKFEEKTIRSKQIFTGNIVHLQVDDVKLPNGKEAKREIIKHPGAVGIIPITKDNKIVLVEQFRKPLEKSILEIPAGKLEPGEDPETTAIRELEEETGYTTEELSFVTSFYSSPGFANELMYIYITDQLEPLDESVDGDEDEFIEIVELSLEEAKQYVEAERIHDAKTNYAILYLHALGLS PGPT0021525_2902 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515 NA NA AK015_02261 918 yhdN COG0667 Aldo-keto reductase YhdN ATGAATTTAAACCAACTTGGAAAATCATCCATTTACATTTCAGAATTAACATTAGGCTGCATGTCGTTAGGAACAGATTTACAAAAAGCCAAGTATATTATTGACTATGCGCTTGATAATGGTATCAATCATTTAGACACAGCTGATTTATATGATTTTGGTGAGAATGAAAAAGTTGTTGGAGAAGCGATCAAACAGAAGAGAGGCCAAGTAATTATTACTTCAAAAGTAGGCAATCATTTTGATAAAGTAAAACAAACTTGGTTTTGGGACCCTTCTAAGAAACATATCCTCAATGGTCTAAAAGCAAGCCTTCAACGCCTACAAACAGATTATATTGACTTTTATATGCTACATGGTGGCACCATTGAAGACCCAATTGACGAAACTATTGAAGCCTTTGAAGAGCTGAAACAGGAAGGACTCATTCGAGCTTATGGCATATCCTCGATACGACCTAATGTTATTAAAGAATTTGTAAAAAAATCATCTATAGACGGTGTTATGATGCAATATAGTTTGTTCGACCGACGACCTGAAGAAGAAACACTTGACCTTTTACTACAAAATCAAATTAGTGTTTTAGCAAGAGGTCCTTTAGCAAAAGGGATTTTAACTGCACAGGGGATTCATCAGATTGATAAAAAAGGAAAAGATGGTTTTCTTGGATATTCAAAAGAAGAGCTTCACCAAACTTATAAACAACTTACTTCTATCGATAACTCAGCGAAAATAAATGAGCTTGCAATACAATATGTCTTGAAACATCCAGCTGTTGCTAGTGCGGTATTTGGCGCAAGTTCTATTGACCAAATAAAAGAATCGGTTACAAAAAATATTACCCATTCTTTACCCGAACATATCTATGAAAGATTAAAAGTAATAACCAAAGCTCTTGTTTACGAGGCACATCGTTAA MNLNQLGKSSIYISELTLGCMSLGTDLQKAKYIIDYALDNGINHLDTADLYDFGENEKVVGEAIKQKRGQVIITSKVGNHFDKVKQTWFWDPSKKHILNGLKASLQRLQTDYIDFYMLHGGTIEDPIDETIEAFEELKQEGLIRAYGISSIRPNVIKEFVKKSSIDGVMMQYSLFDRRPEEETLDLLLQNQISVLARGPLAKGILTAQGIHQIDKKGKDGFLGYSKEELHQTYKQLTSIDNSAKINELAIQYVLKHPAVASAVFGASSIDQIKESVTKNITHSLPEHIYERLKVITKALVYEAHR PGPT0008280_160 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0008280-ydjG-K18471 NA NA AK015_02262 330 hypothetical protein ATGGAACTAAAAATTACGAATAAAGCTTGGGAAGAGCTACAAGGATTACCGCTAGAATGTTATCCGTATTTATTTTTGTGGTATGATACGGAAGGTTGCGGCTGTGGGGTGAACGGCATACCAACAATTTGTTTAACAAAACAATTGCCATCAAACTATAAGCAGGTATTAAATATGCAAATACCGACTTATATTGAAGAACAACAAGAAATATTTTTTGCAGAACAATTAACTCTGGATTACAATCAAGGTTTATTTCGTCTAAACAGCCCTGAGGAGATTTTGAATCCTTTTATTTCTAGAAAACAATTAACTTCTTTCATAGAATAA MELKITNKAWEELQGLPLECYPYLFLWYDTEGCGCGVNGIPTICLTKQLPSNYKQVLNMQIPTYIEEQQEIFFAEQLTLDYNQGLFRLNSPEEILNPFISRKQLTSFIE NA NA NA NA NA AK015_02263 801 putative oxidoreductase ATGAAGCGAACTTCATTAGTGAATAAAAAAATAATTATTACAGGTGCATCAAGCGGTATTGGAGAGAAAGTGGCATGGTATGTTGCTAAGGAGAGAGGTGTCCCTATAATATTAGCTCGCTCACCAGATAAATTGGAGCATTTAAAAGCGGCTATTCTTTACTCATTCCATATTGATAGTCCTATTTATATTGTTGATTTGTTAAATAAGCAGGAGACAAAAAAGGTGATAAATGAAATCATAGAAAACCACGATCCAGTGCATGGTCTCATTAATAATGCTGGTATAGGAATGTTTGCAGAATTGAGTGCAATGAATGAAGGTGATATCGAGTCTATGATTCAATTAAATGTAGCTTCTTTAATTGGTATAACCAAGCAGCTCTTGCCATATTTTCAAAAACAATCCTTAGCACATATCGTTAATATCGCATCTCAAGCAGGGAAAATAGCCACACCAAAAGCTTGCGTATATGCAGCAACCAAACATGCAGTACTTGGCTTTACAAATGGACTGCGCCTGGAGTTGACTGCGAGTAGTAATATTTATGTGACAGCAGTAAATTTAGGGCCTGTAAAAACGAGTTTTCTTCATACAGCTGATCCAACAGGTAGGTATGAGAAAAATGTTGCGCGTTACATGTTGGATCCAGATGATGTTGCAAAAAAAATTGTACAACAATTATTTATTCCAAAAAGAGAGATAAATTTGCCATTTTGGATGGAAATTGGCAGCCGAATCTATCAATTGTTTCCAGCAATATGCGAAAACCTATTTAAAAGCCAATTCATGAAAAAATAG MKRTSLVNKKIIITGASSGIGEKVAWYVAKERGVPIILARSPDKLEHLKAAILYSFHIDSPIYIVDLLNKQETKKVINEIIENHDPVHGLINNAGIGMFAELSAMNEGDIESMIQLNVASLIGITKQLLPYFQKQSLAHIVNIASQAGKIATPKACVYAATKHAVLGFTNGLRLELTASSNIYVTAVNLGPVKTSFLHTADPTGRYEKNVARYMLDPDDVAKKIVQQLFIPKREINLPFWMEIGSRIYQLFPAICENLFKSQFMKK PGPT0030485_1337 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-OXIDOREDUCTASE_ACTIVITY PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124 AK015_02264 984 gloB_6 Hydroxyacylglutathione hydrolase ATGAAAGTAATTGAACAAACAATTAGTCAGCTAACATTGCCCACTCCTTTTGCGGTCGGCGATGTGCATGTATACGTTTTAAAAGGAGATATTTTATCTATTGTAGATGCTGGTGTGAAAACGAAACAGGCATGGGAAGCATTGGCAACGCAATTAAAGCAAATAGGTTATCGACCATCAGATATAGAGCAGATTATTTTGACCCATCATCATCCTGATCATATCGGTTTAACAGAACAGTTTCCAAATGCACAATATATTGCCGCTGAGCCAAGTGTTAACACTTGGCTAACAAGAGATCAGGAATATTTGGAACATTATAGGCGTTTTTTTGAACAATACTTCGTGGCTAGCGGCATCCCTAAAGTATTTTATCAGGCTTTGGATAAGCTTGAGGCAACTATGGATTTTGCAGGGAGAGGAGAAGTTACGACACCGCTAGTAGAAGGTGATCGATTACCTGGACATCCAGAATGGAAAGTAATTGAAACGAAAGGGCATGCGCAAAGCCATCTGTCTTTTTTGCGTGACCGTGATCACCTTTTAATTGGCGGGGATCATCTTTTGGAACATATCTCGTCCAATCCAATAATAGAGCCACCGAAAATAGGCAAAACGATAGAAGATAGACCAAAGCCGATGATACAATATCGGAACAATCTGCAAAAATGCGTTGATATAAACGTGAACAAAGTGTTACCTGGTCACGGCAAGATCGTAGAGAATCCACAACAGTTGATTCTCTCACGTTTAACAAAGCAGGAGGAGAGAGCAAATATAGTTTATGAATTTTTACAGCAAAGCGTAATGTTAACGCCATTTGAAATTTGTAAAAAGTTATTCCCACACCAATATAAAAAACAAATTGACCTAACTATGTCTGAAACATTCGGACAATTAGATTATTTAGAATCTTTAAGGCGAATTATAAAAAGAAAAAAGGACGGAATCATCGTTTATGAAGCGAACTTCATTAGTGAATAA MKVIEQTISQLTLPTPFAVGDVHVYVLKGDILSIVDAGVKTKQAWEALATQLKQIGYRPSDIEQIILTHHHPDHIGLTEQFPNAQYIAAEPSVNTWLTRDQEYLEHYRRFFEQYFVASGIPKVFYQALDKLEATMDFAGRGEVTTPLVEGDRLPGHPEWKVIETKGHAQSHLSFLRDRDHLLIGGDHLLEHISSNPIIEPPKIGKTIEDRPKPMIQYRNNLQKCVDINVNKVLPGHGKIVENPQQLILSRLTKQEERANIVYEFLQQSVMLTPFEICKKLFPHQYKKQIDLTMSETFGQLDYLESLRRIIKRKKDGIIVYEANFISE NA NA NA NA NA AK015_02265 738 glpQ_1 COG0584 Glycerophosphodiester phosphodiesterase GTGAAACCAACCCTATATGCTCATCGAGGGGCAAGTTATTATGCTCCCGAAAATACGATGCCAGCCTTTGAATTAGCATTTCAAATGCAAGCGGATGGAATTGAAACAGATGTTCAATTAACAAAAGACCAAGTGCCAGTTCTTATTCATGACGAGAACGTAAAACGAACAACAAACAGCAGCGGTTATATTAAAGATTATACTTACCATGAACTATGTCAGCTAGACGCAGGGAGTTGGTTTTCGCCTAATTATGCCCATACTCCTATTCCAACTTTAGAAGACTTTTTAACATGGGCGAAGCATAAGCCTTTGTATTTAAATATTGAACTAAAAAATAATAAAGTGGCATACCATCATATAGAGGCAATCGTTTATGAGTATATTTCTGCTTATCAACTAACGAATAGAACAACCATATCGACTTTCAATACGAATAGCGTGGTTAAACTGTTAAATTATAGAAAAAACATTGAAATAGCGCTATTAACATCGCGGCGATATCGCTATCCTATACATGTTGCAAAGGAATTAGGTGCTAGTGCATTACACCTAAAATATAAGTTGATCACACCAAAAATCGTAGCCTCCGCTTATGAACAAAACGTAAAACTAAGACTTTATACTGTAAACCGCCCGGCCCACATTATTCGATCTATTCAATATGGTGTGGACGGAATGTTTACAGACGTACCTGATCAGGCATTCTACTATCGTGATTTGTTGTACAATCGTTAA MKPTLYAHRGASYYAPENTMPAFELAFQMQADGIETDVQLTKDQVPVLIHDENVKRTTNSSGYIKDYTYHELCQLDAGSWFSPNYAHTPIPTLEDFLTWAKHKPLYLNIELKNNKVAYHHIEAIVYEYISAYQLTNRTTISTFNTNSVVKLLNYRKNIEIALLTSRRYRYPIHVAKELGASALHLKYKLITPKIVASAYEQNVKLRLYTVNRPAHIIRSIQYGVDGMFTDVPDQAFYYRDLLYNR PGPT0018470_7193 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK015_02266 918 rnz COG1234 Ribonuclease Z ATGGAAGTAGTTTTTCTAGGTACTGGAGCTGGCGTTCCCTCCAAAGAAAGAAATGTTTCTGCTATCGCGTTATCATTACTACAAGAACAGAATAGTGTTTGGTTATTTGATTGTGGAGAAGCAACACAACACCAGATCTTGCAAACGAATATCAAGCCACGCAAAGTTAATAAGATATTTATTACGCATATGCATGGCGATCACATTTATGGTTTACCAGGTTTTTTAAGTAGCCGTTCTTTTCAAGGGGGAAACAATCCTGTAACTGTCTATGGCCCAAAAGGTTTAAAACAATATATTGAAACAAGTCTAACCTTGAGTGAGACACACTTGTCTTATCCGTTATCATTCGTGGAAGTAACGGATCAAATGATCATTGAAACAGAGCATTTTCAAATATATGTTCAGTCATTAGATCATGGTATACCATGCTTTGGTTATCGAGTTGTTGAAAGAGATAAGCCAGGTGAGTTACTTGTTCACAAACTAAAGAAAATGGGTATTGAACCTGGTCCTATCTATAAGGAAATTAAAGAAAATGAGTACGTAATAGTACCCGATATTGGAACTATTTATCGTAAGGATGTGGTTGGTGAACCAAAACGAGGAAGGATTATATCTGTAATCGGTGATACGAGGTTTTCTAAGCTTCACAGAAAGCTTGCTAATCATGCAGATTTACTTATTCATGAAGCGACATTTGGCAAAGACAAGCAAAACCTTGCCCACCGTTACTATCATTCCACAACGTTACAGGCTGCTCAATTAGCCAAGGAAAGCAATTGTAAACGTCTAATAATTACACATATTTCGTCAAGGTATCAACAAAAAGAAAACGAGCAACTTTTACAGGAAGCCCGAGAAATATTTCCTAATACAGAATTGGCTAATGATTTTTCAAAGTTTACCATTACATAA MEVVFLGTGAGVPSKERNVSAIALSLLQEQNSVWLFDCGEATQHQILQTNIKPRKVNKIFITHMHGDHIYGLPGFLSSRSFQGGNNPVTVYGPKGLKQYIETSLTLSETHLSYPLSFVEVTDQMIIETEHFQIYVQSLDHGIPCFGYRVVERDKPGELLVHKLKKMGIEPGPIYKEIKENEYVIVPDIGTIYRKDVVGEPKRGRIISVIGDTRFSKLHRKLANHADLLIHEATFGKDKQNLAHRYYHSTTLQAAQLAKESNCKRLIITHISSRYQQKENEQLLQEAREIFPNTELANDFSKFTIT NA NA NA NA NA AK015_02267 1371 aldH1 COG1012 4,4'-diaponeurosporen-aldehyde dehydrogenase TTGATCGACATACCACAGCTTGTTGCTGATCAACGTACGTTTTTTTTAAATGGAAACACGATGGATTATAGCGTTCGTAAGCAACAATTACAAAAAGTAAAATCAATGTTAAAGGAAAATGAAGCAAGTATCTATCAAGCATTAAAAGCAGACTTAAATAAATCCAAACATGAAACATTAACAACTGAATTAGGCTTTTTATATATGGAGATTGATCATACTCTAAAACAATTACAAAATTGGATGGAACCAATTAAAGTAGCTGCACCAATTACGCATAAAGGTACAAAAAATTATATATTGAAGGAGCCATTCGGTGTTTGTTTAGTTATTTCACCTTGGAATTATCCATTACAACTAGCTCTGGCTCCTGCAATCGGTGCTTTAGCCGCAGGAAACTGTGTCATCATTAAGCCTTCGGAAGAAGCAAAAGCAACATCAGCATTATTAAGAAAGATGATTGATAATTATTTTGACCCTTCTTTCTTAACAGTTGTAGAAGGTGAAAAGGAGACTGCTCAAGAATTGTTGCAACAACGCTTTGATTACATTTTTTTTACAGGAAGTACCGCTATCGGTAGAATTATAATGCAGAAAGCGAGTAAGCATCTAACACCTGTTACATTAGAACTTGGTGGTAAAAGCCCTGTCATTGTTGATAAAGACGCAAATATTAACCTAGCAGCTAAAAGAATTGCATGGGGGAAATTTACCAACGCAGGACAAACTTGTGTAGCTCCAGATTATTTGTATGTACATGAGAAAGTAAAATTTAAATTAATTAAATCCATGAAAAAATATATTCGCAGTTTCTATGGACGGACCCCATTAAATAATAAAGACTATATCCGAATAATTAATGAAAAACATTTTAATCGCCTATCTAAATTCCTTGCTAACGGTTCCATTTTACACGGCGGTGCGACGGATCCGCTAACATTAAAAATAGAACCAACCCTTCTAGATAAAATCACGTGGGAAGATTCTGTGATGCAAGAAGAGATTTTTGGCCCTATTTTGCCTATATTAACGTTTGAAGAAATTGAAGAGGCAGTGAGCGTCATACGTAAACAAGAAAAACCATTAGCTTTATATTATTTTGGAGAAAATGGGCACACACAGCAGCAAATCATGCAATACTTATCTTTTGGTGGTGGTAGTATTAATGATACCGTTCTGCATTTGGCGAATCCACATCTTCCTTTTGGTGGCGTTGGTGAGAGCGGAATGGGAGCTTATCACGGTAAGTTCAGTTTTGATACATTTTCTCATAAAAAAAGCATTATGAAACAATCCACCAAATTTGATGTACCGTTTCGTTATCCAGGCGGAAAAATATCCGATAGCATTTTGAAAAAAATCATGAAATAA MIDIPQLVADQRTFFLNGNTMDYSVRKQQLQKVKSMLKENEASIYQALKADLNKSKHETLTTELGFLYMEIDHTLKQLQNWMEPIKVAAPITHKGTKNYILKEPFGVCLVISPWNYPLQLALAPAIGALAAGNCVIIKPSEEAKATSALLRKMIDNYFDPSFLTVVEGEKETAQELLQQRFDYIFFTGSTAIGRIIMQKASKHLTPVTLELGGKSPVIVDKDANINLAAKRIAWGKFTNAGQTCVAPDYLYVHEKVKFKLIKSMKKYIRSFYGRTPLNNKDYIRIINEKHFNRLSKFLANGSILHGGATDPLTLKIEPTLLDKITWEDSVMQEEIFGPILPILTFEEIEEAVSVIRKQEKPLALYYFGENGHTQQQIMQYLSFGGGSINDTVLHLANPHLPFGGVGESGMGAYHGKFSFDTFSHKKSIMKQSTKFDVPFRYPGGKISDSILKKIMK PGPT0006875_9733 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128 NA NA AK015_02268 309 hypothetical protein GTGAATAAAAAATGGAGCGTGTTGACTTACTTTACACTTTCCATTATCGGGCTTATGCTTATTTACTTTATCGGTTCATATTTTTTAATACATACTAGTTCATATTCATCTGCGAAAGTGGTAGATAAATACGTCAAAGACAATGACTATTTTATTTCGGTTGAAATAGAAGAGAATCAAATCATTGATATAATAGTAGAAAGCAAATCAACATGGGATTTAATAAAGGAGAAAGCAAACTATCAAATCACTTACTCTTGGTATGGTAATGAAGTTCCTAAATTGCATGATATTGCAAACTATTCGTAA MNKKWSVLTYFTLSIIGLMLIYFIGSYFLIHTSSYSSAKVVDKYVKDNDYFISVEIEENQIIDIIVESKSTWDLIKEKANYQITYSWYGNEVPKLHDIANYS NA NA NA NA NA AK015_02269 1263 dinB_1 DNA polymerase IV ATGAATAATGGTGCCGAGAAACAAAGAAGAATTATTTTCCATGTCGATATGAATAGCTTTTATGCTTCCGTGGAGATGGCTTATGATCCTAGCCTTAAAGGAAAGCCGTTAGCTATTGCTGGTAACCCTGAGGAAAGAAAAGGGATCGTGGTAACGAGTAGTTATGAAGCTCGAGCCAAAGGAGTTAAAACAACAATGAACGTATGGCAAGCAAAAAAATTATGTCCGGATTTGCTTGTAATGCGACCTAATTTCTCACGCTATCGAGCAGCTTCTAAGGCGGTATTTAAAATATTTTCTGAGTATACTACACTCGTACAGCCTGTATCTATTGATGAAGGTTTTATGGATGTTACAGAAATTGCAAAGGATGTTCACGCTGTTGATCTAGCTCAAGAAATACAACAACGAATATTGAGGGAGCTTGATTTACCAAGTAGTATTGGCATTGCGCCTAATAAATTTCTAGCTAAAATGGCTTCAGATATGAAAAAGCCTTTAGGTTTAACCGTGCTAAGAAAGCGCGAATTACCTACTAAATTGTGGCCATTGCCAGTTGGAGAAATGTATGGGGTTGGCGAAAAAACTGCTACTAAGTTAAATAAAGCAGGCATTTATACTATTGGAGATTTAGCAAAAAAGGATGTATATCATTTAAAGCAATTCCTTGGAATAAATGGTGAGCGATTACAAAACAGGGCAAATGGTGTAGATAACCGTCCTATCGACCCAAATGCAATATATGATTTTAAAAGTATCGGTAACTCTAAAACACTTCCTTTTGACACTACGGATGATGAAAAAATATATACCTTACTAAAAGAATTAGCGAATAAAGTAGAACAGAGAATGAAACGAAAAAAAACCGTAGGAAAGAGTGTACAATTAACTATTCGCTATCATGATCGCCACACGATTACTCGTAGTAAAAAGCTACGTTATTATGTACATGGTGCAAAAGATATTTTAACAGAGGTATATGACCTGCTACAAAAACATTGGAATATGGAACCTATTCGTTTGCTAGGAATAACAGTAGCTGACTTAGAAGAAGGGCAACAAATTGCAAAACAGTTGGATTTATTTACGTATCAAAATGAGGCGGAAAAAGAAAAATTATACGATGCAATTGATCATTTGACCAGTAAATACGGTAAAAATCCGTTTATTCATGTAGAAGATATGGACTCCGTAGATACACAGCAACCAACAACAAGCTTTCAAAAAGATTTTCTAGACGATTATAAAAACGACAGAAATTAA MNNGAEKQRRIIFHVDMNSFYASVEMAYDPSLKGKPLAIAGNPEERKGIVVTSSYEARAKGVKTTMNVWQAKKLCPDLLVMRPNFSRYRAASKAVFKIFSEYTTLVQPVSIDEGFMDVTEIAKDVHAVDLAQEIQQRILRELDLPSSIGIAPNKFLAKMASDMKKPLGLTVLRKRELPTKLWPLPVGEMYGVGEKTATKLNKAGIYTIGDLAKKDVYHLKQFLGINGERLQNRANGVDNRPIDPNAIYDFKSIGNSKTLPFDTTDDEKIYTLLKELANKVEQRMKRKKTVGKSVQLTIRYHDRHTITRSKKLRYYVHGAKDILTEVYDLLQKHWNMEPIRLLGITVADLEEGQQIAKQLDLFTYQNEAEKEKLYDAIDHLTSKYGKNPFIHVEDMDSVDTQQPTTSFQKDFLDDYKNDRN PGPT0014881_1142 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 AK015_02270 1122 pepT_2 COG2195 Peptidase T ATGGTGAATGAGAAGCGTTTAGTTGAAGAATTTTTAGAACTTGTACAAACTGATTCCGAAACAGGCAACGAAGAAAAAATTGCATCTGTTTTAAAAAGTAAATTTGAAGTACTAGGTATTGAAGTCTTGGAAGATGATAGCAAATCTACGACAGGTCATGGTGCCGGAAACCTAATCTGTAATTGGAAAGGGGATATTGCTAACGCTGAGACCATTTACTTTACTTCTCATATGGATACGGTTGTACCGGGTAAAAACATTAAACCAGTCATCAAAGAAGGATGGATTACTTCAGATGGCACAACTATTTTAGGGGCTGATGATAAAGCTGGATTGGCTGCGATTCTTGAAACAGTTCGCGTCTTTAATGAACAAAAAATAAGTCATGGTGACATTCAATTTATAATAACAGTTGGCGAAGAATCTGGATTAGTAGGAGCAAAAGCTTTAGATACCTCTTTATTACAAGCAAATTATGGTTATGCATTAGACAGTAACGGTAATGTGGGAGATATTATAGTGGCTGCACCAACGCAAGCGAAACTCCATGCAACTATAAAAGGTAAAACAGCTCATGCGGGTGTAGCACCAGAAAAAGGGATATCTGCAATTACGTTAGCTGCAAAAGCAATTGCTAAAATGCCATTAGGAAGAATTGATGAGGAAACAACTGCAAACATAGGTCGTTTTGAAGGCGGAAAACAAACAAATATTGTAGCAGACCATGTAGAAATTTTAGCAGAGGCCAGGTCTCTCGTCCCAGAAAAGATGGAAGCCCAAGTTCAGAAAATGAAGGAAGCTTTTGAACAAACGGCAAAAGAACTTGGTGGAGATGCAGAAGTTATTGTTAAAGTGATGTACCCTGGTTTTAAACAAGAATCTGGAGATAAAGTGGTAGAAGTAGCTAGGAAAGCTGCTCAAACGCTTGGAATGGAAAGTCAATTACTTCAAAGTGGTGGAGGTAGCGATGCCAACGTCATTTCAGGGTATGGCATACCAACAGTTAATTTAGCTGTCGGATATGAGGAAATTCATACGACGAATGAACGGATGAAAGTAGAAGACTTGGTGAAAGTTACAGAACTCGTGACAGCAATTATTCAGGAAGCAGCTAAAAATTAA MVNEKRLVEEFLELVQTDSETGNEEKIASVLKSKFEVLGIEVLEDDSKSTTGHGAGNLICNWKGDIANAETIYFTSHMDTVVPGKNIKPVIKEGWITSDGTTILGADDKAGLAAILETVRVFNEQKISHGDIQFIITVGEESGLVGAKALDTSLLQANYGYALDSNGNVGDIIVAAPTQAKLHATIKGKTAHAGVAPEKGISAITLAAKAIAKMPLGRIDEETTANIGRFEGGKQTNIVADHVEILAEARSLVPEKMEAQVQKMKEAFEQTAKELGGDAEVIVKVMYPGFKQESGDKVVEVARKAAQTLGMESQLLQSGGGSDANVISGYGIPTVNLAVGYEEIHTTNERMKVEDLVKVTELVTAIIQEAAKN PGPT0020915_2599 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 AK015_02271 441 hypothetical protein ATGCCTGAATATTTATCTAAGCCAAAACAAATTGCGCATATTGGCATTGCTGTACGTTCAATTAACAATGTATTACCTTTTTATACAAAAATATTAGGATTACAAGTTACAAGGCGTGAATTATTAGAAAGGGAGCTCGTTTCCATTGCCTTTTTACCTATTGGAGAAAGCTACTTAGAATTGATGGAACCATTGAGTCAAAAGTCTACTATTTTTCAGTTTATTGACAGATATGGTGAAGGCGTTCATCATGTGGCATTGGGTGTTAACCAACTATCTAATCGTATACAAAAATGCAAACAGCACCACATTCCTTTAGTGGATGATTACCCAAGGAAGGGAGCGTGGGATAACTACGTCGCATTTATACATCCTAAAGCAGCAAACGGCGTTTTGTTTGAACTTTGTGAAAGGCGGACAACCACAATTGGATCTGTATGA MPEYLSKPKQIAHIGIAVRSINNVLPFYTKILGLQVTRRELLERELVSIAFLPIGESYLELMEPLSQKSTIFQFIDRYGEGVHHVALGVNQLSNRIQKCKQHHIPLVDDYPRKGAWDNYVAFIHPKAANGVLFELCERRTTTIGSV 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 AK015_02273 108 hypothetical protein ATGTCACGACAATCTAAGCGTCAACGCAGAACAAAAATTGTTGTCTATATTATGATTATAGCAATGCTTCTCTCCACTATAACAACAGGACTTATGATGTTTATATAA MSRQSKRQRRTKIVVYIMIIAMLLSTITTGLMMFI NA NA NA NA NA AK015_02274 1245 glyA COG0112 Serine hydroxymethyltransferase ATGGACTATGTCAAACAAGCTGATATCGAAATCTTTCAAGCAATAGAAGCGGAAAAGAAACGTCAACAAGATAATATTGAACTAATTGCTTCTGAAAATTTTGTGTCAGAAGCAGTAATGGAAGCGATGGGATCTGTACTTACGAATAAGTACGCAGAAGGTTATCCGGGAAGACGGTATTATGGAGGATGCGAACACGTAGATGTCGCTGAAAATCTTGCTCGAGATCGTGCAAAGCAGTTGTTTGGTGCGGATCATGCAAACGTGCAACCTCATTCTGGTGCACAGGCAAATATGGCTGTTTACTTTACAGTTTTAGAACCTGGCGATACAGTGCTAGGAATGAATTTGAATCATGGCGGACATTTAACACATGGTAGTCCAGTTAATTTTAGTGGTACATTATATCGCTTTGTTGATTATGGTGTTGATGAAGAGACAGAAAAACTAGATTATGAAGCTGTTTTAAAAATAGCAGAACAGGAAAAGCCAAAGCTTATCGTAGCTGGGGCTAGTGCCTATTCAAGAATCATTGATTTTGCAAAATTTCGTGAGATTGCTGACAAAGTAGGCGCATATTTAATGGTGGATATGGCGCATATTGCTGGATTAGTAGCTTCTGGTTTACATCCTAACCCAGTTCCATATGCTGATTTTGTTACGACGACAACACATAAAACATTACGAGGTCCTAGAGGCGGTATGATTTTGTGTAAGGAAGCATTTGCTAAGAAAATTGATAAAGCCGTATTTCCTGGAATGCAAGGTGGCCCGTTAATGCATATTATTGCAGCTAAAGCTGTTTCTTTTAAAGAGGCATTATCTGATTCTTTTAAAACGTATAGTAAGCATGTTATTGAAAACGCCAAGGTCCTAGCAGAAGCGTTACAATCTGAAGGAATACGTATCGTATCTGGAGGTACGGATAACCATCTTTTATTATTAGATGTTACTCCACTAGATTTAACAGGGAAAGTAGCTGAACACGTATTGGATTCAATTGGAATAACTGCTAATAAAAATACGATACCTTTTGATACAGAAAGTCCGTTTGTTACCAGTGGTTTACGTATAGGAACAGCAGCAGTTACTACGCGTGGTTTTGGCAAGTCAGAAATGAAAGAAATAGCGTCTATTATGGCAATGACGTTAAAAAATCATGAAGATCAAAAGGTGCTAGAGACAGCTGCACAACGTGTAAAAACATTAACTGAAAAATTTCCACTTTATGCTGTTTATGCATAA MDYVKQADIEIFQAIEAEKKRQQDNIELIASENFVSEAVMEAMGSVLTNKYAEGYPGRRYYGGCEHVDVAENLARDRAKQLFGADHANVQPHSGAQANMAVYFTVLEPGDTVLGMNLNHGGHLTHGSPVNFSGTLYRFVDYGVDEETEKLDYEAVLKIAEQEKPKLIVAGASAYSRIIDFAKFREIADKVGAYLMVDMAHIAGLVASGLHPNPVPYADFVTTTTHKTLRGPRGGMILCKEAFAKKIDKAVFPGMQGGPLMHIIAAKAVSFKEALSDSFKTYSKHVIENAKVLAEALQSEGIRIVSGGTDNHLLLLDVTPLDLTGKVAEHVLDSIGITANKNTIPFDTESPFVTSGLRIGTAAVTTRGFGKSEMKEIASIMAMTLKNHEDQKVLETAAQRVKTLTEKFPLYAVYA PGPT0008090_6793 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600 NA NA AK015_02275 585 hypothetical protein ATGCAAGAGTCGTTTTATCAAGAATTAACAGTGCAAATGAATGGAATTCAGAAAGAGTGGCAAGAGTCAGGGCGTCTTCAGCGCGGGAATTTATTTGTGGTTGGATGTTCAACTAGTGAAGTAGCAGGAAAGTCTATTGGAACGGCAGGAACGAAAGAGGTTGCGATTATTATTTATCAAGCATTAAAGGAACTGGCAGATAAAACTGGAATTCGCCTCTGTTTTCAATGCTGTGAGCACTTAAATCGAGCATTGGTGATGGAAAGAAGCACGATGATTGATTTTCAATTAGAGGAAGTATCCGTTATACCAGTTAGAAAAGCCGGAGGGGCGATGGCTGCTTATGCATTTGAACAATTGGAAGATCCTGTGGTAGTGGAGAATGTAGCAGCACATGCAGGAATAGATTTTGGTGAAACGATGATTGGAATGCATTTGAAACCAGTTGCTGTACCTTTTCGGTTTCAACAACGATTTTTAGGAGAAGCGCGTGTTAATGCAGCCTATACGCGTGCGAAAAGAATTGGCGGAGCTCGTGCTGTCTATCCTGATGATAATCATGACTCCATGAACAGAGACTGTTAA MQESFYQELTVQMNGIQKEWQESGRLQRGNLFVVGCSTSEVAGKSIGTAGTKEVAIIIYQALKELADKTGIRLCFQCCEHLNRALVMERSTMIDFQLEEVSVIPVRKAGGAMAAYAFEQLEDPVVVENVAAHAGIDFGETMIGMHLKPVAVPFRFQQRFLGEARVNAAYTRAKRIGGARAVYPDDNHDSMNRDC NA NA NA NA NA AK015_02276 447 ywlF COG0698 Putative sugar phosphate isomerase YwlF ATGAAAGTAATCATAACAGCAGATCATGCAGGTATGACAATTAGAAACGAAATCAAAGATTTGTTAACTGAAATGGGAATTGAATTTGAGGATGCCGGTTGTAGTTGCGAAGGTTCTGTTGACTATCCTGATTACGCACTACCGGCAGCGGAACGTGTAGCAAAAGGGGAATTTGACCGTGGCATTTTCATTTGTGGAACTGGAATTGGCATGTCTATCGCTGCAAATAAAGTAAAAGGCATTCGTTGTGCACTTACACATGATGTATATAGTGCGAAGTTAACAAGGCAACATAATGACACGAATGTACTTGCTATGGGAGAAAGGGTAGTTGGTCCGGGATTAGCCCGTGAAGTAGCAAAAGTATGGTTAGAAACAGAGTTTGATGGCGGTCGACATGATAATCGCATTGGTAAAATTACAACATATGAAGATGGAGTGCAATAG MKVIITADHAGMTIRNEIKDLLTEMGIEFEDAGCSCEGSVDYPDYALPAAERVAKGEFDRGIFICGTGIGMSIAANKVKGIRCALTHDVYSAKLTRQHNDTNVLAMGERVVGPGLAREVAKVWLETEFDGGRHDNRIGKITTYEDGVQ PGPT0017395_2132 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 AK015_02277 1296 mcpB_1 COG0840 Methyl-accepting chemotaxis protein McpB ATGGAGAAGAAGAAATATCGGTTCAGTTTGCGCTTAAAACTCGTGCTATTTACAACGAGCTTAGCTTTGGTAACGTATTCAGTAAGTGCTATATTTATATACTTTATTTATGACTATGTAAAGGATTACTGGGACGTTTCTGAACACTTTTTTACAATAACGACGTTTATCCTTGGTATTATATGGTCTGGTATTCTCGCTTTTTTTGCTGCAAGAGTGATTGTAAAGCCATTAGAAAAGCTAGAAGCAGCCGCTTCAGAAGCTGCTAAAGGGAACTTAAATCAAGTTATTGAAATCTCCAAATCAGATGATGAGGTAAAAGCTTTAGGACTGGCTTTTGATAGCATGTTAAAAAATTTACGCAATATTGTACATAATATCGATCAACATTTTGAAAATACGAATCAATCTGTTGTACAAATTCGACAGGCTTCGGAACAAGCAAGCCATCATTCTATGTCGATACGTTCATCTGCTGATGAAATTTCTAAAGGAGCAGAAAGCGCATCAGAATCCATTCAAAATACCGCTGAAGCAGTAGAAATGTCAACAGAGCTTGCCGAAGAAGTACAAAGAAAAGCCAGTGATTCTAAACATAAATCTAACGCCATGATGGAAATTTTAGAGCGCAGTAAAGTCGCAGTTAATCAACTTGTGGAAGGAATTCAAAAACTTGCCAATGAACAGGAAGCTTCCCTTAAAGATGTGGATCATTTAAAACAGAATGCGCTACAAGTGGAAACCATTATTACACTTGTTGGTGAAATAGCTGAACAGACGAATTTATTAGCTCTCAACGCTTCAATTGAAGCTGCTCGAGCGGGAGAACATGGGAAAGGGTTTGCTGTAGTGGCTGATGAAATTCGGAAGCTTGCAGATCAAAGTGCACAAGCTGTGCAGCAAATTTCTGGATTAATTACTGCTATACAAGAGGATGTTGCAACGGTAGTTGGGAAAATTAATGATAATGTATCCTATGCAAAACAGGAAGCAAGTAATGGCAAATCAACAAATTCCTCCATTGCGGAGATGTCTAGTTCTGTAAGTGAGGTGGCAACAGAGATTGGCAGAATTACGGATTTAGTCGATCGCCAATTGGAATCCATCCAAAATACAGTAAAGCAATCCCAAGAGGTAGCTGCTGTAGCTGAGGAGACATCTGCTGGTGCTGAGGAAGTGAATGCCTCTATACATGAACAAGCTTCCACAATAGAACAGATTGATGAATTAGCGCATGCGTTGGAAGAACAGGCTAAAAATTTGAATAAGCAAATTAATCAGTTTACAGTAAATTAA MEKKKYRFSLRLKLVLFTTSLALVTYSVSAIFIYFIYDYVKDYWDVSEHFFTITTFILGIIWSGILAFFAARVIVKPLEKLEAAASEAAKGNLNQVIEISKSDDEVKALGLAFDSMLKNLRNIVHNIDQHFENTNQSVVQIRQASEQASHHSMSIRSSADEISKGAESASESIQNTAEAVEMSTELAEEVQRKASDSKHKSNAMMEILERSKVAVNQLVEGIQKLANEQEASLKDVDHLKQNALQVETIITLVGEIAEQTNLLALNASIEAARAGEHGKGFAVVADEIRKLADQSAQAVQQISGLITAIQEDVATVVGKINDNVSYAKQEASNGKSTNSSIAEMSSSVSEVATEIGRITDLVDRQLESIQNTVKQSQEVAAVAEETSAGAEEVNASIHEQASTIEQIDELAHALEEQAKNLNKQINQFTVN PGPT0015710_27088 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 AK015_02278 606 arsC_1 Arsenate reductase ATGAGATTGTTATTTGTGTGCACTGGTAATACATGTCGTAGTCCAATGGCTGAAGCCTTAGTGAAGCATAAAATTCCGGAAGTAGAAGTACAGTCAGCTGGTATATTTGCAACCAATGATCAACAAGCAAACCCTAAAACGATTGAAGTCTTAAAGCAAAAACAAATAAAAATGAACCATCTTTCCCAGCCGGTTACGAAAGATTTACTTCATTGGGCTGACGTAGTCTTAACAATGACAACCCAGCATAAGCAGTCGTTAATTATGAATTTCCCCCAATTTCAAGATAAGTACTTTACATTAAAGGAATATGTCTTAGAAGCCGATAAAAAAGTATGGGAAAAGTTAAAAAAAGCATATGCAGATTATGAGGAAAAAAGATCAATATTTATCCAGAAACATCAGCATAAACTGGATAATTCTCTTCTCAATCAACGCATTCAAGAACATTTAGCCGAAGACATGGTGAATATTCGAAGGCTAGAAGCGAATCTAATCAATTATGATATTTCTGATCCTTTTGGTGGAGATTTGCGGACCTATCAGGAGACGCTTGATGAGTTGGATAAGTATATTGATCTGCTTCGTAAAAAACTTACAAAGTAG MRLLFVCTGNTCRSPMAEALVKHKIPEVEVQSAGIFATNDQQANPKTIEVLKQKQIKMNHLSQPVTKDLLHWADVVLTMTTQHKQSLIMNFPQFQDKYFTLKEYVLEADKKVWEKLKKAYADYEEKRSIFIQKHQHKLDNSLLNQRIQEHLAEDMVNIRRLEANLINYDISDPFGGDLRTYQETLDELDKYIDLLRKKLTK NA NA NA NA NA AK015_02279 552 mntP COG1971 putative manganese efflux pump MntP GTGTCAGGATACATTGGTGAGGTGACAGCCTTATTATTTCTAGCTTTTGCGCTTGGACTTGACGCCTTTTCTGTCAGTTTAGGATTAGGGTTACAGCGTCTTCGTTTAAAGCGTATAGCGCTCATTGGGGTTGTAGTAGGGCTATTTCATATACTTATGCCATTTTTAGGTATTCTATTTGGTACTATGATATCAGAACAAATCGGTAGTTTAACTAATTTAGCTGGCGGATTGTTACTTGTAGGGATTGGCGCCCAAATGTTTTTTTCTGCTTTTAATCAGAACGTAAAAAAAATGATTCAACCAGTTGGTGTCGGATTGCTTTTATTAGCACTCGGCTTAAGTATTGATAGCTTTTCTGTTGGGTTAAGTTTAGGTATCTCTGGAGTCAAGACGGCTATAGCACTTTTGCTATTGGGAATGGTAAGTGCTTGTCTATCTTGGATCGGCATGCTGCTTGGAAGGAGAGTAGAAGGTTACTTAGGTGCTTATAGTGAGCTGTTAGGAGGGAGTATTTTAATTGCTTTTGGCTTACATGTATTATTCGGATAA MSGYIGEVTALLFLAFALGLDAFSVSLGLGLQRLRLKRIALIGVVVGLFHILMPFLGILFGTMISEQIGSLTNLAGGLLLVGIGAQMFFSAFNQNVKKMIQPVGVGLLLLALGLSIDSFSVGLSLGISGVKTAIALLLLGMVSACLSWIGMLLGRRVEGYLGAYSELLGGSILIAFGLHVLFG PGPT0004375_930 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_MANGANESE_RESISTANCE MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242 NA NA AK015_02280 201 hypothetical protein ATGAAAGAGGAGAGTTATTATTTTTTTAAAATTAAATCTTTTTCTTATTCAATATTAACAGGAGGAATACTTCTTGGCGTTGCATTAGTAGCAATATTAGATGTGATTCATAAAGAGTATTTTATTTATTACGTAATGATTATATTCTATATTCAAAGTATTGTTCCCTCAATATATTTAGCTGTAGCTAAACGAATATAA MKEESYYFFKIKSFSYSILTGGILLGVALVAILDVIHKEYFIYYVMIIFYIQSIVPSIYLAVAKRI NA NA NA NA NA AK015_02281 1035 ywlC COG0009 Threonylcarbamoyl-AMP synthase ATGAAAACGAAGTATTGGAATATATCTAAAATGACTAAAAGAGAACAACAAGAGTCGATAATCGAAGCGAGTCAGCTACTGCACCAAGGCGAAATTGTTGCTTTTCCAACGGAGACTGTGTATGGATTAGGAGCTAATGCTACAAATGAGCAAGCAGTACAGAAAATATTTCAGGCAAAAGGGCGTCCACAGGATAATCCGCTAATTGTTCATGTGGCCGATGCTTTGCAAATGGAAAGTCTAGTACGTTATTGGCCTGCTTATGTAGATAAATTATTAGTTGCTTATACGCCAGGGCCAATTACGTTCGTCTTACCGAGTAATGATGTGTGTTCTCCTGCTGTAACAGCAGGTTTAGATACTGTCGGTGTCCGAATCCCGAGTCACCCAGTTGCTCATCAGTTGCTATCCGCATGTCAGTTACCAATTGCTGCACCAAGTGCCAATATATCGGGAAGACCTAGCCCAACTAGTGCTAGACATGTATGGCATGATTTAAGTGATAAGATTGCTGGAATTTTGGATGGTGGGGCTACTGGTGTTGGATTAGAATCAACTGTCATTGATTGCACGCAGGATATTCCGGTTATTTTACGACCGGGTGGTATCACGAAAGAGCAAATTGAAAAAGTAGCGGGGGCTGTTATGGTTGATCCTGGCTTAGCAGTAAAAAATGAAAATGAACAACCAAAATCTCCGGGCATGAAGTATCGGCATTATTCCCCTGAAGTTCCGCTATGGATTGTTTCTGGGGCTAGCGAAAACTTGCAGAGTATGATCTACCGTTTACAGATGGAAGGAAAAAGAGTTGGTGTCATGGGGAAAGACGGTACCGTGGAAAGGCTACAGGTAGAAGCAATCATAAAGCTAGGAAATACAATGGAGCAAGTAGCTGCCAATTTATATGGCGCATTACGTACCTTTAAATTAGGGGAAGTTGATATTATTCTTTGTGAGTCTTTTCCTGAACAAGGTATTGGACAAGCAGTAATGAATCGCTTAACGAAAGCTGCTAGTCGTATCATTTCATTGTAG MKTKYWNISKMTKREQQESIIEASQLLHQGEIVAFPTETVYGLGANATNEQAVQKIFQAKGRPQDNPLIVHVADALQMESLVRYWPAYVDKLLVAYTPGPITFVLPSNDVCSPAVTAGLDTVGVRIPSHPVAHQLLSACQLPIAAPSANISGRPSPTSARHVWHDLSDKIAGILDGGATGVGLESTVIDCTQDIPVILRPGGITKEQIEKVAGAVMVDPGLAVKNENEQPKSPGMKYRHYSPEVPLWIVSGASENLQSMIYRLQMEGKRVGVMGKDGTVERLQVEAIIKLGNTMEQVAANLYGALRTFKLGEVDIILCESFPEQGIGQAVMNRLTKAASRIISL NA NA NA NA NA AK015_02282 402 hypothetical protein ATGAATTTAATTCAGGCTAACAAAGTATCGCAGGAAAAGTTAGACTACTTTTTACTAAGTAATCCACATATGAATAAGGATAGTTTATTACAAAAAGGGTATGTTGTTGAGATAAAAGGAAAGATAGAAGGTTGTTTTATCCTTGAGGAAATGGAAGAAGGAACGTATTGGTTAAAACAGCTATATATTACACAATCAGAAGCAGCTGTCCTTCCAGTATTATTGGAATCCATTTTAACGATGGCTAAACAACAGCACGCAAAAAGAGTTTATGTGCATAGTCATCAACCAGTTGTGGATATTTTACTTGAAGCTTTGCAGTTTCATCCACAAAAAGAGAGAGCTTTTGTTGATAAATTTGATCAAAAAGACGGTAATTGGTGGTTGTATCATGTTTCGTGA MNLIQANKVSQEKLDYFLLSNPHMNKDSLLQKGYVVEIKGKIEGCFILEEMEEGTYWLKQLYITQSEAAVLPVLLESILTMAKQQHAKRVYVHSHQPVVDILLEALQFHPQKERAFVDKFDQKDGNWWLYHVS NA NA NA NA NA AK015_02283 633 hypothetical protein ATGAAAAAACTAGTATTTTTTGCTGTTATATTATTTATTGGATTATTAATTATTCCTGGGCAAGTGATAAGCCAAAAATCAGGGGAAACAGCGCTTAACAATCAAGATGAATATCAAGTTATTCCGGATGAAGCGATCCGTTTACGTATATTGGCTAATAGTGATAGTGAAGCAGATCAAGAATTAAAAAGAAGTATACGCGATCAAGTGAATAAAGAGATTACGAAATGGGTAGAGGATATTACAGATATTGAGCAGGCTAGAAGTTTAATAGAAAAACGTATACCAGACTTAAATCAGATTGTAGGGTCCGTGCTCAAGGAAGCGGATGTAAAACAAAGTTATGAAGTGTCTTACAATAAAAATGTTTCCTTTCCAACGAAAATATATGGTGAATTTTTATATCCTGCAGGTGAATATGAAGCAGTTTTAATTACAATTGGAGAAGGGAAAGGTGACAATTGGTGGTGTGTTTTATTTCCTCCTCTCTGTTTTCTAGATTTTTCTAACGGAACGAGCGCCGTATCAGCTGAAACGACAGAAGATAAAGAAGAAGAGAAAGAAGTGGAGCGAGAAGATGATGAAGATACGGAAGTGAGCTTTTTCTTGTTTGAATGGTTAGGCTGGTCATAA MKKLVFFAVILFIGLLIIPGQVISQKSGETALNNQDEYQVIPDEAIRLRILANSDSEADQELKRSIRDQVNKEITKWVEDITDIEQARSLIEKRIPDLNQIVGSVLKEADVKQSYEVSYNKNVSFPTKIYGEFLYPAGEYEAVLITIGEGKGDNWWCVLFPPLCFLDFSNGTSAVSAETTEDKEEEKEVEREDDEDTEVSFFLFEWLGWS PGPT0024700_357 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024700-spoIIR-K06387 NA NA AK015_02284 876 prmC Release factor glutamine methyltransferase GTGAATAATATGGAAGTGAAGAAACAATACGAAGTCCTTCAATGGGCTTCCCTTTTTTTAGAGGAACACGGTCGAGAAAAAAATGTTGCCGTTATTTTGCTACAACATTTTTTACAAGTGACCGCTACTAAATTTTACATGAATATGCAACAACTTGTTCCAGAAGAAGTGCTTACACCGTATATGGCAGCCATTAAGCAACATGCTTCAACGGGTATACCAGTACAGCATTTGATGGGGTGCACTTCGTTTTATGGACGGGAATTTAAGGTAAACGAAGATGTACTTATTCCGAGGCCAGAAACAGAGGAGCTCGTGCAGCAGGTTATTCAACATGTAAACCATCATTTTGTGGATAAGTGCCCGACTATTGTTGATGTGGGTACAGGAAGTGGCATAATTGCCATTACACTCGCTTTAGAGTTGCCTAAGGCGATGGTTTACGCAACAGATATCTCGGAACAAGCTCTAAAAGTAGCGAAGGAAAATGCGAGCCGACATCAAGCTGCTGTTGTATTTACTGCTGGCGATTTTTTAGCACCAGTACTAGAACAAAATATTTCTATGGATGTATTGGTTTGTAATCCTCCTTATATTGCGAGGGAGGATATTTCTTTTATGGCAGATACAGTGAAAAACTTTGATCCTCATTTAGCTTTGTTTGCAGAACAAAATGGATTAGCTGCTTACAAAAAAATTGTTTATCAAATGGCGCAATTGTCCGAGAGACCTTATTTGGTTGCTTTTGAAATAGGCTATCAACAAGGTGAAGCTGTATCTGATTTAATCAAGTATGTTTATCCTGACAGTTATCCACAAGTGTTACAAGACATCAATGGAAAAGATCGGATGGTCATTGTAAATAATAATATTTAA MNNMEVKKQYEVLQWASLFLEEHGREKNVAVILLQHFLQVTATKFYMNMQQLVPEEVLTPYMAAIKQHASTGIPVQHLMGCTSFYGREFKVNEDVLIPRPETEELVQQVIQHVNHHFVDKCPTIVDVGTGSGIIAITLALELPKAMVYATDISEQALKVAKENASRHQAAVVFTAGDFLAPVLEQNISMDVLVCNPPYIAREDISFMADTVKNFDPHLALFAEQNGLAAYKKIVYQMAQLSERPYLVAFEIGYQQGEAVSDLIKYVYPDSYPQVLQDINGKDRMVIVNNNI NA NA NA NA NA AK015_02285 1071 prfA COG0216 Peptide chain release factor 1 ATGTTAGATCGTTTACAATCTTTAGAAGATCGTTACAATAAATTAAATGAATTGCTAAGTGATCCGGAAGTAATTAGCGATGCGACAAAGCTTCGAGAATATTCCAAAGAACAATCAAGCTTAGAAGATGTTGTTCAAGTTTATCGAGAATATAAAGATGTCGTACAGCAGTTAAAAGACGCAAAAGAAATGCAAGAAGACGAGCTAGATGAAGAAATGGAAGAAATGGTAAAACTTGAAATTAACGAGCTTACAGAAAATAAACAACAATTGGAAGAGAAGTTAAAAGTTTTACTATTGCCGAAAGATCCAAATGACGATAAAAACGTATTTATGGAAATACGCGGAGCTGCCGGTGGAGACGAAGCGGCATTATTTGCAGGAGACTTATATCGGATGTATTCCCGTTACGCCGAGACTTATGGGTGGAAACTAGAAGTCATGGAAGCTCATACAACTGGTGTAGGTGGATACAAAGAAATTATCTTTATGATTAACGGTAAAGGTGCTTACTCTCGTTTGAAATATGAAAACGGCGCCCATCGTGTTCAGCGTGTTCCTGAGACGGAATCAGGCGGAAGAATTCATACATCAACGGCGACCGTAGCTGTCCTGCCCGAGGCTGAAGAAGTGGAAGTGGATATTCATGAAAAGGATATACGTGTGGATACCTTTGCCTCTAGTGGGCCGGGTGGTCAAAGTGTTAACACAACAATGTCAGCTGTTCGTTTAACGCATGTTCCAACAGGCATCGTGGTTTCAATTCAAGATGAGAAATCGCAAATTAAAAATAAAGAAAAAGCAATGAAGGTGCTGCGAGCTAGAATATATGATATGTATCAACAAGAAGCTCAAGCTGAATACGATGAAAATCGTAAATCTGCAGTAGGAACTGGAGATCGATCAGAGCGTATTCGCACCTATAACTTTCCGCAAAATCGTGTAACCGATCATCGGATTGGTTTAACTATTCAGAAACTAGATCAAATTCTAGAAGGTAAATTAGATGAAATTATTGAAGCGTTAATTATGGAAGAGCAAACGAAGAAATTGGAACAAATTGGTGAATAA MLDRLQSLEDRYNKLNELLSDPEVISDATKLREYSKEQSSLEDVVQVYREYKDVVQQLKDAKEMQEDELDEEMEEMVKLEINELTENKQQLEEKLKVLLLPKDPNDDKNVFMEIRGAAGGDEAALFAGDLYRMYSRYAETYGWKLEVMEAHTTGVGGYKEIIFMINGKGAYSRLKYENGAHRVQRVPETESGGRIHTSTATVAVLPEAEEVEVDIHEKDIRVDTFASSGPGGQSVNTTMSAVRLTHVPTGIVVSIQDEKSQIKNKEKAMKVLRARIYDMYQQEAQAEYDENRKSAVGTGDRSERIRTYNFPQNRVTDHRIGLTIQKLDQILEGKLDEIIEALIMEEQTKKLEQIGE NA NA NA NA NA AK015_02286 624 tdk COG1435 Thymidine kinase ATGTATGTAATGAAACAAAGTGGCTGGGTAGAATTGATTTGTGGGAGCATGTTTTCAGGTAAATCAGAGGAATTGATTCGCCGAGTCCGACGTGCTACATACGCTAATTTAACTGTAAGGGTATTTAAGCCATCTCTAGATGACCGTTATGAAAAAGAAGCAGTCGTATCTCACAATGGAACGTCGATAATCGCTCGACCAATTAAAGATGTAGCAGATTTGCTTGAACATATAAATGAAAATGTGGATATTGTTGGTATAGATGAAGCGCAATTTTTTGATGCTTCCATTGTCACTATTGTAGAACAATTAGCGGATGCTGGTATACGGGTTGTGGTTGCTGGTTTAGACACAGATTTTCGTGGGGAGCCATTTGGTTCTATGCCGCAATTAATGGCGTTAAGCGAGTCCGTCACGAAGTTGAATGCTATTTGTCCCATTTGTGGTTCTCCAGCAAGTAGAACACAACGTTTAATCAACGGGCAACCAGCTTCTTATGATGATCCAATTATATTAGTTGGAGCTTCTGAATCTTATGAGCCAAGATGCCGCCATCACCATGAAGTACCAAATAAACCGAATAAAGCAACAACCAACATATGTTTAACAAAAATGTCCAAATAA MYVMKQSGWVELICGSMFSGKSEELIRRVRRATYANLTVRVFKPSLDDRYEKEAVVSHNGTSIIARPIKDVADLLEHINENVDIVGIDEAQFFDASIVTIVEQLADAGIRVVVAGLDTDFRGEPFGSMPQLMALSESVTKLNAICPICGSPASRTQRLINGQPASYDDPIILVGASESYEPRCRHHHEVPNKPNKATTNICLTKMSK PGPT0021390_1292 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857 NA NA AK015_02287 246 rpmE2 COG0254 50S ribosomal protein L31 type B ATGAAAAAGGATATTCATCCAGAGTACCAAAAAGTAGTTTTTCTTGATACGAGTTCCGACTTTAAATTTTTAAGTGGATCTACCAAATCATCCAATGAAACAATTGAGTGGGAAGATGGGAATACGTACCCATTAATTCGTGTGGAGATCAGCTCAGAATCACATCCATTTTACACTGGTAAGCAAAAGGCTGATAAAGTCGGTGGTCGAGTGGATCGCTTCAAGAAAAAATATAATATGAAGTAA MKKDIHPEYQKVVFLDTSSDFKFLSGSTKSSNETIEWEDGNTYPLIRVEISSESHPFYTGKQKADKVGGRVDRFKKKYNMK PGPT0014325_2253 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909 NA NA AK015_02288 1284 rho COG1158 Transcription termination factor Rho ATGGCAGGACTAACTATCTCCCGTTTGGGGACGTTAACATTAAAAGAGATTTACCAATTAGCAAGAGAGTATAAAATCTCTTATTATGCAAAGTTAACGAAAAAAGAACTAATTTTTGCAATTTTAAAAGCGCAAGCGGAAAAAGATGGCTACCTCTTTATGGATGGGATATTAGAAATTATTCCTTCCGAGGGATTTGGTTTTTTAAGACCGATTAACTATTCACCAAGCGCTGAAGATATTTATATTTCAGCTTCGCAAATTAGACGCTTTGATTTACGTAATGGTGATAAAGTATCTGGAAAGGTTCGACCTCCTAAAGAAAACGAAAGATATTATGGTCTATTACATGTAGATGCTGTCAATGGAGATGACCCAGAAACAGCGAAAGAACGTGTGCATTTCCCAGCGCTAACTGCATTATACCCAGATCGCTTAATGAAGCTAGAAACGAAATCAAATGAAATATCAACACGTATTATTGATTTAATGACACCTGTCGGTTATGGACAGCGTGGACTAATTGTTGCTCCACCTAAAGCTGGGAAGACAACTTTATTAAAAGAGATTGCTAACAGCATTTCTGAAAATCATCCAGATGCAAAATTAATTATTCTTTTAGTAGATGAGCGCCCTGAAGAAGTAACAGACATTGAGCGCTCTGTACATCCTGATGTGGATGTTGTCAGTTCGACATTTGATGAAGTTCCGGAGAGTCATATAAAAGTATCGGAGCTTGTATTAGAACGGGCAATGCGTTTAGTGGAACATAAGCGAGATGTTATCGTTTTAATGGACAGTATTACTCGTTTGGCGCGCGCGTATAACCTCGTTATTCCGCCTAGTGGACGTACGTTATCAGGTGGTATTGATCCTGCTGCGTTTCATCGTCCAAAACGATTTTTTGGAGCTGCTCGAAATATCGAAGAGGGTGGAAGCTTCACAGTATTAGCGACAGCATTGATCGATACAGGCTCACGCATGGATGATGTGATTTATGAGGAATTTAAAGGAACCGGTAATATGGAATTACACTTAGATCGTAATCTGGCTCAGCGTCGTATATTTCCTGCTATTGACATTTTACGGTCTGGAACTAGAAAAGAAGAATTACTTGTTAATAAATCGCACTTGGATAAAATGTGGGCTATTCGTAAAACAATGCAAGATTCTAATGATTTTCTGGAACGCTTCTTACGTAGATTAAGAGCTTCAAAAAATAATGAAGAATTTTTCCAAATGATGGATGAAGAGATGAAGCGACGTGGCATGAAACGTTCTTAA MAGLTISRLGTLTLKEIYQLAREYKISYYAKLTKKELIFAILKAQAEKDGYLFMDGILEIIPSEGFGFLRPINYSPSAEDIYISASQIRRFDLRNGDKVSGKVRPPKENERYYGLLHVDAVNGDDPETAKERVHFPALTALYPDRLMKLETKSNEISTRIIDLMTPVGYGQRGLIVAPPKAGKTTLLKEIANSISENHPDAKLIILLVDERPEEVTDIERSVHPDVDVVSSTFDEVPESHIKVSELVLERAMRLVEHKRDVIVLMDSITRLARAYNLVIPPSGRTLSGGIDPAAFHRPKRFFGAARNIEEGGSFTVLATALIDTGSRMDDVIYEEFKGTGNMELHLDRNLAQRRIFPAIDILRSGTRKEELLVNKSHLDKMWAIRKTMQDSNDFLERFLRRLRASKNNEEFFQMMDEEMKRRGMKRS NA NA NA NA NA AK015_02289 966 glpX COG1494 Fructose-1,6-bisphosphatase class 2 TTGGAAAGAAGCTTATCAATGGAATTAGTAAGAGTCACGGAAGCCGCAGCTTTAAAATCAGCACGTTGGATGGGAAGAGGTAAGAAAGAAGAAGCAGATGATGCAGCGACAACCGCTATGCGTGCTGTTTTTGATACAATTCCAATGCAAGGTACGGTCGTCATTGGCGAAGGAGAGATGGACGAAGCACCTATGCTATATATTGGAGAAAAGCTCGGTACAGGTAATGGACCAGGGGTTGATGTTGCTGTTGATCCTCTAGAAGGAACGAGTATCGTGGCAAACGGCTCTTGGAATGCACTTTCTGTAATTGCAATAGCAGATAAAGGAACATTATTACATGCACCAGATATGTATATGGATAAAATCGCAGTAGGCCCTGAAGCAGTTGGTACAATTGATATTAATGCTTCTACATTTGATAATATACAAGCCGTTGCTAAAGCAAAAAATAAAGCGGTAGAAGATGTAGTAGTAACTGTTTTGGATCGGCCACGTCACCATAAATTAATTGAGGAAATCCGCGAGGCTGGCGCTCGCATTAAGCTAATTTCAAATGGTGATGTTGCAGGAGCTATCAATACAGCTTTTGATGAAACTGGAGTGGATATGTTACTAGGAATTGGTGGAGCTCCAGAAGGTGTTATTGCAGCTGCTGCCCTTAAATGCTTGGGGGGAGAAATACAAGGTAAATTGGTTCCTGCAAATAAAGAAGAATCCGATCGTTGCTCGAAAATGGGTATTATGGATATTAATAAAGTATTGCATATGGATGATTTTTGCAGCGGGGATGACGCCATTTTTGCTGCTACTGGAGTTACAGACGGAGAATTATTAAAAGGCGTTCAATTTAAAGGAACGAATGCTACTACTGAAACAGTAGTTATGCGAGCAAAAAGTGGAACCGTTCGCTTTATTGATGGTACACATAGCTTGAAGAAAAAACCAGATCTCGTTATAAAATAA MERSLSMELVRVTEAAALKSARWMGRGKKEEADDAATTAMRAVFDTIPMQGTVVIGEGEMDEAPMLYIGEKLGTGNGPGVDVAVDPLEGTSIVANGSWNALSVIAIADKGTLLHAPDMYMDKIAVGPEAVGTIDINASTFDNIQAVAKAKNKAVEDVVVTVLDRPRHHKLIEEIREAGARIKLISNGDVAGAINTAFDETGVDMLLGIGGAPEGVIAAAALKCLGGEIQGKLVPANKEESDRCSKMGIMDINKVLHMDDFCSGDDAIFAATGVTDGELLKGVQFKGTNATTETVVMRAKSGTVRFIDGTHSLKKKPDLVIK PGPT0017655_1447 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 AK015_02290 1287 murAB COG0766 UDP-N-acetylglucosamine 1-carboxyvinyltransferase 2 ATGCAAAAAATGTTCGTTGAAGGTGGTCATTTTCTAAATGGCAAAGTTCGTATAAGTGGAGCGAAAAATAGTGCTGTCGCATTATTACCTGCTGCTATATTGGCTGACTCTGACGTGACGATAGAAGGACTTCCGCAAATATCTGATGTGTACACATTAGGGGATTTACTAGAGGAAATTGGAGGTTCGGTTTCCTGGGATGGACAAACCGTGCACATTGATCCTGCTAAGATGATAGCGATGCCGCTACCAAATGGAAAAGTAAAAAAACTAAGAGCATCATATTATTTTATGGGTGCAATGCTTGGGAAATTTAAAAAAGCGGTTATAGGGTTACCTGGTGGCTGTTTTTTAGGCCCTAGACCTATTGACCAGCATATTAAAGGCTTTGAAGCACTTGGAGCAGAAGTTACAAATGAACAGGGAGCAATCTATTTGCGTGCGAAGGAATTGACTGGTGCACGTATATACCTAGATGTTGTTAGCGTTGGGGCAACGATCAATATTATGCTTGCTGCTGTAAAAGCAAAAGGAAAGACAATTATAGAGAATGCAGCTAAAGAGCCTGAGATTATTGATGTAGCCACTTTGCTTACAAATATGGGGGCAAAGATTAAAGGCGTTGGTACGGATGTGATTCGCATAGAAGGCGTTCCTTACCTAAACGGCTGCCGTCATACGATCATTCCGGACCGAATTGAAGCAGGAACATTTGCTATAGCAGCCGCTGCTATGGGAAAAGAAGTAACGATTGATAATGTCATTCCTCCACATTTGGAATCACTATTAGCAAAGATGCGAGAAATGGGCGTTCCCATCGAGGAAAATAATGAGCAACTATTTATTGCGCCGAAACAACCTTTTAAAAGTGTAGATATAAAAACACTCGTATATCCTGGTTTCCCTACAGATCTACAGCAACCGTTTACAACGCTGCTAACAAAAGCAGAAAGTACTGGAGTTGTTACAGACACAATTTATACGGCAAGATTGAAGCATATTGACGAGTTACGCAGAATGAATGCTTCCATTAAAGTAGAAGGTGGATCTGCTATTGTGTCAGGCCCTGTGCAATTACAAGGAGCTAAAGTGAATGCTACGGACCTTCGTGCTGGAGCAGCATTAATTATTGCCGGCTTAATGGCTGAGGGAATTACTGAAATAACGGGATTGGATCATATCGATCGAGGGTACGAAAAGATTACAGAGAAGCTAACGAATTTAGGTGCAAAAATTTGGCGCGATACGATGACGCAGGAAGAAGTTGAAGAATTACAAAATTCGTAA MQKMFVEGGHFLNGKVRISGAKNSAVALLPAAILADSDVTIEGLPQISDVYTLGDLLEEIGGSVSWDGQTVHIDPAKMIAMPLPNGKVKKLRASYYFMGAMLGKFKKAVIGLPGGCFLGPRPIDQHIKGFEALGAEVTNEQGAIYLRAKELTGARIYLDVVSVGATINIMLAAVKAKGKTIIENAAKEPEIIDVATLLTNMGAKIKGVGTDVIRIEGVPYLNGCRHTIIPDRIEAGTFAIAAAAMGKEVTIDNVIPPHLESLLAKMREMGVPIEENNEQLFIAPKQPFKSVDIKTLVYPGFPTDLQQPFTTLLTKAESTGVVTDTIYTARLKHIDELRRMNASIKVEGGSAIVSGPVQLQGAKVNATDLRAGAALIIAGLMAEGITEITGLDHIDRGYEKITEKLTNLGAKIWRDTMTQEEVEELQNS PGPT0024090_2412 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790 NA NA AK015_02291 642 tal_1 COG0176 Transaldolase ATGAAATTCTTTATTGATACAGCTAATATTGATGAAATTCGTGAAGCAAATGCACTTGGTGTTCTAGATGGGGTAACCACAAACCCTAGTCTTGTAGCAAAAGAAGGTGTATCTTTTCATGATCGTCTGCAAGAGATAACGAATGAAGTGTCTGGCTCGGTTAGTGCGGAAGTAATTGCAGAAAATGCAGAGGGCATGATACGAGAGGGAAAAGAGCTTGCGGCTATAGCTCCTAATATTACAGTGAAGGTTCCAATGACACTAGAAGGCTTAAAGGCAGTGAAAGCATTCAGTGATTTAAACATTAAGACGAACGTTACACTTATTTTTAATGCAAATCAAGCTTTGCTTGCTGCTCGTGCTGGTGCAACTTATGTGTCTCCTTTTCTTGGTCGCCTCGATGATATTGGGCATAACGGAATGGACCTGATTGAAACGATCGCTGATATTTTTAGGAAGCATAGCATTCACACTGAAATTATTGCTGCATCAATTCGCCATCCTTTACATGTTATAGATGCTGCACAAAAGGGTGCACATATAGCCACTATTCCATTTAAAGTACTTCAGCAACTCGTGTCACATCCATTAACAGATCAAGGAATTGAAAAGTTTTTGGCTGATTGGAAAAAAAAAAATTAG MKFFIDTANIDEIREANALGVLDGVTTNPSLVAKEGVSFHDRLQEITNEVSGSVSAEVIAENAEGMIREGKELAAIAPNITVKVPMTLEGLKAVKAFSDLNIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGMDLIETIADIFRKHSIHTEIIAASIRHPLHVIDAAQKGAHIATIPFKVLQQLVSHPLTDQGIEKFLADWKKKN PGPT0017375_5708 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 AK015_02292 858 fbaA_2 COG0191 putative fructose-bisphosphate aldolase ATGCCATTAGTATCAATGAAAGAAATGTTAGAAAAAGGGAAAGAAAATGGTTATGCAGTTGGTCAATTTAACTTAAATAACCTAGAGTACGGTCAAGCCATTTTGCAAGCTGCAGAAGAGGAAAAATCTCCTGTCATTATCGGGGTTTCTGAAGGTGCTGCAAGATATATGGGTGGTTTTAATGTTGTTGTTGCAATGGTGAAATCACTAATGGAAGCATATGGCACAACTGTACCTGTTGCGATACATTTAGATCACGGTTCAAGCTTTGCAAAGTGTGCGGAAGCAATTCATGCTGGTTTCACTTCTGTTATGATTGATGCGTCTCATGATCCATTAGAAGAAAATATAGCTGTTACGAAAAAAGTCGTGGAATTAGCTCACTTACACGGTGTGTCTGTAGAAGCTGAGCTAGGAACTGTCGGTGGACAAGAAGACGATGTAGTTGCCGATGGAGTTATTTATGCAGATCCAAAAGAGTGTAAAAAATTAGTTGATGCAACAGGTATTGACTGTTTAGCTCCTGCACTTGGTTCTGTTCATGGTCCTTATAAAGGGGAACCTAACCTTGGCTTCAAAGAAATGGAAGAAATTCTAGATACAGTAGAACTACCTTTAGTACTTCACGGAGGTACAGGTATTCCTACAAAAGATATTCAACGCGCTATTTCACTTGGAACTGCTAAAATTAATGTAAATACAGAAAATCAAATCGCTCAAGCGAATAAGGTACGTGAAGTTTTGAACGAAAACCCTGATCTATATGATCCACGTAAATACTTAGGACCTGGTAAAGATGCGATTAAAGAAACTGTTATTGGTAAAATGCGTGAATTTGGTTCATCACAAAAAGCATAA MPLVSMKEMLEKGKENGYAVGQFNLNNLEYGQAILQAAEEEKSPVIIGVSEGAARYMGGFNVVVAMVKSLMEAYGTTVPVAIHLDHGSSFAKCAEAIHAGFTSVMIDASHDPLEENIAVTKKVVELAHLHGVSVEAELGTVGGQEDDVVADGVIYADPKECKKLVDATGIDCLAPALGSVHGPYKGEPNLGFKEMEEILDTVELPLVLHGGTGIPTKDIQRAISLGTAKINVNTENQIAQANKVREVLNENPDLYDPRKYLGPGKDAIKETVIGKMREFGSSQKA PGPT0017615_4652 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 AK015_02293 360 spo0F COG0784 Sporulation initiation phosphotransferase F GTGAAAAAAACAATCCTTGTTGTTGATGATCAGCCAGGTATCTGTATGCTATTAACGGATATACTAACGGAAGAAGGATATCATGTAGAAACTGCTAGCACTGGAAAAGAGGGGCTAGAAAAGATGAATGCTTCCGTTTACCATTTAGTGTTGATGGATTATCAATTACCGATATTCAATGCATTTGAAGTATTAAAGCAGTTGGAAAAACCAAACAATCAAATCCCTGTAATTGTCATGACTGGCATGACAGAAGGTGTTGTTCGAGAAAAAGAAGATTGTAATAATATTGTAACCATTCTTAGTAAACCATTTAATATTAAGGAAGTTTGCGAATTGGTTCACTCCATTTTGAAATAA MKKTILVVDDQPGICMLLTDILTEEGYHVETASTGKEGLEKMNASVYHLVLMDYQLPIFNAFEVLKQLEKPNNQIPVIVMTGMTEGVVREKEDCNNIVTILSKPFNIKEVCELVHSILK PGPT0024650_329 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 AK015_02294 1608 pyrG CTP synthase ATGACCAAGTATATTTTTGTAACTGGAGGAGTTGTATCCTCTTTAGGAAAAGGAATTACAGCTGCTTCATTAGGAAGGTTATTAAAAAATCGCGGTTTACAAGTGACGATCCAAAAATTTGACCCTTATATTAATGTTGACCCTGGTACGATGAGTCCTTATCAACATGGAGAAGTTTATGTGACAGAAGATGGTGCGGAGACAGACTTAGATTTAGGTCACTACGAACGCTTTATCGATATTAATCTAAATAAATATAGCAATATTACAACAGGTAAAGTGTATTCAAGTGTCATTCGCAAAGAACGACGTGGAGACTATTTAGGTGGAACAGTTCAAGTTATACCACATATTACAAACGAAATAAAAGAACAAGTATTTCGTGCGGGTGAAGCGACAGGAGCAGACATTGTTATAACGGAGATTGGTGGCACGGTTGGTGATATTGAATCATTACCTTTTTTGGAAGCTATTCGCCAAATTAAGAAAGATGTAGGCAGGGACAGCGTTATGTATTTGCATTGTACCCTTGTTCCTTATATTCAAGCTGCTGGTGAAATGAAAACAAAACCCACACAACACAGTGTCAAAGAATTACGTTCATTAGGAATTCAGCCAGACGTTATCGTGTTACGAACCGAACAAGCGATTAGTAAAGAAATGAAGGAAAAGATAGCTTTGTTTTGTGATATAAATGAAAAAGCTGTTATAGAAATGTTAGATGCAGATACATTGTATCAAGTGCCGATTGCTTTACAAGAGCAACGATTAGATGAGCTCACTTGTAATCATTTTGGGCTAGACTGCAAGGAGGCAGATATGGAAGAGTGGCTGGAGCTTCTAAACAAAGTGCGTCACTTATCCAAAACAGTAGATATAGCTTTAGTTGGGAAATATGTGGAGCTTCCGGATGCCTATTTGTCCGTAGTAGAAGCATTGAAGCATGCTGGATTTATGTATGATGCTGATATTCGTGTACATTGGGTGAATTCGGAGTTGCTCGATGAGAAAACGATTCATGAACAATTACAGCATGTAGATGGGATTTTAGTACCTGGAGGATTTGGTGATCGAGGTATTGAAGGGAAAATCACAGCTGTTCAATACGCACGTGAAAATAAAATTCCGTTCTTAGGCATTTGTTTAGGTATGCAATTAGCTACTGTAGAGTTTGCTCGCAATGTCGTAGGTCTTTATGGTGCGCATTCTTCAGAAATTGATCCTGATACAGCATACCCGATTATTGATTTGCTTCCAGAGCAAAAAGATATCTCTGACCTTGGTGGCACATTGAGACTTGGAGTTTACCCTTGCAAACTAAAAGACGGTACAAAAGTGAAAGCAGCTTATAATGGTGCTGATTATATTGAAGAACGCCACCGTCATCGTTATGAATTTAATAATGTTTACCGTGAGCAAATGGAAGAATACGGTTTTGTATTTTCTGGTACTAGCCCTGATGGTCGACTAGTAGAAACGATTGAAATTGCAGATCATCCTTGGTTTGTAGCAAGTCAATTCCATCCAGAATTTACATCGCGACCGACTCGAGCACAAGCTTTATTTAAAGGATTTGTTGGAGCGGCAGTTGATTTTCAGAAAGCATAA MTKYIFVTGGVVSSLGKGITAASLGRLLKNRGLQVTIQKFDPYINVDPGTMSPYQHGEVYVTEDGAETDLDLGHYERFIDINLNKYSNITTGKVYSSVIRKERRGDYLGGTVQVIPHITNEIKEQVFRAGEATGADIVITEIGGTVGDIESLPFLEAIRQIKKDVGRDSVMYLHCTLVPYIQAAGEMKTKPTQHSVKELRSLGIQPDVIVLRTEQAISKEMKEKIALFCDINEKAVIEMLDADTLYQVPIALQEQRLDELTCNHFGLDCKEADMEEWLELLNKVRHLSKTVDIALVGKYVELPDAYLSVVEALKHAGFMYDADIRVHWVNSELLDEKTIHEQLQHVDGILVPGGFGDRGIEGKITAVQYARENKIPFLGICLGMQLATVEFARNVVGLYGAHSSEIDPDTAYPIIDLLPEQKDISDLGGTLRLGVYPCKLKDGTKVKAAYNGADYIEERHRHRYEFNNVYREQMEEYGFVFSGTSPDGRLVETIEIADHPWFVASQFHPEFTSRPTRAQALFKGFVGAAVDFQKA PGPT0021215_5106 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937 NA NA AK015_02295 489 rpoE DNA-directed RNA polymerase subunit delta GTGAGCTTAAATCAATATAGCCACGAAGAAATTCAAAAAATGCCAATGATTGAGTTGGCTAGCTTATTACTGGCAGAAGAAAGAAAATCATTTCACTTTAAAGACTTATTTAATCGTTTAGCAGATTTGAAAGGCTATACAGAAAAGCAAAAGAAAGATGCGATTGCACAATTTTATACAGATTTAAATGTTGAAGGTAGATTTCTTACTGTTGGCGAAAATATGTGGGGATTAAAGCGTTGGTACCCTGTAGAAAAAATGGATGAAGAAGTAAATGTTGCTCCGAAAAGAAAGAAAAAAGCAAAGAAGAAAAAAGACGAAGATGAGTTGGATATTGTTGATGAGGATATTGAGATTTTAGATGATGATTTAGATATAGGTCTAGATTATGATGCAGAAGAATTAGACGAAGATTTTGACGATGAAGCATATGATGAAGATTTGGATGAAGCGTATGACGATGACGATGAAACTGAGGATAGAAATTAA MSLNQYSHEEIQKMPMIELASLLLAEERKSFHFKDLFNRLADLKGYTEKQKKDAIAQFYTDLNVEGRFLTVGENMWGLKRWYPVEKMDEEVNVAPKRKKKAKKKKDEDELDIVDEDIEILDDDLDIGLDYDAEELDEDFDDEAYDEDLDEAYDDDDETEDRN NA NA NA NA NA AK015_02296 627 hypothetical protein ATGAACTCGATCCTTTCTTCCATCAAAGATCCGTCGTTAATTGAGAAGCGACGGAATCAAATTATTAGATCCGCGATTAGTTTGTTTGAAAAAAAGGGGTTCCATCGGACAACAACAAGAGAAATTGCCAAAGAAGCCGGGTTTAGCATCGGAACTTTATATGAATACATTCGTACAAAAGAAGACATTCTATTTCTTGTATGTGACTCTATTTATTTACAGGTACGTGAACGTTTAGAAGCACAAATTGATCCTGATAATTCTTCCTTGGCGCATTTTATTAATGTAATTCGTTCCTATTTTTATTTAATGGATGACATGCAAGAGGAAGTCGTCATTATGTACCAAGAAGTAAAGTCGCTAAAAAAAGAGAGTAAAGATTATGTACTACAGAAAGAAAAAGATATGGTGTCTATGTTAGAGCGAGTTATTGCTAAATGCTTTCCTCATTCCTTGAACTCGAATGAGCGGCAACTCCTTGCCAATAATATTTTTATTCAAGGGCAGATGTGGGGATTTCGGAGATGGATGTTACAAAAGCAATTTACACTGGAGACTTACATAGATAGCCAAATTCAATTTCTAATACAATCTATTCAGGCTAAATCCTTGAGCGATAAAAGCTAA MNSILSSIKDPSLIEKRRNQIIRSAISLFEKKGFHRTTTREIAKEAGFSIGTLYEYIRTKEDILFLVCDSIYLQVRERLEAQIDPDNSSLAHFINVIRSYFYLMDDMQEEVVIMYQEVKSLKKESKDYVLQKEKDMVSMLERVIAKCFPHSLNSNERQLLANNIFIQGQMWGFRRWMLQKQFTLETYIDSQIQFLIQSIQAKSLSDKS NA NA NA NA NA AK015_02297 1140 acdA_1 COG1960 Acyl-CoA dehydrogenase ATGAATTTTGATCTTACGGATGAACAAAAGATGCTAAAAAAAATGGTACGCGAATTTGCGGAAAATGAAGTAGAACCTTCAGCTGCAGAACGAGATGAAGAAGAGCGATTTGATCGGGTGATTTTTGACCAGATGGCAGAACTTGGGCTAACGGGAATTCCTTGGCCAGAAGAATATGGCGGGATTGGCTCTGATTATATGAGTTATGTTATAGCTGTTGAAGAGCTGTCACGTGTATGTGCTTCGACAGGCGTCACTTTATCTGCGCATGTATCTTTAGCGAGTTGGCCAATTTATAAGTACGGTTCAGAAGAACAAAAGCACAACTTTTTGCATCGCTTAGCAACTGGAAAGGCGTTAGGTGCCTATGCTTTATCCGAACCTGGTGCGGGAAGTGATGTTGTGTCTATGTCAACAACTGCAAAAGAAGATGGAGACAGTTACATTTTAAACGGTAATAAAGTGTGGATTACCAACGGCGAGGTAGCAGATATGTATATTGTTTTTGCTAAAACAGACGCTGATGCTAAGCATAAAGGTATTACAGCATTTATCGTTGAAAAAGGAACAGAAGGATTTTCATTTGGTAAAAAAGAAAAAAAGCTCGGAATTCGATCTTCACCGACAACGGAATTAATTTTTGAAAATTGCCGTATACCAAAAGCAAATCGACTTGGTAACGAAGGGGAAGGGTTTAAAATAGCGATGAGCACGTTAGATGGTGGGCGAAATGGTATTGCGGCACAGGCATTAGGAATTGCGCAAGGTGCTTTGGATGCTGCGACCACGTATGCCAAGGAAAGGGTACAATTTGGTAAGCCAATTGCAGCAAATCAAGGTATTTCGTTTAAATTAGCAGACATGGCTACAGAGGTAGAAGCTGCTCGCTTACTGACGTATCAAGCAGCTTGGTTGGAATCACAGGGTATGGAATACGGAAAGGCTTCTGCTATGTCGAAGTTGTTCGCAGGTGATGCCGCGATGAGGATTACGGTGGAGGCTGTACAAATATTTGGTGGTTACGGATATACGAAAGATTATCCTGTCGAACGATACATGCGAGATGCAAAAATCACCCAAATATATGAAGGAACAAATGAAATTCAACGTCTCGTCATTGGTAGGATGCTTACAAAATGA MNFDLTDEQKMLKKMVREFAENEVEPSAAERDEEERFDRVIFDQMAELGLTGIPWPEEYGGIGSDYMSYVIAVEELSRVCASTGVTLSAHVSLASWPIYKYGSEEQKHNFLHRLATGKALGAYALSEPGAGSDVVSMSTTAKEDGDSYILNGNKVWITNGEVADMYIVFAKTDADAKHKGITAFIVEKGTEGFSFGKKEKKLGIRSSPTTELIFENCRIPKANRLGNEGEGFKIAMSTLDGGRNGIAAQALGIAQGALDAATTYAKERVQFGKPIAANQGISFKLADMATEVEAARLLTYQAAWLESQGMEYGKASAMSKLFAGDAAMRITVEAVQIFGGYGYTKDYPVERYMRDAKITQIYEGTNEIQRLVIGRMLTK PGPT0002285_575 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248 NA NA AK015_02298 1128 mmgC_2 COG1960 Acyl-CoA dehydrogenase ATGCTGCGTTGGACCGACGAGCAACAAATGCTAAATAAAATGGTGAGAGATTTTGCGCAAACCGAAATCTTGAAGGCGGTACCTCTTATGGAAGAGGAGGATCGCTTTCCAATAGAAGTCGTCAAGCAAATGGGAGAGCTTGGACTAATGGGAATTCCTATTCCAGAGAAATATGGCGGAGCAGGAATGGATTACACTGCGTATATTCAAACCATTCATGAGATATCAAAGGTGAGTGCAACGGTAGGTGTTATTTTATCCGTCCATACATCTGTTGGAACGAATCCGATTCTTTATTTTGGTACGGAACAGCAAAAGGATTTTTACCTTCCTAAACTGGCAAGTGGTGAATATTTAGGGGCTTTTGCTTTAACAGAGCCGAATGCAGGATCGGATGCAGCAAGTCTAAAAACAAAAGCTGTGAAAGACGGAGAGGTATACATTTTAAATGGGTCGAAAGTGTTTATCACAAATGGTGGTGTGGCTGATACATATATCACCTTTGCGCGTACAGGAGAAAGAGAAATTAGTGCGTTTATCGTGGAGCGGGATACTCCCGGGCTTATCATTGGTAAACCAGAGAAGAAAATGGGGCTACACGGATCCAATACAGTGACACTGACGTTTGACAATTGTCGCATTAGCAAAGAACAACTTTTGGGAGAAGAAGGAAAAGGGTTTAAAATTGCCATGCATAATCTAAATGTCGGTAGAATTGGTATAGCGGCTCAAGCGCTTGGAATAAGTGAAGCAGCGCTAGAGCAGGCAACAAAGTATGCCAAAGAACGAAAGCAATTTGGCAAGTCAATTGCAGAAAACCAAGGCATTTCCTTTAAATTAGCGGACATGGCAACTCGGACAGAGGCGGCTAAACTACTCGTCTACCAAGCAACTCATTTCGTAGAGCGTGGTGTGACATCAGGGAAAGAAGTTTCCATGGCTAAATTACACGCTTCTAAAGTAGCTGTAGATAATGCCATTGAAGCGGTGCAAATATTTGGTGGTTACGGCTATACGGAAGATTATCCTGTTGAACGACTGTTCCGTGACGCAAAAATTACGGAAATATACGAAGGCTCGAGTGAAATTCAACGCATGGTGGTAGCTAAAAATTTACTCAAACAATAA MLRWTDEQQMLNKMVRDFAQTEILKAVPLMEEEDRFPIEVVKQMGELGLMGIPIPEKYGGAGMDYTAYIQTIHEISKVSATVGVILSVHTSVGTNPILYFGTEQQKDFYLPKLASGEYLGAFALTEPNAGSDAASLKTKAVKDGEVYILNGSKVFITNGGVADTYITFARTGEREISAFIVERDTPGLIIGKPEKKMGLHGSNTVTLTFDNCRISKEQLLGEEGKGFKIAMHNLNVGRIGIAAQALGISEAALEQATKYAKERKQFGKSIAENQGISFKLADMATRTEAAKLLVYQATHFVERGVTSGKEVSMAKLHASKVAVDNAIEAVQIFGGYGYTEDYPVERLFRDAKITEIYEGSSEIQRMVVAKNLLKQ 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 AK015_02299 852 mmgB_2 COG1250 putative 3-hydroxybutyryl-CoA dehydrogenase TTGGATATTAAACAAGTGATGGTCATAGGCGCTGGGCAAATGGGGGCAGGAATTGCCCAGGTCTGTGCTCAAGCTGGGTTTCATGTAGTCGTATATGATAAACATGTCGCATCATTGGATAATGGTATGAAAAGAATTCACACGTTTGTACAACGAGCTTTTGAAAAAGAACGAATAACGGAAGAACAACGTGATGAAACGCTGCAAAGATTGCAACGTGCAGAGAAGGTAGAAGCTGTGGAAAAGGCGGATATCGTTATTGAGGCTGTCATCGAAAATATGGATGCAAAAGCGGCTATTTTTAAAGAGTTGGACCAATTAGCGCCAGCACGTACTATTTTAGCTTCTAATACGTCATCTTTGCCAATTACTAAACTAGCATCTGCGACGAATCGCCCTGACCGGGTGATTGGCATGCATTTTATGAATCCGGTTCCAATTATGGAGTTGGTGGAAATTATTCGGGGATTACAAACAAGTGATGAAACCTATTTTAAAGTTGAGCAAATGGCGAGAGCATTACATAAAACGCCAGTTACTGTCGCGGATTTCCCAGGTTTTGTTTCCAACCGTATATTAATGCCAATGATTAACGAGGCTATTTATACATTACAAGAAGGAGTTGCTACGGCAGAAGATATAGATACATCGATGAAACTAGGTATGAATCATCCGATGGGTCCGTTAACACTCGCTGACTTTATTGGTTTGGATACATGTTTGTACATTATGGAGGTACTGCATGAAGGCTTTTCCGATAGTAAATACCGACCTTGCCCGTTACTTAAGCAATATGTGCAAGCGGGATGGTTAGGTAAAAAAACAGGTCGAGGTTTTTATGTGTATACGTAA MDIKQVMVIGAGQMGAGIAQVCAQAGFHVVVYDKHVASLDNGMKRIHTFVQRAFEKERITEEQRDETLQRLQRAEKVEAVEKADIVIEAVIENMDAKAAIFKELDQLAPARTILASNTSSLPITKLASATNRPDRVIGMHFMNPVPIMELVEIIRGLQTSDETYFKVEQMARALHKTPVTVADFPGFVSNRILMPMINEAIYTLQEGVATAEDIDTSMKLGMNHPMGPLTLADFIGLDTCLYIMEVLHEGFSDSKYRPCPLLKQYVQAGWLGKKTGRGFYVYT PGPT0006075_4258 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074 NA NA AK015_02300 1188 mmgA COG0183 Acetyl-CoA acetyltransferase ATGAGAGAAGCAGTGATTGTATCTGGAGCTAGGACTCCGTTTGGAAAGTTTAGTGGTGCACTACAACCTTTTACCGCTTCACAGTTAGGGGGGAAGGCTATTGAAGAAGCATTAAAACGTGCCCATATAACTGGTAGTGATGTAGATGAGGTAATTATAGGAAATGTTTTACAGGGCGGTCAAGGGCAAATTCCTTCTAGACAAGCAGCCAGGGAAGCAGGAATTCCTTGGGAAGTGAAGACAGAAACGGTGAACAAGGTATGTGCCTCGGGATTACGAAGTGTTACATTAGCAAACCAGCTTATTCGTTTAGGAGATGAAGATATCATTGTTGCTGGTGGGATGGAGAGCATGAGTAATGCTCCATACTTTTTACCAGATGCTCGTTGGGGTAATCGAATGGGTGACAAGAAAGTTGTCGATATGATGGTACATGATGGATTGACTTGTTCTTTCCATGGTGTGCATATGGGAACGTATGGCAATACGACAGCAGCAGAGTATGATTTAACGCGAGAGGAACAGGATGAATGGGCGTATCGCAGCCATCAACGTGCTGTAGAAGCGATAGAGGATGGCAAGTTTGCTGAAGAGATTGTAGCTATGGAAGTGCCACAACGTAGGGGGGGGCCAATTATTGTCGATCAAGATGAAGCTCCAAGAAAAGATACGAGCATAGAAAAACTAGCGAAGCTTCGATCGGCATTTGACCGAGATGGTACGATCACCGCAGGGAATGCTCCGGGGATAAATGATGGTGCATGTGCATTTGTTGTTATGTCAGATGAAAAAGCTTCTGAACTTGGAAAAGAAGCATTAGCAGTTATAAAAGGGCATACGGAAATTGCTGTTCCTGCAGAAGATTTTCCGAAAACACCAGGTCTAGTTATTAATCAATTATTGGAAAAAACGGGGTATTCCAAAGAAGAAATTGATTTATTTGAAATTAATGAAGCGTTTGCTGCAGTGGCATTAGCGAGTGGCAAAATTGCCGGGATTGATCCGGAAAAGGTGAATGTAAATGGTGGGGCAGTTGCATTGGGTCATCCAATCGGTGCAAGTGGAGCGCGGATTATTCTAACGCTTATTTATGAGCTTAAACGACGTGGGGGTGGACTTGGCATTGCTGCAATTTGTAGCGGAGGAGGTCAAGGTGACGCTGTTTTAATCGAAGTACCTAAACAGTAA MREAVIVSGARTPFGKFSGALQPFTASQLGGKAIEEALKRAHITGSDVDEVIIGNVLQGGQGQIPSRQAAREAGIPWEVKTETVNKVCASGLRSVTLANQLIRLGDEDIIVAGGMESMSNAPYFLPDARWGNRMGDKKVVDMMVHDGLTCSFHGVHMGTYGNTTAAEYDLTREEQDEWAYRSHQRAVEAIEDGKFAEEIVAMEVPQRRGGPIIVDQDEAPRKDTSIEKLAKLRSAFDRDGTITAGNAPGINDGACAFVVMSDEKASELGKEALAVIKGHTEIAVPAEDFPKTPGLVINQLLEKTGYSKEEIDLFEINEAFAAVALASGKIAGIDPEKVNVNGGAVALGHPIGASGARIILTLIYELKRRGGGLGIAAICSGGGQGDAVLIEVPKQ PGPT0008320_7021 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK015_02301 2103 fadF COG0247 putative iron-sulfur-binding oxidoreductase FadF GTGAATACATTTTTGTTAGTAAATGCCATTGCGTTTACCGTCATTACGATTTATGGGGTGTACTTATTTGCAAAAGTCGTAGCTACACGGGTGGCTTATATTCGTTTAGGGAAAAAGTCAGAGTTTGATGGGGAGTTTAAAGAGCGATTCAGAAGAATAGGGAAAATTGTTTTTGGTCAGTCGAAACTTTTAAAGGATAAAAAATCTGGCATTATTCATGTCATGATGTTTTATGGATTTATTCTCGTACAATTTGGTGCGATGGACATGTTTATTAAGGGTTTATCACCTGGAAACCACTTACCTTTTGGGCCGCTTTATCCAGGGTTTGTATTTTTTCAGGAATTAGTAACATTAATGATTCTTGTAGCGGTGATATGGGCTTTTTATCGCCGTTATATTGAAAAACTTGTCCGTCTTAAACGCGGGTTTAAGGCAGGTTTAGTTTTATTGTTTATTGGTACATTAATGATCTCTGTGTTATTTGGAAATGGAATGGCATTATTATGGCACGGTCATGATGTAACGTGGACGGAGCCCGTTGCAAGTGTCATTGCGATGGCGTTTTCTTGGTTGTCATCTACTGCTGCTATGGTATTATTTTATGTCGCTTGGTGGATTCATACGATCACAATCCTTGTGTTCCTTGTTTACGTCCCACAATCCAAGCATGCCCATTTAATTGCTGCACCAATTAATGTGTTTTTAAGTAAGCGTGTACCAGGTAAGTTAAAGAAAATTGATTTTGATATGGACGAAGATCAAGAGGAAGAAGAGATCGCATTCGGTGTTGGGAAAGTGGAAGATTTTGAACAGCATCAAATGATTGATTTTTATGCATGTGTAGAATGCGGTAGATGTACAGATGTTTGTCCTGCTGCAGGTACAGGGAAAATGCTATCGCCAATGGATATTATGATTAAAGTACGAGATCATTTAACAGAAAAAGGCGCAGCAATTACTGGAAAGTCGCCATGGGTCCCAGCCTATGCATTTGCCAACACTACGGGCAATCAAGCCACTGCAAAACAAGAGGCTGCTGCCACTGTGCAAAGCGCAAGTTTAATTGGCGATGTCATTACAGAAGAAGAATTGGCTGGTTGTACAACGTGCCGCAACTGCGAAGATGCCTGCCCTGTTAACAATGAGCATGTAGGAACGATAATCGATATGCGCAGGTACTTGGTCATGACAGAGGGAAAGATGGATCAAGATGTTCAACGAGCAGTTATGAATATTGAGCGACAAGGCAATCCATGGGGATTATCGAAAAAAGATCGCATCAAGTGGCGTGAACAAGATGAGTCTGTGCACATACCAACGATGAAAGAATTAAGTAAAGAAGGCAAAGATTTCGAATACTTATTTTGGGTTAGTTCTATGGGAGCATATGATAACCGGAGTCAAAAAATTGCTATTGCGTTTGCCAAGTTATTAAACCAATCTGGTGTGAGCTTTGCGATTTTAGGAAATAAAGAAGCGAATTCTGGAGACACAGCTCGTCGGATAGGGAATGAGTTCTTATTCCAGGAAATAGCGGAGAAAAATATTAGAGAATTTACGAAAAATGATGTGAAAAAAATAGTTACGATTGATCCACATGCATACAATATTTTTAAAAATGAGTATCCAGATTTTGGATTTGAAGCGGAAGTCTACCACCATACCCAATTATTATATGATTTATTGATAGAAGGGAAGTTGAAGCCTCAAAAAGCGATTAACCAAAGGCTGACATACCATGATTCTTGTTACCTAGGAAGGTATAATGGCGTATACGATCCGCCGCGGGAGATTCTCCAAGCTATTCCAGGGTTAGAATTGGTAGAAATGCAACGTACGAGAGAAAATGGGATGTGCTGTGGAGCAGGTGGTGGGTTAATGTGGGCTGAGGAAACGACAGGAAATCGTATTAATGTTGCGCGTACAGAGCAAGCGTTAGCGGTTAAGCCGAACATGATTTCTAGTGCATGCCCGTATTGTTTAACGATGATCAGTGATGGTACAAAAGCGAAAGAAGTAGAAGAGGATATTAGCACGATGGATGTAGCAGAGATTTTAGCTATTTCTGTATGTAATGAAGAACAAATAAAATCCGCTTAA MNTFLLVNAIAFTVITIYGVYLFAKVVATRVAYIRLGKKSEFDGEFKERFRRIGKIVFGQSKLLKDKKSGIIHVMMFYGFILVQFGAMDMFIKGLSPGNHLPFGPLYPGFVFFQELVTLMILVAVIWAFYRRYIEKLVRLKRGFKAGLVLLFIGTLMISVLFGNGMALLWHGHDVTWTEPVASVIAMAFSWLSSTAAMVLFYVAWWIHTITILVFLVYVPQSKHAHLIAAPINVFLSKRVPGKLKKIDFDMDEDQEEEEIAFGVGKVEDFEQHQMIDFYACVECGRCTDVCPAAGTGKMLSPMDIMIKVRDHLTEKGAAITGKSPWVPAYAFANTTGNQATAKQEAAATVQSASLIGDVITEEELAGCTTCRNCEDACPVNNEHVGTIIDMRRYLVMTEGKMDQDVQRAVMNIERQGNPWGLSKKDRIKWREQDESVHIPTMKELSKEGKDFEYLFWVSSMGAYDNRSQKIAIAFAKLLNQSGVSFAILGNKEANSGDTARRIGNEFLFQEIAEKNIREFTKNDVKKIVTIDPHAYNIFKNEYPDFGFEAEVYHHTQLLYDLLIEGKLKPQKAINQRLTYHDSCYLGRYNGVYDPPREILQAIPGLELVEMQRTRENGMCCGAGGGLMWAEETTGNRINVARTEQALAVKPNMISSACPYCLTMISDGTKAKEVEEDISTMDVAEILAISVCNEEQIKSA NA NA NA NA NA AK015_02302 2247 pflB Formate acetyltransferase ATGACTACTACTACTTTATCCCCTTGGAGAACTTTCCGTAGTGGGAAATGGGAACAAGACGTTAATGTTAGAGACTTTATTATACGCAACTTTACTGGCTACGAAGGTGATGAACAATTTCTAGCTAAACCTACACAAAACACTTTAGATCTTTGGAAACAAGTAACAGAACTTACTGCAAAAGAACGCGAAGCTGGTGGCGTATTAGATATGGATACAAAAATCCCTTCTACCATTACGTCACATGGTCCTGGATATCTTGATAAAGATAAAGAAACCATTGTCGGCGTTCAAACAGATAAACCATTTAAACGTGGTTTAATGCCATTTGGTGGTATTCGCATGGCGAAAAATTCATGTGAAGCATATGGCTATGAGTTAGATAAAGAAACGGAGCACATTTTTACGGAATATCGCAAAACACATAACCAAGGCGTATTTGACGCTTACACTCCAGATATGAGAAAAGCACGTAGAGCTGGTATCATCACAGGTTTGCCTGACGCTTATGGACGTGGTCGAATTATCGGTGACTACCGTCGTGTTGCACTATATGGTGTAGACTTCTTAATTAAGAAAAAACAAGAAGAACTTACATTGTTAGAAAACGACGGTGTTATGACTGAAGATATCATTAAACAACGTGAAGAGCATAATGAACAAATAAGAGCATTGCACGAATTAAAACAGTTAGCAGAAAGCTATGGATTTGATATTTCTAAACCAGCTACAAATGCGCAAGAAGCTATTCAATGGGTATACTTGGCTTATTTAGCTGCGATTAAAGAACAAAATGGTGCCGCAATGAGTTTAGGGCGTGTATCTACATTCCTAGACATTTATATTGATCGCGACCTACAAGAAGGTCACCTAACAGAAGAACAAGCACAAGAACTTATTGACCATTTTGTTATGAAATTGCGTTTAGTGAAATTCGCTCGTACTCCAGAATATAATGAATTATTTAGCGGGGACCCTACTTGGGTAACAGAATCCATTGGTGGTGTAAGCTTACAAGGTGAGCCGCTTGTTACAAAGAGCTCATTCCGTTTCTTACACACATTAACGAACTTGGGACCTGCTCCGGAGCCTAACTTAACGATTCTTTGGTCTACAAAATTACCAGAAGCGTTTAAAAAATATTGTGCTAAAATGTCCATTGAATCAAGCTCCATCCAATATGAAAATGACGATTTAATGCGTAAACATTACGGTGATGACTACGGTATCGCTTGTTGTGTAAGTGCGATGGAAATCGGTAAACAAATGCAATTCTTTGGCGCACGCGCTAACTTAGCTAAGGCTTTACTTTATGCGATTAATGGTGGCGTAGATGAAAAATTAAAAATGCAAGTAGCACCACCACTTCGTCCGATTACTTCTGATGTGTTAGACTTTGAAGAAGTTATGGAACGTTACGATGTCATCTTAGATTGGTTAGCTAAGCTATACATGAATACATTAAACGTCATTCACTTCATGCATGATAAATATGCGTATGAACGTATTGAAATGGCACTACACGACAAAGACGTTCTTCGTACAATGGCAGGAGGTATTGCTGGACTAAGCGTTGTTGCAGATAGCCTAAGTGCTATTAAACACGCAAAAGTTCATGTTATTCGTGATGAAGACGGCTTAGCAGTAGATTATCGTATTGAAGGGGACTTCCCTAAATATGGTAACAACAATGATGAAGTGGATTCCATAGCTGTAGACGTTGTGAATAGATTTATGAATAAGTTCCGTCAACACGAAACATACCGTAATGCTGTACCAACATTATCTATCTTAACAATTACTTCAAACGTTGTTTACGGTAAGAAAACAGGTAACACACCAGACGGACGTCGTGCTGGTGAGCCATTTGCACCAGGTGCTAACCCACTTCATGGTCGTGATCAATCTGGAGCACTTGCATCCTTGAACAGTGTTGCTAAAATACCTTATGAAAACTCATTAGACGGTATTTCTAATACAACAAGCTTTGTTCCAAAAGCACTAGGTAAAACAGAAGATGAACGTACGAGCAACTTAGTATCCATTCTTGATGGCTATGCAAGCAAAGAAGGACATCACTTAAACATTAACGTATTTGACCGTGAAACGTTAGAAGATGCCATGGAGCATCCAGAACTATACCCACAATTAACGATTCGTGTTAGTGGATATGCAGTAAACTTCATTAAACTTACTAAAGAGCAACAGCTCGATGTTATTAACCGTACATTCCATAAAGGATTGTAA MTTTTLSPWRTFRSGKWEQDVNVRDFIIRNFTGYEGDEQFLAKPTQNTLDLWKQVTELTAKEREAGGVLDMDTKIPSTITSHGPGYLDKDKETIVGVQTDKPFKRGLMPFGGIRMAKNSCEAYGYELDKETEHIFTEYRKTHNQGVFDAYTPDMRKARRAGIITGLPDAYGRGRIIGDYRRVALYGVDFLIKKKQEELTLLENDGVMTEDIIKQREEHNEQIRALHELKQLAESYGFDISKPATNAQEAIQWVYLAYLAAIKEQNGAAMSLGRVSTFLDIYIDRDLQEGHLTEEQAQELIDHFVMKLRLVKFARTPEYNELFSGDPTWVTESIGGVSLQGEPLVTKSSFRFLHTLTNLGPAPEPNLTILWSTKLPEAFKKYCAKMSIESSSIQYENDDLMRKHYGDDYGIACCVSAMEIGKQMQFFGARANLAKALLYAINGGVDEKLKMQVAPPLRPITSDVLDFEEVMERYDVILDWLAKLYMNTLNVIHFMHDKYAYERIEMALHDKDVLRTMAGGIAGLSVVADSLSAIKHAKVHVIRDEDGLAVDYRIEGDFPKYGNNNDEVDSIAVDVVNRFMNKFRQHETYRNAVPTLSILTITSNVVYGKKTGNTPDGRRAGEPFAPGANPLHGRDQSGALASLNSVAKIPYENSLDGISNTTSFVPKALGKTEDERTSNLVSILDGYASKEGHHLNINVFDRETLEDAMEHPELYPQLTIRVSGYAVNFIKLTKEQQLDVINRTFHKGL PGPT0001950_1139 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656 NA NA AK015_02303 735 pflA COG1180 Pyruvate formate-lyase 1-activating enzyme ATGATCGGAAGAATTCACTCGATAGAAACATGCGGCACAGTAGACGGACCAGGTTTGCGTTATGTCATCTTTTTACAAGGCTGTCTGCTTCGATGTCAATTTTGCCATAACCCCGACACGTGGGACGTAAAAGGCGGGGTTGAGAAAAGTGTAGCCGAAATCATCACAGACCTAAAAGACTACCTCCCATACATTAAGAGCAGTGGAGGAATTACGGTTAGTGGCGGAGAACCATTATTACAAATTGATTTTCTGCTGGAGCTGTTTAAGGAATGCAAAAAATTAGGCGTCCACACGGCAATTGATACATCAGCTGGATGTTTTCGGGAAAGCCCTACCTTTTTAAGGAAAGTGGAGGAATTATTAAGTGTTACAGATCTTGTACTCTTAGATATTAAGCATTTAGATAATGATTTACACAAACAGCTTACAGGGATGCCTAACGCGCATATCTTGAAATTTGCGGAACTATTAGCCGAGAAAAATACACCTGTTTGGATTCGCCGTGTTCTTATTCCAGAAAGAACAAATGACCCAGACGAATTAGCAAGGCTAAATGATTTCATTAAAAATATGGGTAATGTACAAAAAGTTGAAGTACTTCCGTATCATAAGATGGGAATTTATAAATGGGAACATTTAAATTTAGAATACCCACTTGCTGGTGTCGAACCACCTACAGAAGAAGAAGTGAAGCGCGCTAAAGAAATACTTTCTATTCCCGCTGAATCGTAG MIGRIHSIETCGTVDGPGLRYVIFLQGCLLRCQFCHNPDTWDVKGGVEKSVAEIITDLKDYLPYIKSSGGITVSGGEPLLQIDFLLELFKECKKLGVHTAIDTSAGCFRESPTFLRKVEELLSVTDLVLLDIKHLDNDLHKQLTGMPNAHILKFAELLAEKNTPVWIRRVLIPERTNDPDELARLNDFIKNMGNVQKVEVLPYHKMGIYKWEHLNLEYPLAGVEPPTEEEVKRAKEILSIPAES NA NA NA NA NA AK015_02304 1665 argS_1 Arginine--tRNA ligase ATGAATGTATTAGTGCAAACAGAAGAGACATTGAAACAACAAATTAGGGATGCCGTCTTGCGAGCGAGTCTTGCAAGTGAAGAAGAAATACCAGAAATTTTGCTTGAAAAACCAAAAGATAAAAGGCATGGGGATTTTGCGACAAATATTGCTATGCAACTAGCACGTGTTGCAAAAAAAGCGCCACGTCAAATTGCGGAAGAATTAGTAAACGAGTTTAATAGAGTGAAGGCATCTGTTGAAAAGGTAGAAATTGCAGGGCCAGGCTTTATTAACTTTTTTATGAAAGAGGATTTTCTAGGCTCGATTGTTCCAAATATTTTACAAGAGGGAGAAGCCTATGGAAGATCACGAGCTGGTAATAATGAGCGTGTACAAGTGGAGTTTGTCTCTGTGAATCCAACGGGTGATTTGCATTTAGGTCATGCAAGAGGCGCGGCTTTCGGAGATGTCTTATGTAACGTATTCGATGCTGCTGGTTATCGGGTTGAACGAGAATACTATATTAATGATGCTGGAAATCAAATCGATAATTTAGCCTTGTCTATAGAAGTACGCTATTTGCAGGCATTAGGTCAAGACGTATCCATGCCTGAAGATGGCTATTATGGTGAAGATATTACGGAAATTGGTAAACAATTAAGGGAAGAATATGGAGATCAGTGGGTACAAAAAGATAGGGAAGAACGTTTAGCTTTCTTTAAAGAATATGGGTTAAGTTATGAACTGGGTAAAATTAAAGAAGATTTACAAGCATTCAAAGTTCATTTTGACTCGTGGTTTTCTGAGCGCTCCCTTTATAAGGAAAATAAAATTGGAGAAACACTAGAAAAAATAGCCACCTATACATACGAAAAAGATGGTGCTACATGGTTCCGTAGTACGGAATTTGGCGATGATAAGGATCGCGTTTTAATTAAACAAGATGGTACTTATACTTATTTAACCCCGGATATTGCGTATCATAAGAACAAATTGGATCGTGGGTTTGATCAAATTATTAACGTTTGGGGTGCCGATCATCATGGCTATATCCCGCGGATGCGTGCTGCGATTCAAGCGTTAGGCTATCCCGCTGAAAAGTTTTCCGTGAAAATCGTGCAAATGGTAAATTTATTTGCGGATGGCGAAAAGGTGCGGATGAGCAAACGTACTGGTCAAGCTGTAGCATTAAGAGAACTTATAGAAGAAGTCGGGGTAGACGCTGTTCGCTATTATTTTGTAATGCGTTCCAATGATTCACAGCTTGATTTTGATATGGATCTTGCTCGATCTGAATCGAATGATAACCCTGTTTTTTATGTGCAATATGCACATGCAAGAATTTGTACGATGTTAAAGCAAGCAGAAGCGAAAGGACTTTCTGTTGATAGTGATGCCGATGTTTCGCTTTTAACCGCTGAAAAAGAAACCGATTTGTTAAAAAAATTAGCTGCCTTTCCGCAAGTTATCGCTGATGCAGCTCAAATGCAGACACCACATAAAGTAACTCAGTATGTGTTTGACTTGGCGTCCTTGCTACACAGTTTTTATAATGCGGAAAAAGTATTAGATATGGATCATCTCGAAAGAACGAAAGCGCGTATTGCTTTCATGCAAGCTGTCAAAATTACATTGGCGAATGGTTTACGCGTGTTAGGTGTAACGGCGCCAGAGAAAATGTAG MNVLVQTEETLKQQIRDAVLRASLASEEEIPEILLEKPKDKRHGDFATNIAMQLARVAKKAPRQIAEELVNEFNRVKASVEKVEIAGPGFINFFMKEDFLGSIVPNILQEGEAYGRSRAGNNERVQVEFVSVNPTGDLHLGHARGAAFGDVLCNVFDAAGYRVEREYYINDAGNQIDNLALSIEVRYLQALGQDVSMPEDGYYGEDITEIGKQLREEYGDQWVQKDREERLAFFKEYGLSYELGKIKEDLQAFKVHFDSWFSERSLYKENKIGETLEKIATYTYEKDGATWFRSTEFGDDKDRVLIKQDGTYTYLTPDIAYHKNKLDRGFDQIINVWGADHHGYIPRMRAAIQALGYPAEKFSVKIVQMVNLFADGEKVRMSKRTGQAVALRELIEEVGVDAVRYYFVMRSNDSQLDFDMDLARSESNDNPVFYVQYAHARICTMLKQAEAKGLSVDSDADVSLLTAEKETDLLKKLAAFPQVIADAAQMQTPHKVTQYVFDLASLLHSFYNAEKVLDMDHLERTKARIAFMQAVKITLANGLRVLGVTAPEKM NA NA NA NA NA AK015_02305 447 ywiB COG4506 putative beta-barrel protein YwiB ATGTCGAATAATAAGCAACAAACAGCTGTATGGATTGAACTTCATACGACGATTAATGACAATGGACAAAAAGAATTTCACGAAAGCAAACAGGCTGGTACGCTTTATCAAAAAGGAAATATAGACGTGCTGACGTTTGAAGAAGTATTAGAGGATGCGTCTGTTGTAAAAAACATGATTACGATTCAACGTGAAAAAGTCAACTTGAAGCGTTCGGGTAATGTTACCATGAATCAGCAATTCCATATCAATCAAACGACAGAGAATGTATTAAAGCATCCTTATGGCAATATACATATGGAAACTTATACGACAGCTATTGTCTATGAACCGTTATCGTCAACAAAGAATGGCAACCTGCAAATTGCTTACGATCTCAAACTAAATGGACAAGATGCGAGACAGCAAACGCTCGACTTAGTTATAAAAGAGGAGGACAAGGCATGA MSNNKQQTAVWIELHTTINDNGQKEFHESKQAGTLYQKGNIDVLTFEEVLEDASVVKNMITIQREKVNLKRSGNVTMNQQFHINQTTENVLKHPYGNIHMETYTTAIVYEPLSSTKNGNLQIAYDLKLNGQDARQQTLDLVIKEEDKA NA NA NA NA NA AK015_02306 612 yesV_1 COG5578 putative protein YesV ATGAGTGGGTTTATAGCAGGCTATTATCATTTCTCGGTGTGGGTTACTAGGTTCGCCTATTTAAATTTTTTATGGATCATATTTTCAGTTGCTGGATTACTTGTATTCGGAATTTTACCTGCTACTGCTGCTATGTTTTCGGTTGTTAGAAAGTGGATGAATAAGGAAAAAGATATACCAATATTTTCAACCTTTTGGAGGTCATATCGAAAAGAATTTAGCAAAATAAATGTATTAGGATACGTTATTTTAGGAATTGGCTATTTGATGACGATCGAGTTTCAAATCCTTCGTTCTCAAGGGCATATTGCCTATCTTATTGCTAGTTTTGGAGTTATCGGTCTGTTTTTAGTGTATATGATTATACTCCTTTATATTTTTCCGATTTTTGCACATTTTAAGTTGAGATCGTTGGAATATATAAAGTGGGCTTTTGTTATTGGCATAGGCCATCCACTCTTAACTGTATTCTTAATGGGGGTTACTAGCGGTTTGTTTTATTTTATCTACCTAACCATTCCAGCTTTACTATTTTTCTTTGGTGGGAGTGTGTTTGCTTATATTGTAACATGGGGAGCGCAGCAAACGTTTTCAAAGTATGAGCAAGCATGA MSGFIAGYYHFSVWVTRFAYLNFLWIIFSVAGLLVFGILPATAAMFSVVRKWMNKEKDIPIFSTFWRSYRKEFSKINVLGYVILGIGYLMTIEFQILRSQGHIAYLIASFGVIGLFLVYMIILLYIFPIFAHFKLRSLEYIKWAFVIGIGHPLLTVFLMGVTSGLFYFIYLTIPALLFFFGGSVFAYIVTWGAQQTFSKYEQA NA NA NA NA NA AK015_02307 894 hypothetical protein ATGAAAAGAGTTAGCCTATCAGACAAGTCATTCGATCTATTAAATACACTATTTTTACTTATTATATTGGTATTAATCGTCTATCCACTAGTTTTTGTTTTAAGTGCTTCTATTAGTGATCCTACTGCAGTAAGCTCTGGTGAGATGTGGTTGTGGCCTGTAGATATTACGTTTGAAGGTTATCAACGGGTTTTTGCTGAAGCGTCAATTTGGAGAGGATATGGGAACACGATTTTATATACGTTAGTAGGTACAGCCATTCATTTGTTTGTTCTTTTGCCATGTGCCTATGCTTTATCAAGGAAAGAACTGATGGCAAAAAAAGCTATATTATGGTTTTTTCTGTTTACAATGCTATTTAATGGTGGACTCATTCCAACTTATCTTATAGTTAAGTCTTTAGGTATGTTAGATACCATGTGGGCAATTGTTATTCCGAACGTTGTAGGTGCTTGGTCGATTTTAGTAGCACGTACTTTTTTTCAACAAAGCATTCCTGACCAGTTAGTTGAAGCTTCAAAAATTGACGGTGCTTCTGATTTTTATATTTTTATAAGGGTGGTTTTACCTCTTTCTCTTCCTATTATTGCAGTTATGGCTTTATTCCATGCAGTAGGTTTATGGAATCAGTATTTTAACGCCTTAATTTATTTATCTGATAGAGATAAATTTCCATTGCAATTAATTTTAAGGGAAATTTTAGTTGTAAATCAGATGCAGCTAAACGATCCTACAGCAGGTGGAGGGGCAGAATCTCTCGTAGATCAAGTGAAAACAGCAGGCTTAATTAAGTATGCCGTAATTATCGTTTCCTCCCTTCCTTTATTACTTGTGTATCCTTTTATTCAAAGATATTTTGTGCAAGGGGTTTTAATTGGATCAATTAAAGAATAA MKRVSLSDKSFDLLNTLFLLIILVLIVYPLVFVLSASISDPTAVSSGEMWLWPVDITFEGYQRVFAEASIWRGYGNTILYTLVGTAIHLFVLLPCAYALSRKELMAKKAILWFFLFTMLFNGGLIPTYLIVKSLGMLDTMWAIVIPNVVGAWSILVARTFFQQSIPDQLVEASKIDGASDFYIFIRVVLPLSLPIIAVMALFHAVGLWNQYFNALIYLSDRDKFPLQLILREILVVNQMQLNDPTAGGGAESLVDQVKTAGLIKYAVIIVSSLPLLLVYPFIQRYFVQGVLIGSIKE PGPT0017255_1404 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320 NA NA AK015_02308 948 yteP_1 COG4209 putative multiple-sugar transport system permease YteP ATGAGAGCAACCAAATCAGAAGCTTCTCTTCCTAATCAATCTAGAACTTATACCATAAAGAAAAAATTGTTGAGAAACTGGCAATTGTATGTGTTTTTGGCCCCAGCACTTGCTTATTTTATTATTTTACACTATGTGCCAATGTATGGTGTGCAAATTGCATTTAAAAACTTTATTGCTACAGAAGGAATTTGGGGGAGCCCATGGACAGGATTTGATCATTTTACTCGATTCTTTGATTCCTATTATTTTTGGAGACTGCTGAAAAACACATTGCTATTAAGTGCTTATCAATTAATTTTATTTCCTTTACCTATTATATTGGCACTTTCATTAAATGAGCTAAGAGCAGGCGCTTTTAAAAAATGGGCACAAACCTTAACCTATGCACCTCATTTTATCTCTGTTGTTGTCGTCGTAGGAATGATTGTTATCTTCCTAGATCCAACTACTAGGTTGGTGAATAGAATCATTGTTGCTTTAGGCGGCGAGTCCATCCCGTTTTTAACGAGTCCGGATTGGTTTCGACATGTCTTTACTTGGTCAGGAGTTTGGCAAACGTTGGGATGGAGTTCGATTATCTATTTAGCTGCACTTTCTGCTGTTAGTCCCGAATTACATGAAGCTGCAAAGGTAGACGGTGCAACACGCTTGCAACGAATCACTCATATTAACATCCCCAGCATTCTGCCGACCATTGTTGTTTTATTTATATTAAATATTGGATCTTTCATGACGGTAGGTTTTGAAAAGGTTTTATTAATGCAAAACAATCTGAATATGTCCACTTCCGATGTCATTCAAACGTTTGTTTATCAAACGGGGTTATTAGAGGGGCAATATAGTTTTGCGGCAGCTATTGGGTTATTTGATTCAGCTATAAATATTACATTACTCGTGATATTTAATTATTTAGCAAGAAAAACAACAGACTCTAGCTTATGGTGA MRATKSEASLPNQSRTYTIKKKLLRNWQLYVFLAPALAYFIILHYVPMYGVQIAFKNFIATEGIWGSPWTGFDHFTRFFDSYYFWRLLKNTLLLSAYQLILFPLPIILALSLNELRAGAFKKWAQTLTYAPHFISVVVVVGMIVIFLDPTTRLVNRIIVALGGESIPFLTSPDWFRHVFTWSGVWQTLGWSSIIYLAALSAVSPELHEAAKVDGATRLQRITHINIPSILPTIVVLFILNIGSFMTVGFEKVLLMQNNLNMSTSDVIQTFVYQTGLLEGQYSFAAAIGLFDSAINITLLVIFNYLARKTTDSSLW PGPT0017250_1580 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319 NA NA AK015_02309 1623 hypothetical protein ATGGTTAAAAGAGTTTTAATGGTTATTGTTGGCGCGTTATTGTTTACTTTTTCTGTATCCGCTTGTAGTAAGGATAAAGAGGAAGAAATTGGTGGTAGCAAAGAAGCGGTAGAAAATTTAACGGAAGAAGAACTGCCAATTGTCAAAGAGCCAATTGAATTAGATATTTTTGCTGGGAAGGCTGCTACTACTGCAGATGATTGGAATGACGTTTTATTGTTAAATGAATATGAAGCAATGACGAATGTGAATATTACGTGGAATCAAGTACCTGCTGATGGGCTTGATGAGAAGAGGAATCTTGCCTTAGCGAGTGGAGATTTGCCAGATGCATTCTATGCTGCAAATGTTTCTATTTCAGATATTCAAACATACGGAGCACAAGGAACTTTTATTCCGCTAAATGATTTAATGGAAGAGTATGCTCCAAATATTTCAAAGGTGCTTGATGAAAATCCTGACATTAGAAAAGGTCTTACATTCCCAGATGGTAATATTTATTCTGTCCCAACGGTATATTCTCCAGATTTCTTATCATTGTTAATCGGTGCAAAAGGTTGGATTAATGGAGATTGGTTAGAGCAATTAGAGATGGAAAACCCAGAAACAACAGAAGAATTTTATGCGTATTTAAAGGCTGTAAAAGAAACAGATCTGAATGGTAATGGAAAAAATGATGAAATTCCACTTAGTAGCGTAGCAGAAATGTCACGTATTATACATTGGATTTCTGGCGCATTTGGTGTTCAAAACAAAGGTCAATTGCATACGCTTGTTGATGAGGATCCAGCAACGGGAAATATTCGTTTTTTCCCTGTATCTGCGTCTTATAAAGAAATGCTCGTCTATTTAAATCGGTTATTTGAAGAGGGGTTGATTGAGCAAAATATTTATACACTTGAAGTAGATCAGCATTTAGGAAATGCTGCAGATAATTTATATGGTGCTGTACAGTTCTTTAATCCTATTGAATTATATGGTAATGATGTTGGCAGTCAGTTCATACCAGGAAATGCACTTGAAGGTCCAAACGGGGATAAAATGTATACAGGAATAACTTCTCCATTACGTTCTTTAGGTAATTTTATTATTACAAGTGAGAATGAAAATCCAGAAGCAACACTGAAGTGGCTTGATTATTTTTGGAGTGATGAAGGAGCAAAAATGTTTTTTATGGGAATGGAAGGCGTCACTTATGAAGAAACGGATGATGGTCCGCAATTAGTAGAAGAAATCACCAATCATCCTGATGGGTTAACGTTAACGCAAGCTTTAGCGCAATATATTATCAATCCTGGTGGTAATCATCCAGTTATGGTGACGGATGATTATTTTACAGGATCTGAAAATGCACCATCAGATAAAGAAGCTGCTAAAAATTTAGAGCCCCATCTAATAGAAGAAATATGGCCAAGCTTCACTTATACTGCTGAAGAGAACGAGGAATTATCCATTCTGCGAACAGACTTAGAAAAATATGTTAATGAAATGCAAGCCGCATTTATTACGGGTGAAAAAGATTTTTCAGAATGGGAAAGTTATGTGGAAACGGTAGAAAATATGAACCTAGATAAGTATATGGAAATACAGAAGCAGGCTTATGAACGTTATAAAGAAAATTAA MVKRVLMVIVGALLFTFSVSACSKDKEEEIGGSKEAVENLTEEELPIVKEPIELDIFAGKAATTADDWNDVLLLNEYEAMTNVNITWNQVPADGLDEKRNLALASGDLPDAFYAANVSISDIQTYGAQGTFIPLNDLMEEYAPNISKVLDENPDIRKGLTFPDGNIYSVPTVYSPDFLSLLIGAKGWINGDWLEQLEMENPETTEEFYAYLKAVKETDLNGNGKNDEIPLSSVAEMSRIIHWISGAFGVQNKGQLHTLVDEDPATGNIRFFPVSASYKEMLVYLNRLFEEGLIEQNIYTLEVDQHLGNAADNLYGAVQFFNPIELYGNDVGSQFIPGNALEGPNGDKMYTGITSPLRSLGNFIITSENENPEATLKWLDYFWSDEGAKMFFMGMEGVTYEETDDGPQLVEEITNHPDGLTLTQALAQYIINPGGNHPVMVTDDYFTGSENAPSDKEAAKNLEPHLIEEIWPSFTYTAEENEELSILRTDLEKYVNEMQAAFITGEKDFSEWESYVETVENMNLDKYMEIQKQAYERYKEN PGPT0017245_1743 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318 NA NA AK015_02310 1608 lipO_1 COG1653 Lipoprotein LipO GTGAAGTGGAAGCTTTGTTGTCTGTTTGTCATAGTTATTGTCATGTTTTTATCTGCTTGTAGTGAAGATAATAAGGAAGCAAATGGCAAGAAAAGAGAAGAAGCAATAGCCAATTTAAGTGAAGAAGGTATGCCAATAGTAGAAGAAGAGATTACTATTGAAGTCTTTTCAGGTCAAGCTGCAACTACTGCAGAAGATTGGAATGATGTTCCCATGCTAAATGAATATGAAAAAATGACCAATATAGATATGCAGTGGGAACAAGTAGCAATTGACGGCTTAGCTGAAAAAAGAAACTTAACATTAGCGAGTGGAGATTTGCCAGATTTATTTTACGGTACATATCTCCCCAATGCGGATGTTTATAAATATGGAAAGCAAGGAGTACTCATTCCTTTAAATGACTTCATTGATGAATATGCTCCAAATATTAAGAAATATTTGGAAACGTATCCAGAAATAAAGCAAGGGATTACTTTTCCTGATGGGAACATTTACGCTATCCCTAGACTGAGAGATCCAAACTCTCCTACTTCACTAATGGATGATAAACCGTGGATCAATAAAGACATTTTGGAAGAAGTGGGCATGGATAACCCCGAAACCACGGAAGAATTTTATACGTATTTAAAAGCCGCCAAGGATTTATCTGTAGAAGGAAAAGAAGTTATCCCGTTTAGTAGTGTGTCGATGGATCGCCTTTATCACTTAATATCTGGCGCGTTTGGCGTATCTAATAAAGGAATTATGCATCGCTTGATTGATGAAGATCCTGAAACAGGAGAAATACGATTTTACCGAATTGCTGAGGAATATAAACAAATGCTTGAATATATGAACAAACTATATACAGAAGGCCTCATTGAACAAAATATTTATTCCATAGAAGTAGACCAATTTCTTGCAAACGGTATGGAAGGAAGATATGCAGCCATGAATTTCTTTAACCCTATTGATTATTTTGGGGAAGAAGTTGGTGGTAGGTATATTCCAGGCAATGCGCTTGAGGGTCCAAATGGAGACAAAATGTTTACTGCAGTGTTATCTCCTGTAAATAGTTTAGGACATTTCTCCATAACAAATGTAAATGAAAATCCAGAGGCAACATTACGTTGGTTGGATTACTTCTGGAGTGAGCAAGGTAAGAAAATGTTTTTTATGGGGCTCGAAGGAGAGACTTATGAAGAGACGGCAGAAGGTCCAAAGCTTTTAGAAGAAATTACAAATAACCCTAATGGTTTGACTATTCAAGAAGCGCTGGCAAATTATATTATCAATCCAGGTGGCGGGCACCCTGTACTAGATGATCCTCGATATTCTACTGCACCAGAGTTTAGACCAGAAGATATTGAAAATGCGGAACAAAATGAGCCTTATTTAATAGATGAACCTTGGCCCATGTTTTTCTATGAAGATGATGAACAGAGTCGACTAGATGCATTAGCAACAGATTTAAGTAAGTACGTAGGCGAAATGGAGGCTCAATTTGTAACCGGAGAGACAAGTTTTGCTGAATGGGATAATTATGTCCAAACGATGAAAGAGATGGGTCTCGATGAATATATGGAGATACAGCAAAAGGCATTAGATAGGTATCTTGGAAAATAG MKWKLCCLFVIVIVMFLSACSEDNKEANGKKREEAIANLSEEGMPIVEEEITIEVFSGQAATTAEDWNDVPMLNEYEKMTNIDMQWEQVAIDGLAEKRNLTLASGDLPDLFYGTYLPNADVYKYGKQGVLIPLNDFIDEYAPNIKKYLETYPEIKQGITFPDGNIYAIPRLRDPNSPTSLMDDKPWINKDILEEVGMDNPETTEEFYTYLKAAKDLSVEGKEVIPFSSVSMDRLYHLISGAFGVSNKGIMHRLIDEDPETGEIRFYRIAEEYKQMLEYMNKLYTEGLIEQNIYSIEVDQFLANGMEGRYAAMNFFNPIDYFGEEVGGRYIPGNALEGPNGDKMFTAVLSPVNSLGHFSITNVNENPEATLRWLDYFWSEQGKKMFFMGLEGETYEETAEGPKLLEEITNNPNGLTIQEALANYIINPGGGHPVLDDPRYSTAPEFRPEDIENAEQNEPYLIDEPWPMFFYEDDEQSRLDALATDLSKYVGEMEAQFVTGETSFAEWDNYVQTMKEMGLDEYMEIQQKALDRYLGK PGPT0017245_2011 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318 NA NA AK015_02311 933 ldh1 L-lactate dehydrogenase 1 ATGGAAATGACACCAGGAAATAAAATTGTTTTAGTAGGAACTGGAGCTGTAGGAACTAGTTATGCTTATGCGTTAATGAATCAAGGCTTAAGCAATGAACTTGTTCTAGTGGATATAAATGAGGACAAAGCACAAGGCGAAGTTATGGACTTAAGTCATGGCATCGTATATGCCCCTAGTGCTATGAATATTACTCAAGGAACTTATGCCGATTGCAAAGATGCAGCCATCGTAGTAATTTGTGCTGGTATAGCGCAAAAAGAAGGAGAAACGAGATTAGACCTTGTTAATAAAAATGTAGCGATCTTCAAATCTATGGTCGAATCCATTATGGATGCAGGATTTAATGGTATTTTTATTGTAGCAACAAACCCTGTTGATATTCTTTCCTATGCAACATGGAAATTTTCGCAGTTGCCAAAAGAACGAGTAATTGGCTCTGGTACGGTATTGGATTCCGCTAGATTCCGTTTCCTTTTAGGACAAAAATTTGCTACCGCACCAGCTAGCGTGCATGGATATATTATTGGAGAGCATGGTGACTCACAACTTCCAGTATGGAGCACCGCTAACATTTCTGGCACATCCATCGCTGAAAAAATATCGGCCGAAGAAAAAACGCAAATTGCTGAGCAGGTGCGTAATGCTGCCTATGAGATTATTTCCATGAAAGGGGCAACCTACTATGCTATTGGCATGGGGTTAGCCAGAATAACAAAAGCGATCTTAAATAACGAGCATATTATTCTGCCGGTTGGAACGCTATTAACTGGCGAACACGGTCATGAAGATGTCTATGTCGGCGTCCCCTCCATTATTCACCGTGCTGGTGTAAAAGGAGTAGCAGACTTCCCTTTGGATGAAACAGAGCAAAGAAAATTTGCTAGCTCGATTGCCATTTTAAAAGATATTCAAAACCAAGCTTTATTATAA MEMTPGNKIVLVGTGAVGTSYAYALMNQGLSNELVLVDINEDKAQGEVMDLSHGIVYAPSAMNITQGTYADCKDAAIVVICAGIAQKEGETRLDLVNKNVAIFKSMVESIMDAGFNGIFIVATNPVDILSYATWKFSQLPKERVIGSGTVLDSARFRFLLGQKFATAPASVHGYIIGEHGDSQLPVWSTANISGTSIAEKISAEEKTQIAEQVRNAAYEIISMKGATYYAIGMGLARITKAILNNEHIILPVGTLLTGEHGHEDVYVGVPSIIHRAGVKGVADFPLDETEQRKFASSIAILKDIQNQALL PGPT0001760_2608 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016 NA NA AK015_02312 2055 pbpG COG0744 Penicillin-binding protein 2D ATGAGAAGCAAACAAAAACACAGCGCAGTTCGCAAACGATTCTTTAAAATAACCGGCATTTTGGTAGGAATATGTTTATCCTTTGTGATCTTCGTTTACATCGCCAGCTACCTTTTAGGCCCCCCACCAATATCAATGAACCAACAAACAACGTTATACACCAAGTCTGGGGAGCCTTTTGCTAAAGTCGGTGAGCATCAAACAGAAGATTGGATCTCGCTAGAACATATTGCTGATGAAGCAATTCAAGCTACACTGGCTGTTGAAGATCGCAATTTCTACAACCACCATGGATTTGATGTAAAACGAATTTTAGGAGCCATTGTTGAAAATATAAAAACATTGTCGCTTAAAGAAGGTGCAAGTACTTTAACACAGCAATATGCAAGAAATCTGTATTTAAGCCATGAAAAAACATGGGGCAGAAAAATTAAAGAGGCATTTTATACAATAAGATTGGAAATGTTCTACTCCAAATCGGAACTACTAGAAGGCTACTTAAACACCATCTATTATGGGCATGGCGCTTACGGAATTGAAGCTGCAAGTAAACAGTTCTTCCAAAAATCTGCTAGTGAGCTTTCGCTAGCAGAATCTGCCATGCTTGCGGGTATACCAAAGGGTCCAACATATTATTCACCTTTGAATGACCCAACAAAAGCAGAGCAACGCCAGCAACATATATTGAAAATCATGGAAAATCAAGCGATGATTTCAAGTCGAGCCTACGAAGAAGCCAAAAACGAAGCGTTACAGTACCATAATGAAGCTAAACGGAATAACAAAGAGCAAATAGGTCCCTATTTCCAGCATGCCGCTATCAAAGAAGCAGCAGCCGTTTTGGAGTTAGATGCTGAGGAAGTTCGTGGTGGTGGGTATCAAATTTACACCACGATGCAAGAAAAAGCGCAAACAGATTTAGAAGAACAGTTTCAACAAACAATGTCTAAGCAAAGTGACATACAAGGTAGTGGATTAGTAATGAATCCGAAAACGGGAGGCATCATTGCGATAGTAGGTGGACGCAGTTATGTGGACAGTCCGTTTAATCGCGCTACGCAAGCAAAGCGAATGCCAGGCTCTACCTTTAAACCTTTTCTATACTATGCAGCGTTAGAGCGGGGCTACAATGCTTCTACCATGTTAATGAGTCAACCTACTACATTTAAGTTAGAAAACGGAAATGTCTATAAACCGAGTAATTTCAATGGCTATTACGCAAATAAGCCTATTTCACTAGCACAAGCATTGGCGCTGTCCGATAATATTTATGCTGTAAAAACAAATATGTTTATAGGTCCTGAAACGTTAGTAAATACAGCCAAACAGTTTGGTTTCACAAGTGATTTGTCAGCTGTACCTTCCTTAGCGCTCGGTTCAGAAGTAGTGTCCATGAAAGAAATGGTTCGTGGATATAGCATGTTAGCAAATGGAGGAAAGAACGTGGACGGGCATACTGTTTCTAAAATTGTTAACCGCTATGGAGATACAGTCTACACTAAATCTAATGATTCTAACGAACAAGTACTTGATCCGAAAAAGACGTTTATCCTTTCCCAATTAATGACAGGTATGTTTGATCGAGAACTGAATGGATATATGCAAGTAACAGGGTCTACCATTATCGACCAACTTGATCGAAAATACGCGGGAAAATCAGGCTCTACAGATTCTGACAGCTGGATGATTGGTTTTAGCCCTTCCGTAGTTGCAGGAATTTGGGTCGGCTACGATGACAACCGTACGATTGAAGTTGTTGAAGAAATGGCATATGCAAAGGATATATGGGCTAATTTCATGACATCTATACATCAAAATAAGCCCATTAAAAGCTTGACCATCCCTTCAGGAATTGTCGGCATTCCTGTGGACCCCGCCACTGGTAAACGGGCAACGCCATATTGTTCTGCTAGTAAAGTCATGTTTTTCGAGAAAGGTAGTGAGCCAACAACCTACTGTAATGCACACTTACCAGAGGATGATAAAACTGATAAAGCACCTTTAGAAAAACAAGAAAAGTCATTTATTGAAAGGCTATTTGACTTGTTTGAGTAA MRSKQKHSAVRKRFFKITGILVGICLSFVIFVYIASYLLGPPPISMNQQTTLYTKSGEPFAKVGEHQTEDWISLEHIADEAIQATLAVEDRNFYNHHGFDVKRILGAIVENIKTLSLKEGASTLTQQYARNLYLSHEKTWGRKIKEAFYTIRLEMFYSKSELLEGYLNTIYYGHGAYGIEAASKQFFQKSASELSLAESAMLAGIPKGPTYYSPLNDPTKAEQRQQHILKIMENQAMISSRAYEEAKNEALQYHNEAKRNNKEQIGPYFQHAAIKEAAAVLELDAEEVRGGGYQIYTTMQEKAQTDLEEQFQQTMSKQSDIQGSGLVMNPKTGGIIAIVGGRSYVDSPFNRATQAKRMPGSTFKPFLYYAALERGYNASTMLMSQPTTFKLENGNVYKPSNFNGYYANKPISLAQALALSDNIYAVKTNMFIGPETLVNTAKQFGFTSDLSAVPSLALGSEVVSMKEMVRGYSMLANGGKNVDGHTVSKIVNRYGDTVYTKSNDSNEQVLDPKKTFILSQLMTGMFDRELNGYMQVTGSTIIDQLDRKYAGKSGSTDSDSWMIGFSPSVVAGIWVGYDDNRTIEVVEEMAYAKDIWANFMTSIHQNKPIKSLTIPSGIVGIPVDPATGKRATPYCSASKVMFFEKGSEPTTYCNAHLPEDDKTDKAPLEKQEKSFIERLFDLFE PGPT0023955_203 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023955-pbpG-K21464 NA NA AK015_02313 513 hypothetical protein ATGAGTTTCGATCAGTCTTCAAACAAAAATAAATTTACAATTATTAAAGACGACTCGACAGATGGCCATGGTGGATATGGTTATGGTTCCATCAGCTTGGAAAATATGTCTTCTGTCATTGTAGATCCGAATGAAAATAAAGCTTATGTTGATATGGCGGCAATGCACGCTAGAAGTGATATTGAGCGGCGTGTGAAATATTTATCAGATAAAAGCGAAGTTCCAAATGGCAAATTGTATTGGATTGTTTGGGTAAATGTCGAACGGAATGAAAAAGGGACATATTTTGCTGGTGTGGCAGGAAGCGAATTGCTTGTGGATCGGCCTAATAAGCGAGCTTACAAATCGATGCCACAGCATGTAAAACATATGGAGCAATCTTTGAAAGGTAAAATCGTCGTTGATCATATGGATGATAAATCGAAACAGTTGTTAAAAGATTTTCTCGAAGACTTTGACCGAGATATGTGGGAAAACTCAACAGAGGAATTAAAAACAGCTTTGTCTGTATAA MSFDQSSNKNKFTIIKDDSTDGHGGYGYGSISLENMSSVIVDPNENKAYVDMAAMHARSDIERRVKYLSDKSEVPNGKLYWIVWVNVERNEKGTYFAGVAGSELLVDRPNKRAYKSMPQHVKHMEQSLKGKIVVDHMDDKSKQLLKDFLEDFDRDMWENSTEELKTALSV NA NA NA NA NA AK015_02314 495 hypothetical protein ATGTTAACTAATCATGCGAAACTAATGCAGTTTTTTGCAGTAGCAAACGAAGTAACGGGAAGGAAAAAGCTGCAAAAAATGATTTTTATTTTGCAAAAATGTCACATGCCCTTTGAGGAGAAATTTGCTTTTCATTTTTATGGGCCATATTCTGAGGAGTTAACGTTACGGGTGGAAGAGCTATGTAATTTAGGTTTTATTAAAGAAGAAAAAGAAGATAGAAGCAATTACCATCAATACCATTATACAATTACAGAAGATGGACAAGCTTTTTTAGAACAGTTCAAGAAAGATATGCCTGATTTTTCACAGCAAGTGTATGCTATGAAGGAGAAAAGCTCCCGATTTTTGGAATTAGTCGCAACGATACTATATTTTGACGACTTGTCTTTAGAAAAGTCAATTGCAAAAGTGCATACGGTGAAGCCAAAACAAAAATATACAGACGAGGAAATTCAAGAAGCGATTTCCTTTATTGATACAATTCGTCATTAA MLTNHAKLMQFFAVANEVTGRKKLQKMIFILQKCHMPFEEKFAFHFYGPYSEELTLRVEELCNLGFIKEEKEDRSNYHQYHYTITEDGQAFLEQFKKDMPDFSQQVYAMKEKSSRFLELVATILYFDDLSLEKSIAKVHTVKPKQKYTDEEIQEAISFIDTIRH NA NA NA NA NA AK015_02315 1320 hypothetical protein ATGCCATATAAAAACGAACAACTTCATGAAGAAAAGGTGTTCAAAGATCCAGTGCACCGATATGTCCATGTGAGAGATCGGGTAATTTGGGATTTGATTGCGACACCTGAGTTTCAGAGACTGCGAAGAATTAAACAGTTAGGCACTACATATTTAACATTTCACGGAGCGGAGCATAGCCGATTTAATCACTCGCTTGGGGTATATGAAATCGTACGAAGAATACTAACAAATTTTGAAGGACGTCCACATTGGAATAAAGAGGAGCGTCTTCTTTGTTTATGTGCAGCGTTATTACATGATCTAGGGCACGGACCGTTCTCCCATTCTTTTGAGAAGGTATTTAAGCTGGATCATGAACATTATACACAGCAAATTATTTTAGGTAACACCAAAGTGAATGCCATTTTAGAACGAGCAGAAAAGGGGTTTGCCCAAAAAGTTGCTGACGTGATAGCTAAAACATATCAAGACCAATTAGTGGTCAGCTTAATTTCAAGCCAAATTGATGCTGATCGAATGGATTATTTGCAACGGGATGCGTATTTTACAGGTGTAAGCTATGGTCATTTTGATATGGAGCGAATTCTTCGTGTTATGCGTCCAATGGAAGATCAAGTGGTGATTAAGGAAACAGGAATGCATGCTGTGGAAGATTATATTATGAGTCGCTATCAAATGTACTGGCAAGTATATTTCCATCCAGTTACGAGAAGTGCAGAAGTCATTCTTTGTAAAATATTGCAACGAGCGAAAGTGTTATATCACGATTCTACATATACGTTTACATTGAAGCCAACGCACTTTAAATCTTTTTTTGAAGGAAATGTAAAGCTAGAGGATTATTTAAAATTAGATGAGGGAATTGTTACGTATTATTTTCAACTATGGCAGGAAGAAGAAGATACGATTCTTCGTGATCTCTGCGAGCGGTTTATGAATCGCAGGCTGTTTAAGTATGTCGAATTTAATCCTAATTCACAGATGAATGAATGGATGGAACTACACAAGCTGTTTACGGATGTACATATTAATCCGGATTATTATTTGGTCGTTGATTCTTCCTCTGATTTACCATATGATTTTTACCGCCCTGGGGAAGAGGAGGAGCGTTTACCGATTCACTTATTAATGCCAAATGGTGAACTGCGTGAATTATCACGGCAGTCTGATATCGTTGAAGCTATTTCCGGGAAGAAACGAACCGATCATAAATTGTATTATCCACATGATTTATTAGAAAACGTATCCGATCCAAGGAAGAAAAAGCGGATGAAAGAAATATTAATTGGTCAGGGAGAGGAAAAACATGTTAACTAA MPYKNEQLHEEKVFKDPVHRYVHVRDRVIWDLIATPEFQRLRRIKQLGTTYLTFHGAEHSRFNHSLGVYEIVRRILTNFEGRPHWNKEERLLCLCAALLHDLGHGPFSHSFEKVFKLDHEHYTQQIILGNTKVNAILERAEKGFAQKVADVIAKTYQDQLVVSLISSQIDADRMDYLQRDAYFTGVSYGHFDMERILRVMRPMEDQVVIKETGMHAVEDYIMSRYQMYWQVYFHPVTRSAEVILCKILQRAKVLYHDSTYTFTLKPTHFKSFFEGNVKLEDYLKLDEGIVTYYFQLWQEEEDTILRDLCERFMNRRLFKYVEFNPNSQMNEWMELHKLFTDVHINPDYYLVVDSSSDLPYDFYRPGEEEERLPIHLLMPNGELRELSRQSDIVEAISGKKRTDHKLYYPHDLLENVSDPRKKKRMKEILIGQGEEKHVN NA NA NA NA NA AK015_02316 846 lipL COG0095 Lipoyl-[GcvH]:protein N-lipoyltransferase ATGAAAAACTGGGAAAATATGATGGCACATACAACCTTTCGTTATATGGACCATTCAACAACGAACATGTTTGATCAGGAACAATACACCGCTCTTCACTCCTTTGCCATTGATGATGCGCTTGCCCTATCCGTTAGTGAAAAATTATCTCCACCGACAATGAGGCTATGGGTGCATGAACAAACGATTGTACTTGGAATTCCTGATGCAAAACTTCCTTATATCCATGAAGGGGTAGAACAATTAAAACAAGCTGGTTACCATGTTGTCATACGTAATTCAGGTGGACTAGCAGTAGCTTTAGACAGTGGTGTGCTCAATATTTCGCTCATTTTTCCCGATGTTAAAAATGTATCTATTCAAGAAGGATATGAAGCGATGGTCAGCTTTGTCCAATACATGCTAAGTGATTTGACAAAGCGTATTGAAGCATACGAAATTATCCATTCTTATTGTCCGGGAGATTATGATTTAAGTATTAACGGGAGGAAATTTGCGGGAATTTCACAACGTCGGGTAAAAGATGGCGCAGCTGTGCAAATTTATTTAGATGTCGAAGGAGATAGTTTTAAACGAGCGAGTGTAATCAGAGATTTTTATACAGTTAGTAAACGAGGAGAATCGACGAAATTTAGCTATCCCACTGTAGATCCTAATGTGATGTGCTCTTTATCGGAATTATTGCAAACTCCGCTAACCGTAAATGACATGAAGCGTCGAGCAATGAATGCATTATTAAAAGTTAGCGAACATGTTGTTGAAACTAATTTCACACCGACAGAGTATGCACACTATCGCAAAAGATTAGTACAGATGAAGAAACGTAATACAGTAATTCCGGAATGA MKNWENMMAHTTFRYMDHSTTNMFDQEQYTALHSFAIDDALALSVSEKLSPPTMRLWVHEQTIVLGIPDAKLPYIHEGVEQLKQAGYHVVIRNSGGLAVALDSGVLNISLIFPDVKNVSIQEGYEAMVSFVQYMLSDLTKRIEAYEIIHSYCPGDYDLSINGRKFAGISQRRVKDGAAVQIYLDVEGDSFKRASVIRDFYTVSKRGESTKFSYPTVDPNVMCSLSELLQTPLTVNDMKRRAMNALLKVSEHVVETNFTPTEYAHYRKRLVQMKKRNTVIPE PGPT0003940_158 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 AK015_02317 969 pta_2 COG0280 Phosphate acetyltransferase GTGAGTGAATTATTTAAACAAATGCAAGAAAAAGTTTCTAGTCAATCTAAATCTATTGTCTTCCCAGAGGGGACAGATGAACGTATATTGACAGCTGCTAGCCAGCTAGCTGCAACAAAGGTGTTAATGCCGATTTTGCTTGGTGACAAAGTAGGGATCAAGCAACAGGCGCAAAAAGCAGGAGTAGATGTATCACAATGTAAAATAATTGATCCAAAAGATTTTGCCGAATTTGATTTAATGGTCGAAACTTTTGTAGAACGTCGTAAAGGAAAAGCAACGAAGGAAGACGCTGAAAAAATACTTTTAGATGAAAACTATTTTGGTACCATGCTTGTCTATATGAATCAAGCGGATGGTCTTGTTAGTGGCGCTGTTCATTCAACCGCTGATACAGTTAGACCTGCTCTACAAATTATTAAAACGAAAGAAGGTGTGAAAAAGACATCGGGCGCATTCGTTATGGTTCGTGGTGATGAAAAATATGTGTTTGCCGATTGTGCTATTAATATCGCACCTGACAGCCAAGATTTGGCAGAAATCGCAGTGGAGAGTGCAAATACGGCGCAACTATTTGGTATTGACCCGCGTGTTGCTATGTTAAGCTTTTCAACAAAAGGTTCAGCAAAATCAGATGAAACAGAACGTGTAGTGGAAGCATTACAAATTGCCAAAGAAAAGAATCCATCATTAGTAATTGATGGGGAATTTCAATTTGATGCTGCGTTTGTTCCGAGCGTTGCTGCCAAAAAAGCGCCTGGTGCTGTATTACAGGGAGATGCAAATGTGTTTGTTTTTCCTAGTTTAGAAGCAGGTAATATCGGATATAAAATTGCGCAACGTTTAGGCGAATTTGAAGCGGTAGGCCCAGTATTACAAGGGTTGAACAAACCTGTTAACGACCTTTCTCGTGGGTGTAATGCAGAAGATGTTTATAACTTGGCGGTAATTACAGCAGCTCAAGCCTGA MSELFKQMQEKVSSQSKSIVFPEGTDERILTAASQLAATKVLMPILLGDKVGIKQQAQKAGVDVSQCKIIDPKDFAEFDLMVETFVERRKGKATKEDAEKILLDENYFGTMLVYMNQADGLVSGAVHSTADTVRPALQIIKTKEGVKKTSGAFVMVRGDEKYVFADCAINIAPDSQDLAEIAVESANTAQLFGIDPRVAMLSFSTKGSAKSDETERVVEALQIAKEKNPSLVIDGEFQFDAAFVPSVAAKKAPGAVLQGDANVFVFPSLEAGNIGYKIAQRLGEFEAVGPVLQGLNKPVNDLSRGCNAEDVYNLAVITAAQA PGPT0001365_1519 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001365-pta-K00625 NA NA AK015_02318 747 COG3253 Putative heme-dependent peroxidase ATGGTAGAAGCAGTAGAAACGATGGATGGATGGTATAGTTTGCATGATTTTCGCACTGTCGATTGGACTTCATGGAAGCTTGCAAGTGAAGAAGAGAGGCAAGAAGCAATTCATAGTTTACAGCAAATGCTTACTAAATGGGAAGAAGTAGAAGCAGCTAAAAACGGAAGCCATGCCCTTTACAATATTGTTGGTCAAAAAGCTGATTTGATGTTCATGTTTTTGCGCCCAACTACGAACGAGTTAGCAGCTATTGAAAATGAATTGAATAAATCAAAGATGGGAGCATTTTTAATCCCTGCTCATTCTTATTTTTCCATAGTAGAACTATCTAAATACCGCCCTTATAAAGAGGAGCATCCAGAATTAATTCCAGAAATAGCTCAGCGGTTAAAACCAATTCTTCCAAAATGGGAGCATGTTTGCTTTTATCCTATGGATCGCCGCCGTCACGGAGATGAAAACTGGTATACATTAGAAAAAGATGTACGCGGTAAATTATTATATGAACACAGTATGACAGGTCGTAAATATGCCGGTAAAGTATCACAAATCATCACTGGTTCCATTGGACTTGATGATTGGGAATGGGGCGTAACATTATTCGCTCACGATCCATTACAATTCAAAAAAATTGTTTATGAAATGCGATTTGATGAAGTTAGCTCGAGATATGGAGAGTTTGGAGAATTCTTTGTAGGTAACTATTTAGCGAAAGAACAGCTTCCTGCCTTCTTTAAAATATAA MVEAVETMDGWYSLHDFRTVDWTSWKLASEEERQEAIHSLQQMLTKWEEVEAAKNGSHALYNIVGQKADLMFMFLRPTTNELAAIENELNKSKMGAFLIPAHSYFSIVELSKYRPYKEEHPELIPEIAQRLKPILPKWEHVCFYPMDRRRHGDENWYTLEKDVRGKLLYEHSMTGRKYAGKVSQIITGSIGLDDWEWGVTLFAHDPLQFKKIVYEMRFDEVSSRYGEFGEFFVGNYLAKEQLPAFFKI PGPT0008490_345 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS OTHER_BIOTIC_STRESS_RESISTANCE_GENES BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435 NA NA AK015_02319 426 cwlJ_2 COG3773 Cell wall hydrolase CwlJ ATGTCACTAGTGGCTCATACCGATAAAGATATTGAATTATTAGCAAGATTAATGCGAGCAGAAGCAGAAGGTGATGGTGAGTTAGGAATGTTAATGGTAGGAAATACAGGCATAAACAGAGTCATCGCCGATTGCTTAGACTTTACAAATATACGTAACATTCGAAACATGGTATACCAAAGCCCCGGAGGTTTTGAAGCTACACAAAGAGGATATTTTTACCAAAGAGCAAGAGAATCAGAAAAACGCCTAGCACGTAGAGTTATCCAGGGAGAACGACAGCATCCAGCTTCTAACTCTCTATGGTTTTTTCGGCCAGAAGGGAGTTGCCCAGCACAATGGTTTGGACAGTGGAACGTTGGACGGTACAAATCGCATTGCTTTTTTGCCCCAACCGCTTCAGAATGTCCGACCGTTTATCGTTAA MSLVAHTDKDIELLARLMRAEAEGDGELGMLMVGNTGINRVIADCLDFTNIRNIRNMVYQSPGGFEATQRGYFYQRARESEKRLARRVIQGERQHPASNSLWFFRPEGSCPAQWFGQWNVGRYKSHCFFAPTASECPTVYR NA NA NA NA NA AK015_02320 465 hypothetical protein ATGAGTGAAAACCAAACAAACCCGCAAATGAATACGTATCCGTATTATCCGTATTATTACCCAGCAACGTCACAAGCCTATTATCCAATCTATCCAATGCGGCAACCTTCTCATCAGTCCTATGCACCGTCTCAACAGCCCTATCCAACAACAAGTGGTTTTAACCAAAACCAAGGCATGCTACCAGAACAAGAATCCTATATTGAAAATATTTTACGATTAAATCGTGGTAAAGAAGCAACGGTATATATGACATTTGAAAATAACGACCAATGGAATGCCAAAGTATTCCGTGGCATTATTGAAGCAGCCGGTCGTGATCATATTGTTATAAGTGACCCACAATCTGGGAAACGCTACTTATTGTTAATGGTATATTTAGATTACGTTACATTTGATGAAGAACTGAATTATGCCTATCCATTTGGCGAAACTTCGGGCAATGTTTCCTATCCACCTCGGTAG MSENQTNPQMNTYPYYPYYYPATSQAYYPIYPMRQPSHQSYAPSQQPYPTTSGFNQNQGMLPEQESYIENILRLNRGKEATVYMTFENNDQWNAKVFRGIIEAAGRDHIVISDPQSGKRYLLLMVYLDYVTFDEELNYAYPFGETSGNVSYPPR PGPT0025095_116 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025095-gerQ-K06305 NA NA AK015_02321 258 hypothetical protein ATGAAACAACCTTACGAAAAATTCATGATAGTAGAGCTGTTAGCTTTAGGTGCTGCCAGTCTTTTTACTTTTATTGCTTTAATCAAAGGCTACACGATTGTAATTATATTAGGTTTGCTCTTGGTTGCAGGAAGTCTTATCGCTGACAGCCTCGTGCAATGGCATTTATACCGCTCCATCCCTTCCCACACAATAAAACAAGCCGTACGTGCGTTACTCGTGTTTATCTTCACGTTGCTTTTCCTACTACGGCTGTAA MKQPYEKFMIVELLALGAASLFTFIALIKGYTIVIILGLLLVAGSLIADSLVQWHLYRSIPSHTIKQAVRALLVFIFTLLFLLRL NA NA NA NA NA AK015_02322 369 hypothetical protein ATGAAACTATTTTTAATTTTAGGCGCTATTAATGGGTTTTTAGCTGTTGCTTTAGGAGCATTTGGTGCACATGGATTAGAAGGGAAAATATCTAAAAGTGCAATAGCTACATGGGAAAAAGCGGTAAATTATCAAATGTTCCATACGATGGCATTATTTGTAACAGGCATATTAATGATGAAAGTACATAGTGTTGGAGTGACTTGGGCAGGTTGGCTGTTTTTTATTGGCATTTTATTATTTTCAGGCAGTCTGTACATTTACTCTACAACGGGTATCAAAACCTTTGCGATGATTACTCCTATAGGAGGCGTAGCATTTTTAATTGGCTGGATTCTACTAGGTACATTTATTGCAAGATATGTATAA MKLFLILGAINGFLAVALGAFGAHGLEGKISKSAIATWEKAVNYQMFHTMALFVTGILMMKVHSVGVTWAGWLFFIGILLFSGSLYIYSTTGIKTFAMITPIGGVAFLIGWILLGTFIARYV NA NA NA NA NA AK015_02323 309 hypothetical protein ATGGCTGTAACCAATACGACTATAATCAATAAAATGTTAGAGGAATTACATGTTGCAAACAATAACGTGGATAACGAGCTTGTTTTACGGCAACATGTTCGTCATATTCGTTTATTATGCGATTTGTTGCTTGATGAGCAAGAAAAATCGATGACGCAAGCACAAGATTCAACGCAATTTTCTGCAGCAGAAATAAAAATGATGCTTGGAGAAAAGGGGGCAGCAAAAATTAACCAACAAAAAGAGGTAAATCCACAAGCAAAGATAGATCACGAAGAAGCAAATGGGGATTCATTGTTTGATTTTTAA MAVTNTTIINKMLEELHVANNNVDNELVLRQHVRHIRLLCDLLLDEQEKSMTQAQDSTQFSAAEIKMMLGEKGAAKINQQKEVNPQAKIDHEEANGDSLFDF NA NA NA NA NA AK015_02324 138 hypothetical protein ATGGAAACCTTTTTGCAATTGTGTAAAACTACGGAGAGCAGATTAGGCAGGAGACTGCTTGAAAATGAATTATTGTTTTTGCAGTGGATGTATAATCGTTATTTGGAGGAAAAGCCAAAAAAAACGTTAAATGCATGA METFLQLCKTTESRLGRRLLENELLFLQWMYNRYLEEKPKKTLNA NA NA NA NA NA AK015_02325 300 hypothetical protein ATGAATGACTTATTAAAAAAAGGGTTTTTACTTGGGTTAGGTGCAGCAGTGACTAGTAAGGAAAAATTTGAATCGAAAATGAAACAATTAGTAGAAAAAAATGAACTTACACAGGAACAAGCAAAAACTTTGTTACAGCAGTTTGTGGATAAAGGAGAAGCTAAAAAAGGTGAATGGCAAGCACGGCAAAATGAGCAAACACAAAAGCTTGCGAATGAAATTGGAATAGCGACAAAAGAAGAAGTAGAAGAACTTCGTAATCGTGTAGCAGAGCTTGAAAACAAAATAGAAAATCAATAA MNDLLKKGFLLGLGAAVTSKEKFESKMKQLVEKNELTQEQAKTLLQQFVDKGEAKKGEWQARQNEQTQKLANEIGIATKEEVEELRNRVAELENKIENQ NA NA NA NA NA AK015_02326 1647 ubiB COG0661 putative protein kinase UbiB ATGCATAAACGGTTAAAGTATAATTTGGGATATCGTTCCACAGTAATGGTGTTGATGACGTTAAAATTTATTGCAAAAATTTATATGTTTCATTTTAAACACCGCATATGGGATGACGAAACGTTTGCTAAGTGGAATCTTCTAATTACAAAATTGGCGCAAGAATACCGGGAGAAGGCGATCTTGCTCGGTGGTGTATTAATTAAAGTCGGGCAGTTTCTAAGTACAAGAACGGATTTTATGCCTGATGCTTTTATTAAGGAGCTTAGTGGACTTGTCGATCGAGTACCTGCGATGCCATACTCTTATGCTAGAGAGATTATGGAAGAAGAATGGGGAGTAGCAATTGAAACGCACATAGAAGAGATTCAAACACCATCTATTGCGTCAGCATCCATTGGAGAAGTATATCGAGCTAAGTTAAAAGGTAGTGATACAGAGGTTGCCATTAAAGTGCAGCGCTATCGGATTAAAGAGGTATTTCATAAGGATTTTAAAGCACTGCGAATCGTATTTTGGCTCATATCTACACTAACCTCTTTTGGAAAAAAAACAGACTTGCCATCGTTATACCGAGAGCTTGTAACCGTTATGAATCGAGAACTGCATTTTGACCTTGAATTAGCAAATGCGAACTATTTTAAAGAAAGGTTTGAGGAAAACACTTCGTTACATATTCCATTTTATGTAGATGAATTATGTACCAAACGAGTCCTCGTTATGGAATGGGTAGAAGGCGCGAAAGTTACAGATATTAATTATATGCAGCGCCACCAAATTGATACAAAACATGTAGCAAGAGTTCTATTCAATTTTTATTTGGAACAATTTTTGACGACAGGTAAATTCCATGCCGATCCGCACGCAGGAAACATATTAGTGCAGCCAGACGGAAGGATTGTCATTATTGATTTTGGTATGGTAGGGGAAGTAAGACAACAGGACAGTCAACATTTTAAACAACTTATCCAAAGCATTGTAATGGATAATTACGATCGCGTTATTGAAACGCTAGATGAAATGGGCTTTATTTTACCAAATGCTGATCACAATAAATTAAAACGAGCAATTCAAGAGACGATAGAAATGTATCAAAGTGGTACAATAGATATACAAGATGCTCATATTATGGAGCAAATTAAAGAAGATATTCGTTTGGTTATTCACGATCAACCTATCCAGTTATCTGCAGAATATGCCTACTTAGGTAGAGCTATCTCCATTATTATTGGAATTTTAATAGCCATCTACCCGGAAATTAACTTTCAGAAATGGGCAGAGCCAGCAGTGAAAGAATGGCTTGATGGCAAAAAAGTTGCCGAAACATTATATAAGCAATATGCGAAAGACACGATCAAACCAATTCTTTCTTATCCGCAAGCCGTTTTGGAATGGTTGGAAAGCGGAACGAAGAATAGACAGTGGGATAAACAAAAACATCAGCGTCGCTTAAAGCATCAGTACTTTATTTGGATAGAAGTATTAATTGTTATGTTTTTGCTGCTTAGTTTGGGCGGTTCGGTAGGAGCTTTTTATTTCCAATATCAGCTCACTGCAATCATTACACTATGCAGTACAGCTGTTTTAACTATTTTATTGCTAATCATATTAAGGAAGCATTATAAGATGATTCAATCGTCAAATTAA MHKRLKYNLGYRSTVMVLMTLKFIAKIYMFHFKHRIWDDETFAKWNLLITKLAQEYREKAILLGGVLIKVGQFLSTRTDFMPDAFIKELSGLVDRVPAMPYSYAREIMEEEWGVAIETHIEEIQTPSIASASIGEVYRAKLKGSDTEVAIKVQRYRIKEVFHKDFKALRIVFWLISTLTSFGKKTDLPSLYRELVTVMNRELHFDLELANANYFKERFEENTSLHIPFYVDELCTKRVLVMEWVEGAKVTDINYMQRHQIDTKHVARVLFNFYLEQFLTTGKFHADPHAGNILVQPDGRIVIIDFGMVGEVRQQDSQHFKQLIQSIVMDNYDRVIETLDEMGFILPNADHNKLKRAIQETIEMYQSGTIDIQDAHIMEQIKEDIRLVIHDQPIQLSAEYAYLGRAISIIIGILIAIYPEINFQKWAEPAVKEWLDGKKVAETLYKQYAKDTIKPILSYPQAVLEWLESGTKNRQWDKQKHQRRLKHQYFIWIEVLIVMFLLLSLGGSVGAFYFQYQLTAIITLCSTAVLTILLLIILRKHYKMIQSSN NA NA NA NA NA AK015_02327 1350 hypothetical protein ATGAAAAAAAATAGCTATTCTATATTTGATCATATTAAATTTATTATACCATCTCTTATTGGTGTTTTTTTATTTATGTCACCAATAAAAACAGAAGATGGATTAACTATTCCAATCGCTATCCTTGCTGGGAAAGTTCAATCCTTATTAGCCGATCAGTTATCTGGCATTATGATGGCTATTATCGTGCTCACAGCAATTATAACTATCATCGTTCGCCTGTTAGGCAAAGAAAAGCTTGATAGAACGCCATTTTTTCAGCAGCTCTTTTACGTAAATATGTTCTGGACGATTACAAGGGTAGTAGCTGCTATTTTTGCTGTTATGGTATTTTTCCAATTAGGACCTGAATTTATCCATAGTGCCAATACAGGGCAAATGTTATTAGGTGATTTATTACATGTATTATTTGCTGTCTTTTTATTCGCTGGCTTGTTTTTACCGTTACTTATGAATTTTGGTTTGCTTGAATTGTTTGGAACACTTATGACAAAGATCATGCGCCCGTTATTCCGACTACCTGGTCGTGCGTCCATCGATTCCCTCGCTTCTTGGGTAGGCGATGGTACAATCGGTGTATTAATCACAAGTAAACAGTATGAAAACGGCTATTACACCAAAAGAGAGGCCGCTGTTATCGGAACAACATTTTCCGTTGTCTCGATTACTTTTTCTTTAGTTATTATTGCTGAGGTAGGGCTTAAGCATATGTTTCTACCGTTTTACGGTACAGTTTTAGCTGCAGGAGTTGTTGCTGCATTAATTATGCCACGAATTCCTCCGCTTTCTAGAAAACCAGATACGTATATAAATAAAGATGCAGAAGGTATCTCTGAACAAATTCCAGCAGGTGAACATATTTTATCTTTTAGCTATAAAAAGGCGTTAGACCGCGCCAAACAGGAAAAAAGTGTGTTTAAAGTCTTTAAAGAAGGCGGACAAAATATTTTAGACATGTGGATGGGAGTCGCCCCAGTTGTGATGGCATTTGGATTAATTGCCCTCATTATCGCGGAAACAACACCTATTTTTCAATGGCTAGGTATGCCATTTGTACCTTTCATGGAACTGTTACAAATTCCGTATGCCAAAGAAGCGTCAGAAACAATCTTAATTGGCTTTGCAGATATGTTTTTACCATCCATTTTAGCTTCTACTATCGAGGCAGAGATCACCCGGTTCATCATTGCCGCCCTTTCTGTCACCCAGTTAATTTATATGTCAGAGGTAGGCGGATTATTAATTGGATCTAAAGTACCCGTATCCTTTAAAGATTTAGTCATTATCTTTTTACTGCGTACAATCATTACCTTGCCTGTCATCACTATCATAGCTCATCTTATATTTTAA MKKNSYSIFDHIKFIIPSLIGVFLFMSPIKTEDGLTIPIAILAGKVQSLLADQLSGIMMAIIVLTAIITIIVRLLGKEKLDRTPFFQQLFYVNMFWTITRVVAAIFAVMVFFQLGPEFIHSANTGQMLLGDLLHVLFAVFLFAGLFLPLLMNFGLLELFGTLMTKIMRPLFRLPGRASIDSLASWVGDGTIGVLITSKQYENGYYTKREAAVIGTTFSVVSITFSLVIIAEVGLKHMFLPFYGTVLAAGVVAALIMPRIPPLSRKPDTYINKDAEGISEQIPAGEHILSFSYKKALDRAKQEKSVFKVFKEGGQNILDMWMGVAPVVMAFGLIALIIAETTPIFQWLGMPFVPFMELLQIPYAKEASETILIGFADMFLPSILASTIEAEITRFIIAALSVTQLIYMSEVGGLLIGSKVPVSFKDLVIIFLLRTIITLPVITIIAHLIF NA NA NA NA NA AK015_02328 1002 hypothetical protein ATGGAAAGAAACGCTTTTTTTGATAATGCAAAAGTCATTTTGATCTTTTTAGTTGTTTTTGGACATATGATACAACCTTTTACAGGTGATTCTCCATACATTCATACACTTTATATGTGGATCTATACATTTCACATGCCTGCATTTATATTATTGGCAGGCTATTTTGCAAAAGGTTCAGGATCATTCAGTTATATCGTGCAATTGATGAAAAAATTATTATTGCCATATCTCATTTTTCAACTACTATATACGGGCTACTATTATGTCATTGATAAATCAGGCTGGCAAACGGACTTATTTAGTCCGCATTGGGCATTGTGGTTTTTATTCAGCCTATTTTGCTGGCATATGTTATTATATTGGTTTAAAAAGTTACCGCCATTTTTAAGTGTTTCGATTGCGATCTTTCTCGGCCTAGTCGTCGGGTATTTTAGTGAAATTGGCCATATGTTTAGTCTATCTCGAACTTTTGTTTTCTTTCCGTTTTTCTTAGTTGGCTATTTATTAACGGAAAAGCAAGTGATGCTCGTTAAGCAAAAAGCGGTGCAAGCTGTTTCGCTTGTGGTCATGGTTTGCATTGCGGTAGCTATCTATTACTTACCAGACTTTAATTCTGGTTGGTTGCTTGCTTCTAAATCGTATGGTGATTTGGGGCTTGTAGAATACGGTGGGCTGGCAAGACTCTTAGTTTATGTATCTGCAGCTTTCATGGTTATAAGCGTGCTATCATGGGTACCAGTCCAGCATTTTACATGGACCATTCTAGGAACACGCACACTTTATGTATATTTACTACACGGCTTTTTCATCCAGTACTTTCGTCAGGCGGAGTTGTTTAAGGTAGATGGAGTATTTGATTTTCTAGGACTTGCTGCTTTATCTATGCTGCTTGTACTCGTATTATCTAGCCGACCAATACTTGGAATATGGCAACCGCTTGTTGAAGGGAAGGCTTCGATAATGAAAAAAATGTATCATAAAACGGTACAAGAGAAATAA MERNAFFDNAKVILIFLVVFGHMIQPFTGDSPYIHTLYMWIYTFHMPAFILLAGYFAKGSGSFSYIVQLMKKLLLPYLIFQLLYTGYYYVIDKSGWQTDLFSPHWALWFLFSLFCWHMLLYWFKKLPPFLSVSIAIFLGLVVGYFSEIGHMFSLSRTFVFFPFFLVGYLLTEKQVMLVKQKAVQAVSLVVMVCIAVAIYYLPDFNSGWLLASKSYGDLGLVEYGGLARLLVYVSAAFMVISVLSWVPVQHFTWTILGTRTLYVYLLHGFFIQYFRQAELFKVDGVFDFLGLAALSMLLVLVLSSRPILGIWQPLVEGKASIMKKMYHKTVQEK NA NA NA NA NA AK015_02329 3336 COG3459 1,2-beta-oligoglucan phosphorylase TTGACAACAGGAGACAAATTTCAGATAAAAGCGCAAGATATTACGTTTACATTTCTCCAAAGCGGCGACATTTACGAAATTGCTCATAAGAATACAATGATCAATCAGCTGTTGTCGAACCCGATCGATGGAGCGTTAAATAATATTTATTTACGCATTTATCGTCAAGGGAGAATAGTAACCGCACCGTTATTGGGTGTTCAATCGAACAGCGAGATTTTCGTTGCAGAGGATCACGTGAAGTGGCAAGGTAGCTTTGAAGAAGTAAACTATGAAGTTACTTTCTATTTAACAGGTGCAGGTGTTTGGTTTTGGGATGTTTTGTTAGATGGGAAAGATGTCGAGGTCGATCTTATTTATGGGCAAGACTTAGGTTTGGCTGATAAAGGAGCGGTGCGCTCAAATGAAGCTTATATGTCGCAATATATGGATCATGCTATTTTCCAAGATAACGAACAGGGGTATGTCGTTTGCTCTAGACAAAATCAACCGCAAGCAAGCGGATTCCCATATATGCAACAGGGTGCTTTAGGTAAAATTATTGGCTACTCTACAGATGGCTTTCAATTTTTTGGTTTATCGTATAAAACGACAAATCAAGCTGAGGTTTTAACGAAACCTAGTTTGGCAAATGAAAACTATCAATATGAATTCGCCTATACTGCATTACAATCAGAGAAGCTTGCTTTAAATGGAAAGCAGCGGTTCGTATTTTACGGTTTGTTTAAAGAAAATCATTCCACTGCTGTTCGGGAGTTGGAATTTAAGGAAGAGATTCAAAAAGCGTGGAAAGAATTAAGCAGAAGTAAAAGGGATCATGCCCCCGTAGAGAGGGTACGTTTAATGCCCAGTATAGGTGCGCCACTTACCGCGTTGGAAATGACAATAGCAGAATTAAACACTTATTTTCCAAATCGGCAGTTGGAGGAATATAATGAATCGACATTGCTTTCCTTTTTTACGGATACGTATGAGCATGTAGTTCTCAAGCAAAAGGAAGAGCTGATCGAACGACCACATGGACATATTATTATGAGTGGACATAATGACCGGGTGAGAGACGATACGATGGCAACGACGTCGTATATGTATGGCATTTTTAATTCGCAGCTTGTTATTGGTAATTCATCTATGAACAAAATGCTGACAAATGCACGAAACCCGTTAAATATTATGAAAACTTCAGGGCAGAGAATTTATATTCAAATTGATGAAACGTATCATTTATTAACCATGCCTTCTCTATTTGAAATCGGTTTTAACTATGCTAGATGGTATTATAAATTTTTGGATGATGTAATTGTCATTACCAATCTTATTAAGGTAGATGATGCAGTGCTTCAGCTACATGTAAGGTCAGAAAACGGGAAAGCGTATAGATTTATAGTTACGAATCAATTAACTATGAATAATAATGAATATGAAGTTCCTTTTCATATCAAACATAATGGAAATACCGTTGTTTGTACGGCTGATTCTAAATCGGATAGCGCGACTGTTTATCCTGATTTAAATTATTTTATGCACGTTACAGGTACAGAGTTGACGGTGGGGGATGAGCGACAGCTAGCAACAAATATTTCCCCACTATCTGCATCACTTTTAGTCTTGTCTATGAGTCCTACAGCAGAATGGAAATTAAACGTAAAAGGTTCGTTATACAAGCAAGAACAGCTTGTTCAGTTGTTAGATATTCCAGGAGAAATCGAGCGTTATCGTGCGTATTACCGGCATGTGAACAAAGGATTTAAACTTACATCTTCCGGTTCATCTACGAGGGATTTGGAGAAAATAAATGCGTTGGCTTGGTGGTATACGCACAACATGCTCGTACATTTTTCATCGCCGCATGGTTTGGAACAATTTGGCGGAGCTGCTTGGGGTACTCGTGATGTGTGTCAAGGACCAACGGAATATTTTATGGCAACGCAAAATTATCAAGTGGTACGTGACATCATTAAAATCGTTTTCTCTCATCAGTACGAAGATCAAGGCAACTGGCCACAATGGTTTATGTTTGATAAGTATCAACATATTCAGCAGGAAGACAGCCATGGTGATATTATTGTTTGGCCGTTAAAAGTAGTTGCCGATTATTTGGAGGCTACAGGGGATTATGGCATCCTAGAGGAAGTTGTTCCTTATACAGATCGTACTACTTTCAAGTTGACAGCAAGGAAAGCTACGATTATGGAACATGTACAAAAAGAAATTAATTATATGAAAAATCATTTTGCTCAAGATACGTATTTATCTCTATATGATGATGGAGACTGGGATGATACGTTGCAACCTGCGAATGAGAATTTGAAGAAATATATGTCTTCCAGCTGGACCGTTGCATTAACGTATCAGGTGTTACAGAAGTTGGCTCAAGTGTTAGTTAGCTATGATGAACAGGAAGCATTACAGATGCAAGAGCTTGCTGCGGGGGTGAAAGCTGATTTTAATCAATATATTTTATCAGCAAGTGTTGTTCCAGGATTTGTGTATATGGAGAATCCGGATCAGATAGAATATATGCTTCACCCATCTGATGAAAAAACTGGTATTCAGTATCGGTTATTACCAATGCAGCGCAGTATTATTAGCGAGCTGTTTACCAAAGAGCAGGCGGAAAAGCATTATCGGTTAATAAAAGACAAGTTATATTTCCCAGACGGCGTTCGGTTAATGAATCGCCCTGCTAACTATAAAGGTGGCGTTAGTACACATTTCAAACGAGCTGAGCAAGCGGCAAATTTTGGTCGAGAAATAGGCTTACATTATGTGCATGCGCATATTCGGTTTGTCGAAGCAATGGCTAAGCTTGGTTATGAAAATGAAGTGTGGAAAGGCTTGTCTGTCATTAATCCAATTTTAATTCAAAACGAAGTCCCTCATGCAGAGATACGCCAGAGTAATGCGTATTTTAGCAGCTCGGATGGCAAATTTGCTACACGCTATGAAGCGCAGGAGAACTTTGATCAGCTACGTACTGGCAATGTTCCAGTGAAAGCGGGATGGCGCATCTATTCGAGCGGACCAGGAATATATATCAATCAATTAATTTCTAATGCCCTAGGCATCCGCTATCAGCAAGGAGATCTTGTGATTGATCCTGTGATACCGGATGAGTTGGATCAATTGGAATTCGCATTTCAATATGATAGCAAGCCAATAACATATCATTATCATCCTAAAGAAGGTAAAAAGCAGGTCGTTGTAAATGGTAAAAACGTTCATTTTACGCAATTAACAGATAATCCTTATCGCGAAGGCGGTATGGTGATAAAAACTGCAGAGTTGGAAAAACATTTACAAGCTGGAGAAAATAATATTGAAGTTTATTTGTAA MTTGDKFQIKAQDITFTFLQSGDIYEIAHKNTMINQLLSNPIDGALNNIYLRIYRQGRIVTAPLLGVQSNSEIFVAEDHVKWQGSFEEVNYEVTFYLTGAGVWFWDVLLDGKDVEVDLIYGQDLGLADKGAVRSNEAYMSQYMDHAIFQDNEQGYVVCSRQNQPQASGFPYMQQGALGKIIGYSTDGFQFFGLSYKTTNQAEVLTKPSLANENYQYEFAYTALQSEKLALNGKQRFVFYGLFKENHSTAVRELEFKEEIQKAWKELSRSKRDHAPVERVRLMPSIGAPLTALEMTIAELNTYFPNRQLEEYNESTLLSFFTDTYEHVVLKQKEELIERPHGHIIMSGHNDRVRDDTMATTSYMYGIFNSQLVIGNSSMNKMLTNARNPLNIMKTSGQRIYIQIDETYHLLTMPSLFEIGFNYARWYYKFLDDVIVITNLIKVDDAVLQLHVRSENGKAYRFIVTNQLTMNNNEYEVPFHIKHNGNTVVCTADSKSDSATVYPDLNYFMHVTGTELTVGDERQLATNISPLSASLLVLSMSPTAEWKLNVKGSLYKQEQLVQLLDIPGEIERYRAYYRHVNKGFKLTSSGSSTRDLEKINALAWWYTHNMLVHFSSPHGLEQFGGAAWGTRDVCQGPTEYFMATQNYQVVRDIIKIVFSHQYEDQGNWPQWFMFDKYQHIQQEDSHGDIIVWPLKVVADYLEATGDYGILEEVVPYTDRTTFKLTARKATIMEHVQKEINYMKNHFAQDTYLSLYDDGDWDDTLQPANENLKKYMSSSWTVALTYQVLQKLAQVLVSYDEQEALQMQELAAGVKADFNQYILSASVVPGFVYMENPDQIEYMLHPSDEKTGIQYRLLPMQRSIISELFTKEQAEKHYRLIKDKLYFPDGVRLMNRPANYKGGVSTHFKRAEQAANFGREIGLHYVHAHIRFVEAMAKLGYENEVWKGLSVINPILIQNEVPHAEIRQSNAYFSSSDGKFATRYEAQENFDQLRTGNVPVKAGWRIYSSGPGIYINQLISNALGIRYQQGDLVIDPVIPDELDQLEFAFQYDSKPITYHYHPKEGKKQVVVNGKNVHFTQLTDNPYREGGMVIKTAELEKHLQAGENNIEVYL NA NA NA NA NA AK015_02330 2181 Beta-xylosidase ATGAAAGTAAATCAAATAAAAGATTTAGTCAGCAAAATGACTTTAGATGAAAAAATCGGACAAGTTATCCAATTAGCCACCCCGTTTTTTAAAGGGGCTTCTGATGAGGGGCAAATAACTGGACCGATGAAAGAAATGCATATACCTGATAACATGCTGCAACATATAGGGTCCGTTTTAGGTGCATCGGGTGCCAAGGAAACGAGGTCGATCCAAGAGCGATATTTACAGGATAGCAGATTACGCATTCCCTTGCTTATTATGTCCGATATTATTCATGGTTATAAGACCATTTTTCCAGTTCCATTAGCCATCGGTTCTTCTTGGGATTTAGAACTTGCTGAAAAAAGTGCAACAATTGCTGCTAAAGAAGCTGCTGTTAGCGGTGTGCATGTAACCTTTGCACCAATGGTTGATTTAGTCCGTGACCCACGCTGGGGAAGAGTGATGGAGTCTACAGGTGAAGATTCCTATTTAAATAGTGCGTTTGCTAAAGCGCAAGTTCGTGGGTTTCAAGGTTCTGATTTAAAACATGACCACGAAAGCGTTGCTTCCTGTGTGAAGCATTTTGCTGGTTATGGTGCAGCTGAAGGAGGCAGGGATTATAATACGGTAAACATGTCAGAAAGAGAATTACGCGAATCGTATCTCCCGGCTTTTAAAGCAGCCCTTGAGGCAGGTAGCAAATTAGTGATGACAGCCTTTAATACGGTTGATGGAATTCCAGCAAGTGCAAACAAATCATTAATGCGTGACCTTTTACGTGAGGAATGGAATTTTGACGGTGTCGTTATCTCTGATTGGGGCGCTGTGAAAGAATTAATTCCGCATGGTGTGGCAGCAGATGAAAAAGAAGCAGCTATGAAGGCCATTACAGCAGGTGTAGATATAGAGATGATGACTGGATGTTATGCAAATCACCTGCAACAGCTCATAGAAACAAATGAAATGGATGTGGAACTTCTAAATGAAGCGGTGATACGAATTTTAGAGTTAAAAGACGAATTAGGATTGTTCGATGATCCATATCGAGGTGCAGATGAAAAAAGAGAAGCAGAAGTTGTTATGTGCTCTGCGCATCGAAAGGCAGCTCGTGACATTGCCGCTAAATCTTGTGTGCTGTTGAAAAATGAGCAAGATGTGTTGCCACTTGCTACTACGCAAAAAATGGCACTTCTTGGTCCGTTTGCTAATAGCAACGATATTCTTGGCCCTTGGTCATGGTTGGGAGATAGGAATGAAGCAATAACATTAGATGTAGGGATGCGAAATCAGCTACCTGCTTCTCAGTTATATGTAGCGAACGGTTGTGGAGTGAATAATCATTGTGAACAGGATCTTTCTAAAGCAATAGAACTTGCTAAGCAATCGGATGTTGTTGTTCTAGCTTTAGGAGAAAGCTCTGAAATGAGCGGTGAGGCCGGTTCAAGAACAAATATACAATTGCCACAAGCGCAACTACATTTAGTAGCAGCGGTAGCTAAGTTGGGTAAACCAACTGTTGCTGTGTTATTTAATGGCAGACCGCTCGATTTACATGGGGTAGTTGATCAAGTGGACGCAGTGCTTGAAGCATGGTATCCAGGAACAGAGGGTGGTACAGCGATTGCAGACATTCTCTTTGGCAAGGTCAATCCGTCTGGAAAGCTTACGATGTCGTTCCCGTATAATGTAGGACAAATTCCTGTATACTATAACAGCTATAATACAGGGCGCCCTCAAGGTGCTATCAATGCTCAAGAACGATATGTATCACAATATTTGGACTGTCCGAATGAGGCTTTGTTTCCATTTGGCTACGGGTTAAGCTATACCCACTTTAAATATAGTGATCTAGAGCTTTCTTCCGATTTGATGACACCAGATAAACCAATAACGGTTAAGGTCAAGGTAACAAATGCAGGTGATGTTGCTGGTGAAGAAGTGATCCAACTCTATATTCGTGATTTAGTCGGCGAAGTGGTGCGTCCGCTTAAAGAATTAAAAGGATTTCAAAAGATCTCTTTACAGCCGGGTGAAGAAAGAGTCGTTATGTTTACGTTGACAGAAGAACAGCTTCGTTATCACCATGCCGATCTTTCCTATCATAGTGATGAAGGAAGATTTGATTTGTATGTTGGAGCAAATAGCCAAGATGTCATGGCACTATCGTTCAATTTACACAAGACGAAAGGAGAATAA MKVNQIKDLVSKMTLDEKIGQVIQLATPFFKGASDEGQITGPMKEMHIPDNMLQHIGSVLGASGAKETRSIQERYLQDSRLRIPLLIMSDIIHGYKTIFPVPLAIGSSWDLELAEKSATIAAKEAAVSGVHVTFAPMVDLVRDPRWGRVMESTGEDSYLNSAFAKAQVRGFQGSDLKHDHESVASCVKHFAGYGAAEGGRDYNTVNMSERELRESYLPAFKAALEAGSKLVMTAFNTVDGIPASANKSLMRDLLREEWNFDGVVISDWGAVKELIPHGVAADEKEAAMKAITAGVDIEMMTGCYANHLQQLIETNEMDVELLNEAVIRILELKDELGLFDDPYRGADEKREAEVVMCSAHRKAARDIAAKSCVLLKNEQDVLPLATTQKMALLGPFANSNDILGPWSWLGDRNEAITLDVGMRNQLPASQLYVANGCGVNNHCEQDLSKAIELAKQSDVVVLALGESSEMSGEAGSRTNIQLPQAQLHLVAAVAKLGKPTVAVLFNGRPLDLHGVVDQVDAVLEAWYPGTEGGTAIADILFGKVNPSGKLTMSFPYNVGQIPVYYNSYNTGRPQGAINAQERYVSQYLDCPNEALFPFGYGLSYTHFKYSDLELSSDLMTPDKPITVKVKVTNAGDVAGEEVIQLYIRDLVGEVVRPLKELKGFQKISLQPGEERVVMFTLTEEQLRYHHADLSYHSDEGRFDLYVGANSQDVMALSFNLHKTKGE PGPT0019110_5432 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349 NA NA AK015_02331 1239 hypothetical protein ATGAGAAAATGGTTGGTATTAACTTTTATCGTAGCTTTACTAGCATTAAGCGCTTGCGGAAACGAGGAAGCTGCTAAAGAAGACAGTGGAAATAAAGACGGTGAAATTACCGTTTGGGCAATGGGTGAGGAAGGTAAGCTGTTAAAGCAACTGACAGATAAATTTGAAAAAGACAATGAAGGAATTAAAGTAGATGTACAAGCTATTCCTTGGGATAGCGCCCACGATAAACTATTAACTGCAGTAGCTTCTGGAAATGGTCCAGATATCCTGCAATTAGGTACTACTTGGGTGCCAGAATTTGCTGAAGCAGGAGCGTTATTAGATTTAACGGAATATATGGAAGAGCATCCAGAATTCGCAGCAGAAAATTATTTTGATGGTGCCGCAGAAATCATGCAGTATGATGACCAAATCGTTGGTATTCCATGGTATGTAGACACTCGCGTACTATATTACCGCACCGATATATTAGAAGAAGCAGGTTATGATAAAGCTCCGGAAACTTGGGAGGAATTACAAGACGCAGCAAAGAAACTAGCAGACCGTGGTGAAGGTCAATATGGAATAGATATTGACCAAAATGATCAAATTATGCCATTTATCTTCGCTTGGCAAAATGGTTATGAGGCAAACTTGGAAGAAAGCAAATTAAATTTTGACACACCAGAATTTTTAGGTGCTATGGAGTATTATACAAGCTTCTTTAAAGAAAGATCCAGCCAAGTAGAGCAAGGCGAGGATATTGTCCAAGCATTTGCAAATGGGAAAAAACCAATGTTCTTCAGTGGCCCTTGGATGGTAAATATTATCAATGAACAAGCTCCAGACATAGAGGGAAAATGGGCGCCAGCTGTTATGCCAGGTAACGAAACAAACGCTTCTAGTATGGGGGGAGCAACATTATCTATCTTCCATAATTCAGAAAATGTAGAGAATGCCTTGAAATTCCTTTCCTATATGAATGAAACAGAAACACAACTTGAATGGTTAGATATATCTAATACACTACCTTCTAAGCTAGAAAGCTGGGAAGATCCAATATTACAAGATGATCCAATGTATAGCGTATTTGGCGAGCAATTGAAAGAAGCAAAAGCAGGACTTCAAACAGAACAGTTTGAACGCATCGCCCAAGAATTACTTAGCGCGTTAGAACGCGTCAATGCAGGCGGGGCGGATTTAGAGAAAGAAATAGAGCAATTTAACAAAACTGCGCAAGATCTATTAGAAGAATAA MRKWLVLTFIVALLALSACGNEEAAKEDSGNKDGEITVWAMGEEGKLLKQLTDKFEKDNEGIKVDVQAIPWDSAHDKLLTAVASGNGPDILQLGTTWVPEFAEAGALLDLTEYMEEHPEFAAENYFDGAAEIMQYDDQIVGIPWYVDTRVLYYRTDILEEAGYDKAPETWEELQDAAKKLADRGEGQYGIDIDQNDQIMPFIFAWQNGYEANLEESKLNFDTPEFLGAMEYYTSFFKERSSQVEQGEDIVQAFANGKKPMFFSGPWMVNIINEQAPDIEGKWAPAVMPGNETNASSMGGATLSIFHNSENVENALKFLSYMNETETQLEWLDISNTLPSKLESWEDPILQDDPMYSVFGEQLKEAKAGLQTEQFERIAQELLSALERVNAGGADLEKEIEQFNKTAQDLLEE PGPT0016545_10221 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027 NA NA AK015_02332 891 lacF Lactose transport system permease protein LacF ATGTTTAAACAAAAATTCCGTAATCGACATCCCTACATGTTCATTGCACCTGCAGTTACTTTATTAATTATTTTCAGTATTATTCCGATTACGATCGCTTTTTTTATTAGCTTTACAGATCTCGATTTAAAAGGATTAGCAAATTGGTCAAACATCAGTTGGATCGGCTTTAATAACTATCAAAACCTATTTGCTGATGATACTTTTATCAAATCTATTTTCAACACGTTATTTTATGTTGTCATTGGCGTTCCGCTCGTCATTATTTGTTCATTAGGTATTGCACTCATGCTGAACTACGGAAGCAATAAACTGTTTTCTATGTTCCGATCGGTATACTACATGCCATCTATAACGAATATTATTGCCGTCGCCGTCATTTGGGGCTATTTATACAACACAGAGTATGGTTTATTTAATTATATTCTATCTTTACTTTCTGTAGAAAATATACCTTGGCTTCAAGAGCCTACCATTGCTAAAATTTCGCTTATTATCCTCGCAGTTTGGAAAGGTATTGGGATTAATATGATTATTTTTCTCGCTGCCCTGCAAGGAATACCTAGAGCTTATTATGAAGCAGCGAAAATGGATGGCGCCAACCGCATTCAGACATTCTTTAATGTGACGTTACCTTTATTGAGATATGCAACCTTTTTCGTAACTGTAACGACGTTAATTGGCTGGATGCAGTTTTTCGAAGAGCCTTACGTGATGACACAAGGCGGACCACTAGACGGAACACTATCTATTGCATTGTTTATTTATCAAGAGGGCTTTCAATTTAGTGAGTTTGGTTATGCTGCTGCGGGTTCTTTCGTATTGTTTATCATGATTATTATCATTACTTTAATTCAATTTAAACTTCGAAAATCCGATACAGAATATTAA MFKQKFRNRHPYMFIAPAVTLLIIFSIIPITIAFFISFTDLDLKGLANWSNISWIGFNNYQNLFADDTFIKSIFNTLFYVVIGVPLVIICSLGIALMLNYGSNKLFSMFRSVYYMPSITNIIAVAVIWGYLYNTEYGLFNYILSLLSVENIPWLQEPTIAKISLIILAVWKGIGINMIIFLAALQGIPRAYYEAAKMDGANRIQTFFNVTLPLLRYATFFVTVTTLIGWMQFFEEPYVMTQGGPLDGTLSIALFIYQEGFQFSEFGYAAAGSFVLFIMIIIITLIQFKLRKSDTEY PGPT0016535_7031 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025 NA NA AK015_02333 834 araQ_1 COG0395 L-arabinose transport system permease protein AraQ TTGGCTTCTATACATTCAACAAAAGGGAAAACAGAAAAAACCCTTATCACCGTGCTGATGATTATTGGCGGAATTTTAGTATCCATTCCATTCATTTGGATGATAACAAGTGCCTTTAAACCTGAGAGTGAAGCATTGCGCATTCCACCAACTATATTACCGGAAGATCCAACGCTGGATAATTTTAAGCACCTATTTACAGAATTAAATTTCTTAGTCTATTTACGAAATACATTAATTATCGTCGCTTTTTCGTTTGTCGGCTTATTGTTTAACGGCATGGCAGGATACGGTTTTGCTAAGTTTGCATTTAAAGGCAGGGAAAAAATATTCTATCTTGTTCTAGCAACTATGATGATCCCAGGCCAAGTAACGATGATACCTGTTTACTTATTACTTAATGGAATGGGCCTCACCAACACGTTACCGGGTATTATTTTGCCAGGTCTAGTCGCAGCATTTAGCATTTTCTTATTCCGACAGTTTATGAGCACGATACCAACGGATTTAATTGAAGCTGCACGTTTAGACGGAGCGGGAGAATTTTATATTTTTTTCCGGCTTATTATTCCTATTGCTAAACCTATTTTTGCCGTACAAGGAATTCTTGCATTTATCGGCGCATGGAACAGTTTCTTATGGCCTTTAATTATCGCGAATGACGAGAGCCTCTATACGCTTTCTGTAGGTTTATCTTTATTACAAGGCCAGTATGGCAATAATTTTGCTTTACAAATGGCAGGAGCAGCCTTTATGGTTGTACCAATTATTATCATCTTTGCTTTCTTTCAAAAATACATTGTGGAAGGTTTTACCATGTCCGGTATTAAATAA MASIHSTKGKTEKTLITVLMIIGGILVSIPFIWMITSAFKPESEALRIPPTILPEDPTLDNFKHLFTELNFLVYLRNTLIIVAFSFVGLLFNGMAGYGFAKFAFKGREKIFYLVLATMMIPGQVTMIPVYLLLNGMGLTNTLPGIILPGLVAAFSIFLFRQFMSTIPTDLIEAARLDGAGEFYIFFRLIIPIAKPIFAVQGILAFIGAWNSFLWPLIIANDESLYTLSVGLSLLQGQYGNNFALQMAGAAFMVVPIIIIFAFFQKYIVEGFTMSGIK PGPT0016540_7298 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026 NA NA AK015_02334 1032 rbsR COG1609 Ribose operon repressor ATGGCAACAATAAAAGATGTAGCAAAGCTTGCTGGAGTTGCAGTATCTACTGCTTCTTATGCGTTAAACAATAGCGATAAAGTAAGCCAAACTACAAAAGAAAAAGTAGCAGCAGCGGCAAAGTCATTAAACTATAGAAAGAATGGCTTAGCTTCTGATTTAAAAAGGACAAATACAAATACGATCGCGTTAATTTTGAGCGATTTGTCAGGTCCTTATTACTCAGAGTTAATTCAAGGCGTGCAAGATGTAACTACTGCAAACGGCTTTGACTTAATTGCCTGCAGCTCTATCGGTGGGGCAGATTCTACGGCGGTAAAATTTTTACAAGAAAAACGGGTAGATGGGGCGATTATACTTGCACATAATATTAGCGACGAGGTAACCGTGCAATCCGCTCGTAAAGGATTTCCGCTTGTTGTATTGGATAGAAATTTAGATAGTAGCTTTATTTATAATATTGAAGTTGATAATATCCATGGCGGATATTTAGCAACAGAGCATTTAATCCAACATGACCATAGCGAAATTGCATATGTGAGCGGTCCTTACAACTCGCACGATAATCAACTTCGCTTCCAAGGGTACTTGGATGCTTTAAAAGATTACAACATCCCTTATAAGTCCAAATGGAAAATCATCGGTGACTTCACTCGAGAAAGCGGGTATCGCGCAACCAAGATGCTCATTGCACAACGTCAATTACCACATGCTATTTTTTATGCCAATGACGAAATGGCTATAGGTGGATTAGAAGCGTTAAGAGAAAATGATATTTCTGTCCCTAATGACTTATCCGTTATTGGATTTGACGACATTCAACTAGCCGAATATGTCTCTCCTCCGCTTTCAACAATAAAACAACCAAAATATGAAGCAGGTTCGTTAGCCGTTCATGTTATTTTTCAAGTATTAGCAGGAGAAAAAGTCGACCATCAATACACATTATCAACCGAATTAGTAAAGCGGCAATCTGTAATGCAGAGACTATCTCCTGAAAATTCTACCAAACAGCATACGAATGAAACGTAA MATIKDVAKLAGVAVSTASYALNNSDKVSQTTKEKVAAAAKSLNYRKNGLASDLKRTNTNTIALILSDLSGPYYSELIQGVQDVTTANGFDLIACSSIGGADSTAVKFLQEKRVDGAIILAHNISDEVTVQSARKGFPLVVLDRNLDSSFIYNIEVDNIHGGYLATEHLIQHDHSEIAYVSGPYNSHDNQLRFQGYLDALKDYNIPYKSKWKIIGDFTRESGYRATKMLIAQRQLPHAIFYANDEMAIGGLEALRENDISVPNDLSVIGFDDIQLAEYVSPPLSTIKQPKYEAGSLAVHVIFQVLAGEKVDHQYTLSTELVKRQSVMQRLSPENSTKQHTNET PGPT0017992_6190 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 AK015_02335 519 hypothetical protein ATGACAATAGCATTATTGCTTATGTTAATAACGATTATTAGTTTGTCTGCGTTTGTGCTTGTTATTACGGTTATGTATCGAAACAACATATCACACATGACTGGAATGATGGTTGCGATGGCTATTGGGATGAGTGCGGGCATTGCCATTGGGGTTATTGTTGGTATACTCTTAAGTGGCAATTTATTTCAGTCCACTGTTATTGCGGTGCTGATTGGGATGGTGCTTGGATGCTTGGTGGGTATTCCTGTCAGTATATGGGCTGTGTTAGATGGCGCTTTATCTGGTGTGATGGGTGGCATGATGGGATCGATGTTGGGAGAAATGATCATGCAAGAATATCAAGATCCCTTGATTCGGATTATGTTTATGCTGTTTTTATGGACCATTGTATTCATTTTGTGGGGAATACGGGAAACTGCTAGCGAAGGCAAAAAAATGTGGAACCATCCAGCCATAACAGTGATCATTTTTATGTTAATCATCATAGGTTTTCATCAATTTGGATCACTTGTTTAG MTIALLLMLITIISLSAFVLVITVMYRNNISHMTGMMVAMAIGMSAGIAIGVIVGILLSGNLFQSTVIAVLIGMVLGCLVGIPVSIWAVLDGALSGVMGGMMGSMLGEMIMQEYQDPLIRIMFMLFLWTIVFILWGIRETASEGKKMWNHPAITVIIFMLIIIGFHQFGSLV NA NA NA NA NA AK015_02336 432 hypothetical protein TTGAAAAATCACGATGAATACCTTTATATAGGAAGACAATTACTAGATGCGCAACCATTTAGCAAATTTGTAGGCGCCAAACTAACTACATTTAATGAAGGGGAAGCTGTGCTAGAAATACCAATAAAAGAAAATCTACTACAGCAAAATGGCTTTGTCCACGGTGGTGTTTTAAGCTATGCTGCTGATAATGCATTAACTTTTACAGGAGGATCTGTTTTGGGCCCACATGTATTAACGTCCGAATACAAGATTAATTATGTACGTCCAGCTATTGGAGAAAGTTTAATTGCTACCGGCTTAGTAGTGTATGCCGGAAAACGTCAAGCCGTATGTCGTTGTGATGTGGAAGTAATCAAGAACGGCGAAAAGAAACTTTGCGCCACTGCTCAAGGAACCATTGTAACCTTTGACCCTTCATTAAAAATTTAA MKNHDEYLYIGRQLLDAQPFSKFVGAKLTTFNEGEAVLEIPIKENLLQQNGFVHGGVLSYAADNALTFTGGSVLGPHVLTSEYKINYVRPAIGESLIATGLVVYAGKRQAVCRCDVEVIKNGEKKLCATAQGTIVTFDPSLKI NA NA NA NA NA AK015_02337 441 hypothetical protein ATGCGTATTACCCAACCAACCATCAAAGAATTAAAGAGTGAGCAAGAGTGGATAGAAGCTTTTCCAATTATGAAACAATTAAGAACACATTTAAATACGCATTCCTTTATAGAACTAGTCTCACAAGCGGTGGAAGAGAATGATTACCAACTTTTTGCTTTATATGATGAAAATCGCATCGTGGCTGTTTGTGGGTTTATGCCAACGATTACGTTATACAACGGTAAATCCATATGGGTCTGTGACTTAGTTACTGACTCCAGCTTACGTTCAAAAGGATACGGGAAAACCCTCTTAAACTATGTTGAACATTGGGCAAAAAAGCAAAACTATGACGTTGTTTCTCTTTCTTCTGGATTACAACGTGCGTCAGCACATCAATTTTACGAAGAAAAAATGGAGTATGGTAAAACGAGTTATGTCTTCGTTAAAAAACTATAA MRITQPTIKELKSEQEWIEAFPIMKQLRTHLNTHSFIELVSQAVEENDYQLFALYDENRIVAVCGFMPTITLYNGKSIWVCDLVTDSSLRSKGYGKTLLNYVEHWAKKQNYDVVSLSSGLQRASAHQFYEEKMEYGKTSYVFVKKL NA NA NA NA NA AK015_02338 657 hypothetical protein TTGACGTACAACAACTTATTGGATTCCATGATTGCAGAGGCGAAACGTTCTAAAAAACAGACAGAAAAGCAACAAAAGATTATAGAGACAGCAATTCAATTATTTGCTGAAAAAGGGTATGCGAACACGTCTACAAATGAAATTGCCAAACAAGCAGGGGTTGCAGAAGGTCTTATTTTTAAGCATTATGGAACGAAAGAGAATGTATTGCGTTCTGTCATCTTGCCATTCTTCAAATCATCCCTTCCTGGCATGGCAGAAGAAGTATTTGCTGAAGTCCTGCCAGCAGAAACAACGACGTTTGAAGAATTTTTACGTGCGTTTCTTTATAATAGAATTCAGTTCTTTTCTGAGAATAAACAAATTTTACAAGTGGTTATGAAAGAGATCATATACAATGAATCCTTAAAGAAAGAGTTGTTACCTTATTTGGCTAATGAAATTCGTTATCGTTTTAGAAAGGCGATTGAAACGTTTAAAACGAAGCAGGAACTGAAAAATATTCCAACAGATGATGTCGTCAATATACTGCTTTCTGTTTTAGGGGGATTTATCATCTCGCGTTTTGTTATTGTAGATGTAGATAGGATTCATGAATACGAAGTGGAGCAACTAATCCAATTCATTATGGATGGCATACGTCAAAATGACCATTAG MTYNNLLDSMIAEAKRSKKQTEKQQKIIETAIQLFAEKGYANTSTNEIAKQAGVAEGLIFKHYGTKENVLRSVILPFFKSSLPGMAEEVFAEVLPAETTTFEEFLRAFLYNRIQFFSENKQILQVVMKEIIYNESLKKELLPYLANEIRYRFRKAIETFKTKQELKNIPTDDVVNILLSVLGGFIISRFVIVDVDRIHEYEVEQLIQFIMDGIRQNDH NA NA NA NA NA AK015_02339 714 hypothetical protein GTGAACATAAAGCAAATAACAAGTAAGATGCAAATTCCTGATCAGATGCAAAAAAGTTTAAACCAAGAGGACAATACAGTTGCCATTTCATATGTCTATGGAAATGAAGATACCGTGTTTTTTGATCGGTTAGGTCCGTTATTTATCGGCTTTTTTGTGTTTTTCTTCGTGTTCCTTATTTCGGGTATTGGTTTATTGAAGGAACGAACGACTGGAACATTAGAACGATTAATGGCTTCTCCTGTTAAAAGAGGGGAAATTGTTGCTGCATATTTAATCGGTTTTGGCATATTTGCTTTATTGCAAACGATTATTGTAGTTTTCTTTGCTGTGAATGTACTTCAAATGGTTTTAATCGGCTCGATTTGGAATGTGCTTCTCATCAATTTGATGTTAGCTTTAGTTGCCTTATCTTTAGGCATCTTACTATCTGCCTTTGCTGAATCGGAGTTTCAAATGATGCAGTTTATTCCAATCGTTGTGATTCCACAAATTTTCTTTTCGGGGATTATTCCACTGGAAGGCATGGCAGATTGGCTACAAGTATTAGCAAAATTAATGCCGCTTTATTACGCTGGAGATGCGTTACAGAGCGTAATGTATGAAGGCTTAGGGCTAGCTGATATAACTGGGGATTTGTATGTGTTACTGTTATTTGCATTCGTACTCATTATCTTGAATTTAATTGGATTAAAGAAATACCGAAAATTGTAA MNIKQITSKMQIPDQMQKSLNQEDNTVAISYVYGNEDTVFFDRLGPLFIGFFVFFFVFLISGIGLLKERTTGTLERLMASPVKRGEIVAAYLIGFGIFALLQTIIVVFFAVNVLQMVLIGSIWNVLLINLMLALVALSLGILLSAFAESEFQMMQFIPIVVIPQIFFSGIIPLEGMADWLQVLAKLMPLYYAGDALQSVMYEGLGLADITGDLYVLLLFAFVLIILNLIGLKKYRKL PGPT0006730_8145 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_02340 327 hypothetical protein GTGCGACGTATTTTTAAGCAGATGTTTCGAGATAAACGAACATTAGCATTATTATTGGTTGCCCCTCTATTCATATTGACCCTCATGCATTTGTTATTTAACAGCGAACAAGTAGATCCGCTTTTAGGTATAGAGGGTGCAGATGATAGTTTTATTAATAAGTTAGAAGCAAAAAATATAGAGGTGCAGAAATATACAAATGTTAAAAATGCCCATGCTACAGTAGTTGACGATGAATTGGACGGATTTTTAAAAATGGATGATGAAAAACAGCAACTTACGCTATTAAATAGTGATCCAACGATTTCGCGAACGCTTGAAATGTGA MRRIFKQMFRDKRTLALLLVAPLFILTLMHLLFNSEQVDPLLGIEGADDSFINKLEAKNIEVQKYTNVKNAHATVVDDELDGFLKMDDEKQQLTLLNSDPTISRTLEM PGPT0006730_8145 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_02341 720 ybhF COG1131 putative multidrug ABC transporter ATP-binding protein YbhF TTGCAACATGCGGTGTCAGTTAAAAATGTTAGTAAGCGTTATCGGAAAAATAACGTGCTACGACAGGTAGATTTGATGATAGGGGAAGGGAGTGTCTATGGTTTAATTGGACCTTCAGGAGCTGGTAAGACAACCTTAGTCAAAATGGTGGTTGGAATGGAAGTTCCCGATCAAGGGGAGATTCATGTGCTCGGACAATCTATGCCGAACTTGTCTTTAATGCAAAGAATTGGTTATATGGCGCAATCGGATGCCTTGTACTTTGAGTTAACAGGAAGAGAAAACTTGCAATTTTTTGGTTCGCTTTATCAATTGAAAACCCAGCAGCTGAAAGAAAGGATAAAGTATGTGGCGGATTTGGTGAATCTAGAAAAAGATTTGTCCAAAAAAGTCTCTACCTATTCTGGTGGGATGAAACGCCGACTATCGCTTGCTATTGCCTTCATTCAAAATCCTGATGTTCTTATTTTAGATGAACCAACTGTTGGCATTGATCCTGCATTACGGCTTAGCATTTGGAATGAATTGTTACGCCTAAAAAACGAAGAAGGAAAGACCATTATCGTGACAACGCATGTCATGGATGAAGCGGAAAAATGTGATTGTATTGCAATGATTAGGGAGGGAGCCATTATTACAACAGGTTCTCCATATGCATTAAAAAAGAATTATAGTGCAAATAATTTAGATGACGTGTTTTTGAAAGCGGGGCGAATGTAG MQHAVSVKNVSKRYRKNNVLRQVDLMIGEGSVYGLIGPSGAGKTTLVKMVVGMEVPDQGEIHVLGQSMPNLSLMQRIGYMAQSDALYFELTGRENLQFFGSLYQLKTQQLKERIKYVADLVNLEKDLSKKVSTYSGGMKRRLSLAIAFIQNPDVLILDEPTVGIDPALRLSIWNELLRLKNEEGKTIIVTTHVMDEAEKCDCIAMIREGAIITTGSPYALKKNYSANNLDDVFLKAGRM PGPT0006725_25722 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02342 774 budC Diacetyl reductase [(S)-acetoin forming] ATGGAAAAAGTAGCCGTAGTTACAGGATCCGCAGAAGGCTTAGGAAAAGGGATTGCTCATCGTTTATGTAAAGATGGGTTTAAAGTAGTCGTTCATGACATTAATGAACCAATGCTAAACCAAACAGTAAAAGAGTTTAAAGAAAAAGGTTTTGACGTCCATGGCGTTGTTGGTAATGTTGCCAAACGAGAAGACCAGTTTAATGTAGTGAAAGAAACAGTAGCACATTTCGGTCGTTTAGATGTATTCATAAATAACGCTGGCGTTGACGCAATTACACCTTTCTTACAAGTTGAAGAAGAAGAGCTAAATCGCTCATTCCAAATCAATGTAAATGGTACTGTATTCGGTACACAAGCTGCTGCCGAACAATTTATAAAACAGGAAACAAAAGGGAAAGTAATTAACGCATGTAGCATTGCTGGCCATGAATCATATGAAATGCTAAGTACTTATTCCGCTACAAAGCATGCTGTAAGATCTTTTACCCATTCATCAGCCAAAGAGTTAGCTAAACACCAAATCACAGTGAATGCATACTGCCCTGGTATAGCAAAAACAAGAATGTGGGATAGAATTGATGAAGAAATGGTAAAACATAGCGATAACTTAAAACCAGGTGAAGCTTTTGAACAATATTCTTCTGCTATCGCTTTACAACGTTATCAAACTCCAGAAGATGTTGCTAACTTAGTTTCATTCCTAGCTTCCGATGATGCAGATTACATTACAGGTCAAACGATTCTAACGGATGGTGGCCTTGTTTATAGATAA MEKVAVVTGSAEGLGKGIAHRLCKDGFKVVVHDINEPMLNQTVKEFKEKGFDVHGVVGNVAKREDQFNVVKETVAHFGRLDVFINNAGVDAITPFLQVEEEELNRSFQINVNGTVFGTQAAAEQFIKQETKGKVINACSIAGHESYEMLSTYSATKHAVRSFTHSSAKELAKHQITVNAYCPGIAKTRMWDRIDEEMVKHSDNLKPGEAFEQYSSAIALQRYQTPEDVANLVSFLASDDADYITGQTILTDGGLVYR PGPT0008195_771 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008195-butA|ydjL|budC-K03366 NA NA AK015_02343 744 hypothetical protein ATGAGTACCTTTAGAACTATGCTTAAAACAGAATTAAAACTTTCGCTAAGAGGAATGGATATGTTCATTTTTGCTATTTGTATGCCGCTAATCGTGTTAGTCATCCTAGGTATTATCTATGAAGACAACCCTGCTTTTCATGGAGCAGATTATACTTTTTTACAGCAGTCCTTTGGAGCGCTTGTTACCATTTCCATTTTGACTGGTGGAGTCATGGGTCTTCCATTAGTAATATCTGAATACCGCAGTAAAAAAATACTGAAACGTTTTAAAGTAACCCCCGTTACACCTGTGATGATTCTGTTCGTACAATTAGTCATTTATGCATTATATGCCGTCGCGTCACTTCTGCTTCTTTATCTTGTTGCCGTATTATTTTTCAATTTCCAATTGGTAGGATCGTGGTTTTATTTTTTGGGTGGTTATTTTTTAGTTATGCTATCTATTTTTAGTATCGGCATGATGGTTGGTGGTCTCGCACCTAATACAAAAACAGCTAGTGTATTAGCCATTTTATTGTATTTTCCTATGCTTATTTTTTCGGGTGCAACATTGCCTTATGAAGTTATGCCAGAGGCACTTCAAAGAGTGGCTGATATAATGCCGATGACGCAGGGGATTAAGCTAATAAAAGCGGCCTCTCTTGGAATGGAAATGGACCATGTATTACTTCCAATCATGGTAATGGCGATTGTTGCAGTAATATGTACAGTGCTTTCTATCAAATTTTTTAAGTGGGAATAA MSTFRTMLKTELKLSLRGMDMFIFAICMPLIVLVILGIIYEDNPAFHGADYTFLQQSFGALVTISILTGGVMGLPLVISEYRSKKILKRFKVTPVTPVMILFVQLVIYALYAVASLLLLYLVAVLFFNFQLVGSWFYFLGGYFLVMLSIFSIGMMVGGLAPNTKTASVLAILLYFPMLIFSGATLPYEVMPEALQRVADIMPMTQGIKLIKAASLGMEMDHVLLPIMVMAIVAVICTVLSIKFFKWE PGPT0006730_22400 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_02344 738 lnrL_2 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGTCTATGCAAGACGTTATTCGTGTGGAGCACCTATCGAAGTCTTTTAATGGGCTACCAGTAATAAAAAATTTGAGTCTTTCCATAAAAAGGGGAGCGGTATTTGGCTTACTTGGTGCAAATGGTGCGGGAAAAAGCACAACGATTGAATGTATGCTAGGTACCAAAAAAGCAGATAGTGGAAGAGTTACTATTTTAGGGAAAAACCCATGGAAAGAAAGAAAACAATTGTTTCAAAGAGTAGGGGTGCAATTTCAGGAAGCAAATTATCAAGAAAAAATAACAGTCCAAGAATTATGCGAAGTAACGCAATCTTTTTATAAGAAAACGGATAATTATAAAAAATTATTGGAGCAATTTGGTATTTTTGATAAGCGTAAAAATCTTGTTAGCGAGCTTTCGGGAGGGCAGCGTCAAAGGCTATTCATTGTTCTTGCTCTTATCCCTCAACCAGAAGTTGTTTTTTTGGATGAATTAACAACTGGGCTTGATGCAAGAGCAAGACGAGATGTATGGAAAATTCTTACTAGTTTAAAGAAAAAGGGGCTAACCATTTTCTTAACCTCACATTTTATGGATGAAGTGGAAAATCTCTGTGATGGCATTTGCATTTTGAGGAAAGGGCAGATGGTGTTTCATGGAACAGTTGAAGACGCTATAGCTTCAAGTCCTTTTGATAAATTTGAAGATACTTATTTATGGTATACAGAGGAGGAAATGGGAAATGAGTACCTTTAG MSMQDVIRVEHLSKSFNGLPVIKNLSLSIKRGAVFGLLGANGAGKSTTIECMLGTKKADSGRVTILGKNPWKERKQLFQRVGVQFQEANYQEKITVQELCEVTQSFYKKTDNYKKLLEQFGIFDKRKNLVSELSGGQRQRLFIVLALIPQPEVVFLDELTTGLDARARRDVWKILTSLKKKGLTIFLTSHFMDEVENLCDGICILRKGQMVFHGTVEDAIASSPFDKFEDTYLWYTEEEMGNEYL PGPT0006725_24282 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02345 744 racA Chromosome-anchoring protein RacA ATGTATACGTATAAAACCTCGCAAATTGCTGAATTAATTGGAATTCATCCTAATACAGTACGACTATATGAAGATTTAGGTCTTATTCCAAAACCTAAACGTCAAGTAAATGGCTATCGTATTTTTACGGATCATCACGTAGAACAATTCAGACTTGCCCGACGAGCCTTCCAAATCGAAGTGTTACAAAATGGACTAAGGAAAAAAATGGTCAAGATGGTCAAGACAGCAGCGTTAGGTGATTATGATAAGGCTCTTCAGCTTACCCAGGAATACATAGAACAATTACAAGAAGAACGAAATAATGCAGAAGAAGCTATACGCATTGTGAAAAGGCTTCTATACGGTGAACCAACCCAAAACAAACGGCATATGAAACGAAAAGAGGTTTCTGAATATCTTCATATTTCTATGGATACACTTAGAAATTGGGAGATGAATGGTCTCCTATCTGTGAAACGTAAGAAAAACGGTTATCGCATTTATAGAGATGAAGATATTCGGCAGTTGAAAATTATTCGCTCTCTTCGATGTGCAAATTATTCTCTTGAGTCCATTTTACGCATGCTCCATGCCGTGTCTTTAAATCCTAATACAAATTTAAAAAAAGTACTTAATACGCCTACGAATCAGGAAGATATTATTTCAGTATGCGATAAGTTAATAGACTCATTGAACAAAGCTGAAAGCAACGCGCAAATCATGATTAATCAACTGCAATATATGAAAAATAGATTTTGTTAA MYTYKTSQIAELIGIHPNTVRLYEDLGLIPKPKRQVNGYRIFTDHHVEQFRLARRAFQIEVLQNGLRKKMVKMVKTAALGDYDKALQLTQEYIEQLQEERNNAEEAIRIVKRLLYGEPTQNKRHMKRKEVSEYLHISMDTLRNWEMNGLLSVKRKKNGYRIYRDEDIRQLKIIRSLRCANYSLESILRMLHAVSLNPNTNLKKVLNTPTNQEDIISVCDKLIDSLNKAESNAQIMINQLQYMKNRFC NA NA NA NA NA AK015_02346 996 ppsC Phthiocerol synthesis polyketide synthase type I PpsC TTGCAAGCTACATGTGTGAAATTCTGTGAGTTTGGAGCACCAACTAGAGTGTTACAAGTTGGAAACCAATATTTATCGCCACCAGCAGCCGATGAGGTGCTCGTTCGAATGCTAGCACGTCCAATCAATCCTTCTGATCTTATTCCTATTAGAGGATCTTATGCACATCGTATTTCTTTGCCTAATATTCCTGGATATGAAGGTGTTGGCATCATTGAAGAAGTTGGTGAAGCGGTTTCTAAACAGCTTGTCGGCATGCGAGTCCTTCCTTTACGTGGAGAAGGAACTTGGCAGGAATTTGTGCAAACAAAAAAGGAGTATGTGGTTCCAATTCCTGATGCTATTCCTAATTATATAGCCTGTCAGTTATATATAAACCCGATAACAGCCTGGGTGATTTGTACAGAAGTATTACGCTTAAAAGAAGGGGACGTGCTACTTGTTAATGCAGCTGGTTCTTCTATTGGTAGGATTATGGCACAATTATCTAGGTTAATCGGCATTGAGATGATTGCAGTATTACGAAATGATCATCATAAAAAGGAGCTACAACGATTAGGCGCTGCGCATGTAATTCATTCGACAAATACAACGAAATCCATCTATCATAATGTGATGGAGATCACCAATGGAAATGGTGTAGCAGCTGCAATTGATGCTGTAGGAGGCTTTTCTGGAACAGAGCTAGCTTTGTGTGTACAACCTGATGGTGATTTTTTAACACTTGGTTTGTTATCAGGAGTTCCTGTTGATTGGAAGTTGATTTCGACACAAGTAAAGGTTAATGCGCGTTTATTTCATTTAAGACATTGGAATAAGCAAGTTTCTACACATGATTGGCAAAAAGCCTTCAAACAAATAATTCAATTCATCGTCGAAGGAAAAGTAACTTTGATGAAGCATGCGGCAACTTATCCTTTATTTGAGGTTAAAGAAGCTGTGCAATGTGCTGAAACAGCTCAACCCAATATGGGGAAGGTTATTTTAATAAATTAA MQATCVKFCEFGAPTRVLQVGNQYLSPPAADEVLVRMLARPINPSDLIPIRGSYAHRISLPNIPGYEGVGIIEEVGEAVSKQLVGMRVLPLRGEGTWQEFVQTKKEYVVPIPDAIPNYIACQLYINPITAWVICTEVLRLKEGDVLLVNAAGSSIGRIMAQLSRLIGIEMIAVLRNDHHKKELQRLGAAHVIHSTNTTKSIYHNVMEITNGNGVAAAIDAVGGFSGTELALCVQPDGDFLTLGLLSGVPVDWKLISTQVKVNARLFHLRHWNKQVSTHDWQKAFKQIIQFIVEGKVTLMKHAATYPLFEVKEAVQCAETAQPNMGKVILIN NA NA NA NA NA AK015_02347 858 hypothetical protein ATGGAAACAGTAGCGAACCCTACGTATATGAAGCGAAAGAGAAATGGACGTATTTCTATTAAAGCTGGAAGTAAATCGGAACGCGTTATCCGTCTGACAATGATGTTGCTTTTTGTTTTAACCGTTACTGCATTTCTGCTTTTTGATTACACAGGGTTGGAGTTATGGACCGCCATTGTAGAAACGGGACAAAACTTAAAAGTGATGTTTTTTGAACCAGCGCTAAATCATTTTACTTGGGCAGAAGCGCTTTATCAAGTTGGGGTTACCCTTGGTCTTGCTGTTTTGTCTACGATTATTGGTGCTGTTATTGCGTTCTTTTTAGCGCTTATGGCTGCAACTAATTTATCGAAGGAATGGGTGACGAAGGTTGTTCGTGTTATTGTCGCCTTTATTCGAGCGGTTCCAACTGTATTATGGGTACTTATTTTCGCCATTGCTGCTGGACTCGGAAGTGAAGCTGCCGTTTTAGGAATGTTGTTTCATTCCATTGCGTATCTTGTAAAAGCTTTTTCAGAGGCGTTTGAAGAAGTGGATAAAGGTATTTTAGAAGCATTAAGAGCGACAGGTTCAAGCTGGTGGCATGTTGTAATACACGGCATTATGCCTTCCACGTTTACATATATATTATCTTGGACTTTCCTCCGCTTTGAAATCAATTTTGCTGTCGCAGTTGCTATGGGAGCTGCTGCCGGAGCTGGCGGTATCGGCTTTGAATTATTTATGGCTTCAGGATTCTATTTTGATCTTAGCGAAGTTGGATTTATTACATACGCTATCCTGATCATTGCGATTATTTTAGAAGTGTTTTCCACACAATTAAAAAATCGCTATTTCCCATCTAGCGTAAGGAAGTAA METVANPTYMKRKRNGRISIKAGSKSERVIRLTMMLLFVLTVTAFLLFDYTGLELWTAIVETGQNLKVMFFEPALNHFTWAEALYQVGVTLGLAVLSTIIGAVIAFFLALMAATNLSKEWVTKVVRVIVAFIRAVPTVLWVLIFAIAAGLGSEAAVLGMLFHSIAYLVKAFSEAFEEVDKGILEALRATGSSWWHVVIHGIMPSTFTYILSWTFLRFEINFAVAVAMGAAAGAGGIGFELFMASGFYFDLSEVGFITYAILIIAIILEVFSTQLKNRYFPSSVRK PGPT0002530_1263 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK015_02348 786 hypothetical protein GTGAGTGAAAAGGTAATGCAAAAACGAAAATGGCAAATGACGATAGCATTAATCATTATTATTGCCATTACGTATTTATCTGCAGCAATAACGAAATTTAATTTCATAGATGGGTTAGTAGCTTTTCCAGAAGCAATTGGTTGGATGTTTTCGAATCTACTTATAACGCAAGAATCGTTAGAGAAGCTACCGACTGTTTTAGATAAGCTTGTGGAGACCATTTTCATGTCAATTGCAGCAACGACAACGGCTGCAGTTGTTTCCATTTTCCTTGGTATTATGGGATCAAAAACAACGAGCATCAATGGCTTTTTAAGTACATTTGCCCGGTTTATTGCTTCCGTATCACGTAATATACCTGTTGTTGCTTGGGCGCTTATTTTATTACTTTCCTTTGGTCAAAATTCATTAACGGGGTATTTAGCGTTATTTGTAGGAACAGTTGGCTTTTTAACGAGAGCTTTTATTGAGTCCATTGATGAAGCAAGTCATAGTGCGGTGGAGGCTTTAACAGCTACAGGTGCCACTTATTTTCATATTGTAAATAAAGCCGTCATCCCACAAAGCTTACCGCAAATGATCAGTTGGATATTATTTATGATTGAAACGAATATTCGTAGTGCCACCTTAGTAGGTATTTTAACAGGGACAGGTATTGGCTATACATTTGATATGTATTATAAATCGATGAATTACAATGTCGTTGCTCTCGTTACCTTTAGCATTGTAATCGCCGTAATTATCATTGAGTTGATGTCAAACTATATACGGAAGGTGATTATGTAA MSEKVMQKRKWQMTIALIIIIAITYLSAAITKFNFIDGLVAFPEAIGWMFSNLLITQESLEKLPTVLDKLVETIFMSIAATTTAAVVSIFLGIMGSKTTSINGFLSTFARFIASVSRNIPVVAWALILLLSFGQNSLTGYLALFVGTVGFLTRAFIESIDEASHSAVEALTATGATYFHIVNKAVIPQSLPQMISWILFMIETNIRSATLVGILTGTGIGYTFDMYYKSMNYNVVALVTFSIVIAVIIIELMSNYIRKVIM PGPT0002530_2901 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK015_02349 765 glnQ_2 Glutamine transport ATP-binding protein GlnQ ATGGCACTTTTACAAATTGCAAGACTAAGTAAGTCGTACGATAACGAGACGAAGGTATTAAAAGATATTTCTTTTACCGTAAAAGCTGGAGAATTTGTTTCTATTATCGGTCCATCTGGTGCAGGGAAATCTACTTTATTACGTTGTGTGAATCAAATGGTACCTATTAGTAGCGGGGAAGTGATCTTTGATAATGCTCCTGTGACACAATTGAACAAACGTGCACTACGCCAATTGCGTACAAACATTGGAATGGTGTTTCAACATTATAATTTAGTTCCACGTTTAACAGTAATTGAAAATGTGCTGCATGGACGCTTAGGCTATAAGACGACTTTGCAAGGCATAATGAGCCGTTTTACAGAAAAAGAAAAAGAGCAAGCTTTTTATCTGCTTCGCAAGCTTGGCATTGAAGAACATGCGTATAAGCGTTGTGATCAGTTAAGTGGAGGACAGCAGCAACGAGTTGGCATTGCCCGTGCATTGATTCAAGGTCCGAAACTTGTCCTTTGTGATGAGCCGATTGCGTCACTTGATCCAAACTCTTCTAAAATTATTATGGATCATTTAAAGTCCATTACTTCCGAGCTAGGCATCACTTGTCTTGTCAATTTGCATCAAGTGGAAGTCGCACAACAATATTCAGATCGCATTATCGGTCTAAATCAGGGAGAAGTTGTATTTGATGGAACCAATTATCAGCTGACCGAGGAGAAAACGAATCGTATTTATGGAACGGAAATGCGAGAATTAATAACAGTGTGA MALLQIARLSKSYDNETKVLKDISFTVKAGEFVSIIGPSGAGKSTLLRCVNQMVPISSGEVIFDNAPVTQLNKRALRQLRTNIGMVFQHYNLVPRLTVIENVLHGRLGYKTTLQGIMSRFTEKEKEQAFYLLRKLGIEEHAYKRCDQLSGGQQQRVGIARALIQGPKLVLCDEPIASLDPNSSKIIMDHLKSITSELGITCLVNLHQVEVAQQYSDRIIGLNQGEVVFDGTNYQLTEEKTNRIYGTEMRELITV PGPT0002520_1692 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041 NA NA AK015_02350 1044 phnD COG3221 Phosphate-import protein PhnD ATGAAAAAGACGTTAACTAGATTTGGTGTTTTGCTTTTATTAGCTATATTTGCTGTTGGTTGTTCGGAAGGAAACGCTAGTACGGAAGAGGGAAAAGCAGAAGTAGATGATGTGATTGATGTTGTATGGTATCCAAATGAGTCAGGAGAAGATTTGAAATCCTCTCGTGATGAAATTGGCAAAGTAATTGCTGATGCTACTGGAAAAGAAGTAGAGCACCACTTAACAACAGATTATGCGATTGCAATTGAGACGTTAGTGAATAATAACGCGGATGTAGCATTCATGGGTGCACAAGGTTATATTGAAGCGAATGAAAATAACGATGCAGTGCAGCCTATCGTCGTTCCAACTGGTCCTTCTGGTACGTTAGACGATGCTGTTTACCATAGCTGGTTAGCTGTTAATGTGGATGATCAAGAAAATTATAAACAAGATGGTGAATATTCTCTAGATACAATAGCAGATAAGAAATTTTCTTTCGTTTCTAACAGCTCCACTTCTGGTTTTAAAGTACCATCAGCTGGGATTCTTTCCCACTTCACAGAGCAAGAGGAGTACAAAGATTTAACCGAAGAAGATTTAATGGAAGGTGGCCCTCTATTCTCACAAGTACTGTTTGGTAACTCCCACCAAGGTTCGGCAGTCAATTTATTAGATGGGAATGCCGATGTAGCAGCGTTTTGTGATACATGTGTAGAAAACTATGTAGAAGTAGCTGAAGGAGAAGAAAATGAAGTCGGCTCTATTTATAAAGTGAAAGACGACGCAGAACAACCTTTTAATAAAGTAGTAGGAAAAGAATTTACGTTAATGAGTGTAACACCAGTGCTTAATGCGCCATTTGCCGCAAATATGGATACATTAGGTGAAGAAGATTTTAAAAAGCTTCAAGAAGCATTGACCTCCGATGAAGTTGCGAGTAATGAAGGTATTTTTGTTCCAGAAGACGCTGAGCAATCGGCATTATTCTTTAAAACAGATAAAGAACGCTTTGCACCAGCAGAAGATGATTGGTTTGACCCTATTCGTGAACTTCAATAA MKKTLTRFGVLLLLAIFAVGCSEGNASTEEGKAEVDDVIDVVWYPNESGEDLKSSRDEIGKVIADATGKEVEHHLTTDYAIAIETLVNNNADVAFMGAQGYIEANENNDAVQPIVVPTGPSGTLDDAVYHSWLAVNVDDQENYKQDGEYSLDTIADKKFSFVSNSSTSGFKVPSAGILSHFTEQEEYKDLTEEDLMEGGPLFSQVLFGNSHQGSAVNLLDGNADVAAFCDTCVENYVEVAEGEENEVGSIYKVKDDAEQPFNKVVGKEFTLMSVTPVLNAPFAANMDTLGEEDFKKLQEALTSDEVASNEGIFVPEDAEQSALFFKTDKERFAPAEDDWFDPIRELQ PGPT0002525_294 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044 NA NA AK015_02351 816 phnPP COG0613 Phosphoribosyl 1,2-cyclic phosphate 1,2-diphosphodiesterase ATGAAAGCTGACCTGCATGTGCATAGCACGTATTCCGATGGCTCGGATCACGTAGAAAGGGTGTTGGAGCAGGCAGCGAAAAATGGCGTTTCGCAAATGAGTTTTGTGGATCACGATAGCATCGATGGTTTAAACGAAAAACAAGCTTTAGGGAATACATATGGCATTGAAGTCATTCCCGGAATTGAAATCTCAGCCTATGATTTTAAACGAGATCGTAAAGTGCATATCCTTGGCTATGATTTTTACCAAGATGCCAAGAACATGGAAGTACTCTGTAAAACGGTGCGCAATAGAAGGCAGGCGCATACACTTTGGCAAATCGAGCAGATAAATCAACAGGCATATCAAATTGACCCGCAAACCGTGATCGAAATAGCACGACCGAGTAGAACGATTTACAAGCAGCATGTGATGCAGCAAATCACATCAGCCGCTTATGAATCTGAGCCTTATCAAGCGTTATACCGCAAACTTTTTAAAGGGAAAGGTCCAGCATCTGGTGATATCGAATATGTAGACGCGTTTCTTGCTGTAGAAGCAATTATAGCTGACGGTGGTATCGCTGTTGTTGCCCATCCTGGGCAACTCGATTCTTATGAGCTTATCCCCGAACTTGTCGAGGTTGGCTTGGGCGGTATTGAACGCAATCATCCTGATCACACAGCAGAAGACCACCAACGCATTGAACATTTAGCGCACACATATGATTTGATCATGACTGGCGGGACGGACTATCATGGTAGTTTTGGCATGCCGATAGAGGTAGGGGAAATTACAAGTCCTTCTTTTCTGAGTCGTACGTTAATAGATTGA MKADLHVHSTYSDGSDHVERVLEQAAKNGVSQMSFVDHDSIDGLNEKQALGNTYGIEVIPGIEISAYDFKRDRKVHILGYDFYQDAKNMEVLCKTVRNRRQAHTLWQIEQINQQAYQIDPQTVIEIARPSRTIYKQHVMQQITSAAYESEPYQALYRKLFKGKGPASGDIEYVDAFLAVEAIIADGGIAVVAHPGQLDSYELIPELVEVGLGGIERNHPDHTAEDHQRIEHLAHTYDLIMTGGTDYHGSFGMPIEVGEITSPSFLSRTLID NA NA NA NA NA AK015_02352 723 phnL COG4778 Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnL ATGGCAATGCTGCAAGTAAAAGATTTTGGCAAACGATTTACAATTCATCACTTGGGAAAAACGAGGCAAGCAGTGGAACATATTCATTTTTCACTGGAGCAGGGAGAATTTCTTGGGATTGTTGGTAAAAGTGGTAGTGGTAAGTCAACGATCTTAAAAAGCATATATCGTACTTACCGTCCTGATGAGGGAAGCATAATTTATAATTCGGCATGCTATGGGTTCATTGATTTAACGAATGCAACAGAGCGAGAAATTCTTTACTTACGTAAGCATGAAATCGGCTATGTGTCGCAATTTTTAAATGTAATGCCACGGACAACATCAAGGGAGCTTGTGGAGAAAGCATTATTGGAAATGGGAGCAACAGAACAGGCAGCTAAAATAGAAGCAGAAAAGGCGTTAACGCATTTTGAGCTAGATCCAAAACTTTGGGACCATTATCCAAATACATTTTCTGGCGGAGAAAAACTGCGGCTGAATATTGCCATGGCAACCGTGAAGAAGCCTCGCTTGTTATTACTTGATGAGCCAACAGCTAGTTTGGATCAGCAATCGAAAATAAAAGTACGTGAAATCATTGAAAAATTGAAAGCAAGTGGAACGACGTTAGTTGGTATTTTTCACGACATCGAATTTATGGATGGCTTATGTGATCATGTGTTTGATATGCAATTCAGTCAAGATAAATCTGTGAAAGAAGGCGTTATTCATGAAAGCTGA MAMLQVKDFGKRFTIHHLGKTRQAVEHIHFSLEQGEFLGIVGKSGSGKSTILKSIYRTYRPDEGSIIYNSACYGFIDLTNATEREILYLRKHEIGYVSQFLNVMPRTTSRELVEKALLEMGATEQAAKIEAEKALTHFELDPKLWDHYPNTFSGGEKLRLNIAMATVKKPRLLLLDEPTASLDQQSKIKVREIIEKLKASGTTLVGIFHDIEFMDGLCDHVFDMQFSQDKSVKEGVIHES PGPT0002455_175 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002455-phnK-K05780 NA NA AK015_02353 1182 phnM COG3454 Alpha-D-ribose 1-methylphosphonate 5-triphosphate diphosphatase GTGTATGTCATTCATAATGGAAACGTCATTACCGAAGAAACAATCTTGGAAAATTATGCCGTCGTGGTAGAAGGGGATATGATTCAAGCGATCATTCCTGAAGCAGAAGTCGATAACTACGCCCATGCTGAAAAAGTAAATGCCAATGGGGGTTTTATTTCTCCAGGATTTATTGATATTCATTCCGATTATATTGAAAGTCTTGCTTCGCCAAGGCCGACCAGTATGATGGATTTTAATATTAGTTTAAGAGAAGCAGAGAAGATTTTGGTTGGGCATGGTATTACAACGATGTTCCACTCGCTATCGTTTTATAGAGAAGATGCGTTTGACCATAAACCCATCCGACAGCCTGAAAATGTCCAACGCATGGTAGATGCCATTGCAAACACGCATCATGAACTACATTTAATCCGTCATCGCCTACATGCGCGGTTTGAAATTGACAATATTATGGAAGTCGATCAGTTAATCCGCAATATGGAAGCAAATAAGGTCCACTTGCTATCGTTTATGGACCATACACCTGGGCAAGGACAATACCGTGATTTAGAAGTGTATAGGGAAACATTGCAAGGCTATCGTAATTTATCTGACGAGGCTGTACAGACCATTATTCAAGAACGACAAAACGTCGAGTGTATGACCATTGAACGCATGCAGGAGGTTGCCAAGTTGGCTATTTCCAAAGGGATAGCAGTGGCTTCACATGATGATGATAATGTGGATAAGCTACATCTTGTGCAATCATTTGGCACAACGATTAGCGAATTTCCAATTACGATGGAAATTGCGAAAAAGGCGAAGGAACTGGGACTGAAGACAATAGCTGGTGCTCCTAACGTATTACTTGGCGGTTCGCATTCCGGAAATTTGTCAGCTGCTGAAGCAATTAAAGAAGATTGTATTGATATTTTATGCAGCGATTATTACCCGGCAGCCTTACTGCACGCTATCTTTTCTTTAAGTGATAACGACGGAAATGATTTGCATGACATGTTTATGAAAGTAACGTTGAATCCTGCTAAAGCTGTACGAATGGATAATGAAATTGGTTCCATTAAACCGGGGAAAAAAGCAGATATGCTAGTGATTGAACGAATGGATGATGGTTATCCAATGTTAACAGCGACGATGGTAAACGGCGCCTTAATCACGACAACAAATTATCGAATGAATTAA MYVIHNGNVITEETILENYAVVVEGDMIQAIIPEAEVDNYAHAEKVNANGGFISPGFIDIHSDYIESLASPRPTSMMDFNISLREAEKILVGHGITTMFHSLSFYREDAFDHKPIRQPENVQRMVDAIANTHHELHLIRHRLHARFEIDNIMEVDQLIRNMEANKVHLLSFMDHTPGQGQYRDLEVYRETLQGYRNLSDEAVQTIIQERQNVECMTIERMQEVAKLAISKGIAVASHDDDNVDKLHLVQSFGTTISEFPITMEIAKKAKELGLKTIAGAPNVLLGGSHSGNLSAAEAIKEDCIDILCSDYYPAALLHAIFSLSDNDGNDLHDMFMKVTLNPAKAVRMDNEIGSIKPGKKADMLVIERMDDGYPMLTATMVNGALITTTNYRMN PGPT0002465_207 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002465-phnM-K06162 NA NA AK015_02354 840 phnK COG4107 Putative phosphonates utilization ATP-binding protein PhnK ATGCATGAAGAACCAATATTGCAAGTTCGGAACTTAAATAAACAGTTTGGTAACGGGTGTACCCATTGTCGTAATAAAGTAGACCGACAGTTGGAGAAAAATTATTGCCCTATTTGTGGAACAGTTTATGCATGTCAGGATGTATCTTTGGACTTGTTTCCAGGAGAAATACTTGGCATTGTTGGCGAAAGTGGTAGTGGGAAATCAACAATGATGCAATGCCTTTACTTTGATGCGCCCGTTACTTCTGGGGAAGCTTTTATCTATAATGGCGAATTAAATGGGCAAAATGTCTTTCAATTATCCCCACAGAAGCAACGGTATATTCGTAATCATAAATACGGAATGGTCTATCAAAATCCAGTCAATGGGTTGAAGATGAACTTTTCTTCAATTGGAAATATTGCCGAAAAACTGATTGCAGCGGGAAATCGTCATGTCTCATCCATGGAAAGTACGGGAAACAAACTGCTTGAACATGTGCAAATTCCGTTGTTTCGCTCGAAGGAAGAGCCGCAAAACTTTTCTGGAGGAATGCAACAGCGGGTGCAAATAGCAAAAGCATTATCGAATAATCCGCCGATTCTATTTTTAGATGAAGTAACGACAGGGCTTGATTTGTCTGTACAGGCAAATGTGCTTGATTTGATTAAACAGATTCAGAGAGAGTGGGGAATTAGTATGATTGTCGTTTCCCATGATCTGGCTGTTATTCGGATGCTAGCAGATCGAACGATGGTGATGCTGAATGGTTCCGTCATTGAAGAAGGGTTAACGGATCAAATCTTAGAAGATCCACAACATGCTTATACGCAACGTTTAGTTTACTCGTTATTATAG MHEEPILQVRNLNKQFGNGCTHCRNKVDRQLEKNYCPICGTVYACQDVSLDLFPGEILGIVGESGSGKSTMMQCLYFDAPVTSGEAFIYNGELNGQNVFQLSPQKQRYIRNHKYGMVYQNPVNGLKMNFSSIGNIAEKLIAAGNRHVSSMESTGNKLLEHVQIPLFRSKEEPQNFSGGMQQRVQIAKALSNNPPILFLDEVTTGLDLSVQANVLDLIKQIQREWGISMIVVSHDLAVIRMLADRTMVMLNGSVIEEGLTDQILEDPQHAYTQRLVYSLL PGPT0002460_53 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002460-phnL-K05781 NA NA AK015_02355 867 phnJ COG3627 Alpha-D-ribose 1-methylphosphonate 5-phosphate C-P lyase ATGAAGAATAAAACACATTTTGCGTTTTTTGATGAAGGGTCAAAGAAGGAAATTCGCCGCACGACGTTAAAAGCAGTCGCGATCCCTGGCTATCAAGTCCCATTCGCTTCAAGAGAAATGCCAATTGCAAGAGGTTGGGGAACAGGTGGATTACAGTTAACGTTATCGTTAATTGGTAGAGAAGATAGTTTAAAAGTAATTGACCAAGGTGCAGATGAGTCAGTGAATGCCGTTAGTATAAAAAAGTTAGTCCAACAAACTACCGGTGTGGAACTAACCGACCAGACAGAGGACGCTTCCTTAATCCAATCCAGACATCGGATTCCAGAAGTTCCACTAACCGAGGAGCAAATTTTAGTATTACAAGTCCCAACGCCAGAACCGTTACGTGATGTAGAAGCTAGTGAGTATGTAACCAAACGATTACATGCAGAAGAAGAATATAGCGGCGCGTGGCTCTTATTATTTGAGCAAATTATGAAATACGGTAAAACAGCAACAGGTGCCGATCATCCTGTCTATGTAAATGGACGCTACGTGATGGCGCCAAGTCCCATCCCAAGGTTCGATAATCCGAAAATGCATACATCGAAAGCTTTGATTTTGTTAGGGGCAGGAAGAGAGAAGAAAATCTATGCTGTGCCACCTTATACGGATGTAGCGTCACTTGCTTTTGAAGATTATCCGTTTACCGTGGAAACATTTTCAGATCAGGCATGTCATTTATGCGGTGCAAATGATGTGTTCCTTGATGAATTGGTCGATGAAACAACAGGAAAAGCTTATTATCAGTGTAATGATACGAGCTACTGTATAGATAGATTGAACAGCCAAGAGCAAGTGGAGGTGGAACATCATCATGCATGA MKNKTHFAFFDEGSKKEIRRTTLKAVAIPGYQVPFASREMPIARGWGTGGLQLTLSLIGREDSLKVIDQGADESVNAVSIKKLVQQTTGVELTDQTEDASLIQSRHRIPEVPLTEEQILVLQVPTPEPLRDVEASEYVTKRLHAEEEYSGAWLLLFEQIMKYGKTATGADHPVYVNGRYVMAPSPIPRFDNPKMHTSKALILLGAGREKKIYAVPPYTDVASLAFEDYPFTVETFSDQACHLCGANDVFLDELVDETTGKAYYQCNDTSYCIDRLNSQEQVEVEHHHA PGPT0002450_473 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002450-phnJ-K06163 NA NA AK015_02356 1119 phnI COG3626 Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnI ATGGGTTATGTAGCGGTCAAAGGTGGAACAAAGGCAATTGAAGCTTCTATTGAAAGGTTAACGTACGATCGTTTACAAGAAAGAGAAGTTGTTGAAGTGAAAACGATCATGGCAACAATGCGTGCCCTTGTCGATCAGGTAATGTCAGAAAGTAGCTTGTATTCTCCATTTCTTGCAGCGCTAGCTATTAAGCAAGCAGAAGGTAGTATGGAAGAGGCTGTATTCATTATGCGCGCACATCGTTCAACATTACCGAGACTGCATTATAGTAAGATTGTAGAATCCGAGTCTATGTGCGTAGAACGCCGTATTTCCGCCAGTTTTAAGGACATTCCTGGTGGGCAAATATTAGGCTCTACGACAGACTACACGCACCGTTTACTTGACTTTTCGTTAGCTTCAGAAACAAAGCTAGGAATTGATCAATGGATGAAAAACTATTTGGATAAACTGGAGCAAGTAGTATCTCCACACGATGAAGTATTGTTTTTTCCGAAAGTAGTCAATTATTTACGCCAAGAGGGACTATTTGGAGGTCATGAATTAGATGATACACCTCCGACGGATATTACAAAAGAAAACCTATCTTTTCCAGCTTCGCGCAGTGCTCGATTACAAACATTAACACGTGGGCAAACAGGTGCCGTGACAGCTCTTGGGTATGCCTCTTTACGCGGATACGGTCAGGTGCATCCAACGGTCGGTGAAGTCCGTGTTGGCATGCTTCCGATCTATGTCGGGCATCCGAATGAGCCTGAACAGACAGAGGAAGATAGCTATTATATTGGTGAAATCAAAGTTTCCGAAGTCGAATCGTTTGTCCCTGTCTCTGTCAAAAATGAACAAAATGAAGAGGAACTTGATTTTGAAATTGGTTACGGGGTTTGTTACGGACAAAATGAAACAAAAGCAATTGCGATGAGTATTCTTGACCAATGTTTAGAGCACCCTGAAGCTAGTTTCCCGACACATGATGAAGAGTTCGTTCTATTACATATCGATTCGGTAGAAGCAACAGGGTTCATATCGCATTTGAAACTCCCACATTATGTCACTTTCCAATCGAAGCTGGATAGTGTACGTGAGGTTAAAAGAAAGGGAGAGAGTGATGAAGAATAA MGYVAVKGGTKAIEASIERLTYDRLQEREVVEVKTIMATMRALVDQVMSESSLYSPFLAALAIKQAEGSMEEAVFIMRAHRSTLPRLHYSKIVESESMCVERRISASFKDIPGGQILGSTTDYTHRLLDFSLASETKLGIDQWMKNYLDKLEQVVSPHDEVLFFPKVVNYLRQEGLFGGHELDDTPPTDITKENLSFPASRSARLQTLTRGQTGAVTALGYASLRGYGQVHPTVGEVRVGMLPIYVGHPNEPEQTEEDSYYIGEIKVSEVESFVPVSVKNEQNEEELDFEIGYGVCYGQNETKAIAMSILDQCLEHPEASFPTHDEEFVLLHIDSVEATGFISHLKLPHYVTFQSKLDSVREVKRKGESDEE PGPT0002445_178 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002445-phnI-K06164 NA NA AK015_02357 600 hypothetical protein ATGCCGATAGATCAAGTTCATGACTTACAAAAGGTGTATCGCAAATTATTAGATCGTATGGCTCGTCCAGGAAAGCTAGCTAATTTACAAGCTTTTCAAGAGAAAGTGGACTATGAGGTAGCGTGTTATGATGCAACGTTGCTCATTGCGATGACGTTATTGGATGGAGAAGTGTCATTTCATGTGATTTCTGAGAATAAGCAGCTCGTCGAAGAAAAAATCGCTGCCTATACTTTAGCCAGACATGCATCTATGGAAGAAGCCGATTTTATTATTGTGTTACAGGACGCTACCGAGGCTTCCATTATTGAAGGAATGGCTACTTGTAAAACAGGGAATTTAGTTGATCCGCAGTATTCTGCTACATGGGTAATGGAAAGTCAAACGCCGTTGTCTAATCAGCCGCAACTACTATTAACAGGTCCTGGAATTCAGAGGCAAACAGATTTACATACAAGTTTCGTGCCAAGCATTTGGCAAGCTAGGAGTGAAGCAGTGCAAGAATATCCTTTAGGCATCGATCTTATGTTCACGGATGACATCATGCAGATTGCTTGTGTTCCTAGGACAACAACGGTTTCTGTACAGGAGGTGGAGTAG MPIDQVHDLQKVYRKLLDRMARPGKLANLQAFQEKVDYEVACYDATLLIAMTLLDGEVSFHVISENKQLVEEKIAAYTLARHASMEEADFIIVLQDATEASIIEGMATCKTGNLVDPQYSATWVMESQTPLSNQPQLLLTGPGIQRQTDLHTSFVPSIWQARSEAVQEYPLGIDLMFTDDIMQIACVPRTTTVSVQEVE PGPT0002440_334 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002440-phnH-K06165 NA NA AK015_02358 423 hypothetical protein ATGAGAAGGCGAAGAAGATCAGAGATTCTTGTGCAAGCAAATCCCAACCTGGCGGCAAGTCTGGCAAACGATATTAAGCAGACGTATACCTACAAGGAAATCGTTGCCCCAAGACATGGATTAACAATGGTGAAAATGCGGGAAAGCGCACAGAAATCCTTATTCTATATAGGTGAAGTACTCGTTACGGAAGCAAAAGTAGAAATTCAAGGGGAAATCGGCATCGGCATTATACAAGGTATGCACGATGAGGTAGCAACTCAATTAGCTATTATTGATGCAGCTTACAATGCACAGTTACCTGAAACGCTGTCTTGGACGGACACTTTAGAGGCCGCTGAAGCAGAAATAAACCGTAAAAAAATAAGACAACAAGCAGAATTAATGGAAACCAAAGTAAACTTTGAAACGATGGATGTTTAA MRRRRRSEILVQANPNLAASLANDIKQTYTYKEIVAPRHGLTMVKMRESAQKSLFYIGEVLVTEAKVEIQGEIGIGIIQGMHDEVATQLAIIDAAYNAQLPETLSWTDTLEAAEAEINRKKIRQQAELMETKVNFETMDV PGPT0002435_664 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002435-phnG-K06166 NA NA AK015_02359 726 dasR COG2188 HTH-type transcriptional repressor DasR ATGCCGATAGATAAAGAAACGCAAATTATTGACGATATAATGGAGAAAATTATTACGAAGGCGATGAAGCCTGGTGAAAAGCTTCTATCAGAAAATAAACTTGCAGATCAGTATAACGTGCCACGCATTACTGCTAGAAATGCATTAACAACATTGGAGGCTCGTGGATATATTTATTCTGTGCAAGGTAAGGGGCGTTTTTTAAAAGAAACTGCCAAACCAATTCAATTACATTTGACAGGAAACAGCAGTTTTACCGAAAAGATGCAGCGTGCTGGTTATCGATTGACAACGAAAAATATGTATTGCACAAAAATCAGCTATGATAGTAAAGTGTACGACGCGTTACGGGCTAGCAGGGAAGCAGAGATTTATAAAATTGGGCGACTTCGATTAATTGATGACGAACCGATAGCTATTCATCAATCATACGTTAATCAGCAGCAATTTCCAAACATTGCTCAAGAAGGACCGCAAATATTATCCATGTTTGCTTACTATCGGCAATTGGGATATGAAGCATTTACAAGTAAGCAGTCTTTATTAAGTATTACGTTTCCAACTTCCTATGAACAAAAATTGTTTTCATGCGGTAGTATGGTCCCTCTTATTGTACTAGAAACCGATTGCATTGATGTAGAAACACAAAAAGTATTGGAATATACGAAAATACTGTATCGTAGTGATAAATTTAAATATGATATTACAATGAATGAAAGTCGGTGA MPIDKETQIIDDIMEKIITKAMKPGEKLLSENKLADQYNVPRITARNALTTLEARGYIYSVQGKGRFLKETAKPIQLHLTGNSSFTEKMQRAGYRLTTKNMYCTKISYDSKVYDALRASREAEIYKIGRLRLIDDEPIAIHQSYVNQQQFPNIAQEGPQILSMFAYYRQLGYEAFTSKQSLLSITFPTSYEQKLFSCGSMVPLIVLETDCIDVETQKVLEYTKILYRSDKFKYDITMNESR NA NA NA NA NA AK015_02360 1647 dcuS_2 COG3290 Sensor histidine kinase DcuS ATGAAAAAACGATCTCCCATCAAACAAGGCAGAGCCATGAAGCTGCAAACCTCGATTACATTGTTAATTATTTTCATTGTTTCATTGTCTGTCATTATCATGAACGGGTTTTTTAGTAAGTATATCACAGAAAATACAAAAGATACGATTTCCCAAAGGTTATACACTATATCCCGCCTCGTTGCACAGTCTGACCTTGTGATAGAGGGTTTGCAAAACGAAAAGCAACGAGCTAACATTCAGGAATATGCGAATGAATTAAAAGCGTTATCAAATATCGGTTTTCTTGTCGTTCTAGATATGAATCTAATTCGCTTATCCCACCCTATTCCGTCTGAAGTTGGAAAATCTTTTTACAACCGAGAAGACGCTAAACCTTCACTTGGAGGAAAAGAATATACTTCCATTGAAAAGGGACCGCTCGGGCTAGGTATGCGTGTGTTTACGCCAATTAAGAATGAACAAAACAAACAAATTGGCGTAGTTGTAGCCGGATTATCAATGGATAAAGTGGAAGATCAAATTGAAGAAGGGCAGCGCATGATTTTATTAGGAGCTATTTTCCAACTCCTGCTCGGTGTAATTGGCGCCTACTTCATTAGTAAATACGTTAAAAAAATATTGTTCGGAATGGAACCTGTAGAAATTGCTCAGTTAACGAAGGAACGTGACACGATGTTAGAGTCTGTCAAAGAAGGGATTTTAGTAGTCAATCAGTCTGGTGAAATTACACGCGTTAACCAACAAGCGTTAAAACTTATGGCGTTAACAAAAGAATTGGAATTAATCGGTCGACCTGTAAGAAATTACATGCCTACATTGCAACAGACCATTCAGACAGGAATAGCTTCCGAGAATGGAGAAGCCCTCTTTTACGGAAAAAAAATATTATTAAACTGCTCTCCCATTTATATTGACGACAAAATCGTTGGCGGCATCGCTACTTTTCGGGATAAAACAGAGGTGCAGAAACTATTGGATGAGATGGTAGGAATTAAAAACTATACAGAGGCTTTACGAGCGCAATCCCATGAATTCAAGAACAAATTACATGTTATTTTAGGCATGCTTCATTTAAAAGAATATAAAGAATTAGAAACGATGATTCCTAGTATGGTAGATCAATTTGATGAAGAAGTTGGCTATATTTCGCAACGATTGAAACATCCAGCATTAGCAGGCTTTTTAATCGGAAAAATGAGTAAAGCTAGAGAAAGTAATATCACCTTTGAATTGGAAGAAAGCAGCTTTCTAAAAGAGGAATTTACTGCACCAATCGTCCATGAATTAATTACTATTTTAGGAAGTTTAATCGAAAATGGTTTTGAAGCTGTTTTAGCATCCAATAACAAACATAAAACCGTTAAACTTTTCCTTTATTCCATAGATCAAACCATTCATATTAAAATAGAAGATAATGGACCAGGAATAGCAAAGGATCATCTCGACAATCTTTTTGATAAAAAGTTTTCCACGAAAGGAGGGGATCGAGGCTATGGACTGTTTCTTACATATCAAACTGTGCAAAAACTTCAAGGCAAGATAAACGTTTCAACTAGGGCAGGAAACGGAACTGTATTTAACATTACACTAGCAATACCAATGGTGGGGGATGACAATGATCAACGTACTAATCGTAGAAGATGA MKKRSPIKQGRAMKLQTSITLLIIFIVSLSVIIMNGFFSKYITENTKDTISQRLYTISRLVAQSDLVIEGLQNEKQRANIQEYANELKALSNIGFLVVLDMNLIRLSHPIPSEVGKSFYNREDAKPSLGGKEYTSIEKGPLGLGMRVFTPIKNEQNKQIGVVVAGLSMDKVEDQIEEGQRMILLGAIFQLLLGVIGAYFISKYVKKILFGMEPVEIAQLTKERDTMLESVKEGILVVNQSGEITRVNQQALKLMALTKELELIGRPVRNYMPTLQQTIQTGIASENGEALFYGKKILLNCSPIYIDDKIVGGIATFRDKTEVQKLLDEMVGIKNYTEALRAQSHEFKNKLHVILGMLHLKEYKELETMIPSMVDQFDEEVGYISQRLKHPALAGFLIGKMSKARESNITFELEESSFLKEEFTAPIVHELITILGSLIENGFEAVLASNNKHKTVKLFLYSIDQTIHIKIEDNGPGIAKDHLDNLFDKKFSTKGGDRGYGLFLTYQTVQKLQGKINVSTRAGNGTVFNITLAIPMVGDDNDQRTNRRR PGPT0019555_14 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 AK015_02361 717 dcuR_2 COG4565 Transcriptional regulatory protein DcuR ATGATCAACGTACTAATCGTAGAAGATGATGCTATGGTATCTCATATTAACGCTATGTACTTAAAACAAATAGAAGGGTTTCACCTTGAAGGGCAGGTCACATCTGTAGCTGAAGCGAGAGACTTTATTAAACAGCAACCGATAGATCTCATTTTGCTCGATATTTATATGCCGCAACAAACAGGGCTTGAATTATTGAGCTATATTCGTAAATATGAAAAAGGCATTGATGTGATTATCATTTCAGCAGCATCGGATACGGATAGCATTCAGTATGCTTTACAAAATGGGGTGTCTGATTACATTATTAAACCTTTTCAGTTTGAGCGATTTCAGCATGCGCTCTTAAGCTATCAAGAAAAACAACGAATCGTAAAAGAAAAAAAGCAACTGAGCCAATCGGAATTAGATCAATTACTTGGAGGGGATTTGCCTGAAAGAGATATTGAACAGCCTGCGTTACCAAAAGGGTTAGCTCCAGAAACGCTGTCGCAAATATGGGATTGTACGCAAAATTTTGGCGATAAAGGATTTTCAACCGAACAATTAGCTAATAAAATTGGCATGTCACGAATTTCTATCCGTAAATATCTATCTTTTTTGAAACAGCAACATGTTATTACATCATATATTTCCTATGGCAATGTCGGACGACCATTAACCATGTATAAATGCTTGCCACATCGACAAGCTTTGATTGCAACATACTTAGAATAA MINVLIVEDDAMVSHINAMYLKQIEGFHLEGQVTSVAEARDFIKQQPIDLILLDIYMPQQTGLELLSYIRKYEKGIDVIIISAASDTDSIQYALQNGVSDYIIKPFQFERFQHALLSYQEKQRIVKEKKQLSQSELDQLLGGDLPERDIEQPALPKGLAPETLSQIWDCTQNFGDKGFSTEQLANKIGMSRISIRKYLSFLKQQHVITSYISYGNVGRPLTMYKCLPHRQALIATYLE PGPT0019560_66 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019560-malR-K11615 NA NA AK015_02362 1455 ttdT COG0471 L-tartrate/succinate antiporter ATGAACCGGAAAAATTGGATTGGTATTGGTTTAGCTTTTCTTGTCTTATTTATTATTTTATTATTACCAAACCCTGATTCACTTCCACTTGTCGGGCAAAGGGTGCTTGCAGTTTTGGCGTTTGCGGTCGTTTTGTGGGTGACAGAAGCAGTACCTTATCCGGTAAGTGCAGTAATGATTATCAGTTGGTTAGCTATCTTAGTTGGCCTATCTCCTACCATTGAAGACCCCACCATCATGTACGGGACAAAAGAAGCCTTAGGAATGGCAATTGGAGGTTTTAGCTCAACAGCTGTAGGGCTGGTTGCAGGAGCTCTATTTTTGGCGGCTGCTATGGAGATTACAGGACTACACAAGAGAATTGCGTTGTTTATTATGTCAAAAATAGGCACGAAACCAAACCGTTTAGTAATGGGAACGATTACTGTAAGCTTTGTACTTGCACTATTTGTTCCAAGTGCGACAGCGCGAGCAGGTACTATTATTCCAATATTATTAGGAATCGTTGCCGCATTTGGTTTAACAAAGCAGAGTAAGCTTGCGGCATTATTAGTTATTACTGCTGTTCAGTCCATTTCCATCTGGAATGTTGGAATTAAAACAGCTGCTGCGCAAAATATGGTAGCGTTAGGATTTATGCAATCGGAATTTGGTATGGATGTAGCTTGGGGGAAATGGTTCATGTATGCTGCTCCATGGTCAATATTGATGTCTGTCATGTTGTTTTTCGTCATGACAAAGCTGATCAAACCAGAAGAAACGAACCTTGCTGGTGGCGATAGCATTCAATCTCAGCTTCAAGCGTTAGGGAAAATGAAGCCAAATGAGTGGCGATTAATATCTATTTCCGTTGCATTGTTGTTCTTATGGTCTACGGAAGGCATCTTTCATCCGCTGGATTCCACCACAGTTACCATTATTGCTGTTGCGATCATGCTACTTCCTAAAGTAGGTATCTTTACGTGGAAAGAAGTGCAAGCAAAGATTCCTTGGGGAACGTTGGTCGTATTCGCAACCGGAATATCACTCGGAATGGTGTTATTAAGTACAGAAGCAGCTACATGGTTATCTTCTAACACATTTGAAGCAATGGGGTTAGCTGGCATGTCAATTGTAGCTATTGTAGCTATCTTAGCATTATTTAATATTCTCATTCATTTAGGATTTGCGAGTGCAACCAGTTTGGCATCTGCGTTAATCCCGATTGTTATTGCGCTAGTAACAGGCATGGAATCGACATCATTCAATGGACCTGGACTTGTGCTCATCATGCAATTCGTAATTAGTTTCGGTTTCTTACTTCCTGTGAACGCACCACAAAATATGCTTGCATATGGAACAGAAACCTTTACAGCAAAACAATTATTAAAATCTGGTATACCAATAACGGTAATCGGTTATCTTTTCATTATCTTATTTAGTGCAACGTATTGGCAATGGGTCGGATTATTGTAA MNRKNWIGIGLAFLVLFIILLLPNPDSLPLVGQRVLAVLAFAVVLWVTEAVPYPVSAVMIISWLAILVGLSPTIEDPTIMYGTKEALGMAIGGFSSTAVGLVAGALFLAAAMEITGLHKRIALFIMSKIGTKPNRLVMGTITVSFVLALFVPSATARAGTIIPILLGIVAAFGLTKQSKLAALLVITAVQSISIWNVGIKTAAAQNMVALGFMQSEFGMDVAWGKWFMYAAPWSILMSVMLFFVMTKLIKPEETNLAGGDSIQSQLQALGKMKPNEWRLISISVALLFLWSTEGIFHPLDSTTVTIIAVAIMLLPKVGIFTWKEVQAKIPWGTLVVFATGISLGMVLLSTEAATWLSSNTFEAMGLAGMSIVAIVAILALFNILIHLGFASATSLASALIPIVIALVTGMESTSFNGPGLVLIMQFVISFGFLLPVNAPQNMLAYGTETFTAKQLLKSGIPITVIGYLFIILFSATYWQWVGLL NA NA NA NA NA AK015_02363 1167 hypothetical protein ATGACAGAGGACAATATAACACGGATATATTTGAACAATAAGGAATATATTCTAATTGGAACGGCTCATGTTTCTAAACATAGTGCGGAACAAGTAAAAGAAGTAATTGAAGCCGAAAAACCAGATACAGTATGTGTAGAGCTTGATGAACAACGGTATCAATCCATCAAAGATGATAACAAGTGGAAAAACATGGATATATTTAAAGTGATAAAAGAGAAGAAAGCTTCTTTATTGTTAATGAATTTAGCGATCTCTTCTTTTCAAAAACGAATGGCAAAGCAGTTTGGTATTAACCCCGGTCAAGAAATGATTCAAGGGATTGATTCTGCACAAGAAGCAAATGCAGAACTTGTGTTAGCAGATCGTAATATACAAATCACCTTTGCAAGAATATGGAATAATATTGGATTAAAAGGAAAAGCGATGTTGTTAACGCAAGTGATTGCGAGCATTTTTAGTAAAGAGACAATTTCTGAGGAAGAATTAGAAAAAATGAAGCAACAAGACACGATTCATACGGTGTTGCAAGAGTTTACAGACACTTTCCCAAAGCTAAAGAAACCGCTCATCGATGAAAGAGATCAATATTTAGCTCAAAAAATTAAAGATGCACCCGGGGAAAAGGTCGTTGCTGTGCTTGGTGCCGCTCATGTGCCGGGGATAAAGGAACAAATACAAAAGGATCATAATTTAAATAAACTACGAGAGTTGCCTCCAAAATCAAAACTGCCTAAAATTATCGGTTGGTCAATCCCGATCCTTATTTTGGCAATTATTGCGTATACGTTTTATGCTAATCCTCAAGCTGGTTGGGAACAAACAGTAAGCTGGGTCATTTGGAATGGCGGATTATCAGCATTCGGTGCATTAATTGCGTTAGGGCATCCGCTTACTATTTTAACGGCATTACTCGTTGCTCCGATCACTTCTTTAAACCCATTACTTGCAGCGGGATGGTTTGCTGGCTTCGTGCAAGCATATGTAAGAAGACCGCATGTTCGTGATTTTGAGAATTTATCTGAAGATGTATTTACGGTTAAGGGGTTTTGGCGCAATAAAGTGACGAGGGTGTTACTTATTGTAGTACTAGCAAATCTCGGTAGCTCTTTAGGTACATTTATTGGTGGTGTTGACGTCATTCGTGTGTTTTTGGAAAATTTATAA MTEDNITRIYLNNKEYILIGTAHVSKHSAEQVKEVIEAEKPDTVCVELDEQRYQSIKDDNKWKNMDIFKVIKEKKASLLLMNLAISSFQKRMAKQFGINPGQEMIQGIDSAQEANAELVLADRNIQITFARIWNNIGLKGKAMLLTQVIASIFSKETISEEELEKMKQQDTIHTVLQEFTDTFPKLKKPLIDERDQYLAQKIKDAPGEKVVAVLGAAHVPGIKEQIQKDHNLNKLRELPPKSKLPKIIGWSIPILILAIIAYTFYANPQAGWEQTVSWVIWNGGLSAFGALIALGHPLTILTALLVAPITSLNPLLAAGWFAGFVQAYVRRPHVRDFENLSEDVFTVKGFWRNKVTRVLLIVVLANLGSSLGTFIGGVDVIRVFLENL NA NA NA NA NA AK015_02364 756 manZ_1 COG3716 PTS system mannose-specific EIID component ATGTTCCATTTATCTTCTATGAGTTTTGAAAAATTAGAAGCAAATGGTTTTGCACATTCCATGATACCGATTTTAAAGAAATTATATAAAGATGATCCAGAAGCTTATAAGCAAGCTTTGGAACGACATACGGCTTTTTACAATACCGAACCACAAGTAGGAAGTTTAGTGAATGGTGTTGTAGCATCAATTGAAGAAGAAAGGGCTAACGGCAAAGAAGTTAACGATGAGATGATTCATAGTGTCAAAACTGGATTAATGGGCCCAATTGCTGGAATGGGTGATTCAATTATTCAGGGTATTATCATTCCAATATTACTTTCTATAGGAATGGGGATTTCGGCTAATGGAAATCCGGTAGGGGTTTTTGTTTACATTGTAGGGTATCTATCTATCATTTTAACCGTATCGTATTTATTATATATGCGTGGTTATAAAATGGGAGTTCAAGCTGTTGATGAATTATTAGGAGCCAACTCAGAAAGATTAAGAAGCGCATTCACTTTACTGGGTGTCATGGTGGTAGGTGGTTTAGCTGCCTCTTTTGTAAAATTAAATACCATTTTACAGATTCCAAATGGTGAGGAAGTATTAGAATTCCAAAAAACGCTAGATGGATTTTTCCCTAAGTTGTTACCTCTTATTGCCGTTTTGGTTTGCTGGTATTTGATCTCTAAGAGAAAATGGAGTGCAACAAAAGTACTGTTATTTTTAATCGTAATATCCATCGTTGGTGTGTTGTTGAATGTATTTTAG MFHLSSMSFEKLEANGFAHSMIPILKKLYKDDPEAYKQALERHTAFYNTEPQVGSLVNGVVASIEEERANGKEVNDEMIHSVKTGLMGPIAGMGDSIIQGIIIPILLSIGMGISANGNPVGVFVYIVGYLSIILTVSYLLYMRGYKMGVQAVDELLGANSERLRSAFTLLGVMVVGGLAASFVKLNTILQIPNGEEVLEFQKTLDGFFPKLLPLIAVLVCWYLISKRKWSATKVLLFLIVISIVGVLLNVF PGPT0017070_167 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0017070-dgaD-K17467 NA NA AK015_02365 792 sorC COG3715 PTS system sorbose-specific EIIC component ATGGATCTACTATTGTTAATCCAAGGACTGTTGATAGGTATCTTTTGTTATTTAGGGTCTGTTTCGTCTCCTTGGTTAATGGGTGTTACTGGTGGTTATTATGTATTAGGAAGACCATTAGTAGCTGGTTTGATTATTGGTCTTATTTTAGGAGATGTTACCACTGGAATTATTCTAGGTGTAGCTGTTCAGGCTGCTTTTATAGCAACCATTAGTACAGGAGGTACACAAAATTCAGAAATAACTTATGCCGCATATGGTGGGATAGCCCTTGGTCTTTTATCAAACGCAGATACTGGCGTTGCTGTTACGTTGTCAGTCGGTATTGGAACGCTAGGGTTAATCCTGCACAATTTAATGATGATTGTAAATTCAGTGTGGAATAAAAGAACGGAAAAAGCGGCCGCTGAAGGCAATGCAACCAAGATTATATATAACAACGCCGTATATCCACAATTGTTGAACTTTGTCCTTAGGGTAGTACCTATAACACTTGCTGTTTATTTTGGACAAGGATTTATAACAAGAGTTTTAGATATTATCCCAAAAGATGTAACTCAAATTATGACCGTATTGGGTGGACTACTTCCTGCTTTAGGAATAGCTTTATTAATGAATCTGCTTATAAAAGAAAACAAACAATTGATTTTCTTTCTCACAGGATTTGTCATTATCGTTTTCTTTACGGATAGTATGATTGCGCTAACAGTGTTTGGTGTATTAATAGCTTATATCGTTTTCCTTAGCTTAGGTCAATCACAAATTGAAACAGATGATGATGGGGTGATATAA MDLLLLIQGLLIGIFCYLGSVSSPWLMGVTGGYYVLGRPLVAGLIIGLILGDVTTGIILGVAVQAAFIATISTGGTQNSEITYAAYGGIALGLLSNADTGVAVTLSVGIGTLGLILHNLMMIVNSVWNKRTEKAAAEGNATKIIYNNAVYPQLLNFVLRVVPITLAVYFGQGFITRVLDIIPKDVTQIMTVLGGLLPALGIALLMNLLIKENKQLIFFLTGFVIIVFFTDSMIALTVFGVLIAYIVFLSLGQSQIETDDDGVI PGPT0016985_1006 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016985-manY-K02795 NA NA AK015_02366 486 levE_1 COG3444 PTS system fructose-specific EIIB component ATGGCAATTACATTAGTTAGGATTGATGATCGAGTTATACATGGGCAAATAGTAGCTAGATGGTCTAGATTTAAGCCTTGTAATGGAATTCTAATAGTTAATGATAGCATTGCTCAAGACCCGATCCAAAAAAAGATATTTACAAATGCAGCCCCAGCAGAAATTAAAGTTGGCGTTTTTACCGTGAATGAGAGCATAGAGAAAATTAAAAAAGCTAGAGAATCAAAAAAGAATTATTTTTTAATTGTTAAAACACCTGTAACATTGCGAGAAATTGTAGAATCAGGTGGTGATTTTGGGACTGATATTAATGTTGGCCCGATTAGTGCAATAGCTGGTGGGAAAACGGTAGCAAAAAATGTAACCATATCAGAAGAAGATAAGTCTGCTTTTGACTTTTTAGAGAATCATGGAAAGACCATTCAATTTCAGTTAATCCCCGATGAAAAAGCTGTTAAATGGTCAAAAGTTAAACAGAACTTCTAA MAITLVRIDDRVIHGQIVARWSRFKPCNGILIVNDSIAQDPIQKKIFTNAAPAEIKVGVFTVNESIEKIKKARESKKNYFLIVKTPVTLREIVESGGDFGTDINVGPISAIAGGKTVAKNVTISEEDKSAFDFLENHGKTIQFQLIPDEKAVKWSKVKQNF PGPT0017140_5 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_II,PGPT0017140-levE-K11195 NA NA AK015_02367 396 hypothetical protein GTGATAGGAGTATTAGTAACTTCTCATGGGCCTTTTTGCGAGGCTTTAATTAAAACAGGCGAAATGATTACAGGACAACAGGATAATGTCAGTCACATCTCGCTAGATGATAAAGGTGTTAGTGATTTCGCTGCGAGGCTGGAAGAGAAATTAAATGTGATGACTGAAGAATATGATGAGGTCGTTATTTTATGTGATATAAAAGGCGGAACTCCTTGTAATGAAAGCATAAAATATGCGTTAACTTATAAAAATAATCTTGCTATTATAGCAGGAGTAAATTTACCAACCTATTTAGAAATTATAAATGGTACAGGCTTTATGAAAAGCATCTCTGAATTAACAGATTTTGTGAAACAAACTTGCTTCAAAACAATTGAAATTATTGAGATATAG MIGVLVTSHGPFCEALIKTGEMITGQQDNVSHISLDDKGVSDFAARLEEKLNVMTEEYDEVVILCDIKGGTPCNESIKYALTYKNNLAIIAGVNLPTYLEIINGTGFMKSISELTDFVKQTCFKTIEIIEI PGPT0016995_1410 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016995-manXa-K02793 NA NA AK015_02368 1731 hypothetical protein ATGACTTATGATTTATATCCTCAAATTGATATGAAGGGAGGTATTGTTCTATATACTGGATATGATGAAATATGGAAAAAAGTAGATGATGCAATAAAACAAAGAAAAGCTAATGTTATTACAATAGAATGTTATCCAGGAACCTTGGAAGAAGAATTGGAGCAGTTAATAAATCAGCTAAAACCAGATCTAATCATTCACGCTGATGAAATCTTTTTATCCAGTGAGGAAATTACTGCTAAAATACAAGATCATTTAACAGACGATCGTGTATTTGGGGTTATGAGCAATCATGCTTTAGCTGACTTTATAGACGAAGAAAAATTTGATAAAACATTGGCTAAAATTAATCATGCTAGAGATAAAAAAATTGTTATATATGGAGTGGGCGCATCGTTAGTAGCTCCTTCTGATTTATTGCTTTATACAAATTTAGCAAGATGGGAAATTCAATTAAGATATAGAGCTAAGAAAGTTTGTAATTGGAAGGCCAATAACTGGGAGGAGGAAACGCTTCGTAAGGTAAAACGTGCTTACTATTTTGACTGGAGAATTGCGGACAAGTTAAAGAAGAGTCTATTTGATAAAGTTGACTTTATGTTAGATGTTAACAAAGAGAATCAGCCTAAAATGATAGCAGGACATGATTATCAGATGGCTTTGTCACAGGTGGTTCAAAGACCATTTCGCTTAGTTCCTTATTTTGATTCTGGGGTTTGGGGTGGCAAATGGATGCAAGAAAAATTTAATGTAGCAAAAGACAAAATAAATTTGGCATGGTGCTTCGATTGTGTTCCTGAAGAGAACAGTATATATCTTGGCATAAACGGAGAAAAGTTTGAAATACCCGCTAATGATATCGTTTACCAGCGTCCAGTTTCGTTACTAGGGGAAAAAGTATATGGAAGGTATGGAACAAGCTTTCCAATTCGATTTGATTATTTGGATACAATGGGTGGCGACAACTTAAGTTTGCAAGTGCATCCAAAGGTAGAATATGCTCAAGAAACATTTGGGCTGCACTATACTCAAGATGAAAGCTATTACATTTTAGAGGCTGAGGAAGATGCTGTTATATATTTAGGTGTAAAAAACGGAGTTGAAAAACAGTCTCTAGTAGATGCCTTAAAATCGTCACAGGAAGAAGGTAAGCGATTTCCGGATGAAGATTTTATTTATCGTAAAAAGATAAAGAAACATGACCATTATTCTATACCAGCTGGAACAATTCACTGTAGCGGTAAGAATAGTGTTGTTTTAGAAATTAGCTCTACCCCTAATCGTTTTACTTTTAAACTATGGGATTGGGAGAGAGTGGATTTAGATGGCAAGCCGAGACCGATTCATTTAGAGCATGGTGAGAAAAATATTGATATCTCTAGAGATGAAGACTGGGTTGAGAAGGAAGTAAGTAACCAAGTAGTTAAAATCGCAGAGGGCGATGGTTGGACAGAAGAAAAAACAGGGCTTCATATAAGAGAACCTATTGAGACCAGACGTCATTGGTTTTCATCAGAAGTGATGCATGAAACGCAAGACAGCGTCAATGTATTAACGCTTGTTGAAGGTGAGGAAATTATTGTTACAAGTGTTAATGCATCATTTGAACCTTTTGTTATTCATTACGGTGAGACATTTATTGTTCCTGAATGTGTGAAGCAGTATAAAATTTCTCCTCATGGTCCAAGTGTGGGAAGCACAGTAGGAACAATAAAAGCGTTTATTAGGTGA MTYDLYPQIDMKGGIVLYTGYDEIWKKVDDAIKQRKANVITIECYPGTLEEELEQLINQLKPDLIIHADEIFLSSEEITAKIQDHLTDDRVFGVMSNHALADFIDEEKFDKTLAKINHARDKKIVIYGVGASLVAPSDLLLYTNLARWEIQLRYRAKKVCNWKANNWEEETLRKVKRAYYFDWRIADKLKKSLFDKVDFMLDVNKENQPKMIAGHDYQMALSQVVQRPFRLVPYFDSGVWGGKWMQEKFNVAKDKINLAWCFDCVPEENSIYLGINGEKFEIPANDIVYQRPVSLLGEKVYGRYGTSFPIRFDYLDTMGGDNLSLQVHPKVEYAQETFGLHYTQDESYYILEAEEDAVIYLGVKNGVEKQSLVDALKSSQEEGKRFPDEDFIYRKKIKKHDHYSIPAGTIHCSGKNSVVLEISSTPNRFTFKLWDWERVDLDGKPRPIHLEHGEKNIDISRDEDWVEKEVSNQVVKIAEGDGWTEEKTGLHIREPIETRRHWFSSEVMHETQDSVNVLTLVEGEEIIVTSVNASFEPFVIHYGETFIVPECVKQYKISPHGPSVGSTVGTIKAFIR NA NA NA NA NA AK015_02369 714 hypothetical protein TTGGCTAGTAATGCAATCCCATTATATGTTCAAATTGCAGATCGTTTGCGAGATAATATTAAAATGGGGAAATGGAAAGAAGGGAATAAAATCCCAACCGAAGTGGAATTGTGTAAAATATATGATGTGAGTAGAATTACAATAAGAAAGGCAATCGATGAATTGGTGAAAGAAGATTTGCTTCGTCGCCAAAGAGCTAAGGGAACCTTTGTAACCGATTTCGTTGAACCTTCAGATAATTTCACCGTTGTAAAAAGCTTCACAGAAGAGATGAGAGAATTAGGTGAAAAAGCACGGACAATGGATGTCAAATTAGAGATAACCGATGCTGATAAAAAGCTTGCCATGTACTTAAACACTAATATCGGCGATAAAGTAATGATCTTAAAAAGGATACGAGGAGATTCGAAACAAGCCTTTGTTTATTCCGTATCATACTTTAAAAAGGATGAAAATTTCTCTTTAGATCCCAATGATTATTATGATTCTTTTTACTCTTACCTTCATCAACACGGAATTCAAGTGAAAGATAATAGTGAAGTTGTAGAAGCGGTTCTACCTAATTATGAAGTACGTACAGCATTAGGTATCAACAAACATGAACCTGTTTTAAAACGAACACGTTTCACTTCATGTAAACCCAAAAATTTTTATGAATACACAATAAACTACTATATCGGGAAATCCTATAAATATTACTTGGACTTTAATTAA MASNAIPLYVQIADRLRDNIKMGKWKEGNKIPTEVELCKIYDVSRITIRKAIDELVKEDLLRRQRAKGTFVTDFVEPSDNFTVVKSFTEEMRELGEKARTMDVKLEITDADKKLAMYLNTNIGDKVMILKRIRGDSKQAFVYSVSYFKKDENFSLDPNDYYDSFYSYLHQHGIQVKDNSEVVEAVLPNYEVRTALGINKHEPVLKRTRFTSCKPKNFYEYTINYYIGKSYKYYLDFN NA NA NA NA NA AK015_02370 285 hypothetical protein ATGCGGAGACAGCGTAAGGCAGCCTTCTGTTTTCCGGGCGGATACCGCTGGTGTGGTCCTGGATGCAGTGGTCCGGGTGAACCCATCAATGATGTAGATGCAATTTGCAAGGAACATGATTTGTGTTATAGACGTACTGGAGATCACTGTAAATGCGATCAAGCATTTCTTGAGCGGATGCAGTTGAAAATCGATCCTACAACTGTAAAGGGAAGGCATGCTCGTACCATGTATCATTACATGAGATACCAAAGCTTATTTACGTGTGGGTTTAGAAAAATGTAA MRRQRKAAFCFPGGYRWCGPGCSGPGEPINDVDAICKEHDLCYRRTGDHCKCDQAFLERMQLKIDPTTVKGRHARTMYHYMRYQSLFTCGFRKM NA NA NA NA NA AK015_02371 567 maa COG0110 Maltose O-acetyltransferase ATGACATCAGAAAAACAAAAAATGATTAAAGGTGAATTATACAATCCAGCTGATCCAATACTTGCCCATGATCGAGAAATTTGCCGAATGAAAACGCGGCTGTTTAATCAAACAATAGAAACGGAGCTAGCAAAACGTAAGGAGTTGTTACAAGATTTATTTGGTTCTACGGGAAATGAACTCTATATCGAGCCAACATTTCGTTGTGATTACGGGTATAACATTCATGTAGGCAATCATTTTTACGCTAATTTTGATTGTGTCATGTTAGATGTTTGTGAGATTAAGATTGGCGATAACTGTATGCTGGCTCCAGGAGTACATATTTATACAGCGACACATCCCTTAAAAGCGGATGAAAGAAATGCCGGGAAGGAGTATGGAAAGCCTGTAACAATTGGCGACAATGTTTGGATTGGTGGGCGTGCTATTATTAATCCAGGCATAAGTATTGGCACTAATGCTGTCGTTGCCTCAGGTTCAGTCGTAGTAAAAGATGTTCTCGCAAATACGGTTGTTGGTGGAAATCCAGCTAGAGTGTTAAAGCAAATGGATAATAATTCATAG MTSEKQKMIKGELYNPADPILAHDREICRMKTRLFNQTIETELAKRKELLQDLFGSTGNELYIEPTFRCDYGYNIHVGNHFYANFDCVMLDVCEIKIGDNCMLAPGVHIYTATHPLKADERNAGKEYGKPVTIGDNVWIGGRAIINPGISIGTNAVVASGSVVVKDVLANTVVGGNPARVLKQMDNNS PGPT0018611_1109 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661 NA NA AK015_02372 1014 hypothetical protein GTGGAGAATAAAGAAAATAGAACGGGACGTCTTGCATTTATTCAAGGAATAGGCATTACATTAATCATTGCTATTATAGCTAACTATGTTGCGAAACTGCCTTTTTTATCCATTATGGGTCAGCTTGTTATTGCTATTATTATAGGTATGCTATGGAAGCAGATAGTTGGTGTTCCAAGTCATCTCCAAAAAGGAGTTACATTTTCTAATAAAAAGCTACTCCGTTTCGGGATTATTTTATTAGGTATGCGACTCAACCTAGTAGATATCTATGAAGCGGGAATAAGTGTATTTATGATTGCAGCTATTTGTTTGGTATTTACTTTAATTGTTGTCTACGGATTAACAAGGTGGTTTGGAGTAGGCAAACGACTAGGGATTTTAACAGCATGTGGGACAGCGATTTGTGGTGCTGCAGCAGTGGTTGCGGTTGCACCACAAATAAAGGCAAAAGATGATGAGACAGCTGTTGGTGCAGCTACAGTTGCAGTGTTAGGAACACTGTTTACGTTAATTTACAGTGTAATTTATACGATGTTACATTTATCGCCGACTGGATACGGCATTTTTACAGGTGCTACACTGCACGAAATAGCACATGTGATAGCGGCGGCTGATGTTGCCGGAAGTGAAGCTGTAGATTTAGCTGTTATTGTTAAATTAACGAGAGTGGCATTATTAGTTCCGGTTGTGATTGTCGTAGGTTACTTGTTTCAGCGAAGCGGGGAAGAAACGGGTAAAAAAGTATCGATGTCCATTATTCCTTGGTTTATCTTAGGTTTTCTTGCAATGAGTGGATTTAATACACTTGGCATTGTATCACAATCTGTTGCGGATTTGATTGTTGCTACTGCCTATTTGCTTATTGCCATGGCGATGGCAGGTCTTGGCTTGAATGTTGATTTAAAGACGTTTCGAAGACTTGGAATGAAGTCTTTTGCAGCGGGGGTTGTTGGATCTGTTTTGCTTGTAGTATTAGGGTACTCACTCGTCATGCTATTTCAACTAAATTAA MENKENRTGRLAFIQGIGITLIIAIIANYVAKLPFLSIMGQLVIAIIIGMLWKQIVGVPSHLQKGVTFSNKKLLRFGIILLGMRLNLVDIYEAGISVFMIAAICLVFTLIVVYGLTRWFGVGKRLGILTACGTAICGAAAVVAVAPQIKAKDDETAVGAATVAVLGTLFTLIYSVIYTMLHLSPTGYGIFTGATLHEIAHVIAAADVAGSEAVDLAVIVKLTRVALLVPVVIVVGYLFQRSGEETGKKVSMSIIPWFILGFLAMSGFNTLGIVSQSVADLIVATAYLLIAMAMAGLGLNVDLKTFRRLGMKSFAAGVVGSVLLVVLGYSLVMLFQLN NA NA NA NA NA AK015_02373 894 cysL_3 COG0583 HTH-type transcriptional regulator CysL ATGTATTATGATGCTTTACGTACTTTCATTACTTTGGCAGAAGTTAAAAATTTCACCAAAACAGCGGAAGTCTTACACATATCGCAGCCGAGTGTCAGCTTACATATAAAGAATCTGGAACGTGAACTAGCAACAGAATTAGTAGTTCGTTCCCGAAAATCATTGCAACTATCACCAACAGGGGAAATCCTGTATGAACGCGCCAAACAAATTTTGAAGATTTATGAACAAACCAAACGTGATATATTAGAACAACAAGAAATCGTAAAAGGTAGGTTAAAGATAGGGGCCAGCTTTACGATCGGGGAGTATATATTGCCAGCTTTACTTGCAGATGTACATACAGCTTACCCCGAGCTTGAATTGGAAGTAGTTATTGGAAATACAGAGGAAATTGTCCAGCAAACAAAACATTTTCAGGTGGATATTGGACTTATTGAAGGACAAACGAGTGATAAAGAACTAGCTGTATGCCCGTTTATGGAAGATGAATTATGGGTTGTTGCACCTCATCAGCATAAATTAGCAAATAAGGCGGAAGTAACTACTTCAGATTTGCAAAGCCAAGCATGGATTTCCCGTGAAAAAGGGTCGGGGACACGCGAGTATTTAGAGCATGTCATTCGCTCCAACGGATTAAAAGTGAAATCCATTATTACCATTGGTAGTAATCAAGGGGTAAAGGAAAGTGTTATTAATGGGATGGGACTTTCTTTACTTTCCTACAGTGTGATTGAGCGGGATGTTCAATTAAAACAACTCGCCATTTTGCAGATGGAAGACATGCATTTCAGACGGACATTTTCCTATGTTTATTCACCTATTATGAAAAACAAGCGAAACGTAGTCACTTTTATAAATATGTTGCAACAGAAATGGCCTTATGCTAAATAA MYYDALRTFITLAEVKNFTKTAEVLHISQPSVSLHIKNLERELATELVVRSRKSLQLSPTGEILYERAKQILKIYEQTKRDILEQQEIVKGRLKIGASFTIGEYILPALLADVHTAYPELELEVVIGNTEEIVQQTKHFQVDIGLIEGQTSDKELAVCPFMEDELWVVAPHQHKLANKAEVTTSDLQSQAWISREKGSGTREYLEHVIRSNGLKVKSIITIGSNQGVKESVINGMGLSLLSYSVIERDVQLKQLAILQMEDMHFRRTFSYVYSPIMKNKRNVVTFINMLQQKWPYAK NA NA NA NA NA AK015_02374 927 hypothetical protein ATGTCAAACAAGGATCAAATGATCTGTGATTTGGAGACGGGCGTGTGCGGTGAGGTTGAAGACAAAGAAATGGAAATGATGGATTTCGACCAACCGGATAATTCAATAGATTTGTACTATGTGACGGATCCTATCTGTTCACACTGTTGGGCATTAGAACCTGTTCTTCGCAGATTTGTGAAGCAATATGGTTCGTATGTTAATGTTCGAGTTGTAATGGGAGGGTTATTGGAAAAATGGGAAGGGTTTGGCGACCATAAGAATGGCATTTCTAAGCCGGAAGATGTAGCTTTACATTGGAAAGAAGTTGGTGAGCATAGTCGAATGCCAATTGACGGTACACTTTGGTACGATAACCCTGTTCAATCTTCCTACCCTCCTTCCCGTGTGTATAAAGTCATTCAAAAACAGAGTGAAGCATTAGCGGAAGTATATCTGCGTCGAATTCGAGAAGCTGTATTTGCGTTTAATCAAACGGTTTCTGAACGCTCTGTGCTTGTTGACATTGTAAATAGAATGGGATTGGATGGAGGAACAATCGTTGATGAAGCTGGGTCTGCTCGTGCGCAACAGTTATTGAATGAAGATTTTCAGCTTGCAGCAAGGTTAGGTGTCAGAGGTTTCCCTACAATCATTATGATGAATGAAGAAAATAAAGGAGTTAAAATAGTAGGTGTTAGAGAGCTGAATAACTATATTGCTGGATTACAGAAAGTGATAGGTGTGGAGGATTTAAAAGCAGAGAGCCGACCTTCCCTACCCACTTTGTTGCAGGAGGAAAGGCTCTTATTCGCGAAGGAAGTTGAGGAAATGTATGATTTATCTCCGACTGATTTCCCTGATTTTGTAAAAAAAGAGCTGCCTACAAATCAATATCACATGAAAGAAGTTTTAGGGGAGACGTATTTATCCAGTATAGAATCATAG MSNKDQMICDLETGVCGEVEDKEMEMMDFDQPDNSIDLYYVTDPICSHCWALEPVLRRFVKQYGSYVNVRVVMGGLLEKWEGFGDHKNGISKPEDVALHWKEVGEHSRMPIDGTLWYDNPVQSSYPPSRVYKVIQKQSEALAEVYLRRIREAVFAFNQTVSERSVLVDIVNRMGLDGGTIVDEAGSARAQQLLNEDFQLAARLGVRGFPTIIMMNEENKGVKIVGVRELNNYIAGLQKVIGVEDLKAESRPSLPTLLQEERLLFAKEVEEMYDLSPTDFPDFVKKELPTNQYHMKEVLGETYLSSIES NA NA NA NA NA AK015_02375 561 hypothetical protein ATGAGTAATCCAAACACAGATCCTCGAATGCGTCGGACACGAAAATTAATTATGGATTCTTTCATCACGCTTTCTAATAAAAAAGAATTTAAAGATATCACAGTTACGGATATTACGAATGAAGCAACTATTAATCGAGCTACTTTTTATTATCATTTTGAAGATAAGTTTGATCTGTTGGAGCAGGCTTTAGAAGAGGGATTAATAACAAATATAACTTTTGATTTAAGTGATTATGAAGAAATCAATGAAGATATGATTATTAGTACTTTTATTGCTATTACTAACTTTTGGGATTCATTGGCTCACCGCTGCCAATCAGGCTATGAGGATACCATATCTCGTATCATTATAGATAAGTTAACGAACATATTTTATCCCATATTATTAAAGCAGCACTCCATTTCTGAAAGTTCCGCCTTAAAAAACACAGCCATCATGCTAAGCTGGGGTATGTATGGTGTTTCTGTTGAATGGCGAACAAACAGTCAGCAATCGAGAAAAGCATTTATTCAACCAATCATTCCTTACATTCTCCATGGGGTTAACAAAAAGCAATAA MSNPNTDPRMRRTRKLIMDSFITLSNKKEFKDITVTDITNEATINRATFYYHFEDKFDLLEQALEEGLITNITFDLSDYEEINEDMIISTFIAITNFWDSLAHRCQSGYEDTISRIIIDKLTNIFYPILLKQHSISESSALKNTAIMLSWGMYGVSVEWRTNSQQSRKAFIQPIIPYILHGVNKKQ NA NA NA NA NA AK015_02376 291 cas2 COG1343 CRISPR-associated endonuclease Cas2 ATGTTAGTATTGGTTACATATGATGTTAACACGTCAAGTGATGGTGGACAAAAACGATTACGAAAAGTAGCTAAAGTATGTCAAAATTATGGTCAGCGTGTTCAGCATTCTGTTTTTGAATGTATTGTTGACGATACACAATTTGCGACATTAAAAATTAAACTTAGAGAAGTAATTGATGAGGAAAGAGATAGCTTGCGTTTTTATCGGTTAGGGAACAATTATAAAACGAAGGTAGAACATGTTGGGGCAAAAGAAACTATTCATTTAGAAGATCCATTAATTTTTTAG MLVLVTYDVNTSSDGGQKRLRKVAKVCQNYGQRVQHSVFECIVDDTQFATLKIKLREVIDEERDSLRFYRLGNNYKTKVEHVGAKETIHLEDPLIF PGPT0026890_1284 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-UNIVERSAL_CAS_PROTEINS,PGPT0026890-cas2-K09951 NA NA AK015_02377 1032 cas1 COG1518 CRISPR-associated endonuclease Cas1 ATGAGGAAGCTTCTTAACACGCTTTTTATTACGCAATCAGATGTTTATTTATCTCTGGATGGAGACAATATTGTCTTATTAAAGGAACAAGAAAAATTAGCGAGATTGCCACTTCATAATTTAGAATCCATTGTATCGTTTGGGTATACAGGTGCAAGTCCTGCATTAATGGGTTACTGTGCAAAACGTAACATCTCGATCGTTTTCATGACCATGAATGGAAGTTTTCTTGCTAGAGTAATTGGGGAGAGTAAAGGAAATGTTGTTTTAAGAAAACGTCAATATCAGCTTTCTGAAGACGAAGACCAATCAGCTATTATAGCTCGCAACTTTATTGTAGGAAAAATTTTCAATCATAAGTGGATGATTGAACGAATGACTCGGGATTACCCTTTGCGAATTGATGTAGCTGCGTTTAAAGAAGTGTCAGTCCAATTATCAAATGTGATGCAAGAAGTAAGAGCTTGCCGTGATTTAGAAAGCTTAAGAGGATGGGAAGGGCAGGCTGCGTATAGTTATAATAAGGTTTTTGATCAAATGATACTGCAGCAGAAAGAAGTCTTTTTCTTTCATTCTCGTTCACGAAGACCGCCTTTAGATAAGGTGAATGCCATGCTGTCATTTGCATATACACTACTTGCGAATGATATGGCAGCAGCACTGGAATCCGTTGGTCTTGATGCATATGTTGGATTTTTACATCGTGATCGTCCGGGAAGAGCTTCATTAGCCTTGGATGTTATGGAAGAGTTAAGGGGAATTTATGCCGATCGGTTTGTTGTTTCAATGGTTAATAAGAAAACAATCAAAGAGGAAGATTTTCTACGTAAGGAGAATGGTGCGGTTATTATGACGGATGATGGAAGGAAAAAGTTTCTATCAGCTTGGCAAACGAAAAAGCAAGAGAAGATGACGCATCCTTATTTAGGAGAAAAAATAACATGGGGATTGGTTCCTTATGCGCAATCACTATTGTTAGCACGCTATCTACGGGGAGACTTAGACGAGTATCCACCATTTTTGTGGAAGTAG MRKLLNTLFITQSDVYLSLDGDNIVLLKEQEKLARLPLHNLESIVSFGYTGASPALMGYCAKRNISIVFMTMNGSFLARVIGESKGNVVLRKRQYQLSEDEDQSAIIARNFIVGKIFNHKWMIERMTRDYPLRIDVAAFKEVSVQLSNVMQEVRACRDLESLRGWEGQAAYSYNKVFDQMILQQKEVFFFHSRSRRPPLDKVNAMLSFAYTLLANDMAAALESVGLDAYVGFLHRDRPGRASLALDVMEELRGIYADRFVVSMVNKKTIKEEDFLRKENGAVIMTDDGRKKFLSAWQTKKQEKMTHPYLGEKITWGLVPYAQSLLLARYLRGDLDEYPPFLWK PGPT0026885_508 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-UNIVERSAL_CAS_PROTEINS,PGPT0026885-cas1-K15342 NA NA AK015_02378 657 hypothetical protein ATGGCAAATAAAGAAGAAGACTTTTTAATGCTTTCTGGGATTCAACATTTCGAGTTTTGTCGTCGTCAATGGGCGCTAATCCATATTGAGCAACAATGGGAAGAAAACGTGAAAACAATTGAAGGACATTACTTACATCGCAAAGCGGACGAGCCGATGATACGTGAAAAGAGGGGCAATAAATTAATTATCAGAGCTTTGCCAGTAAAGTCGAAAACGTTAAAAATAAACGGGATTTGCGATGTAGTTGAATTTATACAAGATGAAAGGGGTATTGACATTCACGGGGAAGAAGGAAGTTATCTTCCTTTCCCTGTGGAATATAAACGAGGACGACCGAAAAGAGATGATGCGGACATCTTACAATTAACTGCTCAAGCGATATGTTTAGAAGAGATGCTACTCTGCCAAATAGAAAAAGGGTTTATGTATTATCATGAGATCAAGCACAGGGTGGAAGTTCCTTTTACCGATTATCTTAGACAAAGAGTAAAAGACATTACGGCTGAGATGCATGATTATTATCAGAGACGGCATACGCCAAAAGTGAAGACAGGTTCCTTTTGCAAAAGCTGTTCACTGCAGCATATATGTTTGCCAAAGCTCATGAATAAACGATCGGTAAAAAGTTATATTGAAGGGAAAATAAATGAATGA MANKEEDFLMLSGIQHFEFCRRQWALIHIEQQWEENVKTIEGHYLHRKADEPMIREKRGNKLIIRALPVKSKTLKINGICDVVEFIQDERGIDIHGEEGSYLPFPVEYKRGRPKRDDADILQLTAQAICLEEMLLCQIEKGFMYYHEIKHRVEVPFTDYLRQRVKDITAEMHDYYQRRHTPKVKTGSFCKSCSLQHICLPKLMNKRSVKSYIEGKINE PGPT0026940_389 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026940-cas4-K07464 NA NA AK015_02379 846 hypothetical protein ATGACGATATTAAATCATAAAATAGATTTTGCGGTAGTTTTATCTGTAAACAATGCGAACCCAAATGGAGATCCATTAAATGGTAATAGACCTAGGCAAAACTACGATGGGCATGGAGAAATCTCCGATGTTGCCATTAAGCGTAAAATTAGAAATCGCTTTTTAGATATGGGTGAGAAAGTATTTGTGCAATCGAATGATTATAAAGTAGATCAATATAAAAGTCTAAAAGACCGTGCTGATGCTCATGAAGAGCTTAATAAAGCTTCTAAAGCAAAAGATAATGAAACGTTTGCTAGATTAGCGTGTGAAGAGTGGATTGATGTACGTAGTTTTGGACAAGTGTTTGCTTTTAAAGGTTCTGATGTATCTGTTGGTGTTCGAGGACCAGTATCTGTTCATACCGCAACAAGTAAAGACCCCGTTGATATAACAAGTATGCAAATTACAAAAAGTGTCAATTCCGTTACTGGGGATAAAAAAGGGTCAGATACGATGGGGATGAAGCATCGCGTGGATTTTGGGTTATACGTTTTTTATGGAAGTATCAATACGCAATTAGCAGAAAAAACAGGTTTTTCCACAAAAGATGCTGAGAAGCTAAAGCAAGCGTTAATTAATTTGTTCGAAAATGATGCGTCATCAGCAAGGCCAGATGGAAGTATGGAAGTTCACCACGTTTATTGGTGGGAGCATCATTCTAAGTTAGGACAATACTCATCAGCTAAAGTACACAGAACAGTAAAAATTAAATCAGATAAGGAATCTCCTAAGAGCTATGATGACTATTCCATCACTGTTGAAGAATTGGACGGGCTACCTGTAGAGGTATTGGATGGCAAATAA MTILNHKIDFAVVLSVNNANPNGDPLNGNRPRQNYDGHGEISDVAIKRKIRNRFLDMGEKVFVQSNDYKVDQYKSLKDRADAHEELNKASKAKDNETFARLACEEWIDVRSFGQVFAFKGSDVSVGVRGPVSVHTATSKDPVDITSMQITKSVNSVTGDKKGSDTMGMKHRVDFGLYVFYGSINTQLAEKTGFSTKDAEKLKQALINLFENDASSARPDGSMEVHHVYWWEHHSKLGQYSSAKVHRTVKIKSDKESPKSYDDYSITVEELDGLPVEVLDGK PGPT0026980_413 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026980-csd2|cas7-K19118 NA NA AK015_02380 1884 hypothetical protein ATGAGTTGGCTACACCAATTATATGAGACGTATGAAGCGAATTTGGATCGTGTCGGTGAAATTGAAAAAACAAGAGGCAATAAAAGTTATACATTACTACCGATTTCTCATACGACACAAAATGCGCATATTGAAGTCACTGTAACTGAAGATGGGGAGTTTCATTCAGCCACTGTTTTAGATAAAGTGAATACATTAATTCCTACTACGGAAAGCTCTGCAAGTAGGTCAGGCTCTAAAGTAGCACCCTATCCACTTCACGATAAATTAAGCTATGTTGCTGGTGATTTTGTAAAGTACGGTGGAAAAATAAAAAAAGAAGAGCCATTTGCTAGTTACATAGAACAACTAGAAGAATGGGCGACATCACCGTACGGCCATCCAAAAGTAAAAAGTATCTTTACATACTTACAAAAGAAACAACTCATTAAAGATTTAGTGGCAGCAAATATCCTTTTTTTAGATGAACAAGGTCAGTTGATCGGGAAATGGAATAAGAAGTATGAATCATTACATGGAGAAAAGCCGGCTGTTTTCTCTGCTATTACGGGCGGACAAGAGAGCGCCTTTGTTCGATTTAATGTATACTCGCCAACCAAACACTTAACCAATGTGTGGGAAGATAAAGAAATCTATGAATCCTTTATTCATTATTATAATAATTTAGTTGTCGAAAAGGATATTTGTTTTGTAACCGGAACATGGCAGGCAAGTACGGAAAGACACGCCAATAAAATAAGACATGCTGCAGATAAAGCGAAATTAATATCTGCAAACGATACAAGTGGATTTACGTTTAGAGGTCGATTTAATAAAAGTTTGGAAGCGGCAAGCATTAGCTATGACGTGTCGCAAAAAGCGCATAATGCTTTGAAGTGGTTAATTCTACGCCAAGGCTACATGCTCGATGAACGTGTTTTTCTAGTTTGGGGAAACGATCAATTGCAAACTGTCATGCCAATTGATGATACGTTTTCGATTCATCCAACTGCAGCGGTTGTAGAGGAAAGCAAAACAAACACATTAGATCATTTTGCCAATGAAGTTGCTAAAGCATTTGCAGGCTACAAACATGATTTATCGATTACATCCAATGTAACGATATTAATTGTCGATTCGGCTACGACTGGGAGATTAGGAGTCTTATACTATCGAAATATGAATAAAGAATTGTATTTACAGAGATTAGAACATTGGCATGCTACGTGTGTTTGGGAGCATCGGTATCGCAAAAATGAGGATGGCAAGTTTGTGACATTTTTTGGAGCGCCAGCAACGAAAGACATTGCATTCGCTGCTTATGGTTCACGAGCAAGTGATAAATTCGTGAAAGATTTAATGTCAAGAATGCTACCGTGTATTGTTGATAACAGAGAAATACCGACAGATATAGTAAATAGTACATTTTACCGAGCGTCTAACCCAGTCGCGATGGAAAAATGGGAGTGGGAAAAAACGTTAAGTATCGCATGTGCATTAATTAATAAAAGGGAGGGAATGGATGTGGCTTTAGATCGTGAATTGGATGATCGTGATTATTTATTTGGCCGATTATTAGCGTTAGCGGATGTACTAGAAAGAAGGGCATTGGATCAAGATGAGACACGTGCTACGAATGCGATTCGTTATATGAATGCTTTTTCTAAACATCCTGCTCGTACTTGGAAGACGCTTCAGGAAAGTATACAGCCATATCAAGCTAGACTTGGAAAGCGAGGTAATTATCTGGCTAGTTTAATTGATGAGGTTGGCTCGAAATTAACGATAGAAAATTTCAACGACAAACCGTTGTCAGGAAAATATTTATTAGGGTTTTATAGCCAACGTAGGGATTTGTACCAAAAAAAGACAGTAGAAAATAATAGCGAGGAGAATGGGAAATGA MSWLHQLYETYEANLDRVGEIEKTRGNKSYTLLPISHTTQNAHIEVTVTEDGEFHSATVLDKVNTLIPTTESSASRSGSKVAPYPLHDKLSYVAGDFVKYGGKIKKEEPFASYIEQLEEWATSPYGHPKVKSIFTYLQKKQLIKDLVAANILFLDEQGQLIGKWNKKYESLHGEKPAVFSAITGGQESAFVRFNVYSPTKHLTNVWEDKEIYESFIHYYNNLVVEKDICFVTGTWQASTERHANKIRHAADKAKLISANDTSGFTFRGRFNKSLEAASISYDVSQKAHNALKWLILRQGYMLDERVFLVWGNDQLQTVMPIDDTFSIHPTAAVVEESKTNTLDHFANEVAKAFAGYKHDLSITSNVTILIVDSATTGRLGVLYYRNMNKELYLQRLEHWHATCVWEHRYRKNEDGKFVTFFGAPATKDIAFAAYGSRASDKFVKDLMSRMLPCIVDNREIPTDIVNSTFYRASNPVAMEKWEWEKTLSIACALINKREGMDVALDRELDDRDYLFGRLLALADVLERRALDQDETRATNAIRYMNAFSKHPARTWKTLQESIQPYQARLGKRGNYLASLIDEVGSKLTIENFNDKPLSGKYLLGFYSQRRDLYQKKTVENNSEENGK PGPT0026975_118 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026975-csd1|cas8c-K19117 NA NA AK015_02381 711 cas5d CRISPR pre-crRNA endoribonuclease Cas5d ATGCGAAATGCAATTGAATTTGAAGTGTGGGGAGACTATGCCCTGTTTACCGACCCGCTTACGAAGATAGGTGGGGAAAAATTGACGTATCAAGTGCCTACATACCAAGCGTTAAAAGGAATTGTGGAGTCCGTCTACTGGAAGCCGACAATCGTTATGGTCGTAGATGCTGTACGAATTATGAACCCAATTCAAATGGAATCAAAAGGCATTCGCCCAATTGAATATAAAGGTGGAAATACGTTGGCTAACTATACGTACTTAAAACAGCCAAGATATCAAGTCAGGGCGCATTTTGAGTTTAACCTTCATCGTCCTGATATGGCTTTTGATCGAAATGAGAACAAGCATTATAGCATTATGAAACGTGCTTTAAAAGCTGGCGGAAGAAGAGATGTATTCCTTGGTGCTAGAGAATGTCAAGCGTATGTTGAACCGTGCGTGTTTGGTGAAGGAGAGGGATTTTACGACAATTATGAGGAAATTCATTTTGGGACCATGGTGCATGGAATGAATTACCCAGATGAGACAGGGGATAACCAAATGGAAGTTCGCCTTTGGAATGCTGTGATGAAGCATGGGGTCATCACATTTCCACGACCTGAGGAATGTAGTCTCACTCGTCCAATAAAAAAGATGAAAGCAAAGCAATTCAATGAAACCAATGTACAGTCGGCTAATGCATTACTTGATGAGATAGGAGGTGAGTAA MRNAIEFEVWGDYALFTDPLTKIGGEKLTYQVPTYQALKGIVESVYWKPTIVMVVDAVRIMNPIQMESKGIRPIEYKGGNTLANYTYLKQPRYQVRAHFEFNLHRPDMAFDRNENKHYSIMKRALKAGGRRDVFLGARECQAYVEPCVFGEGEGFYDNYEEIHFGTMVHGMNYPDETGDNQMEVRLWNAVMKHGVITFPRPEECSLTRPIKKMKAKQFNETNVQSANALLDEIGGE PGPT0026985_182 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026985-cas5d-K19119 NA NA AK015_02382 2430 hypothetical protein ATGAATTTTATTGCACATATTCGACAAAGTGACAACGAAGTTCAAACTGTAAAGGATCACTTGTTAGAAGTCCAAGCATTGGCAGAAAAGTATGGTGAGCCGATAGGGATGAAACATTTGTGTGGGCTTGCAGGCTTGCTTCATGACTTTGGCAAGTATAGCCAGGAATTTCTTCATTATATTCATGCTGCTGTATATCATCCGAAAGATGCCCCTAAACGAGGCAGTGTTGACCATTCCACGGCTGGTGCAAAACTACTATATACATTATTACACACAAAAGATATGACACCTAATAAGGCGCTAGTGGCTGAGGTTGTCGGTAATGCTATTATATCCCATCACTCTTATCTACATGATTTTTTAACCCCTGAACTAGAGTCAAAATATTTAACTCGCGTTCGTGATAAGCCTTTGCATGAGTTTGATCAAATGAAAGAGAACTTTTTCGAAAATATTATGAATAAGAATGAACTTGACCAATACATAGAAAAAGCAACCCAAGAATTACTTCCATTTATTCAAAGCGTTCCTAGGAAAGATACAGAAAAACAGTTCATGTTTGTTACAAAGTTTGTGTTTAGTGCACTTATTGATGCAGATCGTACGAATACGAGGTTATTTGAAGAAGATGAAACACCATCGAATCCTGATCATAAGGCATTGTTTGAAACGTATTACGAACGATTACATGAAAAAATAACGGCATTTCAAAACCATCCAAATGCAAATACACCCATTAATCGCTTGCGTTCAAAAATGTCAGAGCAATGCGAAGTAGCTGCGGAAAAAGAGTCTGGTATTTATACGCTGTCTATTCCTACAGGTGGAGGGAAAACATTAGCTAGTTTGCGATATGGATTAAAGCATGCTTTGTTACATCATAAAAAGCGAATTATCTATGTCGTTCCATATACCACCATTATTGAACAAAATGCGGAAGAAGTACGAAGTATATTAAAAGATACAGAAAACATTTTAGAGCATCATTCTAATGTTATCTTAGATGATGATGATAATGATGAGCATCTAGACGGTACGATGACAGAAAAACAGAAGTTGAAACTAGCTAAAGATAATTGGGATGCGCCAATTATTTTTACAACGATGGTACAGTTTTTAAATGTATTTTACGCAAAAGGAAGTCGTAATATTAGTCGCTTACATCATTTGAGTGAAGCAATTATCGTCTTTGATGAAGTGCAAAAAGTGCCTGTCAAATGTATTTCGTTATTTAATGAAGCGCTTAATTTCTTAAAAAATAATTGTAAATCAAGTATCTTGCTTTGCACAGCAACGCAACCAGCGTTAGATTTTGTGCAAAATAAACTAGAAATTAAGACAGATGCGGAAATCGTTGAAAATTTAACGGATGTGGTTGACGCTTTTAAACGAGTGGAAATTATAGACAAAGCAACCGATAGAGCGGTATTAACGAGTGATTTAGTCTCATTTATTGATCAACAGTTAGAACGTGTTCAAAGTGTACTCGTTGTGTTAAACACGAAAAAAGTTGTGAAAACGCTTTATGAAGAGTTGCAACAAAATAGAGGTGATGACACCAAGATTTATCATTTAAGTACGTCCATGTGTGCGGCACATCGAAATGATATTTTAAGCAAATTAAGACAGGACTTGGATAATAATATTCCGGTTATTTGTATTAGCACCCAGCTAATTGAGGCTGGCGTAGATATTAGTTTTGATTGTGTTATCCGATCTTTAGCTGGTTTAGATTCGATTGCTCAAGCTGCAGGACGTTGTAATCGACATGGGGAAAAGGATATGCAGGAAGTATACGTGATAGATCATCAAGAAGAACAGCTAAAGCATTTAAAAGAGATTGAAATTGGGAAACAAATTACGAGGCGCATTTTAATTGATATGAAGCGAAACCAAAATGAGCATGGGGGCAATATACTTTCGCCACAAGCGATGGAACGCTATTTTCAAGAGCTTTACTTAGCTTTTGCTAATGATTTGAATTATTTCATCCCAGCTTTAAAGAAAGACATGATGGAATTATTAACTGCTCCAAAAAATGAATTTAGCTATGTACAGGCATACCGAAGTAAGTATAGTGCTGAGGTGCCGTTATTTATTACAAATAGCTACCGAACAGCTGCCGAACATTTCCATGTTATCGATAACGTGACAACTTCTGTTATTGTTCCTTATGAGCATGGGGGGAAAGAATTGATAACAGAATTGAGTGGCAATATATCAATGGAAGATTTAGGACGCATTATGCGATATGCACAGCATTATACGATTAACCTTTACAAATATGAGCTTGATTTAGTCATGAAAAATAACGGTTTAGTTTCTTTCTTTGATGGGAAAATCTATGCATTAGCAGATGGTGCCTATAGTAGTGAATTTGGATTTGATGTAGAAGGCGATAGTTCGGATGAAGTGTATATGTTTTAA MNFIAHIRQSDNEVQTVKDHLLEVQALAEKYGEPIGMKHLCGLAGLLHDFGKYSQEFLHYIHAAVYHPKDAPKRGSVDHSTAGAKLLYTLLHTKDMTPNKALVAEVVGNAIISHHSYLHDFLTPELESKYLTRVRDKPLHEFDQMKENFFENIMNKNELDQYIEKATQELLPFIQSVPRKDTEKQFMFVTKFVFSALIDADRTNTRLFEEDETPSNPDHKALFETYYERLHEKITAFQNHPNANTPINRLRSKMSEQCEVAAEKESGIYTLSIPTGGGKTLASLRYGLKHALLHHKKRIIYVVPYTTIIEQNAEEVRSILKDTENILEHHSNVILDDDDNDEHLDGTMTEKQKLKLAKDNWDAPIIFTTMVQFLNVFYAKGSRNISRLHHLSEAIIVFDEVQKVPVKCISLFNEALNFLKNNCKSSILLCTATQPALDFVQNKLEIKTDAEIVENLTDVVDAFKRVEIIDKATDRAVLTSDLVSFIDQQLERVQSVLVVLNTKKVVKTLYEELQQNRGDDTKIYHLSTSMCAAHRNDILSKLRQDLDNNIPVICISTQLIEAGVDISFDCVIRSLAGLDSIAQAAGRCNRHGEKDMQEVYVIDHQEEQLKHLKEIEIGKQITRRILIDMKRNQNEHGGNILSPQAMERYFQELYLAFANDLNYFIPALKKDMMELLTAPKNEFSYVQAYRSKYSAEVPLFITNSYRTAAEHFHVIDNVTTSVIVPYEHGGKELITELSGNISMEDLGRIMRYAQHYTINLYKYELDLVMKNNGLVSFFDGKIYALADGAYSSEFGFDVEGDSSDEVYMF PGPT0026895_1159 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026895-cas3-K07012 NA NA AK015_02383 498 hypothetical protein TTGTACAAAAACATAGAAGAACCAAAACGAAAAATTTCTCCATACGCTATTAATGTATGGCGAATTACAAACACAATCGGACATACTATATTTCTCATTATTTTAGTCGTTTTACTTATCATGGACTCCCACTTTGCTTGGTATAGCTGGATTAGTTACATATTATGGGGCTTACTAGGTTTTACGATTATCTCTGCTGTTTGGAGTATAGTTTTTGAACCGACATTACTACAAAAATATTGGCGGTATGGTTTGAATAAGGAATTTGTCCAATTAAAGCACGGAAGATGGAATTTGGCACACCAAGTTATCCCTATGACAAAAATTCAATATGTTAGCCTACAACAAGGACCCATTTTACGAAAATACGGACTATCAAGTATCTCCATTGGTACAATGGCTTCCACTCATGAAATTCCTGCTATACAAGAGGACGAAGCAAAGGCTATTCGAAATGAAATTGCTGAACTTGCCAAAGTGAAGGAAGTGGAGAACTAA MYKNIEEPKRKISPYAINVWRITNTIGHTIFLIILVVLLIMDSHFAWYSWISYILWGLLGFTIISAVWSIVFEPTLLQKYWRYGLNKEFVQLKHGRWNLAHQVIPMTKIQYVSLQQGPILRKYGLSSISIGTMASTHEIPAIQEDEAKAIRNEIAELAKVKEVEN NA NA NA NA NA AK015_02384 1494 hypothetical protein ATGGATCAAAAAAAGCGCATGCACCCCATGATGATGCCCGTATCATTTTTTGCATCATTAAAGGACATTTTCTTCGTATTTATTATTTTATTTGTACTTAACTATTCCTCCGAAGCAACGTGGGTAGAAATTGGTAGAATCTTATTTTTTGTCTACCTAATTTATGAGTTTGTGTCGGTTATTGTAACGTGGTGGCGTACTACATATAGCATCAATGAAAGCTTCATTGAAATCGAGCAAGGCCTTTTCACACGTAAACATCATCAAATTCCGTATGATCGGATTCAAAATGTCCAAACAAATACCCCGTTTTATTTACGACCATTTCATCTAACAACGCTGACGTTAGAAACGGGAGCAGAAGATGAGGATTCATCCTTCACTTTTACAGCCATTACGAAGGACGAAGCTCAACAAATTGAATATGTTTTAGACCATTACACGAAACAGAAAACTTCGGATGCAATAGACACAAATATAATAGAAACAGAAACAGACGAAGCCCAAGCCATGACAAAAGAAGAAAAAAATGTCCACTTTAATCCCACTAAAAAAGACATTTTAAAAGCTTCTGTTTTATCATTTAGCTATTTATTGCTTATCCCTGTACTAGCATCAATGTTTAGTAATATTGACGAAGTATATGATCTATCCGCAACGGGAAATAAGATTATTCAATTTGTAAAGGACTCTTGGTTTTGGATTGGTGCTTTAATCATCCTATTTATTATCGTTGCAATTTGCTTTGGAATAATGCGTACTTACTTAAAATATGGTCGTTATGAAATCTCATCTGATCATGAGCGGATTTATATTCGTAAAGGTGTATTAAACGAACAACACTTTTCCATTCGTAAACAAAATGTGCAAGCCGTTCATATTAAACAATCATTGTTAAAACGCATGCTTAAAATAGCTGAAGTAAAGCTAATTAGCGCTGGTGGGGTTGATCTTTCAGGGGAAGAAGTAAATTCCCTTTATCCATTTTTACCAATTCATCGCGCATATACGATCATTGAAGAAATACTACCTGAATTCGCAGTACAAACAAATATGGAATCACTCCCGAAGAAATCGTTAGTAGCGCGAATGTGTCAAACACCTGTACTTTGGATCATCGGCACCATTATTATTGTTATTTTCTTTCCAACATGGTGGCCTGTATCGATAATTTTGTTTCTATTTACGATCGTGTCACGCTTACTAGATTATTATTTCACTCGCTTTTTAATTCATGGGGAAACATTGCAAGTCCGTACAGGAGGCTTCTTCATGACAACAAGCATTACAACGAGAGAAAAAATCATTGAATTTAAGCTAGAACAAAATTTTATTCAAAAACGTTTTGACCTAGCAAATATGGAAACAGCAAATCGAAGCAAACCTGTTCATACCACTCCCTTATATAACATACCTATGCAGATGACACAACGTGCGTTTATCTGGTATACAGGACGAAACCCGAGAATAGAAGGAGGATTGGATGGAGAATAA MDQKKRMHPMMMPVSFFASLKDIFFVFIILFVLNYSSEATWVEIGRILFFVYLIYEFVSVIVTWWRTTYSINESFIEIEQGLFTRKHHQIPYDRIQNVQTNTPFYLRPFHLTTLTLETGAEDEDSSFTFTAITKDEAQQIEYVLDHYTKQKTSDAIDTNIIETETDEAQAMTKEEKNVHFNPTKKDILKASVLSFSYLLLIPVLASMFSNIDEVYDLSATGNKIIQFVKDSWFWIGALIILFIIVAICFGIMRTYLKYGRYEISSDHERIYIRKGVLNEQHFSIRKQNVQAVHIKQSLLKRMLKIAEVKLISAGGVDLSGEEVNSLYPFLPIHRAYTIIEEILPEFAVQTNMESLPKKSLVARMCQTPVLWIIGTIIIVIFFPTWWPVSIILFLFTIVSRLLDYYFTRFLIHGETLQVRTGGFFMTTSITTREKIIEFKLEQNFIQKRFDLANMETANRSKPVHTTPLYNIPMQMTQRAFIWYTGRNPRIEGGLDGE NA NA NA NA NA AK015_02385 819 nirC COG2116 Nitrite transporter NirC GTGGAACGACAGCCAATAGAGCAAGCGGTGAATCTTGCTATAAAAAAGAAGGAATTATTAAATACATCATTCATAAGATATATGCTGCGAGCGGGTTTGTCAGGAATTTATGTGGGTATAGGATTAATATTATCGTTTAAGCTAGCGGAAGGATATTTTGATATTCAATCTCCGGCTGCAACGATTATGGCATCGATCTTTTTTGGTGTTGCCCTCGTGTTAATTATTTATGGTGGTGCTGAATTATTTACTGGTAACACGATGTACTTTACGATGAGTACGATGAGGAAGCAAACGACAGTCAAGGATACGGTGCAAAATTGGCTTGCCTGTTATAGTGGAAATTTGATTGGTGGAATATTGTTTGCCTTGTTAATTGTTGGAACAGGATTGTATGCTTCCACAGAAAGTAGTCAATTTTTAATGAAAACAGCTGCCGCTAAAATGGATTTAGGCATATGGGAATTATTTTTTCGAGGCATATTATGTAATCTGATCGTCTGTTTAGCTGTATGGATTCCCATGCATATTAAAGGTGATGGCGCTAAAATATTAGTGATGATGTTATTAGTTTTTGGCTTTGTTGCATCAGGGTTTGAGCACAGTGTTGCCAATATGGTCACTTTTTCATTAGCATTAACAGCACCTCACCCAGAATCCATTACCTTATTAGGAGCGATTTATAATTTAGTTCCTGTTACGATTGGAAATATTGTCGGAGGTGGCTTCTTTTTAGGAGGCATCTATGCTTATTTAGCTTCGCCTAGTAAGCAGTATAAACAAACCGTAGAAGTAGCACAGGAAAAGAAGCTCGGATAA MERQPIEQAVNLAIKKKELLNTSFIRYMLRAGLSGIYVGIGLILSFKLAEGYFDIQSPAATIMASIFFGVALVLIIYGGAELFTGNTMYFTMSTMRKQTTVKDTVQNWLACYSGNLIGGILFALLIVGTGLYASTESSQFLMKTAAAKMDLGIWELFFRGILCNLIVCLAVWIPMHIKGDGAKILVMMLLVFGFVASGFEHSVANMVTFSLALTAPHPESITLLGAIYNLVPVTIGNIVGGGFFLGGIYAYLASPSKQYKQTVEVAQEKKLG PGPT0000565_111 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000565-nirC-K02598 NA NA AK015_02386 564 ppaX_2 Pyrophosphatase PpaX ATGCACTTATTATGGGATTTTGACGGAACACTGATAAATACGTATCCGATGTATACGAAATGTTTTCAGCAAGTTATAGGAAAAGGAGCAACAGAGGAGGAAATATATACGCAACTGAAAAAATCTTTTTCTCATGCCATTGCACATTTTCATATGACGAAAGACCAGGAATTAGAGGTGCGTCGTCTTGTTAATCAAATTCAACCAGAGGAAGTGAAACCTTTCGACGGTTTGGAGCGCGTATTACAGGCAGCAGATGTCAATGTCATTATGACGCATAAGGATTATAAAAACGTGAAACGCATCTTGGACTACCATGGTTTGACATCTTATTTTGATGATATGGTTACAAGTGATGATGGATTTCCACGTAAGCCGGATAGTGCTTCCTATGCTTATTTACATCAAAAGCACCGTATCGATATGGCGATAGGAGACAGAGAACTTGATTTGTTACCTGCGAAAGAGCTAGGAATGAAGACGTGCAGTTTTCAAAATACGCATGCAGAAGCAGATTTTTATCTTTCTTACTATCATGATTTTTTTTACACGATAGGAAAGTAG MHLLWDFDGTLINTYPMYTKCFQQVIGKGATEEEIYTQLKKSFSHAIAHFHMTKDQELEVRRLVNQIQPEEVKPFDGLERVLQAADVNVIMTHKDYKNVKRILDYHGLTSYFDDMVTSDDGFPRKPDSASYAYLHQKHRIDMAIGDRELDLLPAKELGMKTCSFQNTHAEADFYLSYYHDFFYTIGK NA NA NA NA NA AK015_02387 963 ghrB_2 COG1052 Glyoxylate/hydroxypyruvate reductase B ATGACTAAGCGGACATTAGTAATGAATGTAGATATAAAAGAAGCACATGTGCAAAGCATTCAGCAGGCATTGCCAGATTGGAAAATTGTTGCAAATAAAGCGTTGGATGACGTGCAGGACGATATAAAAGAAGCTGAAATTATGTTGCATTGGAAAAAAGATATGGAATCCATTGTATTTGAAGAAAACAAGAATTTGCAGTGGGTGCAAACATGGAGTGCGGGCATTGATAACCTCCCATTATCAGAGCTTGAGCAAAGAGGGGTCCACGTTACGAGTGCGAATGGTGTGCATGCTTATCCAATTTCGGAAACCATTTTTGCGCTTATATTGGGACTTACCCGAAAGATTCATACGTATGTGAAGCAGCAACAAGATAAAGTTTGGTATCATGCACGTTTGAATCAGGAAATACACCACAAGACGATCGGTATTATCGGTGCTGGAGCAATTGGTCAGGAAACAGCTAAAATTGCTAAGGCATTTGGCATGAAAGTGCTCGGGGTGCGTTATTCCGGGAAGCCTACTGCGTATGTTGATGATATGTACAAGCCTGAGCAGCTAGATCAAGTTCTTACTGAGAGTGATATTATTGTAATTACACTGCCATTAACAGAAGCGACGAGACATATGTTTGCAAGAAAGCAGTTTGAACAGATGAAAGATTCTGCTCTTCTGATAAATATTGGGCGTGGTGCTATTGTTCATGAGGAGGATTTGATTAAAGCATTGCAAGCAAATGAAATAGCCGGGGCTGGTTTAGATGTTTTTGCTAAAGAACCATTACCAGAAGACAGCCCGCTTTGGGAAATGGAAAATGTGATTATAACTCCTCATACCGCTGGATCGACGGAGTATTATGATGAACGTGTTATAGACGACATTTTTCTACCTAACTTACAGCAATATCTTCAAGGAAAAACACCTAAAGTGAATGCCGTTCATTTTGATAAAGGCTATTAG MTKRTLVMNVDIKEAHVQSIQQALPDWKIVANKALDDVQDDIKEAEIMLHWKKDMESIVFEENKNLQWVQTWSAGIDNLPLSELEQRGVHVTSANGVHAYPISETIFALILGLTRKIHTYVKQQQDKVWYHARLNQEIHHKTIGIIGAGAIGQETAKIAKAFGMKVLGVRYSGKPTAYVDDMYKPEQLDQVLTESDIIVITLPLTEATRHMFARKQFEQMKDSALLINIGRGAIVHEEDLIKALQANEIAGAGLDVFAKEPLPEDSPLWEMENVIITPHTAGSTEYYDERVIDDIFLPNLQQYLQGKTPKVNAVHFDKGY PGPT0001310_944 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 AK015_02388 387 hypothetical protein ATGCAACGTTTACTTTTTGAGGCTGCATGGGAAAAGACAATCGATGCTAGAGATCGGGAAGAAATAGAAAAAGTTTTTGAACAAGTAAAGGAAATGATAGAATCGAGGCAATCGTTTTTTATATTGAGCCTAGCGCGTAATCATCGTAACGATTTGCTTGTAACTGTGCTCATTCAAAATGGTTTGGAAACGGACTGGGTTCTTTGTGGGGAGCAATTGTCGTACTACGAAGCAAATAAGCTTATTGCCACGGAAGTTTTTTCTGATAAGCGATTAATCGTTCCTGCCAAGTGTAGCATGCCGTGGACATTTATTTTTTCTGAAAGCTCCGTACAACAGGAACCGAATTTTGAAAAAGGGGCATTACAGATGTTTTCTGAACGATAA MQRLLFEAAWEKTIDARDREEIEKVFEQVKEMIESRQSFFILSLARNHRNDLLVTVLIQNGLETDWVLCGEQLSYYEANKLIATEVFSDKRLIVPAKCSMPWTFIFSESSVQQEPNFEKGALQMFSER NA NA NA NA NA AK015_02389 627 hypothetical protein ATGAATTTCTTTAGCTATATCTTATTAGGAATTTCTCTCTCTGCACCCGTTGGACCGATAAACGCGGCACAATTAAATAAAGGGATGAATCACGGTTTTATCCATGCTTGGTTAGTTGGGCTCGGTGGAATGATTGGCGATCTGGTTTTTATGTTACTCATTTACTTTGGCGTGGCGCAATTTTTAACGACGCCACTTATGAAAACCTTCCTCTGGCTATTTGGTTTTTTCATTCTTGTTTATACCGGAATAGAAAGTATTGTCAGCGCAAAAAAATCATTACACATTCATCGTACTTCTCGACAAACATCAAAATTCAAATCATTTCGCGCAGGTTTTTTACTTGCTATTTCTAATCCGTTAAACATTATTTTCTGGCTAGGTATTTACGGTGCTGTATTGGCAAAAACAAGTGATTTATATAGTAATTTCCAGCTAATTATATATAGTAGTGGTATTTTTCTTGGTATTCTTATTTGGGATTTGGTGATGGCGAGTGTAGCTACTTCTTTTCGCAAATTTTTTCATGCAAAAGTGCAGTATATCATTACCGTTGGAGCTGGGATCATGCTTATCGGCTTTGGCGTCTATTTCGGATACGAGGCTTTCCTGCTGTTAACAAAGTGA MNFFSYILLGISLSAPVGPINAAQLNKGMNHGFIHAWLVGLGGMIGDLVFMLLIYFGVAQFLTTPLMKTFLWLFGFFILVYTGIESIVSAKKSLHIHRTSRQTSKFKSFRAGFLLAISNPLNIIFWLGIYGAVLAKTSDLYSNFQLIIYSSGIFLGILIWDLVMASVATSFRKFFHAKVQYIITVGAGIMLIGFGVYFGYEAFLLLTK PGPT0020651_847 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020651-lysE|argO-K06895 NA NA AK015_02390 759 hypothetical protein ATGGGTGCATTATATGAGAAACACTCACTTGATGAGGAAATAACCAATTTGCCACTATGGAAGCAGCAAGCCTATCAGACCTTCACCAGTATGCTTATAGATACGAATACGTACCCTTGCGTTCCTGCAAGACAAGGTTTTTTAGACAATCAGCTTCGTTTCTGCTTCGTATCCGATCCACGTGAAACGAGCGCTTCAGAAGAGCTAGCAACTGCATTAAAAACTTATGGCAATCATGCTAGAAGCTTTGGCAACTACACGTCATTGGCCGTGTTCTTTGAGACACCAGAGGATATGATTCGCAATTATTCCGTAGAAGATTATCGCAATTTGTTTTGGAATGCTTTGAATCAAGTTACTGCTTATGATGAACAACCGTGGCCAGAAGCAATTCCACAAGAACCTGAACACCATGAGTGGGAATTTTGTTTTGCTGGCGAGCCTTACTTTGCTTTTTGTGCTACCCCTGCACATCGAAAAAGGAAAAGCCGCTATTTTCCTTATTTTATGATAGCATTTCAGCCACGCTGGGTATTCGAAAACCTGAATGGAAACACCACATTTGGGCGCAAAATGAAAAATATTATCCGCAAGCGTCTATTCCAGTATGACGGGATACCTGGCCACCCCGATTTAAAATGGTATGGCGAAGAGGATAACCATGAATGGAAACAATACTTCTTAAGTGACGATGATGAGAGTCCTAGCAAGTGTCCGTTTATGCGTATGAAAGAAAAAATGAGCTCGTTCTTACAATAG MGALYEKHSLDEEITNLPLWKQQAYQTFTSMLIDTNTYPCVPARQGFLDNQLRFCFVSDPRETSASEELATALKTYGNHARSFGNYTSLAVFFETPEDMIRNYSVEDYRNLFWNALNQVTAYDEQPWPEAIPQEPEHHEWEFCFAGEPYFAFCATPAHRKRKSRYFPYFMIAFQPRWVFENLNGNTTFGRKMKNIIRKRLFQYDGIPGHPDLKWYGEEDNHEWKQYFLSDDDESPSKCPFMRMKEKMSSFLQ NA NA NA NA NA AK015_02391 1209 gabP_1 COG1113 GABA permease ATGGCGATTAAAAACAGTGGTCCTGCGGTTATAGTGGCATTTGTCTTAGCGGCAGCAGGAACGTTTATCGTCTACGATTCTTTGGCGAGTATGTCGGTGGATGATCCAAATAAAGGATCATTTCGCTACTATTCTCAAAAAGCATTTGGCAGTTGGGCAGGTTTTAGTAATGGATGGGTGTATGCTTTTTCAGAAATTCTAATTATGGGTAGCCAACTTATCGCCTTAGGGATATTTACACAATTCTGGTTTCCCAATGTTTCTTTATGGCTGCTTTGTGCAATATATGGCGCGCTAGGGTTACTAGTCATTTTAACCGGTATGAAAGGGTTTGAAAAAATAGAAGGCTTATTTGGCGTAATGAAAACAGCTGCCATCCTTATGTTTATTTTCGTAGCGGTGTTTCTATTAGTGACATTTGCAGGAGGAGAAAGTTTAATCCCTTCCTTCAACAAAACAAACCTATTTTCAGAAGGACCAACCGGTGTTTGGCATGCATTGATTTATGCTTTTTATGCGTTCGGTGGTGTGGAGGTAATGGGGTTACTAGTTATTGATTTAAAAAAACCGAAAGAGGCTCCCAAAGCTGGAAGGGTAATGATGATCGCACTCACTGCTATTTATATTATATCCATTAGTCTCATTCTCGTACTTGTATCATGGCAAACGATCCATGCGAATGAAAGTCCGTTTATTACAGCGCTTAAACCATTCTCCATTCCTTATGTCACAGATATTTTTACCGGGGTCTTCATTATTGCGGGCTTTTCTACGATGGTTGCAGCACTATTTGCAGTCCTCACGATTTTAGTTTCGTTAGCAGAAGACCACCATGCCCCTTCTATTTTTCAGCATCATGGGAAATGGAATGTGCCTTGGCCAGCATTTTTATGCACGACAGGTGGGTTGGTGGTATCCGTTATTATTGCGCTTGTGTTACCAGAGCGCTTATTTGAATATGTGACGACTGCTGCTGGGTTAATGTTACTCTATAATTGGATGTTTATATTAGCTACTTTCTTAAAACAAAAGAAACAGACAGGGTGGCAAAAAATAAAGCCGCTCATTGGAATGCTACTCATCACCATAGCTGTATCTGGTACATGGGTGGAGAAAACGAGTAGAATTGGTTTTTTCGTCAGCTTTGTTTTTATTTGTTTCATTGCTTTAGCTACCTTCTTGTCTCGTTCTACAAGACAACATGGATAG MAIKNSGPAVIVAFVLAAAGTFIVYDSLASMSVDDPNKGSFRYYSQKAFGSWAGFSNGWVYAFSEILIMGSQLIALGIFTQFWFPNVSLWLLCAIYGALGLLVILTGMKGFEKIEGLFGVMKTAAILMFIFVAVFLLVTFAGGESLIPSFNKTNLFSEGPTGVWHALIYAFYAFGGVEVMGLLVIDLKKPKEAPKAGRVMMIALTAIYIISISLILVLVSWQTIHANESPFITALKPFSIPYVTDIFTGVFIIAGFSTMVAALFAVLTILVSLAEDHHAPSIFQHHGKWNVPWPAFLCTTGGLVVSVIIALVLPERLFEYVTTAAGLMLLYNWMFILATFLKQKKQTGWQKIKPLIGMLLITIAVSGTWVEKTSRIGFFVSFVFICFIALATFLSRSTRQHG PGPT0014230_256 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014230-proY-K11736 NA NA AK015_02392 942 arcA_1 Arginine deiminase GTGCGATTAGACCAACCTAGCTGCTGGTCAGAGCATGGTGCATTACAAACAGTGCTTGTTTGTTCTCCCTCCGTGCAAAGTATTCCAAGTCTACAAGTGGCAGAGAATGTACAATGGAATGCTCCAGTTCAACAGGATGTAGCAATGGAAAATCATCATTCACTTATATCTGTTTTGAAACAGGAAGGTGTTCAGGTAATTGATTATGCTTTGTACTTGGATCTGGTCACGAGGCAATTAAATGAGCAATTAATTAATCGTTTTTTTGTACGTGACTTGGCATGTGTATTTGGAAACACGATACTCCCGGGGATCGCAGGGACGTTTATGCGTCGAGCAGAATATGATCACGTTCATAAACTTTTGGAAAACTGGTTTCCAGAAACTTTTACTAAAGGAGTCACGAAAGGTGTAAAGGCATTAGAATATGGAGATGTCCTCATTCTAAATGCAAATGCTGTTTTTATTAATATTGGTATGCGTACAAGCTTGGAGAGTGTGGAACAAATGATGGGACATATTTTTCAAGCAGGATTTACAGAAATTGGACTGATTAGTTTGCCAAGACGGGCAGACACGCTTCATTTAGATATGAATTGTAATGTGGCGGCAGAGGATGTCGTCATTGCTAAAAACTATATGTATTATTTGCCAGTGCAAGTTGTCAATGAAGAAGGTGTAAAGGGCTATGACATGACAGAGAAGTTTTTGCATCGTCATGGGTTTGACGTATATTGGTTGGACAAATATGAGACGATACCTGATATTAACTTTCTTAATATAAACCCAGATACATTATTAATTAGTAAACAAGCACATAAGCAAATGTTAAAATCCCATCCCAAATTAAAGAATAAACGCTTTATAGAAGTTGACGTTTCCGAATTAGAAAAAGCTGGCGGAGGTATCCGTTGTATGACGCTGCCTCTGGTTCGTAAATAA MRLDQPSCWSEHGALQTVLVCSPSVQSIPSLQVAENVQWNAPVQQDVAMENHHSLISVLKQEGVQVIDYALYLDLVTRQLNEQLINRFFVRDLACVFGNTILPGIAGTFMRRAEYDHVHKLLENWFPETFTKGVTKGVKALEYGDVLILNANAVFINIGMRTSLESVEQMMGHIFQAGFTEIGLISLPRRADTLHLDMNCNVAAEDVVIAKNYMYYLPVQVVNEEGVKGYDMTEKFLHRHGFDVYWLDKYETIPDINFLNINPDTLLISKQAHKQMLKSHPKLKNKRFIEVDVSELEKAGGGIRCMTLPLVRK PGPT0020075_1520 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478 NA NA AK015_02393 624 hypothetical protein ATGCACAACATGAATCAGCAAGGTAACCAGCAACAACCTGGATCGATGCCAAATCAGCAAAACACCAATCATGGAGGTCATGAATTATTTGATGCACATGAAATCATTGCGGGAATAATTAGTATGCTTGACCAATACCAAATGTATGATCAACATATACAAGACCCTGAGTTAAAAGAGATTTTACAACGACAAACCGCTTTCGTCACGCAAGCTTACAACACGATTGTGCAAACATTTCAAACCGGACAAGACCCCGCTGTGCCAACACAACAATATGAGATGCAGCAAGATAATAATGTCGTTTATGGCATAACCCCTGGCCAACCAAAAAAACCGAACGCATCAATTAACGACTTATCTGATCAAGGTCTATCTGCTTACATGCTCGGAAATACAAAATCTTTAAGCTCACTACTTGCTATGACAGCTACGGAAATGACAAATCCTGTACTACGTCGCGTCATTGCAGATACCGTTCCAAACTTTATCGAAATGAGCTATGAAATCTTTCTATATCAAAACAAACATGGCTACTATCAAGTCCCACAGCTAGCACCACAAGACATGCAGCATATGTTAAACAGTTATACGATCGTGCAGCAAGATAATCAATTACATTAA MHNMNQQGNQQQPGSMPNQQNTNHGGHELFDAHEIIAGIISMLDQYQMYDQHIQDPELKEILQRQTAFVTQAYNTIVQTFQTGQDPAVPTQQYEMQQDNNVVYGITPGQPKKPNASINDLSDQGLSAYMLGNTKSLSSLLAMTATEMTNPVLRRVIADTVPNFIEMSYEIFLYQNKHGYYQVPQLAPQDMQHMLNSYTIVQQDNQLH NA NA NA NA NA AK015_02394 1170 pbuE_1 COG2814 Purine efflux pump PbuE ATGGATAAACGTGTATATTTACTCACTATCGTATCATTTGTAGTTGGAATGGTAGAATTAATCATCGGGGGCATATTAGATTTAGTGGCATCGGATTTGAATGTCAGTCTTGGTAAAGCGGGGCTGCTAATTACGATATTTTCACTTGTGTTTGCCATTACAGCACCACTTCTAATGATTGTCACTGCCAAATTTGAGCGAAAGCGACTCATGCTATTTTTCTTACTGCTTTTTTCTTTAAGTAATTTAGTTGTTGCGCTTAGCCCTGTATATAGCATGTTATTTGTCGGTCGAATGCTTTCAGCAGCAAGTGGATCGCTATTAATTATTCTCTGTTTAACGATCGCTGCTAACATTGGTAGCGAGAAGCACCGTGGACGTGCAATTGGATTTGTATCAATGGGAATTAGCGGTTCGATCGTTCTAGGTGTACCAATCGGGTTGGTACTTGGTAATACATTTGGCTGGCGTGCTCCATTTTTATTCATTGTCTTATTAACGTTGTTGTCCATGGTCGGTGTTTATTTCTTAATGGACAAAGTACAGCCTAAACCGCAAGTACCAATAAAAGAACAAATTAACTCATTAAAAGAAAGTAAAATATTTTTAGCGCACTCGACTACTTTTTTATTTATGGCTGGACATACAATACTCTATGCTTATTTCACTCCATTTGTAAAAGAAACGATGGGGATAAGCGGCAGTTGGCTTAGTGTGATTTATTTTGTGTTTGGCATTGCAGCAGTAAGTGGTGGAGGCATAGGTGGAACGATATCCGACCGTTTTGGTACAAAGCGAACCATGCTTACAACATTAATTCTTTTTGCTGCATCTATATTTATTCTTCCATTTACAACTTCTGTATGGCCACTATTCATTATCGTAATGGTTATATGGGGGATGATGAGCTGGGCGATTACCCCAGCATTGCAAAGTTATTTAATTGAATCGGCTCCTGCAACAGCAGATATTCAGCAGAGCTTAAATAATTCTGCCTTGCACTTTGGAATTGCGTTTGGTTCTTTTATCGGCAGTATTGTCATTGAACAAGCTCACGTGGAACAAAATGCCTTTGCAGGTGGAGTGCTGATTAGCTTTTCTATCATTACAATATTGATTTCAATGTCCAAGACTGCAGTCGCAAGAAAACATAAAGCAATATATAAATAA MDKRVYLLTIVSFVVGMVELIIGGILDLVASDLNVSLGKAGLLITIFSLVFAITAPLLMIVTAKFERKRLMLFFLLLFSLSNLVVALSPVYSMLFVGRMLSAASGSLLIILCLTIAANIGSEKHRGRAIGFVSMGISGSIVLGVPIGLVLGNTFGWRAPFLFIVLLTLLSMVGVYFLMDKVQPKPQVPIKEQINSLKESKIFLAHSTTFLFMAGHTILYAYFTPFVKETMGISGSWLSVIYFVFGIAAVSGGGIGGTISDRFGTKRTMLTTLILFAASIFILPFTTSVWPLFIIVMVIWGMMSWAITPALQSYLIESAPATADIQQSLNNSALHFGIAFGSFIGSIVIEQAHVEQNAFAGGVLISFSIITILISMSKTAVARKHKAIYK PGPT0021080_245 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567 NA NA AK015_02395 1332 malH_3 COG1486 Maltose-6'-phosphate glucosidase MalH ATGAAAAACAAATTATCTGTCGTTATTGCAGGTGGAGGGAGTACGTATACTCCAGAAATTATTTTAATGCTGTTGGACAACCTAGATCGCCTTCCTTTACGAAAAATTAAGCTGTATGATAATGATGAAGCAAGGCAAAATAAGGTTGCTAAAGCATGCGAGATTTTAATTAAAGAAAAAGACCCAACGATTGAATATGTGGCGACAACAGATCCTGAAGAAGCGTATACCGATGTAGATTTTTGTTTAGCGCACATACGTGTAGGTCAATTACCTATGCGTGAATTGGATGAGAAAATACCATTAAAATACGGTTGTGTAGGACAGGAAACATGCGGACCAGGTGGAATAGCATATGGCATGCGTTCTATTGGTGGGGTAATTGAAAACATTGATTATATGGAAAAATATTCTCCGCATTGCTGGATGTTAAACTATTCGAACCCAGCTTCTATTGTGGCAGAGGCGACTAGGAGACTACGACCAAATTCACGGGTCATTAATATTTGTGATATGCCAATCGGAATGGAACATGGCATTGCTGATATTGTTGGTGTTTCTTCTCGTAAGGATTTAGACATTCGCTATTACGGTCTTAATCATTTCGGATGGTATACATCTATCAAAGATCAAACTGGAAAAGAATTACTTCCAGCGTTAATTGAGCATATGAAGCAATATGGCTTTATTAATGGAGAAGAAGGAATGGCAACGGAAAATAAAGATAGTTGGTTTGAGACGAATCTATTTGCGAAGCATTTAGTTGCTGTCGAACCTACGACCATTCCAAATACGTATTTAAAATATTATCTCTACCCAGATTATGTAGTAGAACATACAGATCCAAACTATACAAGAGCCAATGAAGTAATCGACGGCAGAGAGACGGAAGTGTTCTCAGCTTGTGCGGAAATTGAAAAAAATGGCCATTCCAAAGGCACGAGTCTTGAAATTGGCATACATGCTGAGTTTATTGTTGATTTAGCAACGGCGTTAGCATTTAATACGCAAGAACGTATGTTAATTATTGTTGAAAATAAAGGCGCTATTAAAAATTTCCCTGATGATGCTATGGTGGAAATACCTTGTATTGTTGGCAAAGATGGCTATGAGCCGTTAGCAATGGGCGAAATTCCTACCTTCCAAAAAGGACTTATGGAGCAGCAGGTAGCTGTTGAAAAGTTAGTAGTAGAAGCATGGATTGAGCAGTCGTACCAAAAGTTATGGCAAGCTTTAACATTATCGCAAACCGTTCCAAGTGCAACGGTAGCGAAGCAATTGCTTGATGATTTAATGGAAGCAAATAAGCAATATTGGCCTGAACTTTATTAA MKNKLSVVIAGGGSTYTPEIILMLLDNLDRLPLRKIKLYDNDEARQNKVAKACEILIKEKDPTIEYVATTDPEEAYTDVDFCLAHIRVGQLPMRELDEKIPLKYGCVGQETCGPGGIAYGMRSIGGVIENIDYMEKYSPHCWMLNYSNPASIVAEATRRLRPNSRVINICDMPIGMEHGIADIVGVSSRKDLDIRYYGLNHFGWYTSIKDQTGKELLPALIEHMKQYGFINGEEGMATENKDSWFETNLFAKHLVAVEPTTIPNTYLKYYLYPDYVVEHTDPNYTRANEVIDGRETEVFSACAEIEKNGHSKGTSLEIGIHAEFIVDLATALAFNTQERMLIIVENKGAIKNFPDDAMVEIPCIVGKDGYEPLAMGEIPTFQKGLMEQQVAVEKLVVEAWIEQSYQKLWQALTLSQTVPSATVAKQLLDDLMEANKQYWPELY PGPT0014100_238 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_GLYCOSIDE_UTILIZATION PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014100-glvA-K01232 NA NA AK015_02396 1329 sdaC COG0814 Serine transporter ATGAGTCAAACTGTGGCTAAAGTACATGAAGTTGAAAAAACTACAGAAGATGTTAAACAATATAAAGACCCTAATAAATGGCATATGCAAGATACCACTTGGGCAATGAGTCTTTTTGGGACAGCAATTGGGGCGGGTGTACTCTTTTTACCAATTAATGCTGGGGCAGGGGGGTTATTATCTTTACTTTTAATTATGATACTTGCATTCCCTGTCATGTACTTTTCACATCGGGCGATGGCTAAAATGATCTACTCTTCCGAATCTGCTGAAGAGGGAATTACAGCTACAGTAAGGGAGTATTTCGGAAAAAGGGCCAGTACAGTTTTTGATATCATCTACTTCTTTTCGATTTATGCAATATTACTTATGTATGCAGTCTCATTAACCAATACTGCAGGCAGTTTCATGGAGAATCAATTGAACATGCAAGCGCCACCTAGAATTATACTATCACTTGTTTTGGTTCTCGGGCTAATATTTATCGTAAATTTTGGTCATGATGTTACAGTAAAAGTAATGAGTTGGATTGTATATCCATTTATAGCAACTTTGGTGTTTCTATCTCTATATTTGATTCCGCAATGGGATTTATCAAATTTAAGTTTAGCTGGTAATTTTGCATCTGTAAATGGAGGGGTAGGTTTTACAGATATTTTAGGAATGGCTTGGTTTATCCTACCAATCATCGTATTTTCGTTTAACCATTCTCCTATGATATCTACTTTTGTTATTAAACAACGGGAAAGCTATGGAATAGAAAATGTAGACCGCAAATGTGCCCAAATTCAAAAGGTATGTTATATCATGACAATTTCAGTTGTATTTTTCTTTGTAATCAGTACTGTCTTAAGTGTGACTTCTGGTGAACTTGCACTTGCTAAAGAACAAAACTTACCAATTCTTTCTTATCTTGCTAATAAGTATAGTATGCCACTATTCGCATATGCAGCTCCTGTTATTGCTTTTATTGCCATTACAAAATCTTTCCTTGGCCATTATGTTGGTGCATATGAAGGATTGGAAGACATTATTGTGCAAGCTGCTAAATCCCGCGGAAAAAATATAAATAGCAAAACAGTGAAGAACATCATCATTGGATTTATGATCGTGACATGTTGGGTAGTTGCTTATGCAAACCCAAGTATTCTTGATCTCATCGATATGATTAATGCACCACTAATTGCGCTAATCTTATTCTTATTACCAATGTATGCAATCTATAAAGTGCCTGCACTAGCTAAATATAGAAAAAATTATATTAGCAACGCATTTGTCATTATTGTGGGCCTACTAGTAGTTCTATCAAGTATTAAAGCATTCTTCTAA MSQTVAKVHEVEKTTEDVKQYKDPNKWHMQDTTWAMSLFGTAIGAGVLFLPINAGAGGLLSLLLIMILAFPVMYFSHRAMAKMIYSSESAEEGITATVREYFGKRASTVFDIIYFFSIYAILLMYAVSLTNTAGSFMENQLNMQAPPRIILSLVLVLGLIFIVNFGHDVTVKVMSWIVYPFIATLVFLSLYLIPQWDLSNLSLAGNFASVNGGVGFTDILGMAWFILPIIVFSFNHSPMISTFVIKQRESYGIENVDRKCAQIQKVCYIMTISVVFFFVISTVLSVTSGELALAKEQNLPILSYLANKYSMPLFAYAAPVIAFIAITKSFLGHYVGAYEGLEDIIVQAAKSRGKNINSKTVKNIIIGFMIVTCWVVAYANPSILDLIDMINAPLIALILFLLPMYAIYKVPALAKYRKNYISNAFVIIVGLLVVLSSIKAFF PGPT0011650_55 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837 NA NA AK015_02397 876 sdhA_2 L-serine dehydratase, alpha chain ATGTCCATTAAAGAAATAGTAGATGCTGCAAATGAAAGACAAGTACCCATTTATACATTAGCAATAGAGCAGGAAATGGAAGTAATGAGATCTACTTTTGATGATACTTGGGGAAAGATGGAAAAAAACTTAAAAACGATGGAAAATGCTGTGAATAAAAGCATTGAAGACGATGGCGTGTTTTCGCTGACAGGGTTAACTGGAGGAGAAGCGGTAAAAATAAAAAAATATCGCGAGGACAGGAAAACGCTTTCCGGTGATATAATGATGAACGGTGTCCAGAATGCTATAGGTACAAATGAAGTGAATGCGGCTATGGGGGTTATTTGCGCTACGCCAACAGCTGGGGCAAGTGGAACCACACCGGGTGTGCTATTTACTATTAAAGAAACATTACAGCTAAGTCGTGAAGAACAAATTCATTTTCTGTTTACTTCATCTTTATTTGGCATGATTGTAGCAAATAATGCGTGCATTGCAGGAGCTTTAGGAGGGTGTCAAGCTGAAGTAGGTAGTGCCTCCGCAATGGCGGCTGCAGCGGCAGTAGAAGCTGCAGGAGGAACACCAGAGCAATCAGCGCATGCCTTCTCAACCGCTCTACAAAATTTACTTGGTTTAGTTTGTGATCCAGTCGGAGGTTTGGTAGAGATTCCTTGTGTAAAAAGGAATGCCGTTGGAACGGCTAATGCATTAGTGGCAGCAGATTTAGCATTAGCTGGTGTAGAGAATCTAATAAATGCTGATGAAGCAGTTGAAGCAATGTATAAAGTAGGTAGACAGATGCCTCGGGAATTAAGGGAAACTGGCTTAGGTGGAATTGCAGACACACCGACAGGAATTGCTATTAGAAATAAAATTCTTGGAAAAGAACAATAA MSIKEIVDAANERQVPIYTLAIEQEMEVMRSTFDDTWGKMEKNLKTMENAVNKSIEDDGVFSLTGLTGGEAVKIKKYREDRKTLSGDIMMNGVQNAIGTNEVNAAMGVICATPTAGASGTTPGVLFTIKETLQLSREEQIHFLFTSSLFGMIVANNACIAGALGGCQAEVGSASAMAAAAAVEAAGGTPEQSAHAFSTALQNLLGLVCDPVGGLVEIPCVKRNAVGTANALVAADLALAGVENLINADEAVEAMYKVGRQMPRELRETGLGGIADTPTGIAIRNKILGKEQ PGPT0001975_3926 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752 NA NA AK015_02398 693 hypothetical protein ATGAGCGTAGTAACAATGAGAGAAAAAAAGAATGTTAGTTACAAAAGTTGTTTTGATGTGATTGGTCCAGTTATGATCGGACCTTCAAGTTCACATACGGCAGGCGCTTTAGCAATGGGATTGATTGCAAATAAATTATTTAAAGATCTTCCAAAAAAAGTGGCGGTAGAATATTATGAATCATTTGCAGAAACGCATAAAGGACACGGAACAGATTTAGCCATAATTTCTGGTATATTGGGTTTTGAGGCTGATGATAGTAGGGTACTAGATGCTATTAAAATAGCAGAATCTAAAGGTATTGATATTACCTTTTTAGAAAAATCAGGGGATAGTCCTGCTGGGCATCCCAATACTGCTGATATTTACCTCGAGGACGATAGCCGATATATTCGAACAATGGGGATTTCAGTCGGTGGTGGATTAATTAAAGTGAAACATATTGAAATCGATGGATTTAGCTTACACCCTCAAGGTTCATTACCGATAATGATAGCAATTTCGGGACGGAATAATCTGGAACTTGAAATACACAGAATATTCAAAAAACACGACGTGGACATTAATAACTCCACCAGTTTGGAGAAAGATGGAAAATACTTATACCAATTCGATTTGGATTCACAATTAAGTAGTGATGCTCGGAAAGAATTAGAAAAACTTAGTGAGATAGCTAATATCATTATACTTTAA MSVVTMREKKNVSYKSCFDVIGPVMIGPSSSHTAGALAMGLIANKLFKDLPKKVAVEYYESFAETHKGHGTDLAIISGILGFEADDSRVLDAIKIAESKGIDITFLEKSGDSPAGHPNTADIYLEDDSRYIRTMGISVGGGLIKVKHIEIDGFSLHPQGSLPIMIAISGRNNLELEIHRIFKKHDVDINNSTSLEKDGKYLYQFDLDSQLSSDARKELEKLSEIANIIIL PGPT0001975_4289 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752 NA NA AK015_02399 675 hypothetical protein TTGGATGATCAACTTTTTCGACACTATAAAAATATAATGAATTATTTTGGTGAAATTTGTGGATCTAATTATGAATTCGTATTACATGTTTTAGATCCTGATGGAGGTTCTCACATTGGTCACATCATCCATGGTGAATTAAGTGGAAGGTCATTAAATAGCCCCTTAACGAACTATGCAAAAAAGTTAATTGAGGAAAAAGTATATTTAAAGAAAGATTTTATTGTAAATTATGTTGGAGAAGGGCCGAAAGGTAAAAAATTTCGTTCGTCAACCATGTTTATAAAAGACCATAAAGGTCAATTACAAGGTCTTTTATGTATAAACTTTGATGCGGATGCCTATCGGAAAGTCGCAAAGAATTTATTAAATTTAGCTAACCTAAGCTGGGATATAGCGTATATAGACAAACAAACAGAACAGGAACAATCCGTTGAAAAACTGACCGAAAATATTCACAACATTATTTATACACAAGTAGACAAAGATATATTAGAATCGGGTGCCCAATTATCACCTGAACAAAAAAAACTCGTTATTTCCAAATTAAAGGAACATGGTGTATTTGATATTAAAGGTACTGTAATGGACGTTGCTAAAATAATGGGAATGTCTGAATCAAGTGTTTACCGTTATCTGCGAATCGTATCGCTTAACGAAAATAACAATAATTGA MDDQLFRHYKNIMNYFGEICGSNYEFVLHVLDPDGGSHIGHIIHGELSGRSLNSPLTNYAKKLIEEKVYLKKDFIVNYVGEGPKGKKFRSSTMFIKDHKGQLQGLLCINFDADAYRKVAKNLLNLANLSWDIAYIDKQTEQEQSVEKLTENIHNIIYTQVDKDILESGAQLSPEQKKLVISKLKEHGVFDIKGTVMDVAKIMGMSESSVYRYLRIVSLNENNNN NA NA NA NA NA AK015_02400 663 sdhB_2 L-serine dehydratase, beta chain ATGAAATACAATTCTGTTTTCGATATTATTGGTCCTGTTATGATCGGACCTTCCAGTTCCCATACTGCTGGTGCAGCGAGAATTGGTAAAGCAGCTAGAAATTTATTAGGAGCTGAACCGACCTGGGCCAAAATTCATTTGTATGAATCATTTGCTAAAACGCATAAAGGTCATGGCACAGATTTCGCTTTAGTGGGAGGTTTGCTTGGCTTTGAAACAGATGACCCACGTATGAATCAATCGTTAGAAATGGCAAAAGAACGCAATTTTTCCATTGATTTTATTGAAGATACAGCAGCTGTAGACCACCCTAATACAGCCCGATTAATCGTTGGTAATGATCAAAACCAAGTCGAGTTAGTCGGCATATCCATTGGTGGTGGCAAAGTCGAAATTACGGAATTAAATGGTTTTAAGCTACGTTTATCTGGCAACCATCCTGCACTTTTAATTATGCACAATGACCGTTTTGGCGCGATCGCTTCCGTAACAACTATCCTAGCCAAATATGAAATAAACATTGGTCACATGGAAGTAAATCGAAAAGATGTTGGCGATGCTGCCTTAATGGTTATTGAAGTGGATCAAAATATAAAAGATACGATTTTGGATGAGTTACGCCAAGCACCACATATTACAACTGTTTGTACAATTATTAGTTGA MKYNSVFDIIGPVMIGPSSSHTAGAARIGKAARNLLGAEPTWAKIHLYESFAKTHKGHGTDFALVGGLLGFETDDPRMNQSLEMAKERNFSIDFIEDTAAVDHPNTARLIVGNDQNQVELVGISIGGGKVEITELNGFKLRLSGNHPALLIMHNDRFGAIASVTTILAKYEINIGHMEVNRKDVGDAALMVIEVDQNIKDTILDELRQAPHITTVCTIIS PGPT0001975_4810 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752 NA NA AK015_02401 867 sdhA_3 L-serine dehydratase, alpha chain ATGTTTCGAACAGTAGCCGAACTTGTGGAAATCGCCGAAAAAGAGAATATATTACTATCAGAAGTCATGATCCAACAAGAAATGGATGTAAAAGAAAAATCACGTGAAGAAGTAATAGGAGATATGGAAAAAAATCTCGATGTAATGGAAAAAGCCATTGAAGAAAGTTTACAAGGTGTGAAATCCGTTACTGGCTTAACAGGAGGAGACGCCGTCCTAATTCAAAATTATATGCAAGAGAAAACACCTTTATCCGGTCACCTCCTTTTAGATGGAGTGAGTAAGGCAATGGGAACAAATGAAGTAAATGCGGCAATGGGAACGATTTGCGCAACCCCAACTGCAGGGAGCGCCGGATGTGTTCCAGGGACATTATTTGCGGTAAAAAATCAATTACATCCAACACGTGAGCAAATGATTCGCTATTTATTTACCGCTGGCGCATTTGGCTTTGTCGTAGCAAATAATGCATTTATTTCAGGGGCTGCAGGAGGGTGCCAAGCAGAAGTAGGGTCAGCTGGCGCTATGGCTTCGGCTGCTATTGTGGAAATGGCTGGTGGAACCCCACAGCAATCCGCAGAAGCATTTGCCATGACATTAAAAAACATGCTCGGACTCGTTTGTGATCCCGTAGCAGGCCTTGTAGAAGTTCCTTGTGTAAAACGAAATGCTGGTGGCTCCGCACTTGCCATTGTATCTGCAGACATGGCATTAGCTGGCGTTACAAGCAGAATACCTTGTGATGAAGTGATTGGAGCTATGTATCGAATTGGAAAAACAATGCCTTCTGCTTTACGAGAAACAGGAGAAGGTGGACTTGCGGATACTCCGACAGGACGCTGGTTGAAGGAAAGGATATTTGGTTAG MFRTVAELVEIAEKENILLSEVMIQQEMDVKEKSREEVIGDMEKNLDVMEKAIEESLQGVKSVTGLTGGDAVLIQNYMQEKTPLSGHLLLDGVSKAMGTNEVNAAMGTICATPTAGSAGCVPGTLFAVKNQLHPTREQMIRYLFTAGAFGFVVANNAFISGAAGGCQAEVGSAGAMASAAIVEMAGGTPQQSAEAFAMTLKNMLGLVCDPVAGLVEVPCVKRNAGGSALAIVSADMALAGVTSRIPCDEVIGAMYRIGKTMPSALRETGEGGLADTPTGRWLKERIFG PGPT0001975_4171 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752 NA NA AK015_02402 609 hypothetical protein ATGAGTGCAACCTATAATGTATGGGCAGAAACGAAAACAAGAAATAATTTACAGGTGGATGAAGTTGTTTCATCTTTACAAAAATCCATCCGCAGAGCGATGGTAGAGGAAGCTTGTGCATATGCTTATGAATTATATATTAGCTCCCCGCAATTACTCGATAGAATGTGGAGAAGATTATTAACCATTTCTGTAGAAGATATTGGTTTTGGTAACTTGGATGCTGCTATTCACGTGCAAAACTTAAATGAAATGCGTAAAAATTTCCCATACAGTGATGGCGATCAGCCGATGTACTTTATTCATGCCATCCGTATTTTATGCGAAAGCACGAAAGATAGATCGAGTGACTTTTTAAAAAATATTATTATTAAAGGTTTTGCAATGGGACAAAAGCCAGAAATTATGGACGTAGCATTGGATAAGCATACAAAACGAGGAAAAGAAATGGGACGCGGTTCAAAACATTTCTTTGAAGAAGGAACCAAGGTTATCCCACAAATGAAAGTAGACAATGATTATCGTGAGCGTTACGGTAAAATTCTTGAAACATATGATCCAAAAAATGCTGTGCCAAATGCATTTGTTTATAGCCAAGACCAATTTTAA MSATYNVWAETKTRNNLQVDEVVSSLQKSIRRAMVEEACAYAYELYISSPQLLDRMWRRLLTISVEDIGFGNLDAAIHVQNLNEMRKNFPYSDGDQPMYFIHAIRILCESTKDRSSDFLKNIIIKGFAMGQKPEIMDVALDKHTKRGKEMGRGSKHFFEEGTKVIPQMKVDNDYRERYGKILETYDPKNAVPNAFVYSQDQF NA NA NA NA NA AK015_02403 315 licA_3 COG1447 Lichenan-specific phosphotransferase enzyme IIA component ATGTCCAAAGTAGAGCGGTTATCAGAAATAGCAATGAAAATTATTACCTGTGCAGGGCTTGCTAAATCGAATTATTTAATGGCTTTAGAAGATGCGAAAAAAGGTAATGTAGAAGAAGCGCAAAAAAAATTACAAGAAGGTTCCGATGTATTTGCTGAGGCGCATCATGTGCATGCCTCTGCATTATCTGATGAAATGAAAGAATTGGAGCCACAAGTAACATTACTACTCGTGCATGCTGAAGATCAGCTTATGAATGCAGAAACGATAAAAATATTAGTGCAAGAATTAATGGAAATTTATCAGGCAAAATAA MSKVERLSEIAMKIITCAGLAKSNYLMALEDAKKGNVEEAQKKLQEGSDVFAEAHHVHASALSDEMKELEPQVTLLLVHAEDQLMNAETIKILVQELMEIYQAK PGPT0016980_1331 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 AK015_02404 306 licB COG1440 Lichenan-specific phosphotransferase enzyme IIB component ATGAACATATTATTGGTATGTAATGCTGGAATGTCCAGCTCGATTTTAGTAGATAAAATGAAAAAGGCTGCAGCTGCACAAAATTTGGATGTAGTTGTAGAAGCAAGATCAAATAATGCCATTAACGAAGAAAAAGGAAAATGGGATATTTGTTTAGTAGGCCCACAAATTATCTATGCGGTTGACTCTATTAAAGCAACTTTGGGCATTCCGGTTGCTGCTGTAGAACCACGGACTTATGCCATGGCGAATGGTGAAGAGGCATTGAAACAAGCTTTCAAAATGCATGAGGAAGGGAAAGCATAA MNILLVCNAGMSSSILVDKMKKAAAAQNLDVVVEARSNNAINEEKGKWDICLVGPQIIYAVDSIKATLGIPVAAVEPRTYAMANGEEALKQAFKMHEEGKA PGPT0016975_1454 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 AK015_02405 1956 manR_5 COG1762 Transcriptional regulator ManR ATGTTTACGGAACGACAAAAGGAAATCATTGAGTTAATTTTTAAAAATCCAAATGGTATTTTTGGCGCGAAATTAGCTGATAAATTAAATGTATCCACAAGAACCGTAAGAAACGATATTGCCTCCATCAATAAAACGCTAATTCATGAATCGTTGCGCATTTTGTCTTCGAATAAAAAAGGCTATTATCTTTTGCCTGCAAATATACAGACTTTAACAGCTTTTATGAATCCTACCACCAACATACAGCGTCAAGGATTTCAAAATCAGGAACAACGTTTATATGTTATTTTAGGGAAGGTGCTGTTTTTAAAAGACCAGGATTGCTTTCAATTAGCGGATGAGCTCTACGTGTCCGAACAAACGATTTTTAAGGACTTAAGCAAAATAAGACAACTTTTGGAAACAAAGTATAAAATACAGCCAATGGAAATCCAGCATAATCAAATTTATTTTTCTGTCACAGAGGAAGAAATTAGGTATTTATTGTTTAAAATCTTAAAGGGGCTTATTTTATCGGACAAGCCCGATTATTTAACAGATGTCAACCTGTTAGTAAATGGTCACTTTGATCAAAAAGAGTTTGATTTATTAACGATAAAAATGAAAAATTATTTAGCCTCCCAGAAGCTCATTATAGATGATAAATCGTTTGAAATGATGGTTGGCGCTATTTATCTTACGGTGTTAAGGAATCGATTTGGATTTACAATAAAGTCTGATGTACAGTCCTATTTTAATGGAAATGTCAGTTCTTTATTACAGGAATTGGTGAAATCAGGCATAGATATAAAGGAAAAAGATAAAACGAGTCTCAATCGGTTTTTTTGGTCGCTTAAAATTCCAACAAGCTCGAGTTCGTTAGAAGAAAATATTAGTATAACAGCACTAACCATTTTAAATGAATTTCGTAGAGAAGTATTGGATAAATATAGTATCGATTTAAAAGAAAGCGTAGAAACGATGGAAAATCTGAAAGTGCATATGGAATATATGCTCCGCCGTTTAGATACGAATTATGAATTATCCAATCCAATCATTAATGATATAAAAAAACGTTATCCATTTTCGTATGAAGTAGCAATGTTAATTGTTCATATTGTATATCGTTATCAAGAGAAGTATTTAGCAGATGATGAAATCTCTTATATTGCGATTTATATTGAAATATTTTTACGAAAAAATAATAACCGTTTGAAGACGATTGTTATTAGTGATACGAGTATGGGGATTAATGATATTATTCAAAATTGGCTCACTAGCAACTTCAGGAATCATTTGGAGGTAGTTGCATGCTTGCCATTGATCGCATTAGACAGCTATGTGGAAAGTCATCAAGTGGATTTAATTATTACGACGAATATTTTAAATCTTAATCAAGCTATCCCTTGCCATGTTATTGAGCGAATTCCTGAGCGCAGTGATTATTATTCACTTACAAATAAAATACACAAAATCAAAAATAGTAATCGATATGAAAAGCTGATATTACGCATGTTCAGCGAAGAATTTGTTGATATCTATGAGGAAGAACAGTGGACGTTTGACGAGCTAATTAAAAATATGGCGCAGAAATTAAAAAGACATCACCGCATTCAAGATTTAGAAGGGTATGTAAAGGATGTTATCCAACGTGAGGAAAATTATCCAACAACGATTGGGAAGCATTTTATGATCCCACACCCATTGTCTTCATTTGCCAATAAAACAACCGTTCATGTAGCGGTGCTGAAAAAGCCTCTCTTGCATAAAGGAGAAAAAATTAAAATGGTGTTTTTGCTAGCCATTGAAAATAAAATGGATGATGATGTAAGCACGTTGTTTCACTTTATGCAGCAATTAGCTTTAGATCAGGACTCTATCGCCAGTTTATTAGATGCAGATGGAAAAGAAGCATTTTTAGAGAAAATTATCGCCTTATCGACATCGTTTTTTAACAAACATTATATAGAGTAA MFTERQKEIIELIFKNPNGIFGAKLADKLNVSTRTVRNDIASINKTLIHESLRILSSNKKGYYLLPANIQTLTAFMNPTTNIQRQGFQNQEQRLYVILGKVLFLKDQDCFQLADELYVSEQTIFKDLSKIRQLLETKYKIQPMEIQHNQIYFSVTEEEIRYLLFKILKGLILSDKPDYLTDVNLLVNGHFDQKEFDLLTIKMKNYLASQKLIIDDKSFEMMVGAIYLTVLRNRFGFTIKSDVQSYFNGNVSSLLQELVKSGIDIKEKDKTSLNRFFWSLKIPTSSSSLEENISITALTILNEFRREVLDKYSIDLKESVETMENLKVHMEYMLRRLDTNYELSNPIINDIKKRYPFSYEVAMLIVHIVYRYQEKYLADDEISYIAIYIEIFLRKNNNRLKTIVISDTSMGINDIIQNWLTSNFRNHLEVVACLPLIALDSYVESHQVDLIITTNILNLNQAIPCHVIERIPERSDYYSLTNKIHKIKNSNRYEKLILRMFSEEFVDIYEEEQWTFDELIKNMAQKLKRHHRIQDLEGYVKDVIQREENYPTTIGKHFMIPHPLSSFANKTTVHVAVLKKPLLHKGEKIKMVFLLAIENKMDDDVSTLFHFMQQLALDQDSIASLLDADGKEAFLEKIIALSTSFFNKHYIE NA NA NA NA NA AK015_02406 1269 licC_4 COG1455 Lichenan permease IIC component ATGAACAGCTCAAAACTTCAGTCCACTTTAATGAAATGGCTGATGCCGATTGCGAATAAAGTGGAGCAACAGAAGCATTTACAAGCAATAAAAGACGGAATGATTGCAATTGTTCCAATTATCATCATAGGTTCGTTTTTTATATTGCCGATTGCATTTATGAACGTATTCCAAAGCGGCCCTATTCATGAGTTTTTTGCTAACCATATTGATAAATTAACGTATCCAGATAAGTTTACAAATGGTTTGTTATCCGTTTATGCAGCATTCTTTATTGCTGATTCCTTGGCTAAGAAATATGGGATGCATTCCGCACAATATGGGATTACAGCTGTAATTACACATGTGATTCTGAGCGGTGTTGTTACGGAAAATGGACTTGATATGACTTATTTAGGAGCACAAGGGTTATTCGTTAGTATTATATCTGCTATTTTAAGCGTTGAAGTGACTCGCTTTATGATTAAGAAAAAAATGGTTGTTCGATTGCCAGACAGCGTACCACAAATGGTAGGAGATAGCTTTAGTAATTTATTCCCAATGATTGTTAATATTCTACTTGGTTCTATCATAGCTATTTTATCAACGAGTTTAGGAGAGGTTGCCTTTCCGCAAGTAATTATGAATGTGCTAGCACCAGCAATCAGTTCCATGGATAGCTTGCCATCCTTATTAATTGTTATATTTCTAACGCAATTTCTTTGGTTTTTTGGTTTACACGGTCCAGCCATTACTTCTGCTGTATGGGCGCCATTTGCGATCACATACCAAGCGGAAAATATTGCCAACTACGCAGCAGGTGCTGATGTAACCCATATCTTTACATTTGGGTTATACTATAACATATTACAAGTGTCCGGTTCTGGACTTACATTAGGGCTCGTATTACTTATGATGCGTTCAAGAGCGAAAAACTTAAATGCGATCGGTAAAGTGTCCATTATTCCTTCGTTATTTGGAATTAACGAGCCACTTATCTTTGGCGCTCCAATCATACTAAATCCATTTATGTTTATTCCTTTTGTCTTTGGTCCACTTATTGTTACGACATTAACTTATTTTGGTATGACATCTGGTCTAATGGGTATGCCAATTGCCAACCCACCAGGGTTTTTACCGCCTGGGGTAGGAGCCTTCCTCATGACATTGGATTGGCGAGCAGTTGTATTTGTTTTCCTTAGTTTAATTTTAATGACGCTTATCTATTTGCCATTCTTTAAAGCAATGGAAGCAAACGAAATAAAAAAAGAGAGCGAAAAAACAGTTTAA MNSSKLQSTLMKWLMPIANKVEQQKHLQAIKDGMIAIVPIIIIGSFFILPIAFMNVFQSGPIHEFFANHIDKLTYPDKFTNGLLSVYAAFFIADSLAKKYGMHSAQYGITAVITHVILSGVVTENGLDMTYLGAQGLFVSIISAILSVEVTRFMIKKKMVVRLPDSVPQMVGDSFSNLFPMIVNILLGSIIAILSTSLGEVAFPQVIMNVLAPAISSMDSLPSLLIVIFLTQFLWFFGLHGPAITSAVWAPFAITYQAENIANYAAGADVTHIFTFGLYYNILQVSGSGLTLGLVLLMMRSRAKNLNAIGKVSIIPSLFGINEPLIFGAPIILNPFMFIPFVFGPLIVTTLTYFGMTSGLMGMPIANPPGFLPPGVGAFLMTLDWRAVVFVFLSLILMTLIYLPFFKAMEANEIKKESEKTV PGPT0016970_2778 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 AK015_02407 276 hypothetical protein ATGAGTCGCACCTTTGACCGTAATCGCGAAATGTTACACAAATTAATTGATGACCTTCCAGAAGATAAATTACCAAAAGCTACAGATATATTTGAAAAAATAATCGGCGAAGAAACTGTGAGCGATGAAGACAAAAAAGAATTGGATATCGCACGAAAAGAAATTGCAAATGGAGAATCTTATTCATTTGACGAAGTGTTTGGGAAGTTGGAAAAGGTAATGTACGATATTATTTTCTCCTGTGGTAGATTTTCCAAACCACTGCTTTCGCTGTAG MSRTFDRNREMLHKLIDDLPEDKLPKATDIFEKIIGEETVSDEDKKELDIARKEIANGESYSFDEVFGKLEKVMYDIIFSCGRFSKPLLSL NA NA NA NA NA AK015_02408 543 opcR_3 COG1510 HTH-type transcriptional repressor OpcR ATGGAAAACTTGGAAAATCAAATTGAAAAGTTAGAGAATCAAGTTGTTGAAAAGATAGCAGATAATGTGTATACATTTGGAGTTTCCAAGACAGTTGGACGTGTATTTGGTATTATTTCGTTAAATAGGGATCCGATGACGCTTGAGCAATTGTCTGAAGCTATGGGAATGAGTAAAATGCGGATGAGCCAGGTTGTTCGAGAAATGATTGAATTAAACCTCGCAGAAAAAGTGTTTATGAAAGGTGTTCGCAAGGATTTAGTAAAAGTAGAAAACGATTATTATCAAACGTTTATTGCTTTGTTTACAGCAAATTGGCGGAAAACTATTAGTAAAAGTAGATTGCATGAACATAGCTTATATAAAAAATTGTTGCATTTGCGTGAGGAAGGTGTGCTTAACGCAGAATTAGAAGCACAATTGGATAATTTATTAGTAGAAATTAAAGGTTCGCTCGATTACTTGGATTGGATAAGTCGTCTTATTGAATTTTTTGAGTCTGGTGAGATTTTTAAGCATGTGCCAAAAGCCGAGGATAAATGA MENLENQIEKLENQVVEKIADNVYTFGVSKTVGRVFGIISLNRDPMTLEQLSEAMGMSKMRMSQVVREMIELNLAEKVFMKGVRKDLVKVENDYYQTFIALFTANWRKTISKSRLHEHSLYKKLLHLREEGVLNAELEAQLDNLLVEIKGSLDYLDWISRLIEFFESGEIFKHVPKAEDK PGPT0013690_232 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109 NA NA AK015_02409 1137 opuCA_1 COG1125 Glycine betaine/carnitine/choline transport ATP-binding protein OpuCA TTGCTTCGATTAGAACATGTATCAAAAATATTTGAAGACGGAACAAAAGCAGTCGATGACATTAACTTAGAAATAGGTAGTGGAGAGTTTGTTGTTTTTATCGGCCCAAGCGGCTGCGGAAAAACAACCACCATGAAGATGATTAATCGCTTAATTGAAACGACAGAAGGTAACATTTTTATTGAACAAGAAAATATTAAAGACAAAGACGTTGTCGAACTAAGACGTTCGATCGGCTATGTGATACAACAAATTGGCTTATTTCCTCATATGACGATCGCAGAAAACATTTCACTTGTCCCAAAATTACTTCACTGGCCGGAGGATAAGCGTCGTGCACGTGCAGAAGAATTACTACAGCTCGTAAATATGGATAAAGCTTACTTAGATAAATATCCGAATGAACTAAGTGGTGGTCAACAGCAACGAATCGGTGTCCAACGTGCTCTCGCCGCTGACCCACCACTTATTTTAATGGACGAACCTTTTGGAGCACTCGATCCAATCACTCGTGATAGTTTACAAGAAGAATTTAAAAAGCTGCAACAATCCTTAGGAAAAACAATCGTATTTGTTACGCATGATATGGATGAAGCCATTAAACTAGCAGATCGTATCGTCATTATGCGCCAAGGAAAAATTGTTCAGGTAGGATCACCAGAAGAAATTCTTAGTCAGCCGGCGAATGCGTTCGTCGAAGAATTCATTGGAAAACACCGCCTCATTGAATCTAGACCAACATTACAGACCGTACAACAAATTATGAACGAAAACCCAATTTCCATTAATGAAGAGCAAACCATTTCTGAAGCTATCCGACTAATGAAAGATCATAAAGTTGACTCCTTGCTCGTCATCGATGAAAAACGTGTACTGCAAGGGATGATTGACATCGAAATGATTGAACAAAACAGAAAAAAACAAGGAAATGTGAAAGATATCATGGAAACTTCCATCTATAAGGTAGAACAGCATGCGCTTTTACGTGATACAGTTCACAAAATTTTACGTAATGGTTTCCGCTATGTACCTGTGGTAGATAGGGAAAACAAGCTAATCGGGATTGTAACGCGAGCCAGCTTAGCAAATATTGTCTATGATTCTATCTGGGGAAACAGTGAAAGCATTTCTGTGTAA MLRLEHVSKIFEDGTKAVDDINLEIGSGEFVVFIGPSGCGKTTTMKMINRLIETTEGNIFIEQENIKDKDVVELRRSIGYVIQQIGLFPHMTIAENISLVPKLLHWPEDKRRARAEELLQLVNMDKAYLDKYPNELSGGQQQRIGVQRALAADPPLILMDEPFGALDPITRDSLQEEFKKLQQSLGKTIVFVTHDMDEAIKLADRIVIMRQGKIVQVGSPEEILSQPANAFVEEFIGKHRLIESRPTLQTVQQIMNENPISINEEQTISEAIRLMKDHKVDSLLVIDEKRVLQGMIDIEMIEQNRKKQGNVKDIMETSIYKVEQHALLRDTVHKILRNGFRYVPVVDRENKLIGIVTRASLANIVYDSIWGNSESISV PGPT0013585_959 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847 NA NA AK015_02410 654 opuCB COG1174 Glycine betaine/carnitine/choline transport system permease protein OpuCB GTGGAGACATTGCAAACATTTTTTGCGGAATACGGAAATCAATTGTTATTTAAAACGTGGGAACATCTATATATTTCTCTCATCTCGATATCTTTAGGAATCTTCGTTGCTGTTCCACTAGGAGTGGCATTAACACGTATTCCTAAAGTAGCGGACAAAATCATGTCCCTGGTAGGTATTATTCAAACATTCCCTACTTTAGCGATATTAGCCTTCTTCATCCCACTTTTAGGAATAGGAAAAGTGCCTGCTATCGTTGCCTTATTTTTCTACTCTCTCCTCCCTATTCTTCGTAATACGTACACAGGTGTTTATAGCGTAAGTGACAATATTATTGAAGCCGGCCGAGGAATGGGCATGACAAGCTGGGAACGAATACGCATGGTGGAATTACCACTAGCAGTCCCTGTAATCATGGCAGGCATTCGCGTATCTACCGTCTACTTAATCGGTTGGGCAACGCTCGCCTCTTATATTGGTGCAGGAGGTTTAGGTGACTTTATTTTTGATGGTCTGAATTTATTTAAAACCGAATTCATTTTGGCAGGAGCGATTCCGACGACCTTGCTCGCTTTAATAATTGATTATGTATTAGGTCGACTAGAAGCACGTCTAACCCCTACAGGACTTAGAAATCCATCGGAAGCTGCATAG METLQTFFAEYGNQLLFKTWEHLYISLISISLGIFVAVPLGVALTRIPKVADKIMSLVGIIQTFPTLAILAFFIPLLGIGKVPAIVALFFYSLLPILRNTYTGVYSVSDNIIEAGRGMGMTSWERIRMVELPLAVPVIMAGIRVSTVYLIGWATLASYIGAGGLGDFIFDGLNLFKTEFILAGAIPTTLLALIIDYVLGRLEARLTPTGLRNPSEAA PGPT0013581_93 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA NA NA AK015_02411 918 opuCC COG1732 Glycine betaine/carnitine/choline-binding protein OpuCC TTGTTGCATGTTAGAAAGATACTCATCATCTTGACAATCACTTTACTACTACTAAGTGGTTGCTCGTTACCAGGTCTAAGCGGCTCTTCCAAAGATACATTAAAAATTGGCACCTTAAACACGTCTGAATCGATGACTGTTGGATACATTATTAAACAATTAATTGAACATAAAACCGATTATCATGCAGAGATCATTGGAAATATGGGATCATCCATTGTCCAGCACCAAGCACTTGAACAAGGAGAAGTCGATATAACAGGAACGAGGTATACAGGTACTGACTTACCTGGCGCTTTACAAATGGAACTGATTACTGATCCAGATAAAGCTTTGAAAGTAGTACAAAGGGAGTTTAAGGAACGTTTTGACCAAACTTGGTTCGATCCTTATGGTTTTGAAAACTCGTATGCATTTACCGTTACAAGTGAACTAGCTAAAGAAAAAAGTTTAGAAAAAGTTTCCGATGTGGAACCGTATGCTGCTGATTTACGTCTTGGAGTGGATAATTCTTGGTTAAACCGTGAAGGGGACGGTTACCAAGGGTTTATTGATACGTATGGGTTTGAATTTGGCAAAGCATATCCGATGCAAATTGGACTAGTCTATCAAGCGGTTGATAGTGGCAATATGGATGTCGTTCTTGCCTATACAACAGACGGGCGAATTGAAGAATTTAATCTTGTCAACTTAGAAGATGATAAAGATTTCTTCCCACCTTACGACGCTTCACCTGTAGCAAGAAACGATATATTGGAAAAGTACCCTGAAGTACGTGATATCTTGGAATCTTTAGCTGGAAAAATTGATGAAGAAACAATGCGTCATATGAACTATGAGGCAGATGTAAAAATGAAAGAACCTTATGTTGTCGCAAAAGAATTTTTAGAAGAGCATCATTACTTTGAACATGAATAA MLHVRKILIILTITLLLLSGCSLPGLSGSSKDTLKIGTLNTSESMTVGYIIKQLIEHKTDYHAEIIGNMGSSIVQHQALEQGEVDITGTRYTGTDLPGALQMELITDPDKALKVVQREFKERFDQTWFDPYGFENSYAFTVTSELAKEKSLEKVSDVEPYAADLRLGVDNSWLNREGDGYQGFIDTYGFEFGKAYPMQIGLVYQAVDSGNMDVVLAYTTDGRIEEFNLVNLEDDKDFFPPYDASPVARNDILEKYPEVRDILESLAGKIDEETMRHMNYEADVKMKEPYVVAKEFLEEHHYFEHE PGPT0013582_107 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013582-opuCC|yvbC-NA NA NA AK015_02412 639 opuCD COG1174 Glycine betaine/carnitine/choline transport system permease protein OpuCD TTGGAAACGTTAGTGGAGTTATGGAACTATTATGCACAAAATTATGCTTATGTATGGGAAGAATTTTATCGACATTTTCTCATGTCTGCTTATGGAGTGTTATTTGCAGCTATTGTCGCTATTCCTGTAGGCATTTTCATCGCCAGAAAAGCCCATTTAAGTAAGTGGATATTTTCATTTACAAATGTTATTCAAACCATTCCAGCATTAGCAATGCTAGCAGTGTTAATGTTGGTATTAGGGTTAGGCCCAAACACCGTTGTCGCTGCATTATTTTTATATTCCCTACTTCCAATTGTTCGTAACACATATACAGGAATCCGCAATGTTGATCAAGCATTAATCGAATCAGGGAGAGGAATGGGGATGACAAAGTTGCAATTATTACGAATGGTTGAATTCCCCTTAGCTCTTTCCGTCATCATGGCTGGGCTTCGAACAGCACTCGTAATTAGCATTAGTATCGCTACGATTGGTGCTTTTATTGGAGGTGGCGGTTTAGGAGCAATCATCATCCGAGGCACGAACGTATCCGATGGAACAGCCATTATTTTAGCTGGGGCCATTCCGACAGCACTCATGGCGGTCGTTGCTGACTTGGGCTTGGGGTGGATTGAAAAACGACTGATGCCGCGGTAA METLVELWNYYAQNYAYVWEEFYRHFLMSAYGVLFAAIVAIPVGIFIARKAHLSKWIFSFTNVIQTIPALAMLAVLMLVLGLGPNTVVAALFLYSLLPIVRNTYTGIRNVDQALIESGRGMGMTKLQLLRMVEFPLALSVIMAGLRTALVISISIATIGAFIGGGGLGAIIIRGTNVSDGTAIILAGAIPTALMAVVADLGLGWIEKRLMPR PGPT0013583_77 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013583-opuCD|osmY-NA NA NA AK015_02413 1299 rfnT Riboflavin transporter RfnT ATGAAAGAAGATAAGAAAATGATTCAACATTATATGGAGTCACAGGAAGAAAGGCAAAAGCTGTATAAACGATCTTTATGGATTGTTTTACTATCGCAAATTTTTGGCGGTGCAGGATTAGCTGCTGGTATTACTGTTGGAGCACTGCTAGCTCAAGATATGCTAGGAACAGAAAGTTTTGCAGGGGTACCGGCAGCTTTATTTACACTTGGTTCTGCACTAGCTGCATATCTTGTAGGGCGTTTGACACAACGTTTAGGACGTCGTCATGGGTTGACCTTTGGATTTATTTCCGGGGGTGTTGGCGCTATTGGCGTCATAGTAGCTGCGAACATGAATAGTGTACTGTTGTTATTTATATCTCTTTTTGTGTATGGTGCAGGTACAGCGACGAACTTAATGGCTCGTTATGCGGGTACGGACCTCGCTTCTGAAAAACAACGGGCTAAATCTGTTAGTATTGCTATGGTTGCCACGACATTTGGCGCTGTGGCTGGTCCTAATTTAGTTACACCAATGGGAGAAGTGGCTAAGGCTATCGGGATGCACCCATTAGCTGGTCCATTTATTCTTGCTGCCGTAGCCTATTTGTTAGCTGGGCTAACGATTTTCTTGTTCATGCGACCAGACCCTTTAATCATTGCAAGGGCTCTAGCCGCTTATGAAGCAAAGCAAAAGCATACTGAATCTGTAGAATCTATTCCAGCACAAAAAGTAAGTCGCGTTGGGATATTTGCTGGGGCAATGCTCCTAGTGTTATCTCAAGTTGTCATGGTGGCGGTTATGACAATGACACCCGTTCATATGCAAAATCACGGTGGCGGCTTAACAGCAATTGGAATGGTGATTGGTCTTCATATCGCGGCGATGTATTTGCCATCACTTGGTACAGGAGCGTTAGTAGATCGGATTGGTAGAAATGCCATGGCGGTCGCCACAGCAATTACGTTAGCTATATCTGGAGTTTTGGCCGCTTTTGTCCCTGGTGATTCATTCATTGGTTTAACGATCGCTCTTGTTCTATTAGGTCTTGGTTGGAACTTCGGGGTTATCAGTGGAACATCCATTATTATTGATTCCACAACGATTCATCATCGAGCGAAAACACAAGGGTCCATTGATGTTTGGGTAGCACTTGGTGGTTCATTCGGAAGTGTTGTATCAGGTGTTATCGTTGCTTATTCAAGCTATGCGATGTTGGGTTTTATCGGTACATCTGTCGCGCTTATGTTAATACCGATCGTATATTGGGCACGATTAAAACAAAAAAGAAGGGAAGAATCCACGCTGTCTGCATGA MKEDKKMIQHYMESQEERQKLYKRSLWIVLLSQIFGGAGLAAGITVGALLAQDMLGTESFAGVPAALFTLGSALAAYLVGRLTQRLGRRHGLTFGFISGGVGAIGVIVAANMNSVLLLFISLFVYGAGTATNLMARYAGTDLASEKQRAKSVSIAMVATTFGAVAGPNLVTPMGEVAKAIGMHPLAGPFILAAVAYLLAGLTIFLFMRPDPLIIARALAAYEAKQKHTESVESIPAQKVSRVGIFAGAMLLVLSQVVMVAVMTMTPVHMQNHGGGLTAIGMVIGLHIAAMYLPSLGTGALVDRIGRNAMAVATAITLAISGVLAAFVPGDSFIGLTIALVLLGLGWNFGVISGTSIIIDSTTIHHRAKTQGSIDVWVALGGSFGSVVSGVIVAYSSYAMLGFIGTSVALMLIPIVYWARLKQKRREESTLSA NA NA NA NA NA AK015_02414 555 hypothetical protein ATGAATATAAAAGGTAAACAAGTATACCCTAATTGCCCAACTATTCATAGAGCTTTAGTAATTGGTGGGATGACTAAAACCCAGCTTATTCAAAAATTGCAACAAAGCACCATCGCATTAAACGAATATGCACAACAACTGTTCGCTAGTGATATATTTACAACTTCTCATACAAAATATACGGTACACACCGTACAATTAACCGTACGTGACCTTGGTTACGCTAAAGGAGCTACTACGCATGAGCTGTTTAAACGAGCGAGCGACCTCGGTTTAAAATTATGCCCTCTTGAATTAGCGGTCTACCTCAGACTGGAATACGTAAATCAGCCAGAATATAGCTTGAATAATAGTTCAAAACGCCATCAAGCTCCATCTGGCTCCATTACAATAGCATCGGAAATACGAACAGAGGACGATCATTTCCCTAAAGGGTTCTACCTAAGACGAATTAACGACGTATTATGGCTTCGAGGTTACCTTGCTGATCACTTGCACGTATGGAACCCAGGCGACCACTTTATTTTTTGCCAAACAACTTTTAGAAAAACTTAG MNIKGKQVYPNCPTIHRALVIGGMTKTQLIQKLQQSTIALNEYAQQLFASDIFTTSHTKYTVHTVQLTVRDLGYAKGATTHELFKRASDLGLKLCPLELAVYLRLEYVNQPEYSLNNSSKRHQAPSGSITIASEIRTEDDHFPKGFYLRRINDVLWLRGYLADHLHVWNPGDHFIFCQTTFRKT NA NA NA NA NA AK015_02415 2010 mcpB_2 COG0840 Methyl-accepting chemotaxis protein McpB ATGATCACTAACAAAAATAACCGACATATTTTTAAACAAAAATCAATAAAAACAAAATTACTTATTCCTTTTACACTGCTCATTCTATTTGCAGGTGGAACAGTTGCACTTATTAGTTATAATTTTACCATTAAAATGATGGTGAATGAACTGACAAATAGTTCAGAAAGCCAAATGAAAAGTATGAGCGAAACATTTGACATGTTTTTTAGTAATACAGACAATATTATCCAACAGTATACTGTTAATAGCTTACTGTTGGAGTATAAACAAGAAAATCATGCGGAATTAATATCACGTTTACAAGAGACTAAAGATGCTCATGCTTCGATTGCGTTTATATACGCAGGTGATGAAAAGACAGGGGATATGATTGATCCTACAGGTGATTTAGATGAAAACTACAACCCGAAAGAAAGACCTTGGTATCAACAGGCTGTAAAAGCAGATGGAGAGACGATTTGGACGCGTCCTTATGTGGATGAAGGTACAGGAAAAACGGTGTTGACAGCAGCAAGGGCTTATTATGATAATCAGAAGTTGCAGGGTGTATTTGCTGTTGATGTAACGATCAATACGTTAATGGATATGGTAAAACAGGTGAGTATAGGAGAAACGGGTTATGCAATGGTACTTGACCAAGCAGGGCATTATATTGTTCATCCAGAGGAAGAAAAAGTAGGACAGCAAATGGATGAGATTTTGTTTGAAAAGTTAACAAATACGCAAAAGCAAGGATCTTTGGAATACGAAGTAAATGACGAAGAGAAAGTGATCAGCTTTGCTACAAATCCAACTACTGGCTGGATTATTGGTGGAACAGTAGATCAAGCGGAATTTGCCAGTAAAGCCAAAAGTGTCATTATACCTATTGTTGTTGCTTTAATTATCGTTATTATTATCGGTGTCATTCTCTCCTTGCTCATTACGAATCGAATAACAAAACCGATTAAATCTGTTATGTATCGCATGAATAAGATTGCTGCTGGTGACTTGAGCGACCCACCATTAATCTCAAATTCAGCAGATGAAACAGGGCAACTCGTTCGCGCTTCTAATAAGATGGGGGAAAATATGCGCCATTTACTGGATGAAATGCAGACAGCTTCCGAGGCGGTTCGTCATCATAGTGAAGACCTAACGCAATTTGCGAATGAAGTACATGCTGGTACAGATCAAATTGCTGCAACGATGGAGGAACTTGCTGCAGGTTCAGAGACGCAAGCTCATAGTGCGAATCAGTTAGCTCATGGGATGGGTGAATTTGACACGAAAATGAAAGATGTGAATGAAAAAGGGGAGCTGACGGAGACGAACTCTAAAAAAGTTCAAAACTTAACAGATGAAGGAAGCAGGCGAATGCAAGCATCGAAGGAACAAATGGATACCATTTATCATATTGTTCATGAGGCGGTTGAAAAAGTGAGAGGTCTTGATCAGCAGTCAAAACAGATTAGTGAATTAATTACGATCGTTCATGATATTGCAGATCAAACGAATTTATTAGCTTTGAATGCTTCTATAGAAGCTGCTCGTGCAGGGGAACATGGACAAGGCTTTGCCGTAGTAGCCACGGAGATAAGAAAGCTTGCAGAAGAAGTGGCAACATCTGTAACGGATATTACGGAAATTGTAGGCAATATTCAACAAGAATCGATGAACGTAACGACATCTTTACAAACGGGGTACCAAGAGGTAGAAGTGGGGGCAAGCCAAATTCAAACGACGTTAGAAACATTTGTACAAATTAACACATCTATTGCTAAAATGGGAGAGCATATTACAAACATCTCCAATCATCTCCGTGATATGACAGCGTCAAGCCAAGATATGAATCGTTCGATTGAGGAGGTTGCTTCTAGTGCAGAACAGGCTGCTGCTGGGGTAGAAGAAATATCTGCGACTACAGAAGAAACAAGTAGTTCTATGGAAGAGATTGTTCGTAATTCGGAAAAAATGGAGAAGTTAGCAGACAAGCTTCATCAGTTGATGACGAAGTTTACATTTTAG MITNKNNRHIFKQKSIKTKLLIPFTLLILFAGGTVALISYNFTIKMMVNELTNSSESQMKSMSETFDMFFSNTDNIIQQYTVNSLLLEYKQENHAELISRLQETKDAHASIAFIYAGDEKTGDMIDPTGDLDENYNPKERPWYQQAVKADGETIWTRPYVDEGTGKTVLTAARAYYDNQKLQGVFAVDVTINTLMDMVKQVSIGETGYAMVLDQAGHYIVHPEEEKVGQQMDEILFEKLTNTQKQGSLEYEVNDEEKVISFATNPTTGWIIGGTVDQAEFASKAKSVIIPIVVALIIVIIIGVILSLLITNRITKPIKSVMYRMNKIAAGDLSDPPLISNSADETGQLVRASNKMGENMRHLLDEMQTASEAVRHHSEDLTQFANEVHAGTDQIAATMEELAAGSETQAHSANQLAHGMGEFDTKMKDVNEKGELTETNSKKVQNLTDEGSRRMQASKEQMDTIYHIVHEAVEKVRGLDQQSKQISELITIVHDIADQTNLLALNASIEAARAGEHGQGFAVVATEIRKLAEEVATSVTDITEIVGNIQQESMNVTTSLQTGYQEVEVGASQIQTTLETFVQINTSIAKMGEHITNISNHLRDMTASSQDMNRSIEEVASSAEQAAAGVEEISATTEETSSSMEEIVRNSEKMEKLADKLHQLMTKFTF PGPT0015710_6361 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 AK015_02416 489 argR_1 Arginine repressor ATGAATAAGCAAAAGCGTCAACGAAAAATAAGGGAACTTATTATGACAAATGATATTGGAACACAAGCAGATTTACGCAAACGGTTATCCGATGCTGGTTATCATGTAGCGAAGTCCACACTCTCTAAAGATTTAAAAGAAATGGAGATAGGTAAAAAGCGTTTTCCTAATGGGGATAACGTGTATTGCTTTTTTGGCAATGTTAATAAACATACGAATCATCCGATAAAAAAAATGCAGGAATTATTTTCTGATACGATACGATCTGTTCATGTTTCAGGTAACTTTGTTATTGTAAAGTCAGAACCAGGCAATGCTAAAGCGATTGGTTATTTCATCGAGTGCCTTCATTGGAAAGAGGTTGCTGGTGTTATTAGCGGAGACGACAACTGTTTATTGCTTTGCCGAACGAAAATGGAGGCGAATAACATAAAACATCGATTTAACTCCATAAATTTCCGTACAACGACAAATTTAGAAGAATTCTAG MNKQKRQRKIRELIMTNDIGTQADLRKRLSDAGYHVAKSTLSKDLKEMEIGKKRFPNGDNVYCFFGNVNKHTNHPIKKMQELFSDTIRSVHVSGNFVIVKSEPGNAKAIGYFIECLHWKEVAGVISGDDNCLLLCRTKMEANNIKHRFNSINFRTTTNLEEF PGPT0020105_615 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402 NA NA AK015_02417 942 arcC1_1 Carbamate kinase 1 ATGACAAGTAAACGTATTGTTATTGCGCTTGGTGGAAATGCGATTCAATCTGGAAGTGCCACTGCTATAGCGCAACAGCAAGCATTAAACCAAACAGCAGAACAATTAATTAAGATTATAAAACAAGGTTACCAAGTAGCCATTACCCATGGAAATGGTCCTCAAGTTGGCAATATATTATTACAGCAAATACAGTCAGATAGTGAACAAACACCTGCCATGCCCTTAGATACATGTGGGGCAATGAGTCAGGGAATGCTTGGTTATTGGTTGGAAAATGCGTTAGATGAACAATTGCAGAAAGAAGGATTGGATAAAGAGGTTGCTTCTATTGTTACACGTGTAGAAGTAGATCCTACTGATGAAGCTTTTCGTCATCCAACAAAGCCTATTGGTCCTTTTTACTCCGAAGAGGAAGCTAAAAAACAAATGCAAACAGATGATGTACAATTTCGTGAGGATGCTGGACGAGGCTTTCGGAAAGTTGTCCCTTCCCCACAGCCTGTAAGCATCTTAGAGCATGCGGTCATTAAATCAATGGTGAATAACGATACTGTTGTTATTAGCACAGGAGGTGGAGGTGTTCCAGTATATCGACAAGACAATAAAATTTTTGGCTTGGAAGCAGTCATCGATAAAGATTTTGCCTCCGAGACATTAGCAGAACTCATTCAAGCAGACACTTTAATAATTTTAACTGAAGTCGAGCATGTATATACGAATTATAATTCTCCACAGCAACAAGCGCTTCATGAAGTAGGGGTAGAAGAACTGAAAAGGTTTGCTGAAGAAGGACAGTTTGCTGTGGGTAGTATGCTTCCTAAAGTAAGAGCTGCCATCGCGTTTGCTGAATCAAAACTAGGAAGGAAATGTATTATTACGTCACTAAATAAAGCATTAGAAGCGATAGAAGGGCGTGCCGGAACGATCGTTAAAGCATAG MTSKRIVIALGGNAIQSGSATAIAQQQALNQTAEQLIKIIKQGYQVAITHGNGPQVGNILLQQIQSDSEQTPAMPLDTCGAMSQGMLGYWLENALDEQLQKEGLDKEVASIVTRVEVDPTDEAFRHPTKPIGPFYSEEEAKKQMQTDDVQFREDAGRGFRKVVPSPQPVSILEHAVIKSMVNNDTVVISTGGGGVPVYRQDNKIFGLEAVIDKDFASETLAELIQADTLIILTEVEHVYTNYNSPQQQALHEVGVEELKRFAEEGQFAVGSMLPKVRAAIAFAESKLGRKCIITSLNKALEAIEGRAGTIVKA PGPT0020085_697 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926 NA NA AK015_02418 1428 arcD_1 COG0531 Arginine/ornithine antiporter ATGGGTGAAGACGATAAAAGGCTAAGTCTCGTTGCGTTGATTGCGCTTGTAGTTGGTTCCATGGTCGGTGGAGGCGCATTTAACTTAGCGGGAGATATTGCGCTTGGAGCCAATGCTGGTGCTGTCATTATCGGCTGGATTATAACTGGAATTGGGATTATAGCACTTGCTTTTGTCTTTCAAAATTTAACAATGAGAAAACCCGAACTTGACAGTGGTATATACAGCTATGCGAAAGATGGGTTTGGCACGTTTTTAGGTTTTAATAGTGCCTGGGGGTATTGGCTATCCGCTTGGTTAGGTAACGTAGCCTATGCGACGTTGGTATTCTCCTCCATTGGTTATTTTATCCCGGTATTTGAAGGAGGGCAAAATATAGCCAGTATACTAGGAGCATCAGTTGCTTTATGGCTCGTGCACTACCTGGTATTGCGAGGGATAAACTCTGCTGCATTTATTAACACAATTGCTACGATTGCAAAAGTAATCCCAATATTCCTGTTTCTTATCATTGCAATTATTGGATTCAAATGGGATACTTTTACATTTGAGTTTTGGGGAAGTGAAGGGTTTTCGTGGGGATCTGTTTCAGAACAAGTGAAAAGTACGATGCTTGTAACATTATGGGTGTTTATTGGTATTGAAGGCGCAGTTGTTATGTCCGGGCGGGCGAAAAATCGATCTGATGTAGGAAAAGCAACTGTCATTGGTTTGATCAGTGTCTTGCTTATTTATATTTTAATTTCTTTACTCTCCTTAGGAATTATGCCTAGAGAGGAGTTAGCCGCATTACCTAACCCAGCTATGGCTTACGTGATGGAAGAAATTGTCGGAAAATGGGGAGCCATTGTTATTAACCTCGGGCTAATCATTTCTGTTATGGGAGCATGGCTAGGATGGACGATGTTTGCGGCTGAATTGCCTTATGTCACTGCAAAAGATAAAGTGTTTCCAAAATGGTTAGCCAAAGAAAATAAAAATAAAGCACCTGTTAACTCTTTATGGCTAACAAATGGTCTCGTACAGCTATTTTTAATTACACTTTTATTTTCAGAAACGGCTTATAACTTTACTTTTTCACTAGCATCTTCAGCGATTTTAATTCCGTATATGCTGTCTGCATTCTATCAAGTAAAACTGACTTTAACGGGCGAAACGTATCAATCAGTGAAGAAACGTAAAAAGGAAAAAATCGTCGGTGTCATTGCAAGTATTTATGCAATATGGCTTGTATATGCAGCTGGAATCGATTATTTATTGTTAACAATGTTGCTGTATGCACCAGGCATTATTCTTTATAAATGGGCATTAAAAGAAAATAATATTCAAAAACAAGATACAAAAATAGAAAGAATGTTCATGTTTATCATTGTTATCTTAGGTGTTATCGCACTAGCGGGATTAATGACTGGAAAAATAAATGTTTAA MGEDDKRLSLVALIALVVGSMVGGGAFNLAGDIALGANAGAVIIGWIITGIGIIALAFVFQNLTMRKPELDSGIYSYAKDGFGTFLGFNSAWGYWLSAWLGNVAYATLVFSSIGYFIPVFEGGQNIASILGASVALWLVHYLVLRGINSAAFINTIATIAKVIPIFLFLIIAIIGFKWDTFTFEFWGSEGFSWGSVSEQVKSTMLVTLWVFIGIEGAVVMSGRAKNRSDVGKATVIGLISVLLIYILISLLSLGIMPREELAALPNPAMAYVMEEIVGKWGAIVINLGLIISVMGAWLGWTMFAAELPYVTAKDKVFPKWLAKENKNKAPVNSLWLTNGLVQLFLITLLFSETAYNFTFSLASSAILIPYMLSAFYQVKLTLTGETYQSVKKRKKEKIVGVIASIYAIWLVYAAGIDYLLLTMLLYAPGIILYKWALKENNIQKQDTKIERMFMFIIVILGVIALAGLMTGKINV PGPT0020620_659 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 AK015_02419 1017 arcB_1 Ornithine carbamoyltransferase, catabolic ATGGGGACAACTTTAACAAATCAATTAGCAGGTAGACATTTTTTAACATTAAAAGATTTTACAACAGAAGAAATTCACTATTTGCTTGATCTTGCTAGCGATCTTAAAGAAAAGAAAAAAGCCGGCATCACGCATCGCTACATGGAGGGGCAAAATATTGCTTTATTATTTGAAAAACCGTCAACGAGAACGCGATGTGCTTTTACGGTTGCTTGTATCGACCTAGGAGCCCATCCAGAATACCTTGGAAAGAATGATATTCAATTTGGTAAGAAAGAGTCTGTTCGTGATACAGCTATTGTGCTAGGAAGAATGTTTGATGGTATCCAATTTCGAGGATTTGAACAAAGCACAGTTAATGGTCTAGCCGAACATTCGGGCGTACCAGTTTGGAATGGATTAACGAACCAATTTCATCCAACGCAAATTCTTGCTGATTTATTAACAATTAAAGAAAATATTGGTCATCTTAAAGGCGTAAAACTGGTCTATGTTGGTGATGGCAGAAACAATATGGGAAATAGCTTGCTAATTGGTGGTGCAAAAGTCGGTATGGATGTACGCATTTGTTCACCTGAAAGTTTGTTTCCTGAACAAGACGTCATTGCTTATGCCAAAGAAGTGTCTAAAGAGTCTGGTGGCAAAATAACAGTTACGTCGAACATTGATGAAGCAGTTTCGGGAGCTGACGTGATTTATACAGATGTCTGGGTGTCTATGGGAGAAGAAGACCAATTTAAAGAACGAATAGAATTACTGTCTCCTTATCAAGTAAATAAAAAAATGCTCGACAAAACAGGGAATAAGCAAGTGATGTTTTTGCACTGTTTACCAAGCTTTCATGATTTAGAGACGGAAGTAGGTAGAGAAATTTATGAAAAGTTTGGTCTTAAAGAAATGGAAGTAACAGATGAGGTCTTTCAAAGTGAAAATTCCTTTGTATTTGAAGAAGCAGAAAATAGGTTGCACACGATTAAAGCTGTGATGGCTGCGACAAACGGAAGTGTAAAAAGCTAA MGTTLTNQLAGRHFLTLKDFTTEEIHYLLDLASDLKEKKKAGITHRYMEGQNIALLFEKPSTRTRCAFTVACIDLGAHPEYLGKNDIQFGKKESVRDTAIVLGRMFDGIQFRGFEQSTVNGLAEHSGVPVWNGLTNQFHPTQILADLLTIKENIGHLKGVKLVYVGDGRNNMGNSLLIGGAKVGMDVRICSPESLFPEQDVIAYAKEVSKESGGKITVTSNIDEAVSGADVIYTDVWVSMGEEDQFKERIELLSPYQVNKKMLDKTGNKQVMFLHCLPSFHDLETEVGREIYEKFGLKEMEVTDEVFQSENSFVFEEAENRLHTIKAVMAATNGSVKS PGPT0020080_729 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 AK015_02420 1233 arcA_2 Arginine deiminase TTGAAACATCCATTACATGTTACGTCAGAAATTGGAGAATTACAAACGGTTTTATTACATCGTCCAGGAGAGGAAGTCGAAAATTTAACTCCCGAGTATTTACAACATTTGCTATTTGATGACATTCCATATCTACCTCTTATTCAAAAAGAACATGATTATTTTGCCCAGGCATTACGAAATCGGGGAATAGAAGTGTTGTACCTTACTACTTTATTGACAGAAGCACTTCATACAGATGACTTAAAAAAGCAATTTGTAGCAGATGTGCTTAAGGAATCCAATTTGAGTATGAATGGTTCTTCCCAACAAATTGCTGATTATTTATTATCGTTTGAAACAGAAGCAATGGTAAAAAAGATAATGGCTGGAGTTAGGAAATCGGAAATTTCTTTAGAGAAAAAGACGCATTTGTATGAGCTATTAGATGACCACTATCCATTTTATTTAGACCCAATGCCAAATCTATACTTTACGCGGGATCCAGCAGCAACGATTGGCAATGGTTTAACCATTAATACGATGCGAGAAGTTGCAAGAAGGCGAGAATCCTTATTTATGAGCTACATTATTCATTATCACCCAAGATATGCGCAATATGATATTCCAATCTGGTTAGACAGAGACTACCCGCATCCAATTGAAGGCGGCGATGAGCTTGTGTTAAGTAAGGATACCGTTGCTATTGGAATTAGTGCTAGAACAGCGGCAAAATCTATTGAACGGTTAGCGGTCAACCTGTTTAAACGACAAGCAGATATGAAACGAGTAGTTGCTGTTGAAATACCAAAATCTAGGGCGTTCATGCATTTAGACACTGTTTTCACTATGGTGGATTACGATAAATTCACCATTCATCCAGAAATCCAGAATAAAAAAGGTGAAATGAATATTTATATTCTCGAAAAAGGAAGAGATGAAGATACAGTCAAGATTACCCACAAAACGAATTTAATGGAGGCGCTGAAAGAGGCGCTAGGTCTGAAGGAAGTAACGTTAATTCCATGTGGTGGTGGAGATGTTATTGCTGCACCAAGAGAACAATGGAACGATGGGTCTAACACATTGGCGATTGCACCAGGCGTCGTTGTCACATATGACCGAAACTATGTTTCCAATAAACTACTTCGCGACCATGGAATCGAAGTCATAGAGGTTATCAGTTCTGAATTATCTAGAGGGCGTGGCGGTCCGCGTTGTATGAGTATGCCACTTGTTCGTAAAGATATTTAA MKHPLHVTSEIGELQTVLLHRPGEEVENLTPEYLQHLLFDDIPYLPLIQKEHDYFAQALRNRGIEVLYLTTLLTEALHTDDLKKQFVADVLKESNLSMNGSSQQIADYLLSFETEAMVKKIMAGVRKSEISLEKKTHLYELLDDHYPFYLDPMPNLYFTRDPAATIGNGLTINTMREVARRRESLFMSYIIHYHPRYAQYDIPIWLDRDYPHPIEGGDELVLSKDTVAIGISARTAAKSIERLAVNLFKRQADMKRVVAVEIPKSRAFMHLDTVFTMVDYDKFTIHPEIQNKKGEMNIYILEKGRDEDTVKITHKTNLMEALKEALGLKEVTLIPCGGGDVIAAPREQWNDGSNTLAIAPGVVVTYDRNYVSNKLLRDHGIEVIEVISSELSRGRGGPRCMSMPLVRKDI PGPT0020075_654 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478 NA NA AK015_02421 480 argS_2 Arginine--tRNA ligase ATGGAAGAAGTAGGCGTTGATGCCATGCGTTACATGATGAATACGCGCTCCTGTGATACGCATTTGGATTTTGATATAAATCTTGCCCGTTCCCAATCGAATGACAACCCGGTTTATTATGTACAATATGCGCATGCACGAATTTGTACGTTATTAGATAAGGCAGAAACAAATGGTTATGCTTATGAAAAGTATGACAGTTATTTATTAAAACAAACGAGTGAAATAAACTTGTTAAAACTATTAGCTACATTTCCGCAACTGGTGTTGGATGCTGCGGAGAAACGAATTCCGCATAAAATAACCCAGTATGCATTTGATGTAGCTTCTCAATTGCACAGTTTCTATAATGCAGAGAAAGTGTTAGATGAAAGTCAGTTAGAAGTAACGAAAGCAAGGCTAGCGTTGCTAGAAGCAGTTAAAATAACGCTTGGTAATGCGCTTCGTATGGTTGGTGTACATGCACCAGAAAAAATGTAA MEEVGVDAMRYMMNTRSCDTHLDFDINLARSQSNDNPVYYVQYAHARICTLLDKAETNGYAYEKYDSYLLKQTSEINLLKLLATFPQLVLDAAEKRIPHKITQYAFDVASQLHSFYNAEKVLDESQLEVTKARLALLEAVKITLGNALRMVGVHAPEKM NA NA NA NA NA AK015_02422 1032 gapB COG0057 Glyceraldehyde-3-phosphate dehydrogenase 2 ATGAGAAAAACGAGAATTGCAATAAATGGATTTGGCCGTATTGGGCGAATGGTTTTTCGACAAGCGATAAAAGATAAAAATTTAAATGTGGTAGCGATTAATGCTAGTTATCCAGCTGAAACGTTAGCACATTTAATTAAATATGACAGCGTACATGGAATTTTAGACGAGGAAGTGAAATCGCTTCACAAAGGAATTATGGTAGGAGAAAGCCATGTTGAATTAGTTAATTCTCGAGTTCCAGAACAATTACCTTGGGAGGAACTAGCAATTGATGTCGTAATTGAAGCTACTGGAAAATTCAAAACGAAAGAAAGCGCTGGTGGGCATCTTCGTGCAGGAGCTAAAAAAGTAGTCATTACTGCACCAGGTAAAGAAGTAGATAAAACGATAGTAATGGGAGTTAACGAAGATGCTTATGATCCACAAAAGCATGATGTTGTTTCCAATGCTTCCTGTACTACAAACTGTCTTGCACCTGTTGTAAAAATTATGGATGATTATTTCGGTATTGAAAATGGGTTAATGACGACTGTACATGCTTTTACAAATGACCAAAAAAACATTGATAATCCACATAAAGACTTAAGAAGAGCTAGAGGTTGCACCCAATCTATTATCCCAACTTCTACTGGTGCAGCTAAAGCTTTGGGAGAAGTGCTCCCGCATTTAAATGGCAAACTTCATGGCATGGCTTTACGTGTACCAACACCTAACGTTTCATTAGTAGATCTTGTAGTGGATGTAAAAAAAGAAGTTACAGCTAGACAAGTTAATGAAGTATTTAAAAAAGCTGCCGATGCTGACTATAGCGGCATTATTCAGTATAGTGATGAGCCACTAGTGTCTATTGATTATACAACTACTGAATATTCCGCTATTATAGATGGTCTGTCAACGATAGTCATGGAGGGGCGCAAAATCAAAGTATTAGCATGGTATGATAATGAATGGGGCTACTCTAAGCGTGTATTGGATTTAACGAAACTTGTAGGTCATTATCTTGTTGAAAAGCATATGCAAATGAGCTAA MRKTRIAINGFGRIGRMVFRQAIKDKNLNVVAINASYPAETLAHLIKYDSVHGILDEEVKSLHKGIMVGESHVELVNSRVPEQLPWEELAIDVVIEATGKFKTKESAGGHLRAGAKKVVITAPGKEVDKTIVMGVNEDAYDPQKHDVVSNASCTTNCLAPVVKIMDDYFGIENGLMTTVHAFTNDQKNIDNPHKDLRRARGCTQSIIPTSTGAAKALGEVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKKEVTARQVNEVFKKAADADYSGIIQYSDEPLVSIDYTTTEYSAIIDGLSTIVMEGRKIKVLAWYDNEWGYSKRVLDLTKLVGHYLVEKHMQMS PGPT0018000_1694 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 AK015_02423 372 speH COG1586 S-adenosylmethionine decarboxylase proenzyme ATGGATACAAAGGGAAGGCATATCATTGTTGAACTTTGGAAATGCAATAAAGATGTATTAAATAACATAATAGAAATGGAACGGTTTTTCGTTGAAGCTGCTTTAAAGGCTGGAGCAGAAATAAGAGAAGTTACGTTTCATAAGTTTGCACCAATTGGAATAAGTGGTGTCATTATTATTTCTGAATCTCATCTTACAGTACATAGTTTCCCAGAACATGGCTATGCCAGTGTTGATGTATATACATGTGGATACAATATTGATCCTTACATAGCGGTAGAATGTATATCACAACACTTGCAGGCAGGCAAAGTAGAAAAAATGGAAATTACAAGAGGAATGGGAACATTAAGTTTCAGCACAAAAAAATAA MDTKGRHIIVELWKCNKDVLNNIIEMERFFVEAALKAGAEIREVTFHKFAPIGISGVIIISESHLTVHSFPEHGYASVDVYTCGYNIDPYIAVECISQHLQAGKVEKMEITRGMGTLSFSTKK PGPT0007760_2470 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 AK015_02424 393 hypothetical protein ATGGGTTTTCGGAATACCATTTCCAAATATTTTAGTAATCATGCTGAAACACAAGATAATCATTGGAATGCCAGTTTACAAACACATTATTATAAAACAACGAAAGAAAAAGCAATGCAAGCACTTGAAAATTTATTTGAACAGTCTTCAAAATATGACATTCATGCTATATCTAAAGAGCATGGAGAATTAAGTATACAAGTTAAAAAAGGGAAAAAAGCATTTATTATTGCAACAGTAATTATGGTACGACCGTATCAAACCGCTATTGATTTTTCTGTTACAACAGAATCTCAACTACCAATAGATTTTGGTTATAGTACAAAAGTCATTCAACAATTATATAGAGAAATAAATAAAGCATTACCTTTCATCACGAAACAAGACAGGTAA MGFRNTISKYFSNHAETQDNHWNASLQTHYYKTTKEKAMQALENLFEQSSKYDIHAISKEHGELSIQVKKGKKAFIIATVIMVRPYQTAIDFSVTTESQLPIDFGYSTKVIQQLYREINKALPFITKQDR NA NA NA NA NA AK015_02425 483 nrdR COG1327 Transcriptional repressor NrdR ATGAGATGTTCAAATTGCCAAAATAAAAGCACAAAAGTACTCGATTCCAGACCAATAGAAGAAGGACAAGCAATTCGGCGAAGAAGAGAGTGTGAACGTTGTGGCTTCCGGTTTACAACATTCGAACGGATTGAAGATGTACCGTTGATCGTAGTGAAAAAAGACGGCGCGAGGCAAGAATTTAGTCGGGATAAGTTAGTTCGTGGCTTAATTAAAGCTTGTGAAAAACGCCCTGTACCGTTAGAAACCATTGAAGAGATTGCTTTAAATGTAGAAAAAGAATTACGAAATGAAGGTATTTCAGAAGTTCATAGTAAAGATGTAGGGGAACAAATTATGGACCGCCTTTCTGAGGTCGATGAAGTTGCATATGTACGTTTTGCTTCAGTATATAGACAGTTTAAGGATATAAATGTTTTCCTAGACGAGCTAAAGGATATTATGAATAATAATAAAGAATATAACACGGATGGAAAGGGTTAG MRCSNCQNKSTKVLDSRPIEEGQAIRRRRECERCGFRFTTFERIEDVPLIVVKKDGARQEFSRDKLVRGLIKACEKRPVPLETIEEIALNVEKELRNEGISEVHSKDVGEQIMDRLSEVDEVAYVRFASVYRQFKDINVFLDELKDIMNNNKEYNTDGKG NA NA NA NA NA AK015_02426 1341 dnaB_2 COG3611 Replication initiation and membrane attachment protein ATGGGGATGAACAGGATAGGCAAAATTTTACCCATTGAAGGATACTGGGTGGAATTTCAAGGAAATCTGCCAACGGATTATGCAAAATCATTAACTCATTTATACCAACCTTTAATTGGAATGGCTGCTATTATCCTGTATCAAACATTACTCCATGAACGAGAATTACAAGCTGATAAGCAAATTCCTCAGACGCATCACACTTTAATGAATTACTTAAATCTTCCTTTAGACGGGATTTACGTTGCCAGACGCAAATTAGAAGGCATTGGTTTACTTAAAACTTATGAGTTGAATAGCAATGATAATCGAGTGTTTACGTATGTGTTAAAGCCTGCTTTTTCGCCTGGGCAATTTTTTAAAGATCCAATGCTTTCTCAGCTTTTATACCATCATATTGGTAGAGAAAAATATGCCCATTTAGAGCAACATTATGCTGTAAACAAACAGTCAGTAGATGGTAATAATATAACTGCTTCCTTCCAAGATGTATTTCAAACGATTATTCCTGATTCCTTGCCAAAGGAGGAGCAGAAGCAAATACAGCAAGGCGTGAATTTAGATAATGTAGATTTTACTTCTGTTGAACATAGCTTGAAGCAACGTATGATTCCAACTAAAAAGGTACTTACAGCTTACAATCGTAAAGTAATAACCCAGATGATGTTACTATATGAGTTGGAAACATATGAAATAGAAAAAGCAATTTTGTGGGCTTTAACGGAAGAAAATAGATTGCATATAAATGAATTCAAAGCAGCTTGCTTTGATTTATTTCAGTCGAAAAATCAGGAAAAGTCTGTCCGTCTCGTAGAAAAAGCGACTAAAGAAGTGCATAAGGGAGAAGAACCAGTAGGAAGTACGAAAGAAGAACAGCTCATTTATCATTTGGAGCATATTTCGCCTAAACAATTGTTGGAAGATTTGTCAAGTGGCCATCATGCTTCTGAACAAGACCTACGATTAATCGGCGACATTATGACATCACAAGGATTGCCAGCACCTGTTATGAATGTTTTAATACATTATGTACTTTTGCAAACAAATATGAAGTTATCTAAAAATTATTTATCTAAGATTGCTAGTCATTGGTCTAGGGCTAATTTAAAAACTGCGAAAGAAGCAATGGCTTTTGCGAAAAAAGAAGTAACTAATTATAAAAATTCAAAAAAGCCAACTAGAAAAACGCAATCGAAAGAAGTCGTTCCCGATTGGTTTAAACAACAAAAAAAGCAACAAAAACAGGAAGTTGCTGCTACGAAGGAAGACAAAGTGGATGAAGTGCAAGAGCAGAAAGAAATTGAAATGCTGTTAAAGCAGTATTCAAGCTATAACAAATAA MGMNRIGKILPIEGYWVEFQGNLPTDYAKSLTHLYQPLIGMAAIILYQTLLHERELQADKQIPQTHHTLMNYLNLPLDGIYVARRKLEGIGLLKTYELNSNDNRVFTYVLKPAFSPGQFFKDPMLSQLLYHHIGREKYAHLEQHYAVNKQSVDGNNITASFQDVFQTIIPDSLPKEEQKQIQQGVNLDNVDFTSVEHSLKQRMIPTKKVLTAYNRKVITQMMLLYELETYEIEKAILWALTEENRLHINEFKAACFDLFQSKNQEKSVRLVEKATKEVHKGEEPVGSTKEEQLIYHLEHISPKQLLEDLSSGHHASEQDLRLIGDIMTSQGLPAPVMNVLIHYVLLQTNMKLSKNYLSKIASHWSRANLKTAKEAMAFAKKEVTNYKNSKKPTRKTQSKEVVPDWFKQQKKQQKQEVAATKEDKVDEVQEQKEIEMLLKQYSSYNK NA NA NA NA NA AK015_02427 927 dnaI COG1484 Primosomal protein DnaI ATGAAACCAGTACAATCGACGTTGCAAAAATGGATGAGACAAAACCAAAATTTTCAGGAGCACTATGCTAAAATTCGCCAAGAAATATTAAGTGACCCGGAAATAAAAGCACTTATAGCTGAGCATCCAGAGTTAACTAAGAAAGAAATAGATAAAAACTTAATTAAACTACATGAGTTTAAGACACAGTCTAAACAATGTAGTCACTGTACATGTTTTAATGATTGCATGAATATGATTCAAGGGTACTCCCCCGTGTTAAACGTCGAAGGTAGAGAGATCCATTTGTCCTATGAAAAATGTTATCGGCGAATTGATTATGAAAAGCAGCGAGAACAACAGCAATTAGTTCAAAGCTTATATATGCCTAAACAGATATTGGAAGCTAAAATTGATCATATTGATGCTGATCCAAAACGTAGCCAAGCTGTTCGAGAAATTGTGAAGTTTATAAGTGGTTGTGAACAAGAAATTCCTTCTAAGGGATTGTATTTATACGGTCCTTTCGGTGTAGGAAAAACTTATTTCCTCGGGGCGCTTGCTAATAAATTAAAAGAAATGTATATCTCTTCTGCATTAATTTATATGCCTGAATTTGTAAGAGAAATGAAGGCTTCGATGAAAGATGACTCGTTGAATAAAAAATTGGCGTATTTTAAAAAGACGGATGTTCTTATGCTTGATGATATAGGTGCGGAGATGCAATCCCCGTGGTTTCGCGATGAAATTCTAGGGTCTTTATTGCAGTATCGTATGATGGAAGGGTTACCCGTATTTTTCACTTCCAATTACAGCATGGAAGAACTTGAAACACACTTAGCTTCTACTAGAAATGGTGTGGAAGAAGTGAAAGCAGGTCGTATCATTGAGCGAATGAAACAAGTGAGCCAACCAGTAGCCGTTTTTGCTGAAAACAGGCGAACGTAA MKPVQSTLQKWMRQNQNFQEHYAKIRQEILSDPEIKALIAEHPELTKKEIDKNLIKLHEFKTQSKQCSHCTCFNDCMNMIQGYSPVLNVEGREIHLSYEKCYRRIDYEKQREQQQLVQSLYMPKQILEAKIDHIDADPKRSQAVREIVKFISGCEQEIPSKGLYLYGPFGVGKTYFLGALANKLKEMYISSALIYMPEFVREMKASMKDDSLNKKLAYFKKTDVLMLDDIGAEMQSPWFRDEILGSLLQYRMMEGLPVFFTSNYSMEELETHLASTRNGVEEVKAGRIIERMKQVSQPVAVFAENRRT NA NA NA NA NA AK015_02428 858 hypothetical protein TTGGTGGAATTATTTATCGAGTCAGATAAAGAAGTCATTCGTTTCTGTGAAAAGATGCGCCAGCATAATAAACAGATTAACCTGTATTGGAAAACACATAAAGAATGGGGGAATCATTTACAATTTGATGCAAATATTCCAAATCAAGTACTTATCCCAGCGATTGCGAAATCTTTAACGAATGTATTTATTACACACCGTATGGGAAAATGGATAACGTCGGTTATAGAAGATTATTATTTTTATACAGATACAAATGAAAAGGAAAAGATCTTAGAGTTAACGAATTGGGTAATGACTGGTACGGATAAAGATAGCCTATTTGTAAGAAAAAATGAAAACCCACAGCAGCTACTTGAATCACTCTTCATTGCAAACATAAAAGATACATCGACCATTCACTATGACTCATTAGTGAAATTTCGACTAAAAGTATTTCAGGATAATGTTGTTCATTATGTCGGTCTTGCAATTGATGAGTATAAAAGAGAAGAAGAGCACCAAGAATTCATTAATATGCTAAGAGGTTTCGTCTTAAATCGTAAATCTTCTGTACCTCATATTTATATGGTACAAGGTGAAACATTTTCTTTTTACAATGGCAACGGTAAACCTCTTTCACGGCTAGAATTACGAATGTTGATGCAAAAAGAACCATTGTATTTAGTAGGTTTGGATGATAATGAGTTTAATTTAGCTCCACTTATTGCGATGGCACCTGAGCATATTTATATTTATGGAGATGAGCCGTCAGAACCAAAAACGTTAACAGTGATTAATGTATTTCAGGAAAGAGTGACTTTTGAACCACTTCGCAAGTTTCCATTCTCTCACTATATGCAGAAAGAACAACAATAG MVELFIESDKEVIRFCEKMRQHNKQINLYWKTHKEWGNHLQFDANIPNQVLIPAIAKSLTNVFITHRMGKWITSVIEDYYFYTDTNEKEKILELTNWVMTGTDKDSLFVRKNENPQQLLESLFIANIKDTSTIHYDSLVKFRLKVFQDNVVHYVGLAIDEYKREEEHQEFINMLRGFVLNRKSSVPHIYMVQGETFSFYNGNGKPLSRLELRMLMQKEPLYLVGLDDNEFNLAPLIAMAPEHIYIYGDEPSEPKTLTVINVFQERVTFEPLRKFPFSHYMQKEQQ NA NA NA NA NA AK015_02429 1947 thrS COG0441 Threonine--tRNA ligase 1 ATGGCAGAAGAATTAACTTTTGTATTTCCAGACGGAGCAGAAAAAGCTTTTCAAAAAGGCGTAACAGGCGAAGAGGTTGCCGGTTCCATTTCCTCTGGATTAAAAAAACAGGCATTAGCTATTAAGTTAGATGGTATACCGTTTGATTTAAGACGTAAATTAGACCATGGTGGATCCATAGAAATTATTACGAACAAAGATGATGCGGGTATAGAAATTATGCGTCATTCGACAGCTCATTTAATGGCTCAAGCGATTAAGCGATTGTATAAAGATGTGAACTTTGGTGTCGGTCCAGTAATTGAAGAAGGTTTTTATTATGATATGGACATGGAGCATTCGATTACACCTGAAGATCTGCCGAAAATTGAAAAAGAAATGAAAAAAATAATAGACGAAGCTCTAGAAATAGAACGTTTAGAAGTATCAAGAGAAAATGCTATAGAAATGTTTCAAGACGACCCCTTGAAGCTAGAGCTAATTGATGCCATCCCAGAAGATGAACAAGTTACGATTTATAAACAAGGAGAGTTTTTTGATTTATGTCGCGGAATTCACGTACCTTCTACAAATAAAATTAAGGCTTTTAAGCTGTTAAGTATTTCAGGTGCTTATTGGCGTGGGGATAGTAATAATAAACAATTACAACGCATTTATGGAACGGCGTTTGCAAAACAAAGTCAAGTGGAAGCTTATTTAAAGTTGTTGGAAGAACGTAAAGAACGTGACCATCGGAAACTAGGTAAGGAATTAGATATTTTTACTATCTCGCAAAAGGTAGGACAAGGTCTACCGCTTTGGCTTCCAAAAGGTGCGACAATCCGTAGAATTATTGAACGCTATATTGTTGATTTAGAGGAACGTCTTGGTTATGACCATGTCTATACGCCTGTATTGGGAAGTGTCGAGTTATATAAGACGAGCGGGCATTGGGATCACTATCATGAAGATATGTTCCCAGAGATGAAGATGGACAACGAAGAATTAGTACTAAGACCAATGAATTGCCCACATCATATGATGGTATACAAAAATCAGCTGTACAGCTATCGGAGTCTTCCTGTACGTATTGCTGAGCTTGGAACAATGCATCGTTATGAGATGTCTGGAGCATTAGCTGGGTTACAGCGTGTGAGAGCCATGACTTTAAATGATGCCCATATTTTTGCTCGTCCAGATCAATTAAAAGATGAATTTATTCGTGTTGTTGAGCTTGTGCAAAAAGTATATGAGGATTTTGGTATTAAGGATTATTATTTCCGCTTATCCTATCGTGATCCCGAAGATAAAGAGAAATATGTGGACAACGATGCGATGTGGGAAAAAGCACAAGCAATGCTTAAAGAGACGATGGAAGAACTACAAGTAGATTATGTAGAAGCTGAAGGTGAAGCAGCGTTTTATGGTCCAAAGCTGGATGTACAAGTGAAAACAGCATTAGGAAAAGACGAAACATTGTCAACCGTTCAACTTGATTTTCATCTTCCTGAACGATTTGATTTAACATATATTGGTGAAGATGGTCAACATCACCGCCCGGTAGTTATTCATCGCGGTGTCGTTTCTACAATGGAACGTTTCGTTGCATTCCTCATTGAAGAATATAAAGGTGCGTTCCCTGTATGGCTTGCTCCTGTTCAGGTAAAAGTGATTCCAGTGTCTCCAAAGGCGCATTTGAATTATGCGAAACAGGTTGCTGATAAATTAAGGTTAGAAGGAGTAAGGGTTGCAGTAGATGAGCGTGATGAAAAGATTGGTTATAAAGTTCGAGAGGCCCAAACGCAAAAAATACCATTTGCGCTTGTTCTAGGTGATAATGAAGTGAACGAACATGCTGTAAATATTCGCCGTTACGGGGAAAAAGAAACAGAAACGGTTTTGCTTGATGCGTTTATCGCTATGATTAAGCAGGAAATTGACAATAAAGTTTTGCACAAAGCTAAATAA MAEELTFVFPDGAEKAFQKGVTGEEVAGSISSGLKKQALAIKLDGIPFDLRRKLDHGGSIEIITNKDDAGIEIMRHSTAHLMAQAIKRLYKDVNFGVGPVIEEGFYYDMDMEHSITPEDLPKIEKEMKKIIDEALEIERLEVSRENAIEMFQDDPLKLELIDAIPEDEQVTIYKQGEFFDLCRGIHVPSTNKIKAFKLLSISGAYWRGDSNNKQLQRIYGTAFAKQSQVEAYLKLLEERKERDHRKLGKELDIFTISQKVGQGLPLWLPKGATIRRIIERYIVDLEERLGYDHVYTPVLGSVELYKTSGHWDHYHEDMFPEMKMDNEELVLRPMNCPHHMMVYKNQLYSYRSLPVRIAELGTMHRYEMSGALAGLQRVRAMTLNDAHIFARPDQLKDEFIRVVELVQKVYEDFGIKDYYFRLSYRDPEDKEKYVDNDAMWEKAQAMLKETMEELQVDYVEAEGEAAFYGPKLDVQVKTALGKDETLSTVQLDFHLPERFDLTYIGEDGQHHRPVVIHRGVVSTMERFVAFLIEEYKGAFPVWLAPVQVKVIPVSPKAHLNYAKQVADKLRLEGVRVAVDERDEKIGYKVREAQTQKIPFALVLGDNEVNEHAVNIRRYGEKETETVLLDAFIAMIKQEIDNKVLHKAK NA NA NA NA NA AK015_02430 600 IS3 family transposase ISAba45 GTGAAATTTATGAGAAAAACCCGTAAATACAATACCTATAAGGGGAAGGTTGGAAAAGTAGCGAAAAACCGATTATCCCGCCGCTTTAACACGCCTATTCCTCTTCAAAAACTAGTAACGGACATTACAGAATTCAATTGTCTTGGTGAAGAGAAGTTATATTTAAATCCGATTCTTGATCTTTATAACGGAGAACTTATTGCGTATGAAATCAAGAAACGTCCAACGTTAGATCTTGTCATCGAGCCTTTAAAAGAAACAATTGAGATAATAAAGAATCGCGCCACCTATCGTACCACCATCCATTCCGATCAGGAATGGCATTACAAGCACAACCAATGGGTAAGGACACTAAAAGAAAATAAAGTATTCCAAAGCATGTCCCGTAAAGCAACATGCGCAGACAACGCTTGGATGGAGAATTTCTTTGGCATTTTAAAGCAAGAAATGTATTATGGGGAAGAATTAGTAAGATATGAAGAATTAAAAAGACGGATTGAAGAATATATCTACTGGTACAACCATGAACGTTCAAAAGGAAAATTGGCTGGATTAAGTCCAGTAGAATACCGAACTCAATCCAGCCAATCAGCTGCATAA MKFMRKTRKYNTYKGKVGKVAKNRLSRRFNTPIPLQKLVTDITEFNCLGEEKLYLNPILDLYNGELIAYEIKKRPTLDLVIEPLKETIEIIKNRATYRTTIHSDQEWHYKHNQWVRTLKENKVFQSMSRKATCADNAWMENFFGILKQEMYYGEELVRYEELKRRIEEYIYWYNHERSKGKLAGLSPVEYRTQSSQSAA NA NA NA NA NA AK015_02432 522 infC Translation initiation factor IF-3 ATGATAATTAGCAAGGAAATGAATGTTAATGAGAAAATTCGTGCTCGTGAAGTGCGTTTAATTGATGCCAATGGCGATCAGTTAGGTGTTAAACCTCGTCAAGAAGCTCTAGAAATTGCTCGAAAACGCAATCTTGATTTAGTGCTTGTTGCTCCCAACGCAAAACCACCTGTATGTCGAATTATGGATTACGGGAAATATCGTTTTGAACAGCAGAAAAAAGAGAAAGAAGCACGTAAAAAACAAAAAGTTATTAACGTAAAAGAGGTTCGATTTACCCCTGGAATTGGCGATCACGATTTTGAAACGAAGCTAAAAAATGCTCGTAAGTTCTTAGAAAAAGGCGACAAAGTAAAAGCGGCTGTTCGTTTCCGTGGACGTGCTATTACGCATAAAGAATTAGGACGAGAAGTACTTGATCGATTTGCTGAGGAAGTAAAAGATATTGCGACTGTTGAGACAAAGCCTAAAATGGAAGGTCGTAATATGTTTATGATGCTTGCTCCAGTAAATGAGAAGTAG MIISKEMNVNEKIRAREVRLIDANGDQLGVKPRQEALEIARKRNLDLVLVAPNAKPPVCRIMDYGKYRFEQQKKEKEARKKQKVINVKEVRFTPGIGDHDFETKLKNARKFLEKGDKVKAAVRFRGRAITHKELGREVLDRFAEEVKDIATVETKPKMEGRNMFMMLAPVNEK NA NA NA NA NA AK015_02433 198 rpmI COG0291 50S ribosomal protein L35 ATGCCAAAAATGAAGACCCATAAAGGTTCTCAGAAACGTTTTCAAAAAACAGGTACTGGAAAATTAAAACGTGGCCATGCATACACTAGCCACATGTTTGCAAATAAATCTCAAAAGCAAAAGCGTAAACTTCGTAAAACAACCACAGTATCAGCTGGTGATTACAGAAGAATTAAAACAATGCTTCCTTATAAATAA MPKMKTHKGSQKRFQKTGTGKLKRGHAYTSHMFANKSQKQKRKLRKTTTVSAGDYRRIKTMLPYK NA NA NA NA NA AK015_02434 357 rplT 50S ribosomal protein L20 ATGCCACGTGTTAAAGGTGGAACAGTAACGCGTCAACGTCGTAAACGCGTCCTTAAATTAGCTAAAGGTTATTATGGTTCAAAAAGAACGTTATTTAAAACAGCAAAGCAACAAGTAATGAAATCAGGTCAGTATGCGTATCGTGACCGTAAACAGAAAAAACGTGATTTCCGTAAACTTTGGATTTCTCGTATTAATGCAGCAGCACGTTTAAATGACATGTCCTATAATAAATTAATGCATGGTTTAAAAGTAGCTGGAATCGATATTAATCGTAAAATGCTATCCGACTTAGCAATTAATGATGAAAAAGCTTTTACGCAATTAGTAACGAAAGCAAAAGAAGCATTGAAATAA MPRVKGGTVTRQRRKRVLKLAKGYYGSKRTLFKTAKQQVMKSGQYAYRDRKQKKRDFRKLWISRINAAARLNDMSYNKLMHGLKVAGIDINRKMLSDLAINDEKAFTQLVTKAKEALK NA NA NA NA NA AK015_02435 282 hypothetical protein GTGAATCAGTGGAATACTATCTTATTTTATTTGCTCGGTGTTAATAGTATAGCTTTTGTGTTGATGGGAATGGATAAGCGTAAAGCAGAACAGAAACAATATCGAATTCCAGAAAGGACGCTATGGATGTTGGCGATTTTAGGAGGTGCGTTGGGAATTTGGTTAGGAATGAAATTATATCGCCACAAAACGAGACATAGGCGATTCGTTTTTGGTATTCCGGTAATATTCTTTGGTCATTGCGTATTTTTGATATACTACTTGTTTAATGGCTTGGTGTAA MNQWNTILFYLLGVNSIAFVLMGMDKRKAEQKQYRIPERTLWMLAILGGALGIWLGMKLYRHKTRHRRFVFGIPVIFFGHCVFLIYYLFNGLV PGPT0022365_1899 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098 NA NA AK015_02436 585 hypothetical protein ATGGAAGTATTGGGGAATTATTTACTTGCTTTCATTGAAGGAGGAGGCTTATTCGCCCCTATATTATTTATCAGTTTTCATTTATTAAGGCCTTTGCTCTTTTTACCGGTCATATTTATTTGTATATCAGGAGGTATATTATTTGGAGCTATTGCAGGGACAGTATATTCCCTTATAGGTATTACATTATCAAGTATTATATTTTACTTTTTTATATATAAGATGCCGAAGTCTATGCAACGATTTCAAAAGGTAAAAGGAAAGATAATTGGTAAGCAAACAGCTTTAACAACATCGCAAATAGCGTTGCTTCGACTGATACCATTTATCCATTTCCACTTACTTTCGTTATGTTTGTTAGAGATATCATCGAGCTTAAAAGATTATACAAAATCATCTTTTTTGACTAACATTCCGATAGCATTTATTTATACATCTATTGGTCAATGGATTTCAAATTTGACACCACTTTACATTGGTTTAAGCTTACTCATACTTTTGCCATTTGTTTATTTGTTGCGCCGAAAAGAAATTTATATTAAATGGCAAGAATTTTTTCATGTTCAAACAAGGGAAAGTACATAG MEVLGNYLLAFIEGGGLFAPILFISFHLLRPLLFLPVIFICISGGILFGAIAGTVYSLIGITLSSIIFYFFIYKMPKSMQRFQKVKGKIIGKQTALTTSQIALLRLIPFIHFHLLSLCLLEISSSLKDYTKSSFLTNIPIAFIYTSIGQWISNLTPLYIGLSLLILLPFVYLLRRKEIYIKWQEFFHVQTREST NA NA NA NA NA AK015_02437 393 ysdB Sigma-w pathway protein YsdB ATGATAGTCATTTTATTTCGCGTACTGATTGTGCTGGCTTTGGCATTGCTTATATATACTTGGATTCAATATTATCGTAATCCCCAACGAAAATTGCAAATAGCTAAAGCAGAAGGAACATATTATTTTTTAGACGAACCTGGAAATAGTAAAAAAAATCTTCAATTTGTTTATAAAGGATGCTTGTTTGAAGGTGAAAAATATGTTGGAGCTACAGAAGATTCTTTTGAAGTAGTTAATATACACGTTACAGCCAAAGATCCTCTTGAACTTAGTGGTTTGCGAAGGGACGACTTATATTTTCTTGAGGAAGAAATCCTCATTCGTTATCCCCATTCAAAAATTGAATGGAAACATCCGATTAATCAATTGCTAATAGGCTCTTTGGATTAA MIVILFRVLIVLALALLIYTWIQYYRNPQRKLQIAKAEGTYYFLDEPGNSKKNLQFVYKGCLFEGEKYVGATEDSFEVVNIHVTAKDPLELSGLRRDDLYFLEEEILIRYPHSKIEWKHPINQLLIGSLD NA NA NA NA NA AK015_02438 486 hypothetical protein ATGAATTGGGATAAATTATATCAATTACAGAACGAATTAGATACATATATTGAAACGAACCAAGGTATAAAGAAACAAGATGTATTCGAAAAGAAGTATTTGGCATTACTTGTGGAGTTGGGAGAATTAGCCAATGAGACAAGGTGCTTTAAATTTTGGAGTAATAAGCCGAGAAGTGAAAGAGAGACAATATTAGAAGAATATGTTGATGGCGTTCACTTTTTACTCTCATTAGGAATTACAAAGGGTCATTATTTTAGCGGGAACGTTTCTAGAAATAAATTGGAGGATGAAACAAAGTTATTTCTAAACGTGTACACAGCCTGTCATCAATTTTTTCAACATCCAACGTCGGTTAATTATGATCATTTATGGGAAACATACTTGCATCTAGGTCAAGCTTTAGGATTTTCGGAAGAAGATGTTCATAGAGCTTATCTAGAAAAGAATGAAGTGAATTTCGTACGTCAAGACGAAGGATATTAG MNWDKLYQLQNELDTYIETNQGIKKQDVFEKKYLALLVELGELANETRCFKFWSNKPRSERETILEEYVDGVHFLLSLGITKGHYFSGNVSRNKLEDETKLFLNVYTACHQFFQHPTSVNYDHLWETYLHLGQALGFSEEDVHRAYLEKNEVNFVRQDEGY NA NA NA NA NA AK015_02439 1086 ysdC_2 COG1363 Putative aminopeptidase YsdC ATGACGAAGATGGATGAAACATTAACCATGTTTAAAGATTTGACAGATGCAAAAGGGATACCAGGCAATGAAAAAGAAGCCCGTGACGTCATGAACAATTACATTACTCCATATGCAGATGAAGTCATGTATGATAATTTAGGTAGTTTAATCGCTAAAAAAACTGGCGACGAGGATGGTCCTAAAATAATGGTTGCTGGACATTTGGATGAAATTGGTTTTATGGTTACAAGAATTGATGATAAAGGTTTTCTTTACTTTCAAACGGCTGGTGGTTGGTGGAGCCAAGTAATGCTTGCCCAGCGTGTTACGATTATGGGAAGTCATGGAGAGGTAACAGGTGTTATTGGATCGAAACCCCCTCATATTCTTTCTGCTGAAGCAAGGAAAAAGCCAGTAGAAATTAAAAATATGTTCATCGATATTGGTGCTTCTAGCAAAGAAGAAGCGGAAGAATTTGGTGTAAAACCTGGAGATTCCGTTGTTCCATATTTTGAGTTTACACCTTTAAAAAATGAAAAACTATTGTTGGCTAAGGCTTGGGACAACCGTATCGGCTGTGCAATTGCTATTGAGGTTTTAAAACAACTAAAAGGACAAAAGCATCCTAACACCGTTTATGGTGTTGGAACTGTACAAGAAGAAGTCGGACTTCGCGGTGCTAAAACTGCTGCCAACACGATAAAACCAGATATTGGTTTTGGTGTTGATGTAGGAATAGCTGGTGACATGCCAGGAGTTTCAGATCATGAAGCAGATAGCAAAATTGGTAAAGGGCCACAAATCGTGTTATACGATGCCTCTATGATATCTCATAAAGGAGTACGTGACCTTGTTGTTAAAACGGCTGAAGAAAATGACATTCCGTATCAATTTGCGACGATGGCTGGCGGGGGTACCGATTCTGGTTCTATTCATTTAACAGCAAACGGTGTGCCGTCTTTATCTATTACAATTGCCACACGCTATATCCATACGCATGCTGGTATTTTACATCGAGATGATTTTGAGCATGCAGTAAAATTAATTGTGGAGACGATTAAAAAGCTGGATCGTGATACTGTAAATGAACTAATTCTTGCTTAA MTKMDETLTMFKDLTDAKGIPGNEKEARDVMNNYITPYADEVMYDNLGSLIAKKTGDEDGPKIMVAGHLDEIGFMVTRIDDKGFLYFQTAGGWWSQVMLAQRVTIMGSHGEVTGVIGSKPPHILSAEARKKPVEIKNMFIDIGASSKEEAEEFGVKPGDSVVPYFEFTPLKNEKLLLAKAWDNRIGCAIAIEVLKQLKGQKHPNTVYGVGTVQEEVGLRGAKTAANTIKPDIGFGVDVGIAGDMPGVSDHEADSKIGKGPQIVLYDASMISHKGVRDLVVKTAEENDIPYQFATMAGGGTDSGSIHLTANGVPSLSITIATRYIHTHAGILHRDDFEHAVKLIVETIKKLDRDTVNELILA NA NA NA NA NA AK015_02440 627 mltF Membrane-bound lytic murein transglycosylase F ATGGAAATAAGAGAGTTGCAAAAAATGATGCAGTATGAAGCGATGTCTATCCTTACATCTGGCTCAAATGGGTTTTCCAGTCATTCACCAATGATGGAACTTGCCTTTAAGCAATTGTTACAGGAACAGTTAAACAAAGCAAACACACTACAAGCTACTCATTCTTTACCACCTAAGAACCATACATATCCATTAAATAATACGTTAGCAACTACGTATTCAAAGATGACACAGACAAGTGATACAACTACTAAAGAGATAGATACGCTCATTCAGGATGCCGCAAGGAAGTACCAAGTAGACGAGCGTCTCATTCGCTCTGTTATCCAGACAGAATCCAATTTTAATCCGCTAGCTAAAAGTAGCGCCGGGGCTCAAGGTTTAATGCAATTAATGCCTGCCACCGCAAGAGGCTTAGGTGTAACAAATCCATATGACCCGCAGCAAAACATTCAAGGCGGTGTCAAATATTTAAAGCAAATGATGGACAGATATAACGGTCATACAGAATTAGCTTTGGCTGCTTATAATGCCGGGCCTGGAAATGTAGATAAACATCAAGGAGTTCCACCATTTAAAGAAACTCAAAACTATGTACAAAAAGTAATGCATCAATATTTAGCTTAA MEIRELQKMMQYEAMSILTSGSNGFSSHSPMMELAFKQLLQEQLNKANTLQATHSLPPKNHTYPLNNTLATTYSKMTQTSDTTTKEIDTLIQDAARKYQVDERLIRSVIQTESNFNPLAKSSAGAQGLMQLMPATARGLGVTNPYDPQQNIQGGVKYLKQMMDRYNGHTELALAAYNAGPGNVDKHQGVPPFKETQNYVQKVMHQYLA NA NA NA NA NA AK015_02441 672 lnrL_3 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGCTTAACGTAGAACGTATATCTAAAACGTACAATAAACAGCCTATTTTCACTGACTTATCCTTTTCCATACATCCTGGTGAAATTATCGGTTTGGTCGGTGAAAATGGGGCAGGGAAATCGACTTTATTACATGTATTAGCAACTTTACAGATGCCTACAACAGGGTCCATTCAATTATACAACTGGTACTACCAAAAACATCGTAAGCATGTACGACGCCATATCGGATTTGTACCGCAAGATATCGCTATATGGGATAATTTTACCGTTCGTGAAAATATGGTTTTTTTTGAAAAACTAGCATGGAAAAACAAATCAGAAAAAGAGTTGAAAGAATTATGTCTTGATATGAATTTAGATCGTTGGCACGATAAAGTTCATACGCTGTCTGGTGGCATGAAACGAAAACTCAATCTAGCCATTAGCCTTATTCACGACCCAGCTCTGATTTTATTAGACGAACCGACAGTCGGAATAGATTTAAAATCAAAAAAGGAAATTGCTACTTACTTGCAAAAGTTAGCGCGTAATCAACGAAAAATGGTCCTTTACACTTCTCATGATATGGATGAAATCAAAGCTTTATGCTCCAAAGTTATTTGTATTGGTGAAGATCCTTTTTATAAAAATTTATTACAACATGCTGGCAAAAAAGTTGTCTCACTTTAA MLNVERISKTYNKQPIFTDLSFSIHPGEIIGLVGENGAGKSTLLHVLATLQMPTTGSIQLYNWYYQKHRKHVRRHIGFVPQDIAIWDNFTVRENMVFFEKLAWKNKSEKELKELCLDMNLDRWHDKVHTLSGGMKRKLNLAISLIHDPALILLDEPTVGIDLKSKKEIATYLQKLARNQRKMVLYTSHDMDEIKALCSKVICIGEDPFYKNLLQHAGKKVVSL PGPT0006725_23848 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02442 1131 hypothetical protein ATGAAATCCATTATCCAAACTCGCTTCTTGCATTGGAAACATCATTTCTATTCCTTTGTTTTTTGGCTGTTTTTCCCTCTTGCTAGTGTGATTTTTCTTCATTATTTGCTAATAGACGTTCAAACAGAAAGTAAAGTCCCGGTGGGTCTTGTTATAGAAGATCAAACAAACACCGCTTTTGAATTGGTAAAAGAATTGAAACAATCCTCTCTTCTTCGTATCTACGAGTTAGATGAAGACAAAGCGCTTCAACAATTGAAAAAACATGAGTTGGATAGTGTTTTTATTATTAAAGATGGGTATGAAGAAAAGATGCATAGAGGTAGTCGAAATCGGCTAATTACTAGTTATCAATCAGATTTATCGTTCGCTTATACTTCTGTTTCGGAAATGGTAGCCTCTTTTGTGCAAAAAAATACAGGACGGATTAAAACCGCTCATACTGTATTACAATTGGAGAAGCAGTTGACCAACAGGCAGGATTGGACAAAAGATGAAATTATTACTACAAGTAAAGAGATCGAGACAAATCAGAATTTATTATCAACTCAATTTCAATATCGAGACCAAGTAAACAAAAGGGAAAAACAAGTATCATTATGGAACCCCTGGGGGATATGGATCTTATTTGCAAGTTTGGCCACTTTCTTTCTTTTTGATTGGGTGATTAAAGAAAACAATGCAACCGTTAAACCACGATTTGTATTTATTCGGTTTTCTTTTAAGAAATATGCGTTACTCAATCTTACATTATATACATGTTTATTACTTTTCATAGATGTTATTACAATTTTTGTTTTTCACTATATTCTTGAGATACCAACCCATTTCTCACAAATTATTGCCATCGTCACCATAAGAATGATATTGAATGGTTTTTCTTTTTTATTCGCTCTTAAAATGAAACGTTTAGTTACGTATTATAGCCTATCTTTCATTATTACATTATTACTTGCTTTAACTAGCGGAGCAATTGTCCCTATTGATCATCTAGTTAATAACCTGCCAACTATATCTGTAATTCACCCGTTTATTCCATTTCTCGAAGGGGCATTACATAATATTTGGCTTTATATTGTAGGCTTACTGATTATTATTTGGTATGCAAGAAGGGAAGATACATATGCTTAA MKSIIQTRFLHWKHHFYSFVFWLFFPLASVIFLHYLLIDVQTESKVPVGLVIEDQTNTAFELVKELKQSSLLRIYELDEDKALQQLKKHELDSVFIIKDGYEEKMHRGSRNRLITSYQSDLSFAYTSVSEMVASFVQKNTGRIKTAHTVLQLEKQLTNRQDWTKDEIITTSKEIETNQNLLSTQFQYRDQVNKREKQVSLWNPWGIWILFASLATFFLFDWVIKENNATVKPRFVFIRFSFKKYALLNLTLYTCLLLFIDVITIFVFHYILEIPTHFSQIIAIVTIRMILNGFSFLFALKMKRLVTYYSLSFIITLLLALTSGAIVPIDHLVNNLPTISVIHPFIPFLEGALHNIWLYIVGLLIIIWYARREDTYA NA NA NA NA NA AK015_02443 1224 hypothetical protein ATGCATTTCATGAAAATAACATTATTGTTTATAAGATATAATGCACTGCAATTAAAGAGGAAGTGGTATGCACTTCCTCTTGTTTTGCTTCTCCCCATTTTTATCGTCGGCTTACTAGCGTATATTACCATAACATTTGTTACTCCAGATGAACAAAATCCTATACAAGTTGGACTAGTTGATTTAGATCAATCAAAGGAAACGAAGCTATTCATTGATATGTTGGATGAAACATCTGAACTTGGCAGCTTTATACATGTACATATAATGAGTGAAACAGTAGCGAAACAAAAAATGGAGAATGATGAGGTCAGCTCCTACATACTATTCCCAGAGAAATTCACGTATAATTTATATCAAGGAAATCCAGTTACTTTATCAATGATAGGCAACCCAAATCAACCTATTCAAAGCCAAATAGTTTATACAATAATGGAGAGTGTGACAACACATATAAGGGCGTCTCAAGCAAATGTGCTCACGTTAAATCAATACGCCAAAAAACTCCCCTTAGATGATCAAGAACGCAATGAGTTTGTCTTTGAACAATTTAAGGAGTTTGTATTTTACACTTTAGGAAGAAAGCAGCTTATTCAAGAGGAGCAATTAATTAATCAGGCTACCGCCAATCCCGCTTCTTACTATAGTCTTGGTGGCTGGTTTATCATATTCACAACATGGTTACTACTTATATACACAGGATTACACCGTGATGTAACAGCAAAAATGGAACAAAGAATGATGCTCTACAATGTACGACCAATTCAACCGATATTTGCTAAACTAGCTGTAACATTGGGCTTCGTTTGTATACTTGGTTTAGGTCTGTTATTTGTACTTCATATATTATTAGGTTGGGATATTCAACTCGTAGACGCAGTGAGGATTATGCTTGTTACTATTTTATATAGCTTTTGCTTCTTATTAGCCATTTCTATCGTAGAAGCTTTCATTCGTTCTCATCGGATGCGACTCGTCGTACAAATTAGCCTTACTTTGGCAATTCTTTTATTAAGTGGCTCTATCGTTCCAACGATTTATTTGCCGCTTTTATTTCAGCAAATGCTTCCCTTTACTTTTTCTTCGGAAGCATTCTACTGGCTGCAAGAATTATTACTACATAAACGCTTGTATGTAGACTACATTCCATTGTTACTAATGACTGCCATTGGTTTTTTTGTTCTTTCTAGTATTACCATTGGAAAGGAGCGTCTACATCGATGA MHFMKITLLFIRYNALQLKRKWYALPLVLLLPIFIVGLLAYITITFVTPDEQNPIQVGLVDLDQSKETKLFIDMLDETSELGSFIHVHIMSETVAKQKMENDEVSSYILFPEKFTYNLYQGNPVTLSMIGNPNQPIQSQIVYTIMESVTTHIRASQANVLTLNQYAKKLPLDDQERNEFVFEQFKEFVFYTLGRKQLIQEEQLINQATANPASYYSLGGWFIIFTTWLLLIYTGLHRDVTAKMEQRMMLYNVRPIQPIFAKLAVTLGFVCILGLGLLFVLHILLGWDIQLVDAVRIMLVTILYSFCFLLAISIVEAFIRSHRMRLVVQISLTLAILLLSGSIVPTIYLPLLFQQMLPFTFSSEAFYWLQELLLHKRLYVDYIPLLLMTAIGFFVLSSITIGKERLHR NA NA NA NA NA AK015_02444 1575 hypothetical protein ATGGAGGAAACAAAGAAACGTAAGTTGTCACCCAAAACATTGATTGGTATTACTATAGGGGCAGTAATACTAATTGGCGGAACTGCTGCGGCTTATATTTTCGCAAATTTATCGGATAAGCAGAAGTACTTTTTAGCAGAAAAAGAATCAATAGAGTTTATGAATGAACAAATTGAACAACGATATGAATCAGAATTTGATTGGTTAGAAACTACTAGAGAAAAGCCGACGGAAACAAATTATGAATTGTCAGCGGAATCCGATATTCCTATTATTCAAGGTGGTATGGGGATAGATCCTGCTCAACTAATCAATAATTCTACTATTTCTTACACACATGCTGCTGATATGAAAAATAAAAAAATATCTGGAAATTTATCAGCGAATATTGGAGAAATTAAAGTGGATAACATTACTTTTCATTTAAATTCCAAACAATTTATGGTAGGTTTACCGTTTCTGGAACAGTTCATCTCGTTAAAAGGTGAAAATGTTGGCAATTTATTGCAAGAAATCGATTCAGCTACTTTTACAGGCGAAGAAAAGATTGATTTTAATATATTATTTGAAGAAACACTATCTGAAGATGATAAAGAGTATATCCAAGAAGAATACGGCAAGTTTATTTATGACCAATTACCAGACGAAGCTTTCAAAACAGAAAGCGAGACGATTAAAGTCCATGATAAATCATTAGAAACTGACAAAATTACGATGCAATTAAGTGAAGAAAAAGTAAAAGAAATTTTAAGTAAAAATATAGAAAAATTACGAAAAGATGATAAAATGAAAGAGCTTTTCCGTCAATTGTTAGAAGAACAATTAATGGGATTGGCAGCCATGCCTGAAATAAAAAAAGAGATGGACCAAACAATGGAAGATTATGATACTTCTTTAGAAAAAGCAAAAGAAAATATAGATGGATTTCAAATTCCAGAAGGTTTAACATCTACCATTTGGGTGCACGATGATTTAATTGCCCAACGAGATTTTAATATTCAACTCGGTCAAAACAAAGAACGACTTACTACAATCGAGTTTAAAGGTACACAACTTCTCCAAGAAGAAAGGCAGCAATTTAATCTCGCTTTAAACGTTGATGACACTATAGAAGGTGGTAAAGTAAGCCTCTCCGGTGATCTGTCATGGAAAGATAAAAAGGCGGAGGATTCTCTGAAACTAGCGTTTGACGAACAAGCATTTACTTATGACGGTAAAGAAACGTTAAAAGATGGAAAACGCGATTTTAAACGTACGATTAGTTTTCAAGATCCATATACAGGTGACACACAACTCATTTGGAACGGTACATCTAATTATAAAAAAGACCAAATGAACGAGGAACACAGCTTTGCTTTTACTGATCCAAATGTTGATCAAAATTTATTCTCACTTCATGCTAATGTTGAAGGAAAAACAGTAGACAGTGTAGAAATTCCGAGTAAAGATAAAACTACAGAAATTGGAACAATGAATGAACAAGAGCTTATGGAATATTTCGAAACGGAAGTTAAACCTAAATTCCAAGGCTGGATGGTAGAAATGCTATCAGCTACCGGAAACATGGAATTCTAA MEETKKRKLSPKTLIGITIGAVILIGGTAAAYIFANLSDKQKYFLAEKESIEFMNEQIEQRYESEFDWLETTREKPTETNYELSAESDIPIIQGGMGIDPAQLINNSTISYTHAADMKNKKISGNLSANIGEIKVDNITFHLNSKQFMVGLPFLEQFISLKGENVGNLLQEIDSATFTGEEKIDFNILFEETLSEDDKEYIQEEYGKFIYDQLPDEAFKTESETIKVHDKSLETDKITMQLSEEKVKEILSKNIEKLRKDDKMKELFRQLLEEQLMGLAAMPEIKKEMDQTMEDYDTSLEKAKENIDGFQIPEGLTSTIWVHDDLIAQRDFNIQLGQNKERLTTIEFKGTQLLQEERQQFNLALNVDDTIEGGKVSLSGDLSWKDKKAEDSLKLAFDEQAFTYDGKETLKDGKRDFKRTISFQDPYTGDTQLIWNGTSNYKKDQMNEEHSFAFTDPNVDQNLFSLHANVEGKTVDSVEIPSKDKTTEIGTMNEQELMEYFETEVKPKFQGWMVEMLSATGNMEF NA NA NA NA NA AK015_02445 225 sspI Small, acid-soluble spore protein I TTGGATTTAAATTTACGCGAAGCAATACTTAGCAATATTGCTTCCAATGACCAATCCCAATTGGAAGCAACTATTGTTGATGCTGTCCAGAGTGGAGAAGAAAAAATGCTTCCTGGACTAGGTGTATTATTCGAATTAATCTGGGAGAATGCGGAAGAACAAGATAAAGACCATATGTTAGAAGCTTTAGAACAAGGTGTAAAGCAAGCTACAACACAGTCCTAA MDLNLREAILSNIASNDQSQLEATIVDAVQSGEEKMLPGLGVLFELIWENAEEQDKDHMLEALEQGVKQATTQS PGPT0024900_46 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024900-sspI-K06426 NA NA AK015_02446 747 Putative TrmH family tRNA/rRNA methyltransferase ATGGAGTCAATAATTACATCTGTTAAAAATACAAAAGTGAAAAATTGGAAAAAGTTACACACTCGAAAAGAGCGAGAAAACACAAATACGTTTCTCGTTGAAGGTTTTCACATAGTTGAAGAAGCCTTTCTAAGTGGATGGACGATGAAAGAGTTAATTATTCAAGAAGGTATATCTGTACCTACGTGGGTAAAAGACATTCCCGTAACTGTGGTGAAAGAACCTATTTTTTCAACCATATCTCAAACGGATGCACCACAAGGAATTGCAGCTGTAGTGGCTATGAGAGAATTATATGACATAAAGCAAAGTCCTGTACTTATCGTCGATGCAGTGCAAGATCCTGGTAATCTTGGAACAATGATTAGGACGGCAGATGCAGCAGGTTTTTCAGAAGTAATTTTAGGAGAAGGAACGGTAGATGCTTTTAACCATAAAGTCATTCGGGCTACGCAAGGTTCTTTGTTCCATATTCCTATTAGGAAAGCCAGGTTAAAAGAGGAAATTGCTTCGCTTAAAAAAGCAGGTTTTGAAATATGGGTAACGGCTTTAGAGGATGCGTTCAATTATACAGAAGTAAGACCAACGCTGAAGACAGGACTTATTGTAGGAAATGAAGGAAGCGGTGTAAGAACACAAATAATGGAGTTAGCAGATAAATGGGTCACTATCCCAATTTATGGAAAAGCTGAATCACTAAATGTCAGTGTAGCTTCTGGAATATTAATGTACTATTTACGCTCATAA MESIITSVKNTKVKNWKKLHTRKERENTNTFLVEGFHIVEEAFLSGWTMKELIIQEGISVPTWVKDIPVTVVKEPIFSTISQTDAPQGIAAVVAMRELYDIKQSPVLIVDAVQDPGNLGTMIRTADAAGFSEVILGEGTVDAFNHKVIRATQGSLFHIPIRKARLKEEIASLKKAGFEIWVTALEDAFNYTEVRPTLKTGLIVGNEGSGVRTQIMELADKWVTIPIYGKAESLNVSVASGILMYYLRS NA NA NA NA NA AK015_02447 1206 pheS COG0016 Phenylalanine--tRNA ligase alpha subunit ATGAGTAAAGGTATTCCGGGTTATTCCCGTTATCGGAATGAAGTGGATACTTTGGAAACATTGTATGAACTAGGGTGGTACCGCGAAAATATGCCTCGTCCCTTGCTGGGAGGAGGCTTTTTATATTGCTTTTTAAGCTATGTAAGAATGAATAAAGGAGGAAATAAGAAGATGAAAGAGCAGTTGAAAATGATTGAACTAGAAGCTTTGGAAAAGATCTTACAAGCTAAGACTACGAAAGAACTGCAAGATATTAAAGTAACCTACTTAGGTAAGAAAGGTTCACTTACAAGTGTGTTGCGAGGGATGGGGAAACTTTCTAAAGAAGAGCGCCCGGTTATTGGAGAACTTGCTAACAAAGTGCGTGAACGTTTAACCTTAAGCCTTGAGAAGCAACTGGAGAAATTGGAAGAAATTGCTTTAGAAGAACAATTAGAAAAAGAAACGATTGATGTAACACTTCCTGGCAGACCAGTGAGATTCGGAGGTCCGCATTTATTAACTAGAGTAATTGAAGAAATTGAAGATTTATTTATTGGAATGGGTTTTGAAATCAGAGAAGGACCTGAGGTAGAAACGGATTATTTTAATTTTGAAGCATTAAACTTACCGAAAAATCATCCAGCAAGGGAAATGCAGGACACCTTTTTTATTACGAAAGAGTTATTAATGCGTACACAAACGTCTCCTGTACAGGCACGTACGATGCTTGAATATGGTGGTAACAAGCCAGTAAAAATGATATCTCCTGGAAAAGTTTATCGTCGTGATACAGATGATGCCACTCATTCCCATCAGTTTACACAAATTGAAGGTCTATATGTAGATAAAGATGTGAAAATGAGTGATTTAAAAGGTGTGCTAGATGTCTTTACCAAAAAAATGTATGGCAATGATCGAGAAATTCGTTTTCGCCCAAGTTTTTTCCCGTTTACAGAGCCATCTGTAGAAATTGATATTTCTTGTAAAGCATGTGCAGGAAAAGGTTGCTCTATTTGTAAAGGCTCCGGATGGATTGAAATCTTAGGCGCGGGTATGGTACATCCAAATGTATTATCAATGGCTGGTTATGATCCAAAGGTTTACAGTGGATTTGCCTTCGGTATGGGACCTGAACGAATTGCGATGTTGAAATATGGAATTAAGGATATAAGGCAGTTTTACACGAATGACATTCGGTTTTTAACGCAATACCATAATGCTTAG MSKGIPGYSRYRNEVDTLETLYELGWYRENMPRPLLGGGFLYCFLSYVRMNKGGNKKMKEQLKMIELEALEKILQAKTTKELQDIKVTYLGKKGSLTSVLRGMGKLSKEERPVIGELANKVRERLTLSLEKQLEKLEEIALEEQLEKETIDVTLPGRPVRFGGPHLLTRVIEEIEDLFIGMGFEIREGPEVETDYFNFEALNLPKNHPAREMQDTFFITKELLMRTQTSPVQARTMLEYGGNKPVKMISPGKVYRRDTDDATHSHQFTQIEGLYVDKDVKMSDLKGVLDVFTKKMYGNDREIRFRPSFFPFTEPSVEIDISCKACAGKGCSICKGSGWIEILGAGMVHPNVLSMAGYDPKVYSGFAFGMGPERIAMLKYGIKDIRQFYTNDIRFLTQYHNA NA NA NA NA NA AK015_02448 2430 pheT COG0072 Phenylalanine--tRNA ligase beta subunit ATGTTAGTATCATTAAATTGGTTAAAAAATTACGTAGATATAACAGATATAAGTCCAGAAGAGTTAGCTAGTAAAATTACAAAATCAGGAATCGAAGTCGATGGCATTGAATATGTAGCAGAGAAAAGCGAACATGTCGTCGTAGGCTACGTTGTATCCTGTGAGAAACACCCAAACGCTGATAAGCTTAACTTATGCCAAGTAGATGTTGGGGAGGAAGAACCGTTACAAATTATTTGTGGAGCTCCTAATGTAGCACAAGGGCAAAAAGTGGCTGTTGCCAAACCAGGAGCTGTCCTACCAAATAATTTCAAAATTAAACGGGTTAAGCTACGTGGGATTGAATCAAATGGAATGATTTGTTCTCTACAAGAACTCGGTATAGAAGAAAAATATGTACCAAAAGATGTGGCTGATGGCATCTATGTGTTTCCTGATGATGTGACAATTGGTGAGTCAGTGGAGCCACTATTAAACTTAAATGATGCTGTTTTAGAATTTGATTTAACTCCAAATCGTGCTGACTGCCTATCTATGTTAGGAGTTGCGTATGAATTAGGGGCTATTTTAAACAGAAAGGTAAAACTGCCGAGTTCAAACCCAAAAGAGGGGACGGAAGAGGCAAAAGACTATATTGCTGTTGAAGTAGAAGCGAAGGAAGCTAATCCGTATTATGGTGCTTTTGTTATTCGTGATGTAGAGATCCAACAATCACCATTATGGATGCGAAATTATTTAATAGCAGCTGGGATTCGTCCAATTAATAACGTGGTGGATATAACGAATTATGTATTGCTGGAATACGGCCAGCCCCTACATGCGTTTGATTATGATAAATTAGGGGCGAAGAAAATCGTTGTTCGCCACGCTAAAACCAATGAAAAACTCGTTACATTGGATGAGCAAGAACGCGTATTATCACAAGATCATTTAGTTATCACGGATGGGAAAGATCCGATTGCTCTAGCAGGAGTAATGGGAGGTTTATCGACTGAAGTCACAGATACAACGAAAAATGTTTTACTTGAAGCAGCATATTTTGATTCTAGTACGGTAATGAAAGCAGTGAAGGCAACGGGTCTCTATAGTGATTCAAGTACACGATTTACGAAAGGCGTTGATCCAAATCGAGTAAAAGAAGCGGGACTTCGAGCGTGCGAGTTAATGGAAAAATACGCCAATGCGACAATTACAAAAGGAGTAGTAGCGTATGATGCATTAAACCGTGAGCAAAAACAGGTTAAAGTGAATGTAACTGAAATCAACAAGCGTCTGGGTACATTATTACAGCCTGCTGATGTAGAAGATGCTTTGCAACGCTTGCAATTTAAATTTGAAAAAAGAAGTCAAGAATATCTTGTATACATTCCAACGCGTAGAGGGGACATTAGCATTTTTGAAGATATGTTGGAAGAAGTAGCGCGTATTTACGGCTACGATAAATTGCCATACACATTGCCAGTTGGAGCTGGGCAAGCTGGGGGCCTTACAGAAAGACAAATATTAATTCGCAAAATAAAAAGCCTTATGGAAGCATCAGGGTTGATGGAGAGTCGCACATATACTTTAATTAGTGAAAATGCAGCTAATACGTTAATTAGCCCTGAGTTAACAGAAGCAAATTATGTTCCAATTGAATTAACTTTACCGATGAGTGAAGAACATAAATATTTGCGCCTAAGTTTTTTACCTGAGATTTTGCGTATCCTAACTCATAACAGAGCACGTAATGAATTTGATCTAGGTTATTATGAGATTGGCAAAACATTTTTGACAGCAGAAAGCACTTTAACAAAACAACCAGAAGAAAGACTTCGATTAGCTGGCGCTGTAACAGGAAATTGGGTTCATCATCCGTGGCAACAAGAAAATAAACTAGTTGATTTTTATGTTGTAAAAGGAATTTTAGAGAAACTTTTTAATTACTTAAATGTAGCAGTCGTTTTCAAGCCTTGTAAGCATAAAGACATGCACCCTGGAAGAACAGCATCTCTTCATTTGGAAGGCGAGACAATTGGGTTTATCGGTCAACTACACCCACGCCTACAAAAGCAATTTGATCTAAAAGAAACATATGTATTTGATGTCGATGTCGAAGGGTTATTAGAGGCGTATAAAAACGAACCTACTTATGAGGAAATACCTAAATATCCATCTATTGGACGCGATATTGCTTTTGTTCTTGATCATACTGTGTTTGCAGCTGAAGTAAAACAAGTCATTATGGATGTCGGAGCACCGCTTGTGAAACATGTATCTGTATTTGATGTTTATGAAGGAGAGCATTTAGAAGCAGGCAAGAAGTCTGTAGCGTTTCATTTAGTATATCAGCATGCTGAGAAAACATTAACAGATGATGAGGTTCAAGCGTCTTACGAACAAATAATAGAAGCAGTCAAGCAGAAGTTTAACGCATATATTCGATCTTAA MLVSLNWLKNYVDITDISPEELASKITKSGIEVDGIEYVAEKSEHVVVGYVVSCEKHPNADKLNLCQVDVGEEEPLQIICGAPNVAQGQKVAVAKPGAVLPNNFKIKRVKLRGIESNGMICSLQELGIEEKYVPKDVADGIYVFPDDVTIGESVEPLLNLNDAVLEFDLTPNRADCLSMLGVAYELGAILNRKVKLPSSNPKEGTEEAKDYIAVEVEAKEANPYYGAFVIRDVEIQQSPLWMRNYLIAAGIRPINNVVDITNYVLLEYGQPLHAFDYDKLGAKKIVVRHAKTNEKLVTLDEQERVLSQDHLVITDGKDPIALAGVMGGLSTEVTDTTKNVLLEAAYFDSSTVMKAVKATGLYSDSSTRFTKGVDPNRVKEAGLRACELMEKYANATITKGVVAYDALNREQKQVKVNVTEINKRLGTLLQPADVEDALQRLQFKFEKRSQEYLVYIPTRRGDISIFEDMLEEVARIYGYDKLPYTLPVGAGQAGGLTERQILIRKIKSLMEASGLMESRTYTLISENAANTLISPELTEANYVPIELTLPMSEEHKYLRLSFLPEILRILTHNRARNEFDLGYYEIGKTFLTAESTLTKQPEERLRLAGAVTGNWVHHPWQQENKLVDFYVVKGILEKLFNYLNVAVVFKPCKHKDMHPGRTASLHLEGETIGFIGQLHPRLQKQFDLKETYVFDVDVEGLLEAYKNEPTYEEIPKYPSIGRDIAFVLDHTVFAAEVKQVIMDVGAPLVKHVSVFDVYEGEHLEAGKKSVAFHLVYQHAEKTLTDDEVQASYEQIIEAVKQKFNAYIRS NA NA NA NA NA AK015_02449 939 rnhC COG1039 Ribonuclease HIII ATGTCACAACAAGTATACCAATTTTCTAACACAGTCATAGACAAAATGAAAGCTTATTATGCAAGTTTTTTAATTACGCCACCCCAAGGTGCTCTGTTTCGAGCAAAAACAAACGAAGCCGTTATTACGGCATATAAATCAGGAAAAGTATTATTCCAGGGCGCTTCTCCAGAAAAAGCAGCTAGTCTGTGGACAAAAGATGCTAAAACTGCCTCCGCCCAAGCTACTTATTCCAACAAAGCGAAAACAAATTCCTATACGCCGAGTTCCCAACTGTTCTCTAGTAATCATATCGGTAGTGATGAAGCAGGGACAGGGGACTATTTCGGCCCTATTACTGTGGCTGCAGTCTATTTGACGAAAGCCCAAATTAGTGAATTAAAAAGCATGGGCGTAACAGACTCCAAAGCATTGACAGATTTAAAGATCCGTCATCTGGCAAGGGATATCATCCAATTAAACATCCCATATTCCCTGATTGCTTTACGTAATGAAAAATACAATCAATTACAGAAAAAAGGGTGGACACAAGGTAAAATGAAGACGATGCTCCATCATCATGCCATTCAACGCTTAATCAAAAAAATCGATCAAAGCCCATTAGATGGAATTCTTATTGACCAATTTTGTGAACCTGTTGTGTATAAAAAACATTTAGCCTCTGAAAAAGAAGTGCTATCACCATCCACTTTTTTCATGACAAAAGCAGAGAGTTACTCTACCTCCGTTGCCGCAGCTTCTATCCTTGCAAGAACTAGTTTTCTAAAACAGATGGATATATTATCAGAGCAAACAGGCATTGAATTGCCAAAGGGAGCTTCTCGAAAAGTGGATCAAACTGCAGCTGTTATTATGAAAAAGTACGGAGAACATTGCTTAACTCAAATCGCAAAGGTTCATTTTGCAAACACAAAAAAAGCACACGCTTACCTAAATTAG MSQQVYQFSNTVIDKMKAYYASFLITPPQGALFRAKTNEAVITAYKSGKVLFQGASPEKAASLWTKDAKTASAQATYSNKAKTNSYTPSSQLFSSNHIGSDEAGTGDYFGPITVAAVYLTKAQISELKSMGVTDSKALTDLKIRHLARDIIQLNIPYSLIALRNEKYNQLQKKGWTQGKMKTMLHHHAIQRLIKKIDQSPLDGILIDQFCEPVVYKKHLASEKEVLSPSTFFMTKAESYSTSVAAASILARTSFLKQMDILSEQTGIELPKGASRKVDQTAAVIMKKYGEHCLTQIAKVHFANTKKAHAYLN NA NA NA NA NA AK015_02450 261 zapA COG3027 Cell division protein ZapA GTGGCCAATGAGGAAAAAACTCGAACAACTGTAGAGATACATAATCGTACCTATACAATTATAGGAACAGAGCCACAAAATCATATTAAATTGGTTGCCAGTTTAGTGGATCAAAAAATGAATGAAATCCAAGAAGCAAATAGGCAGCTTGATACGACAAGATTAGCTGTACTAACTGCTGTAAATACGATGAATGATTATTTGAAATTAAAAGAAGAGTATGCTTCTTTATTAGGTTCGATGAAGAAAAAGGAAGACTAA MANEEKTRTTVEIHNRTYTIIGTEPQNHIKLVASLVDQKMNEIQEANRQLDTTRLAVLTAVNTMNDYLKLKEEYASLLGSMKKKED NA NA NA NA NA AK015_02451 546 hypothetical protein ATGGTTACTATTTTATTATTGTTGTTATTAGTGATGGGTTTTTTTATTGGGTTAAAAAGAGGATTCATATTACAGCTATTCCATCTCATTGGGTTTATAGCATCTTTTGTTGTAGCAGCTTTGTATTACGATGAGTTAGGGCCTAAGTTGGAATTATGGATCCCTTATCCTAATTTAGAGGAAGATGGTAAATGGGCGACGTTTTTACAAGACTTGCCTCTTGAAGCGGGTTTTTATAATGCTATTGCATTTTTGGTTATTTTTTTAGCGGTAAAAATCATTCTACAAATTATAGCTTCTATGCTTGATTTTGTTGCTTCTTTACCGATTTTAAATTCTGTAAACAAATTATTAGGAGCCATTCTGGGCTTTGTAGAAACATATTTGTTACTTTTTATTTTCCTATATATTGCAGCTTTAATACCGATTGCTCAAATACAAACATGGATAAACGATTCTTCAGTTGCGTTATTTATTATTGAACGTACTCCTTATTTCTCAGATGAAATTAGAGAGCTTTGGTTCACATATGTAGCCAATAAATAA MVTILLLLLLVMGFFIGLKRGFILQLFHLIGFIASFVVAALYYDELGPKLELWIPYPNLEEDGKWATFLQDLPLEAGFYNAIAFLVIFLAVKIILQIIASMLDFVASLPILNSVNKLLGAILGFVETYLLLFIFLYIAALIPIAQIQTWINDSSVALFIIERTPYFSDEIRELWFTYVANK NA NA NA NA NA AK015_02452 1728 polX COG1387 DNA polymerase/3'-5' exonuclease PolX GTGAATAGTATGAAGATTAATAAAAAAGATGTTATAAAATTAATGGAAACGATAGCGACGTATTTAGAATTACAAGCAGAGAACCCTTTTAAAATTAGTGCCTATCGTAAAGCAGCTCAAGCGTTGGAAAGAGATGATCGATCTTTAGAAGAAATCGATGATTTTTCTAAAATCAAGGGGATTGGCAAAGGAACAAGTGCTGTTATTCAAGCGTACATACAAACAGGACAATCTAAGACCTTGCAAGATTTAGAAGAGCAAGTTCCAAAAGGTTTGCTCTCATTACTACAGCTTCCAGGGCTTGGTGGTAAGAAAATTGCTAAACTTTATCATGAATTAGGTGTTACAGATGCTGAAGGATTAAGGGAAGCATGCGAAGCTGGGCGAGTAGAAAGGTTAGCGGGATTTGGTAAAAAAACAGTTGAAAAAATAGTAGCAGCACTAGAGGAAGCAAATAAACGCCCAGAACGTTTACCAATTGCGATGATGCTACCTTTAGCTGAAAAATTGGAAGACTACTTGAACCAAATAAAAGAAGTTGATCGTTTTTCAAGAGCAGGAAGCTTGCGGCGGATGAGAGAAACTGTCAAAGATATCGACTTTATCATTGCAACAGAACAACCAGCTATCGTAAGAGACCATTTATTAGCAATGGATGGGGTAAAAAACGTAATTGCTAAAGGGGAAACGAAAGTATCTATTGTCATGGAAGATGTATATGATGTAAATGTGGATTTTCGTATGGTTCAGAAGGATGCATTTGCTTCTACGCTACACCATTTTACTGGCTCAAAGGAACATAATGTTGCTATGCGTCAAATAGCAAAGTCTCGTGGTGAAAAGATTAACGAGTATGGTGTAGAAGTTGAAGAAACGGGAGAAAATCTTACCTTTCATTCAGAAAAAGCTTTTTTTAATCATTTTGATCTGCACTATATTCCTCCTGAATTAAGGGAAAATACTGGAGAAACAGAGGTATTTCAATCCCCTTATCCACTTTTAGAGCTGTCGGATATAAATGGGGATTTACACATGCATACGACGTGGAGTGATGGAGCACAATCATTAGAAGAAATGGTCTTACGAGCGATAGAAAAGTCGTATCAATTTATCGCCATTACAGATCACTCCAAATTCTTAAAAGTTGCTAACGGACTAACTGAACAGCGATTACGTAAACAGCATGAAGAAATAGTACGTTTAAATGAAAAATATCCTGATATTCATATTTTTTCAGGTGTAGAAATAGATATACTACCTGATGGAAATCTTGATTTTTCGAATGAATTTCTGCGTGAACTCGACTTTGTTATTGCGTCCATACACTCAAGTTTTAACCAACCCGAAGATAAAATTATGTATCGATTAGAAGCAGCATTAGAAAATCCTTACGTTTCACTTATTGCTCATCCTACAGGTAGATTAATTGGTAAGCGAGATGGTTATCAAGTTAATGTTAGTGCTTTAATTGACAGAGCGAAAGAAACAAATACAGCATTAGAAATGAATGCAAACCCCAACCGTCTAGATTTATCTTACCAGTGGGCTCGAGAAGCTCAAGAGAAAGGCGTTATATTAGCGATCAATACGGATGCTCATAATTATCAAATGTTAGAGCTTATGACATACGGAGTTGGCGTCGCTAGAAAAGGATGGATTAAACCAGAAACGGTTATGAACACGTGGTCTACGCAAGAGCTGATTGCCTATTTTAAACGAAATAAATAA MNSMKINKKDVIKLMETIATYLELQAENPFKISAYRKAAQALERDDRSLEEIDDFSKIKGIGKGTSAVIQAYIQTGQSKTLQDLEEQVPKGLLSLLQLPGLGGKKIAKLYHELGVTDAEGLREACEAGRVERLAGFGKKTVEKIVAALEEANKRPERLPIAMMLPLAEKLEDYLNQIKEVDRFSRAGSLRRMRETVKDIDFIIATEQPAIVRDHLLAMDGVKNVIAKGETKVSIVMEDVYDVNVDFRMVQKDAFASTLHHFTGSKEHNVAMRQIAKSRGEKINEYGVEVEETGENLTFHSEKAFFNHFDLHYIPPELRENTGETEVFQSPYPLLELSDINGDLHMHTTWSDGAQSLEEMVLRAIEKSYQFIAITDHSKFLKVANGLTEQRLRKQHEEIVRLNEKYPDIHIFSGVEIDILPDGNLDFSNEFLRELDFVIASIHSSFNQPEDKIMYRLEAALENPYVSLIAHPTGRLIGKRDGYQVNVSALIDRAKETNTALEMNANPNRLDLSYQWAREAQEKGVILAINTDAHNYQMLELMTYGVGVARKGWIKPETVMNTWSTQELIAYFKRNK NA NA NA NA NA AK015_02453 2439 mutS2 Endonuclease MutS2 GTGTATGTTGTACAACACGAAGATCGAAAAAGCAAAATAGGAGGTTATGAAGAAGCTCCTATTTATCTTGAACAATCTGTAAAAGGAGTTATTGACATGAACGAGCGCATGTTACGCGTACTCGAGTTTGATAAGATTATTGAACAAGTAACCAATTATGCAGCAACATCTATTGGGAAACAAGCATTGCAGCAAACGCACCCTTCTACAGATATGGACACAGTGGTTCGCTTGCAAGATGAAACGGATGAGGCAACGCATATAGAGAGGTTAAACAAAACGCTACCTTTGGGAGGGATTTTTGATATACGCCCAAGTTTAAAACGCGTTTCCATTGGAGGAGTGCTATCCGCAGGCGAGTGTATTGAGGTTTCTAGCACTATATATGGCGCAAGGATGGCAAAAGACTTTGTCGATCGATTAGAGGAAGATTTTCCTATTCTTAGTGCAATGGCAAAGGAGATTACTCCGTTAAGACAATTAGAACAAGCAATCAATCGTTGTATTAATGATGACGGTCATATGCTAGATAGCGCTTCTGAAAAGTTACGAGGAATACGCTCTTCCATTCGTACGTTAGAAAGTAGGGTCAGAGAGAAATTAAGCAACTTTACGAAAACACATAGCAACAAATTGTCAGATGTTATCATCACAATACGAAATGATCGCTATGTTCTCCCGGTAAAGCAGGAATATCGCAGTGCTATCGGAGGAATTGTTCACGATCAATCCGCTTCAGGTCAAACGCTATTTATGGAGCCAAAAGCTGTTGTTGATATAAATAATCAATTACAAGAAGCGTTTGTTAATGAAAAGAGAGAAATGGACAGGATATTAGTTTCACTTAGCAACTTGATTGCAGAAGAAGTAAATGCTTTAGAGCATAATGTTCATTTACTTGGAAAAATGGATGTTATATTTGCCCGTGCAAAATACGGTCAGGCAATGAAAGGTACGAAACCAATAATGAATGACCGCGGTTTTATTAAAATGAACCAAGCTAGACATCCATTAATTGATCCACAAGACGTTGTTGCGAATGATATTAAGTTAGGCAAGGATTATACAGCAATTGTAATTACAGGACCGAATACAGGGGGGAAAACGGTCACCTTAAAAATGGTCGGACTCTGTTGTTTAATGGCTCAATCTGGTTTGCAAATTCCGGCATTGGATGGATGCGAGCTTGCTGTGTTCTCTCATGTTTTTGCAGATATTGGTGACGAGCAGTCAATAGAGCAAAATTTAAGTACGTTTTCATCACATATGACTACAATTGTAGACATTTTAAAGTATTTTGATGAAAAAACACTTGTATTGTTTGACGAGCTTGGTGCTGGTACTGATCCTCAAGAAGGAGCAGCTTTAGCAATGGCAATCCTCGATGAAGTGATTGAAAGACAAGCTAGAGTAATAGCAACGACTCACTATCCAGAATTAAAAGCTTACGGATTTAATCGACGACAAGTTTTAAATGCTTCTGTAGAATTTGATGTTGAAACGTTACGTCCTACGTATCGTTTGTTATTAGGCATACCTGGACGAAGTAATGCCTTTGATATATCTCGGCGCTTAGGGCTTTCCACAGTAATTATTGATCATGCAAAGTCCTACGTCGGCATGGATTCCAAAAATGTTGAAAATATGATTGCTTCTTTAGAGCAATCGCAATTGAAGGCAGAAAAGGATTACGAGCAAGCTCATGACTTGCTACAACAAGCAGAAAACTTCTATGAAGATGTAAAGAATATGTGGCATGAATGGCAAGAGAAGAAAGAAAAACTGTACCGAAAAGCTGAAGAGAAAGCTGATAAAGCCATTCAAAAAGCACGGGAAGAAGCAGAGCTTATCGTTCAAGAAATTCGCAACATGCGTAGTGAAGCGGAGTGGAAAGAGCATGAATGGATTGAAGCTAAGAAAATGCTTGATGATGCTAAACCGGAGTTATCGGCAAAACAAGACACCTCTACTCCCTCCAAAAAACGAGAAGAAAAAGTACTAGAACCTGGTGATGATATTAAATTACTTACGATTAATCAGAAGGGGACAGTGTTAGAAAGAATAAGCGATTATGAGTATTTGGTTCAAGTTGGCATTATGAAAGTGAAAGTGAATCGAAAAGATTTACACTACATGGGTAAAACAAAAGAGAAATATGAGCAGCCAATTACAACCATTAAAGGAAGCAACTACCATGTGAAAACAGAATTGGATATTCGAGGGGAAAGGTTAGAAGATGCGCTGTTAAAATTAGAAAAGTATGTGGATGATGCGCTACTTGCTGGTTATCCAAGGGTTTCCATTATACATGGAAAGGGAACTGGAGCACTTCGAAAAGGTGTTCAGCAGTTTGTACAACAACATCCGAGAATAGCTAACTTCAGGGCAGGTGAAGCTGGAGAAGGCGGTAGTGGAGTAACGGTCATTAATTTGAAATAA MYVVQHEDRKSKIGGYEEAPIYLEQSVKGVIDMNERMLRVLEFDKIIEQVTNYAATSIGKQALQQTHPSTDMDTVVRLQDETDEATHIERLNKTLPLGGIFDIRPSLKRVSIGGVLSAGECIEVSSTIYGARMAKDFVDRLEEDFPILSAMAKEITPLRQLEQAINRCINDDGHMLDSASEKLRGIRSSIRTLESRVREKLSNFTKTHSNKLSDVIITIRNDRYVLPVKQEYRSAIGGIVHDQSASGQTLFMEPKAVVDINNQLQEAFVNEKREMDRILVSLSNLIAEEVNALEHNVHLLGKMDVIFARAKYGQAMKGTKPIMNDRGFIKMNQARHPLIDPQDVVANDIKLGKDYTAIVITGPNTGGKTVTLKMVGLCCLMAQSGLQIPALDGCELAVFSHVFADIGDEQSIEQNLSTFSSHMTTIVDILKYFDEKTLVLFDELGAGTDPQEGAALAMAILDEVIERQARVIATTHYPELKAYGFNRRQVLNASVEFDVETLRPTYRLLLGIPGRSNAFDISRRLGLSTVIIDHAKSYVGMDSKNVENMIASLEQSQLKAEKDYEQAHDLLQQAENFYEDVKNMWHEWQEKKEKLYRKAEEKADKAIQKAREEAELIVQEIRNMRSEAEWKEHEWIEAKKMLDDAKPELSAKQDTSTPSKKREEKVLEPGDDIKLLTINQKGTVLERISDYEYLVQVGIMKVKVNRKDLHYMGKTKEKYEQPITTIKGSNYHVKTELDIRGERLEDALLKLEKYVDDALLAGYPRVSIIHGKGTGALRKGVQQFVQQHPRIANFRAGEAGEGGSGVTVINLK NA NA NA NA NA AK015_02454 417 hypothetical protein ATGGAAATGGGAGTAGCCTTTTGGGAAAATGTAGTCGTACAAACTGCAGCCAGATACAGTGTGGTGATTTTATGCACGTTAGTGTTCTTAGCAATTTTAGAAATAGTCACGTCATATAAAAATTGGGAAGAAATTAAAAAAGGAAATTTTGCAGTTGCCATGGCAACAGGTGGGAAAATATTTGGTATTGCGATTATTTTTCGTTACTCTATTGAACATAATGATACATTGGTTCAAAGTATTGGGTGGGGTGTATATGGTTTTATCTTGTTATTACTAAGTTATTTTGTATTTGAGTTTTTGACACCAGTACTGAAAGTCGATGAAGAGATAGGGAATGGTAACAAAGCAGTAGGATTTATTTCAATGATTATTTCAGTAGGTTTGGCTTTTGTTATTGGTGCTAGCATAGGGTAA MEMGVAFWENVVVQTAARYSVVILCTLVFLAILEIVTSYKNWEEIKKGNFAVAMATGGKIFGIAIIFRYSIEHNDTLVQSIGWGVYGFILLLLSYFVFEFLTPVLKVDEEIGNGNKAVGFISMIISVGLAFVIGASIG NA NA NA NA NA AK015_02455 1686 fadD_1 COG0318 Long-chain-fatty-acid--CoA ligase ATGGGAGAAACGAAAAGTTGGTTTCAGCACTATCCACCTGAAATAAAAACATCACTCCACTATGACGAAAAGCCGCTCCATCGATTTTTACTCGAAAGTGCTGAAACATTCCCCAAAAAGAAAGCGCTTCATTTTATGGGGAAGGATTTGACGTATGAAGAACTTTATAATCAAGCAACCCAAATGGCAAACTATTTACAACAACTAGGTATGGAAAAAGGAGATCGAATTGCTATCATGCTGCCAAACTGTCCACAATCTGTTGTCACGTATTACGGGGCTTTAATGGCAGGTGGTATCGTTGTACAAACAAATCCACTGTATAAAGAAAGGGAGTTGGAATACCAGCTGAAGGATTCTGGCGCGACTTTTATTGTATGTCTAGATATTTTACTACCCCGTGTTACAAATGTAAAAAATAATACAGATATCCAACATACTATTGTTGCAAGCATCAAAGATTATTTGCCATTTCCTAAAAACTTAATTTACCCTTATATACAAAAGAAACAGTACAATATGGTTGTAAAAGTAGAACAATCCGACAATATACATGTATGGGATTATATGATGGATGTAGCTCAGTCTGCTTATGAAAAGGTTGCTGTTAATCCAAAAGAAGATTTGGCTTTATTGCAGTATACCGGTGGAACAACTGGAAATCCAAAAGGAGTGATGCTTACCCACCATAATTTAGTTTCTAATGTCCAAATGTGTCAAGCTTGGATTTATAAAACGAATCCTGGTGAGGAAATCGTATTAGGAGTATTACCGTTTTTTCATGTTTATGGAATGACAGCAGTTATGAATAATGCGATTATGATGGGTGCTAAAATGATCTTGTTACCTAAATTTGATGCAACAGAAGTATTGAAAACGATTGATAAGCATAAACCAACGCTTTTCCCAGGAGCACCTACAATTTATGTGGCTTTATTAAATCATCCTAAATTAGAGCAGTATGATTTATCATCGATTAAAGCTTGTATAAGTGGTTCTGCACCATTACCTACAGAGGTTCAAGAACAATTTGAAAAGGTGACAGGAGGTAAACTTGTAGAAGGTTATGGCTTAACAGAAACATCACCTGTTACTCATGCAAATTTTGTTTGGCATGAGCGGAGAAATGGTAGTATTGGGGTGCCGTGGCCAGATACAGATGCTAAAATAATTGATGAAGAAACGATGGAAGAAGCGCCGATCGGAGAGATTGGAGAGATTGCTGTTAAAGGTCCCCAAATCATGAAAGGATATTGGAACAATCCTGAAGAAACAGCCCAAGTACTAAAAGACGGATGGTTATTTACAGGTGATTTAGGATACCAAACAGAAGATGGTTACTTTTATGTCGTAGATCGAAAAAAAGATATGATTATTGCTGGTGGATACAATATATATCCTCGTGAAGTAGAGGAAGTGTTATATGAACATGAAGCGATTCAAGAAGCTGTTGTGGCTGGTATTCCCGATCCGTATCGAGGGGAAACAGTAAAAGCTTATGTAGTTTTAAAGCCAGGTTATGCAATAACAGAAGACGATCTTAATACGTATTGCCGAAAACACTTAGCAGCATTTAAAGTACCTCGCATTTATGAATTTCGTGAAGAACTTCCTAAAACAGCGGTTGGTAAAATTCTAAGGAGACAACTTATTGATGAAGAAAAAGAAAATTTACAAGTAAATTGA MGETKSWFQHYPPEIKTSLHYDEKPLHRFLLESAETFPKKKALHFMGKDLTYEELYNQATQMANYLQQLGMEKGDRIAIMLPNCPQSVVTYYGALMAGGIVVQTNPLYKERELEYQLKDSGATFIVCLDILLPRVTNVKNNTDIQHTIVASIKDYLPFPKNLIYPYIQKKQYNMVVKVEQSDNIHVWDYMMDVAQSAYEKVAVNPKEDLALLQYTGGTTGNPKGVMLTHHNLVSNVQMCQAWIYKTNPGEEIVLGVLPFFHVYGMTAVMNNAIMMGAKMILLPKFDATEVLKTIDKHKPTLFPGAPTIYVALLNHPKLEQYDLSSIKACISGSAPLPTEVQEQFEKVTGGKLVEGYGLTETSPVTHANFVWHERRNGSIGVPWPDTDAKIIDEETMEEAPIGEIGEIAVKGPQIMKGYWNNPEETAQVLKDGWLFTGDLGYQTEDGYFYVVDRKKDMIIAGGYNIYPREVEEVLYEHEAIQEAVVAGIPDPYRGETVKAYVVLKPGYAITEDDLNTYCRKHLAAFKVPRIYEFREELPKTAVGKILRRQLIDEEKENLQVN PGPT0008380_9880 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK015_02456 585 fadR Fatty acid metabolism regulator protein ATGAAGAAAAATAAACCGAAATACAATCAAATTATTGAGGCGGCAGTAAAGGTTATCGCAGAGAATGGTTACCATGCCTCTCAAGTATCAAAAATTGCCAAACAGGCAGGAGTAGCAGATGGAACAATTTATCTGTACTTTAAAAACAAAGAAGATATATTAATCTCTGTTTTTGAAGAAAAAATGGGGCAATTCATTACGCATATTACAGATGCCATTCAGAAGAAGGAAAATGCAAATGAAAAGCTTTACGAACTAATTAAACTACATTTTCGCCAGTTAAGTGAAGATCACCATTTAGCTATTGTTACGCAGTTGGAGTTGAGGCAATCGAACCCTTCCTTGCGTTTACAAATCAATAATGTGTTAAAACCTTATTTAAATGTCATCGATACCATCATTACAGAAGGGATGGAAGAAAAAGTTTTTCGGAAAAATTTGAATTTACGACTTGTTCGTCAGATGATTTTTGGTACACTAGATGAAACGGTTACAAATTGGGTGATGAAAGATAGAAAGTACAATCTTGTTGATTTAGCAACGGAAGTTCATACATTATTAACAGAAGGACTTCAATCAAAGTAG MKKNKPKYNQIIEAAVKVIAENGYHASQVSKIAKQAGVADGTIYLYFKNKEDILISVFEEKMGQFITHITDAIQKKENANEKLYELIKLHFRQLSEDHHLAIVTQLELRQSNPSLRLQINNVLKPYLNVIDTIITEGMEEKVFRKNLNLRLVRQMIFGTLDETVTNWVMKDRKYNLVDLATEVHTLLTEGLQSK PGPT0023505_311 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 AK015_02457 777 fadB_1 COG1024 putative enoyl-CoA hydratase TTGACGAACACACTATTTTTGGAAGCGAATCATTCTATTGCTTATGTAACGATCCAAAGTCCGCCAGCAAACGCTTTATCTAGTATTCTATTAAAAGATTTGGAAGCAGTGTTGAATAAGATAGAGGGAGATTCAAGTATAAAGGCGATTGTTTTAAAAGGAGAAGGGAAATTTTTTTCAGCAGGAGCAGACATAAAAGAATTTACAGCTTTGCAACAAGCATCTGACTATGAATCTATGGCAAAACGAGGGCAAGATTTGTTTGCTCGCATGGAAACGTTCCACATTCCCATTATTGCCGCTATTCATGGTGCTGCTCTTGGCGGAGGACTGGAGCTTGCTATGGCTTGCCATATGAGAATTATAACGAAGGAGGCAAAACTTGGTTTACCTGAAATAACATTAGGTATTATACCAGGTTTTGCTGGTACACAACGTTTGCCGCACTTTGTTGGTTCGGCTAAAGCGTATGAAATGATATTGACTGGAGAGCCAATCAATGGGGAAGAAGCATATTCTTATGGCTTGGCAAATAAAGTAGTGGAAGAAGACGCATTGGAAGAAGAAGTAAAACAGTTAACTGAAAAAATAGTTTCTAAGAGCAAATTAACTATTCAGCAAATCATGCGTTTAATTCCCTATGCAAAGACTAGTTTATTTGCAGAAGGAGTATCAGAAGAAGCAAAAGCATTTGGCGAAATTTTTGGATCTGAGGATGCGAAAGAAGGCGTGCAAGCATTCATTGAAAAACGGAAACCGAACTTCCAGGATAACTAA MTNTLFLEANHSIAYVTIQSPPANALSSILLKDLEAVLNKIEGDSSIKAIVLKGEGKFFSAGADIKEFTALQQASDYESMAKRGQDLFARMETFHIPIIAAIHGAALGGGLELAMACHMRIITKEAKLGLPEITLGIIPGFAGTQRLPHFVGSAKAYEMILTGEPINGEEAYSYGLANKVVEEDALEEEVKQLTEKIVSKSKLTIQQIMRLIPYAKTSLFAEGVSEEAKAFGEIFGSEDAKEGVQAFIEKRKPNFQDN PGPT0008390_75 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767 NA NA AK015_02458 774 etfB COG2086 Electron transfer flavoprotein subunit beta ATGGAAATTTATGTGTTACTCAAGAAAACATTTGATACAGAAGAAAAAATTAACGTATCAAACGGGCAAATTGAAGATGAAGGTGCTGAATTTATTATTAATCCATACGACGAGTATGCCGTTGAGGAAGCCATTAAACAACGGGATGAGCATGGAGGTGAAGTCACCGTTGTAACAATTGGAGATGAAGATTCAGAAAAACAATTACGTACTGCTTTAGCAATGGGGGCAGATAAAGCAGTGTTAATAAATACAGAAGATGATGTAGAAGATGGTGATCAATATACAACAGCAAAAATTTTGGAAGCGTTTTTTGAGGATAAAGAACCTGACTTAATCCTTGCTGGAAATGTAGCTATTGATGAAGCAAGTGGGCAAGTAGGTCCGCGACTTGCAGATGCACTAGATATCCCATATGTGACAACGATTACAGACTTAAAGGTTAGTGGAGATACAGCTACCGTGGAAAAAGATGTGGAAGGAGATGTGGAAATAGTAGAAACAACTCTGCCACTATTGGTGACCTGCCAACAAGGGCTAAACGAACCAAGGTATCCTTCACTTCCAGGAATAATGAAAGCAAAAAAGAAGCCATTAGAAGAACTGGAAATAGACGATTTAGACTTAGATGAAGATGACGTAGAAGCGAAAACGAAAACAGTAGATATCTTCTTACCGCTGGAGAAGGAAGCTGGCAAGGTACTAGAAGGTGAACCACAAGAGCAAGTAAAAGAACTTGTTACATTATTGAAAACGGAAGCGAAAGTACTGTAA MEIYVLLKKTFDTEEKINVSNGQIEDEGAEFIINPYDEYAVEEAIKQRDEHGGEVTVVTIGDEDSEKQLRTALAMGADKAVLINTEDDVEDGDQYTTAKILEAFFEDKEPDLILAGNVAIDEASGQVGPRLADALDIPYVTTITDLKVSGDTATVEKDVEGDVEIVETTLPLLVTCQQGLNEPRYPSLPGIMKAKKKPLEELEIDDLDLDEDDVEAKTKTVDIFLPLEKEAGKVLEGEPQEQVKELVTLLKTEAKVL PGPT0001035_2134 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521 NA NA AK015_02459 987 etfA COG2025 Electron transfer flavoprotein subunit alpha TTGAGTGAAAAAATAGTAGTAATTGGAGAAGTGAAAGATGGTGTATTACGAAATGTTTCTTTTGAAGCGATAGCAGCAGCAAAAAAGGTTACCGCTGATGGTGAAGTAGTTGGTGTAGTATGCGGTAATGGTGAAATGTCTTCATTAGGAAAAGAAATGATTCATTATGGAGCAGACCGTGTAATAACAGTAACACATGAAAACTTAAAAAATTACACCTCGGAAGGATATGGTCAAGCGGTAATGGCTGTTGTCGAGGAAGAATCTCCACAAGTAATTGTGATGGGGCATACATCCATAGGAAAAGACCTTACGCCAAAGCTAGCGAGTAAGCTAAATACTGGACTCATTTCAGATGCAGTAGACATTGAAATAGCTGATGATCAAGTTCAATTTGTCCGTCCTATCTATTCTGGAAAAGCATTTGAGAAGAAAGTTATTACGGATGGTTTAACATTTTTCACTATTCGCCCTAATAATATTGCAGCCCTAGATAAAGATACATCCAGATCGGGAGATGTAACTGACAAAGCAGTTGAAATTACTAGTATTCGCACGGTTATTAAAGATGTAATAAGAAAGGCTTCTGAGGGTGTTGATTTATCTGAAGCAAATGTAATTGTAGCTGGTGGTCGCGGTGTGAAAAGTGAAGAAGGATTTAAACCTCTCTATGAATTAGCCGAAGTATTAGGGGGTGCAGTAGGAGCTTCACGAGGTGCTTGTGATGCAGAATACTGTGATTACTCCTTACAAATTGGGCAAACAGGAAAGGTTGTTACGCCAGATTTATACATTGCAGTTGGTATCTCTGGTGCCATTCAACATTTGGCAGGTATGTCAAATTCCAAAGTAATTGTAGCTATTAATAAAGATCCAGAAGCGACCATCTTTAATATAGCAGACTACGGTATTGTTGGAGATTTGTTTGACATCATTCCACTTTTGATTGAGGAAGTGAAGAAAGCAAAAGTAGGAACAGGGGCTTAG MSEKIVVIGEVKDGVLRNVSFEAIAAAKKVTADGEVVGVVCGNGEMSSLGKEMIHYGADRVITVTHENLKNYTSEGYGQAVMAVVEEESPQVIVMGHTSIGKDLTPKLASKLNTGLISDAVDIEIADDQVQFVRPIYSGKAFEKKVITDGLTFFTIRPNNIAALDKDTSRSGDVTDKAVEITSIRTVIKDVIRKASEGVDLSEANVIVAGGRGVKSEEGFKPLYELAEVLGGAVGASRGACDAEYCDYSLQIGQTGKVVTPDLYIAVGISGAIQHLAGMSNSKVIVAINKDPEATIFNIADYGIVGDLFDIIPLLIEEVKKAKVGTGA PGPT0001040_1674 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522 NA NA AK015_02460 315 trxA COG0526 Thioredoxin ATGGCAATTATCAATGCTACTGATCAGACGTTTGCCAAAGAGACTGCAGAAGGTTTAGTGCTAGCAGATTTTTGGGCGCCATGGTGTGGACCATGTAAAATGATTGCACCAGTATTGGAAGAAATTGATGGTGAAATGTCTGAAAAAGTTCAAATTGTAAAATTAGATGTTGACGAAAACCAAGAAACAGCAGGTAAATTTGGTGTGATGAGTATTCCAACATTGTTGTTATTTAAAGATGGTCAAGTCGTTGACCAAGTAATCGGTTTTCAGCCGAAAGAAGCATTAGTTGATTTAATTAACAAACATGCTTAA MAIINATDQTFAKETAEGLVLADFWAPWCGPCKMIAPVLEEIDGEMSEKVQIVKLDVDENQETAGKFGVMSIPTLLLFKDGQVVDQVIGFQPKEALVDLINKHA PGPT0013055_10455 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK015_02461 1791 uvrC COG0322 UvrABC system protein C ATGAACCAAAGTATAAAAGATAAACTAGCGGTTTTACCAGCAAAGCCAGGCTGTTACTTGATGAAGGATAAATATGAAAGCGTCATTTATGTTGGAAAGTCAAAAGTATTAAAGAATCGGGTGCGTTCTTACTTTACTGGAGCACATGATCGAAAAACGCAACGTTTAGTGCAAGAGATTGAAAGTTTTGAGTATATTGTAACTTCTTCCGAGATAGAAGCACTTATTTTAGAAATGAATTTAATTAAAAAATATGATCCTAAATATAATGTTATGCTCAAAGACGATAAGTCTTACCCTTACTTAAAAATTACTTCTGAACGCCATCCAAGGTTGCTAATTACGAGGAAAATAAAGAAAGATAAAGGCAAATACTTTGGTCCTTATCCAAATGTTATCGCGGCGAGAGAAACAAAAAAATTATTGGATCGACTTTACCCTCTTAGAAAATGCAATAACCTTCCTGGGCGACCTTGCTTGTACTATCATATGGGCCAATGTTACGCCTGTAGTAACAATCCGCCTACAAAAGAAGAATATGCAGCAATTGTCCAAAATGTATCATCTTTTTTACATGGTGGATATAAAGCAATAAAAAAAGACTTAACGAAGAAAATGCAGCAAGCGAGTGAAGCGTTGAATTTTGAAAGAGCGAAGGAATTAAGAGATCAAATTCATCACATTGAGTCTGTCATGGAACAACAGAAGATGACGTTAAACGACCAAGCAGATAGGGATATTTTTGCATATAGTTATGACAAAGGATGGATGTGCATCCAAGTATTTTTTATTCGTCAAGGGAATTTGATTGAACGAGATATAGCTGTTTTTCCTTTTTTCGATGAAGCTGAAGAAACATTTATTAGTTATGTTGGCCGTTTTTATCTCCATCAAAACCATCCGAAGCCAAAACAGATTCTTGTTCCTCTTGGTACCAATACAGAACTATTGAAAGATTTACTTGAGGTGGATGTGCATACGCCATATCGTGGAAGAAAAAAAGAATTAGTGAAGCTAGCGGAAGAAAATGCACGCATTTCGTTAAATGAGAAATTCTCTATTATTGAGCGAGACGAAGAAAGAACAATTGTAGCTGTAGAGCGCTTAGGAGAAACTCTTAATATTGAAACACCGCATCGAATAGAAGCATTTGATAATTCCAACATTCAAGGGACTGATCCAGTTTCTGCGATGGTTGTTTTTATAGACGGTAAGCCAGCTAAGAATGAGTATCGTAAATACAAAATTCGCAATGTTGATCGACCGGATGATTATGAAACAATGAGAGAAGTTATTAGAAGGCGTTACACGAGAGTTTTAAAAGATAAACTTCCATTACCAGGTTTAATTATTGTAGACGGTGGAAAAGGTCAAATGAGTGCCGCGTTGGATGTGCTAGAAAATGAGTTAGGGCTAGACATTCCTTTATGTGGTCTAGCAAAAGATGATCGTCATAAAACAAGTGAGCTTTTATATGGTTTTCCACCTCAAATTATAGATTTAGATCGCAAATCGAATGAATTTTATCTTGTCCAAAGGGTGCAGGAAGAAGTGCATCGTTTTGCCATTACGTTTCATCGTCAATTACGTGGGAAAAACGTTGTACAATCTGAATTAGATAATATTTCAGGTATTGGTCAAAAAAGAAGAAGATTGTTGCTAACACATTTTAAAACAATCACGGAAATAAAACAAGCTAGTATGGACGACCTGATGAAATTGGGTATTCCACGTGACGTCGCTGAAAATATTATTACCCATTTTCAAGCAGCTAACATAGAAAAGCAGTAG MNQSIKDKLAVLPAKPGCYLMKDKYESVIYVGKSKVLKNRVRSYFTGAHDRKTQRLVQEIESFEYIVTSSEIEALILEMNLIKKYDPKYNVMLKDDKSYPYLKITSERHPRLLITRKIKKDKGKYFGPYPNVIAARETKKLLDRLYPLRKCNNLPGRPCLYYHMGQCYACSNNPPTKEEYAAIVQNVSSFLHGGYKAIKKDLTKKMQQASEALNFERAKELRDQIHHIESVMEQQKMTLNDQADRDIFAYSYDKGWMCIQVFFIRQGNLIERDIAVFPFFDEAEETFISYVGRFYLHQNHPKPKQILVPLGTNTELLKDLLEVDVHTPYRGRKKELVKLAEENARISLNEKFSIIERDEERTIVAVERLGETLNIETPHRIEAFDNSNIQGTDPVSAMVVFIDGKPAKNEYRKYKIRNVDRPDDYETMREVIRRRYTRVLKDKLPLPGLIIVDGGKGQMSAALDVLENELGLDIPLCGLAKDDRHKTSELLYGFPPQIIDLDRKSNEFYLVQRVQEEVHRFAITFHRQLRGKNVVQSELDNISGIGQKRRRLLLTHFKTITEIKQASMDDLMKLGIPRDVAENIITHFQAANIEKQ PGPT0014925_4259 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703 NA NA AK015_02462 444 yslB putative protein YslB ATGACAAACCAACAAACAACGGTTATATCCGTTCACGATTTAGAAGCATTACATACAGAAGGTGTCGGCTTTGATATTTTACGATATGTTAGTTTACCAGAATTACTAGGTGAAGAATCTCCAACCCTGTTATATTTCATGGGGAGAAAACTTGCCAGAAAGTTTGATATACAAACCGTAGATGATGTCATACATATTTTCACACTTTTAGGCTTCGGGCGATTAGAAGTTGTAAAAGATAAACGTAAATCAATGACCTTTCAATTGATGTCTGATGCAGTTGCGTCACGATTACAAGCTTCATTTTCTACTGATTTTCGTCTAGAAGCTGGTTTTTTAGCAGAAGCTCTACATATAATTGAAAACAGAGATTGCGAGTGCGTAGAAACGATTAATAAAAGAATTCATCAAGTTGAGTTTAAAGCCATGTTTTCGGTGGATTAA MTNQQTTVISVHDLEALHTEGVGFDILRYVSLPELLGEESPTLLYFMGRKLARKFDIQTVDDVIHIFTLLGFGRLEVVKDKRKSMTFQLMSDAVASRLQASFSTDFRLEAGFLAEALHIIENRDCECVETINKRIHQVEFKAMFSVD NA NA NA NA NA AK015_02463 615 sdhC COG2009 Succinate dehydrogenase cytochrome b558 subunit TTGACAGAGCATCGTGAGTTTCTAACAAGAAGAGTGCACTCGTTATTAGGTGTAATTCCAATAGGTCTTTTTTTGGTTCAACATTTAGTGGTGAATCATTTTGCTGTTTATGGAGAAGAGAATTTTAATAAAGCAGCCGATTTTATGCACAGTCTACCATTTAGACTCGTATTGGAATTCGGGGTTATTTTTATTCCAATTTTGTTTCATGCTATTTTAGGGGTATATATTGTATTTGTAGCACGAAGCAACACGAAAAGATATAATTTTTTCCGTAATTGGATGTTCTTATTACAGCGAATAACGGGTATTATTACGTTTGTCTTTGTTGTTTGGCATGTGTGGGAGACAAGAATACAGTTAGGATCACAAGGAGCCGACTATAGCCTAATGGAAGGGATTCTTTCCAATCCATTTATGTTCTGGTTCTATATGATTGGTGTCCTATCTACTATTTTCCATTTTGCCAATGGATTATGGAGCTTCTGTGTGACTTGGGGTATTACACAAACACCTAAATCACAAAAAGTAGTTACATATGCAACTGTAGTTGTTTTCTTAGCACTAAGTTATGTCGGTGTAAGAACAATTCTTACATTTGCTTACGGTATTTAA MTEHREFLTRRVHSLLGVIPIGLFLVQHLVVNHFAVYGEENFNKAADFMHSLPFRLVLEFGVIFIPILFHAILGVYIVFVARSNTKRYNFFRNWMFLLQRITGIITFVFVVWHVWETRIQLGSQGADYSLMEGILSNPFMFWFYMIGVLSTIFHFANGLWSFCVTWGITQTPKSQKVVTYATVVVFLALSYVGVRTILTFAYGI PGPT0001595_1350 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 AK015_02464 1764 frdA Fumarate reductase flavoprotein subunit ATGAGTAAACGGAAAATTGCCATAGTTGGCGGAGGTTTAGCTGGCTTAATGGCAACAATAAAAGCAGCAGAAGCAGGAGTAAGTGTTGATTTATTTTCCATTGTTCCTGTAAAGCGCTCTCACTCTGTATGTGCTCAAGGTGGAATAAATGGTGCAGTTAATACTAAGGGAGAAGGGGATTCTCCTTGGCTTCACTTTGATGATACAGTGTACGGTGGAGATTTCTTAGCAAACCAACCGCAAGTAAAAGCGATGTGTGATGCAGCGCCTGGAATTATTCATATGTTTGATCGGATGGGTGTTATGTTTAACCGCACACCTGAAGGATTGCTAGATTTTCGTCGTTTTGGTGGAACGCAAATGCATAGAACAGCTTATGCTGGAGCAACAACAGGACAACAATTACTTTATGCGGTGGATGAGCAAGTTCGTCGTTATGAGGTAGAAGGTCTTGTGACAAAATATGAAAACTGGGAATTTGCGCGGGCAGTTATTGATGAAGAAGGTGTTGGTAGAGGGATTGTAGCTCAAAATGTGAAAACGCATGAGATAAAAGCATTTCCATCTGATGCAACCATTTTTGCTACTGGTGGTCCTGGAATTATCTTTGGTAAATCTACTAATTCTATGATTAATACTGGATCTGCTGCAAGTAAGTTGTACCAGCAAGGTGCAAAATATGCCAATGGTGAATTTATTCAAATTCATCCTACAGCTATTCCTGGTGATGATAAATTACGATTAATGAGTGAGTCTGCCCGTGGTGAAGGGGGCAGAATTTGGACATATAAAGATGGAGAACCTTGGTATTTCTTAGAGGAAAAATATCCAGCTTATGGTAACCTCGTACCAAGAGATATCGCCACACGTGAAATTTTTGACGTATGTGTGAACCAAAAACTTGGTATAAATGGCGAGAATATGGTGTATTTGGATCTATCACATAAAGATCCAAAAGAGCTTGATATAAAACTAGGCGGAATTATTGAGATATATGAGAAATTTGTTGGCGAAGATCCTCGAAAAGTGCCGATGAAAATCTTCCCTGCTGTCCATTATTCCATGGGCGGACTGTGGGTCGATATTAATCAAATGACTAATATCCCTGGTATTTTTGCTGCAGGAGAATGTGATTATTCGCAGCATGGTGCTAACCGTCTTGGTGCTAATTCATTATTGTCTGCTATTTATGGAGGAGCTGTTGCTGGTCCAAAGGCAATGGAATATATAGAAGGTTTAGAGAAGCATGTCGATGATTTGCCATCTCATTTATTTGAAGAGAATGTAAAAGTGGAACAAGACCACTTTGAAAAATTAATGAACATGGATGGCGAAGAAAATGCTTATCAGCTTCATAAGGAACTTGGTCAGTGGATGACTGATAACGTAACCGTAGTGCGTGATAATAAAAAATTATTGCAAACAGATGAAAAGATTCAAGAACTACTGCAACGTTTTGAAAACATTAATATTAATGATACCTCTCGTTGGAGTAACCAAGGTGTTATGTTTACACGTCAGTTGGAAAACATGCTTCATTTAGCACGTGTTATTACACAAGGCGCTTATAATCGGAATGAGAGCCGTGGTGCTCATTATAAACCTGAATTCCCAGATCGAAATGATGAAGAGTGGTTGAAAACAACGATTGCAGAATTTGACGTGGAAGAAAAAGCACCTAAATTTTCTTATGAGGATGTAGATATTTCATTAATCAAACCTCGTAAGCGTGACTACACGAAAAAAAGTGAAGGGAGTAAGTAA MSKRKIAIVGGGLAGLMATIKAAEAGVSVDLFSIVPVKRSHSVCAQGGINGAVNTKGEGDSPWLHFDDTVYGGDFLANQPQVKAMCDAAPGIIHMFDRMGVMFNRTPEGLLDFRRFGGTQMHRTAYAGATTGQQLLYAVDEQVRRYEVEGLVTKYENWEFARAVIDEEGVGRGIVAQNVKTHEIKAFPSDATIFATGGPGIIFGKSTNSMINTGSAASKLYQQGAKYANGEFIQIHPTAIPGDDKLRLMSESARGEGGRIWTYKDGEPWYFLEEKYPAYGNLVPRDIATREIFDVCVNQKLGINGENMVYLDLSHKDPKELDIKLGGIIEIYEKFVGEDPRKVPMKIFPAVHYSMGGLWVDINQMTNIPGIFAAGECDYSQHGANRLGANSLLSAIYGGAVAGPKAMEYIEGLEKHVDDLPSHLFEENVKVEQDHFEKLMNMDGEENAYQLHKELGQWMTDNVTVVRDNKKLLQTDEKIQELLQRFENININDTSRWSNQGVMFTRQLENMLHLARVITQGAYNRNESRGAHYKPEFPDRNDEEWLKTTIAEFDVEEKAPKFSYEDVDISLIKPRKRDYTKKSEGSK PGPT0001605_3547 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 AK015_02465 765 frdB COG0479 Fumarate reductase iron-sulfur subunit ATGGCTGATAATAAAACAGTTACTTTTATTATAACTCGACAAGACAGCCCTGATTCTAACTCCTATACAGAAACGTTTAAAATACCTTATAAGCCAAATATGAACGTTATTTCTGCATTGATGGAAATTAGACAAAATCCGGTTAATGCAAATGGAGAGAAAACAACACCAGTTCAGTGGGATATGAACTGTCTTGAGGAAGTATGTGGTGCATGTTCCATGGTGATTAATGGGGTAGCAAGACAGTCTTGTGCAGCACTTGTAGATCAGCTTGAACAGCCGATCCGACTAGAACCAATGTCAACATTTCCAGTTGTTCGCGATCTAATTATCGATCGTAACCGCATGTTCGATGCGTTAAAGCAAGTGAAAGCTTGGATACCACTTGATGGTACACATGATTTAGGAGCAGGTCCACGTATGCCTGAAAAGAAACGGCAATGGGCATATGAATTATCGAAATGTATGACTTGCGGTGTTTGTCTAGAAGCTTGCCCAAATGTCAATGATAAATCCAATTTCATTGGTCCAGCAGCTATTTCGCAGGCTCGTTTGTTTAATGCACATCCAACTGGAGAAATGAATGCAAGTGAACGTTTAAATGGGTTGATGGAAGATGGAGGTATAGATGGTTGTGGAAACTCGCAAAACTGTGTACAAGTTTGCCCTAAAGGCATTCCACTGACGACTTCTATTGCTGCCATGAACCGAGCAACAAATATCCAAGCGTTTAAAAACTTTTTTGGAAGTGACAACGCACATTAA MADNKTVTFIITRQDSPDSNSYTETFKIPYKPNMNVISALMEIRQNPVNANGEKTTPVQWDMNCLEEVCGACSMVINGVARQSCAALVDQLEQPIRLEPMSTFPVVRDLIIDRNRMFDALKQVKAWIPLDGTHDLGAGPRMPEKKRQWAYELSKCMTCGVCLEACPNVNDKSNFIGPAAISQARLFNAHPTGEMNASERLNGLMEDGGIDGCGNSQNCVQVCPKGIPLTTSIAAMNRATNIQAFKNFFGSDNAH PGPT0001600_1901 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 AK015_02466 441 hypothetical protein GTGCGAATATCTTATATTGACAATTTAAATAAGTGGAGTAAAACTTTTTCCTTTTCTATACCAGTTACGATTCGTTTTTCTGAGACAGACTTATTTGGTCATATGAACAATACTACTGCGTTTATTTATTTTGAGCAGGCAAGAATTGAATTTTTGAAGGCTACAGGTGTTTTTGATGGGAATACGAATACAGAGGGAATACCAGTAGTATCTGATTTACAATGCGATTTTTTAAAGCAACTGTACTTTGATCAAACTATCCAAGTGTATGTGAAAGCACATCATGTTGGTAGATCTTCTGTAGATATACATTATATGGTTTTAGATGATAAACAAGAAATTGCTTTGACTGGAAGAGGAAGACTTGTATACATTCATGCAAAAACAGGCAAGCCAATATCATTAGGAGAATCAATGAGAATAGCTTTGGCGCAAAAGTAA MRISYIDNLNKWSKTFSFSIPVTIRFSETDLFGHMNNTTAFIYFEQARIEFLKATGVFDGNTNTEGIPVVSDLQCDFLKQLYFDQTIQVYVKAHHVGRSSVDIHYMVLDDKQEIALTGRGRLVYIHAKTGKPISLGESMRIALAQK PGPT0001850_3916 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107 NA NA AK015_02467 192 gerE COG2771 Spore germination protein GerE TTGAAGGACAACGAGTATAAACCGAAGCAATTATTAACTAAACGGGAAAAAGAAGTATTTGAACTATTAGTTCAGGATAAAACCACAAAAGAAATTGCCCAGGAATTATTCATATCAGAAAAAACTGTCCGAAACCATATTTCAAATGCTATGCATACCAATTGCAAATGTGATTCCCTGTTTTATTGCTAA MKDNEYKPKQLLTKREKEVFELLVQDKTTKEIAQELFISEKTVRNHISNAMHTNCKCDSLFYC PGPT0025270_213 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994 NA NA AK015_02468 1620 hypothetical protein ATGCGATATGATAATCAAAAGCTATGGTTAATGTTGTTTGCGTTGCTTATTACATTAGTCTTAGCAGCTTGTAGTAGTGATAATGTTGCTAAGAATCAAACGGAAAAGGATAAGAGAGAGTTAGTAGTATCAATGGGAGAGCGTATCCCTCACGAATTCGACCCTAAGAAACGCTGGGGAATGTATAACGAGGCTCGTATTATTCATAGTACATTGTTAAAGAAAACACCAGATTTAGAAGTAGAAGGAGATTTTGCCAAGGGTTACACGATTTCTGAAGATGGTAAGCAATGGACGTTTGACTTACATAATAATTTTAAGTTTTCTAATGGCGATCCTGTGACAGCAGAAGATGTGAAGTTTTCATACGAAACGTTAATAGAAGACGGTAAGCATTGGGATTTATCATTTGTCGATAAGATTGAAATCCCTGATAAGAATAAAGTTATATTTTACTTAAGTGAGCCACGTTCAACTTTTTGGGCGCAATTAACAGAAGTTCCTATATTGCCTAGAAAACATTATGACGAAAACTATTCTCAAAATCCAATTGGTTCGGGGCCATATATGGTTACTCAGTATGATAAAGATGAGCAAGCTATATTTGAAGTGAACCCACATTGGCATGGCAAGGAACCATACTTTAAAAAATGGACGTGGGTCACATTAGATGAAAACACTGCTTTAGCTGCTGCAAAATCAGGTGAAGTGGATATGATTTATGCACTTCCAGAATTTGCTGATACTAAAATTCCTGGTTGGAAACTTTTTGAGTATGAGTCTAATGACGTGCGAGGCTTGTCTCTGCCGTATGTGAAGCCAGGAGAAGTTGAGTCTGCTGATGGTTATCCTGTTGGTAATGAAGTAACGAGTGATGCCGCTATTCGCAAAGCGTTGAATATTGGATTGAATCGACAAGAAATTGTGGACACGGTCTTAAATGGTCATGGAGCACCAGCTTATTCGATTGTTGATGGTATGCCATGGTGGCATGAAGAAACTGCAATTGAAGACAATCGAGTCGAAGAAGCAAGTGAGCTATTAGAGAAAGCAGGTTGGAAGCTAAATAAAGATGGAATTCGCGTAAAAGGAGATACCAAAGCGCAATTTGATTTGTATTATCCTACAAATGACAAATTACGGACTAATGTAGCTATTGTTGCAGCAGAACAGGCTAAAGCATTAGGTATTACAATTAATTTAATAGGGAGTAATTGGGATGAAATGGTGACTAAATCACATAGTGACTCTTTATTATATGCTGGTGGACGTCATCACCCTAACCAATTTTATACGTCACATGATTTAAAGTTAGCAGGTCACGGATGGACAAATATTACTTTTTATCATAATCCTGTTGTATTAGATTATATGGATAAAGCAATCAGTTCAACGGACTTAGAAGAAGCTAATAAATATTGGAAGCTAGCACAATGGGATGGCAAAGAAGGTGCAAGTGTATTAGGCGATTTACCAAATGCATGGTTAGTTCGTATTAATCATACGTATTTAGGTGATAAGCGTATTAATGTTGGTAAACAACCGATTCATAGTCATGGTCATGACTGGGCATTATTGCATAATATTGCTGAGTGGACTTGGGATGAAGACGCTAAATAG MRYDNQKLWLMLFALLITLVLAACSSDNVAKNQTEKDKRELVVSMGERIPHEFDPKKRWGMYNEARIIHSTLLKKTPDLEVEGDFAKGYTISEDGKQWTFDLHNNFKFSNGDPVTAEDVKFSYETLIEDGKHWDLSFVDKIEIPDKNKVIFYLSEPRSTFWAQLTEVPILPRKHYDENYSQNPIGSGPYMVTQYDKDEQAIFEVNPHWHGKEPYFKKWTWVTLDENTALAAAKSGEVDMIYALPEFADTKIPGWKLFEYESNDVRGLSLPYVKPGEVESADGYPVGNEVTSDAAIRKALNIGLNRQEIVDTVLNGHGAPAYSIVDGMPWWHEETAIEDNRVEEASELLEKAGWKLNKDGIRVKGDTKAQFDLYYPTNDKLRTNVAIVAAEQAKALGITINLIGSNWDEMVTKSHSDSLLYAGGRHHPNQFYTSHDLKLAGHGWTNITFYHNPVVLDYMDKAISSTDLEEANKYWKLAQWDGKEGASVLGDLPNAWLVRINHTYLGDKRINVGKQPIHSHGHDWALLHNIAEWTWDEDAK PGPT0004430_7101 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 AK015_02469 981 dppB_2 COG0601 Dipeptide transport system permease protein DppB GTGAATCCTAGAATAAAGCAAGTAGTGCAAGTTGTTTTAAGAGGCATTTCGTTACTTATAGGGCTATCAATACTGACCTTTATTTTAATGAAAAACTCCCCAGTAGATCCTGTTATGGCAAGTGTTGATTATGACACTTCAATAACTCCGGAGCAGTATGCAGCAATTGAACAGCATCTTGGTTTGGATAAGCCTGTGACGATTCAATATTTTATGTGGTTGGAACGCCTACTTTCAGGTGATATGGGAAATTCTTTAATTCATCATGCACCCGTTAGTACAATTATTAAAGATAAAGCGAGAGCTTCAGCTGCATTGATGTTGATATCTTGGTTTCTTTCGGGTGTGCTAGGCATTATTTTAGGTACTATTGCAGCACTATATCGTGGTAGATTAATAGATAAAATGATTCGGTGGTTATCGTACTTACAAGTTTCTGTTCCTACATTTTGGTTAGGGTTAATTATCTTATTAGTGTTTTCTGTAGGGTTAGGTTGGTTCCCCATAGGTATATCAGCACCTATAGGTGTCGTCGCTGAAGATGTTTCGCTTATTGAAAAAATACATCATTTGATATTGCCTGTATTAACACTGAGTATTTTAGGTATCGCTAATGTTGCTTTACACACAAGAGAAAAAATGATACTCGCATTAAACAGTGAGTATGTACTATTTGCGCATGCTAGAGGAGAAAGTAAGTGGCAAATTCTAAAAAATCATGCATTTCGTAATGCCATAGTGCCAGCTATTACGATTCAATTTGCTTCTTTTGGTGAGTTATTCGGAGGCTCGGTGCTTGCAGAGCAGGTATTTTCATATCCTGGTTTAGGATCAGCTTTAACAGAAGCAGGGTTAAAAAGTGATACGCCATTATTATTAGGTATTGTCATTGTTGGTGCATTATTTGTGTTCTTCGGTAACTTGATTGCAGATATTATTAATGCAGCAATTAATCCGCAATTAAAAAGAGGAGGGATATAA MNPRIKQVVQVVLRGISLLIGLSILTFILMKNSPVDPVMASVDYDTSITPEQYAAIEQHLGLDKPVTIQYFMWLERLLSGDMGNSLIHHAPVSTIIKDKARASAALMLISWFLSGVLGIILGTIAALYRGRLIDKMIRWLSYLQVSVPTFWLGLIILLVFSVGLGWFPIGISAPIGVVAEDVSLIEKIHHLILPVLTLSILGIANVALHTREKMILALNSEYVLFAHARGESKWQILKNHAFRNAIVPAITIQFASFGELFGGSVLAEQVFSYPGLGSALTEAGLKSDTPLLLGIVIVGALFVFFGNLIADIINAAINPQLKRGGI PGPT0004445_6458 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 AK015_02470 828 dppC_3 COG1173 Dipeptide transport system permease protein DppC ATGGAGGCGGCAACAAATTTAAAACAAAAGCTGATTATTAGCGTAGCCTTTTCTAGTGGTATGATTGTATGTATTCTTTTTTTGAGTATGTTATTGGATGGTACCAACTTGCTGACAGATGCCACACAAAAAAGTCAGCCTCCGAGTCTACACCATATATTTGGTACGGATTGGCTAGGAAGAGATATGTTTATTAGAACGATTGAAGGGCTTAGCTTTTCCATGTTAGTGGGTGTTATTGGCTCATTGGTGGGTGTAGTGCTTGCAATTGGACTTGGTGTTTCAGCTGCGATGTTCGGAAAAAAGGTAGATAGTTTTATTTCGTGGTTAATTGATTTATTTATCGGTATGCCACATTTAATTTTTATGATATTAATTTCGTTTGCTGTTGGTAAGGGAGCCTTAGGCGTAATTGTAGCTGTAGGTTTAACTCATTGGCCTACTTTAGCCCGTGTTATACGAAATGAAGTAGATGCAATTAAAAGTGCTGATTATATTAAAATATCCAAAAATATAGGTAAGACAAGCTTTTATATTTTACATAAGCATATTTTGCCAGTTATTTTCCCACAAATCATGATAGGTTTTTTATTGCTTTTCCCACATGCGATTATACATGAAGCATCCATGACATTTTTAGGTTTTGGATTATCTGCACAGGTACCATCTATAGGTTTAATTTTGTCAGAAGCTGTTAAGCATATTTCATTAGGCGACTGGTGGTTAGCTGTATTTCCAGGCGTACTGCTTATATTGCTGGTAAAAAGCTTTGATAATATTGGTGAATCCTTAAAACTTATATGGATGCCTCCAACAACCAAGTTATAG MEAATNLKQKLIISVAFSSGMIVCILFLSMLLDGTNLLTDATQKSQPPSLHHIFGTDWLGRDMFIRTIEGLSFSMLVGVIGSLVGVVLAIGLGVSAAMFGKKVDSFISWLIDLFIGMPHLIFMILISFAVGKGALGVIVAVGLTHWPTLARVIRNEVDAIKSADYIKISKNIGKTSFYILHKHILPVIFPQIMIGFLLLFPHAIIHEASMTFLGFGLSAQVPSIGLILSEAVKHISLGDWWLAVFPGVLLILLVKSFDNIGESLKLIWMPPTTKL PGPT0004450_10231 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 AK015_02471 810 oppD_6 COG0444 Oligopeptide transport ATP-binding protein OppD ATGAACGAACCATTTTTATCGATACGTGATTTACATATTTCATTTTCGCGATATACACCTAAACTAACTATTGAGCAGATTACACCAGTCCGCTCATTGAATATAGAGATTTATAGAGGTGAGATTTTAGCTGTAGTGGGTGCTAGTGGTTCAGGAAAAAGTTTGTTAGCACATGCTATTATGGGGATCTTACCCTCAAATGCTAAGATGTCTGGAGAGATCTATTATGATGGTCAACCACTTACGCCAAAAAAGATTAAACAGTTGCAAGGTGAAAAAATAGCTTTCATTCCACAATCTATTAACTATTTAGATCCCTTAATGAAAGTGAAGAAACAAGTGCAAATTGGTTTGCCTAAGAAGGGTAAGAAAAAAATTCAAGAATCGTTGTTTGAGGCATATGATTTACAAAAGCAAGACGGTGATTTATACCCTTTTCAACTATCAGGGGGTATGCTCCGCCGTGTGCTGTTTGCAACTAGTGTTAGAGATAGCGTAAAGTTAGTAATCGCGGACGAACCTACACCTGGTATCCATGCTGAAGCTTTAGATAAGGTGCTAAAGCAACTACGTGTATTTGCTGATAACGGTATGGCAGTACTACTCATTACACATGATATTCTATCTGCGCTATCTATTAGTGATCGAGTAACTATAATGAAGGATGGTACTGCGCTTGAAACAGCATCTGCTAATAAGTTTGAAGGAAGAGGGGAGCAGTTAAAAACATCCTATGCGAAGGCGTTGTGGCGAGCATTGCCTACTAATGATTTTTTGAATGCGGAGGGCTTAGATAATGTTACAATGTGA MNEPFLSIRDLHISFSRYTPKLTIEQITPVRSLNIEIYRGEILAVVGASGSGKSLLAHAIMGILPSNAKMSGEIYYDGQPLTPKKIKQLQGEKIAFIPQSINYLDPLMKVKKQVQIGLPKKGKKKIQESLFEAYDLQKQDGDLYPFQLSGGMLRRVLFATSVRDSVKLVIADEPTPGIHAEALDKVLKQLRVFADNGMAVLLITHDILSALSISDRVTIMKDGTALETASANKFEGRGEQLKTSYAKALWRALPTNDFLNAEGLDNVTM PGPT0004435_13865 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 AK015_02472 621 nikE COG4608 Nickel import system ATP-binding protein NikE ATGTTACAATGTGAAAATATTGGATTTTCATATGATAACCAAAGCTGGCTTTTTGAGGGTGTATATTTAACTGTTAAACCAGGAAAAGTTGTAGGTATCTCTGGGATGAGTGGCTGCGGTAAAACAACGTTAGCTAAAGTGCTTGCAGGCCATTTACCTTATCAAAAAGGAAGAATTTTGATTAACCAAGATATAGTAGACAAAAAAGATTTTAATCCAGTACAGCTTATATTGCAACATTCGGAAAAATCTGTGAACCCATATTGGAAAATGAAAGATATTTTAGCTGAAAGTTATATCCCATCAATGGAGCTGTTAGAGCAATTTGGTATAAAGGAAGAGTGGTTATCGCGTTGGCCGATAGAGCTATCAGGTGGTGAGCTTCAACGATTTTCGATTGTACGAGCGCTACACTTAAAAACTAAATATATTATTGCAGATGAAATCACAACGATGTTTGATAGTATAACGCAAGTGCAGATTTGGAGAGCTCTATTAAATATTTGCCAAAAGAGAAAGCTGGGGTTAATTGTTATTAGTCATGAAATGGATATTTTAACTAAAATTTGTGATGAAATATACACTATGCAGGAGTTGAAGAAAAGTATAATAGATAGATGA MLQCENIGFSYDNQSWLFEGVYLTVKPGKVVGISGMSGCGKTTLAKVLAGHLPYQKGRILINQDIVDKKDFNPVQLILQHSEKSVNPYWKMKDILAESYIPSMELLEQFGIKEEWLSRWPIELSGGELQRFSIVRALHLKTKYIIADEITTMFDSITQVQIWRALLNICQKRKLGLIVISHEMDILTKICDEIYTMQELKKSIIDR PGPT0004440_10030 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 AK015_02473 453 immA COG2856 Metallopeptidase ImmA TTGAGTTGGATAAAGGATATAGTAAATCAATTAATACAAAAGTATCGTTCTAATAATCCATTTGAACTAGCAAACTTTAAAAATGTCCATGTTATCGAGTGGAATTTGCATGACGAAATCAAGGGGTTTTACAAATATGATAGAAAAAATCAATATATTTTTATTAATTCTAATTTAGATGACATAACTAAAAGATTTGTATGTGCTCATGAGCTCGGTCACTCTCAATTACATAAAAGAGTAAATACCCCTTTCTTACGGAGTACCACTTACCTTCCAGTAAGTAAGATTGAAGTAGAAGCAAACACCTTTGCTGTAGAACTTCTTTTGCCAGACGAGTGTCTTTATGAATATGTAAGCACAAACGTTACCATTAAAGAAGTAGCTGCAACTTACGGTATCCCTGAACAAATCTGTCATCTAAAAAATTTTAAAGTTCGAATAGGTATTTAG MSWIKDIVNQLIQKYRSNNPFELANFKNVHVIEWNLHDEIKGFYKYDRKNQYIFINSNLDDITKRFVCAHELGHSQLHKRVNTPFLRSTTYLPVSKIEVEANTFAVELLLPDECLYEYVSTNVTIKEVAATYGIPEQICHLKNFKVRIGI NA NA NA NA NA AK015_02474 3063 hypothetical protein ATGCGGAAAGAAGATGTGAAATCTGTTTTAGAGGCTTGGAAACTAGTTGAATCTCTGTCTCCAAGCGAGGTAAAGGGTATTGGAGAGGTGATTAACAAAAATCGATTTTTAGACGGGAAAAAGCAACGTAAAACTGAACAAATTAGTTTATCAGAAAAGCCGTGGGAGCAGGTGAAATTAAAAGAGTCTAGTAAAGAAAAACTACATTTTCGCTATTATTTGGGTTGCTTTCAACAATATAAACTAGTTGAGTATTTACGTTATTTGCTGCAAAATAATGAAGAACTTATCAACAAAGACAAAACAATTCTTTTTAGCTTTTCCTTTTCGATTGATCAAAATGGGGAGTACATAAAGGGCTCGATTTTTGTTCCTATTTTAATGTATGCAACTAGGATAATGAGTAAAAAAGCTCTTATAGCATATGATGAAATGAAGACAGCATTTGATGATAAATTACAATTATTTGAAGACAAAGTAGATGCCATTTTTAAAGGTGGAGTGGATCAACATTCGCTCTACAAAGCTTTAGATACATATCGACAGTATTTTTTTCTACTAGAAAACCAATCGTTACACTATGTAGAAAAAGAAATCATAAAGGAAGGAAGTAGTGGTCAGAGTAGTTTCAACAGCTTCTTTTTAAAAGATTTAGAAAATATTATTCAAAAAGGAACTAATGAGACTTTATATAAGTTTATCGAAGGAGTAGATTCTAATAATAGAATCATCATTGATGAAAATAGAAAAGTTATAGAAGAAATATTACAACCTAAATATTTACCAAATGGTAGGTGGCCTTCCAAAGTTGAACATAGGTTGTCTTTGATGCAACAGGTTGCAGTTAACCAAATTATAAACATGAATGAAAAAGTGCATTCAGTTAATGGACCTCCCGGAACAGGGAAAACAACTCTATTAAAAGATATTTTTGCACATATCATGGTTGAAAGAGCAGAAGCCATGATTAAATTAGGAGATCCAACAAAAGCGTTTCAAAAGTTGAAAACCCTTCAATTAGAAGGCTACAATTATCCAATCTATGAGATGGAAAAATCAATTAGAAATTATTCAATGGTTGTAGCTTCAAGTAATAATGGTGCAGTAGAAAACATTTCTAAAGACCTTCCAAAAGAAGGGGAAGTTATTCGTAAAGTTAACGAAAAGGATAAGTTTAAAGCATTTGAGGAACTTTATGCTGATGAGGCAAAACAGTTAAATATGTACCCAATTGCTGCAAAAGAGTTAATAGGTAATGACGAAAAGGCGTGGGGATTGTTTTCTGCTGCAATGGGAAAAAAGGAAAATATATCGAGCTATTATAATAAACTTTATAATAAAGATGAGGATAGTTTTATAAATCAATTAGAACAAGATAGTAAAAACATTGACATGTCTAATTGGAAAGACGCTGTTAATGATTTTCAAGCAACACTAAGGTCTATTAAAGCAAAGAAAAAAGAACTACAATTCCTATGTGAGCAGCTTAAAGATATTGATAAGTTACCAAGAGCATTAGATAGATTGGAGACAACTTTAATATTTATTGAAGAAGAGAAGAAAAGAGTAGAAGAGACACTAGAACATTACCAAGAGAGAAAAACATTATTAGAAGAAGAATTTGAAACAGCTTCAAGAGAAGGGCTTTTAAAGAGAGTAATTAGAAAAGTGCTTCGTAAAAAGAATGAACAAATATTACAATTAGAAGCTGAATTAGTAGAAATTAATGCAAAAATTGAGACAGAAGCAGATACTTTACATCAATTGAACTTAAAAAAGTATGCAACACAAGAAGTTATGAAGGAAGAAAAAAATAAAATAGATTACTATGATCGTGTAATGGAAAAATATGAAGATCAAAATTTAGTGCTACCTGATGAGAAATATTGGAGTAGTTCTGCATACGATTATAGGCAAGAAAAAGCAATTTGGATCACAGATGAATTAAACCATGAAAGAGGATTGTTATTTTTAAAAGCAATGAAGATTCATAAGTTGATATTAATATTCAACTACAAAGCGGTAAGATCTAACCTTCGTTTATTAAATTACCGAAATCAGTTAGATTTAAACCAGAGTGAACATAGACGATACTTGGAATATGCTTGGCAAGCTGTTCATTTGATAACTCCATTAATAAGTACTACTTTTGCAAGTTTTAGTTTGATGTATAAAGGGGTAAGCAAAGATTTTATTGATTATTTGTTTATTGATGAAGCTGGGCAAGCTAGTCCACAGCAAGCAGCAGGAGCATTATGGCGTTCCAAAAATGCTATTGTAGTTGGAGATCCACTTCAAATAGAACCAGTCGTAACTATTGATCAAACAATTCTAGGAGACATTAAAAAATACTATAATGTGGATTCTATTTATATTGATAAAGGATCCTCTGTACAATCTATTGCTGATAATGCAAATAGATTTGGAGTATATAATAAGTATGGACAGTGGATTGGAATTCCTTTATGGGTTCATAGAAGGTGTTCAAGTCCAATGTTTACCATTTCTAATGAAATTGCTTATGATAATAAAATGGTCTTAGCTAAAAAGGAAAAGCTTGGAGAAAGCGCATGGTTTCATTGTATAGGTAGTGCAATTAATCGCCAATTTGTAAAAGAACAAGCATACTTTGTTGCGGAAAAGATCGCCTCACAATGGAAAAATGGTATAGAGCCACCAGATATATATGTAATCACTCCTTTTACCGCTGTTAAAGACGGTATTAAGAACATTGTAAGAGCACGCTTAAAGCAAGAAGGTATTCCAATTCGAGATATAAGTAGCTGGATTATTAAATCAATAGGAACCGTTCATACATTTCAGGGCAGGGAGGCAGATATTGTTTATTTTGTAGCTGGAACAGATGAAAAAAGCGATAGCGCTGCCGATTGGTCATGCTCTAAGCCTAATCTAATTAACGTGGCTGTGACAAGAGCAAAAGAAGAATTTTACATGGTAGGGGATTATAAACGTCTTTCAAAAAAAGAATATTATAAAACTATTGCAGGAAATATTGGTGAAGTTTACAATCTTGAAAATAGCAGGTATGTAATAAAGAAATAG MRKEDVKSVLEAWKLVESLSPSEVKGIGEVINKNRFLDGKKQRKTEQISLSEKPWEQVKLKESSKEKLHFRYYLGCFQQYKLVEYLRYLLQNNEELINKDKTILFSFSFSIDQNGEYIKGSIFVPILMYATRIMSKKALIAYDEMKTAFDDKLQLFEDKVDAIFKGGVDQHSLYKALDTYRQYFFLLENQSLHYVEKEIIKEGSSGQSSFNSFFLKDLENIIQKGTNETLYKFIEGVDSNNRIIIDENRKVIEEILQPKYLPNGRWPSKVEHRLSLMQQVAVNQIINMNEKVHSVNGPPGTGKTTLLKDIFAHIMVERAEAMIKLGDPTKAFQKLKTLQLEGYNYPIYEMEKSIRNYSMVVASSNNGAVENISKDLPKEGEVIRKVNEKDKFKAFEELYADEAKQLNMYPIAAKELIGNDEKAWGLFSAAMGKKENISSYYNKLYNKDEDSFINQLEQDSKNIDMSNWKDAVNDFQATLRSIKAKKKELQFLCEQLKDIDKLPRALDRLETTLIFIEEEKKRVEETLEHYQERKTLLEEEFETASREGLLKRVIRKVLRKKNEQILQLEAELVEINAKIETEADTLHQLNLKKYATQEVMKEEKNKIDYYDRVMEKYEDQNLVLPDEKYWSSSAYDYRQEKAIWITDELNHERGLLFLKAMKIHKLILIFNYKAVRSNLRLLNYRNQLDLNQSEHRRYLEYAWQAVHLITPLISTTFASFSLMYKGVSKDFIDYLFIDEAGQASPQQAAGALWRSKNAIVVGDPLQIEPVVTIDQTILGDIKKYYNVDSIYIDKGSSVQSIADNANRFGVYNKYGQWIGIPLWVHRRCSSPMFTISNEIAYDNKMVLAKKEKLGESAWFHCIGSAINRQFVKEQAYFVAEKIASQWKNGIEPPDIYVITPFTAVKDGIKNIVRARLKQEGIPIRDISSWIIKSIGTVHTFQGREADIVYFVAGTDEKSDSAADWSCSKPNLINVAVTRAKEEFYMVGDYKRLSKKEYYKTIAGNIGEVYNLENSRYVIKK NA NA NA NA NA AK015_02475 186 hypothetical protein ATGAAGGAAAGCAGCATAAAAAAAGGCATGCTATATGCAAAGAAAACTCTTGAAATGGAGAACTTAAAGGTAAGTGAAGAACAGACTAATTTAGTCAGAGAAAGCTTAAATGGAGAAATTTCTCACGATCAATTTATTAAAAAAGCTTTAGAGTTAGCAAATGAAAGTATAACCCAATCAAAATAA MKESSIKKGMLYAKKTLEMENLKVSEEQTNLVRESLNGEISHDQFIKKALELANESITQSK NA NA NA NA NA AK015_02476 165 hypothetical protein ATGACGAAGCAAAATGAAAAGAAGCGTCCAAAGAGAAAAAGTCATTTAAAGCTTGGAAAGGAAACGTTTGGCGACATGCCAATGGAAGAATGTTTCCGAAAAGCATTTGAACCCTATTTCAATCCAGATAAAGCAAAGAGCACTTATTTAAGCAGGCTTGAATAA MTKQNEKKRPKRKSHLKLGKETFGDMPMEECFRKAFEPYFNPDKAKSTYLSRLE NA NA NA NA NA AK015_02478 168 hypothetical protein ATGGATCGAATAGCACTTACTATATCGCTTATTCTATCTGTTATTGTAACCTTTTTAAATGTTAATGCTGACGATTATGTGGACGCCACATTTATGGGGATTATTTCTTTGCTTGTGCTAATAGAATTAATAAAATCAACGAAAAGCAAAGGTGATACTTCAGTTTAA MDRIALTISLILSVIVTFLNVNADDYVDATFMGIISLLVLIELIKSTKSKGDTSV NA NA NA NA NA AK015_02479 144 hypothetical protein GTGAAAGTATTAAACTTAGAAGATAAAATTTCATCTAAGCAAAAAGGATATATAACAGAAAGTAGAGTTGCAGAATTGATAACATTAGGCTCACAAGGGCAATTAACATGCTATACCCCAGATTCGGATGATGAAGGAGTTTGA MKVLNLEDKISSKQKGYITESRVAELITLGSQGQLTCYTPDSDDEGV NA NA NA NA NA AK015_02480 2565 hypothetical protein ATGATTACATCAGAGGAAATAAAGAAAAGGCTTTGGGATGGTGCCAATGAATTAAGAGGTTCTATGGATGCCAGCCGATACAAAGATTATATGTTAGGCTTAATGTTTTATAAGTTTTTAAGTGATAAAACATTAGACACATTTAAAAAGAGCAGCGGTATGAAGCAAAGTGACGAAAAAGAAATCGTACAAGCCTATCGTGAAGCGTATGAACAATACGGTGAACAATTGATAACGATGATTCGAGATGTACTTGGTTATTACGTATTACCTGATAATTTATATCAAACTTGGCTAGAAGATATACAGGCAGGAGAATTTGAAGTTCAAAAAGTAACGGATAGTTTAAATAGCTTTGAACGAACGGTAGCTGTCACTGGTGATGCGGATGACTTTAAAGGGATATTTTCAAATTCTACAATTGACTTTACAGACACTGCTTTGGGTAGTAATTTGAATGAACGTAGCAAAAATATAAAATCGCTTATTTTGCTTTTTGCTGACTTAAATATGGTTGCCTTACAAAAAGGCGATGTCTTAGGTGATGCGTATGAATATCTCATCGGACAATTTGCAATGGAGTCAGGAAAAAAAGCGGGGGAATTCTACACGCCCCACCAAGTAAGCGAAGTAATGGCGCAAATTGTAGCTAAAACATCAGGGATTGAGTCCATTTATGACCCTACTGTTGGGTCGGGTTCTCTATTATTAACTGTTAGGAAACAATTGAATGAAGATGCACAGAAAAGTTTAATTTATTACGGTCAAGAAAAAAATACTGCAACATATAACTTAACCCGAATGAACTTATTACTACATGGTGTGCGTCCTGATAGAATGACCATTCGAAATGGCGATACGTTAGCAGAAGATTGGCCTGAAGACCCACAGCGACCAAATGAAGGTGTGCAGTTTGATGCGGTTGTGATGAACCCACCTTATTCCGCAAAAAACTGGAATAAATCAGACTTAAAAGTAAGTGATCCACGATTTGAAATTGCTGGAGTGTTACCTCCAGATTCGAAAGGAGACTATGCATTCCTTTTACATGGACTATTTCATCTAGGACAGCATGGTACGATGGCAATTGTTTTACCTCATGGCGTATTATTCAGAGGTGGAACAGAAGGTGAAATTCGTAAACGTTTAGTAGATAAAAATTATATTGATACAATTATCGGATTACCAGATAAATTGTTTACAAATACAGGCATTCCAGTTACTGTAATCATCTTAAAAAAGAATCGAAACATCGGTGATCCAGTGTTAATTATTGATGCGTCAAAAGATTTTATGAAACTAGGAAAGCAGAACGTCTTACAAGAAAAAGATATTGCAAAAATTGCCGATACGTATACAGAGCGTAGAGAAGAAAAAGGTTATAGCCATTTAGCAACAAGAGAAGAAATCATAAAAAATGAATATAACTTAAACATTCCACGTTATATTGAATCAATTGCAGACGATGTCCCTCAAGATGTTGATGCGCATTTATTTGGTGGCATACCACGTTCAAATATAGCAGAATTAAACGTTTTAACATCAACAGTTCCTAACATTTTGGAACAATCTTTGAAAGAAATTCGTAATGGCTATTTCGTCTTATCAAGTTCGATCGATGAGATGACGGAGAATATATTAAAAGATCCTTATGTCATAGAGAAATCAAATGAAATGGAAGTTAAAATAACAGCTTACATGAATAAGTATTGGGAACTACTTAAAAATATAGATAATGTAAATCAAATAACAGATTTGAAAAATGAAATGCTTATCGAAATTAAAAACATTCTATCCGAATTTAATTATGTTAATATCTATGATGGGTATCAGATTATTGCGGAAATTTGGCAACACACATTGACAGATGATACTGAAATTATTGCATCTAATGGTTTTTATACATCAGGTCGTACACGTGTCCCGCGTATGGTAACAAAAGGAACAGGAAAGAAAAAACGTCTAGAGCAAGATGGTTGGATGGGAAGCATTGTGCCTAATGCCTTAATTACAAAGCATTTATATAGGGATGAGTTAGCAGCAATTGAAGCTAAGAAAATGAGATTACAAGAAATTGAAACAGAATTAGCTGACTTAGTAGAAGCTGCCAAAGTAGAAGATAGTGAAGAAGAACTAGCATTAGGGGAAACGTTAAATGAAAAAGAAGATGCATTTCTTGTTGGAGCTGTTAGAGCGGAAATAAAAAAAGTAAAAAAGGATACAACAGAATATGCATTATTAAAAAATGTAGAGTCATTGTTAAACGAAAAAGCAACGTTAAATACAAAAGTGAAGAAATTAGAAAAAGAATTAAAAGAAGCAACAGAAGAACGTATCTTAACATTAACAAATGCTGAAATTGATATGTTAATGTATGAAAAATGGTTTGGGAATGTTGTGGATAGAATGGTGATTCTAATTGAAAATCCTTTAAAAGAGGAGCTACATACACTTGAAATGTTGCAGGAACGTTATTCTGAGACGTTATCTACAATAGAAGAAAAAAGTGAACAATTAGAAAAACAACTTGAAGCAATGATGCATGAATTGATGGTGAATGAGTGA MITSEEIKKRLWDGANELRGSMDASRYKDYMLGLMFYKFLSDKTLDTFKKSSGMKQSDEKEIVQAYREAYEQYGEQLITMIRDVLGYYVLPDNLYQTWLEDIQAGEFEVQKVTDSLNSFERTVAVTGDADDFKGIFSNSTIDFTDTALGSNLNERSKNIKSLILLFADLNMVALQKGDVLGDAYEYLIGQFAMESGKKAGEFYTPHQVSEVMAQIVAKTSGIESIYDPTVGSGSLLLTVRKQLNEDAQKSLIYYGQEKNTATYNLTRMNLLLHGVRPDRMTIRNGDTLAEDWPEDPQRPNEGVQFDAVVMNPPYSAKNWNKSDLKVSDPRFEIAGVLPPDSKGDYAFLLHGLFHLGQHGTMAIVLPHGVLFRGGTEGEIRKRLVDKNYIDTIIGLPDKLFTNTGIPVTVIILKKNRNIGDPVLIIDASKDFMKLGKQNVLQEKDIAKIADTYTERREEKGYSHLATREEIIKNEYNLNIPRYIESIADDVPQDVDAHLFGGIPRSNIAELNVLTSTVPNILEQSLKEIRNGYFVLSSSIDEMTENILKDPYVIEKSNEMEVKITAYMNKYWELLKNIDNVNQITDLKNEMLIEIKNILSEFNYVNIYDGYQIIAEIWQHTLTDDTEIIASNGFYTSGRTRVPRMVTKGTGKKKRLEQDGWMGSIVPNALITKHLYRDELAAIEAKKMRLQEIETELADLVEAAKVEDSEEELALGETLNEKEDAFLVGAVRAEIKKVKKDTTEYALLKNVESLLNEKATLNTKVKKLEKELKEATEERILTLTNAEIDMLMYEKWFGNVVDRMVILIENPLKEELHTLEMLQERYSETLSTIEEKSEQLEKQLEAMMHELMVNE PGPT0027180_295 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 AK015_02481 1254 hypothetical protein ATGGAGCAAAAAAAACGAGTGCCCAAAAGAAGATTTGCAGGATTTACGGATGAATGGGAAGATCGGAAGTTGGGAGATATAGCTGAGATAGTATCTGGTGGAACTCCAAGTACTAATAACCCTAAGTATTGGGATGGAGATGTAGATTGGTATTCTCCAACTGAAATTGGTGACCATGTTTATGCTTATAGAAGTGTAAAAACTATTACTCAATTAGGTCTAGAAAAAAGTTCAGCAAAAATACTTCCGCCAGCTAAAACGATTCTATTTACAAGTAGAGCAGGCATAGGAGATATGGCTATTTTACAACGCCCTGGAGCAACAAACCAAGGATTTCAATCACTTGTTTTAAAGGAAGGGATAGATACATATTTCATATATTCTATGGGACACTTGATCAAAAAATATGCAGAGAAAAATGCATCAGGATCAACATTTTTAGAGATATCAGGTAAAACCTTAGGGAATATGCTAATATTAGTACCTTCAATAAATGAACAGCAAAAAACAGGTGATTTCTTCAAAAAACTTGATGATATGATCACTATCCAACAACGTAAATTAGAAAAAACAAAAGTGTTAAAATCTGCCTATCTTGCTGAAATGTTTCCTACTGAAGGCGAGCGAGTGCCAAAAAGAAGATTTGCAGGATTTGTAGATGAGTGGAAAAGATATAAATTTAGTAGTTTGCTTGATAGATCTGACGGCATTAGACGTGGGCCGTTTGGGAGTGCATTGAAGAAAGATTTCTTTGTTTTAGAAAGTGATTATGTTGTTTATGAACAGCAAAATGCAATATATGATAGATATAACACTAGATATAACATCACAAAAGAAAAATATGATGAATTACAGAAATTTAGATTAAGTGCAGGAGATTTTATTATGAGTGGGGCAGGAACAATAGGGCGTATTTCACGAGTACCAAAAGGGATTAAAGCAGGTGTTATCAATCAAGCGCTAATCCGAATAAAGATAGTTGAAGCAGCTATTGACTCTGAATTTTTTCTGCAATGGATGCGTTCCGAAGATATGCAGAGGAAATTAACTGAAGCCAATCCGGCTTCTGCAATGGTAAACCTTGTGCCTATGTCGGAAGTCAAAGAATGGGAAGTTTTAGTGCCAAAAAGAGATGAACAACAAAAAATAGGTGACTTTTTCAAAAAGCTTGACGACTTAATTGCTAATCACCAACGTAAATTAGAAAAGTTACAAGCGTTAAAACAAGCATATCTACATGAGATGTTTGTGTAA MEQKKRVPKRRFAGFTDEWEDRKLGDIAEIVSGGTPSTNNPKYWDGDVDWYSPTEIGDHVYAYRSVKTITQLGLEKSSAKILPPAKTILFTSRAGIGDMAILQRPGATNQGFQSLVLKEGIDTYFIYSMGHLIKKYAEKNASGSTFLEISGKTLGNMLILVPSINEQQKTGDFFKKLDDMITIQQRKLEKTKVLKSAYLAEMFPTEGERVPKRRFAGFVDEWKRYKFSSLLDRSDGIRRGPFGSALKKDFFVLESDYVVYEQQNAIYDRYNTRYNITKEKYDELQKFRLSAGDFIMSGAGTIGRISRVPKGIKAGVINQALIRIKIVEAAIDSEFFLQWMRSEDMQRKLTEANPASAMVNLVPMSEVKEWEVLVPKRDEQQKIGDFFKKLDDLIANHQRKLEKLQALKQAYLHEMFV PGPT0027175_2650 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 AK015_02482 3084 hsdR Type-1 restriction enzyme R protein ATGAGCAATGCACCGAAAAACGCTACTGAGAAGACGTTTCAAGAAAGTTTTGTTAAGAGACTACAGAAGTATAAATGGGAAGCGCCTGAGGAACTGAATGGAAATAAACAAAAGGTAACCGTTCAACATTTAATTAACCATTGGCGTAGTGAGTTAAATCGTATCAATGTGGACCAATTAGAAGGTGTTCCACTAACAGATAATGAGTTTCGTCAAGTGATAACAAAAGTTAACCAAATCGCTAATAGTTTTGAAGCAGCAAAACTATTAGCGATGGAGGGATCAAAAGGCAAGATTGATGGGATTTATCGTGATAATCACCCTGATGTGACGAGAAAACAAATTACATTAACGATTTTTAAAAAGGCGGAAGTACGTGGTGGGGATTCAAGTTATCGTATTGCCAGAGAAGTAGAGTCAGAGAATGGTAATCGTTTTGATATTACTTTGCTTATTAATGGATTGCCTTTAATCAATATTGAGCAAAAGCGTACAGATAAAACATTAGACGAAGCTTTTCGACAATTTAAACGATATTACCAAGATGGAGAGTATACATATAACTTCATGGCATTTTCGCAAATGATGGTGATTACATCAGAAATTGCCACACGCTATTTTGCGACACCTAAAACGGTGCACGATTTTAACCCAAGTTTTGTTTTCCATTGGGCAGATAAAAACAATCGACCCGTTAATAATTGGGAAGAAGTCATTAGCCAATTTCTAATGATTCCCATGGCGCACCAAATGGTTGGAGATTATCTAGTCATTGATGAAGCGCGTGAAGAAGAGAATAGACGTCATATGCTGATGCGTTCGTATCAAGTTCATGCATTACAAGCAGTTGAAGCTGCTGCTTTTGGTTGGGATAATAAAGATAGAATCCCACATGGAGGATTTGTTTGGCATACGACAGGTTCTGGAAAAACGATTACAAGTTTTAAAACAGCTCTATTCTTATCAACTCGTGTAGGATTCGATAAGGTCGTTTTTCTCGTTGATAGAAAAGAATTGGATAACCGCACAAGTGAAAATTTTAAAGCGTACGCAGCATACGAGTCCGTTTCAGTTGATGATACAAAACACACGTATCAACTAAGGAAAAAGTTAACATCAGCCAATAATGGAATTGTCGTTACAACAACATTTAAACTAAATACTTTAGTTAAAGAATTAGAAGAAGCGCAAGATAATAATTTAGCCGAGAAACGAATGGTTTTTATTATCGACGAAGCCCATCGGACGACAATGGGACAAATGATGGGAACAATCAAGCAATATTTTAAGAAAAATAGTTTGTTTTTTGGTTATACTGGAACACCCTTGTTTGATGAAAATAAAGTAAAAGGAAAAATCAATGAAAAAAGTGAAGTTATTAATACAACGGAGAAGTTATTTGGACCATTATTACATCAATATACCATTGATGAAGCAATTGCTGATAAGAACGTATTAGGTTTTCATGTCGATTATATTAACACAGGTGAATTTGAAAGCTATGATAGTTTAAGAGAACAAATCATATCTGAGATGAAAGAAGAGCAACCTGATGTAGTTGAAAGAGAAATCGAGCGACTTGTATACAGCTGGTCTGAATTAGAAGTTGAAAAACAGGCAAAACAAAGAAATATCCTTAATTATCATGATGAAACGCATATTCCACGTGTTGTCGAAGAAATATTGAGTAATTGGGAATCTCAATCACAAGGTAGAAAGTTTAATGCAATTTTAACCGTTGCTTATAAGAAACGAGTCATTGCTTATTATCATGAATTCAAGAAACAGATGAAAAAAAAGGGAAAATCATTGAATATGGCGATGACGTTTAGTTTCGGTAATGAAGATGATCCTGAGCCGCTAGACCCACTTATTGTAGAAGAAATGTTTAAAGATTATGCTGCATTTACTGGAATCGAATTTGTCGCAGGAGATAAAAAGCATGGTGAAGAAGCTTACTTTGAAGATGTTGTAGTGAGAGCGACACGTGGTGGTAGTGGACGTCATCCAAAAAATATCGACCTTGTCATAGTAGCAGATCAACTTTTGACAGGCTATGATTCAAAGCGTTTAAATACACTGTATGTTGATCGTTCACTCGAATTACAAGGCTTAATTCAAGCGTACTCGAGAACGAATCGTGTATATGGCTGGAACAAAGAATTTGGCTCTATTATAAATTTTCAGTACCCTAGAATAACTGAAGAAATCGTAAATCAAGCATTGAGGTTATATGGAAGTGGCGGAAAGAGTAGTAAAGCAATTGTAGAACCATATCAAACAGCAGTGGAAAAACTAGCACTAAACATAAGTGAAATGATTCCAACTCTACCTGACCCAACGAGTTGGCAAACAATTATACACGATGAAGAGAAGAAAGAAGCATTTATTCTTGCTTATAAAGATGCGGCTGAGCAACTTCATTTAGTTCAACAGTATTATGAATATAAATGGGATGACGTTGCTTTTGGACTTGATGAGCATACGTGGATGCGCTATGTAGGCGCATATAAAAATATTACGTGGGAACCGGGGAAAGCAGCGCCTTCTACACCTGGAAATGTGCTAGTTGGAAAAACGAAATTAGCAGGTACACAAGTAATTGATGCAAGCCATATACTAAATTTAATTGGTTCCAAGACCACCTCATCTAACGGAAAGCAGACGGTAGATACGGAAACATTACGAATTATTTACCAGCAAATTGAAGAGCTAAGTAATATGGGGGATCATGAACAGGCGGAATTATTAAAAGAATTTGTGATGGAAGAACTTGAGCCTGGTAACATATCAAGTGAGATCAACTTTGACGAAGCATTTGAAAAATGGAAAAACGATAAAAAGAGAAGTGATATATACAAAATCGCACAAGATTGGGGGTTAAATTCGACGATTTTTGAAAAGTCAGTAGAGGCATATTCAAGCACAAGCCCTAATGACATTCCTTTTATTGATGATTTAATGGATAGCTTAGACTTTGATTCAGCAAAAAATAAAATAGCCAATAATCAATTACAACATAATTTAGCTTTAACACCATTTCTTTATAAAGTCATTCCAAAAATAAAATCGAAATATAATTAA MSNAPKNATEKTFQESFVKRLQKYKWEAPEELNGNKQKVTVQHLINHWRSELNRINVDQLEGVPLTDNEFRQVITKVNQIANSFEAAKLLAMEGSKGKIDGIYRDNHPDVTRKQITLTIFKKAEVRGGDSSYRIAREVESENGNRFDITLLINGLPLINIEQKRTDKTLDEAFRQFKRYYQDGEYTYNFMAFSQMMVITSEIATRYFATPKTVHDFNPSFVFHWADKNNRPVNNWEEVISQFLMIPMAHQMVGDYLVIDEAREEENRRHMLMRSYQVHALQAVEAAAFGWDNKDRIPHGGFVWHTTGSGKTITSFKTALFLSTRVGFDKVVFLVDRKELDNRTSENFKAYAAYESVSVDDTKHTYQLRKKLTSANNGIVVTTTFKLNTLVKELEEAQDNNLAEKRMVFIIDEAHRTTMGQMMGTIKQYFKKNSLFFGYTGTPLFDENKVKGKINEKSEVINTTEKLFGPLLHQYTIDEAIADKNVLGFHVDYINTGEFESYDSLREQIISEMKEEQPDVVEREIERLVYSWSELEVEKQAKQRNILNYHDETHIPRVVEEILSNWESQSQGRKFNAILTVAYKKRVIAYYHEFKKQMKKKGKSLNMAMTFSFGNEDDPEPLDPLIVEEMFKDYAAFTGIEFVAGDKKHGEEAYFEDVVVRATRGGSGRHPKNIDLVIVADQLLTGYDSKRLNTLYVDRSLELQGLIQAYSRTNRVYGWNKEFGSIINFQYPRITEEIVNQALRLYGSGGKSSKAIVEPYQTAVEKLALNISEMIPTLPDPTSWQTIIHDEEKKEAFILAYKDAAEQLHLVQQYYEYKWDDVAFGLDEHTWMRYVGAYKNITWEPGKAAPSTPGNVLVGKTKLAGTQVIDASHILNLIGSKTTSSNGKQTVDTETLRIIYQQIEELSNMGDHEQAELLKEFVMEELEPGNISSEINFDEAFEKWKNDKKRSDIYKIAQDWGLNSTIFEKSVEAYSSTSPNDIPFIDDLMDSLDFDSAKNKIANNQLQHNLALTPFLYKVIPKIKSKYN PGPT0027170_2617 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 AK015_02483 171 hypothetical protein ATGAAAATAAGAAATAGAAAAGATACTTATGTTATATTGATGTCTACATTAGGTATTTTATTAAGTGTTATTATTCCACAGTTAGATTTACCATCTTATATAATATATCCATCATTAATAACTGGTATAGCTATCATGGTTTTAGGAATACCAGCAATGTTTTTAAGATAA MKIRNRKDTYVILMSTLGILLSVIIPQLDLPSYIIYPSLITGIAIMVLGIPAMFLR NA NA NA NA NA AK015_02484 249 hypothetical protein TTGTCAAGTCCAGGTATTGTTTTAGTCAGTAAATTTGTGATGGCCGATTCCAAAGAGTATCAAGATTATATTAATTATATTGATAGAAATGAAGCGAAAGTAAAACAGCAATTGAACTTTAAGCGTGATCATGAGGATGACTTTCAGATATTTCACCACTATATGGAATACATGGGAGATGAAGAAAAGCAAGGAGAACTGTTTACGCAGCATCATAATATATTAGATGATAAACAAAAAAAGAAATGA MSSPGIVLVSKFVMADSKEYQDYINYIDRNEAKVKQQLNFKRDHEDDFQIFHHYMEYMGDEEKQGELFTQHHNILDDKQKKK NA NA NA NA NA AK015_02485 990 hypothetical protein ATGAAGCAACAGTTTCAACTGGGTCAGAAAAAAGGCTCCCCTATGTGGCAGGATGTCCTTTCGTTTGATAATGCTTTTTTAGAAGAACAAGGTTTATATAATTCGAAAACAAAACAGTTAGATGAACGGCGCATGAAGAATATTGTCAGAGGTGCAGTAAAGGAAATGCTCCAGGCCGAAAAGATGAATGATACAACTGTTTGGGCAGCTGCCATTCATCATAATACTGATAATATTCATGTGCACATTGCAATGATTAAGCCGAAGCCAACGAGAGAAACTGTGCGCTTTTATGATGAAGAAAATGATATATGGGTAGAACGGTTTCGTGGCAACAGAAAGCAAAGTTCTTTAAATAAAATGAAATCCAAGGTTGCCAACCAAATGTTAGATCGAAGTAAAGAATACAATCGAATCGATGCGTTAATTCGTGGTGCTGTTCATTCCAAAAAAGAACAGCGAATGAATCTAGCAACCTTTAAACGCACAAAAAAATTGTACATGCAAGCATTGACTCATTTGCCGAAAGATTTACGGCAATGGAGGTATGGCTATGAGTCTGTTAATGATGCAAGGCCATACATTGATGAGATGGTTTCCATTTATTTAGAAACGAATCATGCAACAGAAATGCAGGAATTGAACCAACTATTAGATGAGCAAGTGGAAATTTCTAAACGATTATACGGAGAAGATAGCAAGCATGAAGCATATAAACAGACAAAATTAAACGATTTAAAAAAGCGCATGGGAAATGCTGTTTTAACAGAAATGAGAGAACAGATAAAAGAAGATCGTGCTAAGCGTTTTTATCAACAAAAGCAAGGTCGTCCATATTCTAATTTTACGTATGTCCCGCATGCTTGGGAACGAAAGTTAAATATTAACTATTCTTTGATGAGGTTAAACAACAGTCTAAGGAAAACTTATCATAACTATAAACGTGAACGAAACATTGAAGAATTTGACAGAATGATGGAACAAAAATAA MKQQFQLGQKKGSPMWQDVLSFDNAFLEEQGLYNSKTKQLDERRMKNIVRGAVKEMLQAEKMNDTTVWAAAIHHNTDNIHVHIAMIKPKPTRETVRFYDEENDIWVERFRGNRKQSSLNKMKSKVANQMLDRSKEYNRIDALIRGAVHSKKEQRMNLATFKRTKKLYMQALTHLPKDLRQWRYGYESVNDARPYIDEMVSIYLETNHATEMQELNQLLDEQVEISKRLYGEDSKHEAYKQTKLNDLKKRMGNAVLTEMREQIKEDRAKRFYQQKQGRPYSNFTYVPHAWERKLNINYSLMRLNNSLRKTYHNYKRERNIEEFDRMMEQK NA NA NA NA NA AK015_02486 420 hypothetical protein ATGGCGCAGTTAGGAATAAAAGATATTGATCGTATGGATGGATTTCAATTTGAAGCGTATCTCAAAGTATTGTTTAAAAAGTTGGGTTATTGTCCTTTAGTTACGCAAAAATCTGGAGATTATGGGGCGGATGTCATTTTAAAAGGGAAGAATAAAGTTGTCATACAAGCAAAACGATACGGCTATAAGAATCGTGTTAGTATGGATGCTGTAAGAGAAGTGTATGCAGCACAAGCGTTTTATCAAGCAGATGAGGCTTGGGTAATTACCAATTCTTTTTATACAAAGCAGGCAAAAGAGCTTGCTAAAGCGTGTGGAGTAAAACTATTGAATAGATACGAACTAGAACAGTTTATTATCAAGATTAATCCTGAACAATCTCCAAAGGAAGTACTAAGAAAAAAAGCGTTTATTAAATAA MAQLGIKDIDRMDGFQFEAYLKVLFKKLGYCPLVTQKSGDYGADVILKGKNKVVIQAKRYGYKNRVSMDAVREVYAAQAFYQADEAWVITNSFYTKQAKELAKACGVKLLNRYELEQFIIKINPEQSPKEVLRKKAFIK PGPT0027250_2281 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448 NA NA AK015_02487 165 hypothetical protein ATGGTTGGAGTGAGAAACAAAGAACAGAGTATTTTAGATTATTTTGGAGTGGCTAGTCATAAGGAATTACTGGAGTTTATGCAAGAGCATCCAGAAGATAAAGATGTTCTTATGTTAAAGGAACTGCTTATTCGTATGGAATATGGGGGTAATACGGATGAATAA MVGVRNKEQSILDYFGVASHKELLEFMQEHPEDKDVLMLKELLIRMEYGGNTDE NA NA NA NA NA AK015_02488 594 hypothetical protein ATGAATAACTTGTATGAGTACTTTGGTTGTTCTTCCAAAGAAGAACTTTATCAAAAGGTAACAAAAGGTGATGATTCTGTAAGAAGTTTAGTAGATTTTATCGATTTCTCAAAGGGGCAAGAAAAAGCAATCACTTCTCCACAGGATTTTATCGAATTTGTAGCAAAGAGTAAAATGCCTTCTCAGAGTGAAACAACACTTGTTTTTTGCTCAACTAAAAATAAACCATTATATTTAACTCGGTATCAAAAGCACGATCAAATTGATTTAAAAAGGATGTTAAAAGAAGGTTTAAATGCTGGTGGCGTATCCCTGTTTTATTTATCAAACGATACTATGTCCACTGATAATGAGGTAGAAATGGGTAATTATTTTAAGACATTTGGTATAGATGTGATTGATGGATTTAGTTATAACGAAATTAGTGATACAATTACATCTAATAGGGAAATGATCCCGTATCGTCTTAGTAAATATGCCCCGCCTATTAGTGATGTTGCCGAAAGAGATGGTGGTAGGGGGACAGCTTATGAAATAAAAAACGCTATCACTACTTTCCATGGATTTGATGAAATTCAGCTCTTTTTTTGCTAA MNNLYEYFGCSSKEELYQKVTKGDDSVRSLVDFIDFSKGQEKAITSPQDFIEFVAKSKMPSQSETTLVFCSTKNKPLYLTRYQKHDQIDLKRMLKEGLNAGGVSLFYLSNDTMSTDNEVEMGNYFKTFGIDVIDGFSYNEISDTITSNREMIPYRLSKYAPPISDVAERDGGRGTAYEIKNAITTFHGFDEIQLFFC NA NA NA NA NA AK015_02489 540 xerC_4 Tyrosine recombinase XerC ATGATTGGCAAGAATCCTTTGGGATTATTGCTTGCGATTCCGATTATAAGTTACTATCATAGAAAAGATGACCATAATGGTCAGGTGATACCTCCAAAACCAGATATATTAGAAAGGTTTTGGGATGGCATGAAAGAAGAAATGAAGAAGGCTAGAAAATATTCAACTGTTGCCAGAGACTATACAATATTTAGGATGTTAGAACTAACAGGTTTGAGGACACACGAAATAATTATGATGGACGTAAAGGATTGTAGATTCGACTTAGGAGAAAAGGGTAAGCTGCATGTTCGTTTTGGAAAAGGTTCGAAAGGATCAGGATATAAGCGAAGATGGGTACCAATGTTAGACGATGTAGATATTCTCATAAAGTGGTATTTAGAAAGAATTAGACCCCTTTTTACTTCAGAAAATGAAGGTCCCTTATTTCTATCAGAGAGTGGAGTTAGGCTAAATAAACATACAGCTCGAAGGGAATTAACAAGAAGACAAGAAAAGTGGCGAAATCAATTATTGAATTTTAGTAAAGAGGGTGAATGA MIGKNPLGLLLAIPIISYYHRKDDHNGQVIPPKPDILERFWDGMKEEMKKARKYSTVARDYTIFRMLELTGLRTHEIIMMDVKDCRFDLGEKGKLHVRFGKGSKGSGYKRRWVPMLDDVDILIKWYLERIRPLFTSENEGPLFLSESGVRLNKHTARRELTRRQEKWRNQLLNFSKEGE PGPT0022000_1491 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763 NA NA AK015_02490 315 hypothetical protein GTGACTATTGAATGGAGACTAAGAAAAGTTATGGCTGATAGAGGTATTTGGTCTGGTGCTGAATTAGGTAGGCTACTGGAGGATAAGTCAGGTTATAAAATATCTCCCCCATCGATAAGTGCCTTACTAACAAGTGAGCCTAAACAAGTTAAGACCCTTACCATGGATGCGTTATGTACTGCCCTAGAATGTATTCCCAATGATCTATGGAAACATACTCCTACCCCTGTTAAAAAGCTTGAGAGACCAACGAATAATAAGTTGGTTAGGGCGGTTAATGATTCTAATTCTGAAGATAAGCTTCCACCGATATAG MTIEWRLRKVMADRGIWSGAELGRLLEDKSGYKISPPSISALLTSEPKQVKTLTMDALCTALECIPNDLWKHTPTPVKKLERPTNNKLVRAVNDSNSEDKLPPI PGPT0014940_60 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727 NA NA AK015_02491 297 hypothetical protein ATGTATAAATCCGAGATTAATAAAAATGCATCTATATGTCACCTTTGTTTTAGTAAAGCTAGGGTAGAAAGGTTTCAAACTGAAGATTTTCTTAAAGAGAACTTTAATAGAGCATGGAGTGCAGAATTATTTAAAGGCTATGTTCTTTATTTAATAGAACTAGGAATTGGAGTCGAGACAATTAGAAAACACAGTAGTAAAGCCTTAAAAGTCTTTCAGAAGGAAGAAATTGAGTTAATTAGACCTAATAATTTTTCTGAATTATGGCTCGTTTCTACATTGGGAAAGATTAAATAA MYKSEINKNASICHLCFSKARVERFQTEDFLKENFNRAWSAELFKGYVLYLIELGIGVETIRKHSSKALKVFQKEEIELIRPNNFSELWLVSTLGKIK NA NA NA NA NA AK015_02492 867 hypothetical protein ATGGAACTTAGGAATAGGCAAGTAAAGTTTAATGCGAGAAATCCGTTATCCCTATTAACTGTAAAGACTGATTTAGAAGTTTTCACTAGATTAGTGCGGTGGTTTGAAACAAATTGTAAGCATGTAGAGTCATGGGATACTGTTCAACAAGAAGATATACATGAATATCTTCTAACTTTAACACCGAAACATCGTGAGATTGTTAGAAAGGATTTATTAGTCCTTTTCAAATTAGCAAAAAGAAAAAGATTGATAACTCATATACCAATTTTAGATATAAAGTCCAGAAAACTTCCACCTTCTATCGAACCTTTAACGTTTGATGAACAAGTGAGTGTAGCCAAAAAAATAAAGAGCCACATCTATGAATATCCTTTTGAATGCTTACTGACCTCTTTATGTTTTTATCATGGCTTATCCTCAGCTCATATACGTAACATAAAAGTAAGTGACGTAAAGATTGAATTGAAGGCAATTTACATTGATGAGAGACCCCCTGTTTATTTGTCTAATTATGAACTGATAATAATGAATGAGTACCTTAAACAACGAGCTCAAGTTAAGAATGTGCAAAATAAACAGTACTTAATAGTAAGTTCCAGTTCTACAGAGGTATATCAGGATCGACCAGTCAATAACAGTTTCATTGCAAGGAAGGTTAAAGCTTTTTGTGGGTTTACTCCTAAGTGTTTAAGGATTACTTGTTTTAACGCAATAGCCAGTACCTATGGTCCACAGCTACTAGTTGAAGGGTTTGGATTGTCATTAACACAAGCTTCACGATATGGGAAATTAGAGGATTTTCTCATAGAGGAACAAATAAATTCTGAACGAGAAATACTAAAAAATACTAATAATGAGGGCTAA MELRNRQVKFNARNPLSLLTVKTDLEVFTRLVRWFETNCKHVESWDTVQQEDIHEYLLTLTPKHREIVRKDLLVLFKLAKRKRLITHIPILDIKSRKLPPSIEPLTFDEQVSVAKKIKSHIYEYPFECLLTSLCFYHGLSSAHIRNIKVSDVKIELKAIYIDERPPVYLSNYELIIMNEYLKQRAQVKNVQNKQYLIVSSSSTEVYQDRPVNNSFIARKVKAFCGFTPKCLRITCFNAIASTYGPQLLVEGFGLSLTQASRYGKLEDFLIEEQINSEREILKNTNNEG NA NA NA NA NA AK015_02493 411 hypothetical protein ATGAGTTTATTTATTAAATGTTTTACTGATAAATCAATCGACGCGCAGCAACTTATGAAGTTATATAAAGATGCAGGTTGGTGGGAAGAGAGAAGGGAACACGAGCTTAACCAAGTTTTAGAGGCTGGAATTTCAGTTGGAGCTTGGAATGAAGGTGAATTAATCGGTTTCGCAAGAGCAGTATCGGATGGAAGGTTTAGAGCCTATATAGAAGATGTTGTAATCCATACTAATTATCAAAGAAGTGGAATTGGAAGGGATTTAGTAAGGGAATTGGTAAATAACCTATCACATATTGATGTAGTTAGCTTATTTTGTGAAGAGCAACTAATTCCTTTTTATGAGGAAAACGGGTTTAAGTTAAGTAAGTCTCAACTTGTGATGCATGCCAAAAGGAAGTTGACTGTTTAA MSLFIKCFTDKSIDAQQLMKLYKDAGWWEERREHELNQVLEAGISVGAWNEGELIGFARAVSDGRFRAYIEDVVIHTNYQRSGIGRDLVRELVNNLSHIDVVSLFCEEQLIPFYEENGFKLSKSQLVMHAKRKLTV NA NA NA NA NA AK015_02494 2142 topB_2 COG0550 DNA topoisomerase 3 ATGGGACTTGTACTAATCTTAGCTGAAAAACCAAGTCAAGGAAAAGCTTATGGAGATGTGTTTCAAAATGTAAGCAAACGAGACGGGTATCTGGAAGTGCAAGATAGTCGTTTTTTTAATGGAGAAAAAGCATATATTACTTGGGGATTTGGTCACTTAGTGGAGCTTGTGCCTCCTGAAGCATATAATCAGAGTTGGAAGAAATGGGATTTGAATAAGTTGCCTATTATGCCTGAGACGTTTCAGTTTCAAGTAGCTAAAGATAAGCAGAAACAATTTCAAGTGGTGAAGCGTTTATGCAACCAAGTGAAAGGAATTATTATCGCTACAGATAGTGACAGGGAAGGAGAAAATATTGCAAGAAGTATTTTGCAACAAGCTGGTGCAAACCATAAACCGATAAAACGATTGTGGATCAATTCTTTGGAAGTCGAAGAGATTGAAAAAGGATTGCAACGCTTACAAGATGGCAATAACTACATTGCTTTGTATAAAGAAGCACAAACCAGACAGTATAGTGATTGGTTAGTTGGCATGAATGCTTCTCGTTTATACACATTGCTTTTGCAAAAGAAAGGGTTACAAGGGGTATTTAGTGTTGGGCGCGTACAAACACCAACGCTCTATTTGATTTATAAACGTCAAGAAGAAATTGCAAACTTTACGTCCCAGCCATTTTTTGAGCTGGCAGGAAATGTGACGGTGCATGAGCAAAGCTTTGAAGCTAAACATAATCAGCGCTATGATACCAAACAAAAAGCGATGGATATTTTACAGTCCCATGGTATTCAAGAAGGTGAGCAGGATGGGAAAGTAAAAGAACTAGAAAAGGCACAAAAGAAAACGAGAGCTCCGAAGCTGCACTCTTTATCTACGTTACAAACAAAGATGAACAAACAACGGAAGTACAGTCCATCGATGGTACTGGAGATTGTTCAAGGCTTGTATGAAAAGAAATTGGTCACTTATCCTCGAACGGACTGTCACTTTATTACAGAGAATGAATTTATTTATGTGAAGCAAAACTTGACTGCCTATCAAGAGTCTTTAGGTATTTCTTTTTCTGTGAAGTATCCAGCAGCAAGAAAAGCGTACGTGGATAGCTCGAAGGTACAAGAGCACTACGCCATCATTCCAACCAAACAAGTTCCACAGCTGGAACGTTTGACAGAAAAAGAAAGGGATGTGTATCGAGAAATTTTAGCAACAACCTTGGCCATGTTTGCACCCGATTATGAATATGAAGAAACAAAAGTAATCATTGATGTGCAAGGGTTAAGCTTTTATAAAACTGGGAAAGTAGAAACGAATCGAGGATGGAAGGTGTTATTTCCACAGGAGAAGCAACAGAAGCAAAAGGAACAACCTGCGCAGCTTCCTGCCATGAAGCAAGGAGATGCTTGCATGGTCGATGTATTTATAAAAGAAGGAAAAACGCAACCTCCTAAACCGTATACGGAGGGTAATTTAATTCAGGTGATGAAACATGCGGGAAAGGACGTTGAGGATGAAGAAGCAAAGCATATTTTAAAACAAAAGGAAGGCATTGGAACAGAGGCTACTAGGGCAAGTATTATTGAAACGTTAAAACACCAGCAGTATATTGAAATAAAGAAAAATGTGGTGTACGTAACATCAAAAGGGAAAATCCTTTGCCAAGCTGTAGATGGGACATTGCTAGCTAGTCCAGAAATGACAGCAAAATGGGAAACTTACCTAGCAAAAATAGGGAGAAAGGAAGGCTCTCAGGATAAATTTGTAGCTAATATAAAGAAATTCGTTACTTATTTATTGGAACAAGCACCTAATCAAGTAGCAACGCTAAACAGTGAAATCAACCAGGTATCAGAGCAATCCTATGTTGGTGATTGTCCCATGTGTCAAACCGGTAAATTGCAAGATAAGGGAAAATTTTACGGATGCAGTGGCTATCAAGAGGGGTGTAAATTTAGCCTGCCTAAAACGATGTTAACGAAGAAGTTGCCGCAAACAGCTGTTCAATCTCTTTTAAATGGGAAACGAACGAATTTGATTAAGGGATTTAAAAGTAAGAAAGGGAAGAAGTTTGATGCGTATTTAACGTTGGACTTAGAAGGGAAAATAACCTTTGAATTCCCGAAGAGGTACAGGGGGAAATCGTAA MGLVLILAEKPSQGKAYGDVFQNVSKRDGYLEVQDSRFFNGEKAYITWGFGHLVELVPPEAYNQSWKKWDLNKLPIMPETFQFQVAKDKQKQFQVVKRLCNQVKGIIIATDSDREGENIARSILQQAGANHKPIKRLWINSLEVEEIEKGLQRLQDGNNYIALYKEAQTRQYSDWLVGMNASRLYTLLLQKKGLQGVFSVGRVQTPTLYLIYKRQEEIANFTSQPFFELAGNVTVHEQSFEAKHNQRYDTKQKAMDILQSHGIQEGEQDGKVKELEKAQKKTRAPKLHSLSTLQTKMNKQRKYSPSMVLEIVQGLYEKKLVTYPRTDCHFITENEFIYVKQNLTAYQESLGISFSVKYPAARKAYVDSSKVQEHYAIIPTKQVPQLERLTEKERDVYREILATTLAMFAPDYEYEETKVIIDVQGLSFYKTGKVETNRGWKVLFPQEKQQKQKEQPAQLPAMKQGDACMVDVFIKEGKTQPPKPYTEGNLIQVMKHAGKDVEDEEAKHILKQKEGIGTEATRASIIETLKHQQYIEIKKNVVYVTSKGKILCQAVDGTLLASPEMTAKWETYLAKIGRKEGSQDKFVANIKKFVTYLLEQAPNQVATLNSEINQVSEQSYVGDCPMCQTGKLQDKGKFYGCSGYQEGCKFSLPKTMLTKKLPQTAVQSLLNGKRTNLIKGFKSKKGKKFDAYLTLDLEGKITFEFPKRYRGKS NA NA NA NA NA AK015_02495 633 hypothetical protein TTGAAAAGAAAAAGCTTTGAACAAAAGCACAGAAAATATATACAATTATATACTTGGTCTGTAATATTTAACTGGAATCAGGAGAGGTTACACATTATTAACATTGACACAATTATTAAAGAGTTGGTAAAAGACATTAAAAAGGAAACAAAATACAAAAGAAAAAATGCTCAATTTATTAAAAGCCAACAAATTTTTTTAGAATGGAAAAACAGATATAAATTAAGCGATTCTAAATTAGAAAACCATTTACTTCCTTACATTCAAATAAAAATAGATGAACTAGAGTCATACTCTATTAAACATTTTTTAAAGTCCGTTATTCCTTCTACAATTGTTTCTATCCCTATAGCATTTTTAGCTTTTTTATTTACGCTTTCCCTTAAAGATACAGATTCCTGGAAAGATGTGATAGGTGCTGTTATGAATATGATTTTTTCTGCATACGGCATGATAGCCCTTGTTTTATTTTTAGTCGGGATTATAATGTATAAAGGTATTCTTTTTGTACATTATAAATTTACGTTCGAATTTTCAGATAGAGTGTATTATAAATTAATCCAAACTATAATTTATGATCATTTAATTAAAATTAAATTTAACTACTCAGAGATTACTAGATTAAATAAATAA MKRKSFEQKHRKYIQLYTWSVIFNWNQERLHIINIDTIIKELVKDIKKETKYKRKNAQFIKSQQIFLEWKNRYKLSDSKLENHLLPYIQIKIDELESYSIKHFLKSVIPSTIVSIPIAFLAFLFTLSLKDTDSWKDVIGAVMNMIFSAYGMIALVLFLVGIIMYKGILFVHYKFTFEFSDRVYYKLIQTIIYDHLIKIKFNYSEITRLNK NA NA NA NA NA AK015_02496 315 hypothetical protein ATGAGTAGTAGAAGTGATTGGTGGAAAGATTACCTAGAAACTAAAGCACAGAAAGAAGCGTTAGAGAAGCAAATTAAACAGAACTTAGAAGAAAATGTGGACATTACAAAGATGCAATTAGAGCACAGTTACGCTGTTTTGTCACTTTTACAAAAACATCAGGTTATTTTAAGCAAAATCAACCAATATTTTGACGGAAAAGCAAATCACGCCTTAATGGAACGCTTTATAGATAATATAACTCAACTCAAAGAAATGGATCGTATTTACAAGGAAAACTATGAAAATATTCAACTTAAACAATGGTTTTGGTAG MSSRSDWWKDYLETKAQKEALEKQIKQNLEENVDITKMQLEHSYAVLSLLQKHQVILSKINQYFDGKANHALMERFIDNITQLKEMDRIYKENYENIQLKQWFW NA NA NA NA NA AK015_02497 1263 hypothetical protein TTGAATAATCACATTAAAGATTTAGAGGCTGCTACTATATCTGAAAATACATATCAAGATGACGTTCTACAAATAAAAATAAAGATAAGTGATGACGTAAAAACTTCTTGGTATCCTATCGAAACCATTAAAAGCGCTGATACTGGATTAGACGGTTATGTGCTCAAAAACCCCGCCACAAATGAAATCGTTATCAGTTTCAGGGGCACAGAGCCAGATTCTCTTAAAGATTATGAAGAGGATCTTCATGGAATTATTCTTGGTGATTACGATTATACCAAAAAAGAACATGGAAAAACACCTTATTTAGGAACCCCATCTCAAGACGCTGCTTTAACAACGGGGAAGGCAAAACTTAACTCCAAAGATAAAACCCTCACGTATACAAATAAAAACCAATTTACAGAAGCTGCGCCCATTGTTGAAAAATATGTTAAAAAGCATGGTGCAAACAATATCGTTTTTACCGGACATTCTTTAGGGGGAGGTCTTGCCCAATATTTCGCTGTCAAACATGACTCAAACGCGGTTACGTTTGCTTCAGCTGACGTGTTTGATCTGTTATCCAAAGAAGATCAAGAACGGGCTTTAAATGGGGAATTTAAAGATAATATTATTTCTTACACGTACCATGACGACTTCGTGGGAACGTTTTACGAGCACTCTGTTGGTTCTGTATATTATGTCGGTGATCCAACAGTGAACAACGGAAAAACTCTTAAGACACATCGTATCAAGAACTACGTAAGTGAGGATATGTATAATGAAGAAGGATATTTCCTTCCCCACTTATTATATGGTGAAAAAATTAAAGGGCAGTTACAATCCTCGCCACTGGAATTGAAAAATAGGGGCGTTCATGACTTTCATATCCGTATTCAAACAGAGCTTATGCATCAATTAGCCATGGAAATGGAGGAAAGCGAAGAACTAATTGCAACTACAAGAGCTGCGCTAATTCGATTACTGGACGATCATCTAGATTCAATGAAACAATTAAGAAATACATATAGAAACATAGTTGGTTTAGGAAACTACGATAAATTAAATACCTCTCATGTGGATGAAATATTTCGTGAATTAACAAATATTGGAACAGATGGAATTCCTTCTTTGATCGATATAAATGAGTTTGAACATCTTTTGGAAAAGCTTCGAAAGAATCAAAATGATACAGGAGAAATAGCTTACCATATGGTTAAAATGAGTAAAAATTTTAAACAAATCGATCAAATACTTGCTCAATGGCTACATATACGTTAA MNNHIKDLEAATISENTYQDDVLQIKIKISDDVKTSWYPIETIKSADTGLDGYVLKNPATNEIVISFRGTEPDSLKDYEEDLHGIILGDYDYTKKEHGKTPYLGTPSQDAALTTGKAKLNSKDKTLTYTNKNQFTEAAPIVEKYVKKHGANNIVFTGHSLGGGLAQYFAVKHDSNAVTFASADVFDLLSKEDQERALNGEFKDNIISYTYHDDFVGTFYEHSVGSVYYVGDPTVNNGKTLKTHRIKNYVSEDMYNEEGYFLPHLLYGEKIKGQLQSSPLELKNRGVHDFHIRIQTELMHQLAMEMEESEELIATTRAALIRLLDDHLDSMKQLRNTYRNIVGLGNYDKLNTSHVDEIFRELTNIGTDGIPSLIDINEFEHLLEKLRKNQNDTGEIAYHMVKMSKNFKQIDQILAQWLHIR NA NA NA NA NA AK015_02498 339 hypothetical protein TTGAAAATATTTAATATTGTTTTAATTATATTTATTATACTATTAGGAGGTTGTAATGTGAACTCTAGTCAAAAAACTTATGATGATGAAACATCAGAAAAAGCAAAGTCAATTGTTAAGAGTTATTTAATCAATAATTATCATGGCGTCGAAGATATTGAATTAGGTGAGCTATATCAATCGCCTATGGGAAGTATGACAGTTGATGGTAAAGTTAATGGTAATGAAGAATTTTCTATAACCTTTACTGATAAATTAAAGGTTAGAAGTCTTGTGGTAAAAAGCAAGAATTTTCCGGAAGAAAAAGAGCAATGTAAAGAAAAAGACTGTAATTATTGA MKIFNIVLIIFIILLGGCNVNSSQKTYDDETSEKAKSIVKSYLINNYHGVEDIELGELYQSPMGSMTVDGKVNGNEEFSITFTDKLKVRSLVVKSKNFPEEKEQCKEKDCNY NA NA NA NA NA AK015_02499 351 hypothetical protein ATGAAAAAACTTTTCATTTCAACAATTTTTATTATCATTACACTATTAGGAGGTTGTGTTGTGAACTCAAATAAAGAAACCTTGGATGAAAATACCATTCGAAAAGCAAAAAATACAGCGGAAAGTTACCTTAAAAACAACTATAAAAATATTGATAAAATAGAGTTTAGTGATAATTATAGTAGTCCAATGGCAGGATTTATGATCAGAGGCATAGTTAATAATAACAAAGAAGCGAACTTTTCCATTGATATGGATGTTAACAACAACTTTGAAATTGGGAGTGTTGGAACAGGCGAAAAATTTCCAGATATGAAAGAAGAGTGTAAAGATGAAGATTGTGACTATTAA MKKLFISTIFIIITLLGGCVVNSNKETLDENTIRKAKNTAESYLKNNYKNIDKIEFSDNYSSPMAGFMIRGIVNNNKEANFSIDMDVNNNFEIGSVGTGEKFPDMKEECKDEDCDY NA NA NA NA NA AK015_02500 354 hypothetical protein ATGAATGCTGAAAGAGTAATTGACTATTTTTCTAAAGAAAGATTTACTATAGGGACGAGTATCTTACGAATTATTTTTGGTATTATTATCTTATACAACTACGTGATATTATATAGCCAACGCCATTTACTTTTCACCAATAATGGTTATGCTACATTTGGAAATAGTGGAGTATCCCTTTATGATATTTCCAATTCAACAATGTACTTTGATGTAGTTTACAACGTTGGGATAGTAGTTGCTATTTTATATACCTTAGGAGTAAAGGGAAGGTTAAGCAGTATATTAAATTTTATCTTTTATTATTCTCTATATATCCGTTTTAACCATATTGGAGATGGTGGAGACAATTAA MNAERVIDYFSKERFTIGTSILRIIFGIIILYNYVILYSQRHLLFTNNGYATFGNSGVSLYDISNSTMYFDVVYNVGIVVAILYTLGVKGRLSSILNFIFYYSLYIRFNHIGDGGDN NA NA NA NA NA AK015_02501 375 hypothetical protein ATGGTTTCGGCAACTTATCAGTTAATGGGCGAAACTTGGTCATCAGGGACGGCTTTATATTATATTTCGCAAGTTCAAACAATGTCCTCTCCTATTTTTGAAAAACTAGCTACAGGCTCCCTTGTTTATTTAGGAGTAATACTTACTTATGCAAGTATTTTCGTAAAATACGTATTTGCATTCATGATATTTAATAATAAAACAAAAATATTTATTGTTTCTTGTATTTGTATGTTTCATATAGGGATTGGAATCAGTATACAGTTATATACTTTCTCTCTAATTATGATTGCCGTTGAAGCATTGCTATTTACAAATGAAGAATACTATTCGTTTTATAACAAACTCCAAAAAACAGGCATTAAGATCAAATAA MVSATYQLMGETWSSGTALYYISQVQTMSSPIFEKLATGSLVYLGVILTYASIFVKYVFAFMIFNNKTKIFIVSCICMFHIGIGISIQLYTFSLIMIAVEALLFTNEEYYSFYNKLQKTGIKIK NA NA NA NA NA AK015_02502 1077 hypothetical protein ATGGTCGTTATAATATTATCGTTAATAGTAATTGTTATGGTTTTTATAAGTTTTCTTGTTGGTATAAAACAGTATAAACGAAATTTAAAGAATAATGAATATGATTTGCTAGAATATTTAAAGAAACATAAAGATAACTTATCAATCACTATAAAAGAAGATGGACATGACACTTTAACATTTAATCAAAATGTTAAATTCCCACTGGCAAGTACAGTAAAGATAATAATTGCTTTTAATTTTGTCAGCTTGGTTACAACCTGTAAACTTTCTTTATCTGAAAAAGTGAGTCTCAGCTATATTGACAAGTTTTATGTTGTAAATACTGATGGTGGGGCACATCCTGAATGGAAAAAATCCATAGATAATTCTAGTGAAGTATCATTGTTAGACGTAGCTAAAGGAATGATGCAATTTAGTTCAAATGCTTGTACAGATTATCTAATGAATAGAATTGGGTTAGATGTTATTAATGAGAGCTTAGGAGATTTGCAAATTAATACACATGATAAAATCACTTATCTAACGCCTTCCGTATTAATGCCGGGATATTTATCAGATAAGAAGAAAATAGCAACTACAAAGATGGAAACTATGAAGTCCGCTTCCTACCAATCATTATCAGAAGAACTATTTAAGAAAACGGAACAGGGAGAATGTGAAGATTTAAAAGAAAAAACATCACGAATGTTGAGTCGGAAAATTCAGTATTTAATAACTGAGAAGCTTCCATCTTCTACTACAAAGGATTACGTAGACCTTATGTATAAACTTGGAAAAGAGATTCTTAGTGATGAAGAGAAAAAATTATTTAGTGAAATATTAATTGGGGAAAATATAAAAGGAAATCAAGATGATTACTTCTGGTATAAAGGAGGAGCAACTCCATTTGTGTTAACTTCTTCTCTGTATAAAGAAAACGCAGAGCACTCTATTGTTATTTCACTATTCATGCGTGATGAAAAAGCCGAAGATTCATATTGGATACAAAATATCTTTAATAATTTCATATTCAGTATAGCCACCGACATTGATTTTAAGAATAAAGTAAAATCAATATTTAAAGAAAATATGTGA MVVIILSLIVIVMVFISFLVGIKQYKRNLKNNEYDLLEYLKKHKDNLSITIKEDGHDTLTFNQNVKFPLASTVKIIIAFNFVSLVTTCKLSLSEKVSLSYIDKFYVVNTDGGAHPEWKKSIDNSSEVSLLDVAKGMMQFSSNACTDYLMNRIGLDVINESLGDLQINTHDKITYLTPSVLMPGYLSDKKKIATTKMETMKSASYQSLSEELFKKTEQGECEDLKEKTSRMLSRKIQYLITEKLPSSTTKDYVDLMYKLGKEILSDEEKKLFSEILIGENIKGNQDDYFWYKGGATPFVLTSSLYKENAEHSIVISLFMRDEKAEDSYWIQNIFNNFIFSIATDIDFKNKVKSIFKENM NA NA NA NA NA AK015_02503 300 IS3 family transposase ISBth10 GTGAAGGCACTTCTGCAGCTGGTAGAGATTCCACGTAGCACGTACTACTATATAGTAAGTAAATTCGGACTCCCGGATAAAGATGCGGAGTTGAAAAAGCTGATTCAAGCTATCTACGATGAGCATCAAGGACGTTATGGGTACCGCCGTATCCGGGACGAGCTATGGAATCGGGGGCATAAGGTAAACCATAAAAAAGTCCAAAGCATCATGAAAGAATTAGGTTTAAAAAGCCTAGTTCGAATGAAGAAATATCGCTCTTACAAAGGAAAGGTTGGCAATATTGCACAAAAATTTTAG MKALLQLVEIPRSTYYYIVSKFGLPDKDAELKKLIQAIYDEHQGRYGYRRIRDELWNRGHKVNHKKVQSIMKELGLKSLVRMKKYRSYKGKVGNIAQKF PGPT0027665_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027665-antitoxin_yxxD-K21494 NA NA AK015_02504 441 yxxD Antitoxin YxxD ATGGGATACGAATCTATGAAGGCAAATAAAGAAAATAGTTTTTATCCAGTAACTGAAAATGAAATAAAAGAGGTTGAGAAGGAACTCGATTTAAAATTTCCTAAGGAGTTTGTTAATTTTTATATAGAGGTTGGCTACGGGTTTATTAAAGGTTCAGAGTTTAATATAAATCGTATTATGGATCCTTATTCCGTAAGAGATTTTCGATTAAGAGATAATGATTTTGAGTTTTATCCTGACATAGAAATCTATAATGAATTTGAAAATAACAAACTAATATTTTTTGAAAGTAGCGAATCAGCTTTAATGTCAATTGAATTGAATGAAAAGAATAGCAGTCCAGTTTATTATTATGATATTCAAATTGCGACTTCTCTTGAGGAATTTTTAAGAAAAATAGAAGAAAATGATAAATATTACTTGGAGTTACTAGTTGATTAA MGYESMKANKENSFYPVTENEIKEVEKELDLKFPKEFVNFYIEVGYGFIKGSEFNINRIMDPYSVRDFRLRDNDFEFYPDIEIYNEFENNKLIFFESSESALMSIELNEKNSSPVYYYDIQIATSLEEFLRKIEENDKYYLELLVD PGPT0027665_26 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027665-antitoxin_yxxD-K21494 NA NA AK015_02505 243 yxiD COG5444 Ribonuclease YxiD GTGGGAAGAAAACACGGGGCAAAAGTGGCCTGTGTTAATGAAAATGTTATTTCAGAAAAAATAGGTAAAATAATTAGGAAACAAGGAGATAAGTATGATGCTCATCATATGATTGAAAATACTTTTGGCGGAGAACATGAATGGTGGAATATGCATCCTGCAAAGTTCCCAAATGAGCATCAAGCTGGTATACATGGAGCAGGTTCACAAGCAAATAAACTATTTAAAGGAAGTAAAAAATAA MGRKHGAKVACVNENVISEKIGKIIRKQGDKYDAHHMIENTFGGEHEWWNMHPAKFPNEHQAGIHGAGSQANKLFKGSKK PGPT0027660_229 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 AK015_02506 237 hypothetical protein GTGGAACGGCAAAAAGCAGTTGTAAAAATAATTAATGAAAATATTAAAGAAATAGTTAAATTATGTAAGAAATATGATCGTGAAATGCCTGCAGAAATTAAGATTGTTTATGATGTGAAATCAAATGAACTAACCGCACGTTATAAATATGAACTTGTACACACAAATGATTCTAATAAAACTGCAAGTTCTATTGCTAGACTTTGGTTTGAACAAATTAAAAAGGAAAACAATTAG MERQKAVVKIINENIKEIVKLCKKYDREMPAEIKIVYDVKSNELTARYKYELVHTNDSNKTASSIARLWFEQIKKENN NA NA NA NA NA AK015_02507 126 hypothetical protein TTGGGTAAAGTATTTGAGGATTACTTTAGTGAATTGCAGGAAGATATGGTTTCAATTTGTTTAGAGTATGTTTTTGAAAGAGCTAATAAAATATATATATATATTGTTCATATGAAGAAGGTCTAG MGKVFEDYFSELQEDMVSICLEYVFERANKIYIYIVHMKKV NA NA NA NA NA AK015_02508 129 hypothetical protein GTGAAGCGTGACTTACAAATAAAAGTTAATGTTGAAATCAAATACGACCAAAATAATAAAAGGCCATCAGAATTTATCGTGGAATATGAAATAGGTGGAAAATATGAGGAAGTAAATATAATAAACTAG MKRDLQIKVNVEIKYDQNNKRPSEFIVEYEIGGKYEEVNIIN NA NA NA NA NA AK015_02509 312 hypothetical protein GTGGTATCTGGACAACAAATTAAAGTGGACTTTATAGCACTGCAAAAAATTATTGATGAGTTACGGGTAGCGATTGATGATTTTGAGGGGTATACAACAGACTTTCGCTCTAATACGAGGGACAGGCTTAAAACCTTTAATTCGGATTTTATCTCCAAAGTGGATGGTTTATTAGATAACATGAATAACGATGTCAATCAAGACTTGGTCAAACAGATGGAAGAAATTCATCAAGCAGGTGTAGCTCTACTTAAAGGCATGAAAGAAGTTGACGAGGAGCTTGGAGCAGCCATTGGCGGTGAAGGTTCGTGA MVSGQQIKVDFIALQKIIDELRVAIDDFEGYTTDFRSNTRDRLKTFNSDFISKVDGLLDNMNNDVNQDLVKQMEEIHQAGVALLKGMKEVDEELGAAIGGEGS NA NA NA NA NA AK015_02510 225 hypothetical protein ATGGCATTATATGATCGCGATTTTTGCCGTGGCTTGTTGTACGCGGGATGGGATGCAGGGATTATTAACAATTTGCAAGATGCACGGAAGGAAATTAAACAAAACTTTGCTGATATGGATTTAGAAAATGCATCTGTAGAGGAGCATATGGAAGCGATTGTGAATGAGATGGTGCATGAACTTCAACAATTAATTTCGGAAATCGAATCCATTCATTTCCGCTAG MALYDRDFCRGLLYAGWDAGIINNLQDARKEIKQNFADMDLENASVEEHMEAIVNEMVHELQQLISEIESIHFR NA NA NA NA NA AK015_02511 708 hypothetical protein ATGACGGAACGGATGCAAAAACAATTAACCACGCTTGTTTTAAAGAAAATAAATCAGATATTGGAAACATCGCAATCCGGTTTGGATTTGGACCTAAAACAAAACGTTCGTGAATTTTTTCAATTATGTTTGCGCGAGGAGAAGGTGTTATACGATTTATTTTTAGCTGTTAAGAAAAGGGAGCCTAACATTGATGTAGCATGGAGCCATGGCATCATTTCATGTAAGCAAGAAGAAGGTTACTGCACAGTTATGTTTATAAATAAGCAGTTTACTTTGCATCATGATAGGTTATTTCAACTTTTAACAAATGCAATAGAAATAATGAGGGAAGTACTGCCACTTGGAACGGTTGTGGAGCTCGATCCTACTTTTTTTAAGCCGGATAAAAATAAGACATCTCCTTCTAAAGTAGTAATTACGGAGCGGTTTGTAAGTCCAAAAAATTACCAAAGTTATTTTCCCTATGTCGGAATATTGTATCCAGTTGGTGAGATCAAAGCGGGTGCGAAAATCAATTTTACCGCACCACTGATAAAAAGAATCATTCACCGTGGGTATCAGGATGAGATGGAAGAAGCGTATGTATTCTTAATGAAAAAAGAATTTATTGTTGAAAAAGGTATGAACTCGATTGAGTTTTCCAATCATGATATGGCTCAGTTAGAGCAGGAGATGGATTTGAAACAAAAAGTAGGTGATGTGTGA MTERMQKQLTTLVLKKINQILETSQSGLDLDLKQNVREFFQLCLREEKVLYDLFLAVKKREPNIDVAWSHGIISCKQEEGYCTVMFINKQFTLHHDRLFQLLTNAIEIMREVLPLGTVVELDPTFFKPDKNKTSPSKVVITERFVSPKNYQSYFPYVGILYPVGEIKAGAKINFTAPLIKRIIHRGYQDEMEEAYVFLMKKEFIVEKGMNSIEFSNHDMAQLEQEMDLKQKVGDV NA NA NA NA NA AK015_02512 378 immR COG1396 HTH-type transcriptional regulator ImmR ATGTACAGCTTTAGTGAACGTTTAACAGATGTACGAGTAGAAAACGGATACGGTCAAAAAGATATCGCTGAAAAACTAAATATAACTACAAGTGCGTACGGCTATTACGAACAAGGAAAAAATGAGCCTTCCATTGAAACAATTAGAACACTAGCAAAGCTGTTTGACGTATCTACCGATTATTTATTGGGGTTAATTGATCAACCTAAACATCCCGTGAATTTTACTATAGAAGATGACTTCTCATTAACTGAATTGGAATTGCAAATCGTAAAAGAAATGAAAGAAGAAGAATTCCTAAAACAATTGAGCGATAATCCTACTGAAAACGTGGAAAAACTAGTGAAATTTTGGCGATTTATTAATGAGGAGTTGTAA MYSFSERLTDVRVENGYGQKDIAEKLNITTSAYGYYEQGKNEPSIETIRTLAKLFDVSTDYLLGLIDQPKHPVNFTIEDDFSLTELELQIVKEMKEEEFLKQLSDNPTENVEKLVKFWRFINEEL NA NA NA NA NA AK015_02513 852 panC COG0414 Pantothenate synthetase GTGAGAACCATCGCATTAAAAGAAGAAATGTATTTGTGGGCAAAACAAGTAAAAGCAGCTGATCATTCCATTGGTTTTGTTCCGACTATGGGGTTTTTGCATGAGGGGCATTTAGCATTAGTGGAAGAAGCAAAACGAAATAATGATTACGTTATTATGAGTATTTTTGTTAATCCGCTGCAATTTGGACAAGGCGAGGACTATACTACATATCCTCGAGATGAAAAGCGGGATAAGAAACTAGCTGAAGAAGCTGGTGTTGATATATTATTTATGCCTAGTGTTGATGACATGTACAAGCATAAGAAGTCTATAAAATTGATGGTGACAGAAAAGACAGATAAGTTGTGTGGTGCAACACGTCCAGGACATTTTGATGGCGTGGTTACTGTACTAACAAAACTGTTTCATCTTACGATGCCTAACCGCGCTTATTTTGGATTAAAGGATGTGCAGCAGTTCGCAATTGTAACTGCTTTGGTCGAGGAATTCGATTTCCCTGTAGAAATTGTTCCAGTGGATACAGTGCGTGAACCTTCTGGACTAGCAATAAGCTCAAGGAATGTCAAGCTGACAAGAGAGGAGAAAGAAAAAGCGCCTGCTTTATTTAATAGTTTGCTATTAGGGAAAAAGCTAATTATCGAAGGAGAGACAGACGCAAACGTTATTATCAAAACAGTTCGTCATTATTTAGATCAGCAGTTAGGTGAAAATGTAGAAGTTGATTATGTGGAAATGCTGACTTTTCCTTATTTAGAAGATATCTCTGAAGTAAATGGAAAGGTGGTTATTGCGGTTGCAGTGCGATTTTTAACGGCAAGACTAATTGATAATATTATAGTTGACTGTTAG MRTIALKEEMYLWAKQVKAADHSIGFVPTMGFLHEGHLALVEEAKRNNDYVIMSIFVNPLQFGQGEDYTTYPRDEKRDKKLAEEAGVDILFMPSVDDMYKHKKSIKLMVTEKTDKLCGATRPGHFDGVVTVLTKLFHLTMPNRAYFGLKDVQQFAIVTALVEEFDFPVEIVPVDTVREPSGLAISSRNVKLTREEKEKAPALFNSLLLGKKLIIEGETDANVIIKTVRHYLDQQLGENVEVDYVEMLTFPYLEDISEVNGKVVIAVAVRFLTARLIDNIIVDC PGPT0008750_2251 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 AK015_02514 837 panB 3-methyl-2-oxobutanoate hydroxymethyltransferase ATGAAGTCTACCATTGAATTTTTGAAAATGAAACAAGTAGGAGAAAAAATAGCAATGGTAACTGCTTATGATTACTCACAAGCAAAGCTAGCAGAAAAAGCAGGTATCGATATGATTTTGGTTGGTGATTCATTAGGAATGGTTGTGCTTGGTTATGATTCGACTATACCTGTTACGATAAGTGATATGATTCATCATACAAAAGCGGTCAAGCGGGGTGCGCAAGACACGTTTATTGTAACGGACTTGCCTTTTATGTCTTATCATATTAGCAAAGAGGAAGCGCTTCGAACAGCTGGGAAAATGATGCAAGAAGGTGGTGCTCATGCAGTCAAATTAGAGGGAGGGGGAGAAGTAATAGACATCATTCAAGCGTTATCGAATGCGGGGGTCCCGGTGATGGCGCATCTTGGATTAACACCGCAGTCTGCCGGAGTACTAGGGGGATACAAAGTGCAAGCAAAGACTGCTGAACAAGCGACAGAATTAATGAAAGATGCGAAGCAATGTGAAGTAGCAGGAGCATTTGCTCTTGTATTAGAGTGCATTCCGCACCAGCTTGCGCAAAAAATTGCATATCAATTACGTATTCCTGTAATTGGAATCGGAGCTGGTTCGAAAACAGATGGACAAGTGCTTGTTTTTCATGATGTGGTAACATTTGGCGTCGAGCGTGTACCGAAATTTGTTAAAAGTTTTGCAGATGTAAATCGTGAAGTATTGCATGGATTAAACGATTATATACGGGAGGTAAAGGCAGGTCACTTTCCTAAAGGAAGTAAGCATACATTTAGCATGGAACAGGAAGAATTAACTTCCTTAGAGAAAGGGGAATAA MKSTIEFLKMKQVGEKIAMVTAYDYSQAKLAEKAGIDMILVGDSLGMVVLGYDSTIPVTISDMIHHTKAVKRGAQDTFIVTDLPFMSYHISKEEALRTAGKMMQEGGAHAVKLEGGGEVIDIIQALSNAGVPVMAHLGLTPQSAGVLGGYKVQAKTAEQATELMKDAKQCEVAGAFALVLECIPHQLAQKIAYQLRIPVIGIGAGSKTDGQVLVFHDVVTFGVERVPKFVKSFADVNREVLHGLNDYIREVKAGHFPKGSKHTFSMEQEELTSLEKGE PGPT0008740_1333 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 AK015_02515 1371 norR_2 Anaerobic nitric oxide reductase transcription regulator NorR ATGAATAAGAATTACATATTAAATACAATTCTTGCAACAGAAGATGATGCTATAGTAGTTATTGCACCTGATTGTAAAGTTTTATTTTGGAATGATGCTGCAGTTCAAACGTATACGATTCACCAAGATGAAATCATTGGCAAGCCAATAACAGATTTTTTTCAAGACGAAGATTTATTGCTTTTATATGTTTTAAAAACGAAACAACCTGTTAAAAATGCGTATCATCGTCCTAGAGAGGATAAGCATGTTGTAATAAATTCCGCTCCGATTTACAACGATAACAACGAATTGATTGGTGTAGTGTCCATTGATCGTGATGTTTCTAACATTGTAAGATTAAATGAAAATTTGTTATCAACTTCTACAGAGTTAAATGAACTTAAGAGAAAAATATATATGAATAAAGAAGAAACCCCTTTTTCAAAAATGAAAGGGAGAAGTCCAGCTTTACAAAAAACCATACGTATTGCTAGAAAAGTCGCTAGTACAGATGCCACAACGCTTATCCTTGGGGAAAGTGGAACAGGAAAAGAAATATGTGCGCAAGCTATTCACGATGCAAGCGCTCGAAGGGATGGACCTTTTATACCTGTAAATTGTGGGGCTATTCCAGAAGCGCTGTTTGAAAGTGAGTTATTTGGATATGAAAGAGGGACATTCACAGGGGCGGAAAAACAAGGGAGAGCAGGAAAAATAGAAATGGCTGATGGAGGTACTTTATTTCTGGATGAAATTGGTGAGCTTCCTAAAAAAATGCAAGTGAAGCTTCTTCGAGTATTGCAAGAAAACCGGGTTTTTAGAATTGGTGATTCAAAGGGAAGAAGGTTAAATGTGCGGTTCATTGCAGCAACAAATCAAGATCTTGAGAAACTTATGAATGAAAATAAGTTCCGTTCGGATCTATATTATCGACTCGATGTTATTCAAGTGAAAATGCCATCATTGAGAGAGAGAACGGAGGATATCCCAGAGCTTGCTAACTATTTTTTGAAACAATTTGCAGCCCAATACCAAATGCCTGTCCCTTTATTAAAAGAAGAAGTTATAACGCAACTTGTAGCTTACAAATGGCCAGGAAATATACGAGAACTTCGTAATCTTATGGAGAGAATTACGGTATTGGCTGAAAATGGATATATCAACTGGGAAGAGCTGACGCAACATTTTAATTTGCTGAGAAAAAAAGTGGAACAGAAAAGAATAACTGATATGTCTTTATTGCAGGAAAAGGAAGAACTCGAAAAAGAAAGAATTATACAGTTGCTAGAAAAATATAATGGCAATAAATCAGTTGCTGCTAAAAAACTAGGTATCTCACGTGTGACTTTATATAAAAAGATACAGCAATTTAAAATTAATACATGTTAA MNKNYILNTILATEDDAIVVIAPDCKVLFWNDAAVQTYTIHQDEIIGKPITDFFQDEDLLLLYVLKTKQPVKNAYHRPREDKHVVINSAPIYNDNNELIGVVSIDRDVSNIVRLNENLLSTSTELNELKRKIYMNKEETPFSKMKGRSPALQKTIRIARKVASTDATTLILGESGTGKEICAQAIHDASARRDGPFIPVNCGAIPEALFESELFGYERGTFTGAEKQGRAGKIEMADGGTLFLDEIGELPKKMQVKLLRVLQENRVFRIGDSKGRRLNVRFIAATNQDLEKLMNENKFRSDLYYRLDVIQVKMPSLRERTEDIPELANYFLKQFAAQYQMPVPLLKEEVITQLVAYKWPGNIRELRNLMERITVLAENGYINWEELTQHFNLLRKKVEQKRITDMSLLQEKEELEKERIIQLLEKYNGNKSVAAKKLGISRVTLYKKIQQFKINTC PGPT0001030_2511 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 AK015_02516 981 COG3938 Proline racemase TTGATTAATATCTCAAGCCTATTACAAGCAGTCGATACACATACAGTGGGAGAGCCAACTAGAATTATTTTAAAAGGGATACCTAAATTAGAAACAAATACGATGTGGGATAAGAAACAAGAGCTAGAAGAGAAATTTGACCATTTAAGAGCAGTTTTAATGAATGAGCCAAGAGGGCACTCAAATATGTTCGGAGCATTTATTACCGAACCCTGTAATAAGAATTGTGATCTCGGCGTTGTTTTCGCTAATACGAAAGGCTACTTGAATATGTGTGGTCACGGTACTATCGCTGTAGTTACTGCGGGAATTTCACTTGGTATGATTGAAAAAAAAGAAAAGGTTCTTCTTGATACACCTGCTGGTATTATTTCATGCCATGTAACATTTGAAAACGAAAAAGTAAAACGAGTCTCATTCCATAACGCCCCTGCTTTTGTGTACAGACGAAACCTTACTGTGAAAATAGAGGAAAATCTAGAATTGACGTTGGATATTTCCTACGGTGGTAATTTTTTTGCCATATTAGATGCTACTCAACTTTCTTTAAGCATATCGCTTAATAATGCGGAAAAATTTATTGATTTAGGGATGAAAATAAAGGATGCGGTTAATAAACAGATAACTATTTCACACCCAGATTATCCGCATATAAATACAGTAGATTTAGTAGAATTCAGTGAACAAGTTGAGGACAATTATTATCGTAATGTCGTTGTATTCGGAAATGGTCAAATCGACCGTTCACCTTGTGGAACTGGCACCTCGGCAAAACTTGCTTTACTTAATTTCCCAGTTGGTGAGCAAATGAAACATGAAAGTATAATTGGTACTTCCTTTACTGCGAGTGTTGTAAAACAAACAAAAGTCGGTCATTTTAATGCTATTATTCCACAGGTATCTGGTTCTGCATGGATAACAGGATTCCATCAATTTGTAATTGACCAAGATGACCCCTTTAAGCACGGATTTTCGGTATAG MINISSLLQAVDTHTVGEPTRIILKGIPKLETNTMWDKKQELEEKFDHLRAVLMNEPRGHSNMFGAFITEPCNKNCDLGVVFANTKGYLNMCGHGTIAVVTAGISLGMIEKKEKVLLDTPAGIISCHVTFENEKVKRVSFHNAPAFVYRRNLTVKIEENLELTLDISYGGNFFAILDATQLSLSISLNNAEKFIDLGMKIKDAVNKQITISHPDYPHINTVDLVEFSEQVEDNYYRNVVVFGNGQIDRSPCGTGTSAKLALLNFPVGEQMKHESIIGTSFTASVVKQTKVGHFNAIIPQVSGSAWITGFHQFVIDQDDPFKHGFSV PGPT0014240_661 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777 NA NA AK015_02517 1356 brnQ_2 COG1114 Branched-chain amino acid transport system 2 carrier protein ATGAACACAAAATTGACAGCGCTTCAATTATTAGCAGTTAGCTTCATGCTGTTCGCAATGTTTCTTGGTGCGGGAAATATTATTTTTTCCCCTATAGTTGGGCAACAAGCTGGCAGTAATGCATGGGTTCCCATGTTTGGATTTTTAATAACAGGAGTAGGACTTGTTCTCTTAGCGATTATTGCGCTAGCAATGGCTGGTGGGAGAGTGGAAACTCTAGCTGAACGAGTCCACCCGAGGTTCAGCTTCTACTTTTGTATTTTATTATTTTTAACCTTGGGACCATTTTATGTTATACCGCGTACCACATCCGTAGTATACGAGATTTCTATACGTCCTAATTTATCAATGGTTAATATGGAAGCAAACGTTATTTTATTTGGATTTTCGTTTCTATATATAACAATAACAGCTATTCTCTCTCTTAACCCTAATAAGCTTGTTGACCGACTAGGAAAAGTCATTACTCCTATATTCTCCATTCTACTTGTTATAATTTTAATAAAATCGATTATTACACCAATGGGAGTAATACAACAACCACAACCGGCCTATATAGAGGGTGCATTTCTTAAAGGATTTACAGAAGGTTACCTTACAATGGACGTTCTAGCAGCGTTTGTTTTTGGAGGCGTTTTCATGAAAACGCTAAAGGGTTTACGTGTAGTAAATCCAAAACAAACTGCGCGTATCTTTATTAAGTCTGGTTTCATTACTGTTGTCGGCTTATCCCTTTTACATATTTCACTTGCATGGCTTGGAGCGACAAGTATTGAAGCAATTGGAATCTTAGATAATGGTGGAGTCGTTCTTGCTGAAGCTTCCCGATACTTACTTGGTAACACTGGTCTATTGATGATTGGGACAATTGTTATTCTGACTGGGTTAACGACAAATATCGCATGCTTATCGGCCGCTGCTGAATTTTTTGAACGCGTATGCCCAAAGATCAGTTATAAGAATTGGATATGCATGCACGCTTGCTTGGGTTTAATAGTTACAAATTTTGGGTTAAATCAAATCTTAAACATGGCAACGCCTGTACTATTCTTTCTATACCCAATGGCCATTACACTCATTGTATTAGCGCTAATGAATAACTGGTTTAAAGGATATCAACCTGTATATATTGGTTCAATGATAGGCGCAGGTAGCATTGCTATCATGGATGCTATCAAACAAACGGGACTTGTCACGGAACATATTTTAAATGATTTTTTTTCATTCCTTCCTTTATTTTCAAACGGAGGAGGCTGGATACTACCAGCATTTATTGGAGGAGTGGTTGGTTATCTATTTTCTATATATAGCCGAACAGACAAACGTAAATATAATCTCAAGGGAAAAGCTATCTAA MNTKLTALQLLAVSFMLFAMFLGAGNIIFSPIVGQQAGSNAWVPMFGFLITGVGLVLLAIIALAMAGGRVETLAERVHPRFSFYFCILLFLTLGPFYVIPRTTSVVYEISIRPNLSMVNMEANVILFGFSFLYITITAILSLNPNKLVDRLGKVITPIFSILLVIILIKSIITPMGVIQQPQPAYIEGAFLKGFTEGYLTMDVLAAFVFGGVFMKTLKGLRVVNPKQTARIFIKSGFITVVGLSLLHISLAWLGATSIEAIGILDNGGVVLAEASRYLLGNTGLLMIGTIVILTGLTTNIACLSAAAEFFERVCPKISYKNWICMHACLGLIVTNFGLNQILNMATPVLFFLYPMAITLIVLALMNNWFKGYQPVYIGSMIGAGSIAIMDAIKQTGLVTEHILNDFFSFLPLFSNGGGWILPAFIGGVVGYLFSIYSRTDKRKYNLKGKAI PGPT0014385_757 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 AK015_02518 999 fadM_1 Proline dehydrogenase 1 ATGATGCGAAATTTTTTCATCCATCTCTCTAATAATGAATTCTTAAATAATCAAGCGAAAAAGTGGGGCTTTTTCCTTGGAGCAGATAAATTCATAGCGGGAACTACTATACAAAATGTTTCAAAAGCGGTTAAACAACTGAATGCAACTGGAATAAGTTGTACACTAGATAATTTAGGGGAATTTGTATTGGATAAGACAGAAGCTAGCAAAGCAAAGGATAAAATCTTATCATTGCTGGAAGCCATTGAACACGAAAACATGGATTGCCATTTATCCGTTAAATTAACACAACTTGGGTTAGATATTGACCAAGACTACTGTATTTTAAATATGACAGAAATTCTTGATCTCGCAAAAAAATATAACATTTTTGTCAATATTGATATGGAAGATTACGCCCATTATGAGGAGACATTAACGATTCTGAAATATCTACGTAAAAATTATACAAATGTAGGTACGGTTATCCAAGCTTATTTATATCGGTCAGAAGATGATTTAATGGACCTTAAAGATGTACGTATACGTTTAGTAAAAGGCGCTTACAAGGAGGATGCAAAAGTAGCTTTTCAAAACCAACAAGAAATAGACGATAACTTTTTGCGACTTTGCAAAAAAAGACTTTTAGATGGGGCGTTTACCTCATTCGCTACACATGATCATCACATTATTGATGAATTAAAAAATTTTGTTAAAGAGAATAATTTGGATCAAGAATGTTTTGAGTTTCAAATGCTTTATGGATTTCGAAACGATTTACAGTCTAAACTCGCTAAAGAAGGCTATCATTTTTGTACTTACATTCCATTTGGTGATGACTGGTTTGGGTATTTTATGCGCCGCCTAGCAGAACGTCCGCAAAACTTGAATTTGGTTATAAAAGATGCCTTTTACACAGATAATAACCGATTAAAAAGAAGACCTGTGATTACAAGTCTTTTCATTGTATCCTTTGCAACGATTTGCTGTATAAAGGCAAGAAGGAGAAAATCATAA MMRNFFIHLSNNEFLNNQAKKWGFFLGADKFIAGTTIQNVSKAVKQLNATGISCTLDNLGEFVLDKTEASKAKDKILSLLEAIEHENMDCHLSVKLTQLGLDIDQDYCILNMTEILDLAKKYNIFVNIDMEDYAHYEETLTILKYLRKNYTNVGTVIQAYLYRSEDDLMDLKDVRIRLVKGAYKEDAKVAFQNQQEIDDNFLRLCKKRLLDGAFTSFATHDHHIIDELKNFVKENNLDQECFEFQMLYGFRNDLQSKLAKEGYHFCTYIPFGDDWFGYFMRRLAERPQNLNLVIKDAFYTDNNRLKRRPVITSLFIVSFATICCIKARRRKS NA NA NA NA NA AK015_02519 1245 nudC NADH pyrophosphatase ATGGCGATAGTTGATGAGTTTGATAGATTTTTATTTGATTTGGATGGGGTTGTTTTTATCGGGGATGAACCTCTTTACGGGGCAGTGGAATCACTTCAACGACTTCGGCGAGCGAATAAAGATATTCGGTTTTTAACGAATGACCCATGTACAACAAGAGAAAAAACGGTGAAGAAATTATCGCGTCTTGGGATAGAAGTAAGCAAAGAGGAAGTGATTACCTCCTCTTGGTTAACGGCACAATATTTACTAAGGGAAAGCATTCATACTGCATTTATTTTAGGCGATGAACATTTAAAATGGGAATGCAAGCAGGTTGGAATGGATACAGAAGTAGAAACAGAAGTAGAGGCTGTCGTTGTCGGATGGAGCAATGACCTCTCTTTTTATGATCTTCAACATGCTGCAGCATGTATTCATCAAGGAGCAAAATTTGTTGCAACGAACCCAGATAAAACATTCCCTACGCCAAATGGGCCTTTGCCAGCCGTTGGGGCAATTATAGAAGCGCTTCATGCATCAACAGATCAAAGACCATTTATTATCGGAAAACCTTACCCGTATATGTTTGAAAAAGCGCTTGAGAATGTGGATGCTACTACAAAAGCGGTGATGATTGGTGATAATCCATCTACAGATATATTGGGTGCACATCAAGCCGGAATACCAGCTGTTTTAGTATCCGATAAGCAAGTGAAGGCATTTCCATCAGCAAGAGATTTTCGTAATTCAGATGTTACGGTATCGAATTTAAAAGCGCTTTTTGATCAAAGCATCGTCATGAAAAACTGGACGCCGCCAGATTTTGCATGGCCTGAAGCAATTAAAGCTGGCGTAGCAGGGATCATATTTGATCGTGATCAGCGTGTGTTATTAATGAAACGAGCAGATAATGGATTATGGGGGATACCATCTGGACATGTTGAGCCGGGAGAAACAGTGGAGGAAGCGATTATTAGAGAGATTCGTGAAGAGACTGGCTTAGATGTTAAAGTAAACCGATTGATAGGCGTTTATTCTGATCCAGAGTCGCAAGTTTTTTCTTATCCGAATGGAAACGTAAGTCATTTCGTAACCAATTGTTTTGCATGTGAAGTAATTGGGGGAAATGTCGTTGGGAAAAATGATGAAACGTTAGATGTGCGTTACTTTGATATAAACCAGCTACCAGATGACCTCCTTCGTATGCATCCAAAGTGGCTCAAAGATGCGATCGTAAAGCGAAATGTTTCTTATATTCGGTAG MAIVDEFDRFLFDLDGVVFIGDEPLYGAVESLQRLRRANKDIRFLTNDPCTTREKTVKKLSRLGIEVSKEEVITSSWLTAQYLLRESIHTAFILGDEHLKWECKQVGMDTEVETEVEAVVVGWSNDLSFYDLQHAAACIHQGAKFVATNPDKTFPTPNGPLPAVGAIIEALHASTDQRPFIIGKPYPYMFEKALENVDATTKAVMIGDNPSTDILGAHQAGIPAVLVSDKQVKAFPSARDFRNSDVTVSNLKALFDQSIVMKNWTPPDFAWPEAIKAGVAGIIFDRDQRVLLMKRADNGLWGIPSGHVEPGETVEEAIIREIREETGLDVKVNRLIGVYSDPESQVFSYPNGNVSHFVTNCFACEVIGGNVVGKNDETLDVRYFDINQLPDDLLRMHPKWLKDAIVKRNVSYIR PGPT0024450_39 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117 NA NA AK015_02520 765 ind7 N-demethylindolmycin N-methyltransferase ATGAAAACGTCATTTAAAAAAAGTGATATCGCGAATAAGTTTGAAGCTTATAATGACATACTTGAACAAATATTAGGTTTTCGATTTGTTTTTGAAACACTACGGTCAAACCCCAAGATAGCAAGTGTACTTGATTATGGTTGCGGTCCAGGAAAGGTATCGTATCGATTAGCGGAAAAAACGGGAGTAAATGTTTACGCTGTAGATGAGTCCAAAGAGATGATTAACATCGCATCGGAAAAACGGAGCCATCCAAATATAAAATATCATTTAATAAATAATGATAATCTTTCTTTTCTGCAAGATAATTCAGTAGATGCAGCTATGGCATGTTATGTATTTATTAATACGGAGAAAAAAGAACAAATTTTAACAATTATGAAGGAGATTTATCGCGTTTTAACTCCTCAAGCTTCTTTTATTATCTTAGATACGAACCCGGATTCTACGGGGATTGAGTTTTCTACGTTTCAAAATGGAAGGAAGGGAAAAACATATAGGTGCGGTGAAGCGCGGCAAGAATGGTTACATTTAGACCAGCAAGAGGACTTAATATTGCGTGATTTTCATTGGCCGAAGTCTGTCTATGAGGAGCTTTTAACAGAAGCTGGTTTCCAAGGATTAGAACTTATAGAGCCGACGTTAAAAGATATTCCTGAAGCAGAATTAAAATCGATCCAAGAAAAGCATCCTTTTCATCATTGGAAACAGGAATGGGAATTTCCTCCGTTTGCCATATATAAATCGATGAAACCAGCGAAATAG MKTSFKKSDIANKFEAYNDILEQILGFRFVFETLRSNPKIASVLDYGCGPGKVSYRLAEKTGVNVYAVDESKEMINIASEKRSHPNIKYHLINNDNLSFLQDNSVDAAMACYVFINTEKKEQILTIMKEIYRVLTPQASFIILDTNPDSTGIEFSTFQNGRKGKTYRCGEARQEWLHLDQQEDLILRDFHWPKSVYEELLTEAGFQGLELIEPTLKDIPEAELKSIQEKHPFHHWKQEWEFPPFAIYKSMKPAK NA NA NA NA NA AK015_02521 996 thyA_1 Thymidylate synthase ATGCGATTTAACAACTTCCATGAGGCGTATATTGAAACGCTTAACATGGTATATAACGAGCCACAGTTTTATAATGCGCCGCGTGGAAATAAAAGCCGTGAGAAACTAAGTTATCACTTGACTATTGAAAATCCGATAGAAAGAATCTGCTATTTGCCTAGCAGAAAAACAAATATAGTATTTAATTTTGCTGAAGCTTTATGGTACGCATCAGGTGACAATAGCCTGGCGTTTATCGGTTATTATAATAAGAAAATGCGTGCGTATTCCATGAATGGAAAAACATTGACAGGCACAGCATATGGTCCAAAAATTTTTGAGTTTGGCAATGCGAAAATAAATCAATGGAACCAAATTAAAGATTTATTAATGTATAACGATCCTGATTCCAAACGAGCGTTTATTCAGATATTTGATGCAACAGAACTAGTAATAGCCAATAATATGGACATCTCTTGTACTTTAGGATTGCAGTTTTTTGTAAGAGAGGGCAAATTGTATATGGCCTCGTTTATGCGCGCAAATGATGCATTTCGCGGCATGGTTAGTGATATTTTTTCCTTTACATGGATGCAAGAATTAATGGCAAGAGAACTTGATTTAGAAATAGGAGAATTCTTTCACCATGTTGGATCTATCCATATTTATCAGCCAGATGATCATTGGACGGAGAGAGTGCTTCATGAAGCAAGTTCTGTATCCAAGCATAAAAAGACAATGTTTGAATTTCCTCGTATGCCAAGCGGTAATAACTGGCCTGCCATAGAAATGGTGTTAAAATATGAAGCCTTATTAAGAAATGACCATATAAGCATGACTGGCAGTGAAATTGAACAGCTTGATTTACCAGAATATTGGAAGCAAGTTGTGTTACTTTTTAGTTTGTATCAATATATAGCTTATCAAAGACCAATGGATTATTCCCTTTATCATCAGTTGTGGCCAGTATATCAGCATTTAGTAGTTAACAAATGGCCCATTCTACAAAGCAAGTAA MRFNNFHEAYIETLNMVYNEPQFYNAPRGNKSREKLSYHLTIENPIERICYLPSRKTNIVFNFAEALWYASGDNSLAFIGYYNKKMRAYSMNGKTLTGTAYGPKIFEFGNAKINQWNQIKDLLMYNDPDSKRAFIQIFDATELVIANNMDISCTLGLQFFVREGKLYMASFMRANDAFRGMVSDIFSFTWMQELMARELDLEIGEFFHHVGSIHIYQPDDHWTERVLHEASSVSKHKKTMFEFPRMPSGNNWPAIEMVLKYEALLRNDHISMTGSEIEQLDLPEYWKQVVLLFSLYQYIAYQRPMDYSLYHQLWPVYQHLVVNKWPILQSK PGPT0008145_267 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560 NA NA AK015_02522 447 hypothetical protein ATGAGTCAACGCAAAAAACTATTTCTTGCAGGTCCATTTAAAAGTCTTGTAAACCGAAAAACGGGAGTAATGGATCATTATGAAAAGCAAAAGCTAATGAAGCTCATCTCTTATTTTGAAGATAAAGGCTTTGCTGTTCATAATGCGCACAAGCGTGAGGGGTGGGGAAAAGATTTTATGACGCCTCATGAATGTACAGCAATCGATTTTGCAGAAATAAGCGCTTGTGATCTATTTGTCGCCTTTCCAGGATCTCCACCTTCTCCAGGTACCCATATTGAAATTGGCTGGGCATCCGCATTACAAAAACCAATTATTTTGTTATTAGAAGAAGGAAAAGACTATGCGTTTTTAATTCAAGGTTTAGAATCTATGGCTCCTGTTACTTATATGTATTATCAAGAAGAAGCAGACTATTTAACCAAACTAGAAGAAATGAACTTATAA MSQRKKLFLAGPFKSLVNRKTGVMDHYEKQKLMKLISYFEDKGFAVHNAHKREGWGKDFMTPHECTAIDFAEISACDLFVAFPGSPPSPGTHIEIGWASALQKPIILLLEEGKDYAFLIQGLESMAPVTYMYYQEEADYLTKLEEMNL NA NA NA NA NA AK015_02523 1716 hypothetical protein ATGCTAAAAAAACTCGGCCTAGTATTTGGTATTATCCTATTCTTATGTTTGATCCCCAGCACCGTTTTTGCTGTTGATTTTTCCATTAATCAAAGCAGAGTGGATGCCTATTTACAGAAAGATGGGGACGTTCATGTCAACGAGCAGCATACGTACCAGTTTGACGGCGAATTTAATGGCATGACTCGCACCCTAATTCCTTCAAAGGATGCATCTATTCATAACGTAACTGCAACAGAAGCTGAAAAAGATTTAAAGGTAAAGCAAGAAGAGAATGTTTATAAGATTTATCGAAGCGGCAAGGACGAAACCGTTACGATTCAATTGTCCTATACCATTAAAAATAGCCTTCAAGCTTATTCTGATCTGGTTGTATTTTCTTGGTCTTTTTTTGATAGTGAAAATGAAACGGATTATGAGCATTTCGATGCATTTATCCACCCACCGGAAAAAACAGAAAATAGCGTTGCCTACGGTGAAGATGAAGCTTTTAAAACAGAGAAACAAAAAGAGGATGGTACGATTCATTTTGCCATGGGGTATGTGGATTCTTATGAAAATGGAGCTATTACTGTTAGTTATGATCGGTCTCTTTTTCCGGGTGTTTCTATTATGGAAGAGAAACTCATACGCGAAGAAATGCTTGCAACGAAGCAAGCATTGCTCGATAAAGAACAAGCATTTTTAAACAGAAAATCAACGTTAAAAGAAATATCACCTTATGTGATAAGTATTTTTAGCCTACTTAGCTTGTTCCTACTATTTGTTGCCTGGAGGAAAAAGCAAGTACAAGAATTAGAATTGGCGCGTTTGTCAGAATCCGTACACTTTTTACCTAAACAAGAAATGAGTTTACCAGCAACGGTCGCTTATATGAAGCATGGCAAAGTAGGTTCTACAGTAATGACTGCTGCTTTACTTGATTTAGAACAAAAAGGATTCATTCAACGGGATAACGATGATTTGCATAAGTTTACTGTGATCCATGAACAAACAGACCATCAACATGAGAAAATACTTATTGACTTGTTATTTTATACGGTTGGAAATAATGGGGTATTTTGCACGAACGATTTAAAAGAATTTATGGAAAATAAAGCAAATCAAGACATGTATCAAAAAGAACTTTACCGCTATAATTATACTGTCACGAAGGAAATCAAAGAGCATCATCTCGTTGATAAAAAAACGGGTACTCGTATAATGGCAGGCGTATTAAGCTTTCTTATCAACCCATTCAGTATCGTCTTTGCCATGCACGAACTATACGCTAGTATGACGATCACGAGCTTCTTATTTGTTTTTCTTGCTTTATTTGCTATCCTTTATCGACCACGAACGTTAAAGGGAGCACGAATTTATAAACAGTGGAAGGAATTTGAAGAAAAAACCTTACAGCCTGAAAGTACTTCTTTAGAGAATCTTACTGACGATGAACAAAAACGCGGTTTGATTTATGGGGTAGGAGTTAACCATACTCCACTCCATACAAAGTGGACGACTTCCAACAAGCAGCTATTGCATCATTCCACATCAGCTGAGGCAAGTTCGGATGATCATACGGATGTCATGATGCTTGTACTCGCTACAGCTGCTATTAACACACAATTTCACGACGCACAGACAGCAGTAACTGCAGACACAACAAGTGCCTCCATCGGTGCAGGAAGCGGTGCTGGAGCTGGCGGAAGTGGCGGAGGATCAGGCGCATTTTAA MLKKLGLVFGIILFLCLIPSTVFAVDFSINQSRVDAYLQKDGDVHVNEQHTYQFDGEFNGMTRTLIPSKDASIHNVTATEAEKDLKVKQEENVYKIYRSGKDETVTIQLSYTIKNSLQAYSDLVVFSWSFFDSENETDYEHFDAFIHPPEKTENSVAYGEDEAFKTEKQKEDGTIHFAMGYVDSYENGAITVSYDRSLFPGVSIMEEKLIREEMLATKQALLDKEQAFLNRKSTLKEISPYVISIFSLLSLFLLFVAWRKKQVQELELARLSESVHFLPKQEMSLPATVAYMKHGKVGSTVMTAALLDLEQKGFIQRDNDDLHKFTVIHEQTDHQHEKILIDLLFYTVGNNGVFCTNDLKEFMENKANQDMYQKELYRYNYTVTKEIKEHHLVDKKTGTRIMAGVLSFLINPFSIVFAMHELYASMTITSFLFVFLALFAILYRPRTLKGARIYKQWKEFEEKTLQPESTSLENLTDDEQKRGLIYGVGVNHTPLHTKWTTSNKQLLHHSTSAEASSDDHTDVMMLVLATAAINTQFHDAQTAVTADTTSASIGAGSGAGAGGSGGGSGAF NA NA NA NA NA AK015_02524 156 hypothetical protein ATGGAAATATCATTAAGTTTATTTATAATATGTAGCATAATCTTTTACTTCATACTCTATGTTGTTATTGAAACAGCTGTAAGAAGAGGTATCGATTCATCAAAGACAAATGAAATGATTGGAAGAATTTATGAAAAAATTAACAAAGAGCACTAA MEISLSLFIICSIIFYFILYVVIETAVRRGIDSSKTNEMIGRIYEKINKEH NA NA NA NA NA AK015_02525 273 hypothetical protein TTGGATGACTTGGTTAGCTTTTTTCACCCTTTATTTGCACAAAATGGAAAAGAAAGCATTCGACTAGGGCATGTACTAGCGCACACATCAGGATTAGCAGCACATCGCCACTTTTATAAAGAAGGACTTGGGGGGGAGGAAGTACTTGAGCAAATTTGCAAGGAAAAAATGACATATACGTTAAATAAAGAAGTGTTATATAGCGACCTTAACTCTATGATTCTTTACAATTTAGTGGAGGAAAAACTGTGGAATATTTTGAATCCTTTGTAG MDDLVSFFHPLFAQNGKESIRLGHVLAHTSGLAAHRHFYKEGLGGEEVLEQICKEKMTYTLNKEVLYSDLNSMILYNLVEEKLWNILNPL NA NA NA NA NA AK015_02526 213 hypothetical protein ATGAGACAAGTAGTTTTAGATGTTCTGCAAAAAGAAATGGACCTGAAGCATATACCTGCTGTCGTTATACAAGTTTCTTATCAAAATGAAGTAGTGCTCAAGGAAGCGATAGGTAATCGCGTGGTTTATCCAACCCAAGCTCCGTTGCAACTCAATACAATGTTTGATCTCACCTCCCTTACCAAAGTAGTTGCCACTTTACCGCCTTTTTAA MRQVVLDVLQKEMDLKHIPAVVIQVSYQNEVVLKEAIGNRVVYPTQAPLQLNTMFDLTSLTKVVATLPPF PGPT0024045_255 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024045-pbp4b-K21469 NA NA AK015_02527 972 hypothetical protein ATGAAAACAGTAGCTTGGGACGAAACTTATGTTGAAAAGTTGATAAATCTGTGGAATCGGGAGTTAGGGCTTGCATTCCCAATGCGTGATTCCCTTTTTAAACAAAATAGCGTTCAAGATAAAAATGTGTGTCGTGATAGTTCATGGATTGTCTTAAATAATGACAATGATGTTATCGGTTTCATTATTGTGAAAGTGTGGCAGGAAAAGATTCAGGTGCAAATGTCTAAAACAACAGGCTGGATTCAAGTGCTTCTCGTAGATCATCGATATAGAAATAAAGGGATTGGGACAAAGTTGCTTGAACATGCAGAAGAAGTTTTACATAAGCAAGGAATACAGCAAATTTTGCTAGGCCGTGATCCTTGGCATTACTTTCCGGGTATTCCAATCCATAATGAACAAACAAAACAGTGGTTTTTGGCAAGAGGGTATAAAGCATATGGAACGGAGCATGATTTATTAAAAACGTACAATAAGACCACCACAGTTACAAAGCCTGACTTTCCAGAAATCGATTTTTCTGTACTTCATACAAGGGAAAAGAAGAATTTCTTAGCTTTTTTACATCGTTGTTTTCCAGGCAGATGGGAATATGAAGCAATAAAGTATTTTGAATTTGGTGGAACAGGTCGTGAATTTGTCGTCATGAGAAAACGTGGACGACTCATTGGATTTTGTCGAATTAACGATCCCAATTCACCCATTATTGCTCAAAATGTCTACTGGGCTCCGTTATTTGAAACAGCACTTGGTGGCGTAGGGCCATTAGGTATCGATGCTTTAGAACGTGGGCAAGGCTATGGTTTGGCAGTAGTGGAAGCGGGAATTGCTGAACTGCGAAACCGGGGTATAGAAAAGATTGTTATTGATTGGACGGGACTAGTAGATTTTTATAAAAAGCTAGGTTATGAGGTTTGGAAAAGCTATACCTCATTTAAAAAGCTATTGGAATCAGGAGGCGATTCATGA MKTVAWDETYVEKLINLWNRELGLAFPMRDSLFKQNSVQDKNVCRDSSWIVLNNDNDVIGFIIVKVWQEKIQVQMSKTTGWIQVLLVDHRYRNKGIGTKLLEHAEEVLHKQGIQQILLGRDPWHYFPGIPIHNEQTKQWFLARGYKAYGTEHDLLKTYNKTTTVTKPDFPEIDFSVLHTREKKNFLAFLHRCFPGRWEYEAIKYFEFGGTGREFVVMRKRGRLIGFCRINDPNSPIIAQNVYWAPLFETALGGVGPLGIDALERGQGYGLAVVEAGIAELRNRGIEKIVIDWTGLVDFYKKLGYEVWKSYTSFKKLLESGGDS NA NA NA NA NA AK015_02528 858 ybbH_2 COG1737 putative HTH-type transcriptional regulator YbbH ATGACAAATGGTGGTTTAATTATATTAACGGAGATGTTGGAAAAATTACCTCCTTCTGAAAAAAAGATTGCAGCTTATATTTTAGATCATCCACAAGAATCGATTTCGCTAACAGCAAATGAGTTAGGAAAGCGGAGTTCTACGAGTGGTGCAGCAGTCATACGTTTATGTAAATCACTTCATTTGAAAGGATTTCAAGATTTAAAATTAAGGATTGCTGGCGATTTACAAAAGCCAGATGATCATGTAGGCTACCAAGATATCCAACCGAATGAATCGGCAAGTTCTATTATTAAAAAAATGACCGATAACTCCATTCAAACTATTAGGGAAACAGCTGATTTATTGAATACAGAGGAGCTACAAAAAGCAGTCGATGCACTGAGAGAAGCTAGGCAGATCCATTTTATTGGGGTAGGTGCTTCCAGTATTGCTGCAGAAGATGCCCAGCATAAATTTTTACGCATTGATAAAACAGTATATGCTTTTAAAGATATGCATATGGCTGCAACGCTCGTGGCAAATACTTCAGCGGACGATGTGGTGGTAGGTATTTCTTTTTCAGGGGAAACGCAAGAGATCACGAAAATATTACAATTAGCAAATGAAAATCAAGCTACGACGATTAGTTTAACCAAGTATGGAAGTTCGAATGTAGGCGATCAAGCGAAGATCAATTTATATACGTCAGCGACAAATGAACCGACTTTTCGAAGCGGAGCTACATCTTCTAGGGTTGCCCAATTGCAAGTTATTGACATCCTCTTTATGTGTGTTGCTTCGTTACAATATGAGGATAGTGTCAAGCATTTAGGGGCAACGAGGGATGCGGTTGATTTCCTTAAATGGCAATGGTGA MTNGGLIILTEMLEKLPPSEKKIAAYILDHPQESISLTANELGKRSSTSGAAVIRLCKSLHLKGFQDLKLRIAGDLQKPDDHVGYQDIQPNESASSIIKKMTDNSIQTIRETADLLNTEELQKAVDALREARQIHFIGVGASSIAAEDAQHKFLRIDKTVYAFKDMHMAATLVANTSADDVVVGISFSGETQEITKILQLANENQATTISLTKYGSSNVGDQAKINLYTSATNEPTFRSGATSSRVAQLQVIDILFMCVASLQYEDSVKHLGATRDAVDFLKWQW PGPT0017985_484 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337 NA NA AK015_02529 1149 hypothetical protein ATGAAGCTCGGGTTGGAAGTGTTTTTAGAAACAGCATACAAGCAGTTTAAACATCAAAAAATTGGTCTAGTAACGAATATGACGGGGGTGAATCAACAGTTAATTCCTGCTATTGATTTATTTTACCATCACCCACATATTAAACTTACTGCACTCTATGCTCCTGAACATGGTATACGAGGGGACGCTAAAGAAGGGGAAAAGGTTACTTCAACTGTTGATCCTTATACGGGGCTACCAGTGTATAGTCTTTATGGAACGACTAGAAAACCGACAAAAGAGATGCTTGAACCTGTAGATGTCATTGTTTTTGATTTACAAGATATTGGTTCGCGGTATTATACATTTATTTATACGATGGCATACGTGATGGAAGCGTGTATGGAAGAAGGAAAGCATGTTGTCGTGCTGGATCGACCTAATCCAATCGGCGGTATAAAAATGGAAGGTAATGTAGTAGAAGAAGATGTTCGTTCTTTTGTTGGGCTCTTGCCAATTCCGAATAGGCATGGCATGACAGTTGGCGAACTTGCTGTTTTATTTAAACATGTATTTGGTTATTATTGTGAATTGACGGTGATTCATATGGTTGGTTGGAGGAGAACGATGTACTTTGATCAGACTGGTCTATTCTGGGTGCCACCTTCTCCCAACACGCCGACACTGGATATGAGTATGCTGTATCCGGGGACTTGTCTCGTTGAAGGGACGAATTTATCAGAAGGTAGAGGTACAACGAAACCATTTGAAGTTATTGGTGCTCCGTTTATAGATGGGCAAATATTAGCTAGCGCTTTTAATCAAAGAAACATCCCTGGTGTGCTAGCCAGACCGACATCGTTTACACCTTTTTATCAAAAATATAAGAATCAATTATGTGGAGGCGTTCAACTTCATATAGAAGATCGTCATCTGTTAAACTCTGTAGTAACAGGTATCCTATTACTTGAAATTGTAGCTTCACTTTACCCAGATGCATTTTCATTTATAACGAATGAAAACAATAAATACTTTTTCGATTTATTAGCTGGAACAAAATCGCTCAGACAATTTATTTTAGAAGAAAAGGCAAAGGTGTTTGTAAATGCTTGTGAAGATGAATTGGAATCTTTTCGACAAGTAAGAGAACCGTATCTTTTATACCAATAA MKLGLEVFLETAYKQFKHQKIGLVTNMTGVNQQLIPAIDLFYHHPHIKLTALYAPEHGIRGDAKEGEKVTSTVDPYTGLPVYSLYGTTRKPTKEMLEPVDVIVFDLQDIGSRYYTFIYTMAYVMEACMEEGKHVVVLDRPNPIGGIKMEGNVVEEDVRSFVGLLPIPNRHGMTVGELAVLFKHVFGYYCELTVIHMVGWRRTMYFDQTGLFWVPPSPNTPTLDMSMLYPGTCLVEGTNLSEGRGTTKPFEVIGAPFIDGQILASAFNQRNIPGVLARPTSFTPFYQKYKNQLCGGVQLHIEDRHLLNSVVTGILLLEIVASLYPDAFSFITNENNKYFFDLLAGTKSLRQFILEEKAKVFVNACEDELESFRQVREPYLLYQ PGPT0012175_5 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207 NA NA AK015_02530 99 hypothetical protein ATGATTTTACTTTATCTTCCAGATAGAGATGAAAGTGGGGACACTTTATATGAAGCTCGGGTTGGAAGTGTTTTTAGAAACAGCATACAAGCAGTTTAA MILLYLPDRDESGDTLYEARVGSVFRNSIQAV NA NA NA NA NA AK015_02531 1593 nagZ COG1472 Beta-hexosaminidase ATGAATAAAAGCCTTGTGAAAGAAGTAGGAAAATTATTGGTTATTGGTTTTCCGGGTAAGGAAGTTCCTGACTATATTAGGAGAATGATGCATCAATACCATATTGGCGGTATGATCCTTTTTAGTAGAAATATCGGTACACCGGAAGAGGTGCTTCGCCTTACGACAGACTTGCAAAAAGAAGCAAAAAAAGCAGGCTATACCCATCCGTTACTTATATGTGTAGATCAAGAAAATGGGGTCGTTCGTCGTTTAGGTGAAGGAACAACAATATTTCCTGGAGCAATGGCGTTAGGTGCCACGAATAATCCTAAGAATGCCTATCACATCGGGCTAGCAACTGCGAAGGAACTAAAAGCACTGGGGATTAATTGGAATCTTGCACCTGTTTTGGATGTGAATAATAATCCAGATAACCCTGTTATTGGTGTCCGCTCTTTTGGAGAGTCAGCTGAAATGGTCGCAGATTTTGGTAGGCAAATGATGCAAGGAATGCAAGATGGTGGCGTGATAACGACATTAAAACATTTCCCTGGTCATGGTGATACAAATGTGGACTCCCATCTTGATTTACCCGTTATTTCTCATCATAAGGAACGATTAAAAAAAGTTGAGCTACTACCTTTTCAAACAAGTATAGACGCTGGCGCTGATACGGTGATGTCCGCACATGTGTATTTTCCAGCTATTGAATCAAAGCAAGGTGTTCCAGCTACATTATCTAAAAAGGTCATTACTGAATTATTAAGAACGGAATTAGCATTTGACGGCGTTGTAACGACAGACTGTTTGGAGATGCGTGCAATTGCCAATGGAGTTGGGACAGAACAGAGTGCCGTGGAGGCTATCAAAGCTGGTGTTGATTTACTTATAATTTCTCATACAGCTAACAAACAACAAGATACGATTCAAAAAATCATTCAGTTAATAGAAGCAAATGAGTTAGATCGAAGTTTTATTACGCAATCCATTAGACGAATAGACTCCCTAAAGGAAAAATACTTACATTGGGATGATATCCAGCTTGTGGGTGAAGAGGCGGTTCCAAAAGTTATAAACTGTAAACAACACGAGGAGATAGCTTATCAAATGTATAAGGAAAGTATAACGGTTGTTAAAAATGAAAACGTTATCCCGGTTTCCTTAAAGGAAAAGGATCGCGTGCTTGTCCTTTGGCCAAACGATGGAGGGACGATGGGGGTGGAAGATAAACGGCATACGACACATGCGCTAGATGAAGCAGTAAAGAGCTATCATAAAGAAGTTGACAAGATAGATGTCACGGATGATATGACAGCACTTGATATAGAAGAAATCGTTGCTAAAGCACATCATTATGACTTTATTTTTGTTGGTACGTTGACCATTACGATAGGTAGTAAGCAGGTAACGCTAGTTGAAAAGTTAGCGCAAGCTCAGTTGTCATTTGTCGTTATTGCCATGCGAAGCCCCTATGACTTGCGGTATATCCCACAAGTGAAAGCATATATCAACACATATGAATTTACTTATCCCGCTTTACAGGTAGCAGCGGGAGCAGTTTTTGGCAAGGAGAAAGTAAGTGGTACATCTCCTGTAACGATATTTCCATAA MNKSLVKEVGKLLVIGFPGKEVPDYIRRMMHQYHIGGMILFSRNIGTPEEVLRLTTDLQKEAKKAGYTHPLLICVDQENGVVRRLGEGTTIFPGAMALGATNNPKNAYHIGLATAKELKALGINWNLAPVLDVNNNPDNPVIGVRSFGESAEMVADFGRQMMQGMQDGGVITTLKHFPGHGDTNVDSHLDLPVISHHKERLKKVELLPFQTSIDAGADTVMSAHVYFPAIESKQGVPATLSKKVITELLRTELAFDGVVTTDCLEMRAIANGVGTEQSAVEAIKAGVDLLIISHTANKQQDTIQKIIQLIEANELDRSFITQSIRRIDSLKEKYLHWDDIQLVGEEAVPKVINCKQHEEIAYQMYKESITVVKNENVIPVSLKEKDRVLVLWPNDGGTMGVEDKRHTTHALDEAVKSYHKEVDKIDVTDDMTALDIEEIVAKAHHYDFIFVGTLTITIGSKQVTLVEKLAQAQLSFVVIAMRSPYDLRYIPQVKAYINTYEFTYPALQVAAGAVFGKEKVSGTSPVTIFP PGPT0012175_1411 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207 NA NA AK015_02532 993 hypothetical protein GTGGCGTCTATTCCTGATGTTCAGCTCGTTTATTGGGACTACTATCATACCGATCAAGCATTCTATCAAACGTTTATAAAAAGACATCAAGTTCTGAAACCAAATTCAGTATTTGCAGGTGGGGTTTGGACTTGGAATGGTATTGCTCCAAACTATGGAAAAGCTATACAAACGACAGAAGCAGCCTTAACAGCATGTAAAAAAGAAGGAGTAAAGGAAGTTTTTGCTACAATGTGGGGAGATAACGGGGCTGAAACGCCAATGACAACCGCATTGCCAATGCTACAACTTTTTGCAGAGCATACGTATCATCAAGTCGTTCATGCTAAAACATGGCAAGCGAGATTCGCGTGCTGTGTAGGTGCTAATTATAACGATTTTATGGTTTTACATCAATTTGATGAAACGCCTGGTGTTTCGGAAAATAATTTACATGCGTCAAATCCTTCTAAATTTTTGTTGTGGCAAGATATTTTGCTCAGCTTATATGATGAAAATATTAAAGGGCTATCTTTAGGCAAACATTATGAACAAATGATCCCGCAATTAACACAAGCAAAAGAACGCAATCCAACGTTTTTTTCTCTATTTGCCTTTTATGAGCAGTTGGCGAGAGTATTAAGTACCAAGGCAGAACTCGGGATACATATTAAACAGGCATACGACACCGTTCATAAAGAGAATATGCAAATGTATTTAGAGCAAATAAAAGTGTTACAGGAGGAACTCATTGAATTAAGAGATACACATAGAGATTTATGGTTTTCTATGAATAAGCCGTTTGGATGGGAAATCATTGAAATACGATATGGTGGAGTGATTACACGTTTGGATACGGTTCAATATCGTATCAAAAAGTGGTTGGCAGATGAAATTGTTGTAATAGAAGAGTTAGCAGAAGATCGTCTTTATTTCGACGGGCCTTACCAAATGCCTGCGGGATCTTTAGGAAGAAATCTCTATCATAGAATTGTTAGTGCTAGTCCATTGTAG MASIPDVQLVYWDYYHTDQAFYQTFIKRHQVLKPNSVFAGGVWTWNGIAPNYGKAIQTTEAALTACKKEGVKEVFATMWGDNGAETPMTTALPMLQLFAEHTYHQVVHAKTWQARFACCVGANYNDFMVLHQFDETPGVSENNLHASNPSKFLLWQDILLSLYDENIKGLSLGKHYEQMIPQLTQAKERNPTFFSLFAFYEQLARVLSTKAELGIHIKQAYDTVHKENMQMYLEQIKVLQEELIELRDTHRDLWFSMNKPFGWEIIEIRYGGVITRLDTVQYRIKKWLADEIVVIEELAEDRLYFDGPYQMPAGSLGRNLYHRIVSASPL PGPT0012150_2075 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373 NA NA AK015_02533 837 hypothetical protein ATGAAGGTACAGTTTGCTGGAAATGTAAGCGCTGTATATACTGGTTTGAAAATACTATCGACAGAATTAGGATTTTCCATAGATGATACGAATGGTTTTCCAATTGATGTACAACAAAGAAAAGGTTCTATTTATATTTCCAAAAACCAGTATAGCGGACAAATCTGTTTTGAAAAGCCGATTCATTTTTTTAGAGCGTTAGGTTTGTGGCTGGAGCAGTACCAACTAAAGCAAGAATTTGAATTGGTAGAAGAAGCCCAATTCGATAGCAGCGGAGCTATGCTAGATGCTTCGAGAAATGCGGTAATGCGTGTATCAGAAATGAAAGCCATGCTACGAAAAATGGCAGTAATGGGATTAAATGTGCTGATGATTTATACAGAAGATACGTATGAAGTAGAAGAATACCCCTATTTTGGTTATATGCGTGGGAGGTATACAGAGGATGAGTTGAAAGCATGCGATCAATATGCTGCTACCCTTGGGATAGAGATGATCCCATGTATTCAGACGCTAGCTCATTTAACAGAAGCGTTAAAGTGGAATTATGCTGGAGAGATGAAGGATACAGCGGATATTTTACTTGTAGGGGAGGCGAAAACATATGCCTTTATCGAGGCGATGATAACGGCTGCTTCCAAGCCATTTCAATCGAATCGAATACATATCGGGATGGATGAAGCACATCAGTTAGGACTCGGAAAATATTTAGAAAGAAATGGTTATGAACAGCGATTTGCGATTATGACTAAACATTTGCAAGCAGTTGTTGCCATGACAGAAAAGCTTGGCTTAAAACCAATGCTTTGGAGTGATATGTATTTTCGACTTGGATAA MKVQFAGNVSAVYTGLKILSTELGFSIDDTNGFPIDVQQRKGSIYISKNQYSGQICFEKPIHFFRALGLWLEQYQLKQEFELVEEAQFDSSGAMLDASRNAVMRVSEMKAMLRKMAVMGLNVLMIYTEDTYEVEEYPYFGYMRGRYTEDELKACDQYAATLGIEMIPCIQTLAHLTEALKWNYAGEMKDTADILLVGEAKTYAFIEAMITAASKPFQSNRIHIGMDEAHQLGLGKYLERNGYEQRFAIMTKHLQAVVAMTEKLGLKPMLWSDMYFRLG PGPT0012150_2075 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373 NA NA AK015_02534 807 ecfT_3 COG0619 Energy-coupling factor transporter transmembrane protein EcfT ATGATGGATTCTGTTATCCTTGGCCAATATGTAAAAAGAGATTCTATTATCCATTATTTAGATCCTCGCAGTAAAATTTTAAGTCTGATAATTATCATGTTAAGTTTTATTACATTAGAATCAACAATGAGTTATATGATTGCAATTTTTTTTGTGCTGTTTATTTTAATTTTGACAAATGTACCGTTTAAAGTATACGTGCTTGCTATAAAGCCATTGTTTTTTATTTTAATAGTTACATTCTTATACCATATGTTACTTACAAAAGGATCTCATGTTATTTTGGATGTCTATTTTTTAACTATCTCTGTTGAGGGGATTGTAGAAGGAATAAGAATTACATTACGAATTATGCTATTCATTTTATTAGCATCTGTTTTAACATTTACTACTAAACCATTGACGCTTGCACATGGATTGGAGGCGCTCATGAAACCATTAGCAAAATTAAACTTTCCAGTTGAAAAATTCGCTTTAATGATTATCATTGCAATCCGCTTTATACCAACTATTTTACAGGAATTACAACAGATTTTAACAGCTTTAAAAGCAAAGGGAAATCATATGGAAACATTATCATTAAGAAAGAAGTTGCTTACTTATAATCGTATTTTAATACCGTTGTTAACGTCATTAGTTATTCGTGCAGAGCAGTTATCTATGGCAATAGAAGCTAGGGGTTTTGGGGATGGTAAAAATAGAGTACGGTACCATTCATTATCTTATCAATTATTGGATTATCAAGTTTTGATAGTAGCCCTCTCGTTTTCTTTCTTCTTGCTATATATCAAAGTTTATGGGATATGA MMDSVILGQYVKRDSIIHYLDPRSKILSLIIIMLSFITLESTMSYMIAIFFVLFILILTNVPFKVYVLAIKPLFFILIVTFLYHMLLTKGSHVILDVYFLTISVEGIVEGIRITLRIMLFILLASVLTFTTKPLTLAHGLEALMKPLAKLNFPVEKFALMIIIAIRFIPTILQELQQILTALKAKGNHMETLSLRKKLLTYNRILIPLLTSLVIRAEQLSMAIEARGFGDGKNRVRYHSLSYQLLDYQVLIVALSFSFFLLYIKVYGI PGPT0004015_1518 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 AK015_02535 855 ecfA2_2 COG1122 Energy-coupling factor transporter ATP-binding protein EcfA2 ATGGCGTACCAATTCAAAAATGTAGGCGTTCAATTGAATCAACGTGCTATTTTACAAAATATACATTGTGTACTTGGAGAAGGGAAATGGATATCCGTTATTGGGCAAACAGGAGCAGGAAAGCCTACGTTTATTCAGGCTCTAAAAGGTTTGGTTCCTCTAGACTATGGAGAGTATTTTATTAACGGGCAACCTGCACCGAAAGATAAACATGGAAAAGCCAAAGTGGTTAGCCATATAGGGTTTGTTTTCCAATATCCAGAGCATCAGTTGTTTGAAACTACGGTCTATAAAGAATTATCTTTTGAATTAAAGCAGATGAATATGTCCAAAAAAAGAATAGAAATGACGATTATCCATACGTTATCACAATTAGGTTTGTCGAAAGAGATTTTGCCACTTGCGACATTTCAATTAAGTGGCGGTCAGAAAAGATTAGTGGCATTAGCTTCCGTCCTCGTAACCAACCCAAAGACGCTCATCTTAGACGAGCCAACAGCTGGATTAGACCCATATATGCGGAAGCATTTATTAAACTACTTAAAAAGCTGGCAACAAGAAGATAATCGTACTGTTATTATTGTCTCTCATCAAATGGATGATGTAGCTGAATATTCGGATGAGGCGCTAATACTTGGTGATGGTAAATTAATCGGTCATTTTGAAACAGAAACTTTATTTTTAGAAAAATCATTATTACTAGAAAAAGCAGGACTTATTCTTCCAAAAACGATTCAACTTTTACAAATAATTAGACAATTATCTGGGGAGTCAGTGCTTGTGGATGGATGCAAGGAAGCGGATATTTTCCAAGCAACTATTCCTATCTTGCATAAAAGGGGGTTACATCAATGA MAYQFKNVGVQLNQRAILQNIHCVLGEGKWISVIGQTGAGKPTFIQALKGLVPLDYGEYFINGQPAPKDKHGKAKVVSHIGFVFQYPEHQLFETTVYKELSFELKQMNMSKKRIEMTIIHTLSQLGLSKEILPLATFQLSGGQKRLVALASVLVTNPKTLILDEPTAGLDPYMRKHLLNYLKSWQQEDNRTVIIVSHQMDDVAEYSDEALILGDGKLIGHFETETLFLEKSLLLEKAGLILPKTIQLLQIIRQLSGESVLVDGCKEADIFQATIPILHKRGLHQ NA NA NA NA NA AK015_02536 810 ecfA1_2 COG1122 Energy-coupling factor transporter ATP-binding protein EcfA1 ATGCTTATATTCGATCAAGTTCATTTTCATTATAAGAAAGATCAACCAGTTGTAAAAAACATAAACTTTGTCATTCAAAAAGGAGAATTTATATCTATTGTTGGTAAAAATGGATGTGGAAAATCAACTATTGCTAAATTAATGAATGGTTTGTTGCTACCAAAAGAAGGAGAAATATTTTTTGATAATCTTGTTACAACCAATCCAGTTGAGCGAACCATTATTCAGAAACAAATGGGATACATATTTCAAAACCCTGAAGATCAATTTATTACAACAAGTGTGATAGATGAAGTTATCTTTGGGCTTGAAAACATCGGTATTTCAAAAGAAGAAATGGAAATTAGATTAAAAGAATCTTTGTTACTTGTTGACATGGAAAAGTATGCACATGAACAACCGCATAGTCTTCCAGGGGGGCAGAAGCAACGAGTCGCTATTGCAGCAATATTAGCTATGCGTCCTAAGTTAATTATATTTGATGAAGCAACTTCTATGCTTGATCCACAAGGAAGACAACAAATGATGTCTTTAATACATAAGATTCATAAACAAGGGGTTACTATTGTACACATCACTCATCATATGGACGAGGCCATAGAGGCAGAGCGGATTTTACTTATTCATGAAGGTGTAATTGAATACGACGGCCCATCATTGCAATTATTTGAAACATTTTCTGTTGAAAAATATAGTTTACGCTTGCCGTTTGCAATCCGTTTTCAGCAAAAACTTAACGCTAATACAAAAATAACGAAGGATTGGAAAGGGATGATTTATTCTAAATGGCGTACCAATTCAAAAATGTAG MLIFDQVHFHYKKDQPVVKNINFVIQKGEFISIVGKNGCGKSTIAKLMNGLLLPKEGEIFFDNLVTTNPVERTIIQKQMGYIFQNPEDQFITTSVIDEVIFGLENIGISKEEMEIRLKESLLLVDMEKYAHEQPHSLPGGQKQRVAIAAILAMRPKLIIFDEATSMLDPQGRQQMMSLIHKIHKQGVTIVHITHHMDEAIEAERILLIHEGVIEYDGPSLQLFETFSVEKYSLRLPFAIRFQQKLNANTKITKDWKGMIYSKWRTNSKM NA NA NA NA NA AK015_02537 351 hypothetical protein GTGTTTCAACTGAAGTTAAAAGTAACAAGTAAGGAAGTAAAAGCCTATGCAGCTGTTTCAAAAGACCAATCGAGGATACATTTAGAAGAAGAGGAAGCAAAAATTTTAGGGTTTAAACAACCAGTTATACATGGCATGTATATAATGGGGCGTGTGCAGTCGGCATATATAATAAAATATCCATCTAAGTGGTTGGTGGATTATTACATGAAATTTTATCGACCGATATATGTAGATACAGTGATAGATATTGAATTTTCTGAGAGGAAACAATTTATACAGGCGGTTGTCCTGCTTGAAGATGGTTCAATTGCAGCTAAAGGATATCTAGTAACAGAGGATTTACGCTAA MFQLKLKVTSKEVKAYAAVSKDQSRIHLEEEEAKILGFKQPVIHGMYIMGRVQSAYIIKYPSKWLVDYYMKFYRPIYVDTVIDIEFSERKQFIQAVVLLEDGSIAAKGYLVTEDLR PGPT0014741_1212 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_RELATED_GENES CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014741-phaJ|croR-K17865 NA NA AK015_02538 381 hypothetical protein ATGCGATATAGACAGCAAATTAAACTGACAAATGCTTGGATAAAAAGGTATGCGCGAAGTATTGGAGCGCCATTGCAACAAAAGAATAATGCCTTTATTGCGCCATCGACGATGCCAGCTATATTTTGGCAGTGTTTTCCAAATCCACCTCTTCATAATTGTGTTGTGATACATGGAAGTCAACAATTTATATATAGTAAGCCTTTAGTTTCTGGTATGGTACTTGATTGTGAATTAACTCTTGTAAAAAGAAAAAAGCTAGATACGTATACATTTTTTGTATTCGAGCTAACCTGCAAATATAATAATTGTATTTGCGTAGTTTCTACAATAACTTTAAAACAGGTGGGTGTTTCAACTGAAGTTAAAAGTAACAAGTAA MRYRQQIKLTNAWIKRYARSIGAPLQQKNNAFIAPSTMPAIFWQCFPNPPLHNCVVIHGSQQFIYSKPLVSGMVLDCELTLVKRKKLDTYTFFVFELTCKYNNCICVVSTITLKQVGVSTEVKSNK NA NA NA NA NA AK015_02539 1164 thlA_2 COG0183 Acetyl-CoA acetyltransferase TTGAAAGAATGTGTAATTGTGATGGCTAAGCGCACTCCTATAGGCAAGAAGGGAGGAATATTACGTTCATTCGAACCAGAAAAACTTGTTTCTCCGCTTATTAAACAAATTGTCAAAGAAACAAATATAAACAGTCATGATATTGATGATGTAATTATTGGAAATGTAGTTGGACCTGGGGGCAATATTGCGCGTTTGTCAGCACTGGAAGCTGAACTCCCTGTTACTGTGCCAGGGGTTACAATTGACAGGCAATGTGGTTCAGGATTAGAGGCCATTCATTTAGCTGCTAGATTGATTCAAAGTGGGGCAGGCGATATCTATTTAGCTGGAGGTGTAGATAGTACAAGCCGTGCTCCTTGGAAAATGTTTAAACCTAATTCTTTGATGGAGGAACCAGAGATTTATAGTCGTGCACCTTTCACACCAAAATCTTATGGAGATCCAGAGATGGGAATTGCTGCTGAACACGTTGCGCAAAAGTATGGAATTACAAGAGAGGAACAAGATTATTTTGCACTACAAAGTCATCACAAAGCTGTGCATTCACAAAAAACGAATCGATTTAAATCAGAAATTGTTCCTATGTCTGTTGGAAACAAGCAACTAGATAAGGATGAGTGTCCCAGAAACAATTCAAGTTTGGAAGAATTATTAAAGCGCCTCCCCCCTGTCTTTTCTAGAGATGGATCGGTAACAGCAGGAAATAGTTGTCCTATTAACGATGGTGCTGCAATAGCTTTGTTAATGTCTTATGAGAAGGCGAAAGCTCTTGGCGTAAAACCGCTTTTGCGATTTATTGATGCTAAAGCGTCTGGGGTAGACCCAAATCTGTTAGGTATTGGACCAATACCTGCTGTTCAACAATTGCTTAAACGCCAACATCTTCGTATTGACGATATTGATCTTGTAGAATTTAATGAAGCTTTTGCTGCTCAAGCGTTAGCGTGTATTAAAAAACTGAAGATCGATATGCAAAAAGTTAATATAGGTGGAGGTGCATTAGCCATTGGACATCCATATGGCGCTTCAGGAGCTATTTTAATAACGCGATTATGTGCAGAAATGCAAATAAACCCGTTTAACAAAGGGATTGCTACACTTGGAATTGGTGGAGGGATAGGGCTAGCTGTATTGGTTGAAGGTGTAAATTATGCGATATAG MKECVIVMAKRTPIGKKGGILRSFEPEKLVSPLIKQIVKETNINSHDIDDVIIGNVVGPGGNIARLSALEAELPVTVPGVTIDRQCGSGLEAIHLAARLIQSGAGDIYLAGGVDSTSRAPWKMFKPNSLMEEPEIYSRAPFTPKSYGDPEMGIAAEHVAQKYGITREEQDYFALQSHHKAVHSQKTNRFKSEIVPMSVGNKQLDKDECPRNNSSLEELLKRLPPVFSRDGSVTAGNSCPINDGAAIALLMSYEKAKALGVKPLLRFIDAKASGVDPNLLGIGPIPAVQQLLKRQHLRIDDIDLVEFNEAFAAQALACIKKLKIDMQKVNIGGGALAIGHPYGASGAILITRLCAEMQINPFNKGIATLGIGGGIGLAVLVEGVNYAI PGPT0008320_12694 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626 NA NA AK015_02540 1482 yhfT COG0318 putative acyl--CoA ligase YhfT ATGCATTTAATAGAAGCAATAATAGGGCATGCAAAGTGTTTACCAAATGAGATTGCTTTATATGATGGGGAACGAGAAATAACTTATTGCAAATTAGTACAGAGAATGAAAAAAGTTGCTGGTGCCTTACAAAATAGGGGTTACCATAGTGGAGATAAAATTGGCATTATATCAAAAAATCGTTTTGCGTTTGTGGAAATTTTTCTAGGCGCAGTATATGCAGGGTGCATTCCAGTTGTTTTAGATCCCAAATGGGGCAAACAGCAAACTTTGCTTGTAATTGAAAAATATCAGCCCATAGTTATATTTGAATTTGATGCATTGTTTAACGTAGTTTCTAGCTCCAATACCTATCCAAAAGTATTTTCTTTTTCAAATAATAGTTTAATAAATTATGAAGATTGGGTTGAGAAGCACAGTGAAACGGTTGAAATGAAAAAAGGAAATGAGTTATTGTTTATTGGTTTCACATCTGGAACAACAGGTATACCAAAAGGGTATCTACGTAGTCACAAATCTTGGATTAATAGCTTTCTAACTACATTAAAATCATTTCAGCTAAATAATATGAAACATGTAATAGCTCCAGGGTCTTTTGCACAGTCATTGTCATTATTCTCGCTTTTGCAAAGTTTATATTTTGGTGGAACTTTTCATATTATGAAAGCATTTAGTATGAAAGATTTTCAAAGACATTGCCACTTCGGCTCCGAGTTGGTTTTGTTTGTTGTTCCAACCATGGTTAATGCGATGTTGCATAATAAAGAGTACGATAAAGCAAATATTCAAGCTATTATTGTTTCTGGAGATAAACTTTCGGAAGAGATGAAACGACAGGTGAAACAATCGTTCCCATATACTAAAATATATGAATTTTATGGCTCATCAGAAGCAAGCTATATCAGTTACTTAAATATATATGAAGAAGATAGGCCTAATTCAGTAGGAAGGCCATTTTCTGGAGTTGTTGTGACCATTAGAGACGAGCATTTTGAAAAGGTAAGTGTTGGAAGAACGGGGCAATTATGTGTAAGAAGTGAGCTAATGTTTACAGGATATTATCAATCAGAGACAACATCTGCTATTTTCAGAGAAGGATGGCTTGTTACAGGCGACAATGCATATATGGACGAAGAAGGTTATTTATATATAGTAGGTCGTCAGAAAAATAGAATTATTTCTGGGGGAATGAATATATACCCAGAGCAAGTGGAAACAGTGCTTAAAAAATTAGCTAACATAGATGAAGTAATGGTTACAGGAGTTGCAGACAAATATTGGGGGGAACAAGTGGTAGCAGTTATAAAGTGGAAAAACCAGAGGCTTTTATTAGATGAAACTATTAAAAAACATTGTCTGAACCATCTCCCTTCTTACATGGTTCCCAAACAGTACATTGCTGTAGACAAATTTATTTATACAAGTAGTGGAAAGATTGCTCGCCAAAAAATGAATGAAATGATGAAGGGGGAGATCGTTTGA MHLIEAIIGHAKCLPNEIALYDGEREITYCKLVQRMKKVAGALQNRGYHSGDKIGIISKNRFAFVEIFLGAVYAGCIPVVLDPKWGKQQTLLVIEKYQPIVIFEFDALFNVVSSSNTYPKVFSFSNNSLINYEDWVEKHSETVEMKKGNELLFIGFTSGTTGIPKGYLRSHKSWINSFLTTLKSFQLNNMKHVIAPGSFAQSLSLFSLLQSLYFGGTFHIMKAFSMKDFQRHCHFGSELVLFVVPTMVNAMLHNKEYDKANIQAIIVSGDKLSEEMKRQVKQSFPYTKIYEFYGSSEASYISYLNIYEEDRPNSVGRPFSGVVVTIRDEHFEKVSVGRTGQLCVRSELMFTGYYQSETTSAIFREGWLVTGDNAYMDEEGYLYIVGRQKNRIISGGMNIYPEQVETVLKKLANIDEVMVTGVADKYWGEQVVAVIKWKNQRLLLDETIKKHCLNHLPSYMVPKQYIAVDKFIYTSSGKIARQKMNEMMKGEIV PGPT0008380_15304 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897 NA NA AK015_02541 555 bioY_2 COG1268 Biotin transporter BioY ATGAGTATTAAAGAAATAGTTTACGCTGCCTTATTTGCTGCTATTGTTGGTGTTTTAGGTATGATTCCCGCAATTCCATTGGGGTTCATCCCTGTTCCTATTACGGCACAGACACTCGGAGTAATGTTGGCAGGATGTTTTTTAGGCAAAAAAACAGGATTTCTCAGTATGGCTTTATTTATCATTTTGGTTGCATTAGGCTTACCAATATTAAGTGGAGGAAGAGGAGGGGTGGCTGTATTTGCTGGCACATCTGCAGGATATATTCTTAGCTGGCCTATTGCTGCTTTTTTAATTGGATATGCGGTAGAAAAAGTTTGGTCTAAAGCGTCTATATGGAAGATAAGCATAATTAATACTATTTTTGGTGTTCTGCTCGTTAGTTTAATAGGTGCTCCTGTAATGGCTATTATGACCAATACTTCTATTTGGATTGGTTTAATAGGTGCCATTTCTTTTTTTCCTGGGGATATCTTAAAAGCAATCATTGCAGCTTTTATTGCGTATCAGTTAAAGCCAATTAGCCTCATTGAGGAGAAACATCAAAATTCTTAA MSIKEIVYAALFAAIVGVLGMIPAIPLGFIPVPITAQTLGVMLAGCFLGKKTGFLSMALFIILVALGLPILSGGRGGVAVFAGTSAGYILSWPIAAFLIGYAVEKVWSKASIWKISIINTIFGVLLVSLIGAPVMAIMTNTSIWIGLIGAISFFPGDILKAIIAAFIAYQLKPISLIEEKHQNS PGPT0022050_2033 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523 NA NA AK015_02542 1179 malY COG1168 Protein MalY ATGAAAAAACAATTTGATAGAATAATTAAGAGAAGAGGAACCTATTGTACACAATGGGATTATACTGTCGATCGGTTTGGAGAAAAGGATATTTTGCCTTTTTCTATATCTGATATGGATTTTCAATCTCCTTTTGAAATAAGAAAACGATTAACTGACTGGACTGAGCATGGTGTTTTTGGATATACAAGATGGAATAATGATGACTACAAAAATGCAATTCTAACATGGTATAAAAAAAGACATAATACTAGTATCCATAGTGAATGGATTGCTTACAGTCCCAGTGTGATTTATTCCATTTCACAACTTATAGCACTTTTAACAGATAAAGGGGATGCAATTGTAATGCAGACGCCCGCATATGATGCTTTTTTCAAAACAATAGCATTATCTAACAGAAGACTGTTAAAGAACTCTCTAATATATAAAAATGGATACTATGTGATAAATTGGATAGATTTAGAAGAGAAACTTGCAAAATCTAAAGTAAAATTACTTTTACTTTGTAACCCTCATAATCCAACTGGTAGAGTTTGGAGAAAAGAAGAGTTAATAAAAATAGTAGCACTATGCAATTATTATGGTGTTAAAATAATTTCTGACGACATCCATATGGATATTATTTATGGGAAAAATAAATATATTCCAATTGTTAATGTTGCTTCAGAACTAGATAATGTATTTATATGTACATCTAGTAGTAAAACATTTAATACTCCAAGTTTAGGAGGTTCCTACATTATCATTCCAGATCATAAAGTGAGAGATAAGTATTTGTCATCAATGAAGAATAGGGATGGGGTAGGAAGTGCTTCAGTTTTTGGTATGATTGCTTTAATGGAAGGATATAACCATGCTGCATATTGGGTTGATAGCTTACGTGAATATTTATACGAAAATATGGAAATAGTATATGACTTTATAAAAAAAGAGATTCCATCATTACAATTTACCATACCACAATCTACGTACTTAGCTTGGATCGATGCTAGCCAACTGAATATGAGTAGTACGGTGGTCCAAGAATATTTGGTTCAGGTAGGAAAGGTGGGTATTATGTCTGGTGACGTATATGGAGCTAAAGGGAATTTTCTTAGAATGAATGTAGGCTGTCCTAAAGAGAAATTATATAATGGGCTAGATAGGTTAAAGATTTCGGTGAATCGTTTGTTATAG MKKQFDRIIKRRGTYCTQWDYTVDRFGEKDILPFSISDMDFQSPFEIRKRLTDWTEHGVFGYTRWNNDDYKNAILTWYKKRHNTSIHSEWIAYSPSVIYSISQLIALLTDKGDAIVMQTPAYDAFFKTIALSNRRLLKNSLIYKNGYYVINWIDLEEKLAKSKVKLLLLCNPHNPTGRVWRKEELIKIVALCNYYGVKIISDDIHMDIIYGKNKYIPIVNVASELDNVFICTSSSKTFNTPSLGGSYIIIPDHKVRDKYLSSMKNRDGVGSASVFGMIALMEGYNHAAYWVDSLREYLYENMEIVYDFIKKEIPSLQFTIPQSTYLAWIDASQLNMSSTVVQEYLVQVGKVGIMSGDVYGAKGNFLRMNVGCPKEKLYNGLDRLKISVNRLL PGPT0001990_1206 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 AK015_02543 1011 fruA_1 COG1299 PTS system fructose-specific EIIB'BC component TTGAACAATATAAAAAAGCATTTAATGACCGGTGTTTCTTATATGATACCTATTGTAGTTGCAGGAGGGATATTATTATCTTTAGGCGTCATTATTGGAGAAGAAACTGCTATTGGTGAACAATTGGTTAATTATGGTGTATGGACTTTAGGACTAATGGTTCCTATGATTGCTGGCTATATTTCTTATTCCATTGCTGATCGGCCTGGTATTGCTGTCGGTTTAGCAAGTGGTGTTTTTGCTAGTGAACTAGGAACTGGATATATAGGTGGGATTTTAGTTGGTTTTTTTGCAGGATGGATAACGAATCAATTAAAAAGAATACCAATGCATCATCACATAGCAATGATAAAACCAATAATGGTCATTCCATTGTTAGGGATTGGAGCTTCAGCACTCTTCATGTATATTCTTTCTATCCCTTTAACACCTGCTATGGAAGGTTTAGAAAAGTGGCTTGTATCGTTAGAAGGAAGCAATTTACTATTCCTTGGCTTCGTTATAGCTGCTATGATGGCTTTTGATATGGGGGGGCCAGTAAATAAAATTGCTTTGGCGTTTGCTTATGCAACTTTAACAGAAGGCATATATGCTCCAATGGCGGCATGTTGGATAGGGATAATGGCGGCGCCACTCGGCTTAGGGTTAGCTACCGTGATTTTTCCTAAGAAGTTTTCAAAGTCTGAAAAGGGGAATTCGGTACCGGCTATAATTATGGGGTCTCTGGGCATTACAGAGGGAGCAATTCCATATGCGGTGGCGACTCCTTTAAAAGTTATACCTGTTATTACCCTAGCATCAGGTATAGGTGGAGGAATTGCATTGGTATTAGGAGCAAAAGCACCAATCCCTGCTGCCATTGGAATTTGGGGACTGCCTTTTGTGCAAAAGCCGATTATGTTGTTAATAGGGCTAATTATTGCCATTAGTATAATTGCTTTATTAGTAGGACTAATTAGAAAAGAAAGTGATGTAAATGAAGAAGAAGCAGGACAAGTGTTGTTTGAATAG MNNIKKHLMTGVSYMIPIVVAGGILLSLGVIIGEETAIGEQLVNYGVWTLGLMVPMIAGYISYSIADRPGIAVGLASGVFASELGTGYIGGILVGFFAGWITNQLKRIPMHHHIAMIKPIMVIPLLGIGASALFMYILSIPLTPAMEGLEKWLVSLEGSNLLFLGFVIAAMMAFDMGGPVNKIALAFAYATLTEGIYAPMAACWIGIMAAPLGLGLATVIFPKKFSKSEKGNSVPAIIMGSLGITEGAIPYAVATPLKVIPVITLASGIGGGIALVLGAKAPIPAAIGIWGLPFVQKPIMLLIGLIIAISIIALLVGLIRKESDVNEEEAGQVLFE PGPT0017120_2940 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 AK015_02544 309 manP_3 COG1299 PTS system mannose-specific EIIBCA component GTGAATATATTAGCAGTTACAGCTTGCCCAGCAGGAGTTGCTCATACGTATATGGCGAAGAAGGCACTTGAAAAGGCGGGGAAAGAAAAAGGTTACAAGATAAAAGTGGAAACACAAGGTTCTATGGGGATAGAAAATGAATTAAAAGAAAAGGAAATTAATAAAGCGGATGTTGTTATTATTGCTGCTGATACTAAAATTGAAAAATCTAATCGTTTTATAGATAAAAAAATATATGAAACCTCTGTATCTTCAGCAGTGAAAAATGCTGCTAAAGTCATTGAAAGCTCAATAAAAGAATTAGCTTAA MNILAVTACPAGVAHTYMAKKALEKAGKEKGYKIKVETQGSMGIENELKEKEINKADVVIIAADTKIEKSNRFIDKKIYETSVSSAVKNAAKVIESSIKELA PGPT0017125_279 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017125-fruAb-K02769 NA NA AK015_02545 462 fruA_2 COG1299 PTS system fructose-specific EIIABC component ATGAAGAACACAGAGTTAATAAACGAAGAACTGATTGAAATTGAGAGTAATGCAACAACGAAAGAAGAGGCCTTATTTGAAGTGGCGACAATTGCTTATAATGCAGGAAGAGTTACTAATAAGGAGTTCTATTATACTTGTTTATTAGATAGGGAAAGAGAATCTACGACTGGTTTTGGTAACGGTTTCGCTATACCTCATGCAAAAGAAGATATAGTAAAAGAGCCAACGATTATTGTAGTTCGTTTAAATAATGAAGTTAGTTGGAACTCTCTTGATAATAAACCTGTAAAAATGTTAGTTGCATTAGCAATACCCGAAAAGTATAAAGGAATTACGCATTTAAAGTTATTAGCAAATCTTTCAGAAAACCTACTGGAAGAAGAATTTAGAAAGCAATTATTATATGCAACAAATAAAGAAGGTTTATGTGTAACGATAAAAAAAATTATGGAGGGATAA MKNTELINEELIEIESNATTKEEALFEVATIAYNAGRVTNKEFYYTCLLDRERESTTGFGNGFAIPHAKEDIVKEPTIIVVRLNNEVSWNSLDNKPVKMLVALAIPEKYKGITHLKLLANLSENLLEEEFRKQLLYATNKEGLCVTIKKIMEG PGPT0017130_284 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017130-fruB-K02768 NA NA AK015_02546 1980 licR_4 COG1762 putative licABCH operon regulator GTGCCTTTACACATAAATAAACGGATGAAAAGAATATTAATTTGCTTTTTAAATGCGGATGGCTATCTTACTAGTTCTTATTTAGCAGGTCAGGTTGAATGTTCGGAAAAAACAGTGAGAGGAGATATAAAAAAAATAAATTCAGAACTATCAAACTTAAACGCGAGAATTATATCTAAAAAGGGGAGTGGTTATCAGTTTGTATGTGAAAATACAGATGAGTTAAGTAAAAAAGTAGCCAACTGTATAGATGGAAATCTTTATAATGACGAACTAAAAAACCCAGTTACACCTGAAGATAGAATTCGATTTATTGTTAAGAGATTATTGTACACAAGTAACTGTGTAACTATTGCTGATTTTTCTAAGGAATTATATGTAAGTGAATCTACCATTAAGAATGATATGAGACATGTAAAAGAAGTGTTTAATAAATATAATATAAGAATTAGCAAAGGGGCAACAGGTTTATATGCCACAGGGCATGAAATAAATAAAAGGTTTTGTATAGCGGATTTTTTGTTTCAAAAATCCGAGATTGATGAACAAGTAATTATTAACTATATGTATAATGAAAACGTGTCAAGTAATAAATTAGTTAAAGATATAAAGAAAATCATATTAGACATCTTGACAAAAGAAAATATGACAATATCGGATTACACTTTGAAAAAAATTGCTATTCATATAGTGATTGCTATTAACAGAATTAAAAATGGTCAATATATAGAGTTTTGTTCTAAAAGGTTACATCAACTTACAAATGAAGAAGAATTTAAAACAGCAAAAAAAATAATTGCCTTCATTAGTAAAAGATATAATATGTTTTTCTTTTCCCCTGAAGAAATAGCTTATATAACAATGCACCTTATTGGAAATAGAATAACCAAAAAGAACCAAATCACCTCAGATTTAGATGGATTAATAAGTGATGAAATTCACAAATTATCAATTTTAGTAATTGAAGAAGTAAACAATAATATAAAGGGATTAGATTTAATAAAAGATAAGGAACTTATTTACAGCTTGGCAATACATTTAAAACAATTGTTAAACAGGTTAGATTTTCAAATGAATAGTAGTAATCCATCATTAAATACGATAAAGATTAAATATCCATTAGCGTTTGAAGCGGGAGTTTTAGCTGCGAAAAGAATTATGAAAGAAACTAATTTCAAAGTTAGTGACAATGAAATAGGTTTTTTGGCAATGCATTTTGGTGCTGCTATTGAAAAACAGAGGTATCAACAACTTATAAAAAGAAAAAAGATAGCTTTAGTATGTGCTTCTGGAACGGCTACTTCTACCTTATTATTAAGCAAGTTATCTAGTGTTTTAGAGCCAAATTATCGTTTAATGGGGGTTTATTCTTTTCATCAAATTGACGAATTACTAGCTCAAGAGCCAGATATAATATTGACAACGGTCCCATTATCGGAAAATATAAGTATCCCTGTGATTACAATTTCAAGCATTTTAGGGGATGAGGATCTTCACATTCTACAAAAAGACTTAAATAATTATCATAAAGGTGAAAAAACATTAAAACAACTTATGAAGAAAGATCTATTTTTTTACGACTTAAACATAAATAATAAGGAAGAATTACTTCACTATTTAACAAAAGAAATGATAGGAGCTGGATATATAACTCATAAGGTAAGAGATTCTATATTATTAAGGGAAAGCTTAGCTTCGACTGCTATAGGAAATAAAGTAGCTATTCCTCATCCTATTAATATTGAAGTAAATAAATCTTGTATTTGTACCGCAATATTAAACAACAAAATGAATTGGGATAAAGATGAAAAAGTAGTAATAGTTTTTATTATTGTATTAGAGAGTAAATATGCACCATATTTCCAAGACATTTTTTCTGAATTATATAGTATAACAAGTTCTTACGATAGCATAGCAGACTTACGGACAAAAAATAATTTTGATGACTTTATAAATGAAATTACAGCAAAGTTGGGATGA MPLHINKRMKRILICFLNADGYLTSSYLAGQVECSEKTVRGDIKKINSELSNLNARIISKKGSGYQFVCENTDELSKKVANCIDGNLYNDELKNPVTPEDRIRFIVKRLLYTSNCVTIADFSKELYVSESTIKNDMRHVKEVFNKYNIRISKGATGLYATGHEINKRFCIADFLFQKSEIDEQVIINYMYNENVSSNKLVKDIKKIILDILTKENMTISDYTLKKIAIHIVIAINRIKNGQYIEFCSKRLHQLTNEEEFKTAKKIIAFISKRYNMFFFSPEEIAYITMHLIGNRITKKNQITSDLDGLISDEIHKLSILVIEEVNNNIKGLDLIKDKELIYSLAIHLKQLLNRLDFQMNSSNPSLNTIKIKYPLAFEAGVLAAKRIMKETNFKVSDNEIGFLAMHFGAAIEKQRYQQLIKRKKIALVCASGTATSTLLLSKLSSVLEPNYRLMGVYSFHQIDELLAQEPDIILTTVPLSENISIPVITISSILGDEDLHILQKDLNNYHKGEKTLKQLMKKDLFFYDLNINNKEELLHYLTKEMIGAGYITHKVRDSILLRESLASTAIGNKVAIPHPINIEVNKSCICTAILNNKMNWDKDEKVVIVFIIVLESKYAPYFQDIFSELYSITSSYDSIADLRTKNNFDDFINEITAKLG PGPT0019430_99 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019430-licR-K03491 NA NA AK015_02547 666 tal_2 COG0176 Transaldolase ATGAAGTTGTTAATTGATTCAGCAAATATAGAGCACATAAAGCAGATAAACCATGACTATCCAGTTGATGGTGTAACTACGAATCCTACGCTTATAGCTAAAGAAAATCGGGATTTCTACCAGTTAATCAAAGAAATCAGAACAGTAATTGGTGAAAGCAAATTATTATTTGTGCAAACTGTCTCTGAAGCTACAGACGCGATTGTTCAGGAAGCGCTTGAAATTTGGAAGGCCTTAGATAAGAATGTTGTTATTAAAATTCCTGTGACAGTAGAAGGTATAAAAGCCATAAAAGAGTTGAAAAAACAAGGAATAAAAACATTAGCAACGACTGTGTACACGCCAATGAATGCGTTTGTTGCAGCAAAAGCTGGTGCTGATTATGTAGCTCCCTATGTTAACAGAATTGAGAATTTGAATGGGAAGGGAACAGAAGTTGTTCAAGAGATCAAACAGATTTTCACAAATGCGAGCTTTACTTGTGAGATAATAAGTGCGAGTTTTAAAAATGTGCAACAAATAAAGGAAGTTTGTCTTTCTGGTTCAGACGTTATAACAGTGCCCCCTACGTTAATTAACCAATTTTTACAAGTTTCATCGATAAAAGAAGATGTAGAACGTTTTAAATTAGATTGGCAAAAAAGTATACAAGGGAAAGAAGGGTAA MKLLIDSANIEHIKQINHDYPVDGVTTNPTLIAKENRDFYQLIKEIRTVIGESKLLFVQTVSEATDAIVQEALEIWKALDKNVVIKIPVTVEGIKAIKELKKQGIKTLATTVYTPMNAFVAAKAGADYVAPYVNRIENLNGKGTEVVQEIKQIFTNASFTCEIISASFKNVQQIKEVCLSGSDVITVPPTLINQFLQVSSIKEDVERFKLDWQKSIQGKEG PGPT0017650_52 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017650-fsaB|talC-K08314 NA NA AK015_02548 366 srlB COG3731 PTS system glucitol/sorbitol-specific EIIA component GTGATTTTGAAATATAAAACATCTGTAGATAGAGTAGGGGATTATGCAACAACATTTTTAGAAGAGAAAATGCTTATTTTGTTTGGTAAAGATGCCCCTGCTGAGCTAGAAGAGTACTGTGTTTCCATTGTAATGAATGATGTACAAGGTAGTATAAAGGTTGGTGACATTTTACAATTAAAAGATAGAGAATACCGCATTACTGCTATTGGTGATGCCGTTGAGAATAATTTGGCTACACTTGGTCATATTACATTAAAATTCGATAGCTCCGCGTTACCTGAATTGCCTGGTACGCTATACCTTGAAGACCAGCCAATTTCACAGTTGGATACTGGGGATGAAATTAAAATATATGAGCGTTAA MILKYKTSVDRVGDYATTFLEEKMLILFGKDAPAELEEYCVSIVMNDVQGSIKVGDILQLKDREYRITAIGDAVENNLATLGHITLKFDSSALPELPGTLYLEDQPISQLDTGDEIKIYER PGPT0017080_262 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_SORBITOL_PTS_SYSTEM,PGPT0017080-srlB-K02781 NA NA AK015_02549 1002 srlE COG3732 PTS system glucitol/sorbitol-specific EIIB component GTGTCCAAATATCATTCTATTAAAATAATGAGAGGATCAAACGGTTTTGGTGGGCCATTATGGATTACTCCGACTGATGAGAAAAATAAAGTGGTCTACATAACTGGAGGAGAAAAACCTGATATTGCTGATCAGATTGCTGAGTTAACAGGCTGTGAATTAGTAAATGGATTCAAAACCACTGTTCCAGAATCAGAAATTGCTTGTGTCATCATTGATTGTGGTGGGACATTACGCTGTGGTTTGTATCCACAAAAAAGAATACCTACTATTAATATCATGTCTACGGGTAAAAGTGGTCCATTAGCAAAACACATTACTGAAGACATCTATGTTTCTGGAGTAAAAAAGGAAAATATTCAGCTTGCTGAGAAAGTATACGTGCAGGAAGAGATGGAATCAGACCACGTATCAAAAGGAAGATATAATTATTCTGCTGATAAAAAAATAAGTGAACAACAAAAGCCAAAAGGTCTGATGGCGAAAATAGGAATTACTATGGGAAATATTGTAACCGTTTTTTACCAAGCTGGAAGAGATGCTATTGATACGGTTATAAAAACGATATTACCCTTTATGGCATTTGTGTCCATGTTAATTGGGCTTATCATTGAGTCAGGTATTGGTGACTTGTTTGCTAAATTTCTATCTCCTTTTGCAGGTTCAATATGGGGATTAATGATTATAGCGCTCATTTGTTCTTTCCCATTACTATCGCCATTTTTAGGCCCTGGAGCAGTTATTGCCCAAGTTGTGGGGACGTTAATTGGTGTTGAAATTGGAAAAGGAAATATACCTCCAAACCTTGCTTTGCCAGCTTTATTTGCGATTAACTCTCAAGCTTCAGCAGATTTTGTGCCTGTTGGTCTTGGACTAGCAGAAGCTGAACCAGAAACAGTGGAAGTAGGTGTTCCATCAGTATTATATGGGAGATTTTTAACTGGAGCTCCAACCGTATTTATTGCGTGGTTAGCTAGTTTTGGGTTGTATGATGGATCGTAA MSKYHSIKIMRGSNGFGGPLWITPTDEKNKVVYITGGEKPDIADQIAELTGCELVNGFKTTVPESEIACVIIDCGGTLRCGLYPQKRIPTINIMSTGKSGPLAKHITEDIYVSGVKKENIQLAEKVYVQEEMESDHVSKGRYNYSADKKISEQQKPKGLMAKIGITMGNIVTVFYQAGRDAIDTVIKTILPFMAFVSMLIGLIIESGIGDLFAKFLSPFAGSIWGLMIIALICSFPLLSPFLGPGAVIAQVVGTLIGVEIGKGNIPPNLALPALFAINSQASADFVPVGLGLAEAEPETVEVGVPSVLYGRFLTGAPTVFIAWLASFGLYDGS PGPT0017085_203 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_SORBITOL_PTS_SYSTEM,PGPT0017085-srlE-K02782 NA NA AK015_02550 546 srlA COG3730 PTS system glucitol/sorbitol-specific EIIC component ATGGATATAATGATTACAGGTGCCGAAAAATTCATGGATTTTTTTCGCCACGGAGGGGATGTATTTGTCGGTCTTATTACAGATATCGTGCCACTTTTAATTATGTTATTAGTTGCGATGAATTCTCTTGTTCAATTAGTAGGAGAAAAAAGAGTAGAAAAATTAGCAAAAAAATCAGGTAAAAATCCGTTTACGAGGTACTTTATATTACCAGTAATTGGGACATTCGTGCTTGCTAATCCAATGACACTTTCTTTAGGAAGGTTCTTGCCAGAAAAGCATAAGCCGAGTTATTATGCAGCAGCTTCTTTTTCATGTCATACGCATAACGGTCTATTTCCGCATGTTAACCCGGGAGAACTGTTCGTATTCTTAGGTGTAGCTGCAGGTATCACTACATTAGGTTATGATACAGCAGAACTAGCTTTACGTTATTTTCTCGTCGGTATTGTTACTAACTTTTTTAGAGGGTGGATTACAGATTATATGACCTCATATGTTTCAAAACAGCAAAATGTAAAATTAAAAGAGTCGGTTGAAATATAG MDIMITGAEKFMDFFRHGGDVFVGLITDIVPLLIMLLVAMNSLVQLVGEKRVEKLAKKSGKNPFTRYFILPVIGTFVLANPMTLSLGRFLPEKHKPSYYAAASFSCHTHNGLFPHVNPGELFVFLGVAAGITTLGYDTAELALRYFLVGIVTNFFRGWITDYMTSYVSKQQNVKLKESVEI PGPT0017075_287 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_SORBITOL_PTS_SYSTEM,PGPT0017075-srlA-K02783 NA NA AK015_02551 426 hypothetical protein GTGTTTTGGTACCTAATTATTCTAATTGGTGTAGCTTGGTTGGTACAGAGTATATTTGGTTTCTTACAAATTAGGCATTTTAATAGACATTATGCTGCATTAAGATCATTAGGTAGAGTAGCTATAGGAAAGCGTACTGGGCTATTCCGTGCTGGTACAGTTGTTATGTTTTCAATAGATAAACAAGATAGAATTATAAAAGCAAAAAGAATGCAAGGGGTTACGGTATTATCAAGGGTTAAAGACATGACTGGTTTTGCTGGAAAGAAATTACCAACAATGCAGGCAAGCGATTATGATCATGTGAATAAATTAACCAAAATAGCCATCAAAGATGCTGTGAAAAGTTTTAATATTTTATCGAGAGGGGGAGAATTAGAAGTCAAAAAAGGTTTGGTGGAGCGTTTATTTTCTAGAAAAAAATAA MFWYLIILIGVAWLVQSIFGFLQIRHFNRHYAALRSLGRVAIGKRTGLFRAGTVVMFSIDKQDRIIKAKRMQGVTVLSRVKDMTGFAGKKLPTMQASDYDHVNKLTKIAIKDAVKSFNILSRGGELEVKKGLVERLFSRKK NA NA NA NA NA AK015_02552 1938 licR_5 COG1762 putative licABCH operon regulator ATGTCTGACTTTATAATAAGGGAGAATAGTGTACGTCTATTAAAAATAATTAGCAAACGAGATTATATTTCACCATTATTTTTATCAGAATCATTGGAAGTAAGTGTCAGAACGATTCACAATTATATGAAACAAGTCAATCAAGATCTAAAAGGTATTGCAAAGATAGAGAATGTAAAAGGGAAGGGGTACCGTCTAACTATTTCAGAGAAGCAAGAATTCGAACGCTTATTAGAAAATGTAGAACAAAACAAAGTACCTATGGATTCTTCCAAGCGACGAATAGCATCCATTATTAACTTACTTATAAATGGAGAAAAAGATTACACATTAGATGAAATGGCATTTGAATTAAACCTGGGTAGAACGACTTTGGTAACGGAACTAAAGAAAGCTTCGTTGTCCTTGGCAACTTACAATTTGAAAATAGTTGGCAAGCCTAATAAGGGTATGCAATTACACTATCAGGAAATGGATTTACGTTTTTTTATTATTGAAAATATCTTTAATGGCTTATATGGATCATACCCTTTAGATCATGATGTTGTAGAAAAGATTGTTCATGTAACGAATCAATATGATTTAGAATCTAATACAAAAAACAAAATACTTGCGTTTGTCGTCGTTATGCTTGATCGTTTATCAAAAAATCACCCTTTGAGGGATATAAAAAAGAATTATTTAAAAAGAATTCATCAACACGATTTAAGTATTGCTCAAGAGATTAGTTCGATTATTGAGAGTAGCTTACCTATAAAAATTACGAAAGAAGAAGTATTCTTTATTAGTATTCCGATTGCAGGGAGAAGAACACCGACAAATGATAGAACGATGACTGAAATGCAAATTACGGAAGAAATCAATAGCTTACTAAATAAAATTCTTGAACAGATTGGCTTTAAGCAAGAAGTAATAAAACAGAATGAAACTTTTTTTATAGACTTGCAATACCATCTTACTTTTATGTTAAATCGTTTAATGTTTGGTCTACGAATTAATAATCCAATGTTAAAAGATGTAAGGGATAGGTTCCCTGTAGCATTCAAAATGGCGAAGATTGCTGGGCAGGTCATTACGCAAGAATATTCGATTGCTGTATCTGACGAAGAACTAGCTTATTTAGCATTTTATTTTGAAGTTTTTATATCTCAAAACGATTTTAAAGAAAAACGATTTAAAAAAGCAGCAGTTGTTTGTGGAACAGGTAGAGGAACGGCTAGAATTATTAAAAGCCAATTAGAGAAAGTTCTCCATCCAGATACACAATTAGATGTATTGTCAGAGATAGGCTTAACAAAGGAACAGTTAAATAGTTATGATCTAATATTTACTACTGTTCATCTACCTATGGAAGTTAACAAGCCGATTATTGAGATTAATGAAATATTTGATGCGCATCATTTAAAAAAGAAAGTAGAAGAAATAGCATATATGCAAAGTTTTAAATTAGAGACTACAGATGAGGCAAATTCTCTATTATATCATCTGATAACGGAAGATAAATTTTTTGTACTTGATAGTTCTAACTCGTATGAAGCTAATTTGGAATATATGGTAGAAGAGCTTATTAAAAGACGATATTTGGATAAAGGTTTTACTAAACGCTTGCAAGCTAGATCTGCAAAAGGATCTATGGTATTTGATCAATTTATTGCTTTACCCCACACATTAAATAATGATTCTGGTCAGTTGCAAATCGCCCTTGGAGTGTTCCAAAAGCAAGTGAAAGCAGATAATAAAGAAGTAAAATTGATATTTTTGCTAGGTTTACCAAATCTAGAAACAGAAATAGAAGATTACGAACAACAATTAGTCCATGTGTATGATGAAATTGTTCGTATATCCAATGATAGACAATTAGTCGAGAAGTTATCTCAATCTACTAATTATGAGCAAGCAAATTTGCTTTTAAAACATGTAAGTAGATTTAATGTATAA MSDFIIRENSVRLLKIISKRDYISPLFLSESLEVSVRTIHNYMKQVNQDLKGIAKIENVKGKGYRLTISEKQEFERLLENVEQNKVPMDSSKRRIASIINLLINGEKDYTLDEMAFELNLGRTTLVTELKKASLSLATYNLKIVGKPNKGMQLHYQEMDLRFFIIENIFNGLYGSYPLDHDVVEKIVHVTNQYDLESNTKNKILAFVVVMLDRLSKNHPLRDIKKNYLKRIHQHDLSIAQEISSIIESSLPIKITKEEVFFISIPIAGRRTPTNDRTMTEMQITEEINSLLNKILEQIGFKQEVIKQNETFFIDLQYHLTFMLNRLMFGLRINNPMLKDVRDRFPVAFKMAKIAGQVITQEYSIAVSDEELAYLAFYFEVFISQNDFKEKRFKKAAVVCGTGRGTARIIKSQLEKVLHPDTQLDVLSEIGLTKEQLNSYDLIFTTVHLPMEVNKPIIEINEIFDAHHLKKKVEEIAYMQSFKLETTDEANSLLYHLITEDKFFVLDSSNSYEANLEYMVEELIKRRYLDKGFTKRLQARSAKGSMVFDQFIALPHTLNNDSGQLQIALGVFQKQVKADNKEVKLIFLLGLPNLETEIEDYEQQLVHVYDEIVRISNDRQLVEKLSQSTNYEQANLLLKHVSRFNV PGPT0019430_255 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019430-licR-K03491 NA NA AK015_02553 801 fabG2 putative oxidoreductase ATGAATAGGAATTGGCTTGAACTAGATGGTAAAGTAGCGATTGTTACGGGTGGTTCTTCAGGAATTGGGCTGCAAATTGTTACTGAGTTATTAAATAATGGAGTAAAAGTCGTAGTAGCTGATTTGCAGGGAGAAGAAGGAGAGATGGAAAATCAAGCCTATTTTATACCTTGTGATGTTTCAAATAAAGAAATGGTCACTAATACAGTAAGTAAAACGGTAGAGTTATTTGGAAAGGTTGACATTTTAATTAATAATGCAGGAATAAATTTACCTAGATTGTTAGTAGACGACAGAGAAGAAAAGCCAGAATATGAATTAAGTGAGGAAGATTTTGATTTAATGGTTGGGGTAAATCAAAAAGGGACGTATTTCTTTTCTCAAGCAGTAGCAAAACAGATGTTAAAGCAAAAGAAAGGTGTTATTATAAATGTTGCTTCTGAAGCTGGGCAAGAGGGATCTGCTGGTCAAAGTTGTTATTCGGCAACAAAAGGAGCAGTAATATCTTTTACACGAGCCTGGGCGAAAGAATTAGGAAAATTTAATATCCGTGTTGTTGGTTTAGCACCTGGGGTGATAGAAGCGACAGGATTAAGAACGGATGCGTATAACGAAGCGCTTGCATATACGCGAAATGTTCAAGTTAGTGACTTATCTAGTGATTATAGCAAATCAATACCATTAGGAAGAGAAGGAAAGCTAACAGAGGTTGCTCATTTGGCAGCATTTTTAGCGTCTAATAAGGCAGGCTATATTAATGGTACTACCGTAAATATTTCAGGAGGAAAATCAAGAGGTTAA MNRNWLELDGKVAIVTGGSSGIGLQIVTELLNNGVKVVVADLQGEEGEMENQAYFIPCDVSNKEMVTNTVSKTVELFGKVDILINNAGINLPRLLVDDREEKPEYELSEEDFDLMVGVNQKGTYFFSQAVAKQMLKQKKGVIINVASEAGQEGSAGQSCYSATKGAVISFTRAWAKELGKFNIRVVGLAPGVIEATGLRTDAYNEALAYTRNVQVSDLSSDYSKSIPLGREGKLTEVAHLAAFLASNKAGYINGTTVNISGGKSRG PGPT0018425_189 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018425-slrD-K00068 NA NA AK015_02554 117 hypothetical protein ATGCCCTCACACACAAAAGTAGCTTTCATTAAAAATGCGAGACAAGTATACACTTCTTTGTATTTTTTCTTATATTTATCAATTTTATTAGCTTTTTATCTCGCTATTTTTGAATAA MPSHTKVAFIKNARQVYTSLYFFLYLSILLAFYLAIFE NA NA NA NA NA AK015_02555 1695 hypothetical protein ATGAAAAAAATTATTAGTTTTAAAAGTATTAAGTATAAGGTGTTATTTGCATTTTCGCTTGTAATTTCACTTGTAATTATATTGGGTGTGTATAACATGATAACAATGAAACAGATGAATAACCAAGTGGAAGATATTGTAAAAGATGATTTGCAGACATTAATTGGAAATCAGGGAATGGAAACAACGCTGTCTAAACGAGTAGCTGCAGCTCGAGGTTATATTTTTCTGGGTGATAGCGAATTAAAGGATCGTTTTGCATCCTATACGGAACGTGCAATTGAATTTGAAAATCTAGCTAGAAGTGCTGGAGTTAACGAGGAATTTGATGATTTGATGGATCGAACTGTTGCATGGCGAACAGCAGTCAATGAGGACGTATTTGATGTTTATGACCGTGGCGATGAGGAACTGGCTATAAAAAATTTGAGTGAATTAACATCAGATGTAACTGAACTCATAGCAGGGTATGATAAACTGGCTGGAGATTCTGTAGAATCAATTAATAAGCATGGTGAAGAAATTATTTCAAATGGGGAACGTACCTCAAAGGTTGGAATGATTGTAATTGTTTTGATTATTGGTTTAAGCATTGGTGCAGCATTGATTACCGCCAGATTGATCACAAATCCAATTAAAAAAGTGATGAACCGGATGAAGTTGATCGCCAATGGAGATCTAAGCGAGGAGCTATTACAAATTAAAACTAGAGATGAAGTTGGTCAGCTAGTAGAAGCAGCAAATGAAATGACTTTAAATACTCGAGAATTACTGAATCAAATAAACGTAGTGTCTGAAACAGTTACCAGTCAAAGTGAAGAATTAACGCAAGCAGCGAATGAGGTTAAGGCCGGTTCTGATCAAGTGGCTATCACGATGCAGGAATTGGCTACCGGATCAGAAACACAGGCAAACAGTGCCAGTGACTTAGCTTCGTATGTGAGCACATTCTCAGAAAAAGTACAGGAAGTAAATAACAATGGTGCACGTGTACAGCGGTATTCAAATGAAGTAGCGGGAATGACAGCTAAAGGGAGCGAATTAATGACATCTTCTACAGAGCAAATGGCTAAAATTGACCAGATTGTCCAAGGGGCAGTAGCAAAAGTAGGAGGATTAGATAAACAGTCACAGGAAATTTCTAAGCTTGTTTCTGTTATTCAGGATATTGCAGATCAGACGAATTTACTCGCATTAAATGCAGCGATAGAAGCAGCTAGAGCTGGTGAGCACGGTAAAGGCTTTGCTATTGTTGCAGATGAGGTAAGAAAGCTAGCAGAACAGGTATCTGATTCAGTTACTGATATTACCGGCTTTGTGACAAATATTCAAAATGAATCCAGTCTTGTCGCATCTTCCTTGAAGGATGGTTATAAGGAAGTTGAACAAGGGACCAATCAAATTCTTACTACTGGAGAAACCTTTAAGGAAATTAATGTATTTATATCTAAGATGGTGGAAAATATTAATTTAGTATCTAGTAATTTAGCTGAAATTGTTGCAAACAGTCAGGAGATGAATGGTGCGGTTGAAGAGATTGCTTCCATTTCTGAAGAAGCAGCTGCAGGAGTTGAACAAACCTCTGCTTCAACCCAGCAAACAAGCAGCTCGATGGAAGAAGTTGCAGGTAGTTCTGAGCAATTAGCAAAGCTTGCCGAAGAATTAAATGGATTGGTAAGGAGATTTAAACTTTAA MKKIISFKSIKYKVLFAFSLVISLVIILGVYNMITMKQMNNQVEDIVKDDLQTLIGNQGMETTLSKRVAAARGYIFLGDSELKDRFASYTERAIEFENLARSAGVNEEFDDLMDRTVAWRTAVNEDVFDVYDRGDEELAIKNLSELTSDVTELIAGYDKLAGDSVESINKHGEEIISNGERTSKVGMIVIVLIIGLSIGAALITARLITNPIKKVMNRMKLIANGDLSEELLQIKTRDEVGQLVEAANEMTLNTRELLNQINVVSETVTSQSEELTQAANEVKAGSDQVAITMQELATGSETQANSASDLASYVSTFSEKVQEVNNNGARVQRYSNEVAGMTAKGSELMTSSTEQMAKIDQIVQGAVAKVGGLDKQSQEISKLVSVIQDIADQTNLLALNAAIEAARAGEHGKGFAIVADEVRKLAEQVSDSVTDITGFVTNIQNESSLVASSLKDGYKEVEQGTNQILTTGETFKEINVFISKMVENINLVSSNLAEIVANSQEMNGAVEEIASISEEAAAGVEQTSASTQQTSSSMEEVAGSSEQLAKLAEELNGLVRRFKL PGPT0015710_16759 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 AK015_02556 1371 COG0277 putative FAD-linked oxidoreductase ATGATATTTTTGAACGCATTAGAGCAGATACTTCCATCAGATCGTATAAGTGATAATGAAACGATATTAGAGCAACACAGCACAGATGAATCTTACCATACACCTGCTTTACCAAATGTGGTTGTTTTTCCAAAAACGACAATAGAAGTAAGTCGTGTAGTGAAGCTAGCTTCGGGGTTTAATGTGCCGGTAGTTCCTTTTGGGTTAGGTACGAGTCTGGAAGGAAGTGTTATTCCATATCAAGGAGGGGTTATGATTGATTTCTCCTTGATGAATCAAATTTTGGAGGTACGACCGGATGATTTTTTAGTTAAAGTGCAACCAGGTGTGACGCGAAAGCAATTGGAAAAAGAGTTGAAAAAGTACGGTTTATTTTTCTCTGTTGATCCTGGTGCAGATGCAACTCTAGGAGGGATGGCAGCGACAAATGCAAGTGGTACAACATCTGTTAAATATGGTGTAATGCGGGATCAGGTTCGGAATTTGCAAGTTGTCTTAGCAGACGGTAGTGTTGTTCATACGGGGAATATGGCAGCTAAATCTTCTTCTGGATTACATCTTAATGGACTATTCATTGGTTCAGAAGGAACGCTTGGTTGTTTTACAGAACTTACTTTAAAAGTGCACGGTATACCAGAAAAAATGGTGGCGGGAAGAGCGGCATTCACTACGTTAGATGATGCAGTGGGGGCAGTTATTGCTATTTTACAAGCTGGCATTCCTGTTGCTAGGGTGGAACTCGTAGATGCATCATCGATGAAACACATCAATCTATTTAGTAATACGGATTATTTGGAAATGCCGACAATTTTTATTGAATTTCATGGAAATGAGGCAGGGCTCCAAGAAGATATGAATTTTACTACTGAAATTTTAGAGGAACATCAATGTCAAGATTTCGCATTTGAAGCAGATACGGCAGGGAGGAATCGTTTGTGGAAAGCGCGACATCAAACTGCATACGCCTTTTTGCATCATTATCCTGGAAAAAAGCAGATGGTAACCGATGTTTGTGTGCCAATCTCTCATTTAGCAAATGCTATTAAACAAGGTAGAGCTGCTGTGGAGGCTTCAGGGTTCCCCGGAGGAATTGTGGGGCATGTCGGCGATGGTAATTACCATATTTTAATGATGATTGATGCACAGAATCCAGAAGATATTGCAAAAGCAAATGAGGTGAATGAGCAAATTGTTTCCTATGCTTTGTCATGTGGTGGAACATGTACTGGTGAACATGGCGTTGGGGTTGGTAAAGCAAAATATCAGCTGGCAGAGCATGGAGCAGCTCTTCAAGTGATGAAACGTATTAAGGATAGTTTAGATCCACACCATATACTTAACCCTGGTAAAATTTTTACGGAGTTGGATTAA MIFLNALEQILPSDRISDNETILEQHSTDESYHTPALPNVVVFPKTTIEVSRVVKLASGFNVPVVPFGLGTSLEGSVIPYQGGVMIDFSLMNQILEVRPDDFLVKVQPGVTRKQLEKELKKYGLFFSVDPGADATLGGMAATNASGTTSVKYGVMRDQVRNLQVVLADGSVVHTGNMAAKSSSGLHLNGLFIGSEGTLGCFTELTLKVHGIPEKMVAGRAAFTTLDDAVGAVIAILQAGIPVARVELVDASSMKHINLFSNTDYLEMPTIFIEFHGNEAGLQEDMNFTTEILEEHQCQDFAFEADTAGRNRLWKARHQTAYAFLHHYPGKKQMVTDVCVPISHLANAIKQGRAAVEASGFPGGIVGHVGDGNYHILMMIDAQNPEDIAKANEVNEQIVSYALSCGGTCTGEHGVGVGKAKYQLAEHGAALQVMKRIKDSLDPHHILNPGKIFTELD PGPT0001890_1570 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102 NA NA AK015_02557 507 hypothetical protein TTGAATGGCTATTTACCATATACAAAGTCAATTGTAGACTATCAGCATAATCAAATATTAGCGGCTATTGATCATGCATTAAAAAATTTAGAGATATGTGAGGTTAAGTTTGGGGAAGGGTTTGCAGAAGGAATAGCTACTAATCGTAATAACTTGGAAACTAGCTATGATCATAAAGTAAGTGTTATTACGTTTACGAATACACAAGGAAAAAAGGCAATAATGTATCATTTTGCATGCCACCCAACCATTTTAAACGGTAATAACGTATATATTAGCGCTGATTTACCAGGTGAAGTGAGCAAAGTTTTGGAGGACCGTTCGGATGTAAACTGTGCCATGTTTATAAATGGTCTATCAGCAGATATTAGTACACGCTTTACGCGAAAAGCATCTACTTTTCAAGAAGTAGAGCGTATAGGTGGGAAATCGGAAGAAAAGATAAAGCAAGCTGTAAGAGAATATTTGTACTTATTTGCGAATGAAGGAGAATGTGAGAATGGCTAA MNGYLPYTKSIVDYQHNQILAAIDHALKNLEICEVKFGEGFAEGIATNRNNLETSYDHKVSVITFTNTQGKKAIMYHFACHPTILNGNNVYISADLPGEVSKVLEDRSDVNCAMFINGLSADISTRFTRKASTFQEVERIGGKSEEKIKQAVREYLYLFANEGECENG NA NA NA NA NA AK015_02558 1254 yjeH COG0531 L-methionine/branched-chain amino acid exporter YjeH ATGACTACTAAAAAAACAATTAACCTTTATCAAGGAATAAGTTTATATATAGCTGCAATATTGGGATCTGGTGTATTGTTTGTTTCAGGAATAACCGCTTCTATAGCAGGGCCCGCCTCTTTACTATCTTGGATTATTGTTATTATATTTAGTTTTCCATTAGCATATAGTTTTGCAAGTTTAGCTAGAGATTTCCCTGATGCTGGGGGGACAGCAACGTTTGTTCGAAAGTCATTTGGTAATCATTTAGGGAACATCGTCGGTTGGTTCTATTTTGTAACTGCCGCAATTGGTCAGTCTATCGTTGCATTAACTGGGGCTTTTTACTTAAGTAAGGCATTCAACTTCACCCCTTTAGGCGAGGTATATGCAGCGATACTAATTTTATTAATTGCAGGCTGCTTTAATTATTTTGGCCTGGAAGTAAGTGGAAAGGTTGCATTAATTATTAGCTCATGTCTATTGCTATTATTACTGACTACAATCATTGTAGCTTTACCAAGTGTAACTCTTAATAATTTCCAACCTTTTTTTACGGATGGGTGGTACGCTATTGGCACTGCTATTACTGTTATTTTCTGGGCCTTCTTTGGTTGGGAGGCAATCTGTAACTTATCCTCTCACTTCAAGCAACCTGATAAAAATATTGTCAAAAGCTCCGTGATTAGCGCATTGATTATAGGTTGTTTATTTTTACTACTTAGTTTTGTTACTATTGGCACAAATACGTATGGTAGTATTGAAAGCGATTTTTCGCCAATTGCTGTTATTATACAAAATAATCTAGGAATAGGGGCACAAGTATTAACTGCAGTACTTGCCTATTTAATATGTATTGGCACATCAAACGCATTTATCGCTAGTTTGGCACAGCTAGGGTACTCCTTGAGCAGAGATAAAGCATTCCCAACCGTATTATCAAAGATACATCGTTCTGGTGTTCCACGACGCATGGTTATATTTTCAGTTGGGTTTGCAGTTATAGGCGTAATAATCACAGTTATATTTTCAGCAACATTTAATGATATGCTTTTTATACCGACGTCACTTGGCTTAATTGTATATGCTTTAACAATGATTTCAGGTGTTAAACTTTATAAAAAGTGGAGCAAGCCTTGGATTTGCTCACTTGTTTCATTTGTATTTATTTTATGTGTCATTCCTTTTTTCGAAGTATATCTATTGGTACCTTTATTTGTATCGATAGCTTATTGTGTATATATGCTTACCAAAAGCTTTTATAGGAGTCAATAA MTTKKTINLYQGISLYIAAILGSGVLFVSGITASIAGPASLLSWIIVIIFSFPLAYSFASLARDFPDAGGTATFVRKSFGNHLGNIVGWFYFVTAAIGQSIVALTGAFYLSKAFNFTPLGEVYAAILILLIAGCFNYFGLEVSGKVALIISSCLLLLLLTTIIVALPSVTLNNFQPFFTDGWYAIGTAITVIFWAFFGWEAICNLSSHFKQPDKNIVKSSVISALIIGCLFLLLSFVTIGTNTYGSIESDFSPIAVIIQNNLGIGAQVLTAVLAYLICIGTSNAFIASLAQLGYSLSRDKAFPTVLSKIHRSGVPRRMVIFSVGFAVIGVIITVIFSATFNDMLFIPTSLGLIVYALTMISGVKLYKKWSKPWICSLVSFVFILCVIPFFEVYLLVPLFVSIAYCVYMLTKSFYRSQ NA NA NA NA NA AK015_02559 996 argB Acetylglutamate kinase ATGAAAAAGATAAAAGTTCTTAAATTTGGTGGTAATTCTTTAAAAACCATGGAAGACCGAAGAAATATTGCTGAAGTTATTACGAAAGAACGAGAGAAGGGATATAAATTAATTCTAGTTGTATCTGCAATTGGGCGATTAGGTGATCCATATGCAACTGATACTTTATTAAGATATATTAAACAGGATGAGTTGTCACCAAGAGAAACAGCATTAATTTCCTCTTGTGGGGAAATCATATCAAGCATCGTACTGAGCTCGTATTTAAACCATCAGGGCTTAAAATCATCCGCATTGACAGGTGCGAACGCGGGAATAGTGACATCTAACGACTATTTAAATGCGGAAATCATATCTATAGACAAAAGAAACATGGAAGAACTAATTAACCAGGGGATTATTCCTATAATAGCTGGCTTCCAGGGGTACACGTATACTGGTGATACAACATTACTAAGCAGGGGAGGGAGCGATGTCACGGCTGCGGCGATAGCACAAACTTTCCAAGCTTGCCAATTAGATATTTATACAGATGTGCCTGGGATAATGACTACAGATCCCAAAATAATAAATTCGGCTCAAACCCTAAAAACACTTAATTATGACCAGGCTTTGAAAATAGCTGCAAGTGGTGGAAAGGTTATCCATCCGGAAGCAATTAAATGGGCTAAAAAAAGCAACATACCAATTAAAATCAAAAAATTATCGATTTCTCAAGGAACTATAATTGCTGAAACAATAACGAATAGAAGCTTACCACCAAGTAGTATAATTTGTTTAACAACAAATGTCATGGATGACAAAAGAGGGAAAGTAACCATCATTGGTCACAGCTTAAACAAAAATAAAGATCTTCATAAATACATCCTATATTATAATATGAATATCCATTCATTTTCTTTTTTTTCTGATAAGATCGAGATAATCATACCCATTCAGCTTGTCAACAAATATGTCGAAGTATTTCATAAAAATTTCATAGAGAGCATTAAATGA MKKIKVLKFGGNSLKTMEDRRNIAEVITKEREKGYKLILVVSAIGRLGDPYATDTLLRYIKQDELSPRETALISSCGEIISSIVLSSYLNHQGLKSSALTGANAGIVTSNDYLNAEIISIDKRNMEELINQGIIPIIAGFQGYTYTGDTTLLSRGGSDVTAAAIAQTFQACQLDIYTDVPGIMTTDPKIINSAQTLKTLNYDQALKIAASGGKVIHPEAIKWAKKSNIPIKIKKLSISQGTIIAETITNRSLPPSSIICLTTNVMDDKRGKVTIIGHSLNKNKDLHKYILYYNMNIHSFSFFSDKIEIIIPIQLVNKYVEVFHKNFIESIK PGPT0014040_6391 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928 NA NA AK015_02560 1623 metG_3 COG0073 Methionine--tRNA ligase ATGAGTGAAATATATGTTACGGCAACACCACCGACACCTAATGGCGACCTTCATATCGGGCATTTAGCTGGTCCCTATCTTGCGGCGGATGTTTACACCCGCTTCAAAAAAATAACAGGTAATAACGTTGCGTATATTACTTATGGTGATGATCACCAAAGCTATGTAGCGACAACAGCTAATAATAAAAAAATCGATCCAAAAAAAATGGTAGAGAATAATAATAATATTGTTAGATCTACATTAAAATTGGCAAACATCGATGTGGATGTATACAAGAATCCATTAGGTAATAATAAGCATATTAATTATGTATTAACATTTTTTTTAGAATTATATAATAAAGGGAAATTAAAAAAGAAAACGAAAGATATATTATATTGCGACAAATGTAAGTTGAATTTATATGAGTCATTTGTAAAAGGAAAGTGCCCCTATTGTAAAAGTGATTCATCTGGTAATTTATGTGAAGCTTGTGGTCAAATTAACGACCCTATTAATTTGGAGCAGCCCTTCTGCACAATTTGTAAATCTGTTCCAACCGTTAAACAATATACGGGTCTATTTTTCCCTATTAACGATTATAAAGATAAGTTAAATCGTTTTTATTCATCAAGAACAACTTGGAGACCTCAGCTAATAGAATTTTGTAAACAGATAATAGCAAAAGATATTCCGGACTATCCAGTAACCTATCCTTCGAATTGGGGAATACCCGTTCCAATCGAGGGATTTAAAGACCAAGTAATCAATGTATGGTTTGAAATGTACCCTGGGATATTAGAAAGTATTGATGCACATTATCTACATCAATATGGTATTCGCAGAGAAAATAAACATAAACAGACGCTTGTACAATTTCTGGGATTCGATAACAGTTTTTTTAATTCCGTGCTACATGTTGCAAGTGCATTTGCTATCGAAAAGGATGAATTATTACCTGAGCACATCATTACAAATTACTTTTATTTACTAGATAAAGAGAAGTTCTCTACAAGTAAAGGACATGCAATATGGGGAGGAGAGCTTTTAAAGGATGTTCCATCAGATAATCTTAGGTTTTATTTATCCTTAACGAATCCGGAGCATATGCAAACTAATTTTTCTTTCGATGATTTTCTACAAACTAATGATAAATTCACTAAAAAATGGGAAGACACAATAAATAGATATATAGAAGTAATTAATCATGATTTTAAGGGAATCATACCGAAAAACGCTGCCATACATTATCAAAGCTCTAGCTTAATACAAAGAACCAAAAAGAATCTTGAGAAATTCTATGATTTAGAACAATTTAGTCTACGAAAAGCTTCTTTTGAATTAGAGGACTATATGAGTTCAATTATTGATTATTTAGAGGAAAAGGTTTTACCAATGAAAGCAAAAGATGATGTCCTATATACGCAACAGGTAGCTAATGTCACTTATCTATTAAAGGCTTTATCTGTTTTTACTTATCCAATTATGCCGACATTTTCCAAAAAATTAATGAGAAATTTAGGCGCAAGTAGTTCAAATTTATTATGGAATACGATTTATGACATCAGTACTTGTGATGAAGTTGGAAATGAAAAAGAATTTTTTTACGCATTGAATATTAAAACCAGGAGAGGATCATGA MSEIYVTATPPTPNGDLHIGHLAGPYLAADVYTRFKKITGNNVAYITYGDDHQSYVATTANNKKIDPKKMVENNNNIVRSTLKLANIDVDVYKNPLGNNKHINYVLTFFLELYNKGKLKKKTKDILYCDKCKLNLYESFVKGKCPYCKSDSSGNLCEACGQINDPINLEQPFCTICKSVPTVKQYTGLFFPINDYKDKLNRFYSSRTTWRPQLIEFCKQIIAKDIPDYPVTYPSNWGIPVPIEGFKDQVINVWFEMYPGILESIDAHYLHQYGIRRENKHKQTLVQFLGFDNSFFNSVLHVASAFAIEKDELLPEHIITNYFYLLDKEKFSTSKGHAIWGGELLKDVPSDNLRFYLSLTNPEHMQTNFSFDDFLQTNDKFTKKWEDTINRYIEVINHDFKGIIPKNAAIHYQSSSLIQRTKKNLEKFYDLEQFSLRKASFELEDYMSSIIDYLEEKVLPMKAKDDVLYTQQVANVTYLLKALSVFTYPIMPTFSKKLMRNLGASSSNLLWNTIYDISTCDEVGNEKEFFYALNIKTRRGS NA NA NA NA NA AK015_02561 816 hypothetical protein ATGCCATATTTATTTTCTTTTGGATTAACGTGTAACCTGGAGACAGCAAAGAAGGACTTAGGCAAATGGAATAGCTATTCTAAAGCAATATTAAAGGAGCATATATACACATTTACAGGATTCCATCCAGATTTTAATGGGGGGACCTCAACGGTAATACAAAAAGATGGAGGGGAAGTAATAGGAATAGCTTTCGAAATCAATGAAAATCAAATTAGCCTTCTTAGAAAAAATGATTATGGTTATATGTTGAAAGAAGTAGAAATTTATCTTGCTGATAAAAAAGTAAAAGCCTATATAATGGCGCCAAAAATTATCGAAGAACGAAGAATGCCATCGTTAAGCTACTATGAAGGTGTAAAGGCTTCTTTAAATCAACATTATCCAAAGGAAATTGTTGATCATTATCTAGAAAGAGCGTTAAAAAGAACAAAGAAAAAAGGAGTTAATATCCAAAGGAATCATCCTAATGACTATAAATATGAGTACGGTTCTTTATTAAGAAGAATATACCCGTGGAATAAAACACGAAAATCACCATTTGGTTCAGGAATTATAATTGTACAACCTGGTGAGACAACAGAGCCTCACAATCATGATGAAGAAGAATCTTTTATTATTTTAGAAGGTGAAGGGGTTATTAATGTAGATGGGGAAACGGAAAAGGTATATCAAGAAGATGTTATTTATTTCGAGCCTTTTTCTGTCCATTCGCTTCATAATACTGGAGGTAAACCTCTAAAATTCTTAGCTGTTTGGTGGGGAGCTGTTGGAATTGCACAATATCAGTTAGAAAATAACCATTGGAAACATTAA MPYLFSFGLTCNLETAKKDLGKWNSYSKAILKEHIYTFTGFHPDFNGGTSTVIQKDGGEVIGIAFEINENQISLLRKNDYGYMLKEVEIYLADKKVKAYIMAPKIIEERRMPSLSYYEGVKASLNQHYPKEIVDHYLERALKRTKKKGVNIQRNHPNDYKYEYGSLLRRIYPWNKTRKSPFGSGIIIVQPGETTEPHNHDEEESFIILEGEGVINVDGETEKVYQEDVIYFEPFSVHSLHNTGGKPLKFLAVWWGAVGIAQYQLENNHWKH NA NA NA NA NA AK015_02562 1098 hypothetical protein ATGAGTGAAAAAGCAGTAGTTAAATCCATTGATCCAATAAAAACATTAGATCACATATTACCCAAAACTACCAATAACAAAAATAAGATTTTTAGAATAGGTATAAGTGCAAATTTAGGGGGTCACACCAGAGAATTGTATACAGGTGTAGCAATTGCTGTTAATGAATATCTTAAGAAGAAAGATAGGCTTTTTGATATTGAGGTACTTTGGGAAAAAAGTTCTTTTGATAAAGATTCTACACTTAAGGCTGCAAATCAACTCGTAAATAGAGGGGCTGAAGCAGTAATTGGTCACTTAAGCGCAAACCAATCGCTTGTAGCTGCGACTTTTTACTCTGATATAAACATTCCTTTCTTAGCTCCAGGTACTTCACATCCATTGTTTACGGAACAAGGCTTTGATAATATTCTTAGAGTTTGTGGAAGAGATGAAGAGATGGCTTATGAAATGGTTCATCTAGCAGATAAATTAACAGCTAATACTAGTTTAAAAATAATATATCAAGACAATAGTTACGGAAATCAACTATCAAAATTATTAAGAAAATCAATTTTAGAGAAAGGACTAAACTTGAAATCGGCAATATTAATTAATGACAATATTGTATCAGAAATAGATGATAGAGATACTTTATTATTTGCAGGTACGTACGAAGGTGCATTGGTATTAACTGAGAAATTAGCGGAAGTAAATTTCTCAGGTGTGATTATATTTGGTGATGATATATTTGTAGCTGATTTTCCATATCTGATTAGTACACATGATGGATTAAAACTCTTTACTATTTCTACTAAGAAGGAACTTTGCGGAATTAATTATAAGAAATTTGAAAATAAATATAAAGAAATCGCATCTTTAAAGCCAGCTGCTTACTCCGTCACAAGCTATATTGCAACTAAGATTCTATTAAATAACATAGCACTATTAAAGAAATACGGTTATAAAACCTTCATAAATAGCCTTAAAGATGGAGTTGTAGTTGAAGGGTTAGAAGAAGTTTCATTTTCACCAAAAGGAGACTTGCTAGAATTTGAGTGGGATGTTTACGAAATGAATGCTGGAGAATTTATAAATTTAAACGGGAGTGATCGATAA MSEKAVVKSIDPIKTLDHILPKTTNNKNKIFRIGISANLGGHTRELYTGVAIAVNEYLKKKDRLFDIEVLWEKSSFDKDSTLKAANQLVNRGAEAVIGHLSANQSLVAATFYSDINIPFLAPGTSHPLFTEQGFDNILRVCGRDEEMAYEMVHLADKLTANTSLKIIYQDNSYGNQLSKLLRKSILEKGLNLKSAILINDNIVSEIDDRDTLLFAGTYEGALVLTEKLAEVNFSGVIIFGDDIFVADFPYLISTHDGLKLFTISTKKELCGINYKKFENKYKEIASLKPAAYSVTSYIATKILLNNIALLKKYGYKTFINSLKDGVVVEGLEEVSFSPKGDLLEFEWDVYEMNAGEFINLNGSDR PGPT0020765_14660 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QSR-AUTOINDUCER_PERCEPTION CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999 NA NA AK015_02563 1089 glmS_1 COG0449 Glutamine--fructose-6-phosphate aminotransferase [isomerizing] ATGGAATCGAGAAAAAGTCATCCTTATTATATGTATGAAGAAATTATGTTACAGCCTGAATATGTAAAAAAACTATTTTTATCATTAAAATTTCAAAATCACGGAAGTGTATTAGATGCTTTAAAAAAGAGTAAGAGAATTTTTCTGATAGGATGCGGAACATCCTATCATGTAGCCTTATCGAGTTTTAACATAAGTCAAACAATGTTCAAAGAGAAAAATAAATTTAGATCTGTACCTGCGTTTGAATTAATGTCTCCTAATTACTCCCTTAATGAAGAGGATGTAGTAATCGCTTTTTCTCATTCAGGAGATACAAAAGCTACATTCGATTGTATTTATTTAGCTAATAAGAATAACTGCAAGACGGTGGTAGTTACAGGTGATACAGCAAGTAGATGTGCAGATATATCAGATTTTGTACTGACTTATGGCTATAAAGACGATAAATCTCTTGCGCATACAATCACCTATACCTTAAGTACTTTTTTAATGCTCATATTGATGGGGAGATTAGCAAGAGATATGGGAGATCTTGCAATTAATGACATAGTTAATTCAGTAGCTAGTCAATTACCTTCTCTATTTACTAATGTATTGAATCGCAAAAATGAAATGAAGGAATTAGCAGATGACTTAAAAAGTGATTTCTTTGTGGTATGTGGGAATGAAAATACCATCGGAGTTGCTCATGAAACTACATTAAAGTTTGGTGAGGTTCACTATACTCCAACGACTAGTATGGATGTAGAACAGCTATTCCATGGACCGTTAGTTATGTGTAATAAAGATACAGCAATTATTGTAATCGCTAGTAACCCGAATTTGAAAGAAAGGGTGTCTGATCTGTTTAAAGCTAGTAAATTAATTGGTAGTACATCCCTGCTATTTACTTCTGAAAAAAATGATATAACTAATGCGGATTATGTATTTAGTTTACCTAGCTGTCATGAATTATTAGTGCCATTACTATATGTTTTACCAATGCAGCTACTCAGTTATTATCTTGCAGTTGGAAAAAAGCTAAACCCTGATCATATTCGTAGAGATCAATTAGCATATAAAAAGGCGCGGGAAGCTTATGAGTGA MESRKSHPYYMYEEIMLQPEYVKKLFLSLKFQNHGSVLDALKKSKRIFLIGCGTSYHVALSSFNISQTMFKEKNKFRSVPAFELMSPNYSLNEEDVVIAFSHSGDTKATFDCIYLANKNNCKTVVVTGDTASRCADISDFVLTYGYKDDKSLAHTITYTLSTFLMLILMGRLARDMGDLAINDIVNSVASQLPSLFTNVLNRKNEMKELADDLKSDFFVVCGNENTIGVAHETTLKFGEVHYTPTTSMDVEQLFHGPLVMCNKDTAIIVIASNPNLKERVSDLFKASKLIGSTSLLFTSEKNDITNADYVFSLPSCHELLVPLLYVLPMQLLSYYLAVGKKLNPDHIRRDQLAYKKAREAYE PGPT0017630_6448 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820 NA NA AK015_02564 1164 abo 4-methylaminobutanoate oxidase (formaldehyde-forming) ATGAACTACGATGTGATTATTGTTGGAGGAGGAGTAATCGGAGCCAGTATTGCTTATTTTCTTACTAAATCAAAAAAATTTAATGTCTTGTTATGTGAAAAAGGAAAACCGCCAGGGGATGGGGCAACAAGTATATCTGGTGGATTACTAAGAGTACACCATACGAATAATGCTAATCAATATCTTTCTTTTAGAAGTTTACAATTGTATAAGGAGCTTACAGCATCCAAACAAATGGATTTTGGTTATCATCCAATAGGTTTCTCATTAATGGTAGGTCCTCAATATGTTGAAAATTTTAAGATCAATGTTCAAAATATGGTCAATTTAGGATTACCAATTAAAGTCTATTCACCAAATGAATACAGTTTAGAAGAACGGTTTATAAATGTCGAGAATATAGGTGCTGTCTCCTATGAACCTCTTGGTGGATATGGTAATCCAGCAAAAACTAGCTTAGCATTTATTCATGAAGGTCTAAAGCAAGGGCTTCATTTAATGGAAGGTACAGAAGTTCAAGATATCGTAGTAAATAAAAATAAAGTGGTTGGTGTTCAAACAAATTTATCTCCGATATTCGCTAAACATGTGATAATCGCATCCAATTACTGGGGGGGGAAGCTAACCAAAAATATTGGTATTGATTTACCTATCTATACCAAGCGCTTGGGAGTTGTTTTTGCACATACTGATACAGATAAAGTCTTATCACATTCCTATATAGATGATACTTCAGACACGTATATGCGCCCATTCCCTGACGGTCGAATTCTAATAGGGATAAAATCCTCTGAGTGTGATATTAGCGATATTCATTTTAAGAGGAAAATTCAAAATGAAGAAGCACTCGAAGCAATTAATAGAGCTTCTAAAAGGTTCCCTATTCTGAATAAGGCAAAAGTTTTGGGGGGGCGTATTGGTTTCGATAGCTATACTTCCGATCAATATCCCCTTATTGGTCCTACTGAATATGAAGGGCTTTATTTATCCGTTGGTTTTGGTGGAGGGGGATATAAAATAGCTCCTGCAGTAGGTGAAGCTATAGCTAAAGAAATTTTATATAACACAAAAACAAATGAGTTAAAGTATTACCGGATAAGCCGATTTGAGAAAGAGAAAAAGTACACCTATTTCCAAACAAAAAGCATGTATAAATATATGTAA MNYDVIIVGGGVIGASIAYFLTKSKKFNVLLCEKGKPPGDGATSISGGLLRVHHTNNANQYLSFRSLQLYKELTASKQMDFGYHPIGFSLMVGPQYVENFKINVQNMVNLGLPIKVYSPNEYSLEERFINVENIGAVSYEPLGGYGNPAKTSLAFIHEGLKQGLHLMEGTEVQDIVVNKNKVVGVQTNLSPIFAKHVIIASNYWGGKLTKNIGIDLPIYTKRLGVVFAHTDTDKVLSHSYIDDTSDTYMRPFPDGRILIGIKSSECDISDIHFKRKIQNEEALEAINRASKRFPILNKAKVLGGRIGFDSYTSDQYPLIGPTEYEGLYLSVGFGGGGYKIAPAVGEAIAKEILYNTKTNELKYYRISRFEKEKKYTYFQTKSMYKYM PGPT0013510_1262 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303 NA NA AK015_02565 1278 davT COG0160 5-aminovalerate aminotransferase DavT TTGAAGGTAAAACAACATTCGGATAAGGTTTCTCGAGTTTGGCCATTGTTTACGAATATTGATGTGGATTATGGGGAAGGTGTGCATATTTATGATCAATCAGGTAGAGAATTTATTGATTGTACATCAGGTATTGGGGTTACAAACACGGGACATTGCCATCCTAGAGTAGTAAAAGCTGTTAAGGAACAAACTGAAAAACTACTACACGGTCAAACAACAATTTTGTATAACTCTATGTTGGACCGGTTAACAAATGATATACAGAAAATCATACCGGAAAAACTAAACTGTTTCTTCTTTTCAAATAGTGGAAGTGAGGCAGTAGAAGGAGCCATTAAATTAGCACGTCACGCTACTAGAAAACCAAATATTATCTGCTTTCAGGGGGGATATCATGGGCGTTCAATAGGAGCATTATCTTTAACAACAGCTAAATCTGTATATCGATCGGGATATCAGCCTCTTATGTCTGGTGTATTTGTTAGTCCGCATCCATACTTTAGACAATACAGAGAAGAAGACGTTGAAGAAAGGACAAGACATTGTTTAGCCGAACTTGAGTATTTATTACATACTCAAACTTCGCCAGATGAAACAGCGGCTATGATTATTGAGCCGATATTAGGAGAAGGCGGGTATGTAATGCCACCAGAGAGCTTTATTAACGGTATTAGGGATATTTGTAATAAGAACAATATATTATTAATTTTTGATGAAATTCAAACGGGCTTTGGAAGAACAGGTGAATACTTTGCGTTTACACATTTTAATATAGTACCAGATATTCTTGTCATTGCTAAAGGTATTGCATCAGGTCTTCCGCTAAGTGGGATAGCAGCTAATAAGGAAATAATGGATAAATGGATTCCAGGTTCACATGGTGGTACTTATGGGCCTAATCCTATCTCTATGGCAGCAGCTATTGAGACGATCAACGTGTTAGAAGATGAAGAGTTAGTAAATAATGCTAAGGAAATGGGGGACTTCTTGTTAGCAGAATTACAAGCATTAAAAAAGGAATATCCTATCATCGTTGATGTCCGTGGTAAAGGATTGATGATTGGATGTGAATTCGTTGATGACAATGGAAACCCTGGTACGGTAATAGCCGAAAAGGTAAGGCAAAATTGTCTTACACGAGGATTAATATTACTAACCTGTGGTCCTTATAATCAAGTAATCAGATGGATACCTCCACTTACAATAAAAAAGACGGAACTTGAAAAAGCGTTAACTATTTTTACTTTAGCAATAAAAGATAGTTTAGGGAGATAG MKVKQHSDKVSRVWPLFTNIDVDYGEGVHIYDQSGREFIDCTSGIGVTNTGHCHPRVVKAVKEQTEKLLHGQTTILYNSMLDRLTNDIQKIIPEKLNCFFFSNSGSEAVEGAIKLARHATRKPNIICFQGGYHGRSIGALSLTTAKSVYRSGYQPLMSGVFVSPHPYFRQYREEDVEERTRHCLAELEYLLHTQTSPDETAAMIIEPILGEGGYVMPPESFINGIRDICNKNNILLIFDEIQTGFGRTGEYFAFTHFNIVPDILVIAKGIASGLPLSGIAANKEIMDKWIPGSHGGTYGPNPISMAAAIETINVLEDEELVNNAKEMGDFLLAELQALKKEYPIIVDVRGKGLMIGCEFVDDNGNPGTVIAEKVRQNCLTRGLILLTCGPYNQVIRWIPPLTIKKTELEKALTIFTLAIKDSLGR PGPT0007140_1139 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS INSECTICIDAL_COMPOUNDS INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007140-puuE-K00823 NA NA AK015_02566 1305 pvdA COG3486 L-ornithine N(5)-monooxygenase ATGTACAGAAAATTTTATGATGTCGTTGGTGTAGGATTTGGTCCTGCAGGAATTGCTTTAGAAACTGCAATAAGAGATATGGAAGATATCAATAATAAGAGTGTATATAGAAGAGTATTTCTTGAAAAAAACAATGATTCGGCATGGATGCCGGAAATGTTACTACCTGGTACAGATATTCAGCACCATTTTTTACGCGATTTTGCTACACCTAGAAATCCAAGAAGTCAATATACCTTTGCAAACTATTTATATGAGAAAGGAAGACTGTTTTCCTTTGGGTTATTAGGTCGCCCAAGCCGAACGGAATGGTCTGATTATGTCCAATGGGTTTCCAAACAAATAGATGACAAAGCACATTATAATGAAGAAGTTAAGTCTGTAAAGCCGATAGTAATAAATGATGATATTGAAGGTCTTGAAGTGCATACAGTTAATAATGTAAGCAAAGAACACAATGTTTTTCACACTACGAATCTTATTTTAAATTCAGGTAGAAAACCTTTTATTCCAAGCCAATTTAAAGATAAAGTAAGTGACAAAGTTTTTCACGCAAGTAAATTCAGAAGTTCCGTACAAAATATTAATATAGAGGACAATCCTACTTTTACAGTTATTGGTTCGGGGCAAAACTCTGTTGAAATAATTCTATATTTAGCTAATAAATTTCCAAATTCAAAAATAAATTCTATTGTTAGGCATACCGGATTCCGGTTATATGAGTTAGGCCATTTTACAAATGAAGTATTTTTTCCTGAGTTTACGAATTACTTTTACTCATTGAATCAAAACGAACGAGATAAACTATTCGAGCAGATCAAACATACAAATTATTCAGCTGTAGATGATGATGTTAGTGAAGCACTATATTGGAAGATGTATGAAGATAAAATTAGAGGAACAGAACAAATAGAATTACATCGCTGTAAAGAAATAGTAGATGTGGCTAATACTCAAAAAGATTATTTACTAAATATTAAAGATATCTATAACAAACAAGAAGCTTCAATAAATACGGATTACATTATCCTTTGTACTGGATTTTTTGAGGAAGGATTTCCAGAAGTACTTCAACCAATGAAAAAGTACTTTAATTATAACAAGAATAATAATTTAAAAGTCTCTGAAAACTATAAAGTAGACACAAAATCAAATGTAAAGGCTAACATTTATTTGAATGGTTTAACAGAGAAAACTCACGGGATAGGGGACGCAGCATCATTCACTATGATGGCGACGAAGGCTCAAAGAATACTTGATTCAATGAACAATATTACCTCTATGAAAGATGGTGTATTGTCTTGA MYRKFYDVVGVGFGPAGIALETAIRDMEDINNKSVYRRVFLEKNNDSAWMPEMLLPGTDIQHHFLRDFATPRNPRSQYTFANYLYEKGRLFSFGLLGRPSRTEWSDYVQWVSKQIDDKAHYNEEVKSVKPIVINDDIEGLEVHTVNNVSKEHNVFHTTNLILNSGRKPFIPSQFKDKVSDKVFHASKFRSSVQNINIEDNPTFTVIGSGQNSVEIILYLANKFPNSKINSIVRHTGFRLYELGHFTNEVFFPEFTNYFYSLNQNERDKLFEQIKHTNYSAVDDDVSEALYWKMYEDKIRGTEQIELHRCKEIVDVANTQKDYLLNIKDIYNKQEASINTDYIILCTGFFEEGFPEVLQPMKKYFNYNKNNNLKVSENYKVDTKSNVKANIYLNGLTEKTHGIGDAASFTMMATKAQRILDSMNNITSMKDGVLS PGPT0003390_482 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-PYOVERDIN_BIOSYNTHESIS,PGPT0003390-pvdA-K10531 NA NA AK015_02567 675 rhaR_4 HTH-type transcriptional activator RhaR TTGGGGGTAAAACGTATTTTATTATACGATGCAAAAAAAACACTTGATGACAGAGAAGTATTTTTACTTAAAAAATTTAAAGTTGTATTAATCAGAAATTTGAAAACCCTTAAAAAGAAAAATCTAGAGAGATATAGGATGCTAATAATTATCGAAGGAAACAATTTAATCAGTGATGAATCAATGTTAATAGAAGAATTTGAGAACCTTCATATTCCATTAATAAGAGTAAATACGGTACCAAAAGATGATATATTCGAATTGATTTTTAACATTATCAATGTACAAATAGACTTCAATGAACTTACCCACGTTAACAATGAAAAATTAATAGAAGCATTGCTTTATATTGAAAATAACCTACAGAATAGCAACCTCAATTTAAAAAGTGTAGCTAATCACCTATTTTTAAATACAGCCTATTTTTCTAGATTTTTTAGAGAGTCTATGGGAATTGGTTTTAAAGATTATTTAATTAAGTTAAGAATTGCAAAAGCAAAAGATATGCTTGAAAATGGTCAATTAGTTACAGATGTCTGTATGACCGTTGGTTACACAAATTTATCTTATTTCTCTCAGATTTTTAAAAAGCAAGTTGGACTTAGCCCATCCATTTATAGAAAATATTATCAATTAATAATTAAGGAGGAAAAAAATGTACAGAAAATTTTATGA MGVKRILLYDAKKTLDDREVFLLKKFKVVLIRNLKTLKKKNLERYRMLIIIEGNNLISDESMLIEEFENLHIPLIRVNTVPKDDIFELIFNIINVQIDFNELTHVNNEKLIEALLYIENNLQNSNLNLKSVANHLFLNTAYFSRFFRESMGIGFKDYLIKLRIAKAKDMLENGQLVTDVCMTVGYTNLSYFSQIFKKQVGLSPSIYRKYYQLIIKEEKNVQKIL NA NA NA NA NA AK015_02568 234 hypothetical protein ATGATGAATACAAAACACTATCGAATCAAGTTGAATGGGGAATTTAATTTTTCAATGATAGACGAAGTATTTGAAGTAATAAAGCTACCATTTATAAGTATGAATAAATATCAATTAGAAGGTGAAGAAAATTTATTTTTTGTAAGAATAGAACTTCAATGTAAAGCAGATAAGCGTATAAAATATATAGAAGAGTCTTTATTAGGAATGGAAATACTTATGCTAGTAACATAA MMNTKHYRIKLNGEFNFSMIDEVFEVIKLPFISMNKYQLEGEENLFFVRIELQCKADKRIKYIEESLLGMEILMLVT NA NA NA NA NA AK015_02569 315 hypothetical protein ATGAAGAAAATAAAATTAATTGCGAGCGACGGACTATTTCAGGCTGGTCATACCGTGCAATATAATAGCTTTCCAACTAGAAAGTATACTTCTCAATCTGTGTTTAATGATAATAGAGGAAGTGAGTTTAAAAATAAGCTTATTGATGAAGAACTAGATACATTTGGTATGGAGAGATCATTAAGTGATAAAGGCAAACCTTATGACAACGCAGTATCTATGGCAGCATTCAAAAAAATAAAACGGAATTTGTTAGTAGCAAAGTCTTTACTAGTCCCAATCACCTTAACTCCACGTTCACATGCTCTTCTATAA MKKIKLIASDGLFQAGHTVQYNSFPTRKYTSQSVFNDNRGSEFKNKLIDEELDTFGMERSLSDKGKPYDNAVSMAAFKKIKRNLLVAKSLLVPITLTPRSHALL NA NA NA NA NA AK015_02570 1482 hypothetical protein ATGGGGGGTTTAGAAGGAGTACTATCAGGTTTTCAGGTTGCTTTTAGTGTAGAAGGGATTATTTTTGTTTTTATCGGTGTGTTGGCAGGTACTTTTATTGGTATGTTACCGGGATTAGGTCCAATTTCAGCAATTGCGGTCATGATTCCTATATCTTATGGGTTCGATCCTACTATTGCTCTTGTTATGATGGCGGGAGTTTATTACGGCGCTGTATTTGGAGGTTCTACATCATCGATTTTGTTAAATGCTCCAGGTATATCTGGAACAGTAGCCACTGCTTTTGATGGTCATCCATTGGCTAAACAAGGAAAAGCGGGAAAAGCACTTGCCATTGCAGCTATTTCTTCTTTTATTGGTGGAACGGTAGGAATTGTATTACTCATGTTATTTGCTCCAATGCTTGCTTCAGTGGCGATTGCATTTGGACCGCCTGAGTACTTTGCTTTAATGTTAGTAGCGCTAACGGCTATTGCTAGTTTATCAGAAGGTTCTCTTGTGAAAGCGTTTATTTCGGGAGTGATTGGTTTTATGTTTGCCACAGTAGGGATTGATGCGCAAACTGGAACCCCTCGATTTACGTTTGGGATGACAAATTTATTAAGTGGTATTGAATTTTTAGTTATAGCTCTAGGTTTGTTTGCTTTGGCTGAAATTTGCTTTTTGATCATCAACTCTGTTAAAGAGAAGAACGATATACATCATAATATTGGTAGTCTCAAGCTGACGAAATCGGATTTTAAAGAAATGAAAGGGCCAGCAACAAGGCAATCTTTTCTTGGATTTATCATTGGTGTGTTGCCGGGGGCAGGCGCAACGATTGCTTCTTTTATTGGTTATATTGTTGAGAAAAAATTATCGAAAAAACCTGAGCAATTTGGGAAAGGGTCCATAAAAGGATTAACAGCCCCAGAAACAGCTAACAATGCAGCTACCAGTGGTGCGTTTGTTCCATTATTAAGTCTTGGAATCCCAGGATCAGGTACGACGGCTGTGTTATTAGGAGCGTTACTTGTGCTAGGAGTGCAACCCGGTCCTCTGTTATTTGAGGATGAGCCGACCTTGTTTTGGGGCGTTATTGCTAGTATGTATATCGGAAATGTCTTTTTATTAATATTGAATTTGCCGTTGATCCCGTATATTGCCAAGCTGTTACTCATTCCTAGACCACTTCTTATATCACTAGTAATTACATTTTGTATGCTTGGCGTTTATGCTATTAGTTTTAACACATTTGATATTTACTTATTACTTTTATTTGGGGTTATTGGTTTTTTAATGCGATTAGCTCGCTTTCCTGCGCCTCCGTTTATTTTAAGTTTTATTTTGGGAGGAATGATGGAGCAATCTTTAAGGCAGTCACTGACTATTTCTGAAGGTAACATGGGCATTTTTTTAGAAAGTCCTATAGCAATTGCTCTCTTTATAGTAGCTTTATTGTCCATTGTTATTCCTGCTTTTAAAAAGAAAACGATTACTTGA MGGLEGVLSGFQVAFSVEGIIFVFIGVLAGTFIGMLPGLGPISAIAVMIPISYGFDPTIALVMMAGVYYGAVFGGSTSSILLNAPGISGTVATAFDGHPLAKQGKAGKALAIAAISSFIGGTVGIVLLMLFAPMLASVAIAFGPPEYFALMLVALTAIASLSEGSLVKAFISGVIGFMFATVGIDAQTGTPRFTFGMTNLLSGIEFLVIALGLFALAEICFLIINSVKEKNDIHHNIGSLKLTKSDFKEMKGPATRQSFLGFIIGVLPGAGATIASFIGYIVEKKLSKKPEQFGKGSIKGLTAPETANNAATSGAFVPLLSLGIPGSGTTAVLLGALLVLGVQPGPLLFEDEPTLFWGVIASMYIGNVFLLILNLPLIPYIAKLLLIPRPLLISLVITFCMLGVYAISFNTFDIYLLLLFGVIGFLMRLARFPAPPFILSFILGGMMEQSLRQSLTISEGNMGIFLESPIAIALFIVALLSIVIPAFKKKTIT PGPT0017350_3406 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793 NA NA AK015_02571 450 hypothetical protein ATGTTAAAAACATTAAATAGAAAAATTGCAGTGCTTCTGTGGTGCATAGCTATTTTATATCTTTTCTTTGCCTATAGATTACCATCCTATGCTTATGTACCAATAGATTCGAATGCTTTGCCAATAATTTTAGGAATATTATTACTAGTTCTTTCCACGATCTTATTTTTCGGAAAAGGGGACTCTGAAAATGACAAATTAAATATAAATAAGACTGATTTGCTGAAATTACTTGGTGTCTTTTTGCTCAACGTTCTTTATGCTAGTTTTTTAGAGAGTTTAGGATTTGTAATTGTAAGTATTTTCTTCATATTCTTTTGCTCGTATTTATTAGGGTATAGAAAACATGTAATTAATGCTGTTACAGCTATTCTCGTACCATTAACATTTTATCTTTTATTTACGAGTGCATTACAAATTAGGTTGCCACAAGGGGTCATGCCTTTTTAG MLKTLNRKIAVLLWCIAILYLFFAYRLPSYAYVPIDSNALPIILGILLLVLSTILFFGKGDSENDKLNINKTDLLKLLGVFLLNVLYASFLESLGFVIVSIFFIFFCSYLLGYRKHVINAVTAILVPLTFYLLFTSALQIRLPQGVMPF PGPT0017355_2276 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794 NA NA AK015_02572 1032 hypothetical protein TTGTTATACAAAAATGAAAGGGTGATTACGTTGAGAAAAAAATGGGGTTTGATTTTAGTATTTGTAAGCATGGTTACTCTAATCGCTTGTTCCAATAGCAATAAAGCGGATAGTGGGGAATGGTCACCAAAAGAACCGATTGAGATTGTCGCTCCTGCTGGTGCTGGAGGTGGCTGGGATACAACTGCGAGAATGGCTGCAAAAATATTTGAGGAAGAAGGAATGGTAGAGCAAGATATTGGCGTAGTAAATAAACCTGGTGGAGGGGGTGCTGTTGGTTGGGCTTATGTAGCTGAGAAAGCAGGAAATCCGCATCATATGTTTATCGCTTCGCGTCCACTCATTGATGTGCCATTAAATGGTCAATCTCAGTATGATCATAATGATTTCACACCAATTGCCAATGTAATTGCTGATTATGGTGCTTTTGCAGTAACGGCAGATTCAAAATGGGAAAATTTAAACGACTTGTTTGAAGATATGAAGAAAGACCCTTCTTCCGTTACAATCATTGGCGCATCTTCTCCTGGGAGTATGGATCATATTCAATTTGTGAAAATTGCTAAGGAAGCTGGAGTAGATATTAAAAAAATTAAATATGTATCTGAGCAAGATGGAGGAACATTAACAGCTTTATTGAACGGAAGTGCTGATGTTTATTCAACTGGTGTTGCGGAAACCATTGAACAAGCAAAGGCAGGTAAAATCAAGGTGCTTGGAGTCACTTCAGAAGAGCGATTAGAGGGAGAAGTTATTTCTGAATTTCCGACAGTTCAAGAACAGGGAATTGATTCCAATTTTGTGAATTGGAGAGGTTTTTTTGCTCCACCTGATACAGATGAAAGTGCTATAGATTACTATGTTTCTAAATTCAAAGAATTAAATGAGTCAGAGGCATGGAAAGAAATTCGGAAGCAGTATGGTTGGGATGAAATGTTTATGTATGGAGAAGAGTACAAAGATTTCTTAGATGAACAGAAAGAAGAGTCTGAACAACTACTGGATGAGCTAGGAATATCAAAAAATGAATGA MLYKNERVITLRKKWGLILVFVSMVTLIACSNSNKADSGEWSPKEPIEIVAPAGAGGGWDTTARMAAKIFEEEGMVEQDIGVVNKPGGGGAVGWAYVAEKAGNPHHMFIASRPLIDVPLNGQSQYDHNDFTPIANVIADYGAFAVTADSKWENLNDLFEDMKKDPSSVTIIGASSPGSMDHIQFVKIAKEAGVDIKKIKYVSEQDGGTLTALLNGSADVYSTGVAETIEQAKAGKIKVLGVTSEERLEGEVISEFPTVQEQGIDSNFVNWRGFFAPPDTDESAIDYYVSKFKELNESEAWKEIRKQYGWDEMFMYGEEYKDFLDEQKEESEQLLDELGISKNE PGPT0017360_229 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795 NA NA AK015_02573 240 hypothetical protein ATGGAACGAAAAGCACTTACACAGCTTAGAAAGAAACATCAATTAACTCAACAAGAATTAGCAAAAGAATTGGGTATTTCAACTATCTATGTCAGAAAAATAGAAAAAGGAGATGCTGATCCTGGTCGAGATACAATGGTGAAGTATGAATTATTTTTCAACGAAGATATAAAAAAGCTTTTCCCAGATATTTTTTATGCTATTGATAAGGAAAAGCAAAATGATAAAGAAGTGATCTAA MERKALTQLRKKHQLTQQELAKELGISTIYVRKIEKGDADPGRDTMVKYELFFNEDIKKLFPDIFYAIDKEKQNDKEVI NA NA NA NA NA AK015_02574 345 hypothetical protein GTGAAAAAGAACTCTCCTGTATTTGGAAATAGATTGAAATTTCTACGGAAGCAAAGAGATTTAAAACAGGAAGATGTTGCAAAATCTCTGGGTATTTCTCGTGCTAGATATTCCCATTACGAGAACAATCATGTAGAGCCAGATATAGAAATGCTTAAAAATTTATCACAGTTTTATAATGTAAGTATTGATTACTTGGTAGGAAATAGCATTAAAAACAAGAATAAAGATGAAGTTTTAAATATTGATCCAGAATTAGAACTCTGGTATAAAGAATTACCAAGCAATGGAGAGGAGGATATGCGTCGTCTTAAAAAAATTTGGGATGTTTTTAAAGAGGAATAA MKKNSPVFGNRLKFLRKQRDLKQEDVAKSLGISRARYSHYENNHVEPDIEMLKNLSQFYNVSIDYLVGNSIKNKNKDEVLNIDPELELWYKELPSNGEEDMRRLKKIWDVFKEE NA NA NA NA NA AK015_02575 441 hypothetical protein TTGAAAAAGTATGCCAACCTTATACTAATATTAATAAGTTTTATGCTGTTTGGTTGTAACACTTCAAATTCGGAAGAAGCAGAACAAGTACCAACATCTGGTGAAATCATTGTACATTCAAATAAATATGAAATGATACCAGGAAATTATGTCTCTAAAGGAGAGCCAGAAATACATTCTGTAGATACTCCTTCTGTATTGGAACTTTCTAAAGAATTTGAAACACTTACGGTCAATAACAATAGTAGTATAGAAATTATCATTAAAGAAAATCCATCACTTACTGTTTTTGAGTGGAACGAAGATGAACAAACAAAAGAAGTTGCTTTTAAAGACAATAAAATAAATGTCCCAGAAAAAGAAGGAGTTTATATTTATGAAGTGAAAGCCAAGTGGGAAAACGGGGAGGCATCGTTTATATTTGATGTAGAAGTTAAATAA MKKYANLILILISFMLFGCNTSNSEEAEQVPTSGEIIVHSNKYEMIPGNYVSKGEPEIHSVDTPSVLELSKEFETLTVNNNSSIEIIIKENPSLTVFEWNEDEQTKEVAFKDNKINVPEKEGVYIYEVKAKWENGEASFIFDVEVK NA NA NA NA NA AK015_02576 1335 citN COG2851 Citrate transporter ATGGGAGTTTTAAGTATCATTGGATTTTTGACGATTATCATCATTGTACTATTATTAATTCGCGGACGTGTGGCACCAATTATAGCATTAGTGTTAACGCCTATCATTGCTGCAGTCATTGCTGGATTTGGTCTAGAAGACATCGGAACATTTTTTAATGATGGGATTGCCGATGTTGTACATGTTGCAATTATGTTTATTTTTGCGATTCTTTTTTTCGGTATTATGCAAGACGTTGGATTATTTGATCCATTAATTCGAGGGATGATTACCATATCGCAGGGGAATGTCATCGCAATTAGTGTTGGTAGTGTTTTTATTGCTGCTATTGCTCAATTAGATGGGTCTGGAGCATCTACATTTCTTATTACCATACCAGCATTGTTGCCGCTTTATAAAAAGTTAAAGATGAATCCATATTTACTTCTGCTATTGATTGCAGGAAGCGCAAGTATTATGAATATGTTACCATGGGCAGGACCGTTGGGCAGATCGGCTTCTGTATTAAATATGGATGTCACGGAATTATGGAGACCGTTAATACCTGTTCAAGCCATTGGACTTGTACTTATGATTGCTTTAGCTATTGTTCTTGGATATCGAGAAAAAAGGCGAATTACGAAAGAATACGGATCCGTAGAAGCGGCGGCAGCTATGGAGCCTGATGTAACTAGCGTAGACGCTACGTCAGAAAGTATAAACAAAGCGTCAGAAACTGTTGCTTGGAAATTTTGGCTTAACGTTTTATTAGCCATTGCCGTTGTAGGGACATTAGTATGGGGCATTATCCCAGCAGGGCTTGTATTTATGATTGGGGTAAGCTTAGCGCTACCACTAAATTATCCAAACATGGAGGATCAAATGGATCGCATTCGCTCCCATGCTCCAAATGCCTTAATGATGGCGACAATTATACTGGCAGCTGGAACCTTCTTAGGGATTCTAACTGGTACGGGAATGTTGAATGCGATTGCAGAAGATGTGGTCAAAGTGATCCCAGCATTCATTGCGCCGTATATTCATTTAATTATCGGATTCTTTGGTGTTCCATTTGATTTGTTGTTAAGCACGGATGCGTATTATTTTGCATTAATGCCAGTAGTCGAACAAATTGCAACTGGATTTGGGATTGATTCTCTATCTACTGGTTATGCGATGATTGTTGGCAATATTGTTGGAACGTTTATTAGTCCGTTTTCGCCAGCAGTCTGGTTGGCTCTGGGATTGGCAGGCTTGGAAATGGGACGTCATATTCGTTATTCCCTGTTTTGGCTATGGGGACTTAGTATTGTTCTCTTAGCGAGCACCGTAGCTATTGGATTAATTACTGTTTAA MGVLSIIGFLTIIIIVLLLIRGRVAPIIALVLTPIIAAVIAGFGLEDIGTFFNDGIADVVHVAIMFIFAILFFGIMQDVGLFDPLIRGMITISQGNVIAISVGSVFIAAIAQLDGSGASTFLITIPALLPLYKKLKMNPYLLLLLIAGSASIMNMLPWAGPLGRSASVLNMDVTELWRPLIPVQAIGLVLMIALAIVLGYREKRRITKEYGSVEAAAAMEPDVTSVDATSESINKASETVAWKFWLNVLLAIAVVGTLVWGIIPAGLVFMIGVSLALPLNYPNMEDQMDRIRSHAPNALMMATIILAAGTFLGILTGTGMLNAIAEDVVKVIPAFIAPYIHLIIGFFGVPFDLLLSTDAYYFALMPVVEQIATGFGIDSLSTGYAMIVGNIVGTFISPFSPAVWLALGLAGLEMGRHIRYSLFWLWGLSIVLLASTVAIGLITV PGPT0001500_433 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 AK015_02577 741 citT COG4565 Transcriptional regulatory protein CitT ATGGAGAAACAGGGGATACAGGTACTAATTATTGAAGACGATTTTCGCGTTGCAGCGATCAATCAACAATTTGTGGAACAAGTAGAAGGATATCAGGTTGTAAAAAGTGTCAAAACAGCTGAAGAAGCGTATCATTATTTGCGGCAGCCAGGGGCAGAAATAGATCTCGTATTATTGGATATCTATATCCCAGATGTAGAAGGGTTGGAACTTTTTTGGCAATTGCGTACCCACTGTAAACGAGTAGATATTGTGGTAATCTCCGCTGCGATAGAAAAAAATGTCATTGAGGAAGTGCTACGTGGTGGCGTGATTGATTATATCATTAAGCCTGTGGATGCAGAGCGGTTTATAAAGATGTTGAAGCAGTATCAACAAAGGCGTCGTTATCTGATGTCGAAAGAAGTTTTAGAACAGCATGAAATCGATGGTCTGATTGAAAGACAGATCGGGGGTTTCTCTCCTACAAAAAAAGCGCATGGCCAGTTGCCTAAAGGAATTGATCCGATTACGTTAGATGAAGTTACCAATCTATTTCAAACTCAAAAGGTAAAAGGAATTACAGCTATGGAGTTAAGTGAACAAATTGGGACGAGCCGATCAACTGCTAGGAGATACTTGGAGTATCTCGTTTCCTTAAAAAAGATTAAGACAACACTGCTGTATGGAAATGTAGGCAGACCAGAAAGGCGTTATATCCTTTGTGAAACTTATGAACAAAATGCAACAAATAACAGTTAA MEKQGIQVLIIEDDFRVAAINQQFVEQVEGYQVVKSVKTAEEAYHYLRQPGAEIDLVLLDIYIPDVEGLELFWQLRTHCKRVDIVVISAAIEKNVIEEVLRGGVIDYIIKPVDAERFIKMLKQYQQRRRYLMSKEVLEQHEIDGLIERQIGGFSPTKKAHGQLPKGIDPITLDEVTNLFQTQKVKGITAMELSEQIGTSRSTARRYLEYLVSLKKIKTTLLYGNVGRPERRYILCETYEQNATNNS PGPT0001490_4 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 AK015_02578 1677 dcuS_3 COG3290 Sensor histidine kinase DcuS ATGTTTATTTTACATAGGGAGAAAGATAGCATTGCTAATAAACGATATTTCAGTTTAAAGGTGAAAATGATCATGCTTATAAGTATCTTGCTTATAGGGATGTTTGTTATTTTTGGATTGTTTCTCCGCTCGTTTATAGCAACAACGATGGAAGATCAAATAGCAAAGCGGGCGTTAAGCGTATCTAAAAGTGTCGCGAATATGCCAAGTGTACGCGATGCTTTTGAGTTAGAGCGTCCAGAAACGGTCATGCAAAATATTGTCGGACCCCTTCAACAAAACATTGGAGCAGAGTTTATAGTTATAGGAAATAAGGAAGGCATTCGTTATGCACATCCAGACCCGAAAAAAATTGGAAAGCCAATGGTTGGTGGGGATAATTCTCGTGCCTTAGAAGAAGGACAGTCATATATCTCAAAGCGTGAAGGGTCGTTAGGGTTATCCATTCGCGGAAAAACACCTATTAGAGATAAGCGTGGAGAAATTATTGGTGTGGTATCGGTTGGCTTCTTAAATGAAGAAGTGCAACATATTATTGAGGAGCAAAGCAGATCTGTTTGGTTAATGCTGTTTGGTATTCTTTTCATAGGGGTTATAGGCGCTATTCTGATTGCTACCTATTTAAAAAAATTATTATCGGGAATGGAGCCTGAGGAAATCACTCAACTATTATTGCAAAAGGAGGCCATTTTACAGTCTACACATGAAGGAATTATTGCTGTGGATAACCAAGGGAAAATGATGATGATGAACGTTGCTGCGCAAACTATTTTATTCGAGCGAGAAATAGATAGAAGGTCGTATGTAGGGAAAAGTGTTGATGAATTTTTACCTCATACGGGGTTATTTGATGTTTTGAAAACAGGTGAGAAGCATTTTAATAAAGAGATGATCCTTGGTGATGTCATTGTTTTGACGAACCGAATGCCTATCTTTCATCAACATACTATCATTGGGGCGGTTACTACATTTCGTAAAAAAACGGAGCTGGAAAGCATTACAAAAGAGTTATCGCAAATGAAACAATATGCCAATGCCCAACGTGCACAAACGCATGAATTTTCTAATAAATTGCATACTATTCTAGGTTTGTTACAGCTAGATAAGCAGGAAGAAGCGATCGCTTATATAAAGCAAGAAAACAAAACCCAAGGGACACTTTCGCGATTTTTACTGCAACAAGTAGCTGATCCAATGGTTCAAGGGTTGCTACAAGGGAAATGGGATCAAGCTAGCGAACTTGGCATTACGATGACGATTGATCCAGATAGCCAGCTTTCTACTAGTTTTGTTGGAGAAAAGCAACGGGCGTTTTTAACAGCGGTCGGTAATTTGCTTGAGAATGCTATCGAGTCTGTGAAAAAGGAAGCAAAATCGAATCGTAACATGACGGTTCTATTTACAGATATTGGTGAAGATGTCATTGTAGAGGTGGATGATTCGGGAAGCGGGCTTTCACATCAGGATATCGATCCTATTTTTGAACAAGGTTATACGACCAAAGATGGGGCCCATCGTGGTGTTGGTTTAGCATTAAGTAAACATCTTGTAGAACGTGTTGGAGGAGAAATTTTGGTGGAAGAAGGCGAATTAGGAGGGGCTCGTTTTATCATCATTATGCCAAAAGGGGAAGGGGAAAGGCATGGAGAAACAGGGGATACAGGTACTAATTATTGA MFILHREKDSIANKRYFSLKVKMIMLISILLIGMFVIFGLFLRSFIATTMEDQIAKRALSVSKSVANMPSVRDAFELERPETVMQNIVGPLQQNIGAEFIVIGNKEGIRYAHPDPKKIGKPMVGGDNSRALEEGQSYISKREGSLGLSIRGKTPIRDKRGEIIGVVSVGFLNEEVQHIIEEQSRSVWLMLFGILFIGVIGAILIATYLKKLLSGMEPEEITQLLLQKEAILQSTHEGIIAVDNQGKMMMMNVAAQTILFEREIDRRSYVGKSVDEFLPHTGLFDVLKTGEKHFNKEMILGDVIVLTNRMPIFHQHTIIGAVTTFRKKTELESITKELSQMKQYANAQRAQTHEFSNKLHTILGLLQLDKQEEAIAYIKQENKTQGTLSRFLLQQVADPMVQGLLQGKWDQASELGITMTIDPDSQLSTSFVGEKQRAFLTAVGNLLENAIESVKKEAKSNRNMTVLFTDIGEDVIVEVDDSGSGLSHQDIDPIFEQGYTTKDGAHRGVGLALSKHLVERVGGEILVEEGELGGARFIIIMPKGEGERHGETGDTGTNY NA NA NA NA NA AK015_02579 660 yvcA_1 Putative lipoprotein YvcA GTGAAGAAGCAACGTTACATTTTTTTACTGTTATTACTTGTAATTTTCCTAGGAGGTTGTCAAATGGCAAGTGAGAAAACAAAGAAGCCTTCAGAAATGAACCCCGAAGACCTGCCTGATGTAAGAGCATTTCAAGATGAATTTACTCGCCGTTTCTTACAATCGACAGAAGAAACAAAACCTGGCTATTATCCATTTTTGTCCGGGACGGGGAAGTATGAAATGGATTTCCCTAAAGGTGGGATTATTGGAGAAAGGGCTTATTCCCTAAAGAAAGATCGATACGAAAGTTATTTGATTGGAATTCAGAGTTCATTGTTTGAATCATCTGTAAATATAACATATACAGAGGAAAAAGAAGGAAACGAACAAATCATCTTAGACATGCTAAGAAGGAGCACTAATGAAGACTTAAAATTCAAAAAAGAAGAACTACAAAAGATCCGCCTATATACAGCGCCATTAAATGAATATGGTGATATTGGATTTGTGAGCTACATACAAAATTTGAATGGTATAGGAGGAATTCAATTGACTTATGTGTCAGAATGCGTCAAAGAGAATGAAAAATGCTCGAAAAACATTGAAAAACAAAAGCTTGTAATATTAGATTGGATAAAATCAATACACTTTATTAAAAAAGAAAACGAAAGCGAATGA MKKQRYIFLLLLLVIFLGGCQMASEKTKKPSEMNPEDLPDVRAFQDEFTRRFLQSTEETKPGYYPFLSGTGKYEMDFPKGGIIGERAYSLKKDRYESYLIGIQSSLFESSVNITYTEEKEGNEQIILDMLRRSTNEDLKFKKEELQKIRLYTAPLNEYGDIGFVSYIQNLNGIGGIQLTYVSECVKENEKCSKNIEKQKLVILDWIKSIHFIKKENESE NA NA NA NA NA AK015_02580 1215 hypothetical protein ATGAAACCTAGCAAATATTCAAAAAAACATGGGTCTAACTACACGAAAAAACGAAATGCCTTATTATTAAAAAAATTAAAAGCAAAGCATCAATCTCAGAATCAATCAAAACCATTCAAGAAAAAGTCGCTAACACGTAATAAATATTGGTTTGCACCCAAAAAGCACTATTTACAAAAAAGACCAAAGCAACATGTATGGAAAATTCCTTCTGCCATTTTGTTAGCTTGTTTACTGATGATTATCTTAGTAGTACCTACATTAATTGTCATTCCTTATAGCAAGGGGGATGAAAAAGTAGCGAAAGCCCCCCCAATTGCAAGTAGTGAAGAAACAACCAACCAAAATATGGATTTAGGTAGCTCTCCTTTCTCGGTATCAGTGATGCGTTCGAATGTAGATAAAGTAGAGGGAGTACCTTTAGAGGAATATGTAGTTGGTGTAGTCGCTTCTGAAATGCCCGCAGAATTTGAAAAAGAAGCGTTAAAAGCGCAGTCCCTTGCAGCGAGAACGTATATTGTGAATCAAAAGCTTCATGGTGGAGGAGCTAAACAAGAATCAGATGTCACAGATACAGTGCAACATCAGGTATATAAAGATGAAGGTCAGCTGCAAAAGTTATGGGGGAGCGATTTTGAATGGAAAATGAAAAAAGTAAAAGAAGCGGTGGCAGAAACAAAGGGAGAAATAGTAACCTATAAAGATACGCCAATTACGCCTGCTTTTTTCTCTACGAGTAACGGCTATACGGAGAATTCAGAAGACTACTGGGAAAATGAACTTCCATATTTACGTAGTGTGGAGAGTCATTGGGATGAGGAGTCTCCGAAATATTTAGATCAAAAGACGTTTTCGATACAGCAGTTAGAAAAAGCGTTAGAAGTAGATTTACCGAATCAATTTCCTTTAGCTGTTGAGACTACGCATACAGATAGTAATCGGGTAGAACAGTTGCAATTAGCAAAGCAAACTTTTTCAGGAAGGGAAGTTAGAGAAAAGCTAGAATTGCGCTCAAGTGATTTTACCATTGAACAAAAAAATAACCATTTCATTTTTACAACCAAAGGATTCGGTCATGGAATCGGCATGAGTCAATATGGTGCAAATGGAATGGCTAAAGAAGGAAAAAATTATCAAGATATTGTCCGTTATTACTATCAGGATGTAAAAATAAGTACGATTAATGATACAGCTCCAACTCTTGTCGCAAAATAG MKPSKYSKKHGSNYTKKRNALLLKKLKAKHQSQNQSKPFKKKSLTRNKYWFAPKKHYLQKRPKQHVWKIPSAILLACLLMIILVVPTLIVIPYSKGDEKVAKAPPIASSEETTNQNMDLGSSPFSVSVMRSNVDKVEGVPLEEYVVGVVASEMPAEFEKEALKAQSLAARTYIVNQKLHGGGAKQESDVTDTVQHQVYKDEGQLQKLWGSDFEWKMKKVKEAVAETKGEIVTYKDTPITPAFFSTSNGYTENSEDYWENELPYLRSVESHWDEESPKYLDQKTFSIQQLEKALEVDLPNQFPLAVETTHTDSNRVEQLQLAKQTFSGREVREKLELRSSDFTIEQKNNHFIFTTKGFGHGIGMSQYGANGMAKEGKNYQDIVRYYYQDVKISTINDTAPTLVAK PGPT0024670_481 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381 NA NA AK015_02581 882 spoIIQ COG0739 Stage II sporulation protein Q ATGAAAGAGGAAAACAAAGGGGCTTCAAAAAACAAGTGGAGTCGAATTTTTCGTAAAAAATGGTTCTTTCCAGCTGTCTATTTAACTATTGCCGCTGTATTATTATCTGTTGTCGTTTGGTATCAAAATGTGGACAATCAAGTGCCTGATGCCCAAGAAGGAACAGATGAATTCATTCCATCTGAGCATGGAGAAAGAGCTGAACCTGTGTTGGAGCAACAGGAAATGATCCAAATGCCTGTGACAAACCCAGAAGAAGCAGAAATCGTAACTAAATTTTATGATTACAATGCAGATCAAGAAGAGCAAGAGCAGGCCTTGGTTCTGTACAACAATAAGTACTATGAGAGTGATGGTGTAAATATTGCTTCTGCAAGTGGTGAATCATTTGAGGTTGTAGCAGCTTTAAGTGGTGAAGTTACAGAAGTAAAAGAAGATCCGCTATTAGGAAATGTTGTTGTACTTACCCATGAAGATGATGTCCAAACCTATTATGCTAGTCTTGAAGAAGTAGATGTAAAGGCAGGCTCTGAAGTGAAGCAAGGTGACTCATTAGGTAAAGCAGGTAAGAGCGTATTTGGCAAAGACAGCGGAACGCATGTTTACTTTGAGCTACGTAAAGAGGATCAAGAAGTTAACCCAGAAGCATACTTCAATCAACCGGTAAGTAGCTTGAACAGTGCAGTCGAGGAAGAAACGAAAGATGTGGATGCTCAAGATGAAGCAGATCAACAAGGAACGGAAGATGCAGAAGAAGAAGAACAAGAAACCGAAACCCCTTCTGATGACAGCGAAACTACAGATGAAGAATCAGATGAAACTTCAGAAGAAGCAGATAATGTGGATAAAACGAAAGAAATGGACCCTGAGTTGAATAATTAA MKEENKGASKNKWSRIFRKKWFFPAVYLTIAAVLLSVVVWYQNVDNQVPDAQEGTDEFIPSEHGERAEPVLEQQEMIQMPVTNPEEAEIVTKFYDYNADQEEQEQALVLYNNKYYESDGVNIASASGESFEVVAALSGEVTEVKEDPLLGNVVVLTHEDDVQTYYASLEEVDVKAGSEVKQGDSLGKAGKSVFGKDSGTHVYFELRKEDQEVNPEAYFNQPVSSLNSAVEEETKDVDAQDEADQQGTEDAEEEEQETETPSDDSETTDEESDETSEEADNVDKTKEMDPELNN PGPT0024695_84 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024695-spoIIQ-K06386 NA NA AK015_02582 288 spoIIID Stage III sporulation protein D GTGCACGATTACATCAAAGAACGAACGATCAAGATAGGGAATTATGTGGTGGAAACAAAAAAAACAGTTCGCGTTATAGCAAAGGAGTTCGGTGTTTCTAAAAGTACAGTCCATAAAGATCTAACGGAAAGATTACCCGAGATTAATCCAGAATTAGCAAAGCACGTTAAAAAAATTTTAGAACATCATAAAGCAATTAGACATTTGCGAGGTGGGGAAGCAACGAAAAAGAAATATATGGTAGATGCAGATTCAACCACTAAAAAAGAAGTAAAACCTGTAGGATAA MHDYIKERTIKIGNYVVETKKTVRVIAKEFGVSKSTVHKDLTERLPEINPELAKHVKKILEHHKAIRHLRGGEATKKKYMVDADSTTKKEVKPVG PGPT0024715_68 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024715-spoIIID-K06283 NA NA AK015_02583 1002 mbl COG1077 Cell shape-determining protein Mbl ATGTTTTCAAGGGATATAGGAATTGATCTTGGAACAGCAAACGTCTTAATTCATCTCAAAGGAAAAGGGATTGTTTTGAATGAGCCGTCTGTTGTTGCCATGGATCGAAATACAGGAAAAGTTTTGGAAGTTGGCGAGGCAGCAAGGAAAATGGTTGGTCGAACACCAGGTAATATTGAGGCAATTCGTCCATTGAAGGATGGAGTAATTGCTGATTTTGATGTTACTGAAGCAATGTTAAAGCATTTCATCAATAAGATTAATGTCAAAGGATTTTTAGCGAAACCAAGGATTTTAATATGCTGTCCTACCAATATTACAAAAGTGGAACAAAAAGCGATTAAAGAGGCAGCAGAAAAATCAGGTGGTAAAAAAATTTATTTAGAAGAAGAACCAAAAGTAGCTGCAATCGGTGCAGGTATGGAGATATTTCAACCGAGTGGGAATATGGTCGTTGATATTGGTGGCGGTACGACGGATGTAGCTGTTCTTTCAATGGGAGATATTGTTACATCTGAGTCCATTAAAATGGCTGGTGATAATTTTGATAGCGAAATTCTTCAATACATAAAGAAACAGTATAAATTGCTGATCGGTGAGCGAACGGCGGAAGAAATTAAAATTAACGTAGCTACTGTTTTCCAAGGTTCGCGTAATGAAGAAATGGAAATTAGAGGACGTGACATGGTCTCTGGTTTGCCGCGAACCATTACAGTGAACTCCAAAGAAATTGAAGAAGCATTGCGTGAATCTGTTTATCTCATTGTACAAGCTGCAAAATCTGTCTTAGAACGTACACCTCCAGAACTTTCTGCCGATATTATAGATAGAGGAGTTATTTTAACAGGTGGCGGGGCCTTGATTCATGGTATTGATGAGTTGTTGGCTGAGGAATTAAAGGTGCCTGTTTTTATTGCTGAAGAGCCAATGAATTGTGTCGCTAAAGGTACTGGTATGATGTTAGAAAACATTGACAAAGTCGACCGTAAAAAAGTGATATAA MFSRDIGIDLGTANVLIHLKGKGIVLNEPSVVAMDRNTGKVLEVGEAARKMVGRTPGNIEAIRPLKDGVIADFDVTEAMLKHFINKINVKGFLAKPRILICCPTNITKVEQKAIKEAAEKSGGKKIYLEEEPKVAAIGAGMEIFQPSGNMVVDIGGGTTDVAVLSMGDIVTSESIKMAGDNFDSEILQYIKKQYKLLIGERTAEEIKINVATVFQGSRNEEMEIRGRDMVSGLPRTITVNSKEIEEALRESVYLIVQAAKSVLERTPPELSADIIDRGVILTGGGALIHGIDELLAEELKVPVFIAEEPMNCVAKGTGMMLENIDKVDRKKVI PGPT0027700_3720 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 AK015_02584 804 flgG_2 COG4786 Flagellar basal-body rod protein FlgG GTGTTAAGAGGCTTTTATACAGCTGCTAATGGCATGATCACACAACAACGACAGCAAGAAGCTTTTGCGAATAATATTTCCAATACGAATACTCCAGGCTATAAAGCAGATCAAACGACGTTGCGTGCTTTTCCTGAAATGCTATTACATCAAATGTCAGGAAAAAAGCTTCCAGTACAAAATAAACCAAATGTACCATTTCAGCAACCAATAGGTTCGCTAAATACGGGAGTATATGTTCAAGAAATGATCCCAAATTTCGAACAAGGAGATGTCCAAGAGACGGGGCTTTCTACTGATTTTGCATTAACCCAAAGAGATTTACCTGATGAATCCGGGGCGCTCTTTTTTACCGTGCAAAATGAGTCTGGAGATGTACGCTATACTAGAAATGGGAACTTTACCGTAGATGGCGCCGGGTTTTTAGTTACTAACGAAGGATACTATGTGTTAGACGAGAATGGGGAGCCTATTGAAACAAATGATATGGACTTTACAGTAACCTCTGATGGTTTATTACAAACTGCTGATGGCGCAACGGCTTTAGGAATTGCTTATAGTACAGATGTAAACACAATGGTTAAGGAAGGGAATAATGTGTACGCAGGAGATGTGGAAGCAGTTCCCGCAGAAGCCATTTATTCCGTGAAACAAGGCTTTCTGGAAAGATCGAATGTGGATGCTTTACAGGCAATGACACAAATGATGGAATCTTACCGTTTATTTGAAACGAACCAGCGTGTACTAAAAGCGTACGATCAAAGTATGGAAAAAGCAGTTAGTGAAATCGGACGTTTAGTGTAG MLRGFYTAANGMITQQRQQEAFANNISNTNTPGYKADQTTLRAFPEMLLHQMSGKKLPVQNKPNVPFQQPIGSLNTGVYVQEMIPNFEQGDVQETGLSTDFALTQRDLPDESGALFFTVQNESGDVRYTRNGNFTVDGAGFLVTNEGYYVLDENGEPIETNDMDFTVTSDGLLQTADGATALGIAYSTDVNTMVKEGNNVYAGDVEAVPAEAIYSVKQGFLERSNVDALQAMTQMMESYRLFETNQRVLKAYDQSMEKAVSEIGRLV PGPT0015490_416 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391 NA NA AK015_02585 828 flgG_3 COG4786 Flagellar basal-body rod protein FlgG ATGTCAAGAACGATGATTCAGGCTGCGGTAACGATGAATCAACTGCAAAATAAAATGGATGTTATTGGTAATAACATGGCTAATAGTCAAACAACTGGTTATAAAAGTAGACAGGCAAACTTTTCTTCGCTACTTTTTCAACAGATGGATAACCTTACAGATCCTGCAAATGCAGAAGGAAGAATGACTCCTGATGGTTTACGAATTGGTTCTGGAGCAAAATTGGGTTCCATTAACGCAGATTTCCAAGTTGGTTCTTTGCGTAAGACAGATCGCAGTTTAGACACGGCATTGTTAGCACCAAACCATTTCTTTCAAGTAGAAGCAACAGAAAATGGAGTAACAGAAACACGTTATACAAGGGATGGCGCATTTTATCTAACTCCGATAAACGGAAATCAAGAAGTGATGCTTGTGGATAAAAACGGAAATGCTATTCTGGGTGCTGATGGCCCGATTATTACAGCTACTGGATTTGACGCCATTGCTGTACAGCCAAATGGACAGATCGTAGTGAAGCGTGGCGATGACAGTGAAGTTGTAGGAACACTTGCTATTGTTGAAGCTTTGCGACCCCATTTACTTGAAGCTGCAGGGGAAAATACATTTCGTTTATCTGAGGAAGCAAATGCTCAAGTAGCATTTGCTGATGCTATTCAACCAGCAGCTGGGGGTAAAATGCTTGAAAGTGGAAAATTAGAAGCTTCTAACGTAAACATGTCCAAGGAAATGTCTGATTTAATTATGACACAGCGAGCTTATCAATTTAATGCTAGGACGATTTCTATGGGTGATCAAATGTCTGGGCTGATTAATCAGCTACGTTAA MSRTMIQAAVTMNQLQNKMDVIGNNMANSQTTGYKSRQANFSSLLFQQMDNLTDPANAEGRMTPDGLRIGSGAKLGSINADFQVGSLRKTDRSLDTALLAPNHFFQVEATENGVTETRYTRDGAFYLTPINGNQEVMLVDKNGNAILGADGPIITATGFDAIAVQPNGQIVVKRGDDSEVVGTLAIVEALRPHLLEAAGENTFRLSEEANAQVAFADAIQPAAGGKMLESGKLEASNVNMSKEMSDLIMTQRAYQFNARTISMGDQMSGLINQLR PGPT0015495_148 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392 NA NA AK015_02586 351 hypothetical protein ATGTCCATGCAAAAGAATCCAACTTTCAAAGGCAAATATAATTCGTTTATGAAAGCATGGAAACAACTTTGGCAAAACAAACAACAAGAAACGGAAGCTCATGATGAGCCAAGCCGCCATAATCACGACAAGGAGAATGGTAAGCAAACACCGAATAAAAAGAATGTTCGGATTAGGGTGCGTATTTTTCCAATTTGGTTACGTATCATCGTTACTTTATTATTTTGTATGATTGCTTTGGTTGTTGGATTAATGGTCGGCTATGGAGTCATTGGTGATGGATCACCACTAGATGTGTTAAAAATAGAAACGTGGCAGCATATTATTGATATTGTTACAAAATCAAAGTAG MSMQKNPTFKGKYNSFMKAWKQLWQNKQQETEAHDEPSRHNHDKENGKQTPNKKNVRIRVRIFPIWLRIIVTLLFCMIALVVGLMVGYGVIGDGSPLDVLKIETWQHIIDIVTKSK NA NA NA NA NA AK015_02587 420 fabZ 3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ ATGGATGTAGAACAAATTAAAGAGATTATTCCTCATCGTTATCCGTTTTTACTAGTAGATCGAGTAACAGAGATAGAAGAAGGAAAGCGTGTTGCTGGGTTGAAAAATGTTACAGCTAATGAACCTTTTTTTCAAGGGCATTTTCCTGAATATGCGGTGATGCCAGGAGTGCTTATTATCGAAGCTTTAGCTCAGCTTGGTGCCATTGCTATTCTAGGAAAAGAAGAGAATCGTGGGAAAATTGGATTCTTAGCAGGAGTCGATAACTGTCGCTTTAAACGTCAAGTTCGTCCAGGAGATCAATTACAAATGGAAGTGGAAATTTTGCGCTTAAAAGGCCCAATTGGTAAAGGAAAAGCAGTTGCCAAAGTAGATGGAGAGTTAGCTTGCGAGGCGGAAATCATGTTTGCTATTAAATAA MDVEQIKEIIPHRYPFLLVDRVTEIEEGKRVAGLKNVTANEPFFQGHFPEYAVMPGVLIIEALAQLGAIAILGKEENRGKIGFLAGVDNCRFKRQVRPGDQLQMEVEILRLKGPIGKGKAVAKVDGELACEAEIMFAIK PGPT0008365_3874 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372 NA NA AK015_02588 264 hypothetical protein ATGAAATCAAAGCTTATCATGAAGTTTGGTGCTTCTGTTTTAGTGTTATCACTAATTACTGCTTGTAATATGGGTAATGACGAAGATCCTGCAGATGAGTCTCCGACGGAGGAACAGGACAACAACAACAATCCTGCTGATGATAATGGTGGGATGGATGAAAACGATCAAGAACTACAGGATGAAGATAATGGTAACACGAACGACAATGGCAATGACAATATGATGGAAGATGAAGAAAAGCAAAACGAGAAAAATCAATAA MKSKLIMKFGASVLVLSLITACNMGNDEDPADESPTEEQDNNNNPADDNGGMDENDQELQDEDNGNTNDNGNDNMMEDEEKQNEKNQ NA NA NA NA NA AK015_02589 540 hypothetical protein TTGGGGAAGAAAGGTGGATACGGATTGAAACAGAGGATTACATCGTTGTATGTCATATCACCGCATACAAAAGCAATATACAGGAATGAACATAGCTATTATCGTTCTCGGATTATGGAAAGTGGAAGGGCCGAGAAAATGTCCATTCATAAACCAGAGCAAATTTTAGATAATAGTTGTTTAATATACGGATCTTCATTAGAGGGGAGAAGACTAGCTGTAAAAGATATACTCGATTCTTCAAGTAAGCTTCCTGTACCTGTGATACCAGATAAAGGTGTTTTTATGATGCCAACAGCTTCTGTAAAAAATAAAAATAATGTGTGGCTTACTTATCATCATATTTACGGTTTTGAGGAAAATAAAAGTGGTACATATGTTACTTTTTTCGATGGTTCAGGGATTCAATTGGATATATCGATGAATACTTTCGATTTACAGTATAAGCGGACAAGTCAGGTAATCGTCCATTTGAATCGAACATTTCTCTTTGGACAATCAAAATTCCCTATACCGAGATCACGCCTAAAACGATTGTAA MGKKGGYGLKQRITSLYVISPHTKAIYRNEHSYYRSRIMESGRAEKMSIHKPEQILDNSCLIYGSSLEGRRLAVKDILDSSSKLPVPVIPDKGVFMMPTASVKNKNNVWLTYHHIYGFEENKSGTYVTFFDGSGIQLDISMNTFDLQYKRTSQVIVHLNRTFLFGQSKFPIPRSRLKRL PGPT0025815_201 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 AK015_02590 876 hypothetical protein ATGCATGAAAAGAAAAAGAAATTAATGGAAATCGGCATGAAATTAATTGCTGAAAAAGGCTATCATAATACGTCTATTCAAGAAATTGCCAATAAAGCAGGTATTTCAAAGGGCTCTTTTTACAGTTATTTTCCATCTAAAAAAGCATTTACGATAACAACTGTAAAAGCATTTCACATACAGGTTATGGAAGAACTGAACCAGGTAGATGTGAAAGGTGACGACAAAGAACGCTTTGCCAAACAAATAGCCATATTAATGAAATATATGGAACAACATAAGGACCATATTATGATGTATTTCAGAAGTAATATCCTTATTATTGAAGAGTTGGATCAACAATTATCTGATGTAAGGGTAGATCATTTTCATTGGTTGAAGGACAACTTAGAAAAGATATATGGGGAGCAATTACAGGAATTTTTAATCGACGCGATTATTCAAGCAGAAGGCTTATTACATAGTTATTTCCATTGGTTTGTTTTGGAAAATGTTGATATTGATAAAGAGCAAGCGGGGGAATTTATTGTTCGACGTTTGCATGATTTAATAACGGGTATGTTAAAGCGAGAATCTACACGACTGGTCAATGTGGCACAAATCCCGGAAATCTATAAATCAACGAGAGGATCTACCTTAGAAAAGCAAACATTGCAAAAGGTTTTAAACGCTTTAAAAGAAAAGGTAGCGTTGTTAGATGTGCAACAAAGCAAAAAAGAGCGATTATATGAAGCTGTTCGACTATTGGAAAAGGAAGGGCTTGAAGATTGTAATATCGTTGTTATTCAAGGTTTACTAACCCATTTTTATGCCTATGATATATTAATAGATGATGTCAGTAAAATCGCTAATATATTGAATATTGAATTATTATAA MHEKKKKLMEIGMKLIAEKGYHNTSIQEIANKAGISKGSFYSYFPSKKAFTITTVKAFHIQVMEELNQVDVKGDDKERFAKQIAILMKYMEQHKDHIMMYFRSNILIIEELDQQLSDVRVDHFHWLKDNLEKIYGEQLQEFLIDAIIQAEGLLHSYFHWFVLENVDIDKEQAGEFIVRRLHDLITGMLKRESTRLVNVAQIPEIYKSTRGSTLEKQTLQKVLNALKEKVALLDVQQSKKERLYEAVRLLEKEGLEDCNIVVIQGLLTHFYAYDILIDDVSKIANILNIELL NA NA NA NA NA AK015_02591 855 mdtA Multidrug resistance protein MdtA GTGAAGAAAATTTTAATTGTTGGAACTGTTGTATGGATGATTTTTTTATTAGCTGCATGTAATCAAGAAGAATCGAAAGAGGAAAAGAAAGAGCGCGTAGTACCTGTGGAAACAGAAGAAGTAAAGAAAGGTTCTATTGAAATTGAAAAAAGTATTTATGGCAGAACGCGCCCCTCTGTTTCCAGTCCCGTGATGTTGCAAGCCTCAGGAAAAATTGATGAGTTAAAGGTTAGCAATGGAGATCAGGTGGAGGAAAATGATGTTATTGCCACGATCATATCACAAGCTGGAAGCCAGAGTATTCGTGCACCTAAAGATGGCAAGCTTGTTCAACTAAACGCAAATGAGGGAGAAATGGTGTCTCAAGAAGAACCTCTAGCGATTGTTGCAGATTTTCATCCTTTAACAGTGGAATTGTCTGTAACAGCAAGTGATCGTAAATTATTGGAAGAAGATGATGAGCTACCTATTCATATAGAAGGAAAAGAATGGACAGCAACGATTACTTCTGTTGGTTCCGTTCCAAATGATACAGGGCTTTATCCTGTAGAAGCCGAGATCGATAATGAAGATTCCGAGCTATTACCAGGCATGACCGCTCAGTTAATCGTAACGGAAACGACAATAAAAGATGCTATCGTAGTTCCAACCACTGCTGTGGAAGAACAAGGCGGTGAATCGTTTGTCTATATTGTAAAAGATAAGCAAGCAAAGCGTGTGGACGTTTCTGTGGAAGAATCACAAACAGAAGAAACGGCAATTGAAGGCGACGTGAAATCTGGCGATCAAGTTATCGTAAAAGGACAACTATCGTTAAAGGATGGAAGCCAGGTTAAAGTTGCGAAAGGGGAGTAA MKKILIVGTVVWMIFLLAACNQEESKEEKKERVVPVETEEVKKGSIEIEKSIYGRTRPSVSSPVMLQASGKIDELKVSNGDQVEENDVIATIISQAGSQSIRAPKDGKLVQLNANEGEMVSQEEPLAIVADFHPLTVELSVTASDRKLLEEDDELPIHIEGKEWTATITSVGSVPNDTGLYPVEAEIDNEDSELLPGMTAQLIVTETTIKDAIVVPTTAVEEQGGESFVYIVKDKQAKRVDVSVEESQTEETAIEGDVKSGDQVIVKGQLSLKDGSQVKVAKGE PGPT0003275_6569 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585 NA NA AK015_02592 3069 swrC COG0841 Swarming motility protein SwrC TTGAAGTTAATTAAAACATCTGTCAAACGTCCCGTTGGCGTTATTATGATTGTTGTTGCTCTACTAGCTCTGGGAGCTGTTTCTTTACGGAGCTTGACCGTAGATCTTTTTCCAAAAATTGATCTCCCAGTAGCAGTTGTAGCGACATCTTATCAAGATGCAGCGCCACAAGAAGTAGAAAATTTAATCAGTAGACCAATTGAATCAGCAGTTAGTACAGTAGAAGGAATTGAAACGGTACAATCGCAATCGCAAGCCGGTTCTTCGCTTGTCTTACTTATGTTTAAAAATGGCACAGATTTAGATCAAGCTTTATTGGATGTAAGAGAAAGTGTTGACCAAGTGAAAGGGGTTCTTCCTAGTCAAGCAGGGGACCCAAATATCATGCGTTTTAATCCAGACCAACTGCCCGTTATGTGGGTTGGTTTAACTGGAGAAAATGTAGCATCGTTAACGGAAACCGCTGATGAACAAGTCGTCCCATTTTTGGAGCGACAAGGTGGTGTAGGTTCCGTTAATGTAGAAGGTGGAAAAGAACGAGAGATTCAATTAATTCTTGATGAAGCTAAACTACAACAGTATGGAACTACTTCCCAAGCTATTATGCAGGCGTTGTCGAGTACGAATCAATCAGCGTCAGTAGGTACAGTGGAGAAAGGTGACAAAGATTTACAAATTCGAGTAACCGGGCAATTTGAATCATTAGAGGATATCAAACAAACGATCGTTCAAACGGAATCTGGCGCAACGGTGCATGTTAATGATTTAGCTGAAGTGAAAGATGACTTTAAAACAGATGCTGGGCTAACCTTAGTTAACGGTAAGCCTTCTGTAGTGTTATCTATTTTAAAAAAGACAGATAGTAATACAGTGGAAGTAGCTACCAACATAGAAGATAGCTTAAAAGAAATAAAACAAGATTTACCTTCAGACGCTAATTTGGACGTTATTATTGATACATCTGATTTTATTCAAATGTCGATTGACTCTGTTGTACAAAACATTTTAATTGGTGGGGTTATCTCCATATTTATTTTGCTTCTCTTTTTAAAAAGTGTCCGTGCAACGATTGTTATTGGTTTGTCAATACCAATTGCGATTATAACAACGTTTATTTTAATGTACTTTACAGGTGAAACATTAAATATATTAACTTTAGGTGGTCTAGCACTTGGGCTCGGCATGATGGTAGATAGCTCTATTGTTATCTTGGAACATATTTATTCATATAGACAACGTGGATATAGTTTAAAAGATGCAGCTATACAAGGAGCGACGGAGTTAGCGCCTGCGGTAATTGCTTCAACAACAACGACATTGGTTGTATTTCTACCAATTATTTATGTAGAAGGAATTGCCTCTGATATGTTTACACCTTTGGCACTAGCAGTTTCGTTTTCCCTAATTACTTCTTTAGTAGTAGCAATTACTTTAGTGCCAATGCTATCTTCTAAACTGTTACAAAAAGCGTTGCAAGATAGTGGGAAACGTTATTGGTTCGATCGCTTTTTAGGTTGGATAAATGCCAAATATAAAAAGGTTCTTAAATGGGTACTTGGTCATCGGAAAACAACCGTTTTTGTTACCATTTTAGCTATTGTCGGAAGCCTTGCGTTGACACCGTTTATTGGAGCTGAATTTATTCCTTCTGCAGATCAAGGGCAATTAGAAATCCGTGTAGAAACAACGCCTGGGAGTTCTTTAGAGCATACAGAAGACATTGTAGATCAAGTTAATAAGGAATTAACGCCATTTGAATCTGTGATTGAAACAAATTACGTCAGTGTTGGCGGCGGAGGCATGGCTGCTGGAGGTGGAAGCAGTAGTGGAAATCAAGCCGTTTATACAATGCAACTCATTCCTTCGGGTGAACGAGAAAAAACAACGGTGCAAATCGTTCAAGAGATAGATAATAAGTTGCAGGAAATAGCAGGTGCAGAAATTACTGTTCATTCCATGGATTCTGGTATGAATATGGGCGATCCGATTCAAATCCAGTTAAACGGGCCAGAACACGATATGTTAAGAGATATTTCTGAACAAGTTGTACAAGAGATTGAACAAGTAGAAGGAATTTATAATCCTGAGTCGTCAGCTTCTGAAGGTGTACCGCAAATGAATATTGAAGTGGATCAAGAAAAAGCTGCGCTGTATGGACTGAATCAAGAACAAGTCTTAGGGCAAATTCAAATGCAATTTACTGGTCAAGTAGCAACAAAATATAGAGAAGAAGGTCAGGAGATGGATGTTACATTAATGTATCCTGAAGAGAAGCGGAGTAAAATAGAGGATCTGCATGATATGAAAATTCAAACGCCGCAAGGTCCAACCATTTCCTTGGATGAGGTAGCTACATTTAAACAAATGAGTGGACCTGTAAGTTTGCAAAGAGAAAATCAGCAACCACAAATGAATGTGACCAGTCAAATCGTTGATCGTGATTTAGGGAGTATAACCCAAGATGTTGAGCAGACGTTGAATAACATGGATCTCCCTGAAGGTTATAACTATGAAATTGGTGGTCAATCACAGGATATGACAGAATCATTTACTGATTTAGCAATCGCATTAGTATTCTCGATTTTCCTTGTATATGCGGTGATGGCTGTTCAGTTTGAAAACTTCCTATTTCCGCTCATCATTATGTTTGCTATGCCAACAACAGTGATTGGAGTAATGCTTGGACTCTTTATTGCGGGAATTCCATTAAGTATCCCAGCGTTTATTGGAATTATTATGCTGGCAGGGATTGTCGTCAATAACTCCATTGTGCTAGTAGATTATATCAATCTTCTGCGTCGTAAAGGAATGGAACGATACGCTGCTATATTAGAAGCAGGGCCAAGTAGATTGCGTCCAATCCTAATGACGACACTAACCACTATTTTAGCAATGGTACCATTAGCAATGGCTTTAGGGGAAGGTGCGGAAACACAACAACCATTAGCTGTTACAATCATATTTGGTCTCGGGATATCCAGTATCTTCACCCTGCTGTTAATCCCAGTTATTTACACATTATTTGATGATCTAACCGCAAAAATTACAAAACGTCATAAAAAGAAATAA MKLIKTSVKRPVGVIMIVVALLALGAVSLRSLTVDLFPKIDLPVAVVATSYQDAAPQEVENLISRPIESAVSTVEGIETVQSQSQAGSSLVLLMFKNGTDLDQALLDVRESVDQVKGVLPSQAGDPNIMRFNPDQLPVMWVGLTGENVASLTETADEQVVPFLERQGGVGSVNVEGGKEREIQLILDEAKLQQYGTTSQAIMQALSSTNQSASVGTVEKGDKDLQIRVTGQFESLEDIKQTIVQTESGATVHVNDLAEVKDDFKTDAGLTLVNGKPSVVLSILKKTDSNTVEVATNIEDSLKEIKQDLPSDANLDVIIDTSDFIQMSIDSVVQNILIGGVISIFILLLFLKSVRATIVIGLSIPIAIITTFILMYFTGETLNILTLGGLALGLGMMVDSSIVILEHIYSYRQRGYSLKDAAIQGATELAPAVIASTTTTLVVFLPIIYVEGIASDMFTPLALAVSFSLITSLVVAITLVPMLSSKLLQKALQDSGKRYWFDRFLGWINAKYKKVLKWVLGHRKTTVFVTILAIVGSLALTPFIGAEFIPSADQGQLEIRVETTPGSSLEHTEDIVDQVNKELTPFESVIETNYVSVGGGGMAAGGGSSSGNQAVYTMQLIPSGEREKTTVQIVQEIDNKLQEIAGAEITVHSMDSGMNMGDPIQIQLNGPEHDMLRDISEQVVQEIEQVEGIYNPESSASEGVPQMNIEVDQEKAALYGLNQEQVLGQIQMQFTGQVATKYREEGQEMDVTLMYPEEKRSKIEDLHDMKIQTPQGPTISLDEVATFKQMSGPVSLQRENQQPQMNVTSQIVDRDLGSITQDVEQTLNNMDLPEGYNYEIGGQSQDMTESFTDLAIALVFSIFLVYAVMAVQFENFLFPLIIMFAMPTTVIGVMLGLFIAGIPLSIPAFIGIIMLAGIVVNNSIVLVDYINLLRRKGMERYAAILEAGPSRLRPILMTTLTTILAMVPLAMALGEGAETQQPLAVTIIFGLGISSIFTLLLIPVIYTLFDDLTAKITKRHKKK PGPT0016195_1668 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296 NA NA AK015_02593 1473 zwf COG0364 Glucose-6-phosphate 1-dehydrogenase TTGAAAACGGTGGATAAACCAAACGTCGTGATTGTCATCTTTGGAGCAACAGGGGATTTATCAAAAAGAAAGTTATTCCCTTCCATTTATCGTCTTTATCAAAACGGAAAAATTGGTGAGGATTTTGCAGTTGTTGGTCTTGCTCGCCGTCCGTGGACGAATGATATCTTTCGCGAAAAAGTATGTGAATCAATAAACGAATCAGAATCAAACAATCAAATAGACCTAGAAGCATTTGCTTCTCATTTTTATTATCAGTCTTTTGATGTTACAGATAGTTCATCTTATACCCATTTAGATGGATTGTTAAACCATCTAGAAGGTCAATACCAAACAGATGGGAATCGAATTTTTTACTTAGCTATGGCTCCGGAATACTTTGGAACGATTGCTAATCAAATTGAACAAAACGGTTTAAAAGAAAGTGTAGGCTGGACAAGGTTGGTCATTGAAAAGCCATTCGGGCACGATCATACCTCGGCAAAAGCGTTGAACAATCAAATCCGATTAGCATTTAATGAAGATCAAATATATCGTATTGACCATTATTTAGGAAAAGAAATGGTGCAAAATATTGAAGTTATTCGCTTTGCAAACGGGATATTTGAACATTTATGGAACAACCGATTTATTTCCAATATCCAAGTTACGTCCAGTGAAAAACTCGGTGTCGAAGAACGCGCGCGATATTATGATCGCTCAGGAGCAACAAGAGATATGGTGCAAAACCATATGCTTCAAATGGTCGCCTTACTAGCAATGGAGCCGCCCATTAAGCTAACTCCCGAAGAAATACGTTCAGAAAAAGTGAAAGTATTACGAGCTCTGCGGCTTGTTGAACCAACAGAGGTTGAAAATTATTTCGTCCGTGGCCAATACGGTCCAGGCCCTCTAGGAAAAGGATATCGCGAAGAAGCGCCAGAATTGAAAAACTCGATCACAGAAACGTACGTTGCTGGGAAGGTAATGATTGATAACTATCGTTGGGCAGGCGTCCCTTTCTATATTCGAACAGGTAAGAAAATGAAAGAAAAATCAATTAAGATCGTTGTTGAATTTAAAGATATTCCAATGAATCTATATTATAAGGATGAAGCAAAGAGACATCCTAATCTGCTCGTCATCAACATTCAACCAGACGAAGGCATTACACTTCATTTAAATGCAAAAAAAGCTGGTATAGGTTCCATTGCCCAACCAATTGAATTATCTTATACAAACAATGGTGTCGATGGAATAAACACACCAGAAGCTTATGAAAAATTAATTTACGATTGTATTATCGGTGATACGACTAACTTTACCCATTGGGATGAAGTAGCCTATTCATGGAAATATGTAGATGCTGTTTTAGACGCATGGTCAAAAACAGAGCCTCTGTTTCCAAATTACGCTGCCGGATCAATGGGACCAGAAGCGGCAGACCGCCTACTTGAAAAAGACGGGTTCCATTGGTGGCCAATAACCGATTAA MKTVDKPNVVIVIFGATGDLSKRKLFPSIYRLYQNGKIGEDFAVVGLARRPWTNDIFREKVCESINESESNNQIDLEAFASHFYYQSFDVTDSSSYTHLDGLLNHLEGQYQTDGNRIFYLAMAPEYFGTIANQIEQNGLKESVGWTRLVIEKPFGHDHTSAKALNNQIRLAFNEDQIYRIDHYLGKEMVQNIEVIRFANGIFEHLWNNRFISNIQVTSSEKLGVEERARYYDRSGATRDMVQNHMLQMVALLAMEPPIKLTPEEIRSEKVKVLRALRLVEPTEVENYFVRGQYGPGPLGKGYREEAPELKNSITETYVAGKVMIDNYRWAGVPFYIRTGKKMKEKSIKIVVEFKDIPMNLYYKDEAKRHPNLLVINIQPDEGITLHLNAKKAGIGSIAQPIELSYTNNGVDGINTPEAYEKLIYDCIIGDTTNFTHWDEVAYSWKYVDAVLDAWSKTEPLFPNYAAGSMGPEAADRLLEKDGFHWWPITD PGPT0017380_3867 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_SUGAR_ACID_UTILIZATION PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036 NA NA AK015_02594 444 hypothetical protein ATGTTACTTGCTCAGCTTGTTACAAGTTATGTTGCGGCGGCTGGTTTTGGTATTCTTTTTAATGCACCGAAGCACTCTCTTTTTCAATGCGGTATGGTTGGAATGTTCGGTTGGATGGTTTATTATATTTTAGTTGAACAAGGATTAGATGCTGTTCCTGCTAGTCTTTTTGGTTCTATGCTTGTAGGGATACTTAGTCAACTTTGTGCAAAGATATTTAAAATGCCCATTATTATTTTTAATGTTTCAGGCATTATTCCGCTTGTACCTGGTGGTTTAGCTTACGATGCGATGCGAAAGTTTGTAGAAAATGACTACTATACCGCGGTACAACTTTCAGCAAAGGTCATGCTACTTGCTGGAGCAATCGCTATCGGATTGATGTTTTCCGAGGTAATGAATCAATTGATGAAAAAAACTTCAGGCTGGCTTCATATAGAATAG MLLAQLVTSYVAAAGFGILFNAPKHSLFQCGMVGMFGWMVYYILVEQGLDAVPASLFGSMLVGILSQLCAKIFKMPIIIFNVSGIIPLVPGGLAYDAMRKFVENDYYTAVQLSAKVMLLAGAIAIGLMFSEVMNQLMKKTSGWLHIE NA NA NA NA NA AK015_02595 747 yjjP COG2966 Inner membrane protein YjjP ATGAACGCTCAACCTGGTTCCATTGCAAAAGTTTGTTTGCTTGCAGGCAAAATCATGCTGGAAAGCGGTGCTGAAACGTATCGTGTAGAGGACACGATGAACCGGATTGCTGCATCATTTGGACTTGAAAACGCTGAAAGTTATGCTACACCTACAGGGGTTCAGTTTTCTACGGAAGGAGAAGTTTCCTATTTTCGGAGAATTTCCAATCGTTCCAATGATCTTCAAAGAATTACAGACGTCAATAGTATATCTAGGCAAATTACAGCCCAATCCTTAGATGCCAAAGAAGCTTTATTGCTTTTAAAAGGAATCAAACATCAGAGTGAAACTTTTCCACTTTGGTTACAGTTTATAGCTGCTGCCCTTGCTAGCGGAAGTTTTGCCATTATGTTCGGAGGTTCTTGGTCTGATTTTTTACCTGCCTGTATTGCTGGTGCTCTCGGATATGCTGCTATGATTTGGATTGAAAAATTAATTGAAATACGGTTCTTTGCTGAATTCATAGCCTCATTTTTCATTGCTGTTATTGCGGCTTTCAGTATTCATGCTGGATTTGGGCAGCATTTAGATAAAATTATTATAGGTGCTGTGATGCCGCTTGTCCCTGGTTTACATATTACAAATGCCGTTCGTGATTTAGTTGCTGGTCATTTAGTAGCAGGCATCTCAAAAGGCGTAGAAGCTACATTAACAGCATTTGCGATTGGTGCAGGCGTTGCTGTTCTGTTTGCATTTTTTCCGTAG MNAQPGSIAKVCLLAGKIMLESGAETYRVEDTMNRIAASFGLENAESYATPTGVQFSTEGEVSYFRRISNRSNDLQRITDVNSISRQITAQSLDAKEALLLLKGIKHQSETFPLWLQFIAAALASGSFAIMFGGSWSDFLPACIAGALGYAAMIWIEKLIEIRFFAEFIASFFIAVIAAFSIHAGFGQHLDKIIIGAVMPLVPGLHITNAVRDLVAGHLVAGISKGVEATLTAFAIGAGVAVLFAFFP NA NA NA NA NA AK015_02596 699 COG3394 Carbohydrate deacetylase ATGAAGATTTTAATCAATGCAGACGATTTTGGCTTAACAAAAGGTGTAACAGAAGGAATTATAAAAGCACATACAGATGGTATTGTTCAATCTACAACACTTATGATGAACGGCAAAGCTACACAATACGCTATTGCAAAAGCAAAAAAACACCCTTCCTTACAGGTGGGAATTCACCTCGTTTTAACTTGGGGAAAGCCATTGAACAACGATTTAGCCATATTAACTAATAAAGACGGTTTTTTCAAGTTTTCAAAATTGGAAAGAGAGCTTCATACAGAAGAATTAACAGCCATTAAAAAAGAGTGGCAGACACAAATAGACGCTTTTCTATCTTCCGGATTACCTCTTCACCATATTGATAGCCACCATCATGTACATGGATGGAAAGCGCTAAAGTCTGTTATTATAGAATTAGCTACGATGTATCAAGTTCCCGTTCGCTACACAGAATCGTTACGAAATGAAAGCGATTTGCTATTAACAGAACAGATTTGGACACATTTTTATGATTCTGGGGTGAACAATAATCTCTTTTCACATTTAAAAGATTTACCGGTTAAGCATGTTGAAGTGATGGCTCATCCAGGATTTGTTGATGATGATCTACGACAACAAAGCTCATATACAATGAAGCGAGAAGAAGAATTAGAGTTACTTTGCTCCCTACAATTGCCGGATTGGGCAGAGAGGTTTTAA MKILINADDFGLTKGVTEGIIKAHTDGIVQSTTLMMNGKATQYAIAKAKKHPSLQVGIHLVLTWGKPLNNDLAILTNKDGFFKFSKLERELHTEELTAIKKEWQTQIDAFLSSGLPLHHIDSHHHVHGWKALKSVIIELATMYQVPVRYTESLRNESDLLLTEQIWTHFYDSGVNNNLFSHLKDLPVKHVEVMAHPGFVDDDLRQQSSYTMKREEELELLCSLQLPDWAERF PGPT0012160_1216 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478 NA NA AK015_02597 726 gamR_1 HTH-type transcriptional repressor GamR ATGAAAAAAAATCCATCCTTGCATGCCTATATTAAAGATGAGCTACTGAATCAAATAAAAGCAAACAAATATAAACCAGGAGACAAAATTCCAACAGAGCTAGAATTGTGTAAAGATTTTAATGTAAGTCGTACTACAGTTAGAACTGCCCTTAACCAATTAACGCTCGAAGGCTACTTAGTACGTCATCAAGGGAGGGGTACCTTTGTAGCTGATCAAAAGCTAAAGCAAACGTTAACCCAAACAGTGAAACGCTATAGCGATCAGGTAGCCATTCAAGGAAAAGAGGCAAAAATCTTTGTTCTATCGATCACTGTTATTCCAGCAAATGAATATTTAAGTCAGCAGCTAGAGGTCGCGCACAACGATCCCATTCAATGTATTGAAAGAATTCGCAAAGCCAATGATGAACCTACACAATATGAAATTGCTTACATCCCTTGGATTGTAGCACCAGGAATTACGGAAACACAAGCGGCTTCATCGCTATACGCTTCTTTAAAAAATGATTTTCAAGTGCATGTTGCAAAAACGATTGAGCATATAGAAATAACGCTGGCGGACGAAATTTGTTCCAAGCATTTAGACTGTGAGTTGCATGCACCTTGTTTTTATATTGAAACCCTTGCTGAAAATGAAAACCAAGAAAAAGTAGAATATTCACGTGCTTATTTTAGAGGAGATAAAACTAATTTTGTCATTGAGCGAAATTATCCTAATTCTTAG MKKNPSLHAYIKDELLNQIKANKYKPGDKIPTELELCKDFNVSRTTVRTALNQLTLEGYLVRHQGRGTFVADQKLKQTLTQTVKRYSDQVAIQGKEAKIFVLSITVIPANEYLSQQLEVAHNDPIQCIERIRKANDEPTQYEIAYIPWIVAPGITETQAASSLYASLKNDFQVHVAKTIEHIEITLADEICSKHLDCELHAPCFYIETLAENENQEKVEYSRAYFRGDKTNFVIERNYPNS NA NA NA NA NA AK015_02598 1302 licH_4 COG1486 putative 6-phospho-beta-glucosidase ATGACACTTAAATTAGTAGTAATTGGCGGTGGGTCTAGTTATACACCAGAGATTATCGAAGGAATTATTTTGCGACATGATTCCTTTCCCGTTACAGAGATCGTTTTAGTAGATGTTGAAGCAGGTAAACAAAAGCTGGAAATTGTCGGGCAGTTAGCAAAGCGGATGATTGAAAAAGCCAAAAAACCAATACAATTATCATGGACATTGGATAGAAGGGAGGCATTAAAACAGGCTGATTTTGTTTCGACACAGATAAGGGTGGGTGGTTTAGCGGCAAGGTCAAAAGATGAACGAATTCCACTGGAGTATGGATATATTGGTCAAGAAACAAATGGGGCAGGGGGCATATTCAAAGCATTCCGTACGATCCCCGTCTTAATGGAGTTAGCAAAAGATGTCCATGAAATTTGTCCTAATGCTTGGATAATTAATTTTACAAATCCTGCAGGAATAGTGACAGAGGCGTTGTTAAAGTATTCCCCACATAAAAAAGTAATCGGCGTCTGCAATATTCCTTATAATATGCGTCATTCCACTGCAGAAATCTTAAATACAAAACCTGAAAATATAATGATTGAATTTATTGGTATGAATCATTATGTGTTTGGTCGTAAAGTATGGGTAAACGGTGTTGACTATACAACAGAAGTGCTTGCTAAATTAAAAGAAGGTTTAGATTATTCTCCTGCCAATATCGTAAATCTCGGTTGGTCTCAAACTTTTATTAAAGCAACTTCGTTATTGCCAAACCCGTATCATCAATATTATTTTCAAACCGCCCAAGTATTAAAGAAAGACGTGCAGGCATTAAAAGAAAACGGAACGCGTGCAGAAGTGGTCCAGCAACTAGAAAAATCGTTATTTGAGCTATACAAAAATCCTGACCTTTGTGAAAAACCAAAAGAGCTAGAAGAAAGAGGTGGGGCGTTTTATAGTGATGTAGCATGTAGTCTGATGGACTCTATTTATAATAACAAAGCGGATGTTCAAACGGTAAATACATTAAATAACGGAGCAATCCCTGATTTGCCAGAAGATGCGGTTATTGAAGTGAATAGTGTTATTACAAAGAATGGACCACAACCAATTGTAGTTGGATCTTTACCAGACAGTGTAAAAGGACATATTTACCAAATGAAAGCGTTTGAAAAATTGGTTATCCGTGCAAGTATAACCGGTAATTACGAAGATGCCTATCTGGCAATGGTTATGAATCCATTAATTGGGGAGGAGGCTGATAGTAAGAGATTGCTGGATGCGTTATTAGAGGCACATAAAGATTATTTACCACAATTCTAA MTLKLVVIGGGSSYTPEIIEGIILRHDSFPVTEIVLVDVEAGKQKLEIVGQLAKRMIEKAKKPIQLSWTLDRREALKQADFVSTQIRVGGLAARSKDERIPLEYGYIGQETNGAGGIFKAFRTIPVLMELAKDVHEICPNAWIINFTNPAGIVTEALLKYSPHKKVIGVCNIPYNMRHSTAEILNTKPENIMIEFIGMNHYVFGRKVWVNGVDYTTEVLAKLKEGLDYSPANIVNLGWSQTFIKATSLLPNPYHQYYFQTAQVLKKDVQALKENGTRAEVVQQLEKSLFELYKNPDLCEKPKELEERGGAFYSDVACSLMDSIYNNKADVQTVNTLNNGAIPDLPEDAVIEVNSVITKNGPQPIVVGSLPDSVKGHIYQMKAFEKLVIRASITGNYEDAYLAMVMNPLIGEEADSKRLLDALLEAHKDYLPQF PGPT0019105_1044 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222 NA NA AK015_02599 1293 licC_5 COG1455 Lichenan permease IIC component ATGGATAATAAAGCGATGCAAAAATTCATTGAAATTGCTGGTCGAATTGGGTCACAGCGTCACCTTGTAGCTATACGTGATGGATTCGTTGCCATCATGCCATTAATTATTGTCGGGTCGTTAGCTATTTTAATTAACAATTTTCCTCCCTTTGGAGCGTTCCATTTTGTGGAATGGATGAACGGTATTTTTGGAGATGGAAACTGGCAAGCGGTGGGGGGAAGTATTTGGAATGGGACGTTTGCTGTTCTAGGTTTGTTAGTTACCTTTTCCATTGCGTATAATTTAGCGAAGTCATATGAATTGGATGGCTTGGCTGCGGGGTTAATAGCAGGTGCTGGATTTATTATGTTAGTTCCTATTACTGCTGACGGCGGTCTAAATATGGGGTGGCTTGGAACACAAGGTTTGTTTGTTGGTATCATTTTATCGTTAGTAGTAACCGAGTTGTTTCGAATATTAATTACTTCCAAGCTGACCATTAAGATGCCTGAAGGTGTGCCTGAAGGTGTAACTAGATCCTTTGAAGCGCTCATCCCTGCTGTGATTATTTTAATTTTACTTGGATTTTTCCAAGCTTTGATGATTGTATTTGCAGAGCAGAGTATTTTTGAAGTTATCTTTACGATTATTCAAGAGCCATTGCAAGGGTTAGGAAATACGTTGCCTGCTGCTATGCTTGTTTCATTTTTGAATCATTTGCTTTGGTTTTTCGGATTGCACGGCACGAATATTATCGGTTCTGTCATTGAACCTGTTTATCTGCCTTTAATAGAAGAAAATCTTCATCTGTTTAAGAGTGGCATGTCTGCATTTGAAGTGCCAAATATTGTGACTAAACCATTTTTAGATTCATTTGTATTTATGGGAGGTTCTGGGACGACCATTGCGTTATTAATTGCTGTCTTTATCGTTATTCGCAGAGAAAAGAATCATCCTTATCGACAAGTAGCCAAACTATCTGCGCCAGCAGGACTTTTTAACATTAATGAACCAGTGATATTTGGATTGCCAATCGTCTTGAATCCAGTGATGTTAATACCCTTTATTTTAATTCCTGTTACGCTTACAATCACTTCTTATATTGCCATTGCGACAGGGCTAGTCCCTAGAACAGTTGCTATCTTACCTTGGACCACACCGCCTATTCTAAGCGGTTATCTTGTAACAGGAGGAAGTTTTAGAGGTGTCGTATTACAATTATTCAATTTAACACTCGCTATTGTTATGTATATACCGTTTATTTTAGCGGGAGCGAGAATGATGAAACGAAATGAGGGGAAAACAAATTGA MDNKAMQKFIEIAGRIGSQRHLVAIRDGFVAIMPLIIVGSLAILINNFPPFGAFHFVEWMNGIFGDGNWQAVGGSIWNGTFAVLGLLVTFSIAYNLAKSYELDGLAAGLIAGAGFIMLVPITADGGLNMGWLGTQGLFVGIILSLVVTELFRILITSKLTIKMPEGVPEGVTRSFEALIPAVIILILLGFFQALMIVFAEQSIFEVIFTIIQEPLQGLGNTLPAAMLVSFLNHLLWFFGLHGTNIIGSVIEPVYLPLIEENLHLFKSGMSAFEVPNIVTKPFLDSFVFMGGSGTTIALLIAVFIVIRREKNHPYRQVAKLSAPAGLFNINEPVIFGLPIVLNPVMLIPFILIPVTLTITSYIAIATGLVPRTVAILPWTTPPILSGYLVTGGSFRGVVLQLFNLTLAIVMYIPFILAGARMMKRNEGKTN PGPT0016970_2464 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 AK015_02600 339 licA_4 COG1447 Lichenan-specific phosphotransferase enzyme IIA component TTGACTGTAAAAGAGGAGTTGCAAAAGTTATCATTTACAATTATATTGCATGCGGGGAACGCTCGGTCATTATCAATGGAAGCGATAGCAAAAGCGAAGGCGTATCAGTTTGAGCAAGCTCATGCAAAGATAGAGGAAGCAGAAGAAGCTTTTGTTGAAGCACATCAAATGCAAACAAAGTTGTTGCAGCAAGAAGCGGAAGGCGCACACACCGATTTATCCGTCATTTTAATCCATGCCCAAGACCATTTAATGACAGCGCTAACTGTAAAGGATTTGGCAATTGAAATGATAGCGTTATATGAAAAACTAGAAACGATAGAGGAGGATCAAAGATGA MTVKEELQKLSFTIILHAGNARSLSMEAIAKAKAYQFEQAHAKIEEAEEAFVEAHQMQTKLLQQEAEGAHTDLSVILIHAQDHLMTALTVKDLAIEMIALYEKLETIEEDQR PGPT0016980_421 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 AK015_02601 306 celA_3 PTS system cellobiose-specific EIIB component ATGAAGATTATTCTTGTTTGTTCAGCAGGTATGTCAACATCGATGCTCGTGAAGAAAATGAAGGAAGCAGCGACGCAACGGAATTTAGAAGTAGATATTCGTGCTATGGCAGAATCACAGCTAAAGAATGAGCTAGACGACCTTCATGTCGTGCTTATAGGACCGCAAGTCAGATATTTAGAAGCAAAAATAAGAACACAGCTTGAACCTAAAGGCATCGCCGTAGAAGTTATTGATCAAATGGCATATGGCATGATTCAAGGGGATAAAGTATTGGATCAAGCGTTATCTTTAGTTAAACAATAA MKIILVCSAGMSTSMLVKKMKEAATQRNLEVDIRAMAESQLKNELDDLHVVLIGPQVRYLEAKIRTQLEPKGIAVEVIDQMAYGMIQGDKVLDQALSLVKQ PGPT0016975_1453 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 AK015_02602 1026 hypothetical protein ATGACTCTTTATTTTGCGAGCGTATTGTCTGGATTAGAATACGTTTTATCAAATGAAATTAACAACAAGGTGAGTGATTCTGAAATAATTCAAATAAATAAAGGGAAAGTTTTCTTTACGATAGCTGAGTCTGTTACATGCTTAAGTTCTTTAAGGTCGGCAGATAATTTATTTCAAGTGATTGACCAATTTCAAATTGGTCCACATAAAAAGCACTTATCTCAAGTAAGTGAGCAAATATCCCAGTTGGATTTGGATTTTATTGATCATAAAGATTTATATTGGGTAAATGCAAGCCGTAAAGGAAAACAAACCTATAGTCGTTTTGAAGTGGCAAAAAAAGCAATGGAGGGCATTAAGAAGCGGTACCCTGATTGGAACATTGGAACGTCTCAAAATCATCAGGTAGAATTCAGACTCGACATCGAACATCATAATGTGATTTTTTCATTTCGACTTACAGATGCGACGTTTCGTTTTCGCAATCAGAATCGACGGTTCTCTCGTGCATCATTACTTCCTACTGTAGCTCATGCGATGGTGTGGTTGTCAGATCCTAAATCGACAGATATTTTCGTAGATCCTTGTTGTGGTTCAGGCACAATTTTGTCTGAACGAGCCACATACCCTGCAAATCAGATAGTTGGTGGAGATATATCTTACCCAGTCACAAAAATAGCCAAACATAATCTTGATGATTTGATGGTGGAAGTTAATGCTTGGGATGCAAGGAAATTGCCTTTTGCTACTGGTTATGTCGATAAAATTGTAACTAATCTTCCATTTGGTAGACAAATTTCCCCCGACGAGGATTTAGAATTGTTCAATCGCCATATTATGAATGAAGTATGTAGAGTCTTGAAGCCGAACGGGAGAGCCGTTATTTTGTCTGAGAGTGTCAATCAATTGTTTTGGGAAGCAAAACGATTAGGGCTTTTTTGTCTGAAATCTTATCCTCTCAGTTTGAAGGGTGTGAATCCTACCTTGTTTGTGTTTGAAAAACAAGATGAACATAGAAAGGAGTAG MTLYFASVLSGLEYVLSNEINNKVSDSEIIQINKGKVFFTIAESVTCLSSLRSADNLFQVIDQFQIGPHKKHLSQVSEQISQLDLDFIDHKDLYWVNASRKGKQTYSRFEVAKKAMEGIKKRYPDWNIGTSQNHQVEFRLDIEHHNVIFSFRLTDATFRFRNQNRRFSRASLLPTVAHAMVWLSDPKSTDIFVDPCCGSGTILSERATYPANQIVGGDISYPVTKIAKHNLDDLMVEVNAWDARKLPFATGYVDKIVTNLPFGRQISPDEDLELFNRHIMNEVCRVLKPNGRAVILSESVNQLFWEAKRLGLFCLKSYPLSLKGVNPTLFVFEKQDEHRKE NA NA NA NA NA AK015_02603 1539 ptsG_2 COG1263 PTS system glucose-specific EIICBA component ATGAAAAAGGCATTATTTGAGCAAGCGCAAAGGTTTGGGAAATCGTTTATGCTTCCAATTGCAGTGCTACCTGCAGCAGGGTTGTTGCTTGGGATTGGAGGAGCTTTTAGTAATCCAGCAACAATAGAGGCATACACCTTCCTTGATCAGAAATGGTTACAAGCTATTTTTACCATTATGAGTTCAGCTGGTAGTATTGTTTTTGCAAATCTTGCATTGATTTTTGCCGTAGGTGTCGCAATAGGGCTGGCAAGAAATGATAAAGGTACAGCAGGTCTAGCAGCTGTATTGGGGTATTTAGTTATGAATGCGACAATTAACGCAATGCTGACTATTACTGGTAAATTAGCTGAAAATAATTTGGCTGAAGTTGGTCAAGGAACGATACTAGGTATTCAATCTTTAGAGACAGGCGTATTTGGTGGTGTTATTTTAGGGCTTTTAACTTATTTCCTTCATCAACGATATAATAATGTAGAACTTCCTAAATTTTTAGGTTTCTTTGGTGGGTCAAGATTCATACCAATTATTACAGCATTTATGTCCATTCTATTAGGTGTCATTTTATACTACATTTGGCCAATCATCCAAACGGGGATTTTCTCGCTTGGTGGGCTAGTAGAGGCAACCGGTTATTTAGGAACTTTCTTATATGGATTTATTTTGCGCTTACTTGGTCCATTCGGTTTACATCATATTTTTTACATTCCATTTTGGACAACAAGTCTTGGTGGATCGATGATCGTTGACGGTACTTTGATTGAAGGGACGCAAAGAATCTTTTTTGCTCAGTTAGCACAGCCCGATGTAGAGCAATTTTATATTGGAACTGCTCGATTTATGGCTGGCAGACATATTACGATGATGTTTGGTCTCATTGGGGCTTGTCTGGCTATTTATCAAACGGCTAAGCCGAAAAACAAAAAAATCGTACTCGGATTAATGTTATCAGCTGGATTAACCTCTTTTTTAACAGGGATCACAGAGCCAATTGAATTTTCCTTCTTATTTGTTGCTCCGATTCTGTACGTTATTCATGCTTTTTTTGATGGGTTAGCGTTTATGTTCGCACATATGTTTGAAGTAACCATTGGGCAAACTTTTTCAGGTGGTTTTATTGATTTTATGCTCTTCGGTGTTTTACAAGGTGTTGAAAAAACAAATTGGATATGGGTTCCAATTATTGGTGTGTTCTGGTTTTTCTTATACTATTTTACATTCCGTTTTGCTATAGTAAAATTCAATTTAAAAACACCCGGTCGTCAAGAAGAAGATATGGATATACAAATGTTTACTCCAGAAGAACAAGCACGCGCTATTATCGACGGGCTTGGTGGTAAATCTAATATTAAAGATGTGGATAATTGCGCCACACGATTAAGGGTGAGCGTATTCGAGCAAGATCAAGTACAAAAAGAAGCGCTCATGAAAACTGGTGCCAAAGGTGTTGTAGCTAAAGGAAATGGAATTCAAGTAATCTATGGCCCAGAGGTAACGACGATTAAAAACAATATTGAGAAGACAATGGGAGATTTGTAA MKKALFEQAQRFGKSFMLPIAVLPAAGLLLGIGGAFSNPATIEAYTFLDQKWLQAIFTIMSSAGSIVFANLALIFAVGVAIGLARNDKGTAGLAAVLGYLVMNATINAMLTITGKLAENNLAEVGQGTILGIQSLETGVFGGVILGLLTYFLHQRYNNVELPKFLGFFGGSRFIPIITAFMSILLGVILYYIWPIIQTGIFSLGGLVEATGYLGTFLYGFILRLLGPFGLHHIFYIPFWTTSLGGSMIVDGTLIEGTQRIFFAQLAQPDVEQFYIGTARFMAGRHITMMFGLIGACLAIYQTAKPKNKKIVLGLMLSAGLTSFLTGITEPIEFSFLFVAPILYVIHAFFDGLAFMFAHMFEVTIGQTFSGGFIDFMLFGVLQGVEKTNWIWVPIIGVFWFFLYYFTFRFAIVKFNLKTPGRQEEDMDIQMFTPEEQARAIIDGLGGKSNIKDVDNCATRLRVSVFEQDQVQKEALMKTGAKGVVAKGNGIQVIYGPEVTTIKNNIEKTMGDL PGPT0016905_691 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0016905-malX-K02791 NA NA AK015_02604 699 nanE Putative N-acetylmannosamine-6-phosphate 2-epimerase ATGTATGTTAAACAACTAGAGAATCAGCTAATTGTATCTTGTCAGGCGTTAGAAGATGAACCACTGCATTCTTCAGAAATAATGGCAAAAATGGCATTAGCAGCTGTACAAGGTGGTGCTAAAGGTATTCGAGCCAACTCAGTAGCTGATATAGAAGCAATAAAGCAACAAGTAAACGTTCCAATTATTGGTTTAATTAAACAAGATTACAAGGATAGCGATGTTTATATTACACCAACAAAAAAAGAAGCGTCCGCTTTGCTAGATGCAGGTGCAAATATTATTGCAATGGATGCAACGATGCGAAAGCGTCCAGAAAACGAAAACTTAGAAGAAATGATACGCTTTATCAAGGAGCAATCTGATGATACCGAGCTAATGGCGGATATATCTACAGTAGAGGAGGCGAAACGAGCGGAATCGCTAGGTTTTGATTGTGTATCGACGACCTTAGTAGGATACACACAAGAAACGGCAGACCAACATATCGCAGCCAACGATTTTCAATTATTGCGTGAGATGCAATCAGTAATATCCATTCCAGTTATTGCTGAAGGAAAAGTTAGTACACCAGAAACAGCTCTAGCAGCTCTTAGGAATGGCGCTTTTTTTGTTGTAGTTGGTAGTGCCATTACTAGACCGCAATTAATTACGGAAACCTTTGTAGATGAAATTCAAAAATATAGTAGTAACCATTAA MYVKQLENQLIVSCQALEDEPLHSSEIMAKMALAAVQGGAKGIRANSVADIEAIKQQVNVPIIGLIKQDYKDSDVYITPTKKEASALLDAGANIIAMDATMRKRPENENLEEMIRFIKEQSDDTELMADISTVEEAKRAESLGFDCVSTTLVGYTQETADQHIAANDFQLLREMQSVISIPVIAEGKVSTPETALAALRNGAFFVVVGSAITRPQLITETFVDEIQKYSSNH PGPT0018900_402 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018900-nanE-K01788 NA NA AK015_02605 807 hexR COG1737 HTH-type transcriptional regulator HexR ATGAACTCGATTCTCGATGAAGTTCTGTTAAAATATCAAACCTTAAGTAAAACGGAAAAAAAAGTAGCTGATTATGTCATTAATAATAGTCAACATATGTTAAATATACATATTAAAGATTTAGCAAGTCGTATCCAAGTTTCGGTAGCTACAATTACTCGTTTTTGCAAAAAAGTAGGCGTAAGTAACTTTGTAGAATTTAAAATATTATTACGAGATGCAGTCGAACAGACAGTGGAGTCGGATGAAGTAATAGACATAGTGGCTCAAGTTTATCATTCTGTCATTAAATCCACACATTCGGTAGCAACCATGAATGATTATGAACGTGTGTCCAACTGGATACAGGAGGCAAATCGAATTCATATTTACGGTATTGGCAGTTCAGGCTTATCTGCTGAGGAACTAAAAATAAGATTAACTCGAATGGGGTATAGTGTAGATACACATACAGACTCGCATGCAATGGTTATTAATGCCTCGATTCTTACAAAAAGTGATGTCGTTATTGCGATATCTTCTTCTGGTCAAACGAAAGAAGTGATCGATAGTGTGCACATCGCCAAATCAAAAGGAGCAAAAATTGTCTCTATTACAAATTTTTCCGAAACAAATTTAGCACATCAATCTGATGTGATTCTATACACTACAAGTATTCAGCACTATCAAGCAAAAGGTTTTATGAACAGTCAATTATCTATTCTAATTTGTTTAGACATTCTTAGTATGATGCTTTTAACAGATGAACAGGCACATGCTACTTATAATCAGACCCTAGCTAAATTAGAAGAATACAAAAAAATATAG MNSILDEVLLKYQTLSKTEKKVADYVINNSQHMLNIHIKDLASRIQVSVATITRFCKKVGVSNFVEFKILLRDAVEQTVESDEVIDIVAQVYHSVIKSTHSVATMNDYERVSNWIQEANRIHIYGIGSSGLSAEELKIRLTRMGYSVDTHTDSHAMVINASILTKSDVVIAISSSGQTKEVIDSVHIAKSKGAKIVSITNFSETNLAHQSDVILYTTSIQHYQAKGFMNSQLSILICLDILSMMLLTDEQAHATYNQTLAKLEEYKKI NA NA NA NA NA AK015_02607 819 lipM COG0095 Octanoyltransferase LipM ATGAAAGAGCGATGGGGATTTTTAGAAAATGTACCTCACGATGCTGCAATTAATATGGCATTAGATGAGGCACTATTGCATTGGCATAAAGAAGGGAAAATACCTCCAACATTACGCTTTTATCAATGGAGGAAACCAACGCTTTCTGTTGGGCACTTCCAAAAGATAGCAGGAAAAATTGATTTAGATGGTATAAAGAAACATCAATGCCAATTAGTTCGCCGAATGACTGGAGGAAGTGCTGTGCTTCATGACGATGAATTGACATACAGCATTGTTATTTCTGAGTCACATCCAGCAATTGCTTCATCTATTCGCCAAGCCTATTATGATTTATCAAAAGGGATTTTGGAAGGATATAAAAACTTAGGCATTGAAGCGGGGTATGCGGAATTAGCTTCGAAAGAAAGAAGCAATATTTGTTTTGAGCGCCCAGCATTTTATGAAATGGTAGCAGATGGTAAAAAACTGTCAGGGAATGCGCAAACGAGAAAAAAAGGCGTACTGCTTCAGCATGGATCTATTCCTATTTCGATGGATATAGACATGTTGTTTGATATGTTTATTTTTCCAAGCGAAAAATTAAAAGCGCGAAAGAAACAAGCTTTTTGGAACAAGGCGACAACGATAAATCGAATTTTAAAGAAAAGTGTATCCTATGACACTGTAAAAACCGCATTTAAAAAAGGTTTTTCAGATGGACTAGGTATTGAACTAACCGAATTTTCATTAACAAAAAGCCAGTGGAATGAAGTGTATCAGTTAGCTGAAAAAGAGTATGCCAATTTACCATTAGAAGGAGTGGTTTCACATGTCTAA MKERWGFLENVPHDAAINMALDEALLHWHKEGKIPPTLRFYQWRKPTLSVGHFQKIAGKIDLDGIKKHQCQLVRRMTGGSAVLHDDELTYSIVISESHPAIASSIRQAYYDLSKGILEGYKNLGIEAGYAELASKERSNICFERPAFYEMVADGKKLSGNAQTRKKGVLLQHGSIPISMDIDMLFDMFIFPSEKLKARKKQAFWNKATTINRILKKSVSYDTVKTAFKKGFSDGLGIELTEFSLTKSQWNEVYQLAEKEYANLPLEGVVSHV PGPT0003930_250 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 AK015_02608 945 lipA COG0320 Lipoyl synthase ATGTCTAAAAACACTACAACTTTAAGAAAGCCCGAATGGTTAAAAACAAAAATTAATACGAACCAATCGTATCGTGGTTTGAAAAAGCTTATGCGCGAAAATCGTTTAAACACCGTTTGCGAAGAAGCCCGTTGCCCAAATATTCATGAATGTTGGAGCGAGAGAAAGACAGCAACCTTCATGATTTTAGGGGATACTTGTACGAGGGGATGTCGTTTTTGTGCGGTAAAAACAGGGCTACCGAATGAATTGGATTGGGGAGAGCCAGAGCGTGTAGCAGATTCCGTTGAAATCATGGGGTTAAAGCATGTTGTAGTTACGGCTGTTGCTCGAGATGATTTAAATGATGGTGGGGCAGCTGTTTTTGCAGAAACGGTGCGAGCAATTAGACGGAAAAATCCTGGTTGTACGATTGAAATTCTTCCTTCTGATATGAAAGGCGACTATGAAAGTTTACATACGCTTATGGATAGTGAACCAGATATTTTTAACCATAATATTGAAACGGTGCGAAGGTTAACAAAACGAGTACGTGCGCGAGCGATGTACGATCGGTCACTCCAGCTTTTACAGCGAGTAAAGGAAATTCGACCAAACACGCCAACAAAATCAAGTATCATGGTTGGTTTAGGAGAGGAAAAAGAAGAAATCATTCAAGCGATGGATGATTTACTCGCGCATCAAGTAGATATTATGACAATTGGTCAATATTTACAGCCGACAAAGAAGCATTTAGCAGTTGAACGTTATTATCATCCAGATGAATTTGAAGAATTAAAGAAAATTGCTTTGGAAAAAGGGTTTAAACATTGTGAAGCAGGCCCTTTAGTGCGTTCTTCCTATCATGCCGATGAACAAGTAAGCAAGACCTCTGCACAACGAAGAATTGATTATATGAAAGGGTATGAAAATCAAGAAAACAAGCAAGTTGATTTTCAATTTTAA MSKNTTTLRKPEWLKTKINTNQSYRGLKKLMRENRLNTVCEEARCPNIHECWSERKTATFMILGDTCTRGCRFCAVKTGLPNELDWGEPERVADSVEIMGLKHVVVTAVARDDLNDGGAAVFAETVRAIRRKNPGCTIEILPSDMKGDYESLHTLMDSEPDIFNHNIETVRRLTKRVRARAMYDRSLQLLQRVKEIRPNTPTKSSIMVGLGEEKEEIIQAMDDLLAHQVDIMTIGQYLQPTKKHLAVERYYHPDEFEELKKIALEKGFKHCEAGPLVRSSYHADEQVSKTSAQRRIDYMKGYENQENKQVDFQF PGPT0003935_3283 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 AK015_02609 864 ermD rRNA adenine N-6-methyltransferase ATGACAAAAAGAAGGAAAAAGTATAAACATACAAAATCTCCCATTGAGAAATTTCCGAACTTTAGCGGGCAACACTTGCTGCATAACAAAGGATTGCTAAAGGATATTGTAAACATTGCTCAGATTTCAGAGAGTGATCTTGTATTAGAATTGGGAGCTGGAAAAGGAGCAATTACTAACGTTTTAAGTAATCGGGCAAGAAAGGTTCTCGCTGTTGAATACGACCATAAGTTTATAAGGAAATTAAAACAACTTGAAATGAAAAACACAGTGATAATCCAACAAGACATATTAAAAATTTTGTTACCCCGAGAGCCTTTTGTGGTTGTTTCGAATATTCCATATGCCATTACAACACCGATTATGAAAATGCTTCTTAATAAACCTTCAAGTGGTTTTCAAAGAGGAGTTATTGTATTGGAAAAAGGGACAGCCAAAAGATTCACGTCAAATTTTGTGAAAGATCCATATATAATTGCTTGGAGAATGTGGTTTGATATTCGGTATATTAAAGAGATTCCAAGAAAGAATTTCTCTCCACCACCAAGAGTTGATTCCGCAATAATTACAATAAACAGAAAAGCTAAACCGATTGTACCTTATAGAGATTATTTAATCTTTTGGGGATTGGTCGATTATGTGCTTAAAAATCCCCAATCATCTATTGATTTAGCATTAAAAGGTGTATTTACACCATCTCAAATGAAGCATTTAAAAAGGAGGCTTGGAATAAAAAATAAGGTTTCAGTTGCGACTTTATCGGAACAGCAATGGGGAATCACTTATGAAGTAATGGTAAAGCATGTTCCAAAATTTAGATGGCCAAGGAAAAAAAGCTCTATTAAACCATTTATGAAGTCTTAA MTKRRKKYKHTKSPIEKFPNFSGQHLLHNKGLLKDIVNIAQISESDLVLELGAGKGAITNVLSNRARKVLAVEYDHKFIRKLKQLEMKNTVIIQQDILKILLPREPFVVVSNIPYAITTPIMKMLLNKPSSGFQRGVIVLEKGTAKRFTSNFVKDPYIIAWRMWFDIRYIKEIPRKNFSPPPRVDSAIITINRKAKPIVPYRDYLIFWGLVDYVLKNPQSSIDLALKGVFTPSQMKHLKRRLGIKNKVSVATLSEQQWGITYEVMVKHVPKFRWPRKKSSIKPFMKS PGPT0027915_49 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027915-ermC|ermA-K00561 NA NA AK015_02610 933 hprK_2 COG1493 HPr kinase/phosphorylase ATGATGAAATCCGTCACTGTAAAACAATTAGCAGAACAGTTTAATTTAGAGATATTGGCCGGAGAAGTTGAATTGAACCGACCAATCACCAAGCCGAGAACGCATCGTCCGGGGCTTGAATTTATTGGGTACTTTGATTTTTTTCCTATGGAACACGTACAAGTATTAGGGAAAAAAGAAATTACTTATTTACATCAATTGACACATGAGCAGAGAAGATCACGAATTGGCAATATCGTAAAGTATCATCCACCTTGTTTTATTGTAACTTCAGAACAGGAGGGGTTGATGTATTTAACCCAATTTTGTAATCAGGAAGGCATTCCTTTACTTCGGACAAAAGAGCCGACATCAACTTTTATTGAAAAATATGATGCTTACATGATTAAAGCGTTGGCTCCAGAAACAGCCATTCATGCTGTTTGTGTAAATATTTTTGGACTTGGAATTCTCATTCGCGGCAAATCAGGAATTGGCAAAAGTGAAATTGCCCATACACTAATTGGTAGAGGTCATCGGCTAGTCGCAGATGATATCGTTGTGTTAAAGAAGCTAGGTCCGGATACGTTGTTAGGTACACATAACCAAACGAATAAAGAGTTCCTTGCTTTGCGTAGCGTTGGACTTCTTAATGTTGTTCGCATATATGGTCAAAAGGCCTTTCAAGAAGAAACGCGTATCGCGCTTGATATACATTTAACAGAATGGGAAAAGGATGCTTTAAACAACGAATTGGAGCTTGAAACAAAGACGAACGATTATATGAGTGTTGCTATACCGGCGATAGAAATTCAATTACAGCCTGGTCGGGACGTTGTCGGTTTAATTGAAGCTGCGGCAAATAATTGGTACTTACATCAACAAGGTTATAGCGCTGCAGAAGAATTTATTCAGCGATTGGAAACAGATATTGAAAATAAAGAAACGGAATAG MMKSVTVKQLAEQFNLEILAGEVELNRPITKPRTHRPGLEFIGYFDFFPMEHVQVLGKKEITYLHQLTHEQRRSRIGNIVKYHPPCFIVTSEQEGLMYLTQFCNQEGIPLLRTKEPTSTFIEKYDAYMIKALAPETAIHAVCVNIFGLGILIRGKSGIGKSEIAHTLIGRGHRLVADDIVVLKKLGPDTLLGTHNQTNKEFLALRSVGLLNVVRIYGQKAFQEETRIALDIHLTEWEKDALNNELELETKTNDYMSVAIPAIEIQLQPGRDVVGLIEAAANNWYLHQQGYSAAEEFIQRLETDIENKETE NA NA NA NA NA AK015_02611 405 hypothetical protein ATGATACCGTACATATTTGTTGCAGCAGCTACATTAGCTATGTTTCCTATTTTAACTCTTTATAAAATGAATGTGGAAAAATTAAAACAAGATCCAAGTCAGCATGCGAGAGTACAAAATAATTTAATGATTGGTGTCGCTCTGAGCGAAGCTATTCCTATACTACTCATTATTTATGGCTATGCACAGATGGAAAGTGTGTCTACCGTGTCAGACTTATATCTGCCAGGGATTATTCTATTATTTTTGGTCATTTTTGCTGTTTTATTTATTTTCATGCAAGCCAAAGTGGGCGTCCCTGAAGAAGCAAAATCCATGATTACGCAATTTTCCATCATTAGTATCATGCTGGCTCTTGCTATTCCTATTATTTCTATTGTGTCTTTATTTATGATGATGCCTTAG MIPYIFVAAATLAMFPILTLYKMNVEKLKQDPSQHARVQNNLMIGVALSEAIPILLIIYGYAQMESVSTVSDLYLPGIILLFLVIFAVLFIFMQAKVGVPEEAKSMITQFSIISIMLALAIPIISIVSLFMMMP NA NA NA NA NA AK015_02612 1077 tagO_1 COG0472 putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase ATGATAAATTATGTAGACTTTATGATAGCTTTTGTCATTGCAGCTGCCACTTCTTTTCTATTGACCTATCCTGTGAAAAAATTTGCCGTTTTTGTGGGCGCTGTAGATTTCCCGAACTATCGAAAAATACATACGAAGGTAACGCCTCGTTTAGGTGGTTTAGCTATATTTTTAGGAATGGGAGCAGGGTTATTATATTTACAGCCGAGCCATCCACACTTAGCTGAAATAGCTGCTGGAGCAGTAGTTATTATAGTAACTGGTGCATTAGATGACCGATTTGGCATCCAACCAGTTGTGAAGTTAACCGGACAATTAATTGCAGCTTCCTTTTTAGTTTCTTCAGGACTAATTATTGAAAAATTAACGCTTCCACTTTTTGGAACAGTAGAATTGGGATTTGCCAGTGTATTAATTACGGTACTCTGGGTGGTAGGAATTACAAACGCTATAAATTTAATTGATGGCTTAGATGGTTTAGCAACAGGGGTAACAACGATTGCTTTAATTAGCATTAGCGTAATGGCATTTATTGATATGCAAATGATGGTTGCGTATTTATGCGTTACCTTAATAGGGAGTAACCTTGGTTTTTTATACCATAATTTTTACCCTGCTAAAATTTATATGGGGGATACGGGATCTAATTTTTTAGGTTATATGATCGCTGTCGTTTCCATGCTCGGTTTATTTAAAAACGTGGCATTATTTAGTTTTGTAATTCCGATTATTGTGCTAGCTGTACCTATATTTGATACGTTGTTTGCAATTGCAAGAAGAGCATATAATAAGGAAAATATTATGATGCCTGATAATAAGCATATTCATTATCAACTATTGCAGGCTGGGTATAGTCATCGCAAAACAGTGTTAATTATTTATGGTTTTAGTGCATTGTTCGGCACTTTGGCTGTGCTGTTTTCCAATGCAAGTATTACGGTTTCCTTTATTATTACCGTTATTGTGCTTATTTTATTGCATTTATTTGCTGAAATGGCAGGTATTGTAATGGGAGGAAAGCGACCTGTCTTGCGTATGCTTCGTCTATTGGTTACAAGAAAGAAAAAAAATCGTTAA MINYVDFMIAFVIAAATSFLLTYPVKKFAVFVGAVDFPNYRKIHTKVTPRLGGLAIFLGMGAGLLYLQPSHPHLAEIAAGAVVIIVTGALDDRFGIQPVVKLTGQLIAASFLVSSGLIIEKLTLPLFGTVELGFASVLITVLWVVGITNAINLIDGLDGLATGVTTIALISISVMAFIDMQMMVAYLCVTLIGSNLGFLYHNFYPAKIYMGDTGSNFLGYMIAVVSMLGLFKNVALFSFVIPIIVLAVPIFDTLFAIARRAYNKENIMMPDNKHIHYQLLQAGYSHRKTVLIIYGFSALFGTLAVLFSNASITVSFIITVIVLILLHLFAEMAGIVMGGKRPVLRMLRLLVTRKKKNR PGPT0015240_1867 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 AK015_02613 1410 gndA COG0362 6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating ATGGAAAAACAACAAATCGGCGTAATCGGTCTAGCAGTAATGGGTAAGAACTTAGCGTTAAATATTGAAAGTCGTGGTTATTCGGTTGCTGTTTATAACCGTTCAAGTGATAAAACAGATGCTTTCTTAGCCAATGAGGCAAAAGGAAAAAAATTTAAAGGTGCAAAATCGATTGACGAATTTGTTGCATCATTAGAAAAGCCTAGAAAAATTTTATTAATGGTTAAAGCAGGAGCTGCTACGGATGCTACGATTGAATCACTTCTTCCTCACTTGGATAAAGGCGATATTTTAATTGATGGTGGAAATACACTTTATGAAGACACGATTCGTCGTAATAAAGAACTAGTAAAATCAGGGGTCCATTTTATTGGAACAGGGGTCTCCGGTGGTGAAGAAGGAGCATTAAAAGGTCCTTCCATAATGCCAGGTGGTCAAAAAGAAGCCCATGAATTAGTGGCTCCCATCTTTGAAGCTATTGCAGCTAAAGTAGATGGAGCAGCATGTACAACATATATTGGTCCTGATGGTGCTGGACACTATGTAAAAATGGTGCATAATGGTATTGAATATGGCGATATGCAGTTGATAGCTGAAGCTTATTTTATTTTAAAACATGTCCTCGGTATGGAAGCAGACGAGTTACATGAAGTGTTTGCTGAATGGAATGAAGGAGAATTAGATAGCTATCTTATTGAAATAACGGCAGATATTTTTACGAAGAAAGATGAAGAAACAAATCAGCCACTAGTAGATGTTATTTTAGATACAGCAGGACAGAAGGGAACAGGAAAGTGGACAAGTAAAAATGCATTAGACTTAGGTGTACCTCTTCCTTTAATCACGGAGTCTGTATTTGCCAGGTTTATTTCTGCGATGAAGGATGAGCGTGTACATGCAAGTGCACAGTTGCATGGACCTGAGAAAAAGCCATTCATTGGTGATCGAAAAGAGCTTATTGAAGCAGTTAGAAAGGCCTTATATATGAGTAAGATTTGCTCATATGCTCAAGGATTTGCGCAAATGCGTGCGCAATCGGAAGAAAATGACTGGGATCTAAATTATGGCGATATTGCGATGATTTGGCGTGGTGGATGTATTATTCGTGCGCAATTCCTACAAAAAATTAAAGATGCGTACGACAGAACACCTGACTTAGCGAATTTATTACTGGATCCATATTTTAAAGAGATTGTAGAAAATTATCAAGATGCTTTACGAGAAGTCGTCGCAGTTGCAATTAAGCAAGGTATTGCTGTTCCTGCTTTTTCTAGCGCAATTGCTTATTACGACAGTTATCGTTCTGCGGATTTACCAGCTAATTTAGTGCAAGCCCAACGTGATTATTTTGGTGCTCATACGTATCAACGAAAAGATAAAACAGGCATTTTCCACACCAACTGGTTTTAA MEKQQIGVIGLAVMGKNLALNIESRGYSVAVYNRSSDKTDAFLANEAKGKKFKGAKSIDEFVASLEKPRKILLMVKAGAATDATIESLLPHLDKGDILIDGGNTLYEDTIRRNKELVKSGVHFIGTGVSGGEEGALKGPSIMPGGQKEAHELVAPIFEAIAAKVDGAACTTYIGPDGAGHYVKMVHNGIEYGDMQLIAEAYFILKHVLGMEADELHEVFAEWNEGELDSYLIEITADIFTKKDEETNQPLVDVILDTAGQKGTGKWTSKNALDLGVPLPLITESVFARFISAMKDERVHASAQLHGPEKKPFIGDRKELIEAVRKALYMSKICSYAQGFAQMRAQSEENDWDLNYGDIAMIWRGGCIIRAQFLQKIKDAYDRTPDLANLLLDPYFKEIVENYQDALREVVAVAIKQGIAVPAFSSAIAYYDSYRSADLPANLVQAQRDYFGAHTYQRKDKTGIFHTNWF PGPT0017385_2844 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 AK015_02614 3798 prtP PII-type proteinase ATGAGGTTTACACCAGCAATGAAACGTTCTTTTATGATTTTATTAATATTTTTACTCACTTTTAGTAGTTTTTCAACTATCCACGCAGTCGAGAAATTGCCAGAAATGAAGAACAAGCCTGATCTTTCGTCTGAACCATTAAAACAAACAGAAAATCCAGATGAGAAAACACGTGTTATTGTAGAGGTAGAGGATGAACCAGCAATTGAAAAGGCAACGAAAAAAGGTATTATGTTTAATCAAATGCCGAAAAATGAAAAAGAAAAATTGGAAAATGATGCCAAGAAAAAGCAAAATTCGATAAAAGAAGAAATGAAACAGAAAAAAGTCGATGCAACGTATCACGAGGAATTTACAACAGTTGTAAATGGCTTTAGTGCTGAAGTAAAACAAGGTGATCTTGATAAAATCAAAAAGATTAAAAACGTTAAAAAGGTGCATACGGTAAACGAATATGAGCGCCCAATTGCTAAGCCAGATATGAAGTATAGTAAAGAACTAGTAGAAGCACAGCAGGCTTGGAGGGAATATGATTTTAAAGGTGAGGGCATGGTTATCGGTATTATTGATACTGGTATTGATCCAACTCACCAGGATATGGCTTTATCTAACGAGCAAACGGCGGATTTATCTGAAGAAGAAGTCGAACAAGTCGTGAATGACGAATCGCTTCCAGGTAAATTTTATACGGAAAAAGTTCCATATGGCTATAATTATATGGATAAAAATGATGAAATAAGAGAAATACATGCAAATGCAAATTATCACGGCATGCATGTAGCAGGTACGGTTGGAGCTAATGGCGATGAAGAAAATAGTGGTGTCATCGGGGTGGCACCAGAAGCGCAGCTACTTGCACTAAAAGTGTTTGGAAATGATCCTGAAATGCGATCTACTTTTGGTGATATTTATGTAAAAGCGATTGATGATGCGATTAAGCTTGGCGTAGATGCATTAAATTTGAGTTTAGGATCACCCGCAGGCTATGTAAATAATGATTCTCCTGAACAACAGGCTGTTTCTCGTGCTGTAGAAAATGGCGTTCTTATGTCTATTTCTGCAGGAAATTCTGCTTTATTTGGAGATGGGTTTGCTTATCCAGATGTAGATAATCCAGATTACGGTGTAGCAGGCTCACCTGGTGTTTCTGATGATTCGCTTCAAGTTGCTTCGTTTGAAAATACGTTTATGCAAGTAGATCAGTTAGCGTATATGATAGATGATCAACAAGGTACAGCAGCCTTCCTGTCGGCAGGTAACACGGAGCCTAAGACAGATGGTAATTCCTATCCTCTCTTTCATGCTGGGCTTGGGCACCCAGAAGATTTTGAAGGCAAAAATGTAGAAGGGAAGTTTGCCCTAATTCAACGTGGAGAATTGGCGTTTACAGATAAAGCGATCAATGCGCAAAATGCGGGGGCCGCTGGTGTGATTATTTATAATAACACAGATGGTATTGTTAATATGGCAACTGCAGCTGAGATTACCATTCCACAGTTATTTATGTTAAAGAGTGATGGAGATAAGCTCGCACAGGCTATTGCAGAAAAAAAGCAAGTAAATATTGCTTTTACTGGCGATAGTGCAACGATAGACAACCCAGATGCTGGAAAAATGAGCGCATTTACTTCTTGGGGACTTACTCCAAATCTAGACTTTAAACCAGAAATTACTGCCCCAGGTGGACAAATTTATTCTACATTAAATGATAATAAATATGGTTTAATGAGCGGAACATCGATGGCTGCACCACATGTAGCAGGAGGCGGGGCTCTCGTTTTACAGCGTGTGGATGAGGAATTCGGGTATGAGAATGCTAATCGGATTGTCTTAGCCAAAAATATGATGATGAATACGGCAAAGCAAGTACAGTTTGAAGAAGAACCTGTATCTCCACGCCGACAAGGTTCTGGTATGATGCAACTTCATGCTGCACTTACTACACCTGTAGTCGTGACAGAATCTAACACGAAAGAAGCCAAGGTCGCTTTAAAAGAAATAACAGAAGATCGCGTGTCTTTTGAACTGACAGCTGAAAATTTCCAAGATACAGCTGTATCCTATGAAGTGAATGCGAATGCGCAAACAGATACGTCTGCAAACAGTGGAGATGATCTCGTTACAGCTCCAAATCTATTACCGTCTAATGATTTAGGAGACGCTGTGACCATTAATGGGAAAAAACAAGCTACGATTGAAGTACCTGCAAACGGAAAGACAACTTTTACGGTAACCGTTGATGTAAGTTCTGTCAACAACGAGTTAGCAAAAGTTTTTACAAACGGTTACTGGTTAGAAGGCTTTGTTACGTTAACGGATCCGACAGACACATATCCAGAACTAACGGTTCCATATGTCGGTTTTAAAGGTGATTGGGATGCAGCTTCGATTTTTGATGCGCCAGTATGGGAAGAAGATTCATTTTATGGTATGACAGGGGTTGTAACTTCAGCTGGCGAAGATAAAAATGGTGATATGCAGTATAACTTTTTAGGTGAAGATTTAAATACAGGTGACATTAACCCTGAAAAGATCGCCTTTTCCCCAAATGATGATGGTGTAAAAGATGATGCGCTTCCGATATTGTCATTTTTAAGAAATGCAAAGGATGCCAAGTTTACTGTACTAGATGAACAAGGAAAGAAAGTTCGTACGATTCGTTTAGAGTCCGGTATTAGAAAAAACTATTATGATTCTGGAAAAGGAGCCTATTATTCTATTTCGTCAGATCGAGCTTGGGACGGAAAAGTGAAGGGTAAGATGGCCCCAGAAGGAAAATACTATTTACAAGCGCAAGCAAAGGTTGATTATGACGGTGCCGAATGGCAGAAGCTAAAGCTACCAGTAATTTTAGATACAACCGCTCCAGAAGTAGAAGCAACGTATAATTTTGATAATGAAATGCTTACTGTAACAGCAAAAGATGCTAAAAAAGGGAGTGGCGTGGCTTCTTGGGGGATTTTTGTAAATGGTGAATCTGTGTTAGAAGAACCGTATGTGAATGGAGAAAAGGAACATTCTTTATCCGTCGATGAAGATGCAAAAATAACAGTAAAAGTGACAGACTATGCAGGAAATGAAAAGGAAGTAGAAGCAGAAATGCAAGAGCCTGATAAAACCGCACCGGACTTACGTTTGCTTGCTCCAGAAAATCTAGGGGCTCATGATAAGAGAGAAGTTGTTTTCTCAGGTTATGTAACAGATGAAACGGATGTAAAGGAAGTAACGGTCGATGGAAAAAAAGCAAAGCTTGCGTTTAATGAAGAAAAAGACCGTTATGAATTTTCCTTACCTGTGAATCATAAAAAGGACGGGTATTATTTTAAACGGGTGAAAGCAGTGGACACGCTTGGCAACGAAACAGAAATAGGCCGACGTTATTTTGTAGATACGAAGCAAGCTAAATTAAATGTAAAAGGGAAAAAGAAAACAAAGCAAGATACGATTACTGTAAAAGCAAGAGTTCGCGACAACTTTGACGATATTAATGTATTTGTTGATGGCGACCATGTCTATACACATGAGCTTTCCCAACCTTATGGCGATAACCGTTTCGATGAGCTCGTCGAAGTAGAATTAGACTTAGAGGATGGGAAAAACGAATTTGAGTTTAAAGTCGTCGATGTAGCCGGAAATGAAACTGTTAAAACGTATGAGGTAACAAAACAAAAAGAGAGCAAAGAAGACGAAGAGGATAAAGATGATGATAAAGACGGAGGAATAGAGGATAACTTCTTTTCCTATCTATTTTCCCAATTATGGATCATGTTCGGTAAATTATGGTCGATTTTTGGTTAA MRFTPAMKRSFMILLIFLLTFSSFSTIHAVEKLPEMKNKPDLSSEPLKQTENPDEKTRVIVEVEDEPAIEKATKKGIMFNQMPKNEKEKLENDAKKKQNSIKEEMKQKKVDATYHEEFTTVVNGFSAEVKQGDLDKIKKIKNVKKVHTVNEYERPIAKPDMKYSKELVEAQQAWREYDFKGEGMVIGIIDTGIDPTHQDMALSNEQTADLSEEEVEQVVNDESLPGKFYTEKVPYGYNYMDKNDEIREIHANANYHGMHVAGTVGANGDEENSGVIGVAPEAQLLALKVFGNDPEMRSTFGDIYVKAIDDAIKLGVDALNLSLGSPAGYVNNDSPEQQAVSRAVENGVLMSISAGNSALFGDGFAYPDVDNPDYGVAGSPGVSDDSLQVASFENTFMQVDQLAYMIDDQQGTAAFLSAGNTEPKTDGNSYPLFHAGLGHPEDFEGKNVEGKFALIQRGELAFTDKAINAQNAGAAGVIIYNNTDGIVNMATAAEITIPQLFMLKSDGDKLAQAIAEKKQVNIAFTGDSATIDNPDAGKMSAFTSWGLTPNLDFKPEITAPGGQIYSTLNDNKYGLMSGTSMAAPHVAGGGALVLQRVDEEFGYENANRIVLAKNMMMNTAKQVQFEEEPVSPRRQGSGMMQLHAALTTPVVVTESNTKEAKVALKEITEDRVSFELTAENFQDTAVSYEVNANAQTDTSANSGDDLVTAPNLLPSNDLGDAVTINGKKQATIEVPANGKTTFTVTVDVSSVNNELAKVFTNGYWLEGFVTLTDPTDTYPELTVPYVGFKGDWDAASIFDAPVWEEDSFYGMTGVVTSAGEDKNGDMQYNFLGEDLNTGDINPEKIAFSPNDDGVKDDALPILSFLRNAKDAKFTVLDEQGKKVRTIRLESGIRKNYYDSGKGAYYSISSDRAWDGKVKGKMAPEGKYYLQAQAKVDYDGAEWQKLKLPVILDTTAPEVEATYNFDNEMLTVTAKDAKKGSGVASWGIFVNGESVLEEPYVNGEKEHSLSVDEDAKITVKVTDYAGNEKEVEAEMQEPDKTAPDLRLLAPENLGAHDKREVVFSGYVTDETDVKEVTVDGKKAKLAFNEEKDRYEFSLPVNHKKDGYYFKRVKAVDTLGNETEIGRRYFVDTKQAKLNVKGKKKTKQDTITVKARVRDNFDDINVFVDGDHVYTHELSQPYGDNRFDELVEVELDLEDGKNEFEFKVVDVAGNETVKTYEVTKQKESKEDEEDKDDDKDGGIEDNFFSYLFSQLWIMFGKLWSIFG NA NA NA NA NA AK015_02615 537 hypothetical protein ATGACTTTAGGGGACAAATATTTACGTATTCTTAAACAAAGGTTTGTACAAATCAAGGAGCAAGGGGAGGGTACTTTTCAACAGTTGAATGAATCGGATATCCATTGGACATTGAATGAGGCTTCCAATAGTATTGCTGTCATTGTGAAACATTTACGAGGCAATATGCTGTCAAGATGGACGGATTTTTTAACAACTGACGGAGAGAAAAGTAATCGACATCGAGATCAGGAATTTATCAACACTGTCGATTCAAAACAGCATATGCTTACTTTGTGGAATGAGGGCTGGTCTGTCTTATTTACGGCATTAGAACAGTTAACGGCTACGGATTTGCAAAAAAATGTAAGGATTCGCGAACAGCCCATTTTAGTTTTAGATGCGATTGAAAGACAGCTTGCTCATCATGCTTCCCACGTTGGACAAATTATGTTAATTGGCAAGCAACGAAGAGGAAATGAATGGAAAAGCTTAAGCATTCCTAAAGGAAAATCTGAAGAGCATTTAAAAGAAATGAAGCAAAAATATAATAAATAG MTLGDKYLRILKQRFVQIKEQGEGTFQQLNESDIHWTLNEASNSIAVIVKHLRGNMLSRWTDFLTTDGEKSNRHRDQEFINTVDSKQHMLTLWNEGWSVLFTALEQLTATDLQKNVRIREQPILVLDAIERQLAHHASHVGQIMLIGKQRRGNEWKSLSIPKGKSEEHLKEMKQKYNK NA NA NA NA NA AK015_02616 1464 hypothetical protein ATGGAAGAAAGAACGACGCTGAAGAAATCTTTAAAGGCTCACTGGGTATGGGCGATCGCTTTAGGTTCATCAATTGGTTGGGGTGCATTCGTTCAACCGACCACATGGATGGCAACAGCAGGTCCACTAGGGGTCATTATCGGTTTTAGTATTGGTGCAATATTAATGATGCTCATTGCAGTAAGTTATGGCTTCTTAATTAAAAGCTTCCCGGTAACAGGTGGGGAATTTGCCTATGCTTTTATAAGTTTAGGTCGGACACATGCATTTATTAGTGGATGGTTTTTAACGTTAGGATATATTTGCATTGTAGCGTTAAATGCATCTGCCTTTGCTTTAATGTTTAAATTTGTGTTTCCCACACTGATTGAAAATTTTCCACTTTATCAAATAGCTGGTTGGGACGTTTATGGAATGGAAATCCTTATTGCTTCCATTGCTTTAGGGACATTTGGTTATTTGAATATTCGAGGAACAGGCATTTCTGGTCGCATGCAATTTTTATTTTGCAGTGTGATGATTGCTAGTATCTTAATGATTACATGGATGGTTGGGGCACAGCCGGGAACCGGTCTTTCCAGTGTACAACCTTACTTTCCTTCTGACACAACTGCTTGGGCTGCTATTATATCTATCGTAGCCATTGCTCCTTGGGCGTATGTTGGCTTTGACAATGTACCACAAGCAGCCGAAGAATTTCATTTTTCATCTAAAAAAGCATTTTCCTTAATTATTATGGCGATCTTTTTTGCGGCTGTTTTGTACAGCTTAATGATTTTAGCCACTGCTATGACACAGCCGTGGGAAGGCTTAGTCGCAGAGGATCATGTATGGGGAACAGGAGCAGCCATTCAAGAATTGCTTGGCACCATTGGCTTAGTGCTCTTAGTAACGGCATTAACGATGGGAGTATTTACGGGGTTGAACGGGTTTATTATTTCGTCAAGCCGTCTACTATTTGCGATGTCACGAGCGAAAATAATACCTGCCAGCTTTTCAAAACTGCATCCGAAATATAAAACCCCCTACATTGGGATCATCTTTACTGTCGTCGTTTCTGCATTTGCTCCATGGTTTGGAAGAGAAGCACTATTATGGGTTGTCGACATGTCTTCTATAGGTGTAACCATTGCTTATTTTTATACTTGTTACACGGCGTTTACATTATTTAAAACAAAGAAAACAGTCGCGTTCAATCCGAAGAAACATATCGTTTCTCCATTTAAGAAAACTATTTCAGGTGTTGGGATGCTAGCTAGCTTAACCTTTTTAGCATTATTATTAATACCCGGATCACCGGCTTTTCTCGGTATAGAATCTCAAATTGCCTTGGTCGTGTGGATTGTGCTAGGTATTGGCTTTTATTTGGTGAAACGTGGAGAGTTTAATAAGATTCCAAAAGAGGAGTTAAATTACTTAATATTAGGATCGAAAGAGATTGAGGCGGAGAATCGCCATATATAA MEERTTLKKSLKAHWVWAIALGSSIGWGAFVQPTTWMATAGPLGVIIGFSIGAILMMLIAVSYGFLIKSFPVTGGEFAYAFISLGRTHAFISGWFLTLGYICIVALNASAFALMFKFVFPTLIENFPLYQIAGWDVYGMEILIASIALGTFGYLNIRGTGISGRMQFLFCSVMIASILMITWMVGAQPGTGLSSVQPYFPSDTTAWAAIISIVAIAPWAYVGFDNVPQAAEEFHFSSKKAFSLIIMAIFFAAVLYSLMILATAMTQPWEGLVAEDHVWGTGAAIQELLGTIGLVLLVTALTMGVFTGLNGFIISSSRLLFAMSRAKIIPASFSKLHPKYKTPYIGIIFTVVVSAFAPWFGREALLWVVDMSSIGVTIAYFYTCYTAFTLFKTKKTVAFNPKKHIVSPFKKTISGVGMLASLTFLALLLIPGSPAFLGIESQIALVVWIVLGIGFYLVKRGEFNKIPKEELNYLILGSKEIEAENRHI NA NA NA NA NA AK015_02617 342 hypothetical protein ATGTTAGACACAGGTGCTTCTTATCAAGAAACTGCTGATAAATTTAAATTGAACAATCCTTCATTAATTCACCGATGGATGAAAACCTTTAATGAACGAGGGATAGAAGGCCTGAAACCAAAGTCAAAGGGGCGACCTTCTATGTCTAAAAAACCAAACAAACAGAAAAAAGAAGAGAAAAAACGGACGCGTGAAGAAGAATTGGAAAGAGAGAATGAGTTACTAAGACTAGAAAACGCGTATTTAAAAAAGTTGAGAGCTTTTCCGGAAAATCCGACTGCCTTCCACGAAAAGCACAAGCAAAGGTGGCATTCGAACTCAAAGAAGAAGGATTCCGATTAA MLDTGASYQETADKFKLNNPSLIHRWMKTFNERGIEGLKPKSKGRPSMSKKPNKQKKEEKKRTREEELERENELLRLENAYLKKLRAFPENPTAFHEKHKQRWHSNSKKKDSD NA NA NA NA NA AK015_02618 1314 wbpA_1 COG0677 UDP-N-acetyl-D-glucosamine 6-dehydrogenase ATGAGTTTATACGAAAAAATTCTAAACAAAGAAGAAAAGATTTCTGTCATTGGTTTAGGTTATGTCGGCCTACCGTTAGCTATTGAATTTGCAAAGAAATTTGATGTTGTCGGTTTTGATTTAAATGTAAAAAAGCTGGATAAATATTTATCTGGTGTAGATGTTACAAATGAAGTAGGAGATGACATGGTGAAACGTACAACCATGTCATTTACAAGTAAGGAAATGGATATTGCACCATGTAAATTTCATGTGGTAGCAGTTCCTACACCAATTAATACAGATAAGACCCCTGATCTTAATCCAGTTATTGGTGCTAGCAGAACTGTGGGTAAGCAATTAACGAAAGGTTCTATCGTCGTTTATGAATCTACTGTATACCCTGGGACAACAGAAGAAATTTGCATTCCAATTCTTGAAGAAGAATCAGGATTAAAGTTTGGAACAGATTTTAAAGTTGGGTATTCTCCAGAACGTATTAATCCTGGTGACAAAGTGAACACTTTAACAAAAATCACAAAAATTGTATCTGGTTGTGATGATGATTCCTTAAAGGAAATTGCTGCTGTATATGGTTCTATTATTGAAGCAGGCATTCATGAGGCAGAGTCCATTAAAGTTGCTGAAGCTGCAAAAGTAATTGAAAACTCACAACGAGATATTAATATCGCTTTTATGAATGAACTTGCTATGGTATTTGATAAGATGGATATTAACACGAATGCTGTATTAAAAGCAGCAGGAACAAAATGGAACTTTTTGAAGTTTACACCTGGGTTAGTTGGCGGCCATTGTATCGGGGTGGACCCTTACTACTTTACATACAAAGCTGAACAGCTAGGCTACCATTCACAAATTATATTATCTGGTCGAAAAATTAATGATGACATGGGCAAATTTATTGCTAACAACATTATTAAAAAGATGATTAGAGCCAAACAAGAAGTCAATCATGCAAAAATTGCAATCTTGGGTATTTCATTTAAAGAAAATGTCGCTGACGTGCGTAATACCAAAGTCATTGATATTATTAACGAATTAAAAGAGTATGGAATTGACATCCTCGTTCATGATCCAGTAGCTGAAGCAACAGACGTTTACGACGAATTTGGCATTACACTGGTTGAGAAAGAAGACCTAAACAACTTAGACTGCGTAGTTTTAGCCGTGCCGCATAAAACGTTTAAAGAAGACTATACGTTAGACGTGCTTGATAAAATGTTTAAGACAGACAAAAAAGTGCTTGTTGATATTAAGAGTATTTTCGAACAAAGAGAATGTGAAAAACAAGGCTTCAGTTATTGGAGTCTGTAA MSLYEKILNKEEKISVIGLGYVGLPLAIEFAKKFDVVGFDLNVKKLDKYLSGVDVTNEVGDDMVKRTTMSFTSKEMDIAPCKFHVVAVPTPINTDKTPDLNPVIGASRTVGKQLTKGSIVVYESTVYPGTTEEICIPILEEESGLKFGTDFKVGYSPERINPGDKVNTLTKITKIVSGCDDDSLKEIAAVYGSIIEAGIHEAESIKVAEAAKVIENSQRDINIAFMNELAMVFDKMDINTNAVLKAAGTKWNFLKFTPGLVGGHCIGVDPYYFTYKAEQLGYHSQIILSGRKINDDMGKFIANNIIKKMIRAKQEVNHAKIAILGISFKENVADVRNTKVIDIINELKEYGIDILVHDPVAEATDVYDEFGITLVEKEDLNNLDCVVLAVPHKTFKEDYTLDVLDKMFKTDKKVLVDIKSIFEQRECEKQGFSYWSL PGPT0018915_206 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_D_GALACTOSAMINURONIC_ACID_MODIFICATION,PGPT0018915-wbpo-K02474 NA NA AK015_02619 891 gtaB_1 COG1210 UTP--glucose-1-phosphate uridylyltransferase ATGAGAGTAAAAAAAGCAATTATTCCTGCTGCGGGTTTAGGCACACGTTTTCTGCCTGCTACGAAAGCCCAACCAAAAGAAATGCTACCAATTGTAGATAAACCCACTATTCAATATATTGTAGAGGAAGCTGTGGATTCTGGCATTGAAGATATTATTATCATTTCAGGAAGAGGTAAACGAGCGATTGAAGACCATTTTGATATTTCTTATGAACTTGAAGAGAAATTAGCAGCAAGTGGAAAAACGGACTTGCTAAAGATGGTTCGTTCCATTTCTAATCTGGCAAATATTCACTACATTCGCCAAAAAGAACCAAGAGGATTAGGACACGCTATTTTATGTGCTCATAGCTTTATTGGGGAAGAACCCTTTGCTGTATTGCTGGGTGATGATATTGTTGAAGCCAATGAGCCTTGCTTAAAACAATTAATGAAAGTATATGAAAGAAATGAAACATCTGTAGTAGGTGTTCAAGAGGTACCTGATCAAGAAGTATCTAAATACGGCATTATTAAACCATTGATCGAAGAAGATGCTCATTCTTCTATTCGTGTGGTAGAATCTTTAGTTGAAAAGCCATCCTTAGAAAATGCACCTTCCAACTTAGCGATCATGGGAAGATATATATTATCGCCAAAAATTTTCCCTATCTTAAAAGAATTGAAACCTGGAAAAGATGGAGAGATCCAATTGACAGATGCTATCGAAAAATTAAATCAAATTGAAAACATCGTATCCTATCAATTTAAAGGTAAAAGATATGACATAGGCGGAACACTTGGCTTTGTAAAAGCAACGATCGACTTTGCTTTACATCGTGAAGATTTATATGGCGATGTGAGAAAATATATGGAGGAAAAATTATCAAATATAGAGACAGAAAGATAA MRVKKAIIPAAGLGTRFLPATKAQPKEMLPIVDKPTIQYIVEEAVDSGIEDIIIISGRGKRAIEDHFDISYELEEKLAASGKTDLLKMVRSISNLANIHYIRQKEPRGLGHAILCAHSFIGEEPFAVLLGDDIVEANEPCLKQLMKVYERNETSVVGVQEVPDQEVSKYGIIKPLIEEDAHSSIRVVESLVEKPSLENAPSNLAIMGRYILSPKIFPILKELKPGKDGEIQLTDAIEKLNQIENIVSYQFKGKRYDIGGTLGFVKATIDFALHREDLYGDVRKYMEEKLSNIETER PGPT0014875_2930 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 AK015_02620 1143 pglJ_1 COG0438 N-acetylgalactosamine-N,N'-diacetylbacillosaminyl-diphospho-undecaprenol 4-alpha-N-acetylgalactosaminyltransferase TTGACTCGAATAAAAATTATCTTTTTTATCTATGAACTCGGCTCTGGTGGGGCTGCTAGAACGATGTTAAATATTGTTAATAATATAGATAGAAACAAGTACTCCCCTGTACTTGTTACTTTGAATTATAATGGTGATTATGAGGCTCATTTGCAGCCTGACATTTTATTTGTAAAATTACCAACGAAGCGATTAAGATCAGCCATTATACCATTGGCAAAGGTCATTAGAAAAGAGCGTGCAGATATTGTTTTTAGTACCATCCCTAATTATAATACGATTGCTATTCTTGCGAGATTATTATCTTTAACGAAAGCGAAAAACATTGTCCGAGAAGCTGCTTATTTAGGGGGGACGAAAAAAACAGACCGTAAGCTTCGATTATATGGAATACTGTATAAGTTCGCTTCTCACGTTATTGCCTTATCTGAAGGGGTAAAGGCAAATATTGTAAAGCGCTATAAGGTAGCCGCTGATAAAATTACTGTCATTTATAATCCAGTTGATATCGATAGAATACAACAAAGTGTAGAAGAAGGGCACATAGCTAAACAACATATTGAATTGTTTCAAAGGGAAAATCCTGTCATTATAACAGCTGGAAGACTTGTAGAAGATAAAGATCATAAGACGTTAATTTATGCTTTTGCAAAGGTGAGAAAACGTTTGAATGCTACCTTGATTATACTAGGTGAGGGTAGATTAGAATCAGACTTGAAGCAGTTAGCTCATAAGTTAAACGTAGAAAAAAGTGTCTTTTTCCTTGGTTTTCAAAACAATCCGTATGTATATTTCAAGCATGCCGATGTGTTTGCTTTATCTTCTAGGAGAGAAGGGTTTGGTCATGTACTGGCTGAAGCTTTAGCAACGGGACTCCCAGTAGTTTCCACTAGGGCGAAACCAGGTGCTGTTGAAGTTTTACAAAACGGAATGTATGGCATGTTAAGTGAAGTAGAAGATAGCGTGGCTCTTGCTGAAAATATCTATAATCGACTAATACAGCCAGAAGATCAAAAGCGTAATATTGTCGAACAAGGAAAAAAACGTGTCAATCAATTTCATGTTGATGATATTATCAAACAATACGAGTTTGTTTTTGAAAGTACAATTAAAAAGAGAAGTAGAGAAAGAGACAGGAGTTGA MTRIKIIFFIYELGSGGAARTMLNIVNNIDRNKYSPVLVTLNYNGDYEAHLQPDILFVKLPTKRLRSAIIPLAKVIRKERADIVFSTIPNYNTIAILARLLSLTKAKNIVREAAYLGGTKKTDRKLRLYGILYKFASHVIALSEGVKANIVKRYKVAADKITVIYNPVDIDRIQQSVEEGHIAKQHIELFQRENPVIITAGRLVEDKDHKTLIYAFAKVRKRLNATLIILGEGRLESDLKQLAHKLNVEKSVFFLGFQNNPYVYFKHADVFALSSRREGFGHVLAEALATGLPVVSTRAKPGAVEVLQNGMYGMLSEVEDSVALAENIYNRLIQPEDQKRNIVEQGKKRVNQFHVDDIIKQYEFVFESTIKKRSRERDRS NA NA NA NA NA AK015_02621 1143 hypothetical protein ATGGTTACACCAAAACGTGTTGCTCACATAACGACGGTTCATCATCCGTTTGACCCACGTATTTTTCATAAAGAATGCGTGTCGCTAAGTAAAGCTGGCCATGAAGTTATTTTATTAGCTCCAGAGTCCGAAAATGAAACACAAATTAAAAAAACGGAGGTTACGCACCTACCTTTACGAAGATATAATAGTAGATGGAAACGAATGTTTTTCGGTACGATTCAAGCTTGGAAGAAAGCTAAAAAACTAGAAGCTGATATTTATCATTTTCATGATCCGGAGCTTTTACCTATTGGTTGGTTATTAAAGAAGAAAAAAAATATTGTGATATACGATATTCATGAGGACTATGTCACAAGTATTCTACAGAAAGATTACTTACCTACACCCATAAAAAAGTTAATTGCAAAAACGTATAAGTTTATGGAAAAGTTTTTTACAAAACATATGCAAATATGTTTAGCTGAAAAATATTATAAAGATTTTTACCCAAACGGAATACAAATATTAAATTACCCGTTATTAAGTGACAGATTAACAACAGAATGTAGTGAAAGAAAGCCGAACACGTCTAAACAAGATAAATTGTTGTATACTGGTAATGTGTCTCATGTACGAGGTGCTTTACTTCATGCTAAAATACCTACTATTGCTGACGATATCTCTGTTCACTTTGTTGGTAAATGTCCTAAAGAGCTAGCTGAAGAGATGTTTCAGGTAGCTGATAATAAAAGGGAGCAATTAGTTATTGAAGGTATAGATCAGTATATTGAAAAAGAAGTGATTGAGGATAGATATTTTAACGAAATGTGGTTGGCAGGTATAGCTCTTTTTCCACCGACAGATCATTATAAACGTAAAGAATTAACGAAGTTCTTTGAATACATGGGAGCTGGCATCCCCATTATTTGTTCTGATTTTCCCGTATGGAAGGATTTTATTGATACTTATAAATGCGGCTTAACAGTTGATCCATATAATGATACCGAGATTCGAAAAACGATAAATTATTTAAGGGAAAATCCGCAAGAAGCCATTGAAATGGGGAAAAACGGAAAAGAAGCGGTGGAAAATGAGTTGAATTGGCAATCGCAAGCTGATAAGTTAATAAACTGGTACAGTCATTTAACGACGAAACAATAA MVTPKRVAHITTVHHPFDPRIFHKECVSLSKAGHEVILLAPESENETQIKKTEVTHLPLRRYNSRWKRMFFGTIQAWKKAKKLEADIYHFHDPELLPIGWLLKKKKNIVIYDIHEDYVTSILQKDYLPTPIKKLIAKTYKFMEKFFTKHMQICLAEKYYKDFYPNGIQILNYPLLSDRLTTECSERKPNTSKQDKLLYTGNVSHVRGALLHAKIPTIADDISVHFVGKCPKELAEEMFQVADNKREQLVIEGIDQYIEKEVIEDRYFNEMWLAGIALFPPTDHYKRKELTKFFEYMGAGIPIICSDFPVWKDFIDTYKCGLTVDPYNDTEIRKTINYLRENPQEAIEMGKNGKEAVENELNWQSQADKLINWYSHLTTKQ NA NA NA NA NA AK015_02622 786 tuaG COG0463 Putative teichuronic acid biosynthesis glycosyltransferase TuaG ATGAGAAATAATCAATTACAACCGCTTATATCAGTTATTACACCTGCGTACAATGCCGAAAAGTTTATAGGTGATACCATACAATCCGTATTGGCACAAACATACAAGAATTGGGAAATGATCATTGTGGATGATCAATCGAAAGACAGAACGGTTGCTTGTGTGGAAAAGTATCAGCAAAAAGATAGGCGGATTAAACTTGTCGTACTAGAAACAAATAGCGGTTCAGCAGTTGCCAGAAACAAAGCGATGGAAATAGCGGAGGGTCGCTATATTGCTTTTTTAGATAGTGATGATTTATGGCTTCCAGAAAAACTGGAGGTGCAGCTTGTATTCATGCAACATAAAGACATTGCTTTTTCTTTCACGAAATATATGCGGATACGTGAAAATGGGTCTGAAACAAGTGATATTATGAGTGTGCCAAATGTAGTTGATTATAACCAATTAATGAAACGATGTGTTATTGGCTGCTTGACTGTAATGATTGACAGAGATAAAGTCGGAAGGCTAGAGATGGTCAATATTCGGACAAGACAGGACTATGCTTATTGGTTAACTATTACAAGGAAAGGTTTTTTGGCATATGGTATTCCCCAAGTTTTAGCTAAATATCGTGTCGTCGAAAATTCTATTTCCAGTAATAAATTGAAAGCAGCACGACAAAACTGGAACCTATTTCGTCATATTGAAAACCAGCCGTTAGGGAAAAGTATATGGTATTTTGTTAATTATGCAGTAATTTCCATGAAAGATATTTTTGTGCGTAAATTAAAGCAAATGTAA MRNNQLQPLISVITPAYNAEKFIGDTIQSVLAQTYKNWEMIIVDDQSKDRTVACVEKYQQKDRRIKLVVLETNSGSAVARNKAMEIAEGRYIAFLDSDDLWLPEKLEVQLVFMQHKDIAFSFTKYMRIRENGSETSDIMSVPNVVDYNQLMKRCVIGCLTVMIDRDKVGRLEMVNIRTRQDYAYWLTITRKGFLAYGIPQVLAKYRVVENSISSNKLKAARQNWNLFRHIENQPLGKSIWYFVNYAVISMKDIFVRKLKQM PGPT0015205_29 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 AK015_02623 786 tagG COG1682 Teichoic acid translocation permease protein TagG ATGAAAACTTATATAAAGGAAATAGTAAAAAGAAAAGATTTATTATATTATTTGGTTAAATCAGGATTGAAGGCAGAACATCGTAATAGTTATCTTGGCTACTTCTGGTGGCTATTAGATCCTTTGTTAAACGTGTTAGTATATTACTTTTTAGTCGTCATTATTTTAAATCGAGGAGACGATGTCGCAAACTACCCGTTATTTCTTGTAATAGGTTTAGTAGCATGGCGATGCATCAGCTCGTCCATAAATAGTTCTGCTAAATCAATTATGCGCTATAGCTCAATTATTAATCAGGTATACTTGCCAAAATCCATTTTTCCACTTGCATTTACAATTACTCAGTTATTTAATTTTGCATTTGGTTTAGTAGTGATAGCTATATTTTTAACTTTGTATGGAGTGGTTCCAGGCTGGCACATTGTTTACTTACCAGCCATCATCGTAGTGCAGACCGTATTTTTATTATCTATTGGCTTAATTTTAAGCTTTGTCACTGTATTTGTAAGAGACATTGATAATCTCATTACTTACGTTATTCGTATTTTCTTTTACGCTTCTCCAATTATATGGCAGGGTGGTCGTTTTGAAGGAACGAAACTTAGTTGGATCATTGATCTAAATCCAATTGCTGTTATCGTTGAATCATACCGAGACATTTTGATATATCATCAAAATCCTGACCTTACAGGATTAGGGGTTATCTTTTTACTTGCGTCACTTGCATGTATGTTTATGATTTATTATTACAGTAAGAATGAACATAAAATTATAAAAGCATTATAA MKTYIKEIVKRKDLLYYLVKSGLKAEHRNSYLGYFWWLLDPLLNVLVYYFLVVIILNRGDDVANYPLFLVIGLVAWRCISSSINSSAKSIMRYSSIINQVYLPKSIFPLAFTITQLFNFAFGLVVIAIFLTLYGVVPGWHIVYLPAIIVVQTVFLLSIGLILSFVTVFVRDIDNLITYVIRIFFYASPIIWQGGRFEGTKLSWIIDLNPIAVIVESYRDILIYHQNPDLTGLGVIFLLASLACMFMIYYYSKNEHKIIKAL PGPT0023304_1781 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_TRANSPORT,PGPT0023304-ABC_2_LPSE_P|wzm|rfbA|tagG-K09690 NA NA AK015_02624 1545 btuD_5 Vitamin B12 import ATP-binding protein BtuD ATGAACTCCAAGCAAAAAGTTAATAACAATCATCAAGAAGAACATGTCATAATAGCAAAAAATATTGGTGTGTCGTTTTATGCAGGAAATCAACGTGATGATTATAAATCTCGTGTATTGCGCTACTTAAAATTAAATAGAAATAATATAGATCACAAACAAAAGGTATGGCCATTAAAAGATATTAATTTTACTGGCCATAAAGGGGAAATCTTAGGTATTATTGGTTCAAATGGTGCGGGTAAAACGACGTTAAGTAAAATTATTACAGGCATCCTCCAAGAAGACAAGGGTGAACTAGAAGTAGACGGCAATGTTACGGCATTGTTCTCTTTTGGTATGGGTTTTAATAAAGAGCTAACTGGAAGAGAAAATGTATATTTAAATGGTATGATGTTAGGGATTAATAAAAAAATGATTAATCACTATATTGATGACATCCATGCCTTTTCAGATATTGGAGATTTTTTTGATCAACCAATGAAATATTATTCAAGTGGTATGAAAGCAAGACTAGGCTTTAGCGTCGCTTCTCATTTGCAACCAGAAATTCTCATTCTAGATGAAGCTTTAAACACAGGAGATGCTAAATTTAGCCGCAAAGCTGCAGTAAAAATGAAAGAGTTGGTTAAAAATGCAAAAATGGTCATAATTGTTACGCATAGTTTGCGTTATGCTCAACGAAATTGTGACCGTTTAGTATGGTTAGATAAAGGGAAGGTTCGCAAAATTGGTGAACCAGTAGAAATAATTAAGGAATATCGGGCGACGGTTCCGCCAAGGCCGCCTCGCAAACATCGTAACCTTCAATTAGAAAAAAAACAGTCTATCGTTACAGACAATACAATTATTAAAGCCAATGATATTGGTGTATCGTATAAATTAAACACGGGTATTTTTTGGGCATTACAAAATGTTAATTTTGAAGTGAAAGAAGGCGAAGTATTAGGTGTTATTGGTCATAATGGCGCTGGTAAAAGTACGCTTTGTAAAGTATTGACAAAAATATTATCACCCGATACGGGAAGCCTACAAATAAATGGAGAAACATCTGCTTTGTTAGGTTATGGTACCGGCTTTAATGCGCAATTGAGTGGTAAAGATAATATTTTTTTAAATGCTATGCTATTAGGCATACCTAAAAAAAGAGTGAATGAAAAATTTGATGTGATTGTAGAATTTTCTGGTTTAGGAGAAAAAATTCATAAATCGGTGAAGGACTATTCCAGTGGTATGAAAGCTCGCTTAGGGTTTAGTATTGCGGCAATTTTGAAACCAGATATCTTTATTATTGATGAAGCTTTATCAACAGGGGACTTGGCATTTAAACAACGTGCAAGTGAGAAAATACAAGATATGATGTCACTTGCTAAAGTAGTTATCATCGTCTCTCATAATATGGGATTTGTTGAACAAATTTGCACGAGAGCAATTTGGATGGAAAAAGGGCAAATTAAGTTTGATGGGGAAGCCAAAGAAGCGGTCGCTAAATATAGAGAATCACAAGGGATTGTAAAGAATATAAAAGTTCGTGAGAAAGCCTAA MNSKQKVNNNHQEEHVIIAKNIGVSFYAGNQRDDYKSRVLRYLKLNRNNIDHKQKVWPLKDINFTGHKGEILGIIGSNGAGKTTLSKIITGILQEDKGELEVDGNVTALFSFGMGFNKELTGRENVYLNGMMLGINKKMINHYIDDIHAFSDIGDFFDQPMKYYSSGMKARLGFSVASHLQPEILILDEALNTGDAKFSRKAAVKMKELVKNAKMVIIVTHSLRYAQRNCDRLVWLDKGKVRKIGEPVEIIKEYRATVPPRPPRKHRNLQLEKKQSIVTDNTIIKANDIGVSYKLNTGIFWALQNVNFEVKEGEVLGVIGHNGAGKSTLCKVLTKILSPDTGSLQINGETSALLGYGTGFNAQLSGKDNIFLNAMLLGIPKKRVNEKFDVIVEFSGLGEKIHKSVKDYSSGMKARLGFSIAAILKPDIFIIDEALSTGDLAFKQRASEKIQDMMSLAKVVIIVSHNMGFVEQICTRAIWMEKGQIKFDGEAKEAVAKYRESQGIVKNIKVREKA PGPT0023470_52 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023470-tagH-K09693 NA NA AK015_02625 1941 hypothetical protein ATGGATATAAAATGGAAACAAGTCGTAACCGCCCCCATGGACTGGTTTTTATACGAGGCATTAAATGAAAAACAAAGAAAAGCTATTGGAGACTTCTTTTCACCAACACTCAAAGAGAAACTAGTGAGGATGTTAAATGGGAAGAGGAATCAAAAACGCAAAGAATTAAAACAAATTAAATATCATCTTTATAATTTAGGGTTTATTGAAAAAGCTCTTCATGATTTGCAACATTTGCATGATACAACAAATGATCCAATTATAAAAAGTCAGTCTGCTTGGGAACTCGTATTATGGTATTTAAATCAAGAAACAGAGCAAGGAGCAAAACAAGCCTTAGCCTATTTGCAAGATGTAGCCCCCGAAAAGAATGTGGATAAACAAAGAAAGATAGCCATTTTACAAGCAGAATGCTTTAATAAGTTAAACAGACAAGTAGAAGCGAAAACAGTATTATCAGATATGGCGGATGCTCATGAACACCCAGATCTATATTTAGCGCTTGCCAACTTAGAGCCTACTGTAGAACAGCGCCTCGTATGGATTAATAAAGCGATGAGCTACTATCAATTGGATCCTATAACGATTGAAAAAAACAGCTTTGGCAAATTTCATTATGATGGTTTAAAAACCTTATCAAAACAAGAGCATTCTATTTCAAATGGACCTAAAGTTACCGTTATTTTGCCCGCCTTTAAGGCAGAGAACGATATCCAAATAGCGATAGAGTCTATTTTGACACAAACATGGAAAAATTTAGAATTAATTATCGTGGATGACTGCAGTCCTGACGATACCGTGAAAGTCGTTCAATCTTATATGAAAAAAGATTCTCGCATTCAATTATTGCACACACCTAAAAATAGTGGTCCATATGTTGCCCGAAACATAGGTTTGCAAAAAGCAACTGGGGAATTTATTACAATTAATGATTCAGACGATTGGTCTCACAAACAAAAAATAGAAACTCAAGTCACGCATTTAATGGAAAACAAGCAAATAATTGCTAATACATCTGAACACGCACGATTAACAGAAGATTTACAGCTTTACCGAAGAGGCACACCTGGGAAGTATATCTTTCCAAATATGTCATCTATTATGTTTCGTCGAAATCCAGTCCTAGAGAAAATTGGTTATTGGGATAGTGTCCGATTTGCTGCAGATGGTGAATTTAAGCGAAGATTAATAAAAGTTTTTGGGAAGCAAAGCTATGTAGATCTTAACAGCGGCCCTTTATCATTACCGAGACAAACAGCGACATCTTTAACGGGAAGTTCAGCCTTTGGGTATAATGGTTTCTTTATGGGCGCGCGTAGAGAATATGTGAATAGCTTAGAATATTATCATAAACGGGCTTCATCCTTGTACTACGCTTATCCTTTAACAAAGCGACCATTCCCTGTCCCTGAACCAATGTGGCCTGATCGAGAAGCTGTCAATGGAAAACGCCATTTTGATGTGGTGATTGTTTCTGATTTCAGAATTAACAATGCGATATTGTTAGATGAACTTCAATATTGGAATAAGCAACAAAAGAAGATAGGGTTCGTTCAATTACATTATTATGATTTGTCCATCCAGCAAGATATAGACCACTCCATCAGAGATTATCTAGATGGAACGCAAGTACAAATGATCGTTTATGGTGAAACGGTTAAAGCGAATCAATGTATCGTTGTTGACCCAATTGTTTTGGCCGAACATCAACTTTATGTTCCAAAAATAAAAGCATTGGCAACGGATGTTATTATGCCAAATCAACCGAAAGCTGAAAGAAAAACAGATTTATTGGTTAAAGGTGTGGAACAAGTAAATAAAGCTTTTGATAGCCCGATATATTGGTATGTAGAAACAGAGGACATGAAGCAGTGGTTAAGCTTGCATTATCCAATCATTGTAGATAAAGTAGCCATCTCTAGACGAAAGGTAAGGGAATAG MDIKWKQVVTAPMDWFLYEALNEKQRKAIGDFFSPTLKEKLVRMLNGKRNQKRKELKQIKYHLYNLGFIEKALHDLQHLHDTTNDPIIKSQSAWELVLWYLNQETEQGAKQALAYLQDVAPEKNVDKQRKIAILQAECFNKLNRQVEAKTVLSDMADAHEHPDLYLALANLEPTVEQRLVWINKAMSYYQLDPITIEKNSFGKFHYDGLKTLSKQEHSISNGPKVTVILPAFKAENDIQIAIESILTQTWKNLELIIVDDCSPDDTVKVVQSYMKKDSRIQLLHTPKNSGPYVARNIGLQKATGEFITINDSDDWSHKQKIETQVTHLMENKQIIANTSEHARLTEDLQLYRRGTPGKYIFPNMSSIMFRRNPVLEKIGYWDSVRFAADGEFKRRLIKVFGKQSYVDLNSGPLSLPRQTATSLTGSSAFGYNGFFMGARREYVNSLEYYHKRASSLYYAYPLTKRPFPVPEPMWPDREAVNGKRHFDVVIVSDFRINNAILLDELQYWNKQQKKIGFVQLHYYDLSIQQDIDHSIRDYLDGTQVQMIVYGETVKANQCIVVDPIVLAEHQLYVPKIKALATDVIMPNQPKAERKTDLLVKGVEQVNKAFDSPIYWYVETEDMKQWLSLHYPIIVDKVAISRRKVRE NA NA NA NA NA AK015_02626 2178 hypothetical protein ATGAACCATTGGGGAGGAGAGCTGGACACTTTAAACGAAAAGAATGCTGCACTAGAAGCTGAGTTAGCAAATCTGAATAAAGTTTTAGCAGAAAAAAAAGCGCAACTACAAGAAACAAGAGAGATGCGAATTAGAACAGAAGCTGTTTTTCAAGATATTCTACACAGTAAATGGTGGAAAACTATTTTATATATGAGTCACTTAAAAGAACAAGCGGGAGAAGTAGTTGCTGCGCTTATCGGTAAACGTGATCGTCGCGAACTCTATAGTCGTTTATATAGAAGAAAAAAAATCGACAATCAATTAAAGTCATATCGATATTATTTATATAACCTTGGCTTTACTGAACGAGTTATTAATGAATTAAAACACAAATATAAAACGACAACAAAGCGTTATGAGCGTAGGGCGATTGCTTGGGAGTTAGCTTTATGGTATGCAAATTTTCAAACTGAAATAGGTGCTGAAAATGCTTTGAAATATATCCCGGAAGCTAAGTTAAAGGACGCGGGTCAAGCGCACTTGCGCAAAATAGCAATTGTTGAAAGTGAATGTCATCTTCTGATAGGGAATAGAGAGAAAGCGAAAACTATTATCTACCATATGTTAGATAAACAACAGCACCCAGACTTGTTTTTAGCTGCAGTAAATGTAGAGACGAATATAAATAAGCGACTTTCTTGGGTTAATAAGGTTTTTACTTTTTACGAACTCCCAACAGTCACTATAAAAAGAGACGTTACTTATTATGATGGTTTTAGAAGTGAAGAAAAGCTTGATCATGCCCAAGGGATGCAAAAAGTAACCATTATTGTTCCTGTTTTTAATGCAGCTCATACAATTTCCACTACATTAAACTCTTTAATTGTTCAAACATGGGAAAATTTAGAGATTATCGTTGTAGATGATTGTAGTAAAGATCAAACCAAAAAAGTAGTAGAGGAATATATTAGAAAGGATCAACGCATTCGTCTACTTACAACATCTGTAAATAGTGGTCCTTATGTAGCTAGAAATATTGGCTTACAAGTTGCTTCAGGAGATTACATTACTGTCAATGATGCAGACGATTGGTCACACCCTAAAAAAATTGAAATCCAAGTGGCTCATTTAATCCAAACGAATACGGTAGCTAACATGTCACAACAAGCCAGAATTACGGAACAAATTACTGCTTTTCGAAGAGGTTCACCTGGTTATTATATTTTTAACAATATGTCATCACTTATGTTTGAGCGAAACAGAGTGGTAGAAAAGGTTGGTTACTGGGATACTGTTCGTTTTGCAGGGGATAGTGAATATATCTATCGTTTAAAACATGCATTTGGAGATCATGAAGTAGTTGCTTTAAATACTGGACCGTTATCTTTTCAAAGACAAACGGGAAGTTCATTAACAAGTAATGAAACATTTGGCTATAGCGGATATCTATTCGGAGCTCGAAAAGAATATGCAGCGGCATATAGATTTTATCATCAGAATGGTGGCGATGTATTTTTCCCTCCATCTCAAGAAACAAGACTATTTTTAGCACCACAACATATGCAGGCTAATGTAAAGCCAAAGAACTATTTTGATATTGTTATTGCTGGAGACTTTAGACATTCAACAGCTTTGTTACTTCAAGAAATAAAAGCCATTCATGCAGCAGACTATCGAATAGCACTTATGCAATTGGATACCTATTGCTTGAAAATAAGCAATGAAATGAACTCGAATATACGAGCTTTTATAAATGAAAATTATATTCCCGTTTTAACAATAGGAGATGTAGTTCGTTGTGAAGTCTTACTAATACGAAATGCAGAAGCTCTTACAGAAAAACAGGCTTACTTGCCTGATATAACCCCAAATATGGTGACAGTCGTATTAGATGAAATGTTTGTTGCACTACTCATGGAAGAAAAGAAAAAGGCCCATGTTATGAGAAAGTGCGCGCATAGAGTGCAGGAATACTTTAATAAAAAAGGAAAATGGCTCCCATACAGTGGTAGAGAAAGAGAACAGTTAAACAATATGGACTTGAAATATGTGAAACTTTCCTCTAATAACTGGGAAAATAGTACAACCTCTAATCACTGGTATATGCTTTATTTGCAAGATTGGATCGTGGATCATGACGTCATAAGTGGCGTTTCCAGTAAGGGAGATGGGTACAATGACACAAAAGCACCCTAG MNHWGGELDTLNEKNAALEAELANLNKVLAEKKAQLQETREMRIRTEAVFQDILHSKWWKTILYMSHLKEQAGEVVAALIGKRDRRELYSRLYRRKKIDNQLKSYRYYLYNLGFTERVINELKHKYKTTTKRYERRAIAWELALWYANFQTEIGAENALKYIPEAKLKDAGQAHLRKIAIVESECHLLIGNREKAKTIIYHMLDKQQHPDLFLAAVNVETNINKRLSWVNKVFTFYELPTVTIKRDVTYYDGFRSEEKLDHAQGMQKVTIIVPVFNAAHTISTTLNSLIVQTWENLEIIVVDDCSKDQTKKVVEEYIRKDQRIRLLTTSVNSGPYVARNIGLQVASGDYITVNDADDWSHPKKIEIQVAHLIQTNTVANMSQQARITEQITAFRRGSPGYYIFNNMSSLMFERNRVVEKVGYWDTVRFAGDSEYIYRLKHAFGDHEVVALNTGPLSFQRQTGSSLTSNETFGYSGYLFGARKEYAAAYRFYHQNGGDVFFPPSQETRLFLAPQHMQANVKPKNYFDIVIAGDFRHSTALLLQEIKAIHAADYRIALMQLDTYCLKISNEMNSNIRAFINENYIPVLTIGDVVRCEVLLIRNAEALTEKQAYLPDITPNMVTVVLDEMFVALLMEEKKKAHVMRKCAHRVQEYFNKKGKWLPYSGREREQLNNMDLKYVKLSSNNWENSTTSNHWYMLYLQDWIVDHDVISGVSSKGDGYNDTKAP NA NA NA NA NA AK015_02627 1464 hypothetical protein ATGACACAAAAGCACCCTAGTGAAAAAAATGTACAACAAGCGTTAAAGGCGAACGAAACGGCTTCAAATGTAGAAACAGAATCACAAAAAGAGAATGCTTTGTTGAAAGAGTTAATACGTAAAGAAGCTTTAATAGCTCAAGCTGAGTCAGAACAGAAAAAAGATAGGAAAGAAATTAAAAACATTACATCTAGTAATAAATGGAAATTATTTACACCATTAAGGAAGCTAAAAGAAAAATTTTTTGCAACAGAAAAAACACAAGGGTATGTACGAAGACTAGAAACAGAACTAGAGCAAATACAACAACAATTATTACAAACACAACAACAATTACAAGCTTTGTCATTAGACGATAGAAAATTGAAAAGCCACACGGTAGTAGAAAATATGCGTGAGCTAAAAAACAGCGGTGAACTTATTGATTTTGTAGAAAAAGTAGTAGAAGATAAACAACAACATGCAGCAAGCTATCAGGAAGCCCTATTGTATGCAGCTAGGTTATTTATGGATGATGATGATATTTATAGGAATTTCGTATATGCAAAAATTTTACAAGGTTTATACTTGGAGGAAATACCAGAATTCATTATTCGCGCAGGTTTAGTTGAAGATAACGCTTTACCATTAAAGCAATCGGCGTCCTTTCGAGCAAGTTTAAACATGCGTATTCGTCAAAGTCAGTTAATTGGCGCTTTACCGGAATGGTTATTGGATGATAAAAAAGATGCATATAAATTTATAGATGCTTTCGAAATAAGAAGACCTTGGGTGTCAGAGCAAACATATCAGATAGAAAATCTTCCACCAAAAGAAGGAATTGTTATTAAACCTACTGATGGTGCTGGTTCCCGCGGCGTATATCTCGTATATCATTTAAGTGATATAATAGATGTGAAACGAGGGGTTCGAATATCCAGTTGGGATGAATTGATAGCACATATGAAAAAAGACGTACTGACTGGTTGGGTACATCGTAATGAGTGGATGATGGAGGAACTAATTTTAGCCGATCAAAATAATAGCCAACCAGCTAGGGATATGAAATTTTATTGCTTTTATGGCCGAGTAGGTCTTATTCTAGAAATAACTCGTTTTCCTGAACAAAAACATTGTTGGTGGGACGCTTTTGGAAACCGAATTCGAACTGGTAAGTATGAAGAGTCATTATTTCTTGGTGAAGGTGCTTCTCAAGAAGAAATAGAAATGGCACGTACGTTAAGTTTACAAATTCCCGCTCCATTCATACGCATTGACTTTTTAAGGTCGTCTGATGAGCTGGTATTTGGCGAATTTACTCCTAAACCAGGTAATTACGATGATTTTAACGAAGAAATCGATAAACAGTTAGGTAATTATTATTTAGAGGCAGAAGGTAAATTAGTTTCGGATTTATTTAACGGAAAAGCGTTTAACACGTTTAAGCAATTAACTGCTAAGCTTCATGAAACAAACAATATGTAG MTQKHPSEKNVQQALKANETASNVETESQKENALLKELIRKEALIAQAESEQKKDRKEIKNITSSNKWKLFTPLRKLKEKFFATEKTQGYVRRLETELEQIQQQLLQTQQQLQALSLDDRKLKSHTVVENMRELKNSGELIDFVEKVVEDKQQHAASYQEALLYAARLFMDDDDIYRNFVYAKILQGLYLEEIPEFIIRAGLVEDNALPLKQSASFRASLNMRIRQSQLIGALPEWLLDDKKDAYKFIDAFEIRRPWVSEQTYQIENLPPKEGIVIKPTDGAGSRGVYLVYHLSDIIDVKRGVRISSWDELIAHMKKDVLTGWVHRNEWMMEELILADQNNSQPARDMKFYCFYGRVGLILEITRFPEQKHCWWDAFGNRIRTGKYEESLFLGEGASQEEIEMARTLSLQIPAPFIRIDFLRSSDELVFGEFTPKPGNYDDFNEEIDKQLGNYYLEAEGKLVSDLFNGKAFNTFKQLTAKLHETNNM NA NA NA NA NA AK015_02628 1629 gshAB_1 Glutathione biosynthesis bifunctional protein GshAB ATGGAAGAGATAAGTTCGGAGTGGTTACCCCATCTCTCCAATGAAATTGTTACTGATGCCAAAGGCTATTTATTAGATGCATATGCTGTGGCCTTGGAAGGATGGCGAAGAGGATTAACGCTGCGCTGGCATGTAAAGGATTCAGAAAAATTTAAAGAGATGTCTACGTGGTATGTAGATAACCCAGGTCAATTATTTTCTTTGCGATCAGAAAGCCATACACATTATTTCTTTCGAACAAGAGGAGATAAGGTTTCAAACGATGCAGTGCGTATTGGAAAAGATAAGGATTTAACGAAGCAGGCATTAAGCCGGGCTGATGTCCCCGTTCCAAAGGGGAGGCAGTTTACAAATGAAGAACCCGATGAGGCTATTGTTGCCTATGCTAATGAAATAGGTTACCCAGTAGTTATTAAACCAATAGATGGTAGCTTTGGCAGAGGGGTGATTTCAAACATTACCACATCTGGAGAGTTAATACATTCTGTATCTTATTTACGATCTGAACTTGGATACCAAGATATTATATTGGAAAAACATATTTCGGGAAACGATTATCGGTTATATGTCGTAGGTGATAAAGTAGTTGGTGCTATGCATCGAGTTCCCCCAAATGTTGTTGGTGACGGGGTAAATTCAATTCAAGCGCTAATTCAATTAAAAAATGAACAACGTAGTTTAAATCCTCGTTTAGAAAGTTGTCCTATACCTGTAAACGATGAGATCATTGATTTTATTGGCAGAAAAGGCTATACATTGGATAGCGTTCCAGAGAAGGGAGCACATATATATTTAAGCGATAAATGTAATATTTCTATAGGGGGCGACCCTATCGATGTGTTGGATACGTTGGACGAAACGACAAAGAATATTGCTGTAAATGCTTTACATGCTGTAGATGGTTTAACACATGGCGCAGTAGACGTTATTGTTGATGAGAAAGCTGAAGCAGAAGAACGAGCAGTTGTTATTGAGTTAAACCCGACGGCACAAATCGGTGGTTTATTATTTCCGATTAAAGGAAAAGCACGTGATATCCCTGCTGCCATCATCGACTTTTACTTTCCAGAGACAGCTGGGAAACAACTACCAAATAAGGAACGGATCTACTTTGACTTGCATGATGTATTAGATCCACTGCAATCTCGGGATGCTACAACAACCACTGTTACACCAGCTCCACAAGAAGTTATTTTTACAAAGAAATATACTGTGAGTGGGGATGTACAAGATATTGGTTATCGCAGAGGACTACGGAAACAAGCGTTTGAACGCTTCTTACATGGATTTGTGATGAATTTAGAAGATGGTGATATGGAAGTTGTTGTTGCAGGAACTGACCCAGAGATGGTAGACGATTTTAGAAACGGTTTGTTGGAAGATGAAGAACGAGCAACTGTAATGGAGATTAGAGAATGCGAGTACTCTTATCCTATTAAAGTAGGATTTGAAATTAAAACGGACTTAAAGACACAAATTGAAGATATTAAAAGATACAAACAAGAAGTGGAGTTACTTCACTATCAAGTCAAAAAGGCTGAAGTGCAAAATAGGAAGTATAGAACAAGTTTATCGTGGAGAATTGCAAAGCCAATTCGCTTAATTGGCGCTGTATTTAAAAAAATTTAG MEEISSEWLPHLSNEIVTDAKGYLLDAYAVALEGWRRGLTLRWHVKDSEKFKEMSTWYVDNPGQLFSLRSESHTHYFFRTRGDKVSNDAVRIGKDKDLTKQALSRADVPVPKGRQFTNEEPDEAIVAYANEIGYPVVIKPIDGSFGRGVISNITTSGELIHSVSYLRSELGYQDIILEKHISGNDYRLYVVGDKVVGAMHRVPPNVVGDGVNSIQALIQLKNEQRSLNPRLESCPIPVNDEIIDFIGRKGYTLDSVPEKGAHIYLSDKCNISIGGDPIDVLDTLDETTKNIAVNALHAVDGLTHGAVDVIVDEKAEAEERAVVIELNPTAQIGGLLFPIKGKARDIPAAIIDFYFPETAGKQLPNKERIYFDLHDVLDPLQSRDATTTTVTPAPQEVIFTKKYTVSGDVQDIGYRRGLRKQAFERFLHGFVMNLEDGDMEVVVAGTDPEMVDDFRNGLLEDEERATVMEIRECEYSYPIKVGFEIKTDLKTQIEDIKRYKQEVELLHYQVKKAEVQNRKYRTSLSWRIAKPIRLIGAVFKKI NA NA NA NA NA AK015_02629 1644 gshAB_2 Glutathione biosynthesis bifunctional protein GshAB ATGAAGGCTAGTGAAGAAATAAGTCTTCCACAGTTACCAAGCGAAATTGTGAAAAATGCAAGAAAAACAAGATTAGATGCTTTCGCGGTTGCACTTGAAGGCTGGCGAAGAGGGCTTAAGCTGAAATGGTATACAAAGGATTCGGAACATTATAAGGATATGATTATATTTGGGGTCAATCCCCCAGGACGGCTTTTTTCACTTAGTTCTGAAAAACGTACACATTATTTTTTCCGCACAAGGGGAGATAAGGTGTCGAATGAAGCTGTGGAAATCGGGTCAGAAAAAGATGATACGAAAGTTTGGCTGGAAAAAGTAGGGGTTCCAGTTCCGCTTGGAAAAGGATTTTCAGAAGAAGCAACGGATGAAGAAATCCTAGAATATGGCAAGTCTCTTCAATATCCCCTTGTTTTAAAACCGACAAATGCTAGTCTTGGCAACGGTGTAGTGACGAATATTCAAGATGACATAGCTTTTTTAAAAGCGATTAATTATGTTCGTAATGAATTAGGTTATCCAGATGTCGTTGTCGAACAACATGTAAAAGGAAAAGAATATCGGGTCTACGTTGTTGATGGAAAAGTAGTGGCTGCTTATAACCGTGTACCAGCAAACATTTTTGGTGACGGTATTCACAACATAGAAGAACTAATTGAACTTAAAAATATGGAGCGTAAAAAGAACTCGCGATTAAATAGTTGTCTTATAGAAATGGATGTAGAAATTCTTGAGTTTATTCAATCTGCAGGTTACACCTTACAAAGTGTCCCCAAAAAAGGTGAACAAATTTTTCTTAGACAAAAAACAAATGTTTCCTCAGGCGGAGATCCTATTGATGTTACCGATACAATGCCAGAGGAATACAAACAAATTGCTATTGACGCTTTAAAAGCAATTCCTGGTTTTTATCATGGCGGCGTTGATATCATCGTTAATGAGAATCGAAATATAGATGCGCCAGCTGTTGTTATAGAACTAAACCCAACAGCGCAAATAGGTGGTGCTTTATACCCTTTGCGAGGAAAATCAAGAAATATTCCAGGCGCAATTATCGATTATTATTTCCCGGAAACAAAAGGTATTGATACTTCAAAATCAAAGATATATTTCAATTTAATAAATGTGTTAGAACCATTAGAAAACCGAACGGCCATTGAAGTGGAAGTAACAGATGCACCGCTAGGAAATTTAATAGCGAGAAGGTTTATCGTGTCTGGAGATGTCCAACGTCAACGATATCATCAATGGCTAAAGAATCATGCATTGAATAAAAATTTACACGGCTATATTAATAATATGGTGTTTGATGAAATTGAAATAGTTGTTGCAGGAACAGATAGAAAAGAAATCGCTAATTTTAAACAGTTAATTACGGGATATCCTCAAGGCTCTAAAGTAAACCATATTAAAGAAGAAAAATGTGATGAACATGTCACAGTAGGGTTTGAAATAGCTGAGAAGTATAGCTTATCCAGTGTGAAATCTGTTCAACATACATTGCGAAAAATGGAAAAAGATATTATCAATTTAACGAGACAAAAAAATCGACTAGAGAAAAGAAATCGCTATATTGAAGAAAGTACATCATGGAAGTTTACATTACCATTAAGAAAAATAGGTTCCTTGGTTAAAAGAAAGGTGTAA MKASEEISLPQLPSEIVKNARKTRLDAFAVALEGWRRGLKLKWYTKDSEHYKDMIIFGVNPPGRLFSLSSEKRTHYFFRTRGDKVSNEAVEIGSEKDDTKVWLEKVGVPVPLGKGFSEEATDEEILEYGKSLQYPLVLKPTNASLGNGVVTNIQDDIAFLKAINYVRNELGYPDVVVEQHVKGKEYRVYVVDGKVVAAYNRVPANIFGDGIHNIEELIELKNMERKKNSRLNSCLIEMDVEILEFIQSAGYTLQSVPKKGEQIFLRQKTNVSSGGDPIDVTDTMPEEYKQIAIDALKAIPGFYHGGVDIIVNENRNIDAPAVVIELNPTAQIGGALYPLRGKSRNIPGAIIDYYFPETKGIDTSKSKIYFNLINVLEPLENRTAIEVEVTDAPLGNLIARRFIVSGDVQRQRYHQWLKNHALNKNLHGYINNMVFDEIEIVVAGTDRKEIANFKQLITGYPQGSKVNHIKEEKCDEHVTVGFEIAEKYSLSSVKSVQHTLRKMEKDIINLTRQKNRLEKRNRYIEESTSWKFTLPLRKIGSLVKRKV NA NA NA NA NA AK015_02630 1062 hypothetical protein ATGCAGGATAAGGCGATTGAAAGTAAAAAGATAACATTAGCTGCGACAGGTGATATTCTTTTACATGACCGCTTGTATAAGAAAGCGCAAAAGAAGGATGGAACAGGCTATGATTTTTCAGATTTATTATCAGAGGTAAAACCTTTATTTGAAAAGGGAGACATAAAAATTGTTAATCAGGAATCTATTATTGGAGGGGAAGAATTAGGGTTATCTAACTTTCCTCATTTTAATAGCCCAGTGGAAATTGGTTACACATTGAAAGATTTTGGCGTAGACATTGTGAATATAGCAAACAACCACACCTTAGATAAAGGAGAAGAAGGTATTTTAAAGTCCATTGAGAATTGGGAGAAAATAGGACTACCATATGTTGGTGCTTATAAATCTGAAGATGATCAAAAAACATTGCGAATTTTTAATAAAAATAGTTTAAGAGTTTGTTTCATATCTTATACGAAGAGAATGGGCGGGATGACCATTCCCCGAAATAAGGAATATTTACTGAATACGTTTGAGCAAGCAAATGTGGTGCATGCTGGAAAGTTTTTAAGGAAAATAAAAAGTATGGATGTTGCTGATGTTATTGTATTATCCATTCATTATGGAAAAGAATATCAAATGCTACCTACTGCAGATCAAAGAGAAATATCTGCTTCTCTATCTGACGCTGGTGCGGATGTTATATTAGGTCATCATCCACATGTGCTTCAGCCGCCTGAGATATTGGTCAATTCAAGAGGTTTAGAAACTTTTGTTATTTACTCTCTTGGCAATTTCTTTTCTGGACAAAAGGGAATCTACCGACAAATTGGCGGTTACTTAACAATTGATATAGAAAAGAACTCACCAGAGGAAAAAGTGAAAATAAGTAACCCAACTTTTAAACTTACATATGTTGACTCAACGGAGAAGAAAAACTACAAAATTTATTTACTAGAAGATATTGTTAATAACCAAGAAGTTATTAAAACACATATGGGTGATTTTAATTCGCAGCAAGTATATGACAGAATGATTAATCATATGAGAAAATGGATCACTGATTTAAAGATATCTTAA MQDKAIESKKITLAATGDILLHDRLYKKAQKKDGTGYDFSDLLSEVKPLFEKGDIKIVNQESIIGGEELGLSNFPHFNSPVEIGYTLKDFGVDIVNIANNHTLDKGEEGILKSIENWEKIGLPYVGAYKSEDDQKTLRIFNKNSLRVCFISYTKRMGGMTIPRNKEYLLNTFEQANVVHAGKFLRKIKSMDVADVIVLSIHYGKEYQMLPTADQREISASLSDAGADVILGHHPHVLQPPEILVNSRGLETFVIYSLGNFFSGQKGIYRQIGGYLTIDIEKNSPEEKVKISNPTFKLTYVDSTEKKNYKIYLLEDIVNNQEVIKTHMGDFNSQQVYDRMINHMRKWITDLKIS NA NA NA NA NA AK015_02631 1746 gshAB_3 Glutathione biosynthesis bifunctional protein GshAB ATGAATAAACAAAATGTCCTGCCGCAACTTGAGTACTCTATCCCAGATGAAATTTTTGGTTACAGTGTAAGTATGTATAGCTTGGCGTTAGAAGGATGGAGAAGGGGTCTAAAATTAAAATTTATTAATAATAACAGAAGAAAATCAGAAATAGATTTTTCTCTTAGCGATAAAGAAAATGAACATTTTTTTCAAGTTGTGCGAGGTGATGCAGTTCCTCGTTCAGCAATACAAATATGTGTTAATAAAGATATAACAAAAGAATATTTATTAGGAGCTGGGGTTCCAACTCCGTTTGGTCAATCATTTAAAGAAGATACACTAAATAAAGAAATTATAAAATTTGCAGAAAGTGCAAATTTTCCTTTGGTAATAAAACCGATAGATGGTACTGCTGGTAAGGGGGTAATTGCAAATATAAAGAATTTAGAAGAATTTAGAGAGGCTCTACAATATGTTCGCGGAGATTTAAACTATAAAAAAGTAATGGTTGAACAGTATATATCTGGTGAAGACTATCGACTCTATGTTTGTGATGGTAAAGTAATAGCGATCTTAAAAAAGATACCTGCAAATGTCATTGGTGATGGGCAACATACGATTAAATATCTTCTAAATGAGAAGAATAAGGAACGTACAAAATATCCTACTTTAAAAAATCGGCCAATAATAGTTGACACGGAAACAAAAAATGTCCTTAAGTCAGTAGGTTATACGTTAGATAGTGTCCCAAAAAAAGGTGAACAAGTCTTTCTGAAAACAAAAAACAACATATCTTCGGGAGGAGACCCAGTAGACGCAACAGATGAGCTACCTGATCGATTAAAAGAAATTGCTGTGGCTGCGGCTGAGGCAATTCCTGGTTTAGTACAATGTGGTGTAGATATGATGGTGGATGAGTCAAAACAAAATGGGTATGTATTAGAATTAAATTCCAGACCGCATATCACCGCTCAATTATATCCCATGTATGGTAAAGCAAGAGATATTCCTAAAGCCATTATCGATTATTATTTCCCACAGACATCACAGCAAGATTATCTAAATGCTCCTACTTATTTTTTTGAGTTTCAAATCATCTATGATTCCTTTAGAAAAGGAATCTGTAAGGAGTATATCATCCCAGATATACCTAAAGGAAAAAAACAGGCTAGTAAGTTAACGCTCAAAGGAAATGTGCAAGGAGTAAAATTAGAGCAATGGACGCTTAAACAAGCACGAAAATTAAATTTGCATGGTTATATAAAGAACGTTCAAACTGGTGATACTGTAGTTGTCATTTCAGGAAAAACTGAAAATGTTAGTAAATTTCGCTTACTTCTTAGTGAAGAGCCTCCCAAAGGTGCAGTAATAGAAGATGTAAGAGAAGAAAAATATCAAAAACCTGTAAAAATTGGGTTTGAAATGGTTAATCCTGGAATGAAAGCAGAACCAACAACATCCAAGGTGAGCGGGAATCGATTAGAAAAAGTAGCAGTAGAAAATAAAACTTTTGCTGTAGAAGGATATGAGCCAATATATGTAGATATGTCTCCTGTTAAACCTTCAAAGAAAAAATCAACAAACTCTGGGAGAACTAATTCAACTCCAAGGTCAAGTACCAAACAAGATTATAGTAAAGTATTAAAAGAGAGAAATCATTATAGAAAAAGACTAAAAGCAATAGAAAATAGCAGATCATGGAAAGTGACTGCTCCCATTAGACGAATAGGGAAAAAAGTGAAGATGGCTATAAATGGATCTTAG MNKQNVLPQLEYSIPDEIFGYSVSMYSLALEGWRRGLKLKFINNNRRKSEIDFSLSDKENEHFFQVVRGDAVPRSAIQICVNKDITKEYLLGAGVPTPFGQSFKEDTLNKEIIKFAESANFPLVIKPIDGTAGKGVIANIKNLEEFREALQYVRGDLNYKKVMVEQYISGEDYRLYVCDGKVIAILKKIPANVIGDGQHTIKYLLNEKNKERTKYPTLKNRPIIVDTETKNVLKSVGYTLDSVPKKGEQVFLKTKNNISSGGDPVDATDELPDRLKEIAVAAAEAIPGLVQCGVDMMVDESKQNGYVLELNSRPHITAQLYPMYGKARDIPKAIIDYYFPQTSQQDYLNAPTYFFEFQIIYDSFRKGICKEYIIPDIPKGKKQASKLTLKGNVQGVKLEQWTLKQARKLNLHGYIKNVQTGDTVVVISGKTENVSKFRLLLSEEPPKGAVIEDVREEKYQKPVKIGFEMVNPGMKAEPTTSKVSGNRLEKVAVENKTFAVEGYEPIYVDMSPVKPSKKKSTNSGRTNSTPRSSTKQDYSKVLKERNHYRKRLKAIENSRSWKVTAPIRRIGKKVKMAINGS NA NA NA NA NA AK015_02632 1587 gshAB_4 Glutathione biosynthesis bifunctional protein GshAB ATGGATATAACACCTTCAATGACAAAAGGAATTACAGGTTTTAATTTATGTGCTTTTTTAATTGGTTTAGAAGGTTGGAGGCGTGGGTTAACACTAACATATTATAGTGATATTAATGAATATTCACCTATTAAGACACAAGGGAAAGGTTTAATTGGTCGAAGTTATTCCCTCTCTTCCCAAGATAAGACACATTACTTTAACCAGTCTCGAGGAGATCTAGTGTCTAACGAGGCTGTTAAAATTGCTCAGAGCAAACAAAAAACGAAGGAAGCTCTAAAGGCAAACGGTGTATCTGTATTACCAAGTATAGAATTTAAAAGCAATGATACAAATGAAACAATCATTGAAAAAGCTAAGGATATTGAATTTCCTGTTATCATTAAACCTACGTATGGTTCTTTAAGTAAAGGAGTAATGCTTAATATAAAAAACGAAACAGAATTATCAGAAGCTCTTATGCATGTAAGAACAAAGATGGGCTTTAAAAGCGTTATTCTAGAAAAATATTTTGAAGGTGCAGATATTAGGTTATATGTAATAAATGGAAAAGTAGTTGCTGCATTAAAAAGAGAACCTGCTAAAGTTACTGGTGATGGGACAAATACGATAAAAGAATTAATAGTGGAAAAAAATATGTCTAGACAAAAGAACCCTTATTTAGCGGCTAGGCCAATAAAAATAGACAGAGAGTTAAAAACAGTAATTCAGAATTCTAATTATACTTTGGAAAGTGTACTAGAAAAAGGTAAAACCATTTTAGTGAAGCAAAAAAGTACACTTACACAAGGAGTTGATTTGTACGATATAACCGATCAAATTGCTGATGATATTAAACAATTGGGAATAGACACATTAAATAGCCTGCCGGATATTATACATGGTAGTATTGATATGCTATACGATGGAAAAAACGCAGTGGTACTTGAAGTAAACGCTTCTGCTAACATTTCCATGCATATGTTTCCAACGAAGGGAAAACCTCGAAATATTGGAGCACATTTAATGGATTTATATTTTCCTGAAACAAAGATTAAATCAAAAAGCCATTCTCAAGTGTATTTTGATTATAATCACATTGTCGATGTGCTAAAAAGAAATTATACTAGTTTTATAAAAGTAAGATCGCTTCCAGATTACCCATTATTTGCAAAACGATACATTATAAATGGAAAAGTGCAAAAGGTAGGGTATAGGAATTGGGTTAGGAGAAAAGCTATTAGTAAAAACTTGCATGGTTTTGCACATAACTTAGAAGATGGTAGTGTAGAGGTTGTAGTAGCAGGAGTGGAAAAAGATGTAGAAGCATTTAAATCAATTTGTGCTAAAGGCCCTAAAAAGGCAAAAGTAAACCAAGTTTTAGAATCAGTTTGGAGTGAAGTTATTAAAATCGGTTTTGAAATTGATACTATAACTTCATCATCTCAACATCAAAGTGAGGCTACTTTAAAAAAGATGGAAGAAGATAATAATAAGTTAAAAGCAGAAGTAAGACGTTTGAATCAAGAGTTAAAAAGAAACCCTAAGACAATAAAATCAAGACTATATAATAAAATAAGCAAAATAACAAATTTAAATAAAACTTGA MDITPSMTKGITGFNLCAFLIGLEGWRRGLTLTYYSDINEYSPIKTQGKGLIGRSYSLSSQDKTHYFNQSRGDLVSNEAVKIAQSKQKTKEALKANGVSVLPSIEFKSNDTNETIIEKAKDIEFPVIIKPTYGSLSKGVMLNIKNETELSEALMHVRTKMGFKSVILEKYFEGADIRLYVINGKVVAALKREPAKVTGDGTNTIKELIVEKNMSRQKNPYLAARPIKIDRELKTVIQNSNYTLESVLEKGKTILVKQKSTLTQGVDLYDITDQIADDIKQLGIDTLNSLPDIIHGSIDMLYDGKNAVVLEVNASANISMHMFPTKGKPRNIGAHLMDLYFPETKIKSKSHSQVYFDYNHIVDVLKRNYTSFIKVRSLPDYPLFAKRYIINGKVQKVGYRNWVRRKAISKNLHGFAHNLEDGSVEVVVAGVEKDVEAFKSICAKGPKKAKVNQVLESVWSEVIKIGFEIDTITSSSQHQSEATLKKMEEDNNKLKAEVRRLNQELKRNPKTIKSRLYNKISKITNLNKT NA NA NA NA NA AK015_02633 1458 gshAB_5 Glutathione biosynthesis bifunctional protein GshAB ATGAAACAATTTAATGTTGAGCTTTTTCCAAATCTCAACCATGAAGTAGTTAAAGACATAACAGGATTTAAACTATGCACTTATTTAGTGGCTCTTGAAGGATGGCGAAGAGGGCTAACCTTAAAATGGTATAAAGACGAATCTGATTTGTGCAAATTAGACAAGCTAAAGAGTAGCACACAGGGCAAGTTTTTTTCTCTGAGTAATGGGAATAAAGAGCACTTTTTCTTCCGTTCCAGAGGTGATATCGTTTTAAACAAGACAGTAAGAATTTGTCAAGATAAAGAAAAAACAAAAGCATTGTTAGATAAGAAAAATGTGCCAATACCATTGGGTAAAGTGGTTTCCATAGATGATGGTAGGACAATAGAATATGCGGAAAGCTTTGGCTATCCAGTTGTTATAAAGCCCATTAATGGGAGCATGGGTAGAGGAGTTTATACAAATATTAAAAATCGTAATGAATTTATAAGTGCTCTAAAAGATTTTAGATCATTAAATAAGTATTCTCAATATTTACTAGAAAAATATTATCCTGGTAAAGAATATCGTGTTTATGTAGTTGGGGATAATGTAATAGGAGCCACTAACCGAATACCGGCAAATATTACTGGAGACGGAAAGAACACGATAGAATTTTTAATAAAGAAGAAGAATCAAGAAAGAAAAAAGAATCCTTATTTAGCTCCTAAGCCAATTAAAATTGATTACGAGGTACTTCACAATCTAAAAAAATATAATTACGAACCAACTGACATTCCAAAAGATGGAGAAAGGGTATTTTTAAGAGAAAAAAGTAATCTTTCTGCTGGTGGAGACCCAATAGAAGCTACTCATGAGTTATCTCCAGAAGTTTGTCAAATTGCAGTTGATGCGTTAAAAGCTCTTCCCTCTATTCCGCATGGTGGTGTAGATATCATTGTGGATCCTTTGGAAAAGAAAAAAGGGGTAGTATTAGAAATTAATGCAACAGCAGAGATTGGTTTTCACTTGTATCCTTTAAAAGGAAAGGCAAAAGATATACCAGGTGCAATAATTGACTATTATTTTCCAGAAACTATAACTAAACAAAAATCAAGCTTTTACTTCGATTATCATAGCGTTTTGGAGCCTTTAAAAACATGGGCAGTTGATGAATTGACAGTTGCAAAAGCACCTGTAAAAAAAGTGTATGCAAAAAAATATACCGTTCAGGGAAAAGTACAGCAGGTAGGTTATATGAGCTGGATTAGAAAGCGTGCATTGCAAAAACAATTGCATGGATTTGCACAAAAAAAAGATAGAGATAAAATAGAAGTTACAGTTATAAGTAATGATAAAACAAAACTAGACATGTTTCGAGAAGAATGTACTAAAGGATCAAAAAAATCTAAAGTTCATCATGTAGAGGAACAAGATATAAATATATCAGAGTATACTCCAGTGAAATTGGGGTTTGATATTGTTTTAAGTAAATAA MKQFNVELFPNLNHEVVKDITGFKLCTYLVALEGWRRGLTLKWYKDESDLCKLDKLKSSTQGKFFSLSNGNKEHFFFRSRGDIVLNKTVRICQDKEKTKALLDKKNVPIPLGKVVSIDDGRTIEYAESFGYPVVIKPINGSMGRGVYTNIKNRNEFISALKDFRSLNKYSQYLLEKYYPGKEYRVYVVGDNVIGATNRIPANITGDGKNTIEFLIKKKNQERKKNPYLAPKPIKIDYEVLHNLKKYNYEPTDIPKDGERVFLREKSNLSAGGDPIEATHELSPEVCQIAVDALKALPSIPHGGVDIIVDPLEKKKGVVLEINATAEIGFHLYPLKGKAKDIPGAIIDYYFPETITKQKSSFYFDYHSVLEPLKTWAVDELTVAKAPVKKVYAKKYTVQGKVQQVGYMSWIRKRALQKQLHGFAQKKDRDKIEVTVISNDKTKLDMFREECTKGSKKSKVHHVEEQDINISEYTPVKLGFDIVLSK NA NA NA NA NA AK015_02634 3606 hypothetical protein GTGAGAATGAATAAGCCATTAGTATATATGCTTGTAGCAGGGTCTTTTCTCTACTTTAGTCCATACGCCATTCAGGCAACTGAGAAAATATTAGATCAACAAGAAAAAGAGGTACTAAAAGACGAGGAAACCACGATAGATGTCGTGGAAGAAAAAGGAAAACAACAAGAAGACTCTACAGCTGAATTAACAGACCCTGTAGAAGAGGCACAGAAAGATAAAATTGAACCAAATAATTTAGAAGAAGATACTACCAACGATTCTCAAAATATAGATGAAGCAAATAATCAAATAAATGAAGGTGTCAAATCTACAGAAGCTAAAAAGAAAAAGCCTATGACTATTCAACCTTCAGCAGAAAAAACTATTGTTTTAGAATTTGGCGTTAGAGACCACAAAGTCATTCAATTAAAGGAGAAGCTGAATCATATAGGTTTTGGCGGAATTTTAGTAACAGAGTATTATGGCGCCTTTACGAAACAACGTGTTGAAGAATTCCAAGCAAATTATGGTTTAGAAGTTAGTGGTGTTGCAAATGAGGCTACACTGGCTAAACTAGACGAGGTTACTGCAAGTCCTTTTCAAAAAGGAAAAAGAAACGAACAAATCCCTGCTTTCAAAGAAAAACTTAACTTAATGGGCTTTGGTGGAATTAGTGTTACAAACTATTATGGTTCATTTACTGAGAAGCGGGTAAAAGAATTTCAACGTTTTGTAGGTATAGAACCAAATGGTATTGCTGATGCTTTGACTCGTTCTAAGTTAGATTCATTTATGCAGGAAGGTTTTCAGAAAGGTGATCGGCATCATGTAATTCCCGAACTAAAAAGAAAGCTGAATGATTTAGGATTTGGTGAAATAACGGTGACTACATACTATGGTAGTTATACCGTAAAGCAAGTGAAAAAATTTCAAAGCTACCATGGTCTTAAAGTAACCGGAAAACTTAACGCAAAAACGATATCAACATTAAACAGTGTTGAAGAAAAAGGTTTGAAAAAAGGAGATCGTCACAAGGATGTTATTGATTTAAAAAAGAAATTGAACCGTATTGGTTTTGGTAACATATTAGTGACCGAGTATTATGGTTCTTTCATGGAAACACAGGTTACTAGATTTCAAAAATACTACGGACTTGTAGATAATGGAATTGTTGATGCGACAACTTTAGAAAAAATTAATAAGGTAGCTAATAGCCCTTTTCAAAAAGGGAAACGTCATGAAAAGATCCCCAATCTTAAAAAGAAATTAAATACTCTTGGATTTGGTCACATAAAAGTTACTAACTACTTTGGTTCTTTTTCTGAAAAACAGGTAAAAGCTTTCCAAGATTATTATGGTTTACGGGTAAATGGAATCATTGATGAGGTAACACTAGAAAAGATTAATGATTTAATAGAAAATGGTTTCCAAATTGGACAAAGACACCCAGGAATTATAGATTTAAAGAAAGATTTAAATCAACTTGGCTTTGGAAAGATTAGTGTAACTACATTATTCGGTAGTTTTACAGAAAAGCGCGTAAAAGACTTTCAAGAATACTACGGTTTAACAATTACCGGAAAAGCTGATCAATCAACACTTCAAAAAATTAAAGAAATAAAATCAACGCCCCTTCAAGAAGGCAAAAGAAGCGATCAACTACCCGCTATTAAGCATAAGTTAAACTGGCTTGATTATGGTTATATAACTGTTACAAATAACTTTGGGACCTTTATGGAATCAAGAGTTAAAAAGTTTCAAAAAGACTATGATTTACCTGTGAGCGGTATGTTAGAAGAGAATACATTAGCTAAGCTAAATAAAGTGTTTGAACAAACCTTTCAGGAAGGTTCGAGACATAGTAGTGTTATTGATATGAAGAAAAAATTAAATCATATCGGTTTTGGAGGCATTAAAGTAACAAATTATTATGGAACCTTCACAAAAAAACGTATACAGCAATTTCAAAACTACTATGGTATTAAAGCTACCGGTAAAGCAAATTATGAAACATTGATGAAGCTTGATGAAGTTTGGAATACACCCTTCCAACAAGGCAAACATCATGAAGATACTATTCAGTTAAAGAAAAATCTTAATCGACTTGGCTTTGGTCATATAACTTTAAGTACTTTATATGGTTCGTTTACTGAACGACAAGTAAAGGAATTTCAGGATTATCATGGCTTAAGAGTGACTGGTATTGCTGATGAAAAAACCCTTGGAAAAATTGATGAGTTATTATCCAGTCCATTTAGAATAGGTCAACGGCATGAAGATACTTTGAAACTCAAAGAAAAATTAAACCGAGTTGGATTTGGTCAGATAAAAGTAACTACGCTATATGGGAACTTTACAGAACAAAAGGTTGAAGAGTTCCAAGATTTTTATAGTTTACGGGTAAGTGGAATAGTAGATGAACCAACAATGAGTAAATTGAATGAAATTTTTAATAGCCCATTACAATTTGGTAAGCGTCATAGTAATACCATTGAATTAAAGAAAAACTTGAACAAACTGGGCTATGATGGTATAACTGTCACAACATATTTTGGTAAGTTTACGGAAAAGAGGTTGAAGGAATTTCAATCAGATTATGGGCTTCCTGTAAGTGGAATAGCTGATGAAATTACTCTACAATTACTTGAAGAAGTAGCAAAGCTAGTCGCTGATGAAACGAACTATTCCAAATATAACCTATCTCTTGATCAGGCTGTAGATATGCAAATGAAATTAACAGTCCCACCACAAACAGATCAAAACTATGCATATGTTTCTGCAGCTTACATCAATGATGATAATCAGGTAACAGCAGATGTTTTAAATGTTCGATCAGGTCCAAGTGTTGCGAATCGCGAAGTAGGAACACTTGCAAAAGGAACGGTTGTTGCTATTCTTGGAGAAACAAATGGCTGGTACCAAATTGAATTCAGAAGCGGTCAATGGGTAAACGCTAGCCGTGACGATGTCCGATACTTTTTAAACCCTAACAATTTTATTAATGACGAAAAGCAAAAATTCCAGTTCTTAGATCTTTCAAGAACAAGTAATGCTACTGTTTCTTTAATAAATAGCTATTTAAATGGAAAAGGTATTCTAGAGGGACAAGGCCAAGCATTTATTGATGCAAGTGATACGCATGGAGTAAGTGATGTTTATTTGCTCTCTCATGCATTACTTGAAACTGGGAATGGAACTTCAGCGTTAGCTAATGGCGTTAAGGTAGGGAAAAATAGCGCTGGCAAACTGGAATTAGTAACTCCTAGTAATAAAGATCGACTACACAATATAAAAACTGCTTATAACATGTTTGGTATAGGGGCAGTTGATGGCAATGCTCATGAAGGTGGAGCTTTCCGTGCTTATCAGGAAGGTTGGTTTACACCAAGAGAGGCAATTGTTGGCGGTGCTAGTTTTATCGGAAACAGCTACATTAAAGCTGGTCAAAATACATTGTACAAAATGAGATGGAACCCTAAATCAATGGATGAATTAGGATATCCATCACATCAATACGCCACGGACGTTGGCTGGGCATCAAAACAAATTTACACCATGTACAATCTTTATCAAGAATTAGGTATTCGTAATATTTTTTTAGATGTGCCAGAATATCGTAATTAA MRMNKPLVYMLVAGSFLYFSPYAIQATEKILDQQEKEVLKDEETTIDVVEEKGKQQEDSTAELTDPVEEAQKDKIEPNNLEEDTTNDSQNIDEANNQINEGVKSTEAKKKKPMTIQPSAEKTIVLEFGVRDHKVIQLKEKLNHIGFGGILVTEYYGAFTKQRVEEFQANYGLEVSGVANEATLAKLDEVTASPFQKGKRNEQIPAFKEKLNLMGFGGISVTNYYGSFTEKRVKEFQRFVGIEPNGIADALTRSKLDSFMQEGFQKGDRHHVIPELKRKLNDLGFGEITVTTYYGSYTVKQVKKFQSYHGLKVTGKLNAKTISTLNSVEEKGLKKGDRHKDVIDLKKKLNRIGFGNILVTEYYGSFMETQVTRFQKYYGLVDNGIVDATTLEKINKVANSPFQKGKRHEKIPNLKKKLNTLGFGHIKVTNYFGSFSEKQVKAFQDYYGLRVNGIIDEVTLEKINDLIENGFQIGQRHPGIIDLKKDLNQLGFGKISVTTLFGSFTEKRVKDFQEYYGLTITGKADQSTLQKIKEIKSTPLQEGKRSDQLPAIKHKLNWLDYGYITVTNNFGTFMESRVKKFQKDYDLPVSGMLEENTLAKLNKVFEQTFQEGSRHSSVIDMKKKLNHIGFGGIKVTNYYGTFTKKRIQQFQNYYGIKATGKANYETLMKLDEVWNTPFQQGKHHEDTIQLKKNLNRLGFGHITLSTLYGSFTERQVKEFQDYHGLRVTGIADEKTLGKIDELLSSPFRIGQRHEDTLKLKEKLNRVGFGQIKVTTLYGNFTEQKVEEFQDFYSLRVSGIVDEPTMSKLNEIFNSPLQFGKRHSNTIELKKNLNKLGYDGITVTTYFGKFTEKRLKEFQSDYGLPVSGIADEITLQLLEEVAKLVADETNYSKYNLSLDQAVDMQMKLTVPPQTDQNYAYVSAAYINDDNQVTADVLNVRSGPSVANREVGTLAKGTVVAILGETNGWYQIEFRSGQWVNASRDDVRYFLNPNNFINDEKQKFQFLDLSRTSNATVSLINSYLNGKGILEGQGQAFIDASDTHGVSDVYLLSHALLETGNGTSALANGVKVGKNSAGKLELVTPSNKDRLHNIKTAYNMFGIGAVDGNAHEGGAFRAYQEGWFTPREAIVGGASFIGNSYIKAGQNTLYKMRWNPKSMDELGYPSHQYATDVGWASKQIYTMYNLYQELGIRNIFLDVPEYRN PGPT0018810_13 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSAMINIDASE,PGPT0018810-lytD|lytB-K23989 NA NA AK015_02635 633 hypothetical protein GTGCAACGTCATTTTATCATAAAATTATTGGGGATTAAAGACAAGCATGTAGATGTATGGGGTGTAACTGAAGAATCCAGTAGCTTTATTGTGGAACTATACACAAAGCAAAAACAACAAAAATGCCCATTTTGTAAGGAGAAAACGAGACGCGTTCATAGCTATAGAAGACAGGATATTCAAGGACCAGTACTTTCTAATAAAACGATGAAGATATCATTACAGAAGAGAAGGTATTTGTGTACTAGTTGTGGTCGTACTTTTTATGAACGATTACAAATGGTGGACTATTATCAACGTTGTACAAATGCCTTGAAAACAACAGCATTAACATATACAGCCTTCCATTCTTTTAGCACTGCAGCTCGTTTGATAGGGATGACAACGAATCGCCTACTAAGATTATTTGATCATCACCAGATAAAGGCAAAGAAGATTCTTCCTCGGGCAATTGCCATTGATGAGTTCAAAGGTGATGCAGGAGGAGAAAGATTCCAAACAAATATGGTAGATGTGGAGAATAAGGAGATCATTGACATCCTACCTGATCGAAAGATAGAGACCATTGAGAAATACTTACGTTCGTGTGATACGAGTAAGGTAGAAATGGTAGTGATGGATTTATCCAAGTGA MQRHFIIKLLGIKDKHVDVWGVTEESSSFIVELYTKQKQQKCPFCKEKTRRVHSYRRQDIQGPVLSNKTMKISLQKRRYLCTSCGRTFYERLQMVDYYQRCTNALKTTALTYTAFHSFSTAARLIGMTTNRLLRLFDHHQIKAKKILPRAIAIDEFKGDAGGERFQTNMVDVENKEIIDILPDRKIETIEKYLRSCDTSKVEMVVMDLSK PGPT0030630_2116 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485 NA NA AK015_02636 471 ISL3 family transposase IS651 TTGATAATAGCTGATCGATTTCACTTCATGCGTCAAGTCTATTGGGCTTTAGATGAAGTTCGACGGGAAGTTCAACGAAATGTAGATAAGCAAACTCGTATTCACATGAAACGAAGTAAAAAATTATTGTGGAAGTCTCCTTATAAATTATCAGATAAAGGACAATCAAAATTAGCAGAGTTACTTCAGATTCACCCACGTTTAAAAGAAGCATATGAGTTAAAGGGGAAAATAGATAAATGGTTCAAAACAAGTGATGAGAAGACAGCTAGAAAAGGACTGGAGGAATGTCTGGAATGGATGCGTGCTTCCAATATAGAGGCATTTCATCGCGTAAGAAAAACGTTTTTACGTTGGAAACAAGAGATCTTACAATCGTTCATGTATCCATTTAATAATGGTTATATCGAAGGCATCAACAATACGATAAAGGTTTTAAAGCGAGATTCATTTGGTATCAAAAACTTTTAA MIIADRFHFMRQVYWALDEVRREVQRNVDKQTRIHMKRSKKLLWKSPYKLSDKGQSKLAELLQIHPRLKEAYELKGKIDKWFKTSDEKTARKGLEECLEWMRASNIEAFHRVRKTFLRWKQEILQSFMYPFNNGYIEGINNTIKVLKRDSFGIKNF PGPT0030630_1781 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485 NA NA AK015_02637 1083 tagO_2 COG0472 putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase ATGTGGAATATAAATGAATTAATTATTGCTTTTATCATATCATGTATAACGACTTTAATTGTCACACCAATAGTTATAAAAATAGCCTATAAGCTTAATGTAGTAGATAAGCCTGATAACTTTAGAAAAATGCATCACGGAATAAAACCTACAGCAGGTGGTTTGGCTAGTATTATTGGTGCTAGTGCTGGCTACCTTTATTTGCAGCCTGTTTATGAACATATGCCAGCAATTATCCTTGGTGCAGCAATTATGATTATTACTGGATTACTAGATGATATTTTTGAATTAAAAGCATTACATAAGTTAATAGGGCAAGCAACTGCTAGTATTGTCGTTGTGTCGTCTGGACTAATTATTGAAAAATTAACTTTACCTTTTATGGGAACTGTTTATTTTGATGATTTTTTTGGCGTTTTCCTAACTATAATATGGATTTTAGCAGCCTCTAATGCCATTAATTTAATAGATGGTTTGGATGGATTAGCTGCAGGAGTTTCTGCTATTGGGCTTGCCAGTATCCTTGTTATAGCTGTTTTGGACGTACGCATTGTCGTTGCTTATTTAAGTATTATCTTGATTGGTAGCTGTGTCGGTTTTCTTTATTACAATTTCTATCCATCTAAGGTTTTTATGGGGGATACAGGTGCTCTATTTCTAGGATATTCAATCGCTATCGTATCGATGATGGGTCTATTTAAAAATGTTGCATTCTTTAGCTTTATTGTGCCAATTGTTGTCATTGCGATTCCTGTATTGGATACAACTATTGCAATAATTCGTCGCATCTATAATCATCAAGGTATTGCTTCCCCTGATAAAAAACATATTCATTATCAATTAATGAAAATGGGTTACTCTCATCAGGCTACAGTACTTATTATATATGCTTTTAGTATTTTCTTTGGAAGCATGGCAATTGTTTTTTCCAGTGCCACTTTGCTAACATCTTTATTTAGCATTTTGTTACTTATTATAGGGTTTCAACTTATAACTGAAATTGCTGGCATGACAGTATATCAAAGACAGCCATTATTAAACGGCTTTCGCAAATTAGTAAACGTAAAAAAAGATAATTTTTAG MWNINELIIAFIISCITTLIVTPIVIKIAYKLNVVDKPDNFRKMHHGIKPTAGGLASIIGASAGYLYLQPVYEHMPAIILGAAIMIITGLLDDIFELKALHKLIGQATASIVVVSSGLIIEKLTLPFMGTVYFDDFFGVFLTIIWILAASNAINLIDGLDGLAAGVSAIGLASILVIAVLDVRIVVAYLSIILIGSCVGFLYYNFYPSKVFMGDTGALFLGYSIAIVSMMGLFKNVAFFSFIVPIVVIAIPVLDTTIAIIRRIYNHQGIASPDKKHIHYQLMKMGYSHQATVLIIYAFSIFFGSMAIVFSSATLLTSLFSILLLIIGFQLITEIAGMTVYQRQPLLNGFRKLVNVKKDNF PGPT0015240_1640 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 AK015_02638 180 hypothetical protein ATGGCTAAAAAGCAACAACCAAACCAAACTTCTACTGGTACAAACATTCAAAAGGTTAAGCAACAGAATCAACAAGCCGCTCAAGGGCAAGGTCAGTACGGTACAGAATATGGTGCTGAACAAACAAATGCTCAAGAAGTAAGAAAGCAAAACCAAAAATCTCAACAAAACAAAAAGTAA MAKKQQPNQTSTGTNIQKVKQQNQQAAQGQGQYGTEYGAEQTNAQEVRKQNQKSQQNKK PGPT0024880_136 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024880-sspE-K06422 NA NA AK015_02639 177 yfhS putative protein YfhS ATGGAAGAAAACAGACGTGATTTCACAGAACTTTCCATGATCAGTAAACAAGATTGGGATAAGAATGAATTAGATTATTTCCAACACGCTTTGTCACAGCTTTTGCCATATATAAACCCAGAAGGACTAAGCATCCTGCATGAAATTAATAAAGAGATGCAAGCGAGAAAAAATTAA MEENRRDFTELSMISKQDWDKNELDYFQHALSQLLPYINPEGLSILHEINKEMQARKN NA NA NA NA NA AK015_02640 1125 mutY COG1194 Adenine DNA glycosylase ATGATGTTTTTATTGTACCATATAGGAAGTGATTTTATGAATGATGAAAAACTACAATCTATTGACATTTTAACATTTCGACGTGATTTACTAAGCTGGTATAAGGAAAATAAACGCGATTTACCTTGGCGCCAAGATCAGAATCCTTACCGAGTATGGGTCTCTGAAGTAATGCTACAACAAACAAAAGTAGATACGGTTATTCCGTATTTTAATCGTTTTATGGCTAAATTCCCAACTGTAGAAGCATTAGCACAAGCGGATGAGCAAGAAGTGTTAAAGGAATGGGAAGGGCTTGGCTATTACTCTAGAGCGCGAAATTTGCAAAATGCGGTGAAAGAGGTAGCAACGAAGTACAATGGAAGGGTGCCAGATGATGCGGAGGAACTAGGTGTATTAAAAGGGGTAGGTCCGTATACAAAGGGAGCGATTTTATCCATTGCTTATAATCAGCCAGAGCCAGCTGTAGATGGAAATGTCATGCGTGTTTTATCCCGAGTATTAAAAATTGAAAGTGATATTACGCAACAACGGACGAAAAAACTATTTGAAGCCTATGTACGCAAGCTCATTGATCCACAAGACCCCTCATCGTTTAATCAAGCTGTCATGGAATTAGGGGCTTTAATATGTACACCTAAATCTCCAGCTTGTTTATTATGTCCGGTTCAAGCGCATTGCCAAGCTTTTGTTGCAGGTATGGAAGAACAGTTGCCCGTAAAAAAGAAAGCAAAAAAACAAAAGAATATTGCTTATGTTGTGTTGTTAGCAGTTGATGACCAAGATAATTATGTAATTGAAAAGCGAAAAGAAGATGGTTTGTTAGCTAATTTGTGGCAATTTCCTATGGTTCCTATAAAAGAAGTAGAGTGGGTTCATTTAGAAAATTGGGTTTATAATGAATATGGATTAGAAATAACGCTAGGGGAAAAACAAAGTAAGTTAAAGCATGTTTTTTCACATTTAATATGGCATTTAGAAGTATATGAAGCAAAATTAATTAAAAAATTAAGCAAAAGTAACAGGTTACAGTTAGTTAATAAACAGGATTTAACAAATTACCCTTTTCCTGTACCACATCAAAAAATTAGGAATAGTTTATATGAAAAGGAACAAAATATGTAA MMFLLYHIGSDFMNDEKLQSIDILTFRRDLLSWYKENKRDLPWRQDQNPYRVWVSEVMLQQTKVDTVIPYFNRFMAKFPTVEALAQADEQEVLKEWEGLGYYSRARNLQNAVKEVATKYNGRVPDDAEELGVLKGVGPYTKGAILSIAYNQPEPAVDGNVMRVLSRVLKIESDITQQRTKKLFEAYVRKLIDPQDPSSFNQAVMELGALICTPKSPACLLCPVQAHCQAFVAGMEEQLPVKKKAKKQKNIAYVVLLAVDDQDNYVIEKRKEDGLLANLWQFPMVPIKEVEWVHLENWVYNEYGLEITLGEKQSKLKHVFSHLIWHLEVYEAKLIKKLSKSNRLQLVNKQDLTNYPFPVPHQKIRNSLYEKEQNM NA NA NA NA NA AK015_02641 987 yfhP COG1988 putative protein YfhP ATGGATACTGGTACCCATATTGTAATGGGAGTTGCGCTTGGGGGATTAGCTACAATTGATCCTGTTATAAGCAATGACCCAGCTTTATTCAATGCTGTTCTAGTAGGAACAATTGTAGGTTCCCATGCACCAGATTTTGATACCGTTTTAAAATTAAAAAATAATGCTACCTATATACGCCATCATCGTGGAATTACACATTCTATTCCAGCAGTTCTTATGTGGGGAATTTTAATTGCAAGTATGATCCATTTGTTTATACCAGAAAAGAGTTTCTTTCATATTTGGCTATGGACTGCTATAGCCGTAATAATCCATGTGTTAGTGGATATTTTTAATGCCTATGGAACACAAGCATATCGGCCCTTCTCTAATCGATGGGTAGCTTATGGTTTTATTAATACGTTCGATCCATATATATTTTTCTTGCATATTGCCGGCATTGCTGCTTGGGCGTTGGGAGCAAACCCTGCATTTATATGGGCTGTTATCTATAGCGTTATTGTACTTTATTACATCAAACGTTACATGGATAAACGATTCATCGTAAAAAAAATCAACAGCTATTTTTCCGACGTGGAGCAGATTGCTACATCACCAACGATTAAACAAAATTATTGGCGTGTCGCTATAACGACAAAGGATAGGTTCTATGTTGGTGTCGTTGATAACAATCACATTGAAATTATTGATGAGTTCACAAGAGTACCACTCCCAGATACAGAGCTGATGAAAGTGGCCAAGACTGATAAAAATATTGCTGCGTTCCTTTCATTTTCTCCCGTATACCGATGGGAAATTAACGAATATAAAGATTATACGGAAGTGCGATTTATCGACTTACGCTATCGCTCCAAGGGGCATTATCCATTTGTTGCCGTTGTGCAAATAGATGATTCGATGCACATTACAAGTTCTTACACAGGATGGATCTTTTCAGAAAAGAAACTTCAGCATAAACTTTATGTAGAAGAAAGTCCCATTTAA MDTGTHIVMGVALGGLATIDPVISNDPALFNAVLVGTIVGSHAPDFDTVLKLKNNATYIRHHRGITHSIPAVLMWGILIASMIHLFIPEKSFFHIWLWTAIAVIIHVLVDIFNAYGTQAYRPFSNRWVAYGFINTFDPYIFFLHIAGIAAWALGANPAFIWAVIYSVIVLYYIKRYMDKRFIVKKINSYFSDVEQIATSPTIKQNYWRVAITTKDRFYVGVVDNNHIEIIDEFTRVPLPDTELMKVAKTDKNIAAFLSFSPVYRWEINEYKDYTEVRFIDLRYRSKGHYPFVAVVQIDDSMHITSSYTGWIFSEKKLQHKLYVEESPI NA NA NA NA NA AK015_02642 339 yfhH putative protein YfhH ATGAACAATAATTATCGCTATAGTGACTATTCTATTGAGCAATTGCGTCAGGAAATAGGCAGGTTAAAGGAAAAAGCGCAAAAAGCAGAACAGCTAGGAAATATTTCTGAGGTGGCAGTTAATGAGCGTAAAATGCAGGTTGCTTTAGCTTATACAATAAATCCAGATGACTTTACAGCAAATGAGACGTATGAATTTACAACAGATCCAGGATGGAACTTCAAGGTGGACTATATAAATGGTGTGTTTGCTTGGGGGCACAGAGTTAATCTATTAGGAGAGGTACTAGAAAAACAGGAAGCAATTCCGATATCTTTGTTAGGGAAACGTATAGAATAA MNNNYRYSDYSIEQLRQEIGRLKEKAQKAEQLGNISEVAVNERKMQVALAYTINPDDFTANETYEFTTDPGWNFKVDYINGVFAWGHRVNLLGEVLEKQEAIPISLLGKRIE NA NA NA NA NA AK015_02643 822 recX Regulatory protein RecX ATGTCAAAAATCACTCGTATTACAACACAGAAAAAAATGCATCAACGATATAATATTTTTTTGACTGATGATAATAAAGGGGAACGCTACGGTTTTAGTGTAGACGAATCTGTATTGATTCATTTTCAGTTACGAAAAGGCATGGAAATATCAGATTCCATGATGGACGCCATCAAAAGAAGTGATAGCATGTACCAATCTTATACCCTTGCTATTCGATATTTAAGCTTCCGCATGCGAACAAAAAAAGAAATAGAGGACTACTTAACAAAAAAAGAAGTAGATCAAGCTCATATAGTAAGCGTGATGGACAAGTTGGTAGAAGAGCAACTTCTTAATGATCATCAGTTTGCTGACATGTTTGTACGATCACGAATAAATACATCCACAAAAGGCCCGGCAATCATTAAGCAGGAATTGTTGAAAAAAGGAGTAGAGGAAAACATTGCAGATAATGCGTTAAAGCAATTCTCATATGCCATTCAATATGATAAAGTGAAAAAATTGGTGGAGAAAAAACAACAACAGAAAAAAACAGAGTCATATAAAAAGCGACTACAAAAAATGCAAACTTTTTTACAACAAAAAGGTTATGATAAAAGTGTAGTCCAAACAGTGGTGCAGGAACTTCCATCATCCATTGATAGGAATGCCGAATGGGATGCTATTATCCATCATGGAGAAAAATTAAAGAAAAAGCATGCAATGAAAAGAACAGGGTTTGAGTTGAGGCAGAAAATAACAGAAGGATTGTATAGAAAAGGTTTTTCTTTTGAACTTATTCAGCAGTATTTAGAAAGACATGTGGATGATAAAGAGTAA MSKITRITTQKKMHQRYNIFLTDDNKGERYGFSVDESVLIHFQLRKGMEISDSMMDAIKRSDSMYQSYTLAIRYLSFRMRTKKEIEDYLTKKEVDQAHIVSVMDKLVEEQLLNDHQFADMFVRSRINTSTKGPAIIKQELLKKGVEENIADNALKQFSYAIQYDKVKKLVEKKQQQKKTESYKKRLQKMQTFLQQKGYDKSVVQTVVQELPSSIDRNAEWDAIIHHGEKLKKKHAMKRTGFELRQKITEGLYRKGFSFELIQQYLERHVDDKE PGPT0007240_230 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565 NA NA AK015_02644 891 Epimerase family protein ATGAATGTACTAATAACAGGAGGAACTGGATTTATTGGCCAAGCATTAACGGACTATTTATGTGAGCGTGATTATCATGTATATGTGTTGACACGCTCCCCCCAAGAACATACAGATACAAATAAACAAACTTTCATTGGTTATGACTATCCTAATGAACAATTGCCGCCTATTAAAAGTGTGATTAACCTTGCTGGTGAATCTTTATTTGGTTATTGGACAAAAACAAAGAAAGAATCCATTTTATCCAGCAGAATTCAAACAACTGAAAAAACACTAGCATTTATGGAAAAATTGCCAAATAAGCCAGATGTATTCATTAGTGGTTCTGCTGTAGGATATTACGGAACTTCCAATGACCTGATGTTTTCCGAAAACACGACTACTCCTGGTGATGACTTTCTAGCAAAGGTTACAACGAAATGGGAAAACGTCGCTAAACAAGCTGAGAAATACAATATTCGCACAGTACTTACTCGTTTTGGTGTTGTTCTAGGAAACGGTGGGGCTTTACCAATGATGCGATTCCCTGTCCAACTAGGTGTAGGAGGCAAAATTGGCTCCGGGGAACAATGGATATCATGGATTCATATTGAAGATGCTGTGAAATTAATCGTTTTTTGTATCGAAAATAAAGCTATATCTGGACCTGTAAATGTAACTGCACCACACCCAAAGCAAAACAAAACATTTATGCAGATATTAGCAAAAGTGTTAAATCGACCCTATTGGCTTCCTGTTCCTTCCATATTTATGTACACGGCACTTGGCGAAATGGCGGGCTTAATAACTAAAGGTCAGTACGTTATCCCCCAAAAAGCACTAGATCATTCATTTACGTTCTCTTTCCCTTATCTGCAGGAAGCACTACACCATCTTCACCACAAATAA MNVLITGGTGFIGQALTDYLCERDYHVYVLTRSPQEHTDTNKQTFIGYDYPNEQLPPIKSVINLAGESLFGYWTKTKKESILSSRIQTTEKTLAFMEKLPNKPDVFISGSAVGYYGTSNDLMFSENTTTPGDDFLAKVTTKWENVAKQAEKYNIRTVLTRFGVVLGNGGALPMMRFPVQLGVGGKIGSGEQWISWIHIEDAVKLIVFCIENKAISGPVNVTAPHPKQNKTFMQILAKVLNRPYWLPVPSIFMYTALGEMAGLITKGQYVIPQKALDHSFTFSFPYLQEALHHLHHK PGPT0014730_3050 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071 NA NA AK015_02645 309 hypothetical protein ATGATCTGCTGTCTAAAGATTTATCACCCAACAGTTACGACTTTAACCAAATGTAAGATGTTACGATTTATGTTTAAAGATTATCCACTTCAAATTGAAGTGATATCAAAAAATGCTGTACTTATATATGTATGGGATGTACCAAAAAAGGAGGTTTGGCAAGCTTTTATTAACTTTGAAAGTACGAATGTAATTACTGGATATGGATTTAGTGAGGAAAAAGCGGAAGCAAGACTGATAGCAGAAGCAATGGTAATTAAGTTGTTATCCATGCGAAACAAGAGACAAAAGCATCCACTTGTTTTTTAA MICCLKIYHPTVTTLTKCKMLRFMFKDYPLQIEVISKNAVLIYVWDVPKKEVWQAFINFESTNVITGYGFSEEKAEARLIAEAMVIKLLSMRNKRQKHPLVF NA NA NA NA NA AK015_02646 414 hypothetical protein ATGAACATACAAATTGCATACAACATCAAACGTTTACGAGAGCAACAAGGTTGGACTCAGCAGCAATTAGCAGATAAGCTTCAGCTTTCACGCTCTGTCATAGCCAAATGGGAAAACAGCCATGTTACCCCAGATATTTCTTCGCTAATGAAACTTTCAGATCTTTTTCATGTATCCATTGACTATTTAGCAGGCAATAACACATTTCATGAAAATGTGATTGCTGAACTAAAGCACGTCTTTCAAACTTCTGATCAATCATTTGACGATGAGGCTGTAGAAATAATGGAATATGTAATGACATTTCCAGAAATTAAAGAAAGATTATTTCAATTAAAACAACTCACTCCTAAAAAGCAACATTCTATACACGAATTGCTAGGAGCTATCATTCAACAATATAAGCAATTATAA MNIQIAYNIKRLREQQGWTQQQLADKLQLSRSVIAKWENSHVTPDISSLMKLSDLFHVSIDYLAGNNTFHENVIAELKHVFQTSDQSFDDEAVEIMEYVMTFPEIKERLFQLKQLTPKKQHSIHELLGAIIQQYKQL NA NA NA NA NA AK015_02647 396 ytrA_3 COG1725 HTH-type transcriptional repressor YtrA GTGTTTATTGAACTAGATTTTGAATCCGAAGATCCCATTTACTTACAATTGATGAGACAAATTATTGAAGGAATTGCAAAGAAAGAGCTACTTCCAGGTGATGCTTTACCATCTGTTCGATCACTAGCTGCTGATATCGGCATTAACTTACATACTGTTAATAAAGCCTACCAACAATTAAAACAGGAAGGGTTTTTACAAATTCATCGCCAGAAAGGAGTTATGATTCATCCAGACGGCATCCCAAAGGCGACAGAAGCTTACAAAATGGCGTTAGAAAAGAATTTACGACCACTCATAGCTGAGAGCATTTGCCGTGATTTAAAGCAGGAAGAATTTTCGGAAATTTGCGAACGTATTTTCGATAACCTTATGAAAGGAGGCGACCAGCTATGA MFIELDFESEDPIYLQLMRQIIEGIAKKELLPGDALPSVRSLAADIGINLHTVNKAYQQLKQEGFLQIHRQKGVMIHPDGIPKATEAYKMALEKNLRPLIAESICRDLKQEEFSEICERIFDNLMKGGDQL NA NA NA NA NA AK015_02648 1095 hypothetical protein ATGAACACTTTTAGTTTAGCTATCACATTTATTCCACTAGCACTTTTTTTCATTTTCATACCTTATTTGACTAGGAAAACAGAAAGCTTTGGTGTGTCCATCCCTGAAGAAATATATGCAACCTCAGAAATGAAACAATTACGAAGAAAATACGCTTTACTTACAGTAGTTGTAAGCATCGTTGTGTTTGGAATTGTATTAGTTTCGCCCGAATCGATCATGGAAGATAAAAGAGGAGGCGTATTTCTCACCTTTCTCATTTTTGGCTATATGATCATTGAATTCTTTATTTATCTTTATTTTCACAGGATAATGAAGCAACGGAAAAAAGCCGCTACATGGTGGGACGATAAAACAGAAAAAGTAATGGTTCACACAAAGTATCGTGCGCAGCAACTAAAATTCTCTAATAAATGGTTTATCATACCATTTCTAATTTTCCTAATCACCACCACACTAACATATATATGGTATGACCAATTTCCAGATCAATTGCCGACTAACTTTGATTTTCTTGGTGAAGCGACAAATTTTGTATCCAAATCTTATTTATCCGTATTCGCTTTACCGTTAACCCAGCTATTTCTAATAGGTTTATTCTTCGCAGTCAATATTCTCATTGGAAAGGTAAAGCAACAAATTAGTTCGAAAAATCCAGATAGATCTTTACAACAAAATGTCATTTTTCGGAGACGGTGGTCACTGTATATGATCGCTAGCAGTATATTGCTCACGATATGGCTCTCTGTAGCACAATTTATTTTGCTTCTCCCTAAAGGTAACCATGTATTTACTGTCACATCTGTCATTATTCATGGGCTTCTGTTAGTTGGCGTTATCTATTTAGCCTTTTCTACTGGTCAAGGTGGTAGTAGGGTAAATATAGCGGATGAGGGAAACGATAAAATCATTGATCGTGACAATGACCGCTATTGGAAACTAGGCGTATTTTATGTTAATAAACAGGATCCGTCGATTTTTTTAGAAAAACGTTTTGGAATTGGTTGGGCGTTTAATTGGGCAAACCCTAAATCTTGGGGAATACTATTCGCATTTTCACTGCTTACGCTCAGTATTATTTTGCTAACTCGTTAA MNTFSLAITFIPLALFFIFIPYLTRKTESFGVSIPEEIYATSEMKQLRRKYALLTVVVSIVVFGIVLVSPESIMEDKRGGVFLTFLIFGYMIIEFFIYLYFHRIMKQRKKAATWWDDKTEKVMVHTKYRAQQLKFSNKWFIIPFLIFLITTTLTYIWYDQFPDQLPTNFDFLGEATNFVSKSYLSVFALPLTQLFLIGLFFAVNILIGKVKQQISSKNPDRSLQQNVIFRRRWSLYMIASSILLTIWLSVAQFILLLPKGNHVFTVTSVIIHGLLLVGVIYLAFSTGQGGSRVNIADEGNDKIIDRDNDRYWKLGVFYVNKQDPSIFLEKRFGIGWAFNWANPKSWGILFAFSLLTLSIILLTR NA NA NA NA NA AK015_02649 204 yxlE Negative regulatory protein YxlE ATGGAAGATATCTTACATTCTATTAACTGGGCTATCGTAGCACCGATTATCATTATTCAACTTATATTAGTGATTGTTGCACTCATTGATTGGGCAAAAGTCAAAAATACAAATGGTCCTAAATGGTTATGGCTCATTATCATCATTTTTCTTAATATGATTGGTCCTATTTTATATTTTCTATTCGGAAGGAGACACCAATAA MEDILHSINWAIVAPIIIIQLILVIVALIDWAKVKNTNGPKWLWLIIIIFLNMIGPILYFLFGRRHQ NA NA NA NA NA AK015_02650 909 yxlF COG1131 putative ABC transporter ATP-binding protein YxlF ATGACGATTTTAACTATTTCTCATTTATCAAAGCAGTTTAACAACACATATGCGGTACAAGATTTGGCATACCAATTCACTCCACATCAATGTATTGCATTAATTGGTCCAAATGGTGCCGGAAAAACGACGACACTGCAAATGATTGCTGGTCTCTTACAACCTACGTCTGGGGAAATCATTTTTGACAAGCATAAAAGTATCGATAGGCGAACGCTTATTGGTTACTTACCACAGCATCCTGTATTTTATTCATGGATGACAGGAAGTGAATTTCTCGTCTATAGCGGACAGCTGGGTGGTCTAACCAAGACCGCATCACGTAAAAGAAGTGCGGAACTACTTGATATAACAGGGATTGCTGAAGCAAAAAACAAACGAATTGGCAATTATTCAGGTGGTATGAAGCAACGTCTCGGCATTGCCCAAGCCATTATCCATCAACCGAAGCTACTCATGCTCGACGAACCTGTATCATCCCTTGATCCGATCGGACGTAGAGAAGTGCTTACGTTACTGGATCAGCTAAAAACAGAAATGACCGTATTATTCTCCACCCATATTTTAAGTGATGCGGATGAAATTAGTGATGAATTAATTTTATTACGTAAGGGAGAAATGATTGAATCAGGAAAAATGAAGGACTTACGTCAAAAATATCAAACGACAAAAATAACGTTACAATTCTCGGAAAATCAAGCATTTTATCAAAAGAAAGTAGCAGCTCTTCATCATGTTAAAAGCACATTACTAGAAAAAGACACCGTACAAGTGATTGCTAATAATATAGAAACAGCAAGACAAGAAATATTGCAACAAGCCGTGGATGAAAAGTGGCCTTTATTGGCATTTAAACTTGAGCAAGCTACACTAGAAGAGATGTTTATGAAGGCGGTGAACAATATATGA MTILTISHLSKQFNNTYAVQDLAYQFTPHQCIALIGPNGAGKTTTLQMIAGLLQPTSGEIIFDKHKSIDRRTLIGYLPQHPVFYSWMTGSEFLVYSGQLGGLTKTASRKRSAELLDITGIAEAKNKRIGNYSGGMKQRLGIAQAIIHQPKLLMLDEPVSSLDPIGRREVLTLLDQLKTEMTVLFSTHILSDADEISDELILLRKGEMIESGKMKDLRQKYQTTKITLQFSENQAFYQKKVAALHHVKSTLLEKDTVQVIANNIETARQEILQQAVDEKWPLLAFKLEQATLEEMFMKAVNNI PGPT0006725_13999 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02651 780 yxlG putative transmembrane protein YxlG ATGATGAAAGTACTTTTTAAAAAAGAAGTTTTGGAAAATTGGCGTAATAAAAAGTGGATATGGGTACCGCTCGTTTTTATTCTATTAGCTATTATGGACCCGATAACGAATTATTACCTTCCAGAAATATTAGAATCGGTTGGTGGTTTAGGAGATGGTGCAGTAATTGAGTTACCTACGTTTTCACCAGCTGATGCAATCATGATGAGTGTAAGCCAATATTCTACGTTAGGTGTTCTAGTCATTGTCCTCTTATCCATGGGTATCATTAGTGGTGAGCGAAAAAGCGGAGTTATAGAGCTTGTCCTTGTCAAACCTGTGTCATATACCAAATTTGTGCTTGCGAAGTGGCTTTCCCTCCTTTTACTCGTCTTCGCTGCTTTTATTATTGGTATGACGGCGAGCTGGTATTATACGAACATACTTTATGGGGAAATCACTTTCTCTATGTTGCTCGCTGTCATTTTTTACTACGGGCTATGGTTGCTGCTTGTTTGCACCGTTTCCATTTTCTTTAATACGGTAACACAATCACCTGGCATAGTCGCTTTTGCAACCATTGGGACAACAGCTGTTATCAGTCTTGTAACAAGCTTACTAGGAACCCGTTTAGCATGGAGTCCAACTAATTTATCCGTGTATATTCAAGAACTCCTTGTTACCGGCGACGTATCTTCTGAATTGATGTATACAACGATTATAAGTATCGTGCTCATTGCGCTTATACTACTAGCATCCTTCTATCGTTTTAACCGGACTTTTATTCGTCGAAACCAATAA MMKVLFKKEVLENWRNKKWIWVPLVFILLAIMDPITNYYLPEILESVGGLGDGAVIELPTFSPADAIMMSVSQYSTLGVLVIVLLSMGIISGERKSGVIELVLVKPVSYTKFVLAKWLSLLLLVFAAFIIGMTASWYYTNILYGEITFSMLLAVIFYYGLWLLLVCTVSIFFNTVTQSPGIVAFATIGTTAVISLVTSLLGTRLAWSPTNLSVYIQELLVTGDVSSELMYTTIISIVLIALILLASFYRFNRTFIRRNQ PGPT0006730_17187 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_02652 702 hypothetical protein ATGAAGCAATCAGTTAAAGGGATAATTTATTTTTTGTTAGTCGAAATACGTAGGTCATTAATCATTTTTTGGACCATTTTATTTACTATTTTACTTGTTTCACTCGCTTTTTCTTATTGGCTATCACAAATAGAAGAAGGCTCTTTTACTTTTAGTTTAACAGGTCCTATCTATGTGTTCTTTAGTGTTTGGGGATTTATTTGTATTAAAGAAATTATTCCTTTTTCTATTAAGCTTGGCGCTACTCGGAAGCAAATATGGAGTACCATCGGTCTATTTTTTCTTAGTTTAGCAATGATCAAAGCCGTATTTGTTCAATTTTTACGAGAAGCGATATGGATATTCAACGATTGGGTTGGCATTGATGTTTTTAGGTTTTTGCACCCTGTTCATTTTCTTACCGATAACTGGTATAGCCGTATGGTCATAGATGTTGCTATTTTTTCCTTTCTCTTTGTAATATCCTATATTATTGGCTCTGTATTCTATAAGTACGGGCTCATTGGCGGTGGAGGTTTGTTAGGGGTTATTTTACTTGTTTTACTAATGACAATTGCCACAGGGGACTTTGCTCCATTTGTACGAGAAATGATAGCGAATATGAGTCTTACTTTTTATATACAATTGTTTGCAGTGAGCGTAGTGCTTTACCTGTGCTCTTTCTTACTCATCCGTCGAATGACAACGATAAAAGTCCAATAA MKQSVKGIIYFLLVEIRRSLIIFWTILFTILLVSLAFSYWLSQIEEGSFTFSLTGPIYVFFSVWGFICIKEIIPFSIKLGATRKQIWSTIGLFFLSLAMIKAVFVQFLREAIWIFNDWVGIDVFRFLHPVHFLTDNWYSRMVIDVAIFSFLFVISYIIGSVFYKYGLIGGGGLLGVILLVLLMTIATGDFAPFVREMIANMSLTFYIQLFAVSVVLYLCSFLLIRRMTTIKVQ NA NA NA NA NA AK015_02653 876 btuD_6 Vitamin B12 import ATP-binding protein BtuD ATGAAAATTGAAGTTCGCCAGTTGACAAAGCAGTATAAGAACAAGTTTGCTTTAAACCATGTTTCCTTCACCTTAGAAGAACCGAAAATTTACGGATTGTTAGGAAGAAATGGCGCTGGAAAAACAACGTTTATGGATATGCTAGCGGGAAATATTTTGCCAACAAAGGGCGATATTTTCGTGAATGGAGAGAGACCTTTTGATAATCGACATGTACAGGAAAATGTTTGTTTGATTAAAGAAGGAAATAACTTCAAAAAAGAGTGGAAAGTGATAGAGGTAATTCGACTTTATTCATTTTTCTATCCAAAGTTTGATCAACAGTTAGCGAAACAGTTATTAAAAACATATAACTTGAATCCAAATGCAAAAGTAAAGACACTCTCCAAAGGAATGGAATCCGCACTCGGTATAACAGTTGGATTAGCTAGCAAGACGCCAATTACGATCTTTGATGAGCCTTATATTGGCTTGGACGCTGCAGCGCGAAAACAATTTTATGATGTCATGTTACAAGAGTATGAAAATGAAAAACGAATGATTATTTTTTCCACGCACTTAATTGATGAAGTGAGTCTTATGTTTGAAGAAGTGCTTATATTACAACAAGGGAAATTGGTATTGCAAAAATCCGCAGAAGCATTACGCCAGCAAACGATTTCTATAACCGGACGACAAGAACAAGTACAGACGTTTATAAAAAATAAACAATTAATTAGTAAGAAGGAATTTATGGGTACGATGACAGCTTATGTATTTGCAGATAGGCAAGAAGCAAAAGAAGAAGGGCTGGAAGTCGAAAGTATTTCAACGCAAGACTTAATGATACAGTTAACAGAAAAAGAAAGAGGGGATCGCCATGAAGCAATCAGTTAA MKIEVRQLTKQYKNKFALNHVSFTLEEPKIYGLLGRNGAGKTTFMDMLAGNILPTKGDIFVNGERPFDNRHVQENVCLIKEGNNFKKEWKVIEVIRLYSFFYPKFDQQLAKQLLKTYNLNPNAKVKTLSKGMESALGITVGLASKTPITIFDEPYIGLDAAARKQFYDVMLQEYENEKRMIIFSTHLIDEVSLMFEEVLILQQGKLVLQKSAEALRQQTISITGRQEQVQTFIKNKQLISKKEFMGTMTAYVFADRQEAKEEGLEVESISTQDLMIQLTEKERGDRHEAIS PGPT0006725_18056 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02654 369 ytrA_4 COG1725 HTH-type transcriptional repressor YtrA ATGAAGCCTAAATTAGATGAAAGCAAACCGATCTTCTTGCAAATTAAAGAGCAGTTGGAAGATTCGATTATAACTGGTGCTTTAAATCCTGGCGAACGAGTACCATCGACAAATGAATTTGCCAGTTACTATAAGATAAATCCGGCAACGGCTGCAAAAGGAATTAATGAACTCGTTGATGAGTCCATTTTGTATAAGCGAAGGGGTGTAGGTATGTTTGTAACGGACGATGCAAAGCAATTATTAATTGATAAGCGAAAGCAATCCTTTTACAAAAATTATGTATTACCGTTAAAAAGTGAAGCAAAGAAACTGCATATTAGTCAATCAGAGTTGGAAAAAATGGTAGAAAGGTTGGATGAAGAATGA MKPKLDESKPIFLQIKEQLEDSIITGALNPGERVPSTNEFASYYKINPATAAKGINELVDESILYKRRGVGMFVTDDAKQLLIDKRKQSFYKNYVLPLKSEAKKLHISQSELEKMVERLDEE NA NA NA NA NA AK015_02655 168 hypothetical protein ATGGCAAAAAAGAAAAGCTTTCCGTTACGGATTGACCCAAAGTTGTATGAGATATTGCAAGTTTGGGCTAAAGATGAATTTCGCAGTGTAAATAGTCATGTAGAATTTCTGTTACGAGAAGCAACTAAAAAAGCGGGTAGACTACCAAAGAGTGAAGATAAAAAATAG MAKKKSFPLRIDPKLYEILQVWAKDEFRSVNSHVEFLLREATKKAGRLPKSEDKK NA NA NA NA NA AK015_02656 846 hypothetical protein ATGAAGGAGAAACCAGCTTGGACGTTTAATGGGTATGCGGGAGTTTTAATTATTGCATTTTTGTTGGCGGGTACGGTATTTAGCTTTTTAGAACAACAATTTATTATTGGAATTCTTTGTGTCATCGTAGCTGTTACTTTAGGAAGTGGAATTACTTTAATCCAGCCAAACCAGTCTGCAGTTGTCATGTTTTTAGGGAAGTACATGGGAAGTATTCGGAAGGAAGGAATTGTGATAACAGTCCCTTTCTCTGTTCGAAAAATGATTTCGCTTCGTGTGCGAAATTTTAATAGTAATCGCTTAAAGGTTAATGATGTTAACGGAAATCCAATTGAGATTGCTGCGGTTATTGTTTTCAAAGTCATTGATAGTGCAAAAGCCGTATTTGATGTGGATCAGTATGAACAATTTGTAGAAATTCAAAGCGAGACGGCAATTCGTGCGGTAGCTACCAAATATCCTTATGATTCTTTTTCAGACGCGGAACTATCCCTTCGTGGAAATGCGGAAGAGGTATCGAATGAACTGCGTGTTGAATTACAAGAGCGTTTGAAGGTAGCAGGTGTAGAAGTAATTGAAACACGGTTAACCCATTTAGCTTATTCTACGGAAATCGCTCAAGCAATGCTCCAACGTCAACAAGCAAGTGCGATTATTGCAGCAAGAAAACAAATTGTGGAAGGAGCCGTAGGGATGGTGCAGGATGCCATTACGCAATTAGAGCAAGACGGCGCAGTAGAACTTGATCATGAGCGTCGTGTGGCCATGGCCAATAATTTACTCGTATCCATTGTTGCTGATCAAGGCACGCAACCTGTTATAAACACAGGATCCCTATACCAGTAA MKEKPAWTFNGYAGVLIIAFLLAGTVFSFLEQQFIIGILCVIVAVTLGSGITLIQPNQSAVVMFLGKYMGSIRKEGIVITVPFSVRKMISLRVRNFNSNRLKVNDVNGNPIEIAAVIVFKVIDSAKAVFDVDQYEQFVEIQSETAIRAVATKYPYDSFSDAELSLRGNAEEVSNELRVELQERLKVAGVEVIETRLTHLAYSTEIAQAMLQRQQASAIIAARKQIVEGAVGMVQDAITQLEQDGAVELDHERRVAMANNLLVSIVADQGTQPVINTGSLYQ NA NA NA NA NA AK015_02657 915 comEC_2 COG0658 ComE operon protein 3 ATGTACAAAAGACAGCATATTTCTATAATAATTCTCACTATATTTATTACTTTTATTCCTTTTCAATCTGTACATAGTGATAATGCTGCAAAGGATATGCAAGTTCATTTTATTAATGTCGGTCAAGGTGACAGTATATATATTCGAACCCCGAGTAGTAAACATATTTTAATCGATGGCGGACCGCCAAAATATGGTAAAAAGGTAGTCAATTACTTAAAGCAGCAAGGTGTAAAAAAATTAGATTTAGTAGTAGCGACACATCCAGACATAGATCATATTGGCGGGCTCGTCACCGTAATGAAGCAATTGGAAATAAAAAAGATGTTAGATTCCGGTAAGCTGCATACAACGAAAAGGTATTCCAAATATATTCAGGAGCTTGTAAAACAGGAAATTCCTATATCAATTGCAAAAATGGACGAAGAAATAGAGCTTGATCCATCATTAAATATTCAAGTACTCAATACGTATCAACCATCTAGGACGAATAATCAATCTTCTATCGTTTTACAAGTATCGTATAAACAAGTTGATTTTTTATTTATGGGGGATGTAGAAATGAAACAAGAAAAAGATATTCGAAAAAAAGTCGATGCATCAGTCGAAATATTGAAAGTCGCACATCATGGATCGAAAACAAGTTCCTCGCTCTCGTTTTTGCAATCCATCCAGCCTAATATAGCTATTTTAACGTATCACAAGAATAACCGTTATGGGCATCCAGTTGAAAGAGTGATTCATCATTTATATAAAGTAGGAGCTTCCATATATTCAACTGGAGCGTTAGGGCATCTAGTAATTCGTACAGATGGGACAACCTATATGGTCGAGCCGGAAAAAGAACCTTATGATGCTTTATATGCCAGTTCATTATTTACAAAAATATACAAAAGTGATATCATTATAATATAA MYKRQHISIIILTIFITFIPFQSVHSDNAAKDMQVHFINVGQGDSIYIRTPSSKHILIDGGPPKYGKKVVNYLKQQGVKKLDLVVATHPDIDHIGGLVTVMKQLEIKKMLDSGKLHTTKRYSKYIQELVKQEIPISIAKMDEEIELDPSLNIQVLNTYQPSRTNNQSSIVLQVSYKQVDFLFMGDVEMKQEKDIRKKVDASVEILKVAHHGSKTSSSLSFLQSIQPNIAILTYHKNNRYGHPVERVIHHLYKVGASIYSTGALGHLVIRTDGTTYMVEPEKEPYDALYASSLFTKIYKSDIIII PGPT0029415_5392 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 AK015_02658 2136 clpE COG0542 ATP-dependent Clp protease ATP-binding subunit ClpE ATGTTATGTCAAAATTGTAAACAAAATGAAGCAACAGTTAATGTAGCAATGCAATTAAACGATCAACATATGCAAATGCATTTATGCAATGAATGCTTCCGTAAAATGCAAGGCCAAATGATGGATGGTAATAATAACTTTTTTTCTCAATCCCCGTTTAGCAATGCTTATGGGTCATTTGCAGAATCGGGAAATGGCTCACCGAAAATGGGAACACGCACAAGACAACAGACAGGAAATCAAGGAAATGGTCTACTTGATCAGTTAGGTAAAAATCTAACAGATGAAGCAAGGGGTGGAAAGATTGACCCAGTAATCGGACGAGATAATGAAGTGAAACGGGTTATTGAAACATTGAATCGTAGAAATAAAAACAACCCTGTTTTAATTGGTGAACCGGGCGTGGGTAAAACAGCTATTGCAGAAGGTTTAGCTTCAAAGATAGTAGAAGGTGACGTCCCAACCAAATTATTGAATAAAGAGATTTATTTGCTTGATGTAGCATCACTTGTTGCCAATACTGGTGTACGAGGACAATTTGAGGAGCGAATGAAACAATTAATTCAGGAGCTGCAACAACGTCAAGATGTGATTCTATTTGTTGATGAAATTCATTTACTAGTTGGTGCAGGAACAGCAGAAAGCTCACAAATGGATGCTGGCAACATTTTAAAACCAGCGCTTGCTAGAGGAGAGATTCAACTAGTTGGAGCAACGACACTAAAAGAATATCGTCAAATTGAAAAAGATGCAGCATTAGAACGTCGTTTACAACCAATTATCGTTGAAGAACCAACTCCGGAAGAAGCGGTGCAAATATTAAAGGGTATTAAAGATCGTTACGAAAAATTTCATGAGGTACGCTATTCTGATGAAGTTATAGTAGCTTGTGTAAACTTATCTAAACGCTATATCCAAGATCGCTACTTACCAGATAAAGCAATTGATTTAATGGATGAAGTTGGTTCTAGACTAAATTTAAATAATTCATCTAAAGATTCTGAGTCTATTTATCATCGTTTAGAAGAAGTAAAAAAAGAAAAAGAAGCTGCGGCTGAGCGTGAAGATTATGAACGAGCAGCACACTTACGTTATCAAGAAATTCAGTTACAAAAACAGTTGGAAAAAGCAAAAGGTGAAGAGCAAGATATAGATGTAGATGTGTCTGACATTGAGTTAATTGTCGAAGAAAAAACGGGTATTCCAGTAACGAAACTACAAGCAGATGAACAAGAAAAGATGAAAAATCTTGCTAAACATCTAGGCGAAAAAGTTATTGGACAACAAGAAGCAGTTAATAAAGTAGCTAAAGCAATTCGTCGTAGTAGAGCTGGTTTAAAAGCAAAAGAACGCCCAATCGGTTCGTTCCTATTTGTTGGACCAACTGGAGTAGGTAAAACAGAATTAACAAAAGTGCTAGCTGAAGAATTGTTTGGTACAAGAGATGCGCTTATTCGACTTGACATGAGTGAATACATGGAGAAACATGCTGTATCTAAAATTATTGGTTCACCTCCTGGTTATGTAGGACATGAAGAAGCCGGACAATTAACTGAAAAAGTGCGTCGTAATCCGTATTCCATCGTTTTATTAGATGAGATTGAAAAAGCGCACCCAGATGTACAAAATATGTTCTTACAAATCATGGAGGATGGTCACTTAACAGATTCTCAAGGCAGAACAGTGAGCTTTAAAGATACTGTCATTATTATGACAAGTAATGCGGGAACTGGATTTAAAACAATAAGTGTCGGCTTTAATAAAGATAAGCACGATTCCGTCTCCACGTTGGAAAGACTAAGCGACTATTTCAAACCAGAATTTCTTAACCGTTTTGATGCGATTATTCGCTTCAATGAATTAGAAAAAGAACACCTACTAGAAATTGTTGACTTAATGCTTCAAGAGCTACATGATACAATCGAAGAAAACAATATTTCAATTACTATTACGGACGAAGCAAAAGAAAAGCTTGTTGATGTAGGATTTGATGCAAGATTTGGTGCGCGTCCACTACGAAGAGTGATTCAAGACAAAGTAGAAGACCAGTTAACGGATTTAATACTTGAAAATGAAAATGTAAATCATGTTCAAGTCGACGTTATAAACGACAATATCGTAGTTAAACAAGCTTAA MLCQNCKQNEATVNVAMQLNDQHMQMHLCNECFRKMQGQMMDGNNNFFSQSPFSNAYGSFAESGNGSPKMGTRTRQQTGNQGNGLLDQLGKNLTDEARGGKIDPVIGRDNEVKRVIETLNRRNKNNPVLIGEPGVGKTAIAEGLASKIVEGDVPTKLLNKEIYLLDVASLVANTGVRGQFEERMKQLIQELQQRQDVILFVDEIHLLVGAGTAESSQMDAGNILKPALARGEIQLVGATTLKEYRQIEKDAALERRLQPIIVEEPTPEEAVQILKGIKDRYEKFHEVRYSDEVIVACVNLSKRYIQDRYLPDKAIDLMDEVGSRLNLNNSSKDSESIYHRLEEVKKEKEAAAEREDYERAAHLRYQEIQLQKQLEKAKGEEQDIDVDVSDIELIVEEKTGIPVTKLQADEQEKMKNLAKHLGEKVIGQQEAVNKVAKAIRRSRAGLKAKERPIGSFLFVGPTGVGKTELTKVLAEELFGTRDALIRLDMSEYMEKHAVSKIIGSPPGYVGHEEAGQLTEKVRRNPYSIVLLDEIEKAHPDVQNMFLQIMEDGHLTDSQGRTVSFKDTVIIMTSNAGTGFKTISVGFNKDKHDSVSTLERLSDYFKPEFLNRFDAIIRFNELEKEHLLEIVDLMLQELHDTIEENNISITITDEAKEKLVDVGFDARFGARPLRRVIQDKVEDQLTDLILENENVNHVQVDVINDNIVVKQA PGPT0014590_337 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014590-clpE-K03697 NA NA AK015_02659 1578 acsA_2 COG0365 Acetyl-coenzyme A synthetase TTGAAAAGGGAAGCACTTATTCCGCCAAAAGCTTATAATATTGCCATGGAGATAGAGCGTCACGCCAACAGCAAGAATAAACTAGCACTGATAAAGGAGAATGAATTTGGAGAAACCGATCAGCTTACATATAAGGAGCTAGTAAAGCGAGCTAACCAAATTGGTAACGTTTTCTTAAAAGCTGGCTTAAAAAAAGGTGACAAAATTTTAATTATGGTCAATCGCTCTTTTGAAGCCTATGAAGTATATCTGGCTGCATTGAAAACAGGAATCATTATTATTCCTAGTTCCGAAATGTTAAAAACGAAAGATTTGCAATACCGTGTATCACACGGAGAAATAAGTGGTGTCGTTAGTTTGTATCGTTTCGCAAACCAGTTCGAAGGAATACGTGAATATGATCAGTTACATAAATTTGTTATTGGTGAAGCGGTAGATGGATGGGTATTTTTGGATGAAGAAAAGAAACAAGTTAGTGAGCAATTAGAAATTGTTGATACGAATAGAGAAGATACCGCTTTTTTACCATACACATCAGGTACAACTGGGAATCCAAAAGGGGTTGTCCATAGCCATGCTTGGGGGTACGCTCACTTAAATGCAGCTGCATATAATTGGCTTGCTATCCAAGATGGAGATCGTGTATGGGCGACAGCAGGGCCTGGTTGGCAAAAATGGGTGTGGAGCCCGTTTTTATCCGTTCTTGGAACAGGTGCAACAGGTTTTTTTTACACCGGAAAATTTAACGCTGAAAAACATTTACAATTAATAGATGATTATCAAATAAACATAATATGCAGCACGCCGACAGAATATCGTATGATGGCGAAAGTCGATAGCCTTCCACACTATAATCTAATGTCCCTACATAGCGCTGTATCAGCAGGGGAGCCACTAAACGTTGAAGTAATAGACATATTTAGGCATCATTTTAATATTACTGTACGAGATGGATATGGGCAAACGGAGAACACATTATTGCTCGGGTTTACAAAGGATATGCAGGTGAGGCCGGGATCAATGGGAAAGCCTACTCCAGGTAATAATGTAGAGGTAATTGATGAAAATGGTGATCCACTAGGTCCAAATGAAGTCGGAGATATTGCAGTGAGATTAGATAGCCCAGCTTTATTTTCTGAATATTATAAGGATACAGAGCGTACCAGTATGGCTAAACGAGGTTTGTATTATATAACGGGGGATCGTGCCTATAAGGACGAGGATGGCTTTTTCTGGTTTGAAGGAAGAAGTGATGATATTATTATTAGCTCTGGCTATACGATTGGTCCTTTTGAAGTGGAAGATGCGCTTATAAGGCATGCAGCCGTACAAGACTGTGCAGTCGTTGCAAGCCCTGATGAAATAAGAGGAAATGTAGTAAAAGCATTTATTGTTCTTCGGGAAGGATTCCAACCGAGTGATCAGCTAATAGAAGAATTACAAAATCATGTAAAAACGATAACGGGGCCCTATAAGTATCCAAGAAAAGTTGAATTTATGGATGATTTACCAAAAACAACATCTGGTAAGACGAGGAGAGTAGAATTACGTAATAAAGAAAAGATGGTAAATAAATAG MKREALIPPKAYNIAMEIERHANSKNKLALIKENEFGETDQLTYKELVKRANQIGNVFLKAGLKKGDKILIMVNRSFEAYEVYLAALKTGIIIIPSSEMLKTKDLQYRVSHGEISGVVSLYRFANQFEGIREYDQLHKFVIGEAVDGWVFLDEEKKQVSEQLEIVDTNREDTAFLPYTSGTTGNPKGVVHSHAWGYAHLNAAAYNWLAIQDGDRVWATAGPGWQKWVWSPFLSVLGTGATGFFYTGKFNAEKHLQLIDDYQINIICSTPTEYRMMAKVDSLPHYNLMSLHSAVSAGEPLNVEVIDIFRHHFNITVRDGYGQTENTLLLGFTKDMQVRPGSMGKPTPGNNVEVIDENGDPLGPNEVGDIAVRLDSPALFSEYYKDTERTSMAKRGLYYITGDRAYKDEDGFFWFEGRSDDIIISSGYTIGPFEVEDALIRHAAVQDCAVVASPDEIRGNVVKAFIVLREGFQPSDQLIEELQNHVKTITGPYKYPRKVEFMDDLPKTTSGKTRRVELRNKEKMVNK PGPT0002265_7917 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895 NA NA AK015_02660 792 pdaA COG0726 Peptidoglycan-N-acetylmuramic acid deacetylase PdaA ATGAGAAAAAGATTTTCTATATGTGCAGTTTTAGTTATATTGGCTACCTTATATACACCACTTTCATCTTTAGCATCTGGCTATGGATGGGGGTACAGTAAAAACGAAGTGCATAAAATCCCTGATATTGGAAAATATGCAAGCCTGCTTGAAAAATACAATGCGTATTATGCAGATCCATCTGGAGAAAAAAATGTATACGTAACATTTGATAATGGCTACGAACAAGGTTATACAGCTGATATCTTAGATGTATTAAAAAAGCACCAAGTTCCAGCAACTTTTTTTGTTACAGGGCACTACGTAAAAGAAGAACCTGAATTAGTAAAACGTATGGTAAAAGAAGGGCATATTGTCGGTAACCACTCGTATCATCATCCTGATTTTACGATTATGAATAAAAAAAATATACAAGAAGAATTAGAATCATTGGAGGAAGCAGTTGCAGCAATTTCCGATCAAAAAGATATGAAATACTTACGTCCGCCAAGAGGAATGTTTAATAAAGATACATTAGAATGGGCGAATGAATTGGGATATATTCACATCTTTTGGTCGCTTGCCTTTAAAGATTGGGAGACAGATAAGCAAAAAGGGTGGAAATATGCATTTGATCAAGTAAAAGAGCAAATTCATCCAGGTGCGATCATTTTATTACACACTGTTTCCTCCGATAATGCAAAAGCACTTGAAAAAATGATTCGTGCGTTACAAAAACAGGGCTACTCATTTAAAAGCCTTGATGATCTGGTGTTAAGAAATAAACTTCCTGAAGCTATATACGGCTTGTAG MRKRFSICAVLVILATLYTPLSSLASGYGWGYSKNEVHKIPDIGKYASLLEKYNAYYADPSGEKNVYVTFDNGYEQGYTADILDVLKKHQVPATFFVTGHYVKEEPELVKRMVKEGHIVGNHSYHHPDFTIMNKKNIQEELESLEEAVAAISDQKDMKYLRPPRGMFNKDTLEWANELGYIHIFWSLAFKDWETDKQKGWKYAFDQVKEQIHPGAIILLHTVSSDNAKALEKMIRALQKQGYSFKSLDDLVLRNKLPEAIYGL NA NA NA NA NA AK015_02661 1302 hypothetical protein ATGGAATGGGTCGTCCTTATATCTGTTCTCATATTAACCATATTAAGTTTGTTACGTGTAAATGTCATTATCGCTATTATTGCAGCTGCGATTAGTGCTGGTTTGATGTCTGGGCTAAATATAAAAGAAGCTGTTGAACTGTTAGTTAGTGGAATGGGTGGTGGTGCCAATACTGCATTAAGTTATATATTATTGGGTGCTTTTGCTGTAACAATTAGCTATACAGGTATTACATCATTATTAGTAACTTACCTTATTCGAATATTATCAGGTAAAAAGACGATGCTTTTACTCGTAATAGCAGCTGTAACATCACTATCACAAAACGTCATTCCTGTTCACATTGCATTTATTCCAATACTTATCCCACCTTTATTGCCACTATTTGATAAAATGCGATTAGATCGGCGTGCAGTGGCGACGGCATTAACGTTTGGGTTAAAAGCTCCCTATATTCTAATTCCGGCAGGATTTGGCCTCATTTTCCATGAAACGATTGTGGAGAGTATGAAGCAAAATGGGGCGAGTATCACAGTGAACGAAACGGTGTTAGCTATGCTCATTCCAGGTTCAGGGATGATTGTAGGTTTGCTGATCGCTATTTTTATTACGTACCGTAAAGATCGTGTAGTCAATGATGGAATGAAAGAAGAGACATCAAAGGAAGAAACAAAGGCGGTACCATTCAACAAACAACATGTATTTACACTTATAGCAGTTGCTGGTGCTTTAACGGCGCAAATTATAACAGGCAACCTCATTATAGGAGCTCTTACGGGGCTTGTGCTCATGTTTATATTTTTTGTTATTCCTTTTCATAAAGCAGATCAAGTTGTCAGTGAAGGTATCGGCATGATGGGAACAATTGCTTTTGTCATGCTTGTGGCCTCAGGTTTTGGAAATGTATTGACAGAAACAGGTTCCGTAGAAGCGCTTGTAGAAGTATCTTCGGGGTTTTTAGATCAAAATAAGGCCCTTATTGCTTTCATTTTGTTGCTAGTAGGACTTATCGTTACGATTGGGATCGGCTCTTCTTTTGGAACCATTCCTATCTTAGCCGCATTGTATGTTCCCATTTGCTTAGCTGCAGGCTTTTCTCCATTAGCTACAGCTGCATTAATTGGAACGGCAGGTGCACTAGGTGATGCAGGGTCGCCAGCTTCAGATAGTACATTAGGTCCAACTTCAGGATTAAATGCTGACGGCAGACATCACCATATTTGGGACACGGTGGTACCAACTTTTATACACTATAACATTCCCCTATTTATTTTTGGTTGGGTAGCTGCTATTATTTTGTAA MEWVVLISVLILTILSLLRVNVIIAIIAAAISAGLMSGLNIKEAVELLVSGMGGGANTALSYILLGAFAVTISYTGITSLLVTYLIRILSGKKTMLLLVIAAVTSLSQNVIPVHIAFIPILIPPLLPLFDKMRLDRRAVATALTFGLKAPYILIPAGFGLIFHETIVESMKQNGASITVNETVLAMLIPGSGMIVGLLIAIFITYRKDRVVNDGMKEETSKEETKAVPFNKQHVFTLIAVAGALTAQIITGNLIIGALTGLVLMFIFFVIPFHKADQVVSEGIGMMGTIAFVMLVASGFGNVLTETGSVEALVEVSSGFLDQNKALIAFILLLVGLIVTIGIGSSFGTIPILAALYVPICLAAGFSPLATAALIGTAGALGDAGSPASDSTLGPTSGLNADGRHHHIWDTVVPTFIHYNIPLFIFGWVAAIIL PGPT0020805_901 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 AK015_02662 801 yfkD putative protein YfkD ATGAACAGACTGAAGCATTCTATTTTCCTGATTCTTTTTGTTTCTTTCATAGTTATGGTGCTTGGACCAAATCAATTACTAGCTGAAGAAAAGAAAGAGACTTCTTTTAATATCCCTAGCCATGTACTAAATATTTCAAAAGATAATACTTTTCCTAATTCTACAGAGGATGAAGAAGTAATTGAGCCAAGTGAATTAACGAAAGAATTAACAGATAGTTTAGATATTAAAATTGAAAATCCAGTGTTAATTAAAATGTTAAATGAAACAACTTTAAACCCATCTCCAATTGCTTTTGGTTATCGAGGAATGGTTTATTTAGGACGTTGGCCATTAAATTATGAATCGCTGGAAACAACGATTAATTGGGAATACCAGCAAGTAAATAAAAATGAGTTGAATAATACAAGTGGGTCAGAGCCTCAAGAAATAAACTATATACAACAAGAACAAAAAGAAATCAAAGGAGCATTGACGAATAAAATCAGCAAACCATCTGATGTGAAAAAAATGATGTTGCTCACAGCAAAAGAAAAAACGAAACTGCCTCTTTCGTATCAGACAGTTATTGGAAAAAACACAAAAAAAGATAATACGTATAAAGTGCCCAGTGATAAACTTGCCGTTCTCCAATCGTATGCGCCAGCAGTAAATGAAAAAGGACAAGTTACATTTGGGGAAGTATATGTGAAGTTAAAGGGATCCGATAAATCCATTGCTGTCAAAAACGTGACGAAACAAGGAATTGGAGCTTGGATTCCCATTCAAGATCATGTCTCCTTCTCTTATAAATTAAAATAA MNRLKHSIFLILFVSFIVMVLGPNQLLAEEKKETSFNIPSHVLNISKDNTFPNSTEDEEVIEPSELTKELTDSLDIKIENPVLIKMLNETTLNPSPIAFGYRGMVYLGRWPLNYESLETTINWEYQQVNKNELNNTSGSEPQEINYIQQEQKEIKGALTNKISKPSDVKKMMLLTAKEKTKLPLSYQTVIGKNTKKDNTYKVPSDKLAVLQSYAPAVNEKGQVTFGEVYVKLKGSDKSIAVKNVTKQGIGAWIPIQDHVSFSYKLK NA NA NA NA NA AK015_02663 393 hypothetical protein ATGAAATTACATTTAAAAGAACATGGTTTTAGAACTGAATTAGACTTTGGTCAGTTAGATATTTCTGGAGATGAGGAATTTGGCTTTCGCCCGTATCAACTAATGGTTGCTTCGATCGCTAGTTGCAGTGGTTCAGTCTTTCGTCAAATCCTTCAAAAGCAGCGCACAGACGTTCATGACATGCAAATTAATGCTACTGTTGAAAGAAATAAAGATGAAGCAAACCGCATCGAGAAAATAGCGCTTACTTTTATTATTAAAGGTAGTCATTTAGATGCAGAAAAATTGTACAAAAGCTTACATGTAGCCCGTAATAACTGCTCTATGGTGCGTTCTGTGGAGGACAGTATTGAAATTGTAGAGAGAATAGAAATTATTGAACTTAGCAGATGA MKLHLKEHGFRTELDFGQLDISGDEEFGFRPYQLMVASIASCSGSVFRQILQKQRTDVHDMQINATVERNKDEANRIEKIALTFIIKGSHLDAEKLYKSLHVARNNCSMVRSVEDSIEIVERIEIIELSR NA NA NA NA NA AK015_02664 1176 ycaD putative MFS-type transporter YcaD ATGCAACTGACCAAATATCGTTTGTGGATACTAATTGCGCTTGTATTTATATCTGGTTTCTCACAAGGAATGTTATTACCATTAATTTCTATTATTCTTGAACAAAATGGCGTAGCCTCTTCTATTAACGGCTTGCATGCAACAGGATTATATATTGGAGTTTTAATCGCTTCTCCATTTATGGAAAAGCCAATGCGAAAATTTGGTTTTAAACCAATGATTTTTGTCGGCGGTTTGCTCGTCATCCTTTCTTTGGCTATATTTCCAGTATGGGAGTCTTTATGGTTTTGGTTTATATTGCGACTTATTATAGGAATTGGTGACCAAATGTTGCATTTTGGCACACAAACATGGATAACGGCAACAGCTACAGCGGAAACAAGAGGAAGAAGTATTGCTCTTTATGGTTTATCGTTTGGAGCAGGCTTTGCTATAGGTCCATTAATGACAAGACTTTTATCCATTCACCAATCGGTGCCTTTTCTAGCTTCTGCAGCTTTGAGCTTCACCGTCTGGCTATTATTGTTTTTCCTTCGTAATCAATGGCCTGAACAATCTGTAGACCCAGTTTATCCGACAAGTTCAATGCAACGCTTTAAACAAACCTTTAAAATAGCCTGGATTGCGATGTTACCTGGTTTTGGATATGGTTTCTTAGAGGCCTCTTTACATAGCATTTTCCCTATCTATGGCCTGCGTATTGGGCATGATGTTCATACACTTTCACTCATTATTCCTTGCTTTGCAGCAGGTAGCTTAATTACCCAATTCCCGTTAGGTGCATTAAGCGATAAATTCGGTAGAAGATCGGTACTAATAACTGTATTATCGCTCGGTTCGCTATGTTTTCTGTTTACTGCCATTTTAGAGTCTTCTGCCCTTGCTTTATTTATCCTGTTCACTTTAGCAGGAATGTGTGTAGGTTCTTTGTTTTCCTTAGGTATCTCTTATATGACAGATTTACTCGCCGGAAACTTACTTCCAGCTGGAAATTTAATGGTTGGCATCATGTTTAGTGTTGGTAGCATTAGCGGACCTTTTATTGGCGGTTATTTTATTGACGTTTTTGAACGCGTTTCATTCTTTTATTTTATAAGCTTTATCTTAATGTTGATTACAGTAGCTATGTTAGTAAAGAAGAACACCCAACACGAAACAAATCGAGTGGGGACGTAA MQLTKYRLWILIALVFISGFSQGMLLPLISIILEQNGVASSINGLHATGLYIGVLIASPFMEKPMRKFGFKPMIFVGGLLVILSLAIFPVWESLWFWFILRLIIGIGDQMLHFGTQTWITATATAETRGRSIALYGLSFGAGFAIGPLMTRLLSIHQSVPFLASAALSFTVWLLLFFLRNQWPEQSVDPVYPTSSMQRFKQTFKIAWIAMLPGFGYGFLEASLHSIFPIYGLRIGHDVHTLSLIIPCFAAGSLITQFPLGALSDKFGRRSVLITVLSLGSLCFLFTAILESSALALFILFTLAGMCVGSLFSLGISYMTDLLAGNLLPAGNLMVGIMFSVGSISGPFIGGYFIDVFERVSFFYFISFILMLITVAMLVKKNTQHETNRVGT NA NA NA NA NA AK015_02665 216 hypothetical protein ATGAGCGAATTTTCGACGAGCAGAAGCGGCTTTCGTCGTTTTGCTTATATTATAATCCATAAAAGATTATACGTTCCTATAGCGCAAAAAGTCAGTCCAGATGTTACATTTGGACTGACTTTTTTAGGGACGAGAGAACCATCCCCGCGTAACGCTGTTATTGCTGAAAAAACTTCTCAGCATCAACTGAAAAATCAGGAAGCACTGATGATGTGA MSEFSTSRSGFRRFAYIIIHKRLYVPIAQKVSPDVTFGLTFLGTREPSPRNAVIAEKTSQHQLKNQEALMM NA NA NA NA NA AK015_02666 567 hypothetical protein ATGAGTTTACCAAACGAAGAACTTGTCTCCTTAAAAAAATTTTACCAAATGCGGGAGCAGACCGATCAGCTCCTTGAATATATTGATGGCGTCGTTTACATGTCGCCCTCACCCTCCACCGTTCATCAACGGCTATCTATGCGATTAGCCGCGCAATTATATAACCTATTAGAAAGCGGTGATTGTGAGGTTTTCTCGGCGCCGTTTGATGTGAAACTAAGTAATGAAAATATTCCTGGAGATAAAGTGGTTATCCCTGATTTGTCTGTCATCTGTGACAAAAGTGGCTTGGATGATCAACAATATACAGGTGCTCCTACAATGATTATTGAAATAATTAGCCCATCCAATCAGGCACATGACCTTATTACAAAATTGAATTTATATATGCAGTATGGGGTCAAAGAATATTGGATTGTGAACCCCCTGCTCAACACAATCATGGTATATGCCTTGAATGAAAAAGCGAAATACGAACAGAAAGACATTGTCCGTGAAAAGGGTATCGTCACATCATCAGTGCTTCCTGATTTTTCAGTTGATGCTGAGAAGTTTTTTCAGCAATAA MSLPNEELVSLKKFYQMREQTDQLLEYIDGVVYMSPSPSTVHQRLSMRLAAQLYNLLESGDCEVFSAPFDVKLSNENIPGDKVVIPDLSVICDKSGLDDQQYTGAPTMIIEIISPSNQAHDLITKLNLYMQYGVKEYWIVNPLLNTIMVYALNEKAKYEQKDIVREKGIVTSSVLPDFSVDAEKFFQQ NA NA NA NA NA AK015_02667 693 yecS_3 COG0765 L-cystine transport system permease protein YecS GTGCAAACATTCCAATTTAGTGACATATTTGATGTTCAGTTAGCGATAGATAATCTTCCGTTTGTATTGAGCGGACTGCCAATGACTTTACTTGTCTCGGTTATTGGTATGCTATTGGGGCTTGTTTTAGGGCTATTGCTTGCTTTAGCGCGAAATGCTTCTTATTTTTTCTTGCGCTTACCTGCTAGATTATACATATCGTTTATGCGGGGGACGCCAATCCTTGTTTTTTTGTTCATTCTGTATTTTGGACTTCCGGTTATTGGGATTAAATTGACAGCATTCATGGCAGCTTGCTTAGGGTTTGGTTTAAATAGTGCTGCGTATATTGCTGAAATTGATCGTGCCTCGTTGAATAGTGTAGATAAAGGACAATGGGAATCAGCAAAAGCATTAAATTTAACTTATTGGCAGACGTTGCGAAAAGTTATCTTGCCACAAGCGACTAGAATTGCTATTCCACCATTAACAAATGTATTTATGGATTTAGTCAAAGCTACTTCGTTAGCAGCTGTGATTACGGTCCCAGAGCTGTTCCAAAAAACACAAATTGTTGCAGGTAGAGAATTTGATGCCATGACGATGTATATTCTCGTAGCGCTCATTTATTGGCCGCTATGTATCGTTATTGCTTTTATCCAAGAACGTTTAGAAGCACGCTTCAGTAAATATGTCGTGCATGAAGCAGTTTAA MQTFQFSDIFDVQLAIDNLPFVLSGLPMTLLVSVIGMLLGLVLGLLLALARNASYFFLRLPARLYISFMRGTPILVFLFILYFGLPVIGIKLTAFMAACLGFGLNSAAYIAEIDRASLNSVDKGQWESAKALNLTYWQTLRKVILPQATRIAIPPLTNVFMDLVKATSLAAVITVPELFQKTQIVAGREFDAMTMYILVALIYWPLCIVIAFIQERLEARFSKYVVHEAV PGPT0020715_449 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 AK015_02668 879 yckB COG0834 putative ABC transporter extracellular-binding protein YckB ATGAAATATATAAAGATATCCTTGATTTTAATTGCTTCAATAGTGTTTATTACTGCTTGCTCTAACAGTTCAGGTGATTCAAACAGTGAGGGTGAAAATGGTGAAACAGATAAGAGATGGCAAGAGGTAAAAGAAAAAGGAGAGTTAGTTGTTGGGACGTCCGGTACACTAATAGCAGCCTCCTATTATGATGGGGAAGAAGAAAGTGAGGAGCAATTGACGGGATATGATGTAGAAGTAATGCGTGAAGTTGCTAAGCGTTTAGATGTAGATATTTCGTTTGAAATTATGGGAATCGACAGCATGTTACCCGCCATTAAAAGTGGCAGAATTGATGTTGCAGCAAATGATATTGAAGCAACAGACAAGCGAAAAGAGTCCTTTAACTTTAGTGAGCCTTACAAATATTCTTATTCTACCATGGTAGTGCGAAAAGAAGATAATTCTGGAATTGAATCGCTAGAAGATTTAAAGGGGAAAATAGCTGGTGGTGGAGCCACTACTATATATAGTCAAATTGCCGAACATTTTGGCGCAGAAGTAAAAACGTACGGAAATGCTCCGAATGAGGCTTATTTACGTGATGTTCACAACGGTAGGTCAGATGTTATCGTAAACGATTATTATTTATCTAAATTTGGTGTCGCAGGATTTCCAGAGTTTGATATTCATCTTCATCCAGATTTAAAGTTTCACCCAACAGAACAAGCTGTAGTAATTCCAAAAGATGCAGACATGCTTACTGAAAAAATAAATGATGCTTTAGCTTCAATGAGAAAAGATGGGACGCTATCAGAGTTAGCTAAGAAATTCTATCAAGAAGATGCTTCTCAAAAACCTGAGGGTGATATACAAGAAATTGAAGGATTAGATTTATAA MKYIKISLILIASIVFITACSNSSGDSNSEGENGETDKRWQEVKEKGELVVGTSGTLIAASYYDGEEESEEQLTGYDVEVMREVAKRLDVDISFEIMGIDSMLPAIKSGRIDVAANDIEATDKRKESFNFSEPYKYSYSTMVVRKEDNSGIESLEDLKGKIAGGGATTIYSQIAEHFGAEVKTYGNAPNEAYLRDVHNGRSDVIVNDYYLSKFGVAGFPEFDIHLHPDLKFHPTEQAVVIPKDADMLTEKINDALASMRKDGTLSELAKKFYQEDASQKPEGDIQEIEGLDL PGPT0015635_137 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 AK015_02669 1875 zosA_2 COG2217 Zinc-transporting ATPase ATGTTAACCGAAACAAAGATAACGAAAAAAATATCTGAACATAAAGAGCTAATTGCAGCTCTATTTAGTGGGTTACTTATTGCAATTGCTTGGACATTCGAAAATCATCTGTCTGACGCTTTATGGGTTACCCTTCATCTCGTCGCATTTGTAATCGGAGGGTATGCCAAAGCAAAAGAAGGAATTACAGAAACCATACGTAATAAAGACTTAAATGTAGAAATGTTAATGATATTCGCCGCGATTGGTGCTGCTGCAATTGGTTATTGGACAGAAGGTGCCATTCTAATCTTTATTTTTGCTTTATCAGGTGCGCTTGAAACGTATACGATGAATAAAAGTAACAAAGAAATATCCTCACTTATGAAATTACAACCTGAAGAAGCATTACGAATGAATGGCGATCAAAAAGAAATGGTTACTGTTTCGTCTTTACAAATAGGTGACATGATCTATGTACGTGCCGGAGAGCGAATCCCTGCAGATGGGATCATTTCCCGTGGAGCAACATCCATAGATGAAAGTGCCATTACCGGAGAATCTATTCCGGTTCGAAAAACAGAAAATGAAGAAGTTTTTGCAGGAACAGTTGCTTTGGATGGTTCGATATATATCGAAATTACGAAAGCAGCAAATCAAACGCTATTCCAAAAAATCATCCAAATGATTCAATCCGCACAAGATGAAAAATCTCCTTCCCAGTTATTTATTGAAAAGTTTGAAGGAGCTTACGTGAAAATCGTATTAATTGTTGTCGTCTTGATGATGTTCATTCCCCATCTTTTGTTTGACTGGACACTTCAGGAAAGTATTTATCGAGCTATGATCTTACTCGTTGTTGCTTCTCCATGTGCCCTTGTAGCCTCCATTATGCCAGCTACTTTATCCGCCATATCTAAAAGCGCAAGAGCAGGGGTTCTATTTAAGGGGGGTGTCCACATTGAAAACATGGGACATATTCATGCCATTGCATTTGATAAGACAGGTACATTAACGAAAGGGAAACCGGAAGTGACTGATTTTCATGTACATCCAGATCATAAGCAAGAGGATGTATTACCTATTGCAATGGCTATGGAGCAAGATTCAACACACCCTCTTGCCTACGCTATAGTTACATTTGGCAAGCAACAACAAATAGGTACTTCGTTACAAGATATTCAAGTTTCTACGCTTACTGGAAACGGTATTTCAGCCGTAATTGAGGATGAAACTTGGGAGATTGGTAAGCCTGATTATATTGGTTATGAAGCGGATTTTGAGGATATAACGAAGCAACTTGCTTCTGAGGGGAAAACAATCGTTTATGTAAAAAAAGGACAGCAGATTGTAGCTTTATTTGCACTGAAAGATACGGTAAGAAAAGACAGCATACAAGCTATTAAACTATTAAAACAACATGGAATTCACACCGTTATGCTTACGGGAGATCATGATCTTACTGCGAAAGCCATTGCAGAAGAAGCTGGTATTGATGAATATGTAGCAAATTGTTTACCACATGAGAAAGTGGAAGAAATAAAAAAACTGAAAGGAAAATATCAACATGTTTGCATGGTTGGTGACGGAATTAACGATGGCCCAGCATTAGCTACAGCAAATATTGGCATTGCAATGGGAGAAGGAACAGATGTAGCGTTAGAAACTGCAGATGTCGTGCTTATGAAAAACAACCTTAGCAAAATAACCAACGCCATTCACACGTCTCAAAAAATGAATCGCGTCGTAAAACAAAATATATTTTTCTCCCTTGCAGTTATCGCTATACTCATTGCGTCTAATTTCTTACAAATCCTTGATATGCCATTAGGAGTAATAGGACATGAGGGTAGCACCATTTTAGTTATTTTAAATGGATTAAGGTTATTAAAATAA MLTETKITKKISEHKELIAALFSGLLIAIAWTFENHLSDALWVTLHLVAFVIGGYAKAKEGITETIRNKDLNVEMLMIFAAIGAAAIGYWTEGAILIFIFALSGALETYTMNKSNKEISSLMKLQPEEALRMNGDQKEMVTVSSLQIGDMIYVRAGERIPADGIISRGATSIDESAITGESIPVRKTENEEVFAGTVALDGSIYIEITKAANQTLFQKIIQMIQSAQDEKSPSQLFIEKFEGAYVKIVLIVVVLMMFIPHLLFDWTLQESIYRAMILLVVASPCALVASIMPATLSAISKSARAGVLFKGGVHIENMGHIHAIAFDKTGTLTKGKPEVTDFHVHPDHKQEDVLPIAMAMEQDSTHPLAYAIVTFGKQQQIGTSLQDIQVSTLTGNGISAVIEDETWEIGKPDYIGYEADFEDITKQLASEGKTIVYVKKGQQIVALFALKDTVRKDSIQAIKLLKQHGIHTVMLTGDHDLTAKAIAEEAGIDEYVANCLPHEKVEEIKKLKGKYQHVCMVGDGINDGPALATANIGIAMGEGTDVALETADVVLMKNNLSKITNAIHTSQKMNRVVKQNIFFSLAVIAILIASNFLQILDMPLGVIGHEGSTILVILNGLRLLK PGPT0004200_4191 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534 NA NA AK015_02670 825 hypothetical protein ATGGTAAATACAGTACTTTCTTTTGGAAAGCAGCTATATCAACGAATGATAAAGATAGACCTGTTTGGATTGGCTGCACAGTTAGCTTATTTCTTTTTGTTGTCACTGTTTCCATTTCTATTATTTTTAGTGACGCTTGTTGGTTATTTACCGATGGATGAGTTAGCTGTATTAGATATTATTTCTTCGTATGCTCCACCTCAGATTGTAGAGCTGATTTCAACAAATGTTACGAATTTAATTAGACAACAGAACGGTGGATTGCTTTCTTTTGGTATAATTGCCACACTATGGGCATCTTCTAATGGTGTAAACGCCTTAATGCGGGGTTTTAACTATGCGTATGAAGTAGATGAAAACCGTTCGTTTATTGTTTCAAGACTTATTGCTATTATAATGACAATAGCAATGATAGGAATTATAATTATCGCATTATTATTACCTATATTTGGTAAATTAGTTGGTTCTTATTTATTTTCATTTGTCGGTTTATCAGAAGGTTTTATTCATGTATGGGAAGCCTTGCGTTGGGTTGTTTCGTCAGTTGTTTTCTTTATTGTCTTTCTTGCATTATATAAGCTTGCACCGAACAAACGAATCTATTTAAAGGATGCAGTGCCAGGAGCTTTGTTTGCTACAGTAGCATGGCAACTAGTTTCATTAGGTTTTTCTTACTATGTGAGTAATATTGGTAATTATTCAGCAACATATGGCAGTCTCGGAACTGTCATTGCACTCATGATTTGGTTTTATTTATCAGGGATCATTATCCTAACTGGCGGTCTAATAAATGCTGTCATTCGAAAAAACAAACATGTAAAATAA MVNTVLSFGKQLYQRMIKIDLFGLAAQLAYFFLLSLFPFLLFLVTLVGYLPMDELAVLDIISSYAPPQIVELISTNVTNLIRQQNGGLLSFGIIATLWASSNGVNALMRGFNYAYEVDENRSFIVSRLIAIIMTIAMIGIIIIALLLPIFGKLVGSYLFSFVGLSEGFIHVWEALRWVVSSVVFFIVFLALYKLAPNKRIYLKDAVPGALFATVAWQLVSLGFSYYVSNIGNYSATYGSLGTVIALMIWFYLSGIIILTGGLINAVIRKNKHVK PGPT0014525_6787 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058 NA NA AK015_02671 300 hypothetical protein ATGATGGGAAAAAGAAAATTAGTTACAGGAGTCGTACTAGGGGCAACAGCAGGTGGATTAATTAGTCTTTTAGATAAAGAAACAAGAGTTTATGCAAAAGAAAAACTTGCATCCGCAAAATCTGGTGCAAGCTACATGTTAAAAAATCCGTCTGAGACGATCCACACAGTGCGGACTAATTTTGATAAATTAAATCAAGCATTTACAAAAGGTGCTGAGAATACAATTAATGCTTTGAACGAAGCGGAAACAACACTTGAAAAAGTAACGAATAAAAGGAAAACGGACCGAATAGAATAA MMGKRKLVTGVVLGATAGGLISLLDKETRVYAKEKLASAKSGASYMLKNPSETIHTVRTNFDKLNQAFTKGAENTINALNEAETTLEKVTNKRKTDRIE NA NA NA NA NA AK015_02672 474 yfkJ COG0394 Low molecular weight protein-tyrosine-phosphatase YfkJ ATGATACGGGTCATGTTTGTTTGTCTTGGTAATATTTGCCGCTCGCCAATGGCTGAAGCTATTTTTGTTAATTTAATACAAAAAGAAGGATTAACAGACCAAATTGAGGTGGAATCTGCCGGAACTGGTGCATGGCATATTGGCAAACCACCCCATAAAGAAACGATAGCGATTTTAAAAAAGTATGAGATTCCAACGAATGGATTAGTTGCTCAACAAATAACATCAAAAGATAAAGGTAAAGCGGATTATTTCATTGCTATGGACGAGGAAAACAAACAAGATTTATTGCGGATGTTTGGAGAAAACGGTAAAGTACGAATAGCAAAATTAATGGATTTTGTGGAGCATACCAAAGAAGAAAATGTGCCTGACCCTTATTTTACAGGTAATTTTTCATATACATATGAATTGGTAGCTGAAGGGTGTTATCAACTCTTACAATATTTAAAACAAAAACATGCGATACAATAA MIRVMFVCLGNICRSPMAEAIFVNLIQKEGLTDQIEVESAGTGAWHIGKPPHKETIAILKKYEIPTNGLVAQQITSKDKGKADYFIAMDEENKQDLLRMFGENGKVRIAKLMDFVEHTKEENVPDPYFTGNFSYTYELVAEGCYQLLQYLKQKHAIQ PGPT0014530_5699 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 AK015_02673 996 glsA1 COG2066 Glutaminase 1 ATGGTGCAAGGTACGGCAAATTGGAATACAGAAATTACGAAAGAATGGTTACAATCCTATGTAGATGACTGGGTGCAATTTTACAAGAAAGAGACAAAAGAAGGGAAAGTTGCTTCTTATATTCCAGTGTTAAAAAAAGCTGATCCAAATCTTTTAGGAATTACTATCATTGGCAAAGACGGGATGATGATTCAATCTGGAGATGTTGGCACCCCATTTACCATTCAAAGCATTTCCAAAATATTTAGTTTTATAGTAGCTTGTATGGAAAGAGGAGTATCTTATGTGCTCGATCGAGTGGATGTGGAACCGACAGGAGAGGCATTTAATTCTATCATGCACCTAGAGATGCGTAAATTAAAGAAACCATTTAATCCATTTATTAATGCGGGAGCAATTACAGTAACGTCATTATTGAATGGAAAAAGTTCAGAAGAAAAATTAGAACCTATATTTCAGTTGTTTACCAAAATTCTCGGTTACAGACCGCGCATAAATGAAGACGTCTATGTATCCGAACGAGAAACATCTGTAAGAAATCGTGCTATTGGTTATTATCTCATCGAGTTAGGTTATTTGGAGTCTGCATTAGATTTGACGCTTGATACGTATTTTAAGCAATGTTCTATAGAAGTAACAACAGAAGATTTGGCCAAACTTGGTTTAGTTTTAGCTAATGATGGGATAGATCCTCAGACAGCCGAAGAAATCATTCCTAGAAATGTGGTTCGCCTAGCAAAAGCGCTCATGTTAACTTGTGGAATGTACGACGCTTCAGGGAAATTTGCTGCCTATGTTGGTATCCCAGCAAAAAGTGGGGTTTCAGGAGGGATTATTGCTACAGCTCCTCCAAGAGTTAGAAAAGAAACATTGCCTTTTATTGAAGGGTGTGGCATTGGTGTATATGGTCCTGCGTTGGATGACAAGGGCAATAGTATTGCAGGCATAAAATTATTAAAGCATATTGCAACCAAATGGGATTTAAGTGTTTTTTAG MVQGTANWNTEITKEWLQSYVDDWVQFYKKETKEGKVASYIPVLKKADPNLLGITIIGKDGMMIQSGDVGTPFTIQSISKIFSFIVACMERGVSYVLDRVDVEPTGEAFNSIMHLEMRKLKKPFNPFINAGAITVTSLLNGKSSEEKLEPIFQLFTKILGYRPRINEDVYVSERETSVRNRAIGYYLIELGYLESALDLTLDTYFKQCSIEVTTEDLAKLGLVLANDGIDPQTAEEIIPRNVVRLAKALMLTCGMYDASGKFAAYVGIPAKSGVSGGIIATAPPRVRKETLPFIEGCGIGVYGPALDDKGNSIAGIKLLKHIATKWDLSVF PGPT0020215_1032 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425 NA NA AK015_02674 759 hypothetical protein ATGATTCGTACGATAGGAATATACCTCTATGCTAGCATTTTAGTACTCGGAACATTTTTTAAATTGCAGAGAGCGAAAAAATTACAACATGAACTAACTAAAGAAGAAATTTTCATTCAACCAAGTCTTGTCTCGAAGAAGGTGTTTCAACGAACAGGGAGCACTATTAAAGTAGAAGGGCAAGAAAAACTTCCGGAAGGCCCAGCACTATTTGTTTCTAATCATCAAGGGTTGTTTGATATATTAGTGTTACTCGGTTATTTAGGGAAGCCAGTTGGATTTATAGCAAAAAAAGAGATTAAAAAACTACCCATTATTTCCTCTTGGATGGAGCTAGTTCATTGTGTGTTTATGGATCGTAAAGATCGTCGACAATCGGTTCGTGCTATCGGTCAAGGGATTGAGTATTTGAAAGAAGGGCACTCTATCGTTATTTTTCCTGAGGGGACCAGAAGCAGGGGGAGACAACTTCATTCCTTTAAACCTGGCAGCTTTCGTTTAGCAATAAAAGCGAACGTACCGATTGTACCTGTTGTGATAGACGGAACATATCATATGTTAGAGGAACAGGGTGGAAAAGTTTCCTCGTCATCTGTACGTCTTATGATTAAAGATGCTATTACTCCTGATAAATATATGGAGATGAAGAGTAACGAGTTAGCGACACATATAGAAGAAATAATTAAAAAGCAACTAGAAATAAATGCGTTAGGACAAGATAAAGAAAAAGAAGAAAATCAACTGTTATCAGCGGAATAA MIRTIGIYLYASILVLGTFFKLQRAKKLQHELTKEEIFIQPSLVSKKVFQRTGSTIKVEGQEKLPEGPALFVSNHQGLFDILVLLGYLGKPVGFIAKKEIKKLPIISSWMELVHCVFMDRKDRRQSVRAIGQGIEYLKEGHSIVIFPEGTRSRGRQLHSFKPGSFRLAIKANVPIVPVVIDGTYHMLEEQGGKVSSSSVRLMIKDAITPDKYMEMKSNELATHIEEIIKKQLEINALGQDKEKEENQLLSAE PGPT0024380_2008 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655 NA NA AK015_02675 864 hypothetical protein ATGTTTAAGAAAGTAGCTGCAACCGTAGCTTTATCATCAGCCTTATTATTTGGGGGAACTTTTTCAGCCTCAGCAGATACCGTCTCTAAAGAAACTTCACCATATCAGATATACAAAGTCTATTATTCTATAAATGGTAATTGGCAAAGCTTTTCTGAAAATAATATAAATCAATTGCTTCAGAAGTATATGAGTAATATGCAACGTTATGGAAAAAAGATAGATTGGAATAATGTTCATATAGAAAAACAAGAAGCTAACAAGGAAAATGCTGATCAAGCAGCAGATAAGCAAGATAAAAAAGAAGCGAATCAATCAGCGCCAGAACAACCAAAGCAAGTAGAACAGAAACCAAAAGAACAAACACCTGCAGAACAACCTACAGAGAAGCCTGAACAACAAAAACCTGTACAACAAGAAAAACCAAGTAATCAACAAGTGCAAGAGAAAGAGAAGCAAGAGCCTTCTCAAACAGATAAAAGCGAGTTAAGTCAATTTGAGCAGGAAGTTGTTGATTTAACGAATCAAGAAAGAGCAAAACAAGGTTTGCCTGCACTAAAAGTAGATACAGAGCTTAGCAAAGTGGCACGTGCAAAATCTAAAGATATGGCAGCAAATGGATATTTTGCTCATAATAGCCCAACATACGGTTCTCCATTTGATATGATGAAACAATTTGGCATTAGCTACTCAACAGCAGGAGAAAACATTGCAAAAGGGCAGCGTAGCCCGCAAGAAGTAGTCAATGCTTGGATGAATAGTCAAGGGCACCGTGAAAATATTATGAATGCTAAGTTTACGCATATCGGTGTTGGTTATGTAGAGCAAGGCAACCATTGGACACAACAGTTTATTGGTAAATAA MFKKVAATVALSSALLFGGTFSASADTVSKETSPYQIYKVYYSINGNWQSFSENNINQLLQKYMSNMQRYGKKIDWNNVHIEKQEANKENADQAADKQDKKEANQSAPEQPKQVEQKPKEQTPAEQPTEKPEQQKPVQQEKPSNQQVQEKEKQEPSQTDKSELSQFEQEVVDLTNQERAKQGLPALKVDTELSKVARAKSKDMAANGYFAHNSPTYGSPFDMMKQFGISYSTAGENIAKGQRSPQEVVNAWMNSQGHRENIMNAKFTHIGVGYVEQGNHWTQQFIGK NA NA NA NA NA AK015_02676 1008 mreBH COG1077 Cell shape-determining protein MreBH ATGTTTTCTACTGCAGAAGTTGGAATTGATTTAGGAACCGCAAACATATTAATATACACGAAATCAAAAGGAATTGTATTAAATGAACCATCTGTTGTTGCTATTGATGTAAATACAAAACAAGTAGTGGCAGTAGGTACTGAGGCAAAAGAAATGGTCGGAAAAACACCACAGAATATCATTCCTATCCGCCCATTAAAAGACGGTGTGATTGCGGATTATGATGTTACATCCCAAATGTTAAAAGCGTTTTTAAAAAAAGTAAGCAAGCAAATTGGTATGTCCATGCGTAAACCTGTTGTTGTCGTATGTACACCATCAGGAAGCACGACTGTAGAACGAAGAGCTATCCATAATGCAGTATCAAGCTACGGCGCAAAACAAGTTCACTTAATTGAAGAGCCAATCGCCGCTGCTATTGGAGCGGATTTACCTGTTGATGAGCCGGTCGCTAATGTGGTTGTTGACATTGGTGGAGGTACTTCGGAAGTCGGTATTATATCTTTTGGCGGCGTCGTGTCCTGCAATTCCGTTCGGGTTGGCGGAGATAAAATGGATGAAGAAATTATTCATCATATTCGCAAAAACTATAACATTCTTATTGGTGAGCGAACAGCAGAAAATATAAAAATGGAGATAGGTTATGCACATCAAAATCATAAAGAAGAAACGATGGAAATTCGCGGTCGTGATATGGTTACTGGCTTACCAAAGACGATTACCATTACTTCCAAGGAAGTTTATCTTGCTTTAAAAGAATCATTGGAACAAGTATTAGGAGCTATTCGTACAACATTAGAGAACTGCCCTCCTGAGTTAAGTGGTGATATTGTAGATCACGGCATTGTACTTACAGGAGGTGGAGCTTTGCTACAAGGTATGCAGGAGTGGTTATCTCATGAGTTGATTGTTCCTGTTCACCTAGCACCTAATCCTTTGGAGTCTGTTGCAATAGGAACAGGACGCTCTTTAAAAATGATTCATAAATTACAAAAAGCTACTAAATAA MFSTAEVGIDLGTANILIYTKSKGIVLNEPSVVAIDVNTKQVVAVGTEAKEMVGKTPQNIIPIRPLKDGVIADYDVTSQMLKAFLKKVSKQIGMSMRKPVVVVCTPSGSTTVERRAIHNAVSSYGAKQVHLIEEPIAAAIGADLPVDEPVANVVVDIGGGTSEVGIISFGGVVSCNSVRVGGDKMDEEIIHHIRKNYNILIGERTAENIKMEIGYAHQNHKEETMEIRGRDMVTGLPKTITITSKEVYLALKESLEQVLGAIRTTLENCPPELSGDIVDHGIVLTGGGALLQGMQEWLSHELIVPVHLAPNPLESVAIGTGRSLKMIHKLQKATK PGPT0027700_3514 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 AK015_02677 1137 uctC_2 Acetyl-CoA:oxalate CoA-transferase ATGGCAGGAGCTTTAGAACATATTCGTGTTCTAGATTTATCTAGAGTATTGGCAGGGCCATATTGCACCATGATTATGGGCGATTTAGGTGCAGAAATTATTAAAGTGGAAGCGCCTGGTGGAAGTGATGAAACACGCAAATGGGGTCCTCCTTTTCAAGAAGAAGTGAGTGCATATTATTTATGTGCAAATCGTAATAAGAAAAGTATTACTCTCGACCTAAAATCGGCATCGGGTGCGGAAAAAATTAAACAACTGGTTAAAGAGAGCGACGTTATCATTCATAATTTTAAAACAGGTACAATGGAGCGTTTTGGACTAAGTTATCACACATTATCCTCCATTAACCCTAAATTAATTTATTGTTCGATTACTGGTTTTGGGGAAACAGGACCCTTTAAAGATTTGCCTGGTTACGATTTTATTATTCAAGCTATGAGTGGACTGATGAGCATTACTGGCGATGAACAAACAGGACCACAAAAAATGGGAGTTGCGATCACAGATGTTTTAACGGGTATGTATGCAACGATAGGCATACAAGCTGCTTTACTAGAAAGATCTAAATCCAAGCAAGGTCAAAAATTAGATATTGCCTTATATGATGCAGCTGTTAGTGCACTCGTCAATATTGGAAGCAACTATTTCATGTCTGGAGAAATACCCTCACAGCTCGGTAATCAGCATGCGAACATCGTTCCTTATCAGACGTTTCATACAAAAGATGGAGAAATGGTCATAGCCGCTGGAAATGACCGACAGTTTCAGATGTTATGCGATATTCTTGGTGCTGCTTCTTTAAAAACAGATCCTAAATTTAAAACCAACCCTGATCGTGTAGCGAACAGAAACGAATTAGTACCACTACTACAGCAGTTGTTTTTACAACAACCAACGGCTTATTGGCTAAAAGAATGCAGACAGCAATCTATTCCATGTGGTCCTATTCAAAATATGGCTGAGGTAGCAAGAGATTCACAGTTATTAGCTAGAGACATGTTTGTTCAAATGAAGCATCCAACCGCTGGAGAAATTCATTTAATTGGAAGCCCGTTAAAGCTATCGCGTACACCTGTATCGTATCGATATCACCCACCAAATGCGGGGGAACATAATCAAATGATTTTAAATGATTAA MAGALEHIRVLDLSRVLAGPYCTMIMGDLGAEIIKVEAPGGSDETRKWGPPFQEEVSAYYLCANRNKKSITLDLKSASGAEKIKQLVKESDVIIHNFKTGTMERFGLSYHTLSSINPKLIYCSITGFGETGPFKDLPGYDFIIQAMSGLMSITGDEQTGPQKMGVAITDVLTGMYATIGIQAALLERSKSKQGQKLDIALYDAAVSALVNIGSNYFMSGEIPSQLGNQHANIVPYQTFHTKDGEMVIAAGNDRQFQMLCDILGAASLKTDPKFKTNPDRVANRNELVPLLQQLFLQQPTAYWLKECRQQSIPCGPIQNMAEVARDSQLLARDMFVQMKHPTAGEIHLIGSPLKLSRTPVSYRYHPPNAGEHNQMILND PGPT0002130_442 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749 NA NA AK015_02678 1221 acdA_2 COG1960 Acyl-CoA dehydrogenase ATGAAAATGGATTTTCAATTTACGGAAGAACAAAATATGTTACGTAATACGGTACGTCAATTTACAGATAAAGAGATTATGCCTTATATCGCCGATTGGGATCGAAAGGGGAAATTTGACCCAGCTATTTTAGAAAAGCTAGCTGATTTAGGATTAATGGGTGTATGCATACCAGAGAAATATGGTGGTAGTGGAATGGATTATAATGCACTTGCCATTGTTTGTGAAGAATTGGAACGCGGAGATACGGCATTTCGTACAGCTGTTTCTGTCCACACCGGTTTAAATAGCATGACGTTATTACAATGGGCAAATGAAGAGCAAAAACAGAAATACTTAGTCCCTCAAGCAAAAGGAGTAAAAATTGGCGCATTTGGACTAACAGAGCCTGGCGCGGGGTCAGATGTTGCTGCAATGGATTCAACCGCTTATCGCCAAGGCGACTACTATATTTTAAACGGGCAAAAAACGTGGATTTCCTTATGCGATACAGCAGACAACTTTATTGTTTTCGCCTACACAAAAAATCGCTCAAAAAAACATAAAGGGATTTCAGCATTTATTGTAGAAAGAGAATGGGAAGGGTTTTCTTCACAAGCTATTAAAGGCAAACTGGGCATTCGTTCAGGGAATACAGGTGAGATCTTTTTTGACCACGTGAAAGTTCCAAAAGAAAATCTCCTTGGAGAAGAAGGAGAAGGGTTTAAAATTGCAATGTCAGCTTTAGATAACGGTAGATTTACAGTAGCAGCAGGCGCAGTAGGGCAAATTATGGCTTGTTTAGAAGCAAGTGTAGCTTATTGCCATGAACGATCCACCTTTGGTAAAGAAATAGGGAAACACCAGCTCGTACAACAAATGCTCTCCAACATGGAAGCTGGGCTACAAATGAGCCGCCTTCTCGTTTATCGTGCCGGAGAATTAAAAAATGCGGGGAAACGCAATACTCGTGAAACTTCTCTAGCTAAATGGCAAGCTTGTGATTTTGCAAATAAAGCTGCTGATGATGCTGTACAAATTCATGGTGCTTACGGGTTCTCTGATGAATACCCTGTTGAGCGTTATTTACGTAATTCAAAAGCACCAGTCATTTATGAAGGAACGAGAGAAATTCATACAATCATGCAAGCTGAATACGTACTTGGCTACCGTAATGATAAGCCACTTCATAAAATGCTGCCGGCTTGGGAAGAAAATGAAAGTATTTCCATTAAAAAGTGA MKMDFQFTEEQNMLRNTVRQFTDKEIMPYIADWDRKGKFDPAILEKLADLGLMGVCIPEKYGGSGMDYNALAIVCEELERGDTAFRTAVSVHTGLNSMTLLQWANEEQKQKYLVPQAKGVKIGAFGLTEPGAGSDVAAMDSTAYRQGDYYILNGQKTWISLCDTADNFIVFAYTKNRSKKHKGISAFIVEREWEGFSSQAIKGKLGIRSGNTGEIFFDHVKVPKENLLGEEGEGFKIAMSALDNGRFTVAAGAVGQIMACLEASVAYCHERSTFGKEIGKHQLVQQMLSNMEAGLQMSRLLVYRAGELKNAGKRNTRETSLAKWQACDFANKAADDAVQIHGAYGFSDEYPVERYLRNSKAPVIYEGTREIHTIMQAEYVLGYRNDKPLHKMLPAWEENESISIKK PGPT0005290_10 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005290-acd-K16173 NA NA AK015_02679 1449 gabD_2 COG1012 Succinate-semialdehyde dehydrogenase [NADP(+)] GabD ATGTTCAATACCTATACAAAAAGTGTTTTTATTGATGGCGAGTGGCAGGATATAAACGAAAAATTAGCGGAAGTTATTTATAATCCAGCTACTGGAAAAGCAATCACATCGGTTGCTTATGCAGGTGCAGAGGAAACAAAGCAAGCTATTCATGCAGCGTTACAAGCATTCCCTATATGGAGTGAAAAAACGGGAAGAGAACGTGCATCATTTCTTTATAAGGCTTCGCAACTGATGTTAGAAGACGCGGAGCGACTCGGAAACATATTGACAATGGAACAAGGTAAACCACTCCGTGAAGCAGTAGGAGAAGTAAAAGGAGCAGCGCAATTTTTATTATGGTACGCCGAAGAAGCAAGTAGAAATTACGGGGAATGGCTTCCTTCATCGACAAATGCGAAAAGACTCGTTGTCATGTCACAACCAGTTGGCGTGATTGGTGCTATAACCCCGTGGAACTTTCCATCTTCTATGATTACGCGAAAACTTGCACCCGCATTAGCTGCAGGATGTACGGCTGTACTTAAACCTGCACCGGAGACCCCATTATCTGCTATTGAAATTATGAAGATTTTTGAACGTGCGGGCTTACCAAAAGGCGTAGTAAACCTCGTAACAGGAGATGCAGAAGCAATTGGTAAACAATTACTTACACATAAAGAAGTTCGACTACTTACCTTTACAGGTTCAACAGCTGTCGGAAAGCATTTAATGCGGGAAAGTGCTGAGCATGTAAAGAAGCTTTCTTTAGAATTAGGCGGGCATGCACCAAGTATCGTTTTTCCCGATGCCAATTTAGCAAAAGCCGCTTCGCTTGTTTTGGCGAGCAAGTTCCGTAATAACGGGCAAACTTGCATATGTACAAATCGCCTGTTTGTCCATGAATCAGTGGTTGCTGATTTCATCCAGTTATTAAAACAAAAGATTTCCAAATTTCAAATTGGCGATGGTTTAGAAGATGGCACAACTATTGGCCCGTTAATTAATGAACAGGCATGCAAAAAAGTAGAAGGACATGTTCAAAATGCCGTTGAAAAAGGAGCAGTTATCGAATACGGGGGAGAGCGTTGGCATAAACAAGGATTTTCTCATTGTTATTTCAATCCAACCATCCTTTCTAACATAACAGAGGATATGAAGATTATGCATGAAGAAACGTTTGGACCTGTACTGCCAGTTCAACCGTTCTCTGATGAGACAGAAGTAATTACAAAGGCTAACGATACAGACTATGGTTTAGCCGCTTATGTTTTCACAGAAAATACAAGTACGGCTATTCGTGTATCCGAAAAGCTTGATTATGGTATCGTTGGTGTGAATGACGTATTCCCTGCAACACCTGAAGCACCATTTGGAGGTGTGAAACAATCTGGCTTGGGGAAAGAAGGCGGTCATCACGGGATGGAAGAATTTATGGAAAAGAAATTGATTTCTTTTGGTATGAATTAA MFNTYTKSVFIDGEWQDINEKLAEVIYNPATGKAITSVAYAGAEETKQAIHAALQAFPIWSEKTGRERASFLYKASQLMLEDAERLGNILTMEQGKPLREAVGEVKGAAQFLLWYAEEASRNYGEWLPSSTNAKRLVVMSQPVGVIGAITPWNFPSSMITRKLAPALAAGCTAVLKPAPETPLSAIEIMKIFERAGLPKGVVNLVTGDAEAIGKQLLTHKEVRLLTFTGSTAVGKHLMRESAEHVKKLSLELGGHAPSIVFPDANLAKAASLVLASKFRNNGQTCICTNRLFVHESVVADFIQLLKQKISKFQIGDGLEDGTTIGPLINEQACKKVEGHVQNAVEKGAVIEYGGERWHKQGFSHCYFNPTILSNITEDMKIMHEETFGPVLPVQPFSDETEVITKANDTDYGLAAYVFTENTSTAIRVSEKLDYGIVGVNDVFPATPEAPFGGVKQSGLGKEGGHHGMEEFMEKKLISFGMN PGPT0001580_3987 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_TRIGONELLINE_USAGE PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135 NA NA AK015_02680 312 hypothetical protein TTGAATACGGTTTTTATTGCTGGACATGCACGTCTACCTTCAGGAATGGCGGCACAAAGTATGTATGAGACATTAACAATTACTGCTGAAATTGATAGAAAGTATGCAGTAATCGTTACAGCTAGCTGTACACTTGCTACGGAGCATGGTAAAGAATTTGTGCAACATTTGCTTCGTGGCCATAGTTTGCAAGATGGAATTGACAAACCAGTAGAAATGATAAAGGTGCATTATTTAGGAAAAGCTGGGAACGCTCTTGCATCTGCTTTAAAAGATTTATACAAACAATATGAGACTAGAAAACAAGGGTGA MNTVFIAGHARLPSGMAAQSMYETLTITAEIDRKYAVIVTASCTLATEHGKEFVQHLLRGHSLQDGIDKPVEMIKVHYLGKAGNALASALKDLYKQYETRKQG NA NA NA NA NA AK015_02681 750 kipR COG1414 HTH-type transcriptional regulator KipR ATGAATCAAAGTGTCTTGAAAGCATTGACATTAATCGATTTATTTCAAGATGAGAATAATAAGTTATCCCTGAAAGAAATTGCTGAACAAGCTGGGATGTCAAAGCCAACAACATACCGTTTACTTGCAGCTTTAGAACAAAAGGGTTATGTCTCAAGAGGAAAGGGGCGAGAAAGTGGAACATACTGTTTAGGTTTAAAACTGATGGAATTAGGCAATTTAGTTGCTAGCCGAATCGAAATTAGGCAGATAGCCCTGCCCTTTATGCAAGCGTTAGCCAAAGAGATCAATGAAGTGGTGCATCTCGTAATTATGAATCATGATCAGGCTACATATATTGAAAAAGTAGAGAGTAGACGGGCGTTACGGTTGTATACGAAAGTTGGCAAGAGTGTGCCTTTGTATCTTGGTTCTGGTCCTAAATTACTATTCGCTTATTTACCTGAGGCAAAACAACAAGAAATTGTGCAACGATTGGAACTTCCATTAGAGAAAAAAGAAAATGTAATTCAAGAATTACGGGATATTAGAAAAAATGGTTTTGCCTACAGTGTCGGAGAGCAGGATGAAGATACGACAGGTATCTCTTACCCTGTTTTTAATCACCATCATGACATGGTGGCTTCATTGACAATAAGTGGATTATCAACCCGATTTTGCGGAGAAAACTTACAAAAATTAAAGAAAGATACAAAACAGACAGCTAACCGTATATCGGAAAAACTAGGCTATCAGGTGAAGTATGGATAA MNQSVLKALTLIDLFQDENNKLSLKEIAEQAGMSKPTTYRLLAALEQKGYVSRGKGRESGTYCLGLKLMELGNLVASRIEIRQIALPFMQALAKEINEVVHLVIMNHDQATYIEKVESRRALRLYTKVGKSVPLYLGSGPKLLFAYLPEAKQQEIVQRLELPLEKKENVIQELRDIRKNGFAYSVGEQDEDTTGISYPVFNHHHDMVASLTISGLSTRFCGENLQKLKKDTKQTANRISEKLGYQVKYG PGPT0018213_1422 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 AK015_02682 1191 lysDH Lysine 6-dehydrogenase GTGAAAGTAGGTGTTTTAGGAGCTGGACTAATGGGGAAAGAAGCAGCTAGAGATTTAGTTGCAACTGAAGGGGTGACAGCTGTAGGCTTAGCAGATATTGATTTATCAAAGGCGAGTAATATTTGCAATCAACTGTCCTCGAATAAACTGACCCCTTATCAAGTAAACGCAGCAGATGATGTTGAATTAGCGAATTACATTCGAAAATTTGATGTGGTTATAAATGCTTTGTTTTACTCGTTTAATGAAATTGTTGCTAAAACTGCTATTCGTGTGGGCGTGCATGCCGTTGACTTAGGCGGGCATATCGGACATATGACAGATAAAGTCTTAGCACTCCACAAACAAGCTAAGGAAGCAGGTGTTACGTTAATTCCTGATCTAGGCGTGGCTCCCGGTATGATTAATATTCTTTCTGGTTTCGGAGCTAGCAAGCTAGACCAATTAAAAACGATTAAGCTGTATGTAGGTGGTATTCCAGTAAAACCGGAACCACCATTAGAATATAACCATGTATTTTCGATGGAAGGTGTATTTGATCATTATACAGACCCATCACTTATTATTAGAAATGGTGTAAAGCAGGAGGTCCCTTCTTTATCTGAAGTGGAAACCATTCATTTTGATAGATTCGGTCCACTGGAAGCTTTTCATACGTCAGGGGGAACTTCAACATTATCCATTTCTTTTCCACAGTTAGAAACGTTGGAATATAAAACGATACGTTATCCGGGGCACGCAGAAAAGTTTCAATTGCTTGTTGATTTGAATTTAACTAAGGAAAATTATTCTGTTGATGTACATGGTCAAAAAATCTGCCCGCGTGACGTATTGTTAAAAGTTTTAGACCCTATCGTTGACTTAGGTGATAAAGAAGACGCCGTCCTATTGCGAGTACTTGTTGCTGGTAAAAAGGCAGATGTAGAAACGACCTATATCTATGAGATGACAACGTATAAAGATGTGCATACAAATGTTACTGCGATGGCTAGGGCAACAGCAAATACGATTTCGATTGTTGCTCAAATGATTGCGAGCCAAAAGATCGGTAGAAAAGGAGTTTATCCTCCTGAGCAAGTCGTTCCTGGAGATATTTACATGAAAGAAATGGCAAAGCGTGGTGTATCCATTTCTGAACAGCAAGTAACGAAAGAACAGCAGACTGTTTATTCGCACGTAAAGGAGAAATAG MKVGVLGAGLMGKEAARDLVATEGVTAVGLADIDLSKASNICNQLSSNKLTPYQVNAADDVELANYIRKFDVVINALFYSFNEIVAKTAIRVGVHAVDLGGHIGHMTDKVLALHKQAKEAGVTLIPDLGVAPGMINILSGFGASKLDQLKTIKLYVGGIPVKPEPPLEYNHVFSMEGVFDHYTDPSLIIRNGVKQEVPSLSEVETIHFDRFGPLEAFHTSGGTSTLSISFPQLETLEYKTIRYPGHAEKFQLLVDLNLTKENYSVDVHGQKICPRDVLLKVLDPIVDLGDKEDAVLLRVLVAGKKADVETTYIYEMTTYKDVHTNVTAMARATANTISIVAQMIASQKIGRKGVYPPEQVVPGDIYMKEMAKRGVSISEQQVTKEQQTVYSHVKEK PGPT0020910_37 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS PLANT_DERIVED_OPINE_METABOLISM,PGPT0020910-putative_saccharopine_dehydrogenase-K19064 NA NA AK015_02683 1497 gucD COG1012 Alpha-ketoglutaric semialdehyde dehydrogenase ATGACAACCATTTTACAAACAGATAAGCTGAAAAATTTTATTGCAGGGGAGTGGCAGGAAGCAAATCCGACAGTAGCTGTTCATAATCCGGCAACCGGCCAGGAAATTGTGCATGTGCCCTTGTCAGGTAAAACAGAAGTCGACCAAGCAGTGGAAGCAGCAAAGCAAGCGCAAAAAGATTGGTCACTGGTTCCAGCTCCTCAACGGGCAGAAGTTCTTTATCAAGTAGGAATTTTAATGAAAGAGCGAAAAGAAACGCTTTCCCAATTATTAACGATGGAGAACGGAAAGGTGTTAGAAGAAGCGCGAGGGGAGGTGCAAGAGGGAATTGATATGGCCTTTTATATGGCAGGAGAAGGACGCCGGTTATTTGGGCAAACGACGCCTGCAGAATTAAAGGATAAGTTTGCGATGAGCCAGCGTTGCCCTGTTGGTGTAGTGGGAATTATCACCCCATGGAATTTTCCAATAGCAATCGCTACGTGGAAATCATTTCCGGCGATCGTTGCTGGTAATGCGGTCGTTTGGAAACCTGCGACAGAAACGCCAATTATGGCTTATGAATTAGCAAAAATTTTTGCAGAAGCAGGATTGCCAAAAGGAGTACTAAATGTTGTCTTTGGTAGTGGGGCTTCAGTAGGTGATGCGATGGTGCATCATGAAGCTATTCGTGTTATTTCTTTTACGGGTTCCAATAATACTGGTAGAGACATTGCTGCTGCATGTGGACGACAACTGAAGAAGGTGTCGTTAGAAATGGGTGGGAAGAATGCGGTAATCGTAATGGATGATGCTGACTTAGATTTGGCGGCAGAAGGGATCATTTGGAGTGCGTTTGGAACGAGTGGGCAGCGTTGTACAGCGTGTAGCAGAGTAATTGTACATGAAAAGGTAAAGCAACAGCTAGAAGAACGATTGCTTATGAAAGTGGAAGAGTTAACCATCGGAAATGGTCTGGATAAAACGGTGCATGTAGGTCCAATTATTAACCGACAAGGATTGGAGAAAATTAAAAAATATGTTCAACTAGGTAAAGAAGAAGGTGCAACATTACTTGCTGGTGGTGAAGAATGGAGCTCAAAGGACGGCGATTTGGGAGGTTATTTCTTTGCGCCAACGATTTTCACGGATGTGACTGCTTCAATGCGTATTGCTCAAGAAGAAATCTTTGGTCCTGTCGTTTCATTAATTTCTGTAACGGATTTTGATGAAGCAATTGAAGTAAATAATCAAGTAGCATATGGCTTGTCTAGCTCTATTTTCACTAAAGACGTGAACCGTGTATTTCGCGCCCAAAGAGATTTAGATACTGGCATTGTTTATGTCAATGCTGGAACAACAGGCGCAGAAATCCACCTTCCATTTGGGGGGACGAAAGGAACTGGAAATGGCCATCGTGATTCAGGTGTGCAGGCGCTGGATGTATTTACGGAATGGAAAGCGATCTATGTAGATTTTAGTGGGAAATTGCAGCGTGCGCAAATTGATACCGAATAA MTTILQTDKLKNFIAGEWQEANPTVAVHNPATGQEIVHVPLSGKTEVDQAVEAAKQAQKDWSLVPAPQRAEVLYQVGILMKERKETLSQLLTMENGKVLEEARGEVQEGIDMAFYMAGEGRRLFGQTTPAELKDKFAMSQRCPVGVVGIITPWNFPIAIATWKSFPAIVAGNAVVWKPATETPIMAYELAKIFAEAGLPKGVLNVVFGSGASVGDAMVHHEAIRVISFTGSNNTGRDIAAACGRQLKKVSLEMGGKNAVIVMDDADLDLAAEGIIWSAFGTSGQRCTACSRVIVHEKVKQQLEERLLMKVEELTIGNGLDKTVHVGPIINRQGLEKIKKYVQLGKEEGATLLAGGEEWSSKDGDLGGYFFAPTIFTDVTASMRIAQEEIFGPVVSLISVTDFDEAIEVNNQVAYGLSSSIFTKDVNRVFRAQRDLDTGIVYVNAGTTGAEIHLPFGGTKGTGNGHRDSGVQALDVFTEWKAIYVDFSGKLQRAQIDTE PGPT0006875_5971 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128 NA NA AK015_02684 1653 ilvB_2 COG0028 Acetolactate synthase large subunit ATGAAGGAGAGGAAAGAAACTGCTGCACAGGCAATCGTGCACTGTCTACAGCAAACACAAGTAGAAAAAGTTTTTTGTGTACCTGGTGAGAGTTATTTAGCTGTTTTAGACGCGCTCTATGATACACCATCCATAGAAGTGATTTCGGCTCGGCATGAAGGTGGTGCTAGCTTTATGGCAGAAGCTTATGCAAAATCTACTTTAAAGCCCGGTATTGTTATGGCGACAAGAGCAGTTGGGGCGGCTAATTTATCAATTGGCGTGCATACCGCTTATCAAGACTCTACACCATTGGTCGTATTTTTAGGTCAAGTTCATAGTAAATTTCGGGGAAGAGAAGGATTTCAAGAGGTGGATTTGGAGCAATACTTTCAATCTATTGCCAAATGGAGTATAGAATTGACAGATGCGGAGCGAACTGTAGAAATAGTCCAACGTGCATTTCACATCGCTACTTCAGGAAGACCTGGACCTGTTATCGTCTCTTTACCAGAAGATGTATTACCTCAAGAAGTGAATATGCTTTATCCGCCTATGCCACAAAGACCGTCACCAGCTCCTTCTGTATGGGAAGTGAAACAAGTAGAGGAAATACTAACAAATGCAAAACGACCTGTCATCATCGCTGGCGGTGGTGTAAAGAGTGCAAAGGCAGAACAAGATTTACAAACTTTTGCAGAAATGTTGCATTTACCAGTAGTAACTGCGTTTCGTAGGCATGATGTATTTCCAAATGATCATTTACTTTATGCAGGTCATCTTGGATTAGGTACACCCACGTCCATATTAAAAACCGTAAAGCAGGCAGATGTCGTTTTAGCATTAGGTACGAGACTATCAGAAGTGACCACCCAAGATTATTCACTTTTATCTCCAGAACAACAACTCATCCATATTGACATTGATTACAACAGTATTGGCAAAAGCTATGCCCCAAATGTGGCAATTGTAGCGGATATAAAAGAAGCGCTCATGCAATTAAATACGCTAAAATCAACTTCTACAAATTGGGAGAATTGGGCTTTTTCCTGCAATGCTGCTTATATGCAGGCGAGTCGCAAGGAAGAAAGCTCATCTACAAATATAAATAGAAATATTATTGACCATATAAAAACGACATTACCTCATGACGCTATCATTACGAATGATGCTGGTAATTTTGCAAGTTGGATCCACCAATTTTATATGTTTAATCAGTCGCATACGTATGTTGGTCCGACCTCAGGTGCCATGGGATATGGTCTACCAGCGGCTATAGGTGCAAAACTTGCTTACCCTGAGCGAACAGTTATCGCTTTTGCTGGAGACGGCGGTTTTATGATGACTTGTCAAGAATTAGAGACAGCAGTCCGTTATGATATTCCAGTCATATGTCTCGTTTTTAATAATAAGATGTATGGGACGATTCGTATGCACCAAGAAATGCATTATCCGACAAGAGTAGTCGCTACAGATTTAGGAGATGTTCGTTTTAAAGAATTAGCGAACAGTATGGGAGCGGTTGGCTATCGGGTTACAACGATGCAAGAATTTAAGGTTGCGTTTGCAGAAAGTTGTCAAATAAAAAAGCCAACAGTAATTGAAATTATGAGTGACCCTGAGCAAATATCTGTGACAGCAACAATTACAGACATACGTAAAGCGAGAAAATGA MKERKETAAQAIVHCLQQTQVEKVFCVPGESYLAVLDALYDTPSIEVISARHEGGASFMAEAYAKSTLKPGIVMATRAVGAANLSIGVHTAYQDSTPLVVFLGQVHSKFRGREGFQEVDLEQYFQSIAKWSIELTDAERTVEIVQRAFHIATSGRPGPVIVSLPEDVLPQEVNMLYPPMPQRPSPAPSVWEVKQVEEILTNAKRPVIIAGGGVKSAKAEQDLQTFAEMLHLPVVTAFRRHDVFPNDHLLYAGHLGLGTPTSILKTVKQADVVLALGTRLSEVTTQDYSLLSPEQQLIHIDIDYNSIGKSYAPNVAIVADIKEALMQLNTLKSTSTNWENWAFSCNAAYMQASRKEESSSTNINRNIIDHIKTTLPHDAIITNDAGNFASWIHQFYMFNQSHTYVGPTSGAMGYGLPAAIGAKLAYPERTVIAFAGDGGFMMTCQELETAVRYDIPVICLVFNNKMYGTIRMHQEMHYPTRVVATDLGDVRFKELANSMGAVGYRVTTMQEFKVAFAESCQIKKPTVIEIMSDPEQISVTATITDIRKARK PGPT0008185_8841 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 AK015_02685 1170 dapL_2 COG0436 LL-diaminopimelate aminotransferase ATGGTTTTTATATCGGAAAAAGTACAAAATCTTCCTCCATATTTATTTTCGCAATTTCAGCAGCGAAAAAAACAATTGGAGAATAATGGTGTAGATGTCATTGATTTAGGGATTGGCTCTCCTGATTTGCCAACACCAGCATTTATTTGTGAGGAATTACAGGAGCAAGTAAAGTGTCCGGAAAATCATCGTTACTCTCCATATAGTGGATGTGACGAATTTAAGCAGGCAGTAGCTTCTTATTATGATAGACGCTACGCGGTCACCCTTGACCCTAATACCGAAGTACTCGCATTAATTGGTTCTAAAGAAGGGATTGCTAACTTAATTCAAGCGGTTATTAATCCAATGGATAAAGTGCTTGTTCCAGATCCTGGCTATCCAGCTTATCGAAAAGGCGTTCATTTAGCAGGGGGAGTAAGTGTCACGTTGCCACTTGACGCTAAAAAAGGGTACGCACCTATGTTCCAGCATATATCCAAAGATGATGCGGAAGAAGCAAAAATGATGTTTTTAAATTACCCTAACAATCCAACAGCAGCGCATGCAGAATGGCGAACTTTCTTGGAAGCGGTTTCTTTTTGTCGAAAATATAACATTCTACTTGCACATGATGCGGCTTATGATCTTGTAACCTTTGGAAAGTATCGAGCGCCAAGTGCTTTGCAAGTACCTGGCGCTAAAGACAACGTTGTTGAATTAGGTTCCCTATCCAAGAGTTTTAATATGACAGGGTGGAGAATTGGCTATGTTGTCGGAAATAAGGAAGTTATTCATGCGCTTGCTACGCTAAAAGGTAATATAGATACGTGCCAGTTTATGCCCATTCAAAAAGCTGCGGCAAAAGCTTTGACGAGTGATTTAACCGCTGTAGAAAAGAATAACTTGGTATATGAACAGAGAATAGAAAAGCTTTATCTTGCCTTAACTGAATTAGGTTTCCATGCTGAAAAACCAAGAGGGACGTTATACCTTTGGGTAGGAGTACCTAAAGGCGAAAGTTCTCTGTCATTTGCAAATCGAGTTTTGGAAGAAACGGGGATCATTGTAACGCCAGGAACGGCATTCGGAGATAACGGAGAAGGATTTATTCGAATTTCCCTTTCTGTGCATGCAGAACGTTTAGATGAAGTTATTCGCCGTTTAAAGGCTTTAAATAGAAAGAGGTGA MVFISEKVQNLPPYLFSQFQQRKKQLENNGVDVIDLGIGSPDLPTPAFICEELQEQVKCPENHRYSPYSGCDEFKQAVASYYDRRYAVTLDPNTEVLALIGSKEGIANLIQAVINPMDKVLVPDPGYPAYRKGVHLAGGVSVTLPLDAKKGYAPMFQHISKDDAEEAKMMFLNYPNNPTAAHAEWRTFLEAVSFCRKYNILLAHDAAYDLVTFGKYRAPSALQVPGAKDNVVELGSLSKSFNMTGWRIGYVVGNKEVIHALATLKGNIDTCQFMPIQKAAAKALTSDLTAVEKNNLVYEQRIEKLYLALTELGFHAEKPRGTLYLWVGVPKGESSLSFANRVLEETGIIVTPGTAFGDNGEGFIRISLSVHAERLDEVIRRLKALNRKR 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 AK015_02686 1554 hypothetical protein ATGGAAGAGACAATATGGGCATTAATTCCGCCAGTGATGGCAATTATCATGGTTTTGTTGACAAAAAGGGTATTACTGTCTCTAGGTATAGGTATTATTACTGCAGGTTTGTTTTTAGCTGAGTTTCGTTTAGGAAGCACATTACAGTTCATATGGGAAGCGTTTAAAGTGGTGTTTGTTGTAGACGGGGCACTAAATACGTGGAATATTTTTATATTGTTATTTGTGCTTATGCTAGGTATGCTAATAGCTTTAGTTACCATGATGGGAGGAACACGTTCTTTTGCTACATGGATGATTCGTAAGGTTAAAACGAGAGCTGGAGCACAGTTAATGACGGTTTTATTTGGCATCATTATTTTTGTTGATGATTATTTTAACAGCTTAACAGTTGGACAGATTGCGAAGCCTGTCACAGATAAGCAACGCATATCACGTGCGAAGCTTGCTTACCTTGTCGATTCTACTTCTGCTCCAATTAGTGTAGTGGCACCTATATCAAGTTGGGGAGCTTATATTATTGGTATTATAGGTACATTATTAGCGACCCATCATATAACGGAGTACGGTGCTTTCCAAGCATTTTTACAAATGATTCCAATGAACTATTATGTGTGGGCTGCATTAGGCGTCGTCATATGGATAGCAATGAAACAAGTTGACTTTGGGCCTATGAAAGTGCATGAACAGCGGGCAATAAAAACAGGAGAGGTATTAAGTCCAGAGCGAAAAGAGCAAATAGATGTCGATGCAAAACTTTTTGTAAGTGAGCTTAGCCAAAAGCGCGATTTAGTTTTTCCGATGATTACTTTATTTTTGGCCACATTAATTGCTATCTATGTGAATGGTTTACGTAACGTAGAAGGCGAAAAAACATGGATGAATATACTCGGGAGCGCTGATGTATCTTTTGCGTTATTCGTTGGCGGTGTTATCGGTATGGGAATAACCATGATTCTTTTTTATCAACATATTCGCACAGGTAAACTATCCCTTAAAAACTTTATTATAGGAGCTGCTACAGGAGGTAAATCGATGATGCCTGGGTTCAGTATTCTTATTTTTGCTTGGGCTATCGCAACGTTAATTGATCAGCTTGGTACGGGCGTTTATTTAGCTAGTGTTGTCGAAGCTACACATGTAAGTTTTGATTTACTCCCATTTGTTGTATTTTTAATGGCGGGATTTATTGCATTTTCAACAGGTACATCTTGGGGATCATTTGGTATTTTACTGCCAATTGCTGCTGAAATAGCAGTAGCAACTGATGTAACGTTATTTTTACCTATGTTAGCGGCTGTTTTAGCTGGAGCTGTCTTTGGTGATCATTGTTCCCCTATTTCTGATACGACGATTTTGTCGGCAACGGGTTCTAGTTGCCATCATATTGATCATGTTACAACGCAAATCCCTTATGCGCTTGTAGCTGCAGGCATAGCTGGCATTGGGTATATTACCTTTGGATTTACAGGAAATGTCTGGTTAGGTTTAGGCCTAGTTATACTAATCAATTTAAGCTTATTTATCACTGTACGCAGAAATAAAGTGATATAA MEETIWALIPPVMAIIMVLLTKRVLLSLGIGIITAGLFLAEFRLGSTLQFIWEAFKVVFVVDGALNTWNIFILLFVLMLGMLIALVTMMGGTRSFATWMIRKVKTRAGAQLMTVLFGIIIFVDDYFNSLTVGQIAKPVTDKQRISRAKLAYLVDSTSAPISVVAPISSWGAYIIGIIGTLLATHHITEYGAFQAFLQMIPMNYYVWAALGVVIWIAMKQVDFGPMKVHEQRAIKTGEVLSPERKEQIDVDAKLFVSELSQKRDLVFPMITLFLATLIAIYVNGLRNVEGEKTWMNILGSADVSFALFVGGVIGMGITMILFYQHIRTGKLSLKNFIIGAATGGKSMMPGFSILIFAWAIATLIDQLGTGVYLASVVEATHVSFDLLPFVVFLMAGFIAFSTGTSWGSFGILLPIAAEIAVATDVTLFLPMLAAVLAGAVFGDHCSPISDTTILSATGSSCHHIDHVTTQIPYALVAAGIAGIGYITFGFTGNVWLGLGLVILINLSLFITVRRNKVI PGPT0027895_306 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 AK015_02687 1272 kynU Kynureninase TTGAAAACAAATAGTAGTGAGGCAAAGCAATTAGATAAAAATGATACATTAGGCCACTATCGAGAAGAGTTTTACACCTCTTCTGAAAAAATTTATTTGGATGGTAATTCTTTAGGTTTACTATCTACCCGAGCAGAGACGGCACTTCTCCATTTATTAAATTCCTGGAAAGAGCATGGGATCGATGGATGGACGGAAGGAGAATATCCTTGGTTTTATTTATCGGAAAAATTAGGAGCGATGACCGCACCGTTAATAGGAGCCCATGATGAGGAAGTAATGATTACTGGATCAACAACTACGAATTTACATCAGCTTACAGCAAGTTTTTTTCAACCATATGGAAAGCGAACGAAAATCCTTGCTGATACCCTAAATTTCCCATCCGATATTTATGCATTAAAAAGCCAATTACAATTAAAAGGGCTTAATCCAGATGATCATCTCGTTCAAGTAAAAAGTACAGATGGAAACACATTACAAACGTCTGCAATTATTGAAGCAATGACAGAAGATATCGCCTTTATTATCTTGCCTAGTGTTCTATACCGAAGTGGGCAAATTCTTGATATGGAAACGATCACAAAAGAAGCGCATGTAAGAGGCATTAAAGTAGGCTTTGATTTGTGTCATTCGATTGGAGCCATTCCACATAAATTGTCAGCATGGGGCGTTGATTTTGCCTTTTGGTGTACGTATAAGCATTTAAACGGAGGGCCAGGTAGTGTTGGTGGCTTATATGTTAATCGCAAGCATTTCGGAACCGCTCCTGGACTTGCAGGATGGTTTAGTTCCGACAAAGGGAAACAATTTGATATGGAACATAACTTAACACCTGCTACTCATGCCGGTGCATTTCAAATTGGTACACCACATGTGTTAAGTGCCGCCCCATTAATTGGTTCACTGGAAATGATCACAGAAGCAGGCATAGAAGCAATAAGGAAAAAATCACTACAGTTAACAGCCTATTTCATGGATTTAATCGACAAAGAGCTTGCTGGATATGATTTTACAATAGCGAATCCACGTTCAGATTCCCTGCGAGGTGGACATATATATTTAGAACATAAAGAAGCTGCCCGCATATGTAAAGCATTAAAAGCAAATGGCATTATTCCAGACTTCCGCAACCCAAATGGGATTCGGTTAGCCCCCGTAGCTTTGTATAATACATTTTCCGAAGTATGGCAAACCGTACAAATACTTAAAAATATTATGGAAGAAAAAACCTATACAAACTATGAAAATAAACGGGGAGTGATTGCATAG MKTNSSEAKQLDKNDTLGHYREEFYTSSEKIYLDGNSLGLLSTRAETALLHLLNSWKEHGIDGWTEGEYPWFYLSEKLGAMTAPLIGAHDEEVMITGSTTTNLHQLTASFFQPYGKRTKILADTLNFPSDIYALKSQLQLKGLNPDDHLVQVKSTDGNTLQTSAIIEAMTEDIAFIILPSVLYRSGQILDMETITKEAHVRGIKVGFDLCHSIGAIPHKLSAWGVDFAFWCTYKHLNGGPGSVGGLYVNRKHFGTAPGLAGWFSSDKGKQFDMEHNLTPATHAGAFQIGTPHVLSAAPLIGSLEMITEAGIEAIRKKSLQLTAYFMDLIDKELAGYDFTIANPRSDSLRGGHIYLEHKEAARICKALKANGIIPDFRNPNGIRLAPVALYNTFSEVWQTVQILKNIMEEKTYTNYENKRGVIA NA NA NA NA NA AK015_02688 654 kynB COG1878 Kynurenine formamidase ATGGCACAATGGATAGATATTTCCCAACCGCTTTCAACTCAGATTGCTCATTGGCCTGGAGACACGCCTTTTCAATATCAGTTAACTGCTTCTATCGAGGAAACAAATTCTGTAAATATCGGCAATATACAAACGAGCTTGCATATTGGTACACATATTGATGCGCCGTATCACTTTAGCAAAAACGAAAAAACAGTCGACCAACTACCGCTCGAACCATATATTGGCAAGGCGGTAGTTCTCAATGTAAGCCGAACGGATATCATTAACGCTGCAGTTTTATCACAGATGAATTGGTCAAGCGATATCAAGCGCGTTTTATTACACACATCTTTGCCAAATAATCCAACTCGATTTCCTGAAACGTTTCCATATTTAGATCCAGATATTGCCCCCTTCTTGCAAGCGAAAGGTGTTGTTTTATTAGGCGTCGATATGCCTTCTGTCGATGCACCAGATAGTAAAGACTTAGCCACACATCATGCTTTGAACAAACATGGAATACTTATTTTAGAAAATTTGCTGTTGGATACTGTACCAATTGGAGAATACGAACTTATAGCCCTTCCACTAGCTATACAAGGCGCTGATGGTAGCCCTGTCCGAGCAGTCATTCGCCCCATTGAAAAGGAGGAGAAGCTACATGGTAAATAA MAQWIDISQPLSTQIAHWPGDTPFQYQLTASIEETNSVNIGNIQTSLHIGTHIDAPYHFSKNEKTVDQLPLEPYIGKAVVLNVSRTDIINAAVLSQMNWSSDIKRVLLHTSLPNNPTRFPETFPYLDPDIAPFLQAKGVVLLGVDMPSVDAPDSKDLATHHALNKHGILILENLLLDTVPIGEYELIALPLAIQGADGSPVRAVIRPIEKEEKLHGK NA NA NA NA NA AK015_02689 849 kynA COG3483 Tryptophan 2,3-dioxygenase ATGGTAAATAATAAAGAGGATCGCGTTTTTCATGCGGAAGATGGGATTCATACAGATTTCAAAGAGAAAATGACATATGGAGACTACTTACAGTTACAAACATTGTTAGCTAGCCAAAAACGTTTATCTAATCATCATGATGAAATGCTATTTATCATTATTCATCAAGTGAGTGAGCTTTGGCTAAAATTAATTATCCATGAAATCCAAGCAGCGATTACAGCAATTCAAGAAGGGAAATTGCAAGCATCTTTTAAAATGTTAGCACGTGTCTCCAAAACACAATCGCAAATTATTCAAGCTTGGGATGTATTATCTACTTTAACACCTGCAGAATACATGGAATTTAGAGACAGCCTTGGGAATGCATCAGGTTTTCAATCCTACCAATATCGGCTTGTCGAATTTGTACTTGGGTACAAGACCCCCTATATTTTAAAAATATATGAAAAAGACCCAGAGGTTTACCAAGTATTAAGGAATGCGTACTATGCACCTGGTCTTTATGATGTGGCTATTTTAGCTTTGGCAAAACAAGGATTAACAATTAATCCGGACATTTTACAACGAGATTATTCAAAAACATATGAAAAAGAGGCTTCCGTTGAGAAAGCTTGGTTAACCGTCTACCAAAATACCAACCATTATTGGGAATTATACCAGCTTGCGGAAAAACTGGTAGACATTGAAGATTGGTTCCAACAATGGCGATTCAGGCATATGAAAACCGTAGAACGAATTATCGGCTTTAAAACCGGAACAGGTGGTTCATCAGGTGTGCACTATTTAAAAAAAGTACTTGATCACTATTTTTTTCCTGAGTTATGGGAAATACGTAGCAAATTATAA MVNNKEDRVFHAEDGIHTDFKEKMTYGDYLQLQTLLASQKRLSNHHDEMLFIIIHQVSELWLKLIIHEIQAAITAIQEGKLQASFKMLARVSKTQSQIIQAWDVLSTLTPAEYMEFRDSLGNASGFQSYQYRLVEFVLGYKTPYILKIYEKDPEVYQVLRNAYYAPGLYDVAILALAKQGLTINPDILQRDYSKTYEKEASVEKAWLTVYQNTNHYWELYQLAEKLVDIEDWFQQWRFRHMKTVERIIGFKTGTGGSSGVHYLKKVLDHYFFPELWEIRSKL PGPT0020505_1116 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020505-kynA-K00453 NA NA AK015_02690 1347 hypothetical protein ATGCAAAATAAACCAGAACAATGGGCAAGTAAAATTGGATTTATTCTTTCGTCAGCTGGAGCGGCGATTGGACTTGGAGCTATTTGGAAATTCCCATATATGACAGGGGAAAATGGTGGTGGTGCTTTTTTCCTTCTATTTATCGCTTTTACGATTATTATCGGCTTACCTATATTAATAGCTGAATTTATTATTGGCAGAGGTGCACAAAAAGAAGCCATATCAGCATACCAAACGTTAGCTCCCAAACGAGGCTTATGGAAATTTATTGGCCATTGGGGCGTAGCTGGATCATTTCTACTCATGTCTTTTTATAGTGTTGTAGGTGGATGGGTGCTTACGTACAGCTTTTTATCTATTCCAGGAATGATTATTGGCAATGAAACAAATTATGCCGATCTATTCGCCACGATTACTGGTAGTCCTTTTTATACAATTTTAGGCCATTTCCTATTTATTCTAATTAACATTATTGTTGTTTCTTTTGGTGTTAAGGATGGAATTGAAAAGACAAGTAAAGTTTTAATGCCATTATTATTTATTTTTTTCATCATTCTCGTCATTCGTTCCGTCACTTTCGAAGGAGCCATAGAGGGAATTCGTTTCTTTTTACAACCTGATTTTTCTAAATTAAATACAGAAAATGTCCTTTATGCACTGGGGCAATCCTTCTTCTCCCTTGCAGTAGGTGTTTCCGTCATGGTCACTTATAGTTCTTACTTGAAAAAGGATGTTAGTTTGCCAATGTCGGCAGCTTCTGTTTCTATTATGAATATTTTTGTCTCTTTGCTTGCAGGATTAGCTATATTTCCTGTTGTGTTTGCTTTCGGCTTAGAACCTGCTGAGGGGCCAGGGTTATTATTTATTGTTTTACCTGAAGCTTTTGCTCAGATGCCATTTGGAGAGTTGTTTTTAAGTTTATTTCTATTATTATTCTTATTTGCCGTATTAACCTCTTCACTTAGCATGCTCGAAATTATTACTGCTGCCATTACAGCAAAGAAACAACGTTCCCGACGGACCGTAGCTTTTTTGGCAGGTATGCTTGTATTTATTACCGGAATCCCTGCAGCATTGTCTTCTAGCAGTTTATCGGACGTAACTATTTTTGGAAAAACATTTTTCGATGCTTCCGATTTTTTAGTAAGTAATATTATGCTCCCTGGTGGGTGTTTATTTATTTCCTTATTTGTTGGCTTTAAGCTTGAAAAACAGCTAATGAAGCAAGAGTTCGGTTATGGGAATGAACTAGGAGATACGGTATATAAGGCTTGGTATCAATTACTGCGCTGGCTAGCGCCAATAACTATTCTTATCGTATTTTTAGGTTCTCTTGGCTTCATATAG MQNKPEQWASKIGFILSSAGAAIGLGAIWKFPYMTGENGGGAFFLLFIAFTIIIGLPILIAEFIIGRGAQKEAISAYQTLAPKRGLWKFIGHWGVAGSFLLMSFYSVVGGWVLTYSFLSIPGMIIGNETNYADLFATITGSPFYTILGHFLFILINIIVVSFGVKDGIEKTSKVLMPLLFIFFIILVIRSVTFEGAIEGIRFFLQPDFSKLNTENVLYALGQSFFSLAVGVSVMVTYSSYLKKDVSLPMSAASVSIMNIFVSLLAGLAIFPVVFAFGLEPAEGPGLLFIVLPEAFAQMPFGELFLSLFLLLFLFAVLTSSLSMLEIITAAITAKKQRSRRTVAFLAGMLVFITGIPAALSSSSLSDVTIFGKTFFDASDFLVSNIMLPGGCLFISLFVGFKLEKQLMKQEFGYGNELGDTVYKAWYQLLRWLAPITILIVFLGSLGFI PGPT0013950_910 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308 NA NA AK015_02691 1344 cdr_1 Coenzyme A disulfide reductase ATGGCACAGAAAATACTCATTGTAGGTGGAGTTGGGGGAGGCGCTACAGTTGCAGCACAAATTCGTAGAAATAATCAAGATGCTATCATTATGCTGTTTGAAAAAGGAGAATACGTCGCTTTTTCAAATTGTGGCATGCCCTATTATTTAGGGGGTACTGTGCAAGACCGTGATCAGATTTTATTTTCCACAGAGAAATTTACCGAAAAGTATAATGTAAACGTAAAAACCAAGGCTGAGGTAACCGCTATTCAGCGAAACGAGAAAACAGTTACTTACATGGCAGATGGACAAGAAAACACGGAGAACTACGACAAACTTATTTTATCCCCAGGCGCTACCGCAATCATGCCATCTATCCCAGGATTAAATAAAGCACGCACTTTTTCTCTGCACACAATCCCTGATATGGATAAAATCGCGAAGTACATGCAAGAACAGCAACCAAAAACAGCCGCCATCGTTGGAGGAGGTTTTATTGGTTTAGAAATGCTGGAAAATCTTTATGAACAAGGGATAACTTGCACATTAATTGATCGGTCTGACCAAGTAATGAATCCCGTAGATAGCGATATGGCTGCACTTGTCCATTCGTATATAAAAGAAAAAAATATAAACTTAGTCCTTCATGATGGGTTAAAAAAGTTTACGAATGACGGAAGAACTTTACTTTTAGAGAGCGGCAAAACAGTAGAAGCTGATCTGACCATTATGGCGGTAGGAATAAACCCCCATACCCAATTAGCAAGCAATGCGGATTTATCAATTGGCGAAACGGGCGCTATTAAAGTAAATCATTTTATGCAAACGGAAGACCCTTCCATCTATGCACTTGGAGATGCTGTGGAGACAACCGATGAAATTACTGGAGCAGCAAAAATAATTGCTTTAGCCTGGCCAGCCCATCGCCAAGCTTTTATCATTGCTAGCCATTTAAACAATGAATATATTCCCTATCAAGGGGCCATTGGCTCAAGTATATTACGGCTGTTTGATATGACCATTGGAGCCACCGGTGCTAACAGTGACAGTTTAACAGCTAGAGGCATTTTATTTAAAGAAGCAACATTAGAAACCTTATCGAATGCTAGTTATTTTCCTTCTGCAGACAAACTTTGGATCAAAGTTTTATTTGATGCTAAAGATGGGCAGATTTACGGTGGACAAGTAGTTGGCTATGCAGGTGCTGATAAACGGTTGGCCATTTTATCAACTGCTATTAAAGGAAAGCTTACTGTTTTTGATTTGCAAGAAATAGAGCTTGCCTATGCACCGCCTTATTCCAGTCCAAAAGATCCCGTGAATATCCTTGGATACAAAGCAGCATCTATGTTAAAGACATAG MAQKILIVGGVGGGATVAAQIRRNNQDAIIMLFEKGEYVAFSNCGMPYYLGGTVQDRDQILFSTEKFTEKYNVNVKTKAEVTAIQRNEKTVTYMADGQENTENYDKLILSPGATAIMPSIPGLNKARTFSLHTIPDMDKIAKYMQEQQPKTAAIVGGGFIGLEMLENLYEQGITCTLIDRSDQVMNPVDSDMAALVHSYIKEKNINLVLHDGLKKFTNDGRTLLLESGKTVEADLTIMAVGINPHTQLASNADLSIGETGAIKVNHFMQTEDPSIYALGDAVETTDEITGAAKIIALAWPAHRQAFIIASHLNNEYIPYQGAIGSSILRLFDMTIGATGANSDSLTARGILFKEATLETLSNASYFPSADKLWIKVLFDAKDGQIYGGQVVGYAGADKRLAILSTAIKGKLTVFDLQEIELAYAPPYSSPKDPVNILGYKAASMLKT NA NA NA NA NA AK015_02692 1092 gldA Glycerol dehydrogenase ATGTCAGAAATTATTTTTATTTCACCAAGCAAGTATATTCAAGGAAAAGATGCTTTAAAGAGTCTAGGGAAACATGTCAAGCCAATTGGTAAAAAGCCATTAATTTTGTCTGATGATGTGGTATGGGAGATTACAAAAGAAACCATTGAAGCAAGTATGAAAGAAGAAAATGTAGCTTATCATTATGTACCATTTAATGGTGAGGCTTCCATAGCTGAAATTGATAGAGTTGTAAAGGAAGGTAAAGAAGCAAGTGTTGATACGGTAATAGGTGTAGGCGGAGGAAAGACGCTCGATACCGCAAAAGCAATTGCTGACGGATTGGAAGTAAGCGTTATTATCGTTCCAACAACTGCGTCCACTGATGCGCCTACAAGTGCGTTATCTGTTATTTATAGCGATGAAGGTGTTTTTGAGTCGTATAAATTTTATGATAAAAACCCAGATCTTGTGTTAGTTGATACAGCTGTTGTCGCTAAAGCGCCTGCAAGGCTCTTTGCTTCAGGAATTGCTGACGCAATGGCGACATGGGTTGAGGTAAGAGCTACATTGAAGAGTAATGGAGAAGCTATGGCAGGTGGAAAACCAAGTATTGCTGCCAAAGCGATTGCGAAAGAATGTGAACATACACTATTTGCATATGGCGAAGCTGCATTTCATGCAGTGAAGAAAGGTATTGTAACCAAACATGTAGAAGCTGTAGTTGAAGCAAATACATTGTTATCTGGTCTAGGGTTTGAAAGTGGTGGTCTAGCAGGTGCGCACGCTATCCATAATGGTTTTACAGTTCTAGAGGGAGATATTCATCATTTAACACATGGTGAAAAGGTCGCTTACGGTACATTAGTACAGCTTGTTTTAGAATTGCATCCAAAAGATGAGTTACAAAAATACATCGACTTTTATAAGAAATTAAGCTTGCCAACGACTTTAAAAGAGATGCATTTGGATAATACTTCTTATGAAGATTTACTCCGAGTTGGTAAGGCTGCTACACAGGAAGGCGAAACGATGAGCAATTTATCCAATGAAGTTACTGCAGATGATGTGGCCAATGCCATTCTTGCGGTAGACCAATTAAGCAATGCGTAA MSEIIFISPSKYIQGKDALKSLGKHVKPIGKKPLILSDDVVWEITKETIEASMKEENVAYHYVPFNGEASIAEIDRVVKEGKEASVDTVIGVGGGKTLDTAKAIADGLEVSVIIVPTTASTDAPTSALSVIYSDEGVFESYKFYDKNPDLVLVDTAVVAKAPARLFASGIADAMATWVEVRATLKSNGEAMAGGKPSIAAKAIAKECEHTLFAYGEAAFHAVKKGIVTKHVEAVVEANTLLSGLGFESGGLAGAHAIHNGFTVLEGDIHHLTHGEKVAYGTLVQLVLELHPKDELQKYIDFYKKLSLPTTLKEMHLDNTSYEDLLRVGKAATQEGETMSNLSNEVTADDVANAILAVDQLSNA PGPT0008270_743 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005 NA NA AK015_02693 672 hypothetical protein ATGAAGCTTTTTCAAGTGAGGAAAGGGCAGTTTGTTTTTTATCGAAATGAATTGCACCAAGTGTATTCAGTAAAACCGATGTTTAAGAAATCTGTACATTTATATCGTTTAAAGGATATGCAACAGATATTGACGAAAGCAAGTGAAATTGAATTATGTCGTCCACAACATAATGATACATTTATTTTTTATGGGAAACGATATACCATTGATAAATATAAACGACCAGAGCCAGGTGATTATATTCTAATCATTAAGCCAGCGCCAGATTTTCTTGACCACTATTCACTGAATGCGATTGAAAAAGTTGATAGTGTAGAAGATGGGAATGTGGTTACTACTAGAGATAATGGTGTAAAGCATAGCGAATATGTTGTGATGGTTCCAGGGAAAGCAGAAGCTAGTCGAGAAATTGCATATTATGATAAAAGTTTGGTCCCTGAGGAGCAGCAAATTCAAGATGAATCGATCAGCTACTTGGCGGAAAGTGATACGAATCTTAAACCTGCTGTTGGGGATATTTATATTGATGTACATCAAGAAACAAAGGCAATGATTGTTGCGATGACCGAAGATGAAGTCGTATTTGGTCACGGGGTTCGCATACATGTATCTGATTTGTTAAATGAAGAGAAGTATAAATTAGTTTATCGGTTTGAAGAGGATTTATAA MKLFQVRKGQFVFYRNELHQVYSVKPMFKKSVHLYRLKDMQQILTKASEIELCRPQHNDTFIFYGKRYTIDKYKRPEPGDYILIIKPAPDFLDHYSLNAIEKVDSVEDGNVVTTRDNGVKHSEYVVMVPGKAEASREIAYYDKSLVPEEQQIQDESISYLAESDTNLKPAVGDIYIDVHQETKAMIVAMTEDEVVFGHGVRIHVSDLLNEEKYKLVYRFEEDL NA NA NA NA NA AK015_02694 1047 hypothetical protein ATGCAAACCATCTATAGTGATGTTAAACAATTTCGGGGCAGTCATTATGATTATGGCTATCAACAAGGATTAAATCTAAAGCAGACATATATATTGCAAAATAGGAAAAAACAATGGAATATCCGGCAACCACGATTTGAAATTCATGAAGCTGAAGTAAAGCAAATAATCCAACCAATTGCACCTGGCATTTGGGATGAATTATGTGGGTTAATGGATGTACTTCAATGGCAGATGGTCGATATACTAAAAGAATTTGGTGGTTACCGATTGGAATATAAAAAAAGCGGCTGTTCCATTTTTACTAGTTCTGAATACATGATCCGCAACTACGATTATCATCCAAAGACATATGAAGGTCGCTATACGGTTTTTCAGCCTAGCGATCAAGGTTATGCAACGATTGCTCCATCTCAACGCATCACTGGTAGGATGGATGGAATGAATGAACACGGATTAGCAATTGGCTATAATTTTATTCATCGACGTCGTCCCCAAGATGGATTTATTTGTAATATGATTGCAAGAATCGTCCTAGAGAATTGTAAAAATGCACAAGAAGCAATAGCTTTATTACAGGAAATTCCCCATCGACATTCGTTTAGTTATGTTTTATTGGATAAAAATGGGGAAAGCTATGTTGTAGAAGCGTCACCACGGTCTGTAAATATTCGTACAGATCAAGTTTGTACCAATCACTTTGAGAATCTGGTTGAAGAGAATCGTCATCATTTAAAAGACTCAAAACGAAGGCAACAAATCATTAAGGAGCAAACGAACGATACAACCAATGCTTATGAAGCTTTTAAACTGATGAATGATTCTAAACGTGGGGTTTTTTCGACGAAATATAAGCAATGGGCTGGAACGATTCATACATCAGGTTATTTTCCTAAGCAGTTAAAAGCATGGTTCGCCTTGGGAGGCGATAGAGACCCGGTTATTTTTGATTTCAAAAAGTGGTTAAGTGGAAAAAACTTTACTATTAAACAGGTGATTGGTAAAGTAGATACTTCATTACCGTTTATTCATATGGAAAGAATATGA MQTIYSDVKQFRGSHYDYGYQQGLNLKQTYILQNRKKQWNIRQPRFEIHEAEVKQIIQPIAPGIWDELCGLMDVLQWQMVDILKEFGGYRLEYKKSGCSIFTSSEYMIRNYDYHPKTYEGRYTVFQPSDQGYATIAPSQRITGRMDGMNEHGLAIGYNFIHRRRPQDGFICNMIARIVLENCKNAQEAIALLQEIPHRHSFSYVLLDKNGESYVVEASPRSVNIRTDQVCTNHFENLVEENRHHLKDSKRRQQIIKEQTNDTTNAYEAFKLMNDSKRGVFSTKYKQWAGTIHTSGYFPKQLKAWFALGGDRDPVIFDFKKWLSGKNFTIKQVIGKVDTSLPFIHMERI NA NA NA NA NA AK015_02695 1728 hypothetical protein ATGATAGGAATGCTAACAACAACGATACTTTCATTTATTTTGTATGCTCTTATCGCTATATTTTTTATTGTACAAAATAAAAAATACCGCATGACAACACTAAAAGCAGTTGGTCTTGTTTTTGCGACCTTATTCATACTCAGTGTGATTATCATATACATAGTCATGCCACCAATTACGATACCGAACATGACGATAGCAAATTTAATTGTCGGGACTGTAGGAATGGTTAGCTTATATGCACTAACAAAAAGTAAACCATTCACGAAATCAACCAAGCATTTTGATGCTATTACAGGGGCACTTATTCTGCTTGCCATTATTACTATTCCCGGTTTCATCATTTTAGGAATCTTTACGTTAGATGATGCACATCAGTCCATAACCAAAGAAGAAATAGACGAAGCAAAACCATTAGATCAAGATGCAACACCAATTGTTGTATCACCAGAATTCGCAAGAAATAAAGTACAAAAGGCAATGAGCGTAGTACCAAATACACAGTTTTATGATCTAGGTAAATTACAAGTACAAAAGATCGGTGACGAGATTGTTTTTGTAGCCCCTGTAGAGTTTACTGGGTTTTGGAAATACTTTCGCGGTAAAGAAACAGAAGGATATTTCACCATCTCAGCTACAGATGTAAACGCGCAGCCAAAATTTGTTAAGAGCAAGATGAAATATACCAATTCAAGTTACTTTAACCATCAAATATCACGAACCATTTACAATGCGCATCCTGATTATATCCAAAGCGGAGAGGCGCAAATTGAAGTCGATGAAGAAGGAAAACCTTGGTATGTACAGACACTGTATAAACCGATTGGATTAACGAATAAACCTAATTTGCAAAAATTACATGTAGCTGTTGTTGATCCAGTATCCAGTGATGTAAAGCTGTATAAATCAGAAGAAGCACCTTCATTTATTGAAGGCCCTATTAGCTCTGAGATGGCTTCGGAGGAAAATGAATACTTCGGAAAATATGTGCATGGATGGCTCAATTCTATCTTTGGCAAAAAAGATGTTAAAATACCGAACGAATCTGGGACTGAAGCAAGTGTTACACCAATCTTTGACGAGAATGGGGAAATGCATTACTTTACTGATATGTCCTCTCCAAAGGAAAACATTGACTCTGCTCTAGGTTATACACTAATAAACGCTAGAACAGGTGAATTAACATATTTTAACGGAGAAAAAAATAACGGCATTATGGATAGTAAAGGTGCAAAAGAGATTGTCAACAAAGAATTTCCAGAGAAAAAATGGACTGGATCCATGCCAGTTCTTTATAATATCGATGGAAACCCTACATGGGTCGTGAATGTTCTCGATCCAAATGGACTCTTTAAACATTATGCTTATATTAAAGCAGCCGATTCCGATTTCGTCGTCTTTGGAGATACTGCTAGAGGCACACTAGAATCTTATCGCCTTGCTTTGGCACAAGATCCAAGTAATGTGGAATCAACGGGAGATGCAAACTTAGAAAAGCGTGACGGCGAAGTAGAACGTGTACTAGTTACAACACAAGATAAAAAGCAAGTTGTACAATTTTTACTTCAAGATGACCCTATTATCTACACGGTGAACTCCGGAAAAGCTCCAAGAGCCATATTCTTGCAGCAAGGAGACAAAGTAGAATTAGAAGCTAATATTAGAGACAACCAAACAGCTATTGTAGAAACGATCGCAATTGAAGGGTTGGCCAACACTAAACAGTAA MIGMLTTTILSFILYALIAIFFIVQNKKYRMTTLKAVGLVFATLFILSVIIIYIVMPPITIPNMTIANLIVGTVGMVSLYALTKSKPFTKSTKHFDAITGALILLAIITIPGFIILGIFTLDDAHQSITKEEIDEAKPLDQDATPIVVSPEFARNKVQKAMSVVPNTQFYDLGKLQVQKIGDEIVFVAPVEFTGFWKYFRGKETEGYFTISATDVNAQPKFVKSKMKYTNSSYFNHQISRTIYNAHPDYIQSGEAQIEVDEEGKPWYVQTLYKPIGLTNKPNLQKLHVAVVDPVSSDVKLYKSEEAPSFIEGPISSEMASEENEYFGKYVHGWLNSIFGKKDVKIPNESGTEASVTPIFDENGEMHYFTDMSSPKENIDSALGYTLINARTGELTYFNGEKNNGIMDSKGAKEIVNKEFPEKKWTGSMPVLYNIDGNPTWVVNVLDPNGLFKHYAYIKAADSDFVVFGDTARGTLESYRLALAQDPSNVESTGDANLEKRDGEVERVLVTTQDKKQVVQFLLQDDPIIYTVNSGKAPRAIFLQQGDKVELEANIRDNQTAIVETIAIEGLANTKQ NA NA NA NA NA AK015_02696 585 hypothetical protein ATGAACGAGCAAGAAATGATGAATAAAATATTTCATTTAAAAGATGAGTTGGATTATTACAGGCAGCAATTTTGGGAGCTAACGTCAAGTATCGATACATGGCATTTTTGGTTTAATTGGATAAGTGTTCTGATTCCACTTGTTCTCTTGTACTTTTTTATGGATCGAAAAAGCGTTTTTGAATTAGGTTTTTTTGGGTTTGCTATTCATGTGATGTGGACAAATATAGATACGGTGTTATCCATGAAGAATGTATTAATTACCCCACATAATATTTTTTATTTATTTCCAACAAGCTTAACAATTACAACGGTTGTATTGCCGGTAGGTTTTATGTTTATATATCAATATTGCGAAAACAAAGGGAAAAATTACTATATCGCAGCAATTATTATGTCATCCTTTTTCGGATATTTGTTAGCACCTACTTTTGAAGCTATAGGAATGTTGGAGTTAAGAGCAGGTATGCGATTTACTTACATTTTTTTAATTGACATTGCCGTTGCTTATTTGGCTTATTGGTTAACGAAAGGATTCTGGTTATTAAAACGGCAGGGAGGTAAATCATCAAAACAAGCAGGCTAA MNEQEMMNKIFHLKDELDYYRQQFWELTSSIDTWHFWFNWISVLIPLVLLYFFMDRKSVFELGFFGFAIHVMWTNIDTVLSMKNVLITPHNIFYLFPTSLTITTVVLPVGFMFIYQYCENKGKNYYIAAIIMSSFFGYLLAPTFEAIGMLELRAGMRFTYIFLIDIAVAYLAYWLTKGFWLLKRQGGKSSKQAG NA NA NA NA NA AK015_02697 564 hypothetical protein TTGAGTGCTGAAACATTATATCTGCAAATATATAACTTGAAAGAAAAACTGGGTAAGTTAGAATCAGAGTACTGGCAACTTACCTCTAATGTTGAAACATGGTACTTTTGGTTTAATATTTCGTTTTTCTTTATCCCGCTGTTCATTTTATACAAATTTATTGATCGAGAGAGAATATTTGAAATATCATTTTATGGATATTCTGTTCATATGATTAGTTCCAAAGTGAATGGTGCGTTAGAGGCGAATAATTTGCTTGTTCATCCTCATGATTTAACATCTTTATTTCCTAGTGGCATGACAGTAACAGCGGTCATTTTACCAGTAGCTTATATGCTATTGTATCAATATTGTATCAATCAGAATAAAAATTTTTATGTCTACACGCTATTATTATCTATTTTAATTTCCTACGGTCTTGATTATATATTTATTCTGATTGATTATTTAAAGCTTAACAAAGGGATGAATTTAACCTATTTATTGTTATTAAATTTTGTGGCGGCATGTCTGTCCTACTGGTTGACCGTTTTGTTTAAGTGGATCAAGGTACATAGAAAGTAG MSAETLYLQIYNLKEKLGKLESEYWQLTSNVETWYFWFNISFFFIPLFILYKFIDRERIFEISFYGYSVHMISSKVNGALEANNLLVHPHDLTSLFPSGMTVTAVILPVAYMLLYQYCINQNKNFYVYTLLLSILISYGLDYIFILIDYLKLNKGMNLTYLLLLNFVAACLSYWLTVLFKWIKVHRK NA NA NA NA NA AK015_02698 1875 uup COG0488 ABC transporter ATP-binding protein uup ATGCTATCAATAGAAAATGTTTCCAAATCGTATGGCGATAAAACACTGTTTCATGCAGTTACCTGTCATATTACTAGTGGTGAGCGAATTGGGTTAATTGGCGTCAACGGTACAGGAAAGTCTACCTTTTTAAAAGTTATTGCTCGCATCGAACCAGCCGATCAAGGAGAAATTCATCATGCAAATGATTATCGTATTCAATATTTATCTCAAGACCCGTCATTAGATCCAAACTTAACTGTAATGGAACAAATCTATTATGGGGACGCGGCTATCATGAAGGTGATGCGTAATTACGAGGAAGCGCTGCTTCAGTTACAGCAAAACCCTGAAAGTGAAAAGGTGCAAAACAATTTACTAGCTGCACAGCAAGAAATGGATCGCTTGGGAGCTTGGGAAGCTAATACGACAGCGAAGACCATTTTAACAAAGTTGGGAATTATAGATTTCGATAAGCTAACAGCGACACTATCAGGAGGGCAAAAAAAGCGAGTAGCTCTTGCAAATGCATTAATTCAGCCCGCTGATCTACTTATTTTAGATGAGCCGACGAATCATTTGGATCATGCGGCTATTGAATGGTTGGAGAAATATTTACAGACGTATCCCGGATCGCTGTTGCTAGTAACCCACGATCGTTACTTTTTAAATCGAGTTACCAACCGAATTTTTGAATTGGATCGTGGTAATTTATACACATATGAAGGGAATTATGAACTGTTCTTAGAAAAGAAAGCAGAACGCGAGGAACAGGAAAAAAGTGAAGAAATAAAACATCAAAATACGCTGCGACGGGAATTAGCTTGGTTGAGAAGCGGTGTAAAGGCACGTTCTACAAAACAAAAAGCAAGAATTGATCGTGTGCAAGCTATGAAGGGAAAGACGTTTAATACGAAACAGGAAAAACTTGAAGTTCCTGTTGGTTCGTCAAGGCTCGGAAAAAAAGTTATCGAATTAAAACAAGTGCATAAATCATTTGGGAATAAGGAAATTCTATCTAATGTAAAAGAACTGTTAATACCTGGTGACCGTGTAGGTATTGTAGGACCTAATGGATCTGGAAAGACTACTTTTCTTCATATTATGGCACAACGGCTAATACCTGATGCTGGTGAAGTGATCGTTGGAGATACAGTAAAAATTGGTTACTATACGCAAGGGGAAGAAGAGTTAGACGGGGAACAGCGTATTATTGATTATATTAAAGAGATAGCGGACGTCATTTACACAAAAGATGGTTCTGTGATTACAGCTGAGCAAATGCTGGAACATTTTTTATTCTCGCGGAAACAGCAATGGACGTATATTCGAAAATTATCGGGCGGAGAAAAGCGCAGGCTATATTTACTGAAAGTGTTAATGCAAGAGCCTAATGTGTTGTTTCTGGATGAACCAACAAATGACCTAGATACGCAAACGTTAAGCGTGCTAGAAGAGTACTTGGATCGTTTCCCAGGAGTTGTCGTCACTGTTTCTCATGATCGTTATTTCTTAGATCGAGTTGTCGACAGATTAATTATTTTTGATGGCAAAGGGAATATTACTTCTTATCATAGTAATTATAGTGATTTTTTAGCGCAACAAGAGAAAGCCGAAATAGCAACGAAAGCGGAAAAGAAGACCAAGATCGTAAAGCAATCACCAAGCCTACAAAAGAAAAAGCTGTCCTATATGGATAAGAAAGAATGGGACGAAATCGAGGATGTTATAGCTTCGTTGGAAGAAAAGCTAGAAACGATTAAAAATGATATTGTGGAGGCGGGAAGCGATTCAGAAAAAGTGCAGAAACTATACGAAGAGCAGATGAGCGTAGAACAAGCTCTAAATAAAAAAATGGACAGATGGGAAGAACTATCTTTGCTTATAGAAGAATAG MLSIENVSKSYGDKTLFHAVTCHITSGERIGLIGVNGTGKSTFLKVIARIEPADQGEIHHANDYRIQYLSQDPSLDPNLTVMEQIYYGDAAIMKVMRNYEEALLQLQQNPESEKVQNNLLAAQQEMDRLGAWEANTTAKTILTKLGIIDFDKLTATLSGGQKKRVALANALIQPADLLILDEPTNHLDHAAIEWLEKYLQTYPGSLLLVTHDRYFLNRVTNRIFELDRGNLYTYEGNYELFLEKKAEREEQEKSEEIKHQNTLRRELAWLRSGVKARSTKQKARIDRVQAMKGKTFNTKQEKLEVPVGSSRLGKKVIELKQVHKSFGNKEILSNVKELLIPGDRVGIVGPNGSGKTTFLHIMAQRLIPDAGEVIVGDTVKIGYYTQGEEELDGEQRIIDYIKEIADVIYTKDGSVITAEQMLEHFLFSRKQQWTYIRKLSGGEKRRLYLLKVLMQEPNVLFLDEPTNDLDTQTLSVLEEYLDRFPGVVVTVSHDRYFLDRVVDRLIIFDGKGNITSYHSNYSDFLAQQEKAEIATKAEKKTKIVKQSPSLQKKKLSYMDKKEWDEIEDVIASLEEKLETIKNDIVEAGSDSEKVQKLYEEQMSVEQALNKKMDRWEELSLLIEE NA NA NA NA NA AK015_02699 180 hypothetical protein TTGAAGCTTATATTAGCACAATTACTACTCATCGGTGTTGTCTGGACTGGTATGGCTTTTTTCTTTTCGGAAATGACAGAGCCAGCTAAGATTATTTTTTATTTAGTGACTTCATGGATGTTATTATTAATCGTACTTATTGCAAAAATATGGTGGAAAAACAGAAAGAATGAAGGATGA MKLILAQLLLIGVVWTGMAFFFSEMTEPAKIIFYLVTSWMLLLIVLIAKIWWKNRKNEG NA NA NA NA NA AK015_02700 465 ribH 6,7-dimethyl-8-ribityllumazine synthase TTGAGTAACGTAATACAAGGTGATTTAGTCGGAACAGACCTGCGGATTGGCATTGTAGTTGGTAGATTTAATGATTTTATTACTACAAAATTAGTAGAAGGGGCACAAAACACATTAATGCGTCACGGTGTAATCGCTGATCATATTACAGTTGCTTGGGTACCTGGAGCATATGAGATTCCATTAGTTGCAAAGAAGATGGCAATGAAAGATGCGTATGATGCGATTATTACGCTTGGGGCGGTGATTCGCGGTGCTACGCCACATTTTGATTATGTTTGTAATGAAGTGGCAAAAGGTGTATCGCAAGCATCGCTACAAGCGGATAAACCAGTTATCTTTGGGGTTTTAACAACGGAAACTATTGAGCAGGCAGTTGAAAGGGCAGGAACAAAAGCTGGAAATAAAGGTTCTGAGGCAGCCGTTGCTGCGATTGAAATGGCTAATTTGCTTAAGAGCCTGTAA MSNVIQGDLVGTDLRIGIVVGRFNDFITTKLVEGAQNTLMRHGVIADHITVAWVPGAYEIPLVAKKMAMKDAYDAIITLGAVIRGATPHFDYVCNEVAKGVSQASLQADKPVIFGVLTTETIEQAVERAGTKAGNKGSEAAVAAIEMANLLKSL PGPT0008605_3677 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 AK015_02701 624 ribBA COG0108 Riboflavin biosynthesis protein RibBA ATGGACACGATAGTAGAAGCGATAGAGGACTTAAAAGCAGGAAAGCCGGTGATTGTGATAGATGATGAAAACCGGGAAAATGAAGGGGATTTTGTTGCTATATCTGAATACATTACGCCAGATGCCATTAATTTTATGATAACACATGGTAAGGGATTAGTATGCACAGCGGTAGATTGTAAAATAGCAAAACGGCTTGGATTAACATTAATGCCAACAACACATACAGACCCATTTGCAACTGCATTTACCATTAGTGTCGATCATAAGAAAACAACAACAGGTATTAGTGCATTTGACCGTGCGACAACCATTCGTGCGCTTGCGAACCCTTTCTCTGAAAAAGATGATTTTCATCAGCCTGGGCATGTGTTTCCGTTAATTGCTAAAGATGGTGGTGTGTTTGTACGTCAAGGACATACAGAAGCTGCAGTAGATTTAGCAAAATTATGTGGAGCTACGGCTTCAGGGACCATATGTGAAATCATCCATAGCGATGGCTCGATGGCAAGGCTGTCGGATTTAGAGAAAATGGCTGAACAATTTAATGTAAGAATCATTTCTGTACAGCAATTAGTAACATATAAAATAACACAAAATGAGGAGTGTGGCGTCATTGAGTAA MDTIVEAIEDLKAGKPVIVIDDENRENEGDFVAISEYITPDAINFMITHGKGLVCTAVDCKIAKRLGLTLMPTTHTDPFATAFTISVDHKKTTTGISAFDRATTIRALANPFSEKDDFHQPGHVFPLIAKDGGVFVRQGHTEAAVDLAKLCGATASGTICEIIHSDGSMARLSDLEKMAEQFNVRIISVQQLVTYKITQNEECGVIE PGPT0007990_4636 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 AK015_02702 600 ribE COG0307 Riboflavin synthase TTGTTTACTGGAATTATTGAAGAAAAAGGGGAAATCATTTCCATGAAACATACTTCTAAGCACGCAATCGAATTAGCAGTGAAAGGTTTTAAAGTGTTACGTGATGTCCAACTAGGGGACAGTGTAGCTATTAACGGTATCTGCCTAACGGTAACTTCTTTCGATAAGCACAGTTTTGCAGTTGACGTTATGCCGGAAACGTTTAAAACAACTTCCTTACGATCATTAAAAGTAGGTTCTGCTGTGAACTTAGAACGTGCGATGGCAGCTAACAGTAGGTTTGGGGGACATTTTGTTTCTGGGCATGTGGATGGATTAGGAACCATTATTCGAAAGCAATATGAAGAAAACGCTATTTATTATGATATTAAAATCTCAGCAGATTTAGCAAAGTATGTTATTTCTAAAGGATCAGTTGCTGTGGATGGTGTTAGCCTCACTATATTTAAGGTAAAGAACAATATATTTACGATATCGCTTATTCCACATACAGCTTCGGTAACGATAGTAGGGAAAAAGAATATAGGTGATATTGTGAATATAGAATGCGACATGCTCATGAAGCATGTAGAACATTTATTGGCGTTTTCAAGAAAATAG MFTGIIEEKGEIISMKHTSKHAIELAVKGFKVLRDVQLGDSVAINGICLTVTSFDKHSFAVDVMPETFKTTSLRSLKVGSAVNLERAMAANSRFGGHFVSGHVDGLGTIIRKQYEENAIYYDIKISADLAKYVISKGSVAVDGVSLTIFKVKNNIFTISLIPHTASVTIVGKKNIGDIVNIECDMLMKHVEHLLAFSRK PGPT0008610_4163 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 AK015_02704 420 hypothetical protein ATGTCAAAATTTGAAGAGAATGTAATGAAGCTATTAGGTGAAATAAACAGTCGGCTTGATAAAATGGATGAGAAGTTCGCAGGTATAGACAGTCAATTTGATAAAGTAAATGAGAAGTTCGCAGGTATAGACAGTCAATTTGATAAAGTAAATGAGAAGTTCGCAGGTATAGATAGTCGATTTGATAAAGTGGATGAGAAGTTTGTTGAAATGAACGATAGATTTGAAAAGCTGGAAACAGATATAGAAGAAATAAAAGCGGAGAATCAGTTCATTAAACGTGCTGTATTAGAAACTAATGATGGCGTTAAAACTATTTCGGAAGATCAAAAGTCCATTCATGAAATATTAGGTGAGCATGACGTTTCGATTAGAACGTTACGAAGAAAATCTGCTTTAATTGAGGAATACGAATTGTAA MSKFEENVMKLLGEINSRLDKMDEKFAGIDSQFDKVNEKFAGIDSQFDKVNEKFAGIDSRFDKVDEKFVEMNDRFEKLETDIEEIKAENQFIKRAVLETNDGVKTISEDQKSIHEILGEHDVSIRTLRRKSALIEEYEL NA NA NA NA NA AK015_02705 1305 hemAT COG0840 Heme-based aerotactic transducer HemAT ATGATTTTTAAAAAACAGAAAGAGGCTTCTTTTTTTCGAAAAAGTGCAGGGAAGAATACGGAGATAAGCTTGAAGGTAGAGAATGGTAATGATGTTGCTAAGCAAATTCAAATGATTGGGCTAACTATATCTGATCTATCCATCATTCGTCAATTAAAGCCTTATGTAATACAAAATAGCCATGAGATTGTTGAGCGTTTTTATGATAATTTAGCTACGGAACCATCTTTAATGCAAATTATTAATAAACACAGCTCCATTGAAAAGTTAAAACAAACGTTAAAGCGACATATATGTGAAATGTTTGATGGTGTCATAAATCCTGCTTATTTTGAAAAGCGAGTAAGAATTGCTAACATGCATGTAAATATAGGACTTGATACAAAATGGTATATGAGTGCCTTTCAGGATTTGTTTTTATCGCTAATGGATATCATTGAGCAAAATATAGAAACGAAAAATGAATCGCTTTTGGCTATACGTGCAGTATCAAAAATAATTAATTTAGAACAGCAACTTGTGCTAGAAGCCTATGATCAAAAGACGAACCAATTAAAACGGGAAGCAAATTTACAAAAACAACAAATTCGGGAGCGAGTAGCAGAATCTACGGAAAGCTTAGCAGCTATTTCTGAAGAAACGAATGCTTCCTTTCAGCAGTTGCAATCGCAATCAAAAGAAGTGATAGCGATTGCCAATAATGGCACATCATTATCGGAGGATGCTTACAGTAGAGCAAAAAAAGGAAAAGAACAATTAAATAAGCAGGATGAAAACATGAAAGCTCTATATAATTCGGTAGAGCATCTAGGAAATGATGTGCACCATTTATTAGATGTTTCTAAAAAGATGCAGTCCATTGTAAATATTGTTAAAGAAGTTGCTGAACAAACGAATTTACTTGCCTTAAATGCTTCTATAGAAGCAGCAAGAGCGGGTGAATACGGCCGAGGGTTCGCAGTAGTGGCTGAAGAAGTTCGCAATTTATCTGAACAAACGAAAGAATCGGTAACGAATGTATCCTCACTCATTGGGAATATGAATACGCAAGTGGATAAGATTACAAGCTCCTTAAGTGCAGTAGGAACAAAAATTAAACAAGGAAACGATGGGTTGCAAGAAACAGAGCAGCATTTTTCACAAATAATGGAAGCCATGCATGAAACAAAAAATCAAAATAATAAGATTGATCGTGAAATTGTATCTTTTATAGATATTATTACAGAATTAAGTAAAGCAGTTGACGAAGTAGCAGCTTCTGCAGATCATTTAACAACCATTACATATGAAATGAACGAAAGTTAA MIFKKQKEASFFRKSAGKNTEISLKVENGNDVAKQIQMIGLTISDLSIIRQLKPYVIQNSHEIVERFYDNLATEPSLMQIINKHSSIEKLKQTLKRHICEMFDGVINPAYFEKRVRIANMHVNIGLDTKWYMSAFQDLFLSLMDIIEQNIETKNESLLAIRAVSKIINLEQQLVLEAYDQKTNQLKREANLQKQQIRERVAESTESLAAISEETNASFQQLQSQSKEVIAIANNGTSLSEDAYSRAKKGKEQLNKQDENMKALYNSVEHLGNDVHHLLDVSKKMQSIVNIVKEVAEQTNLLALNASIEAARAGEYGRGFAVVAEEVRNLSEQTKESVTNVSSLIGNMNTQVDKITSSLSAVGTKIKQGNDGLQETEQHFSQIMEAMHETKNQNNKIDREIVSFIDIITELSKAVDEVAASADHLTTITYEMNES PGPT0015705_152 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015705-hemAT-K06595 NA NA AK015_02706 594 rsbX Phosphoserine phosphatase RsbX ATGGGACAAGTAAAGGTGTCTGTATTTCAACAAGCGAAAACAGGCAATTACTACTGTGGTGATAGTTTTTTTTATGAAGAGACAAACCGTGAATTTGTTTGCGCTATTGCGGATGGGTTAGGCAGTGGAGAAATAGCAAAGGAATCATCTCAAGTTGTTATTGATATTATTCAAAATAATATTCATGCAAGTATTGAATCCATTATTAAAGAATGTAATCAACAATTGCAAGGAAAGCGCGGTGTAGTCATTGGCATTCTCAAACTGGATTTTCAAGCAGAGATGTATTCTTTTTCTTCTATTGGCAATATTGGTGTGTTAACAATAACTGACCATCAGCATAAAAAGCGTAATATACCCAATGCTGGCTATTTAGCTGGTTTCCATCGTCCGTTTAAAATTGTCCGGGAAAAACTCCTACCAGATATGGTGTTTATTATGTTTTCGGATGGAGTGACTGATCGCGATTTATCGCAAAAATATTTGCTGACGAAAAATGTCCAAGAAATTACCGAGACATTTAAATGTTTAGCTAGTGAAAATAGAAGTGATGATACAACATTAATAGCGATGCACTATAGAGGAACTGATTGA MGQVKVSVFQQAKTGNYYCGDSFFYEETNREFVCAIADGLGSGEIAKESSQVVIDIIQNNIHASIESIIKECNQQLQGKRGVVIGILKLDFQAEMYSFSSIGNIGVLTITDHQHKKRNIPNAGYLAGFHRPFKIVREKLLPDMVFIMFSDGVTDRDLSQKYLLTKNVQEITETFKCLASENRSDDTTLIAMHYRGTD PGPT0014955_151 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014955-rsbX-K05518 NA NA AK015_02707 792 sigB COG1191 RNA polymerase sigma-B factor ATGACGACCAAATCTCAACCACACAATAGCGGAAGAGATGAGGTTTACCAGTTAATTGAATCATTACAAAAAGAGCCTACGGATGAGTATTTACAGGAACAGCTTGTACTTAAATATAAGGATCTCGTGGAGTCTGTTGCACGTAAATATTCCAAAAATAGCGCCATTCATGAGGATCTTGTTCAAGTAGGTATGATCGGTTTGCTTGCTGCAGTACGTCGATATGATTCAACATTCGGTAAATCTTTTGAATCTTTTGCGATACCTACCATTATTGGGGAAATTAAGCGATTTATAAGAGACAAAACATGGAGTGTACACGTGCCTAGGCGGATTAAAGAATTAGGCCCTAAAATAAAAAAAGCTGTTGATACGTTAACAATGGAAAATCAATCTTCCCCTTCCATAAAGGAAATAGCTGACTTTCTACAAGTCTCTGAGGAAGATATTTTGGAAACAATGGAAATGGGAAAAAGCTATAAAGCTCTATCTGTAGACAGAAAGGTAGAAGCTGATTCAGACGGAAGCACAGTTGCTATATTAGATTTGGTTGGAAACGAGGAAGCTGGCTACGAACAGACGGACCAGAGGATGTTATTGGAGAAGATGCTTCCCATCTTGTCAGAACGTGAGCAAAAAATCTTACAATACACGTATTTCGAAAATAAGAGTCAAAAAGAAACTGGTGAATTGTTAGGTATATCGCAAATGCATGTTTCAAGGCTGCAGAGACGTTCGTTACGCAAATTACGAGAAGCTATTCAATCCGAGGATACGGAGGTCTTTGATTAA MTTKSQPHNSGRDEVYQLIESLQKEPTDEYLQEQLVLKYKDLVESVARKYSKNSAIHEDLVQVGMIGLLAAVRRYDSTFGKSFESFAIPTIIGEIKRFIRDKTWSVHVPRRIKELGPKIKKAVDTLTMENQSSPSIKEIADFLQVSEEDILETMEMGKSYKALSVDRKVEADSDGSTVAILDLVGNEEAGYEQTDQRMLLEKMLPILSEREQKILQYTYFENKSQKETGELLGISQMHVSRLQRRSLRKLREAIQSEDTEVFD PGPT0015025_1128 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS OTHER_MOTILITY_REGULATING_FUNCTIONS OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090 NA NA AK015_02708 483 rsbW COG2172 Serine-protein kinase RsbW ATGAAGAATTTCGATTTTATTGAATTGAAAGTGCCGGCTAAAGCAGAGTATGTAGGTGTAGTGAGGCTAAGTATGTCAGGAATTGCTAATCGGATGGGATTTAGTTATGAAGATATTGAAGATTTGAAAATAGCTATATCGGAAGCCATTACAAATACGGTAACTCATGCCTATAACGAAGAAGATGAAGGTGAGGTAACCATTGGTTTTGGTGTATATGAAGATCGATTAGAAGTGATGGTTGCTGATCATGGCGGTAGTTTCGACTTAAATGAAGTAAAAGACGACATCGGGCCATATAAAGAGAACGAATCAATTGAAGAATTGAGAGAAGGGGGTTTTGGTCTGTTTTTAATTAATGCATTAATGGATAAAGTTCAAATCAATAATGAATATGGAGTCATTGTTTTAATGACAAAGTATATTCATGAATATGAAGCTGAGGTGGGCTTAGATGACGACCAAATCTCAACCACACAATAG MKNFDFIELKVPAKAEYVGVVRLSMSGIANRMGFSYEDIEDLKIAISEAITNTVTHAYNEEDEGEVTIGFGVYEDRLEVMVADHGGSFDLNEVKDDIGPYKENESIEELREGGFGLFLINALMDKVQINNEYGVIVLMTKYIHEYEAEVGLDDDQISTTQ PGPT0014950_369 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757 NA NA AK015_02709 336 rsbV COG1366 Anti-sigma-B factor antagonist ATGAACTTAACAATTAACGTGGTGAACGAACAACCAAGTAAATCTATTGTTTACTTAGCTGGCGAGATTGACGCTTATACTGCTCCAGATTTAAAAGAAGCTTTAATACCGCTTATGAGGCAAGAGGAACAAGTTGTTGAAGTAGATTTAGCGGAAGTGAACTATATGGACAGTACTGGTTTAGGAACTTTTATTAGTGCGTTAAAATCATCGAAAGAGTATAATAGCAAGCTTACATTGGTGAACATCCAAGACCGTGTACTACGGTTGTTTCAAATTACCGGATTAGACGAAATCATGGATATACGTGCTTCGATTCGAGGTGGAAGTGAATAA MNLTINVVNEQPSKSIVYLAGEIDAYTAPDLKEALIPLMRQEEQVVEVDLAEVNYMDSTGLGTFISALKSSKEYNSKLTLVNIQDRVLRLFQITGLDEIMDIRASIRGGSE PGPT0014350_2109 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749 NA NA AK015_02710 1014 rsbU COG2208 Phosphoserine phosphatase RsbU ATGAGCAGTTTATTGAAATTAGACACAGAAGGATATAAAGCGTTAATGAAACGATATATTGAAACGAGAGATGAACAATCTTTATATGATATTGAGCAGGCGAGTAAGCTGTTTATTAAAAATAATATTCTTCCTGATGAAATTGTTAACATGCATATTCAGTCTCTCCAAGATTTGTATCCTAATTTAAGTGAAGACATTCAATATTCGATGAGTTTTTTGTTAGAGGCAATGATTGCATATGGGATTGCCCATCAAGAATACCAGCAGCTTAGGGAAAAGCAATCTGAGTTGAAGTCAGAAATATCAGTTGCAGCGAGCATGCAAGAAACCCTTTTAGAAACAAAAAAACCAACGATTGAAGGTTTGGATATCGGGGTTATTAGTGTCCCAGCACATCAAATGAATGGTGATTATCATCATTTTGTAAAAGGAAGAGATGGATCTTTAGGGATTGCTATAGCAGATGTAATCGGTAAAGGAATCCCGGCTGCTCTTTGTATGTCGATGATTAAGTATGCAATGGACAGTTATCCTGAGGATGCGATGACACCTAAAGCTATATTGGCGAATATGAACCGAGTGGTAGAAAGAAATGTAGATCCGAGTATGTTTATTACCATGTTTTATGCGCAATACCTTCCTTCTGATCATGCACTTCGTTACGCTTCAGCAGGGCATGAACCAGGGTTTTATTATAATTCCAGCCAAGACACCTTTGAAGAATTAACCACAAAAGGTCTGGTTCTAGGTGTTACACCAGACACTACTTATCCACAGTATGAATTAAAAATTGAGCCTAATGATATGGTTATTCTTTTAACCGACGGTGTAACGGAATGCAGAGATGGCGAACGCTTTATTGAGCGTCAAGAAGTACTGGACGTTATTAAGCAATATGCCCATTTACCAGTACAAAAGATCGTTGATCAAACGTTTAAATATTTTGAGCGATTACAGGATTTTGAACTAAGAGATGATTTCACATTACTTATTTTACGTAGGGAAGTTTAG MSSLLKLDTEGYKALMKRYIETRDEQSLYDIEQASKLFIKNNILPDEIVNMHIQSLQDLYPNLSEDIQYSMSFLLEAMIAYGIAHQEYQQLREKQSELKSEISVAASMQETLLETKKPTIEGLDIGVISVPAHQMNGDYHHFVKGRDGSLGIAIADVIGKGIPAALCMSMIKYAMDSYPEDAMTPKAILANMNRVVERNVDPSMFITMFYAQYLPSDHALRYASAGHEPGFYYNSSQDTFEELTTKGLVLGVTPDTTYPQYELKIEPNDMVILLTDGVTECRDGERFIERQEVLDVIKQYAHLPVQKIVDQTFKYFERLQDFELRDDFTLLILRREV NA NA NA NA NA AK015_02711 402 rsbT COG2172 Serine/threonine-protein kinase RsbT ATGAAGCCTCAATCTTGCGTGAATATAAAAAAAGAATGGGATATAGTGGCAGCAAGACAGTTAGGTAGAGATATTGCAAGGAAGATTGGCTTTGGCACTGTGGATCAAGCTCGTATAGCTACAACGATATCGGAATTATCCAGAAATATTTATTTGTATGCTGATCATGGACAAATCTGTTTTGAGGTAATTGATACATTTGATAATAAAGGGTTATGCATTATTGCTATTGATGTTGGTCCAGGTATTGAAGATATTGGACAGGTATTAGAAGATGGCTATTCTACGTCTGGAGGACTCGGAGCTGGTTTGCCTGGTGTCAAGAGGTTAATGGATGAGTTTGATATTCATTCGGAAGTTGGCAAAGGAACACGAATTAAGACGATTAAATGGCTAAGGTAA MKPQSCVNIKKEWDIVAARQLGRDIARKIGFGTVDQARIATTISELSRNIYLYADHGQICFEVIDTFDNKGLCIIAIDVGPGIEDIGQVLEDGYSTSGGLGAGLPGVKRLMDEFDIHSEVGKGTRIKTIKWLR NA NA NA NA NA AK015_02712 357 rsbS COG1366 RsbT antagonist protein RsbS GTGCGGATTCCTATTTTGAAACTTCACAACTATTTACTTATCTCCATACAAACAGAAATTGATGACCAAACAGCCATCCAATTTCAGGAGGATTTATTAGATAAAATTCATAAAAATGGTTCGACAGGAGTCGTTATTGATTTAACTTCTGTCGATATTATTGATTCATTTATTGCTAAAGTTTTAGGTGATGTCGTAACAATGTCAGATTTAATGGGGGCAAAGGTAGTTTTAACAGGGATTCAACCAGCTGTAGCGGTGACATTAATTGATCTAGGTATCCACCTGAAGAATGTACCTACGGCATTAAATTTAGAACAAGGCCTTATTAAACTCTACCAGGAATTGGGGGAATAG MRIPILKLHNYLLISIQTEIDDQTAIQFQEDLLDKIHKNGSTGVVIDLTSVDIIDSFIAKVLGDVVTMSDLMGAKVVLTGIQPAVAVTLIDLGIHLKNVPTALNLEQGLIKLYQELGE NA NA NA NA NA AK015_02713 870 rsbRA COG1366 RsbT co-antagonist protein RsbRA ATGGATGAGAAGTTAAAAAATATGGCTATTGAAAACAGCGATTCGATTGTGCAACTTTGGATGGAAGAAATCAATTCCTTAAAGTTAGATAATTATACAGCAAGTATTTCTGATGAACTCTTTGAAAGTACGAATCGGCAATTCGTTAATGTTATCTTTCAAAGTATAAAAGATGGAGGTTCATCAAAAGCGGTTAAAGATTTTTCGGAAAGAATTATTAACCTTGGATGGCCTTTGGGGTATATTACCGATGGCTTACAGGTGTTTCGAAGAGTTACGGTAGATTACATTTTAAGCAAATATGAACAACTTAACTTTGAATTTATTTCCAATGTGCTAAAAAGTGTGGATGCTTGGGTAGAGCCTATTATCCGTCAACTTGTAAATGAGTATTCAGGAAGCTGGGAAAACACCGTTTCCTTACAACGAGTCGCTTTACAAGAATTATCTGCTCCATTAATACCTGTTATGGACGGAATTACGATTATGCCATTAATTGGAACAGTTGATACAGATCGTGCGAAATTAATCATGGAAAATCTATTAGACGGTGCGATTAAACATAACTCAGAAGTTGTTTTAATTGACATTACAGGTGTTCCTGTCGTCGATACGATGGTTGCTCATCATATTATCCAAGCAGCAGAAGCCGTCCGTTTGATTGGCGCAACATGTATTCTTGTAGGCATTAGACCAGAAATTGCCCAAACGATTGTTAATCTAGGCATTGATTTAAGTAAGTTCCCTACAAAGAGTTCCTTGAAGAAAGGGTTTCGTACAGCATTGGAAATTACAGACCGCCAAGTTGTTGATTTGGAAAATAGGGCGGATAGCATAGAACATATGATTCAATCGTTAAAAGGGGAGTGA MDEKLKNMAIENSDSIVQLWMEEINSLKLDNYTASISDELFESTNRQFVNVIFQSIKDGGSSKAVKDFSERIINLGWPLGYITDGLQVFRRVTVDYILSKYEQLNFEFISNVLKSVDAWVEPIIRQLVNEYSGSWENTVSLQRVALQELSAPLIPVMDGITIMPLIGTVDTDRAKLIMENLLDGAIKHNSEVVLIDITGVPVVDTMVAHHIIQAAEAVRLIGATCILVGIRPEIAQTIVNLGIDLSKFPTKSSLKKGFRTALEITDRQVVDLENRADSIEHMIQSLKGE PGPT0014945_573 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763 NA NA AK015_02714 339 ndoA COG2337 Endoribonuclease EndoA GTGTATTTCGCTGACCTTTCCCCTGTTGTTGGATCAGAGCAGGGAGGCGTCCGCCCGGTATTGATCCTGCAAAATGATATCGGGAATCGTTTCAGTCCTACCGTTATTGTGGCTGCAATTACAGCACAAATTCAAAAAGCTAAACTCCCTACACATGTGGAGATTGATGCAAAACAATATGGGTTTGACCGTGATTCCGTTATTTTGCTAGAGCAGATACGAACACTTGATAAACAAAGGCTAACAGATAAAATTACAAAGTTAGATAAAGAAAAGATGAAAATGATTAACCAAGCATTAGAAATCAGTTTAGGGCTGAAGGATATGTATGATCAATAA MYFADLSPVVGSEQGGVRPVLILQNDIGNRFSPTVIVAAITAQIQKAKLPTHVEIDAKQYGFDRDSVILLEQIRTLDKQRLTDKITKLDKEKMKMINQALEISLGLKDMYDQ PGPT0027390_731 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 AK015_02715 291 ndoAI COG0864 Antitoxin EndoAI ATGGTTTTGTCAGAAAGCTTGCAAGAAGTATTAGTGAAAATACCAAAAAACCTGTTAAATGAGGTGGATGGTCTGATGAAATATGAGAATAGTGATTTAAGTGATTTCATATGTCAGGCAACTAGAAACTATCTTCAGCATAAAAGAGATGAGCATTTTCAACAATTTCGCGAAACCATGGAAAAGGGCTATGCAGAAATGGGTCGCATTAATTTGACAATTGCTTCTGAAGCTTTTCAAGCGGAAGAAGAAGCAAAAATCACCTTGGAACGCTCTGTGATCGGGGTGTAA MVLSESLQEVLVKIPKNLLNEVDGLMKYENSDLSDFICQATRNYLQHKRDEHFQQFRETMEKGYAEMGRINLTIASEAFQAEEEAKITLERSVIGV PGPT0027400_67 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 AK015_02716 1119 alr Alanine racemase TTGGACATACATCGAAATACATGGATAGAAATAGATTTGGATGCAATTGCATATAATATAAAACAAATACAGAAAAAACTACCAAAAGAAACAAAGGTAATGGCTGTAGTAAAAGCGAATGGGTATGGACATGGAAGCGTACAAATTGCTAAGCAAGCGTTGCAAGCAGGGTCAGATTATTTAGCTGTAGCACTATTAGAAGAAGCGATCAAGTTACGTGAAGCATCAATAAAAGCACCGATTCTCGTATTAGGTTGGGTTCCACCTGAATCAGCAATCGTTGCAGCAAGGTATGGGATTACACTAACCGTTTTTCAACAGGAGTGGTTAGAACAAATAAAAGGCTATACATTCTCTCCTCCTCTGCATTTGCATTTAAAAGTGGATACTGGAATGGGGCGAATAGGAATAAGAACAGAGCAAGAATTGAAAGACATTTCACAAGCATTAAATGAAAATAACAGCATATATTTAACTGGGGTGTTTACACACTTTTCTACAGCTGATGAATCAGAGTCAACGTATTTTGATGAGCAACGAACGCGCTTCAAAAATACCCTTTCGCAACTGAAAGAACTACGGATGGAGAAAATTAACGTTCACATTGGTAACAGTGCTAGTGCTATACGACTTCCAGAAGCCATGTATGATTTTGTTCGTTTTGGAATTTCCATGTATGGGTTATATCCTTCACAAGAAATAAAAGTAAAGGGGGAGATAGAATTAAAGCAAGCTTTTTCTTTGCATAGTAGGCTTGTTCATGTCAAAAAAATAAACCCAGGCGACTGTGTTAGCTATGGGTGTACGTATCAGGCAGAAGCAGAAGAGTGGATTGGTACGCTTCCTATTGGATATGGAGACGGTTGGCTAAGAAAGATGCAAGGTTTTTCCGTTCTTGTAGATGGAAAGCGAATGCCTATTGTTGGGAGAATTTGTATGGACCAAACGATGATCAAATTAGATCAAGCCTATCCAATAGGGACGAAGGTGACGCTGATTGGTTGTCAAAATGATGCATGTATTTCCATGGATGAAGTGTCTAATTATGCTGAGACCATTAATTATGAGATTCCTTGTATATTGAATGATCGTATTCCTCGTATTTACAAAGAACAATGA MDIHRNTWIEIDLDAIAYNIKQIQKKLPKETKVMAVVKANGYGHGSVQIAKQALQAGSDYLAVALLEEAIKLREASIKAPILVLGWVPPESAIVAARYGITLTVFQQEWLEQIKGYTFSPPLHLHLKVDTGMGRIGIRTEQELKDISQALNENNSIYLTGVFTHFSTADESESTYFDEQRTRFKNTLSQLKELRMEKINVHIGNSASAIRLPEAMYDFVRFGISMYGLYPSQEIKVKGEIELKQAFSLHSRLVHVKKINPGDCVSYGCTYQAEAEEWIGTLPIGYGDGWLRKMQGFSVLVDGKRMPIVGRICMDQTMIKLDQAYPIGTKVTLIGCQNDACISMDEVSNYAETINYEIPCILNDRIPRIYKEQ PGPT0020040_2824 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775 NA NA AK015_02717 1011 ydcC COG2834 Sporulation protein YdcC ATGAAGATGAAAATTATTGGGGTGCTCTTGTTTGCCGGCCTCATAATCGTATTAGCTGCTTGTGGTGAAAAATCCCAAGAAGATGTTGTAGCCGATTTGCAAGAAAAGGCTGAGAAGATGGACGGGTATAAAGCAAAAGCGGAAATGAATATGAATACAGGTAAGGAACAGCAAACGTTTCAAATTGATATTTGGCATAAAAAAGAAGATATGTATCGTGTCGGATTATCCAACAAGTCTGATGAAAAGGGCAATCAAATCATTTTAAAAAATGAAGATGGGGTTTTTGTACTCACCCCAGCTTTAAATAAGAGTTTTAAATTTCAGTCCGAATGGCCACAAAATAGCAGCCAGCCTTATTTATATCAATCATTGGTTCAGGATATTGAAAAAGATAAGGAAGCGGAATTTGAAATCACTGATGCCCATTACGTGTTTAAGACAAAAACAAATTATCAGAGCAATAACAATTTACCGTATCAAGAAATTTATTTAGATAAAAAATCGTTGCAACCTGTACAAGTAAAGGTGTTGGATAAAGATAAAAATGCATTAGTTGAAGTTAGCTTTTCCAACTTTGATAGTAAAGCAAGCTTCCAAGAAGATGATTTTTCTATGAAGAAGAATATGGGTGGGGAAGAAGCAAAAGAAACCGCCGCTGTAAATGAAGAAGAAGCATTAACGGTGTTTTATCCATCTTACATGGCAGGAGCGGAACTAAAGGAAAAAAAAGAAACATCTACCGATACAGGTGAGCGGGTCATCTTAACCTTTGAAGGGGAAAAGAATTTCACCTTGGTGCAAGAAAAAGCAAATGCGCAAACAACCATGGCTAACCCAAAGGAAGCAGAAGGAGAGATTGTGAATTTAGGTTTTACGGTTGGAGCTATGACGGATAATTCCATTGAGTGGACGCATAATGGCGTTGATTTTATGTTGGCTAGTGAAGAGTTAACAAAGGAGGAACTTATTGAAGTTGCAAAATCTGTCCAAAGTAAAGAAGTGAAGTGA MKMKIIGVLLFAGLIIVLAACGEKSQEDVVADLQEKAEKMDGYKAKAEMNMNTGKEQQTFQIDIWHKKEDMYRVGLSNKSDEKGNQIILKNEDGVFVLTPALNKSFKFQSEWPQNSSQPYLYQSLVQDIEKDKEAEFEITDAHYVFKTKTNYQSNNNLPYQEIYLDKKSLQPVQVKVLDKDKNALVEVSFSNFDSKASFQEDDFSMKKNMGGEEAKETAAVNEEEALTVFYPSYMAGAELKEKKETSTDTGERVILTFEGEKNFTLVQEKANAQTTMANPKEAEGEIVNLGFTVGAMTDNSIEWTHNGVDFMLASEELTKEELIEVAKSVQSKEVK NA NA NA NA NA AK015_02718 1521 nnr COG0062 Bifunctional NAD(P)H-hydrate repair enzyme Nnr TTGTTTATTGTCACCGCGAAAGAAATGTACGATATGGATCGTTTAGCTATGCAGGAAATTGGTTTAGAAGGAAAATTGCTGATGGAAAATGCCGGACGAGCTTTTGCCTTTAAAGTAATGGAGCAAATTTCGGTAAAAGAAAAAATTTGTATCATGGCAGGAGCAGGTAATAATGGTGGGGACGGTTTTGTCATTGCACGTACGTTACTCGACGAAGGCTACCAAGTCGAAGTATTTCAAGTAGTTGCAAATGAAAAAATTACTGGTGATGCGTATGATCATAAGGTGATTTATGAAAAGTGTGGAGGGAATGTTACTCACTACAATGGGGAATCTATCCAGATGTTGAAAGAGGTGGATGTTCTTATTGATGCCATGATTGGTATTGGGATGAAAGGGGAGGTGCGTGAACCGTTTGCTACTCTTATTTCTCTTATTAATGAACAAGAAACCTATGTCATTTCTGTAGATATTCCTTCTGGCGTCCCTGCGGATGAAGGCGAGAATTCTATTTACGCTGTACAAGCTGATTACACGGTTATCATTGGCGCCCCGAAGGAAAGCGCCTTTCTCCCAAATACTGCTCCGTTCTACGGAGAATGGGACGTTGTCTCTATCGGTCTGCCGACATTTATGTTCCATCGACTTACAAACAAAACAGTGTGGCAGCTAGAAAATGTGGAAAAGACGTTACCAAAGCGCGAATTATTTGACCACAAAGGCAATCATGGAAAAGGTCTGATTATCGGTGGGTGTAAGGAAATGCCAGGTGCCTTATCGATGTCAGTACAAGCCGCATTAAAATCAGGAGCCGGTTTAATAACGGGTGCTAGTTCTTCACCCGTGATTCAAATGATTGCTGGAAACAGTGTGGAAGCTATGTATATACCTTTAATGGATACAGATGGCTATCTTAATAATCATTCAGAAGTCTCATTTGCCATATATGATGCCGCAGCAATCGGTATGGGATTAGGGAGGAAAAAAATAACACAGGATTTTGTCGCCCATGTTATGGATACAGCGACTTGCCCTATTATTATTGATGGGGACGGACTTTACCATTTGTCACATTTATTGCCTGATCTAAATGCCAGAGCTTATTCAACCGTTATTACCCCACACCCTGGAGAAATGGCTATGCTATTGGGGGTCACAATTCGTGAAGTATTACAAAAGCCATTTCAATATGCCAAAGATTTTGCGCAAACATATAGTGTGTATGTTGTTTTAAAAGGAAGATATACCATTATTACCGCTCCAGATGGTGTGCAAAGGCTAAACCCAACAGGTAATGCAGGCCTTAGCAAAGGCGGTAGTGGCGATGTGTTAACAGGGATAATGTTAGCAATGGTGATGCAAAAGCAAAGTTTGTTAGATGCTTTATGCAATGCTTGTTTCATTCATGGTATGTCAGCAGATTTACTTGTCCAAGATCAGCATTCTGAACATGATTTGCTTGCTAGTGATGTAATCAATGGAATAACACGTGTATATCGTGCGATTTTAAGTAGTGGTTGA MFIVTAKEMYDMDRLAMQEIGLEGKLLMENAGRAFAFKVMEQISVKEKICIMAGAGNNGGDGFVIARTLLDEGYQVEVFQVVANEKITGDAYDHKVIYEKCGGNVTHYNGESIQMLKEVDVLIDAMIGIGMKGEVREPFATLISLINEQETYVISVDIPSGVPADEGENSIYAVQADYTVIIGAPKESAFLPNTAPFYGEWDVVSIGLPTFMFHRLTNKTVWQLENVEKTLPKRELFDHKGNHGKGLIIGGCKEMPGALSMSVQAALKSGAGLITGASSSPVIQMIAGNSVEAMYIPLMDTDGYLNNHSEVSFAIYDAAAIGMGLGRKKITQDFVAHVMDTATCPIIIDGDGLYHLSHLLPDLNARAYSTVITPHPGEMAMLLGVTIREVLQKPFQYAKDFAQTYSVYVVLKGRYTIITAPDGVQRLNPTGNAGLSKGGSGDVLTGIMLAMVMQKQSLLDALCNACFIHGMSADLLVQDQHSEHDLLASDVINGITRVYRAILSSG NA NA NA NA NA AK015_02719 363 acpS COG0736 Holo-[acyl-carrier-protein] synthase ATGATTAAAGGAATTGGAATAGATATTATTGAATTGGAGCGCATTCGACAGAGCTTACTGAACAATGCTCGCTTTGTGGAGCGAATTTTAACGCCTCAAGAAAGAGAAGGTTACAGACAATTAACAAATGAAAAACGGAAGATCGAATACGTTGCTGGAAGATTTGCAGCAAAAGAGGCATTTGCTAAAGCGGCAGGTACTGGTATTGGTAAACTCGCTTTTCAAGATATGACAGTAAGCAAAACGAAAGATGGAGCTCCTGTATTACATGTAGTAGGATTTGAAGAAGAAAACATATTTCTATCGATCTCTCATGCAGAGCATTATGCCGTAGCACAAGTTATTTTGGAAGCACGATTTTAA MIKGIGIDIIELERIRQSLLNNARFVERILTPQEREGYRQLTNEKRKIEYVAGRFAAKEAFAKAAGTGIGKLAFQDMTVSKTKDGAPVLHVVGFEEENIFLSISHAEHYAVAQVILEARF PGPT0008840_2958 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997 NA NA AK015_02720 771 hypothetical protein ATGTTTATAAGACATGAAAGAAGCTTAAAAGAATTTATACAATCGTATCCCATCGTTTCCACCCTTGTAATCATTCACTTAGCTTTATGGCTCGTAATTAATTTCTTACAATTACCATTTGGCATTTGGCTGTATCAATTAGGCGAAGGGAGTAATTATGGTATTGAGCAAGGGGAATATTGGCGGCTTATTACACCGATATTTCTTCATGCCGATTTAATGCATGCCTTGTTTAATTCCTTCTCCCTTGTGCTATTTGGACCTGCTTTAGAGCAAATGCTTGGGAGGACAAAATTTATTATTGGCTACCTTTTTGCAGGTATATTTGGGAACCTTGGAACATATTTAGTAGAAGATTTACTTTACTTCCATATAGGAGCTTCAGGGGCAATTTTTGGCTTGTTTGGGATATATATATTCATGGTTTTGTTTCGCAAACATCTCATCGATCAGATAAGCTCTCAAATCGTAACGACGATATGCATTATTGGTCTGATTATGACCTTCTTCAATCCAGGCATCAATGTTTCCGGGCATATCTTCGGTTTCCTTGGTGGAGTTATCATTGCACCGATTGTTTTAGCAGGGGCTAATAGCTATAATCCATGGGCAGCCATGGCAAGACGTAATCGTTACAGAAATGATGATGATATTCAGTTTGACCCTAATCGCTGGAATAAAAAGCGCCTTCCGCGGTCTTTTACAAAAAATATTGGTTGGATTATCTTCGGCGTTCTCGTGTTACTTGGCTTATTTAGTCGTTTATTCTAA MFIRHERSLKEFIQSYPIVSTLVIIHLALWLVINFLQLPFGIWLYQLGEGSNYGIEQGEYWRLITPIFLHADLMHALFNSFSLVLFGPALEQMLGRTKFIIGYLFAGIFGNLGTYLVEDLLYFHIGASGAIFGLFGIYIFMVLFRKHLIDQISSQIVTTICIIGLIMTFFNPGINVSGHIFGFLGGVIIAPIVLAGANSYNPWAAMARRNRYRNDDDIQFDPNRWNKKRLPRSFTKNIGWIIFGVLVLLGLFSRLF NA NA NA NA NA AK015_02721 900 blaZ Beta-lactamase 3 ATGCTAAGGTACATGAAAATAATCAGCGTTTTGCTGATTACTTTTTTTGCATTTGTTGGCTGTGAAGAAAAAGAGGAACAACCCCCTAGTAAAAAGTCGACTGCAGAAACTGTAGCAATGAATGACGAAAGTGAATTCCGCCTCTTAGAAAAAGAATATAATGCAAAACTAGGGATATATGCGGTAGATACTAGTAATGGTAAAACTGTGTCGTATCAAGCTGAAGATCGATTCGCTTATGCTTCTACTCATAAAGCACTAGCTGTAGGCGTGCTATTGCAAAAATTAACTTTGAAACAACTAAAAGAAACGGTATTAATTAAAGAAGGAGATTTGGTTAATTATAATCCAATTACTGAAAACCATGTAAATAAACATATGTCATGGAAAGAACTTAGTGATGCTTCTATAAGATATAGTGATAATACTGCTGCTAATCACATTTTAAATCGAATAGGTGGCCCAAATGGGTTTAAGAAAGCGCTTGGAGACATTGGAGATAATGTGACAAACCCGGAAAGAATGGAACCAGAATTAAACCTGGTAAATCCAGGAGAAATAAAGGACACAAGTACACCAAAAGCGCTCGCCACAAGCCTGAAAGCTTTCACAATTGGAAATGTACTACCGAAAGAAAAACAAGATTTGTTAGTGGATTGGCTGAAACGCAATACAACTGGGAATCATTTAATCCGAGCAGGGTCCCCCAGAGGGTGGGAAGTTGGCGATAAATCAGGAGCCGCACCCTATGGAGTTCGTAATGACATAGCTATTATTTGGCCGCCAAATAAAGCACCTATAATACTTGCTATTCTGTCTAGCAAAGAGGAAAAAAATGCTAAAGCAGATGATAAGCTTATTGCCGAAGCGACTAAAAAAGTAATCAGCATGATAAAGTAA MLRYMKIISVLLITFFAFVGCEEKEEQPPSKKSTAETVAMNDESEFRLLEKEYNAKLGIYAVDTSNGKTVSYQAEDRFAYASTHKALAVGVLLQKLTLKQLKETVLIKEGDLVNYNPITENHVNKHMSWKELSDASIRYSDNTAANHILNRIGGPNGFKKALGDIGDNVTNPERMEPELNLVNPGEIKDTSTPKALATSLKAFTIGNVLPKEKQDLLVDWLKRNTTGNHLIRAGSPRGWEVGDKSGAAPYGVRNDIAIIWPPNKAPIILAILSSKEEKNAKADDKLIAEATKKVISMIK PGPT0028070_1618 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 AK015_02722 1470 hypothetical protein ATGTCTAAGCCAAAACGAATGCATCTAGCATTTATCTTATTTCATGTTATTCGATCACTGAGAGAAACGATTTTACCGTTTATTGCAGCAATCATTGCCATTCCTAAAGAGCATTTCTTTTTTGTGATTATAGGTCTTATAGCGCTTGCGTTATTGTTTACCATTTTTAGTACGCTCTCATGGTGGCGTTTTACTTATGAGGTTACGAATGACGAACTACGGATTGAATCAGGAATATTCATTCGTAAAAAAAGATACATTTCAAAAGGGCGTATTCAGTCGATTGATATATCCGCAAATGTTTTGCATCGAATTTTTAAATTAGCAAAGGTGCAAATTGAAACAGCTGGTTCTGGCGCTGAAGGTACATTGACAGCTATCAAGTTATCGGAAGCAGAAGATCTACGAACAGAATTGAAAGGTTACCAAACAAACGATGCCGACTTAGAAAAGACAGAAGAAACTATGAAAACACCGGATGTGCCTTTTTTCCAAATATCTAATAAACGATTGTTCTTGGCAGGTAGTACATCTGGAAGTATCGGAGTATTAGCAGGTTTATTTGCTTTTGCCGTTTCAGAAATGGAACAATTTATTCCTGATAATTTTTATGATAATACGGTAGAGTGGGTAGTGGGATTAAGTATTGCATTTTTAATAATTGTTATTGTAGGTATTTTATTATTATTATGGTTATTAGGTATTGCAGGTACAATGATTAAGTTTTGGAATTTTCGAATCGAAAGACATGAAAAAGAATTATTTATAACTAGGGGGCTACTTGAAAAAAAGCAAACAACCATTCCGCTAAATCGCATACAAGCTATCGGTATAGAGGAGAGTATTATTCGGCAACCGCTCGGCTATGCAAAAGTTTTTGCAGAAGTAGCAGCTGGTAGTGCAGAGGAAGCCAATGAGTTTTCTTCCGTTTTATTCCCAATGTTAAAGGAATCCGAAGTAGAAGAATTTCTAAAAACAATCTTGCCAACGCATGCCCATGTAGATGGAGCTTGGCATGCGATTCCAAAAAGAGGCTTAACCTATTATTTGCTCCGATCCCTTATTCCCGTCTGCTTAATTAGTGTTCCAGTATATATATTCTTCCCTGGATTTATGTGGGCTGTAGCAATTGTGCTACTTTTAGCCTTTACATTAGGTTATCTTAGCTTTCGGGATACTGGATTTCAACTAGAAAAAAAGAGGATGCTACTTCAATATCGACAAATAAGTAAAAAAACGATGATTATTTTTCATAGACGTATTCAATCTATGGAAAAAAAGCAACATGCTCTCCATCGAAAACAGGATGTAGCTACACTAAGTGTTTCAATACTTGGTACGAATAGCGTCGGGGCGCATTATTATTTAAAAGAATTGGCAGAAGCTGATGCGGATAAATTAGCAAATTGGTATTCGCACAGAAAGCGTGTAGAAGACATGCCTTATAGCAAGGATGAAAAGGAAAAGTGA MSKPKRMHLAFILFHVIRSLRETILPFIAAIIAIPKEHFFFVIIGLIALALLFTIFSTLSWWRFTYEVTNDELRIESGIFIRKKRYISKGRIQSIDISANVLHRIFKLAKVQIETAGSGAEGTLTAIKLSEAEDLRTELKGYQTNDADLEKTEETMKTPDVPFFQISNKRLFLAGSTSGSIGVLAGLFAFAVSEMEQFIPDNFYDNTVEWVVGLSIAFLIIVIVGILLLLWLLGIAGTMIKFWNFRIERHEKELFITRGLLEKKQTTIPLNRIQAIGIEESIIRQPLGYAKVFAEVAAGSAEEANEFSSVLFPMLKESEVEEFLKTILPTHAHVDGAWHAIPKRGLTYYLLRSLIPVCLISVPVYIFFPGFMWAVAIVLLLAFTLGYLSFRDTGFQLEKKRMLLQYRQISKKTMIIFHRRIQSMEKKQHALHRKQDVATLSVSILGTNSVGAHYYLKELAEADADKLANWYSHRKRVEDMPYSKDEKEK NA NA NA NA NA AK015_02723 480 hypothetical protein ATGCGACACCCCCCAAAACAACAAATAGAGAAAGAAGCCATCAAAGTATGGCGGATAACAGCAGCTATTTATAATGGTATACTTTGTTTATTGGCAATTGCAGCTTTGGTTGTTAGTATTATTTTTGAATGGCCAGTTTGGTATAGTATGGTAGCTGTAGCTGTAACCATTATTTTAGCGTATGTATTTATTTTTATATTACCAAAGCTTCGCTGGAGACGATGGCGTTATGAATTATTTGAACAGGAAATCTATATTCAATACGGTATTTTAATTATGTCAAGAACGCTTGTACCAATGGTGCGTGTACAGCATGTAGATACACAGCAGGGTCCAATTTTAAAGCGGTATGATCTGGCAACTGTAACGATCTCCACGGCAGCAACGACACATGAAATTCCTGCGTTAAATGAAGAGGATGCTTCTTTGTTGCGTGATCGTATTTCTGAGCTTGCAAGGGTGGATGAAGAAGATGTCTAA MRHPPKQQIEKEAIKVWRITAAIYNGILCLLAIAALVVSIIFEWPVWYSMVAVAVTIILAYVFIFILPKLRWRRWRYELFEQEIYIQYGILIMSRTLVPMVRVQHVDTQQGPILKRYDLATVTISTAATTHEIPALNEEDASLLRDRISELARVDEEDV NA NA NA NA NA AK015_02724 1464 cshA COG0513 DEAD-box ATP-dependent RNA helicase CshA GTGACAACATTTAAAGAGCTGGGTGTGTCTAGCCCGATTATGAAAGCATTAGAAAGAATGGGATTTGAAGAAGCAACGCCAATTCAAGCAGAGACTATCCCACTAGCTTTAGAAGGCAATGATGTAATTGGACAAGCGCAAACAGGTACAGGAAAAACAGCTGCTTTTGGTATTCCTATGATTGAAAAATTAGATGCAAGAGCACGTAAAATTCAAGGTCTCGTTGTTGCTCCAACGAGAGAATTAGCGATTCAAGTAGCCGAGGAATTAAATCGTCTTGGCAAGGTTAAAAAAGTTCGTGCTTTCGCCGTTTATGGTGGGCAACAAATGGAGAGACAAATTCGTTCGCTTAAAGATGGTCCACAAATTGTAGTTGCAACTCCTGGAAGGCTATTGGATCATATGCGTCGCAAAACAATTCGGACGGAACATATTCACACAACTGTATTAGATGAAGCCGATGAAATGTTAAATATGGGATTTATCGATGATATTCGTGAGATTCTTAAAGCAATTCCAGAGGAAAGACAGACATTGCTATTCTCTGCAACAATGCCTAAGGAAATTCGCGATATTGCGACGAATTTAATGAAAAGCCCAAAAGAAATTAAAGTAAAATCAAAAGAAATGACGGTCGAAAATATTGATCAGTATTTCATTGAAATACCGGAAAGATATAAATTTGATACGTTAAATAACCATTTGGACATTCATTCTCCTGATTTAGCCATTGTCTTTAGCCGCACGAAAAAGCGTGTAGATGAAATAACGGAAGGTTTGCAAGCTAGAGGTTACCGTGCTGAAGGTATCCATGGCGATTTAACACAAGGAAAAAGGATGTCAGTATTAAATAAATTTAAAAATGGTCGCGTAGATGTGCTTGTTGCAACGGATGTAGCCGCAAGAGGACTTGATATTTCAGGTGTTACGCATGTTTATAATTTTGACATCCCTCAGGATCCAGAAAGCTATGTGCACCGTATTGGTCGAACAGGGCGTGCTGGTCGAACAGGCGAAGCTATCTCTTTCATTACTCCAAGAGAAATGGCGCATTTGAAATTAATTGAAAAAGTAACAAAGAGTAAAATGAAGCGTCTTACACCGCCAACGAACCATGATGCACGAAAAGGACAACAGCAAGTTACGATAAGCAAAATTGTTGAAACGATTGAAACAAAAGATCTAAACGATTATCATCAAGCAGCCAATCAATTATTGGAAGATCAGGATGCTGTCTCTGTCATTGCTGCAGCTCTTAAGTTAATGACAAAAGAGCGAAAGGATACGCCGGTGAAGATTTCTTCTGTTGCGCCAATAAGCGTAAAGAAAGCAAATAACCAGAATGACAATCGCCGTTCCAATAATAAACGTTTCCAAGGTAAACGTGGACAAAATAATCGTGGTGGACAAGGTAGTCGTAATCGAAAAGGTAATTTTCAAAAACGCAGAAACCGTGATAAGTAA MTTFKELGVSSPIMKALERMGFEEATPIQAETIPLALEGNDVIGQAQTGTGKTAAFGIPMIEKLDARARKIQGLVVAPTRELAIQVAEELNRLGKVKKVRAFAVYGGQQMERQIRSLKDGPQIVVATPGRLLDHMRRKTIRTEHIHTTVLDEADEMLNMGFIDDIREILKAIPEERQTLLFSATMPKEIRDIATNLMKSPKEIKVKSKEMTVENIDQYFIEIPERYKFDTLNNHLDIHSPDLAIVFSRTKKRVDEITEGLQARGYRAEGIHGDLTQGKRMSVLNKFKNGRVDVLVATDVAARGLDISGVTHVYNFDIPQDPESYVHRIGRTGRAGRTGEAISFITPREMAHLKLIEKVTKSKMKRLTPPTNHDARKGQQQVTISKIVETIETKDLNDYHQAANQLLEDQDAVSVIAAALKLMTKERKDTPVKISSVAPISVKKANNQNDNRRSNNKRFQGKRGQNNRGGQGSRNRKGNFQKRRNRDK PGPT0013740_1601 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927 NA NA AK015_02725 918 hypothetical protein ATGCGACTTCCTCCATTTAACCCATATATCGCTGTAGGAATTGGTGTCTTATCTGTTTCTACTTCAGCAGTATTCGTTAAATTAGCCGATCAAGCCCCTGCTGCTATGATAGCAAATTACCGTTTATTGATTGCAGTACTTCTTATGGCTCCGATCATATTGGCAAAATACCGCCATGAAATAAAGCATATTGAGCGTAAAGATTGGCTCTTATCTATTCTTGCGGGGGTGTTTTTAGCCTTCCATTTTATATTATGGTTCGAATCTTTGAACTACACATCGGTAGCTAGTTCTGTTGTTTTAGTAACGCTCCAACCTATTTTTGCTTTCTTGGGAACATATATTTTCTTTAAGGAGCGGTTTTCTTACGGAGCAATTATTAGTATGCTAATCGCTTTAATTGGTAGTATCATCATTAGCTGGGGTGATTTCCAAATAAGTGGAATGGCGCTATTTGGTGATATCTTGGCATTATTAGGAGCGATCACTGTAACAGGATATTTTTTACTTGGACAGCGCGTACGCAGAAATCTTTCTTTAATGACCTATACATTTGTTGTGTATGGTGTAAGCTCTATTACTTTGATCATTTATAACTTATTAGTTGGAAACGCATTTACTGGTTATCCAATGGACCATTGGTGGATTTTTATCGCTCTAGCGATTATACCAACCTTTTTTGGACATACGTTATTTAATTGGGCATTAAAATGGCTAAGCACCTCTACGATCTCGATGGGCATTGTCTTTGAGCCAATCGGCGCTTCCATTTTAGCATATATTATTTTAGGCGAAAAAGTTACCGCTTCGCAACTATTAGGAGGAACCATTGTCCTATTTGGGTTATTTTTATTTATATTAAGCACGAACAGGAAAACAACTTTAACTATCTCTAAAAAGAAGCAACAAGATGATTAG MRLPPFNPYIAVGIGVLSVSTSAVFVKLADQAPAAMIANYRLLIAVLLMAPIILAKYRHEIKHIERKDWLLSILAGVFLAFHFILWFESLNYTSVASSVVLVTLQPIFAFLGTYIFFKERFSYGAIISMLIALIGSIIISWGDFQISGMALFGDILALLGAITVTGYFLLGQRVRRNLSLMTYTFVVYGVSSITLIIYNLLVGNAFTGYPMDHWWIFIALAIIPTFFGHTLFNWALKWLSTSTISMGIVFEPIGASILAYIILGEKVTASQLLGGTIVLFGLFLFILSTNRKTTLTISKKKQQDD NA NA NA NA NA AK015_02726 855 COG1307 DegV domain-containing protein ATGAACATGCAATTAATGACCGATGGTGGAGCGGATATACCTGAGCGTTTATTAACCAAAACAAATATTATTCAAGTGCCACTCTATTTACATTTTAGTGATGGACAATATAAAAGCGGAGTGGATTTAGACACCCCATCCTTTTATCGAAAAATGGCTGAAACCAATGAATTACCTAGATCTTCAGCACCAAGCCCACATGATTTTTACACAGCTTACAAACAAATTGACCAAGATGTTCCTATTTTAATGCTTAGTTTGACGAAAGGGTTAAGCAGCACCTATGAAAACGCAGTTGCTGGTATGAAATTGTTGCTTGAAGAAGACCCCGAACGTAAGATTGCCGTTATTAATACAAAAACCGCTTCTTGCGGGATCGCTCTGTTGCTTCATGAAGCTATTTCCAAAATAGAAGCAGGCTATTCCTTTTCCCAATTAGTGGAGCACCTAGAGGAACGAGCAGAACAAACTGCTACATTATTTGTATTAAAGACGTTGGAAAACCTTATTCAAGGCGGACGTCTTGATAAGGTAAAAGGTAAAATTGCTAAAACATTAAATATTAAACTACTAATGCGTGCAAGTGAAGACGGAGCTATTGAAGTGACGGAAAAAGTGAGAGGAGATAAAAAATCCATTCGCCGATTTATCGATCAAATTGGTGAATATACAAAAAATGTGGAGGATAAAGTGATTTCCTTATCGCACTGTAATGCAGAAGGACGTGCTAAGAAAGTGCTAAATGAAATAAGAGAGGCTTATCCATTTAAAGATGCACTCATCATGGAAACTGGTCCGTTAATATCCACATATGGTGGAGAAGGTGCTCTCGTTATTTCTTTTTTCAAGCATTAG MNMQLMTDGGADIPERLLTKTNIIQVPLYLHFSDGQYKSGVDLDTPSFYRKMAETNELPRSSAPSPHDFYTAYKQIDQDVPILMLSLTKGLSSTYENAVAGMKLLLEEDPERKIAVINTKTASCGIALLLHEAISKIEAGYSFSQLVEHLEERAEQTATLFVLKTLENLIQGGRLDKVKGKIAKTLNIKLLMRASEDGAIEVTEKVRGDKKSIRRFIDQIGEYTKNVEDKVISLSHCNAEGRAKKVLNEIREAYPFKDALIMETGPLISTYGGEGALVISFFKH NA NA NA NA NA AK015_02727 711 Thermostable monoacylglycerol lipase ATGGTAGCCTGTTTAATTATTCACGGATATACTGGGGGTCCTTATGAAGTAGAACCACTTGCGGATTATTTAACAAAACAAACCAATTGGCATATTGCTGTCCCCACGTTACCAGGCCATGGTCGAAACTTGAACTTACAGCATGTATCTCATGACGAATGGCTCGAAGCTGCAGAACAAGCACTGCTGCAACTACAAAAAAGGTATGATACCGTTTATCTTATCGGTTTTTCCATGGGAGGGATGATTGCGGCTTACTTAGCAGCGAAGTATCAAATCGAGAAGCTAGTGCTTCTAGCTACTTCTGGAAAATATTTGTCATTAAAGCAGATTGGAAAAGACGTAGGCGGCTTCCTTACAGATGCTGTGACAGGGAAATTAGGAGAGAATAAACTGTTTCTGCACTATAAAAGAAAACTAGGGACAGTACCTTTTCGCGCTAATATTGAATTTTTAAAGTTAGTTCGGTTTACTAGAAGGTACTTAAATAAAATAAAATCGCCAGTATTAATTGCTCAAGGGCAGCAAGACGGAATGGTACCATATAAAACAGCCTATTACTTAAATAAAGAAATTACATCGGAGCAAAAGGAAGTGGTCTTTTTTGAGCGTTCTAAGCACTTAATCTGTTTAGGAGATGACAAAGATACATTAAACAAAATCGTACATGCCTTCTTGCAGTCATCAAGATCACCTACATTTACCTATTAG MVACLIIHGYTGGPYEVEPLADYLTKQTNWHIAVPTLPGHGRNLNLQHVSHDEWLEAAEQALLQLQKRYDTVYLIGFSMGGMIAAYLAAKYQIEKLVLLATSGKYLSLKQIGKDVGGFLTDAVTGKLGENKLFLHYKRKLGTVPFRANIEFLKLVRFTRRYLNKIKSPVLIAQGQQDGMVPYKTAYYLNKEITSEQKEVVFFERSKHLICLGDDKDTLNKIVHAFLQSSRSPTFTY NA NA NA NA NA AK015_02728 513 hypothetical protein ATGTATTATCGGCCTTATTTTAATTATAGAGAAGTTTATGATGAACGTCCTGATCCTTTTGCTACAGCGAATATGGGAGCGTCCATCCATTCTCAACCGTATTTGTCTCCACCATACCAATCTCCCTATGATTCCTTTGCTAAGCCTCAACAGCCAATGAGCTGGCCTGAAAGTAAATTTCAAACATCCCAACAACATATGTACCATGGATGGAATGGGCAACCTTCACCACAAGGTATGCACCAAGGTTTAAACGGGCAACCTTCGCCACAAGGTATGCACCAAGGTTTAAACGGGCAACCTTCGCCACAGAGTATGCAACAAATGGGTATGCAAAGCTCACAAAATATGGAGCAAGAGGCGAATATGCAACAAACACAACAATCAACTGCTCCTGGGCAATCTTTTGATTTGGATAAAATGTTATCAACAGTAGGTCAGTTGGCTAATACGTATCATCAAGTCTCTCCCATCGTTAAGCAATTTGGATCACTTATCAAAACCTTTAGATAA MYYRPYFNYREVYDERPDPFATANMGASIHSQPYLSPPYQSPYDSFAKPQQPMSWPESKFQTSQQHMYHGWNGQPSPQGMHQGLNGQPSPQGMHQGLNGQPSPQSMQQMGMQSSQNMEQEANMQQTQQSTAPGQSFDLDKMLSTVGQLANTYHQVSPIVKQFGSLIKTFR NA NA NA NA NA AK015_02729 318 hypothetical protein ATGGAAAAACCTGATGTGATTGTATATATTAGTACGAACTGTAAAGCATGTGAAGAAGTAATAGAATTCTTACAAGAATGGACGATTATGTATCAAACGAAAAATGTAAATGAAAATCCATCGAATATGAAAGAATTACAGAGTTTTGGAGTATTTGGTACCCCCACAATATTTATTGCTGGTAAAGAAGAACCAATATTAGGATTTCAAAAAAATAAATTAAAGTATTGTTTAGGTATCATAAATAAAGAAATAACGCATTATAGTTCTTTGTTTGATGGGTATATAGAAGAAAAAAACAACGATCACAGGTTTTAG MEKPDVIVYISTNCKACEEVIEFLQEWTIMYQTKNVNENPSNMKELQSFGVFGTPTIFIAGKEEPILGFQKNKLKYCLGIINKEITHYSSLFDGYIEEKNNDHRF NA NA NA NA NA AK015_02730 459 mhqR_2 COG1846 HTH-type transcriptional regulator MhqR TTGACGAAGAGTAATGCTTTAAAGGAAAAACAGAACAATAGCTCGCTTAAGTTATTGGTTGTATTATCAAAAGCATATCGGAGTTTAATGGAACAAGTGGAGGATGATATTCACCAAAGAGGTTTAAATTTAACCGATTTTGCAGTAATGGAGTTGCTTTATCATAAAGGACCACATACTTTGAAAGCGATAGGGGAAAAAATATTATTAACAAGTGGGAGTATTACGTATGTTGTCAATAAATTAGAAAATAGACGTTATATCTTACGAATACCTAATGAAAATGACCGACGTGTAACATTTGCTGCCATTACGGAAAAAGGGGAAAGGTTAATGGAGGAGATTTTTCCCGGTCATTGGGCAAGAATTGAAGAAATTACAAGTGGACTAGATGAGACAGAAAAGCAACTGGCCATTGACTTGTTGCGAAAGCTCGGTACTGCAAATAAGGTGAAATAA MTKSNALKEKQNNSSLKLLVVLSKAYRSLMEQVEDDIHQRGLNLTDFAVMELLYHKGPHTLKAIGEKILLTSGSITYVVNKLENRRYILRIPNENDRRVTFAAITEKGERLMEEIFPGHWARIEEITSGLDETEKQLAIDLLRKLGTANKVK NA NA NA NA NA AK015_02731 1416 hypothetical protein ATGATACGTCGACCATCCCTATTAAAAAGCTTCTTTTTCATAAGAGTCCATCGCTTTAAGAAAAAGCGAAAGTTAAACAAGCAGGCGTCCCAATTACTTTTTGATAAGACAACGACGGTATATCTTGTTTTATTACTTGCCTATACGTTTGCAAGTATGTTTATCTTTAGCGATACAGCGGTTATGTATAAGGACTATTTTATTTTATTAGAGCAGCAGGCGGAAGATGTGATATGGGTATTGACTATTGTTTTACCAGTTCGTTCTATGTTTCATGCATTCCGAGAACCAGGGGTTTTATATTCCAGTGCAGAATATCAATTAGCTTTATTACCATATCCAAGAGGGAGTATTTGGCTTTTAACGTTGCTAGAAAGATGGCTAAAGAGGCTACTTATATATAGCTTAATAGCGGGTGTTGCCCTGCTAATAACGCCACTTAGCCTATTATTCATTTTTACGTTTGTGGTAACTTTCATCATGTTTGATATCATCATGGCTATACCACAATGGAAATTATTTCAGCAGCACTTCGCTAAAAAAATGATGCTGTTTTTATTAGCTATAGTATTGGTAGGCGTCGCAAGTCTTTTGACCCCATTGCTAGAGCCAAAATTAATTGCCTCCCTACTCATTAGTTGCATTGTATTGGTGAATTTGTTCTTGTTGCCGCATGTATTTTCACATATTAATTGGTCGAAAGTAACGGAAATTAATGATTACACTATTTGGCGTATGCCGTTATTGGCTTTTGCTTCAAATACGAAATTTAAACGTCCGAAACGATATACTTTGTTTCAAAATAGTAGTAAGAACAAATTGCCATTTACTACGGAGGGTCAAATTTATAATCGGCTATGGAAATTATATTTCATAAAACAACAAGCGATTATCTTTCGTGCTTTAGGAACATTATTTGTACTTATTACAGTTCTCTTTTTCATGCCAGTATGGTTGTTCTATATCGGTATTGCAGTCATGTTATATGTTTATATTTCAATTGCAGTTAGTTTTTATGCAGATCGATTTAGCAACGATGTCATTGAAATATTACCATGGTCCACGAAAAATTACACAAATTATTTTTCACAATGGATGCGATTAGGCGCTATACTCTTATTTATTCCAGTACTATTTTTTTATTTTATGCACCTTAGTTGGTGGACCCCACTCCATATTTTGCTGTTTTGGACGACGTATCGTTATGTGAAAGAAGTAAAGCTAATGAAAATGGCCCAATCACTGACCAGAAAAAAAGCTGTTTTACAAGTAGAAGAAACGCTAGGGACGGTCGCTATGGTATGTTTAAGTTTAAGTGGAATTTATCCTTTTCTGACGATAAGTTCACTTGTGCTTTTGTTTCTGCTTTATAGAAGAAGCGGCAAGCGCCATCTTTTCATGACAAGGGGAGGATAA MIRRPSLLKSFFFIRVHRFKKKRKLNKQASQLLFDKTTTVYLVLLLAYTFASMFIFSDTAVMYKDYFILLEQQAEDVIWVLTIVLPVRSMFHAFREPGVLYSSAEYQLALLPYPRGSIWLLTLLERWLKRLLIYSLIAGVALLITPLSLLFIFTFVVTFIMFDIIMAIPQWKLFQQHFAKKMMLFLLAIVLVGVASLLTPLLEPKLIASLLISCIVLVNLFLLPHVFSHINWSKVTEINDYTIWRMPLLAFASNTKFKRPKRYTLFQNSSKNKLPFTTEGQIYNRLWKLYFIKQQAIIFRALGTLFVLITVLFFMPVWLFYIGIAVMLYVYISIAVSFYADRFSNDVIEILPWSTKNYTNYFSQWMRLGAILLFIPVLFFYFMHLSWWTPLHILLFWTTYRYVKEVKLMKMAQSLTRKKAVLQVEETLGTVAMVCLSLSGIYPFLTISSLVLLFLLYRRSGKRHLFMTRGG NA NA NA NA NA AK015_02732 696 ecsA_2 COG1131 ABC-type transporter ATP-binding protein EcsA TTGAAAACGTTAGAGGTTGTTGAACTTTCGGTAGAAATAGATCAGAATTTGCTGATTGATCATGCGTCATTTATGTTAGAGGAAGGGACGATCACAGCGCTTGTAGGGCATAATGGGGCAGGGAAATCAACGCTTTTAAAAGCCATTGTCGGGATGCTTTCTAAAAGCCAAGGGAAAATTATATTTAATGAAATGTACCATCAGGATGATGATTTTTTAACATGTAAGCTATTACTTGCTTATTTGCCGGAGGAACCGATGTTGTTGACGGAATTAACTGTGATGCAACATTTCCAACTTTACGGCATGAGTTATGAACTGGCTAAAAATGAAATGAACCAACGAATAAAAGAGATGGTAAAAGGATTTGAATTATCCGATAAACTAAATGAATATCCTGAGTCATTGTCTAAAGGAATGAGACAAAAGGTGCAAACCATTTGTGCGCTACTTCCTGATACACCGTTGTTACTTATTGATGAACCTTTTATGGGTTTAGATATTTATGCAATTGATTATTTTGAGCAATTAATGAAAGAGAAGGTGGCAAGAGGAACGACGATTCTTGTTACAACACACCAATTAGACCGCATGAAAGGAATGGCGGATAATTATATTATGTTGCAACAAGGTAAAATACATAGCCAAGGACCAATTGATCAATTTGTTACGATTGATAGGAGAATGGATGAATGA MKTLEVVELSVEIDQNLLIDHASFMLEEGTITALVGHNGAGKSTLLKAIVGMLSKSQGKIIFNEMYHQDDDFLTCKLLLAYLPEEPMLLTELTVMQHFQLYGMSYELAKNEMNQRIKEMVKGFELSDKLNEYPESLSKGMRQKVQTICALLPDTPLLLIDEPFMGLDIYAIDYFEQLMKEKVARGTTILVTTHQLDRMKGMADNYIMLQQGKIHSQGPIDQFVTIDRRMDE PGPT0006725_27440 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02733 912 bmrU COG1597 Putative lipid kinase BmrU ATGAAGGGAAGTTGCTTCATGAGAAAATATGAAACTGCGGTACTTTTATATAATGGAAATGCAGATGAAGAAGAAATGAGAACAAAATTAACGCAAATCGTTGCAAATTTATCTTTAGCAATTAAACAATTGCATTTGTTACAGACAGATTCCATTGAAGATGTGAAAGAGGCTTGTGTACGATATGCCGCTAAAGTGGATGTATTACTTGTTTTAGGAGGAGATGGCACAGTACATGCATGTATTAACGCTATCTCTCCTTTAAAGAAGCGCCCTATTATTGGTATATTGCCTGGGGGAACGTGTAATGATTTTAGTCGTGTACTTCATATGCCACAACAATTAGGGGAAGCTGCCTCCTCCATTGTAGACGGAGAGGTTGTGGAGATCGATGTAGGAAAGGCTGATGACAGATACTTTCTTAATTTTTGGGGGATTGGCTTAATTGCTGAAACATCCCAAAATATTGATCCTAATCAAAAGAAAAACTTCGGTGTACTTAGTTATTTTATGAGTACATTAAAAAGCCTTTCCCAAGCAGAAAGTTTTTCCTATCAAATAACTACAGATGAGCAGAATTTTGCAGGGGAAGCTGTAATGATTGTTGCATTAAACGGAAGGTTTTTGGGTACGCAAGAAGTCCCGATTTCAAGTTTACAACCTGACGATGGAAAACTAGATATCCTCATTGTAAAAAATTCCAACCTTGCTTTTTTTCGTGATTTATTGGCTATGAACGATCCGAACAAAAAACTAAAGGAATTAAATGAAATGATGTATGTGCAAACGACTTATTTGCAAGTAACTACTGAAAACAAGAAAGAAATCGATATGGATGGGGAAATCATAGCTACTACACCGTCAGAAGTGGAAATTATTCCAAAACATTTACAAATGATACGAGCAAAATGA MKGSCFMRKYETAVLLYNGNADEEEMRTKLTQIVANLSLAIKQLHLLQTDSIEDVKEACVRYAAKVDVLLVLGGDGTVHACINAISPLKKRPIIGILPGGTCNDFSRVLHMPQQLGEAASSIVDGEVVEIDVGKADDRYFLNFWGIGLIAETSQNIDPNQKKNFGVLSYFMSTLKSLSQAESFSYQITTDEQNFAGEAVMIVALNGRFLGTQEVPISSLQPDDGKLDILIVKNSNLAFFRDLLAMNDPNKKLKELNEMMYVQTTYLQVTTENKKEIDMDGEIIATTPSEVEIIPKHLQMIRAK PGPT0024345_1516 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029 NA NA AK015_02734 957 ptxB_2 putative phosphite transport system-binding protein PtxB ATGAAAAAGTGGTATAGTCTTTTTATCGTCCTTGCCTTAGCATTCGTACTTGCAGCCTGTGGCGGGTCAGATGATTCAGATGGAGAAGATAACGCAAGCGGAGAAGGCAACGATAATGCGAAAGAAGAAGAAAAAGGAGAAACCCCAGATAAACTAGTCATGGGATTTGTTCCTTCTCAAGATTCTGATACAATCGCAGATACAGTAAAGCCTCTAGCTGATCGTTTAGGGGAAGAATTAGGAATTGATGTTGAAGGGAAAGTAATGACCAACTATAATGCCCTTGTAGAGGCAATGGGTTCAAACCAAGTACAAATTGGCTTTATTCCTGCTTTCGGTTACGTACTTGCTAATGAGCAATACGATGTAAATGTTATTCTTAAATCTGTTCGTCATGGTTCTGGTACATACAAAGCACAATACGTCGTACGAGCAGATTCTGACATTGAGTCTTTAGCAGACTTAGAAGGTAAAGTATGGACATATGCAGATAAAGGCTCTACTTCTGGTTACCTTTTCCCAGCATACCAAATGATGCAAGAATTTGACTATGCTTCTGGAACAGAATTAGAAAGTGATTTCTTCGGTAACACGATTGCTGCTGGTGGTCATGATAATGCAGCTATCTCTGTTTATGAAGGAGATGCCGATGTAGCTACTACATTTGACGATGTTCGCACGGAATTAGAAGAAGAATACCCTGATGTCATGGATAAATTAAAAGTCATCGAATATACGGACGAAATCCCAAATGACACAATCTCTGTAACGAAAGAATTAGATGAAGAATTAGTGACAAAAATTAAAAAAGCATTCCTATCTTTCAATGAAGATGAAGAAATGATTAAAATCATGAATGAAGTATACAATTGGGATGCGATTGACGAAGCTTCCGACGAAGAATACGAGATCGTTAAAGAGACATATCAAAAATTTAAAGATGATATCGAGCTATAA MKKWYSLFIVLALAFVLAACGGSDDSDGEDNASGEGNDNAKEEEKGETPDKLVMGFVPSQDSDTIADTVKPLADRLGEELGIDVEGKVMTNYNALVEAMGSNQVQIGFIPAFGYVLANEQYDVNVILKSVRHGSGTYKAQYVVRADSDIESLADLEGKVWTYADKGSTSGYLFPAYQMMQEFDYASGTELESDFFGNTIAAGGHDNAAISVYEGDADVATTFDDVRTELEEEYPDVMDKLKVIEYTDEIPNDTISVTKELDEELVTKIKKAFLSFNEDEEMIKIMNEVYNWDAIDEASDEEYEIVKETYQKFKDDIEL PGPT0002525_1024 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044 NA NA AK015_02735 777 glnQ_3 Glutamine transport ATP-binding protein GlnQ ATGATAGAATTTAAAGACGTTGGGCTTGTGTACCCAAATGGAACAGTGGGTTTAAAAAATATTAATGCAACCATTAAAGATGGAGAATTTGTCGTAATTGTAGGCCTATCTGGTGCTGGAAAGTCAACATTCATTCGCAGTATAAATCGTCTCGTTACACCTACTAGTGGCGCTTTATCGATAGACAATGAAAATATACTAGATTATAAAGGTAGCGACCTAAGAAAGCTGCGCACTAAAATCGGCATGATTTTTCAAAATTATAACCTCGTAAACCGAACTAACGTTCTTAGAAATGTTCTAGCTGGTCGTTTAGGTCATACTGGAACGTTAAGATCCATTTTAAACTTATATAAAAAAGAGGATATAAGCTTAGCATATGAAAGTTTGCAACGTGTTAATATTGGAGAAAAAATTTATAATCGCGCAGACGAATTAAGTGGCGGACAACAACAACGAGTAAGTATTGCACGTGTACTTACACAACAGCCAAAGTATATTTTAGCGGACGAGCCTGTTGCTTCTTTAGATCCGCCCACTTCCCATCAAGTCATGACATATTTAAAGAAAATCAATAAAGAAGATAATATTACAACGATTGTGAACCTCCACTTTATCGATATGGCAATGGAGTATGCCGATCGAATTATTGGTATGCGTGCTGGCGAAATCGTTTTTGACGGTCCTGCATCTGAAGTTACGGAGAAAACATTTGAAGAAATTTATGGACGTTCGATACGTGAGGATGACTTACGTGGGGGGGCGAACAAATCGTGA MIEFKDVGLVYPNGTVGLKNINATIKDGEFVVIVGLSGAGKSTFIRSINRLVTPTSGALSIDNENILDYKGSDLRKLRTKIGMIFQNYNLVNRTNVLRNVLAGRLGHTGTLRSILNLYKKEDISLAYESLQRVNIGEKIYNRADELSGGQQQRVSIARVLTQQPKYILADEPVASLDPPTSHQVMTYLKKINKEDNITTIVNLHFIDMAMEYADRIIGMRAGEIVFDGPASEVTEKTFEEIYGRSIREDDLRGGANKS PGPT0002520_1475 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041 NA NA AK015_02736 816 hypothetical protein GTGACCAAACAATCAAAACAAGAAATGACAGAGAAAACACCCTCCATTTATCCTGTAAAAACAAAACTACAAATCACGATCATCTTTTTTATCGTCATTGGTTTTTATTTGTTTAGTATATTTTGGACGCAACGGGAAATGGTCGGTGGCTTCGGCAATGCACTAGGCAATATGTACGTCGTTATTGAAAAGTTTTTTCCACCTAATCTAGAAGTTATTCCAAAGGTTTGGGGAGAAATGGCGCAAACTATCCAAATGGCAATTATAGCTACCACATTAGCAGCAATCCTGACTGTACCTTTAGCACTATTATCTGCCCAAAATATAACGACTTTTAAACCGTTATATCTCATTACAAGAACATTTTTAAATATTCTGCGCACGATCCCAGACTTAGTGCTAGCCGTTATTTTTGTTGGTTTATTCGGTGTCGGCCTGTTACCAGGAATTTTAGCATTATTTATCTTTTCTTTAGGCATACTAGCTAAATTGATTAGTGAAACGATCGAATCTGTTGATATGAATCCACTAGAAGCCATGCGTGCTTCAGGCGGGAATGTTTTTCAAGTTATTTATTTTGGGCTTGTTCCACAAGTTTTACCACAATTCACTTCCTTCGTACTCTATGTATTCGAAATTAACATCCGCGCTTCCGTCGTTTTAGGATTAGTAGGTGCAGGAGGAATTGGCTTAGTTCTGGATCAACAACTCGGTTTTTATAATTATCCTAATGCCATGGCGATTATTATTTTAATTTTTATTGTCGTTATTATCATTGAATTTATTAGCAATAAACTAAGGGAGGCTTTGATCTAA MTKQSKQEMTEKTPSIYPVKTKLQITIIFFIVIGFYLFSIFWTQREMVGGFGNALGNMYVVIEKFFPPNLEVIPKVWGEMAQTIQMAIIATTLAAILTVPLALLSAQNITTFKPLYLITRTFLNILRTIPDLVLAVIFVGLFGVGLLPGILALFIFSLGILAKLISETIESVDMNPLEAMRASGGNVFQVIYFGLVPQVLPQFTSFVLYVFEINIRASVVLGLVGAGGIGLVLDQQLGFYNYPNAMAIIILIFIVVIIIEFISNKLREALI PGPT0002530_1897 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK015_02737 801 phnE_3 COG3639 Phosphate-import permease protein PhnE ATGGCTGCGTATTCTTTACCTCCTAAACAACCAAAATCAACCTTTAAAATAGTAAGACGAATCGTTATTTTCTTAGCTATCGTAGCGCTATATGTTTGGACTTTTCTTGGTATCGATATCGATTGGGGAAGAGCTTTTGAGCGAATGGTAAATAACTTCTCACGGGTTATCCCAAAACTGTTTCAACCTGATTGGTCTGCAACAAGCGAAGTTGCTGCAAAAATATGGGAGACCATATTGATTGCTTTTGCCGGCTCCTTGATGGCCGCAGTTTTAGCTATTCCATTAGGATTTTTAGCAGCTCAAAATATGACTAAGAGTAAAATCTTAACTACCATTGGAAAATGGATATTGTCAGCCGTGCGTGCATTCCCTGATATTATTTTGGCAATATTGTTCGTTGTAGCGGTCGGTCCTAACGCTTTTGCTGGTGTGTTAGCTATCGCAATTGGTTCAACAGGTATGCTCGGTAAGCTTTACTCTGAAGTAATTGAATCCATTGATATGCAAGTCATTGAAGCAATGGAGGCAAATGGGGCAAATAAAATTCAAATTTTATTTTACGGAGTTATACCACAAATTGTTCCGGAATTTTTATCCTATGCCATTTATCGATTCGAAGTCGATATTAGAGCTTCATCCATTTTAGGTATTGTTGGAGCTGGAGGTATCGGAACAATGATTATATTTGCTTCCAGCAACAGAAATTGGAATGAAATGGGATTAATTTTACTAGCCATTATTATCGTTGTTACGGTGATTGACTTTCTTTCCGCGCGAATTCGTCGGAAAATAGTATAG MAAYSLPPKQPKSTFKIVRRIVIFLAIVALYVWTFLGIDIDWGRAFERMVNNFSRVIPKLFQPDWSATSEVAAKIWETILIAFAGSLMAAVLAIPLGFLAAQNMTKSKILTTIGKWILSAVRAFPDIILAILFVVAVGPNAFAGVLAIAIGSTGMLGKLYSEVIESIDMQVIEAMEANGANKIQILFYGVIPQIVPEFLSYAIYRFEVDIRASSILGIVGAGGIGTMIIFASSNRNWNEMGLILLAIIIVVTVIDFLSARIRRKIV PGPT0002530_2552 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-OTHER_ACID_METABOLISM P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042 NA NA AK015_02738 1581 yfkN COG0737 Trifunctional nucleotide phosphoesterase protein YfkN TTGAACAATACGTCTGTCAACGTAAGCCTTATTTATACAAGTGATATTCACGGCCACATTATGCCGATTAATTATGGCACAAATGAAGAATCTGCAAATGGACTAGCAAGATATGCAACTGCAGTTAAACAAATTCGTAGTACGCATGATAACGTCATCGTCCTTGATAATGGAGACCTTATTCAAGGCACTCCTTTAATGACGCATTATGTGAAAGAACACCCTCATGAAGTAAACCCGATCATTCAGGCCATGAACAAAATTAACATTGACGCTTCTGTGATTGGCAATCATGAATTTAATTTTGGTCAATCTATCTTACAAGCTGCAATGAAGCAATCCGATTTTCCTTGGCTCGCTGCAAATGTGTTAGATGCAGAAACAAAAGAGCCAAAATACGGTCCTCCATATATGATAAAGACGCTAAAGGACGGAATTAAAGTTGCCATTTTAGGGGTTACAACGCATTACATACCAAATTGGGAATCTCCAGAACATATTGCAGACATTCACTTTAGAGATGCATATGAGACAGTAAAAACATGGGTTCCTTCTATTCATAAAAAGGAGCAGCCTGATTTACTCGTTGTTTCTTACCATGGCGGATTTGAACGTGATATTCATACAGGAGAGGCTACAGAAACACTAACTGGAGAAAATCAAGGCTATGCCATATGTCAAATTAAAGGTATTGATGTTCTGTTAACAGGCCATCAACACCGCCAGCTTACAGGCACCGTTCATGATGTATTAGTTATTCAGCCTGGAAATAACGCCACTCTCTATGGTAAAGTGGATATTCAATTTACAAAATCTGCTGCAGGGTGGCAAATTATTGATAAGAAAGCAAGCTTGCATAATTTAGCTCAAACTCCTCCCGATCAAGAGATTGTCCATTTAACGAAAGAAGTAGAAGCCTCCACCCAACAATGGCTTGATCAGCCTGTTGGCTATATTAAAGGGGATATGACCATTGATGATCCATTGCAAGCTCGGACTCGTAAACATCCGTTTATTGAATTTATTCAAAAAGTACAAATGGAAGCAAGTGGTGCAGATATTTCTGTAACCGCCTTGTTAAACAATGACTCGAAAGGTTTTAGCCAAACCGTTACCATGCGTGATGTTGTCGCCAATTATATGTATCCGAATACGTTAGTCGTTTTGGAATTGCAGGGTGCGGATATTCGAGCCGCATTGGAAAAAAGTGCTGCTTATTTCACGCTTAATGAAAATGGTGCCATTGTGGTGAATCCAGCTTTTGAAAAACCAAAACCGCAGCATTATAACTATGATATGTGGGAGGGGGTTACCTACACGATAAATGTAGCCAAACCTATTGGAAATAGAGTGGAGAAATTATGCTATCATGGTAAGCCCATTACCGAAAAAGAGAACTATCATGTCGTATTAAATAACTACAGAGCAAGTGGTGGCGGTGATTACTCCATGTTTAAAAATAAACCTGTAGTGAAAGAAATTCAAAAAGATGCTGTAGAATTAATCCGAGCGTATTTTGAAAAAAATCAAACGGTAGACGCTACTGTAACAGATAATTTCAAGGTAACAGCTGAAGCGTAG MNNTSVNVSLIYTSDIHGHIMPINYGTNEESANGLARYATAVKQIRSTHDNVIVLDNGDLIQGTPLMTHYVKEHPHEVNPIIQAMNKINIDASVIGNHEFNFGQSILQAAMKQSDFPWLAANVLDAETKEPKYGPPYMIKTLKDGIKVAILGVTTHYIPNWESPEHIADIHFRDAYETVKTWVPSIHKKEQPDLLVVSYHGGFERDIHTGEATETLTGENQGYAICQIKGIDVLLTGHQHRQLTGTVHDVLVIQPGNNATLYGKVDIQFTKSAAGWQIIDKKASLHNLAQTPPDQEIVHLTKEVEASTQQWLDQPVGYIKGDMTIDDPLQARTRKHPFIEFIQKVQMEASGADISVTALLNNDSKGFSQTVTMRDVVANYMYPNTLVVLELQGADIRAALEKSAAYFTLNENGAIVVNPAFEKPKPQHYNYDMWEGVTYTINVAKPIGNRVEKLCYHGKPITEKENYHVVLNNYRASGGGDYSMFKNKPVVKEIQKDAVELIRAYFEKNQTVDATVTDNFKVTAEA PGPT0021400_1653 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119 NA NA AK015_02739 549 ykoJ COG3212 putative protein YkoJ ATGAAAAAGAAATTAGGGATTATTATCGGAACAATAGCTGGTGCTGCGATTTTGGGTACTGGAGTATATTATTCTAATGCAGATGAAGCAACCCCAAAGCTGGATGGAGATAAAATTAAGAGTATGGTGCAAGAACAATACGATGGTCAAATCACTGAATTTGAATTAGAGACGGATCGCCATAAAGCAGTGTATGAAGTGGAAGTAACAAACAAAAATGTGGAATATGATTTAGAGCTTGATGGGGACAGCGGAGAAGTGTTGAAAGAAAACAAAAAGGAAATCAATCAAACGAAAAATGGGAATAGCGAACAAGCGCAAATAAATGCAGTTAAAGAAGAGTTGATATCTATGGAAGAAGCGAAAAGCATTGCCAAGAAACAATTTGATGGCAAAGTAATGAGCATGGAACTAGATGAAGATGATAACCAATTTATTTATGAAATAGAGCTTAGAAATGGAAAGAAAGAAGCGGAATTTGAGATTCATGCTGAAAATGGAGAAATTCTGAAGCAAGAAATTGAAATAGAGGATGATCATGACTATTAG MKKKLGIIIGTIAGAAILGTGVYYSNADEATPKLDGDKIKSMVQEQYDGQITEFELETDRHKAVYEVEVTNKNVEYDLELDGDSGEVLKENKKEINQTKNGNSEQAQINAVKEELISMEEAKSIAKKQFDGKVMSMELDEDDNQFIYEIELRNGKKEAEFEIHAENGEILKQEIEIEDDHDY NA NA NA NA NA AK015_02740 603 hypothetical protein ATGAAAAGAAAAAAGATGTGGGTTATTATAGCCAGTGCAATAGCAGTAGTTGGCATTGGTTTTACTGTTGTTTATTTTGGAGGTACTGCTTCCAAAGCGGCTATTACGAAGGTGGAAGCAGAGAAAATTATTTCAAGCCAATACCCTGGATCGATAGAAGGAGATATTCAAAAAGAAGAAAATAACGACTACTATGTTGCAAGTATAGAGCATGAAGGAAAACAGTATGAAATAAAGATTCATGAAAAAACTGGAGAAGTTATCCAATTAAACGAAGTATCTGCTGAAAATAAAGCCGATCACAATGCCTCTGAGCAAAAAGAAAATAACGTTACAAAAGGAACAGAAAATAGTGAGCAGGGGAGTGAACGAGACAAAAAGCAAGATAATAATGCTGGACAAAATGTTGTCATAAGTGAAGAAAAGGCGAAAGAATTAGCTTTAGAGGAATTTGCTGGTACGTTTGATGAAATAGAACTAGATGAAGAAGATGGACGCTTTGTCTATGAAGTAAAAATTGTTCATGGGGAAGATGAAGCAGAAATCACGATTGATGCATTTACAGGGGAAATCTTGTTTACAGAAATAGAAAGAGAAGATTAA MKRKKMWVIIASAIAVVGIGFTVVYFGGTASKAAITKVEAEKIISSQYPGSIEGDIQKEENNDYYVASIEHEGKQYEIKIHEKTGEVIQLNEVSAENKADHNASEQKENNVTKGTENSEQGSERDKKQDNNAGQNVVISEEKAKELALEEFAGTFDEIELDEEDGRFVYEVKIVHGEDEAEITIDAFTGEILFTEIERED NA NA NA NA NA AK015_02741 1353 sasA_2 Adaptive-response sensory-kinase SasA ATGACATTAAAAACAAAAATTCAACTATTCACAGGCATTTTTATGCTTATTCTTACTCTGATTATAAACGCTGCTATTTATATGTTGTTTTATAAAGTTTCTGCAGATGGTGACTTACAAAATTTAGCTGATCAGACGGAGCAATTAGTAATAGCCATGAAAGAACAGCCAGATGTTATTTCTAACAAACTATTTCGCTCGTTTGCACCGGCTGAAGGAATGATTCGGGTAGTCGATCAAGATGGAACCATATTTATTTCTGCTCAACAATCAGTACAATATGATATTCCACTTGACTTTAGCTCCAATGAGTCACAGGCTATCGTGAAGCAAGGGAGTGAGCCTGATGTTGCTGTTATCTCCAAACCAATTATTTGGGGAGCAGGGGAACGCGCAGGGGAAGTAGTAACACTTCAGGTTTCCACGCAGTTAACGCATTTGAATAGTACGATGCGGACGTTATTTACGGTTCTTTTAATTGCTACGGTCTTCATGTTAGTGCCTATCATTATCGGTGGGAATGTACTCAGTCGATTTTTATTAAATCCGATTAAATCTTTAATTCAAACGATGCGGGAGAACATGCAAGAAGCTACTTGGAAGAAGATTGATGTTCAAAATCGCTCCAAAGATGAATTGTATGAAATGGAAAAAACATTTAATGCAATGATTGACCATCTAAAAGATAACTTTGAGAAACAGGAGACATTTGTATCGGATGCTTCTCATGAACTAAAAACACCTATTTCCATTGTGAAAAGCTATGCACAGTTAGTGAAAAGAAGGGGAACGGACAATCAACAGCTCGTTCAAGAATCGATGGAGGCAATCGATTCTGAAGCAGATCGAATGGGAAAGCTAGTTGAACAAATGCTAGCATTAGCAAAAAACAAACATCATGCAGCTAAGGAACAAGTGCATATAGTTGCGTTATTAGAAGAGACAGTAACTACTTTCCAAATAGCATATACGAGAGAGATTACCTTTAAGAAGGATGTAAGTGATGAAGTTGTGCTAACAGGAAACAGGGATCAATTGGAGCAAGTATTTTATATCTTGATTGATAATGCTTTGAAATATAGTGAAGATAAGGTTGAGATAGGTATAGAATTGGAACATAAACAGGTGCTTATTAAAGTTCGTGACTATGGTTCAGGTATTCCAGAGGCAGAACAAGCACGCATTTTTGATCGGTTTTATCGTGTGGATAAAGCGAGAAGCAGAGATACTGGCGGGACGGGGCTTGGTTTATCTATAGCTGCTGCCATTGTAAAAGAGCATCAAGGCGAAATTACGGTGCAAAGTAAGGTTGGGGAAGGTGCTACGTTTGTTGTCACTTTTCCCATTGTCTAA MTLKTKIQLFTGIFMLILTLIINAAIYMLFYKVSADGDLQNLADQTEQLVIAMKEQPDVISNKLFRSFAPAEGMIRVVDQDGTIFISAQQSVQYDIPLDFSSNESQAIVKQGSEPDVAVISKPIIWGAGERAGEVVTLQVSTQLTHLNSTMRTLFTVLLIATVFMLVPIIIGGNVLSRFLLNPIKSLIQTMRENMQEATWKKIDVQNRSKDELYEMEKTFNAMIDHLKDNFEKQETFVSDASHELKTPISIVKSYAQLVKRRGTDNQQLVQESMEAIDSEADRMGKLVEQMLALAKNKHHAAKEQVHIVALLEETVTTFQIAYTREITFKKDVSDEVVLTGNRDQLEQVFYILIDNALKYSEDKVEIGIELEHKQVLIKVRDYGSGIPEAEQARIFDRFYRVDKARSRDTGGTGLGLSIAAAIVKEHQGEITVQSKVGEGATFVVTFPIV NA NA NA NA NA AK015_02742 693 arlR COG0745 Response regulator ArlR ATGGAACAACCACGTATATTAATTGTAGAAGATGAACAGAAATTAAGTAGAGTGCTGCAATTAGAATTAGAATATGAAAATTACAAAACAGAAGCGGTATTTGATGGGAAAGAAGCGTTAGCAAAGATGGAACAGCAGAAGTGGGATTTAGTGTTGTTGGATATTATGCTTCCAGAATGGAGTGGGTTAGAAGTATTGCGTAGAGTGAGAAAATTTGACCAAACAACACCAATCCTTTTGTTAACGGCTCGCGATCAAGTACATGATAAAGTGAGTGGTCTAGATTTGGGGGCAAATGACTATATTACGAAACCTTTTCAGATTGAAGAACTATTAGCAAGAATTCGTGTACATTTACGGAATCCGATAAAAAAACAAACAGAGGATGAACAGGTTGGAGTTGGAGATTTACTTGTACATGTAAAGAGCAGAGAAGTCACCCGGGCAGAGAACCAAATTGAATTAACACCACGCGAGTTTGATTTATTAGTCTGCTTATTAAAGAATAAAAATATTGTCCTAACGCGTGAGCAGCTGATCGAACAAGTTTGGGGCTTTGATTACTATGGAGATACCAATGTCGTCGATGTTTATATTCGCTATTTACGGCAAAAAATAGATAAAGGCTTTGACCAAGCTTATATTCAAACCGTTCGCGGAGTTGGCTATACGATAAAGGATATGGAAACATGA MEQPRILIVEDEQKLSRVLQLELEYENYKTEAVFDGKEALAKMEQQKWDLVLLDIMLPEWSGLEVLRRVRKFDQTTPILLLTARDQVHDKVSGLDLGANDYITKPFQIEELLARIRVHLRNPIKKQTEDEQVGVGDLLVHVKSREVTRAENQIELTPREFDLLVCLLKNKNIVLTREQLIEQVWGFDYYGDTNVVDVYIRYLRQKIDKGFDQAYIQTVRGVGYTIKDMET PGPT0004105_770 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665 NA NA AK015_02743 564 ydaF COG1670 Putative ribosomal N-acetyltransferase YdaF ATGAGTAACCCAGTATTAAAAGAATTCCCGCATGAAATCCATACAGAGAGACTACTTATTCGTTTGCCTCTTCCAGGAGATGGAAAAGCTGTTTATGAAGCCGTTCAATATAGTAGACGAGAATTAAAGCAATGGCTTCCTTTTGCTCAAAAAGAGCAAACATTAGAAGAAAGCGAGGTAAATGTACGGGAAGCACAAATTCAATTTTTACAACGAGAAGATTTACGTTTTCATATTTTCGATAAACATACGAAAGTGTTTTTAGGTTGTACGGGGTTACATCGAATAGATTGGAGCATTCCTAAATTTGAAATTGGTTATTGGGTTGACACTAGACATCAAGGGAAGGGGATTATTTCAGAGGCGGTTAAAGCTTTAATGACCTTTGCTTTTGAAGAATTAGGTGCAAATCGAGTGGAAATACGTTGTGATGAAAAAAACGAGCGTAGTCGGGCAATTCCTGAAAAGCTAGGTTTCTCATTAGAAGGAATTCATTATCATAATGCAAGAAGTGTGGACGGCATAAACTTATGCAATACTTGTGTGTATTCTAAATTAGAATAG MSNPVLKEFPHEIHTERLLIRLPLPGDGKAVYEAVQYSRRELKQWLPFAQKEQTLEESEVNVREAQIQFLQREDLRFHIFDKHTKVFLGCTGLHRIDWSIPKFEIGYWVDTRHQGKGIISEAVKALMTFAFEELGANRVEIRCDEKNERSRAIPEKLGFSLEGIHYHNARSVDGINLCNTCVYSKLE NA NA NA NA NA AK015_02744 627 hypothetical protein ATGCTGGCATTAGATCATATCGTTATTGGTGCAAAGAATCCCAAGCAAGCAGCAAAGGATTTTTCTAGCAAATATCATGTAGAAATTGTTCCAGGAGGAGAGCATAAAAATTGGGGGACACATAATTACTTAGCTTATTTTGCCAATGATTGCTACATAGAATGGCTTGGCGTTTTTGATGAACAACGAGCAAAAAAAGCGAGTAATCCGTTAATCGTACAACTTGTCCAAGAGCTAGAACAAGATAAAGAAGGAGTGGTGCAAATCGCATTCAGAACGAATGACATGGAAGATTTCCATGCCTATTTCCAACAAGCATCTATTCCTGCAATTGGGCCTATACCAGGAAGGCGAGAGAAATCGGATGGAACACCCTTAACTTGGAAAATGTTATTTCCTCAAGCAGATGATCCAATGCCCTTTCTTATTGAATGGGAAAAAGGTTATGAGAAATCACATCCTACTTCTTTTATAAACGAACAAATTATTGAACAGGTAAACATAAATCTAATGAATAAGCTTCTTTCTACGTACTATAAACTTCCCGCCAAATCGAAGTTATTATTAGCCAATACAACATTATATATAGAAGAACCCCAAAGCACTTGGTCTTTTACGTTGCATTAA MLALDHIVIGAKNPKQAAKDFSSKYHVEIVPGGEHKNWGTHNYLAYFANDCYIEWLGVFDEQRAKKASNPLIVQLVQELEQDKEGVVQIAFRTNDMEDFHAYFQQASIPAIGPIPGRREKSDGTPLTWKMLFPQADDPMPFLIEWEKGYEKSHPTSFINEQIIEQVNINLMNKLLSTYYKLPAKSKLLLANTTLYIEEPQSTWSFTLH NA NA NA NA NA AK015_02745 321 ydbP COG0526 Thioredoxin-like protein YdbP ATGGAACGTTTAACAACGGAAGCAGCTTTTCAAGACACAATTAAAAGTGACAAGCCTATCATTATTAAATTTTACGCCGATTGGTGTCCAGACTGTAAACGCTTGGACATGTTTATTGGTGATATTATGGACGAATTTAATCAATATGCATGGTATGAAATAAACAGTGATGAAGTGGAAGGTATTGCACAAAAATACGATGTGATGGGCATTCCAAGCATCCTTATTTTTCAAAATGGCGAGAAAAAGGCTCATCAGCATAGCGCCTATACGAAAACGCCGGAATCGGTTAGAGAATTTCTTGAGCAACAATTAGGTTAA MERLTTEAAFQDTIKSDKPIIIKFYADWCPDCKRLDMFIGDIMDEFNQYAWYEINSDEVEGIAQKYDVMGIPSILIFQNGEKKAHQHSAYTKTPESVREFLEQQLG PGPT0013055_9127 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671 NA NA AK015_02746 780 hypothetical protein ATGGGAGCCAGTGATGTTATCCCAGGGGTAAGCGGGGGGACCATGGCTGTATTATTAGGTATATATGATCGACTCATTGCAGCGATTAATGGATTTTTAAGTAAGAATTGGAAACAACAATTAGGATTTTTAGTTCCACTAGGAATGGGTGTTGCCATTGCAATATTAACATTAAGCCATGTGATTAATTGGTTGTTTAAACATTACGCCGGACCGACACAGTTCTTTTTTTTAGGGCTAATTCTTGGTATATTGCCATACTTGTTTTATAAAGCAAATGCTAAAGAAACATTTAAAGGAAACCATATTTTGTTATTGCTAATAGGAATGGTTCTTGTTGGGTCTATGATGTTCTTAAATACAGGAGAGCAAACGATTATTACAAACTTGACTACTTCAACATATCTATTGTTGTTTGCTTCTGGAATTATTGCCAGCAGTGCTATGATTTTACCAGGAATTAGCGGCTCATTTTTATTATTAATTTTTGGTGTCTATCGCACTATTACAAATGCAATTACGGAATTTAAACTCGACGTGTTGGTTGTTACTGGTTTAGGGGTTTTAATTGGACTCGTCTTCATGAGTAAAATGGTCAATTACTTTTTCAAAAGATATACGATCGCTACGTATGCTATCATCATTGGTATGGTAATTGGTTCCATTTTTGTCGTATTTCCAGGTTGGCCTGCTTCAATAAATTTAGGTTTGCTTAGCATCGGTGCTTTTGCAGCAGGTCTTACTGCGGCTTATGTATTAGGAAGAGTCGAGTATGTGTAA MGASDVIPGVSGGTMAVLLGIYDRLIAAINGFLSKNWKQQLGFLVPLGMGVAIAILTLSHVINWLFKHYAGPTQFFFLGLILGILPYLFYKANAKETFKGNHILLLLIGMVLVGSMMFLNTGEQTIITNLTTSTYLLLFASGIIASSAMILPGISGSFLLLIFGVYRTITNAITEFKLDVLVVTGLGVLIGLVFMSKMVNYFFKRYTIATYAIIIGMVIGSIFVVFPGWPASINLGLLSIGAFAAGLTAAYVLGRVEYV NA NA NA NA NA AK015_02747 969 hypothetical protein ATGCTAATTCATAGTCAAGTGTATGAAGATGCAAAAACGGAGACAGGATATGATTTTACACCAATGCTAAAAGAAGTAAAACCGTACCTTGAGGATGCTACGATAACCATTGCAAACCAAGAAACGATGATTGGCGGAGAAGCGATTGGCTTATCTTCTTATCCAACATTTAATAGCCCGTTTGAGGTAGGGGATGCTTTAAAAGATGCTGGCGTTGATGTTGTAACATTAGCGAACAACCATACCCTTGACAAAGGGGAAAAAGCTATTCAACGTGCTATCGAGCATTGGGAAAAAATTGATTTGATGTATACAGGTGCTTATAAAAATGAAGAGAATCAATCTAAACTGCGAATCCTTGAAACTGCAGAAGGCATCGATGTAGCTTTTCTTGCTTATACGTATGGAACGAATGGAATTCCTGTTCCTGAAGGGAAAAACTATCTAGTAAATGTAATAAATAAAGAGCAGATGGCAAAGGAAATAGAAAAAGCGAAGCAACAAGCTGATGCCGTCATACTAAATTTACACTTTGGAACGGAATATCAAATGCTACCAAATGAAAATCAAAAGGATCTAGCACAATTTGCTGCTGACCAAGGAGTGCATGCAGTCATTGGTCACCACCCGCATGTGTTGCAGCCTGTTGAATGGGTTGAAGGAAAAAACGGCAATAAAACGTTTGTTGCGTACTCATTAAGTAACTTTTTATCTGGACAGGACGAGCTGTATCGTCGATTTGGCGGAATTTTGAAGTTTACTTTAACGAAAAGTGAGAATGAAGAAATAGAGCTTCATACACCCGCATTTTTACCGACCTTTGTTCGTTACAAGGATGAAGCGGACTATCAAGTGGTACCAATGAAACAGGTGACAGATAAAGAATTAGAAGGTGCGAAAAACTATTATAAAGAGATAACGGGTCATATGCGGAAGTGGTTGCCAGAGTTAGAGATTATTGAACCGTAA MLIHSQVYEDAKTETGYDFTPMLKEVKPYLEDATITIANQETMIGGEAIGLSSYPTFNSPFEVGDALKDAGVDVVTLANNHTLDKGEKAIQRAIEHWEKIDLMYTGAYKNEENQSKLRILETAEGIDVAFLAYTYGTNGIPVPEGKNYLVNVINKEQMAKEIEKAKQQADAVILNLHFGTEYQMLPNENQKDLAQFAADQGVHAVIGHHPHVLQPVEWVEGKNGNKTFVAYSLSNFLSGQDELYRRFGGILKFTLTKSENEEIELHTPAFLPTFVRYKDEADYQVVPMKQVTDKELEGAKNYYKEITGHMRKWLPELEIIEP NA NA NA NA NA AK015_02748 177 hypothetical protein ATGAAACGAAAAGGAATTATTTTCATAGCTGTTTTTCTAATTGCGTTTAGTTTACTTGCAGGATGTAACGATACTACGGCTAGTGAATCTAAAGGGCATGAAAAAAAGGCGGCAAAAGTAGATAAAAACCCCCCCCGAAACAAGAGATTTCTATTGCTGCAATTGGAGATATGCTAA MKRKGIIFIAVFLIAFSLLAGCNDTTASESKGHEKKAAKVDKNPPRNKRFLLLQLEIC NA NA NA NA NA AK015_02749 159 hypothetical protein ATGCGAAAAACGCAATATCAACCAACTAAAAATAAACAGCTAACAGATGCGCAAGAAGTTCACTACAGCAAAGACTTCAAACAAGCTGATATCGCTGGTGGGTATCGTCAGACGCGCGTAAAAGAAGCAAAGTACAATAATCCCGAACTAAAAGATTAA MRKTQYQPTKNKQLTDAQEVHYSKDFKQADIAGGYRQTRVKEAKYNNPELKD PGPT0014725_7 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014725-yfhE-NA NA NA AK015_02750 918 bcrA_2 Bacitracin transport ATP-binding protein BcrA ATGTCTTCAGCTGCAATGGAATTAGTCAATTTGAAAAAGACAATTGGCAAAAAAGAAATTATTAAAGGCTTATCCTTTTCCATTCCAAAGGGGGAAGTATTTGGCTTCATCGGACCAAATGGGGCTGGTAAAACGACCACAATCCGCATGATGGTTGGATTAATGAGTATTACAGAGGGCGACGTCCTGATCCAAGGAAACAGCATAAAATCCAATTTTAAAGATGCCGTACGAGAAGTCGGTGCCATCGTTGAAAATCCGGAAATGTACCCGTTTTTAACTGGTTGGCAAAACTTAAAACACTATGCTCGGATGATGCCAGGCGTAACAAAAGAACGGATACATGAAGTAGTCAAATTCATCGGTCTTGAAAAAGCAATTAATGAAAAGGTCGGTAGATATTCTTTAGGAATGCGCCAACGACTGGGAATAGCGCAAGCGCTTTTACATAATCCGTCCGTACTCATTTTGGATGAGCCAACAAACGGATTAGATCCAGCCGGCATCAGAGAAATACGAGATCATATACGTAAACTTGCCCAAGAAGAGAACGTGGCAATTATTATCTCTAGTCACTTGCTTTCTGAGATTGAACAAATGTGTGATCGTATCGGTGTCATTAAAAACGGAGAGATCATTAAAATTCAAAACGTCGGTGAGGAAACAGACAAAGAAGAAGTAATTCATCATATTGAAGTTACTCCAATGGATAAGGCAATGAAAACCTTAAATGAAGCTTTCCAGCTGGAATCCGTTGAACTTGATGGTAATTTATCTTTTCGCTGTAAAAAAGAGCAAGTTCCAGAAGTTGTTAAAAGATTAGTAGAAAATGATTGTGACATTTATCAAGTCAATGTTGCAAAAGGCACGCTAGAAGATCAATTCTTTGAACTGATTGGAGAGAATACGATTGAGTAG MSSAAMELVNLKKTIGKKEIIKGLSFSIPKGEVFGFIGPNGAGKTTTIRMMVGLMSITEGDVLIQGNSIKSNFKDAVREVGAIVENPEMYPFLTGWQNLKHYARMMPGVTKERIHEVVKFIGLEKAINEKVGRYSLGMRQRLGIAQALLHNPSVLILDEPTNGLDPAGIREIRDHIRKLAQEENVAIIISSHLLSEIEQMCDRIGVIKNGEIIKIQNVGEETDKEEVIHHIEVTPMDKAMKTLNEAFQLESVELDGNLSFRCKKEQVPEVVKRLVENDCDIYQVNVAKGTLEDQFFELIGENTIE PGPT0006725_12856 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_02751 963 hypothetical protein TTGAGTAGAATGTTAAAGCTAATTCAAAATGAACAAGGGAAAATTTTTATTCGTAAATCAACTTGGATCATGTATATTATTTTAGCCGTTCTTATATTAGGTTTAGCTCTATTAACCAATAGTTTAGATGGGCTAAAAAGCGAGTATGATGGTGACAATTGGCGTGAAGAGATGAAACAAGAAAATGAACAATTACAGAAAGAGATGGAAGATCTAGAAGGTATGGGAAATGCGGAGGACTACCAAGCTTCCATCATTGCTAAAAATAATTATTACTTGGAAAATGATATCCAACCAGCTCCATATACAGCTTGGACTTTTGTTGATGAAAATATATCTTTGCTATCGATTGTTAGTTTATTTACGATTATCATTGCCGCCGGAATTGTTGCTAACGAATTTCGCTGGGGCACGATTAAATTATTATTAATTCGTCCCATCAGGAGAAGTGGCATCCTATTATCCAAATATATTACCGTCTTACTATTCGCCCTTTATACAGCACTATTCGCACTCGTACTCATGTGGATTTTTGGAGCAATCTTCTTTGGAATTGGCGACTGGAACCCTTCTATTGTGGTAGAAGGAGAAGATGGTTTTAAAACCGTATCGCTAGTAGCTAATATATTTACTAGCTTTGGTTTCAAACTTGTGAATCTGGTAATGATGGCTACGTTTGCGTTTATGATCTCTGCTGTTTTCCGTAATAGTTCATTGGCAATAGGTATTGCTATCTTCCTTATGATGGGGGCAAGCTCCATTGTTACTTTCTTCGCTGATAAAGAATGGGCGAAATATATTTTGTTCGCGCACACAGACTTAAGCCAATATATGGATGGAAACTTCCTCATGCTTGAAGATAATACGATGGGCTTTTCTATAGCCGTATTAGTCGTATACTATGCCATTTTCATGTTACTGTCATGGATTGTTTTTACAAAGCGCGACGTTGCTGGTCAATAA MSRMLKLIQNEQGKIFIRKSTWIMYIILAVLILGLALLTNSLDGLKSEYDGDNWREEMKQENEQLQKEMEDLEGMGNAEDYQASIIAKNNYYLENDIQPAPYTAWTFVDENISLLSIVSLFTIIIAAGIVANEFRWGTIKLLLIRPIRRSGILLSKYITVLLFALYTALFALVLMWIFGAIFFGIGDWNPSIVVEGEDGFKTVSLVANIFTSFGFKLVNLVMMATFAFMISAVFRNSSLAIGIAIFLMMGASSIVTFFADKEWAKYILFAHTDLSQYMDGNFLMLEDNTMGFSIAVLVVYYAIFMLLSWIVFTKRDVAGQ PGPT0006730_8959 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_02752 180 hypothetical protein GTGAAACGTTACTTAACAGTTTTTTTTGTTGGTTTAAGTGCAGTTATCTTAGTAGTTGGATTAAGAATAAATACCCAATGGAGTGGTGTTGTTTCCTGGGGGCTTACTTTTGTCTTCCTTATTTGTGCTGCTTATTTTACTAAATACATTCCTGACGATGATGAAGAAAGTAACGAATAA MKRYLTVFFVGLSAVILVVGLRINTQWSGVVSWGLTFVFLICAAYFTKYIPDDDEESNE NA NA NA NA NA AK015_02753 273 hypothetical protein ATGCAAAGATTATGGAAGCGCGTTCGTTTTTTGTTTACGTTTCACCGATCCATTCCTTTCTTTAAGGATTTTTTTGCGTCCAAAGAGGTAAGTTTGACTAAAAAAATTTTCTTTGTATTGCTGATCTTAGGATATTTTATTTTTCCATTTGATATTATCCCTGATTTTATCCTAGCATTTGGGATTATTGATGATGTGTCCATTGCTATATTTTTATTGCAATGGATGGTAAAAATGGCACCAGCAGCAATGAAGGAAAAATACTCTTTTTAA MQRLWKRVRFLFTFHRSIPFFKDFFASKEVSLTKKIFFVLLILGYFIFPFDIIPDFILAFGIIDDVSIAIFLLQWMVKMAPAAMKEKYSF NA NA NA NA NA AK015_02754 1821 typA COG1217 GTP-binding protein TypA/BipA ATGCAATTAAGAGAAGATATTCGTAACATAGCGATCATAGCTCATGTGGATCATGGTAAAACAACGTTAGTAGACCAGTTATTAAAGTATTCTGGTACTTTCCGTGAGAATGAGCATGTGGATGAACGAGCGATGGATTCTGGAGACATTGAACGAGAACGAGGAATAACGATACTGGCTAAAAATACAGCCATTAAATATAAAGATACGGCAATTAATATTTTAGACACGCCAGGTCACGCTGATTTTGGTGGTGAAGTGGAACGGATCATGAAAATGGTGGACGGGGTAGCATTAGTGGTTGATGCTTATGAAGGTACGATGCCACAAACACGCTTTGTACTAAAGAAAGCACTGGAACAGAAGTTGACCCCCATGGTTGTGTTAAATAAAATTGACCGTCCAAATGCGAGACCAACGGAAGTAGTAGACGAAGTATTAGATTTATTTATTGAATTAGGAGCAGATGATGAGCAGCTTGAGTTCCCGGTTGTCTATGCTTCCGCGTTAAATGGTACCTCAGGGTATGAAGCTGATGAGCAGGAAGAAACAATGGATCCGGTTTTTGAAACGATACTCGACCATATTCCTGCACCAATTGATAATCGTGATGAGCCATTACAATTCCAAATTACATTGCTTGATTACAATGACTATGTAGGTAGAATAGGAATTGGTAGAGTTGTACGAGGAACGATAAAAGTTGGTCAACAAGTTGTAATTCTGAAAAAAGATGGCACGCAAAAATCGTTTCGAATTACCAAACTGTTTGGATTTATTGGCTTGAAACGGATTGAAATTCAAGAAGCCTTATCCGGAGACGTTGTAGCAGTTGCTGGGCTAGAAGATATTAATGTAGGAGAAACGGTTTGCCCGCAAGATCATCCAGAAAGTTTGCCATGGTTGCGCATTGACGAACCAACCTTGCAAATGACGTTTCTTGTAAACAATAGTCCATTTGCTGGCAAAGAAGGGAAATACGTTACTGCAAGAAAAATTGAAGAACGCTTGTTAAAACAATTAGAAACGGATGTAAGTCTGCGTGTCGATCCAACGGATACACCAGATGCATGGACTGTATCGGGACGTGGGGAACTGCATTTGTCTATTTTAATCGAGAATATGCGCCGTGAAGGTTTTGAACTGCAGCTATCTAAACCAAAAGTAATTATTAAAGAAGTGGATGGCGTGCAATGTGAACCCGTTGAACGTGTACAAGTGGATGTGCCTGAAGAATATACAGGCCCAATTATGGAATCACTCGGTTCCAGAAAAGGCGAAATGCTCGATATGGCAAACCAAGGAAATGGACAAGTACGCTTGGAATTTAAAGTGCCTTCTCGTGGACTGTTGGGCTATGCGACTGAGTTTATGTCACAAACACGTGGTTATGGTATTTTGAACCATACGTTTGAAGGTTATGAGCCTGTTATTAAAGGGCAAGTAGGTGGAAGAAGAGAAGGTGTACTTGTTGCTTTAGAAAATGGAAAAGCCTCCACTTATGGGATTATGCAGTTAGAAGATCGGGGTGTTATTTTCGTCACACCTGGAACAGAAGTATATGCAGGTATGATTGTAGGGGAACACAATCGTGACAATGATTTAACTGTAAATATCACAAAAGAAAAGCATTTAACCAATGTCCGTTCTGCGACGAAAGATCAAACTGCGACGATTCGTAAATCACGTAATATGTCATTGGAAGAAGCCTTGCAATATTTAAATGAAGATGAGTATTGTGAAGTAACGCCTGAATCCATTCGACTACGGAAAAAGATTCTTAATAAAAATGAACGTGAAAAAGCAGCGAGAAGAAAATAA MQLREDIRNIAIIAHVDHGKTTLVDQLLKYSGTFRENEHVDERAMDSGDIERERGITILAKNTAIKYKDTAINILDTPGHADFGGEVERIMKMVDGVALVVDAYEGTMPQTRFVLKKALEQKLTPMVVLNKIDRPNARPTEVVDEVLDLFIELGADDEQLEFPVVYASALNGTSGYEADEQEETMDPVFETILDHIPAPIDNRDEPLQFQITLLDYNDYVGRIGIGRVVRGTIKVGQQVVILKKDGTQKSFRITKLFGFIGLKRIEIQEALSGDVVAVAGLEDINVGETVCPQDHPESLPWLRIDEPTLQMTFLVNNSPFAGKEGKYVTARKIEERLLKQLETDVSLRVDPTDTPDAWTVSGRGELHLSILIENMRREGFELQLSKPKVIIKEVDGVQCEPVERVQVDVPEEYTGPIMESLGSRKGEMLDMANQGNGQVRLEFKVPSRGLLGYATEFMSQTRGYGILNHTFEGYEPVIKGQVGGRREGVLVALENGKASTYGIMQLEDRGVIFVTPGTEVYAGMIVGEHNRDNDLTVNITKEKHLTNVRSATKDQTATIRKSRNMSLEEALQYLNEDEYCEVTPESIRLRKKILNKNEREKAARRK PGPT0023720_3403 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207 NA NA AK015_02755 1269 nprA_3 Transcriptional activator NprA TTGTTAGACATAGGTTCTATTATTAAATTGCAGCGAACGAAACGTAATATGACACAAGAAGAATTATCAGCAGGTATTGTTTCTTTATCCTATTTATCAAAAATAGAAAATCAAAAAGCAAAAGCCAATCCGGAAATCATTCAATCGCTCTGTAATCGCCTAGACATTGAGCTTGTAGAAACGCCAGATATACAATTAGAAGAAAAATGTAAGCAATGGTATGACATCCTCTATGACCGTTTTGATAAAGAAGAAATGATAGCTAAATTTGAAGAATTGCAAGAAGTAATGAATCGAAGTATTAACGACCAAACTATCATGTTTGAAATTCATCAAATTCGTTATTATGTAGTCTTACGCGACTTAAAACGTGCTTTACATAAGATGAATGAACTCCACGAAATGGCTGATTCATTTAATTCTACACATAAATATTACTGGAATAAATTTAAAGGGAATTACTACTCCTTTAAAGAAAAACCTCAACAATCTTTGCAATGCTATCAACAAGCGGAGAAAACAATTCGATTAGCTGATATTAACGAAAGTGAAGTTGCTGATTTGCATTATGCGATATCTATTGAATATAGCAAACTATTAAATGGATTAGAAACGATTAATTATGCTAACAAAGCTATGGTCGTGTTTCAACAAGAGTACAATTTTGTACGTTGTGCGCAATGTCATATCTTGCTAGGTATTTCATACCGACGAATTAGAATCAATGAGCTTGCGCTAGAAAATTATAACCAAGCAATGTATCTAGGTAAGTTAAGCAACAATAAAGATGTTATTCAGTTGGTCTACCTTAATTTAGGCCGGTTTTATTCAACTATTGGGGATTTAAAACATTCTACTAAAAATTATTTACTCGCCTTAAATACTGCAGACTTAAATTTTGAAATTAAACTAGATGTGTTTGCCAGCTTAATACAGAACTTTTATCAAAATAAGGAATACACACAAGCGAAAGAATATTTGCAACTTGGGAAAGAAGTGCTGAGTCTAGCTCAAGGCAAAGAGTATTATAAATTTTATCATTACACACTTCAAGTGTATACACACCTGCTAAATGAAGAGTTGAACAAACTTATCGTAGTATTAGAAGATGCATTTTTACCGTATTTAAAGCATAAAAAAGACTATCGACATTTAGTATTTTATGCAGTATTGATAGCATCCCAATTTGAAAAAGTGGGAAAATATAAAAAGTCTACACAGTATTATAAGTTAGCCAATAGTAATTATGACCAATTAATAAAATGGTAA MLDIGSIIKLQRTKRNMTQEELSAGIVSLSYLSKIENQKAKANPEIIQSLCNRLDIELVETPDIQLEEKCKQWYDILYDRFDKEEMIAKFEELQEVMNRSINDQTIMFEIHQIRYYVVLRDLKRALHKMNELHEMADSFNSTHKYYWNKFKGNYYSFKEKPQQSLQCYQQAEKTIRLADINESEVADLHYAISIEYSKLLNGLETINYANKAMVVFQQEYNFVRCAQCHILLGISYRRIRINELALENYNQAMYLGKLSNNKDVIQLVYLNLGRFYSTIGDLKHSTKNYLLALNTADLNFEIKLDVFASLIQNFYQNKEYTQAKEYLQLGKEVLSLAQGKEYYKFYHYTLQVYTHLLNEELNKLIVVLEDAFLPYLKHKKDYRHLVFYAVLIASQFEKVGKYKKSTQYYKLANSNYDQLIKW PGPT0011700_164 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QUORUM_SENSING_REGULATORS CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480 NA NA AK015_02756 147 hypothetical protein ATGAAAAAAACGATTGTTTCATTTACTTGTGGAGCACTTCTAATTGGGGGCATTTTGTTTACTAGTAATGTGCAAAATGAGGACAAACTAGCAGTATCTGCAGACGTACCTAAACCTACATCCATCGATAATACAAGTGATTTTTAG MKKTIVSFTCGALLIGGILFTSNVQNEDKLAVSADVPKPTSIDNTSDF NA NA NA NA NA AK015_02757 285 qoxD Quinol oxidase subunit 4 ATGAAGGAATTATTTCCAGCTAAACACGTATCGGGTTTTGTGTTCTCGCTCATTCTTACAGGTGTCGCCTTACTTGTTTATTTCATGGATATGTCATTTGCTGTAGGGATGACCATCCTTGTCATTACCGCATTTGCCCAAGCAACGTTGCAGTTAGTTGTTTTTATGCACGCTGGGGAATCATCTGATAAAAGATCGATTTATATTAGTGTCATATACGGAATTATTATAGCGATAGCTACAGTTTTAGGTACGCTATTAGCAATGATTTGGGGTTATGTATAA MKELFPAKHVSGFVFSLILTGVALLVYFMDMSFAVGMTILVITAFAQATLQLVVFMHAGESSDKRSIYISVIYGIIIAIATVLGTLLAMIWGYV NA NA NA NA NA AK015_02758 597 qoxC Quinol oxidase subunit 3 ATGCAAATAGATAAAACAAAACCACTGGAGTATAGCACAGAGCAAGGACGTTTAAATATTTTAGGCTTTTGGATATTTATTGGCGCTGAAGTGATGTTATTTGCTACCCTGTTTGCTTCTTACTTTACATTAGTAGATCGAACAGGAAGCGGTCCTTCAGGATCGGAAATTTTTGAATTAACGCCTGTTTTAATTGAAACGTTACTTTTATTAACAAGTAGTTTTACAATTGGTCTTGGCGTGCATGCAATGAGATTAGGTCGTACAAAGGCAATGCTGACCTTTTTCATCATCACGTTGGTATTAGGTCTTGCTTTTCTAGGTGTCGAGATTTATGAATTTGTGCATTACGTACATGTTGGTGCAGGTTTACAAACGAGTGCGTTTACTTCTATTTTATTAACGACACTAGGGACACATGGACTACACGTAACCTTTGGCCTGTTCTGGGGTGTTATGATCGTTATGCAAGTGATGAAACGTGGGTTAACACCAGCAACAGCGAATAAATCATTCATTTTCTCCCTTTATTGGCACTTTTTAGATGTCGTTTGGATTTTCATCTTCAGCTTCATCTACTTGAAAGGAATGATGTAA MQIDKTKPLEYSTEQGRLNILGFWIFIGAEVMLFATLFASYFTLVDRTGSGPSGSEIFELTPVLIETLLLLTSSFTIGLGVHAMRLGRTKAMLTFFIITLVLGLAFLGVEIYEFVHYVHVGAGLQTSAFTSILLTTLGTHGLHVTFGLFWGVMIVMQVMKRGLTPATANKSFIFSLYWHFLDVVWIFIFSFIYLKGMM PGPT0004035_2642 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276 NA NA AK015_02759 1947 qoxB Quinol oxidase subunit 1 ATGGAGTTTTTTGAACGATTTGCCATACCGCATCCCAGTCCTGCCATATATGCATCTATGGTTGCTATCGCTTTAACGACCATTGCGGTCGTTGTAGGGTTAACCTATTTTAAAAAATGGGGTTATTTATGGCGCGAGTGGTTGACAACGGTGGACCATAAGAAAATAGGTATTATGTATATGATTTCTGCATTATTAATGCTATTTCGGGGTGGAGCAGATGCGTTAATGATGCGCGCACAAACGGCTGTACCTGAGAATACATTACTTGATGCACAGCACTATAATGAAATTTTTACAACACATGGTGTCGTGATGATTATTTTCATGGCTATGGCGTTTATTATTGCATTAATGAACTTTGTCATTCCGTTGCAAATTGGTGCACGTGATGTAGCATTTCCACGCTTAAATGCACTTAGTTTTTGGCTTTATTTTATGGGGGCAATGCTCCTTAATATATCATTCGTTATTGGTGGGTCACCAAGTTCTGGTTGGACATCGTATTTTCCGCTTGCAGGAAATGAACTCAGTCCATCTGTAGGAACGAATTATTACATGCTTGCACTACAAATTTCGGGATTAGGTACGCTGATAACGGGGATTAATTTTATCGTAACGATTTTAAAAATGCGTGCTCCAGGTATGACATTAATGAAAATGCCAATGTTTACATGGGCTGGTTTAATTACAAACGTTATTATCGTATTTGCGTTCCCAGTATTAACGGTTGCTTTAGCAATGGGTACGATGGACCGTTTATTTGCAACTAATTTCTTTACTACGACAGACGGTGGTATGGATATGCTTTGGGCCAACCTGTTTTGGGTTTGGGGCCATCCAGAAGTATACATTTTAATACTACCTGCATTTGGTATATACAGTGAAATTATTCCAACGTTCGCTCGCAGGAATTTATATGGCTACACAACGATGGTTGTTTCAATGGTCGTTATATCTTTATTGTCCTTTGTCGTTTGGGTACACCACTTCTTTACGATGGGGCAAGGTGCGCTTGTAAATAGTATCTTCTCTATTACAACGATGGCGATTGCCGTACCGACAGGAATAAAAATATTTAACTGGCTGTTTACGATGTGGAAAGGGAAAATCCAGTTTACTGTTCCGATGCTGTATTCGTTAGGTTTTATTCCAATCTTTACGATTGGTGGCGTGACAGGAGTTATGCTAGGTATGGCTTCTGCGGATTATCAATATCATAATACGATGTTCTTAGTAGCCCACTTCCACTTAGTTATTATTCCAGGTGTCGTATTTGCTATGATCGCTGGTTTAACGTACTGGTGGCCGAAAATGTTTGGCTTTATGCTAAACGAACGAATTGGTAAATGGGGCTTCTGGTTTGTTGCTGGAGGTACAGTTCTAGCATTCTTCCCAATGTTTATCTCTGGTTTAGATGGGCAAGCACGTCGTATGTATACCTACTCGGAGGGAACAGGCTTTGGAATTTGGAATATGCTTTCCTTTGTGGGCGCCATCGGTTTAGCGATCGGTTTTGCGCTGCTTGTATACAATATCTACTATAGTACGAGATATGCGTCTAGGGACATTGGAGACGATCCATGGAATGCGCGTTCTTTAGAATGGGCAACACATAATCCAGTACCTGAATATAACTTTGCCATTACACCGCAAGTGAATTCTAATGAGGCGTTCTGGGATGCGAAAAAACGTGGACATAAACTATTTAAAGCTGGCTACAAAGATATTCATATGCCAAACAATAGTGGTATTCCATTTATTATGAGTGTGTTTTTCTTCATCTTCGGTTTTGCGTTTATCTTTAGTATGTGGATTACGGTTATCGTTTCATTAATTGCTATTTTAGCTTGTATGACATACCGTTCCTTTGAAAAGGACGATGGTTATCATATTACTGCTGAAGAACTAAAGAAAGCAGAATCGGAATTGCGAGGTGCTAAATAA MEFFERFAIPHPSPAIYASMVAIALTTIAVVVGLTYFKKWGYLWREWLTTVDHKKIGIMYMISALLMLFRGGADALMMRAQTAVPENTLLDAQHYNEIFTTHGVVMIIFMAMAFIIALMNFVIPLQIGARDVAFPRLNALSFWLYFMGAMLLNISFVIGGSPSSGWTSYFPLAGNELSPSVGTNYYMLALQISGLGTLITGINFIVTILKMRAPGMTLMKMPMFTWAGLITNVIIVFAFPVLTVALAMGTMDRLFATNFFTTTDGGMDMLWANLFWVWGHPEVYILILPAFGIYSEIIPTFARRNLYGYTTMVVSMVVISLLSFVVWVHHFFTMGQGALVNSIFSITTMAIAVPTGIKIFNWLFTMWKGKIQFTVPMLYSLGFIPIFTIGGVTGVMLGMASADYQYHNTMFLVAHFHLVIIPGVVFAMIAGLTYWWPKMFGFMLNERIGKWGFWFVAGGTVLAFFPMFISGLDGQARRMYTYSEGTGFGIWNMLSFVGAIGLAIGFALLVYNIYYSTRYASRDIGDDPWNARSLEWATHNPVPEYNFAITPQVNSNEAFWDAKKRGHKLFKAGYKDIHMPNNSGIPFIMSVFFFIFGFAFIFSMWITVIVSLIAILACMTYRSFEKDDGYHITAEELKKAESELRGAK PGPT0004025_108 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274 NA NA AK015_02760 966 hypothetical protein ATGAAATTGAAATGGGCCATATTAGGAGCTCTATTCACATTAACAGCAGTACTAACTGGCTGTGAACCGTTAACGGTGCTTGATCCAAAAGGTCCACAAGCACAAACGCAAGCAGATGTGATTTGGATCTCTATTGCTATTATGGCATTTATCGTTATTACTGTATTTGTAATGCTAGTATATATACTTATCAAATATCGAGGTTCGAAACAAGCCGATTCCTATGAGCCTCCACATATTGAAGGAAATAAAATAGTAGAAAGTATTGTAGTAGGAATACCAATTATTATTGTGGCTGTGCTTTCTATTATTTCTGTACAAAGCACGTATGAGGTAGAGGCTAAGCCAGAAGGGTATGGAGATAAAGAACCATTAGTTGTTTATGCATCCTCTTCTGACTGGAAATGGCATTTCAGCTACCCAGAACAAGATATTGAAACAGTCAACTATCTTTATGTGCCAACAGATAGACCGCTAGAATTTAAGTTATATTCTTATGGACCAATAACAAGTTTTTGGATTCCGCAACTAGGCGGGCAAAAATATGCGATGTCAGATATGATTACGACATTACATTTAGCAGCTGATGTTCCTGGTGAATTTATGGGACGTAACTCCAATTTTAGTGGGGAAGGATTTGCTGAGAACACGTTTAATGTAACGGCAATGCCGCAACAAGAGTTTGATGATTGGGTAAAAGAAGTAAAGCAAACGGCTAAACCACTAACAGAAGAAAAATTCGATGAGTTATTGGAACCTGGCCATTTAGGACAATTAACATTTACTGGAACTCATCTTGGCTTTATGCCACCACCTAAAGGGCATCATGAGGGTCATGGAGCAGGTGGAGAGGATCATAGCGAGCATTCATCACATGAGAGCGAAAACGCAGAGCATTCCGAACATGATAATAATAACAATGAGCATGATCATGAATCAGATGAAGCGGCAAGTCACAACGAGTAA MKLKWAILGALFTLTAVLTGCEPLTVLDPKGPQAQTQADVIWISIAIMAFIVITVFVMLVYILIKYRGSKQADSYEPPHIEGNKIVESIVVGIPIIIVAVLSIISVQSTYEVEAKPEGYGDKEPLVVYASSSDWKWHFSYPEQDIETVNYLYVPTDRPLEFKLYSYGPITSFWIPQLGGQKYAMSDMITTLHLAADVPGEFMGRNSNFSGEGFAENTFNVTAMPQQEFDDWVKEVKQTAKPLTEEKFDELLEPGHLGQLTFTGTHLGFMPPPKGHHEGHGAGGEDHSEHSSHESENAEHSEHDNNNNEHDHESDEAASHNE NA NA NA NA NA AK015_02761 507 hypothetical protein ATGAAAAATTCTTCCAAGCGACCACAAATGAAAATTCCTAAGACAAGAGGAGAGCGAATTTGGAATGCTATTGGTTATACGATTTTTTTAGGAACAATCATCTTTGTTATATGGGTATGGAAATATATACCAAATGAAGTACCAGCTCATTTTAATAGCGCTGGTGAAATCACACGATGGGGTTCAAAGTGGGAATTGCTTATTATACTTATACCTGGTATTTTTACTGCGACATTTATGGGGGTGATGGAGAGGTACCCTGAATCACATAATTATCCAAAGCGTTTTAATGAAGCAAATGCCAAAGCTTTTTATTTGCATAGTAGAAAAATGATGAATCAATTAAAGAACATTTGTCTGATTATTTTTTCAATCATTACATTGGAAAGTATATTTATTGCAATGAGCTGGTGGGAAGGTTTAGGTGTTTGGATGTTACCACTTCTTATTACATTCGCATTTTTTCCGTTAATTTTAAGCTTCATGAAACGAAGGAAAATTAAATAG MKNSSKRPQMKIPKTRGERIWNAIGYTIFLGTIIFVIWVWKYIPNEVPAHFNSAGEITRWGSKWELLIILIPGIFTATFMGVMERYPESHNYPKRFNEANAKAFYLHSRKMMNQLKNICLIIFSIITLESIFIAMSWWEGLGVWMLPLLITFAFFPLILSFMKRRKIK NA NA NA NA NA AK015_02762 1545 ybiT_2 COG0488 putative ABC transporter ATP-binding protein YbiT ATGAGTTTATTAGACGTGCAAAACCTAACCCATAGTTATGGTGACAAAACCGTATTAAAAGATATATCTTTTCGATTACTAAAAGGAGAGCATATTGGGCTTGTTGGACCTAACGGAGCTGGGAAATCAACCCTGTTTCATATTCTTACTGCATATATAATCCCAGATGAAGGAACTGTACAATGGCACCCTAAAGCCCATGTTGGAAGCTTAGAACAGCATATCCATCTAAATAGCGGTCAATCAATCAGACAGTTTTTACAAACAGCTTTTCAAGATTTATTTTTAGCCGAAGAAGAAATGCTAGCTATTACAGGGAAGATGGCTTCTGCCAAACCAGAAAACCTAGATGAATTATTGCATCACTATAGCAAACTTCAAGCAAAATTAGATCAACATGACTTCTATCAAATTCCCGCTAAAATAGAAGAAGTAGCGACAGGACTTGGAATTTCACAACTTGGGCTAGAAACAGACGTAAGTCAATTAAGTGGCGGACAACGAACAAAACTATTGTTGGGCAAGTTACTGCTAGAAGAGCCTGATATATTATTATTAGATGAGCCGACAAACTACTTAGATACTGCTCATATTGCATGGCTCACATCCTATTTACAAACGTATCCGCATGCTTTTATTCTCATTACACATAACACAGGTTTTATGAACAAAGTCGTGCAATGTATTTACCACCTTGAGCACAACCAATTAACAAGATATCCGGGAAATTATGAGCAATTTCTTCAAGCATATGAACTACGGAGAAGACAAATTTATCTTGAATATCAAAAACAACAAGAAGAAATTAGCAAATTAGAAACCTATATTCAAAAAAACAAAGCACGTGCCTCTACCGCCAAACAAGCGAAAAGTAGAGAAAAGAAGTTAAACAAAATGGAACGTGTGGAAAAGCCAAGCCATAACCCAAAACCTATTTTCAACTTTTCCGTTTCAGCACAACCGGCAAACATCGTACTGGAAACAAAAGACTTAACTATCGGTTATGAAACAGCCTTGTTTTCTGATGTAAATGTAAAATTACAACGTGGTGAAAAAATCGCCTTAACAGGTCATAATGGAATAGGAAAAACGACCACTTTAAAGACATTACTAGGAAAGCTACAACCCCTAAATGGAAATGTAAGCATTGGCGATCGCGTACGACCAGCTTATTTTGAACAAGAGATGCCAGCGGTCGGAAAACATACGGCCTTAGAAGAAGTCTGGAACGCGTATCCTGATTTGACCCAAAAAGAAATAAGAAAAACGTTAGCGCGTTGCGGACTTCGCTCAGAACATATTTTTCAAAAGCTGCACTCTCTTAGCGGTGGAGAACAATCAAAAGTAAGGTTATGCAAGCTAATGCTTGCTAAAAGCAATGTGCTAATTCTAGATGAACCGACCAACCACTTAGATGTTGCGACAAAAGACGCTCTTATGGAAGCTTTACAACAATATACCGGAACATTAATACTTGTTTCCCATGAACGGGAATTTTATGAAAATTGGATCACTAACATTTGGAACATGGAAGATTGGAAATAA MSLLDVQNLTHSYGDKTVLKDISFRLLKGEHIGLVGPNGAGKSTLFHILTAYIIPDEGTVQWHPKAHVGSLEQHIHLNSGQSIRQFLQTAFQDLFLAEEEMLAITGKMASAKPENLDELLHHYSKLQAKLDQHDFYQIPAKIEEVATGLGISQLGLETDVSQLSGGQRTKLLLGKLLLEEPDILLLDEPTNYLDTAHIAWLTSYLQTYPHAFILITHNTGFMNKVVQCIYHLEHNQLTRYPGNYEQFLQAYELRRRQIYLEYQKQQEEISKLETYIQKNKARASTAKQAKSREKKLNKMERVEKPSHNPKPIFNFSVSAQPANIVLETKDLTIGYETALFSDVNVKLQRGEKIALTGHNGIGKTTTLKTLLGKLQPLNGNVSIGDRVRPAYFEQEMPAVGKHTALEEVWNAYPDLTQKEIRKTLARCGLRSEHIFQKLHSLSGGEQSKVRLCKLMLAKSNVLILDEPTNHLDVATKDALMEALQQYTGTLILVSHEREFYENWITNIWNMEDWK NA NA NA NA NA AK015_02763 1422 nhaC_3 COG1757 Na(+)/H(+) antiporter NhaC ATGTACCGTATAAAAGCTGTCCAATCGCCTTCGCTTCGAGAATCTCTATTTGTAACAGTGCTTATTATATGTATCATTAGTTTGAGTATCATTTTTGTAGAGGCAGCACCACATGTTCCGCTAATTATTTCTTTGCTAGTTCTTTGTGTTTATGGGATATTCAAGCGGGTTCCATACAGGCTTTTGGAGCGGGGAATTGCAGAAGGAGCCAAATCTGGAATGGGAGCAGTTTTTATTTTTTTCTTTATTGGAATATTAATTGCTGCCTGGATGGCAGGTGGAACGATTCCGACTATGATGTACGCAGGATTCCAGTTGGTGACACCAAATTTTTACTTTGTCATTGTCTTTATTGTCACTGCTCTTATTGGGCTTGTCGTCGGTAGTTCTTTAACAACGATTGCTACAGTAGGTGTTGCCTTTATTGGTATTTCTGGTGCAGTTGATGCTTCTTTAGCTATTACTGCAGGGGCAATTGTTTCTGGAGCATTTTTTGGAGATAAAATGTCACCATTATCAGATACAACGAATATGGCATCATCCACATTGCAGGTAGATTTATTTGAACATATAAAGAATATGATGGGAACAACGATTCCCGCATTTATCATTACGTTACTTATTTTTTTCTTTATATCGCCTAATCTAATAGATGCCAACTTCGAAAGAATGGCTAATTTCCAAACAGGGTTATTAAAGACTGGTTTAATTCATTGGGAAAACGCTGTGATTCCATTTCTCGTGTTACTCATTTTTTCGATTAAAAAGGTGCCAGCTATTATAACATTGGCAGCGGGGTCCATAACCGCTATAGGTATTATGTATCTTCATCAATCCCTATCTATAGGTCAGCTTTTTGGTACACTTATGGATGGATTTCATTCCTACACAGGGGTTGAGGCTATTGACGCTTTGTTAACGCGCGGTGGAATCAATGGCATGTTATTTACTATTAGTCTTGTGTTACTTGCCCTAAGTATGGGTGGGTTACTGTTTACACTCGGAATAATTCCTCGCTTACTTGTATCCATTGATCATCTTTTAAATAGAGTGTTTTCCGTTGTCTTGGCTTCTGCTACAACGGCAATTGGAATTAATGTTTTAATTGGTGAACAGTATTTATCCATTTTGTTAACGGGTGAGACATACCAACCTCGCTATGCTAAGGTAGGCTTGGAAAACAAAAATTTATCTAGAGTTTCTGAAGATGCTGGAACAGTGATTAACCCCCTCGTACCATGGAGCGTGTGTGGCGTTTTTATTACGTCCGTGTTGGGCGTATCTACTTTGGCTTACTTACCATTTGCATTTTTCTGTTTACTTTCTCCGTTATTAACGATTTTATATGGATTTACCGGTTGGACATTAACCTATACGAAGCAAAATAAAAATTTCACCAATGAAGCCATAGTAGGAGAGTAG MYRIKAVQSPSLRESLFVTVLIICIISLSIIFVEAAPHVPLIISLLVLCVYGIFKRVPYRLLERGIAEGAKSGMGAVFIFFFIGILIAAWMAGGTIPTMMYAGFQLVTPNFYFVIVFIVTALIGLVVGSSLTTIATVGVAFIGISGAVDASLAITAGAIVSGAFFGDKMSPLSDTTNMASSTLQVDLFEHIKNMMGTTIPAFIITLLIFFFISPNLIDANFERMANFQTGLLKTGLIHWENAVIPFLVLLIFSIKKVPAIITLAAGSITAIGIMYLHQSLSIGQLFGTLMDGFHSYTGVEAIDALLTRGGINGMLFTISLVLLALSMGGLLFTLGIIPRLLVSIDHLLNRVFSVVLASATTAIGINVLIGEQYLSILLTGETYQPRYAKVGLENKNLSRVSEDAGTVINPLVPWSVCGVFITSVLGVSTLAYLPFAFFCLLSPLLTILYGFTGWTLTYTKQNKNFTNEAIVGE PGPT0013945_815 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315 NA NA AK015_02764 1128 pdh Phenylalanine dehydrogenase TTGAAGCAAGTAGAACAATTGCAAGAGGTAGACCTGTTTCAAAAGATAGCGAATCACGAGCAAGTTGTTTTTTGTAATGATCGTCAGTCTGGGTTGAAAGCAATTATAGCTATACATAATACGACGCTAGGACCTGCTCTAGGCGGCACACGTATGTATCCTTATTCAAGTGTTCAAGAAGCTTTGGAAGATGCCCTTCGTTTATCGGAAGGGATGACAGCGAAATGTGCAATAAGTGACGTAGATTTTGGAGGAGGTAAGGCGGTCATCATTGGTGATCCGAATAAAGATAAATCGCCTGCTATGTTTCGAGCACTCGGTCAGTTTGTAGATTCATTAAATGGCAGATTTATCACCGGAACAGATATGGGAACAAGTATGAACGATTTTATTCATGCAGCCAAGGAAACGAAATTCATTAATGGTATTCCAGAATCATTTGGAGGAAGTGGTGATTCATCCATACCAACTGCCAAAGGCATCCTATATGCTTTAAAAGCGACAAACCAGTTTTTGTTTCATAACGATTCTCTTGATAGGGTGTATGCCATACAAGGTTTGGGAAAGGTTGGAAGAAAAGTTGCTGTACATTTGTTAGAAGCTGGTGCATTTGTATATGTTACGGATGCTAATGAAAGCGTTATCAAAAGTTTTTTAAATGAAGTAAGAGATAAGCAACATTGTATTCAAGTTGTTAGTGCAGAAGAAATATATCGAGTAAATGCTGATATCTTTATGCCGTGTGCGATAGGGGGGATTATTAATGAAGAAACAATTCAATTGCTCAACGTAAAGGCTGTGGTTGGATCAGCTAACAACCAGTTAGCATGTGACAAATATGCAGCGTCTTTGACTGAAAAAGAGATTCTATATGCGCCTGATTATATTGTTAATGCAGGAGGACTTATTCAAATTGCTGATGAGCTATATGGGGTGAATAAAGAACGTGTACTGAAAAAGGTAGCTTCTATATATGATACAATACTTCAATTATTTAAGGATGCCCAAGATGCTAATATTACTACGGTAGAAGCGGCGCGTAGGGAATGCGAGAGAATGTTAGATGAGCAGCAGCACCGAAATAATTTTTATAGTCGTAGCCGAAGACCCAAATGGGATATAAAGTAA MKQVEQLQEVDLFQKIANHEQVVFCNDRQSGLKAIIAIHNTTLGPALGGTRMYPYSSVQEALEDALRLSEGMTAKCAISDVDFGGGKAVIIGDPNKDKSPAMFRALGQFVDSLNGRFITGTDMGTSMNDFIHAAKETKFINGIPESFGGSGDSSIPTAKGILYALKATNQFLFHNDSLDRVYAIQGLGKVGRKVAVHLLEAGAFVYVTDANESVIKSFLNEVRDKQHCIQVVSAEEIYRVNADIFMPCAIGGIINEETIQLLNVKAVVGSANNQLACDKYAASLTEKEILYAPDYIVNAGGLIQIADELYGVNKERVLKKVASIYDTILQLFKDAQDANITTVEAARRECERMLDEQQHRNNFYSRSRRPKWDIK PGPT0020440_41 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020440-pdh-K00270 NA NA AK015_02765 396 hypothetical protein GTGAAAGAAGGTTTGTATATTGGCCAATCGAAGCAGATGACGGTAGAAGTCAAAGAGGAAATGGTAGCCCAATTCAATGGAGAAGTAATTCATCCTGTGTATTCAACAGCCTCTATGGTTTATCACATGGAATGGGTGTCAAGGCAATTACTAATTCCTTATTTAGAACAGGATGAAGAAGGAATGGGCGCTGCAGTAAGCGTTGAGCATATTGCTCCTTCGGGTGTAGGTACTACTATTCATTTAGAGGCTACTGTTATAGAGGTGAGTAAAAGAGAGCTACTGACAAAGGTTTACGTAACAAATGAGCATGGAAGGATTGGCAAAGGAAAGGTAAAACAAGTAGTCTTACCGAAAGAAGTTATTCAAGAAAAAGTGCGTATCGCAACGAAGTGA MKEGLYIGQSKQMTVEVKEEMVAQFNGEVIHPVYSTASMVYHMEWVSRQLLIPYLEQDEEGMGAAVSVEHIAPSGVGTTIHLEATVIEVSKRELLTKVYVTNEHGRIGKGKVKQVVLPKEVIQEKVRIATK PGPT0015215_1 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 AK015_02766 285 hypothetical protein ATGGAATTGAGCAAATTAGATCAAGCATTTCATGATATTATCATTCAAGCTTCAAAAAATAAACAGCTCATGGAGTTACTTGAAAACATAAGGACAAAAATTCATTATATGCGGATTACAATGATAAAGGGAGAATTCTACCCTTCTTTTGTAAAAGAGCATGAAAAGCTAGTTGGCTTTTTATTAGAAGGTAAGGTGGAAGAAGCGACAAATTCCATGAAGGTGCATATCCAAAAAGGCTTAAGAGGAGTATTGATGTATATTGGTAAAGTTCAGTCCAGATGA MELSKLDQAFHDIIIQASKNKQLMELLENIRTKIHYMRITMIKGEFYPSFVKEHEKLVGFLLEGKVEEATNSMKVHIQKGLRGVLMYIGKVQSR NA NA NA NA NA AK015_02767 234 hypothetical protein ATGCGTATTGTCAAACCAGAATCACTTCATCTACAAACGTATGCTATCTTGAAAGAAGAAATATTAGAAGGAGCGTATCGACCAGGGGAGCGTGTTGTGGAAGCCAAAATTGCTAATCAATTAGGAATAAGCAGAGGGCCGGTAAGAGAGGCTTTTCGTATGCTGATTCAAGATGGGTTATTAATCTACAATGATGGTTTTGTAAGGGTTTACCATCCATTAATCTTGCTATAG MRIVKPESLHLQTYAILKEEILEGAYRPGERVVEAKIANQLGISRGPVREAFRMLIQDGLLIYNDGFVRVYHPLILL NA NA NA NA NA AK015_02768 1410 yhdG_2 COG0531 putative amino acid permease YhdG TTGAATGATTCGGATAAGCTTTTAAAGATACTTAGTAATAAAGATGTGCTGGCACTTGCTTTTGGAGCAATGATTGGCTGGGGATGGGTTGTTACCTCGGGACTATGGATTACAGAAGCGGGCTCTTTTGGGGCTATTCTGGCATTTGCAATTGGTGGTTTACTGGTTGTGTTTGTAGGTTTAACATACGCTGAATTAGCTTCTGCTCTTCCACTTGTTGGTGGGGAGCATGTATACACATTTAAAGCAATGGGGAGAGGGGCTTCCTTTGTAGCGACATGGTCAATTATTCTTGGCTATGTATCCGTGGTAGCTTTTGAAGCTGTTGCGTTGCCAACTGTATTTGAATATATGGTGCCTGATTATAGTCAGGGATATTTATATACCATAGCAGGATGGGATGTTACAGTAACCTGGGTAGGGGTCGGCATGATTGGTTCTCTAACAATAGCTTGGATTAACTATCATGGTATTAAGTTAACAACTGTTATTTCTGTAATTTTAACCGCTTTCATTCTTGCGGCAGGAATCATGTTAATTACCGGAAGTACATTTGGTGGAAATATGGACAATATGCAGCCACTCATTAAAGCAGGTACAACGGGTATATTTACTGTAATTATTATGACGCCTTTTATGTTTGTAGGCTTCGATGTAATACCTCAAGCAGCGGAAGAGATTAATTTGCCACAGCGGAAAATTGGTCAACTTCTTATCGTATCGGTTATTTTAGCAGTTATCTGGTATATTGCCATTATTTTTGGAGTATCACGTATTTTAAACCCTGAAGAACTCGCTGCGTCAAATTTAGTAACAGCTGACGCCATGGCAAAAGCGTTTGGAGATAGTAATTTAATGGGGAATGTTCTCGTACTCGGTGGCATTGGAGGTATTTTGACAAGCTGGCTTGGCTTTTATGTGGGAGGGAGTCGAGCCATTTATGCGTTAGCAAATGCTGGAATGCTACCAAAGGCTTTGGGAAAATTACATCCGAAATACAAAACACCTTATCGAGCAATTATATTAATTGCAATACTTTCAACAGCAGCACCATTACTTGGCAGACCCTCCCTTGTCTGGTTAGTTAATTCAGGTGGGTTAGGGCTTGTGGTTGCATGGCTAATGGTGTCCATTTCATTTATTTTGCTAAGAAAAAGAGAGCCACATATGAATCGGCCTTTTAAACTACCTGGTGGAACTTTCATTGGCTGGATTGCTGTACTTATGTCTATTGGTGTGGTTATACTTTATATGCCTGGCATGCCATCTTCTTTAGCATGGCCGTATGAGTGGTTTATTATTGGGGCATGGACCATTTTAGGATGTATTTTGTATACTTATTCAATAAAGAAGTATGGGAAGTCATATGCTAACGAATATATGAAGAAAGAGTTAGATCGGATAGCTTAG MNDSDKLLKILSNKDVLALAFGAMIGWGWVVTSGLWITEAGSFGAILAFAIGGLLVVFVGLTYAELASALPLVGGEHVYTFKAMGRGASFVATWSIILGYVSVVAFEAVALPTVFEYMVPDYSQGYLYTIAGWDVTVTWVGVGMIGSLTIAWINYHGIKLTTVISVILTAFILAAGIMLITGSTFGGNMDNMQPLIKAGTTGIFTVIIMTPFMFVGFDVIPQAAEEINLPQRKIGQLLIVSVILAVIWYIAIIFGVSRILNPEELAASNLVTADAMAKAFGDSNLMGNVLVLGGIGGILTSWLGFYVGGSRAIYALANAGMLPKALGKLHPKYKTPYRAIILIAILSTAAPLLGRPSLVWLVNSGGLGLVVAWLMVSISFILLRKREPHMNRPFKLPGGTFIGWIAVLMSIGVVILYMPGMPSSLAWPYEWFIIGAWTILGCILYTYSIKKYGKSYANEYMKKELDRIA PGPT0020810_3630 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 AK015_02769 1347 spuC COG0161 Putrescine--pyruvate aminotransferase ATGCGTAGTTTGACCGAGTTGGATAAGAAGCATTTCATCCATCCAACATCATCGATACAAGAGCAACAACATAAGGGTGCGAAGGTAATAATGAAAGAAGGGGACGGTATTTATTTAACAGATGTTACTGGTAAAACATATATCGATGGTGTTTCTTCTCTATGGAATGTAAATGTCGGACATGGAAGAGTAGAATTGGCAGAAGCTGCTGCTCAACAAATGAAAAAAATGGCATTTAGTTCTGCTTTCTCCACGTTTAGTCATGAACCAGCAATCAGGCTCGCTGAGAAAATTGCTTCTATAACTCCAGAAGGATTGAATGCGGTGTTTTTCACATCAGGAGGCTCTGAATCAAATGACTCAGCGGTGAAGCTTGTGCGTCATTATTGGAAAATACAAGGAAAACCAAACAAGCGAAAAATTATTTCTCTGAAACGCAGTTATCATGGTGTGGCTGCTGCTTCTACAAGTGTAACGGGAATTCCAGAATTTTGGGGAATGGCTGGTCATATGATGACAGACTTTCTTCATGTCGACACCCATTATAATAATACGACAGAACAAGCCGTTCAGTCACTTTGTCAAGCGATTGAGGAAGCAGGTCCAGAAACAATTGCAGCTTTTTTTGCGGAACCTGTTCAAGGAGCAGGAGGAGTTATTATACCGCCTGAGGACTACTTCCTTAGAATAAGAGAAGTTTGCAATGCTTATGGCATTCTATTTGTAGCAGATGAAGTGATTACGGGTTTTGGAAGAACAGGGAAGATGTTTGGGATCGAGAATTGGGATGTTATTCCGGATGTCATGACTTTTGCTAAAGGAGTGACAAGCGGTTACTTCCCTCTTGGAGGGGTTGTTGTCTCCGATCCCATACATGAAGTGTTAAAGGAAAAATCTGTTGGTACGCTATTTCACGGTTTTACTTATAGTGGACACCCAACTGCTGCCGCGGTCGCATTAAAAAATATAGCAATAATAAAAGAAGAACGTTTGGTAGAGAATTCAAAACGAATGGGAGACGCGCTTTTACATGGATTAAAAAAGGTGAAAAATCGTCTGGAAATTGTAGGGGACGTCCGATTTGTTGGATTACTAGGTGCAGTTGAGCTGATGCAAAATCCGGCTACGAATAAGCCCTTTTCCTCCAATCTACAGGTGGCTCCTAAAGTAATAGAAGCGCTACATGAACTTGGGGTTATTTGTCGCAGTGTTACGTATGACCATACGAATATCATTTGCCTTGCCCCTCCGCTAATTATAAATCAGAAGCAGGTGGATAAATTAGTAGAAGTTATCTATGAAGCCATTTTGAAAGTACAGCAACAGCTTGGAATAAAAGCGGAGTAA MRSLTELDKKHFIHPTSSIQEQQHKGAKVIMKEGDGIYLTDVTGKTYIDGVSSLWNVNVGHGRVELAEAAAQQMKKMAFSSAFSTFSHEPAIRLAEKIASITPEGLNAVFFTSGGSESNDSAVKLVRHYWKIQGKPNKRKIISLKRSYHGVAAASTSVTGIPEFWGMAGHMMTDFLHVDTHYNNTTEQAVQSLCQAIEEAGPETIAAFFAEPVQGAGGVIIPPEDYFLRIREVCNAYGILFVADEVITGFGRTGKMFGIENWDVIPDVMTFAKGVTSGYFPLGGVVVSDPIHEVLKEKSVGTLFHGFTYSGHPTAAAVALKNIAIIKEERLVENSKRMGDALLHGLKKVKNRLEIVGDVRFVGLLGAVELMQNPATNKPFSSNLQVAPKVIEALHELGVICRSVTYDHTNIICLAPPLIINQKQVDKLVEVIYEAILKVQQQLGIKAE PGPT0007865_859 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256 NA NA AK015_02770 372 hypothetical protein ATGAACATAAATGCTGTAAATAGGTCATTAATGTTTTGGGATAATGGAATAAAAAATAAAGAAGAGACATTGTATTCGAAAGATGGAAATAATGAAAAAGAGAAAAGGGATGGAAAGGTAGAAGTTGTAACAGTTAACGGACGCACAAAAACGTATTTGGTGTTAGCTGACGGTAAGAGGATTTTAATTGCAGATGAAGTAAGTAAAGATCAGTTGCAACAAAATGTTAGTTCGCAAGAGCAAAAGGAAAGTAACGCTTCTGAAACAATGGAATTTTTAAACCATCTATTGGGGGGAGGGTCTTCAAGTTTCGTAGGCTTCCAGGTCAGTAATCTTCAAGAAGAAAAAAGTTATGGACGAGAAGAGAATTGA MNINAVNRSLMFWDNGIKNKEETLYSKDGNNEKEKRDGKVEVVTVNGRTKTYLVLADGKRILIADEVSKDQLQQNVSSQEQKESNASETMEFLNHLLGGGSSSFVGFQVSNLQEEKSYGREEN NA NA NA NA NA AK015_02771 498 hypothetical protein TTGGGATTATCAGTAAGAAAGGCGAATACAACAGATATAGACGATATAAAACAAATCTTAATGGAAGCTGCACGTTGGATTGAAAGACAAGGAATTAATCAGTGGGAATTCCTGTTAGCAGACGATCAAGATGAAGAAATAAAAGCAAATATAGAGGAAGGGACAATGTATGTAGCAGAAATGAATCATAAAATTGTTGCTACATTTTACCTTGGTTTTACTCAAACCGAATTTGATATAAAGGTATGGGGAGAAAGAAAGGATAACGCCTGTTATTTACATCGGTTGGCTGTTCATCAAGATTATCGCGGAAAACAAATCGGAAAACAAGTTATAGATTGGATAGTGTCCCATTTAGATAAAGAGACTGTGCTTAGATTGGATTGCGTTGCGGAGAATCCGGGGTTAAATCGGTTCTATCAACAATACGGCTTCAACTTTGTAGGAAAAGAAAAAGAAGGGGAAAAGGAGTTCTCTTTATATGAAAAATTGATATAA MGLSVRKANTTDIDDIKQILMEAARWIERQGINQWEFLLADDQDEEIKANIEEGTMYVAEMNHKIVATFYLGFTQTEFDIKVWGERKDNACYLHRLAVHQDYRGKQIGKQVIDWIVSHLDKETVLRLDCVAENPGLNRFYQQYGFNFVGKEKEGEKEFSLYEKLI NA NA NA NA NA AK015_02772 540 hypothetical protein TTGTCAAAAGACTATAAGGAAAGTATAAAGTACAAGTTAAAAACAATCGATTATCATATTGGTAATTGCCTTAAGATAGCTCGTTCTCAAGAAATCAACGAAAAAAACATTGTTGCAATCACAGCGGAACTTGACGCCATCATGGTGGCTTACCAATCTTGTCTTGATTATTTAGCTCGATTAATAAAAAGAGAAAGAAATTTACCTAAAGATCGTTCACGATTTTATTTTACTGATCTACATTGCCGTTTAAGTTCGTATGGTGAAAAAACAACTGATTTAGCCGATGAAATCAGAAGCTTATTTAAAAAATCACAGTATCTAAGAGATTTCTCTAACACCATAAAACATGAAAAAGTAATCTATCAATCCAACAAACAAGTAAAGATTAATGATTCTACTGTTTACAATTTAATAGAAATAGATTCTTTCCAAAAAAATAAAAAAGAAGAATATAACAGCATAACTTTAGAAGGATTCATATACTATTTCATAAAAACACTACGCCAAGATATTGTTACGCTTATGAACAAAGTTTAA MSKDYKESIKYKLKTIDYHIGNCLKIARSQEINEKNIVAITAELDAIMVAYQSCLDYLARLIKRERNLPKDRSRFYFTDLHCRLSSYGEKTTDLADEIRSLFKKSQYLRDFSNTIKHEKVIYQSNKQVKINDSTVYNLIEIDSFQKNKKEEYNSITLEGFIYYFIKTLRQDIVTLMNKV NA NA NA NA NA AK015_02773 693 hypothetical protein ATGGAATTTAACGGGAAAAGAAACGAAAGAATTATAGTTAATGCAAAAGAACGCAAAAAGTCTCCTTATGCTGGGTTAAATCGTGATATAACCAATAGACGTGTAAGAAAAACAGAAACAGACTTACTAGACATTGAACAACCAATATCTTTTGTTGCAAAAGATGATGAGAGAAAGATAAGTATGATACGTCAGTTGACAGATTGGCTGATAACGAAAGACTGGTCAATATTAAGTTTTGATGATGAACCCGGCCAAAGTTATGAAGCTATTTTAATTAGTGATATGAGTGACTTTGCTAGAGAGTCTTGGCTGTGGTTTGGGACGTTGAGGTTTGTAGCGAGAGCAACTCTAGGACAAACTCACAATCTAACCATACAAACACAACCAACACCAACAACAACAATAACTGGCCAAGAAAAAACACCGTGGAAAATTCGTACGGTGTTTGAAGTACCACAAGAAAGATTCACTTTGGAAACTAGCAATGGCTTGTACATCTTGCTTAATTACAACTTTATTGCTGGTGATGTGCTAGAAGTAGATTATACGACTCGCAGCGCTACTTTAAATGGCAAAAACATAGACACTGCAATAAGCATTAAGTCTGTTTTTAAAGAGTTAGAGCCTGGACAAATAGAGTTTGTTGCTAGTCATAAGAGTACGGTTAGTTATACGGAGAGGTATTATTAA MEFNGKRNERIIVNAKERKKSPYAGLNRDITNRRVRKTETDLLDIEQPISFVAKDDERKISMIRQLTDWLITKDWSILSFDDEPGQSYEAILISDMSDFARESWLWFGTLRFVARATLGQTHNLTIQTQPTPTTTITGQEKTPWKIRTVFEVPQERFTLETSNGLYILLNYNFIAGDVLEVDYTTRSATLNGKNIDTAISIKSVFKELEPGQIEFVASHKSTVSYTERYY NA NA NA NA NA AK015_02774 3891 hypothetical protein ATGGCAATTGGTGGCTCTCCTGTAGGAAATATGGTCATTAAAGTTGATCTTGATAGCACAGGTGTAGAGAAATCCATGACAGGGTTGCAAAGACAACTCAAGTCATCCAACAAAGCAATGGGAGCCCAGCTCTCAGCATTTGATCGTGGCGAAAAATCATCCAAGAAATATGGCGTGATGATTGAAGGTTTGAATAATAGACATCGCATTCAAGCGCAAATGGTTGAAGAAGCTAGAAAGAAATATCAATCCATGTCTAGAGAATATGGAGAAAACAGCACAAAAGCGCAAAAGGCTTCCCAAGAGTTGAATGAACAAATAGCCAAATATCAAGAAACTACCAGAGAATTAGATAAGGTTACTGCTGAATTTAAAGAGTTTCAGCGTGTACAAGATATGCAATCAAGAGGTTGGTATAAAGTCGCTGACGGGATGGAGCGTTATGGAGGTAAGTTAAAAAACGCTGGTAGAGCAATGGATAATACGGGTCAAACGTTAACGCGTAACGTGACTGTTCCTTTAGGTATCGTTGGTGGTCTAGCTATTAAAACTGGAATGGATTTTGAAGCAGGCATGTCTAAAGTTAAAGCCGTTTCTGGCGCAAGCGCTGGCGAAATGGAAAAACTAGAAGCTAAAGCACGAGAAATGGGCAAAACCTCTGTGTTTAGTGCCAAAGAAACAAGCGATGCTTTTTATTACATGTCACTAGCTGGTTGGGATGCCACGGAAATGATGGATGGTATTTCTGGCGTTATGGACTTGGCAGCCGCATCTGGTGAAGATTTAGCGAGCGTGTCGGATATTGTGACAGACGGATTAACAGCATTTGGAGAATCTGCCAAAGAGAGTACTCGCATGGCTGATATTTTAGCTGCCACATCTTCTAAAGCAAACACTGATGTTAAAGGTTTAGGTCTTGCTTTTCAGTACACCGCACCTGTCGCTGGAGCATTAGGTTATACCATGGAAGATACATCTAAAGCGATTGGGTTAATGGCAAATGCAGGTATAAAAGGCGAAAAAGCAGGTACTGCATTACGTACTATGATGACTAACTTATCAAAACCAACAAAGCAAATGGAAACCGCCATGAACAAGTATGGTATTTCTCTAACAGATTCAGAAGGCAATATGAAATCATTTGATGATGTTATGAAAGACTTGCGTAAAAACCTTGGTAAGTTGGATAAGAAACAACAAGCGGCGGCAGCGGCAACTATATTTGGTAAAGAAGCTATGTCAGGAGCGCTTGCAGTAGTTAACGCATCCGAAGGTGATTACAAAAAATTAACGAGCGCCATTGAAGGTTCCGAAGGCGCTGCTAGTGAAATGGCTAAAACTATGCAAGACAACTTAAAGGGAAATTTGAAAGAATTAAAATCCATGATGGAAGATTTGTTTATTGAAGTCTATCAAAATCTCAAACCGTCCTTAGAGGTTACTGTGGAGAAGGTCAAAGATTTAACAGAATGGTTTTCAAATTTAAGTCCTAAAACTCAAGAAAATATTATTAAGTTTGGGTTACTCTCAGCTGCGGCAGGTCCTGTATTAAGCGTATTTGGTAAGTTGTCAATTGGAACAGGCGTATTAATGCAAGCTACTGGAGCATTAACCAAGTCAATTGGAACAGCAGGCGGTAAAGGTGCATTAGGTGCAATTTCAGGACTATCAAGAGGCGGCGTTGTCGGTTTAGCTATTGCTGGTGTTGCGGCGTTATCCGTCGGTGTATATAAGTTAGTGAAAAACTCAAAAGAAGTAGAAGAAGCTAACCTTGATGTAGCTAAATCTTTAAACGATCAAGCGATAGAACTTGATAAAAGCGCTGATACATTTGACAGGCTATCAAGTAAAGCAAAAATAAGCAATGAACAACTAGCTGAGCTAAATGATCTGAATATAAGAATATCCCAGTCTAGTAATCCGGGCGAAATTGATGAATTACAGAAACAATATAATAATCTTGCTAAGGAAAGTGGTCTATCTAAAGATGAACTTAAAGAGTTATTCAAAGCTAATGAAAACATTATTGACCAGACACCAGATGTTAAAACGAATGTAAGTGAACAAGGTAATGCATTTGCGAAGAACACTGATGCTGTAAACGAGTATGTTGAATCGTTATATGAAATGACTAGAACCGAATTAGAAGGTCAGCTATCGGCTGCACTTTCCGAAAGAGCGAATACGCAACAAGATATCAACAACTACCAAAAAGAGCTTAATGGTTTGTTAGACGAAATGAGTATAAAAAATCAAGCGTCTGAATTATCCATGAAAGAAAACAAAGCACGTCAACAAGAAATTAACAAACTATTACAAGACAGAACAATTGAAGAAGGTAAGGCTAATTCGCTAAAACAAGAATTAACAGCATTAATGGATATCGAAAATGGAGACCATGCCAAAGCTGTTAACCATTTGCAAAATAAAATTAACAAGAAGCGTGAATCAATAGAAGAAAGTGAACAAGAACTTGCCAAGACTGCTGCGTTAAAGCAAGAGATGCAGAACATTATCCTAAAACAAGCAGGCATAAACGCCGAAGGACAAAAAGGTTTAGCACAACTTGATCAATCTATCATTAAAAACAACGAAGAAATTCTTGCACTTGAACAGAAGCGTCAGAAAAACGGAGAACTTACTGCCGAAGAACAAAAACGTTATGATAAATTAGTAGCTTCTAATAAAAAACAACAGGAAGCTAAGTTGTATATTTTCGAAGAACTAGGTCTTTACAATAATATTAATTCTCTGTTAGACACTAAGCTATCAAAGCTAAATCAGACGAAACAAAGGAAGATCGAGGACTTAGCCAAAACAGCAGAGATTAAAGTAGAAGAAGGAAACATTGTAAAACAAATTCAAAATAAAAACAACAAGCTCCTAGAAACAAGAGATAGGTTAGTGAAAAACCTAGAAAAAGAGGGAGCAAACAAGCAAGAAATCAGGAATCAAATATCAGCTTTAGATACTAAAATCGGTAAAAATGATGATGTGCTTAAGAAAATCCTTAAAGAAGCAGACTTGTGGGATAAAGTTAAAGGTAAAATAGATCTCGGTTCCAACGCTCTTGATAGGCAAGGCGGGAAAATCGACAATAACAACAAGAAAACCGATAGAGGTATCAGACTTGAATATAGACGCACCAAAGAGGCAAGCAAAGATGTTACCAAAAAAGTTGACGTCACAGACATGCGTACTATTTATGACCTTAACAAAAGGGCGATGAAGATGATAGAAAAGCCCGTAAAAGCTGACGATAATGGTTCGATCGCTTCCTTGGATAAAAAAGCAAAATCTCCTGTAGATAAGGTCATTAATTTTGTCGGTAAAGGGTTGAGTGCATTAAAGTTTTGGGCACATGGTACACCGCCAAGTGGACACCCTGGAGGACATGCAGTACTTGGTGACGGTAAAGGGAATAATGCTGGTAATGAGTTAGCACGATTACCTAATGGCAAGATGTTTTTAAGTGCCGACAGACCAACTCTATACCCAAACTTACCAAAGGGTACGCACGTATTACCCGCAAGAGAGACCAAACGTATATTAAAGTCAGCACCAAGGTATGCGCAAGGTACTAAAAACTGGCAAAGCCTTGTTGAGCCAAGTAAACTACGAAATAATGAGTTTATGGCTTTGTTGGCTTTAAATGCTAAAGATAGTAAAACAACGGTTGAGGTTCCTGCTCCTAGTGGTGGTAATAAGAGTAAAGACTACACCAAAGACCTATTAGATGCAACATTAGAGCAAAACAATATCTTAATGCAGATACTTGCTAAGGATAGTAATGTGTATTTGGATAAAAAAACTTTTGCAAGAGAAATTGAACCGGATATAACCCATCGACAAAGTAGAAAATTAAAAAGGAGAACTCCTCATGGAATTTAA MAIGGSPVGNMVIKVDLDSTGVEKSMTGLQRQLKSSNKAMGAQLSAFDRGEKSSKKYGVMIEGLNNRHRIQAQMVEEARKKYQSMSREYGENSTKAQKASQELNEQIAKYQETTRELDKVTAEFKEFQRVQDMQSRGWYKVADGMERYGGKLKNAGRAMDNTGQTLTRNVTVPLGIVGGLAIKTGMDFEAGMSKVKAVSGASAGEMEKLEAKAREMGKTSVFSAKETSDAFYYMSLAGWDATEMMDGISGVMDLAAASGEDLASVSDIVTDGLTAFGESAKESTRMADILAATSSKANTDVKGLGLAFQYTAPVAGALGYTMEDTSKAIGLMANAGIKGEKAGTALRTMMTNLSKPTKQMETAMNKYGISLTDSEGNMKSFDDVMKDLRKNLGKLDKKQQAAAAATIFGKEAMSGALAVVNASEGDYKKLTSAIEGSEGAASEMAKTMQDNLKGNLKELKSMMEDLFIEVYQNLKPSLEVTVEKVKDLTEWFSNLSPKTQENIIKFGLLSAAAGPVLSVFGKLSIGTGVLMQATGALTKSIGTAGGKGALGAISGLSRGGVVGLAIAGVAALSVGVYKLVKNSKEVEEANLDVAKSLNDQAIELDKSADTFDRLSSKAKISNEQLAELNDLNIRISQSSNPGEIDELQKQYNNLAKESGLSKDELKELFKANENIIDQTPDVKTNVSEQGNAFAKNTDAVNEYVESLYEMTRTELEGQLSAALSERANTQQDINNYQKELNGLLDEMSIKNQASELSMKENKARQQEINKLLQDRTIEEGKANSLKQELTALMDIENGDHAKAVNHLQNKINKKRESIEESEQELAKTAALKQEMQNIILKQAGINAEGQKGLAQLDQSIIKNNEEILALEQKRQKNGELTAEEQKRYDKLVASNKKQQEAKLYIFEELGLYNNINSLLDTKLSKLNQTKQRKIEDLAKTAEIKVEEGNIVKQIQNKNNKLLETRDRLVKNLEKEGANKQEIRNQISALDTKIGKNDDVLKKILKEADLWDKVKGKIDLGSNALDRQGGKIDNNNKKTDRGIRLEYRRTKEASKDVTKKVDVTDMRTIYDLNKRAMKMIEKPVKADDNGSIASLDKKAKSPVDKVINFVGKGLSALKFWAHGTPPSGHPGGHAVLGDGKGNNAGNELARLPNGKMFLSADRPTLYPNLPKGTHVLPARETKRILKSAPRYAQGTKNWQSLVEPSKLRNNEFMALLALNAKDSKTTVEVPAPSGGNKSKDYTKDLLDATLEQNNILMQILAKDSNVYLDKKTFAREIEPDITHRQSRKLKRRTPHGI NA NA NA NA NA AK015_02775 330 hypothetical protein ATGAAATATTATGACGAAAAAACCAAAAGTATAACCCTTGTGACAGGCGTTAAAGGCAAAGAACTTGAAACCAAAACATATCAATACCCTTTCTTTGTAAAAGGTATCTTTACTAAAAAAGCAATTGATTTAGGAGCGGAACTGGAAGAAAACAGCTTTGTTGTACCAGCTGAAATGTTTGATCGTTTGTCTAGTTTTATAGTGGAACTTTACAACAAACAATTTGATCAAGAGCAATTAACTAATGGAATTGATTCCAGAAAAATAATAGAGACATTTATCACTATTTTAATGGGCGTTTTGCAAGGAGATACATCAAAAAACGAATAG MKYYDEKTKSITLVTGVKGKELETKTYQYPFFVKGIFTKKAIDLGAELEENSFVVPAEMFDRLSSFIVELYNKQFDQEQLTNGIDSRKIIETFITILMGVLQGDTSKNE NA NA NA NA NA AK015_02776 573 hypothetical protein ATGGCGTATTTTATAGCGAAAGCATCAGAAGCGGTTGAAGCTTATAGATTATTGAATCTAACAAACACCGATACTGGAGCATTATTATCTATTGCTAAAGCTGGTGATACACCAGAATTTCACTCCACGAGAAAGTTAACAGCTAATGAAAACGTAAGTGTTAATGTTGCTGGAAAAAAATCATGGCAAGTTGAAGCAGGAGAAGCGATTAAAGAAGGTTCTTTTGTTGATGTAGGTGCAGGTGGAACCGTAGTTAATGCTACAAACGGTGAGGGTATTGGTTATGTTACTGATACCGTTAAAGTTGGTCAAATAGCTAACCTTGTTTTGGCTGCTAGTTCTGGTGGCAAGGGCGCTAAAGGAGACAAAGGAGAACCAGGTAAGTCAGCGTATCAAGTTGCTGTTGATAACGGATTCGAAGGAACGGAACAAGAATGGTTGGCATCCCTGAAAGGAGAAAAAGGCGACAAAGGAGACAGAGGGCCAAAAGGGGATAAAGGCGATCCGGGAGCTACGCAATTCACCGAAGAAGAAGTAACTAAACTCAAAGAGTTAATACAACCTGGGGAGTAG MAYFIAKASEAVEAYRLLNLTNTDTGALLSIAKAGDTPEFHSTRKLTANENVSVNVAGKKSWQVEAGEAIKEGSFVDVGAGGTVVNATNGEGIGYVTDTVKVGQIANLVLAASSGGKGAKGDKGEPGKSAYQVAVDNGFEGTEQEWLASLKGEKGDKGDRGPKGDKGDPGATQFTEEEVTKLKELIQPGE NA NA NA NA NA AK015_02777 609 hypothetical protein ATGGCTGAGGAAAATAAGAAAAATCGAAGTGCGACGGTTGGTATAGATAAACTTTATTACGCGGTTTTACAAAGCGACACAGAAGAATCAGTGGTTTATGAAAAAGAGGTAAGACTACCTTTTGTACAAAACGTTAATATCGAAACAGAGCAGGAAATCGCAAAGGCATTTGGTGATAACAAGGTTGCTGAAATGGCAGTCTCCACAGGCGTATCTACTGTGGAATTTCAATTTCACGCTTTGCCTTTAGAAGATCGAGTGGCTTTATTGGGATTAGAAGATGAAGATGGTTTGGTCATTCAACGGTCACAAGTTAACCCTCCATACGTTGCTGTTGTTTTAGAAAAAACAAAAGGAGACGGTTCCGCGGAACTAGTCGGGCTTACTAAAGGTATGTTTACATTACCACCTACTGAAGCTCAAACAAAGGAAGATTCGCTGGAATTCGGAAGTGATACGATTAGTGGAGAATTTTCTGGTCGTGTATATGATGATACCGCACAAATATTTGCTCATGTTAAAAAGGGAGACGAAACCATGAGGCAAAAATTTATGAACAGGGTATTTAGACCGTCAGAACAAGCTGAACAAGGAGGAGTTGAAGGGTAA MAEENKKNRSATVGIDKLYYAVLQSDTEESVVYEKEVRLPFVQNVNIETEQEIAKAFGDNKVAEMAVSTGVSTVEFQFHALPLEDRVALLGLEDEDGLVIQRSQVNPPYVAVVLEKTKGDGSAELVGLTKGMFTLPPTEAQTKEDSLEFGSDTISGEFSGRVYDDTAQIFAHVKKGDETMRQKFMNRVFRPSEQAEQGGVEG NA NA NA NA NA AK015_02778 411 hypothetical protein ATGATCGAGGTAAAAGGATTGTATGATATAGATTCGTTGGATACAGCTTATCAACTTTTGATAAATGATAATGTTTTAATGGATTTAGTTGGCAGTACAGAAAAGGTATTTAAGTTTCACGTGCCCGAAGAACATCGAGAACAACCACCTATTATAAGATTATATCCTATATCGGAGCTACCAACTGAATATGCTGACAACCAACAACTAGGATGGGATTGTATCCTACAAATAGATGTGTGGGATAGGCAAAACTCAAGAAAAATAGCTTTAAAGATAAACGAGTTAATGAAAACTATTAACTTTAAACAAAGCACACCTACTTATGAATTTGATGAGGAAACTTATTTGATTCGTGATGGCAGGAGATATAGAGGAATAATTTTGGCGGATAAAGACTTACAAGTGTAG MIEVKGLYDIDSLDTAYQLLINDNVLMDLVGSTEKVFKFHVPEEHREQPPIIRLYPISELPTEYADNQQLGWDCILQIDVWDRQNSRKIALKINELMKTINFKQSTPTYEFDEETYLIRDGRRYRGIILADKDLQV NA NA NA NA NA AK015_02779 396 hypothetical protein TTGAGTGTAAAAATAGAAGGATTAAGAGAGTTGTTGTCTAATCTATCTAAAAAAGAAGACGATATTGTCCGAGCTGCCAAGCAAGGCAATTTAGCTGGCGGAAAAGTAGTTATGGAAGAATTAAAACGCAACGTACCACAAAGTGGTTATAACGGGGCTAACCCGCAAACAAAATTAGTGGATGCTGTTGTAATGAGCGGCAACCGAACTGATAAAGGTTCTGGAGAAAGTTACGTTGCTGTAGGTTTTAATAAATCAGCAAACTTTAGGGCACATATACCGGAGTTTGGTTCCATTTCGCAAGCTCCTCAAGGGTATATGGTGAAAACTGTACAAACAACAGAAAGCGATGTACAAAAAGAAATGGCTAATACCATTAAGAAGGTGTTGCGATGA MSVKIEGLRELLSNLSKKEDDIVRAAKQGNLAGGKVVMEELKRNVPQSGYNGANPQTKLVDAVVMSGNRTDKGSGESYVAVGFNKSANFRAHIPEFGSISQAPQGYMVKTVQTTESDVQKEMANTIKKVLR NA NA NA NA NA AK015_02780 348 hypothetical protein ATGAGATTAAATAATATGAGGTTTAACTTTTCCAAGTTGAATGATCCTATATGGATTCATGAGGTTAAGTCAGTTGTTGAAAACGGCATACCCCAAAAACCTAAGCCTGTGCTGTTTTTAGAGTGTTTTGCGCATGTTGAATCTATTAGCCTTAAAGATTATCAAAACAGCGTACAATTAGGCACACAACACCAAATAAAGGTGTTTATACGTAATTACCCTGGTATCACCAACAAAATGATAATTGAGGATATAAATAAACACTCTTATAAAATTGAACAGGTGCTATATGATTACAGACAAAGCGGCTTCACTATATTGATCGCTGAGGAGGTCGATAGATCTTGA MRLNNMRFNFSKLNDPIWIHEVKSVVENGIPQKPKPVLFLECFAHVESISLKDYQNSVQLGTQHQIKVFIRNYPGITNKMIIEDINKHSYKIEQVLYDYRQSGFTILIAEEVDRS NA NA NA NA NA AK015_02781 306 hypothetical protein ATGATTGATTTAGAACGCATAAAAGGACATTTAAGAATTCCGCATAACTTAGAAGATGCAGAGATCCAAGATTATCTTGATTTTGCAAAACAAGATGTCATTGAAGCTGTTTTTGACAGCCAAGACCCAAAACTTAATATAGAGAAATTAGAGGGAGATAAAGTATTTCAAAGGGCGGTTGTCATGTTGACAACTTACTATTATGAAAACAGAATGACCATTTCGGAAGTTAGTCAGCACGAATCGCCTTTTTCAGTTACGCATGCGATACAGACATTGCGAGCGCATAGGGATAGATATTTATGA MIDLERIKGHLRIPHNLEDAEIQDYLDFAKQDVIEAVFDSQDPKLNIEKLEGDKVFQRAVVMLTTYYYENRMTISEVSQHESPFSVTHAIQTLRAHRDRYL NA NA NA NA NA AK015_02782 1152 hypothetical protein ATGAATAGATTAGAAGAAATCAACAAACGTTTAGAAGAAATTCGCGGAATGCTTGAGGATGATGAAAAACGAGGGGATACTAAGTTTTCTGATCTCGAAAAGGAAGTACGTGAATTAAAAGGTGAAAAGGTAGAAATTGAAGCGAAACAGCGTATGCTTGATGACGAAGAACAAGGAAAAGAAGACCGTACTTTTATAGAACAAGCCCATCAAGCCAATGGAGAGATAGGTGGTATTCAGCCTACTAATGAACAACGCGAAGCTTTTCAAAAGTATCTTGAGACAAGAGAAATTGACGGCGGAGCACTTAAAACTGATTCTGGTTTCGTGGTTGTCCCGGAACAAGTGGTAACAGAAATCATGAAATTGAAAGAGAAAGAATTTAACCTTGATCAATATGTAACGGTTAAGTCTGTTGGTTATGGTAGTGGTAAGTATCCTGTTGTTCGTCAGTCGGAAGTAGCAGCATTACCAGAAGTAGCAGAACTTGAAGAAAACCCTAAGCTAGCTGTAAAACCTTTTTACAACTTAGGGTATGACATAAAAACTTACCGTGGTTATTTCTTAGTGTCTCGTGAAGCTATAGAAGATGCAGCAGTCAATGTTTTATCCGAATTGATGACTTGGATGGCTCGTACAATTGCTTCCACTCGCAATGCCGCGATTGTTAAAGCTATTAAAGAAGGAACTCCGGGCGAAAAAGGAAAAACGCTTAAATTGCAAACTGTTCAAGCTAGCGGTATTGATGATATTAAGGACGCTATCAATCTTAACTTGAAACCTAACTACGAGCATAATGTGGCAATCGTTTCTCAAACCGCATTTGCTGAACTAGATAAAATGAAAGATAACGAAGGGAATTACTTATTACAAAAAGATGTAAAAGAACCTACACAGAAACGCCTGTTAGGTGCGCAAGTAGTTGTGTTACCTGATGAAATGATAGGAGAAAAGTCAAGCAAAACAATTATTATCGGTAATTTAAAAGATGCCATTGTATTGTTTGACCGTAGTCAATATCAAGCGGCTTGGACAAATTACATGCAATACGGTGAATCCTTAATGGTTGCTGTACGACAAGATGTACGGATTTTAGATGAAAAGTCTGCTATTGTTATTGACTTTGCAGGTGGCGCAGGAGTAGAAGGATAA MNRLEEINKRLEEIRGMLEDDEKRGDTKFSDLEKEVRELKGEKVEIEAKQRMLDDEEQGKEDRTFIEQAHQANGEIGGIQPTNEQREAFQKYLETREIDGGALKTDSGFVVVPEQVVTEIMKLKEKEFNLDQYVTVKSVGYGSGKYPVVRQSEVAALPEVAELEENPKLAVKPFYNLGYDIKTYRGYFLVSREAIEDAAVNVLSELMTWMARTIASTRNAAIVKAIKEGTPGEKGKTLKLQTVQASGIDDIKDAINLNLKPNYEHNVAIVSQTAFAELDKMKDNEGNYLLQKDVKEPTQKRLLGAQVVVLPDEMIGEKSSKTIIIGNLKDAIVLFDRSQYQAAWTNYMQYGESLMVAVRQDVRILDEKSAIVIDFAGGAGVEG NA NA NA NA NA AK015_02783 588 hypothetical protein GTGGACAAAATGGAACAAAGGGAACTGTTGACGAATAAAATTGAAATTCGAGAAGATGATGGTAACCGAACACTTTCGGGTTATGCCGTGAAATGGGAAAAGAAATCACAGGTGTTGGGTTTGTTTTATAAGTTCCGCGAACAATTTAAGAGCGGAGCTTTTTTAAATTCTCTTAATAATGATGACCAACGTTTTTTGTGGTCGCATGATACAGGAAAAGTGCTAGGAAGAACTAAAAATAATACCTTGCGATTAAAAGAAGACGATACAGGGTTGCGTTTTGAATTAGATTTACCTAACACAACGCTAGGCAACGACACTTACGAATCTATAAAACGCGGCGATGTGGACGGGGTTAGCTTCGGTTTTAGGGTGGAAGATGATGAAATAGAAGAACCCGAAAACGATTTACCGTTGCGCACAGTCAAGAAAGCTAAGTTATTAGAGGTATCAGCCGTTGCTTTCCCAGCTTACCCAGACAGTGAAGTCAGCGCAAGAGGGTATGACCCTATTAAACAATATGATAATGAATTAAGAACCTTCAAAGCTGAACAAGCAGCAAAAATAAAAATTTTAATGGAACTTTAG MDKMEQRELLTNKIEIREDDGNRTLSGYAVKWEKKSQVLGLFYKFREQFKSGAFLNSLNNDDQRFLWSHDTGKVLGRTKNNTLRLKEDDTGLRFELDLPNTTLGNDTYESIKRGDVDGVSFGFRVEDDEIEEPENDLPLRTVKKAKLLEVSAVAFPAYPDSEVSARGYDPIKQYDNELRTFKAEQAAKIKILMEL NA NA NA NA NA AK015_02784 1248 hypothetical protein TTGCGTATATTCTCAACTGGTGGAGAAAAAAGAGAATTCACTCAAGAGGAAGCTGACCTTTTAATAAGCATGCTCCCGGGGTTTAGCGGTACTAGTACAACCTTTACATCTGCTAGAGCAATTGAAAACAGTGATGTATTTACTGTTCTTAATTTGCTAGCAAGCGATGTAGCTTCACTGGATATCGAAATGGTCAATAATGAAGTGCCTGAACCAAATAAGATATCAAATCTATTAAATGTTAACCCTAACAGTTTGTATTCAGGAGGGACGCTTAAGTTTATTATTACAGCTAATGCTTTACTAAACGGTGAATCGTTTTGTGAAATAGTAAGAGATAAACATGGTAAAGTTATCGCTCTCTATCACTTAAGTAACTCTCAAGTAATTATAAAACAAGATGCCGAAACGAAATATAAACTTATGTATGATGTGTACAATCTCGAAAAATCAAAATACAGACGTCTCCACGCAACGGATATTTTACATTTTAAATTTTTTACAATTGATGGCATACGAGGGGTTAGCCCATTAAGGTCACTTAAAGATGACTTGTCTATGCAAAGGGATAGTAAACGTTTCTTGGCCAACTTTTTCAAAAATGATACCCAAACTGGCGGAATCTTAAGGATGAAACACGGGAAACTGTCCAAAGAAGCAAGAGACAAGGTTAAAAAAGAATGGCAAGAATCCAACGCAGGGGTTGATAATGCCCATAAAGTTTTAGTCATTGATGAAACCTTTGAGTATGAACCTATTGAGGTTGATACAGAGGTTTTAAAACTCATTAACGCCAGCACGTTTAGCACAGAGACGATCGGAAAAGTATACCGAATTCCGCGGCATAAATTAGGGCTTGAAACGTCTAACATGTCATTAGCTCAAGCGAATCTTGATTATCTGACATCCACACTCAATAGTTATTTAAAGGTAATCACGAATGAACTAAATTTTAAGTTAGCTACTAGCAGCAAGAAAAATTTTCGTTTTGATACAGCTCCATTTAAAACGACAGATGTTGAAACGCATACCAAGTTAACGCTAGAAAAAGTGGATAAAGGAATTATTAGCTTAGACGAGGCTAGGAAACGGCTTGGGGAGAATCCAAGGAATGACGAGCTAGGTAAAAAACACTTCATCAGCTTAAACTATACAACGCTTGATCAAATTGAAGAATACCAAATGTTAAAAGCTAAGGGAGGTGATAAAAGTGGACAAAATGGAACAAAGGGAACTGTTGACGAATAA MRIFSTGGEKREFTQEEADLLISMLPGFSGTSTTFTSARAIENSDVFTVLNLLASDVASLDIEMVNNEVPEPNKISNLLNVNPNSLYSGGTLKFIITANALLNGESFCEIVRDKHGKVIALYHLSNSQVIIKQDAETKYKLMYDVYNLEKSKYRRLHATDILHFKFFTIDGIRGVSPLRSLKDDLSMQRDSKRFLANFFKNDTQTGGILRMKHGKLSKEARDKVKKEWQESNAGVDNAHKVLVIDETFEYEPIEVDTEVLKLINASTFSTETIGKVYRIPRHKLGLETSNMSLAQANLDYLTSTLNSYLKVITNELNFKLATSSKKNFRFDTAPFKTTDVETHTKLTLEKVDKGIISLDEARKRLGENPRNDELGKKHFISLNYTTLDQIEEYQMLKAKGGDKSGQNGTKGTVDE NA NA NA NA NA AK015_02785 198 hypothetical protein ATGAATATAAACAAAGTAAACGAGGCCATTAAACAGATAGGTCTTTTTTTGTTGGCTAATTTAACTGGAATTTTATTCTTAATTGGATTAGGGATAGTTGTACATGGTTTCTTTAAAATTGGACAAACAACAGGTGTGTTTGCTCTAGGAACAGCAACAATACTCATTGCTCTCATTTTAGCTAAAGAAAGGGGGTGA MNINKVNEAIKQIGLFLLANLTGILFLIGLGIVVHGFFKIGQTTGVFALGTATILIALILAKERG NA NA NA NA NA AK015_02786 351 hypothetical protein ATGAAATTACAGTTAGCAAACCGAAGTATTTATAACTGTTTGGAGTTGGCGGCGGCTAAAAGAGAATACATTGAAATTGAATTATGTCATAGAAAGTTAGGAAAAACCACAGCACTCATTCAATTCGCTAAAGAAAATGGATATGTTGTTTTAGTGGGCAGTGTGGCAGAAGCTAAATTTCTTATAAAAGAATATGGATATCGATTAATAAAATCTATTAATAGTAATTTAGATGGCCACTCTTTCTTTGTTGTCGACGAAACAGCTCCACGTGAAAAGATTGAAACGATGAAAGAAGATGGTCAAATTATTATCACTGGATTTTTACGAGTAAAAGATTTTTATGGATAA MKLQLANRSIYNCLELAAAKREYIEIELCHRKLGKTTALIQFAKENGYVVLVGSVAEAKFLIKEYGYRLIKSINSNLDGHSFFVVDETAPREKIETMKEDGQIIITGFLRVKDFYG NA NA NA NA NA AK015_02787 1728 hypothetical protein ATGAGCTTCAACGATCCAGGAACTAAATACGCAAGAAAAGTAGTAAATGGTGAAATTACAGCTTGTAAAAAAGTTATAAAAGCCTGTAAGCGACATTTGAGGGATTTAGAAAACGATAAATTAAACTATGTTTATTTACCTGAAAGAGCTGGAATTGCAATTAAATTTATGGAGGTGTTACCAGATATATCTACTGGTAAACCTGTGAAACTTGCAGAATTTCAGCTTTTTATTGTTTATTCGTTATTTGGCTGGTATAGAAAAGATAACAATGCATTACGTAGATTTAATAAAGCGTTGATTAGCATGGCTCGTAAAAACGGTAAATCAGCATTAATATCTGGCATTGCTATATTTGAATTTTTGGCTGGTAAATATCCGTTACAGAATAGGCAAATTTACTGTACAGCACAATCAAGGGAACAGGCATCCATTGTGTTTAACATGGTTGTGCAGCGATTAGATGGTTTACTGGCGCAGTCAGAGGCAATAAGGAAAACGGTACGTAAAGTACGAAATGAAATCAATCATAATCCCTCTTACAGTGTGTTAAAACCATTAAGTAAAGATACGGGAAACATAAATGGACTAGCTCCAACACTATCTATATTGGATGAATACGGAGCGAGTAAAGATAACAGCATGATGGAAGTTTTGGAATCTGGTTCCATGTTGCAACCGAACATGCTCACGTTGATAATATCAACTGCTTATTTTGATTTGAATAGTCCTATGTATGCCCAAGAGTATAAATACGGAGAAAAGATACTTAATGGTGATGAGGAAGACGACAACTATTTTGTGTTGGTATACGAGCAAGATGACGAAGAAGAAATTTACGACGAAAGCATGTGGATTAAAAGTAACCCACTCCTTGAAGTCGAGTCCATAAAAGAAACGCTGATTAGAAACTTAAGAAAAAGATTTAAAGAAGCAGTTGCTAAAAACGATCTATTAGGACTGATAGTAAAGAATTTTAACATGTGGAAACAAGCCGCTGAAAATTCATTCCTACCAGTAAAAGAATGGCGAGCTTGTGAGACGGAACCAATAAATATATATGGCCGCGATGTGTTTTTCGGACTAGATTTATCAAGAACAGATGATATAACGGCTTTGTATTATATTATCCCTTTAGAAAACGCTAAATTTTATATTGACGGTCATTCTTTCATCGCCACGGTTGGAGGATTAGAAGCCAAATCGCAAAGGGATAAAATTGATTATGAAATGCTTATTCAACGCGGGTATGCTTCTAAAACTAATTTAAAAAGCGGTTTTATTAATATCAACCAGGTTTTAGACTATGCAGTTAAATTGATAACTGACAATAACTTAAACGTGCAAGCGTTTTGTTATGATGGTTGGAATATCGCTAACTTCTTAAGCGAATGGGAAAAACATTATCCTGATTTAGAGGTTCCGTTTATTGAAGTACCACAGGATTATAAAAATTTATCAGAACCGATAAAACAATTTAGGTTCGGGGTTTATGAAAGAAAAATACTGCACAGTAATAATCCATTATTAAATATTGCTGTTAATAATGCGATTGTTAAGTATGACAATAACGCAAACGTCATGTTAGATAAGAAAAAGAATAGGGAAAAGATTGATCCAATTGTAGCTGTTGTTACAGGGTTTGCGGAAGCTAAAGATTACGAGTATCAAGGTATGGACATTAAGCAGATTGAAGCTTATATATTAAGTGATGATTTCGGGTTTTAG MSFNDPGTKYARKVVNGEITACKKVIKACKRHLRDLENDKLNYVYLPERAGIAIKFMEVLPDISTGKPVKLAEFQLFIVYSLFGWYRKDNNALRRFNKALISMARKNGKSALISGIAIFEFLAGKYPLQNRQIYCTAQSREQASIVFNMVVQRLDGLLAQSEAIRKTVRKVRNEINHNPSYSVLKPLSKDTGNINGLAPTLSILDEYGASKDNSMMEVLESGSMLQPNMLTLIISTAYFDLNSPMYAQEYKYGEKILNGDEEDDNYFVLVYEQDDEEEIYDESMWIKSNPLLEVESIKETLIRNLRKRFKEAVAKNDLLGLIVKNFNMWKQAAENSFLPVKEWRACETEPINIYGRDVFFGLDLSRTDDITALYYIIPLENAKFYIDGHSFIATVGGLEAKSQRDKIDYEMLIQRGYASKTNLKSGFININQVLDYAVKLITDNNLNVQAFCYDGWNIANFLSEWEKHYPDLEVPFIEVPQDYKNLSEPIKQFRFGVYERKILHSNNPLLNIAVNNAIVKYDNNANVMLDKKKNREKIDPIVAVVTGFAEAKDYEYQGMDIKQIEAYILSDDFGF NA NA NA NA NA AK015_02788 276 hypothetical protein ATGATGATTGTAAGGATTAAAGGTAAAACAGATGCCAAAACTCTCAAAAATGTAAGAGAAGGAATAAAAGAACAAGTAGGAGAAGGCTTAATTGTTCATGATGACTTGATGGAAATAACGTTAGTAGACGAAAGGAATGGTAAAGTTCATTACACGTGTGAGAGATGCGGAACCACTTATCATTATTCTTGTGAAATAAATAAAACAACATGCTCTCATTGTGGGAATAGCACATTTGATATTACGAGAGGTAGTCAAAAAAAGGTTGATGAGTAA MMIVRIKGKTDAKTLKNVREGIKEQVGEGLIVHDDLMEITLVDERNGKVHYTCERCGTTYHYSCEINKTTCSHCGNSTFDITRGSQKKVDE NA NA NA NA NA AK015_02789 498 hypothetical protein ATGAGGGGGAAACCTTCACGCGGATTATACACAGAAGAAGAACTTAAAAAGCATAAAAAGGGTAAAGATCATGTTGCCAAAGAATTAGCCAAACAAGATACGCTCAACAAGTACGACCAATTGCAAGTAAAACCGATACCTAGTCATTTGGATTATTACGGAAAGCAAGAATGGAAACGAATCATTCCTTTACTACAACAACTACCTATTGCTGAATTGGACAGACAAATGATTGAATCTTACTGTCAACTTCACGGATACAAAAGAAGGTTACAAAAAGATATTCAGGAGTTTGGTGAAGTAACTAACTTTTATGATAATGAGGGAAACCTTGTAAATAGGCGAATCAACCCCTCATACAACGCCTATCTTTCTACTGTAAAAGAAATACGTATGATTGCTAATCAACTTGGAATGACGATTAATAGTCGATTGGATCTCGCTAACCCGGATCAGGAAGAAGAAGAGGACGAGATTTTAAAATTGTTGAAGGGGTGA MRGKPSRGLYTEEELKKHKKGKDHVAKELAKQDTLNKYDQLQVKPIPSHLDYYGKQEWKRIIPLLQQLPIAELDRQMIESYCQLHGYKRRLQKDIQEFGEVTNFYDNEGNLVNRRINPSYNAYLSTVKEIRMIANQLGMTINSRLDLANPDQEEEEDEILKLLKG NA NA NA NA NA AK015_02790 366 hypothetical protein ATGAACATCAAGAAGCGTTGCGGTAAGATTGGATGCAAAGCTTTAATAGGTATTAAAGAAACATATTGCACTAAGCATACCAATCATAATCATAAGCAGTACGAAAAGATAAGGACATCAACCGAAGAAGGAAGAACATACAAAAGGTTTTATGATACGAAAGAGTGGAAGTCATTACGCTATCAAGCTATGTTGCGTGATGGCTTTATTTGTGTTTGTTGTGGTAAAGAAGCAAAGGTAGGAGACCACATCATACCGACTAAGGTTAGATGGGATTTAAGGTTAGTTTTAAACAATGTACAAAGCATGTGCTTTGATTGCCATAACCGAAAAACAGCAGAAGATAAAAAGAAATACGGAATTTAA MNIKKRCGKIGCKALIGIKETYCTKHTNHNHKQYEKIRTSTEEGRTYKRFYDTKEWKSLRYQAMLRDGFICVCCGKEAKVGDHIIPTKVRWDLRLVLNNVQSMCFDCHNRKTAEDKKKYGI PGPT0027235_1300 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 AK015_02791 420 hypothetical protein ATGCGAAAGGTATTATTTGGTTTGTTTATGTTAACATTAGTGGCTATCTTAGTTATCTCGTTGGTTACTGCAAAACCAGTACAGCGTGAGGGGGTAGATAAAGAGTTGGCTACTAACGCTTTAGAAGTTGTTAACTTGATTGACTATTGGCATAACGTTATAGATATAGATGATTACTATGATATCCCCGAAAAGGATTATAAAAAAATAAGCAATTTCTCTATAGAAGATTATAAAGAAGAGAACGAAGAGTTTAGCGAAGAAGAAGAAAGTATCGCTAATGGGGTGGTTATGGCGATAGCTACATTCACTTTGGACGGAACAAAAGAAGATTCAGGAGAGATAAGAGAGCATAGTGAAGATATCAACAAACACATAAAAACAGTTAGAGATTTAACGGAGGGCATTGTTGATGAATAA MRKVLFGLFMLTLVAILVISLVTAKPVQREGVDKELATNALEVVNLIDYWHNVIDIDDYYDIPEKDYKKISNFSIEDYKEENEEFSEEEESIANGVVMAIATFTLDGTKEDSGEIREHSEDINKHIKTVRDLTEGIVDE NA NA NA NA NA AK015_02792 222 hypothetical protein ATGAAAGTAAATGATATGGATAAGTATCAAGTCACAGAAAAAATGAAGAAACTCAAAAAAAGAATGAATGATCCAGCAACAAGAATAATTGATTTACCTATTGAAGTTTACGATCAAGTTAATAATCCTGTTACCGATAAAGATGGATACATTCATAAATATTATTTGACTGATGAAGTTAAGTCTCTTATTGAAATGTTTAGTTCCATAAACAAAATATAA MKVNDMDKYQVTEKMKKLKKRMNDPATRIIDLPIEVYDQVNNPVTDKDGYIHKYYLTDEVKSLIEMFSSINKI NA NA NA NA NA AK015_02793 390 hypothetical protein TTGTACGAATGGCTGAAAGACTATCAACAATTAACACAGGATATTGATTACCTGGAATATAAATTAGATCGTGAAGAAACGGAACTCAAAAGATGGGTAGAAGGTGACCTTGCTGATGTAAAATTACAACCTGAGTCCATTGGGGCTAATATAGAAGAACGGGTTCAGAAGTTGAGAAAGGAAATTCTATACAAAAAAGAAAAGCTCCAAGAATTGATACAATTAGTAGAAAAGTTTGAAGGACTGGATAATAAGATATTGCGTATGAAGTGGTTTGAAGGAAAAACATTAGAACAAATAGCAATAGATTTGAATTATAGCTATAACTATATTAAACGTAAGCATGCCGATATTATGAAAATGATTAAATTTGCCGATACATTTAAGTAG MYEWLKDYQQLTQDIDYLEYKLDREETELKRWVEGDLADVKLQPESIGANIEERVQKLRKEILYKKEKLQELIQLVEKFEGLDNKILRMKWFEGKTLEQIAIDLNYSYNYIKRKHADIMKMIKFADTFK NA NA NA NA NA AK015_02794 177 hypothetical protein ATGACATATGAAGAAGAACGTAAAAGGTTAATTGAACAAGCTCAAGAGTTTGTCTCTATTCCTCCACCAGATTATTCAAAGATGACAAATGAGCAAATTAGACGTAGGACGGAAATTATGAAAAAGTCATTCGAAGAAGCTTTTGATGACGATTTGGATGAAGATGATTCACTTTAA MTYEEERKRLIEQAQEFVSIPPPDYSKMTNEQIRRRTEIMKKSFEEAFDDDLDEDDSL NA NA NA NA NA AK015_02795 1860 hypothetical protein TTGCTTAAATACATTGAGTTAAACGACAACAGGGAGCCAGTGCATAAATTATCCACGTTTAGTACGGATCATAAAAATTATAAGAACGCTGCTGTTCTACTGGATAATAAAACAGTTGTGGTAGACTTTGACGAACCAAGTTCGGTTGAAATTGGCAACCTCATATACAACCAAAATCCAACATTGAAGGTACACACCAGGAGAGGCTTCCATCTATACTATCGCAAACCAAAAGGTGTGTATATCAAGAATTGGGTGGGTAAGCTTACCAATGCTGGTATCTTAGTAGATTATAAGCATACTAGTAAGCAGCCAATAATTATCAAACAAAATAATAAACTAAGAACAATGGATAACGGTAATCTCTTGGGTGAGTGGTCAAGCTTGCCCGAGCTTCCGTTTCTTTTGTGGCCAAATAAACTTACAGAAGTGTTATATGGTTTAACAGATGGTCAAGGTCGAAACAGTAATTTGTATAGTCATTTATTAACTGCAAAAGAAATGTATAAGCGCGATGTAAAAGAAATAGCTACATTTATTAACAAGCATGTCTTTACAGATGCATTAAAAGAACGAGAATTAGAAAACATTTTAGGTAGTGTTAATTCGAAAAAGATTGATGAAAATAGTAACCAATTTTTAAACAAGAAAGACATGATTATGACCAGCGAGGTGTTGGTTGAAAAGTTAGATATACATTATTTCAGAAGTAAAATATTCTTTCGACAAGATGGTCATTATATATCTGATGAGAATTTGCTCTTACGTGCTATCGACCGATTGATTAAGTTAAAACCTTCACAGCATAAAGAATTAAAGGAGCTGTTTAAAATAAAAGCAACATTACAAGATGATGACGATCTACCAGTACAGTTTAATAACGGTTATTGCCTGTACGATAACGAGATCGTAGAAGTAGACCCTGGATTCACTCCCTTCTTTTTAGATGTAGCTTATAAAGAAAATGCCTATGACGAACATGTTGATAAGTTCCTGAACTGGTTTACATGTAACAGAAAGGACTTACGTCAATTTATTGAAGAAGTGTTCGGCCATATTATCATGACAAAAGGTTTCCCTCACCGTGCTTTCTTCTTTTGGGGCGAGAGCGGCGATAACGGGAAAAGCACGTTGATCAAGATGATACAGTCGTTCGCAGAAGGATTACACACGAACGTACCATTAGACAAATTTGATGATGATACGACAGTTTTTAGTCTGATTGGTAAGTTACTCAATGTGGCAGATGACATCAATGCTAGTTACTTGGATAAGTCTAGTAATTTTAAAACAATCGTATCTGGAGATCCGGTTATGATACGTCCAATTTATTCACCTGCCACAACCTTAAATAATAAAGGCACGCTCATATTTACTTGTAACGAGATACCTGTCTTTAAAGATAAGTCTGGTGGGATAAAGAAACGTATGCGTGTTATACCATGTGATGCGGTAGTTGAAGAAAGAGATATGGAGATTGATAATAAGCTATCAACGGATAATGCCAAGTCTTATATCTTACGGTTAGCGATTGAAGGGATGCAGCGCATCATAAAACAAGGAGATTTATCTGATTGTAAAGCTATCACTGATATTACGAAAGAGTATTTTGTTCAGTCGGATAGTGTGCTTGGATTCCTTGAGAATTACAGTGTTGATGGGAAAGATACGAAGAATGCTTACATGCAATATACATTGTATTGTGATGAGTCAGGATTAAAGGCTGTTGGTTCTACAGAGTTTGGTAGAAGGTTAAAAAAAGAGGGATATGACAAGAAGAGGATTACTAAAGGGAACAAAAGACCGTGGATATATAAGAAATTAACTAAAAATGTCTCAGATAAAGTCTTAAATTCATAA MLKYIELNDNREPVHKLSTFSTDHKNYKNAAVLLDNKTVVVDFDEPSSVEIGNLIYNQNPTLKVHTRRGFHLYYRKPKGVYIKNWVGKLTNAGILVDYKHTSKQPIIIKQNNKLRTMDNGNLLGEWSSLPELPFLLWPNKLTEVLYGLTDGQGRNSNLYSHLLTAKEMYKRDVKEIATFINKHVFTDALKERELENILGSVNSKKIDENSNQFLNKKDMIMTSEVLVEKLDIHYFRSKIFFRQDGHYISDENLLLRAIDRLIKLKPSQHKELKELFKIKATLQDDDDLPVQFNNGYCLYDNEIVEVDPGFTPFFLDVAYKENAYDEHVDKFLNWFTCNRKDLRQFIEEVFGHIIMTKGFPHRAFFFWGESGDNGKSTLIKMIQSFAEGLHTNVPLDKFDDDTTVFSLIGKLLNVADDINASYLDKSSNFKTIVSGDPVMIRPIYSPATTLNNKGTLIFTCNEIPVFKDKSGGIKKRMRVIPCDAVVEERDMEIDNKLSTDNAKSYILRLAIEGMQRIIKQGDLSDCKAITDITKEYFVQSDSVLGFLENYSVDGKDTKNAYMQYTLYCDESGLKAVGSTEFGRRLKKEGYDKKRITKGNKRPWIYKKLTKNVSDKVLNS NA NA NA NA NA AK015_02796 303 hypothetical protein ATGATTAACAAATCAATTAACCAATTATGCGAAGAAGCGTTTCATATAGCTAAATCTAAAGGTTGGCATGACGAACCGAGAGAAACTGGTACGTTACTGGCTCTTATTCATAGCGAAGTGTCAGAAGCTCTTGAAGCTGACCGAAAAGGCAACCAAGAGAATTTTGAGGAAGAACTGGCAGATGTTTGCATACGTATTTTTGACCTTTGCGGATCTAAAAATATTGATTTAGAAGATGCAATTTATACCAAGATGGAACGTAACAAAGGAAGAAGTTACAAACACGGCAATAAAGCTTACTAA MINKSINQLCEEAFHIAKSKGWHDEPRETGTLLALIHSEVSEALEADRKGNQENFEEELADVCIRIFDLCGSKNIDLEDAIYTKMERNKGRSYKHGNKAY NA NA NA NA NA AK015_02797 303 hypothetical protein ATGACTGATAAAGAATGGTTGGAAGAGATGAATCGAATGAAGCGACATGCAATAGAACATGATGACAAATCTATGTTACGGATAATCGAACAAGCTGAAAAGAAAACAGAACTTGAACAGAGCTACAGAAGAACAATATCCAAACAAAATAAGCAAATTACAGCTTTGTATAAAGAAAATAAGCGCTATCGTGAAGCGCTGGAAGAAATAGTTCAAACATCTATTACAATAAAAGATTACAAAGCACACTCTTATCATGCTGAATTAGTAGCACAAAAAGCCTTGGAAGGAGAACAAAAATGA MTDKEWLEEMNRMKRHAIEHDDKSMLRIIEQAEKKTELEQSYRRTISKQNKQITALYKENKRYREALEEIVQTSITIKDYKAHSYHAELVAQKALEGEQK NA NA NA NA NA AK015_02798 1734 hypothetical protein GTGAATGGCTTGTTTACCTACTACGACCTGGAAGTATTTAAACATGATTGGCTAGCCGTGTTTATTGATGATGAAGGCACGATAACCAAAATGCACAATGATAGGAGCGCTCTTGAGCGCTTTCTATCTAGTGTGAATTATCTAGTCGGCTATAACAATTACAACTATGATGACAAAATCATTGCTAGCATTTTAAAAGGTGTGGATCCATACGAAACATCGAAAAAGATTATTAGTGGTAAACGATTTAATTTGAAGTTACAAAAGCCACTGTCTTTAGATGTTATGCAAGAGTTAAAAGGATTGAGTCTTAAAGAAGTACAAGCTAATTTGGGTAAATCTATTATAGAAACGCCAGTAGATTTTCATATTAATCGCCCGTTGGGTAAACAAGAAATTGAAGATACTTTTAAATATTGCACAAATGATGTATTGACCACGAAAGAAGTATTTGAAGAACGAGAATCTTATTTTGCATCCAAATTAGAAATGATAAGGGAATTTAAGCTATCAGCTACAAGTGTAAAAAAAACAATAGCTAACCTTGCAGCAGAAGTTTTAAAAGCAAAGCCGTCACACGATAATGACCGATTACATATTACGTATGATTATCGGTTGCCAAAACACGAATTACCTACAGCTGTGGTAGATTTTTACAACGAGATTGAAAAGCGATTTAAAAAAGGCGAAAATCACGAGTTATTAGAACGAGAAAAGCTCACTTATCAATTAGCTGGCATTGATCACATTTATGGGTTCGGAGGTTTGCATGCAGCAAAGGAGCAATATCAAGGAGAAGGGAATTACATGCAAATTGACATTGCAAGTTATTACCCTTCTTTAATTCTTAATAACGGATTTGCTGATAATATTAACATGGATACGTACAAGCAAATCTATCATCAAAGACAGCAATTAAAGCTGTCCAAGGACTCGAAAGAAGAAGTCTATAAACGAATACTCACAAGTGTGTACGGCTCTATGAAAAGTAAGTACAACAAACTATATAATCCAAGGCAAGCAAACAATATAGTAGTTAATGGCCAATTGATCATGACGCACCTCATTTGTTTATTGGAGAGGTTTGTGGAGCTTATACAGACCAATACAGATGGGATTATTGTTAAATATGAAAAGGGTTTTGAAAAGAATATTATCAAGCTGTTAGAACTATTTGAGAAACATTATGATCTTAAGTTTGAAATAGATTTGATAACAAAAATAGCTCAACGTGATGTAAATAATTACGTAATCCAATACAGGAATGGATCCATTAAAGCAAAAGGACGATTCGCAAATTACGAAGGTGGTAATTTTGCAAGAAACAGCTATGCAGTTATTGATAAAGCACTAGTGGACTATTATATACATGGCAAACGAATCAATGAGACAGTCATAAACCTTTGGAAAAAGCGTCAATTTAATTACTTTCAGTTGGTGGCCAAAGCAGGAAAGTTTGATGGCATGGCTCAGGAGATCAAAGAGGACACATTGCTTGAAGGTACTTATAGCAGTTACTTTAATAACTTGCAGCAAGTAAATCGGATTTTTGCCACAAAGGACAGGTACTTAGGATCTGTTTATAAAACGAAAAAGGATAAGGAAACCAAATATAACAAAGTTCCTTATACGAGCGAGAATTGTTTTGTATGGAATGATGAACTGAAAAGGTTAGATAAAAGAAAGATTAATTTAAACTGGTACATTAAACAGGTTGAAGGGTGGTTGTTTTGA MNGLFTYYDLEVFKHDWLAVFIDDEGTITKMHNDRSALERFLSSVNYLVGYNNYNYDDKIIASILKGVDPYETSKKIISGKRFNLKLQKPLSLDVMQELKGLSLKEVQANLGKSIIETPVDFHINRPLGKQEIEDTFKYCTNDVLTTKEVFEERESYFASKLEMIREFKLSATSVKKTIANLAAEVLKAKPSHDNDRLHITYDYRLPKHELPTAVVDFYNEIEKRFKKGENHELLEREKLTYQLAGIDHIYGFGGLHAAKEQYQGEGNYMQIDIASYYPSLILNNGFADNINMDTYKQIYHQRQQLKLSKDSKEEVYKRILTSVYGSMKSKYNKLYNPRQANNIVVNGQLIMTHLICLLERFVELIQTNTDGIIVKYEKGFEKNIIKLLELFEKHYDLKFEIDLITKIAQRDVNNYVIQYRNGSIKAKGRFANYEGGNFARNSYAVIDKALVDYYIHGKRINETVINLWKKRQFNYFQLVAKAGKFDGMAQEIKEDTLLEGTYSSYFNNLQQVNRIFATKDRYLGSVYKTKKDKETKYNKVPYTSENCFVWNDELKRLDKRKINLNWYIKQVEGWLF NA NA NA NA NA AK015_02799 444 hypothetical protein ATGGGATTTAACTTAAAAGAAGTGGCAGCAGAGATTTTAAATGATGGGTTTGACCCACGCACTGATTCTGTAGGGGATGATTTTGAAAACTTACCAGATGGTTTGTATGATGCTATTTTCACAAATGTTAGCTGGAGAACGAACGAAAAAGGAACCGAATGGCTGAGTTTTGAATTTGAGATCCAAAACGAGGGATATGAGAATCGCAAATACTTTGGCAACATCTTTTTCAGCAATGAAAAAATGTTACAGCTTAACTTGAAACGAGCAATGAAAACAGCTGCTGTTTTAGACGTAGATGTAACTATTGAAGACTTTGAAGATGAACAAGTACTAGTTGAAGCTTTAAAAGCAGGATTAGGGTCGCAATGTATGATTGAATTGAAAACCAATAAAAAAGGAACATTCCAGAATTGGGAAGCTCTTGAAGATGTACCGTTTTAA MGFNLKEVAAEILNDGFDPRTDSVGDDFENLPDGLYDAIFTNVSWRTNEKGTEWLSFEFEIQNEGYENRKYFGNIFFSNEKMLQLNLKRAMKTAAVLDVDVTIEDFEDEQVLVEALKAGLGSQCMIELKTNKKGTFQNWEALEDVPF NA NA NA NA NA AK015_02800 141 hypothetical protein ATGGCAACCACATTTGAAATCGTATTGGCAGTTAGTTGTATCATAAGCGCTTATGTAGGGTACTCATTCGGCGAGTATTCTGCAAAGCGTAATATCAAAGAAATTGTAAAACAAACTCTTAAAGAAAAGGATGATCAATAA MATTFEIVLAVSCIISAYVGYSFGEYSAKRNIKEIVKQTLKEKDDQ NA NA NA NA NA AK015_02801 888 hypothetical protein ATGTCATTATTACCAAAAAACGAAAGAAAAGCAGCTAAAGAAACCCCACGTAATTTTGTGATCTATGGAGGTACGATGCACGGGAAGACGTACTTTGCTGACGAGTTTCCCAATCCTCTTAATTTAAATACAGATGGTAACGCAGAAATGATAGAGACGCCATCGCTTAACATTAATAATCAACGTAATGCCAAAGGAGATATTACTAGGTCAGCTAGTGATCTGCTGTCTGATATTATCCTGGAGCTTGAAACAACAAAACATACGTATGAAACAGTGGTTATTGATGTGATTGATGACATTATCACCATGTTCGAGCAAGAAATCACGGAAGAACACAACGTTAAATCTGTTGGAGATATCGCTTGGGGCAAAGGCCATCAAATGCTTGAAATGATGGTAAGAGTGCTTGTAATGAGATTAAAAGAATTATCCATGAAGAAACAGATTAATATACTCTATCTTTCTCGCTTGAACATTATCGAGGAAAACGATGTAGAAAAACATGTGCCGTCCTTAAAGCTGAAGTGGTTAAACATTGTCAATGGTAATTCGGATTATACAATCCTTTGCCGTAAAATGGGCAAAAACTATATTCGGCAAGTGGAAAGCAAACGGAAGAATTATACACAAGATAAAGTGGATGATGAACGTATAAAAGATTTATTAAGCACTGTCATTGGCGCATTTGATAAATCAAAGAAAACAAGCACGGATGAAGCTAAAAAGATTGTTGCTGAACAAGAAAAACAGCAAGCTGCACAACAAAAAATGAAACAAAAAGAGCGTGAGCAAGCTGAGAAACAAACCGAAGAAAATAAAGCACAGGAACCAAAACAAGAGCCTGCTCCAACGAGAAGACCACCAAGAATTAGTCCGAAGGTGTAA MSLLPKNERKAAKETPRNFVIYGGTMHGKTYFADEFPNPLNLNTDGNAEMIETPSLNINNQRNAKGDITRSASDLLSDIILELETTKHTYETVVIDVIDDIITMFEQEITEEHNVKSVGDIAWGKGHQMLEMMVRVLVMRLKELSMKKQINILYLSRLNIIEENDVEKHVPSLKLKWLNIVNGNSDYTILCRKMGKNYIRQVESKRKNYTQDKVDDERIKDLLSTVIGAFDKSKKTSTDEAKKIVAEQEKQQAAQQKMKQKEREQAEKQTEENKAQEPKQEPAPTRRPPRISPKV NA NA NA NA NA AK015_02802 141 hypothetical protein ATGATCGCAATAATCGGTAAAGAAACTAAAAAAGTTTACGTCAAAGGTGACCAAGCATATTGCTTTCGTGTCTTGAATAAAAAATATCCGTATAAAAACGGAATTGTTTACCCTGAACCTTTGCTCGTTGTAAATCTCTAA MIAIIGKETKKVYVKGDQAYCFRVLNKKYPYKNGIVYPEPLLVVNL NA NA NA NA NA AK015_02803 330 hypothetical protein ATGAACGTTAAATTTAAAAATTATAACTGCAACATTATGTTTGGTCAATATGGTAATGGAAATACAGCTATTCAACTGGTTGATGAGAAAGATGGCTATCCAGTTGCTGTTGCGACAGTTAACGGACTACACAAATGTCCAAATGACATCGTCGGGATAAAGGATTGGTCAGAGAATGAAGGAATGGTGGACGCATTGATTCAAGCGCATGTAATAGAGAATGAACTGTTGCTTATGGAACGTACCGGATTTGTGTACATTGGATATTACAAACTAACAGATCAAGCCTTAAAGCTTTTAAAAGAATTCAAGGTTGGACAACAAACATGA MNVKFKNYNCNIMFGQYGNGNTAIQLVDEKDGYPVAVATVNGLHKCPNDIVGIKDWSENEGMVDALIQAHVIENELLLMERTGFVYIGYYKLTDQALKLLKEFKVGQQT NA NA NA NA NA AK015_02804 900 hypothetical protein ATGACCAATCTATTACCTGCCAAAGACGAACCGAACGTAACTAATAAAAGAAACCTTTATGTTGGAGGATCCGATATACCAACAATTATTGGGCTAAATAAATACAAAAGCCAGTATGAACTTGCTCAAGAAAAAATTGGTATTAAGAAGAATGAATTTAAAGGAAATGAGTATACACAGTATGGGAACATTATGGAGCCAATGATAAGAGATTATATTAATGCATTAAATCAAGTGATGTTTGTACCAGATACGCGCATTGGTGATGGAATACGCTCCAATACGGATGGTTATGAGGCGGAGCATCAATTGATACTAGAGATTAAAACGCACGGTAAAAATCTCAACACAAAGCCTTACATTGCTCAAATGCAATTGTATATGTATCAGTTTAATTGTGATTATGGTTGGTTGGCATTGTACGAACGTCCGTCAGATTTTGACACGGAATTTGATGCAAATAGATTACAAGTTCAAGAGATTGAACGTGATGATGCTTATATCGAAAAGATACTAGATTCTATAGAAACCTTCTGGATTCGTTGCGAGTTTTTAAAAGACAATCCAAAAGCCACAGAAGAAGATTTTATCAACTTTGGCCAAAATGAAGTGATGATCTTTGCTCGCGAAGTCTCTAAATTGGAAATGCAATTGGCTGAGTTTAAAGAACTTGAAAAGCAATATAAAGGTGCCAAACAAAAATTACATGATGCTATGGAAGCTTATGACATCAAAAAGTACGAGACAGATTATGTAGCAATTACACGCATTCTACCAGGAGAACGCAAGTCGTTTGATAGTAGCAGATTTAAAAAAGACTATCCAGAATTGGCTGCAGAGTATCAGAAAGTTAGTAAGACCAAAGGATCGATACGGATAAATGTGAAGGAGGAAGTGTAG MTNLLPAKDEPNVTNKRNLYVGGSDIPTIIGLNKYKSQYELAQEKIGIKKNEFKGNEYTQYGNIMEPMIRDYINALNQVMFVPDTRIGDGIRSNTDGYEAEHQLILEIKTHGKNLNTKPYIAQMQLYMYQFNCDYGWLALYERPSDFDTEFDANRLQVQEIERDDAYIEKILDSIETFWIRCEFLKDNPKATEEDFINFGQNEVMIFAREVSKLEMQLAEFKELEKQYKGAKQKLHDAMEAYDIKKYETDYVAITRILPGERKSFDSSRFKKDYPELAAEYQKVSKTKGSIRINVKEEV NA NA NA NA NA AK015_02805 1248 hypothetical protein TTGTCACAAGCTCTCTTGAACAAACGAAGCACTATCTTGAAAAATTCGATCTTGTATGATTTTCAAAAAAAATTATTAAACAGCATTAGTAAAAATTATATCGTTGCGGCTGACACGGGAACAGGTAAAACGATTATGGCCATCTATCATTATTTACGACATACCAAAGGGGAGCCATTATTGATTGTGGCTCCACCACAAAAGATTAAAGAAGGCGGTTGGGATAGAGATATTAGTTTTGTTTCTGATCAGCACAATATCGCTATAGAGTACGAAACACTTAGCTATGGAGTGTTAGCAAAGCGTTGGAAGGATTATAAGGGCTATTTTGTAGTGTATGACGAGTGCCATTACATCAAGAATCCAACTAGCCAAAGAGGAAAAGCTGGTATCAATCTGACCAAGATCGCAACACATTATCTACTATTAAGCGCAACGCCAAGTAGTAACGGCTGGGGAGATACGATCGCTTATATGATAATGTTCGGCTATTACAAAAATAAGACGCAATTTCTTAAGGAGCATGCTATCTACGATGATATGTATGTTGGTAGGCCTAAACCAGTAAAAGTTGTATCTGACTGGAAAGACCAGGAGAAGTTAAAAGAAATCTATCAATCTTTTAGCATAAAGTTGGCCAAAGAAGATTGCCTTGATCTACCAGGAATTGTGTTTCATGATATTAGCTTTAAAGCTACTAAAGAATACAACATTATCAGTAAAGATCGTGTCTTAGATGATGAATTATATGACAGCGTGCCAAAGTTGCAGCATGGACTTCGTTATCATGCAAACCAAGTAGACAAATTGAAATACTCGGAAATGCTTGCAGAAGGTACAAGTGAAAACATCATTATTTTCTACTACTACCAGGAGGAAAAAGAGCAGCTACAAAAGATCATGAAGAAGCTTAAAAAAACCATCTTTGAAGTGAGTGGGCAAAAGGCAGCTCTACCAAAGAAAAATGATTGGAACGGATTATCTAATAGCGTAACGCTTGTGCAGTATATGGCTGGTTCGGCTGGCATTGAGCTCCAATATGCCAACGTGGTTATCTTTTATACACCAACCTATAGCTTTCAAGACTATGAACAAGCTTTAGGACGAGCATATCGGAATGGCCAAAAGAAAAAAGTAACTGTCTACAGATACATTACTAAAGGCACGGTTGAAGTCGGCATTTACAAGGCATTAAACGATAAAAAAGATTTCACAGAAGAATTATTTAAGAAGGAGATGGGGATATGA MSQALLNKRSTILKNSILYDFQKKLLNSISKNYIVAADTGTGKTIMAIYHYLRHTKGEPLLIVAPPQKIKEGGWDRDISFVSDQHNIAIEYETLSYGVLAKRWKDYKGYFVVYDECHYIKNPTSQRGKAGINLTKIATHYLLLSATPSSNGWGDTIAYMIMFGYYKNKTQFLKEHAIYDDMYVGRPKPVKVVSDWKDQEKLKEIYQSFSIKLAKEDCLDLPGIVFHDISFKATKEYNIISKDRVLDDELYDSVPKLQHGLRYHANQVDKLKYSEMLAEGTSENIIIFYYYQEEKEQLQKIMKKLKKTIFEVSGQKAALPKKNDWNGLSNSVTLVQYMAGSAGIELQYANVVIFYTPTYSFQDYEQALGRAYRNGQKKKVTVYRYITKGTVEVGIYKALNDKKDFTEELFKKEMGI NA NA NA NA NA AK015_02806 297 hypothetical protein ATGAGTCAAGGCCCTGAAAAACGTGTAGAAAATCAAATCAAAGGATACCTGGATAAGTTGGGTGCTTATCATCGCAAAACACACGGTAGTCTTTTTAGTAAAGCAGGAACGCCAGATATATTGGCTTGCGTGAAAGGCAGGTTCGTGGCCATTGAAGTAAAACGTGAAGAGGGCGGAAAGGTGTCACCACTCCAGGAAGCTAATATCCAAATGATACAAAAGGCAGGTGGAATTGCATTTGTCACAAGCTCTCTTGAACAAACGAAGCACTATCTTGAAAAATTCGATCTTGTATGA MSQGPEKRVENQIKGYLDKLGAYHRKTHGSLFSKAGTPDILACVKGRFVAIEVKREEGGKVSPLQEANIQMIQKAGGIAFVTSSLEQTKHYLEKFDLV NA NA NA NA NA AK015_02807 417 hypothetical protein GTGGATTTTAATGTGCGAACGCAAATCCAACAGTCGGAAATTAACGGCTTGTATAACGAAATGGAAGAATTGAAAAAGAAGCGAAAACAATTAAAAGAAAGCATTGATGATAAAGAAGAAAAAATCATTAGTCATATTTTGAAACATGGCAATGTGATTGCCTATAAGAATGATGACCCTCATGTCTTAACTGTAAAGAACGGTCATAGCACCAAGTTTGATAAGTCTGCTCTTGCTAATGATCTTGGTGTGAGTCAAAAAGAACTAGATTATGTGGGGGTTGCGGAGTTTGTAGAGAGTAAACAAATTACGTCACAAAAGTTGAACGAGTATTACTATCAAGAACCAACACAAAAGTTAAACGCACGTAAGGCTAAAAAGGCAGATATGGACTTGATTCTAGGTGGTCGGGTATGA MDFNVRTQIQQSEINGLYNEMEELKKKRKQLKESIDDKEEKIISHILKHGNVIAYKNDDPHVLTVKNGHSTKFDKSALANDLGVSQKELDYVGVAEFVESKQITSQKLNEYYYQEPTQKLNARKAKKADMDLILGGRV NA NA NA NA NA AK015_02808 270 hypothetical protein ATGAATGAAAGACCAAAGAACCAGTTAGTGAGAGTTAATTTCTATAAGCCAATGGGAAAGTGGTATTCCTCATGTAAGGCTGTAGTAAACCATTTTATTTTTCAAGACGGATTTAAACAAGACATCGTTGATACTCAAACGGCTTTAGGTGATGGATGGCAAGGCAGCTTCTATGTACAGACTAGTTGTCCAGAAGAAGTAAATGGATTTTTTGAGCGCCTGTTTCATCCTGAAGAGTTTGTTGGAATTAAAAAAAAGAAAAAAGCCTGA MNERPKNQLVRVNFYKPMGKWYSSCKAVVNHFIFQDGFKQDIVDTQTALGDGWQGSFYVQTSCPEEVNGFFERLFHPEEFVGIKKKKKA NA NA NA NA NA AK015_02809 237 hypothetical protein ATGCATTGTCCATTTTGCAAAAGGGCGCCGAGAGATATTCCTGAATATATTGAGCAAGCCAATTTTAACGAGGTGAGTCCAAACGATTACGTGAGAATGGATGAAGGAACTTACCATGCTGAAACAGACTTGTTTTGCTGTACGGACTGTTACAGCAAAGTTGGCTTACCTTTGAACATAGATTTAGCAAAAGTTTTTCGGGATTACAGAAAGCAAGTTATACCACTAAAAAGGTAG MHCPFCKRAPRDIPEYIEQANFNEVSPNDYVRMDEGTYHAETDLFCCTDCYSKVGLPLNIDLAKVFRDYRKQVIPLKR NA NA NA NA NA AK015_02810 285 hypothetical protein ATGAGTAACTGCTTTGAAGATGAAACTGGCAAGTCTCCTGAAGAACTAACTCAAGAAGAATTCAATAATCTATCTGATGAATTGAAATGGCTTGCTTTTGAAAATGTAATAGAAATGTTTTACGGCATTTCAGGTGAGTTGGAACAGCAAAACAAACGGTATCGGAAAATTTTTGAACAACTATATAACTTTGACGGGAATGTCCAGGAACATTCAGCATTGACTGATATGCTGTGCGGCGATGCATTGGAGGGCGAGTTAGAAGAAGCTATTGAAGGGAGGTGA MSNCFEDETGKSPEELTQEEFNNLSDELKWLAFENVIEMFYGISGELEQQNKRYRKIFEQLYNFDGNVQEHSALTDMLCGDALEGELEEAIEGR NA NA NA NA NA AK015_02811 501 hypothetical protein ATGCAAACGCTAGATGCTCCAGTTTTTGAAGTTAGACAAGATTCGGATTGGTACAAAGAAGAGATAGAAAGAAGGGAAAAAACAAAAGAATTCTTCAACAAAATACAGAATGGCTACATTCAAGATAACGGTTTTGCTTTTTACCATGAATCACACTTCGGAATCTATGCTGATTCAAAAGATTACGAGATTTATAAGAGCGAACTAACTAAACATCCTGATAAAAACGGCATTCATACATTCAAAAAGAGATCAACGCATTACAAATTATTTAAAGAAATGCTAGATGATATTCCGAAAATAAGTCCGTTTAAACCTCATGATGTTTTTGGACTTAACAATATGAATCAAAGTCAATGGGTTGGTGATAGATGGTTTTACTCAGTAAAAGATGAAAATAAAATCCCACAAGAATCGATTGGAATAAAGATCGAACCGATTAGCTATAAAAAGTATTTGGAAATAATTGTGGGCATTATTGAAGATAATGAAGGGAGGTGA MQTLDAPVFEVRQDSDWYKEEIERREKTKEFFNKIQNGYIQDNGFAFYHESHFGIYADSKDYEIYKSELTKHPDKNGIHTFKKRSTHYKLFKEMLDDIPKISPFKPHDVFGLNNMNQSQWVGDRWFYSVKDENKIPQESIGIKIEPISYKKYLEIIVGIIEDNEGR NA NA NA NA NA AK015_02812 261 hypothetical protein ATGGCAAAACTTTCTATGTTTCTTGAAAGAGACCAAGAAAAAGCGGACAAGCAGTTAGCTGTTTATGATTACAACTTTATGCATGCTGCCCGTTATGTGGCTCAAGGCGAATTCGAAAAAGCTGCAGTGCACCATCGTAACGTAGCAAATGCGCTAGAAGAGTTACAGCGTATGAAGAACAGCAGGGATATGACCGAAGAAGCACGATCGCTATTGAATCAAATAGATAAGCAGGAAGTTACCAGGAGGAATTGGTTTTGA MAKLSMFLERDQEKADKQLAVYDYNFMHAARYVAQGEFEKAAVHHRNVANALEELQRMKNSRDMTEEARSLLNQIDKQEVTRRNWF NA NA NA NA NA AK015_02813 645 hypothetical protein TTGGAAAAAATTGAAGCAATAATACGATTCTTATTTCAAAATCCAAACTTTGGAACATTTGTAGTCGCCCTATTAACATTTGGAATTACGTTTGCCAATTTTTATAGAAACAGGGCTTCAATTAAAGTTAATCAATTACCAGAAAGCCAGTCTGTTTTGATCAAACCGGATTTCATTGATCAAAGAACACCAGATAGATATTGGCACAGTGACTATAGACTAATAATGGATATCATCATTACCAATAAAAGCGCAAAACCTATTTCTATTACGGAATTCACTCTAAACAATAAAATGAAGTTTAATTCATACCATAAACCAGGTGATTTCTATCAAGTTACTCTAACCCCTGCAGAAACTATGGATGATAACGGTATTCTTTTTGGTTATGGTAGTTCTAAATATCTTGGCTTCCCAATTAATGATAGTTGGTTACAACCAATTATTGATATTCCTCCTCATACTTCTGTAAGAGGACATTTATTCTTTCACTTTCCAAATAAGGATATGGTAAGCAAAGAAAATAATAGATTGGATATAAGTACTTCCCGGAAAACCTTTACTACATATTTAGACCTATACGATATTCATGAATCCCGCATTTCGCCACCAGAAAATATTCTGAAGGCTCGTCATGATAATTAG MEKIEAIIRFLFQNPNFGTFVVALLTFGITFANFYRNRASIKVNQLPESQSVLIKPDFIDQRTPDRYWHSDYRLIMDIIITNKSAKPISITEFTLNNKMKFNSYHKPGDFYQVTLTPAETMDDNGILFGYGSSKYLGFPINDSWLQPIIDIPPHTSVRGHLFFHFPNKDMVSKENNRLDISTSRKTFTTYLDLYDIHESRISPPENILKARHDN NA NA NA NA NA AK015_02814 273 hypothetical protein ATGGCAAAGGAAAATAGTTTTTTTATTGAAGGTTTAGAAGATAAAGCGGAAAAATTAAATGAATTATCAAAAAAGCTAAAAGAAGCTAGAACAATTGCAAATGAACTAGCCTCTACGCAAATAATAATAAACGATAAAAGGCAAAAAGACATCACGGAATATATAAACGAACTAAGAGAAGGGTTTATATCTAATTATCATGACGAGCCTTCAGAATATTTTCTGGTGGCGAAATGCGGGATTCATGAATATCGTATAGGTCTAAATATGTAG MAKENSFFIEGLEDKAEKLNELSKKLKEARTIANELASTQIIINDKRQKDITEYINELREGFISNYHDEPSEYFLVAKCGIHEYRIGLNM NA NA NA NA NA AK015_02815 219 hypothetical protein ATGACACAAGAACTGCAGTCATTCCGTGATCGCTTCGACAACATCATGCAAGCACCTAAACGGATACGTAACAAACGGTTAGTTACTTTGATGCAGGATATGGAAAGGGCGTATAACATTCCGTTGTTGTATTCAGCAGCATATGCGTTCAACAACCCGGAAGTAATGAAGCTTTATAGGCAAGTTAGTTACGCTAGGGATTTTGAAGGAGGGAGATAG MTQELQSFRDRFDNIMQAPKRIRNKRLVTLMQDMERAYNIPLLYSAAYAFNNPEVMKLYRQVSYARDFEGGR NA NA NA NA NA AK015_02816 240 hypothetical protein ATGAATACTAATCTCTATATAGCCAGAAGAGAGAATCGACTGACTCAAAAAGAAGTAGCTAAGAAGTTAGGTATACATCCTCAGACTTATTACGAAAAAGAATCTGGTAAAAAGCAATTCACTATTCGAGAGGGGTTAATGTTAGCAAAAATTTTTAAATGCACATTAAATGATTTATTTCAAACCGAAATGCGTAAGGAGGTAAACCAAAATGACACAAGAACTGCAGTCATTCCGTGA MNTNLYIARRENRLTQKEVAKKLGIHPQTYYEKESGKKQFTIREGLMLAKIFKCTLNDLFQTEMRKEVNQNDTRTAVIP NA NA NA NA NA AK015_02817 249 hypothetical protein ATGTTGCAAATTTCATTGGCCGCAGCAAGAGTAAATGCGGAATTTAGTCAGATGGAAGCTGCTCAAAGAGTTGGTATAACACCTAAAACTTTACGTGGTTATGAAAAAGGTTATGCAGCAATACCAGGTTATGTTTTGCGGAAATTAGCTAAGTTATACGGTATTCCTGAAGAATGTATAAGATTACCCATTGTAGATGACGGGGAGTATGATGAGAAAGAATTTTTTTTAGAGTCAAGTACCGTTTAA MLQISLAAARVNAEFSQMEAAQRVGITPKTLRGYEKGYAAIPGYVLRKLAKLYGIPEECIRLPIVDDGEYDEKEFFLESSTV NA NA NA NA NA AK015_02818 639 lexA_1 LexA repressor ATGAATATGAATGAGAAAAACTTAAAAGAAATTTTTGCAGATAACTTAAATTTCTATTTGCAGAAAAAAGGAATAACCCAAACACAACTAGCTAATGAATTAAACATACCTAAAATGACAATGTCTAATTGGTTAAATGCTAATACATACCCCAGACCTGACAAAATCCAGTTATTAGCCGATTATTTTGGCGTTTACAGATCAGATCTTACTGAAGAAAGAAAACCGCAAAATCTAAAACCTGCTAAATCAGATTTTGAGTATGTGCCAGTTCTTGGAGAGATTGCTTGCGGTGAGCCGATTTATGTACAGGAAAATTTCACTAGTTACCGCACAGAGTTAAAGGAGAGTCTGCCAAGTGGAAATACATACTATTTAGAAGCTAAAGGGAAAAGTATGGAACCAACTATCCCAGAAGGAGCCTTTGTTTTGATAAGAGAACAGCCAGATGTAGAAAACGGTGAAATAGCAGCCGTATTGTGTAACGGTGATACAGAAGCGACACTTAAACGAATCAGAAAACAAAAAGGGTACCTAATACTAATGCCTGACAATAGTAATTACACACCTATAATCGCTGATAAAAACAACCCATGTAAAATTATTGGTAAAGCTATTAGATTTACGTTTGATTTATAA MNMNEKNLKEIFADNLNFYLQKKGITQTQLANELNIPKMTMSNWLNANTYPRPDKIQLLADYFGVYRSDLTEERKPQNLKPAKSDFEYVPVLGEIACGEPIYVQENFTSYRTELKESLPSGNTYYLEAKGKSMEPTIPEGAFVLIREQPDVENGEIAAVLCNGDTEATLKRIRKQKGYLILMPDNSNYTPIIADKNNPCKIIGKAIRFTFDL PGPT0014895_2231 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356 NA NA AK015_02819 1092 COG0582 Putative prophage phiRv2 integrase ATGCCTGTCTATAAAGACAAAAAAAGAGGAACTTATTTTTTCACCTTTTCGGTTGAAGATAAGAATGGAGTCTATAGGCAAATAAGAAGAAGAGGTTTCAAAACAAAATCAGAAGCAAGGCAAGCAGAAGCTGAGGCTCTTTTGAGTATTGAAGATGGCGAAGAAAATGATAATGATCCAACTTTTGAATTTGTCGCAAATGAATATCTGAATTGGTATAAAAAAAGAAGAAAAGAATCTTCTTTTAATAAAACAAAGAGCACTATTGATAACCATTTAATACCTAAATTTGGAAGAAAACGACTTAGTCGTATTAGACCAAGAGATGTCACAAGATTACAAGATAACTTACTAGACACTTTTTCCCCTGCTCATGTCAAAAAGATACACTCTGTTCTTTCTGCCATTTTTAATTTTGCAATTAAAATGGAATATGCAACAGACAATCCAGCACGAACAGCAGGAAACATAGATTTTGAAGAAGAAAAACACGTTAATTATTGGAATTTAGAAGAGTTCAAAAAATTTATTAGTGTTGTAGATGACGAATTGTACCACGCTCTATTTATGACCTTATACTACAGTGGTATGAGAAAAGGGGAATTATTAGCTTTAACCTGGGGCGACGTAGATTTTGAAAATAATACACTCAATATAGATAAAACAGCTTATAACAGAATTATAACAAAACCTAAAACACAATCATCGATACGCAAAATAATAATGCCTAATCACGTCATGACTTTACTATCAAGAATAAAGGCAAACGTTGATCCTAAAATGACGTATGTAGTATTTGGGGAATTTCACGACCATGTTTCTACCACCACATTAGATCGTAAATACGAAGGATATATTAAACAATCAGGAGTTAAAAAGATAAGGTTGCATGATTTTAGGCATTCACATGCAAGTTACTTAATAAACAAAAACACAATTGTATCAGTCATTGCTCAAAGACTTGGTCACGGGAATGTTGCAACAACATTAAATACTTATAGTCATCTTTACCCTTCAACTGAAAGGGAAGCCGTTCTTAAAATGGAGGACGACTTTAAAACTGCAGAAGTTATTGAGTTCAAAAACGCTTAA MPVYKDKKRGTYFFTFSVEDKNGVYRQIRRRGFKTKSEARQAEAEALLSIEDGEENDNDPTFEFVANEYLNWYKKRRKESSFNKTKSTIDNHLIPKFGRKRLSRIRPRDVTRLQDNLLDTFSPAHVKKIHSVLSAIFNFAIKMEYATDNPARTAGNIDFEEEKHVNYWNLEEFKKFISVVDDELYHALFMTLYYSGMRKGELLALTWGDVDFENNTLNIDKTAYNRIITKPKTQSSIRKIIMPNHVMTLLSRIKANVDPKMTYVVFGEFHDHVSTTTLDRKYEGYIKQSGVKKIRLHDFRHSHASYLINKNTIVSVIAQRLGHGNVATTLNTYSHLYPSTEREAVLKMEDDFKTAEVIEFKNA NA NA NA NA NA AK015_02821 465 smpB COG0691 SsrA-binding protein ATGCCAAAAGGACAAGGAAAAGTAATTGCAACAAATAAAAGAGCATCTCATGACTATTTTATAGAAGATACGTATGAAGCAGGGATTGTTCTGCAAGGCACAGAGATTAAGTCGATTCGTGCCGGAAGGGTAAATATTAAGGATGCGCATGCGCGGATTGATCGTGGTGAAGTAAAATTAATTAATTTGCATATTGCAGAATATGCACAGGGAAATCGATTTAATCACGATCCAACTCGTACAAGAAAACTGCTTTTACACCGTAAAGAAATTGATAAATTAATTGGCTTAACCCAACAGCAAGGGTATGCACTTGTGCCATTGAAAATTTACATTAAAAATGGTTATGCAAAGGTACTGTTAGGGCTAGGAAAAGGTAAAAAGAAATACGACAAGCGTGAAGATTTGAAAAGAAAGCAAATGAAACGAGACGTTGATCGAGCTATCAAAGACCATATGCGCTAA MPKGQGKVIATNKRASHDYFIEDTYEAGIVLQGTEIKSIRAGRVNIKDAHARIDRGEVKLINLHIAEYAQGNRFNHDPTRTRKLLLHRKEIDKLIGLTQQQGYALVPLKIYIKNGYAKVLLGLGKGKKKYDKREDLKRKQMKRDVDRAIKDHMR PGPT0014355_2986 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 AK015_02822 2169 rnr COG0557 Ribonuclease R ATGAAAGAAAAAATTCAACAATATTTTAAAGAAAATGGTACAAAGCCTTTAACAGTCCATGAAATAGAAGAAGCGCTAGAGATTGAAGATGCAACAGAATTTAAAGAGCTCATCAAATCATTAAATGCTTTAGAGGAATCTGGGGAGCTCGTACGAACAAGAAAAAACAGATTTGGATTACCAGAAAAGATGAACCTTGTCCGTGGTAGAATTCAAATGCATGCCAAAGGGTTTGCTTTTTTAATCCCAGATGACGAATCACGCGATGATGTTTATATTCATTATTCTGATCTTGGCTCGGCTATGAACGGAGATAAAGTGCTTGTCCGCATTGAGAAAAGAAGTGATTCTGGAAATCGCTCGGAAGGAACTGTCATTCGGATCTTAGAAAGAGCGACATTACAAGTTGTCGGTACATTTGAAAATAATCGTTCGTTTGGTTTTGTTATTGCAGATGATAAGCGTATTCCTAATGATATTTTTATCCCTAAGGATAGTACGAATGGCGCTGTTAGCGGACATAAGGTAATTGCGCATATTACGAAATATCCAGAAGGAAGGAAAAGTGCGGAAGGGGAAATTATTCATATTTTAGGACATAAAAATGACCCTGGCATTGATATTATGTCCATTATTCATAAGCATGGCATTAAAGTAGATTTTCCTGAAAAAGTGTTAGAGCAAGCAGCGAATACACCTGAAGCCATTACTGAAGAAGAAATGGAAGGGCGCAGGGATCTTCGGGAGGAAACAATTGTAACCATTGACGGTGCAGATGCAAAAGATTTAGATGATGCTGTATCTGTAAAGCAATTAGACAATGGTAACCATCTTCTCGGAGTATATATTGCTGATGTGAGCCATTATATTGATCAAAGGAGTCCTATGGATGAAGAAGCCTTTGAAAGAGGTACTAGTGTTTACTTAGTTGATCGCGTCATTCCGATGATTCCACATCGTTTGTCTAACGGAATCTGCTCATTGAACCCTAAAGTGGATAGATTGACATTGGGTTGCGAAATGGAAATAGATACTTCTGGCAACGTTGTAAAACATGAAATTTTCCCAAGCGTTATTCGAACAAATGAGCGGATGACCTATCATGATGTGAATCAAATTTTGGTAGAAAAAGATAGTTCTTTACAAGAACGCTATCAAGAGCTTGTTCCTATGTTTGAAAATATGGAAGCATTAGCTGCTATTTTACGAAGGAAGCGAATGAATCGAGGTGCGATTGATTTTGACTTCAAAGAAGCGAAAGTAGTAGTAGATGAAAATGGAAAGCCACAGGATGTTGTGTTACGAGAGCGTTCCGTTGCAGAGCGACTGATAGAAGAATTTATGTTAGCGGCAAATGAAACGGTAGCAGAGCATTTCCATTGGATGGACGTGCCGTTTATTCATCGTATTCACCAAGATCCAGATCCTGATAAATTACAAACGTTTTTTGAATTTTTAGCGGGTCTGGGTTACGTGGTCAAAGGTACGAATAATGAAATTCATCCACAAGCACTTCAAAAGGTGTTGGAAGAAGTAAAAGGAAAGCCAGAAGAAATGATCGTTTCAAAATTAATGCTTCGGTCGATGCAACAAGCAAAATATGACCCCCAAAGTATTGGACATTTCGGTTTAGCGACATCCTTTTATACACATTTTACTTCTCCAATTCGTCGTTATCCAGATTTAATTGTACACCGCTTGATTCGTGCCTATTTAATTGATAAAAAGATGGATCAGCGAACATTGCAGAAGTGGAAAGACGAACTTCCAGAAATAGCCAGACAAACTTCTGCTGCTGAACGACGAGCGGTCGACGCTGAACGAGAAACAGATGACTTGAAAAAGGCAGAATTTATGCAGGATAAAATTGGTGAAGAATATACTGGGGTAATTAGTTCTATTACGAATTTTGGTTTATTTGTGGAATTAGAGAATACAGTAGAAGGCTTGGTACATGTTAGCTATTTAACGGATGATTATTATCACTATGATCAGCGGAGTCAAGCAATGATCGGAGAAAGAACAGCTAAAGTGTACCGCATTGGCGAAGAAGTACAAGTAAAAGTAGCAAGTGTTAACATTGATGAACGCACGGTTGATTTTTCCATTGTATACGATGAAGAAACGAAACCAAAGAAAAAAATCAAAGCGAAACGAATAAAGAAATAA MKEKIQQYFKENGTKPLTVHEIEEALEIEDATEFKELIKSLNALEESGELVRTRKNRFGLPEKMNLVRGRIQMHAKGFAFLIPDDESRDDVYIHYSDLGSAMNGDKVLVRIEKRSDSGNRSEGTVIRILERATLQVVGTFENNRSFGFVIADDKRIPNDIFIPKDSTNGAVSGHKVIAHITKYPEGRKSAEGEIIHILGHKNDPGIDIMSIIHKHGIKVDFPEKVLEQAANTPEAITEEEMEGRRDLREETIVTIDGADAKDLDDAVSVKQLDNGNHLLGVYIADVSHYIDQRSPMDEEAFERGTSVYLVDRVIPMIPHRLSNGICSLNPKVDRLTLGCEMEIDTSGNVVKHEIFPSVIRTNERMTYHDVNQILVEKDSSLQERYQELVPMFENMEALAAILRRKRMNRGAIDFDFKEAKVVVDENGKPQDVVLRERSVAERLIEEFMLAANETVAEHFHWMDVPFIHRIHQDPDPDKLQTFFEFLAGLGYVVKGTNNEIHPQALQKVLEEVKGKPEEMIVSKLMLRSMQQAKYDPQSIGHFGLATSFYTHFTSPIRRYPDLIVHRLIRAYLIDKKMDQRTLQKWKDELPEIARQTSAAERRAVDAERETDDLKKAEFMQDKIGEEYTGVISSITNFGLFVELENTVEGLVHVSYLTDDYYHYDQRSQAMIGERTAKVYRIGEEVQVKVASVNIDERTVDFSIVYDEETKPKKKIKAKRIKK NA NA NA NA NA AK015_02823 747 est Carboxylesterase ATGAAAATAAAACAACCTCAACCCTTTACTTTTGAAGCAGGACCACGTGCCGTATTATTATTACATGGATTTACTGGACATTCTGCAGACGTCCGTATGTTAGGGCGATATTTAGAAAAACGCGGGTATACTAGTCATGCACCCATCTACAGAGGGCATGGGTTACCGCCTGAAGACTTAATTCAATCGACAACAGGCGAGTGGTGGGAGGATGTGTTAGAAGCATACCAGCATTTAAAAGATTTGGGGTATAGAGAAATTGCTGTTTCTGGCTTATCATTAGGTGGGGTACTAGGCTTGAAATTAGCATACACAGAACAAACAAAGGCTGTTATTCCAATGTGTTCACCTATGTTTTTTGATAATGAAACGCAATTAACAAAAGGATTTCGACTATTTGCCAAAGAATATAAACAGCTGGAACGTAAAGATGATCATGTGATAGAACAAGAATTAGATACGTTATTAACAAATTCTAAACCGCTATTTAAACAATTAGGTGCATTCATTACTGAAGTGAAAAATGAAGTAGATACGATTTATACGCCAACAATGGTCGTTCAAGCTAGAAAGGATCAAATGATAAATACAGACAGTGCAAACTATATTTATGAAAATGTAGAAGCAGAGCATAAAACGATCAAATGGTATGAAGAGTCAGGACACGTTATTACAATGGGAAAAGAAAAAGAGCAAGTTTTTGAGGATATTTATCAGTTTCTCGAAACATTAAAATGGGAACAATGA MKIKQPQPFTFEAGPRAVLLLHGFTGHSADVRMLGRYLEKRGYTSHAPIYRGHGLPPEDLIQSTTGEWWEDVLEAYQHLKDLGYREIAVSGLSLGGVLGLKLAYTEQTKAVIPMCSPMFFDNETQLTKGFRLFAKEYKQLERKDDHVIEQELDTLLTNSKPLFKQLGAFITEVKNEVDTIYTPTMVVQARKDQMINTDSANYIYENVEAEHKTIKWYEESGHVITMGKEKEQVFEDIYQFLETLKWEQ NA NA NA NA NA AK015_02824 234 secG COG1314 putative protein-export membrane protein SecG ATGCTTGGAATAGTTAATGTATTGTTAGTTATTGATGGAATTATAATGATTATATTAGTTCTACTACAATCTGGAAAAAGTGAAGGTTTATCAGGTGCTATTTCTGGAGGTGCTGAGCAGTTGTTTGGTAAGCAGAAAGCAAGGGGAATTGATCTTGTATTACATCGAGGAACAATTGTCACAGCGGTCATTTTCTTTGTATTAGCATTTTTAAGTGCCTATGTATTACAATAA MLGIVNVLLVIDGIIMIILVLLQSGKSEGLSGAISGGAEQLFGKQKARGIDLVLHRGTIVTAVIFFVLAFLSAYVLQ PGPT0025720_3483 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075 NA NA AK015_02825 915 COG2267 Monoacylglycerol lipase ATGAAACAGCAAACTTTTTGGTACCAAACCGATGATCATACAGACGTATTTATTAAAAAATGGGAACCCGCTTTTCCTGCAAAAGGGGTTATTCAAATTGCTCATGGCATGATGGAGCATATAGAAAGGTATCATGATTTTGCTACTTATTTAACGTCTCAAGGGTTTATCGTTTATGGAAATGATCATAGAGGGCACGGAAAAACTGGTGAAAAACAAGGTATGCTTGGTTATTTCGCTGAAACAGATGGCTTTTACAAAGCGGTTCATGATCTGCGCCAAGTATCGGAACTTATTCGGACTTCTCACCCATCTTTACCTGTATTCTTATTCGGACATAGCATGGGGTCTTTTTTTGTCCGCTCTTATATCCAATCTTACAGTAATTCCATTTCTGGAGTTATTCTTTCTGGAACTGGATATTATCCTACAACTCAATTAATAGCAGGGCAACGTTTAGCATCTCTCCTTCCGCCGAAAGAAAAAGCGGTTTGGATGAATAAGCTTGTTTTTGGTTCATTTAATAAAAAAGTAGATTACGCTCCTACTGGATTTGAATGGTTAACGCGATCAACAGAAGCAATTGATAAGTATATGAAAGATCCGTACACTGGATTTATTCCAACCGGACAATTTTTTTACGATTTATTTACCGGTTTGCGAAGTATTCATAACTCGAACAATTATCTACAAATACGGTGCGATCTTCCAGTACTATTGATTAGCGGGGATCATGATCCAGTTGGAAATTACGCAAAAGGCGTTTGGAAGACAGCTGAATTTTATACCAATTGCGGTTTAACTCAGATTGTGACAATGCTATTTGCTAACGGTAGACACGAGCTGATTCATGAATGGAACAAACAGGAAGTATATGAAGTGATTATGCAGTGGACGAAGAAAGCGATTGCTTAA MKQQTFWYQTDDHTDVFIKKWEPAFPAKGVIQIAHGMMEHIERYHDFATYLTSQGFIVYGNDHRGHGKTGEKQGMLGYFAETDGFYKAVHDLRQVSELIRTSHPSLPVFLFGHSMGSFFVRSYIQSYSNSISGVILSGTGYYPTTQLIAGQRLASLLPPKEKAVWMNKLVFGSFNKKVDYAPTGFEWLTRSTEAIDKYMKDPYTGFIPTGQFFYDLFTGLRSIHNSNNYLQIRCDLPVLLISGDHDPVGNYAKGVWKTAEFYTNCGLTQIVTMLFANGRHELIHEWNKQEVYEVIMQWTKKAIA NA NA NA NA NA AK015_02826 1719 ptsI COG1080 Phosphoenolpyruvate-protein phosphotransferase ATGATTATGGCTAACATTCAAGGAATTGCTGCATCTTCAGGTATCGCTATTGCCAAAGCATACCTATTAGAAACTCCAGACTTATCATTTGAAAAAATCACGACAGCTACCCCTCAAGTGGAAATAGAACGACTTGATAAAGCACTTGAAATTTCCAAGCAAGAATTAGAGCAAATTAAAGCTCATACGAAAGAAAATATTGGTGATGAGCATGCGGAAATTTTTTCTGCTCATTTGTTAGTACTTAGTGACCCTGAATTGATTAATCCTATGAAGAATAAAATGAATGAAGAAAATGTAAACGCAGAAGCTGCGCTAGATGAAGTTGCTACCATGTTTATCGACATGTTCAAAAATATGGACAATGATTATATGCGAGAAAGAGCAGCAGATATATACGATGTAACAAAGCGTGTTAAAGCCCATCTATTAGGGGTTACTTTCCCAGACCCTGCATTGATTGATGAAGAAGTAATTGTAATTGCAAAAGACTTAACACCATCCGATACTGCGCAATTAAACAGAGATTTCGTTAAAGGCTTTGCGACAGATATTGGTGGCCGTACATCCCACTCAGCTATTATGGCAAGATCGCTTGAGATCCCAGCAGTTGTTGGTACAAAAGAAGTGACGAGCACCATCCAAAAAGATGATTTAATCATCGTTGATGGTAATGAAGGGGTTGTAATTGTTAACCCAACGGAAGAAATAGTCGCAACTTATGAGAAAAAACAAGAAGAATTTGCCAAGCAAAAACAAGAGTGGGCAAAACTAAAAAACGAACCTACATTAGCTGCAGATGGCGAACAAGTAGAACTAGCAGCAAATATTGGTACACCAGATGACGTACTAGGCGTTTTAGACAATGGTGGGGAAGGTGTCGGCTTATACCGTACAGAGTTTTTATATATGGGGAAGAGTCAGCTCCCAACAGAAGAAGAACAGTTCACGGCATATAAATCCGTGCTTGAGCAAATGGATGGAAAACCTGTTGTTGTTCGTACTTTAGATATTGGTGGGGACAAAGAGTTAAACTACTTAGATCTCCCTAAAGAATTAAATCCATTTCTAGGTTTCCGTGCCATTCGTTTTTGCCTAGATAATGAGCATGTATTCCGTCCACAATTACGTGCATTACTACGGGCTAGCGTTTATGGAAATCTAAAAATTATGTTCCCAATGATCGCTACGTTGGAAGAGTTTCGCCAAGCAAAAGCCATTCTAATGGATGAAAAAGAGGCTCTTTTAAAAGAAGGAAAAGAAGTATCCGATCATATTGAAATAGGGATCATGGTAGAAATCCCTTCAACTGCCGTTATTGCAAAACAATTTGCAAAAGAGGTAGACTTCTTCAGTATCGGTACAAACGACCTTATCCAATATACGATGGCCGCAGACCGAATGAACGAACAAGTTTCCTACTTGTACCAACCATACCACCCAGCCATTTTAAATTTGGTAAACAATGTTATTGAAGCTGCTCACAGTGAAGATAAATGGGTAGGCATGTGTGGGGAAATGGCAGGAGATGCTATTGCGATTCCTATTTTACTCGGTCTTGGTTTAGATGAATTCAGTATGAGCGCTACATCTATTTTACCTGCACGTACACAAATACGTGACCTAGATAAAGGAAAGTTAGCATCCTATAAGGACGAACTTCTTTCTATGAGCACCGCTGAAGAAGTGGTCCAATTTATTAAAGAAAAAACAGAATAA MIMANIQGIAASSGIAIAKAYLLETPDLSFEKITTATPQVEIERLDKALEISKQELEQIKAHTKENIGDEHAEIFSAHLLVLSDPELINPMKNKMNEENVNAEAALDEVATMFIDMFKNMDNDYMRERAADIYDVTKRVKAHLLGVTFPDPALIDEEVIVIAKDLTPSDTAQLNRDFVKGFATDIGGRTSHSAIMARSLEIPAVVGTKEVTSTIQKDDLIIVDGNEGVVIVNPTEEIVATYEKKQEEFAKQKQEWAKLKNEPTLAADGEQVELAANIGTPDDVLGVLDNGGEGVGLYRTEFLYMGKSQLPTEEEQFTAYKSVLEQMDGKPVVVRTLDIGGDKELNYLDLPKELNPFLGFRAIRFCLDNEHVFRPQLRALLRASVYGNLKIMFPMIATLEEFRQAKAILMDEKEALLKEGKEVSDHIEIGIMVEIPSTAVIAKQFAKEVDFFSIGTNDLIQYTMAADRMNEQVSYLYQPYHPAILNLVNNVIEAAHSEDKWVGMCGEMAGDAIAIPILLGLGLDEFSMSATSILPARTQIRDLDKGKLASYKDELLSMSTAEEVVQFIKEKTE PGPT0002025_1917 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 AK015_02827 780 yjjV COG0084 putative metal-dependent hydrolase YjjV ATGAATGTAGCAATTATCGATGCACATATCCATCTAGACATGTATAAACAAAAGGAACGACAACAAATTCTCCAGCAAACAGAGCGAACGAAACTAGAAGTAATGGTTAGCGTGTCCTATGACTTACCATCTTGCAAAGTAAATCTTGATTTACAAAGACAATATGAAGTGGTGAAGCCTGCGTTTGGTTTTCATCCTGAGCAAGCCCTTCCAATAGAGGAAGAACTGGCAGATTTATTGCTGTTTATCGAAAAGCACCATCATGAAGCGGTCGCTATTGCTGAGGTTGGTTTACCATATTATAAACGGCGAGAAGATCCAGAATTAAAATTAGAAGCTTATATCAAAGTCCTAGAGGCATTTATAAAGCTAGCCAAGCGGCTTGACCTACCAATTAGTTTGCATGCCGTTTATGAAGATGCAGATGTCGTATGTGACCTATTAGAGAAGCATTCTATTCAAAAAGCACATTTTCATTGGTTCAAAGGCAGTAAACGGACCGTAGAACGGATGATAGAAAATGAATATTTAATATCGATTACGCCAGATGTTTGCTATGAAAAAGAGATCCAACAGCTTGTACGAAGGTACCCCTTAACGCATATGATGGTGGAAACAGATGGGCCGTGGCCTTTTGAAGGGCCGTTCGCAGGCGAAATGACAGAACCGAGTATGATTCATCGAGCAGTACATAAAATGTCACAACTGAAAGCAGCACCATTAGAAGTTGTATATAAGCAAGTATACGCGAATGCAAGTTATTTTTTCTCGCTGTTTTAA MNVAIIDAHIHLDMYKQKERQQILQQTERTKLEVMVSVSYDLPSCKVNLDLQRQYEVVKPAFGFHPEQALPIEEELADLLLFIEKHHHEAVAIAEVGLPYYKRREDPELKLEAYIKVLEAFIKLAKRLDLPISLHAVYEDADVVCDLLEKHSIQKAHFHWFKGSKRTVERMIENEYLISITPDVCYEKEIQQLVRRYPLTHMMVETDGPWPFEGPFAGEMTEPSMIHRAVHKMSQLKAAPLEVVYKQVYANASYFFSLF NA NA NA NA NA AK015_02828 735 cmpD Bicarbonate transport ATP-binding protein CmpD ATGGGGAAATTAGACGTACAAAATGTAAGTAAATCGTTTGGTAATCAGCAAGTGTTACAGCAACTTTCTTTTTCGGTTCAAGATGGTGAGTTTGTGTCTATATTAGGTCCATCAGGGAGCGGGAAGAGTACATTATTTAATATAATTGGTGGCATTACCGCTCCAGATACAGGTGCTATTTATTTAAATGGACAGGATATTTCGGGCTTACGTGGAAATATTAGCTATATGCCACAGAACGCTTCGCTTTTTCCATGGCGAACGGTTTTACAAAATGTTTTGCTTGGGGAAGAAATTGTTCTTGGCAAGACAGATGAAGAAGAAGCACGGGAAATGATTGCCAAAGCTGGGTTACAAGGTTACGAGCAAGCATACCCGCATGAATTGTCAGGAGGCATGAAACAGCGTGTTTCTTTTCTTCGTAGTATGAAGAGTCCACAATCGATGATTTGTTTAGATGAACCTTTTTCTGCTTTGGATGAATTTACGAGAGCGGAAATGCAAAAGTGGTTACTATCTATATGGGAAAAACATCGAAGATCCATTTTGTTTGTTACCCATAATATTGAAGAAGCATTATTTTTATCCGATCGAATTCTTGTATTGTCAAATAAACCAGCAAGGATTCAAAGGGAGCTTGTTATCCCCTTTGAGAGACCACGTGAAGAGGAGCTTGTGTTAAGCAAATCTTTTTTAGATTATAAAAAACAGCTTTATTATGAATTGAGGGAGTAA MGKLDVQNVSKSFGNQQVLQQLSFSVQDGEFVSILGPSGSGKSTLFNIIGGITAPDTGAIYLNGQDISGLRGNISYMPQNASLFPWRTVLQNVLLGEEIVLGKTDEEEAREMIAKAGLQGYEQAYPHELSGGMKQRVSFLRSMKSPQSMICLDEPFSALDEFTRAEMQKWLLSIWEKHRRSILFVTHNIEEALFLSDRILVLSNKPARIQRELVIPFERPREEELVLSKSFLDYKKQLYYELRE PGPT0001140_8253 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK015_02829 726 ribX Riboflavin transport system permease protein RibX TTGGTCCTCATCCTTTTGATTATCATTTGGGAGACAGCAAGTAAGCTATTTGAGGTTCCGGAATGGATCTTGCCTCCCCCTACATCTATTGGGCAAGAAACCATCATTGGCTGGAGCGATTACAATCATCATCTCTGGGCAACCATTCAACTATCTGTGATAGGATTTGTTATTGGCAGTAGTGTTGGAGTCCTAGTTGCTATTTGTTTACATTTAGTGCCAGTTTTACGAGAGGCGGTCTATCCATTATTAATAATTTCACAAAATATCCCAATCATTATTTTAGCTCCATTACTCGTTGTTTGGTTCGGCTTTGGCATATTACCTAAATTAATTGTGATTACACTCGTCTGTTTTTTTCCAATCACAATAGCTACTTTGGGTGGGTTTCGACAAACAAGTCGTGAATTACATCATTATATGCTAATGGCTGGTGCCAATAAACGGCAAATCTTCTTCAAATTAGAATGGCCACATGCCTTACCATCCCTATTCAGTGGCTTGAAAATCGCAGCTACTTATAGTGTAATGGGGGCAGTTATTTCCGAATGGCTTGGTGCGAGTGAGGGAATTGGTTATTATATGACACTTGCTTCCTCATCGTTTCGAACGGATCGCGTATTTGTTGCGATTTTGTTTATTGTCACGTTAAGTTTACTGTTTTTTGGACTGCTTTCTTTTGTAGAACGAAAAGTGGTAAAAGCGCCTGCTCAAGAAGATGAATAA MVLILLIIIWETASKLFEVPEWILPPPTSIGQETIIGWSDYNHHLWATIQLSVIGFVIGSSVGVLVAICLHLVPVLREAVYPLLIISQNIPIIILAPLLVVWFGFGILPKLIVITLVCFFPITIATLGGFRQTSRELHHYMLMAGANKRQIFFKLEWPHALPSLFSGLKIAATYSVMGAVISEWLGASEGIGYYMTLASSSFRTDRVFVAILFIVTLSLLFFGLLSFVERKVVKAPAQEDE PGPT0001145_7669 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK015_02830 291 hypothetical protein ATGGCTAATACACTTGTAAGTGTACAAATTATACCAAAAACGAAAAACGGGGAAGATGTAATTCCTTATGTAGATGAAGCGATTGCAATTATTGATGCTTCTGGGGTTCCTTATCATGTAAGCCCTTTGGAAACGACGATGGAAGGGGAATTATCCAACTTGCTTGAGATTGTGGAGAAAATGAACCAGCGGATGGAAGAATTAGGTTGTCCAAGCGTTATTTCGCAAGTGAAGATATTTTTCCAGCCATCAGGGGCTTCGATGGATACGTTAACGGAGAAATATCGGTAA MANTLVSVQIIPKTKNGEDVIPYVDEAIAIIDASGVPYHVSPLETTMEGELSNLLEIVEKMNQRMEELGCPSVISQVKIFFQPSGASMDTLTEKYR NA NA NA NA NA AK015_02831 1002 thiY COG0715 Formylaminopyrimidine-binding protein TTGAAAAAATTTATTATGCTTAACTTGCTCATTGTTTTACTAACAGCATGCAATGCAAATGACAGTGAGCAAGGTAAAGAAGAAAAATCAGCAGATAAAGCACGAAAAGAAGTTTCTGTAGTGCTTGATTGGACGCCAAATACGAATCATACAGGACTCTATGTAGCGAAGGAAAAAGGCTACTTTGAAGAGCAAGGATTGGATGTTGATATTAAGATGCCAGGAGAAGCAGGTGCTGATCAATTAGTGGCTTCTGGTAAGGCTGATTTTGGTGTAAGTTACCAAGAAGGGATTACGGAAGCAAGAGTACAAGATATCCCTATTGTATCAATTGCAGCAGTTATTCAGCATAATACGTCTGGATTTGCCTCGCCAAAGGAAAAAGATATTACCGAGCCTAAAGACTTCGAAGGAAAAACGTATGGCGGCTGGGGTGCCCCCCTTGAAAAAGCAGTAATTAGCTCGTTGATGAAGCAAGATGATGCTGACGTTGAGAAAGTGGACATTGTTAATATGGGCGATACCGATTTCTTTACTGCGGTAGAACGTGATATTGATTTTGCTTGGATATTTTATGGTTGGACAGGCATTGAAGCGGAACTTCGAAATGAAGAGATCAATATGGTTTATCTTACTGATTATACGGAAAAATTAGATTACTATACGCCAGTATTGGCAACCAATGAAACGATGATAGAAGAAGACCCAGATACGATTAAGCAATTTTTAGCTGCTGTAACAAAAGGGTATGAACTAGCAATTGAAAACCCTGATGAAGCGGCCGAGATTTTAATTCAAGCCGAGCCTGATTTGGACGCAGACTTAGTAAAGGCAAGTCAAAAATGGTTAGCGGATAAGTATCAAGATGATGCAGCTAGATGGGGCGAACAAAAACTAGAAGTATGGGAAAATTATTCGACCTGGATGTATGACAATGATTTACTTGATAAGCCTCTTGACAGTGAAAAAGCGTTTACGAATGAATTTTTACCAAACAACTAA MKKFIMLNLLIVLLTACNANDSEQGKEEKSADKARKEVSVVLDWTPNTNHTGLYVAKEKGYFEEQGLDVDIKMPGEAGADQLVASGKADFGVSYQEGITEARVQDIPIVSIAAVIQHNTSGFASPKEKDITEPKDFEGKTYGGWGAPLEKAVISSLMKQDDADVEKVDIVNMGDTDFFTAVERDIDFAWIFYGWTGIEAELRNEEINMVYLTDYTEKLDYYTPVLATNETMIEEDPDTIKQFLAAVTKGYELAIENPDEAAEILIQAEPDLDADLVKASQKWLADKYQDDAARWGEQKLEVWENYSTWMYDNDLLDKPLDSEKAFTNEFLPNN PGPT0001135_5690 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK015_02833 1287 eno COG0148 Enolase ATGCCATATATTACAGATGTTTACGCACGTGAAGTATTAGATTCTCGCGGTAATCCAACCGTTGAAGTAGAAGTATTTACAGAATCAGGTGCTTTTGGTTCTGCATTAGTTCCTAGCGGAGCTTCTACAGGAGAATATGAAGCAGTAGAATTACGCGATGGCGATAAAAGCCGCTACCTAGGTAAAGGTGTCTTAAAAGCAGTGCAAAATGTGAATGAAGTAATTGCACCTGAACTATTAGGAATTGATGTAACACGTCAGAATATTATCGATGCACTAATGATTGACTTAGATGGCACTGATAATAAAGGAAAATTAGGTGCAAATGCTATTCTAGGTGTTTCCATGGCTGTTGCACACGCTGCAGCAAGCTATTTAGAAGTACCACTTTACAACTATCTTGGCGGATTCAATGCCAAAACATTACCAACCCCAATGATGAACATTTTAAATGGTGGGGAGCATGCAGACAACAACGTTGATATTCAAGAATTTATGATTATGCCAGTGGGGGCAGAATCATTTAAAGAAGCACTTCGTACAGGTGCAGAAATTTTCCATTCCTTGAAAAATGTTCTAAAATCTAAAGGTTATAACACAGCTGTAGGGGATGAAGGTGGTTTTGCACCTAACCTTGGCTCTAACGAAGAAGCATTACAAACCATTGTAGAAGCAATCGAAGCAGCTGGCTATAAACCTGGTGAAGAAGTGAAATTAGCAATGGACGTAGCTGCTTCTGAAATTTACGAAGATGGCAAGTACAACTTAAAAGGAGAAGGTGTTGTACGTACTTCTGCAGAAATGGTTGACTGGTATGAAGATATGATTAGTAAGTATCCAATCATTTCTATTGAAGATGGTTTAGATGAAAACGACTGGGATGGTTTCAAACTTCTAACAGATCGTCTAGGCAAAAAAGTACAACTAGTTGGGGATGACTTGTTCGTAACCAATACAGAAAAATTAGCTAGAGGTATTGAACAAGGAATTGGTAACTCCATCCTTATTAAAGTGAACCAAATCGGTACTTTAACGGAAACATTTGAAGCTATCGAAATGGCAAAACGCGCTGGTTACACAGCTGTTATCTCTCACCGTTCTGGTGAAACAGAAGATGCTACCATTGCAGACATTGCTGTAGCAACAAACGCTGGCCAAATTAAAACAGGTGCTCCATCACGTACCGACCGTGTTGCGAAATACAACCAATTACTTCGCATTGAAGACGAATTAGCAGGTATGGGCGTATACGGTGGAAAAACAGCATTTTACAACTTGAATAAATAA MPYITDVYAREVLDSRGNPTVEVEVFTESGAFGSALVPSGASTGEYEAVELRDGDKSRYLGKGVLKAVQNVNEVIAPELLGIDVTRQNIIDALMIDLDGTDNKGKLGANAILGVSMAVAHAAASYLEVPLYNYLGGFNAKTLPTPMMNILNGGEHADNNVDIQEFMIMPVGAESFKEALRTGAEIFHSLKNVLKSKGYNTAVGDEGGFAPNLGSNEEALQTIVEAIEAAGYKPGEEVKLAMDVAASEIYEDGKYNLKGEGVVRTSAEMVDWYEDMISKYPIISIEDGLDENDWDGFKLLTDRLGKKVQLVGDDLFVTNTEKLARGIEQGIGNSILIKVNQIGTLTETFEAIEMAKRAGYTAVISHRSGETEDATIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDELAGMGVYGGKTAFYNLNK PGPT0018050_4250 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 AK015_02834 1536 gpmI COG0696 2,3-bisphosphoglycerate-independent phosphoglycerate mutase ATGAAACAAAACAAACTAGCGGCATTAATCATCTTAGATGGTTTCGCTATTCGTGACGAAGAAAAAGGGAATGCTGTCAAACATGCGAACAAGCCTAATTTTGACCGCTATTGGAATCAATACGCCCATAATCAGCTAACAGCTAGTGGTGAGGCTGTCGGTTTACCAGAAGGGCAAATGGGTAACTCTGAAGTCGGTCACTTGAATATTGGTGCAGGGAGAATTGTGTATCAAAGTTTAACCCGTGTTAATCTATCGATTAAAGAAGGCGAATTCTTTGAAAAAGAAGCGTTCATAAAATCGATGCAACATGCGAAAAAAAATGGGAAGGCGCTACACATTTTTGGTTTGCTTTCTGATGGTGGTGTACACAGCCATATTAATCACCTGTTTGCGCTTTTGAAGCTTGCAAAAGAACAAGAACTAGAGAAAGTTTATATCCATGCATTTTTAGACGGACGAGATGTTGGTCCACAGACTGCTAAAACATATATTAAGCAAACACAAGATAAGATAGCAGAATACGGAGTCGGGCAAATTGCGACGATTTCTGGACGTTATTATTCCATGGATCGGGACAAGCGTTGGGATCGTGTGAAAAAAGCATATGACGCCATGGTGTACGGAGAAGGTCCGAAATATACGGATCCACTCGCTGTTGTGGAAGAGTCTTATGCTAGTGAAATTTATGATGAGTTCGTCATTCCATCCGTTATTACGAATGAAGCTGGTGACCCAGTTGGAACTGTGGAAGATGGGGACTCCATTATTTTTTATAACTTCCGTCCAGATCGAGCTATTCAAATCTCACGTACATTTGCCAATGAAGATTTTCATGACTTTGACCGTGGAGACAAAGTGCCGAAAAACTTAGACTTTGTTATGTTAACGAACTTTAGCGAAACAGTAAACGGCTATGTTGCCTATGAGCCGGTTAATTTAGATAATACAGTTGGTGAAGTTTTAGCACAGCATGATATGAAGCAATTGCGAATCGCTGAAACGGAGAAATACCCACATGTTACGTATTTCATGAGTGGGGGACGTGAAGCGGAATTTCCAGGTGAAAAAAGAATCTTAATTGATTCACCAAAAGTAGCGACATACGATTTAAAACCAGAAATGAGTGCTTATGAAGTAACGGACGCGTTATTAGAAGAACTCGAAACGGGTGATCGTAATGCGATTATTTTAAATTTCGCCAATCCAGATATGGTTGGACACTCTGGCAAATTAGAGCCAACTGTTAAAGCTATCGAAACTGTTGACGAATGCCTCGGAAAAATTGTTGATAAAATTATTGAACTTGGCGGACACGCTATTATTACAGCCGACCACGGTAATTCGGATGAAGTCATTACGCCAGAAGGAAAGCCAATGACAGCTCATACAACGAATCCGGTTCCTGTTATCGTTACAAAAGAGGGTATCAGCTTACGTGAAGGCGGAATTTTAGCAGACTTAGCACCAACCTTACTTGATTTATTAAATATTGAAAAGCCAAAAGAAATGACTGGCGAATCATTAATAAAATAA MKQNKLAALIILDGFAIRDEEKGNAVKHANKPNFDRYWNQYAHNQLTASGEAVGLPEGQMGNSEVGHLNIGAGRIVYQSLTRVNLSIKEGEFFEKEAFIKSMQHAKKNGKALHIFGLLSDGGVHSHINHLFALLKLAKEQELEKVYIHAFLDGRDVGPQTAKTYIKQTQDKIAEYGVGQIATISGRYYSMDRDKRWDRVKKAYDAMVYGEGPKYTDPLAVVEESYASEIYDEFVIPSVITNEAGDPVGTVEDGDSIIFYNFRPDRAIQISRTFANEDFHDFDRGDKVPKNLDFVMLTNFSETVNGYVAYEPVNLDNTVGEVLAQHDMKQLRIAETEKYPHVTYFMSGGREAEFPGEKRILIDSPKVATYDLKPEMSAYEVTDALLEELETGDRNAIILNFANPDMVGHSGKLEPTVKAIETVDECLGKIVDKIIELGGHAIITADHGNSDEVITPEGKPMTAHTTNPVPVIVTKEGISLREGGILADLAPTLLDLLNIEKPKEMTGESLIK PGPT0018040_1846 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 AK015_02835 759 tpiA_2 COG0149 Triosephosphate isomerase ATGCGCAAAAAAGTAATTGCTGGAAACTGGAAAATGAACAAGCTAGCAAGTGAAGCGAATCAGTTTGTCGATGAGGTGAAAGTAAAACTACCTCAATCAGACAAGGTGGAGGCTATCGTTTGTTCCCCATTTCCTTACTTAGCTCAGCTTGTGGAAAAAGCAAAAGGTACAACGTTAGCAGTTGCTGCTCAAACGATGCATTATGAAGAAAGTGGTGCATTTACAGGCGAAGTAAGTCCTGAAATGCTTGCGGACTTAGGTGTAACTTATGTTGTTTTAGGGCATTCAGAGCGTAGAGAATATTATAACGAGACAGATGAAACAGTGAATAAGAAAGTGCATGCTGCATTTAAACACGGACTAACACCAATTGTTTGTGTTGGTGAAACGCTAGAACAGCGTGAAGCTAACGAAACAATGGATCATGTCGAAATGCAAGTTACAAAAGCTCTAGAAGCACTTAGCGAAGAACAAGTTGCTAACACAATTATTGCCTATGAGCCGATTTGGGCAATTGGTACAGGAAAAACAGCAACGAGTGAACAAGCAAATGAAGTTTGTACGCATATTCGTGAAGTGGTTGCAAAACTTACTTCTAAAGAAACGGCAAGCAAAGTCATTATTCAATATGGTGGCAGTGTAAAACCTGCAAATGTTGATGAATTACTGGCTCAATCTGATATTGATGGCGCATTAGTTGGCGGAGCAAGCCTTGAACCAGCATCATTCTTGCAATTAGTGGAGGCAGGTGCCAAATGA MRKKVIAGNWKMNKLASEANQFVDEVKVKLPQSDKVEAIVCSPFPYLAQLVEKAKGTTLAVAAQTMHYEESGAFTGEVSPEMLADLGVTYVVLGHSERREYYNETDETVNKKVHAAFKHGLTPIVCVGETLEQREANETMDHVEMQVTKALEALSEEQVANTIIAYEPIWAIGTGKTATSEQANEVCTHIREVVAKLTSKETASKVIIQYGGSVKPANVDELLAQSDIDGALVGGASLEPASFLQLVEAGAK PGPT0017995_3061 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 AK015_02836 1182 pgk COG0126 Phosphoglycerate kinase ATGAATAAAATGTCAGTAAAAGACCTTGATGTTAAAGGGAAAAAAGTTTTTTGCCGTGTGGATTTTAATGTACCGATGAAGGATGGAGAGGTAACAGATGATACAAGAATTAAAGCAGCTCTCCCTACCATAGAATATTTATCCAATCAAGGTGCGATTATCATTTTAGCAAGCCATCTTGGTCGTCCTAAAGGGAAGGTCGTAGAAGAACTACGTCTCGACCCTGTAGCAAAACGACTAAGTGATTTAATTGGGAAAGAAGTAGTTAAAACAGATGCCGTATATGGTGAAGAAGTGCAAGAGGCTATTTCTAAGGTAAGCGAAGGCGACATTATTTTAGTTGAAAACGTTCGTTTCGAAGCGGGCGAAGAAAAGAATGACGAAGCATTGTCTCAGGCCTTTGCTGATCTAGCTGATGTGTATGTCAATGACGCATTTGGCGCAGCTCATCGTGCCCACGCTTCCACAACTGGAGTAGCTGAAAAGCTTCCAGCTGCTGCAGGATTTTTAATGGAAAAAGAATTATCCGTTTTAGGTAAAGCATTAGAAAATCCAGAACGTCCTTTCACAGCTATCATTGGTGGTGCGAAAGTAAAAGATAAAATCGATGTTATCGATCATTTACTTGAAAAAGTTGACCATTTAATTATTGGTGGTGGCTTAGCTTATACGTTTATTAAAGCGCAAGGTTATGAAATTGGTAATTCCCTATTGGAAGAAGACAAAATTGATCTAGCCAAGCAATTTATGCAAAAAGCTAAAGACAAAGGCGTAGATTTTGTTCTTCCAGTTGACGCTGTTGTAGCTGACAAATTTGCTGAAGATGCAAATAAAAAAGAAGTGGACATTGATCAAATTCCAGCGGACTGGGAAGCATTGGATATTGGTCCTAAAACATCAGAAAAGTATGCTGAAATTGTTGCTAAATCTAAATTAATTATTTGGAATGGTCCAATGGGAGTTTTCGAAATGGAAGCTTTCGCGGATGGTACAAAGGCAGTTGCTAATGCATTAGCAAAAACAGAAGGCTATACAGTAATCGGTGGTGGCGATTCTGCTGCTGCAGTAGAAAAATTTGGTCTAAGTGATAAAATGGATCATGTATCTACTGGTGGAGGAGCTTCTTTGGAATTTATGGAAGGTAAAGTTCTTCCAGGTGTAGCTGCTTTAACTGACAAATAA MNKMSVKDLDVKGKKVFCRVDFNVPMKDGEVTDDTRIKAALPTIEYLSNQGAIIILASHLGRPKGKVVEELRLDPVAKRLSDLIGKEVVKTDAVYGEEVQEAISKVSEGDIILVENVRFEAGEEKNDEALSQAFADLADVYVNDAFGAAHRAHASTTGVAEKLPAAAGFLMEKELSVLGKALENPERPFTAIIGGAKVKDKIDVIDHLLEKVDHLIIGGGLAYTFIKAQGYEIGNSLLEEDKIDLAKQFMQKAKDKGVDFVLPVDAVVADKFAEDANKKEVDIDQIPADWEALDIGPKTSEKYAEIVAKSKLIIWNGPMGVFEMEAFADGTKAVANALAKTEGYTVIGGGDSAAAVEKFGLSDKMDHVSTGGGASLEFMEGKVLPGVAALTDK PGPT0018015_4821 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 AK015_02837 1008 gapA COG0057 Glyceraldehyde-3-phosphate dehydrogenase 1 ATGGCAGTAAAAGTAGGAATTAACGGTTTTGGTAGAATAGGACGTCTTGTATTTCGTCTAGCTCTACAAAATGAAGATGTAGAAGTAGTGGCAATCAACGACTTAACTGACGCTGAAATGCTAGCTCATCTATTAAAGTATGACTCTGTCCATGGCATGTTGAAAGAAGAAGTTTCTGTCAATGGTTCAAATATTGTTGTTGGTGGAAAAGAAATTAAAGTAATGTCTGAAAGAGATCCTGCTCAATTAGGCTGGGATAAACTTGGTGTGGAAATTGTTATGGAATCTACAGGACGTTTTACAAATAGAGAAGATGCACAAAAGCATCTTGATGCAGGTGCAAAAAAAGTTATTATTTCTGCACCTGGTAAAAACGAAGATTTAACAGTAGTAATGGGTGTTAACGATAAAGAATATGACCCAGCTAACCATCATGTTGTATCTAATGCATCTTGTACGACAAACTGCTTAGCACCGTATGCTAAAGTATTACATGACAACTTTGGTATTAAACGTGGACTAATGACTACAATCCACTCTTATACAAATGATCAGCAAATCCTTGATTTGCCACATAAAGATTATCGTCGTGCTCGTGCAGCAGCACAAAATATTATTCCAACAACAACAGGTGCTGCTAAAGCAGTAGGGAAAGTTCTTCCAGAATTAAATGGTAAACTAAATGGTGGAGCTGTACGTGTACCTACACCAGACGGTTCTCTAGTTGACCTTGTAGCTGAATTAGATAAGAATGTAACAGCAGAAGAAATCAATGCAGCACTAAAAGAAGCTGCAGAAGGTGAACTAAAAGGTGTTCTTGAATACAGTGAAGCACCACTTGTATCTACAGATATTTTAGGTAACCAGCATTCTTCCATTGTAGATGGTTTGTCTACTATTGTTCTAGAAGATAACTTAGTGAAAGTTGTTTCTTGGTACGATAACGAAATGGGCTACTCTGCTCGCTGTGTTGATTTAGCAGTATTAATGAAAAACAAAGGACTATAA MAVKVGINGFGRIGRLVFRLALQNEDVEVVAINDLTDAEMLAHLLKYDSVHGMLKEEVSVNGSNIVVGGKEIKVMSERDPAQLGWDKLGVEIVMESTGRFTNREDAQKHLDAGAKKVIISAPGKNEDLTVVMGVNDKEYDPANHHVVSNASCTTNCLAPYAKVLHDNFGIKRGLMTTIHSYTNDQQILDLPHKDYRRARAAAQNIIPTTTGAAKAVGKVLPELNGKLNGGAVRVPTPDGSLVDLVAELDKNVTAEEINAALKEAAEGELKGVLEYSEAPLVSTDILGNQHSSIVDGLSTIVLEDNLVKVVSWYDNEMGYSARCVDLAVLMKNKGL PGPT0018000_5349 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 AK015_02838 1032 cggR COG2390 Central glycolytic genes regulator ATGAGAAACTTGATTCAACTACAAAAAAGGCTGCTACCTGATCTGTTGGATGTGATGCAACGACGTTATGCAATGTTACGCACCATAGATTTGTTGGAGCCAATAGGTCGCAGGGGACTAGCTGATAACACAAATGTTACCGAAAGAACTGTACGAGGAGAAATAGAACTTTTACAGGAACAAGATTTAATTCAAATTACTGCTAAAGGTATGTTTATCACAAAAGCGGGTAAATTAATCTTGGAACAGTTAGGTGCATTTATGAATGAAATCATGGACTTGCGCGCACTAGAAAACAAACTAAAAGATGCACTGTCCATTACTGACGTTATCGTTGTTCCTGGAAATAGTGATGATCATGAGTGGGTCAAGCAAGAAATGGGAAAGGCTTGTGTAACCAGTTTGAAAAATATGATTGGTGAACATCCGACCATTGCTGTAACTGGTGGAACGACAATGGCTGCAATTGCAGCGGCAATGACACCTTTTGAACAAAGCAATGAAGCTCTTTTTCTTCCAGCTCGAGGGGGGATTGGCGAAAAGGTAGAAAACCAAGCGAATACGATCGCAGCTGAAATGGCTCGTAAAGCTCATGGTGACTATCGACTACTTTATGTCCCTGATCCGTTAAGCGAATCAGCTTATCAAATGATTATCCAAGAGCCAAGTGTAAAAGAAACATTGCAGCAAATAAAAACTGCAACTGTTGTAATGCATGGTATTGGTGATGCGTTAACGATGGCATACAGAAGGAAAGCAACTGCAGATATTGTGGAGAAACTACGCAAACATCAAGCAGTTAGTGAAGCATTTGGTTATTATTTCGACAAAAAGGGAAATGTTGTACATAAGGTGCGTACAGTCGGAATACAATTAGAAGATTTAGGACAAGTTCCTTTTGTTGTTACTGTTGCTGGTGGTCGCTCTAAGGCGCAAGCAATTGCTTCCTATTTCAAGCGAGCAACAACAAACCTGCTCATCACCGATGAAGCAGCGGCAGAAGAGATTTTAAAGGGAATATCCACCCTTTAA MRNLIQLQKRLLPDLLDVMQRRYAMLRTIDLLEPIGRRGLADNTNVTERTVRGEIELLQEQDLIQITAKGMFITKAGKLILEQLGAFMNEIMDLRALENKLKDALSITDVIVVPGNSDDHEWVKQEMGKACVTSLKNMIGEHPTIAVTGGTTMAAIAAAMTPFEQSNEALFLPARGGIGEKVENQANTIAAEMARKAHGDYRLLYVPDPLSESAYQMIIQEPSVKETLQQIKTATVVMHGIGDALTMAYRRKATADIVEKLRKHQAVSEAFGYYFDKKGNVVHKVRTVGIQLEDLGQVPFVVTVAGGRSKAQAIASYFKRATTNLLITDEAAAEEILKGISTL PGPT0019460_305 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 AK015_02839 516 menH_1 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase ATGGGGCATGTTGTTTTTATTCATGGGCTTGGGCAAAGTGCATCCAGTTGGCAGGAAACGATTGCTTATTTATGCGAATATCGTAATATATATAGTCCAAACCTTTCTGCGATGCTTCAGCATAAAGAGGTTACGTATCAATATTTGTATGCTAGTTTCACCACGTACTGTAAAGATTTGGACGAACCGTTAAACCTTTGTGGGCTTTCATTAGGCGGAGTATTAGCTTTAAATTATGCAATCGATTATCCCAAAAAGGTAGCCTCATTAGTATTAATAGGTGTGCAATATAATATTCCTGAAATGTTGTTGAAATTGCAAAATATGGTATTTAAATTTGTTCCGAAATCTTTTTTTGAGAATACAGGGTTTGAAAAGAAGGACTTTATTCAATTAACAAATACAATGACTACGCTAAATTTCAGTAAAAAATTAAGTGATATTATGTGCTATACCATGGTTGTTTGTGGTGAGAAAGATCATATAAATAAAAAAGCATCAAAAAAGTTTAGCTGA MGHVVFIHGLGQSASSWQETIAYLCEYRNIYSPNLSAMLQHKEVTYQYLYASFTTYCKDLDEPLNLCGLSLGGVLALNYAIDYPKKVASLVLIGVQYNIPEMLLKLQNMVFKFVPKSFFENTGFEKKDFIQLTNTMTTLNFSKKLSDIMCYTMVVCGEKDHINKKASKKFS NA NA NA NA NA AK015_02840 255 hypothetical protein TTGGTAATGATCCATTTTTATACAAAAAAGGCTTGTCTTTTATGTGATGAAGCAAAACTTATGTTGGGATTTTTTCAAGATGAATACGATTTTAACGTTCGAGAATGTGATATTTATACGAATGATCTTTGGTTAGAGAAATATCAGTTATTAATTCCTTGTGTAAAAGTAAATAATGCAATATTGGACGCATCCCAACTAAATTGGGAGACGCTAAGAAATTTTTTAGATCAATATGTAGGTAATAAAAGATGA MVMIHFYTKKACLLCDEAKLMLGFFQDEYDFNVRECDIYTNDLWLEKYQLLIPCVKVNNAILDASQLNWETLRNFLDQYVGNKR NA NA NA NA NA AK015_02841 1287 rpoN COG1508 RNA polymerase sigma-54 factor ATGAAGTTACAACTTGTTAATGAACAAGTCTTACAGTGGAAGATGAACCAATCCTTAATGCAATCGATTCAAATATTACAATTTTCCAATACAGAACTGGTGGAGTATTTAAAAGAATTGGAAAAAGAAAACCCTCTTATTGAAGAAATAAACTATGATGACGCCACTCTTCCATATCGTTCATCAATGGATGATGTTATAGGACCTGGAGAAATCAATGCAAGTGAGTTAAGTATGTACGATCTTTTGAAAAAACAGTTATATACATTACATATACCTGAAAAAATGCGACCTATTGTGTTATATGGTATTGATTCCATAAATGAAAACGGTTACTTGGATGTTGAATTAAAACTTTGGGCAAAGCAGTGTCACGCGACATTAGAGCAGGTAGAGCAAGCAGTGAAACTTATCCAATCACTCGAACCAGCTGGAATCGGTGCCAGAACCTTAAGCGAATGTATTATATTACAATTAAAAATTTCTGCTGCGGATAAACCACTTGTACATGATTTATTAGAAAATCATTTACAATGGGTAGCGGAAGAAGATGTGGAAGCTGTAGCCAATGAATACGATAAAAGTGAAACATACGTAAAGGGTTTATTTGCACAAATTAAAGCATGTCACCCCAAACCAGGACACTTACTTGATACGAAAATAGATCATTACATTATTCCAGAAGCTTCTATTTATAAAGAAAAAGAGAAATGGCAATTATCTTTTTATTCGTGGAGCACGCCAAAAATCACTTTAAATGAGTCGTATTTTCATATGAGAGGGATTGGAAAAGAGGCGGAGAAATATATTAAAGAGAAACAGACACAAATAGAAATGGTGAAAAAAGCTATTACTTATCGAGGTGATACATTAGAACGTGTTATTCAATGTATGCTTGAAAAGCAATCTCTGTATTTTGAACATGGCACACATATGATGCAACCACTAACATTAAAAGATATTGCAGACGAATTGGCATTACACGTTTCCACTATAAGTAGGGCTATTGCTCATAAATATGTGCAAACACCAAATGGCATTTTACCATTGAATTTCTTTTTGCAATCTGGTGTAAAGCAAAGCAACGGCACCAAAGCTGCTGCACTTGCAATTAAGAATATGATCGCTGACCTTATAGCGCAGGAAGATAAGTGTAAGCCACTGTCTGATGAGAAGTTACGAAAATTGATAGCTGAAAAATATACGATTCAAATTGCGAGACGTACAGTCATGAAGTATAGAGAGCAACTACAAATACCATCATCGACGAAAAGAAAGGAATGTTAA MKLQLVNEQVLQWKMNQSLMQSIQILQFSNTELVEYLKELEKENPLIEEINYDDATLPYRSSMDDVIGPGEINASELSMYDLLKKQLYTLHIPEKMRPIVLYGIDSINENGYLDVELKLWAKQCHATLEQVEQAVKLIQSLEPAGIGARTLSECIILQLKISAADKPLVHDLLENHLQWVAEEDVEAVANEYDKSETYVKGLFAQIKACHPKPGHLLDTKIDHYIIPEASIYKEKEKWQLSFYSWSTPKITLNESYFHMRGIGKEAEKYIKEKQTQIEMVKKAITYRGDTLERVIQCMLEKQSLYFEHGTHMMQPLTLKDIADELALHVSTISRAIAHKYVQTPNGILPLNFFLQSGVKQSNGTKAAALAIKNMIADLIAQEDKCKPLSDEKLRKLIAEKYTIQIARRTVMKYREQLQIPSSTKRKEC PGPT0000795_3037 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 AK015_02842 408 rnhA COG0328 14.7 kDa ribonuclease H-like protein ATGATAGAAGTATTTACAGACGGTGCATCCTATGGTAATCCAGGGCCAAGTGGTGCAGGTGTTTATATCAAGCATGAACAGAAACATTATAGATACAGCTTTTTTTTAGGGGATTTTTCCAACCACGAAGCGGAATTTCAAGCAGTTATTAAAGCTTTAATAATTTGCAAAGATAAATTTCCAAATGACATTTTATCTTTTCGCTCTGACTCTAGAATTGTGGTTGATACAATTGAGAAAAATTACTCCAAAAACAAACTGTTCATCCCATTATTACACCAAATAAGTGAGCACGCCTCTGATTTTCCGCACTTTTTTATTAAATGGATTCCTGAAAAACAAAATAGACAAGCGGACAAATTAGCTAGACAAGCTATTCAGCACCAAACAAATAGGCAGTATAGTTGA MIEVFTDGASYGNPGPSGAGVYIKHEQKHYRYSFFLGDFSNHEAEFQAVIKALIICKDKFPNDILSFRSDSRIVVDTIEKNYSKNKLFIPLLHQISEHASDFPHFFIKWIPEKQNRQADKLARQAIQHQTNRQYS NA NA NA NA NA AK015_02843 765 aroD COG0710 3-dehydroquinate dehydratase GTGAAGACGGTAAAAATTAAAGATATACATATAGGAAAAGGAATGCCGAAGATTATCATTCCAATAATGGGAGAGACATTGCAAGAGATTAACCATGAATTAAGCGAAGCCAAACAGGAAAAACCTGATATGATAGAATGGCGTGCGGATGCTTTCTTACATGTCAATAATATAGAAGAAGTCCTCCGTTTGCTAGTAGAAATTAGAAAGTTGATCGATGATATTCCATTGCTTTACACCTTTCGTACGTATAAAGAAGGTGGGAGGAAAGAAGTAACGCTTGACTACTATGAAGAATTGTTAAGTCAAGTTATACAGTCAGGATTTATTGACGTCATTGATGTTGAACTATACATGGAACAAACGATTCGAGACAGACTAGTACAGTGTGCTCGACAAAATAATGTAATTGTTCTGATGTCTAATCATGATTTTCAAACCACTCCAGCTAATAAAGATATGTTAGCACGTCTAATAGCCATGCAAGAGACCGGAGCAGATATTGTAAAGTTAGCGGTAATGCCGCAAAATGAAGAAGATGTTTTGCGTCTATTACAAGTTGCGGTAAAAATGAAATCAACCTATGCCCAAAAGCCATTCATTACCATAGCTATGGGGCCATTAGGTATATTAAGTAGGGTTGGAGGAGAAGTTGTAGGTTCTGCCGCTTCTTTTGGCTCGGCGATACAAGCTTCTGCACCAGGACAAATAACAGCTGCTGAATTAAGGTATATCCTACAAACGATCCATCGTTATTCTAAATAA MKTVKIKDIHIGKGMPKIIIPIMGETLQEINHELSEAKQEKPDMIEWRADAFLHVNNIEEVLRLLVEIRKLIDDIPLLYTFRTYKEGGRKEVTLDYYEELLSQVIQSGFIDVIDVELYMEQTIRDRLVQCARQNNVIVLMSNHDFQTTPANKDMLARLIAMQETGADIVKLAVMPQNEEDVLRLLQVAVKMKSTYAQKPFITIAMGPLGILSRVGGEVVGSAASFGSAIQASAPGQITAAELRYILQTIHRYSK PGPT0012885_349 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 AK015_02844 114 hypothetical protein ATGTATAAAATTTCAAGCAGAAAAAAACATGAAATGTTAGTAATAATGGGGGAAATAGTAACGCCTAAATATATTATACCAGGGGGCATAAGGTGTGAAGACGGTAAAAATTAA MYKISSRKKHEMLVIMGEIVTPKYIIPGGIRCEDGKN NA NA NA NA NA AK015_02845 558 aroK COG0703 Shikimate kinase ATGTATAATGAAATTCCTATACGTCAAAAAAGCATTGTTTTAATTGGATTTATGGGGGTTGGTAAAACTTCCATCGGTAAATCAGTAGCTGCAAAACTGTACAGAGATTTTATTGATGCTGATCAGGTCATCGAAGACATGTTTAAAATGCCGACCACAGATATATTTAAAACATATGGCGAACCGTTTTTCAGAAAAAAAGAAAAAGAGATCATTCGTGGTTTATGTGAGCAAAAATTAAAAATCATCTCATTGGGTGGAGGTGCTTTTCTACAAGAGGAGATTAGAAGCTTTTGCTTAGAAAAGTGTATTGTTTTCTACCTTGATTTATCTTGGGATTCATGGAAGGATAGAATTAGTTTACTCATTGACAGTAGACCTGTCTTACAAGGAAAAAGTTTAGCAGAAATCAAGCAATTATTCCATGAACGTAAAGTCATCTATCAAACCCATCATTCAACGGTGCAAACGGATTCTCTCATGATAGAAGAAGTAGCGGATTATATTGTAAAAGCTTTAAAAACAGCCTGGGATATTTACGAACCACAAACGAAATAG MYNEIPIRQKSIVLIGFMGVGKTSIGKSVAAKLYRDFIDADQVIEDMFKMPTTDIFKTYGEPFFRKKEKEIIRGLCEQKLKIISLGGGAFLQEEIRSFCLEKCIVFYLDLSWDSWKDRISLLIDSRPVLQGKSLAEIKQLFHERKVIYQTHHSTVQTDSLMIEEVADYIVKALKTAWDIYEPQTK PGPT0012900_1602 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 AK015_02846 312 hypothetical protein ATGAGGATATATGATCGAGGGGCGATAAAATGGACCTCTATGATGTTGCCAGAGCATGTGGATTTACTTCAGGATATGTGGGAAAAGCTTGAGCGCAAAGAAATGCCTATTTTGGACGAACAAAAGTTGGAGGAGTTGGACGTCCAATTACAAGCTGCCGTTCGTCAGGGTATCGTTATTGAAATTAAGTACTTTAATGGTCGTGATTTTTTAACTAGCAAAGGGAAGTTAAAACAGATCACAAATGAGTATCTTTATTTGCAATCAGGCAAAGCAATTAAGCGGAAGCAAGTGTTGGACATATGGACGTAA MRIYDRGAIKWTSMMLPEHVDLLQDMWEKLERKEMPILDEQKLEELDVQLQAAVRQGIVIEIKYFNGRDFLTSKGKLKQITNEYLYLQSGKAIKRKQVLDIWT NA NA NA NA NA AK015_02847 216 hypothetical protein ATGAACTCCATGTTACAGTGGTCAAAGGAGAACAAGCAAAAACTGGTTCTATTTTATATGGATCAAAATAATCGAGTAACACAACGATTCATACGTGTGATAGAGATATATGAAGACTCATTTATAGCATTTTGTTTTTATCGTAAACAAGTTCGCAGGTTTAAATTTAGCTATATTCTTTCCTGTGCTCGTGTGAAAAGAAGGGGAAGTGCATAA MNSMLQWSKENKQKLVLFYMDQNNRVTQRFIRVIEIYEDSFIAFCFYRKQVRRFKFSYILSCARVKRRGSA NA NA NA NA NA AK015_02848 252 mstX COG1226 Protein mistic ATGATGAAGGCTTCAGAAGAAGAGAGTAAACAATTTGATAAAGCGTTAGATACTTTTATTGAGCTTTATAACAATATGGAAGCGGATGATCCCCTCATTCATTTTACTGATGATGTTGTGGAGCAAATTGAAGCAGCTAAACAAGTATATGGAGAAGCTCTTGTTCACGAAAAAATTAATTCCATTGTTCGAGAAGCACTTTCCTTGGTAGCATTAACGAAAGATCGGCAAGAAACAGAATCACAAGGGTAG MMKASEEESKQFDKALDTFIELYNNMEADDPLIHFTDDVVEQIEAAKQVYGEALVHEKINSIVREALSLVALTKDRQETESQG NA NA NA NA NA AK015_02849 996 pxpC COG1984 5-oxoprolinase subunit C ATGAATAGTGTACGTGTGCTCCAGGCAGGTCTGTATACTACAATTCAGGATTTGGGTCGATTTGGATATCAAAAATATGGAGTAATTGTAAGCGGACCAATGGATGCTTATTCTTTACGAATTGCTAATTTGCTTGTAGGAAATGAAGAAGAAGAAGCGGTAATAGAAATGGCGTTAGCTGGGGCGACCTTACAATTTAAAGAATCGCATGTAATTGCTATTACTGGAGGCGATTTAACGCCTAAATTAGATGGGAAACCAGTACCTATGTGGCGTCCGATTTTAGTGAGAAAAGGTTCTGTTCTCCAGTTTCAATTTGCTATTAAAGGGTGCTATGCCTATGTTTCCTTCGCTGGAGGTATTCATGTACCAAAAATAATGGATAGTAAAAGTACGTATGTAAGAGCTGGCATAGGTGGATATGGTGGAAGGACCTTACAAAAAGGCGATACTTTTGCTTGTGGTGATAGGAGCCCTATAGCAGAAGCACTCGTGCATCAATTAGAACGCGCCTCTGATTATTTACCTTGGTCAGTCAATCCTTCCCCACTCATTTCCTTTCATAATCATTCATTCATTCGAATTATGAAAGGAAATGAATTTGAGCAATTCGATAAAGAAAGTAAGTACGCGTTCTTTCATGAAAATTATACCATTACAACGCAATCAGACCGAATGGGGTACCGCTTAACGGGTCTCTTGCTATCCTTGACTGAAAAATTTGATATGCTTTCCGAAGCAGTTACATTTGGAACCGTTCAAGTTCCTCCAAATGGACAGCCTATTATTTTAATGGCTGACAGCCAAACTACAGGAGGTTATCCAAAAATTGCTCAAGTTATTTCGGCGGATTTAGCCACGCTTGCTCAAACGCAACCAAATACTTCTGTTCGTTTTCAAGAGGTACGTTTAGAGGAAGCAGAGGCGATATTGTTAGAACATAAGCGTATATTACAGCAAATAGCAGCTCGTATTAAATGGAAAGTCTTAGGATGA MNSVRVLQAGLYTTIQDLGRFGYQKYGVIVSGPMDAYSLRIANLLVGNEEEEAVIEMALAGATLQFKESHVIAITGGDLTPKLDGKPVPMWRPILVRKGSVLQFQFAIKGCYAYVSFAGGIHVPKIMDSKSTYVRAGIGGYGGRTLQKGDTFACGDRSPIAEALVHQLERASDYLPWSVNPSPLISFHNHSFIRIMKGNEFEQFDKESKYAFFHENYTITTQSDRMGYRLTGLLLSLTEKFDMLSEAVTFGTVQVPPNGQPIILMADSQTTGGYPKIAQVISADLATLAQTQPNTSVRFQEVRLEEAEAILLEHKRILQQIAARIKWKVLG NA NA NA NA NA AK015_02850 750 pxpB COG2049 5-oxoprolinase subunit B ATGAGTTGTGTTCTAAATAAAGTAAAAGTTTGGCCGTTTAATGAATCTGCTCTTATAGTACAATTAGGAGCTGATTTAAATCCAATCGTACACCAAAGAGTATTGCAATTCGTAACTCTTTTAGAAGAGACCCCTTTTGTTGGATTTATAGAATGTGTGCCTGCTTACCTTAATGTGACTGTTTATTATGACCCTTATAAGGTGTATGAATCTCAGCCTTCCCATGTAACGCCTATATCTCCTTTTGAGATCGTAAGGACTTACATAAATGGGCTACTACATAAATTACAAGATGACATGAAAAGATTTACTGGACAAAAGGTTGTCATCCCTGTTCTCTATGGGAGTGATTATGGCCCAGATTTAGAGTATGTCGCCAGCTATCACAATTTGTCCATGGAGGATGTCATTCGTATTCATACGGAAAAAGAATATTTGGTCTATATGCTTGGTTTTGCCCCTGGTTTTCCCTTTATTGGTGGTATGAGTAAACAAATTGCTACTCCTCGCAAAAGTACACCCCGCTTAACTATTGCACCAGGGTCAGTGGGAATTGCTGGAGCACAAACAGGTGTATATCCTTTAGAGACGCCAGGAGGCTGGCAAATTATTGGCCGTACCCCCATTGATTTATTTTTACCTAATCAAGTACCGCCATCCTTGTTAAAAGCTGGTGATACGATACAGTTCGTATCCATATCCCTAGAGGAGTATAGGCAATATCGACGGGGAGGGAAGGAGAATGAATAG MSCVLNKVKVWPFNESALIVQLGADLNPIVHQRVLQFVTLLEETPFVGFIECVPAYLNVTVYYDPYKVYESQPSHVTPISPFEIVRTYINGLLHKLQDDMKRFTGQKVVIPVLYGSDYGPDLEYVASYHNLSMEDVIRIHTEKEYLVYMLGFAPGFPFIGGMSKQIATPRKSTPRLTIAPGSVGIAGAQTGVYPLETPGGWQIIGRTPIDLFLPNQVPPSLLKAGDTIQFVSISLEEYRQYRRGGKENE NA NA NA NA NA AK015_02851 759 pxpA COG1540 5-oxoprolinase subunit A ATGGTATATCAAGTAGACTTAAATTGTGATATGGGAGAAAGTTTCGGAAGGTATAAACTAAGCGAGCAAAAGGATATTTTAACCTATGTCTCCTCAGCTAACATTGCTTGTGGTTTTCATGCTGGAGACCCTACTGTAATGAGAGAAACAGTGCAACTGGCTCTAGAAAACGGGGTGAAGATCGGAGCACACCCTGGCTTGCCAGATTTAAATGGATTTGGAAGGCGAGAGATGGCGATCACAGCTCAACAGGCTTATGATATGGTTATATATCAAATTGGCGCATTACATGCTTTCTTAACTACATACAATGCGCAAATGCAACACGTGAAGCCCCATGGCGCCTTATATAATATGGCCGCCAAAGACAAGGAGTTGGCTGCTGCCATTGCGCAAGCTGTAAATGATTTTTCTACGAATCTAGTATTGTATGCTTTATCTGGCAGTGAACTTGCGAAAGCCGGAGAAAAAATCGGTTTAACAACTGCCCACGAAGTATTTGCCGATCGCACTTACCAATCAGATGGCTCATTAACTTCTCGTAATGAAAATAATGCATTCATTACCAACAGAGAACAAGCAGTATCGCAAGTAATTCGTATGGTGACAGAGAGTAAAGTCATTTCTACACAAAAAAATGCTGTTCCACTAAAAGCAGATACCATTTGTATCCATGGAGATGGTAAACATGCTCTTGAATTTGCTGCTTATATAACCGATGCGTTCCAAAAACACAACATCCGAATTTCCCCAGTTTAA MVYQVDLNCDMGESFGRYKLSEQKDILTYVSSANIACGFHAGDPTVMRETVQLALENGVKIGAHPGLPDLNGFGRREMAITAQQAYDMVIYQIGALHAFLTTYNAQMQHVKPHGALYNMAAKDKELAAAIAQAVNDFSTNLVLYALSGSELAKAGEKIGLTTAHEVFADRTYQSDGSLTSRNENNAFITNREQAVSQVIRMVTESKVISTQKNAVPLKADTICIHGDGKHALEFAAYITDAFQKHNIRISPV NA NA NA NA NA AK015_02852 1242 mntH Divalent metal cation transporter MntH ATGACTGCCAAGAAAATACATTCTCAACTTGAGACAAAAAAAGTGAAAAAGAAATCTAACAGAAGCATTCTTCTTGGAGCAGCTTTTTTAATGGCGACTTCGTCAGTAGGCCCAGGATTTTTAACACAAACGACTGTATTTACACAGCAGTTAGCCGCAAGTTTTGCCTTTGTCATATTCGTTTCCTTATTATTAGATGTGTTTGCACAGCTAAATATTTGGAGGATTATTGCAGTAACCGAGCTACGAGGTCAAGAAATTGCTAATAAAGTTCTCCCTGGGCTTGGTATTATTTTAGCAATTCTCATCGTGTTAGGAGGTCTTGCTTTTAATATAGGAAACGTTGCTGGAGCAGGCCTAGGTTTAAATGCTATGCTCGGTTTAAACCCCATTTATGGAGCAATAATAAGTGCCATTTTTGCTATTTTGATTTTCACCATAAAAGAAGCCAGTAAAGCAATGGATAAAGTGGTACAAGTTGCTGGCTTTATTATGATATTACTAATGCTCTATGTGGCTTTTAAAACCTCTCCACCTGTTGGAGAAGTGATTATAAATACGGTAAAGCCAGAAAAAATCAGCATGTATGCCATCATTACTTTAGTTGGTGGAACTGTTGGTGGGTACATCACCTTTGCAGGTGGACATCGTTTGCTGGATGCTGGTATAAAAGGAGAAAAAAATTTATCCTACGTAACAAAAAGCTCTATAACTGGCATCGTTGTTACAGGTGTAATGCGTGTGGCCTTATTCTTAGCAGTTCTCGGTGTTATCTCACAAGGACTAAGCATTGACCCTAGCAATCCACCTGCTTCCGTTTTTCAACTAGCCCTTGGTGATATAGGGTATCGACTATTTGGCGTAATTATGTGGGCAGCAGCGATAACTTCCATAGTTGGAGCAGCCTATACCTCTGTTTCATTTATTCGTTCTTTTAGTCCAGTGATTGAAAAATATCATAATTGGATTACCATTTTATTTATTATCATTTCTACAGCTACATTTGCTTTCATTGGCAAACCTGTTCAGATGCTTATATTAGTAGGGGCTTTAAATGCCCTTATCTTGCCACTTGCTTTAGGAACCCTATTGGTGGCTGCAAATAAGAAAAAAATTGTTGGTTCGTATAAACATCCACTTTGGTTAACAATAACTGGCGGAATTGTAGTTGTGTTGATGAGTTATTTAGGCATTCTAACAATGGTAGAGCAAATTCCTTTGTTTTTAGAAAAACTTGGTTAG MTAKKIHSQLETKKVKKKSNRSILLGAAFLMATSSVGPGFLTQTTVFTQQLAASFAFVIFVSLLLDVFAQLNIWRIIAVTELRGQEIANKVLPGLGIILAILIVLGGLAFNIGNVAGAGLGLNAMLGLNPIYGAIISAIFAILIFTIKEASKAMDKVVQVAGFIMILLMLYVAFKTSPPVGEVIINTVKPEKISMYAIITLVGGTVGGYITFAGGHRLLDAGIKGEKNLSYVTKSSITGIVVTGVMRVALFLAVLGVISQGLSIDPSNPPASVFQLALGDIGYRLFGVIMWAAAITSIVGAAYTSVSFIRSFSPVIEKYHNWITILFIIISTATFAFIGKPVQMLILVGALNALILPLALGTLLVAANKKKIVGSYKHPLWLTITGGIVVVLMSYLGILTMVEQIPLFLEKLG PGPT0020786_9 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0020786-ycsG-NA NA NA AK015_02853 978 hypothetical protein TTGAAGATTGGGTATCGAACAATCAAAACAGCTATCGGAACTCCAATTGCTATATGGGTTGCGCAATTGTTAGGTGTAACAAACTTTGTTTCAGCTGGTATTTTAACCATTTTATGTATTCAGCCATCAAGAAAACAATCCTTCTTAAGTGCATGGAACAGATTCTTGGCTTGTATCATCGCATCTGTTTTTTCCATCATTTTCTTTTATTTTATTGGTTATCACCCATTAGTTCTTGGACTATTGTTATTGGTTTTTATTCCAGTAACTGTAATTTTTAATATTACGCAAGGTATAGCTACCAGCTCCGTTATCATCTTAAATTTATATGGAGCAAATTATTTAGATATAAACTTTCTAGTGGATCAATTTCTATTAATTGTTATAGGAATTGGAACTGGACTCGTAATGAATCTATATATGCCAAGTTTAGACCGGAAATTGAAGGAGAAACAACAAGACTTAGAGGAAAATTTTCAATTTGTTTTATATGAAATTGCTCTCTATGTACGGAATAAAAATATTGATTGGGATGGAAAAGAAATTAAGAGAATCGGAGAAATTTTGGACGAGACAAATGATTTAGTCGAACGGGATAAGGAAAATCATCTATTACGAAGCAAACATATTTATCGGGACTATTTCAAGATGCGCACACGTCAATTTGAATTATTACAAAGGATGCTACCATTAGTTACCAAACTACCAAAAAAGGACACTATTTCAGAAAAGATAGCTGATTTTTTTGAGGATTTGTCAAAGGCTGTTCATCCTGGAAACACAGCAATCATCTATCTAGAACGATTAGAAAATCTACGTAAAGAGTTTGATGAGGAAGAACTTCCTTGTTCCAAAGAGGAATTTGAGACAAAGGCAAACCTCTTCCGCTTGTTGCATGATATTGAAGATTACTTAATTGTGAAGATGAAATATAAAGAAAGTGATGTTGTTAAAAAAAAGAAGCAATTGGAAACTTAA MKIGYRTIKTAIGTPIAIWVAQLLGVTNFVSAGILTILCIQPSRKQSFLSAWNRFLACIIASVFSIIFFYFIGYHPLVLGLLLLVFIPVTVIFNITQGIATSSVIILNLYGANYLDINFLVDQFLLIVIGIGTGLVMNLYMPSLDRKLKEKQQDLEENFQFVLYEIALYVRNKNIDWDGKEIKRIGEILDETNDLVERDKENHLLRSKHIYRDYFKMRTRQFELLQRMLPLVTKLPKKDTISEKIADFFEDLSKAVHPGNTAIIYLERLENLRKEFDEEELPCSKEEFETKANLFRLLHDIEDYLIVKMKYKESDVVKKKKQLET NA NA NA NA NA AK015_02854 438 hypothetical protein TTGGTAATGGATTTTAATATATTTATGAATGATGTTGTAAATGCTGCAAGAGAAGATATAAGAGAAGCAGGATATGAGGAGCTCACGACACCAGAGGCTGTTGATGAGGCGTTATCTCGAAAAGGCACAACCCTCGTTATGGTTAATTCCGTATGCGGTTGTGCAGGTGGTATTGCTAGACCTGCCGCTGCAAATGCAGTTCATTATGATAAACGACCTGACCATTTAGTAACCGTATTTGCAGGTCAGGATAAAGAAGCTACGGAAAGGGCAAGAACATATTTTGAAGGATATCCACCATCTTCTCCTTCCTTTGCGTTCCTTAAGGATGGGAAAATAGTCACGATGTTGGAGCGTCATGATATTGAAGGTCATAATGCTATTGATGTAATTGGCAACTTGCAACAAATTTTTGAACAACATTGTGAAGAAGTTTAA MVMDFNIFMNDVVNAAREDIREAGYEELTTPEAVDEALSRKGTTLVMVNSVCGCAGGIARPAAANAVHYDKRPDHLVTVFAGQDKEATERARTYFEGYPPSSPSFAFLKDGKIVTMLERHDIEGHNAIDVIGNLQQIFEQHCEEV 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 AK015_02855 1260 pdhC_3 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGGCAATAGAAAAAATTAATATGCCCCAGTTAGGTGAGAGTGTAACGGAAGGCACCATCAGTTCTTGGCTCGTACAGGCTGGGGATGAAGTAAACAAATATGATCCGATTGCTGAGGTTCTAACAGATAAAGTAAATGCTGAAGTCCCATCTTCTTATAGTGGAAAGATTAAAGAAATAGTTGCTCAAGAAGGCGACACAATTGAAGTTGGAGAACTAATGTGTTATATCGACACTGGTGATGAACCAGGATCAAAACAGGAACAGCGTAGTAGTTCACCTACTGAAGCTGTTGAACATAAAGAAACGGAAGCTAGTTCAGATCAATCTATGAAAAAACGCTATTCTCCTGCTGTGCTACGTTTAGCTCAAGAACACGATATTGATTTGGAACAAGTGACAGGTTCAGGGAAAGCAGGAAGAATCACTAGAAAAGATGTGGAGAAGATTATTGCGTCTGGTAAAATTCCTGAACCAAGTAAAGTTGCATTTCAAACGGAAGAACAAGTGTCACCAAAGGAAGTTAAACCATTGAATAAATCGGTATCTGGAACTTATCCTGGCGATGTAGAAATTCCTGTTACTGGAGTACGCAAAGTAATTGCACAAAATATGGTACGTTCTACACAAGAAATACCGCATGCTTGGATGACGGTGGAAGTAGATGTGACGGATTTAGTAACTTACAGAAACAAGGTTAAAGACACGTTTAAAACAAGAGAAGGTTACGGACTAACTTTTTTCGCCTTTTTTGTCAAAGCTGTAGCTCAAGCTTTAAAAGAATTCCCGCAATTAAATAGTACGTGGGCGGAAGATAAGATTATTCAACGTAAGGATGTTAATATTTCGATCGCTGTAGCAAAAGAGCAAGAATTGTTTGTTCCAGTGATCCATCATGCTGATGATAAAAGCATTAAAGGCATTGCAAAACAAATTCACGAATTAGCTGTTAAGGCGCGAACGGGAAAACTAACTGCTGATGATATGAAAGGTGGGACTTTTACTGTTAATAATACGGGGTCATTTGGTTCCATTCATTCTATGGGTGTAATTAACCATCCACAAGCAGCTATTTTACAAGTGGAGTCCATAGTAAAACGTCCAGTAATTGTTAATGATATGTTTGCTGCTAGAAACATGGTGAATTTATCTTTATCTCTGGATCATAGGATATTAGATGGATTGATTTGCGGTCAATTTTTAGCTCGAGTAAAAGCTATATTAGAACAAATGAACGAACATACTATGAATGTCTATTAG MAIEKINMPQLGESVTEGTISSWLVQAGDEVNKYDPIAEVLTDKVNAEVPSSYSGKIKEIVAQEGDTIEVGELMCYIDTGDEPGSKQEQRSSSPTEAVEHKETEASSDQSMKKRYSPAVLRLAQEHDIDLEQVTGSGKAGRITRKDVEKIIASGKIPEPSKVAFQTEEQVSPKEVKPLNKSVSGTYPGDVEIPVTGVRKVIAQNMVRSTQEIPHAWMTVEVDVTDLVTYRNKVKDTFKTREGYGLTFFAFFVKAVAQALKEFPQLNSTWAEDKIIQRKDVNISIAVAKEQELFVPVIHHADDKSIKGIAKQIHELAVKARTGKLTADDMKGGTFTVNNTGSFGSIHSMGVINHPQAAILQVESIVKRPVIVNDMFAARNMVNLSLSLDHRILDGLICGQFLARVKAILEQMNEHTMNVY NA NA NA NA NA AK015_02856 984 bfmBAB COG0022 2-oxoisovalerate dehydrogenase subunit beta ATGCCAGTAATGTCCTATATTCAAGCAATAACCACTGCTTTACGAGAAGAAATGCAACGAGATGAAAACGTGTTTGTCTTAGGAGAAGATGTTGGAAAAAAAGGCGGAGTTTTTCGTGCCACGGATGGACTGTATGAAACATTTGGAGAAGCTCGAGTTTTGGATACGCCACTTGCAGAATCAGCTATTGCCGGAGTTGGCATAGGAGCAGCGATGTATGGCATGCGCCCTGTAGCAGAAATGCAGTTTGCAGACTTCATTATGCCAGCAGTAAATCAAATTATTTCTGAAGCAGCTAAAATACGCTATCGCTCTAATAATGATTGGCATGCGCCAATAACGATTCGCGCTCCGTATGGTGGTGGAGTCCATGGCGCTTTATATCACTCCCAATCCGTAGAGGCTGTATTTGCTAATCAACCAGGCTTGAAAATTGTTATGCCATCCACACCTTATGATGTGAAGGGATTACTTAAGTCAGCAATACGCGATAATGATCCAGTGCTCTTTTTTGAACATAAACGCGCATACCGCTTATTAAAAGGGGAGGTACCAGAAGACGATTATGTACTTCCTATTGGAAAAGCAGATATTAAGAGGGAGGGGTCTGACATTACCGTCATTACATACGGTCTTTGTGTCCATTTTGCTTTACAAGCAGCAGAAAAAATAGCAGAAGATGGAATTAGTGCACATGTGTTAGATTTACGAACCGTATATCCTTTGGATCAAGCGGCTATTATTGAAGCTGCAAAGAAAACTGGTAAAGTGCTATTAATTACAGAAGACAATAAAGAAGGCAGTATTATTGGTGAAGTTGCAGCGATCATTGCTGAAAATTGTTTATTTGATTTAGATGCTCCTGTACAACGGCTAGCAGGTCCTGACGTTCCATCCATGCCATATGCACCGACGATGGAAAAGTTCTTTATGATAAATCCTGATAAAGTAGAAAAAGCCATGCGTGAATTAGCGGAATTTTAA MPVMSYIQAITTALREEMQRDENVFVLGEDVGKKGGVFRATDGLYETFGEARVLDTPLAESAIAGVGIGAAMYGMRPVAEMQFADFIMPAVNQIISEAAKIRYRSNNDWHAPITIRAPYGGGVHGALYHSQSVEAVFANQPGLKIVMPSTPYDVKGLLKSAIRDNDPVLFFEHKRAYRLLKGEVPEDDYVLPIGKADIKREGSDITVITYGLCVHFALQAAEKIAEDGISAHVLDLRTVYPLDQAAIIEAAKKTGKVLLITEDNKEGSIIGEVAAIIAENCLFDLDAPVQRLAGPDVPSMPYAPTMEKFFMINPDKVEKAMRELAEF PGPT0008862_1948 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 AK015_02857 993 bfmBAA COG1071 2-oxoisovalerate dehydrogenase subunit alpha ATGTCAAAAAAAGACTATAAAGCTTTAGGGCTTACTGAAGAGCAAGTTTTAGATATTTATCGCACCATGTTGCTTGCTCGAAAAATAGATGAAAGAATGTGGTTACTTAATCGCGCTGGGAAAATTCCTTTTGTTATTTCTTGTCAAGGACAGGAGGCAGCCCAAGTTGGAGCCGCTTTTGCCTTAAACCGGGAAAAAGATTATGTGGCTCCATATTATCGAGACATGGGAGTGGTGTTGGCGTTTGGTATGACAACAACGGATTTAATGCTATCTGGTTTTGCTAAAGCGGAAGATCCAAATTCTGGTGGAAGACAAATGCCTGGGCATTTTGGTCAAAAGAAAAATCGTATACTAACGGGTTCTTCACCTGTAACGACACAACTTCCACATGCAGTTGGCGTTGCACTTGCTGCAAAAATGAAGCATGACCCCGTTGTTTCGTTTGTAACATTAGGAGAAGGTTCATCCAACCAAGGTGACTTCCATGAAGGGTTGAATTTTGCAGGTGTACATAAGCTTCCTGTTATTACAATGGTAGAAAATAATAAATATGCCATCTCCGTCCCACTGGAAAAGCAAATTGCGAGTAAGACCGTAGCTGAACGAGCACAATCATACGGAATGCCGGGAATTACTGTGGATGGGAATGATCCCTTAGCAGTTTATGATGCTGTCAAACAAGCGCATGAACGAGCGTTGCAGGGAGAAGGACCAACATTAATAGAAGCTGTTTCTTATCGGTTAACTGCTCACTCTAGTGATGATGATGATCGACTATATCGAGAAAGTGATGAAGTAGAGGAAGCAAAGAAAAAAGATGCGATTATTACATTTGCGAAGTATTTAAAGGATGTTGGCGTATTAACAGATGAAATTGAGAAAGAAATGAATGAAGTCATTCAACAAGAAGTAAATGATGCTACAGATTACGCAGAAAATGCTGCTTACGCAAAACCAGAAGAAACATTAAAATTTGTATATGAAGAGTAA MSKKDYKALGLTEEQVLDIYRTMLLARKIDERMWLLNRAGKIPFVISCQGQEAAQVGAAFALNREKDYVAPYYRDMGVVLAFGMTTTDLMLSGFAKAEDPNSGGRQMPGHFGQKKNRILTGSSPVTTQLPHAVGVALAAKMKHDPVVSFVTLGEGSSNQGDFHEGLNFAGVHKLPVITMVENNKYAISVPLEKQIASKTVAERAQSYGMPGITVDGNDPLAVYDAVKQAHERALQGEGPTLIEAVSYRLTAHSSDDDDRLYRESDEVEEAKKKDAIITFAKYLKDVGVLTDEIEKEMNEVIQQEVNDATDYAENAAYAKPEETLKFVYEE PGPT0008861_2699 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166 NA NA AK015_02858 1422 pdhD_2 Dihydrolipoyl dehydrogenase TTGGCAACAGAATATGATTTAGTTGTACTTGGAGGAGGAACTGGCGGTTATGTAGCAGCTATTCGCGCTTCCCAACTTGGAATGAAAGTAGCTGTTGTAGAAAAGCGAGAACTAGGTGGCACTTGTTTACATCGTGGTTGTATTCCTTCAAAATCATTTTTACGAAGTGCTGAAGTATATAGACAAACGAAACAGGCAGCTTTTTATGGAATAGAAACCGAAGCAGCTACATTGAAGTTTCCTTTAGTACAAGAACGAAAACAAAAAATCGTTGACCAGTTGCATCAAGGTGTCAAGGGATTAATGAAGAAAGGGAAAATTGATACGTATTATGGCCATGGTCGTATTTTAGGACCAAGTATTTTTTCACCTATGGCTGGAACGATATCGATTGAACATGGGGACGGGCAAGAAAATACCATGCTAATTCCTAAAAATGTGTTAGTTGCTACAGGTTCGGAACCGAAAACTTTACCGGGGTTAAAAGTAGACCACTCGTTTGTAATGACTTCTGATGAAGCGTTGAATTTAACAGAATTGCCCAATTCGATCCTTATTGTTGGCGGAGGTGTAATTGGTATTGAATGGGCATCGATGTTGGCGGATTTTGATGTAAATGTTACCGTTATTGAATACGCGAAGCAAATATTACCTACAGAAGATGAAGCAGTTGCTAAAGAAGTACAAAAATTATTAAAGAAAAAAGGCGTAACCTTTGTAACAGAAGCAAAAGTATTGGCAGATACCGTTGATAAAGGAGAGCTAGTTCGTTTAGAAGCTGAAATTAATGGGGAAAAGCAGTCATTTCAAGCAGAGAAAATACTTGTCTCTGTTGGACGTAAAGCGAATATAACAAATATTGGTTTAGAAAATACCGATATTGTTGTGGACGAAGATGTTATTCAAACAAATGCATTTTATCAAACGAAAGAATCGCATATATATGCAATTGGTGACGTAATTGGTGGCATGCAATTAGCTCATGTTGCTTCACATGAAGGAATGGTTGCTGTAGAACATATGGCAGACCAATCGCCATTGCCAATTAATTATTTGCAAGTTCCTACTTGTATTTACTCCAATCCTGAAGTAGCTCGTGTTGGCTTAACAGAGCAACAAGCAATAGAAAAAGGGTATGACGTGAAGGTTGGTACGTTTCCTTTTCAGGCAGTTGGTAAAGCGCTCGTTTACGGAGAAACAGATGGATTTGTAAAAATAGTTGCTGATAAACAAAATGATGATTTATTAGGGGTTCATATGGTTGGCCCACATGTGACCGATATGATTTCTGAAGCGGGGTTAGCTAAAGTGCTGGATGCTACTCCTTGGGAAATTGCTCATGCTATTCATCCACACCCTACTTTGTCGGAAGTTATTGGTGAGGCTGCGCTTGCGGTAGATGGAAAACAAATACACGGATAA MATEYDLVVLGGGTGGYVAAIRASQLGMKVAVVEKRELGGTCLHRGCIPSKSFLRSAEVYRQTKQAAFYGIETEAATLKFPLVQERKQKIVDQLHQGVKGLMKKGKIDTYYGHGRILGPSIFSPMAGTISIEHGDGQENTMLIPKNVLVATGSEPKTLPGLKVDHSFVMTSDEALNLTELPNSILIVGGGVIGIEWASMLADFDVNVTVIEYAKQILPTEDEAVAKEVQKLLKKKGVTFVTEAKVLADTVDKGELVRLEAEINGEKQSFQAEKILVSVGRKANITNIGLENTDIVVDEDVIQTNAFYQTKESHIYAIGDVIGGMQLAHVASHEGMVAVEHMADQSPLPINYLQVPTCIYSNPEVARVGLTEQQAIEKGYDVKVGTFPFQAVGKALVYGETDGFVKIVADKQNDDLLGVHMVGPHVTDMISEAGLAKVLDATPWEIAHAIHPHPTLSEVIGEAALAVDGKQIHG PGPT0001380_4196 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 AK015_02859 1089 buk2_2 COG3426 Butyrate kinase 2 TTGCAAGAAATCTTTAGAACGCTTGTTATCAATCCAGGTTCTACATCAACGAAGATAGGTGTGTTTGATAATGAGGGATGCGTTTTTGAAACAACTATTCGCCATTCTGTTGATGAATTACAGGGGTTTATATCTATTAGTGAACAAAAATCCTTTCGTAAAAATGTAATATTAGAACAACTTGATTATGAAGGGATTAGTGTTTCTAAATTGGATGCTGTTTGTGCAAGAGGTGGATTAATTCGACCAATTGCAGGCGGAACATATGAAGTAAATGGAGCGATGATTATTGATTTAGAAAGAGGGTATAACGGGCATCATGCCTCCAACTTAGGTGGTATCATCGCAAATGAAATTGCTTCTTCCCTTCATATACCAGCATATATTGTAGATCCCGTCGTAGTAGACGAACTTGCTGAAATAGCCCGTTTTTCTGGTATACCTGAACTTCCTAGAAAAAGTATTTTTCACGCACTTAATCAAAAAGCCGTTGCTAGACGAGTAGCTAAACAACTTGGTGGCGTATACGAGAAAATGAATTTTATTGTGACACATATGGGTGGCGGTATTACGGTAGGTTCCCATCATCATGGTAGAGTAATTGATGTTAACAATGGTTTACATGGAGAAGGTCCTTTTTCTCCAGAGAGAGCAGGTACTGTTCCTGTTGGTGACTTAGTATCGATGTGCTTTTCAGGCCAATATTACTTAGAAGAAATCATGCGTAAAATTGTTGGTAACGGCGGGTTAATGGGCTATTTACTAACAAGTGATGCAATGGAAGTTGAACGACGAATTTCTCAGGGAGATTCGTATGCTAAAAAAGTATATGAAGCAATGGCTTATCAAGTCGCTAAAGAAATTGCTGCTTTAAGTGCTGTATTAAAAGGGAATGTAGATGCCATTGTATTAACAGGTGGCCTTGCTCATGGTAAGACCTTTACAGATATGATTGTGGAGCGTGTAGACTGGATAGCCGATACAATTGTTTATCCTGGTGAGGATGAATTACAGGCATTAAACGAAGGGGCGTTGCGTGTTTTACGTGGAGAAGAACAAGCAAAGATTTATGATAATAAAACTGGATAA MQEIFRTLVINPGSTSTKIGVFDNEGCVFETTIRHSVDELQGFISISEQKSFRKNVILEQLDYEGISVSKLDAVCARGGLIRPIAGGTYEVNGAMIIDLERGYNGHHASNLGGIIANEIASSLHIPAYIVDPVVVDELAEIARFSGIPELPRKSIFHALNQKAVARRVAKQLGGVYEKMNFIVTHMGGGITVGSHHHGRVIDVNNGLHGEGPFSPERAGTVPVGDLVSMCFSGQYYLEEIMRKIVGNGGLMGYLLTSDAMEVERRISQGDSYAKKVYEAMAYQVAKEIAALSAVLKGNVDAIVLTGGLAHGKTFTDMIVERVDWIADTIVYPGEDELQALNEGALRVLRGEEQAKIYDNKTG PGPT0001815_202 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001815-buk-K00929 NA NA AK015_02860 1095 ldh_2 Leucine dehydrogenase ATGGAACTATTTCGCTACATGGAACAAGATGATTATGAACAAGTCGTTTTTTGTCAAGATAAGAATTCTGGGTTGAAAGCAATTATTGTCATCCACGATACAACTTTAGGCCCTGCTTTAGGTGGAACAAGAATGTGGACCTATGAAACAGAAGCGGATGCTCTTGAAGATGCGCTTCGTTTAGCTAAAGGAATGACTTATAAGAATGCTGCAGCCGGACTAAACTTAGGTGGCGGGAAAACGGTTATCATTGGTGATCCGAAACAAGATAAAAACCCTGAAATGTTTCGTGCTTTTGGTCGTTATATCCAAGGTTTGAATGGAAGGTATATTACAGCAGAGGATGTAGGTACAACCGTGCAAGATATGGATACCATCCATATGGAAACCGATTTTGTGACGGGCATCTCACCTGAATCAGGGTCTTCCGGAAACCCTTCTCCAGTAACTGGTTATGGTGTATATAAAGGCATGAAAGCTGCTGTTAAAGAAGCATTTGGTGATGATTCTTTAACAGGAAAGACAGTTGCAGTTCAAGGTATAGGTAATGTCGCTTATGCTCTTTGTGAACATCTACATAAAGAAGGAGCTAATTTAGTAGTAACAGATATTAATGAACAAGCTGTGCAAAGAGCAGTAGAAGCTTTCAATGCAAAAGCAGTTAAACCGGATGCAATTTATGATGTGGATTGTGATATTTATGCACCTTGTGCACTTGGAGCCACGATAAATGATGACACTATTCCAAGAATAAAAGCAAAAGTTATTGCTGGATCAGCTAATAATCAATTGAAAGAGTCACGACATGGTGATATGATTCACAAGCAAGGGGTTGTTTATGCACCAGACTATGTCATTAACTCTGGCGGAGTTATTAATGTTGCTGATGAATTACAAGGATATAATTACGATCGGGCTATGAAGAAGGTAGAAACTATATATGACAGCTTGCTAAAAGTATTTGCCATCGCTAGACGAGATAATATACCTACTTACTTAGCTGCAAATCGAATGGCTGAAGAAAGAATTAAATCTGAAAATCGTTCTAGGAGTCAATTTTTGTTAAATGGTCATCATATTTTAAGTAGAAGATAA MELFRYMEQDDYEQVVFCQDKNSGLKAIIVIHDTTLGPALGGTRMWTYETEADALEDALRLAKGMTYKNAAAGLNLGGGKTVIIGDPKQDKNPEMFRAFGRYIQGLNGRYITAEDVGTTVQDMDTIHMETDFVTGISPESGSSGNPSPVTGYGVYKGMKAAVKEAFGDDSLTGKTVAVQGIGNVAYALCEHLHKEGANLVVTDINEQAVQRAVEAFNAKAVKPDAIYDVDCDIYAPCALGATINDDTIPRIKAKVIAGSANNQLKESRHGDMIHKQGVVYAPDYVINSGGVINVADELQGYNYDRAMKKVETIYDSLLKVFAIARRDNIPTYLAANRMAEERIKSENRSRSQFLLNGHHILSRR PGPT0020320_385 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 AK015_02861 927 pta_3 COG0280 Phosphate acetyltransferase ATGGGCAGTTTAGACCAATTAAAAATCGCAGCTAAAAAGAAAGAAGGAAATATTGTTTCCATTGCAAATGCTGAAGATGAAGGTATATTACAAGTTGTAAAAATAGCTCTTGAAGAAAATCTTTGCCAATTTTTACTTGTTGGAGATGAAGAGAAAATCAAGGAAAAAGCAAAACGAATAGGGCTACATTTATCCAATTATAAAGAAAAAGTCTCTATTCAACATGCAGCCGATTTAATTGCGATTGCACATTTAAGCGTTAAAGCAGTAAGCCGAAAGCAAGCGGATATATTAATGAAAGGAAACATCTCAACAAAAGATGTTTTGCAAGCAGTTCTTGATAAAGAGTATGGATTGCGAACTGGAAAAATTTTATCACACACTGCAGTCTTTGAAGTTCCAAGTCAAGAAAAACTTGTGATATTAACAGATGCAGCAATGAATATTGCTCCAGATATGCAACAAAAAGTGACTATTATTGAAAATGCAGTACAAGTTGCACAAAGTATTGGGATAGAGGTACCAAAAGTAGCTGCTCTAGCGCCGGTAGAGAAAGTGAATCTTAGCATGCAGTCTACGATGGATGCTGCTATACTCACGCAAATGCAACGAAGAGGGCAAATAAAAAACTGTTTTATTGATGGACCTTTAGCATTTGATAATGCTGTTTCAGAGCGAGCAGCAGCTCAAAAAGGTATTTCATCAGAAGTTGCAGGAAATGCAGATATTCTTCTCGCCCCCTCCATTGAAGTGGGCAATGCTTTATATAAATCATTTATTTATTATGCACAAGCAAAAGTAGCTGCCCTTATTTGCGGAGCTAAAGCACCGATTATTTTAACGTCACGAGCAGATACTGTTGAAAGCAAATTATATTCGCTATCACTAGCGATTATGACAACTAATCCAAATAGGAGGAGATCTTAA MGSLDQLKIAAKKKEGNIVSIANAEDEGILQVVKIALEENLCQFLLVGDEEKIKEKAKRIGLHLSNYKEKVSIQHAADLIAIAHLSVKAVSRKQADILMKGNISTKDVLQAVLDKEYGLRTGKILSHTAVFEVPSQEKLVILTDAAMNIAPDMQQKVTIIENAVQVAQSIGIEVPKVAALAPVEKVNLSMQSTMDAAILTQMQRRGQIKNCFIDGPLAFDNAVSERAAAQKGISSEVAGNADILLAPSIEVGNALYKSFIYYAQAKVAALICGAKAPIILTSRADTVESKLYSLSLAIMTTNPNRRRS PGPT0001810_77 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001810-ptb-K00634 NA NA AK015_02862 2067 norR_3 Anaerobic nitric oxide reductase transcription regulator NorR ATGAAACGCGTTCTTATTGTTGGTGCTGGTAAAGGTGGGAGTGCAATATTAAAAATTCTCCATGCTACTCAAACTATGAAAGTCGTAGCTATCGTGGACACGAATACGTCTGCTCCCGGTCTAGTAGCGGCAGAAAAATGGGACATTCCTATAGGGCGTTCGTGGAAAAAATGGATTGATGAAAATATTGATATTATCATTGAAGCAACTGGTAATGAATTTGTATTAGAAGCACTATTACAGCAACGTAATCGAAGGACAGTAATTATTCCAGGGACAGTTGCTTATATCATTTCTGAGCTATTTGATGAAAAACAAGAGCTGTTAGAAGAAATAGAACTACAAATGCTAAATCAAGAGTTGATATTAAACAATATACGTGATGGCATGATTGTCGTCGATACTAATGGGTTTATCACTTTTGTTAATAAAAGTGCAGAAAAGATTATTAATACCTCAAAGCACAGACTACTTGAAGGAGAACATATAGAAAAAGTCATTTATCGTACACGTCTTACTGAAGTGTTAAAAAACCGTAGAAAGGAAATTAATCAAAAATTAACTTTAGAAAACGGGAAACAGATTATTGCAACAAGGATTCCAATTATACGGTCAGACAATAGTCTACTAGGTGCGTTTGCTGTTTTTAAAGATATTACGGAAGTCGTACATTTAGCAGAAGAAAACACAGACTTAAAAGAGATTAAAACGATGCTAGAAGCAATTATTCATTCTTCTGATGAAGCAATCAGTGTTGTAGACGAACAAGGTCTTGGGTTAATGATAAATCCTGCCTATACTAAAATCACTGGATTAGCTGCCTCTGATGTAATTGGCAAACCAGCAACTACGGATATTTCTGAGGGAGAGAGTGTACATATGAGGGTCTTACAAACGAGAAGACCCATAAGAGGAGTATTAATGAAAGTTGGCCCAAATAAGAAAGAAGTATATGTCAACGTTGCTCCTGTAATTGTAGATGGTAAATTAAAAGGCAGTGTCGGTGTACTTCACGACATTTCCGAAGTGCAGTCATTAACCAATGAACTAAAGCGTGCAAGACAGATTATACGTAATTTGGAAGCAAAGTATACATTTAAGGATATTATTGGTACTTCTCCAGAAATGAAAATTGCTTTAGAGCAAGCGAAAGTAGGCGCGAGGACACCTGCTACTGTTTTGCTTCGAGGCGCATCTGGTACTGGAAAAGAATTATTTGCTCACGCCATTCATAATGAAAGTGACCGTAAACACTATAAATTTATACGGGTTAATTGCGCAGCTATTGCTGAAACGATATTAGAAAGTGAGTTGTTTGGCTATGAAGAAGGAGCTTTTTCTGGTGCTAAAAGAGGTGGAAAAAAAGGTTTCTTTGAAGAAGCAAATAACGGGAGTATATTTTTAGATGAGATTGGTGAATTGTCTTTACACATGCAAGCAAAATTATTACGAGTGTTACAAGAAAATGAAATTGTACGTGTTGGAGGAACGACGCCAATTACGATTGATGTGCGTGTGATTGCAGCAACCAATGTAAATCTCGAAAAAGCAATTATGGCAAAAACATTTCGTGAAGACCTATATTATCGATTGAACCGTTTACCTATATTTATTCCATCTTTAAAGGAGAGACTTTCTGACCTTCCATTACTTACGAAGCATATCATTACAAAAATTAATCAAGATTACGGAAGAGACGTGCAAAAAATTTCTGAGGATGCTATAACTCATTTAAATTATTATCATTGGCCAGGAAACATTCGTGAACTAGAAAATGTGATAGGAAGGGCTATGATTTATATGGGGATACAAGAAAAAACAATACAACAATCCCATCTGCCTCATTTAGGAAATCAGGAATGGAAGTCAAGTTTTTCACCAGCACTTCAAACAAGCTCTCCATCTTTACCACAGGCAATGGAAGAATATGAAAGAAATTATATTACTCAAGTATATGAGCAAAATGACTATAATAAAACAAAAACGGCCAAGTCGTTGCAAATTTCAATTCGAAACCTTTACTATAAAATGGAAAAACATCAAATTGCAAAGCCTGACCTGCAATAG MKRVLIVGAGKGGSAILKILHATQTMKVVAIVDTNTSAPGLVAAEKWDIPIGRSWKKWIDENIDIIIEATGNEFVLEALLQQRNRRTVIIPGTVAYIISELFDEKQELLEEIELQMLNQELILNNIRDGMIVVDTNGFITFVNKSAEKIINTSKHRLLEGEHIEKVIYRTRLTEVLKNRRKEINQKLTLENGKQIIATRIPIIRSDNSLLGAFAVFKDITEVVHLAEENTDLKEIKTMLEAIIHSSDEAISVVDEQGLGLMINPAYTKITGLAASDVIGKPATTDISEGESVHMRVLQTRRPIRGVLMKVGPNKKEVYVNVAPVIVDGKLKGSVGVLHDISEVQSLTNELKRARQIIRNLEAKYTFKDIIGTSPEMKIALEQAKVGARTPATVLLRGASGTGKELFAHAIHNESDRKHYKFIRVNCAAIAETILESELFGYEEGAFSGAKRGGKKGFFEEANNGSIFLDEIGELSLHMQAKLLRVLQENEIVRVGGTTPITIDVRVIAATNVNLEKAIMAKTFREDLYYRLNRLPIFIPSLKERLSDLPLLTKHIITKINQDYGRDVQKISEDAITHLNYYHWPGNIRELENVIGRAMIYMGIQEKTIQQSHLPHLGNQEWKSSFSPALQTSSPSLPQAMEEYERNYITQVYEQNDYNKTKTAKSLQISIRNLYYKMEKHQIAKPDLQ 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 AK015_02863 252 hypothetical protein ATGATCCGAATCATAGCCATACTTATTTTGTTTATCCCGGGTTTAATAGCTGCTATTGGCATTAAGTTAATGAGAGACACATTATTTGCTACTTTCTATCCAATATTTTTACATAGTAGTATTCAGTTCATTATTGGGCTTATACTATTCTTGGCTGGACTTGCTTTCATAGGTGGTTTCATTATACACCGTGATCGAAAACGACAAAAAAATCAGCAACAAAAAAGGAATTGTTATACAAATGGGGACTAA MIRIIAILILFIPGLIAAIGIKLMRDTLFATFYPIFLHSSIQFIIGLILFLAGLAFIGGFIIHRDRKRQKNQQQKRNCYTNGD NA NA NA NA NA AK015_02864 1350 yclM COG0527 Aspartokinase 3 GTGAAAGTTGCAAAATTTGGAGGGAGCTCTGTAGCTAGTGCCGAACAAATAAAGAAAGTTGCCAACATTATAAAGAAGGACCTCCAAAAAAAATTTATTGTCGTTTCTGCTCCAGGTAAACAACATAAATCAGACCAAAAAATGACGGACATGTTCATTCAATTATGGAAAGCAAGCCAACAGGAAACTTCTTTAGAGCCATATATTGATCCAATCATTAAAAGATTTACTGAAATTGTAGAACAGTTAGGCTTGTCTTTCATTATTGTGGGGGAAATTAAAGAGTCCATTAATAAGCTATTACATATGGAGGAAGCACCCATTAGCAAATTAGATGCTTTAAAAGCAATTGGTGAGGATAGTTCAGCTAAAATTCTTAGCGCTTATCTTACTTCAATTGGTTTAGAAGCAAGTTACGTAAACCCTCGCGAAGCTGGTATAATGGTCAGTGATGAACCAGGTAATGGAAAAATATTGCCAGAAAGTTTTGAGATGATATATAATTTACGCTCTACAAAAGGTATTTCAGTTATTCCTGGTTTTTTTGGATATACAAATGCTGGAAAATTAATTACATTTTCACGTGGTGGTTCTGATATTACCGGATCCATTATAGCCGCTGGAGTTAAAGCGGATCTATATGAAAATTATACAGACGTTGACTCTGTTTACGCAGTTAATCCTTCCATCGTAGACAACCCTAAAAAAATAACAACACTTACGTATAAAGAGATGCGTGAATTGTCTTATGCAGGATTTTCCGTGTTTCATGATGAAGCATTAATTCCTGCATATCGTGAAAAAATACCAGTATGCATTAAAAATACAAATAATCCGCAAGCAACTGGCACATTCATTGTTTCTGAGAAAAAACCAAGCGAAAAATGTGTTGTTGGCATTGCCAGTGACACTGGTTTTTGTAGTATCTATATTAGTAAATACTTGATGAACAGAGAAATTGGTTTTGGACGTAAAGTGCTCTCTATTTTAGAAGAGGAAGGTATTTCCTTTGAACATGCTCCTTCAGGTATTGATGATTTATCAATTATTATTCGGGAAAAACATTTACCCCTAGAAAAAGAAAAGCAAGTTTTAAAACGTATTCAAAAGGTGTTATGCCCTGATTTAATCTCTATTCATCGTAATCTCGCTATGATTATGATTGTGGGAGAAGGACTTGTGCGTACAATTGGCGTCGCTCAAAAAGCAACGTCCGCCATTTCTAGTGCGAATGTAAATATTGAAATGATTAATCAGGGGTCATCAGAAGTTTCTATGATGTTTGGCATTATAGCTGACGATCTAGAAAAAGCTGTTCAATCATTATACAATGCTTTTTTTGTCAATTAA MKVAKFGGSSVASAEQIKKVANIIKKDLQKKFIVVSAPGKQHKSDQKMTDMFIQLWKASQQETSLEPYIDPIIKRFTEIVEQLGLSFIIVGEIKESINKLLHMEEAPISKLDALKAIGEDSSAKILSAYLTSIGLEASYVNPREAGIMVSDEPGNGKILPESFEMIYNLRSTKGISVIPGFFGYTNAGKLITFSRGGSDITGSIIAAGVKADLYENYTDVDSVYAVNPSIVDNPKKITTLTYKEMRELSYAGFSVFHDEALIPAYREKIPVCIKNTNNPQATGTFIVSEKKPSEKCVVGIASDTGFCSIYISKYLMNREIGFGRKVLSILEEEGISFEHAPSGIDDLSIIIREKHLPLEKEKQVLKRIQKVLCPDLISIHRNLAMIMIVGEGLVRTIGVAQKATSAISSANVNIEMINQGSSEVSMMFGIIADDLEKAVQSLYNAFFVN PGPT0014040_1888 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928 NA NA AK015_02865 777 spo0A Stage 0 sporulation protein A GTGGAAAAGATTGAAATTTGTTTAGTAGATGATAATCGGGAATTGATTAAGCTTATGGAAGATTATTTTGAAGAACAATCGGATATTGAAGTTATTGGTACGGCGTTTAATGGAAGAGATTGCTTGACCATGCTGGATGATTTAGAACCAGATGTCTTAATTCTAGATATCATTATGCCACATGTGGATGGGCTTGCTGTTCTAAATACACTACGTTCTTCGAAAGAGGATCCTCCACACGTCATTATGCTTACAGCTTTTGGGCAAGAAGAAGTGATGAAAAAAGCAGTAGATCTAGGTGCCGCTTATTTTATTTTGAAGCCTTTTGATTTAGATAACTTAGCTGAGCAAATAAGGCAAGTACAGGGCAGCTCCTCTTACTCTGTTGGTGTTTCAAAAGTTCAGCGAAAAGAAAGGAAAAAACAAGATTTAGAAGCAAGTATCACCAACATTATTCATGAAATAGGAGTTCCTGCGCATATTAAAGGTTATATGTATTTACGAGAAGCCATTACGATGGTATTTAATGATATTGAGCTGCTTGGTTCTATCACAAAGGTTTTATATCCAGATATAGCTAAGAAATACAATACTACTGCTTCACGTGTTGAACGTGCCATTCGTCATGCTATTGAAGTAGCGTGGAGTAGAGGGAATATTGATTCTATTTCTGCTTTATTTGGATATACAATCAGCATTTCAAAAGCAAAACCAACAAATTCAGAATTCATTGCGATGGTGGCTGACCATTTACGGTTAGAGCATAAAGCGAGTTGA MEKIEICLVDDNRELIKLMEDYFEEQSDIEVIGTAFNGRDCLTMLDDLEPDVLILDIIMPHVDGLAVLNTLRSSKEDPPHVIMLTAFGQEEVMKKAVDLGAAYFILKPFDLDNLAEQIRQVQGSSSYSVGVSKVQRKERKKQDLEASITNIIHEIGVPAHIKGYMYLREAITMVFNDIELLGSITKVLYPDIAKKYNTTASRVERAIRHAIEVAWSRGNIDSISALFGYTISISKAKPTNSEFIAMVADHLRLEHKAS PGPT0014750_406 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014750-spo0A-K07699 NA NA AK015_02866 1197 spoIVB COG0750 SpoIVB peptidase ATGAATTTGCGAACAAAGCACAACAAAATATTACGTTTCGGTATATGCTTTATGACAATGCTTGCCTTACTTGCGCTTCCTGTTATTACAAGCCTATTTAAAGCGGAAAGTCGAATTACACAAGCAGCTACTACAGCAACTAGCATGAGTCCAGAAGATACCTCTACACTTCATCAATTTACTGGATTACCTATTCAACAAACAAAAGCACAATCAAAGGAAGAAATAAAAATTATACCCGGTGGACAATCCATTGGGGTTCAGTTACAAACCAAGGGTGTACTCGTTGTTGGTCATCATTTAGTAAAGGGAAAAACGGGCAGAGTTTCACCTGGGGAAAAAGCAGATATTCAAGTCGGCGATGTTATTTTAGAAATTGATGGAAAAGAAGTTAAAAAGATGAAAGATGTAAAACCGTTTGTAAAACAAGCCGGACAATCAAAAAATGTGTTGGATATAAAATTAAAGCGAGGAAAGAAAACAATTTCTACCGAATTAGAGCCAGCTTTGGATGAAAAAGAAAATAATTATCAAATCGGATTATATATAAGAGACTCTGCTGCAGGAATAGGCACGATGACCTTTTATGATCCAAATTCCAAGAAATATGGAGCTTTAGGTCACGTCATTTCCGACATGGATACCCAAAAGCCTATAGAAATTAATAATGGCTCTATCGTACGATCTTCTGTGACCTCCATTGAAAAAGGAAATAATGGTATACCAGGAGAAAAACAAGCAACTTTTTCAGCAGCTGAAGATAAAATTGGATCTATTACAAAAAATACCGCATTTGGTATTTTTGGAAAGTTAAATCAAAATTTAGAGGAAATAAAAAAACCATTACCTGTAGCTCTACCTAACGAGGTGAAAGAAGGACCTGCAAAAATTTTGACAGTACTTGCCGGTGAGGAGATAAAAGAATACGATGTCGAAGTTGTTAGCAGTGTACCTCAGAAAAATGCAGCAACAAAAGGAATGGTTATTCAAATAAAAGATAAGGAATTGCTCAATAAAACAGGAGGAATTGTACAAGGGATGAGTGGAAGTCCTATTATACAAAATGGAAAAATTATTGGGGCGGTCACTCACGTATTTGTAAATGATCCTACATCAGGGTATGGCGTCCACATTAAGTTTATGCTAGAGGAAGCTGGTATTAATACAGCTACTTCATCACCAAAAAAAGTAAGTTAA MNLRTKHNKILRFGICFMTMLALLALPVITSLFKAESRITQAATTATSMSPEDTSTLHQFTGLPIQQTKAQSKEEIKIIPGGQSIGVQLQTKGVLVVGHHLVKGKTGRVSPGEKADIQVGDVILEIDGKEVKKMKDVKPFVKQAGQSKNVLDIKLKRGKKTISTELEPALDEKENNYQIGLYIRDSAAGIGTMTFYDPNSKKYGALGHVISDMDTQKPIEINNGSIVRSSVTSIEKGNNGIPGEKQATFSAAEDKIGSITKNTAFGIFGKLNQNLEEIKKPLPVALPNEVKEGPAKILTVLAGEEIKEYDVEVVSSVPQKNAATKGMVIQIKDKELLNKTGGIVQGMSGSPIIQNGKIIGAVTHVFVNDPTSGYGVHIKFMLEEAGINTATSSPKKVS PGPT0024775_342 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_IV_SPORULATION,PGPT0024775-spoIVB-K06399 NA NA AK015_02867 1722 recN COG0497 DNA repair protein RecN GTGCTTACGGAATTGTCCATTCAGGATTTTGCGATAATCAACAAGCTTTCCGTTACTTTTAATGAAGGATTAACCGTTTTAACAGGTGAAACGGGAGCTGGTAAATCAATTATTATTGATGCGGTTCAATTGCTCGCTGGAGGTAGAGGTTCTGTTGAATTTGTCCGTCATGGTGCTAAAAAGGCAGATATTGAAGGTTTATTTATTATTGATCATGATTCACATCCTGTGTATACCATTTGCGAGCAGTATGGCATTGAAAGTGAAGACCAGCAACTTGTACTTAGACGTACCATAACAGCAAATGGGAAAAGTATTTGTCGTGTTAATAGCAAATTAGTAACTTTAGCTGTCCTACGCGAATTTGGAAGGACATTAATTGATATTCATAGTCAGCACGAAACACAGTCCCTTATGAATCCTGAGCATCATTTAGATTTGTTGGATTTATACCAGCCTGAATTAATTAATAAGGCGAAAAAAGAATACTTGAAATTATATGACCAATTATCTAAATTAAAAAATCGTTATCGTAAATTGAGTGAAAATGAACAAGAAACAGCTCAACGATTAGATTTGTTGCAATTCCAGTTGCGGGAATTAGAAGAAGCCCAATTACAACCTAATGAAGACAAGCAATTGGAAGAAGAAAGGAATACTTTAGCTAATTTTGAGCGTATTTATTCATCCTTACAACTTGCTTACAATTCTCTTTATGGCGAACAGAAAGGGCTTGATTGGGTCAATCAGGCGCAAATAGCGTTGCAAGATAATAGTAACTATGACGCTTCCCTAGCACAAAAAGCAGAAGATATTGCAAATTATTACTATGGGTTAGAAGAATTGACCTATGACTTAGGAAATCAAATTGAAACGTTGCAATTTGACCCAGAACGCCTAAATGAAATTGAAGCTCGTTTAAACGAAATTAATCGGTTAAAAAGAAAATATGGTCCTACTGTTTCGGATATGTTAACTTATATGGCAAAGATAGAAGAAGAAGTAGAAGAAATAAGCAATAAAGATTCTTATATATCCAAACTCGAACAACAAATAAAAGAAAAAGCCAAGGATGCTTTTTTGGAAGCTCAAGAATTGCGTGATATCCGAATAAAAGCTGCAGAGGCTTTGACAAAGGAAATTCATGAAGAATTAAAAGACCTTTACTTAGGAAAGACGGAATTTAAGGTCGATTTTGCTAAGAATATCGAACCACAAAAAGAACTAGATAAGCATTTGCATAAAAATGGAATGGATGATGTGACATTTTTGATCTCCACAAATCCAGGTGAACCTCCTAAACCCTTAAATAAAGTAGCTTCTGGAGGAGAGCTATCTAGGATTATGTTAAGTTTGAAGAAAATATTTGCAAGACATCAAGGTGTTACAAGTGTCATTTTTGATGAAGTAGATACTGGAGTAAGTGGTAGAGTGGCGCAAGCGATTGCTGAAAAGATATATCACATCTCACAGAAGTCACAAGTTTTATGCATTACACATCTTCCGCAAGTGGCGGCTATGGCTGATACACATAAATTAATTGAAAAAGAAGTAATGAATCAACGGACATCTACAACTGTCCATGAATTAAGCCAAAAATTGCAAATCAATGAACTTGCTCGAATGATTACAGGAACAAAGCTTACAGATACAGCGGTGGATCATGCTAGAGAAATGTTAGAAATGGCGATCCAATTTAAAGGAAAAGAGCATAATTTATAG MLTELSIQDFAIINKLSVTFNEGLTVLTGETGAGKSIIIDAVQLLAGGRGSVEFVRHGAKKADIEGLFIIDHDSHPVYTICEQYGIESEDQQLVLRRTITANGKSICRVNSKLVTLAVLREFGRTLIDIHSQHETQSLMNPEHHLDLLDLYQPELINKAKKEYLKLYDQLSKLKNRYRKLSENEQETAQRLDLLQFQLRELEEAQLQPNEDKQLEEERNTLANFERIYSSLQLAYNSLYGEQKGLDWVNQAQIALQDNSNYDASLAQKAEDIANYYYGLEELTYDLGNQIETLQFDPERLNEIEARLNEINRLKRKYGPTVSDMLTYMAKIEEEVEEISNKDSYISKLEQQIKEKAKDAFLEAQELRDIRIKAAEALTKEIHEELKDLYLGKTEFKVDFAKNIEPQKELDKHLHKNGMDDVTFLISTNPGEPPKPLNKVASGGELSRIMLSLKKIFARHQGVTSVIFDEVDTGVSGRVAQAIAEKIYHISQKSQVLCITHLPQVAAMADTHKLIEKEVMNQRTSTTVHELSQKLQINELARMITGTKLTDTAVDHAREMLEMAIQFKGKEHNL NA NA NA NA NA AK015_02868 450 argR_2 COG1438 Arginine repressor ATGAGCAAAATACAACGACATATAAAGATAAGGGAATTAATTACGGATAATGAAATTGAAACGCAAGATGAACTTGTAGATCGATTAAAAAACTTAGGCTATAATGTAACACAAGCAACGGTTTCCAGAGATATTAAAGAATTACACTTGGTAAAAGTAGCAACAGCAAATGGAACATATAAATACAGTTTGCCTGCAGACCAACGCTTTAATCCATTAGATAAATTAAAGCGTTTAGTCATGGACGCATTTGTTAAAATTGATTATGCAAGCCATTTTATCGTACTCAAAACACTCCCGGGAAATGCTCACGCTGTTGGTGCTTTAATTGACCAGCTGGATTGGGAAGAAATAATGGGGACTATTTGTGGTGATGATACTTGTTTAATTATATGCAGAACAGAGGCAGACGCTTTAACGATAAAAGAACGTTTTATCGAGATGTTGTAA MSKIQRHIKIRELITDNEIETQDELVDRLKNLGYNVTQATVSRDIKELHLVKVATANGTYKYSLPADQRFNPLDKLKRLVMDAFVKIDYASHFIVLKTLPGNAHAVGALIDQLDWEEIMGTICGDDTCLIICRTEADALTIKERFIEML PGPT0020105_1820 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402 NA NA AK015_02869 837 tlyA COG1189 Hemolysin A ATGAGTAAAAAAAGACTTGATGTGTTATTAGTAGAAAAATCACTTGCCGCTACAAGGGAAAAAGCAAAGCGTTTAATTATGGCTGGTCTCGTGTTTGCTGATCAACAAAGATTAGACAAGCCAGGAATGCAAGTAGATGAATCAATAAATTTGACGGTAAAAGGAAAATTATTACCTTATGTTGGACGTGGAGGTTTAAAGCTCGAAAAAGCGCTAAAGACTTTTTCACTTACAGTAACGGATAAAATTGTAATGGACATAGGTTCATCTACTGGTGGCTTTACAGATTGTGCATTGCAGAATGGTGCATCCTTATGTTATGCCATTGATGTTGGTTATAATCAGCTTGATTGGAAACTTAGAAATGATGACCGAGTTATTGTAATGGAACGAACGAATTTTCGTTATGTTACGGTGGGCATGCTGGAAAACGGTAAACCAAATTTTGCTTCTATTGATGTTTCGTTTATTTCACTACGCTTACTTTTGCCAGTCTTAAAGCATTTATTGGAAAATAACAGTGATGTTGTAGCACTAGTTAAACCACAATTTGAAGCAGGAAAAGAACAAGTAGGCAAAAAAGGAGTTGTTCGAGACAGCCGTGTGCACCAAGCTGTTTTGAGACAGATTATTGACTTTGCAGCGCAAGAAAAATTTCAGATATTAGATTTAACTTTTTCTCCTATAACTGGAGGAGATGGAAATATTGAGTTTTTGTTGCATTTAGGCTGGGAAAAACATAAACCAGCGACTAAAGATTTTTCTGATCACGAAATTGAAAGCTTAGTCTCTGAAGCACATGAAGCATTAGCTCGAAAAAAACAAAACAATAAGTAA MSKKRLDVLLVEKSLAATREKAKRLIMAGLVFADQQRLDKPGMQVDESINLTVKGKLLPYVGRGGLKLEKALKTFSLTVTDKIVMDIGSSTGGFTDCALQNGASLCYAIDVGYNQLDWKLRNDDRVIVMERTNFRYVTVGMLENGKPNFASIDVSFISLRLLLPVLKHLLENNSDVVALVKPQFEAGKEQVGKKGVVRDSRVHQAVLRQIIDFAAQEKFQILDLTFSPITGGDGNIEFLLHLGWEKHKPATKDFSDHEIESLVSEAHEALARKKQNNK NA NA NA NA NA AK015_02870 576 hypothetical protein ATGAAATCACATGTAAAACGATCGATTAATTTTAGTTTAACTATTGCCGTTATCACTTTTGTGTTAGCGGCTATTTTTTCAGTTATATCTTCTTCAATATTAAGTGGTGTTGCCTGGTTTATCGGACTTTTTATTGTATTTGTTATCGTTTTCGTTGGTGTTGTTTTTGATATGTTAGGTATAGCATCGACAGCAGCTAATGAGGCTCCATTCCATGCAATGGCTTCAGAAAAAGTAACTGGGGCAAAAGAAGCAGTGATTATTATTAGAAATGCCGATCGATTCGCCAGTTTTTGTAATGATGTTATTGGTGATATTTCTGGAATTGTAAGTGGAACTGCTTCAGCAATTGTAGTACTGCAAATGGCTAATCTTTTAGGTCATGGCGAGGGTTCTTCCGTTCAAATTATCATTTCTGTAGTGCTAACAAGTATTGTCGCAGCCCTTACAGTTGGTGGAAAAGCAATGGGCAAATTTTTTGCCATTAATGCTTCAACAAAAATCATTTTTTTTGCAGGAAAAGTCATTTCCATTATGGAAAATAAACTTAAAATAAGTGTACTACCTAAAAATTAA MKSHVKRSINFSLTIAVITFVLAAIFSVISSSILSGVAWFIGLFIVFVIVFVGVVFDMLGIASTAANEAPFHAMASEKVTGAKEAVIIIRNADRFASFCNDVIGDISGIVSGTASAIVVLQMANLLGHGEGSSVQIIISVVLTSIVAALTVGGKAMGKFFAINASTKIIFFAGKVISIMENKLKISVLPKN NA NA NA NA NA AK015_02872 885 Farnesyl diphosphate synthase GTGGAACGAAAAATGGAGATGTATTTAGAGGAAAAAAAACAATTCATAGACAGTGCTTTAAAAAAGTATATGCAAGCTTTACAAGTTCCTCCTGCATTAAAGCAGTCAATGACTTATTCAGTAGAAGCTGGCGGTAAACGATTAAGACCAATATTATTACTTGCAAGCTATGAAGCGTTTCAAAAGGATATAACTGTAGCTTTAAGTTCCGCTGCAGCACTGGAAATGATTCATACTTATTCATTAATTCATGACGATTTACCCGCAATGGATGATGATGATTATCGTAGAGGTAAACTAACCAATCATAAAGCTTTTAGTGAAGCTACAGCTGTATTAGCTGGAGATGCTTTGTTGACTTACAGCTTTGAAATAATAAGTAAAGATGACAAACTTACAGCTGCCCAAAAAGCAGAATTAATAGCGCTATTAGCTGAAGCAAGTGGCCCAAAAGGGATGGTCGCTGGACAGATTTTAGATATGGAAGCAGAAGATCGAGCGATTACTTTACAAGAGCTTGAACGTGTACATACTTTAAAAACAGGTGAGTTACTTCGCTACGCTGTCCATGCAGGAGCATACCTAGGAGGGGCTACAGAGAAGCAATTGCACGAATTACAACTTTTTGCTTCTTATTTAGGACTTATTTTTCAAGTTCAAGATGATATATTGGATGTTACTGGTGATGAAGTAAAGCTAGGTAAACCGGTAGGTAGTGATGCGCTTAATTTAAAGAGTACGTATCCAAAATTGCTTGGTATAAATGGTGCTATTGAGAAAAAAGAACAATATCTTCTTAAAGCAAAAGAATCTCTGCAAGCTGCAGGCGTAGAAAATTCTAATCTGATGGATTTAGCCATTTATTTTGGCCAAAGAGATTATTAA MERKMEMYLEEKKQFIDSALKKYMQALQVPPALKQSMTYSVEAGGKRLRPILLLASYEAFQKDITVALSSAAALEMIHTYSLIHDDLPAMDDDDYRRGKLTNHKAFSEATAVLAGDALLTYSFEIISKDDKLTAAQKAELIALLAEASGPKGMVAGQILDMEAEDRAITLQELERVHTLKTGELLRYAVHAGAYLGGATEKQLHELQLFASYLGLIFQVQDDILDVTGDEVKLGKPVGSDALNLKSTYPKLLGINGAIEKKEQYLLKAKESLQAAGVENSNLMDLAIYFGQRDY PGPT0007560_2105 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789 NA NA AK015_02873 231 xseB COG1722 Exodeoxyribonuclease 7 small subunit ATGACTGAGGAAGAATTATCATTTGAAGAAGCGATGCAACAGTTAGAGGAAGTTGTAGAAAAGCTGGAAACAGGAGACGTTCCATTAGAAAAGGCAATCAGCTACTATCAAGATGGCATGAAGCTGTCGAAACTTTGTACGGATAAGTTAAACCAAGTAGAAGAAAAAATGACCAAAATTATGAACGAACAGGGAGAATTAGAAGGATTCCCACTTCAGGAGGAAGAATAA MTEEELSFEEAMQQLEEVVEKLETGDVPLEKAISYYQDGMKLSKLCTDKLNQVEEKMTKIMNEQGELEGFPLQEEE NA NA NA NA NA AK015_02874 1353 xseA COG1570 Exodeoxyribonuclease 7 large subunit GTGAAGGATAATTATCTAACTGTTACGGCATTAACTAGATATATTAAACGCAAGATGGATGTGGATCCTCATTTACGCCAAGTATGGCTTCGAGGTGAGATTTCGAACTTTAAACATCATTCTAGAGGACATATGTATTTAACAATTAAAGATGATCGATCACGAATTCAAGCAGTAATGTTTGCAGGCAATAATCGCTCGTTAAAATTCCAACCTGAAAATGGAATGAATGTTTTAATTAAGGGAGAAATTAGTGTTTTTGAAGCATATGGGCAATATCAACTATATATTCAACAAATGGAACCAGACGGCATTGGCGCGCTGTATGTTGCTTTTGAGCAATTAAAAGAGAAGTTGGAGAAACAAGGATACTTTGATCATTATGTCAAAAAAAATATCCCGCCATTACCAAAAAATATTGGTATTATTACGTCGCCAACAGGAGCAGCTGTAAGGGATATTATTACAACCATTAAACGACGCTATCCTATTGTTGAGTTAACGGTCATTCCAGCATTAGTTCAAGGAGAAGCAGCTGCTCGATCCATTAAACAGGCCATTGAAATTGCCAATCAAAAGGGAGACTTTGACCTGTTAATTGTTGGAAGAGGCGGCGGATCGATTGAAGAGCTTTGGAGTTTTAATGAAGAAATAGTGGCGAAAGCTATTTTTCATTCTAACATTCCTATCATTTCTGCGGTTGGGCACGAGACGGATACGACAATAAGTGATTTTGTAGCTGATTTACGAGCCCCAACCCCTACGGCTGCTGCAGAAATTGCTGTACCGTCGAGTCAAGATCTTAAAGATAAGATTGCTACACTAAAACGCATGGCGACGAAAGATATGCAAGAAAAATGGAAACAACAGCAAAAACACCTTTTTAGACTTAAACAGTCATATGCTTTTCGCTACCCTTATCAGTTGCTGAAACAAAAAGAACAAGAATTAGATGGGAAAATAGAGCAATTACAAAAAGCGATGTTACATACGAAGGAAGCAAGTAATAAGTCCTACGAGCACTTATGGGCTCGGTTCACCGTTCAACATCCTGGAAAACAAGTAGAAAGAGGAAAACAACAGCTTCAACAATTAGTGAAACAACAATATATGGTGATGAAACAACTACATACAGACAAGGTAAAAAAACTTCATAATGAAATGGATAAATTAAGCTTGCTTAATCCATTAGCAATAATGAAGAGGGGATTTTCTATTCCTTATACAAGTGCAGGACAGATTATTAAGTCTGTGCATGCTGTTGAACGGGAGGATGCGATTTCTTTACGTTTAGCAGATGGACTTTTAAAGTGTAAAGTTATAGAAACAAAGGAGGAGAGTCAAAATGACTGA MKDNYLTVTALTRYIKRKMDVDPHLRQVWLRGEISNFKHHSRGHMYLTIKDDRSRIQAVMFAGNNRSLKFQPENGMNVLIKGEISVFEAYGQYQLYIQQMEPDGIGALYVAFEQLKEKLEKQGYFDHYVKKNIPPLPKNIGIITSPTGAAVRDIITTIKRRYPIVELTVIPALVQGEAAARSIKQAIEIANQKGDFDLLIVGRGGGSIEELWSFNEEIVAKAIFHSNIPIISAVGHETDTTISDFVADLRAPTPTAAAEIAVPSSQDLKDKIATLKRMATKDMQEKWKQQQKHLFRLKQSYAFRYPYQLLKQKEQELDGKIEQLQKAMLHTKEASNKSYEHLWARFTVQHPGKQVERGKQQLQQLVKQQYMVMKQLHTDKVKKLHNEMDKLSLLNPLAIMKRGFSIPYTSAGQIIKSVHAVEREDAISLRLADGLLKCKVIETKEESQND NA NA NA NA NA AK015_02875 861 folD COG0190 Bifunctional protein FolD protein TTGTCTGCAGAAATTATTAACGGGAAAAATTTGTCATTAGCTTTAAAGGAAGAAATGAAAAAGGAAGTAGATGCGTTGAAGATAGATGGTATTCATCCTCAACTCACTGTTATCCTTGTTGGAGATCACCCTGCATCTAGATCCTATGTGAATGGAAAGGAAAAAGCTTGTGGTGAAACGGGAATAGGCTCACATATTATTGAATTACCAAAAACAGTTAGCGAATCAGATCTTTTGAAGGAAATACATAGGCTAAACGATGATGCAAATGTACATGGGATACTTGTTCAGTTACCATTACCGTTTCATATCAATGAACAAAAGGTGATTGAAACTATATCTCCTGAAAAAGATGTAGATGGCTTTCATCCAATTAACATTGGTAGAATGATGACAGGAATGGATACATATTTGTCATGTACACCATACGGAATTATAACGATGCTTCGCTCAAAAAATATTTCTATAGCAGGAAAACACGCGGTTGTTATAGGAAGGAGTAATATTGTTGGAAAGCCAGTGGCACAACTGTTGATAAACGAAAACGCCACAGTAACTACTTGTCATTCTAAAACAGAAAACCTGAAGCAATTTACACGAATCGCTGATATCCTTGTTGTTGCTGTAGGAAAAGCGAATATTATTGATGCTAGTTATGTTAAAGAAGGGGCTACCGTGATTGATGTAGGGATGAATCGTTTAGAGAACGGAAAATTAACCGGTGATGTAGATTTTGACTCTGTACAAGAAAAGGCATCATTTATAACTCCTGTTCCTCGTGGAGTAGGTCCTATGACGATCACTATGCTTTTAAAGAACACGATTAAAGCAGCAAGAAGGTTGGAGAACCGTGAAGGATAA MSAEIINGKNLSLALKEEMKKEVDALKIDGIHPQLTVILVGDHPASRSYVNGKEKACGETGIGSHIIELPKTVSESDLLKEIHRLNDDANVHGILVQLPLPFHINEQKVIETISPEKDVDGFHPINIGRMMTGMDTYLSCTPYGIITMLRSKNISIAGKHAVVIGRSNIVGKPVAQLLINENATVTTCHSKTENLKQFTRIADILVVAVGKANIIDASYVKEGATVIDVGMNRLENGKLTGDVDFDSVQEKASFITPVPRGVGPMTITMLLKNTIKAARRLENREG PGPT0008075_3105 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491 NA NA AK015_02876 381 nusB COG0781 Transcription antitermination protein NusB ATGAATAGACATGAAGCTAGAAAGAAGGCATTGCAAATCATATTTTCTATTGACATTCATGAAATGCAATCCATTCATGAAATGGAACATTTGGATGAACAAGTAAGAAAGGATGCCTTTTTAAATCTACTTGTAAACGGAGTAATAAACTATAAGGTAGAAATCGATCAAATCATTAGTGAGAAACTAGAGAATTGGAGCTTAGAAAGGATTGCGTCTGTTGAAAAAGCAATTTTGCGGATTGCAGTTTTTGAAATACGCTACGTAGAAGATATTCCTGTAAGTGTTTCTATTAATGAAGCCATTGAGTTAGCAAATACGTTTGGAGATGAAAAATCTGGTAAATTTATTAATGGTGTATTATCACGCATTAGTGATTAA MNRHEARKKALQIIFSIDIHEMQSIHEMEHLDEQVRKDAFLNLLVNGVINYKVEIDQIISEKLENWSLERIASVEKAILRIAVFEIRYVEDIPVSVSINEAIELANTFGDEKSGKFINGVLSRISD NA NA NA NA NA AK015_02877 399 putative protein ATGAGTGAACAACCGTTATTAAACGTAAGTGATGACAGTTTAGGTAAGGTCGAGATTGCGCCAGAAGTCATTGAAGTTATTACTGGTTTAGCTGCTTCAGAAATAGACGGACTTTACGCAATGCGAGGAAATTTTGCCTCTGGCGTAGCTGAGCGGTTTGGTAAAAAGGCGCATAGTAAAGGGGTAAAAGTAGAATTAACAGAGAACGGAATTGTCATTGATCTGTATGTCATTTTACAATTTGGTGTATCTATTCCACATGTGGCACAGTTGTTACAAACAAATATTAGACAAACTTTGAAAAATATGACTGCGTTAGAAATTGATGAAATCAATGTTCACGTTGTTGGCATTCAAATGGATTATCCAGAAGAAGCAACAGAAAAAACGAACAGTTAA MSEQPLLNVSDDSLGKVEIAPEVIEVITGLAASEIDGLYAMRGNFASGVAERFGKKAHSKGVKVELTENGIVIDLYVILQFGVSIPHVAQLLQTNIRQTLKNMTALEIDEINVHVVGIQMDYPEEATEKTNS NA NA NA NA NA AK015_02878 1362 cfiB COG0439 2-oxoglutarate carboxylase small subunit GTGATAAAAAAACTGCTGATCGCAAATAGAGGGGAAATTGCTGTTCGAATTATTCGAGCTTGTAAAGAGATGGGTATTGAAACAGTAGCTGTATTCTCCCAGGCTGATAGTGAAGCTCTTCATGTGCAAATGGCTGATGAAGCTTATTGTATTGGGCCAACTCAAAGCAAGGATAGCTACTTAAATTTTACCAATATCATGAGTATAGCAACGCTGACAGGTGTAGATGCTATTCATCCAGGCTATGGCTTTTTAGCAGAGAATGCCGATTTCGCTGAAATATGCCGTGCATGTAATATTACTTTTGTTGGTCCTACGCCTGAGGCCATTCAAAAAATGGGAATAAAAGACGTAGCTAGGCAAACAATGGAAGCCGCTAATGTTCCTATTGTTCCAGGTTCAGATGGAATCATTCATGATGTAGAAGAAGCAAAAGAAATTGCTAATCAGATCGGTTATCCAATCATCATTAAAGCAACTGCTGGCGGTGGCGGGAAAGGAATACGAGTAGCGCGAACCGAGGAAGAATTAACGAAAGGGGTAGAGATAACTCAAAAAGAAGCAGAGACTTCTTTTGGTAATGCGGGTGTTTATCTCGAAAAGTATATTGAGGATTTCCGACATGTGGAAATCCAAGTTTTAGCTGATAAACATGGGAATGTTATCCATCTTGGTGAACGAGATTGTTCCATTCAACGTAGGTTGCAAAAACTTGTAGAAGAAGCGCCATCTCCAGCAATCACTCCAGAAATCCGGGAAAAAATGGGAGAAGCTTCCGTCAAAGCTGCAAAAGCTGTAGGCTATGAAGGCGCTGGAACTATTGAATATATTTTTGATCGTAAAACACATCAATTTTATTTCATGGAGATGAATACACGTATACAAGTCGAGCACCCTGTGACAGAATTAATTACTGGTATTGATTTAATAAAAGAACAGATCAAGATTGCTGATAACGAAGTATTAGCATATTCTCAGTCTGACATTTCTTTTAACGGATGGGCTATAGAATGTCGTATTAATGCTGAAAATCCCTTTAAGAATTTTATGCCTTCAGCTGGAAAGGTTGATATGTATTTGCCACCTGGAGGTCTAGGGGTCCGAGTAGATGCTGCTGTTTACCCAGAGTATCGAATACCTCCTTATTATGATTCAATGATTGCGAAACTGATAACGTACGGTAAAACTAGAGAAGAAGCAATTCATCGAATGAAAAGAGCTTTGGATGAGTTTATTGTTGAAGGCGTGCATACGACAATACCATTTCACCATAAAATTATGGAGCATCCCGTTTTTATAAATGGTGACTTTAATACAAAATTTCTTGAAGAAAACCCTATAACGCAAGACGAAGATGAATAA MIKKLLIANRGEIAVRIIRACKEMGIETVAVFSQADSEALHVQMADEAYCIGPTQSKDSYLNFTNIMSIATLTGVDAIHPGYGFLAENADFAEICRACNITFVGPTPEAIQKMGIKDVARQTMEAANVPIVPGSDGIIHDVEEAKEIANQIGYPIIIKATAGGGGKGIRVARTEEELTKGVEITQKEAETSFGNAGVYLEKYIEDFRHVEIQVLADKHGNVIHLGERDCSIQRRLQKLVEEAPSPAITPEIREKMGEASVKAAKAVGYEGAGTIEYIFDRKTHQFYFMEMNTRIQVEHPVTELITGIDLIKEQIKIADNEVLAYSQSDISFNGWAIECRINAENPFKNFMPSAGKVDMYLPPGGLGVRVDAAVYPEYRIPPYYDSMIAKLITYGKTREEAIHRMKRALDEFIVEGVHTTIPFHHKIMEHPVFINGDFNTKFLEENPITQDEDE PGPT0001705_1610 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 AK015_02879 486 accB COG0511 Biotin carboxyl carrier protein of acetyl-CoA carboxylase ATGTTAAATGTACAAGAAATCCAGGAATTAATAAGGTTAATTGATCAAACGTCTATTGAAGAATTTAAGTATGAAACAAGCGGAGCTTCTATTTCATTAAAAAAATCTTCTACAACTGGACAAGTACAACCTAAAAATATACCTGAAAAAAATGTATCTGAAACAGTAGCACAGATAGAATCAGAAAAAGCGAGTGCAGAAAATACACAAGATGCATCTTCCCAAAAAGAAAGCACAGTAGATTATGATCATGAAATTGTTTCACCTATGGTAGGAACATTTTATGCAGCTCCATCCCCAGAGAGAGAAAACTTTGTTTCAATAGGTAGTAAAGTTGATAAGTCAAGCGTTGTTTGTATTGTTGAAGCAATGAAATTATTTAATGAAATTGAAGCAGAAGTTGAAGGTGAGATTGTCGAAATATTAGTAGAAAATGGTGAGTTGGTAGAATATGGTCAGCCGCTATTTCGAGTTAGTACAAAGTAA MLNVQEIQELIRLIDQTSIEEFKYETSGASISLKKSSTTGQVQPKNIPEKNVSETVAQIESEKASAENTQDASSQKESTVDYDHEIVSPMVGTFYAAPSPERENFVSIGSKVDKSSVVCIVEAMKLFNEIEAEVEGEIVEILVENGELVEYGQPLFRVSTK PGPT0001700_1363 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 AK015_02880 582 spoIIIAH Stage III sporulation protein AH ATGTTAAAAAAACAAACAGTGTGGCTATTAACTATGTTAAGTTTAATGATTTTATTAAGCGTCTATTATATGACTTCACCTGATAGTGAAGATTTAGCTTATATCAATGATGGACAAGAAAATGCGCAGGAAGAAAAAGCGGTTACTACTGATTCAGAAGCCAATGATGATGCCGAAGTAGAGGAGATTTCTAATGTAGGGCAAGATGAATTGTTTACGACAATTCGTATGGAGTTACAAGATAAACGTAACATGGAAAAAGAGAGATTAACCGACATCGTTGCTTCAAGCTCCGCTAGTTCTGCTGAAAAAGATGAAGCTTTACAAGAAATTGATGCAATTGAAGACTTGGCATCAAAAGAAAAGATTTTGGAAGAAACCATTGTAGCTTCTGCCAACTACAAAGATGTACTTGTTCGATCTGAAGATGATAGTGTAACCGTACAAGTGAAGGTTGAAGAAAATCTTCCAAAATCAGAAGCTGTTTCCATTATTCAAATGGTCAAAGATGAATTAGGAGATAAAAAAGTAAATGTATCGTTTTTGCCTTCTCAAGGAGAAACGGAAAAAGATACAGAATAG MLKKQTVWLLTMLSLMILLSVYYMTSPDSEDLAYINDGQENAQEEKAVTTDSEANDDAEVEEISNVGQDELFTTIRMELQDKRNMEKERLTDIVASSSASSAEKDEALQEIDAIEDLASKEKILEETIVASANYKDVLVRSEDDSVTVQVKVEENLPKSEAVSIIQMVKDELGDKKVNVSFLPSQGETEKDTE PGPT0024755_200 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024755-spoIIIAH-K06397 NA NA AK015_02881 630 hypothetical protein TTGATAGAGAAATTAAAAGAATTTTTTCAAAAAGACGGAAAAAAACCACCTAAAAAATTGAGCTACATGATCATTTTAGCCTTAGTCAGTGTAATGTTGTTAATTATTGGTAATATCTTTTCAACTTCATCAGAAACAGATATGGAAGAGCCGATCCAACAGCCAACGGAACAGGCAAGTGAACCGAATTCAAAAGAAACAGCATCTCCAAAGGAGGCAACAACGTCAAATATCGAAGAGCTGGAATCTGTTTATACAAAGGACTTACAAACATTGATAAATAAAATCCAAGGCGTTAGTGAAGCTGAAGTCATGGTCAATTTGGAATCTACAAGTATTAAAGTATATGAGAAAAACTTAATTAAAGGGCAACAGACTACAGAGGAAACGGATACGAATGGGGGAACGCGAGAAATTGAAGATGGAACGGAAGAAACACAAACAGTGTTAGTAAGGCAAGGTGAAAAGGAAGTCCCTTTACTCATTCAAACGAAAAAGCCGGAAGTTAGAGGTGTATTTGTTGTAGCTAAGGGAGCTGATCATGCCACAGTAAAAAAATGGATTGTTGAAGCTGTTTCCCGTGTCTTAGATGTGCCAACCCATCGAGTGTCTGTAATGCCAAAGAATTAG MIEKLKEFFQKDGKKPPKKLSYMIILALVSVMLLIIGNIFSTSSETDMEEPIQQPTEQASEPNSKETASPKEATTSNIEELESVYTKDLQTLINKIQGVSEAEVMVNLESTSIKVYEKNLIKGQQTTEETDTNGGTREIEDGTEETQTVLVRQGEKEVPLLIQTKKPEVRGVFVVAKGADHATVKKWIVEAVSRVLDVPTHRVSVMPKN PGPT0024750_198 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024750-spoIIIAG-K06396 NA NA AK015_02882 621 spoIIIAF Stage III sporulation protein AF TTGCAAATAGTTATTGACTGGGTCACACAAATTATTCTATTTATCTTGTTAGCTACGGTCATTGATTTAGTTATTCCAGCTAATTCCATGAAAAAATACATGAAGCTCGTTGTCGGACTTATCCTTATATTAATTTTGTTAAAGCCTATATTTTATATTTTTCAAATCGACGTCCAACGTGCAGTGGAAAGCTCTCTATCAGGTGTTTTTGAAGAAATGAATCAAAACAATTCTCTAGATAATTCCATTAAAACACAAAAAAATGAAATAGAAGCTACACAAGATGCATATATTTTAGAACAAATGGCTGTCCAATTAAAAGAAATAGCAGAAGATCCACTTCATGAAGCGTTTCAAACAGAAATTACAGATATCCAATTTCAGTTTGTAAATGGGAAAGATAAGACATATGAAAATTTGGACAAAGTCATTGTGTATGTGAATGAATTAAAAAATGGGGAGGGAGCAGTGCGAAACGTTGATGATGTAGTAATTTATTCAGACAGCCCAGATGTATCTAAAGAAAATAACGAATTGAAGGACATAGAAAATAAGCTATCCGATCTATGGGAAATGGAGCAAAAAAATCTAATTTTACAATGGGAGGGAGGGGCACCTTGA MQIVIDWVTQIILFILLATVIDLVIPANSMKKYMKLVVGLILILILLKPIFYIFQIDVQRAVESSLSGVFEEMNQNNSLDNSIKTQKNEIEATQDAYILEQMAVQLKEIAEDPLHEAFQTEITDIQFQFVNGKDKTYENLDKVIVYVNELKNGEGAVRNVDDVVIYSDSPDVSKENNELKDIENKLSDLWEMEQKNLILQWEGGAP PGPT0024745_192 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024745-spoIIIAF-K06395 NA NA AK015_02883 1185 spoIIIAE Stage III sporulation protein AE ATGAATGGTAAACAAATAGGGATCATTCTTATATGTACTTTTGTTATTTGCCTTCTGGGTTATGAAAAAGCTATAGCAGAAACGACATCTAATGAATCAGATACTGTACAAAATAACATGCTAGAAGAAATTTCTTTGGAGGGGGTACAAGCATACTGGGGTAAATTAGTAAATGAATATGGTGGATATTTACCAGAACTCGAAAAAACAAGTGTATATGAATTTATTAAAAATCAAGATTCTTTGTCACCTCAATCTATCATTATTGGTATTTTAGAATTCTTATTTCATGAACTGATTTTAAATGGGAAGTTATTAGGCTCTCTTTTAATGTTAACTTTATTTTCGGCAATGCTACAGACGATGCACAATGCGTTTGAGACAAGTACCGTAAGTAAAGTCGCTTACTTTGTTGTATATATCGTGCTCATTTTTTTGGCATTAAATAGCTTCTATTCAGCGGTGACCTACACCAAAGATGCGATTGACGCGATGAGTAGTTTTATGATTGCTCTCTTACCTTTAGTCTTAGGGTTAATGGCTTCATTTGGGAATATTGTGGCGGTTTCTTTTTTTCATCCGATTATTATCTTTCTTATTCATGCAGGTGGTCTCATCGTTGCTAATTTTATTTTGCCGCTCTTGTTTTTATCGGCTTTGTTAGTGATAGTCAGTAGCTTAACAGAGCACTATAAGGTAACGCATTTAGCGAATCTATTTAAATCCATTGCAGTTGGCACCTTAGGTGTATTCTTTACCATTTTTCTAAGCATCATGTCAGTACAAGGAACAGCAAGTGCCATTCAAGATGGGGTAGTGATGAAAACAACAAAATTTATAACCGGAAACTTTATACCAGTTGTGGGTCGTACGATGACAGATGCCGCAGATACGATATTAAGCGCATCCCTATTGTTAAAAAACGCAATTGGAATTGTAGGGTTAATTATTATACTGTTTATCGCTTTGTTTCCGGCATTAAAAATCTTTGCAATTGCAGTAATTTATAAAGTTGCTGCCGCAATCTTACAGCCGATTGCGGATGGGCCAGTTATTACTACATTGAATACAATTAGTAAATATATTGTTTTTATTCTTGCGTGTTTATTAGCAGTATCATTTATGTTTTTTTTGGCAATTGTCATCATTATTGCAGCTAGTAATGTAACTTTGCTCTTAAGATAG MNGKQIGIILICTFVICLLGYEKAIAETTSNESDTVQNNMLEEISLEGVQAYWGKLVNEYGGYLPELEKTSVYEFIKNQDSLSPQSIIIGILEFLFHELILNGKLLGSLLMLTLFSAMLQTMHNAFETSTVSKVAYFVVYIVLIFLALNSFYSAVTYTKDAIDAMSSFMIALLPLVLGLMASFGNIVAVSFFHPIIIFLIHAGGLIVANFILPLLFLSALLVIVSSLTEHYKVTHLANLFKSIAVGTLGVFFTIFLSIMSVQGTASAIQDGVVMKTTKFITGNFIPVVGRTMTDAADTILSASLLLKNAIGIVGLIIILFIALFPALKIFAIAVIYKVAAAILQPIADGPVITTLNTISKYIVFILACLLAVSFMFFLAIVIIIAASNVTLLLR PGPT0024740_211 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024740-spoIIIAE-K06394 NA NA AK015_02884 393 hypothetical protein ATGGATATTTTACAAATTGTAACATTGGGTCTAGTAGCTAGCTTGCTTTATATCATTTTAAAAAATGTTAATCAGACATTTGCATTTTTTGTTGTATTACTTACAGGGGTAGTTATTTTCCTGTCCATCATACAACAAATCAATCATATATTTCAGTTGATTCAAGCATTAGGTGCAAAAGCACAAGTAGATGGGATGTATTTGGAAACCATTTTAAAAATAATTGGCATCGCTTATATTGCTGAATTGGGAGCGAATATTACAAAAGATGCAGGACTAACTTCCGTAGCCAATAAAATTGAACTTGCAGGAAAATTATTTATTTTGTTATTGGCTATACCAATAATCACTGCAGTAATAGAAGCGATTTTACAATTTATACCAACTGTATGA MDILQIVTLGLVASLLYIILKNVNQTFAFFVVLLTGVVIFLSIIQQINHIFQLIQALGAKAQVDGMYLETILKIIGIAYIAELGANITKDAGLTSVANKIELAGKLFILLLAIPIITAVIEAILQFIPTV PGPT0024735_52 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024735-spoIIIAD-K06393 NA NA AK015_02885 207 hypothetical protein ATGTTTACAGACGCGACGATTTTATTTCAAATTGCTGGAATTGGCATTATTGTTGCTTTAATCCACACCATTTTAAAGCAGATGGGTAAGGAAGAAATCGCCCAGTTTGCCACATTAATTGGCTTTATTATTGTTCTTGTATTAGTCATTGATGGACTATCAGATCTCTTTCAGCAGATTAAATCTGTTTTTCTTTATCAAGGGTAG MFTDATILFQIAGIGIIVALIHTILKQMGKEEIAQFATLIGFIIVLVLVIDGLSDLFQQIKSVFLYQG PGPT0024730_44 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024730-spoIIIAC-K06392 NA NA AK015_02886 513 spoIIIAB Stage III sporulation protein AB ATGATGTGGGTAGGAGCGATGTTATTTATTGCTACAACAACGTGGATTGGGTTTGAATGGAGTAATCGACTCGCTAATCGTCCTAAGCATATAAGGCAGGTGAAAAATGCCTTACAAATACTTGAGGCTGAAATGATGTATAGCCATTTACCACTTCAAGATGCTTTTTACACAATCCAAAAGCAGACACCATTTCCAATCCACGCATTTTTTGACCGCTTGTATAAAAACATGAACTATGAGAGTAAAGATTTTCAAGTTGTCTGGGAGAATAGTTTAGAAACATTTATGGATATATCGTGTCTTGGAAAAAACGAGAAAGAAATATTGCTTCAATTTGGACAAACACTTGGAAAACATGATTTTCTCCAACAGCAAAAGCATATTCAGCTGGCAGCCAGTCATTTGGAAAGGGAGCTGGAAGCCGCTAATGAACAGTATCAAAGATACGGGAAAATGACAAAAAGTTTAGGTATATTATGTGGTGTGTTTATCGTATTGTTGCTTTTATAG MMWVGAMLFIATTTWIGFEWSNRLANRPKHIRQVKNALQILEAEMMYSHLPLQDAFYTIQKQTPFPIHAFFDRLYKNMNYESKDFQVVWENSLETFMDISCLGKNEKEILLQFGQTLGKHDFLQQQKHIQLAASHLERELEAANEQYQRYGKMTKSLGILCGVFIVLLLL PGPT0024725_290 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024725-spoIIIAB-K06391 NA NA AK015_02887 930 hypothetical protein ATGATTGAAATAAGCAGACTTTTTCCTGAACGATTACAAAAAGAGATAGAATGCGCACTTACGAATAGATGGGAAACATTGCAAGAAATTAGACTAAGGTTACAGCAACCAATTGAACTTATTTTTAATCATTCCTATGAGCACCTTTCTTCTCTAGTTCCGGACAAGCGTGATTTTGTGCATATTATTCAGCAGTTAAGTGACTACTCTTTATATCGAATGGAAGAAGAATTACGAGAAGGATATATGACTATTGAAGGAGGACATCGAGTAGGTCTGGCAGGGAGAGTAAACACTTTAAACGGATCTGTAAAGGCGATCCAGTATATTACGTTTTTAAATATTCGAATTGCTAAACAAAAGCTTGGGGCTGCTAATAAACTCATGCCGCACCTATATCATAATGGGTATATGAATACGTTAATTATTGGTGCCCCACAAACTGGAAAAACTACGCTTATTCGCGATATAACAAGGATCATCTCCAGTGGATGGAAGCATATTTCACCATCCAAAGTTGGAGTTATCGATGAACGTTCCGAAATTGCTGCTTCTATTAAAGGAATACCGCAACACAATTTAGGATTGCGAACAGATGTAATGGATGCTTGTCCAAAAGCAGAAGGAATGATGATGATGATTCGATCTATGTCACCTGAAGTTTTAATTGTCGACGAAATTGGTGGTAAAAAAGATGTTGAGGCATTGTTAGAAGCACTTCATGCAGGTGTTGTTGTGATATGTTCCGTACATGGCTACTCATTAGAAGAATTGAAACGTCGCCCTGGCGTGCAAGCATTACTTGAGAAAGGAATTTTTAACCGCTTTGTTCTTCTTCATCAAAAGTCTCCGTTGCATTACACATATACAATTTTTGATTCGAATCATAGGAATTTATCGTATGCAAAAATGGAGGGGTACGCAACATGA MIEISRLFPERLQKEIECALTNRWETLQEIRLRLQQPIELIFNHSYEHLSSLVPDKRDFVHIIQQLSDYSLYRMEEELREGYMTIEGGHRVGLAGRVNTLNGSVKAIQYITFLNIRIAKQKLGAANKLMPHLYHNGYMNTLIIGAPQTGKTTLIRDITRIISSGWKHISPSKVGVIDERSEIAASIKGIPQHNLGLRTDVMDACPKAEGMMMMIRSMSPEVLIVDEIGGKKDVEALLEALHAGVVVICSVHGYSLEELKRRPGVQALLEKGIFNRFVLLHQKSPLHYTYTIFDSNHRNLSYAKMEGYAT PGPT0024720_249 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_III_SPORULATION,PGPT0024720-spoIIIAA-K06390 NA NA AK015_02888 558 efp Elongation factor P ATGATTTCAGTGAACGATTTTAAAACAGGATTAACAATAGAAGTAGACAATGGTGTTTGGCAAGTAATGGAATTTCAACATGTAAAGCCTGGTAAAGGAGCTGCCTTTGTTCGTTCTAAACTTCGAAACCTGCGTAATGGTAATATACAAGAAAGAACATTTCGGGCAGGAGAAAAAGTAAGTAAAGCGCATATTGAAACGAAGAAGATGCAATACTTATATGCTTCTGGTGATGCGCATGCTTTTATGGATACGAATACGTATGAACAGATAGAGCTTTCCAGCAGCCAAATTGAACATGAATTAAAATTTATGAAAGAAAATATGGAAGTTTCTATTGTAACTTATGAGGGTGAAGTACTAGGTGTGCAGCTTCCAAATAACGTGGAATTAGAAGTTGTGGAAACAGAACCAGGTATTAAAGGTGATACAGCAAGTGGGGGCTCAAAGCCAGCTACTTTAGAAACAGGACATACAGTACAAGTACCTTTCTTTATTAATCAAGGAGACGTATTGGTTATTAATACATCAGACGGAAAATATGTATCAAGAGCGTAA MISVNDFKTGLTIEVDNGVWQVMEFQHVKPGKGAAFVRSKLRNLRNGNIQERTFRAGEKVSKAHIETKKMQYLYASGDAHAFMDTNTYEQIELSSSQIEHELKFMKENMEVSIVTYEGEVLGVQLPNNVELEVVETEPGIKGDTASGGSKPATLETGHTVQVPFFINQGDVLVINTSDGKYVSRA PGPT0016205_3944 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS OTHER_MOTILITY_REGULATING_FUNCTIONS MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356 NA NA AK015_02889 1062 ypdF COG0006 Aminopeptidase YpdF ATGAGTAAGCTTACCAAATTAAGACAGGCGCTAGAAGCGAAAGAATTAGATGGCATCTTGATTTCGAGTGGAATAAACCGTCGCTACATGACTGGTTTTACTGGTACTGCGGGTGTTGCTTTAGTTAGCTTAACAGATGCTCGGTTTATTACTGATTTTCGTTATACAAATCAAGCAAATGAACAAATCGCTGATTTTACAGTAGTGGAACATAAGCAGGGATTAAAAGAAGAAATAAAACATCAGCTAAAAAGTATGGGCATAAAAAAACTGGGTTTTGAACAAGATCATGTTACATATAGTGAGTACACAACGTTTAAGGACACATTTGAAGTGGAACTAACCCCTGTAAATAATATGGTTGAATCTTTACGCCTCTTTAAAACAAACGATGAATTAGGCATCATGAAAAAAGCTGCTAAAATAGCAGATGATGCATTTGACCATATTCAATCTTATATTAAGCCTGGAGTAAGAGAAATAGATATTTCTAATGAATTGGAGTTTTTTATGCGTAAGCAAGGTGCGACTTCATCAAGCTTCGATATTATCGTAGCTTCTGGATATCGTTCTGCCTTACCACATGGTGTTGCCTCGGATAAAAAAATCCAATCTGGCGAACTAGTGACAATGGATTATGGTGCATTATATCAAGGCTATTGTTCTGATATTACTCGTACAGTAGCAGTAGGGGAAATTAATGACCAATTACATTCCATTTACCATATTGTATTAGAGGCTCAATTACGTGGAGTAACCGCTATTAAACCTGGGGTTACTGGTAAAGAAGCAGATGCAGCAACGAGGGATTATATAAAAGAAAACGGATATGGAGAATTTTTCGGTCATTCAACTGGACATGGACTAGGTATGGAAGTTCATGAAGCTCCTTCGTTGTCATTTAAATCTGAAAAGCCCTTAGAAAAGGGGATGGTTGTTACTGTAGAACCAGGTATATACATCCCAGAAGTCGGTGGATGCCGCATTGAAGATGATGTAGTCTTAACTGAAACAGGAAATGAACGACTAACTTTGGCACCAAAAGAATTAATTCAGTTATAA MSKLTKLRQALEAKELDGILISSGINRRYMTGFTGTAGVALVSLTDARFITDFRYTNQANEQIADFTVVEHKQGLKEEIKHQLKSMGIKKLGFEQDHVTYSEYTTFKDTFEVELTPVNNMVESLRLFKTNDELGIMKKAAKIADDAFDHIQSYIKPGVREIDISNELEFFMRKQGATSSSFDIIVASGYRSALPHGVASDKKIQSGELVTMDYGALYQGYCSDITRTVAVGEINDQLHSIYHIVLEAQLRGVTAIKPGVTGKEADAATRDYIKENGYGEFFGHSTGHGLGMEVHEAPSLSFKSEKPLEKGMVVTVEPGIYIPEVGGCRIEDDVVLTETGNERLTLAPKELIQL PGPT0006770_6876 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 AK015_02890 528 hypothetical protein TTGAATAAACAAGATAAACATTTAGAGCAAAATAAACATGAAACGCCAATGACTATATTGTCTAGGTCCTTGTTAACAGGCTTTATTGGAGGTTTAATTTGGAGTACGTTTGCGACAATATTATATTACTTTAACTTTTCTAAAATAGTTCCAAAATCATTTATATTGAGCTCATGGCTACAAGTGGAATGGATTGACACATGGCTGGGCACGCTCATGACTATTTTCGCAATAGGCGTCATTTCAATAGCAGTAGCGTTCGTTTATTATTTATTGTTTCGAAAAGTGAATTCGCTTTGGATGGGAGTGACATTTGGGGGGGTACTATGGGGAGTTATTTTTATCATCATGAACCCCATATTTTCAAGCGTACCATCTGTACAAAAATTGAATCTAGACACTATCGTCTCCACTCTTTGTGTCTATGTGCTTTATGGAACATTTATTGGCTATTCCATATCCTATGATTATCAAGATCTGCAACGTGCTAAAGATGACACAACGCAAACAGAAATGACGCAGAAATAG MNKQDKHLEQNKHETPMTILSRSLLTGFIGGLIWSTFATILYYFNFSKIVPKSFILSSWLQVEWIDTWLGTLMTIFAIGVISIAVAFVYYLLFRKVNSLWMGVTFGGVLWGVIFIIMNPIFSSVPSVQKLNLDTIVSTLCVYVLYGTFIGYSISYDYQDLQRAKDDTTQTEMTQK NA NA NA NA NA AK015_02891 381 hypothetical protein ATGAAGCGAAAATCTATTTCCATTGCTGTGTATATGATTATCGGTTTAGCTACTATTGGACTATTAACACAACTATTTACAAAACCTGCGAACTTGATCAATAACATGTTCATTTCCATCGGATTTGGGGTCGTTCTATTTGCGATTATCTATTTTGTGTTTATTCGAAAAAAGAGCTCTTCGAATGAAATGAAGAAATATAAACAAGCTGTCAAGCAGTCTAAAGCAAAATACCACCAACAGAAACCAGCTTACAAAGCAAACGCTACAAAGCAACAACCGACCAGCCCTACACTCCGAAAGAAAAAACATAAGCGGGCAGCTCATTTACGAGTTATTGAAGGTAACAAACATAAAAGGAAAGATCGTGCGTCTTTTTAA MKRKSISIAVYMIIGLATIGLLTQLFTKPANLINNMFISIGFGVVLFAIIYFVFIRKKSSSNEMKKYKQAVKQSKAKYHQQKPAYKANATKQQPTSPTLRKKKHKRAAHLRVIEGNKHKRKDRASF NA NA NA NA NA AK015_02892 894 hypothetical protein ATGCAAATAGATGGTGTTTTTTCTGGTGGTGGAGTGAAGGCTTACGCTTTTATTGGTGCAGTGAAGAAAATTGAAGAAAAAGGTCTTACGATGGAGCGTGTTGCAGGTACTTCAGCGGGAGCGATCATTGCTTCTTTATTAGTGGCAGAGTACAAGCATAAAGAGATAGAAGCTTTTATGGAAGAGTTGGATTTAAATGATTTCTTAGACCCCCCAAAATTGGCTAAATGGCTTCCTTTTACAAAATGGTTGCTTTTATATTTTCAATTAGGAATTAATAAAGGAAATAAATTAGAAAAATGGATCGCAGAAAAATTAGCAGCAAAGCAAATTTGTACATTTCAAGATATTAAAGCCGGTTATTTAAAAGTCGTTGTTAGCGATATATCTTTAGGTAAGCTTGTTGTTATCCCTGATGATTTAGAAAGAATATATGGTATACCTCCAGAGGAATTTCCTGTAGCTAAAGCTATTCGAATGAGTGCAGGCTTTCCATATTTTTTCATGCCCCAGAAATTGAAAGGCAGTAAACAAGAGAAAAGCTTGATTATTGATGGAGGTCTTTTAAGTAATTTTCCCCTTTGGATATTTGAAAAAAACCCTCATAAACGAACACGCCCAATTATCGGTGTCAAATTAACTACTACCTCAACCCAAGAATTAAAACCTCGTAAAATAAAAAATGCATTACACATGTTTCATGCTTTGTTTCTTACAATGAAAGAAGCACATGATGCGCGATATATTTCTACATCGGAAGCAAAAAACATTGTTTTTATTTCTGTGGAAAATATTGAAAGTACTGATTTTTATATTAATAAAGCCACCAAAGAATCACTTATTCAAGCGGGGTATGCGTATACAGAAAAGTTTCTTGACCGTTGGCCTAAGTAG MQIDGVFSGGGVKAYAFIGAVKKIEEKGLTMERVAGTSAGAIIASLLVAEYKHKEIEAFMEELDLNDFLDPPKLAKWLPFTKWLLLYFQLGINKGNKLEKWIAEKLAAKQICTFQDIKAGYLKVVVSDISLGKLVVIPDDLERIYGIPPEEFPVAKAIRMSAGFPYFFMPQKLKGSKQEKSLIIDGGLLSNFPLWIFEKNPHKRTRPIIGVKLTTTSTQELKPRKIKNALHMFHALFLTMKEAHDARYISTSEAKNIVFISVENIESTDFYINKATKESLIQAGYAYTEKFLDRWPK NA NA NA NA NA AK015_02893 432 mntR COG1321 HTH-type transcriptional regulator MntR ATGCCTACACCAAGTATGGAAGATTATATAGAGCAGATTTATAACTTAATGGAATCAAAAGGATATGCACGTGTTTCTGATATTGCAGAAGCATTAGAAGTACACCCATCTTCAGTAACGAAAATGGTACAAAAATTAGACCGCGATAATTACTTAAATTATGAGAAATATCGAGGCTTTATTTTAACAACTAAAGGAAAAAAAGTTGGAGAGAGATTGGTTTTCCGTCATGACCTACTAGAAGAATTTTTGCAAATTATAGGAGTAGATCATGAAAATATTTACAATGATGTAGAGGGGATTGAACACCATTTGAGCTGGAATTCCATTGATCGAATTGGTGATGTGGTCAATTATTTTAAAGAAGATAAAGCTCGAGTAGAAGAATTAAAGCGCACGCATCATGAAGCAGAATTGGAAAGCAATTCATAA MPTPSMEDYIEQIYNLMESKGYARVSDIAEALEVHPSSVTKMVQKLDRDNYLNYEKYRGFILTTKGKKVGERLVFRHDLLEEFLQIIGVDHENIYNDVEGIEHHLSWNSIDRIGDVVNYFKEDKARVEELKRTHHEAELESNS NA NA NA NA NA AK015_02894 372 glpE_3 Thiosulfate sulfurtransferase GlpE ATGGAATTTTTAGCAATACTCATCGTTGTTCTTGCAGCCTTTCTTATATTTCGGTTTTTCAGACAACGTATGTATTTAACAACATTAACTGAAGATCAATTTCGTGAAGGTTATCGTAAAGCGCAGTTAATTGATGTACGAGAGCCACAAGAATTTAAACGTGGACATATTCTAGGAGCAAGGAATATACCAGTTACGCAAATGAAACAAAGACTAGTGGAATTGCGTACAGACAAGCCTGTTTACCTGTATTGTCAAGGTGGTTCAAGAGCTGCTAGAGCTGCGCAGCTTTTGCATAAAAAAGGGTATAAAAACATTAACGTGTTAAAAGGCGGTTTTAAAAAATGGTCAGGAAAGATTAAGCAATCTTAA MEFLAILIVVLAAFLIFRFFRQRMYLTTLTEDQFREGYRKAQLIDVREPQEFKRGHILGARNIPVTQMKQRLVELRTDKPVYLYCQGGSRAARAAQLLHKKGYKNINVLKGGFKKWSGKIKQS PGPT0001770_593 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK015_02895 1458 gcvPB putative glycine dehydrogenase (decarboxylating) subunit 2 ATGGCTAATCGAGACTTTCCATTAATTTTTGAACGTAGTAAAACTGGCAGAACAGGGTATAGTTTGCCAGAGTTAGATGTACCTGATATGGATTTAGAAGCAGAATTGCCAAAATCGTATATTCGAACAGAAGCACCAGATCTCCCTGAAATTAGCGAACTCGATTTAATGCGTCATTATACAGCTCTATCGAATAGAAATTATGGTGTAGATTCTGGTTTTTATCCATTAGGATCTTGCACGATGAAGTATAACCCTAAAATCAACGAAGACGTTGCACGGATGGATGGCTTTAGTCATATTCACCCAAATCAACCTGAAAGCAGTGTGCAAGGGGCAATGGAAATGATGTATGACTTGCAAACTGCGTTGTCAGAGATAACTGGAATGGATGAAGTTTCTTTACAATCTGCTGCAGGTGCTCAAGGCGAATGGACCGCTTTAATGATGATTCGTGCTTTCCATGAAGCAAATGGCGATTTCCATCGCACAAAAGTGATTGTTCCTGACTCAGCTCACGGTACGAACCCAGCTTCAGCAACGGTTGCCGGATTTGAATCGGTAACAGTGAAATCTAATGACAAAGGGCTTGTTGATTTAGAAGATTTGAAAAGAGTAGTCGGCCCTGATACTGCTGCATTAATGCTAACAAACCCAAACACATTAGGCTTATTTGAAACAGAAATTGAAGCAATGGCGCAAATTGTTCATGAAGCTGGTGGAAAGTTATACTATGATGGAGCAAATTTAAATGCCATTATGGGTTATGCGCGTCCAGGTGATATGGGATTTGATGCTGTCCACTTAAATCTTCATAAGACATTTACAGGTCCTCATGGTGGCGGAGGCCCAGGATCTGGTCCAGTTGGCGTGACAGAAGAGCTAAAACCATTTTTACCAAAACCAATATTGGAAAAACGAGGAGCAGCTTATCGATTTAATCATGATCTCCCTCAATCAATCGGGCGGGTAAAGCCTTATTACGGTAATTTTGGGATTTATTTACGTGCTTATACGTATATTCGTACAATGGGTGCAGAAGGTTTGAAGAAAGCAAGCGAGTATGCGGTAATAAATGCAAATTACTTAATGAGGCAATTACAAGAAGAGTATGATTTACCGTTCGATCAACATTGTAAGCATGAATTTGTCCTCTCTGGTAGACGCCAGAAAAAACAGGGTGTACGTACATTGGATATTGCTAAACGGTTGTTAGACTATGGCTATCATCCACCTACTATTTACTTCCCTCTAAATGTGGAAGAAGCTTTAATGATGGAGCCAACAGAAACAGAAGCAAAAGAAACGTTAGATGGATTTATTAAGGCAATGAAGCAAATTGCTGCTGAAGTAAGAGACGAACCTGAGTTAGTACAAGAAGCGCCTCATGAAACAATTGTTAAACGGATGGATGAAACAACCGCTGCTAGAAAACCGATTTTACGGTATGAAAAATAG MANRDFPLIFERSKTGRTGYSLPELDVPDMDLEAELPKSYIRTEAPDLPEISELDLMRHYTALSNRNYGVDSGFYPLGSCTMKYNPKINEDVARMDGFSHIHPNQPESSVQGAMEMMYDLQTALSEITGMDEVSLQSAAGAQGEWTALMMIRAFHEANGDFHRTKVIVPDSAHGTNPASATVAGFESVTVKSNDKGLVDLEDLKRVVGPDTAALMLTNPNTLGLFETEIEAMAQIVHEAGGKLYYDGANLNAIMGYARPGDMGFDAVHLNLHKTFTGPHGGGGPGSGPVGVTEELKPFLPKPILEKRGAAYRFNHDLPQSIGRVKPYYGNFGIYLRAYTYIRTMGAEGLKKASEYAVINANYLMRQLQEEYDLPFDQHCKHEFVLSGRRQKKQGVRTLDIAKRLLDYGYHPPTIYFPLNVEEALMMEPTETEAKETLDGFIKAMKQIAAEVRDEPELVQEAPHETIVKRMDETTAARKPILRYEK PGPT0020490_911 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020490-gcvPB-K00283 NA NA AK015_02896 1350 gcvPA putative glycine dehydrogenase (decarboxylating) subunit 1 ATGGAATTTCGCTATTTACCTATGACGGAAGAGGATAAACAAGCCATGTTAGCTAGTATTGGTGTCAAAGACTCAGAGGAGCTTTTTTCCGATATACCAAGCAATGTACGTCTAAATCGACCAATGGATTTAAAAAAACCTGCTAATGAAGTGGATTTGAAAAAAGAATTGGCACAACTAGCAAGTAAAAATGCAAATTTAAAGCAATACACAAGCTTTTTAGGCGCTGGTGTTTATGATCACTTTATTCCATCTGTTGTCGATCATGTTATTTCCAGATCAGAATTTTATACAGCATATACACCCTACCAACCAGAAATTTCGCAGGGGGAGCTACAAGCCATCTTTGAATTTCAAACGATGATTTGTGAACTAACAGGTATGGATGTGGCTAATTCCTCCATGTATGATGGTGGAACTGCTCTGGCGGAAGCTGTTAATTTAAGTGCTGCACAAACAAAGCGTAAAAAGATATTAGTTTCTACTGCTGTACACCCTCAGTATCGTATGGTGATTGAAACGTATGCAAAAGGTCCAAACTTGGAGATCGTCTACATTGATACAAAGGAGGGAAAAACAGACGTAGAACAATTAAAAACAGCGTTGGATGAAGAAACAGCAAGTGTCGTTATGCAGTATCCGAACTTTTTGGGTCAATTAGAACCGATGGAAGAAGTGCAACAGTTGCTTGAAAACCAAAAGAAAACGATGCTTATAACATCAAGTAATCCATTGGCTTTGGGCTATTTAACACCGCCTGCTGCATTCGGTGCAGATATTGTAGTAGGGGATACACAAGTTTTCGGTATTCCTGCGCAATTTGGTGGGCCGCATTGTGGTTATTTTGCAACTACAAAAAAGCTTATGCGAAAAGTTCCGGGTAGACTAGTAGGACAAACTACGGACGAGGATGGCGTTAGAGGGTTCGTTCTTACATTACAGGCAAGAGAGCAGCATATTCGTAGAGATAAGGCTACCTCTAATATTTGTTCCAATCAAGCATTAAATGCGCTTGCGAGTGCAGTTGCGATGAGTTCCATTGGAAAACATGGACTAAAAAAAATGGCAACTTTGAACATGAAAAAAGCACGTTATGCGATGAAAAAACTGGAGGAATCAGGATTTTCAACGGTTAAAAATGGTGCATTTTTCAACGAGTTTATTATTCAATTGGATAAGCCTATTGCAGAAATTAATGAGAAATTACTTACAAAAGGGATCATTGGAGGATATGATCTGGCAAAAGATTATCCTGACATGAACGGACATATGCTTATAGCTGTTACGGAAAACAGAAGTATGGAAGAAATAAATCAATTTGTTAAAGAATTGAGGGATATTCATGGCTAA MEFRYLPMTEEDKQAMLASIGVKDSEELFSDIPSNVRLNRPMDLKKPANEVDLKKELAQLASKNANLKQYTSFLGAGVYDHFIPSVVDHVISRSEFYTAYTPYQPEISQGELQAIFEFQTMICELTGMDVANSSMYDGGTALAEAVNLSAAQTKRKKILVSTAVHPQYRMVIETYAKGPNLEIVYIDTKEGKTDVEQLKTALDEETASVVMQYPNFLGQLEPMEEVQQLLENQKKTMLITSSNPLALGYLTPPAAFGADIVVGDTQVFGIPAQFGGPHCGYFATTKKLMRKVPGRLVGQTTDEDGVRGFVLTLQAREQHIRRDKATSNICSNQALNALASAVAMSSIGKHGLKKMATLNMKKARYAMKKLEESGFSTVKNGAFFNEFIIQLDKPIAEINEKLLTKGIIGGYDLAKDYPDMNGHMLIAVTENRSMEEINQFVKELRDIHG PGPT0020485_530 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020485-gcvPA-K00282 NA NA AK015_02897 1176 gcvT COG0404 Aminomethyltransferase ATGAAAAACAATGAAATCTCTGTTTTTTGTACTATAGAAAGATTTAAGGGAGTGATCGGGATGAACGAGTTAAAGCAAACGCCTTTATATCCTATTTATGAAGAATATGGGGCTAAAGTTATTGATTTTGGCGGTTGGAACTTACCTGTTCAGTTTAAAGGCATTAAACATGAACATGAGGTGACGAGGACGAAAGCTGGTCTATTTGATGTATCCCATATGGGGGAAATTGAAGTTAAAGGGCCGAAAAGTTTAGAATTTTTGCAACGAATGGTTACGAATGATGTGGCAAAACTAACGCCGAACCGGGCACAATATACGTTTATGTGTTATGAAGATGGCGGAACCGTTGATGATTTTTTAATTTATAAGCTAAAAGAAGACGACTACTTGCTTGTTGTAAATGCAGCAAACACAGATAAAGACTATCAATGGCTTCTTGACAATAATGATTATGTAGCGGAAGAGCTTGCTATTGAGAATGTTTCCAATTGTTATGCTCAGCTTGCCTTACAAGGTCCTCTTGCAGAAGAAGTATTGCAATCGCTCACATCAGCAGATTTATCGGCAATCCGCTTCTTTAGATTTGAGACAGATATCGCGTTTACAGGGGTAGAAGAGCGAGCACTCGTATCCCGTACAGGGTATACAGGAGAAGACGGATTTGAAATCTATATACCTACAGCGAGTGGAATTGCGCTATGGAAAGCAATTTTAGACGCTGGTAAAGAAAAAGGCGTGGAACCAATCGGGTTAGGCGCTAGAGATACATTACGATTTGAAGCGGGTTTACCTTTATATGGTCAAGAATTATCTCCGGAGATTACGCCGATAGAAGCTGGATTATCATTTGCAGTAAAGGTAAATAAAGCAAATGACTTCATTGGTAAACAAGTATTACAGCAACAAATGGAACAAGGTGCAAAGAGACAACTTGTTGGTTTAGAAATGCTAGATAAAGGCATTCCAAGAACGAGTTACGAAGTTTATGATGGCGAAACAAAAGTAGGATCAATTACTTCAGGAACGCAATCACCAACATTTCAAAAGAATTTGGGTCTTGCTTTAGTAAGCACTGCTTCTGCAGAACTTGGAACGGTGCTTTTCGTCCAAGTAAGAAAGCGCCAATTAAAAGCAAAAATAGTAGAAACACCTTTTTATAAACGAGAAAGGTAG MKNNEISVFCTIERFKGVIGMNELKQTPLYPIYEEYGAKVIDFGGWNLPVQFKGIKHEHEVTRTKAGLFDVSHMGEIEVKGPKSLEFLQRMVTNDVAKLTPNRAQYTFMCYEDGGTVDDFLIYKLKEDDYLLVVNAANTDKDYQWLLDNNDYVAEELAIENVSNCYAQLALQGPLAEEVLQSLTSADLSAIRFFRFETDIAFTGVEERALVSRTGYTGEDGFEIYIPTASGIALWKAILDAGKEKGVEPIGLGARDTLRFEAGLPLYGQELSPEITPIEAGLSFAVKVNKANDFIGKQVLQQQMEQGAKRQLVGLEMLDKGIPRTSYEVYDGETKVGSITSGTQSPTFQKNLGLALVSTASAELGTVLFVQVRKRQLKAKIVETPFYKRER PGPT0008130_875 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605 NA NA AK015_02899 1659 rapA_2 RNA polymerase-associated protein RapA ATGAAATCAATCTATATAGATAAAGATGATAACTTCATAAACGAACTTGAAGATAAACTTAAAAAAAATACGCAACTTTCTTCTTGGGAATTATTTTCCATGGCTTATGCTGCAGAACAAACTACCATGGTACCTAACTTTACAGGCTTAAGAGCCCTTGAATTTTTACCACATGTTACCTTTTTAGATCATCAAATTCAAACAGCTGAACGAGTTGTTGAGCAAATGAATGGTAGAGCTATTCTAGCCGATGAAGTTGGTTTAGGAAAAACCATTGAAGCAGGGCTTGTATTAAAAGAATATATGATTCGTGGCTTAGTTAAAAAAGCACTCCTTCTCGTACCTGCATCTTTAGTAAACCAATGGGAAAAAGAGTTGAATGAAAAGTTTTATCTTCCAGCTGTAGCTTACAGGAAAAACATGAGCTGGGAGCAGGGTAACATTATCATCTCTTCTTTAGATACAGCGAAAAGGGTACAACACCAAGATACTATTCTTGATTTAGACTATGATTTCGTACTTGTTGATGAAGCACATAAATTAAAAAATCATAAAACAAAGAATTACCAGTTTGTGCGCTCATTAAAAAAGAAATATTGTCTATTATTAACAGCTACACCTGTACAGAATGAACTTCTAGAAATTTTTAATCTTGTATCTATCTTAAAACCAGGGCATTTAGGTAGCTATGATTCTTTTAAAGCAAGTTACGGGAATGATCGAAAAACGATGAAACAAGATCTATACCTAAAACAATTAGTTCAAAAAGTAATGGTTAGAAACACTAGAAAAGATACTGGTTTAAATCAAATTAAGCGTCATATAGAAACCATCTGGACAGAGTTCTCTCGTGAGGAAGCTGAAGTTTATCAAGCATTAGAAGAAAGTACTATGCTACTTCCTTCTTTTTCTAAAATTACCTTTTTGCGAGAATTATGTTCATCAAGGGAAGCATGTTATTTATCACTTAAAAAATTGCTCGAAGAAAACCCAGAACTTGAATCTGTTCAAGGTGTAATAGAAAAAATTGAGCAATTACCTCATCACCAAAAAGCAGGTAAAGTGGTTGAATTAATAAACAGCATAGGAAATGAGAAAGTAATCATCTTTACAGAGTATCGAGCTACGCAATTTTACTTACAATATTACTTGAAACAGCACGGTATCAGTTCTGTACCGTTTCGAGGCGGTTTTAAACGTGGGAAAAAGGATTGGATGCGTCAACTTTTTAAAGATCACGCCCAAGTGTTGATTGCAACAGAGGCTGGAGGTGAAGGGATAAATTTGCAGTTTTGTAATTATATGATCAACTATGACTTGCCATGGAACCCCATGCGTTTAGAGCAACGTATTGGCCGTATTCATCGCTATGGTCAGGAAAAAGATGTGTTTATCTACAATTTCGCCATTAGAAATACAGTGGAAGAGCACATTATGAAATTATTATATGAAAAAATTCATTTATTCGAAAACGTCATTGGAGATTTAGATGCCATTTTAAGTGAGCTTTCGATTCAAAATATGGAACAGGAAATTGAACAAATCTACACAGAATCAGAAACAGCCGGTGAAGCAAAAATTAAATTACAAAATTTATCGGCTATTATTGAGGCAGAACAACAATCAAACTTGGAGGAAAAGCAATATGGTGATACATGA MKSIYIDKDDNFINELEDKLKKNTQLSSWELFSMAYAAEQTTMVPNFTGLRALEFLPHVTFLDHQIQTAERVVEQMNGRAILADEVGLGKTIEAGLVLKEYMIRGLVKKALLLVPASLVNQWEKELNEKFYLPAVAYRKNMSWEQGNIIISSLDTAKRVQHQDTILDLDYDFVLVDEAHKLKNHKTKNYQFVRSLKKKYCLLLTATPVQNELLEIFNLVSILKPGHLGSYDSFKASYGNDRKTMKQDLYLKQLVQKVMVRNTRKDTGLNQIKRHIETIWTEFSREEAEVYQALEESTMLLPSFSKITFLRELCSSREACYLSLKKLLEENPELESVQGVIEKIEQLPHHQKAGKVVELINSIGNEKVIIFTEYRATQFYLQYYLKQHGISSVPFRGGFKRGKKDWMRQLFKDHAQVLIATEAGGEGINLQFCNYMINYDLPWNPMRLEQRIGRIHRYGQEKDVFIYNFAIRNTVEEHIMKLLYEKIHLFENVIGDLDAILSELSIQNMEQEIEQIYTESETAGEAKIKLQNLSAIIEAEQQSNLEEKQYGDT NA NA NA NA NA AK015_02900 780 hypothetical protein ATGGTGATACATGATTTGAATGCATTTCTACATGCTTTTTTTAAAGCACACCACTGCCAAATACTGTCCAATGACAATGGCGTATTAAGCATTCAACTAACAGAAGAATTGGATAAGGTACTTATGAATAGGCCATTTTATTGGCATTATATGAAAAAAATGGGCTACACCGGCGATCCCATGAACCTTACATTAATAACGAACCCAGATAAGCGTCAGGAAAAAGGGGAGTGGATTCATTTTGGTAGCCCTCGTTTGCAACAAATCATTCGCTATTTACAAGATACTAAAAAATATACCAAGCTCTTTCAGCAGTTATCTCCAAATAAAAATACGCCTCTATATCCATGGCTTGTAACGAATATAAAAATAAGCTACCAAGGAAAGCATAAGCGAGACGAGTTGTTTTCAATTGGCTTGAATTTAATAAATGGTGTAATGCATGCAAAAATGATGGATGTATTAAATACTATTTCGCTTGAAAAAACCATTGCGGATTATTGTTACACGTTGTCACCAATGATTAAAATGGAAAGTGGTTTTAAACGTATTGAGTCCGTATTAGATCAATATATAGAAAACCAGGAACATCAATGGGCAGTTGATTCTTTACAAGCTTTAGAAGAAGAAACAAAGCTATTACATCATTTTTACACAGAGGATATGGAAGATGAGATGATGAAAAGGGAATTACAAGAAATTCAAGAACGGTTTCAGCCCAAAATATTATATCAAGTGATTAATGGTGGTTTATTTTATTTAGCAACGGAAACATCCTAA MVIHDLNAFLHAFFKAHHCQILSNDNGVLSIQLTEELDKVLMNRPFYWHYMKKMGYTGDPMNLTLITNPDKRQEKGEWIHFGSPRLQQIIRYLQDTKKYTKLFQQLSPNKNTPLYPWLVTNIKISYQGKHKRDELFSIGLNLINGVMHAKMMDVLNTISLEKTIADYCYTLSPMIKMESGFKRIESVLDQYIENQEHQWAVDSLQALEEETKLLHHFYTEDMEDEMMKRELQEIQERFQPKILYQVINGGLFYLATETS NA NA NA NA NA AK015_02901 192 hypothetical protein ATGTCGGCAAAGGATTACCTGCAATTTGTAACTGAACAAGTTGTCACTTATTTAGATATGCCTAAGGAAAAGAGAAGACAACGTAAAGAAACCAAAAAAAGACAAGAGCGTTTGATGACAAACAAATGGTTTGGTGTCATCCCTCTAGCTTTAAAAATGCTGCGTGACACGTCGAATAAGCAGGCGAAATAA MSAKDYLQFVTEQVVTYLDMPKEKRRQRKETKKRQERLMTNKWFGVIPLALKMLRDTSNKQAK NA NA NA NA NA AK015_02902 1014 comGA COG2804 ComG operon protein 1 TTGAACCCTGCAGAAGTAAAATCTACCCGTTTACTATTGGAAGCAATTGAGCGCGATGCTTCCGACATTCACTTCTCCCCTCTCCCAACTAAAACGGATATCTACCTTCGAATTCAAAGTCAACGCGTTTTCCACAAAAGCATGCCGACTTCATCATACCAGCTCTTGCTTACGTACTATAAGTTTACATCTGCTATGGATATTGGTGAAACAAGGAAACCACAAAATGGAACGATTGCTTTCCAATTAAAAGGTCAAGCTTATGATCTGCGTCTATCCACATTACCTGTGAAACACAATGAAAGCCTAGCTATTCGGATTCTACCTCAGCAAGAATCCCTTCCGCTTCAACAGTTATTTCTTTTTCCACAGCAATTAAAAATTTTATTAGGTTGGTTGAAAAATCGTTCTGGTCTAATTCTTATTAATGGGCCGACAGGAAGTGGAAAAACGACTACCTTATATGCGATTGTAGAGGAGATGTGTAGGCAACACACATTACAAGCCATCACGTTAGAAGATCCAATCGAAAAAGACATAGAGACAATACTCCAAGTACAAATTAACGAAAAAGCTGGAATAACATACCAAGCAGGTTTCAAAGCAGCATTACGTCATGATCCTGACATTATTTTGGTAGGCGAAATTAGAGACTCCGCTACGGCTGCATTTGCTGTCGAGGCTTCTCTATCTGGTCACCTTGTTTTAAGTACTATCCACGCTACTAATGGATTAGGCACCTTGTACCGCTTAAAAAGCCTCGGTTTAAAGATGGACGATTTAAAACAATCGCTAATTGCTATTGCATCCATTCAATTACTTCCATTTGAGATAAGAAAGTATGGAAAACGAAGAGCAGCCATCTTAGAATTACTTGAACCGTCTCAATTAATTCAATACTTTCAAAATGATGCGCAATGGACTATCAATTCATATCATTCATTTACCCACTTACGAAAGAAGGCATTTGCTTATGGATATATTTCTAAAACATCCTTTGAAGAAACATATTAA MNPAEVKSTRLLLEAIERDASDIHFSPLPTKTDIYLRIQSQRVFHKSMPTSSYQLLLTYYKFTSAMDIGETRKPQNGTIAFQLKGQAYDLRLSTLPVKHNESLAIRILPQQESLPLQQLFLFPQQLKILLGWLKNRSGLILINGPTGSGKTTTLYAIVEEMCRQHTLQAITLEDPIEKDIETILQVQINEKAGITYQAGFKAALRHDPDIILVGEIRDSATAAFAVEASLSGHLVLSTIHATNGLGTLYRLKSLGLKMDDLKQSLIAIASIQLLPFEIRKYGKRRAAILELLEPSQLIQYFQNDAQWTINSYHSFTHLRKKAFAYGYISKTSFEETY PGPT0029440_203 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 AK015_02903 1050 hypothetical protein ATGGATATATTTCTAAAACATCCTTTGAAGAAACATATTAAACTGTCAAATCAACAACAATTGCGGTTTTTAAAACGCTTAAACCATCTTTTAACCAATGGATACCCTCTTATTGAAGCATTAAATAGTATAGCTTGGACAAAACCGTTTAGTAATTTGTCTAAAAAAATTATATTTGAATTAAAAAATGGCGCTACATTTGATCAAGCTTTACAAAAAAGCGCTTTTCATCCATCTATTACGAATTACCTCTCCTTTTCAATGTCCAATGAAAATTTACAAGGAAATATACAGCGTTGCTACAAAATGTTTGAGCAAAAACTGAAATACAGTAGCAAGTTTAAACAAGCTATCCGCTATCCCATTCTTTTGTTAACGATTTTCTTTCCTATACTGATTCTGCTCAAACAACTAGTGCTTCCCTCTTTTATTGAACTATACCAAGGAATACCAGGATCTTCGACAATTTTAGTTATAGCCATTTCCCTCATTGATTGGTTACTCCTATTATGCATCATTACATTCATTACAGTTTGTATCCTCGCACTTAGCTGGCAACGTATGAAACGTTCCATATCAATAGAGAGACAAATTAGATTATATACTCGCATTCCGATTTACAGAGCTTTTTTAACCACACAAACTTCTTTTTTATTTGCTACTCAATTTAGTACTTTAATTCAAACAGGCCTTTCCTTTAAAGCAATTCTTCAACAAATGATGTATCAAAAGAAACACCCGCTTATTGCTCACTATGCCAAGCTTATGACAACACAATTGAGAGAAGGGCGACAACTTCCAACTTTGCTAAGTCAGTTTGATTTTTTAAATAATCCAATTTCTAATATTTTCCAAAAGGATAGCAATACAGCAACTTTGAAAATGGACTTACATGTTTATGCAGAAGGGTTAATGGAAGAAATGGAAACAAATATGCTCAAACTCATCACCTATATTCAACCTATGTTTTTTATCATAATTGGCTGCTTTGTTTTATTTATCTATATAACACTAATGTGGCCTATGTTCCAACTTATCAAAACGATTTAA MDIFLKHPLKKHIKLSNQQQLRFLKRLNHLLTNGYPLIEALNSIAWTKPFSNLSKKIIFELKNGATFDQALQKSAFHPSITNYLSFSMSNENLQGNIQRCYKMFEQKLKYSSKFKQAIRYPILLLTIFFPILILLKQLVLPSFIELYQGIPGSSTILVIAISLIDWLLLLCIITFITVCILALSWQRMKRSISIERQIRLYTRIPIYRAFLTTQTSFLFATQFSTLIQTGLSFKAILQQMMYQKKHPLIAHYAKLMTTQLREGRQLPTLLSQFDFLNNPISNIFQKDSNTATLKMDLHVYAEGLMEEMETNMLKLITYIQPMFFIIIGCFVLFIYITLMWPMFQLIKTI PGPT0029445_181 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 AK015_02904 300 hypothetical protein ATGTGGAAGAAAAATAACGCTTTTACTTTAATTGAAATGCTAATTGTTCTAATGATTATTTCCGTGTTAATTATTCTGATCGTTCCTAATTTAGGGAAACGCAGCCAAGAAGTAAACAGCAAAGGTTGTGAAGCATTGGTAGCAGTTGTTCAAGCTCAGGTCGATGCATATTATGCTGAACATCATCAGTTCCCGACTAATTTAGACGCACTAGTGCCAGAGTACATTCATGAAGATCAGAAATCCTGTAACGACAAGGAACTAAGCTATGAAAGTAATACCGGAAAAGTTCGCAACTAA MWKKNNAFTLIEMLIVLMIISVLIILIVPNLGKRSQEVNSKGCEALVAVVQAQVDAYYAEHHQFPTNLDALVPEYIHEDQKSCNDKELSYESNTGKVRN PGPT0029450_375 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 AK015_02905 459 hypothetical protein ATGAAAGTAATACCGGAAAAGTTCGCAACTAAACGCATAAAGCAAACCAATGGTTTTACGCTGATCGAAATGGTGTTTGTTATGAGTATTATGTTCATTATGTTGGGGCTGCTGTTACCTCCACTTTCTGCAAATGTAAATAAAATGGAAAGTGATCACGTTATTGATAAACTAGCTTCGGACGTTATGACTATACAGCATATGCATGCTACTACAAATGGTACGGTTAGGATTCAACTATACAGAGATAAATATGTCATATTAAAATCAACTAAAGTTTTAAAGCAAGTTTCCCTCCCAGAAGGATTCTGGTTTAATCAAAATGGAAAGCATTTTTTAGAGTTTCATAAGGGGGGCAGTATTAAACAACCTCGAACATTCTTTCTATACTCGCCCACGACAAAATATAAAATAATCTTCCCGTTTGGTAAAGGACGGTTTCGTGTTGAAAAAAGTTAA MKVIPEKFATKRIKQTNGFTLIEMVFVMSIMFIMLGLLLPPLSANVNKMESDHVIDKLASDVMTIQHMHATTNGTVRIQLYRDKYVILKSTKVLKQVSLPEGFWFNQNGKHFLEFHKGGSIKQPRTFFLYSPTTKYKIIFPFGKGRFRVEKS PGPT0029455_55 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 AK015_02906 339 hypothetical protein GTGTTGAAAAAAGTTAATGGATTTACTCTCATTGAAGTTATTATTGCATCGAGTTTATTGTTTTCGTTAATGTTAGTTTTAGTACCTGCTTTTTCTATTCTTCATGTAGAACAAACAGTATTACATGACCGGCTAGCAATTGCCTATAAACTTCACGACGAAATGCAGCCAATCATTTGGGAAAACGATAATTTTAGGACAAATTATCATTTACTTGTCAATAAACAAACCGTAACGATAGAAATTGATAATGAGCACAACTACTTGAAGGGATGTGCATATTGGAAAAATGCGAAACAAACAAACGAAGAAGTCTGTCTTTATGCCGAGCCATCTTGA MLKKVNGFTLIEVIIASSLLFSLMLVLVPAFSILHVEQTVLHDRLAIAYKLHDEMQPIIWENDNFRTNYHLLVNKQTVTIEIDNEHNYLKGCAYWKNAKQTNEEVCLYAEPS NA NA NA NA NA AK015_02907 414 hypothetical protein ATGCCGAGCCATCTTGAATATGGTTTTACATTTGTTACAACATCCATTTCCATTGTAGTTTTAGTTTTTAGTATTCCATTTGTTAGTTATCTATTACGCCAAGTTTCCGTAGACCATGCAATGAATGATTTATCCGTTGGACAGTTTTTTATATTTATGCGTAATGAAGTTATGCAAGCGGAAGAGATAAAAATATATCCTCATCAATTAAAACTGTCTATGCATAATGGAGATGAAGCTACATTTGAAAAGTATGGTAACCTTATAAGAAGACAAGTTGATGGTACCGGTCATGAAATATATTTACGGGATATAAAAGACATTACATTCTCCCCTCTTTCTTACGGATTTCACATTATCATTACTACCATGAAGGGGGAAAAGTATGATAAAAAAATCATCTATTACCCTTAA MPSHLEYGFTFVTTSISIVVLVFSIPFVSYLLRQVSVDHAMNDLSVGQFFIFMRNEVMQAEEIKIYPHQLKLSMHNGDEATFEKYGNLIRRQVDGTGHEIYLRDIKDITFSPLSYGFHIIITTMKGEKYDKKIIYYP NA NA NA NA NA AK015_02908 372 hypothetical protein ATGATAAAAAAATCATCTATTACCCTTAATAACGCTGGGTTTATGTTCCCGTTTGTACTATTTATTACAGTTCTCGTGTTAATGATTATAACAGCTACTGCCTATCACTATCAAAACAATATAGTTATGACAAAGAATCAAATCGAACAATTAAAAATAGAGACAATGGTGCAAATGTCACGAAAAAAAGTCAAGCAAGAACTCATTCAAAATGGAGAGCTAAAAGAACAAATGGATTTTTCATTTCCTTATGGTGACGTTTCTTTACGTATAAACGCTATACCTTCTAATAAGTATACATTGCTTTTCACCATCACAACGGACAATCAATCCACAATCCAACTGAGAGGGTTTCTTAAACCCTCTTTATAG MIKKSSITLNNAGFMFPFVLFITVLVLMIITATAYHYQNNIVMTKNQIEQLKIETMVQMSRKKVKQELIQNGELKEQMDFSFPYGDVSLRINAIPSNKYTLLFTITTDNQSTIQLRGFLKPSL NA NA NA NA NA AK015_02909 243 hypothetical protein ATGGATCGAATGTTTCGTGTGTTAGCCTTTTGGACAGGAATTTTTACTGTAATGTTTTTCGTGGGAGATATGCAAAAAACCGCATTACTTTTTCTCGTTCAAACGGCCTTTTTCCTAACATTAAGTTATTTGAAACTTTCTGAACGCATGTATATGTATTTATTCGGGGCATACTGTACCATATTCTTTATTGGCTTTACATGGTATTCAGAATTTATACTTGTACCTGGTTTCGGACACTAA MDRMFRVLAFWTGIFTVMFFVGDMQKTALLFLVQTAFFLTLSYLKLSERMYMYLFGAYCTIFFIGFTWYSEFILVPGFGH NA NA NA NA NA AK015_02910 624 gloC COG0491 Hydroxyacylglutathione hydrolase GloC ATGCATATACACGCAATGTCTTTAGGTCCATTAGGGACAAATTGTTATATTGTATACGATCAAGAAGAAGCGTTAATTATTGATCCAGGTGGTGATGCGGAGAAAGTTACGCAATTTTTACAAGATCATCACGTAACACCAATTGCTATTTTATTAACACATGCTCATTTTGACCATATTGGAGCAGTAGATGGATTACGAAAAGCATATCATATCGATGTTTATCTGCACGAATTGGAAGCCAACTGGCTTGAAGATGCTAGTAAGAATGGTTCACTGTTATTTACACAGAAAAAAGTAGAAACAGAAAGGCCGGATCAATTTTTATATCCAAGGAAGATGGCGCTTGGGGACTTTTCTTTTCATGTATTACATACGCCAGGTCATTCTCCTGGCAGTGTTACTTTCGTTTTTACAACAGAAAAATTCATTATTAGCGGAGATGTTTTATTTCAACAAGGAATTGGCCGTACAGATTTACCAGGAGGAGATTTTCAGCAACTAGAAAAGTCTATAAAAGAATCCATATATACGTTGGATGACGCTTTTATCGTTTATCCAGGTCATGGGCCAAAAACGAATATCCAATTTGAAAAGCAATATAACCCGTTCTTCACAGTGTGA MHIHAMSLGPLGTNCYIVYDQEEALIIDPGGDAEKVTQFLQDHHVTPIAILLTHAHFDHIGAVDGLRKAYHIDVYLHELEANWLEDASKNGSLLFTQKKVETERPDQFLYPRKMALGDFSFHVLHTPGHSPGSVTFVFTTEKFIISGDVLFQQGIGRTDLPGGDFQQLEKSIKESIYTLDDAFIVYPGHGPKTNIQFEKQYNPFFTV PGPT0001770_8023 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069 NA NA AK015_02911 171 hypothetical protein ATGCATATCGTATTAGGGGTTTTGTTTTTATTAGTAGCTATTCTTGCAGTTGTATCGATCATACGTCAACTAAAATACAAAAATATTTTTGCTATTGGTTTTTCTGCAATTACAGCGCTAGCGTTTGGATTCTTTGCTGTGGCAACCATTATTTCCGAATTAGGTAGTTAA MHIVLGVLFLLVAILAVVSIIRQLKYKNIFAIGFSAITALAFGFFAVATIISELGS NA NA NA NA NA AK015_02912 1902 ltaS1_3 COG1368 Lipoteichoic acid synthase 1 ATGAAACAGAAAATAAATAAGGTACCGTTATTTATACTAGCAACCATTTTATTTGGAATAAAAACATATCTTGTATACCGGTTTATGTTCTCGATTGATTTGGAAAATATGATGCAAGAGATTATATTACTTATTAATCCATTTGTATCTGGATTTTTAATATTTGCATTAAGTGTATGGATTAAAAAACCGCAAAGACAAATGAAATATTTACGTTATACGATTTTAATAGGCACGTTGATTATATTTGCAAATCTTGTTTTTTATCGATCGTTTACTGATTTTATTACGATCCCGCAACTTTTTCAAGCGAGTAACGCTACTGATTTGGGTTCAAGTATTTTAACATTGATTAAACCATACGATATATTACTATTTGTAGACGTTGTTATAATCTGGTTTATTAGCCGAAAACAAGCCGTTCAAGTTGCCGCGCAATACCCTAAAAGTGGGAAGGTCTTTGCGCTTGCTATGTCATTTGTTTTATTAGCGGGAAACTTCTTCTTAGCGGAAATGGAACGTCCACAATTGTTTACGCGTGCGTTTGATCGTGAGTATTTAGTAAAAAACATTGGTTTGTTTAATTATCATATCTATGATATTGCAACTCAAGCAAAAGCAAAGACGCAACGAGTGTTTGCGGATGGGAATGAGCTTCCGGAAATCCAAGAATATATGGACGAGAACATGGCTAGAAATACTACTTCCGAGTTGTTTGGGGTAGCAGAAGGTAAGAATGTAATCTTTATTAATGCGGAATCAATTCAAAGTTTTGTCATTAATAATGATGTTAACGGGGAGCCAATCACACCATTTTTGAATGCTTTAACGAAGGATAAAGATACTTTCTATTTTGAAAATTTTTATCACCAAACGGAGCAAGGAAAAACTTCTGATTCGGAGTTTCTTGTTGAAAATTCGTTATATCCGCTATCACGTGGCGCTGTTTTCTTTACCCACGGTCAAAATGAATATAATGCAATGCCGGAAATATTGGGTGAGAATGGATATTATTCTAGTGTCTTGCACGCGAATAATAAGAGTTTTTGGAATAGAGATCAAATGTATCAAAGTTTAGGGTTTGACCATTATTATGGGGAAGAATCTTTTGAAATAACAGAAGAAAGTTCGGTTGGCTGGGGATTAAAAGATAAACCGTTTTTTGAACAATCGACCGATATTCTACAGCAAATGGAGAAACCTTTTTATACGAAATTGATAACATTAACGAACCATTTTCCATTTGAGTTAGATGAAGAAGATCGATCTATTGAACCGTATGATTCCAATTCTAATACGTTAAATAATTTCTTTCCAACCGTTAGATATATGGATGAGTCCATTGAACTGTTCTTCGATGAATTAAAACGTTCTGGGTTATATGAAGACTCTATTATTGTTATTATGGGTGACCATTATGGAATTAGTGCAAATCACAATAAGGCAATGAGTCAGTATTTAGGAAAAGAAGAGATTACTCCTTACGATCACATTCAATTGCAACGTGTACCACTATTTATCCATATACCTGGTTTTGGAAAAGGGGAAATTAAATCTGAAATTGCTGGACAGATTGATATGAAACCTACATTGTTAAACTTACTAGGTATAAAAAATAAACAGGATATTCAATTTGGCAATGATTTGTTTAGTAAACAACGTAAAGATTTTGTAGCTTTACGAAATGGAAGCTTTATAACAGATGAGTATATTTATACAAATGATACGTGTTACAATAAGAAAACTGGAGACCCAGTTGAAGAAAATCAAGAGAAGGGCGATTCTAACGAAACTCCGAGTGCATGCGACTTGACTCGCGAGCAAGTAGAAAGAGAATTAGACTATTCCGATGATTTAATTTACGGTGACTTATTTCGTTTTATCGATTTCAATAAAAAATAA MKQKINKVPLFILATILFGIKTYLVYRFMFSIDLENMMQEIILLINPFVSGFLIFALSVWIKKPQRQMKYLRYTILIGTLIIFANLVFYRSFTDFITIPQLFQASNATDLGSSILTLIKPYDILLFVDVVIIWFISRKQAVQVAAQYPKSGKVFALAMSFVLLAGNFFLAEMERPQLFTRAFDREYLVKNIGLFNYHIYDIATQAKAKTQRVFADGNELPEIQEYMDENMARNTTSELFGVAEGKNVIFINAESIQSFVINNDVNGEPITPFLNALTKDKDTFYFENFYHQTEQGKTSDSEFLVENSLYPLSRGAVFFTHGQNEYNAMPEILGENGYYSSVLHANNKSFWNRDQMYQSLGFDHYYGEESFEITEESSVGWGLKDKPFFEQSTDILQQMEKPFYTKLITLTNHFPFELDEEDRSIEPYDSNSNTLNNFFPTVRYMDESIELFFDELKRSGLYEDSIIVIMGDHYGISANHNKAMSQYLGKEEITPYDHIQLQRVPLFIHIPGFGKGEIKSEIAGQIDMKPTLLNLLGIKNKQDIQFGNDLFSKQRKDFVALRNGSFITDEYIYTNDTCYNKKTGDPVEENQEKGDSNETPSACDLTREQVERELDYSDDLIYGDLFRFIDFNKK PGPT0023375_994 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 AK015_02913 984 glcK_2 COG1940 Glucokinase ATGGAGCAAATAATTATTGGTATGGATATTGGAGGAACTACAGCCAAATTAGGATTAATTAGTAATGATGGAGAAATTATAAGAAAATGGGAAATTCCTACAAACAAAAATGATGGTGGTAAGCATATTGTAGATGATATCTGGAATTCAGTTCGCCAAAAATTAAAGCATTTGCATTATAAAGAAGAGCAAGTTCTCGGGATAGGTGTTGGCGCTCCAGGATTTATTGAAGATGAAACAGGATTTATTTATGAAGCGGTAAATATTGGGTGGAAAAATTACCCTCTAGGTGAATTACTAAGTAGTCAATCCAAACTTCCAGTATTTGTAGAAAACGATGCAAATGTAGCAGCCTTAGGAGAAAACTGGCGTGGAGCTGGTAATCAAGTAGCTAATCTAATTGCAGTTACACTTGGTACTGGTGTAGGTGGTGGCATTATTGCAAACGGTAGAGTAGTAAATGGAGAAGCCGGTATAGGTGGGGAAATTGGTCATATTATTATGGATACAAATGGTTCCGTATGTAATTGTGGTAGAAAAGGATGTTTAGAAACCATTGCTTCTGCTACCGGTATTGTGCGACAAGCGTTCGAATTAGCCGAGAGTTTACCAGATAGTAAATTAGCTAAACATGTAAATATAAAAGGAACTATCACTGCAAAAGACGTCTTCCAATTAGCGAATGAAGGGAATGTAGAAGCAAAACAAATTGTCGCGCATACAACCGATATTTTAGGGTTGGCAATTGCAAACATGTGCGTTACTATTAGTCCAGCGAAAGTATTAATTGGAGGTGGCGTCTCGAAAGCTGGACAACCTTTGTTAACGGCTATAGAAGAAGCGTTTAACCGTTACGCTCTTCCAAAAGTACAACAAAGCTGTGAGTTAAAGTTTGCCCAATTAGGTAATGATGCAGGTATTATAGGCGCTGCTTTTTTAGTAAAGCAAAAGCTAGAGAAAAAAGTATTTGGTGAAAAAATCTAA MEQIIIGMDIGGTTAKLGLISNDGEIIRKWEIPTNKNDGGKHIVDDIWNSVRQKLKHLHYKEEQVLGIGVGAPGFIEDETGFIYEAVNIGWKNYPLGELLSSQSKLPVFVENDANVAALGENWRGAGNQVANLIAVTLGTGVGGGIIANGRVVNGEAGIGGEIGHIIMDTNGSVCNCGRKGCLETIASATGIVRQAFELAESLPDSKLAKHVNIKGTITAKDVFQLANEGNVEAKQIVAHTTDILGLAIANMCVTISPAKVLIGGGVSKAGQPLLTAIEEAFNRYALPKVQQSCELKFAQLGNDAGIIGAAFLVKQKLEKKVFGEKI NA NA NA NA NA AK015_02914 213 hypothetical protein ATGAAAACGATGTATGATATACAGCAATTCTTAAGAAAGTATGGTACATTTATTTATACGGGAAATCGTTTAGGTGATTTACAAATGATGGAATTAGAAATAAATGAACTGTATGAGCTTGGCTTTATAGAAAATAAAACGTATATGGAAGCAAAAATGATACTAAAAAAAGAAATTACATCTACGCTGAAGCAGAAGAAAGGAAGTCATTAG MKTMYDIQQFLRKYGTFIYTGNRLGDLQMMELEINELYELGFIENKTYMEAKMILKKEITSTLKQKKGSH NA NA NA NA NA AK015_02915 1458 gerBA_2 Spore germination protein B1 ATGCAAACGGAAAGGCAGCCACTATTTTCATCATTTGAAAAAAACCGAGACTATATGCATGAGCGATTAGCAGTCGATCAAAGCTTTGATATGATTCAACGTGACTTGGAGTATGCAGGTATAAAGATGGCTTTGTTTGTTATTGATGGATTTGGCAAAGATGAAATATTACTTTATATCATGCAGCTTTTTGCTGAACTAGAGACGGAAGATTTAGAACCAAATGTATTAAAAAAATTACTTGAAAGATATATTCCTTACATTGAAGTAGATGAAGCGAATGATTTAAATGAAGCAAGCGACCTTGTACTCGGCGGCCCAGCTGCATTAGTTATAGAAGGCGCAAATAAAGTCATTATTATTGATGCAAGAACTTATCCTGCTCGCTCGCCAGAGGAACCCGATTTAGAGCGTGTTGTTCGAGGTTCTAGAGATGGATATGTGGAAACAATTGTCTTTAATACAGCTTTAACGAGAAGAAGGGTTCGAGATCGTTCTTTACGAATGCAGTATTTGCAAATTGGGAGAAGATCAAAAACAGATATTTGTATTTGTTATATTGAAGATATAGCTGATAAACATAGGGTAGAGAGCTTAAAAAAAAAGTTAGAAATGATTGATACAGATGGTTTGCCTATGGCTGAGAAAACTATTGAAGAGTATATTAGTGGGAGGCACTGGAATCCATATCCAACAGTAAGATATACAGAACGCCCAGATACAGCCGCTTCGCATCTTTATGAAGGCCATGTTCTCATTATTATTGATGGTTCACCTAGTGTAATGATAACTCCTGCAACATATGCTCATCATCTACAGCATGCAGAAGAATATAGACAAAAGCCATTAATCGGTGCCTATTTACGATTTGTACGATTTTTTGCTGTTATAGCTTCTATTTTCATCCTGCCATTATACTACTTATTTGCAAAACACGCTGATTATTTGCCAGCCAATTTGCAATATATAGGTCCTGATGAAGCTGGTGTTGTTCCGTTATTTGTCCAATTTCTACTAGCGGAAATCGGAATAGATATTCTACGTATGGCAGCCATTCATACACCTTCTTCGTTAGCCACTGCACTTGGTTTAGTTGCAGCTATTATGATCGGTGAGGTTTCTGTACAAGTAGGGTGGTTTTCCCATGAAGTTGTATTATATTTAGCGGTAGCAGCTATTGGTACATATGCAACACCAAGTTATGAGCTAAGCTTGGCTAATCGCTTAGTTCGTATCTTTCTTTTATTTGCTGTTGCTTTGTTTGGTGCTATTGGTTATATTGTTAGCATAACTCTTTGGATTTTGTATTTGGTTAGAATGAAATCGTTTAACGTTGCTTATTTTTGGCCGTTCATTCCCTTTTCCTATCGTCCGTTTCGAGATGTATTTTTGCGCTCGCCAATTCCGTTGAAAAATCGCAGACCTGCTTTCTTACACCCAAGAGACCCTGATCGATAA MQTERQPLFSSFEKNRDYMHERLAVDQSFDMIQRDLEYAGIKMALFVIDGFGKDEILLYIMQLFAELETEDLEPNVLKKLLERYIPYIEVDEANDLNEASDLVLGGPAALVIEGANKVIIIDARTYPARSPEEPDLERVVRGSRDGYVETIVFNTALTRRRVRDRSLRMQYLQIGRRSKTDICICYIEDIADKHRVESLKKKLEMIDTDGLPMAEKTIEEYISGRHWNPYPTVRYTERPDTAASHLYEGHVLIIIDGSPSVMITPATYAHHLQHAEEYRQKPLIGAYLRFVRFFAVIASIFILPLYYLFAKHADYLPANLQYIGPDEAGVVPLFVQFLLAEIGIDILRMAAIHTPSSLATALGLVAAIMIGEVSVQVGWFSHEVVLYLAVAAIGTYATPSYELSLANRLVRIFLLFAVALFGAIGYIVSITLWILYLVRMKSFNVAYFWPFIPFSYRPFRDVFLRSPIPLKNRRPAFLHPRDPDR PGPT0024820_287 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408 NA NA AK015_02916 861 hypothetical protein ATGAAAAAATGGTCTGTCATCACCATCGTTGTTGCCATAACTAGTTTTATTACCATTATCTATATCGTTGGTTTACAATCTAAACCAGCAATTACGTATTTTCCTCTTGATAAAAATTTTGCATTTACAACAGCAGAAACCGATATACAACTTTTTACTGATAAAGGAATAGACGATTATGAAATTATCTGGAAAGCATCTTCTGCAACAGAAATTCCTGTCTACTTAAGGCAAGATGTTTCTTTACTATTTGACAATGGAAGGCTAAGAGGAGCTTTGTCGAAGTGGGTGCAAGATACTGATACAATTCATTTAAAAAGAATGCTCACTTTAGAGGATAGTAGTTTGTATGAAGCGATTTCCTTTCATCATGGGGAAATTCATGAAAAAAACAGCCAAATAAAGAGCATGCAACAAATGTCAAGTGATCATTTATATGTCATCGACTCACCAGCAGCAAAATTAGATTCATTTAAAACACCTTCTACAACATACGAAAAAGAATGGAAAACACTACTTGATCGTGCCTCCATGCAGCAGCTAACCTATCATTGGAATACATTGTATGAATATTTCGATATTAATAAGGAAACTTATACAGCTGTGCCTTTAACCGATTTAGATAAGTTTGCGACACAACCGATAGCTGGCTTAACACAAGCGCAAACAGATAAAGTTATGGGACAATTATGGGAAGGATTGTACAAAAACTATCTCTTACCAATTGTGAATGCGGAAAAAGCAGTCAATAGCTATGTTCCCATTATTTTATTCGACAAAAAAAACAAACATTTACTCGTGCTTTTTGAGATGAATGGTAAAAAAGAAAAACTCATACAGCAGTATTCTTTTTCAGAATAA MKKWSVITIVVAITSFITIIYIVGLQSKPAITYFPLDKNFAFTTAETDIQLFTDKGIDDYEIIWKASSATEIPVYLRQDVSLLFDNGRLRGALSKWVQDTDTIHLKRMLTLEDSSLYEAISFHHGEIHEKNSQIKSMQQMSSDHLYVIDSPAAKLDSFKTPSTTYEKEWKTLLDRASMQQLTYHWNTLYEYFDINKETYTAVPLTDLDKFATQPIAGLTQAQTDKVMGQLWEGLYKNYLLPIVNAEKAVNSYVPIILFDKKNKHLLVLFEMNGKKEKLIQQYSFSE NA NA NA NA NA AK015_02917 1560 gluP COG0705 Rhomboid protease GluP ATGTATTTAGACGAACAGTATACGATGTACAATATGGCTTATCAAATTGTTTCTCGTGAAGCGTATAATGTTCTTTATGTAAACGAACAAGGAAATGAGATATGGTTAGAAAAGAAAGTTGGGAAAAATTCAAAAGTATTACGTTTTATCAATCAAGGCTTTGACTGGAAAAACTATTTAAAAAAAGATATAGCTGTCGTATTTCAAAAAGTAAAAGCCATGAAAAAGCTTTTAAGAGCTAAAACCATTCAAATACATAATATATACATATCAGAATTTACTCCTGTAGACTCATGGGAGTTTTTAAAGCAACCAATGAAATTAAATGAAAAACAAGCAATTATGATGAAAATATATTATCTCTCTAATTCGCAATTTGAAGAAGAAAAAGACAGGTTAGAAAAAGAGGCAGAGATTTCGGCTCTAGAAATGTATGATAGTCTTGAGGAAACAGTAAAAGAAGAGAAAATAGCTACTTATAAGCACTATTTAAGGCAACGAATTTTGGATGATCAGGAAGAAAAGAAAGAGTTATTTTCTTTTGGAAAACCAAAGCTGACATATATCATTTTAATTCTATGCGTTAGTTTATTTCTGCTGTTAGAATTGAACGGTGGGAGCGAAAATATCGAAACACTAAAACAATTTGGTGCTAAATTTAATCCAGCTATTATTGAAAATGGGGAATGGTGGAGAATTATTAGCTCCATGTTTTTACATATTGGTTTGCTACATTTAGTAATGAATATGATTGCTGTTTATTATTTAGGTACATTAGTAGAACGTATTTACGGTTCCATTCGATTTTTAATTATTTATTTTCTGGCTGGAATAGGAGGTGGAATAGCAAGCTTTGCTTTTTCAGCCAATATTGCCGCAGGTGCATCCGGTGCTCTATTTGGATTATTTGGAGCGTTATTATTTTTTGGGCTTCATCATAGGAGGGTTTTCTTTCAAACTATTGGAAGTAATGTATTGTTGTTAATTGGAATAAATATTGTGTTTGGTTTTTCTATTCCAGCTATTGACAATGGTGCTCACCTCGGTGGTCTAGTAGCAGGTTTTATTGCTTCTGGGATTGTTCACTTGCCGAAACAAAAAGAAAGATGGAAGCAGCTTAGTGCAGTGCTTGTCTACTTAGCGCTTGCATATGGAATTATACAATACGGCATAATAAACAACATGAACTCTCCAATGTATTATGTCATGCACATTGAAGAATTAGTTCAAGAAGAAAAATATGAACAAGTTGTCACAGAGGCCAGTAAAGCAATACGCAATACTGAAGGGGAGGAGCAATGGAAAGCAGCTATTTTATTCCATCGTTCCTATGCGTATATTGAATTAAATCAGCAAAATTTAGCTATGGATGATTTGAAACAGAGTGTTCAACTGGACAATAGTTTTCCAGAAGCACATTATAACCTTGCTTTACTATATTACCAGCAAGGTAATATAGAGGAAGCAAAAGAATTCATCAAAAGAGCTTATCAATTAGACTCTATTAACACAGATTTTCAAGAAATGTATGAGCAGATTACAGGCGAAAAACCGAAGTAA MYLDEQYTMYNMAYQIVSREAYNVLYVNEQGNEIWLEKKVGKNSKVLRFINQGFDWKNYLKKDIAVVFQKVKAMKKLLRAKTIQIHNIYISEFTPVDSWEFLKQPMKLNEKQAIMMKIYYLSNSQFEEEKDRLEKEAEISALEMYDSLEETVKEEKIATYKHYLRQRILDDQEEKKELFSFGKPKLTYIILILCVSLFLLLELNGGSENIETLKQFGAKFNPAIIENGEWWRIISSMFLHIGLLHLVMNMIAVYYLGTLVERIYGSIRFLIIYFLAGIGGGIASFAFSANIAAGASGALFGLFGALLFFGLHHRRVFFQTIGSNVLLLIGINIVFGFSIPAIDNGAHLGGLVAGFIASGIVHLPKQKERWKQLSAVLVYLALAYGIIQYGIINNMNSPMYYVMHIEELVQEEKYEQVVTEASKAIRNTEGEEQWKAAILFHRSYAYIELNQQNLAMDDLKQSVQLDNSFPEAHYNLALLYYQQGNIEEAKEFIKRAYQLDSINTDFQEMYEQITGEKPK NA NA NA NA NA AK015_02918 180 hypothetical protein ATGCGTACTATTGTTTTAATTATAGGTCTTGTTGCTGCGTCTGCTTTCGTTTATAAATGGCGCTATCGCATTTTGAATATGGTTCTAGCAATTGGATTTTTACGCAAATTTGCTGTACAGTTATCTATGAGTTCTCCTTCCATCCGTAGTCTTTTTACGCAAACAAATACGAATGTATAA MRTIVLIIGLVAASAFVYKWRYRILNMVLAIGFLRKFAVQLSMSSPSIRSLFTQTNTNV NA NA NA NA NA AK015_02919 558 yqgN COG0212 putative protein YqgN TTGAAAAAAGACCAACTCCGAAATGCCACTATTTATGCTTTAAAACAACTAACCCCAGAGCAAAAAGGAGATATTAACCACCAATTGCATCGACACCTAATGACCTCGACACTTTGGAAAAACGCTATTACAATCGGTATTACTATCTCGAAAGGATTTGAATGGGATACTTATGAATTAATTAACCAAGCTTGGCGGCAAGGTAAAAAGATATGTGCCCCAAAGTGTGACCCAAAATTTAAAACGATGGATTTTTATAAGTTTCAAACCTTCAAACAACTAGATGAAGTATACTATCATCTTTTAGAGCCTATTCCAAGTGAAACCGAGTATATTGCTCCGGAAACCATTGATTTGTTGCTTGTGCCAGGTATTGTTTTTGATCCAGATGGTTATCGTATAGGATTTGGTGGCGGCTATTATGACCGTTTTTTAGCAGGGTTTCTCAATCAAACTGTTTCTATATTACACAGTAGCCAACTTGTACCATCGATACCGAAAAACACATTTGATTTACCTGTTCAGCATTTAATAACAGAAGAAGGTTTAGTACGTTAA MKKDQLRNATIYALKQLTPEQKGDINHQLHRHLMTSTLWKNAITIGITISKGFEWDTYELINQAWRQGKKICAPKCDPKFKTMDFYKFQTFKQLDEVYYHLLEPIPSETEYIAPETIDLLLVPGIVFDPDGYRIGFGGGYYDRFLAGFLNQTVSILHSSQLVPSIPKNTFDLPVQHLITEEGLVR PGPT0008170_4751 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 AK015_02920 153 rpmG2_2 50S ribosomal protein L33 2 ATGATGCGCGTAAACATTACTTTAGCTTGTACAGAAACAGGAGATCGTAATTACATTTCTACTAAAAATAAACGTACTAATCCTGAGCGTTTAGAGCTTATGAAATACAGCCCACGTCTAAAAAAACACACTCTACATCGTGAAACAAAATAA MMRVNITLACTETGDRNYISTKNKRTNPERLELMKYSPRLKKHTLHRETK NA NA NA NA NA AK015_02921 219 hypothetical protein ATGATATATGCAATTATTACCATTATTGCAGTCGGAATCGTTTTACTTGCTATTTCCTTTTTCATGAATGATCGAATCGAGCAGGTTGAAAGTCAATTAGAACAATTCTCCATTACAACGATGCAAGATACATATCAAATGAAAAAGAAAATTAAGATTCTGGAAGAGGAACTATTAACGGAGGACTTCACAGACAATCGTATAGAAAATAAATCTTAA MIYAIITIIAVGIVLLAISFFMNDRIEQVESQLEQFSITTMQDTYQMKKKIKILEEELLTEDFTDNRIENKS NA NA NA NA NA AK015_02922 582 mltG_2 Endolytic murein transglycosylase ATGAAACAACCTATACGTCTTTTTGGTATTGGTCTCCTAACAGCTGGAATAATTATGTTAGGGGTTTATTTTATTACAAATGGGAGCACTCAAACAGCAGATAGCTTATCCGACAAGGAGCTAGTAGCTTTAGTAGAGGATAAAGGTTATCATGTGCTAACAAATTCAGAATATGTTGCCGTTTCTGTGGATGAAGCTAAAACAACTGCTGCAAAAAATGAAGAACAACCAGAAACAAAAGCTAAATCTGCAGAAGAAGATTCCAAAAATAAGGAAGAAAGCGACAAACCGAAAAGTGACCAAGATTCGAAAAAAGATGAAGGTCAAAAGGAAGAAAAGGATAAGCAAAAGAGAGATGAAAAGAAAGAAAAGGATAAGAAAACATACACATTAAAAATTGAAGAGGGAAAGCCTTCTTCCGATATAAGTGAAAAACTAGAAAAGAATGGAATTATCGATGACGCATCGAAATTCAATGACTATCTAGAAGATAATGATTACAGTAAAAAGGTACAACTTGGAGAATTTAAAGTATCTAGCGATATGAGTCTGTACGAAATCGCTGAAGCCATTACAAGATAA MKQPIRLFGIGLLTAGIIMLGVYFITNGSTQTADSLSDKELVALVEDKGYHVLTNSEYVAVSVDEAKTTAAKNEEQPETKAKSAEEDSKNKEESDKPKSDQDSKKDEGQKEEKDKQKRDEKKEKDKKTYTLKIEEGKPSSDISEKLEKNGIIDDASKFNDYLEDNDYSKKVQLGEFKVSSDMSLYEIAEAITR NA NA NA NA NA AK015_02923 102 hypothetical protein ATGAAAAATAAATCGTTATGTGGGATTTTCTTGGTTATTGCTTCGTTAATTGGGTATCGACTGTTAAGTGATTATATGGAAGAAACGAGAGATTTTAGGTAA MKNKSLCGIFLVIASLIGYRLLSDYMEETRDFR NA NA NA NA NA AK015_02924 1215 COG1252 NADH dehydrogenase-like protein ATGAGTCTAAATAAACCCAAAATAGTGGTGTTGGGGGCGGGTTATGCAGGGCTAACAACAACAAAACGCCTTATGCAAAAATTGTCTCCTGAACAAGCAGAAATAGTATTAGTTAACAAACATAATTATCATTATGAATCTACTTGGTTACATGAGGTTGCTGCAGGAACGATTAATCCAAATCAAGCGCGCGTTATAATTAGTGATGTTATTAATCCAAATAAAGTAAAGCTTGTCGTTGATGCTGTAACAAAAATCGATAAGGATAACCAGCGTGTCATTTTAGAAAACAGTGAATTGGATTATGATTATCTTGTTGTTGCTCTTGGATTCGAATCAAATGATTTTGGAATTAAAGGTATGGCGGAGCACGCGTTCGCTATTGAAGATATTGATTCCAGCCGTCTAATTAGTGAACACATAGAATATCAATTTGCAAAATATAATTCAGGTGAAAGTGTTGATGAGCATAGCTTGAATATTTTGGTTGGTGGTGCTGGCTTTACAGGAATAGAATTAGTTGGGGAACTTGCAGAACGTGTCCCGCAATTATGTAAAAAATACGATATTGATCGTAATAAAGTAAGAATTATTAATGTAGAAGCGGCTCCATCTATTTTACCAATGTTTGATAAAGAGTTGGTTGAATATGCGAAGAAATCATTAGAAGATCGTGGCGTAGAAATTAAGATTGGCGCGCCAATTTCAGAATGTACAGAAGAAGGGTTTATTGTAGGGGAAGACAATGAACTGATTAAGGCTGGTACAATTATTTGGACAGGCGGCGTAAAAGGAAGTTCTGTGCTAGGAAACTCTGGCTTTGAACTTACGAAAGGAAAAGTAAATGTAGATAGTGACTTACGTGTGTCTGGCGATGAAAATATTTTTGTTATAGGTGACTGTTCTTGGGTTTGGGATCATAACGCAGATCGTCCGTATCCGCCAACTGCACAATTAGCTATGCAAGAAGCGGATGTTGTAGCTGCAAACTTGGTTGCTTTATTAAACAATGAGCCATTAACCGATTTTGTCTTTAAGAGTAAAGGAACAGTTGCATCACTTGGCCATTCAGATGGAATCGCAAATGTGTTTAATGATAATAAACTTAAAGGAAAAGCAGCAGCTGCGATGAAGAAAGTAGTAGATAATCGTTCTCTATACCTTATAGGTGGACCTAAGCTAGTACTTAAAAAAGGAAAATTTCGTCCATTTTAA MSLNKPKIVVLGAGYAGLTTTKRLMQKLSPEQAEIVLVNKHNYHYESTWLHEVAAGTINPNQARVIISDVINPNKVKLVVDAVTKIDKDNQRVILENSELDYDYLVVALGFESNDFGIKGMAEHAFAIEDIDSSRLISEHIEYQFAKYNSGESVDEHSLNILVGGAGFTGIELVGELAERVPQLCKKYDIDRNKVRIINVEAAPSILPMFDKELVEYAKKSLEDRGVEIKIGAPISECTEEGFIVGEDNELIKAGTIIWTGGVKGSSVLGNSGFELTKGKVNVDSDLRVSGDENIFVIGDCSWVWDHNADRPYPPTAQLAMQEADVVAANLVALLNNEPLTDFVFKSKGTVASLGHSDGIANVFNDNKLKGKAAAAMKKVVDNRSLYLIGGPKLVLKKGKFRPF PGPT0004020_4344 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 AK015_02925 501 fadD_2 COG0318 Long-chain-fatty-acid--CoA ligase ATGGAACAAACGGAAGTCCGTGTAATTAATCATAAAGGGGAAGATGTAGCACCGAATGGGAAAGAAATTGGAGATATTATTGTCAAAGGAAATGGTGCCTTACAACATGCTGCACACCAGCAAACACTTGAAGATGGTTGGATTTTCACAGGTGATAGAGGGACAGTAGATGAAAATGGGCATATTCATGTACAAGAAGCAAGAAAAGACATTCCTCATTCCACAGGTGCTATATCTACAGCCTACTTAGAGCAAACTTTACAGCAACATCCATCCATACAGGAAGTGGCGGTTGTCCCTATACCGCATAAAGAAAAAGGGGAAATTGCACACGCTTTTGTCGTTTTAAACGAAGAAAACACCATATCCGAAGATAGCCTCCTTTCTTTTTGCAAGCAACATTCTGAAAATTCCTATATTATCCACATATCTATTGTAGAAGAATTGCCAAAAACAGCTAGTGGAAAAATTTTAAAAACAGAGCTAAGAAATAGACTTTAA MEQTEVRVINHKGEDVAPNGKEIGDIIVKGNGALQHAAHQQTLEDGWIFTGDRGTVDENGHIHVQEARKDIPHSTGAISTAYLEQTLQQHPSIQEVAVVPIPHKEKGEIAHAFVVLNEENTISEDSLLSFCKQHSENSYIIHISIVEELPKTASGKILKTELRNRL NA NA NA NA NA AK015_02927 1287 Uracil permease GTGACACAACATAAAGAAATACAAGTAGATGAACGCTTGCCTTTGTTAACGAGTTTACCACTTAGTATCCAGCATTTATTCGCAATGTTTGGCTCAACAGTACTTGTTCCCATTTTATTCGGGGTCAATCCAGCAACGATATTAATGATGAATGGTGTTGGTACATTAATTTACTTATTGATTACAAAAGGGAAAATCCCTGCCTATTTAGGCTCTAGCTTTGCATTTATTTCACCTGTTACAGCCGTTCTTGCAGAATATGCTGGTGGAGAGGGTTACAGCTATGTATTAGGTGGTTTTTTAGCTGTCGGTGTTGTCCTATGCATCTTCGCCTTTATCGTTAAACTTGCTGGCACAAGGTGGATTGACATCATTTTCCCACCTGCTGCTATGGGAGCTATTGTTTCGGTTATTGGATTAGAACTTGTACCTACTGCTGCTGAAATGGCTGGGTGGATCGCACCAGTTGGAGCTGATGCATCATGGACCATTAACTCAGACACAGCTATTGTAGCTTTACTCACTTTATTAATCACAATTATTTGCTGGGTAACATTACGAGGGTTTTTGAAAATCATCCCGATTTTAATCGGAATTATTTCAGGGTATATCATCGCCTATTTTTTTGGATTAGTAGATCTTTCAGCAGTTCGTGAAGCAAGCTGGTTTTCTATGCCGGAATTTTATCAAATGAAATTTGATTGGGGAGCTATTTTAACCATCTTACCAGCTGCTATTGTACTTGTTCCTGAACATATCGGTCATCTATTTGTAACAGGGAATATTGTGAAAAAAGATCTTGCTAAAAACCCTGGCCTGGATCGTTCACTCGCAGGTAATGGCATATCGACCATTATTTCTAGCTTTTTCGGCTCTACACCTAACACCACATACGGTGAAAATATCGGCGTATTAGCAATCACAAAAGTGTACTCTACATGGATTATTGGTATGGCAGCAGTTCTCGCTATTATATTGTCGTTTGTAGGAAAGCTTGCAGCACTGATTTCTTCTATTCCTACCGCTGTTATGGGAGGGATATCTTTATTACTGTTCGGTATTATTGCAGCAAGTGGACTACGCATGCTAGTAGAAGCGAACGTAGATTATAACCGTTCGCAAAATTTAATCCTATCAAGCGTTGTATTAGTAATTGGGGTAAGTGGTACGACTGTACAGATTGGCTCTGTTGCCTTATCAGGTATGGGGCTAGCAACAATTGTCGCTATCCTCCTTAGCATCTTCTTTAAAATATTGGATATACTGAAATTGTCAAATGAAGGTTAG MTQHKEIQVDERLPLLTSLPLSIQHLFAMFGSTVLVPILFGVNPATILMMNGVGTLIYLLITKGKIPAYLGSSFAFISPVTAVLAEYAGGEGYSYVLGGFLAVGVVLCIFAFIVKLAGTRWIDIIFPPAAMGAIVSVIGLELVPTAAEMAGWIAPVGADASWTINSDTAIVALLTLLITIICWVTLRGFLKIIPILIGIISGYIIAYFFGLVDLSAVREASWFSMPEFYQMKFDWGAILTILPAAIVLVPEHIGHLFVTGNIVKKDLAKNPGLDRSLAGNGISTIISSFFGSTPNTTYGENIGVLAITKVYSTWIIGMAAVLAIILSFVGKLAALISSIPTAVMGGISLLLFGIIAASGLRMLVEANVDYNRSQNLILSSVVLVIGVSGTTVQIGSVALSGMGLATIVAILLSIFFKILDILKLSNEG NA NA NA NA NA AK015_02928 1410 gltS_1 Sodium/glutamate symporter ATGACAGCAAGCCAAGTTGGATTTGCTTTTTTATATGTGGCCGCTTTTTTGCTCTTAGGAAAATGGGTGCGGGTAAGAGTTGCTTGGTTGCAGAATTTATTTTTACCAGCCTCCATTATTGGAGGTTTTTTAGCTTTAATGCTTGGACCGCAAGTACTTGGGAAAATACTACATCTATTTGTAGCAGAAGACTCTTTTTGGGTGAATGGAATTTTTCCGGAGCAAGTAACAGCAGTCTGGAACGATTTACCAGGATTATTCATTAACGTTGTTTTTGCTTCGCTGTTTCTTGGAACTTCCATTCCAGGTTTACGGAAAATATGGGACTATGGTGGACCACAATTAGCTTTTGGCTGGACAATTGGCTGGGGTCAGTATGTGATAGGAATTCTGTTAGCTATACTTGTATTGAGCCCCGTATTCGGTCTGCCGCCACTAACGGGCGCCCTTATTGAGGTAGCATTTGAAGGAGGGCATGGGACAGCTGCTGGTTTAGCTGGAACATTTGAAGAAATTGGCTTTGCACAAGGATATGATTTGGCAGTAGGTCTTGCTACAATTGGGATATTATCAGGCGTAATTGTCGGCATTATTTTAATTAACTGGGCGGTACGAAAAGAAAAAACACATGTAATAAAAAATGTACAAGGTTTTTCAGATTTACGAAAGCAAGGAATTATGGAATTTGAAAATCGTGATCCAGCTGCCAAAATGACTGTAAGACCAGAGTCCATTGAACCATTGTCGTTACATTTTGCTTTAGTTGGCTTAGCCGTATTAGTCGGATATCTCCTTTTACAAGCTCTCATATGGCTAGAGTCGGTTATTATTACACCGTTTACAGACTCTACCTTTATGACTTATATCCCATTATTTCCACTAGCCATGATTGGCGGGATATTTGTCCAGAAATTTTTTAATAAAATAGATAACGCACAAATTGTAGATAGAAATATGATTAATCGAATTCAAGGGTTTGCGTTAGATTTACTAATTTTAACGGCTATAGGTACAGTATCCATTGATGTAATAGGGGATTATATTGTTCCGTTTCTGTTACTAGCAATTACAGGGATAGTATGGAATGCGTTGGGATTTTTAATTTTAGCACCAAGAATGATTCCCTCTTATTGGTTCGAACGTGGAATTGGTGATTTTGGGCAATCGATGGGAATTACTGCAACAGGTCTATTATTGATGCGAATTGTAGACCCTAGAAGTGAAACACCTGCTTTTGAAGGTTTCGGTTATAAGCAACTTGTATATGAACCATTTCTTGGCGGGGGTCTCGTAACAGCTCTTTCTGTACCACTGATTTACCAATTTGGAGCTATTCCATTTCTGATTTTTGCAATCGTTATGTGCGTGACTGGTGCTCTGGTAGGCTTGCTATACTTTGGAAAAAGATAA MTASQVGFAFLYVAAFLLLGKWVRVRVAWLQNLFLPASIIGGFLALMLGPQVLGKILHLFVAEDSFWVNGIFPEQVTAVWNDLPGLFINVVFASLFLGTSIPGLRKIWDYGGPQLAFGWTIGWGQYVIGILLAILVLSPVFGLPPLTGALIEVAFEGGHGTAAGLAGTFEEIGFAQGYDLAVGLATIGILSGVIVGIILINWAVRKEKTHVIKNVQGFSDLRKQGIMEFENRDPAAKMTVRPESIEPLSLHFALVGLAVLVGYLLLQALIWLESVIITPFTDSTFMTYIPLFPLAMIGGIFVQKFFNKIDNAQIVDRNMINRIQGFALDLLILTAIGTVSIDVIGDYIVPFLLLAITGIVWNALGFLILAPRMIPSYWFERGIGDFGQSMGITATGLLLMRIVDPRSETPAFEGFGYKQLVYEPFLGGGLVTALSVPLIYQFGAIPFLIFAIVMCVTGALVGLLYFGKR PGPT0000810_113 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000810-gltS-K03312 NA NA AK015_02929 1359 dacC_2 COG2027 D-alanyl-D-alanine carboxypeptidase DacC GTGAAAGAAAGTATAGAAGCATATATAAAGAATGAGTCAAGATTACAAGGGGCACTGATAGGTATAAGTATAAGGGATGCAAATACCGGGAAAATGATTTATGAGCATATGGGAGATACGCGATTTCTTCCAGCCTCCAATATGAAACTACTAACAGCTGCGGCTAGCTTGAACGTGTTAGGTGAGAAGTACTGTTTTAGTACGGAGTTACGTACAGACGGAGTGATAGAAGGAGGAAAACTAAAGGGGAATTTATATGTAGTTGGTAAAGGGGATCCAACGTTACTGCCAGAAACGTATCAACGATTTGCTCAACAATTGCATGCATTAGGAATACATTTTATTGCAGGAAGTATAATTGGTGATGATACGTGGTATGATGCTGTTCGCTTGTCACAGGATGTAATTTGGAATGATGAGACTTTTCATTATGCATCTTCCATCTCTGCACTAACTATTTCACCAGATCATCGGTACGATGCAGGAAGTGTTTATGTGAAAATATCGCCTGGAAAATATGGAGATGATGCTAAGGTAACTGTATCACCAAAAACAGCCTATATAGATGTGCTCAATACGATAAGGACAGGGAAAAAAGGGGGAGAAGAAGATGTTACCATGATAAGAGAGAGGAACGGAAATACGATTTATTTATCAGGAGAAATTCCAGAAGGTGGGGAGGGGGTGGAAGAATGGCTAGCTGTTTGGAAGCCCACTGATTACGCGCTACATATTTTTCAAGCAGCGTTAAAAAAGCAAGGAGTTCTAATAGAGGGGAGTATGTGTCGTGGGCAAGCTCCGGATAGTTCAACATTATTATATAAGCACCATTCTCCCGCTTTAAAGAAACTAATGCTTCCATTTATGAAAAATAGCAATAATACCATTGCGGAAATACTTGTAAAGGAAATGGGTAGACAAGTATACGGAGAGGGCAGCTGGGAAAAAGGTTTGCAAGTTTTAGAACGGGAAATGGACGGCATAGGAATGAATTTGGAAACAATGGTTATTCGAGACGGTTCAGGTATATCACATATAAACATGATACCTGCGAACGAAGTAACCAAGCTACTATACAAAATTCAAAAAATAGATTGGTTTAATACATATTTACATGCGTTACCACATACTGTTGCACAAGAACCATGTATGCTTGGTACACTACAAGGGCGTATGGAAAATCTTGATGTTAAGGCTAAAACAGGGACCATTTATGGTGTAAGTACGCTTTCCGGATATATGCACATAAAAAAGGGAGATAATATTATCTTCTCTCTGTTATTAAACCATTTAGTAGATGAAGACGAAGGTAAAGAGATAGAGGATCGTATTTTAAACATTATAGCAAGCGCACGATAA MKESIEAYIKNESRLQGALIGISIRDANTGKMIYEHMGDTRFLPASNMKLLTAAASLNVLGEKYCFSTELRTDGVIEGGKLKGNLYVVGKGDPTLLPETYQRFAQQLHALGIHFIAGSIIGDDTWYDAVRLSQDVIWNDETFHYASSISALTISPDHRYDAGSVYVKISPGKYGDDAKVTVSPKTAYIDVLNTIRTGKKGGEEDVTMIRERNGNTIYLSGEIPEGGEGVEEWLAVWKPTDYALHIFQAALKKQGVLIEGSMCRGQAPDSSTLLYKHHSPALKKLMLPFMKNSNNTIAEILVKEMGRQVYGEGSWEKGLQVLEREMDGIGMNLETMVIRDGSGISHINMIPANEVTKLLYKIQKIDWFNTYLHALPHTVAQEPCMLGTLQGRMENLDVKAKTGTIYGVSTLSGYMHIKKGDNIIFSLLLNHLVDEDEGKEIEDRILNIIASAR PGPT0024035_2585 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259 NA NA AK015_02930 1251 dinB_2 DNA polymerase IV ATGGATTATTCCTTTTATCCCCGTAACGATGTTTTATGCATCGATATGCGTTCTTTCTACGCCAGTGTAGAAGCGGTTAAATTAGGGCTTGATCCAATGGAAACTTTATTAGCTGTTGTCGGCGATCCCAACCGTTCAGGTAGTATTGTACTTGCTGCTTCTCCTGCACTCAAAAAGAAATATGGAATTAGTAATGTCAGCCGTTATTTTGAACTACCAAAGGTTCCAGATCTACATATTGTTCCAGCACATATGGCAGACTATTTAGAAGTATCCACAGAAATAACTAAATTACTCTATCAATATGTTCCAAAAGAGGCTATCCATCCCTATTCTGTTGATGAAGTATGGGTTACTGTTAACGGATTGAAAAGGCGATTTGGAAATCGTCTATCTATAGCGAAACGGATTAAACATGATATTCTAGAATGTTTTGGCATTACATGCTCCATTGGTATTGGAGATAATAAGTTTCTTGCTAAAGTCGTGATGGATATTCATGCAAAAAAACAAGGCATTGCCGAATGTACATATGAGGATGTACAACAAAAACTGTGGCCCGCTCCAGTGGAAACGATTTGGGGAATTGGAAGCAGAATGAAGAAAAATCTCGAACGAATGGGCATTATAACATTAGGACAACTCGCGCGTTTTGACTTACAACGACTACGAAAACGTTTCGGGGTTATGGGAGAGCAATTATATTGGCATGCATGGGGGATTGATTTGAGTCCCGTCATCGGCAATTTTGTGAAAACAAAGCAAAAGGGGTTTGGTCATGGTATTGCATTATTACGCGATTACGCAAAAGAAGAAGTTCATGTCTGTATACTGGATCTTTGCGAAGAAGTATGCCGAAGAGCAAGAACCGTTCAGATGGCAGGAAAAACCATTCAACTTGGAATTAGTTATTCAAAAGAAACAGGGGGCGGCTTTTCCCGTTCGACTTCTATTTCTATACCAACTAACGCCACAATGGATATGTATCATGTTTGTATGGGGTTGTTTTTTCGTTTTTACGATGGCAGGAGTAGTATTCGTCGAGTATATGTGACTTTAACCAATTTATATACGAAACAAGATACACAACTGAGCCTATTTGAAAACCGTACGAAAAAAGAGGATATTGGCTATACAATGGATGCTATCCGAGAAAAATATGGACCTACCTCCATTCTCCGTGCAATCAGCTATACAGATGCAGGCATTACAATCGAAAGGAGCAAAAAAATTGGTGGGCACTATGCTTAA MDYSFYPRNDVLCIDMRSFYASVEAVKLGLDPMETLLAVVGDPNRSGSIVLAASPALKKKYGISNVSRYFELPKVPDLHIVPAHMADYLEVSTEITKLLYQYVPKEAIHPYSVDEVWVTVNGLKRRFGNRLSIAKRIKHDILECFGITCSIGIGDNKFLAKVVMDIHAKKQGIAECTYEDVQQKLWPAPVETIWGIGSRMKKNLERMGIITLGQLARFDLQRLRKRFGVMGEQLYWHAWGIDLSPVIGNFVKTKQKGFGHGIALLRDYAKEEVHVCILDLCEEVCRRARTVQMAGKTIQLGISYSKETGGGFSRSTSISIPTNATMDMYHVCMGLFFRFYDGRSSIRRVYVTLTNLYTKQDTQLSLFENRTKKEDIGYTMDAIREKYGPTSILRAISYTDAGITIERSKKIGGHYA PGPT0014882_2020 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014882-umuC-K03502 NA NA AK015_02931 933 iolS COG0667 Aldo-keto reductase IolS ATGACTAAAGTTACATTAGGAAAATCAGATATCGTTGTTTATCCAATTGGGTTAGGTACCAATGCTGTCGGCGGGCATAATTTGTATCCAAATATGCTTGATGAGGAACAAGGAAAGAATGTTGTGCGTACAGCCTTAGATCAAGGAATTAATATGTTGGATACAGCGTATATTTATGGACCTAAACGCTCTGAAGAGTTAACCGGTGAAGTGATGAAAGAATATAACCGGGAAGATATCGTGCTGGCAACGAAAGGAGCGCATAAATTTGTTGGTGATGAAGTGGTCATGGATAATTCCCCAACTTTTTTGAAGCAGTCCGTCGAAGATAGTCTTCGCCGCTTGCAAACAGATTATATTGATTTATATTATATTCATTTTCCAGATCAAGATACACCAAAAGATGAGGCAGTTGGAGCGTTGAAAGAATTAAAAGATGAAGGAAAAATTCGTTCCATAGGTGTGTCTAATTTCACATTGGAACAATTGAAAGAAGCGAATAAAGATGGCTATGTAGACGTAGTGCAAGGCGAATACAATTTACTAAAACGTGAGGCAGAAGATAGCTTTTTCCCTTATACAGAAAAAAAGAACATTACTTTTATCCCTTATTTTCCACTGGAATCAGGCTTGCTTGCTGGAAAATATGCTAAAGATCAAACATTTACAGATTTACGAGCTGAAAATCCTAATTTCCAAGGTAATACATTTCATGAAAACCTTGAGAAAGTGGCGAAATTAAAACCAATTGCCGAGAAATATAACGAAGAAATTGCTCATATTGTTTTAGCATGGTATCTCACCCGTCCTTCTGTAGATGTCCTTATTCCAGGTGCCAAGCGGCCAGAACAAGTAGTTAGTAACAAACGTGCTGCTACGATTGCACTTGCCGCAGAGGATGTGCAGTTGATCAGCGATATTTTCACATCATAG MTKVTLGKSDIVVYPIGLGTNAVGGHNLYPNMLDEEQGKNVVRTALDQGINMLDTAYIYGPKRSEELTGEVMKEYNREDIVLATKGAHKFVGDEVVMDNSPTFLKQSVEDSLRRLQTDYIDLYYIHFPDQDTPKDEAVGALKELKDEGKIRSIGVSNFTLEQLKEANKDGYVDVVQGEYNLLKREAEDSFFPYTEKKNITFIPYFPLESGLLAGKYAKDQTFTDLRAENPNFQGNTFHENLEKVAKLKPIAEKYNEEIAHIVLAWYLTRPSVDVLIPGAKRPEQVVSNKRAATIALAAEDVQLISDIFTS PGPT0018520_172 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 AK015_02932 879 dpaA_2 Dipicolinate synthase subunit A ATGCTGCATATTCTCGTAGTCGGTGGGGATAAAAGATATATACATGTTATCGAAACATTGGCTAAATCAGAAAACAACTTATATTTAATTGGATTTGATACGGTTTCTTTTGATAAATCTAATGTTAAGCATGCCAAGTTAGAGCATATGGATCTTTCTATTATCGATGCGATTATTTTACCTATTGCAGGGACAGATGAAAGGGGCCAAGTTGAAATCATGTATGCAAATGGACACTTTTATCTTACAGAACAAATACTTTCCTCTACTCCTGATCATTGCACCATTTATACAGGAACTGCAAATGATTACTTACAGGGAATGTGTAAAGCAGCACAACGAAGTTTAATACGATTATTTGATCGAGACGACGTTGCGATTTATAATTCTATCCCAACAGCAGAGGGGGCATTAAAAATTGCGATAGAAGAAACGGAGGAAACGATTCATAACGCAAATGTATGTGTGCTTGGATTTGGCAGAGTGGGGAAAACAGTAGCACGACTTTTTCATGCAGTCGGTGCTAACGTATATGTAGTAGCTAGAAACCATGCAGATTTAGCTAGGGTTACAGAAATGGGGTTAACTCCTATAAAACCTAATCGACTACATAAGCTACTAGCTGATATGGCTATCTGTATCAATACAATCCCTTCCTTAACTATCGATGATGAACATTTAAGCAAGATGTCGATTTCTACCGTAATTATTGACCTGGCTTCAAAACCTGGTGGCGTAGACTTCGTAGCTGCACAAAAACGGGGGATAAAAACCGTGCACGCGCTCGGTTTACCAGGCAAAACAGCACCTAAGTCAGCTGGTAGAATAATAGCTAATATATTATTGGAAAGTTTAAAAAGCGAACAGAAACACCACTAA MLHILVVGGDKRYIHVIETLAKSENNLYLIGFDTVSFDKSNVKHAKLEHMDLSIIDAIILPIAGTDERGQVEIMYANGHFYLTEQILSSTPDHCTIYTGTANDYLQGMCKAAQRSLIRLFDRDDVAIYNSIPTAEGALKIAIEETEETIHNANVCVLGFGRVGKTVARLFHAVGANVYVVARNHADLARVTEMGLTPIKPNRLHKLLADMAICINTIPSLTIDDEHLSKMSISTVIIDLASKPGGVDFVAAQKRGIKTVHALGLPGKTAPKSAGRIIANILLESLKSEQKHH NA NA NA NA NA AK015_02933 3093 hypothetical protein TTGAGACCGATAAAATTAACCATGACTGCATTTGGTCCATACAAGGATAAGGAAGTTATTCATTTTGATGAACTTGGGAATCATCGTTTGTTTGTAATTGGTGGTAATACAGGAGCGGGAAAGACCACCATTTTTGACGCGATTTGTTTTGCGTTATATGGCGCTGCCAGTGGCCAAGATAGAGAAAATAATACGATGCTTCGAAGTGATTTTGCTGAAGATGATGTTCATACAGCTGTTGAACTTTTGTTTGAATTAAAAGGAGATCAGTATCGCGTTTTACGTCAATTGGGACATGTGAAAAAAGGGAATAAAACGAAAACGGGAGAACGATATGAGTTTTTTGAAGTCACGAATGACGGTGACATACCTTGTGTAGATAGACAGATTGTTTCTGAAATTGATAAAAAAATAGAACAGCTAATTGGCCTCACGCAAGATCAGTTTAAACAAATTGTTATGCTTCCACAAGGTGAATTTCGTAAATTGTTAACGTCGCAAACGGAAAATAAGGAAGAAATTTTGCGACGATTGTTTAAAACGGAGACCTACCAAGCCATTGCAGAGCGATTCAGGCGAAAAAAATCAGCAGCAGAAGAAGCGTTCAAGCAAGCAGAGCAGGAACAAAAACAATATATAATGCAAATTCATACTTCCTTACCAATACGAGAGGACGCCCTACTTTTCCAAACGTTAGAGCAAGAAAGCTATAACATGCATCAAGTTTTGCGCGGTCTTGAAGAGGAATGTCGCTATTATCAATGGAAAATAGCAACAGATAAACAGAAATATGAGCATGCATATCTTGCCCATGATAAAAAACAAAAGGAATTTTATGGGGCAAAGGCTATAAATGAACGATTTGCAGAATTACAGCAAAAGCAAGTACGTTTAAAAGACCTTGAACAACGAGAAGCGGAATATCAACAAAAAAAGCAAAAACTTACGCAAGCGGAATTTGCACAAGGAATTGTTCTGTTGGAGCAACAGAGAAATGATTGGCTAAAAGAGGAAGAAAGAAAAGAACGACAACTAAAAAATGGAAAACACCACAAGCAGCGTGTCGATGAACAATTAAGTAATGTAAACAAACAATTAGAGGCTGAAGAAAAACGTGAACCTGAGCGAGAAGAGGTTCGGAAAAAGCTAGATAGATTAAATAATTATTTACCTATCGTGGAACAAATTGATGAAATGAAACGGCAGTTAATGGCGATGGAAAACCAAGCTAAGCAAGCAGCTGATGCCCTTTATGCTACAGAACAACTTTTGGTGAAGAAAAAGGACAAAATAGATCAAATGGAAAAGCATATGCATGAGCTTGACCAATTCGTAGAGAAGCTTCCTGATAAGCAGGAAGAATTAAATACGATGCGTGAGCAATTTAGGTTAGTACATGAATATCGTAAACTAATGGAACAACAAATCCTGTTAAAAAACGAAGCGAAGCAAAAAGAAAAAATAGCTATCCAAATGAAAGGGCATTATAACAAACTTGAACAAACATGGATGGATAACCAAGCCGTTTATTTAGCTGCCCATTTGCATGAAGGGGAGGCATGTCCGGTTTGTGGAAGCCTAGACCACCCGAGTAAAGCTATACAACAATGGGAGAAAGTAACGAAAGAGCAATTAGAAAAAGCGAGAAGAGAATTTGAGAGAGTCGACACAGCATATCGAGATGTACGTGGTAAGTTAAAAGCGAATCAAGAAAATGTTCGCGTAAAAGCAACTGAATTAGAAAAGCAGCATATAGCTAGCACAAACGTAAAACAAAAAGAGGAGCAACTTGCAACAGTTGGTAAAAAGCTAAATGCTGAGGTAGAAAGGCTAAGACAAGCACGTCATCAACGTGGAGAAAGGAAGCTTGCGCTTGAAAAGCTTCAATCCGAATATAAGGCATTGGAAGCAAAGGTAAAAGAGCAACAGCAATTGGAGCAACAATTAAAGTTAACATTAGCACAAAAGCAGGCAGCTTATCAGGAAAGGATACAGTCTGTACCAGAGAGCATGCGTGTACTTGCAGACTTGAAAGAGCAAATCTTTAAAACAGCCACTCATTTAGAGCAACTAAAAAGTGCATGGGAAGCTATACAAAAAGAGCAACAGAAATGGAAACAGGAACAAACGAAAGTTCATTCAGAACTCACTCAAGTCATGAAGCAGCTAGACGAAACGGTTAAAAAGCGAGAGAATGCTGTTGACCAATTTTTACAAGCTTTAGCAAAGGAAGGTTTTTCCTCAGAAGCCACCTATCAAAAAGCAAAATTGCCTGAATCTGAACGGGTAGCATTGAAACAAGATTTAGAACAATACTATCAGTCTATCTCTTCTATACGTGAACAGGTTCAAGAATTAGACGCTATGTTAGTAGGTAAGGAGCAGTTAGATGTAACTGTTATGCAACAGGATTTACATCGTTTAAAAGAAACGTACGAATTAGCTTTAAGTAGATGGAATGAATCCAAACAGTATGAACAAGAAGCAAAAGCATTAAAGCAATCGGTACAAAAAGTAATGGAAAAAGTAACAAATTATGAACGTCAGTTGCAAAGAGTAGCTGATTTATATGATATGATTCGAGGTCAAAATCATCGAAAAGTCTCGTTTGAACGTTATTTGCAGATTGAATACTTAGAACAAATTATTGCTGCAGGAAATGAGCGGTTAAAAGAACTGTCAAATGGGCAATATGCCTTTATTCGTAGTGATCGTCAAGAATCATACGGGAGACAAAGCGGTCTTGCCCTTGATGTATATGATGCTTATACAGGTCAAACGAGAGATGTCAAAACTTTATCAGGAGGAGAGAAGTTTAACGCTTCACTTAGCTTAGCACTCGGAATGTCTGATGTGATTCAAAGCTTTCAAGGTGCTATTTCAATTGATACGATGTTTATTGATGAAGGTTTTGGTACGCTCGATGAAGAGGCATTGAATAAAGCAATTGATACGTTAGTCGATTTGCAGCAATCAGGAAGAATGATTGGCATCATTTCTCATGTGCAAGAATTAAAAGCAATTTTTCCAGCTGTGCTTGAAGTAACGAAGTCCAAAGACGGTTCTAGCAGAACAAAATTTTTAATTAAATAG MRPIKLTMTAFGPYKDKEVIHFDELGNHRLFVIGGNTGAGKTTIFDAICFALYGAASGQDRENNTMLRSDFAEDDVHTAVELLFELKGDQYRVLRQLGHVKKGNKTKTGERYEFFEVTNDGDIPCVDRQIVSEIDKKIEQLIGLTQDQFKQIVMLPQGEFRKLLTSQTENKEEILRRLFKTETYQAIAERFRRKKSAAEEAFKQAEQEQKQYIMQIHTSLPIREDALLFQTLEQESYNMHQVLRGLEEECRYYQWKIATDKQKYEHAYLAHDKKQKEFYGAKAINERFAELQQKQVRLKDLEQREAEYQQKKQKLTQAEFAQGIVLLEQQRNDWLKEEERKERQLKNGKHHKQRVDEQLSNVNKQLEAEEKREPEREEVRKKLDRLNNYLPIVEQIDEMKRQLMAMENQAKQAADALYATEQLLVKKKDKIDQMEKHMHELDQFVEKLPDKQEELNTMREQFRLVHEYRKLMEQQILLKNEAKQKEKIAIQMKGHYNKLEQTWMDNQAVYLAAHLHEGEACPVCGSLDHPSKAIQQWEKVTKEQLEKARREFERVDTAYRDVRGKLKANQENVRVKATELEKQHIASTNVKQKEEQLATVGKKLNAEVERLRQARHQRGERKLALEKLQSEYKALEAKVKEQQQLEQQLKLTLAQKQAAYQERIQSVPESMRVLADLKEQIFKTATHLEQLKSAWEAIQKEQQKWKQEQTKVHSELTQVMKQLDETVKKRENAVDQFLQALAKEGFSSEATYQKAKLPESERVALKQDLEQYYQSISSIREQVQELDAMLVGKEQLDVTVMQQDLHRLKETYELALSRWNESKQYEQEAKALKQSVQKVMEKVTNYERQLQRVADLYDMIRGQNHRKVSFERYLQIEYLEQIIAAGNERLKELSNGQYAFIRSDRQESYGRQSGLALDVYDAYTGQTRDVKTLSGGEKFNASLSLALGMSDVIQSFQGAISIDTMFIDEGFGTLDEEALNKAIDTLVDLQQSGRMIGIISHVQELKAIFPAVLEVTKSKDGSSRTKFLIK NA NA NA NA NA AK015_02934 1182 sbcD Nuclease SbcCD subunit D ATGAAATTTTTTCATACAGCAGATTGGCATCTTGGTAAGCTTGTGCAAGGCGTATATATGACCAATGATCAAAAATATATTATAAAAAAATTTATTCAAGCTGTTGAAGAGGAACAGCCTGATGCTGTCATTATTGCAGGAGATTTGTATGATCGAGCAGTACCGCCTACAGAAGCTGTACATTTATTAGATGAAACGTTAGGTAAAATCGTCTTAGAGCTAAATATACCGGTTCTTGCAATTGCGGGTAACCATGATAGTCCAAGCAGGCTTGATTTTGGAAGTAAAATATTGCGTGAAAATGGTTTGCATATTGCAGGGAACCTCTCAGAACCAATTAGGCCAGTAGTCTTACATGATGCGTATGGAGAAGTCCATGTCTACCTCATTCCCTACTGTGACCCAAGTATTGTACGCCATGTTTTTGGTAATGATACCGTTCGGACGCATAATGATGCCATGAAAATAATTATTCAACATATAGAAGCATCCATGGATCCAAATGCCAGGCATGTATTTGTAGGACATGCTTTTGTGACCCCTTATGGGGAAAGAGAGGCGAATACTAGTGAATCAGAAAGACCGTTGTCTATAGGAGGATCTGAATACGTAGAAGCTGATTTGTTTCATAGCTTTCACTATACTGCCTTAGGTCACCTTCATCAAGCGCATTATGTCAAAAGAAAAGAGATTCGTTATGCAGGTTCTCCTTTAAAATATTCGATCTCTGAAGAAAATCATCGCAAAGGTTTTTTTATTGTGAATGTAGATGGGGAAGGTGAAGTAGAAATTGAAAAACAGCTACTCCTACCGAAAAGAGAAATGCGAAGAGTGGAAGGCGCATTAGATGAGCTTTTACAACTACCAATGAATGAAGACTATGTGTTTATTAAACTGACAGATGAAACTCCTGTCTTATCACCGATGGAAAAACTCCGCTCTGTGTATCCAAATGCAATGCACGTTGAGAGGAAAACGTTTTTCACAACGCCTGGTGCTTCTGAGAAGGAAAAAATGGTAGAACGAACAAAAATGTCAGATATGGAACTGTTTGAAGCTTTTTATAAAGAAGTGAAAGGAGAGGCTCCAGACGAGGAGACCGTAAAATTGTTTCAAGATACCTTGCATGATCTTTTAACAGAACAAGATGATACAAAAGATGCCACTCATACACTTCAATAA MKFFHTADWHLGKLVQGVYMTNDQKYIIKKFIQAVEEEQPDAVIIAGDLYDRAVPPTEAVHLLDETLGKIVLELNIPVLAIAGNHDSPSRLDFGSKILRENGLHIAGNLSEPIRPVVLHDAYGEVHVYLIPYCDPSIVRHVFGNDTVRTHNDAMKIIIQHIEASMDPNARHVFVGHAFVTPYGEREANTSESERPLSIGGSEYVEADLFHSFHYTALGHLHQAHYVKRKEIRYAGSPLKYSISEENHRKGFFIVNVDGEGEVEIEKQLLLPKREMRRVEGALDELLQLPMNEDYVFIKLTDETPVLSPMEKLRSVYPNAMHVERKTFFTTPGASEKEKMVERTKMSDMELFEAFYKEVKGEAPDEETVKLFQDTLHDLLTEQDDTKDATHTLQ NA NA NA NA NA AK015_02935 723 COQ5_4 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGCGTGGAGGTGAAGGTGTGAATTATTTGGAAAGTTTGGCTAAGCTTGGAGTGGGCGGCGCCCATCCAGGAGGGCTAAAGTTAACAAAAGAAATAGTAGCACAGCAATCTATTGATCATACAACTAAATTACTCGATATTGGGTGTGGCACAGGACAGACGGCGGCTTTTATCGCGAATCAATATGCATGTTCTGTTACAGCAATGGATATCCATCCGATCATGGTGGAAAAAGCTAAGCAGAGATTTCTAGATGGCGAAGTTCCCATTTCCGTCGTTCAAGGTAATATAGAGCAGATGTGTTGGAGTGAGCAGTTTGATATTGTTCTTTCGGAATCTGTTTTAGCATTTACAAATATATCAAAATCGTTAACTTCTATTAGGAATGTTTTAAAATGTAATGGATGTTTCTTAGCTGTTGAAATAATGGTTGATGAAAGTGTGGGAGAGAGTGATAAGCATGCAATCGCATCATTTTATGGGTTCCGTCATTTATTAACAGAAACAGAATGGCGTGAAAAACTCTCTCAGTCTAGTTTTAAGCAAATTAATATCGAACAACCAAGCCTAAATCCATTACCTATAACGATAGATGAAGCACAAGATTTTCATTTTTCAAATTCAGAAATAGATGAGGCATTAGATATACTGCATCAACACCAAGCGTTGACGAAGAGGTATAAGGAGAAGCTTCCATATGCCGTATTTCGTTGCACGAAATAA MRGGEGVNYLESLAKLGVGGAHPGGLKLTKEIVAQQSIDHTTKLLDIGCGTGQTAAFIANQYACSVTAMDIHPIMVEKAKQRFLDGEVPISVVQGNIEQMCWSEQFDIVLSESVLAFTNISKSLTSIRNVLKCNGCFLAVEIMVDESVGESDKHAIASFYGFRHLLTETEWREKLSQSSFKQINIEQPSLNPLPITIDEAQDFHFSNSEIDEALDILHQHQALTKRYKEKLPYAVFRCTK NA NA NA NA NA AK015_02936 786 hypothetical protein ATGGCGGGGGTTATTCGTACGGATAAATGGCTGCTGCATGACGATAACCAACCACTCCAAATTGCCAAACGATTAAAAAAATACTTCCCTGATGCGGAAGCAGAAGAAGTCCTCCATCATTTGACAATGTTCGGCATGAGTCGTTCAGCAGTAACCAAAAAACAAATACAGAAGATGCAGGAAGCAAACATATGGAAAATAGTTGCAAAAGATTATCAACAGTTGCAACATGATTGGGAAGGAGATAACATTCCTATTTTTATTCTTCCATCTGATACTGCGAACTATAAATTAAGGAAAGAATTTAATGGAAAGGCCGGGCTAAGCTTTAACGATAAAATTTTCTTATTTCTATCTGAGTGGAATACTAAAATGGAGATTCGAGCGCTCTTAACACATGAGTACAACCATGTTTGCCGGTTGACAAAATATAATAAACCAGAAAGTAAGTATACGTTATTAGATACGATTATTTTAGAAGGAATGGCAGAATACGCTGTTTACAAACGGCTTGGTGTAGAGCATACAGCTAGTTATATTGGAAAATATAGCGATGATGTATTACATCAGTTTTGGAACAAATACATTGCACCAAAAAAAGAACTAGAGCCAGAATCAAAAACATACTACCACTTACTGTATGGATCACATTTGTACCCAAAAATGCTAGGATATTGTGTTGGAGAATGCCTTGTTCGTACCTATGCGAGCAAACATGAATTGTCTTTAAAAGAGTTGTTTACGATTGAAAGTGATAAAATTGCTGAAACAGATATACATGACTAG MAGVIRTDKWLLHDDNQPLQIAKRLKKYFPDAEAEEVLHHLTMFGMSRSAVTKKQIQKMQEANIWKIVAKDYQQLQHDWEGDNIPIFILPSDTANYKLRKEFNGKAGLSFNDKIFLFLSEWNTKMEIRALLTHEYNHVCRLTKYNKPESKYTLLDTIILEGMAEYAVYKRLGVEHTASYIGKYSDDVLHQFWNKYIAPKKELEPESKTYYHLLYGSHLYPKMLGYCVGECLVRTYASKHELSLKELFTIESDKIAETDIHD NA NA NA NA NA AK015_02937 1146 yfcJ_2 putative MFS-type transporter YfcJ GTGAAAAAGCTTTTATATTTTATTATTGTTGTTTCATTTATTGATACGTTTATTCAATTGCCTATCATAACTCCATATGCAAAAAGTCTTGGGGCTTCAAATATATTAACAGGTGCAATTGTAGCTGTTTATTCATTAACAAACATGTTCGGCAATATATTAGGTGGACACTGGATTGACAAGTATGGCCGAAAGCGCATGCTGTTTATTGGTATGATCTCGGTTACGGTTATTTTACTGTTATATCCACTTGCTGCCACAGGTACTCAGTTATTTATTATTCGATTATTACATGGACTTGCTGGTGGTTTTTTAATTCCTTCTGCTTTTGCGTATGTAGGTGACCAGACGAGGGTTGGTTCTAGAGGAAAAGCCATGGCCTTTACAGGCGCAGCGATTGGAATTGCAGCCATTGTAGGACCAGCTGTTGGTGGTGCTTTAGCTGCTCGCGGGCAGATAGAGTATGTGTTTCTATTCGTAGCAGGGTTGTTTTTCATGACGTCTTTTCTAGTCCTTCGCTATTTAGAAGAATCATTTATTTCCAGAGATAGATCCAAAGTTCATGTCAAGCATTTCATTCCATTATTAAAAAACCCTTTATTATTGCAAGCCTCCCTAGCAGCGTTTGCTTTAATGATTAGTAATGGAACATTGGCGTTTGCTTTACCTTTAAAGGTGGAAGCGATTGGGTTGAATGCTAGTGCAACTGGAGCATTGTTAAGCACATTTGGAATTATGGCAATTATAGTATTCTTAACTCCTATTAATCGAATTTATGATCGAGCGCAACCGTTGACTTTAGTTGGTGGGGGGATTTTATTAATAGGAATTTCGATGTTATTTTTAAGTTACATTACACAATTTTGGTTAGGAATTTTAACAATGATTGTGTATGGAATCGGGTTTGCACTTGTTTTTCCTTCCATGAACCGTATGGTAGCAGAAAGTTCTACTAAAACAGACCGCGGAAAAGCATATGGCATATTTTATGCATTTTTTTCATTAGGAGTTGTCGCTGGCTCTTCTATCTCCGGAGCAATTGCCGAGTGGTGGGGGATACCGTTTATTTTTACAGCCTTTGTGATGCTTGTCGTTTGCACCATTCTTTTTGTTATTGATCGTATTCAAAAAAGTAAAAGACATTAA MKKLLYFIIVVSFIDTFIQLPIITPYAKSLGASNILTGAIVAVYSLTNMFGNILGGHWIDKYGRKRMLFIGMISVTVILLLYPLAATGTQLFIIRLLHGLAGGFLIPSAFAYVGDQTRVGSRGKAMAFTGAAIGIAAIVGPAVGGALAARGQIEYVFLFVAGLFFMTSFLVLRYLEESFISRDRSKVHVKHFIPLLKNPLLLQASLAAFALMISNGTLAFALPLKVEAIGLNASATGALLSTFGIMAIIVFLTPINRIYDRAQPLTLVGGGILLIGISMLFLSYITQFWLGILTMIVYGIGFALVFPSMNRMVAESSTKTDRGKAYGIFYAFFSLGVVAGSSISGAIAEWWGIPFIFTAFVMLVVCTILFVIDRIQKSKRH PGPT0003185_898 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 AK015_02938 1224 gltP_2 COG1301 Proton/glutamate-aspartate symporter ATGCATATCTGGAAAAAATATAAACAGACTTCATTTGTCATTAAAATGACTATAGCTTTCATTGCTGGAATCATTATCGGAGTAATATTTCAAGATCAGACAGATATACTCGAACCATTAGGTACGTTGCTCATTCACTTGCTAAGTTTAGTCGCTATTCCTGTTATCTTCCTGACAGTGGTGCTTGCAGTAAATAAAATGAAAATTCATCAACTCGGTCGTATGGGTGGCAAATTAATGCTATATTACATGGTTACGACTGCAGCCGCTGTGTTGTTAGGCCTCGCATTAGCTTTATGGATCAACCCAGGTACAAGCTTAACGCTTCCAGACACGCAAGTGGAAGAACCTGAAACACCAAGCTTTTCAGATATACTGTTACAAATTGTGCCTAAAAATATTTTCACTGCATTTACATCTGGAGATCTCATGTCTATCTTATTTATTGCTGTCATTATGGGAATTGCTATTTCTACCATGCGCTATGCGAATGGCAAAAAAATGAAAGAATACGGTGACTTATTAAATACTTTTTTCACCGCGCTCAATGAAATGTTTTACAAGATTTTGCAAGGAGTCTTGTTATACGCCCCAATTGGAATTTTTGCTATTAGTGCAACTGCATTTGGAAGCCAAGGTTGGGACACATTCCAATCGTTATTAAAATTTACGGCGGTTTTTTATTTAGGTATTTTACTATTATGGGTATTCGTATATACAGGCTTTTTAAAATTGGCCAACGTTCCTGTCATTTCTTTCTTTAAGCAAACGAAGGAAGCCTATACCACTGCATTCTTTACATCTAGTAGTATTGCCTCCCTCCCTATTTCCATAAATTCAGCTAAAAAAGCAGGCATTTCGGAAACAACAGCGAACTTTGCACTTCCACTCGGTGCTGTTTTCAATTCCGACGGTGGGGCGTTAAGGATGGGTGTTTCATTGGTATTTGCAGCAAATATTACTAATTTAAGCCTCTCGCCGACAGATTTTCTAGTCATTATTATGATCGGTACTCTTCTATCCATAGGGACAGCAGGCGTACCTGCAGCAGGCTTAGTAACCTTATCAGCTGTACTAGGCATGTTCGGCCTACCACTTGAAATCGTCGCTTTAATTGCCGGAGTAGATGCGTTAATTGGAATGGCTGGTACTGCTTCAAATGTCATTGGAGATATCGTTGGAGCGACAGTTGTTGATAAATCAGAACGAAAACGAGCTGCATAA MHIWKKYKQTSFVIKMTIAFIAGIIIGVIFQDQTDILEPLGTLLIHLLSLVAIPVIFLTVVLAVNKMKIHQLGRMGGKLMLYYMVTTAAAVLLGLALALWINPGTSLTLPDTQVEEPETPSFSDILLQIVPKNIFTAFTSGDLMSILFIAVIMGIAISTMRYANGKKMKEYGDLLNTFFTALNEMFYKILQGVLLYAPIGIFAISATAFGSQGWDTFQSLLKFTAVFYLGILLLWVFVYTGFLKLANVPVISFFKQTKEAYTTAFFTSSSIASLPISINSAKKAGISETTANFALPLGAVFNSDGGALRMGVSLVFAANITNLSLSPTDFLVIIMIGTLLSIGTAGVPAAGLVTLSAVLGMFGLPLEIVALIAGVDALIGMAGTASNVIGDIVGATVVDKSERKRAA NA NA NA NA NA AK015_02939 1305 hypothetical protein ATGGAAGCAGAAATAAAAAAACAGCAATCGATCCAAAGTAATCAGTTGCTAAAATTAGAGTACGTATTAGGAATTGTTGCTATTATATCCGTTTTTATTTTAGGCAGCGTACTTCTAAAGACAGATATGTTATTTTTTAGACTACTCATTGGGGTGGGGCTTGGGTATACGTTAACACGTGCTTATACCGGTTTTGCTGGAAGCATTAATCGCGCTTATGCCACTGGTTCAACAAAATTGCTTCGAGCGATGGCATTAATGTTTTTTGTTACTACGTTAGCAACGACTACATTTTTATTGTATTCTAACCCTACAAACTACGATTTATGGATTAACCCAATTAATGTTGGTTTAATTGCAGGTGGATTGTTGTTCGGATTTGGCATGGCCTTCTCTTCATGCTGTGCATCAGGTGTGTTAACAGATTTAGCGACAGGTTTTCCTAGAGCACTAATCACCCTTTTATTTTTTGGTATTGGCATTTTTATTGGATTTCCAATTCAGCATACGGCTAGTTGGGTTTCTGATTCATGGTTTTCTACCTCTATAGGGAGCCAATTACAAGGCGGCGTATTCTTACCGGATCTTTTTAAATGGGATGGTCTAAACGGATATGTTGGAGCTATTTTACTTACTGCACTCTTCTGTGGAATAACCGTCTATTTTGCCTATCGTTATGAAAGAAAAAGAAAGCAACAAAATCGATATATGGAACATGAAACTGAAAAATTACAAGAGCAACCGGATACATTTGATAGTAAAGATTATAAGCTATTCAGCCAAGCAACTTACAACCGTGTTTTTATTAAACCATGGTCTCTGAAACAAGGAGCAATTGTAATTAGTGTATTATTCGTATTACTAATGGGCGTTACAAAAGCTGGCTGGGGAGCTTCTACTCCGTTTGGTATTTGGTTTGGAAAAATAGTAATGTTCTTAGGAGTTTCGCCAGAATCCGTTGCTTCCTTTACTAAAATGTCAGCTGACCCGTTTGTATTGCCTTTCTTCGAGCATCCAATATCTGTCCAAAACTTTGGTATCTTAGTAGGAACGGTGATCTATTTATTAACAGCTGGGAAAATGAAAACAATGTTTTTACAAGGTGCTCATATTCAAAAGAGAGAAGCAGCTCTATTTGCTTTAGGTGGGATTACTATGGGACTTGGCACAAGACTTGCCAATGGATGTAATGTCGGAGCATTATTTACTCCAATTGCAAACTTCTCCCTATCAGGTTGGATATTCTTTATCTTTTTAGCATTAGGCGGTATTATCGGTAATATGCTAGCTAAACGTTTATTTTAA MEAEIKKQQSIQSNQLLKLEYVLGIVAIISVFILGSVLLKTDMLFFRLLIGVGLGYTLTRAYTGFAGSINRAYATGSTKLLRAMALMFFVTTLATTTFLLYSNPTNYDLWINPINVGLIAGGLLFGFGMAFSSCCASGVLTDLATGFPRALITLLFFGIGIFIGFPIQHTASWVSDSWFSTSIGSQLQGGVFLPDLFKWDGLNGYVGAILLTALFCGITVYFAYRYERKRKQQNRYMEHETEKLQEQPDTFDSKDYKLFSQATYNRVFIKPWSLKQGAIVISVLFVLLMGVTKAGWGASTPFGIWFGKIVMFLGVSPESVASFTKMSADPFVLPFFEHPISVQNFGILVGTVIYLLTAGKMKTMFLQGAHIQKREAALFALGGITMGLGTRLANGCNVGALFTPIANFSLSGWIFFIFLALGGIIGNMLAKRLF NA NA NA NA NA AK015_02940 1695 cdr_2 Coenzyme A disulfide reductase ATGAATAAAAAAATTGTTGTTATCGGCGGTGTTGCCGGTGGCGCTTCAGCTGCAGCAAGAGCAAGAAGATTAGACGAACACGCTGAAGTGATTATGTTTGAGCGAGGCCCTCATGTGTCCTTTTCAAACTGTGCATTGCCATTTCACTTAAGTGGCATTGTTGAAAATAGCGATGATCTTGTACTAATGAACCCAGTCCAATTCAAAAAACAATACAATATCGAGGCACGTGTAAATAGTGACGTGATTTCTATTAATCGTAGAAATAAAACGATTACAGTGAAAAATGTGCTAACTGGAGAAAGTTACGATGAGAGTTATGATAAACTCGTCCTCTCTCCTGGAGCAAACCCTATTGTTCCGTCTATACCTGGAACAGAAATGGACCATGTATTTACCGTACGAAACGTAGTTGATATTGCTAAATTAGATGCATATGTCAAACAAGATACCGTAAAGCAAGTAGCTGTCATTGGTGGTGGATTTATTGGTATCGAAGTTGCAGAAAATCTTCGCTTAGCTGGATTGGACGTATCGTTAATTGAATTCAGTAATCAAGTTATGGCTCCTTTCGATTACGATATGGCGCAAATCTTGCATAAAGAAATGATCGATCAAGGTGTGAACTTAGTTGTAGATGATGGCTTAGCAAAAATAGAAACAAATGAAATTGAACTGCAATCTGGTAAAAAACTAGCAGCAGACGCTGTCGTGCTTGCTATTGGTGTGAAACCAGAAACTACTTTAGCAGAGCAAGCTGGGCTTGAAATCGGACAAACTAGCGGCATTAAAGTAGATCATAATTACGTCACAAACGATTCTGATATATATGCAGTTGGAGATGCCATTGAGGTGTATCATAAACAGACCCACAAGCCTACTAGACTAGCTCTAGCAGGACCTGCGCAACGTCAAGCTCGAGCTGCTGCTGATCATATGAACCGAATTCCACATCGCAACACGGGAGTCATTGGTTCTTCTTGTATCCATGTGTTCGATTTAAATGCTGCGGCTACTGGGTTAAATGAAAAAGAAGCTAAAAATGCGGGTATTTCTTATGATTTTGTTTATATTATTCCAAATGATAAAGTTGGCTTAATGCCGGAAAGTCATCCAATTCATTTTAAATTAATTTATGAATATCCAACAGGAAAAATACTCGGTGCCCAAGCCATTGGCAAAGGCAACGTTGATAAACGCGTCGACGTCATTGCGACGATGATTACGATGGGTGGAACATTAGAAGATTTAAAAGAGTTGGAGCTTTGTTATTCTCCAATGTTCGGAACAGCGAAAGATGTTGTTAACTTTGCAGCATTAGTTGCGCTCAATCGTTTAAACGGCGAATTCAAGCAAGTTCCGGTAACAAAAGTACGTGAATTAGTAGAAAATAACGCTTTTATTATGGACGCTAGAGAAAAACATGAATACGAACGCGGTCATTTGAAAAATGCAGTGAACATACCTTTAAGCGAATTTAGAGATCGACTAGATGAAATCCCACAAAACGAGCCTGTATACGTGCACTGTCGTTCTGCACAGCGTAGCTATAATGCAGTGATGGCATTACAGCACTTGGGCTATACAAATGTGTATAATATATCAGGATCTTTTCTAGGAATCTGCTTATATGAGTATTATAATGACCAAGTAACTGGAAGAGAAAAAATCGTCACTGCGTATAACTTTAAGTAA MNKKIVVIGGVAGGASAAARARRLDEHAEVIMFERGPHVSFSNCALPFHLSGIVENSDDLVLMNPVQFKKQYNIEARVNSDVISINRRNKTITVKNVLTGESYDESYDKLVLSPGANPIVPSIPGTEMDHVFTVRNVVDIAKLDAYVKQDTVKQVAVIGGGFIGIEVAENLRLAGLDVSLIEFSNQVMAPFDYDMAQILHKEMIDQGVNLVVDDGLAKIETNEIELQSGKKLAADAVVLAIGVKPETTLAEQAGLEIGQTSGIKVDHNYVTNDSDIYAVGDAIEVYHKQTHKPTRLALAGPAQRQARAAADHMNRIPHRNTGVIGSSCIHVFDLNAAATGLNEKEAKNAGISYDFVYIIPNDKVGLMPESHPIHFKLIYEYPTGKILGAQAIGKGNVDKRVDVIATMITMGGTLEDLKELELCYSPMFGTAKDVVNFAALVALNRLNGEFKQVPVTKVRELVENNAFIMDAREKHEYERGHLKNAVNIPLSEFRDRLDEIPQNEPVYVHCRSAQRSYNAVMALQHLGYTNVYNISGSFLGICLYEYYNDQVTGREKIVTAYNFK NA NA NA NA NA AK015_02941 1323 gabP_2 COG1113 GABA permease ATGAAAACGACATTAAATCGCTTTGATATATTAAGCTTAGTATTAGGTTCTATTATCGGCTGGGGAGCATTTACGCTTCCCGGCATTAAATTTCTTCCAGAGTCTGGCGTTATTAATGCAACGATTGGTTTACTGTTAGGCGGATTTGCCATTATTTTCATTCAAAAGGGTTATCATATTATGATGCAGCAACACGCTGAAGATGGAGGCGGCTTTTCTTATACGTTTAAAAACCTAGGGAAAATGCATGGCTTTATTGTTGGCTGGTCTTTAATCCTTTGTTATTTAAGCATCGTCCCTTTGAATGCCACAGCTTTTGTTTTAATTGTTAAAATATTATTTGGAACGAACGTAGAATGGTTCTATCTTTACGATATTGCTGGGTACCCTGTATATTTATCGGAAGTACTAATAGCAAGCATCGTACTTATATTATTTGCCATTCTAAATATCAGAGGCTTACGGAAAAGCTCCAATGTTCAAAACGTAATGGTATTATTTTTAATCATTAATATTGTCATTGTTTTTATTGCCATGCTTTTTGATACTGGTTCAGCTACTATTTCCACGAATTATATAAAAAACTATACGTTTAACCTTTCAGAAATAGCCAAAGTCGTTGCCATCATTCCGTTTCTATTTGTGGGATTTGATATTATTCCTCAAGTAGCAACTCAGTTAAAATTCAAACCTGAAAAAGCGACATGGATAGCCATTCTTTCCGTTTTTTCTGGAGTAGTTGCGTACAGTATATTAACAATTGTAACTGCCCTTGCATTTTCTCCTGATCAAGCAAAACAATTAGATTGGGCCCTTGGCGAAGCAGTTTTAACCCATGTTGGAAGCATCGGATTTCTGTTATTGATTATTGCCCTAATGACTGCTGTATCTGGAGGAATTAATGGATTCATGATTAGTAGCAGCCGATTACTAGCTTCGTTATCCGTTTATAAGCTATGTCACCCTAAATATAAGAAACTGACCCGTAACGCCGTACCAGTAAACAGTGTTCTATTTGTCACTGCAATCAGTCTGCTTGCTCCTTGGTTTGGCAGAGAAGTGATTATTTACATTGTCGATATGTCATCATTTTTAGCTGCTATTGCGTATTTCTACGTATGCTTGATTAGTTATAAGTATGCGACAACAAAATGGGATCAATGGCTAACGTTCATAGGAATTATTATAAGTATTAGTTTTATTTTACTTTTAATTCTCCCACAATCACCTGGGAAACTAAGTACACCTTCTCTCCTTTTTATGGGATTATGGGGGATCATTGGATTCTTTTATTATCGTAGCTATACAAAAAAACATGCATAA MKTTLNRFDILSLVLGSIIGWGAFTLPGIKFLPESGVINATIGLLLGGFAIIFIQKGYHIMMQQHAEDGGGFSYTFKNLGKMHGFIVGWSLILCYLSIVPLNATAFVLIVKILFGTNVEWFYLYDIAGYPVYLSEVLIASIVLILFAILNIRGLRKSSNVQNVMVLFLIINIVIVFIAMLFDTGSATISTNYIKNYTFNLSEIAKVVAIIPFLFVGFDIIPQVATQLKFKPEKATWIAILSVFSGVVAYSILTIVTALAFSPDQAKQLDWALGEAVLTHVGSIGFLLLIIALMTAVSGGINGFMISSSRLLASLSVYKLCHPKYKKLTRNAVPVNSVLFVTAISLLAPWFGREVIIYIVDMSSFLAAIAYFYVCLISYKYATTKWDQWLTFIGIIISISFILLLILPQSPGKLSTPSLLFMGLWGIIGFFYYRSYTKKHA NA NA NA NA NA AK015_02942 1050 gutB_2 COG1063 Sorbitol dehydrogenase ATGAAAGCAGCAATTTGGTATGCAAAGAAGGATATTCGTGTTGAAGAAGTTAATGAACCAACAGTTCATGCAGGGGAAGTGAAAATTAAGGTAGCTTGGGCTGGTATTTGTGGAAGTGATCTCCATGAATATGTTGCTGGACCAATTATAATCCCGACGGAGGATCCTCATCCGTTAACAAAAAAAACGGCACCCGTTATTATGGGACATGAATTCGCTGGAGAGGTAGTAGAAGTTGGAAAAGATGTTACGCAAGTAACGGTAGGTGATCGAGTTACGGTGGAGCCGATGATCACTTGTGGGAAATGTAAAGCTTGTCGTCAAGGTCGTTACAATCTTTGTGAAGTCAATGCAGCCTTTGGTTTGTCTGGTGTTGGTGGAGGCTTTTCTGAGTATACCGTTGTTAATGAAGATATGGTTCATAAAATTCCTGAGCATATGAGCTATGAGTTAGCAGCTTTAGTTGAACCTACAGCAGTTGCCATGCATGCAGTAAAACTTAGTCACTTAAAAATTGGTGATACCGTCGCTGTTTTTGGAGCAGGGCCAATTGGGTTGTTAACGATACAAGCAAGCTTTCTAGCTGGAGCAAAAAAGGTATTTGCGATTGAATTATCAGAAGAGCGAAGAAAAGTTGCTACTAAGCTAGGGGCAGTGGCTATTCATCCAGCAGAGACAAATGTTGCGGAAGACATTATGAAGCAAACCAATGGAGAAGGTGCAGATGTTAGCTTTGAGGCTACAGGCGTTCCGGTAGTATTAGAACAAGCTGTCAACAGCACGAAAATGGGCGGAGAAATTGTTATTGAAAGTTTATGGGAATCCAAACCGGAATTGGATGCTAATAGCTTTGTTTTTAAAGAACTACATTTAGTCGGATCGATCGGTTATCGCAATATCTTCCCGACAGTGATTGAGTTAATAGCTGACGGCAAGCTTGATGTAATCGATTTAATAACGAAAAAAATTACATTAGATAACATCGTGGAGGAAGGGTTTGAATCTCTTCTTCAAGAAAAAGCGCAAGTGAAAATATTGATTGAACCTTAG MKAAIWYAKKDIRVEEVNEPTVHAGEVKIKVAWAGICGSDLHEYVAGPIIIPTEDPHPLTKKTAPVIMGHEFAGEVVEVGKDVTQVTVGDRVTVEPMITCGKCKACRQGRYNLCEVNAAFGLSGVGGGFSEYTVVNEDMVHKIPEHMSYELAALVEPTAVAMHAVKLSHLKIGDTVAVFGAGPIGLLTIQASFLAGAKKVFAIELSEERRKVATKLGAVAIHPAETNVAEDIMKQTNGEGADVSFEATGVPVVLEQAVNSTKMGGEIVIESLWESKPELDANSFVFKELHLVGSIGYRNIFPTVIELIADGKLDVIDLITKKITLDNIVEEGFESLLQEKAQVKILIEP PGPT0008200_720 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 AK015_02943 1173 fmdA Formamidase ATGGAAACGTTATTCAAGGTTGATTTGAACAAGCCAATGGATAAACAAGACATACCTGGACATAATCGTTGGCACCCTGATATACCTGCTGCATTTGCAGTAAATCCAGGGGAATCCTTTCGTATGGAGTGTTTGGAATGGACCGATGGACAAATTAAAAATAATGATGACCCCTCTGATATACGTAAAGTTAATTTAGAGCGTGTACATGTACTAAGTGGACCAGTATATGTAAATGGTGTGGAGCCCGGTGACTTGCTGGTCGTTGACATTCTTGATATTGGCACTTTCGGAGAGCAGCTATGGGGCTTTAACGGCATTTTTGCAAAAGAAAATGGCGGTAGCTTCTTAACCGACTATTATCCACAAGCCGCAAAATCTATTTGGGACTTTCACGGTATTTACACTACTTCAAGACATATACCTAATGTCAAATTTGCAGGATTAATTCATCCTGGGCTCATGGGTGTAGCTCCCTCTCAAGAACTTTTAAACGAATGGAATAGACGGGAAAAAGAATTAATTGCTTCTAATCCAGAACGAGTCCCTCCACTTGCTAATCCACCAACAGAAGAAAGCGTTGTTTTAGGTAATGTAACTGGTTCTAACTTCGACCGAATAGCCAAGGAAGGGGCTAGAACTGTTCCTCCTCGCGAGAATGGTGGCAATTGCGATATAAAAGACCTGTCTAAAGGTTCTCGTGTATATTTTCCAGTATTTGTTGAAGGGGCGAAATTATCTGTAGGAGACCTCCACTTCTCACAAGGTGACGGGGAAATCACCTTTTGTGGTGGAATAGAAATGTCTGGGTGGATTGAATTACGTGTGGATGTTATCAAAGGTGGTATGGCGAAATATCAAATAAAAACAAACCCTGTCTATCAACCAGGTCCAGTAAACCCACATTATAACGAATATATTGTCTTCCAAGGCGTATCCGTTGAGCCAAACGGAAAACAAACTTACTTAGATGCCAATGTCGCCTACCGCAACGCATGTTTAAATGCCATTGATTTTCTAAAGACGCAAGGATACACTGGAGAACAAGCCTATATGCTTTTATCTGCTGCACCAGTACAAGGGCATTTAGCAGGAGTTGTTGACATACCTAATACTTGCGCAACAGTTGGCATACCAAAAGAAATATTTACGAAGAATATCTTACCATTGTAA METLFKVDLNKPMDKQDIPGHNRWHPDIPAAFAVNPGESFRMECLEWTDGQIKNNDDPSDIRKVNLERVHVLSGPVYVNGVEPGDLLVVDILDIGTFGEQLWGFNGIFAKENGGSFLTDYYPQAAKSIWDFHGIYTTSRHIPNVKFAGLIHPGLMGVAPSQELLNEWNRREKELIASNPERVPPLANPPTEESVVLGNVTGSNFDRIAKEGARTVPPRENGGNCDIKDLSKGSRVYFPVFVEGAKLSVGDLHFSQGDGEITFCGGIEMSGWIELRVDVIKGGMAKYQIKTNPVYQPGPVNPHYNEYIVFQGVSVEPNGKQTYLDANVAYRNACLNAIDFLKTQGYTGEQAYMLLSAAPVQGHLAGVVDIPNTCATVGIPKEIFTKNILPL PGPT0000620_750 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455 NA NA AK015_02944 267 hypothetical protein ATGGCCACTTATACTTTTAACTGCCAATTATGTGGTGAATTTTCAGTGTGGCATCAAAGTATAAAAGGTAATAAACAAATAACGACCTGCCCAACTTGTCATGCTGCTTCCAAGCGGGTATTTAAACCACCCATTATCTTTCAAATGGACCAAACCGTAAAGAAACAAATTGAACGCGGAATGAAACCACAATTGATCAAAAAACAGCATTTGCCCTCAACACCTATTGGATCAAAAACGAAAACAAAGCGACCTTGGCAGGTTTGA MATYTFNCQLCGEFSVWHQSIKGNKQITTCPTCHAASKRVFKPPIIFQMDQTVKKQIERGMKPQLIKKQHLPSTPIGSKTKTKRPWQV PGPT0000620_980 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455 NA NA AK015_02945 534 hypothetical protein TTGATTCCGATCTACAGAGAAAAAGAAATTTATACAATGTTTTATGATAGTAAACAGAACAAACTTTATAGGTATGCACATAGAGAGAAGTCCTCTTTTTTATACATTTTACTGTTTATAATAATTATTAATAGTTCTGGATTGTTAAACCAAATTTATCAGCCATATAAAGGATTTCTATTAAATATTATTTTACTTATTATATCTAACTTCGTTTGTTACTTTGTGGCCAAATATCTATATAGCCGTTACTATATTCAAACCACTGGGAAAGGCATTTTTTTAGACCAAGAGAGTATGAAAGAATACGCTAGAAAAGGTGAAGAACAATATTACCTTGAATTGAATTTAGGTGGTGGAATTTGTTTGTTCGTAGTTGTAATTGGTTTTGCGTTATTTTGTATATTTAACCAAATACAATTTCTAATAATCGGATCTTTAGGGAGCATCCCATTATTTATGATTTTTTTAAATAGACCATTTAGGAGATTGCAGGTTTTAAGGGCGTTTCAAAATAAAGAAATTGAATTATAG MIPIYREKEIYTMFYDSKQNKLYRYAHREKSSFLYILLFIIIINSSGLLNQIYQPYKGFLLNIILLIISNFVCYFVAKYLYSRYYIQTTGKGIFLDQESMKEYARKGEEQYYLELNLGGGICLFVVVIGFALFCIFNQIQFLIIGSLGSIPLFMIFLNRPFRRLQVLRAFQNKEIEL NA NA NA NA NA AK015_02946 378 hypothetical protein ATGAAAAGCGTATTTAATGGATCATTTTCTCAAGTAGAAGAAACTGTTAGTGAGAGTTTTGCAAAGAATTCAATTAATATGGTTAAGGGATTTAATTTATTAAAGGCATTCATATTCATGGTTTTTTGTATTGGATTAGCTTCATATGCTTTGTATGGGGCAAGTATCTATATAAGTAATATTATGAATCAAGCTACAATACCATTAGATCAAAATAATGAATTTATCACTATATTTGATAATATCTGGTATATGCACATTCAGTCTATTTTAATACTAACAGTAGTGATTGGTACATTAGTATATAGAAAGAAAGATAATATTAAAAGTTTTTTGTATACAATACATTTTTTACTATATTTCTACTTTTATTCATGA MKSVFNGSFSQVEETVSESFAKNSINMVKGFNLLKAFIFMVFCIGLASYALYGASIYISNIMNQATIPLDQNNEFITIFDNIWYMHIQSILILTVVIGTLVYRKKDNIKSFLYTIHFLLYFYFYS NA NA NA NA NA AK015_02947 825 hypothetical protein ATGAAGAGCATATTTACTGGGTCTTTTTCTCAAGTGGAAGATACAATTAGTGAGAACTTTATGAAAAACTCAATTAACACTATAAAAAAATTCAAACTGTATAAATTGATTTTAGTAATTTTATTTTTTTCGGGTAGCTCTTATGTTGTTTACGGAGTAAGTTTTTTCTTTACTAACAATATAGATGATTTAGCAGTACCAATCGACAAAAACAATGAATTTATTTCTGTTTTTTCAAGTATATGGTATATACATATACAAACTTTTATATTTTTTATCGCTGGATTGATAGCTTATATATATAGAGAAAGAAATCATGCAAAAGGTTACTTTCTATTCAACATTCTTTTTTCTCTTGGTGGGTTATTATTTTTGCTTTTTGCTTTCAAATTCACACAATTAATGGTGAATAATTATATATTACGTATGTTATATACGGCATTATTTTTATGTAGTATTATCTTCGTTTTTTATCAAAGCTATCAAAATGCAAAGAAAATGGTGTGTGGTACAAAAAAGAAAAGATTAGCATTAGTTGAATGGCTAAATACAAACAGAAAAAATGTTACAAGTGTATTATTTGGATTTGGAGCTTTATTTTTTCTAACAAAAGTTATCTCTCCAGAAGTAGCTGATCTAGAAACTAGAATAATGGGCTCATTAATTGATTTTGCACCTTTAGCTATATGTTTCGCATGTTTATTATTTTTATATTTTAACAGTGTCGCAATAAGAAGTTACTATTTATACAAGTACTCGGAGAGATTTAGGCAGAAATTTGGAGTTACAGAGGCAGATTGGTATGGGGGAAAATATAAGGGTTAA MKSIFTGSFSQVEDTISENFMKNSINTIKKFKLYKLILVILFFSGSSYVVYGVSFFFTNNIDDLAVPIDKNNEFISVFSSIWYIHIQTFIFFIAGLIAYIYRERNHAKGYFLFNILFSLGGLLFLLFAFKFTQLMVNNYILRMLYTALFLCSIIFVFYQSYQNAKKMVCGTKKKRLALVEWLNTNRKNVTSVLFGFGALFFLTKVISPEVADLETRIMGSLIDFAPLAICFACLLFLYFNSVAIRSYYLYKYSERFRQKFGVTEADWYGGKYKG NA NA NA NA NA AK015_02948 615 hypothetical protein ATGAAAAGGTTTTTAATGCTAATCATGATTGCGCTTTTGTTTTTATTGGTTGCATGTAGTAATGATGCAAAGGAAATTGACTACAGTGAGAAGCAATCTGAAGATACAGAAGCGCAGGCGAAAACAGATAATGGAAATGAACAAAACACAAGTGAACATGATGGAGGTCAAATGCACGACTTACAATTGAAATTACAGAAACAGGACAAAGATGCGGGGATGACAATTCAAAATAATGAAATCTATACGGTTTTAGATGAAGCAATTAAAGCTGATCCCAAAATGGGAGTTCCAAATGATTTTAGCCTCTATCCGTTTGATATTTCAATTAACCCTGATGGAAGTCGATCCATTTTATTCCTGGCTATTAATCGACTAAAAGATTCTATGAAGAATATCAAATTTGATATGACATTTGGAAATCAAGAAGGAGAATACATATTTGAAAATATGGAGTTAGTGCTTACTGAAGAAGAGTTTGGCATCCTTCATGCTGATACCGCAATACCATTTATGCTGGATGTAACTCCACAACAGGAGCAAATGTTTAATCGTTTAACAAAAGATAACGTGTATATAGACATGGCTAATTTTGAAATGGATATAGAAAAGTAA MKRFLMLIMIALLFLLVACSNDAKEIDYSEKQSEDTEAQAKTDNGNEQNTSEHDGGQMHDLQLKLQKQDKDAGMTIQNNEIYTVLDEAIKADPKMGVPNDFSLYPFDISINPDGSRSILFLAINRLKDSMKNIKFDMTFGNQEGEYIFENMELVLTEEEFGILHADTAIPFMLDVTPQQEQMFNRLTKDNVYIDMANFEMDIEK NA NA NA NA NA AK015_02949 444 hypothetical protein ATGATTGTAGAACAACATCATATTGCGCATACAAATGTAGTTTCAAAATACTATCAGTTTGTACCTGAAGAAATTGATATAGCCATTAAAGATTTTCAATCTATTTTGGAAAAGGAAGGATACCATCCAGATGGTAGAATGTTATTTACTATTTTGAGCGACCCAACAAGTGAGGTTATGCAGGCAGAAATTTTTTTGCCAATTCTTGAAAGTAATTTTACAATTTCGGATGAAGAGCAAGCATATTTTCGTAGTTACTTTTCTGTCAAGCCAATGATAATGACACGCTTAATGGATGATTTTGAATTAGCATCTCAAGTGAAGTTTTGGGAGCTAATGCACTATATAAGACAAAATGGATTGCAACAGAAAACCCCTGTGTTAGTAGAGTATAAGACTAGCCATATGGGAAGAAGATATGTGGAGATGAGTGTAGGAGTTTAA MIVEQHHIAHTNVVSKYYQFVPEEIDIAIKDFQSILEKEGYHPDGRMLFTILSDPTSEVMQAEIFLPILESNFTISDEEQAYFRSYFSVKPMIMTRLMDDFELASQVKFWELMHYIRQNGLQQKTPVLVEYKTSHMGRRYVEMSVGV NA NA NA NA NA AK015_02950 459 hypothetical protein TTGCAATTTGAAACTCGCTCACTTATTTTTGATAATTTATTAATCTATGAAACAAGGCAGTTAAGAAAAAATTGGCAACAAGGTTTTTTCATTATGGAAGATTTTATACTTGCGGAAGGTATTTACCAAAATGGTCCCATATTTTTTTCGGTTTCTCCTGAAAAGAACGAAGATAAATTTGGTAAGTTCACATATTATTTGCCAATTAGCGAGCCTGTTAAGTTATCAGATGAAACCGACTTTGATTTCCAAGAGAAACTATATATTAAAGACGCTTTAGTTTTACGCCAGGCGGATCAAGCAACTGATTTCCATGCTGCTTATCAACGAATTCAAGAATATGCTCATCTTCATGATGTACCAATAGATGCTACATTTTATTGTGTACTGTTGGAAGTATATGATGATTTTATCATTGATCTATATGTACCTTTCAATCATAGAGGTGAGGGGTCATGA MQFETRSLIFDNLLIYETRQLRKNWQQGFFIMEDFILAEGIYQNGPIFFSVSPEKNEDKFGKFTYYLPISEPVKLSDETDFDFQEKLYIKDALVLRQADQATDFHAAYQRIQEYAHLHDVPIDATFYCVLLEVYDDFIIDLYVPFNHRGEGS NA NA NA NA NA AK015_02951 780 hypothetical protein ATGCTTAATCAATTACACGAAAAAGATTTTTACGTTTTGCGTGGATCATTAAAATCAGGCAGGCAAAGTCCAAAGAATTTAGCTTTTGCTGTATTCTTATCGATTTTTATTCAACCATTGATATTTTTCTTAACATATGTAGTAGCTGCCGATACAACCATCTACCCATACAAAGACATTTTAATAAATGTGCATTTATGGATAACAATAGCACTTGTAGTCTTTTCTATATTTCTTTCAATTCCAAAAGTGTATTCAAGAAATCAAAAAGCCCAGTATTTGTTAATTATATTTGTATCTCAGAATATAGGCTTATGTATGTATCTAATTTCATTATTTATACTGGGTTCAAATAATTTTAGTTTTGAGGCTACAGTGGGCTCTCTCATGAATTTTACTTTTATTACACTTTCAATAGGGCTCCTTGTATTCGTAATCACTTGTGCAAGGTTTTATATATTGTTAAAAAAGGGTCATTATAAGGAAGGAACTAAAAAAGATGCACATAGAAGTAAGTTAGAAAAAAGATCATATCTTCCTGTAGCTATAATGGTTGGTACAGCGTTGGTGTATATCATTCAATATATACATCAAATCAGCTACACGTTAGACATAAATGCCATGGTTTTAATTACAATAGGCCCTTTACTATTTTTCACCATGCTTTTTGTACTACCAGAACAATTAGTTATTCTCTACTGTAAATATCGTTTTGAAAGTTTTAATTTTGATAAAGATGGAAATTTAAAGCCAATGGGGTCGGAAAGGGAGGATGATTGA MLNQLHEKDFYVLRGSLKSGRQSPKNLAFAVFLSIFIQPLIFFLTYVVAADTTIYPYKDILINVHLWITIALVVFSIFLSIPKVYSRNQKAQYLLIIFVSQNIGLCMYLISLFILGSNNFSFEATVGSLMNFTFITLSIGLLVFVITCARFYILLKKGHYKEGTKKDAHRSKLEKRSYLPVAIMVGTALVYIIQYIHQISYTLDINAMVLITIGPLLFFTMLFVLPEQLVILYCKYRFESFNFDKDGNLKPMGSEREDD NA NA NA NA NA AK015_02952 1416 hypothetical protein ATGGGGAATAAAGTGGATATATCAGAGGTTATCGAGTTTTCTAGTGACTTCCAAAAGGTATCTACTCATATTAAATCAAGTTTGAAAGAAATATCAACTAATATCGAACAAATTATTGGAATGGATACTTTCTCTGGAAAGGCAGCAAAGAACGCTAAAGGTTATTTCGATAGCTTTCATAAGCATGGAATTATTGAAGCATTTACTGAATTGTTTACCGACTTGAATCACAATCTAAAAGATCATTTAGAAGCATTTCATTCAAATGTAGATTCTCATGAGAATGCGATCATTCAAAGTGACTACTTAAACGATCAACAAATCAAAATAAATATAGATTATCAAAAGTTGAGGGATTTAGATGATCGTATTCAAAAAGCAATTCACAATGTTTCTGACATTACAAGTGCAGGTATTCCATCTTTTTATACGATTGTACAGGATGAAAAAGAAGTGGTTGAGACTATTACTGAATTAGAAGAGAATTTTAATTCGTTTACCAATGAAGGAAAATCACACAATTCCCAAACAAAGGCTTTAATAGAACATATTGAAAAGACAATGAACTCCGTTAAAGGATCTGCAGGTGTAGAAAGGTTTAGTGATTATAAAAACGACGAAAACTTTAAAAAGCTAAGTAGTTTAACCAGTACGTATCTTGCCCCTTCAATATCTGGGTATACCTCTTCAAAAGCAATAGCTAGAGCAGCTGAAAATGACGGGTTAAGCGTATCGAAATATGAAAAAAACGGAAGGATAACTTATCGTATTAATGCAAGCGAAGCAGCTTTAAAAGAATTAGGTATAAAACCGAATAAACATGCAAAATATTCACTATACCAAAGTGGCAAATCAGGAAGAGCAAAAACTCCTTTAAATTATTATGATAAGAAAACAGGAAAGCAAGTATGGTCTCCTGAGGGGAAAGAATTAGTAAGGAAGTACCCTTCCTTGGAATTATATAACTATAATACCAAAACAACAGAGAAGTTTAAATCCGTAGGACGTGTGATAGCTAGAGGAGCAGTAAATAGTGTAACTGATTTAAATCCTAGAGGTATTATAAGTGGGACAGCTGCCAACGGAATAGGAAAAGGGCTGGGTGCACTAGGGATAGGTTTGAACTATTACAATAATTATAATGATGCAAAAACAGACGGCTTAAATGATACAGATGCATATACTCGGGCTACAATTGATACAACTATAGACACAGCAACTGCTGGAGCTGTCACGGCTGGAGTTACAGCTGTTGCTAGTTTTGCTATCCCTATACCTTTTGTGGGAACTGCAATCGGTGTAGCAGCTGGTATAGGGGTTAACGCAGCTTTAAACAGGAAATTCGGAAAAAATAATAAATCAATAATGGATAGAGCTAAAGATGCATTTCACAAATTAACAGGTTGGTTTAGTTAA MGNKVDISEVIEFSSDFQKVSTHIKSSLKEISTNIEQIIGMDTFSGKAAKNAKGYFDSFHKHGIIEAFTELFTDLNHNLKDHLEAFHSNVDSHENAIIQSDYLNDQQIKINIDYQKLRDLDDRIQKAIHNVSDITSAGIPSFYTIVQDEKEVVETITELEENFNSFTNEGKSHNSQTKALIEHIEKTMNSVKGSAGVERFSDYKNDENFKKLSSLTSTYLAPSISGYTSSKAIARAAENDGLSVSKYEKNGRITYRINASEAALKELGIKPNKHAKYSLYQSGKSGRAKTPLNYYDKKTGKQVWSPEGKELVRKYPSLELYNYNTKTTEKFKSVGRVIARGAVNSVTDLNPRGIISGTAANGIGKGLGALGIGLNYYNNYNDAKTDGLNDTDAYTRATIDTTIDTATAGAVTAGVTAVASFAIPIPFVGTAIGVAAGIGVNAALNRKFGKNNKSIMDRAKDAFHKLTGWFS NA NA NA NA NA AK015_02953 291 hypothetical protein ATGGGGGAGCAAGTAGGTATAAACATAGAAGTTTTTCGGGAGAATGTTTCTAGGTTAAAAGCTGCTGTTTCCAATATAAACAGTAGTACTAATAAGAATTGGACTTTTGATAAAACGAATATTACGCCGTTTACTAATGATTTGGAAAATGCGGTTAAAGCAATGACTATACTGGAAAGATACGTAACTCTTTTAAGTAATGATATAGACACATTGAAAAATATAGGAGAAAGTATGAAAGAAAAAGATGAAGAGTTAAGTAAGGGAACGTCTAAGATAACTAGTGACTGA MGEQVGINIEVFRENVSRLKAAVSNINSSTNKNWTFDKTNITPFTNDLENAVKAMTILERYVTLLSNDIDTLKNIGESMKEKDEELSKGTSKITSD NA NA NA NA NA AK015_02954 417 hypothetical protein ATGAGCACATCATTAAGTCTTTTGCGGGAGCAGAGAAGGACTGTGTTACTTGGTATGAATAATGCAAGGAATGAAATATCAGTTTTGCAAGATAAGGTTAGCAGGTTACAGGAAGCTTCTAATACATTGGAAACTAATATTACACATTTAAGAACAACTAAAAAATCCATTGATCAGTTAGAGGAAGATGGCAGAAGATGGAGAGGAAATAATAAAGATACGTATGATAATAAGTATAGCTTATATAGAGATAGTATTCAGCAATATTTATCTAAATCGATGGATGCAAAAGAGACTATTGATAGTGATATTAGAAGGTATGAGGCCAATCAAGCTTCATATGCAGCAGGATTAAATAATCTGCAAAGCTCTCTCCATTCACTGGAGAGTCAAATAAGGGCAAAGGAAAGGGAGTAG MSTSLSLLREQRRTVLLGMNNARNEISVLQDKVSRLQEASNTLETNITHLRTTKKSIDQLEEDGRRWRGNNKDTYDNKYSLYRDSIQQYLSKSMDAKETIDSDIRRYEANQASYAAGLNNLQSSLHSLESQIRAKERE NA NA NA NA NA AK015_02955 4455 essC COG1674 Type VII secretion system protein EssC ATGGCAAACAAAATACTCATGGTCACTTATGATAATCAATTGCATAAATGCCATTTACCAGATCAAGAAAAAAAGGAAATAATAATTGGTAATAGCTGGTCAGATAATATAACTTTTTCCAACTTAGAGCAAACACATAAACTAATGTGGAATGGCAACGAGGCTTTTATTGGGGAAGCGAAATTAGAAAAACAACTGTCTCTCCCTGAAGCGGATCATCTGTTGGAATTATATTTGTTACATAGGGAAGAAACCAGATTCTATGACGCTGCAGGTGCAGAAACAATAACGGTTGGCACGCATTCATATGACGATATTATGCTACCTAATTCGTCTGTTGATTTCGTCTTGCACAGACAGGAAAATGGGTTTACTTTTCAGCTAGAAAATAATGGTGCAACCATTTTTCATAACTTTAAGGCTGTTGAAAAGCAAGCAGTCGTATGTCCTGGAGACCAATTATTTGTTGCTGGAACGATGTTTTGCGTAGGTGAAAAGGAATTACAAGTGATGACATCACATCCTGATTTTACAAGTAAGCTTGTGGAATTGGTAGAAGTGACTACTCCTTACAGCGGGGAGTATCCAGATTATCATCGTTCACCTAGAATTATTTATCGGGAACCTGAAGAAGATCGAACGATTGCTAAACCAGCACATAAGCCTTCAAAGCCTAGTGAACAATTGGCAAGAACGATCGTACCTCCAATAGTAATGGTTGTAGCACTGATTGTTATTTCACTAATTCAACCTAGAGGGGTTTACATCATCGTGATGCTATCGATAACCATTGTCACGATAATATTTTCGATTACTTCCTATGTGAAAAATGTTAAAAAATATAAAGCGGATATGAAACATCGTGAAGAGACATATAAAGCGTATTTGCAACGGAAAACGAAAGAACTGCACTTAGTAAGTGAGGAGCAACGCCACGCTTTATTTTATCATTATCCTGATATCGTAACGATTAGAGATATGGTTAGAAATATGGAGGCAAGAATTTATGAAAAAACCATGTATCAGCATGATTTCCTGCATTTTCGTGCGGGTTTAGGAACGGTTTCATCTAGCTTTAAAATTGACTTTAATGATGAAGAATTTACCCAAGAAAAGGATGAACTTATAGATCAAGCAAGAGAGCTTTTATCTCAATATAAAGAAATTGAAAATGTACCCGTTGTTACATCATTAACCAAAGGACCTGTTGGCTATATCGGTCATCGTCCGCTTGTGTTAGAGCAGTTGCAGTTATTAGTTACACAACTTGCATTATTTCATAGTTATCACGACGTGCAATTTATTACAATTTTTCCAGAAGAAGAAAAGCAAGAATGGGATTGGATGCGCTGGCTACCACATGCTAGTTTAAGAGATGTTAACGTGCGCGGGTTTATATATCACGAACGTTCTCGTGATCAAGTATTGTATTCCTTGTACCAATTATTAAAAGAACGTAGACAAACCATAGAAGAGAAAACGAACAAAAATGAAAAGCTTTATTTTTCTCCCCATTATATCGTACTTATTACAGATGAGAAGATGATATTAGATCATATTATTATGGAATTTTTCAATGAAGATCTAAGTGAAATTGGTGTGTCCTTAGTATTTGTGCAAGATGTCATGCAGGCACTTCCAGAACATGTGAAAACGGTTATCGACATTCGTGATGCAAAGCATGGAAACATTTTATTAGAAGAAGGAGAATTAGTGAATAAAAAATTCCATCTGGATCATTATCCGGAAGGGTTTGATAAGGAAGAAATAACTCGTGCCTTGGCACCGGTCAATCATCTACAAAATCTAAAAAACTCTATACCTGAAAAAGTGACTTTTCTAGAAATGTATGATGTGGAAAATGTAACGGATTTAAATATTGAACATCGTTGGAAGGTGAATGAAACGTATAAAAGTTTAGCCGTTCCATTAGGTCTTCGGGGTAAAGAAGATATCGTTCAATTAAACTTACATGAGAAGGCTCATGGTCCACATGGTCTTGTTGCTGGTACAACTGGTTCAGGGAAATCTGAAATTATTCAGTCCTATATTTTGTCTTTAGGGATCAATTTTCATCCTTATGAAGTTGCCTTTTTACTCATAGATTATAAGGGGGGTGGAATGGCAAATTTATTTCATGACATGCCACATTTGTTAGGAACGATAACGAATTTGGATAAAGCGCAATCAATGCGGGCGCTCGCTTCGATAAAAGCAGAGCTGCAAAAACGTCAACGGCTATTTGGGGAGCATAATGTCAATCATATTAATCAATATCAGAAGCTTTACAAGCAAGGTAAAGCAAGCGAAGCGATGCCGCACTTATTTTTGATTTCGGACGAATTTGCAGAACTGAAATCCGAACAGCCGGATTTCATGAAAGAGCTTGTATCCACTGCGAGAATTGGGCGTTCTCTTGGCATCCATCTTATCCTTGCAACACAAAAGCCAAGTGGAGTTGTGGATGACCAAATTTGGTCGAACTCAAAATTTAAATTGGCGCTCAAAGTACAAAATGCGAGTGATTCGAATGAAATATTGAAAACACCTGATGCAGCGGAGATTACGTTACCAGGACGGGCGTACTTGCAAGTTGGGAACAATGAAATTTATGAACTGTTTCAAAGTGCGTGGAGTGGTGCAGATTACGTGCCAGATAAAGAAGATCATGAATTTATAGATACAACGGTTTATGCGATTAATGACTTAGGTCAATATGATATTCTTACTGAGGATTTAAGTGGATTGGCCAATAAACAAGATGTGGAGAAAAAACCAACTGAATTGGAAGCGGTGATTGATTACATTGCTACTTACACAGAAAAATGCCAAATTGATCCTCTTCCAAGACCATGGCTCCCGCCGTTACCAGAACGAATATTGCCAAAAGAAATACATGATGTTCATTTTAAAGAAATTTGGCAAGAGGAAAGCAAGAAATCGCTAGTCGTTACATTAGGTTTACTAGACCAGCCAGAATTACAATCGCAATCACCACTTACGCTTGATTTAACGAAACATGGACATATTGCTGTTTTTTCCAGCCCGGGCTACGGAAAATCAACGTTCTTGCAAACAGTTACTATGAATCTTGTGCATCAGCACCATCCCGAACATTTACATGTGTACTTACTAGATTTTGGTACCAATGGTTTATTACCGTTAAAAACGTTACCACATGTTGCGGATACGATGCTACTGGATGAGGAAGAGAAAGTAGCTAAATTCATCCGTCTTATGAGCAGTAAAATCAAGGAACGGAAACAGAAGTTAAGCAATTATGGCGTTGCAAGTATGGATATGTATGAAAAAGCGAGCGGAGATATAGTGGAAAATCAATTAATTGTTATTGATAACTATGATTCTGTCCGTGATGCAGCATTCTCTGATGAGTTCGAAAAGCTAATTACGCAAATTGCTAGAGAGGGTGCAAGTATTGGCATTCATCTAGCCATCAGTGCCGGACGACAAAGTGCCATGCGCATGCCGTTATTGTCGAATATTAAAACTCAAATTCCACTTTATTTAATTGAAGAAACCGAGGCTCGTGGAATTGTCGGTAGGACAGAGATTGAAATTGAAGAAATACCAGGAAGAGGGATGATTAAGCTGGACGAACCAGCATTATTCCAAACCATGCTTCCTGCAGAAGGTGAAGAGACATTAGCAATTATTGATGCGATTCAAGCAACTGCAAAAGAAATGGAAGCATTCTGGGATGGTGAATTACCAGAGGAAATTCCGATGATGCCTGAAGGAGTGGTTGACTTTGAGAAGTTTAAAAACAATAGAAAGACGAAACAGCTTGTAAAGGGAATGCAAGTCCCCCTAGGATTGGAATTTGAGGAAGTACAACCACTTGCTTTTGATCCAATCCAACATGGTCATTTAACTGTTGTAAGTGACCGGCAAGATGGTTTAGATAGATTACGTCAATCATTAGCAAAAAATGTGTCTCTTCTTTCTGGTTTTTATCAAACGATGTTAATTGATACGGCAGAACAACAACTGTCCGACATTGGAAAAAGCCTACATGCATATATATCTGAAAAAGAAGGAGTTATTTCTGTGAAAAATGATCTTATGACAGAAATTAACATCCGTACTAAACAGACAACGGGGGAGAATGTTAGGTGGCTTGTTCTTATTGCCGATGTAAAAGATTTTTGTGATCGTACTCAATTAGAAGTGGATGAAATAACCCTTCTAATAGAACAGGGCAAAAAGGCCGGCATCCATTTCATATTCATAGGGGATTACAGTTATATTGGACTGAGCTTTGAACAAGTTGCTAAGTATATACGTTCGCAAGCCATAGTAGGATTGATGAGTATGCGACTTGGCGATCAGGATATATTCAAGCAACCATTTATTAGACAGGAAAAATATCCAAACCCATTTGAATGTTATTTAGCAATGGATCATCAGCATACAAAATTGAAAATACCTGAATAA MANKILMVTYDNQLHKCHLPDQEKKEIIIGNSWSDNITFSNLEQTHKLMWNGNEAFIGEAKLEKQLSLPEADHLLELYLLHREETRFYDAAGAETITVGTHSYDDIMLPNSSVDFVLHRQENGFTFQLENNGATIFHNFKAVEKQAVVCPGDQLFVAGTMFCVGEKELQVMTSHPDFTSKLVELVEVTTPYSGEYPDYHRSPRIIYREPEEDRTIAKPAHKPSKPSEQLARTIVPPIVMVVALIVISLIQPRGVYIIVMLSITIVTIIFSITSYVKNVKKYKADMKHREETYKAYLQRKTKELHLVSEEQRHALFYHYPDIVTIRDMVRNMEARIYEKTMYQHDFLHFRAGLGTVSSSFKIDFNDEEFTQEKDELIDQARELLSQYKEIENVPVVTSLTKGPVGYIGHRPLVLEQLQLLVTQLALFHSYHDVQFITIFPEEEKQEWDWMRWLPHASLRDVNVRGFIYHERSRDQVLYSLYQLLKERRQTIEEKTNKNEKLYFSPHYIVLITDEKMILDHIIMEFFNEDLSEIGVSLVFVQDVMQALPEHVKTVIDIRDAKHGNILLEEGELVNKKFHLDHYPEGFDKEEITRALAPVNHLQNLKNSIPEKVTFLEMYDVENVTDLNIEHRWKVNETYKSLAVPLGLRGKEDIVQLNLHEKAHGPHGLVAGTTGSGKSEIIQSYILSLGINFHPYEVAFLLIDYKGGGMANLFHDMPHLLGTITNLDKAQSMRALASIKAELQKRQRLFGEHNVNHINQYQKLYKQGKASEAMPHLFLISDEFAELKSEQPDFMKELVSTARIGRSLGIHLILATQKPSGVVDDQIWSNSKFKLALKVQNASDSNEILKTPDAAEITLPGRAYLQVGNNEIYELFQSAWSGADYVPDKEDHEFIDTTVYAINDLGQYDILTEDLSGLANKQDVEKKPTELEAVIDYIATYTEKCQIDPLPRPWLPPLPERILPKEIHDVHFKEIWQEESKKSLVVTLGLLDQPELQSQSPLTLDLTKHGHIAVFSSPGYGKSTFLQTVTMNLVHQHHPEHLHVYLLDFGTNGLLPLKTLPHVADTMLLDEEEKVAKFIRLMSSKIKERKQKLSNYGVASMDMYEKASGDIVENQLIVIDNYDSVRDAAFSDEFEKLITQIAREGASIGIHLAISAGRQSAMRMPLLSNIKTQIPLYLIEETEARGIVGRTEIEIEEIPGRGMIKLDEPALFQTMLPAEGEETLAIIDAIQATAKEMEAFWDGELPEEIPMMPEGVVDFEKFKNNRKTKQLVKGMQVPLGLEFEEVQPLAFDPIQHGHLTVVSDRQDGLDRLRQSLAKNVSLLSGFYQTMLIDTAEQQLSDIGKSLHAYISEKEGVISVKNDLMTEINIRTKQTTGENVRWLVLIADVKDFCDRTQLEVDEITLLIEQGKKAGIHFIFIGDYSYIGLSFEQVAKYIRSQAIVGLMSMRLGDQDIFKQPFIRQEKYPNPFECYLAMDHQHTKLKIPE PGPT0030468_374 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 AK015_02956 1290 essB COG4499 Type VII secretion system protein EssB ATGAAGGAAAAAACAATCGAATTTGAAAACCTCACATTGCAATTTGAAATGGATCAAACTAATTGGAAAATGCGTTTACCGAAATCACAAACCGCTGTACATGATGTTCGCCAAATGGATATTATGTTACATCCTTCTGATTTTTTTGCCCCGCTCACTATAGAGGAAGAAAAAGATGCATTTCAATTTACATTTAAGTTAGAGCCTAGATGGAAAAACTGGGATCAACTACTGCAATTACATAGAAATGAAAAATTACGATTACTGTGCAACATGTTGCAATTAGAGCCTATTTTGAACACGAGGATAACCTTTGTTCTTCATCCTGATAACCTGATGGTTAATGATAATCTGATGCCTGTTGTTATCTATCGAGGGATTCGCAAGCTTGTACCACCTTATGAATGGGATGAAGCAGATTTTTTAAAACAATTAAAATGCTATGTGATCGCTTTATTCTCTAAAAAATTTAATTTTGATCAGCTTTATCATGGGTCGTTACAAAATGCAACGGAAACCGAATTTCAACGACAGGTAAGTGAAGTAGCCGACTTAGCAGAGCTCAAGGATTTATTGTATAAAAGTTATCAGGAAGAACAAGTCAAAACAGAACAAACGATGACAGTTGTACCAACGAAACGCTTTCGTTTATTTAAGCAACTTTCCATTATTATGATTATCGTTTCCGTATTGTTAACCGTTCCCGTCATTTATTACGGCATTATAAAAGCACCTTACCAAGATAATCTATTAGAAGCTCACGGTGAGTATTTGGCTTCTTCCTATGGCGATGTTATTTCCACTTTAGAGGGGGAAGATCCAGAAAAGCTACCGATTCAAACGATGTATATTTTAGCTCATTCCTATATTAACGTGGAAAACTTACCTGATGCAGAGAAGGAAGTTATTTTAAAAAATGTCAGTTTGAAAAGTGATCCTGATTACTTAACCTATTGGATTTACAATGGCAGGGGAGAATTTGATACATCGCTTGAAAAGGCCAAGTACATTGATGACCCTGTCTTAATTATACACGGACTTATTCAAAAGATAGAGGAAGCTAAAAACAATCCAGACTTAACAGGATCAGAGAGAGAAAAGACTGTTAAAAAGTTACAAGATGAATTAGAACAGTACCGTGAGGAGTTTGATTTACAAGACGAGGATGAAGAAACAGTACCGGCAAGTGAGTCAGAGGCGGAAGATACTAACCAAACAGAACAAGAAGCGCAATCAAATGATGACAATAAAAAGAAAGAAGATAGTGGTGATAAAGAAAAGGAAAAATAG MKEKTIEFENLTLQFEMDQTNWKMRLPKSQTAVHDVRQMDIMLHPSDFFAPLTIEEEKDAFQFTFKLEPRWKNWDQLLQLHRNEKLRLLCNMLQLEPILNTRITFVLHPDNLMVNDNLMPVVIYRGIRKLVPPYEWDEADFLKQLKCYVIALFSKKFNFDQLYHGSLQNATETEFQRQVSEVADLAELKDLLYKSYQEEQVKTEQTMTVVPTKRFRLFKQLSIIMIIVSVLLTVPVIYYGIIKAPYQDNLLEAHGEYLASSYGDVISTLEGEDPEKLPIQTMYILAHSYINVENLPDAEKEVILKNVSLKSDPDYLTYWIYNGRGEFDTSLEKAKYIDDPVLIIHGLIQKIEEAKNNPDLTGSEREKTVKKLQDELEQYREEFDLQDEDEETVPASESEAEDTNQTEQEAQSNDDNKKKEDSGDKEKEK PGPT0030467_43 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_VI_SECRETION_SYSTEMS CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030467-essB-NA NA NA AK015_02957 252 esaB Type VII secretion system accessory factor EsaB ATGGCACAAGATACCCATATTAATGTGACAATGGATTTTAGCAACATTGGATGCGGAGTTTATGACCTCCGTATCCCCACACAATTAACGGTAAAACAATTACTCTATTATGTAACAGATGCCCTACATATTACGCTACCAGATCATTCTTACTATGTCATCAAAGTTACCACGAAGAAATTGTTCATTGCAGATGATGATTATATCATTGATTACCCTGTTACAGATGGAGATATATTAGTTGTTCAATAA MAQDTHINVTMDFSNIGCGVYDLRIPTQLTVKQLLYYVTDALHITLPDHSYYVIKVTTKKLFIADDDYIIDYPVTDGDILVVQ PGPT0030472_3 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_VI_SECRETION_SYSTEMS CE-Type_VII_SECRETION_RELATED_PROTEINS,PGPT0030472-esaB-NA NA NA AK015_02958 498 hypothetical protein ATGAAAAAGAAGCAGAGGCTAGTTAAAGCGACCCTCACACTTGTTATTAGCGTGCTGGTTGTTTGGGGATACCAAACACCAGCGGCTAGTGCCGATAGTGATGGAGACTTAGAAATGAAAATTGACCGTATTGTGGAAGATGATAAGAAAAATACAGTTAACCAGGAAACAGAGTTAGAAAAGATTTTCCCTACACTATTTACAGAAGAAACATCTAAAATCATTGCTGAAAAGAAAGCGGAGCAGCAGCAGTCTTTAGAAGAACTGGAGTCAGATCTCTTTGCAAAGGATGTGCAAACAAATAAGACATTGGATTCCGTTAAAGACGACCTGTTCACGAAAGATTATGAAGAGATTGCCGCATCTACCTCGAAGCCGAATAAAGATGAGATAGCAGAGACAAGCCAATCTAGTAATACATGGCTATATGTGTTAACAGGTTTTGCTTTACTTTTATGTGGTGGAATCTATGTAATGATGCAAAAAATGTTAAATTAG MKKKQRLVKATLTLVISVLVVWGYQTPAASADSDGDLEMKIDRIVEDDKKNTVNQETELEKIFPTLFTEETSKIIAEKKAEQQQSLEELESDLFAKDVQTNKTLDSVKDDLFTKDYEEIAASTSKPNKDEIAETSQSSNTWLYVLTGFALLLCGGIYVMMQKMLN PGPT0030466_11 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_VI_SECRETION_SYSTEMS CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030466-essA-NA NA NA AK015_02959 3534 hypothetical protein ATGAAAAAATTGGATAAACGCTGGTTCCTGTTTTTAGTATTAATCGTTATCTTAGCATCAGGCTTATCCTATCTTGCTTTAAGTCAACAAGAACAAACAGAAAAGGATGAATCAGAATCAAATAAAGCAATGGCTGTAGCGCTTGTTAATGAAGATGAGGGGTCTATCTTAAATGGACAAGAACTAGCTTTTGGAGAGGCTTTCGTCCAAGGGGTGAACAATGAAGACAATCATGAGTGGTTTGTAGTTAGCCGCGGGGTAGCAGAAAGTGGCTTAAAACGTGGTACATATGACATGATGATTGTGATTCCTAATGATTTTTCCGAAAAAGCGCTATCTATTGATTCGGAATCGCCAGACCAAGTCGTTTTAAATTATAAGATTAACGCAACGGATAATGAGCAAATAAAAGCGGAAGCAGAAAAAACAGCCAGTAATATTCTTAATCAATTTAATCGTAGGATTATTGACGTTTATTTTGCAAGTATTGTCGGAAATCTGCAGAATGCGCAGGATAATATTGGTGGCATTATTGAAAAACAAGCCGTATTTACAAACACTATGAGCAGTGAAGTGTATAATCCTTTAGATAATTATACCAATCAATTTAGCACGATAAAAGATAGCACAGAAGTATCGAAGGATAGCTTTCAAGGCTTTCAGGAAATAATGAATAACTTTGAAAAAGAGCTGTTAGATGATGCAGAACTGGATGAAGATTATTTGTCATCTGTTCATGATGTTAAAAAATTAAAAGAGCAAAATAATACGCAAATTCTCGAATTCTATCAAACTTTAAATGAATTTGATCGCTCTTTAAAGCAACAGGAAGTAGACCAAGAGTTAGAACGTTTACAGTTGGCAAATAAATTGATTAATGAACAATTACAGAACAACGGCGGTATGGAAGCAAATAAACCACCTGTGAATTCTGTGATGTATCAAAGTAATCCAGGAGGTAATATTGCAACAAGAGCGAATGTATTAAGGAAGCATTTAGACGATTCATTAACGCAAGTCCAGAAAACGTATAATGATATTGAAAAACGAATAAACCCAGAATATTGGGGCGGTTTTACTGGGGTAATTTCAGATCGTTTAGATGGACTACTTACCAATAAGCTGGGTAAAGATGATCAACTGGTAAATATGCTTTTAAAAAAGCCAGCTGTTCATGCAAAAGACAATATTCATAAGCACATAAGAAGATTACCTTCAATGGATATGGAGGACTTTGAAGAAGTCGGTTTGCCAAAGCGGACAATCAAGGAAATTAGAAATGTTATTGCGGTAACAGAAAAATATATGAATGAAGACGGCTTAGGCAAAGATGAAAATCTTAACCCGGGTGGTGACCCAACCAAACTCCTATCATATAAGATAAACAAACTAAAAGAAAAGTTGCATACTTCAGGGATGACGATGTCTGATTCCGTCAAGTTGCCAAAAAATAAAAAATCAGCACAAACATTCAAATTAAAAATACCAAAGCGTATTCTCGAAAAATATAATGTGGAAAACTTACAACTTACCATTCCTGGTATTGGCGAAGAAGATTATACAAGAGAATATTATGATGGTGAAATTATTCTTCCAGCGAATGAAGAAGGTGTATTTACCGTTCAGGTTACACTACGGTTGCGTGATAAAAATTCAAATATAGACATATTCCAACCAATTCCTTGGAAGTGGAAGCTTCATCAAAAAGATATTAATAATGTAGATGTTCCTGAAACAGCCCAAATTGAAACAGCAGAAACACCACTTGTTGCGAATGCAGAGGTAGAGGTGGAGCAACAAGGAAAAAATGTTGACACTTCAGATAATAAAGCGAAGCAAAAACCAACTTCAGAAGAAAAGTCTGAGGGAAGCGATGAACAGAGCGATTCTGAAGAAGGTGGAAGTTTAGGTGAGGATGGAGAAACACCTGGAAATAATAATCCGGACGAGCCAGGGGGCGGGGATGTCTCAGATGAGGATGAACCATCGGACGAAGAAGATAGTGTCCCGCTTGAGAAGCTAAAACCAGCAACCAAAAGAGTTAAAGTCATTAATAATCGCATTAACCATGAAATTATGACTCCGATGGAAGGAATGGATAAAGCGACGAATCAATTAATTAAAGCTGTAACGAACACGGTAACCCCTTACCAAAAACTATTCTCAACCTACGAAAGTTATTTTGGTTTGCATATGGGGGGGCCGAATTTACCGGAACAAATTAAAGGTAAACCTTTAAAAGAATTAGCTACTAAAGATTCGTTATATTATCTTTTTAATAAAAAAGATGTTCCTGGTTTAATCAAAGACTATATAGTCTTACAAATTAGTGATGAAGTGGCTAAAGAAATCCGCACTCCATGGGAACAATTACAAGCTCAAATAGAAATTCATGAAGAGAAAGTTGCATTAATGAACAGCAATGCGGATGCTTTAGTGAATAAAATAGATGAAACTGCTGAAAGGGCTAGGGTCTTGAATAAAAGTCTTGAAGCAACTTTAAGTAATGTAGAAGCTTGGCGAGAGAAAAGCTTGAACTTACTGGAATCTCAAGAACAAATTCAAACAAAAGAAGATGAAGAGCAGTCTGCCATCGTTTCCTTGGATGACAGCTTTCAGCCACTACTATCAGCTAGTCAATCTTTGTCGGAGCAAGCACAGAGCAATGTAAATGAAGGTGATGTAGTTTATGATACTTTCGATAGTATTAATGAGCAAGCGACGACGATTCAAGAAAGTGGCGATGATATTGTTCAACAAGTAGAAACGTTGTCAGAAAATATGACAAATAAATTAATGGATGATGAGAATTTTGCCGAGAACTTCACTGGTGTATTAGCAAATAGTCGTATTGGTGACAGGCAAAATGAAGACTTATATGATTTCTTATCCAATCCAGTTCAAACAAGTAATGAAGGAACGATTACATCCAGTGATTCATTTACACCATACTATCTTGTGTTAATCTGTTTCATTGTTGTCTTGTTTACAGCCTATGTTATTTCAACAATAAACCAGAAGCGTATGGAGAGAGATCCATTTTCGGAAGGAAAAACAATAATGAGCCTGAACATACCAATTACACTTATAACGATTGGTATTGGCGTATTAGAAGGTATTGTGATTGGTGTTGTATCTAGTTATACAATGGAAATTGCTGATAGTGATATGTTAATGCTTACAACGCTTATTGTCTTATTAATTACTGGAATGTTACTTTTTTCCACTTATTTATTAAGACAAGTTAAAATGATTGGTATGTTTATACTTTTAGTGGTGCTCAGTCTATATCTGTTCTTAACAAATGCTTTTGGAACAGGTATAAAAGGAATGGAGACGTGGAAAGAATTCTCGCCACTGCAATATGTTGAAACCCTTTTGTTTCGTGTTGTACAAGGAGAAGGTAATTACTCCGCGTCCATCTTTATTATGATTGGTGTTGTAATAGTAGGTGCTTTAGCCAATTTGTTTGTTGTACATCGCTCAACACAAAAAGGGGATGTGGGCAATGAAAAAGAAGCAGAGGCTAGTTAA MKKLDKRWFLFLVLIVILASGLSYLALSQQEQTEKDESESNKAMAVALVNEDEGSILNGQELAFGEAFVQGVNNEDNHEWFVVSRGVAESGLKRGTYDMMIVIPNDFSEKALSIDSESPDQVVLNYKINATDNEQIKAEAEKTASNILNQFNRRIIDVYFASIVGNLQNAQDNIGGIIEKQAVFTNTMSSEVYNPLDNYTNQFSTIKDSTEVSKDSFQGFQEIMNNFEKELLDDAELDEDYLSSVHDVKKLKEQNNTQILEFYQTLNEFDRSLKQQEVDQELERLQLANKLINEQLQNNGGMEANKPPVNSVMYQSNPGGNIATRANVLRKHLDDSLTQVQKTYNDIEKRINPEYWGGFTGVISDRLDGLLTNKLGKDDQLVNMLLKKPAVHAKDNIHKHIRRLPSMDMEDFEEVGLPKRTIKEIRNVIAVTEKYMNEDGLGKDENLNPGGDPTKLLSYKINKLKEKLHTSGMTMSDSVKLPKNKKSAQTFKLKIPKRILEKYNVENLQLTIPGIGEEDYTREYYDGEIILPANEEGVFTVQVTLRLRDKNSNIDIFQPIPWKWKLHQKDINNVDVPETAQIETAETPLVANAEVEVEQQGKNVDTSDNKAKQKPTSEEKSEGSDEQSDSEEGGSLGEDGETPGNNNPDEPGGGDVSDEDEPSDEEDSVPLEKLKPATKRVKVINNRINHEIMTPMEGMDKATNQLIKAVTNTVTPYQKLFSTYESYFGLHMGGPNLPEQIKGKPLKELATKDSLYYLFNKKDVPGLIKDYIVLQISDEVAKEIRTPWEQLQAQIEIHEEKVALMNSNADALVNKIDETAERARVLNKSLEATLSNVEAWREKSLNLLESQEQIQTKEDEEQSAIVSLDDSFQPLLSASQSLSEQAQSNVNEGDVVYDTFDSINEQATTIQESGDDIVQQVETLSENMTNKLMDDENFAENFTGVLANSRIGDRQNEDLYDFLSNPVQTSNEGTITSSDSFTPYYLVLICFIVVLFTAYVISTINQKRMERDPFSEGKTIMSLNIPITLITIGIGVLEGIVIGVVSSYTMEIADSDMLMLTTLIVLLITGMLLFSTYLLRQVKMIGMFILLVVLSLYLFLTNAFGTGIKGMETWKEFSPLQYVETLLFRVVQGEGNYSASIFIMIGVVIVGALANLFVVHRSTQKGDVGNEKEAEAS PGPT0030471_5 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_VI_SECRETION_SYSTEMS CE-Type_VII_SECRETION_RELATED_PROTEINS,PGPT0030471-esaA-NA NA NA AK015_02960 297 esxA Type VII secretion system extracellular protein A GTGGCAGGACAAATTCGTATGACGCCTGAACAGCTACAGGCAAAAGCAAAACGGTATGGGGCGAGTTCTGATCAAATTGAACAAATTCTAAGAGATCTATCAAACCTACAAGAGGAGCTGCGCGGTGAATGGGAAGGTCGTGCTTTCGAACGCTTTGATGATCAATTCCGCGAATTGAAGCCTAAAGTGCAAGATTTTGCTCATTTAATGAAAGAAATTGAGATGCAATTAACAAAAACTGCTGAGGCTGTTGCACAACAAGACGAAGCATTGTCCCAAAATTTTGGACTTAGATAA MAGQIRMTPEQLQAKAKRYGASSDQIEQILRDLSNLQEELRGEWEGRAFERFDDQFRELKPKVQDFAHLMKEIEMQLTKTAEAVAQQDEALSQNFGLR PGPT0030476_6 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_VI_SECRETION_SYSTEMS CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030476-esxA-NA NA NA AK015_02961 258 hypothetical protein ATGTCAGGTTCGCATTATTATTCATTATGTCAACGTCATATGGGAAAGGCCGTAGAGATTAAAACACATTGCGGGAAAGTTCATCGAGGTATCATTGAAAAAGTGAGCCCAAACCGAGTTTACATGAGGCCGTTAGATAGAGGACGTGGACTGGGAGGCTTTGGTTTTGGTTTTTATGGATTTGGATATGGATTCGGCTACGGTGTTGCTTTAGGTGCAATTGCATCATTAGCCATATTACCATTTTTCTTTTGGTAG MSGSHYYSLCQRHMGKAVEIKTHCGKVHRGIIEKVSPNRVYMRPLDRGRGLGGFGFGFYGFGYGFGYGVALGAIASLAILPFFFW NA NA NA NA NA AK015_02962 102 hypothetical protein ATGGGTGAAGCTGTTGCAGGTTATGGCTACGGCGGTGGATTTGCCTTAATTGTCGTATTGTTTATTCTGTTAATTATTGTAGGGGTTGCCTACATCTGTTAA MGEAVAGYGYGGGFALIVVLFILLIIVGVAYIC PGPT0024985_292 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA NA NA AK015_02963 138 hypothetical protein ATGGGATATGGATATAATTGCGGTTGTGGAGGATACGGTTACTCCGCACCTGCTGGATATGGCTGTGGTATCGGCGGGTTTGCTTTAATTGTTGTTCTATTCATCTTACTCATTATCGTTGGAGCAGCATGCTTTTAA MGYGYNCGCGGYGYSAPAGYGCGIGGFALIVVLFILLIIVGAACF NA NA NA NA NA AK015_02964 807 glpQ_2 COG0584 Glycerophosphodiester phosphodiesterase TTGTTCATACTACTATTGCTTACAAGCTTATCATTATATGCTCATGCAGAAATTCAAATAACGCCTATGGTTACAGAAAAAGCAGAAATCTATGCGCACAGAGGGGCAAATGATCGTTTTAATGAAAGTACCGTTACTGCTTATGAGATAGCGGCTAGAGATGGTATGGATGCGTTAGAATTAGATTTACGAATGACAGAAGATGGAGAGCTTGTTGTCATGCATGATGACACCATTGATAGAACAACGAACGGTAGCGGCAAAGTATCTGCGTATACGTTGGCGGAATTGAGGGAGATTGAGACTGTTGAAGTCTTTCAGCAAGAGGAGAAACGGGAAACAATCCCCACTTTAGAAGAAGTATTGCAAGTTTTTGAAAAAGAGGAGCATTACTATATTGAAACACGACTCGTTCATGATAAAGCAGAGATGGAAACAAAATTAATTGAATTATTAAAGGAATATGATCTGCTTGATCGACAACATGTCTCTTTCCAATCATTTTCAGAGTCAAGCTTGGAACAATTGCAGCTTCTTGCTCCGTCTATTCCGTTAACATTACTGTTTAAAAAAGGGGCATTTAATCTTGAAAAAGCAAAAGACGTACCATATTCTGCTATTGGAATAGAGTCGACGGATGTAAGTTTGCAAGTAGTAAACGAACTTCATGAGCAAGGAAAAGAAGTACATGTATATTTTACCGATTTGACAACACAAAAAAATGAACAAAAACGCGTTAAATCATTTAATGTTGATGGGTATTTTACTGACTTTATCAATTATACGCAACAGTTATTAGATGAATAA MFILLLLTSLSLYAHAEIQITPMVTEKAEIYAHRGANDRFNESTVTAYEIAARDGMDALELDLRMTEDGELVVMHDDTIDRTTNGSGKVSAYTLAELREIETVEVFQQEEKRETIPTLEEVLQVFEKEEHYYIETRLVHDKAEMETKLIELLKEYDLLDRQHVSFQSFSESSLEQLQLLAPSIPLTLLFKKGAFNLEKAKDVPYSAIGIESTDVSLQVVNELHEQGKEVHVYFTDLTTQKNEQKRVKSFNVDGYFTDFINYTQQLLDE PGPT0018470_4886 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK015_02965 756 glpQ_3 COG0584 Glycerophosphodiester phosphodiesterase ATGGAAACAAAAATTTATGGTCATCGAGGCAGCATGGGCACATACCCAGAAAATACGTTGTTAGGATTTATGCAAGCTATTAAAGAAGGTGTTGACGGGATTGAATTAGATGTGCATATGACAAAGGATGGAGAAATTGTCGTTATTCATGATGAATTTTTAGATCGCACAACTGATGGAACAGGATATATAAAGAACTTAACCTTAGAAGAAGTAAGAAGATATAGTGCTGGAGTGAAGTTCTCTCACTTTGACTTATTTGAGGATCAATGGCGTTTGGAACAGGTTCCTACTTTACAAGAAGTTTTAGAATTGTTAAAACCGTATGCAATTGAACTAAATATTGAATTAAAAACGACGAAGTTTACGTATAAAGGAATAGAAGAAAAAGTGCAGCAAATTGTGCAAGTTTATGGAAATAATAGAAAAGTGGTTTACTCATCCTTTCATTTACCAACGTTGCTTCGAATAAAACAATTAGACCAAAATCATGAGATCGCGCTACTCGTAGAAGGAAACTTACCGCATCCACATGAGTATATGGATTGTTTTCATTTAGAAGCTATTCACGTTTCTCAAAAAGGAATTTTAAAAGGGGTAGACTATTGGCGTCCTAGTTTTCCAAGGCTACGAGCATGGACAGTGAACGATATGAATGAAATGAAGCAGTTGCTTGATCTTCGGGTAGCTGCAATCATAACGGATTATCCAGAAAAGGCAGTGTTCTACAAAATTGAAAGAAAATCATTTGTTTAA METKIYGHRGSMGTYPENTLLGFMQAIKEGVDGIELDVHMTKDGEIVVIHDEFLDRTTDGTGYIKNLTLEEVRRYSAGVKFSHFDLFEDQWRLEQVPTLQEVLELLKPYAIELNIELKTTKFTYKGIEEKVQQIVQVYGNNRKVVYSSFHLPTLLRIKQLDQNHEIALLVEGNLPHPHEYMDCFHLEAIHVSQKGILKGVDYWRPSFPRLRAWTVNDMNEMKQLLDLRVAAIITDYPEKAVFYKIERKSFV PGPT0018470_6215 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126 NA NA AK015_02966 1350 ugpB COG1653 sn-glycerol-3-phosphate-binding periplasmic protein UgpB TTGAAAAGAATACTCGTATTTACTTTAGTTATTTTTACGTTCATACTTGCTGCCTGTAGTTCCGTGGAAAAAGATAGTGAAGGTACAGCAAAAGCGAAAGAAGATGGAGAATCAGGTGGCAAAACAGAGGTAACGTTTTGGCATGCAATGGGCGGTCAAGCACAGGTTGCCTTGGATGAAATCGTAAAGAAATATAACGAATCCCAAGATGAAGTTCAAGTCAATGCGGAATATCAAGGGACATATGAAGAAACACTATCAAAATACCATAGTGTAGGTGGAACTGACGATGCACCAACCATTGTGCAAGTAAATGAAATTGGAACGATGTCGATGGTTCACAGTGGTAACGTGGAACCAATTCAAAAGTTTATTGATGAAGAAGGATATGATATGAGTAATTTGGAGGAAAATATTACGAATTATTACAAGGTTGATGGAAAGTTTTATTCCATGCCTTTTAACTCCTCTACACCAGTCATGTATTATAATAAAGATGCATTTAAAGAGGCTGGTTTAGATCCAGAAGCACCACCAGAGACCTATGAGGAAGTAGAAGCAGCAGGCAAAGCAATTAAGGAATCCAATTCTGACATGAAAGGCTTTGCGCTGCAAGCTTATGGCTGGTTATTTGAAGAATTGTTAGCAAATCAAGGTGGTCTGTTATTAAATAATGATAATGGACGTGGTGATACAGCGACTGAAGTAGCCTTTGATAATAAAAAAGGAAAATCGATTTTTGAATGGGTCAAACGTATGATGGATGAAGATACATTTGCAAATTATGGAACGAATTCAGACAATATGGTAACTGGATTTTTAAGTGGCGATGTAGCTATGTTTATGCAGTCTTCCGCTAGTGCTAGAGATGTGATTGATAATGCGCCATTTGAAGTAGGTGTTGCTTTTATCCCATATCCTGAGAAAGAGGAGCGCCATGGAGTTGTAATTGGTGGTGCGAGCCTTTGGATGTCGAAAGGAAAGGCAGAAGAGGAACAAAAAGCCGCTTGGGATTTCTTAAAGTACGTACAAAAACCAGAAGTACAAGCTGAATGGCACGTAGGGACAGGGTATTTTGCCATTAATCCTCAAGCATATGAACAGCAAGTTGTGCAAGAAGCGTATCAAGAAATGCCGCAATTACAAGTAACGGTAGAGCAGTTACAGGCTACCAAACCTTCCGTAGCTACACAGGGAGGACTCATGGATATGATACCTGAAGAGCGTAAAATAATTGAAACAGCATTAGAGACGGTATACAATGGCGGCGATGTCGATGAAGCATTCGCGACTGCTGTAGAACAAGTGAATGCTGCGATTGAACAAGCAAACACTGCTCGAGGAGAGTAG MKRILVFTLVIFTFILAACSSVEKDSEGTAKAKEDGESGGKTEVTFWHAMGGQAQVALDEIVKKYNESQDEVQVNAEYQGTYEETLSKYHSVGGTDDAPTIVQVNEIGTMSMVHSGNVEPIQKFIDEEGYDMSNLEENITNYYKVDGKFYSMPFNSSTPVMYYNKDAFKEAGLDPEAPPETYEEVEAAGKAIKESNSDMKGFALQAYGWLFEELLANQGGLLLNNDNGRGDTATEVAFDNKKGKSIFEWVKRMMDEDTFANYGTNSDNMVTGFLSGDVAMFMQSSASARDVIDNAPFEVGVAFIPYPEKEERHGVVIGGASLWMSKGKAEEEQKAAWDFLKYVQKPEVQAEWHVGTGYFAINPQAYEQQVVQEAYQEMPQLQVTVEQLQATKPSVATQGGLMDMIPEERKIIETALETVYNGGDVDEAFATAVEQVNAAIEQANTARGE PGPT0016835_343 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813 NA NA AK015_02967 819 araQ_2 COG0395 L-arabinose transport system permease protein AraQ ATGACGATGTCTAGTAGTAAAAAGCTGGTTTTTTACCTTCTTCTTATCGTATCTGCATTGTTGCTGTTCGCCCCAGCGATTGTGGCGTTTTTAATGAGCTTTATGTCGAGCCAAGATATTTTAACAGGGAAGATTCTACCAGAAACATGGACGTTGGACAATTATATAAAAGCCTTTGAACGTTTCCCTTTATTTGGTTATTTGATGAATAGTTTTATTGTCTCGTTGCTTATTACGCTTGGACAATTGTTGTTATCAAGTATGGCTGCATATGCTTTTGTGTTTTTGGAGTTTAAAGGGAGAGATACGTTGTTTTTTATTTTTATTGCGACAATGATGATCCCTTTTGAGGCTTCGATTATACCTAATTTCCAAACGATAAGAGGGCTTGATTTATTGAATACGTATACTGGGTTGTCCTTGCCATTCTTTGCAGTCGCGTTTGGCACGTTTCTGTTACGGCAACATTTCAAACAAATTCCAAAAGAATTAAAAGAGGCAAGTGAAATAACGGGGATGGGCGATGTCAAATTTTATCTAACTGTCGTTCTACCTGTAGCCAAGACGAGTTTAGTAACCTTAGGAGTATATGGCTTTTTAACTTCTTGGAATATGTATCTCTGGCCTTTACTTTCTACCACAGATGATACGGTTCGAACCGTTCAAATAGGATTAAAACAACTGCAATCGCAGGAACAGCTTAATGAGTGGGGAGTAATTATGGCTGGCGGGCTAATTGTGGTTTTACCAACATTAATTCTATTGTTTTTAGGGCAAAAGAAATTGCAAAAAGGTTTAACAGAAGGCGCAATAAAATAA MTMSSSKKLVFYLLLIVSALLLFAPAIVAFLMSFMSSQDILTGKILPETWTLDNYIKAFERFPLFGYLMNSFIVSLLITLGQLLLSSMAAYAFVFLEFKGRDTLFFIFIATMMIPFEASIIPNFQTIRGLDLLNTYTGLSLPFFAVAFGTFLLRQHFKQIPKELKEASEITGMGDVKFYLTVVLPVAKTSLVTLGVYGFLTSWNMYLWPLLSTTDDTVRTVQIGLKQLQSQEQLNEWGVIMAGGLIVVLPTLILLFLGQKKLQKGLTEGAIK PGPT0016845_1541 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815 NA NA AK015_02968 939 ugpA COG1175 sn-glycerol-3-phosphate transport system permease protein UgpA ATGAAAGAAGCAGTCGTACTACAAGAGCAATATAGGAAAATTGACTTCCTTAAAATTAAGAAAAAGCAAAAACGAGTTCGCTTTGTTAAAGGAATGCTGTTTCTATTACCTTCTATGATATTGTTTAGTGTATTTTTATTTTACCCAATGGCGCGAACATTATATTTAAGTTTTTTTCTGACTGATAACAGTGGAGCCACAACGGTTTTTGTAGGCTTGGATAACTTTAAAAACATCTTCACATCACCTATTTTTTTGAAAAGCTTACAATCCACTTTTTTATTCGTGCTTTACACCGTGCCGGGTACGATTGTAATTAGTTTGTTTCTCGCTGTGATTGCCAATGAAAAATTAAAAGGAATCGGTTTTTTTCGAATGATTTTTTCCTCTACCATGGGGATTTCTGTAGCTGCGGCATCTGTATTTTGGATGTTTTTATTCCATCCGACGATGGGGTGGCTTAATCAACTGTTAGAGGCGGTAGGGTTAGAGGGAATTGGTTGGCTAACAGATCCAAAATGGGCGCTTATTTCTGTATCTATATCCACAATTTGGATGAATCTTGGCTTTACCTTTTTAATTCTTTTAGGTGGTTTACAATCGATAGATTCGCATTTGTATGAAAGTGCAGAAATTGATGGCGCTAGTTATTTGTATAAATTACGAAGAATAACGATACCAATGCTGTCGCCTACGTTGTTTTTTGTCATTACCGTCTCGTTCATTAATGCGTTTCAAACATTTGGTCAAATTGACATGTTAACCCGTGGTGGACCGCAGAATGAAACGAACTTACTTGTGTACTCTATATATCAAGAAGCATTTGAAAATTATCAATATGGGACAGCGAGCGCACAAGCAGTTATTTTGTTTGTCATTATTCTTTTGATGACATTGTTACAATTTAAGTTGGGAGAGAGGAAGGTGCATTACCAATGA MKEAVVLQEQYRKIDFLKIKKKQKRVRFVKGMLFLLPSMILFSVFLFYPMARTLYLSFFLTDNSGATTVFVGLDNFKNIFTSPIFLKSLQSTFLFVLYTVPGTIVISLFLAVIANEKLKGIGFFRMIFSSTMGISVAAASVFWMFLFHPTMGWLNQLLEAVGLEGIGWLTDPKWALISVSISTIWMNLGFTFLILLGGLQSIDSHLYESAEIDGASYLYKLRRITIPMLSPTLFFVITVSFINAFQTFGQIDMLTRGGPQNETNLLVYSIYQEAFENYQYGTASAQAVILFVIILLMTLLQFKLGERKVHYQ PGPT0016840_262 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814 NA NA AK015_02969 1116 ugpC COG3839 sn-glycerol-3-phosphate import ATP-binding protein UgpC ATGAGTAAAGTGGAGTTATGGGATATCTCCAAATCTTATGACAAACAGGCTAATGTATTAAATGGTATTAACCTGTCCATAGAAGCGGGGGAGTTTTTTGTGCTAGTAGGACCTTCTGGTTCAGGAAAAAGTACGTTATTACGTATGATTGCTGGTTTAGAAGAAATTACAGGAGGCACATTAAAGATTGCCGATCGTATAGTAAATCATTTACGCCCAAAGGATCGTAATTTATCCATGGTTTTTCAAAATTATGCATTGTACCCGCATTTAAATGTAGAGCAAAACATTTTATTTGGCTTACATGCAAAAAAAGTAAGCAAACAAGAGCAGCAGGATAGATTGAAAAAGACCACAGAAATGATGGGGTTATCGGAGTTGTTAAAAAGAAAGCCTAGGGAACTTTCTGGAGGACAACGACAAAGGGTAGCACTTGCTAGATCTGTTGTCAGTGAAGCACCTCTTTGTTTAATGGATGAGCCATTGTCTAATTTAGATGCGAAACTCCGTGCGCATATGCGTATAGAAGTTAGAAGATTACAAAAAAAGTTAGGTTTAACCATGATTTATGTAACACATGATCAAGTGGAAGCCATGACGATGGGTGATCGAATTATGGTTTTAAACGATGGGGAAATTCAACAAGTTGGAGAGCCGATTGCATTGTATAATGAGCCCGCTAACTTATTCGTTGCCTCATTTATCGGATCACCAAAAATGAATCTCGGAAAAGCTGTGTTCAATCAGCAAATGTTAAAGGTAGAAGATTTTCTTGAGATTGATATGGGTTCTATACAACCTGCCACAAAAATTGTCCAAGCTAAAAATCTTACCATTGGTATTCGTGCAGAGCATATTTTACCTGCCGTTGATCGGGAAGCTACGCATCATCTAGATGTAATTAATGTAGAACAGCTTGGAAATGAAACACTAGCTACATTTGAAATAGGTCCAGAATTATGGACGGCTAAATGGTTAGGACAATGGTCGATAAAAGTTGGGGAAAAGGTACCCGTACATATTTCCAGAGACAAACTGTGCTTTTTTGATACAGATTCAGGTCTATTACTAAAAGCAGCTTCTCCAACAAAGGAGAAAGAGGTTGCGGTCGTATGA MSKVELWDISKSYDKQANVLNGINLSIEAGEFFVLVGPSGSGKSTLLRMIAGLEEITGGTLKIADRIVNHLRPKDRNLSMVFQNYALYPHLNVEQNILFGLHAKKVSKQEQQDRLKKTTEMMGLSELLKRKPRELSGGQRQRVALARSVVSEAPLCLMDEPLSNLDAKLRAHMRIEVRRLQKKLGLTMIYVTHDQVEAMTMGDRIMVLNDGEIQQVGEPIALYNEPANLFVASFIGSPKMNLGKAVFNQQMLKVEDFLEIDMGSIQPATKIVQAKNLTIGIRAEHILPAVDREATHHLDVINVEQLGNETLATFEIGPELWTAKWLGQWSIKVGEKVPVHISRDKLCFFDTDSGLLLKAASPTKEKEVAVV PGPT0016850_205 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016850-ugpC-K05816 NA NA AK015_02970 1113 hypothetical protein ATGAAACGTGTATTATTAACCGGGTTAATAGCTATTACAAGTATATTTTCACTCATTTTTTTCCTTACTTTACCTCAATTTCAAAGCAAATTCTTTCAGCTACCGTTGCTTGATGGAATAACAGAGTCGGTTGTTTTTTCTGATGCACTCTATACAGTTATGAGCACAGAAATACCGCAAATGGAAACTACACTTGAAGCAAATGATATACAAATGGCAAATTTGCCAAAACTACTATTAGAAACCGCATCTGGTGTTTCTCCTAGAAATTTCTCAAGCTTACTAGATTTAGCGCTTCCTGGAAGAAACCCTGACTTTCATTTTTCATTTGTTTCAAACGGTATAGATGAAGCATCCATGCCTATTGAATCCCCGCCACCAGATTTTGAGGAATTATTAAAAGAAGAACCAGAAGAAGAGCAAACAGACGATAAAAATAAAACGGATCAGCAAGAAGCAGAAGTGTATGTTTACCATAGTCATAGTTGGGAGGGGTTTTTACCCTTATTAGGAGAAGATAAACAAAAACCATCACAAGCATCTAGTACGGATAATGCAAAGAATATTGTTCTAGTGGGCTCCATGTTAACGGAGCAATTAGAAAAGCAAGGTATACCTACTTTTCATGATCGAACAAACGTTACTGCTGCTCTACACGAGCAAGGTTGGGATTATTACGACTCCTACCGATTATCTCGAAAAACGGTAGAAGCAGCGATGGCAAGCAACCAGAAAATACAATATTTTATTGATATTCATCGTGATGCCCAGCGTAAAGATATTACTACTACGACGATTCACGGAGAGCCATTTGCCAAATTGTATTTTATTGTTGGTGAGGAACATGAAAATTACAAAGAAAATCTTGCATTTGTAGAAAAGCTCAATGCCCAACTAGAAGAAAATTATCCTGGCATAAGTCGCGGTATCTTTTTAAAAGATCACACAGATGGTAATGGTATTTACAATCAAGATTTATCCAAACAGTCCATCCTAATCGAAGTTGGTGGCGTAGATAATAATAAAGAAGAACTATCCAATACAACGAAAGCTTTAGGGGAAGTAATTGGAGAATATTACAAAAATGCTGAGCAAGTAACGACAGAGAGGTAA MKRVLLTGLIAITSIFSLIFFLTLPQFQSKFFQLPLLDGITESVVFSDALYTVMSTEIPQMETTLEANDIQMANLPKLLLETASGVSPRNFSSLLDLALPGRNPDFHFSFVSNGIDEASMPIESPPPDFEELLKEEPEEEQTDDKNKTDQQEAEVYVYHSHSWEGFLPLLGEDKQKPSQASSTDNAKNIVLVGSMLTEQLEKQGIPTFHDRTNVTAALHEQGWDYYDSYRLSRKTVEAAMASNQKIQYFIDIHRDAQRKDITTTTIHGEPFAKLYFIVGEEHENYKENLAFVEKLNAQLEENYPGISRGIFLKDHTDGNGIYNQDLSKQSILIEVGGVDNNKEELSNTTKALGEVIGEYYKNAEQVTTER PGPT0024690_410 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385 NA NA AK015_02971 537 yuaF putative membrane protein YuaF ATGACTGTTTTTGGGTTGCCAATCGAGACATTATATTTATACATGCTGATTATTGCTGCAGCCCTAACCATTATTTACATGCTTTTTGGCGATATATTAGAAGGGATTGGTGAAGTAATTCCTATAGCTAATCCTATCCTTATTCTTGCCTTTGTCACTTTCTTTTCAGCAACGGGTTACTTACTTGAAACGTTAACACCCTTGTCCAGTCTAATCATTATTTTCATTGCCATGCTTATTGCCTTTATTCTTGATACGCTTTTAAATGTATTTATTTTGGTTCCTTTGGCTTCTGCAGAAGAATCTCTTGGCTATACAGAGGAATCGTTAATTGGGCGTGTCGGCAAAATTATCATTCCCGTTCCAGCAGATGGATACGGAGAAGTTGTTATTGAAAGCAAAAGTGGTAGAATCTCTAAACCTGTAACAGCGTATCACAACCAGCCCATACCTGAAGGAACAGAAGTATTAATTTTAGATATAAAAGGTGGCGTGCTCTATGCTGAACCTTATTCGAAGGATGTTTTAGATGCATAG MTVFGLPIETLYLYMLIIAAALTIIYMLFGDILEGIGEVIPIANPILILAFVTFFSATGYLLETLTPLSSLIIIFIAMLIAFILDTLLNVFILVPLASAEESLGYTEESLIGRVGKIIIPVPADGYGEVVIESKSGRISKPVTAYHNQPIPEGTEVLILDIKGGVLYAEPYSKDVLDA NA NA NA NA NA AK015_02972 1545 yqiK COG2268 Inner membrane protein YqiK ATGTTTGAAGGATTTTGGATTATTATTGGTATTGTTTTATTTTTACTCGTAGCACTTATCGGTATTTTTGTTTCCAAATATCGCACAGCTGGTCCGGATGAAGCACTTATTGTCACTGGAAGTTACCTTGGTGGGAAAAATGTCCATATCGATGAATCTGGAAACAAAATTAAAATTATTCGCGGTGGTGGCTCATTTGTATTGCCAGTGTTCCAACAAGCAGAGCCTCTCAGTCTACTATCTAGCAAACTAGAAGTAACAACACCTGAAGTTTATACAGAACAAGGAGTTCCAGTCATGGCAGATGGAACAGCGATTATTAAAATAGGTGGGTCCATTAGTGAAATTGCTACTGCTGCTGAACAATTTCTTGGAAAAACGAAAGAAGATCGGGAAGTAGAAGCAAAAGAAGTATTAGAAGGGCATCTTCGTTCTATTTTAGGATCAATGACGGTAGAAGAAATTTATAAAAACAGGGATAAATTTTCACAGGAGGTCCAGCGTGTTGCCTCACAAGATTTAGCAAAAATGGGACTTATTATTGTTTCTTTTACGATTAAAGATGTGAAAGATAAAAATGGTTACTTAGAATCTCTTGGTAAACCTAGAATCGCCCAAGTAAAACGAGATGCAGATATCGCTACAGCTGAGGCAGATAAAGAAACGCGGATTAAGCAAGCAGAAGCTGCCAAAGAGGCGAAAAAAGCAGAATTAGAACGCGCAACAGAAATCGCTGAAGCAGAAAAAGTCAACCAATTAAAAACAGCCGACTATCGTCGTGAGCAGGATATTGCGAAAGCTCGCGCAGACCAAGCGTATGATTTTGAAACCGCAAGAGCAAAACAAGACGTAACCGAACAGGAAATGCAAATTAAAATCATTGAACGTCAAAAGCAAATCGAACTGGAAGAAAAAGAAATCTTACGGCGTGAGCGACAATACGATTCAGAAGTGAAAAAGAAAGCAGATGCTGATCGTTATGCTGTAGAGCAAGCAGCTACAGCAGATAAAATGAAACAAATGACAGAAGCAGAGGCAAATCAATATCGTATTGAAGCGGAAGCAAAAGCAGAAGCGGAACGTGTACGTGTGGACGGTCTTGCTAAAGCAGATTCACAACGAGCTCAAGGGGAATCAGAAGCAGAAGTCATCAGGCTTACTGGTTTAGCAGAAGCAGAAGCAAAACGAGAAATTGCGCAAGCATTTGAACAATACGGAGAAGCAGCTATTCTAGATATGATTATTAAAATGCTTCCAGAATATGCAAAAGAAGTCGCTAGTCCACTTTCCAATATTGATAAAATTACTGTAGTAGACACAGGTGGCAATAATGCAGAGGGTGGAGCAAATAAAGTTTCTGGATATGCAACAAACTTAATGGCAAATCTACAAGAGTCATTGAAGGCATCTTCCGGCATTGATGTCAAAGAGCTGTTGGAAAATATAAGTGGTAAAAAGCACACGACAGATGATTATGATTTAGGTAGCCCACGATATCAAAAAGACGAATTAAATGCAGAACTAACAGATGTAGACAATCGATAA MFEGFWIIIGIVLFLLVALIGIFVSKYRTAGPDEALIVTGSYLGGKNVHIDESGNKIKIIRGGGSFVLPVFQQAEPLSLLSSKLEVTTPEVYTEQGVPVMADGTAIIKIGGSISEIATAAEQFLGKTKEDREVEAKEVLEGHLRSILGSMTVEEIYKNRDKFSQEVQRVASQDLAKMGLIIVSFTIKDVKDKNGYLESLGKPRIAQVKRDADIATAEADKETRIKQAEAAKEAKKAELERATEIAEAEKVNQLKTADYRREQDIAKARADQAYDFETARAKQDVTEQEMQIKIIERQKQIELEEKEILRRERQYDSEVKKKADADRYAVEQAATADKMKQMTEAEANQYRIEAEAKAEAERVRVDGLAKADSQRAQGESEAEVIRLTGLAEAEAKREIAQAFEQYGEAAILDMIIKMLPEYAKEVASPLSNIDKITVVDTGGNNAEGGANKVSGYATNLMANLQESLKASSGIDVKELLENISGKKHTTDDYDLGSPRYQKDELNAELTDVDNR NA NA NA NA NA AK015_02973 189 hypothetical protein TTGGAAGAAGGCTTATACCGAAAAAGATTGATTTCTTATGGCAGGTTATTGAAAGAAATACATAAAAAATTAAATCTTGATGATGCAGAAGATGGCAATTTGATTCATACAGATAACGATGAAGAAGCTGATGAAGATGATATTCTATTATTGCCATGTGGAATTGGGAACGGAAAAATTATTTTATAA MEEGLYRKRLISYGRLLKEIHKKLNLDDAEDGNLIHTDNDEEADEDDILLLPCGIGNGKIIL NA NA NA NA NA AK015_02974 270 hypothetical protein ATGAAAAAAACATATATAGGTGGAATATTAATTTTAGTTAGTGCTATTATTTATGGTTCAATGCTAATTTCGGCTTCTATTTATTCAAAAACCTTAACTACAGAGGGTGTGGGTTGGGATTCGGAATATGGTATTTTTGGAACTGCTTTAAAAGAAATTGGAAATACACCTATTATAATATCTATATTTATCGGGAATTTTAGGTGTTATATTTATTGTTTTATCGTTAAGAATAAAAGGGGAAAATTAATAGTAGTTTTTGCGTTTTGA MKKTYIGGILILVSAIIYGSMLISASIYSKTLTTEGVGWDSEYGIFGTALKEIGNTPIIISIFIGNFRCYIYCFIVKNKRGKLIVVFAF NA NA NA NA NA AK015_02975 441 hypothetical protein TTGCGTTTTGAGCGAAGCGAAAAACTATGTGAATCAAAACCAATGGAATTGAATTCTGGCGAAGCGATGAAATTGGATTATGACCCTAACGTGAAAACACAGATTATAAAGCAAAAAAATGAACAAAATTCGGACATACAGTATGCGATTGATGAAATTGCAAAGTATCCAGTAAAAGATACGGATTTCATGACTGATGATGAAGAAAAGAATTTAATAAGTTTATCTGATTTGGAAGAAGGAGATTTGATTCATACCGATAACGATGAAAAAGCTGATGAGTATCAAAATTGTACCAACTATAAATTCAATGATGATTACGACAGCAGTAATTGTATTTATTGTCGCTATCTTCCAACCTGTAAGCCGATTTATTCGATAGACGTTACCAATAAGTTGAATGGGAATAAGTGCTATAAACGCATATATAATACTTACTAG MRFERSEKLCESKPMELNSGEAMKLDYDPNVKTQIIKQKNEQNSDIQYAIDEIAKYPVKDTDFMTDDEEKNLISLSDLEEGDLIHTDNDEKADEYQNCTNYKFNDDYDSSNCIYCRYLPTCKPIYSIDVTNKLNGNKCYKRIYNTY NA NA NA NA NA AK015_02976 162 hypothetical protein ATGTTTGGAGAAGAACCTAAGTGTACTAAATGCGGTAAACAAATCAAGGGTGACGATGTTGTTTTTATAAAAATGCGCTACCCAAAGCGTAAAGGGATGACAGAAATAAAAGCGTATTTAAAAAACGAAGGAAGTTTCATATGTGGAGAATGTTTCCATTAA MFGEEPKCTKCGKQIKGDDVVFIKMRYPKRKGMTEIKAYLKNEGSFICGECFH NA NA NA NA NA AK015_02977 603 COG0655 NAD(P)H dehydrogenase (quinone) ATGGAAAAAGTAAAATTAGCAGTCATTTATTACAGTTCTACAGGAATTAACTATCAACTAGCGAACTGGGCAAAAGAAGCAGCAAGTGAAGCAGGTGCAGAAGTAAGGCTTGTAAAGGTTCCAGAGCTTGCACCAAAAGAGGCAATCGCAGCTAATCCAGCATGGCAAGCCCATGTTGAGGAAACAAAAAATATATCCGAAGCTACTTCAGACGATATTGAATGGGCAGATGCCATTATTTTCTCTACACCAACGCGGTTTGGTAATGTCGCTTCACAGATGAAGCAATTTGTAGATATGCAAGGTGGCCTTTGGGCAGCTGGTAAAACAGCTAATAAAGTTGTAAGTGCAATGGCTTCTGCTTCTAATCCACATGGTGGGCATGAAGCGACCGTTTTATCATTATATACATCCATGATGCACTGGGGTGCAATCATTGTACCACCAGGATATACAAATGAAGTTGCTTTTACATCAGGTGGAAATCCGTATGGTGTTAGCGTAACACAAGGACAAGACGGAAAAATGGTAGAAGATGTTGAAGAAGCTGTGAAGCATCAAGCAAGACGTACGATTGATGTAGCTAAAAAAATGAAAGCTTAA MEKVKLAVIYYSSTGINYQLANWAKEAASEAGAEVRLVKVPELAPKEAIAANPAWQAHVEETKNISEATSDDIEWADAIIFSTPTRFGNVASQMKQFVDMQGGLWAAGKTANKVVSAMASASNPHGGHEATVLSLYTSMMHWGAIIVPPGYTNEVAFTSGGNPYGVSVTQGQDGKMVEDVEEAVKHQARRTIDVAKKMKA PGPT0009460_1919 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809 NA NA AK015_02978 876 htpX_2 COG0501 Protease HtpX ATGGGAAAAAGAATTTTCTATTTTTTATTAACAAACGTTTTAGTGCTGTTAACGATTAGTATTATTTTTATGCTAATACCTGGAACATGGAATTATATTGGTGAGAATGGGCAATTACAACTGGGTACATTACTCATTTTCAGTGCCATTATTGGTTTCACAGGATCTTTTATCTCATTAGGGTTGTCTCGTTGGATGGCCAAAAAAATGATGGGTGTACAGGTGCTAGATCCTAATGGCAATTTGAACGCGCAAGAGCGACAAATTGTTGATAAAGTACATCGTCTATCGCGTGCTGCCGGAATAATGCACATGCCTGAAGTAGGGATTTATCAAGCAAGAGAAGTAAATGCGTTTGCTACAGGGCCTACTAAGAAACGGTCACTTGTTGCTGTATCAAGTGGTTTATTACAGGAAATGGATGATGACGCTATTGAAGGGGTGATTGCCCATGAAGTTGCACACATTGCCAATGGCGATATGGTAACAATGACATTACTGCAAGGGGTTGTAAATACCTTTGTCGTCTTCCTTGCGCGCATCGCGGCTTTCATTGTGACTCGTTTTGTAAAAGAAGAAATAGCGCCTATTGTGCATTTTCTAGCGATTATCTTCTTCCAGATCATCTTTTCTGCACTTGGTAGTCTCCTTGTATTTGCTTATTCCAGACACAGAGAATTTCATGCTGACAAAGGTGGGGCTGACTTAGCAGGAAAAGATAAAATGCGTCATTCATTAGAAGCATTAAAGTTGTATTCCAATCGTGTACGTCAGGAAGAACAAGCTATTGCTACATTAAAAATTAACGGTAATAAGAAAGCGTCTATATTTTCAACACACCCAAGCTTAGATGAACGAATTGCTCGCTTATCTTAA MGKRIFYFLLTNVLVLLTISIIFMLIPGTWNYIGENGQLQLGTLLIFSAIIGFTGSFISLGLSRWMAKKMMGVQVLDPNGNLNAQERQIVDKVHRLSRAAGIMHMPEVGIYQAREVNAFATGPTKKRSLVAVSSGLLQEMDDDAIEGVIAHEVAHIANGDMVTMTLLQGVVNTFVVFLARIAAFIVTRFVKEEIAPIVHFLAIIFFQIIFSALGSLLVFAYSRHREFHADKGGADLAGKDKMRHSLEALKLYSNRVRQEEQAIATLKINGNKKASIFSTHPSLDERIARLS PGPT0014605_2721 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799 NA NA AK015_02979 585 hisB_2 Histidine biosynthesis bifunctional protein HisB ATGCAATCATCAGCAGTGTTTCTTGACCGTGACGGTGTTATTAATGAAGTATTGTCAGATCGTGTTAAGTTTGTTAATCAGCCAGAAGATTTTTTCCTGTTGCCTAGTGTTGGAGAAGCAATAAAACAGTTTAACATGCTCGGTTATGCTGTATTTGTTGTAACGAATCAGGGTGGTATTGGCTTAGGTTATATGACGGAGGATGATTTAACGAACGTTCATCAAAGAATGACAGAAGAATTGGCAATTCACGGTGCAGTAATTGATGCTATTGCGTATTGCCCGCATAAACCACATGCGGGATGTGCTTGCAGAAAGCCACATCCGACTATGATTGAACGATTAGCTAAGAAGTATCAGATTGATTTACCGGCTAGTTATATGATTGGCGACCGGCATGTTGATATGGAAACGGGGAAAAAAGCTGGTTTAACCTCCATACTGGTCGGGGGAAGAGAAGAGGATATGCGAGATGCGGATATGGTGTTTCCGAATTTATCGTATGTTGCTACCTATTTAACAGGATTTCAGGTCAGGTATAAAGGAAAAAAGGCAAGTTCTGCACGGAATGAATTAAAAAAGTAA MQSSAVFLDRDGVINEVLSDRVKFVNQPEDFFLLPSVGEAIKQFNMLGYAVFVVTNQGGIGLGYMTEDDLTNVHQRMTEELAIHGAVIDAIAYCPHKPHAGCACRKPHPTMIERLAKKYQIDLPASYMIGDRHVDMETGKKAGLTSILVGGREEDMRDADMVFPNLSYVATYLTGFQVRYKGKKASSARNELKK PGPT0023035_393 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023035-gmhB|yaeD-K03273 NA NA AK015_02980 1515 cat1 COG0427 Succinyl-CoA:coenzyme A transferase ATGGGGAGAAAATTGGATAGAATCGGCGATGCTCGTTTACATGACCGAGTAGTGACTGCGGAAGAAGCAGCATCTTGGATTCAAGATGGTATGACGCTAGGCTTAAGCGGCTTTACCCGGGCAGGGGATGTAAAAGCTGTGCCGACAGCGCTTATTCACCGAGCTGAAGCGGGTGAAAAACTGAAAGTCAATGTGTTTACAGGCGCCTCTTTAGGCTCTGATATTGACAAAATGATGGCAGATGCAGGTATTATTCATAAACGCTTGCCATTTCAGGCTGATCCGACGATGCGAAAGAAAATAAATGCTGGGGAACATTTATTTGTTGATCATCATCTTTCGCATACGGCGGAAATGGTAAGAGCAAATGTGTTAGAAAAGGTGGATTACGCCATTTTGGAAGCGATTTCTATAACGGATGACGGGCAGGTCATACCAACTACTTCGATTGGAAATTCGCTTGTCTTTGCGGAACATGCAAAGTCAATAATCATTGAAATCAATACGTCACAATCACAATTATTGGAAGGCGTGCATGATTTATATAGTCCTAATCAACAGGGGGAACGAGAGCCTATACCGCTCCAAAAAGTTGCAGATCGGATTGGAACAATCGGTATTCCGATTGATATAGAGAAGGTTCGAGGAATTGTATTTACAAACCAGCCAGATTCTCCATCGACGATTGTACAGCCAGATCATGAAACAGAAATAATGGCTAGTCATTTACTGGATTTTTTACGAAAAGAAATTGCCGAGGGGCGTTTAACAGAACAATTGGCTCCTTTACAATCAGGAATTGGTTCCGTTGCAAATGCGGTGCTTCACGGTATGCTCCAGTCGGAATTTAAAAATTTAGAAGTGTATTCGGAAGTGTTGCAGGATGCTGTATTTGATTTAATAGATGCTGGAAAAGTAAGCGTTGCTTCTTGTTGCTCCATAACATTATCAGAGCAAAAAATGCAGAATGTTTTTAGCAGGTTTGATGCCTACCGTGATAAAATCATTATGCGTCCGCAAGAAATTTCCAATCATCCGGAAATTATTCGTCGCCTAGGTATTATTGCAATTAATACGGCTTTAGAAGCTGATATATACGGAAATGTAAATTCGACACATGTATGTGGAACGAAGATGATGAATGGAATTGGCGGTTCCGGTGATTTTGCTAGAAATGCTAGGTTATCCATTTTTGTCACGAAGTCCATTGCAAAAGCAGGCGATATTTCTAGTATTGTGCCATTTGTATCGCATGTGGATCATACAGAGCATGATGTGGATGTACTTGTTACGGAGCAAGGCTATGCAGATTTAAGAGGTTTAGCTCCGCGAGAGAGGGTTCCATTAATCATTGAAAATTGCGCACATCCGATGTATAAAGAGCAATTATGGGAATACTACAGAGACGCTTTACAAGGTGGGGGACAGACACCGCATAATTTGGAAAAAGCGTTTAGTTGGCATATTAATTTTGCGAAAAATGGGACGATGCGTGAACTAATCGAACAAAAATAA MGRKLDRIGDARLHDRVVTAEEAASWIQDGMTLGLSGFTRAGDVKAVPTALIHRAEAGEKLKVNVFTGASLGSDIDKMMADAGIIHKRLPFQADPTMRKKINAGEHLFVDHHLSHTAEMVRANVLEKVDYAILEAISITDDGQVIPTTSIGNSLVFAEHAKSIIIEINTSQSQLLEGVHDLYSPNQQGEREPIPLQKVADRIGTIGIPIDIEKVRGIVFTNQPDSPSTIVQPDHETEIMASHLLDFLRKEIAEGRLTEQLAPLQSGIGSVANAVLHGMLQSEFKNLEVYSEVLQDAVFDLIDAGKVSVASCCSITLSEQKMQNVFSRFDAYRDKIIMRPQEISNHPEIIRRLGIIAINTALEADIYGNVNSTHVCGTKMMNGIGGSGDFARNARLSIFVTKSIAKAGDISSIVPFVSHVDHTEHDVDVLVTEQGYADLRGLAPRERVPLIIENCAHPMYKEQLWEYYRDALQGGGQTPHNLEKAFSWHINFAKNGTMRELIEQK PGPT0001545_318 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001545-aarC|cat1-K18118 NA NA AK015_02981 645 hypothetical protein ATGCAACGACTTACGACGAGTTCTTTATTGGATGTAATTGGGGAGTTGTTTTCTGATGAAGTTTCTATTGCTGTTACTTCGACGACAGCGTATATCTACTATCGTCCAAGCTTACGAGTTGATTTGAAAATTCGTCCCGGTGACCCAATTAAGGAAGGAACGCTAGCAGATAAAGCAATTGTCTCCGAACAAAAGGTATCCGAGTTTATTGATCGGCAAATATATGGTGTTCCTTACCATGGAATGGCTGTACCATTTCACTATAACAATGAACTAGAAGGTTGTGTAATGGCGATTTATCCAGCGCTAACAGAAGGTAAGTCTGTTATTACAGTGAAAACATCAGATGGTTGGAAGCCGCTTTCGTTTCATGATGTCCTTTACTTGGAAGTAAAGGAAAGGAAGACATGGGTGGTTACGAAAGAATTTACAGGTATACATCGGAAAGCACTTCAGGAATTTGAATATATGTTACCGAGGGAATATTTTATCCGTTGTCATCGGTCATTTATTGTGAACGTAAACCATATTACACATATTTATCCTGATACACATTCTACTTTTTTGTTAGCTATGGATAACGGAGATCAACTTCCTGTAAGTCAATCGTATTCCAGTTATTTCCGAAAATTATTAGGCTTTTAG MQRLTTSSLLDVIGELFSDEVSIAVTSTTAYIYYRPSLRVDLKIRPGDPIKEGTLADKAIVSEQKVSEFIDRQIYGVPYHGMAVPFHYNNELEGCVMAIYPALTEGKSVITVKTSDGWKPLSFHDVLYLEVKERKTWVVTKEFTGIHRKALQEFEYMLPREYFIRCHRSFIVNVNHITHIYPDTHSTFLLAMDNGDQLPVSQSYSSYFRKLLGF PGPT0026304_3542 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 AK015_02982 468 hypothetical protein ATGGAGGAACAGGCAATTCAAGATATTTATCCAGAAGATTATGCTTGGTGCTATGGGTGTGGAAGACTTAATGAATATGGGCTACAATTAAAAACAGTATGGGATGGTGAACAAACGGTAACTACATATACTCCACGTAAAGAACATACGGCGATTCCGGGCTTTGTATATGGGGGCTTACTTGCTTCATTAATTGACTGTCACGGTACTGGCTCCGCTTCCATGGTGTTGCATAAGAAAAATGGGTATGTCATTGGGGATGGGGCAGAGCCACCTCGCTTTGTTACTGCATCCTTGCATGTAGATTTTATGAAACCAACGCCACATGGTACGCCACTGAAAGCAATTGGTATGGTAGAGGAGATCCATCCGAAAAAGTTTAAAATTATGACGGAAGTTTATGCGGATAAAATTTGTTGCGCCAAGGCAGAAGTAGTCGCAGTAGTCATGCCAGAAACATTTACATGA MEEQAIQDIYPEDYAWCYGCGRLNEYGLQLKTVWDGEQTVTTYTPRKEHTAIPGFVYGGLLASLIDCHGTGSASMVLHKKNGYVIGDGAEPPRFVTASLHVDFMKPTPHGTPLKAIGMVEEIHPKKFKIMTEVYADKICCAKAEVVAVVMPETFT NA NA NA NA NA AK015_02983 1110 COG1252 NADH dehydrogenase-like protein ATGTTTCATAATTATTCAAAAGAAAATTTAGAGATGGGGTTTTGTGGCATGAAAAAGCTAGTCATATTAGGCGGGGGATATGGCGGTCTGAAAGCGCTATTAAGTTTACTTGACCATCAGTTGCCAGAAGATGTAGAAATTACACTTGTCGACAGGAATCCTTATCATTCTGTGAAAACAGAATTTTATACAATTGCAGCTGGGACGTCTGCAGATAAAGACGTACGCCTCCATTTTCCTGACGATGAACGTGTTCGTTATGTGTATGGAGAAATTAAAAAAGTGGATACATCCAATGCAATAATTACTTTCTCCAATAAAAGTGAGGTTATCAAGTACGATTACCTCATCATCGGATTAGGTTGTGAAGATAACTATCATGGTATTGAAGGCGCCAAAGAGTTCACGCACAGTGTACAGACATTTTCCAATGCAAGAAAAACAGGGGTTGCTGTTTGTGATTTAAAAGCATATGGGAAGGTGTCTATTGTAGGTGCTGGATTAAGTGGTATTGAAGTAGCCTCAGAAATTAGAGAGAGCAGACCTGACTTAAATATTCGTTTACTTGATCGTGGTGCAACCGTATTAAAAGCATTTGATCCTAAAATTCAACAATATGTAGCGGAATGGTTTGTTGCAAATGATGTTGACGTGTTACATCATGCAAACGTAGAGTATGTGGAAAAGGATGGCGTTTGCAATAACGGTGTTTGCTATGTTAATGACGTTACTATTTGGACAGCTGGCGTGAGACCAAATTATTTAGTGCGAGAACTTTCATTTGCTAAAGATGAACAAGAAAAAATTATTGTCAATGAGTATTTCCAAGTGCCAGAGAATACAAATATATACGTAGTAGGTGACTGCGCTTCTTCCGAATTTTCACCGAGCGGTCAGCTTGCTGGCCAACAAGGCGAACGCGTAGCGGAAGTGTTGTTAGCTGTATTGCAAGGAAAACAACCGAAGAAACCAAAAGAAATTAGATTAAAAGGAACATTAGGATCACTTGGAAAATCAGATGGCTTTGGCAATATGATGCAGAAATCATTGACTGGTCTATTGCCGCGTATTGCAAAATCAGGTGTACTTTGGTTAAGTAAGCGGCACTAA MFHNYSKENLEMGFCGMKKLVILGGGYGGLKALLSLLDHQLPEDVEITLVDRNPYHSVKTEFYTIAAGTSADKDVRLHFPDDERVRYVYGEIKKVDTSNAIITFSNKSEVIKYDYLIIGLGCEDNYHGIEGAKEFTHSVQTFSNARKTGVAVCDLKAYGKVSIVGAGLSGIEVASEIRESRPDLNIRLLDRGATVLKAFDPKIQQYVAEWFVANDVDVLHHANVEYVEKDGVCNNGVCYVNDVTIWTAGVRPNYLVRELSFAKDEQEKIIVNEYFQVPENTNIYVVGDCASSEFSPSGQLAGQQGERVAEVLLAVLQGKQPKKPKEIRLKGTLGSLGKSDGFGNMMQKSLTGLLPRIAKSGVLWLSKRH PGPT0004020_5663 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 AK015_02984 690 yohK COG1346 Inner membrane protein YohK ATGAGTGAGTTTGTAATTGCTATCTCAGCTATTATTGGAACGTTTTTCATTTATCATCTTGCACTGAGGATACATAATACATGGAAGTATTCTTTAACCGCTCCTGTTCTAGTAGCTACTATTCTCATCATCAGTGTTCTAATCATTTTTCGTATCCCTTATGAGACGTATATGGTTGGGGGAAAATGGATTAATGAATTACTCGGACCTGCAGTAGTTGCGCTTGCTTATCCGTTATATAAAAATAAAGATACATTAAAGCAGGTAGCTGCTCCTATATTAGCAGGTACGCTACTAGGCGGAGTTGTTGGAATAACTACAGGTCTATTGCTTGCCCAATGGGCAGGTTTTGAGTCCGCGATCGTATATTCGTTAACGCCAAAATCAGTAACAACACCTGTGGCTATGGCTGTAACGGATACGATTGGTGGAGTAATGCCACTTGCTGCTATATTTGTCATGATTGCTGGTATTGGTGGTGTACTTATGCACCATTATGTATTTCGCTTATTTCAAGTCAACCACTATTTAGGAAGAGGTGTGGGCATGGGGAGTGCTTCTCATGCCATTGGTACAGCTACTTCCATGGAGGTAAGCCAATTAGAAGGAGCAGTCAGTACCATCTCTATGGTGATTAGTGCTGTAGTAGTGTCTATTATCACACCAAGTCTCGTACAGCTTATGATGTAA MSEFVIAISAIIGTFFIYHLALRIHNTWKYSLTAPVLVATILIISVLIIFRIPYETYMVGGKWINELLGPAVVALAYPLYKNKDTLKQVAAPILAGTLLGGVVGITTGLLLAQWAGFESAIVYSLTPKSVTTPVAMAVTDTIGGVMPLAAIFVMIAGIGGVLMHHYVFRLFQVNHYLGRGVGMGSASHAIGTATSMEVSQLEGAVSTISMVISAVVVSIITPSLVQLMM NA NA NA NA NA AK015_02985 372 cidA Holin-like protein CidA GTGGAAAAAGCAGGAAAAATGATCGTGCATATTGTTTTATTGTATATCATTTTTCAATTTGGTAATTGGATACAACGCACGTTGCATTTATTTATCCCAGGAAGTGTGATTGGGATGATGGTATTGTTTATATTATTAAGTACGAAACTTATCCGAGTCTCGTGGATTGAAGAAGGTGCCAATTACATTGTTGCTAATTTAGCCTTCTTTTTTATTCCTGTAACAGTAGGAATTATAGATTACTATGATCTGTTTTTAGGGAAAGGTGCTTTATTAATCTTGATTGTCTTAGTAAGCACCATGTTAGTAATGGGCGGTTCAGGCTTTTTTAGTCAGTGGCTAATGCGTAGAAAGGGATGGGAACATGAGTGA MEKAGKMIVHIVLLYIIFQFGNWIQRTLHLFIPGSVIGMMVLFILLSTKLIRVSWIEEGANYIVANLAFFFIPVTVGIIDYYDLFLGKGALLILIVLVSTMLVMGGSGFFSQWLMRRKGWEHE NA NA NA NA NA AK015_02986 1266 argG Argininosuccinate synthase TTGGGGAAAGAGAAGATTGTTTTAGCTTATTCTGGTGGGTTAGATACATCTGTAGCTGTCCGCTGGCTACAGGATAAATACAATTATGATGTAATAGCTGTTGCCCTTGATGTGGGGGAAGGGAAAGACCTTGATTTTATTAAAAATAAAGCATTACAAGTAGGCGCTGTGAAATCGTATGTCATTGATGCCAAAGCTTTGTTTGCAAATGAATTTGTCCTTCCAGCACTGCAGTCGAATTTATTATATGAAGGAAAATATCCGTTGATTTCTGCTTTATCACGCCCGCTTATTGCTAAGATTTTAGTTCATATTGCAAAAGAAGAAGGCGCTGTTGCAGTTGCGCATGGATGTACAGGAAAAGGAAATGATCAAGTACGGTTTGACGTTGCCTTTACGGCGTTAGATCCTAGTTTAGACATTGTCGCACCTGTAAGGGAATGGGCAATGTCAAGAGAAGAAGAAATTGCTTATGCGAAAGAACATCAAATCCCAGTACCAATTGATTTAGATAATCCGTTTAGTATTGACCAAAATCTTTGGGGGCGAAGTAATGAATGCGGTATTTTAGAAGACCCATGGGCGGAAGCTCCGAAAGAAGCGTATGATTTAACAATAGATCCAGAGGAAGCACCTGATAAACCGCAGATTGTGGAAATTGCTTTTGAACAAGGAAAACCTGTCGCTATTGACGGAGAAAAATTATCATTAGAAGCGCTTATTTTACAATTAAATCAAGTTGCAGGAAAGCATGGAGTTGGTAGAATTGATCATGTAGAGAACCGCCTTGTTGGTATTAAATCACGCGAGATATACGAAGCGCCAGCAGCAGTTACGTTAATTGCTGCACATCAAGAGTTGGAGGCGTTGACGCTAACGAGAGAGGTGGCTCAATTTAAACCGCTCATGGAGCAAAAACTAGCACAAGTGGTGTATGATGGTCTTTGGTATTCACCTTTGACGAAAGCTTTAATAGCATTTATTACAGAAACACAGAAGGATGTATCAGGTATCGTAAAGGTGAAGCTGTACAAGGGGCAGGCACAAGTAGTAGGTAGAAAATCGAAACAATCGTTATATGATTTTGATTTGGCAACATATAATGCTGAAGATTCGTTTGATCATGAAGCAGCACTAGGATTTATTAAATTATGGGGGCTTCCGACAAAAGTTCATGCAACCGTTAATCAAACGCATCGTTCTGTAGAAGAATCCGTAAAAGAAGCAATTTTAGACGTGAAAGAAAAAGAAAACTTACCGCTATAA MGKEKIVLAYSGGLDTSVAVRWLQDKYNYDVIAVALDVGEGKDLDFIKNKALQVGAVKSYVIDAKALFANEFVLPALQSNLLYEGKYPLISALSRPLIAKILVHIAKEEGAVAVAHGCTGKGNDQVRFDVAFTALDPSLDIVAPVREWAMSREEEIAYAKEHQIPVPIDLDNPFSIDQNLWGRSNECGILEDPWAEAPKEAYDLTIDPEEAPDKPQIVEIAFEQGKPVAIDGEKLSLEALILQLNQVAGKHGVGRIDHVENRLVGIKSREIYEAPAAVTLIAAHQELEALTLTREVAQFKPLMEQKLAQVVYDGLWYSPLTKALIAFITETQKDVSGIVKVKLYKGQAQVVGRKSKQSLYDFDLATYNAEDSFDHEAALGFIKLWGLPTKVHATVNQTHRSVEESVKEAILDVKEKENLPL PGPT0020130_1200 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940 NA NA AK015_02987 693 umpB Na(+), Li(+), K(+)/H(+) antiporter subunit B ATGGACAATATAAAAGAGACGATTGTTGAGGTTGTTCAGTCAATTCTACCGATTACAATCGTAATTACCCTTCTACAGTTCACACTCATATGGTTGCCTATAGAGACATTCATACAATTTTTAATTGGGGTTTTCATGGTAGGAATAGGATTTATTCTTTTTCTATTAGGAGTTAATATTGGCATGCTTCCTGTTGGTGAAATGATTGGCTCTGCCTTATCAAAAACAAAAATGGTATGGCTCATTCTCTTTTTTGGGGTTTTATTAGGCAGTGTCGTTACGATTGCTGAGCCTGATGTGCGTGTTTTATCTACACAGGTGGACCAAGTTTCGAACGGAGAAATTTCTAAAACAGTTCTTATCCTAGCTGTAGCGTTAGGTGTAGGAATATTTGTCGGTTTATCACTTATGCGAATTATTTTTTCCATACCTATTACATATATCCTTGCTGGTGGTTATGGACTAATATTTATTCTAGCGGCTTTTACCCCTTCTAGCTTTGTGCCAATATCCTTTGACGCTGGTGGCGTTACAACTGGTCCATTAACGGTGCCGTTTATTATGGCGCTTGGAGTCGGAGTCGCTTCTGTTTTACGAGGAAGGTCAGCCTCTCAGGACGGCTTTGGTCTCATTGCTTTAGCTTCTCTTGGTCCTATTCTTTCGGTGTTAATTTTAGGAGTGATTTACGGATGA MDNIKETIVEVVQSILPITIVITLLQFTLIWLPIETFIQFLIGVFMVGIGFILFLLGVNIGMLPVGEMIGSALSKTKMVWLILFFGVLLGSVVTIAEPDVRVLSTQVDQVSNGEISKTVLILAVALGVGIFVGLSLMRIIFSIPITYILAGGYGLIFILAAFTPSSFVPISFDAGGVTTGPLTVPFIMALGVGVASVLRGRSASQDGFGLIALASLGPILSVLILGVIYG NA NA NA NA NA AK015_02988 771 hypothetical protein ATGAATATAAAAGTATTTCAAGGGTTTGGACAAACAATGAGTGAAGTCGCCATCGCGCTTTTGCCGTTAATTGTATTATTTGCTATCTTTCAATTGTTTTTCTTAAAGCTCGGCGTGCGTAAGTTACTAGATATTACGTTAGGGATCTTACTAACATTTCTTGGACTTTCTTTTTTCCTCCAAGGCGTTCATATTGGATTTTTACCGATTGGAGAAGAATTCGGAAAGAGCCTCGGCTCCATTGATCATACATGGATTTTGATCCCGATTGGCTTTGTGCTCGGCTTTTTTGCCACTTATGCCGAGCCAGCAGTCCGTGTACTCATTCAACAAGTAGAAAAAGCTTCTAGTGGATACATACCTGAGAAGGTTCTACTCTATACTGTTTCTATTGGTGTTGGCTTATCTGTTGCTTTGTCCATGGTTCGTATTCTTGCTGGTTTCTCGATTTGGTTTTTTATCTTGCCTGGTTATATTCTGGCGCTAGTTATGGTAAAATACGCATCGAAAACATTTACATCGATTGCGTTTGATTCCGGAGGGGTTGCTACAGGCCCAATGACTGCAACATTTATTCTAGCAATGTTTGTTGGGATTGCTTCCGTCACCGAGGGACGAGATCCATTGCTTGATGGGTTTGGTATGGTTGCACTTGTAGCTTTGGCTCCTATTTTATCTGTTCTCACATTAGGTATCTTATATAGCAGAAAGGAGAAGGAGCAGTATGTCCATGAAGAAACCGAAACAAAAACTCATCGTTACGATCGTTAA MNIKVFQGFGQTMSEVAIALLPLIVLFAIFQLFFLKLGVRKLLDITLGILLTFLGLSFFLQGVHIGFLPIGEEFGKSLGSIDHTWILIPIGFVLGFFATYAEPAVRVLIQQVEKASSGYIPEKVLLYTVSIGVGLSVALSMVRILAGFSIWFFILPGYILALVMVKYASKTFTSIAFDSGGVATGPMTATFILAMFVGIASVTEGRDPLLDGFGMVALVALAPILSVLTLGILYSRKEKEQYVHEETETKTHRYDR NA NA NA NA NA AK015_02989 726 hypothetical protein ATGAAGAAACCGAAACAAAAACTCATCGTTACGATCGTTAAAAAAGAACAAGCCAAGAAGGTCATACGTGCTTCTAAGGAAGCTGGTGCCCGCGGCGGAACGACTCTATTCGGAAGAGGTTATCGAACAAATGAGAAAGAACGGTTTCTCGGCATTCCCATTGAACGAGAAAGGGAAATCATCTTAACTCTCGTTGAAGAAGAAATTTATCCCGAGGTTATGCAGGCAATTATTGATTCCGTCCATTTAAACAAACCAAGACAAGGGATCGGGTTTGTCATTGACACAAAGAAAATTACCGGTACACAGCATTTATTGGGTTTAGAAGACAATGATAATGAACCGCACGAAGGAGATGTGGAGCTGGAAATGGAAGAAAAAATCATGTATGATCTAATTATTACCGTTGTCAATAAAGGAAATAGTGAAAAAGTAGTCGACGCTTCTAAAAAAGCTGGCGCTGAAGGTGGGACCATTCTAAACGGACGAGGAACTGGCATTCATGAAAAAGCAAAGCTGTTTAATATTCTCATTGAACCAGAGAAAGAAGTCGTCCTCACTTTAATTAGTAAAGATAAGACAAATGCTGTTTTAAAAGCGATAGAAGAGGAAGCAGAATTAAATACAGCCGGCAAAGGGATTGCTTTTGTCATTGATGTTGACCAAACAATTGGTATTAATCATGTGTTGAATCAAATGGTTAACGAAAAATTGTATGGTAAATAA MKKPKQKLIVTIVKKEQAKKVIRASKEAGARGGTTLFGRGYRTNEKERFLGIPIEREREIILTLVEEEIYPEVMQAIIDSVHLNKPRQGIGFVIDTKKITGTQHLLGLEDNDNEPHEGDVELEMEEKIMYDLIITVVNKGNSEKVVDASKKAGAEGGTILNGRGTGIHEKAKLFNILIEPEKEVVLTLISKDKTNAVLKAIEEEAELNTAGKGIAFVIDVDQTIGINHVLNQMVNEKLYGK NA NA NA NA NA AK015_02990 918 hypothetical protein ATGATTATTCCGCAAATACCCTTTTTAGGATTAGATAAAGATCAGATAGATAAAATATGGGTAAAAGAAGGATACGGACTTGAGGCAAATATTTTCGATGGGAGGTCTCTTTTTGAAGAAGATTTCTTGTATAAATTTAATGAGACTTTGTCTTACGCAAAATCTCTAAATCCGTCACTCTTAACTCTGCATTTCCCTACAGATAATGCTGATTATGTGAATAATAAAGAGATAAAGGAAAAACTATATAAGTTTATAGAGATAGCCCTAAAGCATGAAGTAGCCGGCATCACTCTACATGCTAACCAATTTTTAAGTGTGGAGGAATATCAAAAATATAATTTAACTGATAGTAGAAAAAGAGTCATTGAAGTTTTAGCGAGTCTTGATGACGACTTAAAGGATACGCCCTTATGGATTGGGATTGAAAACTTACCTATCATAGGAAATTTAGGAGACGATTTTGATCCGATTTTTGTCTATCCTAAAGATTTTGAAGAGCTTACACAGCTAAAACTAAAACATATAGGAATAACATGGGATATCTGTCATTGGTCAATTACTTACTTAACCCATTTAAGTATTTCCAAATTATATAGAGATAAAGATTTCGCTATAGATAATTATTTTGAATTCTTCGATTTACAAGATTTTGTGAATCATTATCATTTTAGTTCATTTAAACATCTTACAATACCTTATAGTGAAATAAGATGTATTGAAGGACAATTGCCAAGAGATGGTTCAATAGATGAAACCCTTTTAAAACGAGTTGTAGTAGAAATTAATAAAAGCTACGTTAATAAGAAAATAGGTATGACATTTGAGGTACAGGAAGAAGATTATACAAACAGAAGTACGTCATGGAAAACTCTAGAATGGTTTGGAGATATAATAGATGGAGAACAAACAATTTAA MIIPQIPFLGLDKDQIDKIWVKEGYGLEANIFDGRSLFEEDFLYKFNETLSYAKSLNPSLLTLHFPTDNADYVNNKEIKEKLYKFIEIALKHEVAGITLHANQFLSVEEYQKYNLTDSRKRVIEVLASLDDDLKDTPLWIGIENLPIIGNLGDDFDPIFVYPKDFEELTQLKLKHIGITWDICHWSITYLTHLSISKLYRDKDFAIDNYFEFFDLQDFVNHYHFSSFKHLTIPYSEIRCIEGQLPRDGSIDETLLKRVVVEINKSYVNKKIGMTFEVQEEDYTNRSTSWKTLEWFGDIIDGEQTI NA NA NA NA NA AK015_02991 696 bshB1 COG2120 N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1 ATGAACGTATTAGTTTTCTCAGCTCATCCAGACGATGAGGTTATCGGAGTTGGTGGAACCATCGCTAAGCATGTAGAGCGAGGAGATACTGTGAATGTTGTTATTATCGCAGAAGGAAAATCATCTAGATATGATATTTATGAAAAACCAGAAGATCAAGTATTAAAAGAATCTTATTTAGAAACGAAGAAAGCTTGCGAAAAATTAGGAGTAAGCAAATTTAAGAGATTAAACTTTCCTGATAACCGTTTAGATTCGTATCAACTCCTTGAAATTGTAAAGGTAGTAGAAAATAATATTGAGGAATTTAATCCGAATATTGTTTATACACAATATGGTGGAGATATAAATATAGACCATGCGGTGGTTCATAGAGCAGTAATGACTGCAACAAGGCCTCTGCCTAATCATAATGTTAAATGGGTATTTACTTATGAAACTTTATCATCCACCGAATGGAACTATAATGTTAAAGATTCGTTTATTCCAAATTACTTTGTAAATATAGAAAATCAACTTACCAAAAAAATAGAAGCAATGAGTTACTACAAATCTGAACTAAGAGAGTACCCTCATCCTAGATCACTGAATGCCATTGAACATAATGCTAAGGTTTGGGGAGCAAAAGTAGGAGTACATGCAGCTGAAGCTTTTAGATTGGTCAGGGGACTATGGATAGAGGATAAAACATCATGA MNVLVFSAHPDDEVIGVGGTIAKHVERGDTVNVVIIAEGKSSRYDIYEKPEDQVLKESYLETKKACEKLGVSKFKRLNFPDNRLDSYQLLEIVKVVENNIEEFNPNIVYTQYGGDINIDHAVVHRAVMTATRPLPNHNVKWVFTYETLSSTEWNYNVKDSFIPNYFVNIENQLTKKIEAMSYYKSELREYPHPRSLNAIEHNAKVWGAKVGVHAAEAFRLVRGLWIEDKTS PGPT0019570_860 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463 NA NA AK015_02992 735 putative protein ATGAAAGTAAGTGGTCACCAACCATGTTATATTCCATGGTATGGTTTTTTTGAAAAGGTTGCAAAGGTTGATATATTTGCAATTCACGACATTGCACAATATGAGAAGGGTGGTTATATAAATCGTAATTTAATTAAATCATCTCAGGGATTTCTATGGTTAACCATACCAATACAAATTAAAGGAAATAAAAATACTCCTATAAAAGAAATAAAGATAGACAATACGCAAGATTGGAAAAGACGACATTGGAAAGCGATCACTGTAAATTATAATAAGTCAAAGTATTTTAGGGATTATAGAGATTTTTTCGGTGATATATACCATTCAAACTGGGAGTATATTTATGAATTAAATATGAGCATTATTTCATTTATAATGGATGAACTCAATATAAATACAAAGCTTTGCTATATTTCAGAAATGGAATGTCGACATAAAAAGAAAAGTGACTTTGTCTTATCACTTTGTAAGGAATTACAAGCAGACAATTACTTATCGGGGAAATTAGGTAAAGAGTATTTGAACGAAAAAGATTTCGAGTTAGAAGGTATAAATATAGATTATCAGGAAATTAGAAAAATAGAGTACCAACAATTATTTAACGATTTTATACCTAACCTATCTATTATTGACATCCTATTTAATTGTGGCCCAGTGAGAACCGAAGCAATAGTTAGAGGGGAGAGAAGTTTTGATGAACGTATTAGTTTTCTCAGCTCATCCAGACGATGA MKVSGHQPCYIPWYGFFEKVAKVDIFAIHDIAQYEKGGYINRNLIKSSQGFLWLTIPIQIKGNKNTPIKEIKIDNTQDWKRRHWKAITVNYNKSKYFRDYRDFFGDIYHSNWEYIYELNMSIISFIMDELNINTKLCYISEMECRHKKKSDFVLSLCKELQADNYLSGKLGKEYLNEKDFELEGINIDYQEIRKIEYQQLFNDFIPNLSIIDILFNCGPVRTEAIVRGERSFDERISFLSSSRR NA NA NA NA NA AK015_02993 873 hypothetical protein ATGAAAGCTAAAATAATATCTAATAAACAAAAATGGAACAATATAATTCTTGAAAATAATGGAACTGTTTTCCACCTCTATGAATGGGGTAAGTTAATGGAATATCTCCCTTATGTTACTTTTTATCCTACAATTCTTGAAGATGGAAATAATCAGGTTTATATTCCGATTTTTGAGCAGAATCAGAGAATAAGTGCAAGTTTACTTGGGTACGGTGGACCTGTAATAGTTGGTAATAAGCAAATTGAATTAGAAAGTATACAAGAGATTATATTCTCTCATTTTGGAAATTACATTACTAATCTATTAATCCCGCATAATTCAAATACTATTTCTACATATAATATTTCCAGTTGGAGAGGCAAAACAACTTATTTATTGAGTCTCCCCCAATCTTATGAAGAAATATGGAATAGTTGTTCAGGAAAAGCTCGAACATCTGTCAGATATTCAATAAAACAAGGTGTAGAAGTAAGAAAGCTATCTAGGTCTGAACTAAAAACCTTTTACCATTTATATTTGGAACATGCTAAAACAGTTGGGAGCTCATATATCATTAATTATGAATTATTTGTTGATTGTTTTGAGAAACTAAGCGATAATTCTTTATTTTTAGGAGCATATAAAGATAGTCAATTGGTAAGCAGTAGTGTATTCCTGTATGATCATTACGCAATGTATTATTGGATAAATATTAATAACCATTTAGGAAAAAAAATGCAAGCATCCTATCAAATAATGGAATTTGCTCTAAAATCAGCAGTGGAATATCGCTTGAAAGTGATGGATTTTGGTTATTCTCATACTAAAGAAATTGCAAAGCCAAAAATTTACTGGGGAGCTAAAACTGAACACTGCCCTATCTTAAAATGA MKAKIISNKQKWNNIILENNGTVFHLYEWGKLMEYLPYVTFYPTILEDGNNQVYIPIFEQNQRISASLLGYGGPVIVGNKQIELESIQEIIFSHFGNYITNLLIPHNSNTISTYNISSWRGKTTYLLSLPQSYEEIWNSCSGKARTSVRYSIKQGVEVRKLSRSELKTFYHLYLEHAKTVGSSYIINYELFVDCFEKLSDNSLFLGAYKDSQLVSSSVFLYDHYAMYYWININNHLGKKMQASYQIMEFALKSAVEYRLKVMDFGYSHTKEIAKPKIYWGAKTEHCPILK NA NA NA NA NA AK015_02994 1269 wecE COG0399 dTDP-4-amino-4,6-dideoxygalactose transaminase GTGAAAGATTTGGAAACAAAATATCTATATCCTAAGAATCCGAAAAAGATCAAATATCCCATATACCCTTATATACAGCAATTATCTGACTATAAAGTTTTTAAAAGTAATTATATTTCTGGCCACAGAGAAAATAGGTTAAAAACAAAACTAGAATCTCTATACAAAAATTCAGAAATCCTTCTTACCAATAGTGGTACTTCTGCTTTAAAAATGGGGCTGGTTTGTTTGGATATTAAACCCAACGATGAGGTAATGTTTACTAATTTCAATTGTCCGAACATTATAGATGCAGTACTTTCAATAGGTGCGACACCAGTTTTTGTAGATATAGAAGAAGATTTTTCTTTGTCTTTCGAGGATATCAAGAAGAAGGTTAGTGATAAAACCAAAGCAATAATTTCAACTCATGTTTATGGTTTAAAAGAAAATCTGAAGATATACGATTGGGCTAAGAAAAAAAACATTTATATTGTCGATGATGGAGCACAAGCTATGTTTACTCTTCAAAATAATAAGTTTGTGGGGGGGCATGGGGATATAGGAATATTAAGTTTCGGATTTACAAAGCCACTTTCTAGTATTGGCGGTGGGGCATTAATTGTAAATAATAAGAGTCTAATTGGAAGATTACCAAAGGTACCAATTGAAACTGAAGAAGAAGTATATATAGATTATAAAAATTATTTTAGATCTTGGGCTTTATGTAGATTAAATACTTTTTACATTCCATCTAAGTTAAACAAAGTATGGTACAGACTGTTTAAAATGCCTAAAACTTATTTAAGCAAGACGGAAGCTTTCCCTAGGAATATTAGGTTAATAGAGATCAAAAGAATGAATCGCTTACGTGAGGAACTTATTTTAAAACAATTTTATAGGTATAAGAAAATTAGGGATTATAACATTGCTAACTATCAAGAGATGAATAATAATTTAAAATGTTTAGTTAGATATGGCATAAAATTAATACATTTGGATAAAGGTGAATCCCCAAACTACTATACTCTTATTTTTCCAAATGAACATCAACGTTATGAATGTTCGGAATATTTGGCGGGTAAAGGTATACAAACATGTTGGAATTATATTCCTTTAGACGAAATTCCTATTTATTCAAAATATAAATCTAACACTAAAAACGCAAATACAGTATGGGGGAGAGTGTTATCAGTCCCTTTTAAATATCCGTTAGTGAGTAAAGATATACAATATATTTCATTGCAGCTCAAAAATTATATAGGGAAATCTACACTCTTAAACATATAA MKDLETKYLYPKNPKKIKYPIYPYIQQLSDYKVFKSNYISGHRENRLKTKLESLYKNSEILLTNSGTSALKMGLVCLDIKPNDEVMFTNFNCPNIIDAVLSIGATPVFVDIEEDFSLSFEDIKKKVSDKTKAIISTHVYGLKENLKIYDWAKKKNIYIVDDGAQAMFTLQNNKFVGGHGDIGILSFGFTKPLSSIGGGALIVNNKSLIGRLPKVPIETEEEVYIDYKNYFRSWALCRLNTFYIPSKLNKVWYRLFKMPKTYLSKTEAFPRNIRLIEIKRMNRLREELILKQFYRYKKIRDYNIANYQEMNNNLKCLVRYGIKLIHLDKGESPNYYTLIFPNEHQRYECSEYLAGKGIQTCWNYIPLDEIPIYSKYKSNTKNANTVWGRVLSVPFKYPLVSKDIQYISLQLKNYIGKSTLLNI PGPT0022785_221 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010 NA NA AK015_02995 927 rfbB COG1088 dTDP-glucose 4,6-dehydratase ATGAATCGGGTAGCAATTATTGGCGGATCTGGATTTATTGGACATAATCTTACAGGTTTTTTAACCAAAAATGGATATCATGTAACAATACTAGATAGAAATGAACCGAAAATGGATGTTGATTATAGAATCATAGACATAATGGATAAGGACAATCTAATTACTAATTTGCAAAATGTTGATTCGGTAATTCACTTAGCAGCGATGGTAGGGGTTGATAGTTGCAGATTAAATGTGGATGAAGTTATGAATATAAATTTTACAGGTACAAGAAATGTAGTAGAGGCATGCAAAAAGAATAAAATTAAAAAACTTCTGTTTTCCTCTAGTTCTGAAGTATATGGTGATGGAGTTAAATGCCCATTTGAAGAAACAGATATTAAACTACCTAAGTCTACCTATGGAAAAGCAAAACTTAATTCAGAAGAATACTTACGTAGCGAGGCTAAAGATGATTTTATAGTAAGGGTAGTTAGGTACTTTAATGTATATGGTCCTTCTCAAAGAACAGATTTTGTAATAAATAGGTTATTAGATAAAGCGTATCAAGGGAAAGAGCTCAGTATTTATGGAGATGGATCGCAGACTAGGTGTTTTACTTATATTACTGACATTTTAATGGGTACATATCTAGCATTTATACATGAAGGTAATTTTTATGAAGATTTTAATATCGGAAACGATTTTCCGGTTACGATTAATGAGCTGGCTGAAAAAATTGTAGATGTCTTAGGAAGTAAGAGTGAGGTAAAATATATCCCTTATGGGTCCGAGGGGGTTAGGGATAAAAATATGGAGATATATCGTCGTATTCCTTCTATTAATAAGGCAAAGTCTTTACTTGGATATGAACCAAAAGTTTCTTTAGAACAAGGTTTAAGGAAAGTAATAGGTGAAAGATTTGGAAACAAAATATCTATATCCTAA MNRVAIIGGSGFIGHNLTGFLTKNGYHVTILDRNEPKMDVDYRIIDIMDKDNLITNLQNVDSVIHLAAMVGVDSCRLNVDEVMNINFTGTRNVVEACKKNKIKKLLFSSSSEVYGDGVKCPFEETDIKLPKSTYGKAKLNSEEYLRSEAKDDFIVRVVRYFNVYGPSQRTDFVINRLLDKAYQGKELSIYGDGSQTRCFTYITDILMGTYLAFIHEGNFYEDFNIGNDFPVTINELAEKIVDVLGSKSEVKYIPYGSEGVRDKNMEIYRRIPSINKAKSLLGYEPKVSLEQGLRKVIGERFGNKISIS NA NA NA NA NA AK015_02996 1164 arnB COG0399 UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase ATGATTATTACAAATGATTTTATACCTTTTCATAGGGCGGAAATTACAAGTCAAGAAATAAATAATGTAATTGATGCACTCAAATCAGGTTGGATATCTAAAGGACCTAAAGTAGTAGAATTTGAAGAAAAATTAGCTAGCTTTTTAAATACAAAACATGTGATAACTTGTAATTCTGGTACTGCAGCTCTACATATGGCTCTTTTATCAATGAGAATAGGGCCAGGAGATGAAGTTATAGTACCAAGTTTTACCTTTTGTTCAAGTGTGAATGTAATTTTACACGTAGGTGCTACCCCCGTTTTTGTTGATATAAACGAAGATAATTTTTGTCTTAATATTAGTGACGTTAAGTCAAAAATAAGTGCTAAAACAAAAGCTATAATAGCTGTACATTTTGCTGGTTATCCTGCGGATTTGAAGGAATTAAGTTGTTTAGCTAGGGATAATGAGCTTTATCTTATTGAGGATGCAGCGCACGCCTTTACCACAAAGTTTAACAATCAATATATAGGAACTCATGGTGATGCTATATGTTTTAGTTTTTATGCTACAAAAAACATAACAACTGGAGAGGGTGGAGCGTTGGTCGTATCCAATGATACATTAGCAGAAAAGGCACGTTTATATGGTTGGCATGGCATAAGCAAAAATGCTTGGAATCGGTACACTAGCGAAGGAAGTTGGAAGTATGATGTGATGTTACCAGGTTTCAAATATAATATGACAGATATACAGGCTGCTATTGGATCAAGTCAATTAGAAAAGGCTGAGATGATGAGAAATAAAAAAGAAAAAATAGCGAGTTATTATTCCGAAAATTTAAATGAGATTTCAGAATTTATAAAAGTACCTTTTTATAAAAAAGAAGTGGGTTTGCAACATGGATGGCATTTATTTGTTATAAGAGTTAAAAATAACAATTTCATAAATAGAGACGAGTTTATTGAAAGAATGAAAGAAAGAAAAATTGGGCTAAGTGTTCATTTTATCCCAGTGCATCTTCATCCCTACTATAAAATAAACTTCCCTACTAGTTTGCCTGTCACAGAAAATATTTATGATGAGATAGTATCCTTGCCTTTATACAGTAATCTAACAAAAGAAGAAACTAGTTACATTGTAAAATCTATTAAAGAAATCTTTATGGGGGCGAGTAGATGA MIITNDFIPFHRAEITSQEINNVIDALKSGWISKGPKVVEFEEKLASFLNTKHVITCNSGTAALHMALLSMRIGPGDEVIVPSFTFCSSVNVILHVGATPVFVDINEDNFCLNISDVKSKISAKTKAIIAVHFAGYPADLKELSCLARDNELYLIEDAAHAFTTKFNNQYIGTHGDAICFSFYATKNITTGEGGALVVSNDTLAEKARLYGWHGISKNAWNRYTSEGSWKYDVMLPGFKYNMTDIQAAIGSSQLEKAEMMRNKKEKIASYYSENLNEISEFIKVPFYKKEVGLQHGWHLFVIRVKNNNFINRDEFIERMKERKIGLSVHFIPVHLHPYYKINFPTSLPVTENIYDEIVSLPLYSNLTKEETSYIVKSIKEIFMGASR PGPT0022785_712 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010 NA NA AK015_02997 1320 wbpA_2 COG0677 UDP-N-acetyl-D-glucosamine 6-dehydrogenase ATGACACTACTATTAAAGAAAAATGATTTAGAAGTCCGTATAAAAATTAAGAAAGCTCGAATTGGCGTTATAGGTTTGGGGTATGTTGGTTTGCCACTCGCATTAACTTACATAGATAAAGGATTTAAAGTTTTAGGGCTTGATTCTAATGTAAATAAGCTTAATTTACTATCCAATGGGAAAAGTTATATAAAGGATGTACCTGATCAAGTTATTAAAGAGGCCCTTTTAAAAGAGAAAATTCAATTTAGTAGTGATATGGCTTTAATAAGTGAATGTGATGTTATTGTTGTGTGCGTCCCCACCCCACTAAAAGAACAAACTAAAGAGCCTGATTTATCATACATTAGAGAGGTAGTTAAACAATTAATTCAGTTTAGTAGACCTAACCAGTTACTTATTTTAGAAAGTACAACCAATCCTGGGACTACTAGAAAAGAAGTTGCAGAAAAGATTGCTAGTAGATCGGAATTAAAAATAGGTGAAAATTATTTTGTAACCTATTCACCTGAAAGAATTGATCCGGGTAATCAAAATTATAAAGTTTATGAGATACCCAAGGTAATAGGTGGAATGACTAAAGAATGTCTAAGGTACGGTGAACTATTTTATAGTAGTGTCGTAAAAAAGGTTCATTGTGTTAGCTCACCAGAAATAGCTGAAACTGCCAAATTACTCGAAAATACATATAGGTACATTAATCTAGCTTTTATAAATGAAATGGCTTTACATTGTAGAGAATTAAACATAGATATATGGGAAGTTATTGACGCATCAAGCACTAAACCTTTTGGGTTTCAAAAATTTTATCCAGGACCTGGTGTAGGTGGTCATTGCATTCCTGTTGACCCTATTTATTTTAAGTGGGTCGCTAATAATTTAAATTTAAAAACTGAGCTAATTGATTTAGCTATTGAAATAAATACTAGAATACCAGAATTAATTGTTCAAAAAACTAAAGAACTTATTAGAGAACCAAGTGGGAAAGTTTTGATAGTTGGGATGGCCTATAAGAAAAATGTTAATGATTATAGAGAATCTCCAGCATTAGATATATTAGAAAAACTATCTTCCGCAGGGATCCATACGGATTATTATGATCCGTTAATTGGCAATATTCAATTAACTAAAGAGGGGGAAGCTATACAATCAGTTCTACTTAATAAAGATAGTCTGACCATGTACGATATAATTATTATACATACAGACCACGATGAAATTAATTATAAGTTATTAGAAAACACAAAAGCTACTATTATTGATACCAGAAATGTACTAAGGCGAAAAAATATTAAACCACTAAATTTAGTTAATTTATAA MTLLLKKNDLEVRIKIKKARIGVIGLGYVGLPLALTYIDKGFKVLGLDSNVNKLNLLSNGKSYIKDVPDQVIKEALLKEKIQFSSDMALISECDVIVVCVPTPLKEQTKEPDLSYIREVVKQLIQFSRPNQLLILESTTNPGTTRKEVAEKIASRSELKIGENYFVTYSPERIDPGNQNYKVYEIPKVIGGMTKECLRYGELFYSSVVKKVHCVSSPEIAETAKLLENTYRYINLAFINEMALHCRELNIDIWEVIDASSTKPFGFQKFYPGPGVGGHCIPVDPIYFKWVANNLNLKTELIDLAIEINTRIPELIVQKTKELIREPSGKVLIVGMAYKKNVNDYRESPALDILEKLSSAGIHTDYYDPLIGNIQLTKEGEAIQSVLLNKDSLTMYDIIIIHTDHDEINYKLLENTKATIIDTRNVLRRKNIKPLNLVNL PGPT0018920_399 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0018920-wbpA-K13015 NA NA AK015_02998 720 nth_1 Endonuclease III ATGCTCCATTGTAAAGAACCTATTTTCTTTCATATGAAAGATTTATTAACGAAATGTAAAAATAAAGTGGAGGGCTTGATTATGGGAGCGATTCAGCAAATATATAATAGATTGTATCATTGTTACGGCTCGCAAGGATGGTGGCCTGCGGATACGGTGTTTGAAATGATGATAGGAGCAATTCTTGTTCAGCGAACAAATTGGAGTAATGTAGAGAAGGCGTTGTGTCAGCTCACCCCTTATTTATCACCAGAGCAATTAGAAGCGTTGCCCATGGAAGAATTAGAGGTAGCGATTCGTTCAAGTGGTTTTTATAGACAAAAGGCAAAGCGAATAAAAGCTTTTCTTCATTGGTACAAAAAATATGATTATCAACTTGCTCATTTGCGACATGTAGAAACAGAAACGTTGCGAGCGGAGTTATTAAGTATACATGGCATTGGCGCTGAAACAGCTAATGTCTTATTACTTTACGCATTTCAACGTCCTGTTTTTGTTGTTGATGCTTATGCTCGTAGGATTTTTGTTCGATTTGGTTTGGACATGCCGGAAAAGGAGCAAGTGTTTCGGCTTCAGGTGGAGACGGAATGCGTATTAGATACAGAGGGCTTTAAGGAATTTCATGCTCTAATCGTGCAGCATGCGAAAGAGCATTGTAAAATGAAGCCGATTTGTTCAGGCTGTCCGTTGGTTGACGAATGTGAGCGAAGAGGTGTGTAG MLHCKEPIFFHMKDLLTKCKNKVEGLIMGAIQQIYNRLYHCYGSQGWWPADTVFEMMIGAILVQRTNWSNVEKALCQLTPYLSPEQLEALPMEELEVAIRSSGFYRQKAKRIKAFLHWYKKYDYQLAHLRHVETETLRAELLSIHGIGAETANVLLLYAFQRPVFVVDAYARRIFVRFGLDMPEKEQVFRLQVETECVLDTEGFKEFHALIVQHAKEHCKMKPICSGCPLVDECERRGV NA NA NA NA NA AK015_02999 996 pstS Phosphate-binding protein PstS ATGAAGTTCAAGAAGTATCTTATGTTCCTTCTAATCGCTGCTCTTGCAGTAGTAATTGCAGCATGTGGATCGGATTCTGAAGGAGATAACAAAGACAATAACGAAGAGGAATCATCTGAAAATACTGGCTCAGAAGGTGATAGTGATTCTGAAAAAGTAGAAGGCAGCGTCGTAATTGATGGATCTGGAACGGTTTTTCCTTTAATGGCTAAACTTGCTGAAGAATACATGGGAGAAAAACCAGATGTATCTGTTGAAGTTAGCCGTGCTGGTACAAGTGCAGGATTCGAAAAATTCCTAGCTGAAGATGGAACAGACTTTAACGATGCTTCTCGTGTAATTAAAGACGAAGAGAAAGCGAAAGCTGAAGAACTTGGAATGGAAATCAAAGAATTAAAAGTAGCTTTAGACGGTTTAACAATTGTTACTCACCCTGACAACGATTGGGCGACAGAATTAACGGAAGATCAAGTCAAAGGGATTTTCCTTGGAGAATATACAAACTGGTCAGATGTAAACCCAGAGTGGCCAGAGGAAAAGATTCAAACTTATGGACCAAATGAAAACCACGGAACATATGAGTTTTTCTATGAAAATATTTTAGAAGAACAAGATCTAGTAAGTGATATTAACTTACAACAAGATTACTCAACACTTGTAACACTTGTAGCTGAAGATAAAAACGCCATTGGATTCTTCGGTTTCGGATACTATGACAACAACAAAGATAAAGTACAAGCTGTAGGCATTGACTTTGGCGATGGTGCTGTAGAGCCATCTCTAGACACGATTGCTGAAGATGGTGACTATGCTGGCTACACTCGCCCAGTATTTACTTACTTGAACGTTGATAATGCAAAAGAAAAGCCGCAAGTACTTGATTATGCCTTATATATTATGAACAATGTAAATGAATTTGCTGGAGAAACTGGCTTTGCGCCAATTCCTGAAGAAGAAGCAAAAACTCTAGTAAGTGAATTAGAAGCACTAAAATAA MKFKKYLMFLLIAALAVVIAACGSDSEGDNKDNNEEESSENTGSEGDSDSEKVEGSVVIDGSGTVFPLMAKLAEEYMGEKPDVSVEVSRAGTSAGFEKFLAEDGTDFNDASRVIKDEEKAKAEELGMEIKELKVALDGLTIVTHPDNDWATELTEDQVKGIFLGEYTNWSDVNPEWPEEKIQTYGPNENHGTYEFFYENILEEQDLVSDINLQQDYSTLVTLVAEDKNAIGFFGFGYYDNNKDKVQAVGIDFGDGAVEPSLDTIAEDGDYAGYTRPVFTYLNVDNAKEKPQVLDYALYIMNNVNEFAGETGFAPIPEEEAKTLVSELEALK PGPT0002625_4480 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 AK015_03000 957 hypothetical protein ATGGCACTGGACAACAAGATAGACAATCAAGACAAACCAAGTATTCAAGACATGATTGCGAAGAAGAAAAACGGTAAAAACCTAACAAGCATAACGGAAAAAGTCATTCCTGTCCTCCTATTCTTGATTGCAGCAGTTTCTATCTTCACGACCATTGGAATTGTTTATACATTATTAATAGAAACGATTGAATTTTTTAAGCGTGTTCCCGTTATGGATTTCTTTACAGGAACCGCCTTAAAACCCTTAAGTCAAAACCCAGAATTTGGGGTACTACCACTTATTAACGGTACCATCATTTCTTCTATTATTGCCATGCTCGTTGCTGGACCAATTGGTATTATGACAGCTGTTTTCTTAAGTGAATATGCCTCAGAACGAGTAAGAAGAACATTAAAACCAATGTTAGAAATTCTTGCTGGAATTCCTACCATCGTTTATGGTTTCTTTGCCTTTACATTTGTTACACCGCTTATTCGCGAGGTTTTTCCAAGTGTAGAAGCGACAAATATTTTAAGCCCTGGACTCGTAATGGGTGTCATGATTATTCCTATGATTGCATCACTCTCAGAAGATGCAATGACATCTGTTCCCAACGCTATGCGTGAAGGTGCGCTCGCATTAGGAGCAACAAAGTTAGAAGTTACGTTTCGCGTCGTCATTCCTGCTGCGCTTTCTGGAATCATCGCATCTTTTGTCCTTGGTATTTCACGTGCGATTGGTGAAACAATGATTGTAACCATAGCTAGCGGAAGCTCGAAAAACTTCACCTTTGATATTACACAATCTATGCAGACAATGACTGCATATATTGTCGAGGTTTCTGGCGGTGAAGCGCCAGCTGGATCAACGATTTATTACAGCTTATACGCAGTTGCTATGACATTATTTGTATTCACACTGCTTATGAACCTACTTGCAAGATATGTCTCTCGTAAGTTCAGGGAGGAATATTAA MALDNKIDNQDKPSIQDMIAKKKNGKNLTSITEKVIPVLLFLIAAVSIFTTIGIVYTLLIETIEFFKRVPVMDFFTGTALKPLSQNPEFGVLPLINGTIISSIIAMLVAGPIGIMTAVFLSEYASERVRRTLKPMLEILAGIPTIVYGFFAFTFVTPLIREVFPSVEATNILSPGLVMGVMIIPMIASLSEDAMTSVPNAMREGALALGATKLEVTFRVVIPAALSGIIASFVLGISRAIGETMIVTIASGSSKNFTFDITQSMQTMTAYIVEVSGGEAPAGSTIYYSLYAVAMTLFVFTLLMNLLARYVSRKFREEY PGPT0002620_3126 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 AK015_03001 885 hypothetical protein ATGAAATATGTCGATACGAATCAAGTCCAAAAAAATATGAACAGTCGTCTGATTAAAAACAACATCCTTAAATTTATATTTTTTCTCGCAACGATTTTTGGCTTAATTGTTTTAGCTGTGCTAATTATTCGTGTCATTATGCAAGGCGCCAGCTGGATTAATATGGATTTTTTAACAAATAAGTTATCTACTTCCCCTGACCGGGCTGGTATTATGGGTGCTATCTTAGGAACATTTTGGCTCATGCTCGTCGTCATTCCAGTTACGCTAATACTTGGCGTTGGGACAGCTATCTATTTGGAGTTGTATGCAAAAAAAGGACGTTTTCAAGGTTTTGTTCAAACAAATATCGCTAATTTAGCTGGTGTTCCATCCATTGTTTATGGAATTCTCGGAATGACTATCTTTGTCCGTGCCCTTAATTTCGGAAATGTCGTATTGGCTGGTGGACTAACCATGTCATTACTTGTCCTTCCGATTATCATCGTCGCTTCACAAGAATCCATTCGAGCCGTACCGCAACACTTAAGTGAAGCCTCTTATGGCATGGGAGCTACGAAATGGCAAACGGTTAAAAATATCATTCTCCCTGCAGCATTACCTGGTATTTTAACAGGGTCGATATTGTCTTTATCTCGAGCAATTGGCGAAACAGCACCGCTTGTTGTTATCGGTATACCTGCTTTACTTATCCCTTTTCCGGGTGGAATTATGGATAAATTCACGGTGCTCCCAATGCAAATTTATTATTGGACGATTGACTCTTCTTTAGTTGAAGAATATGCAAACTTAGCTGCGGCAACAATTATTATTTTGCTCGTATTACTGTTTCTTTTAAATGCAACAGCTATTTTTATCCGCAATAAGTTCCAAAAACGTTTTTAG MKYVDTNQVQKNMNSRLIKNNILKFIFFLATIFGLIVLAVLIIRVIMQGASWINMDFLTNKLSTSPDRAGIMGAILGTFWLMLVVIPVTLILGVGTAIYLELYAKKGRFQGFVQTNIANLAGVPSIVYGILGMTIFVRALNFGNVVLAGGLTMSLLVLPIIIVASQESIRAVPQHLSEASYGMGATKWQTVKNIILPAALPGILTGSILSLSRAIGETAPLVVIGIPALLIPFPGGIMDKFTVLPMQIYYWTIDSSLVEEYANLAAATIIILLVLLFLLNATAIFIRNKFQKRF PGPT0002610_3550 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038 NA NA AK015_03002 858 pstB3 COG1117 Phosphate import ATP-binding protein PstB 3 ATGGCTACGTTAACGAAGCCCAATATCAAAGTGAAGCGACAAGTAATTTCAGAAGAAGAAGCAACTTCAGAAGTAGCTGCGACAACGAAACAGAACGTGCATAAAAAAATTGTGTACGATACGAAAGATTTAAACTTATGGTATGGCGATACACATGCGCTAAAAGACATTAATTTGTCTATTTACGAGAAAGAAGTAACGGCAATTATTGGTCCATCTGGGTGTGGAAAGTCTACGTATTTAAAAACGTTAAACCGTATGGTAGAACTTGTACCAAGCGTTAAAACTTCTGGTGTCATTACGTATAAAGATAAGAGCATTTTAGATAAATCATTTAAAGTAGAGGATTTACGTACAAAAGTTGGCATGGTATTTCAAAAACCAAATCCTTTTCCTAAATCCATCTATGAAAATATTGCCTATGGGCCAAAAATCCATGGTATTCGCAACAAAAAAATTCTTGATGAAATTGTAGAAAAAAGCTTACGTGGTGCTTCCATTTGGGAAGAAGTAAAAGACCGTTTAAAAGAAAATGCCTATGGTCTCTCTGGCGGGCAGCAACAACGGATTTGTATTGCTCGTTGTTTAGCGATTGAACCTGATGTTATCTTAATGGATGAGCCGACTTCAGCACTTGACCCAAAATCTACGCTACGTGTAGAAGAGCTCATTCAAGAGTTGAAGAAAGATTATTCTATTGTTATTGTTACTCATAACATGCAGCAGGCTGCACGTATTTCCGACCGCACAGCATTTTTCCTAAATGGAGAAGTGGTGGAATATGATGAAACAGATAAAATTTTCACGAACCCATCAGACAACAGAACGGAAGACTATATTTCCGGTCGCTTTGGTTAA MATLTKPNIKVKRQVISEEEATSEVAATTKQNVHKKIVYDTKDLNLWYGDTHALKDINLSIYEKEVTAIIGPSGCGKSTYLKTLNRMVELVPSVKTSGVITYKDKSILDKSFKVEDLRTKVGMVFQKPNPFPKSIYENIAYGPKIHGIRNKKILDEIVEKSLRGASIWEEVKDRLKENAYGLSGGQQQRICIARCLAIEPDVILMDEPTSALDPKSTLRVEELIQELKKDYSIVIVTHNMQQAARISDRTAFFLNGEVVEYDETDKIFTNPSDNRTEDYISGRFG PGPT0002615_530 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 AK015_03003 1719 hypothetical protein TTGCGTATACAGAAGCCGACTTGGTTCACGCGTTTTTTTTCATTTACAAAAAGTATGCAAATAAAATTTAGCTTGTGGAGCAGATTACTCATCCTGTTTATTGTGTTATTACTTCTTTCTGTCATGGCTGTAGGTGTTAGTTCATACATACAAGCAAAGAAAATGACCACATCAGCAATTGAAAATCGGCTAGAACGTGAAACCGAATTAATGGGTTACATTGCAGAGAATTTAAAATTTTTGTATGTCAGTGATGATACGTATTTTCATCAGCAATTGAATGCAAATGTTAGAGAGCAAAAAAATAAGCTAGCTAAAGAAGGGATACCGTCCGAATATTTTTACGTACAGTCTGGAGAAGTTGTTCCCCTTCAGGAAAGTGAGGGAGAGCTTCCGCCAATATCGAATGCATTGGTAAATGAATTAGTAGAACAAAAGGATGGTCTATTGCATAAGACCATTGACGGAAAAGAATATACGTTAACGTTTCAAGAAATGAAAGAGGTAAAAGGATTATATGTGTTGGTTGTCCCTACTTCTTCGTATATGGGGCCAGTAAAAGGAATGGCTATGGATACAATGATTATAAGTTTGATTAGTGCTGTTATTGCCAGTATTGTCATTGCCTTGTTTGTCCGTAGCTTAACAAAACCACTTAGTGTATTACGAGAAACGATGCGAGAGGTACGTTCGGGGGAAATGAAAGAACCGAAGCAGTTGCAAACGACGTTGCCAGAGTTCATTTCGCTACATAAGAGTTATACGACAATGATTCATTTTATGCGCAATTTGCTTAAAAATATGAAAGAAACAACGAATGATTTAAATGAGGCTGGATTAGAATTACAAGCGTCAGCTGCAGAAAGTTTACATTCTGGTGAGCAATTAAAGCAAGCCATTCACGTCGTTAAGGATGGTGCTGATCAGACGGCGGCAAGCTCAGAAGAAAGTATGACGCGTTTCCATGATATGAAGGAAAATGTGGAACGGACAATAGCACAAATGGAACAATCGTATCAAAGCTCACAAGCGATGAACAAATCGGCAGAAACGGGCGAACAGCAGATTAAAAAGCTAATTGATACCATTACTTCCTACGAGGTCGATTTTACCCAATTGACAAACACGATACATCATGTTCGTAATAATTCTAAAGCAATTACAAAATTAGTAGATATCATTCAAAAGATTGCTGAGCAGACGAAATTATTGGCATTAAATGCAGGAATTGAAGCAGCTCGTGCAGGAGAATCTGGAAAAGGGTTCACTGTTGTTGCTAAAGAAGTTCGTAAGCTAGCAGAGCAGTCTTCTGAGGCGGCTGTGGAGATAACGACTACCATCAATCGTATGGAAGAGAATACGACATCTGCTGTGAAGGAATTTGATCATATGCTTGCGAAAACGAATGCAACATTATCCATGTCAAAAGCAGCAAAAACATCATTTGATAACTTACTGTATGAAATTGAACAGGTTGGAAACCAATTTCATAGGATGAAAGAAGAAGTACAAGCAGTAGGGTCTGTATTACCGCAACTAGAGCAGGCAACGCTCAACTATGCTTCTGTAGCCCAGGAAAATTTGGCAAGTGCAGAGCAAATGCTTACCACGAGTGATGCACAAATAACACAATTGAAAACAAACCAAGAAGTAGGGGAGCGTTTAACAGCTATAGCCGAAGACCTCTCACAACATACAAAGCAATTTCATATTGAATAA MRIQKPTWFTRFFSFTKSMQIKFSLWSRLLILFIVLLLLSVMAVGVSSYIQAKKMTTSAIENRLERETELMGYIAENLKFLYVSDDTYFHQQLNANVREQKNKLAKEGIPSEYFYVQSGEVVPLQESEGELPPISNALVNELVEQKDGLLHKTIDGKEYTLTFQEMKEVKGLYVLVVPTSSYMGPVKGMAMDTMIISLISAVIASIVIALFVRSLTKPLSVLRETMREVRSGEMKEPKQLQTTLPEFISLHKSYTTMIHFMRNLLKNMKETTNDLNEAGLELQASAAESLHSGEQLKQAIHVVKDGADQTAASSEESMTRFHDMKENVERTIAQMEQSYQSSQAMNKSAETGEQQIKKLIDTITSYEVDFTQLTNTIHHVRNNSKAITKLVDIIQKIAEQTKLLALNAGIEAARAGESGKGFTVVAKEVRKLAEQSSEAAVEITTTINRMEENTTSAVKEFDHMLAKTNATLSMSKAAKTSFDNLLYEIEQVGNQFHRMKEEVQAVGSVLPQLEQATLNYASVAQENLASAEQMLTTSDAQITQLKTNQEVGERLTAIAEDLSQHTKQFHIE PGPT0015710_18584 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 AK015_03004 1041 adh COG1063 Alcohol dehydrogenase ATGAAAGCACTTACTTATTTTGGACCAGGAAAGAAAGATTTTATCGACAAACCAAAGCCAAAGGTAGATAAAGCAACAGATGCATTGATTAGAGTGTCGAAAACAACGATTTGTGGTACAGATTTGCATATCTTAAAAGGTGATGTTCCAGCGGTAACAGAAGGTAGAATTTTGGGGCATGAAGGTGTAGGTGTTGTTGAAGAAGTTGGCGAAGGTGTGAAAAACTTTAAAAAAGGGGATAAAGTTATTATCTCTTGTGTCACTTCTTGTGGGAAATGTGAAAATTGTAAGCGGGCGCTTTATGCGCATTGTGAAGATGGAGGCTGGATCTTAGGTCACCTCATTGATGGAACGCAAGCTGAATATGTACGTATTCCGCATGCAGATAATAGCTTATATCATATTCCTGATGGTGCAGATGAAGAAGCGTTAGTAATGTTAAGTGATATCCTTCCGACTGGATTTGAAATTGGTGTACTTTACGGACAGGTACAGCCTGGACAAACTGTAGTAATTATCGGAGCTGGTCCAGTCGGTATGGCAGCTTTGCTTACTGCGCAATTTTATTCGCCGGCAGAAATTATTATGGTGGATTTAGACGATCATCGTTTGGAAGTTGCTAAGAAATTTGGCGCTACAAAAACGGTTAATAGCTCAGATGGAAAAGCAGTAGAAAAAATTATGGATTTAACAGATGGAAAAGGTGTAGATGTGGCAATGGAAGTTGTAGGTATACCCGCTACGTTTGAAATTTGCCAACAAATTATTAAACCTGGAGGTGCCATCCCAGTATTAGGAGTGCACGGTAAAGCTGTTGATTTCCATCTTGAAAAATTGTGGATTAAAAACATTCGTTTAACGACAGGTTTAGTAAGCACGAGCACTACGCCAATGCTGTTAAAAACGGTGCAATCAAATAAATTACAGCCAGAAAAACTGATAACACATCGTTTTACGTTTGACGAGATGCTAAAAGCATATGAAGTATTTGAGAATTCAGCGAAAACAGAAGCATTAAAATTGATTATTTCCAATGAATAA MKALTYFGPGKKDFIDKPKPKVDKATDALIRVSKTTICGTDLHILKGDVPAVTEGRILGHEGVGVVEEVGEGVKNFKKGDKVIISCVTSCGKCENCKRALYAHCEDGGWILGHLIDGTQAEYVRIPHADNSLYHIPDGADEEALVMLSDILPTGFEIGVLYGQVQPGQTVVIIGAGPVGMAALLTAQFYSPAEIIMVDLDDHRLEVAKKFGATKTVNSSDGKAVEKIMDLTDGKGVDVAMEVVGIPATFEICQQIIKPGGAIPVLGVHGKAVDFHLEKLWIKNIRLTTGLVSTSTTPMLLKTVQSNKLQPEKLITHRFTFDEMLKAYEVFENSAKTEALKLIISNE PGPT0008290_498 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008290-adh2_1-K18369 NA NA AK015_03005 138 hypothetical protein TTGGCAGATAAGCAACGACAATTTAAAGAAACGAAAAACCATGGTGAGCATCGCAATGGGCGAAAAAGTCCTTATAAAAATAGTCGTACACATGGTAGTGGGCAGCCAGATGAATATGTTACAGATAGGAAAAAATAA MADKQRQFKETKNHGEHRNGRKSPYKNSRTHGSGQPDEYVTDRKK NA NA NA NA NA AK015_03006 1494 cvrA COG3263 K(+)/H(+) antiporter NhaP2 ATGGACTTATCATTGCAAATGCTTATTTTTTTATTTTCCGCTATGCTCATTGTCGGCGTTTTGGCAACGAAGTTCTCCTCTAAACTTGGACTTCCCGCTCTCGTTCTTTTCCTCATAATCGGGATGGGTTTAAATGAATTTATCTTCTTTGAAAATGCGCAGCTTATGCAACTCATCGGAATTATGGCGTTAATTATCATTTTATTCGAAGGTGGTACGCAAACAAAATGGGAGCAGATTCGACCTGTTCTCGGTGCAGCCGGATCACTTGCAACGTTAGGTGTTTTATTAACAACCGTTGTGACTGGATTTGCTGCCATGTACATTCTTGACCTTACTGTACTAGAAGGCATGCTGTTTGGGGCTATCGTTGGCTCAACAGATGCAGCTGCTGTTTTTTCCGTACTTGGCAATAAAAACATAAAAGCAAAGCTGACTTCTACACTAGAAGCTGAATCAGGGTCAAATGATCCGATGGCTGTATTTCTAACGGTTGCGTTTATTGAATTAATTCAGGTTCCTGACGCATCTATTTGGACTACGATCGGCAGTTTCTTTTTACAAATGGGTTTAGGACTCCTGCTTGGGCTATTACTCGGAAAACTTACTGTCCTTATCATTAATAATATTAATTTGGATACTTCTGGACTATATCCGGCACTTGCAATTGGGATGGCTACCGCGACTTATTTTTTCGCGGATTTCTTTGGGGGAAGTGGATTACTTGCTGTATATGTCATGGCTGTATTTGTCGGAAATAGTGACCTGATGTATCGTTTCTCCATTTTACGATTCAGTGAAGGTTTTGCTTGGATGATGCAAATTCTTATGTTTATTTTGCTTGGTTTGCTCGTTTTCCCTCAGGCATTACCTGCCATATTTTGGCAAGGCGTGCTGTTAACCCTTATTCTTATGTTCATCGCTCGACCTATTGCTGTTTTTATTTCAATGTTTTTTATGAAATATAATATGAAAGAGCGATTGTTTATCTCTTGGGCTGGTCTTAAAGGTGCCGTACCTATCGTATTAGCGACGTATCCAGTTATTGCCGGGGTGGAGAATAGCGATCTGATTTTTAATGCTGTCTTTTTCGTTGTCCTTATATCCGCACTCGTACAAGGTAGCACATTGTCTTGGCTTGCTTCAAAGCTTGGATTTACAGGTGAAAAAAATGATCCAACTAAACCAACCATGGAACTAATACATTTGGGTAATACGGAAGCAGAGATTATGGAAGTGCATATTTTTTCTAAGTCACCTGCTATCCATCAAACATTAAATGAGATTGAACTACCTGATGACACATTGATTATTGGCATTATTCGTGATAAGCAAATTATAACGCCTACGGGTGACACCGTCATTTTAGAAGATGATACCTTATATGTATTAAGCAACCGTAAAAATAGAATCAAAGCCAAAAATGTACTACTTGGTAACCACGATAAAAAAACGGTGTCGAAAAAAGCAGTAAAAAAAGAGGCAGAAGGTTAA MDLSLQMLIFLFSAMLIVGVLATKFSSKLGLPALVLFLIIGMGLNEFIFFENAQLMQLIGIMALIIILFEGGTQTKWEQIRPVLGAAGSLATLGVLLTTVVTGFAAMYILDLTVLEGMLFGAIVGSTDAAAVFSVLGNKNIKAKLTSTLEAESGSNDPMAVFLTVAFIELIQVPDASIWTTIGSFFLQMGLGLLLGLLLGKLTVLIINNINLDTSGLYPALAIGMATATYFFADFFGGSGLLAVYVMAVFVGNSDLMYRFSILRFSEGFAWMMQILMFILLGLLVFPQALPAIFWQGVLLTLILMFIARPIAVFISMFFMKYNMKERLFISWAGLKGAVPIVLATYPVIAGVENSDLIFNAVFFVVLISALVQGSTLSWLASKLGFTGEKNDPTKPTMELIHLGNTEAEIMEVHIFSKSPAIHQTLNEIELPDDTLIIGIIRDKQIITPTGDTVILEDDTLYVLSNRKNRIKAKNVLLGNHDKKTVSKKAVKKEAEG PGPT0013860_1038 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105 NA NA AK015_03007 273 hypothetical protein ATGTACAGGAATATACTGGAAGCTTGGTGGCCTATTATCCTCGCTGGTATTATAACGGCAACTATCATTATTGTTTTAGCTCGTTATATACGTAGCACTGTCCTCTTTTTACTAACAACCTTAATAAGTTTCGTTAGTTTTCTTATGCTTTTGTTCAGTATATTTACTGTTGGTAGATGGGAAGGTCTGGGGATAGGCATGTTCTCTATTTCTATATTAGTTGGTGCCAATGTTGGTGCTATATGCAGTTTCTTCGTGAAACAAAAGCAATGA MYRNILEAWWPIILAGIITATIIIVLARYIRSTVLFLLTTLISFVSFLMLLFSIFTVGRWEGLGIGMFSISILVGANVGAICSFFVKQKQ NA NA NA NA NA AK015_03008 855 ywpJ_2 COG0561 Phosphatase YwpJ ATGAAATTAATCGCCATTGATTTGGACGGAACGTTACTGACTGACGAGGGAACCATTAGTACGGCGAATCGTTCCGCTATTTTAGACGCCCAACAAAAAGGGCATATTGTATGTATCGCATCTGGTCGTTCACTTCCAGATACAAAGGAAATTTTGCGTCTTGCTAAATTAGATTGTCCAATTATTGCAGGTAACGGTGCGACATCATTTCATTGTGGAGAACATGTGCATAAGTTATATTTGGATAAGGAAGTAGCTAAACGCATCATGCCGACATTAAGAGATTTACATGTCTACTATGAAGTGTATGTAGATGAAGGAGTTTTAGTTGAAACAGGAATGGAAGATTTATTATGGTTAGAGATGGAACAAGCAGGTCATAACGAGTCATATACTTCCGAATCATTGCAACGTACGATAGCTATTCAACATAGCCAGCATGGGTTACAATTCATTGATAAATATGAAACAGTAGCACCAGACTATGTCGGGATTTACAAAATCTTTGTCTTATCTTTTCTTAAAGAGAAGCGTGACCAGTTAAAAAAGGTGTTGGAATTAGAAGGGGATGTATCGATCACATCGTCAGGGAGGGAAAAACTTGAAATTGCTCACCATCGAGCAAGTAAAGGTTATGCATTAGAACGAATGGCAAATCATTTCAATATACCGATGGAAAACACAGTGGCTATTGGAGATAATTTTAATGACGTATCCATGTTTGAAAAAGCAGGGATAAGCATTAGCATGGGAAACGCAGAAGAAGAAGTGAAACAACTATCAACATATACAACGTCCAATTATGATGAGGAAGGTGTAGCAAAAGCTATTCGACGCTATGTAACTAGTTTATAA MKLIAIDLDGTLLTDEGTISTANRSAILDAQQKGHIVCIASGRSLPDTKEILRLAKLDCPIIAGNGATSFHCGEHVHKLYLDKEVAKRIMPTLRDLHVYYEVYVDEGVLVETGMEDLLWLEMEQAGHNESYTSESLQRTIAIQHSQHGLQFIDKYETVAPDYVGIYKIFVLSFLKEKRDQLKKVLELEGDVSITSSGREKLEIAHHRASKGYALERMANHFNIPMENTVAIGDNFNDVSMFEKAGISISMGNAEEEVKQLSTYTTSNYDEEGVAKAIRRYVTSL PGPT0008595_154 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 AK015_03009 873 kbaY COG0191 D-tagatose-1,6-bisphosphate aldolase subunit KbaY ATGCCACTTATATCAACGACACCGATGTTAGAACAAGCAAAACGTGAAAAATATGGAATTGTCGCTTTTAATGTTCATTCACTAGATAGTATTTATTGGGTTCTAGAAGCGGCTGCAGAAATGAAATCCCCCGTGATTTTACAAACAACGGTAGGAACGGTGAAATCATTAGGAGCAGAAAATATTGTGAAAGTCGCAACAGCAGCTGCCGATTTTTATCAAGTACCAACAGGTTTGCATTTAGATCATTGTACGGATGATGAAGTGATTAAAAAAGCAATTCGGGCGGGGTACACATCTGTTATGATCGATGCTTCCAAACACCCCTTCGCAGAAAATGTACAACAAACGAAGCAAGTGATGGATTTAGCAGCTAGCTTAGGTGTCAATGTAGAAGCGGAGTTAGGAAAAGTAGGAGGGGTGGAAGAAGAGATCGTTGTTTCAGAGAAAGACGCTCAAAAAGCGGTTCCTGAGGAATGTAAAGAATTTGTTGCTTTGACTGGTGTACCAACGCTTGCCCCAGCTATTGGAACGGCTCATGGAATTTATAAAGGGGAACCGAATATTGACTTTGATCGCATTGAAGAAATAAGTAAGCTTGTAGATATCCCGCTTGTACTACATGGAGGATCAGCTGTACCAGAGGAAGATGTTCGTAAGTGTGTCGCTTTAGGCATGTCTAAGGTAAATGTTTCTACAGAGTTAAAAAATGCTTATTCTGTAGCAATTCGAGAGCATTTTGCTGCCCAGCCTAATAGCTTAGATCCACGAGCTTATTTGCAAACAGCAAAAGAAGCTGCAAAGGAAATGGTCATCTCTAAAATTAAAATAGTAGGTAGTGAAGGAAGGATTTCTCCACTCGCAATCAAGTAA MPLISTTPMLEQAKREKYGIVAFNVHSLDSIYWVLEAAAEMKSPVILQTTVGTVKSLGAENIVKVATAAADFYQVPTGLHLDHCTDDEVIKKAIRAGYTSVMIDASKHPFAENVQQTKQVMDLAASLGVNVEAELGKVGGVEEEIVVSEKDAQKAVPEECKEFVALTGVPTLAPAIGTAHGIYKGEPNIDFDRIEEISKLVDIPLVLHGGSAVPEEDVRKCVALGMSKVNVSTELKNAYSVAIREHFAAQPNSLDPRAYLQTAKEAAKEMVISKIKIVGSEGRISPLAIK PGPT0017920_105 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017920-gatY_kbaY-K08302 NA NA AK015_03010 465 fruA_3 COG1299 PTS system fructose-specific EIIABC component ATGAAAAAAATGATTCAACCAGCATATATTCGGCTACAAGCAACAGCGACTTCACAGCAAGGTGTATTTCAAACGATTGCTGATATAGCAGTTGCCAATGGTATTGCAAGTTCGCAGGAAGCGATTGTAGAAGGCTTGAAGGCGCGTGAAAAGGAAAGTACAACTGGTTTTCAAGAAGGATTTGCGATTCCGCATACGCAAGCTGAGGAAGTCAGTCAACCTGCAATTATTATTGTGCGGACAGAGACAGGGGTTGATTGGGAATCCTTTGATGGCAAGCCTGCCTTCTTCTTTCTTTCGCTGCTTATTCCTAAGTCGGAAGCAGGTACAACACATTTACAAGCATTATCCGCCTTATCTAGAGCATTAATAAATGAAGATATTAGACAAGCTATGCTGCGTGCGACAACGTCAACAGAACTCGCTACGATTATTAGTCAAGCTATTTCAGGAGAGGACGATTAA MKKMIQPAYIRLQATATSQQGVFQTIADIAVANGIASSQEAIVEGLKAREKESTTGFQEGFAIPHTQAEEVSQPAIIIVRTETGVDWESFDGKPAFFFLSLLIPKSEAGTTHLQALSALSRALINEDIRQAMLRATTSTELATIISQAISGEDD PGPT0017130_237 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017130-fruB-K02768 NA NA AK015_03011 1404 fruA_4 COG1299 PTS system fructose-specific EIIABC component ATGAAAAAGAAAATTGTTGCTGCCACAGGTTGTCCAACTGGAATTGCCCATACGTTTATGGCTGCAGAAGCTTTGCAAAAAGCTGCTGAAAAACTAGGTGTAGAAATAAAAGTGGAAACACATGGTCAAGTAGGAATTGAAAATGCATTGACAGCACAAGAAGTTAAAGAAGCTGATGGTGTCATTATCGCTGCGGATAAGGATGTACAAGCAGACCGATTTCATGGCAAGCCGTTGATCGATGTCTCTGTTGCCAAAGGTATTAAAGAGCCTGAGCATCTAATTGAACAAATTTTGCAAGGAAAAGCGTCTGTTTATTATGCTTCCGATTATGATGGAGCAAAACAAGAAACAGATCAAGAAAGCACAACGAAAGGAAATAATAGTAAATGGGTCCACACTGTTTATAAACATTTAATGAATGGTGTTTCTCACATGCTTCCATTTGTTGTCGGGGGCGGGGTGCTGATTGCAATATCGTTTTTATTCGGCATCTATTCTGCCGATCCAGATCATGAACAATATAACGAATTTGCAGCATTGCTGAAAGAAGTTGGTGGCTTAGGTTTTAGTCTAATGGTGCCAATCTTGGCAGCTTTTATTGCAGAATCGATTGCCAAGCGTCCTGGTATGGTAGTTGGGTTTATCGGTGGTTTATTAGCAAGTCAAGGTGGAGCTGGGTTTTTAGGAGGAATTTTAGCAGGATTTATTGCAGGTTATATTATTATCCTTTTACAAAAACTATTAAAAGGTCTACCGCGCTCTTTAGATGGACTAAAATCAATCTTTTTGTATCCAGTACTTGGGATCTTTTTAATCGGTATTATTATGAAACCAATTATTATCCCAGTTACAGGTTTAAATGAAGGATTAATGGACTTTCTAGCATCTGTTCAATCAACAAATCCATTATTACTAGGTTTAATTGTAGGGGCTATGTGTGGATTTGATATGGGTGGGCCATTTAACAAGGCGGCATATGTAACAGGAACGATGCTACTTGCAGAAGGCAACTTATATTTCATGGCTGGTGTTTCAGCAGCTTGTATTGCACCACCATTAATTATCGCGTTTGCTACGGTTATCTTTCCAAAATACTTTACGAAAGAAGAGCGAAATGCTGGGGCGGTTAACTTTATCTTAGGATCTACCCATATTACAGAAGGAGCGATCCCGTTTGCAGCTAAGAACCCGATTGTTGTTCTACCAATTATTATGCTAGGTTCTAGTATTGCTGCCATCCTAACGTATTTATTTAAAGTGCAAGTTCCTGCGCCACATGGAGGATTTCTCGTTTTACCTGTTGTAACAGGAGCCTTTCAATGGGTTTTAGCCATTCTTATCGGCTCTTTGGTTGGTGCATTAATCTACGGTTTTTCACGTAAAAAAGCAGCCCAGAAATAA MKKKIVAATGCPTGIAHTFMAAEALQKAAEKLGVEIKVETHGQVGIENALTAQEVKEADGVIIAADKDVQADRFHGKPLIDVSVAKGIKEPEHLIEQILQGKASVYYASDYDGAKQETDQESTTKGNNSKWVHTVYKHLMNGVSHMLPFVVGGGVLIAISFLFGIYSADPDHEQYNEFAALLKEVGGLGFSLMVPILAAFIAESIAKRPGMVVGFIGGLLASQGGAGFLGGILAGFIAGYIIILLQKLLKGLPRSLDGLKSIFLYPVLGIFLIGIIMKPIIIPVTGLNEGLMDFLASVQSTNPLLLGLIVGAMCGFDMGGPFNKAAYVTGTMLLAEGNLYFMAGVSAACIAPPLIIAFATVIFPKYFTKEERNAGAVNFILGSTHITEGAIPFAAKNPIVVLPIIMLGSSIAAILTYLFKVQVPAPHGGFLVLPVVTGAFQWVLAILIGSLVGALIYGFSRKKAAQK PGPT0017120_2444 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 AK015_03012 918 lacC_1 Tagatose-6-phosphate kinase GTGATCTATACATGCACAATGAATACAGCAATTGATTTATACGTTGCAATGGAAGCGCTAAATCCAAATGCTGTTAATCGAACACACGATGAAGATTACCAGCCGAATGGCAAAGGCGTTAATGTTTCTGTGATGTTGAATAAAATGGGGATACCTAATACCGCATTAGGGTTTATTGGTGGTTTTACGGGACATTTTATTAAAGAAGAGCTCGAAAAACTTGGCATTGCAACAGATTTTATTGAAGTCGCAGGTAATACGCGCATTAACGTTTTTATTAATGCTGATGAGGAGTACAAAATTGTTAATCAAGGTCCAAGTATTCCGCAAGAAGCAATGCACCAGCTATTGGATAAAATAGCGAACATCCCAACTGGAAGTACGCTCATTGTATCGGGTAGTCTTCCAAAAGGTGTTGATGACCAAGTATTAATTACAATTGCGCAAATATGCGATCGAAATCATGTGAAATTAGTTCTTGATTCTAGCTCCACGGTTGTGTTAGAGACACTTGCCTATGAGCCCTATTTATTAAAGCCTAATGAAGACGAGTTAGCCCATCTGTTTGGCGAACAATCTTTGTCAGAAGAACAGATCATTGCATATGGTAAGGAATTAATTGAACGAGGTGCAAGGCATGTCATTATATCAAGGGGAGAAGAAGGTGCAGTCTATTTAGATGGGCAACAAGTTCTTAAGGCAAGCTCTCCAAAAGGAAAGGTTGTTAATACAGCATGTGCTGGGGATGCTTTACTCGCTTCGTATATTGCCAAAACGATTGAAAAAGAATCGATTGCAGAAGCACTGATATATGCAATAGCAACAGGAGCATCGACCGCATTTTCCAAGGGGTTAAGTGATTTATCAGATATTCTTGAGTTAAAGCATCAAGTCCATATTACAAATTTAAGGAGGTAA MIYTCTMNTAIDLYVAMEALNPNAVNRTHDEDYQPNGKGVNVSVMLNKMGIPNTALGFIGGFTGHFIKEELEKLGIATDFIEVAGNTRINVFINADEEYKIVNQGPSIPQEAMHQLLDKIANIPTGSTLIVSGSLPKGVDDQVLITIAQICDRNHVKLVLDSSSTVVLETLAYEPYLLKPNEDELAHLFGEQSLSEEQIIAYGKELIERGARHVIISRGEEGAVYLDGQQVLKASSPKGKVVNTACAGDALLASYIAKTIEKESIAEALIYAIATGASTAFSKGLSDLSDILELKHQVHITNLRR PGPT0017580_1720 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 AK015_03013 780 ybbH_3 COG1737 putative HTH-type transcriptional regulator YbbH ATGGATAAACCTTTATTTAATATTCCCCATCAGACGTATTCCATGCTTAGTCAAAGTGAACGCTATTTATTGGAGTTTATTCATGAGCATATGGATGAAATTGCTGACATGTCCATTGTTACACTTAGTGAACAGGCTAACGTTTCCACCGCTACGATTGTAAGATTAATGAAAAAAATGGGCTATAACGGCTATACTTCATTTAAGTATCGTTTAAAGCAAGATAAGCAAATGTTAGATACCAATGATTCTCTCGGTGATATTGACGTTGATATTAAGCAGGTCATTAAGAAAAATGAAGAAGAAGTGCTGCGAACCATACAATTGCAAAGCATTGGTCAAATGGAAGACGTCGTTCAAAAAATATACAATGCGAAGCGCATTTATATTTTTAGTCGTGGTTTTTCTGAAATGATTGCTAAAGAAATGATGATTAAACTACAGGCTTTAGACAAAATTTGTGAAACCCATGAAGATCCGAATATTATTCGCGTAAAATCACGTAAAGTGACGAAGGATGATATTGCCATTTTTGTGTCGTTAAATGGAGAAACTGTTGAACTTGTTGAAGCTTGTCAAAACTTAAATATTCGACAAGTAACGACAATTACTCTAACGACAAAAATTGATTCCTCTTTAAGTCATTTATCAGATATGACATTATTAGGGTACAAGACGGAACATTCGCTGTTTCCTGAATATGAAGTCCGTTCTCGCCTGTCCCTCAATGTAATTGCCCGCATATTACTCGATTCTTATGTTATTCGAACAAGAAAATAA MDKPLFNIPHQTYSMLSQSERYLLEFIHEHMDEIADMSIVTLSEQANVSTATIVRLMKKMGYNGYTSFKYRLKQDKQMLDTNDSLGDIDVDIKQVIKKNEEEVLRTIQLQSIGQMEDVVQKIYNAKRIYIFSRGFSEMIAKEMMIKLQALDKICETHEDPNIIRVKSRKVTKDDIAIFVSLNGETVELVEACQNLNIRQVTTITLTTKIDSSLSHLSDMTLLGYKTEHSLFPEYEVRSRLSLNVIARILLDSYVIRTRK NA NA NA NA NA AK015_03014 969 mhqA COG0346 Putative ring-cleaving dioxygenase MhqA ATGGAAGGTTTAAAGGGGATTCATCATGTTACGGCGATTACGAGCAGTGCTGAGAAAAACTATGAATTTTTTACGTATGTCCTCGGCATGCGTTTAGTTAAAAAGACTGTAAATCAAGATGATATTCAAACATACCATTTGTTTTTTGCTGATGATAAGGGAAGCCCAGGGACAGATATGACCTTTTTTGATTTTCCTGGTATTCCAAAAGGTTCACATGGTACAAACGAAATCTATCAGACATCTTTTCGGGTTCCTTCAGATGAAGCACTTACGTATTGGGTTGATCGATTCGATTGTTTGGACGTGAAGCATGCTGGAATTCAAGAGCAATTTGGCAAAAAGATAGTACCTTTCGTAGACTTTGATGATCAGCGATACCAATTAATTTCTGATGAAAATAATGTAGGAGTTGAAGCTGGTATACCTTGGCAAAAAGGCCCAATTCCGTTAGATTATGCAATTACTGGTTTGGGCCCGATTATTATTCGAGTTGCTGACTTTACGGATTTTAAAGAAATGTTGGAGAAGGTATTGCAATTCACATATATACAGGAAGAAAATGAGCTTCATTTGTTTGAAGTAGGTCAAGGAGGAAATGGCGCGCAGGTTATTGTAGAGCATAACAAAACGATGCCAAATGCGCGTCAAGGCTACGGAACGGTTCATCATGTTGCATTCCGAGTAGAGGACCGATCGGTATTAGATGCATGGACAAACCGAATGGAAAGCTTTGGGTTTGCTACGTCAGGTAATGTAAATAGGTATTACTTCGAATCGTTATATTTTAGAATTACGAATCAAATCTTATTTGAACTAGCAACGGAGGAACCAGGATTTATGGTTGATGAACCCTATGAAACGTTAGGTGAAAAATTAGCTTTACCACCATTTCTAGAGGAGAAGCGGGAACAAATTGAAAAAATGGTTCGACCAATAGATACGGTGAGAAGTACGATTCAATTTTAG MEGLKGIHHVTAITSSAEKNYEFFTYVLGMRLVKKTVNQDDIQTYHLFFADDKGSPGTDMTFFDFPGIPKGSHGTNEIYQTSFRVPSDEALTYWVDRFDCLDVKHAGIQEQFGKKIVPFVDFDDQRYQLISDENNVGVEAGIPWQKGPIPLDYAITGLGPIIIRVADFTDFKEMLEKVLQFTYIQEENELHLFEVGQGGNGAQVIVEHNKTMPNARQGYGTVHHVAFRVEDRSVLDAWTNRMESFGFATSGNVNRYYFESLYFRITNQILFELATEEPGFMVDEPYETLGEKLALPPFLEEKREQIEKMVRPIDTVRSTIQF PGPT0028510_414 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 AK015_03015 702 gph_4 Phosphoglycolate phosphatase TTGAGAACAATTGCTTTTGATTTAGACGATACATTATACGATCGAACTGAGCCATTAAAGCAGACCTTTGCCAGCTTTACGCCTACAAAGGAGCTGCGCTTCAACGAAATTTTACCTATCTATCATAAATATAGTGATATCGCTTTTGAAAAGGTCACGAACCAGCAATGGACATTGGAAGAGTCCTATGTTTATCGTATACGCAAGACGCTTCAAGAACAAAATATCGGCATTAGTGAGCAAGATGCACTCGCTTTTCAAGCAATGTATACAAAAAATCAAGACCGTATTCAGTTAAGACCTCATATAGAAGAGATTATACAGTATTTGCAAAACAAGGAAATACAAACAATTATTATTACCAATGGACCATCGACGAATCAACGTAAAAAAGTACGCCAATTAGGGTTGGAAGCTTATTTATCTGCAAATGAAATTATTGTATCCGAGGAAGAGGGGGTTGCTAAGCCAGACGTAGCAATTTTTAAGGTTGCCGAGAAAAGGTTTGGCTTCGCTAAAAATGAAGTATGGTATGTTGGTGATAGCTTCCCTATGGATATAATCGGGGCTAGTCAAGCTGGTTGGAAGGCGATTTGGCTAAATCCAAGTCGTCAGGAGCCAGTAATTAATTCGAATCCAGCAGAAAAAACAGTGTACTCCACGGAAGCGTTGAAAGAGTATTTATTTCAAATTATATATTGA MRTIAFDLDDTLYDRTEPLKQTFASFTPTKELRFNEILPIYHKYSDIAFEKVTNQQWTLEESYVYRIRKTLQEQNIGISEQDALAFQAMYTKNQDRIQLRPHIEEIIQYLQNKEIQTIIITNGPSTNQRKKVRQLGLEAYLSANEIIVSEEEGVAKPDVAIFKVAEKRFGFAKNEVWYVGDSFPMDIIGASQAGWKAIWLNPSRQEPVINSNPAEKTVYSTEALKEYLFQIIY NA NA NA NA NA AK015_03016 1068 COG0577 putative ABC transporter permease ATGTTTTTAGCCTGGAATGAGATGAAGAACAACAAATTACGCTTCACTTTAATTGTTGGTGTATTATTGCTCGTTTCCTACCTTGTTTTCTTATTATCAGGGCTGGCAAACGGGTTGGAAGACATGAACAAAGCAGCGGTTGATAAATGGGAAGCACAAGGCGTCATTTTGACAGAAGAATCCGATGTTAACCTGCCTCAATCTAGCTTATCACTGGAGGATTATGATGGGGAAGGTGCAGATGAATTTGCTAGTTTAGCCCAAATTAGCTCCATCGCTACTTCAGGGGATAATAAATCGAATGTAGCTCTCTTCGGCATTCATGCAGATGAGTTCATTATGCCTGACATAACAGAGGGCGAGACGTTTCAAAATGATAATGAAGTGGTTGCTGATGCGTCTTTAAAAGAAGAAGGATTTGAACTCGGTGATGAGTTGCAATTGGCTTCCACTGAGGAAAAGTTAACCATTGTCGGTTTTACTGATAATGCAAAATTCATTGCTGCACCGGTACTTTACACTGACTTACAAACCGTACACAAAGTGCGCTACGGAGAAGCAGCAGAAATGTACAAAGAACAAATAAATGCCTTTGTCATTCGAACAGATGATTTATCCAATATAGATGTTAAAGAAGCATTAGAAGTTGTAGATACGACAACATTTATCGAAAATCTCCCTGGTTATTCAGAACAAAAATTAACCTTAAACTTTATGATTTACTTCTTATTTGTTATCTCTGCAGTCGTATTAGCTATTTTCCTCTATGTACTTACCATTCAGAAGATAAGTATATTCGGAGTTATGAAAGCACAAGGAATATCGAGTAAATACTTAGCAAACTCGGTTATTGCCCAAACTTTTTTATTGGCAGCTGCAGGTGTGGTTCTCGGATTTCTGTTAACGATGGTTACAGGGTTCTTTTTACCAGATATCGTTCCTATCGCCTTTAATTATTTGGATTTACTCCTCTATGGTATTGTACTTGTTTTTGTATCTGTATTAGGAGCGCTATTCTCTATTCAAACGATTGTAAAGATCGATCCACTAAAAGCGATTGGAGGTTAA MFLAWNEMKNNKLRFTLIVGVLLLVSYLVFLLSGLANGLEDMNKAAVDKWEAQGVILTEESDVNLPQSSLSLEDYDGEGADEFASLAQISSIATSGDNKSNVALFGIHADEFIMPDITEGETFQNDNEVVADASLKEEGFELGDELQLASTEEKLTIVGFTDNAKFIAAPVLYTDLQTVHKVRYGEAAEMYKEQINAFVIRTDDLSNIDVKEALEVVDTTTFIENLPGYSEQKLTLNFMIYFLFVISAVVLAIFLYVLTIQKISIFGVMKAQGISSKYLANSVIAQTFLLAAAGVVLGFLLTMVTGFFLPDIVPIAFNYLDLLLYGIVLVFVSVLGALFSIQTIVKIDPLKAIGG PGPT0013350_21670 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK015_03017 687 bceA COG1136 Bacitracin export ATP-binding protein BceA ATGGCAGTTCTTGAAATGAAACAAGTGCGTAAAATTTTCGGTTCGGGACATACAGAAGTAGAAGCTCTAAAGCCAACTGATTTCTCCTCTCAACAGGGGGAATTAATTGCTGTCATTGGACCATCTGGATCGGGAAAAAGCACCTTTTTGACAATAGCCGGTGGTCTACAAACTCCTACCAGTGGTCAAGTATTTATGAATGGTACAGATATTACTAAATTAAAAGAGAAACAGCGATCAGCCATTCGCTTAAAAGAAATTGGGTTCGTCCTGCAATCATCTAATTTAGTTCCATTTTTGAATGTGAAGCAACAAATGCGTTTATTAGATAAAGTAAAGAAGCATAACTTGCCTTCTGAAAAATTGCAGGAACTATATCAAACATTAGGTATTCATAAGTTATTAAATAGCTTTCCGTCCGACTTGTCAGGAGGAGAAAAACAACGTGTCGCTATTGCCAAGGCACTCTACACAGACCCTAGTATCATTTTAGCCGATGAGCCAACCGCCTCCCTCGACTCCGATCGGGCGTTTGAAGTGATGGAAATGCTACAAGAAATAACGACGAAGAGCAACAAAACTACTATCGTTGTTACGCATGATACACGATTAATTGATTATTGTGATAAAGTGTATCAAATTACAGATGGAAGGCTTGCTTTACAAACCGAGCAAGCACAATCATAG MAVLEMKQVRKIFGSGHTEVEALKPTDFSSQQGELIAVIGPSGSGKSTFLTIAGGLQTPTSGQVFMNGTDITKLKEKQRSAIRLKEIGFVLQSSNLVPFLNVKQQMRLLDKVKKHNLPSEKLQELYQTLGIHKLLNSFPSDLSGGEKQRVAIAKALYTDPSIILADEPTASLDSDRAFEVMEMLQEITTKSNKTTIVVTHDTRLIDYCDKVYQITDGRLALQTEQAQS PGPT0013345_12236 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK015_03018 426 ydaG COG3871 General stress protein 26 GTGAAGCAAGAACATGTACGAGAACAAATTGAACTAATTTTGGAAAGTGATCTTGTTGGTCCGATGGCTACTGTAAAAGGGAAGATGCCACACTCTAGGTATATGACGTTTTATCATGATAACTTAACATTGTATACGCTAACTAGCAAGCAAACGGACAAAGTAGATGATATTGAACAAAACCCGTATACCCATATTATTCTTGGTTATGAAGGAGAAGGGTTTGGTGACGCTTATGTGGAGTATGAAGGCAAGGTAAATGTCAACGATTCTCCTGAACTAAAGAAGAAATTATGGAGTGACCATGCAAATATATATTTTGATGGACCAGATGACCCAAATTTAACGGTGCTGGAAATAAAGCCATTGCATATCCGTCTCATGAATAAAAAAGGCCAAGAAACGCCACAGGAATTAGAGATATAG MKQEHVREQIELILESDLVGPMATVKGKMPHSRYMTFYHDNLTLYTLTSKQTDKVDDIEQNPYTHIILGYEGEGFGDAYVEYEGKVNVNDSPELKKKLWSDHANIYFDGPDDPNLTVLEIKPLHIRLMNKKGQETPQELEI PGPT0015019_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015019-ydaG-NA NA NA AK015_03019 1377 COG4325 putative protein ATGTTAGTGAAATGGCTACCACCATCATTAAGTAAGTATTTAAAAATGTCGAAAGAAGAAAGAAAATATGAACTTCGCCTAACTTTATGGCGAACACCGTTGTTATATATTATATGGACGTTTTTTCTAGTTGCTATCACCGTTTATATGGATGTAGGAATAGGCATAGCTAAATATACTTTTGACGGTTTTCAAGCTACTTTTGAAACGACGAGGGCATTAATAAGTGCATTAATTGGTGGCGTTCTAACACTTAGCGCGTTTACGCTAAACTCGTTACTCGTTGTACTCACCACATTTAGTGGTCAGTTTTCTCCGAGGATGTTGCAAAATTTTGTAAAAGATAAGCAGACGCAGCATATTCTAGGAATTTTTAATGGTTGTTTTGTTTATGTGTTAATCATGTTTCTAGCAATTAGTAGTAATCCTGTTGCGTATTATGTAGCTGTACCGTTTGCTACTGTAGCCATTGCTTTTTTTGCAGCAGTAACATTTATCTATTTTATAAACCATGCTACTACGTGGATGCAAGTGCATAATATTACCGACACGATGAAGCAGGTTACAGTAGACATGTTAGAAGCAGATTTTACGAAAGACTTACAGAAAATGCGAACGGAAAATCCGGGTGACTTATTGCAAGGGTGGCAAAAAGAAAAATGTAGTGTATTAGCGCCTATATCTGGCTATATACAGCTGATTCTCTTTAAAGACTTACTACAAAAAGCGAAACAAGACAATATTATTGTGAAAATGGAAGTAGGTATTGGAAACTATGCTTTACAAGGAAATCAGCTTTTTACTTATTGGGGGCCAGGCGCTCATCAAGTGAACGAGCAAGAATACTTAGATTTTATTCGTTTAGGCCATAAGGAAACAGAAATTCAAGACTTAAAATACGGTCTAAATAAGCTAGCAGAAATTGCCATTAAAGCAATGGGAAATGATGATCCTAAAACAGCTGCGAATACGATTTATCAAGTGGCCGACTTGCTGTTAGCTTTGGAGAATAAAGCTACCTTTTCCCCCTATTTAGTCGATGAAGAAGGTCAAGTGCGCTTCATATTAGGTGTGGATGATTTCGAATACCACCTCTATCAGGGGTTGGGATTAATTAGACATTATGCACAAAAGAACTATCCGATTATTACAAACATCATTGAAGCGTTAACGAGATTGGCTGGCGCGGTGGATCAAAAATATCATAAGGTGATTTGGAATTTTGCTACGAATACGATTGATCATATTTATACAGAGTTTATTTTTGATCTTGATCGTAAATTATTGCTACGCAATCTTCAAGAGCTTGCACGTATTACGGGCCATGCGTCTAACTATAACTACATCCAACGTCACTTAAAAGGCGATAAGCAGTGA MLVKWLPPSLSKYLKMSKEERKYELRLTLWRTPLLYIIWTFFLVAITVYMDVGIGIAKYTFDGFQATFETTRALISALIGGVLTLSAFTLNSLLVVLTTFSGQFSPRMLQNFVKDKQTQHILGIFNGCFVYVLIMFLAISSNPVAYYVAVPFATVAIAFFAAVTFIYFINHATTWMQVHNITDTMKQVTVDMLEADFTKDLQKMRTENPGDLLQGWQKEKCSVLAPISGYIQLILFKDLLQKAKQDNIIVKMEVGIGNYALQGNQLFTYWGPGAHQVNEQEYLDFIRLGHKETEIQDLKYGLNKLAEIAIKAMGNDDPKTAANTIYQVADLLLALENKATFSPYLVDEEGQVRFILGVDDFEYHLYQGLGLIRHYAQKNYPIITNIIEALTRLAGAVDQKYHKVIWNFATNTIDHIYTEFIFDLDRKLLLRNLQELARITGHASNYNYIQRHLKGDKQ NA NA NA NA NA AK015_03020 951 kdgK_1 2-dehydro-3-deoxygluconokinase GTGCTCGATATTATTACATTAGGAGAAGCTATGATTGTTTTTAACCCGGGAAGAACAGGTCCATTACAGTTTGTAAATACCTTTGAAAAGAGAATTGGTGGTGCAGAGCTGAATCTGGCAGTTGGCTGTTCGAGATTGGGGATGAAGACTGGATATATAAGCAGGCTAGGGAACGATGAATTCGGACGTTACATACGCCACTTTATCCGTGGAGAAGGTATAGACACCTCCCAAGTGGAGCTTGTTAACGATTACCCTACGTCCTTAAATTTTAAAGAGAGAATGGAAGACGGCAATACACGTACATTTTATTATCGTAACCAATCGCCGATGAAAGCTTTAACGGTGGCTGATTTAGATGAAAACTATTTTAAACATGCGAGAGTGCTTCACTTAACTGGTATTTACCCAGCTATTGAGGACAGTAATATTCCAGTAATGGAAAAAGCGATTGAACTGGCAAAAAAGCATGATGTAAAAGTATCGTTTGATCCTAATATTCGGCTTCGCATGTGGACAAAGGAAAAGGCACGTGCTGTTCTTGAGAAGATCTTGCCAAAAGTAGATATTTTACTAACTGGTGATGATGAAATGGAAGTTATTATGGGAGAAAAAAACCCACAAAAAATTATAAACCAAGCAAGGGAGTTAGGAATTTCATTCGTCGCGGTAAAGCTAGGCGAAAAAGGATCTGTTGGTTATTATCATGGTCAAACCGTGGAAGCCGAACCTGTAAAAGCTTCGACGGTTGTAGATACAGTCGGAGCAGGTGATGGTTTTAATGCCGGTGTACTTTACGGACTTTCGCAGAATTGGGATTTAAACAAAATTATGCAAGTGGCCAATACGGTCGGCTCCATGGTAGTTCGTGTTGTAGGTGACAACGAAGGGTTACCATATTATGAACAAGTGCAGCAACGTCTTGGTGAAATAGAACGAATTGAAAGGTAA MLDIITLGEAMIVFNPGRTGPLQFVNTFEKRIGGAELNLAVGCSRLGMKTGYISRLGNDEFGRYIRHFIRGEGIDTSQVELVNDYPTSLNFKERMEDGNTRTFYYRNQSPMKALTVADLDENYFKHARVLHLTGIYPAIEDSNIPVMEKAIELAKKHDVKVSFDPNIRLRMWTKEKARAVLEKILPKVDILLTGDDEMEVIMGEKNPQKIINQARELGISFVAVKLGEKGSVGYYHGQTVEAEPVKASTVVDTVGAGDGFNAGVLYGLSQNWDLNKIMQVANTVGSMVVRVVGDNEGLPYYEQVQQRLGEIERIER PGPT0018060_2189 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 AK015_03021 678 rpiA COG0120 Ribose-5-phosphate isomerase A ATGACTCATAATAATAGAGATAAACAGATAGTGGCACATGCAGCTCTTTCATATGTGCAATCTGGTATGACGTTAGGGCTTGGAACGGGTTCAACGATTCATTACTTTTTAGAAGAACTAAAAAGATGTGTGCGTGAAGGGTTGCATATTCAGGGTATCCCGACATCCAAACAGACAGAAAAGCTAGCCGAAGAATATGGAATTCCATTAACTGATTTTTCAGAGGTGACAAAAATAGACGTATCTATTGATGGTGCGGATGAATTCGATCCTGACTTTCAATTAATGAAAGGTGGCGGAGGTTCTTTAGTTCGAGAAAAAATTGTCGCCGAAGCAGCAGATAAACGAATAGTCATTGTTGACAATACAAAAAGAGTTGACAAATTAGGCAGATTCCCTCTACCTGTTGAAGTGGTTCCATTTGGTTGGCAAAAAACAGCATCTTATTTAGAGAGTTTTGGTTGTGCGCCTGTATTACGAAAAGTGAACCAACAGCCATTTGTGTCGGATAATGGAAATTATATTCTAGATTGTGCTTTCGGCTCCATAGAACACCCTAAGATATTACATGAACAATTAAAACAGTTGGTTGGGGTGGTGGAGACAGGTTTATTTATTAATATGACCGATATAGTTTTAATGGCTAAAAACGGCGTCGTTGAAAGACAAATAAAGTGA MTHNNRDKQIVAHAALSYVQSGMTLGLGTGSTIHYFLEELKRCVREGLHIQGIPTSKQTEKLAEEYGIPLTDFSEVTKIDVSIDGADEFDPDFQLMKGGGGSLVREKIVAEAADKRIVIVDNTKRVDKLGRFPLPVEVVPFGWQKTASYLESFGCAPVLRKVNQQPFVSDNGNYILDCAFGSIEHPKILHEQLKQLVGVVETGLFINMTDIVLMAKNGVVERQIK PGPT0017390_2581 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017390-rpiA-K01807 NA NA AK015_03022 627 kdgA COG0800 KHG/KDPG aldolase ATGAAACCGATAGATATTATTAAAGCGACAAAAGTAGTAGCAGTGATCAGAAAAGCGAATGGAGAAAATATTGTTCCTATATTAAAAGCGCTATCTGCAGGGGGTGTGAAGGCTGTTGAAATTACAGCGGAAACACCCAATGTTGCAAACATTATTGCAGTAGCAAAGGAAGCAATGGGTGAGGAGAGTTGTATTGGTGCTGGTACGGTTCTAGATTCGGAAACAGCTAGAGCAGTTATGCTAGCAGGAGCAGATTTTATCGTCTCTCCATCTTTGAGTATAGAAACGCTTAAGCTCACCAACCGCTACGGTATGCTATATATTCCAGGAGTGTTAACGCCTACCGAAATAGTGACTGCTTATGAGTATGGAGCAAGTATGGTAAAAATTTTCCCAGCGTCAACAGTCGGCCCTTCCTATATGAAAAATATTTTAGGACCACTTCCACATGTGGAGGCAATGGTTACAGGAGGGATAACGTTAGAGAATATGAATGATTATTTACAGCAAGGTGCGAAAGCTGTAGGTATTGGCAGTAACTTAGTGAATGTCACCAAGTTAAAAACAGAAGCTGATTATGAGAAATTAGAGGAAGAAGCGAGATCGTATATCCAAGCCATAAGTTAA MKPIDIIKATKVVAVIRKANGENIVPILKALSAGGVKAVEITAETPNVANIIAVAKEAMGEESCIGAGTVLDSETARAVMLAGADFIVSPSLSIETLKLTNRYGMLYIPGVLTPTEIVTAYEYGASMVKIFPASTVGPSYMKNILGPLPHVEAMVTGGITLENMNDYLQQGAKAVGIGSNLVNVTKLKTEADYEKLEEEARSYIQAIS PGPT0002060_3074 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 AK015_03023 558 hxlB COG0794 3-hexulose-6-phosphate isomerase ATGAGAAAAACACTAGATACGATTACCATGGAGGTAAGTAAAGTAATACAAGCGGTTGATTCAGATGAGGCAGTTGCGTTAGCGGAACAACTGAAACGAGCAAATTCCATTTTTGTAGCCGGTACTGGTCGATCAGGGTTGATTGGCAAAGCCTTTGCCATTCGTATGATGCACAGTGGATATTCTGTTTATGTCGTTGGAGAAACAATTACACCAAACATGGAAGCGGATGATGTGTTGTTAATCATTTCTGGCTCAGGAAACACAGGAACATTAGCTTACTTTGCAGAAAGAGCTACTGCCATTGGCGCTACCATAGCATTAGTAACAACAAATAAACAATCTGTCATTGCCCAATACAGTAATTGTATCGTAGAGATTCCTGCTGCCACTAAAAAGCGATTACCGAATGAGCCTGCTACAATCCAACCATTAGGAAGCCAATTTGATCAATCAGCACATGTAGTGTTAGATGCTGTTATTGCTCATGTGATTCAACAAGAGCAATGGAATAATCCAAACCAAGTGTTAGCCAAGAAACACACAAATTTAGAATGA MRKTLDTITMEVSKVIQAVDSDEAVALAEQLKRANSIFVAGTGRSGLIGKAFAIRMMHSGYSVYVVGETITPNMEADDVLLIISGSGNTGTLAYFAERATAIGATIALVTTNKQSVIAQYSNCIVEIPAATKKRLPNEPATIQPLGSQFDQSAHVVLDAVIAHVIQQEQWNNPNQVLAKKHTNLE PGPT0013290_402 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094 NA NA AK015_03024 1020 kdgR COG1609 HTH-type transcriptional regulator KdgR ATGAAAAAAGTAACTATCACCGATGTAGCTACTTATGCAGGTGTTTCAAAAAGCACTGTGTCGCAATTTTTGAATAAACGTTTTGATTATATGAGTGTAAAAACGAAAGAGCGTGTAGACGCTGCAATCAAAGAATTAGGATATCAACCTAATATTATTGCTCGGAGTTTAAAGCAGAGATCCACGAAAACAATTGGTGTAATTGTTGCAAATATATTACATGATTTTTCTACGCGTGTTATCAGAGCGATTGAAGATTACTGTCATACAGAAGATTACCACGTCATTGTTTGTAATGCGGATGATAACCCAGAAAAAGAAAAGCGGTATATTGACATGCTTCGAGCTAAACAAGTGGACGGCATTATTTTATTTCCGACTAGTAAAAATAAAGCGTTCTACCAAGATTTAATGAAAGATGAGTACCCGTTTGTATTTATGGATCGTCTTGTTCCAGGTGTTGAAACAGATGCGGTTTTATTAAACAATCATCAGGCTGCTCAATTAGCTGTGGATCAATTCGTTGCTAATGGTTATCAAAAAATAGCTGTTCTGGCACCGCCATTGTTTGATCCGATAACGCCTCGATTAGAGCGAATAGAAGGGTATCAAGATAGCCTTGAAAAGAACCATATTCGTCCAAATCCTTTATATGCGATTAACAGTGCATTGGAAAAAGTGGAAGAACAAATTAAAAAACTGCTTCTTTTGCCAGATCCTCCTGAAGCAATACTTGCTTTAAACGATCGAGTGCTTTATCAATTGTTGCAATATGTAAAAGATCAGCAAATTCAAGTGCCCCAGCAATTAGCCATTATTGGCATTGATGATGTCACATTTGCTTCGCTCTACACGCCCTCATTAACTACGGTTGCACAGCCAGCATTTGATATGGGGAAGAAGGCTGCGGAGTTATTATTTGAACAATTTGATCATGGGGCGAGCAAAAAACAGGTGTATCGCTTTGCTCCTGAAATTATAATCAGAGAATCATGTGAGAGGAAGGGGAATGAAATATAG MKKVTITDVATYAGVSKSTVSQFLNKRFDYMSVKTKERVDAAIKELGYQPNIIARSLKQRSTKTIGVIVANILHDFSTRVIRAIEDYCHTEDYHVIVCNADDNPEKEKRYIDMLRAKQVDGIILFPTSKNKAFYQDLMKDEYPFVFMDRLVPGVETDAVLLNNHQAAQLAVDQFVANGYQKIAVLAPPLFDPITPRLERIEGYQDSLEKNHIRPNPLYAINSALEKVEEQIKKLLLLPDPPEAILALNDRVLYQLLQYVKDQQIQVPQQLAIIGIDDVTFASLYTPSLTTVAQPAFDMGKKAAELLFEQFDHGASKKQVYRFAPEIIIRESCERKGNEI NA NA NA NA NA AK015_03025 393 hypothetical protein ATGGAAGATTCAATTGGAATTACAGAAGAGGAAATCAGACGTTATTATGTGCTTCAACAGGAGAAAAAGGAAATAGAGTATGAGATGAAAGAGTTGAAAAAGCATTTCCATCAGGCTCTAGATGCTTCTGTTGGAGAAAATCAAAAAGGAGAAATGAAGCGAGGGGACTATTTAGCTCAGCGACAAATTCGTACTTCAACACAATACGAACAAGTTTGTACCGTAAGTAAATTGGAGGATATGCAGTTAGCAGATTTTATTATTATAGAAAAACGACCAGATACCGATAAGCTAGAAGCTGCTATCAAACTAGGATTAGTAGATGGCGAAGCATTTGAAGATTGTAAACATACAAAGGTAAACCAAGCTATCACTGTTAAAAAGCTTCGTTAA MEDSIGITEEEIRRYYVLQQEKKEIEYEMKELKKHFHQALDASVGENQKGEMKRGDYLAQRQIRTSTQYEQVCTVSKLEDMQLADFIIIEKRPDTDKLEAAIKLGLVDGEAFEDCKHTKVNQAITVKKLR NA NA NA NA NA AK015_03026 654 hypothetical protein TTGCAAATAAATCGTTTACCTATCCTTATTCTAGTAATGGGTGTCTTATATATTTTTATCATCCCGGAGGAACCTCTTGTTTTCAAACTTTTTTTCAAGTTAATCCCAATGGCACTCATTATTTTTTATGCTGCTTACTCCCTGCCTAAGCAGAAAACCAAATCGCATTGGCTCATTCTTATTGGTCTATTTTTTTGCTCTATTGGGGACGGAACCATACACTGGTTCATCGTTGGTCTCACATCCTTTTTGATTGGACACTTATTCTATCTATCTGGCTTTATCTATCAATGGAATTTTTCCATTTGGCGCGTCGCCTCTGTTATTCCTATAGGGATTTATGCTTGGATCATTGGTAGTGACTTGATTCAGGCCGTAGCACGCTCAGAAAACACCTACCTCGTAATACCTGTAATCATTTACATGACGGCAATCGCTAGCATGGCATGGTTTGCCATTATGTCAGGAAATATTTTTGCGAGTATTGGCAGTATTCTATTCGTTATTTCTGACTCTATTTTGGCATGGAACATGTTTGTTTCGCCAATTAACAATGAACATATATTCGTTATGATTACGTATTACACCGCCCAATTTTTCATTGCTCACAGTCTGAGGAACTTTGGTAAAAAGCATCCACGAACTGTCTGGTAA MQINRLPILILVMGVLYIFIIPEEPLVFKLFFKLIPMALIIFYAAYSLPKQKTKSHWLILIGLFFCSIGDGTIHWFIVGLTSFLIGHLFYLSGFIYQWNFSIWRVASVIPIGIYAWIIGSDLIQAVARSENTYLVIPVIIYMTAIASMAWFAIMSGNIFASIGSILFVISDSILAWNMFVSPINNEHIFVMITYYTAQFFIAHSLRNFGKKHPRTVW NA NA NA NA NA AK015_03027 1407 pdhD_3 Dihydrolipoyl dehydrogenase ATGGTAGTAGGAGATTTTCCAATTGAAGTAGACACACTCGTTGTTGGAGCAGGTCCTGGTGGTTATGTTGCTGCTATTCGTGCTGCACAGTTAGGCCAAAAAGTAACAATTGCTGATAAAGGCGCTTTAGGTGGGGTTTGTTTAAACGTTGGATGTATTCCATCCAAAGCATTAATCCAAGCTGGACATTTAGCTGAACAAGCTCATGGAAATGAAGAAATGGGAATTAAAACAGAAAATGTTTCTGTTGACTTTTCTAAAGTCCAAGAGTGGAAAGCAAGTGTCGTTAACAAGCTGACTTCTGGTGTGGAAGGCTTGTTAAAAGGAAACAAAGTGGATATTGTTAAAGGTGAAGTATACTTTGTAGATAAAAACACTGCAAAAATTATGGATGAGAAAAATTCTCAAACATATACCTTTAATCATTGCATTATTGCTACAGGATCAACACCAATTGAAATCCCTAACTTTAAATTTTCAGATCGAGTATTAGACTCGACTGGTGCTTTAAACCTGAAAGAAATTCCGAAGAAAATGGTAGTTATCGGTGGCGGATATATTGGTACGGAGCTTGGAACTGCTTATGCGAATTTCGGAACAGAAATTGTTGTTCTTGAAGGTGCGAAAGAAATCTTAGGCGGTTTTGAGAAGCAAATGAGTCAAGTTGTGAAAAAACGTTTGAAGAAAAAAGACGTTACAATTATTACAGAAGCAATGGCTAAAGGTGTAGAAGAATCTAAAGACGGTGTCAAAGTAACGTATGAAGTAAAAGGTAAAGAAGAAACCGTTGAAGCAGACTATGTATTAGTTACGGTTGGCCGCCGTCCAAATACAGAAGATATTGGCTTAGAGCAGGTTGGCATTGAAAAAGATGAACGTGGACTAATTAAAATTGATAATCAATGTCGCACGAATGTTGATAACATCTATGCAATAGGTGATATTGTTGCCGGGCCTCCATTAGCACATAAAGCATCCTATGAAGGAAAAGTTGCTGCAGAAGCTATCAGTGGAGAAAAAGCTGTAATTGATTACTTAAGTATGCCCGCAGTTGTGTTCTCAGATCCAGAATTGGCTACGGTCGGTTATTCCGAACAAGAAGCGAAAGATGCTGGATTTGATGTCAAAGCTGCTAAATTCCCATTTGCAGCTAATGGCCGTGCTCTTTCATTAAACGATAGTGATGGATTTATGAAACTAATTACTCGTAAGGACGATGGCCTAGTAATCGGTGCACAAATTGCTGGACCAAATGCAAGTGATATGATTTCTGAATTAGGTCTTGCAATTGAAGCTGGTATGACAGCAGAAGATATCGCATTAACGATCCATGCTCATCCAACATTAGGTGAAATCACCATGGAAGCTGCTGAAGTAGCTCTAGGTACACCAATTCATATGCTATAA MVVGDFPIEVDTLVVGAGPGGYVAAIRAAQLGQKVTIADKGALGGVCLNVGCIPSKALIQAGHLAEQAHGNEEMGIKTENVSVDFSKVQEWKASVVNKLTSGVEGLLKGNKVDIVKGEVYFVDKNTAKIMDEKNSQTYTFNHCIIATGSTPIEIPNFKFSDRVLDSTGALNLKEIPKKMVVIGGGYIGTELGTAYANFGTEIVVLEGAKEILGGFEKQMSQVVKKRLKKKDVTIITEAMAKGVEESKDGVKVTYEVKGKEETVEADYVLVTVGRRPNTEDIGLEQVGIEKDERGLIKIDNQCRTNVDNIYAIGDIVAGPPLAHKASYEGKVAAEAISGEKAVIDYLSMPAVVFSDPELATVGYSEQEAKDAGFDVKAAKFPFAANGRALSLNDSDGFMKLITRKDDGLVIGAQIAGPNASDMISELGLAIEAGMTAEDIALTIHAHPTLGEITMEAAEVALGTPIHML PGPT0001380_5551 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 AK015_03028 1269 pdhC_4 COG0508 Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex ATGGCTTTCAATTTTAAATTACCTGATATTGGTGAAGGAATTCATGAAGGTGAAATCGTTAAATGGTTCGTTAATGAAGGCGACGAAGTTAAAGAAGATGATGTTTTGTGTGAAGTGCAAAATGATAAAGCTGTAGTGGAAATTCCATCACCAGTGGAAGGAACAGTGACAAAATTACATGTAGAAGAAGGAACGGTAGCAGTTGTAGGTGACACTATTATTACGTTTGATGCAGAAGGCTATGAATCAGATGACGAGGAAGAAGCGGCAGATTCAAAACAAGAAGCCTCTGCTGACGAAAAAACATCTGAAGCTCCTGAGACTACAAATGAAGAAGTGGAAGAAGATGATGGTGAAAGAGTAATTGCAATGCCATCAGTAAGGAAGTACGCACGTGATAAAGGGGTAACGATTTCTAAAGTTACGGGATCAGGTAAAAACGGACGTATTTTAAAAGAGGATATTGATGCTTACTTAAGTGGAGACCAACCTGCTATAGATGTAAAAGGAACAACAGAAGAAGCTGCATCTCCTAAGAAAGAAGCAGCTACAGAAACAGCGGGAGACTTCCCTGAAACTCGTGAATCTATGAGTGGAATTCGCAAAGCAATTGCCAATGCGATGGTTAATTCTAAAACAAAAGCTCCTCATGTAACTTTATTGGATGAAGTAGATGTATCAGAATTAGTAGCTCACCGTAAGAAGTTTAAAACCGTAGCTGCTGAGCAAGAGATTAAATTAACATACTTGCCGTATGTTGTTAAAGCACTAGTATCTGCTTCTAAAAAATACCCAATGATAAATGCTTCCGTTGATGATGAAACGAATGAAATTGTTCACAAGCACTATTACAATGTAGGTATTGCAGCAGATACAGACAAAGGTCTACTTGTTCCAGTCGTGAAAAATGCCGATCGTAAATCCATCTTTGAAATTTCTAAAGAGATTAATGAATTGGCAGAAAAGGCTAGAAGTGGTAAACTAGCACCTGAAGAGATGAGTGGTGCATCGAATACAATTACAAATATCGGTTCTGCTGGTGGTCAATGGTTTACGCCAGTATTGAATTACCCAGAAGCGGTTATTCTTGGTATTGGCCGTATCGCAGAAAAACCAGTGGTTCGTGATGGGGAAGTTGTTGTAGCACCTGTACTTGCATTATCATTAAGCTTTGATCATCGTATTATTGATGGAGCAACTGCACAACATGCTCTAAATCAAATCAAACGATTATTAAGCGACCCACAATTAATTATGATGGAGGCGTGA MAFNFKLPDIGEGIHEGEIVKWFVNEGDEVKEDDVLCEVQNDKAVVEIPSPVEGTVTKLHVEEGTVAVVGDTIITFDAEGYESDDEEEAADSKQEASADEKTSEAPETTNEEVEEDDGERVIAMPSVRKYARDKGVTISKVTGSGKNGRILKEDIDAYLSGDQPAIDVKGTTEEAASPKKEAATETAGDFPETRESMSGIRKAIANAMVNSKTKAPHVTLLDEVDVSELVAHRKKFKTVAAEQEIKLTYLPYVVKALVSASKKYPMINASVDDETNEIVHKHYYNVGIAADTDKGLLVPVVKNADRKSIFEISKEINELAEKARSGKLAPEEMSGASNTITNIGSAGGQWFTPVLNYPEAVILGIGRIAEKPVVRDGEVVVAPVLALSLSFDHRIIDGATAQHALNQIKRLLSDPQLIMMEA PGPT0001390_5541 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 AK015_03029 978 pdhB_2 Pyruvate dehydrogenase E1 component subunit beta ATGGCACAAATGACAATGATTCAAGCCATTACAGACGCACTACGTACGGAACTTAAAAATGATGAAAATGTGCTTGTTTTCGGAGAAGATGTCGGTCAGAATGGTGGCGTGTTCCGTGCTACTGATGGATTGCAAGCCGAGTTTGGTGAAGAACGCGTGTTTGATACACCTTTAGCCGAATCAGGTATTGGTGGTCTAGCAATTGGTTTAGGCTTACAAGGTTTCCGCCCTGTTCCAGAAATTCAATTCTTCGGCTTCGTATATGAAGTAATGGATTCCATTAGCGGACAAATGGCTCGCATGCGATATCGTTCAGGTGGCGTTCATCATTCACCAATTACAGTACGTGCTCCATTTGGCGGAGGTGTTCATACACCAGAACTTCATGCTGATTCATTAGAAGGGTTAATTGCTCAACAACCAGGTATTAAAGTAGTTATTCCTTCTACTCCTCATGATGCTAAAGGTTTACTTATTTCTTCCATCCGTGATAATGATCCGGTTGTGTTTTTGGAGCACATGAAATTATACCGCTCATTCCGTGGTGAAGTTCCTGAAGGGGAATACACGATTGAACTAGGAAAAGCAGATGTTAAACGTGAAGGTACAGACGTTACATTAATTGCTTACGGTGCGATGGTACATGCTTCGTTAAAAGCTGCTGAAGAGCTAGCTGAAAATGGTGTTAATGCTGAAGTTATTGACTTACGTACTGTATCGCCACTTGATATCGAAACGATCATTGAATCGGTTAAGAAAACAAATCGTGCTGTTGTAGTTCAAGAAGCGCAACGCCAAGCGGGCGTTGCTGCGAATGTAGTAGCTGAAATACAAGAACGTGCCATTCTGCATTTAGAAGCTCCTGTATTACGTGTTGCGGCTCCAGACACCGTTTACGCATTCTCAGAAGCAGAAGAAGTTTGGTTACCTAATCATAAAGATATTGTAGAAAAAGTAAACAGTGTGATGAACTTTTAA MAQMTMIQAITDALRTELKNDENVLVFGEDVGQNGGVFRATDGLQAEFGEERVFDTPLAESGIGGLAIGLGLQGFRPVPEIQFFGFVYEVMDSISGQMARMRYRSGGVHHSPITVRAPFGGGVHTPELHADSLEGLIAQQPGIKVVIPSTPHDAKGLLISSIRDNDPVVFLEHMKLYRSFRGEVPEGEYTIELGKADVKREGTDVTLIAYGAMVHASLKAAEELAENGVNAEVIDLRTVSPLDIETIIESVKKTNRAVVVQEAQRQAGVAANVVAEIQERAILHLEAPVLRVAAPDTVYAFSEAEEVWLPNHKDIVEKVNSVMNF PGPT0019590_2320 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 AK015_03030 1083 pdhA_2 Pyruvate dehydrogenase E1 component subunit alpha TTGAAACACGTTTTAGAGAGTGTTGAGAGTCAGTTCGAAATGTTCCAAATTCTTAATGAAGATGGAAAGATTGTCAATGAAGAAGACGCTCCCGATCTTTCCGATGAGCAGTTAAAAGAACTTATGCGTAGAATGGTTTACACAAGGGTTTTAGATCAACGTTCAATTGCATTGAACCGCCAAGGGCGTTTAGGATTTTATGCACCAACAGCAGGGCAAGAGGCTTCACAGTTAGGAAGTCAGTTTGCACTTGAACAAGAGGATTTTCTATTGCCTGGATATCGAGATGTGCCACAATTGATATGGCAAGGTCTTCCATTATATCAAGCATTTTTATTCTCTAGAGGACATTTCCATGGTAACCAGATGCCAGAAGGTGTTCATGCTGTAAGTCCGCAAATTATTATTGGCGCTCAATATGTACAGGCTGCTGGTGTAGCTTTAGGAATGAAAAAGCGTGGTAAGAAAAATGTAGCTGTTACTTACACTGGTGATGGTGGTACATCACAAGGTGATTTTTATGAAGGAATTAACTTTGCAGGTGCATATAAAGCTCCAGCGATTTTCTTTGTACAAAATAACCGTTTTGCAATTTCTGTACCAGTAGAAAAACAAACAAATGCAAAAACATTAGCTCAAAAAGCTGTTGCTGCAGGAATTGAAGGCATTCAAGTAGACGGTATGGATGTACTTGCTGTTTACGCTGCTACAAAACATGCTAGAGAGCGTGCAGTTAATGGTGAAGGTCCGATGCTTATTGAAACAATGACGTATCGCTATGGTCCTCATACAATGGCTGGTGACGATCCGACTCGTTACCGTACAGAAGATTTAGATAATGAATGGGAAAAGAAAGACCCATTAGTTCGTTTCCGTAAGTATCTAGAAGCAAAAAATCTATGGTCTGAAGAAGATGAAAATAAAGTAATTGAAGAAGCAAAAGAGGAAATTAAGCAAGCCATTAAGCAAGCAGACCAACATCCAAAACAGAAAGTAACAGATTTAATGGCAAATATGTATGAAGAACTTCCATATAATTTACAAGAACAGATGGAAGAATATAAAGAAAAGGAGTCGAAGTAA MKHVLESVESQFEMFQILNEDGKIVNEEDAPDLSDEQLKELMRRMVYTRVLDQRSIALNRQGRLGFYAPTAGQEASQLGSQFALEQEDFLLPGYRDVPQLIWQGLPLYQAFLFSRGHFHGNQMPEGVHAVSPQIIIGAQYVQAAGVALGMKKRGKKNVAVTYTGDGGTSQGDFYEGINFAGAYKAPAIFFVQNNRFAISVPVEKQTNAKTLAQKAVAAGIEGIQVDGMDVLAVYAATKHARERAVNGEGPMLIETMTYRYGPHTMAGDDPTRYRTEDLDNEWEKKDPLVRFRKYLEAKNLWSEEDENKVIEEAKEEIKQAIKQADQHPKQKVTDLMANMYEELPYNLQEQMEEYKEKESK PGPT0018025_1670 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 AK015_03031 690 hypothetical protein ATGTCATTAAAAAAGTTCGCAATCGTTGCATTAGGTTTTATGCTTTTATTTATATTAGCATCGTGTAGTAATGGGACTCCTGAAGAACAAATACAGAATCATTTAGAAGAAGCAGTTACGCTAGAAGAAGGATTTGAAGAACAGCAAAGTAAAATAACTGATTTGGAAAAAAAGGAACAAGAGTTATATAACCAAATTATGGATCTTGGTAAAGACGAAATGGATGAAATTAAAAAGTTAGCTAAACAAGCTATTGAAACGGTAGATAAACGGAAAGAAGCGATAAAGAAAGAAGAAGAAAGCATAGAACAAGCAAAAGAAGAATTTACTAAAACGAAAGAAGTTGTGGAAGATTTAGAAGCTAAAGAAGCTAAAGATACTGCTAAAAAAATGGTAGAGACGATGCAAGATCGTTATAAAGCATACGATAATCTAAATAAAGCTTACAAAGATGCATTGAAATTGGAAAAGGAAATGTATGAATTGTTATCAAAAGAAGATTTAAAGCAAGAAACGTTAACGGAAAAAATAGATGCTATTAATAATGCATATGAAAAAGTAATTGCGTCAAACGATACTTTTAACAAGCATACGAAAGAATACAATGAAATGAAAAGAGATTTTTACGAGCAAGTGGGTATGGATGTTACCTATGAAGGAGATTCTGACAAAAAAACAGAAGATAAGTAA MSLKKFAIVALGFMLLFILASCSNGTPEEQIQNHLEEAVTLEEGFEEQQSKITDLEKKEQELYNQIMDLGKDEMDEIKKLAKQAIETVDKRKEAIKKEEESIEQAKEEFTKTKEVVEDLEAKEAKDTAKKMVETMQDRYKAYDNLNKAYKDALKLEKEMYELLSKEDLKQETLTEKIDAINNAYEKVIASNDTFNKHTKEYNEMKRDFYEQVGMDVTYEGDSDKKTEDK NA NA NA NA NA AK015_03032 552 def2 COG0242 Peptide deformylase 2 ATGTTAACTATGAAAGATATCGTTAGGGAAGGCCATCCTTCATTAACAACAATTGCTGATGAAGTAACTATTCCTTTAACGAAAGAAGATAAGCAATTACTTGGTGATATGCTACAATTTATAAAAAATAGCCAGGATGAAGAAATTGCTCAAAAATATGGCCTTCGTGCTGGTGTTGGGTTGGCTGCTCCTCAGCTAGGATTGAATAAACGTTTAATAGCTGTTCACTTTGAAGATGGTAGAGGGAAAAAATACAGCTATGGACTTGCTAATCCAAAAATAATTAGCCATTCTGTAGAAAAAGCATATCTTCCGTCTGGAGAAGGATGTTTATCCGTCGATCGAAATATAGAAGGATACGTTCCTAGATATGCTAGAGTCACCGTAAAAGCCATAAATATGGATGGAGAAGTCATTAAATTAAGATTAAAAGATTATGCTGCTATTGTGTTTCAACACGAAATTGATCATTTAAACGGAATCATGTTCTATGATCATATTAATCAACAAAACCCCTTCTTCATACCAGAATACGCAAAACCTATAGAATAG MLTMKDIVREGHPSLTTIADEVTIPLTKEDKQLLGDMLQFIKNSQDEEIAQKYGLRAGVGLAAPQLGLNKRLIAVHFEDGRGKKYSYGLANPKIISHSVEKAYLPSGEGCLSVDRNIEGYVPRYARVTVKAINMDGEVIKLRLKDYAAIVFQHEIDHLNGIMFYDHINQQNPFFIPEYAKPIE NA NA NA NA NA AK015_03033 774 Putative bifunctional phosphatase/peptidyl-prolyl cis-trans isomerase ATGCATAAAAAAATGGTTTTCTTAGATATTGACGGCACGATTTTAACCAAAAAAAATGAAATTCCACATAGTACAAAGCAAGCCATTAAACAATTGCAGGATAATGATGTGTACGTAGCGATAGCAACTGGAAGGGCACCTTTTATGTTTGAGCCTATACGTGAAGAGTTAAACATCCATTCTTTTGTTAGTTTTAATGGGCAGTATGTTGTGTTTGAAGGGAAAGAAGTTTATCAAAACCCGATAAAAAAAGATGATCTTTTGCGTTTAAACCATGAGATTACGAAAAATAATTATCCCATTGTTTTTTCTAGCTCGAAGAAAATGAAAGCTTCTGAACCTAACCATTCATTTATAGAAGAAAGTTTAAGCAGCATGAATTTCAGTTATCCAGAAGTGGATCCTAACTTTTATCAGTCTACATTGATTTATCAAGCTTTATTATTTTGTAAACAAGAAGAAGAAAAACAGTTAGCTAAACAGCTTCCTACGTTAGACTTTATTCGCTGGCATGAGTACTCGTGTGATGTTATTCCGTTAGGTGGGTCAAAAGCGATTGGAGTAGAAAAATTAATTGAAGCTAGCGGTTTAGCGTTTGAAAATACATTTGCCTTCGGGGATGGGTTAAATGATATGCAAATGTTACAGGAAATTGGAACAGGGGTAGCGATGGGGAATGCAGTTTCTGATTTAAAAGCGGTAGCAGATTATATAACGGAGGACGTTGATAAGGATGGGCTTGCAAATGGGTTGAAGCATCTTGGTTTAATTTAA MHKKMVFLDIDGTILTKKNEIPHSTKQAIKQLQDNDVYVAIATGRAPFMFEPIREELNIHSFVSFNGQYVVFEGKEVYQNPIKKDDLLRLNHEITKNNYPIVFSSSKKMKASEPNHSFIEESLSSMNFSYPEVDPNFYQSTLIYQALLFCKQEEEKQLAKQLPTLDFIRWHEYSCDVIPLGGSKAIGVEKLIEASGLAFENTFAFGDGLNDMQMLQEIGTGVAMGNAVSDLKAVADYITEDVDKDGLANGLKHLGLI NA NA NA NA NA AK015_03034 210 hypothetical protein ATGATTTATAAAGTTTTATATCAAGAACTGGCTGACGAGATTCCAGTTCGAGAACGTACAAAAAGCGCTTATGTGGAGGGAAACTCTGTAAGAGAAGTTAGAGCAAAAATCAACGAACGCAAGTATAATATTGAATATATCCATGAATTGGATGAAGCACATTTAGCATATGAAAAACAATCCGAAGATTTTCACGTGGAGAAAATCTAA MIYKVLYQELADEIPVRERTKSAYVEGNSVREVRAKINERKYNIEYIHELDEAHLAYEKQSEDFHVEKI NA NA NA NA NA AK015_03035 1668 rnjA COG0595 Ribonuclease J1 ATGAAATTCGTGAAAAATGATCAAGCTGCCGTTTTTGCTCTAGGTGGCTTAGGAGAGATCGGAAAAAATACGTATGGCATTCAATTTCAGGATGAAATTGTGCTAATCGATGCTGGAATTAAATTTCCGGAAGATGAGTTGTTAGGTATTGATTATGTTATCCCTGACTATACGTATTTAGTACAAAACCAAGATAAAATTAAAGGATTATTTATTACCCACGGACACGAAGACCATATTGGGGGGATCCCATATCTTCTCCGTGAAATTAATGTGCCAATATATGCTGGTAAACTTGCGTTAGGATTAATTAAAAATAAATTAGAAGAACACGGTTTATTAAGAAATGCTAAATTACACACGATTCAAGAAGACGATATTATAAAATTCCGAAAAACATCGGTAAGCTTTTTCCGAACAACTCATAGTATTCCAGATTCCTATGGTATCGTAGTGAAAACTCCGCCAGGAAATATTGTTCATACTGGAGATTTTAAATTTGATTTTACTCCAGTTGGTGAACCAGCTAATTTATCGAAAATGGCTGAAATTGGAAATGAGGGTGTGCTTTGCCTTTTATCAGATAGTACGAACAGTGAAGTTCCCGGATTTACGATGTCCGAAAAAGTGGTTGGGGAAAATATAAAAGATATTTTTAGCAGAGTTGACGGACGTGTTATATTCGCAACTTTTGCGTCAAATATTTATCGATTACAACAAGTAGTGGAAGCATCTGTTAAAAACAACCGTAAAATAGCTGTATTCGGAAGAAGTATGGAATCTGCTATTAACTTAGGACAAGAATTAGGTTATATTCAAGCGCCGAAAAATACGTTTATTGATGCTAATCAAATAAACCGTCTTCCAGCACAAGAAGTGACCATTCTTTGTACCGGATCTCAAGGTGAACCGATGGCCGCTCTCTCAAGGATTGCCAATGGTACTCACCGGCAAATACAAATTATCCCTGGCGATACAGTGGTGTTTTCTTCATCTCCAATCCCTGGAAACACCATTAGTGTCAGCAGAACAATTAATAAATTATATCGTGCAGGTGCCGATGTCATCCACGGAAAATTAACCAATATTCACACATCAGGGCATGGTAGTCAAGAAGAGCAAAAGCTCATGCTACGCCTAATCAAACCAAAATACTTTATGCCTATACATGGTGAATACAGAATGTTAAAAGAGCACATTAAATTGGCCGTTGCTTGTGGTTCAGACGCTGATAGTTGCTTTGTCATGGACAACGGAGATGTTTTAGCACTTGGAAAAGATACAGCAACAATAGCTGGAAAAATTCCTTCAGGTTCCATTTATGTAGATGGAAACGGAATAGGCGACATAGGTAATATTGTCCTAAGAGATCGTCGAATACTTTCAGAAGAAGGGCTCGTTATTGTAGTTGTAAGCATTAATATGAAAGAGTTTAAAGTTTCTGCAGGCCCTGACATCATTTCACGTGGCTTTGTCTATATGAGGGAATCGGAAGACTTAATTAATGAAGCACAGAAATTGGTCGCGACGCATTTAACCAAAGTGATGGAACGCAAAACGTCACAATGGTCCGAGATTAAAAACGAGATCACAGATACTATCGCTCCATTTCTGTATGAAAAAACAAAGCGTCGCCCTATGGTACTACCTATTATTATGGAAGTTTAA MKFVKNDQAAVFALGGLGEIGKNTYGIQFQDEIVLIDAGIKFPEDELLGIDYVIPDYTYLVQNQDKIKGLFITHGHEDHIGGIPYLLREINVPIYAGKLALGLIKNKLEEHGLLRNAKLHTIQEDDIIKFRKTSVSFFRTTHSIPDSYGIVVKTPPGNIVHTGDFKFDFTPVGEPANLSKMAEIGNEGVLCLLSDSTNSEVPGFTMSEKVVGENIKDIFSRVDGRVIFATFASNIYRLQQVVEASVKNNRKIAVFGRSMESAINLGQELGYIQAPKNTFIDANQINRLPAQEVTILCTGSQGEPMAALSRIANGTHRQIQIIPGDTVVFSSSPIPGNTISVSRTINKLYRAGADVIHGKLTNIHTSGHGSQEEQKLMLRLIKPKYFMPIHGEYRMLKEHIKLAVACGSDADSCFVMDNGDVLALGKDTATIAGKIPSGSIYVDGNGIGDIGNIVLRDRRILSEEGLVIVVVSINMKEFKVSAGPDIISRGFVYMRESEDLINEAQKLVATHLTKVMERKTSQWSEIKNEITDTIAPFLYEKTKRRPMVLPIIMEV NA NA NA NA NA AK015_03036 666 ktrA COG0569 Ktr system potassium uptake protein A ATGAAACGAGAATTCGCAGTAATTGGATTAGGAAGATTTGGTGGAAGTATTTGTAAAGAGTTAAGCATGGAAGGGATGGAAGTGCTTGCTATTGATAACAATGAAGATAGAATTAATGAGTTTAAAAATATAGCTTCTCATGCTGTTATTGTTGACTCAACAGATGAAGCTTCTTTAAAAGAACTAGGAATAAAGAATATTGACCATGTTATTGTTGCAATCGGAGATGATATTCAAGCAAGTATTTTAACAACGGTTATTTTAACGGATTTAGGTATTAAGAAAATTACAGTAAAAGCTCAAAATGATTACCATGCGAAAATTCTTAATAAAATTGGCGCAGATCAGGTGGTACATCCAGAAAGAGATATGGGAAAAAGAATTGCACATAGTATTATATCAAATAACATATTGGATTACTTAGAACTATCCGATGACCATAGCATTGTTGAGGTAAAAGTTGGTGAAAAAATGCTAGGCAAGACGCTTGTCGAATTAGATATTCGTGCTAATTATGGATGTAACGTAGTAGCCATTAAACATGGGAAAGATATTAACGTATCGCCTAGTGCGGATCATCGTTTTTCCGAAGGGGACATTTTAATCGTTATTGGTGCAGATAAAGATATATCGCGTTTTGAAAAGCATTTAGTGATTGAAGAATAA MKREFAVIGLGRFGGSICKELSMEGMEVLAIDNNEDRINEFKNIASHAVIVDSTDEASLKELGIKNIDHVIVAIGDDIQASILTTVILTDLGIKKITVKAQNDYHAKILNKIGADQVVHPERDMGKRIAHSIISNNILDYLELSDDHSIVEVKVGEKMLGKTLVELDIRANYGCNVVAIKHGKDINVSPSADHRFSEGDILIVIGADKDISRFEKHLVIEE PGPT0002710_3984 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499 NA NA AK015_03037 1842 COG1132 putative ABC transporter ATP-binding protein ATGACGAAGGATAAGTCCAAAGAGTCCAAAAGCAGGCACTTACAACGCTTTCATTATACGCAAGACCAAGCAATTGAAAAGCCGTTTAATTGGAAGCAAATGTGGCGTCTACTGGTCTATTTGAAACCTTATGCAAAAACTTATTTACCGGCTGCAATTATAGCTATGTTTATATCGACAGCTGTACGATTAATTGTACCAATTTTAATCGGAAAAGTCGCTATTGATGTAGCTATAAGTGAACAAAATGTAACGCTGTTGACTTATTTAGTGGTGGTTATTGGCATTTTATATTTATTAAGCTATGCGGGAAATGTATTTAGGATAAAGTGGGTAAATATTTTAGGTCAAAATGTTATTTACGATATTAGACAACATTTGTTTTCGCACGTCCAACGGTTATCGCATCGTTTTTTTGATTCCCGTTCAGCCGGTTCTATTTTAGTTCGCATTATGAATGATATTAATTCACTTCAGGAATTATTTACAAATGGAATTATTAACTTGCTTATGGACATTGTAACATTAGTAGGGATCATTGTTATTTTGTTTGTGCTTAGCCCTAAGCTTGCGTTAGCGATTATGGTTATACTTCCGCTAATGTTCTACCTAACAACCAAGTTACGACGGACGATTCGTCGTTCTTGGCAACAAGTAAGAATTCAACAATCACGCATGAATTCTCATTTGAATGAAGGTTTACAAGGGATACGAATTACGCAATCATTTTCTCAAGAACAAGAAAATAGTGAGTATTTTCATGGAGTAAATAAAGATAATTTTAGTAGCTGGAAGGAAGCTACGAAGAAGAGTGCTATGTTTCGTCCGTTTGTTGAATTGAGCAATGCTATCGGTACAGTTATTTTAATATCTTATGGGGCATACTTAATTTTACTTGGTGAAAATAGTGGTGGCATTGCTATTGGAACGTTTGTTTCGTTCGCCTTTTTTATTGGTATGTTTTGGGAACCAATATCTCGTTTAGGTCAGATGTATAATCAAATGCTCATGGCAATGGCAGCATCTGAGCGTATTTTTGAATTTTTAGATGAACGGCCAAATGTTCAAGAAAAGAGCGATGCTCATGTTTTCAAGGACATGAAAGGACAAATTGTCTTTGATAAAGTGAATTTTTATTACGATAAAGATCTCATTGCATTGAACAATATATCTCTGACTATTCATGCGGGGCAAACAGTTGCATTAGTTGGCCATACTGGAAGTGGTAAAACAACAATTGCTAATTTAATAAGTAGATTTTATGATCCAACAAAAGGGAAGGTTACAATTGATAACTATGATTTACGTGAAGTCCAATTAGATAGCTTACGACAAAGTATAAGCGTTGTTTTACAGGATACATTTATTTTTTCAGGCACTATTATGGAAAATATTCGTTTTGGGCGGCCAGATGCGTCTGATGAAGAAGTCATTCGCGCAGCAGAAGTCGTTGGCGCTAATGAATTTATAAAGCGTATGGCGAATAGTTATGAAACGGAAGTTGAAGAGCGTGGCAATATTTTATCTGCAGGGGAAAGACAATTGTTATCGTTTGCAAGAGCATTATTAGCTAATCCGAAAATTTTAATACTTGATGAAGCTACAGCAAGTATTGATACAGAAACAGAAGTTAAGATTCAAGATGCTTTAGCTAAATTATTGAAAGGACGTACCGCTATTATGATTGCGCACCGCTTATCTACCATTCGTAAGGCTGATAATATATTTGTGCTTGAGAATGGACACATCTTAGAAAGGGGAAATCATGACGATTTAATGAAACAAGGTGGAGAGTACTACCATTTAGTAAAAGCACAATTTCAAATGTTAGATGCAATATAA MTKDKSKESKSRHLQRFHYTQDQAIEKPFNWKQMWRLLVYLKPYAKTYLPAAIIAMFISTAVRLIVPILIGKVAIDVAISEQNVTLLTYLVVVIGILYLLSYAGNVFRIKWVNILGQNVIYDIRQHLFSHVQRLSHRFFDSRSAGSILVRIMNDINSLQELFTNGIINLLMDIVTLVGIIVILFVLSPKLALAIMVILPLMFYLTTKLRRTIRRSWQQVRIQQSRMNSHLNEGLQGIRITQSFSQEQENSEYFHGVNKDNFSSWKEATKKSAMFRPFVELSNAIGTVILISYGAYLILLGENSGGIAIGTFVSFAFFIGMFWEPISRLGQMYNQMLMAMAASERIFEFLDERPNVQEKSDAHVFKDMKGQIVFDKVNFYYDKDLIALNNISLTIHAGQTVALVGHTGSGKTTIANLISRFYDPTKGKVTIDNYDLREVQLDSLRQSISVVLQDTFIFSGTIMENIRFGRPDASDEEVIRAAEVVGANEFIKRMANSYETEVEERGNILSAGERQLLSFARALLANPKILILDEATASIDTETEVKIQDALAKLLKGRTAIMIAHRLSTIRKADNIFVLENGHILERGNHDDLMKQGGEYYHLVKAQFQMLDAI PGPT0029045_492 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 AK015_03038 1752 COG1132 putative ABC transporter ATP-binding protein GTGGACACGTTTAAAAAGTTAAAGCAATATTATTTGCCTTACAAGAAACATTTTTTACTATCTGTATTCTTCTTGTTTTTTGTAACGGTAATCACAGTTGTTTATCCCATTATTTTACAGCAAACAATTGATCGCGTTGTTTTAATGGATCGCTATGAATTAATTCCGTACATTTCCGTTATTTTCTTGTTGTTAATGACTGTTAAAGGATTTGCTACTTTTTATCATCAATATTTAGGGGATTTATTTGGTATTACAGCTGTATATAAATTACGTGATGGATTATATCAAAAGCTACAGCGATTATCATTTACGTATTATGATAACGCTAAAACAGGAGATATTATGTCTCGCTTAACAGCTGATGTAGAAGGGTTTCGTTTTTTTCTATCTTTTGGATTTTCGGAACTGTTAAGAGTAATATTACTTATAACGGTTAGTTTGGGAGTTATGTTCTATTACTCAGTTCCGCTTGCTTTAGTTACAATGGCCGCGATGCCTTTTCTGGCTATTGTTGTATTTCAATTTGATAAACGTGTACATCCGGCTTTTCGCCTGATTCGAAAATCTTATGGTAATTTAAATACGCGTGTTCAAGAAAACATTAGCGGTATGCATACGGTGAAGTCATTCTCGCGTGAGGGATTTGAAATTGGACGTTTTGCGGATCGTAATGATTCGTACAGGCAAAATTATTTACACACTTCGTTTATTTGGGCAAAGTACTTTCCTTTAATGGAATTTATCGGAAATTTCTGTGCGGCAGCATTGTTGGCATATGGTGGTTTTCTTGTTATTGATGGGCAATTGTCTCTTGGTGCATTAATCGCTTTTTTTAGCTTAGTTTGGTACATTATGGGACCGCTTATGAACCTTGGTTTTATTGTCAATCAGTTTTCACAAGCAAAAGCTTCTGCAGAAAGATTATTAGAAATCTTAGAAGAAGAAGAGGATATTATAGAATCCGAACACGCTATTCGAGAACCTATACACGGGCACGTAACATTTCGGAATGTTACGTTAACATATGCGGATGAAAACGACGCTGCTTTGAAGAATATTAGTTTTGATGCTCCCCCTGGGAAAGTTATTGGATTAATTGGTTCTACAGGATCTGGTAAAACGAGTATTACACAGCTCATTACGCGTTTTTACGAGCCTGTTTCTGGAGATGTACTTATTGATCAAAAGCCTGTTTCTGATTATTATCTTAAAGCTTTGCGCAAGGAAATTGGCTTTGTCTTGCAAGAAGCATTCTTATTTTCTACGACAATTCGTGAAAATATTGCCTACGGTAGCCCAGGTGTAGAGGATGAGCAGATTATAGATGCTGCTAAACGAGCGCAAGCGCACGATTTTATTATGAAAATGCCAGAAGGGTATGACACGATGTTAGGTGAACGTGGGATGGGACTATCAGGAGGACAAAAACAACGTATTGCCATTGCAAGAGCGATCTGTATTAATCCTAAAATTCTTATTTTGGATGATGCTACATCTGCAGTAGATATGGAAACAGAATTTAGAATTCAAAAGGCTTTACAAGAAGTAATGAAGGGGAGAACTTCATTTATTATAGCTCATCGAATTGCTTCATTAAAACATGCAGATGAAATATTAGTTTTAGAAGGGGGAAAAGTCGTAGAGCGTGGTAATCATGACTTCTTAATTAAGAATCAGGGACCGTATCAACGAATTTATGATATTCAATACCAGGATAGAGAAGAAGTGATGAAGCGTCAGCACGCTTAG MDTFKKLKQYYLPYKKHFLLSVFFLFFVTVITVVYPIILQQTIDRVVLMDRYELIPYISVIFLLLMTVKGFATFYHQYLGDLFGITAVYKLRDGLYQKLQRLSFTYYDNAKTGDIMSRLTADVEGFRFFLSFGFSELLRVILLITVSLGVMFYYSVPLALVTMAAMPFLAIVVFQFDKRVHPAFRLIRKSYGNLNTRVQENISGMHTVKSFSREGFEIGRFADRNDSYRQNYLHTSFIWAKYFPLMEFIGNFCAAALLAYGGFLVIDGQLSLGALIAFFSLVWYIMGPLMNLGFIVNQFSQAKASAERLLEILEEEEDIIESEHAIREPIHGHVTFRNVTLTYADENDAALKNISFDAPPGKVIGLIGSTGSGKTSITQLITRFYEPVSGDVLIDQKPVSDYYLKALRKEIGFVLQEAFLFSTTIRENIAYGSPGVEDEQIIDAAKRAQAHDFIMKMPEGYDTMLGERGMGLSGGQKQRIAIARAICINPKILILDDATSAVDMETEFRIQKALQEVMKGRTSFIIAHRIASLKHADEILVLEGGKVVERGNHDFLIKNQGPYQRIYDIQYQDREEVMKRQHA PGPT0029040_1318 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 AK015_03039 156 hypothetical protein ATGTTAGAAAAACTTAACTTAACAATCCAGTTTTCTAAAGTATACTTTCTTATTAGCTATAATATAAAAAGCGCCTCCTTTTATATGTATAAAAAAGGAGACGCTTATCGTATTAAACTAAATCATACGCAAAATATTTTTCTCAAGCATGTTTAA MLEKLNLTIQFSKVYFLISYNIKSASFYMYKKGDAYRIKLNHTQNIFLKHV NA NA NA NA NA AK015_03040 426 ykuV COG0526 Thiol-disulfide oxidoreductase YkuV ATGCGTTTAGGTCAGCAAATTCCCGATTTTGATACCACTTGTGAATGGTTGAATAGTGAACCTTTATTAATAGGTGACAAACCTACTTGTTTTCATTTTTGGTCTATTAGTTGTGTTCTATGTAAACAAGCGATGCCGCATTTTATAAAGCTTTGTAATGAATATAAAAGTAAAGTACAATTTATTTCAGTTCATACGCCATTATCTGATACAGATAACAACTTGCTTGAAATTAATAAAGTGGTGGAGGAACAAGAACTGAAAGTACCTATAGCTGTCGATCATAATGAAAGCATTTCAGATGCATTTCAAGTAACATATGTTCCAGCCTATTATGTATTTGATGAATTTGGAAAGTTACGTCATATCCAGCGTGGTAAAACAAATTTAAACATGCTTGAGAAAAATATTTTGCGTATGATTTAG MRLGQQIPDFDTTCEWLNSEPLLIGDKPTCFHFWSISCVLCKQAMPHFIKLCNEYKSKVQFISVHTPLSDTDNNLLEINKVVEEQELKVPIAVDHNESISDAFQVTYVPAYYVFDEFGKLRHIQRGKTNLNMLEKNILRMI NA NA NA NA NA AK015_03041 243 hypothetical protein ATGGCGAGAATTGGTGTTGAAACGACGCTTAGCGATGTAAAAGAAGCACTCACAGAAATGGGGCATCATGTAGTGGATTTGCGTGGAGCAGAGGATGCAGCTTACTGTGATTGTTGTGTAATTTCTGGCCAAGACAAAGATGTAATGGGAGTCATGGAGGCGGAAATAGCAGGTGCTGTTATTAACGCACAAGGTATGAATACAGAAGATGTGTGTAATGTAGTGAATCAAAAAGTTGTTTAA MARIGVETTLSDVKEALTEMGHHVVDLRGAEDAAYCDCCVISGQDKDVMGVMEAEIAGAVINAQGMNTEDVCNVVNQKVV NA NA NA NA NA AK015_03042 1116 COG1473 N-acetyldiaminopimelate deacetylase ATGTTAGATTTACAACAAATTCGTCGTAAATTACATCAAATACCTGAGCTGGGTTTTCAAGAAAAGAAGACCCAGCAATACTTGTTGGAAAATATAAAATTACTAGAAACAGATAAAGTATCTATCAAGTTATGGGAGACAGGTATTCTCGTCTTTGTGGAAGGTAAGGCCCCAACAAAAACAATTGGTTACCGAGCAGATATAGATGGTTTACCAATAACTGAACAGACAGGGCTCTCTTTTTCATCGAAGCATGACGGGAAAATGCATGCGTGTGGTCACGATTTTCACATGGCCATTGCTTTGGGGGTATTAGAGAAGATTATCTTAGAACCAATGAACGATCATTGCTTATTCATCTTTCAGCCAGCAGAGGAGGGGCCTGGCGGAGCATTACCATTACTTCAATCTGAAGCATTTCAGTCATGGCGTCCGGACATCGTATTTGCTCTACATATTGCCCCTGAGTTGCCAGTAGGAACAGTTGCTAGTAAACCTGGTTTACTGTTTGCAAATACGAGTGAATTGTTTATTGATTTTGCTGGAAAAGGCGGGCATGCTGCTTATCCTCATTTAACGAAAGATATGACAGTGGCTGCTAGTAGTTTTGTGGTTCAGATGCAACAAATTGTTTCTAGAAATGTGAATCCACTTGAAGCATCTGTTGTTACAATTGGTAAAATGCAAAGCGGATTTGTCCAAAATGCGATTGCTGGGACTGCCCGTTTAGAAGGGACTATCCGCACACAACATCCCGATAGTATAAATACAGTTAAAAACCAACTAGAGAAACTGATTAAAGGGTTTGAGATTGCTTACGATTGTAAGATTGAAGTGGATTATGGAGCGAACTATTATCAAGTTTATAATCAAGCTGAACAAGTAAAGGAATTCCGTCAGGCATTAGCTGGTAGTAATGTGCATTATCAAGAAGCAGAAGCTGCTATGACTGGTGAAGATTTTGGATATATGCTCAAAGAAATACCAGGTTTTATGTTTTGGCTTGGGGTAGACTCTGCTTATGGTTTGCATCATGCACAGTTAAATCCAGATGAAGCTGCTTTAGGCGTTGGCGTGGAGGCTGTTCATTTAACTTTTTCCAAACTTTCTCAATAA MLDLQQIRRKLHQIPELGFQEKKTQQYLLENIKLLETDKVSIKLWETGILVFVEGKAPTKTIGYRADIDGLPITEQTGLSFSSKHDGKMHACGHDFHMAIALGVLEKIILEPMNDHCLFIFQPAEEGPGGALPLLQSEAFQSWRPDIVFALHIAPELPVGTVASKPGLLFANTSELFIDFAGKGGHAAYPHLTKDMTVAASSFVVQMQQIVSRNVNPLEASVVTIGKMQSGFVQNAIAGTARLEGTIRTQHPDSINTVKNQLEKLIKGFEIAYDCKIEVDYGANYYQVYNQAEQVKEFRQALAGSNVHYQEAEAAMTGEDFGYMLKEIPGFMFWLGVDSAYGLHHAQLNPDEAALGVGVEAVHLTFSKLSQ NA NA NA NA NA AK015_03043 720 dapH_2 COG2171 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase ATGAAAATGATGGATGGAAACGAGATTATTAATTTTATTTCGAATAGTAAAAAAAGTACACCTGTAAAGGTATATATAAAAGGAGAAGGTTTAGATCGTTTATCTGCGGATAACTCAATCCAAGCTTTTATAGAATCAAAGAGTGGAGTCTTGTTTGGTGAATGGGATGATATTCAAAAGTTACTTGAAGAATCTAAAGATATGATTCACGATTATGTCATTGAAAACGATCGTCGTAATTCAGCTATTCCATTACTAGATTTAAAAGGAATTAATGCTCGTATTGAACCAGGTGCAGTCATTCGAGACCAAGTTGATATTGGTGACGGCTGCGTGATTATGATGGGAGCAATGATTAATATTGGCTCCGTGATTGGTGAAGGTACGATGATTGATATGAATGTTGTGCTTGGTGGACGAGCTACAGTAGGTAAACATTGTCATATTGGTGCTGGAACAGTGCTAGCGGGAGTGATTGAGCCCCCATCAGCAAAACCAGTGATTGTTGAAGATAATGTAGTTATTGGTGCAAACGTCGTTGTTTTAGAAGGTGTTACTATTGGAAAAGGTGCGATCGTTGCTGCAGGTTCAATCGTAACAAAGGATGTAGCGCCAAATACGCTTGTAGCTGGAACGCCTGCGCGGGTACTAAAAGAAATCGATGAGAATACGAAGTCAAAAACGGAAATTAAACAAGAGCTTCGTAAACTAAATGACTAA MKMMDGNEIINFISNSKKSTPVKVYIKGEGLDRLSADNSIQAFIESKSGVLFGEWDDIQKLLEESKDMIHDYVIENDRRNSAIPLLDLKGINARIEPGAVIRDQVDIGDGCVIMMGAMINIGSVIGEGTMIDMNVVLGGRATVGKHCHIGAGTVLAGVIEPPSAKPVIVEDNVVIGANVVVLEGVTIGKGAIVAAGSIVTKDVAPNTLVAGTPARVLKEIDENTKSKTEIKQELRKLND NA NA NA NA NA AK015_03044 441 ykuL COG0517 CBS domain-containing protein YkuL ATGAGCATGTTGCAAAATCAATATTTAACAGACATTACGTTAGGCGAAATAATGATTCCTTCCGAAAAAGTCGCACATGTTCAAGTAAACAATCCGCTAGAACATGCTTTGCTCGTATTAGTAAAGTCTGGATATTCAGCTGTTCCTGTTTTGGATCCATCATATAAGTTAGTTGGCATTATTGGTAAAACGACGATTTTAGATCAAATACTAGGTTTGGAACGATTTGAATTCGAACGTCTGTCAACGATAGTGGTAAAAGATGTATTAAATGATGATGTCCCTTGTTTAACAAAAGAAGATTCTTTGATGAAAGGTTTAAACGCTGTCATTAATCATCCATTTGTTTGTGTTGCTGATAAGGATGGATATTTTGATGGAATTTTAACACGAAGAGCAATATTAAAACAACTTAAAAAAGATATGTATGCTGCAAAATAA MSMLQNQYLTDITLGEIMIPSEKVAHVQVNNPLEHALLVLVKSGYSAVPVLDPSYKLVGIIGKTTILDQILGLERFEFERLSTIVVKDVLNDDVPCLTKEDSLMKGLNAVINHPFVCVADKDGYFDGILTRRAILKQLKKDMYAAK NA NA NA NA NA AK015_03045 303 czrA_2 COG0640 HTH-type transcriptional repressor CzrA ATGGACTATCAGCCTATTGATGAGCAACTACTTGACGTTGTATCGCAAACATTTAAAGCTTTATCTGACCCAACGAGAATAAAAATTCTACACTTGCTGTTTCATAAAGAATGTTCCGTTAATGAAATTGCAAAAAGACTGGAAATGCACCAGTCATCAATCTCCCATCAACTAAAGTATTTAAAACAATTACGTTTGGTTAAAAACAGACGCGAAAAGACAACCTATTATTACTCACCAGACGATTACCATGTGATGAATGTTTTGGAACAAACAATTGAACATACGAAACATATTAGCTAG MDYQPIDEQLLDVVSQTFKALSDPTRIKILHLLFHKECSVNEIAKRLEMHQSSISHQLKYLKQLRLVKNRREKTTYYYSPDDYHVMNVLEQTIEHTKHIS PGPT0004305_321 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043 NA NA AK015_03046 915 czcD COG1230 Cadmium, cobalt and zinc/H(+)-K(+) antiporter ATGGCACAAGAGCATAATCATAGCCATGGCCATCATCATGGAACGAGCAACAAGAAAGCTCTTTTATTCAGCTTTATATTAATAACATTTTTTATGGTTGTTGAAGCAGTTGGAGGGTTTTTAACAAACAGTCTTGCACTTCTTTCAGATGCTGGACATATGCTAAGCGATGCAGCAGCACTTGGCTTAAGCTTATTAGCATTTAAAATTGGAGAACGACAAGCTAATACTTCTAAAACTTATGGGTACCGACGATTTGAAATAATTGCTGCGTTTATAAACGGTGTAACTTTAATCGTTATTTCCATCTATATATTTTATGAGGCATTTCAACGTTTTATGGAGCCGCCAAATGTAAGTGCAAGCATGATGATTATTGCAATCATTGGGCTGACTGTAAATATTATCGCAGCTTGGGTACTGATGCGGGGAGATTCACAGGAAAATTTGAATATACGAAGCGCCTTGCTTCATGTTTTTGGTGATTTATTAGGTTCTATTGGTGCTATTATTGCAGGTATTCTTATTTTGCTTTTTAACTGGAATATTGCAGATCCCATTGCCAGTGTTATTGTTGCATTTTTAATCGTTATATCTGGAATTCGAATAACAAAAGATTCCATTCACATTTTAATGGAAGGTAAACCGTCACATGTTGATGTTAAAGAAATTAAGAAACAACTGCTGGAACTTCAAGGTGTTGAACACGTCCATGATTTACATGTATGGTCTATCACTTCTGAATTTCCTGCACTAAGCTGCCATCTTGTAGTACAAGATTCTATTGATAGGGACAACCTACTTATGAAGGCAAACGATTTATTAAAGAAAAATTTTTCCATTTCTCATTGTACTTTGCAACTTGAAGGAGAAAATGCAAGAATTCAAGAGGAATGCGAGGACTGTTCTCATTAA MAQEHNHSHGHHHGTSNKKALLFSFILITFFMVVEAVGGFLTNSLALLSDAGHMLSDAAALGLSLLAFKIGERQANTSKTYGYRRFEIIAAFINGVTLIVISIYIFYEAFQRFMEPPNVSASMMIIAIIGLTVNIIAAWVLMRGDSQENLNIRSALLHVFGDLLGSIGAIIAGILILLFNWNIADPIASVIVAFLIVISGIRITKDSIHILMEGKPSHVDVKEIKKQLLELQGVEHVHDLHVWSITSEFPALSCHLVVQDSIDRDNLLMKANDLLKKNFSISHCTLQLEGENARIQEECEDCSH PGPT0004255_2189 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COBALT_RESISTANCE COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264 NA NA AK015_03047 855 lpxG COG1408 UDP-2,3-diacylglucosamine pyrophosphatase LpxG ATGAATAGAAGGTCTTTTCTAAAAAAATCCCTCGGTAGTTTATTTACTTTGTTAGGTTTAAGTGGAGGAACGTTTTACTACGCTAAAGATGTCGAACCTATTTTACTCCACGTAAATAAAAATACGGTTGCGTCTAGTAAAATTCCAAAAGCGTTTGACCAATTCAAAATCGTTCAATTTTCAGATACGCATATTGGTTTTCATTACACATTAGAGCAATTAAAAGAGTTAGTAACAAAAATCAATGGGTTACAAGCCGATTTAATTGTGTTTACTGGTGACCTAGTGGATGAGCCTCAAAATTTTCATTGGGATAATACCATAATTGATATATTGAAAGGGTTGCAAGCTACAAAAGGAAAGTTTTGGATTTACGGAAACCATGATCATGGTGGGTATGGAACAGAAGTTGTTTATAATGTAATGGAAAAAGCAGGCTTTCAACTATTGCAAAATAGTTGTGTTTCAATTAAATTAAAGGATGCTGCATTTAATTTAGCTGGCATTGATGATTTGATGTTAGGCAAACCAAATATTAACCAAACTCTAGCGCAAGTGAATACGAACCTCTTTACCGTTTTACTGGCTCATGAACCGGACTTCGCAGATAAAGCCAAAAACCATCCAATAGACTTGCAGCTATCAGGACACAGTCACGGTGGACAAATTCGCTTTCCATTTATAGGTCATCTTTACAGCCCAGCATATGCTGAAAATTATGTACAAGGGAAATACACCTTGAATGAAGGCCGTTTTCAGTTGTTTGTCAGCAGCGGCATAGGTACGACTCGACTCCCCTTTCGATTTCTATGTAAACCAGAAATTAATATGTACACATTGAAATCAAAGGTTTAG MNRRSFLKKSLGSLFTLLGLSGGTFYYAKDVEPILLHVNKNTVASSKIPKAFDQFKIVQFSDTHIGFHYTLEQLKELVTKINGLQADLIVFTGDLVDEPQNFHWDNTIIDILKGLQATKGKFWIYGNHDHGGYGTEVVYNVMEKAGFQLLQNSCVSIKLKDAAFNLAGIDDLMLGKPNINQTLAQVNTNLFTVLLAHEPDFADKAKNHPIDLQLSGHSHGGQIRFPFIGHLYSPAYAENYVQGKYTLNEGRFQLFVSSGIGTTRLPFRFLCKPEINMYTLKSKV PGPT0022365_3395 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098 NA NA AK015_03048 474 hypothetical protein ATGAATGAATCAGAGCAACTTGACGATCTAGCAAAAGCAATTTATACAGTTAACCGACACGCAAAAACAGCTCCTGATCCAAAACACTTATATTATATAAAAAAAGCAACGATAAACGAGTTACTTAAAAAAAATTTAGCAAAAAAGGTGGGTTTACACTTCTCTAAACACCCTAAATATAGTAATCAGCATTCCACTCTACTCGTTCAAGTTGCTAATTACTATTTTCATGTACCTCCAACGAAAGATGATTTCAAAGAATTACAGCATTTAGGAGAATTGGATGAGAGTTACCGTAACCCCCAAACAAAAATGTCTTTATCAGAAGCAAAAAAAATAATTTACAGTTACTTGAATTGGAAAGTAAACAAATCTTCTCAAAAAACAAAAAGGGTTAGCAAACGAAGCTCTCCCTATTACACTCCATCATCTTTAGGTAAAATGAACTGGGCAAAAAAAACACATCGTCATTAA MNESEQLDDLAKAIYTVNRHAKTAPDPKHLYYIKKATINELLKKNLAKKVGLHFSKHPKYSNQHSTLLVQVANYYFHVPPTKDDFKELQHLGELDESYRNPQTKMSLSEAKKIIYSYLNWKVNKSSQKTKRVSKRSSPYYTPSSLGKMNWAKKTHRH NA NA NA NA NA AK015_03049 204 hypothetical protein ATGATGGAATATAATGATTTCATGTATGAACTTCATAAGTATGCTACGCAAACCCATGCTTTAAAAGACAAATTTGAAAAACTATCAGGAGAAGAAAAACAAGTTGTTATCCATGCAGCTCCAGAAGAAATTACCAATCCTGAGCGGATCCACCATCCTGTATTTCAATGGCTTGAAAATCTTCAAGATAAAAACAGTAGATAG MMEYNDFMYELHKYATQTHALKDKFEKLSGEEKQVVIHAAPEEITNPERIHHPVFQWLENLQDKNSR NA NA NA NA NA AK015_03050 321 hypothetical protein ATGGATTTCATTTTAGAAATACTAGACCCATTAAGACTGGATAGGAAGTATTGGTATATCATTTTTCTAGTTAGTTTGTTCAGTTTTATTTATTTTATTTCACGGTCATTTATTCGATGGATAATTCATCGTAAAGCATTGTTACTTCTTTCTTATATTATTATTAGTTTATTCGTTCTCTCTACCTATTTTGCAATCAGCTTGCTAAATGGCGGAATTAATATTAGTTTTTTTCAGTCTTTTCCGCTAATTATGCAATCATTAGCTGCTTTTGGTTTAATACTAATTTTTAAAGCTATGATCAGAAGTTGGTTGAAATAA MDFILEILDPLRLDRKYWYIIFLVSLFSFIYFISRSFIRWIIHRKALLLLSYIIISLFVLSTYFAISLLNGGINISFFQSFPLIMQSLAAFGLILIFKAMIRSWLK NA NA NA NA NA AK015_03051 903 hypothetical protein TTGAAGAAAGCATATATATTCATTATACTTGGGGCTGCATTATGGGGTACGATTGGTTGGTATGTGAACCAACTCTATGATTATGGATTTTCCCCTATAGAGGTGGTTATTTTACGAGCATGGACAGCAGCAATAATGCTGGTTGTTTACTTACTTCTGTTTGCTAAAGAGCAATTAAAATTGCGAACTGTAAAAGATATTCAATACTTTATTGGAACAGGCATTTTAAGTATTTCTTTTTTTAATTTTTGTTTATTTACTACAATGGAACTTACCACCATTCCTGTAGCAACCGCTCTTTTATATACAGGTCCTGCTTTCGTAGTAATCCTGTCGACCTTTTTCTTAAAAGAAACCTTAAACAAAGAAAAAATAGCTGCTTTACTATTTACTTTCCTTGGTGTTTCTTTAGTTATTGAATTCTTTCCATCAAATATGAATGCTGTATCTTTCCAAGCAGTTCTATTTGGGTTAGGAGCTGGTTTCGGCTACGCTTTATACAGCATTTTTAGTAAGTTTGCATTAAAAAAATATTCAACCCTTAGTATTACTACATATACTTTTGTTACATCAGCCATTGCGCTGACCCCTTTTTTCCCTTTTGCAGAAAAAGGAATGTTACTGCTACACCCCACCGTTATTCTTTATGCATTTGGTCTTGGATTTTTACCAACTGCTTTTGCGTATATTATTTATACGTGGGGGTTAAAAGATATTGAAGCCTCTAAAGCATCTATCTTAACCACTGTTGAACCAGTAGTTGCTATGATAATCGGTATCTTTATTTTCAAAGAGACTTTTACCTTCCAACAAATTATTGGCATGGTTATTATTTTAGGGACCATTCTATTGATGCAACATCAACCAAAAAAGAAGGCTAGCTTTATAAAAAAAGCAGGCTAA MKKAYIFIILGAALWGTIGWYVNQLYDYGFSPIEVVILRAWTAAIMLVVYLLLFAKEQLKLRTVKDIQYFIGTGILSISFFNFCLFTTMELTTIPVATALLYTGPAFVVILSTFFLKETLNKEKIAALLFTFLGVSLVIEFFPSNMNAVSFQAVLFGLGAGFGYALYSIFSKFALKKYSTLSITTYTFVTSAIALTPFFPFAEKGMLLLHPTVILYAFGLGFLPTAFAYIIYTWGLKDIEASKASILTTVEPVVAMIIGIFIFKETFTFQQIIGMVIILGTILLMQHQPKKKASFIKKAG NA NA NA NA NA AK015_03052 156 hypothetical protein ATGAGACCTAAAACGTTAAATTTTGAGCAATTAGTAAAGAAAAATAAGCAAGAATTGCTTGAAGATGAGCATAGTATAACACGGATTGAAAAGAAGTTAGAAAGCAAACAGATCGAACTAGTAGAAAAAAAGCGAGATAAGAAAGTAAGTTTATAA MRPKTLNFEQLVKKNKQELLEDEHSITRIEKKLESKQIELVEKKRDKKVSL NA NA NA NA NA AK015_03053 1164 dapX COG0436 putative N-acetyl-LL-diaminopimelate aminotransferase ATGCAACACTTATTGAATAAACATGTAAAAGAAATAGAAATATCAGGCATTCGTAAATTCTTTAATATGGTTTCAACGGAAGACGATATTATATCTTTAACTATAGGTCAACCAGATTTTCAAACTCCTGAACATATTAAACAAGCAGCTATTCAAGCGTTAATGTCTAACCATACATCTTATACACATAACGCTGGTATACTCCCATTACGTAAAGCTATTTCTCATTTTTACGAATCAAACTATGAACTGTCCTATTCGCCTGAAAATGAAGTAATCGTCACCGTAGGAGCTTCACAAGCTATCGATATCACTTTTCGTACCATTTTAAATCCTGGTGATGAAGTATTGCTACCAGCGCCTATATATCCTGGCTATGAACCATTAATCCGTTTGGCTGGTGCTATTCCCATCTATATGGATACAACGAAAACAAATTTAAAATTGACAAAAGACATTTTAAAGAAACATATTACGTCCAAAACCAAATGTGTTATTCTCCCGTACCCGTCCAATCCAACTGGCGTGTCTTATACCAAAGAGGAATTAGCAGCATTTGCAAACGTATTAAAAGACCAACAGTTGTTAGTGTTGGCTGACGAAATCTATAGTCAGCTTTCTTATGACTATCCACATACTTCCATTGCGAGTTTTTCCGGTATGAAAGAGAAAACGATTGTCATTAATGGGGTATCCAAATCGCATTCCATGACAGGGTTTCGAATTGGGTACACACTTGCCCCAGACTGGATTTCGAAGGAGTTGATAAAAGTGCATCAATACAATGTGTCTTGCGCAACTTCTATCAGCCAATATGGAGCATTAGAAGCATTAACTGAAGGGTTAGAGGATACAAAAAAAATGAAAGCAGCTTACCATGAACGAAGAGACTACGTATACGATAGATTACAAAAAATGGGGTTACATTGCCCAAATCCAAATGGCGCATTTTACATGTTTCCTTATTTTCCATTCACAAATACGAGCTCATTCACCTTTGGACTAGATTTGGTTAAAAAAGGACGAGTTGCTTTAGTTCCTGGTAACAGCTTCTCGAAATTAGGGGAAGGATATATGCGACTTTCTTACGCCTACGATAAGCATACACTAAATGTAGGACTAGATCGTTTAGAAGCGTATTTACAACAACACCCATTAGATTAA MQHLLNKHVKEIEISGIRKFFNMVSTEDDIISLTIGQPDFQTPEHIKQAAIQALMSNHTSYTHNAGILPLRKAISHFYESNYELSYSPENEVIVTVGASQAIDITFRTILNPGDEVLLPAPIYPGYEPLIRLAGAIPIYMDTTKTNLKLTKDILKKHITSKTKCVILPYPSNPTGVSYTKEELAAFANVLKDQQLLVLADEIYSQLSYDYPHTSIASFSGMKEKTIVINGVSKSHSMTGFRIGYTLAPDWISKELIKVHQYNVSCATSISQYGALEALTEGLEDTKKMKAAYHERRDYVYDRLQKMGLHCPNPNGAFYMFPYFPFTNTSSFTFGLDLVKKGRVALVPGNSFSKLGEGYMRLSYAYDKHTLNVGLDRLEAYLQQHPLD PGPT0007150_528 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 AK015_03054 180 hypothetical protein ATGAACACGACAGATGAATTATTAAAACGTATAGAATATTTACGGTACCGAATGACAGAAGTTGCTTTAGAGAAAGGCTTTACTAATTTAGAAGCCATTGAATTAAGTCAAGAATTAGACAAGTTACTAAACAAATATGATATGGAAAGACAATTTCAATCAAAGCATACGGAATATTAA MNTTDELLKRIEYLRYRMTEVALEKGFTNLEAIELSQELDKLLNKYDMERQFQSKHTEY PGPT0024640_89 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_0_SPORULATION,PGPT0024640-spo0E-K06376 NA NA AK015_03055 525 sipT COG0681 Signal peptidase I T GTGACAAAATCAAACAAGAAAAACGAATGGATAGAATGGGCAAAAGCAATTATTATTGCGATTTTAATTGCTTTCTTTATAAAAACATTTATTTTCGCAACATCTATTGTTGAAGGAGAAAGCATGGACCCCACTCTCCAAAACGGTGAAAGAGTAATTTTTAATAAGCTTATATATATTCTTGATGAGCCAGAACGCGGAGACATTGTTATTATTGAAAAACCTTATAAAAATTATGTGAAACGTGTTATTGGGCTGCCTGGGGAAACAATTGAAATAAACGATGGTAGTCTCTATATAAACGGGGAAAGATATGACCAAACTTTTCTAAGTGAAGAGGTGCAACGCCAATCTGGTAATTATGGGCCAGAAAAAATTCCTGAAGGCAGTTATTTCGTAATGGGCGATAATCGTGCCATCAGCAAGGATAGTCGTAATGGATTAGGTTACATTGAAGAAGATGAAATTATTGGACGGTCAGAGTTTGTAATTTTTCCATTTGATCAATGGACACTAACAAGATAG MTKSNKKNEWIEWAKAIIIAILIAFFIKTFIFATSIVEGESMDPTLQNGERVIFNKLIYILDEPERGDIVIIEKPYKNYVKRVIGLPGETIEINDGSLYINGERYDQTFLSEEVQRQSGNYGPEKIPEGSYFVMGDNRAISKDSRNGLGYIEEDEIIGRSEFVIFPFDQWTLTR NA NA NA NA NA AK015_03056 90 hypothetical protein ATGGAAAATATGGAAATTACATTTGCGGTTATTTGTTTCGCCATTTTAATACTGAATCTTGGTTATTGTGTATTTGACAGTGAAAAGTAA MENMEITFAVICFAILILNLGYCVFDSEK NA NA NA NA NA AK015_03057 1158 hypothetical protein ATGCTTCATTGTCCTTATTGTAGCACTCTAACAAAAGAGAATGAGACGTATTGTATGAAATGTGGAAGAATGCTTCCTGAAGATAGATATCATCGACTTAGTAGTAAACCAAACTTTTTTAAACGGTGGAAATCACCAATACTATCTACAGTTATTTTATTATTTTTTGTTATTTCTTTATATGTCACTTTGGAAATGCGTACTGCGAAAGCTAAAGATTATTACACAAAAGGTGAAGAAAAGGTACTGGATCAGGATTTTAAAACAGCACAGTCCTTATTTCAAGACGCCCTTGATATGAAGGATAATTTCCAACAAGCCGAAATTTCCTTAGCCTTTATGAACCAAGCTTTGTCGATGGAACAAACACTACAAAAAACGGACCAATTGCTTAAAGAAAAAAAATATACACAAGCCTTAGAAATTTTAAATGAATCAGAGAAAGGTTTGCAAGATTATAATGGTGAAGCTGTAAACAAGTTGGTTGAACGTGTTACAAAACAAAGGAACAAGATTAATATAGAGAAATTAAGACAGGCACTAAAACAAGAACCAGAAATAGATCAATTAAAAGTATTGCTTTGGGACGCTGTATCCATTGAAACTGAAGAAGCTGAACAATTAACAGCTACTATACGTGAGCAAATTGTTAATTTTGTGTTTGCTAAAGCAAGTGAGCAATTAAAGAACAACCAATTTAGTGATGCCAACCTTATCGTCAAAGACGGATTAAAATATGCACCAGATTCAGAAAAGTTGTTAAGCTTACAAACAACGGTGGATAAAGAAAAAGTAGCATTTGAAACTGCACAGCAAAGTAGAATAGAACAAGCAATGAATACAGCAAATAAAGAACAGCAAATGAATGAATCTGATGCTATTAAACTGAAACAAATTGAAACAACCAAAGATGATCAAGGAAACCTTGTAGTAAAAGGACAAGTACAAAGCGTTGCAACTATTCCTATTAACTCCATTAGGGTGCAATATAGCATTACTACGGATAAGGGTGAAGCAATATTGACAAATGAAGTATACGTATATCCTGAAGAATTATACCCTGAAGAAACAGGCCACTTTGAATTTACCCATTATGATGTAAATATTAATCAGGAGTTAACCGCTGAAGTGGAGACGATAGCTTGGTATACGAAATAA MLHCPYCSTLTKENETYCMKCGRMLPEDRYHRLSSKPNFFKRWKSPILSTVILLFFVISLYVTLEMRTAKAKDYYTKGEEKVLDQDFKTAQSLFQDALDMKDNFQQAEISLAFMNQALSMEQTLQKTDQLLKEKKYTQALEILNESEKGLQDYNGEAVNKLVERVTKQRNKINIEKLRQALKQEPEIDQLKVLLWDAVSIETEEAEQLTATIREQIVNFVFAKASEQLKNNQFSDANLIVKDGLKYAPDSEKLLSLQTTVDKEKVAFETAQQSRIEQAMNTANKEQQMNESDAIKLKQIETTKDDQGNLVVKGQVQSVATIPINSIRVQYSITTDKGEAILTNEVYVYPEELYPEETGHFEFTHYDVNINQELTAEVETIAWYTK NA NA NA NA NA AK015_03058 1134 hypothetical protein ATGATAAAAAATAAATATATTCCGGTTATTTTATCAAGTATTATTCTTCTCATCGGGTTTATTCTACTTATTACTATGTATCAACAATGGAAACAGGAGCGTATACAGATTAGCAACCCTGTTCTCAACCAAATAACTACAAGTAATGAGGAGCTTAATTTAAAGTCCATCATTCATGAAGCAGAAAAAAATGTGATTCAAATTGAAAGTCAAACAGAAGACAGTAGCTTGACGGGTTCGGGCTTTCTTTATAATAAACAAGGCGATATTATAACGAATGCACATGTCATTAAAGATGCAGATGTAATTTATGTAAGAACGGCAGATGCGCAAATTTATCCAGCCGCTGTTGTCGGGGTAGGAAAGGAGACGGATATTGCTGTCATTCGTGTCCCTCAGCTTGCTGGAGCCTTTATGAATGTAGAGAAAAATAAATCCCCGGAAACTGGAGATGAAGTCATTGCCTTAGGTAGTCCACATGGCTTTCAAAATACAGTTACTCTAGGTATTATATCCGGACAAGAACGGGATTTGTCCGTGGACGGCTTTCATTATAAAAACGCCTACCAAATCTCTGCTCAAATTGCAGAAGGAAATAGCGGTGGCCCCTTAATTGACCGTAAGACTGGAAATGTTGTTGGAATTAATTCTGTAGGGACAAAAGATGGATCTATTGGTTTTAGCATTCCTATAACAGATGTCATTAAACAAATTGAGGCATGGTCAAATGAAGCAAAGACGGAAGAATTGAACTTTGCCCGCACTTCTGACCTTATAAGTAAAAAAGATCCTAAGAAATTAAAAGAGGACGCAGAGTATTTAATTACCTACTTCCTTGATAGCATTGAACTTCGTGATTACGTAAATGCATATGCATTATTAGCAAATGATATGCTTTCTAAAACTTCATATAAAGATTTTAGAAATGATTATGTCGATTTTATTAACGTAGCTTTTGATGAACCCAAAAGCAACATCACTGAGGATAATCAAGTACAATCTACATTGAGTATAACCATTGAGAAGCGGGTAGAAGATAAAGGTAAATCTGAAAAAGAGTTGTACGAATATACATTTACTACAAAATATGAGAATGATCAACCAAAAATTTCCAGTATTAAAGTTAACAAATAA MIKNKYIPVILSSIILLIGFILLITMYQQWKQERIQISNPVLNQITTSNEELNLKSIIHEAEKNVIQIESQTEDSSLTGSGFLYNKQGDIITNAHVIKDADVIYVRTADAQIYPAAVVGVGKETDIAVIRVPQLAGAFMNVEKNKSPETGDEVIALGSPHGFQNTVTLGIISGQERDLSVDGFHYKNAYQISAQIAEGNSGGPLIDRKTGNVVGINSVGTKDGSIGFSIPITDVIKQIEAWSNEAKTEELNFARTSDLISKKDPKKLKEDAEYLITYFLDSIELRDYVNAYALLANDMLSKTSYKDFRNDYVDFINVAFDEPKSNITEDNQVQSTLSITIEKRVEDKGKSEKELYEYTFTTKYENDQPKISSIKVNK PGPT0015105_5944 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 AK015_03059 147 hypothetical protein ATGGGATTCGGATATGGCGGAGGCTGTGGAAACCCAGGCTACGGTGGTTATGGCTACGGTTACGGTTGCGGAACTGGTAGCAACTTTGCGTTAATTGTGGTGCTTTTTATTTTATTAATCATTGTAGGTGCTGCATTTTACTGTTAA MGFGYGGGCGNPGYGGYGYGYGCGTGSNFALIVVLFILLIIVGAAFYC NA NA NA NA NA AK015_03060 1947 COG2199 putative signaling protein ATGCCAGAACAAGTGGAAGTTTTCCCAATGACACAACAAATGCTTGATCAATTAAGTGATGCGGTTTTGATTATCGATCAATATGGGGGCATTGTTGCTGGCAATGATACAGCAGATGAAATTTTAGGTGTTTCATCTGCTGTAGGTGAGCATATAGATCAATATTTAAAATGCATATCTTTAGAAGAATCCAATCAGCTTACATATATAACACATGTTCATAAACAAATGATTGAAGTTACCATATTACATGCAAGTGAAGGTGATCCTTACTATTTTGTGAAGCTAGTTCTTGTTTCTAAACAAATGCAAGAAATAAGGGAAAAACTGGACACGTTCGCCACGGAGCATTTTAAAGGTACGATACTTTATGTTAAAAAAAATGGGGATATAATAGATGCTGACGCTTACAGCACGCATATGTTTCTTTACTCGAAGCAAGAACTCACGTCGTTATCGATACATAACCTTTTTCCACAAGTTTTTGAGAAGAGGCAATTAACTAAGAAGCAAGTGTTTCATGAACTGCAAGGAGTAACGAAAGAAGGCGGACTGCTTTTTGTTGAATTATTACAATATGATTTAAATGACACCATAGGCGTTTGTTTCTTAAAAGATGTAACAGAGCAAGTAACAAATAAAAATCGAATTGAGTACCTTGCTTATTATGATGAATTGACAGACTTGCCAAATCGTTATTATTTTGAATATGTACTAACAGAAGCAATTGAAAACAATGAGGAACAGCAATTTATTGTGGTTTATATGATCGATTTGGATTACTTTAAAGAAGTTAATGACATACTTGGTTATGCGGTAGGTGATGAATTAATCCGCCTTTGCGCTCTCCAATTGAAAAAATTTTTACATGTAGATACATTCATTGCAAGAATGAGTGGAGATAAATTTGTCATTATGCAAATAGGGATGAGGAATAAAAGGACAGTAATTGAGTTTGCTAAGAAACTAATTCAAGCTTTTAAGAAACCTATCACCATTAATGGATATGATATCTACACAACCGTAACAATCGGAATCAGCCTATTTCCTCATCATGGTACTACTGCTGAAAATTTAATAAAACACGCGAATTCTGCTATGTATGAAAGTAAAAATAATCAACGGAACAGCTACAAAATATTTGAATCAGCTATTTCTGAGAAATTTCAATCGACCGTAACACTAGAAAGTGAACTTCGGCACGCATTTAAAGAAGATCAACTAGAGCTTCATTATCAGCCACAGGTCGATTTCAAAACAAATGAAATTATAGGAATGGAAGCTCTATTGCGCTGGAACCACCCAGAAAAAGGATATATTGCTCCTAGTGAATATATAGGTATCGCTGAGAAAACCGGTTTCATTATCGAAATTGGTGAATGGGTATTATATCAGGCTTGTAAACAAAATAAAAAATGGCAAGATCAAGGGTATAAACCAATTACAATTAGTGTTAATTTATCCGCTATACAATTTCACCAAAAAAAATTTTTACAAAAAGTAGAGCATATTTTAGATCAGACTGGATTATCACCAACTTATTTGGAATTAGAAATAACAGAGACGATGGCCATGACGAATGAAAAAACAGTTTTACATACTTTACGGGAGTTGCAAAATATAGGAATACCAGTATCGATTGACGATTTTGGGACTGGCTATTCTTCTTTAAAGTTGCTTAGTTTATTTCCAATTACGAAATTAAAAATAGATAAAATATTTATGGATCAAAGTCATGAAGAGAACCGCATGATTGTAAAATCAATTATTCAACTATGCCATTTACTGAATTTGAAAGTTGTTGCAGAGGGAGTAGAAACAGAAGAACAATTTGCCTTTTTAAAGGCGGAACAGTGCGACCAATTGCAAGGTTACTATTTCAGTAAAGCTTTACCATCCGAAGAAGTTGAACAGCTGTTACTTAAAAAGAACAATAAAGCAAATTGA MPEQVEVFPMTQQMLDQLSDAVLIIDQYGGIVAGNDTADEILGVSSAVGEHIDQYLKCISLEESNQLTYITHVHKQMIEVTILHASEGDPYYFVKLVLVSKQMQEIREKLDTFATEHFKGTILYVKKNGDIIDADAYSTHMFLYSKQELTSLSIHNLFPQVFEKRQLTKKQVFHELQGVTKEGGLLFVELLQYDLNDTIGVCFLKDVTEQVTNKNRIEYLAYYDELTDLPNRYYFEYVLTEAIENNEEQQFIVVYMIDLDYFKEVNDILGYAVGDELIRLCALQLKKFLHVDTFIARMSGDKFVIMQIGMRNKRTVIEFAKKLIQAFKKPITINGYDIYTTVTIGISLFPHHGTTAENLIKHANSAMYESKNNQRNSYKIFESAISEKFQSTVTLESELRHAFKEDQLELHYQPQVDFKTNEIIGMEALLRWNHPEKGYIAPSEYIGIAEKTGFIIEIGEWVLYQACKQNKKWQDQGYKPITISVNLSAIQFHQKKFLQKVEHILDQTGLSPTYLELEITETMAMTNEKTVLHTLRELQNIGIPVSIDDFGTGYSSLKLLSLFPITKLKIDKIFMDQSHEENRMIVKSIIQLCHLLNLKVVAEGVETEEQFAFLKAEQCDQLQGYYFSKALPSEEVEQLLLKKNNKAN NA NA NA NA NA AK015_03061 1365 ktrB_1 COG0168 Ktr system potassium uptake protein B ATGCATTACCAAAAACCAATTGTTCGCTGGGCAAGGAAGTTATCACCGGTCCAGATTTTGTTATTGTTCTATTTTTTTGCTGTACTATTTTCAACTGTCATTTTATCTTTACCGATTGCGCATCAGGATGGGGTGGAAATACCTTTTATTGATGTGTTATTTACAGCTGTAAGTGCTTTAAGTGTAACTGGTCTAAGTTCCATAACAGTAGCAGATACATTAAGTACTACAGGAATTATTCTACTTGCTTGCATTCTTCAACTGGGGGCTGTAGGAGTAATGGCTATCAGTACATTTATATGGCTGTTGCTAGGAAAAAAGATTGGGCTAAAAGAAAGACGCTTAATCATGACGGATCAAAATCAATCCACGTTCGGAGGAATGGTGCGGTTAATTAAGCAAATCGTGTATGTATTACTAACAATAGAGTTAGTCGGCTTTCTTGTTTTAGGGACGTATTTCCTACAATATTTCGACTCAGCTAAAGAAGCTTACTTACATGGTATGTTTGGAACAATTAGTGCTATATCTAATGGCGGGTTTGATATTACTGGCTCCTCTTTAATCCCTTTTAAAGATGATTATTTTGTGCAGTTTATAAATATGTTGTTAATTATCTTTGGAGCTATTGGCTTCCCAGTACTAATTGAAGTAAAGGAATATTTATTTGCTGACTCGGATAAGCGTAAATTTATCCGTTTCAGCTTGTTTACAAAAGTTACGACCAGTACCTTTTTAGTTTTAATCGTTATTGGGGCAATGGGTATGTTTGTTCTTGATTTTCTCCACTTTTTTGCAGATAAATCTTGGCATGAAATTTTGTTTTACTCTTTGTTTCAATCTATTACAACTAGAAGTGGCGGCCTGTCAACCATGGATGTTAGTTTACTTTCAGAACCTAATCATTTGTTTATGTCGCTTTTAATGTTTATTGGAGCTTCCCCAAGCAGTGCGGGGGGAGGTATTCGAACAACGACCTTTATTTTAGTTGTTATTTTTATAGCAACATATGCTAGGGGAGGTAGAAGTATTCGGTTATTTAATCGAGAGGTGTATGATGAAGACTTATTAAAAGCCGTTACGGTTACTCTAATGGCTTTAATACTAGTTTTTACTTCTATTATCTTCATATCAGTAGTTGAGCCGTTTACGCTAACAGAAATTCTGTTTGAAGTGACATCGGCTTTTGGAACTGTGGGACTTTCATTAGGGATAACCAGTGAATTAACATCATTTAGTAAACTGATTTTAATGTTCTTAATGTTTATTGGACGAGTAGGTATTATTACATTTTTATTTATGTTTCGATCAAACAAACAGAGTGGCAATTATCATTATCCGAAAGAAAAATTAATTATCGGGTAA MHYQKPIVRWARKLSPVQILLLFYFFAVLFSTVILSLPIAHQDGVEIPFIDVLFTAVSALSVTGLSSITVADTLSTTGIILLACILQLGAVGVMAISTFIWLLLGKKIGLKERRLIMTDQNQSTFGGMVRLIKQIVYVLLTIELVGFLVLGTYFLQYFDSAKEAYLHGMFGTISAISNGGFDITGSSLIPFKDDYFVQFINMLLIIFGAIGFPVLIEVKEYLFADSDKRKFIRFSLFTKVTTSTFLVLIVIGAMGMFVLDFLHFFADKSWHEILFYSLFQSITTRSGGLSTMDVSLLSEPNHLFMSLLMFIGASPSSAGGGIRTTTFILVVIFIATYARGGRSIRLFNREVYDEDLLKAVTVTLMALILVFTSIIFISVVEPFTLTEILFEVTSAFGTVGLSLGITSELTSFSKLILMFLMFIGRVGIITFLFMFRSNKQSGNYHYPKEKLIIG PGPT0002735_3834 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498 NA NA AK015_03062 411 hypothetical protein ATGAAGACATTTAAACTAAAATTATTAAATATCATGGAAGAAAAAAATGGAGAGATAATTCCTAATCAGATACCGTTATTAGATGGTTTAATTATTGATCGTGAGGATGAAAACAATCAGTGGACAATTGAAGTGTATACGGATAATTCATTTCAACCTTATTTTGAATGTTTGCAAAAAACAAAGTCGGAAATCTTACTTCAAGTAAAGATTTCTAAAGAAAGCAATGACATGGCTACATTCATTACTTCGATTATAGGGATAAATGAAATAGGGTCTAATATTAATGTTTTATTTGTAGGAAATATTGTCGATAAAAGAAAAGAGAATATCGAATTCTTATTAACTACATTAATTGAGGAAGGATACCAAGGTAAAGAATTGCTAGAGAAATTTAAGGAATTAACATAA MKTFKLKLLNIMEEKNGEIIPNQIPLLDGLIIDREDENNQWTIEVYTDNSFQPYFECLQKTKSEILLQVKISKESNDMATFITSIIGINEIGSNINVLFVGNIVDKRKENIEFLLTTLIEEGYQGKELLEKFKELT NA NA NA NA NA AK015_03063 147 hypothetical protein ATGCTTAAAATGATATCTCTTTTGTATATCGTTAGTGTACCAAAAACAAAAGCTTATGGGTATGACTTTCTTTTTAAGTTAACTTCGTTGACAATTAAAATTATAACCGCTTATGATAAAGAGGATTATAGGGAAAAGGAGAATTGA MLKMISLLYIVSVPKTKAYGYDFLFKLTSLTIKIITAYDKEDYREKEN NA NA NA NA NA AK015_03064 756 nfrA1 COG0778 FMN reductase (NADPH) TTGTCACATTCAGCAATCCAAACAATTATGAATCATCGATCTATACGTAAATTCAAAGATAAAAAGCTTACAGAAGAACAAATTCAAACCATTGTTGAAGCTGCTCAAATGGCTTCGACTTCTAGTTATGTAATGGCATATACCATTATTGGTGTGACTGATGAACGTATAAAAGAGAAGCTTGCAGCTATCTCTGGTCAAACTTATGTGCAAAACAATGGACATTTATTTGTGTTTTGTGGTGATTTACATCGTACCGAGCAATTAGGGTCACAAGAAGATAGAGAGCAAATGCAACAAAGTTTAGCGTCCCCTGAACAATTTATTGTTATGACGGTCGATGCGGCGTTAGCATCTCAAAATGCTGCGATTGCTGCAGAAGATTTAGGGCTAGGGATTTGTTATTTAGGAAGCTTGCGAAATGATGTCTATCAGGTAAGCGAATTATTACAGCTTCCAGAAAGAGTCGTTCCTTTGTTTGGGATGGCTGTGGGCTATCCTGATCATGAACCAGAACAAAAGCCTCGTCTACCAATTGATGTGATCTATCATGAAAATCATTACCAGCCTTTCGAACACCAGTTACCATTCATCAAAGACTTCGACAAAAAATTGCATTCCTATTATGAAAAACGGAAACAAAATAATCGAAATGATAATTGGTCAAAGCAAATGGTTCGAAAATTTTCTACCCCTACTAGAATGGATGTTGGTACGTTTTTACATGAGAAAAATATAAACAACCAAGCAGATTAA MSHSAIQTIMNHRSIRKFKDKKLTEEQIQTIVEAAQMASTSSYVMAYTIIGVTDERIKEKLAAISGQTYVQNNGHLFVFCGDLHRTEQLGSQEDREQMQQSLASPEQFIVMTVDAALASQNAAIAAEDLGLGICYLGSLRNDVYQVSELLQLPERVVPLFGMAVGYPDHEPEQKPRLPIDVIYHENHYQPFEHQLPFIKDFDKKLHSYYEKRKQNNRNDNWSKQMVRKFSTPTRMDVGTFLHEKNINNQAD PGPT0000290_178 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 AK015_03065 450 hypothetical protein ATGAAAAAAAAATCACTTTTATTAATTGTTGTTGGTGGAGTATTGTTTTTGATTATCTTCTATCTTGGCGTAGGAAACCGCGGTATTACCATTAAGGAGACGACTACGAGGTCCAAAGAGGTCGGTGATTTTATATTACATATTCATATCGCAAATGTAGACGAAGGAATTAAAGTATTTAGTTCCTTACAATATACAGGTGAAGGGACGGTAGAGGTCGAGCATCAGGACCCATTGGTATCTGTGGTATTGGGAGATGAGGATCACCAATATGAAAATGATATAACAATAAAGCAACTTAGCAATGGCAATATCTATCACCATCCGAATAGTAATAAAGTGTTTCGAATGGTAAAAGATTCTCCGTGCAAATTGTATTTTAAAGCAAAATTCAAAGTTAATAATGAAGAAATTATTATTGACCATAAGGAGATATTACAAGCATTATAG MKKKSLLLIVVGGVLFLIIFYLGVGNRGITIKETTTRSKEVGDFILHIHIANVDEGIKVFSSLQYTGEGTVEVEHQDPLVSVVLGDEDHQYENDITIKQLSNGNIYHHPNSNKVFRMVKDSPCKLYFKAKFKVNNEEIIIDHKEILQAL NA NA NA NA NA AK015_03066 207 hypothetical protein ATGACTGTCTCCAGTCAAGTGAAGCAAACTATTGCTGGTTTAAAAAGCGCGCAAGCAAGTTTTGAACAATTTGCCCTACAAACAGAAAACAAACAAGCAAAACAACTATACGAAAATGCAGCGCAACAAACCATGTCCATATTAAAAAGTGTTGAACCACGTATTCAACAACTAGAACAAGAAGAACCACAATACAAAGGTTTTTAA MTVSSQVKQTIAGLKSAQASFEQFALQTENKQAKQLYENAAQQTMSILKSVEPRIQQLEQEEPQYKGF NA NA NA NA NA AK015_03067 468 hypothetical protein ATGCATGTTTTTAAGTTTCTAACTATAGTTGTTTTATCTTTGCTGATTGTTGGTTGTAACACAGCAAATACACTAGAGACATCCAAGGAAAATGAAAAAGATGAGGTTAATATAACAAAAATATCTAGAAACCAACCTATTGACCAAACTCCATCCAATCAAGCAAAAGACTTATTACGACAAAACTCCGAAATAAATGCTATTCATGCAGTCAATACAGATAAGCAATTATTAGCAACCGTTGAAGTAAAACATATGCAACGCTTTAAGTTACAAAATATCAAGAAAAAACTAACTAAAAAATTACAAAAAAACTTTCCTGATTTAAAAGTAGAATTATCAGCAGACAAAAAAATAATGATGGAATTAGGAAAACTAGAAAAAAACTTGAATAAAAAACAGTACAGTAAAAAAGAAGTACAAAAAGAAGTACAACGAATTATTGATTTTTCTAAAGAACAAACGTAG MHVFKFLTIVVLSLLIVGCNTANTLETSKENEKDEVNITKISRNQPIDQTPSNQAKDLLRQNSEINAIHAVNTDKQLLATVEVKHMQRFKLQNIKKKLTKKLQKNFPDLKVELSADKKIMMELGKLEKNLNKKQYSKKEVQKEVQRIIDFSKEQT NA NA NA NA NA AK015_03068 480 hypothetical protein ATGGCGGATAAAAAAAAGAAAAATCTACCACCTAATGTTCAGGAGTATCAAACATTTCAACAGCAAAGAGAAGTGAAAAGGCCTGTATTAAAAAATTGCTTAAAAGCTTTTTTTGTCGGCGGTTTTATTTGTTTCATTGGACAGCTTATCTCTACTTTTTATATGTATTTCTTTCATTTCACGGAGCAAACCGCCGGAAACCCAACAGTAGCTACTTTAATTTTTATAACGATGCTCCTTACTGGATTTGGAGTATATGATCGAATTGGACAATTTGCCGGTGCAGGTTCAGCTGTTCCAGTTACTGGTTTCGGCAATGCAGTCATTTCTTCGGCTATTGAACATCGGACGGAAGGATTTATCCTCGGAGTTGGTACAAATATGTTAAAACTAGCAGGTCCTGTCATCGTTTACGGCGTATTTTCAGCATTTGTTGTTGCTTTGATAAAAACAATTTTAGTCCAATGGGGTGGGTTATAA MADKKKKNLPPNVQEYQTFQQQREVKRPVLKNCLKAFFVGGFICFIGQLISTFYMYFFHFTEQTAGNPTVATLIFITMLLTGFGVYDRIGQFAGAGSAVPVTGFGNAVISSAIEHRTEGFILGVGTNMLKLAGPVIVYGVFSAFVVALIKTILVQWGGL PGPT0024805_160 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024805-spoVAC-K06405 NA NA AK015_03069 1002 spoVAD Stage V sporulation protein AD ATGCTCCAAGGACATCAAACATGGGTATTCGCCAATCGACCAGTTATTATATCGACTGGGACAGTAGGCGGTCCATTTGAAGCTAATGGAAATATTCCTAAAGACTTTGACATATTGCATGATGATATGTGGCTGGGTCAAGCCTCATTTGAAAAAGCACAACAAACATTAATGGAAGAAGCCTGTCAAATTGCCCTAAAAAAAAGTTCCATTGAAAAAGAACAGGTACAATTTTTTATGAGTGGTGATTTAATTTATCAAATAACACCAACAAATTTTGCTGCCAAAACATTGGGCCTTCCTTTTTTTGGTTTATTTAATGCGTGTGCCACTTCTATGGAAAGTTTAGCCCTAGCTGCTATGATCATCAATAATAAAGGAGCTAATTATATTTTAAGTGGAACAGCAAGCCATAACGCCTCTGCGGAACGACAATTTCGTTACCCTACAGAATACGGCGGGCAAAAGCCTCCTACCGCACAATGGACAGTTACTGGCGCAGGTTGTTCCTTAGTTGCTCAACAAGGTACAGGCCCCGTTATTACATCAGCTACAATTGGCAAGGTTATTGATATGGGTATAACAGACCCGTTTAACATGGGCGCTGCGATGGCGCCAGCTGCCGTAGATACGATTGAAAAACATCTACAAGATAGAAACATTTCTCCTGACTATTATGATTTAATTGCTACAGGCGATTTAGGGCATATCGGTAGAGAAATATCGTATGATCTACTTGTCGATCGCGGACTATCAATGGATGAGGAAAGATATGTAGATTGTGGTTTAATCATATATCGCGAGGGACAGCCGGTGTTAGCTGGCGCAAGTGGTACCGCCTGTTCAGCCGTAGTCACATATGGACATTTGCTCAATCGGATGAAAGCCGGTGAATTGAAACGAATACTAATTGTAGCAACAGGTGCACTTCATTCTCCGATGAGCATACAACAAAATGATCCGATTCCGTGTATTGCCCATGCAGTATCTATCGAAATTTAA MLQGHQTWVFANRPVIISTGTVGGPFEANGNIPKDFDILHDDMWLGQASFEKAQQTLMEEACQIALKKSSIEKEQVQFFMSGDLIYQITPTNFAAKTLGLPFFGLFNACATSMESLALAAMIINNKGANYILSGTASHNASAERQFRYPTEYGGQKPPTAQWTVTGAGCSLVAQQGTGPVITSATIGKVIDMGITDPFNMGAAMAPAAVDTIEKHLQDRNISPDYYDLIATGDLGHIGREISYDLLVDRGLSMDEERYVDCGLIIYREGQPVLAGASGTACSAVVTYGHLLNRMKAGELKRILIVATGALHSPMSIQQNDPIPCIAHAVSIEI PGPT0024810_525 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024810-spoVAD-K06406 NA NA AK015_03070 351 hypothetical protein ATGATCTTTTTTTGGGCTTTCGTAATTGGTGGTTTTATCTGTGTTATTGGCCAATTACTGTTTGACATTTTTAAATTAAATCCTGGACAAACTTTATCCATTTTAGTTGTTACCGGTGCCATTCTAGATGGGTTCGGCCTCTATGAACCATTAATTGACTTTGCCGGAGCAGGTGCAACTGTACCAATTACTAGCTTTGGTAATTCACTCGTTCATGGTGCTATGGCAGAAGCAGAAACACACGGTTTAGTTGGTGTTGTGACGGGAATGTTTGAAGTAACAAGTGCAGGAATTTCAGCCGCAATTATTTTCGGGGTCATTGGCGCACTAATTTTTAAACCAAAAGGATAA MIFFWAFVIGGFICVIGQLLFDIFKLNPGQTLSILVVTGAILDGFGLYEPLIDFAGAGATVPITSFGNSLVHGAMAEAETHGLVGVVTGMFEVTSAGISAAIIFGVIGALIFKPKG PGPT0024815_478 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407 NA NA AK015_03071 201 hypothetical protein ATGACAATTGGTGCACAAGTAAAAGGCTGCTACTCAGCAATCAAAAGTGTGGAAGCCTCCTTACAACTGCTAACAGCTAAAACAAATGAACAAGAACAACAAATAAAATTGACGGAAGCAGAACGAATTATTACTGAAATTAAGAACGAATTGCGACATCAAGTCATCCAATTATCGAAAGAAGAACCACAATATAAATAA MTIGAQVKGCYSAIKSVEASLQLLTAKTNEQEQQIKLTEAERIITEIKNELRHQVIQLSKEEPQYK NA NA NA NA NA AK015_03072 855 hypothetical protein ATGCCAGAATGGATTATCATTATCATTCGGTCATTTTCACTGTTGATCATTCTTTTTTTCATGACAAAGTGGCTAGGAAAGAAGCAATTATCACAATTAAACGTTTTCGAATATATTACTGGAATTGTGCTAGGTGGAATCGTAGCAATACATACGATAGATCCAACAAGTAATATAATTTATGCTCTTTTATCCATGTCTATTTGGTTTATTGTCCCTTTTGCTGTTGAATATATTTCTCTTAAAAGTAAACGTTTTCGCGATCTTACAGAGGGGAAAAGTACCGTTTTTATTCAAGACGGAAAAGTTATGGAGGACAATCTAAAAAAAGAAGGATATTCAACGGATGATTTACTAGGAAAGTTAAGAGACAATGGTGTGTTCCTCGCATCTGATGTAGAATTTGCAGTGCTTGAGCCCTCTGGAACATTAAATGTATTGCCTAAAAGAGAAAATCGCCCACTAACAGCCAAGGATCTTGGGTTAAAATTAGCGCCTGAAAAAGAACCGCAAACCATTATTATGGATGGAGAAGTTTTATTGGAACCACTTGCTAATTTAGCTTTAAATATGAATTGGTTGGAAACAGAATTAGATAAACAAAATGTAAGCATTGAAAATGTGTTTCTCGCTCAAGCAGATAATAATGGACAATTGTACCTTGATTTATACGATGATAAAATCAGTGTTCCTCAACCAACTGAAAAGGCACTCCTTTTAGCAAATATGAAAAAATGTCAGGCAGATTTAGAACTATTTGCTTTAGCTACAGAAAACAAACAAAGCAAAGCTTTATATGAACGAAATAGCAAAAAATTAAAGCATGCCATTGAACTGATTCAACCATACTTATAA MPEWIIIIIRSFSLLIILFFMTKWLGKKQLSQLNVFEYITGIVLGGIVAIHTIDPTSNIIYALLSMSIWFIVPFAVEYISLKSKRFRDLTEGKSTVFIQDGKVMEDNLKKEGYSTDDLLGKLRDNGVFLASDVEFAVLEPSGTLNVLPKRENRPLTAKDLGLKLAPEKEPQTIIMDGEVLLEPLANLALNMNWLETELDKQNVSIENVFLAQADNNGQLYLDLYDDKISVPQPTEKALLLANMKKCQADLELFALATENKQSKALYERNSKKLKHAIELIQPYL NA NA NA NA NA AK015_03073 1233 dctA COG1301 C4-dicarboxylate transport protein ATGAAAGATAAAATTAAAGCTTACCGCTTTCCAATTATCTTACTTATTTCGATAATGATCGGTTCTATAATTGGGCTTTACTATGGCGAAGATGCTACAGTCATTAGACCGTTGGGCGATTTATTTATTAATTTACTATTTATGATTGTCATGCCTCTCGTTTTCTTTACTATTTCCTCTGCAATTGCAAGCATGGATAGCATGAAACGTCTTGGTAAAATTATGGGCTCGATGTTAACTGTATTTGTTGTTACAGGAATCATTGCTGCTGTGTTCATGCTAATTGCCACTGTTATTTTCCAACCAGGTTCTGGCGTAGATATTCCACTTGTACAACCTGATGAAGTGACAGAAGAAATGAATTTCTCAGAACAATTAGTTCAGACATTCACTGTTTCCGACTTTATCGATTTATTTTCACGTAATAATATGCTCGCACTTATTGTTTTTTCTGTATTAGTTGGTGTCGCAACAGGGCTAACTGGTGAAAGAGGGAAAGTCTTTACTTCTTTCTTAACAAGTGGCGCCGAAGTGTTTATGAAAATTATTCAGCTTATCATGTACTATGCACCAATTGGACTAGGTGCTTATTTCGCTTCGTTAGTTGGGGAGTTTGGCGCCGATTTAATCGGTGACTATGCGAAAGCAGTTATCGTCTACTATCCTGTATCTGTTTTATATTTTGCTATCGGGTTCACCTTATATGCATTTATTGCTGGTGGCAAAACAGGTGTTAGTCGCTTTTGGAAAAACATTCTTGCTCCTGCTGCAACATCTCTTGGTACTGGAAGTAGTGTTGCTTCATTACCTGCTAATTTACAGGCAGCAAAACGAATTGGCGTACCAAAAGATATTCGAGAAACCATTATGCCTCTTGGTGCAACCATACATATGGACGGATCGTGTTTGTCTGCAATGCTAAAAATTGCTTTTGTTTTCGGTGTGTTTAACTTGGACTTCACAGGAATTGACACCTTTTTAACCGCAATCGGCATCTGTTTATTATCTGGTATTGTAATGAGTGGTATTCCAGGTGGTGGATTTATGGGTGAAATGATGATTATTACGCTTTACTCATTACCAATGGAAGCTTTACCAATTATTTCAGCTATAGGTGTTGTAATTGATCCTCCTGCTACAATGGTAAACGTTACAGGAGATACCGTATCCAGCATGCTTGTAACCAGACATCTAGAAGGAAAAGATTGGATCGAAAAAACGGACGTTGCATAA MKDKIKAYRFPIILLISIMIGSIIGLYYGEDATVIRPLGDLFINLLFMIVMPLVFFTISSAIASMDSMKRLGKIMGSMLTVFVVTGIIAAVFMLIATVIFQPGSGVDIPLVQPDEVTEEMNFSEQLVQTFTVSDFIDLFSRNNMLALIVFSVLVGVATGLTGERGKVFTSFLTSGAEVFMKIIQLIMYYAPIGLGAYFASLVGEFGADLIGDYAKAVIVYYPVSVLYFAIGFTLYAFIAGGKTGVSRFWKNILAPAATSLGTGSSVASLPANLQAAKRIGVPKDIRETIMPLGATIHMDGSCLSAMLKIAFVFGVFNLDFTGIDTFLTAIGICLLSGIVMSGIPGGGFMGEMMIITLYSLPMEALPIISAIGVVIDPPATMVNVTGDTVSSMLVTRHLEGKDWIEKTDVA PGPT0013965_35 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0013965-TC_DAACS-K03309 NA NA AK015_03074 981 adhT Alcohol dehydrogenase ATGAAAGCCTTTGTTCATGAAAATGATACATTACAGGTAACGCAAATGAATGATCCGAAGCCAAAAGAAAATGAGGTAATTGTTCGCCTGAAAATGGCTGGTCTCAACCGACGTGACTTATATATTCCAAATCGTAGAAAAGGGCAGATAGAGCCATTAATTTTAGGATCAGACGGAGCCGGCGTAATTGAAGAGGTAGGACAAGCTGTTAAAAACGTGGCTATCGGTGATGAGGTAATTATTAATCCTGCTTTAGGCTGGTTTGAGAATGCGGATGCTCCTCCTCAAGGTTTTGAAATTTTAGGCATGCCAGATCACGGTACATTTGCAGAAAAAATAGCTATTCCTTCTTATCAAGTGGAGAAAAAGCCAGCTCATTTAACATGGGAAGAAGCGAGTGTTCTTGCATTATCTGGGTTAACAGCATATCGTGCATTGTTTACAAAAGGGCAAGTAAATACAGACGATACCATATTTATACCTGGTGCAGGAAGTGGAGTGGCAACCTATTTAATCCAATTTGCAAAAAATATTGGCGCAAGAATTATTGTGAGTTCGCGGAGTGAAGAAAAGCTGAGAAAAGCTCAATCGATTGGAGCGGATAGGGGCGTGCTCCATGATGAAGATTGGCAACATAAATTAGCTGATGAGAAGATCGATTTGGTCATTGATAGTGTTGGTAGAGCAACATTTCAGCGCTCGTTGGACGTTTTGAAAAAGGGTGGGAAGATGGTCGTGTTCGGTGCAACAACAGAGGATACAGTGGAGTTAGATTTACGCACCTTTTTCTATGGACAGTACCAGTTACTAGGTTCGACAATGGGATGTAAGCCAGAGTTAGAAGCAATGCTAGCGCATGTCGAACAGTATCAAATGCAACCTGTAGTGGATTCCACTTACAAATTAGATGATATGCAACAGGCTTTTCATTATTTAAAAGGTAATGGACAATTTGGAAAGATCGCTATTGATATATGTTAG MKAFVHENDTLQVTQMNDPKPKENEVIVRLKMAGLNRRDLYIPNRRKGQIEPLILGSDGAGVIEEVGQAVKNVAIGDEVIINPALGWFENADAPPQGFEILGMPDHGTFAEKIAIPSYQVEKKPAHLTWEEASVLALSGLTAYRALFTKGQVNTDDTIFIPGAGSGVATYLIQFAKNIGARIIVSSRSEEKLRKAQSIGADRGVLHDEDWQHKLADEKIDLVIDSVGRATFQRSLDVLKKGGKMVVFGATTEDTVELDLRTFFYGQYQLLGSTMGCKPELEAMLAHVEQYQMQPVVDSTYKLDDMQQAFHYLKGNGQFGKIAIDIC NA NA NA NA NA AK015_03075 924 arsA Arsenical pump-driving ATPase TTGGAGGAACTGCATAAAAAGATTGCTTTTATTGGTGGGAAAGGAGGGGTGGGAAAATCAACTTCCGCTGCGGCTTTAGCATGGAAGCGCGCAAAAGAAGGTCGAAAAACTTTGCTTGTTTCTACTGATCCCGCCCATAATTTGGGAGATATTTTTGAAGAGAATATTGGAGGGAGGATTAAAAAAGTTAGTTCACATTTAGATGTACTTGAAATTGATCCTGAACAAGAAACGACGGCTTATATTAATAGTGTAAAGGAAAATATGAAAGGGATTGTTCAACCATCTATGATAAATGAAGTAAATCGCCAATTGGATACGGCTAAAGCATCACCTGGGGCTGATGAAGCTGCATTATTCAATAAGCTTATCTCTATCATTATCGAGGAACATCAACATTATGATCAATGTATTATTGATACAGCTCCAACGGGACACACGATTCGATTGTTAACTTTGCCGGAATTAATGGGTATTTGGATAGACGGATTATTACAACGTAGAAAGAAAACGAATGAAAACTATACGCAATTACTAAATGATGGGGAGCCAATAGAAGATCCTATTTATCATGTACTTGAGGGTAGGAAAGGAAGATTTGCAAAAGCAAGAGAATTGCTACTAGATGATGAACGAACAGGCTTTATTTTTGTGGTTAATCCAGAAAGTTTATCTATAACTGAAACGGATAAGGCTATTCGATTGCTGCATCAACATGAAATCTATGTAAAAACCATCATTGTTAATAAACTATTACCAGAACAAGTAGACGGAAATTTTTTTGCAAAACGAAAACAAATGGAGCAAACTTACGTACAAAAAATAGAAGCCATATTTAAGGAACAAAAAAAATGGTATGTTCCATTGTTTCATCATGATATTATGGATAAGAGGCAGTTAGAAACGTTTAGTGCTTTTTTCTAA MEELHKKIAFIGGKGGVGKSTSAAALAWKRAKEGRKTLLVSTDPAHNLGDIFEENIGGRIKKVSSHLDVLEIDPEQETTAYINSVKENMKGIVQPSMINEVNRQLDTAKASPGADEAALFNKLISIIIEEHQHYDQCIIDTAPTGHTIRLLTLPELMGIWIDGLLQRRKKTNENYTQLLNDGEPIEDPIYHVLEGRKGRFAKARELLLDDERTGFIFVVNPESLSITETDKAIRLLHQHEIYVKTIIVNKLLPEQVDGNFFAKRKQMEQTYVQKIEAIFKEQKKWYVPLFHHDIMDKRQLETFSAFF PGPT0004700_2291 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004700-arsA-K01551 NA NA AK015_03076 258 hypothetical protein ATGATCGAGCAAATAAAGAAGCTTATTCAATATTATGAAGAAGTAATCAGTCTACCTCATCGTCAGGAAATTGCTCGTGAGTTGAGGCATGAGGACGATATTTTCTTGCTCTTACTTTACTCAGAGATGATTGGAATTCCAAATCCAGTATATTATTATACACTAGAGTTATACCCTTATATGCTAGAAAAATTTCACGATTGGCATTTACGAATGGGAATGGAAAAATCGCCGTTATCTGGCATTCGTTGCTGTTAA MIEQIKKLIQYYEEVISLPHRQEIARELRHEDDIFLLLLYSEMIGIPNPVYYYTLELYPYMLEKFHDWHLRMGMEKSPLSGIRCC NA NA NA NA NA AK015_03077 1731 cstA_3 COG1966 Peptide transporter CstA ATGTCTGGTATATTGGTAGCTGTTATTGGTATCGTTGTTTTTGCATTAGGATATCGGTATTATTCGAAATTTGTAGCTGAGAAAATTTTTCGATTAGACCCAAACTATGTTACACCCGCGCATCAATATAAAGATGGGGTAGACTTTGTTCCGACAAATAAGTTCGTATTATGGGGGCATCACTTTACTTCAGTTGCTGGAGCAGCGCCTATTTTGGGACCTGCTATAGCTGTATACTGGGGATGGTTACCAGCATTTTTATGGGTTATTCTAGGAACTGTATTTGCCGCAGGGGTTCATGATTTTGGGACACTCGTATTATCTGTACGAAATAAAGGTCAATCTGTTGGTACATTAGCTCATCGCCTGATCGGTCAACGAGCTAAAATATTGTTTTTATTTATTATTTTAATTCTTGTACTTATGGTGAATGCGGTGTTTGCTTGGGTTATTTCTAACTTATTTATCTCTTATCCAGCAAGTGTTCTACCTGTATTTATCCAAATTCCTTTAGCTATTTGGATTGGGTATGCTGTATACAAACGAAATATCAAAATGCTTCTACCATCTGTTATTGCATTAGCGGTCATGTATCTTGTAGCTGTATTATCAAGCAAGATAGAATGGATGCAAATTGACCTTGTGCAATGGATGGGGGGAGAAGGCAACACGGGTATATTTGGATTAGGCGCAGTCTCCTCAGCGTTCTTTATTTGGATTATTATATTGCTGGTGTATGTATATATTGCTTCCACACTTCCTGTTTGGCAATTGTTGCAACCAAGAGACTTTATTAACTCCCATCAGCTTGTTGTTGGGTTAGGAATTTTATATGTAGGACTAATTTTTACAAATCCAGAAATGACTGCACCTGTGACAAATGCTAACGCAGACACACCGTGGATTCCACTCCTATTTATTACGATTGCTTGTGGAGCTATATCAGGGTTTCATGGTCTTGTTTCCTCGGGGACATCTTCCAAACAATTAGATAAAGAAACAGATGCCCGTTTTGTTGGTTATGCTGGAGCTGTTGGCGAAGGGATTTTAGCACTAGTATCCATCGTTGCTGTAGCGACATTTTTTGCAAGTACTGCGGATTTTTCAGCTGTTTATCATAGTTTTGCATCTGCAAATGCAAGTGGTTTAGGTGTTTTCGTAGAAGGAGCAGCTGTATTAGCGGGAGGATTAGGTATACCGATTGATATTGCGGTAACGATCGTTTCCATCATTGTTGTTAGTTTTGCAGCAACAACATTAGATACATCCGTTCGGCTTATGCGATATATTATTGGGGAGTTAGGTAAGGAATATAAACTCCCAGTATTAACAAAAACGCATGTTGCTACGTCTATTGCTGTTTTATCGAGTGCTGCACTTGTTTTACTCCCACAAGGTCCTAAAGGTTTTGGCTCAGGTGGCTATCAATTATGGCCATTGTTTGGAACAGCAAATCAATTACTAGCAGCAATTAGTTTAATCCTTATTGCCGTATGGTTAAAGCGGTTAGGGAGAAATTATGCCGTGGTAATTATTCCTATGATATTTGTTATGGTGATGACATTATATGCTATGTTTCAACAAGTATTATTTGAGTGGTCCTGGACTGGAACAGAACCGAACACTTTATTATTTGTATTAGGATCTATCATTTTTGTGTTTGCGATTTGGATTATTATAACTGCTTTTTCTGTATTACGAGGGGATACAGATCAAAATCTAGATAACTAG MSGILVAVIGIVVFALGYRYYSKFVAEKIFRLDPNYVTPAHQYKDGVDFVPTNKFVLWGHHFTSVAGAAPILGPAIAVYWGWLPAFLWVILGTVFAAGVHDFGTLVLSVRNKGQSVGTLAHRLIGQRAKILFLFIILILVLMVNAVFAWVISNLFISYPASVLPVFIQIPLAIWIGYAVYKRNIKMLLPSVIALAVMYLVAVLSSKIEWMQIDLVQWMGGEGNTGIFGLGAVSSAFFIWIIILLVYVYIASTLPVWQLLQPRDFINSHQLVVGLGILYVGLIFTNPEMTAPVTNANADTPWIPLLFITIACGAISGFHGLVSSGTSSKQLDKETDARFVGYAGAVGEGILALVSIVAVATFFASTADFSAVYHSFASANASGLGVFVEGAAVLAGGLGIPIDIAVTIVSIIVVSFAATTLDTSVRLMRYIIGELGKEYKLPVLTKTHVATSIAVLSSAALVLLPQGPKGFGSGGYQLWPLFGTANQLLAAISLILIAVWLKRLGRNYAVVIIPMIFVMVMTLYAMFQQVLFEWSWTGTEPNTLLFVLGSIIFVFAIWIIITAFSVLRGDTDQNLDN PGPT0015060_1711 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200 NA NA AK015_03078 1425 hypothetical protein ATGGTGGAGCTTTCTATATCTCACTATGTGTATGGTCTGTTTACGTTGCTCATTATCATTACAATGATGATGCGAAAAGGAGTCGTTCTACCATCTTTATTGGGAACGTTTTTAATCGCATGGTTATACAAAGGAAGCATTGTTGAAGGGTTTAAAGCTATTTTTCAAGCAAATTTAGTTGCTGCTAGAGAACTTTTTAGCATTTTTTTAATTATTACGTTTATGCTTGCATTATTAAATTCATTACGGGATTTGGGAGCAGATAAACACATGATAAAACCAATACAGAAAATAATGATAAATGGACATATTTCTTTCTTTGTTTTAGTCATTGCAACATACATTATCTCTCTATTCTTTTGGCCAACACCAGCAGTTCCACTTATTTGTGCTTTACTAGTACCAGCAGCTATTCGCGTTGGCTTACCAGCAATTACTGCAGCGGTGGCTATTGCTATAGCTGGGCAAGGAATGGCTTTGTCCTCAGATTATATTGTGCAAGTTGCTCCAAGCTTATCTGCTACTTCAGCTGGGGTACATACTACAGCAGTCGCAGAACAAGCTTTCATACTTTCCTTAATTACTGGAGCTGTTGCAGTCTGCTTAGCATATCTATTTGCTCGTAATAAGATACGTAACGCCAATAATCCCATAAACTTAGAAGATTTAGCGATTATGCAGACTTCTCAAGATGCTCCTATTGAATCAAATAAGGAAATACAAACGAAATGGAGCAAGGTGTTTGCTGTTTTCGTACCCTTAGCATTAGCTGCAGTGGTTATTTACATGATATATGAAAAGCTTCATTCAGGAAGAATGAGCGGTTTTGAAGGTGGTGATGGAGCAGCTTTTATTGGTGGTGTATCTGTTATTTTGCTTTTGTTATCAACGTTAGCGCTTCGAAAAGAGAAAGCACTGGACTATATTACTATCCATATTACAGATGGATTTGTATTTGCCTTCAAAGCTATGGGCCCAGTGATACCAATAGCTGGATTCTTTTTTTTAGGAAGTTCAAATTTTGCAGATGCCATATTAGGCATAGGGGAAGATGCCCCAGCATTTTTGTTTGATTTAGTACAGTCCACACAGTCCTATTTACCTGAAAACCAATGGTTAGTAGCATTTAGTATTTTAATAATCGGTATGATTACTGGCTTAGATGGATCGGGTTTTTCTGGACTTCCACTAACAGGTGCTTTATCGGCTTCGTTGCCATCAAATGGCGTCGATGTGGCAACACTTGCTGCAATTGGACAGATGGGGTCTATATGGACAGGCGGAGGAGCGCTTGTTGCTTGGTCATCTCTTGTAGCGATTGCGGGATTTTGTGGTATTTCCGTAATGGAGCTTGTTAGAAAAAACTTTATCCCAGTTATCGTTGGCCTTGTGGTAGCAACAACGATGGCAGTTTGGGTATTGTGA MVELSISHYVYGLFTLLIIITMMMRKGVVLPSLLGTFLIAWLYKGSIVEGFKAIFQANLVAARELFSIFLIITFMLALLNSLRDLGADKHMIKPIQKIMINGHISFFVLVIATYIISLFFWPTPAVPLICALLVPAAIRVGLPAITAAVAIAIAGQGMALSSDYIVQVAPSLSATSAGVHTTAVAEQAFILSLITGAVAVCLAYLFARNKIRNANNPINLEDLAIMQTSQDAPIESNKEIQTKWSKVFAVFVPLALAAVVIYMIYEKLHSGRMSGFEGGDGAAFIGGVSVILLLLSTLALRKEKALDYITIHITDGFVFAFKAMGPVIPIAGFFFLGSSNFADAILGIGEDAPAFLFDLVQSTQSYLPENQWLVAFSILIIGMITGLDGSGFSGLPLTGALSASLPSNGVDVATLAAIGQMGSIWTGGGALVAWSSLVAIAGFCGISVMELVRKNFIPVIVGLVVATTMAVWVL NA NA NA NA NA AK015_03079 318 tmrB Tunicamycin resistance protein ATGGCGTTATTATTGGTACCTATGACCATTGTCCATCCAACTTATTATCAAGAAATTGTTGTTAAACTTAAAAATGAAAATATTACTGTGAAACATTTTGTTTTATGGGCTTCCAAGAAAACGTTAGAAAATCGGTTATGCAAGAGAGGTGATGGGAACAATTCCTGGCCCGCCAAACAAATCGATAGATGTATGCAAAGTCTATCCAATAATATGTTTCAACAGCGGATAGTTACAGATGATGTAACGATTGAACAAGTAGCGGAAAAAATCGCGTCAATGTGTGGCATTCATTTACTTCCTGACCATAGCAAGTAA MALLLVPMTIVHPTYYQEIVVKLKNENITVKHFVLWASKKTLENRLCKRGDGNNSWPAKQIDRCMQSLSNNMFQQRIVTDDVTIEQVAEKIASMCGIHLLPDHSK NA NA NA NA NA AK015_03080 1788 pepF1_2 Oligoendopeptidase F, plasmid TTGAAACCATTAAAGAATCTGACGTGGGACTTAGAAATTATTTTTCCTGGAGGAAGTAAGTCTACGAAGTTTCGAGAACATTTAACAATCGTAGATCAAGAATTTGATAAGCTGGATGCTTACATAAATCAGCTTCAACCTAAGGCTACAAAGGAAAATATTGAGGCACTAATAGATTTATGTCAGCAAATGGAAAGCACGACAAAATTGATGAGAGAGGCTTTTGCATTTATAAGTTGTTTACACGCACAGGATACAAATGATCAGCATGTACAACCATTGCTTGGTGAGCGATCTCAATTGAATGCGAAATTTGGTGGAATACAAACAAAGCTAAAGCAAAAACTTGGTGCAATGACAGAGACAGAATGGAGCATATTTTCACAGCACGAATCGTTGCAAGAGATCATTTTTGTGCTAGAAGAGTACCGAGAGCAGGCACAAAAACTTTTGCCTTTAGAACAAGAGGCTTTAATTAATGATTTAGCAAAGGATGGCTATCATGCATGGGGGCAAATGTACGATGTCATTGTAGGAAATATGGAAATTGCGTTAGAAGAAAAAGGAAGTTTGCAACATTATTCGATTGGACAAGCAACCAATAAATTAACAGATCCGAATCGTCGTTTCCGTCAACACGTATTTACCAAACTATCAGCGGCTTGGGAGGAGCAAGCAGACTTATTTGGTCAAACATTAAATCATTTAGCTGGTTTTCGCTTAGAGACGTATAAGCATAGAGGCTGGGAAAATGTGTTAAAAGAACCGCTAATGATTAATCGAATGAAACAAGAAACATTAGATGCTATGTGGACAGCAATTACAAAATATAAAGGACACTTTGTCCATTATTTAAATAAGAAGGCAGAGCTTCTCGATGTTGATACATTAAGTATTTATGACGTAACTGCTCCAATCAGTGAAACAGTTCAAACCTATACATACGAAGAAGGAGCCAATTTTATTGTAGATCAGTTCCGGAAATTTAGCCCTAAAATGGCCGATTTTGCAGAAATGGCGTTTGAAAAGCGTTGGATTGAAGCAGAGGATCGACCAGGTAAACGCCCTGGCGGTTTTTGTACAAGCTTCCCGCACAGTGAGCAAACGCGAATTTTTATGACGTATTCTGGAACAGCTAGTAATATTGCTACCCTAGCACATGAATTAGGACATGCCTATCATCAGCATGTGATGAATGATGTGAATGCTTTAAATCAAAGGTATGCAATGAATGTGGCAGAAACTGCTTCTACCTTTGCGGAAATGATAGTTGCCGATGCCTCTTTACAAGCAGCAACTTCAAAAGAAGAGAAAAAAGCTTTACTAGAGGATAAGATTCAACGAAGTGTTGCATTTTTTATGAATATACATGCCCGCTTTTTATTTGAAACGCGTTTTTATGAGGAAAGAAAACAAGGAATAGTTTCTGTAGAGAGATTAAATCAGTTAATGGTGGAAGCTCAGAAAGAAGCATATTGTGAGACGCTTTCAGAATATGATCCTAATTTTTGGGCGTCTAAACTTCACTTTCATATTACTGGTGTACCATTTTATAATTTTCCATATACGTTCGGTTATTTATTTAGTAATGGCGTGTATGCAAAAGCTAAAAATGGAGAGGGAAGCTTTGAAGAAGCCTACATTTCGTTATTACGTGATACTGGTAGAATGACGGTGGAAGATTTAGCTAAGAAGCATTTAAATGTAGATTTAACCGAAACTGCGTTTTGGGAAGAAGCTGTACTTGAGTGCATGAAGGATGTAGATGAATTTATGAAATTAGTATAG MKPLKNLTWDLEIIFPGGSKSTKFREHLTIVDQEFDKLDAYINQLQPKATKENIEALIDLCQQMESTTKLMREAFAFISCLHAQDTNDQHVQPLLGERSQLNAKFGGIQTKLKQKLGAMTETEWSIFSQHESLQEIIFVLEEYREQAQKLLPLEQEALINDLAKDGYHAWGQMYDVIVGNMEIALEEKGSLQHYSIGQATNKLTDPNRRFRQHVFTKLSAAWEEQADLFGQTLNHLAGFRLETYKHRGWENVLKEPLMINRMKQETLDAMWTAITKYKGHFVHYLNKKAELLDVDTLSIYDVTAPISETVQTYTYEEGANFIVDQFRKFSPKMADFAEMAFEKRWIEAEDRPGKRPGGFCTSFPHSEQTRIFMTYSGTASNIATLAHELGHAYHQHVMNDVNALNQRYAMNVAETASTFAEMIVADASLQAATSKEEKKALLEDKIQRSVAFFMNIHARFLFETRFYEERKQGIVSVERLNQLMVEAQKEAYCETLSEYDPNFWASKLHFHITGVPFYNFPYTFGYLFSNGVYAKAKNGEGSFEEAYISLLRDTGRMTVEDLAKKHLNVDLTETAFWEEAVLECMKDVDEFMKLV PGPT0020965_2103 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 AK015_03081 537 hypothetical protein ATGATGAAATCGGTTTGGAATGTAGACTCCGTTCATAGCGAAATTGGCTTTTCAATTAAGCATATGATGATTTCAAAAGCAAAAGGAAATTTTATTTCATTTGACGGGGAGATCAAAGCTGACTTAGATCAATTTACAGATGCAGAAATTAAACTTACTATTGACGTAAGTAGTGTGGATACAAGAAATAAGGGTCGGGACGACCATTTACGCTCTGCTGACTTTTTCGATGTAGAAAATCATCCAAAAGCTACATTTATTTCCAAAGAAATTAAAAAAACATCTGACAACCATTATGAGGTTATTGGAGATTTAACACTTAAAGGAACGACGAAAACAGTGGCCCTTGAGGTTATTGTTGAAGGCCAAAGTAAAGATCCGATGAGTGGAAATACAGTTGCCGGTTTTAGTGGAGAAACTACCATTAGCCGAAAAGACTTTGACCTAACATGGAATACAACTTTAGAGACTGGTGGCGTTTTACTTAGTGACGATGTAAAAATTAGTTTCGAGATTGAGGCGCATAAACAAGATTAA MMKSVWNVDSVHSEIGFSIKHMMISKAKGNFISFDGEIKADLDQFTDAEIKLTIDVSSVDTRNKGRDDHLRSADFFDVENHPKATFISKEIKKTSDNHYEVIGDLTLKGTTKTVALEVIVEGQSKDPMSGNTVAGFSGETTISRKDFDLTWNTTLETGGVLLSDDVKISFEIEAHKQD NA NA NA NA NA AK015_03082 873 hypothetical protein ATGAGGTTAGTTGCTTGTGCGTTCATATTCGTATTGTTTTTATTACCAGTTGAGAAAGTTATAGCTAATGAAGTGCAATCAGAACAAATTAAGATGAAACGTGTAGAAATTGATCAATATGCGCTAGAAAATGTAGAAAAACTTTTTATAAATGAATTAAAATTGGAAAGTTTAATGAAATACTTAAATGAAAAAGTTTACCACCCTCCAATAAATGCAAAATTAGACCGTAATGGGCAGGTTGTATCTGGAAAACCGGGGGTTACCATAGATAGAAATCAGTTTCACATTGGATTTAGAGAAGCTTTTTATAATAAAGATATCCACGAATTTCAAGTTCCTGTAAAACCGATATACCCTCGTGTAGATAAAGCGCTATTACTCGAAATTAGTCAAAAACAATTAGGTAGTTATGTTACTCATTTTAAACAATCCAATAAGGAGAGAACCACGAATATTGAACTTGCTGCCAAAGCGATAGATAGTCATGTGGTGTTTCCTGGTGAGTTATTTTCATTTAATACAGTAGTAGGGGAGAGAACAGAGGAAAAAGGATATAAGCGCGCACCAGTTATTGTTAAAGGTGAATTGGCTGAAGATATTGGCGGGGGCATTTGTCAAGTATCGTCTACTTTATTTAATGCTGTTGATTTAAAGGGAATTGAAATTGTAGAAAGGTATGCTCATAGTAAAAATGTTCCCTATGTCCCGCCAGGAAAAGATGCAACTGTAAGTTGGTGGGGACCTGATTTCAGTTTTAAAAATAAGTATAATCAACCGCTTTTACTGCGAGCGAATGTGTTGGATGAGAAATTAGTTGTTCGTGTTTATTCCTCAGATATTGTTGAACATTTCCAGAAAAATTTTAAATAG MRLVACAFIFVLFLLPVEKVIANEVQSEQIKMKRVEIDQYALENVEKLFINELKLESLMKYLNEKVYHPPINAKLDRNGQVVSGKPGVTIDRNQFHIGFREAFYNKDIHEFQVPVKPIYPRVDKALLLEISQKQLGSYVTHFKQSNKERTTNIELAAKAIDSHVVFPGELFSFNTVVGERTEEKGYKRAPVIVKGELAEDIGGGICQVSSTLFNAVDLKGIEIVERYAHSKNVPYVPPGKDATVSWWGPDFSFKNKYNQPLLLRANVLDEKLVVRVYSSDIVEHFQKNFK NA NA NA NA NA AK015_03083 1548 rocA1 COG1012 1-pyrroline-5-carboxylate dehydrogenase 1 ATGGTAGTAGCTTACAAACATGAACCATTTACAGATTTTACAGTTGAAGAAAATAGGCAGGAAATGGTAAAAGCCTTGGGAAAAGTTGAAAAAGATCTTGGAAAAGAATATCCGTTAATTATTGGTGGAGAGAGAATTACGACAGAAGAAAAAATTATCTCTGTAAACCCTGCAAATAAAGATGAAGTTGTTGGTTATGTTTCCAAAGCAAATCAAGCGTTAGCAGAAAAAGCAATGCAAACAGCAGATGAAACATTTGCATCGTGGCGTAAATCAGATCCAAAGTTTCGCGCTGATTTGTTATTTCGTGCAGCTGCCATTATTCGTCGCAGAAAGCACGAATTTACTGCACACTTAGTGAAAGAAGGTGGCAAACCTTGGAAGGAAGCAGATGCTGATACCGCGGAAGCGATTGACTTTTTGGAATACTATGGAAGGCAAATGCTTACATTAAAAGACGGCATTAAAATAAATAGTCGTCCTATTGAACATAATCAATTTCACTACATCCCACTCGGTGTTGGTGTTGTTATCTCACCTTGGAACTTCTTATTTGCCATTATGGCAGGTACAACTGCTGCTGCTATGGTAACTGGGAATACAGTGTTGCTAAAGCCAGCTAGTGCTACACCTGTAATCGCTTATAAATTTATGGAAGTGCTCGAAGAAGCGGGTCTTCCAGCTGGTGTCATCAATTTTATTCCTGGGTCAGGCAAAGACGTTGGGGATTATTTAGTGGATCATCCGCGAACACGTTTTGTAAGCTTTACAGGCTCTCGTGAAGTTGGGACCCGTATTTTTGAACGAGCTGCTGTTGTACATGAAGGTCAAAAGTGGCTGAAGCGAACAATTATTGAAATGGGTGGAAAAGATACCATCGTCGTCGATCGTGAAGCTGATTTAGAATTGGCTGCCCAGTCCATTGTTCAATCTGCTTTTGGTTTCTCTGGACAAAAATGTTCTGCTTGTTCTCGTGCTGTTATTCATGAGGACGTGTATGAAGAAGTGAAAACCCGTGTTGTAGAGTTAACAGAGGCGTTAACGGTAGGTGACCCAGTAGACTATACAAATTATATGGGGCCGGTTATTGACCAAGCCGCATATGATAAAATAATGGGGTATATTGATATTGGTAAGCAGGAAGGAGAGCTTATCGCAGGTGGTGAAGGTGATGATAGCAAAGGTTGGTTTATAAAGCCAACTGTATTCGCCGATGTAGATTCGAAAGGTCGGATTATGCAAGAAGAGATATTCGGTCCTGTTGTCGGTCTTACGAAAGCTAAAGATTTTACGGAAGCAATTGAAATTGCAAATAATACCGAGTATGGTCTGACTGGTGCTGTTATTACAAACAATCGTGCTCATCTTGAACAAGCGAGAGAGGATTTTCATGTTGGAAACCTTTACTTTAATCGCGGCTGCACAGCAGCAATTGTAGGTTATCAACCATTCGGTGGATTTAATATGTCTGGAACGGATTCCAAAGCAGGAGGGCCGGACTACTTGATACACCACATGCAAGGTAAAACAACTTCAGAAATGTTTTAA MVVAYKHEPFTDFTVEENRQEMVKALGKVEKDLGKEYPLIIGGERITTEEKIISVNPANKDEVVGYVSKANQALAEKAMQTADETFASWRKSDPKFRADLLFRAAAIIRRRKHEFTAHLVKEGGKPWKEADADTAEAIDFLEYYGRQMLTLKDGIKINSRPIEHNQFHYIPLGVGVVISPWNFLFAIMAGTTAAAMVTGNTVLLKPASATPVIAYKFMEVLEEAGLPAGVINFIPGSGKDVGDYLVDHPRTRFVSFTGSREVGTRIFERAAVVHEGQKWLKRTIIEMGGKDTIVVDREADLELAAQSIVQSAFGFSGQKCSACSRAVIHEDVYEEVKTRVVELTEALTVGDPVDYTNYMGPVIDQAAYDKIMGYIDIGKQEGELIAGGEGDDSKGWFIKPTVFADVDSKGRIMQEEIFGPVVGLTKAKDFTEAIEIANNTEYGLTGAVITNNRAHLEQAREDFHVGNLYFNRGCTAAIVGYQPFGGFNMSGTDSKAGGPDYLIHHMQGKTTSEMF PGPT0020210_2517 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821 NA NA AK015_03084 918 fadM_2 COG0506 Proline dehydrogenase 1 ATGGAACAAATAATGCGAAATTTCTTTTTGTTTTTATCTAATAATAAAACTTTAACAAAAGTAGCAAAAAAATATGGCTTTCGTTTTGGAGCTTCACGTTTTGTCGCAGGGGTAAATATTCAAGAAGCTGCACAAAAAATAAAGGCTTTAAATGAAAAAGGTTTTGTTGTCACTGTAGACCACCTAGGGGAGTTTATAGATAGTGAATCAGAGGCTAAACAGTCTGCGGAGGAATGTGTCAAAGCAATTGAAGCAATTGCTAAAGAAGGCTTACAATCCGAATTATCTTTAAAGCTTACTTCACTTGGGTTAGATATATCTCATGAGCTTGTGATGGAGAATATGCACAAAATATTACAAGCAGGTAAAGAAAATGATGTTATTGTTACGATAGATATGGAAGACTATGCACGATTAGAGAAAACGTTACATATTTTTACGAGTCTTAAACAGGAATATGATAATGTAGGAACTGTATTGCAAGCCTATTTATACCGAGTAGAAGAAGATTTAGAAGCATTAAATCCATATAACCCATACTTGCGATTAGTAAAGGGGGCATATAAGGAATCAGAAAAAGTTGCTTTTCCTAATAAATCAGATGTAGATAAGAATTATAAAAAAGTGATTAAGCAGAACTTGTTAAATGGTAATTACACGGCAGTAGCTACTCATGATGATGAGATCATTACTTATACAAAAGAACTGGAACAAACGTATCAAATTTCCCGTGAGCAGTTTGAGTTTCAAATGCTTTATGGAATTCGACTTGAGCTTCAGAAGCAATTACTAAAAGAAGGGTACAAAGTACGTGTATATATGCCTTATGGCGCTGATTGGTTCGGCTATAATATGCGAAGATTAGCTGAAAGGCCTGCTAATGTGGCTTTCGTAATAAAAGGAATTTTTAAGAAATAA MEQIMRNFFLFLSNNKTLTKVAKKYGFRFGASRFVAGVNIQEAAQKIKALNEKGFVVTVDHLGEFIDSESEAKQSAEECVKAIEAIAKEGLQSELSLKLTSLGLDISHELVMENMHKILQAGKENDVIVTIDMEDYARLEKTLHIFTSLKQEYDNVGTVLQAYLYRVEEDLEALNPYNPYLRLVKGAYKESEKVAFPNKSDVDKNYKKVIKQNLLNGNYTAVATHDDEIITYTKELEQTYQISREQFEFQMLYGIRLELQKQLLKEGYKVRVYMPYGADWFGYNMRRLAERPANVAFVIKGIFKK NA NA NA NA NA AK015_03085 987 arcB_2 Delta(1)-pyrroline-2-carboxylate reductase ATGTTAATTTTATCGGAAAAAGAAATACGAGAAAATTATTTTATGCTCGATGCAATAAAAGATTTGAAGCAAGGGTTACAAGCAAAAAATAATGCAATGATTAAAAATCCGCATCGGACAGTTATACATCTTCCAACGTTCAATGGCTCCAATTTATATATGCCAAGTGCGGATGTATCGTTAGATATTGCTTCTGTTAAAGTAGTAAGTATTTTTCCGGATAATCCAAACCAACAAAAACCGACTACCCAGGGTGTATTAATGCTGACAAATGCTACCGATGGAGAACATATTTGTTTCATGAATGCATCTTTTTTAACAAGATTACGTACCGGTGCTTTAAGTGCTATTGCTACAGATAAGTTAGCTCGTGCGAACGCCAAAGTATTGGGAGTGATCGGTACGGGATCGATGGCTTTTGAACAAGTACTTGGTATATTAGCTGTTAGGGATATAGAAGAAATTATCTTATATAATCGTACATTAGAAAAAGCTTTCGCATTTAAGGATAAATTAATCGAATGGGGAGTAAATAACTCCATACAAGTAGTACAAACTGTCAAATCTGTCATGAAATCTGCTGATATTGTTAACTGTAGCACGAGATCTAATACACCGGTGTTTGCTGGTGAAGATATTCAGCCAGGCACACATATTAACGGGATAGGTTCCTTTCTTCCTACAATGAGAGAGGTAGATGTAAAAACAATTAAAAGAGCTGATCAAATCGTAGTAGACGATTTGGATAGTGCAAAAGAAGAAGCGGGAGAACTGATTTATGCTGCTAGTCAAAGTAATTGGGATTTTTCCAAGGTGTTTGCGGAATTAAATGAACTGATTCGACAGGAGCATATTATTCGCCCATCTGATGAGGCAATCACTTTTTTTAAATCCGTCGGTACGGCTTACTTTGACTTAGCTGTAGCAAGGGGTATTTATGCGAAAGCTCTTTCGATTGGCTTTGGAAAAACAGTTGATTTTGCTTGA MLILSEKEIRENYFMLDAIKDLKQGLQAKNNAMIKNPHRTVIHLPTFNGSNLYMPSADVSLDIASVKVVSIFPDNPNQQKPTTQGVLMLTNATDGEHICFMNASFLTRLRTGALSAIATDKLARANAKVLGVIGTGSMAFEQVLGILAVRDIEEIILYNRTLEKAFAFKDKLIEWGVNNSIQVVQTVKSVMKSADIVNCSTRSNTPVFAGEDIQPGTHINGIGSFLPTMREVDVKTIKRADQIVVDDLDSAKEEAGELIYAASQSNWDFSKVFAELNELIRQEHIIRPSDEAITFFKSVGTAYFDLAVARGIYAKALSIGFGKTVDFA NA NA NA NA NA AK015_03086 369 hypothetical protein ATGGTATTTTATTATGAAAAATTGGATCATGTTCAATTAACAGCACCAAAAGATGAGGAACAAACAGCAAAGGCATTTTACGTCCATATCCTGGGATTTAAAGAAATTAATAAACCAAAGACATTACAAAAAAATGGCGGGATTTGGCTACAATCAGGTGATGTTCATATACATATTGGTGTGGAAGAACCGTTTATGCCAGCGAAAAAAGCACATCCTGCTATTTACGTAAAACATTTAGAAAAGTTAAAACGATATTTACAAGAGCACGATGTAGCTTATTTGGAAGACGAGCGATTGCCAAATTATAAACGTTTCTACGTTAGCGATCCATTTGGAAATCGGCTAGAGTTTTTGGAGAAAAGTTAG MVFYYEKLDHVQLTAPKDEEQTAKAFYVHILGFKEINKPKTLQKNGGIWLQSGDVHIHIGVEEPFMPAKKAHPAIYVKHLEKLKRYLQEHDVAYLEDERLPNYKRFYVSDPFGNRLEFLEKS PGPT0023815_10 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297 NA NA AK015_03088 582 xpt COG0503 Xanthine phosphoribosyltransferase ATGGAGCGTTTAAAACAGATCATTTTAGCAAAAGGAAAAGTATTATCCAATACGGTTTTAAAGGTGGATGCTTTTTTAAATCATCAAATTGACCCATCCTTAATGGAAGAGATTGGAAAAGAATTTGCAGATCGATTTGCAGATGCTGGTATAACGAAAATATTGACTTTGGAATCTTCAGGAATTGCTCCTGCCGTGATGGCGGGCTTAGTTTTAAAGGTGCCTGTTGTGTTTGCAAGAAAACGTAAATCCCTAACATTAACGGAGCACCTTTATTCTGCGCAAGTCCATTCTTTCACGAAGCAGGAAACAAATGAAATTTCAATTTCGCAATCGTTTATAACTCAGGACGATACAGTTCTAATTATTGATGATTTCTTAGCAAATGGACAAGCGGTATTTGGTTTGATTGATATTTTAAAGCAAGCTAAAGCAACGATTGCTGGGATAGGTATTGTAATTGAAAAAAGTTTTCAAGATGGTGGAAAATCCATTCGTAACGCTGGTTATCGAGTAGAGTCCCTTGCCAGAATAGCACATTTATCAGACGGAAATGTCACCTTTTTAGAGGAGGAAAACTAA MERLKQIILAKGKVLSNTVLKVDAFLNHQIDPSLMEEIGKEFADRFADAGITKILTLESSGIAPAVMAGLVLKVPVVFARKRKSLTLTEHLYSAQVHSFTKQETNEISISQSFITQDDTVLIIDDFLANGQAVFGLIDILKQAKATIAGIGIVIEKSFQDGGKSIRNAGYRVESLARIAHLSDGNVTFLEEEN PGPT0007305_404 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816 NA NA AK015_03089 1293 Nucleobase transporter PlUacP ATGAAGAATGCTGCTTTAGGGCTACAACATTTATTAGCAATGTATGCAGGGGCTATTTTAGTACCACTTATTGTAGGTGATGCACTTGGCTTAACGTCAGCTCAACTAACGTATCTTGTTGCTATTGATATTTTAATGTGTGGTGTAGCGACTATATTACAGGTTTTACGAAACCGATTCTTTGGAATTGGCTTACCTGTCGTTTTGGGCTGTACTTTTACTGCGGTAGGTCCGATGATAGCAATTGGCTCTAGTTATGGAGTGACTGCTATATATGGAGCTATTCTTGTATCTGGGCTTTTTGTCATTGCTGTAAGTGGGATATTTGGTAAGTTGGTGAAACTCTTTCCTCCAGTGGTGACAGGTTCTGTTGTAACAATTATTGGTATTACGCTTATACCTGTAGCTATTAATAATATGGGGGGCGGGCAAGGAGCAAGTGACTTCGGCTCATTAGTAAACATAAGTTTATCCTTTGGGACGCTATTATTTATTATTATATTATATCGATTTGCTAAAGGATTTATGAAATCTATTGCTATTTTAGTAGGTTTAATTATCGGAACATTAGCGGCTGGGATGATGGGGTTAGTTGATTTTCAAGCTGTTCGAGAAGCTTCCTATCTTCATTTACCGCACCCCTTTTATTTTGGTACACCAACATTTGAATGGTCTGCTATTTTAACGATGACCTTAGTAGCGATCGTTTCGTTAGTAGAATCTACAGGTGTATATTTTGCCTTGGGAGATATAACAGATCGAAAACTCAAAGGGAAGGACTTGGCAAACGGTTACCGGGCGGAAGGATTAGCTATTTTAATGGGAGGCTTTTTTAACGCCTTTCCATACACCGCTTTTTCTCAAAATGTTGGTTTGATGCAAATGACTGGTGTGAAAAAGAAAAGCATTATCGTTATTACTGGTGTCATGCTTATAACGCTTGGTTTCATTCCTAAGATTGCTGCTTTAACGACAATTATTCCAACTCCTGTATTAGGTGGTGCGATGATTGCTATGTTTGGTATGGTAATTTCTCAAGGAATTAAAATGCTCGGTCCTGTCATTATGAAATCATCGGAAAATGCGATGATTGTGGCATGTTCTGTAGGAATGGGTCTAGGTGTAACTGTGGTACCTGAATTGTTTGCCAAATTTCCCGAAAGCATTCAAATATTAACAAGTAATGGCATCGTGGCAGGAAGTGTTACAGCTATAGTACTAAACATCTTATTCCATATGTTGCCGCAAAGAAAAACCAATGAGCATATTAGTTTGCGTGAGCAAGAAGTATAA MKNAALGLQHLLAMYAGAILVPLIVGDALGLTSAQLTYLVAIDILMCGVATILQVLRNRFFGIGLPVVLGCTFTAVGPMIAIGSSYGVTAIYGAILVSGLFVIAVSGIFGKLVKLFPPVVTGSVVTIIGITLIPVAINNMGGGQGASDFGSLVNISLSFGTLLFIIILYRFAKGFMKSIAILVGLIIGTLAAGMMGLVDFQAVREASYLHLPHPFYFGTPTFEWSAILTMTLVAIVSLVESTGVYFALGDITDRKLKGKDLANGYRAEGLAILMGGFFNAFPYTAFSQNVGLMQMTGVKKKSIIVITGVMLITLGFIPKIAALTTIIPTPVLGGAMIAMFGMVISQGIKMLGPVIMKSSENAMIVACSVGMGLGVTVVPELFAKFPESIQILTSNGIVAGSVTAIVLNILFHMLPQRKTNEHISLREQEV PGPT0007330_370 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-XANTHINE_METABOLISM PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169 NA NA AK015_03090 1431 farB_2 Fatty acid resistance protein FarB ATGGTACGTCAATCCGTAAAAGAAGTAGAGAATATGAATAAATTACCGATCGTTATCGTGCTGATTACTGGAGCTTTTTTAGCCATTTTAAATCAGACATTACTCACCACAGCTATACCTCCTATTATGCAAGATTTACATTTAACCGAAAATACGGCCCAATGGGTAACGACGATTTTTATGCTCGTAAACGGCATTATGATACCTATTACTGCTTTTTTAATTGAAACCTTTACTACAAGACAATTATTTATTACAGCTATGGGAACATTTTCTGTTGGTACATTTATTTGCGCCATATCACCAAGCTTTTTTCTATTAATGACAGGAAGGGTCATTCAAGCTGCTGGCGCTGGAGTTATGATGCCACTGATGATGACCATCTTCTTATTTATGTTTCCAATTGAAAAAAGAGGAACTGCCATGGGAATGGTTGGGCTTGTAATTGGATTTGCCCCTGCTTTAGGACCATCTATTTCTGGTTGGTTAGTTGAGCATTTCGATTGGAGGTCTATTTTTTATGTCGTTTTACCTTTAGCTATTATGAACGTTATCATTGCGTACTTTGTGATGAAGAATATAACAAAACGTACCTATCCAAAAGTTGATATTTTATCTATATTATACTCAACCCTCGGTTTTGGAGGAATACTTTACGGATTCAGTAGTGCTGGTAATAATGGATGGACCGATCAATTGGTGCTTGTGTCGTTAGCTATTGGGCTAATTACTTTAGCGCTATTTATTACTCGTCAATTCACACTCAAGGAACCAATTTTGGAATTTCGAGTATTTAAAAACAAAATATTTACCATTACGATGATCATTGGAATGATTGGATTTATTGGCTTAATCTCTGCAGAAACCATTCTGCCAATTTATATGCAAAATATGGCAGGGTTTACGCCATTTGAATCTGGCTTGATGATTTTGCCAGGCGCACTACTAATGGGAATTATGTCGCCGATTAATGGACGAATTTTTGACCGATTTGGTGCTAGATACTTAGTAATGATAGGACTGTTCTTATTAACGATTACGTCATTATTGTATACCAATCTATCTGTAGATACGTCATTTACTTATTTAACCATCGTCTTTGCGGTTCGAATGTTTGGTATCTCCATGATTATGATGCCTTCTACGACAGCTGGGTTAAATCAATTATCTTATCGTTTAATTCCACATGGTTCAGCAATGACGAATACAATGCGACAAGTTGCCGCCTCAATTGGAACAGCTTTGTTAATTACGATTATGACTGTGACGGCTTTGGGTACTGGTAAAGAAGCGACTGTTACAGGACAAATACATGGGGTGAACATGGCGTTTTATGTTGCAACAGCAACATCCTTCCTTGGTCTTATACTAGCTTTCTTCGTAAAAGACAAGGCGTCCAAAGAAAGGGTTTTAAAGCAACAGGAAGCTTAA MVRQSVKEVENMNKLPIVIVLITGAFLAILNQTLLTTAIPPIMQDLHLTENTAQWVTTIFMLVNGIMIPITAFLIETFTTRQLFITAMGTFSVGTFICAISPSFFLLMTGRVIQAAGAGVMMPLMMTIFLFMFPIEKRGTAMGMVGLVIGFAPALGPSISGWLVEHFDWRSIFYVVLPLAIMNVIIAYFVMKNITKRTYPKVDILSILYSTLGFGGILYGFSSAGNNGWTDQLVLVSLAIGLITLALFITRQFTLKEPILEFRVFKNKIFTITMIIGMIGFIGLISAETILPIYMQNMAGFTPFESGLMILPGALLMGIMSPINGRIFDRFGARYLVMIGLFLLTITSLLYTNLSVDTSFTYLTIVFAVRMFGISMIMMPSTTAGLNQLSYRLIPHGSAMTNTMRQVAASIGTALLITIMTVTALGTGKEATVTGQIHGVNMAFYVATATSFLGLILAFFVKDKASKERVLKQQEA 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 AK015_03091 393 hypothetical protein ATGCATTTGTTTTCTACCGCGTTAGTCTTGATGTATGTTATTTTTATTGCTGTTACGTTTTTGCTTGCAATTATTTATAATTGCCGTGATCAATGGATTCCTTTTGCTTATGCATCTATTATTTTAGCTATTGCTTCGCCGTTAGTGGCTTTTCTATTTATTATTGGAAAACCAACCAAAATGAGTGGGTTCATGTATATTTTTGAACAAGTATTGGATGCTAATTTAATAGCTTTTATTATTGTATTGCTCCACCTCTATTTATTGTTTACATTAGGTTTATTTTTAAAAGATAGCGTAGGAAAAAAATTGTCTTCTTACTTTTATGCTTTGATAAATAAAATAAGAACTAGAAAGTATTTTCGTAACGATAGAAACAAGGAAAACTTTTAA MHLFSTALVLMYVIFIAVTFLLAIIYNCRDQWIPFAYASIILAIASPLVAFLFIIGKPTKMSGFMYIFEQVLDANLIAFIIVLLHLYLLFTLGLFLKDSVGKKLSSYFYALINKIRTRKYFRNDRNKENF NA NA NA NA NA AK015_03092 936 Zinc-type alcohol dehydrogenase-like protein ATGAAGGCTATTGTTATAAACCAATATGGTCATGCAAATCAACTTGAAGAACGCGATGTTCCTAAGCCACAAATAAAGGATAACCAAGTTCTTGTAGAGATGCACGCTACAAGTATTAACCCAATAGATTGGAAAGTTCGTGAAGGATATTTAAAGGAGATGCTCCCACTTGAATTTCCTATTATCCTTGGATGGGATGCTGCTGGTATCGTTCAAGAAGTTGGCTCAAGCGTAACCAAATTTAAAACTGGTGACCGTGTATTTGCCCGTCCAGCAACAAGCGCACAGGGAACTTATGCAGAATACACCGCGATAGACGAAGATAAAGTAGCTCTTCTTCCAGAAAGTATTACATTCAATGAAGCAGCAGCTGTACCTTTAGCCGGTTTAACTGCTTGGCAATGTCTTTTTGACTTTGGTCAAGTCAAAGCTAAAGACAAAGTATTCATTCACGCTGGATCTGGAGGAGTCGGAACATACGCCATTCAATTTGCAAAACATTTTGGGGCGTATGTAGCTACTACAGCAAGTGAGAAAAATCAGGAACTTGTTGAATCTTTAGGAGCAGACCGGTTTATTAATTATAAAGAAGAAGACTTCTCTGAAATAATTAAAGACTACGACCTAGTTATCGATACAATTGGTGGAGAAGTTCAAGAAAAGAGCATGCATGTGTTAAAAGAAGGTGGAAAATTAGTTTCCATTGTGCAACCACCAAATGAAGACTTAGCGAAAGAATTAGGAATTACAGCTGGATTTTTATGGTTACAAGAAAATGGAAAGCAACTCGAGGAAATAGCAAAGTTAATGGAAAACGGTCATGTCAAATCCATTATTGGACATAACTTCCCGCTAACGCAAGAAGGAATACAACAAGCTCACCAGCTTAGTGAAACGCATCATGCTAAAGGAAAAATCATTATAAACACCAAATAA MKAIVINQYGHANQLEERDVPKPQIKDNQVLVEMHATSINPIDWKVREGYLKEMLPLEFPIILGWDAAGIVQEVGSSVTKFKTGDRVFARPATSAQGTYAEYTAIDEDKVALLPESITFNEAAAVPLAGLTAWQCLFDFGQVKAKDKVFIHAGSGGVGTYAIQFAKHFGAYVATTASEKNQELVESLGADRFINYKEEDFSEIIKDYDLVIDTIGGEVQEKSMHVLKEGGKLVSIVQPPNEDLAKELGITAGFLWLQENGKQLEEIAKLMENGHVKSIIGHNFPLTQEGIQQAHQLSETHHAKGKIIINTK PGPT0006375_1279 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001 NA NA AK015_03093 501 hypothetical protein ATGGAAAAACTATCATCTTTTCAACCTGTTTTACCTAAAGATCCTAAAGTGCTTATCCTTGGTTCCATGCCAGGAAAACAATCACTTCAACGGCAAGAGTATTACGGGAACCCAAGAAATCAGTTTTGGGATATCCTGCTCACTATCCTTCAAGAACCTAAGGTAATCGATTATACTCAAAAGTTGCAGGTTTGTAAAAAACATTGCTTAGCACTTTGGGATACGGTAGGGACTTGTTATCGAGCAGGCAGTTTAGATGCAAATATTAAAGATGAAACCCCTAATGATATTCCTTCTTTATTACATAAGTATCCTTCCATCAAATTAATAGCTTGTAATGGAGGGAAATCCTATCAACTGTTAAATAAGTATTTTAAGCAAGAGCATTTAGCTCAAGTAGATGTGGTTAAGCTACCTTCAACGAGCCCAATTCCAGGAAAATATACAAAGCGTTTTGTAGATAAGGTGGAAGCGTGGAAGGTGATTTTGAAATATATTTGA MEKLSSFQPVLPKDPKVLILGSMPGKQSLQRQEYYGNPRNQFWDILLTILQEPKVIDYTQKLQVCKKHCLALWDTVGTCYRAGSLDANIKDETPNDIPSLLHKYPSIKLIACNGGKSYQLLNKYFKQEHLAQVDVVKLPSTSPIPGKYTKRFVDKVEAWKVILKYI NA NA NA NA NA AK015_03094 846 salL COG1912 Adenosyl-chloride synthase ATGTTAAAACATGTTGTACTACAAACAGACTTTGGTTTAAGTGATGGGGCGGTAAGTGCCATGTATGGTGTTGCTAAATCGGTGGATCCATCCATTCAACTTTTTGATTTAACACATGATATTTCTCCATATAATATTTGGGAAGCATCTTACCGTTTGTATCAAACGATGTCCTATTGGCCAGAAGAAACGGTGTTTGTTTCTGTTGTCGACCCTGGGGTAGGAACGGATCGACTAAGTGTTGTTGTTAAAACAAATAGAAATCAGTATATTGTAACACCAGATAATGGAACATTGACGCATGTGAAAGGCCATATTGGTATAAAAGAAGTTCGAATCATTGATGAAAAAATAAACCGATTGCCGCGATCCGGAGAGTCACACACTTTTCATGGAAGGGATATTTACGCATATACAGCTGCAAGACTTTCTACTGGAGTTATTCGTTATGAAGAGGTCGGACCGAAGAGGGATGAAGACCGAATTACTTGTTTAAAAGAAGAAAACGCTGCAATTAATAAAGGAATCATTCGTGGATGTATCGACATACTTGATGTGCGATTTGGAAATGTGTGGACAAACATAAATCGTCGTTTATTAGTTGAAGCTGACCATCAATATGGTGATAGGTTGTATGTTACGATTTCCCATCATCAAAAAGATGTATACAAAAATAAGTTGTTATTTGTGCGTTCATTTGCTGAAACGCATTTAGGAGAGCCTTTACTATACATTAATTCATTAGATAAAGCAGCTATTGCGCTGAATCAAGGTTCTTTCGCTAAAGCGTATCATATAGGAACGGGTACAAGCTGGGGAGTGTTTATTCAGAAAGTTGACGAGTGA MLKHVVLQTDFGLSDGAVSAMYGVAKSVDPSIQLFDLTHDISPYNIWEASYRLYQTMSYWPEETVFVSVVDPGVGTDRLSVVVKTNRNQYIVTPDNGTLTHVKGHIGIKEVRIIDEKINRLPRSGESHTFHGRDIYAYTAARLSTGVIRYEEVGPKRDEDRITCLKEENAAINKGIIRGCIDILDVRFGNVWTNINRRLLVEADHQYGDRLYVTISHHQKDVYKNKLLFVRSFAETHLGEPLLYINSLDKAAIALNQGSFAKAYHIGTGTSWGVFIQKVDE NA NA NA NA NA AK015_03095 1119 lnrJ Sensor histidine kinase LnrJ GTGGGGTTATTTTTTGGAAGGATTAGCTTGTTTAGTTGTTTATGGCTTATGCTTATTTTGTTTGATAGTAATTATATACCGTTTAGCATTAGTTTATTTGCAGTTTCTTTTGCCTTTTTTTGCTTATTATCGTTACAAAAGCATCATATCTATTTCTATGTTGTCTTGTCTGTTATTGCGATTCTACACATGTGGACAGTAGGGACTGAGCAATTTTATATCATCACTTATCTTTATTTTCTCGTTGTCGATGCTACTTTTAGGTTACAAGGATATTTATTAAAAGGCTATCTCATCATTAATTTTGTGATTTCCATTTTGTACACGATTTTAATAAAAGATTACATAATTGAAGTAATATTATTACATATTCTTTTTGTCAGTTTAATTTTAGTCGGTAATAGAATTTTTACAGAAAGGCAAGAGCTAAGGCAAATGTATGAGCAACTACTTGGCGAATTTCGAAAAAACAAACGAATGAATGCTTCAGCTGATCGAGAGGCGAGATTAGAGGAAAGGACAAATATTGCTCGCGACATTCATGATTCTGTCGGACACCGCTTAACAGCGCTTATGATGAAAATAGAAATTTTATCCATTCAAAATAAGGAACGTGACTATGAAGAGTTAAAAATAATGGCCAAAGAAGCTTTAAAAGAAACAAGAGAGGCTGTAAAGGCTTTACACCAGGAAGAGATTCAGGGTGTAGCATCTGTTGTTCAACTTATTCGAAAGTTAGAAGCAGAAAGTCAGCTAATGGTGAAGTTTACGATGAAGCAAGGTGTTCTATCAGTTGCGCTTACAAATAAGCAAAGTATTACTTTATATCGAGCGATACAAGAAGCTTTAACAAATGTCATGCGGCATTCCTCTTATCGAGAAGTACAAGTAGAGTTAGGAAAATCGGCAGTGGATGATGTCACTTTTGAGATTAGAAACCGAATTTTACAGGCTAGACAGTTTGTTGTTGGGTTTGGGTTAACAAACATGCGAAAACGAATAGAGGAGATACATGGTAAATTACATATTTATCAAACAGAGCAGCATTTTGTAGTTGTGGGAACTATTCCATGCGTTGTAAAGGAGATTGAAAAGCATGTGGCGAATTCTAGTTGTTGA MGLFFGRISLFSCLWLMLILFDSNYIPFSISLFAVSFAFFCLLSLQKHHIYFYVVLSVIAILHMWTVGTEQFYIITYLYFLVVDATFRLQGYLLKGYLIINFVISILYTILIKDYIIEVILLHILFVSLILVGNRIFTERQELRQMYEQLLGEFRKNKRMNASADREARLEERTNIARDIHDSVGHRLTALMMKIEILSIQNKERDYEELKIMAKEALKETREAVKALHQEEIQGVASVVQLIRKLEAESQLMVKFTMKQGVLSVALTNKQSITLYRAIQEALTNVMRHSSYREVQVELGKSAVDDVTFEIRNRILQARQFVVGFGLTNMRKRIEEIHGKLHIYQTEQHFVVVGTIPCVVKEIEKHVANSSC NA NA NA NA NA AK015_03096 465 lnrK_3 COG2197 Transcriptional regulatory protein LnrK ATGTGGCGAATTCTAGTTGTTGAAGATCAAGCTATTGTTCGGCAAGGTTTAAAAGTAATTTTACAGCAAGATGAGCAAATTAGCGTACCGTTTGAAGCTGCGAATGGAAAAGAAGCAATTAAAATTGTTGAACAACATGTTGTTGACTTAGTAATGATGGATGTTAGAATGCCGGTCATGAATGGTATTGAAGCTACTCGGATTATTAAACAAATGAACCCCTCTGTAAAAATTCTCATCTTAACAACGTTTAATGATGATGACTATGTTTTATCAGCTTTAAAAGAAGGGGCAGAAGGCTTTTTGCTTAAAACTACAGAGTCAAAAAAGTTGATTGATGCAGTACATAGCTGTATGCGTGGTGGAATGACGATTCATGAAGAGGTAGCTGCTAAAGTGATGCCGCGTTTACTAAAAGGTACAGAACAAAACAAGACAGAATTAGACGTTCCTTTATCAGATTGA MWRILVVEDQAIVRQGLKVILQQDEQISVPFEAANGKEAIKIVEQHVVDLVMMDVRMPVMNGIEATRIIKQMNPSVKILILTTFNDDDYVLSALKEGAEGFLLKTTESKKLIDAVHSCMRGGMTIHEEVAAKVMPRLLKGTEQNKTELDVPLSD NA NA NA NA NA AK015_03097 399 lnrL_4 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGCTTGAATTAGTAAATATTTCAAAGAAATTTAAACAAACGTATGCAGTTAAGAATATGAATATGTTCATGGAACGTGGTGAAATTGTTGGCTTACTAGGGCCAAATGGAGCCGGGAAGTCAACAGCTATATCTATTATGTCTTCATTAGTGGAGCCAACAGCAGGGGAAGTCTACTTTGACAATCGAAGTATTTTAAAAAACCCTACGTCTTTTCGTAAAGTTGCTGGCATTGTACCACAAGAAATTGCGCTATACGAGGATTTAACTGCGGAAGAAAATTTACGATTTTTTGGTAGGATTTATCAGATTAAAGGAAAACAATTACAAAAACGTATAGAAGACGTTCTACAAATAATTGGTTTAGCAGATCGAAAGAAAGAAGTAGTGAAAACATAA MLELVNISKKFKQTYAVKNMNMFMERGEIVGLLGPNGAGKSTAISIMSSLVEPTAGEVYFDNRSILKNPTSFRKVAGIVPQEIALYEDLTAEENLRFFGRIYQIKGKQLQKRIEDVLQIIGLADRKKEVVKT PGPT0006725_9502 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03098 525 lnrL_5 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGAAGCGACGGTTAAATATTGGAGTAGCTTTATTACATGAACCAGAATTACTTATTATGGATGAGCCGACTGTTGGGATTGATGCGCAATCGAGAAAGTATATTTTAGAAACGGTAAAACGATTAAACAAAGAAATGAATGTCACAATTCTTTATACGAGCCATTATATGGAAGAAGTCGAGTATTTATGTAATCGCATTTATATCATGGATAAAGGGAATCTTATTGCAGCTGGAACAAAGGAAGAAATAAACCGTATTCTATCTGGTGAAAAATCAATCGTAATTAAAGCAAGCCATCTAACCAATCTATTTATTTATGAATTAAAAACATATCCACTTGTAAATAGTGTGGATGTAATGGATAAACAGATTACCGTAATGGTTTCTAAAGAGGTTAATCTATTTAAAGATTTAATTGCAATGGCAGATGAGGCAAACATCGAGTTAATTTCTGTCAATATAAAAACACCGACATTAGAAGATGTGTTTTTACATCTTACTGGTAGAGCGTTGCGAGATTAG MKRRLNIGVALLHEPELLIMDEPTVGIDAQSRKYILETVKRLNKEMNVTILYTSHYMEEVEYLCNRIYIMDKGNLIAAGTKEEINRILSGEKSIVIKASHLTNLFIYELKTYPLVNSVDVMDKQITVMVSKEVNLFKDLIAMADEANIELISVNIKTPTLEDVFLHLTGRALRD PGPT0006725_9502 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03099 1257 lnrM COG0842 Linearmycin resistance permease protein LnrM ATGATTGGGCAAATTATTAAAAAACAATTCCTTCTATTATGGAGAAGTCCTGTAGAGCTGTTGTTACTTCTCGCTTTACCAGTTGTTCTTATTGTAATTTTAGGGTCAGCTTTAGGGAACTTTATGGATGGAGATTCGCCAGGTATGCATGCGAAAGTCGCTATGATAGAGCACAGTTCAGAAAGGGAGCAATTTGAAAAATTTAAACGTGATTTTGAAACGGACCTGGGATTGACGGAGGACACAGTAGCAAACATAGAAAAACGTTTACCTATTCAAACGTTAAAAACAATTTTTCATACAAAAGAGATTTCGAAAATGATGGAGTTAGAAGAAATTAGTGTGGAAGAAAAAAGTAAAATATTGCAGGAGGACACGTATACTGCAGTTATTGAAGTTCCAGAAGATTTTTCCTATCAATACCTTTCATATATTTTGTTAGATCGTAAGCAGGCTCCACAGTTACAACTGTATGAAAACGAAGAGAAACAACTTAGTGCAGGAGCTATTCAAAGTATTATTAAAAGCTTTCAGCAACAGCTTACTTTGGAGTCATTACTTGAAGAAAAAGGAATGGAGCAAAACGAGGCAGCTTTATCTACTATATCTGTTGAAGGCCAACAAAAAAATCTTGAGCAAAGCAAACCTATAACGGCAAAAGAATATTACACTGTTGGCATGGCTGTAATGAATGCACTATTTGTTGCTTCAACAATTGGGCTTATAGCATTTCGGGAAAAGCAAAGCTTTGTGTTTGCGCGCATTATTCTAGCTAATATGTCAAAATGGACCTATTTTACAGGTGTCCTTTGTTCAGCTGTGATTTTTTCGCTCATACAATTACTCGTTATTTACGGTTTTGCTTGGCTTATCTTTGATGTATCATGGGATGATTTAACAGCTTTTATTTTAATAACGATTGCATTTTCCATTTCGGTTGGAGGTATTACTGTCTTATTAACAGCAATTAGTTATCGAATGCATTCCGAAACGGTAACCAATTTATTTTCAAGTGTCATTGTGTCCATACTCGCTTTAGTTGGAGGTAGCTTTTTTCCAATTGGAGAAAATGTCCAAGTCATTGAACTAATTGGTAATTTTACTCCTAATGGATCAGGAATGTCAGCCTATTTAGCAATATTAAGAGGGGAATCTATTGGAAAAATTGGTAATCATATTATATTTCTTTCTGTTTTTGGTTTTGCCATGATTATGATTGCTGCAATGACATTTCCTAAAAGGGGGAGAATGGTATGA MIGQIIKKQFLLLWRSPVELLLLLALPVVLIVILGSALGNFMDGDSPGMHAKVAMIEHSSEREQFEKFKRDFETDLGLTEDTVANIEKRLPIQTLKTIFHTKEISKMMELEEISVEEKSKILQEDTYTAVIEVPEDFSYQYLSYILLDRKQAPQLQLYENEEKQLSAGAIQSIIKSFQQQLTLESLLEEKGMEQNEAALSTISVEGQQKNLEQSKPITAKEYYTVGMAVMNALFVASTIGLIAFREKQSFVFARIILANMSKWTYFTGVLCSAVIFSLIQLLVIYGFAWLIFDVSWDDLTAFILITIAFSISVGGITVLLTAISYRMHSETVTNLFSSVIVSILALVGGSFFPIGENVQVIELIGNFTPNGSGMSAYLAILRGESIGKIGNHIIFLSVFGFAMIMIAAMTFPKRGRMV NA NA NA NA NA AK015_03100 1113 hypothetical protein ATGACAGCAATCTTACTTGCTAAGCTAAAACATCTATTACGTAATCCGTGGGCGTTTCTCGGTTTTACTGGAATATGTATTGTGTTTGCGCTTATTATGGGACTAACTGGTTTTGAGAGTCGATCTAGTGTTCCTATAGTAATTGCGGACGAGGAAGTAACAGGTTCTTCTATCCTTACAACATTGAATGATGAAGAAAACATTTCCTTTAAAGAGGTGGAAGAAGATGCATTGATTCAATCTGTGAAGGAAGGAAAAGCAGAAGTTGGCGCCATACTAAATAAAGACACATATGAGTTAATCGTAGGTGTAGAATCAACAACGGTTTCGTCCGTGGATAATATGATACGTCAAGCTTATACAGAATATGGACAACGGCAAAAAATAATAGAGCATATAGGTGATTTAAAACAAACGGAGAATGCGTTGCAAAAGGAAATTGACGAAGCTTCAAAAAATCCTGTTTTCTCTGTTACTACAAGCAATTTTACTACTGATCAGACGATGATGTACGATCCAATTTATCAGTATGTATTTGGCTTTGGTTTGTTTTTCGTTATTTATACGGTTGCTTATAATGTGTTACCAATGTTAATTGAAAAGCAGGAAGGGGTTTGGGATCGGCTTATTTTATCTCCAGTTAAGAAATGGAAAATGTACGCTGGAAATATGATTTACAGTTTTTGTATAGGGTACTTGCAAGTATTGATTATATTCTCGTTTTTCTATTTTGTTTTTGGCGTTGACTTTAATGGGAAATTTCCGGAAACATTATTACTTTTAATTCCCTATGTTTTTACCATTGTTGCCTTAAGTATTTTGTTAACAGCCATAGTGAAAAATTCCCAACAATTTAATGCATTTATTACCATTCTAGCAGTTTGTATGGCTATGGTTGGTGGTGCCTATTGGCCGATCGAAATTGTAGAATCCAACTTTCTAATTGCCATATCAAAAATAAATCCATTAACTTATGGCATGGAAATTTTACATGGGGTTGTCAACTATGGTTATTCGTTGGAAGAACTTTTCTACCCGATGAGTATTCTGTTACTAATGGGAACTGTTATGATTGGTGTGGGCATACATTTAATGGAAAGGCGACATATATAA MTAILLAKLKHLLRNPWAFLGFTGICIVFALIMGLTGFESRSSVPIVIADEEVTGSSILTTLNDEENISFKEVEEDALIQSVKEGKAEVGAILNKDTYELIVGVESTTVSSVDNMIRQAYTEYGQRQKIIEHIGDLKQTENALQKEIDEASKNPVFSVTTSNFTTDQTMMYDPIYQYVFGFGLFFVIYTVAYNVLPMLIEKQEGVWDRLILSPVKKWKMYAGNMIYSFCIGYLQVLIIFSFFYFVFGVDFNGKFPETLLLLIPYVFTIVALSILLTAIVKNSQQFNAFITILAVCMAMVGGAYWPIEIVESNFLIAISKINPLTYGMEILHGVVNYGYSLEELFYPMSILLLMGTVMIGVGIHLMERRHI NA NA NA NA NA AK015_03101 2196 smc_5 Chromosome partition protein Smc ATGAAAAACAGCTTAAGAATATTTATGACAGATATAAAAAAATTGAGTAAGAACTGGGTAGCGCTCATTATCATTGGTGGGCTTATTTTCTTACCCTCTTTCTATGCATGGTTTAATATTAAGGCTTCTTGGGACCCTTATGGACAAACGGATCAGATCCCTGTTGGAGTAGTGAATGAAGATGAGGGCGCGACAGTGAGAGGGGAAAGCATTGACGTTGGGAAAGATCTTGTAGATACGCTTCAAGAAAATAAAGCAATGGATTGGCGATTTACAGATCGAAAGACGGCAATGGAAGAAGTGGAATACGGCAATTATTTTGCTGTTATTGTTATTCCTAAGGATTTTTCAAAACAACTGGGTAGCGTTATGGAAGACAATCCAGAAAAGGCAAACGTAGAATACTATGTGAATGAAAAAGTCAATGCGATTGCACCTAAAATTACGGAAAAAGGTGCCTCGGTTATTGTCGAGCAAATAAGTAGTCAATTTATTTCTACGGTCAATGGTGTAATCTTTGATATGTTTAACCAATTAGGTATTGAACTAGAGAAAGATTTACCTGATATTAAACGCTTTGAAAATTACGTATTTGAAATGGAAGAAAAGCTTCCGGAAATCAATGATTTGCTTAACCAATCATTATCTGACGCAAACCAGGCACAAGATATCGTTAACAAGGCACAAAACTTAATTCCTAATGCGCAAAAAGTAACCGATAATGGGTTAACAACCATTGATAATACGACGTCTTTTTTGAAAGAAGCAGAAGATCGATTAAATAAAATGGCTCCGCAAATTGAAACGGATTTACGTAAAGTGAAAGACGTTGCAAATAAAGCAAACAACTTTCTGCAAGATATACAGAAAGTGGATGTTGATTTTAGTGGTGGAAAAGAACTTGCTAATCAAATTAACCAACAGCTTGACGATGGCGCTAATAGAGTGGGGGCAGTGATCAGTTCGTTAGAGCAATTGAAGCAACAAAATGATCAAACGGATAACAACGAAAGTGAGCAAGGCAATAGCTCAAACGTGAATCGTGAACAAATTGATCAGGTTATTAAAAGACTGACGACATTACAAGAAGCCTTAACGAATATAAAAGAGACAAATAAAGAAGTTATCCAATTTATAGATGCGAAAGATAAAGATGTAGATCAAATGGTAAATGATTTGCAGCAAGTGGCTGAAAATACATCGACAAATATTGATGCTTTTGTTAAAGAATATAAAGCATCGATTGAACCCACAGTGATGGAGGAAATTAGTCGAGCAAAAAGTACGCTTTCAGAAGCCCGAGGGATCTTGGTAGATATTCAAGAGACAATACCAGAAGTAGAACGTATTCTTGGTAGTACAGAGAGTAATTTAGGGAAAGGAGAAGATGTTCTTAAGCAAGCCTTAGGTGAATTCCCATATGTGAATAGTAAGGTTAATGAGCTAGCGGACAGAATTCGTAGCATTAAAGGTGACACGGACATTAATGAAATTATTAAACTGTTGCAAAATGACCCAGAAGCTGAGAAAGGTTTCTTTGCGGAACCTGTTCAGCTAAATCAGAATAAGCTGTTCCCAATGGAGAATTATGGTACCGGTATGACACCATTTTATACAGCTTTGGCAATATGGGTTGGTGGGTTACTGCTCATTTCTTTACTAGCCACCGATGTGCACGACCAAATTAATTATACAGAACGACAAATGTATTTCGGACGGTTATATACATTTATGGGAATTGGTTTTTTACAAACGATTATTGTAACAGCAGGTGATTTACTCTTACTTGGAGTCGACGCGGCTGCGCCATATTGGTTTATGACGTTTGGGATATTTATTAGTTTTATTTTTATGCTTATTATTTATACGGTTGTTTCCGTGTTTGGTGATGTCGGAAAAGCAATGGCAATTGTATTTCTAGTTCTGCAAATTGCTGGATCGGGAGGAACCTATCCTGTTGTATTGTTACCAGAGTTTTTCCAAATGATTAATCCATTTCTTCCGTTTACCTACGCAATTGACTTATTACGAGAATCTGTTGGCGGTATTGTTTGGGAGAGAGCGAGCAAGGATATTTTATACCTCAGCTTTTTTGGGGTTGCAGCTATAGTACTAGGTGCGTTCTTTAAACCAATCATTAATCGGCATACAAATAAACTGAAGAAAAAATCCAAAGAATCTGGTTTATTTCACTAA MKNSLRIFMTDIKKLSKNWVALIIIGGLIFLPSFYAWFNIKASWDPYGQTDQIPVGVVNEDEGATVRGESIDVGKDLVDTLQENKAMDWRFTDRKTAMEEVEYGNYFAVIVIPKDFSKQLGSVMEDNPEKANVEYYVNEKVNAIAPKITEKGASVIVEQISSQFISTVNGVIFDMFNQLGIELEKDLPDIKRFENYVFEMEEKLPEINDLLNQSLSDANQAQDIVNKAQNLIPNAQKVTDNGLTTIDNTTSFLKEAEDRLNKMAPQIETDLRKVKDVANKANNFLQDIQKVDVDFSGGKELANQINQQLDDGANRVGAVISSLEQLKQQNDQTDNNESEQGNSSNVNREQIDQVIKRLTTLQEALTNIKETNKEVIQFIDAKDKDVDQMVNDLQQVAENTSTNIDAFVKEYKASIEPTVMEEISRAKSTLSEARGILVDIQETIPEVERILGSTESNLGKGEDVLKQALGEFPYVNSKVNELADRIRSIKGDTDINEIIKLLQNDPEAEKGFFAEPVQLNQNKLFPMENYGTGMTPFYTALAIWVGGLLLISLLATDVHDQINYTERQMYFGRLYTFMGIGFLQTIIVTAGDLLLLGVDAAAPYWFMTFGIFISFIFMLIIYTVVSVFGDVGKAMAIVFLVLQIAGSGGTYPVVLLPEFFQMINPFLPFTYAIDLLRESVGGIVWERASKDILYLSFFGVAAIVLGAFFKPIINRHTNKLKKKSKESGLFH NA NA NA NA NA AK015_03102 957 menH_2 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase TTGAGGAAAAAAAGAGTTTTGTATATAAGTGTTAGTGTCATTATTTTATTATTTATTATTGATATAATCGCTAGCTTCTATTTTTATCATTTAGCAATTGCACGTAATCAAAAGGATTTTTTGCAAGGAAATGAAGATCTTGAAGTTTCTGCGCAAGCGTTAGACGAAATGCTTGAAGGAGATTGGCGAGATTGGGTCCGTGAACAGAACTTTGAAACGTGGAATATGACATCTTATGACGGGCTAAAACTACAAGGCTATTATTTACCTGCAAAGAAAGAAACAAATAAAACAGTTATTTTCGCACATGGCTATTTAGGACGTGGCTTAGACATGGGGATGTTTGGTCAACACTACTATGAAGAACTTGGTTATAATATGTTTACAGCGGATTTAAGAGGTCATGGTGAAAGTGAAGGAGATTATATTGGGTTCGGCTGGCATGATCGCCTGGATTACGTAGATTGGATTCATAGAGTAATTGAAGAACAAGGAGAAGATGCAGAAATTGTGTTACACGGGGTTTCTATGGGGGCTGCGACTGTATTAATGGCAAGCGGTGAGAAACTCCCTAATAATGTAAAAGCAATTGTAGCAGATAGTCCTTATACGAGTGTGTATGACATGTTTGCTTACCAAATGGATCGAATGTTCCATTTACCTTCATTTCCGCTGTTACCTAGTACAAGTGCGGTGACGAAAGTACGTGCTGGGTATGGTTTAAAAGAAGCTTCCGCAGTAGAACAAGTGAAAAAAACAGACATACCTATTTTGTTTATTCATGGGAGTGCAGATACATTTGTACCTACTCGTATGAGTGAAGCGTTATATGCGCAGACAAATAGTGATAAAGAATTGATTATATTCGATGGGGCAGGGCATGGTGAAGCTTTTGTTACGCATAAAGAAGATTATATAGAAAAGTTACATGAGTTTTTACACAATAGGAATTTATAA MRKKRVLYISVSVIILLFIIDIIASFYFYHLAIARNQKDFLQGNEDLEVSAQALDEMLEGDWRDWVREQNFETWNMTSYDGLKLQGYYLPAKKETNKTVIFAHGYLGRGLDMGMFGQHYYEELGYNMFTADLRGHGESEGDYIGFGWHDRLDYVDWIHRVIEEQGEDAEIVLHGVSMGAATVLMASGEKLPNNVKAIVADSPYTSVYDMFAYQMDRMFHLPSFPLLPSTSAVTKVRAGYGLKEASAVEQVKKTDIPILFIHGSADTFVPTRMSEALYAQTNSDKELIIFDGAGHGEAFVTHKEDYIEKLHEFLHNRNL NA NA NA NA NA AK015_03103 1092 carA_2 Carbamoyl-phosphate synthase small chain ATGACAAAGGGACAGCTCGTTTTAGAAACTGGGGAGGTATTTTCTGGAGAATGGATAGGGTATAGAGGAGAGTGTGTAGGTGAGGTCGTGTTTAATACGAGTATGACAGGTTATCAGGAAATGTTGACAGACCCATCCTATGCTGGGCAAATTATTACACTAACCTACCCTATAATTGGGACTTATGGAATAAATCAGGAAGATTCAGAAAGCAATCATCTCCAAGTAGCAGGTGTTATTATGAATGACCTTTGTGAAGAACCAAACCATTTTCAATCGCAGGCAACTGTAACGGAGATATTAAAGAAACATCGTATTTCAGGATTAAAAAATGTGGATACGAGATCACTAGTTGTTGCTATTAGGAAACATGGAACGATAAAAGGGAAGCTGGTGTTAGAGAAACCTTTTCCAGACTATAAACATGAATTTATTTTGTCGGATGCAAAAAAGCTCGTTCAACAAGTAGCTGTAACATCTATGGTGCAAACAGGTGCAGGTAGTTGTCATATTGTCATCGTTGATTTTGGTTATAAAAAATCGATGGTACATTTCCTTGTGAATGAAGGATGTAAAGTAACAATTGTACCTTATCATTATGATATGGAAGCAATTAAAGCACTAAACCCAGACGGCATTTTGATTAGTAATGGTCCAGGAAATCCTAGTGAGCTACAAATTTATTTTCCGAAAATTAGAGCAGTTGCTGAATCCTTTCCAACACTGGGAATTTGTTTAGGGCACCAACTTATTGCCTTAGCATATGGTGCGAAAACAGAAAAATTGCCATTTGGACATAGGGGAGCAAATCATCCAGTAAAAGATTTACAAACAGGAAAAATAAATATAACTGCGCAAAATCATGGATATGTAGTAAATAGAGAAAGTGTGAACGAATCTGTTTTTCAACTTACTTTCCAACATGTTCATGACAATTCTGTCGAAGGGATGAAACATAAGCAATTGCCAATTACGACGGTGCAATTTCATCCAGAAGCTCATCCAGGTCCAAGGGATACGACATACATTTTGACTGATTTTGTTCAACAGGTCAAACAGTTAAAGGAAGAATACTTATGGGAAAAAGTTTAA MTKGQLVLETGEVFSGEWIGYRGECVGEVVFNTSMTGYQEMLTDPSYAGQIITLTYPIIGTYGINQEDSESNHLQVAGVIMNDLCEEPNHFQSQATVTEILKKHRISGLKNVDTRSLVVAIRKHGTIKGKLVLEKPFPDYKHEFILSDAKKLVQQVAVTSMVQTGAGSCHIVIVDFGYKKSMVHFLVNEGCKVTIVPYHYDMEAIKALNPDGILISNGPGNPSELQIYFPKIRAVAESFPTLGICLGHQLIALAYGAKTEKLPFGHRGANHPVKDLQTGKINITAQNHGYVVNRESVNESVFQLTFQHVHDNSVEGMKHKQLPITTVQFHPEAHPGPRDTTYILTDFVQQVKQLKEEYLWEKV PGPT0021155_4381 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956 NA NA AK015_03104 3243 carB_3 Carbamoyl-phosphate synthase large chain ATGGGAAAAAGTTTAAGAAAAGTGCTCGTAGTAGGTTCTGGTCCAATTGTCATCGGTCAAGCTGCTGAATTTGATTATGCTGGTACACAAGCGTGCTTAGCACTGCAAGAAGAAGGAATAATAGTTATTTTAGTGAATAATAACCCAGCAACGATGATGACAGATAAAGAAATTGCGGATCGTGTTTATATGGAAGACATTACGGTAAAAAATGTGGAGAAAATTATAGCGAAGGAAAACCCAGATGGGTTCATTGGCACGCTTGGAGGACAAACGGGGTTAAATGTAACGATTGCGTTGTATGATCAAGGTATTCTGGATAGATACAATGTAAAAGTGCTTGGAACGAGTGTAGCATCGATTCAAAAAGGGGAAAGCAGAGAGGAATTCCGTCAGTTAATGTTTGATATAAATGAGCCCGTTTCCCAGTCAAAAGTAGTAAAAAATGTAAAGGAAGGAATTCTTTTTACTGAAGAAATTGATTTTCCTGTTATATTAAGGCCTGCTTATACGCTTGGTGGAGAAGGTGGAGGCTTTGCCAATAATGAAACAGAACTTGTAGAAAAATTACACACGGCTCTTGCGCTTAGCCCCATTCATCAAGTCCTTGTCGAGAAAAGCATTAAAGGGTGGAAAGAAATTGAATATGAAGTGGTGCGCGACGTAAACGATACATGTGTCATTGTTTGTAATATGGAGAATTTAGATCCTGTTGGTGTGCATACAGGCGATTCGATGGTAGTTGCTCCTTCGCAAACGTTAACCGATCAGCAGTATCAGATGTTACGTTCCGCTTCTTTAAAAGTAATCCGTGCTCTTGATGTAGTAGGAGGCTGTAATATTCAATTTGCTTTAGATCCTAAATCGAATACCTATTGCATTATTGAAGTGAATCCAAGGGTAAGTAGATCGTCGGCACTCGCCTCTAAAGCAACAGGTTATCCAATAGCATGTGTAGCTACGAAATGTGCCATCGGATATCATTTAGACGAAATTATTAATCCGGTTACGGGTACAACTTCAGCGGCATTTGAACCTGCGTTAGATTATGTCGTTGTTAAATTACCACGCTTTCCTTTTGATAAATTTACCGAAGCAGACCACACACTGGGGACGCAAATGAAAGCGACTGGTGAAGTTATGGCAATTGACCGCACGTTCGAAGGAGCCCTAAATAAAGCGGTCCGTTCATTGGAAATGGGTATATATAGCTTGTTTTTACCTAAATTAATCCATGTAGCAGATGAGGTTTTGCATCAACAAATTACAGAGGCGAATGATTTGCGTTTATTTGCAATTGCTGAAGCAATACATCGCAACTGGCCTATTGATGATCTCCATGAGCTAACTCAAATAGATCTTTGGTTTTTAAATAAAATAAAACGAATAGTAGCTTTAGAAAAAGAATTAACAACCTATCGTTTGGACGAGATTCCAAAAGATTTATTATTGCAAGCAAAGCGATTCAATATAAGTGATCACCAGATTGCTAACTTAATTGGTGTAAAGCCATATGAACTAAGAAATAAATATAAACAGTTACGTATACAGCCTGCTTATAAATTAGTAGATACTTGTGCAGGAGAATTCACTGCTACGTCCCCTTATTATTATTCTACTTGGCACGGAAAAGATGAAGTGCAAGTAAGTCAAGGGAAGAAGAAAAAAATAGTAATTGTAGGATCAGGACCAATTCGGATAGGGCAAGGAGTTGAGTTCGATTATTGTTCTGTTCATGCTGCTGTAGCAGTGAAGCAACTTGGGTACGAAGCCATTGTCATCAATAATAATCCAGAAACGGTAAGTACGGATTACACTGTTGCGGATAAACTCTATTTTGAACCTTTAGTACTTGAAGATATTTTGCATATTATTGTTAAAGAAAAAGTATATGGTGTGTTGATTCAATTTGGTGGTCAAACAGCGGTGAACTTGGCGACAGAATTGGACGAACAAGGAATACAAATATTAGGAACTAGTCCACAACATATTGATCAAATGGAAGAGAGGGAGCAATTTTATCACATGTTAGATGAATGTTCCATTCCACACATGAATGGATTTATGGTCTACAATCTCGCTCAATTAAGCGGTGCAGAGGAACAATTAGGGTTCCCTGTGTTAATTCGTCCTTCTTATGTCATTGGAGGCCAGTCCATGTTTATAGCTTATAATCAGGAAGAACTTAATGGGTATGTATCACGCATTCAAGAGGATACAAATGATCACTGTTGGCCACTGCTCATAGATGCATATTTGCCTGGAAAAGAATGTGAAGTGGATGTTATAAGTGATGGGGAAGACGTTCTTATCCCAGCTATTTTTGAGCATATTGAAAAGGCTGGTGTGCACTCCGGTGATAGTTTAGCTGTTTTTCCTCCGCTTACATTGATAGATGTAGAAAAGCAAAAAATCAGCGCAATAGCTAAAAAAATTGCTCAAACGGTACCGATTATTGGGATGATGAATATCCAGTTTATCTTACAGGATGGTGAAGTGTATGTGTTGGAGGTGAACCCTAGAGCATCAAGAACAGTTCCAATAATAAGTAAGATAACAAATATACCAATGGTGAAATGGGCAGTTCAAGTACAACTTGGAGCTGCATTAAAAGATATTACGACAAAAAGCAATCTATTTCTTGAACCGTCATTTCATATAATGAAGGCACCTGTTTTTTCTACTGGAAAGTTAAAAGGAGTGGACGCTGTATTAGGACCTGAAATGAAATCAACAGGGGAAATTATTGCTATATCGCGTCATCAAGAGGAAGTTTTTGCGAAAATCGCTACTTCGATTCTTGGTGAAGTAAAAGAAGGCAAAGACCTCACTTTGATCGTATCTATTGCAGATCGTATGAAATCATCTAGTCTGCAAACGATTCAAGCTGCTAGTAAAATGGGCATGTCATTGATTGCGACAAAAGGAACGGCTCAATTTTTGCGAGAAAATGGTATTTTGACTACGAATGTGATTCATCACAAAGATGATCTCTCCATTATTATGGAAAACAATCGACCTGATATGGTGTTGAATTTGCCAGAACAAGGAAGAAATAATAGTAGCTTTGGCTTCAACCTTCGGGAATGGGCAGTACGCTACCAAATTCCTTGTTTTACGAGCATAGAAACATTTGCAACTATTGTGATAAAAAACACAAGAAATTATAGCCGGCTAGAAATATTAGCATTACAAGATTATCAGGCCTTATTAGTAAAAGATCACCAAATACTCGAGAGCTGA MGKSLRKVLVVGSGPIVIGQAAEFDYAGTQACLALQEEGIIVILVNNNPATMMTDKEIADRVYMEDITVKNVEKIIAKENPDGFIGTLGGQTGLNVTIALYDQGILDRYNVKVLGTSVASIQKGESREEFRQLMFDINEPVSQSKVVKNVKEGILFTEEIDFPVILRPAYTLGGEGGGFANNETELVEKLHTALALSPIHQVLVEKSIKGWKEIEYEVVRDVNDTCVIVCNMENLDPVGVHTGDSMVVAPSQTLTDQQYQMLRSASLKVIRALDVVGGCNIQFALDPKSNTYCIIEVNPRVSRSSALASKATGYPIACVATKCAIGYHLDEIINPVTGTTSAAFEPALDYVVVKLPRFPFDKFTEADHTLGTQMKATGEVMAIDRTFEGALNKAVRSLEMGIYSLFLPKLIHVADEVLHQQITEANDLRLFAIAEAIHRNWPIDDLHELTQIDLWFLNKIKRIVALEKELTTYRLDEIPKDLLLQAKRFNISDHQIANLIGVKPYELRNKYKQLRIQPAYKLVDTCAGEFTATSPYYYSTWHGKDEVQVSQGKKKKIVIVGSGPIRIGQGVEFDYCSVHAAVAVKQLGYEAIVINNNPETVSTDYTVADKLYFEPLVLEDILHIIVKEKVYGVLIQFGGQTAVNLATELDEQGIQILGTSPQHIDQMEEREQFYHMLDECSIPHMNGFMVYNLAQLSGAEEQLGFPVLIRPSYVIGGQSMFIAYNQEELNGYVSRIQEDTNDHCWPLLIDAYLPGKECEVDVISDGEDVLIPAIFEHIEKAGVHSGDSLAVFPPLTLIDVEKQKISAIAKKIAQTVPIIGMMNIQFILQDGEVYVLEVNPRASRTVPIISKITNIPMVKWAVQVQLGAALKDITTKSNLFLEPSFHIMKAPVFSTGKLKGVDAVLGPEMKSTGEIIAISRHQEEVFAKIATSILGEVKEGKDLTLIVSIADRMKSSSLQTIQAASKMGMSLIATKGTAQFLRENGILTTNVIHHKDDLSIIMENNRPDMVLNLPEQGRNNSSFGFNLREWAVRYQIPCFTSIETFATIVIKNTRNYSRLEILALQDYQALLVKDHQILES PGPT0021150_2395 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955 NA NA AK015_03105 2001 dpp5 COG1506 Dipeptidyl-peptidase 5 ATGAGTTATAAACGAGCATTGCAAACAGAAGATATCTTGCAACTGAACGTTGTCAGTGACCCACAATTCACACCAGATGGTCAAGCTTTCACATACACTCTGACTACTATTAATGAACAAAATGAGTACGAATCACAGTTGATGTATCAAAAGTTAAAGGAAAAACAGACTATTCCTTGGACCTTTCACTCATCTAAAAATAGCAAACTACGATTTTCCCCTGACGGAAAACGAGCTGTCTTTCAATCTACTAGAAGTGGACGTCCACAATTGTGGCTACTCCACACAGATGGAGGAGAAGCAGAACAGTTAACAACCTTCCGCCATGGTGCTATGAATCCCATGTGGTCAAGAGATAGCCAACATATTTTCTTTACCGCCTCCCTCGAACACGATGATGATATACATAATCAAACAGAGCCTTCGATAGAGGAAGAAAAGAAAGAAAAAGAAGCAAAGAAAAAACAGCCATTCATGATCAACCGTTTAAAATACAAATCAGATGCACAAGGTTTTCATAATGATACACGCTCACAAATCATTAGACTGTCAATAGATGATTCTTCCTTACTGCAAATAACAGACGGTGATGCCGACTATCGTTTGCAGGATATCTCACCTGATGGCACAACGCTTTTATACACGGCTAATCTAAGTGATCATGCAGATTATGAGTTAAATAATGACCTCTACTGTTTCCAAATTATTACAAAAGAAACAAACAAACTTACAGATGGGAAAGGTGTTTATCACGATGCTCGTTTTTCCCCTGATGGTAGTAAAATCGCCTGTTTCGGACATGAGTTTGCCTATAAAGGCGCTTCCCTTACTCAACTTTATTTATTTGACATAAAAACAAAAGAAAGAAGTTGCCTAAGTTCTGACTGGGATATAGAGGTTGGTGATGCAATGATTGGCGATACGCGCCTTGGTGAATCCCAAATTGGCCCTGTTTGGAATGAAGATAGTTCAAAAATTTTCTTTATTGTAACAGATCAAGGATCTACAGGGTTACATGCTGCATCGATTTATGGCAAAAAAGAGGAAATATATAAAGATAATAACCATATTTTCGGTTTTGCTTATAACAAACACTGTCAGTGCTTCATCCTCGGCATAAGCAGCCCGACTAATCCAGGTGAATTTTATTTATTGCATGACAATGGTTCTTTAGAGGCCCTTACAGACCATAACCGTTCCTTCTTACAAGAAATAGCGCTTCAAGAACCTGAGGAATTGTCTATCCAAACAGAAGATAATTGGCAAGTTCAAGGTTGGCTTTTACGTCCTTATGCGTTTATAGAAGGAAAGAAATATCCAACCATACTGGAAATACATGGTGGTCCTCATGCCATGTACGGCCAGACATTTTTCTTTGAAATGCAGCTCTTAGCCGCAAAAGGCTATGTAGTTTTGTATACGAACCCCCGTGGAAGTCATGGATATGGACAATCATTTGTTAACGCATGTAGAGGCGATTATGGTGGGGGAGATTATCGTGATGTGATGACAGCTGTAGATGACGCCATTCAAACATTTAGCTTTATTGATACACAGCGCCTCGGCGTAACAGGAGGAAGTTATGGTGGTTTCATGACAAATTGGATTGTGGGGCATACCAATCGTTTTAAAGCGGCTGTGACACAACGTTCTATATCAAATTGGCTCAGTTTTTATGGTGTAAGCGATATTGGATTTTTCTTTACAGAATGGGAGCATGGAGTGAACTTGTTAGATGATCCAACAAAGCTATGGGAATTCTCCCCATTAAAATATGCAGCAAATGTCGAAACACCACTCCTCATTCTTCATGGTGAATTAGACTACCGTTGTCCCATTGAGCAAGGGGAGCAACTATTTATTACGTTAAAGCATTTAAAAAAAGAAGTAGAATTCATTCGCTTCCCTAACGCAAATCACGAGCTTAGCAGAAGCGGTGAACCAAACATGCGCATGGAGCGGTTGCAACATATGCTGAGATGGTTTGACACATATCTTTAG MSYKRALQTEDILQLNVVSDPQFTPDGQAFTYTLTTINEQNEYESQLMYQKLKEKQTIPWTFHSSKNSKLRFSPDGKRAVFQSTRSGRPQLWLLHTDGGEAEQLTTFRHGAMNPMWSRDSQHIFFTASLEHDDDIHNQTEPSIEEEKKEKEAKKKQPFMINRLKYKSDAQGFHNDTRSQIIRLSIDDSSLLQITDGDADYRLQDISPDGTTLLYTANLSDHADYELNNDLYCFQIITKETNKLTDGKGVYHDARFSPDGSKIACFGHEFAYKGASLTQLYLFDIKTKERSCLSSDWDIEVGDAMIGDTRLGESQIGPVWNEDSSKIFFIVTDQGSTGLHAASIYGKKEEIYKDNNHIFGFAYNKHCQCFILGISSPTNPGEFYLLHDNGSLEALTDHNRSFLQEIALQEPEELSIQTEDNWQVQGWLLRPYAFIEGKKYPTILEIHGGPHAMYGQTFFFEMQLLAAKGYVVLYTNPRGSHGYGQSFVNACRGDYGGGDYRDVMTAVDDAIQTFSFIDTQRLGVTGGSYGGFMTNWIVGHTNRFKAAVTQRSISNWLSFYGVSDIGFFFTEWEHGVNLLDDPTKLWEFSPLKYAANVETPLLILHGELDYRCPIEQGEQLFITLKHLKKEVEFIRFPNANHELSRSGEPNMRMERLQHMLRWFDTYL NA NA NA NA NA AK015_03106 504 hypothetical protein TTGAAAAAAGTCATGATTATAGGAAGCCCTGGTTCAGGAAAATCAACTTTAGCTAGACATTTAAGCGAATTATTGCATATCCCCGCTTATCCTATGGACACCATTTTTTGGCAACCTGGCTGGGTACCAATAAAACGGGAAAAACTTATTAAGGAAACTAAAAAGCTAATGGAAAAAGACACGTGGATTATTGACGGCAATTACAGTGCAACGATGGATATACGTTTGAAAGAAGCTGACACGATTATCTTTTTACATTTCTCCACCATTTGTTGCTTGTATGGAATTACGAAACGGCGCATCCAGTATCATAAACAAACACGCCCTGACTTAGCTGCAGGCTGCCCCGAAAAACTGGATTGGGAATTCTTTCAATATGTTCGCAAGTTTAATAAGCGGAAAGCTCCGCACATCTACGAACTTCTAACGAACTATCCAGACAAACAGCAGATTATTTTCAAAAATAGATCCCAGTTACAAAAATTTCTTCAAGATAGTAGCTAA MKKVMIIGSPGSGKSTLARHLSELLHIPAYPMDTIFWQPGWVPIKREKLIKETKKLMEKDTWIIDGNYSATMDIRLKEADTIIFLHFSTICCLYGITKRRIQYHKQTRPDLAAGCPEKLDWEFFQYVRKFNKRKAPHIYELLTNYPDKQQIIFKNRSQLQKFLQDSS NA NA NA NA NA AK015_03107 873 dat D-alanine aminotransferase ATGACTGTATATCCAATCGTCATAGCACAGCAAAATTTCACGCACCAAGATAGCTTGCATTACCCGTTTGAGGAACGAGGGTTGCAATTTGGTGATGGTATTTATGAGGTGATTCGAATTTATAAAGGGAACTACTACCTTTTAAAAGAACATATGGATCGTTTATTTCGCTCAGCGGAAGCGATTAAAATTGACCTAAATATAACGAAAGAAGAACTCACTCGTCTGTTACTCAAATTATTAGAAAAGAATAAAATGACCACGGATGGAAAAGTATATTTACAGGCAACTAGGGGGTCAGCACCTCGAGATCACGTTTTCCCAGTAGATACGCCTGCAAATTTATATGCTTATGTCCAAGATTTGCCACGTCCTAGCGAAAAATTAAAGAATGGGATTTGCACGATTACAACCCCAGATGTTCGTTGGGAAAATTGTTACATTAAAAGTTTGAATTTGCTTCCGAACGTTCTTGCTAAACAAGAAGCAAAGGAAAATAATTGCTATGAAGCTATCTTACACAGAGGGGAACTTGTTACCGAATGTAGTTCATCCAACATTTACATAGTTAAAAATGGAGAAATTTACACGCATCCAACAACAAACCGCATCCTACACGGTTGTGTACGTATGCGTGTTGAAAAATTTGCTAACGACCTTTCCATACCGTTTCATGAGCAAGCTTTTTATAAAGAAGCTATTTTTCAGGCAGATGAAGTTTTCCTATCCAGTAGCACATCGGAAGTAATGCCTGTCGTTCGAGTAGATAATCAGCACATTCAAGATGGAAAACCTGGGGCAATTACGCGAAAACTACAAAAAGCTTATGAATTAGATGCTGCTATTACAGAAAATAATATTACCCAAGCTTAA MTVYPIVIAQQNFTHQDSLHYPFEERGLQFGDGIYEVIRIYKGNYYLLKEHMDRLFRSAEAIKIDLNITKEELTRLLLKLLEKNKMTTDGKVYLQATRGSAPRDHVFPVDTPANLYAYVQDLPRPSEKLKNGICTITTPDVRWENCYIKSLNLLPNVLAKQEAKENNCYEAILHRGELVTECSSSNIYIVKNGEIYTHPTTNRILHGCVRMRVEKFANDLSIPFHEQAFYKEAIFQADEVFLSSSTSEVMPVVRVDNQHIQDGKPGAITRKLQKAYELDAAITENNITQA PGPT0001915_293 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0001915-dat-K00824 NA NA AK015_03109 1704 hypothetical protein ATGCATAACTTATTACAGCTTTTAAGACAATTGGACGGAAAAGGTTATAAAGGGTATAAGCGTATTCAAGGAAATTATCAAGCAGATCATTATAAATTAGCGATTGATTACGTACAAGGTGACCCGTTTGCTTCACCTTCTAAAATACGCATTATTATTCCTAATAATGAACGGCCCATCCGATCAGCTTGGCTTCAAACCTATTCAAGAAAAGTTGCCGCAGAAGACGTATTTGCACGTTGGATAGGAAATGCAGTCGCTAAACAAACTACGTTTATCAAAGGATCGGGAAAAAGTGGGTTAATCTTATTTGATCGTCCTGGACAAGAAAAGTTAGAGCGGACGGCTGTGCAAATAAATGCTACATCCATAACGGTCTGTATTTCAATTGGACTACCTGCTAATGGAAGAAAGATTAATGGAAAAGAAGCAGAAAAGTTATTTACACAAGCGTTACCGTCTATTATGAAACGATCTGTTTTTGCTATGAAGGATGAAACAGTGAATCAGTCTATACAACTTGCTGATCAGCAAGAGGCAATTCGTCAGAAAATGAAACAAAATGGCTGGGTAGCTTTTTTGGCGAATGGTTCTACATTGCCTAGAGAGAGCGGTATTAGTAATCGTCCATTAAAACAAGCGATACCTTTTCAAAGTCCCCCTGAAAATGAGGTCACTATCGACATTCCACATACGGAAGAGCCAATGAAAGGTATGGCGATTAAACAAGGGATTACGTTAATTGTTGGCGGTGGATATCATGGGAAAAGCACATTATTACAGGCCATTGAACGTGGTGTTTATAATCATGTGCAAGGAGATGGTAGAGAGTATGTATTAACAGACCCTGCTGCGGTGAAAATACGAGCTGAAGATGGTCGAAAAGTAACCGGGGTAGACATTTCCCCATTTATTAATAACTTGCCTTATGGTCAAGATACGACATTTTTCTCAACGGATAATGCAAGTGGAAGTACTTCCCAAGCTGCAAATGTCATGGAAGCGTTAGAAGCGGGAGCAACTACATTACTCATTGATGAGGATACGAGCGCGACCAACTTTATGATTCGTGATCATCGCATGCAGTTACTTGTTCATGCTGACAAAGAGCCAATTACGCCATTCATTGATAAGATTCAGCAACTCCGAGATGAATTAGTAGTATCGACTATTATTGTTATGGGTGGCTCTGGAGATTATTTTGCACATGCGGATACAGTAATTCGTTTAGAAAATTACATTCCTGATAATGCTACAAAGGAAGCAAAAGCAATTATAGAAAAATATCCGTTAGAAAGAAAGGAAAAAGTGGACGTTCTGATTCGAAAAAGTGAGCAACGCTATTTTCAACAACAGACTTTACAAACGAGAAAAGGAAAACGATCAAAAGTTCAAGCTAAAGGCTTGAATCATATTATAATGGGAACAACAGATATTGCTTTTTCGGAGGTAGAACAGTTGGTGGATGCTTCACAAACAAGGATGATTGCAGAAATTCTCCAACACTTAGATAATCAGAATAAGCTAACGAATCAAGCATTACCCGAGCTGTTAGATAAGGTGGAAGGGCAAATGAATAAACGAGGACTTGCTTCTTTTACCGCATTTCCAGAGCAGCATCCAGGAGACTTAGCAAGACCACGTAAGTTTGAAATTGCAGCAGTGATTAATCGCATGCGTACAGCTGTTGTGAAGCAGCATTAG MHNLLQLLRQLDGKGYKGYKRIQGNYQADHYKLAIDYVQGDPFASPSKIRIIIPNNERPIRSAWLQTYSRKVAAEDVFARWIGNAVAKQTTFIKGSGKSGLILFDRPGQEKLERTAVQINATSITVCISIGLPANGRKINGKEAEKLFTQALPSIMKRSVFAMKDETVNQSIQLADQQEAIRQKMKQNGWVAFLANGSTLPRESGISNRPLKQAIPFQSPPENEVTIDIPHTEEPMKGMAIKQGITLIVGGGYHGKSTLLQAIERGVYNHVQGDGREYVLTDPAAVKIRAEDGRKVTGVDISPFINNLPYGQDTTFFSTDNASGSTSQAANVMEALEAGATTLLIDEDTSATNFMIRDHRMQLLVHADKEPITPFIDKIQQLRDELVVSTIIVMGGSGDYFAHADTVIRLENYIPDNATKEAKAIIEKYPLERKEKVDVLIRKSEQRYFQQQTLQTRKGKRSKVQAKGLNHIIMGTTDIAFSEVEQLVDASQTRMIAEILQHLDNQNKLTNQALPELLDKVEGQMNKRGLASFTAFPEQHPGDLARPRKFEIAAVINRMRTAVVKQH NA NA NA NA NA AK015_03110 1143 queG COG1600 Epoxyqueuosine reductase ATGGACACAGATAAACTAAAGCAGGAGATAATTGAATACAGTAAACAGATTGGGATTGATAAAATTGGTTTCGCTTCAGCTGATGTGTTTACCGAATTAAAAGAGAGACTGCGCAGACAGCAAGAATTGGATTATCAGTCCGGCTTCGAAAAAGGCTCCATAGAAGAAAGAACGGAGCCTACTCGCTTATTACCAGAAGCGAAATCAATTATTTCTATTGCTTTAGCGTATCCCTCCCGCATGAAAGGTGCACCAAGAAGTACAAAAGAAGAACGTCGTGGATTATTTGCTAGAGCTTCTTGGGGCGTTGATTATCATATTGTCATGCGAGAACGATTAGAAAAGCTCACGTCTTTCATTCAAGAAAGAGTCCCAAATGGAAAAAATAAAGTGATGGTGGACACGGGTGAACTATCTGATCGGGCTGTTGCAGAGCGGGCAGGTATTGGTTTTAGTGGGAAAAACACCTCAATTATAACTCCAGAGTTCGGTTCATTTGTTTATTTAGGAGAACTCATAACCAATGTCCCGTTTACGCCAGATGAGCCTGTTGATGATAGCTGTGGATCTTGTACGAAATGTATAGATGCTTGTCCTACAGGAGCGATTGTGCAAGGTGGGCAGCTTAATGCCAAGCGATGTATCGCCTTTTTAACGCAAACAAAAGATTTTTTACCAGATGAATTCCGATCAAAAATTGGTAATCGTGTATATGGCTGTGATACATGCCAGATGGTTTGTCCGAAAAATCTAAAAGTAGACTTTCATCATCATCCTGAATTTGAGCCAGAGCATGAGGTCGCAAAGCCAAAGTTAATTCCCATGTTAAAACTATCAAACCGCGAATTTAAACAGACATTCGGCCATATTTCAGGTTCGTGGCGTGGTAAAAAGCCAATTCAGCGTAATTCACTCATTGCTTTAGGACACTATAAAGATACAACGGCTGTAGCAGACATGATAACAGTAATGAAAAATGATCCTCGGCCTGTTATACGTGGAACCGCAGCTTGGTCCTTAGGGAAAATTGGCACAAAAGAAGCTTTCCAAGCTATAAGGGAAGCGATGCTAGAAGAAAAGGATGAACAGGTGCTAGTGGAAATGGAAAAAGGACTTGCTTTTGAAAATGTATATCATTCATGA MDTDKLKQEIIEYSKQIGIDKIGFASADVFTELKERLRRQQELDYQSGFEKGSIEERTEPTRLLPEAKSIISIALAYPSRMKGAPRSTKEERRGLFARASWGVDYHIVMRERLEKLTSFIQERVPNGKNKVMVDTGELSDRAVAERAGIGFSGKNTSIITPEFGSFVYLGELITNVPFTPDEPVDDSCGSCTKCIDACPTGAIVQGGQLNAKRCIAFLTQTKDFLPDEFRSKIGNRVYGCDTCQMVCPKNLKVDFHHHPEFEPEHEVAKPKLIPMLKLSNREFKQTFGHISGSWRGKKPIQRNSLIALGHYKDTTAVADMITVMKNDPRPVIRGTAAWSLGKIGTKEAFQAIREAMLEEKDEQVLVEMEKGLAFENVYHS NA NA NA NA NA AK015_03111 852 hypothetical protein ATGGAACAACTTAAAAGATATTGGCAAGATTTTTTTGCAATAGATCGAAATGAAAATGATTGGTGGGCAAGGAAGCAAGCATTATTCACTGAGCGAGGTGCTGAAATTATTCAAATTAAAGGAAATGGGCATGTATACAGTAAATTACGTTATGAACAAGAGAATTTTCACCAGTATCATCTACATGTCCAGTATCTTATTAAGCAGCAAGAGCAACTATATTTAGAAGAGTCTGTCACTCCATATGTGTTTAAAAAAGACCACCAAGGTAATATGCAAGCGCATCGTCGCCATGACTACAAACAGGAAGACCTCGTTAAGACGGACATGTTTAAGCAAAGCAATAGCCCTTCTTTAAATAGGAGAAGTAAATACGATCGTCAGGCTGCGGTACAATATGCAGAACGTTGGTGGAATGATTATAATCCTGCCTATCGTCGATTTCCTGTAGATTGTACGAACTATGTATCACAATGTTTATATGCGGGTGGTGCGCCAATGTATGGTGCTCCTGTTCGCGAGCGGGGATGGTGGTATCAAGCTACCAATTGGAGTTTTAGTTGGGCAGTTGCACATTCACTACGCTGGTATTTAGCTGGAGCGACAAGCGGATTAAGAGGGGAAGAAATGGAAACTGCTGAACAACTTATACCAGGTGATGTTATTTGTTATGATTTTTCCGGAGATGGGAGATGGGACCACAATACAATTGTAGTCGCCAAAGATGCAAATGGGATGCCACTTGTCAATGCACATACAGATAATAGCCGTAACCGTTATTGGTCGTATGAAGATTCAACAGCGTGGACACCTGACATTCAATATAAGTTTTTTCGTATTCACATAGAATAA MEQLKRYWQDFFAIDRNENDWWARKQALFTERGAEIIQIKGNGHVYSKLRYEQENFHQYHLHVQYLIKQQEQLYLEESVTPYVFKKDHQGNMQAHRRHDYKQEDLVKTDMFKQSNSPSLNRRSKYDRQAAVQYAERWWNDYNPAYRRFPVDCTNYVSQCLYAGGAPMYGAPVRERGWWYQATNWSFSWAVAHSLRWYLAGATSGLRGEEMETAEQLIPGDVICYDFSGDGRWDHNTIVVAKDANGMPLVNAHTDNSRNRYWSYEDSTAWTPDIQYKFFRIHIE NA NA NA NA NA AK015_03112 474 trmL COG0219 tRNA (cytidine(34)-2'-O)-methyltransferase GTGAGTTTACATGTCGTATTATACCAACCAGAAATTCCAGCTAACACTGGCAATATCGCAAGAACATGTTTAGCAACCAATGCAACACTTCATTTAATTCACCCGCTTGGGTTTTCGACAGATGATAAAATGCTACGTAGAGCAGGATTAGACTATTGGCATGATGTAGATATCCGTGAATATCCGTCCATTCAAGCTTTATATGAAGCATATCCAGAAGGAAGTTTTTATTATATTGAAAACTTTGGGACGAATCATTATACCGATTTTGATTTTAGTGACGAGGGTGAACCGTTGTTCTTTGTGTTTGGCAGGGAGACAAATGGCATACCAAAGCAATTATTAGAAGGGAAAGAAGACCGTTGTTTACGCATTCATATGGGGGATAAAGTGAGGTCATTAAACTTATCCAACACTGCGGCGATTATTATTTACGAAGCTTTAAGGCAACAAGGATTTCCTGGGCTATTCTAA MSLHVVLYQPEIPANTGNIARTCLATNATLHLIHPLGFSTDDKMLRRAGLDYWHDVDIREYPSIQALYEAYPEGSFYYIENFGTNHYTDFDFSDEGEPLFFVFGRETNGIPKQLLEGKEDRCLRIHMGDKVRSLNLSNTAAIIIYEALRQQGFPGLF 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 AK015_03113 108 hypothetical protein ATGAAGTTAGCATTAATATTAGGGGTAGCTATTGTATTTATAACTTCTTGTTTCACTGCGGGGTACGAATCAAAACCAGGTATGCCGAGAAAACAACAAAGGACATAA MKLALILGVAIVFITSCFTAGYESKPGMPRKQQRT NA NA NA NA NA AK015_03114 2856 odhA 2-oxoglutarate dehydrogenase E1 component GTGGCACAAAATGAAGAATCCAATGAGCGATTCTGGTCAGAATTTCATGGTCCTAACATGGGGTATGTAGAAGAACAATATGATTTATACAAAGCGGATCCAGAGGCAGTAGATCCATCCATTAAAAAGATGTTCGATGAGCATGGAGCCCCTCAATGGTTATCCCAAGCAGGTGTTTCAACTGTAGCAGAAGCTCAAGCTACATCCATAGACGATGTGAAGAAACTTACCTCAGCAATGAAACTTGTTGAGGCTATTCGACGTTTCGGGCATCTCGTGGCAGATATTTATCCAGTTGGAAGAAGTGAACGAACGTCTAACTTAGTAGATGCAGAAAGCTATGGATTGACACAAGAAGACTTGATGAGCATTCCAGCTTCTTGGTTATGGGAAAAAGCTCCTAGCCATGTAAAAAATGGATTAGATGTAGTAAAAGAGTTGAAAAAGTATTATTCTGGCACAATTACGTTTGAATTTGATCATGTAAATAACGAAGAAGAACGCAATTGGTTAATGGATCTAATTGAAACTGGTAAGGCAAGGCTTAATCTACCAAATGACGAGAGAATTCAGTTGCTTGACCGACTTGCTCAAGTAGAAGGGTTTGAAGGATTTTTACAAAAGACCTTTGTTGGTCAAAAGCGTTTTTCTATTGAAGGGTTAGAAGTCATGGTCCCTATGCTTGATCAGATTGTAAAAAATGCAAGCGCGGACAAAGTAGAGAATATTATGATGGGGATGGCTCATCGTGGTCGCCTTGCTGTTTTAGCACATATTCTTGGAAAACCATATGATAAAATTTTCTCGGAGTTTCACCATTCGCCAAATAAAGAATTGATACCTTCTGAAGGTTCAACCGGCATTAATTATGGCTGGACAGGTGATGTGAAATATCATTTCGGTGCAACAAAGGAACCAGATGTGAAAGAGGGAGCGACACGGATTCGTTTAGCACACAACCCTTCACATTTAGAATTTGTTAACCCGGTTGTAAAAGGCTTTGCACGTGCAGCGCAAGATTCTCGTTATGAAAAAGGCTATCCTAAGCAGGATATAAATAAAGCGATTCCTGTATTAATTCATGGAGATGCGGCGTTTATTGGCGAAGGTGTGGTTGCAGAGACTTTAAATTTAAGTGGTTTACCAGGCTATACGACTGGTGGCTCCTTGCATATTATTGCTAATAATTTACTCGGATACACTACCGATCAAGAAGATGGTCGTTCTACTCGATATGCAAGTGATCTCGCGAAAGGTTTTGAAATTCCCATTATCCATGTGAATGCAGACGATCCAATTGCTTGTATTTCAGCTATTCAAATTGCTTACGAGTATCGCCAGAAATTCCATAAAGATTTTCTTATTGATTTAGTTGGTTATCGTCGCTATGGTCATAATGAAATGGACGAACCAAGAATGACTCAGCCAGATTTGTATAGTTTAATTGATAATCATCCTTCCGTTTCACAAGTTTTTGCAAATGACTTGGAACAAAAAGGGATTATTAATGATGGACAGTTGGAAGAAATGAAGCAAAAAACAGAGTCCAAGCTGCGGGACATTTATAATAATATGAAAGAGAATGAAACAGGAGATTGCGAACCAAAGCCAATGCCAAAAGCTTTGAAAAATGGTTTGGATCAGTTTGAAACAGCTATTGATTTAGAAACGTTACAATCCCTAAACAAAGGGCTGTTGAAACGACCTGAAGGTTTTAACAGCAACAGAAAGCTAGAACGTATTTTAAAACGACGTGAGAATGCGCTTAATGATGGGGAAAAAGCGGATTGGGGAACTGGAGAAGCTTTAGCATATGCTTCTATTTTACGAGACGGCATCCCAATTCGACTAACGGGACAAGATTCAGAAAGAGGAACTTTTGCGCATCGTCATCTTGTGTTACACGATGTGGAAACAAATGAAAAAGTTAGCCCCCTGCATATTATAGATGATGCAAAAGCTTCTTTTGACATTCGGAACAGCCCGTTGTCTGAAGCGGGTGTGCTAGGGTACGAATATGGGTATAGTGTTGAAGCAACAAATACACTTGTTATTTGGGAAGCGCAATTTGGAGATTTTGCCAATGCGGCTCAAGTTGTATTTGATCAATTTATTTCTTCTTCTCGGGCGAAGTGGGGAGAAAAATCGAATATGGTCATGTTGCTTCCACACGGTTATGAAGGTCAAGGTCCAGAACATTCCAGTGCTCGCTTGGAACGCTTTTTACAAATGGCAGCAGAGAATAACTGGATTGTAGCATATGTTACTTCATCTGCTCAATTTTTCCATTTAATGCGCCGTCAAGCTGCATTGCGGAATCGTGAAGAAGCTAGACCGTTAATCATAATGACACCAAAAAGTAGTTTAATACGAAATGAGCGAATGGCTTCATCAGCAGAAGAATTTACAAATGGTAAGTTCCTATCGTTACGAGATCAACCTAACTTAAAAGTAAGCAAGAAAAATGCGAAACGCTTACTTCTAGGTAGTGGTAAGATAATGGTAGATATCGAAGAAGAAATAGCACATTCAGAAGAAAAATTTGATTGGTTGCGGGCACTCAGGGTAGAACAAATATATCCGTTCCCTAAAGAACAATTAGCGAGCGAAATAAAGCAGTTGCCAAATTTAGAGGAAATTGTATGGGTCCAAGAAGAGCCGAAAAACATGGGGGCTTGGGACTTTGTTGACGATTATTTAAGAGATTTGCTACAAGACGGGCAGAAGTTGCGCTATATTGGTCGCCCAGACCGTTCATCTCCAGCAGTAGGTGAACCGAATGTGCATAAAACAGAACAGAAGCAGATTATTCAGGAAGCAATAGCCCCATCACAAGGAGGAGATTCTAATGAATGA MAQNEESNERFWSEFHGPNMGYVEEQYDLYKADPEAVDPSIKKMFDEHGAPQWLSQAGVSTVAEAQATSIDDVKKLTSAMKLVEAIRRFGHLVADIYPVGRSERTSNLVDAESYGLTQEDLMSIPASWLWEKAPSHVKNGLDVVKELKKYYSGTITFEFDHVNNEEERNWLMDLIETGKARLNLPNDERIQLLDRLAQVEGFEGFLQKTFVGQKRFSIEGLEVMVPMLDQIVKNASADKVENIMMGMAHRGRLAVLAHILGKPYDKIFSEFHHSPNKELIPSEGSTGINYGWTGDVKYHFGATKEPDVKEGATRIRLAHNPSHLEFVNPVVKGFARAAQDSRYEKGYPKQDINKAIPVLIHGDAAFIGEGVVAETLNLSGLPGYTTGGSLHIIANNLLGYTTDQEDGRSTRYASDLAKGFEIPIIHVNADDPIACISAIQIAYEYRQKFHKDFLIDLVGYRRYGHNEMDEPRMTQPDLYSLIDNHPSVSQVFANDLEQKGIINDGQLEEMKQKTESKLRDIYNNMKENETGDCEPKPMPKALKNGLDQFETAIDLETLQSLNKGLLKRPEGFNSNRKLERILKRRENALNDGEKADWGTGEALAYASILRDGIPIRLTGQDSERGTFAHRHLVLHDVETNEKVSPLHIIDDAKASFDIRNSPLSEAGVLGYEYGYSVEATNTLVIWEAQFGDFANAAQVVFDQFISSSRAKWGEKSNMVMLLPHGYEGQGPEHSSARLERFLQMAAENNWIVAYVTSSAQFFHLMRRQAALRNREEARPLIIMTPKSSLIRNERMASSAEEFTNGKFLSLRDQPNLKVSKKNAKRLLLGSGKIMVDIEEEIAHSEEKFDWLRALRVEQIYPFPKEQLASEIKQLPNLEEIVWVQEEPKNMGAWDFVDDYLRDLLQDGQKLRYIGRPDRSSPAVGEPNVHKTEQKQIIQEAIAPSQGGDSNE PGPT0001530_1769 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 AK015_03115 1263 odhB Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex ATGAATGAAATAAAGGTACCAGAGTTAGCTGAATCTATTACAGAAGGAACAATTGCGGAATGGTTAGTGAAACAAGGGGATAAAGTAGAAAAAGGCGATCCAGTTGTTGAGCTAGAAACAGATAAAGTGAATGTGGAAGTAAACTCTGAATATTCTGGTGTAATTACAGAAATAATTCAAGTCGAAGGCGATGATGTAGAAGTTGGCGATGTCATTGCAAAAATTGACGAAAATGCAGAAGCAGGAAGTGTAAATACAGAATCTGCTCAAGGTCAAGCTGATGCAAAAGAAGAACAGCAGACAGAAGCCTCTCCTAAACAAGACATAAAGGAAGAAGCGAAAAAAGACTTCAAAGAAGAGACACAAACAAGCGTTGACGTAATCGCTTCACCAGCTGCTAGGAAGCGTGCTAGGGAGCTAGGTATTGACCTAAGTAAGGTGAGCCCACGTGACCCATTAGGTCGCATTCGCCCAGAAGACGTGGAAGATGCTGCGAAAGGTACAGCAAAATCAAGTGAGCAAAAAGAAGAGAAGAAGCCTATCGAGAAAATAGAGTTTGATAAGCCTGTTGAAAGAATTAAAATGTCCCGTCGCCGTCAAACTATTGCTAAACGTCTAGTTGAAGTACAACAAGAAGCTGCTATGCTTACAACGTTTAATGAAGTAGATTTAACCAATGTTATGAAGCTGCGTAGTGAACGTAAAGAGAAGTTTATTGAAAAGCATGGTGTGAAGTTAGGCTTCATGTCTTTCTTTACAAAAGCTGTCGTTGGTGCATTAAAAGATTTTCCATTGCTTAATGCAGAAATTCAAGGTAATGAAATAGTGATGAAGAAATTCTATGATATTGGTATTGCAGTATCTACAGAAGATGGTTTAGTAGTTCCTGTAGTACGAGATGCTGATCGTCTCGATTTTGCAGGAGTGGAAAAAGAAATTGGTAATTTAGGTAAGAAAGCGCGTGATAAGAAGCTAGAAATGAGTGACTTACAAGGTGGTTCATTTACGATTACAAATGGTGGAACATTTGGCTCTATGCTTTCCACACCAATACTAAATGCACCTCAAGTAGGGATTCTAGGAATGCATAATATTCAAAAACGTGCCGTTGTGATGCCAGATGATAGTATCGAAGTACGTCCAATGATGTATTTAGCGCTATCCTATGATCACCGTATTGTAGATGGCAAAGAGGCGGTACAATTCCTTGTTCGTGTTAAACAATTATTAGAAGATCCTTACGATTTATTATTAGAAGGATAA MNEIKVPELAESITEGTIAEWLVKQGDKVEKGDPVVELETDKVNVEVNSEYSGVITEIIQVEGDDVEVGDVIAKIDENAEAGSVNTESAQGQADAKEEQQTEASPKQDIKEEAKKDFKEETQTSVDVIASPAARKRARELGIDLSKVSPRDPLGRIRPEDVEDAAKGTAKSSEQKEEKKPIEKIEFDKPVERIKMSRRRQTIAKRLVEVQQEAAMLTTFNEVDLTNVMKLRSERKEKFIEKHGVKLGFMSFFTKAVVGALKDFPLLNAEIQGNEIVMKKFYDIGIAVSTEDGLVVPVVRDADRLDFAGVEKEIGNLGKKARDKKLEMSDLQGGSFTITNGGTFGSMLSTPILNAPQVGILGMHNIQKRAVVMPDDSIEVRPMMYLALSYDHRIVDGKEAVQFLVRVKQLLEDPYDLLLEG PGPT0001535_1806 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 AK015_03116 1188 nupC COG1972 Nucleoside permease NupC TTGCATATTTTACTAGGTTTATTAGCCATTGTCGTTGTACTTGGGTTAGCATTTTTAATGTCGAATGATAAGAAAAATGTTAATTATAAAGCGATTGGAATTATGTTGATTTTTCAAATTTTAATTACACTGTTTATGTTTGAAACGGGTGTTGGACAATGGATTATTAAAAAGATTTCAGATGGATTCAATAAATTAATTGAATTTGGTAATGTGGGAATCAGTTTTGTTGTAGGAGGATTTGAACTACAAGAGGGTGGCGTCTTTTTCTTTAACGTTCTACTTTTAATCGTCTTTTTTGCTACCTTGCTTTCTGTTCTAACATATTTGAAAATTTTGCCACCAATTATTAAATATTTAGGTTGGCTGATTTCTAAAGTTACTGGACTGCCTAGAGTAGAATCATTTAATGCGGTAAATAGTATCTTTTTCGGGCAATCTGAAGCCTTGATTGCAATCCGGTCTCAATTTCATCATTTAAATGCTAATCGGCTCTATATTGTAAGTGCTTCCGCGATGGGATCTGTTTCAGCATCAATTGTTGGTGCATATTTACAAATGCTTCCACCACAATACGTGCTAGTCGCACTTCCGTTAAATATGTTCAGTGCTTTAATGATTGCTTCTGTTATTGCACCGGTCAATGTACCAAAAGAAGAAGACGTTGTAGACATAAAAAACGTTAGTAAAGAGAAAAGCATTTTTGAAGCAATGGGAAATGGTGCGTTAGAAGGTGGAAAAATTGCCCTTATTGTTGCAGCTATGCTAATTGCTTTTATTGCTTCCCTTGAGTTAGTGAACTGGCTTATTCAATTGATCTTCGCTGGTGTAACATTACAAGAAATACTAGGTTATATATTATATCCTATTGGTTTATTGATGGGAATTTCTCCTGGTGAAGTTATTCAAGCAGGTTCTATTATGGGTACGAAAATTGTGACAAATGAATTTGTCGCTATGCTGCAATTTCAACAAGCGATGGGGGATATGTCGGAAAAAACAATCGGTATTGTTACGGTATTTCTAACCAGCTTTGCTAACTTCTCTTCTATTGGTATTATTGCTGGTACTGTAAAAGGAATTGATGAAGAAAAAGCTGTTAGCGTGTCTCGTTTTGGAATGAAACTTTTAATTGGAGCAACACTAGCCTCTATTTTATCCGCTTCTGTTGTAGGAATGTTTTTATAA MHILLGLLAIVVVLGLAFLMSNDKKNVNYKAIGIMLIFQILITLFMFETGVGQWIIKKISDGFNKLIEFGNVGISFVVGGFELQEGGVFFFNVLLLIVFFATLLSVLTYLKILPPIIKYLGWLISKVTGLPRVESFNAVNSIFFGQSEALIAIRSQFHHLNANRLYIVSASAMGSVSASIVGAYLQMLPPQYVLVALPLNMFSALMIASVIAPVNVPKEEDVVDIKNVSKEKSIFEAMGNGALEGGKIALIVAAMLIAFIASLELVNWLIQLIFAGVTLQEILGYILYPIGLLMGISPGEVIQAGSIMGTKIVTNEFVAMLQFQQAMGDMSEKTIGIVTVFLTSFANFSSIGIIAGTVKGIDEEKAVSVSRFGMKLLIGATLASILSASVVGMFL PGPT0021065_287 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535 NA NA AK015_03117 1359 norM COG0534 Multidrug resistance protein NorM ATGTATCATACAACAAGTTTAAGCGAAAAATTAACCTTATTTATTACGATTGTTATTCCCATTTTAATTACCCAAGTAAGTATGTATGTAATGAATATTTTTGATACGATGATGTCTGGTCGCGCAAGTGCAGCAGATTTAGCTGGGGTAGCAATCGGTTCCAGTTTATGGGTCCCTATTTTTACAGGAGTTAATGGCATATTATTAGCTATTACTCCCATTATTGCCCAATTATTAGGAGCAAAATCAGAAGAACAAATTAGTAAGAAAGTGAAGCAAGCGTTGTACCTTTCTATTACACTTGCCCTTTTCGTCTTTCTATTTGGAGCCATACTTCTTGACCCCATCTTGCAAATAATGGATCTTGAAAACGACGTTGAACACATAGCAAAATTTTATTTAGTAGCACTCAGTACAGGTATTATTCCGTTGTTTATTTTTAATACATTACGAAGCTTTATCGACGCGCTTGGTCAAACCAGAATCTCTATGTTTATCATCCTACTGTCCTTACCATTAAACCTAATCTTTAACTACATGTTTATTTTTGGTAAATTTGGTATACCTACTTATGGCGGTATCGGTGCGGGAATCGCTACATCAATCACTTATTGGCTTATTTGTCTTATAGCGTTCGTTGTTATTCATCGACTGTATCCATTTCGCAAATTTTCTATTTTATCTTATTGGATCAAACCATCGTTTAAAGCATGGTGGGGACAATTAAAAATTGGCGTGCCTATTGGAGCTGCGATGTTTTTTGAAACGAGCATTTTTTCTGCCGTCACTTTATTAATGAGCGCATACAGCACGTATACCATTGCAGCTCATCAAGCAGCCATGAACTTCGCTTCCCTTTTATATATGATTCCCCTTAGCGTTGGCATGGCATTAACAATTGCAATTGGCTTTGAAGTTGGAGCTAAGCGTTTCGATCAAGCGCGTATATATGGGTATATTGGAATAAGCGGTGGAATTTTCATCGCATTATTTGCTGGCTTGGTGATCTATTTTACGAAAGATTGGGTAGCTCTACTTTATAACTCTAATCCAGAAGTAGTTCATTTGACTAAGCATTTTCTGATTTACGCTATTTTCTATCAACTAGCTGATGCCTTCGGTGCGCCTATTCAAGGAGCGCTTCGAGGATACAAAGACGTGAACGCTACATTAGTGATCGCTTTCATTTCCTACTGGGTAATTGGCTTACCTGTTGGTTGGCTGCTAGCGAATTACACTGCTTTAGAACCTTTTGGTTATTGGGTCGGAATTATTACTGGACTATCATGCGGAGCTATAGCATTATTAACACGCTTATTGTATTTACAGCGTAAGTGTAAGAAAAAGATGCATGCGTAG MYHTTSLSEKLTLFITIVIPILITQVSMYVMNIFDTMMSGRASAADLAGVAIGSSLWVPIFTGVNGILLAITPIIAQLLGAKSEEQISKKVKQALYLSITLALFVFLFGAILLDPILQIMDLENDVEHIAKFYLVALSTGIIPLFIFNTLRSFIDALGQTRISMFIILLSLPLNLIFNYMFIFGKFGIPTYGGIGAGIATSITYWLICLIAFVVIHRLYPFRKFSILSYWIKPSFKAWWGQLKIGVPIGAAMFFETSIFSAVTLLMSAYSTYTIAAHQAAMNFASLLYMIPLSVGMALTIAIGFEVGAKRFDQARIYGYIGISGGIFIALFAGLVIYFTKDWVALLYNSNPEVVHLTKHFLIYAIFYQLADAFGAPIQGALRGYKDVNATLVIAFISYWVIGLPVGWLLANYTALEPFGYWVGIITGLSCGAIALLTRLLYLQRKCKKKMHA PGPT0029115_8303 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 AK015_03118 1071 murG UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase ATGACACATAAACGTATTTTATTTACTGGTGGTGGAACCGCTGGGCATGTAATCGTTAATCTAGCTTTAATTCCGTATTATAAGGAGAAAGGCTGGGAAATTGATTATATTGGTTCAAAAACGGGCATTGAACGTAAGCTAATTGAAAAGCTGGAAGGGGTGACCTATCACCCTATTTCTACGGGAAAATTACGACGTTATGCTTCTGTTGAAAATATAAAGGACCCATTTAAAGTTTTAAAAGGAACGTGGCAAGCAGTAAGAATTATAAGGAAACAAAAGCCAAAGGTCATTTTCTCCAAAGGAGGGTTTGTATCTGTACCAGTTTTATTAGCAGCAAAATTAACAGCTGTTCCAGCGGTCATCCACGAATCTGATTATACACCAGGCTTAGCAAATAAAATTGCTATGCCTTTTGCGAAAAAGGTATTGGCGACATTTCCGGAAACAATGAAGTATTTACCAGAAAAAAAATCAGAGTATGTCGGAGCGGTTATTCGAGATGAACTTTTTCAAGGAGAAAAGGAACGTGGGCGCACTATAGCTGGTTTAAATAGCCAGAAACCTGTGCTTCTTATTATGGGAGGTAGTGGTGGTTCACAAAAGATTAATGAAACAGTTCGTCAAAGTTTACCAAAATTACTTTCTACTTTTCAAATCATCCATATTTGCGGAGAGGGAAAGATAGATCGTAGCATTAATAAACTAGGTTACACGCAATTTGAATATGTGCATGATGAATTAAAAGATATATTTGCAGCAAGTGATTTTATTCTATCGAGAGCTGGTTCGAATGCAATTTTTGAATTTCTAGCTTTACGGAAACCAATGTTACTCATTCCTTTATCACGACAAGCGAGCCGTGGTGATCAAATTATTAATGCCAAATCTTTTGCAGAAAAAAGGTACGCTCGTGTATTGGAAGAAGAATCTTTAACAGAAGAAACATTAGTGAAAGAACTTGATTTATTAAGAGAACATGCACCAATTATGCTAGATACAATGAAGCAATATCAAACAGAGCAGTCCCGTGAAAGAGTATTAGCTATTTTAGAAGAAGTGGGGAAATAA MTHKRILFTGGGTAGHVIVNLALIPYYKEKGWEIDYIGSKTGIERKLIEKLEGVTYHPISTGKLRRYASVENIKDPFKVLKGTWQAVRIIRKQKPKVIFSKGGFVSVPVLLAAKLTAVPAVIHESDYTPGLANKIAMPFAKKVLATFPETMKYLPEKKSEYVGAVIRDELFQGEKERGRTIAGLNSQKPVLLIMGGSGGSQKINETVRQSLPKLLSTFQIIHICGEGKIDRSINKLGYTQFEYVHDELKDIFAASDFILSRAGSNAIFEFLALRKPMLLIPLSRQASRGDQIINAKSFAEKRYARVLEEESLTEETLVKELDLLREHAPIMLDTMKQYQTEQSRERVLAILEEVGK PGPT0024150_3960 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563 NA NA AK015_03119 1749 yheI COG1132 putative multidrug resistance ABC transporter ATP-binding/permease protein YheI ATGTTTCGTGTTTTTAAAAAATTAAATTGGTTTTTTAGGTACTATTGGAAACGGTATGTATTTGCTATTATTTCACTAATTATAGCTAGCGCTATTGGGTTGATCCCGCCCAAAATTGCTGGTTATACCATTGATCAAATTCAATTTGAAACATTAACATTACAATTGTTGACAGCTATTATTGTCGGCTACGTACTTTTAATCATCATTCATTATTCCATTTCATTTTTATGGGATTACACACTATTTAGTGGCGCTGTCATTTTAGAAAAATGGATGCGTAGTAAACTGATGCAGCATTTTTTATCCATGACACCAATATTTTTCAGTAAATATCGAACTGGAGATTTAATGGCACGCAGTACGAACGATTTAAAAGCAATTAGTTTAACAGCTGGTTTTGGTGTGCTTACATTGGTCGATTCTAGCATTTTTATGCTTATGATCATTGCAATGATGGGCTTTACAATTAGTTGGAAGCTGACGCTTGTCGCGCTTATTCCATTGCCGATTATGGCTATAGTGATGAATAAATATGGCGCTGCTATTCATAAACGATTTTCCACAGCACAAGCAGCATTTGGAGAAATGAATAACGAAGTATTGGAATCCATTAGAGGCGTTCGGGTAATTCGAGCATTTGTGCAGGAGAAATATGATGCGAAGCGCTTTGAACAACGCACAAAAGATGTATATGAAAAAAATATTGCTGTAGCTAAAATTGATGCTTTATTTGAACCGACGATGAAAATTCTTGTCGGGTTGTCGTACACGATTGGACTTGGGTATGGAGCTTTGCTTGTTTTTGAAAATGTATTAACATTAGGGGATTTAGTAACATTTAACGTATATTTAGGTATGCTTATTTGGCCTATGTTTGCCGTAGGGGAGTTAATTAATGTTTTACAACGAGGAAATGCTTCCTTGGATCGAATAAACCATATATTAAATTATCAAGCGGATGTAACAGAGTCGGATGTGCCCGTACATGTAGAAAAAGTAACATCTATCACATTTGACCATGTTTCGTTTGCTTATCCGAACACGGATAAAAATCAATTAGAACAGGTGTCTTTTCAAATTAAACAAGGAGAGACGCTTGGGGTAGTTGGGAAAACAGGGGCGGGAAAAACAACTTTATTTAAATTATTATTACGTCAATATCCAGGAGTTAAAGGAGAGATTCGTATATCAGATGTAAATGTGAGTGATTTATCTTTGAATACGATTCGCTCTTGGATTGGGTATGTTCCTCAGGATCAAATGATGTTCTCGAAAACAATTCGAGAAAATATTCAGTTTGGTAAAGAAGACGCAACCGATGAAGAAATATTTCGAGTGATGGAGCTCGCCCATTTCTTAAATGATATAAAACAGCTCCCAAATGGGTTAGATACACAAGTTGGAGAGAGCGGTGTTACTTTATCAGGAGGTCAAAAGCAAAGAGTCGCCTTGGCGAGAGCTTTTATTAAGCGTCCTGAACTCCTTATACTAGACGATTCTTTATCAGCTGTGGATGGGAATACAGAAGCAAACATTTTAGAGCATTTACGAGCAGAGAGGCAAAATAAAACGACAATTATTGCCGCTCACCGACTGTCTGCTGTAACCCATGCAGATCATATTATCGTGCTCCAAGAGGGGAAGATTGTTGAGCGGGGAACACATGATGAGTTGATGCAGCTGCAAGGTTGGTATTACACCCAATATGTACAACAGCAGCTTCATGAGGTGGAGGTGACAGGCTAA MFRVFKKLNWFFRYYWKRYVFAIISLIIASAIGLIPPKIAGYTIDQIQFETLTLQLLTAIIVGYVLLIIIHYSISFLWDYTLFSGAVILEKWMRSKLMQHFLSMTPIFFSKYRTGDLMARSTNDLKAISLTAGFGVLTLVDSSIFMLMIIAMMGFTISWKLTLVALIPLPIMAIVMNKYGAAIHKRFSTAQAAFGEMNNEVLESIRGVRVIRAFVQEKYDAKRFEQRTKDVYEKNIAVAKIDALFEPTMKILVGLSYTIGLGYGALLVFENVLTLGDLVTFNVYLGMLIWPMFAVGELINVLQRGNASLDRINHILNYQADVTESDVPVHVEKVTSITFDHVSFAYPNTDKNQLEQVSFQIKQGETLGVVGKTGAGKTTLFKLLLRQYPGVKGEIRISDVNVSDLSLNTIRSWIGYVPQDQMMFSKTIRENIQFGKEDATDEEIFRVMELAHFLNDIKQLPNGLDTQVGESGVTLSGGQKQRVALARAFIKRPELLILDDSLSAVDGNTEANILEHLRAERQNKTTIIAAHRLSAVTHADHIIVLQEGKIVERGTHDELMQLQGWYYTQYVQQQLHEVEVTG PGPT0029040_1603 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 AK015_03120 2022 yheH COG1132 putative multidrug resistance ABC transporter ATP-binding/permease protein YheH ATGTCTACAGAAAAACGATTAGCTGCATATGCTTTTCCGTTTAAGAAACAAATTTTAATTGGCTTATTATGCTTAATTATCGCCGTCGTTCTTGAACTTGCGGGGCCATTAATTGCTAAGCGGGTTATAGATGAGCATATTTTAGGCATAGAAGGAACTTGGAATCATGTAAGAGAGCAAGATGACCGCTATACAGTGGAGTATAAAAGCAAACATTTTAAACGATCAGACCGAATGGAAAGAGGTGAAGCAACTTCAGAAGGTATGGTTACCATTTTAGCAGTAGGATCAAGCTATTATTTTATTAATGATGTCGTACCGCTTGAGGGAGAAAGGCAAATTCAAGATGATACGCTCACGGTAAAAACTGCCGAATCTGAGCAACAATTTACTGCTAATAAATTGTCCTTAGCAGAGATCTATCCATTTTTTAAGCCAGAACAAAGACCTATTCTTTATTTGCTTAGCTTATATGTGGGATTATTAGTTATCGCTGGTTTCTTTCAATTTTATCAAACTTTTTTATTGCAAAAAGCTTCTAATCAGATTGTCAGAAAGATGCGAAATGACTTATTTGAGCATACACAGCGCATTCCCATTAATTATTTTGTCGATCAGCCTGCTGGTAAGATCGTAGCTAGAATTACAAATGATACCGAGGCAATTCGAGATTTATATGAACGTGTATTATCGATTATAGTTACAAGTGTTATCTATATGGCAGGAATATTTGTAGCCTTGTTTATATTGGATGCGCGACTTGCTTTATGGTGTTTACTATTAATACCGTTAATTTGGGGATGGATGAAGTTATATAAGCATTTTGGTACGAAATACAATCAAGTGATCCGTTCAACGATAAGTGAAATTAATGGAAATATTAATGAAGCAATTCAAGGTATGCCAATTATTCAAGCATTCCAAAGAGAAAAAAAGACAAAGCAAGAGTTTGAGAAGTTAAATCAAAAACATTTTATCTATCAGCGTAAGTTGGTGAAATTAAGTGCTTTAACTTCGTATAACTTGGTGACTGTATTTCGAAATATTGCTTTTGTTGGTTTTATTTGGTATTTTGGTTCTGCATCGTTAGAACCGACAAGTGCTATATCTGTAGGTCTGCTTTATGCGTTTACCGATTATTTAACGCGGCTATTTGAACCGGTTACTGATATTGTGAATCAATTACCTCTAATTGAGCAAGCAAGGGTTGCAGGAAGTCGTGTATTTACTTTATTAGATCATAAAGGGGAAGATGTAACTGACGACAAAGTGGAGCGTTATAACGGGCATATTCGTTTTGATCACGTATGGTTTGCTTATAAAGAGGAAGATTATGTGCTCCGGGATATTTCATTTGAAATAAAACCTGGCGAAACAGCAGCTTTTGTTGGGTATACGGGTTCAGGAAAAAGCTCCATTATGAATGTGTTGTTTCGGTTTTATGATCCACAACAAGGAATAATCACCATTGATGGCTATTCAACACTTGATTGGTCCAGACAACAAACTCGAAGTTATATGGGAATTGTGCTTCAAGACCCTTTTTTATTCTCGGGAACAATTATTTCTAATGTAACGATGAATGATCCTGCCATTTCAATTGATAAAGCAAAACAAGCGTTAAAGGCAGTTGGCGCTGACACATTTATTGAAAAGCTTCCAAATCAGTATGAAGCAGAAGTTGGTGAGGGAGGCACGACTTTCTCATTAGGAGAGAGGCAACTAATATCCTTTGCACGTGCACTCGCTTTTGATCCTGCAATTCTTATATTAGATGAAGCTACCGCTAATATTGATACGGAGACAGAAGCAATGATTCAAAAAGCTTTAGAAATTCTTAAAATAGGGCGTACGACATTGGTGATTGCACATCGATTATCAACCATCCAACAAGCTAATACCATTTTTGTATTAGATCATGGTACGATAAAAGAAAAGGGAGATCATAATACTTTGTTACAAGCAAAAGGTATCTATTATCACATGTATCAGATGCAACAAAGTAGTAAATCTGCTGTTTAA MSTEKRLAAYAFPFKKQILIGLLCLIIAVVLELAGPLIAKRVIDEHILGIEGTWNHVREQDDRYTVEYKSKHFKRSDRMERGEATSEGMVTILAVGSSYYFINDVVPLEGERQIQDDTLTVKTAESEQQFTANKLSLAEIYPFFKPEQRPILYLLSLYVGLLVIAGFFQFYQTFLLQKASNQIVRKMRNDLFEHTQRIPINYFVDQPAGKIVARITNDTEAIRDLYERVLSIIVTSVIYMAGIFVALFILDARLALWCLLLIPLIWGWMKLYKHFGTKYNQVIRSTISEINGNINEAIQGMPIIQAFQREKKTKQEFEKLNQKHFIYQRKLVKLSALTSYNLVTVFRNIAFVGFIWYFGSASLEPTSAISVGLLYAFTDYLTRLFEPVTDIVNQLPLIEQARVAGSRVFTLLDHKGEDVTDDKVERYNGHIRFDHVWFAYKEEDYVLRDISFEIKPGETAAFVGYTGSGKSSIMNVLFRFYDPQQGIITIDGYSTLDWSRQQTRSYMGIVLQDPFLFSGTIISNVTMNDPAISIDKAKQALKAVGADTFIEKLPNQYEAEVGEGGTTFSLGERQLISFARALAFDPAILILDEATANIDTETEAMIQKALEILKIGRTTLVIAHRLSTIQQANTIFVLDHGTIKEKGDHNTLLQAKGIYYHMYQMQQSSKSAV PGPT0029045_155 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 AK015_03121 834 hypothetical protein ATGGGGTGGCTTATGGATAAAAATGAAGAGCAAAAGCATGATATTATAGATGAAGATTTATATGAAGAAATAGATGAAGAAGAACTATATGAACTTGTGCAGAAGGAAAAAGAGAAAGCACTGGCAAGAGAAAGAGAAGCTAAAGAGAACAAACGCTCAAAGCGTCCATTTCCTAAATGGGTGTTCTGGCTAATTGCATTGATGCTATTATTAAATGTTGTTGCTCTTCTTCCTCAGACGTTTTCTATTCCGGCGATAGATTTTCTTTACAAGTCAGCCAAGCTCTCGTTACAGGATGATGTACAAACGTACAAACAAGCAGTTGTAACGATTGAAACAAAGGACTCTAAAGGTACAGGCTTCTCCATAACATCAGATGGGATCATTTTAACAAATTACCATGTGGTAGAAGGGGAAGAGAAAGTTGCCGTTGCTTTTCCAGAAGATGGATTACATGAAGCAGAAGTAAAGGAAACGCACCCAACTATTGATTTAGCCGTTTTGCAAGCAGATGTAAAAGATATCCCATTTTTGAAATTGGCCAAAGAGACAGCTGTGCAACCAGATCAACCGATTCGTTTTATAGGTAATCCGCTAAATTTTAATGGAATTGCCAACGAAGGGAAAATTATTGATTACGCATCGCTTAGCACATGGGAAGAAAAAGTGGTAATGATCGAAGCTCCGGTGTATCGTGGAAATAGTGGCAGCCCTGTATTAAATGAATCTGGAGAAGTGATTGGAATTATCTTTGCGACATTAGATGATGAAAAGCATGGAAAAGTAGGTTTGTTTTATCCGATTCATTATTATTATGAATATACAACAAATTAG MGWLMDKNEEQKHDIIDEDLYEEIDEEELYELVQKEKEKALAREREAKENKRSKRPFPKWVFWLIALMLLLNVVALLPQTFSIPAIDFLYKSAKLSLQDDVQTYKQAVVTIETKDSKGTGFSITSDGIILTNYHVVEGEEKVAVAFPEDGLHEAEVKETHPTIDLAVLQADVKDIPFLKLAKETAVQPDQPIRFIGNPLNFNGIANEGKIIDYASLSTWEEKVVMIEAPVYRGNSGSPVLNESGEVIGIIFATLDDEKHGKVGLFYPIHYYYEYTTN PGPT0015105_7049 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 AK015_03122 1578 COG1292 putative glycine betaine transporter ATGCGATTTAAACTAATTGATTGGCCAACATTTTTAGGGGCACTGGTGATTTTATTAGGGGTTTCCCTACCGCTTATATTTTTCCCAGAGGCTGGAGCTGAAGTTATAGGTTTAGCCAATAACTTTATGACAAGTAACTTTGGAATTCTTTATTTATTAATCGGGCTTTTCTGTTTCCTTTTTTTAATTTATGTCGCTTTTAGTAAAAACGGACGTATAAAGTTAGGAAATAGAGAGGATAAGAAAGAATTTAGCACATTTTCTTGGGCTGCTATGTTATTTGCTGCTGGTATTGGTTCCAGTATTCTATATTGGGGAATGATAGAATGGGCTTACTATTACCAAGGACCCCCATTTGGTGCAACTCCGAAATCAAATGAAGCTGTAGAATGGGCCTCTGCTTATGGAATCTTTCACTGGGGACCTATTGCTTGGGCTATTTACACATTACCTGCTTTACCAATTGCTTATTTTTACTATGTACGAAAAAAACCTGTGTTAAAAGTAAGTGAAGCAGTGCGACCTGTTTTAGGAAAGTTTGTTGATGGACCGATAGGCAATATTATTGATATTTTATTTATATTTGGCCTTATGGGTGGCGCAGGTACAACATTAGCTTTAGGAACTCCTATGATTGCTGAAGGTGTCCATGACTTAACAGGTATCCCTGTTACATTAGGCTTAAAAGCAGCCATTATGATATTATGTACAATTATTTTTGCAATTAGTGCTTATTCTGGATTACGCCGGGGGATTAAAGTGCTAAGTGATATCAGTATTTGGTTAACCATTCTCTTGATGGCATTTGTTTTTATATTTGGACCAACTTTGTTTATTAGCGAAACAACTTTTAATAGTCTAGGAATTCTAGCTGATAATTTCTTTCGAATGGCTACATGGTTAGAACCATTTAGAGATTTTGGCGGATTTACTGAAACAGGTTTTCCTGAGTCATGGACTGTTTTTTATTGGGCTTGGTGGGTTGTATATGCACCATTTGTAGGTTTATTTGTCGCCCGTATTTCCAGAGGGCGCACTATTAAAGAAATGGTTTTAGGAACGATGATATACGGCACATTCGGATGTGTCCTATTCTTTGGTATACTTGGCAATTTCGGTCTCTATCTTCAACTAACGGGGGCGTTCGATGTTATTAGCTTTATGAATGAATACGGTGCTCCAGCAGCCATTATTGAAGTCCTTCACCAGTTGCCTATGTCCAATATTGTTGTCGCTGCTTTCTCTATTTTAGCTATTCTATTTTTAGCAACTACATTTGACTCCTCATCTTATATTTTGGCATCTGTTGTTCAAAAACAAGTAACGGGAGAACCATTACGTTGGAACCGTTTATTTTGGGCATTTATGCTCTGTTTACTACCGCTTGTCTTAATGTTTATCGGCGATTTAGAAACATTGCAAACAGCTAGTATTGTTGCTGGTTTCCCACTAATTTTCATCATGTTTCTATTAGCGTGGTCATTTGTTAAAGCTTCTAATTATGACTTGCGTATGTCGAGGGAATTTAAGTCTCCAACCATCTTCATCACTGGAAAAGAAAAAAGAGAAAAGCAATAA MRFKLIDWPTFLGALVILLGVSLPLIFFPEAGAEVIGLANNFMTSNFGILYLLIGLFCFLFLIYVAFSKNGRIKLGNREDKKEFSTFSWAAMLFAAGIGSSILYWGMIEWAYYYQGPPFGATPKSNEAVEWASAYGIFHWGPIAWAIYTLPALPIAYFYYVRKKPVLKVSEAVRPVLGKFVDGPIGNIIDILFIFGLMGGAGTTLALGTPMIAEGVHDLTGIPVTLGLKAAIMILCTIIFAISAYSGLRRGIKVLSDISIWLTILLMAFVFIFGPTLFISETTFNSLGILADNFFRMATWLEPFRDFGGFTETGFPESWTVFYWAWWVVYAPFVGLFVARISRGRTIKEMVLGTMIYGTFGCVLFFGILGNFGLYLQLTGAFDVISFMNEYGAPAAIIEVLHQLPMSNIVVAAFSILAILFLATTFDSSSYILASVVQKQVTGEPLRWNRLFWAFMLCLLPLVLMFIGDLETLQTASIVAGFPLIFIMFLLAWSFVKASNYDLRMSREFKSPTIFITGKEKREKQ PGPT0021960_679 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARNITHINE_USAGE PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451 NA NA AK015_03123 156 hypothetical protein ATGAGTAAACGGACAGCTTTTATGACTATAAATCAATATGTCCAGGTCTTCTACATAAAGCTAATGCTGAATGAAAAAGCTGCGGGGACCAATCATTTGGAGACAACGCATGTGATCTTGTTACATAATAGTCATGCCTATTTAAACAAATTGTAA MSKRTAFMTINQYVQVFYIKLMLNEKAAGTNHLETTHVILLHNSHAYLNKL NA NA NA NA NA AK015_03124 432 hypothetical protein ATGAAGCGTACAGTTGAAATGATTTTCACTAGTATTGGATTAGTGATTTTCTTGTTAATGACAGTTAGTGTTGGCGTCGTTGCGTTTACTAATAATGATACGATGGAATCAATGGTTGAAGAATTCATGCAACTTCAAGAAGAGACTTCAGAACCTGGAGTTGAAGAATTAAATGAACAAGAGTTTAAAACCGTGCTTGAAACAGGAACAAACTATTTATTCTTTGTGTTTTTAGTTCAAATAGCGTTGGGTACCCTTGCATTATTCTTCTTAATAGGAGACAAAAAACCGAAAGCTGCAGGAATATTACTCATTGTTACCGCTATTGTAGGTACCGTTGCCAGCCTTTTCTTTGGTATTTTCGGAGGCGCCGCTTACCTAATCGCAGGTATTATTGCCCTCGTTCGTAGACCTAAAAAAATGATCGAATAG MKRTVEMIFTSIGLVIFLLMTVSVGVVAFTNNDTMESMVEEFMQLQEETSEPGVEELNEQEFKTVLETGTNYLFFVFLVQIALGTLALFFLIGDKKPKAAGILLIVTAIVGTVASLFFGIFGGAAYLIAGIIALVRRPKKMIE NA NA NA NA NA AK015_03125 603 rpsD COG0522 30S ribosomal protein S4 ATGGCTCGATATACTGGACCAGTATGGAAAAAATCACGTCGTCTTGGCATTTCATTAACAGGAACTGGTAAGGAATTAGATAAACGTCCTTACGCACCAGGTCAACATGGACCGAATCAACGTAAGAAAATGTCTGAATATGGTTTACAGCAACAAGAAAAGCAAAAGCTTCGTTTTATGTATGGTTTAAATGAACGTCAATTCCGTACATTGTTTAACAAAGCAGGAAAAATGAAAGGTGTTCACGGTGAGAATTTCATGCTATTACTTGATTCTCGTCTTGATAACTTAGTTTACCGCTTAGGTTTTGCTCGTACACGCAGACAAGCTCGCCAGCTTGTTAACCATGGTCATATTACAGTTGATGGTTCTCGCGTAGATATTCCATCTTACATGGTCAAACCTGGCCAAGTTATTGGTTTACGTGAAAAATCTAAAAACCTAGATATCGTAAAAGAAGCAATTGAAGTAAACAACTTTGTTCCTGATTACTTATCACTTGATGAGGAAAAGTTAGAAGGAACATTCACACGCTATGCAGAGCGTGAAGAGTTACCAGCAGAAATTAACGAATCCTTAATCGTTGAATTCTACTCTCGTTAA MARYTGPVWKKSRRLGISLTGTGKELDKRPYAPGQHGPNQRKKMSEYGLQQQEKQKLRFMYGLNERQFRTLFNKAGKMKGVHGENFMLLLDSRLDNLVYRLGFARTRRQARQLVNHGHITVDGSRVDIPSYMVKPGQVIGLREKSKNLDIVKEAIEVNNFVPDYLSLDEEKLEGTFTRYAEREELPAEINESLIVEFYSR NA NA NA NA NA AK015_03126 1677 hypothetical protein ATGGACCACTTATCATTCATTGTAAATCAAATATATGCTTTAAATGATGTTTATGTTGTAGCTGTTTATCAATGGCATGGTACCTACTACAAACGCCTTCTTTTACACCAGCTAAAAAACAGTACGTATGCTACTCCTGAGAAGATGACAATAGAAGAGCAAAAGCTTTACGAACGAACAAATGAAAAGGGATACCCGATACAGATAACGGAGGATTATTTGTTATTAATTACAACAAGGAAGCCTATGCAAGCTTCCATTCGTTCTTTTATACGTTCTGAAGTTATAAATATGTTGGATTTGATGCAAGGACAAATGAATGAAAGAACACAATATCAATTCCTTTACCATTTAACGGTTACTTTGTTTGTGCAAAAACAGAAATCAACCATCGTAGAAATAATATTGCATGCGTTCAAGCACTTTTATCCCACCAATAAAATTCAGTTATTGTTATCACAAGACACGGAAATAGATGTTGATTATCCAATAGAGCCAATTGAATATAATGATAAACAGTCAGTAAGTTTGAGTACCAAGGCATTTATATCTGGAGAGGTGCAAGTTGAAAAACAATTAGAAACTGTATCCAGCATTTTCTTGCCGTTAACAGGAAACCAAGGCGTTTATGGTGTCATTCAATTATTTGGGAAAGGTGGGCATAATTTTTCAAACCAAGATATTTTATTTGTGACTAATGTAGCGAAAACGGCAGGGAAGGCAATTGAAAATGCTAGTCTAATGGAGCATAACAAACGACTCATTTCAGAATTAAAATTAATTAATGACGTCACGCATCACCTTAATTCCAACTTAGATTTGAAGGATATTGCGGAGTACATACGAGACACCATTCTAGAAATATGTGAAGCGCAGGAAATTGGCTTTATTTTTTATACAGAAACTGGAGAGATGACAATTTTACAAGCAAGCACAGATTATTTTCATGGTTCTGATAGCTTTACTACGTTTTTAATGGAGCAAGAGATGCGAGCAACCTTTCATGGAAATTACAATGCCTTTCCTGATTTGCCATATCGCTCTTTAATATGTATTCCTTTGCAGCAAGGAGTAAAAGTTTATGGCATGGTAGTACTTATGCATTCTTCTTCTTATTTCTTTTCCTTTGAGATGTTTAAATTTATGCAATCACTTATTCAGCATTGTTCTTTAGCGTTCTTTAACACTATTTTAAAAGAAGAACTTCAAAAAGCAGTGATTACAGATGATTTAACGAAACTTTATTCGAGGAATTACTTAGAAGGAAAAATTAGTCAACAGCGACAAATAACACGAAATGGTTCTTTAATTCTTTTTGATATTGATGATTTTAAGAAAGTAAACGATACATATGGACACCATATTGGTGATAATGTGTTAAAACAAGTAGCGAAAATTATTCGGCAATTTTCGAATCATCACGCAATCCCAGCGAGATGGGGTGGGGAAGAGTTAGCGATTTACACACCGGATAAGGAAATTAACGAAGCGGTAGTATTGGCAGAAGAAATTTGCAACTATGTGGAAAATAATACGGATCCGCCGGTAACGCTATCTTGTGGTGTGTCTACTTGGAAAAACAACTGCAATGATTCTATTAGTGAGTTATTTGTTCGTGCAGATCGTGCACTTTACAAGGCAAAGCATAGAGGTAAAAATAGTGTTGTAAGAGGGTAG MDHLSFIVNQIYALNDVYVVAVYQWHGTYYKRLLLHQLKNSTYATPEKMTIEEQKLYERTNEKGYPIQITEDYLLLITTRKPMQASIRSFIRSEVINMLDLMQGQMNERTQYQFLYHLTVTLFVQKQKSTIVEIILHAFKHFYPTNKIQLLLSQDTEIDVDYPIEPIEYNDKQSVSLSTKAFISGEVQVEKQLETVSSIFLPLTGNQGVYGVIQLFGKGGHNFSNQDILFVTNVAKTAGKAIENASLMEHNKRLISELKLINDVTHHLNSNLDLKDIAEYIRDTILEICEAQEIGFIFYTETGEMTILQASTDYFHGSDSFTTFLMEQEMRATFHGNYNAFPDLPYRSLICIPLQQGVKVYGMVVLMHSSSYFFSFEMFKFMQSLIQHCSLAFFNTILKEELQKAVITDDLTKLYSRNYLEGKISQQRQITRNGSLILFDIDDFKKVNDTYGHHIGDNVLKQVAKIIRQFSNHHAIPARWGGEELAIYTPDKEINEAVVLAEEICNYVENNTDPPVTLSCGVSTWKNNCNDSISELFVRADRALYKAKHRGKNSVVRG PGPT0015900_277 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-CELL_FATE_CONTROL PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488 AK015_03127 507 msrC COG1956 Free methionine-R-sulfoxide reductase ATGTTTCAAACTATTTATTATTCGGGAGATAAACAGAGAGATTATGATTTGTTAATTCGACAGCTTCAAGCGTTAAGCGATGGTGAACAAGATGAAATAGCCATTCTTTCTAATACATCTGCGCTTTTAAACCAATTTCTAGATAACACAAACTGGGTTGGATTTTATATTTGGAAAGAAGAAGAAAATGAATTAGTACTAGGTCCTTTTCAAGGTTTACCAGCTTGTATTCGAATTGGTTATGGAAAAGGCGTTTGTGGTACAGCTATTGCGGAAAAAAAGACGCAACTTCTTGCAGATGTCCACCAATTCCCTGGTCATATTGCTTGCGACGGGGACACTAATTCGGAAATAGTCGTACCTATTATACTAGATGATAAAATATTTGGCGTGCTAGATATTGATAGCCCTATACATGATCGATTTGATGAAACAGATCGAATTTATTTGGAGAAATTCGTTCAAACGTTGCAGTACTATTTAAAAATGTCTGAGACGACTTATTAG MFQTIYYSGDKQRDYDLLIRQLQALSDGEQDEIAILSNTSALLNQFLDNTNWVGFYIWKEEENELVLGPFQGLPACIRIGYGKGVCGTAIAEKKTQLLADVHQFPGHIACDGDTNSEIVVPIILDDKIFGVLDIDSPIHDRFDETDRIYLEKFVQTLQYYLKMSETTY NA NA NA NA NA AK015_03128 621 yttP putative HTH-type transcriptional regulator YttP ATGAAAATGAATCCCTCGAAACAAAAGGTTATTGAAGCGGCTACTGAACTCTTTTTTCAAAAAGGGTTTCATGGTACATCTGTACGTGATATTGCAGATAAAGCAAGAGTCAATGTATCCTTAATCAGCTATTATTTCAAAGGAAAACAAGGTTTACTTGAATTCGCTGTTACAGACTATTATGAAAAATACCTTGAAACAGTAGAAGCTACCATTGAACAGAATCAACATCTAAACAAATTGCATCAATTAAAAGAATTAATTTTTTTTATTATACAGTATAAACAAACAAAGCATCAATTCTCTTGTTTTATCCACAGAGAGTTGTCATTAGATTCCGTTTTTGTAAGAGAAATTTCTGTTACATACTTAGCGAAGGAAAATCATCTATTGACTCAAGCGTTTTACGGAGTGCTAGATGAGCAACGGACATCAATTAATGATCGAACCTATTTGTTTATGCAATTGAAAGGTATGTTAGTAACACCATATATGATGCCGAATGAATGGAAACATCAAATAATTGGAGAATACTCGCACCAAATCTTTGTTCGGAATTATGTGAAAACAATTCATGACTGGCTTGATTGTTTAGTTATGAAGCAAAAAAATTATGTATAA MKMNPSKQKVIEAATELFFQKGFHGTSVRDIADKARVNVSLISYYFKGKQGLLEFAVTDYYEKYLETVEATIEQNQHLNKLHQLKELIFFIIQYKQTKHQFSCFIHRELSLDSVFVREISVTYLAKENHLLTQAFYGVLDEQRTSINDRTYLFMQLKGMLVTPYMMPNEWKHQIIGEYSHQIFVRNYVKTIHDWLDCLVMKQKNYV PGPT0029255_898 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 AK015_03129 1695 ezrA COG4477 Septation ring formation regulator EzrA ATGGCATACATCATTGGCATTATACTTGTAGTTATCGCACTTGTTATTACAGGACTAATTTTACGTAAAAGGGTATATGATGTTGTCGATCGCAATGAAGCTTGGAAAATGGATATCATGGGTCGAAACATCAATGCCGAGCTCTCCCGTATAAAAATACTTAACTTATCTGGAGAAACGCAAGATAAGTTTGAGGCGTGGAAAGAGCGTTGGGAACATATTGTTACAAAGGAATTAACAGATATTGAGGAGCATTTGTTTGATGCGGAGGAAGCGGCAGACCGTTATCGCTTTTCAAAAGCAAAAAAAACTTTAGTAGAAGTGGAAAAAATACTTCAAAAAGTAGAAATGGAAATTGAACAAATTATTAAAGAAGTGGATGAGTTACTCAATTCTGAGGCAGAGAGTCGAAAAGAAATGGAATATGTTGAACCAGCGCTAAAAGATTTGCGGAAGAAACTATCGCAAAATCGTTATCAATATGGGAAAGCAGAGAGTTATTTTGAAACAAAATTAGATGAACTGTTTAAAGAGCTTGCTTCTTACTATGAACTAATAGAAGAAGGGAATTACATAGAGGCAAAACAATTGGTTGATAATCTAAAACTTTCTCTTGATCATTTGCAAATACAGCTTGAGGAATTTCCACATGTATATAAAATGTGTAAACAAGAGCTTCCTTCTCAATTAGATGATCTACTTTCGGGAATTAAGGAAATGAAAAGTGAAGGGTACCGCGTTGAGCACCTTGCGTTTGAAAAAGAAATTCGCAACTATCAGCAAAAGCTTACACAGATCGTGGATAAACTGGATAAAGGTGACATGGCTAATGGCGAGACATTAATTGAAGAGATCGAAACACGTTCCAAAGAAATGTATCAATTATTGGAAAAAGAGGCAATTGCTAAAAATTATGTGGAAACAAAATTACCCACTTATCAACAAACGATGCAAGAAGTTACAGCTACTTTTAATGACACAAAGCAAGAGGTAGAGCAGCTACAAAAGGCTTATTATTTTGAAGATAGTGATATGGAAAAATATATATCTTTGGAAAAATTAATTTCGAAATTAAATTCACAAATGGAAACAGTTGTCTCCGATATGGAAGAAGAAAAATCGCCGCATACAAAGCTTCGTAAAGAAATAGAAGAAGCACTTGAAGAAATTGAGACATTAAAAGAAAGCCATAAAGCATTCAAAAAACGAATTCAAAATCTACGCAAAGATGAGCTAGAGGCTAAGGAAATGTTGACAGAAATGCGGAATGAGTTGTATTCTGTACAACGAAAGCTTAAAAAGAGTAATGTTCCTGGAGTTCCTACATTTATTTGGAATCTTATAGAAACAGCTAATGATAAAAATCAACGTGTTGTAAAAGCATTAGAAAATCAGCCTTTAGAGATGGCAGAAGTGCAACAAGCATTAAATGATGCGAAAAACGCTGTGACCTATTGTGTAGAACAAACAGAATTGATGTTAGAACAAGCCTATTTGACTGAGCAGGTCATTCAATATGCGAACCGATACCGGAGCCAATACCCGCTGTTAGCGGAAAAATTGGCGGAGTCGGAGCGTTTATTTAGGAATTATGAATATGAATTAGCACTTGAGAATGCGGCTAAAGCAATTGAAGAGGTAGAGCCGGGAGCCCTAAAGCGCATTGAGGCTTACCAATCTGCTGTTGAGGAATAA MAYIIGIILVVIALVITGLILRKRVYDVVDRNEAWKMDIMGRNINAELSRIKILNLSGETQDKFEAWKERWEHIVTKELTDIEEHLFDAEEAADRYRFSKAKKTLVEVEKILQKVEMEIEQIIKEVDELLNSEAESRKEMEYVEPALKDLRKKLSQNRYQYGKAESYFETKLDELFKELASYYELIEEGNYIEAKQLVDNLKLSLDHLQIQLEEFPHVYKMCKQELPSQLDDLLSGIKEMKSEGYRVEHLAFEKEIRNYQQKLTQIVDKLDKGDMANGETLIEEIETRSKEMYQLLEKEAIAKNYVETKLPTYQQTMQEVTATFNDTKQEVEQLQKAYYFEDSDMEKYISLEKLISKLNSQMETVVSDMEEEKSPHTKLRKEIEEALEEIETLKESHKAFKKRIQNLRKDELEAKEMLTEMRNELYSVQRKLKKSNVPGVPTFIWNLIETANDKNQRVVKALENQPLEMAEVQQALNDAKNAVTYCVEQTELMLEQAYLTEQVIQYANRYRSQYPLLAEKLAESERLFRNYEYELALENAAKAIEEVEPGALKRIEAYQSAVEE NA NA NA NA NA AK015_03130 1140 iscS_2 COG1104 Cysteine desulfurase IscS ATGATTTATTTAGATAATAGTGCAACTACTAAACCAGAAGCATCTGTGTTAAAAAGCTATGAAAAAGTGTCCATGAATTTTTTTGCGAATCCTTCCTCTATCCATTCACTAGGGGGAGAATCGGAGAAGTTGTTGCATCAAGCAAAAGGCGAGGCAGCTAAGTTATTAGAAGTTGCTCCTTCCGAAATTGTATTTACTTCTGGTGGAACGGAAGGGAATAATCTTGCAATTAAAGGAATTGCTTTTGAACATCAGCATAGAGGAAAGCATATAATTACAACTGCTATTGAGCATGCATCTGTATACGAGGCGTGCAAAGGCCTAGAAACATTAGGTTTTGATGTCACCTATTTACCTGTTAATCAAGAGGGTGTTATTAATTTAAATGATTTACAGGCGGCCATTCAAGATGACACAATTTTATTAAGTATCATGCACGTAAATAGCGAGCTTGGATCGATACAACCTATTGAGGGAATTGCAAAAATTGCCGAACATTATCCAAAATTATTCTTCCATGTTGACTATGTGCAGGGGTTAGGCAAAGTGCCTTTGACTCTCACAGATAGTGGAATAGATCTGTGTACAATGTCAGGCCATAAAATCCATGGTTTAAAAGGAACTGGTATTTTATATGTGAAAGATCGAACCACACTCTATCCATTATTTCATGGAGGGTCTCAGGAACAAGGAATACGTTCTGGAACAGAAAACCTGCCAGGAGCAGTTTCATTCATAAAAGCATTACGATTGATTTTGGAAAAAGAAAAAAATCAAAGAGACGACCTAATACAAATGCAACAATACATTCGTAAGGAGCTAGAGGAACTGCCGGATGTTTTTATTAATACACCGTTACATGCAGCACCACACATTATCAATTTTTCTGTTCCTGATATAAAGCCAGAGGTTCTCATTCACACACTAGCCAATCATGGTATTTATATTTCAACAAAGTCCGCTTGTTCTTCTAAGCAATCCGAGGAAAGTAGGATTCTTATAGGTTGCGGTTTACCTAAGTCAAGGGCAACATCTGCACTTCGTATTAGCCTTTCCTATATGAATACAATGGAAGAGTTACAAAGATTTATTAATATATTAAGCAAGAGTATACAGCAATTAAAAAATGTACTGGGGTAG MIYLDNSATTKPEASVLKSYEKVSMNFFANPSSIHSLGGESEKLLHQAKGEAAKLLEVAPSEIVFTSGGTEGNNLAIKGIAFEHQHRGKHIITTAIEHASVYEACKGLETLGFDVTYLPVNQEGVINLNDLQAAIQDDTILLSIMHVNSELGSIQPIEGIAKIAEHYPKLFFHVDYVQGLGKVPLTLTDSGIDLCTMSGHKIHGLKGTGILYVKDRTTLYPLFHGGSQEQGIRSGTENLPGAVSFIKALRLILEKEKNQRDDLIQMQQYIRKELEELPDVFINTPLHAAPHIINFSVPDIKPEVLIHTLANHGIYISTKSACSSKQSEESRILIGCGLPKSRATSALRISLSYMNTMEELQRFINILSKSIQQLKNVLG PGPT0000065_6819 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 AK015_03131 1215 thiI COG0301 putative tRNA sulfurtransferase ATGTACTGGGGTAGATATATTATGCAATACGATCATATATTAATTCGTTACGGAGAAATGGCTTTAAAAGGAAAAAATATGAAAGCATTTGTTCTTCGTTTACAAGAGAATATTCAAAGTAAGTTGCAGGATTATAAAAATGTAAAGGTAAAACGCACGCAAGGAAGAATGTTTATTTTATTAAATGGTCATGATCCAGAACCGATCATAGCGAAGTGTAAATATATTTTTGGTATTCAGAGTTTAAGCTTGGCCATTAAAGAAGAAAATGAACCTGAAAATATTAAAGTAGCAGCGTTATATGCACTAAAGAAAAATACTGCTGCTAAGACATTTAAAGTGACAGTAAAGCGCATAAACAAAGCCTTTCCAGTCCGATCGCAAGAATTTAACCATGTAGTAGGACGATATTTGTTATTGAATACAAATGGTATTACAGTAGATGTTCATCACCCAGATATAGAAATTAAAATTGAAATTCGCCATGAAGCAACGTATATTACGTCCAGTGTTGTCCAAGGAGCTGGTGGGTTACCAGTTGGCACTTCGGGTAAATCGTTATTGCTATTATCCGGCGGAATTGATAGTCCTGTAGCTGGTTATCTAGCAATGAAACGAGGTGTTCAATTGGAGGCTATACACTTCCATTCCCCGCCATTTACGAGCGAGCGAGCAAAGCAAAAAGTGCTTGATTTGGCTAAACAATTGACACATTTTGGGAAATCTATTCAAGTTCATCTGGTGCCATTTACGAAGTTACAACAGGAAATATTTCGGCAAGTGCCCGATGGTTATGCAATGACGATTATGCGTCGAGTAATGATGCAAATTAGTGAAAAAATTTGTCAAGATCATTCCATTTTATCCTTAACTACAGGAGAAAATTTAGGTCAAGTTGCTAGTCAAACGATGGAAAGCATGCATGTTATTAATGAAGTTACAAACTTGCCTATACTGAGGCCATTGGTTGCAATGGATAAAACAGAAATTATTGACATAGCTAAAAGAATTGGCACATATGAGACCTCCATTCTCCCTTATGAAGATTGCTGTACGGTCTTTGTGCCAAAATCTCCAAAAACCAAACCAAAAAGAGATAAAGCTAACCATTTTGAAGCAAAAGCAGATTTCACGAAGTTAATGGATGACGCTATAATGGAAGTGGAGACAATTAAAATTACTTCTAACGAAAATGCTTACGTTGATTTATTTTAA MYWGRYIMQYDHILIRYGEMALKGKNMKAFVLRLQENIQSKLQDYKNVKVKRTQGRMFILLNGHDPEPIIAKCKYIFGIQSLSLAIKEENEPENIKVAALYALKKNTAAKTFKVTVKRINKAFPVRSQEFNHVVGRYLLLNTNGITVDVHHPDIEIKIEIRHEATYITSSVVQGAGGLPVGTSGKSLLLLSGGIDSPVAGYLAMKRGVQLEAIHFHSPPFTSERAKQKVLDLAKQLTHFGKSIQVHLVPFTKLQQEIFRQVPDGYAMTIMRRVMMQISEKICQDHSILSLTTGENLGQVASQTMESMHVINEVTNLPILRPLVAMDKTEIIDIAKRIGTYETSILPYEDCCTVFVPKSPKTKPKRDKANHFEAKADFTKLMDDAIMEVETIKITSNENAYVDLF PGPT0008940_1199 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 AK015_03132 204 sasP-C_2 Small, acid-soluble spore protein C ATGGCAACTAACAATTCAAATCAATTAGTAGTCCCTGGTGTACAACAAGCTCTAGATCAAATGAAGTATGAAATTGCTCAAGAATTTGGTGTTCAATTAGGACCGGATTCAACTTCTCGCTCTAACGGATCTGTTGGTGGGGAAATTACGAAACGTCTAGTACAAATGGCAGAGCAACAATTTGGTGGTCAACAAACTTACTAA MATNNSNQLVVPGVQQALDQMKYEIAQEFGVQLGPDSTSRSNGSVGGEITKRLVQMAEQQFGGQQTY PGPT0024860_247 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 AK015_03133 798 nadK COG0061 NAD kinase ATGGAACGAAATAACTTGTTTTTTTACTACTTAAATCCAACCGGTATAGAAGAAAAGATAGCAACTCTTCATCATGCCGCAATTGAAAACGGTTTTAAAGTTGTAGAAGATGCTAAACACGCAAATATAATTGTGAGTATCGGTGGCGATGGTGCTTTTCTGCAGGCAGCTAGAAAAACACAATACCGCCAAGATTGCATTTATATTGGAATTAATCGCTCAGGAGAATCCAGTTTATATTGTGATTTTCATTTGGACAATTTTGATAAAATGATGCATACTATGCAGCATGAAGAACTTGAAATACGACGTTTTCCTATTATTAAAGCAAATATTAACGATGAAACTAGCTTCTTTTGCCTTAACGAACTAAGTGTTCGCTCTACCATTATTAAGTCCATTGTGATGGATGTATTCATTGATGAGCAACATTTTGAAACATTTCGCGGAGATGGTTTAATTGTTGCTACTCCTACTGGGAGTACAGGATATAATAAATCTACAAATGGTGCTGTTATAGACCCTCGCATTCCTTGTTTCCAAGTAACAGAACTGGCATCCATTAACAATAACCGTTATCGTACACTTGGTTCTTCTTTTATACTTAACAAAGACAGAACTTTACGTTTGTCTGTGCGTCAAGATGGAAATGATTACCCAATTATTGGCCTTGATAATGAAGCATATTCCATTAAAAACATTCAGGATATCACTGTTACTTTAAGCGACAAAGTTGTAAAAACTGTAAAATTAAAGAATAACTCTTTCTGGGATCGTGTCAAACGAACCTTTCTGTAA MERNNLFFYYLNPTGIEEKIATLHHAAIENGFKVVEDAKHANIIVSIGGDGAFLQAARKTQYRQDCIYIGINRSGESSLYCDFHLDNFDKMMHTMQHEELEIRRFPIIKANINDETSFFCLNELSVRSTIIKSIVMDVFIDEQHFETFRGDGLIVATPTGSTGYNKSTNGAVIDPRIPCFQVTELASINNNRYRTLGSSFILNKDRTLRLSVRQDGNDYPIIGLDNEAYSIKNIQDITVTLSDKVVKTVKLKNNSFWDRVKRTFL PGPT0013490_5579 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858 NA NA AK015_03134 576 hypothetical protein GTGAAAAGCGTGTGGATTACATTTTGGGTTTTATTTATTTTGTTAATAACTATGATCATGATTTGTTCAATTAATTGGAAGATGAGTATTCGCATTGAATATTCTTCAACACAATTTATGTTACATATAAAAATAAGTTGGCTTTTTATTCAAATAGTAAATAAGACAATTCAACTTCAGCAACTGGAAACGTATGAAGAGCGTTCTTTTGATTCTTTATCTGACCAGTTACAAAAAATGTATCGTCTTCTAAAAGAGATCAATGCCATAGCCAAAGCTACTTTACAACATATAGTTATTCAGCAATGGCAATGGTATACGAAAGGAGGGACAGGAGATGCTGCTGTAACAGGCACGCTTTCTGGTTTCGTTTGGGGAATTAAAGGTGTCATAACTAGCTGGATTATGGGGAAAAGTAAGCAAAGTTGCAAATCAGACTTGCAAGTGCAACCTTTATTTCAACAAAGATATTTAGAGGTGTATTTTTCTTGTATGGTATCCATTAAAATCACACAAGCTATAACTAGTTTTATACAAGTGTTACGAATAGTAGATATGCAAACAAAGCAAAGTTAA MKSVWITFWVLFILLITMIMICSINWKMSIRIEYSSTQFMLHIKISWLFIQIVNKTIQLQQLETYEERSFDSLSDQLQKMYRLLKEINAIAKATLQHIVIQQWQWYTKGGTGDAAVTGTLSGFVWGIKGVITSWIMGKSKQSCKSDLQVQPLFQQRYLEVYFSCMVSIKITQAITSFIQVLRIVDMQTKQS NA NA NA NA NA AK015_03135 456 ytfJ COG3874 putative spore protein YtfJ ATGGAAGATCATCCAATACAAGGTTTAATGACAACAGCAATGGAAAACTTAAAGGATATGGTGGAGGCAAATACCATTATAGGTAATCCTGTACAATCTCCAGACGGTAGTATAATTATTCCTGTATCTAAGGTTGGGTTTGGTTTTGCAGCAGGCGGCAGCGAATTTCAATCAACAAGTAACCTTTCATCAGACAGTGAAGCGACATTGCCTTTTGGCGGTGGTAGTGGAGGTGGTGTATCCATTACACCTGTAGCCTTTTTAATCGCAAGTAATCAAGGAATTAAGATGGTGCATTTGGATGAGCAAACACATATTTATGAAAAAATGTTGCATTTTGCTCCTCAAGTTGTCGAAAAAGTACAAGAGATTATTCAATCTGCTGATAAAAAACAGTCATCGAAGAAAGATACCGAAAAAAAAGATAAACAAGCTCCGACGCAATATGATGTTTGA MEDHPIQGLMTTAMENLKDMVEANTIIGNPVQSPDGSIIIPVSKVGFGFAAGGSEFQSTSNLSSDSEATLPFGGGSGGGVSITPVAFLIASNQGIKMVHLDEQTHIYEKMLHFAPQVVEKVQEIIQSADKKQSSKKDTEKKDKQAPTQYDV PGPT0024995_131 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA NA NA AK015_03136 501 tpx COG2077 Thiol peroxidase ATGGCAAATGTGACATTCCAACATAAACCAGTTACCCTGTTAGGTACAGAGGTGCAAGTTGGTGATCAAGCACCAAATTTCAGGGTATTGACGACTGATTTACAAGATGCAACGTTGGATGATTACAAGGGAAAAATAAAGCTAATCAGTGTTGTTCCTTCGATTGATACTGGTGTATGTGCTGATCAAACAAAGCGGTTTAATGAAGAAGCATCCGCAATAGGTAACGTTCAAGTACTAACAGTGAGTATGGATTTGCCTTTTGCACAAAAGCGTTGGGTAACCGAGCATAATATCGATAAATTAGAAATGTTATCCGACCACCGTAATGCAAATTTTGGTCATCAATACGGAGTTCTTATAAAAGAATTACGCTTACTGACGCGAGCTATTTTTATCATCGATCGTAACGACAAAGTTCAATACGTAGAATATGTGAGTGAAGTGAGCAATCATCCAGATTATGAAGCTGCTCTGGAGGCTGCAAAAAAAGCAATTTAA MANVTFQHKPVTLLGTEVQVGDQAPNFRVLTTDLQDATLDDYKGKIKLISVVPSIDTGVCADQTKRFNEEASAIGNVQVLTVSMDLPFAQKRWVTEHNIDKLEMLSDHRNANFGHQYGVLIKELRLLTRAIFIIDRNDKVQYVEYVSEVSNHPDYEAALEAAKKAI PGPT0013105_1062 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065 NA NA AK015_03137 996 hypothetical protein ATGAAGAATTCAAAATCAAATGTAGAGACACTTTATAGTTGGATAGATGAGATTACTACAACTATCCAAGAATATGTGAATGAAACTTATTTAGACAGCTTGATATATGCACAAGAATGTATTTTTCACTGCACACCTACGATAAATCATGACGAACAACTAACTCATAAGCTGGAAACATTATTACAAACCACATCCATAGCTGACTATACAGTTGAAGAGATTAGAAAGGCAAATCAGCTAGCAATATTAAAAGGAATGAAAGGCTCAATTCAAGCACAGCATATGATGACTCCTGAAACAATTGCTTTAATTATTGCTTATCTAAGCAACAAACTAATGGAAGGGCAAAAAGCAATTCGTATTTTTGATCCAGCAAGCGGTACTGGAAACTTGTTGACAACTGTGTATAGCCAACTTCCTCAAGATAAAGAAGCGTATGCAAGTGAAGTCGATCCAACATTAATTCAACTAGGTGTATGGAATGCCAATCTACAAAAGCAGCAAATTGAATTTTTTCACCAAGATAGTTTGCAACCTTTTTTACTAGACCCGGTTGATTTAGTTGTAGCAGATTTACCAGTGGGCTATTATCCTGACGACATGCAGGCGTCACGCTTTGAATTACAAGCAAAAGAAGGACATTCCTATGCACATCATTTATTTATGGAGCAAAGTCTTAAATATACTGTAGATGGAGCATATCTTTTATTTGTTATTCCTGAGTTTTTGTTTGAAAGTGATCAAGCAGATCAATTAAAGAAATTTTTACATGAACATGCACATATTGTAGGACTACTAGGTTTACCTGATACAGCATTCCAAACAGATAAACAAAAAAAGAGTATTTTAATTTTACAAAAAAAAGGTCACCATACCACCACTCCTAAACAACCATTATTGGTGAAAATGCCTTCTTTTTCAAATACCAATGCAATGGGAGATATTTTAGGTCAAATAAATAATTGGTTCCAAACGTATAAAAAGAGGAGTTGA MKNSKSNVETLYSWIDEITTTIQEYVNETYLDSLIYAQECIFHCTPTINHDEQLTHKLETLLQTTSIADYTVEEIRKANQLAILKGMKGSIQAQHMMTPETIALIIAYLSNKLMEGQKAIRIFDPASGTGNLLTTVYSQLPQDKEAYASEVDPTLIQLGVWNANLQKQQIEFFHQDSLQPFLLDPVDLVVADLPVGYYPDDMQASRFELQAKEGHSYAHHLFMEQSLKYTVDGAYLLFVIPEFLFESDQADQLKKFLHEHAHIVGLLGLPDTAFQTDKQKKSILILQKKGHHTTTPKQPLLVKMPSFSNTNAMGDILGQINNWFQTYKKRS PGPT0027215_361 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 AK015_03138 1191 ackA COG0282 Acetate kinase ATGAGTAACGTATTGGCTATTAATGCCGGTAGTTCATCTTTGAAATTCCAACTAATAAAAATGCCAGAAGAAACGGTTCTTGCTAAAGGGCTTGTAGAAAGAATTGGTCTTCATGAAGCTATCTTTGAAATGAAAGCACAAGAGAAAAAAGAGAAATTCGTAGGTGATATTCCTAATCATGAAGAAGCTGTAAGGAAATTATTAGAAGGTTTGAAAAAATCAGGCGTCATTACGTCACTTGATCAAATTAATGCAGTAGGTCATCGTATTGTTCATGGAGGAGAAAAATTTAGCGATTCTGTGTTAATAACTGAACATGTTATTCAAGGAATTGAAGAAATTTCTGAATTGGCTCCTTTGCACAATCCAGCACATTTAACAGGCATTCATGCATTTCGCCATATCTTGCCAGAAGTGCCTATGGTTGCTGTGTTTGATACTGCATTTCATCAAACAATGCCGCCTTCATCTTACTTATATAGTTTGCCATATAATTATTATGAAGATTATGGTATTCGTAAATATGGTTTCCATGGAACATCGCATAAATACGTTTCCCAGCGTGCAGCAGAATTGTTAGGTGCGCCACTTGAAAATTTAAGGTTAATCTCTTGTCACTTAGGAAATGGGTCTAGTATCGCTGCTATTCAAGGTGGAAAATCACTTGATACGTCAATGGGATTCACACCACTAGCTGGTTTAACAATGGGGACTCGCTCTGGAGACATTGATCCAGCACTTATACCATATATTATGGAAAAAACAGGGAAATCAGCTTCAGAAGTCGTTCATGTGCTAAATAAAGAAAGTGGTATGTTAGCTCTATCTGGTTTTTCTAGTGATTTAAGGGACATTGAGCAAAAGGCTGAAGAGGATACTAGAGCTAAGCTAGCATTAGATGTATTTGCTGAACGTATCCATAAATACTTAGGTTCTTATGCAGCTAAAATGAGTGGCGTCGATGCCATCATTTTCACAGCTGGTGTTGGAGAAAACAGTGTATTAATTCGAGAAAAAGTTTTACGCGGCTTAGAGTTTATGGGTGTATACTGGGACCCTACATTGAATAACACACGAGGAAAAGAACAATTTGTTAATTATCCTCATTCCCCTGTAAAAGTAATCATTATTCCTACAAATGAAGAAGTAATGATTGCAAGGGATACAGTTCGACTAACAGAATCAATTTAA MSNVLAINAGSSSLKFQLIKMPEETVLAKGLVERIGLHEAIFEMKAQEKKEKFVGDIPNHEEAVRKLLEGLKKSGVITSLDQINAVGHRIVHGGEKFSDSVLITEHVIQGIEEISELAPLHNPAHLTGIHAFRHILPEVPMVAVFDTAFHQTMPPSSYLYSLPYNYYEDYGIRKYGFHGTSHKYVSQRAAELLGAPLENLRLISCHLGNGSSIAAIQGGKSLDTSMGFTPLAGLTMGTRSGDIDPALIPYIMEKTGKSASEVVHVLNKESGMLALSGFSSDLRDIEQKAEEDTRAKLALDVFAERIHKYLGSYAAKMSGVDAIIFTAGVGENSVLIREKVLRGLEFMGVYWDPTLNNTRGKEQFVNYPHSPVKVIIIPTNEEVMIARDTVRLTESI PGPT0001360_3139 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925 NA NA AK015_03139 432 Putative universal stress protein GTGGAATATAAAAATATTGTTGTTGCTGTAGATGGATCTGAAGCATCTGAAAAAGCATTTAAGAAATCACTCGCTATCGCCAAAAGGAATAACGATGCAAGGCTCATTCTAGCACATGTTGTTGATTCTCGAACATTTGCTACTGCAGAAGCATACGATCGTACTTTAGCAGAAAGAGCAGATGAGTATGCAAAAGAGCTACTAGATACTTATGTTGATAACGCTAAAGGAGCGGGAGTGGACGATTTAGTACGTTGTGTGGAATATGGATCTCCGAAAGTAAAAATCGCAAAAGATATTGCCAAACAATTTGAAGCAGATTTAATTATTTGTGGAGCAACAGGTATGAACGCGGTAGAAAGATTTTTAATTGGAAGCGTATCCGAAAACATTACTCGTTACGCTACATGTGACGTTCTTGTCGTTCGATAA MEYKNIVVAVDGSEASEKAFKKSLAIAKRNNDARLILAHVVDSRTFATAEAYDRTLAERADEYAKELLDTYVDNAKGAGVDDLVRCVEYGSPKVKIAKDIAKQFEADLIICGATGMNAVERFLIGSVSENITRYATCDVLVVR PGPT0002681_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA NA NA AK015_03140 165 hypothetical protein TTGGCGAAAAATAATCAGCAAAATCATGGTTCTAAGAAATTGTTTACAGATGAAAAAGGTGTAGAGGCAGTTCGAAATCAGTTAAATGAAAGCTATCAAAGTGGGGTTGTGGAACAACTGCATAATAATAAGGGGATCTATACTTTTAATAATCGAAAAAATTAA MAKNNQQNHGSKKLFTDEKGVEAVRNQLNESYQSGVVEQLHNNKGIYTFNNRKN NA NA NA NA NA AK015_03141 1119 ald Alanine dehydrogenase ATGAATATCGGAGTACCAAAAGAGATAAAAAACAATGAAAATAGGGTGGCCATGGCTCCGTCTGGTGTATTAACATTAACAAAGGCTGGTCATCAAATTTTCATGGAAACAAATGCAGGTTTAGGCTCAGGTTTTTCTGATGAGCAATACGTAAATGCTGGGGCTACCATTGTTTCAAGCCCGAAAGAAGCATGGTCACAAGAAATGGTAATGAAAGTAAAAGAGCCTTTACCAGAAGAATATAGTTATTTTTATGAAGGTCAAATTTTATTTACATATTTGCATTTAGCTGCAGAAGCAGAATTAACGAAGGAACTAGTTAATAAAAAAGTAACTGCAATTGCTTATGAGACAGTGCAATTACCAAATAATACATTGCCGCTTTTAACACCTATGAGTGAAGTAGCTGGGAAGATGGCTTCACAAATCGGCGCTCAGTTTCTAGAGAAAACAAAAGGTGGAAAAGGTATTCTGTTAAGCGGAATTCCTGGCGTCAGACGTGCCAAAATCACTATTATTGGTGGTGGAGTTGTTGGAACAAACGCGGCCAAAATAGCTGTCGGTTTAGGAGCAGATGTAACTCTAATTGATTTAAATCCAGAACGTTTACGACAGCTTGATGATATTTTTGGTTTCTCGATTAATACGATGATGTCGAATCCAATGAATATAAGTCTTGCTTTAGCTGAGTCGGATCTTGTCATAGGAGCCGTGCTAATCCCTGGAGCGAAAGCACCAAAATTAGTAACGGAAGAAATGGTACAAAATATGTCTGATGGGTCTGTCATTGTAGATGTAGCTATTGATCAAGGAGGAATATTTGAGACGAGTGATCATGTGACTACGCATGATGACCCAACTTATACGAAGCATGGTGTCTTACATTACTCGGTAGCTAATATGCCAGGAGCTGTTCCTAGAACGTCTACTATTGGGTTGACGAATGTCACTGTGCCATATGCTTTGCAATTGGCTAACTTTGGAGTCGAGACCGCTTTTCAAAATAACGAATCACTCTTAAAAGGGGTAAATACATGGAAAGGAATTGTAACTCATCAAGGTGTCGCAAATGCTCATGAAATGAACTATGTCGACCCACACACATTACTTGAGTTGTAA MNIGVPKEIKNNENRVAMAPSGVLTLTKAGHQIFMETNAGLGSGFSDEQYVNAGATIVSSPKEAWSQEMVMKVKEPLPEEYSYFYEGQILFTYLHLAAEAELTKELVNKKVTAIAYETVQLPNNTLPLLTPMSEVAGKMASQIGAQFLEKTKGGKGILLSGIPGVRRAKITIIGGGVVGTNAAKIAVGLGADVTLIDLNPERLRQLDDIFGFSINTMMSNPMNISLALAESDLVIGAVLIPGAKAPKLVTEEMVQNMSDGSVIVDVAIDQGGIFETSDHVTTHDDPTYTKHGVLHYSVANMPGAVPRTSTIGLTNVTVPYALQLANFGVETAFQNNESLLKGVNTWKGIVTHQGVANAHEMNYVDPHTLLEL PGPT0020070_1295 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259 NA NA AK015_03142 1098 putative peptidase ATGGAACAAAGAGTCGAAACACTTTTACACCATATGGATCAGCAGCATATGGATAGTATTTTAATCACGTCACCGGCAAATGTATATTACATAACGAATTACTTTACTGACCCACATGAACGTCTAGTTGCTGTATATTTACGTAAGCATGATGACCCTATTCTCGTCCTTCCTGCAATGGAGGAAGCAGATGCTAAAAACGCAGGTTGGAAACACTCTATTATTTCGTATCAAGATCACGAAAACCCTTGGGAAATGTTATCTAAAGTAATAAAGAAAAACGAAACTATTCCGAAAACAATTGGTGTGGAGTTTAATCATTTTACATTAGACCGTCAAACTATGCTGCAACAGATTTTACCACAAACAGAAATTAGACAAGCTGAAGCGTTATTAGCTCAATTAAGGCTTATTAAAAACGAATATGAATACAAAAGGCTTAAAACAGCAGCAGAACTTGCCGATTTTGGTATAAAAACAGGGGTTGAGGCAATAAAGGAAGGGATAACGGAATTAGAAATTGTCGCTAAAATTGAATTTGACCTAAAAAAACAAGGTGTGCAAGCGATGTCGTTTTCCACGATCGTTCTATCAGGTACAAAAACAGCCTCTCCTCATGGGAACCCATCGTTGAAAAAAATAACTAAAGGTGATTTGGTTTTATTTGACTTAGGCGTTGTATATGAAGGTTATTGTTCTGATATTACAAGAACAGTTGCCTTTAAATCGATTACCAAGGAACAAGATCGTATCTATAACAATGTGTTACATGCACAACAAAAAACGATAGAAACAGCAAAAGCAGGTGTTGCTGTAGGGAAATTAGATCAAGTCGCACGAAACGAAATAAACTCAAATGGATATGGGGACTATTTCACACATCGAATTGGGCACGGTTTAGGTATTCAAACTCACGAATATCCATCTATGCATAGTGATAACACGTTACCATTGCAGGAAAATATGTGCTTTACTGTTGAGCCAGGAATCTACGTACCTAATATTGGAGGTGTACGGATAGAAGATATGCTGTTTATCAAAGAAAGTGATCCAAAAGTTTTAACGCAATTTCCAAAGGAATTAATAATTGTTGATTAG MEQRVETLLHHMDQQHMDSILITSPANVYYITNYFTDPHERLVAVYLRKHDDPILVLPAMEEADAKNAGWKHSIISYQDHENPWEMLSKVIKKNETIPKTIGVEFNHFTLDRQTMLQQILPQTEIRQAEALLAQLRLIKNEYEYKRLKTAAELADFGIKTGVEAIKEGITELEIVAKIEFDLKKQGVQAMSFSTIVLSGTKTASPHGNPSLKKITKGDLVLFDLGVVYEGYCSDITRTVAFKSITKEQDRIYNNVLHAQQKTIETAKAGVAVGKLDQVARNEINSNGYGDYFTHRIGHGLGIQTHEYPSMHSDNTLPLQENMCFTVEPGIYVPNIGGVRIEDMLFIKESDPKVLTQFPKELIIVD PGPT0006760_2516 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 AK015_03143 681 hypothetical protein GTGAAAATATCTTATCATGGTCATTCTGTTGTACAAGTTGAAACCGATGAGCACAACATATTGATTGACCCATTCATTTCAGGAAATGAGGCATGTGATTTAGATGCTGAAACCGTTTCTCCAGATTACATTTTATTAACACATGGTCATAACGATCATGTGGGTGATACGATTTCGATTGCTAAGCGAACAAATGCAATGGTTATTGCGCCAAATGAATTAGCTGAATTTTTAGGAATAAAAGGTTTGCAAGTGCATCCAATGCATATCGGTGGGAAAAATAGCTTTGATTTCGGTACGGTAAAGTTTACACAAGCCTTCCACGGGTCAGCTTATACAGAAGAAGATGGCTCCATTGTTTATACTGGAATGCCCGCTGGTATATTACTTACTGTTGAAGGAAAAACCATTTACCATGCTGGAGATACAGGACTTTTCTCTGATTTAAAATTAATTGGTGAAATGAACGATATAGAGCTAGCATTTATTCCAATTGGGGATAATTTTACGATGGGTCCAGAAGACGCTCTCATTGCTGCGAAATGGGTGGGGGCTAAAACAGTTGTGCCAATTCATTACAATACTTTCCCCGTTATTGAACAAGATGCAGCTGCTTTTGCAAAGCAAGTCGAGCCTGGTAATGGAAAGGTAATGAAGATTGGTGAAGCTTTACATCTGTAA MKISYHGHSVVQVETDEHNILIDPFISGNEACDLDAETVSPDYILLTHGHNDHVGDTISIAKRTNAMVIAPNELAEFLGIKGLQVHPMHIGGKNSFDFGTVKFTQAFHGSAYTEEDGSIVYTGMPAGILLTVEGKTIYHAGDTGLFSDLKLIGEMNDIELAFIPIGDNFTMGPEDALIAAKWVGAKTVVPIHYNTFPVIEQDAAAFAKQVEPGNGKVMKIGEALHL NA NA NA NA NA AK015_03144 765 comC Type 4 prepilin-like proteins leader peptide-processing enzyme GTGGAAATAGTTCGACTGTTAATTTTCTCATTAAGCGGTTTTATATTTGGATCTTTCTTTGTTGTTGTTGGTCTTCGTTTGCCGAAGCAGCAGCCGTTTACAACAGAGCGATCATGCTGTCCCAATTGTTGTATAAGGCTAAGCTGGTTTGAATTAATTCCTGTTTTATCCTATGCTTTTTTAAAACGTAGTTGCAGACATTGTAAAAATAAAATTTCCTCCATATATCCTATCATTGAAATATTGACTGCAGCCATGTTTACGATAAGCTATTCTATCATTGGTTGGAACCCGGAATTAGTTGTTGCTTTATTAGTTAGCTCATTACTTATCATTTGCCTCGTATCTGATATTTTCTACATGGTTATTCCCAATCAGTTACTATTATTTTTTCTTCCAGTGTTTATGTTGTTGCGTGTCCTAGAGCCGCTAGATCCTTGGTGGGATACATTTCAAGGTGGGCTAGTAGGTTTGCTTATCCCGTTATTGGTGGTTATTGTAAGCCACGGCGGGATGGGAATGGGGGATGTGAAATTATTTGGATTACTTGGCATCGTGTTAGGTACTACCAACCTTGTTCTCAGTTTCGTCCTTGCAAGTATTATTGGATCAATCATTGGTTTAGTGTTACTAGCATATAATCAAATAAGCTTAGGTAAGCCAACACCATTTGCTCCTTATATAGTAATCGGGACATGGATTGCTTATTTCTATGGAGATGCGATGATACATTGGTATATGACACGTTTTTTTACGCTACATTAA MEIVRLLIFSLSGFIFGSFFVVVGLRLPKQQPFTTERSCCPNCCIRLSWFELIPVLSYAFLKRSCRHCKNKISSIYPIIEILTAAMFTISYSIIGWNPELVVALLVSSLLIICLVSDIFYMVIPNQLLLFFLPVFMLLRVLEPLDPWWDTFQGGLVGLLIPLLVVIVSHGGMGMGDVKLFGLLGIVLGTTNLVLSFVLASIIGSIIGLVLLAYNQISLGKPTPFAPYIVIGTWIAYFYGDAMIHWYMTRFFTLH PGPT0029470_15 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 AK015_03145 231 hypothetical protein ATGAAAGGACAGTATGCGCTTTTAAGAATCTTGATTGCTGGATTTTTGTTATACGTAGCTTGGCCATTTATACCACAAAGTGTCACTTCTATTGAGCAATTGTTTTGGGGGAGTTGGCTATTCTTATTTTTGCTTGTAATTGGTGCAAATAGCGCTTCTTTATTACAAATAATTCAGCCTCCAATAATGGAACAGAAAAGAGAAAAACAGCGAAAAACCTATAATCATTGA MKGQYALLRILIAGFLLYVAWPFIPQSVTSIEQLFWGSWLFLFLLVIGANSASLLQIIQPPIMEQKREKQRKTYNH NA NA NA NA NA AK015_03146 1353 IMPDH_1 Inosine-5'-monophosphate dehydrogenase ATGGTAAATAATTTATTAGTACAGTTGAAAGATGGTGTATGTGCCATGAAAAGTAAACATGAACAAATTATCGAGCATATTCATTCTTTAGACGTAGGTCATAAAATTTCAGTTAGACAAATTGCTAAAGATTTGCACGTGAGTGATGGAACAGCTTATCGTGCCATTAAAGATGCAGAAAATAAAGGACTCGTTAGTACGATAGAACGTGTAGGCACAATCCGAATTGAACAAAAGAAAAAAGATAATTTTGAACAATTGACTTTTGCTGAATTGATCAATATTGTAGAAGGGCATGTTCTAGGCGGAAGAGAAGGGTTACACAAAACTTTAAATAAATTTGTTATAGGAGCCATGCAGCTAGAAGACATGATGCGATATACAGAGGCAGATGCCTTGTTAATTGTAGGTAACCGTACAAAAGCACATGAACTAGCTATTAAAGAAGGAGCCGCAGTCTTAATTACGGGAGGCTTTGATACGACAGAAGACATAAAAAGGTTGGCCGATGAAAGAAAATTGCCTATCATTTCAACCAGTTATGATACATTTACGGTAGCTGCAATGATAAATAGAGCGATCTATGACCAATTAATAAAAAAGGAAATTGTGTTGGTAGAGGATATTTATACACCTTATGAAAAAGCTTTTTACCTAAAAGAAGGTAACGAGGTAGAGGATTGGTATGCCTTAAATAATTATTCAAAGCATACGCGTTTTCCGGTTGTAGACGATCGGAGGAGGGTTTTAGGTATCGTCACGTCAAAGGATGTGGTTGGGAAATCGAATGATACTTCCATTAGTAAGGTGATGAGTAAACAGCCTAAAACCGTCCAAACGAATATTTCTTTAGCTTCTGTCGCTCACCTAATGGTATGGGAAGGAATTGAAGTGATCCCTGTAACAGATGAGCAAAATCATTTACAGGGAATAATATCTAGGCAAGACGTATTAAAAGCGCTTCAACAAAATCAACGTCAACCCCAGATTGGTGAGACGATTGATGATATTGTGTCGCGAAACATAGTAGAATCAGAGAGTGAACCCGGTGTTTTTGAAACGAAAGTTGCCCCGCAAATGACTAATCAACTCGGAACATTGTCAAGTGGTGTTTGTACAGCTTTAATGACAGAAGCGAGCAGGAGATTATTGCTACAGGATAAAAAAGGAGACTTAGTAGCCGAAAATTTAACGATTTATTTTATTAAGCCCCTGCAAATTGATAGCACGTTACGTATCAAGCCTAAATTATTAGAAATTGGTAGAGTGTATGCTAAGATTGATATTGAAGTATATGAGGAACAGCAACTTGCCAGTAAAGGATTATTAATGGCTCAATTAATGAATCGTTAA MVNNLLVQLKDGVCAMKSKHEQIIEHIHSLDVGHKISVRQIAKDLHVSDGTAYRAIKDAENKGLVSTIERVGTIRIEQKKKDNFEQLTFAELINIVEGHVLGGREGLHKTLNKFVIGAMQLEDMMRYTEADALLIVGNRTKAHELAIKEGAAVLITGGFDTTEDIKRLADERKLPIISTSYDTFTVAAMINRAIYDQLIKKEIVLVEDIYTPYEKAFYLKEGNEVEDWYALNNYSKHTRFPVVDDRRRVLGIVTSKDVVGKSNDTSISKVMSKQPKTVQTNISLASVAHLMVWEGIEVIPVTDEQNHLQGIISRQDVLKALQQNQRQPQIGETIDDIVSRNIVESESEPGVFETKVAPQMTNQLGTLSSGVCTALMTEASRRLLLQDKKGDLVAENLTIYFIKPLQIDSTLRIKPKLLEIGRVYAKIDIEVYEEQQLASKGLLMAQLMNR NA NA NA NA NA AK015_03147 297 hypothetical protein ATGTTTATTTTTGCAGTAATTACCGTCACAGCATTTGTGCTTTGGATTTATTACAAAGTAGCTATTTTAAACACCAAAGACGGCTTAAAACAAGCTTATTTTAACGCAAAATCACGTATTTGTTTAGGTAGCTTCCTCGTAGCCTTTACGATTAATCAATACATTTATTACGAAACACGTATTTCACTATTCGTTGGAATTGTATTTCTTGTTTTTGCTATTCCCCTTATTAGTCGAGGAATCAAAGAAGTTAAACATTATAAAAGTGAATGGAAGCGATTAAACATGTCCCAATGA MFIFAVITVTAFVLWIYYKVAILNTKDGLKQAYFNAKSRICLGSFLVAFTINQYIYYETRISLFVGIVFLVFAIPLISRGIKEVKHYKSEWKRLNMSQ NA NA NA NA NA AK015_03148 942 nrnA COG0618 Bifunctional oligoribonuclease and PAP phosphatase NrnA TTGAAGAATATATTAGCGTTAATTCAACAATATTCTACCGTTATCATTCATCGACATGTGCGACCAGACCCTGATGCAATTGGCTCTCAAGTGGGGTTAAAGGAATTAGTTAAGCATTCTTTTCCTGATAAAGAAGTTTATGCAGTCGGAGAAGAAGAAGCTTCTTTATCCTTTTTGGCAAAAATGGATATAATCTCTGATGAACAATATGAAGGTGCGCTTGTTGTTGTATGTGATACAGCAAATAGGGAACGGATTTCTGATCAGCGATTTACTTTAGGAGACAAGATTATTAAAATTGATCACCATCCGAATGTCGATGAATATGGAGACATACAATGGGTGGATACAAAAGCAAGCTCTACAAGCGAAATGATTTACGAACTTTATACATCTTCTGAAAATAACAGATTTACACTTACGGATGATGTTGCCCGTCTGTTGTATGCTGGCATTGTAGGAGATACAGGAAGATTTTTATATCCAAGTACTACGGAGAAGACATTTAAAGCTGCTGCGGAGCTGATTACGCATCACTTTGACCGTTCTGTTATATACGACAATTTGTATAGCATGCAACACAATTTAGTCAAATTGAAAGGATACATATACCAACAATTTTATATAGATGACACTGGAATGGCTTATGTAAAATTAACCAAAGAGTTATTGCGACAATACGGTATTGATCCAAATGAAACGAGTCAGTTAGTTAGTACTTTGGGAGATGTGAAGGGGATTGTTGCATGGGTTGTTTTTGTTGAAGAAGAAAAAAGCATTCGCGTTCGATTAAGGTCTAAAGGGCCAAGCATTAATGAATTAGCAACCAAGTACAATGGTGGCGGTCATCCAATGGCCTCTGGTGCGACTGTAATAACGTGGGAAGAGGCAGATCAAGTAATTGCTGATTTACAGATGATAGTGGAAGCTTACGAAGCGTAG MKNILALIQQYSTVIIHRHVRPDPDAIGSQVGLKELVKHSFPDKEVYAVGEEEASLSFLAKMDIISDEQYEGALVVVCDTANRERISDQRFTLGDKIIKIDHHPNVDEYGDIQWVDTKASSTSEMIYELYTSSENNRFTLTDDVARLLYAGIVGDTGRFLYPSTTEKTFKAAAELITHHFDRSVIYDNLYSMQHNLVKLKGYIYQQFYIDDTGMAYVKLTKELLRQYGIDPNETSQLVSTLGDVKGIVAWVVFVEEEKSIRVRLRSKGPSINELATKYNGGGHPMASGATVITWEEADQVIADLQMIVEAYEA NA NA NA NA NA AK015_03149 198 hypothetical protein ATGTGGGTAATAAGCCGCAGACAACAAAGAGATGAAAAAATAGCACGTTTGAAACAAGGAGATTCTGCATTTGCAGAATCTCAAGAATTAATTCGATTAATAAAGCGAGATATTGAAAAAGAGCATTTAGAAGTAATCTGTGAAGAAACTGCTTCTGGTTGCTGGTTTATACCAAAGAACAGGAGTAAAACTTCCTAA MWVISRRQQRDEKIARLKQGDSAFAESQELIRLIKRDIEKEHLEVICEETASGCWFIPKNRSKTS NA NA NA NA NA AK015_03150 180 hypothetical protein ATGAATTTTAAAGTGTATGGTGGAGCGTCTGTTTTTGCTTTTGCAATTATCATTATTTACAGTTTAGTTTCTTGCTTATTTTATGATAAAGTAAATTGGATACAGGTCATATTATCTGGTATCGTTGCTTTTTGCTTATTTACAATCAGTTTATACATTGTGCAAAAATTGCATGAATAA MNFKVYGGASVFAFAIIIIYSLVSCLFYDKVNWIQVILSGIVAFCLFTISLYIVQKLHE NA NA NA NA NA AK015_03151 504 ytrI Sporulation membrane protein YtrI ATGCACATTCCTCCATATCATAAAAAAGTGACATGGCAACGTTTTTTTGTAGGAGTAATGGTTGGAGGGGTAATAGCCTATTGTATCTTGCTTTATATGTACGGAACAATGTATGAAGATCTAATTATCCGAACGAATCATATGCAAAGTGAAATAAGTCAATTAAGGAATCAAAATGAATCACTTCTTGCCGATAATGACGAACTTAATGAAAAATCAGTAAAGCAAGTTGCTATTGAATCCATCTCATTTACGGTCGAAAATACAGAAGAATTACGAATAGATCGCTTAATTGCAGGTAAATTAGAAGAACTGGTACAAGAGGAATTAAAACATATTATAGGGAAAGATTTATCTATAATTGCTGAAAGTGATAGCTTAATTGTAGCTTCATTAGAAAATAAAACATTTACTGTTAAAGAGTTTGATTACACTCTTTCCGTTAACAAACTCATTATCTCTAATAATATCAAAATAATGGCTAATGCCAAACGTTCAGCATAG MHIPPYHKKVTWQRFFVGVMVGGVIAYCILLYMYGTMYEDLIIRTNHMQSEISQLRNQNESLLADNDELNEKSVKQVAIESISFTVENTEELRIDRLIAGKLEELVQEELKHIIGKDLSIIAESDSLIVASLENKTFTVKEFDYTLSVNKLIISNNIKIMANAKRSA NA NA NA NA NA AK015_03152 333 ytrH Sporulation membrane protein YtrH ATGGAAGAACGCTTTTTTGAAACATTTATTCATTGTTATTTTATAGCTTTTGGCGTAGTTATTGGCGGATCCATCCTCGGAAGTGTAGGTGCATTTATTACAGGAAACGCGCCGTTAACAGAGATCGGGCGAATCGCAGTGCAGTTAAGAATATGGGCTATCGTAGCAGCTATTGGAGGAACATTTGATGCAATAGCAAATTTTGAAAGAGGCATTTATGACGGCTCTACCATGGACTTATTTAAACAAGCGTTATTTATCCTATCTGCAATGGGAGGAGTAAAAACAGCTATTTTACTTCTGAATTGGTTAACACAGGAGGATATAGCATAA MEERFFETFIHCYFIAFGVVIGGSILGSVGAFITGNAPLTEIGRIAVQLRIWAIVAAIGGTFDAIANFERGIYDGSTMDLFKQALFILSAMGGVKTAILLLNWLTQEDIA NA NA NA NA NA AK015_03153 3366 dnaE COG0587 DNA polymerase III subunit alpha ATGGTTTTTACACATTTACAAATACGCAGTAGCTATAGCTTGTTAAACAGTACAATTACCATTGAAGAATTGGTGCAACGAGCGGCAGAACTTGGTTATACTGCTTTAGCACTAACAGATGAACAAGTGCTTCATGGGGCGATCAAGTTTTATAAAGCTGCAAAGAATAACGGTTTGAAGCCAATTATTGGTTTGACTATTTTAGTAGGCGATAGCCAAGAAGAAGCTCACGAAATGGTTATTTTAGCGAAATCAAATCAAGGTTTTCAAGAACTAATTAAATTAAGTACCTGGCTAAGAACTGAAGAACTGTCTTTCATAGAAGTGGAACAGCTCTTAACATATACTGCAGATTGTGTCGGCATTCTCTCTTTCAATCATGGCAATATAGTAAAACAATTGCGAAATAAATCCTTTGTTGAACTGAATGAATATATATCCGCATATAGACAAGCTTTTGGTGAGAACGACTTTTATATAGCATTAGAGTCTTATGGCGATGGAAGTAATCACCCATCTTTTTTTGCAGAGGTAAAACAGTTTCAAGAAATGTATCATGATTCCGTTGTGGCTATGCATGATGTTCGATATTTGAATAAAAAAGATGTGCTTGCGTATGATTGTTTACGGGCGATGAAAGTACAGCGAATTTGGGATGGCACTTATGTTGATGATAAATGGCGTAATCATCATTTGTGTTCAGAAAAGGAAATGCAACAGTATTTTTCTGAGTGGCCTGAGGCGGTTGAAGAAACTGCAAGCATTGTAGAAAAATGTAATTTAAATATTAATTTTGAACAACAACATCTGCCTTCATTTCCGCTTCCAGAAAACCAACAGCCTCATTGTTATTTAACAGAGAAATGTTTTGCAGTTTTATCACAAAAATATACAAAAGTAACAGATGAGATCCGAGAACGTTTACATCATGAACTTAATATTATTGAACAAATGGGGTTTAGTGATTATTTCTTAATTGTTGCAGATATGGTTGATTTTGCAAAAACAAATAACATTGTCGTTGGGCCTGGAAGAGGATCAGCGGCTGGTTCTTTGGTGGCTTATTTATTAGGAATTACAGATATTGACCCTATCAAATATGAGTTGTTATTTGAACGTTTTCTTAACCCAAATCGAATGACAATGCCTGATATTGATATCGACTTCTCGGATACACGTAGAGAGGAAGTTGTGGATTATGTACAAAGGAAATATGGCTCAGAGCACGTAGCGCAAATCATTACATTTGGAACGTTTGCTGCCCGCTCTTTAATGCGCGAGCTTATAAAAACGATGGATATTAATAAACAAGATGCTGCTTTTGTGTTACGGCACATTCCAGTGCAGTCGAAAAAAAATCTTGTGCAAATTGTTCAAGATTCAAGTGCATTAAAAGATTATATAAAGCATTCGGAAGTGCTACGTCGTTTGTTTAAGGTAGCTACGGTGCTAGAAGGTATCCCTAGACATATTTCTACTCATGCAGCTGGAATTGTTATCTCTAAAGAACCGCTTATGGAATATGCACCTTTAACTTCTGGTGCTGGTACAATGTATTTAACACAATATGCAATGAATGATGTCGAAGCTATAGGTTTATTAAAAATTGACTTATTAGGCTTACGAAATTTAACTCTCATAGAACAAATACTGCAAAAAATACGTTACGAATATAAAAAGGCTGTCTCATTAGAAGAAATTCCTCAAGAAGATCGGAAAACCTTTTTATTGTTGCAACAAGGAAGAACAAACGGTGTGTTTCAATTGGAATCACAGGGAATGAAGCAAGTATTACAAGATTTAAAGCCAACTCATTTTGAAGATATAGTTGCAGTTAACGCATTATATCGTCCTGGACCAATGGATTTCATTAAAACTTATATAAACCGGAAGCATGGTGTAGAAAAGATTTCTTATCCACATCCAGATCTCGCAACTATTTTAGAAAAAACCTATGGTGTGTTAATTTACCAGGAACAACTTATGCAAATTGCTCATCGCATTGCTGGTTTCTCCCTTGGACAGGCTGACTTACTTCGAAGGGCAGTAAGTAAAAAACAAGAAGAGGTCATGGAAGAACAAAAATCCGCGTTTATTAATGGATGCATACAGCAAGGGTATAGTCAATCGGTAGCAAATGAATTATTTGCTTGGATTGTCCGATTTTCGAATTACGGATTTAATCGGAGTCATGCTGTGGCTTATAGTCGTATTTCTTATCAGCTAGCATACTTAAAATGTCATTATCCGCAAGTTTTTTTCGCTGAATTATTAAGTGCTTCGATGCAACAACATCAGAAAATTACTTTGTATCGGAGAGAAATAAAGGAACTGCATATAAAATTACTTGGTCCATCGATCAATAATAGTTTTGGAAAATATGCAGTCGAAGGAAAACACATCCGAATGGGTTTGTTACAAATTAAAGGGGTAGGAAATCAGGCAGTTTCCGAAATTATTCGAGCACGTAAAGAGCGACCTTTTCAAAATTTATTCGACTTCTGCTTACGTACTTCCTTAAAAGTAATTAACCGAACAATCATTGAGCTATTAGTTCTATCAGGAGCTTTTGATGAGCTACATAAAAATCGTGCTAGCTTATTAGCAACTATTGACCAAGCAATCGAGCAAGGTGAGTTGTTTGGTGAGTTCCAAGAGCAGGTAAGCTTACTAACGAACAACCTTGAATTGGAAGGCGATTATGTAGAAATAGAGGATTTCTCGGTAATAAAAAAACTATCTGATGAAAAAGAATTACTCGGTATATATATATCTAGTCATCCTGTTACAGTTTATCGAAAACAACTACAGCGAGCAGGGTATATTACCATAGATGCAGCTAGAAAAAGAGGGCATGGTTTTAAACATAGAAGTGCATGTGTTATTCAATCTATCAAAACTATCCGTACAAAACGTGGCGACCCAATGGCCTTTATTACCATTAGTGATGAAACAGATGAAATGGAGGCAGTTGTCTTTCCTGAATTATATCGACAAGTCCATCGTTGGTGGGAAGAAGGTATGCTAGTAGTAGCAAAAGGTAAGCTGGAGGCTAGAAGCAATGGACTACAAACATTATTATCTGCTATCCAAAGTTTTGAAGAGTCTGTTTTAGAAGATAAAACAAGCACAGATCGGCTGTTTATAAAATTAACAGGAAAAGATATTAAAGCAGACTTAGCTAAAATTAGCGAGGTAGCTCGTTATTTCCCTGGAAATACTCCAGTAATTGTTTTTCAAGAAAGTCTACAACAAACGTACCAATTATCCAAGGAATACAACCTTGCACCGAATTTACTTTGCATCCAGCGTTTACAAGACTACTTCGGTATCCATCAAGTTGTATATGACAAAGTGACTATTTAG MVFTHLQIRSSYSLLNSTITIEELVQRAAELGYTALALTDEQVLHGAIKFYKAAKNNGLKPIIGLTILVGDSQEEAHEMVILAKSNQGFQELIKLSTWLRTEELSFIEVEQLLTYTADCVGILSFNHGNIVKQLRNKSFVELNEYISAYRQAFGENDFYIALESYGDGSNHPSFFAEVKQFQEMYHDSVVAMHDVRYLNKKDVLAYDCLRAMKVQRIWDGTYVDDKWRNHHLCSEKEMQQYFSEWPEAVEETASIVEKCNLNINFEQQHLPSFPLPENQQPHCYLTEKCFAVLSQKYTKVTDEIRERLHHELNIIEQMGFSDYFLIVADMVDFAKTNNIVVGPGRGSAAGSLVAYLLGITDIDPIKYELLFERFLNPNRMTMPDIDIDFSDTRREEVVDYVQRKYGSEHVAQIITFGTFAARSLMRELIKTMDINKQDAAFVLRHIPVQSKKNLVQIVQDSSALKDYIKHSEVLRRLFKVATVLEGIPRHISTHAAGIVISKEPLMEYAPLTSGAGTMYLTQYAMNDVEAIGLLKIDLLGLRNLTLIEQILQKIRYEYKKAVSLEEIPQEDRKTFLLLQQGRTNGVFQLESQGMKQVLQDLKPTHFEDIVAVNALYRPGPMDFIKTYINRKHGVEKISYPHPDLATILEKTYGVLIYQEQLMQIAHRIAGFSLGQADLLRRAVSKKQEEVMEEQKSAFINGCIQQGYSQSVANELFAWIVRFSNYGFNRSHAVAYSRISYQLAYLKCHYPQVFFAELLSASMQQHQKITLYRREIKELHIKLLGPSINNSFGKYAVEGKHIRMGLLQIKGVGNQAVSEIIRARKERPFQNLFDFCLRTSLKVINRTIIELLVLSGAFDELHKNRASLLATIDQAIEQGELFGEFQEQVSLLTNNLELEGDYVEIEDFSVIKKLSDEKELLGIYISSHPVTVYRKQLQRAGYITIDAARKRGHGFKHRSACVIQSIKTIRTKRGDPMAFITISDETDEMEAVVFPELYRQVHRWWEEGMLVVAKGKLEARSNGLQTLLSAIQSFEESVLEDKTSTDRLFIKLTGKDIKADLAKISEVARYFPGNTPVIVFQESLQQTYQLSKEYNLAPNLLCIQRLQDYFGIHQVVYDKVTI NA NA NA NA NA AK015_03154 1239 NAD-dependent malic enzyme ATGGCAAGCTTACGAGATAAAGCGCTACATGTTCATAAAGTTAATAAAGGGAAATTAACGACGGATTCCAAAATGCCTGTTACGAATGCGGATGAGTTAAGTCTAGCATACTCTCCAGGAGTAGCTGAACCATGTAAAGAAATTCACGATCGTGTAGACACAGTTTATGACTATACCATGAAAGGAAATATGGTTGCCGTTGTTAGTGACGGATCAGCAGTGTTAGGTCTTGGTAATATCGGGGCAGAGGCTGCACTTCCTGTAATGGAAGGAAAGTCTGTGTTATTTAAAAGCTTTGCCGGTGTAGACTCCTTTCCTATTTGTTTAGGCACCCAAGACGTGGAAGAAATTGTACAAGCAGTTAAAGTAATAGAACCGACATTTGGTGGCGTGAATTTAGAAGATATTGCTGCACCAAAATGCTTTACTATTGAAGAACGATTAAAAAAAGAGACAAACATTCCGATTTTCCATGATGATCAACATGGAACAGCTATTGTTACTGTTGCTGGATTAATTAATGCATTAAAGTTAGTTGGGAAATCATTTTCAGATATTAAAGTAGTTGCTAACGGAGCAGGGGCAGCTGGAATCGCTATTATTAAATTGCTTTATTTCTTCGGTGTTCGCGACATGATAATGTGTGATTCAAGGGGAGCCATTTATGAGGGTCGTGCAGAAGGTATGAATGATGTGAAGGAACGCGTAGCAACGTTCACGAATCAAGACAAGAAATCAGGCAGTCTAGAAGAAATGCTTGAGGGAGCAGATGTGTTTATTGGTGTATCTGTTGGAGGGGCGTTATCCAAGGATATGGTTGCAAAAATGAAAGATAATTCAATAATTTTCGCAATGGCTAATCCTGAACCTGAGATAATGCCTGAAGATGCAAAAGAAGCTGGTGCGAAAGTTATTGGAACAGGCAGATCTGATTTTCCAAACCAAGTAAATAATGTACTTGCCTTCCCAGGTATTTTTCGAGGAGCGCTTGATGTTCGGGCAACAAGAATTAATGAAAAAATGAAAGTTGCAGCTGCCGAAGCAATTGCATCACTAATTACCGAAAGTGAATTAGACGAAAATTATGTTATTCCAGCTCCGTTTGATCCAAGAGTAGCACCTATTGTAGCTAAAAGCGTAGCTAAAGCTGCTATGGAATCCGGAGTGGCTAGAATGGAAATAGATCCTGAAGAGATAGCTGAAAAAACAAGAAAGCTCTCGCAAATTGAGAATAAGTAA MASLRDKALHVHKVNKGKLTTDSKMPVTNADELSLAYSPGVAEPCKEIHDRVDTVYDYTMKGNMVAVVSDGSAVLGLGNIGAEAALPVMEGKSVLFKSFAGVDSFPICLGTQDVEEIVQAVKVIEPTFGGVNLEDIAAPKCFTIEERLKKETNIPIFHDDQHGTAIVTVAGLINALKLVGKSFSDIKVVANGAGAAGIAIIKLLYFFGVRDMIMCDSRGAIYEGRAEGMNDVKERVATFTNQDKKSGSLEEMLEGADVFIGVSVGGALSKDMVAKMKDNSIIFAMANPEPEIMPEDAKEAGAKVIGTGRSDFPNQVNNVLAFPGIFRGALDVRATRINEKMKVAAAEAIASLITESELDENYVIPAPFDPRVAPIVAKSVAKAAMESGVARMEIDPEEIAEKTRKLSQIENK PGPT0001350_2282 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 AK015_03155 624 hypothetical protein ATGGCTGTGTCCATGTCTCATAAACAGAAAGCATACCAAGGAATTCTCCAAAAAATCAGTCAATACATGGATGCGCAACATTTACAGCCTGGTGACAAGCTCCCCTCCGAAAGGGAGCTTGCGCATACGCTTGGTGCAGGCCGATCTTCTATTCGAGAAGCGTTACGTGCAATGGAATTTTTAGGATTAATAGAAACCAGACGTGGTGAAGGAACATTTTTAAGTACATATCAGTCTTTTCAAACTGTGGAATTACTTGCTTCCTTTATCTTACAAGAGAAACAAACGAGGTTGGATTTAGCAGACGTCATTACAATTTTGGAAAAAGAAGCTGCGAAACTAGCTTTTTGGAATATAACAAAGCAAGATGTAGCTTATTTACAAGCTATTATTTATCAAGAAGCAGACTCGCTAAAAGATATGCATGCTATTTTTTTTCAATGTATTTTTAAGAAATCCAACAATAAACTATTAGCAAAAGTATGGAGCTTAATGTATGAATTTTTGGCAGTTGAACAAGAAATCAGCAATCATAATTTTTTTTATAAAGAGTTAATTCATATGTATGAAACACAGAATTATCAAGGGATTGAAACGTTGTTTGAAAAAATGATTCAAAAATAA MAVSMSHKQKAYQGILQKISQYMDAQHLQPGDKLPSERELAHTLGAGRSSIREALRAMEFLGLIETRRGEGTFLSTYQSFQTVELLASFILQEKQTRLDLADVITILEKEAAKLAFWNITKQDVAYLQAIIYQEADSLKDMHAIFFQCIFKKSNNKLLAKVWSLMYEFLAVEQEISNHNFFYKELIHMYETQNYQGIETLFEKMIQK NA NA NA NA NA AK015_03156 861 accD COG0777 Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta TTGCTTAAAGATTTTTTTGGCAAGCGAAAAAGATACGCATCTATTCCAAGTGAACAAGCAAAAACGGATGTGCCTGAAGGTTTAATGCAAAAATGTAGTGGGTGTCATAAGATTTATTATCGCAAAGAGATGAACAAAAATTTACAAGTATGCCCTCATTGTGATTATCATCATCCATTACAGGCCTGGCAACGAATTGAAACATTATTTGATGAAGCAAGTTTTGAGGAGTGGGACAAGCAATTATCAACTGGCAACCCTTTAGATTTTCCTGGATATGAAGAAAAAATAAAGAAAGATCAGGAAAAAACAGGTCTTCGTGAAGGCGTAGTTACTGGGAAAGGTACTATCGATGGTAAAGAAACAGCTTTTGCCGTAATGGACTCTTCATTTCGTATGGGAAGTATGGGATCGGTAATTGGTGAGAAAATAGCTCGTGCCATTGAACAAGCAAAAGAAGAAAAGATCCCATTTATTATTTTTACGGCTTCAGGAGGCGCGAGAATGCAAGAAGGATTGCTAAGTTTAATGCAAATGGCTAAAACTTCTGTAGCTGTAAAACTTTTTAGTGATGCAGGGGGGCTAATGATATCAGTTATGACTCACCCTACTACAGGCGGCGTTTCGGCAAGCTTTGCTTCTATTGGAGATTATCATCTTGCAGAACCGGGCGCGTTAATTGGTTTTGCTGGTAGAAGGATTATAGAACAAACGATTAGGGAGAAACTGCCGGATGACTTTCAAACGGCTGAGTTCCAGTTAAAGCATGGTCAATTGGATAAAGTTGTTCATCGATCAGATATGAAGAGTACCTTAGCGCTATTGTTATCGTTTCATCAAAAAGGTGGGAAAGAATCATGA MLKDFFGKRKRYASIPSEQAKTDVPEGLMQKCSGCHKIYYRKEMNKNLQVCPHCDYHHPLQAWQRIETLFDEASFEEWDKQLSTGNPLDFPGYEEKIKKDQEKTGLREGVVTGKGTIDGKETAFAVMDSSFRMGSMGSVIGEKIARAIEQAKEEKIPFIIFTASGGARMQEGLLSLMQMAKTSVAVKLFSDAGGLMISVMTHPTTGGVSASFASIGDYHLAEPGALIGFAGRRIIEQTIREKLPDDFQTAEFQLKHGQLDKVVHRSDMKSTLALLLSFHQKGGKES PGPT0001710_2694 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 AK015_03157 957 accA COG0825 Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha ATGAAGCAAGTGTTGGATTTTGAGAAGCCCATTGTAAACTTAAAAGAAAAAATTGCAGAATTAAAACGATTCACCTCCGATAGTGATATAGATTTAACAGAGGAAATTAGAACATTAGAAAAGCGTCTTGCTGTATTGGAAGAAGATATTTATGGCAATTTACAGCCATGGGATCGAGTCCAATTAGCCAGGCACCCTGAACGACCAACTACTTTAGATTATATTGAGCAATTATTTACTGATTTTATCGAATTTCATGGGGATCGTTCATTTGGAGATGATGCTGCTATTGTTACAGGGCTGGCTTTTTATAAAGAAAAACCTGTAACCGTAATCGGTCATCAACGTGGTAAGGATACAAAAGAAAATATTCGCCGTAATTTTGGGATGCCACACCCGGAAGGTTATCGGAAAGCATTACGTCACATGAAACAAGCGGAAAAATTTTCAAGACCAATTATCTGCTTTATCGATACAAAAGGAGCTTATCCAGGAAAAGCAGCAGAAGAAAGGGGTCAAAGTGAAGCTATTGCAAGAAATTTAATAGAAATGGCGGGACTAACCGTTCCTATTATTTGTGTTGTTATAGGTGAAGGTGGCAGTGGTGGTGCATTAGGACTTGGAGTTGGTGATGAAATTCTTATGTTAGAAAATAGCACTTACTCCGTTATTTCTCCAGAAGGGGCAGCTTCTATATTATGGAAAGATGCTAGCTATGCGCAACAAGCAGCAGAATCTATGCAAATAACTGCTTATGATTTGAAAAAACTTGGGTTAATTGATCAAATTATACCAGAGCCTAAGGGCGGAGCGCACCGTGATTTAAACCAACAAGCAAGTTATTTAAACGAAGTAATCGATCATTCGTTACGTACATTAGAAAAGTATTCTATAGAAGAATTACTTGAAAAAAGATGGGAAAAGTATAAGAAAATGGGTTCCTATCAGATCCTTTAA MKQVLDFEKPIVNLKEKIAELKRFTSDSDIDLTEEIRTLEKRLAVLEEDIYGNLQPWDRVQLARHPERPTTLDYIEQLFTDFIEFHGDRSFGDDAAIVTGLAFYKEKPVTVIGHQRGKDTKENIRRNFGMPHPEGYRKALRHMKQAEKFSRPIICFIDTKGAYPGKAAEERGQSEAIARNLIEMAGLTVPIICVVIGEGGSGGALGLGVGDEILMLENSTYSVISPEGAASILWKDASYAQQAAESMQITAYDLKKLGLIDQIIPEPKGGAHRDLNQQASYLNEVIDHSLRTLEKYSIEELLEKRWEKYKKMGSYQIL PGPT0001695_1909 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962 NA NA AK015_03158 960 pfkA ATP-dependent 6-phosphofructokinase ATGAAAAAAATAGGTGTATTAACAAGTGGTGGAGACGCACCAGGGATGAATGCTGCTATTCGAGCAGTAGTTAGAAAAGCTATTTACCATAACGTTGAAGTCTATGGCATTAAATACGGCTATCAAGGTTTAATGGAAGGTAATATAGAACGAATGGAAATTGGTTCTGTTGGTGATATCATTCATCGTGGAGGTACAATTCTATATTCTGCAAGAAGTGAAGAATTTAAAACAGATGCCGGCCAAAAGAAAGCCATTGAACAGCTAAATAAATTTGGCATTGAAGGCTTGATTGTAATCGGAGGCGATGGTAGCTTTCGTGGAGCGCAAAAGCTAACAGAAAAAGGCTATCCTTGCATTGGCGTACCAGGAACGATTGACAATGATATTGCAGGTACAGATTTTACAATTGGATTCGATACAGCATTAAATACAGTAATTGAAGCAATTGATAAAGTTCGCGATACAGCAACTTCTCATGAAAGAACATACATCATTGAAGTTATGGGGAGAAATGCTGGCGATTTAGCATTATGGGCAGGATTAGCCGATGGTGCAGAGAGTATCCTTATTCCAGAAAGAGAAGAAGATTTTGCAACAGTTGTAAATAAATTGAAGCGCGGTCGTAAACGTGGTAAAAAACATAGTATTATTGTTTTAGCTGAGGGAGTAGGCAGTGGGTTTGATTACGGAAAACAAATTGAAGAATCTACTGATTTAGAAACGAGAGTTACTGTTTTAGGACATATACAAAGAGGTGGATCTCCAAGTGCTTCTGATCGAGTGCTTGCAAGTAGACTTGGTGCACAAGCTGTTGACTTAATATTAGAGGGTCAAGCAGGTAGAATGGTAGGAATTGAAAAAAATGTATTAGTCGATCATGATATTTCAAAAGTCCTTCATGATAAGCACATGATAAACGATGATATGTATAAACTTTCTCAAGAGTTATCGATTTAA MKKIGVLTSGGDAPGMNAAIRAVVRKAIYHNVEVYGIKYGYQGLMEGNIERMEIGSVGDIIHRGGTILYSARSEEFKTDAGQKKAIEQLNKFGIEGLIVIGGDGSFRGAQKLTEKGYPCIGVPGTIDNDIAGTDFTIGFDTALNTVIEAIDKVRDTATSHERTYIIEVMGRNAGDLALWAGLADGAESILIPEREEDFATVVNKLKRGRKRGKKHSIIVLAEGVGSGFDYGKQIEESTDLETRVTVLGHIQRGGSPSASDRVLASRLGAQAVDLILEGQAGRMVGIEKNVLVDHDISKVLHDKHMINDDMYKLSQELSI PGPT0017595_3578 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 AK015_03159 1761 pyk Pyruvate kinase ATGAGAAATACTAAAATTGTATGTACGATTGGCCCAGCTTCAGAGTCAATTGAGAAATTAGAAAATTTGATGGAATGTGGCATGAATGTTGCTCGACTTAATTTTTCACATGGAAACTATGAGGAGCACGCAGATCGCATCAAAAACATCCGTGCTGCGGCGGAGAAAACGGGGAAAACGGTAGCTGTTCTCTTGGATACAAAAGGTCCTGAAATCAGAACGCATGATTTTGTTGATGGACAAGCAGAACTCATGCAAGGTAAAATTGTTTACGTATCTATGAAAGAAGTGGAAGGTACTGCAGAACGTTTTTCTGTCACTTATCCTGGCTTAATTGATGATGTCCATGAAGGCTCGAAGATTTTGTTAGATGATGGTTTAATTGAATTAGAAGTAAAAGAAGTAAATAAGGCTAATCAAGAATTAAAGACAGTTGCACTGAATAGTGGGGTAATTAAAAACAAAAAAGGTGTTAACGTCCCTAATGTATCTGTGAATTTACCAGGTATTACAGAAAAAGATGCAAATGATATTCTTTTCGGTATAGGGCAGGATATCGATTTTATTGCAGCTTCTTTTGTAAGACGCGCATCAGACGTATTGGAAATAAAAGAGCTTTTGGAAAACCATAATGCAACACATATACAGATCATCCCTAAGATTGAAAATCAAGAGGGTGTCGATAATATTGATAGTATTTTAGAAGTAAGTGATGGGCTAATGGTTGCACGTGGTGATTTGGGGGTTGAAATACCTGCTGAAGATGTACCTTTAGTACAGAAACAATTAATTAGAAAGTGCAATACAGTTGGTAAGCCTGTTATTACGGCAACACAAATGCTTGATTCAATGCAGCGTAACCCTCGCCCAACAAGAGCAGAAGCTTCAGATGTAGCTAACGCTATTTTTGATGGTACAGATGCAATTATGCTCTCAGGCGAAACAGCAGCAGGTGATTATCCAGTTGAATCGGTGCAAACGATGAGCAATATTGCAGTTAAAGCGGAGACAGCAATTGATCATTCTTCTATATTGAAAGATCGATCTAGAAATGTTGATATGACAATTACTGACGCAATTAGTCAATCCGTTACGCATACAGCTATGAATTTAGCAGTAAGTGCTATTATAACTCCGACAGAAAGTGGACATACCGCAAGAATGATATCTAAATATCGTCCGCATTCACCAATCCTTGCTGTTACTTTTTCTGAAAGAATAAATCGAAGGCTTTCCTTAGTATGGGGAGTTCATGCCGTTATGTGTAGACGGGCTGAATCGACGGATGAAATGCTCGATATTGCAGTAGAACGTGGGTTGCGTTCTGGCATGGTCGAACATGGTAATCGCGTTATCATCACAGCCGGAGTTCCAGTCGGTCAAAGTGGAACTACAAATTTGTTAAAAGTGCACGTAATTGGTAATGTGATTGCTAGTGGACAAGGAATCGGTCGAAAAAGTGCTTTTGGTAAAGCTGTTGTTGTTAAATCAGCAGAAGAAGCAGTAAGCAAAGTAAGTGAAGGAGACATTGTAGTAACATATGGCTCAGATCGCGAAATGATGCCTGCGATTGAAAAGGCTGCTGGGATCGTTACAGAAGAAGGTGGCTTAACTTCCCATGCTGCTGTGGTAGGATTAAGCCTAGGTATCCCTGTTATTGTTGGTGTTAAAAACGTGTTTAAAGACATTAAAGATGGGGAAATTATTACAATTGATGGAGCAAATGGTGATATTTATCAAGGACATACGAAAGTTCTATAA MRNTKIVCTIGPASESIEKLENLMECGMNVARLNFSHGNYEEHADRIKNIRAAAEKTGKTVAVLLDTKGPEIRTHDFVDGQAELMQGKIVYVSMKEVEGTAERFSVTYPGLIDDVHEGSKILLDDGLIELEVKEVNKANQELKTVALNSGVIKNKKGVNVPNVSVNLPGITEKDANDILFGIGQDIDFIAASFVRRASDVLEIKELLENHNATHIQIIPKIENQEGVDNIDSILEVSDGLMVARGDLGVEIPAEDVPLVQKQLIRKCNTVGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAIMLSGETAAGDYPVESVQTMSNIAVKAETAIDHSSILKDRSRNVDMTITDAISQSVTHTAMNLAVSAIITPTESGHTARMISKYRPHSPILAVTFSERINRRLSLVWGVHAVMCRRAESTDEMLDIAVERGLRSGMVEHGNRVIITAGVPVGQSGTTNLLKVHVIGNVIASGQGIGRKSAFGKAVVVKSAEEAVSKVSEGDIVVTYGSDREMMPAIEKAAGIVTEEGGLTSHAAVVGLSLGIPVIVGVKNVFKDIKDGEIITIDGANGDIYQGHTKVL PGPT0002020_772 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873 NA NA AK015_03160 390 hypothetical protein ATGAAAATATTTTTACTTGTTGCATTTATCTTATCTGCTCTAGAGATAGGTGTTTTTATTTGGATAGGCGGTTGGATAGGTCCATGGTGGGTTGTAGGCTTTGTTCTCCTTACTGGAGCGGTGGGCTTTTATTTAGCAAAACAACAAGGGATAGAAACTTGGAACCGCGCGCAGCTTTCGATGCAACGTGGCGAAGCCCCAACAGGCTATATTATTGATGGAATTTGTATTCTAATAGGTGCTGTATTATTAGTAACTCCAGGCTTTATTTCAGATATAGTTGGATTTTTACTAGTTATTCCAACGACTCGAAAGCTGTTCAACCAAAGAATAGAAAAATTTTTAAAATATCTAATCAATAAACGAACTATTATATATCGGAGGTGGTAG MKIFLLVAFILSALEIGVFIWIGGWIGPWWVVGFVLLTGAVGFYLAKQQGIETWNRAQLSMQRGEAPTGYIIDGICILIGAVLLVTPGFISDIVGFLLVIPTTRKLFNQRIEKFLKYLINKRTIIYRRW NA NA NA NA NA AK015_03161 1344 hypothetical protein TTGTCTTTATACTTAAACGACGCTTTAATTTTTATAGGAAAGCATCAAATTTTTATGCTTTATCATATAAGTAAACCGACGGCGTTCCATTCCTATAAAGACTTGGCGATAGCCAAGTTTTCTCCTATTTTAAAAGGGTTTATTTTCATACTACATGTTAGATTGTTCAAGCGAGGAGTACTTCTCTGTTTAACTAACAGAAAGGAATTTATAAGAAAAGGGATTGAGGTTTTAAAGATGTACAAGCCAAGATTATACCAATTATTGCGTTTTATAATTGTAATAACACTTACTATTTTAGGCTATCTGTTACTAACTGTAGGTTTCTCCTATTTATATCCATTACTTATAGCTAGTATTTTAGCGATGGCAATAAACCCAGTTGCTAATTTTTTTGAGGAAAAATGGAAACTTCCTCGGATGATGGCAGTAAGTGGAACCATGTTATTTACGTTTGCTTTTCTAAGTAGCATCGTATTTATTCTATTTTCTGAATTTATGCAAGGCACTACTTTTTTAGCAACACACCTCCCAGACTATGTGCAAACGTTTAGCAATTATGTAACAAGTATTTTGGATCAAAAAATCATGCCACTATATGAGAAAATGACGACGTACTTACAAGCATTGGACACTTCCCAACAAGAAGCGATAAACAATTCCGTCAAACATATTACAGAACATATTAGTGCGAAACTTTCGGAATCGCTCCAATTCATTTTATTGCAAATTCCTTCTTTATTTACTGCGCTTCCAAGTTCCTTTACTGTAACGGTTTTTATCTTATTAGCAGCTTTTCTAATAGCAAATGATTACCAACAAATTTCCTTGTTTAGTCAAAAAATAATCCCTCATTCACTGCAAACTAAAATAAATAGTGTACAAATGCAATTTAAGAAAACTGTCATCGCATATGTAAAGGCTCAGCTTATTTTAGTAATCATTTCTGCTGTTTTAGTATATATAGGTTTAAAACTCTTACATGTTAATCATGCGTTTACCATTTCGCTATATGTTGCTTTCGTTGACCTTATTCCGTATGTCGGATCTGGCATTATTTTCTTTCCGTGGATGATTTATTTATTTATAGTTGGTGATCATGCTTTAACGATTCAGTTAGCGATTCTATACGGTTCTATTGTCATTGTTAGACAAATAATTGAACCAAAAATTTTATCTTCTAGTATGGGGACACACCCACTAGTAGCGCTTATTATACTGTTTATCGGGCTACAAATTTGGGGAATCATTGGATTTATTATTGCTCCCCTTATACTTATTTCCATACAAGCTTTTTATCAAGCAGGTATATTTCAAGATGTATGGAAATTTATTAAAGGTTAG MSLYLNDALIFIGKHQIFMLYHISKPTAFHSYKDLAIAKFSPILKGFIFILHVRLFKRGVLLCLTNRKEFIRKGIEVLKMYKPRLYQLLRFIIVITLTILGYLLLTVGFSYLYPLLIASILAMAINPVANFFEEKWKLPRMMAVSGTMLFTFAFLSSIVFILFSEFMQGTTFLATHLPDYVQTFSNYVTSILDQKIMPLYEKMTTYLQALDTSQQEAINNSVKHITEHISAKLSESLQFILLQIPSLFTALPSSFTVTVFILLAAFLIANDYQQISLFSQKIIPHSLQTKINSVQMQFKKTVIAYVKAQLILVIISAVLVYIGLKLLHVNHAFTISLYVAFVDLIPYVGSGIIFFPWMIYLFIVGDHALTIQLAILYGSIVIVRQIIEPKILSSSMGTHPLVALIILFIGLQIWGIIGFIIAPLILISIQAFYQAGIFQDVWKFIKG NA NA NA NA NA AK015_03162 1119 citZ COG0372 Citrate synthase 2 ATGACAACAACAACGAAGGGGCTTGAGGGAGTTGTAGCAACTCAATCGTCAATTAGTTCTATAATAGATGATCAGCTTACATATGTAGGCTATAAGATTGATGATTTAGCTAAAAATTCCAGTTTTGAAGAAGTGATTTTTTTACTATGGAATCAAAGACTTCCGAAACAAGATGAGCTAGACGAATTAAAAAAAGAGCTTGCTTCAAATATGGTAGTACCAGAAGCAATTATTAAACATCTACATTCTTATGATTTGTCAACTGTACATCCAATGACTGCTCTACGCACCGCCGTTTCTATGTTAGGTTTGTACGATGAAGAAGCAGAAGTAATGGAAGCGCAAGCAAACAAGCGAAAAGCTATTCGTATTCAAGCAAAAATAGCCTCTATCGTAACCGCTTTTGCACGAATCCGTAAAGGAAAGGACCCTGTTCAGCCTAAGCTAAGTTATAATTATGCTGAAAATCTACTATTCATGTTAAATGGTAAAGAGCCGAAAGAAATTGAAGTAGAAGCTATGAACAAAGCACTTGTTCTTCACGCAGACCATGAACTTAATGCTTCCACCTTTACAGCAAGAGTATGTGTTGCAACACTGTCTGATATTTATTCAGGTGTTACAGCTGCAATTGGTGCATTAAAAGGTCCGCTACATGGTGGAGCCAATGAGGGCGTTATGAAGATGCTTACAGAAATTGGAGAAGAAGAAAATGCGATCCCTTACATTCAAGAAAAGTTAGACAATAAAGAGAAAATCATGGGAATGGGTCATCGTGTCTATAAAGGTGGAGACCCAAGGGCGAAGTTTTTAAAAGAAATGTCGAAACAATTAACAGAATTAATTGGCGAACCTAAATGGTATAAAATGTCGGTTAAAATTGAAGATTATATAAAAGATCACAAAGGTTTGCCGGCAAATGTCGACTTTTATTCTGCTTCTGTATATCACAGCCTAGGAATTGATCATGATTTATTCACACCGATTTTTGCAGTAAGTAGAACATCGGGATGGCTAGCTCATATTCTTGAGCAATACGCTAATAATCGTTTAATCCGTCCACGTGCAGAATATACAGGGCCTATCTCACCAGAATATAGTACAATTGATAAACGATAG MTTTTKGLEGVVATQSSISSIIDDQLTYVGYKIDDLAKNSSFEEVIFLLWNQRLPKQDELDELKKELASNMVVPEAIIKHLHSYDLSTVHPMTALRTAVSMLGLYDEEAEVMEAQANKRKAIRIQAKIASIVTAFARIRKGKDPVQPKLSYNYAENLLFMLNGKEPKEIEVEAMNKALVLHADHELNASTFTARVCVATLSDIYSGVTAAIGALKGPLHGGANEGVMKMLTEIGEEENAIPYIQEKLDNKEKIMGMGHRVYKGGDPRAKFLKEMSKQLTELIGEPKWYKMSVKIEDYIKDHKGLPANVDFYSASVYHSLGIDHDLFTPIFAVSRTSGWLAHILEQYANNRLIRPRAEYTGPISPEYSTIDKR PGPT0001455_5922 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 AK015_03163 1272 icd COG0538 Isocitrate dehydrogenase [NADP] ATGACAAAGGGAGAAAAAATTGTTGTAGAAAATGGAAAAATGGATGTACCAAACCATCCGATTATACCATTTATTGAAGGTGATGGAACAGGACCAGATATTTGGTCAGCTGCGCGTGAAGTAATCGAAGCTGCTGTGGAGAAAGCGTATAATGGGGAGAAAGCAATTGATTGGCTGGAAGTATACGCTGGAAAAAAAGCTTACGATAAAACAGGCGAATGGCTACCTCAAGATACATTAGATAAAATTAACCAATATAAAATTGCTATTAAAGGGCCGTTAACGACCCCTGTTGGCGGCGGGTTCCGCTCATTAAACGTGGCACTTCGTCAAGAACTTGATTTATTTACGTGCTTACGTCCGGTACGATATTTCGACGGTGTTCCATCTCCAGTTAAACGCCCTGAAGATGTGGACATGGTCATTTTCCGTGAGAACACAGAAGATATTTATGCAGGAATTGAATGGCAAAAAGGTTCAGAAGAAGTAGATAAAGTTATTAATTTTTTACAAGAAGAAATGAACGTTTCCAATATTCGTTTCCCTGAAACTTCTGGAATTGGTGTTAAACCAGTATCTGAAGAGGGAACGAAACGTTTGGTGCGTGCTAGTATCCAATATGCACTCAATGAAGGACGCAAAAGTGTTACTTTAGTACATAAAGGTAACATCATGAAGTTCACAGAAGGCGCTTTTAAAAATTGGGGATATGAAGTAGCAGAACAAGAATTTGCTGATCAAGTATTCACTTGGGCAGAATACGATCGCATTGTTGAAAAAGAAGGTAAGGATGCTGCTAACAAAGCGCAAGACGAAGCAGTTGCTGCAGGGAAAATTATTGTTAAAGATGCGATTGCAGATATTTTCTTACAACAAATTCTCACGCGTCCAAAAGAGTTTGATGTAGTAGCAACAATGAATTTAAATGGAGATTATATTTCTGATGCTCTTGCTGCACAAGTAGGAGGAATTGGCATAGCTCCAGGGGCAAACATTAACTATGATACAGGGCATGCTATTTTCGAAGCGACACATGGGACAGCTCCTAAATATGCAGGCATGGATAAAGTAAATCCTTCATCTGTTATTCTGTCTGCTGTTTTAATGCTTGAACATCTGGAGTGGAGAGAGGCAGCTAACTTGATTACGAAAGCGATGGATAAAACAATCGCTTCTAAGGTCGTTACGTATGATTTTGCACGTTTAATGGACGGTGCTAAAGAAGTGAAATGTTCCGAGTTTGGAAAAGAATTAATTAAAAACATGGACTAA MTKGEKIVVENGKMDVPNHPIIPFIEGDGTGPDIWSAAREVIEAAVEKAYNGEKAIDWLEVYAGKKAYDKTGEWLPQDTLDKINQYKIAIKGPLTTPVGGGFRSLNVALRQELDLFTCLRPVRYFDGVPSPVKRPEDVDMVIFRENTEDIYAGIEWQKGSEEVDKVINFLQEEMNVSNIRFPETSGIGVKPVSEEGTKRLVRASIQYALNEGRKSVTLVHKGNIMKFTEGAFKNWGYEVAEQEFADQVFTWAEYDRIVEKEGKDAANKAQDEAVAAGKIIVKDAIADIFLQQILTRPKEFDVVATMNLNGDYISDALAAQVGGIGIAPGANINYDTGHAIFEATHGTAPKYAGMDKVNPSSVILSAVLMLEHLEWREAANLITKAMDKTIASKVVTYDFARLMDGAKEVKCSEFGKELIKNMD PGPT0001170_2947 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 AK015_03164 939 mdh_2 COG0039 Malate dehydrogenase ATGGCAATAAAGAGAAGTAAAATTTCTGTAATCGGTTCCGGATTCACTGGTGCGACGACTGCATTAATGCTTGCGCAAAAAGAATTAGGTGATGTTGTGCTTGTTGATATACCTAATATGGAAGATCCAACCAAAGGTAAAGCTTTAGATATGCTAGAGGCTAGTCCTGTTCAGGGTTTTGATGCGTCTATTATTGGTACCTCGAATTATGAAGATACAAAAGACTCGGACTTGGTAATTATTACAGCGGGGATTGCTCGTAAGCCAGGAATGAGTCGTGACGACTTAGTAAATACAAATGCTAAGATTATGAAGTCTGTAACACAAGAAATTATGAAATACTCTCCGGAAACGTATATCGTCGTATTAACAAATCCAGTTGATGCTATGACATACACAGTATTTAAAGAATCTGGTTTGCCAAAAGAGCGGGTGATTGGGCAGTCAGGTGTACTAGATACAGCTCGTTTTCGAACTTTTGTTGCCCAAGAATTAAATGTTTCTGTTAAAGATGTAACAGGATTTGTACTAGGCGGACATGGGGATGATATGGTGCCTTTAATTCGCTACTCGTATGCGGGAGGAATTCCACTCGAAACATTAATATCTAAAGAACGTTTAGATGCTATTGTAGAAAGAACAAGAAAAGGCGGTGGAGAAATAGTAGGGTTACTTGGTAATGGAAGTGCTTACTATGCTCCTGCTGCTTCTCTTACAGTAATGGCCGAAGCAATTTTAAAGGATCAGCGTCGAGTTCTACCTGCTATTGCTTACCTTGAAGGAGAATATGGCTATTCAAACATTTATCTTGGAGTGCCAACTGTATTAGGTGGAAATGGTATAGAAAAGGTCATCGAGCTTGAATTAACGGAAGAGGAGAAAGCTGCACTTGATAAATCGGCAGATTCTGTTAAAAAAGTGTTAGATGTCTTAAATTAA MAIKRSKISVIGSGFTGATTALMLAQKELGDVVLVDIPNMEDPTKGKALDMLEASPVQGFDASIIGTSNYEDTKDSDLVIITAGIARKPGMSRDDLVNTNAKIMKSVTQEIMKYSPETYIVVLTNPVDAMTYTVFKESGLPKERVIGQSGVLDTARFRTFVAQELNVSVKDVTGFVLGGHGDDMVPLIRYSYAGGIPLETLISKERLDAIVERTRKGGGEIVGLLGNGSAYYAPAASLTVMAEAILKDQRRVLPAIAYLEGEYGYSNIYLGVPTVLGGNGIEKVIELELTEEEKAALDKSADSVKKVLDVLN PGPT0001435_2830 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 AK015_03165 477 phaJ (R)-specific enoyl-CoA hydratase TTGATTGGAAAAAGACGACCGTTAGGCAAATCCTTATATGATATCAAAATTGGTGATACGTGCAGCCGAACGACTCGAATGAATGATCGAGATTTATTGTTGTACTTAGGATTAACGGATGATGCAAACCCGTTATATTTACAACATGACTATGCTTCATTAACACCTTATAAACAACCAATCGTGCCATCTGTCATGCTTTATGGCATGGTATCTTCTTTAGTATCTATGGAATTGCCAGGGCCAGGAAGCCATATTATTCATCACGAAATGGTTTTCCCTAGAGCAGTCTATCATAATTCCGAAGTAGATATTTCTCTAGAAGTAATTGCCATTGATGAGAGCAATCAGTGTCTAGCTATGAATGTACTTGCAAAGGATGAGGAAGGAGAAGTCGTTTTAAACGGTAAGTTGTATGTGACACCAGCTCATAAACCAAATACGTTAACTGCGCAATCTTTAGAAAACTTCTTTTAA MIGKRRPLGKSLYDIKIGDTCSRTTRMNDRDLLLYLGLTDDANPLYLQHDYASLTPYKQPIVPSVMLYGMVSSLVSMELPGPGSHIIHHEMVFPRAVYHNSEVDISLEVIAIDESNQCLAMNVLAKDEEGEVVLNGKLYVTPAHKPNTLTAQSLENFF PGPT0014741_240 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_RELATED_GENES CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014741-phaJ|croR-K17865 NA NA AK015_03166 693 phoP_2 COG0745 Alkaline phosphatase synthesis transcriptional regulatory protein PhoP ATGAACGAGAAAATTTTAATTGTAGATGACGAGAAATCTATTGTAACATTGCTTAACTTTAATATCGAAAAAGCGGGCTTTGTGACAGATGTTGCTTATGATGGTTATGAAGCAGTACAAAAAGCACAAAGCAACAGTTATGATTTGATTGTTTTAGATCTTATGCTCCCTGAGATGGATGGCATGGATGTTTGTAGGTATTTAAGAAATAACCAAATAAACACACCAATTCTTATGCTTACTGCTAAAGATGAGGAATTTGATAAAGTGCTTGGATTGGAATTAGGTGCAGATGATTATTTAACGAAGCCTTTTAGCCCAAAAGAAGTGGTAGCTAGAATTAAAGCTATTTTACGGAGAGCAAAGAGAGTAGAAAAATCTAATTTTTCATTTATACAAGTTGGTGATTTAACGGTGTTCCCTGAAAGATATGAAGCAGAAATGGCAGGGAAAGTGATTACCTTTACGAGAAAAGAATTTGAACTGTTATATTATCTAGCAAAGAATAAAGGAAAGGTTATTTCACGTGACCAACTTCTTAGCGGTGTATGGGATTATGATTTTGTTGGTGATACCCGTATTGTGGATGTTCACGTTTCTCATTTACGGGATAAAATAGAACCAGATTCTAAAAAACCTGTTTATATTAAAACGGTACGAGGTCTTGGTTATAAATTGGAGGACCCTAGTTAA MNEKILIVDDEKSIVTLLNFNIEKAGFVTDVAYDGYEAVQKAQSNSYDLIVLDLMLPEMDGMDVCRYLRNNQINTPILMLTAKDEEFDKVLGLELGADDYLTKPFSPKEVVARIKAILRRAKRVEKSNFSFIQVGDLTVFPERYEAEMAGKVITFTRKEFELLYYLAKNKGKVISRDQLLSGVWDYDFVGDTRIVDVHVSHLRDKIEPDSKKPVYIKTVRGLGYKLEDPS PGPT0002665_1188 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK015_03167 1386 phoR COG0642 Alkaline phosphatase synthesis sensor protein PhoR ATGCGATTTTTGTTTGAAAAACCTATATTCGGTTACACAGTAGGTGTTTTTTTAGTTGTTTTAGTAACCGGTATTTTGTTAAGTGTTTTAATTGGAGATTATCTAGTATTAGCTGCAGTACTAGTAATTCAATTTATCGTTTTATTGTTATTTATCATACATTTATATGAATCAGTCTTAAAGCCTATTAAAAAAGCAACGAAGACAGTGGATGAGATTGTAAAAGGTAATTATCGAGCTAGATTTCATCATCCAAGTACAGACAGTATTGGGCAGTTAAGTACGAAGATTAATGCTTTAGCGCGAAATTTAAATGAATTAACTATTCAAGAGCAAATGCAGGCAGAACAATTATCTACGATTATAGAAAATACACAAAGTGGGCTTGTTTTAATTGATGCAAAAGGGTATATCCACTTCGTTAACCGTAAATTTCTTGTTATGTTTGGGCAAACAACGAATGATTTTCAAGGCCATCTTTATTATGATGTTCTGCACAATGAAGTTATTCATGAAACGGTTCAAAAAACTTTCTTGTACGAGCGAAATATTAAAGAGGAGTTTACGCATTATAAAGGCTTGGATAAATACTATATTGAGATAGTTGGCGCCCCTATTTTTGATGAACGTAATTTATTAAAAGGGGCGGTGCTCGTTCTTTATGATATAACGGAGTTAAAAAAGCTGGAATTAATGCGAAAAGACTTTGTTGCGAATGTTTCGCATGAGTTAAAAACTCCAATTACGTCTATTAAGGGATTTGCTGAAACATTATTAGATAATCCGATGAAAGATTTGGAGAAAAACAAAGAATTCTTAGAAATAATTTATAATGAGAGTCACCGGATACAATTATTAATTCAGGATTTGTTGATTCTTTCTCGACTAGAAAAAGAAAATCACCAACTAGTTCTTTCCACCTTTTCTATGCGTGAATTGGTAGATGAAGTAATTCCAGTCATTCATCAAAAGTTTGCTGATAAAGGATTGACATTTGATAAATCTATTCAGCAAAGTTTACAACTTACAGCGGATAAAGAAAAAGTGAAGCAAATTATTATTAATCTTATCGATAACGCTATAAACTATACACCAGAGCATGGACATATTTATTTACGGATTATGAATCAAGGCAGTAACGCGCTTATTGAAGTGGAGGATACAGGGATAGGTATTGAGAATGAAGCTCTGCCTCGTATATTCGAACGTTTTTACAGAGTGGATAAAGCTAGAAGTCGTAATACCGGAGGAACAGGACTCGGCTTAGCGATTGTCAAACATATTGTAGAAGTACATGATGGTACGATTGATATAGAAAGTGAAATTAATAAAGGGACAAAGATAGTGGTTAGTCTGCCAATGAATAAGGACGGTAAGATACAATAA MRFLFEKPIFGYTVGVFLVVLVTGILLSVLIGDYLVLAAVLVIQFIVLLLFIIHLYESVLKPIKKATKTVDEIVKGNYRARFHHPSTDSIGQLSTKINALARNLNELTIQEQMQAEQLSTIIENTQSGLVLIDAKGYIHFVNRKFLVMFGQTTNDFQGHLYYDVLHNEVIHETVQKTFLYERNIKEEFTHYKGLDKYYIEIVGAPIFDERNLLKGAVLVLYDITELKKLELMRKDFVANVSHELKTPITSIKGFAETLLDNPMKDLEKNKEFLEIIYNESHRIQLLIQDLLILSRLEKENHQLVLSTFSMRELVDEVIPVIHQKFADKGLTFDKSIQQSLQLTADKEKVKQIIINLIDNAINYTPEHGHIYLRIMNQGSNALIEVEDTGIGIENEALPRIFERFYRVDKARSRNTGGTGLGLAIVKHIVEVHDGTIDIESEINKGTKIVVSLPMNKDGKIQ PGPT0002705_1855 DIRECT EFFECT BIO-FERTILIZATION PHOSPHATE_SOLUBILIZATION P-SOLUBILISATION-PHOSPHATE_METABOLISM P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636 NA NA AK015_03168 2643 polA_2 DNA polymerase I ATGAGCAATAAATTGGTATTAATTGATGGTAACAGTATTATTTACCGTGCATTCTTCGCGTTGCCGCTTTTAAATAATGATAAAGGCGTATATACAAATGCTGTATATGGCTTTACAACCATGCTATTAAGAATGATAGAGGAAGAAAAGCCTACACATATGTTGGTTGCATTTGATGCCGGTAAAACAACTTTTAGACATGATACATATAAGGAATATAAAGGAGGAAGACAAAAAACACCTCCAGAACTATCGGAACAATTCCCTTTATTAAAAGAAGTATTAGATGCATTTTCTATCCCACATTATGAACTGGATAATTATGAGGCAGATGATATAATCGGTACACTATCCAAGCAAGTAGAAGAAAATGGATGGGAAGTAACCGTTATATCTGGTGATAAAGACTTGCTTCAATTAGTTTCTGATCACGTGACTGTAAGTTTGACTAAAAAAGGAATTAGCGATGTTGAGCGTTATACACCTGCTTTTTTAAAGGAAAAAATGGAAATTACGCAAGAACAAATTATTGATTTGAAAGCATTGATGGGAGATAATTCAGATAATATCCCAGGTGTCCCTGGGGTGGGGGAGAAAACGGCAGTCAAATTACTAAAACAATTTCATACATTAGAAAATGTGTATGACCATTTGGAAGATGTTAGTGGGAAAAAGCTGAAAGAGAAGCTAGCAACTCATAAAAAAGAAGCCTTTATGAGTAAAGAACTTGTAACCATTAACCGATCTTCACCAATTACAATTAAACCTGACGATGTTATCTATAGCGGATATGCGCAAGATAAAGTCAGAGCGATTTTTACCGAACTCGGCTTTCAATCGTTATTAACTCGTATGCAAGGGTCTGACGAAGATAAGCCAATGGATACAGTGGAACAACATCCTCCAATTGAATTTTCCATATTAGATGAAGTAAACCATGATTTGTTTACTGGAGAAGAAGCACTTATTGTTGAAATGTTAGAAGAAAATTATCATCAAGCATCCATTCAAGGCTTTTCCATCGTTAATAAGGAAGCGGCTTACTTTTTACCAAAAGATATAGCCATGCAATCCGAACAATTTCAATCATGGTTACGGGATTCTTCTATGAAAAAATATGTATTTGATGTCAAAAAAACATTTGTTTCTTTATCACGAGTTAATATGCACATTGAAGGTATCGCGTTTGATATGCTCTTAGCTTCTTATTTAATTAACCCATCGGAAAACAATCATGATATACCAGCTATTAGCCACAGATTAGGAAGAACGGATGTATATCTAGATGACGAGGTGTATGGGAAGGGAGCAAAGCGGAAGCTCCCAGAACAGTCGATTTTTAGAGAACATGTGGTAAGGAAAGCAAGCATGCTGTACGAGCTGAAACCACAGATGGAAAAGCAACTTAAAGAAAATGAACAGTACGAATTGTTTAAGGAGTTAGAAATGCCATTGGCGCTTATCCTTGGAGAGATGGAGCATACAGGCGTGCTTGTTGATACAAAACGTTTAGAAGAAATGCGCACCGACTTGAAAAATCGTTTAGCAGAATTAGAGAAAGAGGTTCATGAATTGGCTGGTGAGGAGTTTAATTTAAACTCTCCAAAACAGCTGGGTCCAATTCTGTTTGAAAAACTAGGTCTCCCAGTTATTAAGAAGACTAAAACGGGTTATTCCACTGCTGCTGATGTGTTAGAACAACTTCAGGATGAGCATGAAATCATTCCGAAGCTGTTATTATATCGCCAATTGGGTAAATTGCAGTCCACTTATATTGAAGGGTTATTAAAAGTAGTAGATGAAAAAACAAATAAAATTCACACTCGTTTTAATCAAGCACTAACGCAAACAGGTCGTTTAAGCTCCATCGAACCAAACTTACAAAATATCCCTATACGTTTGGAAGAAGGTAGGAAAATACGTCAAGCCTTTATTCCTGCTCAAAAGGATTGGGTTATGTTTGCTGCTGATTACTCTCAAATTGAGTTGAGAGTATTAGCACATATTGCACGCGATGAAAAATTAATGACGGCATTTAAACAAGAAAAAGATATTCATACGCAGACAGCGATGGATGTCTTTCATGTGAATAAAGAAGAAGTTTCCGCAAATATGCGTAGACAAGCAAAAGCAGTTAACTTCGGTATTGTATACGGCATTAGTGATTACGGATTATCGCAGAACCTAGGTATTACTCGAAAAGAAGCGAAACAGTTTATTGATCGATATTTTGAGAGTTACCCAGGGGTAAAGACATACATGGAAGAGATCGTTCAAGAAGCAAAACATAAGGGATACGTAAGCACGATTATGAATCGCAGAAGATATTTGCTGGATATTACCAGTCGTAACTTTAATCAAAGAAGTTTTGCTGAACGAACTGCTATGAATACGCCAATTCAAGGAAGTGCAGCGGACATTATTAAAAAAGCAATGATTGATTTGCATGGTAAGCTAGAGGAACAACAGTTGCAAGCACGAATTTTATTACAAGTACACGATGAATTAATTTTAGAAGCACCGCAGTCTGAAGTAGAGACATTAAAAGAAATAGTGCCAGCTATTATGGAACATACAGTGGATTTAAATGTACCTTTAAAGGTTGATTATGCTTATGGAGATAGTTGGTTTGATGCTAAGTAA MSNKLVLIDGNSIIYRAFFALPLLNNDKGVYTNAVYGFTTMLLRMIEEEKPTHMLVAFDAGKTTFRHDTYKEYKGGRQKTPPELSEQFPLLKEVLDAFSIPHYELDNYEADDIIGTLSKQVEENGWEVTVISGDKDLLQLVSDHVTVSLTKKGISDVERYTPAFLKEKMEITQEQIIDLKALMGDNSDNIPGVPGVGEKTAVKLLKQFHTLENVYDHLEDVSGKKLKEKLATHKKEAFMSKELVTINRSSPITIKPDDVIYSGYAQDKVRAIFTELGFQSLLTRMQGSDEDKPMDTVEQHPPIEFSILDEVNHDLFTGEEALIVEMLEENYHQASIQGFSIVNKEAAYFLPKDIAMQSEQFQSWLRDSSMKKYVFDVKKTFVSLSRVNMHIEGIAFDMLLASYLINPSENNHDIPAISHRLGRTDVYLDDEVYGKGAKRKLPEQSIFREHVVRKASMLYELKPQMEKQLKENEQYELFKELEMPLALILGEMEHTGVLVDTKRLEEMRTDLKNRLAELEKEVHELAGEEFNLNSPKQLGPILFEKLGLPVIKKTKTGYSTAADVLEQLQDEHEIIPKLLLYRQLGKLQSTYIEGLLKVVDEKTNKIHTRFNQALTQTGRLSSIEPNLQNIPIRLEEGRKIRQAFIPAQKDWVMFAADYSQIELRVLAHIARDEKLMTAFKQEKDIHTQTAMDVFHVNKEEVSANMRRQAKAVNFGIVYGISDYGLSQNLGITRKEAKQFIDRYFESYPGVKTYMEEIVQEAKHKGYVSTIMNRRRYLLDITSRNFNQRSFAERTAMNTPIQGSAADIIKKAMIDLHGKLEEQQLQARILLQVHDELILEAPQSEVETLKEIVPAIMEHTVDLNVPLKVDYAYGDSWFDAK NA NA NA NA NA AK015_03169 834 mutM COG0266 Formamidopyrimidine-DNA glycosylase ATGCCGGAATTACCAGAAGTAGAAACCATTCGCAACACGTTAAAACGATTTGTAATCAACAGAACGATTGATCAAATAGATATTCATTGGCCAAAAATAATTAAGCAACCTGATGATATAAAGCAATTTCAGTCAGAGATTATAGGGCAAAAAATTTTAGACATTCATCGAAAAGGGAAATTTTTATTGTTTGAACTAAACGATTATGTTCTCGTTTCACATCTTCGAATGGAAGGGAAATATAGCGTTCATCAAGAAGGAGAACCGGTAAAGAAACATACGCATATTATCTTTCGATTTTCTACCGGAGAAGAATTACGTTATAATGATGTCCGAAAATTTGGCACGATGCATTTGTTTCATCGGGGAGAAGTAATGAATCAAAAGCCGTTATGTTTGTTAGGTCCTGACCCATTCGATGATGCATTTACGGCAGAATACTTTATTGAGAAGCTGAAAAAAACAAAGCGCGTTATTAAATCCGCTTTATTAGATCAAACGATTGTAGCTGGATTAGGAAACATCTATGTGGATGAAACATTGTTCAAGGCACGTATTCATCCTTTAGTACCAGCAAACAAATTAACGCAGAAAGAAATAAAAGAAGTTCGCAAGCAAGCCATTGCTACTTTAGAAGAGGCTGTATTGCAGGGCGGTACAACGATACGCTCTTATGTCAATAGCCAAGGTGAAATGGGGATGTTTCAACAAAAACTTTATGTATATGGTCAAGAAAATAAAGCTTGTAAAACATGTGGTAATACCATTGCCAAATTAAAAGTTGGTGGACGTGGGACACATATTTGTACAAGCTGTCAGCCAATAAAGAGGTGA MPELPEVETIRNTLKRFVINRTIDQIDIHWPKIIKQPDDIKQFQSEIIGQKILDIHRKGKFLLFELNDYVLVSHLRMEGKYSVHQEGEPVKKHTHIIFRFSTGEELRYNDVRKFGTMHLFHRGEVMNQKPLCLLGPDPFDDAFTAEYFIEKLKKTKRVIKSALLDQTIVAGLGNIYVDETLFKARIHPLVPANKLTQKEIKEVRKQAIATLEEAVLQGGTTIRSYVNSQGEMGMFQQKLYVYGQENKACKTCGNTIAKLKVGGRGTHICTSCQPIKR NA NA NA NA NA AK015_03170 606 coaE Dephospho-CoA kinase ATGAGTGTAATTATTGGTCTAACTGGTAGCATTGCAACGGGAAAAAGTACTATTTCTTTAATGTTTGATGATCTTCGTATTCCTGTAATTGATGCGGATAAACTTGCTAGGGAAGTTGTAAAACCCGGGGAGAGAGCGTATGAAGAAATTATTCGACATTTTGGCCTGGAAATCTTGAGAAAGGATAAAACATTAAACCGAGAGTTGCTAGGTGAAATTATATTTGCAGATGAACAGAAGCGAGAGCAATTAAATCATATTGTTCATCCTGCTGTAAGAGAAAAAATGGTTGAAAAAAGAGACGCTTATCTTCAATCAGGATATACATGTGTTGTGCTTGATATTCCTTTATTGTTTGAGAATAATTTGACTTCGCTCGTCGATAAAACAATTGTTGTTTATGTTGATGAAGCTACGCAATTACAGCGTTTAATGGAGAGGGACGACTATTCTGAAGCGGAAGCGAAGCAGCGAATAAAAGCGCAAATGTCTATAACAGAAAAAGTCAAAAAAGCTGACGGCGTTATTGATAATACTGGATCAAAGCTTGAATCTTTTGAGCAACTGGAAAAGTTGCTATTAGCATGGAATATACTCCCTGGTTAA MSVIIGLTGSIATGKSTISLMFDDLRIPVIDADKLAREVVKPGERAYEEIIRHFGLEILRKDKTLNRELLGEIIFADEQKREQLNHIVHPAVREKMVEKRDAYLQSGYTCVVLDIPLLFENNLTSLVDKTIVVYVDEATQLQRLMERDDYSEAEAKQRIKAQMSITEKVKKADGVIDNTGSKLESFEQLEKLLLAWNILPG PGPT0008835_3079 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 AK015_03173 591 hypothetical protein ATGCAAGAACCATTACATCGGATTTACCAAATTATCAAACTTGGAGAAAATCTAAAAACAGAGTTACGTCACAGTTGGCTATCCAACGGAAGAAGAGAAAGCGTCGCAGAGCATACATGGAGAATGTCACTAATGGCCGTATTATTACAACCTTATTTAAATAAGAAAGTAGACATGGAAAAATTATTAAAAATGATTATCATTCACGATCTAGTAGAAGCTGAAGCGAAAGATATTCCTGTTTTTGAAATCATGGGCAATGAAGAAGCGAAGCAGCAAAAACAAATGAATGAATTAAAAGCGATAACAAATATAAAAAATACTTTACCAGAGGAAGTCGGCGGAAGTCTATACAATATGTGGGTGGAATTTGAAGCCAAACAAACATATGAAGCAAAAGTCGCAAACGCTTTGGATAAACTCGAGGTGCAAATCCAACATAATGAAGCCGATATTAGTACTTGGAAGCCGATAGAATATGAGTTATGTTTGCAACTTGGCGAACATACCGATTTTAGTGCTATTTTAAATCAATTAAAAAATATAGTTGAACAGGAAGCGAAAGAAAAAATCGATCAATCTGAACAGTAA MQEPLHRIYQIIKLGENLKTELRHSWLSNGRRESVAEHTWRMSLMAVLLQPYLNKKVDMEKLLKMIIIHDLVEAEAKDIPVFEIMGNEEAKQQKQMNELKAITNIKNTLPEEVGGSLYNMWVEFEAKQTYEAKVANALDKLEVQIQHNEADISTWKPIEYELCLQLGEHTDFSAILNQLKNIVEQEAKEKIDQSEQ NA NA NA NA NA AK015_03174 978 hypothetical protein ATGGGGCAACGAGAAAATATTATATTGTTCCCAAAATGGAGAACGGCTTTAGAGGAGGAGAGCTTACTTGCCTTAAAAGAAAAAAGATTTGCAGAGGCATTAGAAAAGCTCAATGAATTATTAAGCTATCAAGTCAATAGTTTTGAGATTGTAAGCGGAAAACTAATCTGTTTAATTGAATTAGATCGGCATAAGGAAGCTCAGGATATTTGTGAAGATGTGTTACACCGACAGGATAAACACTATTACCATTACTTACATATTTATTTAACCATTTTGTTTCAAACAAATCAATATGAGATGTTAATGGAGCAGGTGGAAGAAGAGTTTAAATTCCATCAAGTACCACAAGTGTTAAAAGAACAATTTCATCAGTTATACGAAATGAGTCGTAAATTAAAAGCAGACATGTTAGTAGAACATCAATCTGTGTTTATGGAAGAATGGGACGACGCTATTACTACACGTGATTATCAAAAACAATGGTTAATTATAGAGAAATTACGTGTAATTAAAAGCGAACCAAATCGTAAAATGTTACACTTATTAGTAAAAGAAGACATACACCCTGTTGTAAAAACAGCTATATTAATGTGGTTACAAGAAATAGATTATAATCAGCTAGTCGATATAAAAAAATGGGGAAGAAGCATACAAGTACACCCTTTAGAGATAGAAGCAATTGGGAAGCATGCTTCAGTGAAACGAATCAATTCGATCATAAATGAGCTTGAACAAAAAAACCCAACTTTATATGATTTGTTAGTGAAATTGTTATATCATTACATGTATGTCAAATACCCGATGCTCCCTGTTAAAGAGGAAGCGGAACATATCGCGCTAGCCTTAAAAGCAATTGGTGCAAATTATTTAAACATAAATTTGAGTGAGTCAGGAAAGCAATTAGATGTGAATGATTACATAGAAGATATTGAGCGTTGCGAAGCCTTGTATTCTAGTATCATTGAGGATAACTAG MGQRENIILFPKWRTALEEESLLALKEKRFAEALEKLNELLSYQVNSFEIVSGKLICLIELDRHKEAQDICEDVLHRQDKHYYHYLHIYLTILFQTNQYEMLMEQVEEEFKFHQVPQVLKEQFHQLYEMSRKLKADMLVEHQSVFMEEWDDAITTRDYQKQWLIIEKLRVIKSEPNRKMLHLLVKEDIHPVVKTAILMWLQEIDYNQLVDIKKWGRSIQVHPLEIEAIGKHASVKRINSIINELEQKNPTLYDLLVKLLYHYMYVKYPMLPVKEEAEHIALALKAIGANYLNINLSESGKQLDVNDYIEDIERCEALYSSIIEDN NA NA NA NA NA AK015_03175 1287 tig COG0544 Trigger factor ATGTCAGTAAAATGGGAAAAGCAAGAAGGAAATGAAGGTGTACTTACATTTGAAGTAAGTGCTGAAGAGTTTGACAAAGCATTAGATCAAGCATTTAATAAAGTCAAAAAGGATGTACAAATTCCAGGTTTTCGTAAAGGTAAAATTCCACGTGGTTTATTTGAAAAGCGTTTTGGTGTAGAAGCACTTTACCAAGACGCTGTTGACATTGTATTGCCTAGTGCATATATGCAAGCTGTAGCTGAAGCTGAAATTGAACCAGTAGATCAACCAGATATTGATATAGAATCCATTGATAAAGGCGAACCTTTAGTATTCACTGCTAAGGTAACTGTAAAGCCAGAGGTTAAACTTGGTGAATATAAAGGCCTCGAAGTAGAAGATGAAGAAGTAGAGGTAACTGATGAAGATGTTATGCATGACTTGGAGCACCAACGTGAGCACCATGCTGAATTAGTTGTTAAAGAAGATGGTGAAGTAGAAAATGGTGATACAGTTGTTATCGATTTTGAAGGTTTCGTTGATGGAGAAGCATTTGATGGTGGAAAAGCTGAAAACCATTCTTTAGAAATCGGCTCTGGTCAATTTATTCCTGGATTTGAAGAGCAGCTTATTGGTAAAAAACCTGGAGAAGAAGTGGAAGTTGCGGTAACTTTCCCTGAAGATTACCATGCAGAGGAGCTTGCAGGAAAAGAAGCTACCTTTAAAGTGATGATTCATGAAGTCAAATATAAAGAGTTGCCAGAACTTGACGATGAGTTTGCCAAAGATTTGGACGATGAAGTTGATACGCTTGAAGAGTTAAAAGCTAAGAAAAAAGAACAACTTATAGAGAAAAGAACAGAAGAAGCTGATAACAAAAAGCGGGAGACATTGATTGAAAAAGCTAGCGAAAATAGTGAAATTGCTATTCCTGATGCAATGGTAGAATCAGAACTAGACCAAATGGTACAAGAATTTGAACAGCGCCTGCAAATGCAAGGAATGACGCTAGAGATGTACTCCCAATTCTCTGGACAAGATAAGGATGCTTTAAAAGAGCAAATGCGTGAAGATGCTAAGAAGCGTGTGAAAACAAATCTTACGTTAGACGCTATTGCTGAAACAGAGGAATTGGAAGCAACGGATGAAGATGTTGAAGCAGAACTTGATAAAATGGCAGAAATGTACGGTGCTGAAAAAGAACAGATTAGACAAATGCTTGGTGGTAATGCAGAAGCATTAAAGAGTGATTTGAAAAAGCGTAAAGCAATTGACTTCCTTGTAGAACAAAGTAAAGCTGTATAA MSVKWEKQEGNEGVLTFEVSAEEFDKALDQAFNKVKKDVQIPGFRKGKIPRGLFEKRFGVEALYQDAVDIVLPSAYMQAVAEAEIEPVDQPDIDIESIDKGEPLVFTAKVTVKPEVKLGEYKGLEVEDEEVEVTDEDVMHDLEHQREHHAELVVKEDGEVENGDTVVIDFEGFVDGEAFDGGKAENHSLEIGSGQFIPGFEEQLIGKKPGEEVEVAVTFPEDYHAEELAGKEATFKVMIHEVKYKELPELDDEFAKDLDDEVDTLEELKAKKKEQLIEKRTEEADNKKRETLIEKASENSEIAIPDAMVESELDQMVQEFEQRLQMQGMTLEMYSQFSGQDKDALKEQMREDAKKRVKTNLTLDAIAETEELEATDEDVEAELDKMAEMYGAEKEQIRQMLGGNAEALKSDLKKRKAIDFLVEQSKAV NA NA NA NA NA AK015_03176 1278 clpX COG1219 ATP-dependent Clp protease ATP-binding subunit ClpX GTGTTTAAATTCAATGAAGAAAAAGGACAATTAAAATGTTCGTTCTGTGGTAAAGGCCAAGATCAAGTTCGGAAATTAGTGGCTGGACCGGGCGTTTATATATGTGATGAATGTATTGAATTGTGTACGGAAATAGTGGAAGAAGAACTTGGCACGGAAGAAGAAACAGAATTAAAAGAAATACCCAAGCCACGTGAAATATGTGATATATTGGACGATTATGTTATTGGTCAAGATAAGGCAAAAAAGAATTTATCTGTTGCTGTATATAACCATTATAAGCGGATCAATACACCGAAAGCTTCTTCTGACGATGTAGAGCTAGCGAAAAGTAACATAGCTATGATTGGTCCAACTGGTAGCGGGAAAACATTGTTAGCGCAAACTTTGGCGCGAATAATTAATGTACCTTTCGCAATGGCTGATGCAACTTCACTTACTGAAGCAGGCTATGTTGGCGAGGATGTAGAGAATATATTACTGAAACTTATTCAAGCAGCCGATTATGATGTAGAAAAAGCAGAAAAAGGCATTATTTACATTGATGAAATAGACAAAGTAGCTCGTAAGTCAGAAAATCCTTCTATTACACGAGATGTCTCTGGAGAAGGAGTGCAGCAGGCTTTACTTAAAATATTAGAAGGAACAGTAGCTAGCGTTCCTCCTCAAGGTGGGAGAAAGCACCCTCATCAGGAATTTATTCAAATTGATACAACGAATATTTTGTTTATCGTTGGTGGGGCATTCGATGGAATTGATCAGGTTATTAAACGCCGTCTTGGTAAAAAAGTAATTGGGTTTGGAGCCAATGAAAAGCAGCAAGATTTAGACATGGGTGAGCTGTTAGAAAAGGTTTTACCAGAAGACTTATTACGTTATGGGCTTATTCCAGAGTTTATTGGTAGAATTCCAGTTATAGGTAGTTTAACGCCATTAGATGAAGAGGCGCTCGTTGAAATTTTAACGAAGCCAAAAAACGCTTTAGTGAAACAATATGAAAAATTATTTGAGTTGGATAATATTGAATTAGAATTTGAAGAGGAAGCCTTAAGAGAAATTGCTACTAAGGCAATTGAACGTAAGACGGGAGCTAGGGGGTTACGCTCCATTATTGAGGGTATAACACTTGATGTCATGTTTGAACTTCCGTCTAGAGATGATATTGAAAAATGTATTATTACGAAAAGAACTGTAGAAGAAGAGGGTGTTCCAAAACTCGTATACCGAGATGGGACAGTAACAGAAGGAGCTAAAAAACATCCTAAAGAAAGTGCTTAA MFKFNEEKGQLKCSFCGKGQDQVRKLVAGPGVYICDECIELCTEIVEEELGTEEETELKEIPKPREICDILDDYVIGQDKAKKNLSVAVYNHYKRINTPKASSDDVELAKSNIAMIGPTGSGKTLLAQTLARIINVPFAMADATSLTEAGYVGEDVENILLKLIQAADYDVEKAEKGIIYIDEIDKVARKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTTNILFIVGGAFDGIDQVIKRRLGKKVIGFGANEKQQDLDMGELLEKVLPEDLLRYGLIPEFIGRIPVIGSLTPLDEEALVEILTKPKNALVKQYEKLFELDNIELEFEEEALREIATKAIERKTGARGLRSIIEGITLDVMFELPSRDDIEKCIITKRTVEEEGVPKLVYRDGTVTEGAKKHPKESA PGPT0014600_2504 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544 NA NA AK015_03177 2340 lon1 COG0466 Lon protease 1 ATGATGACAAATGATAAAAAACAAATTCCCCTCCTACCATTAAGAGGATTGCTTGTTTTCCCGTCTATGGTTTTACATCTGGATGTAGGAAGAGAAAAATCTATATCAGCTATTGAAAAAGCGATGATGGATAATGAATACATATTTTTAGCAGCACAAAAGAAAATCCGTTTAAAAGAACCGGAACCAAAGGACATCTACTCTATTGGGACGGTTTCTATGGTTAAGCAAATGATTAAACTGCCGAATGGAACGATGCGAGTTTTAGTTGAAGGTGTATACCGAGCAGAAGTATTAAGATACGTTGAACAAGAGCACGAATTTATTGTAGAAGTACAAAAGTTATCCGATATAGAAACGGATCAGCATGAACAAGAAGCGCTTATGCGTTCACTATTGACCCAATTTGAGAAGTATACGACACTTTCGCAAAAAATCACACATGAAACATTTGAGACGGTTGCTGATATAGATGAACCTGGGCGATTAGCAGATATAATTACCTCTCATTTGTCTTTAAAAATAAAGGAAAAGCAAGCACTATTGGAAACGCAAGAAATTAAAGCACGGCTAAAGATGTTAATTCAATACATATCCAACGAACAAAAGGTGCTTGACCTGGAAAAGAAGATCGGTCAACGTGTCAAAACATCCATGGAGAAAACACAAAAAGAATATTATTTACGTGAACAATTAAAGGCAATTCAAAAAGAGTTGGGAGAAAAAGACGGGAAAATAGGTGAGGTAGATGAATTGCGGGAAAAAATTCATGCTTCCACCATGCCTGAGCGAATTCAAACAGCAGCGCTTAAAGAATTAGACCGTTATGAAAAAATCCCTCAAAGCTCTGCGGAAAGTTCAGTAATTAGAAATTACATAGAATGGTTGTTAGCGTTACCTTGGAATGAGAAGACGGAAGATCGGATTGATGTGGACTTGGCAGAAAATATTTTAAATAGGGAACATTACGGTCTGGAGAAGGTAAAAGAGCGAATTTTAGAATATTTAGCTGTACAAAAACTCACTTCATCTATTAAAGGACCTATTTTATGCTTGGCGGGTCCACCTGGAGTGGGGAAAACATCTTTAGCGAAGTCGATCGCTCATGCTGTAAATCGAAATTTCATCCGTATTTCCTTAGGGGGGATCCGTGATGAAGCCGAAATTCGAGGCCACAGGCGTACTTATATTGGGGCTATGCCAGGAAGAATTATTCAAGGAATGAAAAAAGCAAAGACGAACAACCCGGTATTTTTATTAGATGAAATTGATAAAATGGCTCATGACTTTCGCGGAGACCCATCTTCCGCTTTATTAGAAGTTCTTGATCCAGAACAAAACGCGCAATTTAGTGATCATTTTATTGAAGAAACGTACGATTTATCCAATGTGCTGTTCATCGCTACTGCAAATTACATAAACAACATCCCAGCACCTTTGCTCGATCGAATGGAAATTATTTCTATTACTGGATATACAGAAATTGAAAAGCAGCATATTGCAAGGCGCCATTTACTGCCTAAACAATTGAAAGAAAATGGTTTAACAAAAGGACAATTGCAATTACGAGATGAGGCTCTTCGAAAATTAATTCGAATGTATACAAGAGAAGCAGGCGTTCGTAATCTTGACAGGCAATTAGCTTCCTTATGCCGAAAAGCAGCTAAGCTTGTTGTTTCTAAAAAGAAGAAACGTGTCATAGTAACTGAAAAAAGTTTAGTGGAAATGCTTGGAAAACCATTATACCGTTATGGTTTAGTAGAAAAAGAGAACCAGGTAGGTACTGCCACTGGGCTAGCATACACAGCGGTTGGAGGCGATACATTATCTATCGAGGTTTCCCACTACCCTGGAAAGGGGAAATTGACCCTTACTGGGAAACTCGGTGATGTCATGCAAGAGTCAGCGCAAGCTGCTTTCAGCTATATTCGTTCTCGAGCAACTGAACTGAATATAGATCCATCTTTTCATGAGAATTGTGATATTCATATTCATGTGCCTGAGGGAGCCACTCCAAAGGACGGGCCCTCCGCAGGAATAACGATGGCTACTGCTTTAGTTTCTTCATTGACAGGTCGTCCCGTAAAGAAAGAGGTAGCAATGACTGGAGAAATAACCTTAAGAGGTCGTGTACTTCCGATTGGTGGTCTAAAGGAAAAAACGCTAAGCGCACATCGTGCTGGTATTTCTACCGTTATTATTCCAGAAGACAATAAAAAAGATATTGAATCTATTCCTGAAAGTGTAAGAAAAGATATCACATTCGTCACGGTTCGTCATCTGGATCAAGTATTACAACATGCGTTAGTGGGGGAGCAAAATGAAAGTAACAAAAGCTGA MMTNDKKQIPLLPLRGLLVFPSMVLHLDVGREKSISAIEKAMMDNEYIFLAAQKKIRLKEPEPKDIYSIGTVSMVKQMIKLPNGTMRVLVEGVYRAEVLRYVEQEHEFIVEVQKLSDIETDQHEQEALMRSLLTQFEKYTTLSQKITHETFETVADIDEPGRLADIITSHLSLKIKEKQALLETQEIKARLKMLIQYISNEQKVLDLEKKIGQRVKTSMEKTQKEYYLREQLKAIQKELGEKDGKIGEVDELREKIHASTMPERIQTAALKELDRYEKIPQSSAESSVIRNYIEWLLALPWNEKTEDRIDVDLAENILNREHYGLEKVKERILEYLAVQKLTSSIKGPILCLAGPPGVGKTSLAKSIAHAVNRNFIRISLGGIRDEAEIRGHRRTYIGAMPGRIIQGMKKAKTNNPVFLLDEIDKMAHDFRGDPSSALLEVLDPEQNAQFSDHFIEETYDLSNVLFIATANYINNIPAPLLDRMEIISITGYTEIEKQHIARRHLLPKQLKENGLTKGQLQLRDEALRKLIRMYTREAGVRNLDRQLASLCRKAAKLVVSKKKKRVIVTEKSLVEMLGKPLYRYGLVEKENQVGTATGLAYTAVGGDTLSIEVSHYPGKGKLTLTGKLGDVMQESAQAAFSYIRSRATELNIDPSFHENCDIHIHVPEGATPKDGPSAGITMATALVSSLTGRPVKKEVAMTGEITLRGRVLPIGGLKEKTLSAHRAGISTVIIPEDNKKDIESIPESVRKDITFVTVRHLDQVLQHALVGEQNESNKS PGPT0014315_4364 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338 NA NA AK015_03178 588 engB COG0218 putative GTP-binding protein EngB ATGAAAGTAACAAAAGCTGAAATTGTAATAAGTGCTGTCAGTGAAAAACAATATCCAAATGATCAGTTACCAGAAATAGCTTTAGCAGGACGATCGAATGTGGGAAAGTCTTCGTTTATTAATACGTTAATTAACCGCAAGAATTTAGCACGAACGTCATCAAAACCAGGAAAAACACAAACGCTAAATTTTTATCTTATCAACAACGCCTTTTATTTTGTTGATGTCCCTGGTTATGGTTATGCAAAAGTGTCAAAAAAAGAAAGGCAAAAATGGGGCAAAATGATGGAAGAGTACTTTGAAAAGCGCCATTCGCTAAAAGCGGTGCTTTTAATTACAGATATCCGACATGAGCCCACTGTTGATGATTTACAGATGTATGATTTTTTAAAGTATTATGAACTTCCGGTTTTAATCATAGCGACTAAATTGGATAAAGTGTCTAAAAACAAACGATCACAGCATGTAAAACGAACGGAAAAAGCTTTTCAAGTGGAGGCAGGAGATCTGGTATTACCTTTTTCTGCTGAAACGGGTGAAGGAAAAGAAGAAGCATGGTCCATGATCCGCCAATATATGGAGGTGTGA MKVTKAEIVISAVSEKQYPNDQLPEIALAGRSNVGKSSFINTLINRKNLARTSSKPGKTQTLNFYLINNAFYFVDVPGYGYAKVSKKERQKWGKMMEEYFEKRHSLKAVLLITDIRHEPTVDDLQMYDFLKYYELPVLIIATKLDKVSKNKRSQHVKRTEKAFQVEAGDLVLPFSAETGEGKEEAWSMIRQYMEV NA NA NA NA NA AK015_03179 483 hypothetical protein TTGAAAAAACAAAACACGCTTACCGCGTATCTTCTTATCGGTATAGGTTTGTTTTTTTTACTTAAACAATTAAATATCCCTATCTTGAACAACTTTTATTCATGGCAAACAATAATCATTATAATTGGACTTGTTTTGTTAATCCATAGTTATATTACAAAAAATTACCAGAATTTGTTTAGCGGTACTATTTTGTTAGGATTAGGCATTCATTTTTACGGTCTAGCTTACTATTCTTTTTGGATTGATCATTGGGCTATGTATGTACTTATTGTAGGCGTCGCATTTATAGTTCGTTTTTTACAAACGAAAGAAGGTTTGATACCAGGAATATTGTTGACAGCTTTTTCTTTGGTCATGATGTTTTCAGTACAACTTCCTAGCTGGTTTAATTGGATCTATACAATTGTAGATGTAATGGAACGTTTTTGGCCTGTTTTGTTAATTATTTTTGGCTTGTTTTTATTAACGAAACGGAAATAA MKKQNTLTAYLLIGIGLFFLLKQLNIPILNNFYSWQTIIIIIGLVLLIHSYITKNYQNLFSGTILLGLGIHFYGLAYYSFWIDHWAMYVLIVGVAFIVRFLQTKEGLIPGILLTAFSLVMMFSVQLPSWFNWIYTIVDVMERFWPVLLIIFGLFLLTKRK NA NA NA NA NA AK015_03180 1371 hemA COG0373 Glutamyl-tRNA reductase GTGCATATTTTAAAGGTGGGTTTTAATTATAAAACAGCCCCTGTAGAAATTAGGGAAAAGCTTGCCTTTTCGGAAGATCATGTTCACGAGGCCATGGTCGCTTTGAATGGGCAAAAAAGTATTTTAGAAAATGTTATTGTTTCCACTTGTAATCGTACAGAAATTTTTGCAGTAGTAGATCAGTTGCATACAGGGCGATACTATATCAAGCAGTTTTTAGCTGATTGGTTCGACGAGGAGAAAGCTAGTTTTTCTTCATTTTTGCAAATTGCTGAAAATGACGGAGCGATGGAGCATTTATTTCGTGTAATTACAGGATTGGATTCTATGGTATTAGGGGAAACGCAAATCTTGGGTCAAGTGAAGCAGGCGTTTTTAACTGCGCAAAAAATGGGGACAACTGGTACTGTGTTGAATGAATTATTTAAACAGGCTATTACGTTTGGTAAGCGTGTACAGAAAGATACGGCAATTGGTAAACAAGCAGTATCTGTTAGTTATGCAGCTGTTGAGCTAGCAAAGAAAATTTTTGGCGACTTAAAGAAAAAACGTGTTGTTATACTAGGAGCGGGAAAAATGGGGGAACTTGCTGTTAAAAATTTACAAGGTTCCGGAGCGAACGACATTACAGTGGTAAATCGTACAAAAGAAAAAGCAGATGCGTTGGCTAAAAAGTTTGCAGCACGCGCTGAAACAATCGACAGGTTACCTATCGTATTACAAGAAGCTGATATTCTGATTACTTCTACCGGTTCCACATCTGTCATCCTATCAAAAGAATTGATGGAAGCAGTGCAAAAAGAGCGCAAGGGGCACCCTTTATTTTTAGTAGACATTGCAGTTCCGCGCGACATTGACCCTTCTGTAAGTGAATTAGAAAATACTTTCTTGTATGATATCGATGATCTGCAACATATTGTTGATGAAAATTTAGAAGCAAGAAAAGAAGCAGCAGAGCAAATTGAGCTGATGTTTGAAAGTGAAATTGTTGCATTTAAAGAATGGTTAAAGACATTAGGTGTTGTACCGATTATTTCGGCTTTACGGCAGAAAGCACTTTCCATACAAATGGAAACAGTGAAAAGTATTGAAAGAAAAATGCCTGATCTCACAGAAAGAGAGAAAAAGATCATTAACAAACATACGAAAAGTATCGTCAATCAGTTGCTAAAAGAGCCAATTACACAAGCAAAAGAAATGGCGGTAGGTGACCGATCCAAGGAATCACTTCAATTGTTTATTGACATATTCGGTATCGAAGCAGAAGTACAAGCAGAGCTTGATAAGCAGGCAAAAAAAAATGAAACAAATAAAGCAATGAAAAATAAACAAGTATCCTTCCCACTTTTAAATAAGATGCCGACCATATAA MHILKVGFNYKTAPVEIREKLAFSEDHVHEAMVALNGQKSILENVIVSTCNRTEIFAVVDQLHTGRYYIKQFLADWFDEEKASFSSFLQIAENDGAMEHLFRVITGLDSMVLGETQILGQVKQAFLTAQKMGTTGTVLNELFKQAITFGKRVQKDTAIGKQAVSVSYAAVELAKKIFGDLKKKRVVILGAGKMGELAVKNLQGSGANDITVVNRTKEKADALAKKFAARAETIDRLPIVLQEADILITSTGSTSVILSKELMEAVQKERKGHPLFLVDIAVPRDIDPSVSELENTFLYDIDDLQHIVDENLEARKEAAEQIELMFESEIVAFKEWLKTLGVVPIISALRQKALSIQMETVKSIERKMPDLTEREKKIINKHTKSIVNQLLKEPITQAKEMAVGDRSKESLQLFIDIFGIEAEVQAELDKQAKKNETNKAMKNKQVSFPLLNKMPTI PGPT0003650_744 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492 NA NA AK015_03181 819 ccsA_2 Cytochrome c biogenesis protein CcsA ATGGTAGAATTAAAATGGCTTTATGAATTTATATTAATCATTTATGGGTTAAGCCTGTTCGGATACTTTATTGATTTTGTTCAAGACAACCGGAGGGTAAATCGAATAGCCTTCTGGTTGCTTAGTTTGGTTTGGATCATTCAAACCTTTTTTTTATTCTACGTAATAATCATTGAAAAAAGTTTTCCGGTTGTAACCTTAAATGATAGTCTATTTTTTTATTCGTGGATTCTTGTGACGATATCATTACTAGCGAATAAACTATTTCCTGTTAATTTTATTGTTTTTTTCACAAATGTATTTAGTTTCTTCATTCTATTGCTTTTTTTGTTGACGGACGCGCAAAAAAATTGGCAGGAGCATGCCGTCCAATTTGTTCATGAAATAGTTATTGCACATATAACGATTGCCATTACTTCCTATGGATTTTTTACACTATCATTTTTATTATCCATTATGTATTTAATTCAGTACAAATTATTGAAGCGAAAAAAAGGTTTTAAGTGGATGTGGCGGTTTGCTGACTTGAACCAATTGGATAGCTATGCATTTAAAACAGTAACCATTGGTGTTCCTTTACTATTAATCGCTATTATACTAGGAATTGTGTGGGCTTATGTATCTGATGCTCTATTTTACTGGGTAGATTTAAAGACAATTGGTTCTTTCTTTGTATTGGCTATTTACGTCGTTTACTTAGTCATCCGTTTATGGAAAAAGTATAAAGGGAGAACGATTGCAATGTATAATACAGTTGCTTTTCTATTGTTGCTAGTCAATTTCTTGTTATTCAGTACGTTATCGAAATTTCATTTTTAA MVELKWLYEFILIIYGLSLFGYFIDFVQDNRRVNRIAFWLLSLVWIIQTFFLFYVIIIEKSFPVVTLNDSLFFYSWILVTISLLANKLFPVNFIVFFTNVFSFFILLLFLLTDAQKNWQEHAVQFVHEIVIAHITIAITSYGFFTLSFLLSIMYLIQYKLLKRKKGFKWMWRFADLNQLDSYAFKTVTIGVPLLLIAIILGIVWAYVSDALFYWVDLKTIGSFFVLAIYVVYLVIRLWKKYKGRTIAMYNTVAFLLLLVNFLLFSTLSKFHF NA NA NA NA NA AK015_03182 930 hemC Porphobilinogen deaminase TTGCGTAAATTAGTTGTTGGTTCACGAAAAAGTAATCTTGCATTAACACAAACCAATTGGGTAATTAATCAATTAAAACAAGCTGGGGTTGAAAATGATTTTGAAGTGAAGAAAATCGTTACAAAGGGGGATCGTATTTTAGATGTTACTTTATCTAAAGTAGGTGGGAAAGGTCTGTTTATCAAGGAAATTGAGGAAGCTATGTATAACAAAGAAATTGATTTAGCTGTACATAGTATGAAGGATATGCCGTCTACGATGCCAGAAGGGTTGATTATAACAACTATTCCAGAGCGTGAAGACCATCGAGATGCGTTTATTTCTAAAGGAAATATTCGTTTAAAAGATTTGCCAAACGGGGCAATTGTAGGAACGAGCAGTTTACGAAGAGCTGCGCAAATACAAGCTGTAAGACCAGATGTCACTATAAAGTGGATACGTGGTAATATTGAAACAAGGATAAGAAAATTAAAGGAAGAAGATTATGATGCGATTGTGTTGGCTGTTTCTGGTTTAAAGCGAGTAGGTTTAAGTGAAACATTAATTACGGAGTACTTAGAGCCAGACGTTTGTGTTCCTGCAGTTGGGCAAGGCGCTTTAGCTATTGAATGCCGGGCGGATGATGATGAACTGAAAAAACTCTTAGCAACCCTTCATGATGAAGATACCGCTCGAACGGTTACAGCAGAACGAACCTTTTTGCATTTGTTGGAAGGCGGCTGTCAAGTACCAATCGGAGGCTATGCATATTTACAAGGAGAAACGATTGTACTGACAGCTTTTGTAGGCACACCTGATGGGAAAACAGTCTTAAAGGAAGTGGTACAAGGTAGTGATCCAGAAGCAGTTGGCAGGAAAGCAGCTACGTTATTACAAAATCGAGGAGCTAAGGAAATTATTGAAAAGGTAAAAGAGGAGTTAAATGAGTAA MRKLVVGSRKSNLALTQTNWVINQLKQAGVENDFEVKKIVTKGDRILDVTLSKVGGKGLFIKEIEEAMYNKEIDLAVHSMKDMPSTMPEGLIITTIPEREDHRDAFISKGNIRLKDLPNGAIVGTSSLRRAAQIQAVRPDVTIKWIRGNIETRIRKLKEEDYDAIVLAVSGLKRVGLSETLITEYLEPDVCVPAVGQGALAIECRADDDELKKLLATLHDEDTARTVTAERTFLHLLEGGCQVPIGGYAYLQGETIVLTAFVGTPDGKTVLKEVVQGSDPEAVGRKAATLLQNRGAKEIIEKVKEELNE PGPT0003660_3572 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749 NA NA AK015_03183 1764 hypothetical protein ATGAGCTTACCGTTAGATGGGAAGCGAATCTTAGTCACTCGCGAGCAAGAAAAAGCAACAGATTTTGCGAATAAAATTACTAATTTAGGCGGAGAACCAATACAAGTCCCACTTATTAATATTACTTGTAAACGTCCAATAAATGGGGATTTTGCACAACAATTGTCAAATTGTAATTGGATATTTTTCACAAGTGGGAATGGGGTAAGCTGCTTTTTTCAGTTCGTAAAGCACGACGCTGTCGCTTTAGAGAATGTGGTGCAAACTAAAATTGCTGTTGTGGGAAATAAAACGGATCTTAAGCTAAAAGAAATAACAGGTCGCTCTGCTGATTTTGTCCCAAGTTCTTTTGATGCTGAGACGATGGCAGAGGAGTTTTTAAGTCAATATCCTACCGACGATCATTTTTTGTTAGTAAGAGGAAATCTCTCTAGACATGTGTTGCCAGAGCGCTTTAAACAAAGCAATAAAACTTTTACAATGCTTGAAGTGTATGAAACCCATAAGAATGTCAAAGCAAAACCGTTGTTGCAATACGCCATAACGGATACTAAGGTTCATTATATTACATTTACAAGCCCGTCTACAGTGGAGTCATTTGTCGATCTAATAGGGGTCAGAAACGTCGCACCATGTGTATGCATTGGTACGACAACAGAACAACGGGCGAAGGAATTAGGATTTTCTAAAGTTTTAACAGCAAAAGATTTTACAATTAATGGTATGATTGATTGTATAAAGCAAGACGTGATGAAAAGAAAGGATGAAAAAAAAATGACGAACATACCGACTTTTGACAGGCACCGTAGATTAAGACGTACGGCTGGTATGAGAGACTTAGTAAGAGAAACACATTTGCATAAAACCGATCTTGTCTATCCCATGTTTATTGTTGAAGGAGAAAAGGTGAGAAAACAGGTTCCTTCTATGCCAGGAGTATACCAGTTATCGTTGGATTTACTTACGGAAGAAATAGATGAACTAGAAGAACTTGGTATTCAAGCTGTTATTTTGTTTGGGGTGCCAAATGAAAAAGATGAACAAGGGACGGGCGCTTTTATTGATGAAGGGATTGTCCAACAAGCTACACGAAAAATTAAAACAAAAGTACCATCAATGCTCGTAATTGCAGATACTTGTTTGTGTGAATATACGTCTCATGGACATTGTGGAGTCATTCATGACCATGATGTAGATAATGATGCGTCATTAGAGTTACTTGCTAAAACAGCAGTCTCCCAAGCAAAGGCAGGGGCTGACATTATTGCACCGTCAAACATGATGGATGGGTTTGTAGCAGTTATTCGTCAAGCTTTAGATCAAGCTGGTTTTACACAAATTCCTATTATGTCTTACGCGGTTAAATATGCTTCTTCTTTTTATGGTCCATTCCGAGATGCAGCAGATAGTACACCACAATTTGGAGATCGAAAAACATACCAAATGGACCCCGCGAATCGATTAGAAGCACTTCGTGAGGCGAAATCAGATGTTCATGAAGGTGCTGATTTTTTAATTGTAAAACCAGCTTTAAGCTACTTAGATATTGTGAGAGAAATGAAGAATAACTTTGATTTGCCGATTGTTGCCTATAATGTAAGCGGCGAATATGCGATGGTGAAAGCTGCAGCGCAAAATGGCTGGATTGATGAACAGGCGCTGGTTATGGAAAAACTATTATCTATGAAACGAGCTGGAGCAGATCTAATTATAACTTATTTTGCAAAAGATGTTGCAAAATGGTTAGTAGAAAAAAATAGATAG MSLPLDGKRILVTREQEKATDFANKITNLGGEPIQVPLINITCKRPINGDFAQQLSNCNWIFFTSGNGVSCFFQFVKHDAVALENVVQTKIAVVGNKTDLKLKEITGRSADFVPSSFDAETMAEEFLSQYPTDDHFLLVRGNLSRHVLPERFKQSNKTFTMLEVYETHKNVKAKPLLQYAITDTKVHYITFTSPSTVESFVDLIGVRNVAPCVCIGTTTEQRAKELGFSKVLTAKDFTINGMIDCIKQDVMKRKDEKKMTNIPTFDRHRRLRRTAGMRDLVRETHLHKTDLVYPMFIVEGEKVRKQVPSMPGVYQLSLDLLTEEIDELEELGIQAVILFGVPNEKDEQGTGAFIDEGIVQQATRKIKTKVPSMLVIADTCLCEYTSHGHCGVIHDHDVDNDASLELLAKTAVSQAKAGADIIAPSNMMDGFVAVIRQALDQAGFTQIPIMSYAVKYASSFYGPFRDAADSTPQFGDRKTYQMDPANRLEALREAKSDVHEGADFLIVKPALSYLDIVREMKNNFDLPIVAYNVSGEYAMVKAAAQNGWIDEQALVMEKLLSMKRAGADLIITYFAKDVAKWLVEKNR NA NA NA NA NA AK015_03184 1284 hemL COG0001 Glutamate-1-semialdehyde 2,1-aminomutase ATGAATTTTGATAAATCCAAAGCTGCTTATGAAGAAGCAGTTGATTTAATGCCTGGTGGTGTTAATTCACCTGTTCGTGCATTTAAATCAGTAGGTATGTCACCAATTTTTATGGAATCTGGTAAGGGAGCCAAAATAAGAGATATTGATGGTCATGAATACATTGATTACGTTTTAAGCTGGGGTCCACTCATTTTAGGACATGCTGATGAACGGGTCGTAACAAAATTAAAGGAAACAGCGGAAAAAGGTACCAGCTTTGGAGCGCCGACATTATTAGAAAATGAGCTTGCACAGCTAGTTATTGACCGCGTTCCATCCATAGAAATGGTTAGGATGGTTAATTCAGGTACGGAAGCAACAATGAGCGCTTTGCGTGTAGCAAGAGGCTACACAGGAAGAGATAAAATACTAAAATTTGAAGGGAACTACCATGGTCATGGTGATTCACTGTTAATTAAAGCAGGGTCAGGTGTGGCTACACTTGGACTTCCTGATAGTCCAGGTGTTCCTAAAACGATTGCTCAAAATACCATCACGGTTCCATATAATGACTTAGAAAGTGTACGTTATGCTTTTGAGACATATGGTGATGATATTGCTGCAGTTATTGTTGAACCTGTTAGCGGCAATATGGGAGTGGTTCCACCAATAGAAGGTTTTTTACAAGGATTAAGAGAAATTACGGAACAAAACGGCACCGTGCTTATTTTTGATGAAGTAATGACTGGCTTTCGGGTAGGTTACCAATGTGCGCAAGGTCATTTTGGAGTGACACCCGATATGACATGTCTCGGGAAAGTAATCGGTGGCGGATTACCAGTTGGTGCATATGGAGGTAAACGGGAGATTATTGAGAAAGTTGCTCCAACTGGATCCATCTATCAAGCTGGTACATTATCTGGTAACCCGCTAGCGATGACCGCGGGGCTTGAGACATTAAAAGCGTTAGATGAATCATCTTATGAAGCGATAAATAAAAAAGTGGACCGATTGGTAGAAGGGTTTACAGCGGCTTCCAATAAGCATCATATACCATTGCATATTAATCGAGCAGGTTCAATGGTTGGCGTCTTTTTTACTAATGAAAAAGTAATTAATTTTGAAACTGCTCAATCTGCTAATCTTGACTATTTTTCTCAATATTATCGCTCTATGATTGAAAATGGTGTGTTCCTTCCACCTTCACAATTTGAAGGCCTGTTTTTATCAACTGCGCATACAGACGAAGATATTGAACATACGATAAAAGCAATTGACACAGCTTTTGCTTCTATAGAGTAA MNFDKSKAAYEEAVDLMPGGVNSPVRAFKSVGMSPIFMESGKGAKIRDIDGHEYIDYVLSWGPLILGHADERVVTKLKETAEKGTSFGAPTLLENELAQLVIDRVPSIEMVRMVNSGTEATMSALRVARGYTGRDKILKFEGNYHGHGDSLLIKAGSGVATLGLPDSPGVPKTIAQNTITVPYNDLESVRYAFETYGDDIAAVIVEPVSGNMGVVPPIEGFLQGLREITEQNGTVLIFDEVMTGFRVGYQCAQGHFGVTPDMTCLGKVIGGGLPVGAYGGKREIIEKVAPTGSIYQAGTLSGNPLAMTAGLETLKALDESSYEAINKKVDRLVEGFTAASNKHHIPLHINRAGSMVGVFFTNEKVINFETAQSANLDYFSQYYRSMIENGVFLPPSQFEGLFLSTAHTDEDIEHTIKAIDTAFASIE PGPT0003680_4593 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845 NA NA AK015_03185 1389 hypothetical protein GTGACAAATGAAGCGTCCGTATTTCAGTTTGAATTGAATGAAACACTCTATTTTGAAAAAGGACAGGAAGTAAATGAAATGAGAGGGGTTTCATTGGAGCCAGACATCTCTATTCATTCATTTCACGACTATATTTCAATCAGAGGAGTTATTGAATTAAAAGGAGAGTATGAAAAAAGCAGACACACCGTTTTTCAAGATAATTTAGAAGAAGATGTGATGGGCTCTAAACGCTATGTTGAAGTCGTGGAGCAAGATGAAGAAGGGGTATCTATATTTTCTCATCACTTCCCAGTAGAAATTTCTGTACCTGCAAACCGCATTGCAAACTTAAACGATATAAGCGTGTATATTCAGACATTTGATTATGAAATCCCCAATCCAACCCTATTCCGACTTTATTCAACAATTGAAATTCATGGCATTCAACAAGAAGAAATAACTGATGCACGAGAAAAAGAGTCGCAAGAACAGTTTAACTATCTACCTCCCGAAGAAGATAAGTCTAATCGAGGAGATCAAGAAGCTGATCATTTTCAGTTTGAAATGAAACAATCAGAGCAAGATTATAAAACAGAAAATGAGGAGATGAACCCATCTTTACCATTTCTAACGGTACCAGAGCAAGATAGGTCAGATGAAAAAAGCAAATTTAAGGAAATAGAGCAAGAAGAAACAATACTATCTGATGAAAATCCAGAGAAAATAACAGAACATCTAGATAAGGAAGGTGAGCAAACTGATGAAGTAGGGAGATGGAAGTATAAAGAGACGAAAACGCTAAAGGAATTTTTTGATTCTAAACAAGAGGATACTAGTGATGTTCATGAAGAAGAATCGGGTGAAGATGAGGGGACAGAACAATATGAACAAGTAGTTTATGACTCTACTCATGAAACAATTCAAGAAAGTGAAGAACGAGTCACTGAAGAAAAAAGCAATGTAACAGATTATGAACAAGAAAGAGAAGTCGAAACGAATGAAGAGCAAAATAATTTAAACGGCGATGACCAAGGGAGAAAAGCTGCAGAAGCTGAAGTTACGGAAGAACCTAACAATTTTAATGAGATGAAGATGAAGCAAAATAATGATGAGAATGATCAAGAAGCGTTATCCGTCTCGCCGGAAATTAATCAAACGAGTGGTGATCGACACATCAATGATGAGATCCAGGATGTCACCTACTTAGCAGATATTTTTAGTAATAAAGCTGAAAATAGTTATACTAGCATGAGGTTATGTTTCGTACAGGAAGAAGATTCGATCGATTCCATTGCGGAAAGGTATCAAGTTTCTGCACTACAATTAATTAAACAAAATCAATTGGATGATGATTATGAAGTTACGCAAGGTCAATTACTGTACATTCCACAAAAGAAAAACAAATGA MTNEASVFQFELNETLYFEKGQEVNEMRGVSLEPDISIHSFHDYISIRGVIELKGEYEKSRHTVFQDNLEEDVMGSKRYVEVVEQDEEGVSIFSHHFPVEISVPANRIANLNDISVYIQTFDYEIPNPTLFRLYSTIEIHGIQQEEITDAREKESQEQFNYLPPEEDKSNRGDQEADHFQFEMKQSEQDYKTENEEMNPSLPFLTVPEQDRSDEKSKFKEIEQEETILSDENPEKITEHLDKEGEQTDEVGRWKYKETKTLKEFFDSKQEDTSDVHEEESGEDEGTEQYEQVVYDSTHETIQESEERVTEEKSNVTDYEQEREVETNEEQNNLNGDDQGRKAAEAEVTEEPNNFNEMKMKQNNDENDQEALSVSPEINQTSGDRHINDEIQDVTYLADIFSNKAENSYTSMRLCFVQEEDSIDSIAERYQVSALQLIKQNQLDDDYEVTQGQLLYIPQKKNK PGPT0024855_75 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_VI_SPORULATION,PGPT0024855-spoVID-K06417 NA NA AK015_03186 1029 hypothetical protein ATGGATACCTTACAAGAAGTTTTGCATGCTTATTCTATTCGACCTTTTTACATAGAAAAACAAACGGAACGGCTCTACATGGTGCAAGACTACAACCAGCAATATGCGTTAAAACATAGCCGGCTAACGGAAGAAACGATCGTTATGTGGGAACAAGTTTATAAATTGGCTTATGAAGAATATCTTTTTCCTATTTTACCAGTTTATTTAACGAAGCAAGGAAAGTTATATGAAAAAAAAGGAGAGCTTATTTATTATGTGACACCTTGGAAAGAAAGCCGAGAAACAGAATTAGATCAATCCACGATTGATAAAATCTTTCAAAGCTTTGGATTGATTCATATGAAAACAAAACGGCGACATTTGGTTGAAATCCAGCAGTTTAAGCAAGCTTTTCAACAGTATAAACAGCATTGTTTGACCTTACAGCAACAATTACTTACATTTGTAGAGGAGTACGAACAACATCGCTTTATGTCCCCATTTGAATTACTTGTGTGCACGCAATTTAAAGATGTTAATTATAGTCTGAATGAAACGATACGAAGAATTGATCAACTGTTGGATGAACAGGAAGAGACTTGGTATTATAGTTTGTGTCATAAGAACATCAAAACTTCACATACTTTAGTTGATCAAGGTCAGCTCTATTTTATAAATTGGGAGAATGCAGGGTTTGACTATCCCGTTTTTGATTTAGTTGCTTTTTTTCAAGAAGAAACAGAGCATTATGATACTCCGACTAATATGCTGCTGCGCGGATTTGACAAGTATATGAATGAGAACGAACTGACCAAGAAAGAACTATATTTGTTAGTCATTCAATTATTAGATCCACAAGCTTATCTAAGTTGTGTCAAAAATCATAAACAAGCAAACACGTCCATGCTGAAACAAATAATTCATTTACAGCATACATTTCGCCGTATACTGTTTGGGTTGCACCTTTCTGCACATGTGGAAAAAACGTATGATACGATCGATCTGGATGATCTGGACGACCTAGATGATTTGGATGAAACAGATTAA MDTLQEVLHAYSIRPFYIEKQTERLYMVQDYNQQYALKHSRLTEETIVMWEQVYKLAYEEYLFPILPVYLTKQGKLYEKKGELIYYVTPWKESRETELDQSTIDKIFQSFGLIHMKTKRRHLVEIQQFKQAFQQYKQHCLTLQQQLLTFVEEYEQHRFMSPFELLVCTQFKDVNYSLNETIRRIDQLLDEQEETWYYSLCHKNIKTSHTLVDQGQLYFINWENAGFDYPVFDLVAFFQEETEHYDTPTNMLLRGFDKYMNENELTKKELYLLVIQLLDPQAYLSCVKNHKQANTSMLKQIIHLQHTFRRILFGLHLSAHVEKTYDTIDLDDLDDLDDLDETD NA NA NA NA NA AK015_03188 2649 valS COG0525 Valine--tRNA ligase ATGCACGAACAAAAATCAAAACCTTCACTTTCTGCTAAATACAACCCGCAGGAAGTAGAAAAAGGCCGCTATCAATTTTGGCTAGAAGGAAACTATTTTAAAGCAAAGAACGATACGGAGAAAGAACCCTATTCTATTGTTATTCCCCCACCAAATGTTACAGGACGGTTGCATTTAGGGCACGCTTGGGATACGACAATGCAAGATACCATTTCTAGAATGAAACGTATGCAAGGATATGATGTATTATGGCTCCCTGGTATGGATCATGCTGGGATTGCTACACAAGCAAAAGTGGAAGGAAAGCTAAAAGAACAAGGTACGAATCGTTATGAGCTAGGTAGAGAAAAATTTCTCGAAAAAGCCTGGGAATGGAAGGAAGAGTACGCTGCGTTTATTCGTTCACAATGGGAAAAGTTAGGGCTTAGTTTAGACTATTCACGTGAACGGTTCACGCTTGATGAAGGTTTGTCAGATGCAGTTAGAGAAGTATTTGTAAAATTATACGAGCAAGGTTTAATTTATCGCGGAGAATATATTATAAATTGGGATCCAGATACAAAAACGGCTTTATCCGATATCGAAGTGATTTATGAAGAAGTGCAGGGCAAATTTTATCATATGCTCTACCCGTTAAAAGATAGCGATGAGAAAATCGAAATTGCTACCACACGCCCAGAGACGATGTTAGGTGATACTGCGATTGCTGTTCACCCTGATGATGAACGATATAGCCATTTAATTGGCAAAAAAGCTATTTTGCCAATCGTCGGTCGTGAAATACCAATTGTTGCAGATGAGTATGTAGATATGGAATTTGGTTCTGGTGCAGTGAAAATTACGCCCGCTCATGATCCAAACGATTTCGAAGTTGGGAATAGACATGATTTAGAACGAGTATTAGTTATGCATGAAGATGGAACGATGAATGAAAATGCTGGTATTTATGAAGGAATGGACCGATTTGTGTGCAGAAAACAAATTGTTCACGATTTGAAAGAACAAGGTGTACTATTTAAGATTGAAGACCATCTGCACCAAGTTGGTCACTCTGAACGAAGTGGCGCTGTCGTGGAGCCATACTTATCTACGCAATGGTTTGTAAAAATGAAACCACTAGCAGATGCTGCAATCGAGCTACAAGCAGGAAGTGACAAAGTTAATTTTGTTCCACAGCGTTTTGAAAGAACCTATTTAAATTGGATGGAAAATATTCGTGATTGGTGTATTTCTCGCCAACTATGGTGGGGGCACCGCATACCAGCTTGGCATCATAAAGAAACAAAAGAAATTTATGTCGGCAAGGAAGCTCCCGACGATATAGAAAATTGGGAGCAAGATGAAGATGTATTAGACACTTGGTTTTCATCTGCTTTATGGCCATTTTCTACCATGGGATGGCCGGATGTAGGAGCAGAAGATTACAAGCGGTATTTTCCAACTGGAGTTCTCGTAACAGGTTATGATATTATTTTCTTCTGGGTTTCAAGAATGATTTTTCAATCGAAGCATTTTACGAATCAAAAGCCGTTTGATGATGTTTTGATCCACGGATTGATTCGAGATGCAGAAGGAAGAAAAATGAGTAAATCGTTAGGCAACGGTGTCGATCCAATGGATGTCATTGATAAATATGGTGCTGATTCATTACGTTATTTTCTATTGACTGGTTCTACCCCTGGTCAAGATTTACGCTTTCATTGGGAAAAGGTAGAAGCAACATGGAACTTTGCGAATAAGGTGTGGAATGCTTCTCGTTTTTCTTTAATGAATTTAGCGGATTTTTCGTATGAAGATATTGATTTAACAGGCGAAAAGTCTTTGGCAGATAAGTGGATATTAACCCGTTTAAATGAAACAATTGAGCATGTAACTAGAAATAACAATAAATATGAATTTGGCGAAGCTGGCCGTCAATTATATAACTTTATTTGGGATGAACTATGTGATTGGTATATTGAAATGGCAAAAATACCATTATATGGAGATGACAAAACTCAAAAACAAACAACACGTTCTGTGCTCGTTTATGTTTTAGATCAAACGATGCGTATGTTGCATCCATTCATGCCGTTTATTACAGAAGAAATTTGGCAACAGTTACCACATCAAGGAGAATCTATCACAGTTGCCACTTGGCCAGAGCCAAGAGATGAATTCCATGATGAACAGGCAGCAAATGAAATGAAGCGACTAGTGGCGATTATCAAAGCTGTCCGTAATATTCGTGCAGAAGTAGATACACCAATGTCAAAACAAGTTAAACTACTCATCCAAGCGGAGAATGAATCTATTGTGAAGGAATTAGAAGAAGAGCGTCACTATTTAGAACGTTTTTGTAACACAAGTGAATTAGCCATTATGGAAAAGATCGATGTCCCTGAAAAAGCATTGTCAGCAGTAGTGACAGGAGCAGAACTATTTTTACCATTAGAAGGGCTAATTGATTTTGACAAAGAAATTGCTCGCTTAGAAAAAGATCTAGCTAAATGGACAAAAGAAGTAGAGCGTGTGCAGAAAAAACTCGCAAACGAAGGGTTTATTAATAAAGCACCTCAGGCAGTAATTGAAGCAGAAAAACAAAAAGAAAAAGAGTACTTGGATAAACAAGCGAAGGTTCAAGCAAGATTACATGAATTAAAAAACTAA MHEQKSKPSLSAKYNPQEVEKGRYQFWLEGNYFKAKNDTEKEPYSIVIPPPNVTGRLHLGHAWDTTMQDTISRMKRMQGYDVLWLPGMDHAGIATQAKVEGKLKEQGTNRYELGREKFLEKAWEWKEEYAAFIRSQWEKLGLSLDYSRERFTLDEGLSDAVREVFVKLYEQGLIYRGEYIINWDPDTKTALSDIEVIYEEVQGKFYHMLYPLKDSDEKIEIATTRPETMLGDTAIAVHPDDERYSHLIGKKAILPIVGREIPIVADEYVDMEFGSGAVKITPAHDPNDFEVGNRHDLERVLVMHEDGTMNENAGIYEGMDRFVCRKQIVHDLKEQGVLFKIEDHLHQVGHSERSGAVVEPYLSTQWFVKMKPLADAAIELQAGSDKVNFVPQRFERTYLNWMENIRDWCISRQLWWGHRIPAWHHKETKEIYVGKEAPDDIENWEQDEDVLDTWFSSALWPFSTMGWPDVGAEDYKRYFPTGVLVTGYDIIFFWVSRMIFQSKHFTNQKPFDDVLIHGLIRDAEGRKMSKSLGNGVDPMDVIDKYGADSLRYFLLTGSTPGQDLRFHWEKVEATWNFANKVWNASRFSLMNLADFSYEDIDLTGEKSLADKWILTRLNETIEHVTRNNNKYEFGEAGRQLYNFIWDELCDWYIEMAKIPLYGDDKTQKQTTRSVLVYVLDQTMRMLHPFMPFITEEIWQQLPHQGESITVATWPEPRDEFHDEQAANEMKRLVAIIKAVRNIRAEVDTPMSKQVKLLIQAENESIVKELEEERHYLERFCNTSELAIMEKIDVPEKALSAVVTGAELFLPLEGLIDFDKEIARLEKDLAKWTKEVERVQKKLANEGFINKAPQAVIEAEKQKEKEYLDKQAKVQARLHELKN NA NA NA NA NA AK015_03189 858 hypothetical protein ATGCATAACGGCTGGCTTATCTATAGTGATGAAGATATTGAAGTAAATAAAGCCTATATTCATTGGTTTATGGAAGAAGCAGCACTTCAATCCATCCATCTGCAGCTTGTACGTAGGGAAGACCTGACGATTGGAATTCATAAACAGCGCCAAGTCCTATTAAATAACCATCAGATAGAACCTTTACCTGAATTTGCAGTTGTTCGTACCATTGATCCTATGCTTAGTATTCATCTGGAAAGTTGTGGAATTAATGTTTTTAACAACTCTCACATAGCAACTATTTGCAATAACAAAGCGTTAACGCATCATTATGTACATCAACTCAATGTTCCAATGGTAGACACATATTTCCATAAAGCTTCTTTTTTAAAAGATTCCCCTCCGCTTTCTTTTCCATTTGTAGTAAAAACCGTTGCAGGCAGAGGTGGAAAAGAGGTTTATATGATCACTAATGAGTTGGAGTATTTAGCATGTATGAAGAAAATAAAAGGCAGTGACATCATCATGCAAAGTTGCCATGTGCAACAAGGCAAAGACTTGCGCGTTTTTGTCGTAGGGAAAAAAATTATCGCAGCTGTACTTAGAGAAAGTAATACCGATTTTAGAGCCAACTACAAGCTTGGTGGTAGTGCAACACTATATACATTGTCCAAAAAAGAAGCAACAAGAATCCAAACGATTATTGATTATTTCGATTTTGGAATGGTAGGAATTGATTTCTTACTAAGTATGGATGGAGAACTATTATTTAATGAAATTGAAGATGTTGTCGGTTCTCGCATACTAAGTGCCGTTAGCAATACAAATATACTACGGTTATATGTGGAGCATATCAAAAAACACATCCAGTCGTAA MHNGWLIYSDEDIEVNKAYIHWFMEEAALQSIHLQLVRREDLTIGIHKQRQVLLNNHQIEPLPEFAVVRTIDPMLSIHLESCGINVFNNSHIATICNNKALTHHYVHQLNVPMVDTYFHKASFLKDSPPLSFPFVVKTVAGRGGKEVYMITNELEYLACMKKIKGSDIIMQSCHVQQGKDLRVFVVGKKIIAAVLRESNTDFRANYKLGGSATLYTLSKKEATRIQTIIDYFDFGMVGIDFLLSMDGELLFNEIEDVVGSRILSAVSNTNILRLYVEHIKKHIQS NA NA NA NA NA AK015_03190 909 rimK COG0189 Ribosomal protein S6--L-glutamate ligase ATGCACGTAACTGGATGGATTATATATAACGATAGTTTACCCGGCAAGAAATTTATTGATTTTGCACAATGGCTAGAAAAAGCAGCGATACAAAGAGCTAGCAACGTAAAAATCATGTCAAATAGCGAACTCTTATCTTTTTTATCTCAAAGCGAATTATCTGTATTAACGGAAGAGCAACCTAGCGCTTTGCCTGACTTTGTAGTGTTTACAGATAAAGATATTTACCTAGCTAAGCAGCTCGAATTATTAGGTATAAGCGTGTTTAATTCTTCGGAAGCAATTCGTATTAGTGATGACAAAATATTAACGTATCAACAGCTTGCAACAGCTAAGCTTCCAATACCTAAAACGATTATTTATCCGAAAACATTTACTTCCCAACAGCTAAAGCCTGGCGCACTGCAAGCTGCAATTCACCGTTTGGGTTTTCCTATGATTGTAAAAGAAGCATTCGGCTCTTTTGGCGAACAAGTGTATCTTATCCATAATAAAGCGGACTTAATTCAGCAAATTAAAAATTTGGCAACAAAGCCCTTCGTTTTACAAAGATTCATTTCTACTAGCTATGGAAAAGATTTACGGCTGCATGTTGTAGGCAATAAAGTTGTTGCGGCCATGAAACGACAGTCAGCACATGATTTCAGAGCAAATATTACTGCTGGTGGTACAATGGAGGCGTATGAACCGTCGGAGGAAGAACAAAAACTGGCGATCCTAGCTACACAATCCATTGGAGCTGATTTCGCAGGTGTTGATCTATTAGTTGGAGAAAATGATTCTCCTATAATTTGCGAGATCAACTCCAATGCTCACATCCGCAATTTGTTTGATGCCACGGGAATAAATGTTGCTACCTTTATAATTGACTATATTTTTAAGAAGATAGAAGGGAACACAAATGCATAA MHVTGWIIYNDSLPGKKFIDFAQWLEKAAIQRASNVKIMSNSELLSFLSQSELSVLTEEQPSALPDFVVFTDKDIYLAKQLELLGISVFNSSEAIRISDDKILTYQQLATAKLPIPKTIIYPKTFTSQQLKPGALQAAIHRLGFPMIVKEAFGSFGEQVYLIHNKADLIQQIKNLATKPFVLQRFISTSYGKDLRLHVVGNKVVAAMKRQSAHDFRANITAGGTMEAYEPSEEEQKLAILATQSIGADFAGVDLLVGENDSPIICEINSNAHIRNLFDATGINVATFIIDYIFKKIEGNTNA NA NA NA NA NA AK015_03191 1275 fpgS Folylpolyglutamate synthase TTGCATACAATGAAGCAAATAGAAGCATTTTTTAATCATCGGCATCAGTTAGGTGTTAAACCTGGTTTGGAACGTATGCAACAATTACTTGCTTTACTTGGTCACCCTGAAAAACGATTAAATGCTGTTCATATTGCCGGCACTAATGGAAAAGGATCTACTGCCGCTTTTGTGAAACAAGGTTTGCAAGCAAGTGGCTATCAAGTAGGAGTGTTTACTTCACCAAGCTTACATGGAATTCGCGGGTATATTTATGTAGAGGAAGAACCAATTTCTGAACAAGCATTTTTAAAAGTGTGGGAAAAAGTTTACCCAGCGGTTCAGGAATTAGATCAAAAAAATCAATCCCCAACAGAGTTTGAAATATTGACAGCTATTGCGTTCTTTTATTTTGTTACCAATGTTGACATTGCTGTTATAGAAGCTGGAATGGGAGGGAGAGAAGATACGACAAACTGTATAATCCCTTTAGTATCTATTATTACTAGTGTTAGTAAAGATCATATGGCTTTTCTTGGTCAGACAATACCTGAGATTGCTTTACATAAAGCAGGGATTATTAAACAAGGAGTTCCAGTTGTTATTGGACAATTACAATTAGCTGCTAAAGAGGTGATTATACAAGAAGCGGAGGCTAAGGAAGCTCCAGTCTATCAATTAGGGTTGCATTTTCATTATCAAAGTCTACCTTCTAAAGAATGGAATCATATGGAATGGAACCTACCTTATACGAAGGGAGCTGCTTTTAAACTTAAATTGTATGGAGAACATCAATTAGCGAACGCATCATTAGCGTTAATGGCTTTACATTTAATACAGCAGAAAGGATGTATCATCCAGGTGTCGAAATTACCAACTGCTTTTTTTGACGTACAATTAGAAGGTAGATTTGAACTAGTGTCCCAACATCCTATTATAATTCTTGATGGAGCTCATAATCCAGCAGGAATTCGTGCATTTATAGACACACTGGAGAAAGTCTTTCCATATCAAGAAAGGCAGCTATTATTTGCAGCTTTTAAAGATAAAGCAATTGATGAGATGATGATTCCTCTAACGGGTAAATTTAGTGAAATTTACTTAACCACTTTTGATCACCCGAGAGCTGCAAGTATATCTGAAATGAAAAAAATCTCGTTACCTTCAATGAAAACCATTAATTCGTGGGAAAATGCGATCAGTAAAATGAGTGACCCAAACACTGTATATTGTATTACAGGTTCGCTTCATTTCATTTCTATTGTAAGGTCGTATTTACTCAGTAAGAATAAATAA MHTMKQIEAFFNHRHQLGVKPGLERMQQLLALLGHPEKRLNAVHIAGTNGKGSTAAFVKQGLQASGYQVGVFTSPSLHGIRGYIYVEEEPISEQAFLKVWEKVYPAVQELDQKNQSPTEFEILTAIAFFYFVTNVDIAVIEAGMGGREDTTNCIIPLVSIITSVSKDHMAFLGQTIPEIALHKAGIIKQGVPVVIGQLQLAAKEVIIQEAEAKEAPVYQLGLHFHYQSLPSKEWNHMEWNLPYTKGAAFKLKLYGEHQLANASLALMALHLIQQKGCIIQVSKLPTAFFDVQLEGRFELVSQHPIIILDGAHNPAGIRAFIDTLEKVFPYQERQLLFAAFKDKAIDEMMIPLTGKFSEIYLTTFDHPRAASISEMKKISLPSMKTINSWENAISKMSDPNTVYCITGSLHFISIVRSYLLSKNK PGPT0007975_3645 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754 NA NA AK015_03192 906 hypothetical protein GTGAAAAAGGACAAGCGTAAAATAACAGTCTGGAAAAACGGTCAGCAGGTGAAGCTGTCTATGTATTCATCAAAAAATAATGATACAACTGGGGAGACAGAGAATGAGGAAGCTGCAACACTAACGGATACAGAGGAAGAAGTTCCATCATACGCCCGACTATCTGATAAGAAGTTTTCAGTTTATCCCATATTTTTTAAAAAAATAAAGCATATGAAACCTTTAATTATTGCCATTGCTTCAGCTTTTATTATAGGGACATTGCTGGGGATTACATTGATTCGAATGTTTGTTACCATTGATGAAGATCGCCAAGCCAATAGTGAGGAGAACAACGCTAGCGTGACCGAAACTAGCCGTGAACAAGAAAGGAAAGAACTAGATGGTCACGCAAATATAAAAGGTTTTGATATTTTTGTATTGCAGGGAGGCGTTTTTTCTGAAGCAGGAAATGCACAGACGTGGCAAAAGAAGTTTCAAGAGGAAGGGCTACCTGCAATGATTTGGGAAAAAGATAAGCAATATTTTTTATTAATATCTGCGGCTGCCTCAAAGGAAAAAGCGGAACGGTTAAAAAATGATATCACTTCAGAATTGGATATTTATGTAAAAAAATGGCAGATTCATGTGGGAGAAGAGGGACTGAAGAAAGAAGAAAGAAGCTGGATGCAGACATTTGCGGATGTATGGCGGAAAGATATGCAACAACAAAAAGTATCTAAAGAACAATGGGAATCTACCAAAAAAACTATCCCTAAACGTCTCCAAAGCTTAGGTAATGCAATGAATCAACATGTAATTGAAGAAAAAAATGATAGGGCTGTAGACTTAGGAGCAAATTTACTAACTTTATGGTATGAATTAATACATGAGCTTAACCGTGAAAAAAAAATAGTGAACGAATAA MKKDKRKITVWKNGQQVKLSMYSSKNNDTTGETENEEAATLTDTEEEVPSYARLSDKKFSVYPIFFKKIKHMKPLIIAIASAFIIGTLLGITLIRMFVTIDEDRQANSEENNASVTETSREQERKELDGHANIKGFDIFVLQGGVFSEAGNAQTWQKKFQEEGLPAMIWEKDKQYFLLISAAASKEKAERLKNDITSELDIYVKKWQIHVGEEGLKKEERSWMQTFADVWRKDMQQQKVSKEQWESTKKTIPKRLQSLGNAMNQHVIEEKNDRAVDLGANLLTLWYELIHELNREKKIVNE PGPT0024665_168 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024665-spoIIB-K06380 NA NA AK015_03193 690 hypothetical protein ATGACTTCAATGCCTATTATGATCAAAGATGTACCTAAAGATGACCGCCCCAGAGAAAGGTTACTAAAGGTTGGCCCTGGACAGGTGTCAAATGCAGAATTATTGGCTATTATTCTTGGGAGTGGGACAAAATCAGAATCTGTACTTTCTTTATCTAATCGCCTATTGATGCATTTTGAAGGTTTAAAACTTTTAAATGATGCAACCATAGAAGAGTTAATAGCTATAAAAGGAATCGGCAGAGCTAAAGGTGTCCTCGTTTTAGCAGCCATTGAGTTGGGAAAGCGAATGAACGGTTTTCAATCAGGTGATCGTTATGTCATTCGGTCTCCTGAAGATGGCGCAGATTACATTATGGAAGATATGCGAGTATTAAACCAGGAACATTTTGTAGCACTATTTTTAAACACCAAAAATCAAGTTATTCACCGGCAAACGATTTTTATTGGCAGTTTAAACGCTTCTATTGTTCACCCTAGAGAAGTATTTCGTGAAGCTGTTAAGCGTTCTGCCGCTTCCATAATTGTTGCTCATAACCATCCTTCAGGCGACCCAACACCTTCCCGGGAAGATATTCATGTAACCAGGAGATTAGTTGAGTCCGGAAAAATGATCGGGATTGAACTGATGGATCATTTAATTATAGGCAATCGTAAATTTGTTTCTTTAAAAGAAAAAGGTTACTTGTAA MTSMPIMIKDVPKDDRPRERLLKVGPGQVSNAELLAIILGSGTKSESVLSLSNRLLMHFEGLKLLNDATIEELIAIKGIGRAKGVLVLAAIELGKRMNGFQSGDRYVIRSPEDGADYIMEDMRVLNQEHFVALFLNTKNQVIHRQTIFIGSLNASIVHPREVFREAVKRSAASIIVAHNHPSGDPTPSREDIHVTRRLVESGKMIGIELMDHLIIGNRKFVSLKEKGYL PGPT0027205_53 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027205-K07318-K07318 NA NA AK015_03194 1041 mreB COG1077 Cell shape-determining protein MreB TTGGGATTATTTAATTTTTCTCAGGATTTAGGAATAGATTTAGGTACAGCCAACACGCTTGTATTTGTTAAGGGCAAAGATGTTGTTGTTAGTGAGCCTACAGTGGTAGCCAAAAATAAAAACACTGGAGATATTGAAGCTGTAGGAAGCGCAGCGCGTAATATGATTGGACGAACTCCAGGAAATATTGTTGTCATTCGACCAATGAAAGACGGAGTAATTGCTGATTATGATACAACAGCTACCATGATGAAATATTATATTAATAAAGCAATGAAGAATAGATCTTATTTTGCAAAAAAACCAAATGTAATGGTATGTGTTCCTTCGGGCATTACGATGGTTGAAGAAAGAGCAGTTATTGATGCAACGAAACAAGCGGGCGCAAAGGAAGCTTATCCTATTTCCGAGCCTTTTGCAGCAGCTATTGGAGCAGACCTCCCTGTTTGGGAACCAACGGGGAGTATGATTATAGACATTGGTGGTGGCACAACGGAAGTTGCAGTTATTTCATTAGGTGGTGTCGTAACCAGCCGTTCTGTTCGAACAGCTGGTGATAACATGGATGAAGCCATTACTCAATATATTCGTAAGCATTATAGTTTAATGATCGGCGAACGAACAGCAGAATCCATTAAGTTGGAAATTGGTACAGCAGGGAAAGTGGATGTGAATGAAGAAATTGATATACGAGGAAGAGACCTTTTAACAGGTTTACCAAAAACAATTACCGTTACTGCAGAGGAAATTTCTGTAGCGTTAAAGGATACCGTAGACTCCATTGTGGAAGCTGTGAAAAATACACTAGAAAAAACCCCACCAGAGCTTGCAGCAGATATTATGGATAGGGGAGTCGTTTTATCTGGTGGAGGAGCTTTACTAAAAAATATTGATCAGGTTATAAGTGATGAAACCAAAATGCCTGTGTTTATTACGGAAAATCCACTGGAAAGTGTAGCGATTGGTACGGGTAAATCACTGGAATATATACACCACTTTCGATCCCAACCACATGTGTCATCACGTCATACTGTAGATTAA MGLFNFSQDLGIDLGTANTLVFVKGKDVVVSEPTVVAKNKNTGDIEAVGSAARNMIGRTPGNIVVIRPMKDGVIADYDTTATMMKYYINKAMKNRSYFAKKPNVMVCVPSGITMVEERAVIDATKQAGAKEAYPISEPFAAAIGADLPVWEPTGSMIIDIGGGTTEVAVISLGGVVTSRSVRTAGDNMDEAITQYIRKHYSLMIGERTAESIKLEIGTAGKVDVNEEIDIRGRDLLTGLPKTITVTAEEISVALKDTVDSIVEAVKNTLEKTPPELAADIMDRGVVLSGGGALLKNIDQVISDETKMPVFITENPLESVAIGTGKSLEYIHHFRSQPHVSSRHTVD PGPT0027700_1566 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 AK015_03195 885 mreC COG1792 Cell shape-determining protein MreC ATGTCTTTTTTACGCAAAAAGCGATTGTTCATTCTATTAATTGGTTTTATACTGCTTGTAGCTTTAATAGGTTTCTCTTTAAGGGATCGAGAAGACCTAACAATAATAGAAGAAATAGTCAATGATACGGTCGGTTGGGCACAAAGCGTGGTTCATGCTCCAGTAAATTGGGTAACAAACGTTACTCGTAATATTGGAGATTTCAAGGATACGTATGAAGAAAATAAATTACTAAAACAAAAACTTGCTGAATATAAAGGGCTTATTTATGAAGTTCAAGAATTGAAAGAAGAAAATGAGGATTTAAGAAACAACCTTGAACTGACAGAATCGGATGCAATACGAAAATATAACCCTATACAAGCAACAGTAATTTCTAGATCGCCTGAAAGGTGGCTAGAACAAATTACGATCAATAAAGGGAAAGATGATGGAGTTAAAAAGAACATGGCAGTGATCACACCAGAGGGAATGGTTGGAAAGGTAATGACCCCATCAAAGCATACTTCTACCGTTCAACTACTTACAGGCTTTGACCAATTTAACCGGATTTCCGGGGAAATTTCTCGTGACAAGGGCGATAATATTTTTGGGATGATTGAAGGGTATGATAAAAAAAGTAAGCACCTCATATTCCGAATTATTGAAGAGTCTCAAAAAGACGTGAAGAAGGATGAATTAATTGTTAGCTCTGGAATGGGAGGCGTATTTCCAGCGGGGCTTCCGATTGGAAAAGTTCAAGAAGTAGTTCCTGACAAATATGGATTAACGAAAACTGCTTTAGTAAAACCATCTGCTGACATGTACGAATTAAACCAAGTAATTGTAGTCGATCGTTCTGTACAGACTGATGAAGGTCAGGAAAGTGAAGAGGAGGAGGAGTAA MSFLRKKRLFILLIGFILLVALIGFSLRDREDLTIIEEIVNDTVGWAQSVVHAPVNWVTNVTRNIGDFKDTYEENKLLKQKLAEYKGLIYEVQELKEENEDLRNNLELTESDAIRKYNPIQATVISRSPERWLEQITINKGKDDGVKKNMAVITPEGMVGKVMTPSKHTSTVQLLTGFDQFNRISGEISRDKGDNIFGMIEGYDKKSKHLIFRIIEESQKDVKKDELIVSSGMGGVFPAGLPIGKVQEVVPDKYGLTKTALVKPSADMYELNQVIVVDRSVQTDEGQESEEEEE NA NA NA NA NA AK015_03196 540 mreD COG2891 Rod shape-determining protein MreD ATGAAGCGTGCCTATTTACCTCTTATCCTCCTACTTATTCTTGTTTTACAAGGAGTTTCTTTGGAATTACTGCCTGGAAACTTATTGAAATCAGATTGGCTGATTGTTTCCCATTGGGTGTTTATATTTCTTGTTTTTATCGCTGTATTCTATGACAATGAAAGCACCCACTATTCTGTTCTATACGCGTTAATCTTTGGTTTGCTAATTGATATAGTTTATACAAGTACACTAGGCGTTTATATGTTTTCGTACGCATCTACGATTTACTTGATTTATGGTCTGAAAAAATTACTGCACGGAAACATTCTTGTTGTAGCTTTGTTAGGTATTGTGGGATTAGTAGTGAGTGACGGGATGATTTATCTTATCTACTCTGTAGTCGCATTAACAGACATGCCGTGGAGTATGTATTTAACCAACCGATTATTGCCTACAATAGGGTCAAATTTAATTTTCTTATTCGTTTTATACCCGCTGTTTGCAAAAAAACTGACAAATTGGGGGAAAGATCAAATAACGAAAGGAAACTCATTTTGA MKRAYLPLILLLILVLQGVSLELLPGNLLKSDWLIVSHWVFIFLVFIAVFYDNESTHYSVLYALIFGLLIDIVYTSTLGVYMFSYASTIYLIYGLKKLLHGNILVVALLGIVGLVVSDGMIYLIYSVVALTDMPWSMYLTNRLLPTIGSNLIFLFVLYPLFAKKLTNWGKDQITKGNSF NA NA NA NA NA AK015_03197 690 minC COG0850 Septum site-determining protein MinC GTGACACAGGAAAAAACACAATTAATTACCATGAAAGGTACAAAAGACGGGCTCACATTATTTATTGACGATACCTGTTCGTTTGAAGAAGCCATGCAGGAATTGCAGTATAAAATGAACGAGAGCAAGCCTGCACATGTGGAGCCGGTTGTAGCTGTAAGAGTTAAATTAGGCTATCGATACTTAAACCATGATCAGATGATTGGATTAAAAGAAATTATAACAGCTGAAAACCGTTTTACCATTCAAATCATTGAATCTGATGTTGTTCCTCGTGAAGAAGTTCGTAAATGGCAGGAAAATAGTGAAATAAAAACGATGAATCAAATAGTTCGTTCTGGACAAGTCTTACATATAACTGGCGATTTATTATTAATTGGGGATGTAAATCCAGGTGGAAAGGTAACGGCTACAGGCAATATCTTTGTAATGGGAAACTTGCGCGGAATTGCACATGCAGGTATTGATGGAGATAAACAAGCATTTATAGTTGCATCTTATATGAACCCGATGCAACTAAGGATCGCACATTATATAAGTCGTGCTCCAGATTATGAATCTGACGGTGTGTATATGGAGTGTGGACTGGTCGATGAAGAAAAAGATAAAATAATCATTGATCGACTCCAAGTTCTTTCACAGAAGCGAAGAGAGATAAACAGGTTCGAAAGGAGAATGCTGAATGGGTGA MTQEKTQLITMKGTKDGLTLFIDDTCSFEEAMQELQYKMNESKPAHVEPVVAVRVKLGYRYLNHDQMIGLKEIITAENRFTIQIIESDVVPREEVRKWQENSEIKTMNQIVRSGQVLHITGDLLLIGDVNPGGKVTATGNIFVMGNLRGIAHAGIDGDKQAFIVASYMNPMQLRIAHYISRAPDYESDGVYMECGLVDEEKDKIIIDRLQVLSQKRREINRFERRMLNG NA NA NA NA NA AK015_03198 801 minD COG2894 Septum site-determining protein MinD ATGGGTGAAGCAATAGTTATTACTTCTGGAAAAGGCGGGGTCGGAAAAACGACAACTACTGCGAATATCGGTACAGCTTTAGCTTTAATGGATAAGAAAGTTTGTTTAATAGATACGGATATTGGGCTTAGAAATCTTGATGTCATTATGGGATTAGAAAACCGTATCATTTATGACATTGTAGATGTTATTGAAGAAAGGTGTAAGCTGAAACAAGCATTAATTAAAGACAAACGCTTTGATTATTTAACTTTGTTGCCAGCTGCACAAACAAGTGATAAGACATCTGTGACAAGTGAAGGAATGCAACAAATTATTTATGAGCTGAAACAAGAATATGATTACATTATTATAGATTGCCCGGCAGGAATCGAGCAAGGCTTTCAAAATGCAATTGCAGGTGCTGATAAAGCAATTGTGGTTACTACTCCAGAAAAATCGAGTGTGCGAGATGCTGATCGTATAATCGGATTATTGGAAAAAGAGGAAATGGTTGAATCTCCACGTTTAATTATTAACCGCATTCGAAATCATATGATGAAAAATGGAGATATGCTTGATATTGATGAAGTTTTACAAATTTTATCTGTAGATCTAATTGGTATTGTGATAGATGATGATGAAGTGATTAAAGCTTCCAATAAAGGCGAACCAGTTGCGTTTAAACCTACTTCTAAAGCCTCTATTGCTTATCGGAATATTGCTAGAAGAATCTTAGGCGAAACAGTCCCGTTGCAATCATTAGATACAGAAAAAGGTATGATGCAAAAGCTTAAGCAATTTTTAGGCATGCGTTCTTAA MGEAIVITSGKGGVGKTTTTANIGTALALMDKKVCLIDTDIGLRNLDVIMGLENRIIYDIVDVIEERCKLKQALIKDKRFDYLTLLPAAQTSDKTSVTSEGMQQIIYELKQEYDYIIIDCPAGIEQGFQNAIAGADKAIVVTTPEKSSVRDADRIIGLLEKEEMVESPRLIINRIRNHMMKNGDMLDIDEVLQILSVDLIGIVIDDDEVIKASNKGEPVAFKPTSKASIAYRNIARRILGETVPLQSLDTEKGMMQKLKQFLGMRS NA NA NA NA NA AK015_03199 771 spoIVFA COG0739 Stage IV sporulation protein FA ATGAGTAGAGGAGTTAAGCAAGTACGTCAATCTATTGAACAAAGAAAAAAAACACGTAACATTATTTCACAGAATAGCGCATCAAAATCTGTCGTTACACCATTTGTGCAAGAGGAGGAAAAGCATGGGTTTGAACCGCTCTATACTGCAACATCAAGTAATGGGCGACAAGGAAAAATAGTAACAGGACTTTTATGGAAAGCAATTCTTTCCGCTATCTTATTTTTGACGGTTGCAATTATTTGGCAGATGGAATCAACTCGACTACAAACCGCTAAATCCATTATAAGCACTGCCCTTATAGAGGAATTCCCATTTGCTAAAGTAAATCTATGGTATCAAGATACATTTGGTAGTCCACTTGCTTTCATGCCGGACGGAGCTCCAAAAGATCAGGTCGTAAATGAGAATGCTCCAGTAATTCCAGTAAACGGTAATGTTTCTGAATCTTTTCAAACGAACGGTACAGGAATAAAAATTTCACCTAATGAAAAATCAGATATAATGGCGTTGGAACAGGGGATTGTCATTTTTGCTGGAAACGATCGGCAAACAAATAAAACAATTGTCATTCAACATCCAGATGATAGTATTACCACGTACGGTGAATTAAGTAATATTGATGTTCACTTATACGAACATGTTGCTAAGAAGCAACCTATTGGCCAGTTTGTTCCGACTGAAAATAACCAAGCAGTTTATTTTTCTATTGAGAAGGATAATCAATATATAGACCCCGTTCAGGTGATAAAAGTTGACGATGTGGAATAG MSRGVKQVRQSIEQRKKTRNIISQNSASKSVVTPFVQEEEKHGFEPLYTATSSNGRQGKIVTGLLWKAILSAILFLTVAIIWQMESTRLQTAKSIISTALIEEFPFAKVNLWYQDTFGSPLAFMPDGAPKDQVVNENAPVIPVNGNVSESFQTNGTGIKISPNEKSDIMALEQGIVIFAGNDRQTNKTIVIQHPDDSITTYGELSNIDVHLYEHVAKKQPIGQFVPTENNQAVYFSIEKDNQYIDPVQVIKVDDVE PGPT0024780_138 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_IV_SPORULATION,PGPT0024780-spoIVFA-K06401 NA NA AK015_03200 879 spoIVFB COG1994 Stage IV sporulation protein FB TTGACGATGTGGAATAGTTTATTGCCAAAAATTCACTTCCATCCTATTTTACTGCTTTTTCTCCTGATTTCTTTTTTTACGGGTACATTTATGCAACTGGCTATTTTATTGTTTATTGTGTTTTTTCATGAATTAGGTCACTACATAATGGCATTACAATTTAAATGGCGTATAAAGAAAATTATGCTCTGGGTATTTGGTGGTGTCATGGACACAGAAGAGCATGGGACCAGACCTGTGAGAGAAGAGATTCTGGTCATTTGTGCCGGACCCTTTCAGCATATTGTATTATACGTTATTGCGCTGGTGGCAGTTGATACAGGGGTAATATCCTCATCCATATTTGATACTTTTATGTACTATAATACGACTATATTTATTTTTAATTTATTACCCGTATTACCTTTAGATGGAGGGAAATTACTTCAGCTTATCATATCAACAAAATGGCCATACAAAACGGCATACTATCGATCGATTTATTTCTCGTTGATTGCTTGTCTTTTTTTGCTTGGCACTTCTTTAGTTATCCAACCATTTACACTAAGTACTTTTTTGTTGTGCCTTTTCTTACTGTTTGAAAATAAAAATGAATGGAAAAAACGGTACTATGTATTTACAAGGTTCCTTCTTAAGCGTTTTGAAACAAGACATAATCCAATTTGCCGGACAAGATCTATTAGGGTGAAAGCAGAAAAATCGTTACTAGAAGTTTTTTCTTATTTTTACCGTGGATGGAGTCACAATATTTACATTATATACCCAAATGGCTCCATAAAGCTTATGAATGAATATGATTGCCTATATTGGTATTTTGAAGCTAAACGGTACAAAGATACAGTTGGTGACTTAGGTGATTTGACTAATAACACGAAGTAG MTMWNSLLPKIHFHPILLLFLLISFFTGTFMQLAILLFIVFFHELGHYIMALQFKWRIKKIMLWVFGGVMDTEEHGTRPVREEILVICAGPFQHIVLYVIALVAVDTGVISSSIFDTFMYYNTTIFIFNLLPVLPLDGGKLLQLIISTKWPYKTAYYRSIYFSLIACLFLLGTSLVIQPFTLSTFLLCLFLLFENKNEWKKRYYVFTRFLLKRFETRHNPICRTRSIRVKAEKSLLEVFSYFYRGWSHNIYIIYPNGSIKLMNEYDCLYWYFEAKRYKDTVGDLGDLTNNTK PGPT0024785_80 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_IV_SPORULATION,PGPT0024785-spoIVFB-K06402 NA NA AK015_03202 309 rplU COG0261 50S ribosomal protein L21 ATGTATGCTATTATTGAAACTGGTGGCAAACAAATGAAAGTAGAAGAAGGTCAAGAAATCTTCATTGAAAAAGTTGCTGCTGATCAAGACGAGACGGTTACATTTGACAAAGTTCTTTTTGTTGGTGGAGATGATGTAAAAGTTGGTGCTCCATATGTAAATGGTGCATCGGTAACTGCTAAAGTTGCTAAACATGGTCGTCAAAAGAAGATTACTGTGTTTAAATATAAGCCAAAAAAGAATTATCATCGTAAGCAAGGTCATCGTCAGCCTTACACTAAATTAGTGATTGATAAAATCAACGCTTAG MYAIIETGGKQMKVEEGQEIFIEKVAADQDETVTFDKVLFVGGDDVKVGAPYVNGASVTAKVAKHGRQKKITVFKYKPKKNYHRKQGHRQPYTKLVIDKINA NA NA NA NA NA AK015_03203 330 hypothetical protein ATGATACAAGTAATTGTTTTTCGTGAAGATGAACAAATAAGAGCATTTGAACTTTCCGGACATGCTGAAAGCGGTCCTTATGGATATGATTTAGTGTGTGCAGGAGTGTCTGCAGTATCCGTTGGTTCTATAAACGCAGTTCTGGCTTTATGTGAAGTGGATCTTGATATAAACCAAAGTGATAATGGCGGTTATCTTCATGTAACAATACCAGACTATATTTCTTCTGAAGAAATGCGTCGAGTTCAATTATTATTTGAAGGTATGCTTGTATCACTTTCGTCCATAGAACAGGATTATGGACAATTTATTACTATTCAAGATAAATAA MIQVIVFREDEQIRAFELSGHAESGPYGYDLVCAGVSAVSVGSINAVLALCEVDLDINQSDNGGYLHVTIPDYISSEEMRRVQLLFEGMLVSLSSIEQDYGQFITIQDK NA NA NA NA NA AK015_03204 291 rpmA COG0211 50S ribosomal protein L27 ATGCTACGTCTAGATTTGCAGTTTTTCGCACAGAAAAAAGGTGCTGGTAGTACAAAAAACGGTCGTGATTCCGAATCCAAGCGGCTTGGTTCTAAAAGTGCTGATGGCCAATTTGTAACAGGTGGATCTATTCTTTACCGTCAACGTGGAACGAAGGTTTATCCTGGTGAGAACGTTGGTCGCGGTGGAGATGATACACTTTTTTCAAAAATCGATGGTGTTGTAAAGTTTGAACGTTACGGGCGTAATCGTAAAAAAGTAAGTGTATACCCTGTTGCTAAAGAAGCATAA MLRLDLQFFAQKKGAGSTKNGRDSESKRLGSKSADGQFVTGGSILYRQRGTKVYPGENVGRGGDDTLFSKIDGVVKFERYGRNRKKVSVYPVAKEA NA NA NA NA NA AK015_03205 531 hypothetical protein ATGAATGCAGAAGAAGCTGTTCGTTTCATGCAGCATTATCGGCATGACTTAATGAATCATTTACAAATAATTCACGGTTATGCTTCAATGGGCAATGTTAAAAAGATAGAAGAAAAGATAGTTGATATCATTCATTGTTATAATATGGAACGAAAATTAATGCACCTACAAGCAAATGAGTTTTGTTTATGGGTGATGAAGCACGCTTATATGTATGTGGATGTAAAATTAGAGTACGATATACATACGGAAGGAAAGCGGATTGAAAGTATAGACCAAATATTAACGGAGCAATGTGAGCAATTTTTAGCTGTGGTAAAGAAGCTGAAGCTCAAAGATGAATTTATAACGGTTCATTTAGTTGTTAAGCAGGAACAGAAGGATTGGATAACAATGTATTTCTCAGTAAGTGAATTTTTTAATCATGCACAGTTAAAAGAACAACTGCATCGGTTGGAGACGCATTTTCCTTTAACTGTAATGGACAATAGTGACATTGTAGAATGCTCTTTTTCTGTTCCGTGTAATTGA MNAEEAVRFMQHYRHDLMNHLQIIHGYASMGNVKKIEEKIVDIIHCYNMERKLMHLQANEFCLWVMKHAYMYVDVKLEYDIHTEGKRIESIDQILTEQCEQFLAVVKKLKLKDEFITVHLVVKQEQKDWITMYFSVSEFFNHAQLKEQLHRLETHFPLTVMDNSDIVECSFSVPCN PGPT0024635_180 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 AK015_03206 1290 obg COG0536 GTPase Obg ATGTTTGTAGATCAGGTAAGTGTTTATGTTAAAGCTGGTGATGGTGGTAATGGCCTTGTCGCATATCGTAGGGAAAAGTATGTACCTAAAGGCGGCCCTGCTGGAGGCGATGGTGGCAATGGAGCTGATGTTAAATTTAAAGTGGATGAAGGGCTGAACACTTTAATGGATTTTCGGTATAATCGCCATTTTAAAGGAAAACGTGGCGAAAATGGGATGAGCAAAAACCAACATGGAAAAAACGCCCCTCATTTAGTTGTTCCAGTACCACCTGGGACAACAGTAATAGATGAAAGCACCGGAGAATTAATTGCTGATTTAACGGAACATAATCAAGAAGCTGTGATTGCAAAAGGGGGTCGAGGCGGTAGAGGGAATTCACGCTTTGCAACTCCAAGAAATCCAGCGCCAGATATAGCAGAGAATGGCGAGCCAGGACAGGAAAGACAAATAAAGGTGGAATTAAAGCTAATCGCTGATGTCGGATTAATCGGTTTTCCTAGTGTTGGAAAATCTACCTTCTTATCTGTAGTAAGTGCTGCAAGACCTAAAATTGCAGATTATCATTTTACTACATTAGCTCCCAATTTAGGTGTTGTTGATACAAATGACCAGAGAAGCTTTGTTATGGCTGATCTTCCAGGTTTAATTGAAGGAGCACATGAAGGAGTAGGATTAGGTTACCAATTTCTGCGTCATGTAGAAAGAACGAGAGTACTTGTTCATGTCATTGATATGGCTGCAACAGAAGGTCGGAATCCTTATGATGATTATGTTAAAATTAATCAAGAACTAGAGCAGTATGATTCTAAATTGATGACACGACCCCAAATTATAGCGGCAAACAAGATGGATATGCCGGGTTCAAAAGAAAATTTGGAAGTTTTTAAGGAAAAGCTACAAAATAAACATCCTGTTTATGAAATATCTGCACTCACAAAAGATGGCGTTCGCGATATATTATTTGCGATTGCTGATAAATTAGAAAAAATACCAAAAAGTGCTGTGGATGAAGAAGAAGCTGTTCCAAAAGAAGAGAAAGTTATCTATCGTTATCATAAAGAAGAAGATCCGTTTGAAATTACGCGAGATGATGATGGTGCTTATGTATTATCTGGACATCGCATTGAAAAGTTATTTAAGATGACTGATTTTAACCACGATCAAGCTGTACAGCGGTTTGCACGTCAGCTAAGAAAAATGGGAGTTGATGATGCTTTAAGAAAACGAGGTGCAGAGGACGGAGATACGGTTCGTATATTAGAATTTGAGTTTGAATTTATGGAATAA MFVDQVSVYVKAGDGGNGLVAYRREKYVPKGGPAGGDGGNGADVKFKVDEGLNTLMDFRYNRHFKGKRGENGMSKNQHGKNAPHLVVPVPPGTTVIDESTGELIADLTEHNQEAVIAKGGRGGRGNSRFATPRNPAPDIAENGEPGQERQIKVELKLIADVGLIGFPSVGKSTFLSVVSAARPKIADYHFTTLAPNLGVVDTNDQRSFVMADLPGLIEGAHEGVGLGYQFLRHVERTRVLVHVIDMAATEGRNPYDDYVKINQELEQYDSKLMTRPQIIAANKMDMPGSKENLEVFKEKLQNKHPVYEISALTKDGVRDILFAIADKLEKIPKSAVDEEEAVPKEEKVIYRYHKEEDPFEITRDDDGAYVLSGHRIEKLFKMTDFNHDQAVQRFARQLRKMGVDDALRKRGAEDGDTVRILEFEFEFME NA NA NA NA NA AK015_03207 861 pheA Bifunctional chorismate mutase/prephenate dehydratase GTGACAGCAACTATTGGCTATTTGGGACCAAAAGGTACGTTTACAAAACTAGCAGTGGACAAGACATTTAATGGCGAGGTAAAACATAGTTATTCTACAATACCAGCATGTATTGATGCAGTAAATAATGGGGAGATTAATATCGGTGTTGTACCATTAGAAAATGCTATAGAAGGCACGGTTCAATTGACCGTTGATTATTTAGTACATCAAGTACGTTTGCCGATTATGGCAGAAATTGTTGTTCCTATACAGCAACATCTTTTGGTGCACACTAGTTTCACCGGAAAAATGGCTGATATAAAGGAAGTGCACTCTCATAGTCATGCTATTGCACAATGTCATCAGTATATTCATCAACACTTACCAAATGCAACGCTTCATTTTACTTCATCTACAGGTAAAGCAGCAGAACTAATAAGTGAAAGAAAAGGAGAACCAGTAGCTGCAATTGGTAATCAATTAGCTGCTAATATATATCGACTCCATACAATACAGAAAAACATTCATGATTTTCCGAATAATCATACGAGGTTTATTGTGTTAAGTAAACAACAGGAATTGGTAAAAATAGCACATCCCGTTCAATCAGAGAAAACAACGCTATTAATTACACTCCCAAGCGATTTTGCAGGAGCATTACATCAAGTATTATCTGCTTTTGCATGGAGAAAAATGAATTTGTCTAAAATTGAATCTCGTCCCATGAAAACAGGGCTAGGTAATTATTTCTTTATTATTGATGTTAATCAACCTTATGATGAAGTTCTCTTCCCAGGTGTAAAAGCAGAATTAGAAGCATTAGGCTGTCAAGTGACCGTTTTAGGGACATATCCAGTATATCAATTGGATCATTTATAA MTATIGYLGPKGTFTKLAVDKTFNGEVKHSYSTIPACIDAVNNGEINIGVVPLENAIEGTVQLTVDYLVHQVRLPIMAEIVVPIQQHLLVHTSFTGKMADIKEVHSHSHAIAQCHQYIHQHLPNATLHFTSSTGKAAELISERKGEPVAAIGNQLAANIYRLHTIQKNIHDFPNNHTRFIVLSKQQELVKIAHPVQSEKTTLLITLPSDFAGALHQVLSAFAWRKMNLSKIESRPMKTGLGNYFFIIDVNQPYDEVLFPGVKAELEALGCQVTVLGTYPVYQLDHL NA NA NA NA NA AK015_03208 966 hypothetical protein ATGAATTTGAAAATACACATTGTACAAAAAGGTGATACGATGTGGGAGATAGCTCAACAATATGGTGTGGATTTTGAAGAATTAAAGCAATTAAATAGTCAAATTTCCAGTCCAGACATGATTATGCCTGGGATGAAAATAAAAATTCCTGGAAATTCCAAATCAGTAAAACAAACGCAAATGAAGGAAATGCAGCAACCTCTGAAAGAGCAACCATATAAAGAAATCCAGAAAAAGCCAACCCCTGTGATTAAGGAAGATGATAAGGAAAAACCTAAAATGGTGAAGCCGGAAATGCCGCCAATGCCGTCTATGCCACAAATGCCACCAATGCAACAAATGCATACCCAACCAATGATGCAAATGCCAGTAATGGAACAAGAGTTTCAAAATTATACAACAATCAACTTTCCGCAAATGCCAGCACAACCAAAGCAAGAAGCAAAGCCTCCAAAAGAGGAGCCAAAACAGGTGAAAGCACAACAGCAACCAATGCCTCAGCCAATGCCAATGATGCAACCACAAGTTCCAATGGCTCCACTATGCTGTTACGTTATGGATCCGTGCTATCCACAAATACCTTTTCAGACGGTAGGACCGAACCCTTGGGCTTGTCATGGTATGGCGATGCCATCAATGCCAATGGCTTATGAGCACGGGCAACACGCTAGCATGATGGGAAGTCAAGGATATATGCCAACTATGGGAAATGAAATGATGCCGCAAATGCAGGCGAATATGGGGGGAGGAGCTCAAGCGTCTTGGAACAGTCAAATGCAATGTGGGTCTCAGGGTATGTATCGCAACCAAGTGGGAGAAGAAAGTCCTGACCAACATACATCAGAAATGCATGTGCCGTTGTATCCCCCGTTTCAAAATAATATGAATCAAATGCCATTTCCGATGCCTCCTGGGTATTATGAATCATCACAGAAAGAACAAAGGGAAGAGAAGGAAGATAAGTAA MNLKIHIVQKGDTMWEIAQQYGVDFEELKQLNSQISSPDMIMPGMKIKIPGNSKSVKQTQMKEMQQPLKEQPYKEIQKKPTPVIKEDDKEKPKMVKPEMPPMPSMPQMPPMQQMHTQPMMQMPVMEQEFQNYTTINFPQMPAQPKQEAKPPKEEPKQVKAQQQPMPQPMPMMQPQVPMAPLCCYVMDPCYPQIPFQTVGPNPWACHGMAMPSMPMAYEHGQHASMMGSQGYMPTMGNEMMPQMQANMGGGAQASWNSQMQCGSQGMYRNQVGEESPDQHTSEMHVPLYPPFQNNMNQMPFPMPPGYYESSQKEQREEKEDK NA NA NA NA NA AK015_03209 744 nadE COG0171 NH(3)-dependent NAD(+) synthetase TTGAAAAAAGAAGTAGACGAAATTGTAAGTTGGTTACAATTTCAAGTGGAAAAAACAGGCGTTAAGGGATTAGCTGTAGGTGTTAGTGGAGGTATTGATTCTGCTGTTGTGGCAGCATTAATTAAAAAAGCTTGTCCAGATAATTCTATAGGAGTAATTATGCCAATCCATTCAAGTAATTCTTCTGTAAAAGATGCGAAATCTGTAGTGGAGAAAATAGATATAGATCATGTAACAATTGATTTAGCTAAAATGAGAGATAATATGTATAACTCTATTCAATCAGAACTACAAGCAAATCAAATGTATAATACAAATAATGAAAAACTGGCGAAAGCCAATTTAAGTGCAAGAATACGGATGAGTACGCTATATACGATAGCAACTAATCATAATTATCTCGTTGTCGGCACAGATAATGCTGCGGAATGGTATACAGGTTATTTCACAAAGTATGGAGACGGCGGAGTGGATATTCTTCCTATTGTTGAATTTACAAAAGGAGAAGTGAAGGAATTAGCAGCTTATTTAGGGATTCCTGATGCTGTTGTAAACAAACAGCCTAGTGCAGATTTGTGGAAAGGACAGAGTGACGAAGAAGAAATGGGTATTCGTTATGCCGTGATCGACGCATATCTCAAAGGTGAAGATATTCCTCAAGCAGACCGTAAAAAAATTGAAACCATGCACAAAAGAACGGCACATAAGCGTGAAAGTTTACCCTTTTTTTCTCGAAAAAAATAG MKKEVDEIVSWLQFQVEKTGVKGLAVGVSGGIDSAVVAALIKKACPDNSIGVIMPIHSSNSSVKDAKSVVEKIDIDHVTIDLAKMRDNMYNSIQSELQANQMYNTNNEKLAKANLSARIRMSTLYTIATNHNYLVVGTDNAAEWYTGYFTKYGDGGVDILPIVEFTKGEVKELAAYLGIPDAVVNKQPSADLWKGQSDEEEMGIRYAVIDAYLKGEDIPQADRKKIETMHKRTAHKRESLPFFSRKK PGPT0013445_3122 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916 NA NA AK015_03210 552 hypothetical protein ATGCGGTTTAAAATAAATATTATACTACTCAGTTTGGCTTTTATTGTGCTAGGTTGTACGAATGAAGAAGCCGAATATGATTATCAACACCATGAAAAAGACAATACGCAGCCTATTCATTATGAAACAGATAAGGAGAGGAAAGATCGTTTAAATATTCGAGAAGAGACAGTTGGAGAAAAAGGTGGCTATCCACAAAGTAAGCAAGACAATATAAATCGATCGGATTTTAAAAGTGGTTATGCTGATCCTTTTACCAATGAAGAATCAAAATTAATCGCAGAAGCATTACGAGATCATAAACAAATTAGTCAAGCTCAAGTCGCTTCTACAGCTGACCGTATTTTAATAGGAGTAAAGTTAAATACGCATGTGACAGATGATGTTGGGGAAGACATTAAAAAAGAAGTAAAACAATTACTACCTCAAGCAAATAAAGAAATCATTATTTATACAGACGATGCGCATTGGGAGAAAATGAAAAATTTAGAAGCAAGGATAGAAGCAAAGGATAATGGTAAAAAATGGAAGAGTTTATTAACCAATTTGTAA MRFKINIILLSLAFIVLGCTNEEAEYDYQHHEKDNTQPIHYETDKERKDRLNIREETVGEKGGYPQSKQDNINRSDFKSGYADPFTNEESKLIAEALRDHKQISQAQVASTADRILIGVKLNTHVTDDVGEDIKKEVKQLLPQANKEIIIYTDDAHWEKMKNLEARIEAKDNGKKWKSLLTNL NA NA NA NA NA AK015_03211 732 pmpR COG0217 Transcriptional regulatory protein PmpR ATGGCTGGTCATTCTAAATGGAAAAATATACAACGAAGAAAAAATGCGCAAGATGCAAAAAAAGGAAAAATCTTCATGCGGCATGCCAAAGATATATATACGGCTGCTAAGCAAGGTGGTGGTGATATGGCGTTAAACCCGAGTCTACGCCTTGCTGTTGATAAAGCAAAAGCTGATAATATGCCAAACGATAATATAGATCGTGCAATCAAAAAAGCAACCGGGTCATTAGACGGTGCCAATTTTGAAGAGTTAACATATGAAGGGTATGGTCCGGGAGGAGTAGCTGTCATTGTGCATGTTCTAACAGACAATAAAAACAGAACGGCAGCAGACATACGCCATGCATTCAAAAAAAAAAATGGTAACCTAGGTGAAAATGGCAGCGTGTCGTTTATGTTTGACCGTAAAGGTTACATTGTTATTACCGATGAACAAGGTGAAATAGATGAAGACGAATTAACATTAGAAGCCTTGGAAGCTGGGGCTGAGGATATACAAGTAGAGGAAGGTACGTTTGAAGTATTTACAGATCCAGAAAATTTTCCAGAAGTTGTCAATTGTTTGGTGGAATCTGGTTACGCTATTGCTGATTCAGAAATAACACTTATCCCGCAAACAACTACTACTTTATCAGAAGAAGCCGCTACGCAAATGATGAATTTAATTGAAACATTAGAAGAAAACGAAGATGTACAAGATATTCATCATAATTTGGAAGTAACGGAATAA MAGHSKWKNIQRRKNAQDAKKGKIFMRHAKDIYTAAKQGGGDMALNPSLRLAVDKAKADNMPNDNIDRAIKKATGSLDGANFEELTYEGYGPGGVAVIVHVLTDNKNRTAADIRHAFKKKNGNLGENGSVSFMFDRKGYIVITDEQGEIDEDELTLEALEAGAEDIQVEEGTFEVFTDPENFPEVVNCLVESGYAIADSEITLIPQTTTTLSEEAATQMMNLIETLEENEDVQDIHHNLEVTE NA NA NA NA NA AK015_03212 600 ruvA COG0632 Holliday junction ATP-dependent DNA helicase RuvA ATGATTGCATATATACAAGGGAAGCTTACATATATACACGAAGAAGCGATTATTGTTGATGTACAGGGGGTTGGTTATGAAATTATTTGTGCCAATCCATTTGCTTTTCAAGATTTAGAAAATAAAGATATAAAAGTATATACATATCATCATGTTCGCGAGGATGCACAACTGTTATATGGCTTTAAGAACCTCGATGAAAAATATTTGTTTACAAAGCTTATATCTGTCTCAGGCATCGGCCCTAAAGGTGCGATCGCTATTATGGGGTCTGTTCATGTAGGAGAATTTGCTGCAGCAATTGAACGAGAAGATGAAGCTTTTTTAACTCATTTTCCAGGTATTGGGAAAAAGACAGCAAGGCAAATCATTCTTGATTTAAAAGGAAAATTAACTATTTCAACTACTGTAAATGAAGGACAGCAGAAAATAGATGAGCCATTTGATAATACAGCTGTTCAAGATGCTAAAGAAGCGTTAAAAGCTTTAGGCTACTCAGAAAATGAAATAAAAGCTACTTTATCTAAATTATCACATACAGGGTCTGAAACAACGGATATGTTAGTTCGTAAAGCATTAGCATTACTTATGAAAAATTAA MIAYIQGKLTYIHEEAIIVDVQGVGYEIICANPFAFQDLENKDIKVYTYHHVREDAQLLYGFKNLDEKYLFTKLISVSGIGPKGAIAIMGSVHVGEFAAAIEREDEAFLTHFPGIGKKTARQIILDLKGKLTISTTVNEGQQKIDEPFDNTAVQDAKEALKALGYSENEIKATLSKLSHTGSETTDMLVRKALALLMKN NA NA NA NA NA AK015_03213 1014 ruvB COG2255 Holliday junction ATP-dependent DNA helicase RuvB ATGGAAGATCGTATGGTCACTGGTGAACTGCAAGAAGAGGATGCAACTGTTGAATTAAGTTTGCGCCCGACGATGTTGTCACAATATATTGGACAGCATAAGGTGAAAGAAAACCTACGCATCTTTATTCAGGCTGCTAAAATGCGTGAGGAGCCTTTAGATCACGTTCTTTTATATGGTCCTCCAGGGCTTGGTAAAACAACGTTAGCAGCTATTATTGCCAATGAAATGGGTGTTCAATTTCGATCTACATCAGGCCCTGCTATTGAGCGAGCAGGTGACTTGGCAGCGATTCTTTCCTCTTTAGAAGCAGGTGATGTATTATTTATTGATGAAATCCACAGGTTGCCTAGAACCGTTGAAGAAGTTCTTTATCCTGCTATGGAAGATTTTTTTCTTGACATTGTGATCGGTTCAGGACCAAGTGCAAGATCTGTCAGAATAGATTTACCACCGTTTACATTAGTCGGGGCAACAACAAGAGCTGGTTTGTTATCTGCTCCGTTGCGTGATCGATTCGGGGTGTTGAGCAGGCTCGATTTTTATGATCCAGAAGATTTATGCATGATTATTGAACGTACTGCCGACATTTTTAATACAAGTATTACAAAAGAGGCAGCTTTGGAGGTTGCTGAACGATCTAGAGGTACGCCAAGAATTGCGAACCGTCTGTTAAAACGAATTCGTGATATTTCCCAAGTAAAAGGAGAACAGAAAATTAGTTTATCTACTACTAGTCAAGCATTAGAAATGCTACAGGTAGATAAACAAGGTTTAGATCATATCGATCATAAACTATTAAAGGGAATGATGAATCATTTTCAAGGTGGTCCTGTTGGCTTAGATACCATCGCAGCTACAATAGGTGAAGAACCGCAAACAATTGAAGATGTATATGAGCCGTTTTTATTACAGATTGGGTTTATTCAGCGAACACCACGGGGAAGAATAGTAACGCAAGAGGCTTATGAACACTTTGGATGGAAGGATAGAGCGGATAATGAACCTCGGTAA MEDRMVTGELQEEDATVELSLRPTMLSQYIGQHKVKENLRIFIQAAKMREEPLDHVLLYGPPGLGKTTLAAIIANEMGVQFRSTSGPAIERAGDLAAILSSLEAGDVLFIDEIHRLPRTVEEVLYPAMEDFFLDIVIGSGPSARSVRIDLPPFTLVGATTRAGLLSAPLRDRFGVLSRLDFYDPEDLCMIIERTADIFNTSITKEAALEVAERSRGTPRIANRLLKRIRDISQVKGEQKISLSTTSQALEMLQVDKQGLDHIDHKLLKGMMNHFQGGPVGLDTIAATIGEEPQTIEDVYEPFLLQIGFIQRTPRGRIVTQEAYEHFGWKDRADNEPR NA NA NA NA NA AK015_03214 198 hypothetical protein ATGAACCTCGGTAAAGTCTTTATTGTACTAGGAATTATCTTCTTGCTAATGGGAGTTATTTGGAATTTCATCGGTAAGTTACCAGGGGATATCACGTGGAAAAAAGGAAATGTGATTTTTCATTTTCCTATTGTTACATCTATTGTGGTTAGCTTAATTCTAACATTGTTGTTTTATATTTTTGGCAAGTTTCGATAA MNLGKVFIVLGIIFLLMGVIWNFIGKLPGDITWKKGNVIFHFPIVTSIVVSLILTLLFYIFGKFR NA NA NA NA NA AK015_03215 1032 queA COG0809 S-adenosylmethionine:tRNA ribosyltransferase-isomerase ATGAATATTGAAGAATTTGACTTTGATTTACCAAAAGAATTAATTGCTCAGACGCCGTTAAAAGAACGTACGGCTTCAAGGCTGCTTGTTTTAAATAAACAAACGAAAGCTATTTCTCACCACCATTTTTTTGATGTAAAGCAATTTTTAAAACCGGGGGATTGCCTTGTATTAAATAATACCCGAGTATTACCAGCAAGGCTTCATGGTATAAAAGAGGATACGGGAGCAAATGTTGAAATATTGTTGTTACATCAAGTAGACGGGGATTCGTGGGAAATACTTGCAAAGCCAGCGAAAAAAGTAAAGCTTGGAACGGTAATCCGTTTTGGAGATGGTCTCTTAACTGCAACAGTTACGCAAATCAAAGAGCATGGCGGTCGAGTGGTGGATTTCGCTTATACAGGAATCTTTTATGAGGTACTAGATCAATTAGGTGAGATGCCATTACCTCCTTATATCAAAGAACAACTTCCTGAAAAGGAACGTTATCAAACCGTTTATGCAAAAGAAGAAGGATCTGCTGCAGCTCCTACTGCTGGACTTCATTTTACGAAGGAGCTATTAAATGAATTAGAGCAAATGGGGGTATGCATTGCTTTTATCACATTACATGTAGGACTAGGTACTTTTCGCCCGGTAAGTGTAGAGACAGTGGAAGAACATGAGATGCATGCAGAATTTTATCATATGGATCAGAATACAGCGGATTTGCTTAATGACGTTAAACAATCTGATGGTCGAATTATTTCAGTAGGTACTACATCTACACGTACTTTAGAGACCATTGCTAGGGATAATCATGGAACTTTTAAGCAAGCTAGTGGTTGGACAGATATCTTCATTTATCCTCCTTATCAGTTTCAAGCAGTTGATGGTTTAATTACTAATTTTCATTTACCTAAATCCACTTTATTAATGTTAATTAGCGCATTTGCTGGTAAAGGTGCTGTGATGGAAGCATATCGTGAAGCTGTACAAGAGCGATATCGTTTCTTTAGTTTTGGAGATGCCATGTTTATATATGCTTAA MNIEEFDFDLPKELIAQTPLKERTASRLLVLNKQTKAISHHHFFDVKQFLKPGDCLVLNNTRVLPARLHGIKEDTGANVEILLLHQVDGDSWEILAKPAKKVKLGTVIRFGDGLLTATVTQIKEHGGRVVDFAYTGIFYEVLDQLGEMPLPPYIKEQLPEKERYQTVYAKEEGSAAAPTAGLHFTKELLNELEQMGVCIAFITLHVGLGTFRPVSVETVEEHEMHAEFYHMDQNTADLLNDVKQSDGRIISVGTTSTRTLETIARDNHGTFKQASGWTDIFIYPPYQFQAVDGLITNFHLPKSTLLMLISAFAGKGAVMEAYREAVQERYRFFSFGDAMFIYA PGPT0023660_3243 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568 NA NA AK015_03216 1140 tgt Queuine tRNA-ribosyltransferase ATGACACCAATTACTTATGAATTAAAGAAAACATGTAAACAAACAGGCGCTAGATTAGGGCGTGTACACACTCCACATGGATCGTTCGATACTCCAACATTTATGCCGGTGGGGACATTAGCAACCGTAAAGACAATGAGTCCAGAAGAGTTAGCAGAGATAAATGCCAATATTATTTTATCTAACACCTATCATTTATGGTTGCGACCGGGTGAAGATATTATTAAAGAAGCTGGCGGCTTACATCAGTTTATGAATTGGAATGGAGCAATTTTGACCGATTCAGGCGGATTTCAAGTGTTCAGTTTGAGTGAAAATAGACATATTACGGAAGAAGGAGTTCATTTTCGTAGTCATTTAAACGGGGAAAAGCTATTTTTATCTCCGGAGAAAGCCATTCAGATACAAAATGCTTTAGGCTCCGACATTATGATGGCGTTAGATGAATGTCCACCTTATCCTGCAGAGTATCAATATATGAAAAGTTCTGTAGAACGAACTTCACGTTGGGCTGAAAGATGCTTAAAAGCACATGAACGAAAAGGGGAGCAAGGTTTATTTGGTATTATCCAAGGTGGAGAATATGAAGCATTAAGAAAGCAAAGCGCGCGTGATTTAATTTCCCTTGATTTTCCTGGTTATGCCATTGGCGGATTATCTGTTGGGGAGCCAAAAGACGTCATGAATCGTGTGCTTGAATTTACGACACCTTTCATGCCTAGTCATAAACCAAGATACTTAATGGGCGTTGGTTCGCCTGATTCTTTAATTGATGGCGCGATTCGCGGGGTGGATATGTTTGATTGTGTCCTTCCTACTAGAATTGCAAGGAACGGTACTTGTATGACGTCGAACGGTCGTTTAGTTGTGCGGAATGCAAAATATGCACGTGATTTTGCACCCATTGATAAAAATTGTGACTGCTATGTTTGTAAAAATTACACACGTGCCTATATACGTCATCTAATTAAATGTAATGAAACGTTCGGGTTCAGACTTACTACTTATCATAACTTATATTTTCTGTTAAAATTAATGGAGCAAGTACGAAAAGCGATTAGCGAAGATCGTCTTGGCTCATTTAGGGAGGAATTCTTTGAGCAATACGGTTTTAATAAACCGAATGCTAGGAATTTTTAA MTPITYELKKTCKQTGARLGRVHTPHGSFDTPTFMPVGTLATVKTMSPEELAEINANIILSNTYHLWLRPGEDIIKEAGGLHQFMNWNGAILTDSGGFQVFSLSENRHITEEGVHFRSHLNGEKLFLSPEKAIQIQNALGSDIMMALDECPPYPAEYQYMKSSVERTSRWAERCLKAHERKGEQGLFGIIQGGEYEALRKQSARDLISLDFPGYAIGGLSVGEPKDVMNRVLEFTTPFMPSHKPRYLMGVGSPDSLIDGAIRGVDMFDCVLPTRIARNGTCMTSNGRLVVRNAKYARDFAPIDKNCDCYVCKNYTRAYIRHLIKCNETFGFRLTTYHNLYFLLKLMEQVRKAISEDRLGSFREEFFEQYGFNKPNARNF PGPT0008145_1 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560 NA NA AK015_03217 261 hypothetical protein ATGGAAATGTTAGCAACGTTAGCACCACTTATTCTGATGTTTGTGCTTCTGTATTTTATACTTATTCGACCACAACAAAAGCGCCAAAAGCAAGTCAGAGAAATGCAATCTAATTTGCAAAAAGGGGACGCTGTAGTTACGATTGGCGGTTTTCATGGAGAGATTCATGCAATGGATGAAGATACGCTAGTTTTACAAGCTGGAGATGGATCTAAATTAACTTATGATCGTTCAGCAATCCGCGAAGTAAAACAACAATAA MEMLATLAPLILMFVLLYFILIRPQQKRQKQVREMQSNLQKGDAVVTIGGFHGEIHAMDEDTLVLQAGDGSKLTYDRSAIREVKQQ PGPT0025730_4040 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210 NA NA AK015_03218 390 hypothetical protein ATGAAAAGTAAACAATGGGTAGCATTATTATATGGATGGGTTATTGTTTTAGGACTTATGATGCTCGCAAGTTTTGTATTAGCTTTGTTGCTTCGCTTTACTACGTTTAATGATCCTGCTTTGTCATGGGTCACTTTCGTCATTGGCCTTATCAGTTTATTTCTTGGGGGGCTTGCAGCAGGCGTTAAAGGAAAAACAAAAGGATGGGTCATTGGCCTAATTACAGGAATGGGATTTACATTATTCGTTTTATCTGTACAATACTTAGGCTACCAACAAGGATTTACATTTGAACAATCCCTTCACCACGCTGGATATATGGCCGCTGCGTTATTTGGTGGTGCATTAGGTGTCAACATCGTTGGAGATGAGTCGTCAAGCGATAAATAA MKSKQWVALLYGWVIVLGLMMLASFVLALLLRFTTFNDPALSWVTFVIGLISLFLGGLAAGVKGKTKGWVIGLITGMGFTLFVLSVQYLGYQQGFTFEQSLHHAGYMAAALFGGALGVNIVGDESSSDK NA NA NA NA NA AK015_03219 1293 COG1055 putative transporter TTGGAAATAATAGTAGCTTCAGTGATTTTTATTTGCTGTTACGTATTTATTATGACAGAACAAATCAATCGTGCAGTCGTCACTTTAACAGGTGGAGTGTTGTTGTTATTAACAGGGATATATTCTGCAGAACGTATGTTAACAGAATATATTGATTGGAACACGATTGCGCTTTTATTTTCCATGATGGTACTAATAGCAATAACAGAAAAGACAGGCTTGTTTGCTTTTATAGCTATTCGCTTTGCGCAAAAGGTTAAAGGTGATCCAATACCTTTATTAATTGGTGCTGGGGTGTTAACAGGAATTGGTTCTGCTCTATTAGATAACGTAACAACGGTATTAATATTTGTTCCTATTATGCTTAAAATAACCAAGTTATTAAAGCTTCCATCGTTTCCGTACTTGCTAATGATTATTTTCAGCTCTAATATTGGTGGTGCAGCAACGTTAATTGGTGATCCTCCTAATATTATGATTGGACAAGCGGTGGAGCATTTAACATTTTCATCGTTTTTAATTCATATGGCTCCAATTGCTATAATGATGTTCGGAGTGATGCTATTATTTGTTTGGGCGTTGTTTCGTAAATCGTTACGTAGGGCAGATTTTGATGTCAAAGAATTATTAGCTATGGATGCACAAGCGTACTTGCACCGAACACCCATGTTATATCAGTCGATTACTGTTCTTCTATTAACGATAACGGGTTTTTTATTACACGCATTTTTGTATGTTGAATTAACTACAGTAGCATTATCTGGAGCTGTGTTACTTCTTCTTTTGACAGAAAAAGAATTAGCGTCGGGAAAGATTTTTGAAAAAGTGGAGTGGGTAACGTTATTCTTTTTTATAGGCTTGTTCACGCTAGTAGGAGGTTTAGAAGAAGTAGGAGTTATTGATGAAATCGCAAGAGCAATTATAGTTATAACGGATGGGGATTATGTACAGACTGTATTATTAATACTATGGGTATCTGGATTGTTTTCTGGGATCGTAGACAATATCCCCTTTGTTGCAGCAATGATTCCTGTCGTTCAAGAGTTTGAAAGTTATGGAATGGTATATTTAGATCCTATTTGGTGGGCTTTAGCGCTAGGTGCTTGCTTAGGAGGAAACGCGACGTTAATTGGAGCATCTGCTAATGTAGTAGTAACAGGGCTTGCTGAAGGAGCTCACGAAAAAATATCGTTTATTCGGTTTATGTTATATGGATTTCCGTTAGTGATTATATCTTTAGTTGTTTCTACGATCTATATATATTTCCGTTATTTAGTTCCTTATATTGGATAA MEIIVASVIFICCYVFIMTEQINRAVVTLTGGVLLLLTGIYSAERMLTEYIDWNTIALLFSMMVLIAITEKTGLFAFIAIRFAQKVKGDPIPLLIGAGVLTGIGSALLDNVTTVLIFVPIMLKITKLLKLPSFPYLLMIIFSSNIGGAATLIGDPPNIMIGQAVEHLTFSSFLIHMAPIAIMMFGVMLLFVWALFRKSLRRADFDVKELLAMDAQAYLHRTPMLYQSITVLLLTITGFLLHAFLYVELTTVALSGAVLLLLLTEKELASGKIFEKVEWVTLFFFIGLFTLVGGLEEVGVIDEIARAIIVITDGDYVQTVLLILWVSGLFSGIVDNIPFVAAMIPVVQEFESYGMVYLDPIWWALALGACLGGNATLIGASANVVVTGLAEGAHEKISFIRFMLYGFPLVIISLVVSTIYIYFRYLVPYIG NA NA NA NA NA AK015_03220 711 hypothetical protein ATGAATAAAAAACTAAAAGATGTGATAAAAAAAATTCAAACACGCTCAGCTTTAAGTCCGAGAAGCAAATTCAATGTTAGTCAAACTAAAAGAAAGTTTCTATTTATCGTTTTTTTTGTGATTTTTCTAATCATTAATACGTATTTATATGGTTTATTGTACTACAATTATTTACCATGGAAAACAAATTTGGCTACCACCTTAGGAGTTTTCATAGCTTACTTTTTTTTACTAGTACCATTAACTGCTTTTGTAGCAGAGAAGTTGTCTATCTATTTATTATATAAAGGTCTCGGTAAGCAAAGATGGTTTTTAATTTTTATTGTAATACTAATAATTGCAGCATCAATATTATTTTCCTTTAAAATTATAAAGGAAAATAGTGAAAAATCGTTAGGTAGTATTTTAGATTATAACACAGCAAATTTCCAATCATTAATAATTGATATAGAATATGAGTCGAGAAATGTTAATGATGTAAATAAGCTAGTAGATTTTTTAGATCAATACAAAATAAAAAAAATGAAAGAGCATGAATGGAATAGCGATGTATCAAAAGAAGAAGGGATTCACATCACAATATATACCAAAAACGGCTCAATAGGACTAGGTATTTATGAGAATCGTCTGGTGCATTACAATAGTGGTAATTACTATAATGTAACTAATGCCCCAATAGATATAGATTACCTTAAAGATATTATTAACTAG MNKKLKDVIKKIQTRSALSPRSKFNVSQTKRKFLFIVFFVIFLIINTYLYGLLYYNYLPWKTNLATTLGVFIAYFFLLVPLTAFVAEKLSIYLLYKGLGKQRWFLIFIVILIIAASILFSFKIIKENSEKSLGSILDYNTANFQSLIIDIEYESRNVNDVNKLVDFLDQYKIKKMKEHEWNSDVSKEEGIHITIYTKNGSIGLGIYENRLVHYNSGNYYNVTNAPIDIDYLKDIIN NA NA NA NA NA AK015_03221 963 hypothetical protein GTGCCAAGTATTAAATCTGCTCAAGAAGAAGTAACGTCAACAAACACAATTATTAGAGTGTTAGGTAAAGTCTTGATAAATGTAGCTGGTAATATCCGCTTAAGTAATCACCCTGGTTATGTTACAAATTTTGGGAGTGGAAATCTTTATGTTACTCATCCTAATGTAAAATTTAACACCGGGAGCATTAACACTCAAGTCAAAAAAGAAGTCACTGCATATGGACAAGATGTTTTAAGGCCATTTATGCAAAAAAATCAGCTTTTTGTTGGTAATGCTCAAATTCTTGTATTTAACCATAATGGAAGTAAGGTTTTAGATAGATCAGTGGCTAGTGGGCGCACAGTAGATTATAAGATTCCCGGTGGATATAACACTAGATATAATGGGTACCATATTTATTATGGTTCAAATAATAAAGAAAACTGGTATACAAGAATGTATTATATAAATAATGGCCAACCATGCACTCAATGCATACCATCCTCTCTAGAAGATCCTCACCCTCTTAATGAAAATCTAGTCTTAAAAAATGATAGAATATACATCAAGCAGTCTAATTTAGACTCAGTAGACTTAAAAAGTAACAAAAAAGATTTAACAATGAATGATATCTTTAATGAGTTCTATGATAATAATACTAAAAAGCTAACAAATCAAACCAGAACATTGGACGCTGAAGATGAAGTTTCTATAAATGATGTATTAGCAGGTTTAAAATATAATTCAGAGTATGATTACACGGAATTTCAATTCAAATCGGAGCATTCAACTCCAAATTATCACAGCATCATGTTTCAAGGAAATCTGTCGAGTAGATATTCTCCTGGAGATAGTCTAAATTTATTATTTAAACTTAAGGAAACAGAGAATGTAAATGGGGATATTTTTGTGGATCTTAATTACAATATACAAGTAGAGGATTCAAATAAATTTCCTGTAATAGATAATTTTATTAAATAA MPSIKSAQEEVTSTNTIIRVLGKVLINVAGNIRLSNHPGYVTNFGSGNLYVTHPNVKFNTGSINTQVKKEVTAYGQDVLRPFMQKNQLFVGNAQILVFNHNGSKVLDRSVASGRTVDYKIPGGYNTRYNGYHIYYGSNNKENWYTRMYYINNGQPCTQCIPSSLEDPHPLNENLVLKNDRIYIKQSNLDSVDLKSNKKDLTMNDIFNEFYDNNTKKLTNQTRTLDAEDEVSINDVLAGLKYNSEYDYTEFQFKSEHSTPNYHSIMFQGNLSSRYSPGDSLNLLFKLKETENVNGDIFVDLNYNIQVEDSNKFPVIDNFIK NA NA NA NA NA AK015_03222 252 hypothetical protein ATGAACCAACAAAATCAGAGGAAAGCCTATTTAAAAGAAAGAAGACGGAAGGGGGGAAGCCCAATCCGCCAACAAATAGAATCACATACAAACTCTGGGCACCAATATAAAATAGGAAGAAATGACCTTGTACCTACTATATATTGCGCTGGCAAGTGGAAATTCTTTTTAAAACACGATCATTTATTCCATTTGAAAAGTGTAAAAAAACAACACAGAGACAAGAACCTAAACACAAACATTAATGGATAA MNQQNQRKAYLKERRRKGGSPIRQQIESHTNSGHQYKIGRNDLVPTIYCAGKWKFFLKHDHLFHLKSVKKQHRDKNLNTNING NA NA NA NA NA AK015_03223 324 hypothetical protein ATGAATGTTCAATTTAAAAAAGGTGCTCTGGAACTGTGTGTGCTTGCTTTATTAGATAAGCAGGATCATTACGGCTATGAGCTAGCAAATAAAATATCGAAAAGAATAGCTATTTCGGAAGGGTCTGTTTATCCATTATTAAGAAGGCTTGCAAAAGAGGAATATTTTACAACCTATTTACAAGAATCAAAGGAAGGACCATCTCGGAAGTACTATTGTCTGACGGATAAAGGAAGAGACTATTTGCATCAATTGATTCATGAGTGGATGCAGTTTACTGGTGGCGTAAATAAGCTGTTGCAGGAGAGTGATCATATTGAATAA MNVQFKKGALELCVLALLDKQDHYGYELANKISKRIAISEGSVYPLLRRLAKEEYFTTYLQESKEGPSRKYYCLTDKGRDYLHQLIHEWMQFTGGVNKLLQESDHIE NA NA NA NA NA AK015_03224 561 hypothetical protein TTGAATAAAGATGTATTTATGAAAAAATTAGCTACAGGTATTAAAAAACTTCCTAAAGAAGAACAAAAGGAAATTCTTCAGGATTTTGCAGAGCATTTTTCCGTCGGTGTGGCAGAAGGGAAAACAGAAGGGGAAGTTGCTTCTGCTTTAGGAGCTCCAAATCAGGTTGCTAAAGAGCTGGTAGCAACCTATCATCTGGAAAAAGTAAATCATAGTTCTCATGCAGGCAATGTATTTCGTGCTGTTTGGGCTGTTATCGGTTTAGGTTTCTTTAATTTAGTCATTGTATTAGGGCCATTTATTGCTTTAGTGTCACTGATTGCTTCTGGGTGGGCAATCGGGGGATCATTTATATTATCTCCGCTAGCTGTTTTAGTAAATGGCGTTTTATATCCAGAGGCGTTTCTTTTATTTGATGTATTTGTCTCTATTGGCTTAACAGGTCTTGGTATTTTGATTATCATCGGAATGTATTTTATTACCCGTTATACGTTCAAGGCTTTTATGAAGTATTTACACTTTAATGTTAAGATGGTAAAAGGTGGTCTGAACAATGAGTAA MNKDVFMKKLATGIKKLPKEEQKEILQDFAEHFSVGVAEGKTEGEVASALGAPNQVAKELVATYHLEKVNHSSHAGNVFRAVWAVIGLGFFNLVIVLGPFIALVSLIASGWAIGGSFILSPLAVLVNGVLYPEAFLLFDVFVSIGLTGLGILIIIGMYFITRYTFKAFMKYLHFNVKMVKGGLNNE NA NA NA NA NA AK015_03225 798 hypothetical protein ATGAGTAAATTAAAAAAGTTATTTTTAGTTGCTATTATATTCATTATTATAGGGGGTGTTGGATGTTTGTTTACATTTAAATCATTAGTTAGAGAGAAAGTTGATATTACGAAAGAATTTTCTGCTGATGGAATAACAAATTTGGAACTTGACATGATTAATGAAGAAATATCTATTATCCCTACTGGTAATTCGGACATCGTTTTAGAACTGAAAGGGAAAAGCAACGAGCCAGATAAAAAATTTCTAGATATTGGTCAAAAAGAAAATACGTTAAAAGTACGTAAAAAGTCGGAAAAGTTCAAGTTTCGTTTTTTTAACCAAGGTGATTCTCTTGTGCTTACGGTACATTTACCACAAAAAGCGTATGAAACGATCCAAGCTGATACGAAAAATGGAACGATTCACGGGGAAAAGTTCACTGTAAAAAGCTTACAAGCCTCAGGAGCAAATGGAGAAATTGTGCTGGATGAAGTCATAACAGACACGACAGAAGTTTCCACGCAAAATGGCGGCATGGAGCTGAATGGCGTGGAAGGAAGTATTAAAGCTGAAACAAGTAATGGATCGATTTTTTTGGAAGCCAAAACACTGAATCAATCGATGGATTTGGATGCGGAGAATGGAAGTATTGATATAAATGTAGATGAAGAACCGACGAATGTAACGTATGACTTGCGCACAGGTAATGGCGGTGTAGAAGTGTTTGGAAATGATAATTGGAATGCAGTAGTTGGAGATGGAGAGCATGTTATTAAAGCAAGGACAGCTAATGGAGGTATTACCATAGCAAAATAA MSKLKKLFLVAIIFIIIGGVGCLFTFKSLVREKVDITKEFSADGITNLELDMINEEISIIPTGNSDIVLELKGKSNEPDKKFLDIGQKENTLKVRKKSEKFKFRFFNQGDSLVLTVHLPQKAYETIQADTKNGTIHGEKFTVKSLQASGANGEIVLDEVITDTTEVSTQNGGMELNGVEGSIKAETSNGSIFLEAKTLNQSMDLDAENGSIDINVDEEPTNVTYDLRTGNGGVEVFGNDNWNAVVGDGEHVIKARTANGGITIAK NA NA NA NA NA AK015_03226 612 ydhK putative protein YdhK ATGAACATGAAAAAATGGATGTTCAATCTAATGGTAATTCTATTCGCAACTGTTTTAGCTGCTTGCGGAACAGATCAAGAAAACGAACAAGATAAGGAAAACACAGATACTAATCAACAACAAGAGGAAAAAAATCAAGAAAATGACTCCAATGATGCAGGAGATAAGGATATGAAGCATTCTAGCTCAGGGGAGGTTCCTGACGGGTTAAAAGAAGCAGAAAACCCTAAATTCCCTGTTGATAGTAAAGCGATTATTGAAGCGAGTCATATGGAAGGAATGAAAGGTGCGGAGGCAACCATTAAAGGTGCATACGACACAACGGTATATTCCGTTACGTACACCCCGACAGACGGTGGTGAAAAAGTAAAAAACCACAAATGGGTGATTCATGAAGAATTAAAAGATGTGGGTGAAGAGCCTTTGAAGCCAGGGGATGAGGTAACGATTCAAGCCTCCCATATGAAAGATATGGACGGCGCTACAGCTACGATTGATTCAGTAGAACAAACAACCGTTTATATGGTTGATTATACGTCAACAACAACCGATGAAGAGGTTACTAATCACAAATGGGTTACAGAAGACGAACTATCTTCTGTAGAAAAGTAA MNMKKWMFNLMVILFATVLAACGTDQENEQDKENTDTNQQQEEKNQENDSNDAGDKDMKHSSSGEVPDGLKEAENPKFPVDSKAIIEASHMEGMKGAEATIKGAYDTTVYSVTYTPTDGGEKVKNHKWVIHEELKDVGEEPLKPGDEVTIQASHMKDMDGATATIDSVEQTTVYMVDYTSTTTDEEVTNHKWVTEDELSSVEK PGPT0015018_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015018-ydhK-NA NA NA AK015_03227 324 yhjQ COG1145 putative cysteine-rich protein YhjQ ATGGCTCATCAACAACACGAGGAATTAATTCAAGCTTTACATGAATGCATGACTGCTTGCAACCATTGCTATGATGCTTGCTTACAAGAGGACGACTTAAACATGATGGCGAATTGCGTTCGTCTAGATCGTGAATGCGCAGATATTTGCAGCTATGTCGAACAAGCACTCACAAGAGGGACACCATTCGTGTCTGAATTGACTGCTTTATGCGCAACTATTTGCGAAGCTTGCGGCGAAGAATGCAAAAAGCACGAACACGACCATTGCCAAAAATGTGCAGAAGCTTGTTTTAAATGTGCGGAAGTTTGCCGTACAGCTTAA MAHQQHEELIQALHECMTACNHCYDACLQEDDLNMMANCVRLDRECADICSYVEQALTRGTPFVSELTALCATICEACGEECKKHEHDHCQKCAEACFKCAEVCRTA NA NA NA NA NA AK015_03228 2082 copB Copper-exporting P-type ATPase B ATGAAACAAAATGAGGATCACAAGCACAAACATCAGAACGACCACTCTCATCATGATCACGAGACTCATACACATCATGATAACACTGCGCACCAAGGTCATGGGGAGGGGCATCAGCATCATGGGCATCACGGCGGTCATGACCATGGAGATATGGTAAATGGCTTTAAAAAACGGTTTTTTATTTCACTTATCCTTACGATACCTATTTTAGCTTTGTCGCCAATGATTCAAGAATTTATTGGCGTTGATTTGCAATTTCCATTCGATCAATATATTTTATTTGCGTTATCGACCTTTGTTTTTTTCTATGGTGGCTGGCCGTTTATTACTGGAGCCATTCGTGAATTAAAAGACAGAAACCCTGGGATGATGACCTTAATTGGTTTAGCGATTCTCGTTGCTTATGGGTATAGTTCTCTTACGGTGTTCGGTTGGGAAGGAAAAGATTTCTTCTGGGAACTAGCGACACTGATTGATATTATGCTACTGGGGCATTGGATAGAGATGCGTTCGGTAATGGGGGCATCTAATGCGTTAGAGCAGTTGGTAAAACTCATGCCGAATGAAGCGCACAAATTAGATGAGCAAGGAAATGTACAAGATGTACCATTATCTGAGTTAAAAAGTAAAGATTATGTGCTCGTAAAACCAGGGGAAAAAGTTCCGGTTGATGGCATTATTAGGGATGGGAAATCTGCGGTAGATGAATCTTTATTAACTGGTGAATCTGTCCCCGTAGAAAAAGGGAAAGACGACGAAGTAATCGGCGGTTCAGTGAACAAGGAAGGTTCTCTTACCATTCAAGTAGAAAAAACAGGCGAAGAATCATTCTTGTCGCAAGTAGTCACGATGGTAAAAGAAGCACAAGAGTCGAAATCCAAAACACAAGATTTAACGAATCGCGCGGCAAAATGGCTGTTTTATATTGCCTTACTTTCTGGTTTTGTAACACTCATTATTTGGTTATTACTTGGGTATCCATTTGATGTGGCTATGGAACGGATGGTTACGGTTATGGTGATTACTTGTCCGCATGCATTGGGCTTAGCGGCACCATTAGTCGTTGCTGTGTCGACATCCATTTCTGCAAAAAAAGGTTTGCTTATTCGTAACCGAGCTAATTTTGAAGGAGCGAGAAATTTAAACGCCGTCGTTTTTGATAAAACAGGAACGTTAACAAAAGGTGAATTTGGTGTAACGGATATTGTGCCGATAGAGGAACAAAGGGAAGTAGATGTACTTGCATATGCCGCCAGTGTAGAACAAAATTCTGAACATCCAATTGCAACAGGTATCGTCCAATCAGCAAAAGAGAAAGAAATACGTATTGACAAAGTAACGGATTTCGAATCGATTACTGGAAAAGGGATTCAAGGGAAAGTGAATGGAAAGATAGTACATGTAGTTAGCCCGAAATATGTTCATAATAAGCAGCTCGAATATGATAAAGAACTATTTAACGAGATGTCGGAGCAAGGAAAAACGGTTGTGTTTGTTCTTGTAGATGAACAATTAATTGGGATGATTGCTTTAGCGGATATGGTGCGTGAAACAGCAAAAGAAGCAATATCTACGCTCAAAGAGCAAGACATTCATTCCATTATGCTAACAGGAGATAATAAAAAAGTGGCGAACTGGGTTGCAGAACAGCTTGGTATAGATGAAGTATATGCTGAAGTGTTACCTGATGATAAAGCGAACCAAGTAAAAGATATTCAGCAGCAAGGATGGAAGGTTGCTATGACAGGAGATGGCGTTAATGATGCGCCGGCATTAGCAACCGCTGATTTAGGAATAGCGATTGGCGCAGGTACGGATGTCGCCATGGAGACGGCAGATGTTGTACTTGTAAGAAGTAATCCAAAAGATGTTGTTTCTCTAATGGATTTATCGAGAAAAACATATCGCAAAATGGTGCAAAACTTATGGTGGGCAGCGGGATATAATATATTTGCCATTCCTTTAGCTGCAGGAGTACTTGCTCCAATAGGTATTGTACTTAGTCCGGCAGTTGGTGCTGTACTGATGAGTTTAAGCACAGTCATTGTTGCGATTAATGCGAAATTGTTAAAAGCGTAA MKQNEDHKHKHQNDHSHHDHETHTHHDNTAHQGHGEGHQHHGHHGGHDHGDMVNGFKKRFFISLILTIPILALSPMIQEFIGVDLQFPFDQYILFALSTFVFFYGGWPFITGAIRELKDRNPGMMTLIGLAILVAYGYSSLTVFGWEGKDFFWELATLIDIMLLGHWIEMRSVMGASNALEQLVKLMPNEAHKLDEQGNVQDVPLSELKSKDYVLVKPGEKVPVDGIIRDGKSAVDESLLTGESVPVEKGKDDEVIGGSVNKEGSLTIQVEKTGEESFLSQVVTMVKEAQESKSKTQDLTNRAAKWLFYIALLSGFVTLIIWLLLGYPFDVAMERMVTVMVITCPHALGLAAPLVVAVSTSISAKKGLLIRNRANFEGARNLNAVVFDKTGTLTKGEFGVTDIVPIEEQREVDVLAYAASVEQNSEHPIATGIVQSAKEKEIRIDKVTDFESITGKGIQGKVNGKIVHVVSPKYVHNKQLEYDKELFNEMSEQGKTVVFVLVDEQLIGMIALADMVRETAKEAISTLKEQDIHSIMLTGDNKKVANWVAEQLGIDEVYAEVLPDDKANQVKDIQQQGWKVAMTGDGVNDAPALATADLGIAIGAGTDVAMETADVVLVRSNPKDVVSLMDLSRKTYRKMVQNLWWAAGYNIFAIPLAAGVLAPIGIVLSPAVGAVLMSLSTVIVAINAKLLKA PGPT0004090_4109 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686 NA NA AK015_03229 2409 helD COG3973 DNA helicase IV ATGCTAAATAGGTTAAAGTATTATGTTTCATTTTTATACAATTATCCTAATTTACATTATATCATGTTTGAAAAAGAGGGTCAAGGAAAATGGAAAGGGGTTGCGGAAATGCCAGAAATGCATAAAGATTTGCCGCAAGAGCAACAACGTGTAGATCATATTCGAGAAGAAATTAATCAGAAAGAAAACAAATTATTCGAGAAAACTGCACAATTAAAAGAAAATGTCATCGAGTTAAGAAAGACATTTTGGGACGATGTAACTGTCAATTTGGATGAGCCAGATGATGTCATTGAAACAGAGGCAAGCATAAAACAACAAGCAGAACTGCTAGCACAAAAAGAAACCGTTCATGGCAGTTTGGCTAAAGAATTAAAAACATTAAATAAGTTAAAAGATAATCCGTATTTTGGACGCATTGATTTTAAAGAAGATGGAGAAGAAAAAGAAAAAATTTACATTGGCATTGCTTCTCTAATGGATAAAGAAGAGGAGGACTTCCTCATTTATGATTGGCGAGCGCCTATATCAAGCCTTTATTACGACTATGCATTAGGTGAAGCAAGTTATCAAACCTTAGCTGGGGAAATCTCTGGAGAAATTTCTTTGAAGCGGCAATTTATTATTCGCCAAGGAAAGATGAAGGCGATGTTTGACACGGGGCTTACCATTGGCGACCAATTGTTACAAGAGGCGTTAGGTAATAATGCAAGTACAACGATGCGTAATATTGTCGCCACCATTCAAAAAGAGCAAAATAAGATTATTCGTAATGAAAAGAGTAAATTATTGTTGGTGCAAGGTGTTGCTGGTAGTGGGAAAACTTCCGCAGCATTACAACGAATAGCTTATTTGATGTATCGTTACCGTAAACAGTTAAACCCAGAAAATGTGATGCTGTTTTCCCCTAACCCTTTGTTTACAAGTTATATTAATAATGTATTACCTGAGCTTGGGGAAGAGAACGTGAGACAAACTACCTTTTATCACTTTGTACAAAAAAAGGTAGGAGATGATTTCTCCGTTGAATCTCCTTTTGATCAAATGGAGTACATGTTAACAAATAAACATACAATGACGGATCAAATACGTATGCAGGGGATTGAATATAAATCTTCGTTAGCATTTAAACAAATGGTGGATGCATATTTGGCAACTTTACATGACAAGGGGATTTGTTTTCGCCCTGTTTTATTTCGCGGAGAAGTACTCATTTCCAAAGAGGCGATCGCTGATTACTTTTATACTATGGAATCATCCATTTCTTTACCAAACCGAATGGAGCTAGTAGCGGATTGGCTGTTGAAGGAATTAACTAGCATTCAACAGGAGGAGGTTTCGAAGGATTGGGTAGGAGAGAAGATAGAACTGTTGGATAAAGAAGCCTATGCTAAAGCGTATTATAAAGCGCGACAACAAGGTGCGGACAGTGTGATGGATGAAGAGGCTATTTTAAGAAAGGCCGTCGTTCATAAAATGTTTGCTAGTATGAAAGCGGAAGTGAAGGACTTTGCGTTTGTAGATGTCGCAAAAACATTTGAACAGTTATTTAAATACCATCCAGAGCTAGCTGAGCTCCCTAATTCATGGAAGGATATGGCTACGCAAACAGTGGAACATATTCAATCTAGCCATCTGCAATGGGAAGATGTAACGCCATATGTGTATTTTAAAGGGCAGTTATTAGGAGATATGAAGGATCGATCCGTACGTTATTTAGTCATAGATGAGGCGCAAGATTTTTCTGCTTTCCAATTTGCCTATGTCTCGGAATTATTTCCACATACGAGAATGACGTTATTAGGCGATATAAATCAAACTATTTATGCCCCAATATCGAAACAAAATCCGTTGCTTCTAAAAGATGGGGAAGAGGTAGAGCGCATTACATTAATGAAAAGCTACCGTCCTACAAAGCAGCTCGTCCAATTTACCAAGCATTTTGTCCCAGGTGAACATAAAATTGAACCATTCGAACGGGAAGGAAACAAACCCAAGCTTATCTATGTAAACAAAGAGACGCAACGTAAAGAAGTGTTAAAGCATCAGATAAAGGATCTAATGAATGAAGGCTATGAAACGATAGCTCTAGTTACGAAATCTTTACAGGAGAGTAAACATATCTATGATGCGTTAACAGGGGGGGTTCCATGTACCTTATTGGATGAAGAAACGTATACATTATCAAAAGGAGTTTTGATCATCCCTGTATATTTAGCAAAGGGGATTGAATTTGATGCCGTTATTATTCCAGATGCAACGAATAGTAACTATACAAAGGAAGATCAAACTTTGTTTTACACTGCTTGTACGCGAGCAATGCACGAGTTAGTCATGGTGGCTAACGAGGAGCCAAATGTATTTATACAGGAAGCGTCTGTAGGCACATATAAGGCGGATAAAAAATAA MLNRLKYYVSFLYNYPNLHYIMFEKEGQGKWKGVAEMPEMHKDLPQEQQRVDHIREEINQKENKLFEKTAQLKENVIELRKTFWDDVTVNLDEPDDVIETEASIKQQAELLAQKETVHGSLAKELKTLNKLKDNPYFGRIDFKEDGEEKEKIYIGIASLMDKEEEDFLIYDWRAPISSLYYDYALGEASYQTLAGEISGEISLKRQFIIRQGKMKAMFDTGLTIGDQLLQEALGNNASTTMRNIVATIQKEQNKIIRNEKSKLLLVQGVAGSGKTSAALQRIAYLMYRYRKQLNPENVMLFSPNPLFTSYINNVLPELGEENVRQTTFYHFVQKKVGDDFSVESPFDQMEYMLTNKHTMTDQIRMQGIEYKSSLAFKQMVDAYLATLHDKGICFRPVLFRGEVLISKEAIADYFYTMESSISLPNRMELVADWLLKELTSIQQEEVSKDWVGEKIELLDKEAYAKAYYKARQQGADSVMDEEAILRKAVVHKMFASMKAEVKDFAFVDVAKTFEQLFKYHPELAELPNSWKDMATQTVEHIQSSHLQWEDVTPYVYFKGQLLGDMKDRSVRYLVIDEAQDFSAFQFAYVSELFPHTRMTLLGDINQTIYAPISKQNPLLLKDGEEVERITLMKSYRPTKQLVQFTKHFVPGEHKIEPFEREGNKPKLIYVNKETQRKEVLKHQIKDLMNEGYETIALVTKSLQESKHIYDALTGGVPCTLLDEETYTLSKGVLIIPVYLAKGIEFDAVIIPDATNSNYTKEDQTLFYTACTRAMHELVMVANEEPNVFIQEASVGTYKADKK NA NA NA NA NA AK015_03230 597 hypothetical protein TTGTTCAAACTCATGCGGAAATCCTTACAATGGAGCCTTAGAATTAGTTTATTAACATTTGGAATGGCTTTTGTGTTTGCATGTATATCTACATTATTTCAGGAAGGTGCGGGTTTACTTTTAAGTTTGTTTATTGTATTTGTCTTTATACTAATCGGTATTACCGGAGATACGATTGGACTTGCTGCAGCTACGTCAAACGAGAAACACTTTCATGCTATGGCAGCTAAGAAAATAAAAGGGGCAAAAGAAGCAGCTTTTATTGCTAAAAAAGCTCCACTATTTTCCAGTTTATTTAATGATGTAGTTGGGGACATCGCAGGTATTGTTAGTGGTGCAGCTTCTACAGCTGTTGTATTTCAACTCGCTAAATTGATTCGTACTTCAGAAGGATCCATCACTTTCATATTTGTTTCTGTTATTTTAACAAGTATCATTGCAGCACTTACAGTCGGTGGAAAAGCAATTTGTAAAACGATTGCTATCTATCATTCAACAACGATTATTCTATTTACTGGAAGAATTATCTACTACACAAAAGCTATCGTACATATTTTTTCCATACATCACCTATACAGATTAAGGAATAAACACTAG MFKLMRKSLQWSLRISLLTFGMAFVFACISTLFQEGAGLLLSLFIVFVFILIGITGDTIGLAAATSNEKHFHAMAAKKIKGAKEAAFIAKKAPLFSSLFNDVVGDIAGIVSGAASTAVVFQLAKLIRTSEGSITFIFVSVILTSIIAALTVGGKAICKTIAIYHSTTIILFTGRIIYYTKAIVHIFSIHHLYRLRNKH NA NA NA NA NA AK015_03232 3084 mupA mupirocin-resistant isoleucine--tRNA ligase MupA TTGGATCATCATCATGTAGAAGAAACGGTAGTTGAAAGGGAAAATCGGGTTAAGAAGTGGTGGCAGCAGCAGGATATATTTGCAAAATCCATCACACAACGGGAAGGGAAAGAAACGTTTGTATTTTACGAGGGGCCACCTACAGCGAATGGTTTACCACATGCTGGGCATGTGCTTGGTCGCGTAATCAAAGACTTTGTTGCGCGATATAAAACAATGCAAGGTTTTCAAGTGTTAAGAAAAGCGGGTTGGGACACACATGGCTTACCCGTTGAATTAGGTGTGGAGAAAAAACTAGGTATTTCCGGTAAGCAAGAAATCGAAGCGTATGGCGTAGAAAAATTTATTGAAGCCTGCAAAGATAGTGTCTTTGATTATGAAAAACAATGGCGGAAATTTACAGAGGCAATTGGGTACTGGGTAGATATGGATGAACCGTACGTGACACTCGAAAATAATTATATTGAAAGTGTTTGGTATATTTTAGCTACCATTCATAAAAAAGGATTATTGGATAAAGGGCATCGTGTAACGCCTTATTGCCCAAGCTGTCAAACCTCGCTAAGCTCTCATGAAGTCGCACAAGGATATAAAAATGTTAAAGATTTATCCGTAACAGTGAAATTTCCACTAAAAGATGTAGCGAATACATTCTTTTTAGGATGGACGACAACACCATGGACGTTGCCAGGAAATATTGCTCTCGCTGTACACCCTGACATGGACTATGCTAAAGTTCAGCAAAATCAGCAAGTGTTTATTGTAGCAGCTGATCGTTTACAAGCAATATGTAAAGAAGCTGACGTGTTAAGCTGGCATAAAGGAAAAGAGTTTGTTGGACTTTCCTATCAACCTCCTTTTCCAATGTCTAAAGTAAAGCGTGGGTACCAAGTCATTGGTGCTCAATTTGTTACAAACGATAGCGGTACAGGTATTGTTCATATCGCTCCTGCGTATGGAGAAGATGACTATCATGCGGTGGAAGAAAATAATCTTGATTTTATTCATGTCGTTGATGAGACAGGTAGATATAAGGAAAATATGCTTCCTTTAAAAGGGCAATTAGCGAAGCAAAGCGATGTAGCGATTATTAAAATGTTGGCGGAAAAAGACTTGTTGTTTGCAAAGGAAAAATATGAGCATAGCTACCCACACTGCTGGCGTTGTGATTCGCCGCTTCTTTATTACGCTATGGAAGGTTGGTTTATCCGAACGACAGCTATAAAAGATACGATTTTACAAAATAACGAACAGATCGAATGGCATCCAGAGCATATGAAGCACGGTCGCTTTGGAAATTTTTTGGAAAATATGGTGGATTGGAATTTAGGAAGAACCCGTTACTGGGGAACACCATTAAATGTGTGGATATGTCAAGACTGTGAGCATCAAGTTGTTCCGAATAGTATCCAAGAGCTAAAAGCATATGCCAAAGATACAATTCCTGAATCGTTGGAGTTGCATAAACCATACGTAGACAAGATCGTGCTCTGTTGCCCGCACTGCCATAGTGATATGTACCGTACAAAAGAAGTAATTGATGTCTGGTTTGATAGTGGCTCGATGCCGTTTGCGCAATATCATTATCCATTTGCAAACAAAGAGTTATTTGAAAAACAATTCCCAGCAGATATAATTGCTGAAGGTGTGGATCAAACTAGAGGGTGGTTTTACAGCTTATTAACGGTTGCTTCCTTATTCGTCGGCAAACCTTCTTATAAACGAGTGTTATCTTTAGGACATATCTTAGATGAAGATGGTAAAAAAATGTCGAAAAGTAAAGGCAATGTGATTGATCCGATGCAACTGGTGGAAACGTATGGGGCGGATGCGCTTCGTTGGGCTTTATTAGCAGATAGTGCACCGTGGAACAATAAACGTTTTTCAGCAAATTTAGTTGCTCAAGCCAAATCAAAAGTGGTCGATACGTTACAAAATGTGTACGCATTTTATGCAATGTATACGGCTATTGATCAATTTGATCCTCATCAGCATGATAAAGGGGAGCAAACATTGTTGGATAAATGGGTTTTATCTCGTCAGCAGACAGTTGTTAATCAGGTGAATTACTATTTGGATGCCTATGAGTTTACATCTGCCGCGAAGGTTTTAGCGGAATTTGTAGATCAAGTAAGTAATTGGTATATTCGTCGTTCTCGTGACCGTTTTTGGGGTGAGGGAATGGGGAGTACAAAATTGGCTGCTTATCATACGTTAAGAGAAGTATTGATAACAACGAGTAAGTTGCTTGCACCGTTTATTCCGTTTGTTACCGAGGATATTCATGTAAAGTTAACAGGTGAGAGTGTGCACCTCGTTGATTTTCCTAACGATGACAATGCGGCGATTAATGTTCAATTAGAAGAGGAAATGAGTGGCGTGGTCCAAGTTGTAGAACTTGCACGACAGGCTCGTAACGTATCTAAAATAAAGACAAAGCAACCATTAGCCTCTTTAACAGTGGTTAGCGATTCGTCACACGCAAGCTATGTCTATAAATATGCGGAAATTATTAAAGACGAAATTAATGTGAAGCGAGTGGATGTCGCAACAGAAATGGGTGAAAACGTGCGTTATGAAGTTAAGCTGAATTTCCCTGTCGCAGGACCGAAATTAGGGAAGCGGATAGGGATTGTGCAGAAACAGTTGCAACATTTATCAGAGGAAGAAATCACTCAAATGGTAAAAGGAGATCGAACATTAACGTTACCGTCCGGAGAGACGTTACAACTTGAGGAGGAAGATCTGTTAGTAAAGCAGGTGACAAAAAAAGGACTGGAAATGGCTGTAAACCCAACGTTTACCGTTCTATTAGATACGCAATTAACGAAGGAATTAAAACAAGAAGGTTTAGCTCGCGAGCTTATACGAGCAGTGCAACTATACCGCAAAGAACTGAATTTGCCGGTTGATCAACGAGTAAATATTACGTTTGCGGCTAGTAAGGAAATGAAAAACGTTATGAAAATGTACCAACCTTTATTAGAAACGAACCTGCTACTAAAGGGCATTCATTTTGGAGAGCGTGCTGGGATGAAAAGCGTTCAACTAGAAAAAGAGACTGTTCGAATAGGAATACATTAA MDHHHVEETVVERENRVKKWWQQQDIFAKSITQREGKETFVFYEGPPTANGLPHAGHVLGRVIKDFVARYKTMQGFQVLRKAGWDTHGLPVELGVEKKLGISGKQEIEAYGVEKFIEACKDSVFDYEKQWRKFTEAIGYWVDMDEPYVTLENNYIESVWYILATIHKKGLLDKGHRVTPYCPSCQTSLSSHEVAQGYKNVKDLSVTVKFPLKDVANTFFLGWTTTPWTLPGNIALAVHPDMDYAKVQQNQQVFIVAADRLQAICKEADVLSWHKGKEFVGLSYQPPFPMSKVKRGYQVIGAQFVTNDSGTGIVHIAPAYGEDDYHAVEENNLDFIHVVDETGRYKENMLPLKGQLAKQSDVAIIKMLAEKDLLFAKEKYEHSYPHCWRCDSPLLYYAMEGWFIRTTAIKDTILQNNEQIEWHPEHMKHGRFGNFLENMVDWNLGRTRYWGTPLNVWICQDCEHQVVPNSIQELKAYAKDTIPESLELHKPYVDKIVLCCPHCHSDMYRTKEVIDVWFDSGSMPFAQYHYPFANKELFEKQFPADIIAEGVDQTRGWFYSLLTVASLFVGKPSYKRVLSLGHILDEDGKKMSKSKGNVIDPMQLVETYGADALRWALLADSAPWNNKRFSANLVAQAKSKVVDTLQNVYAFYAMYTAIDQFDPHQHDKGEQTLLDKWVLSRQQTVVNQVNYYLDAYEFTSAAKVLAEFVDQVSNWYIRRSRDRFWGEGMGSTKLAAYHTLREVLITTSKLLAPFIPFVTEDIHVKLTGESVHLVDFPNDDNAAINVQLEEEMSGVVQVVELARQARNVSKIKTKQPLASLTVVSDSSHASYVYKYAEIIKDEINVKRVDVATEMGENVRYEVKLNFPVAGPKLGKRIGIVQKQLQHLSEEEITQMVKGDRTLTLPSGETLQLEEEDLLVKQVTKKGLEMAVNPTFTVLLDTQLTKELKQEGLARELIRAVQLYRKELNLPVDQRVNITFAASKEMKNVMKMYQPLLETNLLLKGIHFGERAGMKSVQLEKETVRIGIH NA NA NA NA NA AK015_03233 807 pdxK_2 COG0351 Pyridoxine kinase ATGACGATGAAAAAAACTTTAACACTTGCAGGTTCTGATTCCAGCGGCGGGGCTGGCATTCAAGCTGATTTAAAAACATTCCAAGAACATGATGTGTATGGCATGACAGCCCTTACTTCCATCGTAACAATGGACCCAAACGGATGGACCCATAACGTGTCCCCCATGGATGTATCCATTGTGGAGAAACAATTAGATACCATTCTATCCGTTGGTGTCGATGCAATGAAAACCGGAATGTTAGGTTCCGTTGATATTATAGAATTAGGTGCGAAAAAAATTGCCGACTATGACATACTAAACTACGTTCTTGACCCTGTTATGGTATGTAAAGGAGACGACGAAGTTTTACAACCAGAAAACACGGATGCGATGCGTGAATGCTTACTTCCTCATGCCATCATTACAACACCTAACCTGTTTGAAGCTGGTCAGCTAGCTCAAACTGGTTCTATCAGAACGTTAGATGATATGAAAGAAGCGGCTGTAAAAATTCATGAATTAGGTGCAAAAAATGTCGTTATTAAAGGCGGAAAAGCTTTTTATCACGAGAAAGCAATTGACCTTTTCTATGATGGGCATGAATTTACGGTATTAGAAGAAGATAAAATTAACACAAGCTACAACCACGGTGCTGGATGTACGTTTGCTGCTGCTATCACTGCCAACCTAGCACATGGTCGTACTGTAAAAGATGCTGTAAAGGGAGCAAAAAATTTCGTAACAGCAGCGATCAAGCATGGCTGGAAACTCAATGATTATGTCGGTCCAGTAAGACATGGCGCTTATAATAAGTATACGAAATAA MTMKKTLTLAGSDSSGGAGIQADLKTFQEHDVYGMTALTSIVTMDPNGWTHNVSPMDVSIVEKQLDTILSVGVDAMKTGMLGSVDIIELGAKKIADYDILNYVLDPVMVCKGDDEVLQPENTDAMRECLLPHAIITTPNLFEAGQLAQTGSIRTLDDMKEAAVKIHELGAKNVVIKGGKAFYHEKAIDLFYDGHEFTVLEEDKINTSYNHGAGCTFAAAITANLAHGRTVKDAVKGAKNFVTAAIKHGWKLNDYVGPVRHGAYNKYTK PGPT0009125_2806 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 AK015_03234 993 sppA COG0616 Putative signal peptide peptidase SppA GTGAATGCAAAACGTTGGTGGGCTATTTTAATAGCTGCGGTTTTATTGCTTGCTTCGCTGGGGTTTCGATTTATGGGGAGCATAGCAACTACTAATTTTGAAGACATGTTTAAATTAGATGATAATCAATTTGAAGAAGAAATTATCGAAGAAGGTGTAGGAGACAAAATAGCTGTTCTTGAACTTAATGGAATTATTCAAGACACAGCGCCAAGCCCAGTGTTGAATACTACTTCGTACAACCATAAACGCTTTTTGGACATGTTAGAGCAAGCGGGAGAAGATTCTACCGTCGATGGTATTATCTTGCGCGTGAATACTCCTGGCGGTGGTGTTGTGGAAAGTGCGGAAATTCATGACAAGATCATTGAAATTCAGGAGCAATATGAAAAGCCTATTTATGTTTCTATGGGGAATACAGCCGCTTCTGGAGGGTATTATATCTCCGCACCAGCCAATAAAGTAGTTGCACACCCAGCAACGGTAACAGGGTCCATTGGTGTCATTATGGAAGGCTATGACCTCTCAGGCTTAGCGGAAAAATGGGGAATTGATTTTAATACGATTAAAAGTGGCGAATATAAAGATATTTTGTCCTTCTCAAGAGAAATGACAGATGAAGAACGAGAGATTTTGCAGACAATGGTTGATGATATGTACGCAGATTTCGTAAATGTCATTGTGGATGGAAGAGGTATGTCTGAATCCAAGGTAAGAGAATTAGGGGACGGTCGTGTATATACTGGAAGCCAAGCGAAAGAAAATGGGCTAGTAGATGAACTAGGCTCGTTAGATGATACGATTGCTTACATGGCAGAGGACAATGATTTTGATGATGTGCAAGTTGTAAAATACAATTATGCTACTGGTTTTAATGAATGGCTGGGAATGTCGGTACAATCGATGTTTACAGATGAAGCAGAATTCCTCGGCATCATGGATATGATCCGTCAATCGAACGCACCACGTGCTATGTACCTATACACGAATTAA MNAKRWWAILIAAVLLLASLGFRFMGSIATTNFEDMFKLDDNQFEEEIIEEGVGDKIAVLELNGIIQDTAPSPVLNTTSYNHKRFLDMLEQAGEDSTVDGIILRVNTPGGGVVESAEIHDKIIEIQEQYEKPIYVSMGNTAASGGYYISAPANKVVAHPATVTGSIGVIMEGYDLSGLAEKWGIDFNTIKSGEYKDILSFSREMTDEEREILQTMVDDMYADFVNVIVDGRGMSESKVRELGDGRVYTGSQAKENGLVDELGSLDDTIAYMAEDNDFDDVQVVKYNYATGFNEWLGMSVQSMFTDEAEFLGIMDMIRQSNAPRAMYLYTN PGPT0030320_2655 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-Type_V_SECRETION_SYSTEMS CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773 NA NA AK015_03235 468 hypothetical protein ATGAGTGAGCTTACTGCTGCAGAAGCGTCAGAACTTGTACCAGAAACGAGGAGATATGCTGGCTTCTGGATGCGATTTTGGGCGTATCTAATTGATTTAGTTGTTTTATTTAGCATTAATGGCATTCTTTTAACCCCGTTAAAATTTATTAATGACGGAGAAATGGTTGACATTGGCTATTGGACATTAACGGGGGTTCTATCAGCTATTGTTTTTTACGTGTATTTTCTGCTGATGACAAAAAAGTTCAGCCAAACGATAGGAAAAATGATCTTAGGTATTAAAGTTGTACGTGAAGATGGCGAACCTTTAAGGTGGAGTGATTTATTCTTTCGCGAGGTCATTGGTCGATTTTTTTATCGTGTGTTTCAAATTTTTGCGCTCTTGTATATCGTCGTTGCTTTCTCGCATGAAAAGCAAGGTATTCATGATATGATAGGCAATACGAGAGTGGTGTTTGTTGACTGA MSELTAAEASELVPETRRYAGFWMRFWAYLIDLVVLFSINGILLTPLKFINDGEMVDIGYWTLTGVLSAIVFYVYFLLMTKKFSQTIGKMILGIKVVREDGEPLRWSDLFFREVIGRFFYRVFQIFALLYIVVAFSHEKQGIHDMIGNTRVVFVD NA NA NA NA NA AK015_03236 1350 ythA COG1271 Putative cytochrome bd menaquinol oxidase subunit I ATGATGGATTTGGATCCGGTGTTAATGAGTCGATTGTTAACGACAATCACTTTAGTTTTTCATATTATTTTTGCAACCTTAGGTGTCGGGGTCCCATTGATGATTTCCATTGCTGAATTTATCGGGATAAAGAAAAAAGACCCGCATTATACCATGTTGGCAAGGCGATGGGCCCGAGGATTTGTTATCCCAGTAGCGATTGGAGTTGTAACAGGTACGGCTATTGGTTTACAACTATCTTTGCTTTGGCCGGAGTTTATGCAAGTTGGCGGGAATGTCATAGCTTTACCGTTATTTATGGAAGTATTTGCTTTTTTCTTTGAAGCTATTTTCTTAGGTATATACATGTATACGTGGGATCGTTTTAAAAAGCCGATGACACATTGGTGGTTATCATTACCGATAGTTATTGGTGGGGGAATGTCTGCCTTCTTTATTACTACCGTCAATGCGTTTATGAATACACCAGAAGGGTTTGAAATTGGTGGAGATGGGTTTGCGGCGATCAATCCGCTTGAAGCGATGTTCAACCCAGCGACACCGACAAAAGTGTTTCATGTGTTGGCTTCTGCTTATTTAACGGTAGCAGCTATTTTAGCAGCGATTGCGGCGTTTGGTTTGTTGCGGAAAAAAACAAAAGAATACCATAAAAAAGCATTGAAGCTGACTGTAACGTTAACGTTTATTTTTGCGATTTTTACAGCAATTGCTGGAGACGTTTCTGCTAAGTTTCTTGCTGAATATCAACCAGAAAAACTAGCAGCAGGGGAATGGCATTTTGAAACAGAGGGAAATGCTGACCTGATCTTATTTGGTTGGTTAAATGAGGGTAATGAGCCAGAAGGTGTTATTCGTTTGCCAGGATTACTGAGCTTTTTAGCCTATAGTGATTTTAACGCGGAGGTTACTGGTTTAGAAGAGTTTCCTGAAGCGGAGAGACCGCCGTTATGGATTCACTATATGTTTGACTTGATGGTTACGATTGGCGTTTTCTTACTAGGGATATCATTCCTTTATCTACTCCTATCGAAATTAAAACGATGGAATGAAAATAACAAATTCATGCTTTGGATGCTCGTTTTAAGCGGACCCTTAGCGATGCTTGCTATTGAATTTGGCTGGATTTACGCTGAAGAAGGTAGACAGCCGTGGATACTACGAGGATATATGACGGTGGAAGAAGCAGCGACGACGTCACCATATGTCGGTTGGATGTTTGTGTTGTTTTTACTCCTTTATATTGCTTTAGGAGTTATCGGAGCAGTTGTGCTGCGTAAAGTCTTTAAAAATAATCCAGTTGAAGACGAATTGGAGAAAAAATATCCGACCATTGAAAAGGGTGATAAATAA MMDLDPVLMSRLLTTITLVFHIIFATLGVGVPLMISIAEFIGIKKKDPHYTMLARRWARGFVIPVAIGVVTGTAIGLQLSLLWPEFMQVGGNVIALPLFMEVFAFFFEAIFLGIYMYTWDRFKKPMTHWWLSLPIVIGGGMSAFFITTVNAFMNTPEGFEIGGDGFAAINPLEAMFNPATPTKVFHVLASAYLTVAAILAAIAAFGLLRKKTKEYHKKALKLTVTLTFIFAIFTAIAGDVSAKFLAEYQPEKLAAGEWHFETEGNADLILFGWLNEGNEPEGVIRLPGLLSFLAYSDFNAEVTGLEEFPEAERPPLWIHYMFDLMVTIGVFLLGISFLYLLLSKLKRWNENNKFMLWMLVLSGPLAMLAIEFGWIYAEEGRQPWILRGYMTVEEAATTSPYVGWMFVLFLLLYIALGVIGAVVLRKVFKNNPVEDELEKKYPTIEKGDK PGPT0026700_4394 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 AK015_03237 1014 ythB COG1294 Putative cytochrome bd menaquinol oxidase subunit II ATGAACTATGAAATAATTGGGATTTCTGTATTATGGCTCTTTTTATATGGGTATTTAATTGTTGCTTCGGTTGACTTTGGTGCAGGGTTTTATGCGTATTATGCGAAAGTGACAAAGAAAGATCATATTATGAACCAACTGATATCCAGATATTTGTCCCCAGTATGGGAAGTGACCAACGTGTTTTTTGTTTTCTTTTTCGTTGGTATTGTTGGCTTCTTCCCAGATTCAGCTTATTATTACGGTACAGCTCTGCTCGTGCCTGGTAGTATTGCGATTATCTTGTTGGCAATTCGTGGTTCGTTTTATGCATTTGAAAATTATGGTTCGAAACAAAGTAATCTGTATATGTTTCTATACGGAGCTACAGGTTTATTAATTCCTGCGTCTTTATCCGTTGCGTTAACGCTTTCTGAAGGTGGCTTTATTACTGAAGAAAATGGTAAAGTAGCTTTAGATTATTTAGCATTATTTACAAGCCCATATTCTTGGAGCGTCGTTTTCTTAGCGATCGTTTCGGTATTGTTTATTAGTGCCGCATTTTTGACTTTCTATGCGGCGAGAGCCAATGACGTTGCGGCATTAAAACTTGTTCGTAAATATGCACTATTTTGGGCTACGCCGACGATTATCGCTGCCTTGACAACATTTATTGCCTTAGGCCAGCATAATGAGCGTCATTACCAAAATATGTTCGATTACTGGTGGATGTTTGGATTATCCGTTGGCTTCTTTATGATTGCCATGTGGTTAATCTATGAAGGAAAACGGTATGGACTAGCGTTTATTAGTGTGATGTTGCAATTTTTCTTTGCTTTCTTCGGGTATGGTGTTAGTCACCTCCCGTATATATTAGATCCATATATTACGGTTTACGAAAATGCGACACATGAGTCGACAGGAATTGCCTTAATTATCGTATTTATTGCGGGGCTATTCCTTCTCATTCCTTCATTAATATTGCTCATGCGCTTGTTCTTATTTGATGCTGATTATGTAAAGGGGAAAAAATAG MNYEIIGISVLWLFLYGYLIVASVDFGAGFYAYYAKVTKKDHIMNQLISRYLSPVWEVTNVFFVFFFVGIVGFFPDSAYYYGTALLVPGSIAIILLAIRGSFYAFENYGSKQSNLYMFLYGATGLLIPASLSVALTLSEGGFITEENGKVALDYLALFTSPYSWSVVFLAIVSVLFISAAFLTFYAARANDVAALKLVRKYALFWATPTIIAALTTFIALGQHNERHYQNMFDYWWMFGLSVGFFMIAMWLIYEGKRYGLAFISVMLQFFFAFFGYGVSHLPYILDPYITVYENATHESTGIALIIVFIAGLFLLIPSLILLMRLFLFDADYVKGKK PGPT0026705_3233 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 AK015_03238 1737 cydD_2 COG4988 ATP-binding/permease protein CydD ATGAATCAGATAAAAAATTATTTATATGAAAATAAACAAAGTGCGATCTATTTGCTGCTGCTTTCCCTATTAATGGGCGGTTCCATCATTGTACAGGCGTTTTTACTTGTCACTATCATTGATGGTGTTTTTTTGAAAGATTGGAGCTTTCAAGAAATTGTTCCATTATTAGGAGTTCTATTCTTTATTTTACTAGCTAGAAGCTTCATTCCTTTTATAAGCGGAAAGATTGGGATACGCCTTGGTACAACAGCGAAAAGCCATTTTCGTAAGCAGTTGCTTGCCCATTTTGCTAATAACCCAGTCCAAGCTTCTTTAAAAGGGCAATCGGGGCAAAAAGTTAGTCTTATGATGGACGCGATTGATGAAGTGGATAGTTATTTTAGCAGTTATATTCCACAAGTCATTCGCTCATCTGTTATTCCCCTCATCATTTTAATTGTTGTATTTACGGAACATGTGAATTCTGGCCTCATCATGTTGATTACCTCCCCGTTTATTCCGTTGTTTATGGTGATCATTGGTATGCAAACAAAAAAGAAATCGGAAGAGCAGATGGAGGAGCTAGCTGCTTTTTCTGGTCGATTTTTGGATACGTTGCAAGGGCTTGTTACGTTAAAATTGTTTGGTAAAGCGAAACAACAAAAAAAGGCAATTCAAACGAGCGGTTTACGATTTCGAGATGCAACCATGGAGATATTAAAAGTAGCCTTCACTTCTTCGTTTATGCTTGAGCTTATTTCGATGCTAGCAATCGGGTTGGTTGCTTTAGAAGTGGCCTTACAGCTTATCGTTTTTGACGGGATTTCTTTTTTTACTGCATTTCTTGTACTCGTTCTGGCACCAGAATATTTTACATCCCTTCGTCAGTTGGGAACGGCATTTCATAATGGGAAAAGCAGCATGGGAGCTGCTAAAAAAGTAGCAGAAGAATTGGCGCTAGAGGAGGATTCTGCTGTTATTTGGGGAGAAAAGCCACTTTCTAAAATAGCGGGGCCTGCAAGTTTGGAATTGCAACAAGTTACATTTCAGTATGGGGAGGACGCGTTTACGCTACATCCTATGAGTACAACTTTTGCTCCAAAATCTAAAAACGCTATTGTAGGAAAAACAGGGTCTGGTAAATCCACGCTATTGCACCTTCTTGCAGGAATTGTCGTGCCAGATGCAGGAAATATATTACTAGGAGGTAACCCATTATCTGCATACAAGGAAGCAGATTGGTTCGCGCAACTGAGTTATATTTCGCAACATCCGTATATATTTGCTGGAACGATTGCTGAAAATATTGCCATTGGCAGTCAGGAAACAGCAACAGGGGAAGCCATCACACGTGCGGCAGAAGAAGCGGGGCTAGCTGCCATGATTATGGCTTTAGAAGATGGATATGATACACATGTTGGTGAAGGTGGGAGAGGTTTATCTGGTGGTGAGAAGCAACGTTTAGCTTTAGCAAGAGCTTTTTTAAAACAACCGGCAATCGTTTTATTTGATGAGCCGACGACTGGGCTTGATTTGAAGACGGAGCGTATTCTTCAGGCTTCCATTCAAAAATTGTCGGAAACAGCAACTATCATTACCGTTGCACACCGCCTGCACACGATTAAAGATGCGGATCATATTCTATACCTTGATCAAGGACAATTAATTGCTGAAGGAACGCATGCACAACTGCTGCAACGTGCAGAAGGCTACCGGAAGATGGTAACCATACAGCGAGGAGGGCTGCAGCGATGA MNQIKNYLYENKQSAIYLLLLSLLMGGSIIVQAFLLVTIIDGVFLKDWSFQEIVPLLGVLFFILLARSFIPFISGKIGIRLGTTAKSHFRKQLLAHFANNPVQASLKGQSGQKVSLMMDAIDEVDSYFSSYIPQVIRSSVIPLIILIVVFTEHVNSGLIMLITSPFIPLFMVIIGMQTKKKSEEQMEELAAFSGRFLDTLQGLVTLKLFGKAKQQKKAIQTSGLRFRDATMEILKVAFTSSFMLELISMLAIGLVALEVALQLIVFDGISFFTAFLVLVLAPEYFTSLRQLGTAFHNGKSSMGAAKKVAEELALEEDSAVIWGEKPLSKIAGPASLELQQVTFQYGEDAFTLHPMSTTFAPKSKNAIVGKTGSGKSTLLHLLAGIVVPDAGNILLGGNPLSAYKEADWFAQLSYISQHPYIFAGTIAENIAIGSQETATGEAITRAAEEAGLAAMIMALEDGYDTHVGEGGRGLSGGEKQRLALARAFLKQPAIVLFDEPTTGLDLKTERILQASIQKLSETATIITVAHRLHTIKDADHILYLDQGQLIAEGTHAQLLQRAEGYRKMVTIQRGGLQR NA NA NA NA NA AK015_03239 1722 hepA COG1132 Heterocyst differentiation ATP-binding protein HepA ATGAAAGAATTAACCTTTGTCATGCGAATGATGATGAAAGAAAAAAAGGATATCGTCCTTTCCATCGTATTGGGATTTATTGCTGGTTTGGCTGCCGTGCTGCTATTTTCTGCTAGTGGTTATTTAATATCAAAAGCAGCATTTGCCCCGCCTTTTTACACGTTAATGCTCGTTATTGCGTCTGTGAAATTATTAAGCTTTATCCGCGCGTTTAGTCGCTATGGTGAGAGATATGTATCCCATCGAGGTACGTTTACGATGCTTAGCCAATTGCGGATGGCTTTTTATGAAAAATTAGAGCCATTAGCACCAGGAATCTTCCAGAAATATCGTAGCGGGGATTTGCTATCTCGTATTGTTGGTGACGTGGAGAGTTTGCAAAATCTCTTTTTACGTGTTGTGTATCCGCCGATTGTATTGGCGCTCGTATTTATGAGTACCATCTTTTTTACGATGTTTTATTCCATCGAAACAGCAGTAATCTTGTTTGTCGGATTTTTACTCACTGCGATTGTGATACCAGCTATTTTTGCGGTACGTCAACGGACTATTGATAGTAAGGTACGCCTAAAAAGAGCGTCTCTCTCTACAGAGGTCACGGAGTTTTTATACGGATTTCGTGATTTAAAGATTTATCAGCAGTTAGATGATAAAGAAAAGCAGTTACTTCAAGCTTCTGATGCTTACATTACGGAGCAAGAACAAGAAGAAAAAACGACGTTATTTAATCAGTCGTTAAATCAATTCGTCTCCTTACTTGTAACAGTAGCCGTATTAGCAGTAGGTGCCTATCTCATTGATACAGGTGAATTGGACGGGATTTTTCTTGCTATGCTGATTATGATTACGTTAACTGTGTTTGAAGATGCGCCAGCAATGGCTGTGTTTCCGATTCATTTTAACGATAGTCGTCGTTCTGCCAAACGGTTATTTTCCATTATTGAGCAAAAAGACGGACAGGAACAGGAGCACGTTTCGGTTGCCAAAACGTTAACGATCAATAAGCCACCAGAAATCACATTGGAAAATGTTAGCTTTACATTTACTGGAGAAGAGCGGCGAGCTGTTGAACAGGTAGATGTTCACCTTCCTAGCGGTTCAAAAACAGCACTCGTAGGGGCAAGCGGTTCAGGGAAGTCAACGCTTATGCAGTTAATGCTTTATTTGGTTACACCGGAGGAAGGAAGGATCATGATAAATGGAATAGAATTAGCGCATGCGGATGAGGAAAGTATTTGGCAATTAGCGAATGTTGTTTTACAAGAGAATCATTTCTTTTATGGTACCATTCGCGATAACTTATTGCTGGCTAATGATACTGCTACCGATGAAGAATTACAATCCATTTTAGCTATTGTGCAATTGGAGCATTTTCATTTAGAGGATAAAGTGTATGAACGAGGGGAAAACTTGTCCGGTGGTGAAAAGCAACGACTTGCTATCGCCCGAGCGATGTTAAAAGGCGGCTCATTTTGGGTATTGGATGAGCCGACATCATCTTTAGATGCGGTTACAGAACAAGCCATCTATGAACACTTATTCAGGCAAGCGGCAGATGACACCGTTGTGCTCATTAGTCACCGTTTAGCAGGATTGGAAAAAATGGATCAAATCATTGTCATGGATGAAGGGAAAGTCGTGGAAGTTGGTACATTTACAGAATTGATGGAAAAACAAGGGTATTTCTATGAAATGAAGGAATTGGAGAATAATTTGTTGTAA MKELTFVMRMMMKEKKDIVLSIVLGFIAGLAAVLLFSASGYLISKAAFAPPFYTLMLVIASVKLLSFIRAFSRYGERYVSHRGTFTMLSQLRMAFYEKLEPLAPGIFQKYRSGDLLSRIVGDVESLQNLFLRVVYPPIVLALVFMSTIFFTMFYSIETAVILFVGFLLTAIVIPAIFAVRQRTIDSKVRLKRASLSTEVTEFLYGFRDLKIYQQLDDKEKQLLQASDAYITEQEQEEKTTLFNQSLNQFVSLLVTVAVLAVGAYLIDTGELDGIFLAMLIMITLTVFEDAPAMAVFPIHFNDSRRSAKRLFSIIEQKDGQEQEHVSVAKTLTINKPPEITLENVSFTFTGEERRAVEQVDVHLPSGSKTALVGASGSGKSTLMQLMLYLVTPEEGRIMINGIELAHADEESIWQLANVVLQENHFFYGTIRDNLLLANDTATDEELQSILAIVQLEHFHLEDKVYERGENLSGGEKQRLAIARAMLKGGSFWVLDEPTSSLDAVTEQAIYEHLFRQAADDTVVLISHRLAGLEKMDQIIVMDEGKVVEVGTFTELMEKQGYFYEMKELENNLL NA NA NA NA NA AK015_03240 603 hypothetical protein TTGACTCGCTTTAAAAAAATAGGAGTTTACCTTTTCTTGTGTGTTTTTCTGCTTAGTATTTTTTTTAACTATCGCTATTATCAAACCATAAAAGAAGAAGAGCAACAATTCGCATACTTATTTACGGATTTTTATTATGAAGTCGACGAGACAATCGATAGCTTAGAATTCCTTTTAACGCATGACCCTGAAGGGAACAAGCTAATAGATAGTATGGTTTCTTTTTTAAACCAACTTACTAGAATAGATTTTATGTTACGTAGAGTTCCTTATTATTTTTTCTCAGAAGGTGGCGTTTCAAACAGTGTAGGCGCAGCAGCCAACTACATAGAAAGAGGTACAAAACATAAAGGTCAATTCATTCCGCCATTTTTAGAAGATGGACGGTTAAATGGACAAGAGCGGGCATTTTTACAAGAATTAAACTCGTTTTTACTACAAGTACAGTATGCCTTAAACGGCTTAGAAAAACGTTCGGATGTTCCAATTCGTGATCTGGATAAGGTTCGATTTGACAGGGTTTTAACAGAGAATGTGTATAATGAGATTCATCATTACCGCTTTTTAGAGGCATATGTAAAAGAGGGGCAGGGATCAAATTAA MTRFKKIGVYLFLCVFLLSIFFNYRYYQTIKEEEQQFAYLFTDFYYEVDETIDSLEFLLTHDPEGNKLIDSMVSFLNQLTRIDFMLRRVPYYFFSEGGVSNSVGAAANYIERGTKHKGQFIPPFLEDGRLNGQERAFLQELNSFLLQVQYALNGLEKRSDVPIRDLDKVRFDRVLTENVYNEIHHYRFLEAYVKEGQGSN NA NA NA NA NA AK015_03241 3114 rcsC_4 Sensor histidine kinase RcsC TTGAGCAACAAATTAACTCGTTTTCTAAGGAGAAAAAAATATTTTTTATCCATTACTATTCTTTTCCTCATCTTATTGTCTGGTTCACGCTTTTTATGGACAAACGTTTTCCAATCGCAAGAACAGCTATCTATTAAAAATGGGCAATTAGATTTACGAGATTGGGATGCTACCAGTGATGACATTCTTTTATTAGATGGAAAATGGGAATTTTATCCACAAGCACTAATCACAGGGGATGAACCTTCACAGTTAACGAAAACACCAAAAACAATACAAGTTCCAGGTGAATGGAATGAAGCCTTACAATCTCCATATGGATTCGGTTCCTACCGGTTGCAAGTACAAGTAGATCCTAACCAAGATATCAATTACAGTATGCGCGTTTCTAGCATACGAAGTGCTTCTAAAATCTTTGTGAATGGGCGACTCATCAATGAATCTGGACAAGTAGACAAAAAGAAAGAAACATATATATCTAAAAACCTCCCTTACTCAGCTACGTTTACAGCAGATGAAAACGGGAAGATTGATATTTGGGTACAGGCAGCAAATTTTACGGACAAACGAAGTAGTGGTATTGTTCGTTCGATGAAGTTCGGTTCAGAGGACGCCATTTTGAAAGACATTAAATTTTCCTATACGATGCAGATTGCTTCAGCCATTGTATTTCTAGTCCATGTAGTATATGCCCTGTTACTATATTTCCTTGGAAACAGAGAAAAAAGACTACTATTCTTCTCCATTCTAGTATTTAGCGCAATGATGGGAAGTTTATTAAGTAGTGATGAAAAATTATTTCACCAATTCATTTATATGGGACAAGAATGGGATTTTCGCTTAGCAAACGCTTTATTACTCCTTACTTTTTATGCTTTGATAAACTGTACCGAGCATCGAACTTTACCGTATTGGCAACGAATCTATCCTATTTACGCTATCATGTTGCTTGGTACGGCCGGGATAACATTATTTTTAAATGTGACACAAATTATATCCCTTTTTCCGGTTTATTTTTTATTTATTGGAACCGCAACAATCATTTCTGTAATAGCCATTTGGCGCCAATTTACAAGCGATCCAAAAGTAAATGTATTGCTGCTCTTTTCATTAACCGCATTAATCCACCATTTTATCTGGACAATTATCTGGAGAAAAAGTGGTGTTACTGTACCACATTACCCATTTGATATGTTTATTTCTATCGGGTGTTTTGCAAGCATGTGGTTTAAAAATTATTTTAAGACCTATGCTGATACGAAAGAACTCGCCTCTAGATTGCAGCGTATGAATGACCATAAGGATCAGTTTTTAGCAAATACGTCGCATGAATTTAAAAATCCGCTTCACGGCATCTTAAATATGTCGCAAGCAATCTTAGAGAGAGAGCAATTCTCTTTACAACAAAGAAGCGTCAAAGAACTGGAAACTATTTTATCCGTTGGGCGTAGAATGGACTTCATTCTCAATGATTTGCTTGACGTAACCAGTCTTAAACAAGGGAGTTATCGATTAAAAAAAGAACCTATTTCCATTGCTTCCATTATTGCAGGAGTCAATGACATGCTAAGATTCACCATAGAAGGGAAACCGATTAAAATTGTTCAACAAATACCACACGATTTCCCCAGCGTATTTGCAGATGAGAACCGAGTTATTCAAATCGTCTTTAATTTACTGCACAATGCGGTGAAATACACAAATGAAGGACAAATTACGATCCATGCATATGTCGAAGGTAAAAAAGCCATCATTTCCATAACGGACACGGGGATTGGTATGGACAAGGAAATGTTAACACGACTATTTCAACCTTATGAACAAGCGAATGCAAAAGAAACTAGAATTGAAGGCGGATTTGGACTTGGATTAAGCATAACGAAACAATTGGTTGAGCTTCACGGTGGGACATTAGAAGTGGATTCCACTGTAGATAAAGGATCTACATTTACTTTTTCCTTAGAGCTAGCAAATGCTCAAGAAGTAGATTCATTTTACCAAGAAACACAAACGTTCTTTGACCAAACGACCTATTTTCACCCGGAGTCTTCTGCCCTTCAAACGGAAACTGCTTCAACAACGGAAGCTAAAAGAAAAAATAGCCTAACAGCTAGACAGGCAAACATTTTAATAGTTGATGATGATCCAGTTAATTTAGAAGTAATGAAAACGATTCTCCGACAAGAAAATTATAGGATCACTACTGTAATGAACGGACAGCAAGCCCTTGCCATTTTGAATGAGAAAGAATGGGATCTCATTATTTCCGATGTGATGATGCCACAAATGTCTGGTTATGAGCTTACAGAAATGATTCGCAAACAATATTCTTTAACCGAACTGCCTATTCTTTTATTAACAGCACGAAGAGAGACAGATGATATACGCAGTGGTTTTCTAGCTGGAGCAAATGACTATGTAACAAAACCGGTGGAAGCGATGGAAATAAGATCCCGAATTGAAACATTAACGAGCATGAAACAAGCGGCACAGGACCAACTACAATTAGAAACTGCTTGGCTACAAGCACAAATCCAACCACATTTTCTATTTAATACATTGAATGCCATAGCTAGTTTAAGTATCATTGACGTTGAAAAAATGCAAGATTTACTAAATGAATTTAGCCATTTTCTTAGAAATAAGTTCAAATTTAAAAATACGAATGAATTAATTCCACTTGAAGAAGAATTGAAAATGGTCCGCTCTTATTTGTACATTGAACAAGTAAGGTTTACAGACAGGCTACAAGTGGATTGGGACATAGATACATATGATGAGATTAAAGTTCCATTTTTAACCATCCAACCTCTCATAGAGAATGCAATACGCCACGGCATTATGAACCGAGTTCAAGGTGGAACTATTCAGATAAGAGTTAAAAACTATGCAACGTATGTAGAAATATCCGTAGAGGACAATGGAGTCGGCATAGATGAAGCAAAATTAACTCATATTTTATCTAAACAATCGGCTATCAAATCAGGAGTTGGACTTGTCAATACAGACTTACGCTTAAAGCGGTTCTTTGGAGAAGGCCTATCTATCGCTAGCATACTTGGAGAAGGTACGATTGTATCTTTTCAAATAAAGAAGGAACAGACAGAAAACTAA MSNKLTRFLRRKKYFLSITILFLILLSGSRFLWTNVFQSQEQLSIKNGQLDLRDWDATSDDILLLDGKWEFYPQALITGDEPSQLTKTPKTIQVPGEWNEALQSPYGFGSYRLQVQVDPNQDINYSMRVSSIRSASKIFVNGRLINESGQVDKKKETYISKNLPYSATFTADENGKIDIWVQAANFTDKRSSGIVRSMKFGSEDAILKDIKFSYTMQIASAIVFLVHVVYALLLYFLGNREKRLLFFSILVFSAMMGSLLSSDEKLFHQFIYMGQEWDFRLANALLLLTFYALINCTEHRTLPYWQRIYPIYAIMLLGTAGITLFLNVTQIISLFPVYFLFIGTATIISVIAIWRQFTSDPKVNVLLLFSLTALIHHFIWTIIWRKSGVTVPHYPFDMFISIGCFASMWFKNYFKTYADTKELASRLQRMNDHKDQFLANTSHEFKNPLHGILNMSQAILEREQFSLQQRSVKELETILSVGRRMDFILNDLLDVTSLKQGSYRLKKEPISIASIIAGVNDMLRFTIEGKPIKIVQQIPHDFPSVFADENRVIQIVFNLLHNAVKYTNEGQITIHAYVEGKKAIISITDTGIGMDKEMLTRLFQPYEQANAKETRIEGGFGLGLSITKQLVELHGGTLEVDSTVDKGSTFTFSLELANAQEVDSFYQETQTFFDQTTYFHPESSALQTETASTTEAKRKNSLTARQANILIVDDDPVNLEVMKTILRQENYRITTVMNGQQALAILNEKEWDLIISDVMMPQMSGYELTEMIRKQYSLTELPILLLTARRETDDIRSGFLAGANDYVTKPVEAMEIRSRIETLTSMKQAAQDQLQLETAWLQAQIQPHFLFNTLNAIASLSIIDVEKMQDLLNEFSHFLRNKFKFKNTNELIPLEEELKMVRSYLYIEQVRFTDRLQVDWDIDTYDEIKVPFLTIQPLIENAIRHGIMNRVQGGTIQIRVKNYATYVEISVEDNGVGIDEAKLTHILSKQSAIKSGVGLVNTDLRLKRFFGEGLSIASILGEGTIVSFQIKKEQTEN NA NA NA NA NA AK015_03242 1110 ribD COG0117 Riboflavin biosynthesis protein RibD ATGACCACAGATGCATTTTATATGAACATAGCTTTGAATCATGCTCTTGCTATGAAAGGACAAACAGATCCCAACCCGTTAGTCGGTTGTGTCATTGTTCATCATAGTCGGATCGTTGGCATTGGTGCGCATTTAAAAGCAGGAGAAGCCCATGCAGAAATACACGCTTTGCGTATGGCAGGCGAACAAGCTCGTGGAAGCACGTTGTATGTTACATTAGAACCTTGCTCGCACCATGGTAAGACAGGACCATGCGCTGAAGCGATCGTTCAGGCAGGTGTTAAAAAAGTAATCATTGCCACGTTAGATCCAAACCCAATGGTATGTGGAAATGGCGCTTCTATTTTAAAAACAGCGGGTATTGATGTAGAAATTGGTGTTTGCGGAGAAGAAGCACGCAAAATGAATGAAGTTTTCAATACATTTATTGAACAAAAAAGACCATTTATTACCTTAAAAACAGGCATTACAATGGACGGAAAAGTAGCCACACATACGGCTCATAGCAAATGGATTACATCGGAGGAAGCACGAAAAGATGTTCATCAATTACGCCACGAACATGTAGCTATTTTAACGGGAATAAACACCGTTTTAAAAGATGATCCTGCCCTGACAGCACGTATTCCAAATGGACGAAACCCAATTCGTATTGTGATGGATTCAACATTAAAAATACCACTGCATTACCAACTCATTCAAGATAAGCAAGCAGAAACATGGATTTTCACAACGTCCAATCATGATATAGAAAAGCGAAACGCATTAGAAGCAGAAGGAATAAAAGTTATTGTAACAAATGATTCTCAGGTGATAGATCCTTGTAACATTGTGACCTATTTAGGAGAACAAGGCATTTCATCTTTACTTTTAGAAGCAGGCGGCACCATCAACGCCGCTTTCTTGGAACGCAAGCTCATTGATAAGTTCATTATATACATGGCACCAAAAGTAATTGGCGGGAAAAATGCCCCTACTTTTTTGGAAGGTGCTGGAGTTGAAACAATGGAAGAAGCCATGGAGCTAACAGATATATCTGTTAAAAAAATAGGAGCAGATATAAAATGGATAGGCTATCCACTATATGAAACCAGACTCCTCAAGCCCTAA MTTDAFYMNIALNHALAMKGQTDPNPLVGCVIVHHSRIVGIGAHLKAGEAHAEIHALRMAGEQARGSTLYVTLEPCSHHGKTGPCAEAIVQAGVKKVIIATLDPNPMVCGNGASILKTAGIDVEIGVCGEEARKMNEVFNTFIEQKRPFITLKTGITMDGKVATHTAHSKWITSEEARKDVHQLRHEHVAILTGINTVLKDDPALTARIPNGRNPIRIVMDSTLKIPLHYQLIQDKQAETWIFTTSNHDIEKRNALEAEGIKVIVTNDSQVIDPCNIVTYLGEQGISSLLLEAGGTINAAFLERKLIDKFIIYMAPKVIGGKNAPTFLEGAGVETMEEAMELTDISVKKIGADIKWIGYPLYETRLLKP PGPT0008555_1865 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 AK015_03243 756 ribA_2 GTP cyclohydrolase-2 ATGGAACAACAAAAGAAGCTAACTCCTCATGTTTTTTCTATTTTGAAAGATAAAATTAAGCGGATAGATAATGGTGATGAAGCAATATATTTAGTTGGGCCAATTCAACTCCCTGTGAATTTACACGGAGAGACAAGCCTATTTCATTGGTATTGTTGGCTGAACGCTGAAGTAGTTACGAATGATTATCAATCTATTATTGAGAAATTATCCTCTGCAAATTTAGCTGATTCGCAACAATCCAGTGTTTTAGTTTATGGTGATTTTGCTAAAGCAGATAATGCGCTTGTGCGAATGCATTCGATATGCCATACTGGGGATATTTTCGGTAGCAAGCGATGCGATTGTGGATTTCAATTAAGGGAAGCGATGTTGCGTATAAAAGAAAATGGTTCAGGTGCTCTGTTTTATTTAGCCAATCATGAAGGCAGAGGTATTGGACTATTTAGTAAAGCAATGGCCTATATCTTGCAAGAAAATGGCTACGATACAGTCGAAGCTAATGAAAGCTTAGGCTTTGTAAATGATTCCAGAAATTACATGGACGCGCTTCGTGTGTTAAAACAGTTACGTCAAAAACCTGTAACCGTTATTACCAACAACCCTGAAAAACTGGACGCTTTTAACGAAGCGGATGTGCCTATACACGGTAGGACTCCACTATGGGGGGATATATCAGAGTACAATCGTAACTATTTACAAACAAAAGTCACAAAGTCTGGACATTATCAACCAGAAGGAGCTTTATTACGATGA MEQQKKLTPHVFSILKDKIKRIDNGDEAIYLVGPIQLPVNLHGETSLFHWYCWLNAEVVTNDYQSIIEKLSSANLADSQQSSVLVYGDFAKADNALVRMHSICHTGDIFGSKRCDCGFQLREAMLRIKENGSGALFYLANHEGRGIGLFSKAMAYILQENGYDTVEANESLGFVNDSRNYMDALRVLKQLRQKPVTVITNNPEKLDAFNEADVPIHGRTPLWGDISEYNRNYLQTKVTKSGHYQPEGALLR PGPT0007985_609 DIRECT EFFECT PLANT_IMMUNE_RESPONSE_STIMULATION INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497 NA NA AK015_03244 585 betI HTH-type transcriptional regulator BetI ATGGATGGGTTTCAAAGAAGGCGTGAAATGAAAAAAGTGGATATTTTACAAGCAGCTCTTCATCTGTTTATGGAATACGGTGTACAAAAAGTATCGATAAAAGAAATTGCCAGTAAAGCAGATGTTTCTCAAGTTACCATTTATAACTACTTTGTCAGCAAAGACAGTCTAATAGATGAAGTCATCAACTATTATATAGATCGTGAGCTAGCAAATTTTGAGCAGTTAATGAATAGCAATGATACATTCCCACAAAAAATAAAGGCGGTAATTTTTAATAAAAGCCAAACAGCAAAACAGATCAATGATAACTTTTACCAAACAATCATGGAGAAATATTCTAGAAAAGACAGTTCTATTCAAGAAGTATACAGTAAAAAAGCAGTGCCCATGATGATGGATTTTTTTGAAGAAGGGAAACGACAAGGCTATATTGATCAAAACATATCGAACGAAGCATTGTTTGTTTATTTACAAATCTTTCAAGAAGCTTTTCAACGTAAAGAAGTGTTCCAACAAATTTTACCTATAACAGAAGACATTACAAAACTTGTTTTTTACGGTATTGCCGGAAATAATGGGTAG MDGFQRRREMKKVDILQAALHLFMEYGVQKVSIKEIASKADVSQVTIYNYFVSKDSLIDEVINYYIDRELANFEQLMNSNDTFPQKIKAVIFNKSQTAKQINDNFYQTIMEKYSRKDSSIQEVYSKKAVPMMMDFFEEGKRQGYIDQNISNEALFVYLQIFQEAFQRKEVFQQILPITEDITKLVFYGIAGNNG NA NA NA NA NA AK015_03245 882 COG1131 Multidrug efflux system ATP-binding protein ATGACAGTATTACAAACGAAAGATTTAACGAAGCGTTTTGGAAAGTTCACTGCCTTAAATCAAGTCAATATAGACGTGAATGAAGGGGAGGTATATGGATTTATTGGACCTAATGGAGCAGGAAAATCGACTGCGATTCGTGTTTTGTTAGGGATTTTGAAAGCAACGAGTGGGGAAGCACGGATTTTTGGAATGGATGCTTGGAAAGATGCGGTGACAATTCATAAAAGGACGGCTTACGTGCCAGGTGATGTGCATCTTTGGCCAAATTTATCTGGTGGTGAAGTGATTGATTTATTTATTCAATTACGTGGTGGTGTTAAGAATAACCGTAAAGAAGAACTTATCCAACGTTTTGATTTAGATCCTAGCAAAAAATGTCGCACCTATTCGAAAGGGAATAGGCAAAAAGTTGCGTTAATAGCTGCTTTTTCCTCAGAAGCCGACTTGTATATATTGGATGAGCCAACATCTGGACTCGATCCATTAATGGAGCAGGTTTTTCAATCTTGTGTGATGGAAGCAAAAGCAGCAGGAAAAAGCGTCATATTATCTAGCCATATATTATCAGAAGTGGAAAAACTTTGTGATCACGTTGGAATTATTAGACAAGGGGAAATCATTGAATCAGGCTCTCTTCGTGAAATGCGACATTTAACGCGTACAAACTTACTAGTGGAAACGAAACAGCCGATTCTTGATTTGGAAAAACAAATTGGCGTCCATGAAATAGAAAAAGAAGGCGTTGAAGTAACATTCCAAGTTGATACAGAAAATTTAGATCAAATTATTCAATATGTGAGCACGTTTGGAATTACAAAACTAGAAAGCGCTCCGCCAACTTTGGAAGATTTATTCATGCGGCATTATGAAGGAAAATGA MTVLQTKDLTKRFGKFTALNQVNIDVNEGEVYGFIGPNGAGKSTAIRVLLGILKATSGEARIFGMDAWKDAVTIHKRTAYVPGDVHLWPNLSGGEVIDLFIQLRGGVKNNRKEELIQRFDLDPSKKCRTYSKGNRQKVALIAAFSSEADLYILDEPTSGLDPLMEQVFQSCVMEAKAAGKSVILSSHILSEVEKLCDHVGIIRQGEIIESGSLREMRHLTRTNLLVETKQPILDLEKQIGVHEIEKEGVEVTFQVDTENLDQIIQYVSTFGITKLESAPPTLEDLFMRHYEGK PGPT0006725_11247 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03246 1605 COG3559 Multidrug efflux system permease protein ATGAGTCACTTACTGTGGAAACAAACGGGGCGCTTATCACGCTTTCTTTTTAGGCAAAATCGTATTAGAATGCCTATTTGGATTCTTTCTATCGTTATGTTAACGTTAACGATTGCTGTATCGTTCACGGATTTATATGATAATAAGGCAGAAAGACAAGCAATTGCTGAAACGATGCATAATCCAGCGATGACGGCGATGGTAGGGAAAGGATACGGATTAGATGACTATACATTTGGGGCGATGATGGCTCATCAAATGCTATTATTTACAGCGATTATCGTTGCTGTTATGAGTATCTTGTTAGTAACCCGCCATACCCGTGCAGAAGAAGAGGATGGACGGATGGAGCTTATCCGATCACTTCCCACAGGGCGTTTAGCCAACTTGGTTGCCGTGCAAAACTTTGCCTTAGTAATAAATCTACTATTAGCTTTGATAGTAGGTATAGGGTTGTTTTCGCTTCGAATAGAGAGTATCGATTTGCAAGGTTCCTTATTATATGGAGCCTCACTCGGAGCAATTGGCTATTTCTTCGCTGCAATTACCGCTGTTTTTGCGCAGTTGTCTGAGAGCTCTAGAGGTGCAAATGGATTTGCTTTTTTACTTTTAGGTATGGCGTATATCGTTCGAGCAATTGGAGACGTCAGTAATGAGACGTTATCTTGGTTCTCGCCATTAGGCTGGATTTTAGGTGGAGAAGTTTTCGTCTCCAATTATTGGTGGCCAGTGCTGATTACCATTATGGCTTCGTTCTTCTTATGGTTACTCTCTCTTTATTTACATCATATTAGAGACATGGGTGCTGGCTTTCTACCTGCAATAGCTGGAAGAAGGCAGGCATCGATATGGTTGACTACACCTATTGGGTTGTTTGTCCGCATTCAACGCACAACAATGATCGCCTGGGCAATGGCTTTATTTGCCATAGGTGTGTCTTACGGTTCAGTACTTGGAGACTTAGAATCGTTTTTTGCTGATGTAGATATGATGCAACAAATGTTAAATCCGGTGGAAGGATATACGTTAATGGAGCAATTCATTGCTATGCTGATGAGCATTATGGCAATGATCAGCACGGTTCCCGTATTGCTTGCTATGTTGAAAATCATTAGTGAAGAAAAAAAGAACCGTACGGAACATTTCCTTAGCCGCGCTGTTTCTCGTCCGCGTTTAATCGGTAGTTCTCTAGCAATTGCGTTTATCGTAGCGTTTATTATGATCTCTCTTGCCGCAGTTGGCTTATGGAGTGCAGGGACTGCAGTTGTAGAAGATGGATTGGACTTTATAGTTGTGTATAAAGCTGCTATCGTCTATTTACCTGCTATATGGGTCATGCTTGGAATTACAGTGACGTTAATTGGAATATCAGTGAAGTTTTCAAGTTTTGTTTGGGGTTATTTGTTGTATTCGTTCATTGTTGTTTATTTAGGAAATCTCCTACAATTCCCTGAGTGGATGATGAAGCTATCTCCATTCGGACATATTCCTCAACTACCTATTGAAGATATGGATTGGGGAGTGACCGTAAGTTTAACCTTGATAGCAGTTGTTTTTATGTTCATCGGTTTTATAGGCTATCGAAAGCGTGATTTAGAAGGGTGA MSHLLWKQTGRLSRFLFRQNRIRMPIWILSIVMLTLTIAVSFTDLYDNKAERQAIAETMHNPAMTAMVGKGYGLDDYTFGAMMAHQMLLFTAIIVAVMSILLVTRHTRAEEEDGRMELIRSLPTGRLANLVAVQNFALVINLLLALIVGIGLFSLRIESIDLQGSLLYGASLGAIGYFFAAITAVFAQLSESSRGANGFAFLLLGMAYIVRAIGDVSNETLSWFSPLGWILGGEVFVSNYWWPVLITIMASFFLWLLSLYLHHIRDMGAGFLPAIAGRRQASIWLTTPIGLFVRIQRTTMIAWAMALFAIGVSYGSVLGDLESFFADVDMMQQMLNPVEGYTLMEQFIAMLMSIMAMISTVPVLLAMLKIISEEKKNRTEHFLSRAVSRPRLIGSSLAIAFIVAFIMISLAAVGLWSAGTAVVEDGLDFIVVYKAAIVYLPAIWVMLGITVTLIGISVKFSSFVWGYLLYSFIVVYLGNLLQFPEWMMKLSPFGHIPQLPIEDMDWGVTVSLTLIAVVFMFIGFIGYRKRDLEG NA NA NA NA NA AK015_03247 1752 bmrA COG1132 Multidrug resistance ABC transporter ATP-binding/permease protein BmrA ATGGAACATCATAAACGTCGTTTTACATCTTTTATCACTTTAATTCGTTCTACCAACATCCCAAAAGTCTCCCTTATTATGGGGCTTGTAGGGAGTATAATTACAACAATCGTTGGTTTAAGTATACCGTTGTTAACGAGAGAGCTAGTGGATGGTTTTTCTGTAGCTACCTTAAGTTGGACGCTCGTTGTTGTCATCGGGATTGTATTTATTTTGCAGGCCATTATTGATGGTGTTTCCACCTATCTATTAGCTGCAGTAGGGCAAAAAATCGTTGCCAGGCTTCGTGAACGCATGTGGTTAAAGCTTATTAAATTACCAGTGAGCTACTTTGATCGAACGAAAAGTGGGGAATCCGTTAGTCGTGTAGTCAATGACACTGGGATTGTGAAAGATCTTATTTCCCAACACTTTCCACAGTTTATCAGCGGGATTATTTCGATTATCGGCGCGGTTGCTATTTTATTAATTATGGATTGGAAAATGACGCTCATTATGCTTATCTCTGTACCTGTGACAATTATTTTTATGATACCTCTTGGGAGAAAAATGGCTTCCATTTCTCGAAGCCTGCAGGACGAAACAGCAAATTTTTCTGGAGATATTCAGCAAACATTAAGCGAAATACGACTGATGAAAGCTTCTACTGCAGAGCCATATGAGGCGAAAAAAGGTGTCCAAGGGATTGGCAAGCTGCTTAAACTTGGCTTGAAAGAGTCAAAAATTTTAGCTTTGATTGGGCCATTGATGTATTTTATCATTATGGCAGTAGTTGTCCTGATTATTGGTTATGGAGGAATTCGTGTAGCTAATGGAACCATGTCAACGGGTTCGTTAGTTGCCTTCCTACTTTATTTATTTCAAATCGTGATGCCGATTACGTCGTTTGCTATGTTCTTTACCCAATTGCAAAAAGCACAAGGGGCTACAGAGAGAATTATTTCGATTTTGGATTTACCTGAAGAAGCCGATCGAGAAGGCTTTGTTAAGGAAAAGGTGAGTGAACCGATTCATGTGCAACATGTTTCGTTTGCGTATGAAGGGAACGATACGGTGCTTGAAGATGTATCGTTTACTGCAAAGCCAGGGGAAATGGTTGCTTTTGCTGGTCCTAGTGGTGGTGGAAAAACAACTTTATTTGGTTTGTTAGAAAGGTTCTACCTTCCTACGTCAGGCGATATTTTGATTGGGGATCATTCCATACAAACGATCTCGCTCAAAGATTGGCGAAAGCAAATTGGTTATGTTTCTCAAGAAAGTGCTATGATGGCTGGAACGATTCGTGAAAATTTAACATACGGGCTAGAAGAAGTAGACGCTATTTCAGATGATCAGCTATGGGTGGTAGCTAAAATGGCGTACGCCGATGAATTTATTGCCGCATTTCCTGATCAATTGGATACGAAAGTAGGAGAAAGAGGTATTAAATTATCTGGCGGGCAACGACAACGTATAAATATTGCTCGCGCTTTTCTAAGAGATCCACAAATATTGATGATGGATGAGGCTACTGCGAGCTTAGATAGTCAATCGGAAAAAATTGTCCAACAGGCGTTAACAAAATTAATGCACGGAAGGACAACGTTTGTTATTGCGCATCGATTAGCGACAATTGTAAATGCAGATAAAATTATTTTTATAGAAAATGGAAAGATTACAGGTATTGGGAAGCATGAAGCGTTATTAAAGCGCCATGCTTTGTATCGAGAGTTTGCTGAGCAACAATTAACGAATGGCGAAAACAATAACTAG MEHHKRRFTSFITLIRSTNIPKVSLIMGLVGSIITTIVGLSIPLLTRELVDGFSVATLSWTLVVVIGIVFILQAIIDGVSTYLLAAVGQKIVARLRERMWLKLIKLPVSYFDRTKSGESVSRVVNDTGIVKDLISQHFPQFISGIISIIGAVAILLIMDWKMTLIMLISVPVTIIFMIPLGRKMASISRSLQDETANFSGDIQQTLSEIRLMKASTAEPYEAKKGVQGIGKLLKLGLKESKILALIGPLMYFIIMAVVVLIIGYGGIRVANGTMSTGSLVAFLLYLFQIVMPITSFAMFFTQLQKAQGATERIISILDLPEEADREGFVKEKVSEPIHVQHVSFAYEGNDTVLEDVSFTAKPGEMVAFAGPSGGGKTTLFGLLERFYLPTSGDILIGDHSIQTISLKDWRKQIGYVSQESAMMAGTIRENLTYGLEEVDAISDDQLWVVAKMAYADEFIAAFPDQLDTKVGERGIKLSGGQRQRINIARAFLRDPQILMMDEATASLDSQSEKIVQQALTKLMHGRTTFVIAHRLATIVNADKIIFIENGKITGIGKHEALLKRHALYREFAEQQLTNGENNN PGPT0028965_235 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 AK015_03248 171 hypothetical protein ATGCAAAGAATCTATGTTATTCGTGTAATAACCACGTTTGCGATTGCTACAAATGCTTTAATGGCGGTGTTCTTAATCGATAATCGCAATCTCATTGCTTGGGTAATAGCCCTTTCCACCACGCTTCTTCCGTTTGTTGGAAAGAAAATAGAAGTGCAATCATTGGAGTAG MQRIYVIRVITTFAIATNALMAVFLIDNRNLIAWVIALSTTLLPFVGKKIEVQSLE NA NA NA NA NA AK015_03249 1359 brnQ_3 COG1114 Branched-chain amino acid transport system 2 carrier protein ATGGATAAAAAACTATCTTTTTCTAGTTATACAGCAATAGGCGTTATGTTGTTTGCCTTGTTTTTTGGAGCAGGTAATTTAATTTTTCCCGCCCAACTTGGTCAACTGGCGGGAGGTAACATTTGGCAAGCAGTAGCTGGATTTCTGATTACAGGAGTTGGACTACCTCTATTAGGTATTTTAGCAATGAGTTTTTCAAATAGTGAAAGTCTACAGGATTTAGCTGGAAGAATTCATCCTGTTTACGGTGTTTTATTTACATCTGTATTATATTTAACAATTGGGCCTTTTTTTGCAGCACCACGTACAGCTACAGTTGCTTTTGATGTTGGTTTTTCTTCTTTTACGGCTGAAGAATTCTCACAAATCGGACTATTTATTTTTTCTTTTCTATTTTTTGTTATAACGATGCTATTTTCACTATATCCGGCAAAAATTGTCGATTATGTTGGTAAACTGTTAGCTCCAGGAATTGTTATATTACTACTTGTATTATTGACGTTTGTTTTTGTTAACCCGATGGGGCCAGCTGAAATGCCGCAAGAAGGTTATGTGAGTGGAGCGTTTGTTAAAGGATTTTTAGAAGGTTATAATACGATGGATGCACTGGCATCACTTGTATTTGGGATTATAGTGATTAAAGCTATCCGTTCCTTTGGAGTAACATCAAAAACAGAAATTATGCGCACCACAGCGAAGGCAGGAACTGTTGCAATTGCGTTACTTGCTACTATTTATGTCGGAATTGCTTATTTAGGAGCTACCAGTACGAGTGTCTATGGTATTTTTGACACAGGTGGCCCCGTTTTAAGTAGTGCAGCGACACATTATTTTGGGACAGCTGGCATGATTTTACTTGCGATCGTTATTACGTTAGCTTGTTTAACAACGAGTATTGGCTTAACAACTGCATGTTCGGAATATTTCCATTCTTTATATCCGAAGTTAAGTTACCGGAAGTTCGTATTACTGTTTACAATTGTTACTTTTACCATTGCGAACTTTGGATTGGCTAACATTATAAAATATTCAATACCCGTTTTAATGTTGATATACCCACTTGCCATTGTGTTAATGATATTAGCGTTTCTATCACCATTGTTTCACCATAAAAGAGCCGTTTATGTTTCCGTCACTTTAGTGACTTTTGGCATTAGTTTAGTTGATGGTTTGAAAACATTATGTGAGACGTTAGGTATCGCGTACTTTCCATGGTTAAAGCCAATTGTTTCTTTTTATGAATCGATGTTGCCTCTTTACAATCAAGGGCTTGGCTGGCTATTACCTGCTTTTATCGTATTGATTATATCTGGAACGGTTTTGAGATTAGTAAAGCCTTCTACGGTTCATGCTTCCTAA MDKKLSFSSYTAIGVMLFALFFGAGNLIFPAQLGQLAGGNIWQAVAGFLITGVGLPLLGILAMSFSNSESLQDLAGRIHPVYGVLFTSVLYLTIGPFFAAPRTATVAFDVGFSSFTAEEFSQIGLFIFSFLFFVITMLFSLYPAKIVDYVGKLLAPGIVILLLVLLTFVFVNPMGPAEMPQEGYVSGAFVKGFLEGYNTMDALASLVFGIIVIKAIRSFGVTSKTEIMRTTAKAGTVAIALLATIYVGIAYLGATSTSVYGIFDTGGPVLSSAATHYFGTAGMILLAIVITLACLTTSIGLTTACSEYFHSLYPKLSYRKFVLLFTIVTFTIANFGLANIIKYSIPVLMLIYPLAIVLMILAFLSPLFHHKRAVYVSVTLVTFGISLVDGLKTLCETLGIAYFPWLKPIVSFYESMLPLYNQGLGWLLPAFIVLIISGTVLRLVKPSTVHAS PGPT0014385_463 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 AK015_03250 657 hypothetical protein ATGCCTATACCTGTAAATCATTCGAAGCCTGTTCGGCAATCAGCAAAAGAAAGCGCATATAATCAAATACAGCAGTGGATTATTGATGGTACATTACAGCCTGGTGAAAAGCTGAATGATTCAGAATTAGCGCAAGCATTGGGGATTAGCAGAACACCTGTGAGAGAGTCGTTGCAACTATTGGAAACAGAAGGATTTGTTCAAATGTTTCCTGGAAAAGCAACACAAGTAACCGAAGTGGAAAAAGAATCTATGAAAGATTTGCTACCGCCTTTAGCTGCCTTGCAAGCTTTAGCTGCTGAATTAGCGGTAGATCATTTAACGACAGATGTCCTCGACTTGCTGGAAACAACGAACGACAGATTTGCAAAAGCCATTCATTCAGAAAATTACTATGCAGCATTAAAGATCGATGAAGAGTTTCATCAAATCATTGTTGATATAGCAAACAACCCTTATATCCATCGAATTATTGCACATCTGCAAGCGCATGTCAGACGATTATTTTTTCATAACTCCATTGTTTTAACAGAAAAATCGATCGAAGAACATGCGAAAATTATTGAACTAATGAATAACAGTAACAAAGAGGCATTATCACCAATTATGAAAGAAAATTGGTTACGAACAATAGATGAAATTGAATCATTACAATAA MPIPVNHSKPVRQSAKESAYNQIQQWIIDGTLQPGEKLNDSELAQALGISRTPVRESLQLLETEGFVQMFPGKATQVTEVEKESMKDLLPPLAALQALAAELAVDHLTTDVLDLLETTNDRFAKAIHSENYYAALKIDEEFHQIIVDIANNPYIHRIIAHLQAHVRRLFFHNSIVLTEKSIEEHAKIIELMNNSNKEALSPIMKENWLRTIDEIESLQ NA NA NA NA NA AK015_03251 744 hypothetical protein ATGGATGCTTACGAACAGTCTGTACAACGTGAACTCGCGCAGTGGCGAAAGAAGATGTATCAAAATCCTAATCTGTTTCATCAAGTATCTAAAAAAGCGCAAATGAAAATAAATAGTTGGATTCCTGCAAAGGCGCAACGTTTTATTACAGAAAGCATTAAAAATATGGTGAAAACTATGCTAGTAGGATCGCAACTTACGACTAAAAAAGCGCTTATTCCAGAAAAAAGTTTATACAAGCAGGATGCGCTCATAAAAGAAAAATTAGAAAGCTATCGCAAAACAGCTACGATTGAGGGGGCTGGAACAGGAGCAGGAGGCATATTTCTTGGTTTGGCAGACTTTCCACTCTTATTGTCTATTAAGGTGAAGTTTTTATTTGAAACGGCGGCTATCTATGGTTTTGATACAAAAGAATACGAAGAACGGTTATTTATGTTACATGTTTTTCAGCTTGCTTTTTCTCGCGATGAAATGCGAAAACAAACGATGTATACGATTGAAAATTGGGAGCAGGAAAAACATAAGCTAGTTGAAATGGATTGGGGAGTGTTTCAACAAGAATATCGCGATTATATCGACTTGGTAAAATTACTGCAAATGGTGCCAGGATTTGGTGCGATAGTCGGTGCTTATGCTAATTACAATTTACTGGATCAATTAGGAGACACGGCGATGAATGCATATCGATTACGTCTAATGACACTTCCGGGTGATGGGTCTTTCATTTCTAAACAAGAATAA MDAYEQSVQRELAQWRKKMYQNPNLFHQVSKKAQMKINSWIPAKAQRFITESIKNMVKTMLVGSQLTTKKALIPEKSLYKQDALIKEKLESYRKTATIEGAGTGAGGIFLGLADFPLLLSIKVKFLFETAAIYGFDTKEYEERLFMLHVFQLAFSRDEMRKQTMYTIENWEQEKHKLVEMDWGVFQQEYRDYIDLVKLLQMVPGFGAIVGAYANYNLLDQLGDTAMNAYRLRLMTLPGDGSFISKQE NA NA NA NA NA AK015_03252 1125 queE 7-carboxy-7-deazaguanine synthase GTGAAACAAATACAAGCGAAGAAACAAATGTCACCTTCTTATGATCCTTGGGAAGCATATTTAGATGTAGAACAGCATGGAAAGATGACGTTATCAAACATTGAATTTACTACAACAACGCTTTGTAATATGCGCTGTGCCCATTGCGCTGTTGGCTACACATTGCAAACGAAAGACCCAGAAGCATTGCCAATGGAATTATTGCAGCAAAGGCTTGATGAAATTCCCCATTTGCGAACATTAAGTATAACGGGTGGCGAGCCGATGATGTCCAAAAAATCGGTGCGCGAACATGTTGTGCCACTATTGCGCTATGCTCATCATCGTGGTGTGAAAACGCAAATGAATTCGAATTTGACGTTACCATATAGCAGATATGAAGCTATTATTCCGTATTTAGACGTTTTACATATTTCACATAACTGGGGCACTGCCGATGAGTTTGCCGAAACGGGATTTGCAAAAATGGAGCGAAAGCCTTCGTTAGAAAATCGGAAAAAATATTTTTCTAGAATGGTAGAAAATGCACAACGTTTATCCAAGGAAGGTGTCATGGTATCAGCCGAAACGATGTTAAATCGTCGTACGTATCCATATTTGGAGAGCATACACGATCATGTTCTAGAGATGGGTTGTGCAAGACATGAAATTCATCCGATGTATCCGGTTGATTTTGCAAGCAACTTAGAAACGTTGACTTTGGATGAAATTCGTACTGGAATAGAACGATTACTTAATCATCAAAACCAAGAAGTTTGGATGTTATTTGGCACATTGCCGTTTTATCCATGTAGCTCGTCACAGGCTGATTTAGAACTGCAACAACGCTTATTTACAGCAAAAAATGTTTCGGTAAGAAATGATCCAGATGGTCGTTCTCGCTTAAATGTGAATATATTTTCCGGGGACATCATTGTAACGGATTTTGGTGATGAACCGAAGCTCGGAAATGTACAAACGACTCGCTTACCGGAGGCTTATGAGCGCTGGTTGGCAACGGAAACGGCTTCATCTCTTAACTGCCATTGTCCTGCTGTAAAATGTCTTGGCCCCAACGTATTAGTAAAAAACACGTATTACAAAGACGTTGATTTTCAACAGCGGCAAGCAATGATTAAGCGATAA MKQIQAKKQMSPSYDPWEAYLDVEQHGKMTLSNIEFTTTTLCNMRCAHCAVGYTLQTKDPEALPMELLQQRLDEIPHLRTLSITGGEPMMSKKSVREHVVPLLRYAHHRGVKTQMNSNLTLPYSRYEAIIPYLDVLHISHNWGTADEFAETGFAKMERKPSLENRKKYFSRMVENAQRLSKEGVMVSAETMLNRRTYPYLESIHDHVLEMGCARHEIHPMYPVDFASNLETLTLDEIRTGIERLLNHQNQEVWMLFGTLPFYPCSSSQADLELQQRLFTAKNVSVRNDPDGRSRLNVNIFSGDIIVTDFGDEPKLGNVQTTRLPEAYERWLATETASSLNCHCPAVKCLGPNVLVKNTYYKDVDFQQRQAMIKR NA NA NA NA NA AK015_03253 501 idi Isopentenyl-diphosphate Delta-isomerase ATGGAAGTATGGGATCTTTATGATCGGAACCGAAACAAACTGAAGGAGATACATACGAGAGGGAAGCCAATACCTAAAGGGAAATATCATTTAGTTGTTCATGTTTGGATACAAAATGATCAAGGAGAATTGTTGCTTTCCAAACGGCATCCAGGCAAGTCATATGGAGGTTATTGGGAATGTACAGGTGGCTCTGTGATCGCTGGAGAAAATAGTTTGCAAGGTGCATGTAGGGAAGTAGCTGAAGAATTAGGTTTGCCTTTGCAAATGGAAACTGCGCAGTTACTTCAGCATGAGGTTAGAGAAAATTATCATCTTGACACGTGGTTGTTTTTTTCGAATATTGCCATCGAAGAACTTACCCTGCAACCGGAAGAAGTTATAGATGCGAAATGGGTGACGAAACAAACCTATCAACAAATGAGGGAACGAGGACAAATTGTTCCAACCATCCACGATTTTTACGCCTTAGTACCCTCCAAAAAACCTAGATATTGCTAA MEVWDLYDRNRNKLKEIHTRGKPIPKGKYHLVVHVWIQNDQGELLLSKRHPGKSYGGYWECTGGSVIAGENSLQGACREVAEELGLPLQMETAQLLQHEVRENYHLDTWLFFSNIAIEELTLQPEEVIDAKWVTKQTYQQMRERGQIVPTIHDFYALVPSKKPRYC NA NA NA NA NA AK015_03254 1098 hypothetical protein ATGTTATGGGATATTTTGCAAGCATATGAAAAAATCATTCATAGCAGTATATCGATTATCGTGTTACTAACTTTTTTCTTCTTACGCAAACGAGCTACTCGTTATTTATTTGCATTGTTATTGAAGATTAGTAATCATACATTGAACGGCATTTTTGTTCAGTTGCGCGCTTCTTTTGAAAGGCCTATACAAGGGCTTATTCTCATTATGGGCATATATATCGCTGTGATCTTATTTCCGTATGTTCATCATACAAACACTCTTTTTCTGCAAGTGATTCGTTCTGCAATTATTTTTATATTTGGCTGGGGATTATTTCATCTATCTTCTTCCTCCTCCTTGCTCTTTGCAAAGTTGAATGAAAAATTTCAATTTAATATCGACTCCATTTTAATCCCTTTTTTATCAAAGGCAGTAAGGTTAATTATTGTGGCTATCTGTTTTAGCATTATTGCCCAGGAATTTGGTTATGATATCAATGGATTTGTCGCAGGTCTGGGTATTGGTGGGTTAGCTTTCGCACTGGCTGCTAAAGATGCGCTTGCTAATTTCTTTGGTGGGATCATCATCATTACGGAAAAACCATTTACGATTGACGATTGGATTTTAACTCCAAGTGTAGAAGGGACGGTAGAAGATATTTCTTTTCGTAGTACAAAAATACGTACATTTGCTCAAGCACTCGTTACCGTCCCCAATGCAACGCTAGCCAATGAATCCATCACAAATTGGAGCAAAATGGAAAAGCGACAAATTACGTTTAATTTACGGGTGACTTATGATACACCAAGAGATAGAATGGAAAATGTGATTGCGCAAATTAGAAAAAAACTGTTAGCAAACGAAGCGATTCATAAAGAAACCATTTTTGTTCATTTTGATCAATATCAGGAAAATGGTTTAGATATATTCTTATACTTTTTCACGAATACGACGGATTGGGGAGCGTATTTGCAAGTTAGAGAAGAAGTGAATCTAATGATTTTAGATATTTTGGAAAAAGAACAAGTGACCATCGCGTTGCCTACACGAAAATTATTTGTCACAAATGAAGCGGATAACTTTTTGACGCATGTAAGGGAAGGGGAGGAAGGTTAG MLWDILQAYEKIIHSSISIIVLLTFFFLRKRATRYLFALLLKISNHTLNGIFVQLRASFERPIQGLILIMGIYIAVILFPYVHHTNTLFLQVIRSAIIFIFGWGLFHLSSSSSLLFAKLNEKFQFNIDSILIPFLSKAVRLIIVAICFSIIAQEFGYDINGFVAGLGIGGLAFALAAKDALANFFGGIIIITEKPFTIDDWILTPSVEGTVEDISFRSTKIRTFAQALVTVPNATLANESITNWSKMEKRQITFNLRVTYDTPRDRMENVIAQIRKKLLANEAIHKETIFVHFDQYQENGLDIFLYFFTNTTDWGAYLQVREEVNLMILDILEKEQVTIALPTRKLFVTNEADNFLTHVREGEEG NA NA NA NA NA AK015_03255 759 hypothetical protein TTGATTATTCGCAAGCAACAAAATAGCTTTATCTTCATAGAGCAAGATCAACATGCTCGCATATCTGAAAGTATGATTAGACATTGGAACAAAGCATATTTACCGCAATCTCCATACCACGATTCTGCCATTTATGCCATCCAACAACATGATGTTGGATGGAGACCATTTGATGAAGAACCATTTTGGAATGACCAATCGCAAGCACCTCACAATTTCACAGATTTTCCAACACCAGCTAAGACCGTGTTATATACTGCTGGAATCGAAAAAGTCGCTTCTGCAGATTTGTATGCAGGTTTGTTATGCAGCTTACACTATACGCGTTTTCTTGAAAAAGATACTTCTTACTATAGTAAACAATTTGTTAATCAAGAAAGAAGCAGACAACAACGAATAATAAATATCCTGAAACAGTTTGATAAAGAAGTATTAGCTATCCATCTTGGTTTATTGCAGCTTTGTGATAATCTTTCTTTATTTATTTGCCTCAATGAACCAGGAGAAAACACGCACCCTTTCTTTAAAAAAGGTATTCCCTTATCGGCTAAATTGAAAGGTTTTACAAACCAACTACTAGAAGCGACGTGGCAAGATAAACAGACAATTCAACTATCACAACTGCCATTTTCATCAGCAACAGCATTCACTTACCCGTATAAGCAGGTAACAAAAACGTCCATTTTAAAGCAAGGATTGATTCCAGCATATCAACAAGCACCTATAGAAGAAGTAGCTATTACTTTTGTGCAAGGATAA MIIRKQQNSFIFIEQDQHARISESMIRHWNKAYLPQSPYHDSAIYAIQQHDVGWRPFDEEPFWNDQSQAPHNFTDFPTPAKTVLYTAGIEKVASADLYAGLLCSLHYTRFLEKDTSYYSKQFVNQERSRQQRIINILKQFDKEVLAIHLGLLQLCDNLSLFICLNEPGENTHPFFKKGIPLSAKLKGFTNQLLEATWQDKQTIQLSQLPFSSATAFTYPYKQVTKTSILKQGLIPAYQQAPIEEVAITFVQG NA NA NA NA NA AK015_03256 228 hypothetical protein ATGGAAGAACGAGTAAAAGAGTTGGAAGAAAAAGTGTCTAGTTTAGAATCTTACGTTAAAACCTTAGAGAACCGAATTGATGGAACAGCTATTAATTTTAACGGGGAAAAGATTATAAAAGAAATTAATAGTTGTCAAGATAGAATTAAAGGAAATAGAATTGAGGTTTCAAAAGAAACTTTAATTGAAGATGGAGTTATCAAAAGAAGTCATTTAGCAAATCGGTAA MEERVKELEEKVSSLESYVKTLENRIDGTAINFNGEKIIKEINSCQDRIKGNRIEVSKETLIEDGVIKRSHLANR NA NA NA NA NA AK015_03257 696 hypothetical protein ATGATTTTTAATGGTGTTGAAAAAAATTATATAAGAGTACGGAGGGAACTATTTAGACCACCGACACCTCCAATTGAATACCAAACCATTGAAAAACCTAGTGGCGGTAGCAAGGTTAAAAGGAAAAGATTTACCGATATTACTCTCCTTGTTCCTATACGCATTAGTAGTAATAAAAGGATTGAGGAACTTAAAGAAGATATGTCTAGATGGCTTGTGCATGATGAACCTAAACAGCTCGTATTTAAAGATGCACCGAACAGGTACTATTTAGCATATTATCAAGAAATGGAATTAGACCAGTACCCATATTATGCAAAAGGAACAATTAACTTCTATTTACCAGAAGGGTATAGGTTTGGTGAAAAAGTAGACATAAACATAAATACACAACCAACACCAGCAACAATAACCGGCCAAGAAAAAACACCGTGGAAGTGTAAAACGGTGTTTGAAGTACCACAGGAAAAGTTTACGTTAGGAGCTAGCAATGGCTTGTACATCTTGCTTAATTACAACTTTATTGCTGGTGATGTGCTAGAAATAGATTATACGACTCGCAGCGCTACTTTAAATGGCAAAAACATAGATACTGCAATAAGCATTAAATCTGTTTTTAAAGAGTTGGAACCTGGTCAGATGGAGTTTGTTGCTAGTCATAAGAGTACGGTTAGTTATACAGAGAGGTATTATTAG MIFNGVEKNYIRVRRELFRPPTPPIEYQTIEKPSGGSKVKRKRFTDITLLVPIRISSNKRIEELKEDMSRWLVHDEPKQLVFKDAPNRYYLAYYQEMELDQYPYYAKGTINFYLPEGYRFGEKVDININTQPTPATITGQEKTPWKCKTVFEVPQEKFTLGASNGLYILLNYNFIAGDVLEIDYTTRSATLNGKNIDTAISIKSVFKELEPGQMEFVASHKSTVSYTERYY NA NA NA NA NA AK015_03258 3591 smc_6 Chromosome partition protein Smc TTGTCGGATGGGTCTATAAAAATACAAATTGAAGTCGATGGAAAACAGGTCAAACTCGCTTCTAGAGAATTAGACAAACTAGAAGAAGCTGGACTTGATTCAGGAAAAGGTATTAAAGCAGCTGAAAGCAGTTTAGATAGCCTTGGAGCAAGTAGTTCAAAAGCCGGTTCTAGCGTAAAGGGTGCTACAGATAGTTTGGACGACATGTCAGACGGAGCTAAAAATGCTGCAGATGGCACGGATAAGGCATCCATTGGCATTAAGGAATTAGCTACGTCGTTAGGCCTTGTTGCAATTGGTGCTGCGGCATTTCAAACGTTAAGCGCATCTATGGATGATGCTATTTCCCGTTTTGACACACTTAATACCTTTCCTAAAGTACTTCAAGCTTTAGGTGTGTCTGCTGAGGATTCAGAAAAAGCTATGAACAAATTGTCAGATGGAATAGATGGGCTACCAACAAAACTTGATGAAATATCATCGACCGCACAACGTATGTACACGTCATTTAATGATATGGATAAAGCAACAGACACAGCGTTAGCACTAAATAATGCATTGCTAGGATCAGGATCAAGCGCCGAAGAAGCTAAGCGTGGTACAGATCAGTATCTTAAAGCACTTCAAAAGGGCAAGTTTGAATTAGACGACTGGCATACTTTATCAGAAACAATGGATGTTGGTTTGTTGAAAATCGCCGAATCATTTGGATATACAGGTAGAAGTGCTAAAAATGACCTTTACAAAGCTTTGCAAGATGGAACAATAACAATGGATCAATTTAATGATAAATTGATTGAAGTTGGTACCGGAACAGGCGTTATGGCTAAATTAGCTAAAGAAAACAGTTTAGGGATAGCTACATCTTTAAGTAACTTACGAAATGCGGCAGCTAAAGGTATAGCTGACATCATAAGTTCTTTTGACAAATTATCAAAAGAGGTCACCGGAAAAGACATTGCTCAAAACATTGATAGCCTAAAAGGGATTGTCAATTCGTCTTTTAGAGTAATTGGAGCAGTCATAGAGAGTACCACGCCACTATTTAAAGTTTTTGGCTCAGCTGTAGGAGCAATAATACCTGTAGTCAAGGCGTTATCTCCAGCTATAATGGGAGCAGTAACAGCTTATGCGGGTCTTATGGTAGTTACTAAAGTAAGTGCCGCAATAAAAGCGTCTAATGCAGTATTGGCTACGGCACAATCGGCACAAAAAGCATTAACGTTAGTTACTAAAGCACAAATGACCGCTCAAGTTGCTTCAACTACAGCTAAAAAAGCGGATATTGTTGCTACGGCCGCGCAAACGGGAGCAATAAAATTAAGCACCTTGGTAATTGGTGTAATGACAGGGAAAATAAAGTTAGCTACAGCTGCCACTATCGCTCTTGCTGCAGCTAAAAAAATACTTATGGGTCCTATAGGTTGGGTTACAGCAGGAATTGGTGCATTAGTCGGTGCGGCAGTAGGGATAGTAAAGTGGTTTAATAAATCTAGCGAAGAAGCCAAAAAACTTAATGGCGAGACCGAAAAACTAGGTGAATCAACAGAAGAACTAAACGATACATTTGATAGTTCTTCAGAAGCTTATAAAAAGAATCAAGAGAATATTAAAGCAACTGCTGCCGCAAATGAACATTTAGCTGAAAAAGTGCAGGAACTGGCAGATAAAGAAAACAAATCTGCAGGAGATAAAGCTTTGCTCAAGTCTTACATTGATGAATTAAATGGATCTGTTGAAGGATTAAATCTTGCTTACAACGAAGAAGCTAACGCATTAAGTATGTCATCGGAAAAGCTGCAGGCTCGGATCGGTTTAATGAAAGAGCAAGAGGGGGCGCAAGAAGCTCAAAGTAGATTAACTGAAATCCTCAAAGAGCAAGCAGAGGTTGAGTCTAAGCTCGCCGAAACAAATGAACTTAGGGAAAAATGGAATCAAAAACTAGAAGAAGGTAGCGTTAAAGGAAGAGAGCACAAAAAAGCTCTTGAAGAACTAGGAGAACAAGAAAACTCTTTAAGAGAGACTAAAAAACAGTTAACAGAACAACAAAAACTCACAGAGGAACAGCTAACGACATCAATGGCTAATATAACAGAGGCTACTGAAAACGGCGTGTATAATCAGGTACTCAAGTTTGAAGAACTGTCCGAATCACAACAAAAGACTGTCGAGTCTATGCAGTCCACTTGGGAAACTTATAAAGAACAAGCGACGAATATGTTTGATACGTTAAGCGAGAAGTCTGAACTGTCCGTTAGTGAAATGACTAATAATCTTGAGAAAAACCAAGAGGTTATAAGTAATTGGGCAGATAATATTGCTACCCTGGCTGAACGCGGTGTGGATGAAGGTTTATTGAATACTTTAAGAGAAGCGGGTCCAGAATCAGCGGGACATGTAAATGCTTTGGTAAATGCATCAGATGAGGAACTGGCAACTTTAAGCGAAGCATTTAAAAAAGGTGGAAATACAGCAACCGACGCTCTTAGTAAATCTTTAGGCATTGAAGAATCTGGCGTTATGGAAGCTGTTGGTCATTTGGTAACAGGTGCAAAACAGTCATTAACAGAACAAATAGAGTCCGCTAATTTTAAATCCGTGGGTAACGCCATACCCGATGGGATGGCGAGCGGTATTAGTAACGGGTCGAAAAATGCTAAAAAAGCGTCTGAAAAAATGGCTAACGACACAAAGAACGCATCAGAAGAAGCATTAGGTATTAACAGCCCATCTAGAGTTTTTAAAGAAATCGGAGCAGGCGTTACAGAAGGGCTTACTTTAGGTATAAACCAAGGCACATCTAAGGTTATTCAGGCTGTGAAAAAAATGTTTCAATCGGTTATAAAAAGTTCCGATTCAAGCTTTAAAGTAATTACAAAAGGCTATGACAATTCCATTAAGCGAATTGATAAATCGTTAAATAAACTACCGAAAATTGCTCAAAAGTCGATGTCAAATATGCTTAATAGACTAAAGTCAGGTACACCGAAGCAAATTAGTACCATGAAAAACTTGTCTAAATCATTAACTAATCCATTTAGAAATACTATGTCTCAGTTTAATTCTATTGGTAGAAACGCAATGGCTGGTTTGAATCAAGGTTTGTGGTCTGGCCGAGGACGAGTGATGTCTACAGCTAGAAGTATTGCTAATAGCGTTGCTAGTACAATGAAAAGCGCATTAAGAATACATTCTCCATCTAGAGTAATGAAGGATGATGTTGGTAGATGGATACCTGAAGGAATTGCCTTGGGGATAAAAGATAATGCTAAATCTGTTTATGATGAAATTAATAAACTATCCAGCACAATGGTTATGTCATCGACTCCAGAAGTAGCTTTGGGAACAAATAGAATGGCACATGCGGGTGGAAGTAGCCAAGTAGTTGACGCATTAAGGAATTTTAAATTACCTACTACTAAAGTTAAAAATCAAGGTAACCATGAAAAACAACCTGCTGTAATTAATGTTCATGTAGGTACTAAGCAAGTAGCGCGAGAAATAGTTGACGATATAAGTCAACTGCAAAATCGATCATCAAACAGAAAGATTAGAAGGCCGAAGCTTGGAGGCGGAACTTATGATTTTTAA MSDGSIKIQIEVDGKQVKLASRELDKLEEAGLDSGKGIKAAESSLDSLGASSSKAGSSVKGATDSLDDMSDGAKNAADGTDKASIGIKELATSLGLVAIGAAAFQTLSASMDDAISRFDTLNTFPKVLQALGVSAEDSEKAMNKLSDGIDGLPTKLDEISSTAQRMYTSFNDMDKATDTALALNNALLGSGSSAEEAKRGTDQYLKALQKGKFELDDWHTLSETMDVGLLKIAESFGYTGRSAKNDLYKALQDGTITMDQFNDKLIEVGTGTGVMAKLAKENSLGIATSLSNLRNAAAKGIADIISSFDKLSKEVTGKDIAQNIDSLKGIVNSSFRVIGAVIESTTPLFKVFGSAVGAIIPVVKALSPAIMGAVTAYAGLMVVTKVSAAIKASNAVLATAQSAQKALTLVTKAQMTAQVASTTAKKADIVATAAQTGAIKLSTLVIGVMTGKIKLATAATIALAAAKKILMGPIGWVTAGIGALVGAAVGIVKWFNKSSEEAKKLNGETEKLGESTEELNDTFDSSSEAYKKNQENIKATAAANEHLAEKVQELADKENKSAGDKALLKSYIDELNGSVEGLNLAYNEEANALSMSSEKLQARIGLMKEQEGAQEAQSRLTEILKEQAEVESKLAETNELREKWNQKLEEGSVKGREHKKALEELGEQENSLRETKKQLTEQQKLTEEQLTTSMANITEATENGVYNQVLKFEELSESQQKTVESMQSTWETYKEQATNMFDTLSEKSELSVSEMTNNLEKNQEVISNWADNIATLAERGVDEGLLNTLREAGPESAGHVNALVNASDEELATLSEAFKKGGNTATDALSKSLGIEESGVMEAVGHLVTGAKQSLTEQIESANFKSVGNAIPDGMASGISNGSKNAKKASEKMANDTKNASEEALGINSPSRVFKEIGAGVTEGLTLGINQGTSKVIQAVKKMFQSVIKSSDSSFKVITKGYDNSIKRIDKSLNKLPKIAQKSMSNMLNRLKSGTPKQISTMKNLSKSLTNPFRNTMSQFNSIGRNAMAGLNQGLWSGRGRVMSTARSIANSVASTMKSALRIHSPSRVMKDDVGRWIPEGIALGIKDNAKSVYDEINKLSSTMVMSSTPEVALGTNRMAHAGGSSQVVDALRNFKLPTTKVKNQGNHEKQPAVINVHVGTKQVAREIVDDISQLQNRSSNRKIRRPKLGGGTYDF NA NA NA NA NA AK015_03259 573 hypothetical protein ATGAGGTTGAACGATCCTCTAGTCACTAGCTTTGAATATGATGGTAAAGAATATGCCATTGATTTAGCCTTTGACAATGTATTAGATGTATTTGATGTGCTTAATGATGAATTATTAAGAGACTACGAGAAAGCTGAAATATGCCTTATTTTGTTGTTTGGAGAACAATCTTTTGATGAAGCAATGACAATTGATTTGTGGAATCACGTCTATGAATCTTTTATCTATATCGAAAATGAACAACCGATTGAATATGATTTGAAAGGTAATCCTTTGCCAGTGCAACATGAGGAACAAAAACAACTGATTGATTTAGATAAAGATGCGGAATATATTTTTGCCTCTTTTCAACAGGCATACGGAATGAATCTATACCAAGAACAAGGTAGTTTACATTGGCATGAATTTCAATCGCTATTGCAAGGACTGCCAGATGACACAATTATGAAGCGCATTATACAAATACGCCAATGGGAACCCTCGAAAGGAGAATCAACCGAATATAAGCAATCCATGAGGAAACTCCAAAAAATATATGCACTTGATGACGATGATCAGGAGGAGGTGGAGTAG MRLNDPLVTSFEYDGKEYAIDLAFDNVLDVFDVLNDELLRDYEKAEICLILLFGEQSFDEAMTIDLWNHVYESFIYIENEQPIEYDLKGNPLPVQHEEQKQLIDLDKDAEYIFASFQQAYGMNLYQEQGSLHWHEFQSLLQGLPDDTIMKRIIQIRQWEPSKGESTEYKQSMRKLQKIYALDDDDQEEVE NA NA NA NA NA AK015_03260 450 hypothetical protein ATGTCGGAAATAAATATAGGTATTGAACGGACAGGTTTTCCAGTGAAAATAGGCACCATTGAACTATGGTTTGACAGTTCCTTGGAAAACTTAAGACGCTTTTTCAATGTAAATGAACTAGCAAATGAAAAGTTAAAAGAAGCGCAAGAAAAGGCACAGCATATTCATTTTCCTGATAATGTTGAAATCGAAAGCTTAGATGTAAAAACAGTTGATGCTGCTCTTGATGTAAACAAAGAGTTTATTGCTGCCCAATATGACATTATTTTTGGTGAGGGATCCTTTAAAAAAATCTACAAAAAACACCCTGATATCTTAGCTCTAGAGCAAGCTTTAGAAGCTGTCGGGATAGCTATAGCTAAACGGATTGAAGAACAAGAGGAAGAACGTTCTGGAAAAGTAGAAGCTAAGAAAAATGAGTACTTAAATAAAAAGTCTAGCAAGAAGTAG MSEINIGIERTGFPVKIGTIELWFDSSLENLRRFFNVNELANEKLKEAQEKAQHIHFPDNVEIESLDVKTVDAALDVNKEFIAAQYDIIFGEGSFKKIYKKHPDILALEQALEAVGIAIAKRIEEQEEERSGKVEAKKNEYLNKKSSKK NA NA NA NA NA AK015_03261 465 hypothetical protein ATGGCAAGAAGAAAGAACGCTTTGCGTGGGCATTTTGTACAAGAATATATTCCTGATCAAGAACCAACGGAAGATGGCTGGTTAGAACTAGCAAACTATATATCAACTATTGGTGATGATACACAGGAAGAAACAGAAGATATGGCTTTTTACGATGGTGATGGAACTCTAGAATCAGATATTATATCTGTAGCAGGAGCATACACGCCCGAAGGATACTTTAACCCAGATGACCCTGCTCAGGCATTAATTGCAAGTTTAAAATACAAAACTGGTGATGGCCGTAAAATTTGGCATAAAGTTGTTAGGTCTGATGGCAAAAAAGAATGGGTTGGTAGAGCGACGGTATCGGCAATTGTAGCAGGCGCTGGCGACGCTAGTGCTTACGAAGCGTTTAGCTGTAACATTAGATTTGATACGCTACCAAAGGAGACTGATCTAACAACTCCACCGTCGGGGGAGTAA MARRKNALRGHFVQEYIPDQEPTEDGWLELANYISTIGDDTQEETEDMAFYDGDGTLESDIISVAGAYTPEGYFNPDDPAQALIASLKYKTGDGRKIWHKVVRSDGKKEWVGRATVSAIVAGAGDASAYEAFSCNIRFDTLPKETDLTTPPSGE NA NA NA NA NA AK015_03262 396 hypothetical protein GTGGACTTTATGGAACGATTAAGCGACAGAATAAATAGCATACCTAAGCTTCCTGTTACCTGCAAATTGGGGTATTTAGGTGCAGAAGAATCACTTGCTTTATATCCTTTACCTGGATCCCAAGTAGTGACAGAATACATGGATGGCACAACTGACCAGCAATTAAATTATGAAATTGCAATGAAATCGAAATTGCAAAGTAAAATTCATAATACACTTTGGCTAGTTCAAAACGAACTGGGAAATCTAGTAGTCTTGGAAAGTGTTGATGATAGTTTTGAGTTTGAAGAGTTAATCATAACGAATAAGCCTTTCATCAATAACGCTGATGAACAAGGTTGGTACGTCTTTTTATTGAATATACAAGCAAAAATTACAGTATTTAGGGAGGAATAA MDFMERLSDRINSIPKLPVTCKLGYLGAEESLALYPLPGSQVVTEYMDGTTDQQLNYEIAMKSKLQSKIHNTLWLVQNELGNLVVLESVDDSFEFEELIITNKPFINNADEQGWYVFLLNIQAKITVFREE NA NA NA NA NA AK015_03263 327 hypothetical protein ATGGCGCGAGTTGACATTAATTTAAAAGGTGCGCAACATAAATTAAAATCACAGGTAATTAAAAAAGGCAGAAGATCACTAGCGAACCAAGCTTTATCCGACATGAACCAATTTGTACCAATGGATGAAGGAGTTTTAAGACAAACCGCAACTATAGACATTGATGGCACAGCAATTAATTACGACACGCCTTATGCTGCCAGGCTATTTTATATGCCTATGTATAATTACACTACACCCGGAACAGGACCAAGATGGGATATGAAAGCGAAAAGGATATTTATGAGTGATTGGATTAATGCATTTATGAAGGGAGCTGATTGGTAG MARVDINLKGAQHKLKSQVIKKGRRSLANQALSDMNQFVPMDEGVLRQTATIDIDGTAINYDTPYAARLFYMPMYNYTTPGTGPRWDMKAKRIFMSDWINAFMKGADW NA NA NA NA NA AK015_03264 336 hypothetical protein ATGCCGAAACCACCAAAAGACTTTTGTATTGATTCATTTGAATACAAAGAATATCTGGGTGAAAATAATTGGTCAGAACCTATATATGCTGAACCTGTTTTAATCAAGCATTGCAGGATAGACAGGGGAGCAGAATATACTTCAACAATAACAGGTAAGCAACTGCTATATAATGCGGTTGTTTTTTGTTATGAAGGCATAACCGATCCATTACCTGCATTTAAAGCACAGTCGGTATTGATGTTTGATGATCAAGACCACGTTGTAACCAAGGTGATTCCAATTTATGAAGCTTATTCTAAAACCATCTATTCGTATGAGTTAGAGGTGGTCTGA MPKPPKDFCIDSFEYKEYLGENNWSEPIYAEPVLIKHCRIDRGAEYTSTITGKQLLYNAVVFCYEGITDPLPAFKAQSVLMFDDQDHVVTKVIPIYEAYSKTIYSYELEVV NA NA NA NA NA AK015_03265 399 hypothetical protein ATGCCGTATTTAACTTATGGCGAATTTAAAGATTTAAATAGCGCAGATATTGACGAAACAACCTTTGACAAGCTACTGCCGAAAGCATCAGCAATTTTGGATAACATAACCAACCATTTTTACGCTAGATGCGATATAGATATAGACAACCCTTGGCGAGTAAACAAGTTTAAACAAGCATTATGCGCTCAAATAGAATATTTCAATGAATTAGGTGCAACTACATTTGAATCTATTAATAACGCACCACAGACGTTTTCTGCTGGTAGGACGAGTGTTTCTAATGCCAGCAGGTATAATCCTAATGGAGTCAATGAAAGTAAATCTCTGGTGGCGGAGGATGTGTTTATTTACCTTGAAGGAACGGGTTTGCTCTTTTCTGGGGTGAGTGTATGGTAA MPYLTYGEFKDLNSADIDETTFDKLLPKASAILDNITNHFYARCDIDIDNPWRVNKFKQALCAQIEYFNELGATTFESINNAPQTFSAGRTSVSNASRYNPNGVNESKSLVAEDVFIYLEGTGLLFSGVSVW NA NA NA NA NA AK015_03266 498 hypothetical protein ATGTTTAAAATCTACAAAGGTAATGATGTGGTCGTAGAGGGTGAAAGCCCTCTTAGAATCACAAGAATTGGCGCTAATCAAAGTGTTAAGGCAGGAGACTATAAAGCTGTTAGAGTCGAAGGAGACAGAGAAAGCGAGAAAGTAGACATTCCTGCATTTAAAACCCTGCCAATTGATGTAACGGGAGTAAAGCTATCTCCTAAAACTTCCAATGCAGAGGCAGGAACAACTGGAAGCAGACAATTAACAGCTACTTTATCACCTTCTAATGCAACTAATAAGAGTGTATCTTATGCGATTGCGCCATCTACAACTGGCTTATCGGTTAGCGACAGTGGTTTAATTAGTTGGTCTGCAGATGTGCCAGCAAGAGAATACACTACAACGGTTACTACAACTGACGGCTCGTTTACTGATACGCATGTTTTAACGTTAACGGAACCAGAACTTGAAGGACCAAATCCAGAGGAGCCAAGCGATCCAGAAGGCGGTGCTTAA MFKIYKGNDVVVEGESPLRITRIGANQSVKAGDYKAVRVEGDRESEKVDIPAFKTLPIDVTGVKLSPKTSNAEAGTTGSRQLTATLSPSNATNKSVSYAIAPSTTGLSVSDSGLISWSADVPAREYTTTVTTTDGSFTDTHVLTLTEPELEGPNPEEPSDPEGGA NA NA NA NA NA AK015_03267 939 hypothetical protein ATGACAGTAAAGCAAAAGCAACAACTATTACAATTAAACCTACAGTACTTTGCTGCGGGAAATAACAACAATCAAGCAGTGCGAAGTTATCAAAAACAATTTAAAGAACTATTGCAAGCTGTTTACCAAAAGCGAGCTTATTTTTCAGAGTTTTTCGGTGGCGGGTTGGAAGCATTAGACGGAGTTACTCATAACAAAACAGCTTTCTCCATCAAAACAAGTGATATTCCTGTTGTAATTGGAACGGAGTATAACAAAGACGAAAATGTAGGTTTTGGAACAGGAACAGGTAAATCATCACGTTTTGGCGATCGTCAAGAAATTATCTACACAGATAAAGATGTGCCTTACACTTGGGAGTGGGTATTCCATGAAGGTATTGATCGTCACACAGTAAATAATGATTTTGCTGCAACTATTGCCGATCGTTCAGACTTGCAAGCGCAAGCTAAAGTCCAAATGTTTGATAATAAAGGCGGTCTATTTATTTCCGAAGTTGCCGACCAAGTGTTTGAATTATCGGAGATCGCAAATGATTCAGTGTTAAAACTGTTTAATCAATTAAACGAAGCTTATACAAACATGGAGGCTATTGGTACAAAAATGGCATGGGTAAAACCAGCTTTATACAATGCAATCGTCGACCATCCAATTACTACTACTGCCAAGCATTCAGGGGCTAATGTTGATACGAACAACATTTTGCAATTCAAAGATTTTCTTATTAAAAAAGTCCCTGAAACCAAATTCCAAACTGGTGAACTTGCTTATACGTCGATTGCTGGTGTTGGTAAGCAATTTACTGGTATCAATACAACACGGACTATTGAGTCTGAGGACTTTGACGGAGTAGCTTTTCAAGGTGCTGGTAAAGCAGGAGAGTTTATTTTGCCTGCCAACAAAAAAGCTGTTATCAAAGTTGTTCAGTTGGGGGAGTAA MTVKQKQQLLQLNLQYFAAGNNNNQAVRSYQKQFKELLQAVYQKRAYFSEFFGGGLEALDGVTHNKTAFSIKTSDIPVVIGTEYNKDENVGFGTGTGKSSRFGDRQEIIYTDKDVPYTWEWVFHEGIDRHTVNNDFAATIADRSDLQAQAKVQMFDNKGGLFISEVADQVFELSEIANDSVLKLFNQLNEAYTNMEAIGTKMAWVKPALYNAIVDHPITTTAKHSGANVDTNNILQFKDFLIKKVPETKFQTGELAYTSIAGVGKQFTGINTTRTIESEDFDGVAFQGAGKAGEFILPANKKAVIKVVQLGE NA NA NA NA NA AK015_03268 567 hypothetical protein ATGAATAGAGAAGAATTAAAAGAATTAGGTTTGTCAGATGAACTGATTGATAAAGTAATGACCAGCCATGGCAAAGTAGTAAACTCGATCAAAGAAAAGGCCGAAAAAGCAGATACTCTTGAAAGCCAAATTGAAGACTATAAAACGCAATTAGCAGATCGTGATACTCAACTAGAGGAACTTGGAAAAAAAGCTGAAGGTAATGAAGAACTAACTGCCCAAATTGAAGAATTAAAGCAACAGAATGAAACAACAAAGACGGAATATGAGCAGAAGCTTGAACAACAGGCGTTTGATCACAAGTTAGAAAACACTTTATCTGGCGCGAAAGTTAAAAACACCAAGGCTGTTAAGGCTCTATTAGATATGGATACCATTAAACTTGATGGCGATATTCTTAAAGGTCTTGACGATCAATTGAATAATTTAAAAGAGAACGAGCCATATCTATTTAAATCAGAAGAAAATCCGCCCTCACCAACGATTGTCACACCAGGTAATCCAAACGGCGGAACTAATACGGGAAATGATGATCCGTTTGCTGCAAAACTAGCAAAATATAATTAA MNREELKELGLSDELIDKVMTSHGKVVNSIKEKAEKADTLESQIEDYKTQLADRDTQLEELGKKAEGNEELTAQIEELKQQNETTKTEYEQKLEQQAFDHKLENTLSGAKVKNTKAVKALLDMDTIKLDGDILKGLDDQLNNLKENEPYLFKSEENPPSPTIVTPGNPNGGTNTGNDDPFAAKLAKYN NA NA NA NA NA AK015_03269 207 hypothetical protein ATGAACAACCAAATCGAAAATAACTTTAGTTATCATACACCAAAGGAAGGGCAGGTTGAGAAATATAATGCAATAAGAGATAAAGCTAAGGAACTAGCTTATTTGCTTGAAGAAGTTTGTCCTAATAGTCGTGAGAAGTCAGTTGCATTAACTAATCTGGAAACATCAGTTATGTGGGCGAACGCCTCTATTGCTAGAAATGAATAA MNNQIENNFSYHTPKEGQVEKYNAIRDKAKELAYLLEEVCPNSREKSVALTNLETSVMWANASIARNE NA NA NA NA NA AK015_03270 177 hypothetical protein TTGTCTAATAAAATCATTAACATTGTAAATCCAACAGGTAAGTTAGTAGCTTCTATATCATCTGATGATGTTATTTTGAAAGATGGCTATAAGGCTATGGAATCTTACGGGAATTCAGTTTGTCTAAAAGATGATGATGGAGAACTTGAGGTAATTAGACCTGAAGTTAGTATTTAA MSNKIINIVNPTGKLVASISSDDVILKDGYKAMESYGNSVCLKDDDGELEVIRPEVSI NA NA NA NA NA AK015_03271 1158 hypothetical protein ATGATAACACCATATCAAATAGATTTATGGTCTAATAACATGGCTGATTTATATAACAGTCTTGAAGGTGAAATAATTAGGGTTATTATAAAGCGGCTGAATAGTGGTTCTAAAGATATTTCTGAGTGGCAAGGACAAAAACTGTACGAATTGCGGTTATTTAATAATGAGGTGGTCAAGCTTTTGTCTAAGGCATCTGGTGTTGCTGAATCAGAGATTAAGAGAATGTTTGAAGATACAGGTGTTGGCGTTATAAAAGATATAGATAGGTCAATGCCTTATCCAACAAAGCCTATGCCCAATAATTTAGATATGGTTATGCAGGCTTATCATGATCAAGTTTGGGATGAGATTGATAATTACGTTAATCAAACACTCGTTACCACTAATTATGGTATTGGTACAGCTCAACTAGCCTATCAAAATGTATTGAATGAAACATCTGCAATGTTTAATACTGGTTTATATACGTTTGAACAATCGTTAGAGCGAGCTATTACAAATTTAGCACAAAAAGGCATTCGTACCACTTTAACTGATAAAGGCGGCCACACATGGAGCTTAGAAGGATACACTAGAACCGTTTTAAAGTCCACACTAGGAAATACCTATAATGAGTTAAGAACAGGGCGTATGGCTGAATATGACGTTTATACGGTACTTGTTACAAGTCATGCAGGAGCAAGAGAAGCTTGTTCAAGGATACAAGGAAATATAGTGGATTTACGTTTTCCTAGCGAAATACCAGAGTATAGTGAGTATAGGAGTATTTACGACCCAATATGGCAAGCTAGATACGGTGAAGCATCGGGGCACAAAGGAATAAATTGCAATCATCTGCATATTCCTTTCGTTCCTGGTGTAAACACCAATAATCAACCGCATTTTGATAATGAGCTCAATGAAACAGTGGCTAAAGCAAGAGATACGCAACGTAGGATTGAACGTGAGATAAGGAAGTACAAGAAGAATCTCATGGTTGCTGAAGCGTTAGGAAGCGATAAGGTTCCATATTGGAGAATGATGGTAAGACGCAGGCAAAAGGCTATGCGTGATCATTTAAGTAAGAATGGTAAATATCTAAGCAGGAACTATAAGCGTGAAAAGGTATATACACCTCTATCTACTTTATTAGAGGATTTTTCATATAAAAAATGA MITPYQIDLWSNNMADLYNSLEGEIIRVIIKRLNSGSKDISEWQGQKLYELRLFNNEVVKLLSKASGVAESEIKRMFEDTGVGVIKDIDRSMPYPTKPMPNNLDMVMQAYHDQVWDEIDNYVNQTLVTTNYGIGTAQLAYQNVLNETSAMFNTGLYTFEQSLERAITNLAQKGIRTTLTDKGGHTWSLEGYTRTVLKSTLGNTYNELRTGRMAEYDVYTVLVTSHAGAREACSRIQGNIVDLRFPSEIPEYSEYRSIYDPIWQARYGEASGHKGINCNHLHIPFVPGVNTNNQPHFDNELNETVAKARDTQRRIEREIRKYKKNLMVAEALGSDKVPYWRMMVRRRQKAMRDHLSKNGKYLSRNYKREKVYTPLSTLLEDFSYKK NA NA NA NA NA AK015_03272 1545 hypothetical protein TTGCAAATCATAGATCGCATTAAAAATCTATTTAAGAGAGGAGGTTATGCTTTGTCAGGTCAAACGTTAAAAACTATTAACGACCATCCTAAGATAAACATTGATCCAAAAGAGTTAGCTAGGATAGACCGCAACTTAAAACAGTATGAAGGCGATTATCCTCAAGTGGAATATATTAACTCGCATGGTCATTTAAAAAAACGTGATTATATGACGCTGAATATGAGAAAGCTTAGTGCTGATGTACTTGCTGGACTTGTATTTAACGAGCAATGCGAGATATATGTATCTGATGTAAAAGATGAAGAAAAGAAGGAAAATAGCTACAAGTCAGCTCATGATTTTATTGAACATGTATTTGAACATAACAAATTCAAGAAAAATTTAGCAGATTACTTAGAGCCTACATTTGCCCTTGGTGGTCTCAACGTAAGACCTTATGTAGATAGTAAGTCAGGCGAAATAGAATTTTCTTGGGCATTGGCGAACGCCTTTTTTCCATTGCGCAGTAATAGTAATGGAATCTCGGAAGGTGTAATAAAATCAGTCACAACAAAGGTCGAAAGAAACAAAACTATTTATTACACCTTGCTAGAATTCCACGAATGGGAAGATGATTTGTACGTTATTACCAATGAATTATATAAATCAGACAACAAGGGTGAAGTCGGAAAACGGGTGCCGTTGGATGAGCTATACGAAAACTTACAAGAAAGGACAGAAATAAAGAATCTATCACGCCCGTTATTTAATTACGTGAAGCCATCAGGATTTAATAACATATGTCCGCTTAGTCCATTAGGGTTAGGGATAGCTGATAATGCAACATCTACCCTCAAAAAAATAAATGACACATACGATCAGTTTTGGTGGGAAGTCAAAATGGGGCAAAGAACTGTATTTGTTAGTGATTCAATGCTTAATACATTACCAGATGAAGCTGGTAACCCTCCTAAACAAGTATTTGATCCAGATGTCAATGTTTATAAATCAGCTCATATGGGTGATGGAAAAGAACCAGTGAAAGATGTAACTAGCGACATCCGGACTGAACAATATATATCAGCAATTAATCAATCTTTGAGAACACTTGAAATGGAGCTAAAGCTATCTATTGGTACATTTTCTTTTGACGGTCGTAGCATGAAGACGGCAACAGAAATCGTTAGTGAGAATGACTTAACGTATCGCACCAGGAATGACCATGTATACGAAGTAGAGCAGTTTATTAAAGGATTGGTTGTATCTGTTCTAGAACTAGCAAAAGCTTACGGTTTGTTTAGCGGCGAAATACCTACATTTGAACATATTGGCGTTGATTTTGATGATGGAGTATTTCAAGATCGATCAGCGCTACTAAAATTTTACGGCCAAGCTAAAACGTACGGTTTTATTCCTACCGTTGAGGTTATTCAGCGTGTTTTTAAAGTACCAAAAGATACAGCTGAACAATGGTTACAAGAAATACAGGCAGAACAACTCGGTATGGATCCGTCTCAATTAGATAATAAGGCTTCCAATAATTTATTTGGTGATGAAGAATGA MQIIDRIKNLFKRGGYALSGQTLKTINDHPKINIDPKELARIDRNLKQYEGDYPQVEYINSHGHLKKRDYMTLNMRKLSADVLAGLVFNEQCEIYVSDVKDEEKKENSYKSAHDFIEHVFEHNKFKKNLADYLEPTFALGGLNVRPYVDSKSGEIEFSWALANAFFPLRSNSNGISEGVIKSVTTKVERNKTIYYTLLEFHEWEDDLYVITNELYKSDNKGEVGKRVPLDELYENLQERTEIKNLSRPLFNYVKPSGFNNICPLSPLGLGIADNATSTLKKINDTYDQFWWEVKMGQRTVFVSDSMLNTLPDEAGNPPKQVFDPDVNVYKSAHMGDGKEPVKDVTSDIRTEQYISAINQSLRTLEMELKLSIGTFSFDGRSMKTATEIVSENDLTYRTRNDHVYEVEQFIKGLVVSVLELAKAYGLFSGEIPTFEHIGVDFDDGVFQDRSALLKFYGQAKTYGFIPTVEVIQRVFKVPKDTAEQWLQEIQAEQLGMDPSQLDNKASNNLFGDEE NA NA NA NA NA AK015_03273 1347 hypothetical protein ATGAGTAAAGTCACCGTTAATATACAAAAAGAAGTCAATCCACATTTTAAATCGGTATGGACGACTAATAAACCATATAACATATTGCGTGGTGGTCGTAACTCTTTTAAATCATCTGTGATAGCATTGTTGCTCGTTTATATGATTTTGCGATACATCAAAAAAGGCGAGAAAGCTAATATTGTTGTCATTCGTAAAGTAGCAAACACAATAAGGGATTCGGTTTATTTAAAAATACAGTGGGCTTTAACCAAGTTTGGACTATTAAATGAGTTTAGTTGTACAGTATCGCCATTTAAGATAACACACAAGCCGACTGGATCAACATTCTATTTTTATGGACAAGATGACTTCCAAAAGCTTAAGTCAAATGATATTGGCCATATTATTGCAGTTTGGTACGAAGAAGCTGCAGAGTTTAATGATGCAGAAGAATTTGACCAGACGAATACAACATTCATGAGGCAAAAACATCAATTAGCTGATATGGTGCGATTCTTTTGGTCATATAATCCACCCAGAAACCCATACAGTTGGATAAACGAGTGGTCTGATAGCATGGTTGGCGAAGATAATTATCTGGTTCATGATTCAAGCTACAAGAACGACGAACTAGGATTTGTTACTGAACAGATGCTACAGGATATTGAACGTATCAAAAATAATGACTATGATTATTACCGTTATTTGTACCTTGGTGAGCCTGTGGGGCTTGGAACCAATGTTTATAATATGAATTTGTTTAAACCACTTGACGAATTACCTTCTGATGATAGAATCATCGCTCTATATTACTCTATGGATACTGGTCATTCTGTGTCTGCTACATCATGCGGCTGTTATGGACTGACGGCAAAGGGGAAGGTAATTCGTTTGAACACGTATTATTACAGTCCAGCTGGTCAAGTAAGAAAGAAAGCACCTAGTGAATTGTCTAAGGATATTCATGATTTTATTAAAGTGACATCAACACAAGAGCATTGGAAAGGCACTAGGATACAAAAACGTACAATTGATAGCGCGGAAGCTGCATTAAGAAATCAATACTATAAAGATTATGGTCAACATTGGGATCCGGTTGCTAAGAAAAAGAAAATAGATATGATTGATTACGTCCATGACTTATTAGCTCAGGGGCGTTTTTATTATCTCAAAAATCCATATAGAACAGGTCTGAGATATGCAGATAACAATGATATTTTCATCGAAGAACATAAGAAATATCAGTTTGACGAGAATACACTTAACTCTGATGATCCTAAAGTTATTAAGGAAGATGATCATACATGTGATGATTTTCAATACTTCTGCACAGCTAACGCTAGAGACTTGCGCTTAAAAGTCTAG MSKVTVNIQKEVNPHFKSVWTTNKPYNILRGGRNSFKSSVIALLLVYMILRYIKKGEKANIVVIRKVANTIRDSVYLKIQWALTKFGLLNEFSCTVSPFKITHKPTGSTFYFYGQDDFQKLKSNDIGHIIAVWYEEAAEFNDAEEFDQTNTTFMRQKHQLADMVRFFWSYNPPRNPYSWINEWSDSMVGEDNYLVHDSSYKNDELGFVTEQMLQDIERIKNNDYDYYRYLYLGEPVGLGTNVYNMNLFKPLDELPSDDRIIALYYSMDTGHSVSATSCGCYGLTAKGKVIRLNTYYYSPAGQVRKKAPSELSKDIHDFIKVTSTQEHWKGTRIQKRTIDSAEAALRNQYYKDYGQHWDPVAKKKKIDMIDYVHDLLAQGRFYYLKNPYRTGLRYADNNDIFIEEHKKYQFDENTLNSDDPKVIKEDDHTCDDFQYFCTANARDLRLKV NA NA NA NA NA AK015_03274 756 hypothetical protein ATGCCTAACTGGGATGAAATAAAGAATGATTGGGAAACAACAAAGATTACATTGAAAGACCTTGCTGCTAAATATGACGTAAAGCTAGGTACTTTGAAAAGCAGAAAGAGCCGAGAAAAGTGGAGTAGAGATCCGACAAAAAAGGATGCAACCAAAACGGATAAGGTTGCAACCCCAAAAGGAATAGATGCAACTAAGGAAAAACAACGAAAGAGAAGTGGCAATCCTAATCCAAAGAATCAGTTTACAAAACGGAACACAGCAGCTGTTAAACACGGTTTGTTCGCCAAGTACTTACCAGAAGAAACGCTAGAGATAGTAAACGAAATAGATAGCATTGCTCCACTTGACATATTATGGATGAACATAAAAATGCAGTTTGCATCCATTATGCGTGCGCAACAGATTATGTTTGTTGAAGATAAATATGATTTAACAAAAGAAGTTAAGAAAACAGAAACAGCCGACGGAGATAATTTTTCAACAGAAAAGAATGAATGGGAAATACAGTTCGCTTGGGATAAACAGGCGAACTTTTTAAATTCCCAAAGTCGTGCTATGGGCGAACTAAGAAGTATGTTAAAGCAGTTTTATGAATTGGCCAGTTATGACGATGATAGGCTGTTGGAAGTTGAAAGAATGAGAGCTGTTATTGAAAAAACAAAAGCCGAAACCGAGAAATTGTCCAAAGATGACAACAGTAATACTCCGCCAACAATTACAATCGTAGATGCGTGGAGTGAAGAAAATGAGTAA MPNWDEIKNDWETTKITLKDLAAKYDVKLGTLKSRKSREKWSRDPTKKDATKTDKVATPKGIDATKEKQRKRSGNPNPKNQFTKRNTAAVKHGLFAKYLPEETLEIVNEIDSIAPLDILWMNIKMQFASIMRAQQIMFVEDKYDLTKEVKKTETADGDNFSTEKNEWEIQFAWDKQANFLNSQSRAMGELRSMLKQFYELASYDDDRLLEVERMRAVIEKTKAETEKLSKDDNSNTPPTITIVDAWSEENE NA NA NA NA NA AK015_03275 354 hypothetical protein ATGAAAGAAGCACTTTTCAACGGAAAAAGAGAAGTATCTAATGAAGAAGCAATTGAGAAAATGAAGTATTTTATAGAAGAAGCAAACAAGCTTATGAAAATGTACGAGAAAGATAAAAGGGCTACTATTGCCTTGGCTCGGGAACTGCGGAATGAGTTAAGAGCAGAATACAAAAACAATGATTTACTAAGAATAGAGAAAGCTTATAAAAATCATGAGTTATTATTCAGATACTACAGACCAGCAGTAGTTGATGCGTACACAAAAACAACTGGGCAATTAACTCAAAGAAATACATTTAGTTTTTTGTGGGATGTAGATAGTTATATGAATTATTACATGCCTGAAAATTAA MKEALFNGKREVSNEEAIEKMKYFIEEANKLMKMYEKDKRATIALARELRNELRAEYKNNDLLRIEKAYKNHELLFRYYRPAVVDAYTKTTGQLTQRNTFSFLWDVDSYMNYYMPEN NA NA NA NA NA AK015_03276 459 hypothetical protein ATGAATAAAAAACAAGTGGAAGATCTCATTTATCAGTATCATTGGAGAAAAAGAGAATTAGACAGGATTTTTAATATTCTATTTGGTGGCTCAACGTCAATGCCTTCGTTTGGCATGGTTTCACAATATGGCATTGAAGCAACATTACCTAAGCCCAATACTTCAATAAAAAGCCCGGCTGAAATAGATGCAATGGATGCTCGAGAACAACGTCTTTATAAAAGATACAAAGAGTTTGGCGATATGGTTGAAGCTATTGAGAGTATTGTAAATTACTTAGAAGATGTACAACATCAAATTATACTAGATTGCATGATGGAGGGTATGAGTTATCGTTCTATCGCTGATCATCTTGGGGTTAATCGTAATAAAATACGTGATATGAAAGAGGATATGCTGTGCCAAATATGCCAAAAGTGCCACTTCTTACATGATTTGCTGGATAAAAATTCAGCATGA MNKKQVEDLIYQYHWRKRELDRIFNILFGGSTSMPSFGMVSQYGIEATLPKPNTSIKSPAEIDAMDAREQRLYKRYKEFGDMVEAIESIVNYLEDVQHQIILDCMMEGMSYRSIADHLGVNRNKIRDMKEDMLCQICQKCHFLHDLLDKNSA NA NA NA NA NA AK015_03277 1179 hypothetical protein ATGTTTGAGCGTGATTTTAATGGTGAACGTCTTAGGGAAGGGAGGATATATAGAGGTTTTACTATTACAGATTTAGCAGATGAGTTGGAAGTCAGTAAACAAATGATTTCTAAATATGAAAATGGGAAAGCGACACCTACTTTTGAAGCATTAATGAAAATGACTAATGTGCTTAATTTTCCCAAAGAATATTTTTACGAAAAACCGGTTAAAGTTAAGGTAGGAAGTACGTATTTTCGGTCTCTTCTTTCTACTGGAAAAAAAGAAAGAGAAATGCAGTACGATAGAGTTAAGTATATATCTATTATTCGTTCAATGCTTGAGGAATATGTGGAGTTTCCTGAACTAGATCTTCCGTCTTTTTCGGAAGAAGAGCTAAATGATGTAGAATACGTTGCTAAAAAATTGCGGAATTATTGGGGGCTTGATGACAAACCTATAAAAAATATAGTACGGCTCTTAGAGAAAAAAGGCTTCGTTTTAGCAGCATTGAATATTAAAAAGAGAACTATTGACGCTTTCGGATCTAATCAAGAAGTAAATGGAAAATCTTATTACACTATTGTTTTAGGAAATAAAAAGTCTTTTTACAGACGTCAGTTTGATGTGGCTCATGAGTTAGGTCATAAAATTTTACATGATAATAATTTAGATTTAGATGATTTAAGTCGAGAGGAGTTCAAACAAATAGAGCAAGAAGCAAACGATTTTGCTGCTGCCTTTTTACTACCAAAAGAAGGTTTTATTAAAGATGTTTCTATGCACCCTAACAACTTAAACTACTATAAGCAACTTAAGAAAAAATGGTGTGTATCAATTGGAGCAATGGTAATGAGGGCTTACAAATTAAAAGTATTGTCTCGAGGTACCTATGATTATATGCAACGGATGATCAGTAAAAATGGTTGGAGAAAACAAGAACCTCTTGATGAAATAAAGTTATTGAAAGAACCAATTGCAATGGTTCAGGCAGTGGAGTTACTCATTGAAAATGATTATATAGGTAAAAATGAATTTTTGCACAAGCTTTCTCATGATTATGGTTTAAGCCTCCATAGAGCAGAAGTAGAAGAACTGATAGGACTTGAAGATGGTTATTTACATCAAACGATTGATGAACAGCCAGAAAATATAATTAGTCTAAAACAAATAAGACAGATAAATGATAAAACAAGTTAA MFERDFNGERLREGRIYRGFTITDLADELEVSKQMISKYENGKATPTFEALMKMTNVLNFPKEYFYEKPVKVKVGSTYFRSLLSTGKKEREMQYDRVKYISIIRSMLEEYVEFPELDLPSFSEEELNDVEYVAKKLRNYWGLDDKPIKNIVRLLEKKGFVLAALNIKKRTIDAFGSNQEVNGKSYYTIVLGNKKSFYRRQFDVAHELGHKILHDNNLDLDDLSREEFKQIEQEANDFAAAFLLPKEGFIKDVSMHPNNLNYYKQLKKKWCVSIGAMVMRAYKLKVLSRGTYDYMQRMISKNGWRKQEPLDEIKLLKEPIAMVQAVELLIENDYIGKNEFLHKLSHDYGLSLHRAEVEELIGLEDGYLHQTIDEQPENIISLKQIRQINDKTS NA NA NA NA NA AK015_03278 768 hypothetical protein ATGAAATTTGGATTGAATGAAGCTGGGGTTAAATCTATTGTTGAGGCATTTAGCGAAACGACTATAGATATTCTTAATGAAGCTGGAGATTTATATGGTTTAAATGATACAGGGAATTTTAAGAACTTTGGTTCTTGGGATCTTATTTTTAATAGAATTAAAAATGCAGCTATATTGCATGATTTAATAGTAATTAAGAAAAAAAGGGGAATTTGGAAATTTATAATTATTTTGGATGTTAAAACTGGTACATTGCTGGTTTTCACTAAGGAGAAAAACATAGAAAAAGTGATTAAAGATTTTGGTAAAGAAAACATTCATTATTTTCATGCATTTGTAGGATTGAATTCCAATCCTATTGATTTAGCCAACCGACAACTAGAATTATTTTCTATGATTACAGATGAATACGAAGAGAAAAGAATAGTTGAGGCTCAAAAAATTTTAGGTGAAGATTACTCCTCTGTCAAAAAGGTGATTTTTGTAACAGCCAAAGAGGAACAAAAAGAAATTACTGCTGTTGAAGCAAGATTGTATAGTCCTTATTTCGAGCTATTAGACTCTGAAGATTGGTCACAGTATATTGCTGAGAAACAATATACTCATGTATTAAACTTGCCAGATAGTGAAAGTGTTGACAATGATGATGAAATTGTTACTATACCTAAGGTACGGAAAGAAATTCAGGATAGCAAAAAGTTAACTGAAGAAAGAATACCTTCTCAGAGAAAAGAACAACATGAAGATAAAGAGGAAGATAATAGTTAA MKFGLNEAGVKSIVEAFSETTIDILNEAGDLYGLNDTGNFKNFGSWDLIFNRIKNAAILHDLIVIKKKRGIWKFIIILDVKTGTLLVFTKEKNIEKVIKDFGKENIHYFHAFVGLNSNPIDLANRQLELFSMITDEYEEKRIVEAQKILGEDYSSVKKVIFVTAKEEQKEITAVEARLYSPYFELLDSEDWSQYIAEKQYTHVLNLPDSESVDNDDEIVTIPKVRKEIQDSKKLTEERIPSQRKEQHEDKEEDNS NA NA NA NA NA AK015_03279 201 hypothetical protein GTGAGATTAAAAGATATTCAAATAAATCCTGAAACTATGATTTTGGAAATAGATCTACTGAAACAAAAAGAGAACTTTGCGGTTGTTGTATGCGAAGGGAAAGCAAAACTTACTGAGTTGCCTGTCCATGGAGAAACGAAAATAGTCACACATCAAGGTAGGGTTAAGAGAGTTAAGTTTGATGAGGGTGAAGATTTTTAA MRLKDIQINPETMILEIDLLKQKENFAVVVCEGKAKLTELPVHGETKIVTHQGRVKRVKFDEGEDF NA NA NA NA NA AK015_03280 204 hypothetical protein GTGGACATATCAGAAAAACAGCGCCAACGTGCTGTAAATGATCGTAGGACTAAGATTATTAATGATCTGTATCGTATGGGTGTCTTTTATACACGTGATGGACGAAAAGTAGAGGATTGTAGGTTATTCACTCTGGAGCAGGTCTACATTAACGAAAAGCACCGGATGACAAAAGTTAAAGAGCAGCAGGGTGAGTTGACCTAA MDISEKQRQRAVNDRRTKIINDLYRMGVFYTRDGRKVEDCRLFTLEQVYINEKHRMTKVKEQQGELT NA NA NA NA NA AK015_03281 312 hypothetical protein ATGGAGTTTAGAGCACGGTTGGAAGAGATAAAGAATACTGATATAAGCTTACTTTATGGGACAAAACTAAAAGAGCAATGGGATTGGCTTATTCAACAAGCTGAGCGTGTGCAAGAGTTGGAAAAACGTTGCCACTACCTAAACAATGAGCTGTTTAGTGAGCGAACGATAAAAAATGAGTTTCAACAAGGCATCGAAGAACAGGGCAAAAGGATTAAAGAATTAGAGATGGGTTTAGAACAAATAAAAGAAATGGCTGGTTTAATAGATAGGAAGTATTTTGAAGTAGCTGATAAAGCCTTGAGTAAGTAG MEFRARLEEIKNTDISLLYGTKLKEQWDWLIQQAERVQELEKRCHYLNNELFSERTIKNEFQQGIEEQGKRIKELEMGLEQIKEMAGLIDRKYFEVADKALSK NA NA NA NA NA AK015_03282 708 hypothetical protein ATGATTAAAGAAGCATTGCAATACATTGTCGGATTAGGGAAAGCAGAAATTCATGGTGAGAATGGACAGACATATTCAGATAAGAAATTGCACTTGATTGAGGAACCGACTGCAACACCATTTACGGTTCATACTTTATCAGGTTTAGTAAGCTATATAAAATCTGAATTTGATGGTGATGAGCCTGTTATTTTACATGTGGTTAGTCCTACGTCTGTAACAGTTAAGTCAGCATTAAACTCTGATCAAGAAAGAGACTATTTTCTAAAAGCAGAAGCACTTCTCCCGACTTTTATTTTCAATGATTGGTATAGCACAGAGAAATTCAATATTAGTTTACAATCTTGCTTTATACAAAACGAAGATCGTGATGTAATGCTTAAAGTGGTTGGTAACATAACAGAAGATCAAGTGAAGACCGTTAGTGATGATGGGATTTCTCAGGCTGTTGTTGCAAAAGTAGGGGTAGCCAGCGTTGGAAATGTGGAAGTACCGAATCCAGTTTCGTTAATACCATACAGAACGTTTGTGGAAGTAGTGCAACCAGAGAGTGATTTTATATTTCGTATGCAATCGGGACCAAGTTGTGCTCTCTATGAGGCAGATGGGGGAGCTTGGAAAAACGAAGCTGTAGACAACATTAAAGATTACCTTAGGCGCTCGCTTAAAGAAGAAGTTGAAGCTGGTCGTGTGACTATTATTGCTTAA MIKEALQYIVGLGKAEIHGENGQTYSDKKLHLIEEPTATPFTVHTLSGLVSYIKSEFDGDEPVILHVVSPTSVTVKSALNSDQERDYFLKAEALLPTFIFNDWYSTEKFNISLQSCFIQNEDRDVMLKVVGNITEDQVKTVSDDGISQAVVAKVGVASVGNVEVPNPVSLIPYRTFVEVVQPESDFIFRMQSGPSCALYEADGGAWKNEAVDNIKDYLRRSLKEEVEAGRVTIIA NA NA NA NA NA AK015_03283 381 hypothetical protein ATGGAGTACATGATCGATTTAAACGAGTTTGCAGAAGGAGCTTTGGCAGCAAAGGTAAACACAGAATTAGAAAAAGTATTGGAGAACATTGCTGATCCAAATACGGATCCAAAGAAAAACAGAACCATCACAGTATCAATTAAGATTCATGGCGATGAAAAACGTGACGTTCTTAATACAACTGTTTCTACAAAAGTAAGCTTGCAGCCAATGAAAGAGGTTGAGACCAAACTAATGATGGGTGCTGATGATAACGGAAATATCATCGGAAAAGAGTTGCGATCGGGTGCAAAAGGGCAAATGTTTTTCGATACTGATGGCGATGTAGCCCAAGACACTGGAGAAAAAGTAGTTAGCTTTAGAGATCAACAAACAAAATAA MEYMIDLNEFAEGALAAKVNTELEKVLENIADPNTDPKKNRTITVSIKIHGDEKRDVLNTTVSTKVSLQPMKEVETKLMMGADDNGNIIGKELRSGAKGQMFFDTDGDVAQDTGEKVVSFRDQQTK NA NA NA NA NA AK015_03284 525 recU_1 COG3331 Holliday junction resolvase RecU GTGGTTTACACAGGAAAACGAGGAATGGCGTTTGAAAATACACTAAATTACACGAATCAAATATATCTTAACCAAGGACGAGCCATCATCAATAAACGACCTACGCCAGTAAAGGTACTTCAGTCCAAGGGTACAAGGGTACTCAAAGGCTTCTACGAAGAAAAGAGCACGGTCGATTATGACGGTATTTACCAAGGGAAATCGATCGTCTTTGAAGCCAAGTCTACTAAAGAGAAACGGTTGCCCTTGTCCATCATATCGGATCATCAAGTTAAATATCTAGCAGACGCTGAAAAATTAGGGGCTATATCATTCCTTATCGTCGATATGAGGGCTCTAGGAGAGGTTTTCCTTGTTCCGAGTAATATGCTTCGAAAGTATACAGAAGAAGCCAAGCAAGGCGGCAGAAAGTCCATTCCGTTGAGAGATTTGGAAGTATATACGCAACTGGTCAAATCACAAAATGGTGTGCCGTTGGATTACCTGAGTGTTGTCGATAGATTGATAGAGGATGAGATTGCTTAA MVYTGKRGMAFENTLNYTNQIYLNQGRAIINKRPTPVKVLQSKGTRVLKGFYEEKSTVDYDGIYQGKSIVFEAKSTKEKRLPLSIISDHQVKYLADAEKLGAISFLIVDMRALGEVFLVPSNMLRKYTEEAKQGGRKSIPLRDLEVYTQLVKSQNGVPLDYLSVVDRLIEDEIA NA NA NA NA NA AK015_03285 246 hypothetical protein ATGGAGCAATTAAGCTTATTTCAAGAAAACGAAAGCAAAGCAGTAGTTATTCCCGAAGATGTCATTTCTCCGTTAGAATCCTCTAAAAGCGTAAAGTCGAAGGAATTCAAGAAACAACAGATGCGTTGGAGAGAATGGGTTATGGCAGTACAGGCTACTCATAATTGTTCTTGGTTCGAAGCGAGAAAACTATTGCTGGTACACAGGAAGAGCCAAACACCTATAGTGATTCACATAGCGGAGTAA MEQLSLFQENESKAVVIPEDVISPLESSKSVKSKEFKKQQMRWREWVMAVQATHNCSWFEARKLLLVHRKSQTPIVIHIAE NA NA NA NA NA AK015_03286 1086 hypothetical protein GTGGCTAGCCCTCAAACAGAAAAAGGTCATGTTCGTATAGCTAATGAATTATGGAATGAACTATTGCGTAGAGACTTCAGTAAGAGGCAACAGAACTTAATTTTGTTTATCTGGAGGTTATCATACGGAACGGGTCAAAAAGACTGTGTGATCGACAAATTTAACAACCTAGAGCTTGCTGGAATGTACAAGCAAGACGTAAAAAAAGAGCTTAAATTTTTGCGTGAATGTGCTGTATTAGATTGGGATGAAAAGACAATGGTTTTCAGCATCAACAAAAACTATCATTTGTGGCAAATAACTCCTAACAAAAATTGGGATAGTGAGAAGTTTGACGAACTTATTCACCAAAATTTAAGCCGAAAAAAAGTAAGTAAAACACGAACTAAAAAAGAGAATGAAGTAAGTGAAACACTTACCAAGAAAAAAAGCCGAGTAAGTAAAACACTTACTTTTAAGAGTAAACAGGTAAGTAAAATACTTACTATGCGGTTAGTAAAATACTTACCGACACCTGACCGTAAGTCAATAGTGCCAACGGATACAGATTCTCTAAAGACATTATTAAAGACATTAAAGATTAAAGACATAAAGATATATACTACTGCTGATAACAGTCGCGAAGATACTTTAACCGAACATGAGCAAGACAAAAAAGTTACAGATGCAATTGTTTTTTACCAGAATAATTTCGGAATGATCCGTCCAGCTTTGGCTGATGAAATGCTTGTTTGGATTAACGACTTTGGAGATGAAATGGTCATTGAGGCTATGCAAAGATCTTTAGACAGAAATAAGCCAAGTTGGGGATATGCGAGAAGCATTTTGCAGTCTTGGTCAAATAAAGGCATTAAAACGATGGAGCAAGTACAAGCGGAAGATATAGAATTCCAAAGCCAAAAGATGGCTAAGCATCAAAGATATTCTAAGCCACAAACGCAAGCACCAGGAGCTCCAGTGCCTGAATGGTTTAGACAACAAAAGCAACAGCAGAAAGCTCAGAAAGAAAGCCAGTCGAGTAATATCGGTGATGCAAACGAGCAAAAGGAACTCGAGCAATTGCTTAAACAATATTCTAGTGGGTAG MASPQTEKGHVRIANELWNELLRRDFSKRQQNLILFIWRLSYGTGQKDCVIDKFNNLELAGMYKQDVKKELKFLRECAVLDWDEKTMVFSINKNYHLWQITPNKNWDSEKFDELIHQNLSRKKVSKTRTKKENEVSETLTKKKSRVSKTLTFKSKQVSKILTMRLVKYLPTPDRKSIVPTDTDSLKTLLKTLKIKDIKIYTTADNSREDTLTEHEQDKKVTDAIVFYQNNFGMIRPALADEMLVWINDFGDEMVIEAMQRSLDRNKPSWGYARSILQSWSNKGIKTMEQVQAEDIEFQSQKMAKHQRYSKPQTQAPGAPVPEWFRQQKQQQKAQKESQSSNIGDANEQKELEQLLKQYSSG NA NA NA NA NA AK015_03287 117 hypothetical protein ATGGGCGATATTGCGGATGCAACAATTGATGGCCTTTTGTGTGAAGGTTGCGCTGAATTAGTAGATGGCGAAAGCCCAGGATACCCTCGGCTTTGCGGTGATTGTGAACATGCATAA MGDIADATIDGLLCEGCAELVDGESPGYPRLCGDCEHA NA NA NA NA NA AK015_03288 876 recT COG3723 Protein RecT ATGGCTACGGTAGACGAAATGAAAAATCAAATGACAAAAAGTAACGGAAAGGCAGGTTCGCCCGCCAAGGATAAGCCAAAAACAATTGAAGATTATCTAAAGCAGATGGCTCCAGCAATGTCTCAAGCGCTTCCTAAGCACATGGATGTAGACCGTTTAATGAGATTGACGATGACAACGATTAGGACTACACCAGAGCTTAGAAATGCAGATATGGGTAGTTTGCTAGGTGGTGTCATGCAAGCTGCACAGTTAGGACTGGAACCTGGTTTATTAGGACAGTGCTACTTACTTCCCTTCAAAAACAATAAAAAAAGGATTACAGAGGTCCAATTTATCATTGGTTATAAAGGCATGATCGACCTTGCTAGACGTAGTGGCCATATTCAATCTATTTATGCCCACGCAGTGTATGAAAATGATGATTTCGAATATGAGCTAGGACTCAATCCAAAGCTTAAACACACACCTTCTATGGAGTCTGACAAAGGCGCATTTATCGGTGCTTATGCAGTAGCTCATTTTAAAGATGGCGGGTATCAAATGGAATTTATGCCTAAAGCAGAGATTGAAAAACGTAAAAATTCTAGTCCTGGTGGGCGTTCTAAATATAGCCCTTGGAATAACTACTATGAGGAAATGGCAAAGAAAACAGTTATTCGCCACATGTGGAAGTACCTACCTATATCAATTGAAATACAGCAACAAGTCAGTCATGACGAAGGAACAGCTAGAAGCGTAAAAGATATTACACCTAATGATGATATTTTCTTAGAAGCTCCACAGTATGACTTTATAAATGTTGGAGAAACGGAAGCAACCGATCAAAACGACTTAGAACAGCAAGAAATAAACTTTCAGGATGGCGAGGGTTAA MATVDEMKNQMTKSNGKAGSPAKDKPKTIEDYLKQMAPAMSQALPKHMDVDRLMRLTMTTIRTTPELRNADMGSLLGGVMQAAQLGLEPGLLGQCYLLPFKNNKKRITEVQFIIGYKGMIDLARRSGHIQSIYAHAVYENDDFEYELGLNPKLKHTPSMESDKGAFIGAYAVAHFKDGGYQMEFMPKAEIEKRKNSSPGGRSKYSPWNNYYEEMAKKTVIRHMWKYLPISIEIQQQVSHDEGTARSVKDITPNDDIFLEAPQYDFINVGETEATDQNDLEQQEINFQDGEG NA NA NA NA NA AK015_03289 147 hypothetical protein GTGATTAAAAATATGGTTGTATACGGTGAATTTGGATTTTTAGCTACAGAAAAGCAATTCGTATTCTTAATAGAAGGAAACATATATGGACCATTTCATAACAAGGATTGGAAAAGAGTTGTAAAGACATTAAGGGAGGAAAAATAA MIKNMVVYGEFGFLATEKQFVFLIEGNIYGPFHNKDWKRVVKTLREEK NA NA NA NA NA AK015_03290 945 hypothetical protein ATGGCTAAAAGCACGGTTGATATGAGTAGGCAAGAGTGGCTATGGAACAGGAAATCAGGATTAGGCGGTTCGGACGCCAGTGCTGTTTTAGGCTTCAATCCTTGGAAATCTAAGTTCGAACTTTACATTGATAAAACCAGTAACACAGTTGAGGAAATCGATAGCGAGGCAATCCATTGGGGTAATGTTTTGGAGGATGTTGTGGCAGAAGAATTCACGCGTCGAACAGGTAAGAAAGTTCGACGTCGCAATCAAACTTTTCAACATCCAGAGTATAAATTTATGATCGCAAACATTGATCGTGATGTAGTTGGGGAGCGTGCTCTACTCGAATGTAAGACGACGAATGCGTTTAATTCAGATGCTTGGGAAGGTGAACAAATCCCACCTGCATACATCTGTCAGCTGCAGCACTATATGGCTGTTTTGGGATATGAAAAAGCGTATATAGCTGTATTAATTGGCGGACAAAAGTTTGTTTGGAAAGCAGTAGAACGTGATGATGAGTTTATCGAGCTCATGATAGGTAAAGAAAAAGAGTTTTGGGAAGAGCATGTACTTAAAGGTGTTCCACCAGAAATTGATGGATCTGAATCAGCTAGCGAGTTGCTAAATAAAATGTATCCGGAAGATAACGGGGAAAAAGTAATGCTCCAGTCGAATGAAGCAGAAACACTAATCGAAGCTATTGAAAGTATTAAGGCTGAAATTAAGAAAAATGAAAAGCTCAAAAAAGATTATGAGAACAAATTAAAGTTGATGATCGGTGAAGCGAAAATGGGAGTTACTCCGAGGTTTGAAGTAACGCTTAATACAATCACTTCTAATCGTTTTGATAGTAAACGATTGAAAACAGAGTTGCCAGACATTGCGGAAAAATATACAAAGCAATCGTCGTATAGGCGTTTAAATATTAAACAAGTTGAACAGGCGGAAGTATCGTGA MAKSTVDMSRQEWLWNRKSGLGGSDASAVLGFNPWKSKFELYIDKTSNTVEEIDSEAIHWGNVLEDVVAEEFTRRTGKKVRRRNQTFQHPEYKFMIANIDRDVVGERALLECKTTNAFNSDAWEGEQIPPAYICQLQHYMAVLGYEKAYIAVLIGGQKFVWKAVERDDEFIELMIGKEKEFWEEHVLKGVPPEIDGSESASELLNKMYPEDNGEKVMLQSNEAETLIEAIESIKAEIKKNEKLKKDYENKLKLMIGEAKMGVTPRFEVTLNTITSNRFDSKRLKTELPDIAEKYTKQSSYRRLNIKQVEQAEVS NA NA NA NA NA AK015_03291 171 hypothetical protein ATGAATCGTTTTGTTGAGGGATACAAAGAAATTAGAAAAGAGAATCCAGATCCCAAAGATCGCTGGATCATCTTTAAATCTACGTGTAACACAATTGCTAAATTGGGAACTATTGAGGATTTGCAGGAGCTAATTAAATATTTCGATGGGGAGGATGTAAGGAATGGCTAA MNRFVEGYKEIRKENPDPKDRWIIFKSTCNTIAKLGTIEDLQELIKYFDGEDVRNG NA NA NA NA NA AK015_03292 216 hypothetical protein ATGGAACATCCTGAGATTACTCAAGTTAGGCAATATGGTTATCCAAAATTGAATGTATATACCAATCAATACGGTATAGATGCGTTAGGTAATGAAGTCTTTAGCGGTGATGAAATTTTAGTGATTGAAGAGGCATTCTTTCTTGTGGGAGAGCTAGAGGATCAGACAAAAGAGGCGCTAGAGTTACTGGGTGGCAGGTATGATTTTGCGCAATAA MEHPEITQVRQYGYPKLNVYTNQYGIDALGNEVFSGDEILVIEEAFFLVGELEDQTKEALELLGGRYDFAQ NA NA NA NA NA AK015_03293 273 hypothetical protein ATGAACTTAGAAGAACACTTTCTGCCAAAAGATATTAGTCATGCAAGTAAGGAATACATTTGTGCAATTGATCTTGCAGAAAGAACTGTAAATGCAATGTGTAACGCAAAGCTTGAAGATGCAGAAAGGTTTGCCAAAGACTTATTAAAGTCCGTTGGAGTTCTCAATGAAATGAGCAGCCATAAATACAACCAAGATAAGTTTTATGCAACTGTACAAGATTTGGCTAACCGAAAAATTAACGTCGAAGCGATACAGAGGCAATACAAATGA MNLEEHFLPKDISHASKEYICAIDLAERTVNAMCNAKLEDAERFAKDLLKSVGVLNEMSSHKYNQDKFYATVQDLANRKINVEAIQRQYK NA NA NA NA NA AK015_03294 276 hypothetical protein TTGCAATTTGGAGCTGTTTTAAAAAAGATGCGGAAAGGTGCTGGTTTTAGTCAAGAAGATATGGCTGAAAGACTTCACATGTCTCGCAGTAATGTGTCTAGGCTAGAAAGCAACAAACTTGAGTTAAAAGCTGCAGATTTAATTAATTGGTGTAAACAAACGCAGGCTCATGATTTATTAATAGCTTTTATTTATAACACGGATGCAGTAAGTGCAGTACAGCAATTATCCCAATTAATAACTGGCACTGTATTAAGATTCGGAGGTCTCATATGA MQFGAVLKKMRKGAGFSQEDMAERLHMSRSNVSRLESNKLELKAADLINWCKQTQAHDLLIAFIYNTDAVSAVQQLSQLITGTVLRFGGLI NA NA NA NA NA AK015_03295 309 hypothetical protein ATGCCAGTAACAACATTTTCAGATGAAGAGATTCAATCATTTGTCAGCGAGATTAAAAAGCAATTGGTGCCAGTTTTAATCAAAGAACTAGAGCAAAAACAATTACCTCCGTTACTTACTAGAAAACAATTCATGGAGCTTGTTGATATAGGTTCTACTAAATGCAATGAGTTGTTCAATAGAGAGGACTTCCCAGTCACAAGAGAATTTGGTCATCCACGGGTGGTAACAAAATTATTCTTTGACTGGGTAAACGAGAGCGCTAATCAATCGGAGGTAAGTTTGAGGTATCCTTATCGAATTATTTAA MPVTTFSDEEIQSFVSEIKKQLVPVLIKELEQKQLPPLLTRKQFMELVDIGSTKCNELFNREDFPVTREFGHPRVVTKLFFDWVNESANQSEVSLRYPYRII NA NA NA NA NA AK015_03296 717 hypothetical protein GTGGATCAATTAAAAGTAATTTCTTTTAACGGACAACTTGTAACAGAAAGTAGAGAAGTTGCCAAAATGATAAATAGGCCGCACAACGAATTGATGAAATCCATTAGAACTTATGTTGACTATCTAGGCCAGGGGGATTTTCCCCACACTGATTTTTTCATAGAATCCGAGTATTTAGATGCACAAAACAAGAAAAGGCCATGTTATCAAGTCACTAAAAAAGGCTGTGAAATGATAGCTAATAAGTTAACTGGTGAAAAAGGCGTTTTGTTTACGGCTGCATATGTATCGAAATTCAATGAAATGGAGAAACAACCGAGAGTTCTAACGGATAAAGAACAGTTAATGGCTTCAGTAAAACTAACACTTGAAGCTAATGAAGCTATTGAGAAACACGACAAACGGCTTACTAATCTTGAAGAAACAATGCGTATTGACGGTTCGGAAGAATTTCGAATCCGAAAAAATGCTAATAGAAAAATTATGAAAGTCTTAGGCGGTAAAGAATCGCCAGCATATAAGGAGCTAAACAGAAAAGTATTTTCGAACTTCTGGCGTGACTTTAAAGATCATTTTACTATTCCACGCTACGGGGACTTACCTAAGAAGCAATTTGACCAAGGAATACGATTTATAGAACTTTGGCAACCAAGCACAACGCTTCTGTTAGAAATTGAAAATTCTAATAATCAACAAACAATGCAGGAGGTGATCTAA MDQLKVISFNGQLVTESREVAKMINRPHNELMKSIRTYVDYLGQGDFPHTDFFIESEYLDAQNKKRPCYQVTKKGCEMIANKLTGEKGVLFTAAYVSKFNEMEKQPRVLTDKEQLMASVKLTLEANEAIEKHDKRLTNLEETMRIDGSEEFRIRKNANRKIMKVLGGKESPAYKELNRKVFSNFWRDFKDHFTIPRYGDLPKKQFDQGIRFIELWQPSTTLLLEIENSNNQQTMQEVI NA NA NA NA NA AK015_03297 342 hypothetical protein TTGTATGAAACAAAAGCTATTGACTTATTAACAACTAATGGGAAGCACATATTGATTTATGATTATTTAGATTTTCCAATAACAATCATGCTTGCTAACGATATTGTTTTAGGAATTCATCCAGAAGCTGATGAAATTGCGATAATGGTTCCCAATGAAGATTATGTCTATGACGAAATTACATCTATTAATACTTCAAAACCTACACGAGGAAATGTAAAAATTGATTTGTCTGCAAATCATTTAACATCTATAGCAAAGTTCCAAAAAGGTATATTTTATGATCAAGAGCTTTTCAAAGATCCGTTCCTCAGCTTGATATTGGAATACTATAGACGTTAA MYETKAIDLLTTNGKHILIYDYLDFPITIMLANDIVLGIHPEADEIAIMVPNEDYVYDEITSINTSKPTRGNVKIDLSANHLTSIAKFQKGIFYDQELFKDPFLSLILEYYRR NA NA NA NA NA AK015_03298 156 hypothetical protein ATGAATGAATCTAAACAATGCATATTTGAAAAACTTAATAAACATAAATTGTTAGCTAGACTTTTACTTGTAATAGAACAGGATGAGTTTAGTGAAGAAGATATTAAAGAGGGAGTATCTATACTTCACCAAACAGTATTTCCTGAAAAATATTAA MNESKQCIFEKLNKHKLLARLLLVIEQDEFSEEDIKEGVSILHQTVFPEKY NA NA NA NA NA AK015_03299 243 hypothetical protein TTGAATCAAACAAAATCATCAAGTTTAGAATTGCATAGCATTAAAGGGCCAAAACGAACAAGATTGATTCAAGAAAGGAAAAAGAAAAAACTCACACAAAAGGAATTAGCTAAGGAATTAGGTGTTTCGGCTTCCTTAATAGGATTTATTGAGAACGGAAGAACAAAACCAGGATTAGAACTTTCGCTTGCTTTACAAGAATATTTTGGACTGGATTATGAAGATTTATTTCCAGATTTATAA MNQTKSSSLELHSIKGPKRTRLIQERKKKKLTQKELAKELGVSASLIGFIENGRTKPGLELSLALQEYFGLDYEDLFPDL NA NA NA NA NA AK015_03300 222 hypothetical protein ATGAAAAATAAATTGTTAGAAGAACGAAGAAAATTACTTGGATACTCTCACCAAGATGTTGCAAATAAAGTAAATATTGACCGTTCTTATTACACGAAAATCGAAAACGGTTTAACTCCTAGTGTTAAAGTAGCCAAGAATTTAGGGCAACTTATGGAGTTTGATTGGACTATTTTTTTTACTAAAAATAGTGTAAAAAATGCACAAAAACAAGCCATATAG MKNKLLEERRKLLGYSHQDVANKVNIDRSYYTKIENGLTPSVKVAKNLGQLMEFDWTIFFTKNSVKNAQKQAI NA NA NA NA NA AK015_03301 348 xre COG1396 HTH-type transcriptional regulator Xre ATGAAATATGGTGATAGGTTAAAAAAATTAAGAGAAGTAAACAACTTATCTCAGCAACAACTAGCTGATAAATTTAATATAAACAGATCTACTTATGCAAGGTACGAATTGAATCAAACTCAACCAGATTTTGAAATCTTAAAGAAATTAGCTGACTTCTATGAAGTTACTGTGGATTATATATTAGGGCATGAAACGCAAAAGAACGATATAACATATTTTAAAAATAAAATTGCTGAAGAATTTCCAGACATAGACCTCATGTTTAAAGATATGGAATCTTTAACCGCTGAAGATATGAAAGAAGTTTATGAGTATATAAAGTTTAAGAAGAGTCAGAAGAAATGA MKYGDRLKKLREVNNLSQQQLADKFNINRSTYARYELNQTQPDFEILKKLADFYEVTVDYILGHETQKNDITYFKNKIAEEFPDIDLMFKDMESLTAEDMKEVYEYIKFKKSQKK NA NA NA NA NA AK015_03302 144 hypothetical protein TTGAAAAAAATAGCAGGCGCTCTCTTTATTTTATTCGTATTAGCGGCTTGTAGCGAAAAAGTAGATGATAAAGCGCTTGAAAGCATTACTCGGGGGCTTGAAAATCGGTGGGAATATACAGAAAAACTGCCCGATGAAGTATGA MKKIAGALFILFVLAACSEKVDDKALESITRGLENRWEYTEKLPDEV NA NA NA NA NA AK015_03303 729 hypothetical protein TTGGATGAATTACAAGAGTATGATAGCGATGAGTTTAAAGATACTAGTCTATATGTGCTGTACGATAATTATAGAAACGACTTAGAGCTTATTAAAACATTAATGCATGGTAAAAGCGCAGATTCTGCAAAGTTTCAAGATCAATGGAAAAAACATATGGAAGAAAGAGCCAAAACTCTTTATGATTTAAATTCCAATTATGATCTTGAAATAGCTGAGGAAAATAAGGATGTTTTCGACGATGTTTTGGCTAATTCTGAGCAATTAGTAGAAAAAGAAGACATAGAAAAAAGTTTATCAAAGATCAAAGCTCTAGATGAGGTAGAAGTAGTAGTCGAAGATAATTCCATATCGATCACTTATCACACCGAAAGCGCTTTGAGCGCTGATTCCTTTGTAAATAGTAAAACGGGATTCCCATCCTACGCAATGGAAATACTCTCAGTAATGAGAGATTACAATTATGGAAATATTGTAGTATCTACTATAAATCAAGACACAATAGCTTTATCATCATATTTTACTAAAAACTCTTTAGATGGTATTGACTTTGATAAATGGGAAGACTTAGATAGCCTAGATGCTTATAAATTTTATAATATGTCAGATGCTTACCATATAAGACGAGGGATATGGGAAGATTTAGAAGATGAGACTAAACAGCTATTAGGTGAGATGAATAAAGACAATTCCAGTAATTTTTGGAAATTACATGGATATTCTAAGTGA MDELQEYDSDEFKDTSLYVLYDNYRNDLELIKTLMHGKSADSAKFQDQWKKHMEERAKTLYDLNSNYDLEIAEENKDVFDDVLANSEQLVEKEDIEKSLSKIKALDEVEVVVEDNSISITYHTESALSADSFVNSKTGFPSYAMEILSVMRDYNYGNIVVSTINQDTIALSSYFTKNSLDGIDFDKWEDLDSLDAYKFYNMSDAYHIRRGIWEDLEDETKQLLGEMNKDNSSNFWKLHGYSK NA NA NA NA NA AK015_03304 468 hypothetical protein TTGTACACGCACCTTGAAGATTACATATATGAACTATACACATCAATTGAAATTAAAATTCCTGCTGATTTAGACAAACAAATAATAGCTAAGAAATTAGGTGTAGAGATAATTTACGAAGAAGATAAGCTATTTAGATTTGACAAAGAAATAAGTTTAATTAGAAGCGATGTGAGGCAAGAGTGGATGGATTTTGGTCATGAAATTGGTCACTATCTAAGACATTGTGGATGTCAGCTGAATATGCATCGTTTGTTTATAGATTTACAGGAATGGCAAGCGAACAACTTTGCTTATCATTTTTGCGTACCTACATTTATGTTGGACAATCTATACAACTATAAAATATATGACATTATGCAACTATTTAATGTTGATTATGATTTTGCTTACACAAGATTAGAAATGCACAAAAGTAAAATGTTAACTGGAGGTTATTTTAATGAAGCTTATCTCACTAGAGCATAA MYTHLEDYIYELYTSIEIKIPADLDKQIIAKKLGVEIIYEEDKLFRFDKEISLIRSDVRQEWMDFGHEIGHYLRHCGCQLNMHRLFIDLQEWQANNFAYHFCVPTFMLDNLYNYKIYDIMQLFNVDYDFAYTRLEMHKSKMLTGGYFNEAYLTRA NA NA NA NA NA AK015_03305 162 hypothetical protein ATGAAGCTTATCTCACTAGAGCATAAAAGAAGGAAGAAAAAGGCTGAAGAAATAGTAAAAGTTCCACTATACGACAAAGTCTTTATTGATGAAAATGGAAAATTAACAGGTAACATTATTGATTATATCGATACACCTAAGCATTGGTTAAAGGAGGGGTGA MKLISLEHKRRKKKAEEIVKVPLYDKVFIDENGKLTGNIIDYIDTPKHWLKEG NA NA NA NA NA AK015_03306 1203 xerC_5 Tyrosine recombinase XerC ATGCACTGCTATCAAACCAAAACTAAATCCGGACAATTAAGATGGGTTTGCATGGAAGATGCATCACGTGATCCAGCTACTGGTAAAAGACGACAAATTGTAAGGAGAGGAAAAACACAAAAAGAAGCAAAAAAGCGTGTTTTAGACGCTATTAGATCACTTGAGGAAGATAATATTGATCAAAGCATGGGGAAGAAAATCACATTTGAAATGGTAGCAAAACATTGGTTAGAAGTCTATACGCTAACAGGTGTTAAACGTAGCACAATCCGCATTAGAGAAAAGGAAATAAAAATTTTAAAGAAGCACATTGCCAAAACTCCTATAGCTCATGTAACACACGCTCAATATCAAAGACTGTTAAATGATATTGCTCCTAATTATGCTAGGACAACCGTGCAAGGGGTAAATACGACAGCTGGAATGATATTCAGACAAGCAATCAAAGATAAACTAATAAAAGATAACCCTCAAAACGGGGTAGTTGTTCCTAAAAAAAGAAAAACAGTTGAAGAAATTGAAAAAGATCCAATTGAAACTAAATACTTGGAACGTAAAGAACTTGATGATTTTCTTAAAGCTGTACGTGAACATGGATTGGATTTAGATCTTGAAAGATTTTATCTATTGGCGTTTTCTGGAATGCGTTCAGGAGAATTACTTGCTTTAAAATGGACAGATATTAACTTTAAAAGTAATGAAATTAGAATTACAAAGACGCTTTATAACGAAAATAACAACATGAAAAAATACCAATTAACACCGCCTAAGACAGAAGGAAGCATTCGAACAATAAATGTAGAAGAAGAGATTATAAATTTATTAAAATCTCACTACAGAAGGCAAAGTAAAACCAAGATGAAATATAGGCATGAATTAGAAGAGTACCACGATGGAAATTTTGTGTTTAGCAGACCTAACGGTTATCCATTTATCCAGAAAAATATTATTACCAGGATGAACCGATTACTTGAATATACCAATATTACTAAAAAAGCTACCCCTCACATTTTTAAGCATACCCATATTAGTATGATGACTGAGGCCGGAATCGATTTGGCAACTATTATGGAAAAAGTAGGTCATGAGGATATGAAAACAACTATGAAAATTTATACTCACGTAACAAATAAAATGAAAAAGGACGCCTCTGCAAAAGTAAGAACTTTATACAAAGACGCCCTTTCTAACTTAATTTCTTAA MHCYQTKTKSGQLRWVCMEDASRDPATGKRRQIVRRGKTQKEAKKRVLDAIRSLEEDNIDQSMGKKITFEMVAKHWLEVYTLTGVKRSTIRIREKEIKILKKHIAKTPIAHVTHAQYQRLLNDIAPNYARTTVQGVNTTAGMIFRQAIKDKLIKDNPQNGVVVPKKRKTVEEIEKDPIETKYLERKELDDFLKAVREHGLDLDLERFYLLAFSGMRSGELLALKWTDINFKSNEIRITKTLYNENNNMKKYQLTPPKTEGSIRTINVEEEIINLLKSHYRRQSKTKMKYRHELEEYHDGNFVFSRPNGYPFIQKNIITRMNRLLEYTNITKKATPHIFKHTHISMMTEAGIDLATIMEKVGHEDMKTTMKIYTHVTNKMKKDASAKVRTLYKDALSNLIS NA NA NA NA NA AK015_03307 1638 groL 60 kDa chaperonin ATGGCTAAAGAAATTAAGTTTAGTGAAGAAGCACGTCGCGCAATGCTACGTGGTGTAGATACATTAGCGGATGCGGTAAAAGTTACATTAGGACCTAAAGGACGTAACGTTGTATTAGATAAAAAATTCGGTTCACCGCTTATTACGAATGATGGTGTTACGATTGCAAAAGAAATTGAGCTTGAAGATCAGTTTGAAAATATGGGTGCACAACTCGTATCTGAAGTTGCTTCTAAAACAAATGATGTTGCTGGTGACGGTACAACCACAGCAACTGTACTCGCTCAATCCATGATTCGTGAAGGGTTGAAAAACGTTGCTTCTGGAGCTAACCCTGTTGGTGTTCGTCGTGGAATCGAAAAGGCTGTTGAAGTAGCAGTAAATGAACTAAAAACGATTTCCAAGCCAATCGAAAGCAAAGAATCTATCGCTCAAGTAGCAGCAGTTTCTTCTGATGATGCAGAAGTAGGTAACCTTATTTCTGAAGCAATGGAACGTGTTGGTAACGATGGTGTTATTACCATTGAAGAATCAAAAGGTTTTAACACAGAGTTAGAAGTAGTAGAAGGTATGCAATTTGACCGTGGATATGCTTCTCCATACATGGTAACAGACCAAGACAAAATGGAAGCTGTTTTAGAAGATCCATACATTCTAATTACAGATAAGAAAATCGGTAACATTCAAGAAGTATTGCCTGTACTAGAGCAAGTTGTTCAGCAAGGTAAACCTTTATTGATGATCGCTGAAGATGTAGAAGGCGAAGCGTTAGCTACACTTGTTGTTAACAAATTACGTGGTACATTTAACGCAGTAGCTGTTAAAGCTCCTGGGTTCGGTGACCGTCGTAAAGCAATGCTTGAAGATATTGCTACACTAACGGGCGCTGAAGTTATTACAGAAGACCTTGGTCTAGATCTTAAGAGCGCTACAATGGATCAACTAGGTCGTGCTGCTAAAGTAGTAGTTACAAAAGAAAACACTACAATCGTAGAAGGTTCTGGAAATCCAGAAGCAATTTCTGCGCGTGTTGCACAAATCCGTGCGCAAGCTGAAGAAACAACTTCAGAATTTGATAAAGAAAAACTACAAGAGCGTCTAGCTAAGCTAGCTGGTGGAGTAGCAGTAGTGAAAGTTGGAGCTGCAACAGAAACCGAACTAAAAGAGCGTAAACTACGTATTGAAGATGCGCTAAACTCTACACGTGCTGCTGTACAAGAAGGTATTGTTGCTGGTGGTGGTACAGCATTCATGAATATTTACAACAAAGTAACTGAATTGAACCTTGAAGGAGACGAAGCAACTGGTGCTAACATTGTACGCCGTGCTATGGAAGAACCAGTACGTCAAATCGCACACAATGCTGGTCTTGAAGGATCTATCATTGTTGAGCGTCTAAAAGGTGAAAAAGTAGGTGTTGGTTACAACGCTGCTACTGGTGAGTGGGTAGATATGGTTGAAGCTGGTATCGTTGACCCAACAAAAGTTACTCGCTCTGCACTACAAAACGCTGCATCTGTAGCTGCAATGTTCTTAACGACAGAAGCGGTAGTCGCTGACAAGCCTGAAGAAGACGGCGGCGCTGGCGGCGGAATGCCTGATATGGGCGGCATGGGTGGAATGGGCGGCATGATGTAA MAKEIKFSEEARRAMLRGVDTLADAVKVTLGPKGRNVVLDKKFGSPLITNDGVTIAKEIELEDQFENMGAQLVSEVASKTNDVAGDGTTTATVLAQSMIREGLKNVASGANPVGVRRGIEKAVEVAVNELKTISKPIESKESIAQVAAVSSDDAEVGNLISEAMERVGNDGVITIEESKGFNTELEVVEGMQFDRGYASPYMVTDQDKMEAVLEDPYILITDKKIGNIQEVLPVLEQVVQQGKPLLMIAEDVEGEALATLVVNKLRGTFNAVAVKAPGFGDRRKAMLEDIATLTGAEVITEDLGLDLKSATMDQLGRAAKVVVTKENTTIVEGSGNPEAISARVAQIRAQAEETTSEFDKEKLQERLAKLAGGVAVVKVGAATETELKERKLRIEDALNSTRAAVQEGIVAGGGTAFMNIYNKVTELNLEGDEATGANIVRRAMEEPVRQIAHNAGLEGSIIVERLKGEKVGVGYNAATGEWVDMVEAGIVDPTKVTRSALQNAASVAAMFLTTEAVVADKPEEDGGAGGGMPDMGGMGGMGGMM PGPT0014570_3650 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077 NA NA AK015_03308 285 groS COG0234 10 kDa chaperonin ATGATTAAACCACTAGGAGATCGCGTTGTTATCGAGCTTGTTGAACAAGAAGAAAAAACTGCAAGCGGTATCGTACTTCCTGACTCTGCACAGGAGAAACCACAGGAAGGTACAGTAGTTGCAGTTGGTTCTGGGCGTGTAACAGAAAAAAATGAAAAGGTTGCCTTAGAAGTGGCTGAAGGAGACCGTATCATCTTTTCAAAATTTGCCGGTACGGAAGTGAAATACGAAGGCAAAGAATACTTAATTCTTCGTGAAAATGACATCCTGGCTGTAGTAAGCTAA MIKPLGDRVVIELVEQEEKTASGIVLPDSAQEKPQEGTVVAVGSGRVTEKNEKVALEVAEGDRIIFSKFAGTEVKYEGKEYLILRENDILAVVS PGPT0014565_4679 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078 NA NA AK015_03309 705 MroQ Membrane-embedded CAAX protease MroQ TTGCCAAAAAGATATTGGTGGGTTATTATTAGCTACATTATTACACAATTTTCGGTTATATTAACTGGGAGTATCGTCTATACCGCATTTCCTGTTTCCAAATTAGAGGCATCCATTTATGGAGGGGTAATTAGTTTTCTATTAGGTCTTATTGTTGTACTACTATTAATGCGACCCGACTTGAAACAAGGATTACAACAGCGCGACGGTGCATCAATTTGGGGTATCATTACTTGGTCTATTTTAGGTACATTTATGGCTATATTTAGCCAAGGCATCGCAAATTTCATTCAGATAATGCTTCTAGGAATCGAACCCGGTTCAGAAAATACACAAGGAATAATGGCAATGGCTCGTGCTGTTCCTTTGTTTGTAATTATTCCAGTTTTGACTGCTCCTATTTTAGAAGAAATTATTTTTCGCAAAATTATATTTGGAAATCTATATAAACGAACGAATTTCTTTATTGCAGCGCTCATATCTGCGGCTCTTTTCGCGATTATTCATGGCGAACCACAACATATTTTAGTTTACGGAACAATGGGGCTTGTATTTGCTTACTTGTATGTGGAAACGAAACGAATTATCGTACCCATATTTGCTCACATGGCTATGAATGGACTAGTTGTTATTGCGCAATACAATCTTGATCCTGCAGAGATAGAAAAGCAACTAAACGAGCTACAAACCGTCCTTTTATCATAA MPKRYWWVIISYIITQFSVILTGSIVYTAFPVSKLEASIYGGVISFLLGLIVVLLLMRPDLKQGLQQRDGASIWGIITWSILGTFMAIFSQGIANFIQIMLLGIEPGSENTQGIMAMARAVPLFVIIPVLTAPILEEIIFRKIIFGNLYKRTNFFIAALISAALFAIIHGEPQHILVYGTMGLVFAYLYVETKRIIVPIFAHMAMNGLVVIAQYNLDPAEIEKQLNELQTVLLS NA NA NA NA NA AK015_03310 201 hypothetical protein ATGAAGATTTCTCCCAAAACAATGGGAATTATCTACCTTATTATGGGAGCATTTTTCACTTATGTTGCTATTTTAAGTGTAGACGAAACAATGTGGAATATAACAACAATGGTGTTAGCATTATTCGCCACACTGGAGACAGGTGTAGGCATCCGCTTAATCGCCATTCATATTCGACAAAAACGCAACAATAAAACATAA MKISPKTMGIIYLIMGAFFTYVAILSVDETMWNITTMVLALFATLETGVGIRLIAIHIRQKRNNKT NA NA NA NA NA AK015_03311 666 rex COG2344 Redox-sensing transcriptional repressor Rex ATGATGGAGCAAAATAAAATACCTCAAGCGACTGCTAAAAGATTACCTTTATATTATCGATTCATAAATAATTTAAATCATCAAGGGAAAAAGCGTGTTTCTTCTAAAGAATTAAGTGATGCGGTAAAAGTAGATTCAGCTACCATTCGCCGAGATTTTTCCTATTTTGGCGCTCTAGGTAAAAAAGGGTACGGTTATAATGTGGAGTATTTGCTTGAATTTTTTCGGAAAACATTAGATCAAGATGAAACAACAGAGGTTGCACTAATAGGCGTTGGGAATTTAGGTACTGCATTTTTACATTATAATTTTATGAAGAATAATAATATTGCGATTAAAATGGCATTTGATAGTAACCCTGAAAAAGTCGGCACGATGGTTAGTGATGTACCTGTTTATCATATAGAGGAATTAGAGGATAGATTGGGTGATATTAAAGTGGCCATATTGACTATTCCTGGAAGTGAGGCACAACCTATGGCTGATCATTTGGTTAATAGGGGAGTGGAAGGGATACTCAATTTCACGCCAGCAAGAATAACTGTACCAAAGCATATCCGCGTACATCATATCGATCTAGCTGTGGAGTTACAAGCATTAGTTTATTTCTTAAAACATTATCCTCTAATTACAGAGGATGAAGAAGAGGAAGTACCCATGGATTGA MMEQNKIPQATAKRLPLYYRFINNLNHQGKKRVSSKELSDAVKVDSATIRRDFSYFGALGKKGYGYNVEYLLEFFRKTLDQDETTEVALIGVGNLGTAFLHYNFMKNNNIAIKMAFDSNPEKVGTMVSDVPVYHIEELEDRLGDIKVAILTIPGSEAQPMADHLVNRGVEGILNFTPARITVPKHIRVHHIDLAVELQALVYFLKHYPLITEDEEEEVPMD NA NA NA NA NA AK015_03312 1929 yheS COG0488 putative ABC transporter ATP-binding protein YheS ATGATACGAATGCAAATGAACGGTCTTTCAAAATCATTTGGTGCTGATGAAATTTTATCAAATATAAAGCTAGAAGTAAAAGACCATGATCGAATAGCTATCGTGGGAAGAAATGGCTCCGGAAAATCAACATTATTAAAAATAATGGCAGGGGAACTAAGTTATGACCAAGGTGAATTATTTATGCCTAAAGACCTTACTTTGGGTTACCTAGCTCAACATACTGCACTAGAGTCTGAAAAAACAATTTGGCAGGAGATGCTTACTGTTTTCCCTGAATTAACGAAACAAGAAAAACAACTGCGAATAATTGAAGAAAAGATGGAACAGGCAACAAGTTATACTTCTGAAGCCTATGAAAAACTATTGCATGATTATGACCGTTTACGTCACGCTTATGAACAAAATGGCGGATATACATATGAAGCGGATATAAAAGCGGTATTAACAGGGTTGAATTTTCATTTGTTTGACTATGATACACCTATTCAAACGCTAAGCGGCGGTCAAAAAACACGACTTTCATTAGGAAAGCTGCTATTAAAAAAACCACAATTACTCATTTTAGATGAACCGACCAACCATTTAGATATTGCAACGTTAAATTGGCTAGAAAGCTACATAAATAGTTATCCTGGTGCGATAGTAGTCGTTTCCCACGATCGTTACTTTCTAGATAAAACGGTATCTATTGTGTATGAAATAGCTCGCCATCAAACAAAGCGTTATGTCGGAACATATAGCAAGTATTTAGAGCAAAAAGCGCTTGATTTCGAAAGAGAGTGGAAAGAATACGAAAAGCAACAGACTGAAATCAAGAAAATGGAAGACTTTATTCAACGTAATATTGTACGAGCTTCAACTACAAAACGAGCACAAAGCAGAAGGAAACAACTAGATAAAATGGATAAAATAGACAAACCATTAGGGGATGAAGCCTCTGCTTCTTTCTCGTTTCAAGTAAGCCGCCGGAGTGGCAACGATGTGTTGAAAATAGATAATTTATTATTTCGATATCCGAATGAAGAAGAAAATTTATTCCAAAATGTACATTTGCAAATCAATCGCGGAGAAAGCGTGGCTCTAGTTGGTCCAAACGGAGTTGGGAAAACGACGCTACTAAAAATTGTGTTGGGAAAATTAAAAGCGATCCAAGGGACTGTACAGCTCGGAACAAACGTACAAATCGGCTACTATGACCAAGAACAAGCAAACTTAAACTCTTCTAAAACCGTGTTAATGGAATTATGGGATGACTATCCAACCACAAATGAAAAAGATATTCGGACTGTTCTCGGTAATTTCTTGTTTTCTGGTGAAGATGTATTAAAGCCTGTAAATGCATTAAGTGGCGGTGAGAAAGCACGCCTGGCTTTAGCAAAATTAATGATGCAACAAGCTAATTTTCTAATTCTTGATGAACCAACCAACCATTTAGATATTGATAGTAAAGAAGTACTCGAAGCTGCCTTAATAGATTTTCCTGGTACGATTTTATTCGTTTCTCATGACCGTTACTTTATTAATAAGATTGCTGATCAAGTAGTTGAAATGCAAAAGGTGAAAACAACCATTTACCTTGGCGATTACGATTATTATTTAGAAAAAAAAGCGGAGGAAGCTGAATTAAAACGATTAAACGAATCATCCAATCAAAGTGAACAAGCTCCCGCTTCAGAAAGAAAACGCCATTTTGAACGCGATAAGCAATTACAGCGCGAGCAAAGAAAGAAAAAAAGACGAATTGAAGAACTTGAAACTGAAATTGAACAGTTAGAAAACGATATAGAGCAGCTAGAAAGTCAGATGGAGTTACCAGAAATCTTTCAAAACCATGAAAAAGCATTAGAATTGTCAGAAGAAGTCAATCGCCGTAAACAAAAAGTGAACCTCTTCATGGAAGAATGGGCAGACTTACTAGAAGATTAA MIRMQMNGLSKSFGADEILSNIKLEVKDHDRIAIVGRNGSGKSTLLKIMAGELSYDQGELFMPKDLTLGYLAQHTALESEKTIWQEMLTVFPELTKQEKQLRIIEEKMEQATSYTSEAYEKLLHDYDRLRHAYEQNGGYTYEADIKAVLTGLNFHLFDYDTPIQTLSGGQKTRLSLGKLLLKKPQLLILDEPTNHLDIATLNWLESYINSYPGAIVVVSHDRYFLDKTVSIVYEIARHQTKRYVGTYSKYLEQKALDFEREWKEYEKQQTEIKKMEDFIQRNIVRASTTKRAQSRRKQLDKMDKIDKPLGDEASASFSFQVSRRSGNDVLKIDNLLFRYPNEEENLFQNVHLQINRGESVALVGPNGVGKTTLLKIVLGKLKAIQGTVQLGTNVQIGYYDQEQANLNSSKTVLMELWDDYPTTNEKDIRTVLGNFLFSGEDVLKPVNALSGGEKARLALAKLMMQQANFLILDEPTNHLDIDSKEVLEAALIDFPGTILFVSHDRYFINKIADQVVEMQKVKTTIYLGDYDYYLEKKAEEAELKRLNESSNQSEQAPASERKRHFERDKQLQREQRKKKRRIEELETEIEQLENDIEQLESQMELPEIFQNHEKALELSEEVNRRKQKVNLFMEEWADLLED NA NA NA NA NA AK015_03313 1173 rodA_2 COG0772 Peptidoglycan glycosyltransferase RodA ATGTCAAAAAAGCAATCCTATTATATACAAACAGATTTAATCTCTATATTTATATTACTTGTATGTGTCAGTTTGCTTTCGATCTATAATGCACAACAGTTAGAACAGTACAGCACAAACTTTATGCTGCAGCAAGCAGTTTGGTTTACGGTCGGAATTGGTATCGTTGCAGCTATACAATACTTAGATATGGAGCAAATATATAAAGCAAGTGGATACATTTATGCATTTGGTGTATTCGTACTCTTGGTGTTACTAATTAGCCCAGAAAGTATTGCACCATATACAAATGGAGCAAAAAGTTGGTTTAATTTAAGGGTTGCTACAATACAACCTTCCGAATTTACAAAAATAACGACCATCATTTATATGGCTACAGTTATTCAAAAGCATAAAGAAAAATTTATTAAACCAAGCATTAAATCCGATATTAAACTGCTTATTAAAATTTTGGCCGTGGTAGCTGTACCTGTGGCACTAATTATGAAGCAACCTGATTTTGGAACGTCAATGGTTTATTTATTTATAGCTGGGGTTATCATTATCCTTTCAGGTATTCATTGGAAAATACTAACGACATTAATTGTGAGTATCACTTCTGTTGCTGGAGCTACGCTAGCTTTTATTGTAAAATTTCCTGATTTAGCAAAGCAGCTAGTCGGCGAGGGACAAAAATATCAAATAGATCGCATACTAACTTGGTTTGATCCATCTCAACAAGCAAGTGATGCAAATTGGCATTTTAATCAAGCTTTTATGGCACTCGGGTCTGGTCAATTGTTTGGTAAAGGAATGGGGAGTCAGGAGGTGTCGTTTCCCGAAGCGCAAACGGATTTTATTTTCTCCATCATCGGGGAGAGTTTCGGCTTCGTTGGCGGCGCACTTGTGATCTTTTTATACTTTATCTTTTTATATAAATTAGTAATGATTGGCTTATCTATTTATAGCCACTCCCCGTTTTCCGCTTATATTTGTTTTGGGTTTATGAGTTTATTGCTTGTTCACGTCTTTCAAAATATTGGTATGGCGCTAGGTATTATGCCGGTAACAGGAATACCGCTACTTTTTATAAGTTATGGAGGTAGTTCTGTAATGGCTTCTATGCTTGGTTTTGGAGTTATTTATCGGATAGCTGTGGAAAACTCTATTCAAAATGATTATTTATTTAAATAG MSKKQSYYIQTDLISIFILLVCVSLLSIYNAQQLEQYSTNFMLQQAVWFTVGIGIVAAIQYLDMEQIYKASGYIYAFGVFVLLVLLISPESIAPYTNGAKSWFNLRVATIQPSEFTKITTIIYMATVIQKHKEKFIKPSIKSDIKLLIKILAVVAVPVALIMKQPDFGTSMVYLFIAGVIIILSGIHWKILTTLIVSITSVAGATLAFIVKFPDLAKQLVGEGQKYQIDRILTWFDPSQQASDANWHFNQAFMALGSGQLFGKGMGSQEVSFPEAQTDFIFSIIGESFGFVGGALVIFLYFIFLYKLVMIGLSIYSHSPFSAYICFGFMSLLLVHVFQNIGMALGIMPVTGIPLLFISYGGSSVMASMLGFGVIYRIAVENSIQNDYLFK NA NA NA NA NA AK015_03314 1011 tsaD COG0533 tRNA N6-adenosine threonylcarbamoyltransferase ATGAGTAAAGAAGTAGTAATATTAGGTATTGAAACAAGTTGTGATGAGACGGCAGTTGCAATTGTCAAGAATGGCAAAAAAATCTTGTCCAATGTCGTTTCATCACAGATTGAAAGCCATAAGCGGTTTGGTGGTGTTGTCCCAGAAATTGCTTCCCGACATCATGTAGAGCAAATTACATATGTTTTAGAAGAAGCTATGGAACAAGCAGCTATTAGTTGGAGTGAAATTGACGGGATCGCTGTAACAGAAGGACCAGGTCTAGTGGGAGCACTGTTAGTTGGTGTGAATGCAGCTAAAGCTCTGGCCTTTAGTAAACATAAGCCATTAATTGGTGTACATCATATAGCAGGTCATATCTATGCAAATCGCTTGCAGGATGAATTTAAATTTCCTTTATTAGGACTGATCGTCTCCGGCGGGCATACAGAGTTAGTAATTATGAAAGCGCATGGTGAGTATGAAGTCATTGGCGAAACAAGAGATGATGCAGCGGGAGAAGCATATGATAAAGTAGCAAGGCTATTAAATCTACCTTATCCAGGTGGTCCCGAAATTGATAAGTTAGCAAAACGAGGAGAAGAAACGATTGATTTTCCAAGATCTTGGTTGGAGCCAGATAGTTATGACTTCAGTTTTAGTGGATTAAAATCATCGGTTACAAATACAATTCATAATGCAAAACAACGTGGTGTATCGTTAAAAGCAGAAGATATTGCTGCAAGCTTTCAAGCTAGTGTAGTAGATGTATTAACCATGAAAACAGTACGTGCAGCTAAAGAGTACCATGTAAAACAAGTCATCGTAGCTGGAGGTGTGGCGGCTAATAAAGGGCTTCGATCTTCTTTACAGCAGGAATTTGCCAACTTACAAATCCCTTTACAAATTCCGCCACTTTCTTTATGTACAGACAATGCTGCGATGATTGCAGCTGCTGGTACAATTGCTTTTGAGCAAGGGAGAAGGTCTGGACTAGATTTAAATGCTCGAGCGTCCATGCTGTTAAAGTAA MSKEVVILGIETSCDETAVAIVKNGKKILSNVVSSQIESHKRFGGVVPEIASRHHVEQITYVLEEAMEQAAISWSEIDGIAVTEGPGLVGALLVGVNAAKALAFSKHKPLIGVHHIAGHIYANRLQDEFKFPLLGLIVSGGHTELVIMKAHGEYEVIGETRDDAAGEAYDKVARLLNLPYPGGPEIDKLAKRGEETIDFPRSWLEPDSYDFSFSGLKSSVTNTIHNAKQRGVSLKAEDIAASFQASVVDVLTMKTVRAAKEYHVKQVIVAGGVAANKGLRSSLQQEFANLQIPLQIPPLSLCTDNAAMIAAAGTIAFEQGRRSGLDLNARASMLLK NA NA NA NA NA AK015_03315 459 rimI COG0456 [Ribosomal protein S18]-alanine N-acetyltransferase GTGATGAAGCAGGAAGTTAACATAAGAAAAATGCGAGTAGCAGATATTGATGCTGTTATGTATGTGGAGAAAGAATCATTTGCTACAGCTTGGTCAGAGGAAATTTTTAAACAGGAGCTTGTTGAAAATCCATATGGCCATTATTTTGTTATTGAATGTAATGGAGAGATTGTCGGTTATGTAGGCATATGGATTGTCTTTGATGATGCACAAATAACCAATATTGCTATTTTGCCATCTCAGCGTGGAAGAAAATTAGGTGAACAGCTTTTCCGACATGTATTTAAATATGCACTTATCTATGGAGTGCGTCGTTTATCATTAGAGGTGCGAAAGTCTAATATTGTTGCTCAAAAGCTCTATCGCAAATTTGGGCTTGTAGCTGGTGGCATTAGAAAGCAATATTATACAGATAATCAGGAGGACGCAATTGTGATGTGGGTGAATATAAATGAGTAA MMKQEVNIRKMRVADIDAVMYVEKESFATAWSEEIFKQELVENPYGHYFVIECNGEIVGYVGIWIVFDDAQITNIAILPSQRGRKLGEQLFRHVFKYALIYGVRRLSLEVRKSNIVAQKLYRKFGLVAGGIRKQYYTDNQEDAIVMWVNINE NA NA NA NA NA AK015_03316 696 tsaB COG1214 tRNA threonylcarbamoyladenosine biosynthesis protein TsaB ATGAATATACTTGCAATGGATACATCGAATCAAGTATTAGGTGTTGCCATTCAACAAGATGATACAATACTAGGTGAAATGGTTACAAATTTACCTAAAAATCATTCCGTTCGATTAATGCCTGCTATAGATAGACTAATGCAGGAAGTAAATATGAAACCAGAACAGTTGGACAAAATAGTAGTAGCTAAAGGGCCAGGTTCTTATACAGGTGTTCGTATAGGATTATCTACAGCAAAATCGATGGCGTGGGCGTTAAATATACCTGTTATTGGCGTATCAAGCTTAGAAGTGCTTGCTTATCAAGGACGTTTTTTTAATGGTATTATTTCCCCTTTCTTTGATGCTAGAAGAGGGTTAGCCTATGCAGGGTGCTATCGTTTTGTAAATAATCAGTTACAACTTTTCAGAAAAGAAGAAAATGTTGCTATGCAGGATTTTCTTGAGGAACTTAAAAGCTTGGAAAAATCAATTTTATTTTTAAGTCCAGACATATCCATTCATCAAGAACAAATTATATCAATAGTAGGGAATAGAGCAGTGATCCCAGAAGAGCAGGTTCATGTAATTCGTCCTACGCATTTAATTGCAGCGGCTAAAGAAAAACAAGTAGGGTCTACACATACACTACGTCCTAATTACCTTCGTTTAGCAGAAGCTGAGGCTAAATGGTTAGAAAGTAATAAAGGTTGTTAA MNILAMDTSNQVLGVAIQQDDTILGEMVTNLPKNHSVRLMPAIDRLMQEVNMKPEQLDKIVVAKGPGSYTGVRIGLSTAKSMAWALNIPVIGVSSLEVLAYQGRFFNGIISPFFDARRGLAYAGCYRFVNNQLQLFRKEENVAMQDFLEELKSLEKSILFLSPDISIHQEQIISIVGNRAVIPEEQVHVIRPTHLIAAAKEKQVGSTHTLRPNYLRLAEAEAKWLESNKGC NA NA NA NA NA AK015_03317 450 tsaE COG0802 tRNA threonylcarbamoyladenosine biosynthesis protein TsaE ATGTATGAAATAATAACAAATACAGAAGAAACAACCATAGATTTAGGCGAAAAGTTGGCTTTGTTATTGAGTCCTGGAGATGTTGTTACGTTAGAAGGCGATCTTGGTACGGGAAAAACTACATTCACAAAAGGCTTAGCTACAGGGCTTGGAGTAAAACGACATGTATCTAGCCCGACATTCACAATTATTAAGGAATATGAAGGTGAATTGCCTCTTTATCATATGGATGTGTATCGGTTGGAAAATAGCGAAGAGGATATAGGTTTTGATGAGTATTTTCATGGAGAAGGAATAACGGTTGTGGAATGGCCGCAATTTATAGCTTCTTTCTTACCAGGAGAGTATTTGGAGGTAAAGCTTGCTAGTATTGACGAAAAATCACGAAAGTTTACCTTTATCCCACATGGTTATCACCATGAATGGGTAGTAGAACAGTTAAAAAGTTAA MYEIITNTEETTIDLGEKLALLLSPGDVVTLEGDLGTGKTTFTKGLATGLGVKRHVSSPTFTIIKEYEGELPLYHMDVYRLENSEEDIGFDEYFHGEGITVVEWPQFIASFLPGEYLEVKLASIDEKSRKFTFIPHGYHHEWVVEQLKS PGPT0019050_194 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019050-amgK-K07102 NA NA AK015_03318 969 thiL COG0611 Thiamine-monophosphate kinase GTGGATGAGTTTCAATTTATAAACACAATTAAACAAAATTACTACAGACAGTCATCTGTGGTAAAAGGTATAGGCGATGATGCAGCCGTTTTTCGGCAAAATACAAAAGATATCGTTACTGCTGTTGATACGTTTGTGGAAGGTGTTCATTTTCGAAAAGATACGATGTCTGCTTATGATATTGGTTTTCGTGCTTTAGTGGCAAATATTAGTGATTTAGCTGCTATGGGTGCTCAACCTGCTTTTTATTTGGTTTCCATTGTTTTTCCCAGCCATTGGTCCCCACAAGAAGTGCAGCATATTTTCCAAGGAATGAAGGCAATAGGAAGAAGTTATAATATGGATTTAATTGGGGGGGACACAGTGTCTGGAAACGAACTCGTTTTAACAATTACTGTTATAGGCTATGTTGAAAAAGCACAAGCTCGATATAGACATCATGCCAGAGCTGGTGATATTGTCTTTGTTACGGGAACTTTAGGTGATTCACAAGCTGGTTATCATATTATAACAAATCAAAAGAAGTATAAAGATGCTGCTTATTACACGGAACGCCACCGAAGACCAGTTCCTCGAGTTGATTTTGCTCTTGGGATACCTAGAACAGTTCGCGTTGCGTTAAACGATGTGAGTGATGGTATAGCTAATGAGGCTGCAGAGATAGCAACAGCATCAGATGTAAGCATGCAACTTTTTGATGAAGCCATTCCGGTCCATGAGAGTTTTCATCAGTTTTCTAAGTCTAAGCAGTATCAATGGAAGTATTTTGGCGGAGAGGACTTTGAATTAATAGGTACAGTTGCTGCAACGAATTGGGATATATTAGTTGATACTGCAAAAAGAGTCAATTTACAACTGACGCAAATAGGAAAGGTATTTTATGAACCCGAATATAATCATGTTTACATAAACAAAGGAAATCAGCAATTAGAAAGATTGCTACAAAAAGGGTATAATCACTTAAAGTAG MDEFQFINTIKQNYYRQSSVVKGIGDDAAVFRQNTKDIVTAVDTFVEGVHFRKDTMSAYDIGFRALVANISDLAAMGAQPAFYLVSIVFPSHWSPQEVQHIFQGMKAIGRSYNMDLIGGDTVSGNELVLTITVIGYVEKAQARYRHHARAGDIVFVTGTLGDSQAGYHIITNQKKYKDAAYYTERHRRPVPRVDFALGIPRTVRVALNDVSDGIANEAAEIATASDVSMQLFDEAIPVHESFHQFSKSKQYQWKYFGGEDFELIGTVAATNWDILVDTAKRVNLQLTQIGKVFYEPEYNHVYINKGNQQLERLLQKGYNHLK PGPT0009010_2354 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 AK015_03322 402 ykqA COG2105 Putative gamma-glutamylcyclotransferase YkqA ATGACAACTTATTACGTATTTTGTTATGGTACATTACGAAAAAATCAAGCTAACCATCATGTATTAAGCGGAGCAATTTGTATTTCAGAGTATTGTTGGGTAAAAGGGACACTGTTTGATACGAAAAGAGGCTATCCCGTCTTACATAAGATCGATAAATTGGATGCAGTGTATGGTGAGCTGTACCAAGTTGATAAAGCTGGATTACATCTTTTAGATGAACTGGAAGGATATACAAGCTGTGAAGCAAATGATAACTTGTATGAACGCATGATACAAACTGTCTTTACAAAGCAGGGGGAATTGGACGCATTTGTGTATATAGAAGGAAAAAATCAATCTATGTGTGAAATGTATATTAAATCTGGAGATTGGAATACCTATTGTTCGCAGGAACAGTAA MTTYYVFCYGTLRKNQANHHVLSGAICISEYCWVKGTLFDTKRGYPVLHKIDKLDAVYGELYQVDKAGLHLLDELEGYTSCEANDNLYERMIQTVFTKQGELDAFVYIEGKNQSMCEMYIKSGDWNTYCSQEQ NA NA NA NA NA AK015_03323 498 hypothetical protein ATGGAAATGCCAATAAAATTTATAGAAGGAAGGCGTATATATCTTCGTCCGATTGAAGATGAAGACGAAGACGTCCCCATGTTGTATGCAAATCTTTGGGATCATGAAGAAAGACGGTTTACAGGAACACAAGCTAAATTTAGTCTTAAAGGTGTAGAACAGTTTATTACCTCTGCTGCTAATGATCAGACTAGAATGGATCTGTTAATTTGTCTACAAGAGAATGATCTATGCATTGGCGATATAGCAATGAGTGATATTGACTGGCAAAATAGACATGCTTCCGTACGAATTGCTATATTTAACAAAGCATATTGGGGTAATGGATATGGGACAGAAGCAATGGAACAATTAATAAACTATGGATTTGAACAATTAAATTTACATCGAATAGAATTAGAGGTCTTTGACTTTAATACAAGAGCAAGGAAATCGTATGAAAAACTAGGGTTCAAACAAGAAGGGATTCGACGAGAAGTATTGTTTTATGATGAGTAG MEMPIKFIEGRRIYLRPIEDEDEDVPMLYANLWDHEERRFTGTQAKFSLKGVEQFITSAANDQTRMDLLICLQENDLCIGDIAMSDIDWQNRHASVRIAIFNKAYWGNGYGTEAMEQLINYGFEQLNLHRIELEVFDFNTRARKSYEKLGFKQEGIRREVLFYDE NA NA NA NA NA AK015_03324 1278 nprA_4 Transcriptional activator NprA TTGATAGATATAGGTTCTATTATCAAATTACAGCGAACCAAGCGCAATATGACACAAGAGGAATTGTCAGAAGGCATTGTTTCATTATCCTACTTATCAAAAATAGAAAATAAGAAGACAAAAGCTAGTCCTGAAATTATTCAATTGCTTTGTAACCGATTAGAGATTGAGCTTACGGAAAAGCTAGATGTAGAAATTGAAGAAAAATGTCAAGAGTGGTACGGAATGCTTTATGACCGATTCGATAAACAGAAAATATCAGAAATATATGAAGAATTGCAGCAGTTGCTGGGCCGAAGTATTAATGATCAGACACTCATGTTTGAGATTCATAAAATTCGTTATTACTGTATTATGCGGGATCTTAAAAAAGCATTATGTAAAATTAACGAACTCCATGAGATGGCAAGTTCATTTAACCCTATACATAAATATTATTGGCATAAATTTCAAGGAAACTATTACTCATTTAAAACGTACCACCATCAAGCTATACAACATTATAAATTAGCAGAAGAAACTATCAGTTTTGCAAATATTCAAGAACATGAAACAGCAGATCTGCAATATATCATATCTATAGAACATAGTAAATTATGGAATGATCTTGAGAGTATTGAATATGCAAAAAAGGCAATGGGAATTTTTCAAAAAAACTACAATTTTATTCGCTGTGCTCAATGCCATATCCTATTGGGGATTGCGCACCATAGAATTAAGAATTTAGATAAGGCTACCAAAAATTATAACTTGGCATTACAATTGGGAGAATTAAAAAACAATGAAGATGTAGTTCATCTAGCACATTACAATCTGGGTTACCTGCATTCAATAACTGGAAATTCAGAAAAAGCAATCGAACATTATCTAATTGCAATACAAAATAATAACTTTAAAGAAAAAACTAAATTAGTATCCCTAATTCGATTAATTCAAGAGTTTTATTTAGTTGGGGATTATAAAAAAGCCAAGAACTATTTGGATCAAACAACATTAGTTTTGAAAACATATATTAATGATTATAACGAATATACTGATGATTTACACGACTATGTTATCAAAGTATATACACATTTATTAAATGGAGAAACTAAACAATTTATATCTGTATTAGCTAATGATTTTATACCTTACCTAGAGAAAAAAAGAAATTATGAGTATTTAGCTTTTTATGCAAAAATGTTAGGTAACCATTTAGAGAAAAGTGGTAAGTATAAAACATCTTTACAATATTATAAATTAGCTAATAGCAGTTATGAGAAATTATTTAATTTATAA MIDIGSIIKLQRTKRNMTQEELSEGIVSLSYLSKIENKKTKASPEIIQLLCNRLEIELTEKLDVEIEEKCQEWYGMLYDRFDKQKISEIYEELQQLLGRSINDQTLMFEIHKIRYYCIMRDLKKALCKINELHEMASSFNPIHKYYWHKFQGNYYSFKTYHHQAIQHYKLAEETISFANIQEHETADLQYIISIEHSKLWNDLESIEYAKKAMGIFQKNYNFIRCAQCHILLGIAHHRIKNLDKATKNYNLALQLGELKNNEDVVHLAHYNLGYLHSITGNSEKAIEHYLIAIQNNNFKEKTKLVSLIRLIQEFYLVGDYKKAKNYLDQTTLVLKTYINDYNEYTDDLHDYVIKVYTHLLNGETKQFISVLANDFIPYLEKKRNYEYLAFYAKMLGNHLEKSGKYKTSLQYYKLANSSYEKLFNL PGPT0011700_100 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QUORUM_SENSING_REGULATORS CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480 NA NA AK015_03325 141 hypothetical protein GTGAAAAAAACAGTCTTAAAATTATTAGTTTGTGGTACATTTCTTATAGGTGGTTTGGTATTTTTAAATGTTCAATATGATCAGACAGCAACACTTCAACCTAATCCTACATTAAACCCAATTGAAGTTGAAAAGTCTTAA MKKTVLKLLVCGTFLIGGLVFLNVQYDQTATLQPNPTLNPIEVEKS NA NA NA NA NA AK015_03326 198 hypothetical protein TTGCTTATCTTTCTAGAAAATTTAAAAGCGTTAGCATTTATGTTAATATTTATATCAAGTATTATGTATTATCGCCAACTCAAATTGCTTAAAAAAAAAAGAAGGCTCACTAAGATTGAAAAAGCAATGGATGTAATTACGATGACCGCAACGTTTACTTTTGCATTTATATATATTCTGCTTATTATAGGAACATAA MLIFLENLKALAFMLIFISSIMYYRQLKLLKKKRRLTKIEKAMDVITMTATFTFAFIYILLIIGT NA NA NA NA NA AK015_03327 1362 petC_2 Cytochrome b6-f complex iron-sulfur subunit TTGAATCCAATTTTAAAAGGAACAACGGGTCATACAACAGCTAAAATTACTGCACAACATGGTCTGATTTATGATGAGCTTATACAGCACTTTGGTATAGAACAAGCTACTCTTTATTATAAAGCTATGGATGAGGCTAAGCAATTAATTGAAAACAGTATAAATGATCTACAAATAGATTGCGATTTTTGCCATGAAGATGCTTTTCTTTACACCAATCTAGATTCTTGGAAGCGTGATTTAGAAAAAGAAAAGGATGCCTATGACCAAATTGGTATTGAGAGTGAAATAACAAAGGATACCCCCCTAAAATTTCCGATGAAATTAGCTTTACAAATGAAAAATCAAGCTCTATTTCATCCGTTAAAGTACTTAAGCGAATTACTAAAAGAAAGTATAAGGAATGGGTTAACGGTCTATGAAAATACAGTAGCTGTAGATATTGAAAGTGATCGCTCAAACCCCTCAATTATAACGAAAGATGGTCATCGTATAAAGTGTGATTATATTATTGCTGCATCTCATTTTCCTTTTTATGATCGAGACAGCTTTTATTTTACTAGAATGTACGCAGAACGTGCTTATGTGCTGGCGATGCAATCTAAGGAAAAGTATCCTGGTGGAATGTACATTAATGCAGAATCACCAACAAGATCTGTTCGCACTACAACATGGAAGGGAAGAGATTTATGGTTAATAAGTGGGGAAAATCACAAAACTGGCCAAGGTAAACCTATGCACGAACATTTTAAAGCATTACAATCATTTACGAATGAAAACTTTGAAGTAGCATCATATGATTTTCGCTGGTCAGCGCAGGATTTAACAACATTGGATAAAGTTCCTTATATTGGTCGTATAAAAAGTTCAACACCTAACATACTCGTTGCGACAGGGTACCGTAAGTGGGGAATGACGAACGGCACCGCTGCTGCAAATATGCTAACAAAGATCATTGTTAACAAAGCAAATGAGTATACGAAACTTTTTGATCCGGCCCGATTTAAAGCAGATCCCACGATAAAAAAGTTTGTGAAAACGAATACAGATACAGCTAAGCAGATGGTGAAAGGAAAATTAGATAATACGAATAACCATTTGGATATTAATCAATTGCAAGCAGATCAAGCAACCGTTACACGAATTAATGGAAATCGAGCTGGTGTCTATAAAGACAAGAAAAACCAAATATATATTGTTGATACAACATGTACACACTTAAAATGTGAAGTCGAATGGAATTCCGGAGAACGCAGTTGGGATTGTCCGTGTCATGGTTCAAGATTTTCATATACAGGCGAAGTTTTGAATGGACCTGCGAACAAACCTTTAAAACATATCGATCCAAATAAATTAAAGTGA MNPILKGTTGHTTAKITAQHGLIYDELIQHFGIEQATLYYKAMDEAKQLIENSINDLQIDCDFCHEDAFLYTNLDSWKRDLEKEKDAYDQIGIESEITKDTPLKFPMKLALQMKNQALFHPLKYLSELLKESIRNGLTVYENTVAVDIESDRSNPSIITKDGHRIKCDYIIAASHFPFYDRDSFYFTRMYAERAYVLAMQSKEKYPGGMYINAESPTRSVRTTTWKGRDLWLISGENHKTGQGKPMHEHFKALQSFTNENFEVASYDFRWSAQDLTTLDKVPYIGRIKSSTPNILVATGYRKWGMTNGTAAANMLTKIIVNKANEYTKLFDPARFKADPTIKKFVKTNTDTAKQMVKGKLDNTNNHLDINQLQADQATVTRINGNRAGVYKDKKNQIYIVDTTCTHLKCEVEWNSGERSWDCPCHGSRFSYTGEVLNGPANKPLKHIDPNKLK NA NA NA NA NA AK015_03328 225 hypothetical protein ATGATGGTTGATAACCACTTGCCGAATCACTCACAATCATTTTGGCGTGAAACATCTACAATACCTAAATATCCATCCTTAGATACCTCCATTCAAACAGAAGTTGGGATCGTTGGAGGAGGAATAACCGGAATTACAACAGCATATTTATTATCTAAAAAAAATGTAAAAGTTACATTAATTGAATCCAATTTTAAAAGGAACAACGGGTCATACAACAGCTAA MMVDNHLPNHSQSFWRETSTIPKYPSLDTSIQTEVGIVGGGITGITTAYLLSKKNVKVTLIESNFKRNNGSYNS PGPT0007637_2132 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINE_USAGE PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471 NA NA AK015_03329 270 acyP COG1254 Acylphosphatase ATGCGTATACATGCGATTTTTCATGGGAGAGTGCAAGGCGTGGGTTTTCGCTATTCTGCTAAACAGAAAGCTCTTGAATTAGATGTTCACGGATGGGTGAAAAATAAGGAGGATGGCACGGTTGAATTAGAAGCTGAAGGCAATGAAGCTCATATAAGAAAGTTTATGGGTGCTTTAAAAAACGGATTGAATCCCTTTATTAAAGTAACTCATATTGATCAAAAATTACTTTATAATGAAGCTGGTTATTCAACTTTTTCTGTCAAATAA MRIHAIFHGRVQGVGFRYSAKQKALELDVHGWVKNKEDGTVELEAEGNEAHIRKFMGALKNGLNPFIKVTHIDQKLLYNEAGYSTFSVK PGPT0001372_3299 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512 NA NA AK015_03330 240 fdxA Ferredoxin 7Fe TTGGCTTTTGTAATTACATCACCATGTAAAGAAGAAAAATCGGGAGAATGTGTGGAAGTATGCCCTGTTGATTGTATAGAAGAAGGAAAAGATATGTTTTATATTGACCCTGATATATGTATAGATTGCGGTGCATGTGAAGCTGTATGCCCTGTAGAAGCAATTTATATGGAGGATGAAGTTCCTGAAGAGGAAACAGAATATATAGCTTTAAATCGCAAGTTTTTTGAAGAACAATAA MAFVITSPCKEEKSGECVEVCPVDCIEEGKDMFYIDPDICIDCGACEAVCPVEAIYMEDEVPEEETEYIALNRKFFEEQ PGPT0030810_1607 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524 AK015_03331 207 hypothetical protein ATGATTCATTTAAATTGGGAAAACCAAAAATCGATTAAGCAATTAAAATGTGTTCATGCAAATGCAAAAAAGTTTGTAGTGAATAACAAATTAACACCTGGAAAGATATATGATGTAAAAAATGAAACAGATGAGTTTTATTTTATTATTGATAACAGTAAACGCATCGGCGGATTTCGAAAAGAATATTTTGAAGAAGGAAATTAA MIHLNWENQKSIKQLKCVHANAKKFVVNNKLTPGKIYDVKNETDEFYFIIDNSKRIGGFRKEYFEEGN NA NA NA NA NA AK015_03332 975 msrAB COG0225 Peptide methionine sulfoxide reductase MsrA/MsrB ATGATGAATGCTACAGCTACAGTAAAAGAATATGCAACCTTTGCTGGAGGATGTTTTTGGTGTATGGTAGAGCCGTTTGATCAACGTCCTGGAATTATCCGAATTACAGCTGGATATACAGGAGGGTCTGTGGAGAACCCAACGTATGAAGAAGTATGTTCTAATGCAACAGGACATGTGGAGGCAGTTCAAATTGAATTTAATCCAAGTATTATTAGCTATAAAAAGTTATTGGATACATTCTGGAAACAGATAGATCCAACAGACCCTCATGGTCAATTTAATGACCGTGGTGAGTCTTATACAACGGTGATATTCTATCATACAGACCAGCAAAGACGAGAAGCAGAAGCTTCCAAAAAGGAACTAGAAGCTAGTGAAAAATTTGCTAAACCAATTGCGACTAAAATTGTCCCTGCCAAAACCTTTTATCCTGCAGAAAAACACCATCAGGATTATTATAAGAAGCAAGGCTTTCATTATCGTCTATACAAAAAGGGTTCAGGTAGAGAGGATTTTATTAAGAAGCATTGGAAAAACAGATACGATCAAAATGAACTAAAACAAAAGCTTACACCTATACAATATCATGTGACCCAAGAAAATGGCACAGAACCACCATTTCAAAATGAATATTGGGATAAACAAGAAGAAGGGATTTATGTAGATATCGTTTCTGGTGAACCATTATTCTCATCTAAGGATAAGTATGATGCTGGTTGCGGTTGGCCAAGTTTTACTAAGCCTATAGACCGTTACCACATTGCAGAGAAAACGGACATATCGCACGGAATGATACGTACAGAAATCCGCAGTAAGGAGGCAGACTCGCATTTGGGACATGTATTTGAAGATGGTCCCAAAGATCAAGGAGGCCTTCGTTATTGTATGAATTCTGCTGCTATGCGCTTTATCCCAAAAGATAAGTTGGTCGAAGAAGGCTATGGAGAATATGTAACCTTATTCACTGATTGA MMNATATVKEYATFAGGCFWCMVEPFDQRPGIIRITAGYTGGSVENPTYEEVCSNATGHVEAVQIEFNPSIISYKKLLDTFWKQIDPTDPHGQFNDRGESYTTVIFYHTDQQRREAEASKKELEASEKFAKPIATKIVPAKTFYPAEKHHQDYYKKQGFHYRLYKKGSGREDFIKKHWKNRYDQNELKQKLTPIQYHVTQENGTEPPFQNEYWDKQEEGIYVDIVSGEPLFSSKDKYDAGCGWPSFTKPIDRYHIAEKTDISHGMIRTEIRSKEADSHLGHVFEDGPKDQGGLRYCMNSAAMRFIPKDKLVEEGYGEYVTLFTD NA NA NA NA NA AK015_03333 558 hypothetical protein ATGGTATTTTCGCCAAATCAATCGGCTAATTTCCCATTTCATATGCAGCAAGGTCCTCCTATGAGACCAAATATGCGAGCCTTTACCCCTCAACAAAGTTTTTCTCGCGCACCATTTCCATCTGGTCCTTTCTCTGGGGGGCTTCTGCCAGGGGGACAATCATTTCCTAAAGGAGGGAAATTACAAAACTTATTGAGCCTTTTTCAACCACAAGCCGGTGTAAATAATGTTGGTGGTGGATTTTTAAGCAAAGGGGTTGGTGGCTTAAGTGGCGCACTGGATAATGTTCAGCAAGTATTAAATGTTGTACAAAACGCAGCTCCTATTGTGCAAGAATACGGACCAATGGTAAAGAATCTGCCTAGGATGTATCGGATGATGAAAGCTTTTAATTCATTTAATGATGAAGATATAGAAGATACAGAGAAAGGCAATACGGAAGCACCTTCTGATGATGATTTATTAAATACAAGTACTGTTCAAGCAGAAGATTCAGCAGGGAAGCAAGAAGAGGATAATCAACAGATTGGAAAGTCTGTACCAAAGTTATTTATTTAA MVFSPNQSANFPFHMQQGPPMRPNMRAFTPQQSFSRAPFPSGPFSGGLLPGGQSFPKGGKLQNLLSLFQPQAGVNNVGGGFLSKGVGGLSGALDNVQQVLNVVQNAAPIVQEYGPMVKNLPRMYRMMKAFNSFNDEDIEDTEKGNTEAPSDDDLLNTSTVQAEDSAGKQEEDNQQIGKSVPKLFI NA NA NA NA NA AK015_03334 855 hypothetical protein ATGAAAGTTTTAGTAACAGGCGCTTGTGGTAATGTAGGAAAATATGTGGTTCGTGAACTTCTTCAAATGGGAGAACATGTTGTGGCTGCTGGAACCAATATAGAAAAGCTTAACCATTTATTTGGAGGAGATGTTGAAAAAGTAATTTTAGATTTTCAAGATTTGAAGACGTATCAACAGGCGCTTCATGATGTAGATCGCTTGTTTTTAATGCGCCCACCACACCTAGGTAAAGCAGATGACCTGTTCCCATTTATAGATGCAATGAAACAACATCATATTCAATTTGTATCTTTCTTATCGCTTATGGGAATAGAAAGAAACACCATCCCACCACATCATAAAATGGAGAAATATATAGAGTCAGTAGGTATACCATATGGACATATTCGCCCTGGGTTCTTTATGCAGAATATCTCAGGTATTCACGCAGCTGAAATTAAAGAAAAAAAGCAAATTTTTATACCAGCAGGGAAAAGCAAGACGAGTTTTATTGATGCAGAAGATATCGCTCTTTCTGTAGCGACTATTTTGCACGATCCTGGCAAGTATGAGAATACAGCCCATACCATTACCGGGTCAGAATCACTTGATTATTACCAAATAGCCGATATTCTTACAAAGGTTACTGGAAGCAAAATTACTTATGCAAAACCAGGTTTTTTGCGATACAGAAATTATTATCTAAAAAAAAGAAGGCTGAATAAATCTTATGTAAATGTCACAGTTGCGCTATATTTCATGACTCGATTAGGTACAGCAAAACATATCACCACCGATTTCACCAAATTAACTGGGAAGCAACCGTGTACATTTGAAGATTTTTCAAGAAAACATATCAAGTGCTTTAAATAA MKVLVTGACGNVGKYVVRELLQMGEHVVAAGTNIEKLNHLFGGDVEKVILDFQDLKTYQQALHDVDRLFLMRPPHLGKADDLFPFIDAMKQHHIQFVSFLSLMGIERNTIPPHHKMEKYIESVGIPYGHIRPGFFMQNISGIHAAEIKEKKQIFIPAGKSKTSFIDAEDIALSVATILHDPGKYENTAHTITGSESLDYYQIADILTKVTGSKITYAKPGFLRYRNYYLKKRRLNKSYVNVTVALYFMTRLGTAKHITTDFTKLTGKQPCTFEDFSRKHIKCFK NA NA NA NA NA AK015_03335 579 yxaF putative HTH-type transcriptional regulator YxaF TTGAAATCTAAAAAAATGAATACAAAAGAGAAATTGATTCAAACAGCTTCTCGCCTTTTTCAATTACAAGGTTATCATGGAACTGGAGTTAAGCAAATTGTGGAAGAAAGTCATTCGCCTAAAGGTTCCTTATATTATTATTTTCCAGGTGGAAAGGAACAATTGGCAATCGAATCTGTTTATGCAACGGCGCAATTCATACGTATCAATATTCAAGAAAATTTAAATAAAGAAGATGATCCAACAAAAGCAATTCAATCATTCATTTATAAAATAGCTGAAATCTTTCAGAAACAATTCAGGCTTGAAGGAGTTCCCATTGCATCTGTAGCTCTGGAGACTTCTTTAATTAGTGAGCCTTTGAGAAAAGCGTGCCAAGAAGCATATATCAGTTTTCAACACCAATTTACAGAAAAATTAATTCAAGCAAAAGTAGCACAAAATAGGGCATGTGAATTAGGAATTGTTATTAATTCAATGATTGAAGGAGCTTTTCTACTATCCTTTACAATGGATAGTGCAGAACCATTATTGTTAGTAGCTGAACAAATTCCATTACTTTTACAACAATGTCATTAA MKSKKMNTKEKLIQTASRLFQLQGYHGTGVKQIVEESHSPKGSLYYYFPGGKEQLAIESVYATAQFIRINIQENLNKEDDPTKAIQSFIYKIAEIFQKQFRLEGVPIASVALETSLISEPLRKACQEAYISFQHQFTEKLIQAKVAQNRACELGIVINSMIEGAFLLSFTMDSAEPLLLVAEQIPLLLQQCH NA NA NA NA NA AK015_03336 216 hypothetical protein TTGCGCTCCTTTTATCATTATTTAATGACTTACAGAGGAAAAAAACAACCAGATGATCAATCACATTTAGCGGATTGGGCATTCCAAGATCATCATTTCCCAAAACACGCTACAAGCTACAATGAAATAAGTAATTACTTGGAATGGAATAGTCCTTTTCCAACAGCTTTAACGGTTTTTGATGAATTGTGGGAAGCGTACGTTATGGATAATTAA MRSFYHYLMTYRGKKQPDDQSHLADWAFQDHHFPKHATSYNEISNYLEWNSPFPTALTVFDELWEAYVMDN NA NA NA NA NA AK015_03337 762 tatC1 COG0805 Sec-independent protein translocase protein TatCd ATGATGTCTGACAATCAACCAACAGAAGATAAAGAAATGAATTTAACAGGCCATCTCTCTGAGCTAAGAAATCGAATTATTGTAACAGCAATTTTTTTTATTTTGTTTTTTATAGTTGGTTTTGTTTTTGCAACGGATATATATGATTTTTTCCAGCAAGATTTATCCTTTAAACTTACCGTCATTAGTCCCGGTGAGATTATTTGGATTTATTTTACTTTAGCATCTGTAGTTGCTATTGCATTTACATTACCCATTCTAATTTTGCAAATATGGTTATTTGTAAAGCCAGGATTAACAAAAGGTGAACAAAAAGCAACAATCGCTTATATACCAGCTGTATTTTTCTTGTTTATTGGTGGACTGGTCTTTGGCTATTTTATGTTTATTAAACTTATTCTTCCATTTTTGCTTTCACTAAATGACGGTATGTTTAATGAAATGTTTACAGTAGATAAATATTTTCGCTTTTTACTGCGTGTAACACTTCCATTTGCTGTGTTGTTTGAAATTCCGGTAATCGCTATGTTTTTAACAGCATTGGGGATTTTAACGCCACAATTTATGAGAAAAACGAGAAAATATGCCTATTTTATTCTTATTATTATTGGCACTATCGTTACACCACCAGATTTCGTTTTACAACTTGTTGTTGCTGTTCCATTAATTCTACTTTATGAACTAAGCATTAATTTAGCTTCCATCGTATATCGAAAGAAGCAACGAAAACACGAAGCTTTTATGAACAACGCTGACTTATAG MMSDNQPTEDKEMNLTGHLSELRNRIIVTAIFFILFFIVGFVFATDIYDFFQQDLSFKLTVISPGEIIWIYFTLASVVAIAFTLPILILQIWLFVKPGLTKGEQKATIAYIPAVFFLFIGGLVFGYFMFIKLILPFLLSLNDGMFNEMFTVDKYFRFLLRVTLPFAVLFEIPVIAMFLTALGILTPQFMRKTRKYAYFILIIIGTIVTPPDFVLQLVVAVPLILLYELSINLASIVYRKKQRKHEAFMNNADL PGPT0029295_3389 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 AK015_03338 204 tatA Sec-independent protein translocase protein TatA ATGTTTCAAAGTATAGGTATTCCAGGGCTTATTCTAATTTTAATTATTGCATTAGTAATCTTTGGACCATCGAAGCTACCTGAAATTGGTAAAGCATTCGGAAACTCATTAAAAGAGTTTAAAAATGCGACAAAAGATATTGCTTCAGACGATAACGATAACGCATCAGATAAGAAGGAAAACCCTACATCAAGTAAAAATTAA MFQSIGIPGLILILIIALVIFGPSKLPEIGKAFGNSLKEFKNATKDIASDDNDNASDKKENPTSSKN PGPT0029290_4133 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 AK015_03339 210 tatAd_1 Sec-independent protein translocase protein TatAd ATGTTATCTAGCATTGGTTTCCCAGGACTCATTTTAATATTGGTCATTGCTTTAGTTGTTTTTGGGCCGAAAAAATTACCTGAGATCGGTAAAGCAGCTGGACAAACTTTAAAAGAGTTTAAAAACTCGACTAATGACTTAACGAGTGATGTGAGAGATGAGTTTAGAGAAACAAAAGATCTAATTACAAACAATAATCATAATCGGTAA MLSSIGFPGLILILVIALVVFGPKKLPEIGKAAGQTLKEFKNSTNDLTSDVRDEFRETKDLITNNNHNR PGPT0029290_3912 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 AK015_03340 489 IS1595 family transposase ISSsu9 ATGATATCATTACTTTTAGCGATGGATAAAAACCGTGTAATTGGTTTAAACAATGGCCTTCCCTGGCATTTGCCTAAGGATTTACGTTTTTTTAAAGAAAAAACGATAAATCAAACAGTTATTATGGGTAGGAAAACATATGAATCAATAGGGAAACCACTTCCGAATCGTAGAAATGTAATACTAACCAAAACAAAGAGGGACTTCCCAAAAGATATTGAAGTTATCCATGATTTACAAACTGTTTTACAGTGGAATGAAGAGCATCCAGAACAAGAATATTTCATTATTGGTGGCGCACATGTTTTTGAACAAATATTACCGAAAGCAGATCGTATGTATATTACGTGGATAAATCATTCCTTTAAAGGTGATACATATTTTCCTTCTTTTTCTGAACAGGATTGGGGGGTAACTTCAAAGGTAAAAGGAGAAAAAGACGATAAAAATCCTTATGATTACTATTTCTTACAATATGATAGAAAATAA MISLLLAMDKNRVIGLNNGLPWHLPKDLRFFKEKTINQTVIMGRKTYESIGKPLPNRRNVILTKTKRDFPKDIEVIHDLQTVLQWNEEHPEQEYFIIGGAHVFEQILPKADRMYITWINHSFKGDTYFPSFSEQDWGVTSKVKGEKDDKNPYDYYFLQYDRK PGPT0007945_3178 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287 NA NA AK015_03341 957 thyA_2 COG0207 Thymidylate synthase ATGATCATTGGTGAAGAAGCTTATTTAAACCTATGCCAACATATTTTGACGAATGGCACGAAAAAAGGGGACAGAACCAATACAGGAACCTATTCTGTATTTGGTCATCAAATGCGCTTTAATTTAGAGGAAGGATTTCCTTTATTAACGACAAAACGGGTGCCTTTTCGCTTAGTGGCTAGTGAACTTCTATGGTTTATTAAGGGAGATACAAATATTCGTTACCTGTTAGAGCATAATAACAATATATGGAACGAATGGGCTTTTGAGAAATGGGTTACTAGCAGTAATTATTCTGGGCCCGATATGAGTAATTTCGGTAATCGTTCTCAGGGAGATACTAATTTCAAAAAACAATATCAAGAGCAAATGGAAATTTTTAAAGATAAAATTTTAACCGACAATGCTTTTGCGAAGAAATATGGAGATTTAGGAAATGTGTACGGCAAGCAATGGCGTAAGTGGAAAACATCGCAAAATGAAACCATTGACCAGTTAAAAGATGTGATAGATAATATTAAAGACAATCCAAACTCCAGAAGACATATTGTCTCTGCTTGGAATCCGGAAGATTTACCATCCATGGCGCTTCCGCCATGTCATACATTGTTTCAATTTTATGTAGCGGATGGAAAGCTTTCGTGTCAATTGTATCAACGAAGCGCCGATGTATTTTTAGGAGTTCCGTTTAATATTGCTAGTTATGCGTTACTAACCTATCTAATTGCACATCAATGTAATTTAAAACCAGGGGAGTTTGTGCATACACTTGGAGATGCGCATATTTACCTGAATCATGTGGACCAAGTAAAAACACAACTGACGCGAGATATAAAACAAATGCCTCAGTTAGAAATAAATCAACAAAAAGCATCTATTTTTGATTTTGAATTAGATGACTTTAGAATTGTTGGATATGATCCTCATCCTACAATTAAAGCACCTATTGCTGTATAA MIIGEEAYLNLCQHILTNGTKKGDRTNTGTYSVFGHQMRFNLEEGFPLLTTKRVPFRLVASELLWFIKGDTNIRYLLEHNNNIWNEWAFEKWVTSSNYSGPDMSNFGNRSQGDTNFKKQYQEQMEIFKDKILTDNAFAKKYGDLGNVYGKQWRKWKTSQNETIDQLKDVIDNIKDNPNSRRHIVSAWNPEDLPSMALPPCHTLFQFYVADGKLSCQLYQRSADVFLGVPFNIASYALLTYLIAHQCNLKPGEFVHTLGDAHIYLNHVDQVKTQLTRDIKQMPQLEINQQKASIFDFELDDFRIVGYDPHPTIKAPIAV PGPT0008145_634 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560 NA NA AK015_03342 1008 hypothetical protein ATGAATAGAAATGTGGAAAAAATTATGAAAACATCTTTACTCTATGGCTTTGTAATGACGCAGCCTTTTGTAAATTATGTCGACGCATATCCTGAATTGCAAAATAAAATCTTATTTAAATCAGATCAGTTAGAAATTGACGAACACGGTGAGAGTGTTCGTTTGTTACAAAAAAAATTACATACATTATCGTATTTTGACCAACCAGTTGATGGAATGTCTGGATATTATACGAAGCATGCGATTAAAAATTTTCAAGCAAATCATAAGCTATCTATAAACGGAAATGCAAAAAAAGAGACATTAACAGCTATCGTAAAGAATGAGCAAAAACAATATAAACAGCAGTTAAAAACCTTTGCTAAAGAAATTCAGCCTGGTATGCATAACGAAAAAGTGAAACTTGTACAAAAATCCTTACAATATTTTGGGTACTATGAAGGTGAATTAGATGGCATATATGGCCCGCTAACAAAGCAAGCGTTAGAAATTGCTGAAAATAAGCATGACTTGAAATTGATCATAGACCCTCCACCCACACCAACAGAAAAACAACCAACATTATCTGCTACCAATAAAGAACCGAATACGGAACCAAAAGAAAAAACAAAACAAAAGGCCGTTCAAAAACCTTCTTATACAGGTATAAATGGTTCAGGTATTGTAGAGAAAGCCCGATCCCAAATGGGAACACCTTATGTTTGGGGTGGAACATCTCCAGGTGGATTTGATTGCAGTGGTTTTATTCAGTATGTTTTTCAACAAGAAGGTATCACCATTCCACGTACAGTTAGTGAAATCTATAATTTTTCACAACCAATTTCTGAGCCATCTGTTGGAGATCTCGTTTTTTTTGAAACCTATAAGCCTGGTCCTTCTCATATGGGGATCTACGTCGGTAATGGTAGCTTTATACATGCAGGAGAATCGAGAGGTGTTGAAGTAAGCAAAATGAATAATTCTTATTGGCAAGAACGGTATTTAGGTGCTACACGTGTAAAGCAATGA MNRNVEKIMKTSLLYGFVMTQPFVNYVDAYPELQNKILFKSDQLEIDEHGESVRLLQKKLHTLSYFDQPVDGMSGYYTKHAIKNFQANHKLSINGNAKKETLTAIVKNEQKQYKQQLKTFAKEIQPGMHNEKVKLVQKSLQYFGYYEGELDGIYGPLTKQALEIAENKHDLKLIIDPPPTPTEKQPTLSATNKEPNTEPKEKTKQKAVQKPSYTGINGSGIVEKARSQMGTPYVWGGTSPGGFDCSGFIQYVFQQEGITIPRTVSEIYNFSQPISEPSVGDLVFFETYKPGPSHMGIYVGNGSFIHAGESRGVEVSKMNNSYWQERYLGATRVKQ PGPT0024005_188 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 AK015_03343 522 hypothetical protein ATGAATATTCGTTTAACTAAGCTAAAAGATAGTGATGCAAAAGCTCTACTAGTGTTTGAAGCGGAAAATCGTTACTTCTTTGAGACGATGGTGCCCAGTCGTGGGGATGCGTACTATATGTCTGAAAATTTCCAAACAAGACATAAACAACTTTTAAAGGAACAAAGCCTAGGAATTTCACATTTTTATTTAATAAAAGACGATCATGATTTCATATTAGGTAGAATTAATGTGGTTGATTTAAATAAACAACGCCGAGGAGAGCTAGGCTATCGAATCGGAAAGTCCTACACTGGAAAAGGAATTGCGACAAAAGGTTTACAGCTTTTCATGAAAGAAGTAATAAAATTGGACATTAGAAAAATACATGCTAAAACAACCAGTAATAATTTTCCATCTCAAAGTGTGTTACAAAAAAATGGTTTCCATTATGAAGAAACAGATGCGGATTCATTTATTATGAATGGTGAGAAAGTAAAGTTTATGTACTATTCATGGGAGAATGGTAGAGAAATCGTATGA MNIRLTKLKDSDAKALLVFEAENRYFFETMVPSRGDAYYMSENFQTRHKQLLKEQSLGISHFYLIKDDHDFILGRINVVDLNKQRRGELGYRIGKSYTGKGIATKGLQLFMKEVIKLDIRKIHAKTTSNNFPSQSVLQKNGFHYEETDADSFIMNGEKVKFMYYSWENGREIV NA NA NA NA NA AK015_03344 615 yedJ COG1418 putative protein YedJ ATGCAAACAGCAGAACAACTATCTGAGATAGAGCATTTTGTATACAGGTTATTCTCTGATGACATTACTGGTCACGATTATTATCATATGAGGCGAGTTGCTCGTTTGGCAAAATATATAGCGGAAAAAGAAGACGCTAATCCGTTTATTTGTGAAACAGCTGCTTGGCTTCATGACGTTGGGGATGAAAAATTGTTTTCAGATCCTCATGTTGTCATTCAAGAAATAAGAGATTTGCTTGATCGCCTTTCTTTAACAAAACAACAAATAGAGAAAATAAAGCAAGCAATGCAAGATGTTTCTTTTCGTAAAGGGAAAACTCCGGTAAGCCTAGAGGGGAAAATCGTTCAAGATGCTGATCGGTTGGATGCTATTGGAGCGATTGGCATCGCTCGTGCTTTTAGCTATGGTGGGGCAAAAGAACGCCATCTTTATCATGAGGAATTAGACAATCATACAATCCAACATTTTTACGAGAAGCTATTACGTATTCGAGATAAGTTGCATACAGCAACCGCTAAAACCATTGCAAAAGAACGACATCACATCATGCAGCAATTCCTAGAACAGTTTTATCAAGAATGGAATTTCCCTAGCATAGAAAATAGGGGGTAA MQTAEQLSEIEHFVYRLFSDDITGHDYYHMRRVARLAKYIAEKEDANPFICETAAWLHDVGDEKLFSDPHVVIQEIRDLLDRLSLTKQQIEKIKQAMQDVSFRKGKTPVSLEGKIVQDADRLDAIGAIGIARAFSYGGAKERHLYHEELDNHTIQHFYEKLLRIRDKLHTATAKTIAKERHHIMQQFLEQFYQEWNFPSIENRG NA NA NA NA NA AK015_03345 1671 fhs1 Formate--tetrahydrofolate ligase 1 ATGAATAAGGATATTGAAATTGCCCAACAAACACCGTTAGAGCCAATACATAACATTGCAGAGCAACTTCAACTAACTTCAGAGGATTGGGAACCATATGGACATTCAAAAGCTAAGCTGTCAGCAACCTTATTTGAGAAATTAAAACAAAAGAAAAGCGGAAAGATCATTTTAGTCACATCAATTAATCCAACACCCGCAGGAGAAGGAAAATCAACAGTTACGGTTGGACTTGGACAAGCATTAAACCAAATGAGAAAGAATGCAATTATTACACTTCGCGAGCCTTCACTAGGTCCAGTTATGGGAATTAAAGGTGGGGCAGCTGGAGGAGGTTATTCCCAAGTTTTACCGATGGAAGATATTAATTTGCATTTTACTGGGGATATTCATGCTATAACTACAGCAAATAACGCTTTAGCTGCATTGATTGACAATCATATTCATCAAGGCAATGAATTACAAATTGACCCAAGAAAGATTGAATGGAAACGAGTAGTAGATATGAATGATCGCGCTCTAAGGCAGATCGTTGTTGGTCTAGGTGGAGCAAAACAAGGAGTTCCTCGAGAAGATGGTTTCAATATTACCGTTGCATCTGAAATTATGGCTATACTCTGCTTAGCCACCGATGTACAAGATTTAAAAGAAAGGCTTCGTTCAATCGTTATCGGCTATACATTCGATCATCAGCCTGTCACAGTTAGCGATTTGAAAGTAGAAGGTGCATTAACTCTGTTATTAAAAGACGCAATAAAACCAAACCTTGTACAAACGACAGAAAACACACCTGCTATTATTCATGGCGGCCCATTTGCTAATATCGCTCATGGCTGTAATAGCATTATTGCAACAAAAATGGCGGCTAAATTGGCAGATTATACAATAACAGAAGCTGGGTTTGGGGCGGATTTAGGAGCTGAAAAGTATTTTCATATTAAATCTCATGCAGGTAATATTGATACCTCAGCTGTTGTCATCGTCGCTACTGTACGTGCGCTAAAAATGCACGGCGGCGTTACAAAAGATAGGTTGATGGAGGAAAACATCACAGCTTTAGATGCTGGCATGGATAATTTACAGAAACATATTGAAACCATTCAGGCTTTCAATGTACCATTTGTTGTAGCAATTAATCAATTTCCAACCGATACAAAGCAGGAAACATCATTTATTCAGCAATGGTGTGAAGCGCGAGGTTATGATGTTGCGCTAACCACTGTATGGGCTCATGGAGGAAAAGGAGGAATAGAGTTAGCTAAAAAAGTAATCGCTAAAGCAAATAATTCTCATTCTTCTTTTCAACCTTTATATGACATAAACGAGTCCTTGGAAAACAAATTAAGAATAGTAGCTCAGAAAGTATATGGGGCAGATGATATTGAAATAACAAAGGGAGCCCGTAAACAATTACGTTTTTTCCAAGAACAAGGTTGGAGTAATTTGCCTGTCTGTATGGCTAAAAACCAATATTCATTATCAGATGACCCAACGTTATTAGGGAGACCAACAGGTTTTACTATTACAATTAGAGAGCTTCGAGCATCTATTGGGGCCGGATTTATTGTCGCTTTAACTGGTGACGTGATGACAATGCCAGGGCTTCCTGCCAAACCGGCTGCTTTAGGAATGGATGTAGGGGAAGATGGACGAGCAAAAGGATTATTCTAA MNKDIEIAQQTPLEPIHNIAEQLQLTSEDWEPYGHSKAKLSATLFEKLKQKKSGKIILVTSINPTPAGEGKSTVTVGLGQALNQMRKNAIITLREPSLGPVMGIKGGAAGGGYSQVLPMEDINLHFTGDIHAITTANNALAALIDNHIHQGNELQIDPRKIEWKRVVDMNDRALRQIVVGLGGAKQGVPREDGFNITVASEIMAILCLATDVQDLKERLRSIVIGYTFDHQPVTVSDLKVEGALTLLLKDAIKPNLVQTTENTPAIIHGGPFANIAHGCNSIIATKMAAKLADYTITEAGFGADLGAEKYFHIKSHAGNIDTSAVVIVATVRALKMHGGVTKDRLMEENITALDAGMDNLQKHIETIQAFNVPFVVAINQFPTDTKQETSFIQQWCEARGYDVALTTVWAHGGKGGIELAKKVIAKANNSHSSFQPLYDINESLENKLRIVAQKVYGADDIEITKGARKQLRFFQEQGWSNLPVCMAKNQYSLSDDPTLLGRPTGFTITIRELRASIGAGFIVALTGDVMTMPGLPAKPAALGMDVGEDGRAKGLF PGPT0008065_1381 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008065-fhs-K01938 NA NA AK015_03346 201 cspB_2 Cold shock protein CspB ATGGAAAACGGAGTAGTAAAATGGTTTAACGCTGAAAAAGGATATGGATTTATTCAGCAAGAAGAAGGAAACGATGTCTTTGTACATTACTCAGCAATTCAAGAAGAAGGTTTTAAAACACTTGAAGAAGGCCAAGAAGTTTCTTTTGATATCGTTGAAGGTGAACGCGGACCACAAGCAGCTAATGTTGTAAAAAAATAA MENGVVKWFNAEKGYGFIQQEEGNDVFVHYSAIQEEGFKTLEEGQEVSFDIVEGERGPQAANVVKK PGPT0014675_8499 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS LOW_TEMPERATURE_TOLERANCE COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704 NA NA AK015_03347 1737 dauA COG0659 C4-dicarboxylic acid transporter DauA TTGTTTAAAGACAATCGTTTCAACAGTTTTTCATTAGTAGATATAAAGCGTGACATGATTGCAGGTTTAACAGTAGGGATTGTAGCCATTCCACTTGGGATGGCGTTTGCTATTGCCTCTGGTGTTAAACCTGAGTATGGGTTATACACAACCATTTTTGCAGGGCTTTTCGTAGCTTTATTTGGAGGTTCCAGATTTCAAATTGCTGGTCCAACGGGAGCATTTATTCCAATATTACTTGCTATTGTATTAGAGTACGGCTATGAAAAGTTATTAGTTGCCGGATTTTTGGCTGGATTTATACTTTTGTTAATGGGGATATTAAAATTTGGGAAATTGATTCAATTCATTCCTAGATCAGTAACTATCGGATTTACATCGGGAATTGCTGTTATTATATTTAGTGGTCAAATTGGTAATTTTCTCGGTCTTGAGGAACTTGACAAAAAGCAATATTTTCATGAGAATATGATGCAAATTATAGATAATATTGCTTTTATTAATTGGTATAGCGTATGTACAGCATTTATAGGTCTTTTCGCCATCATCTTTATCCCAAAGATTCTTCCAAAGGTTCCTATTCTACTTGTTGCATTAATTTTACCAACTGCTGTCGCCATGCTGCTATATCCTTCTGAAGTAGCAACCATTGGTACATCCTTTGGTGGTATCCCTCAATCTTTACCTAGCTTTCGAATGCCAGAAATAACTTGGGGAACTATTGCTGAGCTTTGGCAACCTGCTTTTGTGATTGCAATGCTTGGAGGAATAGAATCACTATTATCTGCGGTTGTATCTGATGGAATGACAGGGACAAAGCATAACTCCAATCGAGAATTAGTTGGCCAAGGAATTGCTAATATGGTCACTCCCATGTTTGGCGGAATCCCAGCAACAGGTGCTATAGCTAGAACAGCTACGAATATTAAAAGTGGAGCAATTAGTCCGTTCTCAGGAATATTTCAAAGTGTTTTTGTCTTATTAATTCTATTGTTATTTGCACCATTTGCATCGAACATACCTCTAGCAAGTATGGCGCCTATTTTAATGATCGTCGCCTATAATATGAGTGAATATAAATCGTTTATACATATACTTAAATTAAAAACAGGCGATTCACTTGTACTAGTAGTTACTTTTCTATTAACTGTATTTGTTAATCTTACGACAGCTGTACAAATTGGTCTATTACTTGCAATGGTTTCGTTCATAAAGCGGATGAGCGAAGTGTTGCAAGTAGAAAAAGTTATTCCTGATAAAGTCAAAGACACAACACATGGTAATCATTTGGACACGTTAAGCTCCACATGCCCCAAACTTTCATTTTATACTGTTGGTGGAGCGTTATTCTTTGGTGCTGCAGACAAGTTTGAATCTATCATTACACGGTGCATCAATCAGCGTCCAACGGTACTAATTTTAAAAATGAAGCATGTTTCTATTTTAGATGCCACAGGCGCAGCTAATTTAGACTCTCTAGTTACCGATTTTAAAAATATGGGTGGAACAATTATTATCTCAGAAGCAAATTCAGATGTAACGGCTATGCTAAAGGCAAGTGGTCTTTTGTATAAAATTGGGGAACATCATATCTTTCATCGTTCAGAAGAAGCAGTTAATTATGGACTACAACTCATTGAAGTTAGCAAGTGTTCTATATGCTCTAAAGAAAATAGAACCTCATGTAAAGCTTTTAAACAAAATAATAATGTATCTCTTTCATCATCAGAACAATAA MFKDNRFNSFSLVDIKRDMIAGLTVGIVAIPLGMAFAIASGVKPEYGLYTTIFAGLFVALFGGSRFQIAGPTGAFIPILLAIVLEYGYEKLLVAGFLAGFILLLMGILKFGKLIQFIPRSVTIGFTSGIAVIIFSGQIGNFLGLEELDKKQYFHENMMQIIDNIAFINWYSVCTAFIGLFAIIFIPKILPKVPILLVALILPTAVAMLLYPSEVATIGTSFGGIPQSLPSFRMPEITWGTIAELWQPAFVIAMLGGIESLLSAVVSDGMTGTKHNSNRELVGQGIANMVTPMFGGIPATGAIARTATNIKSGAISPFSGIFQSVFVLLILLLFAPFASNIPLASMAPILMIVAYNMSEYKSFIHILKLKTGDSLVLVVTFLLTVFVNLTTAVQIGLLLAMVSFIKRMSEVLQVEKVIPDKVKDTTHGNHLDTLSSTCPKLSFYTVGGALFFGAADKFESIITRCINQRPTVLILKMKHVSILDATGAANLDSLVTDFKNMGGTIIISEANSDVTAMLKASGLLYKIGEHHIFHRSEEAVNYGLQLIEVSKCSICSKENRTSCKAFKQNNNVSLSSSEQ PGPT0003020_1260 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321 NA NA AK015_03348 675 queuosine precursor transporter GTGACGAACGAAATAATTTGGATTATCTTCGCTATCGTAAATTTTTCCATGCTATTATTGTTTTATCGTCTGTTTGGAAAAATAGGTCTTTATGTTTGGATTGGAATGGCTACAATTATTGCAAACATCCAAGTTTTAAAGACTGTCGAACTTTTTGGTCTGACTGCTACACTTGGTAACATTCTATATGGGACAGCTTATTTGGCAACAGATATTATTAACGAAAAGCATGGAAAAGATGAAGCGAAAAAAGCGGTTTGGATGGGGTTTGCTACGCTATTAGCGATGACCATCTTTATGCAAATAGCCCTGACGTTTCAACCTGGTGCAGACGACATCGCTCATGAATCATTAACAACTATATTTGATTTAATTCCTAGGGTGGTTGCTGGAAGTCTAGCAGCTTATATCATCAGCCAGTCATTCGACGTTTGGATTTATGATAAATTTAGGAAGATGTTTCCTGCTGACAAGCATCTATGGATCCGTAACAATGGAAGTACAGGTGTTAGCCAATTATTGGACACGGTCGTATTTTGCAGTATCGCTTTTTATGGAAGCTATCCAACAGAAATATTTTTTGAAATTTTCATTACTACTTATATCATTAAGTTTATTGTAGCCATTATGGATACGCCATTTATGTATATAGCTAAAAAAATGAATCATGACTAA MTNEIIWIIFAIVNFSMLLLFYRLFGKIGLYVWIGMATIIANIQVLKTVELFGLTATLGNILYGTAYLATDIINEKHGKDEAKKAVWMGFATLLAMTIFMQIALTFQPGADDIAHESLTTIFDLIPRVVAGSLAAYIISQSFDVWIYDKFRKMFPADKHLWIRNNGSTGVSQLLDTVVFCSIAFYGSYPTEIFFEIFITTYIIKFIVAIMDTPFMYIAKKMNHD NA NA NA NA NA AK015_03349 507 hypothetical protein ATGCCAATTTTTATGTGGATTATTTTGTCGGTGATTATAATACAGCGACTAGTAGAGCTGGCTATTGCACGTAGTAATGAGCAATGGATGAAACAAAGAGGAGCCATTGAAAAAGGAAAGAAACACTATAAATGGTTTATTATTATCCATACATTGTTTTTCTTGTCTCTCATTGCGGAAATTATTTTTCGTAATCAACAAAGCTTTTCCTTTAACTATGTTCTATTTGCTGCTTTTATAATTACCCAAATTGGCCGTATTTGGTGTATTACAACATTGGGTAGATTTTGGAACACCAAAATAATCATTGCACCGCAATTTGACGTTATTAAGCGAGGTCCATATAAATACGTAAAACATCCTAACTACATTATTGTTGGTGTAGAATTGTTTGTCATTCCTTTACTGTTTGGTGCGTGGTTTACAGCGATATTATTTCCAATTCTACATGTGTTATTATTATATGTACGCATTCCCGTAGAAGAAAAAGCTGTTTATGGGCATTAG MPIFMWIILSVIIIQRLVELAIARSNEQWMKQRGAIEKGKKHYKWFIIIHTLFFLSLIAEIIFRNQQSFSFNYVLFAAFIITQIGRIWCITTLGRFWNTKIIIAPQFDVIKRGPYKYVKHPNYIIVGVELFVIPLLFGAWFTAILFPILHVLLLYVRIPVEEKAVYGH PGPT0011295_336 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY ANTIPROTISTAL-ALKYLRESORCINOL|ALKYLPYRONE_BIOSYNTHESIS,PGPT0011295-bpsB|srsB-K16168 NA NA AK015_03350 1086 COG3424 Alpha-pyrone synthesis polyketide synthase-like Pks11 ATGTCATATATTTGTTCCATTGGCTTGGGAATACCAGAGTATCGTCTAAGTCAACAACGTGTAAAAGAAATGGTTCAGGAAATTTTTCCTTATTCCAAGCGAGAAATTAACCGGCTACTCCCTGTTTTTGATCATGCACAAGTGGACGAAAGGCAGTTTGTAGTGGAAACTAATTGGTTTACAGAAAATCATTCCTTCCAAGAGCGCAACAATTTATTTATTGAACTTGCTAAAGCGTATGCGTTAAAAGCCATTGATGATTGTTTACATCAGATGGCGTTTTTATCAAATCCTATTGATTACGAAGATATTGATATGATTATCTTTGTGTCAAGTACCGGTGTAGCAACCCCTTCATTAGATGTGCATGTAATGAATGAACGTCCTTTTCGACAAGATGTAAAGCGCATGCCTTTATGGGGATTAGGGTGCGCTGGAGGAGCTATTGGCTTAGCAAGAGCACACGATTGGTTGTCAGCAAACCCAGATAAATCTGCATTAGTTATTTGTTGTGAATTATGCAGCTTAACGTTTCAAAAAGGGGATCTGAAAAAAAGTAACCTGATAGGAACTGCTTTATTTGGTGACGGTATAGGGGCCGCAGTTATTGTTGGAGAAACATCTCCATTAATTCAACATAGTAAAAATAAAGTACCACGTTTGCTGCAATCCGATTCTTATACTAAAAAGGACAGCATTTCGGTAATGGGATGGCAAATCACCGAAACAGGATTTGAAGTGATTTTTTCCAAAAGCATTCCTGCGCTCGTACAAAGTTTTTGGAGGGAGCATGTACAGCTATTTTTTAATCAACACCAATTAAACGAAAATGCTATTGCTACTTTTATTGCCCATCCAGGAGGCAAGAAAGTTATAGAAGCGATGCAACATGTGTTGCAAGCAGATGTTGATAAATTTCGTCACTCTATTTCTGTACTAAGAAAACACGGTAATATGTCTTCAGCAACCGTTCTTTATGTACTTTATTCATGGATGAAGGAAGCACGATATACAAATGAAAAAAGTGTGCTCTCTGCACTTGGTCCAGGGTTCAGTTCGGAATTGATTTTAATGGAGTGGATGTAG MSYICSIGLGIPEYRLSQQRVKEMVQEIFPYSKREINRLLPVFDHAQVDERQFVVETNWFTENHSFQERNNLFIELAKAYALKAIDDCLHQMAFLSNPIDYEDIDMIIFVSSTGVATPSLDVHVMNERPFRQDVKRMPLWGLGCAGGAIGLARAHDWLSANPDKSALVICCELCSLTFQKGDLKKSNLIGTALFGDGIGAAVIVGETSPLIQHSKNKVPRLLQSDSYTKKDSISVMGWQITETGFEVIFSKSIPALVQSFWREHVQLFFNQHQLNENAIATFIAHPGGKKVIEAMQHVLQADVDKFRHSISVLRKHGNMSSATVLYVLYSWMKEARYTNEKSVLSALGPGFSSELILMEWM PGPT0011290_168 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY ANTIPROTISTAL-ALKYLRESORCINOL|ALKYLPYRONE_BIOSYNTHESIS,PGPT0011290-bpsA|srsA|-K16167 NA NA AK015_03351 1497 ypwA COG2317 Carboxypeptidase 1 ATGAAATTAAGTGATAAAAAACAGCAATTTAAAAATTATTTAAAAGAAATAGATTATTATCGAGAGGCACTTTCCCTTATACATTGGGATATGCGTACGAAAATTCCAACTAAAGGAGTAGAGCAGCGTTCAGAAGTGGCAGGTTTTTTGGGAGGAAAAATTCACCAATTGCAGACATCGAAGCAAATGGAAGCATTTATTAAAGAACTTAAACCTAACGCTGATGATCCTATTCTTTTAAGAACAATTGAAGTTTGTGAAGAAGAATATGAAAGAAATAAAAAAATTCCTCACAAGCTGTATAAAGATTTTATGATTACACAGACTAAATCTGAAGCAATTTGGCAACAAGCTAGAGAGACTGATGAATTTCATCTATTTCGACCCTATCTTAAAAAGTTAGTAGATTTCAACCGTGAATTCGCTTCTTATTGGGGATATGAAACTAATATTTACGATGCTTTGCTACACAAATTTGAGCCAGGTATCACAGTGAACAAACTAGATCATGTATTTCCTAAATTACGCAGATCGTTACGCTCTATATTAGAAAACGTACAAGCAAGTGGTGTAAAGCCTGATCCTAGCTTAATACAAGTTCATTTCCCTAAACAACAGCAAGTAGCTTTTACAGAGCAACTGCTTAAACAAATGGGCTATGACTTTACATCTGGGCGCTTAGATGAGACTGTTCATCCATTTGCTATTCCATTAAATCAAAATGACGTACGATTAACTACTCGTTATGACGAAAATGATTTCCGAATGGCTGTATTTGGAACAATTCATGAAGGGGGACACGGCTTATACGAGCAAAATATTGACCCTCGTTTATCCCAAACACCATTAGCGACTGGAACTTCTATGGGTATACATGAATCACAATCGTTATTTTGGGAAAATTTCATTGCCAGAAGTTATCCATTTTGGCAAAAGAATTACGACTTATTCTTGCAGTATGCTCCACATTCATTTCAAAATATAGATTTAGAGCAATTTTATCAAACAATCAACGAAGTGAAGCCATCTTTTATTCGAATTGAAGCAGATGAATTAACATATCCGCTACATATTATGATTCGATATGAGTTAGAAAAAGCACTTATGAATGAAGAAATCATAGTAGATGACTTACCTCATTTATGGAATGAAAAAATGAACGATTATTTAGGTATCACGCCGCCAACAGATAGGGAAGGTGTACTGCAAGATATTCATTGGGCAGGTGGTGATTTCGGGTACTTCCCATCCTACGCTTTAGGGTATATGTATGCAGCACAAATTTATCATACATTATCTAAAGACCTTCATGTAGAGAGCCTTATCCGAACTGGTGACCTTACTCCTATTAAAAGTTGGCTCGCCAATTCCATTCATCAATATGGAAAATTGAAAGAACCGCTGAAAGTTCTAACTGATGTAACGAACGAAACATTAAACCCTGACTATTTAGTACAACATTTAGAAAAAAAATTCAAGGCTATTTATCAGTTTTAA MKLSDKKQQFKNYLKEIDYYREALSLIHWDMRTKIPTKGVEQRSEVAGFLGGKIHQLQTSKQMEAFIKELKPNADDPILLRTIEVCEEEYERNKKIPHKLYKDFMITQTKSEAIWQQARETDEFHLFRPYLKKLVDFNREFASYWGYETNIYDALLHKFEPGITVNKLDHVFPKLRRSLRSILENVQASGVKPDPSLIQVHFPKQQQVAFTEQLLKQMGYDFTSGRLDETVHPFAIPLNQNDVRLTTRYDENDFRMAVFGTIHEGGHGLYEQNIDPRLSQTPLATGTSMGIHESQSLFWENFIARSYPFWQKNYDLFLQYAPHSFQNIDLEQFYQTINEVKPSFIRIEADELTYPLHIMIRYELEKALMNEEIIVDDLPHLWNEKMNDYLGITPPTDREGVLQDIHWAGGDFGYFPSYALGYMYAAQIYHTLSKDLHVESLIRTGDLTPIKSWLANSIHQYGKLKEPLKVLTDVTNETLNPDYLVQHLEKKFKAIYQF NA NA NA NA NA AK015_03352 1152 rlmL COG0116 Ribosomal RNA large subunit methyltransferase K/L ATGCAGACAGTTACATTAATAGCTACCGCAGCGATGGGATTAGAGTCTGTTGTTGCAAAAGAAGTTAAAAATTTAGGTTATGAAGTACAAGTTGATAATGGAAAAGTAGAATTTGAGGCGCCTATAAACGCAATTCCTCGTTGTAATTTATGGCTTCGTTCTGCGGATCGAGTAAAATTATTAGTTGGTAAATTTAAAGCTACATCCTTTGATGATTTATTTGAGGGAACAAAGGCTTTACCCTGGGAAATTTACATTGATGAAGATGGTGAAATTCCTGTAATAGGAAAATCTGTTCAATCAACATTACATAGTGTTCCTGATTGTCAAAAAATAGTCAAAAAGGCGCTCGTTGAAAGGATGAAATTAAAATATGGCATGATTTCTAAACTACCAGAAACGGGAGCAATGTATCGTGTCGAAATCGCCTTATTAAAAGATGAAGCAACACTTACGATCGATACTTCAGGCGTAGGTTTACATAAGCGAGGCTATCGAGTTGGACAAGGTGAGGCTCCGCTTAAAGAGACCCTTGCTGCTTCATTAGTATTATTAACCAATTGGCATCCAAATGAGACTTTCGTTGATCCATTTTGTGGTTCAGGTACTATCCCTATTGAAGCTGCAATGATTGGACAAAATATTGCTCCAGGTTTTAATCGTGAATTTTCATCCGAAGATTGGTCATTTGTTAAACAAAAGTATTGGGACAAAGCTTTTGAAGAAGCGGAGGATGTCGCTAATTATGATCAACCTTTAAATATTACTGGGACGGATATTGATCATAAAATGATTAACGTTGCGAATAGAAATGCACTTGAAGCAGGGCTAGGGGAACTTATTCAATGGAAGCAAATGCAAGTTAGTGATCTTCACTTTAAACAGCCTAACGGTTATATTGTAAGCAATCCGCCTTATGGGCAGCGTCTCGGAGATCAAAAACAATCAACGAAAACAGCAAAACAACTTGGTGAAATCATAAGTAACCACCCTAGTTGGAGTGTTTATATAATAACGGCATATGATCATTTTGAAGCCGCTTTTGGTAAAAAAGCAACGAAGAAGCGAAAGTTGTTTAATGGCTATATTCGAACAGACTATTATCAGTACTTCGGTCAGAAAGAAAGGGGAGATTCTGATGAAATTAAGTGA MQTVTLIATAAMGLESVVAKEVKNLGYEVQVDNGKVEFEAPINAIPRCNLWLRSADRVKLLVGKFKATSFDDLFEGTKALPWEIYIDEDGEIPVIGKSVQSTLHSVPDCQKIVKKALVERMKLKYGMISKLPETGAMYRVEIALLKDEATLTIDTSGVGLHKRGYRVGQGEAPLKETLAASLVLLTNWHPNETFVDPFCGSGTIPIEAAMIGQNIAPGFNREFSSEDWSFVKQKYWDKAFEEAEDVANYDQPLNITGTDIDHKMINVANRNALEAGLGELIQWKQMQVSDLHFKQPNGYIVSNPPYGQRLGDQKQSTKTAKQLGEIISNHPSWSVYIITAYDHFEAAFGKKATKKRKLFNGYIRTDYYQYFGQKERGDSDEIK NA NA NA NA NA AK015_03354 315 gpsB COG3599 Cell cycle protein GpsB ATGAGTATGAACCAAGTGCATTTAACAAGTAAAGATATTTTAGATAAAGATTTTAAGACCGCAATGCGAGGATATAACCAAGAAGAAGTGGATGAATTTCTTGACTTAATTATTCAAGATTATGATTTGTTTAAACAGGAGATCAATCGTTTACAACAAGAAAATGAGCAATTGCGAAAAACAAGTACTGAGAAACCAAAAGCAAGGTCTGTGCAAACTGCACCTAATCATCAAGTTAATTATGATGTGTTAAAACGTCTTTCAAATTTAGAAAAAGCAGTGTTTGGTAAAAAGTTTGCTGATTCAGAAGGGTGA MSMNQVHLTSKDILDKDFKTAMRGYNQEEVDEFLDLIIQDYDLFKQEINRLQQENEQLRKTSTEKPKARSVQTAPNHQVNYDVLKRLSNLEKAVFGKKFADSEG PGPT0014806_187 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA NA NA AK015_03355 411 cdd COG0295 Cytidine deaminase ATGATGAAAACAAAACAAGCATTAATAGAAGCTGCTAAAACAATTAGAGAAAAAGCATATGTACCGTATTCTAATTTTCAAGTTGGAGCAGCGTTACAAACGGGTTCCGGAAATATTTATACAGGCTGTAATATCGAAAATGCTGCTTATCCTGTAACATGCTGTGCAGAGCGAGTGGCTATTTTCCAAGCAATTGCCAATGGTGAAAAATCATTTACGGAAATGGCTGTTGTTGCTGATACAGAAAGGCCCGTACCTCCATGTGGGTCTTGTAGACAAGTAATGAGTGAATTTTTTCCTTCAGATATGCTTATTCATCTAACTAACCTAAAAGAAGATATAAAAACGGTTAAAATGGAAGAACTATTGCCTTTTTCGTTTCAGCCTTCTGATTTAGAGCAAGAAGTGTAG MMKTKQALIEAAKTIREKAYVPYSNFQVGAALQTGSGNIYTGCNIENAAYPVTCCAERVAIFQAIANGEKSFTEMAVVADTERPVPPCGSCRQVMSEFFPSDMLIHLTNLKEDIKTVKMEELLPFSFQPSDLEQEV PGPT0021360_2592 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489 NA NA AK015_03356 360 hypothetical protein ATGGATATAAAACAACAAACCAATATATTACAACAAAATTTATATCAGTTGAAAGAAAAATTTGAGCATACTAATCCTCCAGAGGATCGAAAAGATAGAGCGTTGTTTCTGAAAGTTAAAGAGGAAACAACGCCTATTTATCAGTTGCTTGAACGTTGGGAAACAGAAGCTTTACAGTTGGTACAAAAGCGCAAAGTGAATGTACATCCTCACCAAATTGTTTCTACAAGAGAAAATATGGAACTATTACTGTTACATAGTTATTATATAGATGTAAAGAAAAAACGATATATCGAATTATACAAATCAATACAATACATTTTCGATCAGTTAATGCGCGAGTTGGATACGCTGTTGTAA MDIKQQTNILQQNLYQLKEKFEHTNPPEDRKDRALFLKVKEETTPIYQLLERWETEALQLVQKRKVNVHPHQIVSTRENMELLLLHSYYIDVKKKRYIELYKSIQYIFDQLMRELDTLL NA NA NA NA NA AK015_03357 228 hypothetical protein ATGCTTGCGTATCAATCACCAAAAAAAGGAAAGCGCGGTGTGGACCGTAAAAAAGTGGAAGCAGCTTTATACGAATTATCAAATCAAATTCGCCGATTGGATCAAAAGTTGATCATGAAAGTAGAAAATAATATATCAAATCAATATTATGAAAAACTAAATGAAATTGCGCTAGTGAAGAAGCAATGTATACAATTAGAAAAAAATACAAGAGAACAAAGAAAGTAA MLAYQSPKKGKRGVDRKKVEAALYELSNQIRRLDQKLIMKVENNISNQYYEKLNEIALVKKQCIQLEKNTREQRK NA NA NA NA NA AK015_03358 105 hypothetical protein ATGAAAGATAAAAAGAAGAAACAAACCAAAACAGAAAGCATCCGTTCTAAATCTTTGAAAAAAGGAGACAAAAAATTGAACGGACCCAACTTTCCAGCAACTTAG MKDKKKKQTKTESIRSKSLKKGDKKLNGPNFPAT NA NA NA NA NA AK015_03359 987 hypothetical protein ATGTATATAGATGCAAACATCAAAGCCTATCTTCATTATATAACAAATAAAACAACAGCACATAACCAAGATAATATAACACGTACAAACGCTTATTTTAAGTTTTATCTGAAATTCCCAGAAATAAAATGGGCTTTTTTAGCAAGTATCGTATCGAGAAATGCTGGCTGGAACATGACCGATCTGCAAATGACTCCATTTCAACATTTATTAGGGAGGCAAGAAAGACAGCGGCTGTTTATGACGTATGAGCGTGCTAATTGGCTCATTTTTTCAGATGCCTTCCCTCAACTCTTAGTATACCAATTATCCAAGCAAAACAACAAACCAATGTTCGATCTTCTTTCTCTGTTTCATGTTTCTAGTTATATGATAAAAGAATGGCACTATTTTTGGAAGTATTGTGATAAAAATCGTCTTGTACAAGCACTTATTATAAACGAACAGAATGTTATTCAAGAGCCTGTTATTAATCAGCATTATTTTCAACGCCGTGTATTTCATCAATTGCCTTATCAAATGCAAAACTTTTTTATGATGAATGCTGTTCTTTTGCCTTCTATGTCCAATGATGATTTATATGGTGCCTATGTCCATAACTTCACAAATAAAACGAACCGAATTCAGTTAGGGAAAAAACTAGCTTCTATTATTTTTTCCCCAACTGTCTATAAGCAAACGTTTTTATTTACTAAATATTGTACACACACTGGATCCAGACGTGATTATGAACGTTTTTTGAAGCTTCCCAAACAACCGATAACCCCAATCTTGCGAATGGTATATCCCAGTATTACACATCAAGATACCATACGAAAGGATTGGTATCAATCAGGGGGTGTAAAGAAAAAATGGATTCGCGACGCACCTCGATGTAACAAACAACAAATCGGAAAAACTTTTTATCAAAAACGACAAATGTTATTTGCTTATTTCTATACTAAACAAGTGTTTACGGCAAAAAAATATTTTTCAAAAAGGGATTAG MYIDANIKAYLHYITNKTTAHNQDNITRTNAYFKFYLKFPEIKWAFLASIVSRNAGWNMTDLQMTPFQHLLGRQERQRLFMTYERANWLIFSDAFPQLLVYQLSKQNNKPMFDLLSLFHVSSYMIKEWHYFWKYCDKNRLVQALIINEQNVIQEPVINQHYFQRRVFHQLPYQMQNFFMMNAVLLPSMSNDDLYGAYVHNFTNKTNRIQLGKKLASIIFSPTVYKQTFLFTKYCTHTGSRRDYERFLKLPKQPITPILRMVYPSITHQDTIRKDWYQSGGVKKKWIRDAPRCNKQQIGKTFYQKRQMLFAYFYTKQVFTAKKYFSKRD NA NA NA NA NA AK015_03360 588 recU_2 COG3331 Holliday junction resolvase RecU ATGAATTACCCAAATGGAAGAAAAAATGGGGATCTATACAAGCAAAAAAAATTATATTCTCATCAATTTGGTAATCGTGGGATGTCATTAGAAAAGGATATTAATGATACAAATGCATACTATTTAGAAACAAAAAAAGCTGTCATTCACAAAAAACCGACACCTGTTCAAATTGTTAAGGTCAATTATCCAAAACGAAGTGCAGCAGTAATTACAGAAGCTTATTTCAAACAAGCTTCAACAACGGATTACAACGGAGTGTATCGCGAAAAATACATTGATTTTGAAGCAAAGGAAACAAAAAATAAAACGCTATTTCCGTTAGCAAATATACATGCTCATCAAGTCGAACATATGCAGGCAGTTGCTGCTCAAGGCGGTATTACTTTTCTGCTCATACGCTTTTCTGTACTTGATGAAACATATTTATTTCCTGCTGAAAGACTTTTTACGCATTGGTATGCTCACCTAAAAGGAGATAAAAAATCTATTGCGTATAAAACAATAAAACAGCAGGGTTATTTTATCCCTTTTCAATATAAAGCTAGAGTTGACTATTTAACAATTATTGATAAGCTTTATTTTTAG MNYPNGRKNGDLYKQKKLYSHQFGNRGMSLEKDINDTNAYYLETKKAVIHKKPTPVQIVKVNYPKRSAAVITEAYFKQASTTDYNGVYREKYIDFEAKETKNKTLFPLANIHAHQVEHMQAVAAQGGITFLLIRFSVLDETYLFPAERLFTHWYAHLKGDKKSIAYKTIKQQGYFIPFQYKARVDYLTIIDKLYF NA NA NA NA NA AK015_03361 2790 ponA COG0744 Penicillin-binding protein 1A/1B ATGGCAAATAATAGCCAGTCTCGTACAGCGAGAAGAAAACAAAAGAAAACAAAGAAAAAACCATTATGGAAAAAAATATTACTTTCAATCATAATTATTTTTATAATTATGGGACTTGGTGCTGGAGCTACAGCAGCTTACTGGGTAGCAACAGCTCCTGATTTAGATGAGTCGAAATTATCCGACCCTCTTGCCTCAGAATTCCTAGATATTGATGGGAAATCATTTGCGGTTATGGGTGAGAAAAATCGAACGAAAATTAGCTACGATGATCTACCACAAGTGTTAATTGATGCTGTTACAGCAACCGAAGATGCGAGGTTTTTTGAGCATTCTGGTATTGACTTAAGGAGAATTGGCGGTGCAATTATTGCCAATATAAAAAATGGCTTTGGTTCAGAGGGGGCAAGTACGATTACGCAACAAGTAGTTGAAAAATCTTTCTTGTCTGCTGAAAAAAAGATTAGTTTAAAAGTTCAAGAGCAATGGTTAGCATTACAATTAGAAAGAGACTACTCAAAAGAAGAAATTTTGGAAATGTATTTGAACAAAATCTTTTACGGTAGTAATGCTTATGGAGTGGCTACAGCTGCAGAAACTTATTTCGGCAAAGAAGATTTAAGCGAATTAACATTGCCTGAAGCGGCCATTTTAGCTGGGTTGCCACAGCGACCAACAGCATACAACCCGTTTAAAAATCCCGAATTGACGAAAGAGCGGATGGATACTGTTTTAGATTTAATGGTACGCCATGATAAAATTTCTGCAAAAGAAGCCGAAGAAGCTAGAAATGTTGATATTCCTTCTTTATTAGTTGAAGATAAGCCAGAAACGACACCTTATGAAGGTTTCTTACAACAGGTGGAAAAAGAAGTGAAAGAAAAAGTAGACGGTGCAGATATTTATACAGATGGTTTAACCATTCATACGACAATTGATCAAGGTGTGCAGAAGCATGTGGAATCCTTACTAACGGATAGTGACTCAAATCCGATTCAATATCCTGACGATGAGATGCAGGCAGCAATGACAGTTCTTGATACGAAGACTGGAGCCATTCGGGCTATTGGTGGTAGAAGGAATAGCGAAGGGAAAAGAGAGCTAAATTACGCTATTCAAAACACAACACAGCCAGGTTCAACTTTTAAACCTATTGTAGCTTACGGGCCAGCAATTGAATATAATAAAATGTCAACATACCATCAAATCAACGATGATAAACCATATAAAATCGGTGGTACAGATTCAGTAATTGGTAATTGGAATGGGCAATATGCTGGCTGGATGACAGCACGTCATGCACTTAAACAATCACTAAACGTACCTGCTGTGAAGGTTTTAGAAGAAGTTGGTTATGGAAAAGCAAAAGAATTTGCAGAAGGATTAGGAATCAAATTTAAAGACGATAAAATTTTAGTCGGTGATGCTATCGGGGGTACAGGAACAGAGGTTACACCTTTACAGCTGGCTGGAGCTTTCCGAGCCTTTGGTAACGAAGGGTTGTATAATGAACCTTATTCTGTCACAAAAGTCGAATTTCCAGATGGAAAAACGGTTGAATTAACACCACAAGCAGAACCTGCTATGTCGGATTATACAGCATATATGATGACAGATATGATGAAAACAGTTCTAACTGAGGGTACAGGTAAGAACGCAAATATTCCAGGCCTTCCAGTAGCTGGTAAAACCGGAACGACAAATTTAAAAGACCGTGAAGGAAGCCCTGATGCTTGGTTTAGTGGTTATACAACGAATTACACCATTTCTGCATGGGTTGGTGGTTATAAAGATAAAGGAGGAGGTCGAGATGTTATTCCTCCTGGAAATGGAAATACGCAAATTCCATTACAAATGTTTAAAAATACGATGACAGAAATATCGAAGGACATAGAGACAAAGGATTTTGTAAAACCAGATAACGTAATAGAAGCCGAAGTAGAAAAAGGATCTAACCCACCTGCAAAACCAAGCGAACATACACCTAGCGATAAGATTATTACAGAGTTGTTTGTTAAAGGTACAGAGCCAAAAGAGACTTCCGAGAAGTTTGATCAATTAGATCCGGTTAGCGGATTAACGGCAAGCTTTAACGAAGAAAAGAGTGCGATTGACGTTTCTTGGAAGTATGATGCTGATGCAGATGTTTCCTTTGAAGTCAGTGCGCAAGTGGATGGCGGTGAGATGCAAGCATTATCAACAACCGAAGATACATCTATGGAAATATCCGCGGTGGAACCAAATAAAGAATATACGATCCAAGTTGTGGTAGTTAGTAATGAAGACGATTCTAAAAGTGAACCGAAAACAACCACTGTAGCAACAGGTGACGAAGAACCAGACGAGTTACCTGAAGTAACAGGGTTAACAGCTACCTATAATGAGGCAAATAAACTCATCGATGTTAGTTGGAATTACAATGGTCCGCCCGCTTCCTTTGAAGTATCTGTTAATGGTGAGACACAAACAGTCCAGTCAAATGGGTTAGAAATAAGTGGGGCTACACAGGGAGAAACGTACAACATATCTGTTACACCTATTGGTAAGAAAGGTAAAAACGAAGGTGTAAGAGGACCCGCTCAACAAACATCTGTAACCATACCAGCAGAACAAGAAGAACCTCCTGCTGATGATGATGGAGGGGACGGTGGAGCTGATACTGGTGATAATGGTCAAGATAACGGGGAAGCTCGTCCACCAGAAGAGGAGGATGAAGAAACCCCCTCTGATGAAAATGGTCAAACCGATGGTGGAGCAGATGAAGAACAAGGGGCTAGTGACGAAAGCTAA MANNSQSRTARRKQKKTKKKPLWKKILLSIIIIFIIMGLGAGATAAYWVATAPDLDESKLSDPLASEFLDIDGKSFAVMGEKNRTKISYDDLPQVLIDAVTATEDARFFEHSGIDLRRIGGAIIANIKNGFGSEGASTITQQVVEKSFLSAEKKISLKVQEQWLALQLERDYSKEEILEMYLNKIFYGSNAYGVATAAETYFGKEDLSELTLPEAAILAGLPQRPTAYNPFKNPELTKERMDTVLDLMVRHDKISAKEAEEARNVDIPSLLVEDKPETTPYEGFLQQVEKEVKEKVDGADIYTDGLTIHTTIDQGVQKHVESLLTDSDSNPIQYPDDEMQAAMTVLDTKTGAIRAIGGRRNSEGKRELNYAIQNTTQPGSTFKPIVAYGPAIEYNKMSTYHQINDDKPYKIGGTDSVIGNWNGQYAGWMTARHALKQSLNVPAVKVLEEVGYGKAKEFAEGLGIKFKDDKILVGDAIGGTGTEVTPLQLAGAFRAFGNEGLYNEPYSVTKVEFPDGKTVELTPQAEPAMSDYTAYMMTDMMKTVLTEGTGKNANIPGLPVAGKTGTTNLKDREGSPDAWFSGYTTNYTISAWVGGYKDKGGGRDVIPPGNGNTQIPLQMFKNTMTEISKDIETKDFVKPDNVIEAEVEKGSNPPAKPSEHTPSDKIITELFVKGTEPKETSEKFDQLDPVSGLTASFNEEKSAIDVSWKYDADADVSFEVSAQVDGGEMQALSTTEDTSMEISAVEPNKEYTIQVVVVSNEDDSKSEPKTTTVATGDEEPDELPEVTGLTATYNEANKLIDVSWNYNGPPASFEVSVNGETQTVQSNGLEISGATQGETYNISVTPIGKKGKNEGVRGPAQQTSVTIPAEQEEPPADDDGGDGGADTGDNGQDNGEARPPEEEDEETPSDENGQTDGGADEEQGASDES PGPT0023875_130 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366 NA NA AK015_03362 663 nth_2 COG0177 Endonuclease III ATGCTGACGCAAAAACAAATTCGCTTTTGCTTGGATGAAATGAAAAAAATGTTTCCTTACGCCCAATGTGAATTAACCCATAAAAACCCATTTGAATTAGTAATTGCAGTGCTCTTATCTGCACAGTGTACAGATAACTTAGTTAATAAGGTTACAAGACCGCTGTTTCAAAAATATAAAGCACCTGAAGATTATTTAGCCGTACCTTTAGAAGAGCTTCAAGAAGATATTAAATCTATTGGTTTATACCGAAATAAAGCAAAAAATATTCGTAAGCTTTGTGCGATGTTGATAGAGGATTATGGAGGAATCGTTCCAAAATCAAAAACAGAATTAATGAAATTAGCAGGGGTAGGTAGAAAAACAGCTAATGTCGTTGCCTCTGTAGCGTTTGATAAGCCGGCAATTGCGGTCGATACACATGTAGAACGCGTCTCAAAACGACTTGGTATATGTAGGTGGAAAGATTCGGTCACGGAAGTGGAAGAAACTTTAATGCGAAAAATTCCAAAGTCAGAGTGGAGTGAAACGCATCACCGCATGATTTTTTTTGGTCGATATCATTGTAAAGCAAGAAATCCGAACTGTATGGAATGTCCACTATTAGAAGTGTGCCGTGAGGGACAAAAACGGATGAAGAAAAGAAAAGAGGTAAACGCGTAA MLTQKQIRFCLDEMKKMFPYAQCELTHKNPFELVIAVLLSAQCTDNLVNKVTRPLFQKYKAPEDYLAVPLEELQEDIKSIGLYRNKAKNIRKLCAMLIEDYGGIVPKSKTELMKLAGVGRKTANVVASVAFDKPAIAVDTHVERVSKRLGICRWKDSVTEVEETLMRKIPKSEWSETHHRMIFFGRYHCKARNPNCMECPLLEVCREGQKRMKKRKEVNA PGPT0013735_2958 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773 NA NA AK015_03363 708 dnaD COG3935 DNA replication protein DnaD ATGTTCGTCATTAAAAAGCAATCATTCTCCATTCAGTATCTTTTAACCAATCAAATGCTCATTCCAAAGGATCTATTAACTTCCTATGTATCTATAGGGCTAGATGAAAAAGAAGTTATGTTGTTATTACAATTACAACGATTTATGTTAGAAGGAATTGATTTTCCTACTCCAGATCAATTAACGACTTATGTAACGATGAAAGAACAAGAGTGTGCACTTTTATTACGTGGCCTTGTTCAAAAAGGAATGCTGACTATTGTACAGCAAGAAGAAAATGATGGAAAAATTAAAGAAGCTTACGATTTAAATCCTCTATGGGATAAATTATTTAAGATGGAAGAAGATACGAAACAGGATTCAGATACATCTGACGGGACTATTTTTATTTTGTTTGAACAAGAATTCGGCAGACCATTATCCCCTTTTGAAATTGAAATGATTAATGCGTGGCTAGATGAGGATCAAATTGCTCCATCGTTAATTAAAGCAGCTTTACGTGAATCCGTGTTAATGGGAAAGTTAAATTTTAAATATATTGATCGTATTTTACGCGAATGGAAGAAAAAAGGGATCCATAGTGTAGAACAAGCTAGAATGTCTAGTAAACAATTTCATGCCAGACAGAATGCTTCAAGATCAGAAGGTAGTTCACAAAGTACTCGTAACAGTTCTTTTTATTATAATTGGCTGGAAGGGGAGGATTAG MFVIKKQSFSIQYLLTNQMLIPKDLLTSYVSIGLDEKEVMLLLQLQRFMLEGIDFPTPDQLTTYVTMKEQECALLLRGLVQKGMLTIVQQEENDGKIKEAYDLNPLWDKLFKMEEDTKQDSDTSDGTIFILFEQEFGRPLSPFEIEMINAWLDEDQIAPSLIKAALRESVLMGKLNFKYIDRILREWKKKGIHSVEQARMSSKQFHARQNASRSEGSSQSTRNSSFYYNWLEGED NA NA NA NA NA AK015_03364 1293 asnS Asparagine--tRNA ligase TTGAAAACGACAATCTCGCAGGCACCAAGATATAATGAAGAAACAGTTACGATTGGAGCTTGGCTCACAAATAAACGTTCAAGTGGAAAAATTGCATTTCTACAATTACGTGATGGCACTGGATTTATGCAAGGTGTTGTTGTAAAAAATGATGTGAGCGAAGAAGCATTCCAATTAGCTAAAAATATCACACAAGAATCATCGATGTATATTACTGGTAAAATTGTCGAAGATACACGCTCACCATTTGGATACGAAATGCAAGTGAGTGATATTGAATTAATTCATGAAGCTCATGATTACCCGATTACACCGAAAGAGCATGGTACAGAGTTTCTAATGGATCATCGACATTTATGGTTACGATCTAAACGTCAACATGCTGTTATGAAAATACGCAATGAAATTATACGTGCGACTTATCAATTTTTTAATGATAAAGGCTATGTTAAAATTGATCCGCCTATTTTAACAGGATCCTCAGCAGAAGGAACAACTGAATTATTCCATACGAAATACTTCGATGAAGAAGCTTATTTATCACAAAGTGGGCAATTATATATGGAAGCAGCGGCAATGGCATTTGGAAAAGTATTTTCTTTTGGACCAACCTTCCGTGCAGAAAAATCCAAAACACGTCGACATTTAATTGAATTTTGGATGATAGAACCAGAAATGGCTTTTGTGGAGCATGAAGAAAGCCTTGAAATCCAAGAAAATTATGTAAGCTTTATCGTTCAAAGTGTGCTTGCAAATTGTAAGTTGGAATTGCAAACATTAGATCGTGATATTTCAAGCTTAGAAAAAGTACAAGCACCGTTTCCTCGGATAACTTATGATGAAGCAGTTGCACTGTTAAAAGAAAAAGGTTTTACCGACATAGAATGGGGTGAAGATTTTGGGGCTCCCCATGAAACAGCTATCGCTGAAAGCTTTGATAAACCAGTATTTATTACGAATTACCCTATAGGAATAAAAGCATTCTATATGAAGCCACATCCAGAAAGAGATGATGTCGTATTATGTGCAGATCTCATTGCACCAGAAGGGTATGGAGAAATTATTGGTGGTTCTCAACGAATTGATGATTTGCAATTAATGGAAGAGCGTTATAAAGAACATGGATTAACAGGTGAAGCGTATCAATGGTATTTAGAACTAAGAAAATATGGTAGTGTACCACATTCTGGCTTCGGCCTAGGATTGGAAAGAACGGTAGCTTGGCTTGCGGGTGTTGATCATGTTCGCGAGACTATCCCGTTTCCACGTCTACTAAATCGGCTCTATCCATAA MKTTISQAPRYNEETVTIGAWLTNKRSSGKIAFLQLRDGTGFMQGVVVKNDVSEEAFQLAKNITQESSMYITGKIVEDTRSPFGYEMQVSDIELIHEAHDYPITPKEHGTEFLMDHRHLWLRSKRQHAVMKIRNEIIRATYQFFNDKGYVKIDPPILTGSSAEGTTELFHTKYFDEEAYLSQSGQLYMEAAAMAFGKVFSFGPTFRAEKSKTRRHLIEFWMIEPEMAFVEHEESLEIQENYVSFIVQSVLANCKLELQTLDRDISSLEKVQAPFPRITYDEAVALLKEKGFTDIEWGEDFGAPHETAIAESFDKPVFITNYPIGIKAFYMKPHPERDDVVLCADLIAPEGYGEIIGGSQRIDDLQLMEERYKEHGLTGEAYQWYLELRKYGSVPHSGFGLGLERTVAWLAGVDHVRETIPFPRLLNRLYP NA NA NA NA NA AK015_03365 1188 Aspartate aminotransferase GTGGAATTAGCAAACAGAGTAAAAACATTAACCCCCTCATCTACATTAGCTATTACAGCGAAAGCAAAAGAATTAAAACAACAAGGTCATGACGTTATCGCTTTAGGAGCTGGAGAACCTGACTTTAATACACCTGAGCCTATATTGCGTGCGGCTGAAAAAGCAATGAATGAAGGCAAAACAAAATATACGCCTTCTGGAGGGATTGTGGAACTAAAGCAAGCCATTGTGAACAAATTTCAAAAAGACAATCAACTTGAATATACAAAAGAGCAAATTATCGTTACTACTGGAGCCAAGCATGCATTATACACACTTTTTCAAGTGTTGCTAAATGAAGGGGATGAGGTTATTATCCCAACTCCGTATTGGGTTAGTTACCCAGAGCAAGTAAAGCTTGCTGGTGGAACTCCTGTTTTTATTCCTGCTAAAGAAGAAAACCAATTTAAATTAACGCCACAGGAATTAGAAGCGGCTATTACGAGTAAAACGAAAGCAATCATTATTAATTCACCTAATAACCCGACTGGTATGATGTATAATAAAGATGAATTAAAGCAGTTGGGAGATATTTGTTTAAAGCACGATTTGTTAATTGTATCCGATGAGATTTATGAAAAGCTAATTTATTCTGGCGAAGACCATGTATCTATAGCACAATTATCACCAGAGTTAAAAGCCCAAACAGTTATTATTAATGGTGTATCTAAATCCCATTCCATGACTGGTTGGAGAATTGGTTATGCTGTTGGACCAAATGAAATTATTAAAGCAATGACAAGTCTTGCTTCACATTCTACATCAAACCCAACGTCAATTGCTCAGTACGCAGCATTAGCCGCTTATCAAATGGACGATTCCTTTAATGAAGAAATGAAGGGTGTTTTTTCACATCGTTTGGAAAGTTTATATCAACTGCTAACGGAGATACCAGGAGTGAGCTGTGTAAAGCCTGAAGGGGCATTTTATTTATTTCCAAATGTGAAAGAAGCAGTACGTAAAAGTGGCTTTAGTAATGTAGATGATTGGGCAAAGGCGCTATTGGAAAAAGAAAAAGTAGCTCTTATTCCTGGATCTGGATTTGGTGCGCCTAATAATGTACGTTTATCCTATGCCACATCTATGGAAGCACTGGAAGAAGCAGCAAAAAGAATTAAACATTTTATTTTACACTATAAGAAAGCATAA MELANRVKTLTPSSTLAITAKAKELKQQGHDVIALGAGEPDFNTPEPILRAAEKAMNEGKTKYTPSGGIVELKQAIVNKFQKDNQLEYTKEQIIVTTGAKHALYTLFQVLLNEGDEVIIPTPYWVSYPEQVKLAGGTPVFIPAKEENQFKLTPQELEAAITSKTKAIIINSPNNPTGMMYNKDELKQLGDICLKHDLLIVSDEIYEKLIYSGEDHVSIAQLSPELKAQTVIINGVSKSHSMTGWRIGYAVGPNEIIKAMTSLASHSTSNPTSIAQYAALAAYQMDDSFNEEMKGVFSHRLESLYQLLTEIPGVSCVKPEGAFYLFPNVKEAVRKSGFSNVDDWAKALLEKEKVALIPGSGFGAPNNVRLSYATSMEALEEAAKRIKHFILHYKKA PGPT0020110_3229 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812 NA NA AK015_03366 534 hypothetical protein ATGAAGAACAAGCGATCTTTACTATATATCGGTCCTAAATGGATAAGATGGACATTATCCATTCTCTTTTTATTGACGGTGGCTTGCGGTGTCTATTTTATTTATTTATACAATGATTTACTTGAAAGTAAAACGGCAGGATACGAAGAAACAAAGCAGCAGCTACTGAAGGCTGAAACTTTAGCTGAAATTGATAAAATAGAAACATTTCATGGAAAAGAAGCCTACCATGTTGCGTATGGAAAAGACAAAAATGAACAAAGTAAACTTGTTTTTTATCCCTTAAAAGGGAAAGAAAAACAACTGATAACTGTAAATCAAGCTGACATTGTAAGTAAATCAGAAATGAAAGAGCAGTGGAAACAGGAATGTAATCAATGTGAGTTTATACGTATCAGCCCTGCACTCTTAGATGGAAAAGAATTTTGGGAACTGACTTATCTAGATGACTCAAATCGATACGTTTTTGATTATTTAGATATGCATAATGGTTCGCGATATGAACAAATGCGCTTTAAAAGTATGTTTAAATAG MKNKRSLLYIGPKWIRWTLSILFLLTVACGVYFIYLYNDLLESKTAGYEETKQQLLKAETLAEIDKIETFHGKEAYHVAYGKDKNEQSKLVFYPLKGKEKQLITVNQADIVSKSEMKEQWKQECNQCEFIRISPALLDGKEFWELTYLDDSNRYVFDYLDMHNGSRYEQMRFKSMFK NA NA NA NA NA AK015_03367 168 hypothetical protein ATGGATGAATTAACCACTTTAGCGACTGTACAAATTGGATATTCCTCCGAGTTATACAAAATAGTAGACCTATGCAATAAAACTTTAAAAGAACAAAACCTAATATTTGGTTTAGCATTGGATGATAAAGATGAAGAACAAGCGATCTTTACTATATATCGGTCCTAA MDELTTLATVQIGYSSELYKIVDLCNKTLKEQNLIFGLALDDKDEEQAIFTIYRS NA NA NA NA NA AK015_03368 2796 dinG 3'-5' exonuclease DinG GTGCAACGCTATGTTGTGATCGATTTAGAAACAACTGGAAATACTCCAGCTAAAACAGACAAAATTATTGAGGTAGGTATCGTAGTTATTGAGCAAGATACGATTGTAGATAGTTATTCTACCTTACTACATCCAAACAAAGAAATTCCAGCATTTATAACAAATTTAACAGGTATTTCAAATGAAGATGTAGCCGATGCACCATTATTTGAAAATATAGCAGATGAAGTAACTGCTATGTTTGAAAATAGTTACTTGATCGCACATAATGTCCCATTTGACCTCGGCTTTTTAAATGAAGAATTGACTAAAAGCAATCGAAAAAAGCTAAAGAATCCAGTGCTTGATACAGTAGAATTAGCAAGAATATTATTTCCAAGTGCACCAAGCTTTAAATTAAACCAGCTAACTGATTATTTACAAATCAACCATGAAAACCCGCATCGCGCGCTTTCAGATGCATTTGTAACCGCGAAGCTATTTTTAAAGCTAAAAGAAAAACTAGCTTCTTTACCGTATGAGACCCTAGAGCAATTGCTACGTTTGGAAAAATGGTTAAAGTCAGATGCATATGCTTTATTTAACTATTATAAAGAGCAAAATGTATTTGTAGAAAAAAATGATGAAATTGCTATATATCAAGGTCTTGCCTATCGCTGTATGAATAATCTAGAAAAGGAAGATAACGTTATAGATCTTTCTTTCGGAGATTATCTAGACTCGATTTATGAATCAAATGGTAGCTTAGAAAAAAACTTGTCTTTTTATGAAAAACGTGCAGGGCAACGAGAAATGTCCGAAATGATCTTAGATGCATTTCAAACGAGACAGCATGCGTTGATTGAAGCTGAAACAGGAACAGGAAAATCACTGGCATACCTGCTTCCAGCAATATATGATGCTGTTTCTACACATAAACGAGTAGTCATTAGTACATACACTACGCAGTTACAAACTCAATTATTAGAGGAAGAAATTCCATTAATTCGTAGGTTAATTCCTTTCCCTTTCCGCGTAGCACTGCTTAAAGGGAAAGGGCATTATATTAGTTTGGAAAAATTGCACCAAGAGTTGTTGGAGCCTCTCCAGATTAACTACGACATCGCTCTTACCGTAGCAATGCTTTTAGTTTGGTTAACAGAAACGGAAACGGGTGACATTGACGATATCCAGTTGCCTTCTAGTGGATATTTGTTTTTTCGACGCATATCTGCAGACATGGAAGAAGGTGTTGATCCATCTTCGCAGTGGTTTTATAGATCGCACTATCAGTACGCAAAAAAACGAGCCCAGCAAGCTCATATTGTTATTACTAATCATGCATTATTATGTACAGATATTTTTCATCCTTCTTCTTTACTACCAGTATACGAAAGAGCAATAATTGATGAAGCACATCACTTTGAGGCAACCGTATCGAAGCATTATGGACTGAAACTTGATTATATGCATATGCATTATACTTTTAATCAATTAGGGCGAACAGATGAGCAGAAATTGGTCCATACCATTTTATCTCATTACCCATCAGAACTTTCAAAAGAGACTAAGGTTTTGTGGAATAAACTGCTTGATGATACTCGTTATGAAACGGATGATTTGTTTCGTTACTTGTTTCAATATGTTTCCAAGGTACGTAAAGGAGACAAATCGTTTAGTGATATAGGTAGAACGCAGTATCGCTTTGAAGCGAATAAAGAAGATCAAAACAAATGGACAGTAATTAAGGAAATGGTATCAAGGGTTTGCTTACATTTACGTGACTTAGTACATGGATTAGTAATGATTGAAGCAGAGTTACGAGTTAATCAACTTCATCAGGAAGATAAAGAGAAACTTTTGGCTAGTGCTGAACGGCTACAAGTATTTATTGATCAATTAGAACAATTTTTCCTTGTAGAAGATAGCGTACAGGAAGTAAAATGGATGGAGATAGAGGCATACGGAGCAAAAAATGCAGTTTACCTATACAGTGAACCAACAGATATTGCTAATTTACTAACAGACGTATTTTTTTCAGTTAAAGAAAGTATCGTTTTAACAAGCGCTACATTAACAATGGAGAATTCATTTCAATATATTATGGAGCGTCTAGGCTTACAAACAGAGAATCCTTTAACGAAGAAAATTGTTTCTCCATTTTCGTATGCCGATCAAGTACAATTAATGGTGCCAAATGATTTTCCAACAATCACTTCAGGACACATTGATGATTTTATTCATGCAACCTGTGAAGCGGTATTATCTTTGGCAGAAATCACCAACGGTAGGATGCTGGTTTTATTTACATCGTACGATATGCTACGACGTTCACATTCTTTACTAAAAGAGTTAATGGAGAATGAAACGTATGCCCTTATTGCACAAGGAATCTCAAGTGGTAGTAGAGAACGTTTAAAAAAGAACTTCCAAACGTTTGATCGAGCGATTCTTCTAGGAACCAGTTCATTTTGGGAAGGTGTAGATATTCCTGGCGAAGATTTATCGTGTCTTGTAATTGTTCGTCTACCGTTTCAACCACCTGATCATCCAGTGCTTGAAGCAAAATCAAATTTTTTAAAAGAGCAAGGCAAAAATCCATTTATGCAATATGCCTTACCTAATGCTGTTATTCGGTTTAAACAAGGCTTTGGGAGATTAATCCGATCTAGCAGTGATCGAGGAATTGTGTTTATTTGTGATGCTCGAATTGTAACAGCTCGCTATGGGAAATATTTTATTCGCTCTATTCCTAAAGTGCCATTATTTTTTGACACAACACATGATTTAATGATTAGAGCTGAAAAATGGTTTTAA MQRYVVIDLETTGNTPAKTDKIIEVGIVVIEQDTIVDSYSTLLHPNKEIPAFITNLTGISNEDVADAPLFENIADEVTAMFENSYLIAHNVPFDLGFLNEELTKSNRKKLKNPVLDTVELARILFPSAPSFKLNQLTDYLQINHENPHRALSDAFVTAKLFLKLKEKLASLPYETLEQLLRLEKWLKSDAYALFNYYKEQNVFVEKNDEIAIYQGLAYRCMNNLEKEDNVIDLSFGDYLDSIYESNGSLEKNLSFYEKRAGQREMSEMILDAFQTRQHALIEAETGTGKSLAYLLPAIYDAVSTHKRVVISTYTTQLQTQLLEEEIPLIRRLIPFPFRVALLKGKGHYISLEKLHQELLEPLQINYDIALTVAMLLVWLTETETGDIDDIQLPSSGYLFFRRISADMEEGVDPSSQWFYRSHYQYAKKRAQQAHIVITNHALLCTDIFHPSSLLPVYERAIIDEAHHFEATVSKHYGLKLDYMHMHYTFNQLGRTDEQKLVHTILSHYPSELSKETKVLWNKLLDDTRYETDDLFRYLFQYVSKVRKGDKSFSDIGRTQYRFEANKEDQNKWTVIKEMVSRVCLHLRDLVHGLVMIEAELRVNQLHQEDKEKLLASAERLQVFIDQLEQFFLVEDSVQEVKWMEIEAYGAKNAVYLYSEPTDIANLLTDVFFSVKESIVLTSATLTMENSFQYIMERLGLQTENPLTKKIVSPFSYADQVQLMVPNDFPTITSGHIDDFIHATCEAVLSLAEITNGRMLVLFTSYDMLRRSHSLLKELMENETYALIAQGISSGSRERLKKNFQTFDRAILLGTSSFWEGVDIPGEDLSCLVIVRLPFQPPDHPVLEAKSNFLKEQGKNPFMQYALPNAVIRFKQGFGRLIRSSSDRGIVFICDARIVTARYGKYFIRSIPKVPLFFDTTHDLMIRAEKWF NA NA NA NA NA AK015_03369 1005 birA COG0340 Bifunctional ligase/repressor BirA ATGGAATCCACCCGCAATCAATTAATCCAATTACTTGCTAAGAATAACGAAGAATATATATCTGGACAAGTGCTTTCAGAACAATTAAACATATCTCGCAGTGCTATTTGGAAGCATATGAAAGAGTTAGAGAAAGATGGTTACGTCATAGAAGCAAAGTCGAAGCGAGGCTACCGCATTGTAAGCTATCCAGAAAAAATATCTGAGAACACCGTACAGTGGGGGTTACAAACGAATTGGCTAGGTCAGAAAGTGATTCATCGTGAAGTGACTAGTTCTACTCAAATTATTGCCCATAAAGTTGCTAAAGAACAGAAAGGACATGGCACTATAGTTATTGCAGATGAACAGGTTTCTGGTAGAGGAAGAATGAATCGAAACTGGCATTCTAAAAAAGGCGATGGCATGTGGATGAGCATGATCTTACAACCACCCTTACCACCATACCTTGCTCCACAATTAACATTATTAACTGCTGTGGCGTTAACCGAAACTATTGAAAAGTTAACTGGATTAACGCCACGTATTAAGTGGCCTAACGACATCCTCTTTGATAATGAAAAAAAATGTGCAGGTATTTTAACAGAACTACAAGCTGAACAGGATAGAATCCAGTATGTTATCATTGGGGTTGGGTTAAATATTAACCAACAAAAGAATGATTGGCCAGAGGATGTGCAAAAAAGAGCAACATCATTACAAATTGAAACTGGGAAACAATGGGCGATTAGAAAAATTATACAATATTTCTTGAGCAGTTTCGAAAATCTTTATGATGAATATATGAAGCAGGGCTTTTTAGCTGTGAAAACGAAATGGGAGTCATACGGATTTAAAATAGGGGATTGGATCACCATCCGTCAATTGGATAAGACTCGACAAGCTGTATTTTATGGTCTGGCTGACGATGGTGCACTGTTAATAAAAAATGAGGCTGGTGATGTAGAACGGTTATATTCAGGGGAAATTGACTGGTTTCATGAGTCTAATAAGAATCATGAATAA MESTRNQLIQLLAKNNEEYISGQVLSEQLNISRSAIWKHMKELEKDGYVIEAKSKRGYRIVSYPEKISENTVQWGLQTNWLGQKVIHREVTSSTQIIAHKVAKEQKGHGTIVIADEQVSGRGRMNRNWHSKKGDGMWMSMILQPPLPPYLAPQLTLLTAVALTETIEKLTGLTPRIKWPNDILFDNEKKCAGILTELQAEQDRIQYVIIGVGLNINQQKNDWPEDVQKRATSLQIETGKQWAIRKIIQYFLSSFENLYDEYMKQGFLAVKTKWESYGFKIGDWITIRQLDKTRQAVFYGLADDGALLIKNEAGDVERLYSGEIDWFHESNKNHE PGPT0022055_189 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 AK015_03370 1215 cca CCA-adding enzyme TTGGTGATAATTATGTTAGCAGAACCTTTCCAAAAAGCTAAGCCAATAGTAGAAAAAATAAAAGCTCATGGATATAATGTTTATTTTGTAGGAGGGTGTGTCAGAGATTTTCTGCTTCATCGTCCTATTGAGGATATTGATATAGCTACATCAGCAAAACCAATTGAGCTACAAAATTTGTTTTCTTCCGTGATACCAGTTGGAATAGAACATGGAACAGTTATTATTCGCCATCAAAATGAGTCTTATGAAGTAACCACTTTTCGAATTGACGGAAAATATACGGATCAACGTCATCCAGATGATGTTACCTATGTAGATAACATCGAAAAAGATTTAGAAAGAAGAGACTTTACGATAAATGCATTGGCAATGGATTTAAAAGGGAACATTATTGATCTGTTTGCTGGTAGATCTGATTTACATAATCATGTGATTCGTACAGTAGGAAACGGGGAGGAAAGATTTAGGGAAGACCCGTTACGAATCATTCGTGCACTTCGTTTCAGCAGTCAATTAGGATTTACTGTTCATCCGGATACGATCGAACACATTCGAAAAGTAAAGCATGAAATGAAGGGGTTAGCAGTAGAACGAATTACAAGAGAGTTTACCAAGCTATTCGCTGGTGATTATGTACGACATGGATTAACATATTTAAAGGATTTGGAGATTTACGAATACTTACCTGTATTTGATCAACACCACTCATTAATTTTACGGATTCCAAGAAATATAAAGCCTTTACCGCTTTTTCACGAAGTATTGGTGCTTTTTCATTTTTTGGATCGCACAATACCGCTTTTAACATGGGTAAAAGCATGGAAATGCTCAAATAAACAAAAAAATGCTGCCATGAACCTAACTAAACAATTAGATGAATTACAAGCAAATGACTTAACCCCTTGGCTTGTTTATCAATTACCACGAGCTTTGTATAATAGCTTTATTCGGCTAACAAATTGTTTACATTCTAAAAAAAATATCACAATGGAACAGTTATTACAAATAGAACAAACATTACCGATTGCATCTAGATCAGACATAAAATTAAGTGGCCAAGATATTATCGATCTTTTTCCGGCCTTTAAACAAGGTCCATGGATACAACAACTGTTAAATAAACTGGAGCGAAAAGTTGTTGCAGGACAGTTGCCAAATGATTACTATAAGTTAAAGGAATGGATAAAATGGAATCCACCCGCAATCAATTAA MVIIMLAEPFQKAKPIVEKIKAHGYNVYFVGGCVRDFLLHRPIEDIDIATSAKPIELQNLFSSVIPVGIEHGTVIIRHQNESYEVTTFRIDGKYTDQRHPDDVTYVDNIEKDLERRDFTINALAMDLKGNIIDLFAGRSDLHNHVIRTVGNGEERFREDPLRIIRALRFSSQLGFTVHPDTIEHIRKVKHEMKGLAVERITREFTKLFAGDYVRHGLTYLKDLEIYEYLPVFDQHHSLILRIPRNIKPLPLFHEVLVLFHFLDRTIPLLTWVKAWKCSNKQKNAAMNLTKQLDELQANDLTPWLVYQLPRALYNSFIRLTNCLHSKKNITMEQLLQIEQTLPIASRSDIKLSGQDIIDLFPAFKQGPWIQQLLNKLERKVVAGQLPNDYYKLKEWIKWNPPAIN NA NA NA NA NA AK015_03371 1128 bshA COG0438 N-acetyl-alpha-D-glucosaminyl L-malate synthase ATGAAAAAAATCGGAATAACATGTTATCCTAGTGTAGGTGGGTCTGGAATTATTGCGACGGAATTAGGAATGTTACTCGCTGAAAAAGGAAATGAAGTTCACTTCATAACTTCCAGTTTACCATTTCGCCTAAATCATATTAATCCAAGAATTTATTTTCATGAAGTTGAATTAAGTCACTACCCTGTTTTTCAGTATCCACCGTATGATTTAGCATTAGCTGCTAAAATGGCTGAAGTAATCAATCGGGAAAAGTTGGATATACTACATGTCCACTATGCAATGCCACATGCTATTAGCGCCCTTTTAGCACGAGATATTGCAGAACATAAAGTAAAGATTGTAACAACCTTACATGGAACAGATATTACTGTTTTAGCGATTGATGATATTTTTAAAAACATGATTACCCATGCAATCAATCAATCAGATGCTGTAACAGCAGTTTCAAACCATCTAGCCAGTCATACGAAACAACTTCTTAAAATAAAACAAGATATACAAGTTATTTATAATTTTGTAAATGAACAAGAGTACTACCCAAAACGGTTAGAGTTTATCAAACAGCAATATGACATTAAGTCAAATGAAAAAGTGATTGTTCATATTTCTAATTTTCGTAAGGTAAAACGATTGCCTGATATTATACGTACATTTTACCTTATACATCAACAAGTAGATAGTAAATTATTACTTATCGGCGACGGTCCAGAGTGTGGAACAGCTATGAATTTAGTAAAGGAATTAAAGTTACAGCAGAACGTTCTATTTTTAGGTAAGCAAAAAAATATAAGTGAGCTTTTACGTATCAGTGATTTAAAGTTATTGCTATCAGAAAAGGAAAGCTTTGGTCTTGTTTTGTTGGAAGCGATGGCCTGCGGTGTACCATGTGTTGGCACAAATGTTGGTGGTATACCCGAAGTAATTGATCATAATAAGACAGGGTTTATTGCTGATTTAGGAGACACAGATCAAGCAGCAACGTATGCTATTGAAATATTAACGAACCAGACATTGTGGAATAGCTTTTCAAACAATGCTGTTAAAAGAGTAGAAACTCATTTTCATTCGAAGCAAATTGTAAAGCAGTATGAGCAATTATATGACTGTTTACTTACGAGCTTATAG MKKIGITCYPSVGGSGIIATELGMLLAEKGNEVHFITSSLPFRLNHINPRIYFHEVELSHYPVFQYPPYDLALAAKMAEVINREKLDILHVHYAMPHAISALLARDIAEHKVKIVTTLHGTDITVLAIDDIFKNMITHAINQSDAVTAVSNHLASHTKQLLKIKQDIQVIYNFVNEQEYYPKRLEFIKQQYDIKSNEKVIVHISNFRKVKRLPDIIRTFYLIHQQVDSKLLLIGDGPECGTAMNLVKELKLQQNVLFLGKQKNISELLRISDLKLLLSEKESFGLVLLEAMACGVPCVGTNVGGIPEVIDHNKTGFIADLGDTDQAATYAIEILTNQTLWNSFSNNAVKRVETHFHSKQIVKQYEQLYDCLLTSL PGPT0019565_1200 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 AK015_03372 420 mgsA COG1803 Methylglyoxal synthase ATGAATATTGCTTTAATAGCTCATGATAAAATGAAACAAGATATGGTGAATTTTACAACAGCATATCAATATGTTTTATCGGAACATCATTTATATGCAACAGGAACTACAGGGAGTAAGATTCGCAAAGCAACAGGAATGGATGTGCATTTGTTTCAATCGGGTCCCTTGGGTGGCGACCAGCAAATTGGTGCAACGATTGCAAATAATGAAATGGATATGGTGATCTTTTTCCGTGACCCTTTGACTGCACAGCCTCATGAACCAGATATTAGTGCTTTAATGCGCTTATGTGACGTTTATCATATACCGCTTGCTACAAACATAGCAGCTTCTGAGATTTTTATCCGTGGGTTGGAGAACGGTGACTTTCAATGGCGTGACATTGTCAAACAGAAAAAGGGAAAAGAAAAAGCATGA MNIALIAHDKMKQDMVNFTTAYQYVLSEHHLYATGTTGSKIRKATGMDVHLFQSGPLGGDQQIGATIANNEMDMVIFFRDPLTAQPHEPDISALMRLCDVYHIPLATNIAASEIFIRGLENGDFQWRDIVKQKKGKEKA PGPT0001780_887 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734 NA NA AK015_03373 798 dapB COG0289 4-hydroxy-tetrahydrodipicolinate reductase ATGACAATTAATGTTGTAATTGCAGGCCCAAGAGGTAAAATGGGGTCAGAAGCAGTGAAAATGGTAGAAAACGAAACAAATTTCCGTTTAGTTGCGTGTATTGACCATAAAAATAATGGCAGAACGTTAGATGCGATTTTTCCAGAAGTGGAACGTTCTATTCCAATCTATGATGATGCTACTAAATGCTTCGAAAACCATAAAGATGCAGATGTTTTAATTGAGTTATCTGTACCCCAAGCAGGCTACAAACACACAAGATCTGCACTAGAACATCATGTTCGTCCAGTTGTAGGAACAACAGGTTTTACGGAAGTACAATTAAAGGAATTAGACGAATTTGCACAACAAAATAATATGGGATGTATGATCATTCCCAATTTTGCCCTTGGAGCAGTATTAATGATGAAATTTGCTAAAATGGCCGCTACTTACTTTCCAGATGTGGATATCATAGAAAAGCACCATGATCAAAAATTAGATGCACCATCTGGAACAGCTATTAAAACGGCTGAATTAATTAGCGAAAGCCGCAAGGTGAAAACACAAGGCCATCCAAAGGAAGAAGAGACTATTCCAGGAGCAAGAGGTGCCGATTTAGATGGAATAAAGCTTCATAGCGTTCGGCTACCAGGATTAGTGGCACATCAAGAAGTTATCTTTGGAAGTCCTGGACAAACATTAACGATAAAACATGATTCCATGGATCGCTCTTCCTTTATGGATGGTGTAAAACTTTGTGTGAATAAAGTGATGGAAGTAAAAGGATTGATATACGGGCTAGATACTATCTTGTAA MTINVVIAGPRGKMGSEAVKMVENETNFRLVACIDHKNNGRTLDAIFPEVERSIPIYDDATKCFENHKDADVLIELSVPQAGYKHTRSALEHHVRPVVGTTGFTEVQLKELDEFAQQNNMGCMIIPNFALGAVLMMKFAKMAATYFPDVDIIEKHHDQKLDAPSGTAIKTAELISESRKVKTQGHPKEEETIPGARGADLDGIKLHSVRLPGLVAHQEVIFGSPGQTLTIKHDSMDRSSFMDGVKLCVNKVMEVKGLIYGLDTIL NA NA NA NA NA AK015_03374 345 ypjD COG1694 putative protein YpjD ATGGAAAAGACTATATACACGACAAAAGAAATTCAAGAGCGAGTAGACCAATATATCGGGCAATTTAAAGAAGGTTATTTTTCCCCTTTAAGTTTAATGGCTCGCTTAACAGAGGAAACAGGTGAATTAGCCAGAGAGGTTAATCATTATTATGGAGAAAAGCCTAAAAAGAAAACAGAAAAGGAAAAAAGTATGGAAGAAGAGCTAGGGGATATCATTTTTGTGCTTACATGCTTTGCTAATTCATTAAATATTGACCTATCTGATTCTTTTCATAGAGCTATAACAAAAATTGAAACAAGGGACAAAGATCGTTGGACGAAGAAAGACGACTTACATCAATAG MEKTIYTTKEIQERVDQYIGQFKEGYFSPLSLMARLTEETGELAREVNHYYGEKPKKKTEKEKSMEEELGDIIFVLTCFANSLNIDLSDSFHRAITKIETRDKDRWTKKDDLHQ NA NA NA NA NA AK015_03375 453 hypothetical protein ATGCACATGTATTCTATATACCACTTAACTGAGGAAGTAGCTAAGAATTATTTCCATAAAAGTAGCTTATTATATCGGTTTTTTATGGAAATGAAATCTCAACCTAATCGTTCTGTTTTGCGCAGACAATTTGATTACATTACGTACCCTATTTGTTATAAAGGAATTTTGCTAACAATTCAACGTTTTAATTCTGCTAATTTATTTGTAAATATAGACAAGCATAAGGTTAGTATATATAATAAGAAGGCATGCATTTCTTTACATATTGGTGAAAAACAATTAAAATTTCATTGTGAAACGTTAGAAATTGCTGAGGAAATGCTATTTCCAATATTACGTAGTTATCAACCAATGCTTTTTGTCGTTGGCGATAATGTACAAAACTTTGGTTGGATAACACCAATTTTGGAATACAGTCAACCAGAACATAATGAGGCAATGTATTCCTAG MHMYSIYHLTEEVAKNYFHKSSLLYRFFMEMKSQPNRSVLRRQFDYITYPICYKGILLTIQRFNSANLFVNIDKHKVSIYNKKACISLHIGEKQLKFHCETLEIAEEMLFPILRSYQPMLFVVGDNVQNFGWITPILEYSQPEHNEAMYS NA NA NA NA NA AK015_03376 222 hypothetical protein ATGGACACAATATGGGTCGTATTAATCGCTGTAGCAGCGTTAATTATTGGTGTTGCTCTTGGATTCTTTCTTGCAAGAAAATATATGATGAATTACATGAAAAAGAATCCACCGATTAATGAGCAAATGTTACGAACATTAATGATGCAAATGGGTCAAAAACCTTCCCAAAAGAAAATTAATCAAATGATGCGTGCAATGAACAATCAGTCCGGGAAATAA MDTIWVVLIAVAALIIGVALGFFLARKYMMNYMKKNPPINEQMLRTLMMQMGQKPSQKKINQMMRAMNNQSGK NA NA NA NA NA AK015_03377 705 hypothetical protein TTGTCGGAAATAAATATATTCATAGCTTTTGGAGCAGGTTTTCTCTCCTTTATATCCCCGTGTGTATTACCTTTATATCCAGCATTTTTATCCTATATTACAGGTATGAGCGTAAATGAGTTAGCTGAGGACAATAAAATGATGAATGCAAAAAGCATATTTCATACGGTGTTCTTCTTGTTAGGATTTTCTGCCGTATTTATTATGATGGGATTTGTAAGTTCAGGTATATCGGAATTTTTGCTTTTGTACCAAGATATAATTCGGCAAATTGGTGCTATAGTGATCGTGTTTTTTGGTTTAGTTATCGTTGGTATACTAAATTTTGATTTTTTAATGAAAGATCGAAAAATAAATTTTAAAAATCGCCCTGCAGGATTTATTGGCACATTTATTATCGGTCTAGCATTTTCCTTAGGATGGACGCCATGTACTGGCCCGATTTTAGGGATCGTATTATCATTAGCTGCCACAGAGCCTAATACCGGCATGATGATGATGATTGGATACATACTTGGTTTTTCAGTACCTTTCTTCGTACTATCATTTTTTATTGGTAAATTAAAATGGATAAAAAAGCACAGCTTAAAACTTGTTAAAATTGGTGGCTATGTCATGATTTTTATGGGGATCGCTTTGTTTTTTGATTGGATGACCGCGCTAACTTCATATCTAGCAGGATTATTTGGTTTTTATGGCTTCTAA MSEINIFIAFGAGFLSFISPCVLPLYPAFLSYITGMSVNELAEDNKMMNAKSIFHTVFFLLGFSAVFIMMGFVSSGISEFLLLYQDIIRQIGAIVIVFFGLVIVGILNFDFLMKDRKINFKNRPAGFIGTFIIGLAFSLGWTPCTGPILGIVLSLAATEPNTGMMMMIGYILGFSVPFFVLSFFIGKLKWIKKHSLKLVKIGGYVMIFMGIALFFDWMTALTSYLAGLFGFYGF NA NA NA NA NA AK015_03378 429 mrpB COG2111 Na(+)/H(+) antiporter subunit B ATGTACAAAACGAATGATCTTATTTTACGAACCACTGCATCTTTAATTGCCTTTATTCTACTGGGTTTTGCAGTGTATTTGTTATTGGCTGGACACAATTCTCCTGGTGGTGGATTTGTTGGAGGCCTTATGACTGCTGGTGCTATTCTTTTAATGAATATGTCCTACGGGTTTAAAGAAGTAAGAAAGGTGTTACCAATTAATTATGTGAAATTAATTCCTGCTGGCTTAGCAATCGCTGTTGGCACAGGTATTGGTTCTTTTCTTTTTCAACAGCCTTTTTTATCCCAAACCTATGGTTATTTTCACTTTCCTATATTTGGTGAAATTGAGTTAGCTACAGCCATGATATTTGATTTGGGTGTATACTTAACAGTTGTAGGTGTAATGATGACAATTATTTTATCAATTGCTAATGATACGGAGTAG MYKTNDLILRTTASLIAFILLGFAVYLLLAGHNSPGGGFVGGLMTAGAILLMNMSYGFKEVRKVLPINYVKLIPAGLAIAVGTGIGSFLFQQPFLSQTYGYFHFPIFGEIELATAMIFDLGVYLTVVGVMMTIILSIANDTE PGPT0013900_877 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-H+_ANTIPORTER,PGPT0013900-mnhB-K05566 NA NA AK015_03379 372 cheY_2 COG0784 Chemotaxis protein CheY ATGGCAAAAATACTTGTAGTCGATGACGCTAATTTTTTGCGGGCTGCACTCGCTTCGATTCTAAAAAAGAAAAATCATGAAATTGTTGGAGAAGCAGAAAACGGCAAAGAAGCTGTGCGACTATATCAAGAATTGGAGCCAGATATTGTAATTATGGATATAACAATGCCTGTAATGAACGGTATTGAAGCTATGAAAAAGATTATTGAATTAGATCCTAAAGCTTCCGTAATTATGTGTTCGGCAATGGGGCAACAAAAGGTAGTTTTTGAAGCGATAGAGCTTGGGGCAAAGGATTTCATTGTTAAGCCATTTGACGATAATCGAGTCCACGATACCATTGAGCGTGTAATACATTTAAAAACGTATTAA MAKILVVDDANFLRAALASILKKKNHEIVGEAENGKEAVRLYQELEPDIVIMDITMPVMNGIEAMKKIIELDPKASVIMCSAMGQQKVVFEAIELGAKDFIVKPFDDNRVHDTIERVIHLKTY PGPT0015690_3172 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS CHEMOTAXIS_PROTEINS CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413 NA NA AK015_03380 489 hypothetical protein TTGCACATGTTTTGGTTTATTGCAAGTACAGTTGGGGCAGCTATAATGGCAACTTCTATGATTTTTCTTCGATTAAAAGCAGCAAAAAGGCCGGCTTCTGTTAAGAAAATCATTCTACCACCACTTTTTATGAGTACTGGAGCGCTAATGTTTTTGTTTCCTATGTTTCAAATTAGTTGGTATCAAGTTTTAGAAGCTTTTAGTGTAGGTGTATTATGCTCCTTCTTTTTAATTAAGACATCCAAGTTTCAAATTCGGAATCAAGCGATTTATTTAATTCCGTCTAAAGCATTTGCTTTTATACTATTTAGTCTATTGTTATTCCGTATTGTTGTTAAGCTTGCTATAGGAAGTCATATATCTCTTGGTGAAACTAGTGGTATGTTTTTCCTATTAGCTTTTGGGATGATTTTTACTTGGCGCATAGCGATGCTTTATAAATATTTACAGTTGGCTAAGGAATTAAAAACTAAATTAAATAATTTTTAA MHMFWFIASTVGAAIMATSMIFLRLKAAKRPASVKKIILPPLFMSTGALMFLFPMFQISWYQVLEAFSVGVLCSFFLIKTSKFQIRNQAIYLIPSKAFAFILFSLLLFRIVVKLAIGSHISLGETSGMFFLLAFGMIFTWRIAMLYKYLQLAKELKTKLNNF NA NA NA NA NA AK015_03381 474 hypothetical protein ATGTCGGTTTTTGTTGATTACTTAATTATTTTTTGGGGTTTTTTTATGATTGCAATTATGGCTATTGGCGGTTACTTCATGTTTCGTAAATTTCTTAAACGATTGCCAAAGGAAGATGGAAAATCGACAATGGACTGGGAAACTTATTTTGTAAATAAAACAAAACATATGTGGGATGATGAAGAAAAGCAACTTTTAGAAGAGTTGGTTTCTCCTGTTCCTGAACTATTCCGTGATGTTGCAAGACATAAGATTATCGGGAAAGTTGGAGAAGTTGCCTTAGCAAAAAGCAGACAAAAAATTACACAAGATGTATTAATTGAAGGGTATATAATTGCTACCCCCAAACGTGATCATAAATTTTTACGAAAAAAATTAGCTGAAAAACAAATTGATACTGCACCTTATGAACATTTCTTTCAACAATCCAATAATGATTACAATTCGGATTGGAAGAAAAAACATCAATTATAA MSVFVDYLIIFWGFFMIAIMAIGGYFMFRKFLKRLPKEDGKSTMDWETYFVNKTKHMWDDEEKQLLEELVSPVPELFRDVARHKIIGKVGEVALAKSRQKITQDVLIEGYIIATPKRDHKFLRKKLAEKQIDTAPYEHFFQQSNNDYNSDWKKKHQL NA NA NA NA NA AK015_03382 1116 sasA_3 Adaptive-response sensory-kinase SasA ATGAGGTACGAAAAAGAGATAGGAAATACCGATGAAACTATTCATTTAGCTGAACTGGAACAGATGCAAAGGGATAATCCTCAATTGTCGTCTCTATCGACATCTATGCTCACTTGGATAGAAGAAAATTGCCATGATATTATTTCCGTTTTGAATAAGGACGGTTTGTTTGTCTATACTTCCAAATCTGTCGAGCGTATTCTTGGCTATCATCCATCCCAATTAATCGGAAAACCATGGTATACATTTGTATCTACAGAAGATATTGACTATATTAAAGAAAATTGTGACCGTTCTCCAGCGCTAAAGCGTTTTTATCAACTGAATGTTTTAAATAGTGCTGGAGAAGCCATTTGGTCATCTTGTACACTGACTAAAATGAAAGAAAAAGATACAGGCAGAACTTACTATCTTTCCATTATAGCAGATAAGCGAGATAAGAAAGAAGTAGAAGAAATAATGATTCAATCAGAGAAAATGTCTGTAGCTGGTCAATTAGCTGCAGGTGTTGCTCACGAGATTCGTAACCCTCTAACATCTTTAAAAGGTTTCTTGCAGTTACTGCAAGCGGGTGTACGGAAAGAAGAATATTACAATATTATGATAGAAGAAATAGAGAAAATGGAAACGATCACCTCAGAGTTGTTATTTATTTCTAAGCCATTAACTGAAACGAAGAAATTAGAATCAATTGATTCAATGATTCGTGATGTAATTGTATTGCTTGGGCCTCAAGCAAAAATGAAAGGAATCTTTATTGAATACGGTGGCTCAGAAAAAGATAAAATTTACTGTGATCGTTCACAGATTAAACAAGTATTAATTAACTTAATTAAAAATGCTATTGAGGCTATGGAACAGGGAGGAAGTATTCGAATCGTAACTAGTTCTTCCGACTCTCATGTAGATGTGTGCATTATTGATGAAGGACCCGGAATACCGCAAGAAATAATACATAAATTAGGTGAGCCTTTTTTCACTACAAAACAAAGTGGTACAGGACTGGGACTTATGATTACAAAACAAATTTTAGAAAGACATCAAGCGTTTTTAGAGGTAAAAGCAAATGAACAGATTGGTAGCACATTCAGGATTATTTTCCCAATACCAGCATGA MRYEKEIGNTDETIHLAELEQMQRDNPQLSSLSTSMLTWIEENCHDIISVLNKDGLFVYTSKSVERILGYHPSQLIGKPWYTFVSTEDIDYIKENCDRSPALKRFYQLNVLNSAGEAIWSSCTLTKMKEKDTGRTYYLSIIADKRDKKEVEEIMIQSEKMSVAGQLAAGVAHEIRNPLTSLKGFLQLLQAGVRKEEYYNIMIEEIEKMETITSELLFISKPLTETKKLESIDSMIRDVIVLLGPQAKMKGIFIEYGGSEKDKIYCDRSQIKQVLINLIKNAIEAMEQGGSIRIVTSSSDSHVDVCIIDEGPGIPQEIIHKLGEPFFTTKQSGTGLGLMITKQILERHQAFLEVKANEQIGSTFRIIFPIPA PGPT0025280_322 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORULATION_REGULATION,PGPT0025280-kinA-K02491 NA NA AK015_03383 2715 citB COG1048 Aconitate/2-methylaconitate hydratase ATGGGGAAGAGCAATACATTAAATGCAAAAAAGCAATTTAAACTCAATGACAAAACGTACAATTATTATGAACTAAAAGCTTTAGAAGAAGCTGGTTTTGGAAAAGTAGCACGATTACCTTTTTCAATACGTGTGCTGTTAGAATCTTTAATTCGTCAACATGATGGGCATCAAATTAAAGACGAACATGTAGAAAGATTAGCAAAATGGGGGACAAAAGAGGGCGTAGGAGTAGATGTGCCTTTCAAACCATCCCGTGTTATTTTGCAAGACTTCACTGGTGTCCCAGCCGTAGTCGATCTTGCTTCACTAAGAAAGGCTATGGTAGATATGGGAGGAGAGCCTGGAGAAATCAATCCTGAAGTACCTGTAGACTTAGTTATTGATCACTCTGTACAAGTAGATCAATATGGTACTGCAAATGCACTAAAAGCTAATATGGAATTGGAATTTGAACGAAATGCAGAGCGTTATGAATTTTTAAACTGGGCACAAAAAGCATTTAATAATTACCGTGCAGTTCCACCTGCAACCGGGATTGTTCACCAAGTGAACTTGGAATATATAGCTAATGTCGTTCATGGTATAGAAAATGAAAATGGCGAATATGAGGCGTTTCCTGATACATTAGTAGGTACTGATTCACATACTACGATGATAAATGGTCTAGGAGTATTAGGATGGGGCGTGGGAGGTATTGAAGCAGAAGCAGGTATGCTTGGGCAACCTTCGTACTTTCCTGCACCTGATGTAATTGGTGTGAAATTTACAGGTAGTTTTCCAAATGGCACTACAGCGACTGATTTAGCATTAAAAGTTACACAAGTGTTACGTGAAAAAAATGTGGTAGGTAAATTTGTAGAATATTTTGGTCCAGGTCTAAAAGATATGCCATTAGCTGACCGAGCAACGATCTCAAACATGGCGCCAGAATATGGTGCTACTTGCGGGTTCTTCCCAGTTGATGAAGAATCATTAAACTATTTAAAATTAACAGGTAGGACTCAAGAACAGATTGATCTTGTAGAAAAATACTGTAAATTAAATAACCTCTGGTATTCACCAGATCAAGAAGATCCAAATTATACAGAAATTGTAGAAATTAATTTATCCAAATTAGAACCAAATCTATCCGGGCCGAAACGTCCGCAAGATCTCATTTCTTTATCTAATATGAAAAAAGAGTTTAATAAAGCAATAACAGCACCAGCTGGAAATCAAGGTTTTGGATTAGATAAATCTGAATTTGATAAAAAAGCTGTTGTCGAACACCCTAATGGAAAATCTTCTGTAATGAAAACAGGTGCGCTTGCAATTGCAGCAATTACATCTTGCACGAATACGTCAAATCCTTATGTAATGTTAGGGGCAGGGTTGCTTGCGAAAAATGCTGTGGAAAAAGGTTTAGAAGTTCCGGAGTATGTAAAAACTTCGCTTGCACCTGGATCAAAAGTAGTTACACGGTATTTGGAAGATGCAGGTCTAACTCCATACTTGGATAAACTAGGTTTTAACTTAGTTGGGTATGGTTGTACTACTTGTATTGGTAACTCAGGGCCTCTACGTGAAGAAATCGAACAAGCAATTATTGAAAACGATTTGACCGTAGCTTCTGTGTTATCTGGAAACCGTAACTTCGAAGGACGTATCCATCCGTTGGTAAAAGCTAACTATTTAGCTTCACCACCATTGGTTGTTGCTTATGCACTTGCAGGTACAGTTGATATTGATTTGAAAAAAGATGCATTAGGAACAGATAAAGACGGAAATCCAGTATACATGAGTGACATTTGGCCTTCTATGGAAGATATTAAAAAACAAGTAGAAGCAGTTGTCCAACCAGAAATTTTCCGCAAAGAGTACGAAGATGTATTTAGTTCCAATGAGCGTTGGAATCAAATTGATACTACAGATGAACCACTGTTTGAGTGGGATAGTGAGTCTACGTATATTCAAAATCCTCCATTTTTTGAAGGGTTATCGAAAGAACCAGGTACTGTAGAGCCTTTACAGAATTTGCGAGTTGTTGGGAAGTTTGGTGATTCTGTTACAACAGATCATATTTCACCAGCTGGAGCAATTGCAAAAGATATGCCGGCAGGAAAATATTTGCAGGATAAAGGTGTGTCACCTCGTAATTTCAACTCATATGGTTCACGTCGTGGAAATCATGAAGTGATGATGCGTGGTACCTTTGCAAATATTCGAATCCGTAACTTAATTGCACCAGGAACAGAAGGTGGATTTACAACATACTGGCCAACAGAAGAAGTTGTGCCAATCTATGATGCTGCCATGAAGTATCAAGAAGAAGATACTGGTCTTATGGTGATTGCAGGTAAAGACTATGGAATGGGCTCTTCTAGAGATTGGGCTGCAAAAGGAACAAATTTATTAGGAATCAAAACAGTTATTGCTGAAAGCTTTGAGCGCATCCATCGGTCAAACTTGGTTATGATGGGAGTTCTTCCTTTACAATTTAAGCAAGGAGAAAACGCTGATAAATTTGGCTTAACTGGAAAGGAAACCTATCATGTGGCAGTAGATGAAAGCGTAAAACCTCATGATTTGGTTAAAGTAACAGCAGTTGATGAATCTGGTAAACAAGTAGAATTTGAAGCTATTGCTCGCTTTGACAGTGATGTAGAAATTGATTATTATAGACACGGTGGTATTTTGCAAATGGTGTTACGTAGCAAGCTAAGCGTTATTTAA MGKSNTLNAKKQFKLNDKTYNYYELKALEEAGFGKVARLPFSIRVLLESLIRQHDGHQIKDEHVERLAKWGTKEGVGVDVPFKPSRVILQDFTGVPAVVDLASLRKAMVDMGGEPGEINPEVPVDLVIDHSVQVDQYGTANALKANMELEFERNAERYEFLNWAQKAFNNYRAVPPATGIVHQVNLEYIANVVHGIENENGEYEAFPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAGMLGQPSYFPAPDVIGVKFTGSFPNGTTATDLALKVTQVLREKNVVGKFVEYFGPGLKDMPLADRATISNMAPEYGATCGFFPVDEESLNYLKLTGRTQEQIDLVEKYCKLNNLWYSPDQEDPNYTEIVEINLSKLEPNLSGPKRPQDLISLSNMKKEFNKAITAPAGNQGFGLDKSEFDKKAVVEHPNGKSSVMKTGALAIAAITSCTNTSNPYVMLGAGLLAKNAVEKGLEVPEYVKTSLAPGSKVVTRYLEDAGLTPYLDKLGFNLVGYGCTTCIGNSGPLREEIEQAIIENDLTVASVLSGNRNFEGRIHPLVKANYLASPPLVVAYALAGTVDIDLKKDALGTDKDGNPVYMSDIWPSMEDIKKQVEAVVQPEIFRKEYEDVFSSNERWNQIDTTDEPLFEWDSESTYIQNPPFFEGLSKEPGTVEPLQNLRVVGKFGDSVTTDHISPAGAIAKDMPAGKYLQDKGVSPRNFNSYGSRRGNHEVMMRGTFANIRIRNLIAPGTEGGFTTYWPTEEVVPIYDAAMKYQEEDTGLMVIAGKDYGMGSSRDWAAKGTNLLGIKTVIAESFERIHRSNLVMMGVLPLQFKQGENADKFGLTGKETYHVAVDESVKPHDLVKVTAVDESGKQVEFEAIARFDSDVEIDYYRHGGILQMVLRSKLSVI PGPT0001465_1968 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 AK015_03384 582 resA_2 Thiol-disulfide oxidoreductase ResA ATGTTAAAGAGGATAGTAGGAATTTCAATCATTATTGCCTTAGCTGGCGGTGTGTTATTTAATTACGTACAGCAAAAGAAAGAATCGGAAACAACAAAAGAAAATGCATACAACGTAACTGGAGATACAGAAGGTGGAATGATTTCTTCGGTCAAAAATCCACTTGACGTCGGCGAGACTGCTCCAGATTTTTCACTAAATACATTGGGTGAAAAGAAATTACAACTCTCAGAATTACAAGGGAAAAAGGTAATACTAAATTTTTGGGCAACATGGTGTCCTCCTTGTCGTAAGGAAATGCCCGCCATGCAAGAGTTTTATGATCATTTTAAAGATGAAGTAGAGGTAGTAGCTATCAATTTAACAAAGAGTGAAAGCAAAAAGGAAGATGTCGCGGCTTATATTGAGAAATATGACTATACATACCCAATTCCTCTAGATGAAAAAGCGGAAGTTAGAAGTGCCTATAAGGTTGTAGCTGTACCAACCACTTATTTTATTGATCAGGAAGGAAAGATTGCCAAAATACATCCAGGACCAATGGATTATCAATTTATGAAAAAAACGGTAGCAGATATGTAG MLKRIVGISIIIALAGGVLFNYVQQKKESETTKENAYNVTGDTEGGMISSVKNPLDVGETAPDFSLNTLGEKKLQLSELQGKKVILNFWATWCPPCRKEMPAMQEFYDHFKDEVEVVAINLTKSESKKEDVAAYIEKYDYTYPIPLDEKAEVRSAYKVVAVPTTYFIDQEGKIAKIHPGPMDYQFMKKTVADM NA NA NA NA NA AK015_03385 225 tlp Small, acid-soluble spore protein Tlp ATGTCAGATCAATATCGTCCTAAACCTGATGATCGAAGTGACAATATAAAAAAACTGCAAGATATGGTCCAAGATACGATACAAAATATTGAAAAATCACATGAGACCATGCAATTTTCTTCTGGTAAGGAGAAAGAAGCTATTCAAGAAAAGAATAAGCGAAGAGAACAAGCGATTGAAGGTATGCGCCAAGAAATTAAAGATGAATATAAAGACCAAAATTAA MSDQYRPKPDDRSDNIKKLQDMVQDTIQNIEKSHETMQFSSGKEKEAIQEKNKRREQAIEGMRQEIKDEYKDQN PGPT0024940_171 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024940-tlp-K06434 NA NA AK015_03386 444 1,4-dihydroxy-2-naphthoyl-CoA hydrolase TTGTCAAGTATAAAAACACCAATCGAAGTACGTTATCAAGAAACAGATCAGATGGGAGTTGTATATCATGCTAATTATTTAGTGTGGTTTGAAATTGGAAGAACGAAATTTATTGAATCATTAGGGTTAAAATATACAGAAATGGAAGCACATCAAATCGTTTCGCCTGTCACTAACGCAAACATTCAATTTAAACACCCAATTCGTTACGGGGAACAAGTAACTGTTGAAACGTGGCTAGAATCTTATAATGGCATACGTACAGTCTACGGTTATTATATATTGAATGGGCAAGAGAAAGTTGCTGTTAGTGGGACAACGGAACATGTTATTGTGAATAAGCACACGTTTCGTCCGCTATCGCTGAAGAAGACCTTTCCAACCTGGCATCAAGCATATAAAAGTCAATTAAAAGGAGAAAAAGAAAGTGGCATTCGGCATTAG MSSIKTPIEVRYQETDQMGVVYHANYLVWFEIGRTKFIESLGLKYTEMEAHQIVSPVTNANIQFKHPIRYGEQVTVETWLESYNGIRTVYGYYILNGQEKVAVSGTTEHVIVNKHTFRPLSLKKTFPTWHQAYKSQLKGEKESGIRH PGPT0001850_3521 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107 NA NA AK015_03387 303 hypothetical protein GTGGCATTCGGCATTAGTCGTCAAGAATTAAAGTATTGGAAGCAAAAAGTAAGGGCAGGAGAAATTGCTTTTTTAACCCATTTTTGGTTGGATCATCGTTTTCCCAAATGTACAACAGTAACGAAAGCAGGTTGCAAAGATATACAAAAATTAATTGCTTGGGGAAAGAAGTACAATTTACAGCCGGAGTGGATTGATCAAAAGGCTGATTTTCCGCACTTTGATTTATTTGGAGAAAAGCAAAAATACATATTGGAAAAAGAAGACGAGTGGGACCAAATAGAACGATTCCAATTACTATAG MAFGISRQELKYWKQKVRAGEIAFLTHFWLDHRFPKCTTVTKAGCKDIQKLIAWGKKYNLQPEWIDQKADFPHFDLFGEKQKYILEKEDEWDQIERFQLL NA NA NA NA NA AK015_03388 300 putative protein ATGGATATACAGATAAGTAAAGAAGCAGCGAAATGGTATAAGCATGAGTTAGATTTAGAAAACAATGACAACTACATTCGCTTTTTTGTCAGATATGGAGGATTTGGAGGTAATATTCCAGGTTTTTCACTAGGTGTAAGTAAGGATGCACCTGAGGAGGTACATGCTGCTAAAGAAATAGACAACATTACTTTTTATGTCGAAGAAAAAGATGCATGGTACTTTGAAGATAATGATTTAAAAATTAAGTTTAGCAGAAAAAAACAAGAACCAGAAATTTCTTATGAAAAAAGAGCTTAG MDIQISKEAAKWYKHELDLENNDNYIRFFVRYGGFGGNIPGFSLGVSKDAPEEVHAAKEIDNITFYVEEKDAWYFEDNDLKIKFSRKKQEPEISYEKRA NA NA NA NA NA AK015_03389 225 yidD COG0759 Putative membrane protein insertion efficiency factor ATGAAGTATATCTTTATCGGTTTGATAAAATTTTACCGTACTGCTATCAGTCCTTTTAAACCGCCGAGTTGCCGATTTTTCCCTACTTGCTCTGAATATGGACTCGAAGCCTACAAACGATTTGGTGTTGTTAAAGGTACCTATCTAACAGTAAAGCGAATTAGCAAATGTCACCCTTTTCATCCAGGTGGCATTGATCTGGTACCTGAAAAGAACAAGAAATGA MKYIFIGLIKFYRTAISPFKPPSCRFFPTCSEYGLEAYKRFGVVKGTYLTVKRISKCHPFHPGGIDLVPEKNKK PGPT0024530_176 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_SECRETION CE-SEC-SECRETION_PATHWAY CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217 NA NA AK015_03390 933 folE2 GTP cyclohydrolase FolE2 ATGAAACATCAAGCAAAGGCTTTTCCAGTAAAACAATTACCTTCTAAAGAAAAGCGCCATCAACTATTTGGTTCTGTAAAACCTGCCCCAAAAACAAAACCTGTTGATAAAATGCATATGGCGGATTTACAGAATACAAAAAAAGATTTTTTATTTGATCTAGATGCGGTTGGGGTTACAAAGGTAAAACACCCTATTTTGATATATAGTTTCATGCCACCGTACACACAAACAAGTGTCGCAGAATTCACATTCACTTCCAGCTTAAAACAAACGAACAAAGGCACAAACATGAGTCGCTTTATTGAACAACTAGCAAGTTACCAAAAAAATGGGTTCTCTACGGACCTAGAATTATTAAAGAAGTTCACAAAAGATATGGCCAAAAGAGTTGAACAACAAGATGCAACAATAGAAGTAAGCTTCCCTTGGTTTTTTGAAAGACAAGCCCCTGACACAAGTCTTATTGGCTTAAATCACGCTAATGCTAGTATTAAAATGGAATACCATGAAACAAAAGGATTCCATATTCAATTATCTTTAGGTGTATCCATTACTACACTATGCCCTTGCTCTAAAGAAATAAGTGAATATAGCGCTCATAATCAGCGTGGTAATGTTACAATGGAAATAAGAGTTAGTGATGATTATCAAGAAGAAGATCTTGATTGGAAAAAAGTCTTGCTTGAAGCAGCAGAAAGTAACGCAAGCGCTCGATTACATCCTATCTTAAAACGAACGGATGAAAAATTTGTTACAGAACAAGCATATGAAAATCCGCGTTTTGTCGAAGATATGGTTCGTTTAATAGCTGCTGATTTATATGAAACGCCATTTATTGAAAAGTTTAAAGTAACTTGCCAAAATGAAGAATCTATTCATATGCACGATGCGATTGCTGAAATCACTTATGATAAGACCAAGGGTATTTGA MKHQAKAFPVKQLPSKEKRHQLFGSVKPAPKTKPVDKMHMADLQNTKKDFLFDLDAVGVTKVKHPILIYSFMPPYTQTSVAEFTFTSSLKQTNKGTNMSRFIEQLASYQKNGFSTDLELLKKFTKDMAKRVEQQDATIEVSFPWFFERQAPDTSLIGLNHANASIKMEYHETKGFHIQLSLGVSITTLCPCSKEISEYSAHNQRGNVTMEIRVSDDYQEEDLDWKKVLLEAAESNASARLHPILKRTDEKFVTEQAYENPRFVEDMVRLIAADLYETPFIEKFKVTCQNEESIHMHDAIAEITYDKTKGI PGPT0007880_202 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007 NA NA AK015_03391 582 plsY_4 COG0344 Glycerol-3-phosphate acyltransferase ATGGAATTTATTCTGTTTGCTTTTATAGCCTATTTACTTGGTTCAATCCCTTCAGCGCTTATTGTTGGTAAGGTTGGATATAACAAAGATGTACGGCAGCATGGAAGCGGAAATTTAGGGGCAACTAACACCTTTCGTGTATTAGGTATAAAAGCTGGAATCATTGTAACTTTAGCTGACATTTTAAAAGGGACTGCAGCAACACTCCTCCCCCTAATATTTGACGCTGATGTACACAGACTTATTATTGGACTGTTCGCCGTTATTGGTCACACATACCCGATTTTTGCTAAAATGAAAGGTGGAAAAGCAGTTGCGACGTCTGCAGGAATCATCTTAGGTATTAATCCACTATTATTTTTATTGATGATATCAACTTTCATTATTAGCTTGTATATTTCTAAATATGTGTCGCTTTCTTCCATTATTACTGGCTTCGTAACGGTTATTCTTTCTTTTATTTTTCAAAATACAGGATTAATTATTGTTACATCACTATTAACTATTTTTGTGATATATAGACATCGGGAAAATTTAAGGCGAATAAAGAACAAAACAGAGCCAAAAATTACGTGGATGTAG MEFILFAFIAYLLGSIPSALIVGKVGYNKDVRQHGSGNLGATNTFRVLGIKAGIIVTLADILKGTAATLLPLIFDADVHRLIIGLFAVIGHTYPIFAKMKGGKAVATSAGIILGINPLLFLLMISTFIISLYISKYVSLSSIITGFVTVILSFIFQNTGLIIVTSLLTIFVIYRHRENLRRIKNKTEPKITWM PGPT0024375_3492 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591 NA NA AK015_03392 1068 opuCA_2 COG1125 Carnitine transport ATP-binding protein OpuCA ATGATTGAATTTAACCAAGTTTACAAAACATATCCAGATGGAACAGAAGCTGTAAAAGATATTTCTTTTCAAGTCGAAAAAGGAGAATTTATTACTTTAATTGGCCCAAGTGGTTGTGGTAAAACAACAACAATTAAAATGGTTAATCGACTAATGGAACCAACTTCAGGTGACATTTACATAAAAGGAGAAAATATTAGGGCATTTCCAATTGACCAGTTACGGTGGAATATTGGTTACGTACTACAAGAAATAGCTTTATTTCCTCATATGACCATAGAAGAAAATATCGCAGTTGTTCCTGAATTAAAAAAATGGGATCGACGACGAATTCGAAATCGATCTAAGGAACTATTAGAGATGGTCGGTCTTGATCCATCCATGTATAAGAAAAAACTGCCAGTCGAACTTTCTGGTGGTCAGCAACAGCGTATTGGAGTTATTCGTGCTTTGGCAGGTGATCCGGATATTATATTGATGGATGAGCCATTTAGTGCCTTAGATCCGATCAGTAGGCAGCAATTGCAAACAGATATCCAAAGATTACAACAAGAAGTGAAAAAAACCATTTTGTTTGTTACCCATGATATAAAAGAAGCAATGGCATTAGGGGATCGTGTTTGTTTAATGAATGAAGGGGAAATTGTACAGTTTGATACACCAGACAATCTCGTACGTCACCCGAAAACTACATTTGTAAAAGAATTCACTGGTAAAAGTCAGTCACCTTGGGAGACACCTGTGGAAACAATTGCTTCTTCTGCAAGAAAACATATATTAAGCCGAACTGCTTTGAAACAAGGAGAATATGATCCTAACCTACTATATATAATAGAGGATGAAAATAATAATTATGTTGGTATGGTGAAACAAGGTAGGACGATGGAAGGCATACAACTACAACATAATCTTCCTTTATCAGAGGTGGTCCATATGACAGAAGAAGTAGACCAAGATTTCTTCCCAATAGTAAAAGAAAATAAACTTGTTGGAGTGTTTCAATTTAGAGATATGGTTGCGTATTTAAAAGATCAGTCCCTGTTTGCAGGGGGATCAGAAGATGAATGA MIEFNQVYKTYPDGTEAVKDISFQVEKGEFITLIGPSGCGKTTTIKMVNRLMEPTSGDIYIKGENIRAFPIDQLRWNIGYVLQEIALFPHMTIEENIAVVPELKKWDRRRIRNRSKELLEMVGLDPSMYKKKLPVELSGGQQQRIGVIRALAGDPDIILMDEPFSALDPISRQQLQTDIQRLQQEVKKTILFVTHDIKEAMALGDRVCLMNEGEIVQFDTPDNLVRHPKTTFVKEFTGKSQSPWETPVETIASSARKHILSRTALKQGEYDPNLLYIIEDENNNYVGMVKQGRTMEGIQLQHNLPLSEVVHMTEEVDQDFFPIVKENKLVGVFQFRDMVAYLKDQSLFAGGSEDE PGPT0013585_1460 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847 NA NA AK015_03393 1524 hypothetical protein ATGAATGAGTTTATAAACGCATTTCAAAACCGACAAGGAATGCTTGCTGAAACTATTTGGGAGCATTTGCAAATATCACTTATTTCTTTAATTATTGCTATTTTAATTGCCGTTCCTTTAGGGCTCTTGTTAACAAGATTTCCTAAAATAGCTGAACCGGTCATAGGTCTTACAGCTATTTTACAGACTATTCCAAGTTTAGCGGTGTTAGCATTTTTAATTCCTTTTTTCGGTATTGGAACGCTACCAGCTGTTATCGCTTTAACTGCTTACGGTTTACTGCCAATTTTACGAAATAGTTATACTGGGATTAAAGAAGTAGAGCAAGCTTATATTGAAGCAGCAACTGGCATGGGGATGAATTCTTATAAGCAGTTAATAAAAGTTGAACTACCTATTGCGATGCCAGTATTAATGGCAGGAGTTCGGACATCTATGGTTTTAATTGTTGGAACAACTACATTAGCCGCTTTAATTGGAGCTGGCGGTTTAGGAGAAATTATTCTATTAGGCTTAGACCGTGGAGCTGATGTTAATTTAATTTTATTAGGAGCTATACCTGCCGCTTTACTTGCAATTGCACTCGATGTCATTTTACGGTGGTTTGAAAGAGTTTCTAAGAAAGCAGGCATTAAAACGCTGTTAGTTATGTTACTACTTGCTATATGTATTGTTATCGCTCCATTCGTTATCGAAACGGAAGAAAAGGAAGACATCGTGATCGGTGGGAAATTAGGGGCTGAGCCCACTATTTTAATGAATATGTACAAGCTCTTAATAGAAGAGGGAATGGATTTAAACGTTACCCTAAAGCCAAATCTTGGAAAAACAGCATTTGTGTTTGAGGCATTGGAACAAGGAAGTATTGATGTTTATCCTGAATTTACAGGAACAGCCATTGTTACTCATTTAGAAGAAGAGACAACTAGCCAAAATGAACTAGAAGTGTATCAACAAGCCAAAGATGGAATGGAAGAGGCATTTGATATGGCATATTTACAGCCGATGGATTATAATAATACGTACACCGTTGCAACGACAAAAGAAATAGCTGATCAATATAACTTGCAAACAATGGAAGACATTAAACAAGTAGAAGAACAGTTGATTGCAGGATTTACATTGGAATTTAAGGACAGATACGATGGGTATGTTGGAATGCAGGATGTTTATGAGCTGGACATTGCAGATGTTAACACAATGGATCCTGGTTTGCGACAGGAAGCATTAACATCGGGTGAAGTTGATCTCATTGATGCATATGCAACAGATAGTTACATGGAAGAGCTTGGTTTAGTTGCTTTAGAAGATACGAAAAATTTATTTCCTCCTTATCAAGGTGCACCTCTTTTACGTAACGATACGTTAGAAAAACAACCTGGACTAGAGCAAGTTTTAAATCAGCTTGGAGGTAAAATAACGGATAAACAAATGAGGGAAATGAATTATCTAGTGGACTATGAAGATCAGTCACCTGAAAAAGTTGCTAAAGATTTTTTAGTAGAACAGGGATTATTACAATAA MNEFINAFQNRQGMLAETIWEHLQISLISLIIAILIAVPLGLLLTRFPKIAEPVIGLTAILQTIPSLAVLAFLIPFFGIGTLPAVIALTAYGLLPILRNSYTGIKEVEQAYIEAATGMGMNSYKQLIKVELPIAMPVLMAGVRTSMVLIVGTTTLAALIGAGGLGEIILLGLDRGADVNLILLGAIPAALLAIALDVILRWFERVSKKAGIKTLLVMLLLAICIVIAPFVIETEEKEDIVIGGKLGAEPTILMNMYKLLIEEGMDLNVTLKPNLGKTAFVFEALEQGSIDVYPEFTGTAIVTHLEEETTSQNELEVYQQAKDGMEEAFDMAYLQPMDYNNTYTVATTKEIADQYNLQTMEDIKQVEEQLIAGFTLEFKDRYDGYVGMQDVYELDIADVNTMDPGLRQEALTSGEVDLIDAYATDSYMEELGLVALEDTKNLFPPYQGAPLLRNDTLEKQPGLEQVLNQLGGKITDKQMREMNYLVDYEDQSPEKVAKDFLVEQGLLQ PGPT0013581_12 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA NA NA AK015_03394 417 yccU COG1832 putative protein YccU ATGACTTGGGAAAACCCAACAAATGAAGAACTGAAGCAGATTCTAGCTACCGCTAAAACAATTGCCGTTGTTGGATTATCAAATAATCCAGAACGAACATCTTACCAAATTGCTAAGATTATGCAACAAGAAGGGTATAAAATCATTCCTGTAAACCCCACTGTAGAGGAAGTTCTTGGGGAAAAAGCCTATACGTCGTTGTCAGAAGTACCTGATTCAATAGATATTATTAATGTGTTTCGCAAACCAGAATTTTTACCTGAAATTGCAGAACAAGCTGTAAAAACAAGTTGTAGGGTTTTTTGGGCTCAACAAGGTATTGTTAATGAAGAAGCATATCATTACTTAAAGCGTCATGGCTTTACTGTTATTATGGACTTATGTATTAAAGTAGTCCATGCTGTGTTGGTGAAATAA MTWENPTNEELKQILATAKTIAVVGLSNNPERTSYQIAKIMQQEGYKIIPVNPTVEEVLGEKAYTSLSEVPDSIDIINVFRKPEFLPEIAEQAVKTSCRVFWAQQGIVNEEAYHYLKRHGFTVIMDLCIKVVHAVLVK PGPT0013060_1229 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384 NA NA AK015_03395 1959 parE COG0187 DNA topoisomerase 4 subunit B GTGACAAAACAAGCTAATTCATATAGTGATGACTCGATTCAAGTGCTAGAAGGCCTTGAGGCTGTACGAAAACGACCTGGAATGTATATTGGAAGTACAGATCTTCGAGGATTGCATCATCTTGTATTTGAAATAGTAGATAATGCGGTAGATGAGGCCTTGGCTGGATTTGGCGATGTCATTAAAGTAATGATACATAAGGATAATAGCATTTCCGTAACAGATTATGGACGAGGAATACCTACAGGCATGCATCGTTCAGGAAAACCAACTCCTGAAGTTATTTTTACGATTTTACATGCAGGAGGTAAATTCGGGCAAGGCGGTTATAAAACCAGTGGGGGTTTACATGGAGTTGGTGCTTCAGTAGTAAATGCTTTGTCAGAATGGCTTGAAGTAACGATTCATCGAGATGGGCATAAATATTTTCAGCGATTTGAAAATGGAGGTAAACGTGTTGGAACGTTGGAGAAAAAAGGAACGACGAAGTTAACTGGTTCGACCATTCATTTTAAACCTGACCCTACTATTTTTACTTCTACAGTTTATGATTTTGAGACACTATCAGAGCGATTACGAGAAGCAGCCTTTTTATTAAAAGGTCTAACTATTGAATTACATGATGTAAGATATCATCAAGTAGAGAAATACCAATTTCCAGATGGCTTAAAAGCGTTTGTAAATTATTTAAATGAGGAAAAGGATACACTTCATCCGGTTGTAGCTTTTGAAGGTGAACAACAAGGTATTGAGGTTGATTTTGCGTTTCAGTTTAATGATGGCTTTGCAGAGAGTATGCTTTCGTTTGTTAATCATGTTCGTACGAAAGATGGTGGGACGCATGAATCTGGGGCTCGAACGGCAATTACAAGAACGTTTAACGATTATGCAAAGCGGACAGAACTGTTAAAAGAAAAAGATAAAAATTTAGAAGGTACAGATATACGTGAAGGATTTACATCCATCGTCTCGGTACGTGTGCCTGAAGATAGATTACAATTTGAAGGTCAGACGAAAGGGAAATTAGGTACTCCTGAAGCAAGATCTGTAGTAGATGCCGTTGTTTCTGGAAAATTGACTTTTTTCCTTGAAGAAAACCCAGATATCGCCAATTTGCTGATTAAAAAAGCGATAAAAGCAAAGGAAGCGAGAGAGGCAGCTCGAAAAGCAAGGGAAGAAGCAAGAACAGGAAAAAAGCGAAAAAAGAGAGAAACCCTGCTTAGCGGAAAGCTTACTCCTGCTCAATCAAAAAATGCAAAACGAAATGAATTATACCTTGTAGAGGGAGATTCAGCAGGAGGCTCTGCCAAGCAAGGAAGAGACCGCAAGTTTCAAGCAGTACTTCCATTACGGGGGAAAGTAATTAATACAGAAAAAGCTAAACTGGAAGATGTTTTTAAGAATGAAGAAATCTCAACGATTATCCATACAATTGGTGCTGGTGTAGGCGGTGACTTCGATTTAGAGGATGTTCAATATGATAAAGTTATTATCATGACTGACGCAGACACGGATGGAGCACATATTCAAGTTTTATTGCTCACATTTTTTTACCGCTATATGCGCCCGCTTGTAGAAGCTGGAAAAGTCTATATTGCACTTCCCCCTTTATATCAAATTGCTAAAGGGAAAGGAAAAAAGAGACAAGTAGCCTATGCGTGGGATGAACAAGAAATGAAACGAGTCGCTCAAGAATTTAAAAATGGCTATTCATTACAACGCTATAAAGGTTTAGGAGAAATGAATGCAGATCAACTTTGGGAGACAACCATGAACCCTGAATCCCGAACGTTAATTCGTGTTACTATTGATGATTTAGCACGTGCTGAACGTAGAGTAACAACATTGATGGGGGATAAAGTAGAACCACGAAGAAAATGGATTGAAGGCAATGTTGAATTCGGTTTGGATGAGGATTCCAATATTTTAGAAAATGATAAAATTTATACAGATGAATAA MTKQANSYSDDSIQVLEGLEAVRKRPGMYIGSTDLRGLHHLVFEIVDNAVDEALAGFGDVIKVMIHKDNSISVTDYGRGIPTGMHRSGKPTPEVIFTILHAGGKFGQGGYKTSGGLHGVGASVVNALSEWLEVTIHRDGHKYFQRFENGGKRVGTLEKKGTTKLTGSTIHFKPDPTIFTSTVYDFETLSERLREAAFLLKGLTIELHDVRYHQVEKYQFPDGLKAFVNYLNEEKDTLHPVVAFEGEQQGIEVDFAFQFNDGFAESMLSFVNHVRTKDGGTHESGARTAITRTFNDYAKRTELLKEKDKNLEGTDIREGFTSIVSVRVPEDRLQFEGQTKGKLGTPEARSVVDAVVSGKLTFFLEENPDIANLLIKKAIKAKEAREAARKAREEARTGKKRKKRETLLSGKLTPAQSKNAKRNELYLVEGDSAGGSAKQGRDRKFQAVLPLRGKVINTEKAKLEDVFKNEEISTIIHTIGAGVGGDFDLEDVQYDKVIIMTDADTDGAHIQVLLLTFFYRYMRPLVEAGKVYIALPPLYQIAKGKGKKRQVAYAWDEQEMKRVAQEFKNGYSLQRYKGLGEMNADQLWETTMNPESRTLIRVTIDDLARAERRVTTLMGDKVEPRRKWIEGNVEFGLDEDSNILENDKIYTDE PGPT0027710_1407 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622 NA NA AK015_03396 2454 parC DNA topoisomerase 4 subunit A TTGACTCAACCAGGAACATTTTTAGACCTTCCCTTAGAAGAAGTAATAGGCGATCGATTTGGAAGGTATAGTAAATATATTATTCAGGATAGAGCGTTACCTGATGCTAGAGATGGTTTAAAACCAGTACAACGTAGAATCCTTTACGCTATGCATGAAGAAAAAAATACACATGATAAAAATTTTCGAAAATCGGCAAAAACAGTAGGTACAGTAATCGGTAATTATCATCCACATGGCGATTCCTCGGTTTATGAGGCTATGGTTCGACTTAGTCAAGATTGGAAAGTAAGAAACGTTTTAGTTGAAATGCATGGAAATAATGGAAGTATTGATGGCGATCCACCTGCTGCCATGCGTTATACGGAAGCTAGATTGTCTAGCATCGCTTCTGAGCTACTGAGAGATATTGATAAAGATACCGTTGATTTTATTTCTAATTTTGATGATACCGATACAGAGCCCGTTGTTTTACCAGCAAAGTTTCCTAATTTGCTCGTAAATGGATCAACTGGAATTTCTGCTGGATATGCAACAGATATACCACCGCATAATTTAGCAGAGGTGTTAGATGCCGTTATTCTTAAAATTGATAAGCCTACTGTTACTACGGAAGAATTAATGAAGGTTATAAAAGGGCCTGATTTTCCTACCGGAGGGATTATCCAAGGTTTTGATGGAATAAAAAAAGCGTATGAAACAGGTCGCGGAAGAATTGTAGTTCGTGGGAAAACAAGCATTGAAAGCCTACGGGGAAACCGTGAACAGATTATTATTGATGAAATCCCTTATGAAGTCAATAAAGCGAATATGGTTAAGAAAATGGATGAATTGCGCATTGACCGAAAAGTAGAAGGGATTGCTGAAGTTCGCGATGAGACAGATCGTACAGGATTACGAATTGTCATTGAATTAAAAAAAGACGTAAATGCAGAAGGTGTTTTAAATTATTTATTTAAAAATACAGACTTACAAGTAACCTATCATTTTAATATGGTTGCTATACAAGATAAAACACCTAAACAATTATCGTTAAACCAATTATTAGAGTCGTATATTGCCCATCAAAAAGAAGTCGTAACGAGGCAAACAGCTTTTGATCTAAAAAAAGCGAAAGATCGTGCTCATATCGTTGAAGGTTTGATTAAAGCTATCTCTATTCTTGATGAAATAATTCAAACGATCCGTTCATCCAAAGATAAACAGGATGCAAAGCAACGCCTTATCGCGACCTATTCCTTTACAGAAGCACAAGCTGAAGCCATTGTTACTTTGCAGTTATATAGATTAACAAATACAGATATTACTTCATTAGAGCAAGAGGCAAATGCTTTACAAGAACGAATTAAGGAATTGGAGCTTATTTTAGGCAGTGAAAAGGAACTTTTAAAAACAATTAAAAAAGACTTAAGGAAAATAAAAAAGACATATGCGACGCCACGTTTAACAGTTATTGAGGCTGAGATTGAAGAACTGAAAATTGATATTGAAGTGATGGTTGCAAGTGAAGATGTACTATTGTCAGTGACGAGAGATGGTTATATAAAACGGACGAGTTTACGTTCTTATAGTGCTTCCAACGGGGAAGATTTCGCTATGAAAGAAGAAGATCATCTAATTCGCTTGATAGAACTAAATACAACGGATAAAGTTCTCTTGTTCACAAATAAGGGTAGGTATATTTATTTACCTGTACATGAGTTACCGGATATTCGCTGGAAAGATATTGGACAGCATTTATCTAATATCGTAACCTTAGAAAAAGAAGAAAAAGTAATTGAATGTTTACCTATACGTCAATTTGATGAACGTTGCTATTTATTGTTTTTCACTAAAAATGGCATGGTCAAAAGAAGCCAATTCCATCTTTATGAAGCACAAAGATATGCAAAGCCATTAATTGCACTTAACTTGAAAAATGGTGACGAAGTAATCAATGTCCATTTAACAGATGGAAATCAAGATGTATTTGTTGCTTCAGACAAAGGATATGGATTATGGTATCATGAATCCGAAATTTCAGTTGTTGGGCAACGTGCTGCTGGAGTAAAAGCAATGCAGTTAAAAAATGATGAACATGTAGTTAGTGGTCAAGTATTTGATGATTTATCAGAGGCTTCTTTAGTTGTTTTAACGCAGCGCGGCGCTTGCAAGCGGATGAAGTTAAATATGTTTGAGAAAACAAGTCGAGCTAAAAGAGGTTTACAAATGCTTCGTGAACTGAAAAGTAAACCACATCGAATACGAGGCTTCTTTCTCGTTAACGAACAAGATACAATTCAATTTAAAACAAAAGATGAAGAAGTACATCACGTATTCCCATTAGAACTATCCAATAGTGATCGGTACAGTAACGGATCATTTATTATAGATGCTGATATTCATGGAGAAATTATCGAGGCATGGAAACAAGTCCAATATGAGCAGCCATTTGCAAATTCATCGGAAACTTAA MTQPGTFLDLPLEEVIGDRFGRYSKYIIQDRALPDARDGLKPVQRRILYAMHEEKNTHDKNFRKSAKTVGTVIGNYHPHGDSSVYEAMVRLSQDWKVRNVLVEMHGNNGSIDGDPPAAMRYTEARLSSIASELLRDIDKDTVDFISNFDDTDTEPVVLPAKFPNLLVNGSTGISAGYATDIPPHNLAEVLDAVILKIDKPTVTTEELMKVIKGPDFPTGGIIQGFDGIKKAYETGRGRIVVRGKTSIESLRGNREQIIIDEIPYEVNKANMVKKMDELRIDRKVEGIAEVRDETDRTGLRIVIELKKDVNAEGVLNYLFKNTDLQVTYHFNMVAIQDKTPKQLSLNQLLESYIAHQKEVVTRQTAFDLKKAKDRAHIVEGLIKAISILDEIIQTIRSSKDKQDAKQRLIATYSFTEAQAEAIVTLQLYRLTNTDITSLEQEANALQERIKELELILGSEKELLKTIKKDLRKIKKTYATPRLTVIEAEIEELKIDIEVMVASEDVLLSVTRDGYIKRTSLRSYSASNGEDFAMKEEDHLIRLIELNTTDKVLLFTNKGRYIYLPVHELPDIRWKDIGQHLSNIVTLEKEEKVIECLPIRQFDERCYLLFFTKNGMVKRSQFHLYEAQRYAKPLIALNLKNGDEVINVHLTDGNQDVFVASDKGYGLWYHESEISVVGQRAAGVKAMQLKNDEHVVSGQVFDDLSEASLVVLTQRGACKRMKLNMFEKTSRAKRGLQMLRELKSKPHRIRGFFLVNEQDTIQFKTKDEEVHHVFPLELSNSDRYSNGSFIIDADIHGEIIEAWKQVQYEQPFANSSET PGPT0027705_801 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 AK015_03397 126 hypothetical protein ATGGAATTGAAACAATATAAGCATTTTATAAGTAATACAAACACCCTGAATTTAAGTTATTTAAAAACCGAACCAGCATTTACGATCTACTGGTTCGGTTTAGCTGTTATGTTCAAAAGAAAATAA MELKQYKHFISNTNTLNLSYLKTEPAFTIYWFGLAVMFKRK NA NA NA NA NA AK015_03398 480 hypothetical protein TTGCTTTACGTCATTCATGATATATTTATTAGCTATGTATTGGAAAAAGCGGAAGCTGCAAATAGCAGTCATACTTCTCCAACAGATAAGCTGCAAGCGATTATTAAGGATTTTGTGAAAGTATTTGATATTTATAAACCGCATATTTCCGTTTTTTATCAGGAAAGTATCTATTTGAAGCCAGAATATGAATCTTTAATTAAACAAAAAAGAGACCAGTTTAAACAGTTGATTTTTGATACAATTGCTGAAGGTCAAGCAGATGGAGAATTTCGTGATGATTTACCTGTTGAAATAGCAGGAATGGCCATTTTAGGGATGGTGAATTGGACGTATAAGTGGTATCAGCCTACGGGGAAGAATACAATTGATGAAATTAGCGACATATTTATTGATCTTATTTTACAATCTATCATACCAAAAGAGATTGAATTAGGTGAGGAAAAAAGAGGACGTTATGGTTCCGACACTTCTCGATAA MLYVIHDIFISYVLEKAEAANSSHTSPTDKLQAIIKDFVKVFDIYKPHISVFYQESIYLKPEYESLIKQKRDQFKQLIFDTIAEGQADGEFRDDLPVEIAGMAILGMVNWTYKWYQPTGKNTIDEISDIFIDLILQSIIPKEIELGEEKRGRYGSDTSR NA NA NA NA NA AK015_03399 1143 bcd COG1960 Acyl-CoA dehydrogenase, short-chain specific ATGAATTTTTCGTTTACCGAAGAACAAACAATGGTGAAAAATATGGTGCGGGATTTTGCTGAATCTGTCATCAAACCACGAGCAATTGAAATTGATAAAACAGCTTCTTTTCCAATTGATATTTTTAAACAAATAGGTGAGCTGGGATTGTTAGGGATCCCATTTCCTGAAAAATATGGTGGTTCTGGGGGAGATACAATTTCATATGCTTTAGCAGTGGAGGAAATTGGCCGCGTTTGTGGAAGCACAGGCTTAAGTTATGCAGCAGCTGTTTCATTAGGTGCTAGTCCGATTTATTATTTTGGAACAGAAGCACAAAAACAACAATATTTAGTCCCACTTGCTGAAGGTAGTACATTAGGGGCGTTTGGCTTAACCGAACCAAATGCTGGGTCAGATGCTGGGGGAACAAAGACGACAGCAGTAGTGGAAGGTGACGAATATGTTATAAATGGAGAAAAATGTTATATTACAAACGCAAGCTACGCTAAAACGATTATTGTAACCGCTGTAACAGGAAAAGATGATCGAGGGAAAAATATTATTTCTGCTATTATTGTTCCTACGCATACAGAAGGGCTCACGATTACAAGCAGTTATGACAAAATGGGTGTTCGTGGATCAGATACATCTGAAGTTTTATTGGATAATGTACGCGTTCCTACAGAAAATCTATTAGGAAATCCAAAAAAAGGATTTAAACAATTCCTATATACTTTAGATGGTGGCCGCATATCTATAGCTGCTCTCGGTGTAGGGATTGCTCAAGCCTCATTGGAGAAAGCGCTAACCTATGCAAAAGAACGAAAACAATTTGGTAAATCTATATCCGATTTTCAGGCGATTCAATTTAAGTTAGCTGATATGGCAATGGAAGTGGAGTTAGCTAGAAATATGGTACATAAAGCTGCCTGGTTAAAAGATAAAGACAAAGCATTTGGGAAAGAAGCTGCTTATGCAAAGTTATATGCTACTGAAACTGCTTTTCGTTCAGCGAATCAAGCGATTCAGATTCATGGCGGTTATGGATATATGCGTGAATATGAAGTAGAACGCTATTTGCGAGATGCGAAATTACTTGAAATCGGAGAGGGTACTTCAGAAATTCAACGCTTAGTTATTGCTAGACACTTAGGTTGTTAA MNFSFTEEQTMVKNMVRDFAESVIKPRAIEIDKTASFPIDIFKQIGELGLLGIPFPEKYGGSGGDTISYALAVEEIGRVCGSTGLSYAAAVSLGASPIYYFGTEAQKQQYLVPLAEGSTLGAFGLTEPNAGSDAGGTKTTAVVEGDEYVINGEKCYITNASYAKTIIVTAVTGKDDRGKNIISAIIVPTHTEGLTITSSYDKMGVRGSDTSEVLLDNVRVPTENLLGNPKKGFKQFLYTLDGGRISIAALGVGIAQASLEKALTYAKERKQFGKSISDFQAIQFKLADMAMEVELARNMVHKAAWLKDKDKAFGKEAAYAKLYATETAFRSANQAIQIHGGYGYMREYEVERYLRDAKLLEIGEGTSEIQRLVIARHLGC 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 AK015_03400 1635 fadD3 COG0318 3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase ATGACGCTTTTACATGAAACTGTTGGGGAACTTTTAGAGAAACAAGTAAAATATTTTCCGAATCATGAAGCAATTATCTACCCAGAATTAAACCTTAGAAAAACATATGAGGAATTTAATAAGGAGGTAAATGAAGCAGCCAAAGGTTTAATGGCTTTAGGAATAAGTAAGGGAGATCATGTGGCAATTTGGTCGGACAATAAACCTGAATGGCTAACGACCCAATTTTCAACCGCTAAAATAGGGGCTGTATTAGTAACCGTAAATACGAACTACCAAGCTAATGAGCTAGAATATTTATTAAAACAATCCGAGGCTTCTACTTTAATTATGGCTGAAAATTATAAAGGGACGTCTTATTTGGAAGTTTTAAGAAATATTTGTCCAGAACTGGATAACGCGACACCAGGGAACATAAAATCAAAAGTTTTACCAAAACTAAAAAACATTATCGTTTTAAGTGAAACGGATTATGCTTTTGCGTATAAATGGATCGATATCATGCATGCAGGAAAAGGCATAGCAGAACAAGACCTAACGGAACGAAAAGCAAGTTTAGCAATGCATGACGTTATTAATATGCAATATACTTCTGGAACAACTGGATTTCCCAAAGGTGTGATGCTGACACATTATAATATTGTTAATAATGGGAAGCAAATTGCTGATTGTATGAAGTTGACTGAATCAGATCGGTTGTGTATCCCCGTCCCCTTTTTTCACTGTTTTGGTTGTGTTCTAGGAGTCTTAGCTGCCGTTTCCAAAGGAGCTACAATGGTTTTAGTAGAGCAATTTGACCCAGAAAAAGTACTAAAGACAGTTTCTCAAGAAAGATGCACCGCTTTACATGGTGTGCCAACGATGTTTATTGCTGAACTGAATCACCCTAATTTCGAACGGTATGATTTGTCTAGTTTAAGAACAGGGATCATGTCAGGGTCGCCTTGTCCAATGGAAGTTATGACGAAAGTAATGGAAAGAATGGGCGCAGATGAAATAACAATCGCATATGGGCAAACCGAAGCTTCACCTGTAATTACACAAACGAAGACAGATGACGCTATAGAGTTACGAGTGAGCACGGTCGGGATGCCTCATCCTAATGTTGAAATAAAAATCGTCATTCCAGGAACAAATAAAGAACAAAAACGTGGAGTTCCTGGAGAATTGTTGACAAGAGGTTATCATGTGATGAAGGGATATTATAACAATCCCGAAGCTACTAAGCAGGCAATAGATGAGGAAGGTTGGCTACACACTGGAGATTTAGCTTTGCTTCGAGAAGATGGTTATTTAGAAATAACGGGAAGAATGAAAGATATGATTATCCGTGGAGGGGAAAATATTTATCCACGAGAAATTGAAGAATTTTTATATCAGCACTCAGATATACTTGATGTGCAAATTGTTGGTGTCCCTGACGAAAAATATGGCGAAGAGATAATGGCATGGATTATTCCCAAAAAAGAGAGTACTATTTCTGAAGCCGATATACGCATTTTTTGTGAAGGGAATATATCATGGCATAAAATACCAAAGTATATTGCTTTTGTGGATGAGTATCCGATGACGGCAAGTGGAAAGATTCAAAAATACCGCTTGAAAGAAATGGCGATGCAAAAGTTAGTTGAATAG MTLLHETVGELLEKQVKYFPNHEAIIYPELNLRKTYEEFNKEVNEAAKGLMALGISKGDHVAIWSDNKPEWLTTQFSTAKIGAVLVTVNTNYQANELEYLLKQSEASTLIMAENYKGTSYLEVLRNICPELDNATPGNIKSKVLPKLKNIIVLSETDYAFAYKWIDIMHAGKGIAEQDLTERKASLAMHDVINMQYTSGTTGFPKGVMLTHYNIVNNGKQIADCMKLTESDRLCIPVPFFHCFGCVLGVLAAVSKGATMVLVEQFDPEKVLKTVSQERCTALHGVPTMFIAELNHPNFERYDLSSLRTGIMSGSPCPMEVMTKVMERMGADEITIAYGQTEASPVITQTKTDDAIELRVSTVGMPHPNVEIKIVIPGTNKEQKRGVPGELLTRGYHVMKGYYNNPEATKQAIDEEGWLHTGDLALLREDGYLEITGRMKDMIIRGGENIYPREIEEFLYQHSDILDVQIVGVPDEKYGEEIMAWIIPKKESTISEADIRIFCEGNISWHKIPKYIAFVDEYPMTASGKIQKYRLKEMAMQKLVE 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 AK015_03401 1338 accC COG0439 Biotin carboxylase ATGATAAATAAACTTGTTATTGCTAACAGAGGAGAAATTGCGGTACGGATTATCCGCACATGCAAAAAATTAAATATTCAAACGGTAAGTGTTTATTCCGAAGCTGATAAACACGCACCTCATGTAAAAATGGCAGATGAAAGTTATTTAATTGGCCCGCCACGTGTACAGGAAAGTTATTTAAATGCTGAAAAAGTCATTGCGATAGCGAAGGAAGCAAAAGCAGATGCTATACATCCAGGTTATGGATTTTTAAGTGAAAATGCTGGCTTTGCTAAGCAATGTGAACAAGCTGGATTTATCTTCGTTGGGCCTAGAAGTCAGGTTATTCAAAAAATGGGTAATAAGATTGAAGCTAGAAGCGCGATGAAGGAAGCGGGAGTTCCAATTGTTCCTGGAACAGAAGACGCCATTGTTACAGTGGAAGATGCTCTTTTACACGCTAATCAAATTGGTTACCCGGTGATGGTAAAGGCTTCTGCTGGAGGAGGTGGGGTTGGTATGCAAGTAGTGTATAAAGAAGCTGAGTTGGCAGAAGCATTTACGAACAATGCGAAACGAGCCCAAAGCTTATTTGGTGATGGAGCAATGTTTATTGAAAAAAAAATAGATAATGCCCGTCATATCGAAGTGCAAGTACTAGCTGACACTTATGGAAATACCATACATTTATTTGAGCGCGAATGCTCTATTCAACGGAGAAATCAAAAGGTGATTGAAGAAGCTCCGTCTCCATTTATATCCGAAGCAACTAGGCTAGAAATGGGTGAAAAAGCAGTTCAAGCAACGAAGGCTCTTCACTATACGAATGCTGGTACAATTGAATTTTTAGTGGATGAAGAGGAGAACTACTATTTTTTAGAAATGAATACACGTATTCAAGTAGAACATCCCATTACAGAAGAAATAACAGGAATAGACATTGTTGAAAAGCAATTAGAAATCGCTAGCGGCAAACGGTTGAACTTAACGCAACAAGAATTATCCATCCAAGGCCATGCAATTGAAACTCGGATATATGCGGAAGATCCGAGCACATTTTTTCCATCACCTGGGCATATTGATATATTTCAACCTCCGAAAGGGGACGGCATTCGTAATGAAATCGCTGTAGGTACGAATTATGATGTAACCCCATTTTATGATCCAATGATTGCAAAATTAATCGTTCACGGGAAAACACGGGATGAAACTATTGCTTTATTAAAAGAAGCACTAGGGCAATATAAGGTTACAGGAATAAAAACAAATATTTCAATGTTGTTGCATGTAATAGAGCACGAACAATTTAAAGCTGGAAATACGACCACGAATTACCTAGAATTATATTACAAATAA MINKLVIANRGEIAVRIIRTCKKLNIQTVSVYSEADKHAPHVKMADESYLIGPPRVQESYLNAEKVIAIAKEAKADAIHPGYGFLSENAGFAKQCEQAGFIFVGPRSQVIQKMGNKIEARSAMKEAGVPIVPGTEDAIVTVEDALLHANQIGYPVMVKASAGGGGVGMQVVYKEAELAEAFTNNAKRAQSLFGDGAMFIEKKIDNARHIEVQVLADTYGNTIHLFERECSIQRRNQKVIEEAPSPFISEATRLEMGEKAVQATKALHYTNAGTIEFLVDEEENYYFLEMNTRIQVEHPITEEITGIDIVEKQLEIASGKRLNLTQQELSIQGHAIETRIYAEDPSTFFPSPGHIDIFQPPKGDGIRNEIAVGTNYDVTPFYDPMIAKLIVHGKTRDETIALLKEALGQYKVTGIKTNISMLLHVIEHEQFKAGNTTTNYLELYYK PGPT0001705_4347 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 AK015_03402 210 yngHB COG0511 Biotin/lipoyl attachment protein ATGGAAGTAAAAGCAACGATGGCAGGAAGTGTTTGGAAGATAACGGTAGAACAAGGGCAAACAATAGAGGAAGGTCAAGATGTTGTTATCTTGGAATCTATGAAGATGGAAATACCTATTACAGCTGAACAGTCTGGAGTAGTAAAAGCGTTAAAAGTAAATGAGGGGGATTTTGTGAATGAAGGAGATGTTATTGCTATCATTGAATAA MEVKATMAGSVWKITVEQGQTIEEGQDVVILESMKMEIPITAEQSGVVKALKVNEGDFVNEGDVIAIIE PGPT0001700_4708 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 AK015_03403 780 crt_2 COG1024 Short-chain-enoyl-CoA hydratase GTGGATCAAAATATTGAATTAAAAAAGGAAGCATCCATTGCTGTAATAAAAATAAATCGGCTAGAAGCTGCAAATGCGCTATCACAGCCATTACTCAAAGAACTACAAACAACGCTCCATATCATTGAACAAGACCATACTGTTCGATGTGCCATTATTACTGGGAATGGTGGGAAAGCATTTTGTGCAGGAGCAGATTTAAAAGAGCGTGCGAATATGAATGATCAAGAAGTAATAGCTGCTGTTGCTAGTATTAGTGAAACAATAAATAGAATAGAAGAATTGTCTATACCAGTTATTGCTGCAATGAATGGGGTAGCATTTGGTGGTGGATTAGAGTTAGCATTAGCATGTGATATTCGTATTGCTGCGGACCATGTGCAAATGGGGCTTACAGAAACTTCGCTCGCTATTATACCAGGAGCAGGCGGTACACAGCGTCTACCGCGATTGATAGGAATGGGGCAAGCGAAACGATTGATTTTTGGAGCGAAACGCATCGATGCGGAAGAAGCTTATCGAATCGGGTTAATAGAGGAAATCGTATCAGAAAGTGATTTAATGACAGAGGCTAATAAACTTGCAACAACTATTTCAAGGAATGGACCCGTTGCCCTTAGACAGGCTAAAACAGCTATAAATAAAGGTGCAGAAACCGATTTAAAAACAGGTTTGCTTATTGAAAGATTAGCCTATCAGCAAACAATTCCAACGAAAGATCGAATGGAAGGGTTACACGCCTTTCGTGAGAAAAGACTACCGAAATATGAGGGGAACTAA MDQNIELKKEASIAVIKINRLEAANALSQPLLKELQTTLHIIEQDHTVRCAIITGNGGKAFCAGADLKERANMNDQEVIAAVASISETINRIEELSIPVIAAMNGVAFGGGLELALACDIRIAADHVQMGLTETSLAIIPGAGGTQRLPRLIGMGQAKRLIFGAKRIDAEEAYRIGLIEEIVSESDLMTEANKLATTISRNGPVALRQAKTAINKGAETDLKTGLLIERLAYQQTIPTKDRMEGLHAFREKRLPKYEGN PGPT0005825_82 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION XENOBIOTIC_TOLUENE_DEGRADATION_PATHWAY_1,PGPT0005825-bbsH-K07546 NA NA AK015_03404 1530 accD5 COG4799 putative propionyl-CoA carboxylase beta chain 5 ATGACTCATAAGAATATATATGATGAAAAAGTAGCTACTATTAAGAGTGGTGGACAAGAAAAATATCATCGTAAAAATGAGGAAAAAGGTAAGTTGTTTGTACGTAAACGGTTAAAAAGGTTATTAGATGAAGATTTAAATATAGAAGATGCTTTTTTTGCAAATTGCATGGATGGCGCACTACCATCTGATGGTGTGGTTACAGGGATTGGGAAAATAAACGGCCAATCCGTTTGCATCATGGCAAATGATTCTACGGTCAAAGCTGGCTCATGGGGAAAGCGTACCGTGGAAAAAATCATTCGAATTCAAGAAACTGCTTTATCACTGGAAATTCCCATGATTTATCTAGTAGATTCTGCTGGTGCGAGAATTACAGATCAAGTAGAGATGTTTCCTGGAAGAAGAGGTGCCGGACGAATATTTCATAACCAGATAAAATTATCAGGTCGCGTGCCGCAAGTATGTCTATTGTTTGGCCCTTCTGCAGCAGGAGGCGCTTATATCCCTGCTTTTTGTGATATTGTCGTTATGGTTGATGGGAACGCTTCTATGTATTTAGGTTCACCACGAATGGCAGAAAAGGTTATTGGCGAGCAAGTTAGTTTAGAAGAAATGGGTGGAGCTAATATGCACTGCTCTGTTTCGGGGGTTGGTGATGTGTTAGCAAAGTCTGAGCAAGAAGCCATTGCATACACGCAAACTTACTTAAGTTATTTTCCAGCCAATTTTAGGAAGAAACCAAACATAGAAGAAGCAAAAGCAACAAAACAACTGAAAACAACTATTTCTGACTTAATTCCAGAGAATCAAAATGCTACTTTTAACATGTATGATCTTATTGATCAAATTATAGATGAAGATAGCTTTTGTGAGATAAAGAAGAAGTTTGCGCCTGAACTAATTACGGGTCTAGCAAGAATAGACGGACGGTCTATTGGTATTATTGCCAATCAGCCAAGGATGAAAGGCGGTGTCTTATTTCCGGACTCAGCGGATAAGGCAGCCAAATTTATGCAACTCTGTGATGCATTTAATATCCCACTGTTATTCTTAGTAGATGTACCTGGATTTATGATTGGGACAAAAGTGGAACGCGCTGGCATCATTCGTCACGGAGCAAAGATGCTCGCGACAATGAGTGAAGCGACGGTTCCTAAGATCTCTGTTATCGTGCGGAAAGCATACGGAGCTGGATTATATGCTATGGCAGGGCCAGCTTTTGAACCAGATTGCTGTTTAGCCTTACCTACTGCTCAAATTGCTGTTATGGGACCTGAAGCAGCAGTGAATGCCGTATATGCGAATAAGATTCAGGAATTATCGGAAGATGAGCGACCGGACTTTATTAAAGAAAAGCAGGCAGAGTATAAGGAGAATATTGATATTTACCGCTTAGCTTCAGAAATGGTAATTGATGCAATTATTGATCCAGAGAAGTTGCGAGAAGAATTAAAGACACGCTTTTCTATCTATGAATCAAAAAATGTAACATTTACGGAAAGAAAACATGGTGTATATCCGGTATAG MTHKNIYDEKVATIKSGGQEKYHRKNEEKGKLFVRKRLKRLLDEDLNIEDAFFANCMDGALPSDGVVTGIGKINGQSVCIMANDSTVKAGSWGKRTVEKIIRIQETALSLEIPMIYLVDSAGARITDQVEMFPGRRGAGRIFHNQIKLSGRVPQVCLLFGPSAAGGAYIPAFCDIVVMVDGNASMYLGSPRMAEKVIGEQVSLEEMGGANMHCSVSGVGDVLAKSEQEAIAYTQTYLSYFPANFRKKPNIEEAKATKQLKTTISDLIPENQNATFNMYDLIDQIIDEDSFCEIKKKFAPELITGLARIDGRSIGIIANQPRMKGGVLFPDSADKAAKFMQLCDAFNIPLLFLVDVPGFMIGTKVERAGIIRHGAKMLATMSEATVPKISVIVRKAYGAGLYAMAGPAFEPDCCLALPTAQIAVMGPEAAVNAVYANKIQELSEDERPDFIKEKQAEYKENIDIYRLASEMVIDAIIDPEKLREELKTRFSIYESKNVTFTERKHGVYPV PGPT0002300_609 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002300-mmdA-K01604 NA NA AK015_03405 690 yflN_2 COG0491 putative metallo-hydrolase YflN ATGAAAATAATAGAACTACCGATTGAATTTGAATTTAATGGGCAAAAAAATTGCATCTACCCTAGCCTATTTATTTCAAATAATGATGAATTAACTTTGGTCGATACAGGGTATGCAAATTTTTTGCCTTTAATTGAAAATGAAATTATTAAGAATGGATATGAAATGAAGCAATTAAAAAACGTAATTGTTACGCACTATGACGATGATCATATAGGTTCATTATATGATTTTAAAGTAAAATATCCGCAGATTAATATTATAGCTAGCGAAATTGAATCAACATACATTAGTGGCGAAATAAAATCAGAGAGATTGGTTCAAGCTGAAGATATGCTGGAAAATTTGCCAAAAAAGGATTTGGAGTTTGGTATATGGTTTGTACAGCAATTAAGAAAGTTGAAGCATGTCGCAGTAGATGAGAAGGTAAATGATGGTGATATAATTTTAGATAGCAAGTGTAAAATAATAGCAACACCAGGTCATACTTCGGGGCATATTACATTGTATTTTCCAAGTTTAAAAAGTGTAATTACTGGAGATGCAGCTGTTAAAAACTATGATGATTTGATTATTGCTAACCCGCATTTTTGTTTAGATATTAAGCAAGCAGAACAGTCATTGAATAAAATTAAAAATCTTAAAGTTAAATATATTTATTGTTATCATGGTGGGAAATTAACTTTATGA MKIIELPIEFEFNGQKNCIYPSLFISNNDELTLVDTGYANFLPLIENEIIKNGYEMKQLKNVIVTHYDDDHIGSLYDFKVKYPQINIIASEIESTYISGEIKSERLVQAEDMLENLPKKDLEFGIWFVQQLRKLKHVAVDEKVNDGDIILDSKCKIIATPGHTSGHITLYFPSLKSVITGDAAVKNYDDLIIANPHFCLDIKQAEQSLNKIKNLKVKYIYCYHGGKLTL NA NA NA NA NA AK015_03406 3624 der_2 GTPase Der ATGGAGAAAGAAACCGCGCCACGTTTCGTATATCAACTAGCTTCTGTATATGAACAAGTACGCGAAAACGGAGATGACATACGCACAGAGAAATTAATTGAGCTCTACGATAAATATAAGAGACAGGAACTCACGATCTGTTTTGCTGGGCATTTTTCTGCTGGGAAATCATCGATGATTAATGCTTTGCTTGGGCAAGATATTTTACCAAACAGCCCAATTCCAACAAGTGCAAACATTGTTAAAATCACATCTGGCAAGGGCAGCATTAGGGTGTATTTTAAACATAGTGATCCAGAAGAATATAAAGAACCGTTTAATTTGGAAGTTTTAAAACAATATTCCATGGATAAGGATAATATCCAAGAGATTGAAATTAGTACATCTGAACAATTGCTTCCTTCCAATTCTGCATTTATTGATACGCCTGGTATTGATGCTGCAGACGATGCAGATCGATTAATGACAGAGGGTTCCCTCCATCTAATGGATGCATTGTTTTATGTGATGGACTATAATCATGTGCAATCAGAAGTGAATTTACAATTTATGCGTAATGTTCAACAAAAGAATATTCCGTTTTACATCATCATTAATCAGATTGATAAACATAAGGAGTCGGAATTAACATTTGCTAGTTTTAAAGAGAGTATTAAGCAAACTTTTGATCTATGGGAAATTAAACCAGAAAAAATCTTTTACACTTCCTTATATGAACCGGAGTCGAAGCATAACCAATTTACCGAGCTTCAAAAGGCCATACAAGAATTGTTGACTAGTCGTAAACAAGCGTTATTAGATCGTAAACACCATATAGATGACATCATTACACAACATGTTGATTTTCTTCAAGAACAATATGAAGAAGCATTGGAAAACGACTATGTTACGAGTGAGCAACAGGAAAAGCTTGCAAAAAAATCAATCATAGTAGATGAGTTATCAGCACTTGAACAGAGGGAAGCTGATTTTAAAGCAGATTTTTATAGCATTTTACAAGAAACGGTAAAGAATGCTTATTTAATGCCAGCAACACTAAGAGATAAAGCTACTTCTTTTTTAGAATCTCAACAAAGCGATTTTAAAGTTGGTTTTATTGGGGCGAAAAAGAAAACAGAGGAAGAGAGAAAAAAACGATTAACTGAATTTGTATCTGATTTACAGCAGAATGTAGAGGCTGGATTACAATGGAAACTTCGAGACAAATGGCTCCAATTGATAAAAGCGTATAAAGTGGATGATGGACAAGTCCAACATGATTTACAGCAGTTTACGATTGCTGTTAAGGAAGAAGACCTTATAAGAACGATGAAACAAGGAGCGACACTTAATGGTGATGCGATCCTTCATTATACCAATGATGTGGCGCATGAAATAAAGAAGCGAGCAAAACAATTAGCACATACTTTATGGAACCAAATTGAGCAAGCTTTTCAAGCTGAGGTGGCTCCTGAGCGTTCACGATTGAAGCAACAATTAACAGAAATCAATTATATTCAAGAAAAATCAAACCATTATTATGCATTAGTAGATGAATTAGAACAAAAGCAAACGATGGTTAGACAGGATCGTTATCATAAGTCTGCTACTGTGAAAATGACAATTGTAGAAATAGAAGAACATGTATCAAAACAAAAAAAACGTATAAAATTTGCAAGTGAGCCAGCACTATTTAAGCGGGAAAACATCCCTGACAAGCTACTAACCAAATCGAGTCAAACAACAACGGAATTAACAGAAGAAAAACAACCAGTGGATAGGGCTATAAAGGCTATTGAACAGACCTTAGATACGGTTAAAAACTTACCAGGCTTTCAATCACTTATAGAAGATTTATCTCGTAAACAACAACGATTACAACATCGCACATACACGATTGCTTTATTTGGCGCTTTTAGTGCTGGAAAATCTTCATTTGCGAACGCACTCATGGGAGAAGCTGTTTTACCTGTGTCACCAAATCCAACCACTGCTACTGTCAATCGAATACACCCAGTGACAGATAAAAATCAGCATGGGACGCTATTGGTACAATTAAAAACAAAACAAGAATTAGTGAAAGAAATAACGTCGATGACAAAAAAATTTTCACCAGTTGCAAATGAACTAGAAGAATTGATTACTTGGATTACTAGGGAACAACTTCATCATCACCCAGACTTAGAAAACACGTATCAATCATTTTTGCAGGCTCTTTTAAGTGGTTTCGATTCCATAAAGGATGACTTAGGTGAAGAAATTATTTTATCTATAGAAGCATTTCCTAGCTATGTGGCAGATGAGACAAAAGCTTGTTTTGTTGACACGATTGATCTTTTTTACGATTGTGAATTAACTAGACAAGGAATCAGCCTTGTTGATACACCTGGAGCAGATTCTGTTCACGCCAGACATACAAATGTTGCCTTTAATTATATTAAACATGCAGATGCAATTCTTTATGTAACCTATTATAATCATGCACTGAATCGAACTGATAAAGATTTTCTTATGCAATTAGGTAGAGTAAAGGATGCTTTTGAATTAGATAAAATGTTTTTTGTCGTTAATGCAGCCGATCTAGCAAAAGACAAAGCGGAATTATCGTTAGTTTCCACATATGTAAAAGAACAGCTAACGCAATTAGGGGTTCGTTTTCCTCGCTTGTATCTTGTCTCTAGTAGGAAAGCATTAACGGAAAAGCAAATGAATCATCGTCCTGATGAGCTTATGAGTAAGTTTGAAGACGATTTTTATCCATTTATCCATTACGGTTTAACGAAATTGGCTGTAGCTGCAGCTTACCGAGATGTGGAACGTATAGAGCAACAACTTCAACAATTTATAGCATCACAAAAATTGGATCAACAAGAAAAAGAGGCGTTCAAAAACGCCATTGAACAAAAACGCCAGCAAATAGAACAGATCATTGATCGTATGAAAGGTACAATAGAAATAAATCAAGTGAAACAAAAAGTGGAAAAACAAATATACTATGTTTTGGAGCGATTTTCCATTCGCTTCCATGATATGTTTAAAGAAACATTCAATCCAGCAACAATTACGGAATCCGGTAAAGAAGGGCGGCAACAGGTTTGGATTTGTCTACAAAACTTGGTTGATTACTGTCAAGCTGAATTGCTTCGAGAGTTACAAGCTGTATCGTTACGTTTAGAGGCATTTATGAATGATAAAATGTTAGAAGTATATCGATCTGCAGAGAAACAAAGTCAAAAAATTGATCATTCATTTTTGCTTGCAGAAATAGACCGAAAGAAAATTGCTTCACCTGATTTTATCAAGCCTTTAAAAAATGTTAACTTGCAAACTTTTGCTCAAGTTGTTCAATCATATAAACACACAAAAGCTTTCTTTGCTAAAAATGAGAAGGAACAAATGAAAGAGACTATCTTTGAATTACTTAAACCAGTAACGAAACAATCTATGGATGAGCATGAACAAATGATGGCCGCTTTTTATGAGGAAGAGTGGACAGTAATTATAGAGGAATTAAAACAGACTATGGCTAATCAACTCCAAAAACATATGGAAAGTTATGAAGAGATGATGTCATCAAACGTTTCGTTGCAAGAGTTATTATACAAACGTGATCATATATCTGCTATATTAGCAGATCACAAATAG MEKETAPRFVYQLASVYEQVRENGDDIRTEKLIELYDKYKRQELTICFAGHFSAGKSSMINALLGQDILPNSPIPTSANIVKITSGKGSIRVYFKHSDPEEYKEPFNLEVLKQYSMDKDNIQEIEISTSEQLLPSNSAFIDTPGIDAADDADRLMTEGSLHLMDALFYVMDYNHVQSEVNLQFMRNVQQKNIPFYIIINQIDKHKESELTFASFKESIKQTFDLWEIKPEKIFYTSLYEPESKHNQFTELQKAIQELLTSRKQALLDRKHHIDDIITQHVDFLQEQYEEALENDYVTSEQQEKLAKKSIIVDELSALEQREADFKADFYSILQETVKNAYLMPATLRDKATSFLESQQSDFKVGFIGAKKKTEEERKKRLTEFVSDLQQNVEAGLQWKLRDKWLQLIKAYKVDDGQVQHDLQQFTIAVKEEDLIRTMKQGATLNGDAILHYTNDVAHEIKKRAKQLAHTLWNQIEQAFQAEVAPERSRLKQQLTEINYIQEKSNHYYALVDELEQKQTMVRQDRYHKSATVKMTIVEIEEHVSKQKKRIKFASEPALFKRENIPDKLLTKSSQTTTELTEEKQPVDRAIKAIEQTLDTVKNLPGFQSLIEDLSRKQQRLQHRTYTIALFGAFSAGKSSFANALMGEAVLPVSPNPTTATVNRIHPVTDKNQHGTLLVQLKTKQELVKEITSMTKKFSPVANELEELITWITREQLHHHPDLENTYQSFLQALLSGFDSIKDDLGEEIILSIEAFPSYVADETKACFVDTIDLFYDCELTRQGISLVDTPGADSVHARHTNVAFNYIKHADAILYVTYYNHALNRTDKDFLMQLGRVKDAFELDKMFFVVNAADLAKDKAELSLVSTYVKEQLTQLGVRFPRLYLVSSRKALTEKQMNHRPDELMSKFEDDFYPFIHYGLTKLAVAAAYRDVERIEQQLQQFIASQKLDQQEKEAFKNAIEQKRQQIEQIIDRMKGTIEINQVKQKVEKQIYYVLERFSIRFHDMFKETFNPATITESGKEGRQQVWICLQNLVDYCQAELLRELQAVSLRLEAFMNDKMLEVYRSAEKQSQKIDHSFLLAEIDRKKIASPDFIKPLKNVNLQTFAQVVQSYKHTKAFFAKNEKEQMKETIFELLKPVTKQSMDEHEQMMAAFYEEEWTVIIEELKQTMANQLQKHMESYEEMMSSNVSLQELLYKRDHISAILADHK NA NA NA NA NA AK015_03407 864 ypcP COG0258 5'-3' exonuclease TTGAATAAACATCAAATAATGCTAGTTGACGGCATGGCGCTATTATTTCGAGGTTTCTTTGCCACAGCTTTTCGTGGTAATTTCATGAAGACAAGTGAAGGGATGCCAACAAATGGGGTTTATCAGTTTTTGCGCTATTTTTTAGACGCTGTGCACACATTTGAACCTACGCATGTTATCTGCTGTTGGGATATGGGGAGCAAAACTTTTAGAACGGAAATGTACGCTGATTATAAAGCGAATCGGGATAAACCACCAGTTGAATTAATACCGCAATTTGACTTAGCAAAACAAGTTGTAGATCATTTTAATATGCCAAATATTGGTTTAGAAAATTATGAAGCAGATGATTGTATTGGAACCCTAGCTAAGATATATGCGAAAGATCACGAAGTAACTATTCTTACAGGTGATCAAGATATTTTACAACTAGTGGATGATGGTATCCGCGTGGCAATTATGAAAAAAGGACAGGGAAATTACGATTTATTTCATCAACATAATTTCTATGAGAAAAAAGGTATTCAACCGAAACAGATAATTGATTTAAAAGGATTAATGGGAGACCCTTCTGATAACTACCCAGGTGTTAAAGGCATCGGTGAAAAAACAGCGTTGAAATTAATTCAAGAACATGGATCTATTGATGCGTTAATTGCAAATATAAATACATTGCCAAAAGGTGTACAAACAAAAATAAAAACAAATATGGATATGTTGCTCTTATCAAGAAGCCTTGCTGAAATAAAGTGCAATGTTCCCATTACGTGTGAACTAGACCAAGCATTATGGAATTATGATCGTGAACGAATAATTGGCACCTTCGAATCTCTAGAATGGAAGTATTTAGATAAGCTTGTATAG MNKHQIMLVDGMALLFRGFFATAFRGNFMKTSEGMPTNGVYQFLRYFLDAVHTFEPTHVICCWDMGSKTFRTEMYADYKANRDKPPVELIPQFDLAKQVVDHFNMPNIGLENYEADDCIGTLAKIYAKDHEVTILTGDQDILQLVDDGIRVAIMKKGQGNYDLFHQHNFYEKKGIQPKQIIDLKGLMGDPSDNYPGVKGIGEKTALKLIQEHGSIDALIANINTLPKGVQTKIKTNMDMLLLSRSLAEIKCNVPITCELDQALWNYDRERIIGTFESLEWKYLDKLV NA NA NA NA NA AK015_03408 642 tcyN COG1126 L-cystine import ATP-binding protein TcyN ATGGCATTGTTTCGAGCGGAAAATATAAAAGTGAAGGGAATTATTGAAATAAACAAACTAGAAATCCCTGCCCAACAAATTGTTTGTATCGTTGGAAAGAGCGGAAGTGGGAAATCGACTTTTTTACGATTGTTAAATCATTTGGATTCGCCTGACGAAGGGACTATTTTCTATCAAGGAGAAAACATGCAGAAAATGAATCCGATCGAGCTTAGGAGATCGATAACTATGGTTCCACAAACTCCAGTCATATTTTCAGGCTCCGTAGAAGACAACTTAAAAATTGGACAGAAATTATCTGGTATAGATGTAGTAAATGAGTTAAAACTTAAAGAGACTTTAGAAAAGGTTTTTTTACATAAATCATTAGACGCTCCTGCTGAAGATTTATCAGGTGGCGAAAAACAACGGCTTGCATTAGCAAGAGCTATGTTACTACAGGCAGATGTTTTTCTTTTAGATGAGCCTTCCTCTGCATTGGATAGCGATACGGCAGCTAAGGTTATTGATGTGTTTATCGAATTTATTAAAACACAAAACAAATCTTTAATTATGATTACGCATGATCTTGAGTTAGCGAGACGTGTAGCAGATGTGACCATTGAAATGGACCAATATAGCAAAACGTCTCTTAACAGTTAA MALFRAENIKVKGIIEINKLEIPAQQIVCIVGKSGSGKSTFLRLLNHLDSPDEGTIFYQGENMQKMNPIELRRSITMVPQTPVIFSGSVEDNLKIGQKLSGIDVVNELKLKETLEKVFLHKSLDAPAEDLSGGEKQRLALARAMLLQADVFLLDEPSSALDSDTAAKVIDVFIEFIKTQNKSLIMITHDLELARRVADVTIEMDQYSKTSLNS NA NA NA NA NA AK015_03409 795 fetB COG0390 putative iron export permease protein FetB ATGAGCGAGCCAAGTTCTATTGATTTAACTTTTTGGCAATTACTATTCGCATATGTTTTTATAGTTATTTTATGGATTATCGTTCGTGTGAAAGGTATCCCGAGGCAAAAATTAATTGTCATTTCCACAGTACGGATGACAGTACAATTGGTTTTAGTTGGTTATTTATTAATGATTGTGTTTGAAAATCCGCATCCAGCGATCACTTTAGTCATTGTTTTATTTATGCTTGGATTTGCTATCTATAATGTGTATAAACGTGCAACCGTAGCCATTCATATATCTGTTAAAAAGACGATTGCGTTAGCTATGGTATTAGGCATATCTGTAAGTATGGCTTATTTTTTATTCGTTGTTCTTCAATTAGATCCTTGGTATGATCCACAGTTATTTATTCCGATTGGTGGCATGATCATCGGTAATGCGATGACTGGTATTACTTTAGGTGTAAACCAATTGCTTATTGGTATGAGAGAACAAAAAGAAAAAGTAGAAGCAGCTTTAATGTTAGGTGGAACGCCAAAAGAAGCATCCAATTCGATTATTAATGAAGCTTTTGATTCTGCACTGCTTCCAACTATTAATTCAATGGTCGGTATGGGAATTGTATTCTTACCTGGTATGATGACAGGACAAATTATTGCTGGAGCATCACCTGTCAGTGCTGTGAAGTATCAGATTGCAATTATGCTTGGTGTAGCAGGAACTGTTTCAATTACTGTTGTAATTTTTCTCCATTTAACATACAAAGCGTTCTTTAACCATCGTGCACAATTGAAATTTTCTGATGACTAG MSEPSSIDLTFWQLLFAYVFIVILWIIVRVKGIPRQKLIVISTVRMTVQLVLVGYLLMIVFENPHPAITLVIVLFMLGFAIYNVYKRATVAIHISVKKTIALAMVLGISVSMAYFLFVVLQLDPWYDPQLFIPIGGMIIGNAMTGITLGVNQLLIGMREQKEKVEAALMLGGTPKEASNSIINEAFDSALLPTINSMVGMGIVFLPGMMTGQIIAGASPVSAVKYQIAIMLGVAGTVSITVVIFLHLTYKAFFNHRAQLKFSDD NA NA NA NA NA AK015_03410 558 hypothetical protein TTGAAACAAATTTTATTAATCATTGATGCACAACAAGAGCTAATAGAAGGAAACAAAGAATATGGAGCCGTTTTTTTAAAAGAGGAATTAATTAGAAATATCAATAGCGTCATTGAAAAATCAAGTAAATTAAATATTTCTGTTGTCTTTGTTAGGGATTTAGATGTTGCAGAAGGCAAAGGGAAGGGTTTTCAAGTGCATGAAGAAATCCATATACCTAAAAATGCAACATTCTTTGATAAAACCGCAACAAATTCTTTCTATGGAACTGGACTTTTAAATTACTTTAAATCTGAAGAAATTGAACATGTAGTTATGATGGGGTGTACGACCCAGCATTGTATTGATAGCGCAGTCAGAACAGCTACGATTAATGGGTTAGATGCTACATTAGTAGGTGATGGACATTCTACAACAGGAAGCGATATTTTACATGCAGAGCAAATTATCCAGCATCATAATAATACTCTGCATGGACATTACAATGTTGAAAACTTTTCCATTGTAAGAAAAACAGAGGAAGATTTGTTTCATCCAACACATCATTTATATAGGTGA MKQILLIIDAQQELIEGNKEYGAVFLKEELIRNINSVIEKSSKLNISVVFVRDLDVAEGKGKGFQVHEEIHIPKNATFFDKTATNSFYGTGLLNYFKSEEIEHVVMMGCTTQHCIDSAVRTATINGLDATLVGDGHSTTGSDILHAEQIIQHHNNTLHGHYNVENFSIVRKTEEDLFHPTHHLYR NA NA NA NA NA AK015_03411 426 hypothetical protein ATGGTGTTTCCTTCCAAGAAGGATCAATGGATTACTGTTCTCTTATGGGGGATTTCTATAATAGGATTTTTTATACCGATAATTACAGGAAACGGGTTGTCTATTTTACTAATCCTTCCTTTAATTGTGTTCTTATTATGGTTTTGGTTTGCCACGGATTATCGGATTATTGGTGAAAAACTTAAAATTCGCTATGGGCCTGTTCGTCAAACGATAAATATAAAAGAGATTGAAGTCGTTTTTCAAGCGAAAAAAAATCCTTTAGCTGCTGCGCCAGCTTTATCACTTGACCGAATTGTATTGCATTGTGGAAAATTTAACGTAACAAGTATATCACCGCTAGACAAACAACAATTTTTACAAGCACTTATTGCTATAAACCCGCATATAAAAATGGAAAAGTCGTTGAAACAATCACTTTCTTAA MVFPSKKDQWITVLLWGISIIGFFIPIITGNGLSILLILPLIVFLLWFWFATDYRIIGEKLKIRYGPVRQTINIKEIEVVFQAKKNPLAAAPALSLDRIVLHCGKFNVTSISPLDKQQFLQALIAINPHIKMEKSLKQSLS NA NA NA NA NA AK015_03412 921 cysK_2 Cysteine synthase ATGCGTGTAGTAGAAAATATTAGTCAATTAATTGGAAACACGCCAATGTTGAAATTAAACAAACTTGTTCCTGACCATGCTGCAGACGTATATGTGAAACTAGAGATGTATAATCCCAGTAGAAGTGTAAAAGATAGAGCCGCGTATAATATGATTAAAGTAGCGGAGGAAAAAGGATTATTGAAACCAGGTGATACTATTATTGAACCTACGAGTGGAAACACTGGCATTGGATTAGCAATGAGTGCGGCGGCAAAAGGGTATAAAACGATCATTGTCATGCCCGATAATAGTACTGCTGAACGAAGGAATATTCTTAAAGCTTATGGTGCAGAAGTTGTTTTAACGCCTAGTGAAGAAAAGATGCCTGGTGCAATAAACAAAGCGTTGGAGTTACAAAAAGAACATCCTGGAAGTTTTATTCCACAACAATTTGAAAATATGGCCAATCCGGATATTCACAAAACAACAACGGCTTTGGAAATACTTGAGCAAATGGAAGGTGAGCTAGATGCTTTTGTATGTACTGCAGGAACTGGAGGAACAGTAACTGGTACAGGTGAAGTATTAAAAGAAAAGCTTCCACACATCCATATCGCTGTAGTAGAACCAAAAGGATCTCCTGTTTTATCAGGAGGAAAGCCTGGTAAGCATAAGCTTGTCGGCACAAGCCCTGGTTTTATACCAGAGATTTTAAATACGTCTATTTACGATGAAATTATGCAAATTGCAGATGATGATGCAGTTCAATTGTTTAAAGAACTTGGACAAAAAGAAGGCATTTTTATTGGTCTATCAGGTGCTGCTGCGGTATATGCAGCTATCCAAACAGCTAAGCGTCTTGGAAAAGGAAAGAAAGTTGTTTGTATTGCTCCGGATTCTGGAGAACGCTATTTAAGCATGAATTTATTTGCGGAATAA MRVVENISQLIGNTPMLKLNKLVPDHAADVYVKLEMYNPSRSVKDRAAYNMIKVAEEKGLLKPGDTIIEPTSGNTGIGLAMSAAAKGYKTIIVMPDNSTAERRNILKAYGAEVVLTPSEEKMPGAINKALELQKEHPGSFIPQQFENMANPDIHKTTTALEILEQMEGELDAFVCTAGTGGTVTGTGEVLKEKLPHIHIAVVEPKGSPVLSGGKPGKHKLVGTSPGFIPEILNTSIYDEIMQIADDDAVQLFKELGQKEGIFIGLSGAAAVYAAIQTAKRLGKGKKVVCIAPDSGERYLSMNLFAE PGPT0002810_6662 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 AK015_03413 663 hypothetical protein ATGAAAAAGACTGCTTATATTATTAGTGTTTCTAGTCTAATATGTGCCTTACTTGCCTTTGTGGAGCATGGAATGGATGTTAATTATGTTGTTAAATCATTAAGCAAAATGACGTTATTTTCTCTTGCGATATGGTTATACACTCGTTTATTTGGCGATTTTCGCTTTAAAGATGTTCTAACTTTAGATAAAATGAATAGAAGAGATTGGTTGCGTTTACTTTTCCTTGGAGCATTATCTGCTTCCATCGTTTTAGCTGCTTATTTGTTGCTATCTCCTTATTTCTCAGTTAGCCAAATCAAGCAAGATATAACTGGAAGATTAGGTATAAGCGCCACGGGGTTTATTTTCGTTGGCATCTATATTACTTTTATTAATTCTTTGTTAGAGGAGTACTTCTTTCGCGGGTTTATTTTCTTTCAATTACCCAGGAAAATCGGATACTTTTTTAGCCCTTTGCTATTTGCAACTTACCATATTCCCATGATTGCCTTATGGTTTAGCCCTAGTTTAATTATCACTTGTTTTGTAGGACTTTGGGGGGTCGCGATAGTTTTTCATAAGGTAAATGAGAGAAACCAGACAATTTGGTTTTCGTGGATCATCCATGTATGTGCCGATATTATGATTATTGCCATAGGTATAACGCTATTCTATTTTTAA MKKTAYIISVSSLICALLAFVEHGMDVNYVVKSLSKMTLFSLAIWLYTRLFGDFRFKDVLTLDKMNRRDWLRLLFLGALSASIVLAAYLLLSPYFSVSQIKQDITGRLGISATGFIFVGIYITFINSLLEEYFFRGFIFFQLPRKIGYFFSPLLFATYHIPMIALWFSPSLIITCFVGLWGVAIVFHKVNERNQTIWFSWIIHVCADIMIIAIGITLFYF NA NA NA NA NA AK015_03414 924 hypothetical protein ATGAAAGCGTTTTTGACCAGTTTGTCCGCTCTTATGTTGGTTGGTTTAATTATTGCTACAATTATCTATCAGCAAAGTAATCAAACCACTTTAATGATGGATACTGATGAAACAGATCATTCAGAAGGAGGTAATCCTCATGAAAATGGTAATATAACGGATTCATTAGTCACAGATCAGGTTGTCGATCATGCTATAGACAATGAAAAACTGTTTATAACCTATAACAAAGGGGAGAATTGGATCCGTGTTCCGATAGAAAGAGATCCTTTGTTTGCTGGAGATTACAATGGAAGGAAGGATGAACTGATTCCGCAAAGTTACATCCTTACTAAGGAGAGAACGGTATTTTTGCATCCGAAAGGAGAAAAGGACGTCGCAATAACATACTCCTTAAACAAAGGGGAATCATGGAACACATCAATTATTGTTGATAATTATGGAGTTATTCGATTTCGGAAAATAGCATTTTTGAATGATGATTTTGGTTATGCCATTCTTTCAGGTAATCGAACTATGTCTCAGGAATATTCCAGTGTCCATCTTACTTTTGACGGCGGTAAAAGCTGGAAAAAAACATCAAGGCCTAATATTTCAAGGTTAATTGCAGATGGGGGCTTTGTTGATGAACGGACTGGCTTTTTGTCTTATGGTACTATTAACCCTCAAGAGCCGCAGCTTTATGTGACGAAGGATGCTGGGCAAACATGGAAACAAGCAAAAGTTTATGTGCCAGATACATACACACTTCATTTTGTAATTGCTGAAACTCCTGAAAAAAATGGTAATGAGCTAACTATGCTAGTTAGGCAAGGGCCAAATGGGGATTATAAAGGTGGAAATGTAAAAGGTAAGTTTAAGTCAATGGACGGCGGAGAAACATGGGAGTTTGTATCGGAGGTGGATCCTGTTGAAACAGAGTAA MKAFLTSLSALMLVGLIIATIIYQQSNQTTLMMDTDETDHSEGGNPHENGNITDSLVTDQVVDHAIDNEKLFITYNKGENWIRVPIERDPLFAGDYNGRKDELIPQSYILTKERTVFLHPKGEKDVAITYSLNKGESWNTSIIVDNYGVIRFRKIAFLNDDFGYAILSGNRTMSQEYSSVHLTFDGGKSWKKTSRPNISRLIADGGFVDERTGFLSYGTINPQEPQLYVTKDAGQTWKQAKVYVPDTYTLHFVIAETPEKNGNELTMLVRQGPNGDYKGGNVKGKFKSMDGGETWEFVSEVDPVETE NA NA NA NA NA AK015_03415 861 hypothetical protein TTGAAACAGAGTAAATTACGTATAGCAGGTTGGCTGCTGTTTCTATTAGCGGGTCTGATATTTTGTGGCCAGATTGTTTTTTTATTTCTTCCTACTATTTATCCTCAGGTAGAATATACTGATAATCGTCTATTTTATTTTTTTAATATAAGCTTTGCTGTTTTTTTATCGTTAGCGCTTTTGTTTTTGCTAGGTCTGTCAAAGATGTGGAGGCTTTTTGTCGTTGTTTGCTTAGGGTTATTTGCAATTGTAAATACTTGGATGCTTGTTTCAACTAATCAGCAAGTAAGAAATATCATTAGCATTTCACCTAATTTTAAAGAAGTATTAGTTATAAAAAAGCAGACAAACACACAAACAGCTACATATTATCGTTCAAGATTCGGCATTTTGGCAATGCCTCACCAAACGCTTCCAGAAGACTTGAAAAGTTCACCCAAGATAAAGTGGCTAGCAAATGATATAGCGGCAGTTACTTACAAAACCTCAGATGACAATTTACAGCAATTTATAGCTACCTATGGAGATCGTGGGGATGGGACATCTTATTATGAAGTTGGAGCAGTTACGCGTGGTAAATGGCGTGGTGATGGAGTTGAGGTGATCAATCATCCAGAAGGAATTACCGTTATAACAAACGGCACTTCAGAGACATTTAGTTGGGAGGAGACTATTCAATACGGGACGCTTGCTATTGTTCTAATGAAAGAGAATCAAGCTGTATGGACGATCGCATTAGATAAAAATTTTGATGCTGAAGCCATTAACGATGGAAGACAACAAACAGGAAATATCATGTTATACAAAGCTACAATGAGTGACATAAAACCTATTGTTCTTGCAAAAGGACGATTAAAATAA MKQSKLRIAGWLLFLLAGLIFCGQIVFLFLPTIYPQVEYTDNRLFYFFNISFAVFLSLALLFLLGLSKMWRLFVVVCLGLFAIVNTWMLVSTNQQVRNIISISPNFKEVLVIKKQTNTQTATYYRSRFGILAMPHQTLPEDLKSSPKIKWLANDIAAVTYKTSDDNLQQFIATYGDRGDGTSYYEVGAVTRGKWRGDGVEVINHPEGITVITNGTSETFSWEETIQYGTLAIVLMKENQAVWTIALDKNFDAEAINDGRQQTGNIMLYKATMSDIKPIVLAKGRLK NA NA NA NA NA AK015_03416 519 speG_1 COG1670 Spermidine N(1)-acetyltransferase GTGGAACATGATTTACGATTACGGCCTTTAGAGGAAGAGGATTTACCATTTATTCATGAATTGGTAAACGACCCAATTATTATGTCTTATTGGTTTGAAGAACCATACTACTCGTTTGCAAGATTAAAGGAAATGTATGAAAAACATGCACAGGATGAGCATTTACGGAGGTTTATAGTAGAAAGTAAAGGAGAAAGAATCGGCTTAGTAGATATTGCTTATATTGATTATCTTGTTCATAGAAACGCAGAGTTTGAAATTATAATTTCTCCAAAACATCAAGGTAATGGCTACGCTCTTCCAGCTGCTCAATTAGCAATGGACTATGCATTTTCAACATTAAACTTGCATAAATTATATCTCATTGTTGATAAACAAAATGAAAAAGCTATTCATATTTATAAAAAGCTAGGATTTTATGTAGAAGCGGATTTAAAAGAAGAATTTTTTGTAAATGGAAGGTATCACGATGTGTTACGTATGTGTATCTTCCAACGTGACTATTTAAACAAATTATAG MEHDLRLRPLEEEDLPFIHELVNDPIIMSYWFEEPYYSFARLKEMYEKHAQDEHLRRFIVESKGERIGLVDIAYIDYLVHRNAEFEIIISPKHQGNGYALPAAQLAMDYAFSTLNLHKLYLIVDKQNEKAIHIYKKLGFYVEADLKEEFFVNGRYHDVLRMCIFQRDYLNKL PGPT0007790_932 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 AK015_03417 1137 pbuE_2 COG2814 Purine efflux pump PbuE ATGAAGAAGGTCTTAATATTATCATTTGGTATGTTTGCTTTGGGTTTTGATGCTTATATTGTTGCTGGGATAATTCCAGGAATCAGTGAAACGTATCATAAAGATGTATCACAAGTTGGGTTAGCTGTTAGTATATTTACATTGTTTTACGCTTTATCGGCACCAGTATTTGCATCTCTATTTGCCGGAAAGTCAGTAAAAAAGATATTGTTATATTCCATGCTAGTTTTTACTATTGCAAATATCATCACGGCAATCGCTCCGACTTTTACTATTCTTTTAGTATCAAGGGCTATTGCAGGGGCAGCGGCGGGATTATTTTCTCCATTGGCAATATCAGCTGCTTCAGAACTTGTTTCGATTGAGAAAAAGGGTAGAGCTATAGGTTTGACATTAGGTGGGATGAGTATAGGTATAGTGTTAGGTGTTCCCTTAGGTCTATATGTTTTTGACATGTTAAGTTGGCAAGCATCAATATGGTTATTAGTACTCATTGGAGTTGTCGCAATGTTTGGCATACTTGTATATTTACCATCTATTGAAACACCCACACCACCTGCTCTTTTTGAACGTTTAAAAATGTTTCTCGATAAAAAAGTAACGGTAACAGTATGTATAACTTTTTTTGCTAGTATCTCTAGCCTAGGATTATATACATATCTTTCACCATTAATAAAAGAATTTACAGGAACAGGTAATTTGATGATGTATCTTTGGGCATGGGGGTTTGGTGGGTTATTTGGAAGTTTAATTATTGGATATTTAATTGATTATTTTAAAAAGCCGAAAACATTAGTTACGATAATTTTATTAATCTTAACCTTGTCTATTACTTGTATTCCATTAATGATCAATCTACCTCTATTAAGATATTTGCCATTTTTTGTTTGGGGAGCAATGGGTTGGGCCTCTCAGGCACCGCAACAGCATATTTTAATGTCTTACCAACCGAATAATGGAAGTTCGGCAGTAGCTTTAAATAGTTCGCTTAATTATTTGGGTAGTTCAGTAGGTGCTACTTTAGGAGGGGGAGTTCTAGCATTTGGTTTCGGTGCTATATCATTAATATATTTTGCTGTTATATCTATGGTGTTTTCTATCCTTCTACAGTTTTATAGTGTTAAAAGTTTAAATTAA MKKVLILSFGMFALGFDAYIVAGIIPGISETYHKDVSQVGLAVSIFTLFYALSAPVFASLFAGKSVKKILLYSMLVFTIANIITAIAPTFTILLVSRAIAGAAAGLFSPLAISAASELVSIEKKGRAIGLTLGGMSIGIVLGVPLGLYVFDMLSWQASIWLLVLIGVVAMFGILVYLPSIETPTPPALFERLKMFLDKKVTVTVCITFFASISSLGLYTYLSPLIKEFTGTGNLMMYLWAWGFGGLFGSLIIGYLIDYFKKPKTLVTIILLILTLSITCIPLMINLPLLRYLPFFVWGAMGWASQAPQQHILMSYQPNNGSSAVALNSSLNYLGSSVGATLGGGVLAFGFGAISLIYFAVISMVFSILLQFYSVKSLN PGPT0028991_1772 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 AK015_03418 858 gltC_3 HTH-type transcriptional regulator GltC ATGAATTTAGATTGGCTGCAAAGTTTTACGGAGGCTGCAAAACAAAAGAGTTTTTCTAAAGCTGCAAGCATAAATAATATTTCCCAACCAGCTTTGAGTAAACATATTAAAAATCTAGAGATTAACTTAAACGTTAGACTATTTCATAGAACTCCAACTGGTATTACACTAACGGAAGCCGGGGAGCTTTTTTACAATAGAATTATGCCTATCATTGCAGAATTAACATTAATTCGTACAGATCTGCAAGCATTTTGTCGAAATAATCCTATTGTAATAGGTAGTTTGCCAAGCATAGCTACTTACTATTTACCGTTAAGAATAAAAGACTTTAAATTTATGGAGAGACCAGTTTCATTAATGCTTCAAAATACTTCCCATGAACTATTACAGTCTTTAAAGGAAGAGAGACTCGATGCAGTTTTTATAGAAGCAGAACATATCGATGAGTCATTATGGAGCAGCGAATTGTTTACAGAACAATACTATGCATTGTTTCCTTTAGATCATGAGTATAAATCTAAAAATAACGTTAAGCTTATCGAATTGTGTGGAGAACCATTAATTACTCATCAAGCCCCTTGTGATGTAAGGAGCCATATTGTACGTCAAATGGAATTAATTGGCTACCAGCCAAATATAGTAAGCGAAGTGTCTTTCGGTGATTTTATTTATGGTTCTGTGGCTACGGGAACAGGGATAACAATAATACCGGAATTATTGGCAAAAAACATCAATCATCTCAATGTTTTTTCTTTACCAATTGTTGATTTCGGAAGAACAAGAACGATATCTTTAGTAAGTAAAAATGAAAAACTCGGACCGATACTATATCAGTATATTAAAAACACGGACTAA MNLDWLQSFTEAAKQKSFSKAASINNISQPALSKHIKNLEINLNVRLFHRTPTGITLTEAGELFYNRIMPIIAELTLIRTDLQAFCRNNPIVIGSLPSIATYYLPLRIKDFKFMERPVSLMLQNTSHELLQSLKEERLDAVFIEAEHIDESLWSSELFTEQYYALFPLDHEYKSKNNVKLIELCGEPLITHQAPCDVRSHIVRQMELIGYQPNIVSEVSFGDFIYGSVATGTGITIIPELLAKNINHLNVFSLPIVDFGRTRTISLVSKNEKLGPILYQYIKNTD NA NA NA NA NA AK015_03419 1389 rlmCD_2 COG2265 23S rRNA (uracil-C(5))-methyltransferase RlmCD ATGGCGTACAAATATAATGACAATACTTTTATAATGGAAATAACGCAGTTTGATGCAAAAGGTTCTGGAAGAGCGGTTATTCAACGTGAAAACAAACAAGGTAAACGGAAAAAACAACACATCACCATTCCCTACACACTTCCTGGAGAAAGGGTGCAAGCGACACTTGTGCCTCCGTATCGAAATAGAGTTGCCAAGCCAGATCAAATTATCGAAGCCCATCCAGAACGCATCGAGCCAGCATGTCTACATTTTGGTAAATGCGGCGGCTGTTCTTGGCAGCATATATCATATGCAACTCAATTAAAGGAAAAAACTTCCCAAGTAAAACAATTATTAGAAGAGCAATACTTTGATTCCAATGTCGTACAATCAACAATTGGTGCAGATGAAGCTTGGTATTACCGAAATAAAATGGAATTTACATTTAATAAAGCAGGCGAGCTTGGTTTACATGAAAAGGGTAATTATCAAAATATTATTCCTTTAGAAACATGCTTCATTGCCAATCAGGAAATGGTGAATGCAACGATGGAAGTAGCTAAGTGGGCTCAAACACACAGGTTGTCAGGCTATGATAAAGAAACGAAAGAAGGGCTGCTCCGTCATCTCATGGTGCGTCATTCCCAAGCAACTGGCGAAATGATGCTCGCTCTATTCGCAACAGAAAGACCAGTTGAATCCTCTGCTTTGTCGGATCTTAAGGAACGCATAAAGGATAAATTTCCGTCTGTAACAAGCTTGCTTTGGTTGGAAAATCGGGATATTGCTGATAAAGTACAAGCGCAGCAAGTCCATGTTCTTGCAGGGCGAGATTTTATTTACGATGAATTGGCTGGTTATCGCTATCGATTGTGGTATGATACATTCTTTCAAACAAATCCGAAACAAGCGGAAAAATTAGTAGAATTAGCACTAGAAATGGCTCGACCTCAAGTAACAGATAAAATGATTGACTTGTTCTGTGGTGTTGGTACCTTTTCTTTACCGTTTGCAAGTCGTGTTTCACAACTTGCTGGAATAGAAATTGTAGAATCCTCCATTGCATCGGCAAAACGGAATGCCTCAGACAATGGTGTTCATAATACATTATTCTTAGCCCAGGATGCTCGCCACGGTCTTAGAAAGATGCTTGAAACATTTGGTAATCCTGATGTATTGCTACTCGATCCACCTCGGTCAGGAGCGGGCGGAAAAGTCATGCGTCGGATTGCGCGTTCAAAGCCAAAGCGCATTGTCTATGTATCTTGTAATCCAAGAACACTTGTTTCAGATATAAAAGAGTTTGTCCCATTTGGCTATCAACTAGAGGTGGTTCAACCGGTTGATTTGTTTCCACAAACGTATCATGTGGAGTGTGTGGCGTTGCTACAAAGAGAAACTATATAG MAYKYNDNTFIMEITQFDAKGSGRAVIQRENKQGKRKKQHITIPYTLPGERVQATLVPPYRNRVAKPDQIIEAHPERIEPACLHFGKCGGCSWQHISYATQLKEKTSQVKQLLEEQYFDSNVVQSTIGADEAWYYRNKMEFTFNKAGELGLHEKGNYQNIIPLETCFIANQEMVNATMEVAKWAQTHRLSGYDKETKEGLLRHLMVRHSQATGEMMLALFATERPVESSALSDLKERIKDKFPSVTSLLWLENRDIADKVQAQQVHVLAGRDFIYDELAGYRYRLWYDTFFQTNPKQAEKLVELALEMARPQVTDKMIDLFCGVGTFSLPFASRVSQLAGIEIVESSIASAKRNASDNGVHNTLFLAQDARHGLRKMLETFGNPDVLLLDPPRSGAGGKVMRRIARSKPKRIVYVSCNPRTLVSDIKEFVPFGYQLEVVQPVDLFPQTYHVECVALLQRETI NA NA NA NA NA AK015_03420 633 hypothetical protein ATGGAATGGTATTTAAAATTTATTTTAGTGGGGTTTTCCATTGCCTTGCCTGTTGGGGCGATTACTGTAGAAATGACGAAACAAGGCTTGAAGAATGGCTTCTTTCATGGGTGGGCTGTTGGCTTTGGTGGAATGACAATTGATGCGTTGCTGATTCTGGCGTTATACTTTGGTTTTGCGCAAATATTATCATTACCTTATGTACAACTACCTTTATGGGTGATTGGCGCAGTGTTTTTATTTATGCTTGCTTACGACTCCATTAAAAATGCGGATAAGGATATTACAATGGCAGGAGGGAAGGTAAATCGCTCCTTAGCAAAAACGTATCGGAATGGATTGCTAGTGGCTGTTTCTCCAGGAAATCTAGTTTTTTGGGTTTCCATATTCGGAGTCGTTTTAGCGGATTCTTACTCTCAATCAGGACAGGCTAGCTTCATTATTTCTGCTTTAGGTATATTAACAGGGATTCTTTTGCATGATGTTGGCTTGTTATCTGTGGTTTCCATTACCCGTAAAGTGATGAGCAGAGCGATGATTAAATGGACATCCGTGGTTGCAGGCGTAATGTTATTCGGTTTTGGTTGTTATTTTCTCTATGAGTTTTATGTGAATGTACAAAATGTATTGTAA MEWYLKFILVGFSIALPVGAITVEMTKQGLKNGFFHGWAVGFGGMTIDALLILALYFGFAQILSLPYVQLPLWVIGAVFLFMLAYDSIKNADKDITMAGGKVNRSLAKTYRNGLLVAVSPGNLVFWVSIFGVVLADSYSQSGQASFIISALGILTGILLHDVGLLSVVSITRKVMSRAMIKWTSVVAGVMLFGFGCYFLYEFYVNVQNVL PGPT0020651_763 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 AK015_03421 243 yqjY putative protein YqjY ATGGCAGCTATGTTACCGAAGCTATTTTTTGATCACTTTACAAATACAAGCTTTGTTGCAAAAATAGAGGGGGAGATTGTAGGCTTTCTTATTGGATTCCTCTCTCCGTCTAAAGCGAATGAAGCATACATTCATTTCATCGGTGTTCAACCTCAATATAGAAACCAACAAATTGGGAAATTATTATATAAGCGCCTTTTTACGGTGGCTAAACAACATAACCGTCAATTGTCCGCTGTGTAA MAAMLPKLFFDHFTNTSFVAKIEGEIVGFLIGFLSPSKANEAYIHFIGVQPQYRNQQIGKLLYKRLFTVAKQHNRQLSAV NA NA NA NA NA AK015_03422 831 hypothetical protein GTGTCTCCTGTTGTGCATAGTAGGTATGAACATACTGTAGGAGTGTGGAAGTTGGCGGCACTTTATTTTCCAAATCATGATGTCTTAAGGGCAGCAGCCATTTTACATGATATTGGTCATTTACCATTTTCTCATGCGGTCGAAAAACCATTAGATTACAATCATCATGCTCTAACAGAAGCATACATACAAGATGGGGAAATTGCTTCCATTCTCCATACTGCTGATTTACAGTCTGGAGATGTTGTGCAATATCTTCGTCAACCTTTTCCTTTAACAGGGACAAGGGAGGTTTTAGGTTTAGATCATTTAGATAGTTTTTTACGAGATACGTACATGAGTGGCAGAATGGAAGAATTGCCCAGTGAAGTATTAAAGCGAATTCATTGTTCAGATCGAGGTGTAGAAACAGATAAACAAACGGGTCTTCAATTACTTCGATTAATTATTCGAGATCATGAACTATTTCTTTCGCCCCTATTATTAGCAGTAGATCGGTTGCTAGCAGAAGCTATTTCGATTTTGTGGAACAATGGTGGGGGAAGTAAGGAAGCGTTCGCTAAACAAACGGATGCAGATGTCATTGCTATATTAAAGTCCTCGCAAAATTTGAAAGTGCGAGCTATTATCCATACTATTTTATACCATCCTGAGCAAATTCATGTACATCAAGCCACATCAGAACAAGGTATCCGTTGTGGCGTTAGAAAAGTGTATCAAAAAAGCCCTATTGCAAACGGAAGGACTTTAGCTGAAACTGTAGAAGGAAAAGCAATACTAAACCGTTTGGAGCAATTAAAAAAAGAATACGAGGTAAGTATTCCTTTATGA MSPVVHSRYEHTVGVWKLAALYFPNHDVLRAAAILHDIGHLPFSHAVEKPLDYNHHALTEAYIQDGEIASILHTADLQSGDVVQYLRQPFPLTGTREVLGLDHLDSFLRDTYMSGRMEELPSEVLKRIHCSDRGVETDKQTGLQLLRLIIRDHELFLSPLLLAVDRLLAEAISILWNNGGGSKEAFAKQTDADVIAILKSSQNLKVRAIIHTILYHPEQIHVHQATSEQGIRCGVRKVYQKSPIANGRTLAETVEGKAILNRLEQLKKEYEVSIPL NA NA NA NA NA AK015_03423 414 hypothetical protein ATGGAAATTCAATATTTAGAAAGTAGCTGTAATGATCAAGAGCAAATTACGGCTTTGTATGACAATGTAAAATGGACAGCATATACAGATGATGTTCCTAACTTAATGAAAGCGGTAGCACATTCACTATCTGTGATAACAGCATGGGATAATAATCATTTAGTAGGTCTCATTCGCGTCGTTGGGGACGGCTATACAATTATTTATATTCAGGACATTTTAGTAAACGAAGCGTACCAAAATCAAGGGGTCGGATCTGCATTAATGCAGCGGGTGTTGGATAAATATCGAGATGTGCGCCAAAAAGTCCTTCTGACAATAGATGAACCTGGTGTAAGAGCTTTTTATGAAAAACATGGATTCAAATCTTGTGATAAGAGCAGTTTAGTAGCTTTTGCCAAATTGCATGCATAG MEIQYLESSCNDQEQITALYDNVKWTAYTDDVPNLMKAVAHSLSVITAWDNNHLVGLIRVVGDGYTIIYIQDILVNEAYQNQGVGSALMQRVLDKYRDVRQKVLLTIDEPGVRAFYEKHGFKSCDKSSLVAFAKLHA NA NA NA NA NA AK015_03424 312 speG_2 COG1670 Spermidine N(1)-acetyltransferase TTGATTAATATAGATCAAAAAAATCGAAACGCAGAATGTATTATTGATATTGGTGAAAAAGATTATTGGGGAAGAGGTGTTGGTAAAGAAGCACTGAAATTATTGCTTGATTATGCATTCTTAGAATTAAATTTTCATCGTGTATCGTTGCGCGTATTTTCGTTTAATGAAAGAGCAATTCAATTATATCGTAAATTAGGATTCAAACCAGAAGGGGTAAGTAGACAAGCGCTGTTTCAAAATGGGAATTGGCATGATATGATCCATATGGCCATACTGCAACAAGAATATATGCTAGCGCAAGAAAGCTAA MINIDQKNRNAECIIDIGEKDYWGRGVGKEALKLLLDYAFLELNFHRVSLRVFSFNERAIQLYRKLGFKPEGVSRQALFQNGNWHDMIHMAILQQEYMLAQES PGPT0007790_759 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 AK015_03425 1488 hypothetical protein ATGAATAGAAAAAGAAGGCGAAGAAAATTAAAGAAGAGAGCATGGGTGCTCCTTGCCGTCATATTGCTTGGTATAGGCACTATCATTTTCTCCATTACAGGAGGAGATAGTTCGCCATCAGAGGCAAAAAAAGAAGCAGAACAGAATCCGCCCATGCTAACAAAAGACTCCGTGAAAGAACTAACCAAGCAAGCAGAGGACGTTTTAAAGCAAGTAGCATCATCAGGCGGTTCACCGGAAGCAATAGATGAACTAAGCCAGTTTATTAAACAATCCGAGCAAACCAAAGTGAATGATGAAGTGTTAGAAGATTATTGGCAACAACTAACAATCTGCTTGAAAGCGATTGCTTCCTATCAAGAACCAAAAACAGAGGAAAAAGCATTAGGAAAAGTATATCCGGCATACTTAACTGCATTAGAAAAACTAAAAGAAGCCCATCCGTCCTTAGACATGGAAGAAATTAATCCATACCATTGGTTTTATGCTGCAGCTGCCAATTATGAACAAGGACAACAGAAAGAAGGGCAAATAACGCTGAGCATGGTAGGAGATACTTCTTTCGGTACTTATCCTGAAGCTCCTGACCATTTACAATTTGATACGGTTTTTGAAAAGAATAATGGCGACAACCAATACGTTTTTAAAAACAGCCTGCCTTGGTTTCACTCCGATGATTATACCGTGATCAATGCAGAAAGTGCTTTTACGACAGAAGCGGAGGCACAAGATAAAAAGTGGCGTATAAAAAGTCATCCTACCTATGCAGCTTTTTTGCCAGCTAGCGGCGTTGAAGCAGCGAATCTAGCAAACAACCATACAATGGATTATTTTGAAGCTGGATATGAAGATACGTTGGAAGCTTTTAAGAAGCATGATGTTGCTGTGTTTAATGAAGATATGCCACTTACTAAAAACATCAACGGTATGGAAACAGTATTTCTAGGCTACGATTATCGATATAGAAAGTCCACGGACTCATACTTACAACATATTATTCAAGACGTGCAAACATATAAAAAAGAAGATAATTTAGTCATTGTGAACATGCATTGGGGAATTGAATATATGGAAATACCTGCTGCCTATCAAACAAAATTTGGACATGCCATCATTGATGCAGGAGCAGATATTATTATTGGTCACCACCCCCATCGTTTACAAAGCGTTGAAAAATACAATGGAAAATATATCATTTACAGCATGGGAGATTATGCTTTTGGTGCTGATCCAACATTAAAATCTAGACAGACAGCGATTTTCCGGCTTACGTTTGCCAAAGAAAATAATGCTGTTATCACAAAAGGACTACGCATTGTTCCAACGTTAGAAAATTCCAATGATAGCGAAACAGAAAATAATTACCAACCACTTCCGGTATTTGGAAAAGATGCAAAGGACATTGTTGACGAGTTGGTTAGAATTAGCAGCATTATTCCAAATGGTGTTACGGAATATGATTATTTTGATCCATTTCTGGACATGTAA MNRKRRRRKLKKRAWVLLAVILLGIGTIIFSITGGDSSPSEAKKEAEQNPPMLTKDSVKELTKQAEDVLKQVASSGGSPEAIDELSQFIKQSEQTKVNDEVLEDYWQQLTICLKAIASYQEPKTEEKALGKVYPAYLTALEKLKEAHPSLDMEEINPYHWFYAAAANYEQGQQKEGQITLSMVGDTSFGTYPEAPDHLQFDTVFEKNNGDNQYVFKNSLPWFHSDDYTVINAESAFTTEAEAQDKKWRIKSHPTYAAFLPASGVEAANLANNHTMDYFEAGYEDTLEAFKKHDVAVFNEDMPLTKNINGMETVFLGYDYRYRKSTDSYLQHIIQDVQTYKKEDNLVIVNMHWGIEYMEIPAAYQTKFGHAIIDAGADIIIGHHPHRLQSVEKYNGKYIIYSMGDYAFGADPTLKSRQTAIFRLTFAKENNAVITKGLRIVPTLENSNDSETENNYQPLPVFGKDAKDIVDELVRISSIIPNGVTEYDYFDPFLDM NA NA NA NA NA AK015_03426 708 bioD1 COG0132 ATP-dependent dethiobiotin synthetase BioD 1 ATGAAAGGGATATTTATAACCGGAACTGATACCGATGTTGGCAAAACAGTTATAGCTAGCGGAATTGCAGCAACTTTAAAGGAAAAGAAACTGGATGTTGGGGTATTTAAGCCGTTATTAAGTGGGATTTCACGTAATCATGCAAATAGTGATACGAGTTTGTTAAAACATATGTCGCAAACATCTTTAACTCATGCGGAAATTACGCCATATGAATTTAGTCAACCTCTCGCACCATCTGTGGCAGCACAACTGGAAGATAAAGAAATTTGTATGCAAGCTGTGTTAGACCATTGGAAAAAAATAAAAGATAGACACGATTTTTTTATCGTGGAAGGGGCAGGAGGTATTTCCGTACCTTTAGGAAAGGACTTTTTAGTTAGTGATTTAGCAATTGCTTTAAAGCTTCCCATTCTTATTGTGGCTAGACCAAATCTTGGAACGGTAAATCATACTTATTTAACGGTTTACTATGCAAAACAGGTAGGGATACCAATTGTAGGAATTGTGATAAATGGGAAGAGTAATCAGCCTAATATAGATGAGATAACCAATCCAAAGCTTATGGAAGATATGTGTGGGGTTCCTGTTCTAGGAGTGACTCCTAAGTTGAAAAAACTTACAGAAAGTGATGTGCAACATATGGTTGATACATCTTTAGATATCGAAGTATTGCTACGCCGTTTAATGGAAATTAGTCCTGTGTAA MKGIFITGTDTDVGKTVIASGIAATLKEKKLDVGVFKPLLSGISRNHANSDTSLLKHMSQTSLTHAEITPYEFSQPLAPSVAAQLEDKEICMQAVLDHWKKIKDRHDFFIVEGAGGISVPLGKDFLVSDLAIALKLPILIVARPNLGTVNHTYLTVYYAKQVGIPIVGIVINGKSNQPNIDEITNPKLMEDMCGVPVLGVTPKLKKLTESDVQHMVDTSLDIEVLLRRLMEISPV PGPT0022115_3497 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935 NA NA AK015_03427 1176 bioF COG0156 8-amino-7-oxononanoate synthase 2 ATGTTGTCGTTTGACGACAAGTTGCATAACAGAGTGAAAGAAATGCAAGAAAATTCGTTGTATCGTACGCTTCGAACGATGAAAACGGCATCGCAATCGGCAAGGATAGTAGATGGGGAAAAGAAAATAATCTTTTCCTCTAATGATTATTTAGGGCTGGCAAATGATAAGCGTTTGATTCATGCAAAGATAGAGGCATTGCAACAGTTTGGTGTTGGGAGTAGTGGATCAAGACTAACGACGGGTAACACGTATTGGCATGAGAAGTTGGAAAAAAAGATAGCAACATTTAAACAAACAGAGGCTGCACGATTATTTTCTAGCGGTTATTTAGCGAATATAGGTGTTTTATCTGCCTTAGCTGAAGCAGAGGACGTTATCTTAAGTGATCAATATAATCATGCTAGTATCATAGATGGTTGTCGTTTATCCAAAGCCAAAACGTGTATTTACCGCCATGTGGACATGAAAGATTTGGAAAGAAAATTAGCTGCTACCACAAAATACAAACAGCGATTTATTGTAACGGACGGCGTTTTTAGCATGGATGGTTCGATTGCACCCCTTGATCGCATGATGGAGCTTGCAGATCATTATCACGCATATGTTATTGTCGATGACGCCCATGCAACTGGGGTGCTAGGGCAAAGCGGAAGAGGGACAAGTGCGTATTTTGGTATCATGCCAGATGTAGTAATTGGCACATGTAGTAAAGCAATTGGGACAGAAGGTGGATTTGTTGCTGGCTCTAGTACATTGGTGGATTTCTTAAAAAACCATGCTAGGACGTTTATTTTTCAAACTGCACTTTCTCCTGCCATTTGTGCAGCTACATATACAGCAATAGAGCTGATAGAGCAGGATGCAAATAGGCGTGAGCATCTTCACTACAATATTAGAAAGCTGAAGGAAGGATTAAATGATATGGGATACGCTGTGAAAGGAGATCATACAGCAATTATTCCTGTCATTATAGGTGAGCAACAATTAGCGCTTGAATTCGCGAAAGAGTTAGAGGAAAAAGGAATCTATGCGCCGGCAATTCGTCCGCCAACAGTGCCTAATGGAGAAAGCCGTATTCGACTTACTGTAACCGCAAGTCATTCTATGCAAGAGATAGATGATGTATTACATGCGTTTTATATAATTGGAAAAAAGTGGGGAGCCCTTAGATGA MLSFDDKLHNRVKEMQENSLYRTLRTMKTASQSARIVDGEKKIIFSSNDYLGLANDKRLIHAKIEALQQFGVGSSGSRLTTGNTYWHEKLEKKIATFKQTEAARLFSSGYLANIGVLSALAEAEDVILSDQYNHASIIDGCRLSKAKTCIYRHVDMKDLERKLAATTKYKQRFIVTDGVFSMDGSIAPLDRMMELADHYHAYVIVDDAHATGVLGQSGRGTSAYFGIMPDVVIGTCSKAIGTEGGFVAGSSTLVDFLKNHARTFIFQTALSPAICAATYTAIELIEQDANRREHLHYNIRKLKEGLNDMGYAVKGDHTAIIPVIIGEQQLALEFAKELEEKGIYAPAIRPPTVPNGESRIRLTVTASHSMQEIDDVLHAFYIIGKKWGALR PGPT0022095_1982 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652 NA NA AK015_03428 1347 bioK COG0161 L-Lysine--8-amino-7-oxononanoate transaminase TTGCAACAAGAACTAATAGAAAAAAGTAAAAAGCATTTATGGCTACCGTTTACACAAATGAAGGATTATGATCTTGACCCTTTAATTATTGAGGAAGGGCAAGGAGTAAAGGTGAAAGACATCTATGGCAAGGAATATTACGACGGTTTTTCTTCCGTTTGGTTAAATGTACACGGTCATCGCAAGCAGAAATTAGATGAGGCAATTAAACAACAACTTGAGAAAATTGCTCATTCTACCCTTTTAGGAATGACCAATGTGCCTGCAACAGAATTAGCAGAAGAGCTTGTTAAAGTCAGCCCTGAAAATCTAACGAGAGTTTTTTATTCAGACAGTGGCGCTACGGCGATGGAAATCGCACTTAAAATGGCTTTTCAATATTGGATAAATATCGGCAGACCAGAAAAGCAGAAGTTTATTGCCATGCAAAATGGTTACCATGGCGATACTATTGGCGCTGTGAGCGTTGGTTCAATCGACCTTTTTCATCATATTTATGGGCCGTTAATGTTTGAAAGCTATAAAGCGCCAATCCCCTATGTGTATCGTTCTTCAAGTGGTGACCCTATACAATGCCGTGATACATGTCTGTATGAGTTAGAACAGTTACTTATGGAAAAACATGCAGAAATTGCGGCGCTTTCGATCGAGTCTATGGTTCAAGGAGCTTCTGGAATGATTGTGATGCCAGATGGATTTTTAGCAGGCGTACGAGAGATTTGCGATCAATATAATATCCTCATGATTGTAGATGAAGTTGCAACAGGTTTTGGACGGACAGGGAAAATGTTTGCTTGTGAACACGAACAAGTTCAACCAGATTTTATGGCGGTTGGAAAAGGTATAACAGGAGGTTATTTACCAATTGCTGCAACGCTAACGACAGAGGATATTTATCAAGCTTTTTATGACGATTATAATCAAATGAAGACTTTTTTCCATGGGCATTCGTATACAGGAAACCAGCTTGGATGTGCGGTTGCCCTCGAAAATATAACATTATTTAAGGAAGAGCAAATCGTTGAAAGTGTAGCCACTAAAGCAAAAGAGATGGGGAAAATCCTTCAGCAACTTTATGCACTTCCAACGGTAGGCGATGTGAGGCAGCTTGGCTTTATGTGCGGGATAGAACTCGTGGCTAATCAGGAGACAAGGGAGCCATTTTCTCCTGAAAAAAGAGTCGGTTACCTCGTATCTTTAAAAATGAGGGATATGGGTATGTTGACAAGACCAATTGGAAATACCATCGTTTTTATGCCACCGCTCGCTACTACCGTAGAAGAAATAGAAGCAATGGTTGGCATTATGAAAGCTGCGATTCATGAGGTGAGCCATGTTGTCGTTTGA MQQELIEKSKKHLWLPFTQMKDYDLDPLIIEEGQGVKVKDIYGKEYYDGFSSVWLNVHGHRKQKLDEAIKQQLEKIAHSTLLGMTNVPATELAEELVKVSPENLTRVFYSDSGATAMEIALKMAFQYWINIGRPEKQKFIAMQNGYHGDTIGAVSVGSIDLFHHIYGPLMFESYKAPIPYVYRSSSGDPIQCRDTCLYELEQLLMEKHAEIAALSIESMVQGASGMIVMPDGFLAGVREICDQYNILMIVDEVATGFGRTGKMFACEHEQVQPDFMAVGKGITGGYLPIAATLTTEDIYQAFYDDYNQMKTFFHGHSYTGNQLGCAVALENITLFKEEQIVESVATKAKEMGKILQQLYALPTVGDVRQLGFMCGIELVANQETREPFSPEKRVGYLVSLKMRDMGMLTRPIGNTIVFMPPLATTVEEIEAMVGIMKAAIHEVSHVVV PGPT0022110_64 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 AK015_03429 780 bioW COG1424 6-carboxyhexanoate--CoA ligase GTGGATAAACTATATAATTTGCGAATGAGGGCAGCTCAAGGTGGTAGTCATGAACAAGGGGGTACACACATTTCTGGCGGAGAGCGGATTACTCGTTTTTCTAATATTCAACAAGTTGCCATGTATTTATTAGAAAAGGGACTAACGCATTGCAAGGGAAGACCAGATTTTATGCAAATTCAATTAGAAAGTATTTCTGAGTCAGTAACATATGTGCAACCTTTAGAGAGGTGGACGAATGTAGAAAGATTTGTGAGAGAAGGAGATACCTTTTTAAAAGAAGGAAAAACAGTTGCTTTTCAACTGTTAGAAATAATAGGGATCCCTAAAAAAGTGATACACTGCGCGCTTAAAACTGTTTCACAATATTCCTCTATGCGAGGAGCTGTTTTAATAGATGCCCATTCAGGTAAACGCTTGGATGATCGAGGAGAAAAAGGAGTTCGGGTGTCTAGATTAGATTGGTTGGGCAATGATTTTGAAAAATGGGCACGTTATCATCATGTTTTCGCTAATTCTAGAATAAGAGAAGCGCTTGCGCTAGCTGCGAAAGTAAATAATCATCCTGCTACTATTGCAGAACTATGCTGGTCAGATGATCCCGATTATACGACAGGTTACGTTGCTAGTAGAAAAATGGGCTATCAGCGTATTGAAAATATAAAAACGTACGGAGATGAACGGGGTTGTAGAATTTTCTTTGTGGACGGGCAGAAGGACATACGCTCATACATAAATTACTTGGAAAATCAACCAGTATTGATTACATGGGAGGGATAA MDKLYNLRMRAAQGGSHEQGGTHISGGERITRFSNIQQVAMYLLEKGLTHCKGRPDFMQIQLESISESVTYVQPLERWTNVERFVREGDTFLKEGKTVAFQLLEIIGIPKKVIHCALKTVSQYSSMRGAVLIDAHSGKRLDDRGEKGVRVSRLDWLGNDFEKWARYHHVFANSRIREALALAAKVNNHPATIAELCWSDDPDYTTGYVASRKMGYQRIENIKTYGDERGCRIFFVDGQKDIRSYINYLENQPVLITWEG PGPT0022090_47 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022090-bioW-K01906 NA NA AK015_03430 870 hypothetical protein ATGCTGAAAAATCATGTTTCTTTTCATAAAAGCTTATTTCAGAGTAATTTATTCAAAAATACTGTCCCTCGTGAGACTACTATTAAGAATGCATCAAGTATTAAATTGGAAAAACAATTACTTTCAGATGTAGTAGATACGATAAGAATACCTAATCAAAAATTAACCATTAATAAGATAAAAACAGAGCAAAGCAAAAGTACAGAATTCGATAAATACTTTTCTTCGTTTTTTGAAAATCTAGAAGGGATATCTAAGGTTGAAAAGGATTATTTAACCAATTTAGTAAAAGAGGCATTGCGACAAAATGATGATTATTTTTCTAAGGGATGGACGAGTGATATAGAAAGTATGTACCATCTTCAAACTAAGGAAAAGTTAAATCTTATAGCTAAGAATATACCACATTCCTCTGTGAAAAATGAGTTTCTTGCAGTTGTGCAAGACTATACAAGTGCTAAGCTCGAGCAGACGGTTAATAAATCATTGGAAACATATGAGATTATATATAACCAGCATAAGGAAAAGAAAGGTTCGTATAGAAATATTGCTGATCGAATGTTGAATGCTATAAACAACATCCAGGAGGGAAAACACTTTGTTCAAAACGAGCAAAATCTGTATAGTCATTTATTTTTAAAATCAAACGTTATCTCCTTTCAGCATAAATATGAAGAGGTGATGAAGGGATATAAGCAAATACAAAAGAATCAATTTGGGGAATCGTGGAATGAGTTTTCCGAAATGAAGGTAGATGACACCATCCGTATGTTAAAAGAAAATTGGAATAATTTTGTAAACCAATTTGAAGCGTTCAGTGCCTATAGGCTTTCTTCCAACACACATTATAATGTTGATATGAAGATATAG MLKNHVSFHKSLFQSNLFKNTVPRETTIKNASSIKLEKQLLSDVVDTIRIPNQKLTINKIKTEQSKSTEFDKYFSSFFENLEGISKVEKDYLTNLVKEALRQNDDYFSKGWTSDIESMYHLQTKEKLNLIAKNIPHSSVKNEFLAVVQDYTSAKLEQTVNKSLETYEIIYNQHKEKKGSYRNIADRMLNAINNIQEGKHFVQNEQNLYSHLFLKSNVISFQHKYEEVMKGYKQIQKNQFGESWNEFSEMKVDDTIRMLKENWNNFVNQFEAFSAYRLSSNTHYNVDMKI NA NA NA NA NA AK015_03431 1197 hypothetical protein ATGATTAAAATACAAGGTAACACAAGATCGGTGTTAGAGAAAAGTGTAGGAGTTAAAAAGAATGAAGTTAAGCCTACTAAAGTATCTGATCAAGCTACCAATGATTCTCCTAATAATGCAGTTGCTATTGATATTGGGGGTGTATATAAAGATTATATAACAGAAGAAGGCCAGCAAAAGTGGTATCGCTTTGAAAATAGTATGGCAGGGAAGTTGACGGTTGTAATGCAGACAGTTCAATCTACATCTATTGATTATGATTTACACCTCTTTAAATTAAATGAAGAGACAATGACTTTAGAGGAAGTAGTTACTTCGAGCTATGGGAGTGGAAAAAATGAGCAATTGAGTAAATTAACTGAGGGAGGTATTTATTACATTGCGGTTAATTCTGTTTCTGGTGCAGATCCAAATTCACCGTTTGCCTTATTGGTACAACACTCCCCATCTTATGATCAGAACGAACCAGATGACAATATTTATCAAGCATCAGCTTATTTAAATAATATCTATTTGAGCCAAACAATAGATAATGGTTATGACATGGATTGGATAATTTTTCAAGTTGATGAAGAAAAAACGTTTACTGTTAATTTAAATAATCCTTCCTCAGCTAATTATCAACTTGATATATTTGATCCCGAACTAAATGCCCTCGCAGGTCTTGGCGATAATACAAATTATTCAATAGTATTTCCAGCAGGTACATATTTGTTAAGAGTTCAATCTACATCACTTGAACATGATGCTGATCAAAAATACACACTAGATATAAGAGAAAAGGCTAAAGAGGGAACGTCAGTTGTGATATCAAATATAGGTACAGATGATAATGTAGAGGGATATATTGATTATGGATACGGGTATAAATATCGTATTAAAAATTTCATCAATGTTAAGGGTCAATTATTTGATGAAAATGGTATTATTGTACCAAATGCCAATGTTGAAGCTCGTATAGTGGCTGTGCGAAACGATAAAGTTTATATGGAATCTAGTACTACAGATCGTAATGGTAATTTTATAATGGAAATTCCGTCTATTCAAGAGGCTGCAGGAAAGTATGCATACACTGCTCCTGCAAGTCATCACTATTTCGATATTATACCTATAGTTTTTCTATCTAATGGTAATGTATTAGATTCAAATGAAAATTCTCTCTACCATTTTGCTTATTCCACGTATCGCCCGCATTAA MIKIQGNTRSVLEKSVGVKKNEVKPTKVSDQATNDSPNNAVAIDIGGVYKDYITEEGQQKWYRFENSMAGKLTVVMQTVQSTSIDYDLHLFKLNEETMTLEEVVTSSYGSGKNEQLSKLTEGGIYYIAVNSVSGADPNSPFALLVQHSPSYDQNEPDDNIYQASAYLNNIYLSQTIDNGYDMDWIIFQVDEEKTFTVNLNNPSSANYQLDIFDPELNALAGLGDNTNYSIVFPAGTYLLRVQSTSLEHDADQKYTLDIREKAKEGTSVVISNIGTDDNVEGYIDYGYGYKYRIKNFINVKGQLFDENGIIVPNANVEARIVAVRNDKVYMESSTTDRNGNFIMEIPSIQEAAGKYAYTAPASHHYFDIIPIVFLSNGNVLDSNENSLYHFAYSTYRPH NA NA NA NA NA AK015_03432 906 alkA COG0122 DNA-3-methyladenine glycosylase ATGTCAGTAGAAAAAGAATGGAGTATTGCGGTTCCAGAAGCGTTTCAATTTCAAGAAAATCTACATTATTTAGCTAATGCAAACCATGAATGTATGTATCAAGTGATGAAAAATGAAGTAATAAAAGCAATAAAGATAGATGATGCGGTTTTTTTAATGGTGTTGCGTGAAGCAACGAATGGAGGATTGCTGGTTAAAGTTGTGAAAAGCTCTTGCGCTTTTTCTGAAGCATATCGCGATAAAATTACGACCTTTGTAAGTGAATGGTTCGATGTAAATACAAATCTAGCTGGTTTTTACAAAATCGCCTTGAAGGATCCTTATTTAAAGAGCCTTGTCCAAACTCATTATGGACTGCGGCTAATAGGAATTCCGAATTTCTTTGAAGCAATAAGTTGGGCAATTATCGGGCAACAAATTAACCTTTCCTTTGCTTATAAGTTAAAAAGAAGGATAGTAGAACGATATGGGACGTCTGTTCAATGGAATGAGAGATTGTTTTGGTTGTTTCCAACCCCGGAAGTGATTGCAAATATCTCTGTGTCCGAATTAACATCATTACAGCTATCTAAACGAAAAAGTGAATACTTTATTGATATGGCACGTGCCATTGTTTGTAACGAAATATCTAAGGAGAAATTACTTGCTACAAATAGTTTAGAGGAAGCAGAAAAAATGCTGACAGCATATAGAGGGGTTGGTTCTTGGACAGCCCATTATGTATTAATGCGATGTTTGCGTGTTCCTAATGCTTTTCCAATTGCTGACGTAGGATTGCAAAATGCAATCAAACAGGTGGTAGGATTAAAACAAAAGCCAACTAAAGAATATGTACGCGAAATAGGGACTAATTGGGCAAATTGGCAAGCCTACGCTACATTTTATTTATGGAGATCGCTCTATTAA MSVEKEWSIAVPEAFQFQENLHYLANANHECMYQVMKNEVIKAIKIDDAVFLMVLREATNGGLLVKVVKSSCAFSEAYRDKITTFVSEWFDVNTNLAGFYKIALKDPYLKSLVQTHYGLRLIGIPNFFEAISWAIIGQQINLSFAYKLKRRIVERYGTSVQWNERLFWLFPTPEVIANISVSELTSLQLSKRKSEYFIDMARAIVCNEISKEKLLATNSLEEAEKMLTAYRGVGSWTAHYVLMRCLRVPNAFPIADVGLQNAIKQVVGLKQKPTKEYVREIGTNWANWQAYATFYLWRSLY NA NA NA NA NA AK015_03433 567 adaA COG2169 Bifunctional transcriptional activator/DNA repair enzyme AdaA ATGACAAGTCCACTATCAGAAGAGCAATGGCAAGCTATTATAACGAACGACGCTGCTTTTGATGCTGTCTTTCTATACGGTGTTCGCTCAACGGGTATATTTTGTCGCCCCTCTTGTAAATCACCAAATCCTAAAAAAGAATTTATTCGTATCTTTCAAAATTCCCAGCAAGCGTTGACAGAAGGTTACCGTCCCTGTAAACGTTGCAAGCCATGTGACGAACATATGCCTGATGAGGAATGGGTTTTGCAAATAACACAGTTTATTGATACGCATTACGCTGAGCCATTGACATTAGCTCGATTAGCGAAACATTGTCATGGAAGCCCTTATTATTTGCAACGAACGTTTAAGAAAATGATGAAAATATCACCAAATGATTATATACAGCAAATACGCATTTCTCATGCAAAAAAACAGTTAATACAAACAGATAAATCCATTGCTGAAATAGGTATGAAAGTTGGTTTACCTAACACGCCTTACTTCATTACGCTATTTAAACAATACACCGGGAAAACACCCAAACAATTTCGATCAGCGTTTAAAACAAATGGATTAAACTAA MTSPLSEEQWQAIITNDAAFDAVFLYGVRSTGIFCRPSCKSPNPKKEFIRIFQNSQQALTEGYRPCKRCKPCDEHMPDEEWVLQITQFIDTHYAEPLTLARLAKHCHGSPYYLQRTFKKMMKISPNDYIQQIRISHAKKQLIQTDKSIAEIGMKVGLPNTPYFITLFKQYTGKTPKQFRSAFKTNGLN NA NA NA NA NA AK015_03434 501 adaB COG0350 Methylated-DNA--protein-cysteine methyltransferase, inducible ATGACCGTTTATTGGACAACTTGTAAACATGACACATGGGAATTTTATGCAGCTGCAACGGAAAAAGGATTGTGTTACCTAGGCCCGCGTCATTTAGCAAAAAATGAAATGGAGGTGTTTTTACAGAAGCAATTACCTAATGAGAGGATGGAGGAAAACGATCAGCCATTAATTCCCTATATAGCTGAACTACAAGAATATTTAAACGGGAACAGGAGGAACTTCGAACTTAAACTCGACCTTTATGGCACCCCTTTTCAGCAACAAGTTTGGCAAGCATTACAACAGATTCCGTTTGGACAAACAGTCACGTACTCTGATATTGCCAAATCTATCGAAAAACCAAAGGCAGTACGTGCTGTTGGAACAGCGATTGGAGCAAATCCGATTTTCATCATCGTTCCTTGCCATCGAGTTATTGGAAAAGATGGTGCCCTTACAGGATTTCGCGGAGGTTTAGATATGAAAGAGCGGCTGTTATTATTTGAGAAAAAGGTGTAG MTVYWTTCKHDTWEFYAAATEKGLCYLGPRHLAKNEMEVFLQKQLPNERMEENDQPLIPYIAELQEYLNGNRRNFELKLDLYGTPFQQQVWQALQQIPFGQTVTYSDIAKSIEKPKAVRAVGTAIGANPIFIIVPCHRVIGKDGALTGFRGGLDMKERLLLFEKKV PGPT0019595_2 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019595-pckA-K01596 NA NA AK015_03435 285 hypothetical protein GTGTTGAAAAAGAACATTGGTACCGAAGAAGCAATTAATAGATGGGATAGCTTTGCCAAATCGTATGCGGAAAATCATTCTGAACAAGGTGATTTACATAAAGAAGTGTTTTTAAACCCGACTTTATTCTCTTTATTGGGACCAGTTAATAACAAAAAGATTTTAGATGCTGGGTGTGGGGAAGGATATTTTAGCAGACTGTTAGCAAAATCAAAAGCAAAAGTAACAGCTGTAGACTATTCCACAAAAATGCTAGGTTTGATATTATTGTTTCAAACATGGTGA MLKKNIGTEEAINRWDSFAKSYAENHSEQGDLHKEVFLNPTLFSLLGPVNNKKILDAGCGEGYFSRLLAKSKAKVTAVDYSTKMLGLILLFQTW NA NA NA NA NA AK015_03436 843 hypothetical protein ATGAAAATAGAAACAGTGACTTGTAAAGGTGTCAGTGAATGTAATGAAGATGCCGTTATCATCAATGATAATATTTCAGTCTATGGGGTAGCGGATGGCGCTTCCTCTATCATACCTTTTTTTACGCAGGAGAACGAAACAGGCGGTTATATTGCCTCTAACCTAGTGAAAAATTATTATGAATCAATTCAACATTGCAATAGCTTTCTGGATGATTTTGCAAAGATAAACATGCAACTACAGACTAAAATGAAAGAATATCATATTGACACATCAAAAAAAGAACAATTATGGGGGACAGCACTAGCTTTAGTAAAGATTTCTCCAAATAGGATAGACTTTATCCAAACAGGCGACTGTATGATTTTTGCCGTTTATGATAGTGGATTTGTAAGAGTGCTAACAAGAGCGCAAACAGAGTTTTTAGAAGGAGTTGCCATAAATAAGTGGAAAGAGCTTATTGATAAAGGAATACATAAACAAAGAGATTTGAGGGAGGGTGTAGAAGACGTATTAATCTCCATTAGACAAAGAAGCAATACTTTTGCTGGTTATGGTGTGTTAAATGGCGAAAATGATGCAGTCGAATTTACTGAATTTGGGAAAATAAACAGAAACGGATTAAAGCATCTTGTGATGGTTACCGATGGGCTTTTTCTTCCAAAAGAATGGGTATCTGAACATGATTGTTATTGGGAGGCCATGATTAGAAAGATCTTTTCTAAAGGACTACAAGCATATGCAAATGATTTAATCGAGCTTGAGGCTACTGACCCGGAATGTGTAAGATATCCAAGATTTAAAATGTCAGATGATAAATCCGGGGTATGGATTACTTTTTAA MKIETVTCKGVSECNEDAVIINDNISVYGVADGASSIIPFFTQENETGGYIASNLVKNYYESIQHCNSFLDDFAKINMQLQTKMKEYHIDTSKKEQLWGTALALVKISPNRIDFIQTGDCMIFAVYDSGFVRVLTRAQTEFLEGVAINKWKELIDKGIHKQRDLREGVEDVLISIRQRSNTFAGYGVLNGENDAVEFTEFGKINRNGLKHLVMVTDGLFLPKEWVSEHDCYWEAMIRKIFSKGLQAYANDLIELEATDPECVRYPRFKMSDDKSGVWITF NA NA NA NA NA AK015_03437 99 hypothetical protein ATGGGGGAAAATCATGAGCACTATGAATTTGATTTACATGTTATTTTAGTACTACTTTTAGACTTGAAGAGTTTAAAAGAAGAGAAGCGAAAGAAATAA MGENHEHYEFDLHVILVLLLDLKSLKEEKRKK NA NA NA NA NA AK015_03438 567 hypothetical protein ATGAATAGAGGCGATCGGATGGATGAAACAATTTACGTTATTAGGCATTGTGAAGCGGAAGGGCAAGCAGCTGACGCACCACTTACAGAAAGAGGGTGGTTGCAAGCGAAAGAATTAGCTGGCTTTCTATCAGAACGAAAGGTTGATCGAATTATTTCGAGTCCATTTTTACGAGCGATTCAATCGATAAAGCCATTTGCAGACATTAAGAACTTAGAAATTGAACAAGAAGAACGTTTAACGGAACGTGTACTGAGTTCTACCTTTTTTTCAGATTGGATGGATAAACTGAAAGCGACCTATGATGAACTTGATTTAAAGTATGAAGGCGGAGAAACGAGTAATGAAGCAATGAACCGTATTATATCAGTAGTCGAGGATATTGTGGAAAGTCATGCTACACATACAGTTATTGTTGCGCATGGCGGGATTATCTCTTTATTACTGCATTATTATGATCAAAGTTTTGGATTTGAGCAATGGAAAGAATTAAGTAATCCTGATGTGTATGAATTAAACATTTCAGATCAGGCTACTCGTTATACACGTTTATGGGATAATAGATAA MNRGDRMDETIYVIRHCEAEGQAADAPLTERGWLQAKELAGFLSERKVDRIISSPFLRAIQSIKPFADIKNLEIEQEERLTERVLSSTFFSDWMDKLKATYDELDLKYEGGETSNEAMNRIISVVEDIVESHATHTVIVAHGGIISLLLHYYDQSFGFEQWKELSNPDVYELNISDQATRYTRLWDNR PGPT0018030_4126 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018030-gpmA-K01834 NA NA AK015_03439 573 pspA COG0406 Phosphoserine phosphatase 1 TTGCTTACGAACTTATACTTTGTTAGACATGCGCATTCTGTTTATACACCAGATGAAATGCGTAGACCGTTGTCAGAAAGAGGGTTCAAGGATTCAAAAGTCGTTACGGATCTACTTAAAAAAGAAAAAATCGATTGTGTTTTTGCCAGTCCGTATAAGCGAGCCATTCAAACAGTAGAAGGAATTGCTGCGTATATAAATCAAGAGATTATTATAGTGGATGGATTTAAGGAGCGTATTTTGGCGGGAGAACCAGTGAAAGATTTTACAGCTGCAATTACAAAAGTATGGCAAGAGGAGAACTTTGCATGGCAGGGGGGAGAGTCGAATAAAACTGCTCAGAAAAGGGCGATTGATTCTCTTTCGCGCATATTAGGTAGGAATGCAGGGAAGAATCTTGTCATTGGTACACACGGAAATATAATGGTACTAATGATGAGCTATTTTGATATTCGTTATGGCTTTGATTTTTGGAAGTGTCTTGAAATGCCAGATATATATAAATTATCCTTTGAAGAAAAGAAACTTATGGAAGTAGAGCAAATCTGGGAACGTATTGACCCTGCATTCTAA MLTNLYFVRHAHSVYTPDEMRRPLSERGFKDSKVVTDLLKKEKIDCVFASPYKRAIQTVEGIAAYINQEIIIVDGFKERILAGEPVKDFTAAITKVWQEENFAWQGGESNKTAQKRAIDSLSRILGRNAGKNLVIGTHGNIMVLMMSYFDIRYGFDFWKCLEMPDIYKLSFEEKKLMEVEQIWERIDPAF PGPT0018030_4107 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018030-gpmA-K01834 NA NA AK015_03441 858 rhaR_5 HTH-type transcriptional activator RhaR GTGAAAGAACTACAAAGGATGTTGGACAGTATAGAATTTATCGAACGTAATTTATCAAGTAATCTTCATATGGATGAGATTGCTTCAGTGGCTTGTATGTCTAAGTTTCATTTTCAGCGAATGTTCCACATGTTAACTGGGTACACCCTGAATGCGTATATCCGTAATCGCCGAATTACTGTGGCTACCCAGGAGCTGATTAATTCGAAAGCAAGAGTAATTGATGTTGCGCTGAAATATGGATATGAGACTCCAGAATCTTTTACAAAAGCTTTTCGACGAATCCATGGTGTCAGTCCAATAAACGCTAGGAAAAATGTCCATCCTTTGAAAGCTTATCCCAAACTCTCTTTTCAAATTCAATTGAAGGGTGATGTAGAAATGGATTACAGAATGGTGAAAAAAGATGCTTTTGAGGTTGTAGGAAAAAGTATTCGTACGACGATTATTGGTGGAGAGAATCATCAAAAGATACCAGCCTTCTGGGACGAGTCAAATGCCAATGGATTTACTAACGAGCTTGCAAAGAGTTGTGGTTCTCTAGGAATCCTTGGAATTTGTATGGACTTTGATAAACAACAAGAAAATGTAACTTATCTAATTTGTACAGAAAAGAACATGGATCAAGTTCCTTCTGATTGGGAGATAAGAAAAATTCCTGCTGCGACTTGGGCTGTTTTTCCTGTCTATGGAGCCATGCCAGAAGCAATGCAAAAAACATGGGAGAGAATCTTTTCTGAATGGTTTCCTTCAACTGGATATGAGCATGCTGGTGGACCAGAAATGGAAGTATATTCAACTGATGATGACCCTTATTCAGAGGATCACTACAGTGAGGTATGGGTACCAATAAAGTAA MKELQRMLDSIEFIERNLSSNLHMDEIASVACMSKFHFQRMFHMLTGYTLNAYIRNRRITVATQELINSKARVIDVALKYGYETPESFTKAFRRIHGVSPINARKNVHPLKAYPKLSFQIQLKGDVEMDYRMVKKDAFEVVGKSIRTTIIGGENHQKIPAFWDESNANGFTNELAKSCGSLGILGICMDFDKQQENVTYLICTEKNMDQVPSDWEIRKIPAATWAVFPVYGAMPEAMQKTWERIFSEWFPSTGYEHAGGPEMEVYSTDDDPYSEDHYSEVWVPIK NA NA NA NA NA AK015_03442 381 hypothetical protein GTGAATTTTTATATTGCCTCAAGTTTTGAAAATATAGAAAGTGTACGTTATATTCGTGGTTTATTCATAAAGGAAGGCCATGTACTAACATATGACTGGACAACAAATGACAGGGCTTCGACAATTGAAGCTTTAAAATGTATAGGTCAAAAACAAAAAGATGCAGTAATTGCAGCGGATGTTATTATCGTCTTACTTCCTGCAGGAAAAGGAAGTCATATTGAAATGGGAATAGCATTAGGACGTAGGAAAAAAATCTTTCTTTATTCACCAAATAAAGAAGTCAATAATTCTGCTACAACAAGCACATTCTATCATTTACCTGAAGTGAAGAAATGCTTTGGAACGTTGGATGAATTAGTAAGTATGGTGTTGGGATAA MNFYIASSFENIESVRYIRGLFIKEGHVLTYDWTTNDRASTIEALKCIGQKQKDAVIAADVIIVLLPAGKGSHIEMGIALGRRKKIFLYSPNKEVNNSATTSTFYHLPEVKKCFGTLDELVSMVLG NA NA NA NA NA AK015_03443 870 gltR_2 COG0583 HTH-type transcriptional regulator GltR GTGGACGTGAAGGAATTATTTATTTTCAAAACTTTAGCTCATGAAGGCAGTATCACAAGGGTGGCTGAACAATTGAATTATGCTCAGTCTAACATTACGAGGGTAGTCAAAAAATTAGAAGCAGAACTGCAAACAGAACTATTCTACAGACATCCTCGTGGGGTTTCATTAACTTCAAAGGGGAACCAACTCTTATCTTATACAGACCAAATTTTGCGTCTAATGGAGGAGACAAAAAAGGCAATTCAAGATTCTGAAACACCTCGTGGTCCCATTTCCATAGGCGCAAATGAGACAACAGCATCTGTTAGATTACCATCTGTTTTTGCTTCTTATAATAAAAAATATCCTCAGGTAGAATTATCCTTGACTATTGGTGCAACCGAAGAGCTTATTAACGATGTACTTGATTTTAAACTAGATGGAGCGTTTGTAGTAGGATCTGTTAAACATCCTCATCTTATTCAAATACCAGTTATGGAGGAAGAACTTGTTGTTATAACAGATAGTCAGCCAGAATCATTACAGTCTATAACGAATTTGCAGAAACGGGTACTTCTAACCCGTCCTCATTGTATTCATAGAAAACGGTTAGAACAGTGGTTTCGTGATGAGGGAATGGTTCCTATGAAAATGATGGAGTTTGGGACATTAGAGGCAATTATTGGTTGTGTAAAAGCTGGTTTAGGAATTGCTGTTATCACCGAATCACTAGTTAGCCAACACCAAACAGATGGCAAGCTACGTATTCATAAGCTCCCAGATAAATATGCAACCGTAAAAACAGTGTTTATACGAAGAAAGGATACTTTTATAAATCATGCTTATCGAAAATTTTTAGATAGCTTACAATTAAACGAAGGTAAGTAA MDVKELFIFKTLAHEGSITRVAEQLNYAQSNITRVVKKLEAELQTELFYRHPRGVSLTSKGNQLLSYTDQILRLMEETKKAIQDSETPRGPISIGANETTASVRLPSVFASYNKKYPQVELSLTIGATEELINDVLDFKLDGAFVVGSVKHPHLIQIPVMEEELVVITDSQPESLQSITNLQKRVLLTRPHCIHRKRLEQWFRDEGMVPMKMMEFGTLEAIIGCVKAGLGIAVITESLVSQHQTDGKLRIHKLPDKYATVKTVFIRRKDTFINHAYRKFLDSLQLNEGK NA NA NA NA NA AK015_03444 444 hypothetical protein ATGTATTTGTTACCTGTACATCGATTAAAAGCAAGAATAACAGAGGAAGAGCATGATCTATTAACTAAAGAGCAGCGTACTTTGTGGGAAATCGCTCTAGAGAACTTGGAAATGCAGTCAAATAGTTTAAAAGAGAATGACAGTTCAAAAAGAGCTAGTGAAACGTTAACAACATCCATTCTTCACGAATGGGAAAAAACGAGAAATAAGTTAAATGAATTAGAAGATGTATATAAAAAATGCAATGAAGCAATAGATCTTTGGAAGCGCCTAAAAAAACAAATAGATCAACTGCCTCTAGATCAATCTCAAAAGGATTATTGGCTAAAGCAGGAAAAAAAGAAAGCAGAATTATTGGGTCATACGAAGCGAGCATGTCTATGGGAGGAAATAGAAAATTTTATAAACAGCATGGAAAACCTTCACAAGCTACTAAAGTTTTAA MYLLPVHRLKARITEEEHDLLTKEQRTLWEIALENLEMQSNSLKENDSSKRASETLTTSILHEWEKTRNKLNELEDVYKKCNEAIDLWKRLKKQIDQLPLDQSQKDYWLKQEKKKAELLGHTKRACLWEEIENFINSMENLHKLLKF NA NA NA NA NA AK015_03445 582 hypothetical protein ATGACAAAGAATAGTGAAATCAACGGTAAGAAGGATTTATCATTAGAACAAAAGGAAGAATTACTTAACGTATTGCAAGCTCGTTTTGAGAAAAATAGGAACCGCCTTAAAGAGCTTGAATGGGCTAAAGTGCAAGAAAAACTGGAAGCAAATGCTGAAAAAATGAGGTCCCTTCATGAAATGGAACAAACAGGCGGTGAACCAGATGTGGTTGGGTATGATAAAGAGACAGATACGTATACTTTCTATGATTGTGCTGTGGAAAGTCCTAAGGGCCGCAGAAGTGTTTGTTATGATCGTGAAGCGCTGGAGTCCAGAAAAAAACATAAACCAGAAAATAATGCCGTTGATATGGCTACCGCTATGGGCATTGAACTTTTAACAGAAGACCAGTATCGAGCCTTGCAGAAACTTGGCGATTTTGATAGGAAAACGTCGAGTTGGATTGCCACCCCTCCTGACATTAGAAACCTTGGTGGAGCTCTTTTCTGTGATTTTCGTTTCGGGCATGTTTTTGTGTATCATAATGGAGCTTCTTCTTACTATAGTTCTAGAGGCTTTCGTGGATCGTTACAGGTTTAA MTKNSEINGKKDLSLEQKEELLNVLQARFEKNRNRLKELEWAKVQEKLEANAEKMRSLHEMEQTGGEPDVVGYDKETDTYTFYDCAVESPKGRRSVCYDREALESRKKHKPENNAVDMATAMGIELLTEDQYRALQKLGDFDRKTSSWIATPPDIRNLGGALFCDFRFGHVFVYHNGASSYYSSRGFRGSLQV NA NA NA NA NA AK015_03446 480 hypothetical protein ATGACATTTTTATTAAACGCGACCAAGAAGTATAAAGATCAATTTAATGTCCCAAATAATGAATGTTTCCCATTACATACGGGAGAAATTTTACCTGAAAAATTAGTAATGATATATGAAGAAAGTAGAAAACAAGCTCCAGTAAGTCAACATCAACTTGAAGAATTTGTAGAAGAATGGCAAGCATTATCTACTATGAAGGAATGCCTAAGGATATGGGAAAAGCGAGAAATAATAAATGTAGAGGAAACGTATTATGATAACTACATTATAAATAAAGCTAAACAGCTACACAAAGAGAGAGGATATAACGACTTCATACATTCTGCACGACTTATTGGGGAAGTAATGGGGCATTTAAATCAATCTATCGGTGATTCCTTTTTTGAGTATAGAGTACGACAACTGATTTTAAAAGGTATTTTTGAAATAAAAGGTGTTCCGAAAGCAATGAGGTATTATAGTGTACGGCTCAAGTAA MTFLLNATKKYKDQFNVPNNECFPLHTGEILPEKLVMIYEESRKQAPVSQHQLEEFVEEWQALSTMKECLRIWEKREIINVEETYYDNYIINKAKQLHKERGYNDFIHSARLIGEVMGHLNQSIGDSFFEYRVRQLILKGIFEIKGVPKAMRYYSVRLK NA NA NA NA NA AK015_03447 594 hypothetical protein TTGATTCATGAAATAAAAAGACTGCTTAAAAATGCGACCGAAGAGGAAATGCATGCAGTTTTACTATCTATGTTTATGAGCATGGAAGCCCACGAGAAAACAGATCAATATACAGAAAGCCAGTTAGTGAAGGATCTAAAAAGAACCTATCAATCCTTTCTAGAATATAAAAAAAATCAATTGGATATAAAAAGTCATAAAGGTTATCGTGCAGTACATATTGTTTTTGGTGACTCTACGTCTGGCTCTTTAAAACAAGCTTTAAAAGAATTGAATTACCAAGAAGAGGAGAGAATCATTCGTTTTTCGGATATGTTAGAGGTTGGTCCCATCTGGCAATTACATAAAGAGGAGGGGCTTAATTATAGATATGAATGGTTAAAAAATCATATCAATCTTGATGACGAATACATAGATGAATACAACTATATTTTTAACCACACTGTATCTATGATGAAAGCTATTCCAAAAAGCACTCCAATAATGATATGGACTGGTGAAAATGCCCATGAACAAACCGCTTTGCGATATGTTCTCTTTCTATTAAAAGATAAAATCAATGACATTTTTATTAAACGCGACCAAGAAGTATAA MIHEIKRLLKNATEEEMHAVLLSMFMSMEAHEKTDQYTESQLVKDLKRTYQSFLEYKKNQLDIKSHKGYRAVHIVFGDSTSGSLKQALKELNYQEEERIIRFSDMLEVGPIWQLHKEEGLNYRYEWLKNHINLDDEYIDEYNYIFNHTVSMMKAIPKSTPIMIWTGENAHEQTALRYVLFLLKDKINDIFIKRDQEV NA NA NA NA NA AK015_03448 843 hypothetical protein ATGAATTTCGGCAGTCAAAGAAATTCCCAGAAAAAAACCATATTGGCGCAAAGTATAAGCGGATTGAAACAGCTCGTTCGTTTTGGTTGGGAACAAGCTTTATCTTGTCTATTTCCAGTCGTTATTTTTGCTTCATTGGCGCTTACACAAATGGTAACTTTACCATTTCTACCACGATATGACTGGCTGCTTATTATCTGTCTCCTCATGCAGTGGATCATGGTTCGTTCTGGATTAGAAACACGAGATGAGTTGAAGGTGATTACCGTCTTTCACCTCATTGGGCTTGCCCTTGAGATATTTAAAGTAAACATGGGGTCTTGGACGTATCCAGAAGAAGGGTATTTGAAAGTTTTTGGTGTTCCATTGTATAGTGGATTCATGTATGCAAGTGTAGCAAGTTATCTCTGTCAGGCTTGGAGGAGATTGGACATAAAATTGGTCAATTGGCCCCCGTTTTTAGTAGTTGTCCCTCTTGCAACTGCAATTTATTTAAATTTTTTCACGCATCATTTCTGGATCGATGTTCGTTGGTGGTTAGCAGCACTTGTCATGATTGTTTTTTGGCGAGCTTGGGTTACATATGAAGTCGGTGGAATCAAATATCGTATGCCACTCGTATTTTCTTTTATTCTTATTGGATTTTTTATATGGATTGCTGAAAATATTGTCACATTATTTGGCGCTTGGGAATATCCGAATCAAACGGATGCATGGAGTCTGGTTCATTTAGGTAAAGTAAGCTCATGGGTCTTATTGGTAATTGTTAGCTTTCTTATCGTAGCAACATTAAAGCAAGTGAAAGAAAAAACTCAACAAGGCATCAGTACAGAACATTATTAA MNFGSQRNSQKKTILAQSISGLKQLVRFGWEQALSCLFPVVIFASLALTQMVTLPFLPRYDWLLIICLLMQWIMVRSGLETRDELKVITVFHLIGLALEIFKVNMGSWTYPEEGYLKVFGVPLYSGFMYASVASYLCQAWRRLDIKLVNWPPFLVVVPLATAIYLNFFTHHFWIDVRWWLAALVMIVFWRAWVTYEVGGIKYRMPLVFSFILIGFFIWIAENIVTLFGAWEYPNQTDAWSLVHLGKVSSWVLLVIVSFLIVATLKQVKEKTQQGISTEHY PGPT0008090_17 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600 NA NA AK015_03449 231 hypothetical protein ATGGCAATTATAGTCAACATCGATGTGATGCTAGCAAAACGGAAAATGCGTGTAACGGAACTATCCCAAAAGGTTGGAATAACGATGACTAACCTTTCTATTTTAAAGAATAGCAAGGCAAAAGCAGTTCGGTTCTCCACTTTAGAGGCAATTTGTAAAGCGTTGGATTGTCAGCCCGGAGATATTCTAGAGTATAAAATGGATGAAGAATTAGAAAAAATGTGCTTTTAA MAIIVNIDVMLAKRKMRVTELSQKVGITMTNLSILKNSKAKAVRFSTLEAICKALDCQPGDILEYKMDEELEKMCF PGPT0014940_929 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727 NA NA AK015_03450 372 hypothetical protein ATGTTGCCAGATTGGGCTTATATAAATTATTTTGTTATCGCGATTTTTTATGCAGCAGTTATCCCTTTTTATTTGGCTTTGTATCAGGCGTATAAACTTTTACTGTTTATTGACAAGAATAAAGCGTTCTCTGAATCATCTGTCATTGCTTTAAAGAAAATTAAATATTGTGCTATTACTATAAGCTGCTTGCATGTACTCAACGTACCGCTTTTTTATTTGTTTGCGGAAATAGATGATGCTCCTGGTGCCGTTTTTGTAGGATTGGTTGTTCCGATTGCATCCATGGTGATAGCGGTATTTGCCGCTGTTCTTCAAAGGCTATTTCAAGAGACGCTTTATATCAAATCAGAAAATGACCTAACCGTCTGA MLPDWAYINYFVIAIFYAAVIPFYLALYQAYKLLLFIDKNKAFSESSVIALKKIKYCAITISCLHVLNVPLFYLFAEIDDAPGAVFVGLVVPIASMVIAVFAAVLQRLFQETLYIKSENDLTV NA NA NA NA NA AK015_03451 489 hypothetical protein ATGAACGCTGTAGATATTTTAAGAAATGAATTATTGGCTGAACTTGCAATTGGTATAAGATCCATGGAAGGTTTACTGAAAAAGGTACAAGCGGAGGATTGGGAGTATAAGCCATCTGACGATATGCGAAGTCTTAAAGAGCTTGCTCAACATATTATTTCTATACCAGAAGTTGATCTTCATCTATGGTTGGAGAAGGATCAAGAAACGATCGAAAAATTAGAAGCGAAGTACAATAATATGGAATCTGCTGATGTTATGATTGAAGGAATGAATAAAGGTTTTAAAGATTATAAGGATTATATGCTTTCTTTGTCAGAAGAAGATTTTTTGACAAAAAAAACAAAGCCCTTTTATCTTGAAAAAGCTGAGATTCAAGCACACTGGTTAGTTGAAGAAGTTTCCCACCTGTTCCATCATCGAGGTCAATTCTTTAATTACATGAAACAGCTTGGTTATGAGGTAAATATGTTCGACCTTTATGTATAG MNAVDILRNELLAELAIGIRSMEGLLKKVQAEDWEYKPSDDMRSLKELAQHIISIPEVDLHLWLEKDQETIEKLEAKYNNMESADVMIEGMNKGFKDYKDYMLSLSEEDFLTKKTKPFYLEKAEIQAHWLVEEVSHLFHHRGQFFNYMKQLGYEVNMFDLYV NA NA NA NA NA AK015_03452 402 hypothetical protein ATGAAGCATGCATTAATTATTGGTGGGACAGGTATGTTATCAGGGGTATCCCTATGGTTAATAAAGAATGGCTATCATGCGTCCATTATTGCAAGGAATCCTGAACGCAGGCAGAGACTGTTGGAAGAGACAGAATTAAACAACAACATAACACCTATATTGGTTGATTATAAGGATCATGAGGGATTACAGGAACGCGTAAATGCAACAATAAGGGAAAACGGAGAGTTGGAACTTGTCGTAGCATGGATTCACTCAGATGCTCCTAAGGCGTTGAAAGTAGTAACTGACCAAATTTCTGATAATAGAAAGGAGTGGCAATTATTTCATGTTTTAGGGAGCAACTCAAATTTGAAAGCATTGAAGCGAGAAGTAAAATTACCCGGTAGTTGTGTATACTAA MKHALIIGGTGMLSGVSLWLIKNGYHASIIARNPERRQRLLEETELNNNITPILVDYKDHEGLQERVNATIRENGELELVVAWIHSDAPKALKVVTDQISDNRKEWQLFHVLGSNSNLKALKREVKLPGSCVY NA NA NA NA NA AK015_03453 831 rhaR_6 HTH-type transcriptional activator RhaR ATGGCTCCATCAAAGATAATACGAGGAATTGACAAAGGAACTTTTTTATTAAAAAGAGACTTTAGCCAAGAAAGCAACTGGCGAGCTGACCACTGCTATAAGTTTATTTACTCTTTAGATGGAATGATAAATTATCAAACGAACAGAAACCAAATAAACTTTAATCATCATCAATATATTCTATTTAACCCACAAGATGAACATAAACAATTGGCAGTAGAAGGCAAAAAATTTCTAATTGAATTAAATCCTACTTTCCTTAATCACGTATCAAAATCTGTTGGTTTTGTGGTGCAAAACGACATTCAATTTGCTTTAAATGTACAGAAAAGCCCACAAATATCCAACTGGGTCAAATTTGTACTAGATTATATAGTTATTGAAAAAAATGACCCGCATGCAGTGGAATTATTTTTAGAGCATAGCTTCTCACAACTCGCATTAATTTTACTAAAAAACGCTGTTGGTACACATACACAGGATATACATGTAAATTCTTACAAAATAATTAGTCCGCAAATATATGCTACAATATGCGCTTTAAAAGAAAGTTATCCCTATTCTTGGAATCTAGATCAAATGGCAGAAATAGCTAATTTAAATAAGTATCAATTTGCACATTTTTTTAAAGAAATTATCGGGATTTCCCCATACTCTTGGTTACAACTGTATCGAATCATTCGAAGTCAGGAAATGCTAATAAAAACAGATAAAACAACCTTACAAATTGCTATGGACTGTGGTTTTTCATCTATTACTGTTTACAATCAATTATTTAAACGATTATATGGCATAACCCCTGAGGTTTTTCGAGAACGGATGAATAAATAA MAPSKIIRGIDKGTFLLKRDFSQESNWRADHCYKFIYSLDGMINYQTNRNQINFNHHQYILFNPQDEHKQLAVEGKKFLIELNPTFLNHVSKSVGFVVQNDIQFALNVQKSPQISNWVKFVLDYIVIEKNDPHAVELFLEHSFSQLALILLKNAVGTHTQDIHVNSYKIISPQIYATICALKESYPYSWNLDQMAEIANLNKYQFAHFFKEIIGISPYSWLQLYRIIRSQEMLIKTDKTTLQIAMDCGFSSITVYNQLFKRLYGITPEVFRERMNK NA NA NA NA NA AK015_03454 354 hypothetical protein ATGCATGTTGAATTAACGAGATTTAAAGTGAAAGAAGGTAAATCTAGTTTCGTAGATGAATGGATGGCATTTTTAAACGCTAATATGCGCGATGTTCTTTTATCGCTAGAAGATGAAAGAATGTATATAGAAACGATTTTTAGAGAGACGATAGATGGGCAGGAGTTTTTATATTGGTATTCTGTTCAAGGAGATGGTGGTCAAGACGTGGAAGCATCGGCGCATTGGGTGGATAAAGTGCATTTAAAATACTGGAAAGAATGTATTGATCCTACATTTCAACCCGTTAATTTAGCTACAGAAGTTGTCATGCTATCTGAAGGCATAAGCAATACTATCAAACACTTGGAGTAA MHVELTRFKVKEGKSSFVDEWMAFLNANMRDVLLSLEDERMYIETIFRETIDGQEFLYWYSVQGDGGQDVEASAHWVDKVHLKYWKECIDPTFQPVNLATEVVMLSEGISNTIKHLE NA NA NA NA NA AK015_03455 768 hypothetical protein ATGAATAATGAAGAACGGTTTTGGAATGCAACGATGGAAGAGTTAATTAAAGGGTATGTTTATGATGGAATGGACGAAAAATATGTTTGCTTGCTTTGTAGTGAAAGCTTTGAAGATGGAATCATCTATCCTATAGACGGAACCTTGTACGAAGCAAAAAAAGCTGTTGTTTGTCACATCCAGCATGCGCATAGATCTGTATTTGATTATTACATTGATTTAGATAAAAAATACACTGGGTTGACGGATCACCAAAAAGAACTGCTACTACATTTTAAAGAGGGATTAAGTGATAAGGAAATTGTACAGAAACAAAATGGCGGCAGTGCCTCTACGGTTAGGAATCACCGATTTAAACTAAAAGAAAAGGAAAAGCAGGCAAAGGTTTTTCTTGCGATAATGACTTTATTGCATGAAAGTTCCAATCAAAAAAAGGAACAGCAATTTGTTTCTTTTCATAAGGGGGCAAAAATGGTGGATGACAGATATGCGATTACAGAAGCGGAGAAGGATAAGGTTTTATCAACGTATTTCAAAGAAGGCATAGATGGTAAATTAGATACATTTCCAAGTAAGGAAAAACGAAAATTGATTGTACTTCAAAATATAATGCGGCGCTTTGAGCTGAACAAAACATACATGGAAAAGGAAGTAAATGACATACTAAAATCGGTATACAGTGACTATGTGACAATTAGAAGATATCTCATTGAATATGGATTTATGGAGCGAAGTAAGGATTGTTTACAATATTGGGTAAAAAAATAA MNNEERFWNATMEELIKGYVYDGMDEKYVCLLCSESFEDGIIYPIDGTLYEAKKAVVCHIQHAHRSVFDYYIDLDKKYTGLTDHQKELLLHFKEGLSDKEIVQKQNGGSASTVRNHRFKLKEKEKQAKVFLAIMTLLHESSNQKKEQQFVSFHKGAKMVDDRYAITEAEKDKVLSTYFKEGIDGKLDTFPSKEKRKLIVLQNIMRRFELNKTYMEKEVNDILKSVYSDYVTIRRYLIEYGFMERSKDCLQYWVKK NA NA NA NA NA AK015_03456 600 hypothetical protein ATGGCGCCACCGAAAAAATTTACAAGGGAAAAAATTATTGAAACCGCATTCGAGATAGCTAAAGCTGAAGGAATTGACGCCATCACGATCCGAAAAGTAGCGGAAAATTTGGGCAGTTCGATCGCTCCAATTTATGTTAATTTCACGGATGTCGAACAATTGATTCAAGAGGTCGTAGTCAAAACATTGGAAGTATCAAGGCATTTTCTAAATGAACAACAATCAGGAGAGCCGTTCTTGGACATCGGAATCGCGAGTATTCGTTTCGCAAAGCAATATAGTATACTGTTCAGAGATTTGGTTATGAAAAACAACGGTCATATGGTGCACAATGAAGATCACGTAAACATCTTGATTCAGCAAATGAAGAAAGACACGCTTCTTCAAGACTTTTCCTATGAGGAGCTAAAGCAAATTTTACTCAAAATGCAAATTTTTCAAACCGGTTTGTCGGTGATGGTAGCGAATGACTTGCTGCCTGACGACTTTAACGAGGAGAAAATGATTGAAATGCTTGACAGCACTGCAAAAGATGTCATTACCGCAGCGCGTTTGCGCCAAAGTAACCAAATGTCAGAGGGGGAAATTTACGATGAATAA MAPPKKFTREKIIETAFEIAKAEGIDAITIRKVAENLGSSIAPIYVNFTDVEQLIQEVVVKTLEVSRHFLNEQQSGEPFLDIGIASIRFAKQYSILFRDLVMKNNGHMVHNEDHVNILIQQMKKDTLLQDFSYEELKQILLKMQIFQTGLSVMVANDLLPDDFNEEKMIEMLDSTAKDVITAARLRQSNQMSEGEIYDE NA NA NA NA NA AK015_03457 1026 D-alanyl-D-alanine carboxypeptidase ATGAATAATAAGTTGACACAATCGATTCTTGATGCGTACATGTCCAAAGCCATTACTAGAAAAAACATCCACGGTGTCGTGTTTTGCGTAGAAAATGGAAGCGGCACAATGTCTTTCACCAGTAGTGCTGGAAACATCCAACCTTCTGATTTCTATTTTCTTGCAAGCGTTACGAAATTGTATGTTACTGCGGTCATGCTGAAATTAAGATCACAAAAACATTTGCAGCTAGAAGATAACATAAGCAAGTACCTCCCCGCTGATATAACAAGCGAGCTACATGTTTATAAAGGAATCGATTACACACAAACCATTACAATTAAACATCTCATGTCCAATACAAGTGGATTGCCCGATTACTTCTCGAATGATGTTTTTAATGAATTTCTTAGCGGTAAAGATCAAGCATGGTCATTAGAGAAGACACTTACTATGATTAAACAAAAGAAGCCAGCATTTATACCGGGACAAAAAAGAAAAGCACAATACTCCGACACCAATTACCAGTTATTAGGAATCATCATCGAAACAGTAACAGGAAAAAGCGTCAACGATGTGTTTAAACAGCTTATCTTTGACGAATTGGGGTTAGAGAAAACGTATGTATTCCAAGATGTGAACGACTCGCGTCCAGTTCCGCTCTACTATAAATCGAAACCACTCCATCTGCCCTACTATATGGCATCAATTGCTTCGGAAGGAGGAATCGTCACCACAGCGAAAGACACAATGATTTTTTTAAAAGCTTTTTTCAACGAGCAATTTTTCTCGAGACAGGAGTTATCCGAGCTACAAAAAAACTGGAATCTCCTCTTTTTACCCGGCATCTTTTACTATGGAACCGGAATATCCCGGCAACCATTGTCATTAAAAGGGCTAAAAAAGGGATTGCTGGGACATTGGGGGCAATCGGGAGCTTTTGCATTCCATGATCCCGAAAAAGATCTTTATTTTACAGGCACGGTTAATCAAGTTACGGGACATAGTGTAGCTGCGCGGTTAATGAGAAATCTAACTGATGGGTAA MNNKLTQSILDAYMSKAITRKNIHGVVFCVENGSGTMSFTSSAGNIQPSDFYFLASVTKLYVTAVMLKLRSQKHLQLEDNISKYLPADITSELHVYKGIDYTQTITIKHLMSNTSGLPDYFSNDVFNEFLSGKDQAWSLEKTLTMIKQKKPAFIPGQKRKAQYSDTNYQLLGIIIETVTGKSVNDVFKQLIFDELGLEKTYVFQDVNDSRPVPLYYKSKPLHLPYYMASIASEGGIVTTAKDTMIFLKAFFNEQFFSRQELSELQKNWNLLFLPGIFYYGTGISRQPLSLKGLKKGLLGHWGQSGAFAFHDPEKDLYFTGTVNQVTGHSVAARLMRNLTDG NA NA NA NA NA AK015_03458 333 hypothetical protein ATGTATTTAGAAGTAATGAAAAACAATAGCAATGTTATTTTTTACTTATTAGGAGCTGCTGCTTCAAATTTAGGCAATGTTATCTCTGGTTTAGCTTTTATGTTTTTAGCTTATGAGATGACAGCATCAAGTTTTTATACAACAATTGTAGTAATTTCGCAAGTTGCTCCTTATCTTTTATTTGGTCTTATAGGGGGAGTGGTTGGGGATTGGGTAGATAAGAAAAAGCTGTTAATATGTATTGATCTTATCAGAATACCAGTAATATTATTGCTAGTTTTTACCCATCAGTTAGATTTCTCATTAACCGCGCAGCTACACTATGTCCCGTAA MYLEVMKNNSNVIFYLLGAAASNLGNVISGLAFMFLAYEMTASSFYTTIVVISQVAPYLLFGLIGGVVGDWVDKKKLLICIDLIRIPVILLLVFTHQLDFSLTAQLHYVP PGPT0027965_800 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 AK015_03459 2646 hypothetical protein ATGAATAAGTCAAGGGCAATGTTAATATCCACGTTAGCAATATTGATGTTAGGTCAAAACTCGGTAGTAGCGGAATCTCAAATTAAAGAAAGAACAGCTACTTCTCAGCAACTCGCTAAAACAAACAATACGGAAGGACTAGTTTTTGACCATACGAAGAAAAATTCCGTGCAATTACAAGAAATGTTGCAAAATGCTCCATCCACATTTGAAATGATGGTGAAATTTGAACCAGATCCAAATCAGCGACAAATATTGTTTGGTAATTTTAAATCAGGTAATAAAACGGCATTTAATATTGAAATAACAGCTGATAATCAACTTAGGTATTATGAAATGAATGAGAAGGGCACGATAGATAAAAAGACAGTAGGAGCAACCATTACTACTGGTGAATGGACAAATCTTGCTGTAACAAGGGACGTTGCAAATAAAAAAGTTACCTTTGTGCAAGATGCTGAAGTCATAGCGACGTTTGATGATGTTGATTTAGTCGAACAGCTTTCTTTTGAAAATGGTCATGGTATTGGTAAAGACACTAGGGATAAGTATCACCCGAGAGCTGAAATAAAAGAAGTCCGATTATGGACAAATGTTCTTCCGTTAGATCAGATTAAGGAAAATGCTAATGTAGAGATGGCAGGTAATGAAGATGGATTAATGCATGCTTGGACGCTAGATGAATCTATTTATCACGGGCTAAATGTAATTTATGATAAAGTTGGAAAAAATGATGGTATCGCTTTTGGTTTTCACAAAGAGTTTGTTATTGAAGAACCGTATGAGAGTACTTTCGAAGGAACGGGTATTGATTTTACAAAGGGTGATTTGGAAATTGCCACAGATGAACCCATTACTGAATCCCCTAGAACCGTTGAAGCATGGGTGAAGATTCCAACTGATACAACAAAAGATCAACGTGTTGGGAACATTATTGGTAATTTCTATTATGAGTACTACAAAGATAAATCCAGATTTAACTTTGAAATTACCAATAATGGCAATCCGAGAATCTATTGGCAGGCCCATACAGCTCATACCCTCGACTATACTGCAAATGTTAATCTGAATCTTGGTGATTGGGTACATGTTGCGATGGTGTTGGATGATGCAAATCATATCGGAACAACATATATTAATGGCGAAAAAATTAGTGAACAATATACAAATGCGCCTATTCCAAATACGCCTCCTAGAGAGGAACTAAAAATTGCTTCAGATTATAGGGGTTATACTGCGGATGGCAAGCCTGAACTGAATTTTAATGGTGAAATTGCTGATATCCGTTTATGGTCAACTGCTAGAACGCCAGAAGAAATTAAAGGGAATTTTAACGAAGCTTTAGATGGAAATGAAGAAGGACTAATAGGAAATTGGAAACTGGATGATGCTAAGGATGGAGTGTACCCAGATCATTCAGAGAAAAAGAACCATGGATATAAATATGATAATGAGACCAGTAACTGGCTTGAACCTGATTTTGCAGAAGGGGATTATTCCATAGCTGTAATTCCTGACACTCAGAATTTTGTTCAGCGTTTCCCAAATGAGTTTAAGGATTATATGACTTGGTTTAAAGAAAGTGCAGACGAATTAAACATGGAATTTGTGATGCATGTTGGAGATTTAGTTAATAACCCAGGAAGTATAAAGGAATGGCAAACAGTGGAAGAAGGTATGTCTTATTTAGATGGCATTGTTCCTTACGTTTTTGTGCCTGGTAATCATGATTACAACAATCAATACAACCGTACTACAACATACTACAATCGATATTTTCCATATGAAGCGTATTCTAAAGCAAACTCGTTTGGTGGAGCATTCATCGAAGGAGTGATGGAGAATACGTACTCTTACTTTGATATAGATGGAGTGGAGTATATGGTGATTAATCTGGAGTACGGTCCGCGAGATGAGGTGCTGGCTTGGGCTAATCAATTAGCAGAAGATAATGCAGAGAAAAAAATTATTGTAAACACCCATTCGTATTTGTATCATAACGGAGAGCATCATAGCCTTGACCATATGGATAACCCAGGGAAATATATTTCTGATGCAAATAACGGTGACCAAGTTTGGGATAAGTTTGTAAGAAAGCATGAAAATATTATCTTAGTAACAGCTGGACATATTGGTAGCGAGGATTTAGTTGTTAGAGAAGACCAGGGTGATCATGGTAACTCTATTAAACAAGTTCTGGTAGATGCTCAGTTTATGCAGCCATTAGACATAGGAATGGTTATGCTGTTGACCTTTAAAGAAGGTAGTAATGATGTGGAAGTGAATTGGTACTCTGTGAAGAAGGATAAGTTATTTCGTGAGGATAACCAATTTACTTTAAATCTAAATGTTTATGATGATGAACTTCCAAAAGAATTTGTTGGTGATGTAAATGGCGACAACGTGGTTGATATGAAAGATGCTTTCTTTTTAAAGAATCATATTAATAAACCAGGAAAGGGACCGAAAAAAGCAGATATTAACCAAGATGGAAGTATTGATGCAAAGGATATGAAAATAATTGTTGATAATTATTTACGTGTAAATGAAAATGCAGAGAATGCTCCAGTTCCAAGAGAAAAGCAAGGTGGCAGAACGCTTGAGGATATTCTAGATGAGGTAGGTTTAAGTGATTTATTAGATTAA MNKSRAMLISTLAILMLGQNSVVAESQIKERTATSQQLAKTNNTEGLVFDHTKKNSVQLQEMLQNAPSTFEMMVKFEPDPNQRQILFGNFKSGNKTAFNIEITADNQLRYYEMNEKGTIDKKTVGATITTGEWTNLAVTRDVANKKVTFVQDAEVIATFDDVDLVEQLSFENGHGIGKDTRDKYHPRAEIKEVRLWTNVLPLDQIKENANVEMAGNEDGLMHAWTLDESIYHGLNVIYDKVGKNDGIAFGFHKEFVIEEPYESTFEGTGIDFTKGDLEIATDEPITESPRTVEAWVKIPTDTTKDQRVGNIIGNFYYEYYKDKSRFNFEITNNGNPRIYWQAHTAHTLDYTANVNLNLGDWVHVAMVLDDANHIGTTYINGEKISEQYTNAPIPNTPPREELKIASDYRGYTADGKPELNFNGEIADIRLWSTARTPEEIKGNFNEALDGNEEGLIGNWKLDDAKDGVYPDHSEKKNHGYKYDNETSNWLEPDFAEGDYSIAVIPDTQNFVQRFPNEFKDYMTWFKESADELNMEFVMHVGDLVNNPGSIKEWQTVEEGMSYLDGIVPYVFVPGNHDYNNQYNRTTTYYNRYFPYEAYSKANSFGGAFIEGVMENTYSYFDIDGVEYMVINLEYGPRDEVLAWANQLAEDNAEKKIIVNTHSYLYHNGEHHSLDHMDNPGKYISDANNGDQVWDKFVRKHENIILVTAGHIGSEDLVVREDQGDHGNSIKQVLVDAQFMQPLDIGMVMLLTFKEGSNDVEVNWYSVKKDKLFREDNQFTLNLNVYDDELPKEFVGDVNGDNVVDMKDAFFLKNHINKPGKGPKKADINQDGSIDAKDMKIIVDNYLRVNENAENAPVPREKQGGRTLEDILDEVGLSDLLD NA NA NA NA NA AK015_03460 105 hypothetical protein ATGGGACGCTACTACAATGCAGTGAAGGTTAATATAGTTTCTGCAGAGGTAGTGGGTGATATTTTGAATAATCTAAAATTTAAACCGAGTAAGGTTTTATTATGA MGRYYNAVKVNIVSAEVVGDILNNLKFKPSKVLL NA NA NA NA NA AK015_03461 258 hypothetical protein ATGTTACAAGAGCAAAGGCATCATATGATTGAATCTTTTTTAAAACAGCAAAAAGCTGTAAAAGCGTCCGAACTTGCTACCTTATTAGATGTGTCCATTGATACCATACGTAGAGATTTTGAAGTACTTGAGAAGAACGGAATTATTAAAAAAGTCCATGGCGGGGCTATATTAAAACAAAAAAAGATATTGCTCTTAATCAACTTTATAACGATAGAGAAATTAAAAATTTGGAGAAAAAGCAAGAGATTGCTTTAG MLQEQRHHMIESFLKQQKAVKASELATLLDVSIDTIRRDFEVLEKNGIIKKVHGGAILKQKKILLLINFITIEKLKIWRKSKRLL PGPT0017590_894 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 AK015_03462 555 glpR COG1349 Glycerol-3-phosphate regulon repressor TTGGAGAAAAAGCAAGAGATTGCTTTAGGAGCGGTTGAATTAATTGAAGAAGGTCAAGCCATAGCTTTAAATGGAGGGACAACTACAGTAGAGATTGCAAAAATATTGGTAGAAAAATTTCATAGATTAACTATTTTCACAAATGACCTTCAAATTTTAAATATTCTAGGAACTAATAAGGATTTCAATATTATCCTGACCGGTGGTTTTTATAACCATGAAGAACGTACTCTTTACGATAAACAGTGTGAGGAGGTCCTAGCTGCCTTTAATATTGATATTGCATTTATAACAGTAAATGCCTTATCCTATGAACACGGCTTAACGGATTTTAGAGTGCATGAAGTCGGTGTTATCAAAACCATTTTTTCGCGAACCAAATATAAAGTAGTCGTGGCAGATTCATCTAAGTTTGAAACTTCTTCTTATATTAATATTTGTTCATTAAAAGATATTGATCTCATCGTTACAGATAACTCTATACCATCACATATAGCAGAAAAATATAATAATCATAATATACGAGTTCTTTTTCAAAATGAAGGGACTAGATAG MEKKQEIALGAVELIEEGQAIALNGGTTTVEIAKILVEKFHRLTIFTNDLQILNILGTNKDFNIILTGGFYNHEERTLYDKQCEEVLAAFNIDIAFITVNALSYEHGLTDFRVHEVGVIKTIFSRTKYKVVVADSSKFETSSYINICSLKDIDLIVTDNSIPSHIAEKYNNHNIRVLFQNEGTR NA NA NA NA NA AK015_03463 492 hypothetical protein ATGGAAACTATGGATAATAAAATACATTTTGACTATCAATTTGTAAGTGATAAAGGAATTATCTCGAATAAAGATAGAAGTGATGTTCCAGCTATTTTAGCAGTAGATGCTACATTTTCCATAAAAATGAATCACACTCTATACTTTGAGGCAGAACTTCCGATACTAGAATTCTGGATGTCTTTGTATACATGGAAAGAAAGGATAACGAAGGACTATATACCTGAATTCCATTATTATACAATTGAACACGATGAGGAAGAAGGTGCGATACTTTCAGTGCTTCCTTTCTCTAATAAAGCTAGATTGGAATCTATTTGGGCAGAAGCTGACATTGATAATGTATTTGATTTGCACTATATTGTTAAAGAATTTTTAACTCTGGAGAGCAGTTTGAGGGAGGATATGGAGGAGTATTATAATATAAAATTGAAGTATTTTATGAGGCATATACCATTTAGCAGATTACATCTGAAACAGATGAATAAATAA METMDNKIHFDYQFVSDKGIISNKDRSDVPAILAVDATFSIKMNHTLYFEAELPILEFWMSLYTWKERITKDYIPEFHYYTIEHDEEEGAILSVLPFSNKARLESIWAEADIDNVFDLHYIVKEFLTLESSLREDMEEYYNIKLKYFMRHIPFSRLHLKQMNK NA NA NA NA NA AK015_03464 318 hypothetical protein ATGACTAGAAAACGAGAGAATACCTCTTTTCAATGTGAAAAATGTGGTGCTGAAGTTATACGATTAACAAATGGTAGCTACCGGAATCATTGTCCTTACTGTTTATATTCCAAACATTTGGATAATACCCCTGGTGATCGTTTAAGTGAATATAAGGGGCTAATGAAACCAATAGCCTTAGACTACTCTGCGAAAAAAGGACATCAGATATTACATCAATGTGTAAAATGCAAGAAAGCACAAAAGAACAAGGTAGCAACAGATACCGTACAAGAAGATAATATTATTCAACTTATGTATCAGTTACAACTAAAATAA MTRKRENTSFQCEKCGAEVIRLTNGSYRNHCPYCLYSKHLDNTPGDRLSEYKGLMKPIALDYSAKKGHQILHQCVKCKKAQKNKVATDTVQEDNIIQLMYQLQLK NA NA NA NA NA AK015_03465 579 rnmV_2 COG1658 Ribonuclease M5 GTGAAGGTGAAGGAAGTAATTGTAGTAGAAGGAAAAGATGATACAGCTAAAATTAACCAAGCTGTTGATGCAGATACAATTGAGACGAATGGATCGGCCATTCATACATCTATTATAAAACAGATTCAGCATGCAAAAGATAAACGAGGAGTTATTATTTTTACAGATCCTGACTATCCTGGTGAGCGCATTCGTCATATTGTTGATCAAGCTGTACCAGGTTGTAAGCATGCTTTTTTAACACGTAATGAAGCTCGTGCTAAAAATTCGACAACAAAGAATTTAGGGGTGGAGCATGCGTCTATCAAGGATATAAAAAAGGCATTAGAATCTGTTTATGAGCTGCAACCGGTACGAGAGAGTGAAATAACGAAAGCGGAGTTAATGCATCATGGATTCATTGGAGGTCAGGAAGCGAACAAAAGACGAGAGCAGCTTGGTGAGTTATTGCAAATTGGGCATACGAATGGCAAGCAGTTATTAAAACGCTTAACGATGTTTGGTATTGGAAAAGCTGAGTTTGAAAGAGCAGTATTGCAAATGGATCAGGAGAGGAAAGAGAAAAATGACCAATCATAA MKVKEVIVVEGKDDTAKINQAVDADTIETNGSAIHTSIIKQIQHAKDKRGVIIFTDPDYPGERIRHIVDQAVPGCKHAFLTRNEARAKNSTTKNLGVEHASIKDIKKALESVYELQPVRESEITKAELMHHGFIGGQEANKRREQLGELLQIGHTNGKQLLKRLTMFGIGKAEFERAVLQMDQERKEKNDQS NA NA NA NA NA AK015_03466 885 rsmA COG0030 Ribosomal RNA small subunit methyltransferase A ATGACCAATCATAAATTTATTGCTACGCCATCACGAACGAAAGAAATTTTAAAGAAATATCATTTTTCTTTTAAAAAAAGCTTAGGGCAGAACTTTTTAATTGACAGTAATATTTTAAGTAATATTATTCGCCAAGCAGGAATTGATAAGGAGTCCGGTGTGATTGAAATAGGTCCTGGTATTGGAGCGTTGACAGAACATTTAGCTATTCATAGTCAAAAGGTATTCGCATTTGAAATTGACCAACGTCTAATACCAGTATTAGAGGATACGCTTGCACCCTATGATAATGTCGAGGTTGTACATGAGGATATTTTAAAAGCAAACGTTCGTGACATGATAGCGACGCATTTTCATCCAGAACAGCCTGTTCATCTTGTAGCTAACTTGCCTTATTATATAACTACTCCGATCTTAATGAAATTATTACGTGATCAATTGCCAATTGATAGCTTCACGGTAATGATTCAAAAGGAAGTTGCTGAACGAATGGCAGCTAAACCGAATACCAAAAGTTATGGTTCGCTAACATTAGCTGTCCAATATTACACAGAAGCAGAAGTTGTTATGCAAGTTCCAAAACGTGTATTTATGCCCCAACCTAATGTCGATTCCAGTATCTTGCGTTTAGTTAGACGGACGAAAGCTCCTGTAAATGTTGTAGATGAAGATTTCTTTTTCACACTGATACAAGCAAGTTTTGCCCAGCGTCGGAAAACATTGCGTAATAATCTATCCAATCATTTTAAAGATAAGTTGACGAAAGAGGAAGTTGGTCTTATTTTACAACAAAGTGGCATTGATGGAGGAAGACGTGGAGAGTCTCTAACGATGGAGGAGTTTGCGTTATTGGCTAACACGTTTATCACTTCTTCTAAGGCATGA MTNHKFIATPSRTKEILKKYHFSFKKSLGQNFLIDSNILSNIIRQAGIDKESGVIEIGPGIGALTEHLAIHSQKVFAFEIDQRLIPVLEDTLAPYDNVEVVHEDILKANVRDMIATHFHPEQPVHLVANLPYYITTPILMKLLRDQLPIDSFTVMIQKEVAERMAAKPNTKSYGSLTLAVQYYTEAEVVMQVPKRVFMPQPNVDSSILRLVRRTKAPVNVVDEDFFFTLIQASFAQRRKTLRNNLSNHFKDKLTKEEVGLILQQSGIDGGRRGESLTMEEFALLANTFITSSKA NA NA NA NA NA AK015_03467 861 yabG Sporulation-specific protease YabG ATGAGTTATTCGAAGGGTGATTTAGTCACAAGGTACTCTTATCAGCATGATATATTATTTCGGGTTTCTTCTGTGAAAAAAGAGCTTGTCGATTTAGTAGGAGAGGAAGTGCGTTTGAAAGCGGATTCTCCAATAGATGATTTGAAATTGGTGGAAGAAAGAGAGCTACAAAAACGGAGGCAACAAGGGAAAGAGAGTGAAGAATTTTCCTATCGGCTATTTCGTCAAGATTATCAATTGTTAAAAGAAAAAAGACAATACCAAGCTACGGACGGTTTTATACACGAAGCCTCCTATTTTCAATTGCCTGCAAAAGTGTTGCACATTGATGGGGATGCAATGTATTTAAAAAAATGTATTGAATTATATCAGCGAATCGGATTGCAAGTACATGGAGTACATTTATATGAACGCGATATGCCTGTAAGGATTACAGAACTCATAGAAAAAATTCAGCCAAATATCATTGTTATTACTGGGCATGACGCTTTTTCTAAAAATAAAGGAGAAAAGCAAGATCTACGTGCTTATCGCAATTCAAGGTATTTTATTGAAGCTGTACGAGAGGCGAGGCAGACAAATCCAAATTTGGATCAGCTCGTCATTTTTGCAGGAGCGTGTCAATCGCATTTTGAGCTGTTAGTTCGGGCAGGGGCTAATTTTGCTAGTTCACCATTTCGAGTCAATATTCATGCGTTAGACCCTGTCTATATTGCTGCTAAAGTTGCATATACACCTTTTATGGAAAAAGTGAGCGTATGGGATGCTATTCGAACTACACTGACAGGAGACAAAGGGATGGGCGGTGTTGAAACGAGAGGATTATTACGTACAGGTTTACCATATATGGAAGAGACTTAA MSYSKGDLVTRYSYQHDILFRVSSVKKELVDLVGEEVRLKADSPIDDLKLVEERELQKRRQQGKESEEFSYRLFRQDYQLLKEKRQYQATDGFIHEASYFQLPAKVLHIDGDAMYLKKCIELYQRIGLQVHGVHLYERDMPVRITELIEKIQPNIIVITGHDAFSKNKGEKQDLRAYRNSRYFIEAVREARQTNPNLDQLVIFAGACQSHFELLVRAGANFASSPFRVNIHALDPVYIAAKVAYTPFMEKVSVWDAIRTTLTGDKGMGGVETRGLLRTGLPYMEET PGPT0025240_244 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025240-yabG-K06436 NA NA AK015_03468 267 veg COG4466 Protein Veg GTGGCGAAAACATTAATCGAAATTAAGCAAGGTCTTGAAGGTCATGTTGGAAAACGGTTAAAGCTTACAGCAAATGGTGGAAGAAGAAAGACCATTGAGCGTTCCGGCATCTTAGCAGAAACATATCCTTCTGTATTTATTGTTGAGCTTGACCAAGAAGAAAATGCATTCGAACGTGTTTCATACAGCTATGCAGATGTTTTAACAGAAACAGTAGAGCTTCGCTTTGCAGATGATAAAAACATTGCGTCAGTGCTTGAGCAGTAG MAKTLIEIKQGLEGHVGKRLKLTANGGRRKTIERSGILAETYPSVFIVELDQEENAFERVSYSYADVLTETVELRFADDKNIASVLEQ NA NA NA NA NA AK015_03469 180 hypothetical protein GTGGCTAGAAGACGTGGAATGATGTCGGATCATTTAAAAGAAGAAATTGCAAAAGAGTTAGGATTTTACGACACGGTGCAAAGGGAAGGATGGGGCGGCATTAAAGCGCGAGATGCTGGAAATATGGTGAAACGTGCCATTGAAAGAGCGGAAGCTAGTATGAGACAAGACAAATCCTAA MARRRGMMSDHLKEEIAKELGFYDTVQREGWGGIKARDAGNMVKRAIERAEASMRQDKS PGPT0024885_147 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024885-sspF-K06423 NA NA AK015_03470 852 ispE COG1947 4-diphosphocytidyl-2-C-methyl-D-erythritol kinase ATGGTAATTTTTGAAAAAGCACCTGCAAAAATAAATTTATCATTGGACGTACGAAGTAAAAGAAGCGACGGGTACCATAACATTGAAATGATTATGACAACCATTGATTTAGCTGATCGTATTTGTTTATATGAATTACCTGAGGACCGGATCGAAATATCATTGGAAAGTAGATTTGTTCCAAGTGATAAACGCAATTTAGCTTACCAAGCTGCCTTAGCTTTGAAGCAAGCGTATGGTATCCATAGAGGTGTACATATAACAATTGAAAAAAACATCCCCGTCTCTGCAGGACTAGCAGGTGGTAGTGCCGACGCTGCTGCCGTATTAAAAGGTTTAAATCGTTTGTGGTCACTTCGCCTTTCAGAAACTGAATTAGCAAGTGTAGGTGCGTTATTAGGTACAGATGTGCCGTTTTGTATATATGGAAAAACGGCAATAGCTAAAGGTAGGGGAGAAATTGTCCAACGGCTCCTCTCACCGCCGCCATGTTGGGTCGTTTTAGCTAAACCGGATATTGGTATTTCTTCAGGAACTATTTTTCAACGCATAGTGGTGGAAGATATTGTTCATCCTAACACAAAAGCTGTTAGGGAAGCGTTAGCGGAAGGAAATTTTAATAAGCTATGTTTAAGCTTAGGTAATGCATTAGAACCGATAACGATAAAACAACACCCAGAAGTGCAGCGTATTAAAACGGCTTTACAACAAGCAGGCGCTTCTGGCGTACTTATGAGTGGAAGTGGTCCGACAGTCTATGGTCTCGTAGAGCATGAAAGTAAAGCGAGAAAAATCTATAATGGGATGAGAGGTTTTTGTGAAGAAGTTTATTATGTACGATTATTAGGTTGA MVIFEKAPAKINLSLDVRSKRSDGYHNIEMIMTTIDLADRICLYELPEDRIEISLESRFVPSDKRNLAYQAALALKQAYGIHRGVHITIEKNIPVSAGLAGGSADAAAVLKGLNRLWSLRLSETELASVGALLGTDVPFCIYGKTAIAKGRGEIVQRLLSPPPCWVVLAKPDIGISSGTIFQRIVVEDIVHPNTKAVREALAEGNFNKLCLSLGNALEPITIKQHPEVQRIKTALQQAGASGVLMSGSGPTVYGLVEHESKARKIYNGMRGFCEEVYYVRLLG PGPT0007605_3359 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919 NA NA AK015_03471 813 purR COG0503 Pur operon repressor ATGAAAAGAAGTAACCGTTTAGTTGCTCTAACCAATTTTTTTCTTGAAAATCCTCGGACGCACACACAATTTCCGTATTTTGTTTCACAATTAGCTACTACGAAAGCTTCTATTAGTGAAGATATGGATATTATTGATGCGGTGTTTCGGAGTGAAGGGATTGGCTATTTGCAACGGACGACAGGTGCAGGAGGCGGGGTGAAGTTTATACCTGCATGCGTTGATGAAAAAAATAAATGCTTTGTTGAAGCATTACGACAAAAGTTAAAAGATCCTGTTCGTATCCTTCCAGGCGGGTATCTATATATGAGCGATCTGTTAGGCGATCCGAAGACGGTACGAGAAATTGGGCGTGTATTTGCTTCAACATTTTCTAAAAAAAATATTGATGTTGTTGTTACCGTTGCTACAAAAGGGATTCCATTGGCATACGCTGTTGCCTCTTTTTTGAATGTACCGGTAGTTATTGTACGCAGAGATCCAAAGGTAACAGAAGGGTCCTCTGTAAGCATTAATTATGTATCTGGATCATCTAGAAAAATTCAGACCATGGTGTTGCCGAAACGCAGTTTATATGAAGGAGCAAAAGTCTGTATTATTGATGATTTTATGAAAGCAGGTGGAACCATTACTGGCATGATTAATTTACTAGAGGAATTTCATGCAACGGTACAAGCAATAGGTGTCTTAGCTGAAGCAGATGATGAGGAAGAAGAGCGCGTCATTAATGACTATACATCTCTAATAAAAATATCAAATGTCGATATGAAAAAGAAGGCAATCGATGTTCATTTTGGTAATTTTATCCAATAA MKRSNRLVALTNFFLENPRTHTQFPYFVSQLATTKASISEDMDIIDAVFRSEGIGYLQRTTGAGGGVKFIPACVDEKNKCFVEALRQKLKDPVRILPGGYLYMSDLLGDPKTVREIGRVFASTFSKKNIDVVVTVATKGIPLAYAVASFLNVPVVIVRRDPKVTEGSSVSINYVSGSSRKIQTMVLPKRSLYEGAKVCIIDDFMKAGGTITGMINLLEEFHATVQAIGVLAEADDEEEERVINDYTSLIKISNVDMKKKAIDVHFGNFIQ NA NA NA NA NA AK015_03472 291 spoVG COG2088 Putative septation protein SpoVG ATGGAAGTAACTGACGTTAGGTTACGCCGCGTTAATACGGAAGGCAGAATGAGAGCGATTGCATCTATTACGTTGGATCAGGAATTTGTTGTCCATGATATCCGAGTGATTGACGGTAACAATGGGCTATTTGTTGCGATGCCATCCAAGCGAACGCCGGATGGAGAATTTAGGGATATCGCTCATCCTATTAATTCTGGTACAAGAGCGAAAATTCAGGACGCTGTATTAGAAGAGTATCGCAAAGCAGGAGATGAGGAAGTAAAATACGAAGAAGCTGGGGCTTCCTAA MEVTDVRLRRVNTEGRMRAIASITLDQEFVVHDIRVIDGNNGLFVAMPSKRTPDGEFRDIAHPINSGTRAKIQDAVLEEYRKAGDEEVKYEEAGAS PGPT0024830_306 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024830-spoVG-K06412 NA NA AK015_03473 1380 glmU Bifunctional protein GlmU ATGACAAATCGATATGCTGTCATACTGGCAGCTGGGCAAGGTACCAGGATGAAATCGAAGCTTTACAAAGTACTCCATCCTGTAGCGGGTCGCCCCATGGTTCAACACGTCATCGAACAAGTTGGTGGCGTAAATGTCGATAAAATCATTACTATTGTCGGTTTTGGTGCGGAAGATGTAAAGAAACAACTCGGACCAAAAAGTGAGTACGTTCTTCAAGAAGAGCAGTTGGGGACTGGGCATGCAGTTGTTCAAGCTAAAGCGCTTTTAGAAGATAAGGAAGGTACAACGATAGTGGTGTGTGGTGATACACCTTTAATAACCAAGGAGACGTATCAAGCGTTGATTGAACATCATGAACATTCAGAGGCAAAAGCTACGATACTAACAGCAAAAGCTTCTAATCCGTACGGGTATGGTCGCGTACTTAGAAATAAGCAAAATGATGTGGAACGGATTGTGGAACATAAAGATGCGAATGAGGCCGAGCTACTTGTAGATGAAATAAATACGGGTACATACTGTTTTGATAATCAAGCTTTGTTTCAGGCGCTAGCACATGTTTCCAATGATAACGCACAAGGGGAGTATTACTTGCCGGATGTAATTGAAATTCTCCAAACAAAAGGGGAGACTGTGAGCGCGTATCGAACAGCGCACTTTGAGGAAACATTAGGGATAAATGATCGTGTTGCTTTAGCGCAAGCAGAGAAAATCATGAAGCAACGTGTGAATGAAAGACATATGCGTAACGGTGTAGCTATCATTGATCCGGATCAAACCTATATTGAACCGAGTGTAACGATTGGTGCTGACACAATCATTCATCCTGGTACAATGATTAAAGGCGATACCGTCATTGAGGAAAATGCAGAAATCGGCCCGTATTCCGAGCTAACCAATTGTCATGTTGGAAATGGCACGATAATTAAACAAAGTGTGGTAAATGATAGCAAGATAGGTAATGATGTGAAGGTTGGTCCATATGCACATATAAGACCTGATAGTGCAATTGGTAACCACGTGAAAATTGGAAACTTTGTAGAAATAAAAAAGACAAGCTTAGGTGAAGATAGTAAAGTTTCTCATTTAAGTTATATTGGTGATGCACAAGTCGGAAGCAATGTAAACGTAGGTTGTGGTACAATAACAGTGAACTATGATGGCAAGCACAAATATGTAACAACCATTGAAGATGAATCATTTATAGGCTGCAATTCAAATTTAGTTGCGCCTGTGAAAATTGGAAAAGGTTCTTATATTGCTGCTGGTTCTACAATTAATAAGGACGTGCCAGAGGGTTCTTTATCGATTGCTCGTGCAAGGCAAACGAATAAAGAAGGATATGCGGAAAAAATTAAAAATCGGAAAAAAGACTAA MTNRYAVILAAGQGTRMKSKLYKVLHPVAGRPMVQHVIEQVGGVNVDKIITIVGFGAEDVKKQLGPKSEYVLQEEQLGTGHAVVQAKALLEDKEGTTIVVCGDTPLITKETYQALIEHHEHSEAKATILTAKASNPYGYGRVLRNKQNDVERIVEHKDANEAELLVDEINTGTYCFDNQALFQALAHVSNDNAQGEYYLPDVIEILQTKGETVSAYRTAHFEETLGINDRVALAQAEKIMKQRVNERHMRNGVAIIDPDQTYIEPSVTIGADTIIHPGTMIKGDTVIEENAEIGPYSELTNCHVGNGTIIKQSVVNDSKIGNDVKVGPYAHIRPDSAIGNHVKIGNFVEIKKTSLGEDSKVSHLSYIGDAQVGSNVNVGCGTITVNYDGKHKYVTTIEDESFIGCNSNLVAPVKIGKGSYIAAGSTINKDVPEGSLSIARARQTNKEGYAEKIKNRKKD PGPT0018955_1402 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042 NA NA AK015_03474 954 prs COG0462 Ribose-phosphate pyrophosphokinase ATGGCAGCTAGTTACAAGGATTCATCCTTGAAAGTTTTTACATTAAATTCCAACCCACAATTGGCTGAGGAGATTGCTAGTCATATTGGTACGACACTAGGGAAATGTGCTGTATCTCGATTTAGTGATGGAGAAATTCAAATTAATATTGAAGAAAGCATCCGTGGTTGTGATGTTTATGTCGTTCAGTCCACATGCTCACCGGTGAATGAGCATTTGATGGAATTATTAATTATGATTGATGCTTTGAAACGTGCATCTGCAAAGTCAATCAATATTGTTATGCCTTATTATGGGTACGCTAGACAAGATCGAAAAGCAAGATCAAGAGAACCGATCGCAGCAAAACTAGTAGCTGACCTATTAGAAACAGCAGGATCTGATCGGGTGATAACACTTGATTTACACGCACCGCAAATTCAAGGCTTTTTTGATAGCCCGATCGATCATTTACAAGGTGTGCCAATTCTTTCCGATTATTTTGAAGCAAAGAACTTGGAAGATATTATTATTATGTCACCAGACCATGGCGGGGTGACACGCGCCAGAAAGATGGCTGATCGCTTGAAGGCGCCAATTGGAATAATTGATAAGCGCAGACCGCGACCTAATGTGGCTGAAGTAATGAATATTGTCGGGAATATTGAAGGGAAGACAGCGATTTTAATTGATGATATCATTGATACTGCAGGTACAATTACTTTAGCAGCAAATGCATTAATTGAAAATGGTGCCAAGGAAGTATATGCTTGTTGTACACATCCCGTATTATCTGGCCCAGCAATGCAACGAATTAATGATTCAAAAATTAAAGAATTGGTTGTAACCAATTCGATTCCTTTACCAGATGATAAGCGAATCGATAAAATTACACCACTTTCTGTCGCTCCTTTAATTGGTGAAGCGATTGTTCGTGTGCATGAATTGCAATCCGTTAGTATTTTGTTTGATTAA MAASYKDSSLKVFTLNSNPQLAEEIASHIGTTLGKCAVSRFSDGEIQINIEESIRGCDVYVVQSTCSPVNEHLMELLIMIDALKRASAKSINIVMPYYGYARQDRKARSREPIAAKLVADLLETAGSDRVITLDLHAPQIQGFFDSPIDHLQGVPILSDYFEAKNLEDIIIMSPDHGGVTRARKMADRLKAPIGIIDKRRPRPNVAEVMNIVGNIEGKTAILIDDIIDTAGTITLAANALIENGAKEVYACCTHPVLSGPAMQRINDSKIKELVVTNSIPLPDDKRIDKITPLSVAPLIGEAIVRVHELQSVSILFD PGPT0021480_3966 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948 NA NA AK015_03475 624 ctc COG1825 General stress protein CTC GTGGCAGTAAAACTAGCAGCGCAACGAAGAGAAGATCATACGAAATCAGCAACAAAAGAAATTAGAAATAGCGGACGTGTTCCAGCTGTAATCTATGGAAAAGCAAAAGAATCGAAGTCGATTGCTGTAGATAGTGTTGAATTGATCAAAACAGTTCGTGACGAGGGTAGAAATGCGATTATCTCACTTCACATTGAAGATGAAAAACCTGTAGATGTGATGCTACATGAATATCAAATTGATCCATTAAAAGATGAACTTGTCCATGCTGACTTTTATATTGTAGATATGGCTGAAGAGATGGATGTGGAAGTGAATATCCACATAGAGGGAGAAGCAAAAGGTACGAAAGATGGCGGTGTCTTGCAGCAACCATTATATGCGTTGCAAGTGCGTGCGAAACCAGCTGACATCCCTGAAGAAATCGTTGTTGATGTTTCTGATTTAGATATTGGAGATAGTATTGCAGTGTCTGATATTGACATTCAAGGAAAATACGAACTCTTAGATGATCCAGTTACCACGGTTGTAACGGTATCAGCGCCAGATACGTTAGAGGACATTGAAAAGGCACCAGCTGAGAATGCAGAGCCAGAATTAGTAGATGGAGAAAAGGAAGCATAA MAVKLAAQRREDHTKSATKEIRNSGRVPAVIYGKAKESKSIAVDSVELIKTVRDEGRNAIISLHIEDEKPVDVMLHEYQIDPLKDELVHADFYIVDMAEEMDVEVNIHIEGEAKGTKDGGVLQQPLYALQVRAKPADIPEEIVVDVSDLDIGDSIAVSDIDIQGKYELLDDPVTTVVTVSAPDTLEDIEKAPAENAEPELVDGEKEA NA NA NA NA NA AK015_03476 561 pth COG0193 Peptidyl-tRNA hydrolase ATGAAATGTATTATAGGTTTAGGAAACCCAGGGAAAAAATATCATCAGACGAGACATAACATTGGTTTTATGGTAATTGATGAATTATTGCAACGTCATCAGCTAACATTGGATAAATCAAAATTTAAAGCAGATTACACGATGGTGCAGATGGGACAGGAAAAAGTGATGTTTGTAAAACCACAAACATTTATGAACCTTTCTGGTGATGCTATAAGGCCAATAATTGACTATTACAACATTGATTTATCGAATATTTTGATTATTTTTGATGATTTGGATTTGCCAGTCGGTAAAATTAGGCTTCGTCAAAAAGGTGGTCATGGAGGTCATAATGGCATTAGATCAATTATCGACCATGTTGGGACGAAGGATTTTAAACGGATTCGAATTGGTATCGGTAGGCCTGATGTCTCACAATCCATTATTCATTATGTGCTACAAAGATTTCCAAAACATGAAACATCTGAGGTAAAGCTTAGTGTGCAAAAAGCAGCCGATGCATGTGACGCGTGGATAGAACGTCCATTTCCTGAAGTTATGAATGAATATAATCAATAA MKCIIGLGNPGKKYHQTRHNIGFMVIDELLQRHQLTLDKSKFKADYTMVQMGQEKVMFVKPQTFMNLSGDAIRPIIDYYNIDLSNILIIFDDLDLPVGKIRLRQKGGHGGHNGIRSIIDHVGTKDFKRIRIGIGRPDVSQSIIHYVLQRFPKHETSEVKLSVQKAADACDAWIERPFPEVMNEYNQ 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 AK015_03477 225 fin Anti-sigma-F factor Fin ATGATATACTTGTGTAAGCATTGTGGACAAAAACTAGGAAGTATACAACAACACATGATTGATTTATCCATATTAGGATTTGACCAATTATCAGTGAAGGATAAAGAAGAAATGATTGTTTATAAACCAAATGGGGATATGCATATCAAGGTGATTTGCGAAGACTGCCAAGATACACTAGGTCAACATCCTCACTATCATGAATTAGATTTCTTTATACAATAG MIYLCKHCGQKLGSIQQHMIDLSILGFDQLSVKDKEEMIVYKPNGDMHIKVICEDCQDTLGQHPHYHELDFFIQ NA NA NA NA NA AK015_03478 3525 mfd Transcription-repair-coupling factor ATGAAAGGAATACAAAAATATTTATACAATAAAGAAGATATACAATCCATTATTAATGGAGTGCAAGCAGGAATGGATGAACAGCTTGTAGCAGGGCTATCTGGTTCAGCTAGAGGCTTACTTGTATCTGTTATTCGAGGCGAGATGAAGAAGCGGATTTTGTTAGTCACCCACCAACTTGTGCAAGCACAGCAACTATACGATGATTTGGTTGGTATTGTGGGAGAGGAAGATGTTCATCTATATCCTGTTAATGAACTGATTGCTTCAGAAATCGCTATTGCAAGTCCAGAGTTACGCAGCCAGCGAATTGATTCATTAACTGCTTGGTCTCAAAATAAATCGGGGATTTTAATAGCTCCAGTATCTGCCTTAAAACGAATACTTCCTCCTCCAGCGTATTGGCAAACATATCAACTAGCATTTAAATATGGAGAAGAAATTGATGTAAATCATTATTTAACAAATTTAATAGATATGGGATATGATCGCGCTTCCATGGTTACAACACCAGGTGAGTTTAGTAAACGTGGAGGAATTATTGATATATATCCTATTACCGAAAAGCATCCGATTCGAATTGAGCTATTTGATGAGGAAATTGACTCCATTCGTTATTTTGATGCTGAAACCCAACGTTCATTAGATAAGCTGGAGGAAGTTACGATTGGGCCAGCAACAGAATTGCTATTAACAGAGTCCGATCTTCATACGGCTGGGGAGCGTTTGGAGGAAGCGCTTGCCGATACATTGAAAACGTTAAAGACACAAGAAGCAAAAGCAACATTGACAGAGGTAGTGCAACGAGATGTAGATCGATTAAAAAACCTCGAGCGCTTTCCTGAGATGTATAAATACATTGGTTATTTATATACAAATCCTGCTAGCTTACTAGATTACTTGCCAGGTGATGGCCAAATAATTATTGATGAAATGAGCCGAATACAAGAGACTGCATTACATTTGGATATAGAAGAGGGTGATTGGTACAGTAATTTACTAGCCAATAATCAAATGGTTAGAAATAGTTCATTTTCATTTGATTGGCATGCTATATGGGAGCGTATGAAGCAGCCGCGTATCTATATGTCTGTGTTTTTACGCCATATCCCTAATACACAACCACAAAATATTGTTAATTTATCTTCACGACCGATGCAAGAATTCCATGGTCAAATGCATTTATTTAAAAATGAATTACTCCGCTGGGAAAAGGGGGACTATTCTGTTATCGTTTTAGCTCCAGATAAAGAAAGAGCGGAAAGAATCCACTCTATATTTATGGATTATGATATCGATTTTGGGATTACAGAAGATTTACGGCTCCCTGTTGATAAACCAACGATTGCGGTAGGGAATATATCAAGTGGCGTAGAGTTGCCGATGCACAAGCTTGTGTTAGTGACTGAGCAAGAACTATTTAAAAAACGTACAAAACGACCGAGAAAGCAACAAAAAATCTCAAATGCCGAACGAATTAAGGATTATCAAGAATTAAAAGTAGGCGATTATGTTGTACATACAAATCATGGTGTCGGAAAATACCTCGGTATAGAAACTTTAAAAGTGAATGATCTGCATAAGGATTATTTGCTAATTAAATATTCTGGCGATGATAAGCTGTTTGTACCTATTGATCAAATTGACCAAGTACAAAAATTTGTAGGATCAGAAGGAAAAGAACCGAAGCTCTATAAGCTAGGCGGAAGTGAATGGAAAAAAGTAAAACGGAAAGTGCAATCATCTGTAGAGGATATTGCAGATGATCTCATTAAGCTCTATGCTGAAAGAGAAGCAAGAAAAGGGTACGCGTTTTCTGAAGATACAGAAATGCAACGCGAATTTGAAGCATTGTTTCCTTATCAAGAAACAGAGGATCAATTACGTTGTATTCAAGAAATTAAACAAGATATGGAAAGAGAACGTCCAATGGATCGTCTTCTTTGTGGGGATGTTGGCTACGGAAAAACAGAAGTAGCTATTCGCGCAGCCTTTAAGGCAATTGCTGATGGAAAACAAGTTGCGTTATTAGTTCCGACGACGATTCTAGCACAGCAACATTTTGAAACAATACGAGAGCGTTTTCAAGATTATCCAATTACTATCGGTTTATTAAGTAGATTTAGAACGAGAAAGCAGCAAAAGGAAACGTTAGATGGATTAAGAAAAGGAACTGTTGATATCGTTATTGGTACACATCGTATTTTATCTAAAGATGTTCAGTATCATGATTTAGGTTTATTAATTGTTGACGAAGAGCAACGCTTCGGAGTAAAGCATAAGGAAAAAATTAAGCAGTTAAAATCGAATGTAGATGTACTTACGTTAACGGCAACACCTATTCCACGAACATTGCATATGTCTATGCTTGGTGTGCGGGATCTTTCTGTAATTGAAACGCCACCAGAAAATCGTTTTCCAATTCAAACCTATGTGATGGAATATAATCCAATATTTGTTCGAGAGGCAATAGAGCGTGAAATGGCTCGAGGAGGTCAAGTGTTTTTTCTACATAACCGTGTAGAAAATATTGAAGAGATAGCTAGAGAGCTAAGTTCACATATTGATGCTAGGATAGCGGTTGCGCATGGTCAAATGAATGAATCGGAATTGGAGAATGTTATTTTTTCCTTTTTAGAAGGAGAATTTGATGTCCTTGTAAGTACGACGATTATTGAAACGGGTGTTGATATTCCAAATGTAAATACCTTAATTGTAAACAATGCCGACCGAATGGGACTAAGTCAATTGTATCAATTGCGTGGTCGTGTAGGGCGTTCAAATCGAGTTGCTTATGCGTACTTTACGTATAGAAAAGATAAAGTGCTTACCGAAGTTGCAGAAAAACGTCTACAAGCAATTAAAGAATTTACAGAATTGGGTTCTGGATTTAAAATCGCTATGCGCGATTTATCCATTCGAGGAGCGGGCAACCTGCTTGGTGCTCAACAGCATGGATTTATCGATTCGGTCGGTTTTGACATGTATTCACAAATGCTCAAAGAGGCGATTGATGCTCGCAAAGAAGGCAAAGATATAAGTGATGTAAAGCCATTTGATCCAGAATTGACATTAGTAATTGATGCGTATATTCCAGATGAATATATCCCAGATGAAAAGCAAAAAGTAGACATCTATAAACAATTCCAATCCATGGAGACGACAGAAGATAAACAAGATTTACATGACGAATTAATTGATCGATTTGGGGACTATCCAGAAGAGGTAACCAATTTATTTACCGTATCTACGTTGAAAATGCTAGCGAAGCGAGAGCGAGTCCGTTCTATAAGTGAAAGTGAGAAAAACAAAAAAATCGAAGTGCTCGTTGATGAAGAGCGTAGTCAACAAATTGATGGCGCAAAAGTATTCGAAATGGCGAATGCGTATGGACGAGATATCCAACTTGGAACCGAAAGCAGTAAATTAAAAATTGTATTTAAATATACAAATACGACGAAGCAGCAATGCTATAAAAATGTGGAAACGTTTATCGATAATTTAAAATTTGCCAATCGTAGTTAG MKGIQKYLYNKEDIQSIINGVQAGMDEQLVAGLSGSARGLLVSVIRGEMKKRILLVTHQLVQAQQLYDDLVGIVGEEDVHLYPVNELIASEIAIASPELRSQRIDSLTAWSQNKSGILIAPVSALKRILPPPAYWQTYQLAFKYGEEIDVNHYLTNLIDMGYDRASMVTTPGEFSKRGGIIDIYPITEKHPIRIELFDEEIDSIRYFDAETQRSLDKLEEVTIGPATELLLTESDLHTAGERLEEALADTLKTLKTQEAKATLTEVVQRDVDRLKNLERFPEMYKYIGYLYTNPASLLDYLPGDGQIIIDEMSRIQETALHLDIEEGDWYSNLLANNQMVRNSSFSFDWHAIWERMKQPRIYMSVFLRHIPNTQPQNIVNLSSRPMQEFHGQMHLFKNELLRWEKGDYSVIVLAPDKERAERIHSIFMDYDIDFGITEDLRLPVDKPTIAVGNISSGVELPMHKLVLVTEQELFKKRTKRPRKQQKISNAERIKDYQELKVGDYVVHTNHGVGKYLGIETLKVNDLHKDYLLIKYSGDDKLFVPIDQIDQVQKFVGSEGKEPKLYKLGGSEWKKVKRKVQSSVEDIADDLIKLYAEREARKGYAFSEDTEMQREFEALFPYQETEDQLRCIQEIKQDMERERPMDRLLCGDVGYGKTEVAIRAAFKAIADGKQVALLVPTTILAQQHFETIRERFQDYPITIGLLSRFRTRKQQKETLDGLRKGTVDIVIGTHRILSKDVQYHDLGLLIVDEEQRFGVKHKEKIKQLKSNVDVLTLTATPIPRTLHMSMLGVRDLSVIETPPENRFPIQTYVMEYNPIFVREAIEREMARGGQVFFLHNRVENIEEIARELSSHIDARIAVAHGQMNESELENVIFSFLEGEFDVLVSTTIIETGVDIPNVNTLIVNNADRMGLSQLYQLRGRVGRSNRVAYAYFTYRKDKVLTEVAEKRLQAIKEFTELGSGFKIAMRDLSIRGAGNLLGAQQHGFIDSVGFDMYSQMLKEAIDARKEGKDISDVKPFDPELTLVIDAYIPDEYIPDEKQKVDIYKQFQSMETTEDKQDLHDELIDRFGDYPEEVTNLFTVSTLKMLAKRERVRSISESEKNKKIEVLVDEERSQQIDGAKVFEMANAYGRDIQLGTESSKLKIVFKYTNTTKQQCYKNVETFIDNLKFANRS NA NA NA NA NA AK015_03479 537 spoVT COG2002 Stage V sporulation protein T ATGAAAGCAACAGGAATTGTGCGACGTATTGATGATCTTGGGAGAGTTGTTATACCTAAAGAAATAAGGAGAACGTTACGCATTAGAGAGGGCGATCCACTAGAAATATACGTGGACCGTGAAGGAGAAGTTATTTTAAAGAAATATTCTCCTATTAGTGAGCTAGGTCAATTTGCTAAAGAATATGCAGAAGCGTTGTTTGATTCTTTGCATACCCCTGTTATCATATCCGATCGAGATGAGGTTATTGCAGTAGCAGGAGAATCAAAAAAAGAGTACTTAAACAAAAACATCGGATCCCCTCTAACTAGTATTATTGAAGGTAGACAACAAGTCATGGAAAAAGAAGCAAAATCATTAGAAATTGTCGATGGGCATGAAGAAGACTTGATATCCTATTGTATTAGTCCAATTATTGCAAATGGTGATGCAATTGGATCCGTAGTGATTTTTGCTAAAGAAGGGGAAAGCTTTTCAGCTGTTCAACAAAAAGCAGCAGAGACAGCGGCAAGCTTTCTAGCCAAGCAAATGGAATAA MKATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIYVDREGEVILKKYSPISELGQFAKEYAEALFDSLHTPVIISDRDEVIAVAGESKKEYLNKNIGSPLTSIIEGRQQVMEKEAKSLEIVDGHEEDLISYCISPIIANGDAIGSVVIFAKEGESFSAVQQKAAETAASFLAKQME PGPT0024790_276 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 AK015_03480 1587 hypothetical protein ATGAATAGAAATGAAACAAATCAGCTTGTAAAAGGGGCGTTATTGTTAACAATTGTTGGCGTAATCAGTAAGCTATTAAGTGCTGGCTATCGTATCCCTTTGCAAAATGTAACAGGAGACATGGGGATTTATGTCTATCAACAGATCTACCCTGTCCTAGGAATTGGACTAATGTTAGCTTTATACGGATTTCCGTCGGCGATAGCAAAGCTAGCAGCGGAAGAACAATCTCAATCTCAAAGATTGTCTTTAACAAGTTTTTATTTCCCCATTTTCCTAATACTCTGTATGCTTAACGGCAGTTTAGCACTATTTATTTACATGAATGCACCATATATTGCAGGTTGGATTGGTGATGAACGTCTTACAGAAATATACTATTTAGGTGCGTTAACATTTTTATTTATACCAGTAACGGCATTGTTACGTGGTACTTTTCAAGGGAATTTTGTGATGAAACCTACTGCTTTTTCTCAACTAGCTGAACAGTTGTTTCGAGTAACGATTATCATTACTTCAGCAATAGTCATTGCCGAAAGTGGAAAGCCTATTTATACGATAGGAAGGGCTGCTGTTTTTGCCTCCATAATCGGGTTAATTGTTGCGACTATTGTTTTAGCTTGGTTTTTTTGGCGTGATAAGCCATTTCATATAGAAAAGCGACCTTATTCCATGCGTCATTATGTACATACGATTATTACTATTGGTATTGTTGCTACGTTAAACCATATGGTGTTACTTTTATTACAGTTTGCAGATACATTTACGTTATTTCCGAGTCTTTTAAAGGGTGGTTATTCTCAGCTCATGGCAATGGAGGCTAAAGGTGTGTTTGATCGAGGGCAACCGCTTATTCAGATTGGTACGGTACTTGGATCATCGTTTGCATTGGCTCTAATGCCATCTATTTCGACGAGAAAATTAACGGAACAGCCGCAAATCTTTTACCCTTATATTCGTGGGGCGATGCTATTTAGCATTTATTTAGCAACAGGTGCGACGGTCGGGCTAATAGCTATTTTTCCTGAAGTAAATCAAGCTCTGTTTCAAGATCAACAAGGCCACGCTGCGTTACGTCTGTTAATGGTTGCGGTTTTATTGAGCTCACTTGCCATTACAGCTGCATCTATTTTACAAGGATTAGGATATATAAAACGTGTTGCTTTACTTATATTACTAGCATTTTTCATGAAATGGATTGGCAATCTATGGCTTGTCCCATCAATAGGGATATTTGGCAGCTCCTTTGCTACAGTGCTCGCTTTACTCGTGTTTAGTGTGATTGCTTTAACAGAGCTACGGCGAAAGCTACCATTATTACAACTTTTAAGAAACGTACAATGGAAGGCGTTGCTACTTGCTACTTTCGTTATGGTTAGTTATTTATGGATAGTGAAATGGGTAGCGCATCCTTGGCTTGGACCTACAAGAGTGGCATCGTTTCTATTTGTTGTTTTCCTATCTATTACAGGCGCTACTGTATACGGGTATTGCTTAATAAGACTAAAAGCTTTTACGGAACAACAATTGCAAATGCTCCCATCGCGACTTTCTTTACGATTCATTCGCAAGCAGCGTTATCGATAA MNRNETNQLVKGALLLTIVGVISKLLSAGYRIPLQNVTGDMGIYVYQQIYPVLGIGLMLALYGFPSAIAKLAAEEQSQSQRLSLTSFYFPIFLILCMLNGSLALFIYMNAPYIAGWIGDERLTEIYYLGALTFLFIPVTALLRGTFQGNFVMKPTAFSQLAEQLFRVTIIITSAIVIAESGKPIYTIGRAAVFASIIGLIVATIVLAWFFWRDKPFHIEKRPYSMRHYVHTIITIGIVATLNHMVLLLLQFADTFTLFPSLLKGGYSQLMAMEAKGVFDRGQPLIQIGTVLGSSFALALMPSISTRKLTEQPQIFYPYIRGAMLFSIYLATGATVGLIAIFPEVNQALFQDQQGHAALRLLMVAVLLSSLAITAASILQGLGYIKRVALLILLAFFMKWIGNLWLVPSIGIFGSSFATVLALLVFSVIALTELRRKLPLLQLLRNVQWKALLLATFVMVSYLWIVKWVAHPWLGPTRVASFLFVVFLSITGATVYGYCLIRLKAFTEQQLQMLPSRLSLRFIRKQRYR PGPT0017190_29 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017190-TC_PST-K03328 NA NA AK015_03481 1443 hypothetical protein ATGAACAAAATCGAAATTATTGGTCTTGGTGCAGGAGACTTGGATCAGTTACCTTTAGGTATTTATAAAAAGCTTTGTAATTTAGACAAGTCCGTGTACGTCCGCACGCTGGATCATCCTGTTGTTCAAGCATTGCAAGCAGAAGGTGTGAGCTTCCATTCCTTTGATACAATTTATGAGGAAGAAGAACAGTTTACTAATGTATACCATCGTATTGTTGCAATTATTTTAGAAAAAGCGAAAATAGAACAGGTTATCTATGCTGTGCCTGGACATCCCATGCTTGCGGAAAAGACCGTACAAATCTTGCTGGATTCCGAATGTGAGGTAGAAATCATCGGTGGAAGCAGTTATTTAGATGATCTATTTACCGCATTAAAAATAGATCCTATTGACGGATTTCAATTTCTTGATGCAACATCTTTCAAGCGTCAAGATATAAGCTATCACAATCACCTCGTGTTTTCGCAAGTGTATGACCAAATAATTGCTTCTGAAGTAAAACTGACATTGTTAGAGGACTTACCTGCAGACTATCCAATTACCATTATTGATGCAGTAGGAAGCGCTCGGGAAAAAATAGTAGAAGTTCCTTTAGAAGAATTAGATCGCACGGTTGACGTTAGTAATTTAACAAGTGTCTATGTCCCACCCGCACCGGAGCATTTATTACATCATACGTTTACAAATTTACGCCAAGTGATCCATACGTTAAGAGGGCCTGATGGATGCCCGTGGGATCAGAAGCAGACACATGAAAGTCTGCGAGAATATGCTATTGAAGAAGTGTATGAGCTCATTGACGCGATTGACCAACAAGATGACGAAGGGATTATTGAAGAATTAGGTGACGTACTGCTACAAGTTATGCTACACAGTCAAATTGGGGAAGATGAAGGTTATTTTACGATAGATGATGTCATTCGAAACCTTACGGAAAAAATGATTCATCGTCATCCACATGTCTTTCAAAATGAATCTGTTTCCAATGCAGATGAAGTCGTAAAGAATTGGGAGCAATTAAAAAAGGATGAAAAAGGAGAGACAAGAGCATCTGCGTTAGATGGTATTGCAAAGCATTTACCATCACTTGCACGGGCGTATCAATTACAAAAAAGAGCAGCAAAAGTAGGGTTTGATTGGCATTCTCTACAAGGTGCCTATGATAAATTACAAGAGGAGCTAGAAGAATTTAAGGTAGCTATAAAAAAAGGAAATGCACATGAACAAGAGAAGGAGTTTGGCGATATATTATTTGTTCTAGCGAATATAGCAAGGTATTATAAAATAAACCCAGAAGTAGCCTTACATCATACGAATGAAAAATTTATTTTGCGTTTTTCCTATATGGAACAAGCATTAAAAGATCGTCAGCGTTCCATTCAAGAAGTAACTTTAGAAGAGATGAATGAATTATGGGAAGAGGCGAAAGAAAAGGAGTAA MNKIEIIGLGAGDLDQLPLGIYKKLCNLDKSVYVRTLDHPVVQALQAEGVSFHSFDTIYEEEEQFTNVYHRIVAIILEKAKIEQVIYAVPGHPMLAEKTVQILLDSECEVEIIGGSSYLDDLFTALKIDPIDGFQFLDATSFKRQDISYHNHLVFSQVYDQIIASEVKLTLLEDLPADYPITIIDAVGSAREKIVEVPLEELDRTVDVSNLTSVYVPPAPEHLLHHTFTNLRQVIHTLRGPDGCPWDQKQTHESLREYAIEEVYELIDAIDQQDDEGIIEELGDVLLQVMLHSQIGEDEGYFTIDDVIRNLTEKMIHRHPHVFQNESVSNADEVVKNWEQLKKDEKGETRASALDGIAKHLPSLARAYQLQKRAAKVGFDWHSLQGAYDKLQEELEEFKVAIKKGNAHEQEKEFGDILFVLANIARYYKINPEVALHHTNEKFILRFSYMEQALKDRQRSIQEVTLEEMNELWEEAKEKE NA NA NA NA NA AK015_03482 261 hypothetical protein ATGCGTCTAGACAAATTTTTAAAAGTATCTCGTTTAATTAAGCGTCGTACGTTAGCCAAGGAAGTAGCTGATCAAGGTAGAATTACGGTAAATGGTAATCAATCTAAAGCGGCTACGACATTAACGGTAGGCGATGAGCTTGTTATTCGCTTTGGGCAAAAGGTAGTTACACTGCGTATTGATAATTTACGAGAAACAGTGAAAAAAGAGGAAGCCCAATCCATGTATACCATTATAAAAGAAGAAAAAATTACGAATTAA MRLDKFLKVSRLIKRRTLAKEVADQGRITVNGNQSKAATTLTVGDELVIRFGQKVVTLRIDNLRETVKKEEAQSMYTIIKEEKITN PGPT0012225_994 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567 NA NA AK015_03483 300 yabP Spore protein YabP ATGAACTATTATGAGAATAAAGAGCATATACCACGTGTTACTACAGATCATACGGTAAAAATGAATAATCGTAAAAATTTGGAAATTACAGGTGTGAAAGAAGTGGATAGCTTTGATAATGAAGAATTTTTACTGGAAACAGTAATGGGTTATTTAATTATACGTGGGCAAAATTTACAGCTGAAAAATCTAGATGTTAATGATGGTTCTGTTGTTATCAAAGGGAAAATTTACGAGCTTTCTTATATTGATGAACAGCAGGAGAAGGCTAAAGGGTTCTTTAGCAAGTTATTTAAATGA MNYYENKEHIPRVTTDHTVKMNNRKNLEITGVKEVDSFDNEEFLLETVMGYLIIRGQNLQLKNLDVNDGSVVIKGKIYELSYIDEQQEKAKGFFSKLFK PGPT0024990_105 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA NA NA AK015_03484 600 yabQ Spore protein YabQ ATGAGTTTAAGTACGCAGCTTGTAACAATGTTATCTATGATTGCAGGTGGCTTGTCTACGGGTGTCATGTTAGACACCTTTCGTAGGTTCTCTCCTTATTGGAGAAATAGGAAGATCATGATTTATGTAATGGAAGTAGGGTTTTGGACCTCACAAACATTATTGCTTTTTTATATTTTATTTTTGGTTAATGGTGGAGAGATAAGGTTATATATTGTACTAGCATGTCTACTTGGTTTTTCAATGTATCAAGCGATACTCTCCAATTATTATAAGAAGTTACTGGAGCATTTCATACGAATTGCGCTCTCTATCTATCGTTTTTTTTCACGACTTATACAAGTCTTCATTATTTCACCGATAAAAGGAATTGTAATGGTTATTTATACAGTATTTATATGGGTTTTAAAACTGATTCTCTCTCTGCTACTTTTCGTTTTAACGGTGATTGTAACGCCAATCCAATGGTTAATAAGAGGAGTCTACCAGTTGCTACCTAAAAAAGTTCAAGGAATTCTATTACAAATAGCAGGATTTTATAGTACAATAAAGAATAACTTAAGTAAGGTTTGGGAGAAAATTCGCTGGAAGAGGAGGTAA MSLSTQLVTMLSMIAGGLSTGVMLDTFRRFSPYWRNRKIMIYVMEVGFWTSQTLLLFYILFLVNGGEIRLYIVLACLLGFSMYQAILSNYYKKLLEHFIRIALSIYRFFSRLIQVFIISPIKGIVMVIYTVFIWVLKLILSLLLFVLTVIVTPIQWLIRGVYQLLPKKVQGILLQIAGFYSTIKNNLSKVWEKIRWKRR NA NA NA NA NA AK015_03485 381 divIC COG2919 Cell division protein DivIC TTGACTACAAGTAAACAAAGCGTAAGAAAACTGGATTCGAATTACATGCAACAATACGATGCCTATGTAGAAAGGCAAAATCGAAAAAAGCGACGTTTAATTCGACGTTTGGTGTTATTTGGAGTTATTACTCTCGTTATTCTTGGCGGTATGACTACATATCATATCCAGCAGCGCTCTCTTTATGCGGAAAAGACAGACGAATATGAAAATCTACAAGCAGAATTGACGGATTTGAGAAAAGAACAAAAAAATCTGAAACAAGAAGCAGAGCGTTTAAAAAATGAGGATTATGTATTAGAAATAGCGAGGACAAACTATTTCTTATCTAAAGAGGGCGAATTAATTTTTAAAGTTCCTGATAAAGAACCATCTTATTGA MTTSKQSVRKLDSNYMQQYDAYVERQNRKKRRLIRRLVLFGVITLVILGGMTTYHIQQRSLYAEKTDEYENLQAELTDLRKEQKNLKQEAERLKNEDYVLEIARTNYFLSKEGELIFKVPDKEPSY NA NA NA NA NA AK015_03486 390 pnp_2 Polyribonucleotide nucleotidyltransferase ATGTCAATTGAAGTAGGCAGCAAGCTGCAGGGTAAGGTAACTGGTATCACTAATTTTGGAGCCTTTGTAGAAATCGAAAGAGGAACAACCGGACTTGTTCATATTAGTGAGGTTGCCGACAACTATGTGAAAGACATTAATGAACATCTTTCTGTTGGCGATGAAGTAAAGGTGAAAGTCATTAACGTAGAGAAGGACGGAAAAATTGGTCTATCGATTAAAAAAGCGGTAGATAAGCCAAAACCAAAACGTCAACGAGATAACCGTGAACGGGTTGAATCTTTTGAGTCAAAAATGAATCGTTTTTTAAAAGACTCTGAAGATCGCCTTGCCTCTTTGAAGAAGCACACGGAATCCAAACGCGGGGGTCGAGGTGCTAAAAGGGGATAG MSIEVGSKLQGKVTGITNFGAFVEIERGTTGLVHISEVADNYVKDINEHLSVGDEVKVKVINVEKDGKIGLSIKKAVDKPKPKRQRDNRERVESFESKMNRFLKDSEDRLASLKKHTESKRGGRGAKRG NA NA NA NA NA AK015_03488 2451 spoIIE COG2208 Stage II sporulation protein E ATGATGGAATCAATGTCAAGGTTACAGCCTAAAGCACTAATAGCTCAACAGGCAAGTCAGTGGGACAAGCTGAGGAGTCTACTTTACGCAAAGCTGAAAATGGTTTTAGTGGATAGAGGCTGGTTATTTTACATGATTGGGTTTTTATTAGGCCGGGCAGTTATTTTATCAGCTGTTTCGCCATTTGCGGTAGCTTTCTTAGCGACGATGTGGCTTGTCTATAAGGAAAAAGCGGCTAAAGCTATGATAGCCGTACTAATAGGTGCTTTGAGCTATTCTGTAGACCATGGAATTTTTACAGCTTTAGGGTTATTTGTTTTTCTGTTTTTAGCAGGACTATTTAAACAAGCAAAAAATCAACAGTTACTCATACCGTTTTTTGTATTTCTTGCTTCTGTAAGTACACGAATTTTTCAATATTCGATAGAACAGCAGTTGGCAGCATATGAATGGATGCTTGTGTTCGTAGAAGGGGTGTTAGGGACGGTTCTCGTTTTAATATTTATGCAGAGTATGCCGTTATTATCACCAAAAAGGTATAATCCAGCGTTAAAAAACGAAGAAATTGTCTGTATGATTATTCTCCTTGCTTCCATTCTTACAGGAACGATTGGTTGGACGCTTTATGGAGCAGCTGTGGAGCAGGTACTCGCTCGTTATTTTGTACTTATTCTTGCTTTTGTTGGTGGAGCAGCTGTAGGATCGACGGTTGGAGTGGTAACAGGATTGATTTTGTCACTTGCCAATGTTGCCAATTTATATCAAATGAGTTTATTAGCATTTTCAGGACTTTTAGGAGGATTATTAAAAGAGGGAAAAAAACCTGGTGTAGCCATTGGGTTATTTGTTGGAACGTTCTTAATTGGTATTTATGGGAATATGACAGCGCTTATCCCTTCCATCATAGAGACGTCGATGGCAGTTGTCCTCTTTCTACTTACACCAGCAGGCTGGTTTAAAAAGCTGTCTCGGCTTATTCCAGGGACGGAGGAGTATACAAATGAACAAGAACAATATTTACAAAAAGTTCGCAACGTAACAGCCCAACGGGTGGAGCAGTTTTCTGGTGTTTTTCAAGCGTTATCGAATAGTTTTGCAAGTGCCGATTCGCATTTAGAAGATGAGCAGGAGATAAGGCGAGAAACGGACTATTTTCTAAGTCAAGTTACGGAAAAATCATGTCAGAATTGTTTTATGAAAGAAAGGTGCTGGCAAAAGGAGTTTGATAAAACGTACAGCTTAATGGAATTGCTAAAGGAAGGGTTACAAGAAGGAGGGAAACCGCCAAAAACAACCATAAGGGAATTTGAAAATTTTTGCGTAAAGCCACAAAAAGTATTGGATGCCATGAAGGAAGAGGTATCGTATTTTGAAGCAAACCAAAAGTTAAAACAACAAGTATTAGAAAGCAAGAAGTTAGTCGCTGATCAATTGCAAGGGGTCTCGGAGGTGATGGAAGATTTTGCGAAAGAAATTTTAAAAGAACGCGAGCACCATGAGCAACAGGAAATGCAAATTATACATGCATTAAAGCAATTAGGAATGGAATTAGAGAAACTGGAGATTTACAGTTTGGAAAAAGGCAATGTAGACATTGAAATGACATTAACATTTTATGAATATCGTGGGGAAGGTGCCAAACTAATAGCACCTGTTTTATCGGATATTTTATCTGAAGTAATCGTTGTGAAGCAAGAAGAAATTGCGCCATTTCCAAATGGTTATAGTTACTTGGCGTTTGGAACAGCGCGAGAGTTTGTAGTAGAAACAGGTGCTGCTAATGCGGCAAAAGGAGGTGGACTTATATCTGGGGATAGTTACACTACGATAGAATTAGGCGCTGGAAAGTATGCGATGGCAATTAGTGATGGCATGGGAAATGGTGCTCGTGCGCAGGAAGAAAGTGTGGAAACGTTAAGGCTTCTGCAACAAATATTGCAGACAGGTATACCTGAAAAAGTAGCCATTAAATCCATTAATTCAATTTTATCTTTACGTTCGACCGAAGAAATGTTTGCAACGCTGGATTTAGCCGTCATAGATTTGCACAATGCATATGTACAATTTTTAAAAATTGGTTCTTCACCAAGCTTCGTGAAGCGAGGAAATGAATTATTAAAAATTGAAGCAAGCAATTTACCGATGGGGATTATCCAGGAATTTGATGTTGATATCGTTGGTGAGCAGTTGCTTCCTAATGATCTGTTAATTATGATGAGTGACGGTATTTTTGAAGGTCCTAAACATATTGAAAATACGGATATATGGCTAAAGCGTAAAATTCGTGACATGCGCACAAACGATCCACAGGAAATAGCTGACTTGATTTTAGAAGAGGTGATTCGTACAAGAGGTGGAGAAATTGAGGATGATATGACGGTCGTTGTTGCTAAGGTAAAGAAGAATACACCTAGGTGGGCTGGAGCACCTCTCTATTCTGTATCCTCCTAG MMESMSRLQPKALIAQQASQWDKLRSLLYAKLKMVLVDRGWLFYMIGFLLGRAVILSAVSPFAVAFLATMWLVYKEKAAKAMIAVLIGALSYSVDHGIFTALGLFVFLFLAGLFKQAKNQQLLIPFFVFLASVSTRIFQYSIEQQLAAYEWMLVFVEGVLGTVLVLIFMQSMPLLSPKRYNPALKNEEIVCMIILLASILTGTIGWTLYGAAVEQVLARYFVLILAFVGGAAVGSTVGVVTGLILSLANVANLYQMSLLAFSGLLGGLLKEGKKPGVAIGLFVGTFLIGIYGNMTALIPSIIETSMAVVLFLLTPAGWFKKLSRLIPGTEEYTNEQEQYLQKVRNVTAQRVEQFSGVFQALSNSFASADSHLEDEQEIRRETDYFLSQVTEKSCQNCFMKERCWQKEFDKTYSLMELLKEGLQEGGKPPKTTIREFENFCVKPQKVLDAMKEEVSYFEANQKLKQQVLESKKLVADQLQGVSEVMEDFAKEILKEREHHEQQEMQIIHALKQLGMELEKLEIYSLEKGNVDIEMTLTFYEYRGEGAKLIAPVLSDILSEVIVVKQEEIAPFPNGYSYLAFGTAREFVVETGAANAAKGGGLISGDSYTTIELGAGKYAMAISDGMGNGARAQEESVETLRLLQQILQTGIPEKVAIKSINSILSLRSTEEMFATLDLAVIDLHNAYVQFLKIGSSPSFVKRGNELLKIEASNLPMGIIQEFDVDIVGEQLLPNDLLIMMSDGIFEGPKHIENTDIWLKRKIRDMRTNDPQEIADLILEEVIRTRGGEIEDDMTVVVAKVKKNTPRWAGAPLYSVSS PGPT0024675_215 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_II_SPORULATION,PGPT0024675-spoIIE-K06382 NA NA AK015_03489 777 hypothetical protein ATGGCGATGATGGTACTGAAAAGTTGGGAGGTAGTTGGATTGAAAAAAGGCACTTTAAAACAAATATTACTTATTACAGATGGTTGTTCCAACAAAGGGGAGGATCCGGTTGCAGTAGCTTCAATCGCGCAACAACAAGGGATTACTGTTAATGTAATTGGCATATTAGATGATGGACATGCAGAACAAGATGAAAGTTTGCAAGAAGTAGAAGATATAGCTTTGTCTGGTGGGGGTGTTAGTCAGCTTGTTTACAAGCAATCTCTGTCGCAAACTGTGCAATCTGTTACCAAGCAAGCAATGACGCAAACAATGCAAGGATTTGTTAATAAAGAATTGGAGCAAATATTAGGTAAGGGCCAATCCATGGAAGATCTTGAACCAGAAAAACGTGGAGAAATTATGGAAGTAGTAGAGGATATGGGTGAGACTTGTGATCTAGAAGTGCTTGTTTTAGTAGATACAAGTGCAAGTATGTATGATAAGCTACCTACTGTAAAAGAAGCATTAATGGATTTATCCATCAGTTTAAATGCACGAATAGGACGAAATCGGTTTGCCATTTACCGCTTCCCTGGAAAACGAAAACAAATGGAAAGGATATTAGATTGGTCTCCAGCATTAGATAGCATTTCTTCTATCTTTCCTAAATTAACAAGTGGCGGAGTCACTCCGACTGGACCTGCTATTCGAGAAGCAATGTATCAATTTGGTAAGAAGAGCTTACGGAGGGGCTTTAAGTATGAAGATGAACAGCCAGGAATGGAAGAAGCTTGA MAMMVLKSWEVVGLKKGTLKQILLITDGCSNKGEDPVAVASIAQQQGITVNVIGILDDGHAEQDESLQEVEDIALSGGGVSQLVYKQSLSQTVQSVTKQAMTQTMQGFVNKELEQILGKGQSMEDLEPEKRGEIMEVVEDMGETCDLEVLVLVDTSASMYDKLPTVKEALMDLSISLNARIGRNRFAIYRFPGKRKQMERILDWSPALDSISSIFPKLTSGGVTPTGPAIREAMYQFGKKSLRRGFKYEDEQPGMEEA PGPT0014015_7082 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114 NA NA AK015_03490 945 yabT COG0515 putative serine/threonine-protein kinase YabT ATGAAGATGAACAGCCAGGAATGGAAGAAGCTTGATAATGACATTCGTCCAGGGATAAAGCTGCGCGGCAAATGGCATGGAAAAACATATCTTATTCAAAGAAAGCTTGGCGCTGGAGCCATTGGCGTTGTATATCTTTGTGTTTCTAATGGGAAGCAGGCCGCATTAAAAATTAGTGATAAACGTTCATCTATGACGGTAGAAGTAAATGTACTTCGGTCATTGGCAAAGGTCCAAGGAAATCGGCTTGGGCCTTCTTTATTAGATGTAGATGATTGGGCGTCACCACAAGGAATATGCTATTCTTTTTATGTGATGGAATATTTGCACGGAGAGCCACTAATTAGCTACGTTCAGCGAAGGGGACAAGCATGGATTGGTGTTTTTATGCTACAACTTTTAGATGCTTTACAAGAATTGCATCAAAGCGGTTGGGTGTTTGGGGATTTAAAAGCTGATAACTTGCTTGTTGTCTCCTCTCCTCCAAAAGTTCGTTGGGTTGATGTTGGTGGAACAACCCAAATAGGGAGATCCATTAAGGAGTACACAGAATTTTATGATCGTGGCTATTGGGGCTTAGGGACTAGAAAAGCAGAGGCAAGCTATGACTTATTTGCGTTTACAATGGTTTTTTTACATGTATATTATCCAAATCAATTTGCAAAAGAATCCTCTCCACAAAAACAGTTGTTTCGCAAAATTGATAGTGTAAAAGAGCTAGCACCGTATCGTATGGTTTTAAAGAAAGCGCTTGTCGGAAACTATCATACGAGTAAGCAGATGAAAAATGACTTATTAAAAATAATTTATACTACAGAACGAAAAAATATGCGTGCTCATCAACAACATGGACAGCAAACAAATTCATCCTCCTTATTTATCGATATAGGAGGCATATCCGCACTGGCAATCATTTATTATGCAGTTTCTTTGCTTTTTCAGTAA MKMNSQEWKKLDNDIRPGIKLRGKWHGKTYLIQRKLGAGAIGVVYLCVSNGKQAALKISDKRSSMTVEVNVLRSLAKVQGNRLGPSLLDVDDWASPQGICYSFYVMEYLHGEPLISYVQRRGQAWIGVFMLQLLDALQELHQSGWVFGDLKADNLLVVSSPPKVRWVDVGGTTQIGRSIKEYTEFYDRGYWGLGTRKAEASYDLFAFTMVFLHVYYPNQFAKESSPQKQLFRKIDSVKELAPYRMVLKKALVGNYHTSKQMKNDLLKIIYTTERKNMRAHQQHGQQTNSSSLFIDIGGISALAIIYYAVSLLFQ NA NA NA NA NA AK015_03491 1395 tilS COG0037 tRNA(Ile)-lysidine synthase ATGGAAGAAAAAGTGCGACAGTTTATGAAGCGACATCAGTTATTCACGAAAGGAGCAACGATTTTAGTCGGTGTCTCTGGAGGGCCAGACTCTATGGCATTATTGCATTATTTAAACACGATGAAGGAAAGTTGGGGGTTCCGAGTTGTTGCCATAACCGTTGATCATCAGCTTCGAGGGGAAGAATCATTAGCAGATGTATCTTATGTCAAACATATCTGTGAACAATGGCAAATTGAATGTGTTTCTACGTCTGTCAATGTTCCTGCTTGGAAACAAAAAAATAAACAAGGAACACAAATAGCCGCAAGAACGTTACGCTATACTGTATTTAAGGAGCAAATGGAGAAGTTTAAGGCAGATTATTTAGCGTTAGGCCACCACGGCGATGATCAAATTGAAACGATGGTGATGCGCCTTGTTCGTTCGGCTGATGTTCAAAGTTTTAAAGGGATACCTGTTAAACGTTCCTTTTCTAATGGTTGGATTGTGCGACCGCTTCTTTGTGTAACAAAAGGTGACATATGGGACTATTGTCAAGCGCATCAGATTGTACCGCGACTAGATCCTTCTAACGAAGAAACGGTATACACACGTAATTATGTCAGGCAGCATATTGTACCAATGTTAAAACAAAAAAATAGCAACTTACATACAACTGTGCAACATTTAAGTGAAACATTAGCTATTGACGGCGCTTATATTTTGCAAGAAGCAAAAAAAATGGTAGACGCTGTTGTATGTTTTGATTCAGCAAGGCTACAATTATCATTTGAAATTCATGCGTTTAAAACGTATGCATTTGCTTTACAAAGACGTGCCTATCATCTAATATTAAACTATCTGTATGTGGATGTTCCTGACAGTTTGTCTTATGTACATGAAGAGCAATTTTTGGCATTGATTTACCATCAAACGGGCAATGCACAGATCGATTTCCCCGCTGGACTAAAAGTAGAGAAGTCCTACGATCAAATAAGGTGTTACTTTCGTGATGACCTTTCTAGCTCATCATCATATCATAAGTTAATAAGTATCCCAGGGCAAACAATTTTACCTGATGGCTCCGTGATGTATGCTGAATGCGGTGAAGCGGTAACGGAACAAACGAAGTATAGCCTTACCATTCCCGTTAATCAGGTAGCACTTCCATTACATATAAGAACCCGAAAACAAGGCGATAAAATGCGTGTAGCCGGGTTAAACGGAAGGAAGAAACTAAAGGATATTTTCATTGATGCAAAAGTGCCTCGTCATCAACGAGCAACATGGCCGTTAGTGACAGATAATGACGGGGAAATTCTATGGTTAGTCGGTTTGCGAAAAGCAGCCGTTGCAAAACCTCAGATGAATACCTCACAAATACAATTATATTTTCAAGATGGCAACAGGTAG MEEKVRQFMKRHQLFTKGATILVGVSGGPDSMALLHYLNTMKESWGFRVVAITVDHQLRGEESLADVSYVKHICEQWQIECVSTSVNVPAWKQKNKQGTQIAARTLRYTVFKEQMEKFKADYLALGHHGDDQIETMVMRLVRSADVQSFKGIPVKRSFSNGWIVRPLLCVTKGDIWDYCQAHQIVPRLDPSNEETVYTRNYVRQHIVPMLKQKNSNLHTTVQHLSETLAIDGAYILQEAKKMVDAVVCFDSARLQLSFEIHAFKTYAFALQRRAYHLILNYLYVDVPDSLSYVHEEQFLALIYHQTGNAQIDFPAGLKVEKSYDQIRCYFRDDLSSSSSYHKLISIPGQTILPDGSVMYAECGEAVTEQTKYSLTIPVNQVALPLHIRTRKQGDKMRVAGLNGRKKLKDIFIDAKVPRHQRATWPLVTDNDGEILWLVGLRKAAVAKPQMNTSQIQLYFQDGNR NA NA NA NA NA AK015_03492 543 hpt Hypoxanthine-guanine phosphoribosyltransferase ATGCATAATGATATTAAAGAAGTGTTAATATCACAGGAGGAAATTGCAAATAAGTGTAAAGAATTAGGGGAACAATTAACGAGGGAGTATGATGGCAAGTTTCCACTAGCTATCGGTGTGTTAAAAGGTGCTATGCCGTTTATGTCCGATATTTTACGCTATACAGAGACGTATTTAGAGATGGATTTTATGGATGTCTCTAGCTATGGCAAAGAAATGCGTTCTTCTGGTGAAGTAAAGATTGTTAAAGACCTTGATACAAAGGTGGAAGGACGCGATTTGCTTATCATCGAAGACATTATCGATAGCGGTTTAACTTTACGTTATTTAGTGGATTTATTTAAATATCGCAAGGCTAATTCTGTTAAAATTGTTACATTATTAGATAAGCCGACAGGAAGAACTGCGGACATCAAAGCGGACATGATTGGTTTTGAAGTGCCTAATGAATTTGTTGTAGGCTATGGGTTAGACTACCAAGAGAAATATAGAAACTTGCCTTATATTGGTGTGTTAAAGCCAGAAGTATATGGTGGGGAATAA MHNDIKEVLISQEEIANKCKELGEQLTREYDGKFPLAIGVLKGAMPFMSDILRYTETYLEMDFMDVSSYGKEMRSSGEVKIVKDLDTKVEGRDLLIIEDIIDSGLTLRYLVDLFKYRKANSVKIVTLLDKPTGRTADIKADMIGFEVPNEFVVGYGLDYQEKYRNLPYIGVLKPEVYGGE PGPT0007295_2330 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760 NA NA AK015_03493 2064 ftsH COG0465 ATP-dependent zinc metalloprotease FtsH ATGAGCCGGATATTTCGGAATGCAGTTTTCTGGATAGTGATTGTCCTTGTGATTATTTCGGTTATTTCACTGTTCAGTGGGCAAAATGAAGAAGCAAAAGAATATAATGTTAAGCAATTTATGGATGCTTTAAATAATGGTGAGATTAAAGAAATGACCATGCAACCAGCTAACGGTATTATTCGTTACGAAGGTGTATTAGAAGACGAAGAAAAGCCGTTTGTTGCGCAAGTTCCAGATAATACAGATATTATTTCTTCCATTACGGAACAAGCAAATGAACAAAGTGACCTTTTTGTAGAAGAAGAAGAGCAACCGAGTATGTGGGTAACGCTTTTAACTACAATGATTCCGTTTTTAATCATTGGACTTCTCTTTTTCTTTATACTTAGTCAAGCCCAAGGTGGAGGCGGCGGCGGTCGCGTTATGAACTTTGGGAAGAGTAAGGCAAAAATGTATAGTGAAGATAAAAAGAAAGTTCGCTTTAAAGATGTAGCGGGTGCTGATGAAGAGAAACAAGAACTAGTAGAGGTAGTTGACTTTCTAAAAGATCCAAGAAAATTCTCTGCTGTTGGTGCTAGAATTCCGAAAGGTGTACTTTTAGTGGGACCTCCAGGAACTGGTAAAACATTATTAGCACGTGCCGTAGCAGGAGAAGCTGGTACACCCTTTTTCTCTATAAGTGGTTCAGACTTTGTGGAGATGTTTGTTGGTGTTGGTGCTTCGCGTGTACGTGATTTGTTTGAAAACGCAAAAAAGAATGCTCCTTGTATCATTTTTATAGACGAAATAGACGCAGTTGGTAGACAGCGTGGAGCGGGCCTTGGCGGTGGTCATGATGAGCGTGAACAAACTTTAAACCAATTGCTTGTAGAGATGGATGGTTTTGGTGCTAACGAAGGGATTATCATTATGGCAGCAACGAACCGTGCTGACATTTTAGATCCTGCTTTATTACGACCAGGCCGTTTTGATCGACAAATTATGGTAGACCGTCCAGATGTGAAGGGACGTAAAGAGGTTTTAGAAGTACATGCTAGAAACAAGCCGCTAGCGGAGGATGTTGATTTAAAAACAATTGCTATGCGTACGCCTGGTTTTTCAGGTGCTGATTTGGAGAACTTACTAAATGAAGCAGCATTAGTAGCAGCAAGACGAGACAGTAATAAAATTGAAATGCTTGATGTGGATGAAGCAATAGACCGCGTTATTGCGGGGCCTGCTAAGAAAAGCAGAGTGATTTCTGAAAAAGAGCGAGACATTGTAGCGTATCATGAAAGTGGGCATACCGTTATCGGAATGGTTTTAGATGATGCGGATATCGTTCATAAGGTTACCATTGTACCACGTGGCCAAGCGGGCGGTTATGCGGTCATGTTACCTAAGGAAGACCGTTACTTTATGACGAAACCAGAGCTTTTTGACAAAATAACAGGTCTTTTGGGTGGTCGTGTAGCGGAAGAAGTTATCTTCGGAGAAGTAAGTACTGGAGCTCATAACGACTTTCAGCGAGCAACAGCTATCGCTCGTAAGATGATTACCGAGTACGGTATGAGTGATCGGATTGGACCTTTACAGTTTACTTCTGGCGGTGGTCAAGTATTTTTAGGTCGCGATCTTAGCAATGATCAACAGTATAGTGATGCAATAGCGCACGAGATTGATCAAGAAATGCAAAACTTTATTAATTACTGTTATGATCGTGCGAAAGCAATTCTTACCGAGCATAAAGATAAGCTTGAATTAATTGCTAAAACTTTACTTGAAGTGGAAACACTAGATGCAAAACAAATAAAATCATTATTTGAAAAAGGCGTCCTTCCTGAACCGGAAGAAGATGATATGAAAGTGAATATTAAACCAAAAGATGAAGCGCCAGAGACGTATGAACAGGCAAAGGAAAAAGCGCTAAATAAACAACAAGAGAAAAAAGAAGATATCACAACGGATAATAAGCCACCTACACGTCCTAATGATGATACAACATCAAAAGAGCAAAAACCTTCATCTTTGGATGAAATAACAACGGACAATAAACCTTCATCAGAAGATGATGAAAAGTAA MSRIFRNAVFWIVIVLVIISVISLFSGQNEEAKEYNVKQFMDALNNGEIKEMTMQPANGIIRYEGVLEDEEKPFVAQVPDNTDIISSITEQANEQSDLFVEEEEQPSMWVTLLTTMIPFLIIGLLFFFILSQAQGGGGGGRVMNFGKSKAKMYSEDKKKVRFKDVAGADEEKQELVEVVDFLKDPRKFSAVGARIPKGVLLVGPPGTGKTLLARAVAGEAGTPFFSISGSDFVEMFVGVGASRVRDLFENAKKNAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFGANEGIIIMAATNRADILDPALLRPGRFDRQIMVDRPDVKGRKEVLEVHARNKPLAEDVDLKTIAMRTPGFSGADLENLLNEAALVAARRDSNKIEMLDVDEAIDRVIAGPAKKSRVISEKERDIVAYHESGHTVIGMVLDDADIVHKVTIVPRGQAGGYAVMLPKEDRYFMTKPELFDKITGLLGGRVAEEVIFGEVSTGAHNDFQRATAIARKMITEYGMSDRIGPLQFTSGGGQVFLGRDLSNDQQYSDAIAHEIDQEMQNFINYCYDRAKAILTEHKDKLELIAKTLLEVETLDAKQIKSLFEKGVLPEPEEDDMKVNIKPKDEAPETYEQAKEKALNKQQEKKEDITTDNKPPTRPNDDTTSKEQKPSSLDEITTDNKPSSEDDEK NA NA NA NA NA AK015_03494 786 coaX COG1521 Type III pantothenate kinase ATGTTACTTGTACTAGATGTTGGGAATACAAATACCGTATTGGGGGTCTTTGAAGGAGAAAATTTAAAGCACCAATGGAGAATTAAAACGGATCGACATAAAACAGAGGATGAATACGGCATGTTAATGCAATCCCTGTTTGCTTACAAAGGCATTTCTAATTCCGATATATCCGGAGTCATTATTTCTTCTGTCGTACCGCCAATTATGTACGCGTTAGAAAAGATGTGCAAGGACTATTTTCAAATAGAACCGATGATTATTGGGAAGGAACCTGTACATAATTATTTAAAAATGCAGTATCCCAATCCGAAAGAAATTGGGGCAGATCGAATTGTTAATGCAGTAGGCGCTATAGAAGAATATGGCGCACCACTTATCATTATTGATTTTGGGACAGCAACTACTTACTGCTATATAAATGAAAAAAAAGAATATTATGGCGGCGTCATTACTCCTGGCTTAAATGTGGCAATGGAAGCCTTGTACAATAGAGCTTCAAAATTACCAAAAATTGAAATACAAGCACCGCCCCATGTTATTGGAACATCTACTGTAGAAGCTATGCAATCTGGCGTTGTTTATGGATATGTAGGACAAGTAGATGGAATCGTTCGCCGTATGGAAATAGAAATGAATACGAGTACAACAGTTATTGCAACTGGCGGTTTAGCAGCTTTGATAGCTAATGAATCAGAAGTCATTCATCAAGTTGATCCATATTTAACCTTAAAAGGTTTGCGAATAATTTATGATAGGAATAAAGGTTCTAATAATAATTTCTAA MLLVLDVGNTNTVLGVFEGENLKHQWRIKTDRHKTEDEYGMLMQSLFAYKGISNSDISGVIISSVVPPIMYALEKMCKDYFQIEPMIIGKEPVHNYLKMQYPNPKEIGADRIVNAVGAIEEYGAPLIIIDFGTATTYCYINEKKEYYGGVITPGLNVAMEALYNRASKLPKIEIQAPPHVIGTSTVEAMQSGVVYGYVGQVDGIVRRMEIEMNTSTTVIATGGLAALIANESEVIHQVDPYLTLKGLRIIYDRNKGSNNNF PGPT0008780_921 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 AK015_03495 885 hslO 33 kDa chaperonin GTGAAAGACTTTATTATAAAAGCAACGGCTTATAATGGAATGGTGCGTGCTTATGCAGCGCTTTCTACAAATACAGTGGAAGAGGCACGTCAACGGCATGATACATGGGCAACTGCCTCGGCTGCTCTAGGAAGAACACTTATAATTACTGGTATGATGGGTGCTATGTTAAAAGGGGAGGATTCTATTACTACAAAGGTGATGGGAACGGGCCCTTTAGGAGCAATCATTGCTGATGCAGATGCAAAAGGACATGTTCGTGGCTATGTAATGAATCCGCATGTAGATTTTGAACTAAATGAAAAAGGGAAACTAGATGTTGCTAGAGCAGTTGGGAAAGAAGGAAGCATTAGTGTTATAAAAGATTTAGGCTTAAAAGATTATTTTACAGGAGAAGTTCCAATTATTTCCGGGGAAATAAGCGAGGATTTCACCTATTATTTTGCAAATTCCGAGCAAATTCCTTCAGCTGTTGGGGCTGGTGTTTTAGTTAATCCTGATCATAGTATTTTAGCAGCTGGAGGATTTATTGTACAGCTTATGCCTGGAGCTAGTGATGAAGTTATTCAACAGCTAGAAGAGCAAATTCAATCTTTTCCACCGATTTCTTCCCTTATCCGCGAAGGAAATACACCAGAGCAAATTTTGCAACGTTTATTTAGAGGTCAGGAAATTAAAATACATGAATCATTACCGATGGAATTTCACTGTAGATGTTCTAAAGAACGTGTTGAGCGAGCTATTCAAGGTCTTGGGGAAGCGGAAATCCAAAGTATGATAGAAGAAGATCATGGAGCTGAAGCAAGCTGCCATTTTTGCAATAAGACGTATCAGTTTGCAGAAGAAGATTTGCGTCTTTTAAAGCAAAGCTTGAGTGAAAATTAA MKDFIIKATAYNGMVRAYAALSTNTVEEARQRHDTWATASAALGRTLIITGMMGAMLKGEDSITTKVMGTGPLGAIIADADAKGHVRGYVMNPHVDFELNEKGKLDVARAVGKEGSISVIKDLGLKDYFTGEVPIISGEISEDFTYYFANSEQIPSAVGAGVLVNPDHSILAAGGFIVQLMPGASDEVIQQLEEQIQSFPPISSLIREGNTPEQILQRLFRGQEIKIHESLPMEFHCRCSKERVERAIQGLGEAEIQSMIEEDHGAEASCHFCNKTYQFAEEDLRLLKQSLSEN PGPT0014645_1861 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083 NA NA AK015_03496 900 prsA_3 Foldase protein PrsA ATGTCAAAGAAGTTAATGTTAGGTATAATTGTCCTATTGTTAGTAACAAATATCGCCACTTTGTTCGTATGGAACCAAGAAGAAGTAGATATTGAAACAGGTAATGGCAAGAAGTATAAAAATAACGAAGCTGCAGCCACCGTTAATGGAGAAGAAATAAGCATTGAGGAGTGGCGAAAGGCTTTACGTGATACATATGGTGAAGAACATTTAAAAGCGATGATTGATCGGGAAATTGTAAACCAATTAGCGAACGAAAGAGACATTTCCATAAGTGATAAAGTGATTGAAAGAGAGATATCTCTGTTGCTTGCTATGCAAGGTGTTCTAACCGAATCAGAATATGAAGATTTGGAAGCGAAGTGGGAAAAGGATATTCGACATCGCTATCAGCTGGAGAGGTTATTAACAGAAGATGTTTCGGTAACGGATGATACGATGAAAGAGCATTATGAAACATATGGCGAGCAATATAATTTTACAGCTTCGATGCAACTGTCCCATATTATTGTAAAAGAAATGGAAACTGCTGAGAAGGTATACAATGAATTAGAACAGGGGGCGTCTTTTAATTTACTAGCCCAAGAGTATTCTGTCGATGAAGAAACGCGTGGGGTTGGAGGATATTTAGGGTATCTATCTACAGAAAGCCAATACTTTCCAGATAGTTACGAAGTGATTGTCAATAATTTGCAGGAGTTCTCTTATAGTGAACCTTTTGAGGTGGGAGGAGAGGTTGCGCTCATCTACCTTCATCGAAAACTGCCTTCAATAACCTTTACGTATGAAGAAATGAAACCGTATATAATGAGTGAATTAGCTTTACAGGAGAAGAAACAAACCTTAGAAGCTGATCCGCTGTGGGAAAGTCAGGATATTGAATGGATTTATTCTGAATAG MSKKLMLGIIVLLLVTNIATLFVWNQEEVDIETGNGKKYKNNEAAATVNGEEISIEEWRKALRDTYGEEHLKAMIDREIVNQLANERDISISDKVIEREISLLLAMQGVLTESEYEDLEAKWEKDIRHRYQLERLLTEDVSVTDDTMKEHYETYGEQYNFTASMQLSHIIVKEMETAEKVYNELEQGASFNLLAQEYSVDEETRGVGGYLGYLSTESQYFPDSYEVIVNNLQEFSYSEPFEVGGEVALIYLHRKLPSITFTYEEMKPYIMSELALQEKKQTLEADPLWESQDIEWIYSE NA NA NA NA NA AK015_03497 930 cysK_3 Cysteine synthase ATGAAAGTTGCTCAAAGTGTAGCAGAATTAATTGGTGAGACTCCGATTGTGAAATTAAAAGGTATTGTAGATGAAAATAGTGCAGATATTTATGTGAAGTTGGAATTTATGAATCCAGGTAGCTCCGTAAAGGATCGAATTGCTTTAGCCATGGTGGAAGCTGCGGAACGAGAGGGCAAGTTAAAGCCAGGAGATACGATTATAGAGCCAACAAGTGGTAATACAGGGATAGGCTTAGCGATGGTTGCAGCTGCAAAAGATTATAAAGCAATCCTAGTTATGCCTGATACGATGAGTTTAGAACGTCGTAATCTTTTACGAGCTTATGGAGCAGAGCTTGTGCTAACTCCAGGAGCAGAAGGAATGAAGGGTGCTATTCATAAAGCAGAAGAGTTACAAAAAGCACATGGCTACTTTATGCCACAGCAATTTAATAATTTTGCAAACCCTGATATTCATGAAAAAACAACGGGTAAAGAGATCATCGCCCAAATGAGTGATGGATTAGATGCTTTTATTGCTGGTATTGGCACAGGGGGAACCATTACTGGAGCAGGAAAAGTTTTAAAGGACCATTTCGATCATCTGCAAGTATTTGCTGTTGAACCAGCGTCTTCAGCAGTACTGTCTGGGGAAAAGCCTGGTCCCCATAAGATACAAGGAATAGGAGCAGGTTTTGTGCCAAGTATTTTAAATACGGAAATATATGATGATATATACCAAATTGAAAATGATGAAGCATATGAAGTTGCCCGCGAAGTTGCCACGAATAACGGCATTCTTGGAGGCGTTTCTGCAGGTGCAGCTATAGCCGCAGCAAAGAAAGTAGCCAAAAAGCTAGGAAAAGGAAAAAAAGTATTGGCCATTTTTCCAGATAATGGGGAAAGGTATTTATCAACACCACTTTATCAATTTGGAGATGAAGATTAA MKVAQSVAELIGETPIVKLKGIVDENSADIYVKLEFMNPGSSVKDRIALAMVEAAEREGKLKPGDTIIEPTSGNTGIGLAMVAAAKDYKAILVMPDTMSLERRNLLRAYGAELVLTPGAEGMKGAIHKAEELQKAHGYFMPQQFNNFANPDIHEKTTGKEIIAQMSDGLDAFIAGIGTGGTITGAGKVLKDHFDHLQVFAVEPASSAVLSGEKPGPHKIQGIGAGFVPSILNTEIYDDIYQIENDEAYEVAREVATNNGILGGVSAGAAIAAAKKVAKKLGKGKKVLAIFPDNGERYLSTPLYQFGDED PGPT0002810_6156 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 AK015_03498 825 folP Dihydropteroate synthase ATGATGCGATTAATAACGAAAAAACAATCGTATGATTTAACGGATCGCACACTCATTATGGGTATAATAAACGTCACGCCGGATTCTTTTTCAGATGGCGGAAATTATAATACGGTTAAAAGTGCTATTGAACAAGCCGTAAAGCTGGAGAAAGATGGTGCACATATACTTGATATTGGCGGCGAATCTACACGACCTAATCACGAGCCGGTTTCTCAGGAAGAAGAAATTGCCCGTGTGGTTCCTATTATTCGTGAAGTAAAGAAGCATGTCAGCATACCAATTTCGATTGATACATATAAAGCGGAGACTGCCAAAGCGGCATTAGATGCAGGTGCTGATATGATTAACGATGTGTGGGGTGCTAAACGAGAGCCAGACATTGCGAAAGTAGCTAAAATGTATAACGTTCCGATTATATTAATGCATAATCGAACGAACATGAATTATCAAGATTTAATTCCTGATATGCTCACGGATTTGGAAGAAAGCATAAATATTGCGCTAGATGCAGGCGTTTTACATGAACAAATTATTATCGATCCTGGTATTGGTTTTGCGAAGACGGCAGAACATAATCTACTCGTCATGAATCAATTAGAGCGTTTTTCCGAGCTAGGATATCCACTACTTTTAGGAACTTCTAGGAAACGATTCATAGGGCATATCTTGGATGAACCTCCACAAAATCGTGATATTGGTACAGGGGCAACAACTTGCATGGGAGTTATGAAAGGCGCTCAAATCATTCGGGTACATGATGTAAAAACAAATGGACAGCTTGCTAAAATGATGGATGCAATGCTTCATGTAAAAAGAGGTTGA MMRLITKKQSYDLTDRTLIMGIINVTPDSFSDGGNYNTVKSAIEQAVKLEKDGAHILDIGGESTRPNHEPVSQEEEIARVVPIIREVKKHVSIPISIDTYKAETAKAALDAGADMINDVWGAKREPDIAKVAKMYNVPIILMHNRTNMNYQDLIPDMLTDLEESINIALDAGVLHEQIIIDPGIGFAKTAEHNLLVMNQLERFSELGYPLLLGTSRKRFIGHILDEPPQNRDIGTGATTCMGVMKGAQIIRVHDVKTNGQLAKMMDAMLHVKRG PGPT0007915_4160 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796 NA NA AK015_03499 366 folB COG1539 Dihydroneopterin aldolase ATGGATAAAATACTTTTACAACAACTGCAATTTTATGGTTTTCATGGATTGCTACCAGAAGAAAATAAATTAGGGCAACGTTTTCAAGTGGACGCTACGCTCTATCTAGATTTAAGTAAGCCTGGAAACAGTGACGATATGAATGATTCGATTCACTACGGGCAAGCCTATGAATATATTAGGGAAATTGTGGAGGGGGAAGCGAAACAACTAATCGAATCGGTGGCTGAAAATATTGCAGAAAAGTTATTAACGTCATTTGATATACTTGAAGCATGTAACATAAAGCTTATTAAGCCAGATCCACCGATTCCAGGTCAATACCATTCTGTGGCCGTAGAGATATATAGGGAGAAGGTAAAATGA MDKILLQQLQFYGFHGLLPEENKLGQRFQVDATLYLDLSKPGNSDDMNDSIHYGQAYEYIREIVEGEAKQLIESVAENIAEKLLTSFDILEACNIKLIKPDPPIPGQYHSVAVEIYREKVK PGPT0007905_1953 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633 NA NA AK015_03500 519 folK COG0801 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase ATGAATCACGTATATATAGCATTAGGAACCAATATCGAACCAAGAGAAAATTTTTTAAAAGAAGGCGTACGTCTATTACAGGAACATGCACAAATTCATATTACAAAAACATCATCTATCTACCAGACAGCACCTGTAGGCTATACGGAGCAAAATGATTTTTTAAATATGGTCATAGAAGTGGAGACCAGTTGCTTACCATTGGAACTATTAGCATACTGTCAACAAATAGAAAACGAATTAGGCAGGAAACGAATCATTCGCTTTGGTCCTCGTACAATAGACCTTGACATTTTATTATATAATCAAGAAAATATAGAAATGGAGCGTTTAACAATTCCGCATCCGCGCATGCATGAACGTGCATTTGTACTTGTACCTTTAAACGAAATTGCACCACAAGCTATATTGCCATTACCTAATGGAGAAAAAGAAGTAAGTATGGTTGTAACGGAACTGCCAGGAAATGACTTAAAGGATGTAGTGAAATGGACCAAAAAAGATTCGGTAGACGAATAA MNHVYIALGTNIEPRENFLKEGVRLLQEHAQIHITKTSSIYQTAPVGYTEQNDFLNMVIEVETSCLPLELLAYCQQIENELGRKRIIRFGPRTIDLDILLYNQENIEMERLTIPHPRMHERAFVLVPLNEIAPQAILPLPNGEKEVSMVVTELPGNDLKDVVKWTKKDSVDE PGPT0007910_1451 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950 NA NA AK015_03501 222 hypothetical protein ATGGACCAAAAAAGATTCGGTAGACGAATAAAAGCTTTTCGTAAATTAAAAGGGTATACCCAGGTGGAATTTGCCAAAAAGCTTTGTGTTCCACTGTCTGTTATTGGCAGTATAGAGCGAGGTGTTAAGCCGATTTCTGATGATCTTTTAGACATAGTAGTGCATACACTTGATATCTCTAAAGAAGAGCTTATGCTTTACGATGACGATAATACAGGTTAA MDQKRFGRRIKAFRKLKGYTQVEFAKKLCVPLSVIGSIERGVKPISDDLLDIVVHTLDISKEELMLYDDDNTG NA NA NA NA NA AK015_03502 1485 lysS Lysine--tRNA ligase GTGTCTGAAGAAATAAATGAGCACATGCGAGTACGTAAAGAAAAAATGCAGCAATTAAAAGAACAGGGAATAAACCCTTTCGGAGAACGATTTCCCCGTTCTCATGTTGCAAGTGAATTAAAGGATTTATATGATCGCTATTCTAAGGAAGAATTGGAAAGTAAGGAAGAGCAAGTGACAATCGCAGGAAGAATGATGACGAAACGCGGGAAGGGAAAAGCAGGCTTTGCTCATATTCAAGATATTAGTGGCCAAATACAGCTTTATGTTCGTAAAGATTCTGTCGGAGAAGCTGCATATGAGGTTTTTAAAACAAGTGATATTGGTGACATTGTCGGTGTAACTGGGGTTATGTTTAAAACGAAGGTAGGAGAGTTGTCTGTTAAAGCGACGGATTTCCAACTACTTACTAAATCTTTACGACCTTTACCGGAGAAATATCATGGTTTGAAAGATATTGAGCAGCGATATCGCCAACGTTATCTGGATTTAATTACGAACATGGATAGTAAAGAGACATTTGTATTGCGCAGTAAAATTATTCAAGCAATGCGCCGTTACTTAGATGGTCAAGGTTTTTTAGAGGTGGAAACGCCTATGTTACATGGCATACCAGGAGGTGCTACAGCAAGACCTTTTATTACCCATCATAATGCATTAGATGTAGAACTCTACATGCGTATTGCTATAGAATTGCATTTAAAAAGGTTAATCGTTGGTGGTTTGGAAAAAGTTTACGAAATTGGTCGTGTGTTTCGTAATGAAGGAATTTCCACAAGACATAATCCGGAATTTACGATGATAGAATTGTATGAGGCTTATGCTGATTATCATGACATTATGGATTTAACAGAGCGACTTGTTGCGCATATCTCTAAGGAAGTTTTAGGTACGACAACAGTAACTTATGGCGAGCATGAAGTGAACTTGGCTCCAAAATGGACGAGAAAACATATGGTTGATGCGATTAAAGAAAAGACGGGCGTTAATTTCTGGCCACAGATGAGCGATGATGAAGCTCGAGCTTTAGCGAAGGAGTATGGCGTAGAAATCACTGAAACGATGATATATGGTCACATTGTAAATGAGTTTTTTGAACAAACAGTCGAAGAAGATTTAATTCAGCCAACGTTTATCTACGGTCATCCTGTAGAAGTCTCCCCTTTAGCTAAGAAAAATAAACAAGATGAACGATTTACCGATCGATTTGAATTGTTTATTGTTGGACGAGAACATGCAAATGCATTTAGTGAGTTAAACGATCCAATTGATCAGCGTGAACGATTTGAAGCGCAAGTGAAAGAAAGGGCAGCTGGAAATGATGAAGCTCATTATATGGATACAGATTTCTTAGAAGCACTAGAATATGGGCTTCCGCCAACTGGTGGGTTAGGTATAGGTGTAGACCGTCTCGTAATGTTGTTAACAAATTCAGCTTCCATCCGAGATGTATTATTATTTCCACAGATGAAAAATAAAGAATAG MSEEINEHMRVRKEKMQQLKEQGINPFGERFPRSHVASELKDLYDRYSKEELESKEEQVTIAGRMMTKRGKGKAGFAHIQDISGQIQLYVRKDSVGEAAYEVFKTSDIGDIVGVTGVMFKTKVGELSVKATDFQLLTKSLRPLPEKYHGLKDIEQRYRQRYLDLITNMDSKETFVLRSKIIQAMRRYLDGQGFLEVETPMLHGIPGGATARPFITHHNALDVELYMRIAIELHLKRLIVGGLEKVYEIGRVFRNEGISTRHNPEFTMIELYEAYADYHDIMDLTERLVAHISKEVLGTTTVTYGEHEVNLAPKWTRKHMVDAIKEKTGVNFWPQMSDDEARALAKEYGVEITETMIYGHIVNEFFEQTVEEDLIQPTFIYGHPVEVSPLAKKNKQDERFTDRFELFIVGREHANAFSELNDPIDQRERFEAQVKERAAGNDEAHYMDTDFLEALEYGLPPTGGLGIGVDRLVMLLTNSASIRDVLLFPQMKNKE PGPT0012225_5183 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS FUNGICIDAL_COMPOUNDS|ANTIBIOTICS FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567 NA NA AK015_03503 273 hypothetical protein ATGTCTCAATGGTACACAAATAAAGAATTATTTGAGCAAATTGCGGCTATTCAAGGTGAGTTTAAAGATTTGCGACATGAGATGCAAGAGACACGAAATATGATTAAGAAATATAATGGTTTACGCGAAGAGCTAGGGGTTGTGAAAGAAAAGGTAGAGAGAATGGAAGCGAAAACAGAAGGAAAATTTACGGTGTTGGAAGCTATCCGCCTTTGGGGTGGTTGGCTTTTTGCTTTTATTACACTGTTAATTTTGATTGGACAATATATTTAA MSQWYTNKELFEQIAAIQGEFKDLRHEMQETRNMIKKYNGLREELGVVKEKVERMEAKTEGKFTVLEAIRLWGGWLFAFITLLILIGQYI NA NA NA NA NA AK015_03504 225 hypothetical protein ATGGATAAAGGTACGGTGGTTAGAACAATAGCGTTAGCGATAGTTTGGATCAATGCGGTTTTAGTAAATTACAATTTACAGCCTATACCATTGTTAGAAGAGGAAGTTATTGCTTATGGAGTTACATTTATAGTCTCTGTGTGGACATGGTTTAAAAATAATTATATTACGCTTAGGGGAAGGCAACAAAAAGAAGTGCTACAAAGGTCAAACCTTACCAAATAG MDKGTVVRTIALAIVWINAVLVNYNLQPIPLLEEEVIAYGVTFIVSVWTWFKNNYITLRGRQQKEVLQRSNLTK NA NA NA NA NA AK015_03505 921 hypothetical protein ATGGCAAGAATCGCTATTGGTGCTGGGCATGGAATGCATACGCCGGGTAAACGAAGCCCTGCTGGAGAAAGGGAGTGGACATTTAATAATAAAGTTGTGTCTGCGGCTATCAAGTATTTAAATAGGTATGCGAATACCACTGTTATACGGATGGACGATCCTACAGGAGATACAGATGTGCCGTTAACGACAAGAACGAATGTAGCAAATAATGCTGATGCAGATATTTTAATATCCTATCATCATAATGCGAATACCGGGCAATGGGGTTCTTGGACAGGAACAGAGACGTATTACTATCCGGGGTCATCTAGTGGATTAGCTTTAGCAAGAGCTATTCATCCAAGTATTGTCGGGGCGATGGGATTACGTGATCGAGGTATAAAATCGGCAAATTTTCATATGCTTCGGGAGTCCATAATGCCCGCTATTCTCATTGAAGGTGGATTTATGGATTCTACCATTGATATTGTCAAAATGCGCAATAATACGACGATGGACCTTACTGGAAAAGCTTTAGCAGATGCTATTGCTGCATATTTGGGATTACAGCCAGAGGGAGGCGGGACTACGTATACGGTTAAAGCAGGAGACTCATTATGGGGGATTGCACAGGCACATAGTATGACTGTTAGCAAGTTACAGGTGTTAAACAACCTTACCGATGACATCATTTATCCTGGACAAGTACTAGTCGTTAGTGGAGTCCCTTCAGGAAGTGCAAGTTTTGTAGAAGTAATTACTGCTAGTTTATGGGTATATAATGCTCCTGACTGGGACGCAAAATACGAAATAGTGCACCAAGGAGAGGTGTTTACGGTAAATGATGAATTATATGTAAATGGATCTAAAATGTATAAGTTAAAGTCTGGGTTATATATTACCGGAAATTCAAACTATGTACGTTATTTTTCTAAGTAG MARIAIGAGHGMHTPGKRSPAGEREWTFNNKVVSAAIKYLNRYANTTVIRMDDPTGDTDVPLTTRTNVANNADADILISYHHNANTGQWGSWTGTETYYYPGSSSGLALARAIHPSIVGAMGLRDRGIKSANFHMLRESIMPAILIEGGFMDSTIDIVKMRNNTTMDLTGKALADAIAAYLGLQPEGGGTTYTVKAGDSLWGIAQAHSMTVSKLQVLNNLTDDIIYPGQVLVVSGVPSGSASFVEVITASLWVYNAPDWDAKYEIVHQGEVFTVNDELYVNGSKMYKLKSGLYITGNSNYVRYFSK PGPT0024160_5115 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448 NA NA AK015_03506 777 fabI COG0623 Enoyl-[acyl-carrier-protein] reductase [NADH] FabI ATGAGTAACTTAGTAGAAGGTAAAAATATTGTCATCATGGGCGTTGCCAGCGAACGAAGCATCGCTTGGGGTGTAACGACTTCATTACATAAAGCCGGTGCAAATTTAATTTTCACATACCGTCAAGATAGATCTTACGGTAAGCTAACAAAATTGCTCGAAAAGCATAACATTGAAGCTAAATGGATCGTCGAATGTGATGTTGCAAGTGATGAAAGTATTACAAATGCATTTGCTACTATTAAAGACAAGGTAGGAGTCATTCACGGTGTTGTGCACTCTGTAGCTTTTGCCAATCGTGATGAGTTAAAGGGAGAATACGCAAATACGTCCAGAGAAGGATTTCTATTAGCACATGAAATTAGCGCTTTTTCATTAGTTGCTGTTACAAAAGCTGCTAAAGAGCTCATGACAGAAGGTGGCAGCATCGTCACACAAACCTATCTCGGTGCAGAAAAAGTCATTCAAAATTACAATATCATGGGCGTCGCCAAAGCTTCCCTTGAAGCAAGCGTCCGTTATCTTGCTGAAGACATGGGCAAATATGATATTCGTGTCAACGCAGTTTCTGCTGGTCCTATCCGCACATTATCCGCCAAAGGGGTTTCCGGGTTTAATGAAAAACAAGGGCTTATTGAAGAAAAAGCACCTCTACGAAGAAATGTAGACCAAGATCAAGTGGGAGACGCAACATTATTTTTTATGAGCGAGCTATCACGCGGCGTAACTGGAGAAGTCCTCCATGTGGATTCTGGATATCATATTATTGGTGGCTAA MSNLVEGKNIVIMGVASERSIAWGVTTSLHKAGANLIFTYRQDRSYGKLTKLLEKHNIEAKWIVECDVASDESITNAFATIKDKVGVIHGVVHSVAFANRDELKGEYANTSREGFLLAHEISAFSLVAVTKAAKELMTEGGSIVTQTYLGAEKVIQNYNIMGVAKASLEASVRYLAEDMGKYDIRVNAVSAGPIRTLSAKGVSGFNEKQGLIEEKAPLRRNVDQDQVGDATLFFMSELSRGVTGEVLHVDSGYHIIGG PGPT0008370_3024 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208 NA NA AK015_03513 774 hypothetical protein TTGGATATTGATACGTATCGTTTCTCAGATGGTCAATTAGATTCTTTACTAGAAGAAATGCTTGAAAACATCGGACATACTGATCCTGAAATACGAGACGATCTTATTTACAATAGTTTCGTTAAACTGATATTGAAAGATTACGTAACGAAAGAGCAAACAATATATATTTTACAAAAGTGCATGAGTGAACAGTACCTGTTTTTTAATATAGAAGATAAAACGATAGGAGATAGCGTGTTTACTCGCTCATTTTCAGCGCTTGTAATAGCTACAATTTTATATAAGGATGCAACAACTAGAAACTTATCTAGTGAGCTCGTATTGCAGGCCATTCATGTAGGTATAGAATACTTGTTATTAGAACAGGACTATCGTGGTTATGTTAAAGAAAAAGGCTGGGCACATAGCATTGGACATGGTAGTGATCTGCTAGCTACTTGTGTATTACATCCTGAATTTGACGTCAACCAAACAAAAGCATGTCTTCATGCAATAAGGACATGTGTTTTGGTTGAATATCCTTATATTGATGAAGAAGACGAACGTCTCATTCAAGTTATGGAAGCTTTAATTAAAAAAGGTATGAAAGATATAGAATTACGCAATTGGATTGAAGATTTAGAAGTAGAACTCCATCTCTCTCATAAAAGATACCGTATTGAATGGAATGTGAAACTTTTTTGTTATTCCTTATACATAGCTCTGTTAAAACACAGAGAATTTTCAGCATCTAGGCAAGCCATTTTAGATAAATACCAGCAAAATAATTAA MDIDTYRFSDGQLDSLLEEMLENIGHTDPEIRDDLIYNSFVKLILKDYVTKEQTIYILQKCMSEQYLFFNIEDKTIGDSVFTRSFSALVIATILYKDATTRNLSSELVLQAIHVGIEYLLLEQDYRGYVKEKGWAHSIGHGSDLLATCVLHPEFDVNQTKACLHAIRTCVLVEYPYIDEEDERLIQVMEALIKKGMKDIELRNWIEDLEVELHLSHKRYRIEWNVKLFCYSLYIALLKHREFSASRQAILDKYQQNN NA NA NA NA NA AK015_03514 1290 mvaA 3-hydroxy-3-methylglutaryl-coenzyme A reductase ATGCAGACTTCCAGAATTCCTGGTTTTTATAAGCAAACAGTTACAAAGCGAAGAGAATTGCTAAAAAACGTGGAGGCGTTTACGGAAGAAGCTTTTCATGTCCTTTCTTCACCAGAACCTCTTCCGCTTGATACAGCTGATAACATGATCGAAAATGTTATTGGAACTTTTCCCCTTCCTTTAGGAACAGGATTGAACTTTCTTATAAATGGGAAAGAATATATAGTGCCGATGGTTATTGAGGAACCATCTGTTGTAGCATCTGCTAGTCATATTGCTAAAATTGTACGTGAAGCAGGAGGCTTTACTACGGAAGCTACGGAAAGAGTAATGATTGGACAAATTCAAGTAGTTGGATGTACAGATTTTCACAAAGCAAAAGCTGCTCTACTTTACGCGGAAGACGCATTAATTGAACAGGCTAATGCTTCTTATCCAAGCATTGTGAAACGTGGTGGTGGCGCAAAAGAAATCGATGTAAGGATACTTAATGAAGACGCTACGTCGAGCTACCAGCAAATGCTCGTTCTTCACTTATACATTAATACATGTGATGCTATGGGAGCAAATATTATTAATACAATGGTTGAATCGCTTGCTCCAACAGTAGAAGCGTTGACTGGTGGGAAGGTGTATTTGCGCATATTGTCGAATTTAGCCGATCGGTGCTTAGCTCGTGCTACTTGTACAGTCCCGCCTCATTTGTTGAAAACAGGTGACTTCTCTGGCGAAGAAGTAAGAGACGGCGTCATTCACGCATACGAATTTGCTGCGTCTGATCCGTATCGAGCAGTTACGCATAACAAAGGAATTATGAACGGGATTGATCCGGTTGTTATTGCAACAGGAAATGACTGGCGTGCGGTTGAAGCAGGTGCGCATGCATATGCAGCTCGTGATGGACAGTATACCTCAATGACAACGTGGTCTGTTGATGCAGAGGGAAATCTTGTAGGTGAATTGGAGTTGCCGATGTCTGTTGGGATCGTTGGGGGTTCTATCAATGTTCACCCAATGGCAAAGGCTGCGTTAGATATATTACATGCATCGTCTGCCCAAGAGCTATCACAGGTAATTGTTGCAGTCGGTCTCGCACAGAATTTAGGCGCATTAAAAGCGTTAGCTACCGATGGTATACAAAAAGGCCACATGGCTTTACATTCTCGTTCTGTTGCCATAGCAGCAGGAGCTACTGGGGAGTTGATTGATATCGTGTCGAAAAAATTAGTAGAAATAAACGAAATCCGTGTTGGCAAAGCTAAAGAACTGGTGGAAGAGTATATAAAATGA MQTSRIPGFYKQTVTKRRELLKNVEAFTEEAFHVLSSPEPLPLDTADNMIENVIGTFPLPLGTGLNFLINGKEYIVPMVIEEPSVVASASHIAKIVREAGGFTTEATERVMIGQIQVVGCTDFHKAKAALLYAEDALIEQANASYPSIVKRGGGAKEIDVRILNEDATSSYQQMLVLHLYINTCDAMGANIINTMVESLAPTVEALTGGKVYLRILSNLADRCLARATCTVPPHLLKTGDFSGEEVRDGVIHAYEFAASDPYRAVTHNKGIMNGIDPVVIATGNDWRAVEAGAHAYAARDGQYTSMTTWSVDAEGNLVGELELPMSVGIVGGSINVHPMAKAALDILHASSAQELSQVIVAVGLAQNLGALKALATDGIQKGHMALHSRSVAIAAGATGELIDIVSKKLVEINEIRVGKAKELVEEYIK PGPT0008340_3 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-VOLATILES BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008340-hydroxymethylglutaryl_CoA_synthase-K01641 NA NA AK015_03515 969 galK_1 Galactokinase ATGAGTGCAGAAAAAGTAACAACCACAGAAAAAACAGCTATCGGTGTAGCTTATAGTAAACTAATTTTAATTGGAGAGCATGCAGTTGTACACGGACAACCGGCTATTGCTATTCCATTTCCATTGGTAGGTGTAGAGACTGCCGTTGAACATTTCCCAGGACCGGTCAAGATTGATACAACTTTCTATCATGGCTCTATTGCTGATGCACCAGAATCATTAGAGGGTATTGTAAAATGCATTGAAGGTACGATGGATTATTTAAATATAGCCTGTGAGGATATGATTATACGCATTACATCAACGATTCCACCTGGTAAAGGGTTAGGTTCCAGTGCTTCTGTGGCGATATCCGTTGTCCGATCCTTATTTGCTTATTTTGATGAGGATTATACAGATGAAGAATTACTGCAACTGGCGAATATAGCGGAGACGTTTGCACACGGGGCTCCGTCAGGGATTGATACATTGACAATCACATCACAGTCCCCTGTCTGGTATGAAAAGGAACACCCGATTGATTTTATTCACTTAAGTGAGGACTTTCATTTTGTTGTAGCGGATTCTGGTCGTGTAGGAGATACGCGTCTAGCAGTGGAGTCCGTAGCAAACTTATTAAAAACCGCGCCAAGACGAATTCAGCGTAAACTAGAACGAATTGGAAAACTGACGCATGATGCAAAACAGGCTTTGGAGAAAAAAGGAAAGCATATCTTGGGGCATATGCTAAATGAAGCGCAAAAAGAATTGGAAGCTTTAGGTGTGAGCGACACTGGGTTAAATCGTTTAATCGATTTTGCCAGACAAGAAGGCGCGCTCGGAGCTAAGTTAACAGGCGGAGGTAATGGCGGCTGTATCATTGCCCTTGCCCAAAATGAAGTTCATTCCAGACAATTAGCGGAGAAATTGAGAACATTTGGCGCACATGCAGTATGGCCATTTGTGTTGAAAGAGAGCCAAGATCATTAA MSAEKVTTTEKTAIGVAYSKLILIGEHAVVHGQPAIAIPFPLVGVETAVEHFPGPVKIDTTFYHGSIADAPESLEGIVKCIEGTMDYLNIACEDMIIRITSTIPPGKGLGSSASVAISVVRSLFAYFDEDYTDEELLQLANIAETFAHGAPSGIDTLTITSQSPVWYEKEHPIDFIHLSEDFHFVVADSGRVGDTRLAVESVANLLKTAPRRIQRKLERIGKLTHDAKQALEKKGKHILGHMLNEAQKELEALGVSDTGLNRLIDFARQEGALGAKLTGGGNGGCIIALAQNEVHSRQLAEKLRTFGAHAVWPFVLKESQDH PGPT0007570_839 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007570-mvaK1-K00869 NA NA AK015_03516 975 hypothetical protein ATGAAAGCAACTGCAAAGGCGCATACAAATATTGCCCTTATTAAATATTGGGGAAAGCGAAATGAAGCGATTATTTTACCTACGAATAATAGTTTGTCACTTACTTTAGATGGCTATTATACTACAACGACAGTGGAATTTGATGAGTCGCTTTCCCAAGATCAATTCATATTAGATGAGCAAATCGCATCCGGAGAGCAGTACAATCGGGTAACGGCATTTCTTGATATTATAAGACAAATGGCAGGTAAACAGCTATTTGCTAATGTAACATCGGTGAATGAAGTGCCAACTGCCGCCGGTTTTGCCTCCTCTGCTTCTGGGTTTGCCGCGTTAGCAGCGGCTGGATCGAAAGCCATAGGTTTACATTTATCAGAGAAAGAGCTCTCTAGATTAACTCGTCGAGGCTCCGGGTCAGCTTGTAGATCTATTTATGGTGGTTTTGCAGAGTGGGAAATGGGGATGCGTGAAGACGGAGAAGATTCTTACGCTATACCTATTGCTCCAGCAAATTATTGGGATATTCGTGTGGCGGCTGTGGTGTTATCTGCGACGAAAAAAAGTGTTTCTAGTCGTGCGGGAATGCGTAGAACAGTTGAAACATCGCCATTTTTTCAAGGCTGGCTGGATAGTATTTCCTATGATTTAGCGGAAATAAAACAAGGAATTAAGGCTCGTGATTTTCAACAAGTCGGTGAAATTGCTGAGGCAAACTGTATGAAGATGCATGCGACGACGTTAGGTGCAAAACCCCCATTTACATATTGGCATGACACGACGCTAGTAGTGATGCAAAAAGTTTGGGAAATGCGCTCACAAGGTATACCTGTTTATTTTACGATTGATGCTGGCCCTAATGTAAAGGTGCTTTATTTACCTGAGCATGAAGCATATATTGAACAAACATTGGGCGAATTACAAGGTGTTACAGATATTCGTTTGAGTAAACCAGGTCAAGGGATTACGTATATATAG MKATAKAHTNIALIKYWGKRNEAIILPTNNSLSLTLDGYYTTTTVEFDESLSQDQFILDEQIASGEQYNRVTAFLDIIRQMAGKQLFANVTSVNEVPTAAGFASSASGFAALAAAGSKAIGLHLSEKELSRLTRRGSGSACRSIYGGFAEWEMGMREDGEDSYAIPIAPANYWDIRVAAVVLSATKKSVSSRAGMRRTVETSPFFQGWLDSISYDLAEIKQGIKARDFQQVGEIAEANCMKMHATTLGAKPPFTYWHDTTLVVMQKVWEMRSQGIPVYFTIDAGPNVKVLYLPEHEAYIEQTLGELQGVTDIRLSKPGQGITYI PGPT0007575_1103 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007575-mvaD-K01597 NA NA AK015_03517 1083 Phosphomevalonate kinase ATGGTTGCGGGGGAGTTTGCTGTACTACAGCCGTATCAACAATTAGTTGTAATGGCTGTAGATCGTTTTGTTTATGCAACGATAAAAGATAGTGCAACAAACGATTTACATTTAATGGATTTCCAATTACAAAATATAGGTTGGGAATATAATGGGGATAAAGTTGAACTTTATTCTAAAGATAAAAGAACGACATTTGTTCAAGCATCTATGACAACGGCATGTAACTATTTAAATGAACAGCATATTGCGATACCCCCTTTTGAATTAACGATCAAAAGCGAACTTGATGATGAATCAGGGGTGAAATATGGCTTAGGTTCAAGCGCTGCTGTCTCTACATCTGTTATTTCCGCCATTTTAAATAAGTTTATGCCTAAGAAACCAGAAGCAAAGCTCATTTATCAATTAGCAGCGATCGCTCATGTTGTAACGCAAGGTAACGGTTCGGGAGCCGATGTCGCTGCTTCTTCTTATGGTGGTTTCCTAAACTATTCCTCATTTCAGGCGGAATGGCTTCGGCAAGCGTACGAGGAATCACAAACATTAACGGAACTCATTCATCGAGATTGGAAGTATGCTTCTTTGGAGCCTATTTCATTGCCGGATTCTGTTCATGTTTGTATCGGTTGGACAGGAAAACCAGCTTCTACCAAAAAACTGGTGGAGCAAATTTTAAAGTTAAAGACAACCAATTCTAAAAGATTTACTAGCTTTATTAGGCATAGTGAGCAGGCAGTTGCGAATGTGTTGGCAGGAATGAAGCAGAACAACCCGCAGTTATTGCTTCAAGGGATAAAAGAAAATCGCCACGCGCTAGCAGCTGTTGGACGGGATGCAAATGTTGCTATTGAAACACCGTTATTAACGACACTCTGTGATATAGCGGAACAATTTGGAGGTTCAGGGAAGCCTTCTGGAGCTGGTGGAGGCGATTGTGGCATTGCTTTTATGCCTTCTAACCAAGCTGCGGAGGCTGTATTAGCAGCCTGGGAAAAAGCAGGGATAAAACCACTCGCGTTACATCCCTATCCGCATGGAGCAGTGGTTAGTGACATCAAATATATAAATGAAATGAAATGA MVAGEFAVLQPYQQLVVMAVDRFVYATIKDSATNDLHLMDFQLQNIGWEYNGDKVELYSKDKRTTFVQASMTTACNYLNEQHIAIPPFELTIKSELDDESGVKYGLGSSAAVSTSVISAILNKFMPKKPEAKLIYQLAAIAHVVTQGNGSGADVAASSYGGFLNYSSFQAEWLRQAYEESQTLTELIHRDWKYASLEPISLPDSVHVCIGWTGKPASTKKLVEQILKLKTTNSKRFTSFIRHSEQAVANVLAGMKQNNPQLLLQGIKENRHALAAVGRDANVAIETPLLTTLCDIAEQFGGSGKPSGAGGGDCGIAFMPSNQAAEAVLAAWEKAGIKPLALHPYPHGAVVSDIKYINEMK PGPT0007565_436 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007565-mvaK2-K00938 NA NA AK015_03518 828 yciV COG0613 5'-3' exoribonuclease ATGAAGACAGAGCTACATATACATTCCACCTTTTCAGATGGTGCTTTAACTCCAAAAGAAATCGTTAAGGAGGCGAGTGCAAAAGGGGTGCGAATTTTGTCGATAACGGATCATGACGCCATCGGAGCGTATCATACTGCTTTGCCTGAAGCCGAGCATGTAGGAATATCATTGGTGCCAGGAATAGAGCTTAATACGGATGGTATCGACGGTGAATTGCATATTTTAGGTTATTGCTTCGATCCGCAACATCCTAAAATGACAGAGCACATCTATTGGAGGACAAAACAGCGTAATAACTGGGCTGCCAAAATCGTTTCTCAATTAAACGATCTAGGATATGCGATCTCCTTAGCAGATGTTAGGCGACATGTACCTGGCGATGTGATTGTACGAACGCATATTGCAGCAGAGCTCGTAAGACAAGGTTATTTTCCTACTGCAGATGATGCTTATCAAGCACTGTTAAAAAAAGGGAAACCCGCATTTGTGGAACGTGTTGCTTTTTCTGCAGAGAAAGCCATTCAATTAGTGCATGAATGTGGAGGGAAAGCATTTTTAGCACATCCAGCTATTTATCGTTCGTCCGTTCCTTTGCAACGATTACTGTCGTATGGATTAGATGGAATTGAGGTTTATCACTCCGAGCACTCTGATGAGGATAGTGTCTATTGGCTAGAAGTTACGAAGCAATATGGGTTACTCGTTTCAGGCGGATCGGACTATCACGGAACAAGCGCTAGAAAGAAGAAGGAGATTGCCATTGGAAGTGTGCAATTAGACACGGATTCAAAAAACTACTGGATAAAGCGAGCTGAAGAATCTTGA MKTELHIHSTFSDGALTPKEIVKEASAKGVRILSITDHDAIGAYHTALPEAEHVGISLVPGIELNTDGIDGELHILGYCFDPQHPKMTEHIYWRTKQRNNWAAKIVSQLNDLGYAISLADVRRHVPGDVIVRTHIAAELVRQGYFPTADDAYQALLKKGKPAFVERVAFSAEKAIQLVHECGGKAFLAHPAIYRSSVPLQRLLSYGLDGIEVYHSEHSDEDSVYWLEVTKQYGLLVSGGSDYHGTSARKKKEIAIGSVQLDTDSKNYWIKRAEES NA NA NA NA NA AK015_03519 702 nfo_2 endonuclease 4 ATGTGGGCAGAGCATATGTATTATCATCAAGCTAGTCCGGAGGATATAAGAGAAACTGCTAAAGCGGAGCAAGTGGATATCACATTACATGCTGCTAGTTGGGATTTAAATATTTGTTCGCTTAATCAGGGTATTCAGCAGCAGTCCATCGTAGAGTTGAAAAAATCGATTGATCTGGCTGCGAAATTAGGTGCTTTGCACATGACATTTCACCCTGGAAAATATACCGTTAAAAATTATTTGACCGCATGTCATCAGGAGAATTTAGTAACCAACACGCAATTGCTTTTAGATTACGCAAAAGAGAAGCAGGTTACTTTATCTCAAGAATTAATGGAAGTTATTCCAAAAGAAATGTTGACATATCCAGAACAAATGACACAGTTTCAAGCGAAGTTAAATGGAGAGCTTTGCGTTACCTTAGATATCGCCCATGTCCCTTTACAGGATGATCCCATTAACTATTTTGAACATCTTCAACATGTGAATAGCATTCATTTAAGCGATTCTACGAAAACGCAATATCATGTTCCGCTTGGAAAAGGGAGCGTGGAGCTACATCGGGTTCTAACTTATTTTAGTAAGCTAGATAAACCGATTGTGTTAGAAGGAATGGATACAACAAAGGAATTAGCATTTTTAAAACAACATATAGCGTATTTGAATCATCATCACTGGCTTGAAAGGAAGATAGATGCTTGA MWAEHMYYHQASPEDIRETAKAEQVDITLHAASWDLNICSLNQGIQQQSIVELKKSIDLAAKLGALHMTFHPGKYTVKNYLTACHQENLVTNTQLLLDYAKEKQVTLSQELMEVIPKEMLTYPEQMTQFQAKLNGELCVTLDIAHVPLQDDPINYFEHLQHVNSIHLSDSTKTQYHVPLGKGSVELHRVLTYFSKLDKPIVLEGMDTTKELAFLKQHIAYLNHHHWLERKIDA NA NA NA NA NA AK015_03520 774 surE COG0496 5'-nucleotidase SurE TTGAACATATTAATTACAAATGATGATGGCATTTTTGCACCTGGTGTGAAGGCGTTAGCTGAGTTGCTTTCCCATTTTGGTAAGGTAACCGTAATTTGTCCAGACACGGAAAAGAGTGCCTATAGTCATAAAATCACATTACGTCAACCATTAAATTTAAAAAAAGTAGACTTCTCTTCTACGGCAGAAGCCTATGCAGTCAATGGATCGCCTGCAGATTGTGTAAAGCTTGGGATGGATGTGTTAGAAGGCGAGCCAGATATCGTATTTTCTGGAATTAATATTGGCCCTAACGTTGGAAGAGATTTATATTACTCAGGAACGATTGCTGCTGCACAAGAAGCGATGTTATACCAAGTTCCTTCGATATCTGTATCGTTGGAGACATTTGATAGTAGAAAAATAAAATTCGACGTTGTTAAACAATTATTCTATCAAGTTGCAGAGGTTATTATTCAAAATAAGATCCCGAAAAATTTGATGTTAAATGTAAATCTTCCTTATACATCGAAAGAGTTGTGTAAAGGAGTGCGCGTTGTGCCAATGGATTTAACCGTCTCTCGATATAACTTTACGGGGTTAAATGATCCACATGGTCAAATATACTACTGGTTAAAAGATAATTACCATGAATTAGAGCTTAATGAAGGGACCGATTATGATCTGCTGCGGCAAGGGTTTATTACCATTTCCCCTATTGAGTTAGTACACACAAAGAAAAGGAGAATTGATCAACTTACTCGTTGGTTTCAATATTTTAAGGAGGTAAAGTAA MNILITNDDGIFAPGVKALAELLSHFGKVTVICPDTEKSAYSHKITLRQPLNLKKVDFSSTAEAYAVNGSPADCVKLGMDVLEGEPDIVFSGINIGPNVGRDLYYSGTIAAAQEAMLYQVPSISVSLETFDSRKIKFDVVKQLFYQVAEVIIQNKIPKNLMLNVNLPYTSKELCKGVRVVPMDLTVSRYNFTGLNDPHGQIYYWLKDNYHELELNEGTDYDLLRQGFITISPIELVHTKKRRIDQLTRWFQYFKEVK PGPT0013405_2020 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787 NA NA AK015_03521 1014 hypothetical protein ATGAAAAAAGTAATGGTTATTGTTTTTGCATTGGTCTTGCTATTTTTAGCAGCTTGTGGCGATAAAAAAGAAGAAACATCAGACGCAGAGAATACCATTCGTGGAGAAGTGGAATTTTACACTTCTCAACCAGATGTAGACGCAGAAAAATTAGTAGGTGCGTTTAATGAAAAACACCCAGATGTAAAAGTTAACATCTTCCGTTCGGGCACAGAAGAAGTAGTAAGTAAAATCAAAGCGGAAAAAGAAGCAGGAGAAGTACAAGCAGATGTGTTATTAGTTGCAGATGCAGTAACATTTGAAGGTTTGAAGCAAGAAGAGCTGCTTATGTCTTATCAATCAAAAGAAGCAGAAGATATTGCAGATGAATTTGTTGATGCAGATGGTATGTATACAGGAACAAAAATTATGGCTACAGGTTTAGTCGTCCATACAGGTAATGTGAGTGAAATGCCGACTTCATGGGACGCAATGACTTCTGAAGCAGCGAAAGAGCAAGTAGTGATGCCAAGCCCGTTATATTCTGGCGCTGCTGCATATAATTTAAGTGTTTTAACTCGTAATGATGCGTTTGGTTGGGAATTTTATGAGAAAATACAAGCAAATACCCCAATGATTACAGAAGGAAATGGGGCAGTAATGGAAAACGTTTCTTCTGGGCAAAAAACATATGGAATGGTTGTAGATTATTTAGCAGCGCGAGCAGCTAGTGAAGGTTCACCTGTAGAGCTAGTATATCCAGATGAAGGAGTGCCGGTAATTACGGAACCTGTAGGCATTATGGCAGATACGGATCAAGAAGAAGCGGCAAAAGCATTTGTTGATTTTATTTTATCTGAAGATGGACAAAAAATGCAGGCAGAAATTGGTTACACGCCTATTCGTGAAGGCATTGAACCACCAGAAGGCTTAAAATCAATTGAAGAGATTAAAGCTATATCTGCTCCTGTGCAAGAATTGTATGAAAATCGTACAGCCGATAAGGAACAATTCGATCAATTGTTTTCTAACTAA MKKVMVIVFALVLLFLAACGDKKEETSDAENTIRGEVEFYTSQPDVDAEKLVGAFNEKHPDVKVNIFRSGTEEVVSKIKAEKEAGEVQADVLLVADAVTFEGLKQEELLMSYQSKEAEDIADEFVDADGMYTGTKIMATGLVVHTGNVSEMPTSWDAMTSEAAKEQVVMPSPLYSGAAAYNLSVLTRNDAFGWEFYEKIQANTPMITEGNGAVMENVSSGQKTYGMVVDYLAARAASEGSPVELVYPDEGVPVITEPVGIMADTDQEEAAKAFVDFILSEDGQKMQAEIGYTPIREGIEPPEGLKSIEEIKAISAPVQELYENRTADKEQFDQLFSN PGPT0003725_3953 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012 NA NA AK015_03522 1740 hypothetical protein TTGAGAAGATTGCTAGGAAAGTCGCAAACAAATAATAGGGGAACGCAGCACCAAGCGTCCCCTACAAACCTATTTCAACTATCAACGAAAACGATCGGACTAATCGTAGTAGTTATCTTTTTCATCGTTCCTATCGTTCGATTAATATGGAAGAGCTTTTCATCTGATCAAGGAATAACGCTTCAATTTTACAAGGATATATTACGAGAGCCAAGGACATGGGAAGTTTTACAAAATACGATGATTATTGTAGTGCTGTCGACGGCAATTGCTTTTATCTTAGGAACAGCTTTTGCTTGGATTGTGGCGTATACAAATATTCGTTGGAAAAAGCTTGTGCAGCTTTTTGTGTTTTTGCCTTTCATTATACCTTCCTATATTACATCTTTAGCATGGGTGCAATTCTTTGGACCTGGTGGATTAATGGAACGAATGTTAACCTATGTATCTCTTCCCGCAATATCGTGGGATTTATATAGTATGTCAGGCATCATTTTTGTTATGGCGATTAGTCATTTTCCATTAGTGTATTTGTTTTCTGTCCATGTGTTTCTGAAAATACCACGAGAAATGGAATTAGCCGCACAAATTTCAGGCTCATCCCGGTGGAAAGCTTTTAGAAAAATTATTCTTCCCATGGCGTTGCCAGGAATTGTTGGCGGCTCATTTATTGCTTTTTTAGGAAGTTTAGATAATTTTGGTATACCTGCATTTCTTGGAACACCAGCAGATATTCCAGTCTTATCTACATATATTTATCAGCAAGTAATCGGCTTTGGTACTTCCGCATTTCAACGTGCGGCCGTTCTTTCCATGATTTTAGGCGTTGTTGCCGTCGTAGGATTATTTTTTCAATGGCTTGTTTTGCGAAAGTCCAAGCAAGTGGAGACAAGCAGCGTCGATCATTCTCCTAGATATGATTTGGGGAAAAAGCGACCAATCGTAGAGATCGTGATTTGGCTGTTTTTTGCGGTAACGAGTATTTTTCCTCTTATTTCAATGGGGCTGCTATCGTTTTTGCGTGCCTATGGATTGGATTTTGCATGGGAGAATTTTTCTTGGAAAAATTATGCCTATATTTTAACCAGTAATTCCACGTTGGAGGCTATTATAAATAGTATTCAACTAGCAGGTGTCACAGCCGTAGTAGGGATTGTCGTTGGCACTGCATTTGCTTACAAGCGCGTCCGTAATTCAGGTGCAACGACAAAAATAATGGAAACAGCTATTACTATTCCATACGCATTACCAGGAATGGTACTAGCCTTAGCGATGATTTTCGCATGGATGGAGCCTTTACCTGGTTGGAACCCAGGGATTTATGGTTCTGCGCTCATCCTTTATATTGCATACATGACGCGGTTTCTTATTTTACAGATTAGAAGTAGTGTTACCGCCTTTCAACAAGTAAATATAGAAGTGGAAGAAGCTGCGCGAATAAGTGGAACGAATGGATTTGGTAAATGGAAAAAGGTGCTTATTCCGTTAATTACTCCAGGTGTTTTAGGGGGAGCGCTGCTTGTATTTCTGAATGCATTAGCAGAATTAACTGTTTCTTCTATATTATACTCGTCTACATCTGAGACGATAGGGGTGTCGATTTTGAGTTTTCAGCAATCTGGATATTCTTTATATGCAACAGCCTTCTCCACAATTATTGTTGGGCTAATTATTATGGGATATTTGTTACTATTTGCTGTTCAGTATAGCTGGAACAGAAAGGTGGATAAGCGAAAATGA MRRLLGKSQTNNRGTQHQASPTNLFQLSTKTIGLIVVVIFFIVPIVRLIWKSFSSDQGITLQFYKDILREPRTWEVLQNTMIIVVLSTAIAFILGTAFAWIVAYTNIRWKKLVQLFVFLPFIIPSYITSLAWVQFFGPGGLMERMLTYVSLPAISWDLYSMSGIIFVMAISHFPLVYLFSVHVFLKIPREMELAAQISGSSRWKAFRKIILPMALPGIVGGSFIAFLGSLDNFGIPAFLGTPADIPVLSTYIYQQVIGFGTSAFQRAAVLSMILGVVAVVGLFFQWLVLRKSKQVETSSVDHSPRYDLGKKRPIVEIVIWLFFAVTSIFPLISMGLLSFLRAYGLDFAWENFSWKNYAYILTSNSTLEAIINSIQLAGVTAVVGIVVGTAFAYKRVRNSGATTKIMETAITIPYALPGMVLALAMIFAWMEPLPGWNPGIYGSALILYIAYMTRFLILQIRSSVTAFQQVNIEVEEAARISGTNGFGKWKKVLIPLITPGVLGGALLVFLNALAELTVSSILYSSTSETIGVSILSFQQSGYSLYATAFSTIIVGLIIMGYLLLFAVQYSWNRKVDKRK PGPT0003730_1152 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011 NA NA AK015_03523 1047 potA COG3842 Spermidine/putrescine import ATP-binding protein PotA ATGAGTACCGTAGTCAAAAATCTAAAGAAAAGCTTTGATGGTTTTCAAGCACTTCATCATATTAACTTATCAATAAAAGATGGGGAATTCCTTGCCATTTTAGGACCTTCGGGTTGTGGAAAAACGACGTTGTTGCGATTATTGGCAGGTTTTGACTCACCAACAGATGGCACAATTTCATTAGCGGGTACAGAAGTAGCTAATGCAAAAAAGGTGGTTGCCCCAGAAAAGCGGAATGTGAGTATGGTTTTTCAGTCTTTTGCTTTATGGCCGCACATGAATGTGAAGGAGCATATTGCGTTTCCGCTTGATCATCACAGGTTTGCTGATCAAGCAGTTACATCTGCTAAGGAAAAACGTATTTTAGAGGTGTTAGAAACTGTGAATTTAAAAGAATTTGCCGATCGCATGCCTGGAGAATTATCAGGTGGGCAAAAACAACGTGTCTCACTGGCACGGGCAATTGCCCCCAAACCTAAGTTATTACTAATGGATGAACCGCTGAGCAATTTAGATGCCGAGCTACGTATGGATATGCGTCGTGAAATTCAACGTCTTCATGCTTTAACAAAAGCTTCTATTGTTTACGTTACACACGATCAAGGCGAAGCGTTAGCGATGGCGGACCGAATTGTTGTGATGAATAAAGGGAAAATAGAACAAATAGGGACACCAGAAGAAATCTACTATCATCCTGAAACGCCTTTTGTAGCAAAATTTGTTGGAAAAGCAAATATATTTACAGGTGAATGGAAAAAAGATGTCTTTCAGCTACAGCAAGGAAAGGTAACTTGGAAAGATTGGGGAATAGCAGAAGCGTTAAAAAGGGAGCAAATGTATATTTTAAGGCCAGAGCAATTGAAGTTATCTCCAAAAATTGCTAACGAATTAACGGGTACGATTAAAACAAAGCAATTTCAAGGCAAAGAATATCATTACTCCATTGAAGTAAATGGACAGGTAATTATTGCTCATGCTCCAATACTAGAACAATATCATGTAGGTGAGGAAGTTGCACTTATACCGATGATTTCAGATGAAAGTTGA MSTVVKNLKKSFDGFQALHHINLSIKDGEFLAILGPSGCGKTTLLRLLAGFDSPTDGTISLAGTEVANAKKVVAPEKRNVSMVFQSFALWPHMNVKEHIAFPLDHHRFADQAVTSAKEKRILEVLETVNLKEFADRMPGELSGGQKQRVSLARAIAPKPKLLLMDEPLSNLDAELRMDMRREIQRLHALTKASIVYVTHDQGEALAMADRIVVMNKGKIEQIGTPEEIYYHPETPFVAKFVGKANIFTGEWKKDVFQLQQGKVTWKDWGIAEALKREQMYILRPEQLKLSPKIANELTGTIKTKQFQGKEYHYSIEVNGQVIIAHAPILEQYHVGEEVALIPMISDES PGPT0003735_3132 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010 NA NA AK015_03524 903 rocF Arginase ATGAAATCAACGATATCAATTATTGGGGTTCCGATGGATTTGGGGCAGAGTAGACGTGGGGTAGATATGGGGCCGAGTGCAATGCGTTATGCTGGAGCGGTGGAAAGGTTAGAAGCATTGGGGTATACGTTACATGATTATGGTGACATTGGTATTACTCGACCTGACAAACAAGAAACGGGACGAAGTTACCAACTAAAGAATTTACCTCAAGTAGTTGAAGCAAATGAAAAATTAGCAACGATGGTTGATCAAACAATAAAAAAAGGCCATTTTCCGTTAGTTTTTGGTGGTGACCATAGCATTGCTATCGGAAGTTTAGCAGGGATTGCTAAACATTATGAACAGCTTGGAGTTATTTGGTATGATGCGCATGGGGATTTGAATACGAAGGAGACTTCTCCATCTGGTAACATCCATGGAATGCCACTTGCTGTAAGCTTAGGCTTCGGTCATGAACTGTTAACATCGATTGCAGGGTACTCACCTAAGGTAAAGCCAGAAAACATTGTTATTATTGGAGCTCGTTCCCTCGATCCTGGAGAGAGGGAGTTAATACGTGAGAAGGGAATACAAGTTTATACCATGCATGAAGTAGATCGGTTAGGGATGTCGAACGTCATCGAGAAAGCGGTTGCTTATTTAAGTCCTCGTACTGATGGAGTGCATGTAAGCGTAGACTTAGATGGTCTTGATCCGTCTGAGGCGCCAGGAGTAGGTACACCAGTTATTGGTGGAATGACTTATCGTGAAAGTCATTTAGCTATGGAAATGTTAGCAGAGGCAGGAATCATTACGTCCGCCGAATTTGTGGAAGTCAACCCAATTCTAGATGAGAAAAATAAAACGGCAACGCTTGCTGTCGGTTTAATGGGCTCATTATTTGGCGAAAAATTAAAGTGA MKSTISIIGVPMDLGQSRRGVDMGPSAMRYAGAVERLEALGYTLHDYGDIGITRPDKQETGRSYQLKNLPQVVEANEKLATMVDQTIKKGHFPLVFGGDHSIAIGSLAGIAKHYEQLGVIWYDAHGDLNTKETSPSGNIHGMPLAVSLGFGHELLTSIAGYSPKVKPENIVIIGARSLDPGERELIREKGIQVYTMHEVDRLGMSNVIEKAVAYLSPRTDGVHVSVDLDGLDPSEAPGVGTPVIGGMTYRESHLAMEMLAEAGIITSAEFVEVNPILDEKNKTATLAVGLMGSLFGEKLK PGPT0020100_1740 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476 NA NA AK015_03525 213 hypothetical protein GTGAGTAATTCTAATTTATTGGAAAGAATTGAAATGAAAAGAGAAAAAATGCTCTCTCTCAGTAACTCGCATGCATTGACCTCTGAAGCAGTAATTAACTCAAGTGTTGAATTAGATGCATTAATCTTGGAATATGTAACAACAACGAACTATAATAGGAAAAATTTTAAAAAACGACTACAAAAAAATGACACTTCTTCGTACGATTATTAA MSNSNLLERIEMKREKMLSLSNSHALTSEAVINSSVELDALILEYVTTTNYNRKNFKKRLQKNDTSSYDY NA NA NA NA NA AK015_03526 564 sigW COG1595 ECF RNA polymerase sigma factor SigW ATGGATGAAATGATTAAAGATAGAATTAAACAAGTGAAAAAAGGAGATCAATCCGCTTTTGAAGATGTGGTCTCATTCTTTCAAAATAGGATCTACCAGCACTGTTTTCGCATGCTTGGTAATGCACACGAGGCGGAAGATATAGCGCAAGAGGCTTTTATTCGTGCATATGTCAATATCCATTCTTTTGATGATCAAAGGAAATTTTCGACGTGGTTATATCGAATTGCAACGAATTTAACGATAGACCGTATTCGTAAACGAAAACCAGATCATTATCTAGATGCAGAGGTAAAAGGAACGGAAGGGTTGAATATGTATTCCCAGATAGCCGATAAGGGAAGACTACCAGAAGAAGAAGTCGAAGGGATTGAGCTTAAGCGCTATATTCATTACGAAATTTCACAGCTTCCTCCGAAGTATCGCAGTATCATAATGTTGCGGTATATTGAAGAATTTTCCCTCCAGGAAATTAGTGAAATCCTGGATATTCCACTTGGGACTGTAAAAACCCGTATTCATCGTGGAAGGGAAACCTTAAGGAAAAAGCTTCGTCACGTGTAA MDEMIKDRIKQVKKGDQSAFEDVVSFFQNRIYQHCFRMLGNAHEAEDIAQEAFIRAYVNIHSFDDQRKFSTWLYRIATNLTIDRIRKRKPDHYLDAEVKGTEGLNMYSQIADKGRLPEEEVEGIELKRYIHYEISQLPPKYRSIIMLRYIEEFSLQEISEILDIPLGTVKTRIHRGRETLRKKLRHV PGPT0014960_8289 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088 NA NA AK015_03527 633 rsiW COG5662 Anti-sigma-W factor RsiW TTGAATTGTAATAAAGAAGCAGTAGAATTGATGCATTGTTATTTAGATGGAGATATTACAAAAGAGCAGGAGCAGGCGCTCAGCGCGCATTTGGAGAATTGCGAGGCGTGTCAAAAACATTTTCATGACTTAAAACGTACGATTACACTTTTGCAAAGCACAGAACAAATAAAAGCCCCTGCTAATTTCACTGCAAATGTGATGAATAATCTTCCGACTGAGCGGAAGCGATTTAAATATAGAAGATGGTTTAAAGCCCATCCAATTTTAACTGCGGCAGCGATATTTTTTATTTTTATGATTAGCGGTATGTTTTCAGTATGGAATCAAGATAATCAGTTAAGTGTCTCTAAACAGGATAATTTAGTTATTCAAGGGGATACGGTAATTGTACCTGCTGATGTGACGGTTGAAGGGGACTTAGTCGTAAAAAATGGCGACCTCATTATTAACGGGACGATTGATGGAAATGTTACGTTAATTAATGGTGAGCTCATTGAAGAACCGATAGAAGGTGATGGTTTGATGGCTTCTGTTGGTGAAATCAATGGAGAGATAGAACATGTAGATCAAATGTTTGAGTGGGTGTGGTATTCCATTAAGGAATTGTTCGAAAATATCTTCTCATTTTAA MNCNKEAVELMHCYLDGDITKEQEQALSAHLENCEACQKHFHDLKRTITLLQSTEQIKAPANFTANVMNNLPTERKRFKYRRWFKAHPILTAAAIFFIFMISGMFSVWNQDNQLSVSKQDNLVIQGDTVIVPADVTVEGDLVVKNGDLIINGTIDGNVTLINGELIEEPIEGDGLMASVGEINGEIEHVDQMFEWVWYSIKELFENIFSF NA NA NA NA NA AK015_03528 822 cdaA COG1624 Cyclic di-AMP synthase CdaA ATGCTTGATGGGGGATTTGACCTAATACAGCTCCTTAGGATAGGCGTGGATATCGCTCTCGTCTGGTATGTTTTATATAAATTAATCATGCTGATAAGAGGTACGAAGGCTATTCAACTTCTTAAAGGGATTGCAGTGGTACTAGCAGTGTGGTTGTTAAGCATTGTTTTGGATTTACAAACAGTGCGGTGGATTACAAGCCAGGCGATTGACTGGGGGCTTATCGTTATTATTATTCTATTCCAACCAGAGTTGCGTAGGGCATTGGAACAATTAGGGCGTGGCAATATATTTGGACGAAGTGCTCGCTCGGAAGAAGAAATTATTGAAAAGAATATTGATGCCATTATCCAATCCTGTAATTATATGGCTAAACGACGAATTGGTGCGCTGATCACCATTGAACGTGAAACAGGAATAGGAGACTATGCAGAAACTGGTATTCCCATTAATGGAAAACTAACACATCAACTGTTAACAAATATATTTACACCAAACACGCCATTGCATGATGGTGCTGTTATTTTAAAAGGTGACGAAATCATTGCTGCAGCATGCTACTTGCCTTTGTCCGAAAGTCCTTTTATTTCCAAAGAGTTAGGAACAAGGCACCGTGCTGCAATGGGCATTAGTGAGGTTACAGATGCATTAACCATTGTAGTATCCGAAGAAACGGGTGATATATCTTGCACGAAAAATGGCGAGCTACATAGAGAGCTAAGTCAGGAAAGCTTAAGAGATTTATTACACAAGAACCTATCATTAAGTTTGAAAGCCCCTGAAAAAAAGTCAAAAAAAGGGAGGGCAAACAAAAATGGATAG MLDGGFDLIQLLRIGVDIALVWYVLYKLIMLIRGTKAIQLLKGIAVVLAVWLLSIVLDLQTVRWITSQAIDWGLIVIIILFQPELRRALEQLGRGNIFGRSARSEEEIIEKNIDAIIQSCNYMAKRRIGALITIERETGIGDYAETGIPINGKLTHQLLTNIFTPNTPLHDGAVILKGDEIIAAACYLPLSESPFISKELGTRHRAAMGISEVTDALTIVVSEETGDISCTKNGELHRELSQESLRDLLHKNLSLSLKAPEKKSKKGRANKNG NA NA NA NA NA AK015_03529 1242 cdaR_2 COG4856 CdaA regulatory protein CdaR ATGGATAGTTGGTTTCGAAGTAAGTGGTTTGTCCGTGTCGTTTCATTAGCTTTTGCCGTTTTCTTTTATATCTTTGTAACGGTTGATCAAAATAGTGTACCAAATAATGGCGATTCCACATTTCCTTCTGGAGATGAGACGCAAAATTTAGAAACACTGGATGAAGTTCCCGTGAATATAGATATTGATAGTGAAAAGTATGTAGTTAGTGGTGTTCCAGAGTATGTTTCTGTCACGTTAGAAGGGTCAGCAGCTGTTTTACAACCAACCCTACGTAATCGGAATTTTGATGTATGGGTAGATTTACAAGAGTTGGAGGCTGGTGAACATACCGTAGAGCTTCAACATGATATTTCTGATAAACTAGATGTATTTATTGAGCCGAAACGAGTAGATGTAATGATTGAAGAGAAATCCACCCAAGAATTTCCAGTAAAAGTTGACTTTATAAATACAGATGACATGGCAGATGGGTATGAGCTTGGTGATTATGAAGTAAGTCCGCAGAAGGTAACAATTACGAGTGCCAAAAGTGTAATTGAAAAAATTGGTATTGTCAAAGCTTATGTCGATGTAAGTGGCTTAGACGAATCGATTGATAATCGAGAAGTTCCTGTAAATGTCTACGATAGCCAAGGCAATGAATTGAGTGTGAATGTAGAGCCAGAAAATGTAGTTATTTCAGCAAACATTACTAATCCAAGTAAAAAAGTACCGGTTAGCGTCCAGACAACTGGCGAGCCTCCTGAGGGGTATGCATTATCCACGATTTCTGCTAATGTAGAGGAAGTGGAAGTGTTTGCGAGAAGCAGTATACTAAAAGATTTAGAAAAAGTTTCTACGGAGGAAATTGATTTAGCGGACATTAAGAAATCGGGTACAATAGAAACAAACTTAGCATTACCTGATGGTGCAACTGTTTCTAATGGAAAGAAGGTTGAAGTTACTGTTGAATTGGAACAGACAAAGGTGTTAGAGGAAGTACCAATTGAAATAGAAGGATTACAAGATGATCTGGAAGTGGCATTTAAAAATCCAGCTGATCCAGAGATGAAATTAACAGTTACAGGAAAACAATCAGATATAGCAGAGTTAAATCGGGAAGACTTTCGAGTGTTTATTGATGTTAAAGATTTAGAACCAGGTACACATGACGTTTCTATTAATGTGGAATCACCAGATGGCTTGTCGGTTGAACCAGAATTTGAGCAAGCATCCATAGAAATTAATGAAACTTCGTGA MDSWFRSKWFVRVVSLAFAVFFYIFVTVDQNSVPNNGDSTFPSGDETQNLETLDEVPVNIDIDSEKYVVSGVPEYVSVTLEGSAAVLQPTLRNRNFDVWVDLQELEAGEHTVELQHDISDKLDVFIEPKRVDVMIEEKSTQEFPVKVDFINTDDMADGYELGDYEVSPQKVTITSAKSVIEKIGIVKAYVDVSGLDESIDNREVPVNVYDSQGNELSVNVEPENVVISANITNPSKKVPVSVQTTGEPPEGYALSTISANVEEVEVFARSSILKDLEKVSTEEIDLADIKKSGTIETNLALPDGATVSNGKKVEVTVELEQTKVLEEVPIEIEGLQDDLEVAFKNPADPEMKLTVTGKQSDIAELNREDFRVFIDVKDLEPGTHDVSINVESPDGLSVEPEFEQASIEINETS NA NA NA NA NA AK015_03530 1347 glmM COG1109 Phosphoglucosamine mutase ATGGGAAAATATTTTGGAACAGATGGTGTACGAGGAGTGGCAAATAAAGATCTTACACCAGAGTTAGCTTTTAAGCTTGGACGAGCTGGAGGTTACGTGTTAACGAAAGAAACACCACGTGCCAAAATCGTAATAGGACGCGATACCCGTGTATCTGGTCATATGCTTGAAGGAGCACTTGTAGCTGGATTGCTATCTATTGGAGCAGAAGTAATGCGTTTAGGTGTTATTTCCACTCCAGGAGTTGCTTATTTGACAAAAGCAACTAGTTCACAAGCAGGTGTTATGATTTCGGCATCTCATAATCCTGTAGAAGATAATGGGATTAAATTCTTTGGACCAGATGGATTTAAATTGACGGATGATCAGGAATTAGAAATTGAAGCCATTTTGGATGGTGAGGATGAACTCCCTAGACCAATTGGTGCAGAAGTAGGGACGGTTAATGATTATTTTGAAGGTGGACAAAAGTATCTTTCTTATTTGAAAGATACGGTTGATAATGAATTTGATGGATTAAAAATTGCTTTTGACTGTGCACATGGTGCTACTTCAGCCCTTGCTACGCACTTATTCGCTGATCTAGAAGCAGATATCTATTCTATCGGTTCTTCCCCAGATGGACTAAATATTAATGATGGAGTAGGATCGACTCATCCAGAAAAGTTGCAGGGATTTGTCCTTGAAAAAGGCGCAGATGTTGGTTTAGCTTTTGACGGTGACGGTGATCGTTTAATTGCTGTAGATGAACGAGGGAAACTTGTTGACGGCGATCAAATCATGTTTATTTGTGGGAAGTACATGAATGAAAAGGGCGTGCTTCGTCATAGTACCGTTGTGTCTACAGTAATGAGCAATATTGGTTTTTATAAAGCATTAGAGGCAAATGGAATGCGTAGCGACAAAACAAAAGTTGGTGACCGTTACGTGATGGCTGAAATGCGCCAAGGCGGTTACAACCTTGGTGGAGAACAGTCAGGGCATATTATTTTCCTAGACTATAATACAACCGGAGATGGAATGTTATCCGCACTACAATTGGTCAATGTTATGAAAGAGACAGGCAAGCCTTTGTCAGAACTTGCCGATGAAATGAAAATTTATCCACAAGTACTAAAAAATGTTCGTGTAACAGATAAGGATAAAGCAATGCATCATCCAGACATAAAGCAAGCAATTGATGCGGTGGAGCAGGAGCTAGGTACACAAGGTCGCGTGCTCGTTCGTCCTTCAGGTACAGAACCACTTGTTCGTGTCATGGTTGAATCCCCAACTAAGGAAGAATGTGATTTATATGTGAAGCGAATTGTCGATGTGATTGAAAAGCTACTTGGAAGAGATGAATAA MGKYFGTDGVRGVANKDLTPELAFKLGRAGGYVLTKETPRAKIVIGRDTRVSGHMLEGALVAGLLSIGAEVMRLGVISTPGVAYLTKATSSQAGVMISASHNPVEDNGIKFFGPDGFKLTDDQELEIEAILDGEDELPRPIGAEVGTVNDYFEGGQKYLSYLKDTVDNEFDGLKIAFDCAHGATSALATHLFADLEADIYSIGSSPDGLNINDGVGSTHPEKLQGFVLEKGADVGLAFDGDGDRLIAVDERGKLVDGDQIMFICGKYMNEKGVLRHSTVVSTVMSNIGFYKALEANGMRSDKTKVGDRYVMAEMRQGGYNLGGEQSGHIIFLDYNTTGDGMLSALQLVNVMKETGKPLSELADEMKIYPQVLKNVRVTDKDKAMHHPDIKQAIDAVEQELGTQGRVLVRPSGTEPLVRVMVESPTKEECDLYVKRIVDVIEKLLGRDE PGPT0018950_2289 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 AK015_03531 690 hssR Heme response regulator HssR TTGATTACGGTATTAGTTGTAGATGATGATGCGCATATTCGAGAACTATTACGATTGTATTTACAAAAGGAAGGTTATCAAATGGTGGAAGCGGAGGATGGGGAAGAAGCATTATACATCATGGAACAAACAGATGTACAAGCAGCTATTGTCGACATTATGATGCCTAAGCTGGACGGATTTGATCTATGTAAACATATGCGTACATTTTATAATATTCCAGTACTTATGTTGACGGCAAAGGGAGAGCTTGCAGATAAGGAAAAAGCTTATCGTGCTGGAACAGATGATTATATTGTGAAACCGTTCGAGCCGAAAGAAGTGCTTTTTCGCTTAAAGGCATTGCTCAGGAGATTTCAAATGATCCATGATGATAAGATTCAAATTGGCACGATGTGTATTAATCGTAAAAATTATGAAGTACAAGTAGGTGGGAAAACAATTATTCTGCCTTTAAAAGAGTTTGAGCTGTTAGCACAATTAGCTAGTTATCCTAATCAAATATTTACGAGAGAGCAATTAATTGAGCATGTGTGGGGGTTAGGATATGAAGGAAATGATCGTACAGTAGATGTACATATTAAACGGTTAAGGAAACGGTTTTCCCATTGTCAAAGCGATTTTACGATCCAAACTGTGCGAGGGGTTGGATATAAGCTAGAAACGCTAAAGGCGGGAGGACAGTCTTAA MITVLVVDDDAHIRELLRLYLQKEGYQMVEAEDGEEALYIMEQTDVQAAIVDIMMPKLDGFDLCKHMRTFYNIPVLMLTAKGELADKEKAYRAGTDDYIVKPFEPKEVLFRLKALLRRFQMIHDDKIQIGTMCINRKNYEVQVGGKTIILPLKEFELLAQLASYPNQIFTREQLIEHVWGLGYEGNDRTVDVHIKRLRKRFSHCQSDFTIQTVRGVGYKLETLKAGGQS PGPT0028965_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104 NA NA AK015_03532 1380 hssS Heme sensor protein HssS ATGCGAACATTATATTTTCGTATTATAGTAACCACTTTCGTTATTATGATTGCCAGTTCTATTATTGCTTTTATTGTGAGTAATGGATATTACCAATATGTTTTAAAGCCAAAAAACGATGCCAAAGTTACAGAGATTGCGCATAATATTGTTGATTTATATAAAAGTAGTGAGCAGCCACTGGATGAATATTTGTCTGAAATAACGGATTTAGGTTATTCATTTTATGTAACCGATCCATATGGAAGTGATCGATCCTTTGGGAAGCCATTCGATGAAGAGCAAACCTCTAGGGAAGTGGTAGATCGCGTATTGGCTGGCGAAATCTATCATGGTATAAAAAACTATCCGTGGCGTTTATTTGTAACAGGTTTTTTTGATCATACGCTGGCAAATACAATTGGTATTCCTATTGAAAGCAATGAGGGATCGGAATATGCACTATTTGTGCGCCCTAATTCCGCGCAGCAATTTGGAGAAATGCGGCTTTTCTTTGCTGTGCTTATTGTTTTAATCTTATTGCTTAGTTTTCTATTTATTTTGTTTAGTACACGATGGATAGTGAAACCAATTCAATTACTAAAGGCAGCAACAAGAAAAATAGCCGCCGGAAATTATCATATTAAGCTATCTGTTCATCGAAAAGATGAAATTGGTCGTTTAGCCAAAGACTTTTCCATAATGAGTCAGAGTCTACAGCAAACGGAAGAAAAAAGACAAGCTTTTGTGTCCAGTGTGTCTCATGAGATTCAATCTCCACTTACCTCGATTCAAGGATTTTCTCAAGCGCTGCAAGAAGAAGAATTAACGGAGGATGCGAGACGTTATTACTTATCCATTATAGAGAAAGAAAGTAAACGGCTATCTGCTTTAAGCAGGCAATTACTAACACTATCCCAGCTAGACCAAACGGAGGAAAAGTTCGAATTTACAACGTTTCATGTTAATGAACAATGGAAAGATATTATATCCACATTGGAATGGCAATGGAGACAAAAACATATAACCATACAATTTGATAACCAAGATACATGGATGAAAGGTGAGCCAAAGCTTCTTTATCAAGTATGGATGAATGTGATGACGAATGCGATTCGTTACACGCCAGATGGCGGAGATGTTTTCATCCATGTACAAAAGCGAAAAAATGACGTGCAAGTGGTGGTGTCGGATACGGGGATTGGCATTGCTGAGGAAGATCTGCGTCAAATCTTTGACCGTTTTTATAAAGTGGATAAGGCTCGAACGAGGAAAGAAGGAGGTACGGGTCTCGGATTAGCGATTGCGAAGAAGATTGTGGAGTTGCACGAGGGGACAATTATGGTGGATAGCGAACTCGGTCAAGGGACGAAGGTAGTCGTCATCCTACCGCAAGTGTAA MRTLYFRIIVTTFVIMIASSIIAFIVSNGYYQYVLKPKNDAKVTEIAHNIVDLYKSSEQPLDEYLSEITDLGYSFYVTDPYGSDRSFGKPFDEEQTSREVVDRVLAGEIYHGIKNYPWRLFVTGFFDHTLANTIGIPIESNEGSEYALFVRPNSAQQFGEMRLFFAVLIVLILLLSFLFILFSTRWIVKPIQLLKAATRKIAAGNYHIKLSVHRKDEIGRLAKDFSIMSQSLQQTEEKRQAFVSSVSHEIQSPLTSIQGFSQALQEEELTEDARRYYLSIIEKESKRLSALSRQLLTLSQLDQTEEKFEFTTFHVNEQWKDIISTLEWQWRQKHITIQFDNQDTWMKGEPKLLYQVWMNVMTNAIRYTPDGGDVFIHVQKRKNDVQVVVSDTGIGIAEEDLRQIFDRFYKVDKARTRKEGGTGLGLAIAKKIVELHEGTIMVDSELGQGTKVVVILPQV NA NA NA NA NA AK015_03533 1038 COG0577 putative ABC transporter permease ATGTTTCTGGCCATTAGAGAACTCTTATTTGCAAAAACAAAATATATTTTAATCGGCTTAATTACAACGTTAACGGTAAGTCTTATTTTTATTGTATCTGGTTTAGCTGAAGGCTTATCTGCAGATAATGCATCTTCTATTCAAGGTTTAACAGCCGACTCCCTTGTCTTAGAAGCGGAAGCAGAAGGCGAGTTAGGCAGCTCATTTATTCCAATGCATCAAGCAAAGGAAATAATAAATGATCAAGAACAGGAGGCTAATACGCTCTCTATCCAAATGATGAATGCAACAGTCGGTGGTGGAGACAAGCAAATTAGCCTAGCATTATTTGCAACAGAACGTGATGGTATGTTAATTCCGGAAGTAACGGAAGGGAGGTCTCCTAAGCAAGAAAATGAAGTGCTAGCGGATGAAAGTCTAAAGCAGGATGGCATTCAATTAGGTGATGAATTACAGTTGGGTGAGGAAACGACCTATGTCGTAGCTGGGTTTACAACAGAGCAACGTTATAGCCATACACCAGTTGTGTTTGTTAAAAGCGATGATTTGGAACAAGTGAATGCGGTGGCGGTAAAAGGGGAATCAGTAGCAGATGGTGCTTATTCCACTATTCCTAAAATGGATGCTCTTCATGGTATTCCAAGTTATTCACAAGAACAAGCTTCCCTTAACATGATGATTATTTTTTTGTATGTCATTACTGCGTTTGTGCTAGCCGTGTTTTTCTATGTAATGACATTACAAAAACGAGACCAATTCGGTGTTTTAAAAGCGCTTGGTGCGAATAATACATATTTAATTTCGGGATTAATCACCCAGCTTATTCTTCTTTCTATCGTTAGCGTAGGGATTGCTACAGCGATTAGCTTTGGAATCGGCGCATTATTCCCAGCTGATATGCCATTTATTTTGAACATGGCAACAATTGTACAACCAGCGATTATTATTATCGTGGTATCTGTGTTAGGGGCAGTCGTATCGCTTTATCAAGTGATCCAGATTGATCCACTAGAAGCGATTGAGGGGGTGGCAACATGA MFLAIRELLFAKTKYILIGLITTLTVSLIFIVSGLAEGLSADNASSIQGLTADSLVLEAEAEGELGSSFIPMHQAKEIINDQEQEANTLSIQMMNATVGGGDKQISLALFATERDGMLIPEVTEGRSPKQENEVLADESLKQDGIQLGDELQLGEETTYVVAGFTTEQRYSHTPVVFVKSDDLEQVNAVAVKGESVADGAYSTIPKMDALHGIPSYSQEQASLNMMIIFLYVITAFVLAVFFYVMTLQKRDQFGVLKALGANNTYLISGLITQLILLSIVSVGIATAISFGIGALFPADMPFILNMATIVQPAIIIIVVSVLGAVVSLYQVIQIDPLEAIEGVAT NA NA NA NA NA AK015_03534 660 hrtA Putative hemin import ATP-binding protein HrtA ATGACGTTAGTATTAGAGCATGTCCATAAAGTATATCAAGATGGACCAAAAGAGTATGTTGCTTTAAATGATGCTTCTTTACAGGTGCAGGCTGGAGAATTTGTAGCAGTCGTTGGTCCTTCAGGATCAGGAAAAAGTACGCTGTTATCTATTGCAGGCGCATTATTATCACCTACTAGCGGCAAAGTTTTACTGGATGGGGAAAATATTGTAACGCTATCTAAGAAAGAAGTAACGAAGCGCAGGTTGGAAAAAATCGGGTTTATTTTTCAAGCCGCTCATTTACTTCCATATTTAAAAGTGAAGGATCAATTAAATGTTATTTCTGTCCTTGCTCATAAATCGAAGCAGCAAAAAACAGACATACTTGCTCATGTTGGTTTAGAGCACCGTATTCATCATTATCCGAATGAGCTTTCTGGTGGGGAAAGGCAGCGAGTAGCTATTGCTAGAGCATTAGTGAATGATCCGAAACTTATATTGGCGGACGAGCCGACAGCAAGCCTCGACTCTAGTCGCGGACAGGAAGTCGTCAAGCTACTCGCTAATGAGGTGAAAGAGGGCAATAAAGCGGGTGTAATGGTAACGCATGATGAGCGCGTTTTAGGCTATGCTGACAGAATCATTACTATTCGCGATGGAAAAGTGGAATTGGGTTAA MTLVLEHVHKVYQDGPKEYVALNDASLQVQAGEFVAVVGPSGSGKSTLLSIAGALLSPTSGKVLLDGENIVTLSKKEVTKRRLEKIGFIFQAAHLLPYLKVKDQLNVISVLAHKSKQQKTDILAHVGLEHRIHHYPNELSGGERQRVAIARALVNDPKLILADEPTASLDSSRGQEVVKLLANEVKEGNKAGVMVTHDERVLGYADRIITIRDGKVELG PGPT0013345_15519 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK015_03535 1797 dapb3 Dipeptidyl aminopeptidase BIII ATGATACCATTTCCGAAGCCTACTGTGGAACAGTTCTTTCGCACGTTTGCCATCACTAATTTTACTGTAACTCCTAATGAAAAAAGGGTCCTATTCAGCTCCAATTTAAATGGAAAAATGAACGTATGGGCGATGGACTTGCCAAGTACGTTCCCTTATTTATTTGCTCATCGTGAAGAATCGTGTAGCTTTCTAAAACGTGATCCGGAAAATCGTTATGTGTTAGCAGGGTTTGATCAGGATGGTGATGAAAATCATCACATTTATGCTATACCATCAGAAGGAGGGCTGCCACAGCCGCTTGTTACTGGAGACTCGGAAGAAAAGTACTTTTTTGCGCACTTGAGTGATGACGGTGAGCGTATTTATTATATGACATCGGAAGGAAATGCATCATTTTTAAATACGCGTGTTCGCCATTTGCAGGAGGGAAAAGATACTTTGCTTCATGTGGGCGAAGTAGGCCCAACTTTTTTAGAAGCTGTTTCTGAAGAAGAAAAGGCGTTTGTTTTTACACAGACGTATGCCAACACATATGTTATAGGATTTGTAAAAGTGGGCACAGAACAGATCCCGTTAACTCCTGACACGGAGAAAGTACATGTTGTCATGGATCCAGTATTTGTAGACGAAACGACGATTTTCTTTTTAACCGATTATGAGGATGAATATACGTATTTAGCCAAGTTCGATGTGAATAGCAGAACATTTTCTAAAGTTATAGCCGTTGAAGAAGAAAGTATTAATTTCCTAAAATGGAACAAGGAAAAACAATGCTTTTATTTCGTAACAGAAAAAGGGGTGACGGATAAGCTATATCAATTTGATCTTATAAAAAAAGAGCTGCTTACGATAGATGCACCAACAGACACGATCGATCAATTGGTAGTTGCGAAGTCAGGCAATCTTTATGTGTTAGGTAGAGCGGCGACATCACCGGCGAATATTTATCGGTACACATACGAGGGTGGAAGTTGGACGATGCTAACGAATAATCGTGTTCTCGGCGTTGCCAGTGAAGAGATGGTTGTGCCTGAGGTTGTGACGTACCGGTCCTATGATGGAATGGAAATCGAAGCATTATTATTTAAAGCTCACGCCCACTATGATAATGGCTATACTATTTTTTGGCCGCATGGTGGACCACAAGCAGCAGAACGAAAAGAATTCCGTTCCATGTTTCAAGCACTGCTAAATCGTGGTTATTCGATATTTGCCCCTAATTTCCGAGGAAGTACTGGATACGGAGCATCATTTGTAAAGATGGTTGAACAAGACTGGGGAGAGGGACCGCGTCTTGATTGTTTGGAAGGAATAAAGTGGTTATTTGATAACGACATTACTACGAAAGAAAAATTATTTTTAGTTGGTGGAAGCTACGGTGGTTATATGGCGCTACTATTGCATGGTCGCCATCCTGAGTACTTTAAAGCTGTTGTAGATATTTTTGGACCGTCTGACTTATTTACATTTGTAAACTCGGTGCCTCCGCATTGGAAACCAATGATGGACCGTTGGCTTGGCGATCCAGAACGAGATAAAGAACGATTCATTACGGATTCCCCTGTTACGTACTTAGAAGGTATGACAAAGCCAATGCTCGTCATCCAAGGTGCGAAAGATCCTCGAGTTGTAAAAGCAGAATCGGACCAAATTGTCGCTAAATTGAAGGAAAAAGGTCGTGATGTTGACTATCTTGTACTTGAAGATGAAGGACATGGCTTTTCTAAAAAAGAGAACGAAATGAAAGTGTATCAACGTATGCTTGACTTTTTAGATCAGCACAGAGATAGCTAG MIPFPKPTVEQFFRTFAITNFTVTPNEKRVLFSSNLNGKMNVWAMDLPSTFPYLFAHREESCSFLKRDPENRYVLAGFDQDGDENHHIYAIPSEGGLPQPLVTGDSEEKYFFAHLSDDGERIYYMTSEGNASFLNTRVRHLQEGKDTLLHVGEVGPTFLEAVSEEEKAFVFTQTYANTYVIGFVKVGTEQIPLTPDTEKVHVVMDPVFVDETTIFFLTDYEDEYTYLAKFDVNSRTFSKVIAVEEESINFLKWNKEKQCFYFVTEKGVTDKLYQFDLIKKELLTIDAPTDTIDQLVVAKSGNLYVLGRAATSPANIYRYTYEGGSWTMLTNNRVLGVASEEMVVPEVVTYRSYDGMEIEALLFKAHAHYDNGYTIFWPHGGPQAAERKEFRSMFQALLNRGYSIFAPNFRGSTGYGASFVKMVEQDWGEGPRLDCLEGIKWLFDNDITTKEKLFLVGGSYGGYMALLLHGRHPEYFKAVVDIFGPSDLFTFVNSVPPHWKPMMDRWLGDPERDKERFITDSPVTYLEGMTKPMLVIQGAKDPRVVKAESDQIVAKLKEKGRDVDYLVLEDEGHGFSKKENEMKVYQRMLDFLDQHRDS NA NA NA NA NA AK015_03536 759 lacR Lactose phosphotransferase system repressor ATGTTGAAAGAAAATCGACAAAAGCAAATATTGAATTTAATAGATGAGAAAGGATTTCTGAAGGTAGCTGAAGCCTCCAATTTATTAAGTGTAGCTGAAATGACCATTCGACGTGATTTAATGGAGCTGGAGGAAATGGGTTTAATAGAAAGAGTGCATGGGGGAGCAAAAAGAAGGGTCCAGAAAAAGACGCATTATACTGAATTATCCCATTTGCAAAAACAAGCGCTTCATATAGATGAGAAAAAGCATATAGCGAAAAAAGCAGCAGAATTAATTGAAGAAAACGATGTTTTGTTCATTGGTGCAGGAACCACAACGGAATACATTTATGATTATATAAACGTTAATGCAGCAAAAATAATTACCAATTCTATCTCGGTGTTTAATCGGTTTAAGGACGATGCAAGGTATGACCTTATTTTAATAGGTGGTAGATTACGTGAACGTACGGGAACTTTTATTGGATATTTCACACGAAAGTGGATACAAGATATAAAAGTCCAAAAAGTCTTTATCGGTACAAATGGGATAAAAAATGACCATATAACTACTGCAGAAGAGGAGGAAGGTGTTGTCCAACAAATAATATTGAAAAATTCTGATGAGAATTATATTTTGGCAGACAGCTCTAAATTTGGTGTAGAAGCTTTTCAGGTATTGTGCCACATTGATGAGATAGACGGGATTGTTACTGATCGTAAATTGTCTCCCCAGTTTAAAAATTATTATCAAAATAAGTGCAACATGATTATGTAA MLKENRQKQILNLIDEKGFLKVAEASNLLSVAEMTIRRDLMELEEMGLIERVHGGAKRRVQKKTHYTELSHLQKQALHIDEKKHIAKKAAELIEENDVLFIGAGTTTEYIYDYINVNAAKIITNSISVFNRFKDDARYDLILIGGRLRERTGTFIGYFTRKWIQDIKVQKVFIGTNGIKNDHITTAEEEEGVVQQIILKNSDENYILADSSKFGVEAFQVLCHIDEIDGIVTDRKLSPQFKNYYQNKCNMIM NA NA NA NA NA AK015_03537 429 lacA Galactose-6-phosphate isomerase subunit LacA ATGAAAGTAGTAATGGGTAGTGATGTTAAAGGATTTGAGCTTAAAGAATTTATTAAGCAGCGCCTTGTGTATTTAGGGTACGACGTTGAGGATATAACTCCCAAAAAAATGAATGATTTTTATGATGTAACTACTGATTTGACTGAGTTTATTCAAAAACATGATGATAGCCAAGGAGTGATGTTTGATGAATATGGAGTTGGTCCATTTATGATTGCAAATAAATGTAAAGGTATTATATGTGCAAATGTATTTGACGAACACTCTGCAAAAATGACAAGAGCTCATAATAATACAAATATGATTACAATTGGAGCGGGCATTGTGGGAAATAGGTTGGCCGAAAGAATAGTTGAAACATTTTTAGCTTCAGATTATGAAGGTGGGAGGCATCAAATTCGAGTGGATATGCTAAATAAAATGTGTTAG MKVVMGSDVKGFELKEFIKQRLVYLGYDVEDITPKKMNDFYDVTTDLTEFIQKHDDSQGVMFDEYGVGPFMIANKCKGIICANVFDEHSAKMTRAHNNTNMITIGAGIVGNRLAERIVETFLASDYEGGRHQIRVDMLNKMC NA NA NA NA NA AK015_03538 516 lacB Galactose-6-phosphate isomerase subunit LacB ATGAGAATTTCTATAGGATGCGACCATATTGTTACAGAAGTAAAAGATCATTTTGTGAAGTATTTAGCGGAAAGTGGTCACGAAGTTATTGATAATGGAACCCATGACAAAGAACGTACACATTATCCGATCTATGGTAAAAAGACAGCTGAAAAAGTTGTTCTTGGCGCAGCTGATTTAGGAATTGTTATTTGTGGGACTGGCGTAGGGATTTCAGTCAGTGCCAATAAAGTACAGGGTGCTCGTGCTGCTTTGGTTAGAGATGTGGAGGCTGCCCGATATGCCAAAGAAAACTTACATGCAAATATTATTGCGATGGGAGGGAGAATTACAGGTATAGGGTTAATGGAAGATATAGTAGATGCATTTATTAAAACTAAATACAAAGCAACACCTGAAGAAGAGGAAGTGATAAAAAAAATAGATCGCCTTGTAGGTAATGAGGAACAATTGAATAATGACCATTACTTTGATGAATTTATTGACAAATGGGAGCAGGGAGCGTATCAAGATTAA MRISIGCDHIVTEVKDHFVKYLAESGHEVIDNGTHDKERTHYPIYGKKTAEKVVLGAADLGIVICGTGVGISVSANKVQGARAALVRDVEAARYAKENLHANIIAMGGRITGIGLMEDIVDAFIKTKYKATPEEEEVIKKIDRLVGNEEQLNNDHYFDEFIDKWEQGAYQD PGPT0017395_1944 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 AK015_03539 477 gatA_3 COG1762 PTS system galactitol-specific EIIA component ATGAGTGTATGTTGTTCTCTTTTCGAAAAGGATCTCATTTTATTTAGTGACGCACAAACACAAGATGAAGTTTTTGATGAAATAGGGAATATTTTAATGGAAAAAGGACTTGTTAAAGAAAGCTTTATAGAGGCTATTAAAAGTAGAGAAAAGGAATATCCAACAGGACTAGACCTTTCTCCTGTTGAAAAAGGATTGTCAAATGTTGCTATCCCCCATACAGAACCAGAATATTGTAGATCGCAATCCATTGTTTTTGTGAAATTAAATAATGAAGTAACCTTTAAAAATATGATTAGTCCAGAAGTAGATGTAAGTGTTACTTATTTGTTTTTTATTATTAATAATAAAAAACAAAATCAAACCAATGTATTATCTAATTTAATGGCTTTTTTGACAAATAAAGAGAATGTTAAGAATCTGGATACATTAAATTCAGCCGAACCCATTTATAACTTTTTAACCAATAAATTTTAA MSVCCSLFEKDLILFSDAQTQDEVFDEIGNILMEKGLVKESFIEAIKSREKEYPTGLDLSPVEKGLSNVAIPHTEPEYCRSQSIVFVKLNNEVTFKNMISPEVDVSVTYLFFIINNKKQNQTNVLSNLMAFLTNKENVKNLDTLNSAEPIYNFLTNKF PGPT0017095_86 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOSE_PTS_SYSTEM,PGPT0017095-gatA-K20112 NA NA AK015_03540 303 hypothetical protein ATGATTAAAATTTTAGCGGCGTGTGGAGCGGGTATTAACTCAAGTCATCAGATTAAAACAGCAATTGAGGAAGAAATGAAAAAAAGAGGTTATGATGTCAAGGTAGATGCTGTAGTAGTAAAGGATATTAACAAGGAGATGATGGATCAGTATGATATTTTCACTCCAATTTCTAAGATTGAATTTAGCTTTGATATAAATATTCCTACAATAGAGGCCGGGCCTATTCTCTACCGCATACCTGCTATGGCGGAACCAGTTTTCGAAGAATTAGTAAGCGCTATCAAAAAAATAAAGAAATAA MIKILAACGAGINSSHQIKTAIEEEMKKRGYDVKVDAVVVKDINKEMMDQYDIFTPISKIEFSFDINIPTIEAGPILYRIPAMAEPVFEELVSAIKKIKK PGPT0017100_64 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOSE_PTS_SYSTEM,PGPT0017100-gatB-K20113 NA NA AK015_03541 1413 gatC_5 COG3775 PTS system galactitol-specific EIIC component ATGGAAGCAATTATTAAATTTGCAAACTCAATATTTCAGCCTATTATTGATTTAGGTGCAGCACCAATGATGTTTATATTACTTACTTTGCTTGCGGTATTAATGAGAGTTAAAGTGAGTAAAGCGCTTGAAGGCGGTCTTAAATTAGCAATCGCATTAACGGGTATTGGGGCAGTTATTGATTTATTGACTAGTAATTTTGCACCTGCCTTGCAGGATTTTGTAAAGTCTACCGGCATCGAATTAACTATCACTGATGTAGGCTGGGCTCCGCTTGCTACCATTACTTGGGGATCGGCATATACGTTATTTTTCTTAATGATTTTAGTTATTGTCAATCTTGTATTATTAGTTTTGAATAAAACGGACACACTTGATGTAGATATTTTTAACTTTTGGCATTTATCGATAACGGGTCTGCTAGTTATGTTTTATTCTAATAATCTTTTTATTGCTACTCTATTAGTTATCATGTTAGGAGTTATGAAATTTATCAACGCTGATTTAATGAAGCCAACATTTAATGATTTACTGGACATGCCTGAATCAAATCCAACGACAACGACACATTTAAACTTTTTGCTAAACCCTTTAATTATGCTATTTGATAAATTCTTTGAAAAGGTAATGCCATTTCTTGATAAATACGATTTTGACGCAGCGTGGTTGAATGAAAAGATAGGTTTCTGGGGAAGTAAATTTGCTATTGGTATTTACTTAGGGGCTTTTGTTGGTTTGTTAGGGCAACAATCCGTCACAACTATCTTCGCATTAGCTTTTATTGGTGGTACAGCTCTTGAATTATTTTCTATAGTCGGCACATGGTTTATAGCTGCGATGGAGCCAATTTCTCAAGGAATTACAACCTTTATGAGTAAGCGTTTACAAGGTCGGACTTTTAATATTGGTATTGATTGGCCGTTCCTAGCAGCTCGTCCTGAAATGTGGGCAGCAGCTAATGTCTTAGCTCCAATTATGCTATTTATTGCTCTCATTTTACCTGGTAATGGTATTCTTCCTTTAGGAGGTATTATTGCAATTGGTTTAACTCCGGCTTTGTTAGTTGTTTGTCGAGGGAAAATTATCCGAATGATTTTAATAGGTACCATTATGATTCCCGTCTTTCTTTGGTCAGGGACAGTAATAGCGCCATTTGTAACAGACGTTGCAACATCTGTTGGAGCCATGCCTTCTGGAATTGAAAGTGGAGCACTCATTACACATTCTACACTGGAGGGGCCAGTTGAAAAATTTATTGCTATATTAATAGGGAAAGCTGCTAATGGTTTCGAATTAATACCAGTGTTAACAGCGTTGGGAACAATTGCAGCATATTTGAGCTTATTTGTTTGGTATGTAAAACAGATGAAGAAACGTAATAAAGAATATAAAGATGAAAAAAAAGCAGCCTAA MEAIIKFANSIFQPIIDLGAAPMMFILLTLLAVLMRVKVSKALEGGLKLAIALTGIGAVIDLLTSNFAPALQDFVKSTGIELTITDVGWAPLATITWGSAYTLFFLMILVIVNLVLLVLNKTDTLDVDIFNFWHLSITGLLVMFYSNNLFIATLLVIMLGVMKFINADLMKPTFNDLLDMPESNPTTTTHLNFLLNPLIMLFDKFFEKVMPFLDKYDFDAAWLNEKIGFWGSKFAIGIYLGAFVGLLGQQSVTTIFALAFIGGTALELFSIVGTWFIAAMEPISQGITTFMSKRLQGRTFNIGIDWPFLAARPEMWAAANVLAPIMLFIALILPGNGILPLGGIIAIGLTPALLVVCRGKIIRMILIGTIMIPVFLWSGTVIAPFVTDVATSVGAMPSGIESGALITHSTLEGPVEKFIAILIGKAANGFELIPVLTALGTIAAYLSLFVWYVKQMKKRNKEYKDEKKAA PGPT0017090_78 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOSE_PTS_SYSTEM,PGPT0017090-gatc-K20114 NA NA AK015_03542 189 hypothetical protein ATGACACATTTAGCATTTTTAATACCCGCTATTTTAGTATATGTCTATATATTTAGGGATTTCGCTTTATATAATGGGGATACATTTAAATTACTAGTTTTTGGAATTATCATTATTCAGTTTACTGCTTTTTTTATACAGTCTAGCTTGTATTACAAACGAATGAAGAAAAAAGTGGAAAGATATTAA MTHLAFLIPAILVYVYIFRDFALYNGDTFKLLVFGIIIIQFTAFFIQSSLYYKRMKKKVERY NA NA NA NA NA AK015_03543 546 hypothetical protein GTGAAAACAGTGTGGAAGCCATTTTGGAGTTATAATGTAAAAAAGACAGAAAAATGGCTTCAGGCAAAAGCTTTGCAAGGAGAGCAATTGGTGGACATAAAGCCTCTTTACCGTTTGTTTATCTTCGAAGCAGGCAACCAACCTCAGGCGATTCAATATCATATTGCTTATCAAAAAAAGCAACACCATAAGCTGCCTCTATTATTACAGCAAAGTGGATGGGGAGAATGTTGTCAACGAGGACGTTGGTATATTTTTACTAATCAACAGAAAACAAAAGACATCCATAATTATCCTGTCCGTCGAGAAATTATTAAGCGCAATCGCAATATATTCTATTTTTTTACTGCATTAACCATGTACGTGCTTCTTACCTTGCTACTGTTTGTTATTATGAGTGGAATTATTGTATTTTATCATGGGAACACCCTTACTTTTTCCCCTGTTTTTGTATGGCACACACTCCTTGTAATTAGTATTGGTTTAACTATTATTGGCATGTTTTCCACTATACGCCTCTACCAATCCAATAAACATTTTTGGTAA MKTVWKPFWSYNVKKTEKWLQAKALQGEQLVDIKPLYRLFIFEAGNQPQAIQYHIAYQKKQHHKLPLLLQQSGWGECCQRGRWYIFTNQQKTKDIHNYPVRREIIKRNRNIFYFFTALTMYVLLTLLLFVIMSGIIVFYHGNTLTFSPVFVWHTLLVISIGLTIIGMFSTIRLYQSNKHFW NA NA NA NA NA AK015_03545 1803 glmS_2 COG0449 Glutamine--fructose-6-phosphate aminotransferase [isomerizing] ATGTGTGGAATTGTAGGATATATCGGCCAGGATGATACGAAAGAAGTTTTACTAAATGGTCTTGAAAAGCTTGAATACAGAGGTTATGATTCAGCAGGTATTGCAACTTTAAATGACACAGGTGTTCAAGTTGTGAAAGTAAAAGGTCGAATTGCAAAATTAAGAGAAAGCATAGATAGCTCATTACGTGCAACGATGGGAATCGGTCATACGCGCTGGGCGACTCATGGTGTGCCAAGCGAAGAGAATGCACATCCGCATCAAAGCGTGTCTGGCAGATTTACCCTTGTTCATAATGGCGTTATCGAAAATTACCAAGAATTAAAAGAGAACTATCTTGGGAACGTGCGTTTTGTTAGTGAAACAGATACAGAAGTCATTGTGCAACTGATTGAAAAGCTGTTCGCAGAAACAAACAATACAGCAGCAGCTTTTCGTAAAGCAATGCGTCTATTAAAGGGGTCCTATGCGATCGGTATGATTGATCATGAGAACAAAGATACGCTGTATGTTGCTAAAAATAAGAGTCCTTTGTTAGTTGGATTAGGTAACGGATTTAATGTTGTTGCAAGTGACGCCATGGCAACATTAAAAGCAACGGATCAGTATGTCGAAATTCATGATCAGGAAGTAGTGCTCGTTCATCGTGAATATATTGAAATTCATGATCTTGATGGAAATTCCATTATGCGTGAACCATATACAGCTCAAATCGATGCCAATGATATTGAAAAAGGGACGTACCCTCACTTCATGTTAAAGGAAATCGATGAGCAGCCGTTTGTTATGCGTAAAATTATTCGCGAATATCAAACAGAAAATAATGAACTTAAACTAGATCAGAACATTCGTCAGGCTATGAACAGCTGTGATCGTATTTATATTATTGCAGCAGGAACAAGTTATCATGCTGGGTTAGTTGGAAAGGAATTTATCGAAAAACTTGCCAACGTTCCAGTCGAAGTTCATATTGCCAGTGAATTTTCATATAACATGCCATTATTGTCAGAAAAACCGTTGTTTATTTTTATCTCCCAAAGTGGAGAAACAGCAGACAGTCGTGCTGTATTAGTAAAAATTAAAGAAATGGGACATCCAGCATTAACGATTACGAATGTGCCTGGATCCACCCTTTCTCGTGAAGCAGATTATACGTTAAACTTATATGCAGGTCCAGAAATTGCGGTAGCTTCTACCAAAGCTTATACAGCGCAAATTGCCGTATTGGCTATATTAGCAGTCGACACTGCAAAAACAAAGGGATTACCGTTGGATTTTGATCCAATGCAGGAGCTAGCGATCGTTGCTAATGCAATGGAAGTGCTAACCGATCAAAAAGAAGCGATAGAAGATTTGGCACGGAAGTATTTGCATACAGCTCGCAACGCATTTTTTATCGGTCGAAGCGTAGATTACCACGTGTGCTTAGAAGCAGCTCTTAAGCTAAAAGAAATCTCCTATATCCAGGCTGAAGGCTTTGCTGGTGGAGAATTAAAGCATGGAACGATTGCTTTAATTGAAGAAGGAACTCCAGTTATTGCATTGGCCACTCAGGAAAATGTGAATTACTCCATTCGTGGCAATGTGCAGGAAGTAGTAGCACGTGGAGCGAATGATATGGTTATTAGTATGAAGGGGCTAGAGCGAGATACGGATGCATTTGTCATCCCGCATGTTCATGAATTGCTCACACCACTTGCTAGTGTTGTGCCATTACAACTATTTTCTTACTACGCTGCATTACATCGTGATTGCGATGTTGATAAACCTCGTAACTTGGCAAAAAGTGTGACTGTGGAGTAG MCGIVGYIGQDDTKEVLLNGLEKLEYRGYDSAGIATLNDTGVQVVKVKGRIAKLRESIDSSLRATMGIGHTRWATHGVPSEENAHPHQSVSGRFTLVHNGVIENYQELKENYLGNVRFVSETDTEVIVQLIEKLFAETNNTAAAFRKAMRLLKGSYAIGMIDHENKDTLYVAKNKSPLLVGLGNGFNVVASDAMATLKATDQYVEIHDQEVVLVHREYIEIHDLDGNSIMREPYTAQIDANDIEKGTYPHFMLKEIDEQPFVMRKIIREYQTENNELKLDQNIRQAMNSCDRIYIIAAGTSYHAGLVGKEFIEKLANVPVEVHIASEFSYNMPLLSEKPLFIFISQSGETADSRAVLVKIKEMGHPALTITNVPGSTLSREADYTLNLYAGPEIAVASTKAYTAQIAVLAILAVDTAKTKGLPLDFDPMQELAIVANAMEVLTDQKEAIEDLARKYLHTARNAFFIGRSVDYHVCLEAALKLKEISYIQAEGFAGGELKHGTIALIEEGTPVIALATQENVNYSIRGNVQEVVARGANDMVISMKGLERDTDAFVIPHVHELLTPLASVVPLQLFSYYAALHRDCDVDKPRNLAKSVTVE PGPT0017630_5866 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_BY_NODULATION ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820 NA NA AK015_03546 339 hypothetical protein ATGTACTCAATCGCTTTTTCTACAAAAAACAATATAAAATTAGGGCTGGGTCCAATACGGATTCAGTCTTTTTGTTTTGTTCAGTATCTCTTCAATTCCTTGTCCAATAGGGATTCAGGTGGTTTTCATATCGCTTTCTATACATTTCGAAAGAACACGGGAAAGAAGAAAGAGAGTGATGAAATAAGAGGCATTTCAGTTCTCTTTTCTCATGTTTTTTTCTTATTTCTGTTCTCGTTCAGGGAAGATCTATTTAACATTATCCGAATATTCGATACAACCCATAGTGGAAAAAAGAAGGCGAAAATGGGGCTTTTGGGGAAGAAATTAATAACATAA MYSIAFSTKNNIKLGLGPIRIQSFCFVQYLFNSLSNRDSGGFHIAFYTFRKNTGKKKESDEIRGISVLFSHVFFLFLFSFREDLFNIIRIFDTTHSGKKKAKMGLLGKKLIT NA NA NA NA NA AK015_03547 669 hypothetical protein TTGGAAAAGTGTCCAGAAATAGAAACCATATGGGACTATGAGGAAAACTATCCGTTAAGACCCGAACATTTCAGGCAATATTCAAATTTCAAGGCATGGTTTATCTGTGAACAAAAGCAAGTAACTTTAGCTCAAATTGGCAGTAAAGCCCAAGGTTATGGAGGTTTGTCATGGAAAGTAGCAACAGAAGAGTATAACTTGGAATTATTGTTTCCTGAAATCTCAAAAGAATGGAACTATGAGAAGAACGACTCTAACTCTCCCGTTACATATTTACCTTTTTCTAATCAACTTGTGTATTGGGATTGTCAAACGTGTGGATCAACATACGATAAGATGATTAATGAGAGAACTGGTGGCGGTGAGGGATGTCCTTATTGTGCAGGTAAAAGGGTCAATCTTACTAACTGTCTTTCTACTACACATCCGCATCTTGCAAGTGAATGGGACTACAATCAGAATGGAGACCTAACACCTGCCGATGTGACAAAAGGATCTCATGATAAAGTATTTTGGAAATGTAAGAAAAGCCATAGTTATCTTGCTTATGTTTATAGTCGGGTAGAGGGGCGAGGTTTGATTCAAACTAAATGGTTTGATTTTACTATGCTGAATACCGTCCTATTTAATAATCACAAACCTCTTCTTTGCACTCTTCTTTTACTTTAG MEKCPEIETIWDYEENYPLRPEHFRQYSNFKAWFICEQKQVTLAQIGSKAQGYGGLSWKVATEEYNLELLFPEISKEWNYEKNDSNSPVTYLPFSNQLVYWDCQTCGSTYDKMINERTGGGEGCPYCAGKRVNLTNCLSTTHPHLASEWDYNQNGDLTPADVTKGSHDKVFWKCKKSHSYLAYVYSRVEGRGLIQTKWFDFTMLNTVLFNNHKPLLCTLLLL NA NA NA NA NA AK015_03548 282 hypothetical protein GTGAACTCATCCAATAATAATTATGATGACAAGACGGTTAGCAAAGCTAAGGAAAAAGTAGAAAGCTATCTACGTCATAACTATGAGGATATAAAATCAGTGGAGTTTAAAGATGACATGAGTGACCCTATGGGTGGTTTGATGATTCGTGGTACAGTCAATGGAAAAGCTGATTTTTCTGCTAGTGTTGACCCAAAAGAATTTAAAGTAAATAGCATGGGGGAAAAAGAAGGATTTCCTAAAGTAAAAGAAGAGTGCAAAGAAGAGGTTTGTGATTATTAA MNSSNNNYDDKTVSKAKEKVESYLRHNYEDIKSVEFKDDMSDPMGGLMIRGTVNGKADFSASVDPKEFKVNSMGEKEGFPKVKEECKEEVCDY NA NA NA NA NA AK015_03549 279 hypothetical protein GTGAACTCTAATAACGAAACCTATGATGATACAACAAAAGAAAAAGCTACAGAAGCCGTTAAGCAGTATTTAAAAAATAATTTTGAGGGAATCGAATCCGTTAAGATCGATAATATCTACCAAAGTCCAATGGGAGGATTGACCGTTGATGGCAATGTTAATGAAGGAGTTGCTGACTTTTCAGCAGGGGTTGAAAATGATTATACTGTAGGAAGTATAGGGTTGAGTGAAGGGTTCCCCGAAAGGAAGGAAGAATGTAAAGAACGATCGTGTAAATAA MNSNNETYDDTTKEKATEAVKQYLKNNFEGIESVKIDNIYQSPMGGLTVDGNVNEGVADFSAGVENDYTVGSIGLSEGFPERKEECKERSCK NA NA NA NA NA AK015_03550 1074 tagT COG1316 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagT ATGGGAAATAATGACAGAAATACTCGAATCGTGAAAAAAAAGAAAAAACGCAAACTTCGTAAAAGAGCCTATATACTAATACCCCTTTTTATTGTTTTTATAGGCGCATTGAGTTGGGCGATTTCTTTATACATTAAAGCTGATTCGGTCTTAACTGATTCATACGAAGATGATGGTAGAGAAAAATCAGAACTAAGAACAGAAAAAGTAGATCCGAAGTTCGATAACGTCTCCATTTTAATTATGGGGGTAGATGACAATGACCATAGAACTGGTAACGCTCGTACAGACTCTTTAATGGTAGCCACATTAAATAAAGATGAAAAAAGCGTTAAGCTTGTTAACATCCCTAGAGACTCTTATGTATATGTTCCAGCATATGGATATGAAACAAAAATAAACCACGCCCATGCAAAAGGTGGCCCGAAAGCAACCATAGAAACTGTGGAAAATTTACTTGAAGTTCCAATCGATTATTATGTTAAAGTTAACTTTCACGCATTTGTGGAGGTAGTAGATGCTCTTGGTGGAATAACAGCAGAAGTTCCTTATGAATTTAAAGAATCAAATTCCATGGATAAGCGTGATGCTATTCATCTAATGCCTGGTGAACAAAAATTAAATGGTGAGGAAGCACTTGCACTAGCTCGTACAAGAAAACTAGACAATGATATTGAACGAGGAAAACGTCAGCAAGATATAATTAAATCCATTGTCAAAAAAGCTACGTCTGTGAATGCATTATTAAAGTTTGATGATGTAATTGAAGCAATAGGCGACAACATGACAACGAACATGACATTTAGTGAAATGAAAAGCTTCATATCTTATGGAACAAGTGGATCTAATATAAATATAGACTCTTCAACTTTAAGTGGAACTGATTACCAACCTGCTAATGTATACTATTGGCAACTTGACCAACAAGCTCTTACCGAAACAAAAACGATGCTACAAAGCCATTTAGAATTGCAAACAGAATTAACAGATTCACCAAGTAGTTCTACTAGTTCTGATGCAACCTATGAAACAGAACGAGAAAGTTCTGAAGTAGATACTTATAATACTAATTAA MGNNDRNTRIVKKKKKRKLRKRAYILIPLFIVFIGALSWAISLYIKADSVLTDSYEDDGREKSELRTEKVDPKFDNVSILIMGVDDNDHRTGNARTDSLMVATLNKDEKSVKLVNIPRDSYVYVPAYGYETKINHAHAKGGPKATIETVENLLEVPIDYYVKVNFHAFVEVVDALGGITAEVPYEFKESNSMDKRDAIHLMPGEQKLNGEEALALARTRKLDNDIERGKRQQDIIKSIVKKATSVNALLKFDDVIEAIGDNMTTNMTFSEMKSFISYGTSGSNINIDSSTLSGTDYQPANVYYWQLDQQALTETKTMLQSHLELQTELTDSPSSSTSSDATYETERESSEVDTYNTN PGPT0023440_2120 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 AK015_03551 393 tagD COG0615 Glycerol-3-phosphate cytidylyltransferase ATGATGAACGTTATTACTTATGGTACATTTGACCTTATACATCCTGGCCATATTCGCATACTACAACGCGCAAAAGAATATGGTGATTATTTAATTGTTGGTTTGTCAACCGATGCATTTAATAAAGCTAAAGGTAAGCACGCATATCACTCCTATACAGACCGAAAAGTTGTTGTTGAAGCAATTCGCTATGTCGATTTAGTAATACCTGAAGTTAGTTGGGATCAAAAAATAGGTGATATTCACAACAATGAAATTGATATTTTTATTATGGGAGATGACTGGAAAGGATCATTTGACTATTTAAATAAATACTGTAAAGTAGTATATTTGCCAAGAACAGAGGGAATTTCTTCTTCAAAAATTAAAAATGATTTAAACGGACATTTATAG MMNVITYGTFDLIHPGHIRILQRAKEYGDYLIVGLSTDAFNKAKGKHAYHSYTDRKVVVEAIRYVDLVIPEVSWDQKIGDIHNNEIDIFIMGDDWKGSFDYLNKYCKVVYLPRTEGISSSKIKNDLNGHL PGPT0024325_475 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE,PGPT0024325-tagD-K00980 NA NA AK015_03552 261 hypothetical protein TTGAAAAAAAATGTTTTAGAAACTAAAGACCCAAGAGAGATGACAAAAGAAGATTATGGACAAGCTCCTATGAAAGCAAAAGAAGGCATTTATTTTCTTACACCATCTGTTGGAGAAGATTCTGGTAGTAGAATTATGAAATTTGAAAATAAAGCAGACCTAGGAGATACAAAAGAATATTACGACTCCATGAGTGAGGAAGGCGCTTTAACTCTTTTATCTCAAATTTATTTCAACAAAAAATTTCAGCATATATTATAA MKKNVLETKDPREMTKEDYGQAPMKAKEGIYFLTPSVGEDSGSRIMKFENKADLGDTKEYYDSMSEEGALTLLSQIYFNKKFQHIL NA NA NA NA NA AK015_03553 138 hypothetical protein ATGCATAACCACAAATTGTTAGGTGCCGTTATGATATTCACATTTATTACTGGTTGTAGTAACGATTGTGAAAAAGAAAATGAGATAACTGCAGACGATGTAGTTAAAGCATTTGAAAAAAAATGTTTTAGAAACTAA MHNHKLLGAVMIFTFITGCSNDCEKENEITADDVVKAFEKKCFRN NA NA NA NA NA AK015_03554 225 hypothetical protein ATGGCTATTGCAACTTTGACGGATTCGTCTCTTAGATTGGAATTTGACAATGGTATCGATGGAAATACTGGGAAGAAACTCACAAAGGATAAAAGCTTCAATAATGTGAAAATTACTGCTACGTCTGAGCAGCTGTATACAGTTGCCCAAGCAATTGTTGGTTTACAACAGCTGTCATTGCTATCGATTGAGCGTAAGGATAGCTCAAACATTGTCGAGGAGTAA MAIATLTDSSLRLEFDNGIDGNTGKKLTKDKSFNNVKITATSEQLYTVAQAIVGLQQLSLLSIERKDSSNIVEE NA NA NA NA NA AK015_03555 216 hypothetical protein ATGAAGAAGCTGGAATTAAAATTTACGAACCAAGATGGTAAAACAGTCAATTATTCCATTGATCAGCCAGTGGAGCCAGTTGATACTGCAACTGTTAACGCAGCTATGGATGAAATCTTGCAACAAAATGCTTTCACTTCTAGTGGAGGAGATTTAGTTGCCAAAAAAAGCGCAAGAATCGTGGAGAGAATTGTTGAAGAAGTAGAAATGCAATAA MKKLELKFTNQDGKTVNYSIDQPVEPVDTATVNAAMDEILQQNAFTSSGGDLVAKKSARIVERIVEEVEMQ NA NA NA NA NA AK015_03556 210 hypothetical protein ATGGATATGTGGATAGCATTTATAACCGAAGTTGGATTTCCCATGGCAGTGACCTTTTATCTGCTTCATCGTATTGAAGGCAAGCTGAATGTTGAAATTGCAACCATTTATGAATTGCTGGAAAAAATGAGCCAATCGTTCAAAGGAGTTAGTTATACTGCTTGCACGATAGGAAAACAAAAAACTCCAAGGCTTATCGTATTAACATAA MDMWIAFITEVGFPMAVTFYLLHRIEGKLNVEIATIYELLEKMSQSFKGVSYTACTIGKQKTPRLIVLT NA NA NA NA NA AK015_03557 618 nudL putative Nudix hydrolase NudL ATGAATACAGCAGAAGTTATTGAACGATTGCAACATCGAAAACCGACCATCCTAGGGAGGGAGCATTTTCGTGAATTTGCAGTTCTGATCCCATTGATTGCAGTAAATAATGAAACTCATCTGCTTTTTGAAGTTCGGTCGAAGCATATGCGGAGTCAACCAGGAGATGTTTGCTTTCCAGGTGGGCGGGTGGAACAAAGTGACAAAGATGAGTTGCATTGTGCTTTACGGGAAACATCGGAAGAATTGGGGATAGAGCAAACGCAAATTCGTAATGTAATTCCTTTAGACTATATTGTATCTGATTTTGGAAGGATTGTATTTCCTTTTACTGGGACTGTCGAGAATATAGAAACCATTAATCCTAACTCTGCAGAGGTGGCAGAAGTATTTTCGGTACCTTTACGTTTTTTCCTTGATACGAAACCAAAAGCTTATCAAGTGAGTTTTAAAGTGATACCGGAAGAGAATTTTCCTTATCATGATATTCAGGGGGGAAGAGATTACAATTGGAGCACACCGAAAATGGAGGAATTATTTTACTATTACGAGGATAGAGTGATTTGGGGTTTAACCGCAAAAATTATTGCTCATTTTGTAGCATTATTACAAGATTAA MNTAEVIERLQHRKPTILGREHFREFAVLIPLIAVNNETHLLFEVRSKHMRSQPGDVCFPGGRVEQSDKDELHCALRETSEELGIEQTQIRNVIPLDYIVSDFGRIVFPFTGTVENIETINPNSAEVAEVFSVPLRFFLDTKPKAYQVSFKVIPEENFPYHDIQGGRDYNWSTPKMEELFYYYEDRVIWGLTAKIIAHFVALLQD NA NA NA NA NA AK015_03558 165 hypothetical protein ATGAACCAAGCTCTAAAACTATCCGAATTAATCGACGAGATGAATATGCAATTTGATGACTCAGATGTATTTGTGAATAAGGAAACAGGGGAAATTGTGCACATCATGGAAGGGTTTCTACTTATGGCGGAAGATGGGGAAGAAGGTGATCATTTACCATCGTAG MNQALKLSELIDEMNMQFDDSDVFVNKETGEIVHIMEGFLLMAEDGEEGDHLPS NA NA NA NA NA AK015_03559 294 hypothetical protein TTGATACTCGCAGAAGATATTGTTATGGATTTTGAAAAATATGTAACCATTCCGAGTAAATATGATATGAATGAATACGACATTATGGAAGATTTTTGTCTAGCAGTAAAAAATGAGCGACATCAACAGCAATTGTTAACAGCGATACGAGGGAAGGGCGCTTTTCGTAGGTTTAAAGATAAAATAATCGCATTAGACCTAGAAGACGATTGGTATGACTATCATCATAACCGTTTAAAGGAAATCGCGATTGATTTTTGTCATAGACATGAAATAAAATATGAAGATAAATAA MILAEDIVMDFEKYVTIPSKYDMNEYDIMEDFCLAVKNERHQQQLLTAIRGKGAFRRFKDKIIALDLEDDWYDYHHNRLKEIAIDFCHRHEIKYEDK NA NA NA NA NA AK015_03560 1035 mro COG2017 Aldose 1-epimerase ATGGAGATAAAAGAAAAAACGGTTCATACGAATTGGAAGCTACGAACATTGATAAACGATAATCATATGCAAATAAGCTTTCTCGATTATGGCGGTGCCATCACCGAAATTGTCGTACCTGATAAACAAGGACAATTGGATAATGTCGTATTGCACTACAATCATTATCAAGATTATGAAGCCAACCCATTTTATTTAGGAGCTTTAATCGGAAGAGTTGCTGGCAGAATAGCAAATGCCTCCTTTTTAGTGAAAGGAAAAAGGCACTTTGTTACTAAAAATGAGGGGCATCATCATTTACACGGTGGTATAAACGGCTTTAGTCATGTGCTCTGGCATGTTACTACAGAGCAAACAGAAAAGGATGTTCGTGCTATTTTGACACACCATAGTCCTGATGGAGATAATGGTTATCCTGGCAATGTGAAAGTGACGATCAGCTATATTTTGACAAATGAAAATACGTTTACGATAGATTATAAAGCGACAACGGATCAAGCTACTCCTATCGCCTTAACGAATCATAGCTACTTCAACTTGCGAGGAAGTAAAGGCGAAACAGTGAAGCAGCATTATGCTAAAATGAAGAGCGATATTTGCTTGGAATTAAACAAAGACCTCATTCCAACAGGGCGCTTTATTACAAACGCACATGCTTTTAATTTTCAATCTTACCAGCAATTATGTACAGGCATGAATGCCAACCATGAACAAAACAGCATCGCCGGTAATGGGTATGACCATTATTTTTGTTTCGCGAAAGAAAAAGATAAGCAAGCATGCTTACTCGATAAAAAAACAGGCAGAACACTTCACGTTACAACCAATCAACCTGGCATGATTTTATACACTGGTAACTATTTACATGAATCACATAAACAAATACAAACAACATTTTCTCGTTACCAAGGAGTGTGTTTGGAAACACAGGGTTCTCCAGTTGCACTTATCTACAAACACTTACCAAGTATTATGTTAGAGCCGAATGAAATCTATCATCAAACAACTGCTTTTTCCTTTGGAATAAAGGGTTAA MEIKEKTVHTNWKLRTLINDNHMQISFLDYGGAITEIVVPDKQGQLDNVVLHYNHYQDYEANPFYLGALIGRVAGRIANASFLVKGKRHFVTKNEGHHHLHGGINGFSHVLWHVTTEQTEKDVRAILTHHSPDGDNGYPGNVKVTISYILTNENTFTIDYKATTDQATPIALTNHSYFNLRGSKGETVKQHYAKMKSDICLELNKDLIPTGRFITNAHAFNFQSYQQLCTGMNANHEQNSIAGNGYDHYFCFAKEKDKQACLLDKKTGRTLHVTTNQPGMILYTGNYLHESHKQIQTTFSRYQGVCLETQGSPVALIYKHLPSIMLEPNEIYHQTTAFSFGIKG PGPT0017825_2850 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 AK015_03561 1509 galT_2 Galactose-1-phosphate uridylyltransferase ATGGCTAACATTGATACACTTATAAACAAACTTATCCAACAGGCTGTTCAAAAAAATTTAATCGAACAGCTAGACACCGTTTATGCAAGAAATCAAATAATGGCGCTACTAAAGCTCGAATCCTACCACATTCCATGTAATAAGGATGAACAGCTTACGGTAAATGAAACGATTCCTGATTTATTAGAGCAATTGATAGCGTGGGCTGTCGAAGCGCAGATAATTGAAAACGTTTTTGATGACAAAGAAATTTTAACAGCGAACATAATGAATTGTTTTCTAGATAAGCCTTCAACGATTCACGATACATTTTATAAGAAATATGCAGAATCGCCACAAGCGGCCACCGACTATTTTTATCAATTAAGCAAGCATAGTAATTATATTCAAGTTAAACGAACACAAAAGAATGTCCATTTTACCACGCAGTCAACGTACGGAGAAATAGAAATAACAATTAATTTGTCCAAACCTGAAAAAGATCCTGAACAAATTAAACGAGAACGTGAATGGAAACATACAACCAGCTATCCCAAATGTGTTCTATGCAGAGAGAATGAAGGTTATGTCGGGCGGACAGGTTATCCAGCAAGAGCGAACCACCGCGTCATTCCTATTCCTTTATTAGACGAAGTTTGGTATTTACAGTACTCCCCATACGTTTATTACAATGAGCATAGTATACTGTTGTCTGAAGAACACCATGAGATGAAAATTGACCAACATACATTTGCTAGGTTGCTCGCATTTGTGGAGAGATTCCCGCATTATTTTATAGGTTCTAACGCAGATCTTCCCATTGTAGGTGGCTCTATTTTAAGTCATGATCATTATCAAGCTGGCCGACATACATTTCCCATGAGTCATACCCAGTCGATATGTTCATTTTCGATAAAAGGTTTTTCACAAGTTGAAGCAGCTATTTTAAAATGGCCGTTATCTGTCATCCGTTTACAAAGCAGGCAAAAAAACGAACTGATCTCCTGTGCAGCGTATGTGTTAGACGTGTGGAAAAGCTATACTGACGAAGCTGCAGAAATCATTTCTGTTACAAATGACATTCCCCATAACACGATAACGCCAATAGCAAGATGGCGAGGGAATGTGTATGAATTGGATCTCGTTTTAAGAAATAATCGTACAATAGAAGAACATCCAACTGGGATTTTCCACCCTCACAAAGATGTGCAACATATAAAAAAGGAAAATATTGGTTTAATTGAAGTGATGGGCCTTGCCGTCTTGCCAGCGAGATTGGAAACCGAGTTAGGTGAATTAAAGCGCTTTTTATATAATCAACCAAATAAATTAGCCGGCTATCACAGCGATTGGGCTCATGAAATAAAACGCGCTTATAGCAACGCTGAATTAGAGCTTCATGCAGAGACAATTATACAAGCTGAAGTGGGGAAAAAGTTTATTCGCGCACTAGAAGATGCTGGCGTTTTCAAACAAACAGAAACTGGCATACAAGCTTTCAAGCGATTTATAAACGAGCTGAATCAATAA MANIDTLINKLIQQAVQKNLIEQLDTVYARNQIMALLKLESYHIPCNKDEQLTVNETIPDLLEQLIAWAVEAQIIENVFDDKEILTANIMNCFLDKPSTIHDTFYKKYAESPQAATDYFYQLSKHSNYIQVKRTQKNVHFTTQSTYGEIEITINLSKPEKDPEQIKREREWKHTTSYPKCVLCRENEGYVGRTGYPARANHRVIPIPLLDEVWYLQYSPYVYYNEHSILLSEEHHEMKIDQHTFARLLAFVERFPHYFIGSNADLPIVGGSILSHDHYQAGRHTFPMSHTQSICSFSIKGFSQVEAAILKWPLSVIRLQSRQKNELISCAAYVLDVWKSYTDEAAEIISVTNDIPHNTITPIARWRGNVYELDLVLRNNRTIEEHPTGIFHPHKDVQHIKKENIGLIEVMGLAVLPARLETELGELKRFLYNQPNKLAGYHSDWAHEIKRAYSNAELELHAETIIQAEVGKKFIRALEDAGVFKQTETGIQAFKRFINELNQ PGPT0017835_263 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965 NA NA AK015_03562 1179 galK_2 COG0153 Galactokinase ATGAACGATTTACGTACGACATTTAAAAATACGTTTAACAATGTAGCAGAATCTTCCATCTGTTTTGCACCTGGAAGAATTAATTTAATTGGCGAGCACACGGATTACAATGGCGGGTATGTATTACCTGCAGCTATTTCCTATGGTACCTATGCGCTTGGTGTTAAAAGAACCGATCAAAAGTTTCGCTTTTTCTCTGAGAACTTCCCTGAATCAGGCATTATAGCATGTGATTTAAAAGACCTTTCCTTTCAACAAGCAGACCAGTGGGCAAACTATCCAAAAGGTATGATTCAAGCGTTAAAAAATAGCAACTACCCCATTCATACCGGAGCTGACATTATGTTTTATGGGAATATCCCTAACCAAGCAGGTCTTTCTTCCTCTGCATCCATTGAATTAGTAACCGGGATTTTATTACAAGAACTGTTTCACTTCGAAGCCGATAAGCTTACCTTCATTCAATTGGGGCAACAAGTTGAAAATGCGTATATGGGAGTAAATAGTGGTATCATGGACCAATTTGCAATTGGGCTAGGTAAACAAGATCACGCTATTCTATTAAACTGTAAAACGAATGATTTTAAATATGTCCCCCTTCACTTGCAAGAATATGAGATCGTTATCATCCATTCCAATAAGCAACGTACATTAGCAGACTCCAAATATAATGAACGATTTAATGAATGTCAAGAAGCGCTAACCGCATTACAAACTGTATTGCCTATTCAACATTTAAGTGACGTTTCCTTGCAACAATTTCACGCCTATAAGCATGTCATTACATCCCCTACGATTCAAAAACGAGCGAAACATGTTATATCGGAAAATGCTCGTACGTTACAAGCCAGTACAGAACTAAAAAATGGCAACTTATCCGCATTCGGAGAGCTTATGAATTTGTCTCATCAATCATTGCAAGAAGATTATGAAGTCACGGGAAAAGAACTGGATACGATAGTCCACACTGCATGGAAGCAGGATGGTGTGCTAGGTGCTCGCATGACTGGAGCTGGATTTGGCGGCTGTGCTATAGCTATCGTTGCTCAAGAAAAAATAGACGCATTTAAAGCGAATGTAAATAACACGTATCGACAAACCATCGGTTACGACGCTTCTTTCTATACAGCATCTATCGTTAATGGTGCCAATTCATTGGAGATCGCACCAAACAAATAG MNDLRTTFKNTFNNVAESSICFAPGRINLIGEHTDYNGGYVLPAAISYGTYALGVKRTDQKFRFFSENFPESGIIACDLKDLSFQQADQWANYPKGMIQALKNSNYPIHTGADIMFYGNIPNQAGLSSSASIELVTGILLQELFHFEADKLTFIQLGQQVENAYMGVNSGIMDQFAIGLGKQDHAILLNCKTNDFKYVPLHLQEYEIVIIHSNKQRTLADSKYNERFNECQEALTALQTVLPIQHLSDVSLQQFHAYKHVITSPTIQKRAKHVISENARTLQASTELKNGNLSAFGELMNLSHQSLQEDYEVTGKELDTIVHTAWKQDGVLGARMTGAGFGGCAIAIVAQEKIDAFKANVNNTYRQTIGYDASFYTASIVNGANSLEIAPNK PGPT0017840_1182 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 AK015_03563 942 hypothetical protein GTGAATCGTGTTTTTGAGAAAAAATGGATTGTGGTGGGCATTGCTATTTTTTGTTCCATCTTATGGGGCAGTGCTTTTCCTGTTTTGAAAGTAAGCTATGATGAGTTACAAATGGCAGCAGATGATACAATTGCTAAAATTGTGTTTGCAGGAATGCGCTTTTTACTAGCAGGTTTAATCATATTAATTGGTCTCTTCCTTGTAGATCGAAAGCGATTAATGGTAACGAAAAGGCAAATGCTGTTTTTGACGATATTTGGTATTATCCAAACAGGATTGCAATACTTCTTTTTTTATAACGGGTTAGCGAAAGTTTCTGGAATGCAAGGGGCGATCTTAGTCTCAAGCGGTACATTTTTTACCGTTATATTAGCTCACTTTTTCTATAGCAATGATCGGATGAATTGGAAAAAAGGTATTGGCTTAGCGGCTGGTTTTGCCGGAATTATTGTTGCTAATTGGGGGCAGGAGTTCCAGCTTAGCTTCCAATTTACAGGGGAGGGCTATATGATTTTAGCGGCATTAACAGGTGCCATTGGTACAATAATGGCAAAAGAGTTAGCCGTTGGTATTCATCCGTTTGCTATAACAGGATGGCAATTGTCAATTGGTGCTAGTCTGATGTTGATCTTTGGAGTACCACAGTTAGAAAGTGGAGCGATGACTTTCACGCCTTTAGGGTTTTGGTTGTTCGTATATTCTGCTGTATTGTCTGCGGCTGCCTTTGCTTTGTGGTACTCGATCTTAAAGTATAATAAAGCTGGCGAAATAAGCATGTTTAAATTTATTACTCCTGTATCTGGAGCCATTTTATCAGCTATCTTTATTCCAGCGGAGACATTAGATGTATATATTATTGGAGCTTTAGGGTTAGTGGCAATAGGAATTATTGCTGTCAATTATAAAGGGAAAAGTAGTGCTAAACAAAGGTTATCCAAATGA MNRVFEKKWIVVGIAIFCSILWGSAFPVLKVSYDELQMAADDTIAKIVFAGMRFLLAGLIILIGLFLVDRKRLMVTKRQMLFLTIFGIIQTGLQYFFFYNGLAKVSGMQGAILVSSGTFFTVILAHFFYSNDRMNWKKGIGLAAGFAGIIVANWGQEFQLSFQFTGEGYMILAALTGAIGTIMAKELAVGIHPFAITGWQLSIGASLMLIFGVPQLESGAMTFTPLGFWLFVYSAVLSAAAFALWYSILKYNKAGEISMFKFITPVSGAILSAIFIPAETLDVYIIGALGLVAIGIIAVNYKGKSSAKQRLSK NA NA NA NA NA AK015_03564 1185 nagC COG1940 N-acetylglucosamine repressor ATGCAACGAGGAACATTTCAGTTAATGAAATCAGTAAATAAATCAATTATTTTAAATAAAATTAGGACGTGCGAGCCGATTTCTAGGGCACAAATAGCTAAGGAAACAGAGCTGACTCCCCCTACAGTAAGCAGTATTGTTAAAGAATTACTAGAGCAAGGTATGGTTTATGAACAGAAAAAGGCCACCTCAATGGGTGGGAGAAGACCTACGATGCTTTATATTAATAAAACAGCCTACTATTTGGTAGGAGTGGATGCTGGTCCGGAGAAGATAAAGGCAATTGTTGCTGATTTGGGTGGTAGAATTTTAGGACGTATATCATATGTGTTAAACACTCCGATTACAGAGGCCTCCTTTCTAGATGTTATGAAACAGAGTATTAATGAGGTTGTACGTCATGCGAATGTGAAGATGGAAGAGGTTATGGGTATAGGTGTGGCGATGCATGGTGTTGTCGAGGTCGCAACAGGCAGGGCTTTATATGCTCCTAATTTACAATTAACGGATATTCCGATAAAAGAAGCTTTAGAACAAGAGTTTCGTGTGACGGTAAAAGTGGAAAACGATGCGCGTGCAATGGCTCTAGGTGAAGCATGGTTTGGTGGTCATGGTGACTTAGGTAGTATGGTGACTGTTAATTTAGGACGAGGCGTGGGCGCTGGGATTGTAACAGATGGAAAATTATTTCATGGTGCAAAAGATATTGCTGGAGAAATAGGTCATATGACGATCGACATTAACGGAGAAATTTGCGAGTGTGGAAATCGCGGTTGCTTGCAAACTTTTGCTACGGGTTCTGCAATTGCTATGCGTGCAGAGCGAAAATTAGCTGAACGAGGAGAAGTGCATTCTTTTAAACTCACTGCAGAGAGTGTATTCGAACTTGCAAAATCTGGAAATGCACTGTACCTAGATGTATTAGAAGAAACAGGCTTTGCTATAGGTATTGGCTTAACCAATGTAATACATATTGTCAATCCAGGAAAAATTGTGTTAGGTGGAGGGGTTATGAAAAGTGAGGAATTCCTTTTACCTATTATTAAAAAGACAGTCAATAACAATGCATTGACAGAAGGTGCAAAAAATACAGAAGTGAAGGTAACGAAACTTGGGAAAGATGCTACTGTGTTGGGTGCTGTAGCGTTGCTTTTGGTGGAAATATTTGATTCTGTTTTAGGATAG MQRGTFQLMKSVNKSIILNKIRTCEPISRAQIAKETELTPPTVSSIVKELLEQGMVYEQKKATSMGGRRPTMLYINKTAYYLVGVDAGPEKIKAIVADLGGRILGRISYVLNTPITEASFLDVMKQSINEVVRHANVKMEEVMGIGVAMHGVVEVATGRALYAPNLQLTDIPIKEALEQEFRVTVKVENDARAMALGEAWFGGHGDLGSMVTVNLGRGVGAGIVTDGKLFHGAKDIAGEIGHMTIDINGEICECGNRGCLQTFATGSAIAMRAERKLAERGEVHSFKLTAESVFELAKSGNALYLDVLEETGFAIGIGLTNVIHIVNPGKIVLGGGVMKSEEFLLPIIKKTVNNNALTEGAKNTEVKVTKLGKDATVLGAVALLLVEIFDSVLG PGPT0018870_446 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 AK015_03565 495 hypothetical protein ATGCAAATGGAAGAAAAGATCATTACGATGCTGGAACAAATCTCTACAAGCGTACAAGAACAAGGGGAACGAATTGGTTCTCTAGAATCACGTTTTGATTCATTAGAGCAAAGATTTGATAATCTGGAATCGCGCTTCGATAACCTCGAGCAACGTTTCGTTAATCTAGAATCACGATTTAGTCAGCAAGAACAAAGACTTGATGAGCAAGGGCAGAGAATCGCAACTATTGAGCAAAAACTGGATGAACAAGGGCAAAGAATTACAACTATTGAACAGAGACTTGATGAACATAAAGATATCTTAACTGCACTTCTCTCTGAGCAAGAATATTTAAAAGCAGAAATAGACGGAATGCGTGTAGAAAATGCAAAAGAATTTGGTTATGTGAAGAAAGAGATCAGTAACATGCATATAAACTTTGCTGTATTGCGAGAAGATGTATGGACGAATAAAAAAGACATCTATCAGCTAAAACAAGCAAGCTCGACTTAA MQMEEKIITMLEQISTSVQEQGERIGSLESRFDSLEQRFDNLESRFDNLEQRFVNLESRFSQQEQRLDEQGQRIATIEQKLDEQGQRITTIEQRLDEHKDILTALLSEQEYLKAEIDGMRVENAKEFGYVKKEISNMHINFAVLREDVWTNKKDIYQLKQASST NA NA NA NA NA AK015_03566 618 COQ5_5 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGAATGATAACCAGACGAATACGATTAGAAAAAGATATAATCGTATAGCGGGTGTCTTTGGTATCATGGATAATATGATTCAAGAAACATGGCGAAAGGATGTTACTCAACAAGCTGAGAGAAAAGTACTTGAAATCGGCATCGGAACTGGTAAAAACTTAGAATACTATCCATCTCACGTTGAAGTAACAGGAATTGATTTCAGTCCTGGCATGTTAAAACGTGCCAAAGAAAAAGCAAATCAACTTGGTCGGACCTTTGAACTACTGGAAATGGACGCGCAAAATTTAGCTTTCCCTGATAACACATTTGATACCGTTATTACCACTTGTGTATTTTGTTCCGTACCTGATCCAATTAAAGGTTTGAAAGAAATGAAAAGAGTCACAAAGCCGACTGGTAAAATATTGATGCTTGAACATATGCGAAGTGAACATAAATTGATTGGTAAGTTGATGGATATTTTAAACCCAATTGGACTTCATATTGTAGGAGCTAATATTAATCGTAAAACAATCGAAAACATCCAGCATGTTGGTTTAAAAATAGCCAAAGAAGATTTACTCATGTATGACATATTTAAAAAACTGGTTGTATCACCAAATAAAAATCATTGA MNDNQTNTIRKRYNRIAGVFGIMDNMIQETWRKDVTQQAERKVLEIGIGTGKNLEYYPSHVEVTGIDFSPGMLKRAKEKANQLGRTFELLEMDAQNLAFPDNTFDTVITTCVFCSVPDPIKGLKEMKRVTKPTGKILMLEHMRSEHKLIGKLMDILNPIGLHIVGANINRKTIENIQHVGLKIAKEDLLMYDIFKKLVVSPNKNH PGPT0007740_629 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROPHOSPHOLIPID_REMODELLING CE-REMODELLING_GPL_METHYLTRANSFERASE_ACTIVITY,PGPT0007740-pmtA-K00570 NA NA AK015_03567 717 gamR_2 HTH-type transcriptional repressor GamR TTGGAAAAAAGTAGTAAGGTGCCTTTATATTTACAACTTATGGACGAAATCATTCAGAAAATCGAACAAGAAACATATGAAGAACATGATAAATTACCTTCTGAGCGCGAACTGTGTGATATGTATAAATTAAGCAGGATTACGGTTAGACAGGCGCTGCAAGAGTTAGAAAGAGAAGGTTATATTTATAAGTTACATGGAAAAGGAACATTTGTATCGGCTAGCTCCATTGAACAAAATTTAGTCAAACTGTACAGCTTTACAGAAGAAATGAAAAAAGTGGGAAAGACGCCGATGACCAAGGTTTTATCCTTTAAAGAGATAGCGATTGATACTAGAATTGCAAATAAAATGGGGTTAGAACCGTTGGATGAAGTATTCGAGGTAATACGTTTACGACTTGCAGATGAACAACCACTTATGTATGAAATTTCCTATTTACCAAAGAAACTGTTTCCACATTTAACAAAAGCAAAATTGATGGAAAAGCCCATGTATGATATTTTTTCACATGATTATCAGGTCCATGTTACGAGAGCAATTGAACGTTTTTCAGCAACCCAAATACGGGAAACAGAAGCTGGTTATTTAAATGCTCCAACCCAGCAACCAGCCATGTTAATTAAACGATTTGCCTATCACCACGAGCAACTAATTGAGTATACCATTAGCGTAGCACGAGGAGATAAATTTGATTATACAGTAGAACTAACGTAA MEKSSKVPLYLQLMDEIIQKIEQETYEEHDKLPSERELCDMYKLSRITVRQALQELEREGYIYKLHGKGTFVSASSIEQNLVKLYSFTEEMKKVGKTPMTKVLSFKEIAIDTRIANKMGLEPLDEVFEVIRLRLADEQPLMYEISYLPKKLFPHLTKAKLMEKPMYDIFSHDYQVHVTRAIERFSATQIRETEAGYLNAPTQQPAMLIKRFAYHHEQLIEYTISVARGDKFDYTVELT NA NA NA NA NA AK015_03568 1179 agaS COG2222 Putative D-galactosamine-6-phosphate deaminase AgaS ATGTTTGGTTTAACTCAGAAAGAATTAGAAAAAGGCAAGGCAGGTCATACGGCTCAAGAAATTTATCAGCAGCCTGAAGTTTGGAATAAAGCATTACACATATTTGCAGAGAGAAAGGAGGAAATTCACAACTTTTTACATGCTATATATAGTAAGCATGAGAAAGTGCGAGTAATTTTAACTGGTGCTGGAACGTCAGCGTTTGCTGGTGACATATTAGTTTCTGAATTACAAAAACAAGATCAGGGAAAGGTGCAATTTGAAGCAATTGCAACAACAGATCTCGTTTCTAATCCGACTAACTATCTCTTCAAGGAAGTACCAACCATTTTGGTATCGTTCGCAAGATCAGGGAATAGTCCGGAGAGTTTGGCTGCGGTTAAGTTGGCAACAGATAGGATCGATCATTTTTATCAAGTAAATATTACATGTAATCCAGAAGGGAAGCTAGCAGTAAATACAAAGGATGATAAGAACAGCTTAACGATTCTTACACCGGAAGAAGCGCATGATCAAGGATTTGCTATGACAAGCAGCTTTACTAGTATGATGGTCATTTGTTATTTGGCTTTTTCTAAAGATACTAATGCAGTTGAGAAGATACAGACGGTTATTACTAATGGGGAGAAATTTATTGAAAGCGTTGTGAATACAGTAGATGCGGTGTTAGAGCATGGTATGGACAGGATTGTTTATTTAGGCTCTGGTTCGCTTGGGCAATTTGCTCATGAAGCAGCTTTAAAAATGCTTGAGCTGTCAGCAGGTAAAGTGGTAGCTGTTCACGAGTCTTCGTTAGGATTCCGTCACGGACCGAAATCTATTTTGAATGACAAATCCATCGTCGTACTGTTTATGTCTCAAGATGCTTATACACGAAAATATGATTTGGATATATTAAAAGAGTTATCCGGAGAACCAAAGGAGATTAAAACGGTTGCGCTTACTGAAATGGATAATGAGGAAGTAAGTCAATATGCAAACTGGACAGTGTCTGTTAATAATAGCAAGCAGTCACTAGAAAATGATTTCTACCTATCTTTACTATACGTCGTATTTGCACAAGTTTTAGCACTGAAAAAATCGATTCAATTAGGAATTACGCCAGATAACCCAAGCCCAGACGGATCCGTCAATCGCGTAGTGCAAGGCGTAACGATTTATCCTATGACATTCGCATAG MFGLTQKELEKGKAGHTAQEIYQQPEVWNKALHIFAERKEEIHNFLHAIYSKHEKVRVILTGAGTSAFAGDILVSELQKQDQGKVQFEAIATTDLVSNPTNYLFKEVPTILVSFARSGNSPESLAAVKLATDRIDHFYQVNITCNPEGKLAVNTKDDKNSLTILTPEEAHDQGFAMTSSFTSMMVICYLAFSKDTNAVEKIQTVITNGEKFIESVVNTVDAVLEHGMDRIVYLGSGSLGQFAHEAALKMLELSAGKVVAVHESSLGFRHGPKSILNDKSIVVLFMSQDAYTRKYDLDILKELSGEPKEIKTVALTEMDNEEVSQYANWTVSVNNSKQSLENDFYLSLLYVVFAQVLALKKSIQLGITPDNPSPDGSVNRVVQGVTIYPMTFA PGPT0017925_106 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0017925-agaS-K02082 NA NA AK015_03569 486 levE_2 COG3444 PTS system fructose-specific EIIB component ATGACTACAAAACCAAATATTTTGTTAACAAGAATTGACAATCGTTTAATACATGGCCAGGTCGGAGTTACTTGGGTTAACCATTTAGGAGCAAATCTAGTCGTAGTTGCCAATGATAAAGTTTCACAAGACGAAGTGCAACAGAGTTTGATGGATATGGTGTTGCCAGATGTTATTCAGGCAAGGTACTTTTCTATTCAAAAAACCATTGATGTTATCCATAAGGCTTCACCAAGGCAAAAGATATTTCTCGTCGTTAAAGATGTTCATGATGCACTAGCTTTAAAAGAAGGTGGTGTACCAATAGATCATATTAATATAGGTAATATGCATTATGCAGAAGGGAAAAAGCAAATCTCTTCTACTGTCTCTGTTGATGAAAAAGATATTGAAGCATTTAACAAGCTGCATGATATGGGTGTAACTCTTGATTTAAGAGGAGTTCCAAACGAAAAAGGGCAAGACATTATGGATCTTCTTAAATAA MTTKPNILLTRIDNRLIHGQVGVTWVNHLGANLVVVANDKVSQDEVQQSLMDMVLPDVIQARYFSIQKTIDVIHKASPRQKIFLVVKDVHDALALKEGGVPIDHINIGNMHYAEGKKQISSTVSVDEKDIEAFNKLHDMGVTLDLRGVPNEKGQDIMDLLK PGPT0017035_105 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGALACTOSAMINE_PTS_SYSTEM,PGPT0017035-agaV-K02745 NA NA AK015_03570 768 agaC COG3715 N-acetylgalactosamine permease IIC component 1 ATGTTAATGGAAGCGATTTTAATTGCTATTTGGGCAGGTATTATTGGAATTGATTTATATGTAGGTTTAACCCATATGCACCGCCCTGTTGTTACCGGTCTAGTTGTCGGTTTAATTTTAGGTGATGTAACTACTGGTTTAATTGTCGGGGGTACATTGGAATTAATTTGGATGGGAATGGTTCCGCTCGCAGGAGCCCAACCTCCAAATGTAGTTATAGGAGGAGTTATTGGTACAGCCTTTGGCGTTATAGCAGGTCAGGATCCACAAGTAGCCGTGGGGGTAGCAATACCATTTGCTGTGGCGGTACAAGGATTAATTACATTATTTTTCACATTATTTGCCCCTGTCATGCATAAAGCAGATCAATTTGCTTTAGACGCAAATACAAAAGGAATAGAAAAGATAAATTATTTAGGTATTGCCATTCTATTTTCTTTTAATGCACTTATCGCATTTTTACCAATTTATTTCGGAGCAGAACAAGCTGCTGCCTTTGTTGAAACCGTCCCCCAATGGATTATTGATGGATTATCCATTGCAGGAGGAATTATGCCAGCTATTGGTTTTGCAATGCTACTGAGAATTATGATGAAAGTAGAGTATATTATGTTCTTTATCGTAGGATTTATTCTTGCGGCATATTTAGAATTACCAATATTAGCAATCGCTTTAATTGGTTTAGCGATAGCGCTATATGATTTTTATCAAAATAAAAATAAACAAGGTCCTGCGCCTAAAGAGGAGGAGATTACGGATGGCATCTAA MLMEAILIAIWAGIIGIDLYVGLTHMHRPVVTGLVVGLILGDVTTGLIVGGTLELIWMGMVPLAGAQPPNVVIGGVIGTAFGVIAGQDPQVAVGVAIPFAVAVQGLITLFFTLFAPVMHKADQFALDANTKGIEKINYLGIAILFSFNALIAFLPIYFGAEQAAAFVETVPQWIIDGLSIAGGIMPAIGFAMLLRIMMKVEYIMFFIVGFILAAYLELPILAIALIGLAIALYDFYQNKNKQGPAPKEEEITDGI PGPT0017020_266 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGALACTOSAMINE_PTS_SYSTEM,PGPT0017020-agaW-K02746 NA NA AK015_03571 822 manZ_2 COG3716 PTS system mannose-specific EIID component ATGGCATCTAATAGTTATCATTATGAAGATACAACTTCTGCTCCGGATTTACAACCGAAGGAACTTAGAAAATTAGCATGGAGATCTTTATTATTACAAGCTTCATTTAACTATGAGCGTATGCAAGCAGCAGGTTGGCTTTACTCTATATTACCAGGCTTAAAATCAATTCATAAAAACAAAAAAGATTTAAGTAAATCGATGAAAGACCATATGGAATTCTTTAATACGCATCCATTTCTTGTCACTTTTATTATGGGTATTATTTTAGCAATGGAGCAAAAGAAGGAAGATAGAGAAGCTATTCGTGGAATTAAAGTGGCAACGATGGGACCTTTAGGTGGTATAGGGGATGCGTTATTCTATCTTACATTATTACCTATTACAGCGAGTATCGGTGCTTCTCTGGCGGTAAATGGTAATATTTTTGGCCCATTTGTGTTTCTAATCATGTTCAATATCATCCATTTTGGAGTTAGATTCGGTTTAATGAACTATGGCTACAAAACAGGAGTAAAAGCAATTGCAAAATTGAAAGAAGGAACACAGCATGTTTCACGTGCGGCCTCTATTGTCGGATTAACCGTTGTTGGAGGATTAATAGCTACGTACGTTTCATTTAAAATTGACTATACGTGGACACAAGGTGAATCTGAATTAAATGTTCAAACAGATATATTAGATCAAATCATGCCTGCTCTTTTACCATTGGCCTATACACTACTCGTTTATTGGCTGCTTAAAAAAGGTCGTTCACCGCTTACTTTAATTGGATTAACAGTCGTTGTAGGGCTTATAGGATCCTATTTTGGAGTTATGTAG MASNSYHYEDTTSAPDLQPKELRKLAWRSLLLQASFNYERMQAAGWLYSILPGLKSIHKNKKDLSKSMKDHMEFFNTHPFLVTFIMGIILAMEQKKEDREAIRGIKVATMGPLGGIGDALFYLTLLPITASIGASLAVNGNIFGPFVFLIMFNIIHFGVRFGLMNYGYKTGVKAIAKLKEGTQHVSRAASIVGLTVVGGLIATYVSFKIDYTWTQGESELNVQTDILDQIMPALLPLAYTLLVYWLLKKGRSPLTLIGLTVVVGLIGSYFGVM PGPT0017025_217 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_N_ACETYLGALACTOSAMINE_PTS_SYSTEM,PGPT0017025-agaE-K02747 NA NA AK015_03572 417 manX COG2893 PTS system mannose-specific EIIAB component ATGATTGGCATTATAATAACTGGACATGGTTCTTATCCTGAGGGGATGTATGAATCTATTCGTTTGATTGCAGGAGATGTAGAAGGGTTAAAAACAGTCCCTTTTCATGAAAATCAAGAACAATTGGAGCATGATTTAATAGCAGCAATGGCTGAGGTTGAATATGGAAGTGGTGTCGTTTGTTTTGCGGATTTAGCAGGAGGCACACCCTTTAACATAAGTTCTAAAATTGCTGCATCAAAGGGTAATGTAAGGGTAATTGGCGGAACCAATTCACCAATGTTATTAAGCAGTTTATTCCAAAGGGAACAAAACCTAGATGATTTTGTACAACATGCTTTATATGAAGGACAAACAAACATTAAATCGTTTGAAATAGCGAAAAAGAAAAAAGAAGAGGATTTGGACGGCATATAA MIGIIITGHGSYPEGMYESIRLIAGDVEGLKTVPFHENQEQLEHDLIAAMAEVEYGSGVVCFADLAGGTPFNISSKIAASKGNVRVIGGTNSPMLLSSLFQREQNLDDFVQHALYEGQTNIKSFEIAKKKKEEDLDGI PGPT0017030_383 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_GALACTOSAMINE_PTS_SYSTEM,PGPT0017030-agaF-K02744 NA NA AK015_03573 1158 agaA COG1820 N-acetylgalactosamine-6-phosphate deacetylase ATGCAATATTATATAAAGGCAGATCAATTTTTATTAGAAGATAGGTTGGAAGGTCCAGGTTATCTTGCCATTGATCATGGACGTTTTGGCGAATGGAAGAAAAGCCTTACTACACAAGCTAATATCGTGGATTGGAGCGGTTATACCATCGCTCCTGGGTTATTTGATACACATATTCATGGTGTCAATGGCTATGACATTATGGATGGGACAAAAGAAGCTGTGCAGCAAATTTCAGAAGCTTTGTTGCCGCTTGGGGTAACGCGGTTTCTACCAACGACATTAACGTCCTCTTCCGAAAACTTGGAACAATCTATAGCAGCTATTGTGGAGGCGACGGAGGAAGGACTTTCTGGAGCGCAGTCAGAGGGGATTTATTTAGAAGGACCTTTTTTTACAGAAAAGCATAAAGGGGCTCAAAACCCTATTTATTTTCGTGATCCTGACTTAGAAATGTTTACAAAATGGCAAAAGCTTGCGGGCGGTTCTATCGTGAAAATTGCGCTCGCACCAGAACGGAAAGGATCTAAAGAATTTATTACTGCATTGACGGAAGCAAATGTAAAAGTAAGCCTTGGTCACAGCAATGCAGATTATGATTGCTGTAAAGCTGCTATTGGAGCAGGAGCAAATACATTTGTTCATTTATTTAACGGGATGGCTGGTTTTCATCACCGGAATCCGGGAGTAGCTGGATCAGCCTTAATGGCTAAACAAGCGTTTGTTGAATTAATTTGTGATGGGCATCATGTACATCCTGATGTCGCAGCTTTTACTTGGCGAGTGAAAGGCGATCGTACTGTTCTAATTACGGACTGCATGCGTGCAGGGCTTATGCCAGATGGAAGTTATCAGTTAGGCGAATTCCCTGTTGTAATGCGAAATGGGATTGCGCGGACAGAAACCGGTTCTTTAGCTGGAAGTACGTTAATTCTAAAGGATGCGATTAAAAACTTGAGTCAATGGTCTGATCGCACATGGGATGAAGCTTGGCATTTAGCTAGTCTAAGTCCCGCTCATAGCTTAGGTCGTGAACAGGAACTAGGAAGCATACGTCCAGGAAAATATGCCGATTATGTCGTCATAGATGAGCAGTACCATATTCAAGCTACTGTCATTAGTGGCGAAATTAAATATCAAAAAAACAACGAGAAGTGA MQYYIKADQFLLEDRLEGPGYLAIDHGRFGEWKKSLTTQANIVDWSGYTIAPGLFDTHIHGVNGYDIMDGTKEAVQQISEALLPLGVTRFLPTTLTSSSENLEQSIAAIVEATEEGLSGAQSEGIYLEGPFFTEKHKGAQNPIYFRDPDLEMFTKWQKLAGGSIVKIALAPERKGSKEFITALTEANVKVSLGHSNADYDCCKAAIGAGANTFVHLFNGMAGFHHRNPGVAGSALMAKQAFVELICDGHHVHPDVAAFTWRVKGDRTVLITDCMRAGLMPDGSYQLGEFPVVMRNGIARTETGSLAGSTLILKDAIKNLSQWSDRTWDEAWHLASLSPAHSLGREQELGSIRPGKYADYVVIDEQYHIQATVISGEIKYQKNNEK PGPT0018860_1701 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 AK015_03574 858 gatY D-tagatose-1,6-bisphosphate aldolase subunit GatY ATGGGATATGTCCAAAACACAAAAGAAATGCTTATCAAAGCTAGAAACGAAGGATATGCCGTTCCAGCCTTTAATATTCATAATTTAGAAACAATCCAAACAGTTGTAGAAACAGCAGCAGAAATGAAGTCCCCTGTTATTTTGGCAGCGACACCTGGAACGATGAAGTACGCTGGTAGAGCATATGTACAAGCTATCGCAGAAGTAGCAGCCAAGCTCCATGATATTCCAATTGCCTTACACCTTGATCATCATGAAACATATGAATCTATTGTTGAATCTCTTGAATTAGGAACCAAATCGGTGATGATTGATGGTTCGCATCATACATTTGAAGAAAATATTGCTATTACAAAAAAAGTAGTCGAAAAAGCACATGCTTATGGAGCAACAGTAGAAGGAGAATTAGGTAAATTAGTAGGTCAGGAAGATGATCTAGTAGTTGAAGCGAAAGATGCGGCATATACGGACCCAGATACCGTAGTGGAATTTATCGAAAGAACCGGTGTCGATTCTTTAGCAGTAGCAATTGGTACAGGCCATGGCTTGTATGAAACCGAACCTCAACTTGATTTTAAACGGCTTGAAAAAATTAACGATGTAGCGACAGTACCAATCGTTCTCCACGGGGCCTCTGGAATATCAAAAGCAGATGTACAAAAGTGTATTGCTTTAGGATGTGCGAAGGTCAATATTTCTACAGAACTTAAGATTCCGTTTTCAGAAGGGCTTCGTGAGCATTTAATCGAGCACTCAAATGAAACAGATCCAAGGAAGTATATGACGCCTGCTAAAGAAAAAATGAAAGCTGCAGTAAAAGATAAAATTGAAATTTGTATGAGTGCAGGTAAAGCATAA MGYVQNTKEMLIKARNEGYAVPAFNIHNLETIQTVVETAAEMKSPVILAATPGTMKYAGRAYVQAIAEVAAKLHDIPIALHLDHHETYESIVESLELGTKSVMIDGSHHTFEENIAITKKVVEKAHAYGATVEGELGKLVGQEDDLVVEAKDAAYTDPDTVVEFIERTGVDSLAVAIGTGHGLYETEPQLDFKRLEKINDVATVPIVLHGASGISKADVQKCIALGCAKVNISTELKIPFSEGLREHLIEHSNETDPRKYMTPAKEKMKAAVKDKIEICMSAGKA PGPT0017920_201 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017920-gatY_kbaY-K08302 NA NA AK015_03575 933 lacC_2 Tagatose-6-phosphate kinase TTGATTTTGACGATTACCTTAAATCCGTCCGTAGATATTCAATATCGCTTATCAGAATTTAACATAGATACAGTAAATCGCGTTACGGATGTTAGAAAAACAGCTGGTGGAAAAGGACTCAATGTAGCAAGGGTTATTCGTCAGCTTGATGAGAAGGTTAGTGCTACAGGTTTTCTTGGTGGTAGTTTAGGAGATTTTATTAACAGCGAATTAAAACGATTAAATATTGAAAATGGCTTTATGCCAGTTGTTGGAGATACGAGAAACTGTATTGCAATGATTCATAATGGAAAACAAACGGAAATATTAGAGGATGGCCCAGTTATTCAGCAAGAAGAAGCTAGTCAATTTTTACGTCAATTTCGTGAGCAAGCGAAACAAGCAAATTGGATAACCATTTCTGGTAGTCTACCAAAAGGGTTACAGGAAAATTACTATGAGCAAATGTTGGCTATCGCAAATGAAGTTGGCATTCCGGTATTATTAGATACCAAAGGTGATTTATTAGCACGTTCGTTGCAAGGGGATACAGTCCCTTATTTGATTAAGCCAAACCAAGATGAGCTAGCTGACCTGCTTGGAGAAGGAAAGCTAGATATAGAAGATGTGAAAGTAGCTGTTCAGTCAGCATTATTTGATGGAGTTGACTGGGTTGTTATTACGATGGGAGAACAAGGAGCGGTTGTAAAACATAAAAATAAGGTATATCGCGTACATTCCCCAAAAATTAATGCTGCTAATCCAGTTGGTTCCGGTGATTCTGTCATTGCCGGCTTTGCCACCGGATTAGCTAGACAACTTTCAGGTGAAAAACTGATCAGATTCGGTTTAGCTATGGGTGTATTAAACGCAATGGAAGAGCAGACAGGATATGTTGATATAACGAAAGTTGCTTGGTGCACAGAGCAGATGAAAGTAGAGGAATGGGTTTAA MILTITLNPSVDIQYRLSEFNIDTVNRVTDVRKTAGGKGLNVARVIRQLDEKVSATGFLGGSLGDFINSELKRLNIENGFMPVVGDTRNCIAMIHNGKQTEILEDGPVIQQEEASQFLRQFREQAKQANWITISGSLPKGLQENYYEQMLAIANEVGIPVLLDTKGDLLARSLQGDTVPYLIKPNQDELADLLGEGKLDIEDVKVAVQSALFDGVDWVVITMGEQGAVVKHKNKVYRVHSPKINAANPVGSGDSVIAGFATGLARQLSGEKLIRFGLAMGVLNAMEEQTGYVDITKVAWCTEQMKVEEWV PGPT0017940_220 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017940-lacC-K00917 NA NA AK015_03576 1485 opuD_3 COG1292 Glycine betaine transporter OpuD TTGTGGAAACGTAATATTGTTTTATGGATTTCGTTAGCGTTAAGTAGTTTATTTGTAGTTGTAGGTGTTGTATTTAATCAATGGTTAGGAGAAAAAGCGGCAATCTTCTTAGACTTTGCAGTCACTTATTTCAATTGGTTTTATTTGCTTGTTGGATCTCTGTTTGTTTTCATATGCGTTTTTTTAATTTTTTCAAAATACGGAAATATCAGACTTGGAAAAGATACAGATAAACCAGATTTTAGTACTACCGCTTGGATTTCGATGCTTTTTAGTGCGGGAATGGGGGTAGGTCTAGTATTTTGGGGGGTAGCAGAACCAGTAAAACATTATTTATTCCCACCATACGGGGAAGGTGGAACGATAGAATCTGCAAATAATGCAATGAAATATACATTCTTTCATTGGGGATTGCACCCTTGGGCCCTCTTTGGAATCGTAGCATTAAGCTTAGCTTATTTCCATTTTCGAAAAGGTTTACCTTCAGCGATCAGCTCTATTTTCTATCCTATTATAGGTGACAAAATTCATACGAACATAGGCAAAACAATCGACGTACTGTCGGTTTTTATTACGGCAGTAGGCATTTCTAGTACGTTTGGTTTAAGTACATTACAAATAGCTAGTGGCATGGAAGCACGATGGGGCATTGAAAATACATTTAGTACGCAGCTGATGATTATTAGTTTTGCAACAATCATTTTTTTAATATCTTCATCGACTGGCGTTAATCGCGGCATCAGATATATTTCTAGCTTAAATGTAATTCTATTATTTACTTTAATGCTTTCTGTTTTTCTCATCGGTCCAACAAAACAAATTTTAGAAATTTTTATTAGCTCTACAGGAAGTTATCTTGGTAACATCGTTCCAATGGGGTTGAAAATGGAACCATTTGATCAAAAAGCAAACAATTGGATCGGCTCATGGACGGTATTTTATTGGGCATGGTGGACAACATGGGCACCGTTTGTTGGTTCATTTATTGCTAGAATTTCTAAAGGGAGAACGATTAAAGAGTTCGTCATTGGTGTATTAGTCGTTCCGTCTTTAATTTCTTTCGTCTGGTTCTCGATACTCGGTGGAAGTGCCATCCACTTCATTCATGAGTTTCAAAATACTGGCTTAGCAGATAGTATTAATGCTGATGTAAATGCGGCTCTGTTTGCTTTTTTTAACGAAATACCTTTAGGACCTATTTTAAGCGTATTAGCAATTATACTTATCTTTTCATTTTTTATTACTTCTGCTGACTCTGCAACTTTTGTACTTGGCATGCTAAGTGATAAAGGAAATTTAAATCCATCTAATCGAATTAAAATGACATGGGGAATTATTTCTTCTGGATCTGCTATTGTATTTTTATTAGCTGGTGGATTAGATGCCGTAAAAACGATCTCCATTGTAGTAGCTTCACCTTTTACCATTATGATGTTGTTTATTTGTTACAGCATTATAAAATCATTAAAACGTGAATTTAAATAA MWKRNIVLWISLALSSLFVVVGVVFNQWLGEKAAIFLDFAVTYFNWFYLLVGSLFVFICVFLIFSKYGNIRLGKDTDKPDFSTTAWISMLFSAGMGVGLVFWGVAEPVKHYLFPPYGEGGTIESANNAMKYTFFHWGLHPWALFGIVALSLAYFHFRKGLPSAISSIFYPIIGDKIHTNIGKTIDVLSVFITAVGISSTFGLSTLQIASGMEARWGIENTFSTQLMIISFATIIFLISSSTGVNRGIRYISSLNVILLFTLMLSVFLIGPTKQILEIFISSTGSYLGNIVPMGLKMEPFDQKANNWIGSWTVFYWAWWTTWAPFVGSFIARISKGRTIKEFVIGVLVVPSLISFVWFSILGGSAIHFIHEFQNTGLADSINADVNAALFAFFNEIPLGPILSVLAIILIFSFFITSADSATFVLGMLSDKGNLNPSNRIKMTWGIISSGSAIVFLLAGGLDAVKTISIVVASPFTIMMLFICYSIIKSLKREFK PGPT0013600_1310 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK015_03577 258 hypothetical protein TTGTTTTCAGACATAATGTGGGGAAGTTTAGCAATTATACTTATCATTGCAATATATGTAACGATACAAAAAAGAAAACGAGCAGGGGTGAAAGGCATCAAAAGCGCGCTGACACCGATTTGTTTTTTCTGCATATCAATTGTAAATATCATTGCCTACTTCTTTGAATTTCTCGGTTTGGTGAGTTTTGGGATCACTGTTGCTTTGTTTATTTTAGGTGCATATTTTACTAAATATTTGAAGATACCTGCGAACTGA MFSDIMWGSLAIILIIAIYVTIQKRKRAGVKGIKSALTPICFFCISIVNIIAYFFEFLGLVSFGITVALFILGAYFTKYLKIPAN NA NA NA NA NA AK015_03578 924 hypothetical protein TTGGAAGCATTTCTAACAATAGTAAAGGAGATTATTTTACCAGTTTTTATTATTATGGGATTAGGTTTTTTCTTACAAAAGAAATTTGACCTTGATTTACAGACGCTGGCAAAAATAAACATTTACTTTCTTGTTCCTGGGTTTATTTTTGTAAAACTATACGATACAACATTTTCAGGGCAGCTCTTACTACAAATAGTCGTCTTTTTTATATTATTAATTTCCGTACTCTATATCGTAGCAACAATTACCGCGCGCCTTATAGGGTTTGATAAATCAAAATCCACTACATTTTCTAATAGTATTCTTTTCTTTAATTCTGGTAATTATGGAGTACCTGTCAACGATTTGGTGTTTAAAAGTGATCCTGTAGCGATGTCCATTCAAGTCATTATCTTAACCTTACAAAATATTCTACTATTTTCTTATGGCATTTTTTCCTTACAATCTATCCATATTGGTAAACTACGAGCACTATTCAGTTATTTTAAAATGCCCGTATTATACGCCATGCTAGCAGGAATTTTATTAAATATCGCAAATGTTTCCATTCCTTCTTTCGTTTGGGTTCCAGCTAATTATATAGCTGATGCAATGGTAGCTATGGCCCTACTTACTTTAGGTGCTCAAGTAGCTCAGCTTCGTTTAAGCTCCAGTTTGCCAACAGTTTATATCAGCTTAACTATTCGCCTCCTTCTCGGTCCAATCATTGCTCTTGGTATTATACGTATCTTACAACTAGATGGCATTATCGCTCAAGCTCTGTTCATTTCCTCAGCAATGCCCACAGCTGTGAACAGTTCGGTTATCGCTCAAGAATATAACAATCATCCAAATTTCGCCGCACAAATCGTTCTATTTTCCACCATTTTCAGTACGATTACGGTAACAGCGGTCATTTATTTATCAAGACATTTATTTTAA MEAFLTIVKEIILPVFIIMGLGFFLQKKFDLDLQTLAKINIYFLVPGFIFVKLYDTTFSGQLLLQIVVFFILLISVLYIVATITARLIGFDKSKSTTFSNSILFFNSGNYGVPVNDLVFKSDPVAMSIQVIILTLQNILLFSYGIFSLQSIHIGKLRALFSYFKMPVLYAMLAGILLNIANVSIPSFVWVPANYIADAMVAMALLTLGAQVAQLRLSSSLPTVYISLTIRLLLGPIIALGIIRILQLDGIIAQALFISSAMPTAVNSSVIAQEYNNHPNFAAQIVLFSTIFSTITVTAVIYLSRHLF PGPT0007208_3625 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-ABSCISIC_ACID_DEGRADATION PHYTOHORMONE-AUXINE|INDOLE‐3‐ACETIC_ACID|IAA_METABOLISM PHYTOHORMONE-IAA-AUXIN_TRANSPORT_PLANT_LIKE,PGPT0007208-auxin_symporter-NA NA NA AK015_03579 678 cmoM tRNA 5-carboxymethoxyuridine methyltransferase ATGGGGTTTAATTGGAATGGAGAGGTCGCAAAGCAATGGGATGAGCGTGCGGTTACTTGGAATGAACGCAGTAAAAGCATGTGGGAAACCGGAAGTAGACAGGCTGTTATCCCATTTTTACGCCGTTTTCTGAGCGCTAATCAGCATGTATTAGATATTGGCTGTGGTGATGGGTATGGTGCGTATAAGTTATATGAGCAAGGTTATCAAGTAGCTGCACTTGATATTTCTTCCGTAATGGTTCAATATGCGAAGCAGAAACTTCCAAATAGCATCCATGTAATGGAAGGGGATGTGCAAAAGCTTCCTTTTTCCACAAATACATTTGATGCAATTATGGCAATTAATGTTTTGGAGTGGACGGAAAATCCAAAGCAAGCGTTACAAGAGTTAAAGCGTGTAGTAAAAGAACGTGGACATATCTGTGTAGGAATATTAGGACCGACTGCAGGACCGCGTGCGAATAGTTATCCGCGCTTGCATGGGGAAACAGTCATTTGTAATACAATGATGCCTTGGGAATTTCAACAGCTATGTACGGAAACAGATTTGGAATATGTAGATGGGTATGGTGTACCAAAGCAAGGTGTTAGCAAGGAGATGTATAACCATTTGCCCCTTGACTTACAACAGTCGTTATCATTTTCTTGGATATTTATGTTAAGAAATGGTGGGTAA MGFNWNGEVAKQWDERAVTWNERSKSMWETGSRQAVIPFLRRFLSANQHVLDIGCGDGYGAYKLYEQGYQVAALDISSVMVQYAKQKLPNSIHVMEGDVQKLPFSTNTFDAIMAINVLEWTENPKQALQELKRVVKERGHICVGILGPTAGPRANSYPRLHGETVICNTMMPWEFQQLCTETDLEYVDGYGVPKQGVSKEMYNHLPLDLQQSLSFSWIFMLRNGG NA NA NA NA NA AK015_03580 306 hypothetical protein ATGAACGAAAGAGAAAAAACGGTCATTGCAAATTATGAGCAAAATGAAAGAATGATGATTTTAGTTTTTGCGCAGTGGTGTGTCAATCATGATGTAGATGCTTTAGAAGTGTATAAAAAGGCATATCCTCATCAACAAGCCAATAAAGTGTTGGAAGAAATGATGGAGGAGACGGTGTCCAAAGAAGAAGCTGATTTCATCGCGACAGAAACGGTACTCCAAGCGCTTCAGTTATTTGGGAATGATGATTTAGCTTTTGCCGTTCAGCAAGAAGTAGATAACAAAAACATGAACAAAGGAAAATGA MNEREKTVIANYEQNERMMILVFAQWCVNHDVDALEVYKKAYPHQQANKVLEEMMEETVSKEEADFIATETVLQALQLFGNDDLAFAVQQEVDNKNMNKGK PGPT0014312_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014312-yxiS-NA NA NA AK015_03581 453 sbmC DNA gyrase inhibitor ATGGAATCCAAAATAGAAATACTCCCAAAACAGCGAATTGCTTTTATGCGACGAACTGGCCCCTATGGTCTTGAAAATATGCAAGTAATGGGGCGTTTTAAAAAATGGGCTACGGAAAAGAATCTCCTTCAATCAGCAACTATTTTTGCTATACCTCAGGATAATCCGGTCAAAACATCACCTGAAAATTGCCGATTTGATGTGTGTATCACCCTCTCTGAGGAATACCCTTTACAAGAGGATAGAGCCATTCGCGAAGGTTGGATTTCTGGAGGAAAATACGTTGTTTATAACATCAATCACACATCTAAAGATATTGCCAAAGCGTACAAAGCTATTTTCCCAGACCTCAACAAAAACGGTTATCAAATAACGAACAAACCTATAATGGAAAGATATACTGGCGATATGTATAACCATCCTTATTGTGACATTTGTGTGCCTGTAAAGTAA MESKIEILPKQRIAFMRRTGPYGLENMQVMGRFKKWATEKNLLQSATIFAIPQDNPVKTSPENCRFDVCITLSEEYPLQEDRAIREGWISGGKYVVYNINHTSKDIAKAYKAIFPDLNKNGYQITNKPIMERYTGDMYNHPYCDICVPVK NA NA NA NA NA AK015_03582 882 garR COG2084 2-hydroxy-3-oxopropionate reductase TTGCTTACAAATGAGGATCGAATTGGTTTTATAGGTACTGGCGTCATGGGGGCAAGCATGGCAAAGCGAATTATGAACGCAGGATACCACGTTTCCATCTATACACGCACAAAGCAAAAAGCTACGAGTTTAATTAACGCTGGCGCGGATTGGGAAGATTCCATTGCCAATTTAACAAAAAACTGCAAGGTCATTATTACGATGGTAGGCTATCCAAGTGACGTGGAAAAAGTATATTTTAGCGACCAAGGTATTTTAAAAAATGTAGCTAAAGACACTTACTTAGTTGATATGACAACTTCTAAACCTAAGCTAGCAGAGCAAATTGAAAGAGAAGCAGAAAAAAAAGGGTGCTATGCGTTAGACGCGCCTGTATCTGGAGGTGATATCGGTGCCAAAAATGGCAAACTAACCATTATGGTTGGTGGGAAAGAAAAAGCATACAAAGATATACTCACATTATTTCAAACGATGGGCGAAAACATCATATTGCAAGGAGAAGCTGGAGCTGGACAACATACCAAATTAGCGAATCAAATAACGATCGCTTCGAATATGGTTGGTGTATGCGAAGCCATTGCTTATGCAAAAAAATCAGGTCTTAACCCTGAGTTAGTGCTTGATAGTATAACAGCTGGCGCGGCCGGAAGCTGGTCACTTTCTAATCTTGCACCACGGATGATCAAAGAAGATTATACACCAGGCTTTTATGTAAAACATTTTATTAAAGATATGAAAATAGCACTAGAATCAGCAGGAGAGCTAGGGTTGTCTACACCTGGATTAGCTCTATCATTAAAGCTTTACGAGGAACTCGAAGCAAAAGGAGAAGCAGATAGCGGCACACAAGCCTTAATCAAATTATTTTCTTTACCCCACTAA MLTNEDRIGFIGTGVMGASMAKRIMNAGYHVSIYTRTKQKATSLINAGADWEDSIANLTKNCKVIITMVGYPSDVEKVYFSDQGILKNVAKDTYLVDMTTSKPKLAEQIEREAEKKGCYALDAPVSGGDIGAKNGKLTIMVGGKEKAYKDILTLFQTMGENIILQGEAGAGQHTKLANQITIASNMVGVCEAIAYAKKSGLNPELVLDSITAGAAGSWSLSNLAPRMIKEDYTPGFYVKHFIKDMKIALESAGELGLSTPGLALSLKLYEELEAKGEADSGTQALIKLFSLPH PGPT0018170_890 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 AK015_03583 663 hypothetical protein TTGGCTGTTCTCAGGGAAAAAAAAGAAGAACTTAAAATTAGCTCTGCCTATGCTTGGGTAAAAGGAAATCATATAGATGATTCAATTGCAAGAAATATTAAAGAGTTTGGAGTAAAAAGTAACATATCAAAAGCAGGATATGCATGGGGATATTTGCAGTTTACACATAATGATGAGAAGATCATGTTTATTATTAAGAATGGTATGAAAAGCGGATCAAAACTCCCCTCCAATCGTAAAAACAATGTGGAAAATAATTATTTATCCAAGTTAGCTCAAATTAACAGAAACGCAGATTTCACACCTGCTAAAGGCGAAGATACTGTTAGTGAACAAATGTCATTTGATGATTTCCCAATAGATGATGAGAATTTAGAGAAAGAGATAAGCGAGAGCACTAGCAAATTTGATCGTTTTTTTATAGTGTCATACACAATTGATGAAAGCAAAATGATCGCTAGTATCGATTTGTTATTACCTAACCCTCATGAAATGGTAGTTTACAGATCAGCTAGTTGGTCTAAATATATTGATTCATCTCCAATAAAAATTGAGAATGACGAATTACAAACTGTTAAAGGAGAAAAAGAACCTCTACTACCAAATCAATCACTTTATGATTATGGTATAGAAGATTTACAAGAGGAGAAGGGTAAAGAATAA MAVLREKKEELKISSAYAWVKGNHIDDSIARNIKEFGVKSNISKAGYAWGYLQFTHNDEKIMFIIKNGMKSGSKLPSNRKNNVENNYLSKLAQINRNADFTPAKGEDTVSEQMSFDDFPIDDENLEKEISESTSKFDRFFIVSYTIDESKMIASIDLLLPNPHEMVVYRSASWSKYIDSSPIKIENDELQTVKGEKEPLLPNQSLYDYGIEDLQEEKGKE NA NA NA NA NA AK015_03584 1179 hypothetical protein ATGTTTGTAGGAAAACAGCTAAGCAACATTCGTCATATGCATGAAATGTCAAGAGCAGATTTGGCAAAAGAATTAAACATCACAGAACAAGCTGTATGGCAATATGAAAATTCATATACCTCTCCAAAATTAGAAGTGATTCTAAAGCTATCAAGGCTTTTTGATGTGAAAACTAAATACTTTTATAAAGAAAATATTCTTTACAATGTCGTCGAAGAAAGAAATATCGCTTATAGATCATTAAATAAAAACACGGCACAGAAAGTATTAGCGGAAAAGCTATTCCTGGAACAAATCGAGGCGATACTAGTTCTATTGGAAAGGTCGGTTAAACTTCCGCCTAATCAATTGTTATCTTTAAGAGAAAAAGCATTGAATGTAAAAGCTAAGAATGATTTTGAGTGTGATAAAGGCACCATCATCGAGTTAATTGCAAAAAAAGCTAGAGAAAGTATTGGTCTGGAACCTAATAATAACAATAATTTATTGTTTCTTGTTGAAAAAAGCGGAGCATTCATACTAGAAAAGAGTATGTCCGTAGAAATAGATGGTTACAGTACATGGACAACATATAATAGACCATATATTGTTTTAAATGGAAACAGGAAAACAGCTGTAAGAAGAAATTTTGATTTAGCACATGAACTAGGACATTTATTATTGCATTATAACGAAGACTTCTTAATTTTAGATGAAAAAAGTTATAATATAAAAGAAAAAGAAGCTCATACTTTTGCCTCTTGTTTTCTATTACCAAAAGAAGATTTTTTAAATGATTTAAAGCATATAGATAAAATATCTAATCCAAAATCTTATATAGATTTAAAAAAGAAATGGAATGTTTCTATAGCAGCAATGGGAAGAAGAGTCTACTCTCTTAATAAAATGTCTTATCAACAATACAGACATTTTAATGCACTCTTAAGAAGATATAATTTTGTGAAGCAAGAACCACTGGATGATGAACTGAAATTTCATAGTCAGGGAAAAATAAGAAGTTTAATTAAACATGTTCTTGATAATGGTTCAATTCAACTAAGTGAATTAACAGACGCCTTTAATCTAAATATAACAAAGATATCAGAGTTATTAAGCCTTGAAGCCAACTTTTTTGAAAAATATATGCACAAAATTCAAGAATTTAATTTTGTAGAAGTGAAGAACTTTAATAGTAGATAG MFVGKQLSNIRHMHEMSRADLAKELNITEQAVWQYENSYTSPKLEVILKLSRLFDVKTKYFYKENILYNVVEERNIAYRSLNKNTAQKVLAEKLFLEQIEAILVLLERSVKLPPNQLLSLREKALNVKAKNDFECDKGTIIELIAKKARESIGLEPNNNNNLLFLVEKSGAFILEKSMSVEIDGYSTWTTYNRPYIVLNGNRKTAVRRNFDLAHELGHLLLHYNEDFLILDEKSYNIKEKEAHTFASCFLLPKEDFLNDLKHIDKISNPKSYIDLKKKWNVSIAAMGRRVYSLNKMSYQQYRHFNALLRRYNFVKQEPLDDELKFHSQGKIRSLIKHVLDNGSIQLSELTDAFNLNITKISELLSLEANFFEKYMHKIQEFNFVEVKNFNSR NA NA NA NA NA AK015_03585 471 hypothetical protein GTGGAGGCTCGAAATGAATATTGGGTAGATAGATTAGTCCGTGAATTTGCATGGGGGCTTATAGCAAGAGTTGTTATCAGTGGAGGTAAGCACGTAATAAAATGGGGTTCTAAAGTTTTTAAAAAGGCACCGAAGTCAAAAGTGACTAATGCTTTGAGATCATTCAAAACTGCAACATATAAAGTTGGCGGGCATACTTTCAAGATAACTAAAACTGATATGAAATTGATGCTACAAAGACACCATCCAAAATATTGGAATGGTACAGTGAAGAAGAAGCAAACTTTTTATAACCCAAAGTTATCTGTAAATGATGTGAAGAATATCGCTTTAAGTATTGCTAAGCAAAATAGAAACAAATTAAAATCAAAAGGTACAAATTCAACTTTTCAAGTGCAAGGAACAGTAAAAGGAGTTAAATATGTTTTGGGGATAAGTAAAGGGCACATAAAACAACTTTATCCCAAGTAA MEARNEYWVDRLVREFAWGLIARVVISGGKHVIKWGSKVFKKAPKSKVTNALRSFKTATYKVGGHTFKITKTDMKLMLQRHHPKYWNGTVKKKQTFYNPKLSVNDVKNIALSIAKQNRNKLKSKGTNSTFQVQGTVKGVKYVLGISKGHIKQLYPK PGPT0027660_184 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 AK015_03586 534 hypothetical protein GTGGAAATCAAAAATTTCTATCTTAAAAAAGAAGTTTACGATTTAAATGATTTAATTCAAAAAACTGAGTCTTATATTGGTGGTTTTAATAACCAATTTTTAGTTGAATTTATTGAGGAAAATAGAGATGAACATGTAGAAAATGGAACATTGATGGTAGAAGGAAGTATAGTTTTTACCTCAAATTATAAAGAAATTGGTAACATACCTATTTTTGACGACTTGCCTTCTTTATATTCTTACTATTTGAATGCTATTGAAGAATATCTGGATAATGGAGTAGGTACTTTTTATTATCCTAGTCAACCAATTGAAGTAGTTTTAAAAAAGGAAGTTGGCAAAAAAACAAAATTAACGATAGATGGAGATTCTTTGGTGGTTAATGAGCAAGTTTTGATAGAAGCTCTTATTAATAATTCACAACAATTCTTTGATATATTATTAAATCAATTAAAACTCAAAAACTATAAGCATGAACTTACTCAAATAGAAGCTATTAAAAGATGTTTACTAGAAAATGGGTATGATAATTGA MEIKNFYLKKEVYDLNDLIQKTESYIGGFNNQFLVEFIEENRDEHVENGTLMVEGSIVFTSNYKEIGNIPIFDDLPSLYSYYLNAIEEYLDNGVGTFYYPSQPIEVVLKKEVGKKTKLTIDGDSLVVNEQVLIEALINNSQQFFDILLNQLKLKNYKHELTQIEAIKRCLLENGYDN NA NA NA NA NA AK015_03587 660 dksA RNA polymerase-binding transcription factor DksA ATGATCAATGAACAGCAATTAGCAAATTGTAAACAAGCTTTACAAAATCGCCAATCCGAACTTATTTCCCATGTTCAAGAGCATATGGGTTTAACGTTAGAATCCGTGCAACAATCAAGTGGTGAATTGTCCAATTATGATAATCATCCTGCAGATACAGCATCCGAATTATTTGAAAGAGGAAAGGATGTCGCGCTTAATGAGCATGCTGAAAAGGAATTAGAAGATATTAATAAAGCTTTACATGCAATTGCAGAAGGTACTTATGGAATTTGCAAAGAATGTGGCAATGATATTCCTTATGAACGGCTTGAAGCTCTCCCAACTGCAGACCGATGTATGGAGCATGCCGTATATGATTCATTTAACCAAACGCGCACCATGGAAGAGGAAGTATATAGCCCTAATATAAATCCTGATAAAATAAGTGATGAGACACAAGTTGGCTATGACGCTGAGGATGCTTGGCAGGAAGTTAGTCGTTATGGTACATCGGAAACACCTTCTGATTTTTACGGTGATAAGGCTAGTTATAATAAAATGTATCCGAATAGTGACGAACAAGTCGGCTATGTAGAAGATGTGGAAGGATATTTAGGTGCATCTTCTGATGGGAAATATACTGTTATGGACCAAACAGATGATGAGCATGTACGATAA MINEQQLANCKQALQNRQSELISHVQEHMGLTLESVQQSSGELSNYDNHPADTASELFERGKDVALNEHAEKELEDINKALHAIAEGTYGICKECGNDIPYERLEALPTADRCMEHAVYDSFNQTRTMEEEVYSPNINPDKISDETQVGYDAEDAWQEVSRYGTSETPSDFYGDKASYNKMYPNSDEQVGYVEDVEGYLGASSDGKYTVMDQTDDEHVR PGPT0014560_210 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-OTHER_QSR|BF_RELATED_SYSTEMS CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204 NA NA AK015_03588 252 hypothetical protein ATGAGACTTGGCGGCAAGCCAAGTTTTTCTAATAGAGAGGTGATTAGATTGCAGCAAAAAGGTTGTTTAAAATGCGGAAGTACAAACGCTGATCAAAAAGAAGTAGCTATGACGGGAACAGGCTTGTCAAAGATGTTCGACGTACAAAACAATCAGTTTATAGTCGTTTATTGTAAAGACTGTGGCTACTCCGAATTTTATAACAAGAAAAGTTCTAAAGGAAGCAATATTTTTGATTTGTTTTTTGGGTGA MRLGGKPSFSNREVIRLQQKGCLKCGSTNADQKEVAMTGTGLSKMFDVQNNQFIVVYCKDCGYSEFYNKKSSKGSNIFDLFFG NA NA NA NA NA AK015_03589 771 hypothetical protein ATGCTCTGTCCGAATTGTAAGTACGAAACAAAAGAAGGAAAGTTTTGTACGAATTGTGGTGCACATCTTTATCTTGAAGAAGAAGCAGTAGCTAAAGAAGATGAAAGTCAATCTGATGCTTCACCAAACAATAGGGATGTTTCTTCAACTGTAAATACAGTAGGAAAACATTTTGCAAGTTTTTTTATGCACTACTTAAAATCTCCACATAAGGCGCGATTTGCCACACAACAAGATATCATTCCTGCCATTATAAGCATAGTTTTATTTGCTCTTACAGTTACCATTAGTTTTTATGTGGTAGTGGCAAGTCAAGTAGATAGTTATTTTGTGGATATTGGTTTTTTAGATGGATTTATCCTCCCATTTATACAATACCTTCTATTATTTGCTTTTATAATTATATTAACTTTCATTTCTACAAAGTTAACAGCACAACATATGACTTTGCAAGAAACAGTAACAAAAGTTGGAATTTATACAATCCCTTTTCTTCTTATTTTTTTAACTGGAATTTTACTTACTTGGATTAGAATCCCTTTTTTCAGTGTTCTTATTCCTATTAGTTTACTAGGCCCAGTTATATTCATACCATCATTTATTTTACTTGAGTCAAAAGAAAAAGAACACGGTTACGATAGAGTTTATGTTTTAATTGCCTTTTATGTCATTTCTTTTGTAGTCATGTCTATTCTTTTACAAGATATGATAGGAAGATTACTAGGGGGGGTATTTGGAGGATTAATGGGCGATTTTTTCCAAAGTTATTAA MLCPNCKYETKEGKFCTNCGAHLYLEEEAVAKEDESQSDASPNNRDVSSTVNTVGKHFASFFMHYLKSPHKARFATQQDIIPAIISIVLFALTVTISFYVVVASQVDSYFVDIGFLDGFILPFIQYLLLFAFIIILTFISTKLTAQHMTLQETVTKVGIYTIPFLLIFLTGILLTWIRIPFFSVLIPISLLGPVIFIPSFILLESKEKEHGYDRVYVLIAFYVISFVVMSILLQDMIGRLLGGVFGGLMGDFFQSY NA NA NA NA NA AK015_03590 1356 hypothetical protein ATGGATGATAGAAACAATGAACAATCTAATCAACATAACGGATTTAACGATAACGAAAACCTTACATCTCAACATTTAAGCCAAAATCAAGATTCTCACCAACTAACGGATGAACAATCTAATACGCAACAAAATACGAGCTATGATAACACCACAGGAAATAAAAAAACAACGAATAAGTCCTTGTTACATTTTATTTTAGGCGGTATTTCTGGTGGTGTTGTATCTGTTATTATCATAGCAGTGTTATTGTTTACAAATATTATTCCAATGACACAAGATAACGGAAATGGATCCGCTTCAACAGAAGGAAATAACCAAGCTCAAGAAGTCGTCAAAACGCTCGCCTCTGAGGATTCAGAAGTGGCAACAAATATTGAAGAAACCTCTAAAGCAGTTGTTGGAGTTATTAATAAGCAACAGCAAAATATTTGGACAGAAAGTCAGGAAGCAGGAACAGGTTCAGGAATTATTTATAAAAAAGAAAAAGGCAAAGCATATGTAATTACAAATCAACATGTTGTAGAAGGAGCAGAAGAAGTAGAAGTCGCTTTAAATTATTCTGAAGAACGCTTAAATGCTAACGTGTTAGGTACAGACGAATTAACAGATCTAGCCGTGTTAGAAATTGATGGTGATCCTATCACTACCGTTGCAAACTTGGGATCTTCTAAAGATTTAAAAATAGGGGAAAATGTTTTAGCCATTGGAAATCCATTAGGTATGGAATTCGCTAACACCGTGACGAAAGGTGTTATTAGTGGACTTGATCGTTCTGTACCCATTGATACAAACGGAGACAATCGTGCAGATTGGATTACCGAGGTTATCCAAACAGACGCTGCCATCAATCCAGGAAATAGTGGCGGTGCCCTCGTCAATGAAAAAGGTGCCGTGGTTGGAATTAACTCAATGAAAATTGCCAGACAGGAAGTAGAAGGCATTGGTTTTGCTATTCCTGTAGACGCAGCACTTCCAATTGTGGAACAGTTAGAGAAGAATGGTCAAATTGAACGTCCGTTAATTGGCATTAGTACAGCAGCCATTGAACAAGTCCCACCTCAATATAGAACAGACATTCAATTACCTGAAGGAGTAAAAGGTGGAATGGTTATTGCAGACGTGGAGAATGGTTCTCCTGCTGACAAAGCTGGGTTACAACAATTTGATGTGATCACTAAAATTAATGGAAATGACGTGACATCCATTTTAGAATTAAGGAAATTTTTATATTCCGATGCTTCTGTTGGTGAAAAAATAGATGTTGAATATTACCGAGATGGGCAAAAAGAAACAACCAAGCTAACACTGGAAGCCAAACAGACAAAAAGCGAAAACACAACGGAACAAGGATAG MDDRNNEQSNQHNGFNDNENLTSQHLSQNQDSHQLTDEQSNTQQNTSYDNTTGNKKTTNKSLLHFILGGISGGVVSVIIIAVLLFTNIIPMTQDNGNGSASTEGNNQAQEVVKTLASEDSEVATNIEETSKAVVGVINKQQQNIWTESQEAGTGSGIIYKKEKGKAYVITNQHVVEGAEEVEVALNYSEERLNANVLGTDELTDLAVLEIDGDPITTVANLGSSKDLKIGENVLAIGNPLGMEFANTVTKGVISGLDRSVPIDTNGDNRADWITEVIQTDAAINPGNSGGALVNEKGAVVGINSMKIARQEVEGIGFAIPVDAALPIVEQLEKNGQIERPLIGISTAAIEQVPPQYRTDIQLPEGVKGGMVIADVENGSPADKAGLQQFDVITKINGNDVTSILELRKFLYSDASVGEKIDVEYYRDGQKETTKLTLEAKQTKSENTTEQG PGPT0015105_4426 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 AK015_03591 1896 hypothetical protein ATGGATATTCTTAACAAAGTAAAGCAGTATCGAGAAGAAGAACAGCAGTTAAAGTGGGAAGGGACATTTGGGGAGTATTTAGACATCATTAAACAACGTCCAGAAGTAGCGCAAACTGCTCATTCACGAATTTATAATATGATTAAAAGTGCAGGTATTACGGAACGAGATGGCAAAAGAATGTATGAATTTTTTGGTGAAGAAATATTTGGTTTGGAAGAAGCAATTGAGCGGCTTGTAGAAGAATATTTTCACCCTGCAGCGAAACGGCTCGATGTACGTAAACGTATTTTATTATTAATGGGACCCGTAAGTGGTGGAAAATCAACGATAGTTACCATGCTAAAACGCGGATTGGAAAAGTATTCGCGTACGGATGAGGGAGCGGTTTATGCAATAAAAGGTTGCCCCATGCAGGAAGATCCTCTCCATCTAATTCCACCGCATTTACGCCAAGAATTTTTTGAGGAATATGGGATACGCATTGAAGGAAGTTTATCACCGCTAAATACGATGCGATTGGAAAAGGAATATAACGGAAAAATAGAGAATGTACGGGTAGAACGTATTTTTTTCTCTGAGGATAAACGGGTAGGTATTGGTACATTTAGCCCGTCTGATCCAAAGTCACAAGACATTGCAGATTTAACTGGGAGTATTGATTTTTCTACTATTGCAGAATACGGTTCAGAATCAGATCCACGAGCTTATCGATTTGATGGGGAATTGAACAAAGCAAATCGAGGGATGATGGAATTTCAAGAAATGCTCAAGTGTGATGAGAAATTTCTATGGCATTTATTATCCTTGACACAGGAAGGAAATTTTAAAGCGGGTAGGTTTGCGCTTATTAGCGCAGATGAATTAATTGTCGCCCATACGAATGAAGCGGAATATCGCTCTTTTATTGCGAACCAAAAAAATGAGGCCTTGCATTCACGAATTATCGTGATGCCGATACCGTACAATTTAAAAGTAAGCGAAGAAGAAAGGATTTATCAAAAAATGATTCATGAAAGCGATATGGCTCATGTCCATATTGCGCCACATGCATTAAGAGTAGCTGCTATTTTTTCTATTTTAACGAGATTGGAAGACTCAAAGAAACCAGGTGTGGATTTAATTAAAAAAATGCGTCTGTACGACGGTGAAAGTGTAGAAGGATATAATCAAGCAGATGTGGATGAGCTAAAGGATGAATTTCCGGTCGAAGGGATGAATGGGATTGATCCCCGTTATGTCATTAATCGTATTTCCTCTGCAATTATTCGTAAAGAAGTCCCAGCAATTAATGCTTTAGATGTGCTCCGTTCCTTAAAAGAAGGACTTAGTCAGCACCCTTCTATTTCGGATGATGATAAGGAAACGTATATGAATTATATTTCGGTTGCTAGAAAGGAATACGATGAAATAGCTAAGAAGGAAGTGCAAAAAGCGTTTGTATATTCCTATGAAGAGTCAGCAAAAACATTAATGGATAACTATTTAGATAATGTAGAAGCGTACTGCAATAAAAATAAGTTAAAAGATCCGTTGACTGGGGAAGAGATGAATCCGGATGAAAAGTTAATGCGTTCTATTGAGGAACAAATTGGCATTTCAGAGAATGCTAAAAAGACGTTTCGTGAAGAGATCCTCATTCGGATATCGGCGTTTGCCCGCAAAGGAAAGCGGTTCGATTACAACTCTCATGAGCGATTACGTGAAGCGATTCAGAAAAAATTGTTTGCTGATTTAAAAGATGTTGTAAAAATAACGACGTCTTCTAAAACACCAGACGAATCGCAGCTGAAGAAGATTAATGAAGTCATTGCTCGTCTAATCGATGAATACGGCTATAATTCCGTATCAGCTAATGAGTTGCTTCGTTATGTAGGCAGTTTGTTGAATAGGTAG MDILNKVKQYREEEQQLKWEGTFGEYLDIIKQRPEVAQTAHSRIYNMIKSAGITERDGKRMYEFFGEEIFGLEEAIERLVEEYFHPAAKRLDVRKRILLLMGPVSGGKSTIVTMLKRGLEKYSRTDEGAVYAIKGCPMQEDPLHLIPPHLRQEFFEEYGIRIEGSLSPLNTMRLEKEYNGKIENVRVERIFFSEDKRVGIGTFSPSDPKSQDIADLTGSIDFSTIAEYGSESDPRAYRFDGELNKANRGMMEFQEMLKCDEKFLWHLLSLTQEGNFKAGRFALISADELIVAHTNEAEYRSFIANQKNEALHSRIIVMPIPYNLKVSEEERIYQKMIHESDMAHVHIAPHALRVAAIFSILTRLEDSKKPGVDLIKKMRLYDGESVEGYNQADVDELKDEFPVEGMNGIDPRYVINRISSAIIRKEVPAINALDVLRSLKEGLSQHPSISDDDKETYMNYISVARKEYDEIAKKEVQKAFVYSYEESAKTLMDNYLDNVEAYCNKNKLKDPLTGEEMNPDEKLMRSIEEQIGISENAKKTFREEILIRISAFARKGKRFDYNSHERLREAIQKKLFADLKDVVKITTSSKTPDESQLKKINEVIARLIDEYGYNSVSANELLRYVGSLLNR PGPT0014345_1335 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180 NA NA AK015_03592 1167 hypothetical protein ATGCATGAGGAAAAAGGAAATTTTGTCGTTTCAAAGGAAAATTGGTCCCTCCATCGCAAAGGTTACCAAGACCAAACGCGTCATATGGATAAGGTGAAGGAAGCGATAAAAAATAACTTGCCTGATTTAGTAAGCGAAGAAAATATTATTATGTCTGATGGGAAACAAGTAATGAAAATCCCAATTCGTTCATTAGATGAGTATAAAATTCGTTATAACTACGATAAAACGAAACAAGTAGGACAGGGAAAAGGGGATAGTAAAGTTGGTGATATTATTGCAAGGGCACCTGGAGGCGATGGTCAGGCCGATGGGAAAGGAAAAAAGGCGGGCGATCAGCCAGGGACAGATTACTATGAAGCAGAAGTATCCTTAGAAGAAATTGAGCACGCCTTATTTCAACAGTTGGAGCTCCCCAATCTACAAGAAAAGGAACAAGCTGAGATCATAACGGAAAAAACAGAATTTAATGATGTACGTAAGAAAGGGTTAATGGGAAATATAGATAAGAAGCGCACTATTTTAACGGCGATCAAGCGTAATGCTACAGAAGGAAGACCAGGAATTACGCCAATATATGAGGATGATTTGCGATTTAAAACATGGAATGATATAACAAAACCAGAGTCTAAAGCGGTCGTTTTAGCTATGATGGATACAAGTGCTTCGATGGGGATTTTTGAAAAGTATGTAGCCAGAAGTTTCTTCTTTTGGATGACGAGGTTTTTACGTACAAAATATGAAACAGTGGATATTGAATTTATTGCCCATCATACAGAAGCAAAAGTTGTGTCAGAGGCAGATTTTTTTTCCAAAGGAGAGAGCGGTGGCACCATATGTTCTTCTGCTTATTTAAAAGCATTGGAACTTATCAAAAAAACGTATTCTCCTTCACGCTATAATATATATCCTGTTCATTTTTCAGATGGAGAGAATATGACCTCTGATAATCCGTTATGTATCGAGCTAGTAGGAGAGTTAATGCGTTTTTCAAGTATGTTTGGCTACGGAGAGGTGAACACTTTTCACAGGAAATCGACGTTAATGCGTACGTTTGATCAATTGGATAACCCGAAATTTCGCTATTATATCGTAAAAGAGAAAAAAGATATTTATGAGGCACTAAAGGCATTTTTTACCCAACAAGTTGTAACAGCACAAACGTAA MHEEKGNFVVSKENWSLHRKGYQDQTRHMDKVKEAIKNNLPDLVSEENIIMSDGKQVMKIPIRSLDEYKIRYNYDKTKQVGQGKGDSKVGDIIARAPGGDGQADGKGKKAGDQPGTDYYEAEVSLEEIEHALFQQLELPNLQEKEQAEIITEKTEFNDVRKKGLMGNIDKKRTILTAIKRNATEGRPGITPIYEDDLRFKTWNDITKPESKAVVLAMMDTSASMGIFEKYVARSFFFWMTRFLRTKYETVDIEFIAHHTEAKVVSEADFFSKGESGGTICSSAYLKALELIKKTYSPSRYNIYPVHFSDGENMTSDNPLCIELVGELMRFSSMFGYGEVNTFHRKSTLMRTFDQLDNPKFRYYIVKEKKDIYEALKAFFTQQVVTAQT PGPT0025005_1255 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786 NA NA AK015_03593 351 hypothetical protein ATGACAAAGCAATTTTTAGATATTGAAGCATTTAATAAACTTTTACAAAAATGGAATGGAAAACAGATAAAAGTTTCCAAACAAGAGTTAAATGATTATGATGAGGCAATTATTGACTTATCCGCAATCACGTATGAAACACATGCACGTCGACTAGATGATTATGAACCTCTACATACATTACAACTAAATGGTGCCGGCAAAGTTGAAACTGATTCTAAATCCTATCAAGCACTCCCTAAATTCACATATGAAATTCCTTTAGAGGACTCATCATTATACCAATTTGACGGCGAGCGCTTTGCTTTGGTGACGGATCGGGCTATCTATACAATTGAAATTTTCCAGTAA MTKQFLDIEAFNKLLQKWNGKQIKVSKQELNDYDEAIIDLSAITYETHARRLDDYEPLHTLQLNGAGKVETDSKSYQALPKFTYEIPLEDSSLYQFDGERFALVTDRAIYTIEIFQ NA NA NA NA NA AK015_03594 870 mntD COG1108 Manganese transport system membrane protein MntD ATGAGCTATACTTTTTGGATTCTCTTAACCGGCTGTCTTGTCGGACTTACCTGTGGTATTACAGGGGCGCTTCTTGTTTTACGGAAAATGGCAATGATCGCTGATGCCATTAGTCATACCGTTTTACTAGGTATTGTTGGGGCTTTCTTTGTTACCCAATCTTTAAGTGGGGTTCCCATGCTTATCGGTGCAGGCATTGTTGGTATTCTAACAGCTGTTTTTGTGGAAATGCTTCATTCATCTGGTGTTCAATCGGATGCAGCAATAGGAATTGTTTTCACTTCCTTGTTTGCATTAGGGGTTGTCCTTATTTCTTTTATTGGCGACCAAGTCCATTTAGATGTACAGCATGCTTTAATGGGTGAAATTGCTTTTGTTCCATGGAATACGTTAACCATCAACGGGGTGAGTTATGGACCTACTGCCGTTTGGATGCTTGGTGCTGTATTAGCGATTAATCTTATTTTAATTACACTATTTTATAAAGAGATTAAAATGTCTACCTTCGACCCGCAATTTGCAACTTTAATTGGTGTGCCAGTAGTGATCATTCATTATCTACTAATGACCATGGTGTCCTTATCAACCGTCGCTTCATTTGATAGTGTAGGTGCTATATTAGTTGTCGCCATGCTCATTGTCCCTGGCGCAACTGCTTATCTTTTAACAGATCGATTTTTCGTATTATTAATTTTAAGTGGCGGTATTGGCATTTTATCTGCTGCCCTAGGCTATGGCTTTGCCATCCAGTGGAATGTTTCCATTGCTGGTTCGATGGCCGTAGCAACAGGGATATTCTTTATAGCTGCTTTCCTCTTTAGTCCAAAACAAGGCGTTTTGACAAAAAAAGTTCCGAGGCGCAACTGGTGA MSYTFWILLTGCLVGLTCGITGALLVLRKMAMIADAISHTVLLGIVGAFFVTQSLSGVPMLIGAGIVGILTAVFVEMLHSSGVQSDAAIGIVFTSLFALGVVLISFIGDQVHLDVQHALMGEIAFVPWNTLTINGVSYGPTAVWMLGAVLAINLILITLFYKEIKMSTFDPQFATLIGVPVVIIHYLLMTMVSLSTVASFDSVGAILVVAMLIVPGATAYLLTDRFFVLLILSGGIGILSAALGYGFAIQWNVSIAGSMAVATGIFFIAAFLFSPKQGVLTKKVPRRNW PGPT0003850_325 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003850-troD|mntD|znuB-K11709 NA NA AK015_03595 870 mntC COG1108 Manganese transport system membrane protein MntC ATGGAACAATTTAGTGCTCTTTTATCAAGTGCCAACTTACAATGGGTATTAGTTGGAAGTTTATTGCTAGGTTTTGCAAGTGGGGTTATCGGCAGTTTCGTTTTATTAAAAAAACAAAGTTTAATTAGTGATGCGATGGCTCATGCTGCACTGCCTGGTGTTTGTATCGTTTATATTCTGTTTCAGGTAAAATCCGTTCCCTATTTACTAGCAGGTGCTGCTGTTACGAGCTTAATAGCAACACAGTCTATACAAACCATTGTGAAATGGACACGGATTAAAACAGATGCAGCTATCGGCATCACATTATCTGTATTCTTCGGGCTTGGCATTGTTCTATTAACCTATATTCAACAAAATGCAACTGGTAATCAAGCTGGACTTGATTCCTTTATTTTCGGGCAAGCCGCTTCTCTCGTTAAAGGGGATGTGCAATTAATTGCAGCTGGAGCATTATGCTTAATCATTCTAACAGCACTATTTTTCAAAGAATTTAAGATTAGTATCTTTGATCCACAATTTGCTAAAGGATTAGGTTTACCAGTTACCTTTTTCAATGCCGTCATGTTATTTCTTGTTGTCGCAGTCGTTGTAATTGGTATTCAAATGGTCGGCGTTGTACTCATTGCAGCGTTATTAATTACGCCGCCTATTTCTGCACGTTACTGGACAGATCAGCTCGGTTGGATGACCATTTTAGCGGGCGTATTTGGGGCTATCTCTGGTGTAAGTGGGGCTGTCTTAAGTACAGCAATACAAAACTTACCTACCGGGCCAATTATCGTATTAAGTGCCTCCGTTATTTTCCTCTTTTCCTTACTGTTTGGGACGAAGAAGGGTTTATTGCTGAAAGGAGGAAGAAATGCATGA MEQFSALLSSANLQWVLVGSLLLGFASGVIGSFVLLKKQSLISDAMAHAALPGVCIVYILFQVKSVPYLLAGAAVTSLIATQSIQTIVKWTRIKTDAAIGITLSVFFGLGIVLLTYIQQNATGNQAGLDSFIFGQAASLVKGDVQLIAAGALCLIILTALFFKEFKISIFDPQFAKGLGLPVTFFNAVMLFLVVAVVVIGIQMVGVVLIAALLITPPISARYWTDQLGWMTILAGVFGAISGVSGAVLSTAIQNLPTGPIIVLSASVIFLFSLLFGTKKGLLLKGGRNA PGPT0003840_469 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003840-troC|mntC|znuB-K11708 NA NA AK015_03596 753 mntB COG1121 Manganese transport system ATP-binding protein MntB ATGAATGCCTTGACGGTGAACAATATGTCTGTATCATATGATAAACAACTCGCATTAGAAAATGTTTCTTTTTCTGTCCCTGAAGGGTCGATGACTGGCATCATTGGCCCTAATGGAGCTGGTAAATCAACATTAATCAAGTCTATTTTACAACTATTACCTACTGTATCAGGGACGGTAGAAGTATTTAAAAAGCCCTTACGTAGCCAAAGAAAAATAATTGGTTATGTACCTCAACGTAGCGAAGTAGATTGGGATTTTCCAACCAATGCTCTAGATGTAGTGTTAATGGGCAGGTACAATCATATTGGTATGTTTAAGCGAGCAAGCAAAAAGGAAGTAACATGGGCAAAACATTGTCTGCAACGGGTAGGCATGCAAGATTATGCCTCTCGCCAAATCAGCCAACTTTCTGGTGGTCAGCAACAACGTGTATTTTTAGCCCGCGCAATGGCACAAGATGCAAAAATATATTTCATGGATGAACCTTTTGCAGGTGTCGATGCGTCAACCGAAAAAGCAATTATTCAATTAATGAAAGAATGGAAAAGCGATGGAAAAACCGTTCTCGTTGTGCACCATGACTTACAAACAGTAGATGATTATTTTGACCATGTCCTGCTACTAAATAAAACACCAATCGCGTATGGAGAAACGAATCGAGTATTCACACTTGCTAACTTAGAAGAAGCATATGGAGGTAAAATTGCTTTCTTACAACAAGGCCCCGCGGCGGCAAAGGGGAGTACATAA MNALTVNNMSVSYDKQLALENVSFSVPEGSMTGIIGPNGAGKSTLIKSILQLLPTVSGTVEVFKKPLRSQRKIIGYVPQRSEVDWDFPTNALDVVLMGRYNHIGMFKRASKKEVTWAKHCLQRVGMQDYASRQISQLSGGQQQRVFLARAMAQDAKIYFMDEPFAGVDASTEKAIIQLMKEWKSDGKTVLVVHHDLQTVDDYFDHVLLLNKTPIAYGETNRVFTLANLEEAYGGKIAFLQQGPAAAKGST PGPT0003845_310 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003845-troB|mntB|znuC-K11710 NA NA AK015_03597 933 mntA COG0803 Manganese-binding lipoprotein MntA ATGAGGAAAATAGGCTTTATCAGTTTTACGATCCTACTTATCGCATTTCTTGCAGGTTGCGGATCAAGTGCCAAGGAGACCAGTGGCTCAAGTGAAAAACCTGTTAAAGTAGTTGCTACTATCGCACAAATTGGAGATGTTGTTGAGAATATTGGCGGTGATCATGTAGATGTTTATAGCATTATGGGACCAGGAACGGATCCGCATCTTTATAATGCGGTACAGGGAGATATTCAACAAATGACCGAAGCAGAAATTATTTTTTACAATGGGCTTCATTTAGAGGGGCAAATGGGTGAAATTTTTGAAGAAATGCGCCAAGATAAACCAACCATCCCTGTGGCAGAAAGTATACCAGAGGACAAGCTGCTTGCAGATCCAGAAAGCCCTGAAGTAAGTGATCCCCATGTTTGGTTTGATATTGAATTATGGAAATATGCAGCTGAGTCCATTCGCGATGGACTCAGCAAATTAGATCCAGACAACAAAGAGACTTACGAAAAAAACACAAAAGCGTATATGATAGAGTTAGATGAACTGCATGCTTATGCAAAGGAACGCTTCAATGAAATTCCAGAAGAAAGCCGTGTACTTGTAACTGCCCACGATGCGTTTAATTACTTCGGCAAAGCGTTCGAGTTTGAAGTAATGGGATTACAAGGACTAAGTACTGAATCCGATTATGGTGTGAACGATATTCAAAGAATCATTGATGTGTTAGTAGAACGAAACATTAAAGGTGTATTTGTGGAAAGCAGTGTGTCCGAGCGATCGATTAACGCCGTTGTAGAAGGAGCAAAAGAAAAAGGACATGACGTTTCCATTGGTGGTGAACTTTATTCTGATGCAATGGGTGAAGCAGGCACAGAAGAAGGAACTTATATTGGCATGTTTAGGCACAATATTGACACCATTGTGGAAGCCTTAAAATAA MRKIGFISFTILLIAFLAGCGSSAKETSGSSEKPVKVVATIAQIGDVVENIGGDHVDVYSIMGPGTDPHLYNAVQGDIQQMTEAEIIFYNGLHLEGQMGEIFEEMRQDKPTIPVAESIPEDKLLADPESPEVSDPHVWFDIELWKYAAESIRDGLSKLDPDNKETYEKNTKAYMIELDELHAYAKERFNEIPEESRVLVTAHDAFNYFGKAFEFEVMGLQGLSTESDYGVNDIQRIIDVLVERNIKGVFVESSVSERSINAVVEGAKEKGHDVSIGGELYSDAMGEAGTEEGTYIGMFRHNIDTIVEALK PGPT0003835_356 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003835-troA|mntA|znuA-K11707 NA NA AK015_03598 1407 hypothetical protein TTGACAGATACGAAAGAACTGAATCATGCAATTGCAGAAATTACCGAAATAGCCTCTGGGTTTGGTCTCGATTTTTATCCAATGCGTTATGAAATCTGTCCTGCTGATATTATTTATACGTTTGGAGCATATGGAATGCCGACACGATACAGTCATTGGAGTTTTGGAAAACAGTTTCATCGAATGAAATTGCAATATGACTTAGGATTAAGCCAAATTTATGAATTGGTAATTAACTCGGATCCATGCTATGCTTTTTTATTAGATACGAATAGCCTCATTCAAAATAAATTAATTATTGCTCATGTTTTAGCGCATAGTGATTTCTTTAAAAACAATATCCGGTTTTCGAATACACGGCGTGATATGGTAGAGAGCATGACAGCAACAGCTGAGCGAATTGCTCATTATGAGATGGTGTATGGAAAGAAGGAAGTGGAGCAGTTTTTAGATGCGGTTTTAGCTATCCAAGAGCATATTGATCCGGCACTCTTTCGTTCAAGGCTAAGCTATGAAGAGATGGAAGCGTTGGAAAAAGATTCTCCCAAACGGAAAACGCCTTATGATGATTTGTGGGATTTAGACGCAGAAGCTACGAAGAAACCAGCGATTGAAAAATACAAAAAGAAATTCCCGCCACAACCAGAAAAAGATCTGTTATTATTTTTAGAATCCTATAGTAAAGAGTTATCTGATTGGCAGCGCGATATTCTAACCATGATGCGGGAAGAAATGCTCTATTTTTGGCCGCAGATGGAAACGAAAATCATGAATGAAGGCTGGGCTTCGTATTGGCACCAACGAATTTTAAGAGAAATGGATTTAAGCAGCGAGGAGACGATTGAGTTTGCTTCGTTGCATGCAGGGGTGGTCCAGCCTTCTACACGTCAATTAAATCCTTATTATTTAGGATTAAAAGTATTAGAAGATATTGAAGAACGCTACAATCAACCTACAGAGGAAATGAAGCTACGAGGAGTAAAACCCCATTCCGGAATAGAAAAATTGTTTGAAGTGAGGGAGCTAGAGTCGGATATTTCTTTTTTACGTAATTACTTGACGAAGGATCTCGTGCAGCGAGAGGACTTATATTTGTTTGAAAGAAAGGGAAGGAATTATCAAATCACGAATAAAGATTATGAAAACATTCGTAATCAGCTTGTAGCAATGCGGGTGAATGGTGGGTTTCCGTATATTACTGTAGAAGACGGTGATTATTTACGCAATGGTGAGTTATATTTGAAGCATCATTATGAAGGGACAGAGTTAGATATTTCCTATTTAGAACATGTATTGCCATATATTTATCAGTTATGGGGACGTACGGTATGCCTAGAAACGATGATTGATGAGAAGGCAATCGTCTATTCCTATGATGGAAGGAAAACCGTCCATCGATCTTTGTAG MTDTKELNHAIAEITEIASGFGLDFYPMRYEICPADIIYTFGAYGMPTRYSHWSFGKQFHRMKLQYDLGLSQIYELVINSDPCYAFLLDTNSLIQNKLIIAHVLAHSDFFKNNIRFSNTRRDMVESMTATAERIAHYEMVYGKKEVEQFLDAVLAIQEHIDPALFRSRLSYEEMEALEKDSPKRKTPYDDLWDLDAEATKKPAIEKYKKKFPPQPEKDLLLFLESYSKELSDWQRDILTMMREEMLYFWPQMETKIMNEGWASYWHQRILREMDLSSEETIEFASLHAGVVQPSTRQLNPYYLGLKVLEDIEERYNQPTEEMKLRGVKPHSGIEKLFEVRELESDISFLRNYLTKDLVQREDLYLFERKGRNYQITNKDYENIRNQLVAMRVNGGFPYITVEDGDYLRNGELYLKHHYEGTELDISYLEHVLPYIYQLWGRTVCLETMIDEKAIVYSYDGRKTVHRSL PGPT0024845_964 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415 NA NA AK015_03599 576 hypothetical protein TTGAAGCAGTGGATGAAAAAAATAGCGGTTATGGCAATTGCCTTTGTAACACTAGGCATGTATGTACCTACTTCGCTAACGCAAGAATCGGTGGAGGCAAAACCTCGAATGAATTCGGATTCCGATGTTAGTGAGCAGTCAAGCACTGTTGTCTTAGAAGAAACTCCTCCTTTCGTCGATCCAATGGTAGAATTATCGGAAAAAGCGAAGGAACAAGTGTTGCGTAAAATGGGGCCTAGAATATCAGAACGTGTGGCGGATGAGTTCACTACTGTTATTCTCCCTAAAATAGAGCAAGTTATGGAAACGGTAATGCTAGATGAAAATGGTGACCCGATATCTCATTATGGGATTACGGAAGACCCTTCTAGCGGATATGGCGAGCGAATTTTCCATGTTTATGATTATCATAAACAGGAAAATGTAGTGAAGTTTCATGTGAGGAGAGTTCATCGACCATTAGAAGGGCATTGGTTTAACTTTCATTATCATTTAAATACAGATCAATTTGAAACACATTATGAAATTGGAGAGATTTTTTGGGATAAAAATACGCCACCAAAATGGATGACGTAA MKQWMKKIAVMAIAFVTLGMYVPTSLTQESVEAKPRMNSDSDVSEQSSTVVLEETPPFVDPMVELSEKAKEQVLRKMGPRISERVADEFTTVILPKIEQVMETVMLDENGDPISHYGITEDPSSGYGERIFHVYDYHKQENVVKFHVRRVHRPLEGHWFNFHYHLNTDQFETHYEIGEIFWDKNTPPKWMT NA NA NA NA NA AK015_03600 708 cobB COG0846 NAD-dependent protein deacetylase ATGTTGCTTAAAGAATGGTTACAAGAAGCGAAATACACGGTTGTATTCACAGGAGCTGGCATGTCAACAGAAAGTGGGTTACCTGATTTCCGCTCTGCTAACAAAGGTCTATGGAGACAAAAAGACCCTAGTAAGATTGCCTCCACTGATGCACTAAACTCTAACGTCGAAGCATTTATTGCATTTTACCGAGAACGAGTAGTAGGTGTTAAAACATATCAGCCGCATAAAGGGCACTATATTTTAGCCGATTGGGAAAAACAAGGATGTATTAAATCAATCATTACCCAGAACGTAGATGGCTTTCATCAACAAGCTGGGAATAAGCGGGTCGCTGAACTACATGGAACGCTGCAAAAGCTACACTGTCAATCTTGTGGAAAAGAATATAGTAGTGAGGAATATGTAAATAAAGATTACTACTGTTCTTGCCAAGGGGTTCTTCGACCTTCCATTGTTCTGTTCGGGGAAACCTTACCGATGGACGCCTTTCAATTTGCGTTAGAAGAAACAGAAAAAGCGGATTTATTTATTGTACTTGGTTCTTCTTTAAGCGTAACCCCCGCCAATCAATTTCCGCTGATTGCCAAAGAAAATGGCGCTAAGTTAGTTATTGTCAATCGAGAGCCGACAGAATTAGACCGCTATGCCGATCAACTCATTCATAATCGTCCCATTGGTGAAGTACTACAAGAAATAAACCAATAA MLLKEWLQEAKYTVVFTGAGMSTESGLPDFRSANKGLWRQKDPSKIASTDALNSNVEAFIAFYRERVVGVKTYQPHKGHYILADWEKQGCIKSIITQNVDGFHQQAGNKRVAELHGTLQKLHCQSCGKEYSSEEYVNKDYYCSCQGVLRPSIVLFGETLPMDAFQFALEETEKADLFIVLGSSLSVTPANQFPLIAKENGAKLVIVNREPTELDRYADQLIHNRPIGEVLQEINQ PGPT0013485_2538 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410 NA NA AK015_03601 1056 hypothetical protein ATGAAGAAAATATTACAAATAGCCAGTGCATTTATTGGTATCATTGTGGGGGCTGGATTTGCCTCTGGGCAAGAGATATTACAATACTTTACTAGCTTCGGTTACATTGGAACAATTGGTGTTATTGTTTCAACGGCTTTATTTACTTATTTAGGTATGATATTAACTCGTTTAGGGAGCCAAACACAAACCACCTCTCATCGGGATGTTATCTATTTTATTAGCGGTCGACATTTAGGTGTGATCGTCGATTATATTATTGTGTTAACATTATTCGGCGTCGGTGTTGTTATGATCGCTGGTGCTGGCTCCATTTTCAACCAACAATTTGGACTACCTGCATTTGTTGGGATTACAACCATGACTATAATCGTTATGCTTACTGTCATGCTCGATATTCATCGCGTTGTGCAAATTATTGCTAGTATTGCTCCATTCCTCATCTTCATGGTAATGCTTATTTCTATTTATAGCTTATTAACCATGAACCAGTCCTTCGCAAAAATGGAGCCTATTGCTTTAGAACAAACTTCAGCTGTATCAAATTGGTTGCTTTCTGCTGTCAATTACGTTTCCTATAACATTGCTTTAGGTGCATCTATGGCGCTAGTGATGGGAGGAGCTGAACCTAATAGAAGCAAAGCCACTATTGGCGGTTTGTTAGGTGGTTTAGGTATTGGAATATTAATACTGTTTAACCACTTAGCTATCTTTTCCAATATGGAGCTTGTAGCTAATTATGAAATGCCCATTTTAAAAATTGCGGACGAGATGTCTCCTATTTTAGGAATGGTGTACTCTGTAATTCTGTTTGGGATGATTTTTAACACGGCAGTTAGTATGTTCTTTTCTTTTAGCGCGCGATTTAAACCAAGTGGAACACCAGCCTTTCGTCGCTTTAGTATCGTCACTATTTTGCTTGCATTTGCACTTAGCTTTGTAGGTTTTACCAAATTAGTATCGTTTTTCTATCCTTTTATTGGATATATGGGTTTATTTTTAATTGTTGTACTGATTATTGCACCATTTCGATTACGATCGCATGCTAAAAAGTAG MKKILQIASAFIGIIVGAGFASGQEILQYFTSFGYIGTIGVIVSTALFTYLGMILTRLGSQTQTTSHRDVIYFISGRHLGVIVDYIIVLTLFGVGVVMIAGAGSIFNQQFGLPAFVGITTMTIIVMLTVMLDIHRVVQIIASIAPFLIFMVMLISIYSLLTMNQSFAKMEPIALEQTSAVSNWLLSAVNYVSYNIALGASMALVMGGAEPNRSKATIGGLLGGLGIGILILFNHLAIFSNMELVANYEMPILKIADEMSPILGMVYSVILFGMIFNTAVSMFFSFSARFKPSGTPAFRRFSIVTILLAFALSFVGFTKLVSFFYPFIGYMGLFLIVVLIIAPFRLRSHAKK NA NA NA NA NA AK015_03602 1251 hypothetical protein GTGATCATTGCGATCATTGCTTTATTATTCGTATCATTTTTCTTCTCTGGTAGTGAGACAGCTTTAACTGCCACAAATAAAATGAAATTACAAACAAAAGCAAGTCATGATGATAAACGGGCAGATAAATTGCTTCAATTAGTTTCAAAGCCCGAGCAATTTATTACGTCAATATTAATTGGGAATAATATCGCAAATATTCTTTTGCCTACATTGGTAACCATAGTCGCAATGGAATACGGAGTAAATGTCGGGCTAGCATCCGCTATATTGACTATTACGATCATCATCTTTGCAGAGGTAATACCAAAATCTGTGGCAGCTGCGTTTCCTGATCGGATCGCCTACATTGTTTATCCCGTAATTCGAGCTGTTGTTTTCATTTTTCGACCGTTAACGATGTTGTTAAATGCAATCACAGGCTTCATTATTAAATATTTATCAAAAGGTCAAGAATCTGATGCATCGGTATCTCGAGATGAAATCAGAGCAATGGTTGATATTGCGCGTACAGAAGGGATATTCAAGCAGGATGAATCACATCGGATTAAAGGTGTGCTTGAGTTTAGTAATTTAAATGTAAAGGACGCCTTAAAAACGCCAAGAGTTGATATTGTAGCACTACCTAGCGATTCGGATTTTGAGGAAGTACGTAACATAGCAATTCAAAACCCTTTTACACGATATCCTATTTATGAAGAGGATATGGATACGATAATAGGTGTCTTTCATTCAAAATATTTGTTGTCATGGTCAATGGAACCAGATAAAGCACTCGAATCTTTTAGTGATATGAATCCATTGATCGTGTTTGAATTCCACTCTGTAGATTGGGTTTTTCGCAAAATGATTCAAGAAAAAAAGCATATGGCAATTGTGTTAGATGAATATGGTGGTACAGAAGGTATTATTACACATGAAGATATTATTGAACTTTTAATTGGATTAGAAATAGAGGATGAAACCGACCGAGGTAATGAACCACTTGTAGAAAAAGTGACAGATACGGAAATTATTTGTAATGGCAAAATTTCCTTGCATCGACTAAATACTATTTTTCACATAAACATTATAGATGACGAGGATGTCTTGGCTGGTTACTTGTTAAAAAAAATGCATCGTTTTCCTCATGAAGGAGAAGAATTTCAAGATGACCAATTAACGTATCGCATCTTAGAAGTTGACGAACGTATGATTAAACGGGTACAAATATTGAAAAACGCGAAAATAGATGAAGAAAGTCAAACATAA MIIAIIALLFVSFFFSGSETALTATNKMKLQTKASHDDKRADKLLQLVSKPEQFITSILIGNNIANILLPTLVTIVAMEYGVNVGLASAILTITIIIFAEVIPKSVAAAFPDRIAYIVYPVIRAVVFIFRPLTMLLNAITGFIIKYLSKGQESDASVSRDEIRAMVDIARTEGIFKQDESHRIKGVLEFSNLNVKDALKTPRVDIVALPSDSDFEEVRNIAIQNPFTRYPIYEEDMDTIIGVFHSKYLLSWSMEPDKALESFSDMNPLIVFEFHSVDWVFRKMIQEKKHMAIVLDEYGGTEGIITHEDIIELLIGLEIEDETDRGNEPLVEKVTDTEIICNGKISLHRLNTIFHINIIDDEDVLAGYLLKKMHRFPHEGEEFQDDQLTYRILEVDERMIKRVQILKNAKIDEESQT NA NA NA NA NA AK015_03603 261 ricR COG1937 Copper-sensing transcriptional repressor RicR GTGGAATACGATACAAAAGTTATTAATCGAATGAAACGAATAGAGGGACAAATCAGAGGATTGCAACGAATGATGGAGCAAAACAAGGATTGTCGTGAGGTTGTTGCACAAATGTCAGCAGCTAGAAATGCTATCGATCGCACAGCGGCATTAATTGTTAGCCAAAATTTAGAGCGTTGTATCCGTGAAGAACAAGAAAAAGGTGGCAACACCGACGAATTAATTCAGGAAGCAGTGCAGTTACTTGTGAAAAGTAGATAA MEYDTKVINRMKRIEGQIRGLQRMMEQNKDCREVVAQMSAARNAIDRTAALIVSQNLERCIREEQEKGGNTDELIQEAVQLLVKSR PGPT0004175_702 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600 NA NA AK015_03604 351 aseR COG0640 HTH-type transcriptional repressor AseR ATGAAGTTGGATAAACCAATCTGGGATCTAGAGCGTGCCTCGGTGGTGTTTAAATTGTTAGCAGATCGCACAAGGTTGACGATAATGAAAATTTTAGAGTACCAAGAGTGTTGTGTGTGTGAACTTGTAGAAATATTTCAAGTAAGTCAGCCTTCAATTAGTCAACATTTACGCAAGTTAAGAGATGCTGGTTTAGTACAAGAAGAAAAAAGAGGGCAGTGGACGTATTATGCTTTGAATGAAGAAAGTAACGATTTTCCTATGGTACAGACTATTTTGAAACAACTCCCTGATCAAGGAACGAAACTGAAAGCAGTGCAACAAAAAGGGGATTTGCACTGTTCGTCATAG MKLDKPIWDLERASVVFKLLADRTRLTIMKILEYQECCVCELVEIFQVSQPSISQHLRKLRDAGLVQEEKRGQWTYYALNEESNDFPMVQTILKQLPDQGTKLKAVQQKGDLHCSS PGPT0004735_2023 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK015_03605 1299 arsB COG1055 Arsenical pump membrane protein TTGTCATCATCGATTTTACTAGCATTGAGTCTATTTATCGTTACTTTAGTATTTGTCATTTGGCAGCCTAAAGGGCTGTCTATAGGTTGGTCTGCATGTGGCGGAGCGGTATTAGCCTTAGTCTTAGGAGTAGTAGATCTACAAGATGTACTTGAAGTAACGAATATTGTTTGGAATGCAACGTTTGCCTTTATTGCAATTATTCTAATCTCTCTTGTTCTAGATGAAATTGGGCTATTTGAATGGGCCTCCTTACATATGGCTAAAATGGCTAAGGGGAATGGCGTAAAAATGTTTGTCTACGTTAGCATTTTAGGATCTATTGTTGCGGCATTATTTGCTAATGACGGTGCTGCTTTGATACTAACACCGATTGTATTAGCGATGGTACGTCACTTGCATTTTCAAGAAAAAATGATTTTTCCATTTGTTATAGCGAGTGGATTTATTGCAGATACGACATCATTGCCATTTGTCGTTAGTAATTTAGTCAACATTGTATCTGCTGACTTTTTTGATATTGGTTTTGTAGCGTATGCGTTTAGGATGTGGTTACCAAATCTCGTTTCACTTATTGCAACTATCAGCATACTATTTGTTTATTTTCGAAAAAGTATTCCTCGTACTTATTCGCTTGATCAACTGAAGCAACCAAAAGAGGCAATTCAAGACAAGAGATTGTTTCGCCTATCTTGGTATGTGCTGACAGTACTATTAATTGGTTATTTCGCAAGCGAGTTTATTGGCATTCCTGTTTCTATTGTAGCTGGGGCAATTGCTATCATTTTTCTTATATTGGCTCGTAAAAGTAAAGCGATTCATACAGCAGCCATCGTAAAGAGTGCACCATGGAATATCGTATTTTTTTCTATTGGGATGTACGTTGTTGTATATGGCCTGCGAAATGCCGGGCTCACCGATCTGTTAGCAAAAGTGATACAAGTAAGTGCAGATCAAGGGTTATTTGTAGCAACAATGACGATGGGGGGAATAGCGGCCGTCTTATCGTCCATCATGAATAATATGCCGACAGTCATGATTGATGCGCTTGCCATAGCGGAGACGAATACATCTGGTGTGATTCGTGAAGCTTTAGTCTACGCTAATGTTATTGGTTCTGATCTGGGTCCAAAGATTACCCCAATTGGTTCTTTAGCAACATTGTTATGGCTTCATGTGTTGGCACAAAAAGGGATAAAAATTTCATGGGGTACGTATTTAAAGACGGGAATCGTATTAACCATTACTATCCTACTCATAACATTAACAGGACTTTATGTAAGTCTATTACTATGGTAA MSSSILLALSLFIVTLVFVIWQPKGLSIGWSACGGAVLALVLGVVDLQDVLEVTNIVWNATFAFIAIILISLVLDEIGLFEWASLHMAKMAKGNGVKMFVYVSILGSIVAALFANDGAALILTPIVLAMVRHLHFQEKMIFPFVIASGFIADTTSLPFVVSNLVNIVSADFFDIGFVAYAFRMWLPNLVSLIATISILFVYFRKSIPRTYSLDQLKQPKEAIQDKRLFRLSWYVLTVLLIGYFASEFIGIPVSIVAGAIAIIFLILARKSKAIHTAAIVKSAPWNIVFFSIGMYVVVYGLRNAGLTDLLAKVIQVSADQGLFVATMTMGGIAAVLSSIMNNMPTVMIDALAIAETNTSGVIREALVYANVIGSDLGPKITPIGSLATLLWLHVLAQKGIKISWGTYLKTGIVLTITILLITLTGLYVSLLLW PGPT0004710_319 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893 NA NA AK015_03606 429 arsC_2 COG0394 Arsenate reductase ATGAAGAAAAAATTGGTATATTTTTTATGTACAGGAAACAGTTGCAGAAGCCAAATGGCGGAAGGATGGGCGAAATATTACCTTGATGAGAAAGAATGGGAAGTAAAAAGTGCTGGAATTGAGGCACATGGGCTAAATCCGAAAGCTGTAAAAGCAATGCAAGAAGTAGGGATTGATATTTCTTCCCAAACTTCAGATGTTATTGATTTAGATCTCATTCATCGTGCCTATTTTGTTGTCACGCTATGCGGCGATGCCAAAGATAATTGCCCAACAATACCGCCACATGTGACACATGCGCATTGGGGATTTGATGACCCAGCAAAGGCAGAAGGAAGCGAAACAGAGAAAGGCTTCGTTTTCCAACGAGTGCGAGATGAAATAGGCGCCCGTATCAAACAATTTGCGAAAATAGAAGCAAACGATTAG MKKKLVYFLCTGNSCRSQMAEGWAKYYLDEKEWEVKSAGIEAHGLNPKAVKAMQEVGIDISSQTSDVIDLDLIHRAYFVVTLCGDAKDNCPTIPPHVTHAHWGFDDPAKAEGSETEKGFVFQRVRDEIGARIKQFAKIEAND PGPT0004715_2051 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741 NA NA AK015_03607 1110 baeS_2 COG0642 Signal transduction histidine-protein kinase BaeS GTGGAATGGGGTATAAATTTGTCCAAAATTCATCGTAAACTCATAAACTTGGCGCCTGTCAGCTTTCTATGGCGATTAACTTTTTTACATTTCTTTGTCATCGGGGTCGCTTTATGGATTAGCGGTTGGGCTTTATATAATACGGCTTGTTTTTTAGCTGCTGGGGTAGGAAACCTCGATGAACTACGACAACAGCAATTTAACCAAACGTTGTTAAATTATGTTTGGATATTTGTTATCATCGCCATCGTTGTCGCTTCTATTTTATATTATTATTTATCTAAAAGATTACTGCAGCCTATTCATGAATTAATGGAAGCAACCCAATTGCTACAAATCGGAAAATATCCAGACCCTATTCCCGTTTACCGAAATGATGAAATCGGGCAACTTGTACAGCAATACAATCAACTCATGGAGCAACTGAACCGTAATGAAACAGATCGAAAAAAGCTTGTTTCCGACATTTCCCATGAATTTCGTACACCGTTATCTAATCTTAATGGGTATCTGTCTGCATTGAAGTCAGGTGATATAGAGGGAAATCAAGCGTTATTTGTAGCGCTTTATCAAGAATCACAACGCCTTACTTCGATGCTAGACCAATTTGATCAGTTAAAGCAATGGGACTATACGAATGCAAGCACATACAACCGAAAAGAAATGCAGGCAGTAAAACCACTTCTGGAGCAGTGTGTTTCTATGTTCCATTGGACACTAAAACAAACGGGGATCAAATTGGAACTACAAGCGGAAGTAGCAGATGTATATGTCCACGCAGAAGGAATGCAGCAAGTCATAAGTAATCTCTTAGACAATGCGATTCAATACTATAAGGGGAAAGGATCTATTCGTATTACCGGACAAAAACAAAATAACGGCTATTATATTGCTGTTTCCGGACCTAGTGAACCAATCCCAAACAAAGAAAGAGAATTGATTTTCCAACGATTTTATCGTCTTGAATCCTCCCGCAGTAGAGACACAGGCGGAGCTGGATTAGGACTTGCCATTACGAAAGAAATTATCGACCAGCATGGTGGGAGTATTCAAATAGATACAGTGAAGGATCGAAATATTTTTACGGTTAAGCTTCCAATCCATGCTTAA MEWGINLSKIHRKLINLAPVSFLWRLTFLHFFVIGVALWISGWALYNTACFLAAGVGNLDELRQQQFNQTLLNYVWIFVIIAIVVASILYYYLSKRLLQPIHELMEATQLLQIGKYPDPIPVYRNDEIGQLVQQYNQLMEQLNRNETDRKKLVSDISHEFRTPLSNLNGYLSALKSGDIEGNQALFVALYQESQRLTSMLDQFDQLKQWDYTNASTYNRKEMQAVKPLLEQCVSMFHWTLKQTGIKLELQAEVADVYVHAEGMQQVISNLLDNAIQYYKGKGSIRITGQKQNNGYYIAVSGPSEPIPNKERELIFQRFYRLESSRSRDTGGAGLGLAITKEIIDQHGGSIQIDTVKDRNIFTVKLPIHA PGPT0003985_1231 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642 NA NA AK015_03608 690 sphR COG0745 Alkaline phosphatase synthesis transcriptional regulatory protein SphR ATGAAGCAAACAATTATGATCGTTGAAGATGATAGAATGATACGTAATTTAGTGCGCATTTATTTAGAAAAAAATGGATACTGTGTTGTAGAAGCTTCAGATGGAGAGGAAGCGAAAGCTGTATTTATAAAGCACCTCCCATGCCTCATCATCCTCGATTTAATGCTTCCGAAAGTAAGTGGTGAGGAGTTTTGTGAATGGGTAAAACAACAAGAAAACGGCGAAGTTTCTATTATTATGCTTTCTGCTAAGACGAGTATTGAAGATAGAATAACAGGACTAAAAATTGGGGCAGACGACTATATGACAAAGCCATTTGATGCGAATGAACTGATAGCACATGTAGAAGCAGTATTGCGACGTACAGGGAGTTACTGCCAAAAAATAGTCTATGATGGACTTTGCATTAAGCCGCGAAAAGGAGAGGTATGGCTTCATAATAAGTCCATACAGCTAACTAATTTTGAGTTTAATCTTCTCTATCTGTTTATGCAACATCCAAATAATGTTTTATCGCGAGAGCAACTTGTTACAGAACTCTACCCTAACGCAGAGAGTACGGTATTAGACCGAACCATTGATGCACATATTAAGAAACTGCGGGAAAAAATTGAAGAAGAACCAGCGAAGCCAAAACGGATTCAAACCGTTCGTGGAATGGGGTATAAATTTGTCCAAAATTCATCGTAA MKQTIMIVEDDRMIRNLVRIYLEKNGYCVVEASDGEEAKAVFIKHLPCLIILDLMLPKVSGEEFCEWVKQQENGEVSIIMLSAKTSIEDRITGLKIGADDYMTKPFDANELIAHVEAVLRRTGSYCQKIVYDGLCIKPRKGEVWLHNKSIQLTNFEFNLLYLFMQHPNNVLSREQLVTELYPNAESTVLDRTIDAHIKKLREKIEEEPAKPKRIQTVRGMGYKFVQNSS PGPT0002665_1526 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCAN_METABOLISM CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658 NA NA AK015_03609 606 resA_3 Thiol-disulfide oxidoreductase ResA ATGAAAAAAGCAATTTTGATTATTATTATAATGGGCATGTTCTCGTGGGCGTTATACGATTTTGTATTGTCATCCAACGATACTGCAGAACAAGTAGATGCGCCCCCTGCTGGAAGTGGCAATCAAATCACGACACAAGAAAATCAAACAAGTGAAACGGAAAAAACAGGGGATTCCAGTGAAGTTGGCTTAGAGGTCGGTAATCTCGCTCCTGATTTCAATTTGTCTACAATGGACGGAGAATCGATTCAATTATCCGAATTACGCGGTGAACGTGTGATGGTGAACTTCTGGGCTACGTGGTGTCCGCCTTGTCGAGCAGAGATGCCAGATATGCAAAAATTCTATGAAAATAAGGATATAAATATTTTAGCTGTTAACTTAACAGAAACAGAAAGTGATTTAATGACGATCCAGAACTTCGTCACTGATTTTGAACTTACGTTTCCCATTTTAAAAGACGAAAATACAGAAGTTGCAAATACCTACCAAATTCAGCCTATCCCGACTACTTTTATGGTCGACAGTAATGGTATTATTCAATACAAAGCATTTGGAGCTATGAACTATGATCTAATGGTACAAGAGTTTGAAAAAATGGAGTAA MKKAILIIIIMGMFSWALYDFVLSSNDTAEQVDAPPAGSGNQITTQENQTSETEKTGDSSEVGLEVGNLAPDFNLSTMDGESIQLSELRGERVMVNFWATWCPPCRAEMPDMQKFYENKDINILAVNLTETESDLMTIQNFVTDFELTFPILKDENTEVANTYQIQPIPTTFMVDSNGIIQYKAFGAMNYDLMVQEFEKME NA NA NA NA NA AK015_03610 744 hypothetical protein ATGACAGCAGCAGCAGATTTAACAATATGGTTAGCGTTAGGAGCAGGAATGCTTTCTTTTCTTTCTCCTTGCACATTACCTATCTTTCCAGCCTATCTATCCTACATAACTGGAATGAGTGTGAAAGAATTAGAAACGAATAACAATGTAAAGATTAGAAGTAAGCTACTTATTCATGCGATTTTCTTTTTGTTTGGCGTATCTCTCATATTTATTAGTCTCGGTATTGGTGTTTCTTTCTTGGGGCAATGGATTCAAGGGCTTTTAGCTGGAGAGTCTGGAGATTTCATTCAGCGAATTGCCGGCATTTTCATTATTGTCATGGGCTTATTTGTTGGTGGCTGGTTAAAAATCACTTCCTTTATGAAAGAGAAACGATTTCGCTTTGCAAGTAAACCGGTAGGATATTTAGGTACAGTGTTTGTAGGGATGGGGTTTGCAGCAGGTTGGACGCCATGTATTGGTCCTATTTTTGCGTCCATTTTAATTGTCGCAGCAGCTAACCCGACACAGGGAGCTTGGTACACGATATTTTATGTCATCGGATTTGCACTTCCTTTTCTTATCCTTACTTTCTTTCTTGGTTCTACAAGATGGATCGTTAGATATAGTGGAATTATTATGAAAATCGGTGGAGTTATCATGATTCTCATGGGTATTCTACTATTTACAGGCTTCATGCCACGAATTTCTGCGTTTTTATTAAACCTCGTTCAAGATACTTGGTTAACCAACTTAGGATAG MTAAADLTIWLALGAGMLSFLSPCTLPIFPAYLSYITGMSVKELETNNNVKIRSKLLIHAIFFLFGVSLIFISLGIGVSFLGQWIQGLLAGESGDFIQRIAGIFIIVMGLFVGGWLKITSFMKEKRFRFASKPVGYLGTVFVGMGFAAGWTPCIGPIFASILIVAAANPTQGAWYTIFYVIGFALPFLILTFFLGSTRWIVRYSGIIMKIGGVIMILMGILLFTGFMPRISAFLLNLVQDTWLTNLG NA NA NA NA NA AK015_03611 648 hypothetical protein ATGCCATCAACTACGGTGTTAATGAGCCTTGCAGCCAATGTCATCAGCTTTTCTATTGGATTACTAGCGTACTACCTAAGTAGCAACCTGTCGAGTAAGGATAAACGAAAAAATGTAGAACACATCATTTCCTATTTAATTAATCTCATTTTATTCATTTGGGTGGCTAAAATTATTTTACAATTGCCATTATTTCTCTCTGACCCAATTGCCGTTTTAGCATATCCAAGTGATGCCCAAGCTTTTTATCTTGCATTACTTTTATTAACCATACAAATGACGTACCAAGTTAAAAAAAGTGGATTGCAGTTGCAAAACTTACTAATAAACGCCATTCCTGTCATATTGGTAGCTTCTTTTACTTACCAATTTATCGATATCGTTTGGCAAGATAATTCCTTAGCGTGGGGTAATTTTATCCTTATGTTGCTTCTTTTACTCATCTATCTATTGGTTAAAGATAGAATGCAAAGCACTATGCTTTTCCTATACTTAACCGTCATTTGGACGATTGGGAAACTTATTCTTAGCTATATACTACCATTTACTACAATTTTCAATTATATGATCCACCCACTTTTCTTTGTCATGGTTGGGTTGATTCATATCTGTATATTTTTATTTAAACGAAAGAAGGTGTCTTCATGA MPSTTVLMSLAANVISFSIGLLAYYLSSNLSSKDKRKNVEHIISYLINLILFIWVAKIILQLPLFLSDPIAVLAYPSDAQAFYLALLLLTIQMTYQVKKSGLQLQNLLINAIPVILVASFTYQFIDIVWQDNSLAWGNFILMLLLLLIYLLVKDRMQSTMLFLYLTVIWTIGKLILSYILPFTTIFNYMIHPLFFVMVGLIHICIFLFKRKKVSS NA NA NA NA NA AK015_03612 282 hypothetical protein ATGACCCTTATTGCAAAGCAAGCCTACTTTAAAATGGAAAGAGTAGTATCAAGTCTACAGCAAGAGGATATCAAGCAGGAACGGATGTTATATTTGTATACGAATAAGGTCGTTACACAAAGGCGCGAGTTTCCTATCGACAATGTGTTAGATTTTTCCTATCGTCCTGTGTCTAACCAAGGGGGAATTTTATATTTACACTCATTACAAGGTGTATACACATATACAGTGGATTCATCTCCAGAAGAATTTATTCAAATCTTTCAGGAGTATTTTAAATAA MTLIAKQAYFKMERVVSSLQQEDIKQERMLYLYTNKVVTQRREFPIDNVLDFSYRPVSNQGGILYLHSLQGVYTYTVDSSPEEFIQIFQEYFK NA NA NA NA NA AK015_03613 882 cynR_3 HTH-type transcriptional regulator CynR GTGGAGATCAAACATCTACAGTATTTTATGGAGGTAACGAAGACCGGAAGCTTCACGCAGGCTGCGAATCAACTATATATAACGCAACCTGCGATCAGTCGAATTATTAAATCGCTCGAAGAAGAGCTTGGAACGACGTTGTTCATTCGTTCTAGAAAGAAGCTTGTGCTAACGGAGGAAGGGCAGGTCGTGTATCAGCACGCGAAAAGTATAGAAGCTGAATATCAAACGTTATTATCGAATTTAGGTCAATTTAAGCAACTGAAAAAAGGACATATGCGAATTGGCCTTCCTTCGATTACAAATGGGTTTTTCTTTTCGCAATTAATTGCACCATTTCATCGCCAATACCCAGATATAACGTTTCAGTTAGAGGAAGATGGTTCAAAACGAATTGAAGAAAAAGTGCATCAAGGTGAATTGGACTTGGGGGTTGTTGTTTTGCCGGCAACTTACGGAGATTTTGCTTGCCATACTTTTATACATGAAGGGCTAAAGTTAGTTGTTCCAACGAGTCATAGGTTCGCTCGACGAAAAAGTATGACGTTACATGAACTAGAAGAAGAAGCGTTTATTATGTTTAATAAAGACTTTGCCCTACGTGACAGTATCGTAAAGGCTTGCCAAGAAGCAGGGTTTAAGCCAAAAATTATATTAGAAACATCGCAGCTGGATTTTATCGAGGAAATGGTAGCTTCGAATATCGGCGTTGCTATACTACCAGATAGCACATGTCAGGAGCTGACGAGAGAAGTCACTTCTGTACCAGTAACGAACCCTGCAATGGAATGGAAGCTAGCTTTAATTTGGAGGCGAGATTCTAATTTGTCTTATGTTATAAAGGAATTTATCCATTTTGCTGAAGAAAAATTGCACTATTAA MEIKHLQYFMEVTKTGSFTQAANQLYITQPAISRIIKSLEEELGTTLFIRSRKKLVLTEEGQVVYQHAKSIEAEYQTLLSNLGQFKQLKKGHMRIGLPSITNGFFFSQLIAPFHRQYPDITFQLEEDGSKRIEEKVHQGELDLGVVVLPATYGDFACHTFIHEGLKLVVPTSHRFARRKSMTLHELEEEAFIMFNKDFALRDSIVKACQEAGFKPKIILETSQLDFIEEMVASNIGVAILPDSTCQELTREVTSVPVTNPAMEWKLALIWRRDSNLSYVIKEFIHFAEEKLHY NA NA NA NA NA AK015_03614 519 hypothetical protein ATGCATGCGAAAAGAAGCAAGGATACACGGATCATTCAAAATGACCAAGTGTTAATTAATGACTTAAACAATTATCACACGTTGTTTGGCGGAGTGTTAATGAAGAAATTAGATGCATGTGCCACCTTGTCAGCAAGGAGACATGCAAGAGTCAAAGAATGTGTGACAGCATCTACGGACTCTGTTAATTTTAACTCGCCTATTCGTCAAAGCGATTCTGTCTGTATAGAATCCTTTGTAGCCTATACAGGAAAAAGCTCCATGGAAATCTTCTGTAAAGTCATTGCTGAAGATATGATTACTGCTGAACGTCGAATAGCGGCTACAGCGTTTTTAACGTTTGTTGCTTTAGATGAAAATAAAAAGCCGATCGAAGTTCCAAAAGTAATTCCAGAAACAGAAGAGGAAAAGTTTCTTTATGAGACTGGTGAAGAAAGAGCCAAAATTCGTCGATTAAAACGACAACAAAATAAGGATTTAGTTGCTAAACTTTCTATTAAAAAACCTTGGGATGAATAA MHAKRSKDTRIIQNDQVLINDLNNYHTLFGGVLMKKLDACATLSARRHARVKECVTASTDSVNFNSPIRQSDSVCIESFVAYTGKSSMEIFCKVIAEDMITAERRIAATAFLTFVALDENKKPIEVPKVIPETEEEKFLYETGEERAKIRRLKRQQNKDLVAKLSIKKPWDE NA NA NA NA NA AK015_03615 369 hypothetical protein ATGATTATTACTTCTAGCTATGAGGAATTATTAGATGCGAAACGTGCAATCGCGTCATTTAGAGCAACTAAACCAGAAGAGTATAAGCAATTCAAACGAATCATTCAATTTACGAGACAGCTACAGTTTAATTTTCAATATATGGGTTGTCTCATCATGGACGAGGATCCAAGTAAGTATCGACCACAAGTTAATGATGATTATATATTAAATGTGTATAAACGGGAGATTAACAAATTAAAAGAAGACCCGAAATCACAAGATATTAAGGCACTCTTAGGCGCTTATAAACAAATCGGTTATGGAAAGATATGTGAATTAATTTTAGGTAAACAACCCATTTCTTTAGTCGGCCCAGCCGTTGTATAG MIITSSYEELLDAKRAIASFRATKPEEYKQFKRIIQFTRQLQFNFQYMGCLIMDEDPSKYRPQVNDDYILNVYKREINKLKEDPKSQDIKALLGAYKQIGYGKICELILGKQPISLVGPAVV NA NA NA NA NA AK015_03616 1356 gltS_2 Sodium/glutamate symporter TTGGAAAATTTCACAATTTGGTCTTTCATGATTGATCTTAGCATTATTTCTGGATTACTTTTGGTCGGAACGATTTTACGAGCAAAAGTAAAATGGATTCAAGCTTTATTTCTACCTGCTAGTATGATTGCAGGATTTCTCGGACTTGCATTTGGTCCAAGTGGCTTTGGTATATTACCTTTCTCCAATCAATTTAGCGCTTATCCTGGGTTACTCATTGCTGTCATTTTTGCTGCTATCCCAATTGGTGCAGCAAAAGTACACTTATCTGAAGTGTTTCACCGCGTTCGCAATATGTTCTCTTATTCCATGATCCTTACCCTATCCATGTGGGGGATTGGTGTTCTTTTTGCATTGCTTATTTTAAATCCCATCTTTTCAGACTTACCTAGCGGGTTCGGTCTCGTCTTAGGTGCAGGGTTTTTAGGTGGACATGGTACAGCAGCAGCAATTGGCGAAGGATTAGCTCATGCTGGCTGGAAAGAAGCAATGGATTTAGCGATGACCTCTGCAACCGTAGGCATTCTCATTGCAGTATTAGGTGGACTATTTCTTATTAAGCATAGTACTGAAAAAGGAAAAACGAAATTTATTACGAGCTTTAAGGACCTTCCTACTGAGTTAAAATCTGGGCTTATACCTAAATCCAAACGTTTCCATATGGGACAAGAAACTGTGTCATCCAGTTCTATCGACCCCCTTGTACTACACTTGGCGATTATCGCCTTTGTCATTGGTGTATCCTATTGGATTACAAATGTTCTGTCAGATTTAATACCATCTGTTTCCGTGCCACTATTCAGTGTTGCCTTTGTTCTGGGTTTATTGTTTCAAGCAATTAGCCGGAGAGTAAAATCAGATGAATATATTGACCAACGTGTAATGGAGCGAATTGGCGGAACAGCTACAGATTTTCTCGTTGCTTTCGGTATTGCATCAATTAACATCACTGTCGTTATCGACTACGCTTTACCGCTACTTTTCTTATTCGCCTTCGGAACAATTTGGGCATATGTATTATTCCATTTTGTTGGCCCCAATATATTTAAAGATTTTTGGTTAGAAAAATCTATTTTTGGTTGGGGATGGAGTACTGGCACTGTCGCTATGGGACTAGCTCTATTACGTATTGTCGACCCTGAACTTAAGAGTCGTACTCCAGAAGATTATGCTCTTGCTTATATTGGTGTCGCCCCTGTTGATATTATCATCGTAACCTTTGCTCCAATCTTATTTGGACTCGGATTTACTTGGGTTATCCCTCTTGTACTCCTACTTGGAGCTGCAGTAATTATTGCCATTTACAAGTATGCAGGCTGGTGGGGACAAAGTAAACATGAAAACACGCCTAGCTAA MENFTIWSFMIDLSIISGLLLVGTILRAKVKWIQALFLPASMIAGFLGLAFGPSGFGILPFSNQFSAYPGLLIAVIFAAIPIGAAKVHLSEVFHRVRNMFSYSMILTLSMWGIGVLFALLILNPIFSDLPSGFGLVLGAGFLGGHGTAAAIGEGLAHAGWKEAMDLAMTSATVGILIAVLGGLFLIKHSTEKGKTKFITSFKDLPTELKSGLIPKSKRFHMGQETVSSSSIDPLVLHLAIIAFVIGVSYWITNVLSDLIPSVSVPLFSVAFVLGLLFQAISRRVKSDEYIDQRVMERIGGTATDFLVAFGIASINITVVIDYALPLLFLFAFGTIWAYVLFHFVGPNIFKDFWLEKSIFGWGWSTGTVAMGLALLRIVDPELKSRTPEDYALAYIGVAPVDIIIVTFAPILFGLGFTWVIPLVLLLGAAVIIAIYKYAGWWGQSKHENTPS PGPT0000810_225 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_TRANSPORT PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000810-gltS-K03312 NA NA AK015_03617 1350 lpxD_2 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase ATGAAAGTGATACTGCTATGTAGCGATTATGAGGAAAAACTATTCCCTTACGATAAATGGCAACCCGCTTGTTTAGAAGTTTTAAATGTTTCTAATATTATTCATCAGGTTGATTTTTTTATAAAAAATGGCATAAACCCCAAGGATATACATGTATTTTTAGGACATCAACCAAAGCAAGTCACCCATCTATTATGGAAATATTCGGGTATTCAGCTACATGGTAATTTTAACGATTCTCGAAGCTTCTTAGCTGGAATCTATCCAAGCTTAGATGAAAAAACGGTCATTGTAAAATCAGACTATGTCTTTGTTAACGAAGATCTCAAGAAAATACTACATCATAATGCCGAAGATTCCGTATTATTAACAGAGAAGAAAGAAAGCACAGAAGCCATCTGCGCCAACGTAGAAAATGATGACATTCAATATTTCTTAGGACATCCTAGGGATCATTATGTTACACATCAAGTAGCAGGGGTGTATTGTTTAAGTAAAGCGGCATTACAATATATCATTCATAGTTCAGATGGCTTCGAAAAAAGAATTTCTGGTTCCATGATTCCAGATTCGTTTTTCATTGAAAACGGATTGAATCAGTATTTGGATGATGGATCACAAATAAAATGTAAGCTGGCCGAAAATGAAGTTTTTCAACTGAGGTTTCCTTGGGACATTTTAAATGCTAATGTGTATCATTTGGATTTGCTGGTTAAGCAAATGACAGAAAATGATATTAGCCCAAGTGCAAAAATAGATAAAACAGCTTCTATTCATGGCGTTATAAAAATGGGCGAGCACTCGTATGTAGGGAAAAATGTGGTCGTAAATGGGAACCTCATCGTAGGCGATCATGTGGTCATTGATAATGGAGCCATTTTAAATGGAAACATACTCATTGGCGACCATTCTTATGTAAAGGACTACGCAAAAATGGAAGGACCAACTGTCATCGGCAAAGAGAATAAATTTGGACATAATGCAGAATTTAAAGGGGTTTCTATGAAAGGCGTTTCTGCTGTTCATTATAGCGAGATGTTTGGTGTCATCGGACGATATGTCGACATTGCAGCAGCGTGCGTAGCTGGGATTTTAAGATTTAATGATACAAAACAGCCGCACAACATGACAGGTCGGATTTACACGCCGGAGCATTCAAATGCGATTTTTATAGGAGATTATACTCGCACAGGTATTAATAACGTTTTCTTTCCAGGTGTCAAAGTTGGCAGTAATTCCGCTTTATATCCTGGGCTTAATGTAGAAAAAGACGTCGCCCATGAAACCTTAGTCATAAAGAAACAAGAAATCATTGAAAATAGATGGGATGCAAAGAGATACGGCTGGTAG MKVILLCSDYEEKLFPYDKWQPACLEVLNVSNIIHQVDFFIKNGINPKDIHVFLGHQPKQVTHLLWKYSGIQLHGNFNDSRSFLAGIYPSLDEKTVIVKSDYVFVNEDLKKILHHNAEDSVLLTEKKESTEAICANVENDDIQYFLGHPRDHYVTHQVAGVYCLSKAALQYIIHSSDGFEKRISGSMIPDSFFIENGLNQYLDDGSQIKCKLAENEVFQLRFPWDILNANVYHLDLLVKQMTENDISPSAKIDKTASIHGVIKMGEHSYVGKNVVVNGNLIVGDHVVIDNGAILNGNILIGDHSYVKDYAKMEGPTVIGKENKFGHNAEFKGVSMKGVSAVHYSEMFGVIGRYVDIAAACVAGILRFNDTKQPHNMTGRIYTPEHSNAIFIGDYTRTGINNVFFPGVKVGSNSALYPGLNVEKDVAHETLVIKKQEIIENRWDAKRYGW NA NA NA NA NA AK015_03618 711 nagR_3 COG2188 HTH-type transcriptional repressor NagR ATGAAATCGAATGTAGCGAAATACCAAATTGTAAAACAGTATATTTTAGAGCAAATTGAAAAAAGAATTTATCAGCCGCATCAATTAATTGAATCAGAATTAGAATTAGCAGAAAAGCTTAACGTCTCTAGAATAACGGTAAGAAAAGCATTGGAAGAATTAGTGAATGAAAAAGTGTTATCTAAGAAAAAAGGAGTTGGAACATTTGTAAACCCCCTTCCTAAATATTTAGGTTTTAAGCCAGGAATAGGCTTTACTTCTGAAGCAAAAAACAGAGGGCTAACTCCTTCAACTAACTTGTTGCGGCTTGCTAAAGTAGCTGCGGAGGAAGATCAAGCTATAGATATGCAAATGCATGTAGGTGATCCGTTGTGGCTTGTCGAACGAATTCGCTATGCGAATAATGTAGCAGTGTCTTACGAGTTAGAGTATTTTGATTACCACTTAGTCGGAGAATTAACCGAAGACATTTGTAAGCAATCCATTTATGAACATTTAAAAGAAAAAGGAATCGAATACGAATATGTCGATCAAAGGATTTCAGCTCTATTAGCTGATAAAGCCTCTGCGCAGCATTTAAACGTTCCGATTGGCTCACCGCTTATTGACATAAAAAACATTGCCTATTTAAAAAATGGAAAGCCTTTTAATCTCGGCTTCGCATTGTACCAAACAAATTCATTCCATCTCATGCATACCGTGTATCGCTAG MKSNVAKYQIVKQYILEQIEKRIYQPHQLIESELELAEKLNVSRITVRKALEELVNEKVLSKKKGVGTFVNPLPKYLGFKPGIGFTSEAKNRGLTPSTNLLRLAKVAAEEDQAIDMQMHVGDPLWLVERIRYANNVAVSYELEYFDYHLVGELTEDICKQSIYEHLKEKGIEYEYVDQRISALLADKASAQHLNVPIGSPLIDIKNIAYLKNGKPFNLGFALYQTNSFHLMHTVYR NA NA NA NA NA AK015_03619 741 hypothetical protein ATGCAGACAAAAGAAGAAATTGTTCGCTATCTAAATTATTTAACAGACACTTGGAAATCTGTAGAAGAAAATGAGATTGACGCTATAGAAAAAGCAGCCGACCTGATCTTCCAAAGCTGTAAACAAGGTGCTCGATTTTATGTATTTGGTTCAGGTCATTCCCATATGGTAGCTGAAGAAATATATATTCGAGCTGGTGGATTAGCATATGTAAAAGGTATGTTGCCTCCAGAACTTATGTTACATGAGATGCCAAATAAAAGTACGTATTTAGAAAGACTGGATGGATATGCAAAAAGTATGTTGAACTTATACAAGGTGGATGGCAAAGATACGTTAATGGTCGTCTCAAATTCTGGCAGAAATAATGTTCCTGTAGAAATGTGTTTAGAAGCAAAAAAACTAGGTGCCAGTGTAGTTGCTCTAACATCCATGGATCATTCCACCAATGTATCCTCCAGACATGCTTCAAATAAAAAAATGTACGACATTGCAGATGTAACCATCGATAATCACGCTCCTAAAGGGGATGCAGCGTACATGATGGAAGATGTTCATACGGGGTTAGGACCAACATCTGATTTTACAAGTATCGGGATTGCCCAAGCAATCATTATAGGCGTTATTTACAAGTTAAAAGAAGCTGGTTTAGAAGTACCTGTTTTTAAAAGCTCAAACGTAGATGGCGCTGATAAATACAATGAAAAAATCTTTGATACCTACTATGGATATTGGAAATAG MQTKEEIVRYLNYLTDTWKSVEENEIDAIEKAADLIFQSCKQGARFYVFGSGHSHMVAEEIYIRAGGLAYVKGMLPPELMLHEMPNKSTYLERLDGYAKSMLNLYKVDGKDTLMVVSNSGRNNVPVEMCLEAKKLGASVVALTSMDHSTNVSSRHASNKKMYDIADVTIDNHAPKGDAAYMMEDVHTGLGPTSDFTSIGIAQAIIIGVIYKLKEAGLEVPVFKSSNVDGADKYNEKIFDTYYGYWK NA NA NA NA NA AK015_03620 771 spo0M COG4326 Sporulation-control protein spo0M ATGTTTAAAAAATTGTTTCATTCTATTGGTATTGGTTCTGCACAAGTTGATGCTAAAATAGACACTGAGGACTTTAAACCTGGGGAAACGGTGGAAGGTGTCTTAGACATAGAAGGAGGCAATTCGGAACAGCGAATTGACCAAGTTTATGTAACCGTTGCAACAAATTATACGTCAGAAATAGGGGATAATGAAGATGATAATGTGCGGCATGTACTGGGACGCTTTAAGCTTACAGACGAATTTGTTATTCAAGAAGGCGAAAAGAAGTCGATCCCTTTTAGCTTCCAACTACCTGTACGTACACCAGCAACTTTAGGAAAAACAAGGGTTTGGTTGGAAACAGGCATGGATATTAAAAAAGCGCTTGATCCAAGAGATAAAGACCACATCCACGTTGATCCACACCCATTAGTTGACGCTTTCCTTGATGCCGCAGACAGCTTCGGATTGGAATTAAAAGAAGTAGAATGTGAGTTCACCCCCATCTCCTTTGGATTAAGAAAGGAGTTTCCGATAGTTCAAGAATTTGAATTTAAGCCAGAGGAGGGCAAATATAAACGGAAACTTGATGAATTAGAAGCTCTATTTTTTGTCTATGAATCAGAGGTTGTAGCCGTTATAGAAGTCGATCGGAAAATGAGAAACGAAGATCATCCGCTCGCAGAAATTTTTGATTTAGATGAAAGCAACGTTGTACTACGCTATGGATTTGATGATGTGGATGATTTGCCAGAGAAGCTAGAGGCTCTTATTGAGAAAAATCTCTAG MFKKLFHSIGIGSAQVDAKIDTEDFKPGETVEGVLDIEGGNSEQRIDQVYVTVATNYTSEIGDNEDDNVRHVLGRFKLTDEFVIQEGEKKSIPFSFQLPVRTPATLGKTRVWLETGMDIKKALDPRDKDHIHVDPHPLVDAFLDAADSFGLELKEVECEFTPISFGLRKEFPIVQEFEFKPEEGKYKRKLDELEALFFVYESEVVAVIEVDRKMRNEDHPLAEIFDLDESNVVLRYGFDDVDDLPEKLEALIEKNL PGPT0024630_482 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_0_SPORULATION,PGPT0024630-spo0M-K06377 NA NA AK015_03621 1281 hypothetical protein ATGAATAAGTATAAAAAAGGCGCTTTTCAAGGTATCATTGTTTTAAACGAAAAATACTTTCCCTCTACTTGGAATTTTACTGCAAAAGTAGGGGCTACCTCGTTTACAATGAATGTGATGGATTGCTTATACAAAAATAATAGGTATGCTGGATTGATTTTATATAAAAGAGATGAGTCTTTAACCTACCCTGTACTTGAGGAAAAATACATTAAAAATCACATTGTAATTACAATGAAGTTTAATTTTAATATAGAAACGTTTTTAATAAAAAATGTTTTAGAAGCGGCAATTTCTAGAATAATGTTGATGTCATCACCATTTTCCCTTCCTATCGTATACTACCAAACGGATACACTATTAAAATATCATCCTCAACATGTACCATGCTGCGTCACACATCACGGGCCTTTTGTAGAAGATTTTATCAATCATTATTCAGCCTCAGAATCATATATAGCGTTTGAGTCCAAAGAAAAGGCTTGTCATCTAACTAGGCAACAAAAAGAAGGCTTGTTAGCTCTTAACAGAAAAGAAAATGTATTTGTTTTGCAGCATTCAGAACTTCAAAAAAACTTTATTATGAAAAAAGGGATTGACGAGAAAAACATCTTTAAGATAGTTCCCCCTATTGCTTTACCAAACGTTAAAGAGATAACTTTAATGGATAAAATCTTTAAATTTATTTCAGTCAAGAAAAATGAAATGCTAATCATATCGACTGTTGCAAGAATTGATTACTTTAAGAATTTGGAGTTTTTAATTACGTCTTTGGTAAAATCTCTAGATAGTGGTATACCTATTAAGGTTTTGATAGCTGGTGATCCAAAAGATAAAGGAGAGAGAAGAGTAGCATTAATAAATTTAATACCTGAACACTTGAAACAACATTTTCTTATCATTCAAACTTTGCCACAAAATGAATTGTACAGTTTGTTTAAATTAGTCCGTAATAAAGCAACTTTTTTGTGTACTTCTAGATATGAAACACTAGGAATAACGCCATTAGAAGCTGCTATGATGGGTGTTTATACAATTACTCCTAATTCTAGCTTAGTAGAGGCCTCGATGTATTTTTCTGATGAGGATAAATTTGATTACAGACCAAATCAATTAGAAAGTATTTTAAGAAGAATCTATAAGGAAAAACGATATGTCCGTAATTTACAAGCAGATCATCTGAAAAAAATATTTTCAGATGAAAATTTTGTGGAATCACTGCTAAGTTCATTCCAATTAATTGAACAAAGATTTACTATGAAGCAAGAACTGATCAATTAA MNKYKKGAFQGIIVLNEKYFPSTWNFTAKVGATSFTMNVMDCLYKNNRYAGLILYKRDESLTYPVLEEKYIKNHIVITMKFNFNIETFLIKNVLEAAISRIMLMSSPFSLPIVYYQTDTLLKYHPQHVPCCVTHHGPFVEDFINHYSASESYIAFESKEKACHLTRQQKEGLLALNRKENVFVLQHSELQKNFIMKKGIDEKNIFKIVPPIALPNVKEITLMDKIFKFISVKKNEMLIISTVARIDYFKNLEFLITSLVKSLDSGIPIKVLIAGDPKDKGERRVALINLIPEHLKQHFLIIQTLPQNELYSLFKLVRNKATFLCTSRYETLGITPLEAAMMGVYTITPNSSLVEASMYFSDEDKFDYRPNQLESILRRIYKEKRYVRNLQADHLKKIFSDENFVESLLSSFQLIEQRFTMKQELIN NA NA NA NA NA AK015_03622 822 sacY COG3711 Levansucrase and sucrase synthesis operon antiterminator GTGAGAATCACAAAGATACTTAATAATAATGCTGTAATAGTAACAGATGGCAATCAAGAAAAAATAGCAATTGGCGCTGGGGTCGCTTTTAATAAACAAAAGAAAGATATTGTTAATCCAGCCAAGATTGAAAAACTGTTTGTTGTTAAAGAAAATGAAAAATTACAAGAATTAATTATGCGTATACCGGAAGAACATCTACTTATCTCTGAAGAAATTATCGCTTATGCTGAACAGCAATTAGGAACAAGTCTAAATGAGCATATTGTGTTAGCTTTAACAGATCATCTTTCTTTTGCCATTGAACGTACGAGAGAGGGAATATACTTACAAAATAAACTATTGCAAGAAATAAAGATGATGTATCGTGAAGAATTTAATATTGGAATTTGGGCCATTGAACATGTAAAAGAGAAGTTGCAGATTGAGCTACCAATGGATGAAGCCGCATTTATAGCACTCCATGTCCACACAATGAAGATTAAAGGAGGTGATTTACATGAAACAGTAAAACAAACGGCAATTGTCAAAGATATGATTGATAGCATTCAACACAACTTAAATATTACCTTTAACGAAAACAGCCTCGCATTTGAACGGTTAATGACGCATTTACGTTTTGCCTTAAATCGAGTCCATCATTATGAAGCCCACTCATTAGATGAAGAGATGCTCGAGATGATTAAAAAGAAATTCAAACGCTCTTATCGTAGTGCGATGAACGTAGCAAAAAAAGTAGCCACAAACCATGGAATTGAATTACCCGAGGAAGAACTTGGCTACATTGCATTACACATCGAGCGGTTGAAAAAATTCCAATAA MRITKILNNNAVIVTDGNQEKIAIGAGVAFNKQKKDIVNPAKIEKLFVVKENEKLQELIMRIPEEHLLISEEIIAYAEQQLGTSLNEHIVLALTDHLSFAIERTREGIYLQNKLLQEIKMMYREEFNIGIWAIEHVKEKLQIELPMDEAAFIALHVHTMKIKGGDLHETVKQTAIVKDMIDSIQHNLNITFNENSLAFERLMTHLRFALNRVHHYEAHSLDEEMLEMIKKKFKRSYRSAMNVAKKVATNHGIELPEEELGYIALHIERLKKFQ PGPT0014761_1251 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 AK015_03623 489 crr PTS system glucose-specific EIIA component ATGTTTAAAAAACTGTTTAAAAAATCTAAAGAACAAATTATTTATGCCCCATTAAATGGTGATATTCTTCCACTCGAAGAAGTTCCCGATCCTGTCTTTAGTCAAAAAATGATGGGGGAAGGTATCGCTATCATGCCAAACGATGGCAAACTTGTCTCTCCAATAAATGGAAAAGTGGTACAAATTCCAGATACAAAGCACGCCATTGGCCTTGTTGGCGACGATGGTACTGAAATTTTGATCCATGTCGGTTTAGAAACTGTAGCACTGAAAGGAAAAGGATTTGATGTTAAAGTTCAAGCAGGTGATACAGTAAAACTAGGCGATCTGCTAATGGATATTGATTTAGCTTATATTAAAGAACATGCATCCAGCACAGTGACACCTATTATCATTACAAATAATACGGATGGAAGTAAACAGCTTAGCTATACAGATGAAACGAAAAGTATAGCACAAGAAACCGCTCTAATAACGGTTACTTCCTAA MFKKLFKKSKEQIIYAPLNGDILPLEEVPDPVFSQKMMGEGIAIMPNDGKLVSPINGKVVQIPDTKHAIGLVGDDGTEILIHVGLETVALKGKGFDVKVQAGDTVKLGDLLMDIDLAYIKEHASSTVTPIIITNNTDGSKQLSYTDETKSIAQETALITVTS PGPT0014090_906 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 AK015_03624 954 hypothetical protein TTGAGTAGACTTTTTAAATTAATCCAGAATGAACAAGCAAAAATATATATTCGAAAATCGACTTGGATTATGTATATCATATTATTTGGAATTATCATTGCTGGTGCTTTTTTAACCGATAAATTCTCTGATTTAAATGAGGATTACCAAGGTGACGACTGGCGTGAAGTGCTTCAAGAAGAAAACAAAGATCTGCAAAAAGAAATGGAAAAAGATGAATATGCAGCATCTATGAACCCAGAAACAATTGCCAAAAACAATTATTATTTAGAAAACGATATACAGCCCTCTCCTTATGGTGTATGGAATTTTGTGGGGGAAAATTCGGGATTAATGATGTTAGTTAGCTTATTAACTATTATTGTAGCAGGTGGCATTATCGCCAATGAATTCCGCTGGGGTTCAATTAAATTACTACTTATTCGCCCTATTAGTAGAAGCGGAATATTATTATCCAAGTATTTAGCAACACTACTATTTGGCTTATATACAACCATCTTTTTACTTATTATATCTTGGATTGTTGGGGCTATCTTCTTTGGTGTTGGAGATATGAACCCTGAAATTGTTAAACAAGCAGCAGATGGATTTACTTCTGTGTCGCTATTAGAAGAGACTTTCACGCAATATGGGTATCAATTAGTGCCACTTATCATGATGGCAACTCTAGCGTTTATGATTTCAGCTGTATTTCGTAACAGCTCTCTAGCAATCGGTATTTCCATTTTCTTAATGATGGGTGGAAATACATTTATTGGTTTCCTAGCAAAGAAAGAATGGGCCAAATACATTCTGTTCGCTAATCTCGATTTAAGTCAATTTGCGGACGGTAGGACACCTATGGTTAAAGGACTGACCTTAGAATTTTCCATTACGATGTTAGCTATTTATTACGTCGTCTTCTTAGCAATGTCCTGGATTATATTTACAAAACGCGATGTAGCTGGACAATAA MSRLFKLIQNEQAKIYIRKSTWIMYIILFGIIIAGAFLTDKFSDLNEDYQGDDWREVLQEENKDLQKEMEKDEYAASMNPETIAKNNYYLENDIQPSPYGVWNFVGENSGLMMLVSLLTIIVAGGIIANEFRWGSIKLLLIRPISRSGILLSKYLATLLFGLYTTIFLLIISWIVGAIFFGVGDMNPEIVKQAADGFTSVSLLEETFTQYGYQLVPLIMMATLAFMISAVFRNSSLAIGISIFLMMGGNTFIGFLAKKEWAKYILFANLDLSQFADGRTPMVKGLTLEFSITMLAIYYVVFLAMSWIIFTKRDVAGQ PGPT0006730_9057 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_03625 915 bcrA_3 Bacitracin transport ATP-binding protein BcrA ATGACTGTAGCAGCAATGGAGTTAGTCAATCTGAAAAAATCAATTGGCAACAAAGACATCATTAAGGGCCTATCCTTTTCAATAAATCGAGGTGAAGTATTTGGATTTATTGGACCAAACGGAGCTGGAAAAACAACGACCATTCGCATGATGGTTGGGTTGATTAATATATCTGAAGGCGATGTACTCATTCAAGGACATAGTATAAAAAAAGATTTTAAACAGGCTGTACGTGAAGTCGGTGCCATTGTTGAAAATCCGGAAATGTATCCATTTATGACAGGGTGGCAAAATTTAAAACATTATGCGCGTATGATGCCAGGTGTAACGGAAGAGCGTATGCTTGAAGTAGTTAAGTTAATGGGTATGGAAAAAGCAATCAAAGAAAAGGTTGGTAGATATTCTTTAGGAATGCGCCAACGTCTTGGAATCGCGCAAGCTCTCTTACACAAGCCGTCTATTTTAATTTTAGATGAACCGACAAATGGCTTAGACCCTGCTGGAATTAGAGAAATGCGCGCGCATATTCGCCATCTTGCCCAAGAAGAAAATGTGGCTGTTATTGTATCTAGTCACCTACTTTCCGAAATTGAACAAATGTGTGACCGCATCGGTGTGATTAAAAATGGCGAAATGGTTACACTACAGCAAGTTGGCGCTCAAGATAATGAGAATCTCGTTCACCAATTAACGGTTACACCAACTACGAAGGCAAAACAATTAATCCAAGAAGAATTCGCTTTACAAGTAGTAGAACAAGATGGAATACTATCTTTTCATTGTAAAAAAGAGCAGATGCCAGCAGTTATTAAAAGCTTAGTAGAAAACAACTGCTCCATTTATGAGGCGAATGTTGTAAATGGAACCTTAGAGGACCAATTCTTTGAACTGATTGGAGAGAACACCATTGAGTAG MTVAAMELVNLKKSIGNKDIIKGLSFSINRGEVFGFIGPNGAGKTTTIRMMVGLINISEGDVLIQGHSIKKDFKQAVREVGAIVENPEMYPFMTGWQNLKHYARMMPGVTEERMLEVVKLMGMEKAIKEKVGRYSLGMRQRLGIAQALLHKPSILILDEPTNGLDPAGIREMRAHIRHLAQEENVAVIVSSHLLSEIEQMCDRIGVIKNGEMVTLQQVGAQDNENLVHQLTVTPTTKAKQLIQEEFALQVVEQDGILSFHCKKEQMPAVIKSLVENNCSIYEANVVNGTLEDQFFELIGENTIE PGPT0006725_13264 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03626 108 hypothetical protein ATGAAGAAATTGATTATGACCCCTTTTGTATTTTTTGCAGGTTTAGCAATTATGATGATTGTTTTTATCGCTAAAAAATGGACAAACGTAACAAGTAAAAAGCAATAA MKKLIMTPFVFFAGLAIMMIVFIAKKWTNVTSKKQ NA NA NA NA NA AK015_03627 954 hypothetical protein TTGAGTAGCATGTTAAAACTTATCCATAATGAACAAATAAAAATATATACAAAAAAATCAACCTGGCTTATGTATCTTATCTTAGCGGGGTTAATTTTCACATTCGCATTTAGTGTCCATTATTATGGTCCACCAAACGAAGAATACCAAGTTGACAACTGGCAACAAGTCTTGCAGGAAAAAAATCAAAACTTAGAACAGGAGATGCAAGAAGACGAATTTGCAAGAAGCAATAATCCTTATATTATTGAAAAAAACAACTATTATTTAGAGAGCAATACGCAACCACCCGCATATGATGCTTGGAAATTTACAGGGGAAAATGCAGAATTGCTCACGTTTATCAGTTTATTAGCTATTATTGTCGCTGCTGGAATTGTTGCTAACGAATTTCGTTGGGGTACCATTAAACTATTACTTATTCGTCCGATAAAGCGAAGTGGTATATTGCTCTCTAAATATATAGCTGTATTGTTATTCGCTTTATATACTGTAGTATTTCTATTTATAACCGCATGGCTCATTGGTGCTATTTTCTTTGGGGTGAACGAAATAGACACAAGGTTTGTAATAAGCGCTAAAGACGGCTTCACGTCCATTCCGGTCATCAAAGATATATTTATGAATTACAGTTTTCAACTCGTCGATCTTGTTATGATGACTACGTTAGCATTTATGATTTCGACAGTGTTTCGTAATAGCTCATTAGCAATTGGAATTGCATTGTTTTTACTCATGGGTGGGGCTTCTATTGTTCAAATGCTTGCCGATAAGGACTGGGTAAGATACATCTTGTTTGCCAACACTGATTTGAGACAATATATAGCCGGCAACTCCCCCCTTACAGAAGATATGACATTAGGATTTTCAGTTACCGTTTTAATCGTCTATTATGTTATTTTTATCGTAACTTCATGGGTCGTATTTATAAAACGCGACGTTGCAGGACAATAG MSSMLKLIHNEQIKIYTKKSTWLMYLILAGLIFTFAFSVHYYGPPNEEYQVDNWQQVLQEKNQNLEQEMQEDEFARSNNPYIIEKNNYYLESNTQPPAYDAWKFTGENAELLTFISLLAIIVAAGIVANEFRWGTIKLLLIRPIKRSGILLSKYIAVLLFALYTVVFLFITAWLIGAIFFGVNEIDTRFVISAKDGFTSIPVIKDIFMNYSFQLVDLVMMTTLAFMISTVFRNSSLAIGIALFLLMGGASIVQMLADKDWVRYILFANTDLRQYIAGNSPLTEDMTLGFSVTVLIVYYVIFIVTSWVVFIKRDVAGQ PGPT0006730_9056 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_03628 915 bcrA_4 Bacitracin transport ATP-binding protein BcrA ATGACAAGCGCAGCATTAGAATTAGTTCATTTGAAAAAAACAATCGGCAAAAAGGAAATTATTAAAGACCTTTCCTTATCGATTGAACCTGGAGAAGTATTTGGTTTCATTGGACCAAATGGCGCTGGGAAAACGACAACAATACGTATGATCGTCGGTTTAATTAGCATTACAGAAGGTGATGTACTCATTCAAGGGAAAAGTTCCAAAACAAATTTCAAAGACGCTATTAACGAAGTTGGAGCTATTGTGGAAAACCCAGAAATGTACCCATTCATGAGTGGATGGCAAAACGTAAAACATTATGCCCGTATGATGCCAAGAGTAACGAAAGAACGTATGCAAGAAGTAATTGAATTAATGGGGCTTGAAAAAGCCATTCACGAAAAAGTAGGGAAGTATTCATTAGGAATGCGCCAACGTTTAGGGATAGCTCAAGCCCTCCTACATAAACCATCCGTTTTAATACTGGATGAACCTACGAACGGTTTAGACCCTGCTGGAATTCGTGAAATGCGTGACCATATTCGTCATTTAGCTAAAGAACAAAACGTTGCTATTATTATTTCCAGTCATTTACTTTCCGAAATTGAACAAATGTGTGATCGCATTGGAATTATTAAAAATGGAGAGCTTATAACGCTTCAACAAGTTGGAGAAACAGAAAATGATAATCCGCTCCATCATTTACAAGTAACTCCTATGAACCGAGCAAAACAAATATTACATGAACATCTTCAATTAGAGGTAACAGCGTTGGATGGGCGTCTATCATTTCGTTGCCAAAAAGAATCCGTTCCAAACATCATTAGCAAGCTGGTTGAAAACCATTGCGCTATCTATGAACTTACAACAGCACATAATTCATTAGAGGATCAATTCTTTGAACTGATTGGAGAGAATACCATTGAGTAG MTSAALELVHLKKTIGKKEIIKDLSLSIEPGEVFGFIGPNGAGKTTTIRMIVGLISITEGDVLIQGKSSKTNFKDAINEVGAIVENPEMYPFMSGWQNVKHYARMMPRVTKERMQEVIELMGLEKAIHEKVGKYSLGMRQRLGIAQALLHKPSVLILDEPTNGLDPAGIREMRDHIRHLAKEQNVAIIISSHLLSEIEQMCDRIGIIKNGELITLQQVGETENDNPLHHLQVTPMNRAKQILHEHLQLEVTALDGRLSFRCQKESVPNIISKLVENHCAIYELTTAHNSLEDQFFELIGENTIE PGPT0006725_13252 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03629 549 puuR HTH-type transcriptional regulator PuuR ATGAGACAGACAACACATATAGGAAAAAGAGTAAACAAGCTGCGAAAGAGAAAAAAATTAACGTTAAAAAACATCTCTGAGGAAACAGGGCTATCGATTAGCTTCTTATCACAATTAGAGCACGGAAAAACCTCTGCTACTTTAGAGTCACTTAAAAAAATTTCAGAATCACTTGATGTAAATCCGAGCTATTTTTTCTCGGAAGAGGATGATGACTCGCGTTCTACAATCACTAGAAATACTGTAGACACAGCAAACTTGACGGAAAATAGATTTATTTATAAGAATTTATCAGGAGACATGAAAGATCCCGCGTTTATTCCAAATTTAATTATTCTCGACCCTGGTGCAAATCGTGGTAACAACTTTTCTCATAAGGGACAGGAATTTTTGTTTGTCCTAGAAGGCACCTTAACTATTGAAGTAGATAATTATGTGAATGTTTTACACCCATATGATTGTGTATTTCTTGACTCTTCTAAACCACATTATTGGTTTAATAAGACAGATAAACCCATTAAATTTTTATGCATTTCGACAAATGATTAG MRQTTHIGKRVNKLRKRKKLTLKNISEETGLSISFLSQLEHGKTSATLESLKKISESLDVNPSYFFSEEDDDSRSTITRNTVDTANLTENRFIYKNLSGDMKDPAFIPNLIILDPGANRGNNFSHKGQEFLFVLEGTLTIEVDNYVNVLHPYDCVFLDSSKPHYWFNKTDKPIKFLCISTND NA NA NA NA NA AK015_03630 525 hypothetical protein ATGCGTTTACGTGCAAGGAAAACGCAACAACAGGTCGCGGATGAATGTGATATATCCAAAAGTTTACTGTCAAAAATAGAAAACGGACAGACAGCTTCAGCAATTGCTACTTTATCTAAAATAAGTGAAGCGTTAAACGTGCCACTATCATGGCTTTTAGATGACCAAGAAGATCGTGATCTGGTATTACTCCCTTCTAGTAAACGGCAATTTAAAGTTGGGGACGACAATATGGGGTATTCCTATGAATTGTTGGCGAACCGTTCTCCATTCACAGGCGTTGAACCGACAATTGTATATGTTACGCCGAGGGATATGAATGTAAGGGAAGAGTCTTATACCCATTCTCAAGATGAATTCATCTATGTATTGGAAGGTGCGATTCATTTGCGTTATGAAGGTAGAAAACATTATATGGAACAAGGGGATAGCGCTTATTTTAAAGGGGATAAACCTCATTTATTTATTCCAGTCAATAATGAACCTGCACGTGTACTAACTATTTTTATTGATAATCAATTGTAA MRLRARKTQQQVADECDISKSLLSKIENGQTASAIATLSKISEALNVPLSWLLDDQEDRDLVLLPSSKRQFKVGDDNMGYSYELLANRSPFTGVEPTIVYVTPRDMNVREESYTHSQDEFIYVLEGAIHLRYEGRKHYMEQGDSAYFKGDKPHLFIPVNNEPARVLTIFIDNQL NA NA NA NA NA AK015_03631 1668 malL_1 COG0366 Oligo-1,6-glucosidase ATGAGAAGAATTTGGTGGAAAGAAGCAACTGCTTATCAAGTTTATCCACGTAGCTTTATGGATTCAAATGGGGATGGCATTGGCGATATACCCGGTGTCATTCAAAGGCTCGATTATTTAAAGGATTTGGGAATTGATGTCATTTGGCTAAGCCCCGTTTATCAATCACCCAATGATGATAATGGGTATGATATTAGTGATTATCAAGCAATCATGCCTGAGTTTGGAACGATGGAAGATTTTGATCAATTAGTAGCTGAAGTTCATCAGCGTGGAATGAAATTGATTATGGACTTAGTAATTAACCATACATCTGATGAGCATCCGTGGTTTATTGAATCAAAATCATCAACAGATAATCCATACCGAGATTATTATATTTGGCATGCAGGAAAAAATGGGAAAGAGCCAAATAATTGGGCTTCTATTTTTGGTGGATCTGCATGGGAATATGATAAACAAACAAAAGCCTATTATTTACATGTTTTTTCCAAAAAGCAACCTGATTTAAATTGGGAAAATCCTACTGTACGTAAAAGTTTATATGATATGGTGAACTGGTGGTTAGATAAAGGCATTGATGGCTTTCGTGTAGATGCTATTTCACATATTAAAAAAGCGCCTGGTTTTCCTGATCTGCCGAATCCAGATAATAAAAAGTATGTGCCGTCTTTTGCAGGTCACATGAACCAAGCTGGTATTCATACTTTTTTAGAAGAATTGAAAAAGGAGACCTTTTCCAACTATGATATTATGACTGTCGGTGAAGCAAATGGGGTTACCATCGATGATGCTCACTTATGGGTTGGTGAAGAGCAAGGTAAATTTAATATGGTGTTTCAATTTGAACATTTGGATTTGTGGGGGAAAAGCGTTACAGGTGGCTTAGATGTGCACGCTTTAAAACAAAAATTGACAAAATGGCAAAAGGGATTAGAGGGAAATGGATGGAATGCTTTATTTTTAGAAAATCACGATCAACCTCGCTCTGTATCGACGTGGGGTGATGATGAAGTTTACTGGGAAGAATCTGCCAAATGTCTTGCCACACTTTACTTTTTAATGCAGGGGACGCCTTTTATATACCAAGGTCAAGAAATTGGTATGACAAATGTTCAATTTGATTCTATTGACGATTATAATGATGTATCTATTAAAAATATGTATGCGGAAGAACTGGAAAATGGAAAAAGTCATGAGGAAATCATGGGAATTATTTGGAAAAATGGTCGTGATAACTCGAGAACCCCAATGCAATGGAATAATCAAGCCAACGCTGGTTTTACAACGGGGACGCCGTGGTTGAAGATAAATCCAAATTATAAACAAATTAATGTTGAACAGCAACAAACAGACGGTAACTCCATCTACCATTATTATCGTAACATGGTTCAGATAAGAAAAGAAAACGATGTATTCATCTATGGACGTTATGAGCTTATTTTGGAAGATCATGACCAAATCTATGCATATACGAGAACGTTGGATAATCAACAAATGCTTGTATTAACAAATCTATTTGCTGAGAAAACTACCTTTAAATTACCAAAAACGATTACATCTAAAGAAGGGAAACTGCTTTTATCTAATTATAAAGTTGACGCGTCTGGATCGTTGGAACAGATAACTTTAAAACCGTATGAAGCTAGAGTGTATGAATTAATTTGA MRRIWWKEATAYQVYPRSFMDSNGDGIGDIPGVIQRLDYLKDLGIDVIWLSPVYQSPNDDNGYDISDYQAIMPEFGTMEDFDQLVAEVHQRGMKLIMDLVINHTSDEHPWFIESKSSTDNPYRDYYIWHAGKNGKEPNNWASIFGGSAWEYDKQTKAYYLHVFSKKQPDLNWENPTVRKSLYDMVNWWLDKGIDGFRVDAISHIKKAPGFPDLPNPDNKKYVPSFAGHMNQAGIHTFLEELKKETFSNYDIMTVGEANGVTIDDAHLWVGEEQGKFNMVFQFEHLDLWGKSVTGGLDVHALKQKLTKWQKGLEGNGWNALFLENHDQPRSVSTWGDDEVYWEESAKCLATLYFLMQGTPFIYQGQEIGMTNVQFDSIDDYNDVSIKNMYAEELENGKSHEEIMGIIWKNGRDNSRTPMQWNNQANAGFTTGTPWLKINPNYKQINVEQQQTDGNSIYHYYRNMVQIRKENDVFIYGRYELILEDHDQIYAYTRTLDNQQMLVLTNLFAEKTTFKLPKTITSKEGKLLLSNYKVDASGSLEQITLKPYEARVYELI PGPT0018560_3868 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187 NA NA AK015_03632 789 mapP Maltose 6'-phosphate phosphatase GTGAGGCTGTTAACGTTAAATTGCCATTCTTGGCTAGAAGATTCGCAACTAGATAAGCTCTCCATTCTAGCAGAAGCAATTCATAATCAATCCTATGACGTTATTGCGTTGCAGGAAGTGAATCAAACCATTACTGCAAAAAAAGTGAGCGAGAACTTGAAAGCAGATAACTTTATTCTATTGCTACAAAATGAATTACAAGCATTAGGGTCAACGTATGAATTCATTTGGGACTATGCACATCTTGCTTATGATCGATTTGAAGAAGGAGTTGCTTTATTAACAAAGCATAAGGTAGTAAATAGACAAGCATTCTTTGTGAGTGAAAGTGAAGATACAAGCTATTGGAAGGCTCGAAAAGTGGTTGGCATGACAATAGATATAAACGGAAAAGAAGTGGACTTTTATTCCTGTCATATGGGCTGGTGGAACGATAATGCAGAGCCTTTTAAAAGGCAAATGGATCGACTAGTCCAGTCCGTCCCTAAGGATCGGCTCCATTTCTTAGTAGGTGACTTTAATAATGAAGCATCATTAGAAAATGAAGGATATGATTATGTTCAAGATTTAGGTTATTTTGACACTTATCATTTAGCTAAAGAAAGAGACTTAGGCGTTACAGTTTGTGGTGATATTGCTGGTTGGCAAGATAGTCTTACGAATAAACGGATTGATTATATTTTCTCTTCCGCAAAGGTTGAAGTCATTCGTTCGCAAGTGATTTTTAATGGAATGAATTTGCCCATTATTTCTGACCATTATGGCGTAGATGTCACCATCAATATATAA MRLLTLNCHSWLEDSQLDKLSILAEAIHNQSYDVIALQEVNQTITAKKVSENLKADNFILLLQNELQALGSTYEFIWDYAHLAYDRFEEGVALLTKHKVVNRQAFFVSESEDTSYWKARKVVGMTIDINGKEVDFYSCHMGWWNDNAEPFKRQMDRLVQSVPKDRLHFLVGDFNNEASLENEGYDYVQDLGYFDTYHLAKERDLGVTVCGDIAGWQDSLTNKRIDYIFSSAKVEVIRSQVIFNGMNLPIISDHYGVDVTINI PGPT0018615_293 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018615-mapP-K06896 NA NA AK015_03633 1635 glcB_2 COG2190 PTS system glucoside-specific EIICBA component ATGAAGAATATAATTTCATTTGATTTTTGGCAGAAGTTAGGAAAGGCTTTACTCGTTGTAGTGGCTGTTATGCCTGCAGCTGGAATCATGATTTCTTTAGGAAAAGTTTTAGGCATAACTGGGGATATTTCTTTTATCCTTGCAGCTGGACGAGTAATGGAAGATATAGGTTGGGCAATTATAAATAATTTACATATATTATTTGCAGTTGCTATTGGTGGTGCTTGGGCAAAAGAGAGAGCTGGTGGATCTTTTGCTGCACTCCTCGCCTTTATTCTAATTAACCGAATTACAGGTGCTGTTTTTGGTGTAACAAATGACATGTTTACCGATGCAAAAGCTACCGTACGTTCTTTATTTGGAAGCGACCTCATAGTAGCTAATTACTTTACAACCGTATTAGGTGCTCCAGCGTTAAATATGGGAGTATTTATTGGTATTATTTCCGGGTTTGTGGGGGCGATCATTTATAACAAATACTATAATTACAGCAAGTTACCACAAGCATTATCTTTTTTTAATGGGAAAAGATTCGTCCCGTTTGTAGTGATTCTTTGGTCTGTTATCATCGCGCTTGTGATGTCAGTCGTATGGCCTTTTATTCAAGGATTAATTAATGACTTCGGAGTGTGGTTAGCGAATTCAAAAGATGCTGCACCATTCTTAGCTCCTTTTACGATGGGAATGCTTGAACGGTTATTGCTTCCGTTTGGATTACATCATATGTTAACTGTTCCAATTAATTATACGGAATTAGGTGGCACCTATACCGTTTTAACAGGTGCGACAGCAGGTGAAATCGTAGCTGGGCAAGATCCACTATGGTTAGCTTGGGTATCTGACTTAGTAAATTTAAAAGCTAATGGTGACACAACAGCTTATCATCAATTAATGCAAGATGTAACACCAGCAAGGTTTAAAATGGGACAAATGATTTTATCCACCGCTGTGTTAATGGGAGCAGCTTTAGCAATGTATCGTAATGTGGATAAAGACAAACGTGTAACATATAAATCGATGTTCTTTTCAGCAGGTATAGCTGTATTTATTACTGGTGTAACAGAGCCACTTGAATTTATGTTTATGTTTGCGGCTCCATTACTTTACTTTGTTTATGCTATCGTAGCAGGGCTGAGCTTTGCTATTGTTGATTTGATTCATTTACGTTTACATTCGTTTGGGTTAGTTGAGTTTTTTACCAGGTTACCAATGGCTTTAAATGCAGGGCTTTTAGGAGATGTTATCAACTTTGTACTCACTTGTATGGTGTTCTTCGTGTTAAGTTACTTTCTGTTTTACTTTTTCATTAAAAAAATGAATTTAGCAACGCCAGGCCGAGCTGGTAATTATTCAGATGATGAAATGGAAAAAGGCGGAGCTGTTCAAGGAGATGAAGAGGTAGTCGCTATTGTAAACATGTTAGGTGGGAAAGAAAACATTGATGAGGTAGATGCATGTATGACCAGATTACGTGTGTCGTTGAAAGATGTAGAACAAGTAGCGCCAGAAGCAGTTTGGAAAAAAACAGGTGCTATGGGGTTAGTAGTTAGAGGGACAGGTATTCAAGCAATATATGGCCCGAAAGCAGATGTGTTGAAATCGAAAGTGATTGATTATCTGGAGGATAGACCGTGA MKNIISFDFWQKLGKALLVVVAVMPAAGIMISLGKVLGITGDISFILAAGRVMEDIGWAIINNLHILFAVAIGGAWAKERAGGSFAALLAFILINRITGAVFGVTNDMFTDAKATVRSLFGSDLIVANYFTTVLGAPALNMGVFIGIISGFVGAIIYNKYYNYSKLPQALSFFNGKRFVPFVVILWSVIIALVMSVVWPFIQGLINDFGVWLANSKDAAPFLAPFTMGMLERLLLPFGLHHMLTVPINYTELGGTYTVLTGATAGEIVAGQDPLWLAWVSDLVNLKANGDTTAYHQLMQDVTPARFKMGQMILSTAVLMGAALAMYRNVDKDKRVTYKSMFFSAGIAVFITGVTEPLEFMFMFAAPLLYFVYAIVAGLSFAIVDLIHLRLHSFGLVEFFTRLPMALNAGLLGDVINFVLTCMVFFVLSYFLFYFFIKKMNLATPGRAGNYSDDEMEKGGAVQGDEEVVAIVNMLGGKENIDEVDACMTRLRVSLKDVEQVAPEAVWKKTGAMGLVVRGTGIQAIYGPKADVLKSKVIDYLEDRP PGPT0016910_243 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE_TRANSPORT PLANT_DERIVED_MALTOSE_PTS_SYSTEM,PGPT0016910-malT-K20108 NA NA AK015_03634 246 hypothetical protein TTGAAAAACGCTAGAAATCCAAAAAATGTTCATCTACCTGTAGCTCCCTATGTGCATCAAATCGAAATTTCAAACCCAATGAGGTGGTTAACTATTTCTGAGCAATTAGGTATGGGTGTAGATGGAAATGTTCCAGAAAGTCCATTAGAGCAAATGGAATTGGCGTTTCAAAATATAGATAATAATTTAGTTGCAGCTAATATGGAAATAAAAGATATTACGAAATTAGTATTTTACCTTAGTTGA MKNARNPKNVHLPVAPYVHQIEISNPMRWLTISEQLGMGVDGNVPESPLEQMELAFQNIDNNLVAANMEIKDITKLVFYLS PGPT0020030_2148 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 AK015_03635 915 yngG COG0119 Hydroxymethylglutaryl-CoA lyase YngG GTGAATTATCCTGACTATATTTGGCTTAAAGAAGTAGGACCAAGAGATGGGCTACAAAATGAGGAAGCGTTTATTGAGACGGACGATAAGGTTAAATGGATCAATATGTTGTCTGAGTCTGGGATTGATGAGATTGAATATTCTTCATTTGTTCATCCAAAATGGATCCCACAGCTGAGGGATGCTCGAGAAGTAGGGAGAAAAATAAAACGAAATAAGAACGTCTTTTATTCCGCGCTTGTGCCAAATCTAAAAGGTTTAGAGCATGCATTAGAAGTGGGGATTGATGGAGCATCCATATTTATGTCTGTAAGTGAAACACATAATAAAAAAAATATTAATAAATCTATTTCAGAAACGTATCCAGTATTGTATGAAGTAATCAAAGAAGCAAAGCAAGCCAATAAATATGTGACTGGTTATGTGTCAACGGTTTTCGATTGTCCTTATGAAGGTAAAGTGGACCCTGAACATGTTATTCGTGTATGTAATCAGCTAATGGAAGATGGTGTAGACGCAATTTCATTAGGAGATACAATTGGAACAGCAGTCCCTTCACAAGTTGAAGCCCTCTTAGAACGGATGTTGACGGAGTTTAGCTCGGAGCAGTTAATCATGCATTTTCATGATACAAGAGGGATGGCGATAGCGAATATTTTAACATCTCTACGATATGGAATCACTCGTTTTGATAGTTCTGTAGGAGGGTTAGGTGGTTGTCCATACGCAAGAGGAGCGGCAGGAAATGTGGCAACAAATGATGTACTTTATTTGTTGCACGGTCTAGGTATAAAAACAGGCATTAAAGAAGATAAAATGCAACAAGCGGCTTTATTTATTCAAGATAAAATTGGCAAGAAATTACCAAGTAAAACAGTAGCTTCACAAGCAAACGATTATAAAAAGACAGTATAA MNYPDYIWLKEVGPRDGLQNEEAFIETDDKVKWINMLSESGIDEIEYSSFVHPKWIPQLRDAREVGRKIKRNKNVFYSALVPNLKGLEHALEVGIDGASIFMSVSETHNKKNINKSISETYPVLYEVIKEAKQANKYVTGYVSTVFDCPYEGKVDPEHVIRVCNQLMEDGVDAISLGDTIGTAVPSQVEALLERMLTEFSSEQLIMHFHDTRGMAIANILTSLRYGITRFDSSVGGLGGCPYARGAAGNVATNDVLYLLHGLGIKTGIKEDKMQQAALFIQDKIGKKLPSKTVASQANDYKKTV PGPT0008315_2264 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 AK015_03636 450 hypothetical protein GTGGTGACAGTAGTGGAATTACTTAGCCTTCAAGGATTATCACATATTGTAGGTGTTCCACCATCCATTCTGGCAACATGGATAGAACAATTTGCCATGTATGTACCTAAAGCACAGGAAGAGGATGAAAATTACTATCTTCCTGAAGCAATTGATGTTCTAAAATACATTAAACAATGTAAACAAGAGCAGTATAGTTTTACAGAGATTGAAAATTTATTACTATCTGAATTCACAAGCATAGAAAATAAATCAGCATCAACTGTTTATCAGACAGAAGACAAAGAAACGATTCGTTGTATGATGCAAACCATTGGTTTGACCGTAACGAACATGAATCAACTTACCGAATCATTTCATGCGTTAGAACACAAGTATAAAGAACAAACACGAGAATTAGAAACACTAAAAAAACAAATACAGCTACTCCATAGCAAACAAATTCAATGA MVTVVELLSLQGLSHIVGVPPSILATWIEQFAMYVPKAQEEDENYYLPEAIDVLKYIKQCKQEQYSFTEIENLLLSEFTSIENKSASTVYQTEDKETIRCMMQTIGLTVTNMNQLTESFHALEHKYKEQTRELETLKKQIQLLHSKQIQ NA NA NA NA NA AK015_03637 207 hypothetical protein ATGTTTAAACCTGATACAAAAACAGCTAAGCCAGGTGATATTATCGAATTTAAAAGAGAGGATGTACTTTTACAAGGAAAAGTACTACCTTCAAGCTGTAAGCAAAGTATCATTGTCGATATTTCAAAAGCACAGAATTTGGCTGAGTTAAACAACGGTTATTCTACTACTGTTGTAGCTCATAAAAATTACCGTGTTATTGGTTAA MFKPDTKTAKPGDIIEFKREDVLLQGKVLPSSCKQSIIVDISKAQNLAELNNGYSTTVVAHKNYRVIG NA NA NA NA NA AK015_03638 786 fadB_2 COG1024 putative enoyl-CoA hydratase ATGGAATTTAATCACGTTACAGTAACCTATGAAGAAAATATCGCTATCTTGGCCTTAGATTCACCACCAGCTAACGCCCTATCATCAACAATGATTACGGAATTACGTACCATTTTAAAACAATTTCAAGACGATTCCAATGTACATGCTATTATTTTAACTGGAGCAGGCAAATTTTTTGCTGCTGGGGCTAATATTAAAGAGTTTGTACCAGCAATGGGAGATTATCAAAAAGGAATTGATATGTCTAAAGCGGGACAGGATTTATGCAATGAATTGGAATTTATGACAAAACCGGTAATTGCAGCAATAAATGGACCAGCACTTGGCGGAGGTTTAGAAGTAGCAATGGGCTGCCACTTCCGAATTGCATCTGAAAAAGCAACAATTGGCTTACCTGAAGTAAAACTTGGACTTGTCCCATCGTTCGGCGGAACACAACGTCTTTCGCGAATTACTAGCGTAGCCACTGCGTTAGAATTAATTCTTACCGGAAAACATATAGACAGTGATAAAGCACTAGAGCTAGGTATTGTTCAAGCAAAAGTTTCTAGTGACGAGCTAATGTCAACAGCGAAGACGATTGCCCGTTCTTTTGTAGAAGGAAATAGTATGCAAAGTGTTACAAGAGCTGTTGAAAGCGTCGTTCAGGGGGCACAGAAATCTTTTTCTGATGGATTACAGAGAGAAAAGGAAATCTTTGGTGAATTATTCCTAACAGAAGATGCTAAAGAAGGCGTTCAGGCTTTTGTCGAAAAACGCAAACCCAATTTTCGCCACCAATAA MEFNHVTVTYEENIAILALDSPPANALSSTMITELRTILKQFQDDSNVHAIILTGAGKFFAAGANIKEFVPAMGDYQKGIDMSKAGQDLCNELEFMTKPVIAAINGPALGGGLEVAMGCHFRIASEKATIGLPEVKLGLVPSFGGTQRLSRITSVATALELILTGKHIDSDKALELGIVQAKVSSDELMSTAKTIARSFVEGNSMQSVTRAVESVVQGAQKSFSDGLQREKEIFGELFLTEDAKEGVQAFVEKRKPNFRHQ PGPT0008390_23 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767 NA NA AK015_03639 1041 menB_1 1,4-dihydroxy-2-naphthoyl-CoA synthase ATGAGCGATGTTTTATTTTCCAAGAAAGAACATGGCATTGCAACAATTACATTAAATAGACCAAAAGCAATTAATTCGTTAACAGAAGGTATGCTTTCGCCAATTTATGATAGATTGCTAGAATGGGAAAATGATTCTGATGTGCAATTAATTATTTTAAATAGTGAAGGACAAAAAGGGTTTTGTGCTGGTGGAGATATAAAAACATTATATCAAGCAAAAGAAAATGAGGAAACGTTTGAAAAAGCAATGGAATTTTTTGAAATTGAATACGCAACGGATAATTTCGTCGCTAATTTCCCAAAGCCAATAATTGCATTGCTCGATGGTGTTGTCATGGGAGGTGGCGTTGGACTCTCTTACGGAGCTAGCCATCGTATCATAACAGAAAAAACAAAATGGGCGATGCCTGAAATGAACATTAGCTTTTTCCCAGATGTCGGTGCTGCATACTTCCTTAATCAAGCCCCTGGCTACATTGGACGGTATTTGGCACTAACGTCGGATATTATAAAAGGTGCAGACATTCTATATGCTAATGCTGCTGATTACCATCTATCAACATCTCAGATAGAACCACTAATCAAAGCAGTTTATGATATAAATTGGCTGCAAGAAACAGAAACAGAACAAAAATTAACTCAATTGATAAAAAGCTTCGAAACTAAATTAGAATGTGAAAGTAATTTGGCGCAGCATCAAGAGAAAGTTAACTGTCATTTCGCACATCAAACAGTAGAAGAAATTGTTGCTTCTCTCGCGTCAGATGACAGTCCATTTGCGACAGAAACAAAAAATACGATTCTCTCTAAATCACCTATTTCTCTAAAAGTTACTTTAGAGCAGCTAATTCGTGGAGAGAACCAAACTTTAACAGAATGTTTGGAAACCGATCTGATTATTGCTAAAAATTTCTTGAAAACAAATGATTTTTATGAAGGGGTACGTTCCGTCGTCATTGACAAAGATAAACAGCCAATCTATCAATACAAACAATTATCCGACGTCTCTCAATCTGTCGTAGAATCGTTTTTTCAGTAA MSDVLFSKKEHGIATITLNRPKAINSLTEGMLSPIYDRLLEWENDSDVQLIILNSEGQKGFCAGGDIKTLYQAKENEETFEKAMEFFEIEYATDNFVANFPKPIIALLDGVVMGGGVGLSYGASHRIITEKTKWAMPEMNISFFPDVGAAYFLNQAPGYIGRYLALTSDIIKGADILYANAADYHLSTSQIEPLIKAVYDINWLQETETEQKLTQLIKSFETKLECESNLAQHQEKVNCHFAHQTVEEIVASLASDDSPFATETKNTILSKSPISLKVTLEQLIRGENQTLTECLETDLIIAKNFLKTNDFYEGVRSVVIDKDKQPIYQYKQLSDVSQSVVESFFQ PGPT0001860_405 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 AK015_03640 1461 iolA_2 COG1012 Malonate-semialdehyde dehydrogenase ATGATATCGCAAGAAGTAAAAGTGATGAAAAATTACATTGGTAATAGCTGGGTGACTTCATCTGGTGTAGAAAAACATGATATACCTAACCCAGCAACAGGTGAAATCATTGCCCAAGTTGTGCTATCAACGGAGGAGGACGTCGATCAAGCGGTAGCAGCAGCTAAAAATGCTTATAAGGATTGGGCGAATGTCCCTATTCCAAACCGTGCGCGTTATTTGTTTAATTATTTGCATTTATTAAAAGAGCATAAAGAAAGTTTGGCAAAAATTATTACATTGGAAAATGGGAAATCGTTAAGAGATGCAAGGGGAGAAGTGCAACGCGGAATAGAAGTAGTCGAATTAGCAACATCTGCTCCGAATTTAATGATGGGTGATGCATTGCCACAAATCGCAAGTGGCATAGATGGGTCTATCTGGCGTTATCCATTAGGGGTAGTGGCAGGAATCACACCATTTAATTTTCCGATGATGGTTCCGCTATGGATGTACCCGCTAGCTATCGCTTGTGGAAATACATTTGTTTTAAAGACGTCTGAACGCACCCCGATTTTGGCAGAACGGTTAGTTGAATTATTTTATGAAGCAGGTTTCCCTGAAGGTGTACTTAACCTCGTTCACGGAGGGAAAGAGGTTGTAAATCGGGTGTTGAAGCATCCGGATATTGAGGCAATTTCTTTTGTAGGATCAGAGCCAGTAGCTAAGCATGTATATCAGACAGGTACGGCGCACGGGAAACGGGTGCAAGCATTAGCAGGTGCGAAAAATCATGCTATCGTCATGCCTGATTGTAATTTAGAAAAAACAGTCCAAGGTGTCATTGGTGCTGCGTTTGGAAGCAGTGGAGAGCGTTGCATGGCCTGTTCGGTTGTCGCTGTTGTCGATGAGGTAGCAGATGCATTTTTGCATTTATTAACGGAAGAAACAAAAAAATTAAAGGCTGGAGATGGATTAGATGATTCAACATTTGTTGGTCCACTTATCAGGCAGTCTCACAAAGATAAAGTAGTTGGCTATATTGATCAAGGAGTAGAGGAAGGGGCTGAACTACTCATAGATGGAAGAACCATTGAAGAAGAAACGCCAGATGGCTACTATGTCGGTGCGACTATTTTTGATCATGTTACACCAGATATGAAGATTTGGCAGGATGAGATTTTTGCTCCTGTGTTAAGTGTAGTGAGAGTGAAGGATTTACAAGAAGGGATAGCGCTTACGAATAAATCGAGATTTGCAAATGGAGCGGTCATTTATACGTCAAGCGGAAAACATGCGCAAACGTTCCGTGACCAAATTGATGCAGGAATGGTCGGTGTGAACGTAAATGTTCCAGCTCCGATGGCATTTTTTGCTTTCGCAGGAAATAAAGCTTCTTTTTATGGTGATTTAGGAACGAACGGAAAAGACGGAGTGCAATTCTATACAAGAAAGAAAGTAGTAACGGAGCGTTGGTTCTAG MISQEVKVMKNYIGNSWVTSSGVEKHDIPNPATGEIIAQVVLSTEEDVDQAVAAAKNAYKDWANVPIPNRARYLFNYLHLLKEHKESLAKIITLENGKSLRDARGEVQRGIEVVELATSAPNLMMGDALPQIASGIDGSIWRYPLGVVAGITPFNFPMMVPLWMYPLAIACGNTFVLKTSERTPILAERLVELFYEAGFPEGVLNLVHGGKEVVNRVLKHPDIEAISFVGSEPVAKHVYQTGTAHGKRVQALAGAKNHAIVMPDCNLEKTVQGVIGAAFGSSGERCMACSVVAVVDEVADAFLHLLTEETKKLKAGDGLDDSTFVGPLIRQSHKDKVVGYIDQGVEEGAELLIDGRTIEEETPDGYYVGATIFDHVTPDMKIWQDEIFAPVLSVVRVKDLQEGIALTNKSRFANGAVIYTSSGKHAQTFRDQIDAGMVGVNVNVPAPMAFFAFAGNKASFYGDLGTNGKDGVQFYTRKKVVTERWF PGPT0002295_4008 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 AK015_03641 897 Hgd 2-(hydroxymethyl)glutarate dehydrogenase ATGAAACGAATTGGGTTTATCGGCTTAGGAAATATGGGATTGCCAATGGCGATTGGTTTAGTAAAAGAAGGATATACCGTTACTGGATATGACATTAATGAACAGGCAGTCCTTTCATTGAAAGAGCAAGGAGGAGCAATTGCGACAACTATTGGGCAAATTCTCGTTTCTAGTGATGCCATTTTAACAAGTCTTCCATCGGTGAAAGCTGTCGAGGAAGTATATTTAGCTGCCGATGGATTAATTGAACAAGGGGATAAAACGAAAATACTTGTCGATACGAGCACCGTTTCTCCCGAATTGAACCAAATCATAGATCAAGCCTGTGCAGAGAAAGAAATTCCTTTTCTTGCTTCTCCCGTAAGTGGTGGTGTCATCGGTGCAGAACAGCAAACGTTAACCGTAATGGCGGGAGGAAGAAAAGCTATCTTTGAGCGTGTATTACCAATTTTTGAAGTGATTGGTGGCAATATTTTTCATGTTAATGAACAAATTGATAGCGGTACAACGGTGAAACTAATTAATAATTTGCTAATTGGATTTTATACAGCAGGTGTCAGTGAAGCTTTGCATATTGCTACGAAGAAAAATATTAATTTAGATGACTTATATTCTATGTTAAGTGTGAGTTACGGGCAAAGTCGTATTTATGAACGAAACTATAAGGCGTTTATTGCCAACAATGATTATGAACCTGGTTTTTCTTTGAAATTATTGCGTAAAGATTTAGAGTTTGCTATGGAAGCAGCAGAAAACACGCAATTAGATTTACCAATTAGCAGAACGTTATTATCTTTATATCAACAAGTGGAAAAAGAAGGATATGGAGATCAGGATATGGCTGTTCTTTATGAACGGGTAAAGGAACAGTCGGCTAAAAAGGAGGCTGAAAAATGA MKRIGFIGLGNMGLPMAIGLVKEGYTVTGYDINEQAVLSLKEQGGAIATTIGQILVSSDAILTSLPSVKAVEEVYLAADGLIEQGDKTKILVDTSTVSPELNQIIDQACAEKEIPFLASPVSGGVIGAEQQTLTVMAGGRKAIFERVLPIFEVIGGNIFHVNEQIDSGTTVKLINNLLIGFYTAGVSEALHIATKKNINLDDLYSMLSVSYGQSRIYERNYKAFIANNDYEPGFSLKLLRKDLEFAMEAAENTQLDLPISRTLLSLYQQVEKEGYGDQDMAVLYERVKEQSAKKEAEK PGPT0018170_496 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 AK015_03642 1665 fadE_3 COG1960 putative acyl-CoA dehydrogenase ATGGAAAAGGTAAACTTTCATGATAAGGATTCTATATTTCCAAATAAACAGTGGGTTCTTAAGAAAGATTCCACGAATCCTTTTGCGGAGGAAGAGGAACTGCTTATAGGGATGATCGAAAAGTTTGTAGCAGAGCAAGTAATGCCAAATTTAGATAAGTTGGAAGCGCATGATTATGAAGTTGCTCGTGAATTGTTTCGAGCGACTGGTGAATTAGGGCTGTTAGGTGCGGAAGTTCCTGAAGCTTATGGTGGTTTAGAAATGGGAAAGCGTACGGCTGGAATTATTGCTGAAAAAATGGGTTTTGGCGGATCATTTAGTGTATCTTTCAATATTCATACAGGCGTAGGTACGTTACCTTTTGTATATTTTGGGACTGAAAAACAAAAAGCCAGATATCTACCGAAGTTAGTTTCCGGTGAATGGGTTGGCGCCTATGCATTAACAGAACCAGATGCTGGGTCTGATGCATTATCTGCTAAGACGACAGCTAAAAAGGCAGTAGATGGTTCAGGCTGGACATTAAATGGAGAAAAGCAATGGATAACGAATGCGCATATAGCTCAAGTATATGTAGTGTTTGCTAATACTTCAGATGGCATTACTGCTTTTGTTGTCGAGCGTGATCAGCCAGGCGTATCAGTAGGACCTGAGGAAAAGAAGTTAGGTATTAAGGGCTCTTCAACAGCGACTTTAATTTTAGAAGATGTTCGTTTGGAAGAAGAAGATATACTAGGTGAAGTTGGGAAAGGGCATAAAATTGCGCTGAATATTTTAAATCTAGCACGCTTAAAGCTAGCTTTTTCTAATATTGGAACTTCCAAACAAGCGTTACGCCTCGCCGTAGAATACGGGAAAGAACGTAAGCAGTTTAAACAGCCGATCATTCAGTTTGGGATGGTGCAAGAGAAATTAGCTAATATGGCGCTTGAAATATATGGAGCAGAAAGTGCAGCCTATTACACGGTGAATAGGCTAGACGAAATGGAGCAAGACAACAAAGGAGATATATTGGAAAGGTTATCGAATTATGCAATGGCTTGCTCGATTAATAAGGTAAAAGCTTCTGAAACGCTTGATTATGTCATCGACGAAGCTGTGCAAATCCATGGCGGATATGGGTATATGCAAGAATATGAGGTAGAGCGTATATATCGAGATGCGAGAATAAATCGAATTTTTGAAGGAACAAATGAAATTAATCGATTAACAACTGCTAAGGCGTTTTTAAAGCAGTATACAAAAGACTCATCTGTCATTTTATCCGTCGAGAAGGAAGAGAATATATTTATTCACTATGCGAATCAACTATTAAGAACGGTTTTGAATGCGCTTTCCGAAACAGGTGAACTTCCACAGCTCGATCAATTTTATTTACATCGAATAGCTCTTATATTAGAAGATATTTATCTTATGCAAGCTACTGAGATCAAGGCTATGTTGGAGAAAGATTCACTATATATCAATCTAGCTGATGTCTTTTGTGAGGAAGCTTACCAACGAGTTGAAAAGCATACAATCGTTTTACTTGCTTCTATTTCAGAAGAAAATGAAACATACGAAGAGCGAATAAGGGAGGTACGTTCGTTACCTGTGCTATACACAAATATTATTGCAAAGAAACAGACCATTGCAAAAGAAATGATTAACCGTAATGGATTTTAA MEKVNFHDKDSIFPNKQWVLKKDSTNPFAEEEELLIGMIEKFVAEQVMPNLDKLEAHDYEVARELFRATGELGLLGAEVPEAYGGLEMGKRTAGIIAEKMGFGGSFSVSFNIHTGVGTLPFVYFGTEKQKARYLPKLVSGEWVGAYALTEPDAGSDALSAKTTAKKAVDGSGWTLNGEKQWITNAHIAQVYVVFANTSDGITAFVVERDQPGVSVGPEEKKLGIKGSSTATLILEDVRLEEEDILGEVGKGHKIALNILNLARLKLAFSNIGTSKQALRLAVEYGKERKQFKQPIIQFGMVQEKLANMALEIYGAESAAYYTVNRLDEMEQDNKGDILERLSNYAMACSINKVKASETLDYVIDEAVQIHGGYGYMQEYEVERIYRDARINRIFEGTNEINRLTTAKAFLKQYTKDSSVILSVEKEENIFIHYANQLLRTVLNALSETGELPQLDQFYLHRIALILEDIYLMQATEIKAMLEKDSLYINLADVFCEEAYQRVEKHTIVLLASISEENETYEERIREVRSLPVLYTNIIAKKQTIAKEMINRNGF PGPT0008385_837 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249 NA NA AK015_03643 312 hypothetical protein GTGCAGAAGGCTGGAATATTAAGCGAAACGTACCAAAAACAAAATATAGCCTATTGGTATCACCCGGAAAAAGTTGCTCAGGATGTACAAACTGGTTCCTACTCCTATATAGCGTTAGATGGGACGAAAGTGGTTGGCGTTATTGGCGGGACTACGGAAGATGGCTGGGCTAAAATCTATGTTTTTTATGTAGATAGTTTGTATCGCTATTTGGGCATTGGCAGTAAATTGCTGGAAACATTAACGGAACAACAAGTAGTGGAGGGGGGGCGAAAGAGCAGTGGGTATAAGTACAAGAAGGAAATCAATTAG MQKAGILSETYQKQNIAYWYHPEKVAQDVQTGSYSYIALDGTKVVGVIGGTTEDGWAKIYVFYVDSLYRYLGIGSKLLETLTEQQVVEGGRKSSGYKYKKEIN NA NA NA NA NA AK015_03644 1758 norR_4 Anaerobic nitric oxide reductase transcription regulator NorR TTGAAAGAGGATTTTTTTGTTGAGCAGTGGATGGACACTAAAGCCCTATCTATTTCTCCATCTACGCCTCTTGAAGTAGCATTTACTACGTTATGTAATCACGCTATTACTACTATACCGGTTGTAGCTGAAGGATGTATGCAAGGTGTTGTGTCAAGTTATGATTTATGGAAGTATATAAAAATAAAGGGTCAAAAAGAGTTAGTAGCTTCCATTATGAATAAGCATTATGCCACCGCTTTTATAGGCTCGTCGATGCATGATATTTATCAAACGCCTGCTTACGTCATTGATGGTAATACAGAAGAATTGCTTGGACAAATAACGGCAAAGGAGTTACTTGCTTTTCAAAAGTATATGCAGCATGAGTTAACCCAAATAGACAATCTTATGCATTGGTATGAATTAATTTTTGATACGGCATATGAAGGATTGACGGTTGTTGATGATCAAGGGGTTATTCAGTTGTTTAATCAAGCATACAGCCGGTATGTTGGAGTAGCTAAAGAAGAGGCTTTAGGGAAGAAGGCAGATGACATCATCGAAAATACGAGATTACCTGTTGTGTTAAAAACAGGTATTCCAGAACGTAGTCAGGCCCATCGGTTACAAGGGCAAAATTTAGTCGTTCATCGAATTCCAATATGGAAAGATAATAAAATTATTGGTGCAGCCGGCATCCTTGTATATGAGGGAGTGTCGGAAATTTATGAAGTAATACAAAAGATGGATCAATTGGATAAAAATACACGTGTGGAAAATGCAACAACGGTATTAGAAAGTTCAACACTAGAAGTGGTTAAATTTGAGAATATTTTAGGTGATAGTAAAGCGCTTACTGAAGCGAAAAAAATGGCTCGAAAAGCTGCTGATTCAAGTGCGGCTGTATTATTAACAGGAGAAAGTGGGGTAGGTAAAGAGCAGTTTGCAAAAGCAATTCACGATGCGAGTGCTGCTAAAAATGGGCGGTTTATTAGCGTGAATTGTGCGGCTATTCCAGATGGATTAATGGAGTCTGAATTGTTTGGTTATGCAAAAGGCGCATTTACTGGTGCACATCGAGATGGGAAACCAGGAAAGTTTGAATTGGCACATGAAGGTACAATCTTTCTTGATGAAATTGGCGATATGCCTTTCAACATGCAAGCAAAAATTTTACGTGTGTTACAAGAAAAGAAAGTGGAACGAGTAGGAGACAGGAAAGCTATTGGTGTAAACTTCCGCTTGATTACGGCAACGAATAAAAATTTGCAGCAAATGGTCAAGGATGGAGAATTTCGCGAAGATTTATATTATCGACTCTATGTTATTCCTATTGATATACCGCCGTTACGAGAACGGTTGGAGGATTTACCGACTTTAATTGCCTATCAATTACAGCAGTTAGCTAAACGGTATAAACAAGGAGAAAAAACATTTGATCAACACGTATTGCAATGGATGAAACAGCACCATTGGCCAGGGAATGTTCGTGAGTTAATGAATATAATCGAGCGTTTATATGTGTTAACAGATGGACACCAGATAACATTTGATCATTTGCCTGCTTCGGTAAAGAAGACTTTTTTACAAACGGATTATCAATATAATCATTTGAAGAACGAACTTATAGAAGAAGTTACAAAACAAGAAGAAGAAATGATTGCGCAAACATTAAAACAAGTGCAAGGAAATAAAACAAAAGCTGCTGAAAAATTAGGTATGTCAAGGGCTACACTCTACAATAAGTTGGCTCGTTATAAATTGAACAATTTTTAA MKEDFFVEQWMDTKALSISPSTPLEVAFTTLCNHAITTIPVVAEGCMQGVVSSYDLWKYIKIKGQKELVASIMNKHYATAFIGSSMHDIYQTPAYVIDGNTEELLGQITAKELLAFQKYMQHELTQIDNLMHWYELIFDTAYEGLTVVDDQGVIQLFNQAYSRYVGVAKEEALGKKADDIIENTRLPVVLKTGIPERSQAHRLQGQNLVVHRIPIWKDNKIIGAAGILVYEGVSEIYEVIQKMDQLDKNTRVENATTVLESSTLEVVKFENILGDSKALTEAKKMARKAADSSAAVLLTGESGVGKEQFAKAIHDASAAKNGRFISVNCAAIPDGLMESELFGYAKGAFTGAHRDGKPGKFELAHEGTIFLDEIGDMPFNMQAKILRVLQEKKVERVGDRKAIGVNFRLITATNKNLQQMVKDGEFREDLYYRLYVIPIDIPPLRERLEDLPTLIAYQLQQLAKRYKQGEKTFDQHVLQWMKQHHWPGNVRELMNIIERLYVLTDGHQITFDHLPASVKKTFLQTDYQYNHLKNELIEEVTKQEEEMIAQTLKQVQGNKTKAAEKLGMSRATLYNKLARYKLNNF PGPT0001030_2323 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 AK015_03645 102 hypothetical protein ATGGCTAAAGATAAGACAAAAACAAAAAACAAAAGTAAGCAAGAACTAAATGATATGAAACAGGAAAACAAATACAAGCGCAATCGCCCTCCAGGTAACTAA MAKDKTKTKNKSKQELNDMKQENKYKRNRPPGN NA NA NA NA NA AK015_03646 768 hypothetical protein ATGGTGAAAAAAATCACAGTACGAACGATTGACTTAGAAGGAAGTTTTAATTTTCGTGACTTAGGTGGTTATGAAACCCTCTCAGGAAAAAAGGTTAAAAATGGAATACTATATCGTTCAGGTAATCTCCAACATATCACAAAGAACGATATGGAAAAAATTAATCAAACTGGCCTAAAGACGATATTTGACCTTCGAGGAAGTGACGAAGTAAAAAACTACCCTACGCCTTCCTTTTCAGGAGTCGCCATAAAGCATTTGCCCTTAATAGAAATAGATAGGGAGATGGTACGACAACCTAAAGATTTACAAAAATTCGTCGATCATTCACAAGAACCAGGAAAAATATTAGAAAAGCTTTATCGAGAAGTATCTAAAAACACAAACGTATATAAAGCTTTTTTTTCAACCTTGCTTAGTGATCCTACATCGCCTCTATTATTTCATTGTATGGCAGGAAAAGATAGAACTGGTGTCATGGCAGCATTAACTTTGTATGCGCTAGATGTCCCCCAAGAGCTCATCTTTGCAGATTACTTATATACAAACAACTTCCTTGATATCTTACGTGCAAATTTACAACCTGAATCTATCCAAGTAAATCAAGCTTTTATGCAAGCAATGCTGGAGGCAAGGCGAGAATATTTACAAGCCTTTTTTGATGAAGTGGAGAGCAAATTTGGTACCGTGGACCAATATATTAATGAAGGTATCGGTTTAAGCAAGTCAGATGTAAAAACCCTACAAGCAGCTCTACTCGTTGAATAA MVKKITVRTIDLEGSFNFRDLGGYETLSGKKVKNGILYRSGNLQHITKNDMEKINQTGLKTIFDLRGSDEVKNYPTPSFSGVAIKHLPLIEIDREMVRQPKDLQKFVDHSQEPGKILEKLYREVSKNTNVYKAFFSTLLSDPTSPLLFHCMAGKDRTGVMAALTLYALDVPQELIFADYLYTNNFLDILRANLQPESIQVNQAFMQAMLEARREYLQAFFDEVESKFGTVDQYINEGIGLSKSDVKTLQAALLVE PGPT0014530_2064 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 AK015_03647 360 N-acetyldiaminopimelate deacetylase ATGGAACGCACAATAAAAGCTTCTTGCGACATGTTTCATGCTGATTATGAAATTACGTTTACTCGAGGATATCCTACTCTCGTAAACCACCCACAAGAAACGGAATTTGTTGCCAACATAGCTAAACAAGTTCCTGAGATTAAAGAAGTAACCGAAACGAAAACGCCACCAATAATGGGGGGAGAAGATTTTTCTTATTACTTACAACATGTAAACGGTGCATTCTTTTTTACAGGAGCTAGTAATTCTAGCTGGGCTATGGCATACCCGCATCATCATCCAAAATTTGATATAGATGAGCGCGCTTTATTGCATGCAGCCAAAATATTAGGAGCTGCTACGTTACAATATATGGATTAA MERTIKASCDMFHADYEITFTRGYPTLVNHPQETEFVANIAKQVPEIKEVTETKTPPIMGGEDFSYYLQHVNGAFFFTGASNSSWAMAYPHHHPKFDIDERALLHAAKILGAATLQYMD NA NA NA NA NA AK015_03648 1383 gdh COG0334 NADP-specific glutamate dehydrogenase ATGAAAACAGTTGACAAAATGGAATTTACGTACATGCAAAAAGCGAAAGAATATGTAGAAACTGTATACGAAACGGTGAAAATGCGTAACCCTCATCAAGAAGAATTTCAGCAAGCAGTAAAAGAAGTCTTAGCTTCCTTAACCCCAGTTTTGGCAAAGCATCCAGAATATATGAAACAGTCTATTCTTGAACGTATTGTAGAACCAGAGAGAATGGTTTCGTTTCGTGTACCTTGGATCGATGATGAAGGCAATGTTCAGGTAAACCGTGGGTACCGTGTCCAATTTAATAGTGCTCTTGGTCCTTATAAAGGTGGAATTCGTTTTCATCCTACGGTAAACGATAGTATTATTAAGTTTTTAGGTTTTGAACAAATTTTTAAGAACGCTTTAACTGGTCAGCCAATTGGTGGAGCAAAAGGAGGGGCGGACTTTGATCCTAAAGGAAAGTCTGATACTGAGATTATGCGCTTTACACAAAGTTTTATGACAGAACTTAGTAATTATATTGGACCAGATCAAGACGTACCTGCTGGAGATATCGGTGTTGGCCAAAGAGAGATTGGCTATATGTTTGGTCAGTATAAAAAAATGCGCGGAGGCTATCAGGCTGGTGTGTTGACCGGAAAAGGAGTAGGATATGGCGGTAGTTTAGCCCGTAAAGAAGCAACTGGGTATGGGACAGTTTATTTCTTGGACGCTATGCTTAAGGATAATGGCTTAAGCATTTCAGGGAGTAAAGCGGTTGTCTCTGGCTCAGGAAATGTTTCCATTTATGCAATGGAAAAATTAACCCAATTAGGTGCAAAGGTAATTGCTTGCAGTGATTCAGATGGTTGTATTTATGATGAACAAGGTATAAATTTGGCAACAGTAAAACATCTAAAAGAAGAAGGAAATTGCCGAATTCGTGATTATCTCAACGCCCATCCTAAAGCAACCTTTTATGAAGGGTGTACAGAAATTTGGTCTATCCCTTGTGATATTGCTTTACCATGCGCGACACAAAATGAAATTAATGAGCAAGCTGCTAAACAACTCGTTTCCAATGGAGTGAAAGCAGTAGGCGAAGGTGCAAATATGCCATCCACTTTAGAGGCGGTAGAAGTTTTCATGAATAACCAAATTTTATTTGCTCCTGCTAAAGCAGCAAATGCTGGTGGTGTAGCTGTATCTGCGTTGGAGATGGCGCAAAATAGTGCACGAATTGCATGGAGTTTTGATGAAGTGGATGAAAAATTACACCATATTATGCATACGATCTACAAAGCTTCAACGGAAGCGGCAGAGGAATATGGTGAGCCAAGAAACTTAGTTATCGGTGCGAATATTGCTGGTTTCAAGAGAGTTTCTGCTGCTATGATTTCACAAGGCGTCATTTAA MKTVDKMEFTYMQKAKEYVETVYETVKMRNPHQEEFQQAVKEVLASLTPVLAKHPEYMKQSILERIVEPERMVSFRVPWIDDEGNVQVNRGYRVQFNSALGPYKGGIRFHPTVNDSIIKFLGFEQIFKNALTGQPIGGAKGGADFDPKGKSDTEIMRFTQSFMTELSNYIGPDQDVPAGDIGVGQREIGYMFGQYKKMRGGYQAGVLTGKGVGYGGSLARKEATGYGTVYFLDAMLKDNGLSISGSKAVVSGSGNVSIYAMEKLTQLGAKVIACSDSDGCIYDEQGINLATVKHLKEEGNCRIRDYLNAHPKATFYEGCTEIWSIPCDIALPCATQNEINEQAAKQLVSNGVKAVGEGANMPSTLEAVEVFMNNQILFAPAKAANAGGVAVSALEMAQNSARIAWSFDEVDEKLHHIMHTIYKASTEAAEEYGEPRNLVIGANIAGFKRVSAAMISQGVI PGPT0000690_281 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000690-gdhA-K00262 NA NA AK015_03649 906 gltC_4 HTH-type transcriptional regulator GltC ATGGAACTCAGGCAAATTCGTTATTTCATGGAAGTAGCTTCCAGAGAACATGTTACAGAAGCCGCGACTGCGCTACATGTTGCCCAATCTTCTGTAAGTAGACAAATTGCCAATTTAGAATCTGAGTTAGGGGCTGATTTATTCATTAGAGAAAACAGAAAAATAAAGTTAACCCCTATAGGAAAAATCTTTTTCGAACGGATGAAGCAGGCAATGAACGTTATTGATCATGCCAGTAGGGAAGTAGAAGAATACGTAGACCCCAAAAAAGGTACGATTCGCGTCGCCTATCCAATTAGTCTCGCTGCTTATATGTTACCTACCGTTATTCATGCCTTTCGAACAGAATATCCAGAAGCAAAATTCAACCTGAAACAAGCACTTTATCCTGAATTAATGCATGGGCTTACAGATGGAGATTTTAATTTAGCTTTGCTTGGTCCGTTGCCTAAAGAAAATAACAAATTTCAACGAAAAGCATTATTTACTGAAAGAATTGTAGCATTACTACCCCTTCACCACCCACTTGCAGATAGAAGTTCCATTCGTCTTAGGGAGCTAAAGGATGATCCTTTTATTGTTTTGCCAGAAGGGTTTGTATTACGTAATCTGGTTGAGGAAGCATGTTACACCAAAGGTTTTGCTCCTATTATTGGCTTTGAAGGAGACGACACAGATGCTTTAAAGGGGTTGGTATCAGCAGGACTTGGCATTGCGCTTATGCCAGAAGTCACGTTAATTGATAATACACCACGCTCTACGGTTGCCATTCCGTTAGCTGAAAACGATATTACTCGAACAGTTGGTGTGATTACCCCTTCCCATCGACAATTATTACCAACTGAAGCGATCTTTTATGACTTTTTATTGCAATTTTTTTCTAGAATAAACTACTTTAGTCATTAG MELRQIRYFMEVASREHVTEAATALHVAQSSVSRQIANLESELGADLFIRENRKIKLTPIGKIFFERMKQAMNVIDHASREVEEYVDPKKGTIRVAYPISLAAYMLPTVIHAFRTEYPEAKFNLKQALYPELMHGLTDGDFNLALLGPLPKENNKFQRKALFTERIVALLPLHHPLADRSSIRLRELKDDPFIVLPEGFVLRNLVEEACYTKGFAPIIGFEGDDTDALKGLVSAGLGIALMPEVTLIDNTPRSTVAIPLAENDITRTVGVITPSHRQLLPTEAIFYDFLLQFFSRINYFSH NA NA NA NA NA AK015_03650 1590 dmdB COG0318 3-methylmercaptopropionyl-CoA ligase ATGCATTATCCACTAACACCAATTGATTGGAAACGAAGAGCAATTAAATATTATCCCAACAAAGTGGCAGTTATTGATGAAGAAAAAACATTTACGTATGCGCAATTTGGAGAAAGAACAGATCGACTATCACAAGCGTTAATCAATGCGGGAATCCATGAAGGAGATCACATAGCTGTTATGTTACCGAATACACATTATATGCTGGAATGTTTTTATGGGATATGTCAAACGGGGGCGGTTATGGTTCCGTTAAATTATCGTATTTCACCTGAAGACATGGCGTATATTATTAATCATAGCGATGCTAAATTACTCATTGTTGATGCAGCATTCACTTCCTCTATTAAAGAGATTGAATCTGAATTGAATCTGAATGATATTGTTGTTGTCGAGGTACCTGGTTATGATAGTCAAATAGAGGGAATAGATTATGAACATTTCATTCAATGCGTTGAGCCTACTTCATTTTCGCCACTTCACTTAGATGAAAATCAACTTTTAACCATTAATTATACAAGTGGTACAACATCTAAGCCTAAAGGAGTGATGCAAACACATCGTAGCAATTATATGAATGCCGCAGATTTTATGTTTCATTTAGGGGTAAAGCACGAAGACGTTTATCTCCACACGCTTCCCATGTTTCATGTGAATGGCTGGGGCGGTGTCTGGGCGATTACGGCTGTCGGTGGTGTACATGTATGTTTACGAAAAGTTGATCCAAAGGTCATTTTAGATTTATTTGAAAAACACCAAATAACGCTGTTATGTGGCGCTCCAATTGTGATTAATATGCTTGTGAACGAGCCAAAAGTAAACGAGGTTTCAATTAATGTAAAATCACGAATGGCTACAGCAGGTTCTCCACCAGCAGCAGCGTTAATCCAACAAGCGCAAGATTTGCTTGGCTTGGATATCTTACATGTGTATGGTTTGACAGAAACATCCCCATTCATTTTATACAATGAGTGGAAATCTTCATTCAACCAATTATCTCTTGAAGAACAATCCGCTTTAAAAGCGAGGCAAGGTGTAGAAATGGTTTTTAATGGAGAAACAAAAGTAGTCGATCAAGATGGCGAAGAAGTTGCATGGAACGGGGAAGAACTTGGAGAAATTGTAACTAGAGGCAATGTTGTTATGGAAGGCTATTATAAAGATGAGGAGCGAACCAAAGAGGTGTTCAAGGACGGTTGGTTTCATACAGGTGATTTAGCTGTAACGCATCCTGATGGCTATATAGAAATACGTGACCGAGCTAAAGATGTTATTATCTCTGGTGGTGAGAATATTTCTTCTACGGAAATTGAAGGTGTTTTATATCGTCATCCTGCGGTATTAGAAACAGCTGTTATCGCTGTTCCACATGATAAATGGGGAGAGGTACCACTAGCAATTATTATTTTGAAGAAAAACGCTACCGTTACTGAAGAAGATATTATTACGTATTGTCGTGACAATATGGCACATTTTAAAGCACCAAAAAAAGTAGCATTTGTTAAAGAATTGCCTAAAACAGCTACAGGAAAATTACAGAAATTTCGTTTGCGTCAAATGTATTGGGATAGTGAACGGCTGGTAAATTAA MHYPLTPIDWKRRAIKYYPNKVAVIDEEKTFTYAQFGERTDRLSQALINAGIHEGDHIAVMLPNTHYMLECFYGICQTGAVMVPLNYRISPEDMAYIINHSDAKLLIVDAAFTSSIKEIESELNLNDIVVVEVPGYDSQIEGIDYEHFIQCVEPTSFSPLHLDENQLLTINYTSGTTSKPKGVMQTHRSNYMNAADFMFHLGVKHEDVYLHTLPMFHVNGWGGVWAITAVGGVHVCLRKVDPKVILDLFEKHQITLLCGAPIVINMLVNEPKVNEVSINVKSRMATAGSPPAAALIQQAQDLLGLDILHVYGLTETSPFILYNEWKSSFNQLSLEEQSALKARQGVEMVFNGETKVVDQDGEEVAWNGEELGEIVTRGNVVMEGYYKDEERTKEVFKDGWFHTGDLAVTHPDGYIEIRDRAKDVIISGGENISSTEIEGVLYRHPAVLETAVIAVPHDKWGEVPLAIIILKKNATVTEEDIITYCRDNMAHFKAPKKVAFVKELPKTATGKLQKFRLRQMYWDSERLVN NA NA NA NA NA AK015_03651 984 COG2070 Nitronate monooxygenase ATGATGACTAACGAAGCAATTCAAGAAATGAAAGCGTCTATGCGTTTGCCAATTGTTATGGCACCAATGTTTTTAGTTTCTAGTCCTAAAATGGTTACAGAAGCTTGTGCAGCAGGAATTGTAGGGACATTTCCTGCATTAAATGCAAGAACAAAAGAAATATTGGAGCATTGGATGGAACAAATTACTAACGAGTTAGAGGAGATGAAAAAAGATAATCCAAATAAAAAAATTGCTCCGTGGGGAATAAATTTTATAACGCATCGTTCTAATAAGCGTTATACGGAGGATTTACAATTAATAGAAAAATATAAACCACCAATTGTTATTACTTCTTTAGGTGATCCTAGTCCAGTTGTGAAAATTGCTCATGAATATGGTGGAATTGTTTTTTCAGATGTCATTGATATCAAATTTGCTAAAAAAGCAATAGCAAAAGGAGCAGATGGACTTGTTTTAGTAGCAAGTGGTGCAGGTGGTCACGCAGGGCAGCTAAATCCGATATCATTTCTGCATGAGGTTCGTTCTTTCTTTTTAGGTCCGGTTATCTTAGCTGGCGGAATGTCAAAAGGAGAGGATATTCTAGCTTCTGAAGTACTTGGAGCAGATTTTGTTTATATGGGGACGCGATTTATCCCGTCAAAAGAAAGTGAAGCTTCTCAAGATTATAAGCAAATGATTGTTGATTCTGCTATTGAAGATATTATTTATACGGATGCTTTTAGTGGGGTACATGCTAATTACCTTATCCCGAGTATTACAAAAGCAGGGTTAGACCCAACTAACTTAAAACCGAAGCAGGAAATCGATTTTAATAAGCTGCAAACGGAGGCAAAAGCATGGAAAGATATTTGGGGTGCTGGACAAGGAATTGGTCCTATTAAAGAGATTCAAACTATTTCAGAAATAGTGGATGAGCTAGAAACCTCCTATGAAAAAGCCATACGAAATATAAAACAACGAAATGCTGTATACATGAAATAA MMTNEAIQEMKASMRLPIVMAPMFLVSSPKMVTEACAAGIVGTFPALNARTKEILEHWMEQITNELEEMKKDNPNKKIAPWGINFITHRSNKRYTEDLQLIEKYKPPIVITSLGDPSPVVKIAHEYGGIVFSDVIDIKFAKKAIAKGADGLVLVASGAGGHAGQLNPISFLHEVRSFFLGPVILAGGMSKGEDILASEVLGADFVYMGTRFIPSKESEASQDYKQMIVDSAIEDIIYTDAFSGVHANYLIPSITKAGLDPTNLKPKQEIDFNKLQTEAKAWKDIWGAGQGIGPIKEIQTISEIVDELETSYEKAIRNIKQRNAVYMK PGPT0006800_3430 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 AK015_03652 1482 hutH COG2986 Histidine ammonia-lyase ATGGTGGAATTAACAGGTCATTCATTAACGGTCGATGAAGTGAGGCGTGTTTGCGTTAATATGGAAGATATATCTATATGCAAAGAAAGCATGGAAAAAGTTAAAGCAAGTCGTAATAGCGTCGATCAAATAGTAGCAAATCAGGAAACAGTTTACGGTATAAATACAGGATTTGGGAAACTTAGTGATGTTATCATTAATAATGATAACGTAAGCGATTTACAATTGAACCTAATTCGTTCGCACGCTTGTGGAGTCGGCGAGCCTTTTTCTGAAACAATTTCTCGGGCTATGCTATTACTACGACTAAATGCTCTAGTGAAAGGTTTTTCTGGTGTTAGGCCAAAATTGGTACACTTACTAGCTGATCTGATTAACAAACAAGTTCATCCAGTTATTCCGCAACAAGGATCATTAGGGGCTTCTGGTGATTTAGCTCCACTTGCGCATGTAGCTTTAGTGTTGATAGGAGAAGGCAACGTTTTCGGTAAGAACGGCGAAATAAGGTCTACAGAAACTGTTTTCTCAGAAAAAGAAATAGTCCCAATCACGTTACAGTCTAAGGAAGGGCTTGCGTTAATTAATGGAACGCAAGCAATGGTGGCAGTAGGTATCATGAATTATATTGAAACGGAAAAACTAGCGTTTGATAGTGAATGGATTGCAGCAATGACGATGGAAGGACTTGAAGGTATTATCGATGCATTTCATCCAGCCGTTCATGAAGTGCGGGGTTACCCTCAACAGATAGCTGTAGCAGAGCGAATGAGGGAGTGGTTTAAAGGAAGCAAGTTAATTACACGTCAAGGTGAAAAACGAGTACAGGATGCGTATTCATTACGGTGCATTCCACAAGTTCATGGAGCTTCATGGCAGGCATTGGATTATGTGAAAGAGAAGTTAGAGATAGAAATAAATGCAGCCACAGATAATCCGTTAATTTTAAATGATGGAAAGTTGATCGTTTCAGGCGGGAATTTTCACGGGCAGCCAATTGCTTTAGCAATGGATTTTTTGAAAATTGCAGTTGCTGAGTTAGCAAATATTTCTGAGCGTAGGGTGGAAAGGTTAGTTAACCCGCAGTTAAATGATTTGCCAGCTTTCCTTAGCCCGTCACCAGGACTCGAATCAGGAGCTATGATTATGCAATATGTTGCTGCCTCCTTAGTATCAGAAAACAAGACGCTGGCGCATCCAGCTAGTGTGGACTCTATTCCGTCTTCTGCTAATCAGGAAGATCATGTAAGTATGGGGACCATCGGAGCTAGACATGCAAAAATAATTATTGATAATACGCGAAAAGTTATTACTATAGAATGTATTTGTGCTCTTGAAGCTGTAGAATATAGGGGAGTTGATAAGATGGCTCCAAAGATAAGAGGAAAATGGGAGGAACATAGGGGAATTGTTCCAAGGATTACTAAAGATCGTGTATTTTCTGAAGATATAGAAAGGTTATCCGATACACTACGAAGCTATTAA MVELTGHSLTVDEVRRVCVNMEDISICKESMEKVKASRNSVDQIVANQETVYGINTGFGKLSDVIINNDNVSDLQLNLIRSHACGVGEPFSETISRAMLLLRLNALVKGFSGVRPKLVHLLADLINKQVHPVIPQQGSLGASGDLAPLAHVALVLIGEGNVFGKNGEIRSTETVFSEKEIVPITLQSKEGLALINGTQAMVAVGIMNYIETEKLAFDSEWIAAMTMEGLEGIIDAFHPAVHEVRGYPQQIAVAERMREWFKGSKLITRQGEKRVQDAYSLRCIPQVHGASWQALDYVKEKLEIEINAATDNPLILNDGKLIVSGGNFHGQPIALAMDFLKIAVAELANISERRVERLVNPQLNDLPAFLSPSPGLESGAMIMQYVAASLVSENKTLAHPASVDSIPSSANQEDHVSMGTIGARHAKIIIDNTRKVITIECICALEAVEYRGVDKMAPKIRGKWEEHRGIVPRITKDRVFSEDIERLSDTLRSY PGPT0020230_3695 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745 NA NA AK015_03653 444 hutP Hut operon positive regulatory protein TTGATCATGAATAACCATTTGCGTATTGGCAAGATTGCGACTTTACATGTCATGCTGGATGAGGAAGAACGTACTTACTTCTCATCTGCTTTTGAAACCGTGCAGATTTGTGAGGGGAAAGTAGGGTCAATGGAATTACAGAAGGTTATTTCCTCTGTAGAAACCGCTGTTAAACGGAGTGGAATGATTGAAGAAAAGCTGTACCGTGAAACGCATGCATTATATCATGCTATATTGGAAGCGCTTGAAGGTGTGACGCGAGGGCAGTGGGCGCTTGGAGAGATGATGCGAACGGTTGGTTTGCGCTTTGCTGTCGTACGCGGAAAGCCGTACGAGCTTGAACAAGAAGGCGAGTGGATAGCGGTAGCCTTTTATGGGACAATTGGAGCGCCCATAAGAGGGCTGGAACACGAAGCAATTGGCTTAGGAATTAATCATATATAA MIMNNHLRIGKIATLHVMLDEEERTYFSSAFETVQICEGKVGSMELQKVISSVETAVKRSGMIEEKLYRETHALYHAILEALEGVTRGQWALGEMMRTVGLRFAVVRGKPYELEQEGEWIAVAFYGTIGAPIRGLEHEAIGLGINHI NA NA NA NA NA AK015_03654 1281 hutI_1 COG1228 Imidazolonepropionase ATGTCAAACTCTATATTTGTGAAAAATGCAGCGCAGGTAATTACGATGCAAGGTCATACAGATAAACCAGCTAAAAAAGAAGCGATGCAGCAATTAAGCATTGTTGAGAATGGGAGTGTGTTAGCTCAAGACGGAGAAATTATAGCAGTAGGTACGGAAGCAGAAATAAAAAACAATTATCCAGACGTAGTTAGAAATGCGAAAGAAATTCATGCAACAGGAAAAATTGTCACACCTGGACTTATTGATCCACATACACATCTTGTGCATGCTGGAACAAGAGAAAATGAGTATGCGATGCGTTTAAAAGGAAAGACGTATATGGATATTATGCATGCAGGTGGCGGAATTCATGCAACGACAGAAGCGACGCAAAAAGCAGGTTTTGAACAACTTTATCAAGCGTCAAAAAAAAGGTTAGATACGTTTCTATTACATGGTGTGACAACAGTTGAAGCGAAAAGTGGCTATGGTCTTACAACAGAGCACGAATTAAAGCAATTGGAAGTAGCGCAGCAGTTAAATAAGGACCATGTCATTGATATTGTATCTACATTTATGGGGGCGCATGCAATTCCAATTGCGGAAAAAGACCAGCCAGAAAAATTTGTCGATAAAGTGATTGATGAAATGCTCCCAGAAGTAGCCAAGCGAAATTTAGCAGTTTTTAACGATGTATTTTGTGAGCGAGGTGTATTCACGCTTGAACAATCCAAACGAATTTTAGAAGCAGGAAAGCAATATGGTCTCATCCCCAAAATTCATGCTGATGAAATAGAGCCATATGGTGGAGCGGAGTTAGCAGCGGAAGTAGGTGCTATTTCTGCTGATCATTTGTTAAAAGCTTCTGAAATAGGAATGACTAAAATGGCAGAAAACGATGTCGTTGGCGTCCTTCTTCCTGGCACTGCTTTTTTTCTAATGGCGGCATTTGCAGACGCTCGGAAGATGATTGATAATGGAGTTGCTGTTGCATTATCAACGGATGCTAATCCAGGGTCTTCTCCAACATTATCATTGCAATTCATTATGAATTTAGGTTGTTTAAAGATGGGGATGACACCAGAAGAAGTGCTTATGGCAACAACAATAAATGCTGCTCACGCTATTAACTGTGCAAAAGAGGTTGGTAGTTTAGAAGTTGGTAAAAAAGCAGATATAACGATTTTTGATGTACCTAACTACTTAACATTATCCTATCAGTATGGGATGAATCATGTAGATACAGTGATTAAAAATGGGGAAATTGTTGTGGAAGAGAGACATTTAGCGTATTACTAA MSNSIFVKNAAQVITMQGHTDKPAKKEAMQQLSIVENGSVLAQDGEIIAVGTEAEIKNNYPDVVRNAKEIHATGKIVTPGLIDPHTHLVHAGTRENEYAMRLKGKTYMDIMHAGGGIHATTEATQKAGFEQLYQASKKRLDTFLLHGVTTVEAKSGYGLTTEHELKQLEVAQQLNKDHVIDIVSTFMGAHAIPIAEKDQPEKFVDKVIDEMLPEVAKRNLAVFNDVFCERGVFTLEQSKRILEAGKQYGLIPKIHADEIEPYGGAELAAEVGAISADHLLKASEIGMTKMAENDVVGVLLPGTAFFLMAAFADARKMIDNGVAVALSTDANPGSSPTLSLQFIMNLGCLKMGMTPEEVLMATTINAAHAINCAKEVGSLEVGKKADITIFDVPNYLTLSYQYGMNHVDTVIKNGEIVVEERHLAYY PGPT0020235_330 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468 NA NA AK015_03655 963 hutG Formimidoylglutamase ATGTACTCGATGACAGAAAAACAATGGTGGTCTGGGAGGGTAGATCATGCAACAGATCCAGCTTACTTTCGGTTTCACCAAGCTATTCAATTGAAAGACATTGCATCACGTAAACGAGATAATGATTTAAAGGGATCCATAGCTTTGATTGGATTTTCTTCTGATGAGGGTGTTCGCAGGAACAAAGGTCGAGTCGGTGCGGCAAAAGCGCCATATGAAATTAGATCTGTACTGGCAAATTTAGCTTACCATTTAGAAAAATTGTCTATATTTGACGTAGGGAATGTAAGTTGTATACATCAACAATTAGAAGAATCACAAGAAGAATTAGGGAAATACATGCATTATTTACTACAAGCACAATCCACACCAATCATACTTGGAGGAGGACATGAAACATTATATGGACATTATCTTGGTGCACGTCAATATGTCAATCAAACAACAAAATTGGGGATAATCAATATGGATGCGCATTTTGATTTACGAAATGATTTTCTGCCAACTTCAGGTACGATGTTTAAACAGATATTGGAGCAAGATAAGTATGCGGGGTATTTATGTTTAGGTATTCAAAAATGGGGAAACACGCAAGCTCTTTTTCAAGAAGCAGCTCAGTATCAAAGTAATTATATTTTAGCTGAGGACGTAGCCAATGATAGCCAAACTATAAAATTGATAGACGATTTTACGAAACAGCATGATTATATTATCTTTACTTTATGTATGGACGCGGTGGAAGCAACTGCAGCTCCAGGTGTGAGCGCTCCATCTCCGCTTGGGTTAGAGCCTAAAATAGTTAGAGACTTGATACAGTATATAGTAGCCAAACCGAATTTGCTTAGTATGGATATTTCCGAGGTAAACCCTGTTGTTGATGAAAATAATAAAACAATAAAATTAGCTGCTTATTTCATTGCAGATGCTATGCAATCCATGCAAAATAGAAAAAATATGCTATGA MYSMTEKQWWSGRVDHATDPAYFRFHQAIQLKDIASRKRDNDLKGSIALIGFSSDEGVRRNKGRVGAAKAPYEIRSVLANLAYHLEKLSIFDVGNVSCIHQQLEESQEELGKYMHYLLQAQSTPIILGGGHETLYGHYLGARQYVNQTTKLGIINMDAHFDLRNDFLPTSGTMFKQILEQDKYAGYLCLGIQKWGNTQALFQEAAQYQSNYILAEDVANDSQTIKLIDDFTKQHDYIIFTLCMDAVEATAAPGVSAPSPLGLEPKIVRDLIQYIVAKPNLLSMDISEVNPVVDENNKTIKLAAYFIADAMQSMQNRKNML PGPT0020240_684 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479 NA NA AK015_03656 1668 hutU Urocanate hydratase ATGAATACAAATCAAGTCATTAAGGCACCTACGGGGTCAGAATTAACATGTAAAGGTTGGCAGCAAGAAGCAGCAATGAGGATGTTAATGAATAATTTAGACCCACAAGTAGCAGAAAATCCAGATGAATTAGTTGTCTATGGTGGGATAGGCAAAGCAGCAAGGAATTGGGAATCTTTCCATAAAATAATTGCTACGTTGAAAAAGCTGGAAAACGATGAGACACTAATTGTACAATCAGGGAAGCCTGTAGCTGTATTTAAAACACATGACCATGCACCTCGTGTATTAATCGCCAACTCAAATATCGTGCCCAGTTGGGCAAATTGGAATCACTTTTATAAATTGGAAAGTGAAGGCCTTATGATGTATGGGCAAATGACAGCTGGTAGCTGGATATATATTGGAGCACAAGGCATTTTACAAGGAACTTATTTGAGCTTTGTAGAAGCTGGCAAAAAAGCGTTTGGATCAACAGATCTATCCGGAAGACTTATTTTAACAGGTGGCATGGGAGGTATGAGTGGTGCGCAACCATTAGCAGGGAAAATGGCTGGAGCGGTTACGCTTGTAGTCGAAGTAGAAAGAAAACGAATTGAACGCAAAATAAATGAGGGCTATTGTGATTACTTGGTTACCGACATAGACGAGGCTTTACAGCTAGTGAATAAATATCGCCAAAAAAGGGAAGCCGTTTCCATTGGTCTTGTTGGTAATTGTGCTGATGTATTTCCAGCTATTTATGAAAAGGGAATCGTCCCAGACATTGTAACAGATCAAACGAGCGCGCATGACCCAATAAATGGATATATACCAAATGGAATGTGTTTCGAACAAGCTTTGGTATTAAGAAAGAAGGATCCTAAAGCTTATGAAGAAAAGGCAAAAGCTACTATGGGTGTTCATGTTCAGGCAATGTTGGATTTTCAAGCATCTGGTTCTGAAGTGTTTGATTATGGCAATAATATTCGAGCTTATGCGAAAGAAACGGGAGTGGAAAATGCTTTTGATTTTCCTGGCTTTGTTCCTGCTTATATCCGTCCGCTATTTTGTGAAGGGAAAGGGCCATTTCGTTGGGCAGCCCTTTCAGGTGATCCAGAGGATATTTACCGTACGGACCGTCTAGTTAAAGAAATGTTTGCTGAAGATGAGTCTCTTGTAAAGTGGATAAATATGGCGCAAAAAATGATACAATGGCAAGGGCTTCCTTCTCGCATCTGCTGGCTCGGATATGGAGATCGTCATCGTTTTGCATTAGAAGTTAACAAGCTGGTTGCTACAGGGGAAATGAAAGCTCCTATTGTATTCGGTCGTGATCATCTTGATTCAGGGTCGGTAGCTTCTCCAAATCGAGAGACAGAAGGGATGAAAGATGGAAGTGATGCCGTATCTGATTGGCCAATATTGAATGCACTCCTTAATACTGCTGGTGGTGCTAGTTGGGTTAGCGTACATCATGGTGGTGGAGTGGGTATGGGATATTCACAGCATGCGGGTCAAGTTATCGTAGCAGATGGCACGAAAGAAGCAGCTGAAAAAATAAAGCGGGTTTTAATCACCGATCCTGGCATGGGAGTAGCAAGGCATGTGGACGCTGGATATGATATTGCTATTGAAACAGCAAAAGAGAAAGGAATTTACATTCCGATGATGGATTCCGAAGTATAG MNTNQVIKAPTGSELTCKGWQQEAAMRMLMNNLDPQVAENPDELVVYGGIGKAARNWESFHKIIATLKKLENDETLIVQSGKPVAVFKTHDHAPRVLIANSNIVPSWANWNHFYKLESEGLMMYGQMTAGSWIYIGAQGILQGTYLSFVEAGKKAFGSTDLSGRLILTGGMGGMSGAQPLAGKMAGAVTLVVEVERKRIERKINEGYCDYLVTDIDEALQLVNKYRQKREAVSIGLVGNCADVFPAIYEKGIVPDIVTDQTSAHDPINGYIPNGMCFEQALVLRKKDPKAYEEKAKATMGVHVQAMLDFQASGSEVFDYGNNIRAYAKETGVENAFDFPGFVPAYIRPLFCEGKGPFRWAALSGDPEDIYRTDRLVKEMFAEDESLVKWINMAQKMIQWQGLPSRICWLGYGDRHRFALEVNKLVATGEMKAPIVFGRDHLDSGSVASPNRETEGMKDGSDAVSDWPILNALLNTAGGASWVSVHHGGGVGMGYSQHAGQVIVADGTKEAAEKIKRVLITDPGMGVARHVDAGYDIAIETAKEKGIYIPMMDSEV PGPT0020250_2090 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712 NA NA AK015_03657 1137 acdA_3 COG1960 Acyl-CoA dehydrogenase ATGAATTTTGGGTATACGGAGGAACAAATCAGTATTCGAAGCATGGTTCGTGATTATGCGAAAAATGTATTGACGCCCCGAGCAAAAGAATGGGATGAGAAAAATGCATTCCCTTTGGAGCACGTAAAGTCTATGGGGGAACTTGGATTGTTAGGGATAGCATACCCAGAAGAATTTGGCGGTGTAGGTGCTGACTCTATAACGGAAGCAATAGCAGTTGAAGAAATAACATACGGCTGTGCTGCAACTGGTTCTATATTAACAGCCCATTACTTAGGAATTGATGGTTTATTCTTAGCAGGGAGTGTTGAACAAAAAAGAGAGTACTTAATCCCTGGTTGTAAAGGCGAAAAGCTCTTTGCATTTGGGTTAACAGAACCGATTGGGGGAACAGATGTAGGTTCCATGAAAACGACAGCCGTAAAAGATGGCGATGATTATGTTTTAAACGGTATGAAACATTTTATTACTAATGGTAAATATGCTGATATTATTATTGTTTATGCGAAAACGGATACATCAAAAGGAAATAAAGGCATTAGTGCTTTTATAGTAGAAAACGGAACAGAAGGCCTCTCGTTTGGAGTAGGGGATGACAAAATGGGGATTAGGGGAGCTACCACAGATGAAGTGATTTTTGAAAACTGTCGTATACCAAAAGAAAACCTTCTAGGAGAAGAGGGGGATGGTTTTAAGCTTGCTATGCAAGTTGTGGATAGGGGAAGGATTGGCATTGCGGCGATGGCTGTAGGTTTATCACAAGCTGCTTTAGATGCAGCAGTTCAATATGCTAAAGAAAGGCCAGCATTTGGCAACCCCATTGCGGAATATCAAGGTTTGCAGTGGATGATGGCTGAAATGAAAGCTGATTTAGAAGTATCTCGTATGTACACGTATTACGCAGCTTCATTAAAGGATGGTGGGGGAAGAATTTCTCAGGAAGCAGCTATTGCAAAATTAATAACGTCTGAAGCGAGTCAAAGAATTGTGCATAAAGCAGTTCAAATTCATGGCGGTTATGGATACATGAAGGAGTTTCCAGTAGAAAGATATTATCGCGATCAACGAATATTAGAGATATTTGAAGGCACGTCTCAAATACAAAAAATTGTTATCGCTAGTCACTTATTAAAATAA MNFGYTEEQISIRSMVRDYAKNVLTPRAKEWDEKNAFPLEHVKSMGELGLLGIAYPEEFGGVGADSITEAIAVEEITYGCAATGSILTAHYLGIDGLFLAGSVEQKREYLIPGCKGEKLFAFGLTEPIGGTDVGSMKTTAVKDGDDYVLNGMKHFITNGKYADIIIVYAKTDTSKGNKGISAFIVENGTEGLSFGVGDDKMGIRGATTDEVIFENCRIPKENLLGEEGDGFKLAMQVVDRGRIGIAAMAVGLSQAALDAAVQYAKERPAFGNPIAEYQGLQWMMAEMKADLEVSRMYTYYAASLKDGGGRISQEAAIAKLITSEASQRIVHKAVQIHGGYGYMKEFPVERYYRDQRILEIFEGTSQIQKIVIASHLLK PGPT0002285_674 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248 NA NA AK015_03658 1149 uctC_3 Acetyl-CoA:oxalate CoA-transferase GTGAAACCATTAGAGGGGATAAAAGTGTTAGATTTTACAAGGGTTTTAGCTGGTCCATTTGCTACAAAAATACTAGCAGATTTTGGTGCTGAAGTTATAAAAATAGAAAGAACAGGGCATGGAGACGATACACGTTCTTTTGGACCATTTCAAAATGGGTTAAGTGGCTATTTTGTTTATTTAAATACTGGAAAAAAGAGCGTTGAACTAAACTTAAAAGACCCTGACTCTATTTGTTTATTAAAGGAAATGGTGAAAGATGTAGATGTCGTAATTGAAAATTTTAGACCTGGAATTATGCGCAAATTTAATTTAGATTACGCATCTCTAAAAGCTATGAAACCAAATATTATTTATGCTTCTATTTCCGGTTTTGGACAAGAAGGCGTCTGGAGTAATAAGCCTGCCTATGATCTTATTGCACAAGCCGCGGGAGGCATAATGAGTATTAATGGTTATCCTGATTCACCACCAACACGTGTTGGTGCTTCCTTAGGAGATACTAGTGCTGGTTTAAATGCAGCGATTGGAATCACTACTGCTTTATTTCATAGAGAGCGAACGGGGGAAGGGCAGCATATTGATGTGGCGATGGTAGACTCGATATATGCATTATTGGAGAGTAATGTGATGCGGTATACAGTAGATGAAAATGTTCCACAACGAATTGGAAATCGGCACCCGATAAGTGCACCGTTCGATATATATCAATCAAAAGAAGGATATTTAGCTATTGCTATTGCTAATGAATCATTGTTTGAAAGATTTACTACATTAATTCATCGGGAAGATATGCTAGAGGATGAACGTTTTCGTACAGATAACAACAGACAGAAATACCAAGAGTTATTAAAAGCCGAAATAGAAAATTGGTTACGTCCATACACTGCAACAGAGGCAGCAGCTTTACTTGAACAAGGGGGGGTACCTTGTTCTGTTATACACGACATAAAAGATATTTCTGAAAGTGCCTATATAAAAGAGAGAAATATGCTTGTAGATGTGAATCAATTAGAACATGGTTTGTTTAAAATACCTGGAAATCCTATTAAGTTATCAAGCTTAAAACAAACGAATATTCAGCCAGCCCCAGAGCTTGGAGAGCATACAGAAGCTATACTTGAAAAATATAAGGAGATGATGAAATGA MKPLEGIKVLDFTRVLAGPFATKILADFGAEVIKIERTGHGDDTRSFGPFQNGLSGYFVYLNTGKKSVELNLKDPDSICLLKEMVKDVDVVIENFRPGIMRKFNLDYASLKAMKPNIIYASISGFGQEGVWSNKPAYDLIAQAAGGIMSINGYPDSPPTRVGASLGDTSAGLNAAIGITTALFHRERTGEGQHIDVAMVDSIYALLESNVMRYTVDENVPQRIGNRHPISAPFDIYQSKEGYLAIAIANESLFERFTTLIHREDMLEDERFRTDNNRQKYQELLKAEIENWLRPYTATEAAALLEQGGVPCSVIHDIKDISESAYIKERNMLVDVNQLEHGLFKIPGNPIKLSSLKQTNIQPAPELGEHTEAILEKYKEMMK PGPT0014505_626 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-ENVIRONMENTAL_QSR|BF_SIGNALLING CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014505-uctC|yfdE-K18702 NA NA AK015_03659 1326 hypothetical protein ATGGAAAAAACAAAAATTCGAGAGGAGCAATCGTTATCGGATAAAAGAGCCGCTTGGAAGTTTGTGCTATTCAGTTTGTTTGGGATCATTTCTTTCTTTGTTCCCGTACCAATTGGAGGAGAATCATCAATTTTACTCGACCATATTGTAAGTGGAATTAAAACCACCCTCCCCATGTTTGTCATACATAGTTATACTGTTCTCATTCTTTTTCTTGGTGCTGTCTATCCAATAGCTAATAAGACATGGAGAGATAGTTTTATTAATGTAATCCTTACTTTATTTAAAGTTGTTGGATTTGTTTTTGGAACCATGCTTGTATGGAACGTTGGGCCAGCTTGGCTCTTTCATCCTGATCTCGGGCCATTTTTATTACAACAATTAATCATACCTGTTGGTATTTTAATACCCATAGGAGCTATGTTTTTAGCATTACTTGTTAACTATGGATTTTTAGAGTTCGTTGGCGTATTTATGCAAGCAATTATGCGCCCTGTTTTTAAAACTCCAGGACGCTCAGCAATTGATGCAGTTGCATCGTTTGTCGGTAGTTATTCGATAGGTTTATTAGTAACAAATCGAGTCTTTAATCAGGGTAAATACACAATTCGAGAGGCTTCCATTATTGCTACTGGCTTTTCTACAGTTTCTGTTACGTTCATGATAGTTATTGCAAATACGTTAAATCTAATGGATTTTTGGAACTTGTACTTTTGGATGTCTTTAATCATAACGTTTGTTGTAACAGCTATTACAGTAAGAATTTGGCCCTTAAGCAGGATAAAGAATACGTACATTAGCGGAAAAGGAAATCCTGAAACGATCATCAAAAAGAATCGATTATATCATGGATGGAAAGAAGGCATTTATGCGGCAAATCGAGCTCCTAGTATATTTTCTAGTGTAGTTGCGCATTTAAAAGAAGGATTAATGATGACAATGAATACACTCCCTTCCATAATGTCTGTAGGTCTACTTGGTTTAGTACTTGCCTATTATACACCACTATTTGATTGGTTGGCTTATATTTTTGTTCCAATTACATGGCTCTTACAAGCACCTGAAGCTCTATTAACTGCGAAAGCTGCTGCTATTTCCATTTCGGAGATATTTTTACCATCTTTACTTGTGGTGGAAGCTGAGCTTGCAACTAGATTTATAGTTGCTGTGCTTTCCGTATCATCCATTTTATTTTTTTCAGCAGTAATCCCTGTCATTATTTCAACGGATATACCAATACCGATATCTAAGATGATTATTATATGGTTTCAGAGAGTTGTGCTAACGTTATTTATCATCATACCAATAGCAAAGTTAATTTTTTGA MEKTKIREEQSLSDKRAAWKFVLFSLFGIISFFVPVPIGGESSILLDHIVSGIKTTLPMFVIHSYTVLILFLGAVYPIANKTWRDSFINVILTLFKVVGFVFGTMLVWNVGPAWLFHPDLGPFLLQQLIIPVGILIPIGAMFLALLVNYGFLEFVGVFMQAIMRPVFKTPGRSAIDAVASFVGSYSIGLLVTNRVFNQGKYTIREASIIATGFSTVSVTFMIVIANTLNLMDFWNLYFWMSLIITFVVTAITVRIWPLSRIKNTYISGKGNPETIIKKNRLYHGWKEGIYAANRAPSIFSSVVAHLKEGLMMTMNTLPSIMSVGLLGLVLAYYTPLFDWLAYIFVPITWLLQAPEALLTAKAAAISISEIFLPSLLVVEAELATRFIVAVLSVSSILFFSAVIPVIISTDIPIPISKMIIIWFQRVVLTLFIIIPIAKLIF NA NA NA NA NA AK015_03660 1557 rhaR_7 HTH-type transcriptional activator RhaR ATGGATATTTTAATTATTGATCGAGATGAAACGGAAAGAACTGGAATGGAATGGTTTATTCGTTCCAACCAGCTGCCATTTGAGCATATTCTTCATGCAAGGAATATCAAACAAGCAAATATGCTTTTAAGCAAAGGAAAACCGCATGTCGTCATACTCGAACTGGAATTGCTTTCTCCTACTAATTTTGCAGCTTTTGCTACGAACATTCGCAGGTATTCCAAAAGCTTAATTACAACAACAGCAGAGCCTGTCTTTGAAAGAGCCTCGCAAGCTATTGAACTGCAAAGCAAATCACTACTTGTCAAACCACTTAACCTTACACTATTAAAAAAAGCACTAACAAACGCAACAAAAATAGAGCACAGCAGTCAGCCTATGGAATACATTTCAAGAAGTCACGAAATATACCATTCCTTATTTTTAAAAACTTCTTTATCAGACCCTGTTCAGCCCATTTTTTTGCTGATAGAACCAGAAAAGCAAGCACACATACAGGATTTATTTACATGGTTATACAATAATAGCCCACCATTTAAAATTGAGCTTTATCCACTGCATAACCGAATTGTTTGTTTAGCGTATGTAAGGTATCCGTATACAACGGAGAACATCAAATTCGAAGTCTCAAAAATAATGCAGTTATGGAGAGAAGCATTTGACTTCAACATAAATATCGCTATTTATAAAAACGAGATGGATATTATTGATCTACATCAAGCCTATGTAGTGACAAAAACTGTGCTTAACATGAGATTTTACAAAGGGTTTAATCAAGTATTTGTAGTTGATCAAGTTTACACTTTCTCATCTTTCGATCCTTTTTTAACTTCTGATGAACAGAGATTTTGGATGGAGAGCTTAGAAAAAGGAGATATTGAGAGTATTAAAGATTATTTATATCAAACGTTTACAAGACCGTTTAACAATTATCCCGAACCAGAGATTGTCCGAATTCAACTTACAAGTGTTCTTGCACAGGTGCGACGGTTTATTAATAACTGTAAATTATCTAAAATAGAAGTTGTGGAAGAAGCGTACCACCATACGTTTCAAATCATTTTAAATCATCCAGTTTTGTACACAATTGTGCAAGAATTCATTCTATTTTGCATCACTGTCATCAAACATGCTCAAGTTCAAAAGCAAAAGCGAGAATTTAATTATTTAGAAAGATCGCTTTTGTATTTAGAACATCATTTTAATAATGTAAATCTTCGCCTAGAAGATCTAGCGAATTACCTAGAAATCAGCCCCAATTACTTAAGTCATTTACTTTCGATGGAGAATAAACCATTCAAAAAAATTGTAACTGAATTCAGAATAAATAGTGCGAAAAAACTTTTACTCCATACGAATGAAACCATTTATAACATTAGCATTTCTGTTGGCTTTAAAGACCAAAATTACTTTTCCAGAGTTTTTAAGCAATTCAACAATACATCACCAAAAGAATATAGAAGGTCACATCAAACGCAGCCAAGAACAAAGGCGCAAGCGCCCGTTCAGCAACGTAGCGACTGGAACGAATCAACTGAGATAAAGGAATCACGGTGA MDILIIDRDETERTGMEWFIRSNQLPFEHILHARNIKQANMLLSKGKPHVVILELELLSPTNFAAFATNIRRYSKSLITTTAEPVFERASQAIELQSKSLLVKPLNLTLLKKALTNATKIEHSSQPMEYISRSHEIYHSLFLKTSLSDPVQPIFLLIEPEKQAHIQDLFTWLYNNSPPFKIELYPLHNRIVCLAYVRYPYTTENIKFEVSKIMQLWREAFDFNINIAIYKNEMDIIDLHQAYVVTKTVLNMRFYKGFNQVFVVDQVYTFSSFDPFLTSDEQRFWMESLEKGDIESIKDYLYQTFTRPFNNYPEPEIVRIQLTSVLAQVRRFINNCKLSKIEVVEEAYHHTFQIILNHPVLYTIVQEFILFCITVIKHAQVQKQKREFNYLERSLLYLEHHFNNVNLRLEDLANYLEISPNYLSHLLSMENKPFKKIVTEFRINSAKKLLLHTNETIYNISISVGFKDQNYFSRVFKQFNNTSPKEYRRSHQTQPRTKAQAPVQQRSDWNESTEIKESR NA NA NA NA NA AK015_03661 678 ntcA_1 Global nitrogen regulator ATGAAAGTGAAAGATACAATAGACTATAGTCAATTTGAATTTTTATCGTATTTTACGAGAGCGGAATTATTTGATTTAGAGAACTTTCTGTTTTTAAGAACATATAAAAAGAACCAATTATTATTTATGGAGGGTGATCCTAGAGAGAGGATTTATTTTTTAAAGGAAGGGTTTGTAAAATTAGAAAAAGTTAGTTCGGATGGAACCATGCTTTATGTTGACTATGTAAGAGCATATAATATGTTTCCGTACGGTGGTTTTTTTAAAGATAATTTCTATCATTTCTCAGCATCTGCGCTAACGAATATCGTTGTATATTATATCCCCACAAGAATTTTAGAAGAAAAGGCAATGTATAATACGAAGCAAATTTTCGCTATCATTCATCATTTATCAAAAATATTGGAATATCATGAAAATCGCCTCCAAACTTTAACTACTTCAAACGTAAGAGATAGGGTAGAGCAGTCTCTAGCATGTTTGATCAAAGATTTTGGTTATAAGAATAACGGGAGATGGATTATCGATTTACCAATGACGTTAACGGAGTTGTCGAAATTAACAGGTGCGTCTCGTGAAACTGTTTCGCATATTTATAATGATTTAAAAAAATCAGGTATTCTTATATTGGAGGACAGGCGTTTTATTATATATGATAGAGATTATTTTGCCGTGTAG MKVKDTIDYSQFEFLSYFTRAELFDLENFLFLRTYKKNQLLFMEGDPRERIYFLKEGFVKLEKVSSDGTMLYVDYVRAYNMFPYGGFFKDNFYHFSASALTNIVVYYIPTRILEEKAMYNTKQIFAIIHHLSKILEYHENRLQTLTTSNVRDRVEQSLACLIKDFGYKNNGRWIIDLPMTLTELSKLTGASRETVSHIYNDLKKSGILILEDRRFIIYDRDYFAV NA NA NA NA NA AK015_03662 312 hypothetical protein TTGGATGATATTGGAAAAAGACTCGTTCAATTAAGAAAATTAGAAAATCTAGGTCAAAAGGAGGCAGCAAAACTGATAGGAATTTCTAGTGTTAATTTATCCCGTTACGAAAAGGGAAATCGAACTCCTAACCCTGACATGATAAAAAAACTAGCAAAATTTTATTGTGTGAAGCCATCCTACCTAGCCTTTGGCGAAGAAGAGCATTTAAATTTTCTATCTGACATAACGAAAGAAGAAGCAAAAATGTTAAAAGATTATTTGATTAGAATTCGTGAAGAAAGACAAAAGCACGGGGGAGAAATTTTATAA MDDIGKRLVQLRKLENLGQKEAAKLIGISSVNLSRYEKGNRTPNPDMIKKLAKFYCVKPSYLAFGEEEHLNFLSDITKEEAKMLKDYLIRIREERQKHGGEIL PGPT0027625_52 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-PezT-PezA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027625-antitoxin_pezA-K18830 NA NA AK015_03663 765 lnrL_6 COG1131 Linearmycin resistance ATP-binding protein LnrL ATGCTAACAGGGATCATCCAACCTAGTTCGGGATCGTACTCTCTTTTAGACGTACAAGGCCCGAATGATGACATAAAAAAGCAGATTGGCGTCATGCCCGATTACTCTGCTTTATATGCTTCTATGACTGCGATGAAACATTTGAAGTTTTTAGCAGCTGTTTCTGAAAAGCCTGTATCTGATGAACGTTGTATGGACATATTAAAACTTGTTGGGCTTGAAGAACATGCACATAAAAAAGCGGGCAAATTTTCATTTGGGATGAAAAAGAAACTTGCTATTGCTCAAGCAATCATTCATGATCCGCAACTTATCTTCCTTGACGAACCAACGTCCGGACTTGATGCGGAATCGGTTATTCACATTCATCATTTAATTCAACAATTACATCAACAAGGAAAAACTATTTTTATGACGTCACACAACTTAGATGAAGTAGAAAAAATATGTTCCCGTATCGCTATTATGAAAGACGGAAAAATAGGCAAGATCGGCTCCATGGATGAATTACGTGCATACTATCAATCTACCATTACTGTAACTATTAAGCATTCACCAATCCGCTCTACTCATTTACCAACACTCGAACAATGGCTCACTTTAACAGGCACACAGCTAGAAATGAAAACTTCCCAGTTTACGATTCATGTTGCGAGTGAAAAAAAGATTGCGGAAATAATTCGCGCACTTGGTAAATACAACATAGATATTTATCGCGTAGACGTAGATGAGCCTTCTCTGGAAGAAATATTTTTAGATGAGTAA MLTGIIQPSSGSYSLLDVQGPNDDIKKQIGVMPDYSALYASMTAMKHLKFLAAVSEKPVSDERCMDILKLVGLEEHAHKKAGKFSFGMKKKLAIAQAIIHDPQLIFLDEPTSGLDAESVIHIHHLIQQLHQQGKTIFMTSHNLDEVEKICSRIAIMKDGKIGKIGSMDELRAYYQSTITVTIKHSPIRSTHLPTLEQWLTLTGTQLEMKTSQFTIHVASEKKIAEIIRALGKYNIDIYRVDVDEPSLEEIFLDE PGPT0006725_22607 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03664 618 ycgM COG0179 putative protein YcgM ATGAAAATAAACAATATATTTTGCGTTGGACGTAATTATGCAGATCATGCCGTTGAGTTAGGGAACGATATACCAGAAAAACCCTTGATTTTTTCAAAACCTACCAACTCCTTGGTAATTGCTGATGGCACTCCTATTGATTTTCCAGCTAACCAAGGCGAAATCCATCATGAATTAGAGATTATTTTATATGTTGGCAAAGATGTTTCAGCAGGAGATAAAGTGGATGATGTAGTGACAAAAATGGCTTTAGGAATTGATTTTACATTGCGCGATGTGCAAACAGAACTGAAAAAGAAAGGGCATCCATGGCTTGTGGCAAAGGGGTTTAAAAATGCGGCGGCTTATACGGATCTTTGGGATTTCCCTGGACAAGCAGCTTGTTTAGAAAAAGATTTCACCTTATTACGTGATAAAGAGATAGTGCAGACAGGAAATAGTGCTTCCATGATTTTTCCATTTCAAGCAATAATTGATTACTTGCAAGCAAATTTTAGTTTAAAAGCAGGAGATATTATTTATACAGGCACACCTGAAGGCGTCGGGCCGATTCATCATGGTGAAACGTATGCATTGAAATGGGGCGAAGAAGTAAAGGGAAGCTTTCGTGTACGATAG MKINNIFCVGRNYADHAVELGNDIPEKPLIFSKPTNSLVIADGTPIDFPANQGEIHHELEIILYVGKDVSAGDKVDDVVTKMALGIDFTLRDVQTELKKKGHPWLVAKGFKNAAAYTDLWDFPGQAACLEKDFTLLRDKEIVQTGNSASMIFPFQAIIDYLQANFSLKAGDIIYTGTPEGVGPIHHGETYALKWGEEVKGSFRVR PGPT0001620_1201 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001620-nagK-K16165 NA NA AK015_03665 882 fda Fructose-bisphosphate aldolase class 1 ATGCAACAACAATTTGAAAAAATGAAAAACGGCAAAGGTTTTATTGCCGCACTGGATCAAAGTGGGGGCAGTACTCCAAAAGCATTAGCTGCTTACGGAATTTCTGAAGACGCTTATTCCAACAAAGATGAAATGTTTGATTTAGTACACGAAATGCGTACACGAATCATTACATCGCCTGCATTTGATTCAAATTACATTTTAGGGGCTATTTTATTTGAACAAACAATGGATCGTAAAATTGAAGGAATGTATACAGGCGATTACTTAGCTGAGAAAAAAGGAATTGTACCCTTTCTAAAAGTAGACAAAGGACTTGCTGAGGAAACAAATGGCGTCCAATTAATGAAGCCTATTACAGACCTTGACGAAACATTAAAACGGGCAAACGAACGCCACATATTCGGTACAAAAATGCGCTCTGTGATCAAAGAAGCAAATGCGGAAGGAATTAAAGCTGTAGTAGATCAACAATTTGAGGTTGGTAAACAAATTATCGCTGCTGGTTTAGTTCCAATTATTGAGCCAGAGGTAGACATAAACAGCCCAGAAAAAGAAAAATGCGAGCAAATGTTAAAAGTCGAAATTCTCAAACATTTAAATAACTTAACGAAAGATGAATTCGTGATGCTAAAATTAACTATCCCTACTGTACCAAACTTGTATAAAGTGCTTATCGATCATCCAAATGTTGTGCGTGTTGTTGCGTTATCAGGTGGTTACTCAAGAGATGAAGCAAATGCCAAACTAAAAGAAAATGATGGATTAATTGCCAGCTTCTCTCGTGCACTTAGCCAAGATTTAAATGTTAGCCAGACAGATGAAGAATTTAACCAAGCATTGCAACAAGCGGTTAAATCGATCTATGAAGCTTCAATTTAA MQQQFEKMKNGKGFIAALDQSGGSTPKALAAYGISEDAYSNKDEMFDLVHEMRTRIITSPAFDSNYILGAILFEQTMDRKIEGMYTGDYLAEKKGIVPFLKVDKGLAEETNGVQLMKPITDLDETLKRANERHIFGTKMRSVIKEANAEGIKAVVDQQFEVGKQIIAAGLVPIIEPEVDINSPEKEKCEQMLKVEILKHLNNLTKDEFVMLKLTIPTVPNLYKVLIDHPNVVRVVALSGGYSRDEANAKLKENDGLIASFSRALSQDLNVSQTDEEFNQALQQAVKSIYEASI PGPT0017635_2456 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017635-fda-K01623 NA NA AK015_03666 915 hypothetical protein ATGCAACCAAATTATGATAATTATCATTTGCCTACCCAATACAATCGACCAACAAATCAAACACATCTGATGAATCAAATCCAGACAGCCATTCACGCAGAGTACAGTGCAATAGCCTGCTATGAAAAATTAGCGTCTTTAGCGCCAACTTCCTTTGCAAAACAACAGATCTTGGAAATACAACAAGACGAAAAGCGCCACTTAGAAACATTTACCCATATCTATACGAGATTAACGCATAAACAACCAACTTATCAAGTTACCGAATCCTGCCCAGACACCTATGATGCAGGCATTGCATTTGCATTTAAAGATGAGCAAGGAGCCGTGGATTTTTATTTAGACATAGCAGATCAAGCTGAAGATCAGTATATAAAAGAACGATTCCGACGTGCCGCTGCCGATGAACAAAATCACGCGGTATGGTTTTTATATTTACTACATTCCACATCACAAAAGCCACCAAGGTGCTATCGTCAAAACGAAAACTATGGCGCTAAAGGGGCACTGAATGACCCTAATCTCACATTGATGTCCATGCTCACTTACGCACTTCAAGACGAGTATTTGGCTCAAGCCAGATACAATACGATTTTAGAGACATTTGGCTACATTCGTACATTCGCACAAATTCAAGAAGCAGAAAAGCGGCATATCGGAGCCTTACTAACGTTATTTGACCGTTATCAAGTTGCCATACCAGAAGACGCATCCGCAAAGTTCGTAACCACCCCGGATAATATAAAAGCTGCCTATGCTCAAGGCGTAGAAGGGGAAATAGATAATATTTCTATGTATGAAAAATTTTTAACGTATACTATTCCAGCCGATATGCAAACTGTTTTCTCTCAGTTACGAAATGCCTCCTTAAATCATTTACAAGCATTTGAAAATGGGCTCGCCAGACATTCATGA MQPNYDNYHLPTQYNRPTNQTHLMNQIQTAIHAEYSAIACYEKLASLAPTSFAKQQILEIQQDEKRHLETFTHIYTRLTHKQPTYQVTESCPDTYDAGIAFAFKDEQGAVDFYLDIADQAEDQYIKERFRRAAADEQNHAVWFLYLLHSTSQKPPRCYRQNENYGAKGALNDPNLTLMSMLTYALQDEYLAQARYNTILETFGYIRTFAQIQEAEKRHIGALLTLFDRYQVAIPEDASAKFVTTPDNIKAAYAQGVEGEIDNISMYEKFLTYTIPADMQTVFSQLRNASLNHLQAFENGLARHS NA NA NA NA NA AK015_03667 1512 hypothetical protein ATGAAGCCCACTAAATTGACATACGGAATACTGATAGTTATCGGATTGATTGCTATTGGACTAATAGTTAGTTCATTGTTTGAATCTATAGATAAGGATGTTGCTGCTACCCATACTACGGCTAGTAGTGAAAAAAAAGCGCATCCCAATTATCCAGAAGTTCAGGTTGTTACTGAAAAAGCACATGACAAAGTATATAGCATGGAGATTGATTATCCGCAGTTTCAGAGTAAGAAATTAAACAAAAAAATGAATGCCTTTGTAAAAATGGCTAAAGAGGATTTTTTACACAATGTAGAAGAAAATAAACAACAATTAAAGAGTCAAGAGGCGAGACTCGCTATCCGTTCAGACATGCAAAAGTTTTCAGATCACATTTATTCTGTAGCAATCCATGAAAAGAGTTGCTTACATGAAAAGCAATGTCAAGATTTATCTGACATCGTTATAGTAGATAGCAAGAATAATAATTACATAAACCAAACAGAGATCTTACAAGATACAGAACAGAACCGAGGTACTCTTTTTCAATTGCTAAAGCATGCGTTTGAACAATCTGATAAATATAGTGAACATTTTTCTAGTAAAAAGTTATCGGAGTGGGTCTATGATAAGGACAACAATTTTTCCAATATGTATCTTGCAGATGAATCGATAGTTTTTCAGTTTGATAATAATAAAGTGATAGATAAAGAAGCGGAAATCACTATCCCTTTTTCGAAAATGCAAGATGTACTAACAGATGAGTGGAAAGATATGATTAGACATGAAAGCACTGAGGGTAGTGATAATACAGAGAATAGTAAAAGTACCGTGAATAAAGAAAATACCAGGGATAATGATAGTACAGAGAATAATAAAAGCACGGAGGATAAGCAAGAGGATTCGACTATAAAGCAGGAAGAAAAAAATTCAAATTCTCCCTCAGTTAATCAAGAAAAGCATCCTTCTTCGAATCAGAAGCGAGTTGCTCTTACATTTGATGATGGTCCACATCCGCAAAACACCCCAAAGGTGCTTGATTTACTAAAACAGTATAACGCAAAAGCAACATTTTTTATGCTGGGAAATAAAGTAACTGCAAATGCAACCGTCGTTAAAAGAATGAAGGATGAAGGGCATGAATTAGGTAACCATACCTGGGACCATAAAGATTTAACAAAATTAGGTGTAGCAGGAATAAGACGAGAAATAGAACAGACCAATGAAGCCATCCGTAATGCTACTGGTAAAAACCCCACTTTATTTCGTCCACCGTATGGAGCGACAAATGGAAATATAGAAAAAATTGTAGGTTTACCATCCATTCTTTGGACTGTTGATACACGGGATTGGGAATCACTTGATCCAGTAGCAATTTTAAATGAAGTGAAAAGTCATACAACAGATGGTTCTATTTTGTTAATGCATGATATACATACATCTACTGTAAATGGGTTGAAATCCGTATTGGATTATTTAGTTGGAGAAGGTTATGAATTTGTAACTGTTTCGGAAATAATTAAAACTTAG MKPTKLTYGILIVIGLIAIGLIVSSLFESIDKDVAATHTTASSEKKAHPNYPEVQVVTEKAHDKVYSMEIDYPQFQSKKLNKKMNAFVKMAKEDFLHNVEENKQQLKSQEARLAIRSDMQKFSDHIYSVAIHEKSCLHEKQCQDLSDIVIVDSKNNNYINQTEILQDTEQNRGTLFQLLKHAFEQSDKYSEHFSSKKLSEWVYDKDNNFSNMYLADESIVFQFDNNKVIDKEAEITIPFSKMQDVLTDEWKDMIRHESTEGSDNTENSKSTVNKENTRDNDSTENNKSTEDKQEDSTIKQEEKNSNSPSVNQEKHPSSNQKRVALTFDDGPHPQNTPKVLDLLKQYNAKATFFMLGNKVTANATVVKRMKDEGHELGNHTWDHKDLTKLGVAGIRREIEQTNEAIRNATGKNPTLFRPPYGATNGNIEKIVGLPSILWTVDTRDWESLDPVAILNEVKSHTTDGSILLMHDIHTSTVNGLKSVLDYLVGEGYEFVTVSEIIKT PGPT0018645_293 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK015_03668 339 hypothetical protein ATGAATGATATAAGAAAATTAATCCAGAAATTGAACGCCTTTCGCGATGAGCGAGATTGGAGACAATTTCACAACCCGAAAGATTTAGCTATCTCTCTGTCGTTAGAAACAGCCGAATTACTGGAAGATTTTCAATGGAAAACAAGCGACCAAGCAATCGAGGAGAACCTAGAAAACATAAAAGAAGAACTCGCTGATGTCATGATTTATGCACTGATGCTTAGCCATGATCTTGATTTAGACGTTAAAGAAATAATATTGGATAAAATGCAGAAAAACGCGCAGAAATACCCTGTAGAAAAGAGCAAAGGTAGGAAATTAAAATACGATAATTTATAG MNDIRKLIQKLNAFRDERDWRQFHNPKDLAISLSLETAELLEDFQWKTSDQAIEENLENIKEELADVMIYALMLSHDLDLDVKEIILDKMQKNAQKYPVEKSKGRKLKYDNL PGPT0021350_373 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021350-mazG-K16904 NA NA AK015_03669 1344 hypothetical protein ATGCAAATCAATCATTTTTTAAATGTATACAGCAACAACAGTATAGTGACTGAACAGAAGAAGCCATTTAATACGAATTCCTTTGGTATAAGCAAATTGGAAGCATATAAAACTACGACAGACGAAGCGAAGGAGCATGCATTACGAAGGTTGATGTCCCCTATTTTAGTGAACCTATCTCGAACAAGTGACGGCAAGATAACAGGAGATAGAATACAGCGTAATCGAGAAGATGTTTTAGCATTAACCGAAGACGATTTAAACAATGTGGATATAAATTGGGATCGTTTACAGATGGATCTAACCAATCGAACACCTAGTTATGCTACATTAGATCGATTAGTTAAAGATATGGATCATATTGCCTCCCAATATGCTTATAGCCAGTTCCGAATAAAACAGAGTTTTACTGGGTCTGAACGGGAAGAATATTTAAAAAAACTGGATTCTATTATCAATAATCATGTGGATAGTTATGCGAAACAATTTTCACGTATGACGGGTAGCTTTTTGAGTGAGCATGGTGTGAATGAGGAAGCTGAAATGATCAGTGCTAGTATTAAAGATTTATTTCAACAGCGCAAAGAGCAATATACAACGTTTATACAAAAAAATGAAGATTTTGCTGGTATAAAAGGGACCCCGAATGAGTGGTTGGTAGCAGATAATACGTATATGGCTCAACAATTGCAGTCTTCTTATAGAGAGAAGCTTTCGAATAATACATCAACAAAGGAAAGCGGATATAATATGGATGAGTTAATGGCTATTGGGACATTGGTGAAAGAAATGCAGTATGTTGATTATAGGTCTCGTCCATTAGGTGGAAACAAGCATAAATCGGAAGAGGAATTTGGTGTTGAGCTTGGGTTTCAAGCTATGAAATATGCCCTCATCAAAGACAGCTATGAAATGCGGGACGGGCTACAATCGAAACTCGATATGGTATTTCAGGAATTTGTAGACAAGCAAAATGAAAAAGCGGCAGATTATATCAAGCGTATGCGAAATGATCCGTTTGTAAGGAATGAGGAAGCATATCGTATGGATTGGAATGACCAACTTGTTCAAGACATCATGGCTTCCCTCGTTGGTAACTTAGATGCTGTAGATGTGAACGGATCTTTTCAGAAGGACATGTCTGCCATTTTGCAGGGGTATATAAATCACACAAAAAATACGGAAACGAGTAAGTTGTCGCGATATCATGAATATCATAACTCCTGGAATAAAAGTAACAATATAGCAGATTGGAACCGCTTTGTTGAACATATTTTGCCAAGAGATTCTATGCGGACATATTTATTAGAAGAAAACCCATCTTATGTAGATATTACAATATAA MQINHFLNVYSNNSIVTEQKKPFNTNSFGISKLEAYKTTTDEAKEHALRRLMSPILVNLSRTSDGKITGDRIQRNREDVLALTEDDLNNVDINWDRLQMDLTNRTPSYATLDRLVKDMDHIASQYAYSQFRIKQSFTGSEREEYLKKLDSIINNHVDSYAKQFSRMTGSFLSEHGVNEEAEMISASIKDLFQQRKEQYTTFIQKNEDFAGIKGTPNEWLVADNTYMAQQLQSSYREKLSNNTSTKESGYNMDELMAIGTLVKEMQYVDYRSRPLGGNKHKSEEEFGVELGFQAMKYALIKDSYEMRDGLQSKLDMVFQEFVDKQNEKAADYIKRMRNDPFVRNEEAYRMDWNDQLVQDIMASLVGNLDAVDVNGSFQKDMSAILQGYINHTKNTETSKLSRYHEYHNSWNKSNNIADWNRFVEHILPRDSMRTYLLEENPSYVDITI NA NA NA NA NA AK015_03670 1065 hypothetical protein ATGAGTATAAAACGAAAGTCCTCCATCATTGTTTTTATAATTACTTTAATGGTGGGTTTATTTTCTTTATCATTAACGACTTATGGAGCAGAAGTGGATTTTAAAGCTTTTAATGTAAAACCACACTTGAGCAATCAAAATGTGGAGTTTAGTGATGAAGTGCCAGTATTGGATAAAACAAAGGGAGTTCCTGTAAAGAAACCTGCGTCTATTAAGTCTAATTATAATATTTCGGGGGACCGAATGTTCTTTAATGATTCCTTAGTGGAAACGGACCCAGATGACTTTTGGTTTTTTAATGCTTCTGATGATAGAAGTATACTTTTTGAAATAGAGACGGATAATCCAGATTACGTTGTGGAACTCTATAAAGTTGATTGGGAAACAGAAACAGCATACCCTACTTCTATAAGCGGTTCGCCGGGAAATATAGTAGCCAATAGTCAATTAATAGCTGGTGATTGGGCGCTAAGAGTCTATTCTACTGAAACAATGGGGGACAATTATACAATTAAGATGAATGCAACTAATCCATCAGGTGCAACAAGTATAATTTCTACTTCTCCTTCATTGTTGCAAGCAATATTACTTTATCCAAATAGAGAAGTTTATTCAAATGGTAATTATGTTCTTACTGTTGATGGAAGTAATTCACATTTGGATTGGGAACGTGAATATTATTTTAGTTGGGATGGAAATTATAATCAACGGACACACAGCGTTTCTGATGCAAAAGTTAAATCAATTGCAGGCCCTGTCAGTTACCAATCAGATTATGCTAGCTCTGATAACGCAATATTAGTATATTTAGATAAAGAAACTTTATTTATGCACCATGTTTCATCCTTTAGATCAGGCCCGCCAACTCAATATGAAGACTCATTTGTTGATACAATTGGAAAAACAACTCCTAGAAGGTTAGATGATGATGATCTCAATAATTGGGGGGATCATATAATCGTTTTCGATGTAAACAAGGGACGTTCTATCGATTTTTTCAGTACTCTAAATTTTTACTATGCAAGTGGTGTTGAGTCTATTCCTACGATAGAATTTTTGAATTAA MSIKRKSSIIVFIITLMVGLFSLSLTTYGAEVDFKAFNVKPHLSNQNVEFSDEVPVLDKTKGVPVKKPASIKSNYNISGDRMFFNDSLVETDPDDFWFFNASDDRSILFEIETDNPDYVVELYKVDWETETAYPTSISGSPGNIVANSQLIAGDWALRVYSTETMGDNYTIKMNATNPSGATSIISTSPSLLQAILLYPNREVYSNGNYVLTVDGSNSHLDWEREYYFSWDGNYNQRTHSVSDAKVKSIAGPVSYQSDYASSDNAILVYLDKETLFMHHVSSFRSGPPTQYEDSFVDTIGKTTPRRLDDDDLNNWGDHIIVFDVNKGRSIDFFSTLNFYYASGVESIPTIEFLN NA NA NA NA NA AK015_03671 591 hypothetical protein ATGTTTTTGCAATATAGTACATTTTTCCTGCAAAAAACAACGCTGTATAAACTACAACGAAAGATTTATACCATTAGCGCAAACAACCAAATCATCGGCAAAATAGAAGAAACTCCAGCTTCCCATAAGAAAATAACGAACCAACTAGTAAAACTGGTCGCTTACCAATTCATAAGCTTTGATTTACAGGTTTTAGATAGTAACGGTCATATTTTAGGCTGGATTACTAAAAAACAGAAAGGAATAACAACCGATTTTTACCTTCTTTCCAATGAAGGAGAGCTTTTAGCAACGGTTCAACCAAAGCTAAAACTATCTACCGCAATTATGACGGTCATTGACAAAGAAAATAAGCAGCTCATACAAGCTAAAGGTGATTTTGGTGCCATTCATTACACTGTGGAAGCATGTAAAAATAACACTACTACTATCGCTTCTATTCAGAAACGGTCGCTTGTATACGATTCCATTCAAGATAGTATCCATCAACATGATGGTTATTATCTAACAATGGAAAAGACTGATGCCCTCACCAAGCTTGCCTTGTTAGCAATTGGCATCATGATAGATGTGTATATCTATGATGTATAA MFLQYSTFFLQKTTLYKLQRKIYTISANNQIIGKIEETPASHKKITNQLVKLVAYQFISFDLQVLDSNGHILGWITKKQKGITTDFYLLSNEGELLATVQPKLKLSTAIMTVIDKENKQLIQAKGDFGAIHYTVEACKNNTTTIASIQKRSLVYDSIQDSIHQHDGYYLTMEKTDALTKLALLAIGIMIDVYIYDV NA NA NA NA NA AK015_03672 150 hypothetical protein ATGAAAATAGATCGCAGAGTTCGTAAGTCAAAAGATGCGTTAAAAACAACTCTCATACAGCTTATGAAAGAAAAGGATTTACAACAAATCACAATTACTGACATTGTTAAAGTCGCTGACTTAAATCAAGGAACGTTCTATAAGCACTAA MKIDRRVRKSKDALKTTLIQLMKEKDLQQITITDIVKVADLNQGTFYKH NA NA NA NA NA AK015_03673 447 hypothetical protein TTGATAGAAGAGCTGATTCAAGATGTCATATCAAACCTCATACACTCGTTTCGAGCCCCATACCATAATAAAGAAACTTTCATCCTTGAAGAGATGAAGGCTTCCACCATCAAGATATTTGATCATGTCGCTCGATTCTCAGAATTTTATCCAACCATCATTCACCATGAATCTATTATGCCAGGCTTTCAAACTAAATTATGTAATGTGATTAAAGAATTAGCCTTGAAAGATTTACAGGGTGCGGAAGAAAATCATACAATCAATAAAGACTTACAGGCAAGCTATCAATCTTATGCCCTGCTAGGAATGATTATTGAATGGGTGAAAAGTGATTTTAAATACTCCACCAAATATATGGCGGAACAATTAATTTATATTCTATCGTGCAAACCTATTTCAAAAGTTTATCAAACTTCATTTACAACAGAAACAGAACAAGCGTAA MIEELIQDVISNLIHSFRAPYHNKETFILEEMKASTIKIFDHVARFSEFYPTIIHHESIMPGFQTKLCNVIKELALKDLQGAEENHTINKDLQASYQSYALLGMIIEWVKSDFKYSTKYMAEQLIYILSCKPISKVYQTSFTTETEQA NA NA NA NA NA AK015_03674 1026 hypothetical protein TTGAGCATTTGGTTATTTCGAGCGGGTTCTCAAGGGGAGTTTGAGAATAAATTTTTAAATGATAATCGTGTTTACTTAACATGGGAAGACTTGGACATAAACTTGAAAGATCATCCAAATAAAGAAGATCTATATGATTTGCTAATAAAAAAATATCGTTTGGAAAAAGAAAAAACAGCGATCAATTGGGCGTCACAAATATACCCGATTGCAAATCGAATGAAAGTAGAAGATTGGGTTGTGTTACCAAGCAAGTTAAATCGGACCATTCATTTTGGGGAAATTAAAGGCGATTATTGTTTTGATCCGAATGCAGAATCCCCCTACTTTCATTATCGCGATGTCCGTTGGTTTGCTTTAGATGTTCCGAGAGATAGGTTTGATCAGGACATTCTATACTCGTTAGGGGCTTTCATGACTGTTTGTAAGATACATAAAAATAATGCAGAAGAACGATTGCAAGAAATGTATAAGAACAATTGGCAAGTTGTTCAGAAATCGATTACAACACGTATTGATGAAACGGAAGAGGAATCGGCCGTTAACTTAGAGGAGTTTATTCAGGATAAAATTTCTGAGCATATTATTCGTAAGTTTAAAGGACACAAGATGGAGGCGTTAATTGAAGAGATTCTAAAGGCAAAAGGTTTTACGACATATCGTAGCCCAGAAGGAGCAGATCATGGAATTGATATTTTAGCTTCTTCTAATACCCTAGGGTTTGGTTCGCCGAAAATTTGCGTGCAAGTGAAGACGAATGGTACGCCAGTCGGTCGTCCAACGATGGATCAATTGTTAGGAACGATGAGTAATGTAAACGCTGATTATGGATTACTAGTATCATGGAGCGGATTTAAAGTGTCCGTGTTAAATGAGGTACCAAAGCAGTTTTTTAAATTACGCTTATGGGATTCTGCTAAAATTATAGAGCAATTATTTGAAACGTATGATTTACTTAGTGATGATATAAAAACAGAAATACCTTTAAAAAGAGTATGGATGTTGAACGTCGAGGATAACGAATAG MSIWLFRAGSQGEFENKFLNDNRVYLTWEDLDINLKDHPNKEDLYDLLIKKYRLEKEKTAINWASQIYPIANRMKVEDWVVLPSKLNRTIHFGEIKGDYCFDPNAESPYFHYRDVRWFALDVPRDRFDQDILYSLGAFMTVCKIHKNNAEERLQEMYKNNWQVVQKSITTRIDETEEESAVNLEEFIQDKISEHIIRKFKGHKMEALIEEILKAKGFTTYRSPEGADHGIDILASSNTLGFGSPKICVQVKTNGTPVGRPTMDQLLGTMSNVNADYGLLVSWSGFKVSVLNEVPKQFFKLRLWDSAKIIEQLFETYDLLSDDIKTEIPLKRVWMLNVEDNE PGPT0027250_358 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448 NA NA AK015_03675 249 hypothetical protein ATGAAATACGTTTACCTTGTAGTCGTGCATGTTATGAATTTGCTTCTGTTAATCACGGTTGGATTTCTTGGCGTTGGTATGTTTGTAAATATTAGTGAACCTGATCATATACCAACCTTTAACCCGATTCATATAGGGCTTTTTATTTCCCTATTATTACTGTTGGTAATGAATGACACGTACCAACTCAAGAAGAGAAAATGGATTATGTTGCTATTTGGCTCATATTCTCTTTGGGTAAAACGATAA MKYVYLVVVHVMNLLLLITVGFLGVGMFVNISEPDHIPTFNPIHIGLFISLLLLLVMNDTYQLKKRKWIMLLFGSYSLWVKR NA NA NA NA NA AK015_03676 702 ygeA L-aspartate/glutamate-specific racemase ATGAAAACTATTGGACTTATAGGCGGAATGAGTTGGGAATCTTCAGCAGAGTATTATCGAATAATGAATGAAGAAGTAAAAGAAAAGCTAGGTGGATTACATTCAGCAAAATGTTTATTATATAGTGTTGATTTTGACGAAATTGAACGTTACCAAGCGGAAGGCGATTGGGAAAGTGCGGGCGAGGCATTAGGTAAAGCAGCATTATCTTTAGAAAAAGCAGGTGCAGCATTCATAGTAATATGTACAAATACGATGCATAAAGTAATTGATTCCATTGAAAAAAGGGTAACCATTCCTGTTTTACATATTGCTGATGCAACGGCAAACCAAATACAACAATCCAATATAAAAACCGTTGGATTACTTGGAACTAAATATACGATGGAGCAAAAATTTTACAAAGCTAGAATTGAAGCGAATGGTATTAAAGTGATCGTTCCAAATGAGAAAGCACGTAACGATATCCATAGAGTTATCTATGAAGAATTATGTGTAGGGAAAATAGAGCAATCATCGAAGGACTATTATAAGAATGTCATCCAACAGCTAGTTAATCATGGAGCTGAAGGAATCATTTTAGGTTGTACAGAAATTGGTTTATTAATTAAGCCTGAAGATTCAGAAGTTCCATTGTTTGATACAACCGTTATCCATGCAATTGAAGCAGTGCATGAAGCTTTAAAAAAAGAAAACTCTTAG MKTIGLIGGMSWESSAEYYRIMNEEVKEKLGGLHSAKCLLYSVDFDEIERYQAEGDWESAGEALGKAALSLEKAGAAFIVICTNTMHKVIDSIEKRVTIPVLHIADATANQIQQSNIKTVGLLGTKYTMEQKFYKARIEANGIKVIVPNEKARNDIHRVIYEELCVGKIEQSSKDYYKNVIQQLVNHGAEGIILGCTEIGLLIKPEDSEVPLFDTTVIHAIEAVHEALKKENS NA NA NA NA NA AK015_03677 432 hypothetical protein ATGAAAAAATTTTATATCGAAGCCCTTGTTGTTTCAGTATTTATTGGGATCTTCATACGGGCATTCGCGCTGTTGTTTACTGGACAATCGCTTGTAACTCATATAGAAGGTTATTTGTTTAGTGTGCTCATTGCCATCATTTCCTGCACGCTTTCGTTTGCCGTTCATGTCAAAGTGCTAACAAGCAACCGCTATTCTTTTGTTACGAAATATTTGATCTCATCGATGCTAATTATAGTGATTTACGTCATTGGAAACCTCTATTTTGGAGGATTGGCTGTTTTGTATGAATGGGAATTTTATGGTTATGCTGTCGCTATCGTGCTGGTCTCCTTACCTTTGATTTATTACTTTAACAAGCGGATGATAAGATTTAATGACTTTTTACAGCTGAAAAAATCACAACATGCGGAGCGTGTATATGTGAAATAA MKKFYIEALVVSVFIGIFIRAFALLFTGQSLVTHIEGYLFSVLIAIISCTLSFAVHVKVLTSNRYSFVTKYLISSMLIIVIYVIGNLYFGGLAVLYEWEFYGYAVAIVLVSLPLIYYFNKRMIRFNDFLQLKKSQHAERVYVK NA NA NA NA NA AK015_03678 540 hypothetical protein ATGAAATTAGGACTAGTATGCAACAATAATATACGTGATAACGTATTGGAAAAGTTCCAGTCTTTAGGTATTGAAGTATATCGTAAGGCAGACCTGTATGTCGTGGAAGAAGGGCTTCATACAGGTTTCCTGCCCTGTATCGTCTTTCATCCCGAGCAGTTAGATGAGTTATGGGAAATGCTCCAAGTATTTGCGACAACGAGCGCCACTTCCAAGATTGTCGGTTTTAAAGATGAAGCGTACCATGTTATCAATCATGCGAGCATTCTTTATTTTGAAGCGCTGGATGCAGGGGTGCTTTGTCATACAGCCACCGATGTATATCGGTTAAAGGAAAAGCTATATCAATTAGAGGAACGGTTGCCGAGTGATCGATTTATTAAGGTAAGCCGATCATTCATTGTTCATATTGATGCCGTTACACGAATTATTCCGTGGTTTAACCGACGTTTATTGCTTAAATTCGAGCGTTCAAAAAAAGAAGTGGAAGTATCGAAAAATTATGTCGGACATTTCAAAGCGTTTTTAGGAATGAGGTAG MKLGLVCNNNIRDNVLEKFQSLGIEVYRKADLYVVEEGLHTGFLPCIVFHPEQLDELWEMLQVFATTSATSKIVGFKDEAYHVINHASILYFEALDAGVLCHTATDVYRLKEKLYQLEERLPSDRFIKVSRSFIVHIDAVTRIIPWFNRRLLLKFERSKKEVEVSKNYVGHFKAFLGMR NA NA NA NA NA AK015_03679 1464 lnt Apolipoprotein N-acyltransferase ATGAAAATATATATGCGTATTTTACTATTGTTATTAGGTGGATTATTTATGGTGCTGAGCAATGGCAAATTTTTAATGGCGCCAGCTGCTTGGATATTTCCGGTATTATTTTTGTTTGCCATTGAGAAGATGTCTTGGAAAAAAGCTTTGCCTGTCTTGTTGGTGGTAACGGCAGTGAGTAATCAGTTGAGCTTTCATAATATGCTACCGAGTTTGGACATCCCGATGTTTAGCTACATTCCAGCAATGGCGGGTTCACTTTATGCTTTACCATTTGTACTACAACAACTTAGCTTTCGCAAAACGAACTCCTTTGTTGCGACATTGATCTTACCATGTACGTATGCGTTATTGGATTTTAGCAATGTATATTTTAACCCTTTTGGAACATTTGGTATTCTTGGTTACTCGCAGCACGGGTTTTTGCCAGTTATGCAAGTGGCCTCTGTAGTCGGTGTTACCGGAATCACCTTTTTGATTATGTGGACAGCATCTATTGTGTATTGGCTTCGTTTAGATAATATGAAAGCAAAGAAGCGAAATGTGGCAATACTAACTACTGCAGTGCTTTTGCTTATCGTTACGTTAGGTGGTTTACGTGTCGTAACCAATGCAAATACGGAAACAGTGACCGTATCTGGTATTCATACACTGGATCGGACGGATTCGGATGTGTTAGAGATTTTTAATCTACATGAACAAGAAAACAGTGATTTTTTACAGAAAACGGAAGAAAACCTGGAACAATTAATCGCCATGACGATTACGGAGGCAAAAGCGGGAGCGAAGATTATTCACCATTCGGAAGGGGTTGCTGTGCTGGATGAGACGCAAAAAGCAGATTACTTGGACAGTCTCCGAGAGGTTGCTAAGGAATGGGGCGTCTATATTGTTACGGTGCCTTATGTTTTTACAGAGGAAGGTTCGCCCAATGAAAATGTCTTATATATGATCGAACCGTCTGGGGAGGTTGCGTTTGAACACTTTAAATATGGCGGCAATATCATTGAGAAGACGGTAGAAGGAGACAAGGAAATTAAATATGTCGATACAGATTACGGGCGTTTGTCAGGGATAATCTGTTGGGATAAAGATTTCCCATCTATCCTTAATCAAGCAGGTGAAAAGAACGTCGATATGTTGTTCATCCCATCTGCAGATTGGAAAGAGATTTCTCCGTACCATACGATTGTCGGTAATTTTAGAGGGGTTGAAAATGGTGCCAATGTGGTGACACAAACGGTAAATGGTATGTCCATGATTTCGGATTATAAGGGACAAACATTAGCGCAAATGGATCATTTCACCACCGACCAATGGGTCATGCGAGGACAAGTGCCAATAGAAGGTAAGGAAACCATGTACGCAAAGTGGGGGAAATATTTTGCGGGTTATATTATAATAATCTTAATTATTTCCACGGTGTATATCCGTTTTGTTGGTAGAAAAAAGATGGAATCATAA MKIYMRILLLLLGGLFMVLSNGKFLMAPAAWIFPVLFLFAIEKMSWKKALPVLLVVTAVSNQLSFHNMLPSLDIPMFSYIPAMAGSLYALPFVLQQLSFRKTNSFVATLILPCTYALLDFSNVYFNPFGTFGILGYSQHGFLPVMQVASVVGVTGITFLIMWTASIVYWLRLDNMKAKKRNVAILTTAVLLLIVTLGGLRVVTNANTETVTVSGIHTLDRTDSDVLEIFNLHEQENSDFLQKTEENLEQLIAMTITEAKAGAKIIHHSEGVAVLDETQKADYLDSLREVAKEWGVYIVTVPYVFTEEGSPNENVLYMIEPSGEVAFEHFKYGGNIIEKTVEGDKEIKYVDTDYGRLSGIICWDKDFPSILNQAGEKNVDMLFIPSADWKEISPYHTIVGNFRGVENGANVVTQTVNGMSMISDYKGQTLAQMDHFTTDQWVMRGQVPIEGKETMYAKWGKYFAGYIIIILIISTVYIRFVGRKKMES PGPT0024470_3671 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820 NA NA AK015_03680 1224 entS_2 Enterobactin exporter EntS ATGCAGTCATCTGTTTTAAGGAATCGGTCTTTTGTTTCTGTATGGCTTGGAAATGGTATATCTGAATTAGGGGGAGCTTTTGGCACCTTTTGTAATTCGGTTTTAATCTACCAATTAACGGGTTCGACATTAGCATTAAGTAGTATGTGGGTATTATACTTTATTCCTTCGCTGCTTCTTCAATTATTTATTGGTCCTTTTATTGATCGTTGGAGTCGCAAATGGGTGATGATCTTTTCGCAATGGATTAGAGGGATGATTTTTTTAGTTCCGCTTTTTGCAATCCTGACAGAGACGCTTTTGCCTTGGCATGTATACATGGTGCAGGTGGTGGTTGGTTTAATCACTCCATTATATGTGCCTGCAAATCAAGCAATTTTACCTACCATTGTGACGAAAGAGCAGTTAGAGAAAGCGAATGCCTACATAGATGGAACAGTTAGACTTATGACTTTCATGGCACCGATAGTAGGGGGACTCGTCATTGAGTATATTGGAGTAACACGAACGCTTTCTTTCGTAACAGTTTTATTGATTGGAAGCGGATTCACCTTGTTGTTTATCCAAGAAGCTAGAAAGAATCAAGGAATGAGAAAGACTTGGGTAAAAGAGTTTTTAGAAGGGGTCGCTTATTTCTTTACAAATCCAATCATAGTATGGTTGGGCGTGTTTTTGGCAGTTGTACAGTTTGGAGTGGGTGTAACGATGGTTACCACACTTCCTTATATCACAGCGGAATTAAATGGAAGTTATGCAGAGTACGGATATTTTATGGCTGGGTTTCCCATTGGCTACATATTAGGTGCAATGTTTGTTGGCAAGATAACATCGAAAAACCGTCGGCTCGTCATGCTTGGTAGCTTATTTATTGGTGGACTGACATTTATCGCCTTGTTTTTTAATACGAGCATTGCCTTAGGTATAGCAACGGAAATAGTAGGAGGGATGGTTATGGCTATTTTTAGTATTCATAATACGACAATATGCCAAAAAGTGATACCACACGATGTAATGGGGAAGGTTTTTTCTGTAAGGTTATTCATTATTAGAGGGGTGATGCCTTTAGGTGTTATCGCTGGTGGCTTTCTGAGCGATGCGTGGGGAATTCGCCCTTTATATTTATGGATAGGTTCGATTATTTCCGTTGTTTCGTTATTAGGAATCCTGCTTCCGTATTTCAAGTTTATTAATCACTATCATGCTGAGGAAAGGGCTGCTTCATAA MQSSVLRNRSFVSVWLGNGISELGGAFGTFCNSVLIYQLTGSTLALSSMWVLYFIPSLLLQLFIGPFIDRWSRKWVMIFSQWIRGMIFLVPLFAILTETLLPWHVYMVQVVVGLITPLYVPANQAILPTIVTKEQLEKANAYIDGTVRLMTFMAPIVGGLVIEYIGVTRTLSFVTVLLIGSGFTLLFIQEARKNQGMRKTWVKEFLEGVAYFFTNPIIVWLGVFLAVVQFGVGVTMVTTLPYITAELNGSYAEYGYFMAGFPIGYILGAMFVGKITSKNRRLVMLGSLFIGGLTFIALFFNTSIALGIATEIVGGMVMAIFSIHNTTICQKVIPHDVMGKVFSVRLFIIRGVMPLGVIAGGFLSDAWGIRPLYLWIGSIISVVSLLGILLPYFKFINHYHAEERAAS NA NA NA NA NA AK015_03681 1044 hypothetical protein GTGGATATTTTACAACTGACTAGTCGAAAAAGGGAGACATACCATGTTCAATTAACGTATTCTCTTCTTTGGGAAAGCGCTTTAGGTATTGCCGCAATTACAAATAGTAAACTATTACAGACATTAGAAAGACCAGAAAAATATTGGGATGAAATAAAAAACTCTATAACGGATGAACTATTGGACCACCTCAATTTCGTTGAACAAAATAATACATGGAAGTCGTTGTTACAAATACTTCATCAACGGGAGTTTGCCGATTTATCCGAATTCACCACGTATGTTAATACAATCGATGAAACGGAACTACGGTTCATATGCCTGCCGTTTATCGGAAATGATTATCAAATCTACAGAGAGAAAGCAGCTCAAGGAGAAAGGAGCTCCGTGGAAAAAATGGTTCAAGCAACGGCTGATAATCCCTTTTTTCCGACTTATATCGAATTCATGACGAAGTGCGACATTAGATTCTTAAAGGAGCATCTTATTCATGTAATGCGTGGCTGGTATAAAGAGGTTTTAGAACGAGACGGGACAGAGATAAGCACCATTTTAAAAAATGATTATGAAGCTAAAAAGCAAATGAGAGAAAAATTAGCACCAGAAGAACTTGTTCAGTGGGCGACTGGTGGAGTGACATACACGCCTGAACCAAGTGTGCATCAAGTTTTATTAATTCCACAATATATTTATCGTCCATGGAATATTGAAGCAGATATAGAAAGAACGAAAGTTTTTTATTATCCGGTTTCCAATGAAAGTATTACTCCTTATGACAAATATACGCCAAATAATTTCTTAGTGCTGAAGCATAAAGCGTTAGGTGATGAGGTGCGACTTCGAATTGTTAAGCTGTTATCAGAAGAAAATCGTACATTACAGGACTTAACAGACCAATTAAATATTGGGAAATCTACCATTCACCACCACCTCAAAATTCTTAGAGCGGCAAAGCTAGTAGAGATATTGCATGCAAAATATGGTTTAAAAAAAGACGCCATACAGCTGCTATGTAAGGAGTTAGAAGTATATTTAGAAAAATAA MDILQLTSRKRETYHVQLTYSLLWESALGIAAITNSKLLQTLERPEKYWDEIKNSITDELLDHLNFVEQNNTWKSLLQILHQREFADLSEFTTYVNTIDETELRFICLPFIGNDYQIYREKAAQGERSSVEKMVQATADNPFFPTYIEFMTKCDIRFLKEHLIHVMRGWYKEVLERDGTEISTILKNDYEAKKQMREKLAPEELVQWATGGVTYTPEPSVHQVLLIPQYIYRPWNIEADIERTKVFYYPVSNESITPYDKYTPNNFLVLKHKALGDEVRLRIVKLLSEENRTLQDLTDQLNIGKSTIHHHLKILRAAKLVEILHAKYGLKKDAIQLLCKELEVYLEK NA NA NA NA NA AK015_03682 768 hypothetical protein ATGACAAAAAACAAAACTTTGATAATCAGGACTTTATCACTCTTATTTTTAATTACTCTATTTATATCAAGTGACCCCACTCAAGCCCAAAATAATAATGTTATAAATTATTTCAAAGAACCGACTTCTAAAAATTTAACCAGAGCCGTTAAAGATGTAAAAGATAATGAGATTAAGGAAACAATAACTCTTGTAAAACTAGCTCAAGATAGTAGTGAAAAATTAAATTTTGTAATTCCTTTTAATCCGGAAAATGGAGAATATATTAAAATTAATAAAGGTGAAGAAGGAAACCAAGTAAACTCAGCTAATATATATAGCTCTAATGGAAACTCTATTGGCATAATTGCATTTGAAAATAAAGAAAATATAGATTTGTCCAAAGTAGATGGACATCTAGAAATACAAGTTAGTTCCCGCGAGAACACTATAGATGTAAGTTATTTAATAGCTTCTTATACCTACGAAGATTATTTTAATTCTAGTAATTGGATTGTAAGAGATAACATAACATCCTTAAGTATTAACCCTAAACCCTTACTATGGGATTCAGGAATCTTAGAGTGGACCTCTATTCGAAACGATAGTTGGGAAAAACTCCTGGATAAACATATTGATGATAGCAAATTTAGTAATCAAAATGGGATGAAAGATCAGTATTATTGTCATTTCGATTTTGCAAAGGGCAACAAAATTCCGTGGAATATAGAACCAAGTAGACCAGATGTCGGCTATATAAAAACTGTTTTGAAAGCTTGCAACCCCTAA MTKNKTLIIRTLSLLFLITLFISSDPTQAQNNNVINYFKEPTSKNLTRAVKDVKDNEIKETITLVKLAQDSSEKLNFVIPFNPENGEYIKINKGEEGNQVNSANIYSSNGNSIGIIAFENKENIDLSKVDGHLEIQVSSRENTIDVSYLIASYTYEDYFNSSNWIVRDNITSLSINPKPLLWDSGILEWTSIRNDSWEKLLDKHIDDSKFSNQNGMKDQYYCHFDFAKGNKIPWNIEPSRPDVGYIKTVLKACNP NA NA NA NA NA AK015_03683 180 hypothetical protein ATGTTATTTATGGAAAAATTATTTATAACAATAACAATTATTACGTTTGTATTATCCGTTTCGCTGTTTATTATAGAAATTGTAAAAAATGGTTTTAAGCTAAGTAATTTTAAATTAGCTGCAACTCTCTTTTTTATTTACATTATAAGTATGGTTGGTTTTTTAATTATACGTAACTAG MLFMEKLFITITIITFVLSVSLFIIEIVKNGFKLSNFKLAATLFFIYIISMVGFLIIRN NA NA NA NA NA AK015_03684 846 btuD_7 Vitamin B12 import ATP-binding protein BtuD ATGATACTTATAAAAGATGTTTCTTATCATGTTGATGGGAAATCCATTTTAAAAAAAGTAAATCTAAAATTGAATAAGGGGAAAGTGTATGGAATACTAGGACCCAACGGAGCAGGAAAAACAACGTTGTTTAAAGCACTGTTAGGTGCAATAAAGTATGAGGGGAAGGTAATTAATGATGATAGTAATACATTAATTGGGAAACTAATAGAATATCCAGCTTTTTACCCTAACCTAAGTTGTTTTGAAAATTTAAAATTACATGCATCTTATGCTCAATTAGATGACTATCAAGATATTGACAGCTTATTAAAGCTTGTAGGAATATTCAATGCTAAAAATAAAAAGTTTAAAAGTCTATCTATGGGGATGAAACAAAGATTGGGTGTTGCAAAAGCCCTAATGGGAAATCCAAATATTTTATTATTAGATGAGCCCACTAATGGTTTAGACCCTATGGGAATTAAGGAAATGCGAAATCTAATAGAAAAAGAAATAAGAAGCAAAGATAGAATTGTTATGATATCCAGTCATAATTTAAATGAGATTTCCCATATAACAGATACTCTCATTTTTATAAACAACGGAAAAATAATATTAGAAATAGAAAATGAAGATAATGTTTATATTATTGGGAAACTTAAAGAAATTTCAAGTGAGCAACAGGAGGAGATAACTTTATTAAAAAACGATAAGAATGAAAATATAGCTATTTTAAGCAAAAAAAAATTTGAAGAAATGAGTCAAAATAAGACTATTTTAATTGAAGAAATTCAATATGTAGATTTAGAAAAGCTATATATTGAATTAATGTCGCTAGCCGTAACAGAGGTGAAAACGATATGA MILIKDVSYHVDGKSILKKVNLKLNKGKVYGILGPNGAGKTTLFKALLGAIKYEGKVINDDSNTLIGKLIEYPAFYPNLSCFENLKLHASYAQLDDYQDIDSLLKLVGIFNAKNKKFKSLSMGMKQRLGVAKALMGNPNILLLDEPTNGLDPMGIKEMRNLIEKEIRSKDRIVMISSHNLNEISHITDTLIFINNGKIILEIENEDNVYIIGKLKEISSEQQEEITLLKNDKNENIAILSKKKFEEMSQNKTILIEEIQYVDLEKLYIELMSLAVTEVKTI PGPT0006725_19931 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03685 732 hypothetical protein ATGATTCAGCTAATTAAAAATGAATTAATTAAAATAAGAAGTGAAAAATATATTAAATTTATTTTTATCTTAAATCTCATTCCTTTAGTATTAAATTTTGCGAATTTTACTTTAAACAAAAGAAATATGAATTTAGATAGTGGCTTTTACTTCACATTCTATAATCAATATTTTATGTTGCTTCCTATTATTACCAGTATTATCATTTCATCTATATTTTATATAGAATACAAAAATAATACTTATTTAGATTGGATAACATACAATATTTCGAGAATACAATTATTTTTTTCAAAATTGTTTGTATCGCTACTCATTATGTTAGTAATTTTTCTGTGTAATCTAGTAATTCTTTTGGTCTTTTATGGTGTAATAGATGGAGATTTTTCTAATCTATACAAAATAGTTTTATCTTTCACTACGTTACATTTAATTGTTGTCATTAGCGTTTCTCTAATCTTTTCTGTAATCATCCAACTTACAAGAAACATTGTAATAAGTATTTCCATTGGAATAGGAAGTTCCCTTATTTCTATGGTCTTAATGGCGGCCCCATTTTCATACATGATACCAATTACTTTCGGATATAGAGCTGGTTTATACTTTGTCGATAATGAATTTTATTATGAAGATCCTTTATTTTCTACCTTTGTGGGAAATGGATTAACCGGGTTACTAACATTATTTATGTTACTACTGAGTTTAAAAATAATAAATAAGAAAACCATTTGA MIQLIKNELIKIRSEKYIKFIFILNLIPLVLNFANFTLNKRNMNLDSGFYFTFYNQYFMLLPIITSIIISSIFYIEYKNNTYLDWITYNISRIQLFFSKLFVSLLIMLVIFLCNLVILLVFYGVIDGDFSNLYKIVLSFTTLHLIVVISVSLIFSVIIQLTRNIVISISIGIGSSLISMVLMAAPFSYMIPITFGYRAGLYFVDNEFYYEDPLFSTFVGNGLTGLLTLFMLLLSLKIINKKTI NA NA NA NA NA AK015_03686 2091 btuD_8 Vitamin B12 import ATP-binding protein BtuD ATGTATAATTTTAAAATTCCAATTATATTACAAAATCATCAATACGAATGTGGTCTAGCTTGTTTATCAATGCTTTTTAGCTGGAAAGATAGTAAAGTAAATACTAATATGTTTAATTATAGTTATAATGTTGGCCGAGACGGTATTTCAGCTCAACAACTTAAAATAATTACTGAAAAGCATAAAGCAGATTTTTATGCTTTTCAGGTCTCTGATATTGAGGATTTTGTTATTAAAGGTAAAATTAAACAACCATTAATGTTATATTGGAAAAATAATCATTATGTAATTCTTAGAAAAATAAAAAACGGTACTTTTTATATTATTGATCCAGGTACTGGAGAAAAAAGTTTTAGTGAAAAGGATTTTTACAAAAATTTTTCAAATGTAGTTTTTTTTATTTATAAGAAAGATAGAAATAAAAATATCTTCTTAAAAAAAACAAGCTATTTAAAGGATCTTATAAAGATAGTAACACCTTATAAAAAAAATATTATTGCTATTATATTTTTATCTGTGTTATTCCAAATTTTAAATTTAATATTACCTCTACTTACTCAATATGTAGTAGATTATAATGGAGCTTTACACAATAGTTTATTATCTAACACTTTGTTAATATTAATAGTGATAGTGGGTTTAAGTGTCTTTTTTTTACATATTGCAAGGACTTTTTTTGTAGTTAACTTACAGATTAGAATTAATAATTACCTGACAGATGGAACGATAAAGAAAATTTTCAAATTACCTTTTGGTTTTTTTGAAAAAAATACTTCAGGAGATTTATCAACACGAATTAATAATATAACTGTAATAAGAGAAATTCTTTCAAATGTTATGACGAGCTTACTGTTAGACGTAGCATTGATATTTATTTTTTCAATTACTATGTTATATTATTCGCCGATTCTTACGAGTATCGTTTTTATAGCTGTTATTATTCAATTGATGGTAACCAAACTGGTTATACCTAGAATAACTCTATACACAAATCAAGAGGTCGCTAATCAAACTCTATTTCAAACAAACTTCCTATCAGTTCTCCAATCCATAGATTATATAAAGACTTTAGGAAATAATAAAGTAATTTATAATAGGACTATTAACCCTTTTTATGAACAACTAGCAAACTATAAGAGAAAAATGATTACTTCTGCAATATTAGGCGGAACATCTTATACAATTTCTGTAGCTCTGCCATTACTCATAATTTATTTGGGAGTTTTTCAAGTAGATTTTGTGGGTCTTAGTACAGGAGAAACTATAGCTTTTTCCACAATTGCTGTAAGATTTTTAACTCCTTTTTCATCTATATTTAATAGTATACAATCTTTTAAATATGTTGAAGAAATTTTCAATAGAATTAATAAGATCCTTTTGGAAGACGATGAAAGCGAATTATTAAATAGAAGTAAAAAATTAAGTAATTTAAAAGGGGTCATAGAATTAAAGAATATCTCATTTGGTTATGGAGAAAGAAATGTTTTAGAGAATATAAACCTTCAAATTAATTATGGTGATAAAATCCTAATAAATGGAAGCAGCGGTAAAGGTAAAACCACATTATTAAAAATAATTGCCTCTCTTCATTTTCCAACAAAAGGAGAAATTCTAATTAATGGAAATAAGTTAGATGAATACGATATTAGCAGTTATAGAGAGAATATAGGGATGGTCACCCAAGATGTTTCATTGCTTTCTGGTACAGTTAAGGAAAATATTAGTTTTTTTAATGAGGCATTAGATGAGGAAGTTATTATAAATAGCAGTAAAATAGCCTGTATATATGATGATGTTATGAACTTTCCTATGGGGTTCGACACCTTACTTGGAGAAAATGGTACAAACTTGTCAGGGGGGCAAAAACAAAGGTTATCTATTGCAAGAGCCATATCAAGTACTTCTGATTTGTTGCTAATTGATGAGGGGACTAGTAATTTGGACGAGGTAACTGAACAAACTATAATAGATAATTTGTTCCAGTTAGATAAAACAATTATTTTTATTACTCATAGGCATAGTTATATTCCAGGAGTAAATAAAAAAGTTGATTTTACTGAGAGAACCATAAAGGTTACTGATTTAAATTAA MYNFKIPIILQNHQYECGLACLSMLFSWKDSKVNTNMFNYSYNVGRDGISAQQLKIITEKHKADFYAFQVSDIEDFVIKGKIKQPLMLYWKNNHYVILRKIKNGTFYIIDPGTGEKSFSEKDFYKNFSNVVFFIYKKDRNKNIFLKKTSYLKDLIKIVTPYKKNIIAIIFLSVLFQILNLILPLLTQYVVDYNGALHNSLLSNTLLILIVIVGLSVFFLHIARTFFVVNLQIRINNYLTDGTIKKIFKLPFGFFEKNTSGDLSTRINNITVIREILSNVMTSLLLDVALIFIFSITMLYYSPILTSIVFIAVIIQLMVTKLVIPRITLYTNQEVANQTLFQTNFLSVLQSIDYIKTLGNNKVIYNRTINPFYEQLANYKRKMITSAILGGTSYTISVALPLLIIYLGVFQVDFVGLSTGETIAFSTIAVRFLTPFSSIFNSIQSFKYVEEIFNRINKILLEDDESELLNRSKKLSNLKGVIELKNISFGYGERNVLENINLQINYGDKILINGSSGKGKTTLLKIIASLHFPTKGEILINGNKLDEYDISSYRENIGMVTQDVSLLSGTVKENISFFNEALDEEVIINSSKIACIYDDVMNFPMGFDTLLGENGTNLSGGQKQRLSIARAISSTSDLLLIDEGTSNLDEVTEQTIIDNLFQLDKTIIFITHRHSYIPGVNKKVDFTERTIKVTDLN NA NA NA NA NA AK015_03687 3018 hypothetical protein ATGGAAAAGTTAAATTATTTTATAGATAACTTATATAAAGGTATTTCGGTAAATAACATGAAAAATGCACTTAAGGAATTAAATATTTCTAATTTACAATATTTATATAAACATTATTACTCTAAAAATAGATCCATAATATCTAATCTTCCAAATAATGACTATGATAAGTTTGATTGTAATAATTTAAAGCTAAGAAAGATAGAATCTCAGGAAAATAATAAAAATCTCCTCCTTTTTACTGATTTATTTGTGGAACTATATCGACCCGATTTCACTAAGAAATTCAATGTACTTAAAGAATTTGTTGACTTTGATTTTTGTGATGAAGAAAAAAATTTAACAGAGCAGATCTCACATTTACTAATGTCTGTTGCTCATAGGACATTAATTTACGATATTAATAAAAAAAGAATTTTAAAGGACTTCAAAAGTGATAATGAAGAAGAACAATATAATGAATATATTGAGGACTACCTATCAAAACAAAATAAATTTATAAGAATTCTAAAAGAAAATGATAGTTTAACTTCAATTATGAAACATAAAGTAACATTAATATCAAATTATATAGATGAATTTTTACGTAACCTTATCAATGATATAGAAGAAATAATAGACTATTATAACGTTAAAGAAAGCCAAGAAAATGTGTTTTTATCAAAAATTACAATAAACAAAGGAGATACACATAATAAAGGGAAAAGTGTTGTGTCTTTTGAATTAAATGGCAAAAAAATATATTACAAACCAAGAAATGGAAAAATTGATTTATTTTATGAGGAAATGTTAAAACATTTCAATCAATTTTCGAATTATTACTCTCTTAAGTACCCAAAAAATATTTATAAGTTTGACTATTTTTGGTCGGAATCTATTGATTATTATGAGATTGAAAATCAAAAAGATATATCTCACTTTTACTCAGAGCTAGGTATACATCTATCCTTTCTATATGTGTTTAATGCAGTAGACTTTCATTCGGAGAATTTGATAGCTAATGGTAAATGTCCAGTCCTTATTGATTTGGAAAGCTTATTTAACGTAAAAAGCTCATTAGATGAATTTCAAAACGCAACTGATATTAATCGGCACAGATTGGCTCATTCTGTAAAATCAACAGGAGTGCTGCCCTTTGTTTTTGGAAATGAAAAATCTGACATAAGTGGAATAGGAAGGCGCGGAGATACTCAGACTTTTATAAAAGTTCCAACTATAAAAAATGAGAGAACATCTAATGTTAAAGTAATTTCAGAGCATAAAACCTTGCAAGCTTCACAAAATCATCCGAAGTATAAAAATCAACATGTTAATGAATTAGAATATATAGAACCTCTAAAAGAAGGTTTCACAATAGGATATAAATATATTAGTGAACATAAACAACATATTGTTAATACTATTAAAAAGATGCAAGATGAAATAGAATTAAGATACATAAATAAGCCAACAATTTATTATGCAAATATTTTAAATATAAGTCATCATCCAGTTTTTTTGGAAAACAGGGCAGTAAGAGATCTACTATTAATTAAACCGTTTATTGAGGAAGGCGATAATTTATCGAAGTTAGAAGCTGCTGACTTAGCAGAAGGGGATATACCCTATTTTAAATATCGTTTATCAAGCAAAGAAATAATACATAATAGTTGTGTCCTAAAAAATTTTTTTAAAAATACTCCTCTTGATTTTGCTGTTAAAAAAATAGAAAATCTATCTGAGGAAGACCTTTCATTTCAATTAGAGTTAATTTCTAACTCGCTAGTTGATGATGAGAAAGAATTAACAGAAAAAAAGAATAAGCAATTTGTAAAAGATTTTTCCAATTTATCTCTTAATAATATTATTGACAAGGAAAACTATCTATATAACTTTGCATTTCATATAGAAGAAGAAATTAGTAAACAACAAACTAAATTTAATAATACATTTAGTTGGTACACTTCAGTAGTAAGAGGGGATATAGGAACAAGGAAATCGAACCTTTTAGTTATGGATGGAAAGTTATATGATGGATTATCAGGGATGGCTTTTTTATATATATCAAAGTATTCTGTAACAAAAAACAAGAAATACATTGATAAGGCTCAGCAGATAATTGATGATATATTGGCAGCCTATGGATTACCTTATAAATATCCCATTGGAGCATTTGATGGTATTTCTTCATTAATATATATACTTGTTTATTTTTACAAAACTACAAAAGTAAACAAGTATAAGGAAAAGGCTATTGAAATAAGTTTGGGTATTAAGGAAAATATTAAAAAAGACAAAACAAATGATATTATAAGCGGTTCATCTGGTGTTATGCTAGTGTTAATCAATCTGTATAATTTAACAAAGGATTATAGAATAAAGAATTTGATAGAAATTTGTAAAGATACATTAATTAATAATGCTGAGCACCAAGTAGATGGAACAGTAAGTTGGAAATGTATATCTGATCAATACTTAACAGGATTTGCTCACGGGAACTCAGGTATTTGTTATTCTTTAAATAAATACGTTGAAGATATAAATTCGAATGATGTTAAGGTTAAAGAGATTATAAAGCAAGCAAATGAATTTGAAGAAAAATTGCGATTAGGAAATAAATGGCTTGGAGGATCTCATGATTACGAAGATACGCCTTATGCATGGTGTCATGGCTCCCCGGGAATTCTTTTAAATAGAATATCCTCAAAAAAAAGAGAATTTGAAGATAACCAAAAGATAAAAAGTGAAATTTTAAAAAATGGATTTTCAAGAACTCAATGTCTGTGCCACGGGGATTTAGGAACAGCTATGATTTTAAAAGACTTTTATACTGTCTATGAGCAGCAAGAAAAGTATGCAATTCCAATAAATATTATCTATAATATTATAAAAAATAAAGAAGTTAATGATATAAAAAGTGGTTTAGGTATTAATAATATACAGACCCCAGATTTAATGATAGGTTTAGCTGGAATTGCTTATGGTCTTTTATATATTACAAATCCTCATTTACCTAATATATTAAAATTAGAATTGTAA MEKLNYFIDNLYKGISVNNMKNALKELNISNLQYLYKHYYSKNRSIISNLPNNDYDKFDCNNLKLRKIESQENNKNLLLFTDLFVELYRPDFTKKFNVLKEFVDFDFCDEEKNLTEQISHLLMSVAHRTLIYDINKKRILKDFKSDNEEEQYNEYIEDYLSKQNKFIRILKENDSLTSIMKHKVTLISNYIDEFLRNLINDIEEIIDYYNVKESQENVFLSKITINKGDTHNKGKSVVSFELNGKKIYYKPRNGKIDLFYEEMLKHFNQFSNYYSLKYPKNIYKFDYFWSESIDYYEIENQKDISHFYSELGIHLSFLYVFNAVDFHSENLIANGKCPVLIDLESLFNVKSSLDEFQNATDINRHRLAHSVKSTGVLPFVFGNEKSDISGIGRRGDTQTFIKVPTIKNERTSNVKVISEHKTLQASQNHPKYKNQHVNELEYIEPLKEGFTIGYKYISEHKQHIVNTIKKMQDEIELRYINKPTIYYANILNISHHPVFLENRAVRDLLLIKPFIEEGDNLSKLEAADLAEGDIPYFKYRLSSKEIIHNSCVLKNFFKNTPLDFAVKKIENLSEEDLSFQLELISNSLVDDEKELTEKKNKQFVKDFSNLSLNNIIDKENYLYNFAFHIEEEISKQQTKFNNTFSWYTSVVRGDIGTRKSNLLVMDGKLYDGLSGMAFLYISKYSVTKNKKYIDKAQQIIDDILAAYGLPYKYPIGAFDGISSLIYILVYFYKTTKVNKYKEKAIEISLGIKENIKKDKTNDIISGSSGVMLVLINLYNLTKDYRIKNLIEICKDTLINNAEHQVDGTVSWKCISDQYLTGFAHGNSGICYSLNKYVEDINSNDVKVKEIIKQANEFEEKLRLGNKWLGGSHDYEDTPYAWCHGSPGILLNRISSKKREFEDNQKIKSEILKNGFSRTQCLCHGDLGTAMILKDFYTVYEQQEKYAIPINIIYNIIKNKEVNDIKSGLGINNIQTPDLMIGLAGIAYGLLYITNPHLPNILKLEL NA NA NA NA NA AK015_03688 189 hypothetical protein ATGAAAGAAAAAGATTTACAATTGTACAATACTGCTGGTGATTTCCTGAGTGAACTAGAAGAAGCCTCTTTAGAGAATATTTCTGGTGGTGCAGCGGAACCTATGGGGATATCTCAAGGTAATGACGGAAAGTGGTGTACCGTAACTTGGGAATGCTCTATCTGTCCGACACATACCTGTTGGTGTTAA MKEKDLQLYNTAGDFLSELEEASLENISGGAAEPMGISQGNDGKWCTVTWECSICPTHTCWC NA NA NA NA NA AK015_03689 168 hypothetical protein ATGGAAAATAAAGTAACGGCTTACAAAAAAATAAGTGTTAATGATTTAAAAGAAATTTCAGGTGGATCAAGTGAACCACAAGGAACTCCTGCTACAATCATTCCGGTTTCTCTAGCAATTTGTCCAACAACTAAATGTGCATCCGTTGTCAAACCTTGTAATGACTAA MENKVTAYKKISVNDLKEISGGSSEPQGTPATIIPVSLAICPTTKCASVVKPCND NA NA NA NA NA AK015_03690 2691 hypothetical protein ATGAGTAACATTATTAGTATAAGAATTTATGAACAGCTTTTTTCTGAAAAGATAGATAGATACATCGAAGAAACAGAAAAAAAATTCAGTCATATACTATTAAGTAATTTTAGTAAAGATACAAAAGATATGGTCGTAGAAAAAATCGAAGTCCTAAGTGGTAAATTTATGCTCGAAGATTTTCACGAAAATTTCAAAAACAAAAAAGAAAATAATGAATGCAAAGATGCCAAAATCAATGATTACGTAAATAAATTAGACATACAATCAGATAAATTTAAAAACTTAAGATGTATCCTAGATAATAACATTACAAACCTTATGGAATTTTACAATAATATACTGAAAAATTATTGTAATAATAGAGAAGATATATTTCCTAATCAAGATGTTAAAATAAACTACATTGCTGTTGACAAAGGAGATACTCACAATAATGGAAAAACCGTAGTAGTATTGTTTTTAAATAACGGTACAAAACTTGTTTATAAACCAAGAAACCTAGAAAGCGATATCTTTTATTATAAACTATTAAAAAAATTTAATTATGATAATAACAGTAAGTTAAAAACACCTAAAATATTTAATTATAATTCCCATGCGTGGCAAGAGTTTATAGATTATACAAATTGTAATACCACCAAAGAAATTGAATCGTATTATTATCATTTGGGAATTCATATTTTCTACACATATATGTTAAGATCCAATGACATTCATTATGAAAACATAATAAGTACTTCTAATAATCCCGTTATTATTGACCTAGAAACGATTATGCAAGGTACTATCAACTTCGATCATAATCACGTAATAAAAAATAATCCCTTCTTTTTAAACGATAGCATCTTGCAAAGTTTGTTGTTTGACTACGCTACTTCTTTTAATGGAGAAGGTATAACATTTTTAGGCGGTACTACAAATCAAACATTAGCACCTAAAACCGAAGAAATTCTAGTTGATAAAAACACGGATACTATGCGTTATGTTTATAAAGAATATTTTACAAATAAAAGCATAAATATACCCAAATATAAAGAGAAATTTATGGAAATTTATTCTTTCAAAGAAGAAGTTTTGAGAGGATTTAATACAGCATATTTGTATACAGTTAAAAATAAACAAGAATTCAAAGAAATACTGTCCATTTATCCAACTTTTAATGTAAGATATGTTCTTAAGCCAACATATACCTATGCTACATATATAGAATTTTTAAAACAAAGCCATTCAAAAAGTAGCACTGAACTTTACAGTATACTTCAGAATTCAAATGTTCATTATAAATCCAAAGATATTATAACTAATTTAGAATATAAAAGCCTTTTAAACTATGATATACCTTACTTTACTGTAAATATAGATGAAAAAAGCATTAAAAGTCCAACTTCTAATGAGAAAGTAGTTTTGGATTTTTTTGATAAAACACCTAGAGAAGAGACTTCATTAAGAATAAATAAATTATCACTTATGGACTTGAAAGAGCAGTCCAATTTATTAGATTTAGCCATAGATGCATATAAAGAGAATAGTTTAAATAAAGTTGAGGTTCATTCACTTAAAAAGCTGCCTGATAAAAAAGATATTAACCATGAAATCAAAAAAATAGTTTCAAATACGGATAATTTTTCATTACTATTTAGCCTTCGCCATAATAGTAATGGGGAAGCAATTATTAGCCCTATTAGCTACAATTTATATGACGGTTTAGGAGGCATAGCGTTATTACTTAATTATTGGATAGTAAAAAATAAGAAAGATTATTTATACAGCTTAAAGGAAATAAATAAATCTATTGAAAATCTATATAAAATAGATAAAACCAAGAATTTTTCAATTTACCATGGAAAATTTTCCTATTTTAAGTATATATATATTCTTAATGAAATTTCTGAAGAAGATCTAATAAACGAAAATGTCAAAAATTTGTTAGAACTAATAAAGGAATATAATACACATATAGCTAATAGCTGGTACCCCATAGATTATATAAGCGGTCTGACTGGGATTATATCACTATTAATTGACTATTATACTTCTACCGGGCATAAAGAAATATTATATGCAATAGAAGATTTTAAAGATTTATTACTATCCAAATCTAAAGTGTCTAATGATGAGATATTTTGGAATCAGGATGCTAAAGATTTGAAAATGAATCCAGGCTTAGCTCATGGCACTTCAGGTATAGCATTAACTTTAGCAAAATATGTCCACTTCATTCATAAAGATGAACAAATTATTAATACAGTAGAAAAAATTTTAATTTATGAAGATAAAGCTTTAAGTTTTAAAGAATCCACTATTTGGTGTAACGGTCTCTCTGGCATATTACTAGCAAGAATGTTAATTCAACACTATATTCCATCTCTTAAAATAACCTACATGGAAGAACTAACAGAAATCCTCTGTCAAGACGTATCTAATTTAAATAACAGAAAAAGCGTATGTCATGGCATACATGGAAACATGCTAGTGTTAAAGGCCATAGAATTTCTTAGAGAAAATTCTTTTCCTGATATTGAACAGTGGAACAAAGGATTGCGTATACATACAATGAGCTATTCTTGGGATTCTGGCTTTTCATATCCAAATAGTAATACAGGTTTCTTTCTAGGAAAAAGTGGACAATTATTTGACATTATTCTAAATGTAAAGGATTACAAATTAGCTTTATATATTATGAGTTAA MSNIISIRIYEQLFSEKIDRYIEETEKKFSHILLSNFSKDTKDMVVEKIEVLSGKFMLEDFHENFKNKKENNECKDAKINDYVNKLDIQSDKFKNLRCILDNNITNLMEFYNNILKNYCNNREDIFPNQDVKINYIAVDKGDTHNNGKTVVVLFLNNGTKLVYKPRNLESDIFYYKLLKKFNYDNNSKLKTPKIFNYNSHAWQEFIDYTNCNTTKEIESYYYHLGIHIFYTYMLRSNDIHYENIISTSNNPVIIDLETIMQGTINFDHNHVIKNNPFFLNDSILQSLLFDYATSFNGEGITFLGGTTNQTLAPKTEEILVDKNTDTMRYVYKEYFTNKSINIPKYKEKFMEIYSFKEEVLRGFNTAYLYTVKNKQEFKEILSIYPTFNVRYVLKPTYTYATYIEFLKQSHSKSSTELYSILQNSNVHYKSKDIITNLEYKSLLNYDIPYFTVNIDEKSIKSPTSNEKVVLDFFDKTPREETSLRINKLSLMDLKEQSNLLDLAIDAYKENSLNKVEVHSLKKLPDKKDINHEIKKIVSNTDNFSLLFSLRHNSNGEAIISPISYNLYDGLGGIALLLNYWIVKNKKDYLYSLKEINKSIENLYKIDKTKNFSIYHGKFSYFKYIYILNEISEEDLINENVKNLLELIKEYNTHIANSWYPIDYISGLTGIISLLIDYYTSTGHKEILYAIEDFKDLLLSKSKVSNDEIFWNQDAKDLKMNPGLAHGTSGIALTLAKYVHFIHKDEQIINTVEKILIYEDKALSFKESTIWCNGLSGILLARMLIQHYIPSLKITYMEELTEILCQDVSNLNNRKSVCHGIHGNMLVLKAIEFLRENSFPDIEQWNKGLRIHTMSYSWDSGFSYPNSNTGFFLGKSGQLFDIILNVKDYKLALYIMS NA NA NA NA NA AK015_03691 1008 hypothetical protein ATGTTTTACAAAAAAGTATATTTAATAACATTAATTTCTATTTTGTTTTTCCCTTTTGCTTTTATAGTTTCTAACTACACGGTATATGGAATACATGTATTGTACAATTTTATGAGCGGTACGGATACGCCTTTTAAATCTGATGAGAACTATATATATATATTTTCTCTTTTTTTTATATTGATTTTATTATACGTATATTTCCTTTCCAAGACTCTTAAAAATATATCGCTTGAAATTACTAATCTTTCAAAACTAATACGAGATATAGCTGAAGAGCAAGATATTTCAGACTTTGTTTCCATTTCAAGTTTAAAATTTGATGAAATTAGATATTTAAGTGAGTCAATTAATATATTAATAGAAAAATTACAATACAATCAAAAAAAGTATAATGAATCAGAAGAAATAAGAAAAAAATACTTAGATCAGCTTTCTCATGATATTAAGACGCCCCTTTCAATTATTAATATTAACTTATACTATATTCAGACAGGCAAAAATATAAATAAAGCAATAGAAGAAATAACCAAAAATGTAAATATTATCTCAACACTTAGTGATAGGATTTATCATAAAAATTATTTGAATTCTGATTCTATAATTATTAAAAAAGAGCCTGTCGTTTTAACTGATTTTTTACATCAGATTTTACAGAAATGGAACAATGCCTTCAATCATAAGCAAATACAGTGTAATATGAATATTGATTCAAGTATTATTTGGGTTTTAGATAAAATATGGTTTGAAAGATTGTTTGATAATATATTACAAAATGTTCTTTACCATTCAAAAGCGAGTGCTGTAGAAATAAAAGCGATAAAGGAGAAAAAATACGAGCGTTTGATTATTGTAGATAATGGTATAGGGTTTGATTATCCAGAGAAAGATCTTTCTAATGGCAAAGGGCTAACCATAATTAAGGAGATTCCCAGTTTATTAGAACTTGGAATCTCAATAAATAGTGATAAGTTTGGTACTAGAATAACCTTAACTCATAATATATAA MFYKKVYLITLISILFFPFAFIVSNYTVYGIHVLYNFMSGTDTPFKSDENYIYIFSLFFILILLYVYFLSKTLKNISLEITNLSKLIRDIAEEQDISDFVSISSLKFDEIRYLSESINILIEKLQYNQKKYNESEEIRKKYLDQLSHDIKTPLSIININLYYIQTGKNINKAIEEITKNVNIISTLSDRIYHKNYLNSDSIIIKKEPVVLTDFLHQILQKWNNAFNHKQIQCNMNIDSSIIWVLDKIWFERLFDNILQNVLYHSKASAVEIKAIKEKKYERLIIVDNGIGFDYPEKDLSNGKGLTIIKEIPSLLELGISINSDKFGTRITLTHNI NA NA NA NA NA AK015_03692 675 mprA COG0745 Response regulator MprA ATGAAAAATATAACGAAAGCATTAAATATTTTTGTACTAGAAGACGATAAATACATATCTGAATTTCTGCGTGAATTTTTAAGTGAGTATTTTGCTAATGTTTTTATTCAAACCGATAACCGATTTACTTACTCCAAATTAGAACATATAGACATTTTTTTATTAGATATTGAAATTCCTTTTGACAATGGATATGAAATTTGTAAAAAGATAAAATTGTTATTTCCTCAAAAACCAGTAGTGTTTTTAACCGCTCACAGCCAATTAGAGGATAAAATTAGAGGATTGGAATTAGGGGAGGAATTTATACCTAAACCATTTGAGCCTTTAGAACTTATAGCTCGATTAGAGAATTTATTGAGTAATAAATATAGTGAATATTATTATTTAAACGGTCTGCTGGTTAATAAATCTATACAAAGCGTTTTGGATAGTAAAAAAAGGAAAGAGATTAAGTTAAGCAACACAGAAAAAAAGCTTTTTTTTTATTTATATAATAATATAGGTCTTTGTTTATCTAAAGAACAGATCATTGAACATATTTGGGGGATTGATTATAATGATAAAGCAAATTCTCTAAATGTTTATATAAATAATTTAAGAAATAAAGTAGATATCAATGGGGACATTATTCATACAATTTACGGATATGGTTATAAAATGTCAACTCATTAA MKNITKALNIFVLEDDKYISEFLREFLSEYFANVFIQTDNRFTYSKLEHIDIFLLDIEIPFDNGYEICKKIKLLFPQKPVVFLTAHSQLEDKIRGLELGEEFIPKPFEPLELIARLENLLSNKYSEYYYLNGLLVNKSIQSVLDSKKRKEIKLSNTEKKLFFYLYNNIGLCLSKEQIIEHIWGIDYNDKANSLNVYINNLRNKVDINGDIIHTIYGYGYKMSTH NA NA NA NA NA AK015_03694 1188 sstT Serine/threonine transporter SstT TTGAAAGGTTTTGGATTACTAATACGTATTGTTATCGCTATTGCGTTAGGTATTACAATTGGATCGTTTGCAAATGACTGGTTTATCCGTGTTTTCGCAACATTCAATGATCTGTTCGGAAACTTTTTAGGTTTTATTATCCCGTTAATTATTCTCGGTTTCATTATCCCTGGTATCGGATCACTAGGTAAGGGCGCAGGGAAACTATTAGGTCTAACAGCATTTATTGCATATTCTTCCACAGTTATTGCTGGTATTGTTGCCTTTTTCTCTGCAAAGACCATTTACCCTAACTTATTAAGTCAGCAATCATTACAATCATTTTCTGATCCAACTAAAGCTTTAAGTAGTGGATTTATAGAGATTGAAATGCCACCACCTATGGGGGTTATGACTGCTTTATTACTAGCTTTTGTTCTTGGTCTAGGAATTGCCGCGATTAAAGGGGACACGCTTTACCAATTGTCACTAGATGTTAGAGACATTATTCATTTAGTAATTGAAAAAGTTATTATTCCACTATTACCATTTCATATTTTTGGTATCTTTGCTAATATGACTGCTGCTGGACAGGTGAGTACTATATTATCCGTTTTTGCTAAAGTCTTTGTAATGATCATTATTTTGCACTTACTTTACTTACTAGTACAATATACACTTGCGGGAACTTTAAGCAAGCAAAATCCTGTATCTATGTTAAAAACAATGGCTCCAGCCTATTTTACTGCGCTAGGAACTCAATCATCAGCGGCTACCATCCCTGTCACTTTAAAACACTCTAAAAAACTAAAAGTGCGGGAAAGTATTGCGGATTTCACGGTACCTTTGCTAGCTAATATTCATTTATCTGGAAGTACTATTACACTTGTAAGCTGTGCATTAGCTGTATTGTTCTTACAAGGTGAAGTTGCTACTTTTGGAAGTATATTTCCGTTTATTTTAATGCTAGGTGTAACAATGATTGCAGCTCCTGGAGTCCCAGGAGGTGCAGTAATGGCAGCAATTGGCCTTTTAGAAAGTATGTTAGGCTTTGATTCCGTAATGGTCTCACTTATGATTGCCCTTTATTTAGCTCAGGATAGTTTAGGGACGGCTTGTAATGTTACGGGAGATGGAGCAATAACATCTATAACGGACAGTCTAAGCAAAAATAGTAAGGCATTAAACAATAAAGAAGGCGTAGTTTAA MKGFGLLIRIVIAIALGITIGSFANDWFIRVFATFNDLFGNFLGFIIPLIILGFIIPGIGSLGKGAGKLLGLTAFIAYSSTVIAGIVAFFSAKTIYPNLLSQQSLQSFSDPTKALSSGFIEIEMPPPMGVMTALLLAFVLGLGIAAIKGDTLYQLSLDVRDIIHLVIEKVIIPLLPFHIFGIFANMTAAGQVSTILSVFAKVFVMIIILHLLYLLVQYTLAGTLSKQNPVSMLKTMAPAYFTALGTQSSAATIPVTLKHSKKLKVRESIADFTVPLLANIHLSGSTITLVSCALAVLFLQGEVATFGSIFPFILMLGVTMIAAPGVPGGAVMAAIGLLESMLGFDSVMVSLMIALYLAQDSLGTACNVTGDGAITSITDSLSKNSKALNNKEGVV NA NA NA NA NA AK015_03695 201 hypothetical protein ATGGTGCAAAAAAATGGAATGTGGATACCAATTATCGCTTCGGTAGGTGTCGGTGCTGCAACATTTTATACAATGACGAAAAACAATCAAAATTTTGGTCAAACCATGCAAAAAATGATTCCTTTTGTATCACAAATGTCGAATTCCAATGCTGGAAGCAGTGGAGGTTCACAACAAATGGGTCCTTATGGAATGAGCTAA MVQKNGMWIPIIASVGVGAATFYTMTKNNQNFGQTMQKMIPFVSQMSNSNAGSSGGSQQMGPYGMS NA NA NA NA NA AK015_03696 1266 baiN COG2081 3-dehydro-bile acid delta(4,6)-reductase ATGTCCTATGACGTAACAATTATAGGTGGAGGGCCTTCAGGATTGATGGCAGCAATAGCTGCTGCTGAGCATGGTGCCAACACATTATTGATTGAAAAAGGAAAGAAGTTAGGGAAAAAACTGGCGATTTCTGGTGGCGGGAGATGTAATGTCACAAATCGACTTCCTCAGGAAGAAATTATAAAAAACATTCCAGGTAATGGAAAATTTCTATATAGTGCTTTTTCTGTTTTCAACAATTACGACATTATTGATTTTTTCACTACATTACAAGTACCTCTAAAAGAAGAGGATCACGGAAGAATGTTTCCAGTATCCAATCAATCTAAAACTGTAGTGAATGCGTTGTTAAGACGTTTAGACGAGCTAAATGTTAATGTGAAATTGGAAACTGCTGTAGAAGCAATCCATTACGATGAAAAAAACCATACTGTTATCCTTCCACATGGTAAAAAAATGCAATCTAAAGCTATTATTGTCGCAGTAGGAGGCAAAGCGGTCCCTTACACAGGATCTACTGGGGATGGATATGCATGGGCAAAAAAAGCAGGTCATACAATTACAGAGCTATACCCTACAGAGGTTGCATTAGTATCTGAAGAAGCATTTATTCGAAATAAATCATTACAAGGTATTTCATTACGTAATATTTGTTTATCTGTTCTTAACAAAAAAGGAAAAACAATTATTTCCCATCAAATGGACATGATTTTCACTCATTTTGGAATATCAGGGCCAGCTGTATTACGGTGCTCGCAATTTGTAGTAAAGGAGCTAAGAAAAGGGCGAAGCGAAGTGCCTATGGTATTAGATATTTTTCCAAATTCTACGGAGAAAGAACTTATGGATAAACTTTTGGATATGATTGACCAAGCTCCTAAAAAAACAGTCAAAAACTTATTAAAAGGGTTCGCCCCCGAAAAATTAATTATCTTTTTATTGAACCGTCACAACATGTACGAAGAACAAAAAGCTGGAAATTTATCCAAGCAATGGATTATGCAATTTATTCATGAATGCAAGCATTTTACATTTTACGTACATGGTTCACTTCCCTTAGAAAAAGCTTTTGTTACTGGAGGCGGTGTTTCCATTAAAGAAATAGTTCCAAATACCATGCAATCAAAAAAAACAGAACGATTATATTTCTGTGGAGAGATTTTAGATATTCATGGTTATACTGGTGGTTATAATATTACATCAGCACTTGTTACTGGTAGGTTAGCTGGTATAAACGCAGCTCTGGAACTACAAGCTGGCAATTGA MSYDVTIIGGGPSGLMAAIAAAEHGANTLLIEKGKKLGKKLAISGGGRCNVTNRLPQEEIIKNIPGNGKFLYSAFSVFNNYDIIDFFTTLQVPLKEEDHGRMFPVSNQSKTVVNALLRRLDELNVNVKLETAVEAIHYDEKNHTVILPHGKKMQSKAIIVAVGGKAVPYTGSTGDGYAWAKKAGHTITELYPTEVALVSEEAFIRNKSLQGISLRNICLSVLNKKGKTIISHQMDMIFTHFGISGPAVLRCSQFVVKELRKGRSEVPMVLDIFPNSTEKELMDKLLDMIDQAPKKTVKNLLKGFAPEKLIIFLLNRHNMYEEQKAGNLSKQWIMQFIHECKHFTFYVHGSLPLEKAFVTGGGVSIKEIVPNTMQSKKTERLYFCGEILDIHGYTGGYNITSALVTGRLAGINAALELQAGN NA NA NA NA NA AK015_03697 1611 murJ COG2244 Lipid II flippase MurJ ATGTCGAATATTGTACGTGGAACGATGTTGCTAACGGGAGCAACATTTCTCTCTAAACTATTAGGAATGATTTATGTCATTCCATTTAATGCTTTAGTTGGAGCAACAGGAGGTACGTTGTTTTCACTAGCTTACACTCCTTATAACATATTTATTAGTCTCTCAACTGTTGGAGTACCATTAGCTGTATCAAAATTTGTTTCCAAATATAATGCAGTCGGAGATTATGAAACAGGAATGCGCATGTTCCGTACTGGAATGACTTTAATGGTTACTACTGGAATCATAGCCTTTTTGGTCCTCTTTTTTAGTGCGGATTTATTAGCAACGGGAATGATTACGAGTGAAAATGCAGACGAGCTCTCGAGATCTGATGTCGCTTTTGTTATTAAAATGGTAAGTTTTGCTTTGATTTTAATTCCGGCTATGAGCATTGTGAGAGGCTTTTTCCAAGGGTACAATTCCATGGGGCCTACAGCTATATCTCAAGTCATCGAACAAATTGTACGGATCTTTTTTATTTTGGCAGGATCATTCGTTATTGTAAATATCTTAAATGGATCAGTCATTGCTGCTGTCGGTTTTTCTACTTTTGCTGCGTTTCTTGGGGCAGTAGCTTCTTGTCTTGTCTTATACATTTATTGGCAAAAAAGAAAGCCGTATATTGATAAACAACGCAAGCAACAAATATATATGTACGATATCAGCACAAGCGATATGTTTAAAGAATTATTTCGTTACGCAGGACCATTTGTATTAGTTGGATTAGCTACTCCGTTATATCAATTAATTGATCAGTTCACGTTTGAAAGAGCAATGGTTGCTAATGGGGAGGGAGATATTTGGTCTTTTTCCTATTCCGTCGTGAATTTCTATGGACATAAGCTAGTTATTATCCCTGTAACTATAGCAATAGGTTTATCATTAGCTATTCTCCCTGCAATGACCAAAGCATATACACAAAATAATAAGCAACTGCTAAAAAATCAAATAAGCCAAGCACTACAAATTGTTATGTTTTTAATTTTGCCTGCAGTTAGTGGACTATCATTATTATCCACGGAAGCTTATGGAGCGTTATTTGGATTAGAAAAAATTGCTATTTCTGGTGAGTTATTAGCTTGGTATGCACCTGTTGGTCTATTTTTCGGGCTATTCACCGTTACCTCTTCCATATTACAAGGTGTTAACCAACAGCGATTTGCTGTAGTTAGCTTATCTGCGGGTGTACTCGTAAAAGTGTTATTAAACATACAGCTTATTTATATGTTTGGTGCTAAAGGAGCTATCTTTGGGACAGCATTAGCAGCAGGTATTGCTACTATCCTCAATCTATGGCGCATTCGTTTAGCTGCTCAATTTTCTTATAAACCATTAGTAAAACAAACGACATTAATTATCATTTTTATTGCAATTATGAGTGTGGCGATTAGTTTAGGAAAATATTTATTAGGTATGGTCGTTCCAAATAATCGAGTAGGTATGATAATTACATTAATTGGCTGCGTGAGTGTTGGTGGGCTCGTTTACTTGTGGTTAGCTTATGCATCTACATTATTAGAGCGGGTGCTTGGAAATCGGGTTCGGTTTTTAGATAAAATCTTTAAGTGA MSNIVRGTMLLTGATFLSKLLGMIYVIPFNALVGATGGTLFSLAYTPYNIFISLSTVGVPLAVSKFVSKYNAVGDYETGMRMFRTGMTLMVTTGIIAFLVLFFSADLLATGMITSENADELSRSDVAFVIKMVSFALILIPAMSIVRGFFQGYNSMGPTAISQVIEQIVRIFFILAGSFVIVNILNGSVIAAVGFSTFAAFLGAVASCLVLYIYWQKRKPYIDKQRKQQIYMYDISTSDMFKELFRYAGPFVLVGLATPLYQLIDQFTFERAMVANGEGDIWSFSYSVVNFYGHKLVIIPVTIAIGLSLAILPAMTKAYTQNNKQLLKNQISQALQIVMFLILPAVSGLSLLSTEAYGALFGLEKIAISGELLAWYAPVGLFFGLFTVTSSILQGVNQQRFAVVSLSAGVLVKVLLNIQLIYMFGAKGAIFGTALAAGIATILNLWRIRLAAQFSYKPLVKQTTLIIIFIAIMSVAISLGKYLLGMVVPNNRVGMIITLIGCVSVGGLVYLWLAYASTLLERVLGNRVRFLDKIFK PGPT0017190_11 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 AK015_03698 711 rsuA COG1187 Ribosomal small subunit pseudouridine synthase A ATGCGCCTTGACAAATTTTTGGCCAATGCTGGATTGGGAAGTAGGAAAGAAGTAAAAGCTTTGTTGAAAAAACGATGCGTTATGGTAAATGGTCAATTAGCCAAAGATAGTTCCGTTCACGTTGATGAAATCAATGATAGTATTGCAGTAAATGGAAAGCCGATTTATTACCAAAAATACACATATATTATGTTGCATAAGCCTTCTGGTGTGATTTCTGCTACAGCAGATAAGCAAGATAAAACGGTTATTGAATTACTATCTCACGAATTACAAAAGTTTAAGCCGTTTCCAGTGGGGCGACTGGATAAGGATACAGAAGGCCTGCTTATATTAACGAATGATGGTCAATTAGCACATGAGTTATTGTCTCCCAAAAAGCATGTAACGAAAACGTATTTTGCAAAAATTAAAGGGGAGGTAACAGAAGCTGACTGCATGGCTTTTGCCAACGGTGTGACATTGGATGATGGCTATAGAACAAAACCTGCAACATTACGTATTTTGAAGCAAGCTGCACAATCAGAAGTTGAAATTATGATAACTGAAGGGAAGTATCATCAGATTAAGCGAATGTTTCGAGCTGTTGATAAACAGGTAGCATATTTAAAACGGACAACAATGGGGAAATTACACCTTGATAAGGCTCTTAAAAAAGGAGAATATAGGCAGTTGCGTGTTGAAGAAGTGAAGTTATTACAGAATTCATAA MRLDKFLANAGLGSRKEVKALLKKRCVMVNGQLAKDSSVHVDEINDSIAVNGKPIYYQKYTYIMLHKPSGVISATADKQDKTVIELLSHELQKFKPFPVGRLDKDTEGLLILTNDGQLAHELLSPKKHVTKTYFAKIKGEVTEADCMAFANGVTLDDGYRTKPATLRILKQAAQSEVEIMITEGKYHQIKRMFRAVDKQVAYLKRTTMGKLHLDKALKKGEYRQLRVEEVKLLQNS NA NA NA NA NA AK015_03699 558 ytlP RNA 2',3'-cyclic phosphodiesterase ATGGCAAGGTTACCACATTATTTTATCGCCATTCCGTTAACTAAAGAAGTTCAAGTTATGTGTAGCGATATGCAGACATTCTTAAAACAGAAGCTACCTTATAGGGAGTGGACAAATAAGCTTGACTTTCATATTACTTTAAAGTTTTTAGGGCCTGTATCCGATAGTAAAGTATGCCACCTGATCAACAGACTACAACGAGTTCATTTTTTACCTTTTTATTTAACAGTAGGTGGAGTAGATACTTTTGGCTCTTTTGAAAGACCAAGGGTAATTTATTCGAAAGTACAATTAAATGATACGTTAACAAAGCTAGTAAATCAGGTTGAGTTTGAAGCAAAAGCAGAAGGTTTTTTAGCGGAAAAACGGTCGTATATTCCTCACATTACATTAGCTAAAAAATGGGATGGATCAGCTCATGTAGGCAATGAGATGTTAACCGAAGTGAAAAATAAGGATTACCCAGTAATGTTATTGTATGTGGATCATTTCGTATTATATCAAACATTTCCAAATCAACAGCCGAAGTATAAAGTAAAAGCTCATTTTACACTATAG MARLPHYFIAIPLTKEVQVMCSDMQTFLKQKLPYREWTNKLDFHITLKFLGPVSDSKVCHLINRLQRVHFLPFYLTVGGVDTFGSFERPRVIYSKVQLNDTLTKLVNQVEFEAKAEGFLAEKRSYIPHITLAKKWDGSAHVGNEMLTEVKNKDYPVMLLYVDHFVLYQTFPNQQPKYKVKAHFTL NA NA NA NA NA AK015_03700 936 hypothetical protein GTGAAAACACTGGCACAATTAATTAAATTACAAGATTATATTTCTAGATACGAATGGAATCCTTATCGCTACCCAAGTCAATTTATTCGCTTAAAGAAAGAAAACTGGCGTCATTTGAAAGAGATGTGGGAAAAAGAAAAAAGCTTGCCACCATTACATGAGACAGAAATAGTAGATCAGGTCGAGCAATATTCAAGATGGAAAGTGTGGAAGCGCAAATCAAAAAAAGAGGAAGTTTCTCATGAAGAAGATGAGAAACTGACCCTCCCAGAAACGGAACAAGGCCTAAAGCAGTATTATTTAAATAAATTATTACACTTACAAATGAAATGGGCTACGTCTACGGTAACAGAGGTTTCTTTTGTTGATAAACACTGGCACAATGACATGGAAATCAAGTATTTCTTACAACGGTTCCCTGATACTTATTTAATTTTGTATTATCCGATATTCGAGATTAAAAAAGCGCCGGTTGAATGTGAGATAATTTTAATAACACCAATAGGAATTGAAATAATTAGTCAGATAAAAGAAGAAATCGGTGCGACATTTATAGCGCAGGATACACGAACATGGATAGTAGAAAAGGGAGATCATAGGGAAACATTATTAAATCCACATATCGCTTTAAAGCGGACGGAAAATATTATAAAAGGAATTCTTTCTCATTATGATTTAAACTTTCCCATTACAAAAGTTATTCTAGCTAAATCAAACCCTGTCCAGTTTGTAACGGAACCATTCCAAACTAAAATTATCGGTAGTCACCAATATCAAGATTGGTTTGCGCAAAAAAGAAAGATTACTTCTCCATTAAAAAATGAGCAGTTAAAAGTAGCAGAACGTTTATTAAAACATGTGCAAACCACCGCGGTTAAAAGGCCAGAATGGGAAGAAGAGCGAGATTCGTTTGAGTTTGTTGGCGAAGAATTTTAA MKTLAQLIKLQDYISRYEWNPYRYPSQFIRLKKENWRHLKEMWEKEKSLPPLHETEIVDQVEQYSRWKVWKRKSKKEEVSHEEDEKLTLPETEQGLKQYYLNKLLHLQMKWATSTVTEVSFVDKHWHNDMEIKYFLQRFPDTYLILYYPIFEIKKAPVECEIILITPIGIEIISQIKEEIGATFIAQDTRTWIVEKGDHRETLLNPHIALKRTENIIKGILSHYDLNFPITKVILAKSNPVQFVTEPFQTKIIGSHQYQDWFAQKRKITSPLKNEQLKVAERLLKHVQTTAVKRPEWEEERDSFEFVGEEF NA NA NA NA NA AK015_03701 813 hypothetical protein ATGGTGAACTGGCTGAAGCGAGTTCTAGGTAGTGAGTGGGAAATAGCTCCAGCAGGTGGGCTTACAGGAGACGCTTATCTGGCAACGAAAGGTAACCAGCGATTATTTTTAAAACGTAACTCATCTCCGTTTTTAGCCGTCTTATCGGCGGAGGGAATTGTTCCAAAATTAATCTGGACAAAAAGAATGGAAAATGGTGACGTCATTACAGCTCAGGAGTGGCTAGAGGGAAGAGAGTTAAAACCAGTTGAAATGCAACATTTACGCGTTGCTGATTTATTACGAAAAATTCACCAGTCCTCTGAATTGTTACATATGCTCATGCGTTTAGGGAAAAAACCTATTACATCAGACGAAAGCTATGATATTATAAAGGAACGTTTGCAACGCACGAATTTACATCATACACATGAACAAGTGGTTATTGCGTTACAATACTTAGAAAAACTGCTCCCTATTACAAGGAAGCGAAAACTTGTTGTCTGTCATGGAGATTTGAATCATAATAATTTACTACTGACAGAGGAAGGGCATTTATATCTTATCGATTGGGACAGTGCATTGATTGCTGATCCAGTTGTAGATTATGGAATGATTCTCAATTGGTATATTCCCCAAGAAAATTGGAATGAGTGGTTGCGACAATACGGTATTGCAACAGATAATCATTTGTTTGGGCGTATGCATTGGTATCTATTACTGGATTCTCTACATTACTTATGCTGGCATAAAGAACGTGATGAAGATGCTAAGTTTGTAGACCGTTTAAACGAGTTAGATATTTTGAATAAACAAATAGAAAGATTAATGTAA MVNWLKRVLGSEWEIAPAGGLTGDAYLATKGNQRLFLKRNSSPFLAVLSAEGIVPKLIWTKRMENGDVITAQEWLEGRELKPVEMQHLRVADLLRKIHQSSELLHMLMRLGKKPITSDESYDIIKERLQRTNLHHTHEQVVIALQYLEKLLPITRKRKLVVCHGDLNHNNLLLTEEGHLYLIDWDSALIADPVVDYGMILNWYIPQENWNEWLRQYGIATDNHLFGRMHWYLLLDSLHYLCWHKERDEDAKFVDRLNELDILNKQIERLM NA NA NA NA NA AK015_03702 288 hypothetical protein ATGGAATTAAATACAAATAATCAACTAACTTTGCTTATAGATTTATTAGACGAACATCGAACCGACCTTTGTGGTAGTGTCTCTGAATATCAACAAATAACCAGACTTGTAAAGTCTCTTATGCAAAATAGTTCTATTTCCAATCAAGAGATACAGGAGTTACTTCCTGAAATTTACGACTACGGGAAGAACGGTGAATCTTCACAAAATATGGAAGCACATATTGTGGCCAACAATACACAGTTAGCTGCATGGATTGATGCGCTTCATCAAACAAATTTACATTAA MELNTNNQLTLLIDLLDEHRTDLCGSVSEYQQITRLVKSLMQNSSISNQEIQELLPEIYDYGKNGESSQNMEAHIVANNTQLAAWIDALHQTNLH NA NA NA NA NA AK015_03703 657 trmB COG0220 tRNA (guanine-N(7)-)-methyltransferase ATGCGTCAGCGACATAAGCCGTGGTCGGATGATTTTTTACAAAAACATGCAGACACGGTTATTTCCAATCCATACAACTATAACGGTAGGTGGCAGGAAGTGTTTACGAATCATGATGCTCCTATTCACCTTGAAATAGGAACAGGTAAAGGGCAATTTATCGTTGAAATGGCTAGACAATACCCAGATGTTAATTTTATCGGTATTGAAGTAGCAAAAAGTATTATTGTAACGGCTGCTCAAAAAGTTGTTGATGCAGAAATGCCGAATATTCGCTTAATCCATGTTAACGCTGAAAACTTAACGGATTTGTTTGCAAGAGACGAATTATCCTTGATTTATTTAAATTTTTCAGACCCTTGGCCAAAAAATCGGCACGAAAAACGAAGATTAACCTATTATACTTTCTTAGAAAAATATCAACAAATTTTAAAACCAAACGGTGAAATTGTATTAAAAACCGATAATATGGGATTGTTTGAATATTCATTAGAAAGTTTTTCACAAAATGGACTGCAAATAGAAGAAGTGAATCTAGATTTGCATGGAATAGATGATCCTACAAATCGGATGACGGAATATGAAGAAAAATTTACAGCAAAAGGGCAACCCATATATCGTTGTCGCGTAAAGAATACGGAGTCTGTAAACCTGTAA MRQRHKPWSDDFLQKHADTVISNPYNYNGRWQEVFTNHDAPIHLEIGTGKGQFIVEMARQYPDVNFIGIEVAKSIIVTAAQKVVDAEMPNIRLIHVNAENLTDLFARDELSLIYLNFSDPWPKNRHEKRRLTYYTFLEKYQQILKPNGEIVLKTDNMGLFEYSLESFSQNGLQIEEVNLDLHGIDDPTNRMTEYEEKFTAKGQPIYRCRVKNTESVNL 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 AK015_03704 843 ytnP COG0491 putative quorum-quenching lactonase YtnP ATGGAGAAGTTAAAGCTAGGAAGAGCAACTTTGACATGGCTTCAAGGAGGAGTAATCCATTTAGATGGAGGGGCGATGTTTGGAGTAGTACCTAAAGTACTATGGCAGTCAAAGTACCCGACAAACGAGTGGAATCAAATTGAGTTACGAACAGATCCGATACTATTACAACTGGATGGAAGAAATTATTTGATTGATAGCGGAATTGGGCAAAATAAATTGACAGAGAAGCAACAGCGAAACTTTGGGGTTACAGAGCAGTCAAAGGTTGTTTATGATTTGGCTGTCCTTGGATTAGCACCAAATGATATCCATGGTATTTTAATGACGCATATGCATTTTGATCATGCATCGGGTTTAACTTTTCCTGTGGCGGCGGATGCATATGAATCTGTATTTAAAAAAGCTGTCATTTATGTAACAGATATAGAATGGAAGGAAATGAGAAACCCAAATATTCGATCTAAAAATACTTATTGGAAGAGCAATTGGGAAGCAATAAAAAAACAAGTTCAACCATTTTCACACGAAATCGAAATTACAGATGGGTTAAAAATGATTCATAGCGGCGGTCATAGTGATGGTCATAGCGTTATTGTTTTTGAAGAAGGAGATACATGTTGGATTCATATGGCGGACATTATGCCAACCTATGCACATCAAAATAAATTATGGGTACTAGCCTATGATGATTATCCGGTAACTTCTGTTTATCAAAAGGAAAAATGGATGGCTTATGGATATCAAAGGCAGGCATGGTATACATTTTATCACGATGTGTATTATCGAGCGATAAAATTTAATGGACTGGGAAATTGCGTGGATCAATTAGTACGTAAGTAG MEKLKLGRATLTWLQGGVIHLDGGAMFGVVPKVLWQSKYPTNEWNQIELRTDPILLQLDGRNYLIDSGIGQNKLTEKQQRNFGVTEQSKVVYDLAVLGLAPNDIHGILMTHMHFDHASGLTFPVAADAYESVFKKAVIYVTDIEWKEMRNPNIRSKNTYWKSNWEAIKKQVQPFSHEIEITDGLKMIHSGGHSDGHSVIVFEEGDTCWIHMADIMPTYAHQNKLWVLAYDDYPVTSVYQKEKWMAYGYQRQAWYTFYHDVYYRAIKFNGLGNCVDQLVRK NA NA NA NA NA AK015_03705 315 hypothetical protein ATGGGTGTAAAAAAAGCAGTTATTGCTGCAGGGCTTGGCGTTGCTGTAGGCTACCTTGCAAAGCAACAACTGGATCAAATGCAAAAAGTTACTCCTGAGAAAGCATTAAACCATGCAAAAGAAACATTTAAGAAGCAAGGGCCAATTAGCGGTTCTTGGATTTATATGCAACCACAAGAAGTAGAGAAAAACGGCCTTCTCTACGATGCTTATCGTGGTGGAGTTACACGGAATTTAGACGGGGAAAACAAGCAGTATGAATTTTATGTAGATGTTGAAACTGGTGCGGTGATTGACGCCGTACAAACAACATAA MGVKKAVIAAGLGVAVGYLAKQQLDQMQKVTPEKALNHAKETFKKQGPISGSWIYMQPQEVEKNGLLYDAYRGGVTRNLDGENKQYEFYVDVETGAVIDAVQTT NA NA NA NA NA AK015_03706 1068 ysdC_3 COG1363 Putative aminopeptidase YsdC ATGAATCAAGAAACATTGTCCTTATTTAAACAATTGACAGAGCTTCAAGGTGCGTCAGGCAATGAACATGCTGTGCGTTCATTTATGAAACAAGAGTTATCCAAATATGCCGATGAAATCATGCAAGATAATTTAGGCGGAATATTTGGTGTAAAAAAAGGATCAGGACCTAAAGTTATGGTAGCAGGTCATATGGATGAAGTTGGTTTTATGGTGACACAAATAACAGATAATGGCATGTTACGTTTTCAGCCATTAGGTGGTTGGTGGAATCAAGTATTACTTGCTCAGCGAGTACAAGTTATAACAGATAATGGGCCAGTTGTTGGTGTAATTGGTTCAATTCCACCTCATAATTTAACAGATGAGCAACGCAAAAAGCCGATGGAAATAAAACATATGCTCATCGATATTGGTGCTGATGATAGAGCGGATGTTGAAAAAATAGGTGTTAAACCAGGGCAACAGATTGTCCCTTTAACGCCATTTACGCCGATGGCAAATAGTAACAAAATTTTGGCTAAGGCATGGGATAACCGTTATGGTTGTGGATTAGCGATTGAATTGTTAAAAGAAGTGCAAAAAGATGCCTTACCGAATGAATTGTATGCAGGTGCGACAGTACAAGAGGAAGTTGGCTTGCGCGGTGCACAAGTTGCAGCTAATAAAATTCAACCAGACATATTTTTTGCATTGGATGCTTCTCCTGCTAATGATATGTCAGGGAAAAAAGATGAATTTGGGCAATTAGGTAAGGGTGCATTATTGCGTATTTTTGACCGAACAATGATTACACATCAAGGCATGAAAAATTTTGTTCTCGATACAGCAGAGAGCAACAATATACCTTATCAATATTTTATCTCGCAAGGTGGAACAGATGCAGGTAGAGTCCATGTAGCAAACCAAGGCGTTCCTTCTGCAGTCATCGGTATATGCTCGCGCTACATTCATACATCATCTTCTATTATACATGTGGACGATTATGCAGCTGCTAAAGAATTACTAATCAAGCTTGTCAAATCAACAGATCAAACAACGCTGGATAACATCCATCGTTCCGTTTAA MNQETLSLFKQLTELQGASGNEHAVRSFMKQELSKYADEIMQDNLGGIFGVKKGSGPKVMVAGHMDEVGFMVTQITDNGMLRFQPLGGWWNQVLLAQRVQVITDNGPVVGVIGSIPPHNLTDEQRKKPMEIKHMLIDIGADDRADVEKIGVKPGQQIVPLTPFTPMANSNKILAKAWDNRYGCGLAIELLKEVQKDALPNELYAGATVQEEVGLRGAQVAANKIQPDIFFALDASPANDMSGKKDEFGQLGKGALLRIFDRTMITHQGMKNFVLDTAESNNIPYQYFISQGGTDAGRVHVANQGVPSAVIGICSRYIHTSSSIIHVDDYAAAKELLIKLVKSTDQTTLDNIHRSV NA NA NA NA NA AK015_03707 525 COG1986 Inosine/xanthosine triphosphatase ATGGATATAAAGGTAATAAAGCAAATGAGGATTATAATTGGTTCAAAGAATAAAGCAAAAATTAAAGCTGTCGAAAAAGTTTTTCCAAATGCTTCTATTACATCCAAAGGCGCTTCATCAGGAGTGTCAGCACAGCCCTTCTCTGATGAAGAGACGAAGCAGGGCGCGATTCATCGTGCCCTTCACTGTATTCAAGGGGAAACAAATACATTTGGGATCGGACTAGAAGGTGGCGTCATGTTTATTGGTAATAAATTATACCTTTGTAATTGGGGAGCGCTAGCGTTACCGGATCAACTCTATACAGCTAGCGGTGCTCGCATTCTTTTGCCACAAGAAATTACCAAGGAACTTCTAAAAGGCAGAGAACTTGGTGAAGTTATGGATGCATTCGCCCATCGAAAGCAAGTTAGACAAAAAGAAGGAGCAATTGGTATTTTTACAGCAGAGCGAATATCTAGGATAGACATGTTTTCTCATGTGATAGAATTATTGCGTGGACAATGGGAATATAATCAGCTCTAA MDIKVIKQMRIIIGSKNKAKIKAVEKVFPNASITSKGASSGVSAQPFSDEETKQGAIHRALHCIQGETNTFGIGLEGGVMFIGNKLYLCNWGALALPDQLYTASGARILLPQEITKELLKGRELGEVMDAFAHRKQVRQKEGAIGIFTAERISRIDMFSHVIELLRGQWEYNQL PGPT0021540_483 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0021540-yjjX-K01529 NA NA AK015_03708 441 hypothetical protein ATGGAACTTACTGTCTATTTAGCTGGTCAAATACATGATAACTGGCGCGGTGAAGTAAAAAAGTTGGCAGAAACAAAAGAACTGCCGTTACAATTCGTTGCCCCGCAAACCAATCATGAAAGATCTGACAATATCGGAGAAGCTATTTTAGGAAAACAACCTGATTCTCTCTACAAAGATGAGGCTGCCTCAAGCATTAATAATTTTCGTACGCAAGTATTAATGGAAAAAGCTGATATTGTTATCGCACTCTTTGGGGAAAGCTATAAACAATGGAATACAGCAATGGATGCAAGTCAGGCAATTACGTTAAATAAACCTACAATAATTATTCGACCGAAATCTTTAATTCATCCTCTCAAGGAACTGTCGGAAAAAGCAAATGTGACCGTTGAAACTGTGGAGCAGGCTTTAGACGTCATTGCATACATTTTTGAATAA MELTVYLAGQIHDNWRGEVKKLAETKELPLQFVAPQTNHERSDNIGEAILGKQPDSLYKDEAASSINNFRTQVLMEKADIVIALFGESYKQWNTAMDASQAITLNKPTIIIRPKSLIHPLKELSEKANVTVETVEQALDVIAYIFE NA NA NA NA NA AK015_03709 318 ytpP Thioredoxin-like protein YtpP GTGAAAACGTTGACGAAACAAGAATCATTTACACAAGTAATAAATCAAGGGAAGGTTGTGCTTTATTTTACAGCAGGATGGTGTCCAGATTGTACGGTAATTGAGCCCATATTGCCAGAAATTGAAGTAGCTTATCCTGATTATTTGTTTATAAAAGTAGATAGAGATGAATTTATGGATATTTGTCAAGATTATTCTATTTTTGGCATTCCTAGTTTTCTTGCGTTTCAAGATGGAGAAGAAGTAGGGAGATTTGTAAGTAAAGATCGAAAAACAAAAGAAGAGATTATCCAATTTATGGACGGTCTTCCGAGCTAA MKTLTKQESFTQVINQGKVVLYFTAGWCPDCTVIEPILPEIEVAYPDYLFIKVDRDEFMDICQDYSIFGIPSFLAFQDGEEVGRFVSKDRKTKEEIIQFMDGLPS NA NA NA NA NA AK015_03710 810 hypothetical protein ATGCAAATGACAAGTATCAAATTAAAAAAGCTATTAGATGAACGGTTTCAAAATGACAATTGGCAAACGACGTATAATCGCGATAAAGATACTTTTCGGGTAGAATGGAAAGCATCGAAACAAGGAATTACTATTACTTTACCAAATGTTGTAGCGAAATATAATCAAAAAGGCGAATCAGTCATTGATGATTTAGAGGATCATGTAAAAGAAGCATTACGAATTATGAACGAAGAACAACAATTGGAAGGTATGGAAAAACAGATATTTCCAGTTATCCGGTCTACCTCATTTCCAACTAAAACGAATGCCAATAATAAGCTTATTTATAAAGAACATACGGCTGAAACACGTATTTTCTATGCTATTGATCTAGGGAAATCGTACCGTTTAATTGACCAATCGCTAATTGAAAAAGAAGGTTGGTCAGAGGAGCGAATTGATGAGATTGCATCATTTAATTTACGTTCTTTGCCAGTAGATTATAAGCATGATCAAGTAGCAGATAATGATTTCTATTTTCTTGCTTCCCAAGATGGCTATGACGCTAGTAGAATTTTGAACGAAGCGTTTTTGGAGGAAATGAAAGCAAATAGTAAAGGGGAAATGGCAGTTGCCGTCCCACACCAAGATGTATTTATTATTGCAGATGTGCAAAATAAAATGGGGTACGATGTTTTAGCGCAAATGACGATGAAATTTTTCGCTGAAGGTAGAATCCCCATTACTTCTTTGCCAATGATTTACGAAGATAAACATCTTGAACCAATATTTATACTTGCTAAGAATAGACCAGAAAAAGACAATTAA MQMTSIKLKKLLDERFQNDNWQTTYNRDKDTFRVEWKASKQGITITLPNVVAKYNQKGESVIDDLEDHVKEALRIMNEEQQLEGMEKQIFPVIRSTSFPTKTNANNKLIYKEHTAETRIFYAIDLGKSYRLIDQSLIEKEGWSEERIDEIASFNLRSLPVDYKHDQVADNDFYFLASQDGYDASRILNEAFLEEMKANSKGEMAVAVPHQDVFIIADVQNKMGYDVLAQMTMKFFAEGRIPITSLPMIYEDKHLEPIFILAKNRPEKDN NA NA NA NA NA AK015_03711 603 hypothetical protein ATGAACATATTTTATAACGTTGATGGTATTGGTGATGTATTGATTATACCGTTGAAAGAAGGAAATCGTTACCAAATTCAGCATGATAGAATAGGTGACATTGTACGAATAACGAATGAGCATAATAAAGTTATAGGCTATAATATTTTTCAAGCTTCTAAGCATTTTTCCTTTCTACAAGCAGGAAAAATGGCGTTAACAGAAGATATACTAAGAGAAATACAACAGCTTTTTGAAACGCATCAATTAAATGATGACCTTGATTTTGACTTAAGCGCTAAATTTGTGGTTGGCTATGTTCAAGAAAAAAAACAACATGAAAACGCAGATAAGTTGAGCGTTTGCCAAGTGGATGTAGGTGATGAAGTATTGCAAATTGTTTGCGGGGCGCCAAATGTAGAAGCTGGTCAACATGTTGTCGTGGCAAAAGTAGGTGCAACGATGCCAAGTGGGTTGAAAATCAAGCCAACTAAATTAAGAGGGGTGCCTTCTAATGGCATGATCTGCTCGCAAAAGGAATTAGGCTTACCAAATCCACCAAAGGAAAAAGGTATATATGTTTTAAATAATTCCTATGAAGTTGGATCAGCATTTAACATTTAA MNIFYNVDGIGDVLIIPLKEGNRYQIQHDRIGDIVRITNEHNKVIGYNIFQASKHFSFLQAGKMALTEDILREIQQLFETHQLNDDLDFDLSAKFVVGYVQEKKQHENADKLSVCQVDVGDEVLQIVCGAPNVEAGQHVVVAKVGATMPSGLKIKPTKLRGVPSNGMICSQKELGLPNPPKEKGIYVLNNSYEVGSAFNI NA NA NA NA NA AK015_03712 2583 hypothetical protein ATGTGGGATAATTGGAAGAAAAAAATAAAGCGCCTTTTTATAAGTGATGAAGAAAATCATCGAGATGAAGATATGCAGCAACCAGATAGACATCATCCTGAGGCCAAAATGATGTATCAATATCCTGCAAAAAAATCATTTCGCTTTCCTGTAGTTCCGGATAAAGGAAATGAAACGAGTCAGCATCGTAGTTATTCTGACAAAAATGAAGCAGTTGAAAATAGAAGTAATCCAAAAACACAACAATCAAAATCAAGCATACAAGGTCACACATTTTCCAAATCAACAGAAGATGACGTATCTAAATATGATACACCAGCATTTCGAAGAAGGGATGTGAATCATTCTAATCCGAGACATACAACGGTGCAAGGCTATAAAGATGAACATTCGAAGCATAAAGTATATAAAAAAAATCCGGACCAACCATTTCGGCCAACAGAAGTTCCTTCACCTATATATGGTTTTCACCCACGAAATGAAAACAAGGCGAAAGTAATAGAGGAAGTTCCTGCCTATAAGCGTAAGCAGGAGGTTGATCCATTTAAAGATTTGGAAGCATTGAAGGAGGAGTCATCTAGAACGGAAATTAAATCTGTAGATACTGAAGTTCCTGCTTATCTACGTAAACAAGCAATAGAAGATGTAAAGCAATTGGCAAACAGTAAATTACAAAATGAGAGTTATTCCAAGCGGAACACGAAAGAAACAAACTTTGAACAGAAGGAAACAATAAATGACCTAAAAGAAGAAGAAACGTATCAAAGTGCAATATTGGAAAAGCAAGAAAAGCATACAGATGCAAGTATAGCTAATGAACAAAACCAGAGCGCATCTGAGGCTTTTGATCAAGAAGATACACAAGAACAAGTAGAAGCTAAGCAAGAATCCGCTGCAACGGTAATGAAAGAAGAACGGAGCGATGATGACCAACAGAAAGAAGATAAACGAACGAATCAAACAAAAACAGAACCAAAACGGGAAAATCGTTTATCACAAAGACGAAGACAACAGCAAATGGGAAAAAATAATGTTCCATTTAATGTCATGATGACACCGAGAGATAAGAAAAACTTATGGGATCGAACAAAGCAAAAACAGAATAGAAATGCTGAGGAAACACGGTCTAGCCAATCGACAAATGAGTTAGCTGATACGATAACGGAGCACAGCGCTGTGAAGGAAATACCTTTGCATTTATTAAATGATATAGAGGATCATTCCTCAGATGATAAGGCATGGTTGGATGAACAACAGCAGCTTCTTGAACAAACGCTAAAGTATTTTAATGTCCAAGCAAAAGTAGTAAATGTTACCCAAGGCCCTTCCGTTACAAGATTTGAGGTTCAACCGCAGCTTGGGGTTAAAGTTAGCAAAGTGAGAAACTTAAGTGATGATTTAAAACTAAATATGGCTGCAAAAGATATTCGAATTGAAGCGCCCATTCCGGGTAAGAATACTATTGGGATAGAAATACCGAATAGAAAACCACAAATGGTAGGGTTACAAGGCGTGTTTGCAACAGAAGCCTTTAAAAAAAGCGATTCACCGTTAACCATTGCTTTAGGCCTAAGTATAGAAGGAGAACCTTTAATTACCAATATTCAAAAAATGCCTCATGGTTTAATCGCGGGTGCCACGGGGTCTGGGAAAAGTGTCTGTATTAACACAATTTTAATTAGTTTATTGTATAAAGCCCACCATGAAGAAGTGAAATTTTTACTTATTGACCCTAAAATGGTGGAATTGGCTCCTTATAACGGAATCCCTCATCTTGTTTCACCGGTTATTACAGATGTGAAAGCTGCTACCGCTGCTTTAAAATGGGCTGTTGCTGAAATGGAAGAACGCTATGAAAAATTCGTTCACGAAGGCGTCCGTGATATAGAGAGATATAATGAAAAAATGGTCAAACAGCAACAGATGGAGAATAAGCTTCCTTTTATTGTTATTGTCATTGATGAACTGGCAGACTTAATGATGGTCTCCCCACAAGATGTAGAAGATGCGATAAGTAGAATTGCACAAAAAGCAAGGGCTTGTGGAATTCATCTAATATTAGCAACTCAGAGGCCTTCTGTGGACGTGATCACTGGATTAATAAAGGCTAACATACCTACAAGGATTGCCTTTAGTGTGTCTTCTCAAGTTGATTCTAGAACTATACTTGATACAAGCGGGGCAGAGAAGCTACTAGGAAAAGGGGATATGCTGTTTATAGAGAATGGTTCTGGAAAAACGGTTCGTCTACAAGGACCATTTGTATCTGATGATGAAATCGACAGAGTGGCAAGTTACGCAAGAAGTATTGCCCCTGCTAATTATTTATTTGAACAAGAACAGTTACTAGAACAAATCCATACAGAAGAGGAAGAAGATGATCTTTTAAAAGATGCTATTTTATTTGTGCTAGAGCAAAATGGAGCCAGCACATCTTTGTTGCAACGTCATTTTAAAATAGGTTACAATCGAGCTGCTAGATTAATTGATACGCTCGAACAGCGGGGGATTATATCGGGGCCAAACGGTAGTAAGCCGAGAGAAGTTTTAGTTACGTCAACACAAGTGGAGGACATGATATAG MWDNWKKKIKRLFISDEENHRDEDMQQPDRHHPEAKMMYQYPAKKSFRFPVVPDKGNETSQHRSYSDKNEAVENRSNPKTQQSKSSIQGHTFSKSTEDDVSKYDTPAFRRRDVNHSNPRHTTVQGYKDEHSKHKVYKKNPDQPFRPTEVPSPIYGFHPRNENKAKVIEEVPAYKRKQEVDPFKDLEALKEESSRTEIKSVDTEVPAYLRKQAIEDVKQLANSKLQNESYSKRNTKETNFEQKETINDLKEEETYQSAILEKQEKHTDASIANEQNQSASEAFDQEDTQEQVEAKQESAATVMKEERSDDDQQKEDKRTNQTKTEPKRENRLSQRRRQQQMGKNNVPFNVMMTPRDKKNLWDRTKQKQNRNAEETRSSQSTNELADTITEHSAVKEIPLHLLNDIEDHSSDDKAWLDEQQQLLEQTLKYFNVQAKVVNVTQGPSVTRFEVQPQLGVKVSKVRNLSDDLKLNMAAKDIRIEAPIPGKNTIGIEIPNRKPQMVGLQGVFATEAFKKSDSPLTIALGLSIEGEPLITNIQKMPHGLIAGATGSGKSVCINTILISLLYKAHHEEVKFLLIDPKMVELAPYNGIPHLVSPVITDVKAATAALKWAVAEMEERYEKFVHEGVRDIERYNEKMVKQQQMENKLPFIVIVIDELADLMMVSPQDVEDAISRIAQKARACGIHLILATQRPSVDVITGLIKANIPTRIAFSVSSQVDSRTILDTSGAEKLLGKGDMLFIENGSGKTVRLQGPFVSDDEIDRVASYARSIAPANYLFEQEQLLEQIHTEEEEDDLLKDAILFVLEQNGASTSLLQRHFKIGYNRAARLIDTLEQRGIISGPNGSKPREVLVTSTQVEDMI PGPT0030468_4048 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 AK015_03713 1113 hypothetical protein ATGAAGGAAATTGAACAAAAGCTAAATGGGAAAATTGAACGTTTGACAAACAAAACCTTCAAATTTGATGAGCGCATTAAGGAAGGCTGGTTCTCGGCAGTATATTTTTTGAAAACAAGAGAGATAGCTGCAAAAAAATTACCTAACAACCAAGTGACAATGCAATTTTTTCAAAAAAACGATGCGGTATTATGTGGGTCGGATGAAGCAATAGCTTTATTACATAAATTTGCGGATAATGCGGAGACACTGGAAATCCATTCATTAAAAGATGGAGACAAGATTAGACCGTATGAATCTGTGTTAACTGTATCTGGGGCTTATCATCAATTTGGCTTTTTAGAGGGCATTATTGATGGGATTTTGTCTAGAAGAACATCTGTCGCAACCAATGTATATAATGTGGTAAAAGCGGCCCGGACATCAGGGAAACAAAAGCCAGTCATTTTTATGGGAGACCGTGATGATCATTATACACAACAAGCTGGAGATGGTTATGCAGCATTCATTGGTGGATCAACAGCGCAAGCTACACACGCGATGAATGAATGGTGGGGAAAAGAAGGAATGGGAACCATGCCTCATGCGTTAATCCAGATGTTCCGCGGGGATATTGTCGCAGCTTGTAAAGCATATCATGAATTATTCCCTGAGGATGATCTAGCAGCACTTGTTGACTATAATAATGATGTAATCACAGATTCTCTGAAAGTGGCACATGCATTTGGCAATGAATTAAAGTCTGTTCGTCTAGATACGTCACGTACATTAGTTGACAAATACTTTCTACGCAACCATCATTTAATGGGGACATTTGACCCAAGGGGAGTTAATCCAGAGCTCATTTTTGCGCTAAGAAACGCATTGGATGAAGAAGGGTTCTCACACGTGAAAATTATGGTTAGTGGTGGATTTACAGAAGATCGTATTGTAGAATTTGAAAAGCTAGGCGTTCCTGTGGATATGTATGGTGTAGGTAGAAGCTTACTTAAATTGAATATTGGCTTCACAGGCGACAATGTACTTTTGAATGGTACACAAGAAGCAAAAGAAGGAAGACGATATAGACCAAATCCACGGTTAGAAAAAGTTCCTTATACCGAACAAACGTAA MKEIEQKLNGKIERLTNKTFKFDERIKEGWFSAVYFLKTREIAAKKLPNNQVTMQFFQKNDAVLCGSDEAIALLHKFADNAETLEIHSLKDGDKIRPYESVLTVSGAYHQFGFLEGIIDGILSRRTSVATNVYNVVKAARTSGKQKPVIFMGDRDDHYTQQAGDGYAAFIGGSTAQATHAMNEWWGKEGMGTMPHALIQMFRGDIVAACKAYHELFPEDDLAALVDYNNDVITDSLKVAHAFGNELKSVRLDTSRTLVDKYFLRNHHLMGTFDPRGVNPELIFALRNALDEEGFSHVKIMVSGGFTEDRIVEFEKLGVPVDMYGVGRSLLKLNIGFTGDNVLLNGTQEAKEGRRYRPNPRLEKVPYTEQT PGPT0013375_4683 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763 NA NA AK015_03714 1299 murC UDP-N-acetylmuramate--L-alanine ligase ATGACAACTTACCATTTTATTGGTATAAAGGGAACAGGAATGAGTGCTCTTGCTCAAATCCTGCATGATTCTGGAGAGAATGTGCAAGGGTCAGATGTGGAGAAACGATTTTTTACGCAAGAAGCATTGGAAGAAAAGAATATTCCCATTTTTCCTTTTGCAGAAAGTAACATCAAAGAAAATTATACGGTTATCGCTGGGAATGCATTTTCTGATAACCATCTAGAAATAAAAGAAGCAAGAAGGTTAGGCGTAACCTTCTATCGTTATCATGAATTTCTTGGAGAATGGCTAAAGCAATATACAAGCATTGCAGTTACTGGCGCACATGGTAAAACATCAACGACTGGTCTGCTCAGTCATGTCTTGAGTAGTTCTTTTCCCATTTCTTATTTAATTGGAGATGGCACAGGTAAGGGGCATGTGGATAGCAAGTATTTTGTGTTTGAGGCTTGTGAGTATCGCCGTCATTTTTTACGTTATGAACCCGATTATGCGATTATGACAAATATTGATTTTGATCACCCAGATTATTTTACAAGTATTGATGACGTTTTTAGCGCTTTTCAATCTATGGTAGAACGTGTAAAAAAAGGTATTATTGCTTGTGGTGATGATGAACAATTACAACGGATACAAGCAAAAGTTCCTGTTGTTTATTATGGGTTTACTGATACGAACGATTTTCAAGCTCAAAATGTAATGGAAACGGAGAACGGAACAACGTTTGATGTATTTGTCAGGAATACGTATTATGAAACTTTCTCTATTCCAATGTATGGAAATCATAACGTATTGAATGCATTAGCAGTAATTGCTATATGCCATTATGAAGGAATAAACGCTGAGTGCATGAAGCATTTGGCTAGTTTCGGCGGTGTTAAGCGGAGATTCACTGAAAAACGAATAGGAAATCAGGTACTTATTGATGACTATGCGCATCATCCAAAGGAAATAAACGCTACTATTGATTCAGCCCGAAAGAAATATCCAAATAAATCTATTGTAGCGATTTTTCAACCACATACATTTACAAGAACAAAAACATTTTTGCAAGAATTTGCTGATAGCTTATCACAAGCAGACCATGTTTATTTATGTGATATATTTGGTTCAGCAAGGGAAGAAAGTGGTCAATTAACCATTCATGATTTACAAAAACTAGTGGATAATAGTTCACTATTAGAATTAACAGATACCAAAGGTTTACAGAAATTTTCCGATAGCGTACTTATTTTTATGGGGGCAGGCGACATTCAAAAATTTCAAGAGGCATATGAAAAAATATTGACCACATAA MTTYHFIGIKGTGMSALAQILHDSGENVQGSDVEKRFFTQEALEEKNIPIFPFAESNIKENYTVIAGNAFSDNHLEIKEARRLGVTFYRYHEFLGEWLKQYTSIAVTGAHGKTSTTGLLSHVLSSSFPISYLIGDGTGKGHVDSKYFVFEACEYRRHFLRYEPDYAIMTNIDFDHPDYFTSIDDVFSAFQSMVERVKKGIIACGDDEQLQRIQAKVPVVYYGFTDTNDFQAQNVMETENGTTFDVFVRNTYYETFSIPMYGNHNVLNALAVIAICHYEGINAECMKHLASFGGVKRRFTEKRIGNQVLIDDYAHHPKEINATIDSARKKYPNKSIVAIFQPHTFTRTKTFLQEFADSLSQADHVYLCDIFGSAREESGQLTIHDLQKLVDNSSLLELTDTKGLQKFSDSVLIFMGAGDIQKFQEAYEKILTT PGPT0024120_4846 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924 NA NA AK015_03715 159 hypothetical protein ATGAAAAAGCAGACTCTTTCATTTTATTACACTATAGGAAAGTATAAAGTTTTTAGGGTTTATAGTATAAGAAAAACTACAGATTTTGCCATAAGACTTGGGGACGAGCCAAGTTTTTCTAGAATAAATAAAGGAATTATGGTTTTTGTTGTCGAATAA MKKQTLSFYYTIGKYKVFRVYSIRKTTDFAIRLGDEPSFSRINKGIMVFVVE NA NA NA NA NA AK015_03716 405 hypothetical protein ATGGAAATTTTAGCATATATTGCCGCGGTGATTGCAGCCATCGCATTTGTGGTTTTAGTTGTATACTTGGTTATTACGTTAAAAGCAGCAAGGGAAACTTTACATAATGTATCTGAAACATTATCTAGTCTTGAACAACAAGTGCAAGGAGTCACGGAAGAAACAACACAATTATTAACAAAAACAAATCAGTTAGCAGATGATATGAATCAAAAATCAAGTAAATTAAATAGTCTATTTGATGGTTTTAAAGGTGTTGGTAATACAATAACAGAATTTAATCATTCGTTAAGAGAGTTAACAAATAGTGTTTCAAGAGCAGCAAAAAAGAACCCTGAGAAAACGTCACAAGCAATCAAATGGGGAACTACTTTAATGGAACTATGGAAGAAAAAAAATAAATAA MEILAYIAAVIAAIAFVVLVVYLVITLKAARETLHNVSETLSSLEQQVQGVTEETTQLLTKTNQLADDMNQKSSKLNSLFDGFKGVGNTITEFNHSLRELTNSVSRAAKKNPEKTSQAIKWGTTLMELWKKKNK NA NA NA NA NA AK015_03717 420 hypothetical protein ATGGCAGATAATCAGTTCAATAGTAAAGATTTTATTTTAGGAACATTTATAGGTGCAGCTGTCGGTGCATTGACTGCTCTATTAATGACACCGAAAACCGGAAAAGAATTCCGTGATGACATTAATACGGGGGCTAATCAAGTAAAGAAGAAAGCATATGATTGGAAAGAAGTAGCTCAAGAAAAAGGAACTAATTGGAAAGACAAAGCTTATACCACTGGTTCTGATTTAAAGAAAAAAGCAATGGAATCTACATCACAGGTAACAAAAACAGCAGCAGAAAAAACAAAAGATGTAACACAAGGTGTACAATCCAAACTAAAAGAAAAGCGTAAAAAAGAAGATGAAGCATTAGAAAAAGCAGAGAACGTTGCAGAAGCAATGGAGGAAGCAGCCGAAGAATTAGAAAAGAAAAATTAA MADNQFNSKDFILGTFIGAAVGALTALLMTPKTGKEFRDDINTGANQVKKKAYDWKEVAQEKGTNWKDKAYTTGSDLKKKAMESTSQVTKTAAEKTKDVTQGVQSKLKEKRKKEDEALEKAENVAEAMEEAAEELEKKN PGPT0015027_115 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA NA NA AK015_03718 2130 ftsA_1 Cell division protein FtsA ATGAAAGAACAGATATTTGCCCTGGATATTGGTACACGTTCCGTTACTGGAATTATTTTAAATCAAGACAAGGAAGGTTTTGAAGTTATCGACTTCTGTATGATCGAGCACAATCACCGTTCTATGTGTGACGGTCAAATACATGATGTTGTTGCTGTTGCTAACACAATTAACCAAGTGAAAGAAAAGCTTGAACAATCACATGGGACATTAACTAAAGTCTGCGTTGCAGCTGCAGGACGCTCACTAATTACCATGAATGGCACAGCCACGTTATCCCTGCAAAATCAGCCTATTAAAGATTCTGAAATCGTTCAGCATTTAGAACTAAGCGCCGTGCAAGATGCTCTAGAAAAAGTGAGCCAACAAGAACAGGTTGCGAATACCTATCCATATTATTGCGTCGGTTATTCTGTTCTCCACTATTATATCGACGAACAGCAAATAGGTTCCCTCATTGATCAGCGTGGTGAGGTAGCAAGCACTAAAATTATTGCTACATTTTTACCTAAAGTAGTTGTTGAGTCCCTCTTAGCTGCGCTTTCCAGAGCTGAACTAGAAATGGAAGCTTTGACACTTGAACCAATTGCAGCAATGGATGTACTAATACCTGAATCAATGCGAAGATTAAATGTTGCTTTGGTTGATATAGGTGCAGGCACTAGTGACATCGCGATTACAAACCATGGAACGGTTGCGGCTTATGGAATGGTCGCAGTCGCAGGTGATGAAATTACGGAAGCTATCAGTGATACATATTTATTAGACTTCCCCGACGCTGAAACTTTTAAAAGGGCTATTGTGCAACATAAAGAAGCAAAAGCGCAAGATATTCTTGGCTTTGAAACGACCATATCTTATAAGCAATTAACCAAAGATATCACTTCTGCTATTGACTTTTTGGCTGCAAAAATCACGGAAGAAATTTTTAAATTAAATGGCAAGCCTCCAAAGGCTGTTATGTTAATTGGTGGAGGAAGCCTCACACCGAAGATAACAAAAATGATTGCCAAAAAACTTGAACTCCCCGAAAATAGAGTTGCTGTAAGAGATATTAGTGCCATTAAACAACTTACTCTTAATGAGAATTTACCTATCCAACCAGATTTCGTCACACCTATTGGTATAGCCATTGCTGCAAAACGGAATCCTGTTCATTATATTAGCGTCTACCTAAATGAACTTACACTAAGACTATTTGAAATGCGTACATTAACAGTTGGAGATTGCTTTATCCAAGCAGGGATAGATGTTCATAAGTGGTATGGAAGGCCAGGTGCTGCTTCGATTATTACTGTAAACGGAAGAAAAATCACTTTACCTGGGGAGTTAGGAGAGCCACCACAAATAATGTTAAACAGAACTGTGACTACCGTCGATAAACCAGTAAAAAATGGTGACTATATTCAAATTGAAAGAGGGAAAGATGGACAATCTGCTACCATTACCCTTTATGAATTGATTGGTGAAGTAAAACCAATGACCGTTTGGTTTGAAAATCATCAGCATACAATTTCTCCTACGTTTTTCGTTAATCAGCAACCAGCGAAAAAAGATGATGTAATTCAAGATAATGACATTATCGATTGGTTTCAGCCCAAGCGACTTCAAGATGTAATCAAACAATTGTCTAGTATCGAATATGATAGAATCAAGCCTTTTTCCATCTTTGTGAATGGAAAGGAAGTTCAACTTTCTATTGGAGAGGCGCAATTTTTCATTAATCAACAAAAAGTAGATCCCTCCCACCTTCTTTATGACGGTGATCATATTGAAATTATCCAAGGCAAGCAACCAAACGTGCAGGATTTATTAGCTCAAGAAGGAAAAAATTATTGGCGATCTATAACTGTATTCTTTAACGGAAAAAAAATTCAATTAAACCAACCAGCATATATAGTAAAAAGAAAAGACGAGCGATTAAAGGGAGATAGTTTACTTGATCGTGGAGATAAGTTGCAAATATCTACTCAGAATAATGGCTTTATTTATCAAGATGTATTTCAACATGTAGATTTAGACCTATCTTCAGCAAGCGGGAAATTCCAAGTTTACAAAAACAAGCAACCAGCTCAATTTCATGAAAGCATACAACCTGGTGATGAGCTAGAAATTATTTGGTCAGAATAA MKEQIFALDIGTRSVTGIILNQDKEGFEVIDFCMIEHNHRSMCDGQIHDVVAVANTINQVKEKLEQSHGTLTKVCVAAAGRSLITMNGTATLSLQNQPIKDSEIVQHLELSAVQDALEKVSQQEQVANTYPYYCVGYSVLHYYIDEQQIGSLIDQRGEVASTKIIATFLPKVVVESLLAALSRAELEMEALTLEPIAAMDVLIPESMRRLNVALVDIGAGTSDIAITNHGTVAAYGMVAVAGDEITEAISDTYLLDFPDAETFKRAIVQHKEAKAQDILGFETTISYKQLTKDITSAIDFLAAKITEEIFKLNGKPPKAVMLIGGGSLTPKITKMIAKKLELPENRVAVRDISAIKQLTLNENLPIQPDFVTPIGIAIAAKRNPVHYISVYLNELTLRLFEMRTLTVGDCFIQAGIDVHKWYGRPGAASIITVNGRKITLPGELGEPPQIMLNRTVTTVDKPVKNGDYIQIERGKDGQSATITLYELIGEVKPMTVWFENHQHTISPTFFVNQQPAKKDDVIQDNDIIDWFQPKRLQDVIKQLSSIEYDRIKPFSIFVNGKEVQLSIGEAQFFINQQKVDPSHLLYDGDHIEIIQGKQPNVQDLLAQEGKNYWRSITVFFNGKKIQLNQPAYIVKRKDERLKGDSLLDRGDKLQISTQNNGFIYQDVFQHVDLDLSSASGKFQVYKNKQPAQFHESIQPGDELEIIWSE NA NA NA NA NA AK015_03719 1071 aroA COG1605 Protein AroA(G) ATGAGCGAATTAGATCAAGTAAGAGATAGGTTAGATAAAGTAAACCTAGAAATCTTGCAATTAATTAATGAGCGAGCAAAACTAGTTCAGCAAATCGGGGACATCAAAGCAAAGCAAAGTATGAAGCGGTTTGACCCTGTGCGGGAAAGAGATATGTTAGATCAAATTACTTCTAGTAATGACGGGCCGTTTGAAAATGCGACGATTGAGCATATTTTTAAAGAAATATTCAAGGCCAGTTTAGAACTGCAAGAAGATGATCATCGTAAAGCATTGCTCGTATCACGAAAGAAAAAGCCTGAAGATACCATTATTGATATTAATGGTGCAACAATTGGAGATGGTAATGTTCATTTTATTATGGGTCCTTGTGCTGTCGAAGGGTATGAACAAGTTGCGACAGTTGCCAAAGCAATTAAACAGCATGGCGTAAAGCTTTTGCGAGGAGGAGCATTTAAACCAAGGACATCTCCTTACGATTTTCAAGGTTTGGGTGTCGAAGGGTTAGAAATCTTAAAAAAAGCTGCTAAAGAGCATGATTTAGCAGTAGTTAGTGAAATTGTAAATCCAGCACATATTGAAGAAGCACTTGATTACTTGGATGTCATTCAAATTGGAGCAAGAAACATGCAGAACTTTGAATTGCTCAAGGCTGCTGGTGACGTCGATAAACCAGTTCTATTGAAACGTGGTTTATCAGCAACGATTTCTGAATTTATTAATGCTGCTGAATATATTATATCCCGTGGTAACAAAAACATTATCTTATGTGAGCGAGGAATTCGGACATATGAAAAAGCAACTCGAAATACATTAGACATTTCTGCTGTTCCTATTTTAAAACAGGAAACACATTTACCAGTTATGGTCGATGTTACACATTCAACTGGTCGGAGAGACTTACTATTACCTGCAGCTAAAGCGGCTATTGCTATCGGAGCTGATGGTGTAATGGCTGAAGTACATCCAGACCCTGCAGTTGCACTGTCAGATTCCGCGCAACAGATGGATGTTCCGACATTTCACCGTTTTATGGAAGAAATGAAAGATATGGCAGAAAGAATGAAGTAA MSELDQVRDRLDKVNLEILQLINERAKLVQQIGDIKAKQSMKRFDPVRERDMLDQITSSNDGPFENATIEHIFKEIFKASLELQEDDHRKALLVSRKKKPEDTIIDINGATIGDGNVHFIMGPCAVEGYEQVATVAKAIKQHGVKLLRGGAFKPRTSPYDFQGLGVEGLEILKKAAKEHDLAVVSEIVNPAHIEEALDYLDVIQIGARNMQNFELLKAAGDVDKPVLLKRGLSATISEFINAAEYIISRGNKNIILCERGIRTYEKATRNTLDISAVPILKQETHLPVMVDVTHSTGRRDLLLPAAKAAIAIGADGVMAEVHPDPAVALSDSAQQMDVPTFHRFMEEMKDMAERMK PGPT0012915_300 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 AK015_03720 999 ccpA_3 COG1609 Catabolite control protein A TTGAATAACATTACTATATATGATGTGGCAAGAGAAGCAAATGTGTCTATGGCTACGGTTTCTCGTGTCGTTAATGGAAATCCAAATGTGAAACCTACAACAAGAAAGAAAGTACTAGCTACGATTGAGCGTTTAGGATACCGACCAAATGCTGTGGCAAGAGGTTTAGCAAGTAAGAAGACAACAACTGTTGGAGCGATTATTCCTGATATATCAAGTATTTTCTTTGCGGAACTTGCAAGAGGAATTGAGGATATCGCGACGATGTATAAGTACAATATGATTTTAAGTAACTCGGACCAAAATGAAGAAAAAGAAATTCAATTAATAAACACGATGTTGGAAAAACAAGTTGACGGCATTATTTTTATGGGAGGAAATATTTCTGATCAGCATGTACAGCAATTCAAAAGCTCTTCTGTGCCTGTTGTGTTGGCGGCAACATACGATGAAAATAACGAAATTCCTTCTGTAAACATTGATTATGAACAAGCGGCGTATGAAGCTACGCAATTTCTTATTGAGCAAAATAAATCAGTGCCTGCGTTTGTATCAGGGTTAGAAGAAACACATATCAATCAGCTGAAATATAAGGGTTATGCCCGTGCTATAAATGAAGCAGGTTTATCTGTAAACGAGTCACTCATTGTAAAAGGAGATTACTCTTATAATTCAGGTATTGAAGCAGTAAATCAATTATTAGATGAAAATGAAAAACCAGCAGCTGTTTTCGTTGCTTCTGATGAAATGGCTCTTGGCGTTATTCATGGAATTCAAGATAAAGGATATCGTGTTCCAGAAGATATTGAGGTATTTGGCTTTGATAATACTCGATTAGCAACGATGGTTCGCCCAACACTATCCACTATTGTACAGCCTATGTATGATATTGGAGCAGTTGCAATGCGCTTATTAACAAAGTATATGAACAAAGAAGAAGTTCAGGAACAAAGGGTAGTTTTACCTCATCGAATTGAAAAAAGAAATTCAACAAAATAA MNNITIYDVAREANVSMATVSRVVNGNPNVKPTTRKKVLATIERLGYRPNAVARGLASKKTTTVGAIIPDISSIFFAELARGIEDIATMYKYNMILSNSDQNEEKEIQLINTMLEKQVDGIIFMGGNISDQHVQQFKSSSVPVVLAATYDENNEIPSVNIDYEQAAYEATQFLIEQNKSVPAFVSGLEETHINQLKYKGYARAINEAGLSVNESLIVKGDYSYNSGIEAVNQLLDENEKPAAVFVASDEMALGVIHGIQDKGYRVPEDIEVFGFDNTRLATMVRPTLSTIVQPMYDIGAVAMRLLTKYMNKEEVQEQRVVLPHRIEKRNSTK PGPT0014791_354 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK015_03721 831 pomA COG1291 Chemotaxis protein PomA ATGAGAAAACGCGATATATTAACTCCTTTTGGCATTACTATGGGTTTCATCATGATTATGTTAGCGATTGTTTCCAAAAGTGGATCGTCTGAAGGAGCAGGTTTGTTTTTGGATATTTCTTCTATTTTCATTGTAATTGGTGGTTTAGTTGCTTCGATGCTCATTACGTTTAAATTCGAACAAATTAAGCTGACAAAAAAAGTATTGAGTGAAGCTTTTCATAAACATGATCAGCGCCTACCAGAATTAATTACATTATTTGTCCATTTATCTGAAAGGGCTAGACGAGAAGGGCTTCTAGCTTTAGAAAATGAACTAGAGGAAGTAGAAGATCCGTTTATAAAAAAAGGCATTTTGCTTGCTGTGGATGGAATTGAACCTGAAGTTATTAAGGACATTCTAGAGGCGGAAATTATTGCTGTAGAAGATAGGCATTTCCGAGGGAGGGCTTTAATTGAAAAAGCAGGTGAATATGCTCCTTCCTGGGGAATGATTGGGACACTTGTAGGTCTTGTATTGATGCTTAATAATCTTCAAGATCCTACTGCGCTCGGACCAAGTATGGCTGTAGCACTACTTACAACACTTTACGGAACTGTACTTGCAAATTTAGTCTTTATTCCAATGGCAGCTAAATTAGAGAGTAAGACAGAAGAAGAAGTGTTTATGAAGCAAATTACGATCGAAGGTGTTATTGGTGTTCAATCTGGTCAAAACCCGCGAATTTTAGAAGAAAAACTAAGCGCTTTTTTATCTAATGAGGATCGGAAAAAGCAACAACAACTTGATGAACAACCTGGTTTCATGGAGGAAAGTATTCATGAAGCGTAG MRKRDILTPFGITMGFIMIMLAIVSKSGSSEGAGLFLDISSIFIVIGGLVASMLITFKFEQIKLTKKVLSEAFHKHDQRLPELITLFVHLSERARREGLLALENELEEVEDPFIKKGILLAVDGIEPEVIKDILEAEIIAVEDRHFRGRALIEKAGEYAPSWGMIGTLVGLVLMLNNLQDPTALGPSMAVALLTTLYGTVLANLVFIPMAAKLESKTEEEVFMKQITIEGVIGVQSGQNPRILEEKLSAFLSNEDRKKQQQLDEQPGFMEESIHEA PGPT0015370_1531 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556 NA NA AK015_03722 807 motB COG1360 Motility protein B ATGAAGCGTAGGCAAATCAAGAAAACAGCCAACAAGGGTGCCCCGAAATGGATGGTTACTTATTCAGATATGGTAACACTTATATTAGTGTTTTTTGTGTTGCTTTTTTCCATGTCACAAATTGATTTGGTTAAGTTCGAAGCTATTTCTGAATCATTTCGTAATCGCATGATTTTTGATTTTTATCCTTCTGCGGTCCCAATGGAAAATCCAACTGAGCAATCAAGCAATAAAGAAAATGGCGAGCAGTCTAATGAGTTTGACTCACCAACACAACTACCTGACACAACAGATAAGGACGCTAGTAAAGATGATGGAGGGTCCTCTTTAGATCAACTGTTGCAAGAAGTAGAAACATACTTGGATAAAAATGATTTAAATAATGTGATAACTGCCACACGAACAGATCAAGGCGTAGAACTGGTTTTGCAGGACAGTCTTTTGTTTAATACAGGGGAAGCAGTTATTTTAGAATCAGGAAAGCCATTTTTAAATAAGGTGAGTTCTTTACTACATAATATTCCAAATCCTGTACTTGTTGAAGGTCATACAGATAGTAGGCCGATCTCTAATTTTAGATACCCATCGAATTGGGAATTATCAGGAGCAAGAGCTGGAAGTGTGATCCGCTATCTACTAAATGAAAACCATTTTGATAAATCACGGTTTTCTTCTGTTGGCTATGCGGATACAAAGCCAGTTGCGCCAAATAATTCATCAGCTAATTGGAGTAAGAACCGTCGGGTAGAAATTGTTATTTTGGAAGAAAATAATTTGCAAAAAATGCAAGAAGGAGAAACTGACTAA MKRRQIKKTANKGAPKWMVTYSDMVTLILVFFVLLFSMSQIDLVKFEAISESFRNRMIFDFYPSAVPMENPTEQSSNKENGEQSNEFDSPTQLPDTTDKDASKDDGGSSLDQLLQEVETYLDKNDLNNVITATRTDQGVELVLQDSLLFNTGEAVILESGKPFLNKVSSLLHNIPNPVLVEGHTDSRPISNFRYPSNWELSGARAGSVIRYLLNENHFDKSRFSSVGYADTKPVAPNNSSANWSKNRRVEIVILEENNLQKMQEGETD PGPT0015375_3613 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-MOTILITY|CHEMOTAXIS MOTILITY-FLAGELLAR_ASSEMBLY MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557 NA NA AK015_03723 1176 acuC Acetoin utilization protein AcuC ATGACGTGTACGGCTAAATTTGTGTTCTCTGATAACTTATTGCAATACCACTTTCACGAAGACCACCCTTTCAACCAAAAACGAGTACTGTTGGCAACGGAATTGCTACAAGCAACAGGCACTTTACCAGAAGACCGAATCATCTCACCCAGAATGGCAACGGAAGAAGAATTAAAATTATTTCACGATCATGCATACATTGAAGCAGTTAAACAAGCAAGTAAACGTATGCTTCCAGAACCAAGAGCTACTGAATATGGCCTTGGAACAGAAGATACGCCTATATTCCCAGCAATGCATGAAGCGTCTTCCTATCTTGTAGGAGGTTCCCTTACAGCTGTTGATGAAGTGCTATTAGGCAAAGCGACTCACGCATTGAATCTTGGTGGCGGTCTGCACCATGGATTTAAACGAAAAGCATCGGGATTTTGCATTTATAATGACGGTGCAATTGCTATTCGTTATATAAGGGAAGTTTATAATTTACGTGTTCTTTATGTCGATACGGATGCGCATCATGGTGACGGTGTGCAATGGGCATTTTATGATGACCCCAATGTGTGCACCTTTTCCATTCATGAAACAGGAAGATATTTATTTCCAGGTACAGGGAATGTTAATGAGCGTGGTATAAAGGAGGGCCATGGGTATAGCTTCAATCTGCCTATTGATGCATTCACAGAAGATGAATCGTTTTTGAATGCGTATACAACAGCGTTAACTCAAATTACAGCATTTTTTAAACCAGATATAATTATAACGCAAAACGGCGCGGATGCGCACTGTTACGATCCATTAACCCATTTATGTAGTACAATGGCTATTTACGAGCAAATACCTTTATTAGCACATCAATTAGCACATGAGTATTGTAACGGAAGGTGGGTTGCATTAGGCGGAGGGGGCTATGATATGTGGCGAGTTGTTCCCCGTGCTTGGGCGCAAGTTTGGAATGTCATGCACAATATGAAGCCTGCGAAAGGCGAATTGCCGACATCCTGGTTAGAAAAATGGCAAAAAGAGAGCCCTGTTACCCTTCCAACTCATTGGGAAGATGACCCTTCTATTGTTCCTGTCATTCCTAGAAAAGAAGAAATTTCTGAGAAAAACAATCTTGCTTTACAACAGTTATTGAAATATACTGCTAAACCTTCAGACCAGCTGAAGCTATACTGA MTCTAKFVFSDNLLQYHFHEDHPFNQKRVLLATELLQATGTLPEDRIISPRMATEEELKLFHDHAYIEAVKQASKRMLPEPRATEYGLGTEDTPIFPAMHEASSYLVGGSLTAVDEVLLGKATHALNLGGGLHHGFKRKASGFCIYNDGAIAIRYIREVYNLRVLYVDTDAHHGDGVQWAFYDDPNVCTFSIHETGRYLFPGTGNVNERGIKEGHGYSFNLPIDAFTEDESFLNAYTTALTQITAFFKPDIIITQNGADAHCYDPLTHLCSTMAIYEQIPLLAHQLAHEYCNGRWVALGGGGYDMWRVVPRAWAQVWNVMHNMKPAKGELPTSWLEKWQKESPVTLPTHWEDDPSIVPVIPRKEEISEKNNLALQQLLKYTAKPSDQLKLY PGPT0008225_310 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 AK015_03724 654 IMPDH_2 Inosine-5'-monophosphate dehydrogenase ATGCTAGTCGAAGAAATTATGAAAACAGAGGTTATCACACTACCTCCTACAGCGACTATACAAGAAGCACTGGATCTATTAAATCAACATAAGATACGCCACATTCCAATTATTGAAAATGATAATCAGGTCACAGGCATCGTTTCTGATCGAGATGTTCGGGATGCCAGTCCTTCCATTTTCGAATCCGCTACAGATAAACATAATTTACAACACGAAATACAATCCATTATGAGTCAACCAGTAATTACGATCCATCCATTAGATTTCGTGGAGGAAATAGCTAAAATATTTTACGATAAAGAAATAGCATGCTTGCCAGTTGTTAGAGAAGGAAATAGGCTAGTTGGTATTGTTACAGAAAAAGACATGCTATACACGATGATTCAATTAACTGGCACTCATGTACAAAGCTCTCATATTGAAATAAAAGTACCTCATCGGCCTGGTATCTTACCTGAAGTGACGGCTATCCTTGGCAAACGCAAAACAAATATTGTCTCTGTACTCGTTTATCCTTCTAAAGATGATCCAAATTATAAAATTTTGGTCTTTCGTATACAAACTATGAATCCACTCCCTGTTATTGAAGATCTTCGTGAGGCTGGTTACGAACTACTTGCTCCGAATCATATTGCGGGGCCAAATCGATGA MLVEEIMKTEVITLPPTATIQEALDLLNQHKIRHIPIIENDNQVTGIVSDRDVRDASPSIFESATDKHNLQHEIQSIMSQPVITIHPLDFVEEIAKIFYDKEIACLPVVREGNRLVGIVTEKDMLYTMIQLTGTHVQSSHIEIKVPHRPGILPEVTAILGKRKTNIVSVLVYPSKDDPNYKILVFRIQTMNPLPVIEDLREAGYELLAPNHIAGPNR PGPT0008220_290 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 AK015_03725 654 acuA Acetoin utilization protein AcuA ATGAAACATGAAAAAAAGCATTATGCGCTAACAAGAGAAACACCAACAGAAACAATCACCATTGAAGGACCATTAGAGAAAGAAGAATTACAGCAATATAAATTCCATGAAGATTTAATTGCATTTCGACCGCCCTCAAAACAATTTGAAGCTATTTTGAATATCTCTACTTTTCCTGAAGGGCGCATTATCATAGCAAGGACAAATGACACAATTATTGGTTATGTTACTTATTTACATCCAGACCCTTTAGAACGTTGGTCTGAATTTAAGATGGATGAATTAATTGAGCTAGGCGCTATTGAAGTTATTCCTGCTTTTCGTGGTGCAAGAATTGCATCTGCGTTACTTGAAGTATCTATGATGGATGCATTCATGGAAAACTATATAATTATTTCAACAGAATACTATTGGCATTGGGATTTAAATGGTACAAAGCTTAGTATCTGGGATTATCGAAAAGTAATGGAGAAAATGATGGCTGCTGGTGGATTAGTCCCTGCTTCAACAGATGACCCAGAAATTATCTCCCACCCAGCCAATTGTTTGATGGTTCGAATTGGTAAAAATGTTTCTGAGCACTCCATCAAACGTTTCAATACGTTACGATTTCTACAAAGACATAAATACCGAAATATGCAGGGGGGATTATAA MKHEKKHYALTRETPTETITIEGPLEKEELQQYKFHEDLIAFRPPSKQFEAILNISTFPEGRIIIARTNDTIIGYVTYLHPDPLERWSEFKMDELIELGAIEVIPAFRGARIASALLEVSMMDAFMENYIIISTEYYWHWDLNGTKLSIWDYRKVMEKMMAAGGLVPASTDDPEIISHPANCLMVRIGKNVSEHSIKRFNTLRFLQRHKYRNMQGGL PGPT0008215_11 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 AK015_03726 3045 mtgA Biosynthetic peptidoglycan transglycosylase ATGAATTTTAAAGAAAAATGTCAAGCTTTAATCGATAAATGGAAATCTAAATTAAGCCAAACAAGTACATCTTCCCGACCATTGCTTCAAGAATGGAAGGAATTATGGAAAACAGGCAAAATCCAGCGAACTTCACGCATTTCCTATCATGTAGTTTGGAATGTTATTCTATTTTTTCTTATCATAGGTTTAATCGGTGTGTTTTTTGCTGGTGGTGTAGGTGCTGGATATTTCGCTTCGCTGGTCAAGGACGAACCTGTCCTACCGTATCAGGTGATGAAGCAAGACATATACAATTACGATGAAACGTCCAAATTGTATTTTGCGAATGAAACTTACTTAGGTGAATTGCAATCGGATCTTTACAGGGAAGAAACAACCTTGAAAAACATATCCCCGCATTTAATTGATGCGGTTATTGCAACGGAAGATGAGTATTTTCAAGAACATAAAGGTATTGTCCCAAAAGCGATTGTTCGGGCTATTTTTCAAGAAGTAACCAACGCCAAGACGAAAACAGGTGGAAGCACACTAACACAACAACTCATCAAAAACCAAATTTTAACCAATGAAGTTTCTTTTGAGCGGAAAGCAAAAGAGATGTTACTCGCTTTACGTCTAGAACGGTTCTTTGAAAAAGAAGAAATATTAGAAGCGTATCTCAACGTCGTTCCATACGGGAGAAATGCGTCAGGCGATAATATTGCGGGAATAGAAACCGCTGCCCAAGGAGTATTTGGTGTTTCAGCAAAAGAATTAAACCTTGCTCAATCAGCTTATTTAGCTGGGTTACCGCAAAGCCCGTCCATGTATACACCGTTTCAAAATGATGGTACTCTGAAGGATAAAGACATGCTACAATATGGCATTGATCGCATGAAATCTGTCCTAAAAAGGATGTATGAATCTGATTATATTACGAAAAAAGAATATAAAGAAGCCTCAGCTTATCATGTTACGAAAGATTTTATAGAAGGTTCACCTTCTTCTATTGATAAATATCCGTATTTAACTTTTACCATTGAAGATAGAGCGGAAAAGATTTTAGCAAAACAGTTGGCAAAAAAAGACGGGCATAGCGAGAAAGATTTGGAAACGGACAAAGATTTGCAAGCTGATTATTTAGAGCTTGCTAAACGCGATTTACGGGTTAATGGTTATGAAATCCATACTACCATTGACAAAAAAATGTATGATGCTATGCAAAAAACTACGCAAGAATTTGCTTACTATGGACCGGACCGTACTTACACGAAGAAAAATCCAAATACTGGTGAAGTAGAAAAAATTACAGAAAAAGTGCAAACAGCTAGTGTTTTAATTGAAAATAGTTCTGGAAAGATTCTCAGCTTTGTTGGTGGCCGTGGCTATAAAGACGATAATTGGAACCATGCATTTCAAGGCAAAAGATCTAATGGAAGTACAATGAAACCATTATTAGCATACGCTCCCGCTATGGAGGAAGGGGTCATTCAACCAGGTAGCGTAATTGCTGACTACCCAAAACAGATACCAGGTTGGGAATTTGGTAAGCCAGGAAACTACAGTGGAGGACATTACGGACTTATTTCCGCGAGAGAAGCCTTAGCAAAATCGCATAACTTTCCTGTAGCTGAAATTTACTCGAAAATAATTAACAACGACCCCGCCTCCAAATATTTGGAAAAAATGGGTTTCACATCACTAACTGAAGGAGATCATGTGCATCCTTCCTTATCCATCGGAGGGATGGAGCATGGTGTATCCGTGGAGGAAAATGTGAACGCCTTTACAACGTTTGGTAATAACGGAAAATTTGTTGATGCCTATATGATTGAAAAAATAACGACACAAAGTGGAGATGTAGTTTATGAGCATAAAGCAGATGCTGTTGATGTTTTCTCTCCACAAACAACTTATTTAACTGTAGATATGATGCGAGATGTACTCACAAATGGTACCGGGGTATACGCTAATTCACAATTAAAACACCGCGGTGTTGATTGGGCAGGTAAAACTGGGACCTCTCAAGAATATAAGGATTCCTGGTTCGTAGCAACAAACCCTAATGTTACATTTGGTACATGGATTGGATATAAAACTGCATATTCCTTAAATGATGCAGGAATGAGCTTAAGCTATGGACAGCGAAATATTAAGTTATGGGCGGAATTAATTAACAGCGCAACAGATGTAAACCCAAAATTGTTGGCACCATCTAAAAACTTTCAGCGACCTAATGGGATTGTTTCAAGAAGTTATTGCGCTATATCAGGTTTACTACCTTCAGAGCTTTGTGAAAAAGCTGGTTTGGTGAAAAGTGATATTTATAACAGTAAATACGTTCCTACTAAAGTAGATGACAGCCTCGTATCTGGTGGAAGTATGGTTGTCGTCAATGGAAAAACAATTGCTGCAGGTCCAAATACGCCTAGTGAATTTACCATTGGAGATGGTTTAGCATTTAACCCGGCATTTTTAAAACGAAAAGGCTACGATAAATTAAGTGATCTCAGTATCTTATTCCCACGAACAGAGCGGGAAAAATGGGAGAAGATTAGTGGTGTTGGAAGCAGTTCTGAAGGTGCCATTAAAAATGATGGCAAAGCGCCAAATGCGCCGAGCGCATTAAGAAAAAGCGGCGGAAAACTTACTTGGGGCAAGTCTTCAAGCAAAGACGTGGTCGGGTACCGCATTTACCAAGCTACTGGGCCAGGTAACAGCTTCTCCCAAATTGGTCATACAACATCTACTTCTTACAATATTAACAGCGGAAACGCACGTTATTATGTAAAAGCAGTCGACTATTTCGGGAAGGAATCTACAGCTTCTGCAGAGTTAATCGTTGGCGATACAAAAAAAGAAGAACCAGAAACACCAGATAAAGAAAGCAATAAAGAAGCTGAAAATCCATCAAATGCTGACCAAGAAGAACAGCAAGCTGAAACAACGGATGAGACAGATAAGCAACCCGAAAACCCAGAAGATGATGATGACAAAGACAATACAGAAGAAAATCAAGATACAGAAGGTGACGATACACCAGAAGAAACAACCGAAGAATGA MNFKEKCQALIDKWKSKLSQTSTSSRPLLQEWKELWKTGKIQRTSRISYHVVWNVILFFLIIGLIGVFFAGGVGAGYFASLVKDEPVLPYQVMKQDIYNYDETSKLYFANETYLGELQSDLYREETTLKNISPHLIDAVIATEDEYFQEHKGIVPKAIVRAIFQEVTNAKTKTGGSTLTQQLIKNQILTNEVSFERKAKEMLLALRLERFFEKEEILEAYLNVVPYGRNASGDNIAGIETAAQGVFGVSAKELNLAQSAYLAGLPQSPSMYTPFQNDGTLKDKDMLQYGIDRMKSVLKRMYESDYITKKEYKEASAYHVTKDFIEGSPSSIDKYPYLTFTIEDRAEKILAKQLAKKDGHSEKDLETDKDLQADYLELAKRDLRVNGYEIHTTIDKKMYDAMQKTTQEFAYYGPDRTYTKKNPNTGEVEKITEKVQTASVLIENSSGKILSFVGGRGYKDDNWNHAFQGKRSNGSTMKPLLAYAPAMEEGVIQPGSVIADYPKQIPGWEFGKPGNYSGGHYGLISAREALAKSHNFPVAEIYSKIINNDPASKYLEKMGFTSLTEGDHVHPSLSIGGMEHGVSVEENVNAFTTFGNNGKFVDAYMIEKITTQSGDVVYEHKADAVDVFSPQTTYLTVDMMRDVLTNGTGVYANSQLKHRGVDWAGKTGTSQEYKDSWFVATNPNVTFGTWIGYKTAYSLNDAGMSLSYGQRNIKLWAELINSATDVNPKLLAPSKNFQRPNGIVSRSYCAISGLLPSELCEKAGLVKSDIYNSKYVPTKVDDSLVSGGSMVVVNGKTIAAGPNTPSEFTIGDGLAFNPAFLKRKGYDKLSDLSILFPRTEREKWEKISGVGSSSEGAIKNDGKAPNAPSALRKSGGKLTWGKSSSKDVVGYRIYQATGPGNSFSQIGHTTSTSYNINSGNARYYVKAVDYFGKESTASAELIVGDTKKEEPETPDKESNKEAENPSNADQEEQQAETTDETDKQPENPEDDDDKDNTEENQDTEGDDTPEETTEE PGPT0023890_48 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023890-pbp1b-K03693 NA NA AK015_03727 1530 opuD_4 COG1292 Glycine betaine transporter OpuD GTGAAGAAAGTAACGCGAGTATTCTATATTTCAGCAATTGCTGCAGTACTTTTCATTATTTGGGGAATCATTCCGGAAGACGTATTGCCAAATGCCAACTTAGACAATGTCACGAATACAATTCAGACATTTCTCGTAGATGAGTTTGGTTGGTTCTATTTATTGAGTGCAACTTCATTTGTTATTTTTGCGATCTATCTCATTTTTTCAAAATATGGCAATATTAAACTAGGCCGACCTGGAGACAAGCCGGAATACAACTATTTAACATGGTTTGCTATGTTATTTAGCGCTGGTATGGGGATTGGTCTTGTGTTCTGGGGAGCTGCCGAACCTTTATCCCACTTTCATGATCCACCATTTGGAGCTGAAGAAACAAATGATGCAGCTAAAACAGCGATGCAATACAGTTTCTTCCATTGGGGGATTCATCCCTGGGCTATTTACGCGACTCTCGCCTTAGCGTTAGCCTATTTTAAATTCCGCAAACAGGCACCAGGTGTTGTTAGTGCCATTCTTGAACCGCTCTTTGGTGATCGAATTAAAGGTTTATGGGGGACATCGATTGATTTCATCGTTGTTTTCGCCACTATATTTGGCGTTTCTACATCACTTGGTTTAGGCGCTATTCAAATTAGCGGCGGTCTCTCATACGTTACCGGATTAGAATCAACTATTACCCTCCAACTTATAATCATTGGGATTGTGACCGTATTATATATGACTTCAGCCATGACAGGGCTAAATAGAGGAATTAAATATTTAAGTAATGCTAATCTTGCTTTAGCAGTATTACTAATGTTGTTCGTATTAGTCTTAGGTCCAACCAACTTTATAATGAATTACTTTACTACAACATTAGGTAGTTATGTACAAAACCTACCTAGCATGAGCTTACGTATGACCCCTTTCAATGAGGAGAATTCTACGTGGCTAAATAACTGGACATTCTTTTATTGGGCTTGGTGGATTGCTTGGGCACCATTTGTAGGTACTTTTATAGCAAGAGTTTCTCGAGGTAGAACAATAAGAGAGTTTGTCTTAGGCGTACTGCTCGTACCTACCATTTTCGGCGCTCTATGGTTTTCAGTATTCGGAGGATCTTCTATTCATTTAGAAACGACTCAAGGTGCAAATATCATGCAGAGTATTAATGAGTTTGGTGAAGAGACAGCATTATTTGCTGTGTTGGAACATTTTCCTATTGGTACCTTTATATCCATTCTTGCTATCTTATTAATTTGTACTTTCTTTATTACTTCTGCCGACTCTGCTACATTTGTTCTTGGAATGCAAACTACTGGCGGAAGTTTAGATCCAGCCAATTCAGTTAAGTTTATATGGGGTATTATTCAATCAAGTGCTGCAGCTGTATTGTTATGGCAAGGTGGCTTGAATGCTTTACAAACAGCCTCCATAATCGCAGCGTTTCCTTTTGCCATTATAATGATTTTAGTGATCATTTCTCTTGTCAAGTCCTTCAGGCAAGAAGCGAAAGACCATAACTTAGCAACGAAAAGAAAAAGCTAG MKKVTRVFYISAIAAVLFIIWGIIPEDVLPNANLDNVTNTIQTFLVDEFGWFYLLSATSFVIFAIYLIFSKYGNIKLGRPGDKPEYNYLTWFAMLFSAGMGIGLVFWGAAEPLSHFHDPPFGAEETNDAAKTAMQYSFFHWGIHPWAIYATLALALAYFKFRKQAPGVVSAILEPLFGDRIKGLWGTSIDFIVVFATIFGVSTSLGLGAIQISGGLSYVTGLESTITLQLIIIGIVTVLYMTSAMTGLNRGIKYLSNANLALAVLLMLFVLVLGPTNFIMNYFTTTLGSYVQNLPSMSLRMTPFNEENSTWLNNWTFFYWAWWIAWAPFVGTFIARVSRGRTIREFVLGVLLVPTIFGALWFSVFGGSSIHLETTQGANIMQSINEFGEETALFAVLEHFPIGTFISILAILLICTFFITSADSATFVLGMQTTGGSLDPANSVKFIWGIIQSSAAAVLLWQGGLNALQTASIIAAFPFAIIMILVIISLVKSFRQEAKDHNLATKRKS PGPT0013600_973 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020 NA NA AK015_03728 864 hypothetical protein ATGAAGAAAGCTATACTAGTGGTTACTTTCATCTTCATTGGACTATTCATAGTCGCATGCGGTTCGAGTGATGAAAAATCGCAACCAGCACATGCAGATAAGGCTGAAGAAAATAAACAGGATCAACGTAAGGAAGAACAGAAGCCACAAAAAGAAGATAACCAAACAGAGAAAAGTGTGGTAAACGAAGCCCCTAACCCTAAGTATAAGGTTTCGGACAATGCTACGATAGTACCAATTGATGAGAATACCAATGAAAAAGTAGTTTTGTTAACAATTGATGACATACCAGATAAGCATGCGTTGGATATGGCTAAGACATTAAAAGAGCTAGAAGCCAATGCAATATTCTTTGTAAATGGACATTTTTTAGAAACAGAAGAACAAAAGGATATGCTAAAACAAATCCATGAGATGGGTTTTGTTATCGGAAACCATACATATAGCCACCCTAAGTTACCAGATTTGACTGAGCAGGAACAGACAGAAGAAATTGTTCGTGTGAATGATCAAATTGAAGAGGTTATTGGAGAACGCCCGAAATTCTTCCGCGCCCCTCATGGTATGAATAGTGACCACTCCAGACAAGTGGCTAAAGAACAAGGAATGGTCGTTATGAACTGGACATATGGGTATGATTATTTCGCGCCATATCAAGATGCTACTAAACTGAAAAAAGCAATGGTAAGCGGAGAAGGTCCAGAAGCGGGGGTTGATTATTCCCTACTAAAACCGGGAGCCAATTTGCTAATGCATGATCGGGAATGGACAAATGAAGCATTAGCAGATATTGTTAAAGGATTAAGGGATAAAGGGTATGAGATGGTTGATCCTAAACAAATTCAAACGTTAAGTAAACAATAA MKKAILVVTFIFIGLFIVACGSSDEKSQPAHADKAEENKQDQRKEEQKPQKEDNQTEKSVVNEAPNPKYKVSDNATIVPIDENTNEKVVLLTIDDIPDKHALDMAKTLKELEANAIFFVNGHFLETEEQKDMLKQIHEMGFVIGNHTYSHPKLPDLTEQEQTEEIVRVNDQIEEVIGERPKFFRAPHGMNSDHSRQVAKEQGMVVMNWTYGYDYFAPYQDATKLKKAMVSGEGPEAGVDYSLLKPGANLLMHDREWTNEALADIVKGLRDKGYEMVDPKQIQTLSKQ PGPT0018645_2349 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278 NA NA AK015_03729 108 hypothetical protein ATGGGTACAATAGTTTGTCAAGATTGCCAAACAATTATTGAGCAATATGAAGAAGAAAAAGTAACAACTCTTTATGGTACTTGTCCAACGTGTCGTGAAAATAAATAA MGTIVCQDCQTIIEQYEEEKVTTLYGTCPTCRENK NA NA NA NA NA AK015_03730 270 hypothetical protein TTGAATTATCACTATCCAATTGACAATACATGGACAAAAGAAGAAATTATTTATGTTGTGCAGTTTTTCAGCTTAATTGAGCAGGCATATGAAAGAAAGGTTGAAAGGAAAGTTATAATAGCAGCTTACCGGAAGTTTAAACAAGTAGTTCCTAGTAAAAGTGAAGAAAAGAAGTTGTTTGCTACTTTTAAACAAGGTTCGGGATATTCTAGCTTTCATGTACTTAAATATGTAAAGATAACCGAAGACCATTTTATAAAAATGAAGTAG MNYHYPIDNTWTKEEIIYVVQFFSLIEQAYERKVERKVIIAAYRKFKQVVPSKSEEKKLFATFKQGSGYSSFHVLKYVKITEDHFIKMK NA NA NA NA NA AK015_03731 636 hypothetical protein ATGATGACCTTTAAAGGATTTGAGAAAGCAGATTTTGATACATTTTATATTGAAGGCCTCGGAGAAAGAATGGAAGCAATTCAAACAAGAATCCAACCAAAATTTCAACAGATTGGCAATGAACTAGTAGATTTCTTAGCTGCACAGCTTGGGAATGAAATGTTTCTACATATTGCTAAACATGCTAGAAGAACAGTCAATCCCCCTCAAGATACGTGGTTAGCTGTAGCTGATAATAAACGAGGATATAAAAAACACCCGCATTTTCAAGTAGGTGTATTCGATGATCATGTATTTGTATGGTTAGCGCTTATTTATGAGTTAGACCATAAATCAAAAATTGCACAAACCTATTTAAACCATTTTGACCAATTAAAACAACTTCCTCAAAGTTTTATGTATTCATTAGATCATACTAAAAAAGATGCCAAACCACTATTAGAATTAGATAAAAAAGATGTAGAAAGGTTTAGAGATGTGAAGAAAGCGGAATTTTTAATTGGGAAGCATTTTGCCAAACATGATGAACGCATTTATGACGGAAATATCCTTATAGAGGAGTTAAAATCTACTGTTCATCCATTGATACCTTTTTATAAACTGGCTCTACAAAGCAAAACTAATTATACAAAATAA MMTFKGFEKADFDTFYIEGLGERMEAIQTRIQPKFQQIGNELVDFLAAQLGNEMFLHIAKHARRTVNPPQDTWLAVADNKRGYKKHPHFQVGVFDDHVFVWLALIYELDHKSKIAQTYLNHFDQLKQLPQSFMYSLDHTKKDAKPLLELDKKDVERFRDVKKAEFLIGKHFAKHDERIYDGNILIEELKSTVHPLIPFYKLALQSKTNYTK NA NA NA NA NA AK015_03732 276 hypothetical protein TTGTCGAACCAAATAGGAAAACCAATCATAAATATATTTAAAGTACACTTTTGGAATAAAAAGTATTTAACGAAAGGATGTGAAAATGTGAAGTACGTATTAGGAACATTATATAAAGAAAAATCATTGGACAATTTGCAGGTCATTCGTATGGAAATTGATTATGAATTGTTAACACTTTATGACGCGATGAAAAAAGAAGATGCAATTGAAATAATAAAAAGCAAAGAACGGCTCATTTGCTTAAGAAAGCAATGGTTGGATTTAAAAGCATAA MSNQIGKPIINIFKVHFWNKKYLTKGCENVKYVLGTLYKEKSLDNLQVIRMEIDYELLTLYDAMKKEDAIEIIKSKERLICLRKQWLDLKA NA NA NA NA NA AK015_03733 810 suhB_2 COG0483 Inositol-1-monophosphatase ATGAACAAAGCGCAGCGTGATATGATTTTTTCTCAAGCTACAAAGTGGATATACGAAGCAGGCGAGCAAATAAGGCAACAAATTCATAATCCATTAACTATTGATACAAAATCAAATGCGAATGATTTAGTAACTGAGATGGATCGTTCAACCGAAGCTTTTCTCGCAAACAACATTAAATCTACGTTTACTGATCATTTTATTTTAAGCGAAGAAGGATACGGTGATCAGCTAGATTCCATGAACGGTATCGTTTGGATTATTGATCCTATTGATGGCACGATGAATTTTGTCCATCAAAAAAGGAATTTTGCGATTTCAATCGGTATTTTTAATAATGGTATTGGAGAAATCGGACTTATTTATAACGTAATGGAAGATGTATTATATAGCGCAAAAAGAGGAGAAGGTGCTTATAAGAATAATAAGAAGCTTCCACAACTTCATCGTGATATCCTTTTCGAGGAAGCAATCGTTAGTATGAATCACTTTTGGCTATGTGAAAACCGTCTCGTTGACGAAAAATGGATGCAAAAGCTTGTAAAAGATGTGAGAGGGTCGAGGACTTACGGTTCGGCGGCATTGGAATTTGCATTTGTCGCAGAAGGTATTATCGATAGTTATTTAACATTGAGTCTGTCACCGTGGGATTATGCAGCGGGAATGGTCATTATTAGCGAAGTTGGAGGAGTAACAACTACTATAGATGGCGATACACTCGACATGCTTTCAAAAACATCTGTCGCTTCTGGAAATCCATTAATTCAAGAGAAAATTATAGCTAATTATATAAAAAAAGCAAGGAAGTGA MNKAQRDMIFSQATKWIYEAGEQIRQQIHNPLTIDTKSNANDLVTEMDRSTEAFLANNIKSTFTDHFILSEEGYGDQLDSMNGIVWIIDPIDGTMNFVHQKRNFAISIGIFNNGIGEIGLIYNVMEDVLYSAKRGEGAYKNNKKLPQLHRDILFEEAIVSMNHFWLCENRLVDEKWMQKLVKDVRGSRTYGSAALEFAFVAEGIIDSYLTLSLSPWDYAAGMVIISEVGGVTTTIDGDTLDMLSKTSVASGNPLIQEKIIANYIKKARK PGPT0018535_3518 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 AK015_03734 171 hypothetical protein ATGAAGAAGTTAAATATACCGATGCTGCTTTTAGCAATACTTGTAATTGGCATGTTTGTCGGCGTAGGTGCTGCTATAGCTTATCGTAATACTTGGTTGGTGGTTTTATTTTTATTATTAGGTTTTACGTTGATGGGAACTGGGATTCGTTTAAAAAAAGCAAGGGAGTGA MKKLNIPMLLLAILVIGMFVGVGAAIAYRNTWLVVLFLLLGFTLMGTGIRLKKARE NA NA NA NA NA AK015_03735 303 hypothetical protein ATGGAAGGAAGTTTTAGCTTTGTGTTCAATTTTATTTTAGAACAATTCGGTACAGATCATATGTTTTTGACGTTATACATTTTGAACTTAATTTTTAGTATTATTTCATTTAAACTTGGATTTGCAAGAAAGCTTACCCTGATAAAAACAATAATTGTATATATCATGCTTGCTTTGGGAGTTTATTTATTAACTATTTTTAGTATATTTCAACTTCCGATCACGGAAAGCTTAATCGTGATATCACTTGTATTAGCAATTTATCGTTTTCGTTTATATCAAGAAAGAAAAAATCGCTCGTAA MEGSFSFVFNFILEQFGTDHMFLTLYILNLIFSIISFKLGFARKLTLIKTIIVYIMLALGVYLLTIFSIFQLPITESLIVISLVLAIYRFRLYQERKNRS NA NA NA NA NA AK015_03736 204 hypothetical protein ATGCAAGTGAAATGTACCATTTGCGATTCAGTTGAAAGCATTGATGATCATTGCTTTGAAGCAAAACGCTTAAGAAATAAAAGAATCCTTATGCACTTATGTCAGACGTGCTACGATAGAGTTGAAAAAAAGACGTTGGCAAGACATGCAACAGGTAAGTTCCGCTTATATTCAGAAAAAAAACCCGTTGATGAATTTATTTAA MQVKCTICDSVESIDDHCFEAKRLRNKRILMHLCQTCYDRVEKKTLARHATGKFRLYSEKKPVDEFI NA NA NA NA NA AK015_03737 288 hypothetical protein ATGAAGAAAAAATATTTATACTCTGCTGGTGCCGCAGGAGTAATTGGAGCTACAGTTGCTGGGTACTTTCTAAAAGACAAAGATAAAAGAGATAACGTGAAAAGGAAAGTTAAAAATTATCAGAATAGTATCCGTTCTACTCTTGAAGAGGCGGGTGTACCAGATCAGTCAGAGGATAAAGGTTTGGAACAACTTGAAAATGCAAAAATGGTATCGGAAGGTTCGCAGTTTGGCGTTCAATATTACAATGAAAATAAAGAAGCTAATACAAGTGAGTACCAACAATAA MKKKYLYSAGAAGVIGATVAGYFLKDKDKRDNVKRKVKNYQNSIRSTLEEAGVPDQSEDKGLEQLENAKMVSEGSQFGVQYYNENKEANTSEYQQ NA NA NA NA NA AK015_03738 594 hypothetical protein ATGAGATTAGCTTTTATGGGAATCACGTTTCTTATCTTGTTTATATTTACAGCTTGTACGCAAGAAGATCGTGAAGAAGCTATTACAAACGAAGAAACAAATCAAAGATTTGAACAAGTTAAAAACTCAGAACCAACAAAACAAAAAGCGTTGACTAACAAAGAAATCGCAAACCATTTGGCTAATATTGCTAGCGATGTACCAAATGTTAACGATGCGGTATCAATTGTAGCTGGTCCTTATGCAGTAGTAGGAATAGACGTTGATAAAGACCTCGATCGTTCAAGAGTTGGCACTATTAAATATAGCGTTTTAGAAGCATTGTATAATGACCCATATGGTAAAACAGCTGTTGTGGTTGCAGACGCTGATGGTAATGAACGAATTCGTGGGATAGTGGATAAGATGGAACAAGGTCAACCTGTATACGGTTTGATGGATGAATTAGCCGCCGTTGTTGGGCGATATATGCCGGAATTTCCCATTAACAAAAATCGACCACAGGAAAGTGATCCAAATAAAGAGGTAATTCCTGAAGAAGAAAAAGAGCAACTTGAAGATACGGAGGAAGAACAATCCAATCATCATAAATAG MRLAFMGITFLILFIFTACTQEDREEAITNEETNQRFEQVKNSEPTKQKALTNKEIANHLANIASDVPNVNDAVSIVAGPYAVVGIDVDKDLDRSRVGTIKYSVLEALYNDPYGKTAVVVADADGNERIRGIVDKMEQGQPVYGLMDELAAVVGRYMPEFPINKNRPQESDPNKEVIPEEEKEQLEDTEEEQSNHHK NA NA NA NA NA AK015_03739 486 hypothetical protein ATGATCGTGCCAATTAAAGGGAAAGTAAAATATCCTATTACCTTAGATCCTACTGTTTGGATATTCGATGATCGTAAAGTCGAATTTGAACATGCTTTTTTAAACGAACATGTTGCAGTGGATGAGGATGAAACATTAAAACAAGCATCACAAAGATGGGAAAGGGAAATTTCTGAACAAGTTAAACCACCAGTAAATCGAAGTATAAAAAAGTATGAGCGCGAAAAAATGTTGAGTAGTTCATACGTTATTCCGTTAGAAGATTTTTTAAATCATGCAGAGATTAGCGCAAGCGCAACAGAAGCTGTTTTAATTCGCGAGCTTGAAAACGTCATCATTCCTTTGAAAGATCTGTTCAATAGCTATTTCTTATTTTCGAAGGATGGTAAGCCGCTGAAAACAGATGGACCAGTACATCTATATTACAAAGATGGTTCCAATAAGCATGATCCTATTACACATATTAAAAGCGTTTCTATCCAGTAA MIVPIKGKVKYPITLDPTVWIFDDRKVEFEHAFLNEHVAVDEDETLKQASQRWEREISEQVKPPVNRSIKKYEREKMLSSSYVIPLEDFLNHAEISASATEAVLIRELENVIIPLKDLFNSYFLFSKDGKPLKTDGPVHLYYKDGSNKHDPITHIKSVSIQ NA NA NA NA NA AK015_03740 282 hypothetical protein ATGCAAGAGGTGACTGTAAATCATCGCGAAAAAGCCCATGCCCTTCTTAAGGCTGATGCTGACAAAATTTTGCGACTTATAGAAGTTCAAATAGATAATTTAACAATGCCACAATGTCCATTATACGAAGAAGTGTTGGATACACAAATGTTTGGGCTTTCCAGGGAGATCGATTTTGCTGTTCGATTAAATTTAATTAGCGAAAGTGAAGGTAAAGAAATATTAGAAGATCTGGAGAGGAAGTTAAATATTCTGCATGAAGCAGCGCAAAATTCCGTATAA MQEVTVNHREKAHALLKADADKILRLIEVQIDNLTMPQCPLYEEVLDTQMFGLSREIDFAVRLNLISESEGKEILEDLERKLNILHEAAQNSV NA NA NA NA NA AK015_03741 1191 ftsW_2 COG0772 putative peptidoglycan glycosyltransferase FtsW ATGCTACAAAAATTAAAATTTTATGATTATACACTAATAATAACGCCCATTTTGTTAGCGGCTTTTGGCTTAGTAATGATCTATAGTGCAAGCATGGTTTTTGCTGTTGTTCAAGGGCATGCTGCTAATCATTATTTAACGCAACAATCTATCCGTTTTGCAATGGGGCTAATAGGATTTATTTTATGCTCTGCTTTTCCATATCGCTACTATCAAAAACTAATCAAACCTATTATACTAGGAGTAATACTGTTATTGATTGGGGTATTACTATTTGGTTCAGAAGTGAACAATGCACAATCCTGGATATTGGGAATTCAACCGGCAGAATTTGCTAAACTTGCGATTGTTATGTACTTAGCTTCTGTATATTCCAAAAAGCAGGAATATATTCGTGAATTTAGTAAAGCTGTTTTACCACCTCTCATTATTACAGGAATTATTCTAGCACTTATCGTTTTACAGCCGGATATAGGAACAGCTTCCATTGTTTTTTTAATTGCATGTTCGGTTATTTTTAGTTCAGGTATCCGTTTTAAGCACTTATCCCTACTTCTATTTATCGGTTTGATGTTTTTATTGATGACGTTACCGTACATGGCGACCGATGAGCGACTCACTCGATTTACGGGTGCTTATCAGCCATTTGAAACTCCTGCATCTCACGGCTATCAGTTAATCCAGTCTTATGTGGCAATTGGAAACGGTGGATTAGCTGGTGAAGGATTAGGGCAAAGTGTACAAAAATTAGGGTACTTAACAGAAGCGCATACAGATTTTATTATGGCGGTAGTTGCTGAGGAGTTAGGCTTTATCGGTGTTGTTATTGTTATTGGTATGTTATCTATCATTGTATTAAGAGGGTTGTTTATCTCTAGGAAAGTGAAGGATAGCTTTGGCTCTTTACTAGCGATCGGCATCTCTTCCATGGTGGGTATACAAGCATTTATTAACTTAGGAGCCATTAGTGGCTTATTACCAATTACAGGAGTGCCATTACCATTTGTAAGTTATGGCGGTTCATCTCTTTTGGTGTTATTAATATCAATGGGGATTTTAAATAATATTGCTATGCATATTAAAAAAAGAGAATTAGAACCAGCAGGAGAAAATCAAAATACTCGTAACATATCACAAACATATCGAGGAGGGAGAACATGGCACAACTTAAACAAATCAACAAAGTATTAG MLQKLKFYDYTLIITPILLAAFGLVMIYSASMVFAVVQGHAANHYLTQQSIRFAMGLIGFILCSAFPYRYYQKLIKPIILGVILLLIGVLLFGSEVNNAQSWILGIQPAEFAKLAIVMYLASVYSKKQEYIREFSKAVLPPLIITGIILALIVLQPDIGTASIVFLIACSVIFSSGIRFKHLSLLLFIGLMFLLMTLPYMATDERLTRFTGAYQPFETPASHGYQLIQSYVAIGNGGLAGEGLGQSVQKLGYLTEAHTDFIMAVVAEELGFIGVVIVIGMLSIIVLRGLFISRKVKDSFGSLLAIGISSMVGIQAFINLGAISGLLPITGVPLPFVSYGGSSLLVLLISMGILNNIAMHIKKRELEPAGENQNTRNISQTYRGGRTWHNLNKSTKY PGPT0014810_2686 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588 NA NA AK015_03742 3444 pycA Pyruvate carboxylase ATGGCACAACTTAAACAAATCAACAAAGTATTAGTTGCCAATCGAGGAGAAATTGCAATTCGTGTTTTTCGGGCATGTACCGAATTAAATATTCGTACTGTTGCAATCTATTCCAAAGAAGATTTAAGTTCCTATCACCGTTATAAAGCGGACGAGGCGTATTTAATTGGAGAAGGAAAGAAGCCAATTGATGCATATCTGGATATTGAAGGTATTATCCAGTTAGCTAAGCAAGTAGGTGTAGATGCCATTCATCCTGGCTATGGATTCTTATCTGAAAATATTAACTTTGCTAAGCGATGTGAAGAGGAAGGAATTATTTTCATCGGTCCAACAAGTAATCATTTAGATATGTTTGGGGACAAAGTAAAAGCTCGGTACCAAGCTACACAGGCAGGTTTACCTGTTATACCAGGAAGCGGTGGCCCGGTCAACTCTTTGGAAGAGGTGGAGCAGTTTGCGAGGGATCATGGTTTTCCAATCATTATTAAAGCCACTCTAGGCGGTGGAGGACGAGGTATGCGTATCGTTCGAAGTAAGCAGGGGCTTGCGGAGGCGTACGATCGTGCTAAGTCTGAGGCTAGGGCTGCATTTGGTAATGATGAAATTTACTTAGAAAAACTCATTGAAAACCCAAAACATATTGAAGTTCAAATTATTGGAGATCAACATGAGAATATCATTCATTTGTATGAAAGAGACTGCTCTGTGCAGCGAAGACATCAAAAATTAGTAGAGGTTGCTCCAAGTATATCTTTGCCTGAAGAATTGCGTATGAAAATATGTGAAGCTGCGGTCAAACTAATGAAAAATGTTAACTATTTAAACGCTGGTACTGTAGAGTTTTTAGTGACTGAGGATGAATTCTTCTTTATTGAAGTAAACCCAAGGGTTCAAGTAGAGCATACGATTACTGAAATGATTACTGGTGTTGACATTGTCCAGACGCAAATTAAAGTCGCTGAAGGAAGGAGTTTACATGAGGATTCCATTGGTATTCCAGATCAGGATAAAATTGTTACTACTGGATATGCTATCCAATCGCGTGTAACGACAGAAGATCCGCTGAATAACTTCATGCCAGATACTGGAAGGATTATGGCTTACCGATCTGGTGGTGGATTTGGTGTCCGATTAGATGCGGGGAATGGATTTCAAGGTTCTGTTATTTCACCGCACTATGATTCATTGTTAGTTAAAGTGTCTACTTGGGCGTTAAATTTTAATCAAGCTGCACAAAAAATGGTCAGAAACTTAAAAGAATTTCGTATACGTGGTATAAAAACAAACATTCCATTTTTACAAAATGTTATTTTACACAAAAATTTCTTAAATGGGGTCTATGATACAACATTTGTTGATAACACACCTGAATTATTTGTATTTCCAAAACGAAAAGATCGTGGAACGAAAATGCTAACATATATTGGAAATACGACAGTAAATGGTGTTGATAAAGATGGAAATAAAGAAAAACCTGTTTTTGATGATTTAAAGCTTCCCGATGTTAATACATCTAACCCAATAGCTTCAGGTACAAAGCAAATTTTAGATAAACATGGTCCTGATGAGTTAGCAAAGTGGTTAAAAGAACAAAAAGAAGTGTTGTTAACCGACACAACGTTTCGTGATGCACACCAATCTTTATTAGCGACGAGAGTTCGTACGAAGGATTTGCATCGTATCGCGGAACCTACCGCTAGATTGCTTCCAAACTTATTTTCAGTCGAAATGTGGGGAGGAGCCACATTTGATGTAGCTTACCGCTTTTTAAAAGAAGACCCATGGGATCGCTTGTTAAAGCTTCGTGCAAGTATGCCAAATGTATTGTTACAAATGCTGCTTCGTGCAAGTAATGCGGTAGGTTATAAGAATTACCCAGATAATGTAATTAAAGAATTTGTGGAGAAAAGCGCAACAGCCGGCATTGATGTGTTCCGAATTTTTGACAGTCTAAACTGGGTAGAAGGCATGCAATTAGCAATAGAAGAAGTACGCAACAATAATAAAATTGCAGAAGCTACTATGTGTTATACAGGCAATATTTTAGATACTGGACGAACAAAGTATGATATTAGCTATTATAAAAATTTAGCTAAAGATTTAAAAGCGTCAGGAGCGCATATTCTCGGTATTAAGGATATGGCAGGATTATTAAAACCGGAAGCGGCATATCAATTGGTGTCTACATTAAAAGAGACGGTTGACTTACCAATTCATCTGCATACACACGACACCAGTGGAAATGGAATTTATTTATATGCCCGAGCTATCGATGCCGGAGTAGACGCTGTAGATGTTGCAGCCGGACCAATGGCTGGTCTAACTTCTCAACCTAGTGCACAGACTTTATATCACGCATTAGAAGGGCATGAACGTCAACCAAAAGTGAATGTAAATGCGTATGAAAAGCTTTCTTATTATTGGGAAGGTATACGTGAATACTACCGTGATTTTGAAAGTGGAATGAAGGCACCACATACTGAAATTTATATGCATGAAATGCCTGGAGGTCAGTATAGTAATTTGAAGCAACAAGCCAAAGCTGTAGGGCTTGAAGATCGTTGGAATGAAGTGAAAACAATGTTTCGACAAGTGAATGATATGTTTGGTGATATTGTTAAAGTTACCCCTTCGTCAAAAGTGATTGGTGATATGACTTTATTTATGGTACAAAATAATTTGACAGAAGATGATGTTTATGAACGTGGAGAAACGATTGACTTTCCGGATTCTGTAATAGAATTTGCACAAGGCTACATTGGACAGCCTTATCAGGGTTTTCCACCAGAATTGCAACGAATCATTTTGAAAGGAAAGGACCCTATCAAAACACGTCCAGGTGAATTGCTAGAACCAGTTGACTTTACGCAGTTAAAGGAAACATTGTTTAAGACCTTAGACCGACAAGTAACTAGCTTTGATTTAATATCTCACGCTCTTTACCCTAAAGTTTTTATGGAATATCATAAATTCCATGACAAATACGGCGATGTAAGTGTATTGGATACTCCGACTTTCTTCTATGGGATGAGGCTTGGAGAAACGGTTGAAGTAGAAATTGAACAAGGGAAAACATTAATTGTAAAACTTGTTTCTATTTCAGAACCTAGAGAAGATGGTACGCGTGTTGTATATTTTGAATTGAATGGGCAAACGAGAGAGATTGTTGTGAAAGATCAAAGCATTCAATCTGAAGTTGAGATGAGGCCAAAAGTAGATAAAAGTAATGAAAAACACATTGGTGCTACAATGCCAGGGACAGTAATAAAAGTTCTTTGTCAATCAGGGGATCGTGTTAATAAGGGAGACCATTTATTGATTAATGAAGCTATGAAAATGGAAACAACTGTCCAAGCTCCATTTACAGGAGTTATTAAGCAAGTGAATGTAAAAGATGGCGATAGTATCGCTGTAGATGATCTACTTATTGAATTAGAATAA MAQLKQINKVLVANRGEIAIRVFRACTELNIRTVAIYSKEDLSSYHRYKADEAYLIGEGKKPIDAYLDIEGIIQLAKQVGVDAIHPGYGFLSENINFAKRCEEEGIIFIGPTSNHLDMFGDKVKARYQATQAGLPVIPGSGGPVNSLEEVEQFARDHGFPIIIKATLGGGGRGMRIVRSKQGLAEAYDRAKSEARAAFGNDEIYLEKLIENPKHIEVQIIGDQHENIIHLYERDCSVQRRHQKLVEVAPSISLPEELRMKICEAAVKLMKNVNYLNAGTVEFLVTEDEFFFIEVNPRVQVEHTITEMITGVDIVQTQIKVAEGRSLHEDSIGIPDQDKIVTTGYAIQSRVTTEDPLNNFMPDTGRIMAYRSGGGFGVRLDAGNGFQGSVISPHYDSLLVKVSTWALNFNQAAQKMVRNLKEFRIRGIKTNIPFLQNVILHKNFLNGVYDTTFVDNTPELFVFPKRKDRGTKMLTYIGNTTVNGVDKDGNKEKPVFDDLKLPDVNTSNPIASGTKQILDKHGPDELAKWLKEQKEVLLTDTTFRDAHQSLLATRVRTKDLHRIAEPTARLLPNLFSVEMWGGATFDVAYRFLKEDPWDRLLKLRASMPNVLLQMLLRASNAVGYKNYPDNVIKEFVEKSATAGIDVFRIFDSLNWVEGMQLAIEEVRNNNKIAEATMCYTGNILDTGRTKYDISYYKNLAKDLKASGAHILGIKDMAGLLKPEAAYQLVSTLKETVDLPIHLHTHDTSGNGIYLYARAIDAGVDAVDVAAGPMAGLTSQPSAQTLYHALEGHERQPKVNVNAYEKLSYYWEGIREYYRDFESGMKAPHTEIYMHEMPGGQYSNLKQQAKAVGLEDRWNEVKTMFRQVNDMFGDIVKVTPSSKVIGDMTLFMVQNNLTEDDVYERGETIDFPDSVIEFAQGYIGQPYQGFPPELQRIILKGKDPIKTRPGELLEPVDFTQLKETLFKTLDRQVTSFDLISHALYPKVFMEYHKFHDKYGDVSVLDTPTFFYGMRLGETVEVEIEQGKTLIVKLVSISEPREDGTRVVYFELNGQTREIVVKDQSIQSEVEMRPKVDKSNEKHIGATMPGTVIKVLCQSGDRVNKGDHLLINEAMKMETTVQAPFTGVIKQVNVKDGDSIAVDDLLIELE PGPT0001420_1053 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 AK015_03743 954 ctaA Heme A synthase ATGATAAAAAGCTTAAAATGGTTATCTATTGTAGCGACACTTGGAATGACATTTGTGTTGCTTGGGGGTGCTCTTGTAACAAAAACCGGCTCAGAAGATGGCTGTGGAAATAGCTGGCCTTTATGTGAAGGGGAATGGCTGCCTTCTGAAATTACACCGGAATTAATTATTGAACTAAGCCATCGATTAGTTACTGGTGTAGTTGGATTTGCCGTTATAGGTTTGGCGATTTTAGCCTGGATTAAACTTGGGCATGTTCGCGAGGTTAAATTTCTTTCTATACTATCCGTTTTATTTTTAATTTTACAAGCACTTATTGGAGCGGCAGCTGTGGTATGGGGACAATCTGATTTCGCCCTTGCTGCACACTTCGGAATTTCATTAATTTCTTTTGCTGCTGTATTTCTGTTAATGTTACTTATTTTTGAGGTGGATAAAAAATTCGATGCAAAGTCACTTTTAATAAAAAAAGCGCATCGATTGGAAATTTATGCTTTAACCATCTACACGATGCTCGTCGTTTATTCCGGAGCCCTCGTGCGCCACACTGACGCAAATTTAGTTTGTAAAAGTTGGCCTTTTTGTAACAATCAGGCTCCACTAGACTTTTCTAATTACGTTATACCGCAATGGATTCAAATGGGGCATAGGCTTGCTGCAGGGATTTTATTTTTATGGACGGTTATATTCGCTTTTCGCATGATACGTACCTACAAGAATAACAAGTTAATGTTTTGGGGTTGGTGGACGGTTATTAGTTTAATAACTTTACAGGTATTCTTTGGTGCTATGATTATATTTACACGATTGCACTTAGCTACCGCTTTAATGCATGCACTTATTATATCGCTATTTTTTGGCATGTTAACATATTTTATTTTGCACGCGACACGCAGTGCTAAATATGCAAAACAAACAGACAACAATAAGTCAGCGACGCAAATTTCATCGTAA MIKSLKWLSIVATLGMTFVLLGGALVTKTGSEDGCGNSWPLCEGEWLPSEITPELIIELSHRLVTGVVGFAVIGLAILAWIKLGHVREVKFLSILSVLFLILQALIGAAAVVWGQSDFALAAHFGISLISFAAVFLLMLLIFEVDKKFDAKSLLIKKAHRLEIYALTIYTMLVVYSGALVRHTDANLVCKSWPFCNNQAPLDFSNYVIPQWIQMGHRLAAGILFLWTVIFAFRMIRTYKNNKLMFWGWWTVISLITLQVFFGAMIIFTRLHLATALMHALIISLFFGMLTYFILHATRSAKYAKQTDNNKSATQISS PGPT0008525_2754 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259 NA NA AK015_03744 945 ctaB2_2 COG0109 Protoheme IX farnesyltransferase 2 ATGGATAAAGTAGAGGCAGCTACTTCACAGGTTATTACGAATACGTCATCAACCGAAAAAAACAAGCCAGTTTCTACACTTGATGATATTAAATCACTAATAAAAATAGGAATTATTAACTCCAATTTAATTACAGTTTTTACTGGATTTTGGTTGGCAATTTATTATAGTGGATATACATTTACGGATTACATCGGTACGTTTATTATTACGATGTTAGGAAGTACTTTGGTGATTGCAGGTGGATGTATGCTTAATAACTGGTATGACGTTGATATTGATCCAGTTATGAAGCGAACGAAAACTCGACCAACTGTAACGGGTACGATCTCGCTTCCGACGGTACTCGGACTAGGGTTAATTACATCTTTTGCTGGTCTTTTACTTTTACTATTTACAACCATAGAAGCAATGTTGTTTGCGTTTCTAGGCTGGTTTTTCTATGTAGTGCTATATACGATGTGGTCAAAGAGAAAATATACACTTAATACGACAGTTGGTAGCTTTTCTGGTGCTGCGCCACCACTCATTGGTTGGGCTGCAGTAAACCCGAACTTTCATATCGTTCCGCTTATATTATTTTTAATTATGTTCATTTGGCAAACACCTCATTTTTTAGCATTAGCAATGCGAAAGAATGAAGAATATAAAGCGGCAAGAATACCTATGTTGCCCGCAGTCCATGGTTTTGAAATGACCAAGCGACAAATCACCATTTATATCGCATGTTTATTGCCGTTGCCATTTTATTTAACTTCTTTAGGCACAACATTTGTCATCTTGGCGACCTTGTTAAATGTTGGATGGCTAGGGCTTGGAATGAGTGGTTTCTTTATGAAAGATGGTATTAAATGGGCGAATATTATTTTTATTTACTCTTTAAATTATTTAACCATCCTCTTTTTATTGATGGTTGTTGTAACGTGGAATTCGCCATTTAGTTAA MDKVEAATSQVITNTSSTEKNKPVSTLDDIKSLIKIGIINSNLITVFTGFWLAIYYSGYTFTDYIGTFIITMLGSTLVIAGGCMLNNWYDVDIDPVMKRTKTRPTVTGTISLPTVLGLGLITSFAGLLLLLFTTIEAMLFAFLGWFFYVVLYTMWSKRKYTLNTTVGSFSGAAPPLIGWAAVNPNFHIVPLILFLIMFIWQTPHFLALAMRKNEEYKAARIPMLPAVHGFEMTKRQITIYIACLLPLPFYLTSLGTTFVILATLLNVGWLGLGMSGFFMKDGIKWANIIFIYSLNYLTILFLLMVVVTWNSPFS PGPT0008520_1396 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 AK015_03745 1053 ctaC COG1622 Cytochrome c oxidase subunit 2 ATGAAAGGTTGGATGGGAAAATTTAAATTTGTATTCCTCTTAAGTTTTCTAGCCATCATCCTTGCGGGATGTGGAAAGGAAAACTTAACGGCTCTTGTACCAAAGGGGTATGGTGCAGAGTCTTCCATGAATTTAATTGTTCTTTCAACAGTAATTATGACTTTTGTATTTATTGTTGTTCTTTCTGTTTATTTGATAGCGATTGTTCGCTTTCGCAAAAAGAAAGGGCAGGAGAATTACATTCCAAAGCAGGTGGAAGGTAGTAAAAAACTAGAAACTATTTGGACAGTGATTCCAATTATTTTAGTTTTGATCCTTGCAGTACCGACTGTTGCTGCTACTTTTGATTTGGCTGATGAGTCTGGTAAAAGTGATCACATTAATGTTGACGTTACTGGTAATCAATATTGGTGGCATTTTAGCTATGCAGATGAAGAAGTGCAAACAAGTCAGGATTTATACATTCCTACTGGAGAAAAAGTATACTTAAACATGAAATCCTCAGATGTTATTCACTCTTTATGGGTGCCAAGTATTTCAGGGAAAATGGATGTGAATCCTGAAAACGAAAACACAATGTATATTGAAGCAAATGAAGAAGGGGTTTATTGGGGCAAATGTGCAGAGCTATGTGGCCCATCACATTCACTTATGGACTTTAAGGTTATAGCTGTGAGTCCAGAAGAATATGAACAATGGGTAGCTGATATGCAAAGTGTAGATCCCGAAGAAAAACCACAAGATGCAGTTGCTCAAGATGGAAAAGCAGCGATGGAAGCAAACAATTGCTTGAATTGTCATGCGATCGGTTCATCGCCAAATGCAGTGGGGCCAAACCTAACGAACTTTGGAGATCGAACAAAAATTGCTGGCTACCTTGAAACAAACAAGCAAAACCTTGTGGATTGGTTATTGGATCCAGAATCCATAAAACCAGGTAATTTAATGACTGGTAAATACCCTGAACTATCTGAAGAAGAAGCAGACAGCATTGCAGAATATTTGCTGCAATTAAAGCCATCTGAAATTACTCCAGAAAGTGCAGGTAACTAA MKGWMGKFKFVFLLSFLAIILAGCGKENLTALVPKGYGAESSMNLIVLSTVIMTFVFIVVLSVYLIAIVRFRKKKGQENYIPKQVEGSKKLETIWTVIPIILVLILAVPTVAATFDLADESGKSDHINVDVTGNQYWWHFSYADEEVQTSQDLYIPTGEKVYLNMKSSDVIHSLWVPSISGKMDVNPENENTMYIEANEEGVYWGKCAELCGPSHSLMDFKVIAVSPEEYEQWVADMQSVDPEEKPQDAVAQDGKAAMEANNCLNCHAIGSSPNAVGPNLTNFGDRTKIAGYLETNKQNLVDWLLDPESIKPGNLMTGKYPELSEEEADSIAEYLLQLKPSEITPESAGN PGPT0004030_1509 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275 NA NA AK015_03746 1854 ctaD Cytochrome c oxidase subunit 1 TTGAGTATTGCAGCTGCTCAAAAAAAGGGCTTCGGAGCTTTTTTATGGGATTATTTGACAACTGTTGACCATAAAAAAATAGCTCATTTATATTTGATTGGCGGAGGGTTTTTCTTTATCCTCGGTGGGCTCGAAGCGATGTTTATTCGTATACAATTAATTGCGCCTGAAAATGATTTTATTAGTGCAGGCTTATACAATGAAATGTTTACTATGCATGGAACGACGATGATCTTTCTTGCAGCTATGCCTTTGTTACTAGGATTAATGAACGCTGTCATGCCATTGCAGATTGGTGCACGCGATGTGGCGTTCCCGTTTTTAAACTCATTAGGATTTTGGTTATTTATGTTTGGAGGCATTCTATTAAACTGTAGTTGGTTTTTAGGTGGAGCACCAGATTCAGGTTGGACTGCTTATACACCGTTATCTGTGGAATCTCCAACACATGGTATTGACTTTTATGTCTTAGGCTTACAAATTTCTGGTGCAGGTACACTAATTGGGGGAATTAATTTTCTTGTAACCATTGTGACGATGCGTGCTCCAGGGATGACATATATGCGCATGCCATTATTTTCATGGACTACTTTTGTCACTAGTACATTAATTTTATTCGCGTTCCCAGCATTAACAGTAGGTCTATTCTTACTGATGTTTGACCGCATGTTTGGATCGGCGTTTTTCAATGTCGCTTTAGGTGGTAACTCTGTAATTTGGCAACATTTATTTTGGATCTTCGGGCATCCAGAGGTATATATTTTAATACTGCCAGCTTTTGGAGTGTTCAGCGAAGTTATTCCAACTTTCTCCAAAAAGCGTCTATTTGGTTATACAGCTATGGTCTTTGCAACCATTCTAATTGCCTTTTTAGGCTTTATGGTTTGGGCACACCATATGTTTACAGTAGGTTTAGGGCCGGTAGCGAACGCTATTTTTGCGATTGCCACGATGGCGATTGCTGTGCCAACAGGAATAAAAATCTTTAACTGGCTAGCGACGATGTGGGGTGGAAGCATAACGATTAATTCAGCTATGCTTTGGGCATTAGGGTTTATTCCGTCATTTACAATTGGTGGTATGACTGGGGTTATGCTTGCATCAGCTGTAGCTGACTACCAATACCATGATTCTTACTTCGTTGTAGCTCATTTCCACTATGTTATCGTTGGTGGAGTAGTTTTTGGTATTTTTGCTGGTCTACATTATTGGTGGCCGAAAATGTTTGGTAGAATTTTAAATGAAAAATTAGGGAAAATAGGTTTCTGGTTATTCTTCATTGGATTCCACTTAACGTTCTTTATTCAGCATTTCTTAGGGCTTATGGGAATGCCAAGACGTTATTGGGTGTTCTTAGAAGACCAAGGTCTAGATACGGGTAACTTTATTAGTACGATTGGTACGTTCTTAATGGCTATTGCTGCAACTATATTTTTAATTAATATTATCTACACAGCAGTAAAAGGAGAAAAGCCTGCTGGAGACCCTTATGATGGTCGTACTCTAGAATGGGCAATACCATCACCGCCTCCATACTATAACTTTAAACAACTACCACTTGTTCGTGGTCTGGATCCATTATGGATTGAAAAAATGGATGGTAAAGGAAAAATGACTCCTGCTGAGCCACTAGGGGATGTTCATATGCCAAATGGGTCGATATTACCTTTTGCCATGTCTCTTGGGTTCTTTATTGCTGGATTCGGCTTTATTTATCAGACCGATCACCAAGCTTGGAATTTAGCCATATTTGTTGGGATGGGAATTGCGTTAGGATCTATGCTGATTCGTTCATTAAAAGATGATCACGGCTATCATATCAGCAAAGAAGAACTAGAAAGGGAGGCGGACTAA MSIAAAQKKGFGAFLWDYLTTVDHKKIAHLYLIGGGFFFILGGLEAMFIRIQLIAPENDFISAGLYNEMFTMHGTTMIFLAAMPLLLGLMNAVMPLQIGARDVAFPFLNSLGFWLFMFGGILLNCSWFLGGAPDSGWTAYTPLSVESPTHGIDFYVLGLQISGAGTLIGGINFLVTIVTMRAPGMTYMRMPLFSWTTFVTSTLILFAFPALTVGLFLLMFDRMFGSAFFNVALGGNSVIWQHLFWIFGHPEVYILILPAFGVFSEVIPTFSKKRLFGYTAMVFATILIAFLGFMVWAHHMFTVGLGPVANAIFAIATMAIAVPTGIKIFNWLATMWGGSITINSAMLWALGFIPSFTIGGMTGVMLASAVADYQYHDSYFVVAHFHYVIVGGVVFGIFAGLHYWWPKMFGRILNEKLGKIGFWLFFIGFHLTFFIQHFLGLMGMPRRYWVFLEDQGLDTGNFISTIGTFLMAIAATIFLINIIYTAVKGEKPAGDPYDGRTLEWAIPSPPPYYNFKQLPLVRGLDPLWIEKMDGKGKMTPAEPLGDVHMPNGSILPFAMSLGFFIAGFGFIYQTDHQAWNLAIFVGMGIALGSMLIRSLKDDHGYHISKEELEREAD PGPT0004025_399 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274 NA NA AK015_03747 624 ctaE Cytochrome c oxidase subunit 3 ATGAGTCACGATCATTCCTTAAACCCTGAAACGATGCCACAAGAACCAGAAAAAGCAACGTTAGAAGGGAAAAATAAATTTTTAGGTTTATGGTTTTTTCTAGGTGGAGAAACTGTATTGTTTGCAAGTTTGTTTGGAACATATCTTGCTCTTCGTAACTCGACAGCTGGCGGTCCAAGTGGTCAGGATATATTTGGTTTAGAGCTTGTTTTTCTTATGACAATGTTATTATTGACTAGTTCATTGACTAGTGTTTATGCGATGTATCATATGAAAAATAATGACTTTAAAAAAATGCATCTATGGCTTGGAATTACAGCCTTTTTAGGGATTGGATTTCTAGCATGTGAAATTTATGAGTTTTACCACTATATTACAGACTTTGGTTTTACATTTAGGTCATCGGCATTTGGCTCAGCATTCTATACACTTGTTGGTTTTCACGGAGGTCACGTTGTCTTTGGACTCAGCTGGCTTATCGCATTAATGGTGCGAAATGCAAAACGTGGACTAAATTTGTATAACGCTCCTAAATATTACACGTTTAGCCTTTACTGGCATTTCATTGATGTTGTATGGGTATTTATCTTTACGGTTGTATACTTGATGGGAAAGGTGGGCTAA MSHDHSLNPETMPQEPEKATLEGKNKFLGLWFFLGGETVLFASLFGTYLALRNSTAGGPSGQDIFGLELVFLMTMLLLTSSLTSVYAMYHMKNNDFKKMHLWLGITAFLGIGFLACEIYEFYHYITDFGFTFRSSAFGSAFYTLVGFHGGHVVFGLSWLIALMVRNAKRGLNLYNAPKYYTFSLYWHFIDVVWVFIFTVVYLMGKVG PGPT0004035_2571 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276 NA NA AK015_03748 315 caaD Cytochrome c oxidase subunit 4B ATGACAGATAACACCAATACCAATTCATTTCAGAAACAAAAAAATAAGGAAGAAATGAAAAAGCAACTGATTACATTTGCATTAATGATTGGTTTTACGATTGTTGCTTTCTCTATTGTAGCAACAAATGCTATGGATAAGATGTTTGCAGTTCCTTTACTATTGATCTTAGCGCTCGTTCAAGTCGGGTTCCAATTTTATTATTTTATGCATATGAAAGATAGAGGCCATGAGTTTCCAGCTATGATGATTTATGGCGGGGTATTCGCTGCACTATTAACGATAGCTGCTTTAGTAGCTATTGTATGGTGGTAA MTDNTNTNSFQKQKNKEEMKKQLITFALMIGFTIVAFSIVATNAMDKMFAVPLLLILALVQVGFQFYYFMHMKDRGHEFPAMMIYGGVFAALLTIAALVAIVWW PGPT0004040_758 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_IRON_RESISTANCE IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277 NA NA AK015_03749 906 hypothetical protein ATGTGGCTAGAATTACAAATTTTTGGCTTCCGAGCTTTATGGAGTCCTTATTTTCTATTGTTCGTAATTGGGTTAGGCATGGTTTACTTTCTAATAACTGGACCATACCGACATAAATTCGGTGGTGATGAAAAACCATCTAAACTGCAGCAAGGTATGTTTTTGCTTGCGCTCGTATTGTTGTATGCAGTGAAAGGTGCTCCAACAGATTTATTGTCACATATGATGTTAACAGCACATATGATCCAAATGGCTGTATATTACTTAATTTTTCCTATTTTAGTCATTAAAAGTATTCCAGTGTGGATTTGGAAAAAAGTGATTCATGCGCCATTCATAGAACCAGCTTTTCGCTTGTTGACGAAACCATTGATATCGTTACTTTTATTTAATGGGTTATTTTCGCTGTACCATATTCCTGCTGTTTTTGACTTTGCCAAATCTACACAAATTGCACATACGTCCATTTCTTTAATTATTTTAGTAGCTGCTTTTATCGTCTGGTGGCCAATTTTGTCTCCGATAAAAGAAATGGATTCAATGAGACCAGTTTTAAAGATTGGCTATATTTTTGCGAATGGGGTTTTAATAACGCCGGCATGTGTTCTAATTATATTTGCAGATGTTCCGTTGTTTTCGGCGTACAGTCAAAATGGAGCCTGGTTACAAGCACTCGCCTTATGTGTACCTGGAGACGTACTAGATGGGTTAGCTGTACAAATTAGTGGGCCTGAAATGTTTTCGCCAATGAGTACGTTGGAGGATCAACAGCTTGGTGGAATTATTATGAAAATTATGCAAGAAATCACTTATGGAGTTATCTTGGCAAGAGTATTCTTTAAATGGTTTACAGATGAAAGTTTAAAGGTTGATCCTATGCCAGCCGATGTACAACATTCTCAATAA MWLELQIFGFRALWSPYFLLFVIGLGMVYFLITGPYRHKFGGDEKPSKLQQGMFLLALVLLYAVKGAPTDLLSHMMLTAHMIQMAVYYLIFPILVIKSIPVWIWKKVIHAPFIEPAFRLLTKPLISLLLFNGLFSLYHIPAVFDFAKSTQIAHTSISLIILVAAFIVWWPILSPIKEMDSMRPVLKIGYIFANGVLITPACVLIIFADVPLFSAYSQNGAWLQALALCVPGDVLDGLAVQISGPEMFSPMSTLEDQQLGGIIMKIMQEITYGVILARVFFKWFTDESLKVDPMPADVQHSQ NA NA NA NA NA AK015_03750 456 hypothetical protein ATGCCAATTTTACCAACAATAAGTACTTTTTTTATTGTTATAAGCGCTATTTTTGTAGCTATTGGCTGGCGTTTTATAGTAAAAGGAGAAGCAGTAAAACATAAAAAAGCTATGATAACAGCTGCAGTTAGTGCTATTATATTCTTCATTATTTACATGTCCAGAACAATATTTATCGGGAATACGAGTTTTGGAGGGCCACAAGATTTAGAAATATATTATACAATTTTCTTGATATTTCACATTACTTTGGCAACTACAGGTGCTGTTTTTGGTATAGTAACCCTAATATTAGCATTTAAGCGCAATATTCGTGTACATAGAAAAATTGGACCAATTACTAGTGTTATTTGGTTTTTTACAGCTATTACAGGAGTGGCAGTATATTTATTATTGTACATTTTATATGATGGTGGGGAAACAACGAGTTTAATTAAAGCTATCTTAGGAACATAA MPILPTISTFFIVISAIFVAIGWRFIVKGEAVKHKKAMITAAVSAIIFFIIYMSRTIFIGNTSFGGPQDLEIYYTIFLIFHITLATTGAVFGIVTLILAFKRNIRVHRKIGPITSVIWFFTAITGVAVYLLLYILYDGGETTSLIKAILGT PGPT0024520_764 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 AK015_03751 1059 Sodium-lithium/proton antiporter TTGTTTCGCAATATAACTAAACGTCATTGGTCACTAATTTTTTTAACTATTTTATTAATCTTATTTTTCATTTTTGTTTTACCAATATCCATTCCTTTGATTGTGGCTTTTGTAACAGCACTTATTTTAAACCCAATAATAAGATTAGTGCAAAAAAAATTAAAGGTCAATCGGAAATTATCCGTAACCATTGTTTTTTTATTGTTTTTAATCATTCTTGGAGTAGTAGGAACGTTTACTATTACACGGGCGGTTACCCAAGTTGTTAATTTTGTAGAAGAAGTGCCACAACATTTTAATGAGTTAAATAGGATTTACCAGGATTGGGAAGGGCAAGTTCAACGTTACACAGATGACCTCCCAAATGAATTTGTAAGACAAGTATCTTCAAGTATTGAAGCAAATTTGAATACTTTAACGACCAACGCAAAAGAAACGATTACTATTGAACGAATTGCGCAACTCGTTTCATCCATTCCGCAGTATTTAATTAGCTTTATCGTATATTTAATTGCTTTGTTTCTTTTCATGCTGGAGTTGCCTATCCTTAAAGCAAAGATGTACCACATGATGACAAAGGAAACAGCAGAAAAAGTATCGTTTATGAATCAACGAGTGACAAACGTGTTTTTAGGTTTCTTTAAAGCGCAGTTCCTAGTTAGCTTAATCATTTTAGCTGTAACTTTAATTGGTCTTTTGTTTATTGCTCCCGAAGTTGCCATTATTATGACATTAATTATTTGGATTGTGGATTTAATCCCTATCATCGGCTCGATAGCTGTCCTCGGGCCATGGGCGCTATTTATGTTTATGGCGGGGGATACAACCCTTGGAATACAATTGTCTATACTAGCTATTATTTTACTGGCCATTCGTAGAATCGTTGAACCGAAAGTAATGGGCCAGCATATAGGACTCTCTCCATTGGCCACGTTAATCTCTATGTTTATCGGCTTAAAATTATTAGGATTACTAGGATTTATACTTGGCCCACTGATCGTAATTACCTTCCATTCGGCTAAAGAAGCTGGAATTATTAAGTGGAATATAAAAATCTAA MFRNITKRHWSLIFLTILLILFFIFVLPISIPLIVAFVTALILNPIIRLVQKKLKVNRKLSVTIVFLLFLIILGVVGTFTITRAVTQVVNFVEEVPQHFNELNRIYQDWEGQVQRYTDDLPNEFVRQVSSSIEANLNTLTTNAKETITIERIAQLVSSIPQYLISFIVYLIALFLFMLELPILKAKMYHMMTKETAEKVSFMNQRVTNVFLGFFKAQFLVSLIILAVTLIGLLFIAPEVAIIMTLIIWIVDLIPIIGSIAVLGPWALFMFMAGDTTLGIQLSILAIILLAIRRIVEPKVMGQHIGLSPLATLISMFIGLKLLGLLGFILGPLIVITFHSAKEAGIIKWNIKI NA NA NA NA NA AK015_03752 366 hypothetical protein ATGAAATTAGAAAATACTGGATTAGAAGAAGAAATCATTGATTTAAAACCGCTTGATCATGTAACAGCAAAACATGCTTTTATCCGGGCAGGGCAATGGGATTATGAGCGGGTTACGTATGATTATCGGATCGACTCTGACGAGAAAGGCATTACATACTATATTCGAATCCAAGGCTATGCGGTAGAAGGCGATGTAGATCGTGGTGATGCAGTCATTCAAATGTTAACGCCGTTATTAGGTAAACATTACTATCCGCATGGGGTTGAATATGGGGAAGAAGAGAATTTCCCAAGTGATATAGTAGAACGAGCTAAAAGTCATATTAGTCAACTAAAAACAGAGATAAACCAACTAAAACAATAA MKLENTGLEEEIIDLKPLDHVTAKHAFIRAGQWDYERVTYDYRIDSDEKGITYYIRIQGYAVEGDVDRGDAVIQMLTPLLGKHYYPHGVEYGEEENFPSDIVERAKSHISQLKTEINQLKQ NA NA NA NA NA AK015_03753 1068 hypothetical protein ATGCGATTTATACGAAACCTCTTACTTTTAGCAGTAGTCGCTGTTGTCGGTTTTTATTTGTTGGAAAGTAGTGAAACATCTCCCAAAGAAACGATGCAAATAATTAGTGATACAGTAAAAGAAAAACAGCAAATGATTAAAACAAAAGACGTACCAGAAGATAGACCCGATATTGCTTTAGAAGGTGATATATTTAAATGGTATGGCAAATCAAGTGAGCAATTAGAAGAAGAATTAGGCGAGCCAGTTAGAAAAGATTTAAGTGCTTATGGTTACACCTGGTGGGTTTATACAAATGATAAGGACCAATATATTCAATTCGGGTTGATAGATGGAACGATTCAGACTATTTATGCGACTGGCAAAGGAACAAATATCAAACCTGTTGCCATTGGAGAAAGTTATGAAAAGGTGCAAAAGCATTTTCAATTTAAAGAAGAAGTAAATTATCGGGACGGACTTGCTTCTTACACATTTAAGCTAAGCGCTGACGATAGAAAAACGAGACCATTAGTAAAAATTTCTGACTCTATTTTCATGCAACTTTATTTTGATACTTTTCAACAACAATTATCTTCTATCCGAATTGTTGACATTGATGCTCTTTTAAAGCATCAACCATATGAATTGCAATATAGAGGTAAAATCCCAGAAAAACCGAGTTTGTCTGATGAGGAATGGGAAAAAGTAGAAGCCGGTATGGAACAACAAGTGCTAGATATTACCAATATTATGCGGCAACAACGGAATAAAGATAAGTTACAGTGGGAAAAATCAGTTGGAGAAGTTGCCTATTTTCACAGCAAAGATATGGCTGTTAATAAATATTTTTCTCATTCCAGTCAAGATGGAAGAGGTTTAAAAGAACGTTTAGAGGAAGGAGAAGTATCCTTTGTCGCAGCAGGTGAAAATATTGCAGCGCAATACCCAGATGCTGCTGCTGCAATGGAAGGTTGGTTGAATAGTAAAGGTCATAGAGAAGCTTTGTTAAGTGATAAATATACACACTTAGGTGTTGGTGTATACCGATTATATTATACGCAAAATTTTTTGGCTAAACCTTTTTAG MRFIRNLLLLAVVAVVGFYLLESSETSPKETMQIISDTVKEKQQMIKTKDVPEDRPDIALEGDIFKWYGKSSEQLEEELGEPVRKDLSAYGYTWWVYTNDKDQYIQFGLIDGTIQTIYATGKGTNIKPVAIGESYEKVQKHFQFKEEVNYRDGLASYTFKLSADDRKTRPLVKISDSIFMQLYFDTFQQQLSSIRIVDIDALLKHQPYELQYRGKIPEKPSLSDEEWEKVEAGMEQQVLDITNIMRQQRNKDKLQWEKSVGEVAYFHSKDMAVNKYFSHSSQDGRGLKERLEEGEVSFVAAGENIAAQYPDAAAAMEGWLNSKGHREALLSDKYTHLGVGVYRLYYTQNFLAKPF NA NA NA NA NA AK015_03754 405 hypothetical protein ATGAGTGATCAAGATTTACACCCTTCTGTAAGTGCATTTAAGCAATTTATTAATAAGCACCCACAATTGATCAAAGAAGTCCGTAAAAGCGGAAAACCGTGGCAAGACATATATGAAAAATGGGTATTACTTGGTGATGATGATCCTTACTGGGATAAATTTAAACAAGCAGATGAAGATAATATTGAAAATAAATCAAAAGATAATCAGTCGAATGAAAATAATAAAGAACTATTTAGTCAACTATTAAAGATGACAGAATCAATGGATTTAGAAAAGGTGCAACGTCAAATGGAGCAATTTAGTTCTTCTATATCTACCATTCAAGAAATAATTTCGCAATTTAAGCAGACAAAGGACACGAAACAACCAACCAACGAACGGATGGGATGGTTTCGTGATTAA MSDQDLHPSVSAFKQFINKHPQLIKEVRKSGKPWQDIYEKWVLLGDDDPYWDKFKQADEDNIENKSKDNQSNENNKELFSQLLKMTESMDLEKVQRQMEQFSSSISTIQEIISQFKQTKDTKQPTNERMGWFRD NA NA NA NA NA AK015_03755 234 hypothetical protein ATGGATCCGTTATGTTATGACTATTTAAAACAGCAACCTGAACTTTTACAATTTGTCCGTATGAATCCAGTTTGGTATCGTTATTTATCCCGCGACCCTTCTCTGTTACCAGAAGTGAAAAAAGAAGCAAAAAGGTTCTATGGGAAAACATTTCCTCAACAAATAGAAAAGGTGAATCAGCATATGCAAATGGTTAGTATGTTAATGCAGTTCGCTGGAGCAATGAAAGACTAA MDPLCYDYLKQQPELLQFVRMNPVWYRYLSRDPSLLPEVKKEAKRFYGKTFPQQIEKVNQHMQMVSMLMQFAGAMKD NA NA NA NA NA AK015_03756 438 hypothetical protein ATGATAGCGACAATGGACTACGTAGCACTCCTAGATCAATCAGAAGAACTAACTAAAATGATCTTAGGTTCTGATGTTATGGAAGCTTATCATCATGCTCAGAAGGAACTACAAGCAGATGCAGAGGCACAGAAGCTCATTCAAGCTTTTTCCTCGATAAAAGAGCATTATGAAGATATACAACGGTTTGGCAGATATCATCCAAATTATAATTCTATTATGAAGGAAGTGCGTAGAGTAAAGCGTGAAATGGATATGAATGACAAAGTCGCTTCCTTTAAAATTGCTGAGCGCAATTTGCAAAAACTATTAGATGATGTCAGTCAATATATAGCATATAGTGTAAGTGAACAAATTAAAGTGCCTAAAGATGGAGCGGCTCTAAGTGATAGCGGCTGTGGTTGCGGTAGTGGTGGTAGCTGTGGTTGCGCTTCTTAA MIATMDYVALLDQSEELTKMILGSDVMEAYHHAQKELQADAEAQKLIQAFSSIKEHYEDIQRFGRYHPNYNSIMKEVRRVKREMDMNDKVASFKIAERNLQKLLDDVSQYIAYSVSEQIKVPKDGAALSDSGCGCGSGGSCGCAS NA NA NA NA NA AK015_03757 276 hypothetical protein TTGCGGGCAGAACGTCAAGGCTTAATCGTCTGGTTCCAGCATATGAAGAACTTAAAGCAAATTAAGCGATATGGACATTTGCTGTATAGTTCTAAAAAAATGAAATATGCGGTTATATATGTAAATCAACAAGAAGTAGAAAAAGTGGAAAAAAAACTACTGAAGCTAGCATTTGTTTCTAAGGTGGACAGGTCATATAAGCCGTTTGTAGAAACAAACTTTGAAAATGCTAAACCAGATAAAGCAAAACAATACGATTATAAAATGGGGATTTAA MRAERQGLIVWFQHMKNLKQIKRYGHLLYSSKKMKYAVIYVNQQEVEKVEKKLLKLAFVSKVDRSYKPFVETNFENAKPDKAKQYDYKMGI NA NA NA NA NA AK015_03759 555 rsmD COG0742 Ribosomal RNA small subunit methyltransferase D ATGCGAATAATTGCTGGAGAGCATAAAGGAAGGCAATTAAAGGCAGTTCCAGGCCGTATGACTCGTCCAACAACCGATAAAGTGAAGGAAGCAGTTTTTCAAATTATGGGTCCCTTTTTTGATGGTGGTAATGCACTAGACTTATTTGCTGGAAGTGGCGGTTTAGGAATAGAAGCATTGAGTAGAGGGATAGATCGAACGATTTTTGTGGATAAATCACCACAAGCGATACATATTATAAATGAAAATCTACAGAAATTGGATCTCGTTAGTCGATCTGAAGTGTTTCGTGCGGATGCATTTCGAGCTTTGCAAGCAGCTGCTAAGCGTCAGTTGTCTTTCCAGTTAGTCCTATTAGATCCTCCTTATGGGAAAGTAAAGCTTGAAGAAATGTTACAAAAAATGTTGGACTTGAACCTGGTAACTACGAATACATGGGTATATTGTGAGCATGATATATCCGAGCAATTACCTGTTGCACATCCTCGTCTTTCCATTGTCAAACAAGCGAGTTATGGAGGTACAATTTGTACGACCATCTACAAAGTTAAATAG MRIIAGEHKGRQLKAVPGRMTRPTTDKVKEAVFQIMGPFFDGGNALDLFAGSGGLGIEALSRGIDRTIFVDKSPQAIHIINENLQKLDLVSRSEVFRADAFRALQAAAKRQLSFQLVLLDPPYGKVKLEEMLQKMLDLNLVTTNTWVYCEHDISEQLPVAHPRLSIVKQASYGGTICTTIYKVK NA NA NA NA NA AK015_03760 480 coaD COG0669 Phosphopantetheine adenylyltransferase TTGACTAGATTGGCGATTTGTCCGGGAAGTTTTGATCCCGTAACCTATGGACATCTAGATATTATTCAGCGTGGCGCTAAAATTTTTGATCATGTTATCGTCACTGTATTTAATAATCAATCAAAAGACCCATTATTTACGGTGGAAGAAAGAATAGAATTGTTGAAAGCTTGTACAAGCGATTTACCCAATGTAACTGTAGATTCATCTAGTAGTTTACTTATGGATTATGCAAAATCCAAAAATGCTCAAGCTGTTATTCGTGGCTTGCGTGCTGTTAGTGATTTTGAATATGAAATGCAAATTACGTCGATGAATAGGCAGCTTTATGCAGACATAGAAACTTTTTTTATGATGACGAATAATCAGTATTCTTTTTTGAGCTCCAGTATTGTTAAAGAAGTTGCCAAATACCGCGCGAATGTTAGTGATATGGTTCCTAATGTTGTTGAGAAAGCTTTAGCTCGTAAATTTAAATAA MTRLAICPGSFDPVTYGHLDIIQRGAKIFDHVIVTVFNNQSKDPLFTVEERIELLKACTSDLPNVTVDSSSSLLMDYAKSKNAQAVIRGLRAVSDFEYEMQITSMNRQLYADIETFFMMTNNQYSFLSSSIVKEVAKYRANVSDMVPNVVEKALARKFK PGPT0008825_3609 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 AK015_03761 1209 ylbJ COG3314 Sporulation integral membrane protein YlbJ TTGGCACAAATATTAAAAACAATCCTTTATTCTATTACCACTATATTTATTGCCATATCTTTAATAAGATTTCCAGATCAATCATTGGAAGCAAGTATTCGTGGATTAAATCTTTGGTGGGAGGTCGTGTTCCCTTCGCTACTCCCCTTTTTCATCATCGCTGAATTGCTAATTAGTTTTGGTGTCGTTCAATTCATAGGTGTTTTATTCGAGCCAGTTATGCGCCCTTTGTTTAACGTACCTGGTACAGGCAGTTTCGGTTGGTTTATGGGCATGGCTAGCGGCTACCCGACAGGAGCCAAAATAGCTACTCGATTAAGGGAAGAACAACAATTAACAAGAATTGAAGCCGAGAGATTAGTAGCTTTTACAAATGCGTCAAGCCCACTATTTATTTTCGCTGCTATTTCTGTAGGTTTTTTTCAAAATGCTTCTTTAGGCGTATTACTTGCAGTATGCCATTATTTGGGTAATACATTTGTCGGAATTTGCATGCGTTTTTATGGAAACAAGAAAGATCGGTCTCATCAAGAAAGGTTAAGTAAAACACCCAACTATTCTATACGTAAAGCTTTTTCAGCTATGCATCGTACGAGATTAGAAGATAAGCGTCCATTGGGAGAAGTTCTAGGTGATGCGGTGGTTCATTCTGTAAAAACGTTAGTAATGGTTGGTGGATTCATCGTATTATTCTCTGTATTAACAAAATTACTCTTTTTAACAGGCATTTCTGCTTTTATCGGTCGGTTTTTAGGAGATTTATTAACTTTCTTTTCCATATCAAGCGATTTTGGTTTACCTATACTTTCTGGACTGTTTGAAATTACCATCGGTGTTCAGAGTATCTCGGTTGTTCAAGATACACTGTTTTTACAAGCAGTTTTAGTCAGTTTTATACTTGGTTTTAACGGTTTTTCTGTCCAAGCCCAAGTAGCGAGCATTCTTGCTAAAACAGATATCCGATTTGCCCCATATTTTTTTGCCCGTATTCTTCACGGTCTATTTGCAAGCATATTAACGATTCTTCTGTATAAACCTTTATATATTGACCGAAAAGTTTTTGATATGCAAGTAGTTCCTGTACATCATAATGTACCTGAGAATACATGGAGTGTAATTTTTGAAAATTTAGTAGCCATTGGGCCGTTAGTAACAATCGTTTTTATTGGATTTTCTCTGCTCCTCTTATATAATCGAAGACAAAACTGA MAQILKTILYSITTIFIAISLIRFPDQSLEASIRGLNLWWEVVFPSLLPFFIIAELLISFGVVQFIGVLFEPVMRPLFNVPGTGSFGWFMGMASGYPTGAKIATRLREEQQLTRIEAERLVAFTNASSPLFIFAAISVGFFQNASLGVLLAVCHYLGNTFVGICMRFYGNKKDRSHQERLSKTPNYSIRKAFSAMHRTRLEDKRPLGEVLGDAVVHSVKTLVMVGGFIVLFSVLTKLLFLTGISAFIGRFLGDLLTFFSISSDFGLPILSGLFEITIGVQSISVVQDTLFLQAVLVSFILGFNGFSVQAQVASILAKTDIRFAPYFFARILHGLFASILTILLYKPLYIDRKVFDMQVVPVHHNVPENTWSVIFENLVAIGPLVTIVFIGFSLLLLYNRRQN NA NA NA NA NA AK015_03762 1011 ylbL COG3480 putative protein YlbL ATGAAAAAAAAGTATATTATACATATATTGTTGGTTGTCGTAGCAGTTTATTTTTTAGCAATATTTCAATTACCGTATTATATTTACAAACCTGGCGGAGCTGATGCCCTCAACCCGATTGTTGAAGTTGAAGATGGTTTTGCTAGTGAAGGAGATATGCATTTAGTAACAGTTAGTGGTGCTAAAGCTACCCCTATGCAGTTTCTTTTGGCGAAAATATTACCTCATCATGATGTGCTACCAATTGATGAAGTATTTCCTGAAGGGATCACAGATGATGAATATATGCATGTACAGTTACAAATGATGGAAAATTCTCAAGAGGCTTCCACGGTAGTAGCCTACCAATCAGCGGATAAGGAGATTTCCATTGATTTTAACGGGGTATATGTTGCAATGGTTGTAGAAAGCATGCCGGCAGAAGGTAAGTTAGAGATGGGCGATCGCATTATAGGGATAGACGATAAAAAGGTGAACCAAGCTGATGATTTGCTCGATTATATTGGAACGAAGCAAGTTGGTGACAGTATAACTGTTAAATTTGTCCGTGAAGAAAAAACGATGACGGAATCAATTACTTTAGAAGCATTAAAAGATTTAGATAATAAACCTGGCATTGGCATTCAGTTAGTAACAGATCGGGCTGTTTCTGTTGATCCAGAAGTGAAGTTCTCTAGTGGCCAGATTGGTGGTCCTAGTGCTGGTTTAATGTTTGCATTGGAAATTTATGATCAATTGACAGAAGAGGACATCACACACGGTTATGAAATTGCAGGTACTGGAGAAATTGATTATGACGGCAATGTGTATCGCATTGGCGGGATTGATAAAAAAGTAGTTGCTGCAGATAGGGAAGGGGTAGATATATTTTTCGCTCCTAACGAACAAGGAAAAGAAGGGTCCAATTATCAAATTGCTTTAGAAAAAGCAAAAGAAATTGAAACGGATATGGAAATTGTTCCAGTAGACACGTTTAAGGACGCGATTACTTATTTAGAAGAATTAAAATAG MKKKYIIHILLVVVAVYFLAIFQLPYYIYKPGGADALNPIVEVEDGFASEGDMHLVTVSGAKATPMQFLLAKILPHHDVLPIDEVFPEGITDDEYMHVQLQMMENSQEASTVVAYQSADKEISIDFNGVYVAMVVESMPAEGKLEMGDRIIGIDDKKVNQADDLLDYIGTKQVGDSITVKFVREEKTMTESITLEALKDLDNKPGIGIQLVTDRAVSVDPEVKFSSGQIGGPSAGLMFALEIYDQLTEEDITHGYEIAGTGEIDYDGNVYRIGGIDKKVVAADREGVDIFFAPNEQGKEGSNYQIALEKAKEIETDMEIVPVDTFKDAITYLEELK NA NA NA NA NA AK015_03763 1203 tmcAL COG1323 tRNA(Met) cytidine acetate ligase ATGAACGCATGCGGATTAATTGTTGAATACAATCCTTTTCATAATGGACATGTTTATCACGTACAACATGCAAAAAAACTAGCTAAAACAGATTGTATCATCGCTGTTATGAGTGGTTCGTTCTTACAGCGTGGAGAGCCAGCAATGATAGATAAATTTCATCGAGCAAAAGCTGCCCTAGGAGAAGGCGTTGATATTGTAATCGAACTTCCTTACACTTTCGCCGTTCAAAGCAGTGAGTTGTTCGCGAAAGGAGCAGTCCTTGCACTCCATGCTCTACAAGTTTCCAGTATTTGTTTTGGCAGTGAATCAGGAGACATTAACCATTTCAAAGAAAGTTACCAAAAGCTAACGAAACATATCGATACATACCAAGCGGCACTTAAACAGAATTTGAATAGAGGGTTAGCTTTTCCTGAAGCAAGTAAAAAAGCGTATGAAATAATTGGGCTTTCTTCTATGAATTTAACTCAACCAAATAATATACTAGGCTTTAGCTATTTGAAAACAATTTATGACTATCATTTACCTATTCAACCACTGACCATTCAAAGAACGCAAAGTGGTTATCATGATAAAACCATTCATGGATCCATTGCAAGTGCTACGAGTATTCGAGAAGCCATACAAAAAGAAGGTTCGATCTCTGCATCTATTCGCAATACCATCCCGCAAACAACGTATGAACAGTTAATTGCTTATAAACGAACAGCTTCTACTTGGCATACATGGGAAGCATATTTCTCTTTGCTTCACTATCGTGTTTCTACGATGAGCGTCCAAGAACTTTCTTTAATCCAAGGTGTAGACGAGGGGCTAGAGTATCGCATTAAAAAAACCGCGAAACATGCCCATACATTTCAAGATTGGATGGAAAAGCTAAAAACAAAAAGGTATACATGGACACGTTTACAACGCATGTGTGTACATATCTTAACCAACACAAAAAAAAGTGACATAGAAGCGTTAAATGATTTAACTGCGATACCGTATGTACGTATTCTCGGCTTTACAAAACAAGGACAAAAATACTTGCATGAGCGAAAAAAGACCTTGATAACGCCTATTATCCATCAAATGAGCCGGAACATGCATCCAATGCTACAAATGGAAGAAAAAGCAAGCAATGCCTATTATAGTATTTTGCCCATAGCGACAAAACAAAATTTGCTCAAGCAAGAGCGCTCCCCTCTATCTAGCTAA MNACGLIVEYNPFHNGHVYHVQHAKKLAKTDCIIAVMSGSFLQRGEPAMIDKFHRAKAALGEGVDIVIELPYTFAVQSSELFAKGAVLALHALQVSSICFGSESGDINHFKESYQKLTKHIDTYQAALKQNLNRGLAFPEASKKAYEIIGLSSMNLTQPNNILGFSYLKTIYDYHLPIQPLTIQRTQSGYHDKTIHGSIASATSIREAIQKEGSISASIRNTIPQTTYEQLIAYKRTASTWHTWEAYFSLLHYRVSTMSVQELSLIQGVDEGLEYRIKKTAKHAHTFQDWMEKLKTKRYTWTRLQRMCVHILTNTKKSDIEALNDLTAIPYVRILGFTKQGQKYLHERKKTLITPIIHQMSRNMHPMLQMEEKASNAYYSILPIATKQNLLKQERSPLSS NA NA NA NA NA AK015_03764 186 hypothetical protein ATGAATCAGTTAACGCAAACCGAATTAGAGAACTTGCGTAAGATTATTGGAGGTCATGGGATGATTGCTAATAAATTGGAAACTTACGCACAATCCGCAACAGATCAAGAGCTGAAATCTATTTTGCTTCAAGATGCACAGGCTGCTAGACAAGCGCAGCAACAGTTATTACCATTTTTACAATAG MNQLTQTELENLRKIIGGHGMIANKLETYAQSATDQELKSILLQDAQAARQAQQQLLPFLQ NA NA NA NA NA AK015_03765 255 hypothetical protein ATGTTACAAGATAAAGACATTGTGAATGATTATCTAAATGGATTAAATTCGAGTTTAAAGAGCTATGCCGATTATATAGCTCAAGCCAATAATGCACAGCTAAGACAAACGTTCATTAATTTGCGTAATGGGGATGAAGCTCGCCAACGATCGCTTTATAGTTATGCCTCGCAAAAAGGGTTTTATAAGCCAGCCATGCCCGCATCGCAACAAGAAGTGCAACAAGTGAAAACGGAATTATCTTCCGGTCAATAA MLQDKDIVNDYLNGLNSSLKSYADYIAQANNAQLRQTFINLRNGDEARQRSLYSYASQKGFYKPAMPASQQEVQQVKTELSSGQ NA NA NA NA NA AK015_03766 858 hypothetical protein TTGATCTATATCGGGTTAACAGGGTGGGGAGATCATTACTCCTTATATTCTGAGCAAAACAAAGCAAAGGATAAATTAGCAGAATATAGTAGCCATTTTCTTATTGTTGAAGTCGATGCATCATTTTACGCGATTCAACCAGTGAAGAATGCAGAGAAATGGGTAAGAGAAACACCTGCTAATTTCCAATTTGTCGTAAAAGCGTACCAAGGGATGACGGGACATAAACGGAAAGAAGAGGATTCGCCTTTTGAGACGAAAAAAGAGATGTTTAACTCATTTATAGCATCGTTACAGCCGTATCAAGAGGCGAATAAGTTAGCAATGGTTTTATTTCAATTTCCACCTTGGTTTGATTGTACGAAACAAAATGTGACCTACTTGCGCTACTGCAAGCAAATGATGGTAGATATTCCCGTTGCTTTAGAATTTAGAAATCAAACTTGGTTCAGCGATCGTTTTCGCCAAAGCACATTGTCATTCATGAAACAAGAAGGCTGGATTCATTCGATTGTAGATGAACCACAGGCAGGAGAAGGTTCTATCCCGACGGTTCCAGTAGTAACCAATGAAGCGCAGACGCTTATCCGTTTTCATGGTAGAAATGCTGTTGGTTGGAATAAACCGACGAGTATTGATACAAATTGGCGTGATGTGCGTTATTTATATAAGTATAATCAAGAAGAGCTTATAGAATGGAAAAAAGTGATACGGAGATTAGAAAAAGAAACGAAGGACATTGTTGTGTTATTTAACAACAACTCAGGTGGTGATGCTGCCGAAAACGCCAAGCAATTTCAAGAACTTTTAGGCATTGAATATGAAGGACTCGCTCCGAAGCAATTGGGATTGTTTTGA MIYIGLTGWGDHYSLYSEQNKAKDKLAEYSSHFLIVEVDASFYAIQPVKNAEKWVRETPANFQFVVKAYQGMTGHKRKEEDSPFETKKEMFNSFIASLQPYQEANKLAMVLFQFPPWFDCTKQNVTYLRYCKQMMVDIPVALEFRNQTWFSDRFRQSTLSFMKQEGWIHSIVDEPQAGEGSIPTVPVVTNEAQTLIRFHGRNAVGWNKPTSIDTNWRDVRYLYKYNQEELIEWKKVIRRLEKETKDIVVLFNNNSGGDAAENAKQFQELLGIEYEGLAPKQLGLF NA NA NA NA NA AK015_03767 105 hypothetical protein ATGACAAATAGGCTACTAGAAGAATTGAACAGTTTAATACAAACTGCCAAAAGAAAAGCTAGAGGGTATCGTACGGCAATCACTTTATTGCAACGATCTATGTAA MTNRLLEELNSLIQTAKRKARGYRTAITLLQRSM NA NA NA NA NA AK015_03768 606 hypothetical protein ATGAAGAAAGTTTTCTCTTTAGTTTCTATAATGGCATTATTATTAACCAGTTTTGCAACCGTAAATGCAAAGGCTACTGAGTCACAGGAACAAAATTACACTGGTCAAGAACTTTTTGAAGGAGTGTTTTTCGGAATTGGCGAAGTAGGTAATGCACTTTCAGATTTTTGGGAACCAGCACTAGATGGTTATACTTATTCTGAAGAAGAGAGCAAAAAAATTCAATACATTGAAAAACAATTAGAAGATTACGACTCTCAATTTTTTATTGAATTTAAAGAAGGAATTGAAAGTGGGGATCAGATTGTAATTGAGGAAACAATTATTGAAACTGAAAAAGCTTTAGCAGATATATTTCATAAAGAAATTGAACAAGCCATTTCCAGACAGCCTATATCAGATGAAGAAGCTCAGTCCTTTTCACTTAAACCCGGATTTGCACTTTCTATAGCGTATTCCTATGCGGGTGTAACGCATATTGCAGGTGCGTTTGTTTTAACTTATGTTGCGGTTGGACATAAATTTATTGGTCCTAGTTCTGTAGAAAAGAAAAACCTTTTAACTAGAGAAATGTATGTAGACAGTATTGCAAAAGATTTGAACTAA MKKVFSLVSIMALLLTSFATVNAKATESQEQNYTGQELFEGVFFGIGEVGNALSDFWEPALDGYTYSEEESKKIQYIEKQLEDYDSQFFIEFKEGIESGDQIVIEETIIETEKALADIFHKEIEQAISRQPISDEEAQSFSLKPGFALSIAYSYAGVTHIAGAFVLTYVAVGHKFIGPSSVEKKNLLTREMYVDSIAKDLN NA NA NA NA NA AK015_03769 930 sdpB Sporulation-delaying protein SdpB ATGTCAAAGAAATTAGTAAATAGTACAGGACATTACATACTTAAAAAAGGAACTCCATTTACAAATGTTTATGGACTAGCAAGAAGCATTTTAGCCTTATCTACATTTTTAACATTATTATTTAATGATATAGATACCCTATTTAAACCAGCAGCAGGAATTCGTGAGTATCCGTATTGTTCTACAGGTATGAATTCAATAAGTATATTTTGTATTGTTCCAAATACATACTTAGAAGCAATCAAAATAGTTACTATTATTCTCTTACTTATAATTATTTCAGGTTGGAGACCTAAAATAACTGGCTTAATTCATTGGTGGATAGCTTTTAGTGTACAAAATTCTACAACCACTTTAGATGGTGGGGACCAAGTAATAGCAGTATTAACATTTCTATTAATTCCAATAACTCTAGCTGATGAGAGGAAATGGCATTGGGAAAGAGATTATTCTATTGAAAAGAACAGAGTCGTAGCCATATCTTCAGGTTGGGCATCTATATTAGTTATTCGAATCCAAGTTGCAATACTATATTTACATTCAAGCATTGCAAAATTAGGAGCAGATGAGTGGATTAATGGGACAGCTGTATATTATTTTTTAAATGATCCAATGTTTGGACTAAATCCATTAGTTAGTACAATAATCCAACCAATTACTAAAAGTTGGTTAATAGTTCTACCAACCTGGGGAACGCTCATTCTACAATTTTTATTGTTTTGTGGTTTGTTCGCAAACACAAAAACTAAAAAAATACTTTTTGTGTTAGCAATAACTATGCATGAGTTGTTTGCTTTAATGCTAGGACTTGTAAGTTTTTCAATAGCTATGATTGCAGCATTAATTATATTCTTATTGCCAAACGTTCATCAAGAATATAAATTCAATTATCAATTTAGTTTTCTATCAAATCGAAAGGAGGTGAAATAG MSKKLVNSTGHYILKKGTPFTNVYGLARSILALSTFLTLLFNDIDTLFKPAAGIREYPYCSTGMNSISIFCIVPNTYLEAIKIVTIILLLIIISGWRPKITGLIHWWIAFSVQNSTTTLDGGDQVIAVLTFLLIPITLADERKWHWERDYSIEKNRVVAISSGWASILVIRIQVAILYLHSSIAKLGADEWINGTAVYYFLNDPMFGLNPLVSTIIQPITKSWLIVLPTWGTLILQFLLFCGLFANTKTKKILFVLAITMHELFALMLGLVSFSIAMIAALIIFLLPNVHQEYKFNYQFSFLSNRKEVK NA NA NA NA NA AK015_03770 555 sdpA Sporulation-delaying protein SdpA ATGAACTCTATGGATATGAATAAATTAGTTAAGTGGTTTTATATATTTTTTTTCATATTATCACTCTTTATTACGCTCTCTATTATTAGTGTATTGCCTCAAAACCCTTTATCTCCAGATAAAAGTAAGAGTGTAGCGATTTCACAAATATTACCTCAAGGTTGGGGATTTTACAGTAAAGATCCAAGAGAAGAGTATTTAAACATCTATTCAGAAGATGGTGAAACCTCTGCACAATGGCCAAACATGAGCCTATCAAATTTATTTGGAGTAAATAGGTTTGGAAGAGCCCAAGGAACAGAATTAGGTTTAATAATAGCCGCTCTTAAAGAAACAGATTTTAAAGAGTGTTACAAAGAAATAGATGACTGTATAGCAGATATGGAGAAAGTAGAACCGATAGTAAAATTAAATTCTACTCCTAAAAAAACATTTTGCGGTATACACTATATTGCTTTTCAAGAACCTATGCCATGGGCATGGAGTTCTTCTAATGAAAGAACTTATAAATCATCTAGAATAGCAAAGGTGCTAATAAAATGTCAAAGAAATTAG MNSMDMNKLVKWFYIFFFILSLFITLSIISVLPQNPLSPDKSKSVAISQILPQGWGFYSKDPREEYLNIYSEDGETSAQWPNMSLSNLFGVNRFGRAQGTELGLIIAALKETDFKECYKEIDDCIADMEKVEPIVKLNSTPKKTFCGIHYIAFQEPMPWAWSSSNERTYKSSRIAKVLIKCQRN NA NA NA NA NA AK015_03771 321 hypothetical protein TTGTCTTTAAATACCGACTTAAAAACCGCAATAATAATTTCTATTTTCATTGGGGTCTACTTTATTATAAGTGGATTATTAATTTGGAGAAAGCAAAAAAGAAATTTAATAGCTGGATACAAAGAAACTGAATTTAGTGGTAACAAAAAAAAACTATCAAAAGACGTAGGGATATTTTCTATAGTGATAGGACTAATTATTTTGATATTACCAATAACTATTAAATATTTATTCGAATGGACTGTATGGGTGTTAGTAAGTTTAATTGTTATACTTACAACATTCATTTTAATAAAGATTAATTTTAAAAATACAGATTAA MSLNTDLKTAIIISIFIGVYFIISGLLIWRKQKRNLIAGYKETEFSGNKKKLSKDVGIFSIVIGLIILILPITIKYLFEWTVWVLVSLIVILTTFILIKINFKNTD NA NA NA NA NA AK015_03772 468 COG3385 IS4 family transposase IS641 ATGGACAAGAATACACTAAAATCATCATTTGGTAAATGGGTTTCACCTATAAATACGAAAAAACTATATGAACAAGTAGAAGAAAATAAACAAGTTTACTACACAAAAAAACTGACAACGGAAGCGTATATAAAGTTGCTGTTGCTTTCTCAATTACAAGGATTTGAGAGCTTAGAAGAGATGAGCGATGCACGAATAGATGATGAACTTCAGAAAGTATTGGGGTTTGAATCGATTAGTCCATCGCAACTTTCAAGGAAGAACAATGAAATGAACCCAGACATCCTTTCCCATTTATTCTTTGATCTTGTATACAAAACCAAGGTCTCCAATTTAAAAATGGGAAATTACATGCCATTAAAAATCATTGATTCTAGCACGCTTCCATTAAACTTAACGAATCATAAGTGGGTGAAATTCCGTAAAACAAAAGCAGGAGTAAGCTACATTTACGACTTGTATTTATGA MDKNTLKSSFGKWVSPINTKKLYEQVEENKQVYYTKKLTTEAYIKLLLLSQLQGFESLEEMSDARIDDELQKVLGFESISPSQLSRKNNEMNPDILSHLFFDLVYKTKVSNLKMGNYMPLKIIDSSTLPLNLTNHKWVKFRKTKAGVSYIYDLYL PGPT0030675_236 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030675-putative_transposase-K07495 NA NA AK015_03773 150 hypothetical protein ATGAATAAGGACACCGTCTATCCTGAAAAAGTTGTGATTACAACAGCCAAAGAACATGACAGAAATCAACTGGAAGTTCTCGTAGATGACAAAAAGCCATGTATGTGTTTGACCGTGGATATGTTGACTATGAACAGTTTGACCGAATGA MNKDTVYPEKVVITTAKEHDRNQLEVLVDDKKPCMCLTVDMLTMNSLTE PGPT0030675_365 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030675-putative_transposase-K07495 NA NA AK015_03774 312 COG3385 IS4 family transposase IS4Bsu1 ATGTATGTGTTTGACCGTGGATATGTTGACTATGAACAGTTTGACCGAATGACGGATGAAGGCTACTTTTTCGTGTCCAGACTAAAGAAAAACGCCGTCATTCGTGAAGTAGAATCATTTTCTGTACCTAAAGATGCTACGGCTTTATTCGACAAGATGGTTTACATCGGTTCGACGCAAAATCGCACAGAGAATGTATTCCGTCTACTTGAAGTAGTGGATACAAAGTGGAACATTTTGCGATTAATTACTAACCGTTTCGATCTAAATTCCGAAGAGATTAGCGAAATTTACCGTCAACGGTGGGCATAG MYVFDRGYVDYEQFDRMTDEGYFFVSRLKKNAVIREVESFSVPKDATALFDKMVYIGSTQNRTENVFRLLEVVDTKWNILRLITNRFDLNSEEISEIYRQRWA PGPT0030675_365 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030675-putative_transposase-K07495 NA NA AK015_03775 123 hypothetical protein ATGAATGTCATGAACGTACAACCACATTTACCACAATTCGAAGATGAAATTCTTGTGGTACAATACGCACTGTTACTACTATTGACTGGGCACGTAGGGAACAGGTTTTTCTTTGTTTTTTAA MNVMNVQPHLPQFEDEILVVQYALLLLLTGHVGNRFFFVF NA NA NA NA NA AK015_03776 357 hypothetical protein ATGAAAAAAACACATATTATATTGTCCATCCTTCCACTTCCGTTCCTACTTCACTTTTATGATTATCAGTGCCATCTAAATGGTACATATCCAATTTTATTATACCCTAGTTTATTTTTATGTATGATTGTTGTTGGAATGCAGCTTAAAAATACAAATGTATTCCCTATATTCCTATTAGGAATCGTAATGACCATTTTTTCTTCTGTGTTAGGTTCCTTTTTTATACCAGATGATGGCGCATGGTTTAAGCCTTTTGGTAGAGATATAGCAATTATAATAACAGCAATTACTTATTTATTTGGGCAGTTTGTCGTTAGGTGGATAAGGAGAGGGAGCCCTTCTGAAAAAAAGTAG MKKTHIILSILPLPFLLHFYDYQCHLNGTYPILLYPSLFLCMIVVGMQLKNTNVFPIFLLGIVMTIFSSVLGSFFIPDDGAWFKPFGRDIAIIITAITYLFGQFVVRWIRRGSPSEKK NA NA NA NA NA AK015_03777 732 hypothetical protein ATGAAAGCTTCGAAATTTATTATAATGATGTATCTTATTTTCTTTGCTATGATGATTGGGATTAATTATTTCGCTGGGAGCAATGTAGGACAAATAGCCAATCAGTATGAAACGCTTATTCAGCCAGCTGGATATGCCTTTGCTATTTGGGGTGTTATCTACTTATTTTTGTTTATTTGGATCATTCGAGGATTCTTTATTCAATGGGACAAAGCTGCCTTATACAAAGAGTTTCAATTTGTTCTTCCCATTAATTTTGTTTTAAATAGTTTGTGGATTTTAACATTCACTCGTGACAACATACTACTATCAACGATTGTTATCCTCTTATTATTAGGTACGCTTATTTGGATGTACCGTGTCGTATGGACAATTTCTTTCAGTGGCTTACTTGACCGCATTCCATTTTCGATTTATTTTGGATGGGTATCCTTAGCTAGTGTAGTTAACCTATTCACTTATGCAAAAAGTGAAGGAATAACTTCATTTTTAGGGTTAAGTGAGTTCATTTGGACGGTCATTGTCATTTTGGTTGTGACAGGAATAGCGGCTCGAATTACCCTTCGTAATCAAGACCTTATCTTACCACTTGTTTATATATGGACATTTATCGCCATTTACGTAAAAGATCAACAACAACTATTACAGTTTACTTTACTTCTATGTTGCCTTGTGCTTGTTGTTTGCTTCGTGTTCATTGCTATTAGGAAGATGAAAAAATTCGTTAAATGA MKASKFIIMMYLIFFAMMIGINYFAGSNVGQIANQYETLIQPAGYAFAIWGVIYLFLFIWIIRGFFIQWDKAALYKEFQFVLPINFVLNSLWILTFTRDNILLSTIVILLLLGTLIWMYRVVWTISFSGLLDRIPFSIYFGWVSLASVVNLFTYAKSEGITSFLGLSEFIWTVIVILVVTGIAARITLRNQDLILPLVYIWTFIAIYVKDQQQLLQFTLLLCCLVLVVCFVFIAIRKMKKFVK PGPT0014330_71 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770 NA NA AK015_03778 1680 malL_2 COG0366 Oligo-1,6-glucosidase ATGACACAAAATAATTGGTGGAAAGAAAGCGTCGTTTATCAAATCTATCCACGTAGCTTTCATGATAGCAACGGTGATGGAATTGGAGATATACAAGGAATTATTCAAAAACTAGACTACTTGAGAAAACTTGGAATCGATGTCATTTGGCTATCCCCTGTGTACGATTCCCCAAATGATGATAATGGTTATGATATTCGTGATTACCAAAAAATCATGGATGAATTCGGAACGATGGAAGACTTTGATACATTGCTTGAAGAAGCACATAAACGCGGACTTAAAATCGTAATGGATCTTGTAGTGAATCACACATCCGATGAACATGCTTGGTTTGTCGAGTCAAGATCAAGTAAAAATCATCCAAAAAGAGATTATTATATTTGGAAAAAAGGAAAAGAAAATGGGCAACCACCGACGAATTGGGAATCCGCATTCAGCGGCTCTGCATGGAAATATGATGAGGCAACGGATGAATATTTTCTGCATATGTTCAGCGAAAAGCAACCTGATTTAAATTGGGAAAACCCAGATGTCCGTAACGACGTGTACCAAATGATGCGCTGGTGGTTAGATAAAGGAATAGATGGTTTTCGTATGGATGTGATCAACTTAATATCGAAAGATCAAACCATGCCTGAACGCGAACCAGATCCAGGTAAAGAACTTGTTTCCGCATTTGAATTTCATATGAATGGACCGCGTATTCATGAATTTTTACAGGAAATGAATCAAAAAGTGCTCGCTGATTATGATATTTTAACAGTTGGAGAAATGCCAGGTGTAACCGTCGAGGATGCGAAGCTTTACACTGGGGAAGAACGTGAAGAATTGAATATGGTATTCCATTTTGAACATATGGGGCTTTGGAATGGACCAGATGGAAAATGGTCCAACATGCCTTGGAAGCTTACCGATCTAAAAGAAATTTTAAGTAAATGGCAGTACGGTCTAGAACATGAAGGCTGGAATAGCTTGTATTGGAATAACCATGACCAACCAAGGGTAGTTTCCCGCTTTGGCAATGATAAAGAATACCGTGAGAAATCAGCTAAAATGCTCGCCACTCTCCTTCATGGCATGAAAGGAACACCTTATATTTACCAGGGAGAGGAAATTGGTATGACAAACGTCCAATTCCCTTCCATTGATGATTATGAAGATATTGAACTTATTAATTGGTATCATGAACGCTTGGCACAAGGGCATCATAAAGAAGACTTAATGCAAGCTATTTATGCTATCGGTCGTGATAACGCTAGAACACCAATGCAATGGAATGACAAGCCACATGCAGGGTTTACAACAGGACAACCTTGGTTAAACGTAAATCCAAATTACACGACAATAAATACAGAAGCAGCCCTTACTGATCCTAACTCTATATTCTATTATTATCAGCAATTAATTGCCTTGCGGAAACAAGAACCGACGATCATCTACGGAAAATTTGATTTATTACTTGAAGATAACGAAGAAATATTTGCTTACACGAGAACACATCAAGAAGACACCCTGCTCGTCGTATGTAACTTTACAGATCAGCAACAGACATGTGAACTATCAAACGTACCAGAAAGCAAAGAAATCTTAATCACGAACGAGCCTACGAAAACGATGCATTCCGTTCGTCAATTTACTCTTCATCCATATGAAGCCTTTATATACAGGCTTGCATAA MTQNNWWKESVVYQIYPRSFHDSNGDGIGDIQGIIQKLDYLRKLGIDVIWLSPVYDSPNDDNGYDIRDYQKIMDEFGTMEDFDTLLEEAHKRGLKIVMDLVVNHTSDEHAWFVESRSSKNHPKRDYYIWKKGKENGQPPTNWESAFSGSAWKYDEATDEYFLHMFSEKQPDLNWENPDVRNDVYQMMRWWLDKGIDGFRMDVINLISKDQTMPEREPDPGKELVSAFEFHMNGPRIHEFLQEMNQKVLADYDILTVGEMPGVTVEDAKLYTGEEREELNMVFHFEHMGLWNGPDGKWSNMPWKLTDLKEILSKWQYGLEHEGWNSLYWNNHDQPRVVSRFGNDKEYREKSAKMLATLLHGMKGTPYIYQGEEIGMTNVQFPSIDDYEDIELINWYHERLAQGHHKEDLMQAIYAIGRDNARTPMQWNDKPHAGFTTGQPWLNVNPNYTTINTEAALTDPNSIFYYYQQLIALRKQEPTIIYGKFDLLLEDNEEIFAYTRTHQEDTLLVVCNFTDQQQTCELSNVPESKEILITNEPTKTMHSVRQFTLHPYEAFIYRLA PGPT0019145_801 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182 NA NA AK015_03779 1026 ccpA_4 COG1609 Catabolite control protein A ATGAAAAAATCAACGATAAAAGATGTTGCTAGAGAAGCCAATGTGTCTATTGCGACAGTATCTCGGATTTTAAATAATACGGGAAAGGGCTACTCTGATAAAACAAAGCAGCATGTAATGCAAACTATTGAACAGATGGGATACTTCCCAAATGCCATTGCCCGTAGCTTGATTAACAATGAAAGCGGAACAATAGGAGTGCTGTTTCCTGCGGTGTCTGGAATGGTCAGTGCAGAAATGCTACATGGAATAGAGGCGGCTGCGCAAGTTTACGGGAAGAGTGTATTTGTCTGTAATACATTGTCTGATCCTGATAAAACAAAGCACTATTTACAATTGCTCTATGAAAAACAGGTGGAGGGCGTTATATTTGCAAGTGAAAGGCTGACGAAAAATTTCCAAAAAAATGTTAAGCAAATGAGTGTTCCTTTTGTCACTTTATCGGGAATATCTGATCTAGAGAACATACCGGAAATAAAAGTCGATGATCTAAAAGCTACCTACGATGCTACGAATTACTTAATTAAGCATGGGCATACAAAACTCGCTATGGTTAGTGGTCCGCCTCATGATTCAATTGCAGGTACGCCTCGGATGGAGGGCTTTAAGCAAGCATTAACCGACGCAAATCTCCCTTGTAAATCATCACAGATTAGTTGGAGTAACGCCTTCTATTTTGAAGATGGCAAACATGCATTTCGTTCCATCATGAAAAACCACCCAGAGATAACTGCAATTGTTGCAGCAAGTGATGAAATGGCGGCTGGTGTTATTTCTGAAGCAAATGCACAAGGAATACGTGTCCCTGAAGATGTATCCGTTATTGGCTATGATAATACCAAGTTAGCTGCGATGACTGTTCCTTCATTAACTACTGTCTCTCAGGAGTTTGACGTGATGGGGTATCGTGCTGGAGAGTTGTTATGCCAGTGTATTATAGGAGAAAAAACAGATTCGATCATCATGAAACACAAAATAATTGAAAGAGAATCGGTGAAAAAGACAAAGGCTCGAGGCGTAGTTTAG MKKSTIKDVAREANVSIATVSRILNNTGKGYSDKTKQHVMQTIEQMGYFPNAIARSLINNESGTIGVLFPAVSGMVSAEMLHGIEAAAQVYGKSVFVCNTLSDPDKTKHYLQLLYEKQVEGVIFASERLTKNFQKNVKQMSVPFVTLSGISDLENIPEIKVDDLKATYDATNYLIKHGHTKLAMVSGPPHDSIAGTPRMEGFKQALTDANLPCKSSQISWSNAFYFEDGKHAFRSIMKNHPEITAIVAASDEMAAGVISEANAQGIRVPEDVSVIGYDNTKLAAMTVPSLTTVSQEFDVMGYRAGELLCQCIIGEKTDSIIMKHKIIERESVKKTKARGVV PGPT0014791_120 DIRECT EFFECT COLONIZING_PLANT_SYSTEM ROOT_COLONIZATION ROOT_COLONIZATION_FACILITATING_PROTEIN SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA NA NA AK015_03780 711 hypothetical protein ATGTCCTCTAAAAAACGTTTGGGTAGTGTTGAAATGACTGGTAACCAATGCAAAAAACAAAAACCTAATAAGTATGATTGCTATAAAGATGATTGTTGCAAACAAGCAACTTGTAATTGTGATTTTAAAAAGCAAGAACTTAAGGCAACTAAGCTAGATAGTGATTGTTTTTTAGTCAATTCTTTGGTAGGTACGAAAACGGTTCAAAAGGTAGCGGAAATATCTCTACCACTCACCTTGTTTGAAGGAGTAAGTACGACAAATATTCTCTCTATTAATGTTGTACCTAATTTAAGTGCAATTATACAAAATGTTACAGTGATCAAAGATAAAGTCGTTAATATTGGAATAGTACCTGCAGATATTAGTATAACAACTATAGGTGGGGATGTAGTCGGTATTGTTGGTGGCGTAGCAAATATTCCATTTCAAGCGCATACCGATTTTCCAGGCGCTTGTCCGGAAGATATGGTAGAGGAATCTCCATTAGAAATCGAAGGAATTTTCAGTCAAGAAGGTATATCATTGGTTGCCACAACTGGAGAAGCACTCATTACTGGCATTTTAGTAAAAATTATATTACGCACAACTATTACAGTTACTCGTCCAGTGATTAAGGATGCTGAAGGTAAGTTTTGTGATGTAAATCCGAATCGTTGTAAAGCAGAAGATGGACCTCCATCATTTACTTTCTTGTCTAATAATGAATAG MSSKKRLGSVEMTGNQCKKQKPNKYDCYKDDCCKQATCNCDFKKQELKATKLDSDCFLVNSLVGTKTVQKVAEISLPLTLFEGVSTTNILSINVVPNLSAIIQNVTVIKDKVVNIGIVPADISITTIGGDVVGIVGGVANIPFQAHTDFPGACPEDMVEESPLEIEGIFSQEGISLVATTGEALITGILVKIILRTTITVTRPVIKDAEGKFCDVNPNRCKAEDGPPSFTFLSNNE NA NA NA NA NA AK015_03781 726 hypothetical protein ATGTCCTCTAAAAAACGTTTCAATAGTGTTGTAATGGTTGGAAACCAATGTAAAAAACACAAACCTAATAATAAAAAGCATGATTGCTATAAAGATAATTTTAAATATGATTGTTGCAAACAAGCAAGTTGTGATTGTAATTTTAAAAAGCCACAATTTAAAGCAACGAAGCTAGACAGCGATTGCTTTCTAATCAATTCTTTGGTAGGTACGAAAATGGTTCAAAAGGTAGCGGAAATATCTCTACCATTTACCCTATTTCCTGGAGTAGGTTTGAGCAATTTGCTCTCTATTAATGTTGTGCCAAATCTAGACGCGGTTACACAAAACGCTACCGTCATCAAAGATAAAGTCGTTAACATCGGATTATTACCTACAAACATTAGTGTAACAGCTGTAGGTGGGGATGTAGTTGATATTGGCGTAGTAGATATTCCATTTCAAGCGCATACCGATTTCCCAGGCGCTTGTCCTGAAGATATGGTACAGGAAACGCCATTAGAAGTTGAAGGGATTTTCAATCAAGAAGGTATATCATTGGTGGATACAACTGGCACTGAGATTGTTGATGGTATTTTAGTTAAAGTTGTGTTGCGCACTACAATTACAGTTACCCGGCAAGTGATTAAGGATGCTGAGGGCAATTTTTGTGATCTAAATCAGAATCGTTGTGAAACAACTGGTAATCTACCATCATTTACTTTCCCACCATCGGGCAATGGGTAA MSSKKRFNSVVMVGNQCKKHKPNNKKHDCYKDNFKYDCCKQASCDCNFKKPQFKATKLDSDCFLINSLVGTKMVQKVAEISLPFTLFPGVGLSNLLSINVVPNLDAVTQNATVIKDKVVNIGLLPTNISVTAVGGDVVDIGVVDIPFQAHTDFPGACPEDMVQETPLEVEGIFNQEGISLVDTTGTEIVDGILVKVVLRTTITVTRQVIKDAEGNFCDLNQNRCETTGNLPSFTFPPSGNG NA NA NA NA NA AK015_03783 1917 thrZ COG0441 Threonine--tRNA ligase 2 TTGAAATCGCATATTCAAGTACAATTAAAAGATGGAAAAGTAAAAGAATGCACACAAGGTATTACTGTGAAGGAGGTTGCTACATCGATTGGTTCCAGTTTAGGTAAAAGAACAGTTGGAGCTAAAGTAAATGGAATGATGGTAGATGTTAGCTATGAATTGATGAACGATGCTACCGTTGAATTTTATACGTTGGAAACAAAAGAAGGTGTTGAGGTATTACGACACACTACAGCACATGTGCTAGCACAAGCGGTGAAAAGATTGTATCCAAACGTAAAGCTCGGCATTGGACCAGCGATCGAGCACGGTTTTTATTATGATTTTAGGTTAGAAGAGACGTGGAACGAAAATAATTTACAACGAATTGAAGCGGAAATGCGCTCGATTATACATGAAAATTTACCAATAGAAAAAGAAATAATAACTTATGAGGAGGCAATGGATCTATTTACAAAGCGAAATGAACCATTAAAGTTGGAGCTTTTAGAAGATATGAAAGAGCTTGAAGCGCTCACCATTTACCGTCAAGGAGAGTTTGTTGATCTTTGCCGTGGTCCTCATCTGCCAAGTACAGGGTATATAAAGGCATTTCAACTATCACATGTTTCTGGAGCATACTGGCGTGGTGATAGTAATCAAATGATGCTTCAGCGAATATATGGTTATGCGTTTCCGAAGCAAATTCAATTGAAAGCACATCTTGACTTTTTAGAGGAGGCTAGGAAACGGGATCATCGTAAATTAGGCAAACAATTACAGTTGTTTATGTTTTCCGATGAAGCGCCTGGGATGCCATTTTATTTACCTAAGGGACAAATCATTCGCAATGAATTAGAAAAATTTTCTCGAGAGGTGCAGTCACAAGCGAATTATGATGAGGTACGGACACCATTAATGATGAACCAGCGTTTGTGGGAACAGTCTGGACACTGGGATCATTATCATGAAAATATGTATTTTACGGAAGTGGATAAGACAAAGTTTGCGATGAAGCCAATGAATTGTCCTGGCCATATGTTAATGTACAAGAATAATCTATATTCTTATCGAGACTTACCAATACGGATTTCCGAATTTGGTCAAGTACATCGTCATGAATACAGTGGAGCTTTAAATGGGATGCTTCGGGTTCGTACTTTCTGTCAAGATGATGCGCATATTTTTGTTAGAAAAGACCAAATAGAAGCGGAAATTGCGCAAGTGTTTCAGTTGATTGATCAGGTTTATCAAACATTTGGTTTCACATATGATGTCGAGCTTTCTACCCGTCCAGAAAAGTCAATGGGAGAGGATCATCTATGGCAGTCTTCTGAACAAGCATTGCAAAATGTATTACAAGAATTAGAGGCTCCTTATCAGTTAAATGAGGGGGATGGCGCATTTTACGGACCTAAAATTGATTTTCATATTAAAGATGCACTTGGTCGCAGTCATCAATGTGCGACAATCCAACTCGATTTTCAAATGCCAGAGAACTTTGATCTATCCTATATTGATGAACGTAACGAAAAAGTACGTCCTGTTGTGATCCATCGTGCTATTTATGGTTCCCTCGATCGCTTTTTTGGCATTTTAGTGGAACATTTTGCGGGGGTGTTTCCAGTCTGGTTAGCGCTAGTTCAAGTGCAAATTATTCCTGTTTCCAAAGTGCATGAAGCCTATTGCAAGTCAGTAGCCATCAAATTGAAGCAACAGGGTATTAGAGTAGAGATAGATAATCGGGATGAAAAATTAGGATATAAAATAAGAGAAGCACAAATGCAAAAGGTGCCATATACGCTTGTGTTAGGCGATGATGAAGTAGAAAAAGGAAGTGTAAACATTCGAAAGTATGGCAGTAAAGCTTCTGAAAGTGAACCGTTAGCTCGCTTTTTAGCTCGGATTAAACAACAGGTGGAGAAGAGATCGTTATAG MKSHIQVQLKDGKVKECTQGITVKEVATSIGSSLGKRTVGAKVNGMMVDVSYELMNDATVEFYTLETKEGVEVLRHTTAHVLAQAVKRLYPNVKLGIGPAIEHGFYYDFRLEETWNENNLQRIEAEMRSIIHENLPIEKEIITYEEAMDLFTKRNEPLKLELLEDMKELEALTIYRQGEFVDLCRGPHLPSTGYIKAFQLSHVSGAYWRGDSNQMMLQRIYGYAFPKQIQLKAHLDFLEEARKRDHRKLGKQLQLFMFSDEAPGMPFYLPKGQIIRNELEKFSREVQSQANYDEVRTPLMMNQRLWEQSGHWDHYHENMYFTEVDKTKFAMKPMNCPGHMLMYKNNLYSYRDLPIRISEFGQVHRHEYSGALNGMLRVRTFCQDDAHIFVRKDQIEAEIAQVFQLIDQVYQTFGFTYDVELSTRPEKSMGEDHLWQSSEQALQNVLQELEAPYQLNEGDGAFYGPKIDFHIKDALGRSHQCATIQLDFQMPENFDLSYIDERNEKVRPVVIHRAIYGSLDRFFGILVEHFAGVFPVWLALVQVQIIPVSKVHEAYCKSVAIKLKQQGIRVEIDNRDEKLGYKIREAQMQKVPYTLVLGDDEVEKGSVNIRKYGSKASESEPLARFLARIKQQVEKRSL NA NA NA NA NA AK015_03784 1551 speE Polyamine aminopropyltransferase GTGAATCAGTTAAGCATAAAACAAAGCAAAGCAATCTATTGGGCATCTGGTATCGTATCCATATGCGGCATTATTTTTGAAGTTTTATTCGGGGCGGCAGGTTCCTATCTTTTAGGTGATGGCGTAAAACAATATACGCTAACCATTTCCTTGTTCTTAACTGGAATGGGTATTGGTGCCTCCCTTAGTGAACGTGTCACCAAAAACTTAGTCCTCTCGTTTGTATGGATTGAATATACCATTGGCATTATCGGTGGGTTCTCCACTTTTATCTTATTTGGCGTTACTGCATTCTTAAGCTCAGGAATGGACGCTTTCTTTCTCTACTTTATTACATTAGTTGTTGGTGCATTAACGGGAGTCGAACTTCCTATTTTAATTCGCAAAGCAAACGACATTGGCGTTACACTACAAAAGAGTACGGCACGTGTCCTTTTCTCTGACTATGCCGGTGGTTTAATCGGAGGCTTATTGTTTGTCTACTTATTTAGACCACAATTTGGACTTGTGAAAACAGCCTTTATTGTAGCGCTCATTAATGTCATCGTTGCTTTATGGATTTTAGTCTATTTTAAAGCAGAAATAAAAACATTTAAGCGTCATTTTATTGCGGGAATATGCATTTTCCTCGTTTTAGTTATGGGCGTATTATTTGGCGAAAAAACAGCTTTCTTATTTGAACAAAAGCTATACAATGATCCTATTATATATAACGAGCAAAGTAGCTACCAGCAAGTTATTTTAACGAAAGAACAAGGAGATTTACGATTATTTCTTGATGGACAATTGCAATTCAGCTCAGAAGACGAATATCGTTACCATGAAGTACTTGTGCATCCAACGATGGCAACAGCTTCATCGAATGACAATGTCCTCGTTTTAGGCGGAGGAGATGGACTTGCTTTACGCGAGATTCAAAAATACGACGCTGTCAAATCGATGACACTTGTCGACCTCGATCCTAGTGTAACAAAGCTTGGCAAAGAGAACCATGAAATAACCGAACTGAACGATAACGCGTTTGCCGACGATCGTGTGCAAACCGTTAACGCTGATGCTTTTAGATACTTGCAAGAGCATAAGGATTTGTACGATGTCATTCTTGTCGATATGCCTGATCCAAACAATGAATCGCTCAATAAGTTGTACACCCTTGAATTTTATCAGCTGCTTCGCAATCATTTACGGCCAGGTGGAGCGATTATGGTGCAAGCGACTAGCCCAACCTTTGCAACGGAAGTGTATTGGTCGATTGACAAAACGATCCAAGCAGCTGATCTGTACACAGACAATCTCCATGTCGACGTTCCTAGCTTCGGTGATTGGGGGTTTGTCCTAGCAAAAAGAGAAAAATTCACAATTGATGAAGTAGAAATTCCTGTCGATACGAATTTTCTAACTTCTGATGTTCTCGCTAGTTTAACTACATTTGGGAAAGATATTGATGCACAGATCGTTGATGAAAAAGGAAATAACATTTCGTTAGACGTTAATACATTAATCCGCCCTACCCTCATCGAAAAATATGAAAAAGCATGGCAAAATTATTAA MNQLSIKQSKAIYWASGIVSICGIIFEVLFGAAGSYLLGDGVKQYTLTISLFLTGMGIGASLSERVTKNLVLSFVWIEYTIGIIGGFSTFILFGVTAFLSSGMDAFFLYFITLVVGALTGVELPILIRKANDIGVTLQKSTARVLFSDYAGGLIGGLLFVYLFRPQFGLVKTAFIVALINVIVALWILVYFKAEIKTFKRHFIAGICIFLVLVMGVLFGEKTAFLFEQKLYNDPIIYNEQSSYQQVILTKEQGDLRLFLDGQLQFSSEDEYRYHEVLVHPTMATASSNDNVLVLGGGDGLALREIQKYDAVKSMTLVDLDPSVTKLGKENHEITELNDNAFADDRVQTVNADAFRYLQEHKDLYDVILVDMPDPNNESLNKLYTLEFYQLLRNHLRPGGAIMVQATSPTFATEVYWSIDKTIQAADLYTDNLHVDVPSFGDWGFVLAKREKFTIDEVEIPVDTNFLTSDVLASLTTFGKDIDAQIVDEKGNNISLDVNTLIRPTLIEKYEKAWQNY PGPT0007750_634 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 AK015_03785 396 hypothetical protein ATGGAGCCATTTGTATCTACGTTAATATACTTTTTCGTTTCCATTGCCATTGTTCTTGTTGGCTTAGTTATTTTTGAATTACTTACACAAAAATATAAAGACTGGGATGAGGTTCTAAAAGGAAATCATGCCGTTGCTTTATCCATCGGTGGTAAGATTGTCGGGATTTGTATTGTGCTAGCATTCTCCATTTATAACAGCGCCGATGTTGTTGAAACATTGATTTGGGGCGCTGTCGGGATCGTCTTGCAAATGATTGCGTACTTATTATTTCAATTATTTACACGTACATTCTCTGTGGAAGAACAGCTACAAAAGGGAAATATTGCGGTAGGAATTATTAGCATGTCTGTTTCCATCGGTCTTGGATTTGTAATTGGCGCATCGATTACATAA MEPFVSTLIYFFVSIAIVLVGLVIFELLTQKYKDWDEVLKGNHAVALSIGGKIVGICIVLAFSIYNSADVVETLIWGAVGIVLQMIAYLLFQLFTRTFSVEEQLQKGNIAVGIISMSVSIGLGFVIGASIT NA NA NA NA NA AK015_03786 600 hypothetical protein ATGAAACGATCACTTTTCTTTATCTTGCTATCTTCACTGCTCTTCTTAGCTGCATGTGGCAGCCAAGCTAGTACTTCCGAGGGAACGTTATTTGAGCATGATATTGCAGCATTTATTGATGAAAATTATACCTTTCAAGATGTCATAGCAAGCCAAGAGGACTCCTCTGACATATCGGAAATATACATAGCTGAAAACCAAGACATAGATCATGTCGTTGACGAACTACGGGAGCATGAAGAACCTGAAAAGGTAAGTGAAAGAAGCGATAACAAACAAGCACTTATATACAATAACTTGTTTGTCATCGTCACAGAAGACGAAGAAGATCCAGATAATTCTACTGTTGAAATTGCAGAACAGCAATTTGTACGGGATAATTACAATCCAAGCTTTTTTAATGGGCTTTTTGCCCTTTGGTTATTGGATGAAGTTTTAGACGTTGATGATTGGGGAAAGAAACGCCAAAGCAAATGTAAAAATTCCGGAGACTGTTATGGTGGCTACCATTCCTCTGGCGGTTCCTACAAAAAATCAAGTGACTCTAAATCCATTCGCTCTTCATCGGTTCGTGGCGGAGGTCCAGGTGCTGGTAAGTAA MKRSLFFILLSSLLFLAACGSQASTSEGTLFEHDIAAFIDENYTFQDVIASQEDSSDISEIYIAENQDIDHVVDELREHEEPEKVSERSDNKQALIYNNLFVIVTEDEEDPDNSTVEIAEQQFVRDNYNPSFFNGLFALWLLDEVLDVDDWGKKRQSKCKNSGDCYGGYHSSGGSYKKSSDSKSIRSSSVRGGGPGAGK NA NA NA NA NA AK015_03787 669 liaH_2 COG1842 Protein LiaH ATGTTTAAATTTTTTAAACGTATGAAAACTGTTGTAGAGTCTGAATTGAATGCAGCTTTGGATAAAGCCGAAGATCCTGTTAAGATGCTGGATCAATTTATGCGCGATATGGAAGAAGATATTCGCGAGGCTGAATCAGCCGTTGCGAAACAAATTGCGAATGAAAAAATGATGCAGCGAAAATATGAAGATGCGAAGAAAATGGTAGAAAAACGTGAAGACCAAGCGATGAAAGCTGTTGAAGCAGGGAATGACGACCTTGCTAAACGCGCGCTAGAAGATAAAAAACTGCATCAACAAACAGCTGATTCCTTAAAAGAATCATACGAACGTGCGAAACAAGATTCTACTACATTACGTCAGAAGCTAGATGAAATGAAAGCTGAATATCAAGAAATGAAATTGAAAAAAGATTCCTTGAAAGCACGTGCTGAATCGGCAAAAACAAGAACAAAAATGAATCGTACGTTATCAGGTATTGGTAGTGACGAATCCAAACAAGGCTTTGAGCGTATGGAAGAGAAAGTTCTAAAATTCGAAGCGGAAGCAGAAACAAGCGAAGATATGCAAAGCTCCAGTCGTAGCCTTGACGACGAGTTTGAAGAGTTAGAGAAAAGCGACGTTGATGATGAACTAGCTGCCCTTAAGAAAAAGCTTAACAAAGAATAA MFKFFKRMKTVVESELNAALDKAEDPVKMLDQFMRDMEEDIREAESAVAKQIANEKMMQRKYEDAKKMVEKREDQAMKAVEAGNDDLAKRALEDKKLHQQTADSLKESYERAKQDSTTLRQKLDEMKAEYQEMKLKKDSLKARAESAKTRTKMNRTLSGIGSDESKQGFERMEEKVLKFEAEAETSEDMQSSSRSLDDEFEELEKSDVDDELAALKKKLNKE PGPT0014646_1662 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 AK015_03788 510 hypothetical protein ATGAGTATATTTGGGCGTTTATTCGGTAATAAAAAAGAAACAGATAAACCTGTTGAGCAAAGAAATATGTTTAATTTGCAAATAAATGATATTGTTACATTTGACTTAGAAGACTATACAGTTGTAGGGAAAATCAGCTACGATGACCATGGTTTCAAGTGGTTTGCCTATCAATTACAAGGTACGGATAAAACATTGTGGTTAAGTGTAGAAATGGATGACGAATTGAATCTTGGTATATACGAAAAAATTAAACTCCCCGTTCAAGAACCAATCCCTAAAGAAATCCCCTACGAAGGGACTACGTTTTACTTGGATGAATCAGGAAAAGCTCGCGTAGTAGGAATTGGTCGTAGTGAGAACTTAACTGGATTAACTTGTGAATATTACGATTTCTATGATGACTCCGACGAAAAGTCACTTTCTTTAGAAAAATGGGGCAATGAAATTGAGGCAAGCATTGGGTATGAAATTGAAGAGTATGAGTTAAAAATTATTGCTAGTAGTTAA MSIFGRLFGNKKETDKPVEQRNMFNLQINDIVTFDLEDYTVVGKISYDDHGFKWFAYQLQGTDKTLWLSVEMDDELNLGIYEKIKLPVQEPIPKEIPYEGTTFYLDESGKARVVGIGRSENLTGLTCEYYDFYDDSDEKSLSLEKWGNEIEASIGYEIEEYELKIIASS NA NA NA NA NA AK015_03789 645 hypothetical protein TTGAAACCCAAACAACGCCTTATTCAAAAGCCAGACTTACCAGAAGAACTATTAATAAGGAGCTTGAACGAACTTACTGACAATAGCTTTATTGAAATGGCTAAATATGATCATACTTCTAGCTCATTTACTGCATCACATGTGGGATTTGAGGATGTTTTTTTTACAAATGTAAACATGTCACAATCGAAATTCCCTTTTTCATCTTGGACGAATGTCCTTTTTGATACATGTGATTTGTCGCAAATAGATTTTCAAGGGGCTCGTTTTCGTCGTGTTGAATTTCGCAATTGCAAATTAGCTGGTGGGAATTTTAGTCAAACAGATATGCAAGATGTACGATTTACTGCATGTGAAGCACCTTATACGTTGTTTGAAAATGCTATTTTACGTGATGGTGAACTAATAGAGTGCCTTTTAAAAGGCAGTCAGTTTATCAATACGAACCTTGAGTATGTACAGTTAGACGATGTCGTGTTGGACGATGTGTCGTTTGCTTTTACTTCTTTAAAAGGAATGGATCTTCGTAGTTGCTCCTTTACAAACATTCATTTATCGGAAAAGGAATTACGTGGGGCGATCATATCCCCAGAGCAAGCCATCTCTTTTATTCATTTATTCGGCGTGACGGTCAAGCAAACATAA MKPKQRLIQKPDLPEELLIRSLNELTDNSFIEMAKYDHTSSSFTASHVGFEDVFFTNVNMSQSKFPFSSWTNVLFDTCDLSQIDFQGARFRRVEFRNCKLAGGNFSQTDMQDVRFTACEAPYTLFENAILRDGELIECLLKGSQFINTNLEYVQLDDVVLDDVSFAFTSLKGMDLRSCSFTNIHLSEKELRGAIISPEQAISFIHLFGVTVKQT NA NA NA NA NA AK015_03790 312 hypothetical protein ATGTTACCTGTTTTTGGACAAGTTGTAGATGAAGAAACGCGATGTGTGCATTATCATTCAAACAAAGATGTTATTGCGATCAAATTTAAGTGTTGTCAGAAATATTATCCTTGCTATAAATGCCATCTAGAAGCGGAAAATCATGAAATAAAAGTATGGCCCAAACATCAATTTGATCACAATGCTATCTTATGCGGCGTTTGCAAAACAGAATTTACCATAGAGCAATATTTACAGATGAATCAATGCAAAAATTGTGGCTCGTTATTTAATGAAGGTTGCAGCTTACATCATCATTTGTATTTTGCTTAG MLPVFGQVVDEETRCVHYHSNKDVIAIKFKCCQKYYPCYKCHLEAENHEIKVWPKHQFDHNAILCGVCKTEFTIEQYLQMNQCKNCGSLFNEGCSLHHHLYFA NA NA NA NA NA AK015_03791 786 ykoC Putative HMP/thiamine permease protein YkoC ATGTCTGCATTACTAAATAATTTAAACCCTAGTATAAAAGCAATTGCCGTGGTAATCGTTGTTTGTCTTTTAACCTTTGTATTTGATCCATTCACGCCACTTATTTATGGTATCGTAGTTATTCTGTTCACCTTTTTGTTTGGAAAAGTGAATTGGAAGCTATATATCGGTTATTATCTTATCATTTGCCTTTTATCCATTGGGATGCTTTGGACATCGATCGCCTTTGCAGATGAGCCAACGAACCCTGAGGTGACGACACAGTTTCTCTTTTGGGAATTGCCAAAAGAAAATGTCACCGTCGCCTTCTCTTTAACTTTACGTATGCTAACATTTGCCGCCTTATCATTTATGTTCATTTTCACTACAAATATGGTTCATTTTATTCTTAGCTTAATGCAACAATGTAAATTACCACCTAAACTTGCTTACGGCATACTAGCAGGATACCGATTCCTTCCTTTAATGCGCGAAGAATTGCAGCAAATACGCGCAGCTCATCAAGTACGGGGTGTCCATCGGGCATCGGGGATAAAGGAGTCCATACAGCAATACAAACGGTACGCAATACCATTACTTGCCGGAGCCATTCGCAAAGCAGAACGAACCGCTGTAGCAATGGAATCAAAAGGCTTCAGCGGGGAAAAGGAGCGTATTTTTTACCGCCAGTTCCGCGTTACTTTTATCGATTGGCTATTTTTAAGTAGTATGATCATACTACTCATCATCATTGTAATAGTTTCAATTAAATTAGGGTATTTCAGCTGGTACAAAGGACAATTTTGA MSALLNNLNPSIKAIAVVIVVCLLTFVFDPFTPLIYGIVVILFTFLFGKVNWKLYIGYYLIICLLSIGMLWTSIAFADEPTNPEVTTQFLFWELPKENVTVAFSLTLRMLTFAALSFMFIFTTNMVHFILSLMQQCKLPPKLAYGILAGYRFLPLMREELQQIRAAHQVRGVHRASGIKESIQQYKRYAIPLLAGAIRKAERTAVAMESKGFSGEKERIFYRQFRVTFIDWLFLSSMIILLIIIVIVSIKLGYFSWYKGQF PGPT0004015_2585 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 AK015_03792 1653 ykoD_2 COG1122 Putative HMP/thiamine import ATP-binding protein YkoD ATGATTCAAGTACGCGAACTCACGCTTTGGTTTAACGAGCATGAACACCCTACTATCAACAAGCTATCCTTTGATTTGCGTTCTGGCGAAACGATGCTTCTACTCGGACCAAGCGGCAGTGGGAAAAGCACACTAACTTGCTGCTTAAACGGGATTTACCCCCGCGAACTTGATGGGGAAATGGCAGGAGATATCCATATCTTTGGAACATCCATTCAAGATACGAAACCTGGAGAAATGAGTAAACAAGTCGGTGTCGTCTTCCAAGATCCTGAAAGTCAATTTTGTATGTTGACGGTAGAAGATGAGATCGCTTTTGGATTGGAGAACATCGACACACCGAGAGAAAAAATTTCCACAAAGATAGACGAAGTATTACAGATGGTAGGTTTAACCGCTTATAGAGAAGTATACATTCATTCTCTATCTGGAGGACAAAAGCAAAAGCTCGCGCTAGCATGCATCCTAGCACTTGAACCAGACTTTGTAATTTTAGACGAGCCAACTGCTAATTTAGATCCCCTAGCAAAGCAAGCATTCATTCAAACGATGAAACATATTCAGGAAGATAAAAAAATTGGGCTCATTGTTATTGAGCATCAATTGGACGGGTGGGTCTCTTTCATAGAGAGAACCTTTATTTTATCCAAAGCAGGACATGGTGTATTTGATGGTTCTTTAACAGAAGCGATTACAAAACATGCGGACCTTTTTCAATTAGAAGGCATTGCACTTCCGTCCATTACGGAACTCGCATTACAAGCTTGTGACAATAATCAAGCAGCTTTTTCAAAAATTCCTTTTACTTACGAAGATTTTACAACGCATATGTCCTATTTGGATCAAACGTTTTTAGAAACAACTGCCAAAAAAAGCTGCGCATTGGAACCTATACTAGAAGCTCACAACGTAAAGCTTTCGAAAAAGAAACAAAAAATTCTACGTGATATTACTTTCTCTTGGAAAGGTCCATCCTTTATTGCGGTTACAGGGGCAAATGGAAGCGGGAAAACATCACTCACTCGTTTGTTAGCAGGGATAGAGTTCCCTTCAGCAGGAAATATATATGTAAACAATCGGTCCATTGATCAATGGAAGCAAAAAGAATTACGGCAACAAATTGGCTACGTATTTCAGAATCCCGAACACCAATTTATCACAGACCGTGTTTTTGATGAAATTGCATATACGTTACGTTTAAGAGCATATCCTGAAGCAACAGTTCAAGAAAAAGTGCATCAAACATTAGCAAGTTGTCAGCTACAAGGGATGGAAAATAGACATCCCTATACACTAAGCCAAGGGCAAAAACGTCGTCTAAGTGTTGCTACCATGATCGTAGATGAGCAAAACATTTTATTTTTAGATGAGCCAACATTTGGACAAGATGCTGCATCTACTCGTGAACTGATGCATTTATTAGCAGCCCGCTATAAAAATGGGACGACCATTATCATGGTTACGCATGATATGGACCTTGTCGACAAATATGCCAATCGGGTTGTCGTATTAAAAAACGGGGAAATCGTAGCAGATGAAACGCCTACGCAACTGTGGGAGCGGCCACAGTTAAGTACATGGAATTTAGATTACCCTACACGAATCAAATTAAAACGGCATATGGAGGGTTCTCATGTCTGCATTACTAAATAA MIQVRELTLWFNEHEHPTINKLSFDLRSGETMLLLGPSGSGKSTLTCCLNGIYPRELDGEMAGDIHIFGTSIQDTKPGEMSKQVGVVFQDPESQFCMLTVEDEIAFGLENIDTPREKISTKIDEVLQMVGLTAYREVYIHSLSGGQKQKLALACILALEPDFVILDEPTANLDPLAKQAFIQTMKHIQEDKKIGLIVIEHQLDGWVSFIERTFILSKAGHGVFDGSLTEAITKHADLFQLEGIALPSITELALQACDNNQAAFSKIPFTYEDFTTHMSYLDQTFLETTAKKSCALEPILEAHNVKLSKKKQKILRDITFSWKGPSFIAVTGANGSGKTSLTRLLAGIEFPSAGNIYVNNRSIDQWKQKELRQQIGYVFQNPEHQFITDRVFDEIAYTLRLRAYPEATVQEKVHQTLASCQLQGMENRHPYTLSQGQKRRLSVATMIVDEQNILFLDEPTFGQDAASTRELMHLLAARYKNGTTIIMVTHDMDLVDKYANRVVVLKNGEIVADETPTQLWERPQLSTWNLDYPTRIKLKRHMEGSHVCITK NA NA NA NA NA AK015_03793 582 ykoE COG4721 Putative HMP/thiamine permease protein YkoE ATGACTAACTGGCGTTTAAAAGAAATTATTGTTATGGCTGTTTTATCGGTCGTATTTGGGATTGTCTATTTAGCTTTCCTCCCAGTAGGAAAGCTACTTGTATCATTTATGGGCCCCATTGGTTATGACTTTATTTTTGGGATTTGGTTTATCGTATCCATTATTGCGGCCTATATATTACGTAAACCAGGAGCGGCTTTTCTATCCGAAACAATTGCCGCTACGGTTGAAATGCTCTTAGGCAATGCGATGGGGCCAATAATTATTATTACTGGAATGATCCAAGGGCTTGGGGCAGAGACTGCTTTTGCTGCGACAAGATATAAACGCTATTCCTTATGGGTATTAATGCTTGCAGGAGTTGGAGCAGCGATTTTTAGTTTTGTTTGGGGCTATTTTCGTGGCGGATATGCTGCTTTAAGCACACCTTATGTAATTAGCATGCTCATCGTTAGAATGTTCAGTGGCGCAATTATTTCTGGTATGCTTGGAAAAGCAATTAGCGACGCACTAGCTAAGACAGGTGTATTATCTAGTTTTGCCCTTGGAAAGCAAATAAATAAAGCGAGGTCTGTATCATGA MTNWRLKEIIVMAVLSVVFGIVYLAFLPVGKLLVSFMGPIGYDFIFGIWFIVSIIAAYILRKPGAAFLSETIAATVEMLLGNAMGPIIIITGMIQGLGAETAFAATRYKRYSLWVLMLAGVGAAIFSFVWGYFRGGYAALSTPYVISMLIVRMFSGAIISGMLGKAISDALAKTGVLSSFALGKQINKARSVS NA NA NA NA NA AK015_03794 618 ykoF Putative HMP/thiamine-binding protein YkoF TTGAATAATCCATTTCATACTTGCCACAACAGTAGAATAGCTGGCTGTGATTTTGCCATTTATCCGATGACAGATCATTTTGTGGATGTTATTACAACAGCATTAAAAGAAGTAGACACATCTAAAGTTTGGGTGAAAACAACGGACATAGGCACATGTGTGAGAGGGAAAATCACCCATGTATTTGATGTCACAAAGGCTTTATTTCTTCATGCCACACAAACAGGTTACCATGTCGTATTTAGTGGTACCTATTCTATCGGTTGTCCGGGAGATTCTGATGGGGATGTATTTTTAGCTGAAGATGATCGACGATTAAACGAAGCAGAGAGCAATAAGATCAAACAAGAGGTAGCCGGAAAGTTTTCTCTCTATCCATTAGGTGGCGGCGACTATATGAATCTCATTTACGACCAAATTGAAGCCATGAAAAAGCAAAACATCCGCGTATCCTCCATTCATTACGCCACACGATTAGATGGAGATGGTAAGGATGTATTTAATGGCTTGGAACAAGTCTTTGTCAACATGGAACATAGTGGATCTTCTCACACCGTTATGACGACGACAATATCAGCTAACAGTCCTTCTAAAAAGGATGTGAACAGCGATGACTAA MNNPFHTCHNSRIAGCDFAIYPMTDHFVDVITTALKEVDTSKVWVKTTDIGTCVRGKITHVFDVTKALFLHATQTGYHVVFSGTYSIGCPGDSDGDVFLAEDDRRLNEAESNKIKQEVAGKFSLYPLGGGDYMNLIYDQIEAMKKQNIRVSSIHYATRLDGDGKDVFNGLEQVFVNMEHSGSSHTVMTTTISANSPSKKDVNSDD NA NA NA NA NA AK015_03796 1188 lhgD COG0579 L-2-hydroxyglutarate dehydrogenase ATGTATGATTACATTATTATTGGTGGAGGTATTGTAGGTTTAGCAACTGCATGGCAGCTGAAAACAAAGCATCCTCATTCATCCATTGCCGTATTGGAGAAAGAAGAAGCATGGGCAGCTCATCAAACAGGGAGAAACAGTGGGGTCATTCATAGTGGTATTTATTATAAACCTGGTAGCTTAAAGGCCCAATTAGCGGTGAGGGGTAGAAATTCTATGATTGCATTTTGTCAAAAATATGAGGTGGAGCATGAAGTTTGTGGCAAAATCATTGTAGCTACAAGAAAGCGAGAACTACCGTTTATGGATCAACTGTATCACCGAGGTTGTAAAAATGGTTTACAAATAACAAAATTACAAAGAGAGGAAGTTATTGATCATGAGCCATATGTTCAAGCAGAAGGAGGATTGTATATACCGACAACAGGTATTGTGGATTATCAACAGGTGGCTTATAAATTAGTAGAGTTACTCGCAAACCAAGGAGTTGAGTTGTTTTTAAATACACAAGCACATCAAATGAATGAGAAAGGATTTGAAGTAACGATAGATACGAATCATCAATCTTTGATCGCTAGAAAGGTTATCAATTGTGCGGGATTGCATAGCGACCAATTGGTTAAACAGTCGGGTATTTTAGCGGATGTAAAGATTATCCCTTTTCGTGGGGAGTATTTTACATTAAAAGCAACGAAACATTATGTAGTAAAAAATTTGGTCTATCCAGTACCAGACCCAAAGTATCCATTTTTAGGCGTACATTTGACGAGAGGAATTCATGGTGAAGTGCATGCAGGTCCTAATGCAGTATGGAGTCTTAAAAAAGAAGGATACAATAAGTGGGACATAGATATGAAAGAAGCACTAGCTACTTTGTTATTTCCAGGATTTTGGCGATTAGCAAAGGCAAATATAAAGGTGGGCGCAATGGAAATGTCGCGTTCTTTGTATAAAGCATTATTTGTAAAAAGTTTGCAGCGTTTTATTCCAGAAATCCAAACAGAAGATGTGATAAAAGCTCCATCTGGTGTACGCGCACAAGCTATGCTTCGAGATGGAACACTACTTGATGACTTTTTTATTATACCCGGAAAAAATGTGCTCCACGTTTGCAATGCACCTTCGCCCGCTGCAACAGCTTCGCTAGAGATTGGTAGGATGATAGCTGAACGGGCATCATTATCATAA MYDYIIIGGGIVGLATAWQLKTKHPHSSIAVLEKEEAWAAHQTGRNSGVIHSGIYYKPGSLKAQLAVRGRNSMIAFCQKYEVEHEVCGKIIVATRKRELPFMDQLYHRGCKNGLQITKLQREEVIDHEPYVQAEGGLYIPTTGIVDYQQVAYKLVELLANQGVELFLNTQAHQMNEKGFEVTIDTNHQSLIARKVINCAGLHSDQLVKQSGILADVKIIPFRGEYFTLKATKHYVVKNLVYPVPDPKYPFLGVHLTRGIHGEVHAGPNAVWSLKKEGYNKWDIDMKEALATLLFPGFWRLAKANIKVGAMEMSRSLYKALFVKSLQRFIPEIQTEDVIKAPSGVRAQAMLRDGTLLDDFFIIPGKNVLHVCNAPSPAATASLEIGRMIAERASLS PGPT0013225_842 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_UTILIZATION PLANT_DERIVED_GLUTARATE_UTILIZATION,PGPT0013225-lhgO|ygaF-K15736 NA NA AK015_03797 714 dcuR_3 COG4565 Transcriptional regulatory protein DcuR ATGTGTAAAAATACAGAGGTAAAAGTTGTTATCATTGAAGATGATCCCATGGTGCAGGAAGTAAACAAAAAGATGGTAGAAAAAGTAAACGATTTCATCGTTGTCGCTACTGCAAGAGATGGAAAAACAGGTGTCGAGCATTGTCAAATCTATCAGCCCAATCTCGTATTACTCGATATTTATATGCCTGAACAAGATGGAATTCAAACGATAAAGGCGCTTCGACATCACAATATAAATGTGGAAGTAATTGTCATCTCTGCTGCAGAAGATAGGGAAATGGTTCGCAATATGATGCAGCATGGGGCGTTTGATTATCTTATAAAGCCATTTAAGTATAGTCGTTTAGTAGAGGCATTAAACAAGTATCGAGATTATCATTTTCATTTCTATGGCAACGATAGAGTTGACCAAGAAATGATTGACTTGTGGATCAATAAGCGGTCAGAAGCAAACCATAAAGCGAATGCGCTTCCAAAAGGATTGAATAAGCAAACATTACAGCAAATTACCAACTTATTAGAACGCAAAAATAGTTCTATTTCAGCTGATGAAGCAGCTTCCTGTATAGGAATTTCCCGAGTTACCGCAAGAAGGTATTTAGATTATTTAGAAAAAGGGGGTGCAGTTGAAATTGTCTTACAGTATGGAACTGTAGGCAGACCTGTAAATCGTTATCAGATCATGCGTAAAGTGAATAAAAACAGCTCTTAA MCKNTEVKVVIIEDDPMVQEVNKKMVEKVNDFIVVATARDGKTGVEHCQIYQPNLVLLDIYMPEQDGIQTIKALRHHNINVEVIVISAAEDREMVRNMMQHGAFDYLIKPFKYSRLVEALNKYRDYHFHFYGNDRVDQEMIDLWINKRSEANHKANALPKGLNKQTLQQITNLLERKNSSISADEAASCIGISRVTARRYLDYLEKGGAVEIVLQYGTVGRPVNRYQIMRKVNKNSS NA NA NA NA NA AK015_03798 996 hypothetical protein ATGCAGAAATATATATTCCTTATTATGGTCATTATAGGGCTGTTTTATTTAGCAGCTTGTAGTGGAGGTGATAAAGCAAATAATCATTCAGCGGCTAGCAATGGAGAGGCACAAGCAATTGTTTTTGGAACAGGTGGCACATCCGGAACCTATTATCCGATAGGAGGTGCTTTGAAGCCAGTTTTTGAAGAAAGTGAATTTGTAAATAATGTAACTGTTGAATCTACAGGTGCATCTGTTGCTAACGTTCAAAATATGCAGAATGGATTGAATCAAATGAGCATTATCATGAGCGATGTTGGGTTTGATGCAATAGAGGGAACAGGTCAATTTGATGGAAACTCTGTAGATGTGCAAGCACTGGCGGGTATGTATCAAAATGTTGTTCAAATTGTTGCTACTACTGATAGCGGGATTGAGAATGTGGAAGATTTGGAAGGGAAACGTGTTGGTGTTGGTAAAGTAGGATCTGGTGTGGAACAAAGCGCACAGAAGGTACTAGAAGTACTGGGGTTATCCTATGATAATCTTTCTAAAGTTACACATACAGGTTACGCTGATAGTGTACAGGAAATGAAAAATGGAAATCTAGATGCAGCGTTTTTCACTTCTGGTATCCCGAATAGTAATATTACAGATTTAATGCAACAAAATGATGTGGTGTTTGTAGAAATAAAAGCAGATATAGCAAATACTTTGATGGAAAAGTATCCGTTTTATAAATCGTTTACGATCCCAGCGAATGATGAGACGATGTACAATCTAGCGGAGGAAGTGACAACGGTTGGTATTCAGAACTTAATCGCAGTATCTCCTGACTTAAATGAAGATATTGTATATGATTTAACGAAACGCTATTATGATTATTTAGGGAGTGAAGAGATCTCTATTCATGCTTTGAAATATTTAGAGAGAGATCAAATAGCAACGGATTTAGTAGTACCATTGCACCCCGGAGCGAAAAAGTTTTATCAAGAGCAGGGATTGGTAGACTAA MQKYIFLIMVIIGLFYLAACSGGDKANNHSAASNGEAQAIVFGTGGTSGTYYPIGGALKPVFEESEFVNNVTVESTGASVANVQNMQNGLNQMSIIMSDVGFDAIEGTGQFDGNSVDVQALAGMYQNVVQIVATTDSGIENVEDLEGKRVGVGKVGSGVEQSAQKVLEVLGLSYDNLSKVTHTGYADSVQEMKNGNLDAAFFTSGIPNSNITDLMQQNDVVFVEIKADIANTLMEKYPFYKSFTIPANDETMYNLAEEVTTVGIQNLIAVSPDLNEDIVYDLTKRYYDYLGSEEISIHALKYLERDQIATDLVVPLHPGAKKFYQEQGLVD NA NA NA NA NA AK015_03799 468 hypothetical protein GTGAGGATACGTTATGTCCGCCGTGTTTTGCTTATTTTATGTTTCTTGGTTGTCAGTTTTATTGGGATGCTCTTTTTTCCAACGCGAGCCATTGTTGTTTTACAAAATGATGCTATTATTTATGCATTTCCTGAAAGTGAGGGTACGTTTGCGTTGGAATGGGTGCACTCCGTTGAAAAAGAAAAATGGATAGAAAAATTTCGAGTGAATAATTGTCAAATTTTTTTACAATCCACAAAGTTTAAAACGTTTGGAGCAGGGGTGCCTGCAATAACAGAACAAGTAATCAAACAGAAAAACGGCTGGTTAGTTGTAGATTTACATCGAGAAATTGGGAGTGAGCTAGTGGTTCGCGCTACAGAAATAAACCATTATAAGTTTATCTTTAAAGGGAAGTATTATCCAATGGCAGCTAGTGATGCTCCTTATGTTATTAAAACGGAACGTGTTCCTTTTTTTGCACTATAG MRIRYVRRVLLILCFLVVSFIGMLFFPTRAIVVLQNDAIIYAFPESEGTFALEWVHSVEKEKWIEKFRVNNCQIFLQSTKFKTFGAGVPAITEQVIKQKNGWLVVDLHREIGSELVVRATEINHYKFIFKGKYYPMAASDAPYVIKTERVPFFAL NA NA NA NA NA AK015_03800 2151 hypothetical protein ATGAGCGGTGGAGATAAGCTACGGGATTACGAGAGAGAAAGTAACGTACGTACGCATTTACCTAGAGGTGTTCGGATACTATTTGTTGGAATAGCTGTAGCCTTAGGGATTTTTCATCTTTACACATCCTATGCAGGTGCGCTTGTTGATATAAAACAACGTAGTATTCATCTATACACACTAATGATGCTAGCATTTTTATTGTATCCTATAACAAAGAAGAAAAAAAGAAACAAAATACCAATATATGATTATATGTTAGCAGGTGCATCGCTCGTTTTAGGAATCTATATGTTGGTGTCAGCAACTACGATTATTGAGTCAGGCGGGCAAATTAATCATATAGACGTGTATGTAGGAATGGTCGTTATTATCGTATTATTTGAAATAACGAGGAGAGTAACCGGATGGGGGCTAACATTATTAGCTTTCGGTTTTCTTGTTTATGGATTCTATGTCAAACTCTCTATCTACCCTCAATTGACGTGGGACATTATTATAAATGCTTCAAGTGGGATTATAGCCCATCTTGTTTACATTACAGAAGGAGTGTTAGGTACTGCGATAGGTGTATCAGCTAGCTATATTATATTATTTATTCTGTTTGGCGCATTTTTAAGCAAATCAGGTATGGGGCAATTATTTAACGATATAGCCATGGCTGTAGCGGGTCATACCAAAGGTGGACCAGCTAAAGTTGCTGTTTTAGCTAGTGGTTTTCTAGGCTCGATTAACGGATCAGCTATTGCAAATGTTGTAACAACAGGCGCCTTTACCATCCCACTTATGAAAAAAGTTGGCTATCATAAAAATTTTGCTGGAGCTGTAGAGTCTGCTTCTAGTGTAGGTGGACAAATTTTGCCGCCAATTATGGGGGCGGCCGCCTTTATTATGGCAGAAAATCTAGGGATTCCGTACACTACTGTCATTCTAGCGGGAATTATTCCAGCATTGCTATTTTATTTTGGAGTTTTATTACAAGTTCATATTAGAGCTTCAAAACTTAAGCTAAAAGGGTTAGACAAAAATGAGTTACCCACTGTGAAGACAGTTTTAATGAAGCGCGGACATCTTTTGATTCCAATGATCATTCTTTTGTATTTATTATTTAGTGGGAAGACACCTTTTTATGCAGCTTTTTGGTCAATTATAGCTACAGTTCTCATTACCGGGACTGGGAGAATGTTATTTATTAGCGGTGCTGTTTCACTTTTTCTTTTGTTTGAACCGCAAATTGTTGCAGTTTTGGTAGGTGCGAGTATACCAGAATTACGTGACAATTGGTTCGAGTTGGGAAGCATTATTATCATTCCATTGGTGATCAATTTGATACGTAAGCAGGCACAAGTAAAAGCGGAAGAAATTCATGTGAGGGATTTTGTAGATGCATTAGAAAATGGTGTTAGAACAACAATTCCAGTAGCCGTAGCATGTGGAGCTGTTGGCATAATTGTAGGTATAAGCTCTTTAACAGGTGTGGCCTTGGAAATTGCAAGTTCTATTGTTAGTATTGGGGATTTGATCCAAAGTCCACTTTTTCAACTGCTTATTACATTATTTTTAACTATGATAGCTTCTATTATATTGGGAATGGGTCTTCCAAGTATACCAACGTATATTATTACGAGTACCATGGCCGCTCCTATTCTGTTACAATTACCATATTTCCGTGAATTGACTGGTGCAGGTGAATCAGCCGTTTTTGTTGCCCACATGTTTGTTTTTTATTTTGGAATATTTGCAAATATTACCCCTCCAGTGGCATTGGCTGCATTTGCAGGTGCAGGAATAAGTGGTGGAGAGCCGATGAGAACAGGGTTTCAAGCAATGAAACTAGCCATAGCAGGTTTTATTGTACCGTTTATGTTTGTTTTTTCTAATCAAATGTTAATGATGGATGCAACTATTGGGAATATATTCGTCATAATGGCGACCTCATTACCGGGGGTATTCTTACTATCTGTAGCTGTAGAAGGTTATTTTAAGCGCCCTCTTGCTTGGTATATTCGAATTATTGCTACGATAGGAGCTTTATTATTAATATATCCAGGAGTGTGGACAGATATAGCAGGGCTCGTTGCTTTGCTTTTTGTACTAGTAATAAGTTTAAAGAGGAATAATGGACTCCCGGCGTCAGAAAATGTGAGTTAG MSGGDKLRDYERESNVRTHLPRGVRILFVGIAVALGIFHLYTSYAGALVDIKQRSIHLYTLMMLAFLLYPITKKKKRNKIPIYDYMLAGASLVLGIYMLVSATTIIESGGQINHIDVYVGMVVIIVLFEITRRVTGWGLTLLAFGFLVYGFYVKLSIYPQLTWDIIINASSGIIAHLVYITEGVLGTAIGVSASYIILFILFGAFLSKSGMGQLFNDIAMAVAGHTKGGPAKVAVLASGFLGSINGSAIANVVTTGAFTIPLMKKVGYHKNFAGAVESASSVGGQILPPIMGAAAFIMAENLGIPYTTVILAGIIPALLFYFGVLLQVHIRASKLKLKGLDKNELPTVKTVLMKRGHLLIPMIILLYLLFSGKTPFYAAFWSIIATVLITGTGRMLFISGAVSLFLLFEPQIVAVLVGASIPELRDNWFELGSIIIIPLVINLIRKQAQVKAEEIHVRDFVDALENGVRTTIPVAVACGAVGIIVGISSLTGVALEIASSIVSIGDLIQSPLFQLLITLFLTMIASIILGMGLPSIPTYIITSTMAAPILLQLPYFRELTGAGESAVFVAHMFVFYFGIFANITPPVALAAFAGAGISGGEPMRTGFQAMKLAIAGFIVPFMFVFSNQMLMMDATIGNIFVIMATSLPGVFLLSVAVEGYFKRPLAWYIRIIATIGALLLIYPGVWTDIAGLVALLFVLVISLKRNNGLPASENVS NA NA NA NA NA AK015_03801 375 hypothetical protein ATGATTGATTTGCTAAATGAACTGATGAATGATGCTTCTCCCGTTTATTTTTATTTAAGCATCCTTTTTACGTTGTCATCAGCCTATTCGTTTACAGCTATTCAGCCTAGACATATAATGGAATCTCGCTATCTACAAATAAGAGAATACCATAATGAACGCTATCGTTTATTACCAATCCAAGAGTTATTTGGCATGTGTGATGAAATTTTCCAATGGGTTGTAAAAAAAGCGAACCGAATTACTTCTCCAGATGATGATGCAGATCACTCTTTCTTCTCGTTAAAAAGCCAAAATGTATTACAACGAGGAGGAAAAAAATGCACAATCATTTTATATTCACATTTTTCAAGAAATACGGATTTATTAGTTTAG MIDLLNELMNDASPVYFYLSILFTLSSAYSFTAIQPRHIMESRYLQIREYHNERYRLLPIQELFGMCDEIFQWVVKKANRITSPDDDADHSFFSLKSQNVLQRGGKKCTIILYSHFSRNTDLLV NA NA NA NA NA AK015_03802 801 misCB COG0706 Membrane protein insertase MisCB ATGCACAATCATTTTATATTCACATTTTTCAAGAAATACGGATTTATTAGTTTAGGTTTGCTATTTTTGCTGACGGGGTGTCAGGCAGACGGTGGGATGATGGGTTTTCAAAATCCATTTCCGCAAATGATAAAATATGTTGCTAGTTTGTTTGGGAATGATTATGGCTTATCCATTGTGTTAATAACCATACTCATTCGCTTGTTGCTCATGCCACTTGCATTTAGTCAAATGAAAAAAGGGGCAAAAATGAAAACAAAGATGAAAGAAATGAAACCAGAAATGGACGCTCTTTCACAAAAATATAAAAATAAAAAGGATGCTAGCGCAAAAGCAGCTATGCAAAAAGAAATGATGCAGTTGTACCAAAAGCACGAATTTAACCCAATTAGTTCGATGGGATGTTTGCCAATAATGCTCCAATTCCCTGTCGTCATTGCGTTTTATCATGCTATTCGAAACTCGCAAGAAATAGCGACACACTCCTTTTTATGGTTTAATTTGGGAGAAGTGGATATTATTTTGCCATTTATCGCAGCAGCTGTATATTTCTTGCAATCCCGTTTTTCATTAATTGGTATGGATGAGAAACAAAAGAAACAAATGGCGATCATGGGGTTGATTTCCCCGATTATGATTGGCTTTATTTCCTTTAGTACAGCAGCAGCATTGCCTTTGTATTGGACAGTTAGTGGTACAGTTCTTGTTATACAAACTTTAGTTGCTAAAAAGCTATATTATCGTGAGCATTTAAGCAATAAAGGCAATGCAATGGAGAAGTTAGAAACGACATCATCGTAG MHNHFIFTFFKKYGFISLGLLFLLTGCQADGGMMGFQNPFPQMIKYVASLFGNDYGLSIVLITILIRLLLMPLAFSQMKKGAKMKTKMKEMKPEMDALSQKYKNKKDASAKAAMQKEMMQLYQKHEFNPISSMGCLPIMLQFPVVIAFYHAIRNSQEIATHSFLWFNLGEVDIILPFIAAAVYFLQSRFSLIGMDEKQKKQMAIMGLISPIMIGFISFSTAAALPLYWTVSGTVLVIQTLVAKKLYYREHLSNKGNAMEKLETTSS PGPT0024530_5954 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 AK015_03803 303 COG0607 Sulfurtransferase GTGAAAGAGTTAACCCCAAAACAAGTGGAGAAGAAGTTAGAAAATAACGATGATATGTTAGAACTTATTGATGTACGTGAAGAAGAAGAGGTAGCGCAAGGTAAAATCCCTCACATAACGCATATTCCTTTAGAGCAGATACCTGAGAAAGCAGAAAAACTAGATAAGTCTAAGCAATATATTATGGTTTGTAGGTCGGGGAGAAGGAGTGAAAGAGCAGCTGCCTATTTACAGAAACAAGGATTTGATGTAGCAAATATGGTTGGTGGCATGCTAGAATGGCGTGGAGAAATCATGAACTAA MKELTPKQVEKKLENNDDMLELIDVREEEEVAQGKIPHITHIPLEQIPEKAEKLDKSKQYIMVCRSGRRSERAAAYLQKQGFDVANMVGGMLEWRGEIMN NA NA NA NA NA AK015_03804 753 hypothetical protein ATGAAAGGCAAGCATACTTTTTTTATTCTATGTAGTGTGTTGCTTCTTGTTTTTGTTTCTAGTTCAATTATTGCAGAAGAGGCAAAGCCATCTTTAATTAAGACATATCGCGCTGATGTAACTGGCGATAATCATCCAGAAACAATTAAATTAATGGGTACGTTTTTTTCTGCGGATTCAACATATTATCGTGAAATATGGGCAGAGATTTCTAATAATAATAATCAATGGAAAATCTCTTACAATGGCGGTTATGACCCTTATTTACAGTTTGTCGATTTGAATCACGATGGAATAAAAGATATATTTTATCAAAGTGCCACTGGGGGAAGTGGCGGGCTTTATAATTACCAACTAAATACCATCATTCACACCCAAATGGAAAAAATACCATTACCTAAGCAAACATATTTAAGCGGTAATTTCCAACCTGATTTTAAAGTTAATATAACATTAACCGCTACGAGTAAACCAATCACAATAGATGTTAAAAATCGTGCACAAGATTATATTCGACTTGGTATTTATAATAAAGACGGCAGCTTACATTCGCAAAATCAATCTGTTATGATTGATCCAATCGCCTTTTTTGAAGTCTTTAAAATAAGCGATAGTAAAGGATATGGTCTAAAAAGTTATCAACAAATTAGTGGCGCATACCATGCCGACCAATTAGGAACTGTAGAGACTATATGGTATTTCGAAGACGGTAATTGGATTATTTTAAAAACTAAATGGGTTCCATCTAAATGA MKGKHTFFILCSVLLLVFVSSSIIAEEAKPSLIKTYRADVTGDNHPETIKLMGTFFSADSTYYREIWAEISNNNNQWKISYNGGYDPYLQFVDLNHDGIKDIFYQSATGGSGGLYNYQLNTIIHTQMEKIPLPKQTYLSGNFQPDFKVNITLTATSKPITIDVKNRAQDYIRLGIYNKDGSLHSQNQSVMIDPIAFFEVFKISDSKGYGLKSYQQISGAYHADQLGTVETIWYFEDGNWIILKTKWVPSK NA NA NA NA NA AK015_03805 2415 leuS Leucine--tRNA ligase ATGAGTTACCATCATCAGCAAATGGAGAAAAAATGGCAAACATACTGGTTGGAAAATAAAACATTTAAAACAAATACGTTTTCAGAAAAAGAAAAGTTTTACGCGTTGGATATGTTCCCGTATCCATCTGGGGCTGGCTTACATGTGGGGCATCCAGAAGGATACACAGCTACAGATATTATATCGAGAATGAAGCGAATGCAAGGTTATGAGGTGTTGCATCCAATGGGGTGGGATGCGTTTGGACTCCCTGCTGAACAGTATGCAATTGATACGGGAAATAGCCCGGCAGCATTTACGGATAAAAATATAAATATATTTAAGCGACAAATTCAAGCTCTCGGCTTTTCTTATGATTGGGATCGGGAAGTTAATACTACAGATCCTAACTATTATAAGTGGACACAATGGATATTTATAAAAATGTATGAACACGGGTTAGCATATATGGATGAAGTACCTGTAAATTGGTGCCCTGCTTTAGGCACGGTATTAGCGAATGAAGAAGTAATTGATGGAAAAAGCGAGCGTGGAGGGCACCCTGTTATTCGTAAGCCAATGAAACAATGGATGCTACGAATCACTGCCTATGCAGATCGTCTTTTAGAAGATTTGGAAGAATTGGATTGGCCAGAGAGTTTAAAGGATATGCAACGAAATTGGATCGGCAGATCAGAAGGTGCTGAAGTTAGCTTTGAAATTGAGTCATTGAATGAAGCGTTTACTGTTTTTACAACTAGACCAGATACACTATTTGGCGCAACCTATGCTGTTTTAGCACCTGAGCACCCTTTGGTAAAGAAAATTGTAACAGACAAGCAAAAAGATAATGTTGAAAAGTATATTCATGAGATCGCAACGAAGTCAGACTTAGAAAGAACAGAATTATCGAAAGAAAAAACAGGTGTTTTTACAGGGTCATATGCTATTAATCCTGTGAATGGAGAGAAAATGCCAATCTGGATTGCGGATTATGTATTAATGAGTTACGGTTCAGGTGCAATTATGGCTGTTCCAGCACATGATGAAAGAGACTACGAATTTGCTACTAAATTTGAACTCCCTATTGTTGAGGTTGTTGCAGGCGGAGACATTACAAAAGGAGCTTATACCGGGGAAGGCAAGCATATTAATTCTGGATTTTTAAATGGTTTAGGTAAAGACGAAGCGATTAGGAAAATGATTGCGTGGTTAGAGGAACACGGAAAAGGTGCAAAAAAAATCACCTACCGTCTTCGCGATTGGTTGTTCGCTAGACAACGTTATTGGGGTGAGCCTATTCCTATAATTCATTGGGAAGACGGAACGATGACAACTGTCCCAGAAGAAGAATTGCCATTAGAATTACCGTCTATGAATAATATTCAACCATCAGGGACGGGAGAATCGCCACTAGCAAATGCCGAGGAATGGGTAAATGTCATTGATCCTAAAACGGGTATGAAAGGAAGGAGAGAAACGAACACTATGCCGCAGTGGGCAGGAAGTTGCTGGTATTTCTTACGCTATATCGACCCGGTAAATTCTAAGCAGTTAGCTGCCCCTGAGGCACTTCAGCAATGGCTGCCTGTTGATCTATATATTGGTGGTGCTGAGCATGCTGTTCTTCATCTTCTATATGCACGTTTTTGGCATAAATTTTTATACGATATTGGGGTTGTTCCTACGAAAGAGCCGTTTACAAAGTTGTTCAATCAAGGAATGATCTTGGGAGAAGGAAATGAGAAAATGAGTAAATCTAAAGGTAATGTCGTCAATCCTGACGATGTTATAGAATCTCATGGTGCAGATACTTTACGACTTTATGAAATGTTCATGGGTCCGCTAGATGCTTCTGTTGCTTGGTCAGAAAATGGGCTGGATGGCTCACGCCGCTTCCTCGATCGTGTTTGGCGCTTAACTATTGAGGATGATGGGCAACTTTCTAGAAAAATTATTGAAGAAAATGATGGCACTTTAGATAAAACATACCATGAAACAGTAAAGAAAGTGACGGAGGATTTTAATAATTTGCATTTTAATACAGCTATCTCTCAAATGATGGTGTTTGTGAATGAATGTAATAAAGCGGAATATATTCCTAAAAAGTATGTGGAAGGATTTATAAAAATGCTCTCCCCAATTGCGCCACATATTGCAGAGGAGATATGGCTAAAGTTAGGTCATTCGGATACGATCACCTATGAACCTTGGCCTGTATATGATGAAGAAAAGCTGATAGAAAATGAAGTGGAAATTGTTTTGCAAGTGATGGGGAAAGTTCGTGCTAAAGTAAATGTTTCTAAAGATGCTTCAAAAGAAGAATTAGAAAAAATAGCTTTAGAAAATGAAAAGATTAAAGATTTAATTACAGATAAAACAATTCGAAAAGTCGTTGTTGTACCAGGGAAACTAGTTAATATCGTTGCCAATTAA MSYHHQQMEKKWQTYWLENKTFKTNTFSEKEKFYALDMFPYPSGAGLHVGHPEGYTATDIISRMKRMQGYEVLHPMGWDAFGLPAEQYAIDTGNSPAAFTDKNINIFKRQIQALGFSYDWDREVNTTDPNYYKWTQWIFIKMYEHGLAYMDEVPVNWCPALGTVLANEEVIDGKSERGGHPVIRKPMKQWMLRITAYADRLLEDLEELDWPESLKDMQRNWIGRSEGAEVSFEIESLNEAFTVFTTRPDTLFGATYAVLAPEHPLVKKIVTDKQKDNVEKYIHEIATKSDLERTELSKEKTGVFTGSYAINPVNGEKMPIWIADYVLMSYGSGAIMAVPAHDERDYEFATKFELPIVEVVAGGDITKGAYTGEGKHINSGFLNGLGKDEAIRKMIAWLEEHGKGAKKITYRLRDWLFARQRYWGEPIPIIHWEDGTMTTVPEEELPLELPSMNNIQPSGTGESPLANAEEWVNVIDPKTGMKGRRETNTMPQWAGSCWYFLRYIDPVNSKQLAAPEALQQWLPVDLYIGGAEHAVLHLLYARFWHKFLYDIGVVPTKEPFTKLFNQGMILGEGNEKMSKSKGNVVNPDDVIESHGADTLRLYEMFMGPLDASVAWSENGLDGSRRFLDRVWRLTIEDDGQLSRKIIEENDGTLDKTYHETVKKVTEDFNNLHFNTAISQMMVFVNECNKAEYIPKKYVEGFIKMLSPIAPHIAEEIWLKLGHSDTITYEPWPVYDEEKLIENEVEIVLQVMGKVRAKVNVSKDASKEELEKIALENEKIKDLITDKTIRKVVVVPGKLVNIVAN NA NA NA NA NA AK015_03807 597 hypothetical protein ATGTTACACGGAATTTTGCACTATGCGCATTATTTATTAGAATCCACTATTGAAAAAAACGAAACTGTCATTGACGCAACTTGCGGAAACGGTCAAGATACGCTGTTTTTAAGTAATGTCGTTGGTAAAAATGGCCACGTTTTAGCATTTGATATTCAAGAGCAAGCAATTCAAACAACTAGACAGTTAATGCAAGAGAATCAAAAACAGAATGTATCTATTATTCATGATAGCCATGAACATTTAGAAAAATACTTACCTACAAAAGAAATGTTAGTTGGAGGAGCAGTATTTAACCTTGGTTACCTGCCTAGAAGCGATAAAACCATTATCACCAATGCTAATTCCACCATTATGGCCATCAACAAAATATTACATTTTCTAAAACCAAACGGCTTGATTGTCATCGTTGTCTATTACGGTCATGAAGGAGGACATGAAGAAAAAGAAGCTGTTTTAAAACATGTAATGCAGTTGAGCCAACGCTCCTATCATGTGTTGCAATATCGGTTTATTAATCAAAGAAATAATCCACCATTTATTATCGCTATCGAAAAAAAAGGGAATGGCTTCACTAAAAGAAAATTGTCATTTTAG MLHGILHYAHYLLESTIEKNETVIDATCGNGQDTLFLSNVVGKNGHVLAFDIQEQAIQTTRQLMQENQKQNVSIIHDSHEHLEKYLPTKEMLVGGAVFNLGYLPRSDKTIITNANSTIMAINKILHFLKPNGLIVIVVYYGHEGGHEEKEAVLKHVMQLSQRSYHVLQYRFINQRNNPPFIIAIEKKGNGFTKRKLSF NA NA NA NA NA AK015_03808 2598 adhE_2 COG1012 Aldehyde-alcohol dehydrogenase ATGACTGAGAAAACAAAAGGAACTGTAGAGCTAGTTTCCACTAAAATTAATCAACTAATCTCCCAAGCAGAAGAGTCCTTGGAAGGTTTAAAACAGCTAGATCAAGAAGCGATTAATACGATTGTAAAAGAAATGGCGTTAGCAGGTCTTGATCAGCATATGCCTTTAGCTAAACTGGCCATTGAAGAAACAGGTCGTGGCGTCTTTGAAGATAAAGCTATTAAAAACATCTTTGCAACAGAATATATTTATCATAACATTAAATACGATAAAACTGTTGGAATTATTCATGAGGATGAGCAAGAAGGAATGGTTGAAATTGCTGAACCAGCTGGGGTAATCTGTGGTATAACACCAGTTACAAACCCAACATCAACAACCATGTTTAAATCACTTATTTCCATTAAAACGAGAAACCCAATTATTTTCGCTTTCCACCCTTCCGCTCAAAAATGTAGCAGTCAGGCAGCAAAAGTATTACTTGATGCCGCGGTAAAAGCAGGTGCACCTAAAAACTGTATTCAGTGGATAGAAACACCTTCTGTTGAAGCAACGAAAACATTAATGAATCATGACGGCGTATCACTTATACTTGCTACTGGTGGTTCAGGAATGGTGAAATCAGCGTATAGTTCTGGAAAGCCAGCCCTTGGTGTTGGTCCAGGAAATGTACCATGTTATATAGAAAAAACCGCACAAATAAAGCGCGCTGTCAATGATCTCATTTTATCCAAAACATTTGATAACGGAATGATCTGTGCCTCTGAACAAGCGGTTATTATTGATAAAGAAATATATGACACGGTAAAACATGAAATGGTAGCTAATAATTGTCATTTCCTAACAGAAGCAGAAAGAAAAAAAGTGGAAAAACTGGTTATAAATCCTACAACTTGTGCAGTAAATGCGGATATTGTTGGTAAACCAGCATATGAAATTGCTAAGATGGCAGGAGTAAATGTGGCCAAAAACACTAAAATTTTACTTGCTGAAATTGAAGGCGTTGGACCAGAATATCCGTTATCTCGAGAAAAATTAAGTCCTGTATTAGCTTGTTATAAAGTAAATAGCACAGAAGAAGGGTTTAAGCGTGCTGATGAAATGCTACACTTTGGGGGTCTAGGACATTCAGCAGTCATTCATTCTACTGACCAAGAGGTTATAGAAGCCTTTTCTCTAAAGATGAAAGCAGGGAGACTAATTGTAAATTCACCATCTTCTCAAGGGGGAATCGGCGATATTTATAACAACCATATGCCTTCCCTTACATTAGGATGTGGAACTTATGGCGGAAACTCCGTATCAACAAACGTCGGAACAATCAATTTAATGAATATTAAAAAAGTGGCTCGGAGGAGAAATAATATGCAATGGTTTAAACTACCTCCTAAAATCTATTTTGAAAAAAATGCAATTCAATATTTAGAAAAAATGCCTGACATCTCTAAAGCATTTATTGTAACTGATCCGATGATGGTAGAATTAGGTTATGTAGATAAAGCTCTCTACTATTTACGTAAACGTGCTGATTATGTCCATTGTGAAATTTTTTCAGATGTCGAAGCTGATCCATCTATTGAAACCATTCGCAAAGGTACTGCGTTAATGCAAAAGTTTGAACCAGATGTTATTATCGCTATTGGTGGTGGATCTCCAATGGATGCTGCTAAAGCCATGTGGTTATTCTACGAGCATCCAGATGCTGATTTTAACGCTCTAAAACAGAAATTCATGGACATTCGTAAACGTATCGTAAAATACCCGAAATTAGGAAGACTAGCTCAATTGGTATGTGTGCCAACAACGTCAGGAACAGGTTCTGAAGTAACATCATTTACAGTGGTTACCGATAAAAAATCAGATACAAAATACCCGCTAGCAGATTATGAAATGACACCAAATGTTGCTATAGTTGATCCACAATTTGTCATGTCTGTGCCAAAACAAGTAACAGCTGATACTGGTATGGACGTATTAACACACGCCATTGAAGCTTATGTGTCCAATTTGGCAAACGATTATACTGACGCGCTTGCAATTAAAGCAGTTCAATTAGTTTTTGAATACTTGCCAAAAGCATATCATAACGGAAATGATGAGTTAGCTAGAGAAAAAATGCATAATGCTTCAACAATTGCTGGAATGGCATTCTCCAATGCGTTCTTAGGCATTAATCACTCTTTAGCTCATAAACTAGGTGCAGCGTTCAACATTGCACATGGTAGAGCTAATACGATATTACTACCACATGTTATCCGTTACAATGCTAAAAAACCAGAAAAATTTGCTACGTTCCCTAAATACGCATACTTTATAGCAGATGAGCGTTATGCAGAAATCGCAAAAGCGCTAGGGCTTCCAGCAAGAACGGTGGAAGAAGGAGTAGAAAGTTTAGTACAAGCTATTATTAAACTTGCTAAAGAACTAAATATCCCAATGAGCATTAAAGACACTGGTGTAAACAAACAAGCATTTGAAGCAAAAGTAGATAAACTTGCTGAATTAGCTTTTGAAGACCAATGTACAACAGCAAACCCGAAATTGCCTTTAATTACTGAACTGGCAACTATATACCGTGACGCATATAAAGGAATATAA MTEKTKGTVELVSTKINQLISQAEESLEGLKQLDQEAINTIVKEMALAGLDQHMPLAKLAIEETGRGVFEDKAIKNIFATEYIYHNIKYDKTVGIIHEDEQEGMVEIAEPAGVICGITPVTNPTSTTMFKSLISIKTRNPIIFAFHPSAQKCSSQAAKVLLDAAVKAGAPKNCIQWIETPSVEATKTLMNHDGVSLILATGGSGMVKSAYSSGKPALGVGPGNVPCYIEKTAQIKRAVNDLILSKTFDNGMICASEQAVIIDKEIYDTVKHEMVANNCHFLTEAERKKVEKLVINPTTCAVNADIVGKPAYEIAKMAGVNVAKNTKILLAEIEGVGPEYPLSREKLSPVLACYKVNSTEEGFKRADEMLHFGGLGHSAVIHSTDQEVIEAFSLKMKAGRLIVNSPSSQGGIGDIYNNHMPSLTLGCGTYGGNSVSTNVGTINLMNIKKVARRRNNMQWFKLPPKIYFEKNAIQYLEKMPDISKAFIVTDPMMVELGYVDKALYYLRKRADYVHCEIFSDVEADPSIETIRKGTALMQKFEPDVIIAIGGGSPMDAAKAMWLFYEHPDADFNALKQKFMDIRKRIVKYPKLGRLAQLVCVPTTSGTGSEVTSFTVVTDKKSDTKYPLADYEMTPNVAIVDPQFVMSVPKQVTADTGMDVLTHAIEAYVSNLANDYTDALAIKAVQLVFEYLPKAYHNGNDELAREKMHNASTIAGMAFSNAFLGINHSLAHKLGAAFNIAHGRANTILLPHVIRYNAKKPEKFATFPKYAYFIADERYAEIAKALGLPARTVEEGVESLVQAIIKLAKELNIPMSIKDTGVNKQAFEAKVDKLAELAFEDQCTTANPKLPLITELATIYRDAYKGI PGPT0006360_1179 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072 NA NA AK015_03809 1092 ytpB Tetraprenyl-beta-curcumene synthase TTGAGTATTGAAGTCCCAAGTACACCTATTCCTTTAATGATAACAGTTTATCGTAAGATCTTTCCAGCAGTAAGAGAGGAACTTGCTTTTTGGAAACAGCGAGCGAATGAAATCCCTGATCAAGAATTACGTTATCAAGCACTTGCAAGTATGTCTGAAAAAGAATTTCATTGTCAAGGTGGAGCAGTGTATGCGCTATTAGCAGGGAAAAGATGGAGAGATTGTGTACGTTTTATTGTAGCTTATCAAACAATAAGTGATTATTTAGATAATTTATGTGATCGAAGTACATCGCTAGACGCTAAATCTTTCGCGTTGTTACATACTTCCATGATAGATGCGCATTGTCCTAAGTCATTACCGAAAGATTATTATGCGTTATTTGAGCATAAGCAAGACAATGGTTATTTGCAACAGCTCGTAAAAACCTGTAATGATATCGTTAGAAAATTGGATGATATTCCAACATATCATGAACAAGCAATAAAGCTGGCAGGTTTATATAGCGATTTACAAGTACATAAACACGTTATTCATGAGGAAAGAGTGCCGCGTTTAACAAAATGGTCTAATGTGAAAAATGTCTATCCGCTAGCTTGGTATGAATTTTCCGCTGCAGCTGGATCCACTTTAGGCGTTTTTTGTTTAATGGCGTACAGTTTAGCAGGCAGGTTGTATCGAAAGTTGGCTGATGAAATTGTAACAGCTTACTTTCCTTATATTCAAGGATTACACATTTTATTGGATTATTATATTGATCAGCAGGAAGATAAAGAGGAAGCTGATTTAAATTTCTGTTCATATTACAAAAACGAGTCAATCATGCATGAACGATTCAAATACTTTTGTGAGCAAGCAAAATTATATGCAGTTACTATACCTAACTCGAAATTCCATGTAATGGTTGTACAAGGATTAATCGGATTATACTTAGGGGACAATAAAGTGGGGCATATCCCTAATTCCAAACGTTTGAAGCGACTACTTTTTCAAACGGCTGGATATCCTGCTATTTTTTTTCATCGCAATACAAGAATGTATTATTTTCTTAAACTGTTTAAACTACAAAGAACCGCTGTTACACATAAGTAA MSIEVPSTPIPLMITVYRKIFPAVREELAFWKQRANEIPDQELRYQALASMSEKEFHCQGGAVYALLAGKRWRDCVRFIVAYQTISDYLDNLCDRSTSLDAKSFALLHTSMIDAHCPKSLPKDYYALFEHKQDNGYLQQLVKTCNDIVRKLDDIPTYHEQAIKLAGLYSDLQVHKHVIHEERVPRLTKWSNVKNVYPLAWYEFSAAAGSTLGVFCLMAYSLAGRLYRKLADEIVTAYFPYIQGLHILLDYYIDQQEDKEEADLNFCSYYKNESIMHERFKYFCEQAKLYAVTIPNSKFHVMVVQGLIGLYLGDNKVGHIPNSKRLKRLLFQTAGYPAIFFHRNTRMYYFLKLFKLQRTAVTHK NA NA NA NA NA AK015_03810 513 yrdA_2 COG0663 Protein YrdA ATGATACATCCTTATAAAGGAATATTTCCAAGTATTCATGACTCTGTATTTATAGCAAATGATGCAAGCATCATCGGTGATGTCACAATTGGTGCACAATCAAGTATCTGGTTTAAAACAGTCATACGCGGTGATGTTGCACCTGTCAATATAGGAGAACGCACTAGTATTCAGGACTTATCCGTTCTACACCAAAGCCCAGGTATGCCATTAACGATCGAAAGTGATGTTACTGTCGGTCATCAAACTACGCTGCACTCTACAACGATACAAAAACATGCTCTAATTGGTATGGGTTCTATTTTACTTGATGGCTCAGAAATAGGAGAATACGCATTTATAGGAGCAGGAAGTCTTGTCCCACCTAATAAAAAGATTCCGCCTTTTACATTAGCACTAGGCAGACCAGCAAAAGTCGTTCGGGAACTAACAGAAACTGATTATGCAGAAATGCAACGTATTTGCCAATCCTATGTTGAAAAGGGAGCTATTTACAAACAACAAAACAGGTAA MIHPYKGIFPSIHDSVFIANDASIIGDVTIGAQSSIWFKTVIRGDVAPVNIGERTSIQDLSVLHQSPGMPLTIESDVTVGHQTTLHSTTIQKHALIGMGSILLDGSEIGEYAFIGAGSLVPPNKKIPPFTLALGRPAKVVRELTETDYAEMQRICQSYVEKGAIYKQQNR PGPT0002425_619 DIRECT EFFECT BIO-FERTILIZATION POTASSIUM_SOLUBILIZATION K-SOLUBILISATION-OTHER_ACID_METABOLISMS K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726 NA NA AK015_03811 858 hypothetical protein ATGAACATTATTTTATTTAGTGTTTGTTGTATGCTAGCTACCTTCTTATTTTATGTTAGTTCTAAGCAAAAAATTACCTGGGTGAAAAAATCGTTTATCCTATACGGTTTTATTTTTTCTATAACGGCTATTTCTCTTTTATCTATGTTTTTTATGCAACATAAAACAACATTTAAACAATTAATAGAAAGTACTATCCCGGTGCATGAAGACAATCACTATTCTCCTGAGGACAGTAAATTATCAAAGCACAAGATAAAAAAAGCGGTCAATATTAAAGCTCCAATGATAGAGCAACTTCCTGAGCTACCAAGAGGTTGTGAAGTCACAACCTTATCCATGCTGCTAAACCATTATGATATACGTGTTGATAAAATGAAATTAGCTGAACAAGTGAAAAAAGACCCTACGCCATACAGAAAAAAAGATGGCAAAATCCACTTTGGTAACCCTTATAATGGGTTTGTTGGCGATATGTACTCTTTTGAAACCCCAGGGATGGGCGTATACCATAAACCAATTGCTGAATTAGCAAAACAATACGTAGGTGATGTCGTAAATGATTTAACAGGAAATGACTTCCAAGCAGTTATTGAAGAATTGAATCACAAACGGCCAGTATGGGTCATTATAAACACAACTTATGATAAACTACCAAAAGATAAATTTACTACATGGCACACAAAAGACGGTCAGATTGACATTACGATGAAGCAACACTCTGTTTTAATTACTGGATATGATGAAAACTACATTTACTTTAACGACCCATTAAACAAAGCGGATAAGGCTCCTATTGAAGAGTTCAAAGCTGCTTGGATACAAATGGGAAAACAGGCGATCACCATTGCAAAATAA MNIILFSVCCMLATFLFYVSSKQKITWVKKSFILYGFIFSITAISLLSMFFMQHKTTFKQLIESTIPVHEDNHYSPEDSKLSKHKIKKAVNIKAPMIEQLPELPRGCEVTTLSMLLNHYDIRVDKMKLAEQVKKDPTPYRKKDGKIHFGNPYNGFVGDMYSFETPGMGVYHKPIAELAKQYVGDVVNDLTGNDFQAVIEELNHKRPVWVIINTTYDKLPKDKFTTWHTKDGQIDITMKQHSVLITGYDENYIYFNDPLNKADKAPIEEFKAAWIQMGKQAITIAK NA NA NA NA NA AK015_03812 1899 asnB COG0367 Asparagine synthetase [glutamine-hydrolyzing] 1 ATGTGTGGTTTTATCGGAATGTTATTTGATAATCCTGTAGAACGAACAGAACAAGAAGTAGAACTATTTAAACAGCAAAATAATTTGATCACTCATCGAGGACCAGATGATGAAGGATACTATTTCGATTCTTATATTTCCTTGGGGTTCCGACGTTTGAGTATTATAGATATTGAAAGTGGCTCCCAGCCATTAAGTTATAATGATGAACAAATATGGTTAGTTTTTAATGGTGAAATTTATAATTATATTGAATTGCGTAAACAATTACTTGCAGAAGGTTATGCATTTCAAACGGATTCAGATACAGAAGTAATTGCAGCTTTATTTGCAAAACATAAAGAGGAGGCTTTTCAGCATTTAAGAGGCATGTTCTCCATTCTTGTGTGGGATAAAGAGACGGAGCAATTGTATGGAGCTCGTGATCCTTTTGGAATTAAGCCGCTCTTTTATTATGAAAATTCCTTCGGGACCACATTTGCTTCTGAGAAAAAAAGCATCACACTTATGATGGAACAAGAAAAAGTAGACAAAGATGCGCTACAGCATTATTTGAGCTTTCAATACGTACCTGAACCAATGACGATGACTGCTGGCATAAAAAAAGTAGAACCAGGGCATTATTTTATTAAAAAACCTGGACAGCCTATCCAATTTACGCGTTATTGGCATGCAACTTTCCATCCTGTACTTCGTGAAAAGCAGGACTGGATTAAAAAAATTCAAGACGTCATGTATGATTCAGTAAATGTGCATATGCGCAGTGATGTTCCAGTAGGTTCATTTTTATCTGGAGGAATCGATTCAACGTTAATTGTCTCCATTGCAAAAGAATTTAATCCAGCAATAAAAACATTTTCTGTCGGTTTTGAACGCGATGGATATTCTGAAGTTGATGTGGCCAAAGAAACAGCAGATAAATTAAATGTAGAGAACATTTCCTACATGATTTCCCCTCAAGAATATGTAGATCATTTACCAAAGATTATGTGGCATATGGACGATCCATTGGCTGATCCATCTTGTGTACCGTTATATTTTGTTTCTAGAGAAGCTAGAAAGCATGTAACAGTGGTTTTATCTGGAGAAGGCTCTGATGAACTCTTTGGCGGCTACAATATTTATCGTGAACCGGATTCATTAAAGTATTTTGATAAAATGCCTTCTTTCATGAAAGGGTTGCTGAAACGAGTTTCTGCTGTACTACCTGAAGGAGTGAAAGGTAAAAGTTTTCTCGACCGTGGAACAACCCCATTGCGTGAACGTTATATTGGAAACGCAAAAATGTTTGAAGAAGAAGAGAAGAGGGAGCTATTAAAAACATATGATGAACAGTTATCTTATCAACAAGTAACTGGTAAGTTATTTGATCAAGTAAAAGATTATCCATATGTAAATCAGATGCAGTATGTGGACATCCATACTTGGATGCGTGGAGATATTTTATTAAAAGCAGACCGAGTAACAATGGCGCACTCTCTTGAATTACGAGTTCCATTTTTAGATAAAGAAGTATTTCGCATAGCGAATGAGATTCCAGTTGATTTAAAAATTGCCAATGGTACTACGAAAAGCTTGTTGCGTGAAGCTTCCAGAGGCATTGTCCCGGACCATGTATTAGATCGTAAAAAATTAGGGTTTCCTGTTCCTATTCGTCATTGGTTGAAAAATGAGTTAAATGGCTGGGCAAAACAACTCATTCATGAAAGTGAAACCGACCATTTATTACACAAAAACTATATCCTTCAACTTCTAGACGCTCATTGTCAAGGAAAAGGGGATTACAGTAGAAAAATTTGGACCGTGCTTATGTTTATGCTTTGGCATAAAAACTTTGTTGAGAAAAAGTTTGATGTATCAACATTGAATGAAAACACAGGAGAATTAATCTTTTCTTAG MCGFIGMLFDNPVERTEQEVELFKQQNNLITHRGPDDEGYYFDSYISLGFRRLSIIDIESGSQPLSYNDEQIWLVFNGEIYNYIELRKQLLAEGYAFQTDSDTEVIAALFAKHKEEAFQHLRGMFSILVWDKETEQLYGARDPFGIKPLFYYENSFGTTFASEKKSITLMMEQEKVDKDALQHYLSFQYVPEPMTMTAGIKKVEPGHYFIKKPGQPIQFTRYWHATFHPVLREKQDWIKKIQDVMYDSVNVHMRSDVPVGSFLSGGIDSTLIVSIAKEFNPAIKTFSVGFERDGYSEVDVAKETADKLNVENISYMISPQEYVDHLPKIMWHMDDPLADPSCVPLYFVSREARKHVTVVLSGEGSDELFGGYNIYREPDSLKYFDKMPSFMKGLLKRVSAVLPEGVKGKSFLDRGTTPLRERYIGNAKMFEEEEKRELLKTYDEQLSYQQVTGKLFDQVKDYPYVNQMQYVDIHTWMRGDILLKADRVTMAHSLELRVPFLDKEVFRIANEIPVDLKIANGTTKSLLREASRGIVPDHVLDRKKLGFPVPIRHWLKNELNGWAKQLIHESETDHLLHKNYILQLLDAHCQGKGDYSRKIWTVLMFMLWHKNFVEKKFDVSTLNENTGELIFS PGPT0020150_1824 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953 NA NA AK015_03813 1206 metK S-adenosylmethionine synthase ATGGCTACGAATCGACGTTTATTTACTTCTGAATCTGTAACAGAAGGTCATCCTGATAAAATATCAGATCAAATTTCTGATGCTATCTTAGATGAAATATTACAATCGGACCCTTATGCTCGTGTTGCATGCGAGACAACCGTTACGACAGGTCTTGTATTAGTGGCAGGTGAAATATCTACGACTACTTATGTTGACATCCCAGCAGTCGTACGAAAAACGGTTGAGGAGATAGGTTATACGCGAGCAAAGTTTGGTTTTGATGCTAAAACTTGTGCTGTATTAACGGCAATAGATGAGCAATCTCCAGACATTGCTGGAGGCGTAAATAAGGCATTGGAAGCAAGACAGGGACGAATGAGCGAGGAAGAAATTGATGCTATTGGAGCTGGTGACCAAGGTTTAATGTTTGGATTTGCTTGCGATCAAACGGAAGAATTAATGCCACTACCGATTTCTTTAGCACATAAGTTAGCTAAACGATTGTCAGATGTCCGTAAAAGGCGTATCTTGGATTACTTGAGACCAGATGGAAAAACACAAGTAACCGTAGAATATGGAGAAGAAGGGCAGCCTATTCGAGTTGATACCATCGTTATTTCCACGCAACACCATCAAGATGCAACTGTGGAACAAATTGAAAAAGATTTATTAAAGCATGTTATTTTTCCAGTAGTCCCAGCACATTTGTTAGATGAAACAACAAAATACTTTATCAATCCAACTGGGCGATTTGTAATAGGTGGCCCACAAGGTGATGCAGGTTTAACTGGAAGAAAAATTATTGTGGATACGTATGGTGGTTATGCACGACATGGCGGGGGGGCATTTAGTGGTAAGGATGCAACGAAAGTAGATCGTTCTGCCGCTTATGCAGCAAGGTATGTTGCAAAAAACATTGTCGCTGCAAAATTAGCTAAGAGTTGTGAAGTTCAACTTGCTTATGCGATTGGTGTAGCAGAACCGGTGTCAATTGCTATTGATACGTTCGGAACAGGAATCGTTCGTGAAGAAGTATTGGTTCAAGCTGTGAGGAAGTTGTTCGACCTTCGTCCTGCTGGGATTATTCATATGCTTGATTTACAAAAGCCAATATTTAGAAATACAGCTGCATATGGTCACTTTGGGCGTACAGATGTTGTATTTCCTTGGGAAAAAACGGACAAAGTAGAAGAATTAATTGCATTAGTAAAAGAACAGCAGTAG MATNRRLFTSESVTEGHPDKISDQISDAILDEILQSDPYARVACETTVTTGLVLVAGEISTTTYVDIPAVVRKTVEEIGYTRAKFGFDAKTCAVLTAIDEQSPDIAGGVNKALEARQGRMSEEEIDAIGAGDQGLMFGFACDQTEELMPLPISLAHKLAKRLSDVRKRRILDYLRPDGKTQVTVEYGEEGQPIRVDTIVISTQHHQDATVEQIEKDLLKHVIFPVVPAHLLDETTKYFINPTGRFVIGGPQGDAGLTGRKIIVDTYGGYARHGGGAFSGKDATKVDRSAAYAARYVAKNIVAAKLAKSCEVQLAYAIGVAEPVSIAIDTFGTGIVREEVLVQAVRKLFDLRPAGIIHMLDLQKPIFRNTAAYGHFGRTDVVFPWEKTDKVEELIALVKEQQ PGPT0020000_2102 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 AK015_03815 1587 pckA Phosphoenolpyruvate carboxykinase (ATP) ATGAAAACGGTAGAAAAATCATTTGTAACCGAATTATATGCACATCCTTATTTGTTGTCGAATTTATCTGTACCACAACTTGTAGAAAAAATTTTAGCTAGAAAAGAAGGAAAGTTATCAGCAACTGGAGCTGTTCAATCTGAAACAGGAGCTTATACTGGTCGCTCTCCTAAAGATAAATTTATTGTAAAAGATGAAATGAGCGAAAAGTATGTTGATTGGGGAACGGTAAATCGTTCTGTTAGCGAAGAGACTTTCAATAAGCTTTATCAAAAAGTCGTTGCCTATTTAAAAAACAAGTCGGAAATCTTTCATTTTAAAGGATATGCTGGAGCAGACCATGAATACCGTCTTCCTTTGCAAGTGATTAATGAATATGCATGGCACAATCTCTTTGCCAGACAATTATTTATCACACCTACGAAGGAAGAACTAGAAAAGCATCAGCCAGAATTTACTGTTATATCTGCACCAACATTTAAAGCTAACCCAAAAGTAGACGGTACAAATTCAGAAGCATTTATTCTTGTATCATTTAAACAACGTATTGTATTAATAGGCGGAACCGAGTATGCTGGTGAAATTAAAAAATCTATTTTTTCCGTTATGAACTATTTATTGCCACAACGTAATGTATTATCGATGCATTGCTCTGCTAACGTAGGTAATGAAGGTGACGTTGCCTTATTTTTTGGTTTGTCAGGAACAGGAAAAACTACGTTATCCGCTGACCCATATCGTCGTCTAATTGGTGATGATGAGCACGGTTGGGGGCCTAATGGTGTATTTAATATAGAGGGCGGATGTTACGCTAAATGTATCAATCTATCGCAGGAAAAGGAACCACAAATTTATGATGCCATTAAATTTGGTACAGTATTAGAAAACGTCGTATTGGATGAACAATCTAGAATTCCTGATTATGATAACACAATCTTAACAGAAAACACACGCGCAGCATATCCGTTAGAGAACATGGATAATATTGCAATTCCTAGTATGGCAGGACACCCAAATACAATTATTTTTCTAACTGCAGATGCGTCCGGAACATTGCCTCCAATTAGTAAATTAACAAAAGAACAGGCTATGTATCACTTTCTAAGTGGCTATACGAGTAAACTAGCAGGTACAGAAAGAGGTGTAACAGAACCACAGGCGACCTTTTCAGCTTGTTTCGGTTCTCCGTTCCTCCCGTTAGCACCATCTAAATATGCCGCTATGCTGGGGGAGAAAATTGACGCCTATCAATCAAATGTCTTCCTCGTTAATACTGGTTGGACAGAAGGATCCTACGGTGTAGGAAAGCGTATGAAGCTATCTTATACACGGGCTATGATTCATGCTGCTCTAGAAGGAGAATTACATGGCGTAGAAACAACAAAAGATCAAGTTTTCGGATTGGAAATTCCAATGCATGTGCCTGGAGTCCCTGATGAAGTATTAATTCCGAAAAACACGTGGCAAGATAAAGCCGCTTATGACCAAACAGCAAAACAGCTTGCAATGAAATTTCATGAGAATTTCAAACAATTTACGGAAGCTCGTGAAGATATTGCTAATGCTGGCCCTATTTTTAAGGGTTAA MKTVEKSFVTELYAHPYLLSNLSVPQLVEKILARKEGKLSATGAVQSETGAYTGRSPKDKFIVKDEMSEKYVDWGTVNRSVSEETFNKLYQKVVAYLKNKSEIFHFKGYAGADHEYRLPLQVINEYAWHNLFARQLFITPTKEELEKHQPEFTVISAPTFKANPKVDGTNSEAFILVSFKQRIVLIGGTEYAGEIKKSIFSVMNYLLPQRNVLSMHCSANVGNEGDVALFFGLSGTGKTTLSADPYRRLIGDDEHGWGPNGVFNIEGGCYAKCINLSQEKEPQIYDAIKFGTVLENVVLDEQSRIPDYDNTILTENTRAAYPLENMDNIAIPSMAGHPNTIIFLTADASGTLPPISKLTKEQAMYHFLSGYTSKLAGTERGVTEPQATFSACFGSPFLPLAPSKYAAMLGEKIDAYQSNVFLVNTGWTEGSYGVGKRMKLSYTRAMIHAALEGELHGVETTKDQVFGLEIPMHVPGVPDEVLIPKNTWQDKAAYDQTAKQLAMKFHENFKQFTEAREDIANAGPIFKG PGPT0001405_2099 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 AK015_03816 990 hypothetical protein ATGAAAAAAATTCTATTTTTCCTGCTCTTCAGCAGCATACTCTTGTTTTTAACAAGTTGTAATAATGAAAACTCCAATAAGAAAATTCAATTAGCTGAAGTTACTCGTTCCATTTTTTATGCACCGCAATATGTCGCTTTAGAAAAAGGATTTTTTAAAGATGAGGGGTTAGATGTAGAATTGCAAACCACATGGGGTGGTGATAAAACGATGACTTCCCTATTATCAGATGGATCGGATATCGCTTTAGTTGGAGCGGAAACGTCTATTTACGTCTATGCTCAAGATTCAAAAGATATTGCTATTAACTTTGCTCAACTAACGCAAACAGACGGAACTTTTTTAGTAGCAAAAGAAGAAAAATCAAATTTCAGTTGGGATGAATTAAAGGGAACATCATTTTTAGGACAACGTAAAGGCGGCATGCCACAAATGGTTGGAGAATACGTACTTAAACAGCAAGGAATTGATCCACATGAGGACTTAAACTTACAACAAAATATTGAGTTTGCTCATATTCCTAGTGCATTTGTGTCTGGAGATGCTGAATATGTACAATTATTTGAACCAACTGCGAGTGCATTTGAAAAAGAAGGAAAAGGCCATATTATTGCTTCTTTCGGAGAAGAATCAGGAATTGTTCCATATACCGTTTATATGGCAAAACAAACCTATATGGATGAACACGAAACAGAGATGAAGGGTTTCACGAAGGCTATTTACCGCGCACAACAATGGGTTGCAGAGCAGCCTGCAGAAGAAATTGCTCAAACGATTCAACCTTATTTTGAAGATACAGAGTTAGAAATGCTAACCTCATCTATAGAACGCTATAAAAGTCAAGGTTCCTTTGCAACGGAGCCATTATTACAAAAAGATCCATGGAATAACTTGAAAAACATTATGGAAGAAGCGGGAGAATTACCAGAAGATGTAGCTTATGAAGAACTCGTCAATACAACATTTGCAAAGGATGTATTACAAGATTAA MKKILFFLLFSSILLFLTSCNNENSNKKIQLAEVTRSIFYAPQYVALEKGFFKDEGLDVELQTTWGGDKTMTSLLSDGSDIALVGAETSIYVYAQDSKDIAINFAQLTQTDGTFLVAKEEKSNFSWDELKGTSFLGQRKGGMPQMVGEYVLKQQGIDPHEDLNLQQNIEFAHIPSAFVSGDAEYVQLFEPTASAFEKEGKGHIIASFGEESGIVPYTVYMAKQTYMDEHETEMKGFTKAIYRAQQWVAEQPAEEIAQTIQPYFEDTELEMLTSSIERYKSQGSFATEPLLQKDPWNNLKNIMEEAGELPEDVAYEELVNTTFAKDVLQD PGPT0001135_6480 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051 NA NA AK015_03817 792 nrtD_2 COG1116 Nitrate import ATP-binding protein NrtD ATGACACTTTTAATATTAGAAAATATTACTCATTACTACTTTTCTAAGCAAGGAGCTACAAAAGCATTAAAGGATATTTCTATATCTATTCAAGAAGGGGAGTTTATTTCATTATTAGGACCAAGTGGTTGTGGGAAATCGACGATTCTTTCTATTATGGCAGGTATTATCCAGCCTACAGAAGGAAATGCTAGCTTAAAAGAAAAAGCAATCCAATCCCCTTCTTCAGAAATAGGCTATATGCTGCAACAAGACTATTTATTTCCATGGAAAAGCATATTAGATAATATCCTTTTAGGGCCGAAAATAAATCAGACAGCTACGAATAAAATAAAAGAAAAAGGTATGGAGCTATTACAAGAAGTGGGAATAGAGCATGTAGCTGCTGCATATCCTGATGCATTATCAGGAGGGATGCGGCAACGAGCAGCCCTCGTACGAACTTTGATCAATGACCCGATGATTTTACTGTTTGATGAACCTTTCTCTGCTTTAGACTACCAAACAAAGTTAAAGTTAGAGGATTTAGTCGCAATACTGTTAAAAACATACCGTAAAACAACCGTACTTGTTACTCATGATATTGGCGAGGCCATTGCTATGAGTGACCGTATCTTTGTCATGGATACAAACCCTGGAACCATATCAAAAGTATTTGACGTACCTATCGAGCTACGTAATGAACAACCATTTCTAGCAAGAAGGCATCCTAAATATCAGCTATTATTTGATAAAGTATGGGATGAATTGGATAATCGCAAAAATGTCGCATTCTTAGGAGGAGGTAAATAA MTLLILENITHYYFSKQGATKALKDISISIQEGEFISLLGPSGCGKSTILSIMAGIIQPTEGNASLKEKAIQSPSSEIGYMLQQDYLFPWKSILDNILLGPKINQTATNKIKEKGMELLQEVGIEHVAAAYPDALSGGMRQRAALVRTLINDPMILLFDEPFSALDYQTKLKLEDLVAILLKTYRKTTVLVTHDIGEAIAMSDRIFVMDTNPGTISKVFDVPIELRNEQPFLARRHPKYQLLFDKVWDELDNRKNVAFLGGGK PGPT0001140_4828 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049 NA NA AK015_03818 801 ssuC_2 COG0600 Putative aliphatic sulfonates transport permease protein SsuC ATGGCTCAAAGCAATGCCGAAGAACAATTATTTCAACAATATTTATCCTCTGTCCAAAAAGAAAAAAAGCATGTGCTTATTTGGCAACTTTTAATCCTAATCAGTTTTGTATTCCTTTGGGAGATCGCTAGTCGATTTTACTGGATCGACCCACTATTGTTTAGCTCTCCTTCTACGATATATCAAGTCATTGTAGATAAGATGAAAGATGGGTCACTTCTTGCACATATGCAAGTCACTTTATTAGAAACAGTCGCTGGATTTTTGATTGGAACTATTGTAGGTATTTTCCTTGCCACCTCCCTATGGTTTTCCAAGCGTTTATCTAACATATTAGATCCTTATCTTGTTATCTTAAATGCTATGCCTAAAGTAGCATTAGGTCCGATAATCATTGTTGCATTAGGGCCGGGATATGTATCCATTATTGCAATGGGAGCCATTATATCCGTAATCATTACAACACTTGTCGTCTATTCAGCATTTAATGAAGTAGACCCTAATTACGCAAAAGTACTGCAAAGTTTTGGAGCAACTAAACGGCAAATTTTTCAGCACGCCATTTTCCCTGCCACATTACCAACGATGATTTCTACACTAAAAGTAAATGTTGGGCTTTCCTGGGTTGGCGTCATTGTGGGTGAATTTCTTGTTTCAAAACAAGGGTTAGGTTATTTAATTATTTATGGCTTTCAAGTGTTTGACTTCTCGCTTGTTATGATGAGTTTAGTATTAATAGCTATTTTTGCAGCTATCATGTATAAGCTTGTAGAAAAAATAGAAAGCTGGTTAATCAAATAA MAQSNAEEQLFQQYLSSVQKEKKHVLIWQLLILISFVFLWEIASRFYWIDPLLFSSPSTIYQVIVDKMKDGSLLAHMQVTLLETVAGFLIGTIVGIFLATSLWFSKRLSNILDPYLVILNAMPKVALGPIIIVALGPGYVSIIAMGAIISVIITTLVVYSAFNEVDPNYAKVLQSFGATKRQIFQHAIFPATLPTMISTLKVNVGLSWVGVIVGEFLVSKQGLGYLIIYGFQVFDFSLVMMSLVLIAIFAAIMYKLVEKIESWLIK PGPT0001145_5694 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-RELATED_FUNCTIONS N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050 NA NA AK015_03819 468 ytkD COG0494 Putative 8-oxo-dGTP diphosphatase YtkD ATGTATACATTTAAAGATTATTACCATAATGAAGTAAAATTATCCTTTGCAGATCAACCCTATTCTAATTCTCCGCTTCATGTTTGGGTCATATGCGTATATAAAGATAAATGGCTGTTGACGAAGCATAAAGAAAGGGGATTGGAATTTCCAGGAGGGAAAGTAGAAAGAGGGGAAAGTGCAAAAGAAGCAGCTATTAGAGAAATTAAAGAAGAAACTGGAGGCATTGTTGAAAAAATAAGCTATGTTGGTCAATATTTTGTTTCTGGTAAGTTTGAAAATGTCATTAAAAATGTCTATTTCGCAACAATTTGTTCATTGGAGAAACAAAAGACATATTATGAAACTTGTGGACCTGTTCTACTAGAACACATCCCTGTAGATGTGAAGCAACGTGAAGAGTACAGTTTTATGATGAAAGACGGTGTGTTAACGTATTGTTTATCACATTTGAACTTACAGTTGTGA MYTFKDYYHNEVKLSFADQPYSNSPLHVWVICVYKDKWLLTKHKERGLEFPGGKVERGESAKEAAIREIKEETGGIVEKISYVGQYFVSGKFENVIKNVYFATICSLEKQKTYYETCGPVLLEHIPVDVKQREEYSFMMKDGVLTYCLSHLNLQL NA NA NA NA NA AK015_03820 531 hypothetical protein ATGAATAAACGACGCATCGTTTATAGCACGACCCTGCTTATCATTATCATGTTGTTATCGCTTGTAGTATTGCATATACAAACGCCAACTGCTTCAGGAGATGCGCTAAAAGAAACAGCGCAAGCTACTGTTAATGCAGAAGTCAACCCGTTAACGGAAGAAAAAATAACGAACATAACAGAACAATTTATGGATATTTTACTGCAACCTATTCATAGAGATTATCGTGTGAAGAAATTAGGTTCTAAACAAGATCTGTATGAAGAGTTTAGCTCCGTTGCTACATATTCAGTTGCTAAACCTTTTGTAGAGTATTATTATAGGGAAAAGAGTGGTGGTCTGTACCTTCGTCCAACGAGTAAGCCAGCTTGGTTTTTAAAAGGGGAGCCTTATGAAATCACTGAGCAAAGTGATAATCAAGTTATTGTAACACAAACAAACGAAACAACTTTTTATGGAGATTACACAATAAAATTCGCATTTTCCTTTGATAAACAATGGAAAATAACAAATATTGAATATCCTAAATGA MNKRRIVYSTTLLIIIMLLSLVVLHIQTPTASGDALKETAQATVNAEVNPLTEEKITNITEQFMDILLQPIHRDYRVKKLGSKQDLYEEFSSVATYSVAKPFVEYYYREKSGGLYLRPTSKPAWFLKGEPYEITEQSDNQVIVTQTNETTFYGDYTIKFAFSFDKQWKITNIEYPK NA NA NA NA NA AK015_03821 312 hypothetical protein ATGGAAAAGCAAAAATATTACGTTCAAATGGGATCAGGAGAAATATCAAGGGTGAAGTATCACAATAATGATGAATTTGTTATTTACGCAACGGAGCAAGAAATTATACAATTACGTGAAGCCTTTGATGAAGCAAATGCTTCTGGAATACGTTCATTCTTTCGGGCACATATTCCAGCAGTTCCTTACCATAATGATGCAGCAAATGATGAGTATGACAGTGATATGATCAAGGCGTTCAAACTTGTACATGATTTAGGAGATGAAAAAACGAGAGCGCATATTCAAGAAATGGGCATTTTAGATACGTAA MEKQKYYVQMGSGEISRVKYHNNDEFVIYATEQEIIQLREAFDEANASGIRSFFRAHIPAVPYHNDAANDEYDSDMIKAFKLVHDLGDEKTRAHIQEMGILDT NA NA NA NA NA AK015_03822 132 hypothetical protein ATGAAGATTGATCAACATTATTTACTCGCTAATTATAGCGAGTTTTTTTACGCTCTAGGAAAGGATGAATTTTGGTGTAAACAACAGCTTGTTTTGTCGATCAACCAAGTTTTTAACTTCTTAAATAGGTAA MKIDQHYLLANYSEFFYALGKDEFWCKQQLVLSINQVFNFLNR NA NA NA NA NA AK015_03823 1368 mepA Multidrug export protein MepA TTGAATTGGGGTGATGTAATGAGCATAGTTGAACAAAAATTAGGGAGTCAGCCTGTTAAAAAGAGCTTTTTTCAGTATTTTCTCCCTACTATTCTAGGTATGATGCTTATGTCCGTAAATATCGTCATTGATGGTATATTTGTTGGTAATGGTGTAGGCTCCCTTGCTTTAGCAAGTGTAAATATAGCAGTTCCTGTTTTTTCAATTATTATTTCCATTTCTTTATTAATTGGTGTTGGTGGTGGGACGTTATACTCCATTGCAGTTGGGTCTGGCGATAAAGAGAGAGCAAAGCGTTTATACACCATTTCTATCGTGCTTGTAACGATAATAAGCCTATGTATTAGTGTTTTTGGGCTCCTATTTATGGAGCCTTTAGCAAGGCTCTTTGGAGCAAATGCTGAAACATTGCCCTATGCTTTAGACTATATGCGTATTTTGTTTCTGTTTTCATTAGTCTTAGCTTTGGAAGTATGTTTAAGTATTTTCGTGCGAAATGATGGTGACCCACAATTAGCGATGATCGGTTTAATTGTGGCAGCCATTGTTAATGTTATTTTAAACTACGTAATGATATTTATCCTTGAATGGGAAGTTACTGGAGCTGCGATTGCTACTTCAGTGGCAACACTTATTGGTTTAATCATTTATTCGTTGCATTTCTTTAAAAAAGGCTCTGGTCTAAAATTGACAAAAATAGTCTGGAAGAAGGCCGATTTGAAACAAATAAGCGCCATTGGTCTACCTAGCTTTTTATCCGAAGCAGGTATTGGTGTTTTTGTAATGGGGTACAATATTGCCATTGCTTATTATGCTGGTACAAATGGGCTGGCAGCTTTTTCAGTAATTAACTATTTGCATACTTTTATGTTACTCGCATTTATCGGTATAGGTTCATCCATTCAACCTATGATTAGTTATTATTATGGGGCCAAAAAATTTACTTCTATTAAAGAAACAGTGAAAATTGCAGAAATAACCGGTTTTCTGCTTGGTGGTTTATTTCTAGTTATTGGTTACTTAGGTGCGGATTTGCTTGTATCTATTTTTGGGGTCGATTCCAATGAAATTAAAGACCTGGCTGTAAGAGGGATTAAATTGTTTTTCTTAGGGTACTTGTTTATGGGAGTGAATTTTATTTATATGACATACTATCAATCTATTGGCTACGTTCGTCCATCAGTGGGCATAACGCTGTTCCGAGGATTTATTTTATTAATTGCTATGCTTCTTATCTTGCCAATGTTATTAGGAACTACAGGTGTCTGGCTTGCACTACCAGTGTCGGAGACGATCGTTGCTCTTGTACTTTTATTGGTAGCCAGAAAAGGAGTTATGCATAATCAATTAGAGATAAGAGGCTTTTAA MNWGDVMSIVEQKLGSQPVKKSFFQYFLPTILGMMLMSVNIVIDGIFVGNGVGSLALASVNIAVPVFSIIISISLLIGVGGGTLYSIAVGSGDKERAKRLYTISIVLVTIISLCISVFGLLFMEPLARLFGANAETLPYALDYMRILFLFSLVLALEVCLSIFVRNDGDPQLAMIGLIVAAIVNVILNYVMIFILEWEVTGAAIATSVATLIGLIIYSLHFFKKGSGLKLTKIVWKKADLKQISAIGLPSFLSEAGIGVFVMGYNIAIAYYAGTNGLAAFSVINYLHTFMLLAFIGIGSSIQPMISYYYGAKKFTSIKETVKIAEITGFLLGGLFLVIGYLGADLLVSIFGVDSNEIKDLAVRGIKLFFLGYLFMGVNFIYMTYYQSIGYVRPSVGITLFRGFILLIAMLLILPMLLGTTGVWLALPVSETIVALVLLLVARKGVMHNQLEIRGF NA NA NA NA NA AK015_03824 468 hypothetical protein ATGAAACGTTCTTTTATACATGTTTTTTTACCGGAAGATGAATATAAGCAGATGCGAATAGTAACCATTTTAGTTGAAGTAGCTGTTATTGTCTCAGCCCTACTGATGCTATGTTTATTCGCCGGTAGCTGGTTCAATTGGCATATGGGTGGATATTTGACCGCATTTTTTATCTTTGGTTTTATTTTATTTTACACTTATGTACGCTATATTCTGTCAGGTATGGAATATGCAGAGATAGCAGGTGAGATTAATTACAACAAAGCTAAAAGGAAAGTGTATAGTCAATCGATTCGTTTTGGAATTATTTTCAGTATAGTAATGTTTGTTACAAGAGGTATTCCAAATAATTGGATAGGTGTTTTAGATATCGTAGGTCCATCGATACTTGCTACAATTTTTTACTTTATTTTTGATCGTCTTTCATTAAAAAAATCATACAAGAAAAATAAAGACTTATTGGATTAA MKRSFIHVFLPEDEYKQMRIVTILVEVAVIVSALLMLCLFAGSWFNWHMGGYLTAFFIFGFILFYTYVRYILSGMEYAEIAGEINYNKAKRKVYSQSIRFGIIFSIVMFVTRGIPNNWIGVLDIVGPSILATIFYFIFDRLSLKKSYKKNKDLLD NA NA NA NA NA AK015_03825 195 hypothetical protein ATGGCAAATAAAATAAAATTGGCACGAGTTGAGAAAGGGTTAACACAGGCTCAACTTGCCAAAAGAGTTCATGCGACAAGACAAACGATAGGCCTTATTGAAAAAAGTAAATATAACCCAAGTTTAAACTTATGTATTGCAATAGCGAAGGAGTTAGGAAAGTCATTAGATGATTTATTTTGGGAGGAATCATAA MANKIKLARVEKGLTQAQLAKRVHATRQTIGLIEKSKYNPSLNLCIAIAKELGKSLDDLFWEES NA NA NA NA NA AK015_03826 441 COG1765 Hydroperoxide reductase ATGGCTAAATCTACATTTCGAGCCGCTGCTCAACTGCAGGATGGTGTTCAAGTTAAAGTTAAATCAAGAAATTTTGAAATTACAGTCGATGAACCTAAGAACTTAGGTGGTACAGATACGGGAATGAACCCAGTGGAATTAGTGCTTGGTGCTCTTGGAGCTTGTCAAGCAATTGTTGCACGAGTTTTTGCTAAAAAATTTAATATTGAATTTAGTGACTTTTGGATTGAATTGGAAGGTGACTTAGATCCAGATGGTTTTATGCACAAAGCGGATGTGAGAAAAGGTTATTCGGAAATCCGTTACAACGTGCATATAAAAACCGACGCACCTCAAGAAAAAGTAAAAGAGTTTGTTGCATTTATTGAAGATACTTGCCCAGTAGGGGATACATTGGCAAATCCAGTTAATACAAAGTTAAATAACATTGTTATCGAATAA MAKSTFRAAAQLQDGVQVKVKSRNFEITVDEPKNLGGTDTGMNPVELVLGALGACQAIVARVFAKKFNIEFSDFWIELEGDLDPDGFMHKADVRKGYSEIRYNVHIKTDAPQEKVKEFVAFIEDTCPVGDTLANPVNTKLNNIVIE NA NA NA NA NA AK015_03827 1449 menE COG0318 2-succinylbenzoate--CoA ligase ATGCAAACAGTAATACCGCATTGGCTTACTAAGCAGGCGGAGATATCACCTGAGCAAATAGCAATTCAAAATGGTAATGGAAGTACACTTACATTTCAACAGCTAAAGGAAAGTAGTCAGAATTATGCTAGAAAATTGGCTGCTTTAGGCGTGTCAAGCGGAACTCATGTTGCGGTGCTTTCAACGAATAAACAGGAGATGGTAGTTGCCATTCATGCATTAAGTTATTTGCAGGCAGTAGTTGTTTTACTAAATAGTAGATTAACAAGTGAGGAATTGACTTATCAATTGAAAGACGCTGAAGTGTCATTCTTACTTTATGATGGATCATTAGCTCCTCTGTCCGAAGAAATACCTTTCTCACAAAGCCTATCTTTTACTGCTGTTAATCATTTACAGCCAAAAGATGTGAAATTAGCAACAGAAATAAATTTGCAGACGCCGTTTACGATGATGTATACATCTGGCACAACAGGTTTTCCTAAAGGAGTGGTACATACATATGGAAATCATTGGTGGAGTGCGGTAGGGAGTGCACTAAATCTAGGAATTCAAAAAGAAGATAAGTGGTTAGCTGTATTGCCTTTATTCCATGTTAGTGGTCTGTCCATTCTGATACGTAGTGTTATCTATGGGATGACTGTCTATTTATTAGAAAAGTTTAACAGAAAAAAGGTGCATCATGTGATTTTAACAAAAAAAATAACAATGATTTCCGTAGTAACCGTTATGCTGCAGCAATTGTTAGACGAGTTAGGGGAAGATTCATATCCTGCATATTTACGCTGTATGTTATTAGGCGGAGGGCCAGCTCCAAAACCTTTGTTGGAACAAGCGAAAGAAAAAAACGTACCAGTTTTCCAATCTTTTGGGATGACTGAAACGGCTTCACAGATTGTTACATTAAGTGCTAAAGATGCTTTAAAGAAAATTGGTTCTGCGGGAAAACCTTTATTTCCGGCGCAATTAAAAATTAATACACCGGATGAAAACGGAGTTGGTGAAATATTTGTTAAGGGACCGATGGTTACAAACGGCTATTATAATAATGAATCTGCAACAGTAAATGCCATTCACAATGGTTGGCTAGCTACAGGGGATTTAGGTTATTTGGATAAGGAAGGTTACTTATATGTGGTTGACAGGCGGAGTGATTTAATTATTTCTGGTGGAGAAAATGTATATCCTTCCGAAGTAGAAAGCACAATGGCACGTTTTCCGGGTATCAAAGAAGTTGGTGTGACAGGTAAAGCTGACCCGAAATGGGGGGAGGTTCCAGTTGCTTTTATTGTAACGGATCAAACCTACAACCATGGGGAACTACAATGTTTTTTAACCGAACATTTAGCTGCTTATAAACGCCCCAAAGAAATACATGAGGTAGATTACTTACCACGTAATGCTTCTAATAAGCTAGTTCGTCTAGAGTTGAAGAAATTAATAAAGTGA MQTVIPHWLTKQAEISPEQIAIQNGNGSTLTFQQLKESSQNYARKLAALGVSSGTHVAVLSTNKQEMVVAIHALSYLQAVVVLLNSRLTSEELTYQLKDAEVSFLLYDGSLAPLSEEIPFSQSLSFTAVNHLQPKDVKLATEINLQTPFTMMYTSGTTGFPKGVVHTYGNHWWSAVGSALNLGIQKEDKWLAVLPLFHVSGLSILIRSVIYGMTVYLLEKFNRKKVHHVILTKKITMISVVTVMLQQLLDELGEDSYPAYLRCMLLGGGPAPKPLLEQAKEKNVPVFQSFGMTETASQIVTLSAKDALKKIGSAGKPLFPAQLKINTPDENGVGEIFVKGPMVTNGYYNNESATVNAIHNGWLATGDLGYLDKEGYLYVVDRRSDLIISGGENVYPSEVESTMARFPGIKEVGVTGKADPKWGEVPVAFIVTDQTYNHGELQCFLTEHLAAYKRPKEIHEVDYLPRNASNKLVRLELKKLIK PGPT0009380_391 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911 NA NA AK015_03828 99 hypothetical protein ATGCTTTTAAAGAAAAAAGGCAGCCAAACTTTAAAAAGTTTCCTCGCTTTCCTTAATTTAAAAACTGTTTTAAAGGAAGTAGCTGAAGTAAATGTATAA MLLKKKGSQTLKSFLAFLNLKTVLKEVAEVNV NA NA NA NA NA AK015_03829 819 menB_2 COG0447 1,4-dihydroxy-2-naphthoyl-CoA synthase GTGGCAGTACAATGGGAAAAAGTAAGAGATTATGAAGAAATTTTTTATGAAAAATATAATGGCATCGCTAAGGTAACGATCAATCGCCCTGAAAAGCGAAATGCGTTTACTCCATTAACTGTAAATGAAATGATTGATGCATTTGCGGATGCGAGAGATGATTCTGACATTGGTGCAATTATTTTAGCAGGAGAAGGGGACAAGGCGTTTTGTTCAGGTGGTGACCAATCAGTACGTGGGCATGGTGGTTATGTAGGTAGTGACCAAGTGCCAAGATTGAATGTATTAGACTTGCAACGCTTAATTCGTACAATTCCAAAACCGGTAGTTGCTATGGTGTCTGGGTATGCTATTGGCGGTGGACATGTCTTGCACGTCGTGTGTGATTTAACGATTGCTGCAGACAATGCTATTTTTGGACAAACTGGTCCGAAAGTAGGTAGTTTTGACGCTGGTTATGGCGCTGGCTTGCTTGCTAGAATGGTCGGTCATAAGCGTGCAAGAGAAATTTGGTACTTATGCCGTCAATACAATGCTGAGGAAGCTTATGAGATGGGTTTAGTTAATACAGTTGTATCATTGGAAAAATTAGAAGAAGAGACGATTCAATGGTGTGAGGAAATGTTATCCAAATCTCCAACTGCATTGCGTTTCCTAAAAGCTTCCTTTAATGCAGATACAGATGGGCTAGCTGGACTCCAACAAATGGGCGGCGATGCAACGCTGCTTTACTACACAACAGAAGAAGCAAAAGAAGGAAGAGATGCTTTTAAAGAAAAAAGGCAGCCAAACTTTAAAAAGTTTCCTCGCTTTCCTTAA MAVQWEKVRDYEEIFYEKYNGIAKVTINRPEKRNAFTPLTVNEMIDAFADARDDSDIGAIILAGEGDKAFCSGGDQSVRGHGGYVGSDQVPRLNVLDLQRLIRTIPKPVVAMVSGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDAGYGAGLLARMVGHKRAREIWYLCRQYNAEEAYEMGLVNTVVSLEKLEEETIQWCEEMLSKSPTALRFLKASFNADTDGLAGLQQMGGDATLLYYTTEEAKEGRDAFKEKRQPNFKKFPRFP PGPT0009385_1760 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661 NA NA AK015_03830 801 menH_3 COG0596 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase GTGTACTTTTCCACAAATGATGCTACGTATTGGTATGAAATAGATGGCGAAGGATATCCCCTTGTTTTATTACATGGATTTACGGGTAGTAGTGAAACGTGGCAACCATTTATAACGAAATGGAAGCAAGAATGGCAAGTTATCACGATTGACCTTCCAGGACATGGAAAGACGAACGCGAAACATAAATCCATGGAAGCATGCTGTAGAGATATTGCTTCACTATTGCAATATTTACAGCTTGAACCTGTTCATCTGCTTGGTTATTCTATGGGCGGAAGAACAGCCATTGCATTTGCAATAAGTTATCCTGAATGGGTCAATGGTATTATATTAGAAAGTACTTCTCCAGGTCTTGAAGATTTACTAGAGCGGCAAAAACGAAAACAAGCAGATGATGAATTAGCAAAGAAAATAGAACAAAAAGGTCTAGCATGGTTTGTTTCCTATTGGGAAAACATCCCCCTATTTTCTACGCAACAAAAAATGTCCACCAATAATCAAACCAGAATTCGAAAAGAACGCATGCGTCAATCTGCTGTTGGTCTTGCTGATTCCCTCCGCTTTATGGGGACAGGTACACAGCGGTCCTATTGGAATGAATTAGCTTCCATGGATAAGCCTGCTTTTCTAATAACTGGTGAGTTAGATCAAAAGTATTGTGTTATTATGGAGAAAATGTCTCGCATCTTGCCAAATGCAGTGCATCATATGGTTCCTGATGCTGGACATGCAATTCACGTGGAGAAACCGAATATTTTTGGTAAAATAGTAAGTAGACATTTAGAAAGTTTAACATAA MYFSTNDATYWYEIDGEGYPLVLLHGFTGSSETWQPFITKWKQEWQVITIDLPGHGKTNAKHKSMEACCRDIASLLQYLQLEPVHLLGYSMGGRTAIAFAISYPEWVNGIILESTSPGLEDLLERQKRKQADDELAKKIEQKGLAWFVSYWENIPLFSTQQKMSTNNQTRIRKERMRQSAVGLADSLRFMGTGTQRSYWNELASMDKPAFLITGELDQKYCVIMEKMSRILPNAVHHMVPDAGHAIHVEKPNIFGKIVSRHLESLT PGPT0009370_572 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009370-menH-K08680 NA NA AK015_03831 1749 menD COG1165 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase ATGAACCATACAGAAGTTTTGACGCGATACGTGACGAATTTTGTCGATGAATTAGTTGTTAATGGTTTGACAGACGCTGTTATTTCTCCTGGATCTAGATCCACGCCATTAGCGCTAACACTGGCTGAGCATAAAGAAATAAAGGATTGGGTTATTATTGATGAAAGGTCGGCTGCTTTTTTTGCGTTAGGACTTGCGAAAAAAAAGAAACGTCCTGTTGTACTTGTTTGTACTTCTGGAACAGCGACAGCCAATTATTATCCTGCAATTGTGGAAGCCTATCATAGTCGAGTTCCACTCATCGTGTTAACTGCTGACAGGCCACATGAATTAAGAGGAATAGGCGCGCCTCAAGCAATTGATCAAATAAAAATGTATGGAGATTTTGTGAAATGGTTTCACGAAATGGCACTTCCAGAAGCAGGAACTGCCATGCTACATTATGTGCGAAATAAAGCGGCAAGCGCTTACCATATCGCGAAGGAAGGAAATCAGGGAGTTGTTCACTTGAATTTTCCTTTTCGTGAACCATTAATGGTGGATTTTAGTCTTAATGATGTATGGGAAATAAATGATATTTCCTGTACAAGTCCCATATTACCGACGTTTGAAGGGAAAAAGCATTTGTCTAAACAGCAAGTGGAAGAAATTTTGCGTCAATTAGCAGGTAAACAAAGAGGGGTTATTGTATGCGGACCGCAAACAGATTTGCATTTTCCAGTTGCGGTTACGAAGCTTGCTGAGAAGTGGGGACTTCCTATTTTAGCTGACCCTTTATCGCAAGTTCGATCTGGGGCTCATGTTTCTGATGTAATTATTGAAGGATATGATGCGCTACTGCGTAATAAAACCATTCGGGAAAAACTAAAGCCTGATTTTATTATTCGTTTTGGGGCCATGCCTGTTTCGAAAGCCTATTCTTTCTATGTGAAGCAACACCAGGATGCACTTCAAATGGTCGTTGAAAATGATGAAGGTTTCCGCGAACCAACTAATAATCCGACGACGTTTATTTTTGCAGAACCAACTACTTATTGTGAGGCTTTAGCAGATGCAGGGACTGAAACTACATCAAAAGAATGGTTGCAATTGTGGAAGCAATTTAACGACATTGCGAAGATGCATTTAAATGACCAATCAGATATTGAAATTAGAGAAGGGGAAGCGATTCGTGCTGTCATGGATTCAACTCCAAACCAGAGCACAATTTTTGTAGGCAACAGTATGGCAATTCGTGATTTAGATTCGTTCTTTTGGAAAACAGATAAACAAATAGAAGTGCTTGCCAATCGAGGGGCAAATGGTATTGATGGTGTTGTATCTTCTGGTTTAGGCGCTTGTGCGGCTGGGGTAAGAGTTACGCTTGTATTAGGCGATTTATCTTTTTTTCATGATATGAATGGGCTGCATGCGGCGATGCATTACCAATTGCCATTGACTATTTTATTAATTAATAATAATGGTGGTGGAATATTTTCCTTTTTATCGCAGGCTGATGATAAAAAACATTTTGAAGCTTTATTCGGTACACCTTTACATATCGATTTCAAGTATGTTGTTCATATGTATGGAGGTTATTATGTGCATGCAAAAACAGAAGCGGATGTGAAGCAGAAACTCATTGAAAGTTACAACAGAGAAGGTCTGTCCGTAATTGAAGTGAAAACAAATAGAGACATGAATGCCAACTGGCACAAAACGAAATGGCAGGCCATTGAACAGGAAATTTTGGAGGAGAGGAATAGATAG MNHTEVLTRYVTNFVDELVVNGLTDAVISPGSRSTPLALTLAEHKEIKDWVIIDERSAAFFALGLAKKKKRPVVLVCTSGTATANYYPAIVEAYHSRVPLIVLTADRPHELRGIGAPQAIDQIKMYGDFVKWFHEMALPEAGTAMLHYVRNKAASAYHIAKEGNQGVVHLNFPFREPLMVDFSLNDVWEINDISCTSPILPTFEGKKHLSKQQVEEILRQLAGKQRGVIVCGPQTDLHFPVAVTKLAEKWGLPILADPLSQVRSGAHVSDVIIEGYDALLRNKTIREKLKPDFIIRFGAMPVSKAYSFYVKQHQDALQMVVENDEGFREPTNNPTTFIFAEPTTYCEALADAGTETTSKEWLQLWKQFNDIAKMHLNDQSDIEIREGEAIRAVMDSTPNQSTIFVGNSMAIRDLDSFFWKTDKQIEVLANRGANGIDGVVSSGLGACAAGVRVTLVLGDLSFFHDMNGLHAAMHYQLPLTILLINNNGGGIFSFLSQADDKKHFEALFGTPLHIDFKYVVHMYGGYYVHAKTEADVKQKLIESYNREGLSVIEVKTNRDMNANWHKTKWQAIEQEILEERNR PGPT0009365_511 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551 NA NA AK015_03832 1395 pchA COG1169 Salicylate biosynthesis isochorismate synthase ATGATAGAAGTACAGGGTCAGCAAGTTGAAGAACTTTTGCGTGAGGCTATTAACCAGATGGGATTAAAGCAAAGGACACAACTTGTAAGTATTACGAAACGAGTAGAAGCACAAGATCCCGTTCTCTTCTTTGCATCTGCTGCAAAGTTAAATAAAGAGCGTTGTTTTTGGATGAGTACAAAGGATGCATTTTCCATTGTCGGTGTAGGAAATGTGTTTGAAATAAATGCGAACGAAGATCGTTTTCAATATATAGAAGAAACATGGAAAAAATTATTAGATGATGTATGGGTTTATAATCCATTTAAAGCTCCAGGAACAGGGTTAGTGACTCTAGGTGGGCTAGACTTTGACCCAAAGAAACCTAGAACGGATCTGTGGAATGATTTTCCAAGACTTCAATTTAAAATCCCAGAATATATATTGACGAAAAATAATAGTGATTTCTATTTAACGATAAACATAAAAGTATGCAAAGACGATCATCCGATTCAGCTATTGAAAGCGATAGAAGCTGTGGAGACAAAGTTGTTTCAAACTGTAAAAGAGCAGCTTGACTTACCCAAAATTATTCATAAAAAGGTGATTGCTCCAGAACAATGGAAAAAAACGGTTCAAAGAGCGAAGCAAGAGATTCGACAAAAGCAAATGGATAAAATTGTACTTGCAAGAGAAATGCGACTTACGTTTAGTAAGCAAGTTGATATTAGTCAAATGCTAAGTGATTTAATTGATAAACAATCTAATAGTTATATTTTTGCTTTTGAACAAAGTGATAAAAGTTGCTTTGTAGGCGCTACTCCCGAACGACTTGTAAGGATAGAGAAAAAGGAGTTGTTATCCACCTGTTTAGCAGGAACTGCTCCAAGAGGCGCTACAGTGGAGGAAGATCAACGAATTGCTGCTACGCTTTTCCACGATCCTAAAAATAGAGAAGAACATGACTTTGTTGTGCAGATGATAAAGCAAGGCATTAATAAGTATTGTACAGATGTGCAAATACCAGATATACCAGTAGTTTATCCATTAAAAAATTTACAGCACTTATATACACCTGTTACGGGAATACTTAAAGATGGTTATACTATTTTTAATGTCATTAAAGAATTGCACCCCACTCCTGCATTAGGGGGAGTTCCCAGAGATTTGTCTATGACTTTTATCCGAAATAATGAGCGGTTAGATCGTGGTTGGTATGGCGCACCAGTCGGTTGGTTAGACAGTAATGACTATGGGGAATTTGCTGTAGCTATTCGTTCAGCATTAATCCAAGATGATGAAGCTTCTTTATTTGCTGGCTGTGGAATCGTGAAGGACTCAGATCCAGAAGAAGAATTTGCAGAAACTGAAATAAAATTTTCACCAATGCTGACTGTTTTAGGAGGACAAGCATGA MIEVQGQQVEELLREAINQMGLKQRTQLVSITKRVEAQDPVLFFASAAKLNKERCFWMSTKDAFSIVGVGNVFEINANEDRFQYIEETWKKLLDDVWVYNPFKAPGTGLVTLGGLDFDPKKPRTDLWNDFPRLQFKIPEYILTKNNSDFYLTINIKVCKDDHPIQLLKAIEAVETKLFQTVKEQLDLPKIIHKKVIAPEQWKKTVQRAKQEIRQKQMDKIVLAREMRLTFSKQVDISQMLSDLIDKQSNSYIFAFEQSDKSCFVGATPERLVRIEKKELLSTCLAGTAPRGATVEEDQRIAATLFHDPKNREEHDFVVQMIKQGINKYCTDVQIPDIPVVYPLKNLQHLYTPVTGILKDGYTIFNVIKELHPTPALGGVPRDLSMTFIRNNERLDRGWYGAPVGWLDSNDYGEFAVAIRSALIQDDEASLFAGCGIVKDSDPEEEFAETEIKFSPMLTVLGGQA PGPT0009360_413 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552 NA NA AK015_03833 939 menA COG1575 1,4-dihydroxy-2-naphthoate octaprenyltransferase ATGCATGCATCTAATAAAGTAACCGTAAAACAAGCGCTCAATGAAAGGGATGGTTTACAAATATGGTGGAGGTTATTACGTCCTCACACATTAACTGCTTCATTCGTACCAGTATTTGTTGGCTCAATGCTTGCTTTTCATGAAGGGCATATGAATCTACTACTTTTCTTCGCCATGCTAATTGCTTCTATGCTTATTCAAGCGGCGACAAACATGTTTAATGAGTATTATGACTTTGTAAAAGGTCTTGATAATGAAGGTTCCGTTGGTATTGGGGGTACAATCGTACGAGATGGTATTAAACCGAGAACAGTACTAAGCTTGGCATTAACCTTTTTTGGAATGGCAATGCTACTTGGTCTTTATATTAGTGCAACTTCAAGCTGGTGGATTGCAGTTATTGGTTTAATATGTATGCTTTTCGGATATTTATATACAGGAGGTCCTTTACCCATTGCCTATACTCCATTAGGTGAATTATTTTCAGGATTCTTGATGGGAACTGTGATTATCGGAATTAGTTATTACATTCAAACAAAAACCATTACTGCAGAAGTGTTGTTTGCTTCCATTCCAATTGCGATTTTCATCGGCGCTATCTTACTTTCTAACAACATTAGAGACCTAGAAAATGATAAGGAAAACGGACGCAAAACATTAGCAATTTTATTAGGGAGAAAGAATGCTATCGTGTTTCTAGGAATGATGTTTATAGTTGCCTTCGTAATAACCGCATGGCTTATTATCGAAAACATTTTTCCAATATGGTCATTGATTACCTTTATTGGGGCAATTAAAGCTGTAGATGTTATCCTAAAATTTAAAGGTAAAACGCAACCACTTGAAATGATGCCAGCAATGGCTGCAACGGGTAAAACTAATTCCATTTATGGGATTTTATTAGGAATTTCATTATTTATCAGTACGTTTGTGAATTAG MHASNKVTVKQALNERDGLQIWWRLLRPHTLTASFVPVFVGSMLAFHEGHMNLLLFFAMLIASMLIQAATNMFNEYYDFVKGLDNEGSVGIGGTIVRDGIKPRTVLSLALTFFGMAMLLGLYISATSSWWIAVIGLICMLFGYLYTGGPLPIAYTPLGELFSGFLMGTVIIGISYYIQTKTITAEVLFASIPIAIFIGAILLSNNIRDLENDKENGRKTLAILLGRKNAIVFLGMMFIVAFVITAWLIIENIFPIWSLITFIGAIKAVDVILKFKGKTQPLEMMPAMAATGKTNSIYGILLGISLFISTFVN PGPT0009395_635 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_K_METABOLISM PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548 NA NA AK015_03834 387 COG2050 Putative esterase ATGGCTTACCCGAATACACTAATGGAAGCACTTGGAATTGAGACAGTAACAATGACGAAGGAAAAAGTACAGCTTACCATGCCAGTCGATAAGCGAACACGCCAACCATTTGGATATTTACACGGAGGTGCCTCCGTTGCATTAGCAGAATCAGCTGCTAGTATTGGGGCGAGTTTGCATGCTGACCTCCAAACGCAAGCCGTTTTCGGAATAGAAATTAACGCTAACCATATTCGAAGCATTAAAAATGGGAAGGTTACAGCTACAGCACTTCCGATACACATTGGCAAGTCAACGATGGTCTGGGAAATAAAAATTACCGATGCAGAAAATTGGCTCTTATGCGTTTCTCGATGCACCATTGGTGTTATTACCAAAGAAAAATAA MAYPNTLMEALGIETVTMTKEKVQLTMPVDKRTRQPFGYLHGGASVALAESAASIGASLHADLQTQAVFGIEINANHIRSIKNGKVTATALPIHIGKSTMVWEIKITDAENWLLCVSRCTIGVITKEK PGPT0001845_2209 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 AK015_03835 354 yocK COG1734 General stress protein 16O ATGAAAACACATCTTACTGAAGACAAGTTATTTGAGTTTAAAGAACGACTCTTAAAGTTGAAAAAAGAAACAGAAGAAGCAATAGAAGCCAAAGTTACGAAAGTACCAAATGAATCTTTGGAGAAGCTGGCAGATTACGATAATCACCCAGCAGATATGAGTTCGGAACAATTTGAACAGGAAAAACAAGCAGGAATACAACAAATGCTAGAAAAACAATTACAAGATATTGATGATGCGCTACAGAAAATCGAAATGGGTACATTTGGTTTAAGTGAAAAGTCTGGAAAACCAATCTCAATTGAACGTCTAGAAGCACAACCAACAGCACGTTTTTTAGTAGGAGAAAAATGA MKTHLTEDKLFEFKERLLKLKKETEEAIEAKVTKVPNESLEKLADYDNHPADMSSEQFEQEKQAGIQQMLEKQLQDIDDALQKIEMGTFGLSEKSGKPISIERLEAQPTARFLVGEK PGPT0014560_3354 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 AK015_03836 972 COG3191 putative aminopeptidase GTGGCTTATGGGAACATAACGGATGTACCAGGGATAAAGGTAGGAAATGTTGAAAATATGGAAGCGATAACAGGGTGCTCTGTCGTTGTGGCAGAAAATGGTGCGGTTTGTGGTGTAGATGTTCGAGGATCAGCGCCAGGAACAAGAGAAACAGCATTATTAGATCCTGTAAATACTGTGAATCAAGTACATGCAATTACGCTTTCTGGTGGTAGCGCGTTTGGCTTAGCCACAGCTGATGGAGTAATGCGCTATTTAGAAGAGCAAGGAATAGGTTTAGATGTTCGTGTTGCTAAGGTCCCGATTGTTCCTGCAGCAATTTTATTTGATTTAGCTGTTGGTGATAGCAAGGTTCGTCCAGATAAAGAAATGGGTTACCAAGCAGCCAAACAAGCTAAAAAAGGATATTTTTCTTTTGGGAATGTTGGTGCAGGATGTGGTGCAACGGTCGGAAAAGTAGCGGGCTTCAAACATTGTATGAAGGGAGGATTAGGAAGTGCGTCAGTAGAACTTGATAATGGCATAGTTGTCGGAGCATTCGTAGCTGTAAATGCAGTTGGAGATATTAGACACCCAGACACAGGAGAAATATTAGCAGGACCAATAGATTTGGACACCCAAGAAATGATGGACAGTATTACTTATATGCAAAAACACCAAAGTCAAAAGTCTGCTGGTATGAACACGACAATTGGTGTGATAGCTACGAATGCTTTGCTTACGAAAGCAGAGGCTACCAAGATTTCACAAATAGCTCATAATGCTTTGGCAAAGACAATCTATCCTGCACATACGCAAATGGACGGTGATACGATCTTTACTTTAAGTACAGGGCAACGAAAACAATCCATTGATTTAATAGGAGCTATGGCTGTAGAAACATTGGAAGAATCCATTGTCCAAGCAATTCTAGCAGCAGAGTCCGTTGGAGGTATTCCTGCTTATCAAACATATAAGCTGAGAAATAGGTAG MAYGNITDVPGIKVGNVENMEAITGCSVVVAENGAVCGVDVRGSAPGTRETALLDPVNTVNQVHAITLSGGSAFGLATADGVMRYLEEQGIGLDVRVAKVPIVPAAILFDLAVGDSKVRPDKEMGYQAAKQAKKGYFSFGNVGAGCGATVGKVAGFKHCMKGGLGSASVELDNGIVVGAFVAVNAVGDIRHPDTGEILAGPIDLDTQEMMDSITYMQKHQSQKSAGMNTTIGVIATNALLTKAEATKISQIAHNALAKTIYPAHTQMDGDTIFTLSTGQRKQSIDLIGAMAVETLEESIVQAILAAESVGGIPAYQTYKLRNR NA NA NA NA NA AK015_03837 768 ywqE COG4464 Tyrosine-protein phosphatase YwqE GTGATCGATATTCATAGTCATATATTACCATGTGTTGACGATGGAGCGAAAACAGAACAACAAAGTTTGGAAATGGCTAAGGCAGCTATAGACCAAGGAATTCATACAATCATCGCTACACCACATCATCAAAATGGTGCTTTCAATAATTTTCGTTGGGAAATAGAAAACCATGTAGAAATATTAAATGATTTCTTTCAAAGGGAAGGTATGCCGCTAACGGTTTTGCCTGGTCAGGAAACACGTATTTATGGGGAAATGGTAGATGCTATTAGGCAAAACGAACTACTTCCGTTAAACTATGGTAAGTATTTATTTGTGGAGTTCCCTTCTGACGCTGTACCACGATACACCACACAACTTATATTTGATATTCAAGTAGAAGGTTATACACCAATAATTGTGCATCCGGAAAGAAATCGAGCACTTCTCGAACATCCGAATCTATTATATGATTTGGTGTCCAAAGGTGCACTTTCCCAAGTCACAGCTGGTAGTGTAGTAGGTAAGTTTGGAAAAGATATTCAGAAGTTTACTGCGCAAATCATCGAAGCAAATTTAACACACTTTATTGCATCTGACGCGCATAATACGACTTCACGTTCTTTCTACCTACAAGAAGCCTTTGAAGATGTGAAGAAAAACTTTGGTTCAGACTATTATTATATGTTCTTAGAAAATAGTAATTTACTTGTCGATAACAATCATGTAAATCGCTTAGAACCAATGCGAGTGAAAAAGAAAAAGAAATTCCTTGGGCTTTTTTAA MIDIHSHILPCVDDGAKTEQQSLEMAKAAIDQGIHTIIATPHHQNGAFNNFRWEIENHVEILNDFFQREGMPLTVLPGQETRIYGEMVDAIRQNELLPLNYGKYLFVEFPSDAVPRYTTQLIFDIQVEGYTPIIVHPERNRALLEHPNLLYDLVSKGALSQVTAGSVVGKFGKDIQKFTAQIIEANLTHFIASDAHNTTSRSFYLQEAFEDVKKNFGSDYYYMFLENSNLLVDNNHVNRLEPMRVKKKKKFLGLF PGPT0014530_2039 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 AK015_03838 705 lnrK_4 COG2197 Transcriptional regulatory protein LnrK TTGATACGGGTGATGGTAGTCGATGACGAGCAGCTTTTTTCGGATGGTGTGCAAGCATTATTGATCCAAGAAGAGGATATGCAAGTCGTTACAACAGCTACAAATGGGAAGTCAGCTATCCTTCAATTCAAAGCATATCAACCAGACCTTGTGCTCATAGATATCCATATGCCACATACTGATGCGATTAAGCTTATTGTACATATTAAAGAGTCTGATGCTGATGTGAAAATTCTTGTCCTTACTTCGTTTACAGATGAAGACCTTATTGTGGCAGCCATTTATGCTGGTGCAGACGGATTTATATTAAAAAAATTGAACAGGGAGCACCTGATTACATGTATGCGTTATGCCATGCAAAATGAGGTTGTCTTTTCCGGAGAGGTTGCGCAAATTTTGGCGAAACGTATACTAGAACGCAAGCTCGATAAACGAGAGTTGCTTAATGAGGCGCTAAAACATAGAGGGATCTATTTATCAAACCGGGAACTTGATGTTGCTTATTTACTGGCAGAAGGCGTTTCAAATAAAGATATAGCCAACCGATTATATTTAAGTGAAGGCACAGTGAAGAATTACATCAGCAGTATATATCAAACATTTCAAACAAATAATCGGAAGCAATTAATAGCATATTTTCAAGAGTTGTTAGAAAAAAGTCAAACTGATGAGATAAATGCCTTATACCATATTCTAGACTGCTGA MIRVMVVDDEQLFSDGVQALLIQEEDMQVVTTATNGKSAILQFKAYQPDLVLIDIHMPHTDAIKLIVHIKESDADVKILVLTSFTDEDLIVAAIYAGADGFILKKLNREHLITCMRYAMQNEVVFSGEVAQILAKRILERKLDKRELLNEALKHRGIYLSNRELDVAYLLAEGVSNKDIANRLYLSEGTVKNYISSIYQTFQTNNRKQLIAYFQELLEKSQTDEINALYHILDC NA NA NA NA NA AK015_03839 1830 pglF COG1086 UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase ATGGGGTACAAATCAAGACTGGGTCTGTTGATTTTGCTAGACTCAGTAATTGTCACAACTGCTATTTTTATTGCATCGTGGGTCGTATACCCTTATACCGATGTTGTCAGCATGGACGCGATCATTATTAGCGCAGTTGCACTTTTAATTTTTCATCATGTATTTGCGTACATCTTTAAGCTGTACAACAAAGTATGGGCCTACGCCAGTGTTGGCGAGTTAATCGCTATCGTACAAGCAGTAACCTTTTCCGTCCTTTGTGCTTCGCTTGTACAATACCTTGCTAATGACTTTAGTATTTACAGACGTGCATTGCTCGTTACATGGATGTTACATATTATATTTATTGGTGGCTCCAGATTTATTTGGCGTGTACTACGCGACAGATATATAAAAGATAACCACGAACATAAACGAACACTTATTGTTGGTGCTGGAGCAGCAGGTGCGATGATTGCGAGACAATTGCGTGATCAGAGTAAGGAAACGGAGCTTCAACCAGTCGCTTTTGTTGATGATGATTTAACGAAACAGAGAATGCAATTATACAATATACCAGTTCAAGGAAAAGTACGAGACATCCCGGAAGTGGTTGGCGATATGAATATCGAACATATCGTAATTGCCATTCCGTCGCTTCGTAATGGGCAATTGAAGAAAATTGTAGATTTTTGTAACCAGACGAATGCGAAAGTGCAAATGATCCCGAAAATTGAAGATTTAATGACAGGTAAAGTGACCGTAAGTAGCTTGAAAAATGTCGAAGTTGAGGATTTACTCGGTCGTGAACCAGTGCAACTCGACATTCATGCGATTTCCAAATATGTGAGTGAAGAAACGGTCATGGTGACAGGCGCTGGCGGGTCGATCGGTTCCGAAATATGTCGACAAGTGATGAAATTTTCTCCTAGTAAAATAATATTAGTAGGACATGGTGAATTCAGCATTTATACGATTGATATGGAATTACGGGGAAAATATCATGACGCAGGCATTGAAATCGTTCCCGTTATCGGTGATGTACAAGATCGTGATCGTATGTTTGAAATTATGGAAATGTACAAGCCAGCCATTGTTTATCATGCGGCAGCGCACAAACATGTACCGTTAATGGAGCAGAACCCGCATGAAGCGGTAAAGAATAATATTATCGGTACTAAAAATGTCGCTGAAGCTGCAGATACATTCGGTATACATACATTCGTATTAGTTTCAACGGATAAAGCGGTCAATCCGACAAATGTCATGGGCGCAACGAAACGAATTGCAGAAATGGTGATTCAAGACTTAGCAGTTCGTAGTAAAACGAAATTTACCGCAGTCCGCTTTGGTAACGTACTAGGAAGTCGTGGTAGTGTTATTCCACTGTTTAAGAAGCAAATTGCTGCTGGTGGTCCTGTTACGGTGACGGACCCACAAATGACACGTTACTTTATGACGATTCCAGAAGCATCTAGACTTGTTATCCAAGCAGGCTCTTTAGCTAGAGGGGGCGAAATTTTTGTTCTTGATATGGGCGAACCAGTAAAAATCGTCGACCTCGCAAAAAATTTGATCAAGCTATCTGGCTATACGGAAGAAGAAATTCCCATCCAATTTTCCGGCATTCGCCCAGGGGAAAAAATGTACGAAGAACTTCTTGGGGAAGATGAAGTACATTCTGAAGCGGTGTATGAAAAAATTTACGTTGGCAAAACGTCCGCCGTCGATCAAGACGTGATTAGAGGAATTATGAATACTTTTGAAAACTACACTCGAAAAGATTTAAAAGATGCACTTATGCAGATTGTTTATATGGAACATGATTATGTCACAGTGAAAGGTTCGTAA MGYKSRLGLLILLDSVIVTTAIFIASWVVYPYTDVVSMDAIIISAVALLIFHHVFAYIFKLYNKVWAYASVGELIAIVQAVTFSVLCASLVQYLANDFSIYRRALLVTWMLHIIFIGGSRFIWRVLRDRYIKDNHEHKRTLIVGAGAAGAMIARQLRDQSKETELQPVAFVDDDLTKQRMQLYNIPVQGKVRDIPEVVGDMNIEHIVIAIPSLRNGQLKKIVDFCNQTNAKVQMIPKIEDLMTGKVTVSSLKNVEVEDLLGREPVQLDIHAISKYVSEETVMVTGAGGSIGSEICRQVMKFSPSKIILVGHGEFSIYTIDMELRGKYHDAGIEIVPVIGDVQDRDRMFEIMEMYKPAIVYHAAAHKHVPLMEQNPHEAVKNNIIGTKNVAEAADTFGIHTFVLVSTDKAVNPTNVMGATKRIAEMVIQDLAVRSKTKFTAVRFGNVLGSRGSVIPLFKKQIAAGGPVTVTDPQMTRYFMTIPEASRLVIQAGSLARGGEIFVLDMGEPVKIVDLAKNLIKLSGYTEEEIPIQFSGIRPGEKMYEELLGEDEVHSEAVYEKIYVGKTSAVDQDVIRGIMNTFENYTRKDLKDALMQIVYMEHDYVTVKGS PGPT0022960_108 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 AK015_03840 882 gtaB_2 COG1210 UTP--glucose-1-phosphate uridylyltransferase ATGCGTACGATTAAAAAAGCGATCATTCCAGCAGCAGGATTAGGGACGAGATTCCTACCAGCAACAAAAGCGATGCCGAAAGAAATGCTTCCAATTGTAGACAAACCAACCATTCAATATATCATTGAAGAAGCCGTACAATCAGGAATTGAAGATATTATTATCGTAACGGGGAAGGGTAAACGTGCCATCGAGGATCATTTTGATAACAATTTTGAACTAGAAGATTCCTTGATGAAAAAGGAAAAGTTTGATTTACTAGAAAAGGTAAAACGTCCTTCCAAAGTCGATATTCATTATATCCGCCAAAAAGAACCAAAAGGATTAGGTCATGCGGTTTGGTGTGCACGTAAATTTATTGGCAACGAGCCATTCGCCGTATTACTTGGTGATGATATCGTGCAAGCTGATACACCTGGACTGCGCCAATTAATGGATCAATTTGAAGAAACACAATCATCTGTCGTTGGCGTACAGCAAGTGCCAGATAGTGAAACGCATCGCTATGGTATTGTCGATCCGAATACAATTGAAGGTCGTCGTTATCAAGTCGATCACTTTGTGGAAAAACCGAAACAAGGTACCGCACCATCCAACTTGGCGATTATGGGACGTTACGTATTAACGCCAGAAATCTTTACCTACTTAGATAAACAGGAAATCGGTGCCGGTGGTGAAATTCAATTAACCGACGCTATTCAAAAACTAAACGAAGAACAAAACGTCTATGCATATGATTTTGAAGGGAAACGCTATGATGTTGGTGAAAAGCTCGGCTTTGTGAAAACAACGATTGATTTAGCATTAGAAAACGAGGAAATTCGTGACGACTTATTGAAGTATTTAGTGGAGAAAGTGCAGGAAGAAAAAGCGTCAGTTTAA MRTIKKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIIEEAVQSGIEDIIIVTGKGKRAIEDHFDNNFELEDSLMKKEKFDLLEKVKRPSKVDIHYIRQKEPKGLGHAVWCARKFIGNEPFAVLLGDDIVQADTPGLRQLMDQFEETQSSVVGVQQVPDSETHRYGIVDPNTIEGRRYQVDHFVEKPKQGTAPSNLAIMGRYVLTPEIFTYLDKQEIGAGGEIQLTDAIQKLNEEQNVYAYDFEGKRYDVGEKLGFVKTTIDLALENEEIRDDLLKYLVEKVQEEKASV PGPT0014875_4073 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 AK015_03841 639 pglC COG2148 Undecaprenyl phosphate N,N'-diacetylbacillosamine 1-phosphate transferase ATGATGTATTTAAAGTTTAAGAGATTGGTAGATATATTATTGTCTTTTATTGGAATTGTGCTCTTATCACCAGCCATTCTTATATTGGTAATAGCTATAAAAATCGATTCCAAAGGACCTGTCTTATTTAAACAAAAACGTGTAGGCTTACATAAAGAACATTTTCATATCTTGAAATTTAGAACGATGCGAATCGACACACCAAAAGATACACCTACCCATTTATTAGAGGATCCGACGCAATATATAACCAAAGTAGGGAAGTTTTTGCGAAAAACTTCCCTTGATGAGTTGCCACAAATATGGAATATCTTCGTAGGGAAAATGAGCGTTATTGGCCCGCGCCCTGCATTGTGGAACCAATACGATTTAATTGCAGAACGTGACAAATATGGAGCTAATGATGTGAAACCAGGATTAACTGGCTGGGCGCAAATTAATGGAAGAGATGAACTGCCGATTGAAGTAAAGGCTAAACTTGATGGTGAATATGTAGAAAAGATGAATTTCTTTTTTGATGTTAAATGCTTTATTGGTACTTTTATTAGTGTGGCAAAAAGTGATGGTGTTGTAGAAGGTGGAACAGGTACCAAAGCGAAGGAAGAAATGGCTTCCAATAAGGAGACTGCTTCTAAATGA MMYLKFKRLVDILLSFIGIVLLSPAILILVIAIKIDSKGPVLFKQKRVGLHKEHFHILKFRTMRIDTPKDTPTHLLEDPTQYITKVGKFLRKTSLDELPQIWNIFVGKMSVIGPRPALWNQYDLIAERDKYGANDVKPGLTGWAQINGRDELPIEVKAKLDGEYVEKMNFFFDVKCFIGTFISVAKSDGVVEGGTGTKAKEEMASNKETASK PGPT0023200_32 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023200-wbqP-K13012 NA NA AK015_03842 873 gnu COG0451 N-acetyl-alpha-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol 4-epimerase ATGAAGAAAATACTTATCACCGGAAAAAATAGTTATGTAGGTAATTCATTTGCAGAATGGGTGGGACAATACCCTGATCAACACGAGATTGATAAGATCAGTCTACGAAATGATGCATGGAAAGAAGTTGACTTTTCTAAGTATGATGTTGTTTTGCATGTGGCAGGGATTGCGCATGTGTCTACAGATCCTAACATGGAAGATCTCTATTATAAAGTAAATAGAGATCTGACTGTAGAAGTCGCTAAAAAAGCAAAAAAGCAAGGTGTAGGTCAATTTATTTTTATGAGTAGTATCATTATATATGGGGAAGCAGCAAGTTACAAAAAGGTTATTAATAGAGATACAGTGCCTACCCCTGCAAACTTCTATGGAAAGAGTAAGCTAGAAGCAGAAAAAAGGATCCAACCTTTAGAAGATGAAAATTTTTGTATTGCAATTGTTAGACCACCTATGATTTATGGCAAAGACTCGAAAGGAAATTATCCTAAATTAGCAAAGGCGGCTCAAAAATTACCATTCTTCCCTGATTTCCCTAATGAACGGAGCATGCTACATATTGACAACTTGTCTGAGTTTATTCGCTTAATGATAGATAATAAGGAAAGTGGAGTGTTCTTTCCACAAAATAAAGAATATGTAAAAACAAGTGAAATGGTACGATTAATTGGTGAAGCACATGGTAAAAAGGTTAAAATGGTGAAAATCTTCAATCCAATAATTAAGCTATTCATGGGTAAGGTTAGTATATTTAATAAGGTATTTGGGAATATGGTTTATGATAGTAATTTAAGTAGGTATAAAGAGAATTATGTTGTAGGAAATCTTCAAATCTCAATAGTAGCTACGGAATTAGAAAGAGGGAAACAATGA MKKILITGKNSYVGNSFAEWVGQYPDQHEIDKISLRNDAWKEVDFSKYDVVLHVAGIAHVSTDPNMEDLYYKVNRDLTVEVAKKAKKQGVGQFIFMSSIIIYGEAASYKKVINRDTVPTPANFYGKSKLEAEKRIQPLEDENFCIAIVRPPMIYGKDSKGNYPKLAKAAQKLPFFPDFPNERSMLHIDNLSEFIRLMIDNKESGVFFPQNKEYVKTSEMVRLIGEAHGKKVKMVKIFNPIIKLFMGKVSIFNKVFGNMVYDSNLSRYKENYVVGNLQISIVATELERGKQ PGPT0026020_1 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-PSL_POLYSACCHARIDE_METABOLISM CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026020-pslA-K20997 NA NA AK015_03843 1089 pglA N,N'-diacetylbacillosaminyl-diphospho-undecaprenol alpha-1,3-N-acetylgalactosaminyltransferase ATGAAGAAAGTGTTGTTTTTAGTTAATCATGATGTAGTGATTTATAATTTCAGATTAGAAATAGTTGAACGTTTGTTACATGAGGGGTATGAGGTATTTATTTCTTCTCCATATGGTGAGCGAATTAATGATTTAATTCGTATGGGCTGTGAATATGTAGAAGCTTCAATATCAAGACACGGTACGAATATAATGGAAGAGCTGAAATTAATATCTTACTATAAAAATATTATAAAAAACATTAAACCTGATATTGTTCTTACTTTTACTATTAAACCAAATATTTATGGGGGAATTGCTTGTAAATCTTTAAAGGTACCATACATAGCAAATATTACAGGTCTAGGGACAGCTGTAGAAACACCGGGTATTATGCAAAAAATATCTGTTGTCCTTTATAAATACGCATTTAGTAAAATTGATTGTGTTTTTTTTCAAAACCAGGAAAACCAACAATTTTTTATTGACCATAAAATAGCGTTAGAGAAACACAATCTAATACCTGGATCTGGTGTAAACTTAGAGAGATTTAAGGTTCAAAATTACCCTTTAGATGATATAATTCAATTTGTTTTTATATCTCGAATTATGAAACAAAAAGGCATTGACCAATATTTAGAAGCAGCGAAGTTTGTAAAGAATAAGTACCCAAAAACAAGTTTTCATATTTGTGGGTTTTGTGAAGAAGAATATGAAGATATATTAGAGGAGTTACATGAAAAAGGAATAATTTTTTATCATGGTATGGTTAGAAATGTGGTAGAAGTTATAAAAAATAGCCATTGCATTGTACACCCTACATATTACCCAGAAGGTATGTCTAATGTACTATTGGAAGCTTCTTCTAGTGGACGTCCTATAATCACTACAAATAGAAGTGGGTGTAAAGAAATTGTTGATGATGGAAAAAATGGATATATTGTTGAGGAAAAAAATAGTAATGATCTCATAGAGAAAATTGAGAAGTTTATAAAACTATCGTTTGAAGAAAAGAAGACAATGGGGTTAGCTGGTAGAAAAAAAGTCGAAGAACAATTTGATAGGCAGATAGTTGTTGATGCTTATATAAATCAAATACAGATGAAATAG MKKVLFLVNHDVVIYNFRLEIVERLLHEGYEVFISSPYGERINDLIRMGCEYVEASISRHGTNIMEELKLISYYKNIIKNIKPDIVLTFTIKPNIYGGIACKSLKVPYIANITGLGTAVETPGIMQKISVVLYKYAFSKIDCVFFQNQENQQFFIDHKIALEKHNLIPGSGVNLERFKVQNYPLDDIIQFVFISRIMKQKGIDQYLEAAKFVKNKYPKTSFHICGFCEEEYEDILEELHEKGIIFYHGMVRNVVEVIKNSHCIVHPTYYPEGMSNVLLEASSSGRPIITTNRSGCKEIVDDGKNGYIVEEKNSNDLIEKIEKFIKLSFEEKKTMGLAGRKKVEEQFDRQIVVDAYINQIQMK PGPT0023205_3 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023205-wbtD-K13004 NA NA AK015_03844 897 hypothetical protein ATGGATTATAAAAAAATAATTAAAAATCAAAAAATACGGTTCAAAATACTAAAAAAGCTTAAATTTGTACCTGATAGCTTTATGGTAAGTATGCAATATTTGATTAAATTGGGTCGTGTACCTAATTTGAAAAAACCGAAGAGATTTACTGAAAAACTTCAATGGTATAAATTATATTATAGAGAACCCCTTATGACACAAGCTTCAGATAAATTTGCTGTTAGAGAGTATATTGAAAGTAAAGGGTTAAGTCATATATTGAATAAATTATATAAAGTATACAACGAAGTAGAAGAAGTAGAAATAGAAGAGTTACCAGAAAAATTTGTTATCAAAACAACCAATGGAAGCGGAACTAATTATTTTTGTAAAGATAAATCGCGATTTCCAATAGAGAAAGTGAAATCTTCTCTGAGTGAATGGATTGATAGGGATATTTATGCTTCAGGTAGAGAGTGGTCTTATAAGAATATCCAGCCTAAAATTATTGTTGAAGAATTGTTAGAGTCAAATGAGAATACTTTTGAAGGTATAAATGATTATAAATTCTTATGCTTTAATGGTAAGCCAGAATATGTTGTTGTGGATGTTGATAGGCATATAAAGCATAAGAGAAATATATATGATATAGAATGGAATTTAATTGATGTCAGTACTGACCATCCTAATTTCAAGACATCTATGGAAAAACCTGAAGGTTTAGAAAAAATGTTGGAAATTGCAAAGGTTTTATCAGAAGATTTCCCTTTTGTAAGAGTAGACCTTTATTGGGTTAACCAACAAATATTTTTTGGTGAGTTAACGTTTTATCCCTGGACAGGCTATGTCCAATTTGAACCAGATGAATTTGATTTCATACTTGGAAAGTTGTTTAAAATAAATAAAATGATTATTTAA MDYKKIIKNQKIRFKILKKLKFVPDSFMVSMQYLIKLGRVPNLKKPKRFTEKLQWYKLYYREPLMTQASDKFAVREYIESKGLSHILNKLYKVYNEVEEVEIEELPEKFVIKTTNGSGTNYFCKDKSRFPIEKVKSSLSEWIDRDIYASGREWSYKNIQPKIIVEELLESNENTFEGINDYKFLCFNGKPEYVVVDVDRHIKHKRNIYDIEWNLIDVSTDHPNFKTSMEKPEGLEKMLEIAKVLSEDFPFVRVDLYWVNQQIFFGELTFYPWTGYVQFEPDEFDFILGKLFKINKMII NA NA NA NA NA AK015_03845 1185 hypothetical protein GTGCAAGTCTTATTCTGTCATGATGGACCATTGAAAGTAGATAGTAAAAAAAACTATTATGGAATAGCTCATAATAATGAAATGTTTCAAAGATATTTTGCCATTGCTGATAATATTGGTGTTGTTATTCGCCTAAATAAAATCACAAAAAATGAAAGCAAAAAAAACTTATCAAAAATTACTCTTTCTCCTTTTAAAGTATATGAAATACCTAATATTAGTACTTTAAAAGGAATAATTTTTAAAAAAAAGAAAGCAAAAAAAATAATTGAAAAAGCTGTCTTAGAATCTGACTACATAGTAGCAAGGCTGCCTAGTATATCTGGATTCATAGCTATAAAATATGCTGAAAAATATAATAAACCTTATTTAACTGAAGCAGTTGCATGCCCATGGGACGCTCATTGGAATCATAGTTTAAGAGGGAAATTAGTAGCACCATTTATGTATTTACAAATGAGGAAGAGAATTTGGAATTCAAAGTATACTGTGTATGTTACAAATCAGTTTTTGCAGAAAAGATATCCCACTAAAGGAAAAAGTGTTAATTGTTCAAATGTTGTTTTAACTGAAATTAATGAAGAAGTATTAGAGAGAAGAATAAAAAAGATAAAAAGAATGAATAGTAATAGAAAAATTATCATAGGTACTACCGCAGCTGTTAATGTAAGATACAAAGGTCAGCAATATGTTATCCAAGCGTTAGGTGAGTTAAAGAAGCGAGGTTATACTAATTTTGAATATCAACTTGTTGGTTCAGGAGATCAGTCTTATTTAAAGCGAGTAGCTGAAGAAAACAATGTTATAGAGCAAGTGCAATTTTTGGGACCGATGTTACATACTAAAGTATTTAATTGGTTAGATAAAATAGATGTTTATATACAGCCAAGTCGTCAAGAAGGTTTACCAAGAGCGCTAATAGAAGCTATGAGTAGAGGGGTTCCCTCTCTAGGTGCTAATACTGCTGGTATCCCTGAGTTATTAGATAAAGAACTTATTTTTAGCAACACCAAGGAAAATTTAAATGAAATAAGTAGAATGCTATTAATCTTAAATAAAGAAAAAATGTTAGAGCAAAGTCAAAGAAATTATAAGGAATCTCAAAAATATAAAAAGGAGATCATTGAGAATAGAAGACAGCTTTTCTATACAGAATTTTGTCAAGTAAATGATAAAAATTATTAG MQVLFCHDGPLKVDSKKNYYGIAHNNEMFQRYFAIADNIGVVIRLNKITKNESKKNLSKITLSPFKVYEIPNISTLKGIIFKKKKAKKIIEKAVLESDYIVARLPSISGFIAIKYAEKYNKPYLTEAVACPWDAHWNHSLRGKLVAPFMYLQMRKRIWNSKYTVYVTNQFLQKRYPTKGKSVNCSNVVLTEINEEVLERRIKKIKRMNSNRKIIIGTTAAVNVRYKGQQYVIQALGELKKRGYTNFEYQLVGSGDQSYLKRVAEENNVIEQVQFLGPMLHTKVFNWLDKIDVYIQPSRQEGLPRALIEAMSRGVPSLGANTAGIPELLDKELIFSNTKENLNEISRMLLILNKEKMLEQSQRNYKESQKYKKEIIENRRQLFYTEFCQVNDKNY NA NA NA NA NA AK015_03846 183 hypothetical protein ATGTCTATTGCAATAAGTATAGTATTTTTGGCTTTTTACTATATTTCTAATAAAAAGCCAAAAAGATTTGTATCAAGTCTAATTGTTCCAGTTTTGGGTAGTAGATATAATGGGTATTCGGAAGTTGGTAAATTTAATATAGACCTGTTTAGCTTTGACACTCTACTTTACTATTATTACTAA MSIAISIVFLAFYYISNKKPKRFVSSLIVPVLGSRYNGYSEVGKFNIDLFSFDTLLYYYY NA NA NA NA NA AK015_03847 198 hypothetical protein ATGAGCTACAATCATCTTACCATATTTGAAAGAGCACGTATAGAAACGCTATATGAACAAGGTAAACCTATTCGTGCCATCGCTGAAAAACTTCAGCGTTCGCCGTCTACCATTTTCAAGAGAGCTAAAACCGTAATTCACAAAAAGAATCCTATAAATCTGAAGATGCTCAAGAGAAATATAACGAACGTCGGTTGA MSYNHLTIFERARIETLYEQGKPIRAIAEKLQRSPSTIFKRAKTVIHKKNPINLKMLKRNITNVG NA NA NA NA NA AK015_03848 759 COG2826 IS30 family transposase IS658 TTGAATTGCGGCCGTGTTGAAAAATGGTCTCCAGAACTAGCGGGAATTATTGATGAAAAGTTGAACCTTATCTGGTCTCCTGAACAAATTGTAGACGATTATTTCAAGGTTCTATTAGTTTCAAAACGATCTATCTATCGTTGGGTTTATCAAGGGCTTTTAGTAAATCAAGATTTACATGTTCTCCGCCACAAAGGAAAGCGTCAGAAACCCCAAGAAACAAGGGGACGTTTCAATGTGGGGACACTTATAAGAAAAAGACCCAAAGAGATTAGAAAACGGAATACCTTTGGCCATTGGGAACTAGATAGTGTTGTCTCTAGCCGTGGAAAGAGTAAGGGATCTTTCTCCACATTTGTAGAACGAAAAACCAGATGGTTCTTAGCTATAAAAACGCCAAACCGGTCCGCTGCCTCCATGGAACGAGCTATTAAAACGCTAAATGAACGATTACCCTCTGGTGCCTTTCAAACAGCCACAGTAGACAGGGGCAAAGAGTTCGCTTGCTATCGTACCATTGAACAAGATACCGATATCAAAGTGTATTTTGCAGATCCTTATTCTTCTTGGCAACGTGGCAGCAACGAGAATGCAAATGGGCTTTTAAGAGAGTTCTTCCCTAAGAAAACGGATTTAGCCAACGTTTCCAATGACGAATTAGAAGATGCTCTATCTTTAATTAATAATAGACCAAGAAAATGCTTGAATTGGAAAACCACACACGAAGCGTTTCAGGAAGAAATGTTGTACTTAATTTGA MNCGRVEKWSPELAGIIDEKLNLIWSPEQIVDDYFKVLLVSKRSIYRWVYQGLLVNQDLHVLRHKGKRQKPQETRGRFNVGTLIRKRPKEIRKRNTFGHWELDSVVSSRGKSKGSFSTFVERKTRWFLAIKTPNRSAASMERAIKTLNERLPSGAFQTATVDRGKEFACYRTIEQDTDIKVYFADPYSSWQRGSNENANGLLREFFPKKTDLANVSNDELEDALSLINNRPRKCLNWKTTHEAFQEEMLYLI PGPT0030610_2613 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482 NA NA AK015_03849 1101 pglJ_2 COG0438 N-acetylgalactosamine-N,N'-diacetylbacillosaminyl-diphospho-undecaprenol 4-alpha-N-acetylgalactosaminyltransferase ATGAAAAGAAAAATAATGTTTTTTTTGTTTTCACTATCTGGTGGTGGTGCTGAGAGAACGATCATTAATATAGTGAATAATCTGGATAAAGACAATTACGATGTTTTATTGGTTTTAGGCACAAAAAAAAATAATGATTACAACATGTTATTAAATAATAATATTGAAATAAAGGTTCTAAATTGTTCTAAGCTTAGATATTGTATTTTTAAATTAGCAAAAAGTATAAGAAAAGAAAAACCAGATATACTTTTCAGTACGATAAATGCCAACAACATCGTTGCTTTATTGGCAAAAATTTTGAGCTTTAAAAGTGTATTTGCTGTTGTTAGGGAGGCTAATAATAGGACTCAGGCTGGAAAAGTAACTAAACTTAATAAGCAAATTACGAAGATCCTATATAATAAAGTTGCTGACAAAATAGTTGCTTTATCTAATGGAGTTAAAAAAGATTTAGTTACCAATTTTTTAATAAAAAAACATAAAGTTCATGTCATTTATAACCCAGTTGAAGTAGATAAAATAAAAGAACAAAGTAGAGAAACTATTAAAGAGAATATAAAAAGTAATGAAGAAAAATTGATTATTGCAGTTGGTAGATTAGTAGAGCAAAAAGATTTCCAATCACTTATCAGAGCCTTCAGTATTGTTAGCACTAATATAGATTCAAAGCTGCTTATTTTGGGGAAAGGTCCTCAAGAGAAAAAGTTAATTGAACTAAGCACAAAATTAGGTGTCAGAGATAAGGTGTGGTTTTTAGGATTTAAAACTAATCCTTACAAATATATGGCGAAAGCTGATCTATTTATTCTAACATCTAAATGGGAAGGTTTTGGACATGTAATAGTTGAAGCCATGGCTACTGGTACACCAGTAATATCGACTAATTGTAAATCTGGACCAGAAGAGATATTACAAGGTGATAGGTATGGGATTCTAGTTCCAGTAGGAGATTATCAAACATTAGCTCAAAAGATTTTTGCAATGCTCGAAAACGATGATCTAAGACAATATTATGTATTAAATGGCTATAAAAGAAGTAAAGATTTTAATGCAAAGCAGATTGTTAAAAAATATGAATTAATATTTGATGTATTGTAA MKRKIMFFLFSLSGGGAERTIINIVNNLDKDNYDVLLVLGTKKNNDYNMLLNNNIEIKVLNCSKLRYCIFKLAKSIRKEKPDILFSTINANNIVALLAKILSFKSVFAVVREANNRTQAGKVTKLNKQITKILYNKVADKIVALSNGVKKDLVTNFLIKKHKVHVIYNPVEVDKIKEQSRETIKENIKSNEEKLIIAVGRLVEQKDFQSLIRAFSIVSTNIDSKLLILGKGPQEKKLIELSTKLGVRDKVWFLGFKTNPYKYMAKADLFILTSKWEGFGHVIVEAMATGTPVISTNCKSGPEEILQGDRYGILVPVGDYQTLAQKIFAMLENDDLRQYYVLNGYKRSKDFNAKQIVKKYELIFDVL NA NA NA NA NA AK015_03850 1263 hypothetical protein ATGAATGAAATATATATTATATTAATATTTATTTTATGTTCTTTACCATTAATACTATTTAAACACCATTCAAAACGAGCTTGGGGAACTATAGTATTAATTTATATCACAGTTTTTACTGTTTTCAACAGCTTATTTACTACAATTTCAATTTTAATTTTGTTGGGATTTATGTATGTATATATAATCTTCTTATTAATGAAAAGAAAACAGATAATTTTAATTAATAGAATTGATTATACTTTCCTTTTCTTCACCATATGGTTTTTATATACAATATTTCAGATGAGCTATGTTTCCTATACAGAGCATACTTTATTGCATTTTCAAGTTTTTATTCTAGGGATAATTTTAATATGGTACATCTCAGTAATTTTGAAGACGCCACAGCATTTTAATACCCTATATATTATATGGGGCATAGGTATATTTTTAACAATACTTTTGGGATGGTGGGAAATAATAACAGGAAACAACTTAGTAATTCTAAAAGAGCATTTTACAGATTTAGTAACAATTAACTATTATAATCCTAATAACTATAGTTTTTTATTAAGTGTAAGCTTTCCAATTATAATATTTTGGATTGAAAAGTTAAATGTTTTTTTTAAGATACTTGGTACTTCAATGCTTGTTAGTTCTATTTATTTCATTATTATAAATGGCTCTAGAATAAGTTTAATAGTTATTCTTTTGGTAGGTCTAATATACTTATTTAGGTTTTTTATTTCTAAAAAAAAATCAATATTATTTATTTCTACAATTATTATCCCGTTAGTAATTGTTGGTTTTGTTCTTGTACAGAATTTAGATAATTATACTGGATTAGAAGTATCTAGAACTGATGAATCATTAAATATAAGAGTATTTTTGTATCAATCAGCCTGGAATGTGTTCTTGGAGCATCCATTAGGTGTTGGTCCTGGGCAACTTGAATTATATATGCCTAAAGTTGGTGATAATTCAAATGTACATAACTATTGGTTGGAGATTTTGGTGAATTATGGTTTTTTAATTTTCGCAGGCTTAGTTATGTTCTTTATTATATCGCTATATAAGCTATTATACGTAATTAGGAATAATCCAAAATTAGAAGGGCTGGCAAGGCCAATTTTTTGGTCAGTTATTATTTTTATCCCGACTTCAATATCGCCTAGTTCAATTTTAACCTTTAGTATAACATGGTATTTAATCGCCGTATTGGTATCAAGCAAAGTGTTTTCCGCATATACAGATCACTCAAAGATCAATCCTCAGAATTGA MNEIYIILIFILCSLPLILFKHHSKRAWGTIVLIYITVFTVFNSLFTTISILILLGFMYVYIIFLLMKRKQIILINRIDYTFLFFTIWFLYTIFQMSYVSYTEHTLLHFQVFILGIILIWYISVILKTPQHFNTLYIIWGIGIFLTILLGWWEIITGNNLVILKEHFTDLVTINYYNPNNYSFLLSVSFPIIIFWIEKLNVFFKILGTSMLVSSIYFIIINGSRISLIVILLVGLIYLFRFFISKKKSILFISTIIIPLVIVGFVLVQNLDNYTGLEVSRTDESLNIRVFLYQSAWNVFLEHPLGVGPGQLELYMPKVGDNSNVHNYWLEILVNYGFLIFAGLVMFFIISLYKLLYVIRNNPKLEGLARPIFWSVIIFIPTSISPSSILTFSITWYLIAVLVSSKVFSAYTDHSKINPQN NA NA NA NA NA AK015_03851 1173 hypothetical protein ATGAATATTGGATTTGTAAGCACTTGGTTTGAGCGAGGTGCAGCTTATGTAACTAGAAACTATATGAACCTTTTAAAGGACAAACACAATGTTTATGTATATGCACGTGGGGGGGAAGAAATGCCTAAAACAAATTCAGATTGGAATTTACCAAATGTTACGTGGGGGTTAAAATTACCAAGCATGTATATAAACTTTAACCATTTTAAGAAATGGTTAAAAAAGAACAAAATAGATACTATTTTTTTTAATGAACAGCAACAAATCGAAATTGTATACCAAGTTAAGCGGAAATTTCCAAATATAAAACTGGGGTCTTATATAGACTATTATAAAGAGAATACTCTAAAAACGTTTTACATTTTTGACTTTTTAATATGTAACACAAAGAGGCATTTTTCAGTATTTAAAGAGCATCCTCAATGTTATTACGTCCCTTGGGGCACTGATATAGAACTATTTAAGCCAAATAAGGAGGAAAATAGTCTTGTTACGTTCTTTCATTCGGCTGGGCATTCGAACAGAAAAGGAACTTCGTTTGTGATTGAGGCTTTCATAAAAGGCGAAATTTATAAAAAAGCAAAATTAATTATTCATACTCAAAAAAATTTCGAAAAAAATTTTAATTATAATATAAAAGAATTGAAAAATTATAATATAGATATAATTGAAAAAACAGTTAAGGCACCTGGATTATATTACTTAGGAGATGTTTATGTATATCCTACTATGCTTGATGGTTTAGGGTTAACTATGTATGAAGCATTAGCGTCGGGACTCCCTGTAATAACAACCGACCATCCACCAATGAATGAAGTAATTAATAACAATGTAGGTTACCTAGTTGATGTTGATTATTTTAGGAGCAGGAAGGATGGATATTACTGGCCATTATCAATTATAAAATTAGATGCATTAGTAAAAGCGATGGATTATTTTATAAAAAACCCTTATATTCTAAAAAAAATGAAAAAAAATGCAAGAATGCAGGCAGAGAAAAATTGGAATTGGAGCAACAGAAAAAAAGTAATTGAAGGTATTTTTGAGAATGCAATAATTTTGGATCAGCAAGTTTCTGATTCGTATATTGATCCCAAAAACAAGCTAACAAAAATTAAACGTAAATTAGGATCGAGTTATTTATATAGTTTTTGGATGACAATCAAAAAATAA MNIGFVSTWFERGAAYVTRNYMNLLKDKHNVYVYARGGEEMPKTNSDWNLPNVTWGLKLPSMYINFNHFKKWLKKNKIDTIFFNEQQQIEIVYQVKRKFPNIKLGSYIDYYKENTLKTFYIFDFLICNTKRHFSVFKEHPQCYYVPWGTDIELFKPNKEENSLVTFFHSAGHSNRKGTSFVIEAFIKGEIYKKAKLIIHTQKNFEKNFNYNIKELKNYNIDIIEKTVKAPGLYYLGDVYVYPTMLDGLGLTMYEALASGLPVITTDHPPMNEVINNNVGYLVDVDYFRSRKDGYYWPLSIIKLDALVKAMDYFIKNPYILKKMKKNARMQAEKNWNWSNRKKVIEGIFENAIILDQQVSDSYIDPKNKLTKIKRKLGSSYLYSFWMTIKK PGPT0023395_405 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-TEICHOIC_ACID_METABOLISM CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023395-mgs|bgsB-K19002 NA NA AK015_03852 114 hypothetical protein ATGGATAAGAATACAAGAAAAAATGCATTTGGTAAATGGATTACGCCAATAAATTTCAAAAAACTTTCGGAACAAATGACAGCTTACAAACAAGATACCTATACAAAAAACTGA MDKNTRKNAFGKWITPINFKKLSEQMTAYKQDTYTKN NA NA NA NA NA AK015_03853 315 COG3385 IS4 family transposase IS641 GTGCCTCCTTACTCCAACGTGTTATCCGACCAGATGGTTTATATCGGATTCACGCAAAAACGTTGTGAAAATGTGTTCGGTCTCCTTGAAGTAACCGATACGAAAGGAAATCTATTACGATTAATCACCAACCGTTTTGATTTAGAACCGGAGGAAATAAGCAACATTTATCGTTCACGCTGGGCGATAGAACTGTTTTTTAAATGGTTGAAACAGCACGTCAAAATCAAACATTTTTACGGGATGAGTGAAACAGCTTTACAAAATCAAATCTATCTGGCACTTATCACCTATTGTTTACATGTACTCATTTAA MPPYSNVLSDQMVYIGFTQKRCENVFGLLEVTDTKGNLLRLITNRFDLEPEEISNIYRSRWAIELFFKWLKQHVKIKHFYGMSETALQNQIYLALITYCLHVLI PGPT0030675_236 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030675-putative_transposase-K07495 NA NA AK015_03854 1440 hypothetical protein ATGAGAGAAGGGTTATTTAGTAAGTTCTTGAAGTTTTCTTATGGGAGTTGGATAGGACTTGTTATAGGGGTAGCAACAACAATGATAATAACAAGATTATTTTCTCCAGATGTATTTGGACAGGTATCTATGTTTGATTTAATGTTGAAATTTGGCATGATTCTTACTATATTTGGAACAGATCAAGCTTTTGTTCGTTTCTATCATGAAGAAGAAGCTGACAAGCGTGGGGGATTATTATACAATACGTTGCGTATTCCTGTTTATAGCACAGTTGTAGTTGTAATCACTATTTTAATTTGTTTTAGACCGATAACAACCTTTATAAGTAGTGGATCAAGTTTAAATATTGCATTGTGGTTAGTTTTTGGTATTGTTGCCCAATTATTATTTAGATATGCGCAATTAGTTATTAGGATGCAACAGAAAGGTAACTTGTATTCCTTACTTCAAATCTTTCAAAAAGTTTTTAATTTAATTTTTATATTAATATTCTTTTATAGTAAAGGTAATAAATTTGAAGTATTAATTATGTCCAAAGTAATTACAACCACATTGTTAGTGATAATTGGTATATACTTCGGTAGAAATATGTGGAGAATAAGAAATTATAATAAACAAACTATGCATTCACAAAATGAAATCTTTAAATTTGGTACTCCTTTTGTACTAACTATTTTCATATCATGGTTGTTTGAGTCATTTGATAAAATTGCGCTTAGACAGTGGAGCAATTTTGAAGAATTAGGATTATATGCTGCAGCTATGAGACTAGTCGCGTTAGTTATGGTAGTGAGGCAAACGTTCTCTACATTTTGGACTCCTGTTGCTTATGAGAAGTTTGAAAAAGCACCAGAAGATAGATTGTTTTTTAGAAATATGACTATTGTTATTTCCTTTGTAATGTTCTTAATAGCAATTGGAAGTATTGCTACTAAGGATGTTATTGTTATTTTACTAGGTAGTGAATATAACCAAGCTGCTTCAATAATGCCTTTTTTAATATTTATGCCTATATTTTATACTATCTCTGAAACTACAGTTATAGGGATAAATTTTTACAAAAAAACAAAAATGCATATATTAATTGCTTCATTGTCCTGTGTTGTAAATATAATTGGAAATTGGCTGTTAGTTCCAAACTTTGGTGCTCTTGGAGCATCTATATCAACTGCAATAGCGTATGTTATATTTTTTACAATAAGAACTAAGATATCCCAAAAATATTTTAAGGTTAATTATCCACTAATTAAAATATATGTAATGGTAGCAGTTACTTCTCTCTATGCAATAATTTCAATCTTTATTACTACATACTGGTTTAATTTATTAGTTAGTATAGTTCCGACATTAGTTTTATTTTTATTATTTTTTAAGGATATCCAGATCATTATAAGAGATAACTTGAATAAAAAAAATAGTTTACAAAGGAGATTTTAG MREGLFSKFLKFSYGSWIGLVIGVATTMIITRLFSPDVFGQVSMFDLMLKFGMILTIFGTDQAFVRFYHEEEADKRGGLLYNTLRIPVYSTVVVVITILICFRPITTFISSGSSLNIALWLVFGIVAQLLFRYAQLVIRMQQKGNLYSLLQIFQKVFNLIFILIFFYSKGNKFEVLIMSKVITTTLLVIIGIYFGRNMWRIRNYNKQTMHSQNEIFKFGTPFVLTIFISWLFESFDKIALRQWSNFEELGLYAAAMRLVALVMVVRQTFSTFWTPVAYEKFEKAPEDRLFFRNMTIVISFVMFLIAIGSIATKDVIVILLGSEYNQAASIMPFLIFMPIFYTISETTVIGINFYKKTKMHILIASLSCVVNIIGNWLLVPNFGALGASISTAIAYVIFFTIRTKISQKYFKVNYPLIKIYVMVAVTSLYAIISIFITTYWFNLLVSIVPTLVLFLLFFKDIQIIIRDNLNKKNSLQRRF NA NA NA NA NA AK015_03855 1026 wbgU UDP-N-acetylglucosamine 4-epimerase ATGTTTTACAATAATAAGTCTACCAACCAGACTTATCTAATCACAGGCTCATCCGGCTTCATAGGTTTCTATCTATCTAAAAAGCTACTAGACCAAGGTTGCATTGTTATTGGTCTAGACAACATGAATGATTATTATGACGTGAAACTAAAAGAAGCTCGCTTGGAACAGTTAAAGCCTTATGAGAATTTCACTTTCATTCAAGGAGATATTTCAGATAAAGAACTAATAATGAGCACTTTTGCAGAATACAAACCAAGTATTGTAGTAAACCTAGCTGCACAAGCTGGAGTTAGATACTCTATTGAAAATCCAGATGTCTATATAGAAAGCAATATAATAGGCTTTTATAATATTTTAGAAGCCTGCAGACATCATCCAGTAGATCATTTAGTCTATGCTTCATCTAGTTCCGTTTACGGTGCTAATAAAAAAGTGCCGTTTGAAGAGACTGATTTTGTAGATAATCCTGTTTCGTTATACGCTGCGACGAAAAAATCAAATGAGTTGATGGCTCATACATATAGTCACTTGTATAAGATACCTGCTACAGGATTACGATTCTTCACAGTTTATGGACCGATGGGAAGACCAGATATGGCTTACTTTGGTTTTGCCAACAAGTACTTTAATGGAGAGCCAATCAAGATTTTTAATAATGGCGATTTTGAAAACGATCTTTACCGTGACTTTACATATATTGATGATATTGTTGAAGGTATTGAACGTTTATTAAGCAAACCTCCTAAGGGAAAAGTGGAACATAAAGTATTTAACATTGGAAATAGCAACCCAGAAAAATTGATGGTTTTTATTGAAACGTTAGAAAAATGTTTAAGCAACGCACTTCATAAAGAAGTAGCTTTTCAAAAAATATTTGAACCAATTAAACCAGGCGATGTCCCTGCCACATATGCTTCAACAGAACAGTTACAACAAGCAGTTGGTTTTCATCCGAAGACATCTATTGAAGAAGGTTTACAAAAATTTGCTGACTGGTATGTAGATTATTATAAAGTGAAGTAG MFYNNKSTNQTYLITGSSGFIGFYLSKKLLDQGCIVIGLDNMNDYYDVKLKEARLEQLKPYENFTFIQGDISDKELIMSTFAEYKPSIVVNLAAQAGVRYSIENPDVYIESNIIGFYNILEACRHHPVDHLVYASSSSVYGANKKVPFEETDFVDNPVSLYAATKKSNELMAHTYSHLYKIPATGLRFFTVYGPMGRPDMAYFGFANKYFNGEPIKIFNNGDFENDLYRDFTYIDDIVEGIERLLSKPPKGKVEHKVFNIGNSNPEKLMVFIETLEKCLSNALHKEVAFQKIFEPIKPGDVPATYASTEQLQQAVGFHPKTSIEEGLQKFADWYVDYYKVK PGPT0019020_1234 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LPS-UDP-GALACTOSE-GLUCURONATE_POOL_MODIFICATION,PGPT0019020-cap1J|wbgU-K08679 NA NA AK015_03856 1167 ugd COG1004 UDP-glucose 6-dehydrogenase ATGAAAATTGCAGTTGCAGGAACAGGGTATGTTGGTTTAGCAAATGCCGTACTTTTAGCTCAGCATAATGAAGTCGTAGCACTTGATATTCTGCAAGAAAAGGTAGATATGATCAATAGTAAACAATCTCCTATTGTTGATGCAGAGATTGATAGTTTCCTTAAAGATAAGGAATTGAATTTACGTGCTACAACAGATATGGAAGAAGCGTATAAAGATGCAGACTATGTGGTGATTTCCACGCCGACAAATTATGATCCAGATAAGAATTACTTTGATACGTCAACCGTTGAATCGGTCATTCGAGATGTATTAGATACGAATCCAAATGCGGTCATGGTAATAAAATCTACCGTACCTGTAGGGTATACGAAAGAGACTAGCATTAAGTTTGCTACGAGCAATATTATCTTTTCTCCAGAATTTTTACGCGAAGGAAAAGCTTTGTATGATAATCTACACCCTTCTCGCATTATTGTCGGGGAGCAGTCAGAACGTGCGAAAATCTTTGCGGATTTATTAGTTCAAGGTGCGGAAAAAGAAGATATTCCTGTCTTGTTTACCAGCTCAACAGAGGCAGAAGCGATTAAATTATTTGCTAATACATACTTAGCTATGCGCGTATCATTCTTTAACGAGCTTGATTCTTATGCAGAACTACGTGGTTTGGACGCCAAACAAATTATCGATGGTGTAGCGCTAGACCCAAGAATTGGTGGGCATTATAATAACCCATCATTTGGTTATGGAGGATATTGCCTGCCAAAAGATACGAAACAGTTGCTAGCAAACTATGAAGATGTACCAAATAATATTATTCAAGCAATTGTAGAAGCAAATCGTACGCGAAAAGATCATGTTGCGAATATGGTATTAGATCGCAAGCCGAATGTCGTAGGTATTTATCGTTTGACGATGAAGACAGATTCAGACAATTTCCGTCATTCTGCGATTCAAGGCGTTATGAAACGGATTAAAGCGAAAGGCGTAGAAGTTATCGTTTACGAACCAGTATTACAGGAAGAAACATTCTACAATTCTCGTGTAGTTAATGACCTTGAAGCGTTTAAAAAAGAAGCGGACGTGATCGTTGCTAACCGTTTAGATGATCACATTCGTGATACCGCTGATAAAGTATATACAAGAGACTTGTTTAGTAGAGATTAA MKIAVAGTGYVGLANAVLLAQHNEVVALDILQEKVDMINSKQSPIVDAEIDSFLKDKELNLRATTDMEEAYKDADYVVISTPTNYDPDKNYFDTSTVESVIRDVLDTNPNAVMVIKSTVPVGYTKETSIKFATSNIIFSPEFLREGKALYDNLHPSRIIVGEQSERAKIFADLLVQGAEKEDIPVLFTSSTEAEAIKLFANTYLAMRVSFFNELDSYAELRGLDAKQIIDGVALDPRIGGHYNNPSFGYGGYCLPKDTKQLLANYEDVPNNIIQAIVEANRTRKDHVANMVLDRKPNVVGIYRLTMKTDSDNFRHSAIQGVMKRIKAKGVEVIVYEPVLQEETFYNSRVVNDLEAFKKEADVIVANRLDDHIRDTADKVYTRDLFSRD PGPT0017855_5368 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 AK015_03857 918 tagU_2 COG1316 Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU ATGAAGCGAAGTGAACGCAAAAAATCTCGTAAGCTATGGCTTAAAATCCCTCTTGCGATTATATTAATTCTTGTAATTGGCGGGGGTGCGTATGCATTTTCGATTTACAATAATGCGAAGTCGACTGTAAACGACAAAATTAATGAACCAGTAGATGCTATTGATACAAAAGTAGCAAAAAAGAAAATTAAAGCGACAGAATCATTAAATATCTTGTTGCTTGGTGTCGATCAACGAGGTGGCGATCGTGGGCGTTCAGATGCGTTAATGGTGCTTTCGTTAAATCCAAAAGAAGATACCATGCAATTGGTAAGCATACCACGTGATACAAGAACGACGATTGTTGGGAAAGGTGTCCAAGATAAGATTAATCACGCCTATGCTTTTGGTGGGACGGATATGTCTGTGGCTACAGTGGAGAACTTCCTTGATATTGATTTAGATTACTATGTACGTATGAATATGGAAGGTTTAGAGGAACTTGTCGATCAATTAGGAACGATTCATGTCGATAATGAAGTTGAATGGGATGACGGCAATTATCACTTTACCAAAGGCCCTGTAGAAATGGATGGCGATAAAACGATGCATTTTGTCCGTATGCGAAAGCAAGACCCTGCAGGTGATTTCGGACGTACAGAACGACAACGCAAAGTAATAGAAGGAATTATTAATAAGGGTGCAAGCGTTGGCTCTGTGAATAAAATTAATGGCGTAATTGATGTATTAGGTAACAACATGGCAACAAATATGGATTTTGATGATATGCAAGACTTGTTATTCGGGTATAAAGATGTACGAAAAAATGTGAACAGCTATATGATGCAAGGAAGCGGCACGAACATTGGCGGTATTTATTATTATCAAGTCCCAGCTGAAGAAGTTGCTAAAGTTCATGATATGATAGCAGGAGTTTAG MKRSERKKSRKLWLKIPLAIILILVIGGGAYAFSIYNNAKSTVNDKINEPVDAIDTKVAKKKIKATESLNILLLGVDQRGGDRGRSDALMVLSLNPKEDTMQLVSIPRDTRTTIVGKGVQDKINHAYAFGGTDMSVATVENFLDIDLDYYVRMNMEGLEELVDQLGTIHVDNEVEWDDGNYHFTKGPVEMDGDKTMHFVRMRKQDPAGDFGRTERQRKVIEGIINKGASVGSVNKINGVIDVLGNNMATNMDFDDMQDLLFGYKDVRKNVNSYMMQGSGTNIGGIYYYQVPAEEVAKVHDMIAGV PGPT0023440_3332 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 AK015_03858 1449 hypothetical protein ATGAAAGAGAGAACAACGTTGAAGAAGACAATGAAACCGCATTGGGTGTTGGCAATTGCGCTAGGCTCGTCCGTTGGTTGGGGGGCGTTTGTACAACCAACCAACTGGATGGGGCAAGCAGGCCCACTTGGTGTTGTTATTGGAATGGTTATTGGTGCCTTATTGATGATGGTAATTTCTGTAAGTTATGGTTTTTTGATTAAGCACTACCCTGTTTCGGGTGGTGGATTTGCTTATGCATTTATCGGTTTAGGGCGAACGCATGCTTTTATAAGTGGATGGTTTCTTACGTTAGGGTATATATGTATTGTTGCATTAAATGCATCTGCGTTAGCATTAATGTTTAAATATGTATTTCCTTCCTTTGTACAAACGTATAAATTGTATGAAATAGGCGGTTGGGATGTGTATGTTACCGAAATTCTTATTGCCACGATTGCCTTACTAGTTTTTGCCTATTTTAATATTCGTGGATCGGGATTGACAGGTAGCGCGCAGTTCATCTTCTGTTTTGTAATGGTGGCGAGTATTCTTGTTTTATTTAGTATGGTCAGCATGTCACCAACGTCTGGTTTCGAAAATGTACAGCCTATATTTCATCCTGAATTAACAACTTTTGGAGCTATTATTTCGATTGTCGCCATTGCTCCATGGGCATATGTAGGTTTTGATAATGTGCCACAGGTTGCAGAAGAATTTAATTTTTCATCCAAGAAAGCGTTTGGTCTCATTATTTTTGCCCTGACTGCTGCGGCATTGATTTATAGTCTTTTGGTAATAACGACTGTCCTACCAATGCCTTGGCTAGATGTCGTGAACGAACAACTTATTTGGGGGACAGGAGCTGTTATCAAGCGTGAACTTGGTGTCATAGGTCTGATTATTTTAACGGTTGCGTTAAGTATGGGAATATTTACTGGTTTAAATGGATTTATCATTTCGACAAGTCGTTTATTATTTTCTATGTCTCGTGCCAAGATATTACCTCAAGTATTCTCAAAGTTGCATCCGAAGTACCAAACACCATATGCAGGAATTATTTTCACCGTCATCATTGCTATGCTAGCTCCATGGTTTGGTCGTGAAGTATTGCTATGGGTAGTAGATATGTCTTCTATAGGCGTGTCCATTGCGTATTTTTACACATGCTTCACAGCCTATTCATTATTGCAATGGTCAAATAAGGCAAGGAACCCTCATAAACAGGTAGCCCCAGTTAAAAAATTGTTTGCTTTAACAGGCGCATTATTTAGTTTGATATTTATAGGATTATTATTAGTACCAGGTTCGCCAGCATTTTTGGGGATAGAGTCCAGAATAGCATTAGTCATTTGGGTTTTACTTGGATTAAGCTTTTATTTACGGAAGCGAAAAGAATATCATGCGATACCTGAGACAGAATTGAGATACTTAGTGCTAGGGGAAGAAAACGAAGCGAAGGAAAAATAA MKERTTLKKTMKPHWVLAIALGSSVGWGAFVQPTNWMGQAGPLGVVIGMVIGALLMMVISVSYGFLIKHYPVSGGGFAYAFIGLGRTHAFISGWFLTLGYICIVALNASALALMFKYVFPSFVQTYKLYEIGGWDVYVTEILIATIALLVFAYFNIRGSGLTGSAQFIFCFVMVASILVLFSMVSMSPTSGFENVQPIFHPELTTFGAIISIVAIAPWAYVGFDNVPQVAEEFNFSSKKAFGLIIFALTAAALIYSLLVITTVLPMPWLDVVNEQLIWGTGAVIKRELGVIGLIILTVALSMGIFTGLNGFIISTSRLLFSMSRAKILPQVFSKLHPKYQTPYAGIIFTVIIAMLAPWFGREVLLWVVDMSSIGVSIAYFYTCFTAYSLLQWSNKARNPHKQVAPVKKLFALTGALFSLIFIGLLLVPGSPAFLGIESRIALVIWVLLGLSFYLRKRKEYHAIPETELRYLVLGEENEAKEK NA NA NA NA NA AK015_03859 657 hypothetical protein GTGAAGATTCATAGTAATGAAATGCGAGTTAGTGTACCTTTTTTTACAAAATCTATTCCAACTGCTTCTCATACTAATTTATCCAATACCAAAAAAGACGGTGTGTATATTAGCAGTCAGTCGCTTCAATTATTTAATGGTAGTAAAGGACAACAGAAGAATTTCCTTATCGAAAATTTGATGAAACATCGTGAATCTCTAGTGGAGATGAAGCAGAATTTGACGGAGAAAACACTTGAATCTGGAAAAGATATTTCAAGCATTCAAGAGCAGTTGAAGGAATTTGAAAAGCAAATTGCTGAACTTGACAATAAAATTGTTAAACAGCAGATGGAAGAGCAAGAGAAAGCACTTGGGAAGGAAAAAGATGTAAAGAAGAATGAGTCTCCACAATCGGAGGAAGAACAGTTATTTACCCAAGCCTTTGCGCTAGATCAAACGCAAAAAATGAGTCATGTTTTCAAAGGGCTAGAACGGGAAAAAAACACGCTTGAAAGTGAAATGAAGTTAGATGCAAATAGAGGAATTTATAGTGAAAGAAAGCAAGAAAAATTAATAAAGTTAGAAGAAAAGCTCCAAACGATTCAAGAACAAGTAAAAGAAAAACGGGAGCAATCAACGGAAGAAAAGAACAATGATTTTAGTGTATCTGTGTAA MKIHSNEMRVSVPFFTKSIPTASHTNLSNTKKDGVYISSQSLQLFNGSKGQQKNFLIENLMKHRESLVEMKQNLTEKTLESGKDISSIQEQLKEFEKQIAELDNKIVKQQMEEQEKALGKEKDVKKNESPQSEEEQLFTQAFALDQTQKMSHVFKGLEREKNTLESEMKLDANRGIYSERKQEKLIKLEEKLQTIQEQVKEKREQSTEEKNNDFSVSV NA NA NA NA NA AK015_03860 1194 nprA_5 Transcriptional activator NprA TTGTCCTATCTATCAAAAATAGAGAATCAAAAGACGAATGCAAGTCCAGAAATCCTCCAGTTACTCTGTGATCGATTAGGGATTGAAATTTCCGAAGACACAGATAGAGAAATAGAAGAGAAGTGTAAAGAATGGTATGATATGTTATTTGACGAGAATGATAAGAAGGTGATGACAGAGAAGTATGAAGAATTACAACCGTTAATGGAACGTAAGATTAATCAACATACGATTATGTTTGAAATACATACCATTCGTTATTACATTGTCTTACGTGATTTAGGGAAAGCTTTACATATAATGAATAAACTGCATGATATGGCTGATTCGTTTAATTATGAAGAAAGCTATTATTGGCATAAATTTAAAGGAAATTATTATGCACATAAGGAAGTTCATCAAGAAGCACTGCGAAATTATAAATTAGCAGAAAAAGTCATTCGTTTAGCTAATATTGCTGATAAGGAAATAGCTAATTTACACTATGCATTAACGATAACGCATAATTATCTTCGGGAAGATTTAGAGGCTGTAGATTATGCGAATCGTGCAATGACGGTATTTCAGCAGAATTATAACTTTTTTTATTGTGCGCTATGTCATATTATATTAGGTATATCGTATCAAAGGGTAAAAGATCTGGATGCAGCAATAAAAAACTATAATTTAGCATTGCATTTAGGAGAATTAAATAAAAATGAAACAATCGTTTATTTAGCACATTATAATTTCGGTTATCTTTATTCCATAATGGGAAATTCAGAAGAAGCGATTAAACATTACTCATTAGCTATAGAAACGAAAGATTTAGCATATAAAACCAAATTAGATGCACTTACTCATTTAGTTCAGGAGTTTTATATGATTAGAGAATATGAAAAAGCAAAAGCGTACGTAAAGCAAGCTAAGGAGATATTAGAAGTAGCAAAATGCAAATACGATGACTTTTATAATGGGTATCACAATTACATGATTCAAGTATATACATGTTTACTTTACGATGATTTTAAAAGATTTAAAACGATATTAACGGATGACTTTATCCCTTATTTAAAACGCCGAGGAGATTATAGTAATTTAGTGTTTTATGCGAAGTTATTAGCTACTCATCTAGCGGAAAAGGGAAAGTATAAGGAGTCTGTTGAATATTATAAATTAGCAAACAGCAGTTATGACCAATTAATCAAGTTGTAA MSYLSKIENQKTNASPEILQLLCDRLGIEISEDTDREIEEKCKEWYDMLFDENDKKVMTEKYEELQPLMERKINQHTIMFEIHTIRYYIVLRDLGKALHIMNKLHDMADSFNYEESYYWHKFKGNYYAHKEVHQEALRNYKLAEKVIRLANIADKEIANLHYALTITHNYLREDLEAVDYANRAMTVFQQNYNFFYCALCHIILGISYQRVKDLDAAIKNYNLALHLGELNKNETIVYLAHYNFGYLYSIMGNSEEAIKHYSLAIETKDLAYKTKLDALTHLVQEFYMIREYEKAKAYVKQAKEILEVAKCKYDDFYNGYHNYMIQVYTCLLYDDFKRFKTILTDDFIPYLKRRGDYSNLVFYAKLLATHLAEKGKYKESVEYYKLANSSYDQLIKL PGPT0011700_284 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-QUORUM_SENSING_REGULATORS CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480 NA NA AK015_03861 141 hypothetical protein TTGAAAAAAATAGTACTAACAATGGCATGTGGGGCTTTGCTTATCAGTGGATTTTTATTTACGACTAAACTAGATGAGGAAACTGCATCACGTCCTCCAAGTCCAACAATGAGCTTGTCGATGGAAGATGTAAAAATGTAA MKKIVLTMACGALLISGFLFTTKLDEETASRPPSPTMSLSMEDVKM NA NA NA NA NA AK015_03862 477 ydeA COG0693 putative protease YdeA ATGCAAACAAAAAAAGTATTTCTATATGTATTTCATACCATGTCGGACTGGGAATATGGATATTTAATTGCTGAACTAAACTCAGGAAGATATTTCAAAAAAGATGTAGCGCCTTTAAAAGTAATTACAGTAGGAGCTAATCAAGAAATGATTACTACGATGGGAGGGCTGAGCATAAAACCAGATATTTCCCTTGATGAATGTACGCTTGAGAGTAAAGATCTATTAATTTTACCAGGAGGTACTACTTGGAATGAAGAAATTCATCAACCTATCTTGGAAAGAATTGGCCAAGCTTTAAAGCTTGGCACTAATATTGCTGCAATTTGTGGTGCAACTGATGCCCTCGCGAATATGGGATACTTGGATACTAGAAAGCATACAAGTAACAACTTAGAAGATACTAAAATGGTCTGTCCTAACTATAAAGGAGAAAAGTTCTATGAGATGGGACAGCGGTATCTGATGCGAATTTAG MQTKKVFLYVFHTMSDWEYGYLIAELNSGRYFKKDVAPLKVITVGANQEMITTMGGLSIKPDISLDECTLESKDLLILPGGTTWNEEIHQPILERIGQALKLGTNIAAICGATDALANMGYLDTRKHTSNNLEDTKMVCPNYKGEKFYEMGQRYLMRI NA NA NA NA NA AK015_03863 963 hypothetical protein ATGCCTAAAATTGACAATATGTTAGCAATTCTATGGATGCTTCGTTCAGGTAAAAAAATTACTGCCAAACAAATTTCTGAAAATCTAGAAATAAATATAAGAACTGTGTATCGTTATATTGATACAATTTCAACAAGTGGCGTACCTATCATTTCAGAACCAGGACATAACGGTGGATACACTTTATTGAACCATTTTATGGAGGCTCCTCTTTTTTTTGATTTGGAGGAGCAAACTGCGTTGTTTCACGCTGCTGTTTTTGCAGAAGAAGCTGGATATTATGGAGGTAAAGCGCTAAATAGGGCCATTTCAAAACTAAGTAAATACTCAAATCAAGAGCAGAAAACAAAAGTAAACCAACATTTTACTAGTCTTGAAGTAATAAGTCGATTAAGTTCACTCTCTATGGAACCTTTTTTGAAGGAGTTGGAGCAGGCCGTAGCTGACGGGTACTCAGTAAAAATTCTTCACCATAAAAGCGGCGAAAAGCAATTAAATAATAGATTGATCGATCCGTACAGAATTATCTATTGGAATAATAAGTGGTATGTGATTGGATTTTGTCATCTTCGGAATGATATCCGTAGTTTTAGAGTAGATCGAATTGAAAGTCTAATGCTGACCGAAAATAAGTTTAACCGGCCAGAAAAGTTTTCAGCACGTGACTTTTTTATAAAAAGCCTTCTTCCAACTATAGAAGATAAGGAAGGGATTATTTCTTTGGTTATTAATGGAGATAAAAGTGTATTGGCTGATATTTGCCAACATTGGTTTTTAGGACATTATTTACAAGAACGGACTTCAAATCAAGCAGTTTTTCTGCTTGAAAAAGATATGATACATACATATGTACCTTATTTACTATTACCGTACAATAAATCTATTAAAGTTATTGAGCCAATCAGTCTTAAGAAGAGACTGATTGAAGTTCTTTCGGAATTAATTAAATTTCATCAAGTATGA MPKIDNMLAILWMLRSGKKITAKQISENLEINIRTVYRYIDTISTSGVPIISEPGHNGGYTLLNHFMEAPLFFDLEEQTALFHAAVFAEEAGYYGGKALNRAISKLSKYSNQEQKTKVNQHFTSLEVISRLSSLSMEPFLKELEQAVADGYSVKILHHKSGEKQLNNRLIDPYRIIYWNNKWYVIGFCHLRNDIRSFRVDRIESLMLTENKFNRPEKFSARDFFIKSLLPTIEDKEGIISLVINGDKSVLADICQHWFLGHYLQERTSNQAVFLLEKDMIHTYVPYLLLPYNKSIKVIEPISLKKRLIEVLSELIKFHQV NA NA NA NA NA AK015_03864 438 yjiA COG0523 P-loop guanosine triphosphatase YjiA ATGGAGACGAGAACTCCTGTGACTATTGTGACTGGATATTTAGGATCAGGAAAAACTACCTTTCTTAATCATCTTTTAGAGCAAACGAAAGAAAAGGTTGCAGTTATTGTAAATGAATTTAGTGATATTAGTATAGACGATCAACTCATTGAAAAAACCAAAGAAGAAATCATCGAAATTAATAGCGGTTGTATTTGCTGTAATGTTCGTAAAGATTTAATGGATGCGTTGTCTATGCTTTCTTTCTCAAGGATACAGAACATGATTGAGTTTGACAGAATAGTGATAGAGACGACTGGATTAGCAGATCCTGCGCCAATTGTGCAAACCTTCTTGATGGATGAGAGCATGGTGGAAGAATACGTTATCGACAGTGTTTGTACCTTTGTTGATGCTAAACATATTTCTTGCCATTTAGACCAAAAGGATGAAGCATGA METRTPVTIVTGYLGSGKTTFLNHLLEQTKEKVAVIVNEFSDISIDDQLIEKTKEEIIEINSGCICCNVRKDLMDALSMLSFSRIQNMIEFDRIVIETTGLADPAPIVQTFLMDESMVEEYVIDSVCTFVDAKHISCHLDQKDEA NA NA NA NA NA AK015_03865 384 hypothetical protein TTGTATAGAGTAGTAAATATTTTTTCTTATAATCTGCATGAAAAATTTACGTTAAATTCCTATTCCTCAGATCAAGGTCATCATGATGAGAAAGTAACATCTTTCTCCCTAGAGGAATTAAGACCGCTTGATTTAAGGAAACTCAACATGTGGTTTTCTTATCTTGTTCAACTGCAAGGAGAAAATTTATATCGGTATAAAGGGATATTAAACATAAATGGGTTAGATAGACGATTTATTTTTCAAGGCGTTCATATGATTTTTGCAGGAGAAGAAAAAAATAATTGGGGCAATGAACAACGTAAAAGTGAGCTTGTATTTATTGGGAAGAATCTCGATAAAGAAAAACTTACTGCACAGTTTCGTGCATGTATCGTAAAATAA MYRVVNIFSYNLHEKFTLNSYSSDQGHHDEKVTSFSLEELRPLDLRKLNMWFSYLVQLQGENLYRYKGILNINGLDRRFIFQGVHMIFAGEEKNNWGNEQRKSELVFIGKNLDKEKLTAQFRACIVK NA NA NA NA NA AK015_03866 267 hypothetical protein ATGCGAGCTAAAGAGATTGCTTGGTGTGCCACCAGAAATGATTTAGCTCTTCTTCTTTCCCAGACTGGTCCATCCGTCTCTGTTGAACCGGTCTCCTATTGGGTTGCTTCACTACCGAAAGAACAAAAGGAAAGTACAATCAAGCAAAACCCAAGCATTTTAAATGATTGGGACCAGAATTTGGAGATAGAAAGACCAATCTTGTATTTATTGGAGTTGATCTTGAAGGAGGAACAATTATTAGGTAGCTTGATCAGTGCTTACTAA MRAKEIAWCATRNDLALLLSQTGPSVSVEPVSYWVASLPKEQKESTIKQNPSILNDWDQNLEIERPILYLLELILKEEQLLGSLISAY NA NA NA NA NA AK015_03867 270 rpsN2 COG0199 Alternate 30S ribosomal protein S14 ATGGCAAAAAAATCAAAATTTGCAAAAGAGAAGAAAAGACAACAAATGGTAGCAAAATATGCTGAACTACGAAAAGAATTAAAAGAAAAAGGAGATTATGAGGCGCTTAGAAAACTTCCACGAGATTCTTCCCCTACACGTTTAACAGGAAGGTGTGCGATTACTGGGAGACCTCGTGGGTATATGAGAAAGTTTAAAATGTCTCGAATTGCTTTTAGGGAATATGCACATAAAGGTCAGATTCCAGGTGTGAAAAAGTCGAGTTGGTAA MAKKSKFAKEKKRQQMVAKYAELRKELKEKGDYEALRKLPRDSSPTRLTGRCAITGRPRGYMRKFKMSRIAFREYAHKGQIPGVKKSSW NA NA NA NA NA AK015_03868 540 COG1670 Acetyltransferase ATGATTTATGTAGAGGCGTCCAGATTAAGATTGCGTGACTGGGATGAAACAGATATAGTTCCATTTTCGGTACTAAATGCGGATGAAAACGTGATGCAGTATTTTCCTAAAACATTATCAACCGAAGAAACAAAAGCTTTTTACACATTAATCGTAGATAAGATCAAAGCGAATGGATATGGACTTTTTGCTGTGGAAGAAAAGGAAACGAATGAATTTTTAGGATTTATTGGGTTTCATCGAGCCACTTTTGCAGCTGATTTTACACCTTGTATTGAAATTGGTTGGCGTCTAAAAGAAGCTGCTTGGGGAAAAGGTTTTGCTACAGAAGGGGCGGAAGCTTGTTTGCAATATGGATTTACAAAATTAGGTTTTACTGATATTTATAGCTTTACAGCTGATGTGAACACCCCTTCACAAAATGTCATGAGAAAAATAGGTATGCAATATGTAAAAGATTTTGATCATCCAAAGCTGAAGCAGGGAAGTATACTGAAAAAACATGTGTTATATCATATAAATGCGGATTTGCTGAAATGA MIYVEASRLRLRDWDETDIVPFSVLNADENVMQYFPKTLSTEETKAFYTLIVDKIKANGYGLFAVEEKETNEFLGFIGFHRATFAADFTPCIEIGWRLKEAAWGKGFATEGAEACLQYGFTKLGFTDIYSFTADVNTPSQNVMRKIGMQYVKDFDHPKLKQGSILKKHVLYHINADLLK PGPT0012895_7 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012895-aroDE-K13832 NA NA AK015_03869 339 hypothetical protein ATGAAAGATATAGAATCAATTACAGTAACAGAAAAAATTGTTGCAAGTGAGAATCTCATGCATAAGAAACAAATTCTACGTAAATATACAGAGGGGATATTTAAAATCGATAAGACTTTTTTCAATCTTATGGATGATATTATTGTCAATGAAGATCAAAAAGGTGAGATTGTAGAAGCAATGAAAGAAGAAACAAAAAAGTTAACGACGTACAATCGTAATTTACTAGAACACATCGATAAACGTATGAATAAGATTGTGCAAAGACTAGATGAACAAGTCGATGAAATAAAAAGTCAACGCATGACCATTACCTATGAAAATACACCGTCTGCGTAA MKDIESITVTEKIVASENLMHKKQILRKYTEGIFKIDKTFFNLMDDIIVNEDQKGEIVEAMKEETKKLTTYNRNLLEHIDKRMNKIVQRLDEQVDEIKSQRMTITYENTPSA NA NA NA NA NA AK015_03870 453 hypothetical protein ATGCCTAGCGGAACAAAGGAAATGACTCTTCAAGCGCCAATTGCACAAGTATGGGATTTTGTTAGCGATATGAACCATTGGGCTCCGTTAGTACCTGGCTATATTGATCATGAGATTATAAACGATACCGAATCCACATGGAAATTCAAAGGGGATCTCGGTATTGTTCAAAAAAAAGTACAACTAAAAGTACTTATAACAAAGTGGGAAAAACCTGAAAAAGTAACTTTTAATTTAAAAGGAATAAGTGAGAAATTCACCGGTAGTGGTTACTTTCATGCTTTAGCAATAAATTCAGATACAACAAAAATGACGGGTCATCTAGACATGAAAGCTGAGGGGATGATGGGACCAGTTATTAATCCAGTTTTAAAATCCTTTCTACCTAAGATGACTACAGAATTAACGGAAGCAATTGCCCAAGAAATAACAAACAGCAAAAGTCATTCTTAA MPSGTKEMTLQAPIAQVWDFVSDMNHWAPLVPGYIDHEIINDTESTWKFKGDLGIVQKKVQLKVLITKWEKPEKVTFNLKGISEKFTGSGYFHALAINSDTTKMTGHLDMKAEGMMGPVINPVLKSFLPKMTTELTEAIAQEITNSKSHS NA NA NA NA NA AK015_03871 864 btuD_9 Vitamin B12 import ATP-binding protein BtuD TTGTCCATATTGATGCAAGGTAAAAATATGTCAAAAAACATAAATAAAAAACGTATTTTACAGAACCTAAACTTTACTTTTTATCAACAGAAAACAGTAGCAATTATTGGCGCTAATGGATCAGGTAAGAGCACTTTACTACGAATTTTAGCAGGAATTACACTTCCGTCAAGTGGAACCATTCAACGTAAGCATATCCGGATAGGGTATGTACCAGAGCAATTTCCTCCGAATATTATGTTTACAGGATTTAATTATCTTTATCATTTAGGGAGAATAGGAGGGCTATCACGTGAAGTGGCTAAAGAACGTGTTGGTCAGCTTTTTGATCAGTTTAACTTTACTGCCCAATTTGAAGTAATCAAGTATTATTCGAAGGGAATGAGACAAAAAATAAATATCATGCAAGCACTCTTACATCAACCTTCTTTGCTCATTTTAGATGAGCCCTTATCAGGATTAGATGAGTCTGTTCAGTTAGAAGTAGAATCTATATTATATCAATTAAAGCAGCAAGGTTTAACGATTTTATTTACATGCCATGACTTGCCACTAGTGCATCGTTTAGCAGACCGTACCGTTACATTACAAAATGGGAAGCTTATGGAAAGTGTAATCACTTATGATCATGTCGAGGAGAGCCTTGTTACGATTGAGTCGACACTTCCAGCAGATGTATCTATTCTCACACAAATAAGCGCTATTTATGGCATAGATCATGAGACAATACACAAAAACAAGATTCAATTTACTATAAGTTCACGACAGAGTGATGAAATCATTGCTCTATTAATTCAAAGTGGAGCGTCCATTTATTCTGTATGGTCTGTTCAACAAAAAGCGTTTTCTATGTACGAAGTATAG MSILMQGKNMSKNINKKRILQNLNFTFYQQKTVAIIGANGSGKSTLLRILAGITLPSSGTIQRKHIRIGYVPEQFPPNIMFTGFNYLYHLGRIGGLSREVAKERVGQLFDQFNFTAQFEVIKYYSKGMRQKINIMQALLHQPSLLILDEPLSGLDESVQLEVESILYQLKQQGLTILFTCHDLPLVHRLADRTVTLQNGKLMESVITYDHVEESLVTIESTLPADVSILTQISAIYGIDHETIHKNKIQFTISSRQSDEIIALLIQSGASIYSVWSVQQKAFSMYEV NA NA NA NA NA AK015_03872 705 hypothetical protein ATGAGATCTTTGATGGCTTATCATCTTATATCATACATAAAATCATATAATTATGTAGCGCCTATGAGTTTTTTTATTATCATTTTAGTGGTCAACTATTCTATTTATCCAAACCCTGTGTTAGCTAGTTATGGCGTGACTTCAATATATTTGTATATCATAGCAGCTTGGATTACGGTTCGTTTTTTTCATACAGAAGATCTGGTTCAACAGCAAATAACGATGCTTCACGCTAAAAATGAGATGCGATATTTTTGCAGTAAATATGTAACGGCAAGTAGTTTTGTAGTTTTGTTAGCTCTTATTTCGACCAGTTATCCTATTGTATGTGGAATGTTTAGCAAGAATCCAACAGTATTAGAAATCACTGTTGGCTTTTTCACTCATTTTTTGTTAGGGTTAGTAGCCGTTACTATCAGTGTGTTATTTTCTAGAATATTATTAAATAAAAAGATTAATTCCTGGTTGGGGCTTAGTCTTGTGCTTGTAATATCTATTGTCTCCTTAGGAGTAGAAACATTATTGCCAGGATATTGGAAATACATATTATTAGTACTTCCGCCAGTATCAAAATTAGCTTTACTTATGAAAGAACCGTTGGACAGTACGAGACTGCTCCTTATTTATTTATGGATATTCCTTTATGCAGCAGTGATGGTAGGTTTGTTTGCGATATTGTATCGCCATAAAAAGAAATTTTCATAA MRSLMAYHLISYIKSYNYVAPMSFFIIILVVNYSIYPNPVLASYGVTSIYLYIIAAWITVRFFHTEDLVQQQITMLHAKNEMRYFCSKYVTASSFVVLLALISTSYPIVCGMFSKNPTVLEITVGFFTHFLLGLVAVTISVLFSRILLNKKINSWLGLSLVLVISIVSLGVETLLPGYWKYILLVLPPVSKLALLMKEPLDSTRLLLIYLWIFLYAAVMVGLFAILYRHKKKFS NA NA NA NA NA AK015_03873 747 hypothetical protein TTGTTTGATTTAACCATTTTAGATTGGTTCATCGTTATTGCTTGTGCTTTATTTATTGGCTTTTCTAAATCTGGAATCCCAAATTTAGTTATTTTAGTGGTCACAATGATTATGTTTGTTTTTCCAGCAAAGGAATCAGTGGGCGTTCTGCTTCCTATGCTTTTGATTGGCGATTTGTTTGCTGTCATTTATTATCGACGTCATGTTGTTTGGAAATATCTTATATCGCTTATTCCATGGGTTTTAGTTGGAATTATTGGTGGGTTCTTGGTTTTAAGACAAGTGAATGATGAACAATTAAAGCCAATTATCGGAACGATCGTTCTCGTTATGATCGGTCTAAATGTCATTCGTAATCAATTTGGTGAGCGGTTTAATCAGCTTTTACCAACCTCCATTAGCTTTACAATAACAATGGGGATCCTTAGTGGTTTTACGACGATGGTAGGGAATGCTGCTGGTGCAATCATGACAATTTATTTGTTAGTAAAAAGAGTTCCTAAAAAAGAATTTGTTGGTACAAGTGCGTGGTTTTTTATAACTGTAAATACGATAAAGGTTCCTCTTTATTTGCATTTAAATTTAATTAGCAGTGCATCTTTTGGCCTGAATTTAATAATGCTTCCAGTAATTTTGACTGGCGCCATCATTGGGGCCAAAGTGCTACCATGGATACCTCAAAACGTATTTACTATCATAGTGTTGCTGTTAGCAGCTTTAGGAGGGCTATATTTAGTAATTGGTTAG MFDLTILDWFIVIACALFIGFSKSGIPNLVILVVTMIMFVFPAKESVGVLLPMLLIGDLFAVIYYRRHVVWKYLISLIPWVLVGIIGGFLVLRQVNDEQLKPIIGTIVLVMIGLNVIRNQFGERFNQLLPTSISFTITMGILSGFTTMVGNAAGAIMTIYLLVKRVPKKEFVGTSAWFFITVNTIKVPLYLHLNLISSASFGLNLIMLPVILTGAIIGAKVLPWIPQNVFTIIVLLLAALGGLYLVIG NA NA NA NA NA AK015_03874 417 hypothetical protein ATGGATAATAAACGTTGGAAACGGGGAGAACGGGGGCCGTTTCAAGGTATTATGGAACAAATGGACGCTTTTTTTAATGAATCTGCGAAGAATTTCAATTCGCTGATTAAACGTCCATTGGCTGTTCGTACACGTGAAACGGAGGACAATGTGATTGTAGAAGCTGAGCTACCAGGGTACAGACGCGATCAAATCCAATTAGAGATATTTGGTAATCAATTACGGATTTTTGTTGAAGATCATTCGAATACGGATGAAGAAGGTTACAGCCAATCAGAAAGAACTGTAACACTTCCATTTGCAATTTCTGAAAAAGAAACCGTAGCAAAATTGAATAATGGCATTCTACAAGTAACTATTCCGAAAAACAATTCCAGCCGAAAATTTATCTCCATTCATGACACTACAGATTTGTAA MDNKRWKRGERGPFQGIMEQMDAFFNESAKNFNSLIKRPLAVRTRETEDNVIVEAELPGYRRDQIQLEIFGNQLRIFVEDHSNTDEEGYSQSERTVTLPFAISEKETVAKLNNGILQVTIPKNNSSRKFISIHDTTDL PGPT0014635_7761 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS HIGH_TEMPERATURE_TOLERANCE HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993 NA NA AK015_03875 1170 hypothetical protein TTGTTAACTAACCCGTTAATTGCTACTGTACTTATTTTTGCATTAATTGCACTGGGAGAATGGCTCTCCATTGTTTCTAGAGCAAGAATACCTATGCTACTCACTGCCATGACAGGGTTTCTTGTTCTTGTTTGGACGGGGATATTTCCAGGAGATATATTGGAAAAATCACAGTTTGCTGCATTAGGCGCCATATTAATTGGTCCAGCAATCGTTCATATGGGCACTTTAATTCCTATAGCTTTATTAAAAAGTCAAATAAAAGCCGTCTTTATTTCATTAGGTGGTATACTTGTAGCAAGTGCCATTATTTTAATAGTTGTTTCACTTGCTTTTGACTATGCAACTGCTGTTGCTGGAGTAGGACCGTTAAGTGGAGGAATTATTGCTTTAATTGTTACTTCTGAAGAGCTTGCTGCCGTGGGTAAATCTAGTCTTGTCGTTATACCAGCCTTAGTTGTTGCTTTTCAAGGGGTTTTAGGTATGCCGTTAGCATTAAATTTTATGCGGAGATATGCATTGAAGCTCCAAAAGCAAATAGATGCCAATACATTTATTCCTATGGATGCAAGTGTCATGTATAAAGAAGCGTCTAGTGCGACAGAACAAATCAGTCCATTAAAGCAAAGTTTAACGTTAAAACTGTTTTACGTGTTTGTGGGAGCAGCAATAGGTGTTGCTCTTGGTGAATTAACACCTATACATTATAGCTTATGGTGCTTGGCAATAGGTATTATTGGTTTGAAATTAGGTTTGTTAGAGAGTAAATCTCTAGAACAGGCGAATTCTTTTTCCATAACAATGGTAGCAATAATATTTGTAGTTATCGGCACAATGGCAGGGGTGTCTCCTCAAGATGTTCTCGCAAATTTACCTAGTATTTTGATGATCTTAATTTTAGGAACATTCGCAATCGCGCTGGGAGGGTATGTAATGTCCAAGCTCGTAAAATGGGATGTATTAAAAGGCATGCCTGTTGCTTTAACGGCATTATTTGGATTTCCTGCGGATTACATTTTATGTGAAGAAGTGAGTCGTAGTGTAGCTAGAAATAAACAAGAAGAGAAAATAATCTTCAATGAGCTACTTGCACCTATGCTAATTGGCGGATTTACAACTGTTACAGTAGCATCTGTAGTTCTTGCTGGAATATTAGTAAAAACTTTATAA MLTNPLIATVLIFALIALGEWLSIVSRARIPMLLTAMTGFLVLVWTGIFPGDILEKSQFAALGAILIGPAIVHMGTLIPIALLKSQIKAVFISLGGILVASAIILIVVSLAFDYATAVAGVGPLSGGIIALIVTSEELAAVGKSSLVVIPALVVAFQGVLGMPLALNFMRRYALKLQKQIDANTFIPMDASVMYKEASSATEQISPLKQSLTLKLFYVFVGAAIGVALGELTPIHYSLWCLAIGIIGLKLGLLESKSLEQANSFSITMVAIIFVVIGTMAGVSPQDVLANLPSILMILILGTFAIALGGYVMSKLVKWDVLKGMPVALTALFGFPADYILCEEVSRSVARNKQEEKIIFNELLAPMLIGGFTTVTVASVVLAGILVKTL NA NA NA NA NA AK015_03876 1245 hutI_2 Imidazolonepropionase TTGGGAAAAAAATTAATTAAGAATACGCTTATTATCGACGGAAACGGTGCTGCTCCAATAAAAGATAGTATCATTGTCTTAGATAATGAAAAAATTACTTACGTTGGTAAAGAAGAAAATTATACACTAGATGGATCAGAATACGTAATAGATGCTCAAGGTGGTACCGTATTGCCGGGTTTTATTGATACACACGTACACATGATGTTTGAATACGCACCAATTGCCCAAAGGTTAGCCACTCCATTTTCATTTATGTACTATCAAGCAGCAAATTATTTAAAAGCAACTTTACATGCTGGAATAACTTCTGTTCGCGATGCTTTAGGTGCTGATTTAGGAGTGAAGAAAGCTGTTAACGAAGGATTAATATGTGGACCAAGGATGCAATTAAGTATTAATGCTTTAACAATTACTGGGGGACATGGCGATGGTTATACTATATCTGGGAACACCGTGGATTTGTTAGCTTCTAATTACCCAGGTATGCCAAATGGAAAATGTGATGGCGTAGAGGAAGTTCGTAAAAAAACACGACAAATGCTACGGGCTGGTGCAGAAGTAATTAAAGTTCATGCTACAGGTGGTGTGTTAAGTGCCACAGACCATCCTGAATTTACACAATTTTCATTGGAAGAATTGAAAGTCATTGTAGAAGAGGCAAAATTTCGCAAAGGTGTCAAGGTAATGGCCCATGCCCAAGGTGCTGAAGGGATAAAGAATGCGATTAAAGCTGGTATTCATTCCATTGAACATGGAATTTTTATAGATGATGAAGCTGTTGAATTAATGTTAGAAAATGAAACTTATCTCGTTCCAACCTTACTTGCTCCGGTTGCTGTTTTAGAGACAGCAAAAGAAGCAGGAATGCCTGATACAGCTGTAGAAAAGTCGAAAGAAGTGATTGAACAGCATCAAGCAAGCATTGCGAAAGCGTACGAGGCAGGCGTAAAGATTGCAATGGGAACGGATGCTGGTGTTATGAAGCATGGAACAAATTTACGAGAACTTGGCTTAATGAGAGACGCTGGGATGACTGCTATGGAAACAATTGTGGCTTCTACTAAAACAGCCGCAGAGTGTTTAGGATGGGAAGAGCAGTTAGGCACCCTTGAAGTGGGGAAACTAGCGGATATTATCATTGTAAAAGGTAATCCACTAAACGATGTTGATATGCTAGCGAATAATGAGAACATACAAGTAGTAATTAAGAATGGGGAAGTAGAAAAAAACTTATTGTTTTAA MGKKLIKNTLIIDGNGAAPIKDSIIVLDNEKITYVGKEENYTLDGSEYVIDAQGGTVLPGFIDTHVHMMFEYAPIAQRLATPFSFMYYQAANYLKATLHAGITSVRDALGADLGVKKAVNEGLICGPRMQLSINALTITGGHGDGYTISGNTVDLLASNYPGMPNGKCDGVEEVRKKTRQMLRAGAEVIKVHATGGVLSATDHPEFTQFSLEELKVIVEEAKFRKGVKVMAHAQGAEGIKNAIKAGIHSIEHGIFIDDEAVELMLENETYLVPTLLAPVAVLETAKEAGMPDTAVEKSKEVIEQHQASIAKAYEAGVKIAMGTDAGVMKHGTNLRELGLMRDAGMTAMETIVASTKTAAECLGWEEQLGTLEVGKLADIIIVKGNPLNDVDMLANNENIQVVIKNGEVEKNLLF NA NA NA NA NA AK015_03877 480 ectA L-2,4-diaminobutyric acid acetyltransferase ATGCCTACAAAAGGTGATGGGGCAGCAGTCTGGGATTTAATTCATCAAATTGATAATCTGGATTTAAACTCTTCTTATAGTTATCTTCTATGGTGTGATATGTTTTCTGAAACATCTATCATCGTTGAGGAAGAGGGAGAAGTGGTTGGGTTTATATCCGGGTTTATCCATCCGAATAAACCGAATACATTATTTGTTTGGCAAGTTGCTGTTGATACTTCACAGCGTGGGAAGGGTCTAGCGACACGTATGTTATTTGAACTGCTAGAACGAAAGCAGTTAGCAGAAATTCAGTTTGTTGAGGCAACGGTAACACCTTCTAACTTGCCCTCACAGTATTTATTTATGGGCTTAGCTAAAAAACTAAATACAGAATGTGTTGTTGGTAATTACTATACTTCCGTCGATTTTCCACGAACAGGACATGAAGATGAACAGTTGTATAAGATTGGCCCTATTCCAAGGGAAAATAACAAATAA MPTKGDGAAVWDLIHQIDNLDLNSSYSYLLWCDMFSETSIIVEEEGEVVGFISGFIHPNKPNTLFVWQVAVDTSQRGKGLATRMLFELLERKQLAEIQFVEATVTPSNLPSQYLFMGLAKKLNTECVVGNYYTSVDFPRTGHEDEQLYKIGPIPRENNK PGPT0014055_574 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014055-ectA-K06718 NA NA AK015_03878 1287 ectB Diaminobutyrate--2-oxoglutarate transaminase GTGACTACAACAGTTGTAAAAAATAGCCCAATGCAAGCATTTGAAGAATTAGAATCAGCAGTAAGAACTTATAGCAGAGGATGGCCGACGATTTTTGAAAAAGCAAAAGGCTATAAACTTTGGGATATAGATGGAAATATGTATATTGATTTTTTTGCAGGTGCTGGTGCGTTAAATTATGGTCATAACCATGAAAAGATGCAACAGAAACTAATCACTTATATTCAAAATGATAATATTATTCATAGTTTGGATATGGGGACGACACCTCGTAAAGAATTTTTACAGACCTTTTATAAGACCATTCTAAAACCACGAAATATGGATTATAAAGTGATGTTTCCAGGCCCAACTGGAACGAATACAGTTGAAAGTGCATTGAAGATAGCTAGAAAAGTAACTGGACGTGATACAGTAATAAGCTTTACGAATGCTTTTCATGGAATGACAATTGGATCGCTGTCGGTGACAGGAAATTCATTTAAACGTCATGGGGCTGGGATACCACTGCATCACAGTGTTTCTATGCCGTTTGACGAATATGTGGATGATCAAGATTCAATTGCTTACTTGGAACGATTTTTAGAAGATAGCGGGAGCGGTGTCGCTTTGCCTGCAGCAATTATTCTTGAAACTGTCCAAGGCGAAGGAGGCATTAATGCGGCTAGCACGGAATGGCTGCAAAAGGTTGCTTTAATTTGTGATCGTTGGGATATTTTATTAATTGTAGACGATGTTCAAGCTGGATGCGGGAGAACAGGAACTTTTTTCAGCTTTGAGCTAGCTGGCATCATACCAGATATAGTGTGTATGTCAAAATCAATTGGTGGTATTGGACTTCCAATGGCAATTACTTTAATCAAACCAGAATATGATCAATGGGAACCAGGGGAGCATAACGGAACATTCCGGGGTAATAATTTAGCGTTCATTGCAGCAACAGAAGCTTTAACGGAATTTTGGAAGGATGAGGGATTTTCAAAGTCTATTCATCGGAAAAGTAAGGTCATGAAAAAACGTATAGATCATATTATTGAAAAATTCCCATCATTAAAAGCGGAAGCTCGTGGGAGAGGACTGATGCAAGGGATTGCCATGGAGAAAAATGAACTTGCGTCAGCCGTTTGTAAGGAAGCTTTTGAAATTGGTTTAATTATAGAAACATCTGGACCAGATGATGAAGTTGTCAAGTTTCTACCACCGTTAACTATTGATGAAGCGGGGATCAACCAAGGGTTTGATATTTTAGAAGTAAGCATTGAACAGGTGTTAAAAATTAAAGGATAA MTTTVVKNSPMQAFEELESAVRTYSRGWPTIFEKAKGYKLWDIDGNMYIDFFAGAGALNYGHNHEKMQQKLITYIQNDNIIHSLDMGTTPRKEFLQTFYKTILKPRNMDYKVMFPGPTGTNTVESALKIARKVTGRDTVISFTNAFHGMTIGSLSVTGNSFKRHGAGIPLHHSVSMPFDEYVDDQDSIAYLERFLEDSGSGVALPAAIILETVQGEGGINAASTEWLQKVALICDRWDILLIVDDVQAGCGRTGTFFSFELAGIIPDIVCMSKSIGGIGLPMAITLIKPEYDQWEPGEHNGTFRGNNLAFIAATEALTEFWKDEGFSKSIHRKSKVMKKRIDHIIEKFPSLKAEARGRGLMQGIAMEKNELASAVCKEAFEIGLIIETSGPDDEVVKFLPPLTIDEAGINQGFDILEVSIEQVLKIKG PGPT0014050_1038 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836 NA NA AK015_03879 387 ectC L-ectoine synthase ATGATTGTTAAATCACTAGACGATATCATTGGCACTCGAGATGAAACATCGGGTAACAATTGGACGAGTCGCCGTTTTATCATGAAGAAAGATAATGTAGGTTTTAGTTTAAATGATACGATAATTAAAGCAGGAACGACCAATTTCTTCTGGTATAAAAATCATATTGAAGCGGTTTATTGCATTGAGGGGGAAGGTGAGATAGAAAAGCTGGAAACTGGTGAAGTATATAACCTGAAGCCAGGCACTATGTATCTATTAAACGAAAATGATAAACATGAGCTTCGTGCAAAAACACAAATGCGCATGGTCTGTGTTTTTAATCCTCCTCTAGTAGGAACCGAAACACATACAAAAGAAGGATATTACCCACTTTTAACCGAATAA MIVKSLDDIIGTRDETSGNNWTSRRFIMKKDNVGFSLNDTIIKAGTTNFFWYKNHIEAVYCIEGEGEIEKLETGEVYNLKPGTMYLLNENDKHELRAKTQMRMVCVFNPPLVGTETHTKEGYYPLLTE PGPT0014060_648 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014060-ectC-K06720 NA NA AK015_03880 303 hypothetical protein ATGAATATATGGAGCATCATTTTAGTACCTCTAGCTTTTATTGGTGGGCTGTTTTTGTTCCATTTCCTATCTGGTCATGGAAAAGGGAAAATTGTTTTTGATTTAGATGAGCGCTATATTAATTATGGTGATTATATACAAGCTATTTTACAAGAATTAAAAAAACAAGAAAAGCAAGCTTTCTATGAAGGTAATGGGCGATTTATTATTGATGGGGCTCCTTACACGTTTATAGAATGGAACGTTAATTTAGGTGGCTTTCCGACCCAACGAACGGTGTTAAAACAAGATAAAACTTCATAA MNIWSIILVPLAFIGGLFLFHFLSGHGKGKIVFDLDERYINYGDYIQAILQELKKQEKQAFYEGNGRFIIDGAPYTFIEWNVNLGGFPTQRTVLKQDKTS NA NA NA NA NA AK015_03881 843 hypothetical protein TTGTATATTGGCTTAGTAATATGTATTCTTTTTAGTTACTTGTTCTTTAAAGGCTATCAAAATACACAAAAATTCGTCGTTAATGAAATTACGATAGATACAGATGATAGAGATAATAAAGAAAATGTGCTTCAAATATTGCATATTTCTGATATGCATTTAGAAAATATTTCCGTTACTCCAGACCGTTTAATAGAAAGCATCGGTTCTTATAATATTGATATAATCGCTCTAACTGGAGATTTTTTAGATCGGAAACGGAGTATACCTAAGTTAATTCCCTATCTAAAAGCTTTAAGGAATTTACAACCAGTGTACGGTTCATTTGCTGTTTTTGGAAATCATGATTATGTGTTAAAAGAGAAAAACTTTGTAAAACTTAAGAAAGTATTAAATGAATATGGATTTCAAACATTACAAAATGAAAATAGACAAATAGAATTAGATGGGAAGAAAATAAATATCATTGGAATTGATAATTATTCCACGAAGCATAGTGATGTAAAAAAAGCTTTCACTGGTATAAATCAAGGAACCAATTTAGTATTAACCCATGATCCTAACGTTGTCATAACGATCAATGACTATCGATTTGATTATTTACTTTCTGGACATTTTCATGGTGGGCAAATCCACTGGCCAAAACCTTATCATCTTAAAAAAATGGGACAGTTGGTCAAAATGAATATGATAAAGGGGCTCCACAAAATAAATGGGCGTCCTTTCTATATTAGCGAAGGGCTCGGTCAAACAGGCTTTAACATTCGTATTGGCAGTCGTCCGGAAATAACTATTCATCATTTTGCTGTAAATGATAAGGTAGAAAAGGCGATTTTAAAATAA MYIGLVICILFSYLFFKGYQNTQKFVVNEITIDTDDRDNKENVLQILHISDMHLENISVTPDRLIESIGSYNIDIIALTGDFLDRKRSIPKLIPYLKALRNLQPVYGSFAVFGNHDYVLKEKNFVKLKKVLNEYGFQTLQNENRQIELDGKKINIIGIDNYSTKHSDVKKAFTGINQGTNLVLTHDPNVVITINDYRFDYLLSGHFHGGQIHWPKPYHLKKMGQLVKMNMIKGLHKINGRPFYISEGLGQTGFNIRIGSRPEITIHHFAVNDKVEKAILK PGPT0022365_3584 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-REMODELLINGLPS|LIPID|IVA_METABOLISM CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098 NA NA AK015_03882 837 amj Lipid II flippase Amj ATGGAAGTTTTTACTGGGAAATTAACCCTTATTTTTGTCATACATAGTATTGAAACTTTAGCTTATGCAGTACGATTATCGGGGGCTAGAGTGAAAATGATTGCCTCTGCACTTGCTTTATTTAATGTAATGGTTATTGTATCCAGACTAGCCAATATGATGCAGCAACCGTTTACGGGAAGCCTTATTGATACAGCACCACCAGTGTATGCACTACAAGTGGTTGAAGAGCAATACCGTATATTAATTGGAGCTTCTACTGCAGGTACTATCTCAGGTATTATTGTATTTCCAACGTTTATCGCCTTGTTTTCTAGAGCTATTATTCATTTGGCGAATGAAAAAGGATCTATACCTGCACTTATTAAAAAAGGCTTTTCAATGGAGTTTTTTATGCGCGGGTGGAAACATTTTCGCTTACCAAAACGTACGGATATAAAAGAAATTCGTTTCAGTGATATACCAATGAAACTATTTCTTATGAATATGATCTTAACAGCTATTTACACAATAGGTGTGTTAGCTACTTTATACGCCTCATTGCTTGTACCAGAACGTGCAGCTACAGCTGTCATGGCTTCTGGATTAATTAATGGAATAGCAACAATTTTACTTGTTGTTTTTGTAGATCCAAAAGTTTCTGTTTTAGCAGATGACGTGGTGAATAACCGAGGGAGTTATCGAACTTTAAAAGGCGTTTCGCTTATGATGGTAACCTCGCGTTTGTTCGGTACATTATTAGCCCAAGTACTATTTAGTCCTGGAGCAAAGTATGTTGCTTGGTTTACTAAGTTTATCGTTAATGATAGGTGTTATTACATGGCTCGTAATAATTAG MEVFTGKLTLIFVIHSIETLAYAVRLSGARVKMIASALALFNVMVIVSRLANMMQQPFTGSLIDTAPPVYALQVVEEQYRILIGASTAGTISGIIVFPTFIALFSRAIIHLANEKGSIPALIKKGFSMEFFMRGWKHFRLPKRTDIKEIRFSDIPMKLFLMNMILTAIYTIGVLATLYASLLVPERAATAVMASGLINGIATILLVVFVDPKVSVLADDVVNNRGSYRTLKGVSLMMVTSRLFGTLLAQVLFSPGAKYVAWFTKFIVNDRCYYMARNN NA NA NA NA NA AK015_03883 1188 hypothetical protein ATGGTATATAATAAATGGCGTTTGCTTGAAAAGTTAAATCAACAAATAAAAACAAATAAGCATGTGATTGGAGTTGCAGCAGGATCTGGGCTTACAGCTAAGTATGCAGAACAGGGCGGAGCTGATTTTATCTTAGCATTATGTTCTGGGCGTTTTCGCCAAATGGGTGTTAGTTCCTTGGCTGGTTTTACAGCTTGTGCGAATAGCAATGAATTAGTTATGGACTTTGCTTCAAAAGAGTTGTTGCCAGTTATGTCAAAAATTCCTGTTATTTTTGGATTATTTGCCACCGACCCTATGCTTCATATGGAAGACTATATTTCTCGTATTAAGCAATATGGTTTTATTGGGATTAATAACTATCCAACTGTCGGCTTAATTGATGGTCAATTTCGAGAGGCGTTAGAATCACAGGATATCACTTTTTCTAGAGAAGTAGAGGCCATCCGAATAGCAAACCAACTTGATTTATTTACAGTAGCATTTGTATTTAATCAATCGCAAGCTATCGACATGCTTCATGCTGGGGCTGATATTATTTGTGTTCACTTAGGTTTAACAACAGGTGGTGTGTTAGGAGCAAAACAAATTCAGTCTTTACAGAGTGCTAAGAAGTTAGCCGTAGATATTTTTCGAGCATGTAATGAATTTAATCCGAATGTAATTAAGATGGTTTATGGTGGGCCTGTCAATAGTCCAATTGATGTGCAATTTATGTACGATGGTACGGGTATTAATGGGTATATTGGTGGGTCCGTGTTTGAACGCATTCCAGCTGAGCAAGTAATTAAAAATACAACGAAATCCTTTAAAGAAACGTTTAACATTCAATATGAAGCTTCTATTCAAAAAATAATGGAAGGATTTGCAAATAAAGAAGACTATGTAGAGTTTATTAAAGACTATATCAGTAATCATTATATGGAAGAAATCACCTTAAGTGATTTAGCAAATATTTTAAACTTATCCAGAACGTATGTAAGCACGCTTTTTAAAGAAGAAGTAGGCGTTTCTTTTGTTGACTACCTCATCAATTTCCGATTAAATCGGGCTATTGAAATGATGCATACGGAAAGATTACCCTTAGCAAGAATTGCTGAAATGGTAGGATATGCGAATTACGTACAATTCAGTAAGATTTTTAAAAAAAGAAAAGGAGTGTCTCCAAGTCGGTTTTTAAAGGAATAG MVYNKWRLLEKLNQQIKTNKHVIGVAAGSGLTAKYAEQGGADFILALCSGRFRQMGVSSLAGFTACANSNELVMDFASKELLPVMSKIPVIFGLFATDPMLHMEDYISRIKQYGFIGINNYPTVGLIDGQFREALESQDITFSREVEAIRIANQLDLFTVAFVFNQSQAIDMLHAGADIICVHLGLTTGGVLGAKQIQSLQSAKKLAVDIFRACNEFNPNVIKMVYGGPVNSPIDVQFMYDGTGINGYIGGSVFERIPAEQVIKNTTKSFKETFNIQYEASIQKIMEGFANKEDYVEFIKDYISNHYMEEITLSDLANILNLSRTYVSTLFKEEVGVSFVDYLINFRLNRAIEMMHTERLPLARIAEMVGYANYVQFSKIFKKRKGVSPSRFLKE NA NA NA NA NA AK015_03884 1227 hypothetical protein TTGACAAAAACGATAGCTTTAGCAGGGACGTTTGATACAAAAGGAGAAGAATTTTTGTATGTAAAACATCTAATTGAGTCATTAGGTTTTAAAACCTTAACCATTCATACTGGTGTATTCAGACCACAATTTCAGCCAGATATTTCAAATGAAGCCATTTTTCAAGCTGCTGGGGAAGACATACAATCCATTGTAGCTGCAGAAGATCGAGCGAAAGCTACGCTTGTATTATCTAAAGGTATGGAAATCTTATTACCTCAACTGTATAAAGCAGGAAAATTTGCAGGGGTACTCTCTTTTGGAGGATCAGGTGGAACTTCCATTGTAACTCCTGGGATGCGAGCGTTACCAATTGGCGTTCCAAAAGTGATGGTATCTACAGTTGCTTCTGGTAATGTAGCCCATTATGTTGGGACAAGCGATATAATGATGTACCCATCTATCGTTGATGTAGCAGGTTTAAATCAAATTTCTACAAGAATATTTTCGAATGCTGTGTTTGCGATTGCAGGGATGTTACGATTTGAAAATAATCAAAAGATAGAACAAAAACCACTTATAGCAGCTACCATGTTTGGTTTAACGACGCCGTGTATTAATTATGCGAAGGCATATGTGGAAAAGCAAGGTTATGAAATGCTTGTTTTTCATGCCACTGGAATCGGCGGTAAAACAATGGAGAGTCTGATTGAAGATGGGTTTATTGAAGGTGTGCTAGATATTACTACTACGGAATGGGCGGATGAGTTAGTTGGAGGTGTTTTAGCAGCTGGACCGAATCGTTTAGAGGCAGCGGCTAAACATCACATTCCACAAGTGGTTTCTGTTGGGGCAGTCGATATGGTTAACTTTGGACCTTATGAGTCGGTTCCTGAAAAATTTACTGGGCGCAAATTTTATAAACATAACCCAACAGTGACGTTGATGCGCACAAATGTAGATGAAAACAAACGCATTGGGGAAGTTATAGCTAAAAAGTTAAACTTAGCACAAGGGAACACTTCTTTAATTTTACCATTAAAAGGATTATCAGGCTTAGATGTAGAGGGTCAGCCATTCTATGGACCAAAAGAAGATCAAATGCTTTTTCAAACGCTAAAAGAAAACGTTGACAGGACGAAGGTTCAAGTAATTGAATTGGAAAAAGCAATTAATGACCGTGCTTTTGCAGAAGCAGCAGCCGAAAAACTTATTCAATTAATTGAAAAGAGAAAAGGAGAGAAATAG MTKTIALAGTFDTKGEEFLYVKHLIESLGFKTLTIHTGVFRPQFQPDISNEAIFQAAGEDIQSIVAAEDRAKATLVLSKGMEILLPQLYKAGKFAGVLSFGGSGGTSIVTPGMRALPIGVPKVMVSTVASGNVAHYVGTSDIMMYPSIVDVAGLNQISTRIFSNAVFAIAGMLRFENNQKIEQKPLIAATMFGLTTPCINYAKAYVEKQGYEMLVFHATGIGGKTMESLIEDGFIEGVLDITTTEWADELVGGVLAAGPNRLEAAAKHHIPQVVSVGAVDMVNFGPYESVPEKFTGRKFYKHNPTVTLMRTNVDENKRIGEVIAKKLNLAQGNTSLILPLKGLSGLDVEGQPFYGPKEDQMLFQTLKENVDRTKVQVIELEKAINDRAFAEAAAEKLIQLIEKRKGEK NA NA NA NA NA AK015_03885 825 hypothetical protein ATGTTAAGTAGAAAAGAAATTATACAACGATTTCATGAACAAATAAATGAAGGTAATGTTTTACTTGGAGTAGGGGCTGGTACTGGGATTACTGCTAAGAGCAGTGAAGCTGGTGGCGCTGACATGTTGATCATTTATAATTCTGGACGTTATCGCATGGCAGGTCGCGGTTCTCTAGCTGGGCTTCTTTCCTATGGAGATGCTAATCAAATCGTCGTAGAGATGGGTAATGAAGTTTTACCAGTTGTTAAAGATACGCCAGTTTTAGCAGGTGTAAATGGAACAGATCCATTTCGTGTCATGGACGTATTTTTAAAGCAACTGAAAGACCAAGGATTTAGTGGAGTACAGAATTTTCCTACTGTCGGATTAATTGATGGTGTTTTTCGTCAAAATTTGGAAGAAACGGGGATGGGGTACGATTTAGAGGTAGATATGATTCGTAAAGCACATGAGCTTGATATGTTAACTACTCCATATGTCTTTGATGAAGACCAGGCTAAAAGAATGGCAGCAGCTGGAGCAGATATATTAGTAGCACATATGGGTTTAACAACAAAAGGAACCATTGGCGCTCAAACCGCATTAACATTAGATGATGCTGTGGAGCGTATTCAAAAAATAATTGCTGCAGGTAGATCAGTAAATCCTGAAATCATGGCGATTTGTCATGGTGGACCAATCGCAGAGCCCGAGGATGCTGCTTATGTGATTAAAAGAGTCGATGGGATTGTTGGCTTTTTTGGAGCTTCTAGTATAGAACGATTTGCAGCAGAAAAAGGGATTAAAGAACAAGCGGAAGCATTTAAACAAATTGGTAAGTAA MLSRKEIIQRFHEQINEGNVLLGVGAGTGITAKSSEAGGADMLIIYNSGRYRMAGRGSLAGLLSYGDANQIVVEMGNEVLPVVKDTPVLAGVNGTDPFRVMDVFLKQLKDQGFSGVQNFPTVGLIDGVFRQNLEETGMGYDLEVDMIRKAHELDMLTTPYVFDEDQAKRMAAAGADILVAHMGLTTKGTIGAQTALTLDDAVERIQKIIAAGRSVNPEIMAICHGGPIAEPEDAAYVIKRVDGIVGFFGASSIERFAAEKGIKEQAEAFKQIGK PGPT0021745_12 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021745-atoC-K07714 NA NA AK015_03886 282 hypothetical protein ATGTTAAGAAAGCTAGGTGAAAAAATGGAAGTGCATAATCATTTTCAACCAGGTGAAGTTGTTTACATCATTATTCGCAATCCACATGCCCAAAATGTTGCACACATTCAACAAGCTGCTGTAGTCGAACACCCAGAGCAATCCAATGAGTTGGCACTATTTATCCATGAAACGTACTATCCTTTAACAGAGGAAGTAGCTGTGTATAAAACATCGGATGAAGCTGAATCTGCATATGCCTCTGCGTTTGGTGTGGCGGATCAGGAAGGATATTATGGTTAA MLRKLGEKMEVHNHFQPGEVVYIIIRNPHAQNVAHIQQAAVVEHPEQSNELALFIHETYYPLTEEVAVYKTSDEAESAYASAFGVADQEGYYG NA NA NA NA NA AK015_03887 1029 splB COG1533 Spore photoproduct lyase ATGGTTAAGCCGTTTGTGCCGCAACTTGTTTATGTGGAGCCAAAAGCATTGGATTATCCTTTAGGGCAAGAGCTCGTTACAAAGTTTGAGAATATGGGGATAGAGATTCGGCAAACTACTTCCCATAATCAGATTCGTAATTTACCTGGAGATAACCATTTTCAAAAATATCGGGTAGCAAAATCTACTTTAGTAGTAGGGTTACGAAAAACGTTAAAATTTGATACGTCAAAACCTTCTGCCGAATACGCTATCCCTTTTGCTACAGGGTGCATGGGCCATTGTCATTATTGTTATTTACAGACGACAATGGGGAGCAAACCGTATATTCGTACGTATGTTAACACAGAAGAGATATTTGAAGCTGCGGAGGCATATATGGAAGAAAGAGCCCCAGAAATTACTCGTTTTGAAGCTTCCTGTACGTCGGATATTGTAGGTATCGATCATTTAACCCACACATTAAAACGAGCAATCGAATTCTTCGGAAAAACAGAGCATGGACAGTTGCGATTTGTTACGAAATTTGCTCATGTTGATCATTTACTCGATGCTGAACACAATGGAAGAACTCGCTTCCGCTTTAGTATTAATGATGATTACATTATTAAATACTTTGAGCCGGGTACGTCCAGGCTTCATGAGCGAATAGAAGCTGCTGCAAAGGTGGCTAAGGCAGGTTATCCATTAGGTTTTATCGTTGCACCAATTTATTTGCATGAAGGTTGGAAAACAGGCTACTATGAGATGTTTGAAAAATTGGAAGCAATGCTGCCAGAAAAAGCGAAGAAAGATTTAACTTTTGAAATGATTCAGCATCGTTTTACGAAGCCAGCTAAGCGTGTAATTGAGAAAAATTATCCAATGACTAAGTTAGAGCTAGACGAATCAAAACGAAAATGGAAATGGGGCCGTTACGGCATTGGAAAATATGTATATAAAGATGAAGAACAAGCTGATATAAAAACGACATTACATGGGTATATTCAAGAGTTATTTCCAGCTGCTAAAGTGGAATATTTCACGTGA MVKPFVPQLVYVEPKALDYPLGQELVTKFENMGIEIRQTTSHNQIRNLPGDNHFQKYRVAKSTLVVGLRKTLKFDTSKPSAEYAIPFATGCMGHCHYCYLQTTMGSKPYIRTYVNTEEIFEAAEAYMEERAPEITRFEASCTSDIVGIDHLTHTLKRAIEFFGKTEHGQLRFVTKFAHVDHLLDAEHNGRTRFRFSINDDYIIKYFEPGTSRLHERIEAAAKVAKAGYPLGFIVAPIYLHEGWKTGYYEMFEKLEAMLPEKAKKDLTFEMIQHRFTKPAKRVIEKNYPMTKLELDESKRKWKWGRYGIGKYVYKDEEQADIKTTLHGYIQELFPAAKVEYFT NA NA NA NA NA AK015_03888 387 hypothetical protein ATGCGACTTTGGCATGAAAAGCTAATCACAAAATTACCTAGACAACAACTTTTAGGGCAACATCGAGAATGTTGTGCTTTACGAGGAAACGGTTGGGGGAAAAGTCACGCAATTGTAAATTACGTGTTTCACCACTCTCCTTATCGCCTGTTTTTATATCACCAATTCATTATGGAAGAAATGAAAGTAAGAGGATATCGAGTTGATCCTTTATGGGAAAACGCATTTTACCGAGGGAAACAATGTAAGCAACATACAAAAGAAAGCCTCTATGCAGGGGAAGAAAATATTAGTAATGAGTGGCCTGTCTACCCCGAACATGATGACACATACCTACAAGAATGTGTTGTGAACTTAAAAGAAAAAGGCATTGATATTTTAGTTTAA MRLWHEKLITKLPRQQLLGQHRECCALRGNGWGKSHAIVNYVFHHSPYRLFLYHQFIMEEMKVRGYRVDPLWENAFYRGKQCKQHTKESLYAGEENISNEWPVYPEHDDTYLQECVVNLKEKGIDILV NA NA NA NA NA AK015_03889 819 zupT COG0428 Zinc transporter ZupT ATGCTCGTAGATTATTTTCTTACATTACATCCAATAATTCAAGCATTAATTGCAACTTTATTTACATGGGGGATGACAGCACTCGGCGCGGCTCTCGTTTTTACAACCAAAAATTTTAACCAACGTTTTTTAGATAGCATGCTCGGTTTTGCAGGCGGCGTAATGATTGCAGCTAGTTTTTGGTCGTTATTATCTCCAGCGTTAGACATGGCGGAAGCTAACGGTGATACGCCATGGGTTCCTGCCGCTATCGGTTTTATGTTTGGTGGAATAGCACTATGGGGTGTTGACAAGGTATTACCACATTTGCATCCTACTTCTCCAATCCAAGAAGCAGAAGGGATACATCCAGGACGTAAAAAACGTAGCACGCTGTTAGTTTTGGCGATCACGTTACACAATATTCCTGAGGGCTTAGCCGTTGGTGTCGCTTTTGGAGCTATTGCTGCTGACCTTCCAACAGCGACTATTACAGGGGCAGTAGCCTTAGCGATTGGTATTGGCATTCAAAATTTCCCTGAAGGTGTTGCGGTATCAATGCCATTGAGAAGGGAAGGGATGTCTAGGAAGAAAAGCTTTATGTACGGTCAATTTTCAGGAATGGTTGAACCAATAGCTGGTGTTGTTGGTGCTTTAGCTGTAACGTTTATTCAGCCATTACTACCATATGCACTTAGCTTTGCAGCCGGAGCAATGATCTTTGTAGTGGCAGAAGAGGTTATTCCTGGGTCGCAAGAACAAGGCAATCGTGATTTAGCCTCCATGAGTTTAATGGTTGGCTTTACGGTTATGATGATATTAGATGTTGCGCTTGGTTAA MLVDYFLTLHPIIQALIATLFTWGMTALGAALVFTTKNFNQRFLDSMLGFAGGVMIAASFWSLLSPALDMAEANGDTPWVPAAIGFMFGGIALWGVDKVLPHLHPTSPIQEAEGIHPGRKKRSTLLVLAITLHNIPEGLAVGVAFGAIAADLPTATITGAVALAIGIGIQNFPEGVAVSMPLRREGMSRKKSFMYGQFSGMVEPIAGVVGALAVTFIQPLLPYALSFAAGAMIFVVAEEVIPGSQEQGNRDLASMSLMVGFTVMMILDVALG PGPT0004250_1079 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ZINK_RESISTANCE ZINK_RESISTANCE-ZINK-NICKEL_TRANSPORT,PGPT0004250-TC_ZIP|zupT|ZRT3|ZIP2-K07238 NA NA AK015_03890 1728 menF Isochorismate synthase MenF ATGGAAAATATTTACCTGCAATTTGACTTTAACGAACAGCAACCTGTTGCATTCAAAGATCCCATTACCATTATTTACACCTATGAGTTATCTGAAGTTGTCCCTTGTTTGCAGAAGGTGGAGCAATATATTCAAGCTGGATACTACGCAGGAGGGTTTCTAGCTTATGAAGCTGCGCCAGCATTTGACCCAGCTTTTCAAGTACATACAAACGGGAGCTTCCCGCTAATATGGTTCGGTATTTTTTCAGAAGCGGAGGCACCTCACAAACGACGAGTGAGTCCATTTGCCATTCAAAAATGGCAAATGGATATCAAAGAACAAGAATATAAGCAGCAAATTGAACATATTAAACAGCAGATTGAAGAAGGTCATACATATCAAGTTAATTATACCATTCCCTTAAAGAGCTATTTTACAGGTGATAGCTTTGCATATTATGAGCAATTAGCCGCTTCTCAAGCTGCAAACTACGCTGCTTATTTACAAACGGGCAATTATTCTATTTTATCGGCTTCCCCAGAGCTTTTTTTTCATTTGAAAAAGGGGGTAGTTACTACAAAACCGATGAAAGGAACTGCAAAAAGAGGTAGCACAATCGAAGAGGATAAAGCAAATGCGGATTGGCTCTATTATTCTGAAAAGAATCGTGCGGAAAATGTGATGATTGTTGATTTATTACGTAACGATCTTAGTAGAATTGCAAAACGCGGAACCGTACGTGTACCTGAACTGTTTGCAATAGAACGCTACCCCACTGTTTTTCAAATGACATCAACTGTTACAGCAGAAGTGGAAACGAATTTAACGAGCATCTTTGAAGCATTGTTTCCTTGTGGTTCGATTACCGGGGCACCAAAAGTCAGCACCATGAATATCATTCGTAATATAGAAAAAACACCGCGCAATATTTATTGTGGCGCAATTGGCTACATAACTCCTGAACATGAGGCGATTTTCAACGTACCGATTCGAACGGTATCCATTGACAACACTAGTAATGAAGCTACTTACGGTGTAGGAGGAGGAATAACTTGGGATTCAACAGCGGAGGAAGAATATGAAGAAATGCTTGCCAAAACGCTCGTGTTAGAAAAAAAGGAAAATAGCTTTGACTTACTGGAAAGTATTCGGCTAGAAAACGGTTGTTATCCATTGCTTGCGTACCATTTAAACAGAATGGAAAAATCGGCTACCCATTTTTCTTACCCATTTGATCCATTATTTATAAAGCAGAAACTCGAACAAATCGCCCAACAATTGAATACAGGAGTGCACAAATTGCGTTTATTGTTATCCAAAACTGGGCAAATTAATTTAGATCTTCAGCCGATAAGCATGTTAAAAAAACAACTGCATGTTCGTCTTGCTACACGGGCAATAAACAAAACAAACCCTTTCTTTTATCATAAAACGACAAACCGAGAAATATACGAGGCTTTTTTAACAGAGCATCCCGATGCTGATGACGTTTTATTATGGAATGATGAGTTGCAAATCACCGAATTTACCATTGGCAATGTGGTCGTAGAAATAGATAAAAAATATTATACTCCCCCAGTAGAATGCGGGTTGCTACCAGGAACCTTCCGTCAATATGTACTTGAAACAAAAGAAGTGCAAGAAAAAATCATTACTATTACAGATTTACAACAAATATCGAATATCTGGCTTATTAACAGCGTTAGAGGCTGGGTTCCTGTTACCATTGAAAGGGGACAAATGTAA MENIYLQFDFNEQQPVAFKDPITIIYTYELSEVVPCLQKVEQYIQAGYYAGGFLAYEAAPAFDPAFQVHTNGSFPLIWFGIFSEAEAPHKRRVSPFAIQKWQMDIKEQEYKQQIEHIKQQIEEGHTYQVNYTIPLKSYFTGDSFAYYEQLAASQAANYAAYLQTGNYSILSASPELFFHLKKGVVTTKPMKGTAKRGSTIEEDKANADWLYYSEKNRAENVMIVDLLRNDLSRIAKRGTVRVPELFAIERYPTVFQMTSTVTAEVETNLTSIFEALFPCGSITGAPKVSTMNIIRNIEKTPRNIYCGAIGYITPEHEAIFNVPIRTVSIDNTSNEATYGVGGGITWDSTAEEEYEEMLAKTLVLEKKENSFDLLESIRLENGCYPLLAYHLNRMEKSATHFSYPFDPLFIKQKLEQIAQQLNTGVHKLRLLLSKTGQINLDLQPISMLKKQLHVRLATRAINKTNPFFYHKTTNREIYEAFLTEHPDADDVLLWNDELQITEFTIGNVVVEIDKKYYTPPVECGLLPGTFRQYVLETKEVQEKIITITDLQQISNIWLINSVRGWVPVTIERGQM PGPT0008015_645 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008015-pabBC-K03342 NA NA AK015_03891 603 pabA_2 COG0512 Aminodeoxychorismate/anthranilate synthase component 2 ATGATACTCATGATTGACAATTATGATTCATTTACCTTCAATTTAGTACAATATATGAGACAGCTTGATTTGGAAGTGCGTATTGAAAGAAATGATGCGATCACTGTAGAAGAAATTCAACAATTGCAGCCAGAAGCGATTGTCCTGTCTCCAGGTCCTGGAACTCCAAATTCAGCTGGAATTTGTTTAGAAATTGTAACGAAACTATACCAGCAATTTCCTATACTTGGTATATGCCTTGGTCATCAAACGATTGCCCAAGCTTTTGGCGCCACGATTGAAAAAGCAAAACAACCCATGCATGGTAAAGTGTCTCTCATTACCCACGATAATCGAAGAATGTTTCAAAATCTAAATAATCCTCTAGCAGTTACTCGGTATCATTCCCTCATTGTAAATAAAGAATCCATGCCAGACTGCTTAGAAACAAGCGCTACGACAAAAGAGGGAGAAATCATGGCGCTTCGCCATAAATTTTATCCAATAGAAGGCATACAAGCACATCCCGAGGCAATTTTATCAAAAAGTGGAATCGAATTACTACATAATTTTTTTACTGTCAAAGGAAGTTATAAGAATGGAAAATATTTACCTGCAATTTGA MILMIDNYDSFTFNLVQYMRQLDLEVRIERNDAITVEEIQQLQPEAIVLSPGPGTPNSAGICLEIVTKLYQQFPILGICLGHQTIAQAFGATIEKAKQPMHGKVSLITHDNRRMFQNLNNPLAVTRYHSLIVNKESMPDCLETSATTKEGEIMALRHKFYPIEGIQAHPEAILSKSGIELLHNFFTVKGSYKNGKYLPAI PGPT0008000_695 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664 NA NA AK015_03892 1050 hypothetical protein ATGCAACAAGTTTATAGTGATATTAATCAATTTCGTGGAACTCATTACGACTTTGGCTATTACCAAGGAACGCTATTAAAAAATTTGCCTATTTTACCCAATCGAAAAAAGCAATGGGCCGCAAAAAAGCAACGCCATTTTATAATAGATGACAACAAAATAAAAGAACGATTATTTCAATTTGCACCTGGTATTTGGGATGAACTTCACGGTCTAAAAGATGCTCTACAAATGAATATTAATGAAGCAATTCAAGATTTTGGTGGATATTATTTGGAGTACGGTCGTAGTGGCTGCTCGATTTACACAAATTCGGATTACATGGTGCGAAATTACGATAATGCACCCTCTACCTATGAAGGTCGTTATTTACTGTATCAACCTACAGATTATGGATACGCCGCTCTCGGCCCTACAATGCAAATAACAGGACGAACAGATGGGATGAACGAGCATGGTTTAGCAATGGGGTATAACTTTATTAATCGTAAGCAGTCTGCTGACGGATTTTTATGTAATATGATTGGACGAATTATTTTGGAAACATGTAAAAATGTAGAAGAGGCTGTTGCACTTTTAAGGGAAATACCACATCGACACTCTTTTAGTTACGCCTTACTCGATAAAAATGGCATGAGTAAAGTCGTCGAAGCCTCTCCTCGAGATGTTGTGGTACACAATGCTTCTATTTGCACAAATCATTTTCAGCATTTATCTAAAGAAAACCGTTTTCGCATGGATGATTCCTTGCGACGTTACGATGCAATAGAAAGTCAGTCTACACATATCCATACCCCTTATCAAGGTTTCCAAATGTTCAATCAGTCAAATAATGGTATATTTTCGACGAAATATGGGTCTTGGGCTGGAACACTGCATACGGCGCTATATCTACCTAAAAGTAAACTTGCGTGGTTTGCGCTAGGAGGAAATAGAGAGCCTTTACTATTTGACTTTAACCGTTGGCTTCAAGGTAAAGACACAAATATGAAGCAAGTAAAAGGAGAATTGCATAGTTTGGAAGTTTTTGCAAACATGAAACTTTTTTAA MQQVYSDINQFRGTHYDFGYYQGTLLKNLPILPNRKKQWAAKKQRHFIIDDNKIKERLFQFAPGIWDELHGLKDALQMNINEAIQDFGGYYLEYGRSGCSIYTNSDYMVRNYDNAPSTYEGRYLLYQPTDYGYAALGPTMQITGRTDGMNEHGLAMGYNFINRKQSADGFLCNMIGRIILETCKNVEEAVALLREIPHRHSFSYALLDKNGMSKVVEASPRDVVVHNASICTNHFQHLSKENRFRMDDSLRRYDAIESQSTHIHTPYQGFQMFNQSNNGIFSTKYGSWAGTLHTALYLPKSKLAWFALGGNREPLLFDFNRWLQGKDTNMKQVKGELHSLEVFANMKLF NA NA NA NA NA AK015_03893 138 hypothetical protein ATGTCTGAACAAAACAAAAACCGTAACAAAGACAAAAATAAGCAAAACAATCAAAATAAACACAATAAGTTACGTCCCGATGTTGAATTTTCCAGAGAAAATCCAATGAATCAGGAAATAAAAAAGCAAAATCGTTAA MSEQNKNRNKDKNKQNNQNKHNKLRPDVEFSRENPMNQEIKKQNR NA NA NA NA NA AK015_03894 1248 hypothetical protein ATGAAGGTTCAACCAGTTAGTGAAGTGAAAGATCCTGTGCGTACGGATCAGTTCCATTTAAACAAACCACAAACTACTTTCATTACAGGCGGAATTATTGTTGCTTTTCTCCTTGGAATATATTTATTTACTACTCAGGAAATGACCCAGCCAATTTTGTTATTACTTGGTTTGTTATTAGGTTATACATTGTTTCACGCACGTTTTGGTTTTACTTCTGCGTTTAGACGTTTTATGTCTGTAGGTAATGGAGAAGCATTACGTTCTCATGTGCTCATGCTTGCTGTAGCAGTTACGTTGTTTGCCCCAATTCTTGCTTACGGTTATTCTTTTTTTGGTGCAGAAGTAAACGGCTATGTTTCGCCTGTTGGTATTAGCTTGCTAGTTGGAGCTTTCGTATTTGGGATAGGCATGCAACTTGGTGGTGGATGTGCTTCAGGGACACTTTACGCTGTTGGTGGGGGGAGATCGGTTATGTTTGTAACACTCCTATTTTTTATTATTGGGTCTACCATTGGCGCAAAACATCTTCCTTTTTGGACAGAAGATTTACCGAGCTTTGCACCTATTTCTTTAGCTACATCTACGGGCCTTGGATATGGTGGCGCATGGTTGGTATCAATTATTTTGTTTGGCATGATTACATGGATCACGATTGTTGTAGAGAAGAAAAAACAATCACCTAAAATGGCATCTGTACCTTCCGAAAAAGGCTGGAAGCGTATATTGCGGGGGTCATGGCCTTTACTTGCGGCAGCGGTGGTATTAGCTGTATTAAATGCGCTAACACTTATGACGCGAGGCACACCTTGGGGAATAACATCTGGTTTTGCACTTTGGGGTTCTAAAATTGCTGCACTTATAGGTGTGGATGTAGCAAGCTGGGGTTATTGGCAAGGGGATAATGCTCAAGCATTACAAGCTTCCATTTTTGCTGATTCCACAACTGTACTGAACTTTGGCGTTATTTTAGGAGCTTTTATAGCTTCTGCTGCTGGTGGTTTATTTAAATTTACACGTTTAAATTTGAAAAATGTCGCTGCATCAGTTATCGGCGGATTGTTAATGGGTTATGGAGCCCGTTTAGCTTTTGGGTGCAATATTGGCGCTTATTTTGGAGGAATTGCCTCATTTAGTTTACATGGCTATATATGGGGGATTTTAGCACTAGGAGGAACATTTATCGCTTTATATTTACGCCCATTATTTGGCTTGTCTGTACCAAAATCAAAAGATTCGTTTTGTTAA MKVQPVSEVKDPVRTDQFHLNKPQTTFITGGIIVAFLLGIYLFTTQEMTQPILLLLGLLLGYTLFHARFGFTSAFRRFMSVGNGEALRSHVLMLAVAVTLFAPILAYGYSFFGAEVNGYVSPVGISLLVGAFVFGIGMQLGGGCASGTLYAVGGGRSVMFVTLLFFIIGSTIGAKHLPFWTEDLPSFAPISLATSTGLGYGGAWLVSIILFGMITWITIVVEKKKQSPKMASVPSEKGWKRILRGSWPLLAAAVVLAVLNALTLMTRGTPWGITSGFALWGSKIAALIGVDVASWGYWQGDNAQALQASIFADSTTVLNFGVILGAFIASAAGGLFKFTRLNLKNVAASVIGGLLMGYGARLAFGCNIGAYFGGIASFSLHGYIWGILALGGTFIALYLRPLFGLSVPKSKDSFC NA NA NA NA NA AK015_03895 573 ycnK COG1349 HTH-type transcriptional repressor YcnK ATGTTACCACTTGAAAGGAAGGAACGTATTAAAGAGCTGATTTTGCAGAGGAAAAATTTAAAAATAGCAGATTTAAGCGACATGTTTGGTGTATCAGAGATGACCATACATCGTGATGTTAAATCCTTGGAAGAAGAAGGAATTGTCACAAAAACCTTTGGTGGCATTTCCTTAGTGCAAACAGAGGAAAACAGGCAGGATAGGTGTGTTTATTGTGCAAGGTCGATAAATGAAAAAATGGCTTATCGCTTAATATTGACGAATCATAACATCGAAGTTACTTGTTGTGCCCACTGTGGCTTACTACGCCAACAACAACTTGGTGATAAAGTGAATCAAGCCATCTGCCCTGATTTTCTAAGGAGTACAACCATTAGTGCTTCTTTAGCTTGGTATGTGACGGATACTTCTTTACATATGGGCTGCTGTCATCCGCAATTATTAACTTTTGAGTACCGAGAACATGCTGATAAATTTGTAAAGGGTTTTGGAGGAAAAGTGTATTCATTTGATGAGGTACAAGAAGTCTTACATCAACAAATGAAAGGATCGACACAATGCAAGCATCACTAA MLPLERKERIKELILQRKNLKIADLSDMFGVSEMTIHRDVKSLEEEGIVTKTFGGISLVQTEENRQDRCVYCARSINEKMAYRLILTNHNIEVTCCAHCGLLRQQQLGDKVNQAICPDFLRSTTISASLAWYVTDTSLHMGCCHPQLLTFEYREHADKFVKGFGGKVYSFDEVQEVLHQQMKGSTQCKHH PGPT0004170_37 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004170-ycnK-K21601 NA NA AK015_03896 759 hypothetical protein ATGAGAAGAAGATTTTGGATGTTTATTGGAATTATTGCGTTAATCTTAATGACCGCATGTGGACAAGAAGAGAAGGTAGAGAAAAGTACGGATGCTAAAGAGGAGGAGCCGAAAGAGTTAAAAGTGGATTTTGAAGTTCCTGAATCAGCTGAAGTAGGAGACACTGTTGAGTTGAAAGCAACGGTAACTTATGGGGAAGAAAAAGTAACAGATGCAGATGAAGTGGTGTTTGAAGTTTGGGAAAAAGGTAAGAAAGATGACAGTACTAATTACGAATCTACCAATCATGAAGATGGCACTTACACTGCAGAAGTTACTTTTGATAATAACGGTGTATACGAGATGTTTGCTCATACAACCGCTAGAGATCTGCATACGATGCCGCAAAAAGCGATTACAGTTGGTGATGTGGAGAATCCAGAAACAAAGGGTGATGAAGAACATGCCAACCACGAGGGAACAGACGGATTTGCGTTACACTTTATGGAACCAGAAAATGTGGCAGCGGGAGAAGAAACAGAGTTAATGGTACATCTACAAATGAATGAAAAACCTTTAGAAGAAGCTTCTGTTCGTTATGAAATCGGTCGGGAAAATACAGAGGATAAAGAATGGGTAGACGCTGAAGAAGGTGAAGCAGGAGAATACACAGGTTCTTATACATTCACAGACAAAGGGAAATATCAATTAATTGTTCATGTAGAAAACGATGATGATTTGCATGAACATGAAGAGTATGAAATTACAGTAGAAAAATAA MRRRFWMFIGIIALILMTACGQEEKVEKSTDAKEEEPKELKVDFEVPESAEVGDTVELKATVTYGEEKVTDADEVVFEVWEKGKKDDSTNYESTNHEDGTYTAEVTFDNNGVYEMFAHTTARDLHTMPQKAITVGDVENPETKGDEEHANHEGTDGFALHFMEPENVAAGEETELMVHLQMNEKPLEEASVRYEIGRENTEDKEWVDAEEGEAGEYTGSYTFTDKGKYQLIVHVENDDDLHEHEEYEITVEK NA NA NA NA NA AK015_03897 276 hypothetical protein ATGAATGTCAAACGCATCGTAGATATAGCCAAAGAGTTAGACAAAGCTCAAATTACCTGGGGAATTGGCGGTTCTATGCTGTTAGCTTACTATGATATTGTAGATCATGTAAATGATATAGACATTATTGTAGAACCAGAGCATATAGATAAGGCTGTCCATGTTTTACAAAAGATGGGAAAAGAAAAAGAAGTAGAGCGCCACAAGCCATTTGCTACCGTATATTTTCATAAGTTTCGTGTGAAAACAGCAACTGTGGATATGATGGTCAGTTAG MNVKRIVDIAKELDKAQITWGIGGSMLLAYYDIVDHVNDIDIIVEPEHIDKAVHVLQKMGKEKEVERHKPFATVYFHKFRVKTATVDMMVS NA NA NA NA NA AK015_03901 798 hypothetical protein ATGAATGAAAATATCAAAAACACTGGAACACAAGGGGCTATCCAAGATATTGATAAAACAATTGCTGACATGGTAGCTGCAATTCCTTCCGATGGTTTAGCAGTAAATACTTACTGGTGTCGTCCATGTATATCTTGGAAAGATGCCATATATTACTCGGGTGTGAACATCGAATCAAGTAATGTCACAAATGTAACCCCTTTATTTCTTGGTGAAAATACTTTCAACAATACTACACCTCTAGAACAAACCTACTATACTGCTTCTTTTAGTCAAGAGGTTACGACTTCAAAGTCTACTACCACAGAACATGGTTTCTCATCATCTACCGAAGTTGGAGGAAAGACCGGCATTCCTTTTGTAGCTAGTGGGGAAGTTAAAGAAACTCTTGAATATAATTTTAATCACACAGACACACAAACCACGAGCATTACAACTACCATTGCATCGCCACCACAGCCTGTTACAGTACCAGCGAATAAGATATACAAAGCTCAAGTATATTTTGAAAAAAATACTACGTCAGGAAACGTAGAGTTGTTTGCTGATGTATTAACATGCTTTGGATCGTATGGAGTGGTATACCCAATAGGAAAGGCTATAGAAATGACAGATAACACATATGGGTTGATTAAATCTCCTAACGATAGTAAACAAGTTCGAGCAAAGGGTAAAGGGAAATTTAAAGTTGAATACGGTACAAATCTAATAGTTAATATTTATGATGTAACTGCTGAAAAGGCAGACACTGTAGAAGAAAGTAAACTAGTTAAAACAAAGGTAATTCCAATAGATTAA MNENIKNTGTQGAIQDIDKTIADMVAAIPSDGLAVNTYWCRPCISWKDAIYYSGVNIESSNVTNVTPLFLGENTFNNTTPLEQTYYTASFSQEVTTSKSTTTEHGFSSSTEVGGKTGIPFVASGEVKETLEYNFNHTDTQTTSITTTIASPPQPVTVPANKIYKAQVYFEKNTTSGNVELFADVLTCFGSYGVVYPIGKAIEMTDNTYGLIKSPNDSKQVRAKGKGKFKVEYGTNLIVNIYDVTAEKADTVEESKLVKTKVIPID NA NA NA NA NA AK015_03902 804 hypothetical protein ATGGAAAAAAAATTAATTCATCAATTAGAAAAGTTAGGGTTTTCTACTTATGAATGTCGTACTTATATTGGATTACTAAAGCACTCACCAATTACAGGTTACGAAGTGAGCAAACGAACTCGAGTTCCAAGATCAATGATTTATGAAGTCTTAGGAAAACTCTTAGACAAAGGCGCTATTTACACTGTTCCAACGGAGCCAGTTACATATTCTCCAGTAAATCCAGTACAATTAATTGAAAGAATGAAACAAGATTTTGATGAGTCGTTTACCTTTTTGTCTAAAGAATTAGCATCTATTGAGTCTGAACAAGAGGTGAACACCATTTGGCGGATTAAGTCGAGTGATTTTGTATTAGAAGAAATGAACAGTCTTATACAACGAGCTCATCAAGAAGTTTTACTTTCACTATGGCATGAGCAAGCGAAAGTTTTGCAACCGACAATTAAGAGACAAGAAGAATCTGGAATTGAATTCTTCTCTTTACTTTTTGGAGCTGAACAGATGCAATTTGGTCATACATATCATCATAACTATATGAGGCCAGAAGTTGTCAGTGAACGAATGGATGGTTATTTGACGATTGCTGCTCGTGATCATCAAGAAGTCATTATTGCGAACTTTTTAGATAATGGTTCTGCCTGGGCGGTAAAAACAGAAGATCCTGCACTCGTCCTCGTGGCGGAAGAATATATAAGACATGATATTATGATTGTAGAAATCACAGAAAAATATGGCGCAGAAAAGCTGGATCAGTTATGGCGTAAACGTCCTGACTTGAAGAGAGTAGTAAGTGGAAAATAA MEKKLIHQLEKLGFSTYECRTYIGLLKHSPITGYEVSKRTRVPRSMIYEVLGKLLDKGAIYTVPTEPVTYSPVNPVQLIERMKQDFDESFTFLSKELASIESEQEVNTIWRIKSSDFVLEEMNSLIQRAHQEVLLSLWHEQAKVLQPTIKRQEESGIEFFSLLFGAEQMQFGHTYHHNYMRPEVVSERMDGYLTIAARDHQEVIIANFLDNGSAWAVKTEDPALVLVAEEYIRHDIMIVEITEKYGAEKLDQLWRKRPDLKRVVSGK NA NA NA NA NA AK015_03903 717 ygaZ COG1296 Inner membrane protein YgaZ ATGGAATATACAAATAGAGATGAAAGTATGATGGTAAAACCATTTTGGCAAGGAGTAAAAGATTGTTTACCAACCGTTTTAGGTTTTTTAGGGATTGGTTTAGCAGCTGGTGTTGTACAAACTTCAGCTGGAATGAGCCCTTTTGAGGTGCTACTTATTTCTATGCTACTTTATGCCGGATCTGCCCAGTTTGTTGTGGCTGGAATGATTGTTGTTGGAGCACCAATAATTTCAGTAGTTGTTGCTATTTTTATTGTTAACTTACGTTATTTATTATTAAGTGCTTCATTAGCACCACATTTTCAAGCTTTTAGTTTAAAACAAAATGCACTGAATGGTTTTTTATTAACGGATGAAACTTACGGAGTTATTGCAAACGAAACATTAAAAAATAAACCACTTAAATTTGAATGGTTAATGGGATTAAATTTAACTGCTTATGTGAATTGGATTGTGGCGAATGTAGCAGGTTCATACTTCAGTACTTGGTTATCTAATCCTGAGAAATTTGGAATGGACTTTGCCTTATCAGGAATGTTTATTGGTCTAATTGTTTTACAATTTCTTAGTCGAAAACGCTGGGGTATAGATTTAGTTGTTTTTACAACAACTGTTGCTATGATGCTAATTTTAAGTCAGTTTATTACTGTTGGTGGATTACATATTATTTTTGCAACAGTCGTAGCTGCAACTATAGGGATGGTGATTAAAAAATGA MEYTNRDESMMVKPFWQGVKDCLPTVLGFLGIGLAAGVVQTSAGMSPFEVLLISMLLYAGSAQFVVAGMIVVGAPIISVVVAIFIVNLRYLLLSASLAPHFQAFSLKQNALNGFLLTDETYGVIANETLKNKPLKFEWLMGLNLTAYVNWIVANVAGSYFSTWLSNPEKFGMDFALSGMFIGLIVLQFLSRKRWGIDLVVFTTTVAMMLILSQFITVGGLHIIFATVVAATIGMVIKK NA NA NA NA NA AK015_03904 327 hypothetical protein ATGACAATGGATTTAACTTTATTGGTGATCGTTATCTTTGGGACAATTGTAACATTTTTACCTAGAAGTGCTCCGCTTATGATGTTAAGTCAGATGGAGATACCTAGTAAGGTTATTGAATGGCTTGAACATATTCCTATCGCTGTTATGACAGCACTAGTTGTTCAAGAAGTTCTCATTCCTAATCATGAATTTAGTTATGTTATAGGTAATTTACGGTTACTTGCTGCTCTTCCGACAATTTTAGTTGCTTTATTTACTCGAAGTTTATTATTAACTGTTATTGTAGCAATGTGCAGTATGGCTAGTTTGCGATTCTTTTTTTAA MTMDLTLLVIVIFGTIVTFLPRSAPLMMLSQMEIPSKVIEWLEHIPIAVMTALVVQEVLIPNHEFSYVIGNLRLLAALPTILVALFTRSLLLTVIVAMCSMASLRFFF NA NA NA NA NA AK015_03905 252 hypothetical protein TTGCTAAACAAATTGACAAAAGGGATAAACATCCTAATAACGACCTTTATGCAAACAAATGAAGGGAAAAGTGTTGAAGCATGGGATCATAACATTCGCACCTCGAAAGAAAAAATTTCTAATTATGCGACACAGATCTATGATTTACTATCACTATTTGAAAATTACGTAACCGACACTACAAGATATATTTCTCCAATTTCAAGGCACACAATGATGCGTGGGGATCGTAATGATATTTGGGCGAATTGA MLNKLTKGINILITTFMQTNEGKSVEAWDHNIRTSKEKISNYATQIYDLLSLFENYVTDTTRYISPISRHTMMRGDRNDIWAN NA NA NA NA NA AK015_03906 225 copA_2 COG2217 Copper-exporting P-type ATPase ATGATGGCAAATGTAGTATTACAATTAGAGCCGTTAACTTGTCCGTCATGTATTAAAAAAATTGAAATAGCTTTAGGAAAAGAGCCAGGCGTTCGGAAAGCTAGGATTCTGTTTAATACAAGCAAGGCAAAAGTGGAATATGATGAGAAAAAAGTTGATATAGATCAATTAGTAGAAAAGATTAGCAAATTAGGGTACGCTGTCTTATCCCAAAAACAAACTTAG MMANVVLQLEPLTCPSCIKKIEIALGKEPGVRKARILFNTSKAKVEYDEKKVDIDQLVEKISKLGYAVLSQKQT PGPT0004125_1283 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_COPPER_RESISTANCE COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213 NA NA AK015_03907 1872 cadA_1 Cadmium-transporting ATPase GTGACTGCTTTTGTTCAAAGGTATAAAAGGCATATAACGGGAATAGCTTTTATATCGATCATTTTAGGAGTACTTTTAGGTATAATTAGTGGAAAAGGGGTTCAAAATGGCTTTTTAATCTTTGCAACAGTGATTGCAGGAATTCCAATTTTTATAAAGGCCTTTCAAGCTTTACGGTTGAAAGTGTTTAGCATTGAATTACTCGTTACCATTGCCATTGTTGGTGCAGTACTTATTCAAGAATACATTGAATCGTCTGTGGTGGCATTTTTATTTTTGTTCGGCGATTTTCTGGAAGCACGTACGCTAGAAAGAACAAGATCCTCTTTGAGTGAACTAATGGATATGGCGCCACAAGAGGCTAAGGTTATTCGAGATGGGAAGACTGTTAAAGTTCCAGTGGAAGAGGTGGTGATTGGCGAACGAGTCACTGTGCATTCAGGCGCAAAAATTCCAGTAGATGGAAAAATAATCAAAGGCAGGGCTCAAATCAATGAGTCTACAGTGACAGGTGAATCTATACCAGCTTACAAGCGAAGGAATGATGATATCTTTTGTGGATCCATTGTTGATCAGGGATACATCGAATTGATTGCTGAAAAGGTCGGAGATGACACAACGTTTGCAAAGATTATTGAATTAGTAGAAGAAGCGCAGGACGGCAAGTCAAATACAGAAAAATTTTTAAACAAATTTTCACAGATTTATACACCATTTGTTGTTGCTCTTTCCATACTGGTGTATATTATCGTGCAAGACCTTCATATGGCAATCACATTTTTAGTTATTGCCTGTCCAGGTGCGCTTGTTATTGGTGCTCCAGTTTCCAATGTAGCAGGAATCGGAAATGGAGCAAAAAACGGGGTGCTTGTTAAAGGTGGCGAAGTAATGGAACGCTTAGCCAAAGTAGATACAATTGTTTTTGACAAGACTGGAACATTAACTAAAGGGAAACCAGAGATAACTGCAATTAAAGTGTGGGATCACCATTTAAAAGAAAATGGGTTACTGCAAATCATAGCCGAAGCAGAAGTGATTTCTGAACACCATCTAGGGAAAACCATTGTTAAAGAAGCAAATGAACGAAGGTTACCGCTTTATGAAAATGTAAAGAACGGACAGATTGTAAAAGGAAAAGGGATAAAAGCAGAGGTAGGGGGACAGGAGCTAATTATAGGTAATAAAAGTCTTATGATGCAGGAAGACATTATTTTATCTCAAGAAATGCTTCAATATAAGGAAACGCAAGAGAAAAGAGGTAACACCGTTATTTTGGCAGCTATAAATCAAAAAATAGCAGGTGCTGTATCCATCGCTGATCAAATTAGGGAAGATGCTTTAGATGCTTTGCAAAACATGAGAAAAAGCGGTATTCGTAAAATGACCATGCTTACGGGGGATAATTCCCATATGGCTGCTCTAGTAGCAAGAAATTTACATTTAGATAGTTATCATGCCGAATTATTACCGGAAGCTAAGGTAGACTATATAAAGCAATTAAAACAATCTGGATATTATGTTGCGATGGTAGGAGATGGGATTAATGACGCACCAGCGATTGCGACAGCTGATATTGGCTTAGCTATGGGAGATGGCGGAACAGATATATCTATGGAGACAGCTGATGTTGTGCTTATGGCAAGTAAACTGGCTCAATTTTCTCATGCTTATGCATTAGCAAAAGCGACAGTTCGTAGTATGAAGCAAAATACGTGGATTGCAATAGGGACAGTAGCCTTTTTGCTAGTTGGTGTATTAAATGGTTCTGTTCATCTAGCTTCCGGTATGTTTATTCACGAAGCTAGTGTAATGTTAGTTATATTAAATGGAATGCGTCTTATTAAGTTTCATACAGATATGCATCAAAAATAA MTAFVQRYKRHITGIAFISIILGVLLGIISGKGVQNGFLIFATVIAGIPIFIKAFQALRLKVFSIELLVTIAIVGAVLIQEYIESSVVAFLFLFGDFLEARTLERTRSSLSELMDMAPQEAKVIRDGKTVKVPVEEVVIGERVTVHSGAKIPVDGKIIKGRAQINESTVTGESIPAYKRRNDDIFCGSIVDQGYIELIAEKVGDDTTFAKIIELVEEAQDGKSNTEKFLNKFSQIYTPFVVALSILVYIIVQDLHMAITFLVIACPGALVIGAPVSNVAGIGNGAKNGVLVKGGEVMERLAKVDTIVFDKTGTLTKGKPEITAIKVWDHHLKENGLLQIIAEAEVISEHHLGKTIVKEANERRLPLYENVKNGQIVKGKGIKAEVGGQELIIGNKSLMMQEDIILSQEMLQYKETQEKRGNTVILAAINQKIAGAVSIADQIREDALDALQNMRKSGIRKMTMLTGDNSHMAALVARNLHLDSYHAELLPEAKVDYIKQLKQSGYYVAMVGDGINDAPAIATADIGLAMGDGGTDISMETADVVLMASKLAQFSHAYALAKATVRSMKQNTWIAIGTVAFLLVGVLNGSVHLASGMFIHEASVMLVILNGMRLIKFHTDMHQK PGPT0004200_4207 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534 NA NA AK015_03908 705 anr Transcriptional activator protein Anr ATGTTTTCTAAAGGAAAACCAATTAAACGAGGTACTTGTAACAAGCATTCTCATCCTAATTGTGTAGCTATGGTACCTATCTTTAACCATTTAGATCAACCGCAAATGGAAGAAGTCATGGACCATGTTCATGCTGTTACATTTAACCGAGGGGAGACCATATACCGTGCAGGTGATAAAGCTAAATCGTTGTATATTACACATGCAGGTAAGATAAAAATTTATCGGTTGTCTGATGAGGGAAAAGAGCAGATCGTTCGGATTTTACAACCTGGCGATTTCACAGGGGAATTGGCTATTTTTAAAGATACGGTTCACGAAGCCTATGCCGAAGCCCTGGCACACACAAAGGTTTGTATAATTAGTCGTTCCATTATACAAAAATTAATAATAGATTACCCTTCGATTTCTTTAAAAATACTAGAAGAATTTGCTCATAGGCTGGAGCAATCAGAGATGCAAGCAACTCGTTTTGCTACGGAGTCGGTAGATGCAAGGTTAGCTTTATTTCTTGTTGAAAATATGGAAACCAAAAGTAATCGAATTGATTTGCCAATGAATTATAAAGAGGTAGCCTCTTACATTGGGACAACACCTGAAACTGTAAGCAGAGTACTAAAGGATTTCGAAGACAAAGATTATATCAAAAAAAAGAATCAAAAACAAATTGATATATTAAATGCAGACGCTTTATTGTTGCTATGA MFSKGKPIKRGTCNKHSHPNCVAMVPIFNHLDQPQMEEVMDHVHAVTFNRGETIYRAGDKAKSLYITHAGKIKIYRLSDEGKEQIVRILQPGDFTGELAIFKDTVHEAYAEALAHTKVCIISRSIIQKLIIDYPSISLKILEEFAHRLEQSEMQATRFATESVDARLALFLVENMETKSNRIDLPMNYKEVASYIGTTPETVSRVLKDFEDKDYIKKKNQKQIDILNADALLLL NA NA NA NA NA AK015_03909 1626 hypothetical protein ATGAGTAATTTCTCTTTAAAAATCCTTGATCTGCTACAACCTTTTTTCCATATGCTACGTATTGATTATCACATGATGCGTAAAATTCTTGAGACGAAGCTTACGATGGATGAGCGCAGAATACCGACAGTATTTGCTTCAAATGTATCAAATAAAAAAAAGGATAGCAATCAGTTTGTAAAATCATTATTTATTTATGTAATATACGGGGTCATGCTCGTTCCTTTTTTATTTTTTGGAGATAATTATATCTTCCAAATCAGCCTCATCTTTGGTATTTCCATGTTCATTTTAATGACATCCATGGTGTCTGATTTTTCCGCAGTACTTCTAGATGTTCGCGACAAAACAGTTCTCCATACGAAACCGATTGATTCGAGAACCATTAGCGCAGCAAAAATCACCCATGTTGCAATTTATATGAGTATGTTAACAGGCGCGTTTATTATCATTCCAGCTATCGTTATGTTATTTGTACATGGAATCGGTTATTTAATGCTTTTTTTAGTAGAAATTATTTTGTTAATACTGTTCATCATGACCATCACAGCACTCATATACATTTTTATTTTACGTTTTTTCAGTGGGGAGAAATTAAAGGATATTATTAACTATGTGCAAATCCTATTATCCGTAGGTATTGTTATCGGTTACCAAATTGTCGCTCGAGCTTTTGAAATAGTTGATTTTAATTATATATATAATTTCAATTGGTGGAATGTTTTTATTCCTCCTATGTGGTTCGGCGCACCTTTTGAATTTATACTAAATGGCGATACGTCCTTTGGGATAGTGATCCTTTCTTCTTTAGCAGTCATCGGACCAGTTATTTCGGTTATGTTATATTATAAATTAATGCCGGCGTTTGAGCGTAATTTGCAAAAACTTATGGACAGTACAGAGAAATCTAAACCGAAACGATGGAATATGAACGCTATGTGGGAGCATTTATTTTTTAGAAACAAAGAGGAACGGCAATTTTTCCGGTTTTCGTCCCTTATTATGGCAAGAGAACGTGATTTTAAGCTAAAGGTGTATCCAACCTTAGGATTATCTCTTGTTTTTCCGTTTATTTTCCAATTCAACTATTTAAATCTACATTCAATTGAGCAACTTTCTCGTAGTAATATGTATTTCACCATTTATTTTTGTATGATGTTTATTGGCCTTGTAGTAATGATGCTCCAATTTTCTAGCAAATATAAAGCTGCATGGGTTTTTCAAATTACACCAATCGTTCATCATTCTTCTATTTACAGTGGCACTCTAAAAGCGTTTATTATTAAATTGTTTTTACCACTTTATTTATTATTATCGATCGTTTTTTTATTTATATTCTCTATACGAATTCTTCCTGACCTTGCGATTGTCCTTATAACAGCTATTCTACACACATTAATCAGTTATAAGGTTCTAAACAATCGTAAGTATCCATTTTCAGAAGTATTTGAGTCGACACAGCAAAGTGGATCTACGATGAAATCGTTCCTACTCATGTTTGTAGTTGGTTTATTTTTCTTAGTGCATCTATTTTTTTCCAAAATAATTTACGGTGTGTATTTATATCTAGTGATTTTAGTAGTTACTACCATTATATCTTGGAGAATCGTCTTTAAAATGAAATAA MSNFSLKILDLLQPFFHMLRIDYHMMRKILETKLTMDERRIPTVFASNVSNKKKDSNQFVKSLFIYVIYGVMLVPFLFFGDNYIFQISLIFGISMFILMTSMVSDFSAVLLDVRDKTVLHTKPIDSRTISAAKITHVAIYMSMLTGAFIIIPAIVMLFVHGIGYLMLFLVEIILLILFIMTITALIYIFILRFFSGEKLKDIINYVQILLSVGIVIGYQIVARAFEIVDFNYIYNFNWWNVFIPPMWFGAPFEFILNGDTSFGIVILSSLAVIGPVISVMLYYKLMPAFERNLQKLMDSTEKSKPKRWNMNAMWEHLFFRNKEERQFFRFSSLIMARERDFKLKVYPTLGLSLVFPFIFQFNYLNLHSIEQLSRSNMYFTIYFCMMFIGLVVMMLQFSSKYKAAWVFQITPIVHHSSIYSGTLKAFIIKLFLPLYLLLSIVFLFIFSIRILPDLAIVLITAILHTLISYKVLNNRKYPFSEVFESTQQSGSTMKSFLLMFVVGLFFLVHLFFSKIIYGVYLYLVILVVTTIISWRIVFKMK PGPT0006730_1086 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_03910 795 natA COG4555 ABC transporter ATP-binding protein NatA ATGTATACGGAAAAAGTATTGTCGTTAAGAAATTTATCCATGAGTTATGGAAGTAAAAGCATATTAAATAACATTAATCTCGATGTATATGCTGGACAAATCATTGGGTATATTGGGCCTAACGGTGCGGGAAAGAGTACTACACTTAAAATCATGCTCGGGTTAATAGAAGAATATAGTGGGACGGTAGAACTTTTTGGAGTAGATATTGCTACAAGTGATTACTCCTACAAACGTAAAATTGGTTATGTCCCAGAAAATGCAGAGATCTATGATAATTTAACAGCTAATGAATATTTGACATTTATCGGTGAGCTTTACGGCATGGATAAAAATAAAGCGGCTGCTAAAGCTAAAAGCCTTATGCAACAATTTGACATGGAAGATGTTTTACATACGCGTATTTCTTCTTTTTCTAAAGGAATGCGGCAAAAAGTATTACTTATTTCAAGCCTATTGCATAATCCCGATCTGATCTTTTTAGACGAACCACTAAATGGGCTTGATGCTAATAGTGTCATCATCATTAAAGACATCTTGGAACAGCTTGTTGCAGAAGGAAAGACCATTTTTTATTCCTCACATATTATGGAGGTTGTAGAAAAGATTAGCAATCGCATCGTCCTGCTTAAGGATGGAGAAATTGCAGCAGATGGTACATTTGAAGAATTGCGCGAACAAAATAAGCAAGGCTCTTTAGAAAGTATTTTCAACCAGATAACAGGATTTGATGAACATAAACAAACCGCAGAGAAGTTTGTTCAAATTGTAACTGATGGTGATAATCATGAGTAA MYTEKVLSLRNLSMSYGSKSILNNINLDVYAGQIIGYIGPNGAGKSTTLKIMLGLIEEYSGTVELFGVDIATSDYSYKRKIGYVPENAEIYDNLTANEYLTFIGELYGMDKNKAAAKAKSLMQQFDMEDVLHTRISSFSKGMRQKVLLISSLLHNPDLIFLDEPLNGLDANSVIIIKDILEQLVAEGKTIFYSSHIMEVVEKISNRIVLLKDGEIAADGTFEELREQNKQGSLESIFNQITGFDEHKQTAEKFVQIVTDGDNHE PGPT0006725_21562 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_03912 174 hypothetical protein ATGGGTAAATTGAATGAAGTACAATGGGAGTATGTAAGAAAAAGCTTAGATGCAATTGATTTCGGTTCTGTAGTCATTACTGTACACGCTGGAAGGGTTACACAAATTGACATAACGGAGAAAAAGCGGTTTGCGAATATGAATAACAATCATTCGTTACAAAATTCCAAATAA MGKLNEVQWEYVRKSLDAIDFGSVVITVHAGRVTQIDITEKKRFANMNNNHSLQNSK NA NA NA NA NA AK015_03913 1848 yitJ COG0646 Bifunctional homocysteine S-methyltransferase/5,10-methylenetetrahydrofolate reductase ATGAGCTTATTACAACAATTACAAAATCAAATTTTAATTGCCGATGGTGCTATGGGAACGATGCTTTATTCCTATGGAATCGATCAAAGTTTTGAACAATTAAACATAACCCATCCAAATCAAGTTCAACAAGTACATGAAGCGTATATTCATGCTGGAGCAACAGTCATTCAAACAAATACATATGGTGCAAATTATATTAAATTAGCACGATATGGGTTGGAGGATCAGGTGAAAAGGATCAACCAAAAGGCTGTGCAAATTGCAAAGGAAGCTCGGCAAAAAGGAGTATCCATTGTAGGGGGGATTGGCGGTATTCATGGCGTTCAAGCTTTAAACGAAACAAAAGAGGAAATTAAGCGAAGCTTCCGAGAACAATTATATTGTTTGCTTTTGGAGGGAGTAGATGGGCTCATTTTAGAAACTTATTATAATCTCGATGAATTAAAGATGGTGTTGGAAATTGCTCGGGAGGAAACGAAAATCCCTATTATTGCAAATGTATCGATGCATGTTCCGGGGATTTTGGAAAATGGAACACCGTTGGCTGAAGCATTACAACAACTGGAAGCTTTAGGTGCTGATCTCGTTGGCGTGAACTGTCGTTTTGGTCCGTCGCAAATAATCACCTCTTTACAATCGGTTCCTATACCGAAAAGGGCTTTTTTAGCTGCTTACCCAAATGCAAGCTTACCTGCTTATCGCGATGGTGTACTTTATTACGAAAATGAACCGGATTATTTTAGGGAGTGTGCCAGCCAATTAAGAGAGCAAGGAGTTCGTTTAGTAGGAGGGTGTTGCGGAACAACACCTAACCATATTAAAGCATTAGCTGAGGGCTTGAATGCTACTAATCCTATTACTGAAAAAGTGGTAGACTTTCCAAAGCAGGATAGGGTGATGTTAAAAAGGAAACGAAAAGAAAAATCGCTGGCAGAATTAGCAAAAGAACGACATACCATTATTGTTGAATTAGATGCTCCGAAACATTTAGATATGACAGAATACCACCAGGGAATACAAGCATTGAAAGAAGCTGGAATCGATGCAGTAACACTTGCCGATAATTCGCTTGCAACACCGCGAATATGTAATACAGCTATTGCAATGATTATTAAAGAGCAAGGAATCAAACCGTTAGTCCATATAGCTTGCCGAGACCGTAATTTAATTGGCTTACAGTCGCATTTAATGGGATTGCACATTTTAGGAATTCATGAAATTTTAGCAATAACTGGCGACCCAACTAAAATTGGCAGTTTTCCAGGAGCAACATCCGTGTTTGATGTGAATTCATTTAAATTAATTGAACGAATTAAAAAAGGAAATCAAGGCATGTCATTTTCTGGGCATTCTCTAAGAGAACATACTGCATTTACCGTAGGAGCAGCTTTTAGTCCAAATGTGAATAATGTAGAAAAGGCGATTGCTCGATTGGAGAGAAAGATCGCAAGTGGTGCTGATTACATCATGACACAACCCATGTATAGCAAAGATAAAATAATTGCTTTGAAACAAGCGACCTCACATATAGATACTCCGATTTTTATTGGAATTATGCCATTAACGTCTACAAAGAATGCTGAATTTTTACACCATGAAGTACCGGGGATAAAGCTTACAGATGAAGCTCGATCTCGTATGAAAGCAGCAGAAGGAAATCGAGCACAATCAACAAAAGAAAGTATAGCTATTTCGAAAGAGCTACTTGATACAGCTTTAGAACATTTTTACGGGATATATCTTATCACTCCGTTTATGCGCTATGATATGATCGTCGAATTAGTTAACTATATTCATCAAAAAACAAATTCTATGCGAGTGAAAGCAAGCTTATCCTCACATTAA MSLLQQLQNQILIADGAMGTMLYSYGIDQSFEQLNITHPNQVQQVHEAYIHAGATVIQTNTYGANYIKLARYGLEDQVKRINQKAVQIAKEARQKGVSIVGGIGGIHGVQALNETKEEIKRSFREQLYCLLLEGVDGLILETYYNLDELKMVLEIAREETKIPIIANVSMHVPGILENGTPLAEALQQLEALGADLVGVNCRFGPSQIITSLQSVPIPKRAFLAAYPNASLPAYRDGVLYYENEPDYFRECASQLREQGVRLVGGCCGTTPNHIKALAEGLNATNPITEKVVDFPKQDRVMLKRKRKEKSLAELAKERHTIIVELDAPKHLDMTEYHQGIQALKEAGIDAVTLADNSLATPRICNTAIAMIIKEQGIKPLVHIACRDRNLIGLQSHLMGLHILGIHEILAITGDPTKIGSFPGATSVFDVNSFKLIERIKKGNQGMSFSGHSLREHTAFTVGAAFSPNVNNVEKAIARLERKIASGADYIMTQPMYSKDKIIALKQATSHIDTPIFIGIMPLTSTKNAEFLHHEVPGIKLTDEARSRMKAAEGNRAQSTKESIAISKELLDTALEHFYGIYLITPFMRYDMIVELVNYIHQKTNSMRVKASLSSH PGPT0008140_242 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008140-yitJ-K24042 NA NA AK015_03914 2289 metE COG0620 5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase ATGTCAAAAATAAAGAGTTCGAATATTGGTTATCCGAGAATTGGAGAAAATCGAGAGTGGAAAAGAACACTAGAAAATTTTTGGAGTGGAGTTATTTCCGAGACGGAATTATTTGAAAAAACAACAGAAATCCGTTTACGTAATTTGAAAAAACAACAAGAAAAAGGAATCGATCTAATCCCGGTAAATGACTTTTCCTTATATGACCATGTCTTAGATACAGCCGTTACGTTTGGAATCGTACCGAAACGTTTTAACTATACTGGTGGAAAAGTAGATAAGCACACGTACTTCGCTATTGCACGTGGAACAGGTGGGACCGTCGCTTCTGAAATGACGAAATGGTTTAACACAAATTACCATTATATTGTTCCGGAATTAGATGATGTCACACCTTCATTAGTAGAGAACCGTGCTTTAACTTTTTATCAAGAAGCTAAAGAAAAACTAGATATTGATGGAAAGCCTGTCCTTTTAGGCCCCGTAACATTTGTAAAACTGGCAAAGGGTTATGACGAGCAGGAGTTTTCAACAATTGTGGAGACATTTGTACCATTATATGTCCAGGTCTTACAAGAACTTGTCGAAGCGGGGGCATCTTGGATTCAGATAGATGAGCCAATCTTAGTAACGCAATTATCGAAAGAAGAAATCGCAGTAGTTGAAAAAGTGTATCAGGCTTTTGCTAAACACGTACCTCGTGCGAAGATTATTTTACAAACGTATTTTGAAAAAATAACTGCTTATGAAAAAATAGTGAATCTACCAGTAAAAGCGATTGGTATCGATTTTGTTCACGGAGATTCTTTAGAATTATTAAAAACGTATGGATTTCCCAAGGGTAAGGTGCTAGCAGCAGGAATTATTAATGGACGTAATGTTTGGCGAGCTAATTTAGCAGAAAAGCGCACGCTGATGGAAGAGATTAGACAGCTAGTTCATCATGATCAGCTTATTATTCAACCATCTTGTTCCCTCTTGCATGTTCCGGTAACAAAAACATTAGAACAAAAGCTGGATAATGTCATTTATGACGGACTTTCATTTGCTGATGAGAAGCTTGATGAAGCAGTTACATTAGCGAAAGGTCTGAATCATGGTATGGTTTCCGTTCAAGATGATTTAAATCAAGCGAATGAGGCAATTAAACAATTAATAGAGACGTATCAATCCAATGATGAAGTAAGGAAAAAAGTAGCTCATTTAACAACTGACGATGCACAACGATCCATACCTTTTGCAGAAAGAATAGAAAAGCAAAAGCGGCGTTTGCAATTGCCATTACTGCCGACAACGACAATAGGCAGTTTGCCGCAAACGCCTGAAGTAAAAAGAACGCGTACCAAATGGAGAAAAGGTGAGATTACGGATCATGCGTATGAACAGTTTGTGAATAAGCAAATGAAACGGTGGATCACAATTCAGGAAGAACTTGATATCGATGTTCTTGTTCATGGTGAATTTGAGCGAAATGACATGGTTGAATATTTTGGGGAAAAAATGAATGGCTTCACTGTGACAGAGTTTGGCTGGGTGCAGTCGTATGGATCACGATGTGTCAAACCACCTTTGATTTTTGGAGATGTGTCTTGGGATAAACCAATAACGGTGAAGGAGAGCGCTTACGCACAGTCGTTAACAGAACGTCCGGTTAAGGGAATGCTAACAGGGCCAGTAACCATTTTAAATTGGTCTTTTGTCCATGATGCAGCACCACGCTATGAAATTATGAAACAAATTGCATTAGGATTGCAAAAGGAAATAGAGTCTTTAGAGGCAAAGGGCATAACGATTATTCAAGTAGATGAACCAGCTTTACGTGAAGGGTTGCCGCTTAATCTAGCAAAGTGGGAGGAATATTTAAAACAATCGTCACTTGTCTTTCGTCTTGCAACGGCAACGGCTAGTCCCGAAACACAAATTCATACACATATGTGCTATTCCAATTTTGAAGATGTTTTTGATTGTATCGATGATCTTGATGCGGATGTCATTTCAATTGAAACGTCACGAAGTCACGGTGAGATCGTCTCCATCTTTGAAGAAAATACGTACCAAAAAGAAATTGGTTTAGGTGTTTATGATATCCATAGTCCCAGAATTCCATCTGTTTATGAAATCAAACAAAATATGAACCGTGCATTACAAACGATCTCACCTAATCAATTTTGGATTAACCCAGATTGCGGTTTGAAAACAAGAAAAGAAGATGAAACCATAGACGCTTTGAAAGTTATGGTGCAAGCTGCAAAAGAAATGCGAAATAAACAGTTAACTGTTCAAAAATAG MSKIKSSNIGYPRIGENREWKRTLENFWSGVISETELFEKTTEIRLRNLKKQQEKGIDLIPVNDFSLYDHVLDTAVTFGIVPKRFNYTGGKVDKHTYFAIARGTGGTVASEMTKWFNTNYHYIVPELDDVTPSLVENRALTFYQEAKEKLDIDGKPVLLGPVTFVKLAKGYDEQEFSTIVETFVPLYVQVLQELVEAGASWIQIDEPILVTQLSKEEIAVVEKVYQAFAKHVPRAKIILQTYFEKITAYEKIVNLPVKAIGIDFVHGDSLELLKTYGFPKGKVLAAGIINGRNVWRANLAEKRTLMEEIRQLVHHDQLIIQPSCSLLHVPVTKTLEQKLDNVIYDGLSFADEKLDEAVTLAKGLNHGMVSVQDDLNQANEAIKQLIETYQSNDEVRKKVAHLTTDDAQRSIPFAERIEKQKRRLQLPLLPTTTIGSLPQTPEVKRTRTKWRKGEITDHAYEQFVNKQMKRWITIQEELDIDVLVHGEFERNDMVEYFGEKMNGFTVTEFGWVQSYGSRCVKPPLIFGDVSWDKPITVKESAYAQSLTERPVKGMLTGPVTILNWSFVHDAAPRYEIMKQIALGLQKEIESLEAKGITIIQVDEPALREGLPLNLAKWEEYLKQSSLVFRLATATASPETQIHTHMCYSNFEDVFDCIDDLDADVISIETSRSHGEIVSIFEENTYQKEIGLGVYDIHSPRIPSVYEIKQNMNRALQTISPNQFWINPDCGLKTRKEDETIDALKVMVQAAKEMRNKQLTVQK NA NA NA NA NA AK015_03915 459 hypothetical protein ATGTATCTTTCTCGAACAGAAGATTATATTCAGCAGTTTCTTCTGGAACGTCATATTCGTAAACCAAAAGATTTAACAATCGAAAATATTGCCTCTTCGCTCGATGTATCTGTCTATTATTGGGAATATAGCAGTGAATGTGTATATGTAAATGAGAAATGCCTGATTTTTATAAATTATAACCGAAGTCCACAGGAACAATGGCAGGAATTTGGGCATGAAATAGCTCATTACCTTTGGCATGCTGGTCGCCAAGAATTTCTACCCACACTTTTTACAGAATTACAAGAATGGCAAGCAAATTATTTTAGTTACCATTTATGTGTTCCTACATTTATGTTACAACGCTTAAAACCAAAAATAACACCTAACATGATCGTAAATACTTTTCAAGTAGAATACCATTTTGCTTGTAAACGCTTAGAGATGTATCAAAGCAAACAGCTTGTTTCTATCTAA MYLSRTEDYIQQFLLERHIRKPKDLTIENIASSLDVSVYYWEYSSECVYVNEKCLIFINYNRSPQEQWQEFGHEIAHYLWHAGRQEFLPTLFTELQEWQANYFSYHLCVPTFMLQRLKPKITPNMIVNTFQVEYHFACKRLEMYQSKQLVSI NA NA NA NA NA AK015_03916 372 hypothetical protein ATGCAAAAATTGAAAGTGGTGTTGGCATTGAATGTGGGTAAGAGAATTGTTCAATTGAGAGAGAGACAAGGTTGGAGTCAGCGCGATCTTGCGAAACAATTAGACATAAACGTTAGTGTGATGAATCGGATCGAATCGGGAGAAAGACCGATAAAAGACCATGAATTAGATAAGCTTGCTACTGCTTTGCAAGTTACTTCTGATTATTTACTAGGACGATCTAATAATCCGAATTTAACAGAAGAGGAAGCGTTTGTAGCTTTTCGTAATGAACCTTCCCTAGAAAGATGGTATAAAGAATTACCAAACAATAAAGAAGAAGATCTTAAACGACTGAAGAGGATATGGGAAGCTTTTAAAGAAGAAGAATAA MQKLKVVLALNVGKRIVQLRERQGWSQRDLAKQLDINVSVMNRIESGERPIKDHELDKLATALQVTSDYLLGRSNNPNLTEEEAFVAFRNEPSLERWYKELPNNKEEDLKRLKRIWEAFKEEE NA NA NA NA NA AK015_03917 189 hypothetical protein ATGAAACAGAAAAACATGTCATTTGATGAACAAAATTGTATTCGATGGGTGATAAGTGAATACCGAAAAGACCAAAGGGCAGGTGTTTTGGCTCCAATAATAAGAAGTAGATACGTAGAGGAATTATTTAGCAAGGGGGCTGGTTTTCATGAACAAGGAACAGTTAGAGAGAGCAATAAAAGATTATAG MKQKNMSFDEQNCIRWVISEYRKDQRAGVLAPIIRSRYVEELFSKGAGFHEQGTVRESNKRL NA NA NA NA NA AK015_03918 417 hypothetical protein ATGAACAAGGAACAGTTAGAGAGAGCAATAAAAGATTATAGCTGGATGATTAGAGAAATAAAGCGTCAACGAATGATGTTGGAAGAAGATATCGGCTCGAAACTTGTTGCAGCATCAGGAGTGGAAGCTACGTTACCGAGAGCAAAGGGAGCCATAAATGACCCTGTTGGTAAAGAAGTTATACGACGAGATAAAAAAAGCAGTTGGTTAGCTAAATTAGAGAAAAAGGTATTGTTTATTCAAGGAAGATTATCTGCAATAGAGGAACCGAGAGAAATTGCTGTTTTAGAATGTATGCTGGATGGTATGACAATAAGTGCAATTAGTAAACATATGGGTCTTTCCAGAAAACATATCTATAAGATAAAAGAGACGATTGTAGATAGGATGTTACAGTTTACACAGTCTTCTCAGTAG MNKEQLERAIKDYSWMIREIKRQRMMLEEDIGSKLVAASGVEATLPRAKGAINDPVGKEVIRRDKKSSWLAKLEKKVLFIQGRLSAIEEPREIAVLECMLDGMTISAISKHMGLSRKHIYKIKETIVDRMLQFTQSSQ NA NA NA NA NA AK015_03919 522 hypothetical protein ATGACAGATACACAAAAGAAAATGCAAGCAGGTAAAAACAAGATTTTATTATTCCGTTTATTGGAGAATCAAGGAGAAGAAGCAGCTAAATTAGTATTTCAAACCGAGCATACGTTTAGTTATTCTCGTGAATTAGAAAGAATTATTACGAAAGACGGTTCTCTCATTAATGTCGGAGGATTGGAATCAGAAGTGGCTATTGAAGCTATTCAAGCAATGGATGATCCAGTTGCTAACATGCTTCGACAGTCAGTCATTCATGGACAAAAGCTGGAGTTATGGGAAGTAACTGTAGATGAAGAACTAAAAACAGCTGACAATAAATTTCCAGCTATTTATGCTCAAGGCTATTTAGATTCATGGGAAGATCCAGCTAGTGCAGAAGAAAATGCTGCCATTTCAGCTAACTTCACCGTAGAACTGGAGCCACAATTTGGTGAAGCAACACTCACAGAGGAGCAGCAAGCAGCAGTTCAATATGCATTCCAAGATACAAAAGCGGAAGCTCCTGTTGAGGGTTAA MTDTQKKMQAGKNKILLFRLLENQGEEAAKLVFQTEHTFSYSRELERIITKDGSLINVGGLESEVAIEAIQAMDDPVANMLRQSVIHGQKLELWEVTVDEELKTADNKFPAIYAQGYLDSWEDPASAEENAAISANFTVELEPQFGEATLTEEQQAAVQYAFQDTKAEAPVEG NA NA NA NA NA AK015_03920 366 hypothetical protein ATGGAATTTACTATTAATGAAAAAGTGTATGAATTGAAATTTGGTATAAAATTTATTCGTGAACTGGACAAAGTGTATGAAGTGGATTATCAAGGGATGAAATTTGGAATGGGTGTGAACATGGCGTTTATGAATTTGCAGCAATGGAATCCAGTTGCTATTCATGCGGTTATTAAAGCAGCTATTTCCTATTTGGATACAACCCCAAGTAACAGTCAAATCGAAAAAGCTATTGAACAGTATGCTTTAGAAAATGACGGGCTTCAGGAATTATTTACTGCGTTAAAGGATGCATTGGGGAAGTCACCAGTCATGAAGGACACGATCAAACAAATGCAAGCAACAACCAATCACAAGAAAGCATAA MEFTINEKVYELKFGIKFIRELDKVYEVDYQGMKFGMGVNMAFMNLQQWNPVAIHAVIKAAISYLDTTPSNSQIEKAIEQYALENDGLQELFTALKDALGKSPVMKDTIKQMQATTNHKKA NA NA NA NA NA AK015_03921 225 hypothetical protein ATGTATAAGCAAGCATGGATTAATCACCAAGTCACACTAACAAAAGAACAAGGTAAAAAGCAAGTACCTATTTACAAGCGATTTAAAGATTTCTTTGATTATGAAAAACATTTGAAGGAAGTAACCAAGCCTAAGCGGGTGAGTGATAAAATGAAACGTTTAGCAGCGATTGCTAAACAGGTGAATACGGAAAAGGAGGTGCCTTATGGCAGAAGGATCGAATGA MYKQAWINHQVTLTKEQGKKQVPIYKRFKDFFDYEKHLKEVTKPKRVSDKMKRLAAIAKQVNTEKEVPYGRRIE NA NA NA NA NA AK015_03922 1590 hypothetical protein ATGGCAGAAGGATCGAATGAGCCGGGGCGGTTTATGCAAGGCTTTAAAGTACAAGCAGAAGGGTTAAATGAAGCCGGGGATGCGTTTAAAACGTTGCAAGAGAAGGTAGACCCTGTCGTTACGAAGCTGGGAGAAATGCAGGAATCGTTAGGGTTTATCCCAGGAATGACAGAAGGAATTGCTCAAGTGCAGGCTGTACTAGACCCGTTTATGGGGATATTAAGCGGTATGCCTGTTTTGTTTGAAACAATTAATTCCGTGATGACGAATTTTTTACCAACTATGTTGGCATTGAAGGAAGGAGTCATGAGCTTATTTTCTATTTTAGCTGCCAATCCCCTCGCCTTAATAATAACGTTAGTGACTTTACTGGCGGTAGGGTTTGCTTATTTATGGACGAATAGTCAAACGTTTCGAGATATTGTCATGAGTGTGTGGGAATCGATCCGTGCATTTATGATGCCGGTGGTTCAGGAAATTGTCACGTTTGTTATGACACTTTGGGGATCATTGACAACGTGGTGGACGGAAAACCAGGCATTGCTTTTACAAATATTCCAATCTGTCTGGGGAGCAATTAAGACGGTTATTATGACAGTGATGAATATCATAAAGCCATTTTTAATCGCGGCTTGGACACTCATTTCAACACAAATTAAATTAGTTTGGAACATCATAAAAACAACGATAAAAATAGCTATGGAGTTAGTGATGGGCATTATTCGAACAGTGATGCAACTAATTACTGGAGATTGGTCTGGGGCCTGGGAAACGATTAAGTCCACGTTTATGAACATCTGGAATATAATGAAGGAATTTGTTTCCACCATGACTAGTACCATTTGGCAAACGATAAAAACAAAATTTACGCAAGTGAAGGAAACCATTGCTTCCTTAATTGGTAGTGCGAAAGATGCTGTCGTACAAGGATTTTTAACGATGGTATCGAGCGCTGTAGAAAAAGCACAGGCGATTGTAACTGCAGTGCGACAAAAATTCCAGGAAGTGTTTCAAGCGATACGATCAAAGCTCACCGAAGCTGTAACAGAAGTAGGAACGCAAATTGGTAAAATGCCTGGAAAGGTAATGGAGTTTGCTAGCAACATGGTGTCAGCAGGAAAAGATTTAATTATGGGCTTGATACAAGGTATTGCAGATAATGCTTCTAAGGTAGGCGATGCTGTGTTAAATGCTGCCAAAGATGCTGTCGGTGGTGTGTTGAAATTTTTAGGCATTAAATCACCATCCCGTTTATTTCGAGATATTGGCGATGACACGATGGCGGGATTTGCTATGGGGATTCAGCAAATGGCAAAAAATGTTGTTACTGCAGCAAGTGAGGTATCGGATCAAGTACAGGATTCCTTTAACCCGCAGTTTACATTACCACGTATAGCTGGAGAGGTTCGTAGTCTTCATCAAGCAGTGAACGTTCAACCATCGCAACCGTTTTTAAATGAATGGAGCGCACAAAAACAGCCTGCAGTAGTCCATGTTTCTATTGGCAAGCAGCAATTTAGTGCGTTTGTAGAAGATATTACGAATGCACAAACAAGAAAATCCAATCTAACAAGACAGCAGAGTTGGTAG MAEGSNEPGRFMQGFKVQAEGLNEAGDAFKTLQEKVDPVVTKLGEMQESLGFIPGMTEGIAQVQAVLDPFMGILSGMPVLFETINSVMTNFLPTMLALKEGVMSLFSILAANPLALIITLVTLLAVGFAYLWTNSQTFRDIVMSVWESIRAFMMPVVQEIVTFVMTLWGSLTTWWTENQALLLQIFQSVWGAIKTVIMTVMNIIKPFLIAAWTLISTQIKLVWNIIKTTIKIAMELVMGIIRTVMQLITGDWSGAWETIKSTFMNIWNIMKEFVSTMTSTIWQTIKTKFTQVKETIASLIGSAKDAVVQGFLTMVSSAVEKAQAIVTAVRQKFQEVFQAIRSKLTEAVTEVGTQIGKMPGKVMEFASNMVSAGKDLIMGLIQGIADNASKVGDAVLNAAKDAVGGVLKFLGIKSPSRLFRDIGDDTMAGFAMGIQQMAKNVVTAASEVSDQVQDSFNPQFTLPRIAGEVRSLHQAVNVQPSQPFLNEWSAQKQPAVVHVSIGKQQFSAFVEDITNAQTRKSNLTRQQSW NA NA NA NA NA AK015_03923 546 hypothetical protein ATGTATACGTTTGTAGATACAGTAACGAAGGAAGCGGATGATAACAGCGAACGAGCCTCGCGATTGCAGACGATATTTAATGGAGTTAATTTAGATCATGACTTATCTGATCAATCAGGGGATTTTACCACATTGGTCATTTCTGGGAGAAGCAATCTGGAACAACGAATTTCGACAGTGGACGTACCAGGAATGCACGGGGTGTTAGAAGCAAATGAACCGACATGGAATGCGAAAGAAATTACGGTGAAATATAAGCTAACCGATCAAACAAAAGAAGGGTTTAGAAAGCGGTACAACCAACTAAATAATTTATTGCAAGAATCACAAAAGAAGTTAGCTTTTACTGATGAAGCGGCTTTTTTTTATGCGACTTTATCGGCAAATGATGTTCCAGAAGAAACGGCGAATAGCATAGTAGCTGAGCTCGTGTTTTTATGTTCCGATCCTTTTAAATACGGGGAAACATACAAATCGATTGCGTTGAAAATATATACGTGGGAAGCATACAAAAATAACAAGTGGGGTGATTTTATTGGCAACTAG MYTFVDTVTKEADDNSERASRLQTIFNGVNLDHDLSDQSGDFTTLVISGRSNLEQRISTVDVPGMHGVLEANEPTWNAKEITVKYKLTDQTKEGFRKRYNQLNNLLQESQKKLAFTDEAAFFYATLSANDVPEETANSIVAELVFLCSDPFKYGETYKSIALKIYTWEAYKNNKWGDFIGN NA NA NA NA NA AK015_03924 483 hypothetical protein GTGATTTTATTGGCAACTAGTACACCAAATTTGCAATTGGTAAAGCCAGAAATAACAGATAAAATTGATGTTTCTATTGCTAACTTTGCGCAAAATGCAGATAAAATTGATGCAGAAGTAGAACGGCTACAAAATAAGGATGAAGCTTTACAAACGAGTTTAAATGATGTGCATGAACATGTGACGACATTACAAAACGATGTAACAGCGATGGATGCAAAAGTAACCAACCATCAAAAATCGCTAGAGAAACACGGAGAAAGCATTGAACTGAACACGGGAAGTATAACGGAAAATAAAGCAGATATCACAGCGTTAAGCGAAGATATTTTATCGATTCACGAAAGTATTGGCAATAATGCAACGGTTGGACAAGAAAATCAAGCGAATATTACAGCAATTTTAAATGAAATAGAAGTGATTAAAGAGAGGATCACAGCGCTAGAAGCTCAACAAGGAACACCGCCTGAGGGTGAAGCATAA MILLATSTPNLQLVKPEITDKIDVSIANFAQNADKIDAEVERLQNKDEALQTSLNDVHEHVTTLQNDVTAMDAKVTNHQKSLEKHGESIELNTGSITENKADITALSEDILSIHESIGNNATVGQENQANITAILNEIEVIKERITALEAQQGTPPEGEA NA NA NA NA NA AK015_03925 333 hypothetical protein ATGCGTTGGATCGAGATGGCACAAAAAAATGAAGTATATGTGAATGGAACCGCTGCCGCGTCGCCTATGATTACATCTGTTTTAAAAGAAGGAATACCGTATGTAGAATACAGCTTAGCTGATGAAAAATTACGCCTGCACCATCCATTTAAAGTGAATGATGTGGTGACGGTAGATTTTTCAAAACAAAAGGTATGGATTAATGGGCAGTTACAAATGGAGGCTATTGATCTTGTCTATGCAGATTTCTTTCAATTAAGACCAGGGAAAAATGAAATAAAAACAATTCCTGCCATGCAATTAGAAGTAACGTATACGGAAAGGTGGTTGTAG MRWIEMAQKNEVYVNGTAAASPMITSVLKEGIPYVEYSLADEKLRLHHPFKVNDVVTVDFSKQKVWINGQLQMEAIDLVYADFFQLRPGKNEIKTIPAMQLEVTYTERWL NA NA NA NA NA AK015_03926 4323 hypothetical protein ATGAAAGAAAGGATTTTCATTTTTAATAAGTATGATGAGCTATTAGCCATCACTAACCACTATGTGGAGGCCATTTTTGAAGAGACGGTTGAAAAGCCCGTCTCTTTTTCGATTACTTTTCCTATGTCCGATAAGGATGCTGCCTATTTCGTAGGTGGAAACCAAGTTGCGTTTAAGGATTTAAAAGGAAACCTTCGTTTATTTACCATCCGTGAAGTGGATGATATCGACGGAGAAGCTCCGGAAAAGGTCATCCAATGTATGCCAGCGATGCAAGAATTAACAGATGTTATTGTGACGGATGGTGAAACGGTAAATGAAACCGCTGAAGCTGTGCTAGGTATTATTTTACAGTATTCCCGCTGGAAAGTCGGTCATGTAGCTGATTTAGGGTTATATGACATCAGCTTTTCCTATCAAAATGCCTACGATTGTTTAGGAAAGCTAACATTACGTTGGGGCGGTGAAATTGTAGATCGCATCGAGGTAGCGGGAAACAAAATAACCGGTCGCTATATTGATATTGTTCAGCGTAAAGGCTCAGATACCGGAAAACGTTTTGAAATGGATAAGGATATAAAGAATTTGACGAGGACGGTTCTATATTATCCGAAAACAGCTTTATATGGTCAAGGAAAATCCTTACAATCCGGTGAGGAAGGCGCTGGGAAAGTGACTTTTCGTGACGTAGAGTGGGTAAAAGAAAAGGGCGATCCCACGGATAAACCAAAGGGGCAAGCGTGGGTTGGTGATTCGGTAGCACTGGAAACCCATGGGGTGTTCAATCATGAAACAGGTGAGTTCATGCATCGATTTGGCTTATTTGAAGATAATGACGAGGAAGACCCCGAAAAGCTACTCGTAAAGACATGGGAGGCAGTTCAAACTGAAAAAGCTCCAAAGGTTCAATACGAAATGGATATCATTACATTTTATGGTATAGCAGATTACGAACATGAACACGTATTCTTAGGTGATACAGGCATTGCTAGGGACAAAAATATGAAGCCGATGGTGTTAGTGGAAGCAAGAATTATGTCTTGGAAATATGATATTGGCAACCCGAGAGACGGGAGCCTTGTCTTAGGAAATATATTAGACTTAAATCCAGATGAGCGTGATATGGATTGGGTCATTGATAAAGTAAAAGAGGATAGCGCAAGTTGGGATGCTGGTGGTGGACCAATTACGGATGGAAGATTTCCTGATATTGTTCCTGATACGCCACAAGATGTTTCCGCAACAGGGTTATTTAAAAAGATTATGCTGTCATGGACATTTGAATCCACCTATGCGATAGCAGCTTACGAGATTTATGCAAGTCAAATAAACGGGTTTGTCCCAGATTCTACAAATCTTGTTTTCCGTGGCAAAGTAGGCGCATATAACTTTGATGCTGATACAGACGAAAAATGGTATTTTCGAGTAAGAGCCGTGAACACACATGGAACAGCAAGCGAGTACTCCGAACAGGTTAGTGCTTCAACGGTACAATTACATTTGTCAGATTTAGAGGAAATTGTCCCAGACTTTATCGAATACGGGATTTATAAAGGGGAAGAGTATCCTAGTCCAAGTGAATATAAGTACTGGTTAAACACAAGTGAAAATCCTAATATTCTCTATCATTGGGATGAAGAAAGCGAATCATGGAAGCCATTAGCACCTAAAAATGCAGCAGATGTAGGCGCCATTTCTATAGCAGATTATCAAGAACAAGTCGGTCAATTGGTTACGGATTTGGCGAATAAAGTAGATGCTGAATGGGTGAATGGTCGGCTAGTTGCAAAAGCGAATAAAGCGGATGTTTATACGGTAGAGCAATTAGATAATAAGTTTGATAATGTGGTATCCAAAACGGTTTACGAATCTGATCAGCAAGGGATTATTACCGACTTGCAAAATCAAGAATCTCGCATTAGCCAAACGGAAACAGATATTCAATCAAAAGTTTCCAATCACCAATATACGCAGGATAAGGAGAGTTTGCGTACTTCCATCAACGAAAATCAATCCAGCATTGAACAAAACGCGGAATTGATTGCTTCCAAGGTGTCCAATGAGGAATATCGAACGGACAAAGAAGGCATTATTAATGATATTAAGGCAAATAAGTCGAGCATTGAGCAGAACGCCGAAAGTATTAGAAGTAAGGTTGATGCGACATATGTCGAAGACGAGATTGGGAAGATTGAGGTCGGTGGGAGAAATTTATATACTAATACTTTAAACAAATTCCGAGAGGCTGAATGGGGTAGTTGGAATGAATATCCAAACGGTTATGGTTACCAAACTCTCGTAACACCCGGAGAAACGTATACTGCACGAGTTTATTATAAAAATATAGAGGGTGGAGCTGATGTAGGGTTACGTTTATTTTGGTATAAGTTTGACAAGAGTTTGTTGACTGAGTCTAGCAATAGTGAAACATATGTTGAACCATCTGAGGAAGGATACTCAATAATCAGCAGACAAGCTCCTGATGACGCAAAGTACGTTAAGGTAGTTTTAAGGAAGTTTAACCCAGATGGAATTAGTAAGGTAAAATATAAAGAACTTAAACTCGAAAAGGGCAACAAAGCCACGGACTGGTCTCCTGCTCCTGAAGATGTTGAAGCTAAAATTGAGGGTATAAAAGTTGGTGGTAGAAATCTTTTAACTGATAGTGTGAGGAAAAGGGATGCAGAAAGGTTTTACCAAGTAGTCCTTTATAAAGATATTAACGAAGCTATGGTTGGTGAAGAAGTAGTTTTTAGTTTTGATTTAAAAATAAACAATGATGGAATTTTGAGGGAGATAAGCGTATATCCTTATCAAAGTTCTGGTCTTACTATATCCGATACTATAAAGGTAAAGCCTAACGAAAAAGATAAGTGGCAAAGATTCTATTTATACACCAGCATAAGAAAAATGCCAGTCCCAGAAGGGTATACAAAAGGTGGAATAGCTTTTTATGATTATGCAGGGAACAATGACTATTCAATAAAAAATTTAAAACTAGAAAAAGGCAACAAAGCCACAGATTGGACTCCTGCACTCGAGGATATTCAAGCCGAAATTAAATCCGTTGAACAATATGCTTCCGAAATTGAACAAACGGCTAAAGGTATAAAACAAGATGTTAATTCATTAGAAACCGACTATTCAACGTTTAAAAAAGAAGCCAATTCTACATTCGATCAACAAGCTACCCAAATAGCTTTAAGGGTAACGGAAACCACCTATAACACTGATATGGAAGATATGACCATGCGTATCAGCGAGGCTGAATCGAGCATCGAACAAAATGCAGATGAAATCGTCTCTAAAGTAAGCAAAAATGGGGTTTTGTCCAGTATTAATCAATCCCCTGAGCAAATTAAAATTAATGCGCAACGCGTTTCGATCGATGGCGATTTAGCCGTTAGAAATGGAAAAGTCTATGTCAAAGATGGCGTTATTACCGATAATTTAATTTCAGGGAATGCAAAAATTGACGGTGCTAAAATAGCTGATGCTTCCATAACAAATGCAAAGATAGGCAATATAAATGCTGATAAGATACGGGCAGGGGTTTTAGATGCTTCGAAGGTGTCAATAAGGGTTAAAAATGGGACGCAGGCTATCCAGATTGATGATACAGGATTCGAATCAGTTGATAATAAAGGAAATGTACGTATTCATATTGGTGTACGAGATATTGCTGGTAAGGGGCAGTCTGACCCAGCAACCATTAGGTTTTTTAGTGGATCAGGTGACGTAGCAGCAGGAATAGGGATGAATGTTAACGATACGTTTGTCATTGGTAGTAACTCTAGTAAGGTTGCGATGGAATTACGAAGTGGGAAGAACGCTATTTATTATGCAAAAGAACATAGATTTGTATCAAATAATAATAGGCGTTATTGGCGATTAACTACCATAAAAAACAAAGCTGGACAAGTACACCCATCTTTCAAAGCAGATGCAAGTGGTTGGGGATATATTGGGGGAGAACACACCAGAATTTGGAAGGTGTATACTAATCATTTATACTATTTAGAGCAGCATAAATTGTCAACCAGGGACAGGAAAGAAAATATCCAAGACTTGATACCTGAAACTGCTCAAAATATATTCAATAGAATAAATATTAAAAAATATCATTATGTTAATGAAGATGGACATAGTTCTTTAAGGAAAGAAAGTTACGGTCCAATCTCCGAGGAAAGCCCAAATGAAATTCTTAGCATTGATGGTAAATCCTTAGTTCAGGACAACTATATAAATGTTATTGCAGGTGCGTTGAAATATCAGCAAAAGCGAATTGATATGTTAGAACAAAAAATGGAAGGGGTCTTATAA MKERIFIFNKYDELLAITNHYVEAIFEETVEKPVSFSITFPMSDKDAAYFVGGNQVAFKDLKGNLRLFTIREVDDIDGEAPEKVIQCMPAMQELTDVIVTDGETVNETAEAVLGIILQYSRWKVGHVADLGLYDISFSYQNAYDCLGKLTLRWGGEIVDRIEVAGNKITGRYIDIVQRKGSDTGKRFEMDKDIKNLTRTVLYYPKTALYGQGKSLQSGEEGAGKVTFRDVEWVKEKGDPTDKPKGQAWVGDSVALETHGVFNHETGEFMHRFGLFEDNDEEDPEKLLVKTWEAVQTEKAPKVQYEMDIITFYGIADYEHEHVFLGDTGIARDKNMKPMVLVEARIMSWKYDIGNPRDGSLVLGNILDLNPDERDMDWVIDKVKEDSASWDAGGGPITDGRFPDIVPDTPQDVSATGLFKKIMLSWTFESTYAIAAYEIYASQINGFVPDSTNLVFRGKVGAYNFDADTDEKWYFRVRAVNTHGTASEYSEQVSASTVQLHLSDLEEIVPDFIEYGIYKGEEYPSPSEYKYWLNTSENPNILYHWDEESESWKPLAPKNAADVGAISIADYQEQVGQLVTDLANKVDAEWVNGRLVAKANKADVYTVEQLDNKFDNVVSKTVYESDQQGIITDLQNQESRISQTETDIQSKVSNHQYTQDKESLRTSINENQSSIEQNAELIASKVSNEEYRTDKEGIINDIKANKSSIEQNAESIRSKVDATYVEDEIGKIEVGGRNLYTNTLNKFREAEWGSWNEYPNGYGYQTLVTPGETYTARVYYKNIEGGADVGLRLFWYKFDKSLLTESSNSETYVEPSEEGYSIISRQAPDDAKYVKVVLRKFNPDGISKVKYKELKLEKGNKATDWSPAPEDVEAKIEGIKVGGRNLLTDSVRKRDAERFYQVVLYKDINEAMVGEEVVFSFDLKINNDGILREISVYPYQSSGLTISDTIKVKPNEKDKWQRFYLYTSIRKMPVPEGYTKGGIAFYDYAGNNDYSIKNLKLEKGNKATDWTPALEDIQAEIKSVEQYASEIEQTAKGIKQDVNSLETDYSTFKKEANSTFDQQATQIALRVTETTYNTDMEDMTMRISEAESSIEQNADEIVSKVSKNGVLSSINQSPEQIKINAQRVSIDGDLAVRNGKVYVKDGVITDNLISGNAKIDGAKIADASITNAKIGNINADKIRAGVLDASKVSIRVKNGTQAIQIDDTGFESVDNKGNVRIHIGVRDIAGKGQSDPATIRFFSGSGDVAAGIGMNVNDTFVIGSNSSKVAMELRSGKNAIYYAKEHRFVSNNNRRYWRLTTIKNKAGQVHPSFKADASGWGYIGGEHTRIWKVYTNHLYYLEQHKLSTRDRKENIQDLIPETAQNIFNRINIKKYHYVNEDGHSSLRKESYGPISEESPNEILSIDGKSLVQDNYINVIAGALKYQQKRIDMLEQKMEGVL NA NA NA NA NA AK015_03927 150 hypothetical protein ATGGAACGAGAAGTTGACTTACAACTTGTTATAAATGCATTATCTAATCAAATATCCTCTCTCTCACAAGAGAAAGCTTATTATGAAGCAATTATAGCTGCTCAACAGGAAGAATTAAAAAAAGTGAAAGCCAAACCAGAAGTGGACTAA MEREVDLQLVINALSNQISSLSQEKAYYEAIIAAQQEELKKVKAKPEVD NA NA NA NA NA AK015_03928 2046 tkt_2 Transketolase ATGAATATAGGCATAATTATGAAAGGAGTTTACACTGAAATGGCAAATACAATTGAGCAACAATCTATTAATACAATCCGTACATTGTCTATTGACGCTATTGAACATGCAAATTCTGGGCACCCAGGTCTACCAATGGGGGCAGCGCCAATGGCTTATACGTTATGGACCGAATTTATGAACCATAATCCTAAAAATTCAAAATGGTTTAATCGTGATCGATTTATTTTATCGGCAGGCCATGGGTCTATGTTATTATACAGTTTACTACATTTATCAGGTTATCAAGTATCTATGGATGATTTAAAATCCTTTCGACAGTGGGGATCTAAGACTCCTGGACATCCTGAAGTTCATCATACGGATGGAGTAGAAGCAACTACTGGACCTTTAGGACAAGGTATTGGTATGGCTGTCGGTATGGCAATGGCAGAAGCACATTTGGCTGCTAAATATAATCAAGAAAATATTGCGGTTGTAGACCACTTTACATATGCAATAGTGAGCGATGGCGATCTAATGGAAGGTATCTCTCATGAGGCGGCGTCTTTAGCAGGACATCTGGGATTAAGTAAATTGATAGCACTTTATGATTCTAATGATATTTCTTTAGATGGAGATTTAAATAAATCTTTCTCTGAAGATATTGAAAAACGTTTTGCATCGTACGGTTGGCAAGTATTAACTGTCAAAGATGGTAATGATGTCAATGAAATTAGACAAGCTATTAAAGCAGCGCAAGAAAATCAAAAACAACCAACTTTAATTGAAGTGAAAACCATCATTGGGTATGGGTCTCCAAATAAATCTGCTTCGTCAGCTTCACATGGCGCTCCATTAGGTGAAGATGAAGTGAAACTGACAAAGGAATTTTATAAATGGACACATGAAGAAGATTTCTATGTGCCCGAAGAAGTATATGAAGATTTCAACCAAAAAATAGTTAAAAGAGGTGTTGAAGAAGAGGAAAACTGGAATCAACATCTAGCAATGTATAAAGAGAGGTACCCAGAATTAGCTAAGCAGTTTGAGCTTGCTCTCAACGGTGAACTTCCTGCTGATTGGGACAAAGATCTTCCAGTTTTTGAACCAGAACAAGATACACTAGCTACAAGGGCATCTTCTGGAAAAGTATTGAACGCTATTGCTAAAACCGTTCCAAACTTCTTTGGTGGTAGTGCTGATTTAGCTGGCTCAAATAAAACTACCATGAACGGGGAAGATGATTTTTCTCGTAAAAACTATGCTGGTAGAAATATTTGGTTTGGTGTACGAGAGCATGCGATGGGCGCAGCTTTAAATGGTATGGCATTACACGGTGGATTAAATGTATTCGCCGGTACTTTCTTTGTGTTTAGTGACTATTTGCGACCTTCCATCCGTCTTGCATCAATTATGAATACACCTGTTACTTACGTGTTTACACATGATTCTATTGCGGTAGGGGAAGATGGTCCAACGCATGAACCTATTGAACAGCTTGCTTCACTACGAGCAATGCCTGGATTATCGCTTATCCGACCAGCTGATGCAAACGAAACACAAGCAGCTTGGCGATTAGCTTTAGAATCTACAGATACACCGACAGCACTTGTGTTAAGCAGGCAAAATTTACCTACACTTTCTGGTACGAAAGAACATGCGTATGAGGGTGTTAAAAAAGGTGCTTATATTATTAGTGAAGCAAATAAAGAAACGCCTGATGTAATCCTTCTGGCAACCGGGTCGGAAGTACAATTAGCGATTCGTGCCCAAGCTGAACTGAAAGAAAAAGGTATAGAAGCTCGTGTAGTAAGTATGCCATCTTGGGATCGTTTTAAAGCACAGGATAAAAACTACCAGGAACAAATTCTACCTCAAACTGTCAAGAATCGGATAGCTATTGAAATGGCGTCTCCATTTGGTTGGGAAAAATATGTAGGTGAACACGGGAAAATTATTGGTATTGATACTTTTGGAGCCTCTGCAAATGGGGAGAAAGTAATGAAAGAATATGGATTTACCGTGGAAAATGTAGTTAAGCATGTAGAATCATTTGTTGATTAA MNIGIIMKGVYTEMANTIEQQSINTIRTLSIDAIEHANSGHPGLPMGAAPMAYTLWTEFMNHNPKNSKWFNRDRFILSAGHGSMLLYSLLHLSGYQVSMDDLKSFRQWGSKTPGHPEVHHTDGVEATTGPLGQGIGMAVGMAMAEAHLAAKYNQENIAVVDHFTYAIVSDGDLMEGISHEAASLAGHLGLSKLIALYDSNDISLDGDLNKSFSEDIEKRFASYGWQVLTVKDGNDVNEIRQAIKAAQENQKQPTLIEVKTIIGYGSPNKSASSASHGAPLGEDEVKLTKEFYKWTHEEDFYVPEEVYEDFNQKIVKRGVEEEENWNQHLAMYKERYPELAKQFELALNGELPADWDKDLPVFEPEQDTLATRASSGKVLNAIAKTVPNFFGGSADLAGSNKTTMNGEDDFSRKNYAGRNIWFGVREHAMGAALNGMALHGGLNVFAGTFFVFSDYLRPSIRLASIMNTPVTYVFTHDSIAVGEDGPTHEPIEQLASLRAMPGLSLIRPADANETQAAWRLALESTDTPTALVLSRQNLPTLSGTKEHAYEGVKKGAYIISEANKETPDVILLATGSEVQLAIRAQAELKEKGIEARVVSMPSWDRFKAQDKNYQEQILPQTVKNRIAIEMASPFGWEKYVGEHGKIIGIDTFGASANGEKVMKEYGFTVENVVKHVESFVD PGPT0011200_1664 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 AK015_03929 234 hypothetical protein ATGCTCTCAAAAGGTAAGATCGAACGTATTAATGAGCTTGCAAGAAAATCCAAAGTGGACGGACTAACTATTTCTGAACAAAACGAACAAAAAAAATTACGCCAGGAATACTTACAGGGTGTAAGAAAATCTTTTAAAAATCAGTTTAAAACAATGAAAGTAGTTGATCCAGAGGGAAATGATGTAACACCGAAAAAAGTAAAAGATTTACAAAAAAAGCATCACAAGAAGTAG MLSKGKIERINELARKSKVDGLTISEQNEQKKLRQEYLQGVRKSFKNQFKTMKVVDPEGNDVTPKKVKDLQKKHHKK NA NA NA NA NA AK015_03930 645 yneB COG1961 Resolvase YneB GTGAAGGCAGTTGTATATTGTAGGGTAAGTACTGACAAAGAAACTCAAGAAACATCATTAATAAGACAGAAACAGGAATTGGTTAAACTGGCAGCTGAATATCAACTTACTGTGGTAGCGTGTATACAAGAGCAAGAGAGCGGATATAGTATTGATCGAGATGGGATATTTAAGATGTTAGAGATTTTTTCTCAAAAAAGGGCAGATTGTTTATTGATTCAAGACGAGACTCGTTTAGGTAGGGGGAATACAAAAATTGCCCTTTTTCACCAGCTGCTGAAATTACATATTCCTATTTATACAAGCTTTCATGGAGGGAAGTTAGAGTTATCGGAAGCAGATTCCATGGTGTTGCAGATCGTTGGGATTGTGGAGGAGTATCAACGCAAAATACATAATATAAAGATAAAAAGAGGGATGAAGCAGGCAATTGCAAAAGGATATGATCCCACCTTAAATCTTTCGAATAGAAATGAAGCTCCAGGAAGGCAAAGATTAGAATTTCCTGTTGAAGAAGTCATTAATTTACGACAAAATGGTCTGACGTTTAAAGAAATTGCTGATACATTAAATGGTCTAGGTTACAATGTATCAAAGGCTACTGTTCATAGACGCTATCAAGAATATGAAAGCAAACAAAAATAA MKAVVYCRVSTDKETQETSLIRQKQELVKLAAEYQLTVVACIQEQESGYSIDRDGIFKMLEIFSQKRADCLLIQDETRLGRGNTKIALFHQLLKLHIPIYTSFHGGKLELSEADSMVLQIVGIVEEYQRKIHNIKIKRGMKQAIAKGYDPTLNLSNRNEAPGRQRLEFPVEEVINLRQNGLTFKEIADTLNGLGYNVSKATVHRRYQEYESKQK NA NA NA NA NA AK015_03931 93 hypothetical protein ATGTTTCAAAAACTGACCAAAACAGACGCATTCTATCTTGTAGCTTTTGCATTAACATTAGGTTTCTTATATTATTCTATTATAATGAGTTAA MFQKLTKTDAFYLVAFALTLGFLYYSIIMS NA NA NA NA NA AK015_03932 624 lexA_2 COG1974 LexA repressor ATGACTAAACTTTCCAAAAGGCAACAAATGATATTAGACTATATAAAAGATGAAGTAATGCAAAAAGGGTATCCACCATCTGTAAGAGAAATTGCCAAGGCTGTGGGTTTAGCGTCTAGCTCGACTGTTCACGGGCATTTAGCTAGAATTGAAGACAAAGGCTATATTAGACGTGACCCTACAAAGCCAAGAGCAATTGAGATCTTACATTTGGAAGAAGAGAATCCTATTCCAAAAGAAGAAGCACTTTATGCGCCTGTTATCGGGAAAGTAACAGCAGGCTTGCCCATAACAGCTGTAGAAAATATTGAAGAATATATTCCGCTTCCTGCAAATACGGCTAATCCTGATGATAGTCTATTTGTTTTAGTAATTGAAGGAGAGAGTATGATTGAAGCTGGAATTTTAGATGGAGATATGGTAATCGTTAAACAGCAAAACACAGCACAAAATAGCGAAATTGTTGTTGCAATGACAGCAGATAATGAAGCAACCGTAAAACGTTTTTTTAAAGAAAAAGATCATATACGATTACAACCAGAAAATGCAACCATGGAGCCGCTTATATACGATAATGTAACCATTTTAGGGAAGGTTATTGGTTTGTATCGACATATACACTAA MTKLSKRQQMILDYIKDEVMQKGYPPSVREIAKAVGLASSSTVHGHLARIEDKGYIRRDPTKPRAIEILHLEEENPIPKEEALYAPVIGKVTAGLPITAVENIEEYIPLPANTANPDDSLFVLVIEGESMIEAGILDGDMVIVKQQNTAQNSEIVVAMTADNEATVKRFFKEKDHIRLQPENATMEPLIYDNVTILGKVIGLYRHIH PGPT0014895_2575 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356 NA NA AK015_03933 819 hypothetical protein ATGGCTGAGAAATATTTTAAAACAGGAGACATAGCCAAATTTCATGGAGTGTCTAGTGATACAGTGCGCTATTACGATAAAGAGAATTTAGTTACTCCTTCTGTTGTTAAAGATAATAAATATAGGTATTATTCTTTGAATGACGCTTTGAAGTTTAGTAATGTAACTTGGTTGCGTGAATTAGGTGTACCTTTAAAAACAATTAAGAACTGGCTTGATTATAAAGATTTGACAGATGTATCGAAATTTAACGAGAGTTATTTAGAGACATTATTGCTAGAGAGAGAGTTATTAGATAAAAAAATCTATTTTTTACAAGAGTTAAATAGAAGGCTAGCCTCTTTTCAAACAAAACCAAATATGTGGGAAGTGGTTAAGGATAATTATATATTTACCTGTGATGGATTTAACTTTACAGCTGATGATAAAGGCTTCAATATTAATGAATCCAATCTGTATGACTCCCAAGAAGATGTTTTTTGGAATAAGACTTCGATGATTGTTTATCAAAACAACTTAAGAGATTTTCATCATCCTAAAAAAGGAGAAGTATATTGCTCTAACATTATTTCTAGTATCGATCAAGATATCAAAAAAATTAGTTTTCCAACAGCACTTCGTTATAATTTTGTCGGGAATCCTTTTTCTGATATGAGAAAGATGCAAGAAATATTGAATGAAGCAAAGGAACATGCCATTACACATCAGTTGCGTCTAGAAGAATACTGCTATTCATTGTTTTATCTATCACAAATTAAGGAAAAGAGCCCCGTTTACTATGTGCATATTTATTGTCCTGTCTATTATACGGGGGAATGA MAEKYFKTGDIAKFHGVSSDTVRYYDKENLVTPSVVKDNKYRYYSLNDALKFSNVTWLRELGVPLKTIKNWLDYKDLTDVSKFNESYLETLLLERELLDKKIYFLQELNRRLASFQTKPNMWEVVKDNYIFTCDGFNFTADDKGFNINESNLYDSQEDVFWNKTSMIVYQNNLRDFHHPKKGEVYCSNIISSIDQDIKKISFPTALRYNFVGNPFSDMRKMQEILNEAKEHAITHQLRLEEYCYSLFYLSQIKEKSPVYYVHIYCPVYYTGE NA NA NA NA NA AK015_03934 1341 merA Mercuric reductase ATGTTCACATATGATGTAGCAATAATTGGTGCAGGAGCAGGTGGTCTAAACACCGCTATGGAAGCAATTAGTATGGGAAAAAAAGTTGTATTAGTTGACAAATATAAGCCAGGTGGAGAATGTACTTGGGCGGGTTGTATTCCAAGTAAAGCACTTATTCAACTTGCTGATGAAATTCATGCGGCGAAAAAATATGCCAACATTGAAGTAGACGGGAAGCAAATAATGAGTAAAGTTCGTCAATTAATAGAAAAAGCGCATCAAGCGGAGGCAGTAGAGCAATTACAAGCTGCAGGTATTGAATATATTCAAGGTGATGCGAAAATTAACGATCAACACAGCATACGTGTAGCTCATGAAACCATTACTGCTGAAAAAATAGTTATTGCCACTGGATCAAGAGCTCTTATTCCTTCTATTAAAGGAATTAATCAGGTTAACTATTTAACAAATGAGAACGTCTTTCAACTTGAAGATTTACCAAACAATCTAATCGTTGTAGGGGGTGGCCCTATTGGTGTTGAATTAACGCAAGCTTTTCAACGTTTAGGAGTGCAAGTAAAACTAGTTGAAATGGCTGACCGTATTTTATTTAGAGAGGAAAAAGGCTTAGCACAACAGCTCCAGGGTACGTTGGAAGAGGAAGGGGTGCAACTGTATACATCCGCGAAGGCGCTTGAAGTAAAACAAGCAAATTGTACTACAACCCTAACTATAGATAGGAACGATGTACTTGAACATATTGAAGCAGAACAGATATTGTTTGCCTTAGGTAGAAAGCCGAATATAGAAAAAATTGGTTTAGATGATCTGGGGATTCGCTATACTAACAAGGGCATTGAAGTTAATGAATATAATGAAACTTCAGTTCGCAACATTTATGCTGTAGGAGATGTGGTTGGTCCTTATTTATTTTCTCATATGGCTGGATTTCAATCTAAACAGGCAATGCGACATGCATTTTTAGAAATGCATACCCCAATAGAGCAACACCCAGCTTGGTGCACCTTCACACATCCAGAACTGGCTAGAACAGGGATGACTGAAAATGAAGCAAGGGAGAAATTTCAAGACAAGTTTAATGTTTATACAGTAAGCTATTCTGAATTAGATAGGGCTGTTGTTGATCAAAAGACAACCGGAGAAGCCAAAATAATTTGTGATCAAGATGGATTTATAATTGGAGCAAGTATTTTAGGGGAAAGAGCCTGTGAGTTATTGGGCGAATTGCAACTTATGAAAACATTCCATATTCCCTTCAATAAACTAAAGGATACAATTCATCCATATCCGTCTTATAGTGAAATTCTGACACAATTAAGCAACGCAGCTGTTGAATAA MFTYDVAIIGAGAGGLNTAMEAISMGKKVVLVDKYKPGGECTWAGCIPSKALIQLADEIHAAKKYANIEVDGKQIMSKVRQLIEKAHQAEAVEQLQAAGIEYIQGDAKINDQHSIRVAHETITAEKIVIATGSRALIPSIKGINQVNYLTNENVFQLEDLPNNLIVVGGGPIGVELTQAFQRLGVQVKLVEMADRILFREEKGLAQQLQGTLEEEGVQLYTSAKALEVKQANCTTTLTIDRNDVLEHIEAEQILFALGRKPNIEKIGLDDLGIRYTNKGIEVNEYNETSVRNIYAVGDVVGPYLFSHMAGFQSKQAMRHAFLEMHTPIEQHPAWCTFTHPELARTGMTENEAREKFQDKFNVYTVSYSELDRAVVDQKTTGEAKIICDQDGFIIGASILGERACELLGELQLMKTFHIPFNKLKDTIHPYPSYSEILTQLSNAAVE NA NA NA NA NA AK015_03935 570 Manganese catalase ATGTGGTATTATGAAAAAAAGCTACAATACCCAGTAAAGGTCAGTACTTGTAATCCAATGTTGGCAAAATTTCTCGTTGAACAATATGGAGGAGCAGATGGAGAACTTGCTGCTGCACTTCGTTATTTAAACCAACGTTACACTATACCAGATAAAGTAGTAGGACTTTTAAATGACATTGGAACTGAAGAATTTGCGCATCTGGAAATGATTGCAACGATGATTTATAAATTAACGAAAGATGCAACTCCCGAACAATTAAAGCAGGCTGGTCTTGGTGAACATTTTGTTAATCACGATAGAGCGTTGTTCTACCATAATGCAGCAGGCGCTCCATTCACTGCCACTTATATCCAGGCAAAAGGAGATCCTATTGCCGATTTGTATGAAGATATTGCTGCGGAAGAAAAGGCGCGGGCGACATATCAATGGATTATTGATATGTCCGATGATCCTGATTTAAACGATAGCTTGAAATTTTTAAGGGAAAGAGAAATTATACATTCACAACGTTTTAGAGAGGCTGTAGAAATTTTAAAAGAGGAAAGAGATCAAAAAAAAATATTTTAG MWYYEKKLQYPVKVSTCNPMLAKFLVEQYGGADGELAAALRYLNQRYTIPDKVVGLLNDIGTEEFAHLEMIATMIYKLTKDATPEQLKQAGLGEHFVNHDRALFYHNAAGAPFTATYIQAKGDPIADLYEDIAAEEKARATYQWIIDMSDDPDLNDSLKFLREREIIHSQRFREAVEILKEERDQKKIF PGPT0025185_179 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025185-cotJC-K06334 NA NA AK015_03936 264 hypothetical protein GTGAATAAGCAAATGCCTCCCGAATATTATCGGCTGCTCGAAGAAATTCAAGCAAACGATTTTGTCCTAGTTGATTTAAACCTTTATTTAGATACCCATCCTAACGATTTTGAAGCTATTCAACAATTTAATAATTTATCAAAGGAAACGATGCAATTAAAAATGGACTTTGAAAAGAAATTTGGACCACTTATGCATTTTGGAAAAAGTTTTTCTGACTATCCATGGAATTGGAAAGATACCCCTTGGCCATGGCAAGTTTAA MNKQMPPEYYRLLEEIQANDFVLVDLNLYLDTHPNDFEAIQQFNNLSKETMQLKMDFEKKFGPLMHFGKSFSDYPWNWKDTPWPWQV PGPT0025180_204 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025180-cotJB-K06333 NA NA AK015_03937 228 hypothetical protein ATGTTCACACAATATAAATATTGGAAACCTTATATAAGTCCGTATGATCCATGTAAACCCAGTAAAGTGAAAAGTTATGCTACTCCACCTCAATTATATATGGGGTTTCAACCATATGGATTAAAACAATTTAACACTCCAAAAGAAGCACTCTATCATGGTACACTTTGGCCTCAATTATATAGTCCTTATCCAAACCCTCATAAAGGAGACGAACAAGGTGAATAA MFTQYKYWKPYISPYDPCKPSKVKSYATPPQLYMGFQPYGLKQFNTPKEALYHGTLWPQLYSPYPNPHKGDEQGE PGPT0025175_89 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025175-cotJA-K06332 NA NA AK015_03938 240 hypothetical protein GTGAAAAAATATATAATCACGTTTCATATGACAGATGGTACTGAAGTTGTTACAGAGGAGGAGCGAGAAAGTAAAAATGATTTTTTCTTTAGTTTAAAGCGCTATGATTCTAATTGGTACAAAAGTAAAAATACAATAATAAATTTAGACAACGTAAACAGCATTATCTTGAAAGCGCAATCAGATGGGGTGCTGAAAACTGGTAATGAAGAAAAAGAATTACGAAATGTTGTATGGTGA MKKYIITFHMTDGTEVVTEEERESKNDFFFSLKRYDSNWYKSKNTIINLDNVNSIILKAQSDGVLKTGNEEKELRNVVW NA NA NA NA NA AK015_03939 1338 glnA COG0174 Glutamine synthetase ATGGGAAGCACTTATACAAGAGAAGATGTAGTAAAACGCATTAAGGAGGAAAACGTCCGTTTTATCCGTTTGCAGTTTACGGATATGTTGGGGACCATTAAAAACGTGGAGATTCCACTTAGTCAATTAGGTAAGGCTTTAGATAATAAGATGATGTTTGACGGCTCTTCCATTGAAGGATTTGTACGCATTGAGGAGTCTGATATGTATTTGTACCCAGACTTGGATACGTTTGTTGTTTTTCCTTGGACATCAGAAAAAGGAAAAGTAGCTCGCTTTATTTGTGATATTTACAAAACGGATGGGACTCCTTTCGAAGGTGATCCACGTTACAATTTAAAACGAAATTTAAAGAAAATGGAAGAGTTAGGTTTTGATGCTTTTAATATTGGGACTGAACCTGAATTTTTCCTCTTTAAGCTAGATGAAAAAGGCGATCCCTCTATGGAATTAAACGATCACGGAGGCTATTTTGATCTTGCACCAACAGACTTAGGGGAGAACTGCCGTAGAGACATCGTTCTTGAATTAGAAGAAATGGGTTTTGAAATTGAAGCTTCCCACCACGAAGTTGCTCCTGGTCAACATGAAATTGATTTTAAATATTCAGATGCGGTAAAGCATGCAGATGATATTCAAACGTTTAAATTGGTTGTAAAAACAATTGCCCGTAAGCATAATTTGCACGCAACCTTCATGCCGAAACCATTATTTGGAGTGAATGGCTCCGGCATGCACGTGAATATGTCGTTATTTAAAAATGGAGAAAATGCATTTTATGATAAAGACGGTGATATGGGGTTAAGTAAGACGGCTTTTCAATTTATTTCGGGTATTATTAAACATGCTGGTAGCTTCACAGCGATTACAAACCCAACCGTTAATTCCTATAAACGTCTAGTTCCTGGTTATGAAGCTCCTAGTTATATTGCTTGGTCTGGTGCAAATCGAAGTTGTCTCATGCGGATTCCAAATTCTCGTGGTATTAGCACGCGTGTAGAAGCTCGTAGTGTGGATCCATCAGCAAATCCATATTTAGCACTTGCCTCTTTACTAGCAGCTGGCTTAGACGGTATCGAAAATGAAATGACTCCGCCACCAGCAGTTGATCGTAATATTTATGTGATGTCTAAAGAAGAACGTGAAGAAAATGGTGTTCACGATTTACCTAGCACCTTAGCGGACGCATTAGAAGAATTAAAGAAAAGTGAAGTTATTGTAAATTCCTTAGGTGAACACCTTTTCGAACACTTTGTTGAAGCAAAGGAAATCGAATGGGAAATGTTTAAAACACAAGTACACCCGTGGGAAAGAGAGCAATATTTAAGAACTTATTAA MGSTYTREDVVKRIKEENVRFIRLQFTDMLGTIKNVEIPLSQLGKALDNKMMFDGSSIEGFVRIEESDMYLYPDLDTFVVFPWTSEKGKVARFICDIYKTDGTPFEGDPRYNLKRNLKKMEELGFDAFNIGTEPEFFLFKLDEKGDPSMELNDHGGYFDLAPTDLGENCRRDIVLELEEMGFEIEASHHEVAPGQHEIDFKYSDAVKHADDIQTFKLVVKTIARKHNLHATFMPKPLFGVNGSGMHVNMSLFKNGENAFYDKDGDMGLSKTAFQFISGIIKHAGSFTAITNPTVNSYKRLVPGYEAPSYIAWSGANRSCLMRIPNSRGISTRVEARSVDPSANPYLALASLLAAGLDGIENEMTPPPAVDRNIYVMSKEEREENGVHDLPSTLADALEELKKSEVIVNSLGEHLFEHFVEAKEIEWEMFKTQVHPWEREQYLRTY PGPT0000645_8124 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 AK015_03940 396 glnR COG0789 HTH-type transcriptional regulator GlnR TTGAATGATAAAGATCGTCGTTCCATGCCTCTATTTGCAATCGGCATTGTAATGAAGCTTACCGAATTAACAGCTAGGCAAATAAGGTATTATGAAGAGCACAGTTTAATTCATCCAGAAAGAACCACTGGAAATCAGCGATTATTTTCGTTTAATGATGTTGATCGACTGCTTGAGATTAAAGATTATTTGGATAAGGGGCTAAATATTGCCGGCATTAAACTACTGTTGAATGAAGATGAAACGAAACAAGTTTCACAACTAAAAATGACTGAATCCTCTCAGATATCTGACAAGGAGTTGCGGAGGATTCTAAGGCAAGAATTAAATGAGCCAAGCGCTCATAAAAAAGCTAATTTGCGTCAGGGAGACCTTGCTAGGTTTTTTAGCCGTTAA MNDKDRRSMPLFAIGIVMKLTELTARQIRYYEEHSLIHPERTTGNQRLFSFNDVDRLLEIKDYLDKGLNIAGIKLLLNEDETKQVSQLKMTESSQISDKELRRILRQELNEPSAHKKANLRQGDLARFFSR PGPT0001015_155 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-REGULATION GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0001015-glnR-K03713 NA NA AK015_03941 1239 hypothetical protein ATGACAGATTTATTAGCAAGACAAGCGGAAGAAGATTGTAAACCACAATATACAAAGATCAACAACGTAGCTGAGAAAAATCAAAGACGTGTAATGCAAGCTTTTCGAAACAACTGTGTGAGTGATAGTCATTTTCAGTCAACAAGCGGCTATGGATATGATGATAGGGGACGAGAAGTGCTGGAAAGTGTTTATGCTGAAGTATTTGGAGGAGAAGATGCACTTGTAAGACCTCAAATAGTTTCTGGTACGCACGCTATTACAACGGCTCTATTTGGTATACTGCGTCCTGGTGATGAACTATTGTATATTACTGGTAAGCCTTATGATACTTTAGAAGAAGTAATCGGTATTCGTGGTAAAGCTGAAGGATCCTTACGTGATTTTCAAATTATTTATCAGCATGTTGATCTATTAAAGAACGGTAAGGTGAACTTTGAAGCTATTAAGCAAGCAATGAATAAAAAAACAAAAGTAATTGGCATACAACGCTCCAAGGGATATGATGATAGGCCTTCATTTACGATAACAGAGATGGAGGAAATGGTGAACTTTGTGAAGTCCATTCTTCCTGAAGTCATCGTGTTTGTTGATAATTGTTACGGCGAATTCGTCGAAGAGATGGAACCACTACATGTAGGAGCGGATGTTATTGCTGGGTCTTTAATTAAAAATCCCGGTGGCGGTATTGTTCGAGCGGGAGGCTATATTGTTGGAAAAGAATCACTTATTCACCAATGCGCCAACCGTCTAAATGCACCAGGACTTGGAAAAGAGACTGGCGCAACATTTCACATGCTACAAGAAATGTTTCAAGGCTTTTTCCTCGCTCCTCATGTAGTTGGTGAAGCTCTTAAGGGAGCTGTTTTTACTTCAAGACTAATGGAATTGGCCGGCTACACAACATCGCCACATTATAAAGCAGAGCGTACAGATTTGATTCAATCGGTAACATTTCACAATAGAGAAAACATGATTATGTTTTGCCAAGCGATTCAAGAACATTCACCAGTAAATGCTTATGTGAAACCATTCCCAAGCAAAATGCCTGGGTATGAGGACGAAGTAATTATGGCAGCAGGAACGTTTATCCAAGGGGCAAGTATTGAGTTGTCTGCTGATGGCCCGCTACGCCCCCCTTATGTAGCGTTTATTCAAGGTGGGCTAACGTATGCCCATGTAAAGATAGCCATTACAGAATCGTTAGAGAAGCTCAGTAATATGACTTTAAATAAATAG MTDLLARQAEEDCKPQYTKINNVAEKNQRRVMQAFRNNCVSDSHFQSTSGYGYDDRGREVLESVYAEVFGGEDALVRPQIVSGTHAITTALFGILRPGDELLYITGKPYDTLEEVIGIRGKAEGSLRDFQIIYQHVDLLKNGKVNFEAIKQAMNKKTKVIGIQRSKGYDDRPSFTITEMEEMVNFVKSILPEVIVFVDNCYGEFVEEMEPLHVGADVIAGSLIKNPGGGIVRAGGYIVGKESLIHQCANRLNAPGLGKETGATFHMLQEMFQGFFLAPHVVGEALKGAVFTSRLMELAGYTTSPHYKAERTDLIQSVTFHNRENMIMFCQAIQEHSPVNAYVKPFPSKMPGYEDEVIMAAGTFIQGASIELSADGPLRPPYVAFIQGGLTYAHVKIAITESLEKLSNMTLNK NA NA NA NA NA AK015_03942 1233 hflX COG2262 GTPase HflX GTGAATGAAAAAGTAATCATTATTGCAGTAAAGCAACCGAAACAAACAAATCATCATTTTGAATCGTCCCTAGCCGAATTAAATTCATTGAGTAAGACTGCTAGTGGAGATGTTATTCAAATATTTACCCAAAATAGAGATAACATTCACCCTGGTACATATATCGGCTCTGGAAAATTAGAAGAAGTAAATGCTTCTATTCAGGAAGATCAAGTGGATTTAGTCATTGCAAATGATGAATTATCATCAATCCAACTTCGAAATATGAGTCAAGCTTTCGGTGTTCGAACGATTGATCGAAGCCAATTGATTTTAGATATTTTTGCTCAACGTGCTAGAACAAAAGAAGGAAAATTACAAGTTGAATTAGCTCAACTAGAGTATTTACTACCTAGATTAAGAGGGCAAGGGACAGCGTTGTCAAGATTAGGAGGTGGGATTGGAACAAGAGGCCCTGGTGAAACAAAATTGGAGACCGATCAGCGGCATATTCGTAGACGTATCCATGATATAAAGCAGCGTTTACAAACGGTCGCTAAGCAAAGGGAACAATATCGTAAGCGAAGAAAGACAAATGACGTCTTGCAAATTGCAATTGTTGGTTATACAAATGCAGGAAAGTCAACGCTTTTTAACCAACTCACAAATAGTACTTCATTAGAGGAAGATCAATTGTTTGCCACACTTGACCCGTTAACGAGGCAAATTCAACTTCCATCAGGAATGAATGTACTTGTTACGGATACCGTTGGATTCTTACAAGATTTGCCGACTTCTTTAATTGCCGCTTTTAAATCAACATTAGAGGAAGTAAAAGAAGCTAATTTTCTTATTCATTTGGTTGATGGCTCCCATCTTGATTTAAATCAGCAACAGGATACTGTTTTGCAATTATTACAAGAACTTCATGCTGATACGATTCCAATGCTTACAATTTATAATAAGAAAGATAAATGGGTGCAAGGTGTTATACCAATGAACCATCCTTATATGTTTATGAGTGCTTATCAGACAGAAGATGTACAACAGTTACTACATAAACTGGAAGCCCTACTAAAAGCTGATTGGTCATTTTATTCTCTAACACTAAGACCGGATCAGGGCAAGTTATTACAACAATTGGAACACGAGAGTATTATTGAATCAAAGATGTTTTCAGAAGATGAACAAGTATACAAATTAAACGGATATATGCGAAAAGGAATAGCATTAAACCGACTTTTAGAGGAGTAA MNEKVIIIAVKQPKQTNHHFESSLAELNSLSKTASGDVIQIFTQNRDNIHPGTYIGSGKLEEVNASIQEDQVDLVIANDELSSIQLRNMSQAFGVRTIDRSQLILDIFAQRARTKEGKLQVELAQLEYLLPRLRGQGTALSRLGGGIGTRGPGETKLETDQRHIRRRIHDIKQRLQTVAKQREQYRKRRKTNDVLQIAIVGYTNAGKSTLFNQLTNSTSLEEDQLFATLDPLTRQIQLPSGMNVLVTDTVGFLQDLPTSLIAAFKSTLEEVKEANFLIHLVDGSHLDLNQQQDTVLQLLQELHADTIPMLTIYNKKDKWVQGVIPMNHPYMFMSAYQTEDVQQLLHKLEALLKADWSFYSLTLRPDQGKLLQQLEHESIIESKMFSEDEQVYKLNGYMRKGIALNRLLEE PGPT0007245_4126 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665 NA NA AK015_03943 927 spoVK COG0464 Stage V sporulation protein K ATGGAAACACAATTTATAAGTAATCGAAATGGGCAAGTAAACATCATTTTAAAGGAAAAAAACACCTCGCATTTGACATATACAGAAAAAAAAGCAATGAACAAAAAAAACAACCCATTTAATCATATTGATGAGGCATTTGCATCGTTTGTAGGTATGAAGCAACTTAAGGAACGAATTAAAGAAATATATGCAACGGTCGTCATCAATGAAAAGCGAAAGCAGTTTGGGTTAGTGAATCATGAACAAGTATTGCATATGCTTTTTAAGGGTAATCCTGGGACAGGAAAAACAACGGTAGCTAGAAAGTTGGCTAAGCTATACTATGATATGAACTTATTATCTAAAGGCCATTTTATTGAAGCTGAACGGGCAGACTTGGTAGGAGAATATATTGGTCAGACAGCGCAAAAAACCCGCTCTATTATACAGAAAGCCCAAGGTGGCGTTTTGTTTATTGATGAGGCTTATTCACTTGCGCGTGGTGGCGAGAAAGATTTTGGTAAAGAAGCAATTGATACATTGGTAAAACATATGGAAGATTATCAGCATGATTTTGTGCTAATTCTTGCTGGTTATCCATACGAAATGGAACGATTCTTAACATTAAATCCTGGCTTAGAATCCAGGTTTCCATTTATATTAGATTTTCGTGATTATGAAGCTGGAGAATTGCTTTCAATCGCTAAACGAATGGCAGCAGATCGCGAGTATCAACTTACCAAAGATGCTGAAATAGAATTAAAAGCACATTTAATAAAAAAAACACGCACGAATAATCGTAACTTTTCCAATGCACGTTATGTACGTAACGTGGTAGAGAGTGCTATTCGTATGCATGCAGTTAGGTTGTTGGAGAATGAGCACTTTACTACAGATGATCTTATTTACTTAACAATTCAAGATTTGCAGTTAAAACTAAATTAG METQFISNRNGQVNIILKEKNTSHLTYTEKKAMNKKNNPFNHIDEAFASFVGMKQLKERIKEIYATVVINEKRKQFGLVNHEQVLHMLFKGNPGTGKTTVARKLAKLYYDMNLLSKGHFIEAERADLVGEYIGQTAQKTRSIIQKAQGGVLFIDEAYSLARGGEKDFGKEAIDTLVKHMEDYQHDFVLILAGYPYEMERFLTLNPGLESRFPFILDFRDYEAGELLSIAKRMAADREYQLTKDAEIELKAHLIKKTRTNNRNFSNARYVRNVVESAIRMHAVRLLENEHFTTDDLIYLTIQDLQLKLN PGPT0024835_327 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413 NA NA AK015_03944 225 hfq COG1923 RNA-binding protein Hfq ATGGCTCAATCTGTAAATATTCAGGACCAATACTTAAATCAACTTCGTAAAAACCGTATAGCTGTCACAATTTTTTTAACGAATGGGTTTCAATTAAGAGGTGTTATTAAAGGATTCGACAATTTCACGGTTTTAATTGAAACAGATGGTAAACAACAATTAATTTTTAAACATGCTATTTCTACCTTTTCACCAGCTAAAAATGTCGAGCTGGAAAAGGAATAA MAQSVNIQDQYLNQLRKNRIAVTIFLTNGFQLRGVIKGFDNFTVLIETDGKQQLIFKHAISTFSPAKNVELEKE PGPT0025560_1947 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 AK015_03945 933 miaA COG0324 tRNA dimethylallyltransferase ATGAAAAAAAAACTTATTGCTATCGTAGGTCCAACTGCGGTAGGTAAAACAAAACTTAGTATTGAAATAGCTAAACATTATAATGGTGAGATTATTAGCGGAGATTCTATGCAAATCTATAAAGGAATGGATATTGGGACTGCAAAAGTGACAAAGGATGAAATGAAAAACATTCCACATTATATGATTGATATAAAACGTCCCGATGAATCGTTCTCTGCGGCTGATTTTAAACAGTATGTAGACCATTACATAGAAATAATATCAGTCAAGGACAAATTACCTATATTAGTTGGCGGAAGTGGTTTATATGTGCAGGCTGCCCTCTATAACTATAACTTTACAGCGTATCAGCGTAATAACGAGTTGATTAAAAAATTAAATAAAGAAATAGAGTTAAATGGCATCCAACCTTTGTATGAAAGGTTGAAGAAAGTTGATCCGCAACAGGCAAAAAAAATTCATCCAAACAACTATCGGCGTGTTGTGCGTGCGTTAGAAATCTATGAAACAACAGGAAAACGAATGTCAGAATACCAGCAACAGCAAAGTGGAAAGTCACCGTATGATTATAAAATCATAGGATTGGAAATGGACCGTGAAAAATTATATGATCGGATTAATAAGCGTGTAGATGATATGATAGAAAAAGGTCTGGTAGAAGAAGCTTATCAATTGTATAGTCGGGGGTATGCTCATAAACAATCTATGCAAGCGATCGGCTATAAAGAATTTCTCCCTTATTTCAAAAACGAAATATCTTTAACTGAAGCTATTGTAACATTAAAGCAAAATTCTAGAAGATATGCCAAAAGGCAATATACTTGGTTTCGCAATAAAATGGATGTATCTTGGTATGATGTTTCTAGTGTATCCATTGATGAAAAATCAAGAAATATTTTAGATGATCTTGCAGGATTTATTCAAAGCTAG MKKKLIAIVGPTAVGKTKLSIEIAKHYNGEIISGDSMQIYKGMDIGTAKVTKDEMKNIPHYMIDIKRPDESFSAADFKQYVDHYIEIISVKDKLPILVGGSGLYVQAALYNYNFTAYQRNNELIKKLNKEIELNGIQPLYERLKKVDPQQAKKIHPNNYRRVVRALEIYETTGKRMSEYQQQQSGKSPYDYKIIGLEMDREKLYDRINKRVDDMIEKGLVEEAYQLYSRGYAHKQSMQAIGYKEFLPYFKNEISLTEAIVTLKQNSRRYAKRQYTWFRNKMDVSWYDVSSVSIDEKSRNILDDLAGFIQS PGPT0007210_3501 DIRECT EFFECT COLONIZING_PLANT_SYSTEM OTHER_COLONIZATION_RELATED_PROTEINS COLONIZATION-HOST_INVASION_FACTORS HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791 NA NA AK015_03946 510 dps1_1 COG0783 DNA protection during starvation protein 1 GTGAAAATGTATAAAGTTGCTTCCAGTTTACCATACTATGGAAAACTGGAAGAGGTGTGTATGGTGAAAAATCAACAGCTTGTAAATTTTCTTAATCAATTACTGTCTAATCAATTTGTTCTTTATGTGAAACTGCACCGATACCATTGGTTTATTCAAGGAAGCAATTTTTTAACTCTTCATCAGCAGTTTGAAAATATGTACTTGAAGGTAGCTCATGATATTGATGAGATAGCCGAGCGTATACTAATGATAGATGGCAAACCTTTAGCTACAATGGTAAAATATTTGAAAGAATCAACTTTAGAAGAAGCAAATGCAGATGATGAAGAACAAGAAATAATGCAGCAGTTGCTGCAAGATTTGCTGCAAATAATAATGGAAATTAAGACACAAGGGCTACCAAAAGCTGTAGAGTTAAATGACAGCCCTACAGAAGATTTACTTATTGATATACAAGGAGCGTTTGAAAAATATACTTGGATGCTTAGAGCGTATTTAAAACAGTAA MKMYKVASSLPYYGKLEEVCMVKNQQLVNFLNQLLSNQFVLYVKLHRYHWFIQGSNFLTLHQQFENMYLKVAHDIDEIAERILMIDGKPLATMVKYLKESTLEEANADDEEQEIMQQLLQDLLQIIMEIKTQGLPKAVELNDSPTEDLLIDIQGAFEKYTWMLRAYLKQ PGPT0004055_1277 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047 NA NA AK015_03947 1911 mutL COG0323 DNA mismatch repair protein MutL ATGCGAATTATACAAATGCCAGATTCTCTCGCTAATAAAATTGCAGCAGGTGAAGTTGTTGAGCGTCCTGCATCCGTTGTGAAAGAGCTCGTTGAAAATAGTATTGATGCAAACAGCACTTGGGTGAAAATTGAGATAAAAGAAGCGGGTTTACAAGTTATTAAAGTAACTGACAATGGCGACGGGATGTTAGAAGAAGATTGTGAAACAGCATTCTTGAGGCATGCAACAAGCAAAATAAAGAATGAGACCGATTTATTTCACGTTCGAACCCTTGGTTTTCGTGGTGAGGCGCTTGCAAGTATAGCTTCTGTCAGCAAACTAACGGTCCAAACATCAACGGGAGAACACGCTGGTACTTGTTTAACTTTAGAAGGTGGTAAACTAATTGATAAACAGAAATCAGCTGCACGAAAAGGGACAGAAATTATGGTATCCGAGTTATTTTTTAATACGCCTGCACGTCTAAAATATATGAAAACCATTCATACAGAATTAGGGCATATTACAGATCTGTTAAATCGCTTGGCTTTGTCACATCCACAAATAAGATTTGAAGTCACACATAATGGGAAGAACATCTTTAAAACAGCAGGAACAGGTGATGTATTACAAGTTATTTCTCAGGTTTATGGAATGAATGTAGCGAAGCATATGTTACCTGTTAAGCACGAAACACTCGACTTTTCTATTGGTGGATTTATTGCAAAACCAGAAGTAACGAGAGCCTCTAGAAACTATATGTCAACCATTATTAATGGAAGATATATAAAAAGCGTTGCATTAAATAAAGCGATTATCCAAGGCTATCATACATTGTTGCCTATTGGACGTTCACCTATTGTTGTTCTTTCTATACAAATGGACCCTATTCTGGTAGATGTTAATGTCCACCCCACTAAATTAGAAGTGCGTTTTAGTAAGGATAAAGAATTATTTCAAGCAATTGAGCAAACCATTAAAGAAACATTTCGGGAAGCAACCTTAATTCCTGAAATGGAAAGTAAATCTGTACCTAAATCGAAGTCTATACAACATAGTTTTAATTTTACACCTTCTAGCTCAGAACTAGAACCGGATATTAGACAGTGGAATTACCCGGCTGGCGTTCGTGAACCAGTTGTTGAAAACAATTCATCTAAAGGGCTAAATGAGGCTGCTAGAAAGCAAGAAAGTAATCATATTGAGCTTGCTGACAACGAAATGGAGCCAACCCCCGTAGAGCGTGCACGTGAAATGCAGCAGGAAAAAGAGTATATAGATAGGAATGTGTGCACAGATACAGGTGAGAAAATAGCAGAACAAGAGAAAAACGAGAAAGTTGAACCACGTGTTCCGATTATGTATCCAATTGGACAATTACAAGGCACATACATTTTGGCGCAAAATGAAAATGGGCTGTACATGATTGATCAGCATGCTGCTCAAGAGCGAGTGAAATATGAGTTTTTTAAACAAAAACTCGGTCAGCCTATGAATAATTTGCAGCAATTACTCATTCCATTAACATTTGAATTTTCTAAAGAAGAAGCAATTTGGGTGGAGGCGTATAAAGAAACATTACAAGCAGCAGGACTTTTTTTCGAACCATTTGGTCAACAAACGTATGTTATTCGTTCACACCCCAGCTGGTTCCCTGCTGGACAAGAAGAAGCAATTATTCGGGAAATGGTTGAACAGCTAATAAAAGATGAGAAGATTGATGTGGAAAAGATTCGAGAAGAAGCGGCCATTTTAATGTCCTGTAAACGTTCTATTAAAGCTAACCATTATTTAAATGATGAAGAAATGACACAATTACTTGAACATTTACGACAAACTACAGACCCATTTACTTGTCCGCATGGAAGACCTATTATCGTTCATTTTTCAACTTATGAATTAGAAAAAATGTTTAAACGTGTGATGTGA MRIIQMPDSLANKIAAGEVVERPASVVKELVENSIDANSTWVKIEIKEAGLQVIKVTDNGDGMLEEDCETAFLRHATSKIKNETDLFHVRTLGFRGEALASIASVSKLTVQTSTGEHAGTCLTLEGGKLIDKQKSAARKGTEIMVSELFFNTPARLKYMKTIHTELGHITDLLNRLALSHPQIRFEVTHNGKNIFKTAGTGDVLQVISQVYGMNVAKHMLPVKHETLDFSIGGFIAKPEVTRASRNYMSTIINGRYIKSVALNKAIIQGYHTLLPIGRSPIVVLSIQMDPILVDVNVHPTKLEVRFSKDKELFQAIEQTIKETFREATLIPEMESKSVPKSKSIQHSFNFTPSSSELEPDIRQWNYPAGVREPVVENNSSKGLNEAARKQESNHIELADNEMEPTPVERAREMQQEKEYIDRNVCTDTGEKIAEQEKNEKVEPRVPIMYPIGQLQGTYILAQNENGLYMIDQHAAQERVKYEFFKQKLGQPMNNLQQLLIPLTFEFSKEEAIWVEAYKETLQAAGLFFEPFGQQTYVIRSHPSWFPAGQEEAIIREMVEQLIKDEKIDVEKIREEAAILMSCKRSIKANHYLNDEEMTQLLEHLRQTTDPFTCPHGRPIIVHFSTYELEKMFKRVM NA NA NA NA NA AK015_03948 2592 mutS COG0249 DNA mismatch repair protein MutS ATGGCAAAACAAACACCAATGATGAAGCAATATTTAAATATAAAAGAATCTTATAAGGATGCGTTCTTATTTTTTCGTTTAGGTGATTTTTATGAACTGTTTTTTGAGGATGCTATTCAAGCCGCAAGAGAGTTAGAAATAACGCTGACAAAACGGGATTCGAACAGTCCTAATCCTGTTCCAATGTGCGGGGTTCCTTATCATTCCGCGGAGAATTACATCAAAATTTTAATAGAAAAAGGCTATAAAGTTGCAATTTGTGAGCAAGTAGAAGACCCTAAAACAGCTAAAGGTGTAGTAAAACGGGAAGTGATTCAATTAATTACACCTGGGACGGTTATGGAAAAAGCCATGCTAAATGAAAAAGAAAACAATTATATTGCCAGTTTGTCTCATTTTGATAGCAGCTATGTATTAGTATATAGTGATTTGTCGACAGGTGAAAACCAACTGGCTTTGATTGAACATGGTTGGGACGGGGTAATTCATGAATTATATAATCAACCGATTAAAGAAATTGTTGTTTCCTCTAAGTTGCCTGAGGAATTACAACACCAGTTAAAATCGAGGCTACATGTTACTCTATCTTATCAGGATGAAGTGACCTTTAATGCAGAATATCGAAATTTATGTGAAAACATCGATGATGAAAGACTATTGACAGCTTTTAGCAGATTGCTAAATTATGTTCAACACACACAAAAGCGTTCGCTTGATCATATGCAACAAGCACAAGTTATTGCACTACAGCATCACTTATCATTAGATATGTATTCAAAGCGGAATTTAGAACTTACGGAAACGTTAATGAAAAAAGAAAAGTATGGTAGTTTACTATGGGTCCTCGATAAAACCGTTACAGCTATGGGATCCAGAATGTTAAAAAAATGGTTAGAGCGCCCGCTTTTAAACGCGCAGGAAATTGAAAAACGGCTTCATATTGTTGAAGGCTTTTATGCGCAGTTTATGGAGCGAGACGCAATAAGAGAAACGTTAAAATCGGTATATGATTTAGAAAGGCTTGCGGGACGAATTGCTTTCGGTAATGTCAATGCACGTGATTTACAACAACTGAAGAGTTCGCTACAAAGGATTCCGGTTCTGAAACAACTTTTACAACAATTCTCTCAGCAGGAACTTTATAAATTAGCAGACCATATATATATAGAACCCAAAATCATAGATATACTGGAAGCAAGCATCGTAGACGACCCACCTATTTCAATTAAAGAAGGCGGCATTATTAAAGACGGTTATAACGAGCAATTAGATACATATCGAGATGCATCAAGAAATGGAAAGCAGTGGATTGCTGAACTGGAACAAAAAGAAAAACAAGCAACCGGTATTAAATCATTAAAAATCGGTTATAATCGCGTGTTTGGATATTATATTGAGGTAACGAAAGCTAACTTGCATTTACTTCCTGAAGGGCGTTATGAAAGAAAACAAACATTAACAAATGCTGAGAGATATATTACACCAGAATTAAAGGAAAAAGAGCAGCTTATATTAGAAGCGGAAGAAAAGAGCGTCGAATTGGAATATCAACTTTTTATTGAAATTCGCGAACAAATTAAAGCGTTTATTCCAGAATTGCAACGTTTAGCTGAACAAGTAAGTTATGTAGATGTGCTACAAGGGTTTGCAACTGTGAGTGAATCTAACAATTATGTTCGCCCTACATTTGATAAACAAAAGTTGGAAATAAAACAGAGCAGGCACCCTGTGATTGAGCAAGTAATGGATGATGGCACTTTTGTACCTAATGATATTATTTTAGATGCACAAAATCATATTTTACTAATAACAGGGCCGAACATGTCAGGGAAAAGCACTTATATGCGTCAATTGGCATTAACTGTTATTATGGGACAAATAGGTTGTTTTGTACCTTGTGAATCGGCTCAACTTTTAATTTTTGACCAAATCTTCACACGAATTGGTGCTGCAGATGATTTAGTTGCTGGTCAAAGTACATTTATGGTGGAAATGCTCGAAGCAAATCATGCGATCACTAATGCGACTGAACAGAGCTTGATTTTATTTGATGAAATTGGGAGAGGGACAAGCACATATGATGGAATGGCTTTAGCGCAGGCAATCATTGAATATATTCATAATCATATCCAAGCAAAAACGCTATTTTCAACACATTATCACGAACTGACAGATCTAGCTAATACGTTATCTCACTTAAAAAATGTTCATGTTAGAGCGGAAGAGCATGAGGGGAATGTTGTATTTCTCCATCAAATTAAAGAAGGCCCTGCTGACGAAAGTTACGGTATCCATGTAGCTAAGCTTGCAAACTTACCTGATAGTTTAATTACTCGTGCTAGTGAAATTTTAAAAGAACTAGAAGGAAACATGGAGGCTAAATCTGAAGTCAAAGCGAAGACGGAACAAGCTGCTTCTGTCGAGGGGACGGGACAATTGTCTTTCTTTACCGAAGAAGAGAAGCCGGTTTCTAAACATAAGAATCAATATGAAAAAGTGGTACAAGAGTTAAAAGACATAGATTTATTTGCTTTAACCCCTCTAGAAGCGATGAATATGTTATATCAACTGCAAAAAAAGGCACGAAAATAA MAKQTPMMKQYLNIKESYKDAFLFFRLGDFYELFFEDAIQAARELEITLTKRDSNSPNPVPMCGVPYHSAENYIKILIEKGYKVAICEQVEDPKTAKGVVKREVIQLITPGTVMEKAMLNEKENNYIASLSHFDSSYVLVYSDLSTGENQLALIEHGWDGVIHELYNQPIKEIVVSSKLPEELQHQLKSRLHVTLSYQDEVTFNAEYRNLCENIDDERLLTAFSRLLNYVQHTQKRSLDHMQQAQVIALQHHLSLDMYSKRNLELTETLMKKEKYGSLLWVLDKTVTAMGSRMLKKWLERPLLNAQEIEKRLHIVEGFYAQFMERDAIRETLKSVYDLERLAGRIAFGNVNARDLQQLKSSLQRIPVLKQLLQQFSQQELYKLADHIYIEPKIIDILEASIVDDPPISIKEGGIIKDGYNEQLDTYRDASRNGKQWIAELEQKEKQATGIKSLKIGYNRVFGYYIEVTKANLHLLPEGRYERKQTLTNAERYITPELKEKEQLILEAEEKSVELEYQLFIEIREQIKAFIPELQRLAEQVSYVDVLQGFATVSESNNYVRPTFDKQKLEIKQSRHPVIEQVMDDGTFVPNDIILDAQNHILLITGPNMSGKSTYMRQLALTVIMGQIGCFVPCESAQLLIFDQIFTRIGAADDLVAGQSTFMVEMLEANHAITNATEQSLILFDEIGRGTSTYDGMALAQAIIEYIHNHIQAKTLFSTHYHELTDLANTLSHLKNVHVRAEEHEGNVVFLHQIKEGPADESYGIHVAKLANLPDSLITRASEILKELEGNMEAKSEVKAKTEQAASVEGTGQLSFFTEEEKPVSKHKNQYEKVVQELKDIDLFALTPLEAMNMLYQLQKKARK NA NA NA NA NA AK015_03949 564 hypothetical protein ATGTCTTTTTTAGATAAAGAATATAGAGAGATCATAACGAAAGCGGTTTGTGGCAAAGGTCGTAAGTTCTCGCAAGCAACCCATTCCGTTACACCATCACATAGACCTTCAAGTATTTTAGGTTGCTGGGTTATTAACCATTTGTATAATGCAAAGAAAAAATCACAAGATACTGTAGAGATAAATGGAAGTTACGAAATTAACATTTGGTATTCGTATAATGACAACACAAAAACAGAAGCTATTACCGAGAGGGTTACCTACAGCGATAAAGTACCATTATCGATAAAAGATGAAAACTGCTTAAATGATGACTTTGATGTAATAGCCAAAGTTGTTCAACAGCCTAATTGCTTAAATTGTACAATTGAAAACAAAGGGCATAAAATAGCAGTAGAGATTGAAAGGGAATTTATTGTCCAAATTATCGGAGATACAAAAGTTGCAGTTCGTGTGGATCCAAAGCGTGAATATGTTGATGATGACGAAGATGAAGTTTGGGATGTAGAACTTACAGATGACGAATTGGAAGAAGTAGAACCAGATTTCTTAAACAAAGATTAA MSFLDKEYREIITKAVCGKGRKFSQATHSVTPSHRPSSILGCWVINHLYNAKKKSQDTVEINGSYEINIWYSYNDNTKTEAITERVTYSDKVPLSIKDENCLNDDFDVIAKVVQQPNCLNCTIENKGHKIAVEIEREFIVQIIGDTKVAVRVDPKREYVDDDEDEVWDVELTDDELEEVEPDFLNKD PGPT0025155_66 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_COAT_PROTEIN,PGPT0025155-cotE-K06328 NA NA AK015_03950 429 ymcA COG4550 putative protein YmcA ATGGCAGAGTATACGCGCAAACAGGTGCTGGATGAAGCGAAAAAACTTGCGAATATGTTAGCAAATACAGAAGAAATTGAACATTTTAAGCAAGTGGAAGCGAAAATTAATGAAAATAAAAAAGTACAACAATTAATAACAAAGATTAAAGCATTACAAAAGCAAGCTGTTAATTTACAAGCTTATGAAAAACATGAAGCTTTAAAAAAAGTAGAGGAACAACTGGATATTTTTCAATCAGAAATTGATGCAATTCCTGTTGTACAGGAGTTTAAAGAAATACAAGTTGTTGTTAATGATGTTTTACAGTTAATTACTGCTACAATTGCAAGAGAAGTTACCAATCAAGTAATTGAATCTACAGGTGGCGATGTTTTAACTGGAGAAACAGGTTCGAAGATAAGAACAAAATCAGGTTGTAGCCATTAA MAEYTRKQVLDEAKKLANMLANTEEIEHFKQVEAKINENKKVQQLITKIKALQKQAVNLQAYEKHEALKKVEEQLDIFQSEIDAIPVVQEFKEIQVVVNDVLQLITATIAREVTNQVIESTGGDVLTGETGSKIRTKSGCSH PGPT0026336_39 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION CE-BIOFILM_REGULATORS CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA NA NA AK015_03951 1578 miaB COG0621 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase ATGAACGAGCAACAACGTAAGCAACAAGCACAAATTAAGGAAACAAATCCAACGGACGTAAAATCCGGTATGGATAATATGGAGCGTATTAAAAATACTTCTAGTGAAGATTTGATTTCCAAGTATTTCAAAACAACTTATGAACCACCGAATTTAAATAAAGCACGTAAACGTGGAAGAGATAAAGTGAATGTCCATTACGATTTTTCTATTCCCGAAGATATGGAAAATATTGGGGAAGGAAAGAAGTTTTTAATTCGTACATATGGCTGCCAAATGAATGAGCATGATACGGAAGTAATGGCTGGAATTCTTACCGAAATGGGTTATACATCTACTTCTGAAACAAATGATGCTGATATTATTTTGTTGAATACTTGTGCAATTAGAGAAAATGCTGAGAATAAAGTATTTGGTGAAATTGGACATTTAAAAGCGTTAAAACGAGAAAAGCCAGATTTGATCCTTGGTGTTTGTGGTTGCATGTCTCAAGAAGAAACTGTGGTGAATCGGATATTGAAGAAACACCAGCATGTTGATTTGATTTTTGGTACTCATAATATACATCGGTTACCACATCTTGTGAAAGAAGCAATGTTTGGTAAAGAAAAAATCGTTGAAGTGTGGTCTAAAGAAGGTGATGTCATTGAAAACCTTCCAAAAGCACGAAAAGGAAAAATAAAAGCATGGGTTAACATTATGTACGGTTGCGATAAGTTCTGCACGTATTGTATTGTACCAATGACCCGTGGAAAAGAGCGAAGTCGTCTTCCGGAAGATATCATCCAAGAAGTTCGGCATTTAGCTGCTCAAGGTTATAAAGAGGTAACCTTATTAGGGCAAAACGTAAATGCTTATGGAAAAGATTTAGACGGCATGACATACGGTTTAGGTGATTTAATGGATGAACTTCGCAAAATTGATATCCCAAGAATTCGCTTTACGACATCACACCCTAGAGATTTTGATGATCGCTTAATTGAAGTATTGGCAAAAGGGGGGAATTTGTTAGATCATATTCATTTGCCAGTCCAGTCAGGCAGTAGTGAAATTTTGAAGAAAATGAATCGGAAATATACGAGAGAATCGTATTTAGAACTCGTTAGGAAAATTCGCGCAGCGATGCCGAACGCAACGTTAACGACAGATATTATTGTTGGATTTCCAAACGAAACGGAAGAGCAGTTTGAAGAAACGATGACCTTAATGGAAGAAGTTGGTTTTGAAGCAGCTTACACCTTTATTTATTCACCACGTGAAGGGACTCCTGCAGCTAGGAAGAAAGATAATGTTCCAGAAGAGGTAAAAAAGCAACGACTATATCGCTTAAATGAGCTTGTCAATAAGCAGTCTGCTGCGTCTATGAAAACGTATCAGGATCAAGTCGTAAAAGTACTTGTAGAGGGTGAAAGCAAAAAAGATCCAGAAGTTCTAGCGGGGTATACGGAAAGAAATAAACTCGTTAACTTTAAAGGACCAAAGGCTGCAATTGGGCAGATTGTAGACGTGAAAATTACAGAAGCTAAAACATGGTCTTTAGATGGTGTTATGATTGAAAATACAGTAGGGGTGAAATAA MNEQQRKQQAQIKETNPTDVKSGMDNMERIKNTSSEDLISKYFKTTYEPPNLNKARKRGRDKVNVHYDFSIPEDMENIGEGKKFLIRTYGCQMNEHDTEVMAGILTEMGYTSTSETNDADIILLNTCAIRENAENKVFGEIGHLKALKREKPDLILGVCGCMSQEETVVNRILKKHQHVDLIFGTHNIHRLPHLVKEAMFGKEKIVEVWSKEGDVIENLPKARKGKIKAWVNIMYGCDKFCTYCIVPMTRGKERSRLPEDIIQEVRHLAAQGYKEVTLLGQNVNAYGKDLDGMTYGLGDLMDELRKIDIPRIRFTTSHPRDFDDRLIEVLAKGGNLLDHIHLPVQSGSSEILKKMNRKYTRESYLELVRKIRAAMPNATLTTDIIVGFPNETEEQFEETMTLMEEVGFEAAYTFIYSPREGTPAARKKDNVPEEVKKQRLYRLNELVNKQSAASMKTYQDQVVKVLVEGESKKDPEVLAGYTERNKLVNFKGPKAAIGQIVDVKITEAKTWSLDGVMIENTVGVK PGPT0007215_205 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION PHYTOHORMONE-CYTOKININ_METABOLISM PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168 NA NA AK015_03952 702 ywqD COG0489 Tyrosine-protein kinase YwqD ATGTTACGCGGAAAAAATCCGTCTAGAACAGGAACAAAAATTCGTCATTTAATTGCCAAATTAAATCCAAAATCACCTATTTCTGAACAATATCGTACGATTCGTACAAATATAGATTTTGCTTCTGTCGATGATGAAATCCGTTCCTTGCTCGTAACGTCATCAGGTCCTGCGGAAGGTAAATCTATGACGATTGCTAATTTAGCTGTTGTGTACGCTCAACAAGGAAAAAAAGTGCTGTTAGTTGACGCTGACTTACGTAAACCGACAGTACATTATACGTTTCGCATCGATAATTTACGGGGGCTGAGTAATCTATTAGTTGGAGAGAATTATATAGAGCAGGTGATTCAGCAAACGGATGTGGAGAATTTAGATGTCATGACTTGTGGCCCAATACCACCAAACCCCTCCGAATTACTTGCTTCTAAGAAGATGGAAAACTTACTAGAAGATTTAAAGGGAATTTATGATATGGTTATTTTCGACATGCCTCCAGTTTTGGCTGTGACCGATGCGCAAATTATGGCGAACATTGTAGATGGTTCGATTCTTGTCGTTCGCAGCAAGCATACTGAAATCGAAGGCGCGCAAAAAGCGATTGAAGCATTAAAGCCTGCTAAAGCAAAACTTTTAGGTGCTGTGCTTAATGACCGTGAAAAGAAACAGTCCAATTATTATTACTATTACGGATCAAAATAA MLRGKNPSRTGTKIRHLIAKLNPKSPISEQYRTIRTNIDFASVDDEIRSLLVTSSGPAEGKSMTIANLAVVYAQQGKKVLLVDADLRKPTVHYTFRIDNLRGLSNLLVGENYIEQVIQQTDVENLDVMTCGPIPPNPSELLASKKMENLLEDLKGIYDMVIFDMPPVLAVTDAQIMANIVDGSILVVRSKHTEIEGAQKAIEALKPAKAKLLGAVLNDREKKQSNYYYYYGSK PGPT0026560_2168 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554 NA NA AK015_03953 765 ywqC COG3944 putative capsular polysaccharide biosynthesis protein YwqC ATGGAAGAGACGATTTCCTTAAAGGAGATATTTGCTGTCTTAAAAAAGCGAATGTTGCTTATTTTAGCTTGTATATTTGGGGCTGCGGTGATTGCTGCTGTCGTTAGCTATTTGGTGTTGACACCAACATACGAAGCAAATTCTTCCTTTATCGTTAACCAAAGCCAGCAAGATGCGGAAACGCCATATAATGTTAATGACATACGAACAAACGTGGAACTCATTAATACATATAATGTCATTATTAAAAGTCCACGCATTTTGAGTCAGGTAGTAGACGAACTTGGCTTGGACATGACAAGTGAGCAGTTAGCTCAAAAAATTCAAGTATCTAGTGAAGAACAGTCACAGGTTGTGACGGTAACTGCTACGGATGAAAGTCCTGAACGTGCAGTTGAAATGGCAAATACGACGGTTACAACATTTCAAAATGAAATCCCAGAACTCATGAATGTCGACAATGTGAATATTTTGTCGGAGGCAGAACTTGGAACAAATCCGTCTCCTGTTTCACCAAACCCAATGTTAAATACAGCGATTGCGATTGTGCTCGGTGCAATGATTGGTGTTGGAATTGCATTCTTATTAGAGTACTTGGATAACACCATTACGACCGAAGACGACATTGAGCAGCACCTTGGTATTCCTGTTCTCGGTGCGATTTCAACTGTTCAGGAAAAGGATATTAGCGACCAACAAATCCGCCCACAACCAAGAAACCTGGAGAGGGGGAACCAACATGTTACGCGGAAAAAATCCGTCTAG MEETISLKEIFAVLKKRMLLILACIFGAAVIAAVVSYLVLTPTYEANSSFIVNQSQQDAETPYNVNDIRTNVELINTYNVIIKSPRILSQVVDELGLDMTSEQLAQKIQVSSEEQSQVVTVTATDESPERAVEMANTTVTTFQNEIPELMNVDNVNILSEAELGTNPSPVSPNPMLNTAIAIVLGAMIGVGIAFLLEYLDNTITTEDDIEQHLGIPVLGAISTVQEKDISDQQIRPQPRNLERGNQHVTRKKSV NA NA NA NA NA AK015_03954 1125 lytE putative peptidoglycan endopeptidase LytE ATGAATAATAAGAAAATGTTAATGTCTGTAACAGCAGGAGCAGCAATTGCATCAATCATTTTTACCGCAGAAGAGGCTGAAGCCGCATCCTATAAAGTAAAAAACGGTGATTCTTTGTGGAAGATTGCCCAAAAGTATAATACAAGCGTTTCAGAACTAAAATCGATCAACAACTTATCTAGTAGCTTAATCTTTCCTAACCAAATCATTGAAACAACCAAGAATGGAGGTTCTTCCAACCAGTCCAGTTCAAATAATTCCAGTACTAATTCCAATAACTCGAATAGCAGTTCTAGCAGCAATGCCAAGACATACACTGTAAAACGCGGTGATACATTGAGTGGCATAGCTTTCAAACACAATATATCTATACGAAACCTAATGAAATGGAACAATTTGAATTCCACGCTCATCTACCCTGGCAATGTTTTCGTAGTGAGCAAAAATGGGACAAGCAGTAATACGGGATCATCAAGCAGCAATTCAGGTGGAAATTCAAGCTCTGGAAGTAGCTCATCAAGCGGATCTAATAGTTCTTCAAAGACGTATGTTGTTAAATCCGGTGACACGCTATCTCAAATCGGAGCAAAATATAACGTATCTGTATCCAATTTAAAACGCTGGAACAACTTGCGCTCAGATCTCATTTTCGTTGGTCAAAAGCTTCATATCGGCAAGAACGCAAACTCTAATTCCAACAGTTCCAACGGGTCATCAGGTGGAAATAACGGGAGCGGCTCAACTGGAAACGCGAACGTAGATTTCAATGTCAATAAAGTCGTTAGCACTGCCAAAAGCTTTCAAGGCGTACCTTATGTTTGGGGCGGATCAAGCCCTTCTGGATTTGATTGTAGCGGCTTCATCCACTACGTCTACAATAAAGGTGGAAAAAGCATGGGTCGCACATCTAGTGACGGGTATTACAACAGATCCTATCACATTAACAATCCAAAAGTAGGCGACCTTGTCTTCTTCGCAGGCACCTACCGCCCAGGAATCTCGCATCTAGGCGTTTATTTAGGAAACAATAATTTCATTCACGCAGGAGCAAATGGCGTAGAAATTAGTAATCTAAATAACTCCTACTGGAAAAGCCATTTCGATAGCTTTAAACGTTTTTATTAA MNNKKMLMSVTAGAAIASIIFTAEEAEAASYKVKNGDSLWKIAQKYNTSVSELKSINNLSSSLIFPNQIIETTKNGGSSNQSSSNNSSTNSNNSNSSSSSNAKTYTVKRGDTLSGIAFKHNISIRNLMKWNNLNSTLIYPGNVFVVSKNGTSSNTGSSSSNSGGNSSSGSSSSSGSNSSSKTYVVKSGDTLSQIGAKYNVSVSNLKRWNNLRSDLIFVGQKLHIGKNANSNSNSSNGSSGGNNGSGSTGNANVDFNVNKVVSTAKSFQGVPYVWGGSSPSGFDCSGFIHYVYNKGGKSMGRTSSDGYYNRSYHINNPKVGDLVFFAGTYRPGISHLGVYLGNNNFIHAGANGVEISNLNNSYWKSHFDSFKRFY PGPT0024005_58 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 AK015_03955 1401 pgl_2 6-phosphogluconolactonase GTGCGTATGGACACGTTACCTGAAATGATAATGTATATTGGAACCTATGGAGACGGGATAGATAATACAATACATTTGCTGAAATGGAATCCTACCAATGCTTCACTGAAGACAATCGCTTCTATTAAAGGAGTGAAAAACCCCTCCTTTTTATCTCTTAATCAACAACGAAATATGCTCTATGCCATAAGCGAAGTAGAGGAAGGAAAGGTTATTTCATTTTCTGTAGAGGAAGAAAGTAGTTTACTTAAGCAAATATCAAGGAATAAGCAGGCAAAAAACAAAGAACATTCGCCAGGTGGAGCTAGACAACAGGGAAATGATTTTTTTAAACGAAGCAACGATAAACAAGAAAAACAAGGTTGGAAAGATTTAAGCCAATTTTTATGGGAAGATTTACAGAGCGAATCAAATTGGGAGCAAAGTGAGAAACGCTCAAGTGATGTTGATGGTGAACGTATAGGAGATATACAAATAGATCATTATGAAGAAAAAGAGAGATTATCAAAGCAGCCGAAAAATGAACAGAATAAAAATCTAATAAATCAGACTAGTCATCAATTATGCGGTAACGGACCTTGTTATGTGATGGTTGATGAATTAGATTGTTACTTATTTAGTATAAATTATGGGGATGGCTCCTTGTCAGTATTTACATTGCTATCTGATAATACAATTGGTCCATTATCTGATTCCGTAATTTATAGAACGGGATCTCGACCACATGCAATCGTTCAAATCCCACAAACATCTAAATTTGTTGTCACCGACTTAGGATTAAACCGCATTTATTTGTACTCGTTTTATGATGGGCAATTACGGTTGTTATATGATCTGGAATTAGATTCATTCGTTGGGCCTAGGCATCTTACTGTTTCAACTACATTTCGCAAAATCTACATAGCAAATGAATTGAAATCCACTGTAACAGTCCTGCGTTATAATGAAGCGATTACGCATCTAGAAACTGTACAAGAAATGAATACACTTCCTCCTAATTTGTGGGAGCTGGAAGTGGAGGAGAGAAAAAAATTAGCTAGTAAAGACCAAGATCTTCAACAAGAGAATAGCTTCCGCCCAATTACAAATTATGGAGCAGATATTCATTTAGCTTCCAAAAAAGCTTTTTTATATGTTTCAAATCGTGGTCATAATAGCATTTCGGTATTTCGAGTACAAGAATATGGATATTTATCATACGTAGGTAATGTTTCTACAAACGGAGCGTGGCCACGAAATTTTGCTATCTGCCCTAACGATCAGCATTTGTTTATAGCTAATGAACAAACGAATAACATCGTTGTTATGAAAATTAACGATGATGGAATTCCAGAACATATAGGGATGGAGTACTTTATTTCATCTCCAGCCTGCGTAAAAGTATATGAAATAGAGGGTTAG MRMDTLPEMIMYIGTYGDGIDNTIHLLKWNPTNASLKTIASIKGVKNPSFLSLNQQRNMLYAISEVEEGKVISFSVEEESSLLKQISRNKQAKNKEHSPGGARQQGNDFFKRSNDKQEKQGWKDLSQFLWEDLQSESNWEQSEKRSSDVDGERIGDIQIDHYEEKERLSKQPKNEQNKNLINQTSHQLCGNGPCYVMVDELDCYLFSINYGDGSLSVFTLLSDNTIGPLSDSVIYRTGSRPHAIVQIPQTSKFVVTDLGLNRIYLYSFYDGQLRLLYDLELDSFVGPRHLTVSTTFRKIYIANELKSTVTVLRYNEAITHLETVQEMNTLPPNLWELEVEERKKLASKDQDLQQENSFRPITNYGADIHLASKKAFLYVSNRGHNSISVFRVQEYGYLSYVGNVSTNGAWPRNFAICPNDQHLFIANEQTNNIVVMKINDDGIPEHIGMEYFISSPACVKVYEIEG PGPT0014975_13 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 AK015_03956 1908 hypothetical protein ATGAAACTAGCACTATATGGTGAATTAGAAGAAATTCTTGAGGGTGCTCACTTATTACAAAAAAAATTAGGAATTGAAATAACGAGTGACGGTACTCCTGTTAGAGTAAGGCGTATGAATAACGCTGAACAAGGTTTAACTGTTTCTTTGTCCAAAGGTGAAGGCGAGATTGTGTACAGTGAACGAGTGACATTTTTTAGAGGTTTAGGTTTATTTGTTGAACATGTAAAGGATAAAGAAGAATTTCATCTAGAAGAACACCAACAATTTGATACGATAGGTCCCATGTTTGATTTATCTCGAAATGCAGTGATGAAGGTAGAGACATTTAAAGAAATGTTCCAAACGCTTGCTTTGATGGGATTCAATGCCACGATGTTGTATATGGAAGACGTCTATGAAATTAAAAGTCAACCATATTTCGGTTATATGCGTGGGCGTTATTCGCAAGAAGAGTTGAAAGAATTGGATGACTATGCGTATCGATTTGGGATTGAAATAATACCTTGTATCCAAACTTTAGCCCATTTAGAAGAATTTTTAAAATGGAGCACAACTGCTCATTTGAAAGATACACGTGGAGTTCTACTTGTAGAAAATGAAGCGACGTACGATTTAATTGAAGATATGATTCAAACACTACGTCAATCTTTTCGTAGTCATCGAATTCATATTGGCATGGATGAAGCAGAAGAACTGGGCAGAGGAGTTTATTTAAATAAATACGGGTATAAAGATCGCCTGCTACTAATGACGGAACATATGACAAGAGTACTAAAGATTACGCAACAATACGGCTTTGAGCCAATAATGTGGAGCGATATGTTTCTAAAACTTGCATCTAAAACCGGAGAATCACATTATGATTTGACAACAGAAATCCCTCAGGAAATGATTGATGTAACCCCAGAAAATGTGACGATGATGTATTGGAATTATGCACATACAAATAAAGATGACTATGTGTCCATGCTAAGAAAGCATAAGGATTTTGGCAAACAACCAGCCTTTGCGGGTGGGGTTTGGGTTTGGAATACTTTTGCTCCTAATTACAATATTTCCTTGCGGGCAAGTCAAGCTGCTCTCGAGGCATGTAAAGAAGAGGGAATTCATGACATCTTTGTTACACTCTGGGGAGATGATGGATTTGAAAATAACTATTATACTGCGCTACTCGGTTTACAAATGTACGCAGAACATGCTTATTCCAAAGAACTTGATCAGGAGAAACTTAAGGAGAGAGTGAAATTCTGTACGGGAATGGAAGCGGAACACTATCTGCTGCTTAATCAATTGGACACTCCTCCAGGGGTTGAAGAAGGAAATGTTGAGCAAACAAACCCATCCAAATTTTTATTATGGCAGGATGTTCTACTTGGCTTATTTGACAAGCATGTGGAAGGATTGGATCTAGCGAATTACTATACAAATTTAGAATGGCGAATCAAGCAAATAAGGAATGTTGAGCTTACATTGGACTATATATTTGAGGTACCAGAGAAACTAGCTGCAGTATTAGCATTAAAAGCTACGATTGGTGTTCAATTGAAGGCAGCCTACGATACTGGAGACATAAAGGAACTAGAACGAATAGCTACGAATGTTTTACCGGAGATTTTAAATGAGGTGGAAGCATTGCGAGCAGCTCATCGAATACAGTGGCTTCGCATGCATAAACCTTTTGGTTGGGAAGTTATAGATATACGTTATGGAGGCTTGAAAAATAGATTAGACACGGCAATTTACCGAATTCAAGCCTATATTAATGGCCAAACTGATCGAATTGAGGAATTAGAGGAAGAACGACTTTATTATCATGATATAACAACCTCAAGCGGTTTAGGATGGTCTAGCTACTATTATCGTATCGCTTCTCCTAATGTGTTTTTTCATGTACTTCCAATTTAG MKLALYGELEEILEGAHLLQKKLGIEITSDGTPVRVRRMNNAEQGLTVSLSKGEGEIVYSERVTFFRGLGLFVEHVKDKEEFHLEEHQQFDTIGPMFDLSRNAVMKVETFKEMFQTLALMGFNATMLYMEDVYEIKSQPYFGYMRGRYSQEELKELDDYAYRFGIEIIPCIQTLAHLEEFLKWSTTAHLKDTRGVLLVENEATYDLIEDMIQTLRQSFRSHRIHIGMDEAEELGRGVYLNKYGYKDRLLLMTEHMTRVLKITQQYGFEPIMWSDMFLKLASKTGESHYDLTTEIPQEMIDVTPENVTMMYWNYAHTNKDDYVSMLRKHKDFGKQPAFAGGVWVWNTFAPNYNISLRASQAALEACKEEGIHDIFVTLWGDDGFENNYYTALLGLQMYAEHAYSKELDQEKLKERVKFCTGMEAEHYLLLNQLDTPPGVEEGNVEQTNPSKFLLWQDVLLGLFDKHVEGLDLANYYTNLEWRIKQIRNVELTLDYIFEVPEKLAAVLALKATIGVQLKAAYDTGDIKELERIATNVLPEILNEVEALRAAHRIQWLRMHKPFGWEVIDIRYGGLKNRLDTAIYRIQAYINGQTDRIEELEEERLYYHDITTSSGLGWSSYYYRIASPNVFFHVLPI PGPT0012150_1944 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373 NA NA AK015_03957 837 gbpA GlcNAc-binding protein A ATGATGTCAAATAAAATGAAGTTAACGGTAGGCGTTGGAATTGTATTGGTTAGTTTATTTGCTTTTGCTATTAGCATTTCTGCACATGGATATGTTAATGAGCCAAAGAGCAGAGCTTTATTATGTGCTGAAGGTGCGAACTATAGTTGTGGATCCGTTATCTATGAACCTCAAAGTTTGGAAGCACCAGGTAATTTTCCAGAAGGTGGCCCAGCAGATGGAAGAATTGCCAGTGCTGACATTTTCCATGAATTAGATGAACAAACAAGCGACCGTTGGGCAAAAGTTCCAATAACTAGTGGACCTTTTACATTTGAATGGAGCTTAACAGCTGCGCATGCAACAGATAAATGGGATTATTATATTACCAAAGAGAACTGGAATCCTAACGAACCGCTAAAGCGATCTGATTTTGAGAAATTTTGTACCGTTGACGATAATGGCGAGCGCCCGCCTTTTACAGTAAACCATGATTGTGATATACCAGAGCGAACAGGCTATCATGTCATTCTCGCTTATTGGGAAGTAGCTGATACAGCAAATGCGTTTTATAACGTAATAGATGTGAATTTTGACGGTGATTATGTGGAACCAGGAAATCCAGGTGATCCTGAGGAACCGAATCCAGGCGAACCTCCTGTCTGGAAGGAAAATCAGGTGTATTTAGGTGGCGATCGTGTTACGTATGATGGCTCCGTCTATGAAGCTAAATGGTGGACACGTAATGAAATACCTGGGGAAGCAAATGTATGGGAATTTATTAGAAATGTCGCTACCTCTAACCAAGAAAATTCTCAGTCTTCTTTTGATTCTCCTTTAGTCTTCTTTAACTTTTGA MMSNKMKLTVGVGIVLVSLFAFAISISAHGYVNEPKSRALLCAEGANYSCGSVIYEPQSLEAPGNFPEGGPADGRIASADIFHELDEQTSDRWAKVPITSGPFTFEWSLTAAHATDKWDYYITKENWNPNEPLKRSDFEKFCTVDDNGERPPFTVNHDCDIPERTGYHVILAYWEVADTANAFYNVIDVNFDGDYVEPGNPGDPEEPNPGEPPVWKENQVYLGGDRVTYDGSVYEAKWWTRNEIPGEANVWEFIRNVATSNQENSQSSFDSPLVFFNF NA NA NA NA NA AK015_03958 711 mngR COG2188 Mannosyl-D-glycerate transport/metabolism system repressor MngR ATGAAATTAACAATGAAAAAAGGGCCACTATACTTACAAGTACAGGATATCTTAAAAGAGCGTATTATTAATGGTGTGTACCCAAAAGGTGAACTAATTCCTTCAGAACTAGAGTTGAAAGATGAATTTGAAGTTAGTCTAATTACAGTTCGTCGAGCGGTAGAGCAGCTTTCTAACCAAGGATATGTAGAAAAGAAAAGTGGTATAGGAACGATTGTATTAGACAATCATGCTGTTTCAAAACTATCTAAAGGACAACGATTTTCAGAATATTTGATTAGTCAGGGGTTTAATCTTAAAAAGGAATTCGCTTCGCTCAAAATAATAAAGACAACAGAAGGTTCCATACTGGAAAAAAATTTTGGCAAACAATGTTATTGCTTAGAACGGCTATACACCTTGGAGGAACGGCCATACATTCACTTTAACCATTATATACCAATTACTGTAATTTTACCTGATGAACCAGAACAATTATTAAACTCCTTATATGAGATACTCTTTCAACAAGGCATTAAATTTAATCAGTTTAAAGATGAATTTGCAGTAGAAGTACCTGAGGCGACTATTGCTGATAGATTACAAGTAGAATCTAAACCGCTTTTACAAAGAATTAGGTATTCCTATGATCTTAATGAACAATTATTTGAGTATTCCGTAGCATTTTATAATACATCTGTGCACAAGTATGTAGTTAACTTTGATGTGTGA MKLTMKKGPLYLQVQDILKERIINGVYPKGELIPSELELKDEFEVSLITVRRAVEQLSNQGYVEKKSGIGTIVLDNHAVSKLSKGQRFSEYLISQGFNLKKEFASLKIIKTTEGSILEKNFGKQCYCLERLYTLEERPYIHFNHYIPITVILPDEPEQLLNSLYEILFQQGIKFNQFKDEFAVEVPEATIADRLQVESKPLLQRIRYSYDLNEQLFEYSVAFYNTSVHKYVVNFDV NA NA NA NA NA AK015_03959 1014 kdgK_2 2-dehydro-3-deoxygluconokinase ATGAAAGAAGTCAATTCTATGATTAAAGCATTTGGAGAAGTAATGATGCGTTTGGAAGTACCAAACCATTTAAAGCTAGAGCAAGCAACTGAATTGGGCGTATTATATTCTGGAACAGGTATCAATGTGTTAAGTGCAATGAGCAGATTTGGACATTCAACATCGATTATTACAAAGTTACCGGATAATGCCTTAGGTGATGCAGCTATATCGTATATTCGTTCATTAGGTATTGAAACTTCAGACATCATTACAGGCGGAAATTATTTAGGCATGTATTTTTTAGAGAAAGGTTACCATGTGCGAAAGACAAACGTAACGTATTCCAATCGCAAGGAGAGTAGTTTTTGTACGTCCAAAATCACGGACTATAATGTAGAAGAAGTATTAAGAGGTACATCCATCCTGCATTTATGCGGTATCATGCTCTCCATTTCTGAACAAATGCGTTATAATGCATTGACTATAGCAAAAAAAGCAAAGCAATTAGGAATAACCGTTGTATTTGATTTTAATTATCGTCCCAAGTTGTGGCAGGAAGATTTTACACAGGCAAAAAAATGGTATGAATGTATGCTCGCTTATGTAGATATTTGTTTTATGACAGATATGGATGCCTTGTTTATTCTTCGTATGGAATCAACTGAAAAAAGTCGAAAGCAAAGAATGAAACAATTGATTCCTGAAGTAGCTAAAAAATATAATGTAGCAACGATTGCAGGAAGCCTAAGGGATCAGGAAAATCAGCAAATATGCGGTTTTTTGTATCAACAAGATGTGATGTATTTCTCGCGGACATATCAATACCAAGTACTTGATCGAATTGGTTCTGGAGATGCATATGCGAGCGGTATTCTCCATGGCATATTGAAGAAATTTACAGACGAAGATACAGTTGATTTTGCGACTGCAGCCTGTGTGCTTGCACATACAACTTACGGAGATTCTCCTATCTGTTCTGAAGAAGAAATTTGGCTTTTAGCTAAGCAAAATAATGTGCAAATAGAAAGGTAG MKEVNSMIKAFGEVMMRLEVPNHLKLEQATELGVLYSGTGINVLSAMSRFGHSTSIITKLPDNALGDAAISYIRSLGIETSDIITGGNYLGMYFLEKGYHVRKTNVTYSNRKESSFCTSKITDYNVEEVLRGTSILHLCGIMLSISEQMRYNALTIAKKAKQLGITVVFDFNYRPKLWQEDFTQAKKWYECMLAYVDICFMTDMDALFILRMESTEKSRKQRMKQLIPEVAKKYNVATIAGSLRDQENQQICGFLYQQDVMYFSRTYQYQVLDRIGSGDAYASGILHGILKKFTDEDTVDFATAACVLAHTTYGDSPICSEEEIWLLAKQNNVQIER PGPT0018060_1021 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 AK015_03960 1110 dgaE D-glucosaminate-6-phosphate ammonia lyase TTGTGTGCGACGAAAATGAAATTGAAGCAAGTTATTAATGCGAGTGGAAGAATGAGTATATTAGGGGTATCTACTTTGTCAAATAGAGTAGTTCATGCAATGCAGGAAGGCGCACAACATTACTATGAAATGGAAGAATTGCAACGAGAAGCAGGTAAAAGGATAGCAAACTACTTGGATACAGAGTCAGCAATGGTTACGAATTCTGCTTCGTCGGCTATCGTATTAGCGGTTGCAGGGCTTGTAACAGAAAATAACCTATATCAAATAGAACATTATCTAAAGGTAAATCAACCTAAAGCGCATGAATTCATTATCATGATGGGCCACTTAGTTGACTATGGGGCACCAGTTCAAACAATGATTCAACTAGGAGGTGGTAAGTTAAAAATAGTAGGGTATGCAAATGGATGCTCGTTGGATCAAATTGAAACTGCGGTTACTGAACAAACATCTGGGATATTTTTTGTTCAATCTCATCATTGTGTGCAAAAAAATATGCCTTCAATAGAAGAGGTTAGTAAAGTAGCCAAACGTTTACGTATACCATTCATTATAGATGCAGCTGCAGAAGAAGTGTTTTCCCCCTATGTAAAGTATGCAGATCTATTCATTGTCAGTGGTTCTAAAGCAATTGCTGGGCCAACCTCAGGTATTTTAGCTGGAAAAGAAAAATATGTGTCCTATGCAATGAAACATCTTCGAGGGATTGGTAGAGCAATGAAAATTGGTAAGGAATCCATATTTGGCTTAATACAAGCAATGGCAGAATATCAAGAAATCGACTCTGATTCGGCTCATAAAAATCAGTGGATGATTTTAGAGAAATTGAAGGCGTTAGATGAATTGCCTGGGATAAAGGTTGCTGTTAATCAGGATGAGGCTGGGAGAGATATTTATCGCGCTCGAATTTATGTGAATAATGAAATAGCTGTTTGTAGTGCTACACAGATTACACAAGCTTTAAAGGAAGGAAAGGTTGCTATTTATACACGTGATTATCAAGTGAATAATGGTTATTTTGAGATAGATCCAAGACCTTTAAAAGAAGAGGATATTCCAGTCATTATAGCTAGAATGCAACAAATTCTAGCTAGTAAAAAAGTCTAA MCATKMKLKQVINASGRMSILGVSTLSNRVVHAMQEGAQHYYEMEELQREAGKRIANYLDTESAMVTNSASSAIVLAVAGLVTENNLYQIEHYLKVNQPKAHEFIIMMGHLVDYGAPVQTMIQLGGGKLKIVGYANGCSLDQIETAVTEQTSGIFFVQSHHCVQKNMPSIEEVSKVAKRLRIPFIIDAAAEEVFSPYVKYADLFIVSGSKAIAGPTSGILAGKEKYVSYAMKHLRGIGRAMKIGKESIFGLIQAMAEYQEIDSDSAHKNQWMILEKLKALDELPGIKVAVNQDEAGRDIYRARIYVNNEIAVCSATQITQALKEGKVAIYTRDYQVNNGYFEIDPRPLKEEDIPVIIARMQQILASKKV PGPT0004815_1690 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004815-selA-K01042 NA NA AK015_03961 1122 COG3964 Deacetylase ATGCTAAACATCAGTGGTGCATCGTTATTAAATAATAAAAAATGTAATATAAAGATTAAGGATGGGTATATTCACTCTGTTACAAGTTTAGATAAGTATGATGGAGATGCTATTTCCGTTCCAGAAGGAGTATATGTTTCTCCCGGCTGGATTGATCTGCATACGCATGCTTATCCTCGTTTTGAACCATATTGTTCTCATCCAGATAAAATTGGTTATAAATCAGGTGTTACGACAGTTGTAGACGCAGGAACATGCGGTGCAAATAATATTGAACATCTATGTAAAATAGCCAAAAATAGTAAAACAAGCGTCTTCTCTTTTTTAAATATTGCTCAAAATGGCTTGGAAGTACGTAATGAGTTGGCAAACTTAAAAAATATTTCATGGGAAAAAATACGAGACTCCTTTCAAGCTTATCCAGATCTACTTGTAGGCTTGAAAGTTAGGATGAGTAAGAGTGTAGTAGGTGAAAATGGTTTAGAACCGCTAAAAATAGCAAGGAAATATGGGGAGCTATTAAATAAGCCGTTGATGGTTCATATTGGTAGTTTTCCTCCAAAATTAACGGATATTTTGGATTTGGTAGAAAAAGGTGACGTGATAACACATTGCTTTCATGAGAAGGAAGGAAATACTATCTTTAATCATGAGCAAATGATTCATCCCTCTTTATATCAAGCGGTGAGGCGTGGTATTTATTTGGATGTTGGACACGGAACTTCTAGTTTTTCTTTTCATATTGCTCAACAAGCAAAGGCTAAACATTTACCTTTTCATTCAATTAGTACAGATATTTATGAAAAAAATCGGCTTCATGGTCCTGTTTATGATATGGCGACGACATTAAATAAGTTTTTAGCATTAGGTTATAGGTTAGAAGAAGTAATTCAGAAAGTAACCGAAATGCCTGCAACAATCCTGCAAAAACCAGAACTTGGTAGTCTAGCAAAAGGAACGGTAGCAGATCTTACTTTCTTTACAGTTGAAAAAGAACAACTTGAATTAGAAGATACCTATGGGAAAAAGTTTACAACAGTTAAGCGAATAAAACCATATGCTGTGACGCTAGGGGGAGAATATATTGTGTGCGACGAAAATGAAATTGAAGCAAGTTATTAA MLNISGASLLNNKKCNIKIKDGYIHSVTSLDKYDGDAISVPEGVYVSPGWIDLHTHAYPRFEPYCSHPDKIGYKSGVTTVVDAGTCGANNIEHLCKIAKNSKTSVFSFLNIAQNGLEVRNELANLKNISWEKIRDSFQAYPDLLVGLKVRMSKSVVGENGLEPLKIARKYGELLNKPLMVHIGSFPPKLTDILDLVEKGDVITHCFHEKEGNTIFNHEQMIHPSLYQAVRRGIYLDVGHGTSSFSFHIAQQAKAKHLPFHSISTDIYEKNRLHGPVYDMATTLNKFLALGYRLEEVIQKVTEMPATILQKPELGSLAKGTVADLTFFTVEKEQLELEDTYGKKFTTVKRIKPYAVTLGGEYIVCDENEIEASY PGPT0021145_5830 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465 NA NA AK015_03962 618 yesV_2 COG5578 putative protein YesV ATGCATTCCTTTGTAATTGGCTATTATCGATTTTCTGTTTGGGCAGTTAGACTCGCATATGTGAATTTATGCTGGATATTATTCACATTTTTAGGTATCGTCGTTTTTGGTTTTATGCCAGCCACAAGTGCAATGTTTGTCGTTGTGCGTAAATGGATGCACGGTGAAGAGGATGTTCCAATTTTTCATACCTTTTGGAAAGAATATCGAACTAATTTTTTTCGTACGAACAGTCTAGGGCTCATTTTTATGTTTTTAGGTTATTTTCTTGTTATAGAATTTAACATTTTACGTACACAGGAAAGTTTCATTTATTATATTGTCAGCTATTCCGTACTTGGAACTTTACTGCTTTGCATCGTTGTTTGGTTATACTTCTTTCCAATATTTGTTCATTTTGATTTAAGCTGGATTGATTACTTAAAGTGGCCTTTCATTATTGGGATTAGTCATCCTATTTTAACTGCTTTTATCTTTGGTGTTCTCGGTGTTGTCTATTATTTGACGTGGATAACTATACCAGCACTTCTGTTCTTCTTTGGCGGGAGTATGACGGCAATATTTGTTATGTGGGCAGCTTCGCAAACATTTGCTAGATATGAAGCAGCTAAAGTGTAA MHSFVIGYYRFSVWAVRLAYVNLCWILFTFLGIVVFGFMPATSAMFVVVRKWMHGEEDVPIFHTFWKEYRTNFFRTNSLGLIFMFLGYFLVIEFNILRTQESFIYYIVSYSVLGTLLLCIVVWLYFFPIFVHFDLSWIDYLKWPFIIGISHPILTAFIFGVLGVVYYLTWITIPALLFFFGGSMTAIFVMWAASQTFARYEAAKV NA NA NA NA NA AK015_03963 897 melC COG0395 Melibiose/raffinose/stachyose import permease protein MelC TTGTCTAAGTTTAGCTTGTCTGATAAGGCATTTGAACGTTTGAATTTTATTCTTGTTTTAATGATTACGTTAATTATTATCTATCCGCTCATCTTTGTGATTAGTGCTTCCATTAGTGATCCACATGCTGTTAACACAGGAGAGATGTGGCTTTGGCCAGTAGATGTAACGTTTGACGGTTTTGTGCGTGTATTTGAAAATGAAGCCATTTGGGTGGGGTATCGTAATACCATTCTTTATACTGCTATTGGGGTGTCTCTTCATTTGTTTATTTTATTACCTGCTGCGTATGCATTATCGCGCAAGGAATTAATGGCAAAGAAAACATTCTTATGGATCATTTTGTTTACCATGCTTTTTAATGGAGGGTTAATCCCGACTTACTTAGTCGTAAAAAATCTTGGTATGGTAAATACGATGTGGGCTATCGTTATTCCTGGTGTTATTGGAGCTTGGTCTATATTAGTTGCCCGAACGTTTTTTCAACAAACCATTCCTGATCAGCTTGTAGAAGCTTCCAAAATAGATGGTGCAAGTGATCTTTATTTATTTTTTAAAGTCGTATTACCTCTTTCCTTACCTATGATAGCTGTAATGGGTTTGTTTCACGGAGTTGCTTTATGGAATCAATATTTTAACGCTTTAATTTATCTATCTGATGAGAAATTGTTTCCATTACAACTAATATTAAGGCAAATTTTAATTCTTAATGAAACGAGTGCAGATAGTGCTGCAACAGCAGCAGGAGCAGCACAATCATTTGCTGAACAGGTTAAAACGGCCTCTCTAGTCAAATATGCTGTCATTATTATTTCGTCGTTGCCGCTATTAATTGTATACCCGTTTTTGCAACGGTTCTTTGTAAAAGGGGTACTGATTGGTTCTGTGAAGGAATAA MSKFSLSDKAFERLNFILVLMITLIIIYPLIFVISASISDPHAVNTGEMWLWPVDVTFDGFVRVFENEAIWVGYRNTILYTAIGVSLHLFILLPAAYALSRKELMAKKTFLWIILFTMLFNGGLIPTYLVVKNLGMVNTMWAIVIPGVIGAWSILVARTFFQQTIPDQLVEASKIDGASDLYLFFKVVLPLSLPMIAVMGLFHGVALWNQYFNALIYLSDEKLFPLQLILRQILILNETSADSAATAAGAAQSFAEQVKTASLVKYAVIIISSLPLLIVYPFLQRFFVKGVLIGSVKE PGPT0017255_1189 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320 NA NA AK015_03964 858 yteP_2 COG4209 putative multiple-sugar transport system permease YteP TTGTTTCTTCTACCGGTTTTAACTTATTTTCTTATTTTTCATTATGTCCCAATGTATGGGGTGCAAATTGCGTTCAAAGATTACTTTGCAAATTTAGGAATGTTCGGAAGTCCGTGGGTAGGATTTGAACATTTTGAGAGGTTTTTTGATTCGTATTACTTTTGGAGATTGTTGAAAAATACGCTTATTTTAAATGCTTACAGTTTATTGTTATTTCCATTACCTATTATATTTGCTTTAATGTTGAATGAACTCCGTCAAGGCGCATTTAAGAAATGGTCGCAAACATTGACTTATGCTCCCCATTTTATTTCTGTAGTTGTCGTTGTGGGTATGCTAGTTGCATTTTTAGATCCTAATACAGGAATTGTTAATCATTTTCTTCGTGCAATAGGAGTGGAGCCAATTCATTTTTTAACTAGTCCTGAGTGGTTCAGACATATATATGTTTGGTCAGGACAATGGCAATCCTTGGGGTGGGGCACCATTATATACTTGGCTGCATTAGCAGGCGTAAATCCAGAATTACACGAAGCTGCTAAAGTAGATGGAGCCTCTAGGTTTCAACGGATTGTACATATTAATATTCCAAGTATATTACCGACTATTATTATTCTATTCATCTTGAATATAGGTAATTTTATGCAAATTGGCTTTGAAAAAGTATTGCTTATGCAAAACAACTTGAACTCCGAAACTTCGGATATCATTCAAACATTTGTATATGAAGCGGGTCTGTTAGAAGGGCAATATAGCTTTGCAGCAGCAATTGGCTTATTTGAGTCAGCAATTAATATTGTTCTGTTAATAACTGTAAATCAAATTGCGCGGAAGGTTAGCAATAATAGTTTATGGTAA MFLLPVLTYFLIFHYVPMYGVQIAFKDYFANLGMFGSPWVGFEHFERFFDSYYFWRLLKNTLILNAYSLLLFPLPIIFALMLNELRQGAFKKWSQTLTYAPHFISVVVVVGMLVAFLDPNTGIVNHFLRAIGVEPIHFLTSPEWFRHIYVWSGQWQSLGWGTIIYLAALAGVNPELHEAAKVDGASRFQRIVHINIPSILPTIIILFILNIGNFMQIGFEKVLLMQNNLNSETSDIIQTFVYEAGLLEGQYSFAAAIGLFESAINIVLLITVNQIARKVSNNSLW PGPT0017250_1849 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319 NA NA AK015_03965 1620 lipO_2 COG1653 Lipoprotein LipO GTGAAATTTAAGAAATGGAAGTGTATAGGATGGCTATGTTTCGTAATCGTCGCGCTCTTTTTGACAGCATGCGCAAATGAAGAAGCAAAGTCTTCTAAAGAAGAGAATGAAAGCGAGACTGAGGTAAATGAGTCTGGCATGCCCATTGTGAATGAAGAACTTGAATTGGATTTTTTTGCTAATAAACCAGCTCAAAATGAAGACAATGACTGGAACGATATACTTATTTGGAATCATTATAAAGACATGACAAACCTTAATGTTAATTGGGAAGAAATTAATCCGGAAGCATTAGAAGAAAAGCGAAATCTTGCTTTAGGTGGTGGGGAACTCCCTGACGCATTTTTCCTTTCCCAAATACCAAATACGGATTTGCTACGCTATGGAGGACAAGAAGTATTTTTACCATTGAATGACTTAATTGACAAATACGCTCCAAACTTAACCAAGTTAATGGAGAAAGATCCAAGTATCCGTAAAGCTATTACTTTTCCAGATGGAAACATTTATTCCATGCCGGCACTTATAGAAGAGGATTTTTTATCACTAAGACTTAGTGCAAGGCCTTGGATAAATGAAGCGTGGTTAAGTGAATTAAATATGGATATTCCAGAAACAACTGGTGAGTTTTACGAATACTTAAAAAGTGTAAAAGAATTAGATCCTGCTGGTGGGGGGAAAACGATACCATATGGGGGAACCACGGTACAAGAACTTGTACAATGGTTGTCAGGGTCTTTTGGCGTCATGAATCGCGGACCGTCGAATACAAATGTTGATTTAGATCCAGATGATCAAGATAGCCTTAGATTTTATGCAACCTCTAATGGATATAAGGAAATGTTGACGTATATTAATAAATTGTATGAAGAGGAATTAATTGATCAAAGTATCTTTTCCATTGAATGGGGGCAATTTTTGGCAAATGCATCTGATAATTTATATGCAAGTATGATTTTCTATGATCCTATCGAACTGTTCGGAGAAGAAATAGGATCACAATATAATAGTATTGCTGCTTTAGAAGGACCAAACGGACGTAAAGATTATAATAAGCTCTCTTCATCCGTTTGGGAAACATCTAATTTGGTAATTACAAGTGAGAATCCAAATCCAGCAGCAACTGTTAGGTGGATGGACTACTTTTATAGTGATGAAGGCGCCCAATTATATTATATGGGAGTGGAAGGCGAGACCTTTGAAGAGAAAGATGGAGAAATCACCTATATGGATCACATATTAAACCCTGAAGATGATATGACATTTGAACAAGCTATTGCCAAGCAATTAACATGGTTAGGTTCCATTAACGGTATTATTAAAGCGGATTATTTCCAAGGTGGCGAGTCAGCCCCGCAATCTATGGAAGCTGCAGAAAAAATTGAACCTTATGTGCCAGAAGAAATTTGGCCAAGATTTACGTTTACGGAAGAAGAAAATAAAATTCTCCAAGCTGGCGAGGATATTGGAAAATATGTAGAGGAGATGCGTGATAAATTTATTTCAGGAGATGCCGACCTTTCTGAATGGGATAATTATGTAGAAACTATAGAAAGAATGGGCTTACAAGAGATTATGGATGTTTATCAAAGCGCATTCGAACGATATCAAGAAGGCTAG MKFKKWKCIGWLCFVIVALFLTACANEEAKSSKEENESETEVNESGMPIVNEELELDFFANKPAQNEDNDWNDILIWNHYKDMTNLNVNWEEINPEALEEKRNLALGGGELPDAFFLSQIPNTDLLRYGGQEVFLPLNDLIDKYAPNLTKLMEKDPSIRKAITFPDGNIYSMPALIEEDFLSLRLSARPWINEAWLSELNMDIPETTGEFYEYLKSVKELDPAGGGKTIPYGGTTVQELVQWLSGSFGVMNRGPSNTNVDLDPDDQDSLRFYATSNGYKEMLTYINKLYEEELIDQSIFSIEWGQFLANASDNLYASMIFYDPIELFGEEIGSQYNSIAALEGPNGRKDYNKLSSSVWETSNLVITSENPNPAATVRWMDYFYSDEGAQLYYMGVEGETFEEKDGEITYMDHILNPEDDMTFEQAIAKQLTWLGSINGIIKADYFQGGESAPQSMEAAEKIEPYVPEEIWPRFTFTEEENKILQAGEDIGKYVEEMRDKFISGDADLSEWDNYVETIERMGLQEIMDVYQSAFERYQEG PGPT0017245_1769 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_ORGANIC_ACID_TRANSPORT PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318 NA NA AK015_03966 816 hypothetical protein GTGACCCACAACTTAGAAAGTGAGATGATGATCATTTTTATAATTTATTTCTTGATAGGGTTGATCGCCTGTACCGCTGGAGCAATGGCTGGGTTAGGCGGAGGAATTATTATTAAGCCTTTATTAGATATGTTAGGGCATTACGATTTATCGACGATCGGCATACTTTCTGCAGCAACGGTTTTTTCTATGTCTGTCGTTTCCTTGGTCAAAGTGCGAAATTCGAGTTTGCATATTAATTGGAGAAATAGTTTATTCATTGCAATCGGCTCGATTGCAGGTGGTTTTATGGGAAAAGGAATTTTTAATTATTTCGTTATCCATTCAGGCTTATCTATGGTTATTGGTATTATTCAATCTATACTATTAGCTATTTTATTAATCATTATCTTTATTTTTATGAAGTATAATCATCGAATTAAAACATACCAGGTGCAAAATCGTGCCCTCATATTATTCGTTGGGCTTATTCTTGGTTTATTATCTGCTTTTTTAGGCATTGGCGGAGGACCTTTAAATGTTGCGCTGTTAGTATACATTTTTTCTATGAATACAAAGGATGCCAGTATTAATTCCATATTTATTATCTTTTTCTCGCAACTATCTTCGCTCATTTTAGTAGCAACTTCGACTGGATTTGCGCCTTATGATTTATCCATGATTTGGTTTATGGTTCCTGGTGGAATTCTTGGCGGAATGATTGGAAGTAGTTTAGTCAAAAAAATATCCACAAGTGTTGTAGAACGCATTTTTAATATAACACTGTTAATCATTATTTTAATTACCATTTATAATATTGTGATGGAGTTGGTGTGA MTHNLESEMMIIFIIYFLIGLIACTAGAMAGLGGGIIIKPLLDMLGHYDLSTIGILSAATVFSMSVVSLVKVRNSSLHINWRNSLFIAIGSIAGGFMGKGIFNYFVIHSGLSMVIGIIQSILLAILLIIIFIFMKYNHRIKTYQVQNRALILFVGLILGLLSAFLGIGGGPLNVALLVYIFSMNTKDASINSIFIIFFSQLSSLILVATSTGFAPYDLSMIWFMVPGGILGGMIGSSLVKKISTSVVERIFNITLLIIILITIYNIVMELV NA NA NA NA NA AK015_03967 402 hypothetical protein TTGCAAAAAACATTTACACTTACAACGCATCGTCATACTGATATGATCGATATTACAATCCAGCTGGAACAATGGATTCATGAATTAAAGGTTACTAACGGAATCATGGTTGTATCTTCATTACATACAACTGCGGGAATTACGGTGAACGAAAATGCTGATCCCGATGTGAAAACAGACATGCTTATGCGATTAGAAGAAATTTATCCTTGGGAACATGCGGGAGATAAGCATATGGAAGGCAACACTGCTGCACATTTAAAAACAAGTACGATTGGCCATGCGCAAACGCTCATTATCCAAAACGGTAAGCTAGTATTAGGTACATGGCAAGGTGTTTACTTTTGTGAATTTGATGGTCCACGAAAGCGAAAATTTCATGCTATGGTGATTCCAGAATAA MQKTFTLTTHRHTDMIDITIQLEQWIHELKVTNGIMVVSSLHTTAGITVNENADPDVKTDMLMRLEEIYPWEHAGDKHMEGNTAAHLKTSTIGHAQTLIIQNGKLVLGTWQGVYFCEFDGPRKRKFHAMVIPE PGPT0015021_1 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015021-yugU-NA NA NA AK015_03968 564 rimJ COG1670 [Ribosomal protein S5]-alanine N-acetyltransferase TTGAAAACAAAAGAAATCAAAATGCAATCAGAGACAGACAGATTGATGTTAAGACCGTTACAGAACCAAGATTATGAACGATGGCTGGAGGGCTGTCGTGGCAGACTTCCTTCCCAATATAAATATGATGACGAAAAAATGAACTTGAGTGGATGGACACAGGAAAAGTTTAATAAAGACGTAGTTGCAAAGCTTCAACAGTTAGCTGATCAGGATGAAGCGTACGTTTTTGGCGTCTTTCGAAAGTCGGATCAAAAACATATCGGGAAAGTTGAAATTTGCACGATTATGAGAGACGAATTTCAGTGGGGACTCTTAGGGTATACCATTCATAATCAATATTGGCGCAAAGGTTATGGGAAAGAGGCAGTAAAAGAAGCGTTTAATATCGCTTTTAAAAACCTTCATTTCCATCGCATTGAGGCTCATATTAATGTTGATAATAATCCCTCTATTAAATTAGCTGAAAGTGTAGGAATGAAATTTGAATGCATTAGGAAAGGATTTATATATGAATTTGAAGAATGGACCGACAACCTGGTGTATTACACGAATTCAAAATAA MKTKEIKMQSETDRLMLRPLQNQDYERWLEGCRGRLPSQYKYDDEKMNLSGWTQEKFNKDVVAKLQQLADQDEAYVFGVFRKSDQKHIGKVEICTIMRDEFQWGLLGYTIHNQYWRKGYGKEAVKEAFNIAFKNLHFHRIEAHINVDNNPSIKLAESVGMKFECIRKGFIYEFEEWTDNLVYYTNSK NA NA NA NA NA AK015_03969 165 hypothetical protein ATGACCGATAAACTAAAGGAATTTGAGAGGAAAGTACAAAGTGCAGATGATGCTCCGTTGATTGATTCGCTTATTGACCATGCAAAAAAATCAGATGAAAATATTGATTATTATGAAGCCACAAAGATTATAAAACATGAAATTTTAAGGCGGTTAGGGAAGTAG MTDKLKEFERKVQSADDAPLIDSLIDHAKKSDENIDYYEATKIIKHEILRRLGK NA NA NA NA NA AK015_03970 216 hypothetical protein TTGATTGTATATTCTGGACTGTTCAAAGAAGCCATGACGAAATTTAAAAACGGTGAACTTGATGATTACAAAGAAAAGGACAAAACCAAATATGTCTATGCCATTATGTACAACTGGGGCGGTGAAAAATATTTGAAAATGGAAAAACGCTATTTAACGAATGATGAACTGGGAGAAATCAACGGGCAATTGCTCGATGAAAAGGACGTGGAATAA MIVYSGLFKEAMTKFKNGELDDYKEKDKTKYVYAIMYNWGGEKYLKMEKRYLTNDELGEINGQLLDEKDVE NA NA NA NA NA AK015_03971 420 hypothetical protein TTGTACTTTAGTAAAGTTCGCTTTTGCCCGATTTGTGCAGGGAAAAAAGCGCGAAAAGATGCCCTGGCTCTTTCGATTATGATGGCTTACTTGAAGCAAGAAGAGAAAAAGGATTTTATATTTTTAACCCTTACTGCTCCAAACGTGCCAGCTAATGAACTGGAGGACGAAATCAAGTATTATAATCATTCGTTTAAAAAACTAATGGAGCGTAAGGAAGTAAAAACAATTGCAAAAGGTTATGCTAGAAAGTTAGAAATTACATACAACGAGGAAAGAGACGACTATCACCCGCATTTTCACGTTTTGATTGTAGTAAATAAAAGTTATTTTACACAAACAGCACAATATATTAATCATGATCGGTGGCTCGAACTGTGGCAACAGGTCACGAAAAAATCCAACCATAACACAAGTTGA MYFSKVRFCPICAGKKARKDALALSIMMAYLKQEEKKDFIFLTLTAPNVPANELEDEIKYYNHSFKKLMERKEVKTIAKGYARKLEITYNEERDDYHPHFHVLIVVNKSYFTQTAQYINHDRWLELWQQVTKKSNHNTS NA NA NA NA NA AK015_03972 1194 hypothetical protein TTGAAACAAGGTACATTAGCTTCACGCAACATTCGTGTGTTATTTTGGGCGGAATTATTTGGCAGTGTTCGATTTATTCAACCAGTCTTAGCATTATTTTATTTTTCGCGTGGACTGGATGAAGCATCTATATTATGGTTATTACTCTTTTGGAGTACTGGGGTATTAATTGGAGAAATTCCAACAGGTATGTTTGCGGATCGATATGGTGCTAAATGGTCGTTTATGATTGGAGCATTTCTAAGTATTATTAGTCATGCAATGTTAATTTGGGCATACGACCCATGGGTATTCGTCATTAGTAGCCTTTTAAGTGGATTCAGTGTAACGTTTTTTAGTGGTGCTGATGAAGCTTTTATCTATGAATCTTTAAAAGAATCAAATGAAGAAAATATGCTAGATAAAGCACTTGGAATTATCCAATCCGCGCAATTTATGGTCATGGTTATTGTATTAATACTAGGCGCTATTATAGCTCAAGATTTGACGGATGAACAATTTAACATGCTTATTGTATTAGGTGTGTTTTTTCAAAGCTTGCAAATTATATTGTTGGCTTTTGCAAAAAATCCACCAGAACATGGGAGCTATCGCGAAAATCCTTTTAAACAAGTGAAAGAAGGGATGCTAGCAATAAAAAAAGCACCCCAGCTGTTATGGATGTTTTTAAATATCACACTGGTATTTATCCCATCTGTAGCAATTTTTGATAACTTTAGTGACAAATTACTTCTAGACGCCGGCTTACCCGTCTATTTCATTGGTTTTTCGCTTGCGGGACTTTCTATATTTAGCTTTTTCGTTTCTCGGTCTATTGGGTGGATGACATCTCGCATTTCTCGAATTCCATTTTTATATATAACGGGTGCTCTTGCCGTATTCGGATTGTTATTAGCAGCTTTTTACCGTGAAAACCTTTGGATCTTGCTCCTTATTATGGTTTTGCTTCGATTTGTTGGTGCTGTACGCTACCCGGTATATGCACAATTAGCTAACGATATGATTCCTTCAAAGGTAAGAGCAACAACGATTTCATTGCTATCCATTATTGATTCGTTTTGTGATTTGCTGGTTTTTAGTAGTGTGGCGACAATAGCAGTTTTCGGCTTTGACAAATTATTTCTAACTGCCGCTGCAATTGCATTCGTAGGAAGTTTACTCCCCTTACGATCAGTGAACAGGGAAAGAAACTAG MKQGTLASRNIRVLFWAELFGSVRFIQPVLALFYFSRGLDEASILWLLLFWSTGVLIGEIPTGMFADRYGAKWSFMIGAFLSIISHAMLIWAYDPWVFVISSLLSGFSVTFFSGADEAFIYESLKESNEENMLDKALGIIQSAQFMVMVIVLILGAIIAQDLTDEQFNMLIVLGVFFQSLQIILLAFAKNPPEHGSYRENPFKQVKEGMLAIKKAPQLLWMFLNITLVFIPSVAIFDNFSDKLLLDAGLPVYFIGFSLAGLSIFSFFVSRSIGWMTSRISRIPFLYITGALAVFGLLLAAFYRENLWILLLIMVLLRFVGAVRYPVYAQLANDMIPSKVRATTISLLSIIDSFCDLLVFSSVATIAVFGFDKLFLTAAAIAFVGSLLPLRSVNRERN NA NA NA NA NA AK015_03973 960 oppF_7 COG4608 Oligopeptide transport ATP-binding protein OppF ATGGCAAAAGCAATTCTCGAAGTAAACCGTCTGAAGAAATTTTTTGAAGTGAACAGAAACCAGACGCTACAGGCTGTCAATGATGTATCGTTTCAAATAAGCGAAGGAGAGACATTTGGCTTAGTAGGGGAGTCGGGTTGTGGTAAATCTACGATTGGGCGAACCATTCTCGGTTTATACCATAAGACAGCTGGAGAAGTCTTGTACGACGGGAAGGATATTCATGGTTTAAAAGAAAATGATAGATTCAAGTTGCATAAAAAAATGCAAATGATTTTTCAAGATCCGTATGCCTCATTAAACCCTCGATCTACTGTACAGGAAATTATCTCTGAGCCAATGGAAATACATCGTTTGTATCGACATAAGAAGGAAATAAAAGAACGAGTATACCAATTATTAGAAGAGGTAGGTTTACAGCGGGATCATGCTAATCGTTATCCTCATGAATTCAGTGGCGGTCAAAGGCAGCGTATAGGTATTGCAAGGGCGCTCGCTTTAAATCCAGAGTTCATTATTGCAGATGAACCAATTTCGGCTTTGGATGTTTCCATACAGGCGCAAGTCGTCAATTTATTAAAGAAAATTCAATATGAAAAAGGATTAACGTTTTTATTTATTGCCCATGATTTATCGATGGTGAAGCAAATTTCTGATCGAATTGGCGTCATGTACTTAGGGAATTTAATCGAACTTACAAAATCAGAACAGCTATATGACCATCCCTACCACCCGTATACAAAGGCGCTATTGTCTGCAATCCCTATTCCAGATCCAGAAGTCGAAGAAAAGCGAGAACGAATTATATTGCAAGGTGAACTCCCAAGTCCGATTAACCCGCCGAGCGGATGTGTGTTTCGTACGCGATGTCCAATGGCTATGCGTATTTGTGAGCAACAAAAACCGCAATTTCGAGAAATAACACCAGAGCACTTTGTTGCCTGCCATCTTTATTCATAA MAKAILEVNRLKKFFEVNRNQTLQAVNDVSFQISEGETFGLVGESGCGKSTIGRTILGLYHKTAGEVLYDGKDIHGLKENDRFKLHKKMQMIFQDPYASLNPRSTVQEIISEPMEIHRLYRHKKEIKERVYQLLEEVGLQRDHANRYPHEFSGGQRQRIGIARALALNPEFIIADEPISALDVSIQAQVVNLLKKIQYEKGLTFLFIAHDLSMVKQISDRIGVMYLGNLIELTKSEQLYDHPYHPYTKALLSAIPIPDPEVEEKRERIILQGELPSPINPPSGCVFRTRCPMAMRICEQQKPQFREITPEHFVACHLYS PGPT0004440_7036 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 AK015_03974 999 ykfC COG0791 Gamma-D-glutamyl-L-lysine dipeptidyl-peptidase GTGAGTCAGCAAATGTACGGGAAAATAACAAATGAACTGTATGTAACCTGTGTTTCTGTTGCTACGGTTTGGACAGAGCCATTATGTGCTAGAAGAATAGATGCATTAGCGATTCATAACCCTGCACATGTAGATCAGTGGGTGAAGCAATTAGATTATACTGAAAAACTGGCATTATGCGTGGAAAATCGTATTCAAACACAATTGCTGTATGGCGAACAAGTACTAGTAACGGAGTGGGCTGGTGATTGGGCTCATGTTATTATACCTACTCAGCCGTCACATAAAGATAGAAGAGGTTATCCAGGTTGGGTGCCTGCTTGCCAACTCAAACAAATTTCTAATCAAGACTGGCTTCAGCCTATAGGTGCTATCGTTCGATCTCCTTTTGCTCCGTTAACTATTCATAATGAATCCTCTATACACTTAAGTTATTTAACCATTTTACCAGTAAAAAGACATCATGGTTCTACGACATCTGTAGTAACACCACATGGTAACGGATATGTTAATACACAAGATATAGAGTTATTTTCAAACGCAGACGGTATCCCCCATAGTAATGGGGAGTCCATTGTAGCTGTTGCTAAATCTTACATAGGGCTTGACTATTTATGGGGCGGGATGAGCGCTTACGGTTATGATTGTTCAGGTTTAGCCTACGCTACGCATAAAGCGAATGGATATCAAATTGCTAGAGATGCAGGCGATCAAGTAAAAGGTGGAATCAAAGTTCCGCTAGATAGGATACTACCTGGTGATTTACTTTTCTTTGCTTATGAAAATGGGAGAGGAAGGATACATCATGTAGGTATTTATTCTGGTAACGGAGAAATGCTACATGCCCCACAAACGGGAAAGGGAATTGAACAAATCAGACTTGCGAATACGATGTATGAAACGGAGTTATGTGCGGCTAGGCGCTACTGGCAGGAGGAGGAAACGATCGAAAATGGCAAAAGCAATTCTCGAAGTAAACCGTCTGAAGAAATTTTTTGA MSQQMYGKITNELYVTCVSVATVWTEPLCARRIDALAIHNPAHVDQWVKQLDYTEKLALCVENRIQTQLLYGEQVLVTEWAGDWAHVIIPTQPSHKDRRGYPGWVPACQLKQISNQDWLQPIGAIVRSPFAPLTIHNESSIHLSYLTILPVKRHHGSTTSVVTPHGNGYVNTQDIELFSNADGIPHSNGESIVAVAKSYIGLDYLWGGMSAYGYDCSGLAYATHKANGYQIARDAGDQVKGGIKVPLDRILPGDLLFFAYENGRGRIHHVGIYSGNGEMLHAPQTGKGIEQIRLANTMYETELCAARRYWQEEETIENGKSNSRSKPSEEIF PGPT0020945_195 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-DIPEPTIDYL-PEPTIDASE_ACTIVITY,PGPT0020945-ykfC-K20742 NA NA AK015_03975 1626 dppE COG4166 Dipeptide-binding protein DppE ATGAAGAAAGGGTTGCTTTACTTAATGGGAGTTTTGGTGTTTCTTGTTTTAGCTGCTTGTACGGCAAATGAGAGTACTGGTACAGAAGATGAGAATGGAGAGGGAGAGAAGGCAGGAGATGAAAAAATTCTTCAACTTAATAACGGAGAAGAGCCAACATCTTTTGACCCAGCAATAGGTTTTGATAATGTTTCTTGGAATGCGTTAAACAACTTAATGGAAGGGCTCACGCGACTCGGTGAAGATCATACACCACAACCTGCAGTTGCGGAAAAATGGGATGTTTCAGAAGATGGTACCACATACACATTCTATTTACGTGAGGATGCGAACTGGTCTAATGGCGATCCAGTTGTGGCTGAAGATTTCATCTATGCGTGGGAGCGTTTATTAAATCCAGAAACAGGCTCATCTGCTGGATTTCTAGGTTACTTTATCAAAGGGGGAGAAGCATTTAACAGCGGGGAAGGTTCTACAGAAGATTTAGGAATTACCGCAGTTGATGAAAAAACGCTAGAAGTTGAATTGGAAAACCCGACTGGATTTTTCTTACATGTACTAACCAATCCTGCCTTTTTTCCAGTGAACCATCAAGTAGCTGCAGACAATCCAGAATGGCATACTGAAGCAGAATCATTTGTAGGTAATGGGCCATTTAAGCTGGAATTTTGGGAACATGATAATGAAATGATGTTTACGAAAAATGATGTATACTGGGATGCAGACAGTGTAAGCTTAGACGGCGTGCATTGGGCGATGGTCAATGATACGAATACGGAATATCAAATGTTTGAACGAGGAGAGTTAGATTCAGCCCAAATCCCTGCAGAATTATCCGATCAGATAATTGATGGAGATAATGTGCAGATTGTTGACCAAGGAGGATTAGAGTTTTTCCGCTTTAATGTTACAGAAGAGCCTTTTCAAAATAAGCACATAAGAAAAGCTTTTGCGTTAGCAGTAGATCAAGATAATATTGCAGAATATGTGGTGAAAAATAAAGTGAAGCCTGCTTATGGTTATATATCTCCTGGGTTTACCAACCCTAGCAGCGAAGACTTCCGAGATGTAAATGGCGATCTCGTCTCATTTGATCCTGAGGAAGCAAAGCAGCTTTTAGAAAAAGGGATGAAAGAAGAGGGCTATGATGAACTGCCTACGGTTACTTTATCCTATAATACAAGCGATTTAAATAAAGAAGTAGCTGAAGCAATTCAAGGAATGCTTAGTGAGAATATTGGTGTCGATGTAGAGCTTGAAAATACAGAATGGAATGTTTTCTTAGAAGATCAAAAGGCTTTAAATCATCAATTATCGAGAAGCTCCTTTTTATACGATTACGCTGATCCAGTTAATTTCCTTGAAAGCTTTATTACTGGATCATATATGAATCGCACAGGCTGGTCCAATGAACAGTATGATAAATTAATTGTCCATGCAAAATCAGAAGCGGATGAAGCGAAACGTTGGGAATATATGTATGAGGCAGAAAAGCTATTAGCAGAAGAAATGCCGTTATTTCCAGTTCGTTATTATAATCAGGTAGAAGTATTACAAGAAGGTGTAACAAACATACTTCGCCATCCAGTAGGGTATCTGGATTTAAAGTATGCCGATAAGCAATAG MKKGLLYLMGVLVFLVLAACTANESTGTEDENGEGEKAGDEKILQLNNGEEPTSFDPAIGFDNVSWNALNNLMEGLTRLGEDHTPQPAVAEKWDVSEDGTTYTFYLREDANWSNGDPVVAEDFIYAWERLLNPETGSSAGFLGYFIKGGEAFNSGEGSTEDLGITAVDEKTLEVELENPTGFFLHVLTNPAFFPVNHQVAADNPEWHTEAESFVGNGPFKLEFWEHDNEMMFTKNDVYWDADSVSLDGVHWAMVNDTNTEYQMFERGELDSAQIPAELSDQIIDGDNVQIVDQGGLEFFRFNVTEEPFQNKHIRKAFALAVDQDNIAEYVVKNKVKPAYGYISPGFTNPSSEDFRDVNGDLVSFDPEEAKQLLEKGMKEEGYDELPTVTLSYNTSDLNKEVAEAIQGMLSENIGVDVELENTEWNVFLEDQKALNHQLSRSSFLYDYADPVNFLESFITGSYMNRTGWSNEQYDKLIVHAKSEADEAKRWEYMYEAEKLLAEEMPLFPVRYYNQVEVLQEGVTNILRHPVGYLDLKYADKQ PGPT0004525_58 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 AK015_03976 1005 oppD_7 COG0444 Oligopeptide transport ATP-binding protein OppD ATGGAGAGACTACTTGAGGTACAAGATTTACATGTAATTTTTTCGACGTACGGTGGGACAATTAAAGCCGTTCGAGGTGTGGATTTTTATTTGAATAAAGGGGAAACACTAGCAATTGTTGGAGAGTCAGGTTGCGGGAAGAGCGTCACCTCACAAGCGATTATGCAACTGATTCCAGAACCGCCAGGAAAAATTGCTAGAGGCAAGGTAATATTTAAGGGCAATGAGATAACTCATTATACCGAAAAACAGATGCGATCGATTCGTGGTGTGGATATATCGATGATTTTCCAAGATCCAATGACAGCATTAAATCCTACGCTAACTATTGGCACGCAGCTTATGGAAGGATTGCAGGAGCATCAATCCATTCGCGGAGAAACAGCTACCTCCAAAGCTTTAGAAATGATGCATTTAGTTGGGATACCAAACCCTAAGGAACGGTTAAAGCAATATCCACACCAATTTAGTGGAGGGATGCGGCAAAGAATTGTGATCGCTATGGCTTTAATTTGTGAGCCAGAGTTATTAATTGCTGATGAGCCTACAACGGCTTTGGATGTAACCATTCAAGCACAAATTTTAGAATTATTTACGACAATTCAAGCAAAAACAGGTGTATCTATTATTCTAATTACGCATGACTTAGGGGTTGTGGCTAAAATAGCCGATCGAATTGCAGTTATGTATGCAGGAAAAATAATTGAAACGGGAACAAAGCGTGACATATTTTACAATCAGCAGCATCCTTATACGAAAGGTTTGCTAAAATCAGTTCCAAGGCTCGATTTAAAAGAAGAGCAATTATCACCAATTGATGGGACACCGCCGGATTTATTTGCGCCACCGCAAGGGTGTCCGTTTACAGCGAGATGCCCTTACGCCATGGAGGTGTGTGATAACGTATATCCTGTAACGACGGAACGAAGCAGTTCACATCGAGTGGATTGCTGGCTGCAGGACAAACGGGCGCAACAACTTCTAGCTCGCACAGCCAACCAATAA MERLLEVQDLHVIFSTYGGTIKAVRGVDFYLNKGETLAIVGESGCGKSVTSQAIMQLIPEPPGKIARGKVIFKGNEITHYTEKQMRSIRGVDISMIFQDPMTALNPTLTIGTQLMEGLQEHQSIRGETATSKALEMMHLVGIPNPKERLKQYPHQFSGGMRQRIVIAMALICEPELLIADEPTTALDVTIQAQILELFTTIQAKTGVSIILITHDLGVVAKIADRIAVMYAGKIIETGTKRDIFYNQQHPYTKGLLKSVPRLDLKEEQLSPIDGTPPDLFAPPQGCPFTARCPYAMEVCDNVYPVTTERSSSHRVDCWLQDKRAQQLLARTANQ PGPT0004540_64 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 AK015_03977 966 dppC_4 COG1173 Dipeptide transport system permease protein DppC ATGAAAATAAATGTGACAGACCAAACAGGAAAGAAGCCAACTTCTCATTCGGAAATACCAAATGAATGGTTTTCTTGGAAAGAGCGGGATGCGAAAGCGTTAGAAACGGTATCAAGACCATCTTTATCGTATTGGAAAGATGCTTCGCGAAGATTAGTGAAAAATAAGTTAGCAATGACGGGGTTGGTGTTCTTGGTTTTACTTACTGTTTTCGCAATATTCGCACCTTTATTATCACCGTATGAAGTAAACAAACAAGATCTACCGAATCAGTATCAGCCACCTTCTTTAGAACATTGGTTTGGAACGGATAGTGGTGGGAGGGATGTGTTTACTCGTACATGGTATGGAGCACGTATTTCATTATTTGTCGGCTTAATGGCAGCACTTATTGATGTTACCATTGGGATTATTTATGGTGGCTTGTCCGGATATAAAGGAGGACGTACGGATAATATTATGATGCGGATTATTGAAGTGTTATATGGTCTTCCTTATTTGTTAGTCGTTATTTTATTACTCGTCGTTTTAGGCCCCAGCTTAGGTACTATTATTCTCGCTTTAACCGTTACAGGTTGGGTAGGAATGGCAAGAATTGTACGTGGGCAAGTATTGCAAATCAAAAATTATGAGTTTGTGCTTGCTTCTAGGTCATTTGGTGCGAAGACAGCACGGATTATTCGTAAAAACTTATTACCGAATACAATGGGGCCAATTATTGTGCAAATGACGTTAACAGTTCCAAGTGCGATTTTTGCAGAAGCGTTTTTAAGTTTTCTTGGACTTGGGATTCAAGCCCCATTTGCAAGCTGGGGAGTGATGGCAAATGATTCGTTAGGGGCAATCTTATCTGGACATTGGTGGACATTATTTTTTCCAGCATTCTTCATTTCTTTTACGATGTTTGCATTTAATGTATTAGGGGATGGGCTTCAGGATGCACTTGATCCAAAGCTGAGAAAGTAG MKINVTDQTGKKPTSHSEIPNEWFSWKERDAKALETVSRPSLSYWKDASRRLVKNKLAMTGLVFLVLLTVFAIFAPLLSPYEVNKQDLPNQYQPPSLEHWFGTDSGGRDVFTRTWYGARISLFVGLMAALIDVTIGIIYGGLSGYKGGRTDNIMMRIIEVLYGLPYLLVVILLLVVLGPSLGTIILALTVTGWVGMARIVRGQVLQIKNYEFVLASRSFGAKTARIIRKNLLPNTMGPIIVQMTLTVPSAIFAEAFLSFLGLGIQAPFASWGVMANDSLGAILSGHWWTLFFPAFFISFTMFAFNVLGDGLQDALDPKLRK PGPT0004535_5 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 AK015_03978 936 dppB_3 COG0601 Dipeptide transport system permease protein DppB ATGCTACGTTATATAGGAAAGCGCTTACTTATGATGATGGTTACTTTATGGGTAATTGTTACATTGACGTTTATTCTAATGGTGACGATACCAGGTTCTCCGTTTAATAGTGAACGGGGGACAAATGAAGTCGTTCAAGCAAACTTAGAAGCACATTATAATTTGGATGAGCCATACATAGTTCAATATGTCCTTTATTTAAAATCGATTGTTACGTTTGATTTTGGCCCATCGATTAAACAGCCATCACAAACGGTCAATGAAATGCTTGGCCGCGGTTTTCCCATTTCTTTGGAACTGGGAATAATTACTATTATTGTCGCCGTATTATCTGGCATAACGTTAGGTGTGTTTGCAGCGTTAAAGCATAATCAGCTTATTGATTACGTAGCCATGGGTTTTGCTGTGTTAGGTATATCCATTCCCAATTTTGTACTAGCTACCTTGCTTATTCAGCAATTGGCAGTGAATATAGAATGGTTTCCAGTTGCAAGATGGTTAAGTCCCGCACATATGATTTTACCCGTTACAGCACTTGCAACAGGGCCAATGGCGATTATCGCAAGGCTCACAAGGTCAACAATGCTTGAGGTGTTAACACAGGACTATATTAAAATGGCTAGAGCTAAGGGGTTAGCACCGTGGAAGATTATTTGCAAGCATGCTTTAAGAAATGCGTTAATGCCTGTGGTTACCATTATGGGAACCTTACTGGCAGGAATATTAACAGGCACGTTTGTTATTGAGAAAATATTTGCTATTCCCGGAATGGGGAAGTATTTTGTAGAAAGTATCAATCAGCGTGATTATCCTGTTATTATGGGAACGACAGTATTTTACAGCACTTTTTTAATTGTGATGCTATTCCTCGTTGATATTGCCTATGGCATATTAGACCCGCGTATTAAGCTGCATAAGAAAGGCGGGAGAGAATGA MLRYIGKRLLMMMVTLWVIVTLTFILMVTIPGSPFNSERGTNEVVQANLEAHYNLDEPYIVQYVLYLKSIVTFDFGPSIKQPSQTVNEMLGRGFPISLELGIITIIVAVLSGITLGVFAALKHNQLIDYVAMGFAVLGISIPNFVLATLLIQQLAVNIEWFPVARWLSPAHMILPVTALATGPMAIIARLTRSTMLEVLTQDYIKMARAKGLAPWKIICKHALRNALMPVVTIMGTLLAGILTGTFVIEKIFAIPGMGKYFVESINQRDYPVIMGTTVFYSTFLIVMLFLVDIAYGILDPRIKLHKKGGRE PGPT0004530_17 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 AK015_03979 825 dppA_2 COG2362 D-aminopeptidase ATGAAACTGTATGTTTCTATGGATATGGAAGGAATTACGGGGGTGCCAGATGAAACTTTCGTCGCCTCATCAATGCACAATTATGAACGTTCCAGGAAGATGATGACGGAAGAAGCCAACGTGGTCATTCGTGCGGCTATTGCCCAAGGTTGTTTAGAAATTATTGTTAATGATAGCCATTCTAAGATGAATAACTTACTGATTGAGGATTTACATGAAGATGCGCAGCTTATTACTGGTGACGTAAAGCCATTTTCCATGATGCATGGGCTAGATGCCTCGTATGATGCCGCTATATTTGTCGGTTATCATGCACGAGCAGGAACGTTTGGAGTTATGTCTCATACGATGATTCATGCTGTAAGGACGATGTATATCAATGATCACGAAATTGGTGAGATGGGATTAAATGCTTATTTGGCAGGTTTTTATGGAGTACCCATTATAGCTGTTGCAGGTGATGATCAAGCAGCAAAGGAAGCAAGTGAACTTATTCCAAATGTCACAGCTATAGCTGTGAAAGAGACGATTTCTCGGTCATCTGTTAAAAGCTTAACACCTAAAAAATCGGCGCAGTTATTAACGGAGAAGATAACAGAAGCTGTACAAAATCGCCATCTTGTTGTACCGCTTATACCTCCCGATAAACCTGTTTTACGAATAGAATTTGCTAATTTCGGACAGGCGGAATGGGCTAGTTTAATGCCTGGTACAAAGATAGAAGCAGGAACAACAGTTGTTCGCTTTCAAGCAAAAGACATACTGGAAGCATATCAGGCAATGCTTGTTATGACAGAGCTTGCCATGTTGACGAAATTCTCATAA MKLYVSMDMEGITGVPDETFVASSMHNYERSRKMMTEEANVVIRAAIAQGCLEIIVNDSHSKMNNLLIEDLHEDAQLITGDVKPFSMMHGLDASYDAAIFVGYHARAGTFGVMSHTMIHAVRTMYINDHEIGEMGLNAYLAGFYGVPIIAVAGDDQAAKEASELIPNVTAIAVKETISRSSVKSLTPKKSAQLLTEKITEAVQNRHLVVPLIPPDKPVLRIEFANFGQAEWASLMPGTKIEAGTTVVRFQAKDILEAYQAMLVMTELAMLTKFS PGPT0020935_474 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 AK015_03980 1329 murAA COG0766 UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1 ATGGAAAAAATCATCGTAAGAGGTGGACACCAATTGCAAGGCACTGTGAAAGTGGAAGGTGCTAAAAATGCTGTTCTCCCTGTCATTGCTGCTAGTCTTATTGCAAGTGAAGGAAAAAGCGTCATTAAGGATGTTCCTGAACTAGCTGATGTATATACAATTAATCAAGTGTTGGAAAATATGAATGCAAGTGTACATTTTGACAATAACACAGTTACGGTTGATGCTTCAAATCGTTTAACAACAGAAGCTCCATTTGAATATGTAAGAAAAATGCGTGCTTCTGTTCTTGTAATCGGACCATTGTTAGCACGTTACGGTCATGCAAAAGTAGCTATGCCTGGTGGGTGTGCAATTGGTTCTAGACCAATTGATTTGCATTTGAAGGGCTTTGAGGCGATGGGTGCCAAGACGCATGTTGGAAATGGGTTTGTCGAGCTTCATGTCGACAAGCGTCTTAAAGGTGCGAAAATTTATTTAGATATGCCAAGTGTTGGTGCAACGGAAAATATTATGATGGCGGCTGCGCTAGCAGAAGGAAAGACAGTTTTAGAAAACTGCGCCAAAGAACCAGAAATTGTAGATTTAGCGAATTATTTAAATAAGATGGGTGCCAAAATTGTTGGTGCAGGAACAGAAACCATTCGTATTGAAGGCGTAGACAAATTGTATGGTGCAGAGCATTCGATTATACCTGATCGTATTGAAGCAGGTACGTTTATGGTGGCTGCAGCCATAACAGAAGGAAATGTGTTAATTGAAAATGCTGTTACTGAACATTTACGTTCCGTTATTTCCAAGTTAGAAGAAATGAATGTTATCGTGCAAGAAGAAAAAAATGGCTTAAGGGTAATTGGTCCAAAGCAATTGAAAGCAACGGATATAAAAACGTTACCTCATCCTGGTTTCCCTACAGATATGCAATCCCAAATGATGGCCTTAATGTTAGTTGCTCAAGGCACTAGTGTTATTACGGAGACGGTGTTTGAAAATCGGTTTATGCATGTGGAAGAATTCCGTCGTATGAATGCTAAAATGAAAATAGAAGGACACAGTGTCATTATCGAGGGACCTTGTAATCCACAAGGAGCTGAAGTGGCAGCTACGGATTTAAGAGCGGCTGCAGCACTTATTTTAGCTGGTTTAGTAGCTGATGGTGTGACTAGAGTTACGGAATTAAAACATCTTGACCGTGGTTACGTGGATTTTGCTGGAAAATTAGCAGCATTAGGAGCAGATGTGGAAAGAGTGGATGAGCATGGTAATTCAGTTTTGCCTTATGTGCATGTAGAACCAATCAATCGTTCTATAGCTGCAAAACTGTCATAA MEKIIVRGGHQLQGTVKVEGAKNAVLPVIAASLIASEGKSVIKDVPELADVYTINQVLENMNASVHFDNNTVTVDASNRLTTEAPFEYVRKMRASVLVIGPLLARYGHAKVAMPGGCAIGSRPIDLHLKGFEAMGAKTHVGNGFVELHVDKRLKGAKIYLDMPSVGATENIMMAAALAEGKTVLENCAKEPEIVDLANYLNKMGAKIVGAGTETIRIEGVDKLYGAEHSIIPDRIEAGTFMVAAAITEGNVLIENAVTEHLRSVISKLEEMNVIVQEEKNGLRVIGPKQLKATDIKTLPHPGFPTDMQSQMMALMLVAQGTSVITETVFENRFMHVEEFRRMNAKMKIEGHSVIIEGPCNPQGAEVAATDLRAAAALILAGLVADGVTRVTELKHLDRGYVDFAGKLAALGADVERVDEHGNSVLPYVHVEPINRSIAAKLS PGPT0024090_777 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790 NA NA AK015_03981 720 hypothetical protein GTGAAAAAGTCTATTATTCTAGCAATTTTATGTTTGTTCGTCGCAAATACAATAGTAGCGCAAACGCATGATAGAACTGAAAATGAATTATTGGATTTAGTTCATTTTATGATTGCTGAAGACACTTCTATTCTGGAATGGGAAACAACGTGGAAAGAATCTATTTCCCAAGCAAGAACAGATGATTTAGTAGAAATGCTAAGTCGTAAATATCATAAGCATGTAACAAAAGATGAGCAGAAAATAAAATATTCCTTTGAAGACAGCCATATCTATAAAGGGTTCAACGTATTATTTCATGTGATCCTTCCGCGTCAAAAACATGTTAATGCAGAATTGATCGTCGTTGTGAAAGGAAATGGATGGCATTCGGATATGGAAAAAAACTATCGGAATACCGTTTTAAGCTTTCAAAAAGAATATTTCACAAGTTCTGTAAAGAAATTTGCTTGTCTGACGACTAAAGGAAATGGTATAATAAGTAGTGATTATTTTTTAAACAAATTAACAAATTATTTTCAAATACAGCAAAAACAGACGCAATTCGATACAATAGAACAATCGACACATAAAAAAATCATTTACGGGTATACACCAGTGTGGGAACGAAAAATTTCCGTAAATGATACACCTATGAACATACAAATCGCAGTTGAAGAAAATGGATCGGACAATCCTACATACGTGATAGGAACACCTATCCTAATAAATGAATATTAA MKKSIILAILCLFVANTIVAQTHDRTENELLDLVHFMIAEDTSILEWETTWKESISQARTDDLVEMLSRKYHKHVTKDEQKIKYSFEDSHIYKGFNVLFHVILPRQKHVNAELIVVVKGNGWHSDMEKNYRNTVLSFQKEYFTSSVKKFACLTTKGNGIISSDYFLNKLTNYFQIQQKQTQFDTIEQSTHKKIIYGYTPVWERKISVNDTPMNIQIAVEENGSDNPTYVIGTPILINEY NA NA NA NA NA AK015_03982 231 hypothetical protein ATGTTTTCACTAGGGCAACAGGCATTAGTTAGTTTAATCTCACATATTCTCTTTATATATGTAACATGGAGATTGATGATGGCAATTAATTTTGAGCCAATGATTAAAAAAGGAAGAGCCAAAGAGGCGCAAATATTAATTCTGTTTTTAACCATCGTGATTGGATCAGGTGTCAGCCGCTTCTTTCTAGAAGTACTCCAGTGGTCAAGAGATTTAAACCATTTATTTTAA MFSLGQQALVSLISHILFIYVTWRLMMAINFEPMIKKGRAKEAQILILFLTIVIGSGVSRFFLEVLQWSRDLNHLF NA NA NA NA NA AK015_03983 396 atpC COG0355 ATP synthase epsilon chain TTGAAAACACTAACGGTGAGTGTTGTTACTCCTGACGGTCCAGTACTAGAAGATAGCTACGAGATGGTGAGTTGTAAAGCAGAAAGCGGAGAATTGGGTATTTTACCTGGCCACATTCCTTTAGTTGCACCATTGTCCATTAATGCAGTTCGTTTGAAACGTGAAAATCATGTAGATAAACTAGCGGTTAATGGTGGTTTTATGGAAGTGCGTCCAGATAAAGTGACGATTTTAGCGCAGTCTGCAGAAAAACCATCTGACATTGATATCGATCGTGCCGAGCGTGCAAAAGAGCGTGCGGAACGCCGTCTCCAATCAAAACAAGATGATATTGATACGTTAAGAGCAGAACTAGCTCTCAAAAGAGCTATCAATCGCTTAAGGGTAATAAGATAA MKTLTVSVVTPDGPVLEDSYEMVSCKAESGELGILPGHIPLVAPLSINAVRLKRENHVDKLAVNGGFMEVRPDKVTILAQSAEKPSDIDIDRAERAKERAERRLQSKQDDIDTLRAELALKRAINRLRVIR PGPT0014295_3109 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114 NA NA AK015_03984 1410 atpD COG0055 ATP synthase subunit beta ATGAGCAAAGGACGTATTACACAAGTAATGGGACCTGTCGTTGACGTTAAATTCGCTGATGGACAGCTTCCCGACATTAACAATGCGATTATTGTTAAAATACCTGATGAATCATCTAATGAAATGAAAGAGCTCACCTTGGAGGTTGCGCTTCATTTAGGTGATAACAGTGTCCGTACCATTGCAATGTCATCAACGGATGGCTTAAGACGTGGTTTGGAGGTTGTTGACCAAGGAAGCCCGATTTCGGTTCCTGTTGGCGATGTAACATTAGGTAGAGTATTTAACGTACTCGGAGACAATATTGACTTGGATGAACCGTTGGACTCAGGTGTGCGTCGTGATCCAATTCATCGTCAATCACCACAATTTGAAGATTTAACAACGGAAACAGAAATTTTGGAAACAGGAATAAAAGTAGTCGACTTACTTGCACCTTATGTAAAAGGTGGAAAAATCGGTTTGTTTGGTGGAGCCGGTGTTGGTAAGACAGTACTTATTCAAGAGCTTATTAATAACATAGCACAAGAGCATGGTGGTATTTCTGTGTTTGCCGGTGTTGGTGAACGTACCCGTGAAGGTAATGATCTGTACTATGAAATGAAGGATTCTGGCGTTATTTCTAAAACAGCGATGGTGTTTGGTCAAATGAACGAACCACCTGGTGCGCGTATGCGTGTAGCCCTAACTGGGCTAACGATGGCAGAGTATTTCCGTGATGAGCAAGGGCAGGATGTATTGTTATTTATTGATAACATCTTCCGTTTTACACAGGCAGGAACAGAAGTATCTGCACTACTAGGACGGATGCCTTCTGCGGTTGGTTACCAGCCAACGTTAGCAACAGAAATGGGACAATTACAGGAACGTATTACATCTACGAAAAAAGGTTCTGTTACATCAATCCAAGCTATTTATGTACCTGCTGATGACTATACGGACCCTGCACCAGCAACAACGTTTGCGCACTTAGATGCAACAACAAACCTTGATCGTGGTTTATCAGAACAAGGTATCTATCCTGCGGTGGATCCGTTAGCTTCCACTTCCCGTGCATTAGACCCAGAAGTTGTTGGACAAGAGCATTATGACGTAGCCGTGGAAGTACAGCAAACATTACAACGTTATCGAGAACTACAAGATATTATTGCGATCTTAGGAATGGATGAGTTAAGTGATGAGGATAAACTCGTTGTGTCTCGTGCACGTCGTATTCAATTCTTCCTTTCACAAAACTTCCACGTTGCAGAGCAATTTACAGGTCAACCAGGTTCCTATGTTCCTGTTGAAGAAACAGTAAAAGGTTTTAAAGAAATATTAGCTGGAAAATACGATGATCTACCAGAAGATGCCTTCCGTTTAGTAGGGCGTATTGAAGAAGTAGTTGAAAAAGCAAAAAGCATGGAATAA MSKGRITQVMGPVVDVKFADGQLPDINNAIIVKIPDESSNEMKELTLEVALHLGDNSVRTIAMSSTDGLRRGLEVVDQGSPISVPVGDVTLGRVFNVLGDNIDLDEPLDSGVRRDPIHRQSPQFEDLTTETEILETGIKVVDLLAPYVKGGKIGLFGGAGVGKTVLIQELINNIAQEHGGISVFAGVGERTREGNDLYYEMKDSGVISKTAMVFGQMNEPPGARMRVALTGLTMAEYFRDEQGQDVLLFIDNIFRFTQAGTEVSALLGRMPSAVGYQPTLATEMGQLQERITSTKKGSVTSIQAIYVPADDYTDPAPATTFAHLDATTNLDRGLSEQGIYPAVDPLASTSRALDPEVVGQEHYDVAVEVQQTLQRYRELQDIIAILGMDELSDEDKLVVSRARRIQFFLSQNFHVAEQFTGQPGSYVPVEETVKGFKEILAGKYDDLPEDAFRLVGRIEEVVEKAKSME PGPT0014296_2786 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112 NA NA AK015_03985 870 atpG COG0224 ATP synthase gamma chain TTGGCATCACTTAGAGAGATTAAAGGTAGAATAACTTCTACGCAAAAAACGAAAAAAATCACCTCTGCCATGCAGATGGTTTCAGCTTCTAAAATGGCAAAAGCAGAGCAAAATACAAAAGCTTTCGAACCTTACAGTAAAAAAATTCAAGAAGTGATGGCACATATTGCAAACTCTGCTACAGAGACTACACATCCTATGTTGGAAAAACGAGCAGTAAAACGAACGGGGTATATGGTCATCACAGCAGATAAAGGACTTGTCGGAGCATACAACAGCCACATTTTAAAAGCTCTGTATCAAAGAATTCAACAGAATCATCAATCCAAAGATGAGTACACCATTATAGCCATCGGTAGAATGGGCTATGAGTTCTGTAAAAAGATGGATCTGCCAATTACACAAAGCATTATTGGTATTGGCGATCAGCCTGACTTTGCAGATATTAAAGAAATTGCTTCGGAAACGGTGCAATTATATGTAGATGAAGAAATTGATGAGCTACACATCATTTATAATCATTATGTAAGTGCCATCTCGCAAAAGGTAACGACAACGCAACTGTTGCCGATTACGGATTTAGGAGTGCAGACTACTGATTCTGCCTTTCATGATGAGTATGAGTATGAGCCAAATGAGCAACAAATTCTCGAAGTGCTTTTACCACAATATGCAGAGAGTCTCATTTATGGAGCATTATTGGATGGAAAAGCAAGTGAACATGCGGCAAGTATGACTGCAATGAAGAGTGCAACAGATAATGCTAATGAGCTTATTGATGATTTAACATTGACCTACAACCGCGTGCGTCAAGCTGCAATTACACAAGAAATAACAGAAATTAGCGGAGGAGTCGCCGCGCTTGAATAG MASLREIKGRITSTQKTKKITSAMQMVSASKMAKAEQNTKAFEPYSKKIQEVMAHIANSATETTHPMLEKRAVKRTGYMVITADKGLVGAYNSHILKALYQRIQQNHQSKDEYTIIAIGRMGYEFCKKMDLPITQSIIGIGDQPDFADIKEIASETVQLYVDEEIDELHIIYNHYVSAISQKVTTTQLLPITDLGVQTTDSAFHDEYEYEPNEQQILEVLLPQYAESLIYGALLDGKASEHAASMTAMKSATDNANELIDDLTLTYNRVRQAAITQEITEISGGVAALE PGPT0014297_3178 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115 NA NA AK015_03986 1512 atpA COG0056 ATP synthase subunit alpha ATGAGCATCAAAGCTGAAGAGATTAGCAGTCTGATTAAACAGCAAATTGAAACTTTTGATACAGATATTGAAGTTAGCGATGTCGGCACAGTAATCGAAATCGGTGACGGTATTGCTCGTGCTCATGGTCTAGATAACGCGATGGCCGGGGAATTACTTGAATTCTCTAATGGCGTGATGGGCTTGGCGCAGAACTTAGAAGAAAGTAATGTGGGGATTGTTATTTTAGGTCCTTACAGTGAAATAAAAGAAGGGGATGAAGTACGTCGTACAGGACGTATTATGCAAGTACCTGTTGGAGATGAATTAATTGGTCGTGTGGTTAACCCACTAGGACAACCATTGGACGGTAAAGGTGCGATAGAAGCAACGAAAACACGTCCGATTGAATCTCCTGCACCCGGGGTAATGGATCGTAAATCTGTTGACGAACCATTACAAACAGGTATAAAAGCGATTGATGCGCTCGTACCAATTGGTAGAGGGCAACGTGAATTAATTATCGGTGACCGACAAACAGGTAAAACAACGGTTGCGGTGGACACCATCTTGAACCAAGCAGATCAAGACATGATTTGTATTTATGTGGCGATTGGTCAGAAAGACTCTACTGTACGAAGCACCGTGGAAACATTCCGTCGTTATGGTGCTTTAGATTATACGATCGTTGTATCAGCTGGTGCTTCTGATCCTGCTCCATTATTATACTTAGCTCCTTATGCAGGTGTTGCTATGGGAGAAGAATTTATGTATAACGGTAAGCACGTGCTTGTAGTTTATGATGATTTGTCCAAACAGGCTGTAGCTTATCGTGAGCTTTCATTACTTTTACGTCGCCCGCCTGGACGTGAAGCATTTCCTGGTGACGTATTCTACATTCACTCTCGTTTATTAGAGCGTGCGGCTAAGTTAAGTGATGCAAAAGGTGGCGGTTCTTTAACGGCGTTACCATTTGTTGAAACACAAGCTGGTGATATTGCTGCCTATATTCCAACAAACGTTATTTCCATTACAGACGGACAAATTTTCTTACAATCAGATCTATTTTTCTCTGGCGTTCGTCCAGCGATTAATGCTGGTTTATCCGTATCACGTGTTGGTGGTTCAGCACAAATTAAGGCGATGAAAAAAGTTGCAGGTACTTTGCGTTTGGACTTAGCTTCTTATCGTGAGTTACAAGCATTTGCGCAATTTGGTTCCGATCTGGATAAAGCGACACAGGCAAAACTAAACCGTGGAGAACGCACTGTAGAGATTTTAAAACAAGGATTGCATAAACCAATGGCTGTAGAAAAACAAGTTATGAGTATTTATGCACTCACTAAAGGGTTCCTTGATGATATTGCAGTAGAGGACATTCTTCGTTTCGAAGAAGAAATGAATACTTGGTTAGAGAATAATCGTAAAGAGCTTCTAACTTCCATTCGTGAGACTGGAAAATTACCTGATGAATCAGAAATGAACGAAGCTATTGAAGCTTTCAAGAAAACATTTTTGCCATCTGAAGGTTAA MSIKAEEISSLIKQQIETFDTDIEVSDVGTVIEIGDGIARAHGLDNAMAGELLEFSNGVMGLAQNLEESNVGIVILGPYSEIKEGDEVRRTGRIMQVPVGDELIGRVVNPLGQPLDGKGAIEATKTRPIESPAPGVMDRKSVDEPLQTGIKAIDALVPIGRGQRELIIGDRQTGKTTVAVDTILNQADQDMICIYVAIGQKDSTVRSTVETFRRYGALDYTIVVSAGASDPAPLLYLAPYAGVAMGEEFMYNGKHVLVVYDDLSKQAVAYRELSLLLRRPPGREAFPGDVFYIHSRLLERAAKLSDAKGGGSLTALPFVETQAGDIAAYIPTNVISITDGQIFLQSDLFFSGVRPAINAGLSVSRVGGSAQIKAMKKVAGTLRLDLASYRELQAFAQFGSDLDKATQAKLNRGERTVEILKQGLHKPMAVEKQVMSIYALTKGFLDDIAVEDILRFEEEMNTWLENNRKELLTSIRETGKLPDESEMNEAIEAFKKTFLPSEG PGPT0014298_4149 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111 NA NA AK015_03987 546 atpH COG0712 ATP synthase subunit delta ATGAGTAATGAAACAATAGCGAAGCGTTACGCGGATGCTCTTTTCCAACTTGGTCAAGAAAAGTCTCTACTTGAAGCGTTGACTCAAGAGTTGAAAGTAGTCAAAAAAGCTTTTCAAGACAATAAAGATCTTTATACATTCCTCATGCATCCACGTATTAGCAATGCGAAGAAACAACAATTTTTGCAAGATGTATTTCAACAGGCGCATAAAGAAGTGGTGAATATATTAAATCTGCTTGTGCAGCGTCATCGAATTGATTTACTTCCGGCAATTATTGATCATTTTATTCGGCTAGTAAATGATGCAAAAGGAATTGCAGCTGCAACCGTCTATTCTGTAAGAGCATTATCGGAGGAAGAATGTCGGGAATTGGAGTCAAGCTTTGCCAAGCGTTTTGATAAACAGGCAATCGAGCTAACAAATATTGTTGATCCTTCCTTAATCGGTGGCATGAAAATACGTGTTGGCAATACGATTTATGATGGCTCCGTTAGCGGTAAGCTGAAAAGAATTGAGCGAAATATTGTAACTGCAAACAAATGA MSNETIAKRYADALFQLGQEKSLLEALTQELKVVKKAFQDNKDLYTFLMHPRISNAKKQQFLQDVFQQAHKEVVNILNLLVQRHRIDLLPAIIDHFIRLVNDAKGIAAATVYSVRALSEEECRELESSFAKRFDKQAIELTNIVDPSLIGGMKIRVGNTIYDGSVSGKLKRIERNIVTANK PGPT0014299_2352 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113 NA NA AK015_03988 528 atpF ATP synthase subunit b GTGTATTCATACATCGATGTTTTATCCGTAGGTGCCAGCGTTGGAGGCTTAAGAGTAATCGATATGGCGATTCAATTATTTTTCTTCCTTCTTCTACTATACTTAGTAAAGAAATTCGCTTGGGGCCCAGTTATTAATATGATGCAAAAGCGTGAAGAATATGTAGCTAATGAAATAGATGCAGCTGAAAAAAGCCGTGCTGATGCTGAAAAAGCTTCTCAAGAAGCACAGGAACGCTTAAAGCAAATGAAACAGGAAGCACAAAAGATTGTGGATGATGCAAAAGAGGCTGGTCAAAAGCAAGAGCAAGAAATTATTCGAGCAGCTCGCGAAGAGGCTAATCGCCTTAAAGAATCTGCCCAAGCAGACATCCAAAATGAAAAAGAAAAAGCATTACAAGCATTACAGGATAAAGTTGCATCATTATCAGTATTAATTGCAACGAAAGTGATTGAAAAAGAAATCGATGAGAAAGATCAAGAGAAACTGATTAATGAGTACATTAAAGAGGTAGGAGAAGAGCTATGA MYSYIDVLSVGASVGGLRVIDMAIQLFFFLLLLYLVKKFAWGPVINMMQKREEYVANEIDAAEKSRADAEKASQEAQERLKQMKQEAQKIVDDAKEAGQKQEQEIIRAAREEANRLKESAQADIQNEKEKALQALQDKVASLSVLIATKVIEKEIDEKDQEKLINEYIKEVGEEL PGPT0014301_2284 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109 NA NA AK015_03989 213 atpE ATP synthase subunit c ATGGAAGCTTTAGCAGCAGCAATAGCAATTGGTTTGGCAGCGTTAGGCGCTGGTCTTGGTAACGGAATGATCGTTAGTAAAACAGTAGAAGGGATTGCTCGTCAACCAGAATTAAAAGGTTCATTACAAGGTACAATGTTTATCGGGGTAGCACTAGTTGAGGCGATTCCTATTATCGCAGCGGTAATCGCATTTATGGCTATTTTTATGTAA MEALAAAIAIGLAALGAGLGNGMIVSKTVEGIARQPELKGSLQGTMFIGVALVEAIPIIAAVIAFMAIFM PGPT0014302_3041 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110 NA NA AK015_03990 723 atpB ATP synthase subunit a GTGAATCATACTGCGCCAATAGCACATGACCTATTTGGTATTTCCTGGTTCGACGTCAACTTGGCGAATCTTTTCATGGTAGCTGTTTCTTCAGCCATCGTGTTTATACTTAGTGTCATTGCAAGTCGAAAGTTGCAAATGAGGCCAACTGGTTTGCAAAATTTTATGGAATGGATCGTTGAATTCGTGAAAGGGATTATTAGCGATACCATGGATTGGAAAACCGGTAAAATATTCCTCCCGCTTGGTTTAACATTAATAACCTATATCTTAGTTAGTAATTTGCTAGGAGTAGCCACAGTAGGGGTAATTGGTCATGATTTATGGTGGAAATCGCCGACGGCTGATGCAACATTAACATTAACATTATCAGGTATGGTTATTTTATTAACCCATTTTTATGGAATCAAGATTCAAGGTATGAAGCATTATTTGAAAGGCTATGTTAGTCCTGCGCCAATTATGCTCCCTTTTAAAATTATTGAAGAGTTTACCAATACGTTAACGTTAGGTCTTCGTCTATTTGGTAATATTTATGCTGGGGAAGTGTTGTTAGGGCTGCTAGTAGGACTTGCAGGATCTAATGCTCTTGGTTTTCTAGGTGCAGCATTACCTATGCTTGCATGGCAAGGATTCAGTGTCTTTATTGGTGGAATTCAAGCCTTTGTATTTACAATGTTAACAATGGTGTATTTGTCTCATAAGGTGAGCAGTGACCATTAA MNHTAPIAHDLFGISWFDVNLANLFMVAVSSAIVFILSVIASRKLQMRPTGLQNFMEWIVEFVKGIISDTMDWKTGKIFLPLGLTLITYILVSNLLGVATVGVIGHDLWWKSPTADATLTLTLSGMVILLTHFYGIKIQGMKHYLKGYVSPAPIMLPFKIIEEFTNTLTLGLRLFGNIYAGEVLLGLLVGLAGSNALGFLGAALPMLAWQGFSVFIGGIQAFVFTMLTMVYLSHKVSSDH PGPT0014303_3683 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108 NA NA AK015_03991 387 hypothetical protein ATGTCGGAATATAAAATAATGGTTGCACGACAGCGGAAATGGATGCTCTATCTGCTTGCAATTTTTGTTATAGGAGCTGGCTTTACACCGTATGTACAGATCTTTCTTGGTTTGTTACTAGGCACATCTATCAGCTTTTATAACTTGTATTTACTCCAGAAGAAAGTAGATCTGTTTGGCGAGGCTGTGACGAGTAATCAAAAAGTAAAAACATTAGGAACACTATCGCGTATGACTGCCGCAATCCTTGCCATCTTAATTGCCATTCGGTTTGATGCCTACTTTCATATTATCGCTGTAATTATTGGATTAATGACATCTTATCCTGTCATTATGATAGATTTTGCTCTAAGTAACTTTAAACAATCGCACAAGAAGGAGGGGTGA MSEYKIMVARQRKWMLYLLAIFVIGAGFTPYVQIFLGLLLGTSISFYNLYLLQKKVDLFGEAVTSNQKVKTLGTLSRMTAAILAILIAIRFDAYFHIIAVIIGLMTSYPVIMIDFALSNFKQSHKKEG PGPT0030480_1164 PUTATIVE PGPT PUTATIVE_PGPTs PUTATIVE_FUNCTIONS PUTATIVE_FUNCTIONS-1 PUTATIVE-ENERGY_METABOLISM PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116 AK015_03992 2202 vpr COG1404 Minor extracellular protease vpr ATGCGTGTACGAATAATGATTATTAGTATGATTGTCGTGATAATGACATTTATTTCTATAGGTGTTACTAGCTCAGGAGAACAGTTGAAAGAGAAGCAAGAAATGAATGAAAAAGCAGTTATTATTGAAGTAAAAGGTAATCCAAAAGATCATCAATTGTTTTTGGAGAATCATTATCCCTCTATTCAAGTGGTGGCAGTGTATACAGAATTGTTTAACGGTCTTGCTTTAAAGGGAGATAAAAGACAACTGGAGCGAATGGGGTCGCTAGAGTTTGTGAAAACCGTTCACTCCGTTCATAAATATGAAACAACAACGAACCAATTGAACCAACCGAACGATAAAAATGCCATTTTTCCTTTTGATTTAAATAATACAACATATACGGGTAAAGGTGTTAAAGTGGGCGTGATTGATACTGGAATAGATTATAACCATCCAGATTTACAGACGAATTACAAATCAGGGTATGATGTAGTTGATTTAGATAATGATCCGATGGAAACAAAGCCGCAACAAGGAAAACCGACATTACACGGTACGCATGTTGCTGGCATTATTGCTGCTAACGGAAATTTAAAAGGCGTAGCCCCTGATGCTGAGTTATACGGTTATCGCGCGTTAGGTCCAGGAGGAAGTGGTACTTCGGTACAGGTGATTGCTGCTATGGAGCAGGCGATAAAAGATGATGTGGATATCATTAATTTGTCTTTAGGTAATCAAGTGAATGGGCCAGATTACCCGACAAGTGTAGCTGTAAATAAAGCTGCTGAATTAGGTGTTGCTGTTGTTATAGCGAATGGGAATGCAGGGCCTGGGGGATGGACTGTTGGCTCACCTGCGACAGCAAATCACGCATTATCCGTTGGTGCTGCCAGTCATCAACAACAAGTCCCGTATTTATATGCTCGATGGGAGGATAAGCGTATTTCTATACAAGAAATGGCAGGCGCACCGTCGTGGCTGCTTGATACATTTTATCCCATTAAGCATGCAAACAAAGGTGCAAATGTAAAAGGGAAGATAGCTCTCTTTCAACGAGATGAAACTCCTTTTGTAGAAAAAGTGGAACAAGCTCAAGCTGCAGGTGCTAAAGCCGTGATTATTGCAAACAATGAAGAAGGACCTCTACACGGGGATGTATCTACTGCAAAAAATGCTGTTCAGATTCCGGTTGCTACTATATCGAAGCAGGATGGTGCGTGGTTGGAAGAATATTTACAGTCAGATCGTCTTCACTTAGATACGAAATACGAAAACAAAGCTTCTTCTATTGCCCCATTTAGTTCAAGAGGGCCAGTCACTATTAATTGGAATATTAAACCAGATGTTGTTGCGCCTGGGACGAATATTGTAAGTACAGTTCCTGGTGGTTATCAAGCTTTACAAGGAACGAGTATGGCCGCTCCTCATGTAAGTGGTGTCATTGCATTAATAAAAGAAGCTAGACCTGAATGGACGAATCAACAAATATATGGAGCGATTAAAACGACAGCGTTACGAATGGAAGTAAATCAAAAACCGTTACATCCTACCATTCAAGGAATGGGCCTCATTCAACCTAAAGAAGCTATAGAAGCGGGGACAATTATAGATGATCCACAATTAACGTTTGGTAAAGTTCAGGGGAACAGTGAAGTGAAAAACGAACAAATTATTATAGAAAATAGGACAAAAGAAGAACAAACGTATTATTTTGACATTCCATGTAAGCAACGCGGGATAAGTTGGAACTTACCACAAGCTGTAACGATACCTGCGAATGAAAAAAAACAACTTTCTATTGGAGCAAGAATAACATCTCAACAGTTAGAAGAAGGCGTTCATCAAGGTTGGCTCACGTTAAAGCAAAGCAGTACAGTACATCATTTGCCGTATTTATTTGTAAATCAGAATGCGGATAATCCAAAGGCGATGGGGTTTGAATTTGCATTAGAGCCTTTATCGAATGATACATTTTCGTATCACTATTATATGACAGAGCCAGCCACAAAAGTACAAGTGAATTTGTATGATCCAGACACGCTTGTATTCGATAGACAGCTTATAGAGGATACGGATGTAGCGGTAGGGATGAATGAAGGTGAATTAAATGCGCGAAAAGTAGGGAAGGCAGGTTTTTACTATGCAGTCGTTTCCGTAGAACTTAACACAGGGGAAAATGCAAGTTATGAAACAATGATATATGTTCCTCCGAAGTAG MRVRIMIISMIVVIMTFISIGVTSSGEQLKEKQEMNEKAVIIEVKGNPKDHQLFLENHYPSIQVVAVYTELFNGLALKGDKRQLERMGSLEFVKTVHSVHKYETTTNQLNQPNDKNAIFPFDLNNTTYTGKGVKVGVIDTGIDYNHPDLQTNYKSGYDVVDLDNDPMETKPQQGKPTLHGTHVAGIIAANGNLKGVAPDAELYGYRALGPGGSGTSVQVIAAMEQAIKDDVDIINLSLGNQVNGPDYPTSVAVNKAAELGVAVVIANGNAGPGGWTVGSPATANHALSVGAASHQQQVPYLYARWEDKRISIQEMAGAPSWLLDTFYPIKHANKGANVKGKIALFQRDETPFVEKVEQAQAAGAKAVIIANNEEGPLHGDVSTAKNAVQIPVATISKQDGAWLEEYLQSDRLHLDTKYENKASSIAPFSSRGPVTINWNIKPDVVAPGTNIVSTVPGGYQALQGTSMAAPHVSGVIALIKEARPEWTNQQIYGAIKTTALRMEVNQKPLHPTIQGMGLIQPKEAIEAGTIIDDPQLTFGKVQGNSEVKNEQIIIENRTKEEQTYYFDIPCKQRGISWNLPQAVTIPANEKKQLSIGARITSQQLEEGVHQGWLTLKQSSTVHHLPYLFVNQNADNPKAMGFEFALEPLSNDTFSYHYYMTEPATKVQVNLYDPDTLVFDRQLIEDTDVAVGMNEGELNARKVGKAGFYYAVVSVELNTGENASYETMIYVPPK PGPT0020990_333 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 AK015_03993 1119 mnaA COG0381 UDP-N-acetylglucosamine 2-epimerase ATGACACGTAATCGGATAAAAGTAATGACGATTTTTGGAACCAGGCCAGAAGCTATTAAAATGGCTCCGCTCGTTCTCGAGTTGAACAAGCGCAGTGAGGAATTTGAATCCATTGTCACTGTGACTGCACAACATCGTGAAATGCTAGATCAAGTGTTGGATATTTTTGACATTACCCCAGATTATGATTTGAATATTATGAAGAAGCAGCAAACACTAGCGCAAATTACGACAAGAGCGTTAGAGGGGCTGGACGAAGTAATGAAAAAGACGCAGCCTGATATTGTGCTTGTTCATGGAGACACAACTACTACGTTTGCTGCTTCTCTTGCTGCATATTACAACCAAATTGCAGTAGGTCACGTAGAAGCTGGTCTAAGGACGTGGAATAAGTACTCTCCTTATCCAGAAGAAATGAATCGCCAATTAACCGGGGTTATGGCAGATTTACACTTTGCTCCAACGGAAAAATCAAAAGCGAATTTATTACAGGAAAATAAACCTAGTGAACGAATTGCTGTTACAGGAAATACAGCTATTGATGCACTGAAAACTACGGTAGATCCTTCGTACACGAGTCCAATTTTAGATCGTATAGCAGGAAAACGACTTATTCTAATGACTGCACATCGGAGAGAGAACCTAGGGAAAAATATGCAGCAAATGTTTAGAGCAATTAAACGTTTAGTGGAAACGCATGATGATGTTCACGTTATTTATCCAGTACACTTGAATCCTGTTGTGAAACAAGCAGCAGATGAGATTTTAGGAAATGATACACGCATTGACCTAATTGAACCTTTGGGTGTCGTTGACTTTCATAATTTCGCGTCACGTGCACACTTAATATTGACAGATTCTGGTGGTGTACAGGAAGAAGCACCATCGCTTGGAGTTCCTGTCCTTGTTTTAAGGGATACAACAGAGCGTCCAGAAGGCATTGAAGCTGGAACGTTGAAATTAGCTGGAACAGAGGAAGAGCCTATTTATCAAATGGCAAATGAATTGTTAACGAATAAACAATCTCATGAGAAGATGGCAAAAGCGTCCAACCCTTACGGTGATGGACAAGCCTCCCGCAGAATTGCTGATACAATTGTGGATTATTTTGATAAATAA MTRNRIKVMTIFGTRPEAIKMAPLVLELNKRSEEFESIVTVTAQHREMLDQVLDIFDITPDYDLNIMKKQQTLAQITTRALEGLDEVMKKTQPDIVLVHGDTTTTFAASLAAYYNQIAVGHVEAGLRTWNKYSPYPEEMNRQLTGVMADLHFAPTEKSKANLLQENKPSERIAVTGNTAIDALKTTVDPSYTSPILDRIAGKRLILMTAHRRENLGKNMQQMFRAIKRLVETHDDVHVIYPVHLNPVVKQAADEILGNDTRIDLIEPLGVVDFHNFASRAHLILTDSGGVQEEAPSLGVPVLVLRDTTERPEGIEAGTLKLAGTEEEPIYQMANELLTNKQSHEKMAKASNPYGDGQASRRIADTIVDYFDK PGPT0018905_2154 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 AK015_03994 630 upp Uracil phosphoribosyltransferase ATGGGAAAAGTATTTGTACTTGATCACCCATTAATTCAACATAAACTAACGTACATAAGAGATAAAAACACGGGTACTAAAGAGTTTCGTGAGCTAGTCGATGAAGTCTCCATGCTTATGGCATTTGAAATTACACGAGACCTTCCTTTACAAGAAAAAACGATTGAAACGCCAGTAATAGAAACCAAAGCAAATGTACTAGCAGGCAAAAAAATTGGTTTAGTACCTATTCTGCGTGCAGGATTAGGGATGGTAGACGGAATGCTTGATTTAATACCTGCTGCTAAGGTAGGTCATGTTGGGCTTTACCGTGATCCTAATACATTACAGCCAGTTGAATACTATATAAAATTACCTTCTGATATTCATGAGCGTGAATTGATCGTTATCGACCCTATGTTAGCGACAGGTGGTTCGGCAAATGATGCTATCCATTCATTGAAAAATAGGGGAGCAAAGCATGTAAAGTTGATGTGTTTAATAGCTGCACCAGAAGGCGTAGAAGTAATTAAGCAAGAGCACCCTGATGTTGATATTTACTTAGGTGCGATGGATGAAAAGTTGGATGAAAAAGGCTACATTATTCCTGGATTAGGAGACGCTGGCGATCGACTTTTCGGGACAAAGTAG MGKVFVLDHPLIQHKLTYIRDKNTGTKEFRELVDEVSMLMAFEITRDLPLQEKTIETPVIETKANVLAGKKIGLVPILRAGLGMVDGMLDLIPAAKVGHVGLYRDPNTLQPVEYYIKLPSDIHERELIVIDPMLATGGSANDAIHSLKNRGAKHVKLMCLIAAPEGVEVIKQEHPDVDIYLGAMDEKLDEKGYIIPGLGDAGDRLFGTK PGPT0021240_2906 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761 NA NA AK015_03995 1155 ftsZ COG0206 Cell division protein FtsZ ATGTTAGAATTTGATATGAATATGGAAGAATTAGCTACAATAAAAGTAATTGGAGTAGGTGGAGGAGGTAACAATGCTGTCAATCGTATGATTGAGCATGGTGTAGAAGGTGTAGAATTTATAGCAGTAAATACCGATGCGCAAGCATTAAACCTTTCTAAAGCTGAATTAAAGATTCAAATAGGTGAAAAATTGACAAGAGGTTTGGGTGCTGGTGCTAATCCAGAAGTTGGAAAGAAAGCAGCTGAAGAAAGTAAAGAGCAACTGGAAGAAGTGTTACAAGGTGCAGATATGATCTTCGTTACTGCTGGTATGGGGGGAGGAACGGGAACAGGTGCTGCACCTGTTATAGCACAAATTGCTAAAGATTTGGGTGCTTTAACAGTCGGGGTAGTTACTCGACCATTTTCCTTTGAAGGAAGAAGACGCTCCACCCAAGCCATTTCAGGGATCGATGCGTTAAAAGGAAGCGTTGATACGCTAATTGTCATTCCAAACGACCGTTTGTTGGAAATAGTAGATAAAAATACACCGATGTTGGAGGCTTTCCGTGAAGCTGATAATGTATTACGTCAAGGTGTACAAGGCATATCTGATTTAATTGCTAAACCAGGGTTAATTAACGTCGATTTTGCTGACGTTAAAACAATTATGTATGATAAAGGTTCTGCTTTAATGGGAATCGGTGTCGCAACAGGTGAAACTCGAGCGACAGAAGCAGCTAAAAAAGCTATATCTTCACCATTACTTGAAACTTCCATCGATGGCGCACATGGTATTTTAATGAACATTACCGGTGGAACAAATTTAAGTTTATATGAAGTGCAAGAAGCTGCGGACTTAGTGACTTCTGCTGCAGATAATGAAGTGAACGTAATATTTGGTTCTGTTATTAATGAAAATTTAAAAGACGAAATTATAGTCACTGTCATTGCTACAGGTTTTGATGAATCTGTTCAAAAATCAGAACAACCTGCTAGACAGCAGCGATCTGCACAGCAGCAACATGCAGCGACTCGTACAAATGATACAGTGTCAAGAAGGGAAAGAGAAAGAGAGCCTGAACCTCAACAGCAACAGCGCCATGCCCAAGAAGAGGATACATTAGATATTCCTACCTTCTTGCGAAACCGGAACCGAAATAGAAATCGTTAA MLEFDMNMEELATIKVIGVGGGGNNAVNRMIEHGVEGVEFIAVNTDAQALNLSKAELKIQIGEKLTRGLGAGANPEVGKKAAEESKEQLEEVLQGADMIFVTAGMGGGTGTGAAPVIAQIAKDLGALTVGVVTRPFSFEGRRRSTQAISGIDALKGSVDTLIVIPNDRLLEIVDKNTPMLEAFREADNVLRQGVQGISDLIAKPGLINVDFADVKTIMYDKGSALMGIGVATGETRATEAAKKAISSPLLETSIDGAHGILMNITGGTNLSLYEVQEAADLVTSAADNEVNVIFGSVINENLKDEIIVTVIATGFDESVQKSEQPARQQRSAQQQHAATRTNDTVSRREREREPEPQQQQRHAQEEDTLDIPTFLRNRNRNRNR PGPT0027695_4024 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 AK015_03996 1281 ftsA_2 COG0849 Cell division protein FtsA TTGAACAACAGTGATATTTTAGTAAGCCTAGATATAGGTACATCAAAAATAAAAGTAATTATCGGTGAGGTTTTAAATGATTCATTAAATATTATTGGTGTAGGTACTGCTAAATCGAATGGTATGAAAAAAGGAGCTATCATAGATATAGATCAAACGGTACATTCCATTCGTAATGCAGTAGACCAAGCCGAAAGAATGGTTGGTATGAAAATTGAACGCGTAGTTGTAGGAGTGAATGGGAATCACATTCAATTGCAACCATGCCACGGAGTTGTAGCAGTTCAAAGCGAAAACCGTGAAATAACGGATGAAGATGTTACAAGGGTAATTGATGGTGCGCAAGTAATGTCTATTCCTCCAGAAAGAGAAATCATTGATGTTATTCCTAAACAATTTATTGTCGATGGGTTAGATGAAATTAATGACCCTAGAGGGATGATTGGCGTACGTTTAGAAATGGAAGGGACTATCATTACTTGTTCAAAAACTATTTTGCACAATATCTTAAAATGTGTAGAACGTGCTAACCTCGAAGTAGCGGACATCTGCCTTCAACCGCTTGCCGCCGGAACAATTGCTTTATCGAAAGATGAAAAAAGCATGGGAGTCGCTTTAATAGATGTAGGCGGCGGTTGCTCCACAGTTTCCATCTTCGAAAATGACCATCTGGTTTCATCTAGTGTTATACAATTAGGCGGAGACAATATCACAAAAGATCTATCCATTGGATTACGTACGTCGACAGAAGAAGCTGAAAATGTAAAGTTAAATTTTGGACATGCCTTCTATGATGATGCAATGGAGGAAGAAGTATTCGATGTATCCATTATCGGAAGTAATTCTAAACAAACGTCGAATCAATTAGAAATAGCAGATATAATTGAGGCAAGGATGGAAGAAATTTATGCCTTTGCTGAGAAAGAAATACGACAAATGGGTTATCAGGAATTACCTGGGGGTTATGTATTAACTGGTGGAACGATGGCAATGCCTGGTGTGCTTGAGTTGGCTGAAGACGTATTTCGTTCTAATGTTCGAATTGCTATCCCCGATTACATAGGTGTGCGGGAGCCACAATTTACTCCAGGCGTTGGTATCTTGCAATTTGCTTATTGGAATGCGAAAATACAGGGAAAAGATTTATTTCCAACTGTCATTTCACAAGATCCAGACGCTCAACCAAAACGTATAAAGAAACAAGCGAAAGCAAATGAAACGAAAGAACCAAAGAAAAAAGAAGCTAAAATTGCTAATTTGTTTAAGTATTTTTTTGATTAA MNNSDILVSLDIGTSKIKVIIGEVLNDSLNIIGVGTAKSNGMKKGAIIDIDQTVHSIRNAVDQAERMVGMKIERVVVGVNGNHIQLQPCHGVVAVQSENREITDEDVTRVIDGAQVMSIPPEREIIDVIPKQFIVDGLDEINDPRGMIGVRLEMEGTIITCSKTILHNILKCVERANLEVADICLQPLAAGTIALSKDEKSMGVALIDVGGGCSTVSIFENDHLVSSSVIQLGGDNITKDLSIGLRTSTEEAENVKLNFGHAFYDDAMEEEVFDVSIIGSNSKQTSNQLEIADIIEARMEEIYAFAEKEIRQMGYQELPGGYVLTGGTMAMPGVLELAEDVFRSNVRIAIPDYIGVREPQFTPGVGILQFAYWNAKIQGKDLFPTVISQDPDAQPKRIKKQAKANETKEPKKKEAKIANLFKYFFD NA NA NA NA NA AK015_03997 783 divIB COG1589 Cell division protein DivIB ATGGCTCAGAAGAAAGTCGTTTCGATTGAAGATCGAATTCCAAAATTAAAACAAGCAAGGAAAAAAAAGGCAAACCGCAGGCTGTTATTTTACCTGTCTATTTTTTTCATTTTGATTTCAATTATTGTTTATTTACAATCGCCGTTAAGTTATATACGTACGATCCAAGTAGAAGGTAATTCTTTTTTACAGGATAATGAAATTGTAAAACAAGCGGATTTAACCGATAATAAAAACATATGGACAATTGATACTGATGCGATAGAGTCGATGTTAAATGATAGTCCAATTATTGCTTCTGCTAAGGTAAGTCGAAAATTACCTTGGACCGTTTCCATCACGGTTGAAGAATACGAACTTGTTGGTTACACACAAAAAGAAACGACTTACTATCCAGTATTAGGTAATGGAACAACACTTCAAAGTATGGCAAAAAAAACGTATAATGGAGATGCTCCGCTATTAAAGGGGTTTAATAAGGAAACGTATTTACATAGGTTAACGAATGAAATGGAAAAACTACCTGAAACGATTCGAAATCTAATTTCGGAAGTGCATTGGACACCAGAAAAAGATAATAACGATAAGATGCGGTTATATATGAATGATGGTTTTATCGTTGATGCTCGCATTCCAAACTTTGCTGATAGTATGGAAATATACCCCTCCATCGTGTCACAACTAGATGAAGAAAGCGAAGGAATTATTCATATTGGGGTTGGTGCATATTTCGAGTCATTTCACAATGGAAAGAAGGGACAAAAGGCTGAGAAGGAGGATTAG MAQKKVVSIEDRIPKLKQARKKKANRRLLFYLSIFFILISIIVYLQSPLSYIRTIQVEGNSFLQDNEIVKQADLTDNKNIWTIDTDAIESMLNDSPIIASAKVSRKLPWTVSITVEEYELVGYTQKETTYYPVLGNGTTLQSMAKKTYNGDAPLLKGFNKETYLHRLTNEMEKLPETIRNLISEVHWTPEKDNNDKMRLYMNDGFIVDARIPNFADSMEIYPSIVSQLDEESEGIIHIGVGAYFESFHNGKKGQKAEKED NA NA NA NA NA AK015_03998 1047 ftsW_3 COG0772 putative peptidoglycan glycosyltransferase FtsW TTGCTCGTAATTGGTGTTGTAATGGTTTATAGTTCATCTTACGTTTGGTCAGCGTATAAGTTTTCTGATTCCCTCTATTATGTAAAACGACAACTGTTATTTGCGGGTACTGGAGTAATAGCTATGTTGCTTATTATGAATGTTCCTTATACAACATGGAAAAAGTATGCAAAGCTGATTTTACTAGTTTGTTTTTGTTTATTATTTCTTGTTTTAATACCTGGCATTGGCATGATAAGAGGAGGAGCGCAAAGTTGGATTGGAATTGGGGCATTTAGTATTCAACCGTCAGAATTTATGAAATTAGGTTTGATTATTTTCCTAGCTTCCCACTTAGCCAAATATCAAAAATATATTACATCGTTCAAAAAAGGGTTTTTACCTTCCATTCTATTGATATTTACTGCTTTTGGTTTAATTATGTTGCAGCCAGATTTAGGAACAGGTATGGTATTAGTATTAACTTGTATGGTGATGGTCTTTACTGCAGGAGCTAGATTATCTCATTTTTTTGGTTTAGGAGCTCTAGGGTTAGTGGGTTTTATTGGTTTGATTGCTTCTGCACCATATAGAATTAGTCGGATTACAGCTTTTTTGAACCCATGGGAGGATCCGCTAGGAGATGGTTTCCAAATTATTCAATCATTATATGCGATCGGTCCAGGTGGTTTATTAGGATTAGGATTCGGGAATAGTTTACAAAAATATTTTTATTTACCAGAACCTCAAACGGATTTTATCTTTGCTATCTTGGGTGAGGAATTAGGATTTATTGGCGGTACGGTTGTGATTATATTATTTCTTTTGTTGTTTTGGAGAGGAATCAAAATATCCTTAGAAGCACCAGATAGTTTCGCCCGTCTATTAGCTCTAGGCATCGTGTCCATGCTAGCGATACAAGCAATGATTAATATTAGTGTCGTCATTGGGCTAATTCCTGTAACTGGAATTACTTTACCATTTTTGAGTTATGGAGGATCTTCCTTAACATTAATTCTTTGCTCTGTAGGTATTTTGTTAAATATTAGTAAGTATACAAAAATATAA MLVIGVVMVYSSSYVWSAYKFSDSLYYVKRQLLFAGTGVIAMLLIMNVPYTTWKKYAKLILLVCFCLLFLVLIPGIGMIRGGAQSWIGIGAFSIQPSEFMKLGLIIFLASHLAKYQKYITSFKKGFLPSILLIFTAFGLIMLQPDLGTGMVLVLTCMVMVFTAGARLSHFFGLGALGLVGFIGLIASAPYRISRITAFLNPWEDPLGDGFQIIQSLYAIGPGGLLGLGFGNSLQKYFYLPEPQTDFIFAILGEELGFIGGTVVIILFLLLFWRGIKISLEAPDSFARLLALGIVSMLAIQAMINISVVIGLIPVTGITLPFLSYGGSSLTLILCSVGILLNISKYTKI PGPT0014810_4939 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588 NA NA AK015_03999 1362 murD UDP-N-acetylmuramoylalanine--D-glutamate ligase TTGAGAAAATTAAAAGATTTCCCTTATGAGCATGTTTTAGTTTTGGGGCTAGCGAAAAGCGGTACGGCAGCCGCAACCACATTACTCGAACAGGGGAAAAAAGTGCGAATAAATGATCAAAATGCAACAGAATCTGATGCAAATGTAAACCAATTAAATAAGATGGGGGTAGAGATAGGGGGAGAGTTAATTCTCGGCTCTCACCCTATTCGTGTTTTAGATGGGATAGAAGTCATCGTTAAAAACCCTGGTATTTCCTATGATAACTCTATTGTTGTAGCAGCCCAACAAAGGGGAATACCTGTAATAACTGAAATTGAAATAGCGGGTCAATTGGCAAGCGGACCAATTATTGGAATAACAGGTTCTAATGGTAAAACAACGACGACGACTTTAACTACTGAAATGCTAAAGCAAAGTGAAAAACCTGTTAAAGTTGCAGGGAATATTGGCATTGTTGCAACTGAAGTGGCAAAAAGTTTGCATCCAAAAGAGAATCTTGTACTAGAGCTATCATCTTTTCAATTAATGGGCGTCGAGAAATTTAAACCGAAAATTGCTGTACTACTTAATATATTTAAAGCCCATCTAGATTATCACAAAACATGGGAAAACTATAAACAAGCAAAATATAATATTTTTAAAAACCAAACGAAAGATGATTTTCTTGTTTATAACGCAGAAGATAAAAATTTGTTAAAGGCTATTAAACTTGCAAAAGCGCAAAGAATACCATTTTCTGTTAAAAGGAAACAGAGCGATGGGGCTTGGCTTGACAACGAAGCGATCTACTTTAAAGAAGAAAAAATTATGGAACGTAAGGATATTGTCTTATTAGGATCGCATAATTACGAGAATATTTTAGCTAGTGTAGCAGCTGCTAAGTTAAGTGGAGCAACAAATGAAGGAATTCAAAAAGTGTTAAGTATGTTTACAGGTGTGAAACACAGATTACAATTTGTAGAAAATCACCGTGAGCGATTGTTTTATAATGATTCAAAAGCTACCAATTGTCTAGCTACGCAAAAAGCTTTATCAGCCTTTAATCAACCTATTATTCTACTTGCAGGAGGATTAGACCGTGGTAACGGTTTTGACGAACTCCTACCATATATGCAGCACGTGAAAGCAATGGTATTATTTGGTGAAACTGCTTCAAAACTAGAAAATTTGGGAATGAAAGCGCAAGTTTCTGATATTCGTGTAACTAAAAATGTGCAAACAGCAGTACAGGAAGCTTATGAAATATCTGAACCTAATGATGTCATATTGTTATCACCTGCTTGTGCAAGCTGGGATCAATATCGCACGTTTGAAGAAAGAGGAGACATGTTTATACAAGCCGTGCATACATTAGTATAG MRKLKDFPYEHVLVLGLAKSGTAAATTLLEQGKKVRINDQNATESDANVNQLNKMGVEIGGELILGSHPIRVLDGIEVIVKNPGISYDNSIVVAAQQRGIPVITEIEIAGQLASGPIIGITGSNGKTTTTTLTTEMLKQSEKPVKVAGNIGIVATEVAKSLHPKENLVLELSSFQLMGVEKFKPKIAVLLNIFKAHLDYHKTWENYKQAKYNIFKNQTKDDFLVYNAEDKNLLKAIKLAKAQRIPFSVKRKQSDGAWLDNEAIYFKEEKIMERKDIVLLGSHNYENILASVAAAKLSGATNEGIQKVLSMFTGVKHRLQFVENHRERLFYNDSKATNCLATQKALSAFNQPIILLAGGLDRGNGFDELLPYMQHVKAMVLFGETASKLENLGMKAQVSDIRVTKNVQTAVQEAYEISEPNDVILLSPACASWDQYRTFEERGDMFIQAVHTLV PGPT0024125_3033 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925 NA NA AK015_04000 987 mraY COG0472 Phospho-N-acetylmuramoyl-pentapeptide-transferase ATGAATATCACTATGTTAATGGTAACTATTTTAATAGCGTTTTTAATTACCGTCCTTTTATCTCCTATTTTTATTCCATTTTTGCGTAGATTGAAGTTTGGGCAAAGTATTAGAGAAGAAGGACCTAAATCCCATCTAAAAAAAACCGGGACGCCGACAATGGGAGGGATTATGATTGTATTCAGTATTGTTATCACCTCTCTCATTATGAGTTGGAAAGTAAATCCAGTTGGGGTTAACTATGAAATGTGGATTTTGTTGTTCGTATTAGTAGGATACGGGTTACTTGGATTTTTGGATGATTTTATAAAAATAATGAAAAAAAGAAATCTCGGATTAACTTCCAAGCAAAAATTACTTGGGCAACTTATTATTGCGCTGGTTGTTTATTTTGTCTTAAAAGCACAAGGTTTTCCTACTTATATATCTGTACCCGGAACGACCTTCCAATTAGAGCTTGGCTGGGCATATGCTCTTTTAATTATAGTTATGCTTGTTGGAGCATCTAATGCAGTAAATTTAACAGATGGATTAGACGGTTTGCTAGCTGGTACTGCTGCCATTGCTTTTGGTGCATTTGCCGTGTTAGCATTGTATGGATATCCACAAAGTGAGGTAGCAATATTTGCGCTGGCCATCGTTGGTGCTTTACTTGGCTTTTTAGTATTTAATGCGCACCCTGCGAAGGTCTTTATGGGCGATACCGGCTCTTTAGCCTTAGGTGGAGCAATTGCGATCATTGCTATTTTAACAAAACTTGAAATTATTTTAGTTGTTATTGGCGGCGTGTTCGTTATTGAAACATTATCTGTTATCATACAAGTTATATCATTTAAAACAACTGGAAAAAGAGTATTTAAAATGAGCCCATTACATCATCATTATGAGCTTTTGGGATGGTCAGAATGGCGAGTAGTTACAACCTTTTGGCTAGTAGGGCTTGTTTTTGCCGCGTTAGGAATTTATATTGAGGTGGGTATAAGTTGA MNITMLMVTILIAFLITVLLSPIFIPFLRRLKFGQSIREEGPKSHLKKTGTPTMGGIMIVFSIVITSLIMSWKVNPVGVNYEMWILLFVLVGYGLLGFLDDFIKIMKKRNLGLTSKQKLLGQLIIALVVYFVLKAQGFPTYISVPGTTFQLELGWAYALLIIVMLVGASNAVNLTDGLDGLLAGTAAIAFGAFAVLALYGYPQSEVAIFALAIVGALLGFLVFNAHPAKVFMGDTGSLALGGAIAIIAILTKLEIILVVIGGVFVIETLSVIIQVISFKTTGKRVFKMSPLHHHYELLGWSEWRVVTTFWLVGLVFAALGIYIEVGIS PGPT0024105_3808 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000 NA NA AK015_04001 1356 murF COG0770 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase ATGTTTACGGTGAATTGGCTTACTCATGTGTTTTTGGATTATAAAGGAAGTGCGAATCAACAAACGATTCATGGCGTTTATACCGACAGTCGTACAGAAATGACCAATGGTTTATTCGTACCGATTATTGGTGAAAATTTTGATGGCCATGATTATGTATTGCAAGCAGTAGATAACGGAGCTATTGCCGTTTTATGGAGTGAGCAAAAAGAGCTTCCTGAAGCTGTATCTTCTTCATTAATGGTCTTCTATGTAGAAGATACGTTGGCTGCTTTACAAAAACTGGCTACTGCCTATCGCGAGAAAATCAATCCAGTTGTGATTGGTATTACGGGGTCAAATGGTAAAACATCTACGAAGGATATGGTTGCAGCTATTATGCAAACGACCTATCGGACTCATTATACGCAAGGGAACCTTAATAATCACATCGGTGTCCCACTGACCATCTTATCAATGAAGCCAGATACCGAAGTTTTAGTTGTTGAAATGGGAATGAACCATGCTGGTGAAATAAAAGTATTAACCAATATAGCTAAACCAGATTATGCAATAATTACTAATATTGGTGAATCTCATATTGAGTTTCTAGGCTCTAGAGAAAATATAGCGAAGGCTAAATTAGAAATTTTACTTGGATTAAGCGATAAAGGAGCGCTTATTATAGATGGTGATGAACCTTTATTGCAGCATTGTCATGGTCAAAAAAAGCTGATTACTTGTGGTTTTGCAGAACATAACATATATCAAATAACAAAGGTTTATATACAAGACAACGCAACATCGTTTATAATAAACAAAGCTACGTCATACACGATTCCGTTTTTAGGAAAACACCATGCTAAAAATGCTACGTTAGCAATTTCTGTTGCAATTTGTATGAACATCGATGTAGAACAGATTCAATTGGCTTTTTATCATATTAAAAAGACAGGAATGCGCTTTGAAAAGATAAACGGAAAAAATGGTGTGACGTTAATTAATGATGCTTATAATGCTTCGGCAACTTCTATGAAGGCTGCCATTGAAGTAATAAAACAGCTTGAAGATTATTCTGAAAAAATTCTTGTTTTAGGGGATATTTTAGAATTAGGAGCACATACAGAGGCGATTCATCGATCTGTAGCTGCTGTCATCGAAAATCCAATTACAAATGTCTACACATATGGTGAAGCTTCTAAATATATTACAGAGGCAGTAATAGAACAAGGAAGCAATATTTCTGCTGCACATTATACGAATAAGGCTGAATTGCTTCATGATATAAAACCCCATTTACATGAAGAGGCAATTATATTATTTAAAGCATCGAGAGGCCTAAAATTTGAATCGATTTTAGCTGAATTAAAACGATAG MFTVNWLTHVFLDYKGSANQQTIHGVYTDSRTEMTNGLFVPIIGENFDGHDYVLQAVDNGAIAVLWSEQKELPEAVSSSLMVFYVEDTLAALQKLATAYREKINPVVIGITGSNGKTSTKDMVAAIMQTTYRTHYTQGNLNNHIGVPLTILSMKPDTEVLVVEMGMNHAGEIKVLTNIAKPDYAIITNIGESHIEFLGSRENIAKAKLEILLGLSDKGALIIDGDEPLLQHCHGQKKLITCGFAEHNIYQITKVYIQDNATSFIINKATSYTIPFLGKHHAKNATLAISVAICMNIDVEQIQLAFYHIKKTGMRFEKINGKNGVTLINDAYNASATSMKAAIEVIKQLEDYSEKILVLGDILELGAHTEAIHRSVAAVIENPITNVYTYGEASKYITEAVIEQGSNISAAHYTNKAELLHDIKPHLHEEAIILFKASRGLKFESILAELKR PGPT0024145_4236 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929 NA NA AK015_04002 1497 murE COG0769 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase ATGAAGAATGGGATGTTACGAATGAACTTAGAGGAATTATTAACGAGTATACCTTTTTATCACACAACAGACCATATGGCAAAACTAACCGTTAACCGTATTGTTATGGATTCTCGAAAGGTAGAGCCTGGAGATGTATTTATATGTATATCTGGATATACGGTGGATGGTCATGATTTTGTTCCTCAGGCCGAAGCTAATGGGGCAGTAGCTATTATAGCAGAAAAATCTGTGAACACGAAGCTACCAACTATAGTAGTTCCAGATACACATCGAGCTCTATCCATGCTTGCTGTGGAATTTTACGATAATCCCACTGACAAGCTTGCCCTAATTGGTATTACGGGAACGAATGGTAAAACAACAGTAACCTACTTACTAGAAACGATATTTCAGTTAGCGAAACAAAAAACAGGTGTTATTGGTACGATACATATGAAAATCGGCGATGAGACGTATCCGGTAGTTAACACCACTCCTGATGCGCTTTTTTTGCAACAGACATTTAATAAAATGGTTCAACAGAATGTAGACAAAGCGATTATGGAAGTATCTTCCCATGCACTTGTTCAAGGAAGAGTACATGGCTGTAATTATGATATTGCTGTGTTTACAAATCTTTCTCAGGATCATTTAGATTTTCATAAAGATATGGACGATTATTTGCGAGCAAAGAGCCTTTTGTTTGCACAAATGGGTAACAATTATAATCATACTAGGCGTAAATACGCCATTATTAATCAGGATGAAGCGGCGAGCGATGTGCTAAAACAAAGCACAGCACAACAGGTGCTAACGTATGGCATACATCAAGCTTCCCAAGTGATGGCGAAAGATATTGAACTAGGTGCTGCTGGAACCCACTTTCATTTGATCACTCCAGTAGGTAATATTCGAATTGAAAGCAAATTAATGGGAATGTTTAACGTTTATAACATGTTAGCAGCTTCTGCTACGGCGATAGCTTCTAACATTCCTTTGGATACGATCCAACAAGCGTTTAAGCAAATTGAAGGCATTAATGGACGCTTTGAGCCCGTAAATGAAGGACAGTCTTTTGCTGTCATTGTAGATTATGCACATACACCTGATTCGTTAGAGAACGTATTACAGACGGTGAAGGAGTTTGCTGAAAATCGTGTTTTTGTCGTCGTTGGTTGTGGTGGTGACAGGGATCGAACGAAGCGCCCTTTAATGGCTGAAATAGCAGTAAAGTATGCTGATAAGCCGATCTTCACTTCTGATAACCCGAGAACAGAAGATCCATTAGCTATTCTTGAAGATATGACGAGTGGATTAGATCAAGATACAGCATTTGACGTCATTGCTGATCGAAAAGTTGCTATTCAGGAAGCGATAAACCAAGCAACAGAAGATGACGTGATTATCATTGCGGGAAAAGGGCATGAAACGTATCAGCAAATAGGCCATACAAAATATGATTTTGACGACCGTGAAGTTGCTCGTCAAGCCATTCTAGCTAAGGAGCGTGCCTAA MKNGMLRMNLEELLTSIPFYHTTDHMAKLTVNRIVMDSRKVEPGDVFICISGYTVDGHDFVPQAEANGAVAIIAEKSVNTKLPTIVVPDTHRALSMLAVEFYDNPTDKLALIGITGTNGKTTVTYLLETIFQLAKQKTGVIGTIHMKIGDETYPVVNTTPDALFLQQTFNKMVQQNVDKAIMEVSSHALVQGRVHGCNYDIAVFTNLSQDHLDFHKDMDDYLRAKSLLFAQMGNNYNHTRRKYAIINQDEAASDVLKQSTAQQVLTYGIHQASQVMAKDIELGAAGTHFHLITPVGNIRIESKLMGMFNVYNMLAASATAIASNIPLDTIQQAFKQIEGINGRFEPVNEGQSFAVIVDYAHTPDSLENVLQTVKEFAENRVFVVVGCGGDRDRTKRPLMAEIAVKYADKPIFTSDNPRTEDPLAILEDMTSGLDQDTAFDVIADRKVAIQEAINQATEDDVIIIAGKGHETYQQIGHTKYDFDDREVARQAILAKERA PGPT0024130_1735 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928 NA NA AK015_04003 1932 spoVD COG0768 Stage V sporulation protein D ATGAAACGTGTATCTGCTGTGACTACAAAAAAGAGGATTGTCACTGTTTTTCTTATTGGAATATTGGTGTTTGTTATTATCGATATTCGTTTAGGTTATGTCCAATTTGTAATTGGCGATGAGTTGATGGGACAAGCTACAGAATTATGGACGCGAGATATTGAATTTGAACCAGAGAGAGGAAAAATTCTTGATCGTAATGGAGAGGTACTAGCCGAAAATGTAACAGCTCCATCTGTGGTCGTTGTTCCTAGACAGATAGATGACGCTGAAAAAACAGCTCAAAAACTAGCCTCCATTTTACAAATGTCAGAGGATGAAGCGTTTGAGTATGTTACGAAGAATGCTTCAAGTGTAAATATTCACCCGGAAGGTAGAAAAATTAACGAAAAACAAGAGCTAGCAATTAGAACATTAGATATGAATGGCGTATATTTATCAAAAGACTCAAAACGTCATTATCCGTTTGGAGATGATTTATCTCATGTCCTCGGTTTTGCAGGGATAGATAATCAAGGTCTAATGGGCTTGGAATTATTTTATGATGAACAACTTAGCGGAAATAAAGGTAGTTTATCATTTTATTCTGATGCTAAAGGTAGAAGACTGGAACGCTTAGCAGATATATACTCCGAACCAGAAGATGGGCTTGACTTAAAAACAACGATTGATACACGCGTGCAAACGATTATGGAAAGAGAATTGGATTTAGTTGCCTCAAAATATAACCCAGATGGTGCAGTGGCAATTGCTGTTAATCCGAAGACTGGTGGTGTACTTGGGATGACATCTAGGCCAAACTTTCATCCGGAAAACTATCAGGAAGTGGACTCTGATATTTTTGACCGTAATTTACCAATTTGGAGTACGTATGAGCCTGGGTCTACATTTAAGATTATTACACTTGCTGCTGCATTAGAGGAAGAAGTGGTTGATTTAAATAAAGACCATTACCATGATGATGGCGATATCTCTGTGGGAGGTTCGGAATTACATTGTTGGAAAAGTGGGGGACATGGACACCAAAGCTATTTAGAAGTAGTGCAAAACTCGTGTAACCCAGGATTTGTGAGTCTTGGTCAAAAGCTAGGAAAAGATAAACTATTTTCGTATATTGATCTGTTTGGTTTTGGAAAGAAAACAGGAATTGATTTGCAAGGAGAGGGTACTGGGATTTTATTTAAACCTGAAAATGTTGGGCCAGTTGAATTAGCTACTACAGCTTTCGGTCAAGGTGTTTCGGTAACCCCAATTCAGCAAGTAATGGCTGTATCTGCAGCGGTGAATGGAGGATTCTTATATGAGCCGTATATTGCAGAGGAATGGATTAATTCAACGACTCAGTCTGTCCAAAAGCAAGTTAAACCGACCATGAAAAAGAGAGTTATTTCTGAAGATACTTCCAATGAAATACGCCATGCTTTGGAAAGTGTAGTAGCTCAAGGAACTGGGCGCCCTGCATATGTCGATGGGTATAGAGTAGGTGGAAAAACTGGAACAGCGCAAAAAGTTGGTCCGGATGGAAGATATATGGAAAATAACTATGTCGTTTCTTTTATCGGTTTTGCCCCAGCTGATGATCCTGAAATTGTTGTATATGTTGCTGTAGATAATCCAAAAAATGCAGTGCAATTTGGTGGGGTTGTGGCTGCCCCTGTGGTAGGAACAATTATTGGAGATAGCCTAAGGGCAATGGATGTAAAACCGCGAACAGAAGGTCTTGAAAAGGATTATCAATGGCCAGAACAGCCTAAAATTGAGGTGCCCGATGTGAAGGGAATGAAGAAGAAAGATTTGCAGGAATATATGACCAATTTATCCATTGAAACAAGTGGTGATGGCGACTACATTGTAGATCAAGCGCCTAAACCAGGGACGAAAGTGGAGCAAGGATCAAAAATCAGAGTGTATTTAGCAGAAAATAATCGTTAA MKRVSAVTTKKRIVTVFLIGILVFVIIDIRLGYVQFVIGDELMGQATELWTRDIEFEPERGKILDRNGEVLAENVTAPSVVVVPRQIDDAEKTAQKLASILQMSEDEAFEYVTKNASSVNIHPEGRKINEKQELAIRTLDMNGVYLSKDSKRHYPFGDDLSHVLGFAGIDNQGLMGLELFYDEQLSGNKGSLSFYSDAKGRRLERLADIYSEPEDGLDLKTTIDTRVQTIMERELDLVASKYNPDGAVAIAVNPKTGGVLGMTSRPNFHPENYQEVDSDIFDRNLPIWSTYEPGSTFKIITLAAALEEEVVDLNKDHYHDDGDISVGGSELHCWKSGGHGHQSYLEVVQNSCNPGFVSLGQKLGKDKLFSYIDLFGFGKKTGIDLQGEGTGILFKPENVGPVELATTAFGQGVSVTPIQQVMAVSAAVNGGFLYEPYIAEEWINSTTQSVQKQVKPTMKKRVISEDTSNEIRHALESVVAQGTGRPAYVDGYRVGGKTGTAQKVGPDGRYMENNYVVSFIGFAPADDPEIVVYVAVDNPKNAVQFGGVVAAPVVGTIIGDSLRAMDVKPRTEGLEKDYQWPEQPKIEVPDVKGMKKKDLQEYMTNLSIETSGDGDYIVDQAPKPGTKVEQGSKIRVYLAENNR PGPT0024085_381 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-STAGE_V_SPORULATION,PGPT0024085-spoVD-K08384 NA NA AK015_04004 2205 pbpB COG0768 Penicillin-binding protein 2B ATGAGGAAAAACAAAACAACGCATTTTATGGCAGGTATTTTTATCATTCTTTTTGTGGGTATATTTTTAACATTATCAGGAAGATTTCTTTATATACAAGCTACTGCGGAAATTGATGGGGTTTCTTTAGAAGCATGGGCTGACAAGCAACGAACAACATCGTATGAACTCCCAGCAGAGCGCGGGAAGATATTTGATAACAACGGAATGACACTTGCCTACGATCAAACAAGCTATAGAATGTACGCAATAGTCGATGAAACATATTCTGATGGGGCAGAAGAACCAAGACATGTTAAGGAAACAGAGAAAACAGCAAAAAAATTAGCTCCTCTATTAGATATGGAGGAAAAAGACATACTAGCTCGCTTGCAGGAAGGGATAGATAACGATCGCTTCCAAGTTGAATTTGGTAAGAAAGGTAGAGATTTGTCTTTACAAAAGAAAGAGGAAATTGAGGAACTTCATTTGCCAGGGGTTTTTTTCAGGGAAGAGTCTGTTCGCTCATACCCGAACGGCACCTTTGCGTCTCAAATAATTGGTTTTGCGAAAGAGATGGACGTAAAGAATAAGCAAGAAAGTACTACAAAGCAAAAAATGCAAGGTGTTACGGGAATTGAGAAAGAAATGGATAAACATTTAAGTGGGGAAGATGGTTACATTGCTTTTCAACGTGATAAATATAATAAGAAACTACTTGATCCAAAAGAAATAGTAAAGAAAAATGAGGATGGCGGAAATATCTATTTAACGATCGACCAAAAAATACAGACCTTACTAGAAGATACCTTAACTCAAGTTGAGAAGAAATACGAACCTGAACGTATTTCAGCAGTAGTGATGAATCCTAAGACTGGAGAGGTTATAGCAATGGGAAATCGTCCAAGTTATAACCCAAATAACCCTAAAAATGTAGAAAATTGGTATAATGATGTTGTATCGACGCCATTTGAGCCTGGATCTACAATGAAAATGTTTACTTGGGCGGCTGCGATAGAAGAAGGCGTTTATAATGGAACGGAAGCATATAAGTCAGGTCGCTATCAACCCAATGAGCAAATAACACCTATTCGTGATCATAATGGCGGAAATGGTTGGGGACCTATTTCATACAATGAAGGGTTTGAGCGTTCTTCTAATGTCGCCGCGTCTAAACTTGTGTGGGAAAAAATTGGATCTGATAAATATCTTGAGTATTTAAAAGCCTTTCATTTCGATCAAAAGACAAATATTGATCTACCAAATGAAGTGATTGGCAAAATATTATATAATTGGCCAGCAGAAAAGTTAACTACAGCATTTGGTCAAGGTACAACCATGACTCCAATGCAGCAAATGAAGGCGGCCACTGCTATTGCCAACGATGGAAAAATGGTAAAGCCTTATATTATTAATAAGATTACAAGTTCTAATACAGAGAAGCCAACAAAAGAAAAAAAACCGGATGTGGTTGGTGACCCCATTTCTAAAGAAACGTCTCAACAAGTGCTTAAGCTTCTGGATCAGGCAGTTAATGGAGAACACGCAACTGGTAAAGATTACCGATTAAAGAGCTATAAAGTTGGTGGAAAAACAGGGACAGCGCAAATTCCTAATCCTAAAGGTGGTTATTTAACAGGTAGAGAAAATTATATTTTTTCCTTTTTAGGAATGGCACCCATTGATGACCCTCAATTAATGATGTATGTATCTGTTAAACAACCAAAGTTAGGTGAAAAAGAAGATGGATCTTTGGAAAGGGGTTCTGACCCGGTAGCATTTATTTTTAAAAATGTGATGGAGAATGGCTTGCATTATTTAAACATTGATCCAGATAAACAAGAATCAGATCAAATAAAACATATAAAAATCCCAGAACTCATAGGGAAGAGTTCAGAAACTCTAAAACAAGAATTGACGAAAAAGGGTTTACGTGTAACGTCAGTTGGTAAAGGTAAAGTCGTTTCAAGTAATGTACAAAAAGGAGATCGAGTGTTGCCGAATGATCATATTATTATGATTACGGAAAAACCTAAAATGCCAAACATAATCGGCTGGTCACTTCGCGATGCTCTAAAACTGTCTAGTTTGTTAGAATTAAAGACAGAAACGTTTGGTGATGGTTATGTTAAAACCCAAAGTATTAAAGAGGGAACAGCTGTTAAATCAAAAGATTACCTTGGCATAGAGCTGGAACTACCAAACAATAAAAAGAATAAAGATTAG MRKNKTTHFMAGIFIILFVGIFLTLSGRFLYIQATAEIDGVSLEAWADKQRTTSYELPAERGKIFDNNGMTLAYDQTSYRMYAIVDETYSDGAEEPRHVKETEKTAKKLAPLLDMEEKDILARLQEGIDNDRFQVEFGKKGRDLSLQKKEEIEELHLPGVFFREESVRSYPNGTFASQIIGFAKEMDVKNKQESTTKQKMQGVTGIEKEMDKHLSGEDGYIAFQRDKYNKKLLDPKEIVKKNEDGGNIYLTIDQKIQTLLEDTLTQVEKKYEPERISAVVMNPKTGEVIAMGNRPSYNPNNPKNVENWYNDVVSTPFEPGSTMKMFTWAAAIEEGVYNGTEAYKSGRYQPNEQITPIRDHNGGNGWGPISYNEGFERSSNVAASKLVWEKIGSDKYLEYLKAFHFDQKTNIDLPNEVIGKILYNWPAEKLTTAFGQGTTMTPMQQMKAATAIANDGKMVKPYIINKITSSNTEKPTKEKKPDVVGDPISKETSQQVLKLLDQAVNGEHATGKDYRLKSYKVGGKTGTAQIPNPKGGYLTGRENYIFSFLGMAPIDDPQLMMYVSVKQPKLGEKEDGSLERGSDPVAFIFKNVMENGLHYLNIDPDKQESDQIKHIKIPELIGKSSETLKQELTKKGLRVTSVGKGKVVSSNVQKGDRVLPNDHIIMITEKPKMPNIIGWSLRDALKLSSLLELKTETFGDGYVKTQSIKEGTAVKSKDYLGIELELPNNKKNKD PGPT0023935_139 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023935-pbpB-K08724 NA NA AK015_04005 369 ftsL COG4839 Cell division protein FtsL ATGAGTGCAAATCATGCAAGAAGCTGGGAGCAACTAAAACCGCAAAAGACCCAGGAACAATCGGTTCCAGTAAAAGTTACCAAGCAAGGTTGGATAACAAAAGGTGAAAAAATCATTTACAGTCTTATTGGGCTAATTATTATAGCGGCCAGTATCTACATGGTTTCATTTACTTCATCCACAGACTCGATTAATCGCGAGATGCAAGAGCTAGAGAATAAAGTAAAAGTACAACAATCTGAGAATGATTTATTAAAAGATGAAATTAATTCGTTAAGCCGACCAGAGCGCATCATTGACATTGCTAAGAAAAACGGTTTTCAAGTTCAAGATGCAAAAGTGAAGCAAGCAAAATCTATCGATGAATAA MSANHARSWEQLKPQKTQEQSVPVKVTKQGWITKGEKIIYSLIGLIIIAASIYMVSFTSSTDSINREMQELENKVKVQQSENDLLKDEINSLSRPERIIDIAKKNGFQVQDAKVKQAKSIDE NA NA NA NA NA AK015_04006 978 rsmH Ribosomal RNA small subunit methyltransferase H ATGTTTGATCATAAAAGTGTGTTAAAAAATGAGACCATAGAAGGCCTTGCCATTAAACCAGATGGGGTGTATGTAGATTGTACACTAGGTGGCGGTGGACATGCAGAAGTGATAGCTTCCATGTTAAATCAAGATGGTTTGTTACTTGGTTTTGATCAAGATATCCATGCATTACAGGCAGCAAAAAGTCGTTTGCAGTCTTATAAGGAACGTATAAGATTTATTCATGCTAATTTTAGTGAACTAGAGGTTGTATTATCAAAAGAAAATATTCACAAAGTAGATGGAGTCTTATTTGATTTGGGTGTATCTTCACCACAGCTCGATAAAGGAGATCGCGGTTTTAGTTATCAACATAACGCTAAGTTAGACATGCGAATGAATCAACAGCAAAAACTTGACGCTTATTTTGTAGTTAATTATTGGGATTATCAAGCTTTAGTGAAGATTTTCTTTCAATACGGAGAGGAAAAGTTTTCTAAGCAAATCGCCCGAAAAATAGAAGAACATAGAAAAAAAGCGCCGATTGAGACGACATATCAATTAGTAGAAATAATTAAGGAAGCAATTCCTGCCCCCGCACGACGTAAAGGCGGCCATCCAGCTAAACGGGTGTTTCAAGCATTAAGAATTGCCGTCAATGATGAACTAGGTGTATTTAATGATGCCCTTCATCAAGCGGCAAAAGTAACAGGAATAAACGGACGAATAGCAGTTATTACTTTCCATTCTTTAGAGGATAGACTTTGTAAGCAAGCTTTTAAAAAATGGAGTACAGACAAAGAAACTCCACGTAATTTACCAGTTTTACCAAAAGAAAATGAAGCTCCTTTTCGTTTAGTTACAAGAAAACCAATTGTTGCAACAGAGAATGAACTGGATGTAAATAGAAGATCACGATCTGCTAAGCTTCGAGTTGCTGAAAAAGTAGCCGAATGGAAAGACGATTTTACTTATAAAGAAGGGTGGAGAAAATAA MFDHKSVLKNETIEGLAIKPDGVYVDCTLGGGGHAEVIASMLNQDGLLLGFDQDIHALQAAKSRLQSYKERIRFIHANFSELEVVLSKENIHKVDGVLFDLGVSSPQLDKGDRGFSYQHNAKLDMRMNQQQKLDAYFVVNYWDYQALVKIFFQYGEEKFSKQIARKIEEHRKKAPIETTYQLVEIIKEAIPAPARRKGGHPAKRVFQALRIAVNDELGVFNDALHQAAKVTGINGRIAVITFHSLEDRLCKQAFKKWSTDKETPRNLPVLPKENEAPFRLVTRKPIVATENELDVNRRSRSAKLRVAEKVAEWKDDFTYKEGWRK NA NA NA NA NA AK015_04007 432 mraZ Transcriptional regulator MraZ ATGTTTATGGGTGAATTCCAACATAACATTGATGCAAAAGGAAGAATAATTGTTCCTTCCAAGTTTCGAGACCAGCTTGGAGATAGCTTTGTTGTGACCCGAGGGCTGGATCAATGTTTATTTGTGTACCCCATGGAAGAATGGAGCATATTAGAAGAAAAATTAAAAAAACTCCCACTAACGAAAAAAGATGCCAGAGCGTTTACAAGGTTCTTCTTTTCTGGCGCAGTAGAATGTGAAATTGATAAACAGGGAAGAATAAATATTCCACAATCATTACGAAACTATGCAGGCATTGAAAAAGAATGTGTTGTTATTGGTGTTTCGAATCGCATAGAAATATGGTCCAGTGAACAGTGGGAATCTTACGTTACAGACTCTGAAGAATCTTTCGCTGAAATCGCTGAGAATTTAATGGATTTTGATATCTAA MFMGEFQHNIDAKGRIIVPSKFRDQLGDSFVVTRGLDQCLFVYPMEEWSILEEKLKKLPLTKKDARAFTRFFFSGAVECEIDKQGRINIPQSLRNYAGIEKECVVIGVSNRIEIWSSEQWESYVTDSEESFAEIAENLMDFDI NA NA NA NA NA AK015_04008 1620 bshC COG4365 Putative cysteine ligase BshC ATGCGGATCGAACCTATAAATTTAAAGCAACAAAGTAATTTAATGAAAGATTATCGTAATAATGAGGCGAGTATTCATTCGTTTTTTGATTACGCTGCATTCGGTGAATGGAAGCATAGGTATCATGATCTGCAAAAAAACGTTTATAAGCGTCAGGAGTTATGTGATGTTTTACAGTCCATAAACAAACAATGGCAAGCTCCTGAAAGCACGCAGAAAAACATTCAAAGATTACGTCAGTCACAAGCTGTGACCGTTATCGGTGGGCAGCAAGCTGGTCTCCTAACAGGGCCGCTATATACGATTAATAAACTAATTTCAATTATTCAGCTAGCAAGGGAACAGGAAGCGGAGTTAGGCGTACCAGTCATACCTGTTTTTTGGATAGCAGGGGAAGATCATGATTTTGCAGAAGTGAATCATGTTTATATGTGTAAAGAACATCAAATACAAAAAAATATATTAAAGCAACATGTGCAAACCAAAACATCTTTAACGGATATGGAAATGGACCACGCGAAACTGAAGCAGTGGTTGGATAAATTATTTGAACAATTAAGCGAGACGAATCATACAAAAACGTTGTACCATGAAATAATTAGCTGCTTATCATCTTCACATACGTTTGTTGATTTCTTTGCTAAACTTATTTTCTGTCTATTTCCTAAAGAAGGGGTAGTACTAATCGATTCTGGAAATAAGTCTGTACGCCAGTTAGAAAGTGATTACTTTGTGGAAATGGTGGAAAGTCAACCAGAGATAAGTAAAGCAGTGTGCGATTCCTTAGATCAATTACAATCTTTAGGCTACACCGTAGGTCTATCTGCGACACCCGTAGATGGCCATCTGTTCTATTATGAGAATGGTGAGCGCATATTGTTGCAACGATCGAAGGAAAAAGGATGGACGAACAAACAGAACAGTATATATTTTACAACGGAACAACTAAAGCAAATTGCTAAAGATACGCCAGAAAAATTAAATAATAATGTAGTTACTCGTCCCTTAATGCAAGAAAAATTATTTCCAAACCTTGCATTTATAGCAGGACCTGGTGAAATAAGCTATTGGTCTACATTGAAGACAGCATTTCATCACTTGCAAATGAAAATGCCGCCAGTGGTACCTAGGCTATCTTTATCCATTATTGATCGTACGACTGATAAATTATTATCCCATTGTCAACTAAGTGCAGAACAAGTGATTAATGAAGGTGTGCGTGAAGTAAAAGAGAAGTGGCTAGCAACAACATCGTATCCTTCCATAAAAACAATTACTCAGGAAGTACAAGAACAAATAACTAAAGTTCATGCTCCCATGCGTCATCTAGCTGCTTCTATGAGGAGTGATTTAGGGGCGTTAGCTAATAAGAATTTGGACTATATTCAAAATCATATCCAATATTTAGAAAATCGCTTAATAAAGGAACTGCAATTACAGTATCAAAATGATTTAGCCACATTTGATTTACTGGAATGTACGCTCCACCCAGAAAATGGATTACAAGAACGTATTTGGAATCCTCTTCCTTGGTTAAATATGTATGGTATGTCATTCACAAACCGATTGTTACAGTATACATATTCCTTTAACAATTCCCACTATCTTGTTTACCTTTAA MRIEPINLKQQSNLMKDYRNNEASIHSFFDYAAFGEWKHRYHDLQKNVYKRQELCDVLQSINKQWQAPESTQKNIQRLRQSQAVTVIGGQQAGLLTGPLYTINKLISIIQLAREQEAELGVPVIPVFWIAGEDHDFAEVNHVYMCKEHQIQKNILKQHVQTKTSLTDMEMDHAKLKQWLDKLFEQLSETNHTKTLYHEIISCLSSSHTFVDFFAKLIFCLFPKEGVVLIDSGNKSVRQLESDYFVEMVESQPEISKAVCDSLDQLQSLGYTVGLSATPVDGHLFYYENGERILLQRSKEKGWTNKQNSIYFTTEQLKQIAKDTPEKLNNNVVTRPLMQEKLFPNLAFIAGPGEISYWSTLKTAFHHLQMKMPPVVPRLSLSIIDRTTDKLLSHCQLSAEQVINEGVREVKEKWLATTSYPSIKTITQEVQEQITKVHAPMRHLAASMRSDLGALANKNLDYIQNHIQYLENRLIKELQLQYQNDLATFDLLECTLHPENGLQERIWNPLPWLNMYGMSFTNRLLQYTYSFNNSHYLVYL NA NA NA NA NA AK015_04009 387 hypothetical protein ATGTTGAATGGAATAATGTATATTATTGCTTTTTTTATTTCTCTACCTTTTTTAGCGACATGGATTGTGTATGTTTGTAGTTATAAGTTAACAGAGCAAAAAATCAAATCTTTTCATCTGGCAGTATATGTAACTACACCTTTATACTTGATAGCTGTAACATTAATGATAGACATGGTTATAGGCATGTCGTTGACGGCTGCTATTATTATTCTTTTGCTACTCCTTTTGGTGGGTGTTCTTATTTTCCAGTGGAAGAAGAGAACGGAAGTCCTTTTAAGTAAAGCTATTAGAATAGTTTGGCGACTGATGTTTTTACTGTTTATTACGTTATATGGACTGTTAATTGTTACAGGGATCATACAACGTATCTTTTTTTCTGTGTAG MLNGIMYIIAFFISLPFLATWIVYVCSYKLTEQKIKSFHLAVYVTTPLYLIAVTLMIDMVIGMSLTAAIIILLLLLLVGVLIFQWKKRTEVLLSKAIRIVWRLMFLLFITLYGLLIVTGIIQRIFFSV NA NA NA NA NA AK015_04010 495 ylbP putative N-acetyltransferase YlbP ATGGACAAAGTGAAAGTTGAAAAGCTTTTGATCAATTATAAGACATTGGAGAAGTTTAAACATTTTAAAGAGTACGGCAATCAAGAATTATCTATGTTAGAAGATTTGGAGAACAATTTGGTGGAAAACCAAAGTGATTCACCTTTTTACGGAATTTATATTGGCGACAGTATAATTGCTCGTATGAGCCTCTATAGAGTCAATCGAAAGTATGACTTTTATTTTGACCCACCTCAAGATTATCTAACTTTGTGGAAATTAGAAGTTCTTCCAGAATACCAAGGAAAAGGATATGGCAAAGCGTTAGTAGATTTTGCGAAAAGTTATCAATTACCAATAAAAACAAACCCTAGAATTAACTCTCATGCCTTTTGGGAAAAAATGGGCTTTCAAAAGGCGCAGTACAAAATGGAACGAGATTTGGGAGAAAATCCACTGATTTGGATGCCAGCAGGTGTGAAAGAAAACCACATAAAGGAGCAAGATGAAGCTTAG MDKVKVEKLLINYKTLEKFKHFKEYGNQELSMLEDLENNLVENQSDSPFYGIYIGDSIIARMSLYRVNRKYDFYFDPPQDYLTLWKLEVLPEYQGKGYGKALVDFAKSYQLPIKTNPRINSHAFWEKMGFQKAQYKMERDLGENPLIWMPAGVKENHIKEQDEA NA NA NA NA NA AK015_04011 483 hypothetical protein ATGAATGTTACAAGGCAAGACGCATGGACGAAAGATGAGGATGTCCTATTAGCAGAAACCGTTCTACGTTATATAAAAGAAGGAAAGACCCAGTTGGAAGCATTTAGGGAAGTAGCTCATAGACTGTCTAGAACTCCTGCAGCCTGTGGATTTAGATGGAATGCAACAATTCGAAAACAATATCAAAATGAGGTTCAACGAGCAAAAGAAGAGCGTAAGAGTGAAAATATTAATTATAGCTGGCCTGTTCCAGAAGCAGGGAACCAAGATCCGCTTCAAACTGTCATTTCGCTATTAGAAAGAATTAAAGCTGGGAATGAACAGATTGCATCGGAGCATCTGAATGAACATGAATTACATCTAAAAAAACTACAGAAAGAAAACGAGGAATTAAAATACATTTTGCTTCGCTATGAAAAGGCATGGCAAGAGATGGCTGCCTTATTGAAATCTGTTGTTACTGAAAAGCCTAACCAAGAGTGA MNVTRQDAWTKDEDVLLAETVLRYIKEGKTQLEAFREVAHRLSRTPAACGFRWNATIRKQYQNEVQRAKEERKSENINYSWPVPEAGNQDPLQTVISLLERIKAGNEQIASEHLNEHELHLKKLQKENEELKYILLRYEKAWQEMAALLKSVVTEKPNQE NA NA NA NA NA AK015_04012 174 rpmF 50S ribosomal protein L32 ATGGCAGTACCTAAAAGAAGAACTTCAAAAAAGGTGAAAAACCAACGTCGTACGCATAAAAAATTACATGTGCCTGGCATGGTAGAATGTTCAAATTGTGGGGAGTTGACGAAACCGCACCACGTTTGTAAAGCATGTGGTCACTACGATGGTAAAGAAGTAGTCAGTCAATAA MAVPKRRTSKKVKNQRRTHKKLHVPGMVECSNCGELTKPHHVCKACGHYDGKEVVSQ NA NA NA NA NA AK015_04013 531 hypothetical protein ATGAAATTTGCGTTAGCTCAATTAAAGAAGAATGCTTATAAGGAACCTTTTACTTTTTCAGAAACGGAAGATGTTTCCGAATTGGAAGAGATGAACAACGATATTCGTCATATTGGCGAAGTAGAAGTTCAAGGAACGTGTTTTTTTCAAGGAGATAATATTATTTTTTCCTTACGTATTCACGGTGAAATGGTGCTTCCGTGTGCCCGAACGTTAGAAGATGTTCATTATCCGTTTGCTATCCAAACAGATGAAGTATTTACAACGTCGTTATATAGATCGGAAGCTGAAATCGAAGCTGAAATTCACCCAATTGATGGAGAGGTGCTTGATTTAACCCCGTTAATTAAGGAAAATATCTTGCTAGAGGTTCCGTATCGCGTATTTTCAGAGGAAGAAAACAGTCGACCTGATTATATAACAGAAGGTAAAGGCTGGCAATTTACTTCCAAACAAAATAACGCAAAATCAATAGATGAGCGTTTTAGGAAATTGGAATCATTGTTTAATAAAGATGAGAAGAACGATTAA MKFALAQLKKNAYKEPFTFSETEDVSELEEMNNDIRHIGEVEVQGTCFFQGDNIIFSLRIHGEMVLPCARTLEDVHYPFAIQTDEVFTTSLYRSEAEIEAEIHPIDGEVLDLTPLIKENILLEVPYRVFSEEENSRPDYITEGKGWQFTSKQNNAKSIDERFRKLESLFNKDEKND NA NA NA NA NA AK015_04014 438 dps1_2 COG0783 DNA protection during starvation protein 1 ATGAATCAACAATTAATAGACGCATTAAACAAACAATTAGCCAACTGGAATGTTCTTTACACAAAATTACACCATTATCATTGGTATGTGAACGGGGTTAATTTCTTTACATTACATGAAAAGTTCGAAGAGTATTATGATGAAGCAGCAAGTTACATTGATGAAATCGCAGAACGAGTGCTAACCATTAAAGGGAAACCACTATCTTCATTAAAAGGCTATCTCGAGGCTGCTACGATCCACGAAGCGGTTGGAAATGAATCTGATCATGAAATGGTTGCCCAGTTAGTGCTTGATTTTCAACAAATTGTAAATGAGTCGAATGAAATTATTGAAGTTGCAGAAGAAACAGAAGATCAACCAACAAGCGACTTGTTTATTGGTATAAAAGCATCTTTGGAAAAACATATTTGGATGTTAGAAGCTTTTAATGCTTAG MNQQLIDALNKQLANWNVLYTKLHHYHWYVNGVNFFTLHEKFEEYYDEAASYIDEIAERVLTIKGKPLSSLKGYLEAATIHEAVGNESDHEMVAQLVLDFQQIVNESNEIIEVAEETEDQPTSDLFIGIKASLEKHIWMLEAFNA PGPT0004055_4027 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047 NA NA AK015_04015 441 moaE Molybdopterin synthase catalytic subunit ATGCTAAAGCCGTTTGCTATTGTATCAGAACCTATTGAAGTTAAACCTTATATGGATTATGTGCTTCACCCCCATGCTGGAGCAGTTACAGTATTTACAGGGAATGTTAGAGAATGGACACATGGTGTTCGAACCCTTTATTTATCATATCAAGCTTATGTTCCTATGGCAGAAAAAAAATTAGCAGAAGTTGGAGCAGAAATGGAAGAGAAATGGCCCGGTATCAGAGTAACAATTGTTCACCGAATTGGAGAGTTACACATTTCAGATATTGCTGTTTTAATTGCTGTTTCTTCACCGCATAGAAAAGCTGCGTATGAAGCAAATGAATATGCTATTGAACGCATTAAACAAGTTGTTCCTATTTGGAAAAAAGAGATTTGGGAAAACGGGCAGCAATGGGTAGGTGCGCAGAAAAAATATCCAGAAAAAGGATACTAA MLKPFAIVSEPIEVKPYMDYVLHPHAGAVTVFTGNVREWTHGVRTLYLSYQAYVPMAEKKLAEVGAEMEEKWPGIRVTIVHRIGELHISDIAVLIAVSSPHRKAAYEANEYAIERIKQVVPIWKKEIWENGQQWVGAQKKYPEKGY 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 AK015_04016 522 hypothetical protein GTGGCGTTTATGAAAATTTTGCATGTAGTAGGTTTTAAAAATAGCGGAAAAACTACCCTAGTTTCTCGCTGGGTCCAATTATTAAAAACGAAAGGATTTTCTGTTTCGGTTATAAAACAACATGGCCATCATGGAGAGCACGGAAGTTTGAAAATGCCAGATGAAAATACAGACTCCATGCAATTTTTTCAAAGTGGTGCTGATTTGTCCATTGTGTCTGGCGGTGGAACGGTACAAATAATGTTAAATGAAACTCCAAGTTTTGAGCGCTTAAAAAAACTAGCTTCCATGGATCAACCTGATATATTACTTATAGAAGGATTTAAAGAAGAAGCTGGATCAAAAGTTGTGTTAGTGAGAAATGAAGTAGAATGGGATGAATTAAAGCGATTGAATAATATCGTATTAGTGGTAGGTGTAGAAAATAAATCTATTTCTTTTCCCCAAATTAGATCACGAGAGAACCTGTCTGCATTAGATAAGTGGTTATGGGAATGGTGTGGAGGGGAAGCATCATGCTAA MAFMKILHVVGFKNSGKTTLVSRWVQLLKTKGFSVSVIKQHGHHGEHGSLKMPDENTDSMQFFQSGADLSIVSGGGTVQIMLNETPSFERLKKLASMDQPDILLIEGFKEEAGSKVVLVRNEVEWDELKRLNNIVLVVGVENKSISFPQIRSRENLSALDKWLWEWCGGEASC NA NA NA NA NA AK015_04017 1257 moeA Molybdopterin molybdenumtransferase GTGATAGAGAGAAGAAGCCCAATATCCGTTTCACAAGCAATACAGTACGTGATGGAGCAAATTAAACCGTTACCAATAGAAAAAGTAAACTTAAGTAAAGCGAATGGTCGAATTCTAAGGGAACCCATTGTTGCGAGTCATGCTGTGCCACCTTTTAACCGTTCTGCATACGACGGTTATGCTATCCGATCAAAAGATACGAAAGGTGCATCAGCTCATCATCCCATTTCTTTTCAAGTTATAGGGGAAATTGGAGCAGGGACAGTGCCAAATGTATCCATTGGTAAGCGGGAAGCATATCGAATTATGACGGGCGCCATCTTACCAGAACAAGCAGATGCTATTGTTATGTTAGAAAAGACGACAAAGATGATAGACGGATTTACATTACAAGAGTCACTTCAAACTGGCGATCACGTCTCGTTTAAAGGAGAAGATGTTGAAAGAGGGGAAGTGCTTATAAAGTCTGGTACGAAAATTCACCCAGGTACAATTGCCTTGCTTGCGACCTTTGGCTATGCAGAAGTGGATGTGTCTAAAAAGCCAGTTGTAGGTTTGCTTGCAACAGGAACAGAATTGTTGGATGTAACGGAGCAACTACAGCTTGGAAAAATACGAAACTCTAATGGGCCAATGATTCAAGCGCAACTAGATAGATTAGGAATTGTAGGTCATTATTATGGTATCATGTCAGATAATTTACAAAAATGTACCCAAGTAATGGCACAAGCTTTACAAGAAACAGATATACTTATTACAACTGGTGGGGTATCTGTTGGTGATTACGATTATTTACCGGCGATTTACGATCGATTAGGCGCAGAAGTGTTGTTTGATAAAGTGATGATGCGTCCGGGAAGTGTTACAACCGTTGCGACTAAAGGCGATAAGCTTTTGTTTGGTTTATCGGGAAACCCTTCTGCTTGTTTTACAGGGTTTGAATTGTTTACTAGACCAGCTATTTTAACAATGATGGGTAGTAGCGAGCCGTATTTGCCCTCTATAGAAGCTCAATTAGGAGAAGACTTTATCAAGAAAAATCCATTTACTCGATTTATTCGTGGAGTGTGGGAGATGACAGAACAAGGTGTAGTAGCTAAGCCAGCGGGTTTTAATAAATCGAATGCAGTATCTTCCATAGCACGCGGAAATTGTTTGATTGTTTTGCCTAGTGGTTCTAGTGGATATCAAAAAGGGATGCAGGTAGATATTTTGCTTTTAGGCATGGAACAAGGGGAGGCTGTGTGGCGTTTATGA MIERRSPISVSQAIQYVMEQIKPLPIEKVNLSKANGRILREPIVASHAVPPFNRSAYDGYAIRSKDTKGASAHHPISFQVIGEIGAGTVPNVSIGKREAYRIMTGAILPEQADAIVMLEKTTKMIDGFTLQESLQTGDHVSFKGEDVERGEVLIKSGTKIHPGTIALLATFGYAEVDVSKKPVVGLLATGTELLDVTEQLQLGKIRNSNGPMIQAQLDRLGIVGHYYGIMSDNLQKCTQVMAQALQETDILITTGGVSVGDYDYLPAIYDRLGAEVLFDKVMMRPGSVTTVATKGDKLLFGLSGNPSACFTGFELFTRPAILTMMGSSEPYLPSIEAQLGEDFIKKNPFTRFIRGVWEMTEQGVVAKPAGFNKSNAVSSIARGNCLIVLPSGSSGYQKGMQVDILLLGMEQGEAVWRL PGPT0008430_2376 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750 NA NA AK015_04018 1020 hypothetical protein ATGAAAGAGAGATACGCACGTCAGATTTTGTTTTCACCAATTGGAGAACACGGACAAGCCATGTTAGCATCTGCGCATGTTGTTATGATTGGGTGTGGGGCATTAGGTACACATATAGCAGAGACGTTAATACGTGCTGGTGTGGGAACGCTAACAATAGCTGATCGTGATTACGTAGAAATGTCAAACTTGCAACGACAGCAATTGTTTACAGAACGGGATGCTCGAGAGGTCGTTCCGAAGGTTGTTGCTGCTAAAAGGAGCTTACAAAAAGTTAGAGAAGATGCAACCATTTTAACTGTTCTTGATCACGTAGATGGGCCTTTGTTAGAACAACTCATTTCAGACGCAGATATTATTATGGATGCAACAGATAATTTTGAAACACGTCTTTTAATGAATGATGCCGCTTGGAAGCGTGGAATACCTTGGATATATGGTGCTTGTGTGGGAAGTACTGGGGTAATGTTTCCATTTGTACCGCAAACGACAGCTTGTTTTCGGTGTTTACTTCCGATACTACCAACTGTAATACAAACATGTGATACTACAGGAATAATTGCTCCAGTCGTAAGTATGGTAGCCGCGAATCAAAGTGCAGAAGCTTTAAAATGGTTGACTGGAAATAAAGAGAAACTACGAAGCCAATTATTTCATTTTGATCTGTGGGATAATACCTTTGTGGAGGCGGGAATATCTCGATTGAAAAAAGATGATTGTTTAACATGCTCTTCACAAGCTACCTATCCAGCATTGGAAAAACAGGAACAAACGAATTTTGCAGTTTTATGTGGTAGAGATACGGTGCAAGTTATTCCTAATGAAAAACGAAAGCTTACTATATCTGATGGTGAGCAAGTAGTGAAAAGGCTAGGTATCGAGTATCGCATCACTGACTTTTTTATTGAATTCTACATTGCATCCTATCGTTGTATTTTATTTGAAAATGGTAGGTTATTTATTCATGGTTTAAAAGAAATATCTAAAGGTCGGAAGTTGTATCATCAGTTATTTGGTTGA MKERYARQILFSPIGEHGQAMLASAHVVMIGCGALGTHIAETLIRAGVGTLTIADRDYVEMSNLQRQQLFTERDAREVVPKVVAAKRSLQKVREDATILTVLDHVDGPLLEQLISDADIIMDATDNFETRLLMNDAAWKRGIPWIYGACVGSTGVMFPFVPQTTACFRCLLPILPTVIQTCDTTGIIAPVVSMVAANQSAEALKWLTGNKEKLRSQLFHFDLWDNTFVEAGISRLKKDDCLTCSSQATYPALEKQEQTNFAVLCGRDTVQVIPNEKRKLTISDGEQVVKRLGIEYRITDFFIEFYIASYRCILFENGRLFIHGLKEISKGRKLYHQLFG PGPT0008935_118 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 AK015_04019 705 fnr COG0664 Anaerobic regulatory protein ATGAGTAAATTAAATTATTACTCTCCGTCATCTCAAGAAAAGCTAACCGTGTTACAAAAGTATGCAAACGTAGAAAAGGACCTAGAAAAAAATGAAACCCTTTTCACTTCTGATGATATCGTCCATTCCTTTTACATTGTTCTACTTGGAAAAATTATGCTTCATAAACCAACAGCAGATGGACGAGAATTTACAATTAGAATATGTAAACAAGGGGATTTAATTGGAGAGCCTCATTTTTTAACCGCCCCTACAAAACACTTACTACATGCGACAGCCGTAGAAAGAAGTAAAATTATCACTATATCTATAGAAAAATTACCTGAACTTTTTTCAAATGAGAGCAAATTTATGCTATACCTATTTCAAGATGTATCCAAAAATGCAATTCGTGACCAGATGAAATTACGCGATTTAGTGATGTATGGAAAAAAAGGGGCGCTTTATGCTACGTTAATTCGTCTCGCTAACAGTTATGGGCAGACGAAAGAAACCGGCATCCTAATTAATACGTCGCTTACGAATCAAGACTTAGCCAACTTTTGTGGCACTTCACGAGAAAGTATTAATCGATTATTAAGTGATTTGCGCAAAAATAACATTATTTCTATTGAAAATAATAAGATACTCATTCATCAGTTAGCATATTTAAAAGAAACCATCCATTGTGAGGAATGCCCCATTGATATTTGCACAATTCATTAA MSKLNYYSPSSQEKLTVLQKYANVEKDLEKNETLFTSDDIVHSFYIVLLGKIMLHKPTADGREFTIRICKQGDLIGEPHFLTAPTKHLLHATAVERSKIITISIEKLPELFSNESKFMLYLFQDVSKNAIRDQMKLRDLVMYGKKGALYATLIRLANSYGQTKETGILINTSLTNQDLANFCGTSRESINRLLSDLRKNNIISIENNKILIHQLAYLKETIHCEECPIDICTIH PGPT0015075_1671 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 AK015_04020 180 tatAd_2 Sec-independent protein translocase protein TatAd ATGTTTTCAAGTATTGGTATACCAGGGTTGATTTTAATATTAGTTATTGCGTTAATTATATTTGGACCTTCAAAGCTACCTGAATTAGGAAAAGCTGCTGGAAGCACCTTAAAGGAATTTAAAAATGCAACCAACGATTTAATGGAGGACGACGATACGGAGAAAAAGGAAAAAGAATAA MFSSIGIPGLILILVIALIIFGPSKLPELGKAAGSTLKEFKNATNDLMEDDDTEKKEKE PGPT0029290_4927 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 AK015_04021 591 hypothetical protein TTGCTCACAGCACAAGAAGAAACTTACGGGAAACTTATTCTAGCGCAAATATTTACCCATATTTGGTATGGTGATTGGGATAATTATGAACAGACAATGAATCAGTTGCCGGAGCGTCTTCTAAATGAATTTCCATTCCATGCTTGTTATGACCGAAAAGAAACGAAAATATGGCATGATAATTATTTTTCTATTCCTGGTATATATTTTGTTCCTCCATATATGTCCAGTTACCGTGAAAAATCAGAAACAGTGGAATTGGATACGAAACAAGATTTACTTTGTTTAATTGGAGCATATGAGAAGCTGGGGTTTTATTATCCATTAGAGCGTGAAGCTTTCCCTGATCATATTGGTAGTTTAACCGCCTTTATTACAGCTACATTAAAGGAAGAAGCAGTTGCACTTGAAAAAGGGGATAATGAACTTGTTATCGAATTAGCGGACGCACGTAAGGAAATGTATGATAAATATTTAGCGCCTTGTTTGGGTGTCATATTTAAGCAACATCAACATAAATTCTCGGATTCATTTTTCAAAATGTTTATTCCCTTTTATATGGAAGAGATCAAGGGTATAGCGCATAAATAA MLTAQEETYGKLILAQIFTHIWYGDWDNYEQTMNQLPERLLNEFPFHACYDRKETKIWHDNYFSIPGIYFVPPYMSSYREKSETVELDTKQDLLCLIGAYEKLGFYYPLEREAFPDHIGSLTAFITATLKEEAVALEKGDNELVIELADARKEMYDKYLAPCLGVIFKQHQHKFSDSFFKMFIPFYMEEIKGIAHK PGPT0000510_1121 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-DENITRIFICATION|NITRATE_USAGE DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373 NA NA AK015_04022 3102 ttrA COG0243 Tetrathionate reductase subunit A ATGGAAGATAAGCGCATGGATCGACGGAAATTTTTAAAAGCAATGGGGGCATTTGGTGCAGTTGCTGTAATTGGTCCTTCTTTCATTGGACCAGTGAAACAAGTAGTGAATGGCGTTTGGTTTAATGAGGGGCATGGGTACGGTACAGATTACCAGGATTATGGTGCTGAAAATGTTATTTTTACAACATGTGAACAGTGTAATACATTTTGTACAATTAAAGCTTATATAACAGAAGGAAATCAAGCGGGACCTTACACTTCCATGATTCGAAAAATAGCTGGAAACCAATACAGTCCTCTAAATATGGTACCCTATGGAGCTATTGCTTATCAGACGTCTGTAGATGATGCGATTAAAGGGACAGGTGATGTTAAAAAAGGGGGTCGTGGAGCTCGGGGTGGTCGTATTTGTTTAAAAGGGCAAGCTGGTATGCAAACGGCTTACGATTCCTATCGAGTGAAACAACCATTACGACGAGTAGGGGCTCGTGGTAGTGGAAAGTGGCAAACGGTTTCTTGGGAAGAAGCATATGACGAAATTGTAAATGGCAGCAAAACTTTAAGTACGCCAGGATTAAAGGAATTAGCTGCACATGCTCCACAAGAAGAAGTGATGCAAGATTGGGAAAAAGTAAAACAAGAAGAAATGACCTTTAATGATTTTGATCAAAAATATAAAGATGTGCTAATTGATACGGAACATCCTGATTTTGGGCCAAAAGTAAACCAAATAGCCTTTATGATTGGTGATCGACGTGATTTTATGGAGCGTTTTATCTTGCGTAGTCTAGGAAGTAATAACTATTATCATCATGGTGGAATCTGTGGTATAAGTTCGGTAGTAGGAAATACACGTTCGTATGCAGGAGAAAAGGCAAAAAAACGTCAGTATGCCGATGTGGATCATTCATTGTTTCTGTTAGTATGGGGAACGAATCCGATGGTTGCGAATAAAGGACCTACTTGGCTCGCTCCCAAGTTGACCAATGCCATTGAGAATGGAATGCAAATGGCTGTTGTTGATCCGCGATTTAGTAAAACAGCTGAAAAAGCGCAAATGTGGCTTCCGATTAAACCAGGTACAGACGCCGCATTAGCATTAGCACTCGGTCGAATTATTATTGAACGACAATGGTATGATGAGGACTATTTAACAAATCCAAATAAAGAAACTGCAGCGAGGGATGAAGAACCGACTTGGAGTGATGCCACACATTTGGTAAACATGTCTGATCCAAAGCGTCCTAAATTACGTGCCAGTGATATTAACATAGGAACAGAAGAACAGTTTGTTGTAATGGAGAATGGAGAGCCAGTTTCACATATTGAAGCTAAATCTGGCAAATTGGAAGTGGATACAACTATTAATGGTATAAAGGTTAAATCAGCTTTTCAACTGTATAAAGAAAGAGTAATGGAAAAAACATTAGAGGAATATGTATCCATTACTACAATTCCAAAAGAACAAATGGTTAAACTTGCACGTTCATTTACATCGTACGGCAAGCGTTCAGCAGTTATGGCTTACAGAGGGCCGGCGATGCATGAAAATGGGTATTACAATCAACGTTTAATTGCGATTTTAAACCATTTGATTGGCTCTTATGATTGGAAAGGTGGAAACATTACTACTGGAGCATTTTATAAGGAATTTGAAGGGAAATATGACTTATTAACTGTCCCAAATGGACGTGCGCCATGGGGAGTGAGAATTGCAAGAAATCAATTCAAATACGAAGATTCTACCTTATTTGAAAAAGATGGCTATCCGGCAAAACGTCCTTGGTTTCCTTTTAGCCCACAAACGGTTGGAGATGTATTACCAAGCGCATTAGATCAGTACCCATATCCATTGAAGGCGTTAGTCACCCATCGTATGTCACCCGTATTGTCGGCGCCTAATGGACAAATTCAAGAGCAGGCATTAAAAGATCCAGAGATTTTACCTTTATATGTATCCTCCGATGTACAAATTGGTGACACATCCAAATATGCTGATTTTATTTTACCAGATACGGTTTATTTAGAGCGGTGGGGTAGAGAAGCTATTTATCCAAATATAACAACGAAATTGGCTAGCGTTTATCAACCAGTAACGCGTGTTTTCCCAGATGTCCGTTCATTTGAAAATAGTGTCATTGAAATAGCTAAACGGATGGAGTTGCCTGGTTATGGGGATGAAGCATTTCCCGATGGTAGCTCACTAAATAGTGAAGAAGATTACTATTTAAAGCGAGTTGCAAACATTGCCTATGATGGGAAACCTGTACCTGATGCAGTGAAAAGAGAAATGACCATTTTTGAAAATGCGAGAAACAAAGCTTTAGGGAAGTCTTTTGACTTGAAAAAGTGGCAGCGAGCAGTGAAGCCAGAAGAGTGGGCAAAGGTAGTGTATGTTTTAAATCGTGGTGGTCGATTTGAAGAGGCTGGAAACGAATATGATGGTAGTCATTTGAAATATAGTTTTGGAGGCCAAGTAGATTTTTATGATGAGGGAGTTGCGGCTGGTAAAAATTCATTTGATGGTAAGTATTTTGAAGGAATGCCAATGTATAGAAATATTCAAGCATATAATCAAAAAGATGTAGATGTGAAGCAACCATTACAATTTATTAATTGGAAAGCAAGAAATATGGGGACGTATCGAAATATTAGCAGTGCTTGGTTGCGAGAAGTTCGTTCAGACAATTACATTTGGATAAATCCAGTTGATGCAAAAAAACGGAACATTAAGTCAGGAGACGCCGTAGTGATTAAAAATGGGAATGTATCACTAGAGGGGACGGTTTATGTTACGGGAGGTATTGCTCCAGGAGTTATCGGTGCAGCATATAATATGGGGCAAACTGGATATGGTGCCACACCGCAAACGATTGATCAGAAAAAAGAAGCAAACTTACCAACGTATAATCATACGCCATTTAGGTTTAATACAGTCATGCATGAAGAATCGGGTTTTCCTGGAGGTCGTGCAGAAGGCTTTGTCGTAAATCAATTAACGGAAGTTGACCCCAATTTTGCTCATGGTGTTCTGTTTGATGAAGTAGGTGGTTCTCCGGCTCAGTTAGATATGTATGTAGACATTGTGAAAAAAAACTAA MEDKRMDRRKFLKAMGAFGAVAVIGPSFIGPVKQVVNGVWFNEGHGYGTDYQDYGAENVIFTTCEQCNTFCTIKAYITEGNQAGPYTSMIRKIAGNQYSPLNMVPYGAIAYQTSVDDAIKGTGDVKKGGRGARGGRICLKGQAGMQTAYDSYRVKQPLRRVGARGSGKWQTVSWEEAYDEIVNGSKTLSTPGLKELAAHAPQEEVMQDWEKVKQEEMTFNDFDQKYKDVLIDTEHPDFGPKVNQIAFMIGDRRDFMERFILRSLGSNNYYHHGGICGISSVVGNTRSYAGEKAKKRQYADVDHSLFLLVWGTNPMVANKGPTWLAPKLTNAIENGMQMAVVDPRFSKTAEKAQMWLPIKPGTDAALALALGRIIIERQWYDEDYLTNPNKETAARDEEPTWSDATHLVNMSDPKRPKLRASDINIGTEEQFVVMENGEPVSHIEAKSGKLEVDTTINGIKVKSAFQLYKERVMEKTLEEYVSITTIPKEQMVKLARSFTSYGKRSAVMAYRGPAMHENGYYNQRLIAILNHLIGSYDWKGGNITTGAFYKEFEGKYDLLTVPNGRAPWGVRIARNQFKYEDSTLFEKDGYPAKRPWFPFSPQTVGDVLPSALDQYPYPLKALVTHRMSPVLSAPNGQIQEQALKDPEILPLYVSSDVQIGDTSKYADFILPDTVYLERWGREAIYPNITTKLASVYQPVTRVFPDVRSFENSVIEIAKRMELPGYGDEAFPDGSSLNSEEDYYLKRVANIAYDGKPVPDAVKREMTIFENARNKALGKSFDLKKWQRAVKPEEWAKVVYVLNRGGRFEEAGNEYDGSHLKYSFGGQVDFYDEGVAAGKNSFDGKYFEGMPMYRNIQAYNQKDVDVKQPLQFINWKARNMGTYRNISSAWLREVRSDNYIWINPVDAKKRNIKSGDAVVIKNGNVSLEGTVYVTGGIAPGVIGAAYNMGQTGYGATPQTIDQKKEANLPTYNHTPFRFNTVMHEESGFPGGRAEGFVVNQLTEVDPNFAHGVLFDEVGGSPAQLDMYVDIVKKN PGPT0002910_108 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ARSENIC_RESISTANCE ARSENIC_RESISTANCE-PUTATIVE_TTR-SYSTEM,PGPT0002910-ttrA-K08357 NA NA AK015_04023 1293 qrcD Menaquinone reductase, integral membrane subunit ATGTCAACGGTTGCAAATGAAGCGAAGCAATCCCATTATAAATCAAAGAAAACGCAATCAATATGGTTTAAATGGTGGGTCGGAATTTTATGTGTATTATTTGCTATAGGTGCTTATTTTATTGTTGAACGATTGTGGCTTGGTTTAACGACGACAAATCTTTCTTCTATAACTCCATGGGGAGCTTGGATCGCATTCTATATTTTCTTTGTTGGTTTAAGTGCAGGTTCGTTTTTGCTCTCAACTATGATTTTTGTTTTTGGTATGGAGCGTTATGAAAAAGTAGGCAAGATGGCTTTATTTACTGCTATTGTTTGTATGATTGTAGCATTAACTTTTGTATTAATGGATTTAGGAAGGCCAGAGCGTGCATTTAGTGCCTTGGTTCACTGGAATGTAACGAGTATCCTTGCCTGGGAGATGCGATTTTATGTCATTTATATTACTTTATTAACGGTAGAATTATATGTTGCTATGCGAGCAGATTTTGTTCGTTTAGCCACTTACAATAGTTTAAAAGGCAAGATAGCCCGGCTCTTAACGTTTAAAAATAGCACTATTAATGACTATACGAAAAAGCGCGATCACCGTTGGATGAAAATATTAGGCACAATCGGCATCCCATTAGCTATTTTAGGTGTACACGGAGGGACTGGAGCTATATTTGCAGTTGTTAGTGCTCGGTCTTCTTGGAACAGCGGTATTTTTCCAATTATCTTTGTTGTGTCTGCAATGGTTTCAGGAACAGCGCTACTACTTGCCATATATATCATTAGGAGTAAAGCATTGAAACAGCCAATTGATCAAGGCATGGTAATTGGGCTAGCAAAAGTAATGATCGCTTTCTTGTTTATTGATTTATTACTTCAATTCTATGATTATTTAGTAGCTCTATACAGTTTAGCAGATTCTCATTTATTATCATTACAAACGATGATGCGAAGTTCCTATAGCTGGTCGTTTTGGGGGATACAAGTGTTTCTTGGCTCTGTTGTTCCTATATTTCTCGTTTATTATAAAAAGACAGCTAAAAATATAAATGCGCTACTTATCGCTGCTATACTTGTCGTAATTGGAATCATTGGTGTTCGATTCAATATTGTTGTCCCATCGCAAATAGTTCCGATTATGGAGGGAATGCCAGCAGGTGACTACTATCCAACCTATAATGAATGGCTTGTAAGTGTTGGAATTGTAGCAATGGGATTGCTTATTTTTACGATTGCTGATCGATTACTTCCGCTTGACCAAGCAGATGATGTAAGTGAAATGGGGGATCAAAATGGAAGATAA MSTVANEAKQSHYKSKKTQSIWFKWWVGILCVLFAIGAYFIVERLWLGLTTTNLSSITPWGAWIAFYIFFVGLSAGSFLLSTMIFVFGMERYEKVGKMALFTAIVCMIVALTFVLMDLGRPERAFSALVHWNVTSILAWEMRFYVIYITLLTVELYVAMRADFVRLATYNSLKGKIARLLTFKNSTINDYTKKRDHRWMKILGTIGIPLAILGVHGGTGAIFAVVSARSSWNSGIFPIIFVVSAMVSGTALLLAIYIIRSKALKQPIDQGMVIGLAKVMIAFLFIDLLLQFYDYLVALYSLADSHLLSLQTMMRSSYSWSFWGIQVFLGSVVPIFLVYYKKTAKNINALLIAAILVVIGIIGVRFNIVVPSQIVPIMEGMPAGDYYPTYNEWLVSVGIVAMGLLIFTIADRLLPLDQADDVSEMGDQNGR NA NA NA NA NA AK015_04024 882 hypothetical protein ATGTTTTTAAAACAACTGCTGGAAGATGACTTTAATCAAGTTGTGGATGAACGGTTGTCAAATGCCAGCGAAGAATTAGCGAATTCTCCTTATAATACGAAACTTGGATTAAATATGGCAGACGATGCTAGAAAAGTTGTTGCAGGTCAGTTGGATATTCAATCGTTTCATAAAAAATATTATGCTTCTCTGATGAAAGAGTTTGGCGAACATGTTGCGCAAGAAGCACCTCATACAAAAGGGAATAAAGGTGTGAAATGGGGCATGGTTATTGACCTTCAGAAATGTGTTGGTTGTGATTCTTGTACGGTTGCATGTAAGGCAGAGAATAGAACCCCTCCTGGAATTTCGTATAATGTTGTTTTAGAAAGAGAAGTCGGAGAATTTCCGCATTTATCGAAATTAAACTTACCAATGCCTTGTATGCATTGTGATAATCCTCCATGTGTTCAGGTTTGTCCAGTTCGAGCAACGTTTAAATTGGATAACGGAATTGTAACAATTGATAATGACCGTTGCATTGGCTGCAGGTATTGTATTGTTGCTTGTCCGTACGGTGCACGGTCATATGATTTTGGTGAAAGTTATGAAGATGAGATGTTAGGATTTAATGATGTAACTAGCCCAGAATACGGAATTGAACGTGGCAAACGGGAGCCAAAAAAGACGCCAATTGGCACTGTACGGAAATGTAATTTTTGTTTGCATCGTTTAGAAAGAGGCGAAGAGCCTGCATGTGTAGAAACATGTATTGGAGATGCGCGTTTTTTCGGAGACTTAAATGATCCAAATAGCACAGTATCAAAACTTGCTAATAGTCCAAGAGCTTTTCGTTTAAAGAGCGATTTGGGAGCAGGTCCAAATGTAATTTATCTAAAGTAA MFLKQLLEDDFNQVVDERLSNASEELANSPYNTKLGLNMADDARKVVAGQLDIQSFHKKYYASLMKEFGEHVAQEAPHTKGNKGVKWGMVIDLQKCVGCDSCTVACKAENRTPPGISYNVVLEREVGEFPHLSKLNLPMPCMHCDNPPCVQVCPVRATFKLDNGIVTIDNDRCIGCRYCIVACPYGARSYDFGESYEDEMLGFNDVTSPEYGIERGKREPKKTPIGTVRKCNFCLHRLERGEEPACVETCIGDARFFGDLNDPNSTVSKLANSPRAFRLKSDLGAGPNVIYLK PGPT0004863_1 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_SELENIUM_RESISTANCE SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004863-srdB-NA NA NA AK015_04025 276 hypothetical protein ATGATCTTCTTCTACCGCTTTTTCGCCGCGTTAGCTTTACTTGTTTTTAGTGTGTTATACATTGGTTTACTTGTAAGTGTCATTATTGGAATAAGTGGTAGTGTTCTGCGCACTATAGGTCTAACTCAAATTGAAATTATTTTTCCACCTGATATATCACTTCCAGCATATCTAAGTATACCGATCATGTTCGTGTTTACAACTATCTTGCTGATTATTTCCAAATATGTAAAACAAATAATCCGTTTTTTGCTCCTTCCTTTTCAATCATCTTAA MIFFYRFFAALALLVFSVLYIGLLVSVIIGISGSVLRTIGLTQIEIIFPPDISLPAYLSIPIMFVFTTILLIISKYVKQIIRFLLLPFQSS NA NA NA NA NA AK015_04026 582 hypothetical protein TTGGTGAATCAAAACATTCGTTTCATTGGTCAAAGTAAACAATTAGAACCAATTTTTGCACGTACTATTACTGCACAAGGTCATCACCGCTTTTGTGAAGCTATAAAAGCGCATGAAGCAACTATAGTAGGCAGCTGTATTATTGATGATGTTGTGCAAATGAAAAAATTAAAAAGTGGTGGTCATTTAACAATGAATCGAGCAAAGCTTGAGGAGTTAATTGTTACAGGAACGTTAAGCGCAAAACATATACAAACGAAAGATATATTTGTTCGTGGCAAAATTAGAGTGGATCATTTAGAAGCAGAGCATGGAGAGATCATTATGAAATATACGTGTCATATTGGGAAAATGAATGTAGAAAAACTGCTTATAAAAAAAGGCTTTTCATTTTCTAGTCGGCTTGTAAGTGAGTTGATAACTGGAAAAAATATTCAACTAACACACACACAAGCTAATACCGTTCGTGGCGAGCATGTTGTTTTGGGGGAAAACTGTGAAATTAATACATTGTATTATACTGAACAGTATACGATTGCTAAAAGCTCGAGTGCAATACGAATTGTAAAGGAAGTTCTTTAA MVNQNIRFIGQSKQLEPIFARTITAQGHHRFCEAIKAHEATIVGSCIIDDVVQMKKLKSGGHLTMNRAKLEELIVTGTLSAKHIQTKDIFVRGKIRVDHLEAEHGEIIMKYTCHIGKMNVEKLLIKKGFSFSSRLVSELITGKNIQLTHTQANTVRGEHVVLGENCEINTLYYTEQYTIAKSSSAIRIVKEVL NA NA NA NA NA AK015_04027 408 hypothetical protein ATGAGCAATATAGAAACAATCATGCATGAGATTGTAGACATTCAATATAAATCGAAGCAGTTTATGGATGTGTTAGCATCTAATGGAGAATTGCCACCGTCACAAATCGTGTTGCTGATTAAATTAAAAACGAGTGGGGGATTAAAAGCAGCGGAAATTGCATCATTTGCTGGCGTCACGCCCGGAGCAGTAACATCCATGTGCGACAAGTTGGAAAAGACGGGGTTAATTACGCGCGTACGGGATACGACGGATCGGCGTGTCGTTAGAATGCAGCTAACATCTGAAGGGGATAGATATGTGCAAAAAACCTTTGCAAAGTATCCCCCTCATCAACTGAAAGAACTGGCGACGATTCTACATGGAGTAAATCAATTAATGAATAAAATAGTATCCAAGAGCTCTTAA MSNIETIMHEIVDIQYKSKQFMDVLASNGELPPSQIVLLIKLKTSGGLKAAEIASFAGVTPGAVTSMCDKLEKTGLITRVRDTTDRRVVRMQLTSEGDRYVQKTFAKYPPHQLKELATILHGVNQLMNKIVSKSS PGPT0013155_5250 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK015_04028 321 hypothetical protein ATGTCTAAGTTAGGAGCGAAATATGTATTGGTTCATTTTCCTTATTTTAAATCTAAGGTTGAAGAACAAATGATGGTAAAAATGGAAAGTGGTTTAAGGCGGTTACAACATTTACAATTGAAGTATGATATCCCAATTGTTTGTGAACCAAAGCTAGGGTTTAATCGTTCTCCTGCAAATATCGAATTACTCCATCATTTTTCCGTTGAAAGATGGTTCAAATACGACATAAAGCTCTGTATCGATATTGGAGATTATTTACTGGGAGCAAAAGAAAAAGCGCTATCTTATATCTCTAAATGGAGGAACATATTAAAGTAG MSKLGAKYVLVHFPYFKSKVEEQMMVKMESGLRRLQHLQLKYDIPIVCEPKLGFNRSPANIELLHHFSVERWFKYDIKLCIDIGDYLLGAKEKALSYISKWRNILK NA NA NA NA NA AK015_04029 225 hypothetical protein ATGTATCACTGCGGAATTTCTGGTAGTACGATACTAACAAATTCTTCGAAGTTATATGAACTGTTTGCATATGACTTCGTTGATCATATAGAGATAGGAGAATTTTCTGACCAAACAGCTTTTGAAAAATTTAAGTCTTTAAAGGATAGACACGGGTTCAGCTTTGGCTTACATTCTCCGTTATATCGAACTAGAAGCAAATATGACCTTTTGCAGTTAACATAG MYHCGISGSTILTNSSKLYELFAYDFVDHIEIGEFSDQTAFEKFKSLKDRHGFSFGLHSPLYRTRSKYDLLQLT NA NA NA NA NA AK015_04030 414 hypothetical protein ATGAAACGAACAGGAGAAATAGTTTTTACGGTTATCGGAATTTTACTTTTTGGAATTTTAATTTTTGGATCTGCAACGTATTTGTCAGCAGATAGCGGCGAAATACAACAGCTGTTTGAAGAAGTTTTACAAGAAGAAGGAACTAATGAGGTAAGTGCAGAAGATCTATCCCAGACAGTGGAGTCTGCTGCTACAACCATGTTAATTGTTTCTATCGTTAGTGTTATTTTTGGTTTGATTTCCATCTTCTTGCTTGTCGGAAATAAAAAACCAAAGATAGCAGGGGTTATCTTACTTATTACTGCAATAGGGGGAACCTTTCTGACGATGTTTTTTGGGAGTTTTGGCGGAGTTGTTTATTTAGTTGCTGGAATCATGGCACTAGTACGTAAAGAGAAGAAAATGATTGGATAA MKRTGEIVFTVIGILLFGILIFGSATYLSADSGEIQQLFEEVLQEEGTNEVSAEDLSQTVESAATTMLIVSIVSVIFGLISIFLLVGNKKPKIAGVILLITAIGGTFLTMFFGSFGGVVYLVAGIMALVRKEKKMIG NA NA NA NA NA AK015_04031 648 hypothetical protein ATGAAGGGATTAGTGTTAAAAGATGTTTATAATGTATTAAATAACGGAAAAGGGTTATTAATGATGATGCTCATTCTTGCGCTTGCTATTGTTCCGACACAAGGTTTTATAGGTTTTATTGTTACGGGTACAATCGTGTGCAGTATGATGAGCACGACGTCTTTTGCTATCGATCATAATAGTAAATGGGAGCAGTTTGCTATTGCACTTCCTATAGATCGTAAAGATATTGTAAAAGGAAAGTTTGTGACACTGCTTTTGTTCACACTGATTGGGCTTACCCTTTCTATTGTTTTAGGGAGTTTGGCAACAGTAATTTTTCAAATGACATTGTCTAGTAAAATGGTTATAAAAGAAATGGGGCAAATGATAATTTTAAGTGCCTCTGTAGCTTTAATATTTGGAACGAACTCTATCTTATTACTGTTGAAATTTGGAGCTGAAAAAGCGCGGATGTTTTTAATTCTAGGCTATGTTATTCCTGGAGCACTGATCATTTTTATGCTGAGCAAACTAAATGAATTAGGTGTTGTCTTTACAGAGAAGATGTTGAATCAAACGCTCATGATGCTTCCCTTCGTCGTTATTATTTGGCTTACCATTGGCTATAGCTTGTCTGTTGTAATCATGAATAAAAAGCAATACTAA MKGLVLKDVYNVLNNGKGLLMMMLILALAIVPTQGFIGFIVTGTIVCSMMSTTSFAIDHNSKWEQFAIALPIDRKDIVKGKFVTLLLFTLIGLTLSIVLGSLATVIFQMTLSSKMVIKEMGQMIILSASVALIFGTNSILLLLKFGAEKARMFLILGYVIPGALIIFMLSKLNELGVVFTEKMLNQTLMMLPFVVIIWLTIGYSLSVVIMNKKQY PGPT0006730_25033 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992 NA NA AK015_04032 846 btuD_10 Vitamin B12 import ATP-binding protein BtuD ATGAAGGCGATAGAAGTTAAAAACGTAAAAAAAGAAATAGGAACACTTCGCATAGAAGGGTTAAATTTTACAGTGCCTCAGGGAAGAATTGTTGGTCTCGTTGGTGAAAATGGTGCTGGCAAAACAACCACGATTAAACTTATGATGGATGTTATGGAAAAAGATGAGGGAGAAGTTCTTTTCTTTGGGAAAACTTTAAATAAAGCCATTAAAGAAGAAATTGGGGTTGTATATGATGAAATCAATTTTTATGAAAAAATAAATGCAATAAAGATTGACAAAGTTTTAAAAGGCATTTTTCAATCTTGGGACTCAGATAAATATTTTCAACTGCTTGATCGCTTTAAACTCCATAAAAGTCAATTGTTAGGGAATTATTCCAAAGGGATGAAGATGAAATTAAATATCATTATTGGTTTAGCGCATTCTCCTAAACTATTAATTTTAGATGAGCCAACTAGTGGCTTAGATCCGTCTGCACGTATGGAAATGTTGGATTTGTTTTTGGAGTTTATTCAAAATGAAGAACATTCCATTTTGATATCCTCTCATATCACTAATGATCTTGAGCGAATAGCGGATTATATAGTTATGATTCATGATGGGAAAATTATATTACAGTTAGACAAAGATGAATTGTTGTACAAGTATGGGATAATACGCTGTTCAGAAAAGCAGTTACAATATATTCCTAAGAATGTCATTTTGGCTTATCATAAAACTAACTCACTCTGTGAGGTTGTGATCAAAGATGCACCTGGAATGAAAGAGGCATACCCAGAGTTAACTATAGATGGATTGTCTATTGATGACATGATGGCGATTTATATTAAAGGAGAGAAATGA MKAIEVKNVKKEIGTLRIEGLNFTVPQGRIVGLVGENGAGKTTTIKLMMDVMEKDEGEVLFFGKTLNKAIKEEIGVVYDEINFYEKINAIKIDKVLKGIFQSWDSDKYFQLLDRFKLHKSQLLGNYSKGMKMKLNIIIGLAHSPKLLILDEPTSGLDPSARMEMLDLFLEFIQNEEHSILISSHITNDLERIADYIVMIHDGKIILQLDKDELLYKYGIIRCSEKQLQYIPKNVILAYHKTNSLCEVVIKDAPGMKEAYPELTIDGLSIDDMMAIYIKGEK PGPT0006725_20061 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_BIOTIC_STRESS BACTERICIDAL_COMPOUNDS|ANTIBIOTICS BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990 NA NA AK015_04033 399 ytrA_5 COG1725 HTH-type transcriptional repressor YtrA ATGGATATTTTTATAATAAAAAATAGTCAATTGCCAATCTATGAGCAAATTATTGAACAAATTAAAAAACAAATATCAGAGGGAGATTTAGAACCTGGGAGTCCCATCCCTTCCATGCGCGCTTTAGCGAAGCAATTACGTATTAGTGTAATTACCGTACAGCGTGCTTATGATGAACTTGTAAAAGAAGGTTTTATAGAAAAGATACCAGCTAAGGGTTCATTCATTTCTGAGAATTGCCATGTTTTTTTTGAAGAAGAAATGACCAAGAAACTAGAACAACATTTACATGCAGTTATTAAAATATCTAGAAAAATAGACGTTAGTATCAACCAAGTGCACGATTTATTAGACTATTTTAATCAAGGAGAAGATATACATGAAGGCGATAGAAGTTAA MDIFIIKNSQLPIYEQIIEQIKKQISEGDLEPGSPIPSMRALAKQLRISVITVQRAYDELVKEGFIEKIPAKGSFISENCHVFFEEEMTKKLEQHLHAVIKISRKIDVSINQVHDLLDYFNQGEDIHEGDRS NA NA NA NA NA AK015_04034 1023 adhA Alcohol dehydrogenase 1 ATGAAAGCAGCAGTTGTAAGTTCTGAAAAAACCAAGCTTGTTGATGTGAAAGATGTTACGTTGCGTCCGTTAGAAACTGGTGAAGCGCTTGTAGATATTGAATATTGTGGTGTGTGCCATACTGATTTACATGTTGCTAAAGGTGATTTCGGGGAAGTTCCTGGACGTGTTTTAGGGCATGAAGGTGTAGGTATCGTAAAAGAAATTGCAGATGATGTAACATCTTTAAACGTAGGGGATCGTGTCAGTGTAGCGTGGTTTTTTGAAGGATGTGGCTCTTGTGAATATTGCGTGACTGGTCGAGAAACATTCTGTCGGGATGTAAAAAATGCTGGTTACAGTGTTGATGGAGCCATGGCTGAACAATGTATTGTTGCAGCCGATTATGCAGTGAAGGTACCAGAAGGTCTAGATCCACAGCAAGCGACAAGTATAACATGTGCAGGTGTAACTACTTATAAAGCAATAAAAGTATCTAATGTAAGCCCTGGTGAATGGATCGTTATCTTTGGAGCTGGAGGGCTTGGAAACCTCGCTATCCAATACGCAAAACGGGTTTTTAATGCGAAAGTTATCGCTGTTGATATTAATGACGATAAATTACAGCTGGCAAAAGAGGTTGGCGCTGACGTAACATACAACGTAAAAAACGTTGCTAATGTTGATGAAGTGATTCAAAAGGAAATCGGTGGAGCTCATGCAGCAGTTGTGACAGCTGTATCGAAAGCGGCATTTAATCAAGCCGTTAATGCTGTACGTCCAACCTCCAAAGTCGTTAATGTTGGCTTGCCTCCTGAGAAAATGGATTTAGACATTATCAAGAGTGTGCTAGACGGCATTGAAATCATCGGCTCGTTGGTCGGAACTCGAAAAGATTTAGAAGAGGCATTTATGTTCGGTGCAGAAGGAAAAGTAGTACCAGTTGTTCAACCTCGTAAGTTAGAAGAAGTTAATGATATTTTTCAAGAAATGGAAGATGGAACGATTCAAGGTAGAATGGTTATTGATATGTACTTAAAATAA MKAAVVSSEKTKLVDVKDVTLRPLETGEALVDIEYCGVCHTDLHVAKGDFGEVPGRVLGHEGVGIVKEIADDVTSLNVGDRVSVAWFFEGCGSCEYCVTGRETFCRDVKNAGYSVDGAMAEQCIVAADYAVKVPEGLDPQQATSITCAGVTTYKAIKVSNVSPGEWIVIFGAGGLGNLAIQYAKRVFNAKVIAVDINDDKLQLAKEVGADVTYNVKNVANVDEVIQKEIGGAHAAVVTAVSKAAFNQAVNAVRPTSKVVNVGLPPEKMDLDIIKSVLDGIEIIGSLVGTRKDLEEAFMFGAEGKVVPVVQPRKLEEVNDIFQEMEDGTIQGRMVIDMYLK PGPT0006365_1967 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_LIPID_METABOLISM PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953 NA NA AK015_04035 312 hypothetical protein GTGAAAGAAGCTAAAAAACAAGTTCCGACATCTGGTGGAGTTATTGTGGAATCACATAAGTATGAAATAATCACGGGTAATTATGTTTCTGAAGGGAACCCAGAGATTCGATCTGTAGAAACCCCTTTGGTAATGGAGTTTGCTCAAGAGTTTAAAACGCTTACGGTTGATAAATATAGTACTGTAGAAATCATCATAGAAGAAAATCCCTGTTTAACCGTTTTTGAATGGACCAAAGATGGAGAAACAAACGAAGTTACTATAAAAGATAACAAAATTACTGTTCCAGCAGAAATGGGTGTCTATATTTAA MKEAKKQVPTSGGVIVESHKYEIITGNYVSEGNPEIRSVETPLVMEFAQEFKTLTVDKYSTVEIIIEENPCLTVFEWTKDGETNEVTIKDNKITVPAEMGVYI NA NA NA NA NA AK015_04036 528 hypothetical protein ATGGTTGCTCCGATCCCAGGAACTAATATACAAATACAAAGTTATAAGCATAATGGACGGTTGCATCGTATATGGACAAACAGTCTTGTTTTAAAAGGGACAGAGACCGTTGTTATCGGAGCAAATGACCGAACAGAGGTAAAAGAAAGTGATGGTAGGTCATGGTTTACGAGAGAACCAGCTATTTGTTATTTTCATGCTGCGCATTGGTTTAACGTCATCGGTATGCTTCGAACAGACGGTATTTATTACTATTGTAATATCAGCTCTCCATTTCTATATGAGCATCGTGCAATTAAATATATTGATTATGACTTAGATGTAAAAGTTTATCCAGATATGACATATACTTTATTAGATGAAGACGAGTATGAACTACATCGACAACAAATGAAATACCCAAGTAAACTTGATTATATCTTACATCACCAATTGAATATTCTTGTAAGGTGGGTGAGACAAAGGTATGGTCCTTTTTCACCAGGGTTTGTCGATGAATGGTATGAGCGATACTTAACATATCGATAA MVAPIPGTNIQIQSYKHNGRLHRIWTNSLVLKGTETVVIGANDRTEVKESDGRSWFTREPAICYFHAAHWFNVIGMLRTDGIYYYCNISSPFLYEHRAIKYIDYDLDVKVYPDMTYTLLDEDEYELHRQQMKYPSKLDYILHHQLNILVRWVRQRYGPFSPGFVDEWYERYLTYR NA NA NA NA NA AK015_04037 1764 COG1132 Putative multidrug export ATP-binding/permease protein ATGAATTCAATGAAGCAATATATGTATTTTGTAAAACCTTATAAATGGAAGATATTTTGGACGGTTATAGTCGGAATTGTAAAATTTGGCATTCCGTTATTAATGCCTTTAATCCTCAAATTTGTAATTGATAACATTATTGGTAATGAAGTACTGAGTCAAACGGAAAAGACAACCCAACTCATTTGGTTGATGGGAACGGCTTTTATCATTTTCTTTGTTTTACGACCACCTATTGAATATATTCGACAATATTTAGCTCAGTGGGTTGGAAATAAGGTGCTTTTTGATATTCGAGACCGTTTATTTGACCATTTACAGCATTTAAGTTTGAGATTCTATTCCAAAACAAAAACAGGCGAAATTATTTCCCGGGTAATACATGATGTCGAACAAACAAAAACGTTTGTCATTACAGGTCTAATGAATATTTGGTTGGACCTGATAACGATACTGATTGCTATCGGAATTATGTTGTCGATGGATATCGAATTAACCATTGTAGCTATTATTCTATTTCCTTTGTTTGGCTTTTCTATTAAATATTTTTATGGAAGACTGCGGCAACTCACTCGTAAACGCTCACAAGCGCTTGCAGAAGTTCAAGGACATTTACATGAACGCGTGCAAGGCATGCCGGTAACGAGAAGCTTTGCATTGGAAGATTATGAACAAGAACAATTCGCTAAAAGAAATAATAATTTTTTGAACAGAGCACTGGAGCATACAAATTGGAATGCTAAAACTTTTGCAGTAACGAATACAATTACAGATTTAGCACCTTTATTAGTAATCGCGTATGCGGGCTATCAAGTTATTCATGGTCATTTAACAATGGGAACAATGGTCGCTTTTGTCGGATATATGGAACGGGTGTATAGTCCGTTAAGAAGATTAATTAATTCTTCGACAACACTTGTGCAATCGATCGCTTCCATCGACCGCGTTTTTGAGTTAATGAATGAGAAATATGATATTACAGATCGACCTCATGCGGCGGAATTAGATAACCTACGTGGTGAAGTAACTTTTGAGGATGTTTATTTTCAATATGAGGATGAAGAACAGGCTGTGTTAAGGGATGTTTCCCTTCATGTGAAAGAAGGAGAAACCATTGCTCTTGTCGGTATGAGTGGCGGAGGAAAATCAACGTTTGTAAGTCTTATACCACGTTTTTATGATGCTACGAGTGGAGCAATAAAGGTAGATGGAATCGATGTTAGAGATGTGAAGGTGCGTTCACTACGAGATCAAATTGGAATGGTGCTGCAAGACAACACCCTGTTTAGCGAATCAATCGCAATGAATATTCGCATGGGAAACCCTCATGCTACGGATGAAGAAGTGGTGAAAGCAGCTAAAGCGGCAAATGCTCATGAATTTATTCAGCAGTTACCATATGGCTATGATACGCTTGTTGGTGAACGAGGTGTGAAATTATCAGGGGGACAGAAACAGCGAATTGCCATTGCACGTGTTTTCTTAAAGAATCCACCAATGCTTATATTTGATGAAGCAACATCCGCTCTTGATTTAGAAAGTGAGCATACGATTCAAGAGGCAATGGAAAAATTAGCTTCTAACCGAACAACGTTTATTGTTGCGCATCGATTAGCCACAATCACGCATGCGGATCGTATTGTCGTAATGGAAGATGGAAAAATTAAAGAAATTGGAACGCATTATGAACTGATGTATAAACAAGGAATATATTATAATTTGTACCAAGTGCAACACCTAGACACTACTGTTGAACAAGGTTAA MNSMKQYMYFVKPYKWKIFWTVIVGIVKFGIPLLMPLILKFVIDNIIGNEVLSQTEKTTQLIWLMGTAFIIFFVLRPPIEYIRQYLAQWVGNKVLFDIRDRLFDHLQHLSLRFYSKTKTGEIISRVIHDVEQTKTFVITGLMNIWLDLITILIAIGIMLSMDIELTIVAIILFPLFGFSIKYFYGRLRQLTRKRSQALAEVQGHLHERVQGMPVTRSFALEDYEQEQFAKRNNNFLNRALEHTNWNAKTFAVTNTITDLAPLLVIAYAGYQVIHGHLTMGTMVAFVGYMERVYSPLRRLINSSTTLVQSIASIDRVFELMNEKYDITDRPHAAELDNLRGEVTFEDVYFQYEDEEQAVLRDVSLHVKEGETIALVGMSGGGKSTFVSLIPRFYDATSGAIKVDGIDVRDVKVRSLRDQIGMVLQDNTLFSESIAMNIRMGNPHATDEEVVKAAKAANAHEFIQQLPYGYDTLVGERGVKLSGGQKQRIAIARVFLKNPPMLIFDEATSALDLESEHTIQEAMEKLASNRTTFIVAHRLATITHADRIVVMEDGKIKEIGTHYELMYKQGIYYNLYQVQHLDTTVEQG PGPT0029045_979 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 AK015_04038 246 hypothetical protein ATGCAAGCGCCATATTGTTGTCCCAATTGCAAAACAAATAAGACGAGATTTAACAAAATTGATCAAGTAGCAAACCCTATGAAGATGGATGCACAAACGGGAGAAATAGTCGAGACATATGAAACAAATCAAGTGGAAACCTTTCATATCATGTATAAAGGGCCTAAATTTAAAATCCAGTGTGCAGCTTGTGGCGTCATTGAAGATGAAACAACTTTCATTCAATACGCGCAATACAAGTCTTGA MQAPYCCPNCKTNKTRFNKIDQVANPMKMDAQTGEIVETYETNQVETFHIMYKGPKFKIQCAACGVIEDETTFIQYAQYKS NA NA NA NA NA AK015_04039 1296 hemL1 COG0001 Glutamate-1-semialdehyde 2,1-aminomutase 1 ATGAATTCTTCAACATCAGAAGCACTCCATCAGGAAGCATTAAAGCATATTGTGGGAGGTGTTAATTCACCATCACGTGCTTATAAAGCAGTTGGAGGCGGCGCACCCGTTTACATGGAAAAAGGAGAAGGAGCTTATTTTTGGGATGTCGACGGTAATAAATATATTGATTATTTAGGGGCTTACGGACCAATTATTACAGGGCATGCGCACCCACATATTGCCAAAGCGATTACACACGCAGCTACGAATGGTGTGTTATATGGTACACCAACAAAATTAGAGAACCAGTTTGCTAAAATGCTGAAGCAAGCCATTCCTTCGTTGGAAAAAGTGCGTTTTGTCAACTCAGGTACAGAAGCCGTGATGACCACTGTTCGTGTTGCAAGAGCTTATACCAATCGAACAAAAATTATTAAGTTTGCTGGCTGTTACCATGGACATTTTGATTCGGTCCTAGTAGAAGCAGGCTCTGGCCCAGCAACGCTCGGTACCCCTGATTCAGCAGGTATCCCAGAATCCGTAGCTCAAGATGTTATTACGGTTCCTTTTAATAACATGGAAGCGTTGAAACACGCATTAGATATTTGGGAAGGCCAAATAGCAGCTGTGCTTGTTGAACCTATCGTTGGAAATTTTGGGATTGTAGAGCCTAAGGAAGGTTTCCTCCAAGCTGTCAACGACCTTACACACAATGCTGGAGCCCTCGTTATTTATGACGAAGTAATTACTGCTTTTCGCTTTACATATGGAAGCTCTCAGCAAATATATGGTATTGAACCTGATATGACAGCAATGGGTAAAATCATTGGTGGCGGTCTACCAATTGGTGCATATGGCGGTAAAAAACAGATCATGGAACAAGTAGCTCCGCTTGGCCCTGCTTACCAAGCGGGAACGATGGCTGGAAATCCAGCTTCCATGGCAGCTGGAATCGCATGTCTAGAAGTACTACAAGAAGAAGGGCTTTATGAAAAGCTAGATCAGCTTGGCGAAAAGCTGGAAGCGGGAATTATAGAGAAAGCTGACAAATACGGTATTTCCATTTCGGTCAATCGACTTTGTGGGGCCCTTACAGTATATTTTGGTGATGGCGAGATTACCAATTATGAGCAAGCTGAGGCTAGTGACGGAGAAAGCTTCGCAACATTTTTCCGTCTCATGCTTCGCCAAGGAATTAACCTAGCCCCATCAAAATATGAAGCTTGGTTCTTAACCATTGCACATACGGAAAAAGATATTGAGGAAACAATCGCGGCTGTAGAGAAAACATTTCAACACATGCAAACGAAATAA MNSSTSEALHQEALKHIVGGVNSPSRAYKAVGGGAPVYMEKGEGAYFWDVDGNKYIDYLGAYGPIITGHAHPHIAKAITHAATNGVLYGTPTKLENQFAKMLKQAIPSLEKVRFVNSGTEAVMTTVRVARAYTNRTKIIKFAGCYHGHFDSVLVEAGSGPATLGTPDSAGIPESVAQDVITVPFNNMEALKHALDIWEGQIAAVLVEPIVGNFGIVEPKEGFLQAVNDLTHNAGALVIYDEVITAFRFTYGSSQQIYGIEPDMTAMGKIIGGGLPIGAYGGKKQIMEQVAPLGPAYQAGTMAGNPASMAAGIACLEVLQEEGLYEKLDQLGEKLEAGIIEKADKYGISISVNRLCGALTVYFGDGEITNYEQAEASDGESFATFFRLMLRQGINLAPSKYEAWFLTIAHTEKDIEETIAAVEKTFQHMQTK PGPT0003680_2737 DIRECT EFFECT PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION PLANT_VITAMIN_PRODUCTION PLANT_VITAMIN_RELATED_HEME_METABOLISM PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845 NA NA AK015_04040 1923 yxdM_2 ABC transporter permease protein YxdM ATGACCTTCAGACAGTTCACTTTTAATAATGTCAAACGTAATACACGTGCATATTTAAGTTATTTTCTAAGTTGTATGTTTGCTGTCATCGTTTTTTTTATGTATGCCGTAGTTATCTTCCACCCTGAAATAGCAACATACGACTTTATTGATGCCGTAAAAACGGGCATCGTTGCTTCTGAAGTCATTATTTACCTGTTTTCTTTTTTATTTGTACTATATTCAACGTCTGCCTTTATTAAATCACGCAAGAAAGAATATGGTATTTTAACAACGTTAGGAATTAGTAAATTTCAGTTAAATCGAATGCTCATTTTGGAAAATACAATTATTGGTCTAACTTCTATCGTTGCAGGAATATTAGTAGGAGCACTATTCACGAAGCTTTTCTTAATGATATTTTCTGTCATTTTAGGAACGGGGGAAGTGTTTTCCTTTTATTTGTCCTGGAAGGCGATTGCTATCACCGTAATACTGTTCTTTTTTATGTTTGAAATCAATTCGCTGCTTGTTGTACTTACATTGCGAACAAAATCGGTTATGGAAGTATTTCGTGGCGCTCATTCACCAAGGAAAAAACCGCGTTTCTCTTGGATTATAAGCGTACTAGCGTTAGCTGCTGTTACTTATTCCTATTATTTAGCATACACTTCTGACCTTATATCTATGATGTATCGAATGTTTATTATTTTAGCACTAATTATTCCAGGGACATATTTTTTATTTACGCAATTTAGTATCGCTTTAACTAGCTTTTTACAACGCAGAAAAAACATTTTTTACAAGCGATTAAACTTATTAATTATTTCGGATTTAACATATAAATTAAAAGACAACGCTAAGTTACTCTCTATGGTAACTATATTAAGCGCCGTTGCTTTTACATCTTCCGGAGTATTGTACGGGCTATTCCAAGCAGCGGAAGAAGAAAGCGAACGTTTCGTACCGCATGATTACTCTCTGCTTACAGAAGGGGAAGAAAATAAAGCGGAATTGGATGAAACTATAAAAGAAGTGGAATCTTTTTTTCATGAATCAGAAATACCCTTTCAATCCTTAGCCATCCCTGCTGTAAAAACGTCGTCTGTCTCGAATAAATCTGAGTGGGACAATGTGGAAGTAATTGTATTTGGTTTCTCCGATTACAATAAAATGATGGATGTAAATCAACAAAAAAAACTAGAAGCTTTACAACATAATGAGGCCATATTACTTACGGAAGCTGTGTTTAGCCCATATATCCCACCTCCACCAAAAAAATTACGATTTATTCCTGAAAAAGGGCAAATCGAACTGAAAATAAAGCCGGGGAAAAATACGACGAACGCTACCACATTAGGTGGAAGTGCACTAGTTGTATCAGATGCTACATTTGACAAATTTCAAAAACACGGGGAAAAAGCTTTTTATTATACGGCAAATATACCTAATTGGGTACATTACGTCGAGAAAATAGAACAAGCAGAAGTCGCTGCTTCCAATGATACTATCCATGCAGGCTCTAGAGCAGACTTATATACAAGTTTCAATGAATCGATGTCGTATTTGTTCTTTTTTGGGATTTTTATTAGTGTGCTATTTTTTCTAGCCGCTGGATCGATTCTTTATTTCCGTATGTATCAAGGTATTGATAAGGACATTGCCCATTACTATTCACTTTATCGTATTGGCTTAACAAATAAAGAAATGAAGAAAATCGCAACGAGGCAAATTGCCTTTCTATTTTTTCTACCATTTTTCGTAGCCGTTATTCATGCTGCTTTTGCCTATAAAGCATTACAAAATATGCTTGCATCATCTGTGCTCATACCTAGTATGTATATTATTTCATTTTATTTTATTGTGCACTTTATCAATTTTATTTTTATTCGTAATTTCTACCTTTCTATACTTAAAAAAGCGGCACGCTCTTCTGCTTTATAA MTFRQFTFNNVKRNTRAYLSYFLSCMFAVIVFFMYAVVIFHPEIATYDFIDAVKTGIVASEVIIYLFSFLFVLYSTSAFIKSRKKEYGILTTLGISKFQLNRMLILENTIIGLTSIVAGILVGALFTKLFLMIFSVILGTGEVFSFYLSWKAIAITVILFFFMFEINSLLVVLTLRTKSVMEVFRGAHSPRKKPRFSWIISVLALAAVTYSYYLAYTSDLISMMYRMFIILALIIPGTYFLFTQFSIALTSFLQRRKNIFYKRLNLLIISDLTYKLKDNAKLLSMVTILSAVAFTSSGVLYGLFQAAEEESERFVPHDYSLLTEGEENKAELDETIKEVESFFHESEIPFQSLAIPAVKTSSVSNKSEWDNVEVIVFGFSDYNKMMDVNQQKKLEALQHNEAILLTEAVFSPYIPPPPKKLRFIPEKGQIELKIKPGKNTTNATTLGGSALVVSDATFDKFQKHGEKAFYYTANIPNWVHYVEKIEQAEVAASNDTIHAGSRADLYTSFNESMSYLFFFGIFISVLFFLAAGSILYFRMYQGIDKDIAHYYSLYRIGLTNKEMKKIATRQIAFLFFLPFFVAVIHAAFAYKALQNMLASSVLIPSMYIISFYFIVHFINFIFIRNFYLSILKKAARSSAL PGPT0013350_10618 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004 NA NA AK015_04041 777 yxdL_4 COG1136 ABC transporter ATP-binding protein YxdL ATGCCGTTACTACAAGCAGAAAATTTATCCAAAACGTACGGTAGCAAACGTGGAATTTCGTACGAAGCTTTGCACCAATTTACGCTTACTGTACAGCAAGGAGAATTCATAGGTATTATGGGACCTTCAGGAAGTGGCAAGACGACCTTGCTAAACTTACTGTCGACCATTGATAAACCGAGTTCGGGAAAAATTATTATTCATGGAGAAGATGTCACTTCTTTCTCTCATCACAAATTGGCGAAATTTAGAAGAAAAGAAATGGGGTTTGTTTTTCAAGACTTTAATTTATTGGAAACATTAACTATTAGAGAAAATATTTTGCTCCCTTTAACATTAAATAAAGTAAAAGTGAAAGAGATGACACCAAAATTACATATCATTTCTAAACAATTAGGCATTGAAGATATTTTAGACAAACGCATTATGGAAGTATCTGGTGGTCAAATGCAACGAGCGGCCATCGCTAGAGCGCTTATTCATAATCCTTCCATTATATTTGCTGATGAACCAACTGGTAATTTAGATTCTAAAGCGTCACTACAAGTAATGAATACGCTAAGTCACTTGCAAAAGCATTATGAAACAGCAACACTAATGGTAACGCATGACCCGTTTGCTGCAAGTTTTTGCCAAAAAGTCATTTTCATTAAAGATGGAAAGTTGTATAACGAAATACATCAAGGTGACAATCGGCAAACTTTTTTTGAAGCAATCTTAAACATGCAGTCATTATTGGGAGGAAACATCCATGACCTTCAGACAGTTCACTTTTAA MPLLQAENLSKTYGSKRGISYEALHQFTLTVQQGEFIGIMGPSGSGKTTLLNLLSTIDKPSSGKIIIHGEDVTSFSHHKLAKFRRKEMGFVFQDFNLLETLTIRENILLPLTLNKVKVKEMTPKLHIISKQLGIEDILDKRIMEVSGGQMQRAAIARALIHNPSIIFADEPTGNLDSKASLQVMNTLSHLQKHYETATLMVTHDPFAASFCQKVIFIKDGKLYNEIHQGDNRQTFFEAILNMQSLLGGNIHDLQTVHF PGPT0013345_2393 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003 NA NA AK015_04042 1005 graS_3 Sensor histidine kinase GraS ATGAAAGATTTTCTCAAAGATAGTATTCCAACGATACTTTTCTTTTACACGCAGTTAATTGTTTTCATTCTCATCGTTCAGCTATTTTATGGTATTAAAGCTGTACCAATGGACTGGGATTTGATTATCTATTTATTTATTTTATTAACATTTGGATTACTCCTATTTCTCGCCTATCGTTATTACCGATTACGTGATTATTATGTGACAATCCATCATGACAAAGATAATGCAACGTGGCTACCAGACCCACCGACACAATTACTTTTAAATATTAAGCAGCAACATGATGCACAAACAAACCGCTACGCTGAAGAAATCGAGCAGTTGAAAGAACAAAAACAAATGGAGTTCCATTTCATTCAGCAATGGGTGCATCAAATGAAGACACCTGTTTCTGTCATGCATCTAACTTTGCAAAAAGAAAAATTACAGTTGTCCCAAAATTTCTTGCACAGTATGCACGAAGAATTAGAGCGTATGCAACAAGGATTAGATTTAGCCTTATACCAATCTCGATTGCAAAAGTTTGATCGTGATTTTCAAGTACAACAAATTGTATTAAGAGATTTAGTTAAAGATATTATTCAAGAATTTAAATCCAGCTTTATTCGTAACCAAGTGTATCCTGAACTTACCATTGAAGAAAAATACGTGGTAACAACCGATTCTAAATGGCTCCGTTTTGTAATTAGTCAAGCTGTTTCCAATGCCATCAAATATTCGAAAGACGAAGTAGCCAAAATATATTTTTGTACAAGTTTATCCGACGATCATAAACTGGTATTGCAAATCACCGATACTGGCTACGGAATTCCGCGTGAAGACATCAACAGAGTTTTTGATCCATTTTTCACAGGGAAAAATGGTAGAAAATTTAGAGAATCAACAGGAATGGGACTATTTTTATCTAAGCAAATTTGTACAGAACTTGGCCATGAGTTAACCATTACATCTGAAGAAGGAAAAGGAACGACCGTGTCCATCCATTTTAGTCATCGTTAG MKDFLKDSIPTILFFYTQLIVFILIVQLFYGIKAVPMDWDLIIYLFILLTFGLLLFLAYRYYRLRDYYVTIHHDKDNATWLPDPPTQLLLNIKQQHDAQTNRYAEEIEQLKEQKQMEFHFIQQWVHQMKTPVSVMHLTLQKEKLQLSQNFLHSMHEELERMQQGLDLALYQSRLQKFDRDFQVQQIVLRDLVKDIIQEFKSSFIRNQVYPELTIEEKYVVTTDSKWLRFVISQAVSNAIKYSKDEVAKIYFCTSLSDDHKLVLQITDTGYGIPREDINRVFDPFFTGKNGRKFRESTGMGLFLSKQICTELGHELTITSEEGKGTTVSIHFSHR PGPT0027855_83 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 AK015_04043 699 graR_3 COG0745 Response regulator protein GraR ATGAAAAAAATTTATCTTATAGAAGATGACAAAAAAATTGCTGACTTATTAAAAGATTATCTCGAAAAATACGAATACGACATACAGCTTGTTCAAGAATTCGACCGTATTGTAGAAGAGTTTCAAGCCTTTGAACCACATCTAATATTACTTGATATTAATCTTCCTAGCTATGATGGGTTTTATTGGTGCCGAAAAATCCGCAGTATATCTAATTGTCCAATTATTTTTATTTCCGCACGTGATTCAGGTATGGATCAAGTGATGGCAATAGAAAACGGTGGAGATGACTATATTACCAAGCCATTTAACTTTGATGTGGTTCAGGCAAAAATAAAAGGAATTATGCGTAGAATCTATGGAGAATACGCCTCAAGTACACCTATAGACTTGTTAGAAATTCGTGATTTATCCTTACATTTAACTGCAATGGAAGTTAGCCTTAACGGTCATAAAGCTATACTGACAAAAAATGAATTTATTCTACTTAAAGCATTTATGGAGAATTTAAATCATGTATTATCACGAACCTTCTTATTGGAAATGCTATGGGATGACGAGCATTTTGTTGATGACAACACGCTATCCGTTAATATTACGCGTGTACGTAAAAAGCTTGAAGATATTGGTGTGCACCAAAGTATTCAAACCGTTCGTGGTGCTGGATACAAAATGATCGATACGTGGAGTGAACAATAA MKKIYLIEDDKKIADLLKDYLEKYEYDIQLVQEFDRIVEEFQAFEPHLILLDINLPSYDGFYWCRKIRSISNCPIIFISARDSGMDQVMAIENGGDDYITKPFNFDVVQAKIKGIMRRIYGEYASSTPIDLLEIRDLSLHLTAMEVSLNGHKAILTKNEFILLKAFMENLNHVLSRTFLLEMLWDDEHFVDDNTLSVNITRVRKKLEDIGVHQSIQTVRGAGYKMIDTWSEQ PGPT0027850_87 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 AK015_04044 426 hypothetical protein ATGTTAGCGTGGTTACTAATCATTGCTGTCATTTTTGTTATGGGGAGGAGCTTCATTGATTTTATCCATGTAGGGAAAATGCAGACTTATATACGAAGAAGCGGTTTTTCTTTGGAACTCTTCTATATGCTATTGGTCATTTATGGGGTTGTTATCGTTGGATTCGGACTCATTTATTTTGTGCTGTCCATGCAAGATATGGTACTTGTAGAAAATGGAGAATTAAGACAAGTGAGTATACTTGATGCCCTTGGACAGGCTGTTTATTTTAGTGGAGTAACAATGCTAACAATCGGATATGGTGATATAACGCCTGTTGGTATTGGAAAAATTATCGCCCTCGTGCAGGCCTTAATTGGTTATATATTACCTACTGCTTTTGTGCTAAGATTGGTGCAATACCAAGATCAGAGCAGGAATCAGTGA MLAWLLIIAVIFVMGRSFIDFIHVGKMQTYIRRSGFSLELFYMLLVIYGVVIVGFGLIYFVLSMQDMVLVENGELRQVSILDALGQAVYFSGVTMLTIGYGDITPVGIGKIIALVQALIGYILPTAFVLRLVQYQDQSRNQ PGPT0013815_19 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_SALINITY_STRESS SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013815-lctB-K08713 NA NA AK015_04045 471 bcp COG1225 Putative peroxiredoxin bcp ATGACTGTACAAGTAGGAGAAAAAGTAGCGGATTTTTCTCTACCAAATCAAGCTGGAGAATTAGTTCGTTTATCTGATTATAAAGGAAAATATGTCGTTTTATATTTTTATCCAAAAGATATGACACCAGGCTGTACAACAGAAGCTTGTGATTTTAGAGATGCGCATGAGAGCTTTGAAGATCTTGATGCTGTGATTATTGGTATTAGTCCTGATCCAGTGTCATCACATCAAAAGTTTATTGATAAGCATGACCTGCCATTTTTGTTACTTGCTGATGAAGAAAAACAAGTGGCAGAACAATTTGGTGTTTGGAAACTAAAGAAAAACTTTGGCCGAGAATATTATGGTATAGAACGCTCCACGTTTATTATAGATAAAGAAGGCGTGTTACAGAAGGAATTCCGTAAAGTAAAAGTGAAGGGGCATGTAGAAGAGGCGCTGTCATTTATTCGCGAGCAATTGCAGTAA MTVQVGEKVADFSLPNQAGELVRLSDYKGKYVVLYFYPKDMTPGCTTEACDFRDAHESFEDLDAVIIGISPDPVSSHQKFIDKHDLPFLLLADEEKQVAEQFGVWKLKKNFGREYYGIERSTFIIDKEGVLQKEFRKVKVKGHVEEALSFIREQLQ PGPT0013120_2933 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564 NA NA AK015_04046 552 yvqK COG2096 Corrinoid adenosyltransferase ATGCGAATATATACACGTTCTGGAGATAAAGGAAAAACATCGCTTATATATGGTGAGCGCGTGAATAAAAATGATCTTCGCGTTGAAGCGTATGGAACTTGTGACGAGGCAAATTCGATGATTGGTTTAGCTATTAGTTATTTGCAACAAGAGAGTACGTTTAAAGAAAAAGACTTTGTTATCGAAGAGCTTTCCCGTGTGCAAACATTGCTGTTTCATGTTGGTTCAGAGCTAGCTACACCATCAGGTAAAGAAGTCCCTTGGAAATTAACCGAGGAGCATATTCAAACATTGGAAAAGAAAATCGATGCTTGGGACAAGCAGTTAGAGCCGTTAAAAAATTTTATGTTGCCATCTGGAGTACCAGCCTCTTCGGCCTTGCATGTCGCTAGAACAGTTTCGCGAAGAGCAGAACGTCTAGCTGTAGGGATAGAAAACGTCAATCCATTAAGCCTTGCTTTTCTGAATCGCTTATCGGACTATTTATTTGTTGCAGCGAGATACATGAACCAACTGCTCGAAGGAGAAGAAAGAACCTTGCACATTACATGA MRIYTRSGDKGKTSLIYGERVNKNDLRVEAYGTCDEANSMIGLAISYLQQESTFKEKDFVIEELSRVQTLLFHVGSELATPSGKEVPWKLTEEHIQTLEKKIDAWDKQLEPLKNFMLPSGVPASSALHVARTVSRRAERLAVGIENVNPLSLAFLNRLSDYLFVAARYMNQLLEGEERTLHIT NA NA NA NA NA AK015_04047 453 perR COG0735 Peroxide operon regulator GTGTCTGAAAACAGATTGCAAGAGGCTATAAGTACATTAAAAGCATCAGGCGTCCGTATCACTCCACAACGACATGCGGTTCTTGAGTACTTACTCAATTCGATGGTTCATCCTACAGCTGATGATATTTATAAAGCTCTTGAGGGTAAGTTTCCTAATATGAGTGTTGCAACGGTTTACAATAATTTACGTGTATTGCGTGAAGTAGGCCTCGTTAGAGAATTAACATATGGCGACTCTTCAAGCAGGTTTGATTGTAATACTTCAGATCATTACCATATTATTTGTAACTCATGTGGAAAAATTGTTGACTTTCATTATCCTTCGTTGGATGAAGTCGAGGCATTAGCTGAGCAGGTAACGGGATTTAAAGTCAGTCATCACCGCATGGAATTGTATGGTGAATGTGAAGAATGCCAAAAAGCAGAAAAAAACAAACAGAAAAGTGGATAA MSENRLQEAISTLKASGVRITPQRHAVLEYLLNSMVHPTADDIYKALEGKFPNMSVATVYNNLRVLREVGLVRELTYGDSSSRFDCNTSDHYHIICNSCGKIVDFHYPSLDEVEALAEQVTGFKVSHHRMELYGECEECQKAEKNKQKSG PGPT0012945_285 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012945-perR-K09825 NA NA AK015_04048 393 hypothetical protein ATGGCTCAAATCGTATATTCAAGCAAAATAAACAAAATTAGATCCTTTGCATTGATTCTTATATTTGCTGGAATTCTTCTTATGTATGGTGGCATACTAACCAAAAAAATTCCGTGGCTTATGGTTACATTCTTCATACTAGGGGTTATAATGGTCGTCTTAAGTTGTGTAGTTTACCTTTGGATAGGGACCTTATCGCTAAAAGCAGTGCCGATTATTTGTCCAAGCTGCGAAAAACCAACAAAGATGCTTGGTCGCGTTGACGCCTGTATGCATTGTAAACAACCATTGACACTGGATAAAGAATTAGAAGGTAAAGAATTCGATGAAAAATATAATACAAGGCGCTATTGGAAAACAGTGAAAAAAGAGGAAGGTTCTATAAAAAAATAA MAQIVYSSKINKIRSFALILIFAGILLMYGGILTKKIPWLMVTFFILGVIMVVLSCVVYLWIGTLSLKAVPIICPSCEKPTKMLGRVDACMHCKQPLTLDKELEGKEFDEKYNTRRYWKTVKKEEGSIKK NA NA NA NA NA AK015_04049 867 hypothetical protein ATGGAACAATACTTGCGATCAATTTATCAACATCATGCTAGCAATTCCGATGTATTAGGGATTTTAATATTGGAAAAAACGAAGCCAGATAGCCCAATAACGGATAATTTTGATGTCATTTTACTTATCATTGTTCAAGAAGCTGAAAAAGCTTGGAATGTGAAACACTATGAATTTGCGGATAAAACGTGTGCACTTCATATAGTAACGGAAGAACTATTAATGGAATGGATTGATACGAGCGGTTACCGGAATGCAGTGGAATGGATAATTTATGGTAGAATCATTTTTGATCGAAATGAATTTTTTAATAATTTAAAAGCTACGTTGCAAAGCTTTCCAGATGACAAACGGGATTTACGGAAAATCATGGAGTTTGGTAAGCTTATAAAAAGCTATAATGAAGCCAAAGAGTTATTTGAAGCTGGAGAATATATGGATACGAATAGTAAAATTTTATATTCACTTCATTATTTGGCTAGATTGGCTGTTATTGAAAAAGGGTATTATCCGGAAGTAACTGTTTGGAGTCAGGTAAAACAAATTGATATTGAAATTTATAAACTATACGAAGAATTTATAGAAAGTAAAGAAGAACTGAAGAAGAGAGTACAGTTAATGTTAATCGCTATGGATTATGTCATTAAAGCAAGAGCGAATATGGCTGTAAAGCATTTGTTAGACATGATGCACACAAAAAACGAATGGTATTATGGTGAATTAAAAGCTTTGCCTAAGATTCAGCCTTATTCTCTAGACTTATCAGCGATTATAACGTACCTTGTTGATAAAAATATGCTAATAACTGCTACAGAGCAAACAAAAGGCGAAGGAGTGTATCATAGAAAATATATGGTAAGTAAATAG MEQYLRSIYQHHASNSDVLGILILEKTKPDSPITDNFDVILLIIVQEAEKAWNVKHYEFADKTCALHIVTEELLMEWIDTSGYRNAVEWIIYGRIIFDRNEFFNNLKATLQSFPDDKRDLRKIMEFGKLIKSYNEAKELFEAGEYMDTNSKILYSLHYLARLAVIEKGYYPEVTVWSQVKQIDIEIYKLYEEFIESKEELKKRVQLMLIAMDYVIKARANMAVKHLLDMMHTKNEWYYGELKALPKIQPYSLDLSAIITYLVDKNMLITATEQTKGEGVYHRKYMVSK NA NA NA NA NA AK015_04050 279 hypothetical protein ATGACTACACATCGGAAATTATTCTCCTATGACAGCTTAGAAGATGCTGATATTCATGAATTCTTTCAATCTTTACCCGATCGCCAAGCTTCCAAATATATTCGCATCGCTATTAGGAAACTAATGAAGGAGATGGAGGAAAAAGGGGAAATCAGCCCCATTTCAAAATCTTCTACCTCTTCCACAGAAAGCAAAGAAGAGAATACAAAAGCGCAACACCAGGAATCAAGTAATGATACATTTATAGACAACGACGATATTCTTAATTTAGGAAAATAG MTTHRKLFSYDSLEDADIHEFFQSLPDRQASKYIRIAIRKLMKEMEEKGEISPISKSSTSSTESKEENTKAQHQESSNDTFIDNDDILNLGK NA NA NA NA NA AK015_04051 1059 hypothetical protein ATGTTAGCTTTTTCGTTTGATGTGGGGAATGGTTTTGTAAAGGCAAGAAATAATAAAAGGAGTATGATTGCTCCAAGTTCCATTGCTAAAAAAGAAAGCATGGGAAGTTCAAGCATTACAGGCATGTCTTCAAGCTTTGACGCCTCATTTGGTTACCGTGAATTTGAATCTAGCTTAGATGACGGAACAACATATATTTGGGGAGAAGAAATTGCTGATGTCGTGGATCCAAGTTCATTACTTCCTACATATACACATAACCACCGTTATACGCAAAAGCGTTTCAAACTTCTGTGCTCTTTCATTCTTGCTGAGCTTGCTAGCGATTATAAAGAAGATGAACTACGTGATGTCATTGTTGTAACGGGGCTTCCGTCACAAGAAGTAGGAACAACAGAGGCCGAAGACTTTAAGCGCTTTTTACAACAAAAACACATTGTGAAGATTAATGGCAAACAGTTATTCATCCATGTTACTGATGTACGTATTATTGAACAGCCCTTAGGCACTCTACTTCACCAATACATGAATGAATCTGGACAAGTTCATAAGGAATTTTTAAACAACACATTAACCGTCATTGACTTCGGCGCAGGCACAACCATCATGGACACCTTTAAAAATGTAAAGCGCCTAGAAGATAAATCTGAAACATATTATGAGGGTATGAACGATATTCATAAACGAGTTGCTAAACGAATTGAGCGTGAACATGGCATTAAAGGTTTAGATGCAAGCTTTGTAGAAGAGGGCTTTCGCAATAACACAATGGTTGCCACCGTATCTGAGCGAAAAAAATACTCTTTTGAAAACATAGCAAAAGACATCATTACAAACTTTATCGAGAAGCTTATCTCTGATATGGACGCTGTACTAACAAATCGAGATAGTATCGATAAATTCATATTAACCGGAGGCGGTGTTCACATCGTATCCACTTATTTTCAAGACACATTTGGTGAGGATTCCGTTCTTATAGTGGAAAACTCTCAGGAAGCAAATCTAAGTGGCTTTTATAAGTTAGCTTCTACCATTAGTCGTAAAGAAAAAGCTAGTTAA MLAFSFDVGNGFVKARNNKRSMIAPSSIAKKESMGSSSITGMSSSFDASFGYREFESSLDDGTTYIWGEEIADVVDPSSLLPTYTHNHRYTQKRFKLLCSFILAELASDYKEDELRDVIVVTGLPSQEVGTTEAEDFKRFLQQKHIVKINGKQLFIHVTDVRIIEQPLGTLLHQYMNESGQVHKEFLNNTLTVIDFGAGTTIMDTFKNVKRLEDKSETYYEGMNDIHKRVAKRIEREHGIKGLDASFVEEGFRNNTMVATVSERKKYSFENIAKDIITNFIEKLISDMDAVLTNRDSIDKFILTGGGVHIVSTYFQDTFGEDSVLIVENSQEANLSGFYKLASTISRKEKAS NA NA NA NA NA AK015_04052 897 hypothetical protein ATGTTCATTAAGGCGCTTTATGTGAGCGACCTCCATAGCTATATTGACAAAACGATATCACGCCTAGAACAAATACATACACAAGTGAAAAACATCCAGAAGAATATAGAAGCTATGATAGCTTTGGAGGATGAATTTAAAGGGAAACTGGCTAATTCCATTCGTGCCTTTTATCAAGAGGTGCACATGCCGTTTCTGTTGTTTCTAGAAGGATTTATTACGAATTACACCGATACTTTACAGAAAATGAAAAAGTCGATTCAGTACATGGAGCCAGATAAAGACGGGGTTATTCGAGAAGATTTTATTTCTCAAGATGTACGACGGGGATTAGAACGAATGGAACAAGTTACGATGGATTTAACAGATGAAGCGAATGCTATTATCCAATCGGTAAGTGATATTGTGGACTTACCTAAGATAGATGATAGCGAGTTCTTGGATAATGTACAACATGGAAAGAAAAAGACCCATAAGACCCTAGAAAAGTTGTATGAATTGGATCGTCATAATACAGCTAAGCTGGAACCGATTGAACAAGATATTCACATGATGAAAAACTACATTAGCCAAATCCGCGAGTTAGGGAATAATGGCCAAATACATATTGGCAGTTACCAAGCACGGCAATTAGCAGATCAAAGGTTTCATAAAGATCTAATAAGCGGCATTAGGAGTAAGGCTGTTCGAAATGCCGTTGGGCTAGAGACGGTGCTTGGTGAGGTTGGCAAGTATCTATTATCTCAGCATTTGCCACCAGCAAACTTGTTCGTGCATTATCTACAGAAAAAATTTGGGCTACAAACAATGGATTATAGCTATCGGGCAATGCAAGCAGCTGTGGCAGCATCAGGAGATAGTTTAACTACAAGGGAATTTACTACCATTGAACATTAA MFIKALYVSDLHSYIDKTISRLEQIHTQVKNIQKNIEAMIALEDEFKGKLANSIRAFYQEVHMPFLLFLEGFITNYTDTLQKMKKSIQYMEPDKDGVIREDFISQDVRRGLERMEQVTMDLTDEANAIIQSVSDIVDLPKIDDSEFLDNVQHGKKKTHKTLEKLYELDRHNTAKLEPIEQDIHMMKNYISQIRELGNNGQIHIGSYQARQLADQRFHKDLISGIRSKAVRNAVGLETVLGEVGKYLLSQHLPPANLFVHYLQKKFGLQTMDYSYRAMQAAVAASGDSLTTREFTTIEH PGPT0027660_11 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 AK015_04053 771 hypothetical protein TTGACAGATGGTAGAATTATAAGGAAATATCAATCAGAATCCGGAAACGCTGAGTATGAACTAGTGGATGCTATTCCTTCTGATCGACACAAGCCAAAAGATCCGGAAAAGAATTGGATTGATGAAAAGACAACACAAGGAATAGCTAAAGCAGGTTTACACGTAGGTTTAGCAGGATATAAGACTGGAAAAACGGGCTTAAAACTTTCCAAGAAAGCGTTAGACTTTGTTATTGTAGATGATATAAAAACCGTTCTGGACTCAGAGGCCTCTACAGGTGAAAGATTATGGACTGGCGCTTCTATTATTCCAGCGGGCAAAGTCTTAAAGCTAGCTAAGGCTGGTGGAGTTATTAAATTTGCGGATAAGGGTAAGCAGACTGCGAAGAAAGTTAGGGATACGGAGAATAGAGCACCTTCTTATGGAAAGAAATCAGTACCTGCAGGACCTTATCGTGAAGTAAATGGCTTTCCAGTTAAAGTAAAGTCAGGAGCTCAGGAGAAGCATATTCTTAATACCCCAAACTATAAACAAGAATTAGCAAATGGGAAAAATAAGAGTATCTTCTACGGGGATAATAAAACTGTACAGGAAATGCTCGATAAGTTTGCGGGGAAGGGAACTTCGATTAACAAAAATAAAGAAAGAATAAACTTTGGTGAACCAATAGGCAAATACTATGATCGCAATACTGGTGAATATCATGAGACTACTAAAGGATTGATACATTATGGGAAAGACGGTGCTCATATAGTACCATCCAGACCATAA MTDGRIIRKYQSESGNAEYELVDAIPSDRHKPKDPEKNWIDEKTTQGIAKAGLHVGLAGYKTGKTGLKLSKKALDFVIVDDIKTVLDSEASTGERLWTGASIIPAGKVLKLAKAGGVIKFADKGKQTAKKVRDTENRAPSYGKKSVPAGPYREVNGFPVKVKSGAQEKHILNTPNYKQELANGKNKSIFYGDNKTVQEMLDKFAGKGTSINKNKERINFGEPIGKYYDRNTGEYHETTKGLIHYGKDGAHIVPSRP PGPT0027660_88 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 AK015_04054 333 hypothetical protein ATGGGGTATGACTTTTTAATAGGAGCATTAATAAATTATGAAGATAGAGACATGATACTAGAATGGGAAAATGGATTGAGGATTATTGGCGAACTAGATACAGTATTCGAAACAGACAATGGTTTAGAAGAGGATGATATAAATTATACAGAATATGATGCAGCTGTATTTAAAGTAAATAAAATTTTAACATATCCTTCTACTAATGAAAGTAGTATATATAATTGGTTAAAACAAGAGAAAAGTTCATTGGTTGAAATCTCTCTCTACGATGACCCACCAAGTGCGGTTTATTTAACTGACGAGCAATGTGTGTGGAAAAGAGATAGCTAA MGYDFLIGALINYEDRDMILEWENGLRIIGELDTVFETDNGLEEDDINYTEYDAAVFKVNKILTYPSTNESSIYNWLKQEKSSLVEISLYDDPPSAVYLTDEQCVWKRDS NA NA NA NA NA AK015_04055 135 hypothetical protein ATGATTGCAGTTGCGGAAACAGGTTTATTATTTCACAAAATGATAAATGGAGAAACTATTTTTTCTGTATCCTACGTAGAGGACACTTTTTCTGTACTCTATTTAGGCTACAAACGAATGTTCCAATACTTATAA MIAVAETGLLFHKMINGETIFSVSYVEDTFSVLYLGYKRMFQYL NA NA NA NA NA AK015_04056 1524 hypothetical protein ATGTTTAAACAGTCCGATGTAGAAATAACTAAATATAATGACTATAAATATTTAATTTACACTCGTGTTTCCAGTGATAAAGATAGCCAAAAAGAATCTGTTCCTAACCAAATTGATATATGTCGATACTGGCTGGAACAGAACCATTATGAATTTAATGAGAACGCTGTGTTAGTTGATGAAGATAAATCAGGGACACTATTCCTGGAAAGAACGGCCATGCAATTAATTCTCCAAAAAGCTAGAAATCGTGAAATAAAGATGGTTCTTTTTAAATCTATACATAGATTAGCTCGTGATTTAAAGGATGCTTTGGAAATTAAAGAAGTGTTGCTTGGTCATGGTGTAAGAGTAGTAACCATCGAAGAAGGCTATGATAGCTATGTAGAAGGAAAAAACGACATGAAATTTGAAATGTTTTCGATGTTTGCTGCACAATATCCAAAGTCTTTATCTGTTTCCATTAGCTCTGCTCTTGCAGCTAAAGTACGGAGAGGGGAGCATATAGGGAAAATCCCATACGGTTATGACCGTATTGATCAGAAGTTAGTTATTAAAGAAGATGAGGCAAATGTAATTCGGCAAATCTACAAATGGTATAACGAAGAAGGATTTGGCTTTAAAAAAATCACACACTTGTTGAACAAGGGTGTTCAACAAGGGGAGATTCTTCCGCCGAGAAGTGGAAAAGCATGGCAGATTACGTCTATTCAACGAATTATTAAAAATCCAACGTTTTGTGGAACTTTCATACTCAATCAATATACCACAATTAAAGTAGATGGCCGTAAAAAACAGATACGCAACCCAGAAGAAAAATGGATTGTTTTTGAAGATCATCACCCTGCAATTGTTAGTAAAGAAGATTGGAAACTAGCAAATAATAAAAAGAAGGTCAACATTAAAACGAAAATCACGCCATGGAATGAATTTCGTGGTCTTCTCAAATGTGGGAAATGTGGATCTAATATAGTGATTATTCAATCTTGGAACCAAAAACTAGATGGAACGAAAACCCATTGGCGATATTTAAAATGTAGTGCTTATAGGAGAAGTGGGAAGAGTGGATGCGACAATCATGTACCTATTCGCTATGAAGAATTTCGCCGTTTTATAGTTGAGCGCCTATTAGAAACTGGACAAAAAGTTTCGCTTGATTTTAACAATACTTTAAATAATCACTCTAAGCAGCAATTGAGACAATTGGAAAATAGTATTGCGAAGTATCAAGAGAAAAACGAAGGTCTTGTTGATCTTTACCTTGATAAATTGATTGATAAAGTAGAGTTTCAAGTTAGAAGAAAAGAATTTGAACAACAGATAAAAGAAGCCCAGGATAAACTGTTCTTGTATAAAAATGAAGAAGTACAGGAAGTATCTGTGAAAAATATCCAACAAGCTTTTAAAACGATCGAAAAAAAGGATCAGGATTTATACCATGTTTTAAAGGTAATCATTGATTATATAACAGTAAATATAGATGGCAGTGTGGATATCAAATATAATTTTGATTTGAATAAATAA MFKQSDVEITKYNDYKYLIYTRVSSDKDSQKESVPNQIDICRYWLEQNHYEFNENAVLVDEDKSGTLFLERTAMQLILQKARNREIKMVLFKSIHRLARDLKDALEIKEVLLGHGVRVVTIEEGYDSYVEGKNDMKFEMFSMFAAQYPKSLSVSISSALAAKVRRGEHIGKIPYGYDRIDQKLVIKEDEANVIRQIYKWYNEEGFGFKKITHLLNKGVQQGEILPPRSGKAWQITSIQRIIKNPTFCGTFILNQYTTIKVDGRKKQIRNPEEKWIVFEDHHPAIVSKEDWKLANNKKKVNIKTKITPWNEFRGLLKCGKCGSNIVIIQSWNQKLDGTKTHWRYLKCSAYRRSGKSGCDNHVPIRYEEFRRFIVERLLETGQKVSLDFNNTLNNHSKQQLRQLENSIAKYQEKNEGLVDLYLDKLIDKVEFQVRRKEFEQQIKEAQDKLFLYKNEEVQEVSVKNIQQAFKTIEKKDQDLYHVLKVIIDYITVNIDGSVDIKYNFDLNK NA NA NA NA NA AK015_04057 714 hypothetical protein ATGCATGCCGATGTAAAAGAAAACACTTATAGTGACGCTCAGTATGGAGAAGATTTTGTAAAGCATCACCCCCTTGCCAAGGAAATAGATACGTTAGCTGTGGATGGAGCTTATTATCGTCAAGAAACTGTCAAACACGCAGAAGAATTAGGGCTTGAAATCAATTTTTCACAAATGACTGGTCGGACTGTTGCAGAAGATATTATTGGGGTCGATCAATTTAAAATAGATGGGGAAACAAGGGAGATTACGGCATGCCCTCAAGGTCATCAACCTATTTTTTCTTTATACAACGAGAAGAAACAGGTATATACTGCCAAATTTTATAAAGATCACTGTCTAAACTGTCCGCTATTGGCACAATGCCAAGTAAAAGAACAAAAACGGGCGTATCATATTTCGTTTAGTGAAAACAAAATTCGCACAGACCAAACGCGTTCTAAAATCGGAACGGATCGTCACCAAGAGCTGTCTAATTATCGCGCAGGTGTGGAGGGAGTGCCATCTGTTTTAAAACGGGCATATCGATTAGAGCATTTGCCTGTTAGGGGACAAGTGTGCTCAAAAATCTGGATTTTCGCCTCCATCATCACCCAAAACTTCAAAAGATGCAGGAAATACATCAAAAGGAGTGGTCTCTCCACTTTATTAAACCGTTTATTCCGAAATAAATTTTCGATAAAGAGAATTTTGATCAAAAAAATGGCTGCCTAA MHADVKENTYSDAQYGEDFVKHHPLAKEIDTLAVDGAYYRQETVKHAEELGLEINFSQMTGRTVAEDIIGVDQFKIDGETREITACPQGHQPIFSLYNEKKQVYTAKFYKDHCLNCPLLAQCQVKEQKRAYHISFSENKIRTDQTRSKIGTDRHQELSNYRAGVEGVPSVLKRAYRLEHLPVRGQVCSKIWIFASIITQNFKRCRKYIKRSGLSTLLNRLFRNKFSIKRILIKKMAA NA NA NA NA NA AK015_04058 954 hypothetical protein ATGTTTAAGCACGGTAAGAAGGACGTACAAAAAACACTATTTGATCAGGATCAATCCTTTCCAGGCTATGTAATGGACATGTTACAGAAAAGCTGGGCGTATGACTTCTATCGTTTTATCTTCTCGCAAATTAATGAAGAGCGCTTTTCTGTTCTTTATAGCGACAAAGCGAGTCGCCCGAATAAGCCTGTAAATGTATTGGTAGGACTACTTATTCTTAAAATGGAACATGCTCTTTCTGATGAAGAACTGATTGGTTCGCTGTATTTTGATTACCGCTACCAGTATGCATTGGGGTTGGATGCAAACGATAACGATGACCGTCTTTGCGTCAATACATTATCTAATTTCAGAGCACGCCTCGTGGAATACGAGCTTCAAACAGGTGAAAGTCTTTTCCAACAAGAAATGGAAGATTTAGCTGAGAATATGGCCGTGTATCTCGGTTTAAACAAGTCCAAAGCACGAATGGACTCCAGCCTAATAAATAGTTCTTGTAAAAACATGACACGTATAGAACTCATTTATACTGTCATTCGCAATATGGTAAGAGAGATAACAAATAAAACGGATTGGGAAATCCCCGAATCCTATTTAGCATACCTTGAAAAGGGGCACCAAAATAAAACGATCTATCAAACGAAAACAACAGAAGAGAAATCCAAGCTAGAACATCTCATTCAACAAGCACATGATTTATATATGTTGGTGAAAGATTGTGCTGGTGTGGAAAATTTCCGTAGTTTTGAACATCTTACACGTCTGTTGAAAGAACAGGCGGTTGCCACAAAAGATGGTAACGTTAAGCCTGTAGAAGGTGGCAAACTCACTTCCCAGATTCTTCAAAACCCATCCGACCCAGATGCAACTTTTCGACATAAAACTGGCGAATCCCATATTGGACATAGTTTAAACTTTGTAGAAGTTTACGACAATGAAACAGATATGGGTTAA MFKHGKKDVQKTLFDQDQSFPGYVMDMLQKSWAYDFYRFIFSQINEERFSVLYSDKASRPNKPVNVLVGLLILKMEHALSDEELIGSLYFDYRYQYALGLDANDNDDRLCVNTLSNFRARLVEYELQTGESLFQQEMEDLAENMAVYLGLNKSKARMDSSLINSSCKNMTRIELIYTVIRNMVREITNKTDWEIPESYLAYLEKGHQNKTIYQTKTTEEKSKLEHLIQQAHDLYMLVKDCAGVENFRSFEHLTRLLKEQAVATKDGNVKPVEGGKLTSQILQNPSDPDATFRHKTGESHIGHSLNFVEVYDNETDMG NA NA NA NA NA AK015_04059 546 azr_2 COG0431 FMN-dependent NADPH-azoreductase ATGACAACTATAATTTTAATCAATGGTAGTTTAAATCCTAGTTCAAACACAAAAAAGATTATAAATTTAATGAACAATATTCTTGTAAAGCAAGGTTATTCTTCAAAAGTTATAAATGTTGGAGATTTAGAACTTCCACTATTTAATCCAAATACTAATAATAACGCCATTATCTCTGAGTTAATAGAAGATTTAAAGCAAGCTAAAGGATTTATTATTGGTTCTCCAGAATATCATGGTGGCTACTCTGGTGCTCTAAAGAATTTTATTGATTACTTAAATAGCGATATATTTATAAATAAACCAATTGGTTTGGTTGTTTTAACAGGTGGAATAAAATCTGGAATTAATACTCTAAATAGCTTAAGAATAGTACTCAGAAGCATGCAATCCTTAGTAATACCTCAGCAAGTTGCCATTAGTGAAAAGGAGTTTATAGATAACAATCTACCGTTACAAAGCAAACAACGTATACTGTCAGTCATTCAAGGATTAACAATGTATATAAATTTAATAAATAAAAAGCACCAGGAGATTACATACTAG MTTIILINGSLNPSSNTKKIINLMNNILVKQGYSSKVINVGDLELPLFNPNTNNNAIISELIEDLKQAKGFIIGSPEYHGGYSGALKNFIDYLNSDIFINKPIGLVVLTGGIKSGINTLNSLRIVLRSMQSLVIPQQVAISEKEFIDNNLPLQSKQRILSVIQGLTMYINLINKKHQEITY PGPT0006791_161 DIRECT EFFECT BIO-REMEDIATION XENOBIOTICS_BIODEGRADATION XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006791-azr|azoB-K03206 NA NA AK015_04060 99 hypothetical protein ATGGAAGAATTAAATCTTGACGAATTCTTAGAAAGCGTTGCTAATGAAGAAGTAGGAGCAGAAGAACTTCAACTATCTGCAATTGCAATTGCTTGGTAA MEELNLDEFLESVANEEVGAEELQLSAIAIAW NA NA NA NA NA AK015_04061 1644 hypothetical protein ATGACCTATACACTTTCATCATTATTTATTGAAAGTAATTCTACAATTCAATCTTACTATACAGCTAATAGACTATATGAATCACTGAATTCAATAACAACAGACGCCATATTCTCTGAAATACATAAGGAGTATGCTATAGATACATCATCGGTATTTGGTTATTTTGATAATGAAAAAAAAAACCCTGAGTACAATGGGAATTTAGCTACTCTTGAGTTGCAGGCTATTATGCTTAGATTAAGTAGACATCATATAAAAAGGGCAAAGATAATAGAAAATGTTTCTAATTTCTTTGCTGATCTAATACTATACAATTACCAAAATGGTCTAAAAAAAATAGTATTTATGAGAGCAGAGTTTATTGATAGACCATCATTAATGATAATCAATCGAACTATAAGTATATTGAGAAGAAATAATATAGAGATAAATATAAGCTTTGATTTTCAAAGAAATGTATTCATTAATAGCGAGATTGAACTAATTAATTCCCGAGCACAAGTTTTTAATAAACTAGATAGAATTATAAAAATCAAGGATTATTCAAATATTGTTGGGCGGGAATTAACAATAGATGATTTTAATTTAAGAGATGATTTTTATAATACCAACGTACTAAATGCTGCAATAATAGAACAAAATTTTGAACTAGCTTTTTTGATATTGCAATATAATCTACATAGTAATAAAGATTATAAAATAATGAGCGACCAAATGACGTATAGAAATTTAGGTGTGATAGAAGTTAATCTAGGTAATTTCGAAAAAGCAATAATATACTTCGATAAAGCCATCAATAATAGTGACAGTGTTATTGAGTATTCTAGAAATTCATATATTAAAGCATTATGTCTCATAAAAAGACTTAAAAAGGTAGAAAAAGGATTAAAGGTCATCGATCAAGCTATATTGAAACTTTATAATGCTGATATAGAAAAAGATATAAAGTATAAGCATGAAATGGCTTGGTTAATAAATGGTCAATGTCTCGGAAGAACCATACTTGCTTCTAGAATGAATCAAAAAGATAAAGAGAGTGTACTATTTGAAATTATCGGTAAGGAGATGGAGGCTTACAGATTAATAAGTCATGAAAAGAGTTTTCATTTGATATATTTAAAATTTAACTTACTTGCGAATATAGCATTTCTTCTAGAGATATTAGGTAATTATACAAAAGCCATCGATTTTTGGGAAAAATCATTTGCTCCTATTTTAGCTAGTGATGATCAGTATAGAGAAGGGGAAAAGGCACTTACTTATAGGTTAGGCATCTTATATCTTAATTTAGGTGATTTAGGAAAATCAGAGGTTTTACTAAAAAGAGCCTTAGCGTTAGCAAAAAGTGAAGATAATCCTTTCCATATAAACGTTATATTCTATGCTATTGGATATTTGAAAATCTTAAATAATGATAGCTATAATACAACACTTGATTTAATTAATAAAGGTAAAAATCTGTCTATACACCTAGGTGATTCTAAAATGAGAAATCAATTTGAAGAGTTGAATAAGAGTCTAGACGATAACTTTGGCAGTAAGATGTTAGAGCCACCAAAGGTTAAATTAATCTCGTACATTCCATATATAGATTTATCCTTTGTACCTGAAATTGATTTAAATAAACAACTCACATCTTAA MTYTLSSLFIESNSTIQSYYTANRLYESLNSITTDAIFSEIHKEYAIDTSSVFGYFDNEKKNPEYNGNLATLELQAIMLRLSRHHIKRAKIIENVSNFFADLILYNYQNGLKKIVFMRAEFIDRPSLMIINRTISILRRNNIEINISFDFQRNVFINSEIELINSRAQVFNKLDRIIKIKDYSNIVGRELTIDDFNLRDDFYNTNVLNAAIIEQNFELAFLILQYNLHSNKDYKIMSDQMTYRNLGVIEVNLGNFEKAIIYFDKAINNSDSVIEYSRNSYIKALCLIKRLKKVEKGLKVIDQAILKLYNADIEKDIKYKHEMAWLINGQCLGRTILASRMNQKDKESVLFEIIGKEMEAYRLISHEKSFHLIYLKFNLLANIAFLLEILGNYTKAIDFWEKSFAPILASDDQYREGEKALTYRLGILYLNLGDLGKSEVLLKRALALAKSEDNPFHINVIFYAIGYLKILNNDSYNTTLDLINKGKNLSIHLGDSKMRNQFEELNKSLDDNFGSKMLEPPKVKLISYIPYIDLSFVPEIDLNKQLTS NA NA NA NA NA AK015_04062 690 trmR_2 tRNA 5-hydroxyuridine methyltransferase ATGGAAGCTGTGAATTTGAAATGTTGTAAACATTTAGATAATGCAATAAACAAATTAGCTATACAGTTATGTAATAAAAGTATTTTAGAATACAACAAATACAATTCGGATAAATTTTATGAATTATATAAGTTGCTAAAGGATTCATTTGTAATTCCAAAAACTAGTATAACTAAAATTATGTCTAGAATTTTATTTACCATTGGATATAGTAAAAAGCCACAAGTAATGGTCGGTGCTGGTACATATACAGGAAATGCCTTAGCTTGGTTATCTGGATATTATTTACTTGGTGATTCGGATAGAAATGTTAAAATTTATGGCTTAGATATTTCATCTGAGGCCACTAAAATTGCTAAAGATAACTTCTCTAAGGTAAATGCAGATAATGTACATTTAATTAAAGAGGATGCGATCAATTGGCTTGAAAACACTTCAGAAAATATAGATTTACTATATATCGATATTGATACTGAAGAAGATGGTAAAAGTAAATATATAGATTTATTGAATGTGGCATATCATAAATTAAACTCTGAAGGCTTGATATTAGCACACGATATTAATGAAAAAAAATTTAAAGATGACATGATACCGTTTGTTGAAAAGATCTTAGATCAATCTATGTTTAAAGATAGTATTAATCTAAATGTAGATTCCTTTGGATTATCAATAACAATAAAAAGGTGA MEAVNLKCCKHLDNAINKLAIQLCNKSILEYNKYNSDKFYELYKLLKDSFVIPKTSITKIMSRILFTIGYSKKPQVMVGAGTYTGNALAWLSGYYLLGDSDRNVKIYGLDISSEATKIAKDNFSKVNADNVHLIKEDAINWLENTSENIDLLYIDIDTEEDGKSKYIDLLNVAYHKLNSEGLILAHDINEKKFKDDMIPFVEKILDQSMFKDSINLNVDSFGLSITIKR NA NA NA NA NA AK015_04063 1104 aruH COG0436 Arginine--pyruvate transaminase AruH ATGGGTATTTACACAGGAAGAATAATTAGGTTAGATTTTGGTGAACCATCATTTCCTTGCCCTCCTGAGGTTAAGGCGGAATCGATTAAGTATATAACTAATCCCGATTGTTATTACTCTCCAATTAAAGGTGAGAATCAATTATTAGAGAATATTAAGCAATATTTACTCAATGTTAGGAATATAAAAGTAAAAAAAGAACTTATAACAGTTACAAGCGGGGGACTAAGAGGGATAAATTCAATAATAAGATGTTTAAAAAATGAAGGGGTGAAAAGAGTATATTACCCAGATCCTGGTTTTCCTCCATATCAATTTTTAGGTGACTATAATGATATAGAAATGTTATCTTATCCTATTAAAAATGAAAAAGATGCTGTTAGAGCTTTAATTTTCCTTGCAAAGACCAGTAGCGAGAAAAGTTCTGCCTTTATATTAACATCTCCTAATAATCCTAATGGTATTACATTTAGTCAAGCTTCATGGGAGATTTTAAATGAGTCTATGATTAAACAATATATTATTTGCGATAATTCCTTTGAATCATTTATTTTTAGAGAAGAAAATGATTGTTTACCTCCAATAGGTGAAAATATATTTCACGCTTTTAGTTTTTCTAAAAGTTTTTCAATGGCCGATTATAGAGTTGGTTATGTTATATCCCCATCAATAAAATGGTCAGAAGTAGTATCTCGTGATCATTGGTTTACACAATTAAGCACAAGTGTAATTTCCCAAAAAGCGGCTATAGGTGCATTAAATTGTAAGTCCGATTATTTATATAATACTAAAAATGCAGTGCTTGCAAATCTGGTATCTTCAGTAAATCTGCTAAGTACAGCAAGAATCGAAACGACACTTCCTGAAGGCGGTTTCTTTTTGTGGGTAAATATTGAAGATACAGAATGTAATTCAGATGAGTTTGTTAGGTATGCGTTAGAAAAATACAAGGTTTCATTAATTTCGGGAAGTTCTTTTGGTGAAAATGGTAATGGTTATGTTCGGATTAATTGCGCTACAGACCATTTAGCATTAGAAGAAGGACTAGATAGGTTCATACAATGTTATAAAGAGAGGGCATCTCGTAATGAATATATCTTATAA MGIYTGRIIRLDFGEPSFPCPPEVKAESIKYITNPDCYYSPIKGENQLLENIKQYLLNVRNIKVKKELITVTSGGLRGINSIIRCLKNEGVKRVYYPDPGFPPYQFLGDYNDIEMLSYPIKNEKDAVRALIFLAKTSSEKSSAFILTSPNNPNGITFSQASWEILNESMIKQYIICDNSFESFIFREENDCLPPIGENIFHAFSFSKSFSMADYRVGYVISPSIKWSEVVSRDHWFTQLSTSVISQKAAIGALNCKSDYLYNTKNAVLANLVSSVNLLSTARIETTLPEGGFFLWVNIEDTECNSDEFVRYALEKYKVSLISGSSFGENGNGYVRINCATDHLALEEGLDRFIQCYKERASRNEYIL NA NA NA NA NA AK015_04064 1254 entS_3 Enterobactin exporter EntS ATGAATATATCTTATAAAGAAATATTAAAAGAGAAAAACTTTATTTACATTCTCTTAGGGAGACTATTTAAACGTAGTGCCCTAATACTATTCAGTATGGAACTTATATGGTTAACAATGCAATTAACCAATAACTCACCATTATATCTTTCCCTTATGGTGATGGCGGAAACCCTGCCTTTTATCTTATTTGGTATATATGGGGGAGTTAAGGCTGATAGATGGAATAAAAAGTTTGTTATGGTTACTAGCGATATTGGTATTGCGACTCTTTTATTATGTTTACCTATTTTATACCAACTTAATATCCTTAACTACTTTTTATTAATGGCTGTTGCGGTAATTATTACGTTATTTAGCTGCTTTTCTGAACCGTGTTATAGAGCAATTATACCAGAATTGATAGCAAGATCTAAACTACAAGAAGGAAACGCGTTATTAGATTCCGTTCAAAGAGGGGCAACTATATTAGTGCCTGTGTCAATTGGTTTGGTATTGAAGTTCACTACCCAAATTCACTTATTTAGTTTAGCTTTTATATTAATGATAATAGCAGCTTTTCTTCATCTATTAATAATTTATAGACCGAAAAAAATTATTAGTACAGAACAAGGGACGCCAAGTACTATAAATGATATTAAACAAACTCTAGAATATTTAAAGAAGAATAAAGATATTTCTTTTATAATGCTGGTTCAAGGTGTAAGTATAATGATTAATACTGGATTGTGGAGAGTAGGATTACCAATTTATTTAGAAACCTATTTAGGGAAAGACATTGATACTTTTGGATATATAACTGGTATTCTCGGAGCTACTTCATTCGTCACTTCAATTATATTAGGTTTATTAAAGCAAATTAATCCAATATTAATTTTTAATACAGGAATTATTTCTTGGGGATTAGGGCTTTTAGCTATTGGAGTATATCCTTCGATTATTATGATCTATATAGCAACCCTTTTAATCGGTATAGGACAAGCAAGTGAGGGATTAGCTCGAATTGTAATCCTTCAGGATCAAGTGCCTAGAAATATGTTAGGAAAAGTATTTAGTATTACTTCTACTTTAAATTACACTAGTGATACCGTATCCTTAGGAGCTATTAGTGGAGTACTAGCCATTTTTTCAACAGTTGTTGTTTTTTCTGGTGGAGGCGCAGCAATTATGGTTACAGGTATTATAGGTGCAGTAATTTTAAAAAGTCGATCTAAAAAAATTAATCTCAATAATTCAAAGGAAGGTGCAATTTAA MNISYKEILKEKNFIYILLGRLFKRSALILFSMELIWLTMQLTNNSPLYLSLMVMAETLPFILFGIYGGVKADRWNKKFVMVTSDIGIATLLLCLPILYQLNILNYFLLMAVAVIITLFSCFSEPCYRAIIPELIARSKLQEGNALLDSVQRGATILVPVSIGLVLKFTTQIHLFSLAFILMIIAAFLHLLIIYRPKKIISTEQGTPSTINDIKQTLEYLKKNKDISFIMLVQGVSIMINTGLWRVGLPIYLETYLGKDIDTFGYITGILGATSFVTSIILGLLKQINPILIFNTGIISWGLGLLAIGVYPSIIMIYIATLLIGIGQASEGLARIVILQDQVPRNMLGKVFSITSTLNYTSDTVSLGAISGVLAIFSTVVVFSGGGAAIMVTGIIGAVILKSRSKKINLNNSKEGAI NA NA NA NA NA AK015_04065 924 hypothetical protein ATGATAAATTTATCTGTTAAATTAGACACATACTTAGTCGATCTATTAAAGGCAGGAAAGAAAGAAATATCTAAAGGAGATTGGAGCGAACTATGTAAAAAACACAACATACAAAATCTATCTGAATACCCTTTTTTCACGGATACACTTTTTAATGAACAAGAAGTTAAATTAATAAGTGATACTGCTAATTATTTGTCGGAAAATTTAGCTGAATCTATTAGATATATAAGTAAATACTTTCCAGAAACGCCAAATAATATAGATCATGAGTTAACGGTTAGCCTGTTACCAAATGGCAAAACAAATTTTGGTCCAAAGAATAAATTGCAATTATTTTCAATATTTCCAGGTGCTGATGCCTTTGAAACGTATTTATTTTTAATTCATATCTACTATCATGAAATTTCTTTTTTCAACTACACTAAATACTGCGAAGAGTGTGTCACAGATCCATTAACACCGGAAAAATTAAAATATTATATATTAACCTTAATACAAAACGAAGGAATAGGTAATTATGCAGTCTTAGAAGATTTAATTAAATTTAGAGATGAAAATCCGTATTATGAATATAAGTATTTCACATATGCAAAACAACTCAGAAATGAAACAAGAGTTGTTCAATCAATGGGGTTATTAAGACAAATTTTTAATGAATTGAACGATCACAATTTTACAAAGTATAAAGAAAAAATCAATTTGATACTTAAAAATAAGCAGTTACCTATTATAAATTTGGTGGGTACACATATGGCTGAAGCTATAGTCAAAGAATTTGGTCTTGAAACTTTAAAAAATGTACATAAAAAAAGAGTAAATAATTTCTTTGATATTTACTTTAAAACAGAAGACCCTTTAAAAGGACGTTTACTTTCAGATGATTTGAGTAATAATTATTTCAAAGAAATTATTAAGTTATAA MINLSVKLDTYLVDLLKAGKKEISKGDWSELCKKHNIQNLSEYPFFTDTLFNEQEVKLISDTANYLSENLAESIRYISKYFPETPNNIDHELTVSLLPNGKTNFGPKNKLQLFSIFPGADAFETYLFLIHIYYHEISFFNYTKYCEECVTDPLTPEKLKYYILTLIQNEGIGNYAVLEDLIKFRDENPYYEYKYFTYAKQLRNETRVVQSMGLLRQIFNELNDHNFTKYKEKINLILKNKQLPIINLVGTHMAEAIVKEFGLETLKNVHKKRVNNFFDIYFKTEDPLKGRLLSDDLSNNYFKEIIKL NA NA NA NA NA AK015_04066 1065 hypothetical protein TTGAATAAAACAGTAGAACGAATACAAAACTGGTATCGAAATGAAAGGGAATTTTCTAATTATAGTATCATGGACATTGGTGAGAAAATAAAGTACTTAGCTGAGAATGGATTAATTTGGGCTGTAAAAGGTACAGATATAACCGAATTCGAGGAGATTGTGATTGACTACTATATGCATAAGTATAGAGCGGTCCAAATTTACGATAATCTCCATGATTGCTTCCCAATCCCCTCTTCGAATAATGCAAATATACTTACACAAATAAAATCCTCAAAAAAAGTCATCCCTCTACAAAATCACCAGCATTCCCTTGAAGTAAGAGATGTAAAACAATTTATCGGCTACAAGAAGGCAAAGGAATTAGAAGAACGAATCATTGAACTATGTAAGAACTTCCCCTCATTCGAGGCTGATCATATATTTAATCAAATGGAGAGGAGTGCAGAATCGATTAAAAAAAGGATACAAATAGGTGAGCAAATCTATATTCGAGAGAAGTTTAACCAATACAGCATAGCAATAGGATCTGCAAAAGAAACATCTGCATGGCTTCAGGTCTCATTGGGCCAAAAGTATATCACCCAGACCCAATTCGAGGAATTGGATAACATGGTTAATCAAGTGGTAGGTATTCTAACGAAAACTTTATCCAATATTAAAGAAAAAGAGGGCAAAGGATTAGATTTGCCAAACCCATATACTCCTGATGTGAAAAACTTTGGAGCATATAATAATGCTTTGCTGTTGGTGGAAGAGATATACGAAGTTACAAGAAAAGAAGAGTTTTGGAAGGAAAAAGATCTTGTGAGGAAAATGAGAAAGCAAGCAACATCATGTGTTGCTAATATTGCCGAAGCACATCAATTATATATTAAAAAGAAATTTCGTTTCTTTAATGATTCTTTGAAGGCATTAAGAGGGCTTGAAAGTTCGTTGGAAACAGCGATGAGCAAAGGTAATATTTCACAGGAGTCCATAATCGAAATTAATGAGTTGAGGATTTCAATAAGGAATGTTCTTTCCGCAAAGATGTCTAACATGAGAGGCGAGAAAGTAAGCTAA MNKTVERIQNWYRNEREFSNYSIMDIGEKIKYLAENGLIWAVKGTDITEFEEIVIDYYMHKYRAVQIYDNLHDCFPIPSSNNANILTQIKSSKKVIPLQNHQHSLEVRDVKQFIGYKKAKELEERIIELCKNFPSFEADHIFNQMERSAESIKKRIQIGEQIYIREKFNQYSIAIGSAKETSAWLQVSLGQKYITQTQFEELDNMVNQVVGILTKTLSNIKEKEGKGLDLPNPYTPDVKNFGAYNNALLLVEEIYEVTRKEEFWKEKDLVRKMRKQATSCVANIAEAHQLYIKKKFRFFNDSLKALRGLESSLETAMSKGNISQESIIEINELRISIRNVLSAKMSNMRGEKVS NA NA NA NA NA AK015_04067 975 hypothetical protein ATGAAAGAACAGATCTTAATTGCCATTGATTGTGGCAAATATCAAACCAAATCAATTGCCCGCTTCAGAGGAAGTACCTTCATGACAAATTTCCGTACTAAATTAATGTCTGTTTCTCAATTAGGGATGGAAATTCAGCCAAAGTCCTACTTAGTGGAGTATAACGGAGGTGAATATTTAATAGGCGACATGGTAAGTGAACAGTTCGCAGACTTTTCTCTAAACAAGGCCTCCCTTATCCACCAAATCTCCATCTACACTGCAATTTCTCATTTGCTACAGAAAGCAAATGCACCTTCTAATGTTGACATTAGATTGGCTATAAATGTCCCTATCCCTACATACAAGGATTCCGTTCAAAAGGAAAATTTCAAACAGATGGTAGAAAAGCAAGGACGAACTGTACACTTAGTGGTTAACGAAAAAGCCTACTCATTCGAATTAACAGATGTAACTATAGCATTTGAAGGTGTGGGTGAGATTTACGCCAAACCAGAAGCGTACAAAAACAAGAATACAATTGTAATTGATTTAGGTGGACTAAATACAACTCTATGTCAATTCAGTGGGATACAACCGTTCATCAATACCATGATTGTCAGCGAATTAGGCGTTAATAGTGTCCTAAAGGGAAAGATCGGAAAGGTTATTAATGAACGTTATGGACTTTCAGTTTCTTCCGATGATTTAGAACAGATTCTTCGAAATGGGTATTTTGCAAGTAGAGGAGAGATTTTCGAAGACAGCAAAATATTTATTGAGGAACTAAAGCATGAACATTTACAGCAGATCATTCAATTTGCAAAGAGTCGTGGGTATACTTTCAACATGTCGGATATCCACTTTGTAGGTGGTGGAGCAATTATTCTTAGAAGGTATATCAAACAAGAATTTCCTCACGCAGTCATTACTGATAACGCTCAGTACAGCAATTGCCTCTCTTTCCTCAAAATACTCGAGGTCAAGTATGCCTAA MKEQILIAIDCGKYQTKSIARFRGSTFMTNFRTKLMSVSQLGMEIQPKSYLVEYNGGEYLIGDMVSEQFADFSLNKASLIHQISIYTAISHLLQKANAPSNVDIRLAINVPIPTYKDSVQKENFKQMVEKQGRTVHLVVNEKAYSFELTDVTIAFEGVGEIYAKPEAYKNKNTIVIDLGGLNTTLCQFSGIQPFINTMIVSELGVNSVLKGKIGKVINERYGLSVSSDDLEQILRNGYFASRGEIFEDSKIFIEELKHEHLQQIIQFAKSRGYTFNMSDIHFVGGGAIILRRYIKQEFPHAVITDNAQYSNCLSFLKILEVKYA NA NA NA NA NA AK015_04068 279 hypothetical protein ATGCCTAATGCCAGATATACCATTAGCATCCTCTCAAAAGACTTGGATTTAATCCATTACATTGAGAACAAAAGAAGGTCCATTGGGTTAAGTGCCTATATCCGGGAATTGATTCGAAATGACATGAAAAATCAAGATACTCCAAATTTAGAGCAAATATATGAATATGTAGCAAAGAGAATGAAAGAAGATGGATTTCATATAGATGATAAAAGTGCTCGCAAAGCTACAGAATTTATTGATGAGCAGGATAAGGATATTATCACGGATCTCTTCTAA MPNARYTISILSKDLDLIHYIENKRRSIGLSAYIRELIRNDMKNQDTPNLEQIYEYVAKRMKEDGFHIDDKSARKATEFIDEQDKDIITDLF PGPT0027540_249 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746 NA NA AK015_04069 1152 haeIIIM Modification methylase HaeIII ATGATTTTTCGTAAAGGAGAATTATTTAACGGGCCAGGTGGACTAGCAATTGGAGCAAAAAACGCAGGATTTATTCATCCTATGACGGGAGAAGAATGGGGAATTAAACATGAATGGTCAAATGATTTTGATAAAAATGCTTGTAAAACGTATGGTTTGAATATTTGTGGAAATGAAAATGATGATTCTATACATGTAGGACCTGTAGAAAATCTACCTATAGGGGATAAATCTCTATTAGGAGAAATAGATTGCTTTGCATTCGGATTTCCCTGCAATGATTATAGCCAGGTTGGTGAGAAAAAAGGTTTAGATGGAACTTATGGTCCATTATATTCTTATGGTGTTAGAGTATTAAAATTATATCAACCACAATTCTTTGTTGCAGAGAACGTAGGTGGATTACAATCAGCAAATGAAGGAAAGGCTTTTATTCAAATATTAACCGAGCTAGAAGAGTGTGGATATAAATTGACACCACATCTTTATAAATTTGAGGAATATGGTATTCCGCAAGCACGTCATAGGATTATTATTGTAGGTATACGAAATGATTTAGTAGAACAGGGAATTGACTTTAAGGTACCTGCCCCAACAACTTTAGGGTCAAATAATTATAAGACCTCTCGTCAAGCGATTATGGTACCTCCTATTCCGGAAGATGCACCAAATCATGAAATGCCAAGACATACAAAAAAGGTAGAGGAAATGTTGAGCTATATACCAGAAGGAGAAAACGCATGGTATCCTGGAATACCCGAAGAACTTCAATTGAAAGTAAAAGGTGCTCGTTTAAGCTCTATTTACAAAAGGTTAGATCCAAATCGTCCAGCATACACTGTAACAGGTAGTGGTGGAGGTGGTACGCATATGTACCATTGGAGCGAAAATAGGGCATTAACAAATCGTGAAAGGGCTAGACTTCAAACATTTCCAGATGATTTTGTATTTTATGGTAGTAAAGAAGCTATTAGAAAACAGATTGGGATGGCAGTTCCTCCAGAGGGTGCTGAAATTGTTTTTAATGCAATACTTAAAACTTTTGCAGGAATTGAGTATGATGCAACTAAACCTTTAGAGAAGTTGCAATTAGACAACCTAAAAGGGGTTAAGAAGCAAACAATTAGTAAGCAATTAGTAGATTCCCTATAA MIFRKGELFNGPGGLAIGAKNAGFIHPMTGEEWGIKHEWSNDFDKNACKTYGLNICGNENDDSIHVGPVENLPIGDKSLLGEIDCFAFGFPCNDYSQVGEKKGLDGTYGPLYSYGVRVLKLYQPQFFVAENVGGLQSANEGKAFIQILTELEECGYKLTPHLYKFEEYGIPQARHRIIIVGIRNDLVEQGIDFKVPAPTTLGSNNYKTSRQAIMVPPIPEDAPNHEMPRHTKKVEEMLSYIPEGENAWYPGIPEELQLKVKGARLSSIYKRLDPNRPAYTVTGSGGGGTHMYHWSENRALTNRERARLQTFPDDFVFYGSKEAIRKQIGMAVPPEGAEIVFNAILKTFAGIEYDATKPLEKLQLDNLKGVKKQTISKQLVDSL PGPT0020015_4118 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558 NA NA AK015_04070 1596 hypothetical protein ATGAGGAAAGTTTGGTTTATAACCCGTCCTGAGCGAGATCCAAAGTTCCATGTCGATGCACTTCGTGCCCTGCAAATTGCCACTGAACACTTCTCGATTAAGTGGTATGGGAATAGAGATGCACATAAGCAATATGAAGCGGTTCTAATATCTGAAGAATTAAAACGAGAAAATATTAGTAACGATGGCTCTGGAGGAAGAACTTGGGCTGCAATGTTACGCACTTTTGGGTATGTATATTTGGATTCAGATGGATATCTAGTACTAACCAAAGTTGGGGAAAAACTAATAAATTCTGAAAAGGTGAGAGAAAATATTGCAAAACAAATTCTAACTTTACAAATTCCTAATGCTTACTTTTTGGATAGCGGCTTTAGGCCAAAATATGAAGAAGACTTTCAAATAAGGCCCGCCAGATTTCTCGTTCGTTTGGTAAACCAATCAATACTCGATTACTATGTTACAAAAGAAGAGATAACATTTTTTGCTTTAACAGCTAAAAGAGACGATGAACTATTTAATGTAACTAAAAAGATATTAGATTTTCGAAATGCTTCAGAAAATGAAAAAGAACGAATTAAGAAGTCGTTAGCAATTAACTATGATCATCGACAAAGATCTGATAGTGAAGCAAGAGACTTTGCATCTGCACATGGAGATGTTGCCCATACCTTTATGTTGCTGTGTGATTACACTGGACTTGTAGACTATGTTAGAGGCGACGCATTAAGACTACCAACAGAAAAGCATGAAACAACATCGAAAACCTTAAATTATATAGAAAATAGATATCCATTTAACAAGAGATATTTAATTTCACTTGAAAGATTTGCGGAGAATGCTGGATTGGATATAGATAGCTACAAAGCCAGTGCGTTTGGTTCACTTCCTCCGGCGACTAATAAAAGTAAAAGTATTAGAAAGGTTCATAGGCTATTGTCATCATACCCTATGATAAAAGGACTTTCTGTAGAAGAGATCTCGAAAATATTGGAACAAGAACTATCTGCGAATGAGGCAATAAAGTACGCAAATGAACTGTACAACTACACTTATGAGTCCTTAAATGAGGATTTTGTTGAATCATATTTGTTTGAAGAAAATGATCGTTTATTTGAGGATAAAACAGGTGAGATATTAAAATCAATAGGTTTTGAAGTTGAAATGCGTCCGAAACCATTAGGAATTGATGTAAGGACTGAAATAGAAATTTTAGTACATGTAGATAATGAAACAATCTGTATCATAGATGCTAAGAATTACCGTGAGAAATTTAACTTGTCTGCCAATTTAGCTTCTCACATGTCATCTGAATATATACCCAATTATCATGGTTATGACAATAAGTCGGTTAGGTATTTTGGTTATGTGACAGCGAATAAATTTGGTGGTGAAAGGCATCTGGAAAAAATTTGTGAAAAAGCAAAGAAAATAAACTCCGAAATAAGTGTTTCTGGAGCTATTCTATCAGCTAAGACCTTGTTAGGATTCCTTGACTATTGTTTAGAGAATAATTTAGAAAAATCGGAAAGGAGAAATAAATTCTTGTCTTTATTCACTAATAAAGGATACTCTAGTGTTGCAGAAATACTCTAG MRKVWFITRPERDPKFHVDALRALQIATEHFSIKWYGNRDAHKQYEAVLISEELKRENISNDGSGGRTWAAMLRTFGYVYLDSDGYLVLTKVGEKLINSEKVRENIAKQILTLQIPNAYFLDSGFRPKYEEDFQIRPARFLVRLVNQSILDYYVTKEEITFFALTAKRDDELFNVTKKILDFRNASENEKERIKKSLAINYDHRQRSDSEARDFASAHGDVAHTFMLLCDYTGLVDYVRGDALRLPTEKHETTSKTLNYIENRYPFNKRYLISLERFAENAGLDIDSYKASAFGSLPPATNKSKSIRKVHRLLSSYPMIKGLSVEEISKILEQELSANEAIKYANELYNYTYESLNEDFVESYLFEENDRLFEDKTGEILKSIGFEVEMRPKPLGIDVRTEIEILVHVDNETICIIDAKNYREKFNLSANLASHMSSEYIPNYHGYDNKSVRYFGYVTANKFGGERHLEKICEKAKKINSEISVSGAILSAKTLLGFLDYCLENNLEKSERRNKFLSLFTNKGYSSVAEIL NA NA NA NA NA AK015_04071 447 hypothetical protein TTGAGATTATTGCGGAAGAGTGTCTTATATAGACTTATGGACAAAATAAATGTTTTATTATCCGAGGCCGGATTAACACATAGAGAAGTAAGCAATTTAGCTGGTAATAGTGATAACTGGTTTAATGATGCCTACAACAATAATGAAGATATTCAATTATCCTCTTTTGTAAAGGTACTATCTGCTGTAAGTCAAAAACACGATATTAGTGATTATCAGTTATTGGATATCTTCAGTAAAAAAATCCTGAATATTTCATCTCTAATATCTCGTTTATCTGATGAGGAAGATGACTATATAAAAGATTTTATAAATGGTGAAAAGACACTATTTCTTGATATTGTCGGGGATTGGGCTTCAATGGAGTATAAAAATAAATTAAATAAGGATGAAATAGAAACAATGAATAAAGTTAAGGTCTTAGTATCTAACAAGGAGGAAAATTGA MRLLRKSVLYRLMDKINVLLSEAGLTHREVSNLAGNSDNWFNDAYNNNEDIQLSSFVKVLSAVSQKHDISDYQLLDIFSKKILNISSLISRLSDEEDDYIKDFINGEKTLFLDIVGDWASMEYKNKLNKDEIETMNKVKVLVSNKEEN NA NA NA NA NA AK015_04072 219 hypothetical protein TTGATTTGTAAATGTGGAGGAGTACTAATAGTAACAGCAGTGGAAGAAATACCTAGGCATCTTTCTAATAAAGATAAACTTACTTACAATCGAGTATGTGATGTTGAATGTCAAAAGTGTGTAGCAGTTCACTACTCTCAACCATACGATGATGGAAATGTATTAAATGTGGTAAAAAAACAAAGAATATATAAGGTCAGTTTTCACTTTTATATCTAA MICKCGGVLIVTAVEEIPRHLSNKDKLTYNRVCDVECQKCVAVHYSQPYDDGNVLNVVKKQRIYKVSFHFYI NA NA NA NA NA AK015_04074 285 hypothetical protein ATGAGTAATCAGGAGAAGGCCATTATCATAGGAATGATTGATGATCGTTTTGGAGAATTAGTGGAGCTTTTGAAGAAAGAACGAGGATATACCTTGCAAGAACTGTCGGATAAGACAAATCTATCGCCAAGTTATATTTATAGGCTCATTAGGGGTTATCGTGGTTGTGAGCTAACAACTAAATTAAACATTCTTTTGAACGGTTTTGGTATGCAAGAAGAGGCAGAACAGTATTTAAAAACAGTGATTGAAAATAATGAGACATTGAGGAAGGTACTTGATTAA MSNQEKAIIIGMIDDRFGELVELLKKERGYTLQELSDKTNLSPSYIYRLIRGYRGCELTTKLNILLNGFGMQEEAEQYLKTVIENNETLRKVLD NA NA NA NA NA AK015_04075 621 hypothetical protein ATGACTAGCTACACCGTTCCAACACACAGGGATATCACCTTTAACGAGTATAAGGGTATATTTGAGAAGTACAAAAATAATAACGATACTCGTGAAATAACTTTTCAAAACGAATTAGTTAAGCCCTTCATCAGGGGTGTACGTAATGACCTTGATGTTGAAGGCTGTGATACTAAGGGGCCAACCCAAATACATGATTACTTGCAGTATTGTGGAACATACACAATTAATGGTAAAGAAAAGTCGGTAACACCTGACTTGGTAATAACTAAAGACTGGAACTGGTTGAACCGAGACTTTAGTCTTGACTATCGTGCCGTCGTAGAGGTTAAGTCACCTTTTTTGAAGGATCGTATTTATTCTAAAGAATATGAAGATTACTCTGAAGAATTTAAAGTTAAATTAAAACGTCATTTATCTGCCACAATAAATAATAAAGTGATCTTAACAGACGCATTAAAATGGGAATTTTACAAAAGAAGTGGAGGTGGTAACGAATTAATACCGATTCGAACAATTGAATTGTATGATTTAATCGACGGAATAGGTCACTGGAAGTGGTGTAGTGTTGACTCATTCAATAGTCTCAAAAACTACTTAAAGAAATTTCTTGGTAGTTAA MTSYTVPTHRDITFNEYKGIFEKYKNNNDTREITFQNELVKPFIRGVRNDLDVEGCDTKGPTQIHDYLQYCGTYTINGKEKSVTPDLVITKDWNWLNRDFSLDYRAVVEVKSPFLKDRIYSKEYEDYSEEFKVKLKRHLSATINNKVILTDALKWEFYKRSGGGNELIPIRTIELYDLIDGIGHWKWCSVDSFNSLKNYLKKFLGS NA NA NA NA NA AK015_04076 405 hypothetical protein ATGACAGACCAAGAACTCACTGAAAGAAGGGTGGATGAAGAGCAAACATTGGGGTTTTTGCTCTTGGCTTGCAAGCAGGTCGGTTATTCCTTAGATCAAGTCCAACAAATTCATTCCAGTATGAATTTACAATTTAATAAGCACTCTCCTGATGTGGCGAAAAAGGAGGGAGAGAAGTGGTTTAGTTCTATTAAAAGTACTAGACGCAATAACTATAGCAATCTAATGAATGAAAGACCGAAGCCCAAATATAAAAGGGCGAACGTAACGCTACCAAAAATTATGGAAAGTAATCATTCAAGGGAACTTCGGAAGAAAAACGAAAGAATTGTAAGGGAGTTAAACCGGATGGAGTATGGTCCATTTGGGTTATCTAAGTTAATCAGAAAATGTACGGGGAGATAG MTDQELTERRVDEEQTLGFLLLACKQVGYSLDQVQQIHSSMNLQFNKHSPDVAKKEGEKWFSSIKSTRRNNYSNLMNERPKPKYKRANVTLPKIMESNHSRELRKKNERIVRELNRMEYGPFGLSKLIRKCTGR NA NA NA NA NA AK015_04077 225 hypothetical protein GTGACAGATAATAATAATGATTCATCTAAAGTAAAAACGGAAAAAATAAATAATCCTGAAAGAAAATACGCATGGATGGATAAATGGGTAAAACTCACAGGTGAGATGGCTAGAATTGATGCGAAGGCAAATGGAACATACATTATATACGAAAAGGATGGACAATTGGTGAAAGAATCCCCAGACGGAGACATTGTCCCACTTCATGAAGATAAAAAGGATTAA MTDNNNDSSKVKTEKINNPERKYAWMDKWVKLTGEMARIDAKANGTYIIYEKDGQLVKESPDGDIVPLHEDKKD NA NA NA NA NA AK015_04078 114 hypothetical protein ATGCATAATATGCATTTTGCGACAGCTCCTTTTTGTTTTCTGTTTCCTTACAAAAAAGTAAGCTTATGCTTTCGAAACCGTAAGAATACATTAACAATTTATGTGGTAAAATAA MHNMHFATAPFCFLFPYKKVSLCFRNRKNTLTIYVVK NA NA NA NA NA AK015_04079 321 hypothetical protein TTGCATCCAAATAATATTTTATCGTCCCTCTGTTACTTCAGTGTATTTTTCGCGCCGTTCCTATTTCCAATTATTGTCTATTTTGTAGCTGAAACGAACGTTAAAAAACATGCGAAAAGTGCTTTAGGGATGCACTTAGTACCGTTTATAACTGTTGTAGGATTAATTATTGTTACTATAACGTTAGGCTTTAGCAATTTGAGTGATACTGTGAATGGTGGTGTATTAATAGCTGTTGGTATGTTAGCTGTCATCATCAATATTTACTACTTCATTTTAAATATAATTAGAGGTATCAAGGTGTTAAATGAGAATGAATAA MHPNNILSSLCYFSVFFAPFLFPIIVYFVAETNVKKHAKSALGMHLVPFITVVGLIIVTITLGFSNLSDTVNGGVLIAVGMLAVIINIYYFILNIIRGIKVLNENE NA NA NA NA NA AK015_04080 651 cat Chloramphenicol acetyltransferase ATGTTTCATATAGTTAATCGAAAGGAATGGAAAAGAGAAGCATATTTTAACCATTTTTCTCAATTGCGTTGTACTTTTAGTATGACTGCGAATATAAATATTACAGAATTGCTAAAGCAGACGAGAGAAAGAAAAATGAAGCTTTACCCAGCCTTAATTTATATGGGCTCAAAAGTTGTAAATCAACATTCTGAATTTAGAATGTCTTATAATGATAAAGGAGAACTTGGTTATTGGGAGGTACTTCATCCAAGTTATAGTATTTTTCATAAGGAAGAAGAACTATTCTCTAATGTTTGGACGAACTTTTCTAATATATTCGTGGAGTTTTACAACCGTTTTATGCAAGATAGTGTAGACTATGGTGATCATCCTCGTTTGCAAGCAAAGGGAAATCCACCTACGAATATTCATCCAATATCTATTATTCCATGGACGAGTTTTACAGGATTTAATTTAAATATTAATAACGAAGGCAATTTTTTATTGCCTATAATTACATGGGGAAAGTATTTTAAAGAAGCAGAATCTGTTTTTATTCCTTTATCTGTACAAGTTCATCATGCAGTTTGTGATGGCTACCATTCTAGCTTATTAATAAATGAAATTCAAGCGTTAGCAGATCGATGTATGGATTGGTTAGATAAATAG MFHIVNRKEWKREAYFNHFSQLRCTFSMTANINITELLKQTRERKMKLYPALIYMGSKVVNQHSEFRMSYNDKGELGYWEVLHPSYSIFHKEEELFSNVWTNFSNIFVEFYNRFMQDSVDYGDHPRLQAKGNPPTNIHPISIIPWTSFTGFNLNINNEGNFLLPIITWGKYFKEAESVFIPLSVQVHHAVCDGYHSSLLINEIQALADRCMDWLDK PGPT0028030_220 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028030-catA-K19271 NA NA AK015_04081 831 hypothetical protein ATGAAAGCTATTATAAAAGATATTCTCCTTATTACTATTGGTTCATTTCTCATCGCAGCATCTGTTGAATTTTTTGTTATTCCTAATAAACTTGGCGATGGTAGTACTATTGGAATGTCTTTAATTTTATATTATTTATTTGAAGTTCCTGCTAGTATTAGTTCTTTAATCATAAATCTAATTTTCATCGCAATTGCCTATAAGTTTTTAATGAAAAAGACCATCGTTTATACCGTCGTAGGTGCGTTTATGACATCTGTAGGATTAAGTGTTATGAATCTCATACCTTTTGCAGTTGACGACATGATTTTAGGAGTAATTTTCGGAGCACTATTAATGGGAGCAGGCTTGGCACTAATTTTCATTGCTGATGCATCAAACGGAGGCACAACACTACTTGCATATTTATTGAATTATACGAAGGGGTATAATTTTTCCAAAAGCCTCTTTTATATGGATAGTTTGATCATTGTAGGCTCCATTGTAGCGATTGGAGTGTATCATACATTATATAGTTTTATTTTTGTCTATTTATGTACAAAAATAGCTAACCAGTTTATTGAAGGTTTTCATAACAAAAAAGCAATGACAATCATGTCGGAACAATATGAGGAAATCTCAAAGCGTATTACGCACAAATTCGGCAACGCCGCTACCATCTTTTATGGATATGGTTACTATGTTAATGAAGATAAGCGAATCATCTATATTGTAATCAAAAAAAATGAATTGTTAAAAATAAAAAAAGAAGTGCAATTATTAGATCCTCAATCTTTTATTGTCATTCATGAAGTAAAAGAGGTTGTTGGCGGGAAATTTGGTTTTGTTTAA MKAIIKDILLITIGSFLIAASVEFFVIPNKLGDGSTIGMSLILYYLFEVPASISSLIINLIFIAIAYKFLMKKTIVYTVVGAFMTSVGLSVMNLIPFAVDDMILGVIFGALLMGAGLALIFIADASNGGTTLLAYLLNYTKGYNFSKSLFYMDSLIIVGSIVAIGVYHTLYSFIFVYLCTKIANQFIEGFHNKKAMTIMSEQYEEISKRITHKFGNAATIFYGYGYYVNEDKRIIYIVIKKNELLKIKKEVQLLDPQSFIVIHEVKEVVGGKFGFV NA NA NA NA NA AK015_04082 1386 cpdA_2 3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA ATGATGACAGATAAGCAATTTAAAGACGATAATAACATGAATAAAAGAATGGATCGCCGAACTTTTTTAACACAATCTTCCAAAGTTACCGGGACAGTTGTGGGATTAACGTTATTAGGATCATTTAGTACCATCCCTGTTAGCGCTGTGTCAAAATCACCTGTGAAACACGCAAAAAAAAGAAAAGCTGATTTGGTTTTCCCAGTCATTAGCGATGTCCATATCAAATATAATGATGAAGCTAATGTGAAAAAATTTACAACTACTTTAAATCAACTGAACCAAGTAGTTCCTCAACAGGATGCGTTAGTCGCGGTTGGCGACCTTACAGAGTATGGTTCCGAAACGGAATATGATATATTCATGGAGATTTATGAAAAAAATAAGAATCCAGATGCAACCCCGATTTTTGCAATTGGAAATCACGATTATTGGAATGGTTTATCCCCCATAGATTCCCAAAAACGTTTTTGTCAAAAAACCGGGATGAAATCTCATTACTATCATCAAATAATTAAAGGCTATCATTTCATTGTCCTTGGAACTGAAGACGGAAAGACAGAAGGAACATTTTCCACTAACCAAATAAAATGGCTAGAAAACAAATTACAGATTGCAAGTAATGATGACTGGAAAAAACCTATATTTGTTTTCCACCATCAACCTATTAAAGAAACTGTCTATGGAAGTGAATGGGGGTTTTCTGAAAATAGGGACCTTTTTTACAATACATTAAAGAAATTCCCTCAAGTCATTACATTTTCTGGTCATACTCATTACCCGCTAGACGATCCGAAAATTATCCATCAAAAAGATTTTACAACTATCGGAACTTCTACAGGTGCTTATGCATGGCTGGAAGGTGGAAGAATACAAGGAGCAGTTCCTGATGGTGCGAACATGCTAAACCAAGCTCTTATTGTTGAAGTGTACAATAATAAATTGATCATTAAACGCCGTGACATCCATAATAATGATTGGACTGGCGAAGATTTTGAAATTAATTACCCGATAAACAAACGAAATTTCAAGTACACGGAAAACCGTGACAAAAAGCCACCTTACTTTACTAAGGATGCAATGGTTTCTATCTTACATGAAGCAACCACAGCTTCTAGTTTAACCATATTGCTAACACAAGCTGAAGATGACCTTTTAGTACATGATTACGAACTAAAATTAAAAAATATACAAACTGGAAAAATTGAAAAAGAATACCTAGCTTTTTCAGAATTTTATAAAGACCCAATGCCAAATCCTCTTCGTTTAAGTATTGATCGCTTACAAGCAAATACTACTTATGACATAGAAATTCACGCTTTAGATGCATTTGGTAATAAAAGCAAAAATGCTTTAAAACTAATTGGAAGAACACAAAATAATTAA MMTDKQFKDDNNMNKRMDRRTFLTQSSKVTGTVVGLTLLGSFSTIPVSAVSKSPVKHAKKRKADLVFPVISDVHIKYNDEANVKKFTTTLNQLNQVVPQQDALVAVGDLTEYGSETEYDIFMEIYEKNKNPDATPIFAIGNHDYWNGLSPIDSQKRFCQKTGMKSHYYHQIIKGYHFIVLGTEDGKTEGTFSTNQIKWLENKLQIASNDDWKKPIFVFHHQPIKETVYGSEWGFSENRDLFYNTLKKFPQVITFSGHTHYPLDDPKIIHQKDFTTIGTSTGAYAWLEGGRIQGAVPDGANMLNQALIVEVYNNKLIIKRRDIHNNDWTGEDFEINYPINKRNFKYTENRDKKPPYFTKDAMVSILHEATTASSLTILLTQAEDDLLVHDYELKLKNIQTGKIEKEYLAFSEFYKDPMPNPLRLSIDRLQANTTYDIEIHALDAFGNKSKNALKLIGRTQNN NA NA NA NA NA AK015_04083 237 hypothetical protein ATGAAGGCTACAGCAGAGGTATATGTTACATCAACATGTCCATTTTGTACAATGATGACAAATTATTTAAAGGAAAACAATGTTCCTTATAAGACGATAAATGTACAAACAGATCGTGAGGCAGGGCAACGTTTAGTGGAAACAACTGGACAAATGGGTGTACCGCAAACGAAAATTAACGGAAAGTGGATCATTGGCTTTGATCCAGATAAAGTTCAAGAAGCCTTAAAAAGCTAA MKATAEVYVTSTCPFCTMMTNYLKENNVPYKTINVQTDREAGQRLVETTGQMGVPQTKINGKWIIGFDPDKVQEALKS PGPT0013201_4746 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676 NA NA AK015_04084 660 ntcA_2 Global nitrogen regulator ATGATCGAAAAACATCCTTTATTATCAACTAAAGTAATTCACTTATTCGACCGTGAATTAAGAGATAGATGGAAATCAAGAAAACAATTTATCTTTGAAAAAGGGGAACAAATATCATCGCCGTATAAACAGAAAAATGAAATCTATTTAATTATTGAAGGTGATGTACGCATTTTCCAATTACATGAGGACGGTAAGGAATGCGTGCTAGGGATACTAACAATGGGAGACTTTATTGATATTGCCAGTGTGTTTGCAAATATGGATCGCGATCCTTTTGCTATTGCTTTAACCAAAGTTACAGTGGTTAAAGTGAAAAAGCAAGAAATCATCGATGCTGTGATCCATACCCCATCTGTATCCTTCGCTTTGTTAAAACACTTCTCTAATCAATTACGTGAGGTTGTAGGCATTTTAGAGCAGGTTGCTTATGACAAAGTAGAAGAGAGGTTATGGCGTTCTCTTCATAAATGGAAAGATGAGAAATGGAATCATAACGGTTGGCACCCACTACCGAAGTATTTAACTCATAAGGATATGGCTGGAATGATAGCGTCGTCGAGGGAAACGGTAACTTTTATACTCAATAAATGGATGAATAATGGTATTTTAAAAAATGAGCGCCAACAACTTTGGATTAAAAAAGGTGCTACATTGTAA MIEKHPLLSTKVIHLFDRELRDRWKSRKQFIFEKGEQISSPYKQKNEIYLIIEGDVRIFQLHEDGKECVLGILTMGDFIDIASVFANMDRDPFAIALTKVTVVKVKKQEIIDAVIHTPSVSFALLKHFSNQLREVVGILEQVAYDKVEERLWRSLHKWKDEKWNHNGWHPLPKYLTHKDMAGMIASSRETVTFILNKWMNNGILKNERQQLWIKKGATL NA NA NA NA NA AK015_04085 495 hypothetical protein ATGAATGGTATGAATTTTGCAACAGTAGAAAAAACGATACAGGCAATGAAAGAAGATCATTCCCAAAAGATAAAATCTTGGCAGGCAAAGGTAACTTGGAAAACAGGAGTAAAAAATGTGGTGCAAATTCGTGATTTTGCACCTATTATAATGGATGAGCCACAACCATTAGGTGGGTCTGATGAAGGGGCAAACCCAGTGGAGATGCTTATTGGGACTGCAGGTAGTTGTTTTGCAATTACATTTGAAGTGTTAGCAAGCCAACAAGGAATCCATCTTGATTCCGTTGAGGTTATCGTAGATGCGGATTTAAATGCAGCAGTATTTTTAGGTTTGGAAGAAGGAGAAGGTGGCATTATCAATCCAACCATCCATCTTCATGCAAAAACGTCTGCATCTAAAAAACAAATAAAAGAAATTGCTAATATAGCTTTACAGAAGTCTCCGGTACTAGCAAGTATGAAGTCAGACTTGCAATTAGAAATTCGTGAATAA MNGMNFATVEKTIQAMKEDHSQKIKSWQAKVTWKTGVKNVVQIRDFAPIIMDEPQPLGGSDEGANPVEMLIGTAGSCFAITFEVLASQQGIHLDSVEVIVDADLNAAVFLGLEEGEGGIINPTIHLHAKTSASKKQIKEIANIALQKSPVLASMKSDLQLEIRE NA NA NA NA NA AK015_04086 453 ohrR Organic hydroperoxide resistance transcriptional regulator TTGAAATCGTATGAAACGGAAGAAACCATTAACCGGATTGAGAAGCGAATGCGTTATATATCTGGAATCATTAAGAAAAATGGTCGAAAAATCCTGCACAATTATCCAATCACCTCTCCACAGTTTATTGCTTTACAATGGCTTTTGGAAGAAGGAGACTTAACAATTGGGGAACTATCAAATCGTATTAGTCTAGCCTTTAGTACTACTACTGATTTAGTGGATAGGATGGAAAAGAATGGGCTTGTTGAAAGAGTTCGTGATGCTAAAGATCGAAGAGTAGTACGTATCCATGTATTGGAGAAAGGAAAAACGATTATTCATGAGGTTGTAGAAAAACGGCAAGAATATTTAGGTCAAGTTTTGGAGGAATTTTCAGATGATCAAATCGATCAATTGCATGAATTGCTTGCATATTTGCATGAGCAAATGAAAGAAAAAGAACAGAAATAA MKSYETEETINRIEKRMRYISGIIKKNGRKILHNYPITSPQFIALQWLLEEGDLTIGELSNRISLAFSTTTDLVDRMEKNGLVERVRDAKDRRVVRIHVLEKGKTIIHEVVEKRQEYLGQVLEEFSDDQIDQLHELLAYLHEQMKEKEQK PGPT0013155_3227 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775 NA NA AK015_04087 828 racE COG0796 Glutamate racemase 1 GTGAAACAAGCGATAGGCGTTATTGACTCAGGGGTTGGCGGGTTGACAGTAGCTTATGAATTAATGCGACAGCTCCCTAAAGAAAAATTAATTTATGTTGGCGATACAGCGCGCTGTCCTTACGGACCAAGATCAAAAGAAGAAGTGCAGCAATTCACATGGGAAATGGTTAACTTTTTGTTAGCTAGAGATATTAAAATGTTAGTTGTTGCGTGCAATACTGCGACAGCTTTTACATTAGATTCTTTAAAGAAACATTTAGCCATACCTGTTATAGGAGTTATTCAACCAGGTGCTAGAGCGGCGATTAAATTTACAAAAAATAATAGTATTGGCGTCATCGGAACCGACGGAACCATCAGAAGTAATGCTTATACGAATGCACTTAAAAATATTAAAGGTGAATTGGACATCTGTGCAAAGGCTTGTCCTATGTTTGTCCCCATGGTAGAGCAAGGAATTATGGAAGGCTCAAAAGCAATACAAGTTGTTGAAGAAGCATTGCGACCGATGGTGGAGCAAACACAAATGGATACACTTATTTTAGGATGTACCCATTATCCTCTCCTTAAATCCACTATCCAATCAGTAGTGGGGGAAGATGTAACATTAATATCTTCTAGTGAAGAAACAGCCAGAGAAACGAGTACTATATTAGAAATGCAACATTTGTTAAATCATAATGGAATAACTCCCATCCATCAATTTTATACGACTGGTGATTTAAATATGTTCATGCAAATCTCTAAGCGAATTTTTAAAGAACAAAATTTACAAATGATAACCATAGAAAAAGCTGCTTTACATCAAATGCAAGATTCTAAATAA MKQAIGVIDSGVGGLTVAYELMRQLPKEKLIYVGDTARCPYGPRSKEEVQQFTWEMVNFLLARDIKMLVVACNTATAFTLDSLKKHLAIPVIGVIQPGARAAIKFTKNNSIGVIGTDGTIRSNAYTNALKNIKGELDICAKACPMFVPMVEQGIMEGSKAIQVVEEALRPMVEQTQMDTLILGCTHYPLLKSTIQSVVGEDVTLISSSEETARETSTILEMQHLLNHNGITPIHQFYTTGDLNMFMQISKRIFKEQNLQMITIEKAALHQMQDSK PGPT0020200_1501 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776 NA NA AK015_04088 1065 gerM COG5401 Spore germination protein GerM ATGCAAAAGCGCGTCATGCTTATCGCGGGGGTAATGATACTTTCCATCATTTTAAGTGGATGTTTTCAAGGAGAACAGTCTTTAAATGAAGAAATGGATCCACCGCAAAATGCAGAACCCGTTGATAATCAAGGGGAAACGCAAGATGGTGAAGGAGAAACGGATGATGAGACGCAAGCGAGTACCGTTGCGCGTGACTTATATTTATTAGATGCTAATGGCATGGTAGCTTCACAAACGATAGAAATGCCAACGACAGAATCGCATACTGTTGCCAAGCAAGTAATGGAATATTTAGTAAAAGATGGTCCGGTATCTCAAGTATTGCCAAATGGATTTCAGGGAGTCATACCTGCAGGCACAGAAGTTTTAGGGGTTAATCTTCAAGAAGACGGTAAAATAATTGTTAATCTATCAAAAGAGTTTGCTAATTATGAAGCCGAAAATGAACGAAAAATACTAGAAGCTATTACGTATTCTTTAACGCAATTTGAGAATGTGAAACAGGTGCAGTTGCAGATGGAAGGTAACGCAATAACGGAAATGCCTGTTGATGGCACGCCGATAGGAAATGGCTTTTCACGCGCCGATGGTATAAATATTAGTGATACCGGTGCGAGTGATCTAGTGGATAGTAAAACCGTAACGATGTTTTACCCTGCCGAACATAATGATAATGCTTATTATATTCCTGTCACCCAATATGTAGATCAAGATAAAGAGGATGACGAGTTGATGACCATTGTAAATGCATTAATAGATGGGCCAGGAGTGGAGCAAAATGTGATGCAAGTGTTTAATCCGAAAACGACTCTAACAACACCTCCTTCGATAAAGGGTGGAACATTGCATTTGCAATTTAATCAGGAAATTTTAAAAGATGAAGATAAGGCAGTCATATCTGATCAAGTCATGGAAAGTATTGTTCGTACAATGACCGAAGTAAAAGGGATTGAATCCGTGCAAGTTAGTATAGATAATATAGAACAGTTAGTAAATGAAGAAGGGAAAGCATATACGGAACCTGTTACTATACAGCAATTTACACAAGCAGAAGAACTGTAG MQKRVMLIAGVMILSIILSGCFQGEQSLNEEMDPPQNAEPVDNQGETQDGEGETDDETQASTVARDLYLLDANGMVASQTIEMPTTESHTVAKQVMEYLVKDGPVSQVLPNGFQGVIPAGTEVLGVNLQEDGKIIVNLSKEFANYEAENERKILEAITYSLTQFENVKQVQLQMEGNAITEMPVDGTPIGNGFSRADGINISDTGASDLVDSKTVTMFYPAEHNDNAYYIPVTQYVDQDKEDDELMTIVNALIDGPGVEQNVMQVFNPKTTLTTPPSIKGGTLHLQFNQEILKDEDKAVISDQVMESIVRTMTEVKGIESVQVSIDNIEQLVNEEGKAYTEPVTIQQFTQAEEL NA NA NA NA NA AK015_04089 765 rph COG0689 Ribonuclease PH ATGAGAAACGATCAGCGTAATGAAAGTAGTTTACGACCTATCACAATTATTACGGATTTTCTTCAGCACCCGGAAGGCTCTGTGCTGATTCAGATAGGAAATACAAAAGTAATATGTAATGCAAGTATTGAAGACAGAGTTCCTCCATTTATGCGTGGGCAAGGAAAGGGGTGGATTACAGCGGAATATGCAATGCTTCCTCGGGCGACTGAGCAAAGAAATATACGTGAATCTTCTAAAGGTAAAGTAAGTGGAAGAACGATGGAAATTCAACGGTTAATTGGACGATCCCTTCGATCGGTCGTCGATTTAGATAACATAGGTGAACGAACGGTTTGGGTAGATTGCGATGTCATTCAAGCTGACGGAGGAACGAGGACAGCTTCGATTACTGGTGCGTTTGTTGCTGTAGCATTAGCATTTAATAAGTTAGTGGAAAATAAAGTTATTTCTAAAATGCCAGTTACAGATTTCTTGGCAGCAACTTCGGTTGGCGTATTACCAGATGGAAACGAAATTCTAGATTTAAATTATCAAGAAGATTCCAGTGCGCATGTTGATATGAATATCGTAATGACAGGCTCAGGTGAGTTTGTTGAAATACAAGGTACAGGGGAAGAAGCTACTTTTTCAAGTAAACAATTGCAAACGATGCTCCAGCTTGCTGAGGAAGGGTTGTTAACACTATTTGAAAAACAGCGGGAAGCATTAGGTTCCATTGCTGAAAAGATTGTTAAGCCTGCAAGTGCGCAAGGAGAAGAATAA MRNDQRNESSLRPITIITDFLQHPEGSVLIQIGNTKVICNASIEDRVPPFMRGQGKGWITAEYAMLPRATEQRNIRESSKGKVSGRTMEIQRLIGRSLRSVVDLDNIGERTVWVDCDVIQADGGTRTASITGAFVAVALAFNKLVENKVISKMPVTDFLAATSVGVLPDGNEILDLNYQEDSSAHVDMNIVMTGSGEFVEIQGTGEEATFSSKQLQTMLQLAEEGLLTLFEKQREALGSIAEKIVKPASAQGEE 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 AK015_04090 609 dITP/XTP pyrophosphatase ATGAAAAAAATAATTATTGCTACAAAAAATAAAGGGAAAGCGAAAGAGTTTAAAGAACTATTTGCTGCGTATGAACTTGAAGCTATATCCTTGAATGAATTAGACGGTATACCAGATGTTGAAGAAACAGGGTCAACATTTAAAGAAAACGCAGCATTAAAAGTAGAACAAATTGCTTCTGTGTTATCGCTCCCTGTCATCGCTGATGATTCTGGCTTAATGATTGATGCATTAGATGGGAAACCTGGGGTGTACTCCGCGCGATATGCTGGAGAGGATAAAAGTGATCAGGCCAATATCGATAAGGTGCTCACAGAATTACATAACGTACCAGAAGTGAAAAGAACAGCACATTTTATCTGTGTACTTGCAGTTGCTATACCTGGTTCAGCTACTACATATTATACTGGATATTGTCACGGTAGAATTGCTCATTCACCAATTGGAAAGAACGGTTTTGGGTATGATCCTATTTTTATTCCAAAAGGCTTTCAACAAACAATGGCTCAGTTATCCCAAGAAGAAAAAAATGCCATTAGCCACAGACGAAATGCTTTGAAAGAACTAGAAGTCAGTTTAAACAAACAAGATATACTTTTAGATAGATAG MKKIIIATKNKGKAKEFKELFAAYELEAISLNELDGIPDVEETGSTFKENAALKVEQIASVLSLPVIADDSGLMIDALDGKPGVYSARYAGEDKSDQANIDKVLTELHNVPEVKRTAHFICVLAVAIPGSATTYYTGYCHGRIAHSPIGKNGFGYDPIFIPKGFQQTMAQLSQEEKNAISHRRNALKELEVSLNKQDILLDR PGPT0021590_3032 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428 NA NA AK015_04091 510 Putative metallophosphoesterase MG207 ATGACAAAAGTGCTGATTGTGAGTGATAGTCACGGGTTAACGAAAGAGCTGGAAATGATTAAACAACGACACCGTGTAGATGCTATGATTCACTGTGGAGATTCGGAATTAGGTATGGACGACAAGGAAATGGCTGGATTTTATTCTGTAATGGGAAATTGTGATGTTGATACGCGCTATCCTGAGGAACAAACAATCCAAGTTAGTGGAGTGAAATTTCTCATTGTTCATGGTCATCTGCATCAAGTAAAGAGTAATTTATTACATGTGGCTTATCGTGCAGAAGAACTTGGAGCACAAGTGATTTGTTTTGGTCATACACATATTGCTGGCGTGGAACAAAAAGGAAACCAACTGCTAATTAATCCTGGTAGTATACGCTTGCCACGTGTCCGCAAAGAAAAGACCTATGCAATCATGGAATGGCAAGTTAAAGAAGAGATAACCGTGCGTTTTTATTCGGTTGGCGGACCTGAATTAGAAGCATTGTGTTATGTAGCAACATTATAG MTKVLIVSDSHGLTKELEMIKQRHRVDAMIHCGDSELGMDDKEMAGFYSVMGNCDVDTRYPEEQTIQVSGVKFLIVHGHLHQVKSNLLHVAYRAEELGAQVICFGHTHIAGVEQKGNQLLINPGSIRLPRVRKEKTYAIMEWQVKEEITVRFYSVGGPELEALCYVATL NA NA NA NA NA AK015_04092 588 tasA Major biofilm matrix component ATGGGAATTAAAAAACAAATTGGTATTGGAGTATTATCAGCAACTCTTGGTTTAACGATGATTACAGGAGGGACTTATGCATATTTTAGTGATGAAGAAGTGAGCCAAAATACTTTTGCAGCAGGAACACTCGATCTAAACGCTGAGCCAACCGAAATCATTGATCTTCATAATTTAAAACCTGGTGATTCCATGGTTCGAACATTTGAATTACAAAACAATGGCACATTAGATATTGAAAAAGTGCTGCTAGAAACCGATTATTCCGTTGTTGATGCCAAAGGAGATAATAAGGATGATTTTGGTAAGCATATTGAAGTTGAATTCCTCTACAATGCCGATAAGCTGGATGAAGTAATTTACAAAACAACATTATCTGACTTGAAAAATATGGAACCAGAAGCAGTTAATGAGCATGTCTTTTACCCTAATTTTGGTGAGAAAGGTCTTCCTGCAGGCACTCTAGATGATATTTCGGTAAAATTTAACTTCGTAGATAATGGACAGGATCAAAATGAATTCCAAGGTGACGCTTTAAATCTAGAATGGACATTTAAAGCTTTACAAGGAGAAGGCGAAACGAAGTAA MGIKKQIGIGVLSATLGLTMITGGTYAYFSDEEVSQNTFAAGTLDLNAEPTEIIDLHNLKPGDSMVRTFELQNNGTLDIEKVLLETDYSVVDAKGDNKDDFGKHIEVEFLYNADKLDEVIYKTTLSDLKNMEPEAVNEHVFYPNFGEKGLPAGTLDDISVKFNFVDNGQDQNEFQGDALNLEWTFKALQGEGETK PGPT0025195_185 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 AK015_04093 393 hypothetical protein TTGAAAAAACATGCTAAAAAGGGATTTGCTATTACGTTGTTTGTTGCTAGCATTCTCCTTCTACTGCCAACGATGACTACAGCAGAAAAAACAAACCCTATTTCTATTGCCCATCGCGGTGCATCAGGCCAAGCGCCGGAGAATACGATGGCAGGGCTCGTTGAACGGTTTGAAGGAAAAGAATTATCTAGCAAAACCGCACATGCCCTAAAGGTTCAATTAACAGCAATCCATCAATATGAAAAGCAAAGTTTACAAGACAAAGTAATAAAGCACTTGAATGGTTTTATTACCTTACTAAACCACCAGAAAGAACATGGATTCATTTCAAATCGCGCGTATCAAATACTTCTAGGCGAAGCAAATTTTTTAGTAGAAGATAAAACGAACTAA MKKHAKKGFAITLFVASILLLLPTMTTAEKTNPISIAHRGASGQAPENTMAGLVERFEGKELSSKTAHALKVQLTAIHQYEKQSLQDKVIKHLNGFITLLNHQKEHGFISNRAYQILLGEANFLVEDKTN NA NA NA NA NA AK015_04094 1647 phoA COG1785 Alkaline phosphatase 4 GTGAAACAGCGGGCGAAAAATTTAGCTGGTATTACAATAGGTACATTGTTAGCTACTTCTGTCATTACTTTTAGTATAATTAGTTCTGCTAGCGACAACATGAGTGACGAAACACAACAAACGACAAACGCGGCCAAAAATGTCATCCTATTAATTGGTGATGGAATGGCAGAAAGTCAAATATCTGCAGCGGCGTATTTAAACGGCACTGGATATGGTGCCGAGGATTTAACCATGGATCAATTTAAAAACGTTGGTTATGCAAGAACTTTTTCTCATGACAACACGGTTACAGATTCAGCCGCAGCAGCAACAGCTTTTTCTTCCACGCATAAAACAGACAACGGAGTCGTTGGGAAAGCCCCGAAAAACAAAGAACATCATCAAAATGAACAACATTTTGATGTTCAAACAGTACTTGAAGCTGCAGAAGAAAGCAATATGTCTACAGGACTTGTCTCCACAGCAAGAATTACCCATGCAACCCCAGCCGCTTTTGCCTCACATATTGATGATCGAAATAAAGAGAATAATATCGCTGAACAAATGCTTTTAGACCATGATGTTGAAGTTCTGCTCGGTGGTGGGAAGAGACAATTTATTCCTAAAGAAGAAGGAGGAAAACGAAAAGACGGAAAAAACCTCTTGGACCTTGCAGAAGATCATGGTTATCAAGTAATAGAAAACAAAGCTGATATGAAAAAAACAAACGCTAGTAAACTTTTAGGCTTATTCAATGACAGCCATATGACCTATGAACTGGACCGTGACTTAACAAATGAGCCCAGTATTGATGAAATGACAAACAAAGCATTGGATGTGTTACAACAGGATGACGACGGCTTCTTTTTAATGGTAGAAGGTGGACGTATTGACCATGCAGGGCATAGTAATTATCCTGCAACAAATATCCAAGAAACACTTGCATTTGATAAAGCAGTTAAAGAAGCATTAGATTTTGCGAAAAAGGATAAAAATACGCTCGTAGTCGTTTCCTCTGACCATGAGACTGGCGGTATGTCTATAGGTGCAAATGGAGAGTACGGTTATAACAAAGAAGTTATTCGCAATGTTAAAAGATCACCAGAATATATTAGCAAGCAATTAGATGAAAATGACGGAAATCTGGAAGAAGTCATAAAAAAGTATACTGGAATTACCAATTTAACCAAAAAGGAATTGAAGCTCATTACGTCTTCCCAAAATAAAGCAAGTGCTATAGCCAATGTCATAAGTGAACGTGCATTAATCGGCTGGACAACAACAGGGCATACGGCTGTTAACGTCCCAATCTATGTATATGGGCCACAAGCTGAGAAACTAACTGGAACCATTGATAACACAGAAATTGCTGAAGTCATTAACCTTACTACGTCGAAATCAATTACTTCACAAAACTTGATTGACCAAGTAAAGCAATTCTCCGAAAATGGGGAAATGACAGATGAAAAAGTGACACGACTTCTTTTAACTCACTTGGAAACAGTAGATCAATTTGAAGATCAAAATAAAGCTGATAAAGTTATAAAGCAACTAGAGCATTTTCATATTCTTCTAGATAAACAAAAAGAACAAAACTCAATTTCTACCAAAGCCTATCAAACGCTGAGAGATGGTACAGATGCCTTAATAACAAAATGGGAATAA MKQRAKNLAGITIGTLLATSVITFSIISSASDNMSDETQQTTNAAKNVILLIGDGMAESQISAAAYLNGTGYGAEDLTMDQFKNVGYARTFSHDNTVTDSAAAATAFSSTHKTDNGVVGKAPKNKEHHQNEQHFDVQTVLEAAEESNMSTGLVSTARITHATPAAFASHIDDRNKENNIAEQMLLDHDVEVLLGGGKRQFIPKEEGGKRKDGKNLLDLAEDHGYQVIENKADMKKTNASKLLGLFNDSHMTYELDRDLTNEPSIDEMTNKALDVLQQDDDGFFLMVEGGRIDHAGHSNYPATNIQETLAFDKAVKEALDFAKKDKNTLVVVSSDHETGGMSIGANGEYGYNKEVIRNVKRSPEYISKQLDENDGNLEEVIKKYTGITNLTKKELKLITSSQNKASAIANVISERALIGWTTTGHTAVNVPIYVYGPQAEKLTGTIDNTEIAEVINLTTSKSITSQNLIDQVKQFSENGEMTDEKVTRLLLTHLETVDQFEDQNKADKVIKQLEHFHILLDKQKEQNSISTKAYQTLRDGTDALITKWE PGPT0002570_919 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 AK015_04095 426 hypothetical protein ATGGTTTCTAGCAAAGGGAGTTGGTTTTATATGTGGTTTTGGTTCAGGAATAATTCTGATAAGAAAAAGAATATTCTCTTCTTCATCGTTATTGGTTACTTGTTATTTGTAACTATTTCGCAATGTATTACACCAACAACTGCTTATTTTACAGACAGTAGGAAAGTAAGTGGTAATATAACTATCTCAACGCAATTCAGTAAGGAAGTAGATAAAGAGACTAGAAGTCAGCAAGGCAATGATGTGGAGCAATCTTTGCCGTCAAAAAATAGGGAAGAGAAAGGTAATTCCACAGAAAAAGAAGAAGAGGATGTAGAAAGCGTGATAGATAATCATAATTTGGATAATAACTGGGTGGAAAAAGAACGGTCAACGGAAGAAGAGCAGCAAGTTGCTGAGGAACAGAAAGCGTTGCAATCAAAATAA MVSSKGSWFYMWFWFRNNSDKKKNILFFIVIGYLLFVTISQCITPTTAYFTDSRKVSGNITISTQFSKEVDKETRSQQGNDVEQSLPSKNREEKGNSTEKEEEDVESVIDNHNLDNNWVEKERSTEEEQQVAEEQKALQSK NA NA NA NA NA AK015_04096 564 sipW COG0681 Signal peptidase I W GTGCGTGGAAAACGGATTGGAAAGCTGTTTGGCAATGTTGTTACGGGATTAATATGTATTCTCTTACTTATCACGTTATTTGTTGTCGTGTTTATGCGGGCTTCTGGTGGAGAGACTAGTTTTTTTGGTTATCAATTGAAGACCGTCCTTTCAGGGTCTATGGAGCCAGATATGCAAACAGGTTCCATTATTGCGATTGAATCGCCGACGAATAAAGAAGATTTACAAAAAGGGGATATCATTACGTTTCAAACAAAAGAGGACTTGATAGTTACCCACCGTATTGATGAAGTGAAAAATGGTGGGAAGCAGTATATTACAAAGGGGGATGCGAATAACGCTCCGGATTCTGAGCCTGTTTTAGCAGAAAATATTGTCGGAGTGTACACAGGTTTTTCCATTCCTTATGTAGGATATGCGGTGAATTTTGCTAATAGTAGTACAGGAGTGGCATTGTTGCTTATTGCACCCGGATTTTGTTTGCTTATTACATCTATTATTGTCATTTGGCGTGCATTAAGGAAGTTAGAAGGGGTTAAGGGTGGAAAGCAAGTAGAATTATAG MRGKRIGKLFGNVVTGLICILLLITLFVVVFMRASGGETSFFGYQLKTVLSGSMEPDMQTGSIIAIESPTNKEDLQKGDIITFQTKEDLIVTHRIDEVKNGGKQYITKGDANNAPDSEPVLAENIVGVYTGFSIPYVGYAVNFANSSTGVALLLIAPGFCLLITSIIVIWRALRKLEGVKGGKQVEL PGPT0026405_988 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 AK015_04097 399 hypothetical protein ATGAAGTCCACACGGGTTTTCGTTCTAGGTGGTACGACAATAGGTATTTCCTCTCTCCATGTTATGGATTCTTTGCTTTATTCCACTTGGGTTGTAGATACATTAAATTTGAAATTTGTAGATACAGTAATATCTAGACTACCAAAGAATACATCATTTTGGACGCCACATTATGTTAATGGGGTGGCAGTATCTGGCTTTCACCTTCATTTTATTGATGAACATCGTCGTTCTGGTGGACATGTATTTAATTATGAAATTGAAAAAAGCACGGTTCAAATTTCACAAAAATCAAGTATGCACCTTAGACTTCCGAATACGAAGGATTTTTTTAAAGCTAATTTAGATAAGCATGATTTTGTAACTGGAATTGAAGCTACAGAAGGAGATCCAGAATAG MKSTRVFVLGGTTIGISSLHVMDSLLYSTWVVDTLNLKFVDTVISRLPKNTSFWTPHYVNGVAVSGFHLHFIDEHRRSGGHVFNYEIEKSTVQISQKSSMHLRLPNTKDFFKANLDKHDFVTGIEATEGDPE PGPT0008180_890 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 AK015_04098 1149 garK COG1929 Glycerate 2-kinase ATGAAGAAACCCAAAATTGTGATTGCCCCAGATTCATTTAAAGAAAGCATGACAGCAAAACAAGCTGCTAAGGCTATAGAGCGTGGATTTCGTTCTGTATATGCAAACGCTTTAGAGGTAGATATTATTCCAATGGCTGATGGTGGTGAGGGAACAACCCAATCCTTAGCAGATGGATTACAAGGAACACTATATGAAAAAGAAGTTACAGGACCGTTAGGAGAGAGCGTAGTTGCAAACTATGCGATCTCGGGAGATAGATCAACTGCAATCATTGAAATGGCAGAAGCATCAGGTCTTCACCTCGTTCCAAAAGAAAAACGAAATCCATTGATAACTACTACTTTTGGTACAGGTGAATTAATCAAAGCAGCCTTAGATAAAGGCGTTACGAAAATCATTCTAGGGATTGGTGGTAGCGCTACAAATGACGGTGGTGCAGGGATGATTGAGGCACTTGGCGGTATTTTTTACGACAATCATGGCTATCAACTAGAGCGAGGTGGCGGGGCATTATCTCATCTAGCTCAAATAGACTTGTCACATCTAGACGTCCGCTTAAAATCAATAGAAGTAGAAGTTGCTTGTGATGTGGATAATTTGCTTCTTGGTCCTTATGGAGCAAGTGCCGTTTACGGTCCACAAAAGGGAGCAACGGAAGAAATGGTTCAACAATTAGATGATGCATTATATACTTTTCATGAAGTCATTGTAAAAGCTACTGGTACCAGTGTTAAAAACGTACCTGGTTCAGGTGCTGCGGGTGGATTAGGAGCTGGTCTATTAGCTGTACTTCATGCCAAGTTGAGACCCGGAATTGATATTGTGCTAAAAGAAAGCCAATTTTTTAACCGAGTGAAGCACGCTGATCTCGTCATTACAGGAGAAGGAAAAATAGATAGACAAACGATTTACGGCAAAACTCCTATTGGTGTTGCAAAAGCTGCCAAAAAATGTGGTATTCCTAAAGTCATTGCATTTTGCGGTACGCTAGGAAAAGGATATGAAACGATATATGCTTATGGTATTGATGCAGCATTTAGTATCACACCTGGCCCATGTCAGCTAGAAGAAGCAATGATACATGCAGAAGCATATTTAGAAGGAGTAGCAAGGAATGTAGCTAGGATTTATTGTTATGACATTTAA MKKPKIVIAPDSFKESMTAKQAAKAIERGFRSVYANALEVDIIPMADGGEGTTQSLADGLQGTLYEKEVTGPLGESVVANYAISGDRSTAIIEMAEASGLHLVPKEKRNPLITTTFGTGELIKAALDKGVTKIILGIGGSATNDGGAGMIEALGGIFYDNHGYQLERGGGALSHLAQIDLSHLDVRLKSIEVEVACDVDNLLLGPYGASAVYGPQKGATEEMVQQLDDALYTFHEVIVKATGTSVKNVPGSGAAGGLGAGLLAVLHAKLRPGIDIVLKESQFFNRVKHADLVITGEGKIDRQTIYGKTPIGVAKAAKKCGIPKVIAFCGTLGKGYETIYAYGIDAAFSITPGPCQLEEAMIHAEAYLEGVARNVARIYCYDI PGPT0018175_998 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-GLYCEROLIPID_REMODELLING CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865 NA NA AK015_04099 1269 gntP COG2610 High-affinity gluconate transporter ATGGATATTGAAGTAAGTGCATGGGGCGCAATTATCGGTTTATTCTTAGCTATTTTTATGATTTTAAAGAAAGTCCCACCTGCTTACAGTTTAATTGCTGGCGCCATTGTAGGTGGTCTTGTCGGTGGTGCGAGCCTAGTAGACACCGTGCAATTAATGGTTGGGGGCGCGCAAAATATTATGCCCGCTGTACTAAGAATTTTAGCCGCTGGTGTATTAGCAGGCGTACTAATCGAATCAGGTGCAGCCTCAAAACTAGCACAATCAATTGTTTACAAATTCGGGCATACAAGAGCATTGCTTGCATTAGCTATTGCCACTATGTTGTTAACGGCAGTAGGTGTATTTGTTGATGTTGCCGTTATTACGGTAGCACCAATTGCTTTAGTCATAGCTTCAGAAGCAAAACTATCAAGATTTGCCATCCTTATTGCCATGGTAGGTGGAGGTAAGGCGGGGAACATCATGTCACCGAACCCGAACACGATTGCTGTATCGGAGGCTTTTGACGTGTCATTAACATCGGTTATGGCAGCAGGAATGATTCCAGCACTTTTTGGGCTTATGGTAACTTATATGATCGCAAAACGTGTTTCTGCAAAAGGTACGGCTATTCAAGCAAGTGAAATTGAACAATCAAATATGGAATCGCTACCTTCTTTGTTCACAGCAGCCTTAGCGCCTATTGTAGCCATCCTGTTACTTGTGATGCGTCCATTATTTAATATAAATATTGATCCAATGATCGCATTACCTGTTGGCGGATTAGTCGGCGTTATAGCAATGGGGAAATGGCAGAACACAAATGCTTATATTAAAAGTGGATTAGCAAAAATGGCACCGGTCGCAATTTTACTCATTGGAACAGGAACAGTAGCCGGAATTATTACAAATTCGAAATTAGATACCGTCCTTATTCATGTATTAGAAGGATTTGGTTTACCTGCTTTTGCGCTAGCGCCAATATCAGGAATGTTTATGTCAGCAGCAACAGCATCCACTACAGCAGGATCTGTCGTAGCAAGTAGTGTGTTTAGCGGAGCTATTTTAGAATCCGGAGTTGCTGGTTTAGCTGGAGCTGCTATGATTCATGCAGGTGCTACCGTACTTGATCATATGCCACACGGTAGTTTCTTTCATGCCACAGCAGGTAGTGTTGGCATGCAAGTGCAAGAACGTTTGAAATTAATTCCATATGAATCGTTCGTAGGTATCACAATGGCTATCGTCTCTACCCTTATCTACGGTGTATTTCAATGGTTTTTATAA MDIEVSAWGAIIGLFLAIFMILKKVPPAYSLIAGAIVGGLVGGASLVDTVQLMVGGAQNIMPAVLRILAAGVLAGVLIESGAASKLAQSIVYKFGHTRALLALAIATMLLTAVGVFVDVAVITVAPIALVIASEAKLSRFAILIAMVGGGKAGNIMSPNPNTIAVSEAFDVSLTSVMAAGMIPALFGLMVTYMIAKRVSAKGTAIQASEIEQSNMESLPSLFTAALAPIVAILLLVMRPLFNINIDPMIALPVGGLVGVIAMGKWQNTNAYIKSGLAKMAPVAILLIGTGTVAGIITNSKLDTVLIHVLEGFGLPAFALAPISGMFMSAATASTTAGSVVASSVFSGAILESGVAGLAGAAMIHAGATVLDHMPHGSFFHATAGSVGMQVQERLKLIPYESFVGITMAIVSTLIYGVFQWFL PGPT0001340_2701 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 AK015_04100 1137 cdaR_3 COG3835 Carbohydrate diacid regulator ATGCTAACAGAACAACTTGCTTCAGAAATTGTAAAACGAACAATGTCTATATTAGAGTTAAATGTCAATGTGATGGATAAAACAGGAACTATCCTTGCTTCAGGTGATCCAAACCGTGTGGGACAGCTTCACCATGGAGCCTGTAAAGCAATTGAACAAAAACAAACCATTGACATTCATTCGGTAGAAGAAAGTTGGCGAGGTAAAGCAAAACCTGGCATTAATTTACCAATTCGATTTCATGATGATATCGCTGGAGTTATTGGTATTACCGGTGAGCCGGAAAAAATTAGAGGCTTTTCTAAATTAGTGCAAATGGGAGCAGAACTAACGTTAGAGCAAGCTTTTTTGACTCGAGAGATAGATCGAAATGCTAGGATGCGTGATGATGTTATTTCTCACTTATTATTAGGTTCCGATAAAGAACAAGCATACATACTAGATAGAGCGCGGTCGCTTAAAATCAATACAGAAGAAACATTTGCCGCTATTCTTCTTTCTATACCTTATCATACAGCCACTACCCAACCTGTAAATCAAATTGAAGCTTGGGCAAATACGTTGGTTACAGAAGAAGATGAAATCGTTCGTTTTTATACAAACCAATTTGTTATTTTAAAAAAACAACAGAAGCCGTATTTAAATACAAATGATTCCTTAAACAAATGGTTAACAAACAAATTACCCTCTGCACCTATTTCGGATTTAACGGTTGCCTTAGGTCCATTTGCAAGTGGATTTATTGGCTGGAGACATTCCTTTGAAACGGCACAAATTGTTAAAGATACAGCAGAAGCTTTATATCCAGAAGGCGGCGTTTGGGACCAACAAACACTCGGATTATCTATCTTATGTTATCGTTTTTTACAAGCCGCAAATGAAGAAGCACAAGCCATTAGCTCAATTTATAAAAAAATACTTCATGCAAATGACGGTAAAACACTAGATGAAACATTTATAACCTACGTTAAAGCGAATGGAGAAATGACAAAAACAGCAAATATCCTCTTCATTCATCGTAATACATTAGCATACCGATTGGATAAAATTCACGAAATAACTGAAAAAAACCCAAGACATTTACAGGATCTTATCGAGCTAAAGGTGGGAGAAATACTTTATAAGTTATCAACATAA MLTEQLASEIVKRTMSILELNVNVMDKTGTILASGDPNRVGQLHHGACKAIEQKQTIDIHSVEESWRGKAKPGINLPIRFHDDIAGVIGITGEPEKIRGFSKLVQMGAELTLEQAFLTREIDRNARMRDDVISHLLLGSDKEQAYILDRARSLKINTEETFAAILLSIPYHTATTQPVNQIEAWANTLVTEEDEIVRFYTNQFVILKKQQKPYLNTNDSLNKWLTNKLPSAPISDLTVALGPFASGFIGWRHSFETAQIVKDTAEALYPEGGVWDQQTLGLSILCYRFLQAANEEAQAISSIYKKILHANDGKTLDETFITYVKANGEMTKTANILFIHRNTLAYRLDKIHEITEKNPRHLQDLIELKVGEILYKLST NA NA NA NA NA AK015_04101 1353 ktrB_2 COG0168 Ktr system potassium uptake protein B ATGAAAAAAATTATCTCATTACATCCAATACGTGGAATTATTATTCATTGTAATCCGCCACAAATTTTAGCATTGACATTTTTATTTTTTATTGTCGTAGGCGCATGCTTATTAAAAATGCCTGTAGCTACGTATACGTCTATAACTTGGTTAGATGCTTGGTTTACTGCTACTTCTGCCATAACTGTCACAGGTTTAGTTGTTGTTGATACTGGCTCAACCTATACATTGTTCGGAGAAATTGTCATTATGTTTTTAATGCAAATTGGCGGGTTAGGTCTTATGACTTTCTCTGTACTTATTTTAATGATGATGCGTAAAAAGGTTGGGTTACGACAAAGATTGTTAACACAGGAGTCGTTAAATTTAAATCAAACCTCGTTAGGTGGACTCCTTCGTCTTGTGAAATTATTATTTATTTTTTCGATTACGATAGAAGCAATTGCTTTTATATTCCTTGCTGTAAAATGGGTGCCTGCATACGGCTGGGCTGATGGGTTAAATTATAGTTTGTTCCATAGCATATCTGCTTTTAATAATGCGGGGTTTTCGCTTTGGTCTGACAGTCTCTCGCAATATGTAGGTGACCCGTTAGTAAATATTATTATTACAGGATTATTTATTACAGGTGGTCTAGGATTTACGGTTTTGGTAGATATTTGGGATAAAAAAGGATTTCATCGATTGTCTTTGCATTCTAAATTAATGCTCGTTGGTACATTAGTTATTAATGTTACTGCTCTATGCATATTATTTGTTTTAGAATATAGTAACCCAGAAACGATCGGTAACTTTTCATTCGTTGATAAACTATGGGGGTCGTATTTTCAAGCAGTAACACCAAGGACGGCTGGTTTTAATTCATTGGATATTGCTGCAATGAACGAATCATCTATACTTGTTACGATGCTACTGATGTTCATCGGGGCAGGAAGTGGGTCTACTGGTAGTGGAATTAAAGTGACAACATTTGTTGTTATGTTACTAGCGACGATGTCATTTTTACGTGGGAAAAATGAAACAACAGCGTTTAAGCGAACAATAAAATCTCATGTTATTGTTCGTGCCCTTTCGATCATGATGATCAGTATTAGTTGTATATTTATAGCTATTTTCATGTTGACAGTCACTGAAAATGCGCCATTTCTAACGATTGCATTTGAAGTGATTTCTGCTTTTGGTACTGTAGGGCTTTCCATGGGACTGACGGGGGATCTTACTACTCTTGGGAAAGAGGTCATTATGATTATGATGTTTATTGGGCGAATAGGACCACTTACCATGGCGTTTGTATTTGCTAAAAAAAGGGAGTCGTCAATTCGGTATCCAGAAGAAGATGTGTTTACTGGTTAA MKKIISLHPIRGIIIHCNPPQILALTFLFFIVVGACLLKMPVATYTSITWLDAWFTATSAITVTGLVVVDTGSTYTLFGEIVIMFLMQIGGLGLMTFSVLILMMMRKKVGLRQRLLTQESLNLNQTSLGGLLRLVKLLFIFSITIEAIAFIFLAVKWVPAYGWADGLNYSLFHSISAFNNAGFSLWSDSLSQYVGDPLVNIIITGLFITGGLGFTVLVDIWDKKGFHRLSLHSKLMLVGTLVINVTALCILFVLEYSNPETIGNFSFVDKLWGSYFQAVTPRTAGFNSLDIAAMNESSILVTMLLMFIGAGSGSTGSGIKVTTFVVMLLATMSFLRGKNETTAFKRTIKSHVIVRALSIMMISISCIFIAIFMLTVTENAPFLTIAFEVISAFGTVGLSMGLTGDLTTLGKEVIMIMMFIGRIGPLTMAFVFAKKRESSIRYPEEDVFTG PGPT0002735_4183 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_OSMOTIC_STRESS OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498 NA NA AK015_04103 2112 cadA_2 Cadmium-transporting ATPase GTGGAAGAGAATAAAAACGTTTATCGTCTGCAAGGGTTATCATGCGCAAATTGTGCAGCGAAATTTGAAAAAAATATTCGCGCCATTGAAACCGTTGACGACGTGCAAATAAATTTTGGTGCATCGAAAGTTACGGTGCAAGGCGAAGCTTCTGTGCAGCAGTTGGAAGCGGCTGGAGCTTTTGATGATATTAAAGTCTTTCCAGAAAGAGAACGATTAACGGAACATAAGCAATCGTTTTGGAAAAAGAAAAGTAATTTGACAACATTATTTTCCTTTTTATTTACTATGGTTGGATATGTGTTTTTCTTTCAAGTTGGCGAAAGTAATCTTGCTACAGTAAGTACATTTGCAGCTGCTATTCTAATTGGGGGTTGGAAGCTATTTCATACAGGCTTTAAAAACTTAGCTAGATTTGAATTTGACATGAAAACGTTAATGACGATTGCAGTTATAGGTGCTGCCATTATTGGAGAGTGGGCAGAAGGAGCTGTCGTTGTCTTTCTATTTGCTGTAAGTGAAGCGCTAGAAGGATATTCCATGGAGAAGGCGCGGCAATCCATTCGTTCTTTAATAAATATTGCCCCAAATCGTGCGATGATTCGTAGGGGTGATGAGCTAATTAAAATGGATGTCGAGGATGTACAAGTCAATGATGTCATGGTGATTAAACCAGGAGAGAAAATTGCCATGGATGGCGAAGTTCTTAAAGGAGAATCCTCTATTAATCAAGCAACAATAACCGGTGAATCTATCCCTGTGTTTAAACAAACTGGTGATGAAGTATTTGCTGGTACTTTGAATGAAGAGGGTTCATTGGAAGTTCGTGTTACCAAATACGCGCAAGATACAACAATTGCTAAAATCATTCATTTAGTAGAGGAAGCACAGGCGGAAAAAGCCCCTTCCCAACAATTTGTTGATCGTTTTGCTAAATATTATACCCCAGTTATTATCGTTATTGCTATGTTAGTTGCTACGATTCCACCACTTCTGTTTAGTGCAACGTGGTCTGATTGGATCTATAACGGGCTAGCGGTATTGGTTGTAGGGTGTCCGTGTGCGTTAGTTATTTCTACACCTGTAGCTATTGTAACAGCAATTGGCAATGCTGCTCGACATGGCGTGTTGATTAAAGGTGGCATTCATTTAGAAGAAACAGGGAAAATAGATGTAGTTGCTTTTGATAAAACAGGCACTATAACCGAGGGGAAGCCTGTTGTTACAGAAATTATTTCCTTTGGAGACATGTCAGAATCAGATGTGTTAGCACATGCAGCGGCGATTGAAACATATTCGCAGCACCCGCTTGCTTCTTCTATATTACGCAAAGCACAAGCAGATAATGTAAATAACTTACATGCAGAAAATTTTCAGTCATTTACCGGAAAAGGCGCTCAGGCAACAGTGGATGGCTCTATCTACATGATTGGAAGTCCTTCCTTATTTCAAGGGAAAGCACCTCTTCCTAAAGAATTGCAAATGCAAGTTCGCACGTTACAAACACAAGGTAAAACGGTGATGCTATTTGGAACGGATAATCGTATTGAAGGCTTAATTGCTGTGGCGGACCAAGTTCGTAAAGGAAGTCTGTCTATCATTGAAAGGCTCCATCAATTAGGTAAACGAACAGTGATACTTACAGGGGATAATCAAGCAACAGGCTCTGCAGTTGGGCGTGAAGTAGGCATAATGGAGACAAAGTCGGAGCTTTTGCCGCAAGATAAATTAATAGCAATTAAAGAATTAAAGCAGCAGTACGGCAAGGTTGCGATGGTTGGAGATGGGATCAATGATGCCCCCGCTTTAGCAGCAGCAGATGTTGGTGTCGCTATGGGAGGTGCTGGTACGGATACCGCCATGGAAACAGCTGATATTGCGTTAATGGCTGATGATTTAAGTAAAGTTCCATATACAATGGGGTTAAGTCAACAAACGTTAACGATCATCAAGCAAAACATAGGGTTTGCACTACTTTTAAAATTAATCGCCCTTTTATTAGTTATTCCAGGATGGCTTACCTTATGGCTAGCTATACTTGCTGATATGGGAGCTACAATATTAGTTGTATTTAATTCCTTGCGGTTAATGCGTGCCAGAAAGCAACCATAA MEENKNVYRLQGLSCANCAAKFEKNIRAIETVDDVQINFGASKVTVQGEASVQQLEAAGAFDDIKVFPERERLTEHKQSFWKKKSNLTTLFSFLFTMVGYVFFFQVGESNLATVSTFAAAILIGGWKLFHTGFKNLARFEFDMKTLMTIAVIGAAIIGEWAEGAVVVFLFAVSEALEGYSMEKARQSIRSLINIAPNRAMIRRGDELIKMDVEDVQVNDVMVIKPGEKIAMDGEVLKGESSINQATITGESIPVFKQTGDEVFAGTLNEEGSLEVRVTKYAQDTTIAKIIHLVEEAQAEKAPSQQFVDRFAKYYTPVIIVIAMLVATIPPLLFSATWSDWIYNGLAVLVVGCPCALVISTPVAIVTAIGNAARHGVLIKGGIHLEETGKIDVVAFDKTGTITEGKPVVTEIISFGDMSESDVLAHAAAIETYSQHPLASSILRKAQADNVNNLHAENFQSFTGKGAQATVDGSIYMIGSPSLFQGKAPLPKELQMQVRTLQTQGKTVMLFGTDNRIEGLIAVADQVRKGSLSIIERLHQLGKRTVILTGDNQATGSAVGREVGIMETKSELLPQDKLIAIKELKQQYGKVAMVGDGINDAPALAAADVGVAMGGAGTDTAMETADIALMADDLSKVPYTMGLSQQTLTIIKQNIGFALLLKLIALLLVIPGWLTLWLAILADMGATILVVFNSLRLMRARKQP PGPT0004200_2545 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_LEAD_RESISTANCE LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534 NA NA AK015_04104 384 cadC Cadmium resistance transcriptional regulatory protein CadC ATGGGCGCTTCTAAAGAAAAACCAATCGACGTTTGCGAGACGTTTTGTTATGACGAGGATACGGTAAGCCGAATTCGTCCTAAAATAGATAAGATGGATGGGGTTGAACAAATATTTAAAGCGTTGGCTGATGCGACAAGATTAAAAATTGCTTATGCGCTAACACTAGAAAGAGAGTTATGTGTATGTGATATAGCTACGATTATTGGTGCAACGAAGGCAACTGCATCCCATCATTTACGTTTGTTAAAGAATATGGGACTGGCGAAACATCGAAAAGAAGGAAAGCTTGTTTTTTATTCTTTAGAGGATGAGCATGTGCATCAGCTCGTAACGATAGCTACAGTTCATGCAAAAGAAGGTGTTAATCGTGGAAGAGAATAA MGASKEKPIDVCETFCYDEDTVSRIRPKIDKMDGVEQIFKALADATRLKIAYALTLERELCVCDIATIIGATKATASHHLRLLKNMGLAKHRKEGKLVFYSLEDEHVHQLVTIATVHAKEGVNRGRE PGPT0004290_338 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_BISMUTH_RESISTANCE BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004290-cadC|smtB-K21903 NA NA AK015_04105 240 hypothetical protein ATGAAAAACGAAAAGCTGTTAAAAGCAACAAAATATGTCGGAGCAAGTATATTGTGGACCGGTATCGCAATTTTCCTTTATGGTTTCTTTGTAAGCGATTACAGTTATCTTACTGGAATTGGTATTGGAACCGTTATGGGAGCTGTGTTTATTTTTCTCATGGGGGTATTTTTAGTAGCCACAGAAGAAATGAATTCGAACAGAAAAAAGGCTGGAAAATTCATTTCTAAAATTCAATAG MKNEKLLKATKYVGASILWTGIAIFLYGFFVSDYSYLTGIGIGTVMGAVFIFLMGVFLVATEEMNSNRKKAGKFISKIQ NA NA NA NA NA AK015_04106 1386 hypothetical protein ATGACCTTAAATCAGCTATTCCAATCTTTGATATCGTATATTCCAGCGACAAACATGAACATGAGAAAAGCATACCAACCTGATGAAATTATTCCAGGCGTGCAATATGATATTTTCTCAAACACTGCGAAAAAAAACGTAGCGGTATTTTCCATAGATAATCAAGGAAGGCTGTTTTACTTTTCTGTAGAAGATGAAGTTTTAAAACGATCAAATTTCACATTAAAACGCGATGAATTAATCGACAAAGCAAGTCATTTTGTAAAAACATTTTATCCTGAGATATATAAAGATTGCAAACTAGCTTCTTTTTTTGAAATAGGAAATACATACACAGTTCACTTCGCCTATCAGGATGATCAATTGCATTTATTCCTCCCTGAAACAGGAGTTACATTATTTTTAACTAAAAGCGGTGAAATCAGCGCGGTCATTTCTTTTCATGATAAAAATACGAACATACATTATCCTGATGTAATGATCTCTGCTGAAGCAGCAAAGAAGCAATACTTGCACCATATCGAACCAGAATTACTGATTGCTCCAATGGATACATATTATATAAAGGATGATGGAAAATTTCGACTCGTTTACAGCATAATTGAACGCGCGATATACATACCAGCTGGTGAGGAGAAAACCTATGTGCAAAAAGATGCTATAAAACAAATTCCCCTCCATAAACCAAAAAAAGTTAAAACTAATTTACATGATATCATTGGCTTAAAGGATTATAAGCTAATGAAGAAAAAACAAACAAAGAAGAAACGGATAGAGGTTTGGTCTGCTCTACCAAATGTCATTCAGAAAAAAACAGACTTTGATATGGACGAAATAGATTCTTGTCTTATGAAATTATGCTTTGATAAGCAAAACCGTTTGCTACAAATAACTAGTGAAGAAACGCCTCCAAAAGTCATGAGTAAATCTATTGGTGTAGAACAAGCAGAAGAAATAGCGTATCGACTGTTATTCCACCTCTATCCTAAAGCACACAATCAATTGATTAGAATTGATGATGAGGTGGAAATGGAAGATGTTTATTGCTTTGATTTCCGCTGGCAGTATAACAACGTCCGTATTTCACACGATATCATTTCTATTGATGTTGGGAAATATTCAGGTCGGATTTGTAGCTTTAATCATCAACCATTAAGTAAACAACGATACGAGCATGTCAATACGACACCGAAACTTTCTAAGCAAACTGTAAAACAAATATACGCCGACTATGTACAAATGGAGTTACGTTGGTTTCAAGATGAAGAAAGTGATTATAAATTAGTGTATGCACCCACTTTTCCAAAATTAGCTGGCGTTATCCGAATGATTGATGCTCATACAGCGCAAATATTTCAAACTAAAAAAACAGAACTATTTTTTTAG MTLNQLFQSLISYIPATNMNMRKAYQPDEIIPGVQYDIFSNTAKKNVAVFSIDNQGRLFYFSVEDEVLKRSNFTLKRDELIDKASHFVKTFYPEIYKDCKLASFFEIGNTYTVHFAYQDDQLHLFLPETGVTLFLTKSGEISAVISFHDKNTNIHYPDVMISAEAAKKQYLHHIEPELLIAPMDTYYIKDDGKFRLVYSIIERAIYIPAGEEKTYVQKDAIKQIPLHKPKKVKTNLHDIIGLKDYKLMKKKQTKKKRIEVWSALPNVIQKKTDFDMDEIDSCLMKLCFDKQNRLLQITSEETPPKVMSKSIGVEQAEEIAYRLLFHLYPKAHNQLIRIDDEVEMEDVYCFDFRWQYNNVRISHDIISIDVGKYSGRICSFNHQPLSKQRYEHVNTTPKLSKQTVKQIYADYVQMELRWFQDEESDYKLVYAPTFPKLAGVIRMIDAHTAQIFQTKKTELFF NA NA NA NA NA AK015_04107 1332 sasA_4 Adaptive-response sensory-kinase SasA ATGAAGTTGCAATCGCAATTAAATTTAGCTTTTACAACTTTGCTTTTCGTTATTATGGCAATTACGGGGTATGTGATCTATTCTTTACTCTTGGATTTACTCATTCAAGATGAGCAGCGGCAGTTAAAGCAAAAAGGCGACTTAATTGTTGATGTGCTAAACGATCAATACGATAGCACGAGTGTAGAGAACTTAAATAATTTGTTGGAAGATCAAGGTTTGCAAATGTTTATTTATGATAGAAATCAAGATGTCGCCGTTTCTCCTTCGCTTCCTGACAGTGTAGTTGCAGGTTTTTTTAAGAAAAACGACTTTTCCGATACCAATAAAGCGTTATGGGAATATAAAGGTTCTAAGTTTGTCACGTCGCGAATTATTTTTAGACCAGAGAGTACAGGGGTTGAGCTGATCCTTTTAACCCCTTTAAGTGATTTGGAACTCGTTCAACAAAGTTTTTTCTTTCGTTTGCTAATTGTGTTTTTCATTGGCGGTGCTATTGCGATTATTCTGAGCTATTTTTTCACACGCAAATTAGTCACGCCACTTTCACAATTAAAAAAGCAATTGAAAAAAATTGAAAAACGGCAATTCCATTCTATTAAACGAATTAAAGCAACAGGTGAAATTAAAGAAGTGGAACAGAGTATCTATGATATGGCCCAAGAGCTGGAAAGATATATTAATTCGCAACAAACATTCTTTCAAAATGCAAGTCATGAGTTAAAAACACCTCTGATGACAATTCAAGGCTATGCGGAAGGAATTCGAGATCATATATTTGATGCAGAAGAGAAAGAAAAAGGTCTTGAGATGATGGTTACAGAAGTTAACCGTCTAAAAAAAATTATAAACGAGATGATATTATTAGCTAAATTAGATAGTGAACCAGACGTTTTTACTCCAGAACGAATCCAGTTAAAACAATTGATGGAACAAGTGGTTGATAGGGCACTTCCAATCGTTAATGAGCAAGGTATTGAATTGAAGCATACCGTTACAGGGTCTCCAGAAATCACAGCGGATGAGGAGAAAATGTTGCGAGCATTGTTGAATTTGACATTCAATGCCATTCGTCATGCTAATCAACAAGTTCAGATCGAGATGAAAAAAGAAAATAAAAAAGTGCTTATTCGTATAGAAGATGATGGAGAAGGTGTGCCCGAAGATTTAATTCCGCATATTTTTCATCGCTTTGTGAAAGGAAAAGGTGGGGAAACGGGGCTTGGACTTGCAATTGCTAGAGCAATCATTGAACAATCCAATGGAAAAATATCGGTTGGGCGTTCAGAATTAGGTGGAGCTAAGTTTGATATTGTGTTTGGAACGAAGTAA MKLQSQLNLAFTTLLFVIMAITGYVIYSLLLDLLIQDEQRQLKQKGDLIVDVLNDQYDSTSVENLNNLLEDQGLQMFIYDRNQDVAVSPSLPDSVVAGFFKKNDFSDTNKALWEYKGSKFVTSRIIFRPESTGVELILLTPLSDLELVQQSFFFRLLIVFFIGGAIAIILSYFFTRKLVTPLSQLKKQLKKIEKRQFHSIKRIKATGEIKEVEQSIYDMAQELERYINSQQTFFQNASHELKTPLMTIQGYAEGIRDHIFDAEEKEKGLEMMVTEVNRLKKIINEMILLAKLDSEPDVFTPERIQLKQLMEQVVDRALPIVNEQGIELKHTVTGSPEITADEEKMLRALLNLTFNAIRHANQQVQIEMKKENKKVLIRIEDDGEGVPEDLIPHIFHRFVKGKGGETGLGLAIARAIIEQSNGKISVGRSELGGAKFDIVFGTK NA NA NA NA NA AK015_04108 693 cssR Transcriptional regulatory protein CssR ATGAATCATCATATTGGAATTGTTGAAGATGATCCTAATATACGCAATATTGTTGCGGCCTATTTAAAAAAAGAAGGTTTTGCAGTTACATTGTTGGAATCAGCTGAAGCTGCCTGGGAGCTTTGGAAAACAGAACCTCCGGGCATGTGGATATTAGACATTATGCTTCCAGGAATGGACGGCTATGAGTTTTGTAAAAAAATTCGCATGGAAAGTGAAGTTCCCATCATTATTATTTCCGCGAAGGACGAAGAAATTGATAAAATTCTCGGTTTGGAGCTTGGAGGGGATGATTATTTAACAAAACCTTTTAGTCCAAGAGAACTGGTCGCTAGAGTAAAACGATTATTTAAACGGTCAAACATTAGCTTGGCTCATACAGAAGAAAGCGATGCAAGAGTAACAGTTGACGAATTAACCATAGATAAAGAAGAACGGCGTATTTTCTTTCGGGATGAAGAATACGAGGTAACCACAAAGGAATTTGATATGCTACTTATTTTAGTAGAGAATGTGAACAGAGCTTTTTCGAGAGAAGAGCTGTTAATCAAGATTTGGGGCGATAATTACTTTGGGAGTGATCGTGCTGTAGATGACCTTGTCAAACGTATTCGGAAAAAACTTCCTGACTTACCGTTAGAAACGGTATGGGGCTATGGATACCGTTTAAGAGATGAAGGAGAAGCTTCATGA MNHHIGIVEDDPNIRNIVAAYLKKEGFAVTLLESAEAAWELWKTEPPGMWILDIMLPGMDGYEFCKKIRMESEVPIIIISAKDEEIDKILGLELGGDDYLTKPFSPRELVARVKRLFKRSNISLAHTEESDARVTVDELTIDKEERRIFFRDEEYEVTTKEFDMLLILVENVNRAFSREELLIKIWGDNYFGSDRAVDDLVKRIRKKLPDLPLETVWGYGYRLRDEGEAS PGPT0015125_42 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL UNIVERSAL_STRESS_RESPONSE STRESS_SIGNALLING_PROTEINS STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015125-cssR-K07770 NA NA AK015_04109 294 hypothetical protein GTGGCAGAGGAAGAAATAGCACTATTAAAAGAATATGCAAAGCTTGATGAAGAAGGGGAGCTTATCCGTAAATCGGATGGCTCCTTTGATATTTCTGACGTGAAGGAATTTAAAAAGCAACAGGAAGATTTGTACAATGAGCATTTTGTTATTGATGATGCAAACCTAGAAGGTGCATTGCAAACGATTGAAAAGGTGGTGCTAGATTATGACCAAGAATTAAGCAATAAAGATGCGTTTATCCACGATTACATTTGCCAACTATTCGAAAATACCAAGGAGGATGATCAGTAA MAEEEIALLKEYAKLDEEGELIRKSDGSFDISDVKEFKKQQEDLYNEHFVIDDANLEGALQTIEKVVLDYDQELSNKDAFIHDYICQLFENTKEDDQ NA NA NA NA NA AK015_04110 213 hypothetical protein ATGATTGAATATCAAATTAGCAGCACAAGATTTAACGAAAATGAGGTACGTATTGATTTTAGAGCAATTGACGAGTATGGGCAGATTAATTTACATGGATACGTGCCTGTGACGATGCAAGAGTTTTTTGCGAATAGCTCTAGCATGGATAGTTTAGCTGGATTGGTAAAACAAAAAATTAACGAGAGATTAAGTACAACAGACGCTGAATAG MIEYQISSTRFNENEVRIDFRAIDEYGQINLHGYVPVTMQEFFANSSSMDSLAGLVKQKINERLSTTDAE NA NA NA NA NA AK015_04111 453 hypothetical protein ATGGTAGACATGATTATTAATATGGCGAAAACAATAACGGCAGTAGCATCTGTCGTTTTTGCATTTTTATATGGAGGTTGGACAGTGTCGCTAATAGCTTTAGTAGTGTTTGTTGTATTGGATTATATAACAGGTATAGCAGCAAGTGCATATGAGGGTAAGTTATCAAGTAGAGTTGGCTTCTGGGGCATTGGCAAAAAGGTATTTATCTTTGCAATGGTTGCCACAGCACACGTAATTGACTTAGTGCTAATTGATGCAACAGATATTGATGCTTTTGTAATGACGGCTACTATTTACTTTTACATTGTAAATGAGCTGGTTTCAATCCTTGAAAATGCAGGGAGATTAAGCTTGCCTATTCCTAGTCCAATTCGTAAAGCAATTAACATTTTCCAAGGTCGTTTCAGTGATTATGACGATGATCAGTTAAAAGAGAAAAACGTTGATTAA MVDMIINMAKTITAVASVVFAFLYGGWTVSLIALVVFVVLDYITGIAASAYEGKLSSRVGFWGIGKKVFIFAMVATAHVIDLVLIDATDIDAFVMTATIYFYIVNELVSILENAGRLSLPIPSPIRKAINIFQGRFSDYDDDQLKEKNVD NA NA NA NA NA AK015_04112 1026 hypothetical protein ATGACTAAACTTAAAAACAAGTACTCAATACAACGTCGTTATGTAACAAACAAGAATGCTAGACCAAGAATTAAAAATCTAGGTGTAGAGTTCTTGGTGGCGCATGAAACTGCCAATAATAACGCAGATGCTGATGCGCACTATAATTATTTTCAAGGTATCACTTTCAGTGCATCTGCTCATACGTTTATCGATGACAATAAGATATTAGAAATTATACCTTTAGATGAAAAAGCATGGCATGTGCGTTATGACGTACCAAGAGATAACCAAATGTATGGGGACGATGCAAATGACATCGCAATTGGTACGGAGCTTTGTCGTACTGGAGACTTTAATAAGGCTTATGATCGTTATGTTTGGTATCATGCTTATCTATGTAAAAAGTTTGGATTAAATCCTAAAAAAGACATTGTTGCACATTCTAAACTAGATCCTAGTCGTCGTACAGATCCACAAAGTTGGTTAGAGCCAAACGGTATCAATTGGGCAGAATTTATTGCAGATGTTTACGATTATTACCGCAATTGGGGCGACGGTGGTGTGCAAGCAGCAAAACCATCTAAACCAAGAAAAGGAGTTAAATGGGTAGGTACAGACTTAAAAGGAAAACGCGTCGAAAATATCTATCACGAGCCAGTAAATTATTATGACAGCCCACGTTGGTCTAATCCTAGTGGCACATTTAAACCAGGACATGGTTGGATTGTTGATAATAAGTATCTTGTAAATGGATCTCCAATGTACCGAGTACAAAACAGCAAGGGCGATTTATACTGTATTACTGCTCATCCTAAGTATGTGAGGGTGCTTGGTGGTGGTTCTATCGCATCCAACAAGCCAAAATCAAAATCATTTTCCGTTGGCCAAAAAGTAACGGTTAAAAAATCTGCAAGCAAATTTGCCACAGGAGAGTCTATTGCAAGCTTTGTTAAGGGTAACTCATATACGGTTAAACAGGTTAAGTCTGATCGTGTGTTACTTGATGGTATTATGTCTTGGGTGCGTAAATCTGACGTGTATTAA MTKLKNKYSIQRRYVTNKNARPRIKNLGVEFLVAHETANNNADADAHYNYFQGITFSASAHTFIDDNKILEIIPLDEKAWHVRYDVPRDNQMYGDDANDIAIGTELCRTGDFNKAYDRYVWYHAYLCKKFGLNPKKDIVAHSKLDPSRRTDPQSWLEPNGINWAEFIADVYDYYRNWGDGGVQAAKPSKPRKGVKWVGTDLKGKRVENIYHEPVNYYDSPRWSNPSGTFKPGHGWIVDNKYLVNGSPMYRVQNSKGDLYCITAHPKYVRVLGGGSIASNKPKSKSFSVGQKVTVKKSASKFATGESIASFVKGNSYTVKQVKSDRVLLDGIMSWVRKSDVY PGPT0019115_273 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-CELL_ENVELOPE_REMODELLING CE-PEPTIDOGLYCAN_REMODELLING CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447 NA NA AK015_04113 1371 hypothetical protein TTGAAGAAACGTTTTTTGTTAATTATCTCATTTGTAGTTTTTGGAATCTTATTTTTTTCTGCACCAGAGGTAGATGCATCGACTGAACATCTCAATATTCCACATCGATTTAATACTTATGAATCGCCATCATTTCTTTCAAAAAAAGTTAGTAGCTTTGGGCCGCAAACTGTTACAGTATATGAAAAGAAAGATGATTATTGGTACTTAATCAAAACAAAATTCGGGAAAAAATGGACTTATTATAATCCAAATTTAAAAGATAGAAAGATTAAGACTAGATTTATAGGGTATGAAAAACCGTCTTTTGAATCAAATAGGGTTACTGGTTTTAAGCCAACAACCGTTAAAGTGATTGGGAAATATAGTAAACATTGGTATCTAATTGAATCAACTAATCATGGAAATGTGTGGGTTTACCATGATCCAAACTGGAAAATAACCAAAAAAGATAGATTTTACACATTTAATAGTGCTTCATTTAATGACGAGATGGTTTCAAGTTTTGCTCCACAAACGGTAAATGTTATTGGTAAGCGTGGAGATCATTGGTATGCTATTCATACTCAAAACTTTGGAGAAGTATGGATGTATCATGACCCAAATTGGAAGAAAAGTTTTAAAAACAGGTTTCAAACCTTTGCTAAACCGAACTTCTATTCAAAAAGGGTAACTAGTTTTGCGCCTCAAACAGTTAAAGTGGTTAATAGGGTGGGGGATTGGTATCAAATAAAGACATCTAAATTTGGAAAGGTATGGGTATACGGTAAGTCGAATTGGACATACAAAATGAAGGATAGATTAACTGGTTATAAATCGTATTCATTCAACTCCAAAAAAGTTTCTAGCTTCGCACCTCAAACAGTAAATGTTGTAAACAGAGTAGGAGATTGGTATGAAATAAAGACAGGAAAATTTGGTAACTTATGGATTAACCCCAAAGAAGTTGATTTAAAACCGGATTGGGCTATTCCGTTAAATAGTAAAAGTTATATTATTACTTCAAAATACGGGCATAGATCAAGTGGTTTTCATCATGGTATCGATTTAGCTCAAAATGGGACAGTAAAAGTATTAGCGGCAGCTGACGGTACTGTTTCTCGTTCGTACTTTTCAGATAAAGGTTATGGTGAAGTTATTTTTATTAGGCATAGCGTAGGAGGAAAAACTTATGAGACTGTTTATGCACATATGAGAAGAGGGTCTAGACAGGTATCAGTAGGAACTAAAGTAAGGCAAGGTCAATTTATTGGTTATATGGGAAGTACAGGAGATAGTACTGGACAGCATTTACATTTCGAAGTTCATCAACCTCGATGGAATGGTTCTAAAAGCTATTCCATAAATCCTGAGAAATTTATTGATTTTTAG MKKRFLLIISFVVFGILFFSAPEVDASTEHLNIPHRFNTYESPSFLSKKVSSFGPQTVTVYEKKDDYWYLIKTKFGKKWTYYNPNLKDRKIKTRFIGYEKPSFESNRVTGFKPTTVKVIGKYSKHWYLIESTNHGNVWVYHDPNWKITKKDRFYTFNSASFNDEMVSSFAPQTVNVIGKRGDHWYAIHTQNFGEVWMYHDPNWKKSFKNRFQTFAKPNFYSKRVTSFAPQTVKVVNRVGDWYQIKTSKFGKVWVYGKSNWTYKMKDRLTGYKSYSFNSKKVSSFAPQTVNVVNRVGDWYEIKTGKFGNLWINPKEVDLKPDWAIPLNSKSYIITSKYGHRSSGFHHGIDLAQNGTVKVLAAADGTVSRSYFSDKGYGEVIFIRHSVGGKTYETVYAHMRRGSRQVSVGTKVRQGQFIGYMGSTGDSTGQHLHFEVHQPRWNGSKSYSINPEKFIDF NA NA NA NA NA AK015_04114 216 hypothetical protein GTGGAAAGAATAATACCGGGGCATTTAGTTGGGTTTGGACCTGTTAAAGATATGGAAAGATTGGAGCAATACTACGACGATGGTTTTACTGATGCAGGAATGACTGAGATTAAAGATAGGAATATGCTTAGTATTGCTGAGTGTGATGAGTTATGTGCAGAGTTATCTGGAGATGTTGTTGTGTGGAAAAAGAAAAGCCCTCGGAGTGAGGGCTAA MERIIPGHLVGFGPVKDMERLEQYYDDGFTDAGMTEIKDRNMLSIAECDELCAELSGDVVVWKKKSPRSEG NA NA NA NA NA AK015_04115 315 hypothetical protein ATGGTTAATGATCGAGGTAATATTAAATGGACATCTATCATGATGCCTGAACACATAGAGATGCTTCAAGAGATGTGGAAAGAACAGGATTATAAAGAGAAGCCGATTTTGGATGAACAACAAAAAGAGGAAATAAACAATAAGCTGTTAATGGCTGTAGTTAATGATTTAACTGTTGAATTGAAGTATTTTGATAAGCACGATTTTTATAAGGTAAAAGGCAAGATAACCAGTATCAATAAACAAAATAAATACATAAGCATTGCTGGACAACGTCTGCCTTTTGAGTGCATTATGGATGTGTGGATAAAATGA MVNDRGNIKWTSIMMPEHIEMLQEMWKEQDYKEKPILDEQQKEEINNKLLMAVVNDLTVELKYFDKHDFYKVKGKITSINKQNKYISIAGQRLPFECIMDVWIK NA NA NA NA NA AK015_04116 1869 hypothetical protein GTGAAGCGTGACTTACAAATTAATTATGGGGTTTTAGATGATATTATTGGCGAACTTCGGAAATATAAAAGTGCTTTAGGAAAAATGGACGATTCACTTGATAAAGTGAGTACCTTTGTGCAAACAAATGAGGGAAAAAGTGTTGAAGCATGGGATCAGAACATTAGCAGCTCGAAAGAAAAAATTGCTAATTATGAAACACAGATCAATGACCTTTTATCCCTGTTTGAAAATTACGTAACAGACACGACGAGATATATCTCACCGATTTCAAGGAATACGATGATGCGTGTGGATCGTAATGATATTTGGGCGAATTTAAAGCAAATAGAGGGCGGTATAACGAATAATCTGTTTAAGGCATTAAACAAAAGCTATCAGCAACCTGCTTCTTTTTTCGGTATGTTTGATGACCCGACGGATGCGGAAAAAGAAGCAAGTGAGATCAACCGACGCCATATGGAGCGTATCCAAACGAGTATTGAAGCAACCAGAAAAAAGCTGGAACGTAATATGGACGAGTTATGGGATTTATATAATTCCAAAGTGAAAAGATTTGAAAATGCGGATGATGAATACAATAACTTGGCCGGAAACGTAAAAAGGAAATATACGAATTTCTTTGAAGGTGTCATGGATGTTGTCAGTAGTGTAAACAAAGCTGTCGATGACTTTGAAAAAGGGATAGTAAACAGCATTGCGGGCATGGTTACGGGACTGCTAACCGTAGTTAAGGATGCAGGTGTTGTTGCCGTATCTGGCGTTGTACCTGATCCTGTGGAGCCATCTTGGTTAAAAGATAGTGCAGATGAAACAGTTGATGCCTACACACAAGCTGCGATACAATTTTTACAAGACCCTATACGTGCAGTGGAATCAACTGCCCAAGCATTCACAGATACTGTGGAACAAGAGGGAGCTATGTACGTTACTGGTGCGACCATTCCTGCCTTAATACCAGGTAGTTTGGCTGTCAAAGGAGCATCAGGCGTTGCCAAACTAGGCGCAGGGGCAGCGAGAAGAACGCCGAAATTATTGGATAGTAAGCCTTTTAGTGGTAATTATTATCGGAAAAAGATAGAGGCAGCTAAAGCTGGAATGGCTAAAGTGAAAATGCCTGTTTTCTATCGAGAGAAATTGTCGACTGGAGAATCTACAATTCCGATACTTGGCATGGAACGGAAACCTCTTGGTGAGATTCGTCCGCAGATGTTTTCGGTGAAGAACCTCGGGGAAAGAGCTCAGAAAAAATTTGAGGCTAAGAGTACGGTTAATAAAGATGCGGAAGTTTCACCTGCTTTTAGGCAAACTGAATTTGCTAGTTCGTATGAAGCAAGGCTTAATCAGACACCTTCACCGATTAATAAAAAAGTAGGATTTGAGGGAGGCAGAGGAGAATCTTTATGTACGCTTAAACCTCCGCCAGATCCAGAACTGAAAAAAATGTTAGATGAAGCTGGCATTAATGGTATACAATATAAAAATGCTATTCCTGATTTCTCATCAATAGCAAAGGCTCAAGTGGAAATTAATTATATGCTAGGCGGAAAGAGCGTTTATGGCGGGAAAGCTAGACGAGCTAATTTCATTCAATCAGATCAAAAACTAGCTGACCAGCTTAATAATTCACCTGAATTAGCAAGAGAATTTGGGATGGAGTCTGGTAGAATCATCGCAAGAGATATAAAGAAATACCGGGAAATAAACAATTTGACATGGCATGAATTAAATGATGTTAAAACAATGCAACTTGTGCCAACAAAAATAAATAGTGAATTCGGACATTTGGGTGGTGTAGGTGAAATAAACGCTGGAGCTTTTGAACCTGGAGGCTTTGCCAATAAACAAAGAGGGGAGATTATAAAATGA MKRDLQINYGVLDDIIGELRKYKSALGKMDDSLDKVSTFVQTNEGKSVEAWDQNISSSKEKIANYETQINDLLSLFENYVTDTTRYISPISRNTMMRVDRNDIWANLKQIEGGITNNLFKALNKSYQQPASFFGMFDDPTDAEKEASEINRRHMERIQTSIEATRKKLERNMDELWDLYNSKVKRFENADDEYNNLAGNVKRKYTNFFEGVMDVVSSVNKAVDDFEKGIVNSIAGMVTGLLTVVKDAGVVAVSGVVPDPVEPSWLKDSADETVDAYTQAAIQFLQDPIRAVESTAQAFTDTVEQEGAMYVTGATIPALIPGSLAVKGASGVAKLGAGAARRTPKLLDSKPFSGNYYRKKIEAAKAGMAKVKMPVFYREKLSTGESTIPILGMERKPLGEIRPQMFSVKNLGERAQKKFEAKSTVNKDAEVSPAFRQTEFASSYEARLNQTPSPINKKVGFEGGRGESLCTLKPPPDPELKKMLDEAGINGIQYKNAIPDFSSIAKAQVEINYMLGGKSVYGGKARRANFIQSDQKLADQLNNSPELAREFGMESGRIIARDIKKYREINNLTWHELNDVKTMQLVPTKINSEFGHLGGVGEINAGAFEPGGFANKQRGEIIK NA NA NA NA NA AK015_04117 468 hypothetical protein ATGACTATAAACGATCCAATTTTTGGTGAACTTATGTATGATTATGGTTGGTCAAGAGTCATAACTATTGATTTTTTTGGAAATGAAACCGAAATAGATTTACTAATAGATGGTGAAGAGGATGGACAGTTTGATGAGGGCCAATATACGGCATACCAATCATTGATGAAAAAATGGCATGATTTACAACCAAGTTTTTTGGATTCCATCTTGGAATATTACAATCAAAAGCGACATGAACTAGGCTATGATATTGAATTAAATGAAAATTATCCTTTAGTTGAAACGACAAATCAAATGTTAAAAATGATAAGTTTAGATGGAATTGTTGTTCCATATGCAGATATTTTTGAAGCTCGACATATCGGAATTACATTTAATTGTACTTGGGATACAGAAAATGGACTTGGGCTTCGTCTATTAAATGAAAAAGTAACCGAGGTAGGTTACCAGGATGTTGCAATTTAA MTINDPIFGELMYDYGWSRVITIDFFGNETEIDLLIDGEEDGQFDEGQYTAYQSLMKKWHDLQPSFLDSILEYYNQKRHELGYDIELNENYPLVETTNQMLKMISLDGIVVPYADIFEARHIGITFNCTWDTENGLGLRLLNEKVTEVGYQDVAI NA NA NA NA NA AK015_04118 273 hypothetical protein ATGGACATGCTACGAAAAGTCGTTCAAGAAAACGATAAACATAAAATGCAATATAGAACTTTAATTGAAGACTATCACGACAAAGGTTTTGTATTCGCAAGAGCAAACGGGTTTCCTTTTGTTACAAAGACAATTTTAACCAGAATGAATCGTCTCATGCGAAAAACAAGTATAAAAAAGTATGCTACACCTCACATTTTTAGACATACTCATATTAGTATGCTAGCCGAAGCTGGTGTTGATATTGCTACAATCATGAAGCGCGTTGGCTGA MDMLRKVVQENDKHKMQYRTLIEDYHDKGFVFARANGFPFVTKTILTRMNRLMRKTSIKKYATPHIFRHTHISMLAEAGVDIATIMKRVG NA NA NA NA NA AK015_04119 168 hypothetical protein ATGAAATTATTGACTACAATTATTTATGTGTTTTTGGTATTATACTTAGTTAATATATTTGAAATTGAAAAAGATTGGCTTTATTTATTATCTGTGGGTCCTATTGTAGTTTTTGGCGTATTATTCATTGTGCACTTATTTGATAAAAATAAATCTAGTAAGCATTAG MKLLTTIIYVFLVLYLVNIFEIEKDWLYLLSVGPIVVFGVLFIVHLFDKNKSSKH NA NA NA NA NA AK015_04120 216 hypothetical protein ATGTTAGGATTATTTAAAAATTCTTTAGATAACAAGCAAAAGATCATCATCTTCTATATGGATAACAATAACCAAGTGACTGAGCGCTACGTACGTGTATTGGAGATAAAGGAAAATAGTATTCTAGCCTATTGCTTTTATCGTAAACAAGTGCGAACATTTAACATTGAAAATATTTTATCTGCTGGAAAAGTAAGAAAGAAGGTTGTTTCATAA MLGLFKNSLDNKQKIIIFYMDNNNQVTERYVRVLEIKENSILAYCFYRKQVRTFNIENILSAGKVRKKVVS NA NA NA NA NA AK015_04121 315 hypothetical protein ATGGTTAATGATCGAGGTACAATAAAATGGACATCTATTATGATGCCGGAACACATAGAGATGCTTCAAGAGATGTGGAAAGAACAGGATTATAAAGAGAAGCCGATTTTGGATGAACAACAAAAAGAGGAAATAAACACAAAATTACTGATGGCTTTAGCAAATGATTTAACTGTCGAATTAAAGTATTTTGATAAACATGATTTTTATAAAGTAAAAGGTAAGATAACCAGTATTAATAAACAAAATAAATACATAAGTCTAGCTGGGCAATGTTTGCCTTTTGAATGCATTATGGATGTGTGGATAAAATGA MVNDRGTIKWTSIMMPEHIEMLQEMWKEQDYKEKPILDEQQKEEINTKLLMALANDLTVELKYFDKHDFYKVKGKITSINKQNKYISLAGQCLPFECIMDVWIK NA NA NA NA NA AK015_04122 1014 hypothetical protein ATGGAGAATAATTACAATCATATAAGATTAACATCTGCTGAAATGGGAAAACTTTGGGTAACTTATACAGGGAATACGATGGCCAAGTGCGTTCTTCGTTATTATCTTCAACATATCGATGATAAAGATATCAAAAAAGTTGTAAAAAATGCCTTAAATTTAAGTGAGAAGCTTGTGAATAAAATTAAAGATATATTTATTCAAGAAAATTTTCCTATACCTATAGGATTTACGGATCAAGATGTGAATTTAGGTGCTCCTAGGTTGTTTTCGGATGAATTTTATCTTCATTACTTGAAATACACTAGTAAAGCTGGAATGAGTATTTATTCGATTGCAATCCCTATAATGACAAGAGAAGATATAAGGGATTTTTTTATTAAAACGTTTAACTCCGCAGTAAATTTATTAAATGAGGTTAATAAAATATTAATCGCAAAAGGGTATTATGAAAAGTCTCCACAAATTCCAACACCAGACAAAGTTGATTTTATAAAAAAACAAAATTATTTAAATGGCTTTTTTGGAGATATAAGATCACTTCATGCATTAGAGATTTCACATCTTCACGATAATATTGAAAATAATGTCACAAGTAAATGTTTATTAATTGGTTTTAGTCAAGTATCCCAAACGGAGAAAGTTAAAAAGTTCTTTTTAAGAGGAAAGGAACTTACTAATAAACATATAGAGGCCAGTACACAACAACTACACAAAGATAACTTGCCATCGCTTCCGTTATTGGACGATCTGGTAAGTACTTCTACTTTTGCGCCTTTTTCGGATAAATTAATGTTGTGGCATAAAATAGATATGTTTTCCATGAAAATAAGATCGTATGCAAATGCTATTTCACTTAATGGGAGGCGTGATCTTGGGGCAATGTATGTTCGGCTTCTAAAGGATATTGGGCTATATGTAGAGGACGGTACAAATATTATGATTAAATATGGGTGGATGGAGCAACCGCCAGAAGCAGTTGATCGTAAAGATCTTGCGATGAATAAGGAATAG MENNYNHIRLTSAEMGKLWVTYTGNTMAKCVLRYYLQHIDDKDIKKVVKNALNLSEKLVNKIKDIFIQENFPIPIGFTDQDVNLGAPRLFSDEFYLHYLKYTSKAGMSIYSIAIPIMTREDIRDFFIKTFNSAVNLLNEVNKILIAKGYYEKSPQIPTPDKVDFIKKQNYLNGFFGDIRSLHALEISHLHDNIENNVTSKCLLIGFSQVSQTEKVKKFFLRGKELTNKHIEASTQQLHKDNLPSLPLLDDLVSTSTFAPFSDKLMLWHKIDMFSMKIRSYANAISLNGRRDLGAMYVRLLKDIGLYVEDGTNIMIKYGWMEQPPEAVDRKDLAMNKE NA NA NA NA NA AK015_04123 1035 hypothetical protein ATGAAACCAATAATAAAGAAGGATCGAATTAATGTCATTGACTTAATTAGGGGGTTTGCCTTAATTGGACTTCCTTTTGTTAATGTGCTTGCATTTTGGAGTTCAAACATAAACTTATCAGGAACGCAGGAGGATATTTTGGTTCAGCGTTTCTTATATATATTTGTTGAAGGACGTTTTTACACTATATTTTCCTTTCTGTTTGGATTAGGGATTTGGATTTTTTTATCGAGGGCTAAAGAAAAGAACGATCGACCATATGCTCTTTTTATTCGACGTATGTTAATCCTTGGTATAGCAGGAGGAATACATCAAGTAATAAACCCTGGTGAAGCTTTATTGATTTATGCAATTTTAGGATTGCCTGTTGTTTTCTTTGATAAGTTTCCAAAACATATTAATTTAATTTTAGGTATAGCAGGTGTTATTACAGGGAGCTTTTTTGGAGCAAAATTGCTTATGACTTTACCTTTAATGATGCTAGGTCTAGCGTTTGGACAATATCGTGTAATTGAGTCTTATATTAAAAAACGAAAAACGTGGATGATAGTTGCTGTTCTTTCATTTGTTGCAACTATTATTTCAGTCGCTTTTCTTTGGCAAAAAGCTCCTGTTGATGGGTTAGTAAGTAATATGGATGGCGTTGAATTAACCGAAGCACAAGTATCATCAAATCGTGATTTTTATGACTTTGCGGACTTGTCTTTTACTTTCACACCATTTTTCTCTGTTTTTTATGTTAGCTTTCTTGTTTTGCTTGAGCCTTTAGCAAGGAAATTGTTATCACCATTGAACTCCTTTGGACGAATGGCGTTTACAAATTATATAGGTCAATCTGTTATATTGGTTATTATTGCAATGTTTATTCCAACTGGTACAGTAGTTTCATATATCACCGCAACAATTACGTGTGTACTTGTAGTGATAGCGCAGATCATTATTTCTGCATTTTGGCTTAGGTATTTTAAGTATGGTCCGTTAGAGTGGCTTTGGCGATGCGGAACTTATGAGAAATGGCTCTCAATACGAAAATAA MKPIIKKDRINVIDLIRGFALIGLPFVNVLAFWSSNINLSGTQEDILVQRFLYIFVEGRFYTIFSFLFGLGIWIFLSRAKEKNDRPYALFIRRMLILGIAGGIHQVINPGEALLIYAILGLPVVFFDKFPKHINLILGIAGVITGSFFGAKLLMTLPLMMLGLAFGQYRVIESYIKKRKTWMIVAVLSFVATIISVAFLWQKAPVDGLVSNMDGVELTEAQVSSNRDFYDFADLSFTFTPFFSVFYVSFLVLLEPLARKLLSPLNSFGRMAFTNYIGQSVILVIIAMFIPTGTVVSYITATITCVLVVIAQIIISAFWLRYFKYGPLEWLWRCGTYEKWLSIRK NA NA NA NA NA AK015_04124 282 hypothetical protein ATGCGTACAGTCCACGTTCCACGAACAAGTAAAAGGAAAGAAATCACACGACGAAGATTTAAAGGCAAAGCTGAAAAAGCAGCAAAACAATTAGCTAATGGATTGGATATGGGGATAGGGGTAAATGAAAATCCTATTACGTTTAACCAATTTGCTCTTAAATGGTTGGATTTGTATGAAAAAGAACGAGGCGCAAAACCTGGTACTATAAGGATAAGAAAACATGAGATTAACAACCTAAACAAGTACTTTCAAAATATCAGAATGGTAGATATAACTTGA MRTVHVPRTSKRKEITRRRFKGKAEKAAKQLANGLDMGIGVNENPITFNQFALKWLDLYEKERGAKPGTIRIRKHEINNLNKYFQNIRMVDIT NA NA NA NA NA AK015_04125 603 xerC_6 Tyrosine recombinase XerC GTGGTCAAAAAGAAAAAGACTGTTGAGGATTTAGAGAACGAAACGGATTTACCTAAATACATGGAGAAAGAAGAACTAGCTATATTTTTAAAAACAGCATACAAACAGGGATTGCACTTAGATTATCCCATTTTCTTAACGTTAGCTTATACAGGAATACGTATTGGTGAATTATGCACACTGAAAGAATCAGATTTACAGATAAAGAACGGCACTCACTTTCTTAATATCACTAAGACTTACTATAATCCTAAAAATAACATCAAACAATATGAACTAGTGACACCCAAAACAAAGAACTCTGTGCGTAAAATTGATTTAGATGAAATGGTTATAAAAGTATTGCAAGAATTAATGGAGTTTAATGCGAAGGTCAAGGAAGAATTTGCAGATGAATACTATGATAAAGGGTATATGTTTGTAAATACAACAACTTATTTAGGCTATCCAATATATCCTAAAGTAATTGAGCAGCGTATGAAGAGGTTGCTTAAGTTAGCCAATCTAAAAAATAAAACAATTTCTCCCCACACACTTAGACATACTCACACATCTTTATTAGCAGAAGCTGGGGTATCGATTGAACGAATTATGTCACTCTGA MVKKKKTVEDLENETDLPKYMEKEELAIFLKTAYKQGLHLDYPIFLTLAYTGIRIGELCTLKESDLQIKNGTHFLNITKTYYNPKNNIKQYELVTPKTKNSVRKIDLDEMVIKVLQELMEFNAKVKEEFADEYYDKGYMFVNTTTYLGYPIYPKVIEQRMKRLLKLANLKNKTISPHTLRHTHTSLLAEAGVSIERIMSL NA NA NA NA NA AK015_04126 105 hypothetical protein ATGAGAGTACCTACATGTAGTTATGTTGATCGCGAAACAGCTTACCGTATAATAAAAGATTTTATCACCTTTAAATCAGTTCCAAATCATAATAGAGTGGGTTGA MRVPTCSYVDRETAYRIIKDFITFKSVPNHNRVG NA NA NA NA NA AK015_04127 129 hypothetical protein TTGCGAGGAAAAATTAATATTCTTTTTGATGAACCGTATGAGTTTTTTATTATGCAACATCCAGATTATGTAGTACCAATTAATAAAAATGTTGAGATAAAAACAGTTGAACATTTAGTAGGCGGATAG MRGKINILFDEPYEFFIMQHPDYVVPINKNVEIKTVEHLVGG NA NA NA NA NA AK015_04128 375 hypothetical protein ATGGAAAAACAAGGATGGGTTTCTATTTGGTTAGGGAATATTAGTGATGAAGATTCTATAGAAGAGTATGTAGATTTAACGTATGATGAGGATGGCGAATCTGTCCCTTCCCAATTCTTTATCGATTTTAATATTGATATGGACGAAATAGATGAGGATACTATAGAAAAAGCTGTCTATAAAAATGGTAGTCAGGATATTTCCACATTATTAGAGGGATGTTCGTATGAAGAAATTATTATTCCGAAAATCAAGAAAAGTATGAACTTAAAGGGAGTATATAATGCAGTAATTTTAATATATAATTTTGAATATAACAATGAAATTAGCTCAGCTGGTGTTTTTGATTTTATAGCAGCTACAAATTATGAGTAA MEKQGWVSIWLGNISDEDSIEEYVDLTYDEDGESVPSQFFIDFNIDMDEIDEDTIEKAVYKNGSQDISTLLEGCSYEEIIIPKIKKSMNLKGVYNAVILIYNFEYNNEISSAGVFDFIAATNYE NA NA NA NA NA AK015_04129 1710 hypothetical protein GTGAAGCGTGACTTACAAATTAATTATGGGGTTTTAGACGATATTATTGGCGAACTTCGGACATATAAGCGTGCTTTAGAAAAAATGGACGACTCACTTGATAAAGTGAGTACCTTTATGCAAACAAATGAGGGGAAAAGTGTTGAAGCATGGGATCAGAACATTAGCACCTCGAAAGAAAAAATTGCAAATTATGAAACACAGATCAATGACTTACTATCGTTATTTGAAAATTACGTAACAGACACTACAAGATTTATTTTACCCATTTCAAGAAATACGATGATGCGTGTGGATCGTAATGATATTTGGGCGAATCTAAAGCAAATAGAGGGCGGTATTACCGATAATCTGTTTAAGGCACTAAACAAAAGCTATCAGCAACCTTCTTCATTTTTCGGTATGTTTGATGACCCAACGGATGCGGAAAAAGAAGCAAGTGAGATCAACCGACGCCATATGGAGCGAATCCAAACGAGTATTGAAGCAACCAGAAAAAAGCTAGAACGTAATATGGACGAGTTATGGGATTTATATAATTCCAAAGTAAAAAGATTTGAAAATGCAGATGATGAATACAATAACTTGGCCGGAAACGTAAAAAGGAAATATACGAACTTCTTTGAAGGTGTCATGGACGTTGTCAGTAGTGTTAATAAAGCTGTCGATGATTTTGAAAAAGGAATTGTCAACAGCATTGCTGGCATGGTCACGGGACTGCTAACCGTAGTTAAGGATGCAGGTGTTGTTGCCGTATCTGGCGTTGTACCTGATCCTGTGGAGCCATCTTGGTTAAAAGAAAGTGCAGGTGAAACAGTTGATGCCTACACACAAGCTGCGTTACAATTCTTACAAGACCCTATACGTGCAGTGGAATCAACTACCCAAGTCTTCACAGATACTGTGGAAAGTGAAGGAGTTATGTACGTTACTGGTGCGACCATTCCTGCCTTAATACCAGGTAGTTTGGCTGTCAAAGGAGCTTCAGGCGTTGCAAAACTAGGTGCAGGCGCAGCAAGAAGAGCTCCGAAGTTATTGGATAGTAAGCCTTTTAGTGGTAATTATTATCGGAAAAAGATAGAGGCAGCTAAAGCTGGAATGGCTAAAGTGACAGAGAAGTTCACTTTTGGTAAAGACTATGCACTTTCAACTGGCGGTGCAAACTTTAAACTTAGAGATAAAGATTTTGCAGAGGGTACTACGCCGCAGATGCTCAAGATACAGAATGGTAGAGAAGAAAGAGTAGAGACTAAAGGAATAAATGTTGTTAAAGATATACCTAAAATAAACGTTGATGATATACCAACTGCAAAGAGTGGTAACTTCAATAAATTTTTCAATTCCCTTACAATTAGTGAACTAGATGAATTTTGGAAGGATAAAAAGATTAGAAAGAAAATTGAACGTCAACTTAGAGCACCTGGAGGTTTACACGAATGGCACTTAGTTTCTAGGGCTCCGCAATTTAAGTATTGGAATATTGGTGCTGAAGAGATTAAAGAATTAAGAACAGCTATATCCGATGTTAAATTTGTCAATCCGAACGGTGTTCATGGTGGATTAGGTTCAACTAAAGCACATAATGAATTGTTAGCTATAATAGATACTTCTAGTGACTACAATACATTTGTTAGACGACTTAATAATTGGGCTAATTATAGATTAGAAGGTGGAGTTTCATCTTTACCCGAAGGTCTACGATTAAAGTAG MKRDLQINYGVLDDIIGELRTYKRALEKMDDSLDKVSTFMQTNEGKSVEAWDQNISTSKEKIANYETQINDLLSLFENYVTDTTRFILPISRNTMMRVDRNDIWANLKQIEGGITDNLFKALNKSYQQPSSFFGMFDDPTDAEKEASEINRRHMERIQTSIEATRKKLERNMDELWDLYNSKVKRFENADDEYNNLAGNVKRKYTNFFEGVMDVVSSVNKAVDDFEKGIVNSIAGMVTGLLTVVKDAGVVAVSGVVPDPVEPSWLKESAGETVDAYTQAALQFLQDPIRAVESTTQVFTDTVESEGVMYVTGATIPALIPGSLAVKGASGVAKLGAGAARRAPKLLDSKPFSGNYYRKKIEAAKAGMAKVTEKFTFGKDYALSTGGANFKLRDKDFAEGTTPQMLKIQNGREERVETKGINVVKDIPKINVDDIPTAKSGNFNKFFNSLTISELDEFWKDKKIRKKIERQLRAPGGLHEWHLVSRAPQFKYWNIGAEEIKELRTAISDVKFVNPNGVHGGLGSTKAHNELLAIIDTSSDYNTFVRRLNNWANYRLEGGVSSLPEGLRLK NA NA NA NA NA AK015_04130 1809 pepF1_3 Oligoendopeptidase F, plasmid ATGACAAAAGCTAATAAAGAACTACCTAAAAGAAATGAACTCCCTGTTGAATTAACATGGAGGTTAGAAGACATTTTTGAAACGGATGAAGCATGGGAACAGGAATTAACAGATTTGCAGAAAGCTATTCCAGAAATTGAAAATTACCAAGGCACATTAGGTTCCTCAGCGAAAAACCTTTATGATGTGTTAAAGCTTCAGGATCAATTATCGGAACGGTTAGGCAAGCTCTTTACATATGCACATATGCGTTATGATCAGGATACGACAAATTCATTTTATCAGCGGATAAATGCACAAGCAGAAAACGTTATTACGGTTGCATCTAGTAAAATGAGCTATATTGTACCAGAGATTTTAGAAATTAACGAAGCTACATTAAAGCAGTTTTTGCAAGAAGAAGAAGGTTTGCAAGTTTATCAAAAAACATTGGATGAAATCACTCGTCAGCGACCGCATATTTTAAATAAGCGCGAAGAAGCCATTTTAGCTGAAGCTTCAGAGCCGTTAGGAACTGCTTCTCAGACGTTTGGTATGTTAAACAATGCAGATTTAACGTTTCCATCAATTAAGGATGAAAACGGAGAAGAAGTAGATGTTACACATGGTAGATATATTCGCTTTATGGAATCACAAGATCGTTCTGTACGGAAGGCAGCTTTTCAAGCGATGTATGAAACTTACGGTGCATTTAAAAACACATTTGCGTCGACATTGAGTGGAAATATCAAAAAAGATAACTTTGTTGCAAAAGTAAGAAATTACGAATCTGCTAGACAAGCCGCACTTGATAACAATCATATTCCGGAGAAAGTGTATGATAATTTAGTTGAAGCAGTTAATGAACGTCTTCCGTTACTGCATCGATATATTCAATTACGTAAAAAAGTATTGGAATTAGATGAATTGCATATGTACGATATTTATACACCGCTTGTTCGTGATGTTGATATGGAAATAACCTATGAAAAAGCGCAGCAATATGTGCTTGAAGGCCTTGCTCCATTAGGAGAGGGGTATTTAAATATCGTGAAAGAAGCGTACGATAATCGATGGATTGATGTAGAAGAAAATAAAGGAAAACGCAGTGGGGCTTATTCTTCAGGTGCTTATGGAACGAATCCTTACATTTTGCTGAATTGGCAGGATAATGTAAATGATATGTTTACTTTAGCTCATGAACTAGGGCATTCTGTTCATAGCTACTATACGCGAAATAACCAACCTTATCGTTATGGAAACTACTCTATTTTTGTTGCAGAAGTTGCTTCTACATGCAATGAAGCATTGTTAAATGATTACTTATTAAAAAATCTAACAGATGAAAAACAAAAGCTATACGTATTAAATCATTTTCTAGAAGGATTTAGAGGAACTGTATTTCGTCAAACGATGTTTGCTGAGTTTGAACATATGATCCATGTAAAGCAACAGCAAGGAGAAGCTCTAACTGCAGAAAAGCTTACTGAATTGTATTATGATTTGAATAAAAAATATTATGGTGATGATGTTATTTCTGATGAAGAAATTGGTCTGGAATGGGCGCGAATCCCTCACTTCTATTACAATTATTATGTATATCAGTATGCAACAGGATATTCAGCAGCAACGGCCTTAGCGCAGCAAATTTTAACAGAAGGCGATGGAGCTGTGGAACGTTATACGGATTTTCTAAAAGCAGGTAGTAGCGAGTACCCGATTGAAGTATTGCAAAAAGCTGGCGTAGATATGAATAGTAAACAAACGATTTTGGATGCATTAGATGTGTTTGCTGAAAAACTGGAGCAATTAGAAGGTCTGCTTAAGTAA MTKANKELPKRNELPVELTWRLEDIFETDEAWEQELTDLQKAIPEIENYQGTLGSSAKNLYDVLKLQDQLSERLGKLFTYAHMRYDQDTTNSFYQRINAQAENVITVASSKMSYIVPEILEINEATLKQFLQEEEGLQVYQKTLDEITRQRPHILNKREEAILAEASEPLGTASQTFGMLNNADLTFPSIKDENGEEVDVTHGRYIRFMESQDRSVRKAAFQAMYETYGAFKNTFASTLSGNIKKDNFVAKVRNYESARQAALDNNHIPEKVYDNLVEAVNERLPLLHRYIQLRKKVLELDELHMYDIYTPLVRDVDMEITYEKAQQYVLEGLAPLGEGYLNIVKEAYDNRWIDVEENKGKRSGAYSSGAYGTNPYILLNWQDNVNDMFTLAHELGHSVHSYYTRNNQPYRYGNYSIFVAEVASTCNEALLNDYLLKNLTDEKQKLYVLNHFLEGFRGTVFRQTMFAEFEHMIHVKQQQGEALTAEKLTELYYDLNKKYYGDDVISDEEIGLEWARIPHFYYNYYVYQYATGYSAATALAQQILTEGDGAVERYTDFLKAGSSEYPIEVLQKAGVDMNSKQTILDALDVFAEKLEQLEGLLK PGPT0020965_1174 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 AK015_04131 1191 hypothetical protein ATGCTACAAGCTATGGACAAGTATGGTAACAAAATAACATTATTTACAAATACTTACCGAGAAATAGTTAATATGAAAAAAAACGAGCAATCTTTTTTTTGCCCTATATGCAAAGGCGCCGTTTTTATACGTTCTGGTAAAAAGGTAATTCCTCATTTTGCGCACTATCCTAATCCAGATTGTCACGCAGCAGAAGAGGGAGAGGGTGTGTATCATGAACGGGGAAAAATGTTGCTTTTTAACTGGTTGACTAAACAGAATCTAGCAGTTGAATTAGAATCGTATATTAAAGAAATTAAACAACGTCCAGATTTACTTCTCCATATTGGAAAAAAGCGGATAGCAATCGAGTATCAATGTGCAACTATTTCTAGGGAACTTCTAAAAGCTCGAACAGAAGGTTATCGTTCGGTTGGCATTTACCCATTATGGATATTAGGGGCAAACCAGTTAAAACGAAAAAGCGCCCATAAATTACGAATAAATACTTTCGTTCAGTCTTTTATCCACCAGTTTTCCGCTCAGCTCTCACCACGAATTTTCTTCTTTTGTCCAGTAGCAAATCAATTCATTATTGCCCACGATATATATATGACTTCCAAACAATTAGCTGTTACCACCTTAATAAATTCCAAATTAAATCAAATTTCATTTTTAAATTTGTTTGATCATAAAATATTTACTAGCGAAAAATTGTATACGCTATGGGAGCAAGAAAAATTAATCTTTCGTACAAAACAACGTCATAAACTTTCTATTCAACAGCTTCAATGGCACAAATGGCTCTACAGCAAAAACGTATATCTTTATAACCTTCCTTCTATTATTTATCTTCCAATTCAATCCCAGCTTTTCATGAACAGGCCGCTATGGGAGTGGCAAAGTCGCTTTGTATTAGAAAAATTGGCTTTACTCCAAATTGGTGAGACGATAAACATCGCTTCTTATAAAAGAATCTCTAAGGTGAATACAACAAGTGAATTTCCTTTAACCTGTAATACATTCAATCCATTATATGAATATATGCTACTCCTCAAGCAACTGCAAATGTTTAGCCAACAGTCTGCAATCACTTTTAGGAAACAAACGGATGTTTATTTTCCTAAAACAATAGATGAAGCAATTATTGCTGATAGACATCTTCTCCACAGATTGAAACAGCAAAAAATAAGCATGTTTCTTCCAAAATAA MLQAMDKYGNKITLFTNTYREIVNMKKNEQSFFCPICKGAVFIRSGKKVIPHFAHYPNPDCHAAEEGEGVYHERGKMLLFNWLTKQNLAVELESYIKEIKQRPDLLLHIGKKRIAIEYQCATISRELLKARTEGYRSVGIYPLWILGANQLKRKSAHKLRINTFVQSFIHQFSAQLSPRIFFFCPVANQFIIAHDIYMTSKQLAVTTLINSKLNQISFLNLFDHKIFTSEKLYTLWEQEKLIFRTKQRHKLSIQQLQWHKWLYSKNVYLYNLPSIIYLPIQSQLFMNRPLWEWQSRFVLEKLALLQIGETINIASYKRISKVNTTSEFPLTCNTFNPLYEYMLLLKQLQMFSQQSAITFRKQTDVYFPKTIDEAIIADRHLLHRLKQQKISMFLPK NA NA NA NA NA AK015_04132 684 mecA COG4862 Adapter protein MecA 1 ATGGAAATAGAAAGAATAAATGAGAATACAGTTAAGTTTTACATTTCATATATGGATATTGAAGATCGTGGTTTTGAACGCGAGGAGATTTGGTACAACAGAGAACGAAGCGAACAACTGTTTTGGCAAATGATGGATGAAGTGAATTTTAAAGAAGATTTTAATGTTGATGGTCCATTATGGATTCAAGTTCAAGCTTTGGAAAAGGGACTTGAAATCATTGTTACGAAGGCTCATATTTCCAAAAATGGTGATAATATTGAATTACAAACAGATGATGGAAATGCGGTAGATTTTCCGGTGGACAAGAAAATCGAAAATATGCTTGAGGACAAATTTAGCAAAGAAGATGAAGAAGATAACGAGCAATACAATGATGAGAACCTTTGGATTATTGCTAGCTTCAAAGATTTTGAAGATGTTATCCAGTTAAGTCACTATTTTATAAATGACAATTTAGGGACTGTAGAAACCTTATACCATTATAACGATACCTATTATTTATATATGGAATTTTTGGAAGATGAAATTGAAGAAGAAGAACAAGAGAACATGATTAGTAAAGTTTTTGAATTTGGTAATGATACAGATATTACGAATCATGTGCTGTCTGAATATGGAAAAATTATTTTTGAACAAAACACATTCTCGAATATTAGAGCTTATTTCCCTGCAAACATATAG MEIERINENTVKFYISYMDIEDRGFEREEIWYNRERSEQLFWQMMDEVNFKEDFNVDGPLWIQVQALEKGLEIIVTKAHISKNGDNIELQTDDGNAVDFPVDKKIENMLEDKFSKEDEEDNEQYNDENLWIIASFKDFEDVIQLSHYFINDNLGTVETLYHYNDTYYLYMEFLEDEIEEEEQENMISKVFEFGNDTDITNHVLSEYGKIIFEQNTFSNIRAYFPANI NA NA NA NA NA AK015_04133 396 spxA COG1393 Regulatory protein Spx ATGGTTACACTTTATACCTCACCAAGTTGTACATCGTGTAGGAAAGCTAAAGCATGGTTGGAAGAACACAATATCCCATTTACGGAGCGTAATATATTTTCTGAACCGTTAACATTGGATGAAATAAAGGAAATCTTGCGTATGACTGAAAATGGTACGGATGAAATTATTTCAACTCGGTCAAAAGTATTTCAAAAATTAGAAGTAAATATTGATCAACTACCAATGAAGGATCTCTTTAATTTGATTCAAAAGAACCCTGGGCTTTTAAGAAGGCCAATTATTTTAGACGAAAAACGTCTACAAGTTGGTTATAATGAAGACGAAATCCGTCGTTTTCTTCCAAGAACTGTTCGTACCTTTCAATTACGTGAAGCGCAAAAAATGGTTAATTAA MVTLYTSPSCTSCRKAKAWLEEHNIPFTERNIFSEPLTLDEIKEILRMTENGTDEIISTRSKVFQKLEVNIDQLPMKDLFNLIQKNPGLLRRPIILDEKRLQVGYNEDEIRRFLPRTVRTFQLREAQKMVN PGPT0012940_501 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 AK015_04134 345 hypothetical protein ATGGTCTTTGCGGTATTTGACACGCTTGCAGTTGGGTTTTTTTCAACTTCTTCTGGATTCATTTACGGCCATGGTCTAACCCAACTCGGCGTTCAAACGCTTGGTGTCATTGTCATTACTTGTTGGACAACAGCTTGTTTAGGGGCCTTGTTATTCGCAATCAAGCAAATAACCTCCCTACGCGTTTCTAAAGAAGAAATAGTGGGATTAGATTTCACAGACCACGGATCTAACGCTTATGCATTTAAAGAAAATTTCCTTGCAAGCGACGAAAATTCCACAACATCTACGCTTGGATTAGCCGCAAAATTAAATCGATTGACTAAGACGAAAGAAATAAGCTAA MVFAVFDTLAVGFFSTSSGFIYGHGLTQLGVQTLGVIVITCWTTACLGALLFAIKQITSLRVSKEEIVGLDFTDHGSNAYAFKENFLASDENSTTSTLGLAAKLNRLTKTKEIS PGPT0000840_3089 DIRECT EFFECT BIO-FERTILIZATION NITROGEN_ACQUISITION N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320 NA NA AK015_04135 585 yjbC Putative acetyltransferase YjbC ATGAATTGGTATGAAAAGTTAAATAATTATTTTTCTGTAGAAGAGATGAAGTCGAAGGAGCATATGGAGAAGCTTTTGGATGAGAAAGGTAATGTCTATTACAAAGATGAAAGTGACTTGCACGTAATGATGTATGCAGAATTTGATACTTTCATCTTTATTGATTATTTATGGGTGTCATCTAAAGCTAGGGGTAAAGGGATAGGACATTCATTACTTGAGAAGTTGAAAGAAAAGAATAAGCCAATAATTCTAGAGGTTGAGCCAGTTGATTATGAAGATACGGATACAGCAAAAAGATTACATTTTTACCGAAGAGAAGGTTTTGCACATGCGCAATCGATTGGTTATAGTAGGAGATCGCTTGCTACCAACGAAGACACCGAATTGGAGATACTATACTGGTCGCCAAGTAATGAATCAGAAGGTTTTATATATGAGCAGATGAAACAAATGTATGAAGTAATTCATACGTATAAAGATAAAGAGGTCTATGGTCGAAGTTATCAGCATGTAGACGAGGTTTTAAAATATGATGAGGACCGAGAAAATAACATTTTTGACAATTTACAAGCAGATAAATAA MNWYEKLNNYFSVEEMKSKEHMEKLLDEKGNVYYKDESDLHVMMYAEFDTFIFIDYLWVSSKARGKGIGHSLLEKLKEKNKPIILEVEPVDYEDTDTAKRLHFYRREGFAHAQSIGYSRRSLATNEDTELEILYWSPSNESEGFIYEQMKQMYEVIHTYKDKEVYGRSYQHVDEVLKYDEDRENNIFDNLQADK PGPT0014311_2 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NEUTRALIZING_HERBICIDIAL_STRESS HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014311-yjbC-NA NA NA AK015_04136 729 sigI_2 RNA polymerase sigma factor SigI ATGTTAAATCATATAAAAAAAGACGCACCTCTTGAAGAACTGGTTGTAATGGCACAACATGGTGAGCAATCCGTTCAAAATTATTTACTTAAAACGTATCAGCCATTTGTCGCAAAATGTGTTTCAGAAGTGTGTAAACGTTACATAGATATAGCAAACGACGATGAATTTAGTATAGGGCTCTGGGCATTTAATGAGGCAATTAAATCATATAATAGGGAAAGGGGGAGCTCTTTTTTAGGGTTCGCGAAACTAGTTATTAAACGAAAAGTAATTGATTATATTCGCTATACACAAAAGAATCCTACTGTGTTATCGTTAGATGAAATATACGATGCAGATTTATTAGAAAATCCCACCGAAATACTAGCCGTAAAGAAACAGTATCAATTGGCACAAGATTCTTGGCATAGAAAGCAGGAAATTTTAGATTTTAAAGAGAAACTAAAAGTGTACAAGCTAAGTTTAGCTGAGCTAACGGAAGTAGCTCCAAAGCATCGAGATGCGAGAGAGTCTGCCATTCATACAGCTAAGGTATTGTATGAAGATAAACCTTTAAGAGATTACGTATTAGCAAAACGTAAGTTACCAATTAAACAACTTGTTAAAAAAGTCGATATAAGTAAAAAGACAATTGAGCGAAACAGAAAGTATATTTTAGCTGTTTTTATTGTGCTTACAGAAGATTATTTATATTTAAAGGACTATTTAAAGGTGGTGAAGCAGTGA MLNHIKKDAPLEELVVMAQHGEQSVQNYLLKTYQPFVAKCVSEVCKRYIDIANDDEFSIGLWAFNEAIKSYNRERGSSFLGFAKLVIKRKVIDYIRYTQKNPTVLSLDEIYDADLLENPTEILAVKKQYQLAQDSWHRKQEILDFKEKLKVYKLSLAELTEVAPKHRDARESAIHTAKVLYEDKPLRDYVLAKRKLPIKQLVKKVDISKKTIERNRKYILAVFIVLTEDYLYLKDYLKVVKQ NA NA NA NA NA AK015_04137 744 hypothetical protein GTGAATAAAGGAATAATTATGGAAAAGCGCCGTGAGTATATGATTGTACTGACTAAAGATGGCGCTTTTCATAAAGCTATACCAATAAAAGGTGTAGATATAGGTATGGAGGTGTGTTTTGACCCACTTTCAGATCAAAGGAAGCTGATGTTTATGCAACGAAAGAAGCAGCATCATAACTTTTTTAGCTTCCTTGCCTTTGTAAGTATGATATGTTTATTTGTATTGCCTTTTTATTTTGTAGCGGATAATAATAGAGTTTATGCTTATGTAGGAATTGATATCAATCCTAATCCTAGTATTGAATTTAAACTGGATGAGGATTTACATGTACAAGGAATACGTTCAATTAATGACGAAGCTAAACGAATATCTCAACACTTAATGAATTATAAAGACAAAAATGCAATCGATGTTATTCCATTATTTATTGAAAAGGTAGAACAAGCAGGTTTGACCAATAAGAATAAGCAGGTGATTATAGGAATTAGTTCGTTACAAGAAACAGACGTAACTTTGTTTGAAGAATTAAAGGAAAAATCAGTTTCTTTACAGGGATGGAAAATAACTACTGTGAAAGTCCCAAATGAAATTAGAAATGTAGCAGAAGCGCAAAACTTATCTATGAATGAGTTAATGGCAAAAGAACTTGCAGAAAAAAACCCCATGCGTATCCAGTTTAAAAACGTGGAAGAATTGAAAGAGGAAGACAGAGCAATTATACAATCATTTTATAATTACTAA MNKGIIMEKRREYMIVLTKDGAFHKAIPIKGVDIGMEVCFDPLSDQRKLMFMQRKKQHHNFFSFLAFVSMICLFVLPFYFVADNNRVYAYVGIDINPNPSIEFKLDEDLHVQGIRSINDEAKRISQHLMNYKDKNAIDVIPLFIEKVEQAGLTNKNKQVIIGISSLQETDVTLFEELKEKSVSLQGWKITTVKVPNEIRNVAEAQNLSMNELMAKELAEKNPMRIQFKNVEELKEEDRAIIQSFYNY NA NA NA NA NA AK015_04138 237 hypothetical protein ATGGATATACCTGACTATGATAAAGCACTTTACTATACACTTTGGGGATACTGGGACGATTTGCTCGTACTTATGGTTCGAACAAATGATGACATGTTGTCGAAAAAAATCCAATTATTTTTACATGCTTTCCACTACTCCCTTGATGAAAGAAAAATAATGGAATCGCATGACAATTTACTTTACTATCTAGACCACGCTATGAAGTATGACCCTTCGACAGTTATGAAATTATAA MDIPDYDKALYYTLWGYWDDLLVLMVRTNDDMLSKKIQLFLHAFHYSLDERKIMESHDNLLYYLDHAMKYDPSTVMKL PGPT0025040_195 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA NA NA AK015_04139 621 hypothetical protein ATGAAACTGAAACTATTTACTTTCATCGCGATTCTTGGTTTAGTATTAGCAGGATGTATGAATGGTAATGACACCAATAAGGAAAATGATACGGCTAATGATAATGTAGAACAGACAAGGTACAATAATACGGGGGATGGCATGACTGGTGACCGAGATTACGACATGACAAGACAAGCGGAGCGTGATCAAGAAAGAAACAATAACCGTAATAATGAAAGCCGTTATGAAGTATCAAAGGAGTCTGCTGAGAGAATCACAGAAGAAATTGATGAGATTGACACAGCATATGTATTGACAATGGATAACAATGCATACGTTGCAGCAGGGTTAGATACCAATGATACGAACGTAGAAAACAAAAACAAAGGAAACAATACGGCAAATAATATGAACAATGTAGATGAAGGTAATGATCTCACAAATGATGTGAAATCTAGAGTGAAGCAAATTGTTCAATCCGTTGATGCTGATATTGACAATGTATATGTCTCGACAAACCCAGACTTCGTTAATTTAACACAAAACTATGCAAACGATGTGGAGAATGGTGAACCTGTTGAAGGATTTTTTGACCAATTTGGCAATATGGTAGAACGATTATTTCCGCAAAACCGCTAA MKLKLFTFIAILGLVLAGCMNGNDTNKENDTANDNVEQTRYNNTGDGMTGDRDYDMTRQAERDQERNNNRNNESRYEVSKESAERITEEIDEIDTAYVLTMDNNAYVAAGLDTNDTNVENKNKGNNTANNMNNVDEGNDLTNDVKSRVKQIVQSVDADIDNVYVSTNPDFVNLTQNYANDVENGEPVEGFFDQFGNMVERLFPQNR NA NA NA NA NA AK015_04140 1368 dapE Succinyl-diaminopimelate desuccinylase ATGAGTGAGCAAGTATTGCAATACTTGAAGACTAATCGAGCGTATTTTCTGAAACGGCTTTTTGAATTTTTAGAGATACCTAGCATTAGCACAGATAGCAATTATAAGAAAGATATGGAAAAAGCAGCAGACTTCATTGTTACATATTTGCAAGAGATTGGCTTTGGCTCAGCTGAGAAACAGCCAACAAATAACCATCCGCTTGTTTATGGTGAATACAATGGTGCTGGAAAAGATGCGCCGACAGTGTTGTTCTATGGACATTATGATGTGCAACCAGCTGATCCAATGGAATTATGGCATAGTAACCCATTCCAACCAGAAATTAGAGACGGAAGGCTATATGCACGAGGTGCAAGTGACGACAAGGGACAAGTATTTATGCATTTGGCCGTATTTGAAGCTTTTTTAAAAACAGAAGGAAAACTACCTGTGAACGTTAAAGTATGTATTGAAGGTGAAGAAGAAATTGGTAGTGAGAATTTATATAACATATTGCAAGAACACCAAGAACAGTTTTCGGCAGATTTTGCAGTGATATCTGATTCGGGGATGGTTGCTAAAAATCAGCCAACCATTTTGTATGGCTTAAAAGGATTCACAGGATTGGAGATTACCGTAAAAGGGCCGGACCATGATTTACATTCTGGCATGTATGGTGGGGCAATTAGAAATCCAATTATGGCATTAAGCCACATTTTATCCTCCATGAAAAATGAAGAAGAGTTTATTACAGTCGATGGCTTTTATGATGATGTAGAGCCTTTATCAAGTAAAGAGAGAAAAATGATGGCAGCTGTACCTAGTGAAGATTTTGCTAAGTCCGCTGGTGTAAATCAAACTGTTTCCGAAAAAGGATATACACCCGTCGAACATACAATGGGCCGTCCAACTTTTGAAGTGAATGGAATATTTGGTGGTTACCAAGGAGAAGGAACGAAGACAATTATTCCCTCTTCTGCAACAGCTAAAATTACTTGCCGCTTAGTCCCAGGGCAAGATCCTGAGATAGTCCAAAAATTATTGGAAGATCATATTTATAAGGTAGCGCCTTCCGGTGTGGAAGTTCATGTGGAAAAAGAAAAGTTATCCGCTAAAGCTTATAAAGTAGAACCAGATCATCCGTTAATAAAAAAAGCAGCAGAAGCATATTCAAAAGCTTTTCAAGCTGAGACAGTGTATGTAAGAATGGGAGGTTCCATACCTGTAGTAGAGTGGGTGGAAGCAATATATGGGATGCCTATTGTATTACTAGGTTTTGGAACGCCAGAAGATCGTCTCCATTCACCTAATGAAAGTTTTCCTTTGGATAGCTTTGATAAAGGGATGGAAACCATTGTCTATTACTGGAATTCAGTAGGTAATTAA MSEQVLQYLKTNRAYFLKRLFEFLEIPSISTDSNYKKDMEKAADFIVTYLQEIGFGSAEKQPTNNHPLVYGEYNGAGKDAPTVLFYGHYDVQPADPMELWHSNPFQPEIRDGRLYARGASDDKGQVFMHLAVFEAFLKTEGKLPVNVKVCIEGEEEIGSENLYNILQEHQEQFSADFAVISDSGMVAKNQPTILYGLKGFTGLEITVKGPDHDLHSGMYGGAIRNPIMALSHILSSMKNEEEFITVDGFYDDVEPLSSKERKMMAAVPSEDFAKSAGVNQTVSEKGYTPVEHTMGRPTFEVNGIFGGYQGEGTKTIIPSSATAKITCRLVPGQDPEIVQKLLEDHIYKVAPSGVEVHVEKEKLSAKAYKVEPDHPLIKKAAEAYSKAFQAETVYVRMGGSIPVVEWVEAIYGMPIVLLGFGTPEDRLHSPNESFPLDSFDKGMETIVYYWNSVGN NA NA NA NA NA AK015_04141 759 yueD Benzil reductase ((S)-benzoin forming) ATGGATTATGCAATTGTTACAGGAGCTTCACAAGGATTGGGAAAAGAAATAGCTAAGTTGCTATTGAGTTATGGAGTATATGTAATCGGTATCTCCCGAAGTAAGATTACTGATTTACACAGTGTAGCTGATAAATATAAGGTTACCTTTCAAAGTATTGCTTATGATTTAGTGGATGTAGCGAATCTAGAAGTTCTTCTTGATACAATCACTACAAAGCATATGAAAAATGACGTTAGAAAGCTTTATCTTGTGAATAATGCAGCTGTTATTGAACCGATTAATCAGGGAACTCATATATTACCTACGTCTTTAAATTACCATTTTCAGATTAATGCTGTCGCGCCAATGGCATTAACGAATTTGTTCTTACAGTTTGCGAATCAAAAACAAATTCCACTAACTTGTTTAACAGTGACTTCTGGTGCTGCTGAGAAACCGACGTTTGGATGGACTGCTTATTGTAGTTCTAAGGCTAGTGTAAACATGTATACAAAAACCATTGCTAAAGAGCAAGATGAGCTAAATACGAAACATACTATCATTGCTTTCAGTCCAGGTGTTATGGATACGGAGATGCAAGCACAAATTCGTTCCAGTGAAAAATCTGCATTTCAAGCAGTAGACACATTTAAAGCGTACTATGAAAATAAACGGTTGCAACATGCAGAAAAAATCGCCTCTATAGCTACAGAGATCATGTTAGACAATAACATAGAAAACGGACGAATATATTATGCACGTGATTATTTATCTTAA MDYAIVTGASQGLGKEIAKLLLSYGVYVIGISRSKITDLHSVADKYKVTFQSIAYDLVDVANLEVLLDTITTKHMKNDVRKLYLVNNAAVIEPINQGTHILPTSLNYHFQINAVAPMALTNLFLQFANQKQIPLTCLTVTSGAAEKPTFGWTAYCSSKASVNMYTKTIAKEQDELNTKHTIIAFSPGVMDTEMQAQIRSSEKSAFQAVDTFKAYYENKRLQHAEKIASIATEIMLDNNIENGRIYYARDYLS NA NA NA NA NA AK015_04142 108 hypothetical protein ATGGGTAAAGAAGGTTACGGCTATGGCGGAGGTTTCGCCTTATTAGTTGTACTATTTATTTTATTAATTATTATCGGTACTGCTTACACTGGATATGGATGTTGCTAA MGKEGYGYGGGFALLVVLFILLIIIGTAYTGYGCC PGPT0024985_366 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-SPORE_PRODUCTION CE-SPORE_FORMATION|GERMINATION CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA NA NA AK015_04143 753 map COG0024 Methionine aminopeptidase 1 ATGATTACAAGAAAAAGTAAACGTGAAATAGAAAAAATGCAAAAAGCTGCTGATGTGTTAGTAAAATGCCATAAAGAAATTGCCAAAATAATAAAGCCTGGAATTACGACGATGGAGATTGATGCATTTACAGAATCATTTTTAAAGAAACATGGTGCAACTCCTGAGCAAAAAGGGTTTAATGGATACCCTTATGCTATATGTGCCTCCATTAACGATGAAATTTGTCATGGTTTTCCTCGCCACGAAAAGCTAAAGGATGGGGATATTGTAACGATTGATATGGTTGTAAACGTCGATGGAGGGCTTGCCGACTCTGCATGGACATATGCGATTGGGAATGTAGATGAGAAAGGTCTTCGATTGATGGAAGTTACAAAAACATCGCTGTATAAAGGGATAGAGCAAGCACGTGCTGGCAAGAGAATTGGCGACATCGGCCACGCCATTCAGCAATATGCAGAAGGGGAGGGCTTTTCCGTTGTGCGCGATTTCACTGGTCACGGTATTGGTCCAACCCTACATGAAGATCCACACATCCCTCATTTTGGGTTACCAAATAAAGGGTTACGTTTAAAAGAAGGGATGGTTATTACAATAGAACCGATGATTAATGAGGGAAGCTGGCATAGTCAAATGGATAGCAATAATTGGACTGCCAGAACCATTGATCAGGGTCGTTCTGCACAGTATGAGCATACGATAGTAATAACAAAAGATGAACCCATTATACTTACAGAGCAAGATAAATGA MITRKSKREIEKMQKAADVLVKCHKEIAKIIKPGITTMEIDAFTESFLKKHGATPEQKGFNGYPYAICASINDEICHGFPRHEKLKDGDIVTIDMVVNVDGGLADSAWTYAIGNVDEKGLRLMEVTKTSLYKGIEQARAGKRIGDIGHAIQQYAEGEGFSVVRDFTGHGIGPTLHEDPHIPHFGLPNKGLRLKEGMVITIEPMINEGSWHSQMDSNNWTARTIDQGRSAQYEHTIVITKDEPIILTEQDK PGPT0020010_8705 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 AK015_04144 2169 yhgF COG2183 Protein YhgF GTGGCAAATGAAATGAATCAAGAATTAAGTTTGTGGGTTGCGAATGAAACGAAAGTAAATGTACCCATTGTAAATAAAGTCATTGCTTTACTAGAAGATGGTAACACGGTTCCATTTATTGCCCGTTACCGAAAAGAAGCTACTGGTGGATTAGATGAAGTACAAATTAAATCTGTTCAAGATAAATGGAATTATGCCGTTCACTTAGCGGAAAGAAAGCAGGAAGTTTTACGTAGCATTGCTGATCAAGGGAAGTTAACAGATGAGCTACAGCAGGAAATAATAGCGGCAACGCAATTACAACGGGTGGAAGATTTATACCGTCCTTATAAACAAAAACGCCGGACAAGAGCCACGATTGCCAAAGAAAAAGGATTGGAGCCGTTAGCTGAACTTGTTTGGAGGCAAGAAATTACAACGCTGGCTAATGAAGCAACGAACTATCTTTCAGAGGAACACGAGTTACATACCGTAGAAGATGCCTTAGCTGGCGTAAATGATATTATTGCCGAGTGGATAGCTGATGACCCTGGGTATAGAGAATATATGCGTGAAGAGACGATGAAACGAGGTATGGTCGCATCAGAAGTGAAAGATCGTGAAAAAGATGAAAAACAAGTATATGAAATGTATTATGATTTCCATGAGGCAGTTCGTTCTTTAGTATCACACCGGGTTCTCGCGCTTAATCGTGGTGAGAAAGAAGAAGTACTCAAAGTCACCATTCAACCTCCTACAGAACGGATTCTTGACTTTTTACAACAAAAAATAGTAACATCCTCTGCTCATGCTGATGTTTTGGAATTGTTACAACATGCGATTGAAGACAGTTATAAACGTTTAATTCAGCCTTCTTTAGAGCGTGAGATTCGAAACAACTTAACGGAAAAAGCAGAGCAGCAGGCAATAGAAGTGTTTTCCAAAAACTTAAAAAGCCTTTTACTCCAGCCGCCATTAAAAGGGAAAACAATACTGGGGGTAGATCCTGCATTTCGTACAGGTTGTAAGCTAGCCGTTGTGGATGAAACAGGCAAGGTACACCATGTTGGTGTTATGTATCCGACGGCACCAAGAAAAGATACGGCTGGTGCAAAAAAGATTGTTATGGATTTAATGAAGCAGTATTCAATTGAATTGATAGCGATTGGAAATGGCACAGCTTCTCGAGAGACAGAACAATTCATTGCCGATGTCATTCAAAATCAAAACCTATCGATTCCGTATATTATCGTGAATGAAGCAGGAGCAAGTGTGTATTCTGCATCGAAACTTGCGAGAGAAGAATTTCCTGAATTGCAAGTAGAAGAGAGAAGTGCAGTATCCATTGCGCGTCGTGTGCAAGATCCATTAGCAGAATTAGTAAAAATTGATCCAAAATCGATTGGTGTTGGACAATACCAGCATGATGTTAGTCAGAAAGCATTAAATGAATCGTTGACTTTTGTTGTAGAAACAGCAGTTAACCAAGTTGGTGTCAATGTGAATACCGCTTCTTCTTCTTTATTACAATATGTATCCGGATTAAGTAAGACTGTTGCTAATAACATCGTTAAGCGAAGAGAAGAAGAAGGAAAGTTTACGAACCGAAAACAATTAAAGAAAATCCCTCGTCTAGGAGCAAAAACATATGAACAAGGGATTGGTTTTTTACGGATCATGGATGGAGAACATGCTTTAGATCGAACCCCCATCCACCCAGAGAGTTATGCAGTAACGGAAAAGTTACTACATTTAATCGGTTGTTCCCTGGAAGATATTGGTGCAGATAAATTGAAAGAAGCTATTCAATCGATTAATACCAAAGAAGTTGCTAAACAATTAGAAGTAGGGGAACCGACGCTTCATGATATTGTCCAAGCGTTGACAAAGCCGGAGCGTGATCCACGTGATGATTTTCCACAACCAATTTTAAAGAAAAACGTATTATCGCTAGAAGACATTGAACATGGGATGGAATTACAAGGTACGGTACGAAATGTCGTCGATTTCGGCGTGTTTGTAGATATTGGCGTAAAGCAAGATGGGCTTGTTCATATTTCTAAAATGTCACATTCATTTGTGAAACATCCCATGGACATCGCCTCAGTAGGAGATGTTGTTACAGTGTGGGTAGAAGACATTGATGTGAATAAAGGAAGAATTGCATTATCCATGATTCAAGAGAAGTAA MANEMNQELSLWVANETKVNVPIVNKVIALLEDGNTVPFIARYRKEATGGLDEVQIKSVQDKWNYAVHLAERKQEVLRSIADQGKLTDELQQEIIAATQLQRVEDLYRPYKQKRRTRATIAKEKGLEPLAELVWRQEITTLANEATNYLSEEHELHTVEDALAGVNDIIAEWIADDPGYREYMREETMKRGMVASEVKDREKDEKQVYEMYYDFHEAVRSLVSHRVLALNRGEKEEVLKVTIQPPTERILDFLQQKIVTSSAHADVLELLQHAIEDSYKRLIQPSLEREIRNNLTEKAEQQAIEVFSKNLKSLLLQPPLKGKTILGVDPAFRTGCKLAVVDETGKVHHVGVMYPTAPRKDTAGAKKIVMDLMKQYSIELIAIGNGTASRETEQFIADVIQNQNLSIPYIIVNEAGASVYSASKLAREEFPELQVEERSAVSIARRVQDPLAELVKIDPKSIGVGQYQHDVSQKALNESLTFVVETAVNQVGVNVNTASSSLLQYVSGLSKTVANNIVKRREEEGKFTNRKQLKKIPRLGAKTYEQGIGFLRIMDGEHALDRTPIHPESYAVTEKLLHLIGCSLEDIGADKLKEAIQSINTKEVAKQLEVGEPTLHDIVQALTKPERDPRDDFPQPILKKNVLSLEDIEHGMELQGTVRNVVDFGVFVDIGVKQDGLVHISKMSHSFVKHPMDIASVGDVVTVWVEDIDVNKGRIALSMIQEK NA NA NA NA NA AK015_04145 1464 katA COG0753 Vegetative catalase GTGGATACAAGAAACCGAATGACAACAGCAGCAGGCGCGCCAGTAGCTGATAACCAAAATTCTATTACAGCAGGACAACGTGGTCCTACTCTTATACAAGACTTTCATTTGCTAGAAAAGCTAGCTCACTTTAATAGAGAAAGAATTCCTGAACGTATTGTTCATGCTAAAGGTGCAGGTGCTTATGGCTACTTTGAAGTAACGAACGATGAAATTTCCAAATACACCAAAGCTGATTTTTTAAGCGAAGCAGGTAAACGTACAGATTTATTTATTCGCTTTTCTACAGTAGCAGGTGAATTAGGGTCTGCCGACACGGTTCGTGACCCACGTGGTTTTTCTGTTAAATTTTATACAAATGAAGGAAATTATGATTTAGTTGGCAATAATACACCTATATTTTTCATTAGAGATGCAATTAAGTTCCCTGACTTTATTCATACACAAAAACGAAATCCACAAACACATTTAAAAGATAAAGATATGGTTTGGGATTTCTGGTCACTTTCTCCTGAGTCACTTCACCAAATCACTTACTTGCATGGCGATCGTGGAATCCCTGCAACATTCAGACATATGAATGGCTACGGTAGTCATACATTTAAATGGGTTAATAAAGACGGAGAAGCTTTTTGGATAAAATATCATTTCATTAGTGAACAAGGTGTAAAAGGGCTTGAGGCTTCTTTAGCAGAGAAGATTGCCGGAGAAAATCCAGATTATCATATAGAAGATTTACACAACGCTATTGCAAACGAAGATTTTCCAGTATGGAAGTTATATGTACAAATCATGCCTTATGAAGATGCGAAAACGTATAAATGGGATCCTTTCGACGTAACTAAAGTATGGTCGAAAAAAGATTATCCACGTATTGAGGTTGGAAGAATGATCTTAAATCGCAATCCTGAAAACTATTTTGCTGAGGTCGAACAAGCAGCTTTCTCACCTGGACAATTTGTACCAGGAATTGAAGCTTCTCCAGATAAAATGCTACAAGGACGTCTATTTGCATATTCTGATGCACACCGTTATCGCCTTGGTGTAAACCATCACCAAATTCCGGTTAACCGTCCAAAAGCAGAAGTCAATCATTACCAAAGAGATGGATTTATGGCAGTTAATGGAAATGGCGGATCTAAACCAAACTATGAACCGAATAGTGTAAATGGTCCAGTAGAGGATCCAACAGCAAAAATAAAACCATTTGACGTCTATGGTGAAGCTGATAGTGTACCGTATGACAGTGATGACCATTATACACAGGCTGGAGATTTATATCGTTTAATGTCTGCTGATGAAAAAGATCGTTTAATTCAAGCATTTGTTGATCACATGAAACCCGTAACAAGAGATAAAATAAAACTTCGCCAAATTGAACATTTCTATAAAGCTGACGCTGAATGGGGCGAGCGTATTGCACAAGGGCTTGGACTTCAAGTTCCAGAAAGTGTAAAATCCTAA MDTRNRMTTAAGAPVADNQNSITAGQRGPTLIQDFHLLEKLAHFNRERIPERIVHAKGAGAYGYFEVTNDEISKYTKADFLSEAGKRTDLFIRFSTVAGELGSADTVRDPRGFSVKFYTNEGNYDLVGNNTPIFFIRDAIKFPDFIHTQKRNPQTHLKDKDMVWDFWSLSPESLHQITYLHGDRGIPATFRHMNGYGSHTFKWVNKDGEAFWIKYHFISEQGVKGLEASLAEKIAGENPDYHIEDLHNAIANEDFPVWKLYVQIMPYEDAKTYKWDPFDVTKVWSKKDYPRIEVGRMILNRNPENYFAEVEQAAFSPGQFVPGIEASPDKMLQGRLFAYSDAHRYRLGVNHHQIPVNRPKAEVNHYQRDGFMAVNGNGGSKPNYEPNSVNGPVEDPTAKIKPFDVYGEADSVPYDSDDHYTQAGDLYRLMSADEKDRLIQAFVDHMKPVTRDKIKLRQIEHFYKADAEWGERIAQGLGLQVPESVKS PGPT0014380_4362 DIRECT EFFECT STRESS_CONTROL|BIOCONTROL NEUTRALIZING_ABIOTIC_STRESS NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781 NA NA AK015_04146 465 Protein SprT-like protein ATGATAATAGTAAATGATAAAGAACTATATCACTTCGTAAATGATGTATCCCTTAACTGGTTCAATAAACCATTCTTTCATAAGGTTAAATTCAATCACCGCTTAAGAACGACAGGTGGGAGATATATTCCTGCTAAAAAAATGATTGAATTAAATCCAAAATACTTGGAAGAGGCAGGAGAACAAGCGTTTATAGGGATTATTAAACATGAACTTTGCCATTATCACTTACATATAGAAGGAAAAGGTTATAAGCATAGCGATCGTGATTTTAAAGAATTAATGTCTGCGACAAATTCTCCAAGGTTTTGTCAGCCATTACCTTCGCAGAGAGAATATAAATATATATATGCTTGTAAAACTTGTCATCAAACGTTTAAACGTCAGCGGAAAATGAGTACAAATAAGTATAGATGTGGCAAATGTAAGGGGAGAATAGCTTTAGTAATGGAGAAAGGTATATGA MIIVNDKELYHFVNDVSLNWFNKPFFHKVKFNHRLRTTGGRYIPAKKMIELNPKYLEEAGEQAFIGIIKHELCHYHLHIEGKGYKHSDRDFKELMSATNSPRFCQPLPSQREYKYIYACKTCHQTFKRQRKMSTNKYRCGKCKGRIALVMEKGI NA NA NA NA NA AK015_04159 480 argS_3 Arginine--tRNA ligase ATGGAAGAAGTAGGCGTTGATGCCATGCGTTACATGATGAATACGCGCTCCTGTGATACGCATTTGGATTTTGATATAAATCTTGCTCGTTCCCAATCGAATGACAACCCGGTTTATTATGTACAATATGCGCATGCACGAATTTGTACGTTATTAGATAAGGCAGAAACAAATGGTTATGCTTATGAAAAGTATGACAGTTCTTTATTAAAACAAACGAGTGAAATAAACTTGTTAAAGCTATTAGCTACATTTCCGCAACTGGTGTTGGATGCTGCGGAGAAACGAATTCCGCATAAAATAACCCAGTACGCATTTGATGTAGCATCTCAATTGCACAGTTTCTATAATGCAGAGAAAGTGTTAGATGAAAGTCAGTTAGAAGTAACGAAAGCAAGGCTAGCGTTGCTAGAAGCAGTTAAAATAACGCTTGATAATGCGCTTCGTATGGTTGGTGTACATGCACCAGAAAAAATGTAA MEEVGVDAMRYMMNTRSCDTHLDFDINLARSQSNDNPVYYVQYAHARICTLLDKAETNGYAYEKYDSSLLKQTSEINLLKLLATFPQLVLDAAEKRIPHKITQYAFDVASQLHSFYNAEKVLDESQLEVTKARLALLEAVKITLDNALRMVGVHAPEKM NA NA NA NA NA AK015_04160 1230 arcA_3 Arginine deiminase GTGAAGCAACCATTACATGTTACGTCTGAAATTGGTGCACTACAAACGGTTTTGTTGCATCGACCTGGTAAAGAAGTTGAAAATTTAACCCCTGATTATTTAGAGCATTTGTTATTTGATGATATTCCTCATTTACCAATGATTCAAAAAGAGCATGATTATTTTGCTCAAACGTTACGAAATAGAGGTATTGAAGTACTTTATTTAACCAATTTAATGACAGAAGCGCTTCATACAGAAGAGTTAAGACAGCAATTTGTGAAGCAAATATTATTGGAATCGAATGTCCATGGTGGTAGTGCGCAAAAAATAGCTGATTATTTATTGTCGTTTGACACCGAAGAGATGGTAAAGAAAATTATGGCTGGTGTGAGAAAATCAGAAATTCCAGTGGAGAAAAGGAACCATCTATATGAATTGTTAGATAATCATTACCCATTTTATTTAGATCCAATGCCGAATCTTTATTTTACGAGAGATCCAGCGGCAACGATAGGTAATGGGTTAACGATTAATACCATGAGAGAAGTTGCAAGAAGGCGAGAATCGCTATTTATGAGTTATATCATTCATCATCATCCTAGGTATGCTGAGTTTGATATCCCTATTTGGTTGGATCGCGATTATCCGTGCCCCATAGAAGGTGGCGATGAGCTTGTTTTAAGCAAAGATACGATCGCCATTGGTATAAGTGCAAGAACGGCAGCAAAATCCATTGAGCAATTGGCTATAAATATTTTTAAACGCCAAAAGGAAATAAAGCGCGTTGTTGCTGTAGAAATTCCGAAGTCAAGAGCATTTATGCACTTAGATACCGTATTTACAATGGTTGATTTCGATAAATTTACCATCCACCCCGAGATTCAAAATAAAGATGGACAAATGGATATTTATATTTTGGAACAAGGGAAAGAAGAAGACACCGTAAAAATAACGCATAAAACGAATTTGTTGGAAACACTAAAAGAAGTACTGGGTCTAAAAGATGTTGCGTTAATCCCATGTGGAGGAGGAGACGTTATTGCTGCGCCGAGAGAGCAATGGAATGACGGTTCAAACACATTGGCAATTGCACCTGGTGTCGTTGTCACATATGACCGTAACTACGTGTCTAACAAATTGCTACGTGAACATGGCATTGAAGTTATTGAAGTCACTAGCTCTGAATTGTCGAGAGGTCGTGGTGGTCCGCGTTGTATGAGTATGCCGTTATCAAGAGAAGATTTATAA MKQPLHVTSEIGALQTVLLHRPGKEVENLTPDYLEHLLFDDIPHLPMIQKEHDYFAQTLRNRGIEVLYLTNLMTEALHTEELRQQFVKQILLESNVHGGSAQKIADYLLSFDTEEMVKKIMAGVRKSEIPVEKRNHLYELLDNHYPFYLDPMPNLYFTRDPAATIGNGLTINTMREVARRRESLFMSYIIHHHPRYAEFDIPIWLDRDYPCPIEGGDELVLSKDTIAIGISARTAAKSIEQLAINIFKRQKEIKRVVAVEIPKSRAFMHLDTVFTMVDFDKFTIHPEIQNKDGQMDIYILEQGKEEDTVKITHKTNLLETLKEVLGLKDVALIPCGGGDVIAAPREQWNDGSNTLAIAPGVVVTYDRNYVSNKLLREHGIEVIEVTSSELSRGRGGPRCMSMPLSREDL PGPT0020075_797 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478 NA NA AK015_04161 1020 arcB_3 Ornithine carbamoyltransferase, catabolic ATGGCGACAAAGTTAACGAAACAATTAACTGGTAAACATTTTTTGACATTAAAAGATTTTACAGCGGATGAGATTCATTATTTGCTTGATTTAGCAGCTGATTTAAAAGCAAAGAAAAAATCTGGCACGCCACACCATTATATGAAAGGGCAAAATATTGCCCTATTATTTGAAAAACCTTCTACCAGAACACGCTGCGCCTTTACAGTAGCATGCATTGATTTAGGAGCACATCCAGAATATCTTGGGAAAAATGATATTCAATTTGGGAAGAAAGAATCTGTTCGTGATACAGCCATTGTATTAGGAAGAATGTTTGACGGTATTCAATTTCGCGGATTTGATCAGGAAACGGTAAATGGTTTAGCGGAAAATTCTGGCGTTCCTGTTTGGAATGGGTTAACAAATGAATTCCACCCTACACAAATTCTTGCCGACTTACTAACGATAAAAGAACATATTGGACATTTGAAAGGTGTTAAGTTCGTTTATGTTGGTGATGGTAGAAACAATATGGGAAACAGCTTATTAATCGGCTGTGCGAAGGTTGGTATGGATGTTCGCATTTGCTCTCCAGAGGTATTATTTCCGGATGAGGATGTAGTTCGTTACGCGGAAGAAGTGGCAAAAGATTCTGGAGCAAACATTACGATTACTTCCGATATTGATGAAGCCGTTTCTGGAGCTGAAGTGATTTATACTGACGTGTGGGTATCTATGGGAGAAGAAGATAAGTTTAAAGAGCGAATTGATTTACTTTACCCATATCAAGTAAATAAAGCAATGCTTGAGAAAACAGGTAATCAAGACAATGTCATGTTCCTCCATTGTTTACCGAGCTTTCACGATTTAGAGACAGAAGTAGGACGAGATATACACGAAAAGTTTGGTTTAAAGGAAATGGAAGTAACGGATGAAGTATTTCAAAGCAAAAATTCATTTGTCTTTGATGAAGCAGAGAACAGGCTGCATACGATTAAAGCCGTAATGGCTGCAACGAATGGAAATGAAACTAGCTAA MATKLTKQLTGKHFLTLKDFTADEIHYLLDLAADLKAKKKSGTPHHYMKGQNIALLFEKPSTRTRCAFTVACIDLGAHPEYLGKNDIQFGKKESVRDTAIVLGRMFDGIQFRGFDQETVNGLAENSGVPVWNGLTNEFHPTQILADLLTIKEHIGHLKGVKFVYVGDGRNNMGNSLLIGCAKVGMDVRICSPEVLFPDEDVVRYAEEVAKDSGANITITSDIDEAVSGAEVIYTDVWVSMGEEDKFKERIDLLYPYQVNKAMLEKTGNQDNVMFLHCLPSFHDLETEVGRDIHEKFGLKEMEVTDEVFQSKNSFVFDEAENRLHTIKAVMAATNGNETS PGPT0020080_644 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 AK015_04162 1428 arcD_2 COG0531 Arginine/ornithine antiporter ATGAGTGAAGATGAAAAAAAGCTAGGGCTAGTGGCGCTTATTGCGCTAGTTGTCGGTTCCATGGTTGGAGGAGGAGCATTCAACTTAGCTGGAGATATAGCACTTGGATCTAATTCCGGTGCAGCCATTATTGGCTGGATTATTACAGGCATTGGTATCGTAGCCCTTGCCTTTGTCTTTCAAAATTTAACTCAAAGGAAACCAGAATTAGATAGCGGTATTTATAGCTATGCAAAAGCTGGGTTTGGAACATTTTTAGGATTTAATAGTGCATGGGGTTATTGGCTATCGGCGTTTTTAGGGAATGTAGCTTATGCTACATTAGTTTTTTCATCAATTGGTTACTTTATCCCCATGTTCGAAGGCGGTCAAAATGTCGCTAGTATTATCGGTGCTTCCGTCGTTTTATGGTCCGTGCATTTTCTTGTTTTACGTGGTGTCAGTTCAGCTGCGCTTATTAATACAGTAGCAACGATTGCCAAAGTGATTCCTATATTTTTGTTTATTATTATAGCGATCATTGCGTTTAAATGGGATACATTTTCATTTGAGTTCTGGGGCAGTGAAGGTTTTAGTTGGGCCTCTGTTGGTGAACAAGTTAGAAGCATGATGTTAGTTACTTTATGGGTATTTATCGGTGTTGAAGGTGCTGTTGTAATGTCAGGTAGAGCAAGAAATCGCTCTGATGTTGGGAAAGCCACAGTAATTGGGTTAATTAGTGTGCTTTTAATTTACATTTTAATCTCTTTGTTATCGTTAGGGATTATGTCAAGAGAAGAATTAGCTAATTTACCAAATCCTGCAATGGCTTATGTGTTAGAAGAAATTGTTGGGAAATGGGGAGCTATTGTTATTAACCTTGGTCTAATCATCTCGGTTATGGGAGCTTGGCTTGGTTGGACGTTGTTCGCAGCGGAGTTACCTTATGTCACGGCAAAAGACAAAGTGTTTCCTAAATGGCTAGCAAAAGAGAATAAAAATCACGCCCCCGTCAATTCGTTATGGTTAACCAATGGGCTTATCCAACTATTTCTGATAACGCTTTTATTTTCTGAAGCAGCATATAATTTTATGTTCTCTTTGGCAACTTCAGCTATCCTTATTCCCTATATGTTATCGGCTTTTTACCAAGTAAAATTGACCATGACAGGTGAAGGATATGAAGTAGGAGAAAAACGTATCAAAGAGAAAGTGATTGGTTTTATTGCGAGCATTTATGCTTTGTGGCTCGTATATGCTGCTGGAATAAGCTACTTGCTTTTAACCATGTTGTTATATGCTCCAGGGATTATTCTTTATAAACGGGCGTTAAAAGAAAATGGCATTCAAAAGCAAGACACGAAGGTAGAAAAATCGCTAATGATTGCATTTGTTGTCTTAGCAGTAATTGCAATAGGTGGCTTAGTTACTGGCAGGATAACCATCTAA MSEDEKKLGLVALIALVVGSMVGGGAFNLAGDIALGSNSGAAIIGWIITGIGIVALAFVFQNLTQRKPELDSGIYSYAKAGFGTFLGFNSAWGYWLSAFLGNVAYATLVFSSIGYFIPMFEGGQNVASIIGASVVLWSVHFLVLRGVSSAALINTVATIAKVIPIFLFIIIAIIAFKWDTFSFEFWGSEGFSWASVGEQVRSMMLVTLWVFIGVEGAVVMSGRARNRSDVGKATVIGLISVLLIYILISLLSLGIMSREELANLPNPAMAYVLEEIVGKWGAIVINLGLIISVMGAWLGWTLFAAELPYVTAKDKVFPKWLAKENKNHAPVNSLWLTNGLIQLFLITLLFSEAAYNFMFSLATSAILIPYMLSAFYQVKLTMTGEGYEVGEKRIKEKVIGFIASIYALWLVYAAGISYLLLTMLLYAPGIILYKRALKENGIQKQDTKVEKSLMIAFVVLAVIAIGGLVTGRITI PGPT0020620_563 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 AK015_04163 945 arcC1_2 Carbamate kinase 1 ATGGCGAATGAACGTATTGTGATTGCACTAGGCGGTAATGCGATTCAGTCTGGTAGTGCAACGGCTGAAGCACAGCAACAAGCGTTAAACCATACGGCAAAACAGTTAATAGAAATTATTAAACAAGGCTACCAAGTAGCTATTACACACGGTAATGGTCCTCAAGTAGGAAATATTTTATTACAACAAATTCAATCTCATAGTGAACAGACGCCTGCGATGCCTTTGGATACGTGTGGGGCAATGAGTCAAGGAATGATTGGTTATTGGTTGGAGAATGCACTTTATGGTCAGTTGCATGAAGCTGGGCTCAACAACCAAGTAGCTACGGTTGTAACTAGAGTAGAGGTTGATCCAGATGATAAAGCTTTTCAACAACCGACCAAACCAATTGGTCCGTTCTATTCGGAAAACGAAGCAAAAAAACAAATGGAAAAGAATGATATTACATTTAAGGAAGACGCTGGAAGAGGATGGAGAAGAGTAGTTCCTTCGCCTCAGCCTTTGAGAATTTTAGAACATGAAGTCATTAAAGCTCTAATGGATAAGGAAACGATTGTGATTAGTACTGGTGGCGGTGGTATTCCAGTTTATTCAAAGAATGAGCAGATTATCGGTGTAGAAGCTGTGATAGATAAAGATTTTGCTTCCGAGAAATTAGGAGAGCTCATTCAAGCAGATAAGTTAGTAATTTTAACTGAAGTAGAACATGTATATGTAAATTATCAAAAACCAGAGCAAAAAGTGCTCGAACAAGTTACCACAACAGAATTACGAAGATATGCGGAAGAAGGTCAATTCGCTGCAGGTAGTATGTTGCCAAAAATAGAAGCTGCCATTACATTTGTTGAATCGAAACCTGGTAGAAAATGTATTATTACTTCGCTAAGTAAAGCTGCTGAAGCTGTAGGAGAAAATGCTGGAACAGTTATCCAAAATGAATAG MANERIVIALGGNAIQSGSATAEAQQQALNHTAKQLIEIIKQGYQVAITHGNGPQVGNILLQQIQSHSEQTPAMPLDTCGAMSQGMIGYWLENALYGQLHEAGLNNQVATVVTRVEVDPDDKAFQQPTKPIGPFYSENEAKKQMEKNDITFKEDAGRGWRRVVPSPQPLRILEHEVIKALMDKETIVISTGGGGIPVYSKNEQIIGVEAVIDKDFASEKLGELIQADKLVILTEVEHVYVNYQKPEQKVLEQVTTTELRRYAEEGQFAAGSMLPKIEAAITFVESKPGRKCIITSLSKAAEAVGENAGTVIQNE PGPT0020085_630 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_NUCLEOSIDE_METABOLISM PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926 NA NA AK015_04164 471 argR_3 COG1438 Arginine repressor ATGAATAAAAAAGAACGCCAAGAAAAAATTTGTGCACTTATACGAACCAACGAAGTGCGTACGCAAAAAGAATTACGTGAATTATTAAAGAATCAGGGGTATGATGTTACACCAGCAACCATTTCAAGAGATATGCAAGAAATACAAGTGAGGAAAGAGTATTCACCAAATGGTGTGGAGAGTTATCATTTACCCAGCAGTGTAAAAGAAAAATCATCAACCATTCAAAAATTACAACAGTTTTTTTCGGAAGCGATTCAATCCATCGAAGTGTCGGGAATCTTTGTCATTATTAGAACAGATCCAGGCAATGCGAAAGCCATTGGATATATGATGGAATCGTTAGAATGGAAGCAGCTAGCAGGTGTCATTAGTGGTGATGACAATTGTTTATTACTATGCAAAACAGAATCTGAAGCAGAAAAAGTAAAAAAGAAGTGTTTGGAAATATGGGGGAAAGATAAAAATTAA MNKKERQEKICALIRTNEVRTQKELRELLKNQGYDVTPATISRDMQEIQVRKEYSPNGVESYHLPSSVKEKSSTIQKLQQFFSEAIQSIEVSGIFVIIRTDPGNAKAIGYMMESLEWKQLAGVISGDDNCLLLCKTESEAEKVKKKCLEIWGKDKN PGPT0020105_1186 DIRECT EFFECT COLONIZING_PLANT_SYSTEM COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE PLANT_DERIVED_AMINO_ACID_UTILIZATION PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402 NA NA AK015_04165 345 hypothetical protein TTGAAAAATAGGTCGAACTTATTAATTTTTATTATTATGATTATTATACTATTAGGAGGTTGTAATTTGAACCAAAATAATGATAAGTACGATGAAGAAACAATCTCTAAAGCTAAAGAAACAGCCAAAAGTTACATCAAAAACAACTATAAAGACGTTCAATCTATTGAAGTTGAAGAACCTTACCAGGCACCAATGGGAAGTATGACAGTGGATGGAATTGTGAATGGTGAATTTGGATTCTCGATAAGTTTAAATGAAGATTTTACAGTATCAAGAATTGGAGAAAATGAAGGGTTTCCAGAGGAAAAAGAAGAGTGCAAAAAAGAGGTTTGTGATTATTAA MKNRSNLLIFIIMIIILLGGCNLNQNNDKYDEETISKAKETAKSYIKNNYKDVQSIEVEEPYQAPMGSMTVDGIVNGEFGFSISLNEDFTVSRIGENEGFPEEKEECKKEVCDY NA NA NA NA NA AK015_04166 390 hypothetical protein ATGAAGGAAGAACAAAGTTACGTGGGAACCGAGAGAGTTACAGGGAGATACGTAATTCCATTTGTAATCCCACTAATAATGTCTCTATGGACTAAGCTACAAGGGTCAGTGGAAACATCAAATGCTTTCTTTTTTTATGGTGTAATTGCATTTTTCTTAGGTCTAACGAGCATAATATATCAAATTAACCAATGGAGTTTTACAAAACAAATTATTGCTCATTATGGGGCGATGCTGATTACGGTTTTTCCAACTCTACTTTTTAGCGGTTTTTATCCTCTTAATTATTTTGTGGATTTATTAATTTATCTAAACTTTAATCTAACAGGAATTATGTTGTTTTTCTTAACTTATTTCCTTTTTAAGCTAGTTAGTGTCGGAGCGGAATGA MKEEQSYVGTERVTGRYVIPFVIPLIMSLWTKLQGSVETSNAFFFYGVIAFFLGLTSIIYQINQWSFTKQIIAHYGAMLITVFPTLLFSGFYPLNYFVDLLIYLNFNLTGIMLFFLTYFLFKLVSVGAE NA NA NA NA NA AK015_04167 525 hypothetical protein GTGGTCCAGTCTTTTTCTATGTATCCAATAACCCACCAATCTTTTGTAGGTCATGTCATTGCTGATTCTCTCGGAGGGGTCTCGAATGCTTATAATATAACGCCACAAGATAGTACGCTCAACCGACATGGTGATCAAGCATACATGGAGGACTCAATCCGAAAAGCAGGTGGGGCAACCAACTTTGAAGCAACTATTACTTATCCGGATACGGCAACGCAGATTCCTTCACATTATAAGTATACTTACACTTTGAAAGGGAATAAGATTGTAGATGAGTTTGATATCGGCAACCCTGATAAAGTAAACGAATCACTTGGATTGACCGGAAATAAGGACTCCGAGTGCGTATCAGCAAGTTCTTCCAAAAATGAAGGGGATCTTTCTAGTGTTGATACAAACGGTAATGGACAGGTGACAATCGCAGAAGCAAAAGCAGCTGGTTTCAGTATGCCAATCATCAGTACTCACTGGCTATACCCCTACATGGACGACCGTGATAACGACGGCATGGTAGGTGAGTAG MVQSFSMYPITHQSFVGHVIADSLGGVSNAYNITPQDSTLNRHGDQAYMEDSIRKAGGATNFEATITYPDTATQIPSHYKYTYTLKGNKIVDEFDIGNPDKVNESLGLTGNKDSECVSASSSKNEGDLSSVDTNGNGQVTIAEAKAAGFSMPIISTHWLYPYMDDRDNDGMVGE NA NA NA NA NA AK015_04168 870 yddE_2 COG0384 putative isomerase YddE ATGAAATTGAAAGTATATACAGTAAATTCATTTGCTAAAACATTAGAAGGAGGCAATCCAGCCGGAGTTGTGATTGAGGCGGATTCTTTATCAGATGAAAGTATGAAAAAGATAGCAGGAGCAATTGGTTTTAGTGAGACAGCCTTTGTCATGAAGTCAGAATCAGCACATTTTAAAGTAAGGTTTTTTACCCCTGAAGAGGAGGTAGAACTTTGTGGACACGCTACCATCGCAACATTTTATGTACTTTTAAGGAAGGGTTTAATTAATCCTGGAGTATTTCTTCAAGAAACGAAGGCAGGAATTTTAAGTGTGGAGGTAAGGGAGGATTCAACTATTATGATGGAACAAAACACTCCAAGTTTTTATGAGATCATAAATAAAAAGGAAATAGCTGATTCCTTGAACATTACTGAAAATGAAATGATAGATATACTCCCGGTGCAAATCGTTTCAACGGGCCTCAGGGATATACTTATTCCTGTGAAAAATATCGACATATTAAATTCAGTTAAACCAAATTTTGAAGAAGTATCCCGAATTAGCAGTAAATATAATACTATAGGATATCATGTTTTTACATTTGAATCTCTCTTTGGCTCCAATGCTTACTGCAGGAATTTTGCACCATTATATGGTATATATGAGGAGTCAGCTACTGGTACCTCCAATGGTGCCCTTGCATGTTATCTATACAAGTACGGAAACACCAAAAAGAGGTGTGATCACCAATTTGTGATGGAACAAGGTTATTCAATGAGAAATCCTTCAGAGATAATTGTGGAATTAATAGTTGAGGGACTAGAAGTAATTGGAGTCAAAGTTGGTGGAAAGGTATTGAATTTATCGGAATTTGAAGTGGAAATATAA MKLKVYTVNSFAKTLEGGNPAGVVIEADSLSDESMKKIAGAIGFSETAFVMKSESAHFKVRFFTPEEEVELCGHATIATFYVLLRKGLINPGVFLQETKAGILSVEVREDSTIMMEQNTPSFYEIINKKEIADSLNITENEMIDILPVQIVSTGLRDILIPVKNIDILNSVKPNFEEVSRISSKYNTIGYHVFTFESLFGSNAYCRNFAPLYGIYEESATGTSNGALACYLYKYGNTKKRCDHQFVMEQGYSMRNPSEIIVELIVEGLEVIGVKVGGKVLNLSEFEVEI PGPT0012805_269 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 AK015_04169 312 arsR COG0640 Arsenical resistance operon repressor ATGGAACTTACAAAAAATTTAAATGAAGATACAGCACTCGATTTTTATGAAAAGATGTTTAGTGCTTTAGCTGATAAAATTCGGCTTAAAATTATTAATGAAATTAGCAAAAGTCCAAACATGAATTTATGTGTCTGTGATTTGGAAGAAAAATTAGAATTACAACAATCCAGGTTATCTTATCACCTAAAGAAATTAGTTGATGCCAACATACTTATACCTGAAAAACATGGCACTTGGAATTACTATCGAATTAATGAAGAACAAATACAAGTTGTTTTATCCGAAAATACTTGTTGTAAGATTTTTTAA MELTKNLNEDTALDFYEKMFSALADKIRLKIINEISKSPNMNLCVCDLEEKLELQQSRLSYHLKKLVDANILIPEKHGTWNYYRINEEQIQVVLSENTCCKIF PGPT0004735_4702 DIRECT EFFECT BIO-REMEDIATION HEAVY_METAL_DETOXIFICATION HEAVY_METAL_ANTIMONY_RESISTANCE ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892 NA NA AK015_04170 885 COG0701 Putative two-component membrane permease complex subunit SMU_747c ATGGCAGATTCCCTTATCGAATTTATAAAAACATTTCTCATGCTATCTGTTGAATTACTCGCCTTATTTATTGTCGTTAGTTTCATTGTGAGTTTAATTCAACAAGTTGTATCAGAGGAAAAAATCAAACGATTCTTAAACCGGCCAAACAAAGCTGTGAATTATATACTCGGCACATTCTTTGGCGCTGTTACACCATTTTGTTCCTGTTCAACTATACCTATCGTTGCTGGATTATTAAATTCAAAAGTGCCATTTGGTCCGTCGATGAGTTTTTTAATAGCTTCACCATTAATGAACCCAGTTATGATTTTCATGCTTTGGGCACTCTTGGGCTGGAAAATTGCACTTGTATATTTTATTATACTAAGTATTTTCAGTATTTTAGCAGGGCTTGTATTTTCAAAATTTCATTTGTTAGAAACATATAAAGGTGTAACGGTTAAAGGAGACGGCTTTTTCAGTAATCACCAAGGGTCTAAAATGAAGCGAGCTTTGAATGATGCATGGGCATTTCTTTTTCCAATGCTTCCCTACTTATTTATAGGGGTATTTATCGGAGCGTTTATTTATGGATTTATCCCGGCAGATTTCATTACAAAATACGCCAGTGGTGATGGTATATTTTCAGTTATGATTGCTTCTGTTATTGGGATTCCCATGTATATTCGCCCTGAAACGATGTTACCGATTGCGGAAGCGCTGGTCTCAAAAGGTATGACAATGGGAACTGTTATTGCATTAGTTATTGGCGGTGCAGGCGCAAGTATTCCAGAAGTAATTATGTTATCCAAATTATTTAAAAAGAAGTTTTTAGTAGCATTCATTGCAACTATTTTAATTGTAGCTATAAGTACTGGTCTTATAATTAATTCAATCTATTAA MADSLIEFIKTFLMLSVELLALFIVVSFIVSLIQQVVSEEKIKRFLNRPNKAVNYILGTFFGAVTPFCSCSTIPIVAGLLNSKVPFGPSMSFLIASPLMNPVMIFMLWALLGWKIALVYFIILSIFSILAGLVFSKFHLLETYKGVTVKGDGFFSNHQGSKMKRALNDAWAFLFPMLPYLFIGVFIGAFIYGFIPADFITKYASGDGIFSVMIASVIGIPMYIRPETMLPIAEALVSKGMTMGTVIALVIGGAGASIPEVIMLSKLFKKKFLVAFIATILIVAISTGLIINSIY NA NA NA NA NA AK015_04171 1062 COQ5_6 2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial ATGAATAATGTGGAATCTTCAGTAAATAACCGTTATAGTAATGCAGCAAGGAGTAATGAATCTAATCTTTGTTGTCCAGTAGAATATGATACTAAATATTTAAAGATTATTCCAGATGAAATCATAGAAAAGGACTTTGGATGTGGTGATCCATTAGGTAAAATAAAAGAAGGAGATACTGTTTTAGATTTAGGATCTGGCGGTGGCAAAGTTCCTTATATTGTCTCACAAATTGTTGGCGAAACCGGAAAAGTTATTGGCGTAGATATGAATGACGATATGCTTGCTCTTGCTAAAAAGTATCAGCAAGAAATAATTGAAACTTTGGGTTATGATAACGTTACGTTCCATAAAGGTAAAATTCAAAATTTAAAATTAAATTTAGATGAATTGAACAAATATATAGAAACTAATCCAGCAACCAATATACAGGATTTTAATGCTATTAATGATCATATTCATTACTTAGAAGAAAAACTACCAATGATTGAAGATAATAGTATCGATGTAGTCATTTCGAATTGTGTGTTAAATCTTGTTTCAACTAAGGAAAAAGAACAATTGTTTAATGAAATATATCGGGTTTTAAAAGATGGTGGTAAAGCTATTATATCTGATATTGTATCTAACATCGTTGTTCCAGAACAAATGAGAAACGATGAAAATCTATGGAGTGGCTGCTATTCAGGAGCAATGGAAGAAAATGAATTTATAAGTGCATTTGAAAATGCTGATTTTTATGGCATTGAAATTGACAAACGGGAAGATACATGGACTACTATTAATGACATCGATTTTAGAAGTATGACTGTTATAGCACGTAAGGGGAAAGAAGGTCCTTGCATTAATAAAGGGCAATCCGTTATATATAAAGGTCCTTTTAAACACATTGAAGATGACGATGATCATATTTATCAGAGGGGTGAAAGGACTTTTGTATGTGAAAAAACATTTAACATTTTACAACAAGAACCTTATGCACAACTCTTTGAGTTCTTAGATGAGAATAAAAGTCAAGTTGATAGCAATGATGAATGTTGTACACCAACATGTAATTGCTAA MNNVESSVNNRYSNAARSNESNLCCPVEYDTKYLKIIPDEIIEKDFGCGDPLGKIKEGDTVLDLGSGGGKVPYIVSQIVGETGKVIGVDMNDDMLALAKKYQQEIIETLGYDNVTFHKGKIQNLKLNLDELNKYIETNPATNIQDFNAINDHIHYLEEKLPMIEDNSIDVVISNCVLNLVSTKEKEQLFNEIYRVLKDGGKAIISDIVSNIVVPEQMRNDENLWSGCYSGAMEENEFISAFENADFYGIEIDKREDTWTTINDIDFRSMTVIARKGKEGPCINKGQSVIYKGPFKHIEDDDDHIYQRGERTFVCEKTFNILQQEPYAQLFEFLDENKSQVDSNDECCTPTCNC NA NA NA NA NA AK015_04172 135 hypothetical protein ATGGAAAAAAATATCTTTAAAAAAGCAATTTCTAGATTAAAACCCAAGCAACAAGAATGTTGCTCTGTTCAAATTGAGGAGAATAAGCAAGAATCTGATTCAAAGAAAGAACAAAGTAACAACAACTGCTGTTAA MEKNIFKKAISRLKPKQQECCSVQIEENKQESDSKKEQSNNNCC NA NA NA NA NA AK015_04173 168 hypothetical protein ATGAGGGAGCATAATTTTTATGCTCCCTTTTTAACTATAGGGAAAATATCTTTAGGTCTGAATGTATTAGGCGTAACATTTTTGGATTGTTCTGAAGTAGATATTTTCGGTGTATGGCATTGCAAAATCATTAACAGACTCGTCACAAAAAAATACAATGAATGGTAA MREHNFYAPFLTIGKISLGLNVLGVTFLDCSEVDIFGVWHCKIINRLVTKKYNEW NA NA NA NA NA AK015_04177 1863 hypothetical protein GTGAACACAGAAAAAGATTTAAGAAGAAAGTATAGCGAGCTTCTATTTGCCAAGCAAAATGAACAGAGGTATCCAGACCAGAAAGGCTATGTAAAAGAGCGTGAGAAGATAGAAAGGCAGTATTGGGATGCCGTACTTAGATCGAAGTTACCAAAAGAACAGTTAGAAGCAATGGAAAAACAGGTGATCAATGAGCTTGAAGAATTTGCTGGCTTGTACAAACAAAATGTGAAGAATGATTTAGACAGTGATAAAGACAGAGAAGCTTTTAAAAAGCTGTTCATGCAAAAAGTTTTGGAAGAGTTAAGTGAGCCTGAACCAAATCAGCAAAAAGAAGCGACTCCATTTAACAAGCAGCAATACGAAGTCAAAGCGAAGGAATTCGAACAAAAATATGGATATGATGTTGTTTATGCGCTTAAGAGAGAAGTATTGGATGAAATCAAAGAAATGGATTTAACGCCAGCTCAACAGGAAAAACTTCAGCAGATAGAAACAGAATTAGAAAAAGAAAGAAAAATGCACCAAGAATTAGTGGAAACGCAAAAAAACAGCAAAAAAGAAGCGAGTAGTCAAAGGGCTAATAATAGAACGATGGAAGCTCCCTATAAACAGAGCGAGTTTTTAACTGGAGTTGAAAATGATTATACGCGTAATAATAAAATAGATAAAAAGCAACAAGTTGAACATTTGACGAATGAAATAGAACAGGATATTGAAGATTATTTTGCAACTCCTGAACGTCTCAAAGAATATTTATCATTTATAGGAAATTTTCATCAATATTCCTTTAGAAACACAGCATTGATTCACAGCCAATTTCAGGGAGCAACAGCAGTAGCCAGTGCTAAGTTTTGGAAGGATAATGGTTTTCCGGTAAAGAAAGGGGAAAAAGGAATGCAAATACTCGTGCCAAATAAAACGGATCCCAAGTTTAAAACAGAGGATGGGAAATGGAAACGTATAGAGGATGCAACAGATGAAGAAAGAGAAAAATTAGAAGCAAATCAATTGGAGAAGAAAAGAAGCCGTCTTTCTTTTTCAGTGGGACATGTATTTGATATTAGTCAAACAGAAGCTACATCAAGTGATTTACCTCATATCTTTCCAAATAAACGGTTAGACGGAAAGGTGGAAAACCATAAAGCTACCCTGGAAAGTCTCAAAAATATGGCCAATGAAATGAATATATCAGTCGGAGAACCTTTTGAGGAACTAGGTGCTGCAAAAGGAGCTTTTTACTATGACAATTCTGGTAAAAGAAATGGGCACATTGGTTTGAATCCTCGGAATAGTGAATCGCAGAATGTTAAAACATTGCTACATGAATTAGCACATGCAAAATTACATCACGTAAAGCATAAAAATCACCAGAAGCTTTCTACTGCTGAAAAGGAATTCCAAACAGAAATGACTGCTTATACTGTAGCAAGTTATTTTGGTATAGATACAAGTGATTATTCTCTCAGTTATCTAGCAAATTGGACTAAGGGCAAGGATTTACACGACAAGGAAAAACTTTTACAAGAAGTAAGAGAAACAGCGACAGAATTTATTGGAGCAATGGAAGAAGGGTTAAATAAGCAAAAAACTATGCAGCATGAATTTGAAGAAAATAAGGATACAATTAATCATAAGAACAACTTATTCTGGTATGAAATGAAAGAAAGGCCGATAGGGGACAATTCTCAACCCAAAGGATTTGTGGATTGGAGAGAAGGTGAAGGAATGCATGGTATTGTAGCTTATGAAAGAAAGCTAACAGCTGATGAATTAGCTGAATTTGGGATGCACCCTTATGAAAAAAAGAAAACAAAAGAAAACAACAAACAAAAAGAAGCAGCTCTTTCTATGGAAGCTTAA MNTEKDLRRKYSELLFAKQNEQRYPDQKGYVKEREKIERQYWDAVLRSKLPKEQLEAMEKQVINELEEFAGLYKQNVKNDLDSDKDREAFKKLFMQKVLEELSEPEPNQQKEATPFNKQQYEVKAKEFEQKYGYDVVYALKREVLDEIKEMDLTPAQQEKLQQIETELEKERKMHQELVETQKNSKKEASSQRANNRTMEAPYKQSEFLTGVENDYTRNNKIDKKQQVEHLTNEIEQDIEDYFATPERLKEYLSFIGNFHQYSFRNTALIHSQFQGATAVASAKFWKDNGFPVKKGEKGMQILVPNKTDPKFKTEDGKWKRIEDATDEEREKLEANQLEKKRSRLSFSVGHVFDISQTEATSSDLPHIFPNKRLDGKVENHKATLESLKNMANEMNISVGEPFEELGAAKGAFYYDNSGKRNGHIGLNPRNSESQNVKTLLHELAHAKLHHVKHKNHQKLSTAEKEFQTEMTAYTVASYFGIDTSDYSLSYLANWTKGKDLHDKEKLLQEVRETATEFIGAMEEGLNKQKTMQHEFEENKDTINHKNNLFWYEMKERPIGDNSQPKGFVDWREGEGMHGIVAYERKLTADELAEFGMHPYEKKKTKENNKQKEAALSMEA NA NA NA NA NA AK015_04178 207 hypothetical protein ATGAACAAATTTTTCATTTCAACAATTTTTATTATCACAATTATACTATTAGGAGGTTGTGTTGTGAACTTAAACCATGAAGGTTTTAATGATGAAACAATTCGTAAAGCTGAAGAAACAGTTGAATTTAAAAAAAATAACTATAAAGATATCCGTACAGTAGATTTTGAAAAAGCTGATTATAGTACTCCTATGGGGAAAGAATAA MNKFFISTIFIITIILLGGCVVNLNHEGFNDETIRKAEETVEFKKNNYKDIRTVDFEKADYSTPMGKE NA NA NA NA NA AK015_04179 723 hypothetical protein ATGAAAAAAAGTAAAAAATACATTTTAACTGATGATTATTTACAAGATGTCTTAGTGAGGTTGGCTCATCATTCATCTGCAATAGAGGGGAACACAATTAGTCTAGCTGATACGGTTTCCATTATTCTTTACGATACAATACCAGGAAACACTTCAAAAAGAGAATATTTTGAAATAGAAAACCATCGAGAAGCATTTAGATATGTCATTGATCATGTTGCAAATGGAGAAGAGATGTCTATTACCGTTATTAAGGACATACATGAAAGACTTACGGATCGCTTATTAGTAGATAAAGAACAATTTAAGCAATCAGAAAATGCTATTTTTGGGGCTGAATTCCCTACAGCAAGTCCCCAGGAAACTCCTATATTAATGAAACAATGGGTAGATAAATTGAATTACCAGTTGAAACACGCACAATCACAGAAAGATATAATAAGTGTTGTTGGTGACTTTCATATCCAATTTGAACGCATACATCCTTTTTCTGATGGTAATGGCCGTACAGGTCGAATGTTAATGAATTATTCGCTACTTGAAAAGGGGAGTCCTCCATTAATTATAAGAGCAGAAGACAAGGGGGAATATGTAAACATACTAGCTAATAGTGATATAGCTAAGTTTACTGAGTTTGCTACTCAAAGAATACAAGAAGAGTCTAAACGTTTAGAACGTTTCATGAATATGAATGAAAAGGCAATAAAGTACAAAGAATCATGA MKKSKKYILTDDYLQDVLVRLAHHSSAIEGNTISLADTVSIILYDTIPGNTSKREYFEIENHREAFRYVIDHVANGEEMSITVIKDIHERLTDRLLVDKEQFKQSENAIFGAEFPTASPQETPILMKQWVDKLNYQLKHAQSQKDIISVVGDFHIQFERIHPFSDGNGRTGRMLMNYSLLEKGSPPLIIRAEDKGEYVNILANSDIAKFTEFATQRIQEESKRLERFMNMNEKAIKYKES NA NA NA NA NA AK015_04180 114 hypothetical protein ATGAAAGATATAGAATCAATTACAGTAACAGAAAAAATTGTTGCAAGTGAGAATCTCATGCATATAATAGGCGGAAACATTTATGGGGGATATTGTCAACGTAAACTATATTGA MKDIESITVTEKIVASENLMHIIGGNIYGGYCQRKLY NA NA NA NA NA AK015_04181 150 hypothetical protein ATGGGGGATATTGTCAACGTAAACTATATTGATAAAGCCCTTAAAGAAAAGAAATATTATTCATATTTGACGATAAACTTAAAGAATCTATATATGATGGTACAAATCCTTACTGATACAAAAGGGTGGTTCTATCGGTCAAATCAATAG MGDIVNVNYIDKALKEKKYYSYLTINLKNLYMMVQILTDTKGWFYRSNQ NA NA NA NA NA AK015_04182 681 yvcA_2 Putative lipoprotein YvcA GTGAAGAAGCAACGTTACATTTTTTTACTGTTATTACTTGTAATTTTCCTAGGAGGTTGTCAAATGGCAAGTGAAAAAACAAAGAAGCCTTCAGAAATGAACCCCGAGGACCTGCCTGATGTAAGAGCATTTCAAGATGAATTTACCCGAGGTTTTTTACAATCGACAGAAGAAACAAGACCTGGCTATTATCCATTTTTGTCCGGGACAGGTAAGTATGAAATGGATTTCCCTGAAGGTGGAATGATTGATAAAAGGGATTATTTTGCAGATGATAAAGAATACGAAGAATATTCTGTCCGCATTCCGAGTGACATTGTTGGAGGCGGAGACATAACAATTTTTTATTATTCTGATGACAGGACAGATGAATTAGATATGAATTTAGAAAGCTTCAATAGTAGGATTGGAGAAGATATAAATTATAAAAAGATAGCAGGAGATGGTCAATCACTTTATTATGGAAACATTGATAAAAGTGAATTTTATGCATACGCAGGATATGTACAAAATGAAACAGCTGATGGAGCACTTGAAATAGTTTACCAAATTGATTGTAGGCAAGAGCTAAAAGAAAAATGCAATAAAAACAAAACAGAAAATGAAAAATACGTTTTGGATTGGCTGAAAACGATCCGCTTTATAGATGAGAATAAGGAAGTGAACGGAGATGAGTCATAG MKKQRYIFLLLLLVIFLGGCQMASEKTKKPSEMNPEDLPDVRAFQDEFTRGFLQSTEETRPGYYPFLSGTGKYEMDFPEGGMIDKRDYFADDKEYEEYSVRIPSDIVGGGDITIFYYSDDRTDELDMNLESFNSRIGEDINYKKIAGDGQSLYYGNIDKSEFYAYAGYVQNETADGALEIVYQIDCRQELKEKCNKNKTENEKYVLDWLKTIRFIDENKEVNGDES NA NA NA NA NA AK015_04183 384 hypothetical protein ATGAACTTTATTAAAGAGGTTGAGTATATTTTTAATTACGAGATTGATGGAAAAACATTAACGCAGAGAGAACACCAATTCATTGACGATATAGAGGGTAGGCGCTATAGATGGGTAGACCCTGATGGGTGGGGGTATCCACAACCATTGGACTATGCTGGAACTGGAGCAGAATTCCAGCAAATAGAGGCTGAATTAATCGGAGAGTCTTTAGTGTACCAAGATGATAGAGAAGAAATTAGAGTAGTAGTTTTTGACTTAAAAGATGTTGACTCAGTAATGATCACTAATGTAACCAAAACGTACAGACAAGGAAATGCATTCTATGATTTTAATATATTTAATGTAACTAATTACCATAAGAAACTTGGAGGTAATGTATAA MNFIKEVEYIFNYEIDGKTLTQREHQFIDDIEGRRYRWVDPDGWGYPQPLDYAGTGAEFQQIEAELIGESLVYQDDREEIRVVVFDLKDVDSVMITNVTKTYRQGNAFYDFNIFNVTNYHKKLGGNV NA NA NA NA NA AK015_04184 1056 hypothetical protein ATGGATTTAAATCTTAATACTGGCGATCTGACAATGCGAAACGCCGACTTTACTATAGGCAACGGGGCGAGCATTAACTTTGAGGATGCAGGTAACACGATTACCTACCGTAAATATGACTCTAGTGTTGGATTTAGTCGATCCAGTGGTTTAGGTGTTGGGTTAGTAAAAGGTGGTTTATACCCATTTGCATACTTAGGTACAACAGGTGCTAGTGATTTAGACACGTTAAGCAAGTGGTATAGTGGCTTTATGGCTATGCCAACTGCTTATATTGCTGACGGAGCAGCTAACTCTGTAACAGGGTATCGGTTTGAAATGCGTAATACTGCTGTTAATTGGGATAAGGGTCTGGAGTTTGATTTTAATGGCGCTCCGACAATACGGCCAATAAACGGACATAAAACAAACTATTATATCGGCGAGGATAGTTATCGGTTTCATTGTATTTATGTTGATCAGGTTAGAGGTAAACAAGCCTTTAACATACAAAACTATTATAATAAGCGTAGTGGGTGGTATATAGAAACTAGTTATGCTGGAAATGGAACAGACATAACGATTAGGGGTATGTATGGGTCTGATTATAATTACCAAATTGGTGGTAATTCTGTGAGCAACGCCATAAGGAATATCTATTTACGAAATGTCCCACAATACCCATCAGACGAACGACTAAAAGAAGATATCGTTAATAATGAGTTAGGATTAAACTTTATAAATGATGTCCAAACCCTTGCTTATCGCCTTAAACAAAAACCATCAGAAAAAGAGCGGAACCAAATTCAATTCGGTATTGTTGCCCAACAACTAAAATCAGCTTTTGAAAAACATGGCGTAAATTTAGGGGAATATAGCATTATAAACATCGATGATGATGGTATGTACGGTGTACAAGAATCACAATTACTCTTCCCTGCAATAAAAGCCATACAGGAAGTAGATAAGAAATTGGATAACGAGGTCAACTGGCTAAAGATTGAGAATCAGTATTTACGTAATAAAGTAACCAAGTTAGAATATAGAGTAAATCAATTAGAGGAGATGATCGCATGA MDLNLNTGDLTMRNADFTIGNGASINFEDAGNTITYRKYDSSVGFSRSSGLGVGLVKGGLYPFAYLGTTGASDLDTLSKWYSGFMAMPTAYIADGAANSVTGYRFEMRNTAVNWDKGLEFDFNGAPTIRPINGHKTNYYIGEDSYRFHCIYVDQVRGKQAFNIQNYYNKRSGWYIETSYAGNGTDITIRGMYGSDYNYQIGGNSVSNAIRNIYLRNVPQYPSDERLKEDIVNNELGLNFINDVQTLAYRLKQKPSEKERNQIQFGIVAQQLKSAFEKHGVNLGEYSIINIDDDGMYGVQESQLLFPAIKAIQEVDKKLDNEVNWLKIENQYLRNKVTKLEYRVNQLEEMIA NA NA NA NA NA AK015_04185 762 IS3 family transposase ISSth1b TTGAAACATGAACCTACAGAAGGACAAAGGGAAAATGAGTGGCTCATGAAAAAAGTGAAAGAGGAATTCAGAAAGTATAACGGTAACTTCGGCTATCGTCGAATAACTATGGTGATCAATCGCAAATATAAGAAACAATATGACGAGAAAAGAATTAGACGCTTAATGATTCAAATGGGCTTAAAATCGCATATTCGTCGCTCGAATGGCTATTCCACAAAGACAAGCTATATCAGTATTGAAGAAAACATTTTGAATCGTGAATTTACTGCGGAGAATCCGAATGAGAAGTGGGTAACGGATATTACGCATATGACGTATGGCTTTGGTAACAAGGCTTATTTAAGTGCTATTAAAGATCTTTATGACGGTTCGATTGTCGCCTATCAGGTTGGGCGCTATAATGACAATCCTTTGGTTATGAACACGCTAAAAGAAGCTATAAAGGCAAATCCCGATGCAGCCCCTTTAATTCACAGCGATCGTGGTTCACAATACACATCAAAGGAATATCGTTATCTTACGGCAGAAGCTGGGATGAAACGTAGTATGTCACGTGTAGGTAATTGTATTGATAACGCACCAATTGAAAGCTTCTTTGGTCATTTTAAATGTGAAAGCTATGACTTAAAGAATTACAAGAACTTTGAGGAGCTAGAAAAAGATATTGATAAGTATATTACATTTTATAATGAGGAACGATACCAAAAGAGATTAAACAGCCTAGCACCATTAGAATACCGGCGCCAGACTGTGGCATAA MKHEPTEGQRENEWLMKKVKEEFRKYNGNFGYRRITMVINRKYKKQYDEKRIRRLMIQMGLKSHIRRSNGYSTKTSYISIEENILNREFTAENPNEKWVTDITHMTYGFGNKAYLSAIKDLYDGSIVAYQVGRYNDNPLVMNTLKEAIKANPDAAPLIHSDRGSQYTSKEYRYLTAEAGMKRSMSRVGNCIDNAPIESFFGHFKCESYDLKNYKNFEELEKDIDKYITFYNEERYQKRLNSLAPLEYRRQTVA NA NA NA NA NA AK015_04186 696 IS3 family transposase ISSth1b ATGTCTAAAAGAAGAAGTAAACATACGTTAGATGAAAGAATCGAGGCGGTATTACGTGTGATTGAGGGGATGGCGTCTGTCAGTACGATTGCTAAAGAATACGCTGTTGACCGTACTACGATTAACTCATGGGTGCGTAAATACGAAGCAGATGGGGTGGATGGTTTAAAGGAAGCGAGGACATGGAAGAAGTATTCCGGCGAACTGAAAAGGGAAGCTGTTGAATTTTATCTAAATGGAGAAGGCAGTCTGAGAATGACTTGTGAGAAGTTTAATATTTCATCTAATTCGGTTTTACGTCAATGGATAAACCAGTATACTAGTGGGAAAGAGATAAAATCTACTAGTAAAGGAAGAGAAACCATGACAAAAGGGCGTAAAACCACACTTCAAGAACGCATTGAAATTGTGCAATATACGATTGCGAACGAGCACAATTATCATGAGGCGGCTAAAAAGTATAACGTTTCTTATCAACAAGTATATAGCTGGCTGCGTAAATATGAAAAAGATGGGAAACAGGGTCTTCAGGATCGTCGTGGAAAAACACTAGAAACAAAGGCTAGCTTTACCGAAGAGGAGAAATTACAACTTCGTATTAAAGAATTGGAACACCGTAATCAGTATTTAGAGGCGGAGAATGGCTTATTAAAAAAGTTGAAGGAAATCGAAAGGGGGATGGGACAGCGCGACTAG MSKRRSKHTLDERIEAVLRVIEGMASVSTIAKEYAVDRTTINSWVRKYEADGVDGLKEARTWKKYSGELKREAVEFYLNGEGSLRMTCEKFNISSNSVLRQWINQYTSGKEIKSTSKGRETMTKGRKTTLQERIEIVQYTIANEHNYHEAAKKYNVSYQQVYSWLRKYEKDGKQGLQDRRGKTLETKASFTEEEKLQLRIKELEHRNQYLEAENGLLKKLKEIERGMGQRD NA NA NA NA NA AK015_04187 1221 IS256 family transposase ISDku1 ATGCAAGACTTTTTTCATGATAAAACCATTAAAGATTTGGTAAAAGAATGTCGTACTGTAGAAGATGTACAAGAGATGATGAAGCTTTTATTTAAGGATACCATTCAACGGGTATTTGAAGCTGAATTAGAGGATGAACTGGGTTATCAGAAACATAGTACCACTGGCAATAACACTGGAAATAGCCGAAATGGGTATAGTAAGAAAACGGTAAAATCTAAATACGGGGATACCGAATTGAATATTCCAAGAGACCGAAATGGTGACTATGAACCAAAGATTATTAAGAAGTATGAAACGACTATCAATGGAATAGAAGACCAAATACTGGGACTTTATGCAAAGGGGATGTCAACAAGAGATATTGAAAGCCAAATGCAGGATTTATATGGGCTTGATATTTCTCCGACCATGGTTAGTAAAGTAACCGATAAGATTATGCCTCTCGTCAAAGAGTGGCAATCACGCCCTCTTCATCGGGTTTATCCAATTGTTTATTTGGACGCAATCCACTTTAAAGTACGAGATGGAAATAGGATCGTAAATAAAGCTGCATACAGTGTTTTAGGAATTAATATGGATGGTCAAAAAGAGATACTCGGCATTTGGATAGGAGAAAATGAAAGTGCTAGTTTTTGGTTGGGCGTATGCACAGATCTTAAAAATAGAGGTGTAGAAGATATTTTAATTGCATGTAAAGACGGGCTTTCAGGCTTTTCAGAGGCAATTAGTTCTGCGTTTCCTAAAACAGAAATACAGCTATGCGTCATCCATCAGATACGCAATTCCATGAAATATGTCTCCTATAAGGAACAAAAAGAGGTAATGAAGGATTTAAAGAAAGTCTATCAAGCATTAACCTTAGAAGAAGCCGAATTGGCCTTCACTGCTTTCAAAGAAAAGTGGGAAAAAAAGCATCCAATTATTATTCGATCCTGGGAACAAAACTGGTTAGAATTAACCGCCTATTTCAGTTACCCTAGGGAAATTAGAAGAATTATATACACGACGAACATTATTGAAGGGTATCATAGACAACTTAGAAAAGTCACAAAAACAAAATCTGCTTTCCCGTCTGATGATGCATTAAGAAAAATGATATATTTGGCAACCATGGATATTACTAAAAAATGGACTATGCCAGTACAAGGATGGAAAGAATGTATATCACAGCTAGCCATTCATTTTGGAGAACGTCTAGAAACCGAACTTGCATTATAA MQDFFHDKTIKDLVKECRTVEDVQEMMKLLFKDTIQRVFEAELEDELGYQKHSTTGNNTGNSRNGYSKKTVKSKYGDTELNIPRDRNGDYEPKIIKKYETTINGIEDQILGLYAKGMSTRDIESQMQDLYGLDISPTMVSKVTDKIMPLVKEWQSRPLHRVYPIVYLDAIHFKVRDGNRIVNKAAYSVLGINMDGQKEILGIWIGENESASFWLGVCTDLKNRGVEDILIACKDGLSGFSEAISSAFPKTEIQLCVIHQIRNSMKYVSYKEQKEVMKDLKKVYQALTLEEAELAFTAFKEKWEKKHPIIIRSWEQNWLELTAYFSYPREIRRIIYTTNIIEGYHRQLRKVTKTKSAFPSDDALRKMIYLATMDITKKWTMPVQGWKECISQLAIHFGERLETELAL PGPT0030665_1698 DIRECT EFFECT COMPETITIVE_EXCLUSION|CE CE-BACTERIAL_FITNESS CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493 NA NA AK015_04188 561 hypothetical protein ATGGGTGTACATATTATGCATGATGTAGAAAAAAACCAAGACTGGGTAGAAGTCAAAGGGGATTATGAGCAGTTTTATGTGTATGGTGATAATGAAGATTATGTGGAAGATACTAAGTTGCTAATGCAAAAGATGGCAATTACATGTTTTACATTTCCACTTTATGTTCATTTCGAAGGATATGAAGATGAAGTGGAGTCGGTATTGTCCCATCAGGATACATTTGACATTTATTATCAACCATCAGGGAGAAAGGTTCTTACGATGTCTGGATTGAAGATTTATCGTGCAGAGATACCGTCTTTTATGGTTACCATCCCCAACAAGAAAGCATTAGAAAATGTATTTTCTCAGTGGTTTCACTTGGCAATGGAAAATAATATGTGGTTAATATCACAAGAAGCAAATGTATTATACTATGAAAATAAATTTGCAACTATTGAATTGAAAGATCAAGCTATTATTTTGGTCACCGAACACGATGCACAAGGATTTTCAGTTATCACCAATTATCCTTTGTATCAAGATTTAGAATATTTGCGATTAATTTTTGATAAGTAA MGVHIMHDVEKNQDWVEVKGDYEQFYVYGDNEDYVEDTKLLMQKMAITCFTFPLYVHFEGYEDEVESVLSHQDTFDIYYQPSGRKVLTMSGLKIYRAEIPSFMVTIPNKKALENVFSQWFHLAMENNMWLISQEANVLYYENKFATIELKDQAIILVTEHDAQGFSVITNYPLYQDLEYLRLIFDK NA NA NA NA NA AK015_04189 387 hypothetical protein ATGAATAGGAAACTCAAACAACTCGCTGTGAACTTTATAGCCATGCCTCTTGCAATAGCTGTATTTAAACACGACCAACAATATTTTGATGGTTTTCACGATCCCGACTTTTATCTGGACTTTACGGATGAAGCCATTAGACTTATTGGAATAGATTTAGCTGCCACTAAAAGGCAACTGTATAGCCAATACCATTTGGATATTAAAAGGATTGGCAAAACCACATATAAGTGGCAGCATAAAAATAAAACCGGGGTTTGGGAATATACGCCAGATCAACTGCGAGAAATGACCGCTGAAATTTGTACCAGATATTTATATAAGGCTGTGGGCTTTGAGCAACAGAGAGCGACTTATGTTAATTTTATGCCACCGGATGTGGAGTAA MNRKLKQLAVNFIAMPLAIAVFKHDQQYFDGFHDPDFYLDFTDEAIRLIGIDLAATKRQLYSQYHLDIKRIGKTTYKWQHKNKTGVWEYTPDQLREMTAEICTRYLYKAVGFEQQRATYVNFMPPDVE NA NA NA NA NA AK015_04190 165 hypothetical protein TTGAAAGAGGCTTATATACAAAGGATTCTAGGAAATGGTACTTTTTTTATATTTGCGTTTTTAACTGTTAAATTAAGCGGTAGAACCTTGCTAGAAAGTTTTATAGTATCTTTAATGGCGTGGGGCATTTTTAAATTAGTGACATCCAAAAAAATGAAATTATAA MKEAYIQRILGNGTFFIFAFLTVKLSGRTLLESFIVSLMAWGIFKLVTSKKMKL NA NA NA NA NA AK015_04191 522 IS3 family transposase ISBth10 ATGGCTAAATTCACCAATGTTGAAAAAATACAAGCAGTCATTCGCTATCAAAGTGGTGCAGAAGGCGTAAAGTCAATGGCTAAATCCATAGGAGTTGACCATTCAGTCCTCTTAAATTGGATTAAACAATATGAATATCACGGAGAAAAAGCTTTTGAAAAATGCTATACATCTTACACATTGCAGTATAAACTAGATGTACTTAATTATATGAACGAACAAGGGACATCTATCCGGGAAACAGCAGCGATCTTTAATATTTCTACACATTCCACGCTTTTACAATGGAAAAAGCAATTGGAAGCAGAAGGAATAGATGCCCTAGAACCAAAGAAAAAGGGGCGTCCATCCATGAAAAAAAGTTCTGATCATACATCTAAAAAGCAAAAGCCGGATGAAGGGACTCCGGAAGCATTACAAGCAGAAATAGATCGTTTACGCATGGAGAATGCCTATTTAAAAAAGTTGAATGCCTTAGTTCAAAACAAGGAGAAATTACCAAACAGGACAAAGCGCAAGTAG MAKFTNVEKIQAVIRYQSGAEGVKSMAKSIGVDHSVLLNWIKQYEYHGEKAFEKCYTSYTLQYKLDVLNYMNEQGTSIRETAAIFNISTHSTLLQWKKQLEAEGIDALEPKKKGRPSMKKSSDHTSKKQKPDEGTPEALQAEIDRLRMENAYLKKLNALVQNKEKLPNRTKRK NA NA NA NA NA AK015_04192 828 hypothetical protein GTGAAAAGATATGGAGCTAATAATATTACCTTTGTTGGTCACTCATTAGGCGGTGGACTTGCTCAATATTATGCTGTGGAATATGATTCGAATGCTATTACCTTCGCTGCGGCGGATGTCTTTGATTTATTATCTGAAGAAAATCAAAAGCGAGCATTAAGTGGTGAGTTTAAGGATAATGTCATTTCTTACACCTACCCGGATGATGCTGTAGGAACATTCTATAAAGATTCGATAGGTTCTGTTTACTATATGGGTAATCCGGCAGAAGGAGGCGGGGGATTAAGTAGCCACGGCATTAAGAATTATATGGACAATAGTATGTATGATGAGAAAGGCTATTTCTTGCCTCGGCTATTATACGATGAAAAAATACAAGATCAATTAACGATGTCTCCCCTAGTTTTGAAAAATAGTGGTGTTTCTGACTTTCATATTCGTATCCAGTCCAGTTTAATGGATGGTTATGTTATTGAGATGAAGGAAAGTGAGGAACAAATTGCAGCCACAAGAAAGGCATTGACACATTTTCTCGATGACTATATAACAACGATGATAGAGTTGAAGCGTAAATACATGAATGCTGTCGGTTTTGGCAAGTATGATAAGTTAAATGCTTCTCATGTAGAGGAAATCTTCCGTCATCTAACAGGTGTTGGTCCAGAAGGATTGCCCATGTTATTGGATATCGGTGAATTTGAAGAATTATTGACCAAACTTCAAAAATCCCAATTGGATACAGGAGACATTGCTTATAATATGGATAAAATGAGCAAGGACTTTACCCATATGGATCAATTACTTGCTCAATGGTTACAACTTAAATAA MKRYGANNITFVGHSLGGGLAQYYAVEYDSNAITFAAADVFDLLSEENQKRALSGEFKDNVISYTYPDDAVGTFYKDSIGSVYYMGNPAEGGGGLSSHGIKNYMDNSMYDEKGYFLPRLLYDEKIQDQLTMSPLVLKNSGVSDFHIRIQSSLMDGYVIEMKESEEQIAATRKALTHFLDDYITTMIELKRKYMNAVGFGKYDKLNASHVEEIFRHLTGVGPEGLPMLLDIGEFEELLTKLQKSQLDTGDIAYNMDKMSKDFTHMDQLLAQWLQLK NA NA NA NA NA AK015_04193 966 IS3 family transposase IS120 ATGCCACAACTATTTGAGAGAGAGAATAAGAAAATCGACCAAATGAAGGAGGAGTACGAAGATCAAATAGAAAATCTCTACGCAGAAGTAGGGCGACTTACCACGCAATTGTCTTGGCTTAAAAAAAATCTGGAATCAAAGACTAGAACAGAGCGTCTAGACATGCTGGATTGGAATGGTTCAGAGCTTTCCATAAAGACCCAGGCAGAGCTGTTGAATCTTAATCGCTCAAGTCTATATTATAGGCCTGTAGAGCCTTCTCCAGAGGAACTCCGTATCAAAAATAGAATCGATGAGATATACACAGAATGTCCTTTTTATGGTTCCAGACGCATCTCAGAAACCCTTAAACAAGAAGGACGCATTGTTAACAGAAAGGCTGTACAACGGCACATGAGAGAAATGGGTATTGCAGGGATATCCCCCGGCCCAAATCTTAGTAAACGGAATCAGCAGCACAGAATTTATCCTTATCTATTAAGAGGGTTAACCATCCAATATCCCAACCACGTATGGGGAATAGATATTACCTACGTGCGTCTTAAACGGAGCTGGCTTTATTTGGTTGCCCTTATTGATTGGTGTTCTCGCTATGTGATCAGTTGGGAGCTGGATCAAACATTGGAAATGGATTTCGTTATAGAAGCCGTCCAACGTGCGCTTTCCCAAGGGAAACCAGTCATTTTAAATAGTGACCAGGGCAGTCATTTTACTAGCCCTAAATATATTAATCTATTAAAACAGAATGAAGTTAACATTAGTATGGATGGCAAAGGACGTGCTCTAGACAACATCATTACGGAACGACTTTGGCGCACCATCAAATACGAAGAAATTTATCTCAAAGAATACAACAGCCTCAGAGAGGCTAGACAAGAAATTCGAAACTATTTTGCATTCTATAACCAAAAGCGACTACATCAATCGCTAAATTACCAGACACCTGAGTTTGTTTATTATTCATAA MPQLFERENKKIDQMKEEYEDQIENLYAEVGRLTTQLSWLKKNLESKTRTERLDMLDWNGSELSIKTQAELLNLNRSSLYYRPVEPSPEELRIKNRIDEIYTECPFYGSRRISETLKQEGRIVNRKAVQRHMREMGIAGISPGPNLSKRNQQHRIYPYLLRGLTIQYPNHVWGIDITYVRLKRSWLYLVALIDWCSRYVISWELDQTLEMDFVIEAVQRALSQGKPVILNSDQGSHFTSPKYINLLKQNEVNISMDGKGRALDNIITERLWRTIKYEEIYLKEYNSLREARQEIRNYFAFYNQKRLHQSLNYQTPEFVYYS NA NA NA NA NA AK015_04197 672 hypothetical protein GTGCGAGGCACTGGGAACTTTATCACACAAATCGGCGGGGACATTGCAGCAGCGCTAAAAATAAAGGGACATATTAACGCGATCAAAGATAGTCTCAAAGTGTTAAATCAAGAAGATCTTCTGAAGGTTTTAGATGAGTTAAAGGCTAGCCATAGTATTATGGAAGTTTTAAGTGGTTTGTCGCATGGTAAAAAATCTTATTTAGGAACAGATATGCTTTTTACTACCAATCATGGGAATAAAGAAATAAAAGTGAATATTTCAGCCGCTTTGCGTATGTATCAAGAAGGAAAAACCGTTTTAGAAGAAAAGCTATCTAAGATTCGTCAGTTTCAAGCAGCAATAGATAGAGAAATTCCCAAATCCTATGACAGAAACAAATATAAAGTGATGCGCAAAATAGATGACATAGAGGCAAATCCTAGTGTATATACACATATTCTTAGAAAGCATCTTTACTTTTCACGATTAGATAAAAAAGTAAGGCGGATTCAAGTCCACGACGTATTTTTCCCATTAGAACATACGAACCTAGATGAAGAAATATACGAACTAAAGCAAAGTGTACAAAAAAGCTATACATATATTGAAAATTATCGCAAAGCCATCGAAGATTTGTTTACGGAAGAAAAAGAAGTCGCTACTTTATTTCGATTAGTAGAGGGAGAATGA MRGTGNFITQIGGDIAAALKIKGHINAIKDSLKVLNQEDLLKVLDELKASHSIMEVLSGLSHGKKSYLGTDMLFTTNHGNKEIKVNISAALRMYQEGKTVLEEKLSKIRQFQAAIDREIPKSYDRNKYKVMRKIDDIEANPSVYTHILRKHLYFSRLDKKVRRIQVHDVFFPLEHTNLDEEIYELKQSVQKSYTYIENYRKAIEDLFTEEKEVATLFRLVEGE NA NA NA NA NA AK015_04208 234 IS3 family transposase ISBth10 TTGATTACGCAAAGTATGTCACGTAAAGGCAACTGTTATGATAATGCCGTTATTGAAAACTTCTTTGGCATTATGAAATCAGAATTTCTTTATTTAAATGAATTCGAAAGTATAGAGCATTTTAAGCAAGAGCTAGAAAAATATATAGAATACTATAACAACAAACGAATCAAGGCAAAACTAAAAGGCCTGAGCCCGGTACAATACCGAATTCAGACTTTAATAGCTGCTTAG MITQSMSRKGNCYDNAVIENFFGIMKSEFLYLNEFESIEHFKQELEKYIEYYNNKRIKAKLKGLSPVQYRIQTLIAA PGPT0021996_14 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